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
BMS020_00001	186			hypothetical protein	ATGACCGATCCGGGCGACGAGCTGCAGGCCTCCCATCCGCTGCGCGATGCCAGCGTGGTGGTGGAAGATATCGAGGACAACCCGGGCTTCTTCCGCGTGAAGCTGTACGCCGTGCCGCACTTCCAGGTCGAGGGGCTGGACGTCAATCTGTCGCTGGTCAGCCAGATGCCGAAGGCGAAGGCGTAG	MTDPGDELQASHPLRDASVVVEDIEDNPGFFRVKLYAVPHFQVEGLDVNLSLVSQMPKAKA	PGPT0025920_1546	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025920-impC-K11900	NA	NA
BMS020_00002	1344			hypothetical protein	ATGATGAAAACCGAACGTCCGTTATGGGGCCGGGGCATTATGGTGTCGCCCCAGCATTTTCAACAGCAGGCTGCGTATGCCGCCTGGGCTGCGGAAGCGATTGCCCGGATGGGCCTCAACCACCCCTGGGGAGTGGTTGAGGCGACCTTCGAACCAGAGATGCTCAAACTGGGACGCCTGCAGGCTCACAGGCTGCAGGTCCGGTTCCAGGATGGCACGATGATTGATACGGACAATGCCGATGCGCTGCCGCCGGCTTTGTCGCTGGAGGGCGAATCCCGCACGGGAGTGGTGATGCTGGCGCTGCCTCTGATGAAGGCCAATGGCGGCAACTGCCTGAAGCCTGATGATGTGGCCGACAGGCCGGTGCGCTTCCGGCAGCGCTGGCGCGATGTCCGCAACCAGTTCGGGGATGATACCCGGCAGATTGCCGTCATGCAGCCGGAGCTGTCCCTCCGTTTCGCCCATCAGGATAACAGCGATTACCTGACCTGTCCGGTGGTACGCCTGCTGCGGGATTCGCAGGGGGCCTGGCTCATCGACGAGACGTTTCTCCCGCCGCTGCTGCAGATTCAGGGCAGCCGCTGGCTGGCGACGCAGCTTGAACTGCTGCTTACTCAGCTCCGGGCTCGTCTGACGCGCCTGATGGCCATGCGTCGCGAGAGCAATGAACGGATGGCTGATTTTGCCGTGGCCGATGTCTCTCTGTTCTGGTTGCTGAACGCGCTGAACAGCGCTGAGCCGGTGCTGGGTTATTTTCTGCGTTACCGGCAAAGCCCGCCGGAACGCCTCTATCCGGAGCTGGCGCGCTTGGCTGGCAGCCTGCTGACCTTTTCGCTGACCCATCAGGCGAATGCCGTCCCGATCTATCAACATGACCAGCTGAACGCGGTTTTTCCGCCGCTGTTTGATTTACTCAGCGACCTGCTGGAGGCGAGCCTGCCGTCGCGGGTGGTAGCGATTGCCCTGGAGCATGATGCCCGGCTGCACTTCTGGCAGGCGCGTCTGCACGATGCCCGGCTGCGGGAAGGGGCGGATTACTATCTGTCGGTTCGTTCGTCGGTACCGGTCGCTCAGCTGCAGGAACAGTTTCCGCGGCAGTGCAAAGTGGGCAGTCCGGATCATGTCAAAGCCATCGTCAACTCCTCGCGGACAGGGGTGCCCCTGACGCCTTTGCGTCATGTGCCGGCGGCGATCCCGCTGCGTCTGGAAAACCAGTATTTCAGCCTCGATGTGTCCCATCCTCTGGCGACGGAAATGCTGCAGAGCGGTACCTGTATGTTCTACGTCCCGGGGATGCTTGGCGAGCCTGAACTTGAACTTTTTGCGGTACTACGAACGTGA	MMKTERPLWGRGIMVSPQHFQQQAAYAAWAAEAIARMGLNHPWGVVEATFEPEMLKLGRLQAHRLQVRFQDGTMIDTDNADALPPALSLEGESRTGVVMLALPLMKANGGNCLKPDDVADRPVRFRQRWRDVRNQFGDDTRQIAVMQPELSLRFAHQDNSDYLTCPVVRLLRDSQGAWLIDETFLPPLLQIQGSRWLATQLELLLTQLRARLTRLMAMRRESNERMADFAVADVSLFWLLNALNSAEPVLGYFLRYRQSPPERLYPELARLAGSLLTFSLTHQANAVPIYQHDQLNAVFPPLFDLLSDLLEASLPSRVVAIALEHDARLHFWQARLHDARLREGADYYLSVRSSVPVAQLQEQFPRQCKVGSPDHVKAIVNSSRTGVPLTPLRHVPAAIPLRLENQYFSLDVSHPLATEMLQSGTCMFYVPGMLGEPELELFAVLRT	PGPT0025950_699	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025950-impJ|vasE-K11893	NA	NA
BMS020_00003	690			hypothetical protein	GTGAATGAACGTCAACGCGGCAACGCCGCGTCCATTGATATCGATGCGCTGCTGCAAAACACCTGGCTGCAGGTTATCAGCCTGCGCCATGGCCCGCAGTTCCGCGATGAGGAGGGGTACACGCTATGGCAGCGGTGTATTGCTGATGTCGAGCGCGTGCAAACTGAGCTGAAGGCGAGCGGGCTTGATGACGTCAGCTGTCAGCATATTCTCACCGCCCAGTGCGCGCTGCTCGATGAAGTCGTGAAAGGGCGCGGCGTGGAGGATGATGCCTGCCTGCAGTGGTATGACATTCCGCTGCAGGGGCATTTTCTCGGCACCATGGACGCCGGCGACACCCTGTGCGAGCGGATGCGCGAGGTTCTGCATGATCCGACGCCCGACCTGGCTGTGGTCACCTGTTTTCAGCGAGTGATGCTGCTGGGTTTTGTTGGCAGCTTTCGCTCCCTCCACGACCCGGAGCGCCTGAAGCTGGTCAACGCGCTCAGTGAACATGTCCCGCCTTTCCGTTGTCCGCAGGGCGCTCCGGTGCTGATAGAGAGCCGCGCCGGACTGGGGATAAGCGGCTGGTTGGCCTCCTGGCCGGTACGTGCAGGGCTGAGCGTGGCGGTGATCGTGGCTCTGTGGTGGGGATTGAACCACTGGCTCGATCATCTGCTGCTGACCCTGCTGCCGGGGGAGGTGAAATGA	MNERQRGNAASIDIDALLQNTWLQVISLRHGPQFRDEEGYTLWQRCIADVERVQTELKASGLDDVSCQHILTAQCALLDEVVKGRGVEDDACLQWYDIPLQGHFLGTMDAGDTLCERMREVLHDPTPDLAVVTCFQRVMLLGFVGSFRSLHDPERLKLVNALSEHVPPFRCPQGAPVLIESRAGLGISGWLASWPVRAGLSVAVIVALWWGLNHWLDHLLLTLLPGEVK	PGPT0025955_1342	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025955-impK|ompA|vasF|dotU-K11892	NA	NA
BMS020_00004	1707	ompA_1		Outer membrane protein A	ATGAGCCCCGCCCAGCAGCGCGGGCTGGCGCTGTGGGCAGGCTTGCTGAGCGCGCTGGTGTGCCTGCTATTTTTGCCGGTTCCCCGCTGGGGGGCGTGGCTCATTCTGCTGGTCACGCTGGCCCTGATTATCGCGATCTGGCGTATTGCCCGTCGTGGTGCCGAACGTCACGTCTCGTCAACCCTGCACGAACTTCCGACGATCGCTTATCGCCAGCCGGTAGTCCTCGTTTGCGGCGATCTGCCGTGTGTCTGGCCGCAGCCGTCCCCGGTGCGGGTCGTCAAACAGGGCTGCTGGATCCGAGTGGAAAAGACGGATGATCTGCCGCAGGTCGCGCGCCAGATATTGAGCCAGCGACCGGAGTGGGGGCCTCAGCTGTCGGTGCTGCTCTGCGTCTGCCCGCAGCGGCACGCGCAAAGCGACGCGCTGACCAGCGCCCTGCTGGCCCTGCGCTGGCAACTCAGCCAATTGCGGCAGCAGACGAGGTATGCCGTACCGCTGGCGCTGCAGGGGCAGGTGGGCAGCGCGATGAGCCCCAGTCTGCTCTGGCAGGCGGCGATCCCGGGTGAGGCGGTGAAAGTCTGGCAGCCATCCTGCGCCCCCTGTTCTGTGGCGACCTGGTTGAGCGTCGGCGGCGCGGCGGCGCTGCAGCAGCAGGTGTTGATGAACAGCCTGATGGGCTGGTTCGAACGGCACGTCCTTGCCGTGTTAACGGAGGAGAATGCCGACCTGCCACCCTTGACCCCAGCGGCCGTACTTTGGGGGATCGGACCCACCCATGCCGGGAGCCTGGCGTCGTCGGCATGGACGAGGTGGTTATCCCGGCATACCGGCCTGACGCGGGTAGCTGGCTGGCAGCCAGGCGAGACCGACACCCCGGATGCGTCATCCTTGCCGGATTTCATCCTGTCGCAGTTACCGGCGGGACGGGGGCTTACGCCATGGGGCAGGGCCTGGCGCGCGGCGCTCGCTGTTTTCACTCTTGCGGCTGTCGCCGCGCTGCTCAGCAGTGGCTGGAACAATCGACAACTGCTGCAGCGCGTGGGCGCTGATATTGCCCGTTATGAGCGGATCGCGATGGATGATTATGGGGCAAAAGCCAGTGCCGTCAGGGTGCTGCGTGAAGATGCCGCGCTGCTGGATAGCTGGGCGCGTAACGGCGTCCCGCTGCGCCTGAGTCTTGGCTTATATCGCGGGGAGCGGATTCGCCTGCCGTTGCTGGAGGCTATTCGCCGCTACGTGCCGCCACCACCGCCCCCCAGGCCGGTGCAGCGCGTCGCGCCGCACGTCATCCGCCTTGACAGCATGTCGCTGTTCGATACCGGGAAATGGGTACTGAAACCCGGTTCGACAAAGCGGCTTGTCCACTTGCTGGTGGACATTAAGGCCAGGCCCGGGTGGCTTATCGTGGTGGCCGGCCACACCGACAGCGTCGGTGAGGAAAAAGCCAACCAGCTATTGTCGCTGAAACGCGCGGAATCGGTCCGCGACTGGATGCGCGATACCGGCGACGTGCCGGATAGCTGCTTTGCCGTTCAGGGCTATGGCGAAAGCCGCCCAATTGCAACAAACGACACGCCGGAAGGCCGGGCGCTGAACCGACGTGTCGAAATCAGTCTGGTGCCGCAGGTCGACGCCTGCCGGTTACCGGACAAACCCTCTGCGTCATCCCAGGATGATGGCGCTTCACTACACAATGGAGAGTAA	MSPAQQRGLALWAGLLSALVCLLFLPVPRWGAWLILLVTLALIIAIWRIARRGAERHVSSTLHELPTIAYRQPVVLVCGDLPCVWPQPSPVRVVKQGCWIRVEKTDDLPQVARQILSQRPEWGPQLSVLLCVCPQRHAQSDALTSALLALRWQLSQLRQQTRYAVPLALQGQVGSAMSPSLLWQAAIPGEAVKVWQPSCAPCSVATWLSVGGAAALQQQVLMNSLMGWFERHVLAVLTEENADLPPLTPAAVLWGIGPTHAGSLASSAWTRWLSRHTGLTRVAGWQPGETDTPDASSLPDFILSQLPAGRGLTPWGRAWRAALAVFTLAAVAALLSSGWNNRQLLQRVGADIARYERIAMDDYGAKASAVRVLREDAALLDSWARNGVPLRLSLGLYRGERIRLPLLEAIRRYVPPPPPPRPVQRVAPHVIRLDSMSLFDTGKWVLKPGSTKRLVHLLVDIKARPGWLIVVAGHTDSVGEEKANQLLSLKRAESVRDWMRDTGDVPDSCFAVQGYGESRPIATNDTPEGRALNRRVEISLVPQVDACRLPDKPSASSQDDGASLHNGE				NA	NA	NA	NA	NA
BMS020_00005	492	hcpA_1	COG3157	Major exported protein	ATGGCAATTCCTGTTTATCTTTGGCTGAAAGACGACGGCGGCGCGGACATTAAAGGGTCTGTCGACGTTCAGGATCGTGAAGGCAGTATCGAAGTGGTGGCCCAGGAGCATAACCTGTACATCCCGACCGATAACAACACCGGCAAACTGACCGGCACGCGGATCCATACGCCTTTCCTGTTCACCAAGGAGATCGACTCCTCCAGCCCCTACCTGTACAAGGCGGTGACCACCGGTCAGACCCTGAAATCCGCCGAGTTCAAGTGGTATCGGATCAACGATGCTGGCCAGGAAGTGGAGTATTTCAACACCACGCTTGAGAACGTCAAGGTGGTGAAAGTGAATCCTCTGATGCACGACATCAAAGACCCTGCCTACGAGAAGCACAACCATCTGGAACAGATCGAGCTGCGCTACGAGAAGATCATCTGGACCTATAAAGACGGCAACATCATTCATTCCGATAGCTGGAACGAACGCGCTACCGCGTAA	MAIPVYLWLKDDGGADIKGSVDVQDREGSIEVVAQEHNLYIPTDNNTGKLTGTRIHTPFLFTKEIDSSSPYLYKAVTTGQTLKSAEFKWYRINDAGQEVEYFNTTLENVKVVKVNPLMHDIKDPAYEKHNHLEQIELRYEKIIWTYKDGNIIHSDSWNERATA	PGPT0025980_924	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0025980-hcp-K11903	NA	NA
BMS020_00006	2655	clpV1_1	COG0542	Protein ClpV1	ATGGAAAATCCAGCCAGCCTGTTACGCCGTCTTAACCCCTGCTGTGCCCGCGCGATGGAGGAGGCGGCCTCGCTGTGCCAGTCCCGGGCGCACGCTGAGATCCTGCCCGAGCACTGGCTGCTCAAGCTGCTGGAACAGGGGGAAGGCGATCTGACGGTGCTGGCGCGGCGCTACGAATGGGATATGGATGCGCTATGGCAGGATCTGCTTAGCTGGCTGGATAAACAGCCGCGCTCGGTACGTCATCGTCCTCAGCTATCTGGCGCTATCCTGAAGCTGATGCAGGAGGCCTGGCTGATTGCCTCGCTCAGCGGCGAAGCGCAGATCCGCAGTGTTCATCTGTTGATGGCGCTGGTAGCAAAACAGAATCTGATCCAGTGCGATGGCCTGTGGCCGCTGTTAACCCTGGGCCAGAGCCAGCTGGAACGCCTGCGCCCCCTGCTGGATACCCAGTCCGACGAACGTCCGCAAGCGCAGCAGGAGACTGCGCTGGCGCAGCGTCATGGCGGGGACGTGGAGTTTGTGGGGCGTACTGCGGACGGGGTACCGAACGCGGATGGGCCCAACCCGGCGCTGCAGAACGCCCTCGACAAATTTACTCTCGACGTCACTGCCAAAGCCAGAGACGGGCAGATTGACCCGGTGTTCGGACGTGACACGGAAATCCGCCAGATGGTGGATATTCTCTCCCGGCGTCGTAAAAACAACCCGATCCTCGTCGGTGAACCGGGCGTGGGCAAGACCGCCCTTGTGGAAGGCCTGGCGCTGCGCATTGCTGAAGGCAACGTCCCCGACGCGCTGAAGCCGGTGTCGGTGCGCACCCTGGACCTCGGATTGCTGCAGGCCGGCGCCGGGGTAAAAGGCGAGTTCGAGCAGCGGCTGAAAAATATCATTGAGGCGGTGCAGCAGTCGCCTGGGCCGGTGCTGCTGTTTATCGACGAGGCGCACACGATTATCGGCGCGGGCAATCAGGCCGGCGGGGCGGATGCCGCCAACCTGTTAAAGCCGGCGCTGGCCCGGGGGGAACTACGGACCATCGCCGCCACCACCTGGCGTGAATACAAGCAGTACTTCGAGCGCGATGCCGCGCTGGAGCGCCGCTTTCAGATGGTCAAGGTGGATGAGCCGGACGACGACACCGCCTGCCTGATGCTGCGCGGCCTGAAGCCCCGGTATGCCCACCACCACGGGGTGCATATCACGGATGACGCGGTGCGTGCCGCCGTGACGCTGTCACGACGCTATCTCACCGGCCGCCAGCTGCCGGACAAGGCGGTGGATTTACTCGACACCGCCTCCGCCCGCCTGCGCATGAGCCTTGATACCGTGCCAGAGCCGCTGACCCGCCTGAAGGCGCAGCTCACCGCGCTGGCGATGGAGAAGCAGGCGCTGCTGGAGGATATCGCGCTGGGCAACAGCGCCCACGGCGAACGGCTGGCGTTCATTGAGCAGGAGGAGAACCGCCTTATCCTGGCGCTGGATACCCTCGAAACCCAATATGGTCAGGAGCTGCAGCTGAGGGAGGCGCTGCGGGCATGTCGTCGCGATATCTCCCGCCAGGGGGAAATCAACGACCTGCAAAACGCGCTTACTGCCGCCCAGCACGGCAATCCGCTACTCGGGCTGGACGTCGACGTCCGCACCGTGGCGACGGTGATTGCCGACTGGACCGGCGTGCCGCTCTCCTCGCTAATGAAGGATGAGCAGACGGAGCTGCTGAGCCTGGAACAGAGTCTCGGCAAACGGGTGGTTGGCCAGGAGGCGGCCCTGAGCGCTATTGCCCGGCGCCTGCGCGCCGCGAAAACCGGCCTGACGCCGGAGAACGGTCCGCAGGGGGTGTTCCTGTTGGTCGGGCCGAGCGGCACCGGCAAAACGGAAACGGCGCTCGCCCTCGCCGATGCGCTGTTCGGCGGCGAGAAAGCGCTGATCACCATCAATCTCTCCGAGTACCAGGAACCGCACACCGTCAGCCAGCTGAAGGGTTCTCCGCCGGGCTACGTCGGCTACGGCCAGGGCGGGATCCTGACCGAGGCGGTGCGCAAACGCCCCTACAGCGTGGTGCTGCTCGATGAGGTGGAAAAGGCCCATCGCGATGTGATGAACCTGTTCTACCAGGTCTTCGACCGGGGGGTAATGCGCGACGGCGAGGGGCGTGAAATCGACTTCCGCAACACCGTGATCCTGATGACCGCCAACCTTGGCAGTGACCTGCTAATGCAGCTGCTGGATGAACAGCCTGAAGCCAGCGAATCAGACCTGCACGAGCTGCTGCGCCCGGTGCTGCGCGGTCACTTCCAGCCGGCGCTACTGGCCCGCTTCCAGACGGTGATTTACCGTCCGCTGCCGGCGGCAGCGCTGCGCGCCATTGTCGACATGAAGCTCGGGCAGGTGAGTCAGCGTCTGGCTTGCCATTACGGGATGAACACCACCCTCAGCGAGAGCCTGTTCGACGCGCTGACCGAGGCCTGCCTGCTGCCGGACACCGGCGCCCGCAACGTCGACATTCTGCTCAATCAGCAGATCCTGCCGGCGCTGAGTCAGCAGCTATTGAGCCATATGGCGGCGGGGCATAAACCCAACCATGTGACGCTGGGGTATCACGAAGAAGAAGGCATCGTGATGGCGTTTGACGAGGGGGCAATCGCCGATGAGTAG	MENPASLLRRLNPCCARAMEEAASLCQSRAHAEILPEHWLLKLLEQGEGDLTVLARRYEWDMDALWQDLLSWLDKQPRSVRHRPQLSGAILKLMQEAWLIASLSGEAQIRSVHLLMALVAKQNLIQCDGLWPLLTLGQSQLERLRPLLDTQSDERPQAQQETALAQRHGGDVEFVGRTADGVPNADGPNPALQNALDKFTLDVTAKARDGQIDPVFGRDTEIRQMVDILSRRRKNNPILVGEPGVGKTALVEGLALRIAEGNVPDALKPVSVRTLDLGLLQAGAGVKGEFEQRLKNIIEAVQQSPGPVLLFIDEAHTIIGAGNQAGGADAANLLKPALARGELRTIAATTWREYKQYFERDAALERRFQMVKVDEPDDDTACLMLRGLKPRYAHHHGVHITDDAVRAAVTLSRRYLTGRQLPDKAVDLLDTASARLRMSLDTVPEPLTRLKAQLTALAMEKQALLEDIALGNSAHGERLAFIEQEENRLILALDTLETQYGQELQLREALRACRRDISRQGEINDLQNALTAAQHGNPLLGLDVDVRTVATVIADWTGVPLSSLMKDEQTELLSLEQSLGKRVVGQEAALSAIARRLRAAKTGLTPENGPQGVFLLVGPSGTGKTETALALADALFGGEKALITINLSEYQEPHTVSQLKGSPPGYVGYGQGGILTEAVRKRPYSVVLLDEVEKAHRDVMNLFYQVFDRGVMRDGEGREIDFRNTVILMTANLGSDLLMQLLDEQPEASESDLHELLRPVLRGHFQPALLARFQTVIYRPLPAAALRAIVDMKLGQVSQRLACHYGMNTTLSESLFDALTEACLLPDTGARNVDILLNQQILPALSQQLLSHMAAGHKPNHVTLGYHEEEGIVMAFDEGAIADE	PGPT0025985_856	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025985-vasG|clpV-K11907	NA	NA
BMS020_00007	2496			hypothetical protein	ATGAGTAGCGTGAAATCGTTGTTGTTCAGCCACAACCACCATCTGCTTTCGGTGAAGGGATGTGAAGCCGGGCTTGATGTGCTGGCGTTTGAGGGCGATGAAGCCCTGAGCCAGCCGTTCCGCTATCGTATCGAATTCACCAGTGCAGACCATGCCATCAGAAAAGAGATGATGCTGATGAAGGCTGCCTCCCTGACGCTGCAGGCGCCGGTGGCTCAGGGCTTCGGCATCAATGTTCAGCAAGCCGTGCGGGTGATCCAGGGCGTGGTGACGGGGTTCGAACGGCTCGGCACCTCCAGGGATGAAACGCACTACGCGCTGACCCTGCAGCCGCGCCTGGCGCTGCTTAACCGCTCGCACCAGAACGCCATTTATCAGGACCAGTCCGTTCCGCAGATTGTGGAAAAAATCCTCCGCGAGCGCCACGGCCTGCGCGGTCAGGATTTTCTGTTCTCGCTGACAAAAACGTATCCGCGCCGCGAGCAGGTGATGCAGTACGGTGAGGATGACCTGCGCTTTATCACCCGGCTGCTGGGTGAGGTGGGGATCTGGTTTCGCTTTACCGCCGACACGCGGCTGCACATCGACGTCGCGGAGTTCTGCGACAGTCAGCAGGGCTATGAAAAGGGGCTGACGTTGCCTTCGGTCCCGCCATCCGGGCAGCAGTCGGCCGGGGTGGACGCGGTGTGGGGGATGGCATGCCGCCACCGCGTCGTGGAGCAGCAGGTCAGTACCCGCGACTACAACTACCGCGAGGCGACGGCGGACATGAGCGCGCAGGTGGATGTCACCCGCGGGGAGACCACTACCTTTGGTGAGGCTTACCACTGGGGAGATAACTACCTGACCGCCGGGAATGTCCATGACCGCCATCCGGCGCCGGAGTCCGGGGCGTTTTACGCCCGGCTTCGTCATGAGCGTTATCTGAACGGCCAGACCCGGATGCAGGCCACCACCAGCCTCCCGACGCTCTGCCCGGGTCAGGTGCTGAAGGTGACCGGCGGAGAGGAGGTGGCCGGAGAGTTTGCTGATGGTGTGCTTATCACGGCGATGCACAGCCACGCCCGGCGCGATGCCGACTTTGCGGTGGAGTTTGCCGGCATACCGGACAGCCCGGACGTGGGCTACCGGCCCGAGCCCGGCGCGCGCCCGGTGATGGCCGGGACGCTGCCGGCCCGCGTGACCAGTACCCGGGAAAACGACACCTACGGGCATATCGACAAACACGGGCGCTACCGGGTGAATATGCTGTTTGACCGGGCGCGCTGGGAAACCGGGTTCGAGAGCCTGTGGGTCCGCCAGTCGCGGCCGTATGCCGGAGACACTTACGGCCTGCACCTGCCGCTGCTGGCGGGGACGGAGGTGGCGATTGGCTTTGAGGACGGTAACCCGGACCGGCCATATATCGCGGGCGTGCTCCACGATTCGGCGCACGGCGATCACGTCTCCATCCGCAATGACAAACGTAACGTCCTGCGCACCCCGGCCAACAACAAAATCCGCCTCGACGATGAGCGCGGGAAAGAGCATATCAAGGTGTCGACCGAGTATGGCGGCAAGAGCCAGCTGAATCTGGGGCACCTGGTGAACAGCGACAGGCAGCCGCGCGGCGAAGGCTTTGAGTTGAGAACCGACAGCTGGGGGGCCATCAGGGCGCAGAAGGGCATTTTTATCAGCGCGGACGGACAGGCGCAGGCCCAGGGGCAGGCGCTGGATATGGAGCCTGCGCTTGTACGGCTTTCAGCAGCATTAGTGGAAATGGAATCTCTTGCTGCCAGCGCACAGCAGGCCCAGGCGCTGGCCGCTGATGTCAGTCGCCAGCAAAAACTTCTGAAGCAAAAAATCGAGGAACTGCATGAGGAAGTGATTCTGGGCAGTGCGCCGAAAGGCATGGCACTGGTGAGCGGCGAAAATATGCAGTTATCAGCCAGTGATAATATGACGCTGACTGCGGGCAGACAGCTGGATGTCGGTGCCCAGAAGGACTTCACCCTGGCGGCCGGTAAGCAACTCAGCCTGTACAGCCGTGAAGGGGCAAAGCTGTTCAGCTCGCAGAACGATATTGATATTCAGGCTCAGGGTGGGAATGTCACCACCTGGTCGACACAGGACACGCATATTTCGAGCGGTAGGAAACTGGTCATTACCGCACAGGATGAACTGACGCTGATATGTGGTGGTGGCTATATCAAAATCAACGGCGGAAATGTTGAGATTGGTGGTCCGGGTAAACTGCTGGTCAAGAATACAGGCATCAGGAAAGCGGGCACGGGCAGTATGCAGGGCGTTATGAAGTCGTTTGAGCCATCAACCTTTGATGAGAGATTTGTCATCAGAAATGCGCTGACAAAAAAACCGATACCTGGCAGGGCGTACAAAATCACTATGCCAGACGGTTCTGTTGTTTCCGGTGTTACAGATGCTTCTGGCGCAACATCACTCAATTCATCTGATGTTATCGATAATATGATTATCAGCTTAGTTAAGGCGAATTAA	MSSVKSLLFSHNHHLLSVKGCEAGLDVLAFEGDEALSQPFRYRIEFTSADHAIRKEMMLMKAASLTLQAPVAQGFGINVQQAVRVIQGVVTGFERLGTSRDETHYALTLQPRLALLNRSHQNAIYQDQSVPQIVEKILRERHGLRGQDFLFSLTKTYPRREQVMQYGEDDLRFITRLLGEVGIWFRFTADTRLHIDVAEFCDSQQGYEKGLTLPSVPPSGQQSAGVDAVWGMACRHRVVEQQVSTRDYNYREATADMSAQVDVTRGETTTFGEAYHWGDNYLTAGNVHDRHPAPESGAFYARLRHERYLNGQTRMQATTSLPTLCPGQVLKVTGGEEVAGEFADGVLITAMHSHARRDADFAVEFAGIPDSPDVGYRPEPGARPVMAGTLPARVTSTRENDTYGHIDKHGRYRVNMLFDRARWETGFESLWVRQSRPYAGDTYGLHLPLLAGTEVAIGFEDGNPDRPYIAGVLHDSAHGDHVSIRNDKRNVLRTPANNKIRLDDERGKEHIKVSTEYGGKSQLNLGHLVNSDRQPRGEGFELRTDSWGAIRAQKGIFISADGQAQAQGQALDMEPALVRLSAALVEMESLAASAQQAQALAADVSRQQKLLKQKIEELHEEVILGSAPKGMALVSGENMQLSASDNMTLTAGRQLDVGAQKDFTLAAGKQLSLYSREGAKLFSSQNDIDIQAQGGNVTTWSTQDTHISSGRKLVITAQDELTLICGGGYIKINGGNVEIGGPGKLLVKNTGIRKAGTGSMQGVMKSFEPSTFDERFVIRNALTKKPIPGRAYKITMPDGSVVSGVTDASGATSLNSSDVIDNMIISLVKAN	PGPT0030410_1559	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
BMS020_00008	720			hypothetical protein	ATGGGGGCAAGCTTTGGGGTGGGGCTGGGAGGAATGAGCGGTTCTCAAAAGCTAGAAGAGTCACGAAAAGTTGAAACAGATGCACCGGCTCAAATTATTTATCGCATAGATAAAAATCGATACCTGACCCTGGAAAACTATATATCCTGTGATGAGGGTGGACAGGTTTATTACAATGACTCTCTGCGGGGAATAAAAACCCAGCTGGGATGGGATGACGATTTTTATGATTTCGCATATCGCCGGGGGAATAACTTAGCAGCTTATAGAGGCTCTATTATAAATGGGGCGGATAATGGTTATCTGGCATTTCCCGGCGCATCTACCAGACAATATTGTGGTGGCGGTAATTCCACAACAGGTTGTCCTGTATTTTTCTTCTTTTCAGCCGACTATGGGAAAACATTTATATATAAAATTGTAGCTGAAGAATACAGCACCCCTGAGCGTTTCAATAAGCTTAAGGTAGTAGTAGCTAATGATGGGGTTTACTTAAGGGATGAGTCTCAAATAGAGAATGTATATTCTCACCCTATAGGTCTTCGCGATCTTCGAACAGTAAATAAATTAAGATTTTCAGACGGCAATTTAATCAGTATTTATGATGACTGGCAGAAAAAAGTTCATGAGTTAGTAAAAGAAGAACTGATAAGAAAAAAATGCCCTATGCAGACGAGTATGGGCCAAAGTTTCGTATATTCGACTATATCAGAACATTAA	MGASFGVGLGGMSGSQKLEESRKVETDAPAQIIYRIDKNRYLTLENYISCDEGGQVYYNDSLRGIKTQLGWDDDFYDFAYRRGNNLAAYRGSIINGADNGYLAFPGASTRQYCGGGNSTTGCPVFFFFSADYGKTFIYKIVAEEYSTPERFNKLKVVVANDGVYLRDESQIENVYSHPIGLRDLRTVNKLRFSDGNLISIYDDWQKKVHELVKEELIRKKCPMQTSMGQSFVYSTISEH				NA	NA	NA	NA	NA
BMS020_00009	192			hypothetical protein	ATGGCAAATGAATTATCAGATATTCGAATCAGGATTGAGGATGAGGTTTATAGTCACAGGGTTGAGTTCCCGAAACTTTCCACGAAAAGTATTGATGCTAAATATCTGTGTGATAAAAGTATTGAAGCTAAAACCATCACGTATACACTTGAATCAAGTGGAAAAAAGAAGGTAGAGAAAAATGAACACTAA	MANELSDIRIRIEDEVYSHRVEFPKLSTKSIDAKYLCDKSIEAKTITYTLESSGKKKVEKNEH				NA	NA	NA	NA	NA
BMS020_00010	1935			hypothetical protein	ATGAACACTAACCCTGAACCTGTCCGGGAACTTGAATGTAAATTTGATGATAATGGGCATCCTTCCTGGCGTTCATTCCCCTCTCATAAAAATTGCCAAATCAGAGGCGGGTGTGATTTACCTCCACATTTGCCTGGTATTATTATCCTTGTACATGGTGTTAACTCGACAGGAGAATGGTTTTCAATTGCGGAGGAGAAACTTTGCGAAGGGCTGAATAAGAGGCTTGGATTAAACGAGACAGATTATGAATTGGTGGCCAACAAATATCTTTCTGACGAGAAAATAGATTCTGAACCTCTGGTATCCCGAGATTTACCTGAAGTTGATAAAAATAAATCTCCAGTCATTCGCTTTTACTGGGGGTATGCTTCACCTAAAGGTAATGAAGATAAATATGTTATACCGCTAGCCAATAGAAAAGGCGTTGATTACCATCAGTTAAAAAAACAAGGCCTACCTCAGGAAAATATTATGGCGCAGAGCCCATTTTTCTGGGGCGGCGGGCCATTCCAGAACGGCACAAATAATCTGCACTCTTTATGGAGTGAAAAAGGGTTTAAAGAGAGAGTCGCAGGTATCAAAGTCCAGTGGTTTAATGAAGACAAAGATCGCCTGTTAACCAATGCCCCACCGCGAAAATACTATGCCCATGCAGCAAAACGCCTTGCAGACTTGGTTGACAGTATTCGTAATAAATATCCCAAAGATACAGTAACCATTATTTCTCACAGCCAGGGAACCATGGTTGCAATGGCAGCGGTAGCGTTAGCGAAGAATGCACCTGATGCATTATTTGTACTTAACTCACCCTATGCACTGGATCATAACGATCTTAATGGCGCTTCGCTTCCAGCAGAGGAATGCATCTCTCCTGAAGGGAGACAAAGCACCTTATCTGCCATTGTTGACAAGGTGGCTTCCAGAAAAAATCACCTGTCATCACTTGGATATGAAGGACTTTGCGTAGGCCAGACAGCGGATAAAAAGAATTGGCGACCTGATGTCACTCTTGCCAGTGAAAGTGGCAGCAGTCTTGCCGAACGAGATAACCACGGCCGCACCTATATTTACTTTTGTCCTCATGACCGTGTTATGGGGTCACGCCCGCTACGCTCAATTGGCTGGCAGGGATTACCCAACAATTCTCAGGGACAGCCTCATCCTCTGCTGAAAAAGCATCAAGGCCATTTATTTCAGCGAATGCTGGCTCGCAGTACCCCATGTGGCGAAGCCCCAAATCCCGCAACACCTTTTGCAAAATTGCCGGATGGTAAACCGTTCTGGGATGATAAAGGCGACAAGTATCAAAGCAGCAGCTTCACCTATCCGGATCCTCCAGAAGGGCAAACGGTTTTTATTAATGCCGAAAAGGTACCTGAACCTATAGATGCTGCAAAATTAGCTGGTTTTGATGCATCACGCGTTGGAGCTGAACACGATGACAGACAGATAGATGGTTGGGGGGAATTTAATCTGGATAAAAAACGAAAAAACGACAATACCTATGACAACTATATCAACCTATATCCTAATCAGGACATTGTGACTGGATTTAAAAATGTGGGTACTGAATCTGAGCCCCGATTGGTACCTGTGAACCGTAAGGAGACATTTGAAGAAAAGGATCTTCGCATAAGAACTTATGTTTCTCAGCCTACGGATCATAGTACTCTTCCAATGCGTGCTGATTTCATGTCTCAGGTGGTGGCCTATGATTTGCCAATAGGATATTGCGATGCAACCTGGGATAAAGAATTTATGGCTGATTTACGGCGAAAAGCGGATTGGACACAAGGTGAGGATCCTTATCTCTTCAGCGGAATACCTGACAATGTGCCTGAGCCTGATATAATTAGTCGTGAAACTATTACTGATAAATTTAATAAGGAGAAATATAAATTACCCATGTACAGGTCTGTCAATAAGGCATAA	MNTNPEPVRELECKFDDNGHPSWRSFPSHKNCQIRGGCDLPPHLPGIIILVHGVNSTGEWFSIAEEKLCEGLNKRLGLNETDYELVANKYLSDEKIDSEPLVSRDLPEVDKNKSPVIRFYWGYASPKGNEDKYVIPLANRKGVDYHQLKKQGLPQENIMAQSPFFWGGGPFQNGTNNLHSLWSEKGFKERVAGIKVQWFNEDKDRLLTNAPPRKYYAHAAKRLADLVDSIRNKYPKDTVTIISHSQGTMVAMAAVALAKNAPDALFVLNSPYALDHNDLNGASLPAEECISPEGRQSTLSAIVDKVASRKNHLSSLGYEGLCVGQTADKKNWRPDVTLASESGSSLAERDNHGRTYIYFCPHDRVMGSRPLRSIGWQGLPNNSQGQPHPLLKKHQGHLFQRMLARSTPCGEAPNPATPFAKLPDGKPFWDDKGDKYQSSSFTYPDPPEGQTVFINAEKVPEPIDAAKLAGFDASRVGAEHDDRQIDGWGEFNLDKKRKNDNTYDNYINLYPNQDIVTGFKNVGTESEPRLVPVNRKETFEEKDLRIRTYVSQPTDHSTLPMRADFMSQVVAYDLPIGYCDATWDKEFMADLRRKADWTQGEDPYLFSGIPDNVPEPDIISRETITDKFNKEKYKLPMYRSVNKA				NA	NA	NA	NA	NA
BMS020_00011	1440			hypothetical protein	ATGGGATGGTCTCTACCGGTTATTCCAAAGAAAAACAGCGCCCAACAGTGGTCGCCTTGGTTATGCCTCTTGATTGTTTTATTAGGTTTTGTTCTGTCGCTAATTATTGCAGTATTGGACTCTCCGGAAAACAGATTTCTTTCTTTTAGTAGCGGTTATTGGCTGCCAATGATACTACAAACTACTATCGGATGTTTTACTGTAGTTACCTTCTACACGTTCTGGTGGGAGGTTCAAGCTTTTGCTGTATGGCGCTGGAATTCCTGGAGACATAATACGAATCTTCTGTGGTTCAGAAGAGCACACAAGCACCACTTTGTAAGCTTCCATTGTATAATACCAGCCAACTCTCAATTGCTCCCTAAAATCGCTGGTGTATCGTCGGAAGGCATTGATGAAGAACCGCCGCTGACACTGCTTCCTGACGAGCCACTAACGCCGGGTATTTCGCGTTTTGAACAACTATGTCGATTACTGTTTGTCAGTATCCCACAGAGGCTTCTTGATAAGCATTCGGGTAATTTAACGGTGATATTACTTACCTCTTCTAGCGAAAAAGAAGCGGAACAGCGGGCATTTCGACGACTCTGGGATAGCGAAAAACTCTCTGGTTTACCTTATACATTGGTGCTCCCGAAAGAGTTCGCCTTTAAAGACTGGAACCAGTGTGTATCTACTACATGCGGCAACATTCTGGTGCTGGCGATGCATTATCGGCAGCCTAATGAGTCATTACCAGAGTTTGCAAGCATTTTACTGCTTAAACCATCATCTTTAGTTAAGCAAGGTGAATATAATTTTATCCCCAAAATTTTCCATGCAATGCCCCTTCGTGGTAATGCCATGGAGAATGAATTAATTGAGTGGCATGATATGGGGCAACAACCATCAGATCAAAGATATTTAGTCTGGCATAGTGGATTAAACATTACGGCCCAACAAGAATTGGGTAGAGTTTTAAATACACTACCATTACCACTGGTTGATAATATCGGAGCTGGGGGGGTAATTGATTTTGACAAGGAATTTGGTGTTTATAAAAGGCTTGCTGGATGGCTGATGATTGCGTCAGCTTGCGAAATGACACGTTATGGCCCGGCAACTCATTTACTTTTGTGCGAAAATGAGAATGAGGGTTGGGCTGTGACAATAGGAAAGAGTTGTCCGGTGATTTCTCCCCAATTAAGAGGATTTTATTTATCCCCATTTCCTGCTGGAACAGTTATGATGGCGTTGTTGTTTAGCGTTAGTATTTTCGGTTTTATAGCAAATTGCTCACCCTCGATTGCATTTTCATGGTCTGGCATGATGATATTTTCATTTCTTCTTGTAGTATCTTTTTCTTTTATAGCCATTCTTACGCGCAATATAATTTCAAAACTGCTGTATCCTCGTTTTGTTAAGGCTGTCAGACAGCCCAAAAAGGAAAGGTTGGAATGA	MGWSLPVIPKKNSAQQWSPWLCLLIVLLGFVLSLIIAVLDSPENRFLSFSSGYWLPMILQTTIGCFTVVTFYTFWWEVQAFAVWRWNSWRHNTNLLWFRRAHKHHFVSFHCIIPANSQLLPKIAGVSSEGIDEEPPLTLLPDEPLTPGISRFEQLCRLLFVSIPQRLLDKHSGNLTVILLTSSSEKEAEQRAFRRLWDSEKLSGLPYTLVLPKEFAFKDWNQCVSTTCGNILVLAMHYRQPNESLPEFASILLLKPSSLVKQGEYNFIPKIFHAMPLRGNAMENELIEWHDMGQQPSDQRYLVWHSGLNITAQQELGRVLNTLPLPLVDNIGAGGVIDFDKEFGVYKRLAGWLMIASACEMTRYGPATHLLLCENENEGWAVTIGKSCPVISPQLRGFYLSPFPAGTVMMALLFSVSIFGFIANCSPSIAFSWSGMMIFSFLLVVSFSFIAILTRNIISKLLYPRFVKAVRQPKKERLE				NA	NA	NA	NA	NA
BMS020_00012	3396			hypothetical protein	ATGAGAAAAAATATACGATTGGTAGGTTTCGGTCTCCTGATTTTGGTTATCTTGCTCCTGATTGTTTTATTAATTTCTCAGATAAATAAAACCCCTGCTGATATTGAGGGATATTCCACTTGGTTAAAGATAGTCGCGATTATAGGAATATCTTGCATTTCCTGCATAACAGCTCAGTTCGTCTTATCTGAGAGGCATATTGAAACACCATTTACCCCTGATGATGAGAACTATGTCAACGAGATATATTATGTGACGGCAGAGAACAACAATGAATTAAAAAAATATCTTCAGCACCGCTATAGTTTCTTTTGGCACCGCAAAGTCCGCCTGCTTTTAGTCACCGGCGACGAGGCGGCAATCGAACAACTGGTGCCTGGTCTGCCTCAGCAGCGCTGGCTGGAGGGCAACCGCACCGTTCTGATTTACGGCGGCAGTTTGCTCTCCGAGCCCGACATTGAGCAATACGCCGCGCTACGCAAGCTGCGCCGCGGCCGTCCTCTGGACGGGATTGTGCGGGTGATGCCATCGTCTCTCACCCTGACGCCGCAGATAAGCGAAAACGACCTGCGCGGGCTGGAAAAAATTAGCGAACTACTGGGCTATGCCGCCCCGGTTTGGCTGTGGAAACTGTGCGGCAGTGAGTGGTCGCAGGCTGACCGCGCGGTGCAGGCGGTAGGGGTTAGCTTCCCGTTACGCGCTACCGAGGACGATGTCGCCCGTCAGCTTGCGCAAATGCTGCCCATGCTGCGGGAGCAGGGGATGCGCCAGATCGCGGAGGAGACCCGCCACGACTTCCTGCTGCGTCTGGGGCTGCAGTTTCTCGACGGGGGGATCGCGCAATGGCGCTGGCAGCTGGCGCCATGGCTGACCGCCTCGCGACAGCGGTTTGCGCTGCGAGGCCTGATGTTTAGCCTGCCGGCGCCTCGTAGCGCAGATCCTTATCAGGAGGCTGATGCCTCGCCTACGGGCCAGCCTCATCTCCTGACGCTGCCCGCCACCTGGCAGGGAATCGTCGATGACTGCCGCCGTTTACGCGGGCATCACGTGGGAATGGCGTGGGAGCGGGGCCTGGCGTGCGGTTTGATGGCTATCCTCGGCCTGTGGGCGGCGGGACTGCTGCTCTCCTTTACCCTTAATTACAGCCAGATTGTTTCGGTAGCGGGAAAAGCCCGTGACCTGCTGACCCACCCCTCTGTTTCTGACTATCAACTGACGGCCCTCCATGCCCTGCGCAATGAGGCCGGCCGTCTCGTGCACGATGGGCAGAAGGGAGCGCCCTGGTATCGGCGCTTTGGTCTGGACCATCATCAGCAACTATTAGACGCCGTCCTGCCCTGGTACGGCGTGGCAAACAACCGCCTGATACGTGACCCGGCCAATGTCGCGCTGCAGCAGGCGCTCAGCGCGCTGGTCAACTCCGCACCCAATAGCGACCAGCGAGCCCGGCTGGCGAAACCGGGCTATGACCAGCTGAAAGCCTGGCTGATGATGGCTCGTCCGGATAAAGCCGATGGCACCTTTTTCGCGCAGACCATGAAAACGGTCCAGCCAACGCGAAAGGGGATCTCGACCGGACTGTGGCAAAGTCTGGCGCCGGATCTGTGGGCCTTTTATCTCTCCCTGCTGCCCGAGCGGCCAGAGTGGAAGATCATCCCGGATGCACAACGTGTCAGTCAGAGCCGTCAGGTTCTGTTGCAGCAGATAGGTCGCCGCAATGCCGAAAGCACCTTGTATGAGAACATGCTCAAATCCGTGCGTCGTAATTTTGCCGATGTATCGCTGGAAGACATGACCAGTGGCACCGATGCGCGCCGCCTGTTTACCACCGATGAAGTGGTCCCGGGGATGTTTACCCGCCAGGCATGGGAAGGCGGCATTCAGCAGGCCATTGATAAGGCAGCCAGCTCGCGCCGGGAGGAAATCGACTGGGTGCTGAGCGATTCGCGCAAAACGGTGTCGACAGACCTGTCGCCGGAGGCGCTGAAAGCGCGTTTGACCCGACGCTACTTCACCGATTTCGCTGGCAGCTGGCTGAATTTTCTCAACAGTCTGCGACTTAATCCGGCGACCACCATTGCTGATGTTACTGACCAGCTCACGCTGATAAGCGATGTCCGCCAGTCGCCGCTGATTGCCCTGATGAATACCCTTGCCTGGCAGGGGCAGGCGGGGCAACAAAGGGAGGGGCTGTCGGACAGCCTTATTAAATCGGCCAAAGATCTGGTGGGCGGAAAAGACAAGCCGGTCATCGACCAGTCGGCAGCCGGGCCGCAGGGGCCTCTGGATGACACGTTCGGCCCACTGCTCCAGCTAATGGGGAAAAACACGGGCAGCAACGTCATGTCGGCCGACAGTACCCTGAGCCTGCAAACCTATCTGACCCGTATCACCCGCGTGCGCCTGCGTCTGCAGCAGGTTGCGAATGCCTCCGATCCGCAGGAGATGATGCAGACCCTGGCGCAGACCGTCTTCCAGGGGAAAAGCGTCGACCTGACCGACACGCAACAATATGGCAGCCTGATTTCGGCAAGCCTTGGCGAAGAGTGGAGTGGCTTCGGTAACACTCTGTTTGTGCAGCCGCTGACTCAGGCCTGGGAAACCGTGCTTCTGCCGTCGGCGGCCAGTCTGAATGATAAATGGCGCCGATCGGTAGTCGCCAGCTGGCACACCGCTTTTGACGGCCGCTTTCCGTTTGCCGCCAGCAAAAGCGACGCCTCTCTGCCGATGCTGGCGGAGTTTGTGCGCAAAGACAGCGGGCGAATCGAACGTTTTCTTACGACGGAGCTGAACGGTGTCCTGCATAAAGAAGGCAGTCAGTGGGTGCCGGATAAGGTCAACAGTCACGGCCTGGTCTTTAATCCGGCCTTCCTGCGCGCCATCAACCAGCTAAGCCAGCTGTCCGACATTCTTTTCACCGATGGCAGCCAGGGCATCAGCTTCGAATTGCAGGCCAGGCCTGTTGCACAGGTCGTGGAGACACAGCTGACGATAGACGGCCAAAAGCTGCGCTATTTCAATCAGATGGCCGACTGGCAGACTTTCCGCTGGCCGGGGGAAACGTATAAACCCGGCGCTCTGCTGACCTGGACCACCGTCAATGCGGGCACGCGTCTGTTTGGTGACTACAGCGGAACCTGGGGTTTTATTCGCTGGCTGGAGCAGGGTAAACGCCAGCAGCTCGAACGCAGCCAGTGGATGATGAGCTTCACCGCTCCGGATGGCCGCACCCTGCAGTGGGTACTGCGCTCCCAGCTTGGGAGCGGCCCGCTGGTGCTTCTGGCGCTGCGCGGATTGACCCTGCCGGATCAGATTTTCACTGTCGATGCGGCTGAGAGCGCACAGGCCCTGACGGCGGGGGTAGGGAATAGTGACATGGATGAGATGGAAAAATGA	MRKNIRLVGFGLLILVILLLIVLLISQINKTPADIEGYSTWLKIVAIIGISCISCITAQFVLSERHIETPFTPDDENYVNEIYYVTAENNNELKKYLQHRYSFFWHRKVRLLLVTGDEAAIEQLVPGLPQQRWLEGNRTVLIYGGSLLSEPDIEQYAALRKLRRGRPLDGIVRVMPSSLTLTPQISENDLRGLEKISELLGYAAPVWLWKLCGSEWSQADRAVQAVGVSFPLRATEDDVARQLAQMLPMLREQGMRQIAEETRHDFLLRLGLQFLDGGIAQWRWQLAPWLTASRQRFALRGLMFSLPAPRSADPYQEADASPTGQPHLLTLPATWQGIVDDCRRLRGHHVGMAWERGLACGLMAILGLWAAGLLLSFTLNYSQIVSVAGKARDLLTHPSVSDYQLTALHALRNEAGRLVHDGQKGAPWYRRFGLDHHQQLLDAVLPWYGVANNRLIRDPANVALQQALSALVNSAPNSDQRARLAKPGYDQLKAWLMMARPDKADGTFFAQTMKTVQPTRKGISTGLWQSLAPDLWAFYLSLLPERPEWKIIPDAQRVSQSRQVLLQQIGRRNAESTLYENMLKSVRRNFADVSLEDMTSGTDARRLFTTDEVVPGMFTRQAWEGGIQQAIDKAASSRREEIDWVLSDSRKTVSTDLSPEALKARLTRRYFTDFAGSWLNFLNSLRLNPATTIADVTDQLTLISDVRQSPLIALMNTLAWQGQAGQQREGLSDSLIKSAKDLVGGKDKPVIDQSAAGPQGPLDDTFGPLLQLMGKNTGSNVMSADSTLSLQTYLTRITRVRLRLQQVANASDPQEMMQTLAQTVFQGKSVDLTDTQQYGSLISASLGEEWSGFGNTLFVQPLTQAWETVLLPSAASLNDKWRRSVVASWHTAFDGRFPFAASKSDASLPMLAEFVRKDSGRIERFLTTELNGVLHKEGSQWVPDKVNSHGLVFNPAFLRAINQLSQLSDILFTDGSQGISFELQARPVAQVVETQLTIDGQKLRYFNQMADWQTFRWPGETYKPGALLTWTTVNAGTRLFGDYSGTWGFIRWLEQGKRQQLERSQWMMSFTAPDGRTLQWVLRSQLGSGPLVLLALRGLTLPDQIFTVDAAESAQALTAGVGNSDMDEMEK	PGPT0025960_1524	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025960-impL|vasK|icmF-K11891	NA	NA
BMS020_00013	1593			hypothetical protein	ATGAGTATTTTACAAAATCTGGTTGCCGCCAGTCAGTTGGATGAAAGCGTACTGCGCCAGCAGGCCCGGTCACGCCAGGAAAACTGGCAGTCATGGCTTGCGCCAATCAGTGATAGCCAGCCCACCGGCAGCGATCCGGGCTATGACGATGATTTTCAGCGTATCCGCGAGGAGGTCAATAAGATCTCCGGCGTTGATACCGAACTGATTTGCCAGCTGGCAGAAAAACTGCTGACTCATACCTGCAAGGATCTGCGCGTGATCACCTTTTACGTGTGGGCGCGTCTGCAGCAGGATGGCGAAACCGGTCTGGCCGAGGGCGTTACGCTGCTTGCGGCAATGCTTGAGCGGTTTGGGGATATGCTCCATCCCCAACGTGAACGTAGCTGCAAATCGGCGCTGGAATGGCTCGGCAGTCGCCGGATGTCGGACAGTCTGTCTCTTTATCCGGAAGTCGACATGACCACTATGCAGGTCATTATCGGGGCGTTATTGCTGACGGAAGCCTCTTTTGCCGTATTGGCTGAGGCCTCTCGCCCCGATCTTTCCGGGCTATATCAGCTCCTGGAGAACCGACTGGTGCAAAGCGGCGGCGCCCGCAGCCTGGTGCCGCAGACCAGCCGCGAAGAACACGATCTGCTGCCCCAACATGCAGACACCGCACCGGTAATGCATACCGTCACGTCAGGACGTGATTTGCTCGACCAGGTTAAAGTGCTGGCGAAATATCTGCGTGAGTGTCCCGGCGGATGGCTGGCAGGTCATCATCTGATGAAGAGTGTGCGTTGGGATACTTTAACGGAATTACCGCCGCTGGATGCCTCCGGCCGGACCCGGCTATTGCCTCCAAAGCCGGAGAGTAAAGCCCATCTTAAGCGGTTGTATTTACAGAAAAGCTGGTCAGAACTGCTGGAGCATACGGACACGCTGTTGGCGCAAGGCGTCAATCATCTGTGGCTGGACGTGCAGTGGTACGCCTGGCAGGCGCTGCTGAAACTGGATGCTGACACTGTACGGGCCGATATCCTGTGCCGGGATATGAAAGGGCTACTGGCTCGTCTACCGGGGCTGGAAACCCTGGCGTTTAACGATGGTACGCCATTCGCCGATGAAGTGACGCTCAACTGGCTTAACGAACATGTTCTGGATGAGATGGCCGGATGGCAAGGTGAGCCGGTGATGGCGGCGACCAGCACTGATGAGGTGCTGTCGCTGGAGTCAGAAGTGCTCGCCCGCGCGGACGATGAAGGTATTGAGTCGGCGCTGAACTGGTTACAGGCGCAACCGGGCTATACCACCAGCCGCAATCGGTGGCTGATGCGCTTATTGATGGCGCGGGTCAGCGAGCAGTACGGAAAAAATGAAATAGCGCTGCATCTGCTGGCGGAACTCGACAGCCGTGCCCGGGAAATGACGCTCGAACAATGGACGCCGGAGCTTATCTTTGAGATCAAAGCCCGCCGACTCCGGCTACTAAGAGGCAAGGCCGGGCGCAGTGAGGCAGAAAAAAATCGCTTGCAGCCAGAGATGGAGTCTTTGCTTGCCGGGCTTATCGCTCTGGATCCCGCTCGCGCTGCGGTGCTGTGCGCATAA	MSILQNLVAASQLDESVLRQQARSRQENWQSWLAPISDSQPTGSDPGYDDDFQRIREEVNKISGVDTELICQLAEKLLTHTCKDLRVITFYVWARLQQDGETGLAEGVTLLAAMLERFGDMLHPQRERSCKSALEWLGSRRMSDSLSLYPEVDMTTMQVIIGALLLTEASFAVLAEASRPDLSGLYQLLENRLVQSGGARSLVPQTSREEHDLLPQHADTAPVMHTVTSGRDLLDQVKVLAKYLRECPGGWLAGHHLMKSVRWDTLTELPPLDASGRTRLLPPKPESKAHLKRLYLQKSWSELLEHTDTLLAQGVNHLWLDVQWYAWQALLKLDADTVRADILCRDMKGLLARLPGLETLAFNDGTPFADEVTLNWLNEHVLDEMAGWQGEPVMAATSTDEVLSLESEVLARADDEGIESALNWLQAQPGYTTSRNRWLMRLLMARVSEQYGKNEIALHLLAELDSRAREMTLEQWTPELIFEIKARRLRLLRGKAGRSEAEKNRLQPEMESLLAGLIALDPARAAVLCA	PGPT0030430_207	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0030430-vasJ-K11910	NA	NA
BMS020_00014	1755			hypothetical protein	ATGGACGATTTAACCCTGCGTTATTACGACGCTGAAATGCGCTACCTGCTGGAAGCGGGTGAAGAGTTTGCCCGCGCTCATCCTGAGCAGGCGGCAATGCTCAATCTTGACAAAGCGGGCGCCCGCGACCCCTTTGTCGAGCGTCTGTTTGAAGGTTTTGCCTTCCTGATGGGCCGCATGCGCCAGAAGCTCGATGACGATCTGCCCGAACTCACCGAAGGCGTGGTCAGTCTGCTGTGGCCACATTATTTACGTACCATTCCTTCCCTGTCGGTCGTGGAATTCACCCCCGACTGGCAGGAAATGAAAGAGCCGATGACGATGGCCAAAGGCTTTGAAGTGCTTTCCCGGCCGATCGGTGAAAAGGGCACGCGCTGTCGGTACACCACCACCAAAGCGATCGCTCTGCAGCCGTTGTCCCTGGAGCGCGCTCAGCTGACCACCGATACGGATGGCCGGTCGGTGATCACGCTGCGCTTTAACTGCAGCAGCCTGACGGACTGGCGCCGGATCGATCTCAGCCATATCCCGCTCTACTGCAACGCCGATGCGCCGCTGGCCTGCGCCATGCACGAGGCCTTTACCCTCAAGGTGGCCAGGATGTGGCTGCGCGTACCCGGTGAGGAGGACAGAAAGCCGCTGGACGGGTATTTCAGCGCGCTGGGATTTGGCGAGGATGACGGCCTCTGGCCCGAAGATAGCCGCAGTTTTCGCGGCTACCAGCTGCTGCTGGAGTATTTTACCTTCCGTGAAAAGTTCATGTTCATCGACCTGCGCGGGCTGGAGACGGTGGCTTTCCCGGCCGGGATGGCGTGGTTTGAGATCGACGTCGTGCTGGCGGAACGCTGGGAACATGACTTCCGCTTCAGCGAAAAGCAGCTGCGCCTGCACTGCGTGCCGGCGATCAACCTGTTCCCGCTGGAGTCTGATCCGCTGACCATCAATTCCCTGCAGACAGAATACCTGCTGCGCCCACTGCGCGTGCAGGACGGCCACACTGAAATTTACACCGTCGATTCCGTGATCTCCTCGAGCCAACAGGCTTACGCGCCGTTCTCAAGCTTTCGTCACAAAGGCGGCATGATGCGTCATGACGCACCTGATTATTACTATCATACCCGGGTGCGCCGTGGCCCCTCCGGGTTGCATAACACCTGGCTTATCGTCGGCGGGGAAGCCTTTGACAAGCATACCGTACCGGAAGATGAAAGCCTGTCGCTCACCCTCACCGGAACCAACGGCCAGCTTCCGCGTCGTGCGCTGCAGAGCACCGTGCTCGATACGGTGATGAAAACCACCTCGGCCAGCGTCGCGGTTCGTAACCTCTGCGCGCCGACGCTCCCGTGCTATCCCCCTGCCCAGGATCGTTTTCACTGGCGGGTGCTGAGCCATCTGGGCAGCAGTTTTCTTTCCCTGATGGACAACGCTGAAGTCCTGCTAGGCACCCTGGCGCTGTATGAATGGACCGACAGCGAGATGAATCGTCGGCGTCTGGAAGCCATCCTCGACGTGAAGCACCGCGCAACAGAGCGCTTTGCACAGGGCCATCTGGTGCGCGGCGTGCAAATTGAAGTCACCCTCGACAGCCACGGCTTTGCCGGACGAGGCGATATATGCCTGTTTGGCGAGATGCTCAGCCGCTTCTTTGCGCTCTACACCGATATCTACTTGTTCAACCGCCTGATTATCATTCTGCAACCAACCGGAGAACGACTGGAATGGGAAGAGAAGCACAGCCGACGCATTCCCGGCTGA	MDDLTLRYYDAEMRYLLEAGEEFARAHPEQAAMLNLDKAGARDPFVERLFEGFAFLMGRMRQKLDDDLPELTEGVVSLLWPHYLRTIPSLSVVEFTPDWQEMKEPMTMAKGFEVLSRPIGEKGTRCRYTTTKAIALQPLSLERAQLTTDTDGRSVITLRFNCSSLTDWRRIDLSHIPLYCNADAPLACAMHEAFTLKVARMWLRVPGEEDRKPLDGYFSALGFGEDDGLWPEDSRSFRGYQLLLEYFTFREKFMFIDLRGLETVAFPAGMAWFEIDVVLAERWEHDFRFSEKQLRLHCVPAINLFPLESDPLTINSLQTEYLLRPLRVQDGHTEIYTVDSVISSSQQAYAPFSSFRHKGGMMRHDAPDYYYHTRVRRGPSGLHNTWLIVGGEAFDKHTVPEDESLSLTLTGTNGQLPRRALQSTVLDTVMKTTSASVAVRNLCAPTLPCYPPAQDRFHWRVLSHLGSSFLSLMDNAEVLLGTLALYEWTDSEMNRRRLEAILDVKHRATERFAQGHLVRGVQIEVTLDSHGFAGRGDICLFGEMLSRFFALYTDIYLFNRLIIILQPTGERLEWEEKHSRRIPG	PGPT0025935_1541	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025935-impG|vasA-K11896	NA	NA
BMS020_00015	1086			hypothetical protein	ATGGGAAGAGAAGCACAGCCGACGCATTCCCGGCTGATGCCGCGTCTGGAGGCCGACCTGCCGCGGATCAATTTTTACCGCTTTTGTCAGCTTCTGGAACGACAGCACCCCGATAAACCGCTGCTGGGGGCGACCAGCCATCCGGCTGACGATCCGGTACGTTTTTATCCGCATCCGGGGATGGGATTCCCCGCCAGCGAACTCAGAGCCGTGGAATACGATGAGGCCAATGACAGCGGGCCGCCGGTCATTCGCACCACCTTTATGGGCTTGTACGGTGTCGATTCGCCGCTCCCGACGGCCTGGCTCGATGATATCGCCCAGCGCAGGGAAGGGCATGAAGCGCTGCAGGGGGTGCTGGATATCTTCAGTCACCGGATTATCACGCAGTATTACCGCATCTGGCGGAAATACTGCTGGCCCGCCACCTTTGAGCCTGGCGGTACCGACCGCCTGTCACAGTCGCTGCTGGGTCTGGCGGGGCTGGGCATCCCCGGCACGACGCGGCATATCGCCTCGCCAGCGTCGCGCTTTCTGGCGCTGACTGGCGTGCTGCGTCAGCCGGGCAAAACTCAGCAGGGGATCCAGGCGCTGGTCACGCTGCTGGCCCCGAAGACCACCGTCAGGGTGAGCCCTTACTGCCTGCGTCCGGTGGCGGTCAGCCAGCCGCTGGGCTTTTACGGCGATGACGACTTCTTACTGGACGGCAATACCCCGCTGGGTGACGAAGCGATGGACAGCAGTAGCCAGCTCCTCGTCGCCCTTATCACCGATAATCCCGAGGAGGCGCAGGGCTGGAAGCCTGATGGCCCGCTGTTTCGGGACTTTCTCATCCTGCTGCGGGTGTATCTGGGCTGGCGATTCCGGGCCAGAATCACCCTGACCGCGCCGACCCGACTGCTGGCTGTCCCGCCGCTGGGAGACGGACCGTTCTGGCTCGGTATGAACGGCGTGCTGGGCGCTGGAGAGGGTGAGAGTCAGGATGATATCCCACAGACATTTACCACCGAACTGGGCATCTATACCGGCCTGCAGCCTGCCACCTCATCGCAAGGAAACCGACGTGTTACGTATAAGTTTGATTAA	MGREAQPTHSRLMPRLEADLPRINFYRFCQLLERQHPDKPLLGATSHPADDPVRFYPHPGMGFPASELRAVEYDEANDSGPPVIRTTFMGLYGVDSPLPTAWLDDIAQRREGHEALQGVLDIFSHRIITQYYRIWRKYCWPATFEPGGTDRLSQSLLGLAGLGIPGTTRHIASPASRFLALTGVLRQPGKTQQGIQALVTLLAPKTTVRVSPYCLRPVAVSQPLGFYGDDDFLLDGNTPLGDEAMDSSSQLLVALITDNPEEAQGWKPDGPLFRDFLILLRVYLGWRFRARITLTAPTRLLAVPPLGDGPFWLGMNGVLGAGEGESQDDIPQTFTTELGIYTGLQPATSSQGNRRVTYKFD	PGPT0025940_359	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025940-impH|vasB-K11895	NA	NA
BMS020_00016	543			hypothetical protein	GTGTTACGTATAAGTTTGATTAAAACCGCCTGCCTGCTGTCCCTGCTAGCGCTTTGCCTGAGCGGATGCGGGCTCACCCAGCGCGTCTCGGAGGGAACAAAATCCGCCTTCAACGCCGTTTTTTATAAGCAAATTAATACGCTGCATCTGGATTTTACGGCGCGCGAAGCGCTCAACACTGATGCCAGAGAGAATCACTCGCTCTCCGAACCGGTGATGGTGCGCATCTATCAGCTTAAAGATCGCCGGACCTTTGACCGGCTGGTTTACCAGCAGCTGCTGGAGGAGGGGGATATTCTGCTCGCCGCCGATCTCCTCGCCAGTCGCGACGTAGTGATCAACCCCGGAGGGGACGCCAGTCTCAATATGCCGCTGGAAACGCAGGCGAAGTTCGTGGCGGTTGTCGGCCTGTTCCGCCATCCGGATACAGAAAGAAATACCTGGAAGCAGGTGCTGGCGCGTGAGGAATTGGATCCTGACAAGCCACGTATTTTTACCGCCGAAACTAACCAGCTAAGGCTCAGGCCTGAAGGGGCGAAGTAA	MLRISLIKTACLLSLLALCLSGCGLTQRVSEGTKSAFNAVFYKQINTLHLDFTAREALNTDARENHSLSEPVMVRIYQLKDRRTFDRLVYQQLLEEGDILLAADLLASRDVVINPGGDASLNMPLETQAKFVAVVGLFRHPDTERNTWKQVLAREELDPDKPRIFTAETNQLRLRPEGAK	PGPT0030425_350	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0030425-vasD|lip-K11906	NA	NA
BMS020_00017	105			hypothetical protein	ATGGTTACCGCCAGTTCGCTGGTTAACGAAGATTACGGGCCAATCGCCACGATGGACCCGCCGCAGAAATTTGTGTTCGACGTTACTTCGCCCCTTCAGGCCTGA	MVTASSLVNEDYGPIATMDPPQKFVFDVTSPLQA				NA	NA	NA	NA	NA
BMS020_00018	495			hypothetical protein	GTGACAGCGAGGGAGCGTTTTTTTAAGAAACTACAGCACCAGCAAAATCCGCCGCGGACAACCACCTTCGATGGGGCGGCCGCCGCGGATATCGCCATGTTTCGCCAGCAGATGGCGGCGCTCGCCCGGCAGGTGAATCAGTGGTTTGACGGAACGGGCATCGAGGTGGTGGTTTCGACCCGCCACCTCCACGATCTGAGCACCCTTGGCTACAGCCTCAATAGCGGCATCTGCCGCTACGATATCCCCACTCTCCGCCTGCAAAACGGCGAGCGCAGCGTCAATATCGTGCCGCAGCAGCTGTGGGATGGCGTGGAAAAGGGGGTCGTGACCCTGAGCCTTGAGACACCTGGCGGGGCGGGCTCCCGGGAGGTGTTTTATCTGAGCCTGGCCCCGGACGGCGGCTGGTTGATCCGTCAGGCGCGCCAGTCCCCGGAGGCGCGACAGATTCTCACCGAAGACCGCTTTTTTATGGCGATCGACAGCCTGGCCTGA	MTARERFFKKLQHQQNPPRTTTFDGAAAADIAMFRQQMAALARQVNQWFDGTGIEVVVSTRHLHDLSTLGYSLNSGICRYDIPTLRLQNGERSVNIVPQQLWDGVEKGVVTLSLETPGGAGSREVFYLSLAPDGGWLIRQARQSPEARQILTEDRFFMAIDSLA				NA	NA	NA	NA	NA
BMS020_00019	756	fabG_1		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGACTAAGATTGCACTTATCACCGGCGCCAACCGCGGCCTTGGCCGTCAGACCGCACTGGATATCGCCCGCCAGGGTGGGGACGTCATCGTCACCTGCCGCGGCAATATTGAACAGGCGGAAGCGGTGGTGGCCGACATTCACGCTCTCGGCCGCAAGGCCATCGCCCTGCCGCTGGATATGGCGCAGACCGCCAGCTTTCCGGCCTTCGCCGACAGCCTGCGCGCTGCGCTGGGCAGCGTCTGGGGACGGGACACCTTCGACCATCTGATCAATAACGCGGGACACGGCGAATTTGCCCCGCTGGCCGAAACGCGCGAGGCGCAGTTCGACGGGCTGTTTAACGTCCACGTTAAGGGGGTGTTTTTCCTCGTTCAAACCCTGCTGCCGCTGCTGGCTGACGGCGGACGGATCGTTAACTTCTCCTCCGGACTGACCCGCGTCTCTTATCCTGGCTTCTCCGCCTACGCCGCGGCCAAAGCGGCTGTGGAGATGCTGAGCGTATACATGGCCCGCGAGCTGGGCGGGCGCGGCATCACCGTCAATACCGTCGCCCCCGGCGCTATCGCCACCGACTTTGGCGGCGGACTGGTGCGGGACGACGCGGGGGTTAACGCGCAGTTTGCCGCGATGACGGCGCTGGGACGGGTGGGCGTTCCCGAGGATATTGGGCCGATGATCGCCAGCCTGCTGCGCGACGATAACCGCTGGGTGACCGCCCAGCGGATCGAGGTATCGGGCGGACAGACCATCTGA	MTKIALITGANRGLGRQTALDIARQGGDVIVTCRGNIEQAEAVVADIHALGRKAIALPLDMAQTASFPAFADSLRAALGSVWGRDTFDHLINNAGHGEFAPLAETREAQFDGLFNVHVKGVFFLVQTLLPLLADGGRIVNFSSGLTRVSYPGFSAYAAAKAAVEMLSVYMARELGGRGITVNTVAPGAIATDFGGGLVRDDAGVNAQFAAMTALGRVGVPEDIGPMIASLLRDDNRWVTAQRIEVSGGQTI	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
BMS020_00020	879	rhaS_1		HTH-type transcriptional activator RhaS	ATGCGCGACGAACTCTTCGCTCTCTGCCGCCGGTATGCCGATGCTCATGTCGATAGCAGCGGGGTGGCGGTTACCCCGGTTCCCGGCATCACTCTGGTGCGGGCCCTGCACCCCGGCGATCTGCAGGCGGCCATCGCCAGGCCGCTGGTGGCCATGCTGCTGCAGGGGCGCAAAAGCGTGACCACCGGCCTGGCAAGTTTCGACTATGGTCCGGGGGAGGCGATGGTGATCGCCGCGGATGTCCCCACCACCAGCCAGATCACCGAGGCCAGCCAGCGTTTTCCCTATTACGCGCTGGTGCTGGAGCTGGATCTGGCTATCCTGCGCGAGCTGCAGGAGGTGGGACCGTCAGGGGGAGATGAGGCGCCCCGCGTCGGTATCGAACCGATGAATGCCGACGTGACGGACGCCGCTTACCGCCTGGCTAGACTGTTTGATCAACCGGGGGCGCTGGCGGTGTTAGGCGAAGGGCTGCGGCGGGAGCTGCATTACTGGCTGTTGCAGAGTGTTCACGGGGCGGCCATCCGGGCGCTGGGCGTCGCAGACGGCCATTCGGCGCGGATCCGCCGGGCGGTGGCGGTGCTGCGCCGGGATTTTATGCAGCCAGTCAGCGTCGACGCGCTGGCCGACGCCGCCGGGATGAGCGTTTCGGTCTTTCACCGTCATTTCCGCGCCATGACCACCTTGTCGCCGCTGCAGTTTCAGAAGCAGTTGCGCCTGATCCACGCCCGCCGCCTGATGCTGGCGGAAGGGATGAGCATTGCGCAGGCGGCCGGCGAAGTGGGCTATATCAGCGTGTCGCAGTTCACCCGGGAATACGCTCGCCTGTACGGCGCGCCGCCGGGCCGCGACCGTCGACGGGAAAGAATGAGCGCCTGA	MRDELFALCRRYADAHVDSSGVAVTPVPGITLVRALHPGDLQAAIARPLVAMLLQGRKSVTTGLASFDYGPGEAMVIAADVPTTSQITEASQRFPYYALVLELDLAILRELQEVGPSGGDEAPRVGIEPMNADVTDAAYRLARLFDQPGALAVLGEGLRRELHYWLLQSVHGAAIRALGVADGHSARIRRAVAVLRRDFMQPVSVDALADAAGMSVSVFHRHFRAMTTLSPLQFQKQLRLIHARRLMLAEGMSIAQAAGEVGYISVSQFTREYARLYGAPPGRDRRRERMSA				NA	NA	NA	NA	NA
BMS020_00021	207			hypothetical protein	ATGAACAAGCTGATTCCACTGATCGTATTGAGTTGCCTGCTGCCGCTGGCGGTCAACGCCAGGACCCTCACCGCCACCGGCGATACCCTGGACCACGCGGAAAGCAAAATTCGCCAGCAGGCCGCCCGCGAGGGCGCAACCGCCTATCGGATCATTGAGGCGCGAATGGGTAACAAAGTGCACATCACGGCGACACTCGATAACTGA	MNKLIPLIVLSCLLPLAVNARTLTATGDTLDHAESKIRQQAAREGATAYRIIEARMGNKVHITATLDN				NA	NA	NA	NA	NA
BMS020_00022	930			hypothetical protein	ATGAAAACTGATGATATTAATCTTGAGGAAAAAGTATTAGTTCTGGGAGCGGGACAACTGGGGGCCGCCGTACTGGATGCGCTGGTGCCAGCGGTGATCCAGCGCCAGGGCGCGGTCTCGGTGATCGTCTCGCCGGCGGCCTGGGATGAAACCGGCCAGCTGCGTTCGGCAAGCCACCGGGCGCTGGCCGACGCCGGGGCCGCCTTTCTCGCCGTCGACATCGCCGGTCGTTCACTGGAGACCCTGACCGGGGCGTTTCGCGGGTACAGCACCGTGATTAACTGCATGGGCTTTGTCGCCGGTCCGGGGACGCAGCTGAAAATTACCCGCGCGGTGCTGGCCGCCGGAGTGCCTCGCTATTTTCCCTGGCAGTTTGGCGTCAATTACGATGTGGTCGGCAAAGGCAGCGGCCAGCCGGTCTGGGACGAGCAGTATGATGTCCGGACCCTGCTGCGCGCGCAGCAGGCCACGGAGTGGGTCATTATCTCCACCGGCATGTTTACCAGCTTTCTCTTCGAGCCAGACTTCGATGTGGTGAATTTATCCGCCCGAACCCTTCACGCCCTTGGCAGCTGGGACACCCAGGTGACCGTCACCTCGCCGGCGGATATTGGCCGCCTGACAACCGCGATTTATCTGCATCAGCCGCGGATCGTCAACGAGGTGACGTTTGTTGCCGGCGAAACGACCTCTTACCGGCAGCTGGCGGACACCGTGGAGCGCGTGACGCAGCAGACGTTCAGCAAAGCCGTTCACACCCTGCCCGCCCTGCTGGACCAGCTGCGGACAGACCCAGATAACGCCATGCTGCGCTATCGCGCCGCCTTCGCCCGGGGGGATGGCGTGTGGTGGCCGATGGGCGACACCTGGAATACCCGCCACCATCTGCCGACCCAGGACATTGCCGGCTGGCTGCAGGCCGCGCGCTGA	MKTDDINLEEKVLVLGAGQLGAAVLDALVPAVIQRQGAVSVIVSPAAWDETGQLRSASHRALADAGAAFLAVDIAGRSLETLTGAFRGYSTVINCMGFVAGPGTQLKITRAVLAAGVPRYFPWQFGVNYDVVGKGSGQPVWDEQYDVRTLLRAQQATEWVIISTGMFTSFLFEPDFDVVNLSARTLHALGSWDTQVTVTSPADIGRLTTAIYLHQPRIVNEVTFVAGETTSYRQLADTVERVTQQTFSKAVHTLPALLDQLRTDPDNAMLRYRAAFARGDGVWWPMGDTWNTRHHLPTQDIAGWLQAAR	PGPT0019990_19	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_HYDROXYISOFLAVONE_REDUCTION,PGPT0019990-EC_1_3_1_45_like-NA	NA	NA
BMS020_00023	906	pgrR_1		HTH-type transcriptional regulator PgrR	ATGGACAGACTGGATGCCATGCAGTTGTATGTTGCGGTTGTGGATGCCCACAGCTTCGCCCGGGCGGCGGAGGCGCTGGGGCAGCCGCGCTCAACGGTGTCGCGGGTAGTGAAGGAGCTGGAAGCCTGGCTTGGGGCGCAGCTTCTTCAGCGCACCACCCGCAAGCTCAGCGTGACGGCGGAGGGGCGTCGGTATTACGAAGAGTGTAAACGGCTGCTGGCCGAAATGACGGCGATGGAAGCCTCCTTTCCCGGCCGCTCGGCGCAGCCCGCCGGGCGGTTCAAGGTGGGGATGCCGCAATCTCTCGCCCGGCACTGCATTTTGCCGAGGATCGGCGAGTTTCTGCAGCAGTATCCCGACCTGGAGCTGATCCTCTGCTCAAGCGACTACGTGGAAGATATCATCCAGGAGGGATTCGACTGCGTGATCCGTACCGGGCAAATCGAAGATTCCACCACCCTGGTGGCGCGCCCTCTGGCCCGCTACCGCTGGATGGTCCTCGCCTCGCCGGCCTGGATAGCGGCCCACGGCCGGCCGCAGAGCATCGACGATCTGCACCAGCACCGGGCGGTGGGATACCTGAACCACCGTACCGGGCGGACCATCGACTGGCTTTTCTCCCTCGATGACGGCGACTGCGCGATCCGCATGCAGGAGACGCTGGTGGTCGACGATACCGATGCCTATATCCAGGCCGGCATTCAGGGGCTGGGCCTGATCCGCGTCGCCAGCTATCTGGCGCAACCCTGGCTGCAGAGCGGCGCGCTGGTCGCCTGTCTGGAGCAGGCCGCGTCTGATCTTCCCTTGTCGCTGGTCTATCCGCAAAACCGCTATCTGCCGCCGGCGGTGCGCGCGTTTTACGACTGGAGCAGGCGCGTTCTGCAACCCCCGCTCAGCGAGGCCTGA	MDRLDAMQLYVAVVDAHSFARAAEALGQPRSTVSRVVKELEAWLGAQLLQRTTRKLSVTAEGRRYYEECKRLLAEMTAMEASFPGRSAQPAGRFKVGMPQSLARHCILPRIGEFLQQYPDLELILCSSDYVEDIIQEGFDCVIRTGQIEDSTTLVARPLARYRWMVLASPAWIAAHGRPQSIDDLHQHRAVGYLNHRTGRTIDWLFSLDDGDCAIRMQETLVVDDTDAYIQAGIQGLGLIRVASYLAQPWLQSGALVACLEQAASDLPLSLVYPQNRYLPPAVRAFYDWSRRVLQPPLSEA	PGPT0028940_758	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
BMS020_00024	924	nodD2_1		Nodulation protein D 2	ATGAAGAAAATCATTGAAAATGATTTTAGTCGTATCGATCTGAATTTGTTGACGGTCTTGATGGTGCTGTACCGCGAAGCCAGCGTTACCCGCACCGCAGAGGCGCTGCATCTTGGCCAACCGGCCATCAGCGGGGCGCTGAAACGGCTGCGCGAGATGTTTGACGATCCGCTGTTCGTGCGCAGCGCCAGAGGCATGCTGCCGACCCCGCGGGCGCAAGCGCTGATGACCGAGCTGCAGCCGCTGATGGAGCATCTGCATTCGGCAATGTTTGGCGCCGGGGAGTTTTCCCCCGCCAGCGCGCAGCAGCTTTTCCGCGTCGGCCTCAGCGACTGGAGCGAACACTGGCTGATGCCGCAGCTGTTACCCGGACTGATGCAGGAGGCGCCCGGGGTGTCGCTCCAGACACTCGCCGCCGACCCCTTCCAGGTACGCCAGCTGCTGGAGGCGGATCGCATTGATGTCGCGGTGTCCCTCAACAAGCAGAGCCGCGGGGAGATCGTCAGCGAACCGGTGATGAGCATGGGGGTGACCACCCTGTGGTCGCCGCAGCAGATCCCCTGCCGCGGGCCGTTGTCGGTGGGCGATTTCGTCGCCTGGGAACATGTGATGGTGGCCTATCGCGAAACCGGCCACGGGGAAATAGACCGCCAGCTCGCCAGTCAGGGACTCGCGCGGCGCGTGCGCTTCGCCACGCAGAATTTCTCCACCTTTCCCCTCCTGCTGACCACCCTGCCGCTCTTCGCCACCGTCCCCCAGGGGCTGGCGCAACGCTGGCAGGCGCAGTATGCGCTGCGCGCGGACGCCCCGCCGGTGGCCTACCCGGAATTTACGCTGTGTATACTGCGCCACAAACGCCGGGCGCGGGATCCGGCGCTGAACTGGCTGATAGCGAGGATAAAACAGGCCATGCGCGGACCATAG	MKKIIENDFSRIDLNLLTVLMVLYREASVTRTAEALHLGQPAISGALKRLREMFDDPLFVRSARGMLPTPRAQALMTELQPLMEHLHSAMFGAGEFSPASAQQLFRVGLSDWSEHWLMPQLLPGLMQEAPGVSLQTLAADPFQVRQLLEADRIDVAVSLNKQSRGEIVSEPVMSMGVTTLWSPQQIPCRGPLSVGDFVAWEHVMVAYRETGHGEIDRQLASQGLARRVRFATQNFSTFPLLLTTLPLFATVPQGLAQRWQAQYALRADAPPVAYPEFTLCILRHKRRARDPALNWLIARIKQAMRGP	PGPT0028130_319	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexEF-OprN,PGPT0028130-mexT-K18297	NA	NA
BMS020_00025	861	ytnP_1	COG0491	putative quorum-quenching lactonase YtnP	ATGCAAACTTACCAGACAGGCGACAGCCTGATATTCAAAGTGCCGGAGCGCGAGATTAGCCTGCAGCCGGCGGCGCTCTATCCCGCGGCGTTCCCTGTGACGGAGGCGGACGCCGATAATCAGCCAATCGCGCTGTCAATCCACAGCTGGGTGGTACAGACTCCCCACGATCTGATCGTTATCGATACCGCCACCGGCAATGGTCGGGAGCGCGGCGGCAATCCACTCTATCATCAACTTAACACGCCCTATCTGGAGAATCTCCGCGCCGCGGGAGTGAACCCGGAGGAGGTGACCCTGGTGCTACTGACCCACCTGCATACCGACCATGTCGGATGGAATACCGTCTGGCGGGACGATCGCTGGGCGCCGCTGTTTCCCAACGCGCGCTACCTGTGTTCGGCAAAAGAGCTCACGCGGGTGAAGAACAGCGAACGCTACCGGGCGCTGTGGCTCGACAGCCTGCTGCCGGTGATCGAGGCTGGCCAGCTGGAGACCGTGGATGTCGCGGCCAGGCCGCTGGTCGGCGGACGGATCGCCTTTATCCCTACCCCCGGCCACAGTCCGGACCATGCCGCGCTGATCCTCTCCTCTGGCGATGACTACGCCTGTTTCTCAGGCGATCTTCTGCATTCCCCGCGCCAGTTTACCCATCCGCACTGGAGCTCGGCGTTCTGCGGCGATCCCCGGCAGGCGGAACGCTCGCGACGCGAGATGATGGCGTGGTGCGCAAGCCATCATGCCCAATGGTTCACCGGGCATTTCGCCGGACCCTCCTGCGGTTGGCTGGAGGAGGACAGGCCAGGGGAGTATCGCTGGCGAGACGCCGGAGAACGATCTGCTGACGAGGGGGAACGGTGA	MQTYQTGDSLIFKVPEREISLQPAALYPAAFPVTEADADNQPIALSIHSWVVQTPHDLIVIDTATGNGRERGGNPLYHQLNTPYLENLRAAGVNPEEVTLVLLTHLHTDHVGWNTVWRDDRWAPLFPNARYLCSAKELTRVKNSERYRALWLDSLLPVIEAGQLETVDVAARPLVGGRIAFIPTPGHSPDHAALILSSGDDYACFSGDLLHSPRQFTHPHWSSAFCGDPRQAERSRREMMAWCASHHAQWFTGHFAGPSCGWLEEDRPGEYRWRDAGERSADEGER				NA	NA	NA	NA	NA
BMS020_00026	912			hypothetical protein	ATGAATAATGCCCAGAGCGTATTGGTTTTTGGCGCCACCGGCCAGCAGGGCGGCTCGGTGGCGCGGGCGCTGCTGCACCGCGGCTGGCGAGTGCGGGCGCTGGTCAGGGATCCTTTCTCCGCCGGGGCTGTCGCGCTGGCGGCGCGGGGAGCCGAGCTGGTCATGGGCGCCTTTGAAGACCGGGCGGCAATGCGGGCGGCGATGGCCGGGGTCGACGGCGTCTTCAGCGTGCAGCCCAGCTCGCCGGGCGGGACGGTAACCGATGAGCAGGAGGTGCGCTACGGGATAACCATCGCCGACCTTGCCGTCGAGTGCGGGGTGAAGCATCTGGTGTACAGCTCCGGCAGCGCGGCGGGGGAGACGCCGACCGGCGTAGCGCATTATGACACCAAAGCGGCAATTGAGCGGCATATCCGCCGCCTGCCGCTGGCGGCGACCATCGTGCGGCCCGCCACCTTTATGGAGCTGCTGGTGATGCCCGGTTTTGGCCTTGATGAAGGTCATTTTCACTTTTTTATGCTGCCGGAGGGGAGGATGCAGGTGCTGGCGGTGGAGGATATCGGCCAGCTTGTCGCAGCGATTTTTGCCGCGCCGGCGCGGTTTGCCGGCAAGACGTTCGAGATCGCCAGCGACAGCGTGACCGGTCGTCAGCTCGAGGCGTTATTCTCCGAGGCGGCGGGACGGCCGATCCCCTATTCGCGATTTTCTGACGAGGTGCTGGCCGCCAGCCCTTTTCTGCACAAGCTGACCGGGCTGGTGGACGACGGGCGGCTGGCGGGGCACGCCGACCTCGACGCCCTGCGCCAGCTGCACCCGCAGCTGCACACCTTCGCCGGCTGGCTGGCGGGCCCCGGCCGTCCCGCCTTCGAGCGGGCGCTGACCAGCGGGACCCGCTGGGCGTTTAATCGTTAA	MNNAQSVLVFGATGQQGGSVARALLHRGWRVRALVRDPFSAGAVALAARGAELVMGAFEDRAAMRAAMAGVDGVFSVQPSSPGGTVTDEQEVRYGITIADLAVECGVKHLVYSSGSAAGETPTGVAHYDTKAAIERHIRRLPLAATIVRPATFMELLVMPGFGLDEGHFHFFMLPEGRMQVLAVEDIGQLVAAIFAAPARFAGKTFEIASDSVTGRQLEALFSEAAGRPIPYSRFSDEVLAASPFLHKLTGLVDDGRLAGHADLDALRQLHPQLHTFAGWLAGPGRPAFERALTSGTRWAFNR				NA	NA	NA	NA	NA
BMS020_00027	360			hypothetical protein	ATGACAATTTACCGATGGGCTTCGGCCTGCCTGTTAAGCATGACCTGTGCCGCTACGGCGGCGGAATTTAAAACCATCGAGGCCGATCTGCTGGCCTCCAACCGGCTGTTCTGTATGACCGGCTATGACCATAAGCCGATCGGCGTGGCGTGGGAGAGCGTCAAATCCAGCCGCTATCAGCCGCAGTCGGATGGCGACCGTATTTTCAGCGACACCGTCTCCCGGCGCTTTCTGGAAGAGGAGAATAAGACCGCCTTTTACAATGGCGCCAAATATCGCGTACTGGGTAAACCCGCCAGCGCCTGCTATGACTATTCCGCCGCGCGTATTCAACGCATGGCGGGCTACCTGAAGGTGTAA	MTIYRWASACLLSMTCAATAAEFKTIEADLLASNRLFCMTGYDHKPIGVAWESVKSSRYQPQSDGDRIFSDTVSRRFLEEENKTAFYNGAKYRVLGKPASACYDYSAARIQRMAGYLKV				NA	NA	NA	NA	NA
BMS020_00028	1176	dapL	COG0436	LL-diaminopimelate aminotransferase	ATGCCTGATTTCGCTGCTTCACCGCTGGTGGACGCCCTGGAAGAGAATCTGTTCAGCCTGCTGGAAAAACTGGCCGCGGAGGTCAACACCGACGCGCTGCCGTTGATCGACCTCTCCAGCGGCAGTCCGGATCAGCCCACGCCGCCGGAAGTGATTGACTCGCTGCAGAGCGCCATTCATCGTCGTGAAAACCATGGCTACCCGTCGTTCTGGGGCAAGCCGCAGGTCCGCGAAGCGATCGCCCATTTTTATCGCCGCCAGTATGATGTGGAACTCGATCCGCACAGCGAAGTCGCGGTATTTCAGGGCTCGCATATTGGTATTGGCGGCATCCCTCGGGCGCTGCTCCGTCCCGGGCAATACCTCATCTCCACCGATCCCTGCTATCCCATTTACCGCTCAGCGGCGCTGCAGTCCCAGGCGGCGTTTTATGGCCTGCCGCTCAGGGCTGAGAACCACTTCCTGCCGGATTTTAACGACCTCCCCCGGGAGGTGGCTGACCAGGCCGGGCTGGTGGTGCTTAACTATCCGCATAACCCCACCGGCGCCCTCGCCACGCCGGCGCTGTTCGCCAGCGCCCTGCAGTTTGCCCGCCGTCACCAGGTGCCGATCCTGCACGATTTTGCCTATGCGGCCATCGGCAGCGCGGCCAGCGACGCGCCGCTGAGCCTTTTCTCTCAGCCCGGCGCGAAAGCGTGGGGAGTGGAGACCTACACCTTCTCCAAGACCTTTAATATGGCCGGCTGGCGCTTCGGCTTCGCGGTCGGCAACGCCTCGATTATCCGGGCGTTTAAAAAACTGCACACCCACAGCTACAGCACGGTGTTTGGCGCCATTCAGGATGCAGCGATCGCCGCGCTCAGCCTGCCGGCAGAACGGATTGCGCAGCTGACGGCGGTGTATCATCAGCGCCGGGAGTGGGTTCTGCGTCGACTGGCCGCACTGCGCTGGCCGGTTCGTGCCGCACAAGGTACTTTCTTCCTCTGGCTGAGCGTGCCGCCCGGGTACCGTTCACAGGAGTTTGCCCGCCTGCTGCTGCAGGAGGCGCATATTCTGGTGGCGCCAGGCACTGGTTTTGGCGATGGGGGTGAAGGGTTTATTCGCATCAGTCTGACGGCTGGGGATGACGCGCTGAGCAAGGCGCTGGACCGTCTCGCCCGGCTGGCGCTGTTTTAG	MPDFAASPLVDALEENLFSLLEKLAAEVNTDALPLIDLSSGSPDQPTPPEVIDSLQSAIHRRENHGYPSFWGKPQVREAIAHFYRRQYDVELDPHSEVAVFQGSHIGIGGIPRALLRPGQYLISTDPCYPIYRSAALQSQAAFYGLPLRAENHFLPDFNDLPREVADQAGLVVLNYPHNPTGALATPALFASALQFARRHQVPILHDFAYAAIGSAASDAPLSLFSQPGAKAWGVETYTFSKTFNMAGWRFGFAVGNASIIRAFKKLHTHSYSTVFGAIQDAAIAALSLPAERIAQLTAVYHQRREWVLRRLAALRWPVRAAQGTFFLWLSVPPGYRSQEFARLLLQEAHILVAPGTGFGDGGEGFIRISLTAGDDALSKALDRLARLALF				NA	NA	NA	NA	NA
BMS020_00029	804	metQ_1	COG1464	putative D-methionine-binding lipoprotein MetQ	ATGAACAAGTCAGTTGCGCTCGGAATGACGCTCGCCCTGTTATCCGCTTCCTCCTTTTACGCCACCGCCGATCAAATTATTCGCATCGGCTTTAACCCCGGGCCGTATAAAGAGCAATTTGAAAAAGGGGTCGCCCCCTATTTATTGAGTAAAGGATATAAAATCGAATATAAAGATTTCAGCGACGGTATTCAGGTCAATGACGCGGTAGCTCGCGGCGATATCGAAGCGAATATTATGCAGCATCCGGTATACCTGAAAGCGATCAATGAGCGACTGGGGATCGATAACGTCGGCATAGTGCAGGTACCCACGCCGCCGATGGGTCTGTACGGCGGCAAGCTGACGACCCTGGGCACCCCGGCAGCCGGCACGGTGGTGTCGGTGCCAAACCAGCCGTCGAACGAATATCGCGCGGTACTGGTGCTGGAAAGCCTCGGCTGGGTGAAGATTAAACCGGACAGCGATCCCGCCACCTTTTCGCAGCGCAATATCGTTGCCAACCCCTATAACATCGTGCTTAAGGAGATGGACAATGCCCAGCAGGTTCGCGCGCTGCCGGACGTCGACTATGGCCTGATTCAGGGTAATTTCGCCGTCTCCAGCGGCATGGCGCTTACCTCGGCATTAAAGCTGGAGGCCGCCACCAGCCATTTTATTAACGTTGTGACCGTTGCCGGTAAAAATCAGAAGGCGCAGTTTGCCAAAGATATCATCGACGGCTATCACTCTGCCGATTTCAAAAAATATATTCTCAGCCATCCGCAGTATGATGGTTACCTGCTGCCTGATTATTTAAAATGA	MNKSVALGMTLALLSASSFYATADQIIRIGFNPGPYKEQFEKGVAPYLLSKGYKIEYKDFSDGIQVNDAVARGDIEANIMQHPVYLKAINERLGIDNVGIVQVPTPPMGLYGGKLTTLGTPAAGTVVSVPNQPSNEYRAVLVLESLGWVKIKPDSDPATFSQRNIVANPYNIVLKEMDNAQQVRALPDVDYGLIQGNFAVSSGMALTSALKLEAATSHFINVVTVAGKNQKAQFAKDIIDGYHSADFKKYILSHPQYDGYLLPDYLK	PGPT0020510_4571	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
BMS020_00030	1026	metN_1	COG1135	Methionine import ATP-binding protein MetN	ATGAATAACGCGATGATAGAATTTCGCCATGTCAGTAAAACCTTTAACAGAAAAGGGCATCCGGTTCTGGCCCTGCAGGATATTAATCTCAGTATCGACCGGGGCGATATTTTCGGCATTATTGGCTACAGCGGCGCAGGGAAAAGCACCTTATTGCGGCTGATTAATCGTCTGGAAACGCCGGGTGAGGGCGAGGTGGTGTTGAACGGTGAGTCGCTCCAGGACTGCAGCGGCCAGCGCCTGCAGGCGATCAAAAAAGATATCGGCATGATTTTTCAGAATTTTAATCTGCTGAATTCGAAAACGGTATTTCATAACATCGCTATCCCGCTTATTTTGCAGGGACGCGACAAGGCCTTTATCCAGGCGCGGGTTGCGGAGCTGCTGGCGTTTGTCGACCTGAGCGACAAAATGCACAGTTACCCGAATGAGCTGTCGGGAGGGCAAAAGCAGCGGGTCGGAATCGCCCGGGCGCTGGCCACCAACCCGTCGGTGCTGCTGTGTGATGAAGCCACCTCGGCGCTCGACCCCCATACCACGGTACAGATCTTATTGCTGCTGCAGGAGATTAATCGCCGCTATGGCATCACCATTGTGCTGATTACGCATGAAATGTCAGTGATTCAGACAATCTGTCACAAGGTGGCGGTGATGCAGGCCGGGCGCATTGTTGAGCAGGGGACGGTTTTCGATCTCTTTGCCCAGCCGCAGCATCCGGTCACCGCCAGTTTCGTGCAGTCGGTGGTGCACGATCGCCTGCCGCAGCGGGTGGCGTCGCTCCTGCAGCGCGACAACGGCGCCCGGGCTTTACGCCTCGAATTTATCGGCGCGACGGCCCGGCAGCCGATCATTAACCGCCTGATCCGCGAGTATGCTGTCGAGGTGAATATCCTGTTTGCCAGCATGTCCGAAGTTCAGGGCCGGATACTGGGATTTATGATTGTGCAACTCCTCGGCGAGCCTGACGAAACCGAACGCGCCATCACCCATCTGGCCGACGCAGGAGTGAAAATCATCCATGTTTGA	MNNAMIEFRHVSKTFNRKGHPVLALQDINLSIDRGDIFGIIGYSGAGKSTLLRLINRLETPGEGEVVLNGESLQDCSGQRLQAIKKDIGMIFQNFNLLNSKTVFHNIAIPLILQGRDKAFIQARVAELLAFVDLSDKMHSYPNELSGGQKQRVGIARALATNPSVLLCDEATSALDPHTTVQILLLLQEINRRYGITIVLITHEMSVIQTICHKVAVMQAGRIVEQGTVFDLFAQPQHPVTASFVQSVVHDRLPQRVASLLQRDNGARALRLEFIGATARQPIINRLIREYAVEVNILFASMSEVQGRILGFMIVQLLGEPDETERAITHLADAGVKIIHV	PGPT0020520_3088	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
BMS020_00031	669	metI_1	COG2011	D-methionine transport system permease protein MetI	ATGTTTGATCTAATTGATACCGCCATTACCGGCGAGCAGTTTCTGCTGGCGCTGCATGATACCCTGATTATGGTCGCCATCTCACTGGGCTTTGGCGCGCTGCTTGGCGTCCCGCTGGGAATTGTGCTGGTGGTTTGCCGTCCTGGCGGCATCGTGGCCAACCCGGTGGTGCATCAGGCGCTGAATCCGCTGATCAACGTGCTGCGCTCGCTGCCGTTTATCATTTTGCTGATTGTGATCCTGCCCTTCACCAGGCTGCTGGTGGGCACGACTATCGGCACCGCGGGGGCCATCGTGCCGCTGATCGTTTTTGTCGCCCCCTATATTGCCCGGCTGGTGGAGAGCTCGCTGCTGGAGGTGGATGAGGGGATCCTTGAGGCCGCAGACGCCATGGGCGCTACCCCTCTGCAGACCGTCTGGCATTTCATGCTGCCGGAGGCGGCGGCGTCGTTGATTCTGGCCCTTACCACCGCGACCATCGGTCTGCTTGGCGCGACCGCCATGGCGGGAACGGTGGGCGGCGGCGGGATCGGCGACCTGGCGATCACCTACGGCTATCAGCGTTTCGACGCCTTTGCCACCCTCACCACCGCCCTGGTGCTGATTGTTATTGTCCAGCTTATTCAGACGCTGGGCACCCGCCTGGCTCGCCGACTGCGTCGCGAATAA	MFDLIDTAITGEQFLLALHDTLIMVAISLGFGALLGVPLGIVLVVCRPGGIVANPVVHQALNPLINVLRSLPFIILLIVILPFTRLLVGTTIGTAGAIVPLIVFVAPYIARLVESSLLEVDEGILEAADAMGATPLQTVWHFMLPEAAASLILALTTATIGLLGATAMAGTVGGGGIGDLAITYGYQRFDAFATLTTALVLIVIVQLIQTLGTRLARRLRRE	PGPT0020515_1660	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072	NA	NA
BMS020_00032	1200	tyrB_1	COG1448	Aromatic-amino-acid aminotransferase	GTGTTCCAGAACGTTGACGCCTACGCGGGCGATCCTATCCTGTCGCTGATGGAGGCCTTTCAACAGGATCCCCGGGCAGACAAAGTTAACCTTAGCATCGGGCTGTACTATAACGAGCAGGCCATCATTCCTCAGCTGGAGGCGGTCCGTCAGGCCGCTGACCGGCTGCAGAGCCAGTTGCACAAGGCCAGCCTCTATCTGCCGATGGAGGGACTGGCTCCCTATCGCCGCGCGGTCCAGACGCTGCTGTTTGGCGAACACCATCCGGCGTTGCGTGCCGGACGCATCGCCACCATCCAGACGCTGGGCGGCTCCGGCGCGCTGAAGGTGGGTGCTGATTTCCTCAAGCGCTACTTCCCCGACTCCGCGGTCTGGGTCAGCGATCCAACCTGGGAGAACCATGTGGCCATCTTTGCCGGGGCGGGTTTCGAGGTGCATACCTATCCCTGGTTCGACAGCGCCACCCGTGGGGTCAATTTCCCCGCTATGCTTGCCGCCCTCCAACAGCTCCCGCCGCGCAGCATCGTGCTGCTCCATCCTTGCTGCCATAATCCGACGGGGGCCGATCTCGCCCCCGAGCAGTGGGATCGGGTGATTGAGGTGTTGATCGCCCGGGAGCTGATCCCGTTCCTCGATATTGCCTACCAGGGTTTTGGCCGCGGGCTGGATGAAGATGCCTATGCCATACGCGCCATCGCCAGCGCCGGACTGACGGCGCTGGTCAGCAACTCGTTCTCGAAGATTTTTTCACTGTACGGCGAGCGTGTCGGCGGCCTGTCGGTGGTCTGTGACAACGCCGATGCCGCCGGGCGCGTGCTGGGCCAGTTGAAAGCTACCGTACGCCGCAACTACTCCAGCCCGCCGGGGTTTGGCGCCCAGGTGGTGTCGCAGGTGCTCAACGATCCCGAGCTGAATGCCCTGTGGCAGGGTGAAGTGGAGGCCATGCGCACCCGCATCAGCGCGATGCGCGTCGCGCTGGTGAAGGCTCTGCAGGCAGCCCTGCAGGCGGTGGATTTTTCCTATCTGCTGACCCAGCGCGGCATGTTCAGTTACACCGGCTTTAGCGCCGATCAGGTAGACGTTCTGCGTGAAGAGCATGGCATCTATCTGATTGCCAGCGGTCGCGTCTGCGTGGCCGGGCTCAACCACGGCAATATTGCGCGGGTAGCCAGCGCCTTCGCCGCGGTCTGCGCACGCTGA	MFQNVDAYAGDPILSLMEAFQQDPRADKVNLSIGLYYNEQAIIPQLEAVRQAADRLQSQLHKASLYLPMEGLAPYRRAVQTLLFGEHHPALRAGRIATIQTLGGSGALKVGADFLKRYFPDSAVWVSDPTWENHVAIFAGAGFEVHTYPWFDSATRGVNFPAMLAALQQLPPRSIVLLHPCCHNPTGADLAPEQWDRVIEVLIARELIPFLDIAYQGFGRGLDEDAYAIRAIASAGLTALVSNSFSKIFSLYGERVGGLSVVCDNADAAGRVLGQLKATVRRNYSSPPGFGAQVVSQVLNDPELNALWQGEVEAMRTRISAMRVALVKALQAALQAVDFSYLLTQRGMFSYTGFSADQVDVLREEHGIYLIASGRVCVAGLNHGNIARVASAFAAVCAR	PGPT0020310_473	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020310-tyrB-K00832	NA	NA
BMS020_00033	615			hypothetical protein	ATGGATAACGTCCTTTCCCCTGAAAAACTGACCCACACCTGGCTGGAGGATGCCCTGGCGCTGCTGTTCGGCACGCTGATGATCTCCTTTGGCATTATCCTGTTTCGCCAGGCCGGCGCCCTGACCGGCGGGACGGCAGGCATGGCCTTTCTGATCCACTACGCCACCCACCTGCCGTTCGGCGTGGTTTTCTTCGCCATTAACCTGCCCTTCTACTGGCTCTCCGTCCGGCGGATGGGCGCCGCCTTCACGCTGAAAACCTTCTGCGCGGTCGGACTGGTGTCGCTGTTCTCCGACCTGCACGGCTACTTTATCCATGTCGATCGCCTGAACCCCTATTACGCCACCCTCTTCGGCAACATCATGGTCGGTATCGGCTTTGTGGTGCTGTTCCGCCATAAAGCAAGCCTCGGCGGCGTCAATATTCTGGCCCTCTATCTGCAGGATAAAAGCGGCATCCGCGCCGGTAAATTCCAGATGGTGGTGGACGCCTGCATCGTCACCGCCTCGCTGTGGGTGGTTAGCCTGCCGATGCTGCTGGTCTCTGTCCTCGGCGCCGTGATTTTGAATTCGATTATCGCCATGAACCACCGCCCAGGACGCTACGCGGTGTAA	MDNVLSPEKLTHTWLEDALALLFGTLMISFGIILFRQAGALTGGTAGMAFLIHYATHLPFGVVFFAINLPFYWLSVRRMGAAFTLKTFCAVGLVSLFSDLHGYFIHVDRLNPYYATLFGNIMVGIGFVVLFRHKASLGGVNILALYLQDKSGIRAGKFQMVVDACIVTASLWVVSLPMLLVSVLGAVILNSIIAMNHRPGRYAV				NA	NA	NA	NA	NA
BMS020_00034	480	lrp_1	COG1522	Leucine-responsive regulatory protein	ATGTACAACATCGACGACTATGATCTGAAAATTCTTACCCTGCTGCAGGCCAATGGCCGTTTGACCAATCAGGAGCTTAGCGAGCTTATCGGCCTGTCCGCTTCCCAATGTTCGCGCCGCCGTATCGCCCTTGAACAGGCGCAGCTTATCCTCGGCTACCATGCGCGTCTGGCGCCGGATGCCGCCGGGCAGGAGATGCTTGGCCTGATTGAGGTGCGCCTGCTGAATCACACCCCGCAATGCGTGGAGAGCTTTCATCAGATGCTCAGTGAAGTGGACGCCATTCTGGACGCCTGGAAAACCACCGGCGACGCCGATTATCTGCTGCGGGTAACGGTCCCGGACCTGCCCGGACTGAGCCATTTGATCAGCCATATTCTGGCGCAAAACAAAGGAGTGGCTCATCTGAAAACCGCCGTCGTGCTCAACCGCCTGAAGGAGAACGGCCAGCTGATGCCGGGCACGCCCTCGCTGCGCTGA	MYNIDDYDLKILTLLQANGRLTNQELSELIGLSASQCSRRRIALEQAQLILGYHARLAPDAAGQEMLGLIEVRLLNHTPQCVESFHQMLSEVDAILDAWKTTGDADYLLRVTVPDLPGLSHLISHILAQNKGVAHLKTAVVLNRLKENGQLMPGTPSLR				NA	NA	NA	NA	NA
BMS020_00035	1380	aroP_1	COG1113	Aromatic amino acid transport protein AroP	ATGACAACGCAGCAAGAGCATCAGTTAAAACGCGGGTTAAAAAACCGCCATATCCAGTTGATCGCCCTCGGGGGGGCGGTCGGCACCGGACTGTTTTTAGGTATCGCGCAAACGATCCGTATGGCAGGCCCCTCGGTCCTGCTGGGGTACGCCATCGCCGGGGTTATCGCCTTCTTTATCATGCGTCAGCTTGGCGAAATGGTGGTAGAGGAGCCGGTGGCGGGGTCGTTCAGCCATTTCGCCAACCGCTACTGGGGGCCCTTCGCCGGGTTTATGTCCGGCTGGAATTACTGGGTGTTGTACGTGCTGGTAAGCATGGCGGAGCTGACGGCGGTGGGGATCTATATTCAGTACTGGTGGCCGGAGGTACCCACCTGGCTGTCGGCGGCAATCTTCTTCGTGGCGATCAACGCCATCAACCTGACGCACGTCAAAGTGTATGGCGAGCTGGAGTTCTGGTTCTCAATTGTCAAAGTGGCCGCCATCATCAGCATGATCGCCTTTGGCTGCTATCTGTTATTTAGCGGTCACGGCGGGCCGGCGGCGACGGTGGCCAACCTGTGGCAGGACGGGGGATTTTTCCCTAACGGTATCACGGGCTTAGTGATGGCCATGGCGGTGATCATGTTCTCCTTCGGCGGGCTTGAGCTGGTGGGGATCACCGCGGCGGAAGCCGACGAACCGCATAAAACCATTCCCAAAGCCACCAACCAGGTGATCTACCGTATTCTGCTTTTTTATGTGGGGTCGCTGGCGGTCTTGCTGTCACTCTACCCGTGGCGGAACGTCGTGGAAGGGGGAAGCCCCTTTGTGCTGATCTTTCACGCCATTGACAGCAATATTGTGGCCAACGCCCTCAATCTGGTGGTGCTCACCGCCGCGCTGTCGGTCTACAACAGCTGCGTCTACTGCAACAGCCGGATGCTGTTCGGCCTGGCTCAGCAGGGCAACGCCCCGCGCGCGCTGCTGCGGGTGAACCACCGCGGGAGCCCGTTGACCGCCCTGGCGGTGTCCGCCGTCGCCACGGCGCTTTGCGTGGTGATTAACTATGTGATGCCCGGGAAAGCCTTTGCTCTGCTGATGGCCCTGGTGGTGGCCGCCCTGGTCATCAACTGGGCGATGATCTGCATCACTCATCTTAAGTTCCGTCGCGCCATGCAGCAGGCCGGGAAGGTAACGGCTTTCCAGAGTTTCGCCTATCCCCTGACAAACTGGCTGTGTCTGCTGTTTCTCGCCGGGATCCTCGGGGTGATGTATCTGACCCCGGACATCCGCATCTCCGTCTGCCTGATCCCGGTATGGCTGCTGATCCTTGCCGCAGGCTATCTGCTGCGCAGGAAAAGCGCGCCGGAGCCGGTGGCGGCGCTGGAGGAGCGGTAG	MTTQQEHQLKRGLKNRHIQLIALGGAVGTGLFLGIAQTIRMAGPSVLLGYAIAGVIAFFIMRQLGEMVVEEPVAGSFSHFANRYWGPFAGFMSGWNYWVLYVLVSMAELTAVGIYIQYWWPEVPTWLSAAIFFVAINAINLTHVKVYGELEFWFSIVKVAAIISMIAFGCYLLFSGHGGPAATVANLWQDGGFFPNGITGLVMAMAVIMFSFGGLELVGITAAEADEPHKTIPKATNQVIYRILLFYVGSLAVLLSLYPWRNVVEGGSPFVLIFHAIDSNIVANALNLVVLTAALSVYNSCVYCNSRMLFGLAQQGNAPRALLRVNHRGSPLTALAVSAVATALCVVINYVMPGKAFALLMALVVAALVINWAMICITHLKFRRAMQQAGKVTAFQSFAYPLTNWLCLLFLAGILGVMYLTPDIRISVCLIPVWLLILAAGYLLRRKSAPEPVAALEER	PGPT0020807_404	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020807-aroP-K11734	NA	NA
BMS020_00036	147			hypothetical protein	ATGGGGTTCTGGCTGGTCGTTATCCTGTTTATCGCCGTGGGGAAGGAGAGCCGCCAGCGGGAACGAGGGCCGTGGCGGCGGAAGGGGGAGATCAACGGCAGGCGCGTCGGCCAGGCCTTCGGTATACCGCAACAGGCTGCCTGTTAA	MGFWLVVILFIAVGKESRQRERGPWRRKGEINGRRVGQAFGIPQQAAC				NA	NA	NA	NA	NA
BMS020_00037	195			hypothetical protein	ATGTACTACACGTTAGGAGATACCACTCTCCATTTTTATCGCTATCAGTGCAAATTCTACGTCGCCCACTGGGAAGGAGGGAACGTGATGGACGAAAAATTTAAACCGTTTATCGAGCAGATCACTGAGAAGACCGGGCTGGACGCGAAGCGCGTCGAGACCGCCGCGCGCGATTATTTTACTAACGTGGATTAA	MYYTLGDTTLHFYRYQCKFYVAHWEGGNVMDEKFKPFIEQITEKTGLDAKRVETAARDYFTNVD				NA	NA	NA	NA	NA
BMS020_00038	1119	ydgJ_1	COG0673	putative oxidoreductase YdgJ	ATGATCCTGCCCTCTCTGTACATATTGCTGACGCTTAACAACGTGGAGAACCTGATGAGTAACAACACGATAAATATCGCCCTGATTGGCTATGGCTTCGTCGGTAAGACTTTCCACGCGCCGCTTATCCGTTCGGTGCCGGGCCTGAACCTGGCCTTCGTCGCCTCGCGCGATGAAGAGAAAGTCAAACGCGACCTGCCGGACGTCACGGTGATCGCTTCCCCGGAAGCGGCGGTCCAGCACCCGGATGTCGATCTGGTGGTTATCGCCTCCCCTAACGCCACGCACGCGCCGCTGGCCCGCCTGGCGCTGAACGCCGGCAAGCATGTTGTGGTGGACAAACCCTTTACCCTTGATATGCAGGAGGCCCGGGAGCTGATCGCCCTGGCGCAGGTGAAACAGCGCCTGCTTTCCGTTTTCCATAACCGCCGTTGGGACAGCGATTATCTCGGTATCCGTCAGGTTATTGAGCAGGGCGCCATCGGCACGGTGAAACATTTTGAGTCCCATTTCGACCGGTTCCGCCCGGAAGTCCGCGTCCGCTGGCGCGAGCAGAACGTCCCCGGCAGCGGCTTATGGTTCGATCTGGGGCCGCACCTGATCGATCAGGCGCTGCAGCTGTTTGGTCTGCCGCAGTCGGTACAGGGCAACATCGCCACCCTGCGCGACGGCGCGGAGATCAACGACTGGGCGCATGTGGTCTTAAACTACCCGGCGCATAAAGCGATCCTCCACTGCAGCATGCTGGTCGCGGGGGGCTCCTCGCGCTTCACGGTGCATGGCGATAAAGGCAGCGTTGTCAAAGCGCGGGCCGACCAGCAGGAGAGCCAGCTGCTGGCGGGTGTGGTGCCGGGAAGCGCCGGCTGGGGCGAGGATGAGGATGGGCTGGTTATCTATGACGCCTCGCTGCAGACCCAAACCCAGCCTACCCCGCCGGGCGATCAGCGCCAGTACTATATGCAGATCCGCGACGCGTTGAAGGGCCTGATCGCCAATCCGGTGCCGCCGGTGCAGGCGCTGGCGGTGATGGCCGTCCTGGAAGCGGCGGCGCGTTCTGCAGAAAGCGGCGTGGCGCAGACCCTCGACCTGACCGACGACGAGCGCAACGCGCTGCGCTAA	MILPSLYILLTLNNVENLMSNNTINIALIGYGFVGKTFHAPLIRSVPGLNLAFVASRDEEKVKRDLPDVTVIASPEAAVQHPDVDLVVIASPNATHAPLARLALNAGKHVVVDKPFTLDMQEARELIALAQVKQRLLSVFHNRRWDSDYLGIRQVIEQGAIGTVKHFESHFDRFRPEVRVRWREQNVPGSGLWFDLGPHLIDQALQLFGLPQSVQGNIATLRDGAEINDWAHVVLNYPAHKAILHCSMLVAGGSSRFTVHGDKGSVVKARADQQESQLLAGVVPGSAGWGEDEDGLVIYDASLQTQTQPTPPGDQRQYYMQIRDALKGLIANPVPPVQALAVMAVLEAAARSAESGVAQTLDLTDDERNALR	PGPT0018530_388	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
BMS020_00039	744	glcR_1	COG1349	HTH-type transcriptional repressor GlcR	ATGCATAAGCTCGCGCGACAAAAACACATCCTTGACCGGCTGAGTGAAACCGGTCAGCTGAGCATCAGCGAACTGGTTGATGCGCTGCAGGTGTCGGCCGATACCATACGCCGGGATCTCAGTGAGCTGGAAAACCAGGGGGTACTGCAGAAAAGCCACGGCGGCGCCATCGCGCTTAACGTCCCGGCGATGACGCGCCAGGGAAGAAACGCCCTGCTCCCCGGAACGAAACAGCGTCTGGGCCAGCAGGTCGCCGCGCGCATCCCCTCCGGCTCGACGCTGTTTCTCGACGCCGGCAGCACACTGCTGGCCGTCGCTACCCAGCTGAAAGGCCCCATGACCGTGATCACCGCGTCGCTGGATATCGCTCAGCTGTTCAGCGACCGCGCCGATATCCAGCTTATCCTGCTTGGCGGCCAGTGGGACAGTGAACAGCGGCTGTTCGCCGGCAGCGCCACGCTGTCGCTGGTGGCGCGCTACCGCGCCGATATCGCGATTCTCGGCGCCTGCGCGTTGCATGCCGAACTGGGCCTGAGCGCCAGCCAGGAGGCCGATGCGGACGTAAAACGCGCCATGCTCGCCGCCAGCGCGGAACACTGGCTGGTGGCGGACCATACCAAAGTCAACCATTGCGAACCCTGGCTGGTGGCCGGTCTCAGCGACATTCACCATCTTTTCCTCGATCGTCCCTGGCCTGAGCTGGGGGATGATCCTGCCCTCTCTGTACATATTGCTGACGCTTAA	MHKLARQKHILDRLSETGQLSISELVDALQVSADTIRRDLSELENQGVLQKSHGGAIALNVPAMTRQGRNALLPGTKQRLGQQVAARIPSGSTLFLDAGSTLLAVATQLKGPMTVITASLDIAQLFSDRADIQLILLGGQWDSEQRLFAGSATLSLVARYRADIAILGACALHAELGLSASQEADADVKRAMLAASAEHWLVADHTKVNHCEPWLVAGLSDIHHLFLDRPWPELGDDPALSVHIADA	PGPT0018445_1568	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULE_REGULATION,PGPT0018445-glpR-K02444	NA	NA
BMS020_00040	984	zntB_1	COG0598	Zinc transport protein ZntB	GTGGACGCGATTAAAGGCTCGGAGTTGCAGATACCGGACGCGATCTTCGCGTGGGTGCTCGACGGGCAGGGGGGCGTGAAGCCGCTCGCCGATGACGATATTATCGACAAAGAGAAGCCCTGCTGGCTGCATCTCAACTATACCCATAGCGACAGCGCCGACTGGCTGGCGGCCACCCCGTTGCTGCCCAATAACGTGCGCGATGCCCTGGCGGGCGAGAGCACCCGACCGCGGGTGACGCGGATCGGCGACGGGGCGTTGATTACCCTGCGCTGCATCAACGGCAGCACCGATGAACGGCCAGACCAGCTGGTGGCGATGCGTCTGTATATGGATGAGCGGCTGATCGTCTCCACTCGTCAGCGCAAAGTGCTGGCGCTGGACGATGTGCTGGGCGACCTGAAGGAGGGCAATGGGCCGACGGATGGCGGCAGCTGGCTGGTGGAAGTCTGCGACGCGCTGACCGATCATGCCAGTGAGTTTATTGAACAACTGCACGACCGAATTATCGACCTCGAAGACGACCTGCTCGATCAGCAGGTGCCGCCGCGCGGTTTTCTCGCGCTACTGCGTAAGCAGCTGATTGTGATGCGCCGGTATATGGCGCCGCAGCGCGATGTTTACGCCCGGCTGGCCAGCGAACGCCTGCCGTGGATGAGCGACGATCAGCGGCGGCGGATGCAGGATATCGCCGAGCGGCTGGGGCGCGGGCTGGACGAGATCGACAGCTGCATTGCCCGGACGGCGATCATGAGCGATGAGATCGCCCAGATTATGCAGGAGTCGCTGGCGCGGCGGACCTATACGATGTCGTTGATGGCGATGGTGTTTCTGCCCAGCACCTTTTTAACCGGCCTGTTCGGCGTCAACCTCGGGGGGATCCCAGGTAACAGCTGGCATCTGGGCTTTAGCCTCTTTTGCCTGATGTTAGTCGTTGTCATCGGTGGTGTTGCGTGGTGGTTACATCGCAGTAAATGGTTGTAA	MDAIKGSELQIPDAIFAWVLDGQGGVKPLADDDIIDKEKPCWLHLNYTHSDSADWLAATPLLPNNVRDALAGESTRPRVTRIGDGALITLRCINGSTDERPDQLVAMRLYMDERLIVSTRQRKVLALDDVLGDLKEGNGPTDGGSWLVEVCDALTDHASEFIEQLHDRIIDLEDDLLDQQVPPRGFLALLRKQLIVMRRYMAPQRDVYARLASERLPWMSDDQRRRMQDIAERLGRGLDEIDSCIARTAIMSDEIAQIMQESLARRTYTMSLMAMVFLPSTFLTGLFGVNLGGIPGNSWHLGFSLFCLMLVVVIGGVAWWLHRSKWL	PGPT0004205_786	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNT_TRANSPORT_SYSTEM,PGPT0004205-zntB-K16074	NA	NA
BMS020_00042	1374	dbpA_1	COG0513	ATP-dependent RNA helicase DbpA	GTGACCGCTTTTTCTACCCTGACTGTTTTACCTGCTGCCCAATTAGCCAACCTTAACGAGCTGGGTTATCTGTCGATGACGCCGGTTCAGGCCGCCGCCCTGCCGGCGCTCCTCGCGGGGAAAGATGTGCGCGTGCAGGCAAAAACCGGCAGCGGAAAAACGGCCGCCTTCGGGCTGGGCCTGCTGCAGCATATCGATCCGTCGCGCTTTGAGACCCAGTCGCTGGTGCTGTGTCCGACCCGTGAACTGGCCGATCAGGTTGCCGGCGAGCTGCGCCGTCTGGCGCGCTGCCTGCCGAACATCAAGATTTTGATGCTCTGCGGCGGGCAGCCGTTTGGCGCTCAGCGCGATTCACTGCAGCACGCCCCGCATATTATCGTCGCCACCCCGGGCCGTCTGCTCGATCATCTGCAGAAGGGGACGGTCTCTCTCGACGCGCTGCAGACCCTGGTGATGGATGAAGCGGACCGCATGCTCGATATGGGCTTCAGCGACGCCATCGACGAGGTGATCCGCTTCGCGCCGGCTGACCGGCAGACGCTGCTGTTTTCCGCCACCTGGCCTGCGGCGATCGCGGCGATCAGCGGTCGGGTGCAGCGTCATCCGGAAACGATTGAGATTGACAGCGTCGATGCGTTACCGGCTATCGAACAGCAGTTCTTTGAAGTTTCCCGTCACGGCAAGATTGCGCTGCTCCAGCGTCTGCTTAGCCAGCATCAGCCGGCGTCCTGCGTGGTGTTCTGCAATACCAAGCGCGATTGCCAGGCGGTCTGCGATGCGCTCAACGCCGCCGGGCAGAGCGCATTATCGCTGCACGGTGACCTCGAGCAGCGCGACCGCGATCAAACGCTGGTGCGCTTCGCGAACGGCAGCGTCCGGGTTCTGGTGGCGACCGACGTCGCCGCCCGCGGCCTGGACATCAAATTTCTCGCGCTGGTGGTGAACTTCGAGCTGGCCTGGGATCCGGAGGTGCATGTTCACCGCATCGGCCGTACCGCCCGCGCCGGCGAACAAGGCCTGGCTATCAGCTTCTGCGCGCCGGAAGAGGCGCAGCGCGCCACCATTCTGGCCGACATGCTGCAATTATCCCTTAACTGGCTGCCGGCGCCGACGGGCAACGCTATCACGCCGCTGACGGCGGAGATGGCGACGCTGTGCATCGACGGCGGAAAAAAGGCGAAAATGCGCCCGGGGGATGTGCTGGGAGCGTTGACCGGAGATATGGGGTTTGATGGCGCCGATATCGGCAAAATTACCGTCCACCCGGCCCACGTCTATGTGGCGATCCGCCAGAATATGGCGCAGAAAGCGTATAAGCAGTTACAAAACGGCAAGATCAAAGGCAAAGCCTGCCGCGTACGACTGCTGAAGTAA	MTAFSTLTVLPAAQLANLNELGYLSMTPVQAAALPALLAGKDVRVQAKTGSGKTAAFGLGLLQHIDPSRFETQSLVLCPTRELADQVAGELRRLARCLPNIKILMLCGGQPFGAQRDSLQHAPHIIVATPGRLLDHLQKGTVSLDALQTLVMDEADRMLDMGFSDAIDEVIRFAPADRQTLLFSATWPAAIAAISGRVQRHPETIEIDSVDALPAIEQQFFEVSRHGKIALLQRLLSQHQPASCVVFCNTKRDCQAVCDALNAAGQSALSLHGDLEQRDRDQTLVRFANGSVRVLVATDVAARGLDIKFLALVVNFELAWDPEVHVHRIGRTARAGEQGLAISFCAPEEAQRATILADMLQLSLNWLPAPTGNAITPLTAEMATLCIDGGKKAKMRPGDVLGALTGDMGFDGADIGKITVHPAHVYVAIRQNMAQKAYKQLQNGKIKGKACRVRLLK	PGPT0013740_2393	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS020_00043	936	ttcA_1	COG0037	tRNA-cytidine(32) 2-sulfurtransferase	ATGCAAGAAAACCAAGAACTTACAAAGAAAGAGAAATACAACATCGACAAGCTGCAGAAACGTCTGCGCCGCAACGTCGGTGAGGCGATCGCCGACTTCAATATGATTGAAGAAGGCGACCGCATTATGGTTTGTCTGTCAGGCGGCAAGGACAGCTATACCATGCTGGAGATCCTGCGTAACCTGCAGAAAAGCGCGCCCATCTCCTTCTCGCTGGTGGCGGTGAACCTCGACCAGAAACAGCCCGGGTTCCCGGAGCATATTCTGCCGGCGTATCTTGAGCAGCTGGGCGTTGAATACAAGATTGTCGAAGAGAATACCTACGGCATCGTCAAAGAGAAGATCCCGGAAGGGAAAACCACCTGCTCGCTCTGCTCTCGCCTGCGTCGCGGCATTCTCTACCGTACCGCCAGCGAACTCGGCGCCACCAAGATTGCCCTCGGCCATCATCGCGACGACATCCTGCAGACGCTGTTCCTGAATATGTTCTACGGCGGCAAAATGAAAGGGATGCCGCCGAAGCTGATGAGCGATGACGGCAAACACATCGTCATCCGCCCGCTGGCCTACTGCCGCGAAAAGGACATCGAGCGTTTCTCCCAGGCCAAGGGCTTCCCGATTATTCCGTGCAACCTGTGCGGGTCGCAGCCTAACCTGCAGCGCCAGGTGATCGCCGATATGCTTCGCGACTGGGATAAGCGTTATCCGGGACGCATTGAAACCATGTTTAGCGCGATGCAGAACGTGGTGCCTTCGCACCTGAGCGACGTTAATCTTTTTGATTTTAAAGGCATCACCCACGGTTCTGAGGTGGTGGACGGCGGCGATCTGGCGTTTGACCGTGAAGAGATTCCCCTGCAGCCTGCCGGCTGGCAGCCGGAGGAAGAGGACGCCCGGTTAGATGAGCTGCGTCTGAACGTAGTGGAAGTGAAGTAA	MQENQELTKKEKYNIDKLQKRLRRNVGEAIADFNMIEEGDRIMVCLSGGKDSYTMLEILRNLQKSAPISFSLVAVNLDQKQPGFPEHILPAYLEQLGVEYKIVEENTYGIVKEKIPEGKTTCSLCSRLRRGILYRTASELGATKIALGHHRDDILQTLFLNMFYGGKMKGMPPKLMSDDGKHIVIRPLAYCREKDIERFSQAKGFPIIPCNLCGSQPNLQRQVIADMLRDWDKRYPGRIETMFSAMQNVVPSHLSDVNLFDFKGITHGSEVVDGGDLAFDREEIPLQPAGWQPEEEDARLDELRLNVVEVK				NA	NA	NA	NA	NA
BMS020_00044	435	uspF	COG0589	Universal stress protein F	ATGAGCAGAATGATTCTTGTCCCCATCGATATCTCTGATAAAGAATTTACTGAACGCATTATCAGTCACGTTGAATCGGAAGCGCGGATTGACGACGCTGAGGTCCATTTCCTCTCCGTTATCCCTTCCCTGCCTTATTATGCCTCACTGGGAATGGCCTATACCGCCGAACTGCCTGGTATGGATGAGCTGCGCGAAGGGACGGAAACGCAGCTTAAAGAGCTCGCGAAGCAGTTCTCTATCCCGGAAGATCGGAAACATTTTCACGTTGCCGAAGGGTCGCCAAAGGATAAGATCCTGGCCCTCGCCAGGTCGCTACCCGCCGACCTGGTGATCATCGCTTCGCACCGGCCGGATATTACCACCTATCTGCTGGGCTCCAACGCCGCCGCGGTGGTCCGCCACGCCGAGTGCTCGGTGCTGGTCGTTCGCTAA	MSRMILVPIDISDKEFTERIISHVESEARIDDAEVHFLSVIPSLPYYASLGMAYTAELPGMDELREGTETQLKELAKQFSIPEDRKHFHVAEGSPKDKILALARSLPADLVIIASHRPDITTYLLGSNAAAVVRHAECSVLVVR	PGPT0015000_203	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015000-uspF-K14061	NA	NA
BMS020_00045	213			hypothetical protein	ATGCATCATCACCCGGTAAAATCATCCCGAATTATCTCTGTCGCCTATGATGACGCCTCCGCCACGCTGGAAATCTGTTTTTATCACCAGCCGCCGTTGCAATATACCGGGGTTCCACCGCGTATTTTTCGTGACTTTTTACAGGTGGTGTCAAAAGGCCGATTTTATGACGGCGTGATAAAGGGAAAATTCCCCGAACGCAAGCCACGTTAA	MHHHPVKSSRIISVAYDDASATLEICFYHQPPLQYTGVPPRIFRDFLQVVSKGRFYDGVIKGKFPERKPR				NA	NA	NA	NA	NA
BMS020_00046	1125	ompN_1	COG3203	Outer membrane porin N	ATGAAAAGAAAAGTACTGGCCCTCGTTATTCCGGCTTTATTAGCCGCTGGCGCTGCGCACGCGGCGGAAATTTATAATAAAGACGGAAATAAATTAGATGTCTATGGCAAGGTAGACGGTCTGCACTATTTCTCCAGCGACTCGAAAAAAGACGGCGACCAAACTTACGTTCGCTTTGGCTTTAAAGGCGAAACCCAGATCAACGATATGCTCACCGGTTACGGCCAGTGGGAATACAACGTTCAGGCCAACAATACCGAAAGCGCCGGCGATCAGGCGTGGACCCGTCTGGCCTTCGCCGGTATCAAAGTGGGCGATTACGGTTCTTTCGACTACGGTCGTAACTACGGCGTGCTGTACGACGTCGAAGGCTGGACCGATATGCTGCCGGAGTTCGGCGGCGACTCTTACACCTATGCGGATAACTTTATGGCAGGCCGCGCCAACGGCGTCGCGACCTACCGCAACAGCGATTTCTTCGGTCTGGTGGATGGTCTGAACTTCGCCCTGCAGTATCAGGGTAAAAACGAAGGCCAAAACGCCCAGGATATCAACGTCGGCACCAACAACCGCAGCAGCGACAGCGATGTTCGCTTTGACAATGGCGACGGTTTCGGTCTTTCCACCTCCTATAACTTCGGCATGGGCATCAGCGCGGCTGCGGCCTATACCTCTTCTGACCGTACCAACGACCAGATGACCCAGACCAACGCCCGCGGCGATAAAGCCGAAGCCTGGACTGCCGGTCTGAAGTACGACGCCAACGATATCTACCTGGCGACCATGTACTCTGAAACCCGCAATATGACCCCGTACGGCAATGACGGCGTGGCCAACAAGACGCAAAACTTCGAAGTCACTGCTCAGTATCAGTTCGACTTCGGTCTGCGTCCGGCTATCTCCTACCTGCAGTCCAAAGGCAAAGATCTCTATAATACCGGCAGCTACGCCGATAAAGATCTGGTCAAATATATGGACGTCGGCGCCACCTATTACTTCAACCGTAATATGTCCACCTACGTTGATTACAAAATCAACCTGCTGGATGACAACGACAGCTTCTACAAAGACAACGGTATTTCTACCGACAACATCGTCGCGCTGGGCCTGGTTTACCAGTTCTGA	MKRKVLALVIPALLAAGAAHAAEIYNKDGNKLDVYGKVDGLHYFSSDSKKDGDQTYVRFGFKGETQINDMLTGYGQWEYNVQANNTESAGDQAWTRLAFAGIKVGDYGSFDYGRNYGVLYDVEGWTDMLPEFGGDSYTYADNFMAGRANGVATYRNSDFFGLVDGLNFALQYQGKNEGQNAQDINVGTNNRSSDSDVRFDNGDGFGLSTSYNFGMGISAAAAYTSSDRTNDQMTQTNARGDKAEAWTAGLKYDANDIYLATMYSETRNMTPYGNDGVANKTQNFEVTAQYQFDFGLRPAISYLQSKGKDLYNTGSYADKDLVKYMDVGATYYFNRNMSTYVDYKINLLDDNDSFYKDNGISTDNIVALGLVYQF	PGPT0012995_42	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-PORIN_METABOLISM|TRANSPORT,PGPT0012995-ompF-K09476	NA	NA
BMS020_00048	3528	nifJ	COG0674	Pyruvate-flavodoxin oxidoreductase	ATGATTACTATTGATGGTAATGGCGCGGTCGCTTCCGTCGCGTTTCGCACCAGTGAAGTTATCGCCATCTACCCGATCACGCCCAGTTCAACGATGGCGGAACAGGCCGACGCCTGGGCCGGCAATGGGCTGAAAAACGTCTGGGGCGATGTGCCCCGCGTGGTCGAAATGCAGTCGGAGGCAGGCGCCATTGGCGCCGTACATGGCGCGCTGCAGACCGGCGCCCTCTCCACCTCCTTTACCTCATCGCAGGGCCTGCTGCTGATGATCCCCACGCTGTACAAACTGGCTGGCCAGCTGATGCCGTTTGTCCTGCACGTCGCCGCCCGCACCGTCGCCACCCACGCGCTGTCGATCTTCGGCGACCATTCCGATGTGATGGCGGTCCGCCAGACCGGGTGCGCCATGCTGTGCGCCAGCAGCGTTCAGGAAGCGCAGGATTTCGCGCTGATCTCGCATATCGCCACTCTGCAAAGCCGGGTGCCGTTTATTCATTTCTTTGATGGTTTCCGTACCTCGCACGAAATCAACAAAATCGCCCCGCTGGCGGATGACACGATTCGCACCCTGCTGCCGCAGGAAAAAATCGCTGAGCATCGCCAGCGCGCGCTCAATCCGGAACACCCGGTGATCCGCGGGACCTCGGCCAACCCTGACACCTACTTCCAGTCGCGGGAGGCCACCAACCCGTGGTACGACGCGGTTTATGATCATGTCGAGAAAGCGATGGATGACTTCGCCGCCGCCACCGGCCGCCAGTACAAACCGTTTGAGTTTTACGGCCATCCGCAGGCGGAACGCGTCATCGTCATTATGGGCTCGGCCATCGGCACCTGCGAAGAGGTGGTCGATGAGTTGCTGAGCCGCGGCGAGAAAGTCGGCGTGCTGAAGGTCCGCCTCTATCGTCCGTTCTCCGCCGCCCACCTGCTGGCAGCGCTGCCGGAGAGCGCCCGGGCGGTGGCGGTGCTGGATCGCACCAAAGAACCTGGCGCGCACGCGGAGCCGCTGTACCTCGACGTGATGACCGCCCTGGCGGAAGCCTTTAACCGCGGCGAGCGCGAGACGCTGCCGCGGACCATCGGCGGCCGCTACGGTCTCTCTTCCAAGGAGTTCGGTCCGGAATGCGTGCTGGCGATATTCCATGAGCTGCAGGCCGCCCAGCCGAAGCCGCGCTTTACCGTCGGCATCTATGACGACGTGACCAACCTGTCGCTACCGCTGGGCGAAAATACCCTGCCGGCAGAGGCCAAGCTCGAAGCGCTGTTCTACGGCCTCGGCAGCGACGGCAGCGTGTCGGCCACCAAAAACAATATCAAAATCATCGGCAACTCCACCCCGTGGTTCTCCCAGGGGTACTTTGTCTATGACTCGAAGAAGGCGGGCGGCCTGACCGTCTCCCATCTGCGGGTCAGCGAAAAGCCGATTCGTTCTTCGTATCTGATTTCGCAGGCCGATTTCGTTGGCTGCCACCAGCTGCAGTTTATCGATAAATACCAGATGGCCGAGCGGCTGAAGCCCGGCGGCATTTTCCTGCTCAACACGCCGTACAGCGCCGATGAAGTCTGGTCCCGCCTGCCGCAGGAAGTGCAGGCCACCCTGAATCAGAAAAAAGCGCGTTTTTACGTGGTCAACGCGGCGAAGATCGCCCGCGAATGTAGCCTCGGGGCGCGCATTAATACCGTGATGCAGATGGCCTTCTTCCATCTGACTCACATCCTGCCTGGCGACAGCGCGCTGGCGGAACTGCAGGCGGCCATCGCCAAAAGCTACAGCAGCAAAGGCCAGGAGCTGGTGGAACGCAACTGGCAGGCCCTGGCCCTGGCCCGCGAGTCCCTGGCGGAAGTGCCGCTGCAGCCGGTGAATGCCAGCAGTCCGAACCGCCCGCCGGTGGTCTCCGACGCCGCGCCGGATTTCGTCAAAACGGTTACTGCCGCCATGCTGGCCGGCCTCGGCGATGCGCTGCCGGTCTCCGCTCTGCCGCCGGACGGCACCTGGCCCATAGGCACCACCCGCTGGGAGAAACGCAACATCGCCGAAGAGATCCCGATCTGGAAGGAAGCGCTCTGCACCCAGTGTAACCACTGCGTTGCCGCCTGCCCGCACTCGGCAATTCGCGCCAAAGTGGTCGCGCCGGAGGACATGGAGAACGCCCCTGCCAGTCTGCACTCGCTGGACGTTAAATCCCGCGATATGCGCGGGCAGAAATACGTTCTGCAGGTCGCCCCGGAAGACTGCACCGGCTGCAACCTGTGCGTGGAAGTGTGCCCGGCAAAAGATCGCCAGAACCCGGAGATCAAGGCCATCAATATGATGTCGCGCCTGGAGCATGTGGAAGAGGAGAAAGTGAATTACGATTACTTCCTCAACCTGCCGGAAATCGACCGCAGCAAACTGGAGCGTATTGATATCCGCACTTCGCAGCTGATCAGCCCGCTGTTTGAATACTCCGGTGCCTGCTCCGGCTGTGGCGAAACGCCGTATATCAAACTGCTGACCCAGCTGTATGGCGACCGGATGCTGATTGCCAATGCCACCGGCTGCTCATCCATTTACGGCGGCAACCTGCCCTCGACCCCGTACACGACCGACGCCAACGGCCGCGGCCCGGCGTGGGCCAACTCGCTGTTTGAGGATAACGCTGAATTCGGGCTCGGCTTCCGCTTAACCGTCGACCAGCATCGCCAGCGCGTGATGCGCCTGCTGAGCGAATTCGCCGACCAGCTGCCGGCAGAGCTGAACGCGGCGCTGCATGCCGAGGCGACGCCGGAAACGCGCCGCGAACAGGTGGCAGCCCTGCGTCAGGCGCTGGCCGGCGTGCAAGGCGCTGAAGAGCTGCTGACCGATGCCGACGCGCTGGTGGAGAAATCCGTCTGGCTGATCGGCGGCGACGGCTGGGCCTACGATATCGGCTTCGGCGGTCTGGACCATGTGCTGAGCCTGACGGAAAATGTCAACATTCTGGTGCTGGATACCCAGTGTTACTCCAACACCGGCGGCCAGGCGTCAAAAGCCACCCCGCTGGGGGCGGTCACTAAGTTTGGCGAGCACGGTAAACGCAAGGCGCGCAAAGATCTTGGCGTCAGCATGATGATGTACGGTCATGTCTATGTGGCGCAGATTTCGCTGGGCGCGCAGCTGAACCAGACGGTGAAAGCGATTCAGGAAGCGGAAGCCTATCCGGGGCCGTCGCTGATCATCGCCTACAGTCCTTGCGAAGAGCATGGCTACGATCTGGCGCTCAGCCACGATCAGATGCGTCAGCTGACCGCTACCGGCTTCTGGCCGCTCTACCGCTTCGACCCGCGTCGGGCGGAAGAAGGCAAGATCCCGCTGGCGCTGGACTCCCGCCCACCGTCAGACGCCCTGGCTGAGACGCTGCTCAATGAGCAACGCTTCCGTCGCCTGAATGCGCAGCAGCCGGAAGTGGCGGAGCAACTGTGGAAAGACGCTGCCGCCGACCTGCAGAAGCGCTACGACTTCCTCGCCCAGCTCGCGGGCAAAGCGGAGAAATCACCGAGCGAGAGCTAA	MITIDGNGAVASVAFRTSEVIAIYPITPSSTMAEQADAWAGNGLKNVWGDVPRVVEMQSEAGAIGAVHGALQTGALSTSFTSSQGLLLMIPTLYKLAGQLMPFVLHVAARTVATHALSIFGDHSDVMAVRQTGCAMLCASSVQEAQDFALISHIATLQSRVPFIHFFDGFRTSHEINKIAPLADDTIRTLLPQEKIAEHRQRALNPEHPVIRGTSANPDTYFQSREATNPWYDAVYDHVEKAMDDFAAATGRQYKPFEFYGHPQAERVIVIMGSAIGTCEEVVDELLSRGEKVGVLKVRLYRPFSAAHLLAALPESARAVAVLDRTKEPGAHAEPLYLDVMTALAEAFNRGERETLPRTIGGRYGLSSKEFGPECVLAIFHELQAAQPKPRFTVGIYDDVTNLSLPLGENTLPAEAKLEALFYGLGSDGSVSATKNNIKIIGNSTPWFSQGYFVYDSKKAGGLTVSHLRVSEKPIRSSYLISQADFVGCHQLQFIDKYQMAERLKPGGIFLLNTPYSADEVWSRLPQEVQATLNQKKARFYVVNAAKIARECSLGARINTVMQMAFFHLTHILPGDSALAELQAAIAKSYSSKGQELVERNWQALALARESLAEVPLQPVNASSPNRPPVVSDAAPDFVKTVTAAMLAGLGDALPVSALPPDGTWPIGTTRWEKRNIAEEIPIWKEALCTQCNHCVAACPHSAIRAKVVAPEDMENAPASLHSLDVKSRDMRGQKYVLQVAPEDCTGCNLCVEVCPAKDRQNPEIKAINMMSRLEHVEEEKVNYDYFLNLPEIDRSKLERIDIRTSQLISPLFEYSGACSGCGETPYIKLLTQLYGDRMLIANATGCSSIYGGNLPSTPYTTDANGRGPAWANSLFEDNAEFGLGFRLTVDQHRQRVMRLLSEFADQLPAELNAALHAEATPETRREQVAALRQALAGVQGAEELLTDADALVEKSVWLIGGDGWAYDIGFGGLDHVLSLTENVNILVLDTQCYSNTGGQASKATPLGAVTKFGEHGKRKARKDLGVSMMMYGHVYVAQISLGAQLNQTVKAIQEAEAYPGPSLIIAYSPCEEHGYDLALSHDQMRQLTATGFWPLYRFDPRRAEEGKIPLALDSRPPSDALAETLLNEQRFRRLNAQQPEVAEQLWKDAAADLQKRYDFLAQLAGKAEKSPSES	PGPT0000040_1075	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0000040-nifJ|por-K03737	NA	NA
BMS020_00049	264			hypothetical protein	ATGCGAGCTGCGATATTAGTGGGATGTGCGGCGCTGTTGCTGTCGGCGTGCAGTAGTGAACCCGTTCAGCAGGCCACGGCGGCGCACGTCACGCCAGGAATGCGGGCGGCGATGAGCGACGCCGGTCAGGCCAACTGCGCCATGATAGGCGGCTCGTTATCGGTGGCTCGTCAGCTCGATGGTTCGGCGATCGGCATGTGCGCATTGCCGAACGGTAAACGCTGCAGCGAGCAGGCGCTGGCGGGCGGAAGCTGCGGCTATTAA	MRAAILVGCAALLLSACSSEPVQQATAAHVTPGMRAAMSDAGQANCAMIGGSLSVARQLDGSAIGMCALPNGKRCSEQALAGGSCGY				NA	NA	NA	NA	NA
BMS020_00050	441	hslJ	COG3187	Heat shock protein HslJ	ATGAACAAATTTGCGGCATTACTGGCGGCAGGGTTGCTGCTGTCCGGCTGTGTCTATAACAGTAAGGTGTCCACCGGCGCGGAACAGCTACAGCATCATCGTTTCGTGTTGACCAGCGTCAACGGCCAGGCAGTGAACGCGGGCGACCGGCCGCTGGAGCTGAGCTTCGGCGAGAAGATGGCTCTTACGGGCAATATGTATGTTTCGGGCAATATGTGCAACGGCTTCAGCGGGGAAGGTAAGGTGTCGGACGGCGAGCTGAAGGTTAAATCGCTGGCGATGACCCGGATGCTGTGCCACGATGCCCAGCTCAATACCCTTGACGCGACCATTGGTAAGATGCTGCGCGAGGGCGCGCAGGTCGATCTGACGGAAAACCAGTTGACGCTGGCGACCGCCGACCAGACGCTGGTCTATAAACTCGCCGACCTGATGCACTAG	MNKFAALLAAGLLLSGCVYNSKVSTGAEQLQHHRFVLTSVNGQAVNAGDRPLELSFGEKMALTGNMYVSGNMCNGFSGEGKVSDGELKVKSLAMTRMLCHDAQLNTLDATIGKMLREGAQVDLTENQLTLATADQTLVYKLADLMH	PGPT0014615_346	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014615-hslJ-K03668	NA	NA
BMS020_00051	990	ldhA_1	COG1052	D-lactate dehydrogenase	ATGAAAATCGCGGTTTACAGTACGAAGCAGTACGATAAAAAGTACCTGCAGCACGTTAATGATACCTACGGCTTTGAACTGGAATTCTTCGACTTCCTGCTGACAGAGAAAACCGCCAAAACCGCCCACGGTTGCGAAGCGGTATGCATCTTCGTCAATGACGACGGCAGCCGTCCGGTGCTGGAGGAGCTGAAGGCCCACGGCGTGAAGTATATCGCCCTGCGCTGCGCCGGGTTTAACAACGTCGACCTCGAGGCGGCGAAAGCGCTTGGCCTGCGCGTCGTGCGCGTCCCGGCCTACTCGCCGGAAGCGGTCGCTGAACATGCGATCGGCATGATGATGTCGCTTAACCGCCGCATCCACCGCGCCTACCAGCGTACCCGTGATGCCAATTTCTCCCTCGAAGGCCTTACCGGTTTCACCATGTACGGCAAAACCGCCGGGGTGATCGGCACCGGGAAAATTGGCGTGGCGATGCTACGGATCCTTAAAGGCTTCGGCATGCGTCTGCTGGCTTTTGACCCGTACCCAAGCGCCGCCGCGCTGGAGCTGGGGGTGGAATATGTTGACCTGGCCACGCTGTACAAGGAGTCGGACGTGATCTCCCTGCACTGCCCGCTCACCGACGAAAACTACCATCTGCTCAATCGCGAGGCCTTCGATCAGATGAAGGACGGGGTGATGGTGATTAACACCAGCCGCGGCGCGCTGATCGATTCCCAGGCGGCCATCGATGCCCTGAAGCACCAGAAAATCGGCGCGCTGGGGCTGGACGTTTATGAGAACGAACGCGATCTGTTCTTCGAAGACAAATCCAACGACGTGATCCAGGACGACGTCTTCCGTCGCCTCTCCGCCTGCCACAACGTGCTGTTTACCGGCCATCAGGCGTTCCTCACCGCCGAGGCGCTGATCAGCATTTCGGAGACCACCCTGGGCAATCTGCAGCAGGTCGCCAACGGTGAAACCTGCCCGAACGCTATCGTCTGA	MKIAVYSTKQYDKKYLQHVNDTYGFELEFFDFLLTEKTAKTAHGCEAVCIFVNDDGSRPVLEELKAHGVKYIALRCAGFNNVDLEAAKALGLRVVRVPAYSPEAVAEHAIGMMMSLNRRIHRAYQRTRDANFSLEGLTGFTMYGKTAGVIGTGKIGVAMLRILKGFGMRLLAFDPYPSAAALELGVEYVDLATLYKESDVISLHCPLTDENYHLLNREAFDQMKDGVMVINTSRGALIDSQAAIDALKHQKIGALGLDVYENERDLFFEDKSNDVIQDDVFRRLSACHNVLFTGHQAFLTAEALISISETTLGNLQQVANGETCPNAIV	PGPT0001755_1571	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001755-ldhA-K03778	NA	NA
BMS020_00052	501	yabI_1	COG0586	Inner membrane protein YabI	GTGTCGTTAATTATCTCGCTCATTGAGAGCGCACAGGGCCACTATCCATTGGTATTACTGATGGTTTTCCTGCTCACTTTCACTAAATCCTGCGCGCTGGTGTCGCTGGCGATCCCGGGCACCTCCGGCCTGCTGCTGCTGGGGACATTCGCTTCCGCCAGCCTCGGTCATTTCCTGTTAATGTGGTCCAGCGCCAGCCTCGGCGCCATCGGCGGATTCTGGCTCTCGTGGTGGTTAGGCGTTCGCTATCGTCACCGCCTCACGCAGTTGCGCTGGCTGACCGCCGAGCGGCTGGCCCGCAGTCGACTCTTTTTTCAGCGCCGCGGGCTGTGGGCGGTCTTTTTCAGTCGCTTCCTCTCTCCCCTGCGCGCCACCCTGCCCCTGGTCAGCGGCGCCAGCGGCCTGCCGCTGTGGTCGTTTCAGCTGGCTAACGTCACCTCCGGTCTGCTGTGGCCGTTTCTGCTGCTCTCCCCCGGCGCTTTAAGCCTGAGTTTGTGGTGA	MSLIISLIESAQGHYPLVLLMVFLLTFTKSCALVSLAIPGTSGLLLLGTFASASLGHFLLMWSSASLGAIGGFWLSWWLGVRYRHRLTQLRWLTAERLARSRLFFQRRGLWAVFFSRFLSPLRATLPLVSGASGLPLWSFQLANVTSGLLWPFLLLSPGALSLSLW				NA	NA	NA	NA	NA
BMS020_00053	2640			hypothetical protein	ATGAAGGGTAAATATAAAGCCGCCATCGCGCTGGTGCTAGCGCTGGTGTTACTGCCGCTAACCCTGCTGTTGACGCTGACCCACTGGGTGCCGACGCTGGCGGGCATCTGGCTGCCCGTGGGGACTCATATCGCTTTGCAGGAGAGCCCGCGTCTTACGCGCTCCGCCCTGCTGATCCCCGATCTGCGCTATCTGGTGGGCGACTGTGAACTCGCCCGGGTGACCGATGCCCGTCTCTCGCGCCCCAGCCGCTGGCGGCTGCATATTGGCCAGCTGGAGATCAACAGCGCCTGCCTGAGCAAACTGCCGGCCAGCGATCCCGCGCCGGGGGCGCCGCGCACCCTCGCCGAATGGCAATCAATGCTGCCCTACAGCTGGTTAACCATTGAGAACCTGCGGCTGTCGCCGTGGGAAAAATGGCAGGGGCGGCTGGTGATGTCCTTGACGCCTGCGCAGCAGGATATCGGCTTCGCCGGAAACGATTTGAGCCTGCAGGCGCGCCTGCGCGGCCAGGCGCTCACTGTCAGCCAGTTCAGCGCCAGGCTGACTGACGATCAGCCGCCGGTGAAGCTGGTGGGGACCTTCCATCTGCCGCTGGTGCCGGATGGCCTGCCGGTCGATGGCCAGATGCAGGGCACCTTCGAATTCCCGCAGACTGCAGAATGGATCGATGCCGAGCTGGCGTGGCAGCATAATCGCGGCCAGCTGCTGGTCACCCCGCGCGGCGAGGTGGAGCCCATTCTCGACCTGCCGTGGGAGATCACCCCGGAACGGATCACCATCAGCGACGGCCGCTGGCGCACCCGCTACGAGGCGTATCCGCTGAGCGGCCGCGTGGCGCTGTCGGTCGGTGACTGGCAGCAGGGCACGGAACAGATGATCGTCAGCGGCCGCTTAAATGTGCTCACCGAGGGGCATGCCGGCAAAGGCAACGCGGTGCTGAATATCGGCCCGGGCAAGTTAAGCATGGATAACAGCGACCTGCCGCTGCGGCTCACCGGCGAGGCCAAGCTGGGGGAGATGATCTTTTACGCCGCGCTGCCGGCCCAGCTCAGCGGGCCGCTGGTCAGCCCGCAGCTGGCGTTTCACCCCGGGGCGCTACTGCGTTCGCGCGGGCGGGTGATCGACGCGCTGAACATTGACGAAATCCGCTGGCCGCTGGCCGGGGTGAAGGTCACCCAGCAGGGCGTCGATGGCCGCCTGCAGGCGATCCTCCGCGCCCATGAGCAGCAGATGGGCGACTTTACGTTGCACCTGGACGGGCTGGCGAACGATTTTCTGCCCGACAGCGGCCGCTGGCAGTGGCGCTACTGGGGCGAGGGGCATTTCACGCCAATGCAGGCGCGCTGGGATGTGAAGGGCAGCGGTGAGTGGCGGGACAATGCCATTACGCTGAGCAGCCTCTCCACTGGCTTCGATAAGCTCGAGTACGGCACGATGCGGGTCAGCACGCCGCGTCTGACCCTCGAGCAGCCGATTCGCTGGCTGCGCGACGCTGAGCATCCGCGGCTGACCGGCACGCTGTCGCTGGATGCGGCAAAAACCACCTTCTCCGGCGGCAGCTATCTCCCGGCGTCGACGCTGAAATTCGCTGTCGACGGCCGGGATCCGACGTGGTTCCAGTTCACCGGCGCGCTGCACGCCGATACCATTGGCCCGGTGCGGTTGACCGGGCGCTGGGATGGCGAACGGCTGCGCGGCCAGGCCTGGTGGCCTAAACAGTCGCTGACGGTATTCCAGCCGCTGGTGCCGCCGGACTGGAAGATGAACCTGCGCGAAGGCAGTCTCTATGCGCAGGTGGCCTTCTCGGCGGCAGCCGGGCAGGGATTTGAGGCGGGCGGCCATGGCGTCCTGAAGGGCGGCAGCGCCTGGATGCCGGATAACCAGATCAATGGCGTCGACTTCGTTCTGCCGTTCCGCTTCAGCGATGGCCACTGGCAGCTGGGCACCCGCCGTCCGGTCTCCCTGCGCATTGGCGAAATCGTCAACCAGGTCACCGCGCGCAACCTGACGGCGGACCTGCAGGGCACCTGGCCATGGAGCGAGGCCAATCCGCTGCAGCTTAGCGACGTCAGCGTCGACCTGTTAGGCGGCAAGCTGACCCTGCTGCAGCTGCGCATGCCGCAGCGCGACCCGGCGCTGATCCGTCTGCAGCACATCTCCAGCAGCGAACTGACCAGCGCGGTCAAGGTGAAGCAGTTCGCCATGTCCGGGGCGGTGAGCGGCGCGCTGCCGCTGTGGCTGGAGAACAATCAATGGATTATCCACGACGGCTGGTTGCGCAATGACGGGCCGATGACGCTGCGGCTCGATAAAGACACCGCCGATGCGCTGGTGGCGGACAACGTCTCCGCCGGGGCGGCGATCAACTGGCTGCGCTATATGGAGATCTCCCGTTCATCGACGCAGATTAACCTCAACAATCTGGGCGTGCTGACGCTTAAGGCCGCCATCAACGGCACCAGCCGGGTGGACGGGAAAAGCAGTACCGTGCATTTAAACTACGCTCATGAGGAGAATATTTTCGATCTGTGGCGCAGTTTACGCTTCGGCGACAATTTACAGGCGTGGCTTGAGCAAAATGCCACGCTGCCCGTGCGGCGCTGTACGGACGGTAAGACATGTAAGGAACCTAAATGA	MKGKYKAAIALVLALVLLPLTLLLTLTHWVPTLAGIWLPVGTHIALQESPRLTRSALLIPDLRYLVGDCELARVTDARLSRPSRWRLHIGQLEINSACLSKLPASDPAPGAPRTLAEWQSMLPYSWLTIENLRLSPWEKWQGRLVMSLTPAQQDIGFAGNDLSLQARLRGQALTVSQFSARLTDDQPPVKLVGTFHLPLVPDGLPVDGQMQGTFEFPQTAEWIDAELAWQHNRGQLLVTPRGEVEPILDLPWEITPERITISDGRWRTRYEAYPLSGRVALSVGDWQQGTEQMIVSGRLNVLTEGHAGKGNAVLNIGPGKLSMDNSDLPLRLTGEAKLGEMIFYAALPAQLSGPLVSPQLAFHPGALLRSRGRVIDALNIDEIRWPLAGVKVTQQGVDGRLQAILRAHEQQMGDFTLHLDGLANDFLPDSGRWQWRYWGEGHFTPMQARWDVKGSGEWRDNAITLSSLSTGFDKLEYGTMRVSTPRLTLEQPIRWLRDAEHPRLTGTLSLDAAKTTFSGGSYLPASTLKFAVDGRDPTWFQFTGALHADTIGPVRLTGRWDGERLRGQAWWPKQSLTVFQPLVPPDWKMNLREGSLYAQVAFSAAAGQGFEAGGHGVLKGGSAWMPDNQINGVDFVLPFRFSDGHWQLGTRRPVSLRIGEIVNQVTARNLTADLQGTWPWSEANPLQLSDVSVDLLGGKLTLLQLRMPQRDPALIRLQHISSSELTSAVKVKQFAMSGAVSGALPLWLENNQWIIHDGWLRNDGPMTLRLDKDTADALVADNVSAGAAINWLRYMEISRSSTQINLNNLGVLTLKAAINGTSRVDGKSSTVHLNYAHEENIFDLWRSLRFGDNLQAWLEQNATLPVRRCTDGKTCKEPK				NA	NA	NA	NA	NA
BMS020_00054	186			hypothetical protein	ATGAAGAAGCTGTTACTGGCCATAGTGGCGTCGATGCTGCTCGCCGGCTGTACGCCGCGTATCGAAATTGCGGCGTCGAAAGAGCCCATCACCATCAATATGAATGTCAAAATTGAGCATGAGATCCATATCAAGGTCGATAAGGATGTGGAAAACCTGCTGAAATCCCGCAGCGATTTGTTCTGA	MKKLLLAIVASMLLAGCTPRIEIAASKEPITINMNVKIEHEIHIKVDKDVENLLKSRSDLF				NA	NA	NA	NA	NA
BMS020_00055	324			hypothetical protein	ATGAGAAAACGACTGTTAACCGCGGCGCTGGCGCTGACTCTGCTCAGCGCGCCCGCGCTGGCGTTGACCCTGAACGAAGCGCGCCAGCAGGGGCGGGTGGGGGAGACGCTGAACGGCTATCTGGCGCCGCTGCGTCAGGATAAAGAGACGCTGGCGCTGGTGAAGCAGATTAACGCCGCGCGCAGTGAAAGCTACCAGCAGCTGGCGGATGACAACAATCTGCCGGTGGATGAGGTAGCGAAAATGGCCGGACAGAAGCTGGTGGCCCGCGCTCAGCCCGGCGAGTACGTTCAGGGGTTGAACGGCCAGTGGCTGCGCAAATAG	MRKRLLTAALALTLLSAPALALTLNEARQQGRVGETLNGYLAPLRQDKETLALVKQINAARSESYQQLADDNNLPVDEVAKMAGQKLVARAQPGEYVQGLNGQWLRK				NA	NA	NA	NA	NA
BMS020_00056	903	feaR	COG2207	Transcriptional activator FeaR	ATGATGACCACGGCTGAGGGGGGGCTGGCCTACCAGCGCTGGCTGGCGACGATCAATCAGGTCTGCGGCCATTTCGCCGCCCGGCCGCTGGAGGGACACTTTCACGGCGAGATTGACGCCCGCTACGCCGGCAGTCTCAAAGTCAGCACGGTCACCGCCGCCGGCGTCAATCTCTACCGCACGCGCAATGAGATCAAACGCGATAACGACGCCTGGTTCTATACTGTGTTTCAGCTCGCCGGCGAAGCGGTGATCGAACAGGACGATCGCCAGGTGACCCTGGCGGCGGGGGATATCACGCTGATCGACGCCGCCCGCCCGTGCTCTATCGTCTGGCAGCAGACCTCGCGTCAGGCTTCGCTGCTGCTGCCGCGCCAGCGGGTGGCACCGACGGGCGAGATCGCCACCGCCTGCCGGCTGGACAAGTCTCTGCCGATGGTGCAGCTCAGTCAGCGCCTGCTGCTGGAGAGTATGGGCGGCACGACGCTCTCCGCCAGCGAGAGTGAGGCGGCGCTGGACGCGATCGCCTGCCTGTTGCGCCCGGTGCTGCGCCAGCGCGAGCCGACCCCGTCCCGGCGGGACCAGCAGTTTCAGAAGATCATTGCGTTAATCGATGCGTCCATTCAGTCGGAACACCTGCGGCCGGAGTGGCTGGCCAGCGAGACGGGAATGTCGGTGCGCAGCCTCTACCGGCTGTTTGCCGACAAAGGGCTGGTAGTGGCGCAGTATATTAAGAACCGGCGGCTGGATCTGTGCGCCCGGGCGTTACAGAACGTCCATGACGACGAAAAGCTGGCGGGGATCGGCTACCGCTGGGGCTTCAGCGACCACAGCCATTTCTCCACCGCCTTTAAGCAGCGCTTCGGCGTCTCGCCGGGCGAATACCGTAAGCGCTGCCGCTAA	MMTTAEGGLAYQRWLATINQVCGHFAARPLEGHFHGEIDARYAGSLKVSTVTAAGVNLYRTRNEIKRDNDAWFYTVFQLAGEAVIEQDDRQVTLAAGDITLIDAARPCSIVWQQTSRQASLLLPRQRVAPTGEIATACRLDKSLPMVQLSQRLLLESMGGTTLSASESEAALDAIACLLRPVLRQREPTPSRRDQQFQKIIALIDASIQSEHLRPEWLASETGMSVRSLYRLFADKGLVVAQYIKNRRLDLCARALQNVHDDEKLAGIGYRWGFSDHSHFSTAFKQRFGVSPGEYRKRCR				NA	NA	NA	NA	NA
BMS020_00057	1500	feaB_1	COG1012	Phenylacetaldehyde dehydrogenase	ATGTCCACCTCTCAGATAGCGCTGCTTGCCAGCGTCCAGCAGTTTTTAGACCGTCAGCATGGCCTGTATATCGACGGCGCTCCCTGCGCCGCGCAGAGCGAAAACCGGTTAACCGTCTGGGATCCGGCCACCGGGCAGGCGATCGCCACCACCGCCGACGCCAGCCCGGCGGATGTCGACCGGGCGGTGATGTCCGCCTGGCGCGCCTTCGTCGATCGCCGCTGGGCCGGTCGCACCCCGGCCGACCGTGAGCGCATCCTGCTGCGCTTTGCCGATCTGGTGGAGGCGCACGGCGAGGAGCTGGCGCAGCTGGAGACCCTTGAGCAGGGTAAATCCATCGCCATCTCCCGCGCCTTCGAGGTCGGCTGCACCCTGAACTGGATGCGCTACACGGCGGGGCTGACCACCAAAATCAGCGGCCGGACGCTGGACGTCTCGATCCCGTTCCCGCAAGGGGCCCGTTACCAGGCGTGGACCAAAAAAGAGCCGGTGGGGGTCGTGGCGGGCATCGTTCCGTGGAATTTCCCGCTGATGATCGGTATGTGGAAGGTGATGCCGGCGCTGGCGGCGGGCTGCTCGATCGTCATCAAACCCTCGGAAACCACCCCGCTGACCCTGCTGCGGGTGGCGGAGCTGGCGACCCAGGCGGGCATTCCTGACGGGGTGTTCAACGTGGTCACCGGCAGCGGCGCCGGCTGCGGCGCGGCGCTGACCTCGCATCCGCAGGTGGCGAAGGTGAGCTTTACCGGCTCGACGGCCACCGGGAAACAGATTGCGCGGGTGGCCGCCGACCGACTGACCCGCGTGACGCTGGAGCTGGGCGGCAAGAACCCGGCGATTGTGCTCAAAGACGCCGATCCCCAGTGGGTCATTGAGGGGCTGATGACCGGCAGCTTCCTCAACCAGGGACAGGTCTGCGCCGCCAGTTCGCGGATCTACATTGAAGCGCCGCTGTTTGACACCCTGGTCAGCGGTTTCGAGCAGGCGGTGAAATCGCTGCAGGTGGGACCGGGGATGCAGGAGACGGCGCAGATCAACCCGGTGGTCTCCCGGGCCCACTGCGACAAGGTGGCGGCCTACCTCGAAGAGGCCCGCCAGCAGAAGGCGGAGCTTATCAGCGGCAGCGCCGGGCCGGATGCCGGGGGGTACTATATTCCGCCGACGCTGGTGGTCAACCCGGACGCCGGGCTGCGCCTTACCCGCGAGGAGGTGTTTGGCCCGGTGGTGAACCTGGTGCGGGTGGCTGACGGCGAGGAGGCGCTGCGCCTGGCCAACGACAGCGATTTCGGCCTGACCGCCAGCGTCTGGACCCGCGACCTGACCCTGGCTCTCAACTATACCGACCGCCTGCAGGCCGGGACGGTATGGGTCAACAGCCATACCCTGATTGACGCCAACCTGCCGTTCGGCGGCATGAAGCAGTCCGGTACCGGTCGCGATTTCGGCCCGGACTGGCTCGACGGCTGGTGCGAAACCAAATCGGTCTGCGTGCGTTACTAG	MSTSQIALLASVQQFLDRQHGLYIDGAPCAAQSENRLTVWDPATGQAIATTADASPADVDRAVMSAWRAFVDRRWAGRTPADRERILLRFADLVEAHGEELAQLETLEQGKSIAISRAFEVGCTLNWMRYTAGLTTKISGRTLDVSIPFPQGARYQAWTKKEPVGVVAGIVPWNFPLMIGMWKVMPALAAGCSIVIKPSETTPLTLLRVAELATQAGIPDGVFNVVTGSGAGCGAALTSHPQVAKVSFTGSTATGKQIARVAADRLTRVTLELGGKNPAIVLKDADPQWVIEGLMTGSFLNQGQVCAASSRIYIEAPLFDTLVSGFEQAVKSLQVGPGMQETAQINPVVSRAHCDKVAAYLEEARQQKAELISGSAGPDAGGYYIPPTLVVNPDAGLRLTREEVFGPVVNLVRVADGEEALRLANDSDFGLTASVWTRDLTLALNYTDRLQAGTVWVNSHTLIDANLPFGGMKQSGTGRDFGPDWLDGWCETKSVCVRY	PGPT0006035_290	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_LIGNIN_DEGRADATION|LIGNINASES	PLANT_LIGNIN_DEGRADATION-DEHYDROGENASE_ACTIVITY,PGPT0006035-feaB-K00146	NA	NA
BMS020_00058	891		COG1893	2-dehydropantoate 2-reductase	ATGACAGCATTTCCTGAGGTTGCACTAATTGGTCCCGGCGCCATCGGCACGACTATCGCCGCCGCCCTGTTTGCGGTGGGAAGGGCGCCGGTGGTTTGCGGGCGCACTGCCCATTCGTCGCTGGTGCTGCGCACTGATGAGGGTGAGATCGTGGTGCCCGGCCCGGTGCTTACCGACCCGACGGCGATAGCCGCCCCCTTCGATCTGGTGTTTGTCGCGGTGAAGGCCACCCAGACGGAGGCCATCGCCCCCTGGCTGACGGCCCTGTGCTCGCCGGACACCGTGGTATGCGTGCTGCAAAACGGCGTCGAGCAGCGCCAGCAGTTTGCCCCTTTGACCGGCGGCGCGACGGTGCTGCCGTCGGTGGTCTGGTTTCCGGCGCAGCGCGACGCCGATGCTTCCGTCTGGCTGCGCGCCGCGCCGCGACTGACGCTGCCGGACCTGCCGGGGGCGGAGCGGGTGCAGCAGGCGCTGGCGGGAACCCGCTGCGCGGTGGAGCTGGCGGCCGATTTTACCACCGTGGCCTGGCGTAAACTGCTGCAGAACGCCGTCGCCGGACTGATGGTGCTGACCGGACGACGCGCCGGGATGTTCGCCCGGGAGGAGATCACCGCTCTCGGACTGGCCTATTTGCGCGAATGCCTGCAGGTGGCGCGGGCGGAAGGGGCCGTCCTGAGCGACAGCGTGCCGGAGGAGATCATCGCCGGTTTTCATCGGGCGCCTGCCGACCTGAGCACCTCTATTCTGATCGATCGCCTGCATGGCCGACCGCTGGAGTGGGATATTCGTAACGGGGTGGTGCAGCGTCGCGGGCGTCAGCACGGCATACCGACGCCGCTCAGCGATATCATCGTGCCGCTGCTGGCGGCGGCCAGCGACGGCCCGGGCTGA	MTAFPEVALIGPGAIGTTIAAALFAVGRAPVVCGRTAHSSLVLRTDEGEIVVPGPVLTDPTAIAAPFDLVFVAVKATQTEAIAPWLTALCSPDTVVCVLQNGVEQRQQFAPLTGGATVLPSVVWFPAQRDADASVWLRAAPRLTLPDLPGAERVQQALAGTRCAVELAADFTTVAWRKLLQNAVAGLMVLTGRRAGMFAREEITALGLAYLRECLQVARAEGAVLSDSVPEEIIAGFHRAPADLSTSILIDRLHGRPLEWDIRNGVVQRRGRQHGIPTPLSDIIVPLLAAASDGPG	PGPT0008745_4797	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
BMS020_00059	732	novR		Decarboxylase NovR	ATGCGCGATACCGATGAAGAGCAGATCCGCATCGACCTGGCGGCCACCTTTCGCATCATTGCCCATCTTGGCATGCATGAGGCGGTGGCCAACCATTTCAGCGCCGCGCTCTCCGCCGACGGGAAGACGTTTTTACTGAACCCGAAGTGGAAACACTTTTCGCGCATCCGCGCCAGCGATCTGCTGGTGCTGAACGCCGATGATGAAAGCTGCGCCGCGCGCCCTGACGTCGATGCCACCGCGTGGGCTATTCACGGGCAGATCCATCAGCGGCTGCCGGACGTGCGGGTGGTGCTGCATCTGCACCCGGTGTACACCACCAGCCTCGCCTGTCTGGCGACGCCGCAGATCCTGCCCATCGACCAGAACACGGCCCGCTATTTTAACCGGGTCGCCGTCGATACGCTGTACGGCGGGATGGCGGACACCGCGGCAGAAGGGGCCCGGCTGGCGGGGCTGCTGGCGGATAAACGCCGTCTGCTGATGGGCAACCACGGGGTGCTGGTGACCGCCCCGACCATCGGCGAAGCGTTCGACGATATCTGGACCCTCGAGCGCGCCTGTCAGATCCTGATCACCGCCTGGTCAACCGGCCAGCCGCTGAAGGTGCTGTCAGACGCGGTGGCGGAAAAAACCGCCCAGGACTGGGAGAAGATTGCCGATTTCTCCCGGCAGCACTTTGCCGAGATGAAGCAATTGATGATCGACCTCGATCCCTCCCTGGTGGACTAA	MRDTDEEQIRIDLAATFRIIAHLGMHEAVANHFSAALSADGKTFLLNPKWKHFSRIRASDLLVLNADDESCAARPDVDATAWAIHGQIHQRLPDVRVVLHLHPVYTTSLACLATPQILPIDQNTARYFNRVAVDTLYGGMADTAAEGARLAGLLADKRRLLMGNHGVLVTAPTIGEAFDDIWTLERACQILITAWSTGQPLKVLSDAVAEKTAQDWEKIADFSRQHFAEMKQLMIDLDPSLVD				NA	NA	NA	NA	NA
BMS020_00060	831	fliY_1	COG0834	L-cystine-binding protein FliY	ATGACACGCTTTTTCGCACCACGCCCGCTGGCTCTGCTGCTCTGCGCAGCGGGGGCTCTGACATCCCTGAACGCGCTGGCCTTCCAGCAAAGCGGCAAGATCACCGCCGGTTCGGACATGACCTTTTTCCCTTACGAGTATATGGAGAACAATAAGCCGGCGGGGTTTGATATTGAACTGCTCGACGGCCTGGCGAAGAGCATGGGCCGCGAGGCGGTGAATATCGATACCCGCTTCCCCAACCTGATCCCCGGACTGCAGGGCGGGCGCTTCGATATCACCAACTCGTCGATGTACATTACCGCCGAGCGCCTGAAGGTGATCGACATGGTGCCGTACCTGAAAAGCGGGGAAGCGATCCTCGCCCGTAAAGGGAGCGACTATCAGCCAAAGACCCCGGAAGACTTCTGCGGGCATAAAATCGGCTCGATGGGCGCCACCTCGTGGCTGGCGCAGTTGCAGAAGCTTTCCGCCGACTACTGCGTGAAGAAGGGGCTGAAACCGATTGCGCTGAGCGTCTATACCACCGACCCGCAGACCACCCAGGCGCTGCTGTCGCGCGCAGTGGATGCGCAGATCACCGACGCCGCCGTGGCGCGCGGAGTAGTGGAAAAGCTGGGCGACCGGGTGGTGATCGCCTCTGACACCCTGATCTATCCGGTGCTGAACGGCTTTGGCGTTAAAAAAGGCAACACTGAGGTGAAAACCGCCCTTGAAGAGGCGCTGAAAAAATACAGCGCCACGCCGGAATACGCCGCTCTGCTGAAGAAATATCACTTCCAGGCGCCGACGGCAGAGGATCTGCAGACCCTGATGCCAAAAGCGGAGTAA	MTRFFAPRPLALLLCAAGALTSLNALAFQQSGKITAGSDMTFFPYEYMENNKPAGFDIELLDGLAKSMGREAVNIDTRFPNLIPGLQGGRFDITNSSMYITAERLKVIDMVPYLKSGEAILARKGSDYQPKTPEDFCGHKIGSMGATSWLAQLQKLSADYCVKKGLKPIALSVYTTDPQTTQALLSRAVDAQITDAAVARGVVEKLGDRVVIASDTLIYPVLNGFGVKKGNTEVKTALEEALKKYSATPEYAALLKKYHFQAPTAEDLQTLMPKAE	PGPT0020800_7155	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
BMS020_00061	873			hypothetical protein	ATGATTGCGCAGTGGCAAATTGAGCAGTTTCATCAGCAGGGTTATCTGGTGGTCGAAGGGGTGCTTTCCGCCGCCGACATCGCCACTCTGCAGAGCGATTTTGACGGCTGGGTCGAGGAGAGCCGCCGCCACGCGTCGGCGTGGGGGAAAACCCTCGACGGGCGGCCGCGCTTCGATATCGAGCGCGACCATGCTCCCGACCATCCGTCGCTGCGCCGGGTCGCCTCCCCGACGGAGATCTCCGAAGCGTATCGCCATACTGCGCTCAACTCGCGGATGGCGACCATCGCCGCGCAGCTGATCGGCGGCAGCGGCACCCGCTTTCACCACAGCAAAATTAACTCCAAGCTGCCGCACACCGCCACCGAGGTGAAATGGCATCAGGATTTCCTCTTCACCCCGCACAGCAATGACGACATCATCACCGCCCTGCTGATGGTCAGCGAGGTGACGCCGGAGAATGGCCCGCTCAACGTGGTGCCGGGCAGCCATCAGGGGCCGCTGTGGTCCCACTGGCAGGAGGGGCGCTTCACCGGAGCGGTGGATGACGAGGTGGTGACGACTCACTGCCAGCAGCCGCAGGCCTGTTTTGGCCCGGCGGGCTCAGTCTGCTTTATGCATACCCGCCTGCTGCACGCCTCCAGCCCCAACGAAACCGCCCTGCCGCGCACCCTGTTCATCAGCGTCTACGCCGCCGAGGATGCGCTGCCCTTCGGCGAAAACCCGCTGCCGAGCCGCCATGCCGGCCAGCTGGTGGCCGGGGAAGAGAGCGGTCTGGTGCGCAGCACCGATAACCAGCTTCGTCTGCCGCAGAAGCCGCGCGGCGCTTCGTTTTTTGTTCAGCAGGCCGGTGCCGATCGCGCCAGCATGTAA	MIAQWQIEQFHQQGYLVVEGVLSAADIATLQSDFDGWVEESRRHASAWGKTLDGRPRFDIERDHAPDHPSLRRVASPTEISEAYRHTALNSRMATIAAQLIGGSGTRFHHSKINSKLPHTATEVKWHQDFLFTPHSNDDIITALLMVSEVTPENGPLNVVPGSHQGPLWSHWQEGRFTGAVDDEVVTTHCQQPQACFGPAGSVCFMHTRLLHASSPNETALPRTLFISVYAAEDALPFGENPLPSRHAGQLVAGEESGLVRSTDNQLRLPQKPRGASFFVQQAGADRASM				NA	NA	NA	NA	NA
BMS020_00062	1521	btuD_1		Vitamin B12 import ATP-binding protein BtuD	ATGACGTTTAACTGGAACTACATGTTAAGCCTGCTCAGCGATGCCGATTTTTGGTGGGCCACCTGGACCGTCATTAAATTAAGTCTGCTAACCTGGGGCTGCAGTATTGTGCTCGGATTTATTCTGGCGCTGGCTAAACAGTCGCCGCGCGGCTGGTTATCCACCCCTGCCCGGCTGTATATCTGGTTATTTCGCAGTATGCCGCTGCTGGTCCTGCTGATTTTTGTCTACAACATGCCGCAGGCGCTGCCCTCCTTCGCGCCGGTGCTGAACGACCCCTTCTGGGCCGGCCTGCTGGCGATGGTCCTCAGCGAAGCGGCCTATATCGCCGAGATCCATCGCGGCGGGCTGCTTTCCATCCCCCGCGGGCAGAGTGAAGCCGCGCGGGCCCTGGGTTTGCGCTACGCCGGGATCCAGTGGCGGGTGATCATTCCCCAGGCGCTGCGCGTCGCCCTGCCGGCGCTGGCCAATGAGTATATCGCCATCGTGAAGCTCAGTTCGCTGGTGTCGGTGATCTCCCTGACCGAAATATTGATGGTCGGCCAGCAGCTCTACTCGCAGAACTTTCTGGTCATGGAGACCATGACCGCCGTGGCGTTTTATTACATCTTTATCGTCACGGTGTTCGATTTTCTGCTGAAACGGCTGGAGAACTACCTCGATGTCACCCGACGCGACACCGCCCGGCCGGTGGATGCCGAGATGCAGCAGTTGGCGACCGCCCGCCGCCCGGCGATGGCGCGCAGCGTCTCCCAGGGCCATGAGCCGGCGCTGCAGGCCTCTAAGCTGCATAAGGCCTACAACAACGTCGAAGTGCTGGGGGCGGTGAGCCTGCAGATCCAGCCCGGCGAAGTGGTGTCGGTCATCGGCCCGTCGGGCTCGGGAAAAACCACCCTCATTCGCCTGCTGAACGGTCTTGAGCAGATCGACAACGGCGAAATTCAGATTAACGGCCAGCCCTTTATTCATCTCGACCGTCAGGGGCAGCAGAAGCCGCGCTTTATGGAGAATGCCGAACACCGTCTGAATATCGGCATGGTGTTCCAGAGCTTCAACCTGTTCCCGCATCTGACCGTGTTCGGCAATCTGCTGCTGGCCCCGCGCTATCACCATCTGGCAAGCGACGCGGAGCTGCGCCAGCACGCCTGCGAGCTGCTGCACAAGGTGGGCATGCTGGAGCACGCCTGGAAGTATCCGCACCAGCTCTCCGGCGGTCAGCAGCAGCGGGTGGCAATCGCCCGCGCCCTGATGATGCGTCCGCAGATCATGCTGTTCGATGAGCCCACCTCGGCGCTGGATCCGGAAAAAGTGAATGAGGTGCTGCAGGTTATCGAATCCCTGGCCCATGAAGGCATCACGATGGTCATCGTCACCCACGAGATGAACTTCGCCTTCAAAGTGTCTGACCGGATCGTGTTTATGGAGAAAGGCCGGGTGGTGTGCGATGACACGCCGCAGGCGATGCGCAGCGGGCAACACCCGCGGGTCGAGGCCTTTCTGAAAGATGTTTCTCTGGCTTAA	MTFNWNYMLSLLSDADFWWATWTVIKLSLLTWGCSIVLGFILALAKQSPRGWLSTPARLYIWLFRSMPLLVLLIFVYNMPQALPSFAPVLNDPFWAGLLAMVLSEAAYIAEIHRGGLLSIPRGQSEAARALGLRYAGIQWRVIIPQALRVALPALANEYIAIVKLSSLVSVISLTEILMVGQQLYSQNFLVMETMTAVAFYYIFIVTVFDFLLKRLENYLDVTRRDTARPVDAEMQQLATARRPAMARSVSQGHEPALQASKLHKAYNNVEVLGAVSLQIQPGEVVSVIGPSGSGKTTLIRLLNGLEQIDNGEIQINGQPFIHLDRQGQQKPRFMENAEHRLNIGMVFQSFNLFPHLTVFGNLLLAPRYHHLASDAELRQHACELLHKVGMLEHAWKYPHQLSGGQQQRVAIARALMMRPQIMLFDEPTSALDPEKVNEVLQVIESLAHEGITMVIVTHEMNFAFKVSDRIVFMEKGRVVCDDTPQAMRSGQHPRVEAFLKDVSLA	PGPT0020790_258	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
BMS020_00063	915	hdfR_1		HTH-type transcriptional regulator HdfR	ATGAACCGATTTACCCTGAAGCAGCTCAAATATTTCGTCACCGTGGTGGAGACGGAGAGTATCGCCGAGGCCTCCCGCCAACTGCACATTGCGCAGCCGTCGATTTCCATTGCTATTAAGAATCTGGAGAGCACCTTCGACCAGCAGCTGTTTATTCGCCACCATGCGCAGGGCGTCTCGCTCACCTCCAGCGGTCGGCGGATCTACGATAAAGCGAAGGAGCTGCTGCGCCTGTCCTGGGAATTTGAGCAGAATTCGCGAGCGGATAAAGAGCTGGTTTCTGGCATGATCTCCATTGGTTGCTTTGAGTCGGTGGCCCCGCTGTATATGCCGAAGCTGGTGGCCGGGTTTAAGAAATGCTATCCGGAAATTACGCTGCATCTGTATGACGGCGAACAGCATGAGCTGATGCATGGCCTGCACCGCGGCCGCTTCGACCTGGCGCTGGTCTACGATCTGGAGCTCGGCCACTCGATCAATAAAGAGCGGCTTAATGCCCCGCATAAACCCTACGCGCTGCTGCCCGCCGCGCATCCGCTGGCGCAAAAGGCGCAGGTGACGCTGCAGGAGCTGAGTCGCGAGCCGATGATCCTCCTCGATGCGGTCCCGAGTAAAAATTATTTCATCTCCATCTTTAAGGAAAAGGGCTATCACCCGGAAGTGGCTTACAGCTCCCCCTCTATCGAAATGGTGCGCTGTATGGTCGGCCAGGGGCTCGGTTTTTCGGTGCTGGTCACCCGGCCCTGCTGCGATATGACCTACGATGGCGAAAGGGTGGTGCAGCGGGATATTGCCGACGACATGCCCGCCTCAACCTTAATTATGGCGCACCTCGCTAATAATGAGCCGACGCGGCCGACGCAACTGTTTATGGATTATTGTCGCAGTATCGAATTAACCCCCTCTCACGGCTGA	MNRFTLKQLKYFVTVVETESIAEASRQLHIAQPSISIAIKNLESTFDQQLFIRHHAQGVSLTSSGRRIYDKAKELLRLSWEFEQNSRADKELVSGMISIGCFESVAPLYMPKLVAGFKKCYPEITLHLYDGEQHELMHGLHRGRFDLALVYDLELGHSINKERLNAPHKPYALLPAAHPLAQKAQVTLQELSREPMILLDAVPSKNYFISIFKEKGYHPEVAYSSPSIEMVRCMVGQGLGFSVLVTRPCCDMTYDGERVVQRDIADDMPASTLIMAHLANNEPTRPTQLFMDYCRSIELTPSHG				NA	NA	NA	NA	NA
BMS020_00064	1257			hypothetical protein	ATGACTGAACAGATAACCGAGATCGATACCCTGGTGGTCGGCGCGGGGCAGGCGGGCGTCGCCATGAGCGAGCATCTGACCCGGCTGGATATCCCCCATCTGGTGCTGGAGAAACAGGGTATTGCCCAGGCCTGGCGCAGCGGGCGCTGGGATTCGCTGGTGGCCAACGGCCCGGCCTGGCACGATCGGTTTCCGGGGATGGTGTTCCCTGACTGCCCGCCGGACAGCTTTGTCGGCAAAGAGCAGGTTGCGGACTATTTTGCCGCCTATGCCCGCAGCTTCAATGCGCCGATCCGCACCGGGGTGGAGGTGTACAGCGCCGAACGCCTCGCCGGGCGTCCGGGCTTTCGTGTCGACACCTCCGAGGGGGTGATTGAGGCGCAGCGGATCGTGGCGGCTACCGGACCCTTCCAGCGCCCGACGATCCCGGCCATCGCCCCGCAGAGTGAGGCTATTCAGCAGCTCCATTCGGCGCACTATTTTAATCCGCAGCAGCTGCCGGAGGGCGGCGTGCTGGTGGTGGGGGCCGGATCCTCCGGCGTGCAGATTGCCGATGAGCTACAGCGTGCCGGACGCGCGGTGTGGCTGTCGGTGGGGGCGCACGACCGGCCGCCGCGTCGCTATCGCCAGCGCGATTTTTGCTGGTGGCTCGGCGTGCTGGGGATGTGGGACGCGGCGGCCAATGCGCCGGGGAAAGAGCATGTCACTATCGCGGTGAGCGGCGCGCGCGGCGGCCATACCGTCGATTTTCGCCAGCTGGCGCATCAGGGGGTCACCCTGGTGGGGCAGACTCGCGGCTTTGACGGCGCCAGGGCGCTGTTCCACCCCGACCTGGCCGAGAATATCCGCCGCGGCGATGCCTCCTATCTTGCGCTGCTCGACGCCGCCGACGACTGGGTCGCGCGCAACGGTTTGGATCTGCCCGAAGAGCCCTCCGCCCGTGACTTTCTGCCCGACCCGGCCTGCGTCAGCGACCCGCTGCTTAGCCTCGACCTGGCCGAGGCCGGGATCGGCGCCATCATCTGGGCGACCGGGTATACCACCGATTATCGCTGGCTGAAGGTCAACGCCTTCGATGACGCGCAGCGGCCGCAGCATCACCGCGGCGTGTCGACGGAGCCGGGGGTCTATTTCCTCGGCCTGCCGTGGCTGTCGCGGCGCGGGTCCACCTTTATCTGGGGCGTCTGGCACGATGCCAAATATATTGCCGACCAGATCGCCATTCAGCGCCAGTATCAGCGCTACCAGCCGTCCTGA	MTEQITEIDTLVVGAGQAGVAMSEHLTRLDIPHLVLEKQGIAQAWRSGRWDSLVANGPAWHDRFPGMVFPDCPPDSFVGKEQVADYFAAYARSFNAPIRTGVEVYSAERLAGRPGFRVDTSEGVIEAQRIVAATGPFQRPTIPAIAPQSEAIQQLHSAHYFNPQQLPEGGVLVVGAGSSGVQIADELQRAGRAVWLSVGAHDRPPRRYRQRDFCWWLGVLGMWDAAANAPGKEHVTIAVSGARGGHTVDFRQLAHQGVTLVGQTRGFDGARALFHPDLAENIRRGDASYLALLDAADDWVARNGLDLPEEPSARDFLPDPACVSDPLLSLDLAEAGIGAIIWATGYTTDYRWLKVNAFDDAQRPQHHRGVSTEPGVYFLGLPWLSRRGSTFIWGVWHDAKYIADQIAIQRQYQRYQPS	PGPT0013865_877	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013865-czcO|noxC|yrdP|trkA|hapE-K07222	NA	NA
BMS020_00065	435			hypothetical protein	ATGCCAACCCATACCCGTATTCGCATGTTTAACACCAAAGAGACCTACCCGAACCAGGCGCTGAATAACGATCTGTGCCAGGCGGTGCGGGCGGGGAATACCGTCTACGTTCGCGGCCAGGTCGGCACCGATTTCGCCGGCAATCTGATCGGCCTCGGCGACCCGCGGGCCCAGGCGGAGCAGGCGATGAAGAATGTCGAACAGCTGCTGAAAGAGGCCGGCAGCGACCTCTCGCATATCGTCAAGACCACCACTTATCTGATCGACCCCCGCTATCGCGAGCCGGTCTATCAGGAGGTGGGCAAATGGTTGAAAGGGGTCTTCCCCATCTCCACCGGGGTGGTGGTGTCGGCCCTGGCGCAGCCGCAGTGGCTGATGGAGATTGACGTCACGGCGGTGATCCCCGACGACTGGCAGGGGGAGGCGGCAGAATGA	MPTHTRIRMFNTKETYPNQALNNDLCQAVRAGNTVYVRGQVGTDFAGNLIGLGDPRAQAEQAMKNVEQLLKEAGSDLSHIVKTTTYLIDPRYREPVYQEVGKWLKGVFPISTGVVVSALAQPQWLMEIDVTAVIPDDWQGEAAE				NA	NA	NA	NA	NA
BMS020_00066	675			hypothetical protein	ATGACCCTCTCCCTTACCGCCCGCTGCCCGGAAACGGGTCAGTTGGGCATCGCCATTAGTTCATCGAGCATGGCCGTCGGGTCGCGCTGTCCGTGGCTGCTGCCCGGCGTGGGGGCGGTTTCCAGCCAGAATATTACCCTGCCGTCGCTGGGGCCGCAGATCCTCAGCGCGATCGAGGCGGGGGCCAGCGTTGAGCAGGCCATGAAGCAGGCTCTGGCGGAGGATCGCTTCCGCGAATATCGCCAGGTCGCAGCGATTGACGCCAACGGCGACACAGCGGTGTTCAGCGGGGAGTTCACCCTCGGGATCGGCGGCGCCCTGGCGGGGGATAACTGCGTGGCGGCGGGCAATATGCTGGCCAGTCAGGGCGTGATCGCCGCGATGGTGGGCGCCTTTGAGGCCGCCACCGGTGAGCTGGCCAGCCGGCTGCTGGCCGGGCTGCGCGCCGGGATCGTCGCCGGGGGCGAGGCCGGCCCGGTCCACTCGGCGGCGGTGAAGGTGGTGGATGATTACCCATGGCCGGTGGTCGACCTGCGCATTGACTGGGCGGAGGCGGATCCGCTGACGGCCCTTGAGCAGCTGTGGCTGGCGTGGGAGCCGCAAATGGAGGCCTATATTACCCGGGCGCTCGACCCGCGCGAGGCGCCGGCCTATGGCGTGCCTGGCGATGAATAA	MTLSLTARCPETGQLGIAISSSSMAVGSRCPWLLPGVGAVSSQNITLPSLGPQILSAIEAGASVEQAMKQALAEDRFREYRQVAAIDANGDTAVFSGEFTLGIGGALAGDNCVAAGNMLASQGVIAAMVGAFEAATGELASRLLAGLRAGIVAGGEAGPVHSAAVKVVDDYPWPVVDLRIDWAEADPLTALEQLWLAWEPQMEAYITRALDPREAPAYGVPGDE				NA	NA	NA	NA	NA
BMS020_00067	1185	argE_1	COG0624	Acetylornithine deacetylase	ATGGCGTGCCTGGCGATGAATAACACGCCGGGAGCGATCCTTGCCGCGCTGCTGGCCTTTGATACCACCAGCCGCCATTCGAACCTGGCGATGATCGACTGGATCGCCGATTTTCTCGCCGCCCGCGGCGTGACGTCCCGCCGCTTTTATGACCCGTCGGGCGGTAAGGCCAATCTCTACGCCCGCCTGGGGCCGTCCGGCGGCGGCGGGGTGATGCTCTCGGGCCACACCGACGTGGTCCCGGTGGACGGGCAGGACTGGAGCGTGCCGCCGTTTAGCCTGACCGAGCGCGATGGCCGCTACTACGGCCGCGGCAGCGCCGATATGAAGGGCTTTCTCGCCTGCGTGCTGGCGGCAGTGGATGACTTTCTGGCGGCGCCGCTGCGCATGCCATTGCATCTGGCCTTCTCCTATGATGAAGAGGTCGGCTGTCTCGGCGTGCGCAGCCTGGCGGCGTTTCTGCAGGCCTCGCCGGAGAAACCGGCGCTGTGCCTCATCGGCGAGCCGACGGAGATGCAGCCGGTGTTCGGTCATAAAGGCAAACTGGCCATGCGCTGCTGCATCGAGGGCCAGGCCTGCCATTCGGCCTATGCCCCACAGGGCGTGAACGCCATCCGCTACGCGGCCAGGCTGATTAACCGCCTGGATCGGCTGGGCGCGGGTCTGGCCCGGCAGCAGGACAGCCGCTTCTCGCCGCCCTTCAGCACTCTGCAGGTGGGCACCATTCAGGGCGGCGCCGCGCTGAACATCGTCCCGCAGTCCTGCCGCTTTGATTTTGAGATCCGCTACCTGCCGGGGATGCGTCCCGAAGCGGTCACCGAGGCGCTGGCGGCCTACGCCCGCCGCCGGCTGCTGCCGGAGATGCGCCGGGTCGGCGGTGGGAGCGACATCCAGTTTCAGCTGTTGAGCCACTACCCGCCGCTGCTCAGCGATCCGCAGTCCGACTTCGCCCGCTGGCTGGCGCAGTGGTGCGGCAGCGATCGGTTTTCCACCGTGGCGTTCGGCACCGAAGGGGGGCTGTTCGATGAGATGGGCGTCGCGACCCTGGTCTGCGGGCCGGGCAGCATGGCCCAGGGCCATAAGGCCGATGAGTACGTCAGCATCGACCAGACCGAACGCTGTATGACGATGCTGGGCCAGCTGTGCGCCTGGATGCGCGCCGAGCCCGCAGAACCGCTTACCTGA	MACLAMNNTPGAILAALLAFDTTSRHSNLAMIDWIADFLAARGVTSRRFYDPSGGKANLYARLGPSGGGGVMLSGHTDVVPVDGQDWSVPPFSLTERDGRYYGRGSADMKGFLACVLAAVDDFLAAPLRMPLHLAFSYDEEVGCLGVRSLAAFLQASPEKPALCLIGEPTEMQPVFGHKGKLAMRCCIEGQACHSAYAPQGVNAIRYAARLINRLDRLGAGLARQQDSRFSPPFSTLQVGTIQGGAALNIVPQSCRFDFEIRYLPGMRPEAVTEALAAYARRRLLPEMRRVGGGSDIQFQLLSHYPPLLSDPQSDFARWLAQWCGSDRFSTVAFGTEGGLFDEMGVATLVCGPGSMAQGHKADEYVSIDQTERCMTMLGQLCAWMRAEPAEPLT	PGPT0014254_1425	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014254-argE-K01438	NA	NA
BMS020_00068	819			hypothetical protein	ATGCACAATCAACACTCTCCCCATATCGATCAAGCGACTGTCGACCGCTGGCAGGCGGATGGCGTGGTATTACTGAAGGGCGTTTTTACCCCCTGGGTTGAGCGCCTCGCCGAGGGGGTCACGTCGCTGATGGCCAGCCCCAGCGAATATGGTCATGCGCGCACGGTGATCCCCAAAGATGGCTCGCCGCCTTTCTTTCAGGATTACTGTAACTGGTCGCGGATCCCGGCGTTTAGCGAGTTTGTCTTCCAGTCGGCGGCCGCGGAGATCGCCGCGGCGCTGATGCAGTCGCAGACGGCGAAATTTTTCCATGAGCATACGCTGGTCAAACCCGCCGGAGGCAGCACGGTCACCCCCTGGCATCATGATCAGCCGTACTATTGCGTCTCCGGCCGGCAGAACGTCAGCTTCTGGATCCCGCTGGACCCGGTAGCGGAGGCCACCTCGCTGCGCTGCATTCGCGGGTCGCATCGCTGGGAGGCGGAGTACAGTCCCACCCGCTTCAATGGCACAAAGCTCTACGAGCACACCCGGTTCAGCGCGCTGCCGGATATCGACGCCCATGAGGATGAGTACGATATCGTCAGCTGGGCGCTGGAGCCGGGGGACGCGGTGGCCTTCCATTTTCGCACCGTCCATGGCGCCCGCGGCAACCCCGGGGCGCGGGCGCGACGGGTCTTCTCCGTCCGCTGGGTGGGGGATGACGCCGCGTTTGCCGACCGCGGCGGCGTGACCTCGCCGCCGTTCCCCGAACTGACTCTGCGGGACGGCGACCCGCTGGATTCGCCACTGTTCCCCCAGGTCTGGCCACCGGCGTAA	MHNQHSPHIDQATVDRWQADGVVLLKGVFTPWVERLAEGVTSLMASPSEYGHARTVIPKDGSPPFFQDYCNWSRIPAFSEFVFQSAAAEIAAALMQSQTAKFFHEHTLVKPAGGSTVTPWHHDQPYYCVSGRQNVSFWIPLDPVAEATSLRCIRGSHRWEAEYSPTRFNGTKLYEHTRFSALPDIDAHEDEYDIVSWALEPGDAVAFHFRTVHGARGNPGARARRVFSVRWVGDDAAFADRGGVTSPPFPELTLRDGDPLDSPLFPQVWPPA				NA	NA	NA	NA	NA
BMS020_00069	951			hypothetical protein	ATGTTCAATGACGCCATTGTTTATGACCGCTACGGGCCGCCGGCCGCGGTGCTATCGCTGAAACGCACCCCGCTGGCGCCGCTGGCCGGCGGACGGGTGCGGGTCAGGATGCGCTATGCCCCGGTGAATCCCTCAGATCTGATCCCCATTACCGGCGCCTATCGCCACCGTACCCGACTGCCGGCCGTGCCCGGCTACGAAGGCCTTGGCGAGGTGGTCGCCGCGCCGTTCGGCAGCCGACTGACCGCGGGCCAGCGGGTGCTGCCCCTGCGCGGGGGCGGCACCTGGCAGCGGTTTATCGATCTGGATGAGACCTGGCTGGTGCCGGTTCCCGCGGCGGTTGACGATCTGCTGGCCGCCCGCGGGTATATCAATCCGCTGACCGCGATGCTGATGCTCAGACGCTGGCCGGTTGCCGGGAAACAGATCGTGCTGACCGCCGCCGCCTCCTCTTGCGCCAGCCTGCTGGGGCAGTGGGCGTTGGCCATGGGCGCCCGTTCGGTAAGCGGGATTATTCGCTCGCCGCAGCATCGGGCGCGTCTGGAGCTGGCCGGGATCTATCCGATCCTTGAGGCCGACCGGGCGCTGGTGGAGAAGGTCAGCCAGCATAGCGATCTGGTGTTTGACGCGGTGGGCGGGGAGCTGGGGAACACGCTGTTGTCGGTGCTGCCCGCGTCATCGACCCTGATCTCCTATGGCTTATTATCCGGACGGCCGCTGATCCAGACGCGCGCCAGCGCGGCGGTGCGCAAGTTTCATCTGCGGGAGGCGCTGCCTGGCCTCAGCGTGGCGGCATGGCGGGCGGCCTTCGACGAGATCTGGCAGCGGCTGCCGACGACCACGCAACCGCCGGCCCGGCGGGTGGCGTTGAACGACTGGCGGGAGGCGATTGCCGCCGCCGGCCAGCCGGGAAGAGGCGGTAAAATCCTGCTCGATTTCACCGTGGGTTAA	MFNDAIVYDRYGPPAAVLSLKRTPLAPLAGGRVRVRMRYAPVNPSDLIPITGAYRHRTRLPAVPGYEGLGEVVAAPFGSRLTAGQRVLPLRGGGTWQRFIDLDETWLVPVPAAVDDLLAARGYINPLTAMLMLRRWPVAGKQIVLTAAASSCASLLGQWALAMGARSVSGIIRSPQHRARLELAGIYPILEADRALVEKVSQHSDLVFDAVGGELGNTLLSVLPASSTLISYGLLSGRPLIQTRASAAVRKFHLREALPGLSVAAWRAAFDEIWQRLPTTTQPPARRVALNDWREAIAAAGQPGRGGKILLDFTVG				NA	NA	NA	NA	NA
BMS020_00070	2268	maoA	COG3733	Primary amine oxidase	ATGGCAAACGGCTTGAAATTTTCCCCTCGTAAAACCGCGCTGGCACTGGCCGTGGCGGTGGTTTGCGCCTGGCAATCCCCGGTTTTCGCTCACGGCAGCGAGGCGCACATGGTGCCACTGGATAAAACGCTGGAGGCGTTTGGCGCTGACGTGCAGTGGGACGACTATGCGCAAATGTTTACCCTGATAAAAGACGGCGCTTACGTCAAAGTGAAGCCCGGTGCTAAAACCGCGATCGTCAACGGCAAAACCCTTGATCTGCCGGTGCCGGTGGTGATGAAGGACGGTAAAGCCTGGGTCTCCGATACCTTTATCAACGACGTGTTCCAGTCCGGTCTCGACCAGACCTTCCAGGTGGAAAAGCGCCCTCACCCATTAAACTCGCTCTCGGCAGCGGAAATCAGCGACGCGGTGACCATTGTCAAAGCCGCGCCGGAATTCCAGCCTAATACCCGGTTTAGCGAAATTTCCCTGCATGAGCCGGATAAAGCGGCGGTATGGGCCTTCGCCCTGCAGGGTACGCCAGTGGATGCGCCGCGCACTGCCGATGTGGTGATGCTGGATGGCAAACAGGTGATGGAGGCCGTGATCGATCTGCAACACAAAAAAATCCTCTCATGGACGCCGATCAAAGGCGCCCACGGCATGGTGCTGCTCGATGATTTCGCCAGCGTGCAGAACATCATCAACGCCAGCAGTGAATTCGCGGCGGTGCTGAAAAAGCATGGGATTACCGATCCTGGAAAAGTGGTCACCACCCCGCTCACCGTCGGCTACTTCGATGGCAAAGATGGCCTGCAGCAGGATGCGCGCCTGCTGAAGGTGGTCAGCTATCTCGATACCGGCGACGGCAACTACTGGGCGCACCCGATTGAAAACCTGGTGGCGGTGGTCGACCTGGAAGCGAAGAAAATCATCAAAATCGAGGAAGGCCCGGTGATCCCGGTGCCGATGGAACCGCGGCCGTATGATGGCCGGGACCGCAACGCCCCGGCGGTGAAACCGCTGGATATTACTGAACCGGAAGGCAAAAACTACACCATTACCGGGGATACCATTCACTGGCGGAACTGGGATTTCCACCTGCGTCTTAACTCGCGCGTCGGGCCCATCCTCTCGACGGTGACCTACAACGATAACGGCAAAAAACGCCAGGTGATGTATGAAGGTTCCCTCGGCGGGATGATCGTCCCCTACGGCGACCCCGACGTCGGCTGGTATTTCAAAGCCTATCTGGACTCCGGCGATTACGGCATGGGCACCCTGACCTCGCCGATTGTACGCGGCAAAGACGCGCCATCGAATGCGGTGCTGCTGGATGAAACCATCGCCGACTACACCGGCGCGCCGACCACCATCCCGCACGCTGTCGCCATCTTCGAGCGCTACGCCGGGCCGGAATATAAGCACCTGGAGATGGGCAAGCCCAACGTCAGTACCGAGCGCCGGGAGCTGGTGGTGCGCTGGATCAGCACCGTCGGCAACTACGACTATATCTTTGACTGGGTATTCCACGACAACGGCACCATCGGTATCGACGCCGGCGCCACCGGGATTGAGGCGGTGAAAGGCGTGCTGGCGAAGACCATGCACGACCCTAGCGCCAAAGAGGATACCCGCTACGGAACGCTGATCGACCATAATATTGTCGGCACCACCCACCAGCATATCTATAACTTCCGTCTCGACCTCGACGTGGACGGCGAAAACAACACCCTGGTGGCGATGGACCCGGAGGTGAAGCCCAACACCGCCGGCGGCCCGCGCACCAGCACCATGCAGGTGAATCAGTACACGATCGACAGCGAACAGAAAGCGGCGCAGAAATTCGACCCGGGCACGATTCGCCTGCTGAGCAACACCAGCAAAGAGAACCGCATGGGCAACCCGGTCTCTTACCAGATCATCCCTTACGCCGGCGGCACCCATCCGGCGGCGACCGGCGCCAAATTCGCCCCGGACGAGTGGATCTACCATCGTCTGAGCTTTATGGATAAACAGCTGTGGGTGACGCGCTACCACCCGAGCGAACGCTATCCGGAAGGCAAATACCCCAACCGCTCCGCTCACGATACCGGGTTAGGCCAGTATGCGAAGGACGATGAGTCGCTGACGCACCAGGATGACGTGGTGTGGATCACCACCGGCACCACCCACGTGGCGCGGGCTGAAGAGTGGCCGATCATGCCAACCGAATGGGCGCACGCCCTGCTGAAGCCATGGAACTTCTTTGACGAAACGCCGACCCTCGGCGAGAAGAAACAGTAA	MANGLKFSPRKTALALAVAVVCAWQSPVFAHGSEAHMVPLDKTLEAFGADVQWDDYAQMFTLIKDGAYVKVKPGAKTAIVNGKTLDLPVPVVMKDGKAWVSDTFINDVFQSGLDQTFQVEKRPHPLNSLSAAEISDAVTIVKAAPEFQPNTRFSEISLHEPDKAAVWAFALQGTPVDAPRTADVVMLDGKQVMEAVIDLQHKKILSWTPIKGAHGMVLLDDFASVQNIINASSEFAAVLKKHGITDPGKVVTTPLTVGYFDGKDGLQQDARLLKVVSYLDTGDGNYWAHPIENLVAVVDLEAKKIIKIEEGPVIPVPMEPRPYDGRDRNAPAVKPLDITEPEGKNYTITGDTIHWRNWDFHLRLNSRVGPILSTVTYNDNGKKRQVMYEGSLGGMIVPYGDPDVGWYFKAYLDSGDYGMGTLTSPIVRGKDAPSNAVLLDETIADYTGAPTTIPHAVAIFERYAGPEYKHLEMGKPNVSTERRELVVRWISTVGNYDYIFDWVFHDNGTIGIDAGATGIEAVKGVLAKTMHDPSAKEDTRYGTLIDHNIVGTTHQHIYNFRLDLDVDGENNTLVAMDPEVKPNTAGGPRTSTMQVNQYTIDSEQKAAQKFDPGTIRLLSNTSKENRMGNPVSYQIIPYAGGTHPAATGAKFAPDEWIYHRLSFMDKQLWVTRYHPSERYPEGKYPNRSAHDTGLGQYAKDDESLTHQDDVVWITTGTTHVARAEEWPIMPTEWAHALLKPWNFFDETPTLGEKKQ				NA	NA	NA	NA	NA
BMS020_00071	2046	paaZ	COG2030	Bifunctional protein PaaZ	ATGCAGCAGTTAGCCAGCTACTTATCCGGCGCCTGGCAGACCGGCCGGGGCCGCGCCCGTACTATCCATCACGCCATCACCGGCGCGGCGCTGTGGGAGGTGACCAGCGAAGGCCTGGATATGGCGCAGGCGCGCCGCTTCGCAATTGAGCGCGGCGGTCAGGCTCTGCAAGCCATGACCTTTATTGAACGCAGCGCGATGTTAAAAGCGGTAGCGAAACATCTGCTGGAGCAGAAAGACCAGTTCTACGCGATTTCCGCGCAAACCGGCGCCACCCGCGCCGACAGCTGGGTGGATATCGAAGGCGGCATCGGCACCCTTTTCACCTATGCCGGGCTCGGTAGTCGCGAACTGCCGGACGATCTCCTGTGGCCGGAAGACGAGCTGATCCCGCTCTCTAAACAGGGCGATTTTGCCGCGCGTCACGTGCTGACCTCGAAATCAGGCGTCGCTGTGCATATCAACGCCTTCAACTTCCCCTGCTGGGGAATGCTGGAAAAACTGGCCCCCACCTGGCTGGCCGGCATGCCGGCGATCGTTAAACCGGCCACCGCCACCGCCCAGCTCACCCAGGCCATGGTGAAGGCGATTGTCGACAGCGGCCTGGTGCCGGAAGGCGCCATCAGCCTGATTTGCGGCGGCGCGGGCGATCTTCTCGACCATCTCGACAGCCAGGACGTGGTGACCTTTACCGGCTCAGCCGCCACCGGCCAGCAGCTGCGGTCGCACCCCAACCTGGTGGCCAAATCGATTCCCTTTACCATGGAAGCGGATTCGCTCAACTGCTGTGTGTTAGGCGAAGACGTCACGCCGGAGCAGCCGGAGTTCGCGCTGTTTATCCGGGAAGTGGTCCGCGAGATGACGGCGAAAGCCGGGCAAAAATGTACCGCTATCCGCCGCATCATCGTCCCGTTGGCGCAGATCAATGCGGTTAGCGATGCGCTGATCGCCCGCCTGCATAAAGTGACCGTCGGCGACCCGGCGCAGGAAGGGATTAAGATGGGGGCGCTGGTTAATCACGAGCAGCGTCAGGACGTTCAGGAGAGCGTCAATAAACTGATTGCCGCCGGCTGCGAAGCGCTGCTTGGCGGACAGGCGGACCTCAGCGCGGCCGGGGCCTTTTTCCCGCCGACGCTGCTCTACTGCGCGCAGCCGGATGAAACCCCGGCGGTTCACGCCATTGAAGCCTTTGGTCCGGTGGCGACCCTGATGCCCTACCAGGATCGCCAGCATGCCCTGGCGCTGGCTCGTGCCGGCGGCGGTAGCCTGGCGGGAACGCTGGTCACCGCCAGCGGCGAACTGGCGCGCGAGTTTATCCTCGGCGCCGCCCGCGCCCATGGCCGTATTCAGATACTGAACGAGGCGTCCTCGGTCGAGTCAACCGGCCACGGTTCGCCGCTGCCGCAGCTGGTGCACGGCGGCCCCGGCCGCGCCGGCGGCGGCGAAGAGCTCGGCGGACTGCGTTCGGTGAAACACTATATGCAGCGCACCGCCGTCCAGGGCAGCCCGACGATGCTGGCGACCATTGGCCAGCAGTGGGTGCGCGGCGCCCAGGTGAGCGAAGACCGCATTCACCCGTTCCGCAAATATTTCGAAGAGATCCAGCCCGGCGACAGTTTGCTGACCCCGCGGCGGACCCTGACCGAAGCGGATATCGTTAACTTCGCCTGTCTGAGCGGCGACCATTTCTACGCCCACATGGACAAAATCGCCGCCGCCGACTCGATTTTCGGCGAGCGCGTGGTCCACGGTTATTTCCTGATCTCCGCGGCGGCCGGTCTGTTCGTCGATGCCGGCGTCGGGCCGGTTATCGCCAACTACGGCATGGAAAACCTGCGCTTTATTGAACCGGTCAAGCCGGGAGACACCATCCAGGTGCGTCTGACCTGTAAGCGGAAAACCGTTAAACGTCAGCGTAGCGCCGAGGAGAAAGCTACCGGCGTGGTGGAATGGGCGGTGGAGATTTTCAACCAGCACCAGCAGGCGGTGGCGCTGTATTCCATTCTGACCCTGGTGGCGCGCCAGCAGGGGGATTTCCCGGCGTAA	MQQLASYLSGAWQTGRGRARTIHHAITGAALWEVTSEGLDMAQARRFAIERGGQALQAMTFIERSAMLKAVAKHLLEQKDQFYAISAQTGATRADSWVDIEGGIGTLFTYAGLGSRELPDDLLWPEDELIPLSKQGDFAARHVLTSKSGVAVHINAFNFPCWGMLEKLAPTWLAGMPAIVKPATATAQLTQAMVKAIVDSGLVPEGAISLICGGAGDLLDHLDSQDVVTFTGSAATGQQLRSHPNLVAKSIPFTMEADSLNCCVLGEDVTPEQPEFALFIREVVREMTAKAGQKCTAIRRIIVPLAQINAVSDALIARLHKVTVGDPAQEGIKMGALVNHEQRQDVQESVNKLIAAGCEALLGGQADLSAAGAFFPPTLLYCAQPDETPAVHAIEAFGPVATLMPYQDRQHALALARAGGGSLAGTLVTASGELAREFILGAARAHGRIQILNEASSVESTGHGSPLPQLVHGGPGRAGGGEELGGLRSVKHYMQRTAVQGSPTMLATIGQQWVRGAQVSEDRIHPFRKYFEEIQPGDSLLTPRRTLTEADIVNFACLSGDHFYAHMDKIAAADSIFGERVVHGYFLISAAAGLFVDAGVGPVIANYGMENLRFIEPVKPGDTIQVRLTCKRKTVKRQRSAEEKATGVVEWAVEIFNQHQQAVALYSILTLVARQQGDFPA	PGPT0006100_476	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006100-paaZ-K02618	NA	NA
BMS020_00072	930	paaA	COG3396	1,2-phenylacetyl-CoA epoxidase, subunit A	GTGACAGAAGAACAACGCTTTGACCAGCGCATCGCGCAGGAAACGGCCATCGAACCGCAGGACTGGATGCCGGATGCCTATCGTAAAACCCTGATCCGTCAGATTGGTCAGCATGCGCACTCGGAAATCGTCGGCATGCTGCCGGAAGGCAACTGGATCACCCGGGCGCCCACTCTGCGCCGCAAAGCGATCCTGCTGGCTAAAGTGCAGGATGAGGCCGGCCACGGGCTGTATCTCTATAGCGCCGCGGAAACTCTCGGCTGCGCGCGGGAAGATCTGTATCAGAAGATGCTCGACGGGCAGATGAAATACTCCTCCATTTTTAACTACCCGACGCTGAGCTGGGCCGATATCGGCGTGATCGGCTGGCTGGTCGATGGCGCGGCCATCGTCAACCAGGTGGCGCTGTGCCGGACGTCCTACGGCCCCTATGCCCGGGCGATGGTCAAAATCTGCAAAGAAGAGAGCTTTCACCAGCGCCAGGGATTTGAAGCCTGCATGGCGCTGGCGCAGGGTAATGACGCTCAGCGGCAGATGCTGCAGGACGCCATTAACCGCTTCTGGTGGCCGGCGCTGATGATGTTTGGCCCCAACGACGACAACTCGCCGAACAGCGCCCGCAGCATGGCGTGGAAAATCAAACTGCACTCCAACGACGAGCTGCGTCAACGCTTCGTCGACAACACCGTGCCGCAGGTGGAGATCCTCGGCATGACCGTCCCGGACCCGGAGTTGCACTTTGATGAAGCCAGCGGCCACTACCGCTTCGGCGAGATCGACTGGCAGGAGTTTAACGAGGTGATTAGCGGCCGTGGCGTGTGCAACCACGAGCGGCTGGCCGCCAAGCGTAAGGCCTGGAAAGAGGGCGAGTGGGTACTCGAAGCCGCGCTGGCCCATGCGCAAAAACAGCAGGCCCGCAGCGCGGCATAA	MTEEQRFDQRIAQETAIEPQDWMPDAYRKTLIRQIGQHAHSEIVGMLPEGNWITRAPTLRRKAILLAKVQDEAGHGLYLYSAAETLGCAREDLYQKMLDGQMKYSSIFNYPTLSWADIGVIGWLVDGAAIVNQVALCRTSYGPYARAMVKICKEESFHQRQGFEACMALAQGNDAQRQMLQDAINRFWWPALMMFGPNDDNSPNSARSMAWKIKLHSNDELRQRFVDNTVPQVEILGMTVPDPELHFDEASGHYRFGEIDWQEFNEVISGRGVCNHERLAAKRKAWKEGEWVLEAALAHAQKQQARSAA	PGPT0006045_1087	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006045-paaA-K02609	NA	NA
BMS020_00073	288	paaB	COG3460	1,2-phenylacetyl-CoA epoxidase, subunit B	ATGAGCAAAGTTTACTGGCCGTTATATGAAGTGTTCGTTCGCAGCAAACAGGGGCTTTCCCATCGTCACGTCGGCAGCCTGCATGCCGCTGACGATCAAATGGCGCTGGAGAACGCCCGCGACGCCTACACCCGCCGCAGCGAAGGCTGCTCCATTTGGGTGGTGAAGGCCAGCGAAATCGTCGCCTCGCAGCCGGAAGCGCGCGGCGAATTCTTCGACCCGGCGGAAAGCAAAGTCTACCGTCATCCGACCTTCTATACCGTGCCGGACGGCATGGAACACATGTGA	MSKVYWPLYEVFVRSKQGLSHRHVGSLHAADDQMALENARDAYTRRSEGCSIWVVKASEIVASQPEARGEFFDPAESKVYRHPTFYTVPDGMEHM	PGPT0006050_671	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006050-paaB-K02610	NA	NA
BMS020_00074	756	paaC	COG3396	1,2-phenylacetyl-CoA epoxidase, subunit C	ATGAATAACCCCAATCCTGTAGCCACCTACGCTCTGCGTCTTGGCGACAACGGCCTGGTGCTGGCCCAGCGCTTAGGCGCCTGGTGCGGCCATGCCCCGGAGCTGGAGATCGATCTCGCATTGGCCAATATCGGCCTCGATCTGCTTGGCCAGGCGCGCAACTTTTTGAGCTATGCCGCCGAGCTTAGCGGCTGCGGCGACGAAGATACCCTGGCCTTTGGCCGCGATGAGCGCCAGTTCAGCAACCTGCTGCTGGTGGAGCAGCCGAACGGCAATTTTGCCGACACCATCGCCCGCCAGTTCTTTATCGACGTCTGGCACGTCGCCCTGTACAGCCGGCTGGTGAACAGCCGCGACGCGCAGCTGGCGGCCATTGCCGCCAAAGCGCTGAAAGAGGTGCGCTACCACCAGCGCTTCAGCCGCGGCTGGCTGGAGCGTCTTGGTCACGGCACCGAGGTTTCAAATCGCAAAATGCAGCAGGCGGTCGACAATCTGTGGCGCTTTACCGGCGAACTGTTCCTTGCCGATGACCTGGAGCTCAGCCTGGCCGGGAAGGGCATTGCGGTTGATCCGCGCGAGCTTCAGGCCGAATGGCAAAGCACCGTGCATACCGCGCTGCTTGACTCAGGCTTACCGGTCCCGCAGGAAGCGGCCTTTCGCAGCGGCGGCAAACAGGGGCTGCACAGTGAACATCTCGGCCCGCTGCTGGCAGAGATGCAATATCTGCAGCGTTCCCATCCCGGCCTGCAGTGGTAA	MNNPNPVATYALRLGDNGLVLAQRLGAWCGHAPELEIDLALANIGLDLLGQARNFLSYAAELSGCGDEDTLAFGRDERQFSNLLLVEQPNGNFADTIARQFFIDVWHVALYSRLVNSRDAQLAAIAAKALKEVRYHQRFSRGWLERLGHGTEVSNRKMQQAVDNLWRFTGELFLADDLELSLAGKGIAVDPRELQAEWQSTVHTALLDSGLPVPQEAAFRSGGKQGLHSEHLGPLLAEMQYLQRSHPGLQW	PGPT0006055_946	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006055-paaC-K02611	NA	NA
BMS020_00075	498	paaD	COG2151	Putative 1,2-phenylacetyl-CoA epoxidase, subunit D	ATGCAACGTTTAGATGACATCGCTCCCGCCGAGGTGCGCGCCATCTGGGGAGTGTTAAGCGCGATCCCGGATCCGGAAGTGCCGGTACTCACCATCACCGATCTCGGCATGGTGCGTAGCGTCGCGCGGCACGGCGACGGGTGGGTGATTGGCTTTACCCCGACTTATTCAGGATGCCCGGCGACGGAGCATCTGCTGAGCGAGATCCGCGCGGTGATGAGCGAGCATGGTTATCTGCCGGTCCACATCGTCCTGCAGCTGGACCCGCCGTGGACCACCGACTGGATGAGCCAGGAGGCCCGCGAGCGCCTGCGCCAGTACGGCATCAGCCCGCCGCAGGGGCACGCCTGCCACGCGGAAATGCCCGCCGAGGTGAGCTGTCCGCGCTGCGGCAGCACCCGCACCTCGCTGATTAGCGAATTCGGTTCCACGGCCTGCAAAGCGCTCTATCGCTGCGACAGCTGCCGGGAACCCTTTGATTACTTTAAATGTATTTGA	MQRLDDIAPAEVRAIWGVLSAIPDPEVPVLTITDLGMVRSVARHGDGWVIGFTPTYSGCPATEHLLSEIRAVMSEHGYLPVHIVLQLDPPWTTDWMSQEARERLRQYGISPPQGHACHAEMPAEVSCPRCGSTRTSLISEFGSTACKALYRCDSCREPFDYFKCI	PGPT0006060_814	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006060-paaD-K02612	NA	NA
BMS020_00076	1071	paaE	COG1018	1,2-phenylacetyl-CoA epoxidase, subunit E	ATGACGACGTTCCATGCGCTTAAGGTCGCGAGAGTCGAGCCGGAAACCCGCGATGCGGTGACCATTACGTTTGCGATTCCGCAAGCCCTGCAGGCGGAGTACTGCTTTCGTCCGGGCCAGCATCTGACGCTGAAAGCCCGACTGGGCGGTGAAGAGCTGCGCCGCTGTTACTCCATCTGCCGCAGCCCTACGCCGGGAGAGATCAGCGTCGCGGTCAAAGCCATCGACGGCGGGCGCTTCTCGCGCTTCGCCCAGCACGCTATCCAGCAGGGGATGGAGCTGGAGGTAATGGTGCCGCAGGGGCATTTCGGCTATCAGCCGCAGGCTGAACGGCAGGGCGACTATCTGGCGATCGCCGCCGGCTCCGGGATCACGCCGATGATGGCGATCGTTAGCGCCACCCTGGCCACCGAGCCGCACAGCCGCTTCACGCTGATCTACGGCAACCGCAGCAGCCACAGCATGATGTTCCGCCAGGCGCTGGCCGATTTAAAAGACCGCTATCCGCAGCGCCTGCAGGTGGTGCATCTGTTCAGCCAGGAGTCGATGGACAGCGATCTGCTGCAGGGGCGCATCGATGGCGACAAACTGCGCCAGCTCGCGGACCATCTGCTGGATTTCAGCCGCTTCGACGAGGCCTTTATCTGCGGCCCGGCGACGATGATGGATGAGGCGGAAACGACCCTGCGCGAGCTCGGCGTGCCGGAGCACGCCATTCATCTCGAACGCTTCAATACGCCGGGCGGCAGCGTTAAGCGCGCCGCCGGGGTGCAGGCGGAAGGGCGCACGGTAACCATCCGCCAGGACGGGCGCGATCGGCTGATCGCCCTCAGCGCCGAAGACGACAGCATTCTGGATGCCGCATTGCGCCAGGGGGCAGACCTGCCGTTTGCCTGCAAGGGCGGGGTGTGCGCCACCTGTAAATGCAAAGTGCTGCGCGGCGAAGTGGCGATGGCCGCCAACTATAGCCTCGAAGCGGATGAGCTGGCGGCGGGTTACGTGCTGAGCTGCCAGGCGCTGCCCACCAGCGGCGACGTGGTGGTCGACTTTGACGCGCGGGGGATGGCATGA	MTTFHALKVARVEPETRDAVTITFAIPQALQAEYCFRPGQHLTLKARLGGEELRRCYSICRSPTPGEISVAVKAIDGGRFSRFAQHAIQQGMELEVMVPQGHFGYQPQAERQGDYLAIAAGSGITPMMAIVSATLATEPHSRFTLIYGNRSSHSMMFRQALADLKDRYPQRLQVVHLFSQESMDSDLLQGRIDGDKLRQLADHLLDFSRFDEAFICGPATMMDEAETTLRELGVPEHAIHLERFNTPGGSVKRAAGVQAEGRTVTIRQDGRDRLIALSAEDDSILDAALRQGADLPFACKGGVCATCKCKVLRGEVAMAANYSLEADELAAGYVLSCQALPTSGDVVVDFDARGMA	PGPT0006065_886	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006065-paaE-K02613	NA	NA
BMS020_00077	756	paaF_1	COG1024	2,3-dehydroadipyl-CoA hydratase	ATGATCCACCGCCATGGCCGGGTGCTGCAGCTGACGCTCAACCGTCCGCAGGCCCGCAACGCGCTGAACAATGCCTTATTAACCCGGATTGCCGAGGCGCTGGAGGCCGCGGCCGCTGATGACAACGTCAGCGTCTGCGTCATCAGCGGCAATCCGCGCTTCTTTGCCGCCGGAGCCGACCTGAACGAGATGGCGGAGAAAGATCTCCCGGCGACCCTGGATGATATCCGCCCGCGGCTGTGGGCGCGTATCGATGCCTTCCCCAAACCGCTGATCGCCTCGGTCAACGGTTACGCCCTCGGCGCGGGCTGCGAGCTGGCCCTGCTGTGCGACCTGATTGTCGCCGGGGACAACGCCCGCTTTGGCCTGCCGGAAATTACCCTCGGCATCATGCCGGGCGCTGGCGGCACCCAGCGGCTGATCCGCAGCGTTGGCAAGGCGCTGGCCAGCCGGATGGTGCTGAGCGGCGAGAGTATTGACGCCTGTCAGGCGCAGCAGGCCGGGCTGGTGAGCGATATCCATCCGGCGGCGTTAACCGATGAATATGCCCTGCAACTGGCGACCACCATCGCCCGCCACGCGCCGTTGGCGCTCCGGGCGGCGAAACAGTCGCTGCGCCTGTCGCAGGAGGTGAGCCTGCAGGCCGGTCTCCAGCAGGAGCGCCAGCTGTTCACCCTGCTGAGCGCCACCGAAGACCGCCGCGAAGGCATCGACGCCTTCTTACAAAAACGTACCCCGGACTTTAAAGGACGCTAA	MIHRHGRVLQLTLNRPQARNALNNALLTRIAEALEAAAADDNVSVCVISGNPRFFAAGADLNEMAEKDLPATLDDIRPRLWARIDAFPKPLIASVNGYALGAGCELALLCDLIVAGDNARFGLPEITLGIMPGAGGTQRLIRSVGKALASRMVLSGESIDACQAQQAGLVSDIHPAALTDEYALQLATTIARHAPLALRAAKQSLRLSQEVSLQAGLQQERQLFTLLSATEDRREGIDAFLQKRTPDFKGR	PGPT0001860_6759	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0001860-paaF|echA-K01692	NA	NA
BMS020_00078	789	paaG	COG1024	1,2-epoxyphenylacetyl-CoA isomerase	GTGGAAGCTTTCATTCTCAGCGCAGTGGAACAGGGCGTCATGACTATTACCCTCAATCGCCCGGACCGCCTCAACAGTTTTAACGACCTGATGCATCAACAGCTGGCGGAATGCCTGAAGCAGGCCGAGCGCGACGACGGCGTGCGTTGCCTGCTGATCACCGGCGCCGGCCGCGGCTTTTGCGCCGGCCAGGATTTGAACGACCGCAACGTCGACCCCAGCGGCCCGCCGCCGGATCTCGGCCTGTCGGTGGAACGCTTTTACAACCCGTTAGTGCGTCGTCTGGCGGCGCTGCCGAAACCGGTGATTTGCGCGGTCAACGGCGTAGCCGCTGGCGCAGGGGCCACCCTGGCGCTGGGCTGCGATATCGTGCTGGCCGCGCGTTCGGCCAAGTTTGTGATGGCCTTCAGCAAGCTCGGGCTGGTGCCGGACTGCGGCGGCAGCTGGTTCCTGCCGCGGGTGGCCGGCCGCGCGCGCGCCATGGGGCTGGCGCTGCTGGGCGATAGCCTCAGCGCGGAACAGGCCGCGCAGTGGGGGATGATCTGGCAGCTGGTGGATGATGCCGAACTGGCGGACACCAGTCTGCAGCTGGCGCGCCATCTGGCGGCTCAGCCGACCTTGGGTCTTGGGCTAATTAAAAAGGCGCTGCTGGCGGCGGAAACCAACGGTCTCGACGCGCAGCTGGACCTGGAGCGCGATTATCAACGCCTCGCCGGGCGCAGCGATGATTACCGCGAAGGGGTCAGCGCATTTCTGGCCAAACGGCCACCACAGTTCAGCGGGAAATAG	MEAFILSAVEQGVMTITLNRPDRLNSFNDLMHQQLAECLKQAERDDGVRCLLITGAGRGFCAGQDLNDRNVDPSGPPPDLGLSVERFYNPLVRRLAALPKPVICAVNGVAAGAGATLALGCDIVLAARSAKFVMAFSKLGLVPDCGGSWFLPRVAGRARAMGLALLGDSLSAEQAAQWGMIWQLVDDAELADTSLQLARHLAAQPTLGLGLIKKALLAAETNGLDAQLDLERDYQRLAGRSDDYREGVSAFLAKRPPQFSGK	PGPT0006070_1763	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006070-paaG-K15866	NA	NA
BMS020_00079	1425	paaH	COG1250	3-hydroxyadipyl-CoA dehydrogenase	ATGATGACGACATCCATAGCCAACGTGGCGGTGATCGGCAGCGGCACCATGGGGGCCGGCATCGCCGAAGTGGCGGCTGCCGCCGGGCATCCGGTGCTGATTTACGACATCGATCATCAGGCCATCGCCCGGGCGATCGAGGGTATTGCCAGGCGGCTCGCCTCACGGGTCGAGCGCGGCAAACTGGCGTCAGAGCAGGCCGACGCGCTGCTGGCACGCCTGCATCCGGCCCACGATTTAGCCGCGCTGGCCGACGCAGATTTAGTGATCGAAGCGGCCTCTGAACGCCTGGAGGTAAAAACGGCGCTGTTCGCGCAGCTGGCGGCGATCTGCGCGCCGTCAACGTTGCTCACCAGCAACACCTCGTCGATTTCGATTACCGCCATCGCCGCCGGGGTAAAGCATCCCGAACGCGTCGCCGGGCTGCACTTCTTTAATCCGGCGCCGGTCATGAAGCTGGTGGAGGTCGTCAGCGGCCTGGTGACGTCTGCGGAAGTGGTGGAGCAGCTGTGCCAGTGCGTGAGCGGCTGGGGGAAACGGCCGGTGCGCTGCCGCTCGACGCCCGGCTTTATCGTTAACCGCGTGGCGCGTCCATTCTACGCCGAAGCCTGGCGGGCGCTGGAGGAGCAGGTGGCCGCCCCGGAGGTTATCGATGCCGCTTTGCGTGACGGCGGCGGTTTCCCGATGGGGCCCCTGGCGCTGACGGACCTGATTGGCCAGGACGTTAACTTCGCCGTGACCTGCTCGGTATTTAACGCTTTCTGGCAGGACCGCCGTTACCTGCCATCGCTACTCCAGCAAGAGCTGGCGCTGGCCGGGCGGCTGGGCAAAAAGAGCGGCCATGGCGTCTATCGCTGGCCTGCGGAAGTCAGGACGGCGGCGGCGCTGCCGCCGGTTGCCCATGGCGCCCAATCCGTCATCACTATAAGTGACAGCGTCACCGAGCTGGACGAGCTGCTGTTGCTGGAGACCGAAGGCGAGACTGCCCTGGCGCTGAGCGTTAAGCATCGCCGTCCGGTGGTGGTGTATGACCTGTGCGCCAGCGATACGGTAGTGCTGGCCGCAGCGGCGACCAACGCGCCGGCGGCGACGGACAAAGCGGTGCACTACTTCCAGCAGCAGGGCAAGAACGTGCTGCGTATCGCCGATTATCCCGGCCTGCTGGTGTGGCGCACGGTGGCGATGCTGATTAACGAAGCGCTGGATGCACTACAGAAAGGGGTGGCCAGCGCACAGGATATCGATACCGCCATGCGTCTGGGCGTCAATTACCCGCAGGGCCCGCTGGCGTGGGGGGACAGCCTCGGCTGGCACCGCGTGCTGCGCCTGCTGGAGAACCTGCACCACCATTATGGCGAGGAGCGCTATCGCCCCGGCTCCCTGTTGCGCCAGAAGGCGCTGATGGAGAAGCACCATGAGCAATGA	MMTTSIANVAVIGSGTMGAGIAEVAAAAGHPVLIYDIDHQAIARAIEGIARRLASRVERGKLASEQADALLARLHPAHDLAALADADLVIEAASERLEVKTALFAQLAAICAPSTLLTSNTSSISITAIAAGVKHPERVAGLHFFNPAPVMKLVEVVSGLVTSAEVVEQLCQCVSGWGKRPVRCRSTPGFIVNRVARPFYAEAWRALEEQVAAPEVIDAALRDGGGFPMGPLALTDLIGQDVNFAVTCSVFNAFWQDRRYLPSLLQQELALAGRLGKKSGHGVYRWPAEVRTAAALPPVAHGAQSVITISDSVTELDELLLLETEGETALALSVKHRRPVVVYDLCASDTVVLAAAATNAPAATDKAVHYFQQQGKNVLRIADYPGLLVWRTVAMLINEALDALQKGVASAQDIDTAMRLGVNYPQGPLAWGDSLGWHRVLRLLENLHHHYGEERYRPGSLLRQKALMEKHHEQ	PGPT0006075_982	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006075-paaH|hbd|fadB|mmgB-K00074	NA	NA
BMS020_00080	423	paaI	COG2050	Acyl-coenzyme A thioesterase PaaI	ATGAGCAATGACGCCTGGCGCAACGCGCGCGCGATGTACGAAAAAGATACCTGCGCCAGAACGATGGGGATCGAACTCATCGAGATGGACGACGGTTTTGCGCAGATGACCATGACCGTCTCGCCGGACATGCTTAACGGCCATCAAACCTGCCACGGCGGTCAGCTATTTACCCTTGCCGATACCGCTTTCGCCTACGCCTGTAACAGCCAGGGGCTGGCGGCGGTGGCTTCGGCGGCCAGCATTGATTTTCTCCGCCCGGCGTTTGCCGGCGACCGGCTGGTCGCCACCGCCAGAGTCAAACAGCAGGGCAAGCTGACCGGGGTCTACGACATTGAAATTGTTAATCAACAGCAAAAAATTGTGGCCCTCTTTCGCGGCAAATCGCACCGCATCGGTGGCACAATCACAGGAGAAGTGTAA	MSNDAWRNARAMYEKDTCARTMGIELIEMDDGFAQMTMTVSPDMLNGHQTCHGGQLFTLADTAFAYACNSQGLAAVASAASIDFLRPAFAGDRLVATARVKQQGKLTGVYDIEIVNQQQKIVALFRGKSHRIGGTITGEV	PGPT0006080_817	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006080-paaI-K02614	NA	NA
BMS020_00081	1206	paaJ	COG0183	3-oxoadipyl-CoA/3-oxo-5,6-dehydrosuberyl-CoA thiolase	ATGCGCGAGGCCTTTATTTGTGACGGGATCCGCACGCCGATTGGCCGCTACGGCGGCGCGCTGGCCAGCGTGCGCGCCGACGACCTGGCGGCGATCCCGCTGCGTGCGCTGCTGAGCCGCAACCCCAGACTTGACCCGACCGCGATCGATGATGTGATTTACGGCTGCGCGAATCAGGCGGGCGAAGATAACCGCAATGTGGCGCATATGGCGACGCTGCTGGCCGGCTACCCGCATACGGTGCCGGGAACCACCCTCAACCGCCTGTGCGGCTCCGGGCTGGACGCCGTCGGTTTTGCCGCCCGGGCGATCAAAGCCGGCGATGCCGATCTGCTGATCGCCGGCGGCGTGGAGTCGATGTCGCGCGCGCCGTTTGTGATGGGGAAGGCCAGCGCGCCGTATCAGCGTCAGGCGGAGCTGTTCGACACCACCATTGGCTGGCGTTTTGTGAACCCGCTCATGGCGCAACACTTCGGAACTGACAGCATGCCGGAAACCGCCGAGAATGTAGCCGAATTGTTAAATATCAGCCGCGCCGATCAGGATGCTTTCGCCTGGCGCAGCCAGCAGCGCACGGCGCAGGCCCAGCGCGACGGCATTCTGGCGCAGGAGATCGTGCCGGTGCAGGTTGTCGGCCGGAAAGGGGCGCTTAGCGACGTGCGCGAGGACGAGCATCCGCGACCGGAAACCACGCTTGAGCAGCTGGCGCAACTGAAAGCGCCGTTCCGTCAAGGCGGCGTCATTACCGCGGGCAATGCTTCCGGCGTCAACGACGGCGCCGCGGCGCTGATCATCGCCAGCGAACAGCAGGCCGCTAGCCAGGGGCTCACGCCGCGGGCGCGGATCGTGGCGATGGCGACGGCGGGCGTCGAGCCGCGCCTGATGGGGCTGGGGCCGGTACCGGCGGTGCGTAAAGTGCTGGAGCGGGCGGGACTCAATATTAACGATATGGATCTGATTGAGCTGAATGAGGCCTTCGCCGCCCAGGCGCTGGGGGTGCTCAGACAGCTCGGCGTGCCGGACGATGCGGCGCATGTGAATCCCAACGGCGGCGCCATCGCTTTAGGCCATCCGCTGGGCATGAGCGGCGCGCGTCTGGCGCTGAGCGCCAGCCTTGAGCTGCAGCGCCGCGGCGGGCGCTATGCGTTGTGTACGATGTGTATTGGCGTGGGTCAGGGCATCGCCATGATCCTCGAGCGAGTGTGA	MREAFICDGIRTPIGRYGGALASVRADDLAAIPLRALLSRNPRLDPTAIDDVIYGCANQAGEDNRNVAHMATLLAGYPHTVPGTTLNRLCGSGLDAVGFAARAIKAGDADLLIAGGVESMSRAPFVMGKASAPYQRQAELFDTTIGWRFVNPLMAQHFGTDSMPETAENVAELLNISRADQDAFAWRSQQRTAQAQRDGILAQEIVPVQVVGRKGALSDVREDEHPRPETTLEQLAQLKAPFRQGGVITAGNASGVNDGAAALIIASEQQAASQGLTPRARIVAMATAGVEPRLMGLGPVPAVRKVLERAGLNINDMDLIELNEAFAAQALGVLRQLGVPDDAAHVNPNGGAIALGHPLGMSGARLALSASLELQRRGGRYALCTMCIGVGQGIAMILERV	PGPT0006085_90	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006085-paaJ-K02615	NA	NA
BMS020_00082	1317	paaK	COG1541	Phenylacetate-coenzyme A ligase	ATGATAACTACTACAAAATTAGATCCGATTGAAACCGCCTCGCGTGATGAGCTGCAGGCCCTGCAAACCCAGCGTCTGAAGTGGACGCTGAATCATGCGTATAACAATGTGCCAATGTATCGTCGTAAATTCGACGCCGCAGGCGTGCACCCTGACGACTTCCGCGAACTGAGCGACCTGACCAAATTCCCGTGCACCACCAAACAGGATCTGCGCGACAACTATCCCTTCGATACCTTCGCGGTGCCGATGGAGCAGGTGGTGCGCATTCATGCCTCATCCGGCACCACCGGCAAACCGACGGTGGTGGGTTATACGCAAAACGATATTGATAACTGGGCCAATATCGTCGCCCGTTCGCTGCGCGCCGCCGGCGGCACGGCGAAAGATAAAATTCACGTCGCCTACGGCTACGGCCTGTTTACCGGCGGCCTCGGCGCGCACTACGGCGCGGAACGCTTAGGCGCGACGGTGATCCCGATGTCCGGCGGACAGACCGAAAAACAGGCGCAGCTGATCCGCGATTTCCAGCCGGATATGATCATGGTGACGCCCTCATACTGTCTGAATCTGATTGAAGAGCTGGAGCGCCAGATGGCCGGCGATGCCCGCGGCTGTTCATTACGCGTCGGCGTCTTTGGCGCCGAGCCGTGGACCCTGGCGATGCGCGCGGAGATCGAGCGCCGGCTTGGGATCACCGCCCTGGATATTTACGGTCTGTCAGAGGTGATGGGCCCGGGGGTGGCGATGGAGTGTCTGGAAACCGTTGACGGCCCGACCATCTGGGAAGACCACTTCTTCCCGGAAATCGTTAACCCGGACGACGGCACGCCGCTGGCCGATGGCGAACACGGCGAACTGCTGTTCACCACGCTGACCAAAGAGGCGCTGCCGGTGATCCGCTACCGTACCCGCGATCTGACGCGCCTGCTACCGGGCACTGCGCGCACCATGCGCCGTATGGACCGCATCAGCGGACGCAGCGACGATATGCTGATCATCCGCGGGGTTAACGTCTTCCCGTCGCAGCTGGAAGAAGAGATCCTTAAGTTTGAACACCTGGCGCCGCACTACCAGCTGGAGGTGAATCGCCGCGGCCATCTCGATTCGCTGGCAGTGCGCGTGGAGCTGAAAGAGAGCGGGCTGGCGCTGAGTCACGAGCAGCGCTGCCAGATTTGTCACCAGCTGCGCCACCGCATTAAGTCGATGGTCGGGATCTCCACCGATATCACCATCGTCAACTGCGGCAGCATTCCGCGCTCTGAAGGCAAAGCCTGTCGCGTATTCGACCTGCGTAAAGCGGTGGTCAGCGGTTAA	MITTTKLDPIETASRDELQALQTQRLKWTLNHAYNNVPMYRRKFDAAGVHPDDFRELSDLTKFPCTTKQDLRDNYPFDTFAVPMEQVVRIHASSGTTGKPTVVGYTQNDIDNWANIVARSLRAAGGTAKDKIHVAYGYGLFTGGLGAHYGAERLGATVIPMSGGQTEKQAQLIRDFQPDMIMVTPSYCLNLIEELERQMAGDARGCSLRVGVFGAEPWTLAMRAEIERRLGITALDIYGLSEVMGPGVAMECLETVDGPTIWEDHFFPEIVNPDDGTPLADGEHGELLFTTLTKEALPVIRYRTRDLTRLLPGTARTMRRMDRISGRSDDMLIIRGVNVFPSQLEEEILKFEHLAPHYQLEVNRRGHLDSLAVRVELKESGLALSHEQRCQICHQLRHRIKSMVGISTDITIVNCGSIPRSEGKACRVFDLRKAVVSG	PGPT0026240_1664	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR_VIRULENCE_REGULATORY_SYSTEM,PGPT0026240-paaK-K01912	NA	NA
BMS020_00083	936	paaX	COG3327	Transcriptional repressor PaaX	ATGAATCAGATGAGTAAACTCGACGCCTTTATTCAACAAGCGGTGACGGCGACGCCGATCAGCGGCACATCATTAATCGCCTCGCTGTATGGCGACGCCTTATTACAACGCGGTGGGGAAGTGTGGCTGGGCAGCGTCGCGGCGCTGCTGGAAGGATTAGGCTTCGGCGAGCGTTTCGTCCGCACCGCGCTGTTTCGCCTCAATAAAGAGGAGTGGCTCGATGTCGTCCGTATCGGCCGCCGCAGCTTCTATCGTCTGAGCGACAAAGGGCTGCGCCTGACCCGACGCGCGGAACATAAAATTTATCGCGCGAACGCTCCGGAATGGGACGGCACCTGGCTGCTGCTGCTTTCGGAAGGCCTGGAGAAAAATGTGCTGGCCGACGTCAAAAAGCAGCTGCTGTGGCAGGGGTTTGGCGCGCTGGCGCCGAGCCTGTTAGCCTCGCCGTCGCAAAAGCTGGCGGATGTCCAGTCGCTGCTCCATGAAGCGGGGGTCGCCGAAAACGTCATCTGTTTTGAAGCTCACTCGCCGCTGGCGCTCTCCCGGGCGGCGCTGCGCAGCCGGGTGGAGGAGTGCTGGCATCTCACCGAACAAAACGAGATGTATGAGGCCTTTATCTCGTTATTCCGGCCGTTACTGCCGCTGCTGCGCGACTGCGACCCCGCGGAGTTAACGCCGGAACGCAGCTTTCAGATCCAGCTCCTGCTGATTCATTTCTATCGCCGGGTGGTGCTCAAAGATCCGCTGCTGCCGGAAGAGCTGCTGCCGGCGCACTGGGCGGGGCAAACCGCCCGCCAGCTGTGTATCAATATTTACCAACGGGTGAGTCCCGGCGCGCTGGCGTTCGTCAGCGAGAAAGGTGAAAGCTCGGTCGGCGAGCTTCCCGCGCCGGGCCCGCTCTATTATCAGCGCTTTGGCGGTTTGCCGGGCGCATAA	MNQMSKLDAFIQQAVTATPISGTSLIASLYGDALLQRGGEVWLGSVAALLEGLGFGERFVRTALFRLNKEEWLDVVRIGRRSFYRLSDKGLRLTRRAEHKIYRANAPEWDGTWLLLLSEGLEKNVLADVKKQLLWQGFGALAPSLLASPSQKLADVQSLLHEAGVAENVICFEAHSPLALSRAALRSRVEECWHLTEQNEMYEAFISLFRPLLPLLRDCDPAELTPERSFQIQLLLIHFYRRVVLKDPLLPEELLPAHWAGQTARQLCINIYQRVSPGALAFVSEKGESSVGELPAPGPLYYQRFGGLPGA	PGPT0006090_209	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_PHENYLACETATE_DEGRADATION,PGPT0006090-paaX-K02616	NA	NA
BMS020_00084	597	yrdA_1	COG0663	Protein YrdA	ATGCCGATTTATCAGATTGATGGACTGACCCCGGTGGTGCCGGAGGAGAGTTACGTCCACCCGACCGCGGTGTTGATTGGCGACGTGATCCTCGGCAAAGGGGTCTATGTTGGGCCCAACGCCAGCCTGCGCGGCGATTTTGGCCGCATCGTGGTCAAAGACGGGGCCAATATTCAGGACAACTGCGTGATGCACGGCTTCCCCGGCCAGGATACGGTGGTGGAAGAGGACGGACATATCGGCCACGGCGCTATTCTGCACGGCTGCGTGATTGGCCGCAACGCGCTGGTGGGCATGAGCGCGGTGATTATCGACGGGGCGACCATCGGCGAAAACAGCATTGTCGGCGCCTCGGCCTTTGTCAAAGCCAACGCCGAGATGCCCGCTAACCATCTGATCATCGGCAGCCCGGCAAAAGCGATTCGCGTCCTGAGCGAACAGGAGCTGGCGTGGAAAAAACATGGCACCCGTGAATACCAGGTGCTGGTGGAACGCTGTAAGCAGACGCTGCATCAGGTCGAGCCGTTACGGGAAGTGGAAGAGGGGCGTAAGCGGCTGGAATTTGATGAAAACCTGCGGCCAAAATCCTCAACCTGA	MPIYQIDGLTPVVPEESYVHPTAVLIGDVILGKGVYVGPNASLRGDFGRIVVKDGANIQDNCVMHGFPGQDTVVEEDGHIGHGAILHGCVIGRNALVGMSAVIIDGATIGENSIVGASAFVKANAEMPANHLIIGSPAKAIRVLSEQELAWKKHGTREYQVLVERCKQTLHQVEPLREVEEGRKRLEFDENLRPKSST	PGPT0006095_303	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006095-paaY-K02617	NA	NA
BMS020_00085	408			hypothetical protein	ATGGCAGAGAAATTATCCGCTCACTGTCACTGCGGTGCGGTGGCGTTTACCGTTGAACTCAGCGACGGCTTCAATACCGCTCGGCGCTGTAACTGCTCATATTGTCGAATGCGCGGGGCGGTCGCGGTCTCTTCGCCGCGTTCAGGCATAGAGGTGGTACGCGGAAGGGATAAGCTCACCGAGTATCGCTTTAATACAGGGGAAGCCGTGCACTTTTTCTGCTCGGTATGCGGGATCTACACCTTTCATCAACGGCGTTCAAACCCGCAGGAGTATGGGGTGAATGTGGCCTGCATTGACGGCGTTTCGCCTTTCGATTTTTCCTGCGTGGAGGTCAACGACGGGGTGAATCATCCAAACGATGGCGGCGGAGGCGTGGTGGGGTATTTGCGCTACGAGAAAAAGTAA	MAEKLSAHCHCGAVAFTVELSDGFNTARRCNCSYCRMRGAVAVSSPRSGIEVVRGRDKLTEYRFNTGEAVHFFCSVCGIYTFHQRRSNPQEYGVNVACIDGVSPFDFSCVEVNDGVNHPNDGGGGVVGYLRYEKK				NA	NA	NA	NA	NA
BMS020_00086	606	azoR_1	COG1182	FMN-dependent NADH-azoreductase	ATGAGCAAAGTATTAGTTCTGAAATCCAGTATTCTGGCAGGGTACTCACAATCTGGTCAGCTTTCCGACTATTTTGTTGAACAATGGCAGGAAAAACACCCGGGCGACGAGATCACCGTGCGTGACCTGGCCGCTAATCCGATCCCGGTTCTGGATGGTGAACTGGTTGGCGCCCTGCGTCCGAGCGACGCGCCGCTGACGCCGCGTCAGCAGGAAGCGCTGGCCCTTTCCGACGAGCTGATCGCCGAACTGAAAGGCAATGATGTGATTGTTATCGCTGCGCCGATGTACAACTTCAACATTCCGACGCAGTTGAAAAACTATTTTGACCTGGTGGCTCGCGCCGGCGTGACCTTCCGCTACACCGAGAAAGGGCCGGAAGGTCTGGTGACCGGTAAACGCGCGGTCGTCGTGACCAGCCGCGGCGGTATCCATAAAGATACCCCGACCGACCTGGTCACCCCGTACCTGTCCACCTTCCTCGGCTTTATCGGCATCACCGACGTGAACTTCGTGTTCGCCGAAGGTATCGCTTACGGCCCGGAAGTCGCGGCCAAAGCGCAGTCTGACGCGAAAGCGGCCATCGACAGCGTGGTTGCAGCCTAA	MSKVLVLKSSILAGYSQSGQLSDYFVEQWQEKHPGDEITVRDLAANPIPVLDGELVGALRPSDAPLTPRQQEALALSDELIAELKGNDVIVIAAPMYNFNIPTQLKNYFDLVARAGVTFRYTEKGPEGLVTGKRAVVVTSRGGIHKDTPTDLVTPYLSTFLGFIGITDVNFVFAEGIAYGPEVAAKAQSDAKAAIDSVVAA	PGPT0006790_2362	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
BMS020_00087	3903			hypothetical protein	ATGACAGAACAACAAAAAATCACCTTCCCCCAGCTTTATCAACAGCTCGACGGCCTGATGCTGCGCGACAAAACGCGCTTTGCCCGCCGTCTGCACGGCGTGAAGAAGGTTAAAAATCCTGAATCGCAACAGGCCATCCTCCAGGAGATGGCGCAGGAGATAAGCCAGGCAGCCGGTAAAGTCCTGCTGCGCGAAGCGGCGCGACCGGCCATCACCTATCCGGAAAACCTGCCGGTTAGCCAGAAAAAACAAGAAATTCTCGAGGCGGTACGCGATCACCAGGTGGTGATTGTCGCCGGGGAGACCGGTTCGGGTAAAACCACCCAGCTGCCAAAAATCTGCATGGAGCTGGGCCGCGGGCTGAAAGGGCTGATCGGCCATACCCAGCCGCGTCGTCTCGCCGCGCGAACCGTCGCCAACCGTATCGCCGAGGAGCTGCAAACGGAGCCGGGCGGTTGTATCGGCTATAAGGTCCGCTTTAGCGATCACGTCAGCGACAACACCATGGTCAAGCTGATGACCGACGGTATTCTGCTGGCGGAGATCCAGCAGGATCGCCTGCTGATGCAGTATGACACCATCATTATCGATGAAGCGCACGAGCGCAGCCTGAACATCGACTTCCTGCTCGGCTATCTGAAAGAGCTGCTGCCGCGCCGTCCTGACCTGAAAATCATCATCACCTCGGCGACCATCGACCCGGAACGTTTCTCAAAGCATTTCAATAATGCGCCGATTATCGAAGTCTCCGGGCGGACTTACCCGGTGGAAGTGCGCTACCGGCCGATAGTGGAAGAGGCGGACGATACCGAGCGCGATCAGCTGCAGGCGATCTTTGATGCCGTCGACGAGCTGGGGCGCGAAGGGCCAGGGGATATTCTGATCTTTATGAGCGGCGAGCGGGAGATTCGCGATACCGCCGATGCGCTGAATAAGCTGGATCTGCGCCATACCGAAGTGCTGCCGCTGTACGCTCGCTTGTCCAACAGCGAGCAGAACCGCGTCTTCCAGCCGCACAGCGGACGGCGCATCGTGCTGGCGACCAACGTGGCGGAAACCTCGCTGACCGTGCCGGGCATCAAGTACGTTATCGATCCCGGTACCGCGCGTATCAGCCGCTACAGCTACCGCACCAAGGTGCAGCGCCTGCCGATCGAGCCGGTTTCCCAGGCCTCCGCCAACCAGCGTAAAGGCCGCTGCGGCCGCGTCTCGGAAGGGATCTGTATTCGTCTTTATTCAGAAGACGATTTCCTGTCGCGCCCGGAATTTACCGACCCGGAAATTCTGCGCACCAACCTGGCGTCGGTCATCCTGCAGATGACCGCCCTGGGCTTAGGCGATATCGCCGCCTTCCCGTTCGTTGAAGCGCCGGATAAGCGCAACATTCAGGACGGCGTGCGCCTGCTGGAAGAGCTGGGCGCGATCACCACCGATGAGCAGGCCACCGCCTATAAGCTAACGCCGATGGGCCGCCAGCTCAGCCAGCTGCCGGTGGACCCGCGCCTGGCGCGGATGGTGCTGGAGGCGCAGAAGCACGGCTGCGTGCGGGAAGCGATGATCATCACCTCCGCGCTGTCGATTCAGGATCCGCGCGAGCGGCCGATGGATAAGCAGCAGGCCTCCGACGAGAAGCACCGCCGCTTTCACGATAAAGAGTCTGATTTCCTCGCCTTCGTCAATCTGTGGAACTACCTCGGCGAGCAGCAGAAGGCGCTGTCGTCGAATCAGTTCCGCCGCCAGTGCAGGGTCGATTTTCTGAACTATCTGCGCGTGCGCGAGTGGCAGGATATCTACACCCAGCTGCGTCAGGTGGTGAAAGAGCTTGGCCTGCCAATCAACAGCGAACCGGCGGAATACCGCGAGATCCATACTGCGCTGCTGACCGGTCTGCTGTCGCACATCGGCATGAAGGATGCCGATAAACAGGAGTTTACCGGCGCGCGGAACGCCCGCTTCTCCATCTTCCCGGGGTCCGGTCTGTTTAAAAAGCCGCCGAAGTGGACGATGGTGGCGGAACTGGTGGAAACCAGCCGCCTCTGGGGCCGCATTGCCGCCCGCATTGAGCCGGAGTGGGTGGAGCCGGTCGCGCAGCACCTGATCAAACGCTCATACAGTGAGCCGCACTGGGAGCGGGCGCAGGGCGCGGTGATGGCGACGGAAAAGGTCACCGTCTATGGCCTGCCGATCGTTGGCGCGCGTAAGGTCAACTACAGCCAGATCGACCCGGCGCTGTGCCGCGAGCTGTTTATCCGCCACGCGCTGGTGGAGGGTGACTGGCAAACGCGCCACGCCTTCTTCCGGGAGAACCTGAAGCTGCGCGCGGAAATCGAAGAGCTGGAGCATAAGTCGCGCCGCCGCGACATTCTGGTGGATGACGAGACCCTGTTCGAATTCTACGACCAGCGCATCAGTCACGACGTCATCTCCGCCCGGCATTTTGACGCCTGGTGGAAGCAGGCCAGCCGCGACACCCCGGATCTGCTCAACTTTGAGAAGAGCATGCTGATTAAGGAAGGGGCGGAGCAGGTCAGCAAACTGGACTATCCGAACTTCTGGCACCAGGGCAACCTCAAGCTGCGTCTGACCTATCAGTTCGAGCCGGGCGCCGACGCCGACGGCGTGACGGTGCATATTCCGCTGCCGCTGCTTAATCAGGTGGAGGAGGCCGGGTTTGAATGGCAGATCCCCGGTCTGCGCCGGGAGCTGATTATCGCCCTGATAAAATCGCTGCCGAAGCCGGTGCGGCGCAATTTCGTCCCGGCGCCCAACTATGCGGAAGCGTTTCTTGGCCGGGCGACGCCGCTGGAGCTGCCGCTGCTCGACTCCCTCGAGCGCGAACTGCGGCGGATGACCGGCGTGACCATCGACCGCGAAGCCTGGCAGTGGGATCAGGTGCCCGATCACCTGAAAATCACCTTCCGGGTGGTGGATGATAAAAACAAGAAGCTGCAGGAAGGGCGCTCGCTGCAGGCGCTGAAAGAGGCGCTGAAGGGCAAAGTTCAGGAGACGCTGTCGGCGGTCGCTGATGACGGCATCGAGCAGAGCGGGCTGCATATCTGGAGCTTTGGCACCCTGGCGGAGAGTTACGAACAGAAGCGCGGCAACTATAAGGTGAAAGCCTGGCCGGCGCTGGTGGACGAGCGCGACAGCGTGGCCATCAAGCTGTTTGATAATCCACAGGAACAGCAGCAGGCCATGTGGCGCGGTCTGCGTCGCCTGCTGCTGCTTAACATTCCGTCGCCGATTAAGTATCTGCACGAGAAGCTGCCGAACAAAGCCAAGCTCGGGCTCTATTTTAACCCGTACGGCAAAGTGCTGGATCTGATTGACGACTGCATCTCCTGCGGCGTTGATAAGCTTATCGACGAGGCGGGCGGGCCGGTGTGGACGGAAGAGGGCTTTAGCCAGCTGCATGATAAAGTTCGCGCCGAGCTCAACGAGACGGTCGTGGAGATCGCCAAACAGGTCGAGCAGATCCTCACCGCGGTGTTCAATATCAACAAACGGCTGAAAGGCCGGGTGGATATGACCATGGCGCTGGGGCTGTCGGACATCAAAGCGCAGATGGCGGGGCTGGTTTACCGCGGCTTTGTCACCGGCAATGGCTTCCGTCGTCTTGGCGATACGCTGCGCTATCTGCAGGCGATTGAAAAGCGTCTGGAGAAGATGGCTATCGATCCGCACCGCGACCGCGCGCAGATGCTGAAAATCGAGAGCGTGCAGCAGGCGTGGCAGCAGTGGCTGAATAAGCTGCCGCCGAACCGCCGTGAAGACGACGATGTCCGGGAGATCCGCTGGATGATCGAGGAGCTGCGGGTGAGCTTCTTCGCCCAGCAGCTGGGGACCCCGTACCCTATCTCGGACAAACGCGTGCTACAGGCGATGGAGCAGATTACGCCGTAA	MTEQQKITFPQLYQQLDGLMLRDKTRFARRLHGVKKVKNPESQQAILQEMAQEISQAAGKVLLREAARPAITYPENLPVSQKKQEILEAVRDHQVVIVAGETGSGKTTQLPKICMELGRGLKGLIGHTQPRRLAARTVANRIAEELQTEPGGCIGYKVRFSDHVSDNTMVKLMTDGILLAEIQQDRLLMQYDTIIIDEAHERSLNIDFLLGYLKELLPRRPDLKIIITSATIDPERFSKHFNNAPIIEVSGRTYPVEVRYRPIVEEADDTERDQLQAIFDAVDELGREGPGDILIFMSGEREIRDTADALNKLDLRHTEVLPLYARLSNSEQNRVFQPHSGRRIVLATNVAETSLTVPGIKYVIDPGTARISRYSYRTKVQRLPIEPVSQASANQRKGRCGRVSEGICIRLYSEDDFLSRPEFTDPEILRTNLASVILQMTALGLGDIAAFPFVEAPDKRNIQDGVRLLEELGAITTDEQATAYKLTPMGRQLSQLPVDPRLARMVLEAQKHGCVREAMIITSALSIQDPRERPMDKQQASDEKHRRFHDKESDFLAFVNLWNYLGEQQKALSSNQFRRQCRVDFLNYLRVREWQDIYTQLRQVVKELGLPINSEPAEYREIHTALLTGLLSHIGMKDADKQEFTGARNARFSIFPGSGLFKKPPKWTMVAELVETSRLWGRIAARIEPEWVEPVAQHLIKRSYSEPHWERAQGAVMATEKVTVYGLPIVGARKVNYSQIDPALCRELFIRHALVEGDWQTRHAFFRENLKLRAEIEELEHKSRRRDILVDDETLFEFYDQRISHDVISARHFDAWWKQASRDTPDLLNFEKSMLIKEGAEQVSKLDYPNFWHQGNLKLRLTYQFEPGADADGVTVHIPLPLLNQVEEAGFEWQIPGLRRELIIALIKSLPKPVRRNFVPAPNYAEAFLGRATPLELPLLDSLERELRRMTGVTIDREAWQWDQVPDHLKITFRVVDDKNKKLQEGRSLQALKEALKGKVQETLSAVADDGIEQSGLHIWSFGTLAESYEQKRGNYKVKAWPALVDERDSVAIKLFDNPQEQQQAMWRGLRRLLLLNIPSPIKYLHEKLPNKAKLGLYFNPYGKVLDLIDDCISCGVDKLIDEAGGPVWTEEGFSQLHDKVRAELNETVVEIAKQVEQILTAVFNINKRLKGRVDMTMALGLSDIKAQMAGLVYRGFVTGNGFRRLGDTLRYLQAIEKRLEKMAIDPHRDRAQMLKIESVQQAWQQWLNKLPPNRREDDDVREIRWMIEELRVSFFAQQLGTPYPISDKRVLQAMEQITP				NA	NA	NA	NA	NA
BMS020_00088	660		COG4122	Catechol O-methyltransferase	ATGCAACAACAGTGGTCTGCAGTAGACAATTATTTGATTGAGGCCTTAATTCCCAGCGATCCTATGCTCGATCGGGTACTGGAAAACAACCATCGTGCCGGGCTCCCGGCACACGATGTCGCCGCCAATCAGGGTCAGTTTCTCGCCTTGCTGGTACGGCTTACCCAGGCTAAGCGGATCCTGGAGATCGGCACCCTCGGCGGCTATAGCACCATCTGGATGGCGCGCGAGCTTCCTGCCGACGGCCAACTCCTCACCCTGGAGGCCGACGCGCATCATGCCCGCGTGGCGCGGGAGAATCTGCAGCTGGCGGGTGTTGACCAGCGGGTCACGCTGCGGGAGGGGCCCGCGCTACAGTCCCTGGAGGCGCTTGGCGAATGTCCCGCTTTCGACCTGATCTTCATCGATGCCGATAAGCCGAATAACCCCCATTATCTGCGCTGGGCGCTGCGTTATTCCCGCCCGGGAACCTTAATTATTGGTGATAACGTGGTACGCGACGGCGAAGTGGTCAACCCACAGAGCGCCGACGAGCGCGTTCAGGGCGTGCGTCAGTTCATTGAGATGATGGGCGCCGAGCCACGGTTGACGGCAACGGCGCTGCAAACCGTGGGCACGAAAGGCTGGGACGGCTTTACCCTGGCGTGGGTCAACGCTTAA	MQQQWSAVDNYLIEALIPSDPMLDRVLENNHRAGLPAHDVAANQGQFLALLVRLTQAKRILEIGTLGGYSTIWMARELPADGQLLTLEADAHHARVARENLQLAGVDQRVTLREGPALQSLEALGECPAFDLIFIDADKPNNPHYLRWALRYSRPGTLIIGDNVVRDGEVVNPQSADERVQGVRQFIEMMGAEPRLTATALQTVGTKGWDGFTLAWVNA				NA	NA	NA	NA	NA
BMS020_00089	1380	oprM_1	COG1538	Outer membrane protein OprM	ATGATCCGCCCGGTCACCCTTGCCATCGTCCTGGCGCTGGTCGGCTGTCAGTCCGCCGATGTGCAGCGCGCCCAGCCGACGCTCGCCATCCCTGCCGCCTGGCGGGCCGACGTTGGCCCTGCCAGCCCGGTGGAAGGCGTATGGTGGCGCAATTTTCATGACAGCGCGCTGAATCAGTATGTCGACCGGGCGCTGCGCTATAACAGCGATGTGCTGATCGCCCGCGAGCGGGTGAATGAGTATCAGGCGCGGGCGTATGCCGCCGACAGCAGTCTTTTTCCCTCGCTGGATGCCAGCCTGACCGGCACCCGCGCCCGCGCGCAGTCCGCCGCCACCGGCCTGCCGATCCACAGTACGGTGTATAAAGGCGGCCTGACCGCCAGCTATGATGTCGATATCTGGGGCGCGAACCGCAGCGCGGCCAGCGCCGCCGGGGCCAGCCTCGAGGCGCAGAAAGCCGCTGCCGACGCGGCCAATTTGAGCGTCGCCGCCTCGGTGGCCGTGGGCTACGTGACGCTGCTGTCGCTGGATGAGCAACTGCGGGTCACGCAGCAGACGCTCCAGGCGCGGGAAGACGCCTGGCGCCTGGCCAAACGTCAGTATGAAACCGGGTATACCTCGCGCCTTGAGCTGATGCAGGCGGATTCGGAGCTGCGCTCCACGCGGGCGCAGATCCCGCCGCTGCAGCACCAGATTGCGCAGCAGGAAAACGCCCTCAGCGTGCTGCTGGGGGATAACCCCGGCGCGATAAAACGCGGCGAATTCGCCGGGCTCACCCCGCTGCGTCTGCCCTCGCAGCTGCCGTCCACCTTGCTCAACCGCCGCCCGGATATCGTACAGGCCCAGCGTCAGCTGGTCGCCGCCGATGCCACCCTGGCCTCGTCCCAGGCGCAGCTGCTGCCGTCTATCAACCTGACCGCCACCGGCAGCCTGCAGGACCGGACGCTGCCGGATCTGCTGGACAACCCGCTGCGACTCTGGAGCATTGGCGGTAGCATCCTGGCGCCGCTGCTTAACCGCCAGGCGTTAAATGCCCAGGTGGATGTCTCGATGGCCCAGCGCAACCAGGCGCTGTACAGCTATGAGAAAACGGTGCGCGGCGCGTTTAAAGAGGTCAATGACAGCCTGGACGCCATTAGCCGCTACGGCGAACAGCTGACCGAACTGCAGGGGCAGGAGGCGGTGGCGGAAGAAACATTGCGCATTGCGCAGAACCGCTACCGTAACGGCTACTCTTCGTATCTGGATGTGCTTGATGCCCAGCGAACGCTGTTCTCCACCCAGCTTAGCGTGGTACAGGTGAAGAATAACCTGCTGCTGGCGCAGATCGATCTATACCGGGCGCTGGGAGGCGGCTGGTCTGACTCATCAGGGAGCTAA	MIRPVTLAIVLALVGCQSADVQRAQPTLAIPAAWRADVGPASPVEGVWWRNFHDSALNQYVDRALRYNSDVLIARERVNEYQARAYAADSSLFPSLDASLTGTRARAQSAATGLPIHSTVYKGGLTASYDVDIWGANRSAASAAGASLEAQKAAADAANLSVAASVAVGYVTLLSLDEQLRVTQQTLQAREDAWRLAKRQYETGYTSRLELMQADSELRSTRAQIPPLQHQIAQQENALSVLLGDNPGAIKRGEFAGLTPLRLPSQLPSTLLNRRPDIVQAQRQLVAADATLASSQAQLLPSINLTATGSLQDRTLPDLLDNPLRLWSIGGSILAPLLNRQALNAQVDVSMAQRNQALYSYEKTVRGAFKEVNDSLDAISRYGEQLTELQGQEAVAEETLRIAQNRYRNGYSSYLDVLDAQRTLFSTQLSVVQVKNNLLLAQIDLYRALGGGWSDSSGS	PGPT0009810_3056	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexXY-OprM,PGPT0009810-toxI|oprM|oprM|emhC|ttgC|cusC|adeK|smeF|mtrE|cmeC|gesC-K18139	NA	NA
BMS020_00090	1086	emrA_1		Colistin resistance protein EmrA	ATGAGTCAGCAGGATGCGGCCAAACAACAGGCCAACACCCGGAACAACATTCGCGTGGTCTCCATTTTTACCGCCGCGGCGATAGGCCTCGTCGGCGTACTGGTGATCCTCTATGCCTGGCAACTGCCGCCGTTCACCCGCCATAGCCAGTTTACCGACAACGCCTACGTGCGCGGGCAGACCACCTTTATCAGTCCGCAGGTCAACGGCTACATCACTGCCGTCAACGTCAAGGATTTCGCCATCGTTCAGCCGGGCGAGGTGCTGTTCCAGATAGACGATCGCATCTATAAGCAGCGGGTGCACCAGGCCCAGGCCACCCTGGCGATGAAGGAGGCGGCGCTGCGCAACAACCTGCAGCAGCGCAAAAGCGCCGAGGCGACAATCGCCAAAAATGAAGCCGCGCTGCAAAACGCCCGCGCGCAGAATCTGAAAATCCAGGCTGATTTAAAACGGGTGCAGGAGCTGACCGCCGATGGATCGCTGTCGATCCGCGAGCGGGATTCCGCCCGCGCCAGCGCCGCCCAGGGAGCAGCGGATATTGAACAGGCGAAAGCGGCGCTGGAGATGTCGCGCCAGGACCGCGAATCGACCATCGTCAATCGCGATTCACTGGAGGCCGACGTGGCCAGCGCCAAAGCCGCCCTCGAGCTGGCGCAGATCGACCTGCAGAATACGCAGATCATCGCCCCTACCGGCGGCCAGCTGGGGCAGATTTCGGTGCGTCTTGGCGCTTACGTCAGCGCCGGAACCCATCTGACTTCGCTGGTGCCGCCGCAGCACTGGGTGATCGCCAACCTGAAAGAGACCCAGCTGGCCGATGTGCGTATCGGCCAGCCGGTTACCTTCACCGTTGACGCGCTCAACGGCGAGACCTTCCACGGCAAGGTGCAGAGTATCTCCCCGGCGACCGGGGTGGAGTTCAGCGCCATTTCGCCGGACAACGCCACCGGCAACTTCGTCAAGATCGCCCAGCGCATCCCGGTACGCATCACGGTTAACGAGGGGCAACGCAACAGCGAGCGCCTGCGCCCCGGCATGTCGGTGCAGGTGACCATTGATACCCGCGCGGAGAAGCAGCCATGA	MSQQDAAKQQANTRNNIRVVSIFTAAAIGLVGVLVILYAWQLPPFTRHSQFTDNAYVRGQTTFISPQVNGYITAVNVKDFAIVQPGEVLFQIDDRIYKQRVHQAQATLAMKEAALRNNLQQRKSAEATIAKNEAALQNARAQNLKIQADLKRVQELTADGSLSIRERDSARASAAQGAADIEQAKAALEMSRQDRESTIVNRDSLEADVASAKAALELAQIDLQNTQIIAPTGGQLGQISVRLGAYVSAGTHLTSLVPPQHWVIANLKETQLADVRIGQPVTFTVDALNGETFHGKVQSISPATGVEFSAISPDNATGNFVKIAQRIPVRITVNEGQRNSERLRPGMSVQVTIDTRAEKQP	PGPT0013750_3461	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0013750-emrB-K03543	NA	NA
BMS020_00091	1653			hypothetical protein	ATGCCCCGTCGCCAGAGTAACCCCTACGTCCCTCATGACTGGGCGCCGCATGAAAAACCGGCCCTGCTCGGCTCGCCATCGACGCCGCTGCACAGCCCGGCGAAGCGCCTGGCCTACGGGGTGGTCGGGCTGCTGGTGTGCCTCACCGGCGCGCTGGGCAACGCGGTGGTCACCGCCAATCTGCAGCTGCTGCAGGGCACCTTCGCCGCCTGGTCGACGGAGATCGCCTGGCTGCCGGCGGTGTATGTCATGACCAACGTCTCCATTAACCTGCTGCTGGTGAAATTTCGTCAGCAGTTCGGGCTGCGCGCCTTTACCGAAGGCTTTCTGGTGCTCTATGTGCTGGTCACCTTCTTCCACCTGTTCGTCAACGATCTCAGCTCGGCGATGATGGTCCGCGCCGCCCACGGCATGGTGGCCGCGGCGCTCAGCTCGCTGGGGATCTACTATCAGGTGCAGGCCTGGCCCGCACGCCACCGCCTGAAAGGGCTGACTATCGGTATCACCGGCTCGTCGCTGGCCATTCCGCTGGCGCGCCTCTTTTCCACCGAGCTGCTGCAGATCGATGAATGGCGCGGGCTCTACTTCTTTGAGCTGGGGCTGGCACTGGTGTCGCTGGCCTGCGTCATCGCCCTGAAGCTGCCGCCGAGCGATCGTAAAAAGGTGTTCGAGAAGAAGGATTTTATTACCTTCTTCCTGCTGGCCCCCGGCATGGCGCTGGTCTGCGCGGTGCTCTCGCTGGGGCGGCTCGAGTGGTGGTTCGAAGCGCCGTGGATCGGCTGGTCGCTGGCCGCGGCGGTGGTGCTGATCGTCGCCGCCATCGCCTTTGAGCATAACCGCAGCAATCCTCTGCTCAATACCAAATGGCTCTCCAGCGGCAGTATCCTGCGCCTCGGTCTGATTATGCTGCTGATCCGCATCGTGCTGGCGGAGCAGAATACCGGGGTGATCGGCTGGCTGCAGTACGTTGGCCTGCAAAACGAACAGATGACCAACCTTGCGTGGTCAATTTTCGCCGGCATTCTGTGCGGGATCATCGCCAGCTGCCTGACGCTTAACCCGCAGAAGCTCTACTGGCCGACCGCCACCGCCCTGGCGCTGATCATGGTGGCCTCGCTGCTCGACAGCCAGTCCAACGCCCTCACCCGTCCGGAACAGCTGATGTTCAGCCAGTTTTTGCTTGGCTTCGGCAGCGCCTTCTTTCTGGCGCCGGCGATGCTCGCCGGCATTGGCGGGGTGTTCGCCGATCCGCGCAACCTGGTGAGCTTCTCGGTGCTGTTCGGCATGAGCCAGAACATCGGCGGTCTGCTGGGGTCGGCGATACTCGGCACCTTCCAGACCTGGCGGGAGAAATTTCACTCCAGCCAGCTGGCGGACCAGATAACCACGCTCAACCCGCTGATCGTCGAGCGGCTGCAGCAGTACAGCCAGATGTACCAGAGCCAGATCGGCGACAGCACGCTGCTTAACGTCCAGGCCACCACCCTGCTGCAAAACGCCGCGACGCTGCAGGCCAATATTCTCGCCTGGAATGACACCTATCTGCTGACGGCGGCGATCTCCGCCGGGACGTTAGTGTGGGTTTTCTGGCGCTTAATTCGCTTACGACTGACCGCCCGTATCGCCTTAAAACGCGCCACCGGCAGCAAATAA	MPRRQSNPYVPHDWAPHEKPALLGSPSTPLHSPAKRLAYGVVGLLVCLTGALGNAVVTANLQLLQGTFAAWSTEIAWLPAVYVMTNVSINLLLVKFRQQFGLRAFTEGFLVLYVLVTFFHLFVNDLSSAMMVRAAHGMVAAALSSLGIYYQVQAWPARHRLKGLTIGITGSSLAIPLARLFSTELLQIDEWRGLYFFELGLALVSLACVIALKLPPSDRKKVFEKKDFITFFLLAPGMALVCAVLSLGRLEWWFEAPWIGWSLAAAVVLIVAAIAFEHNRSNPLLNTKWLSSGSILRLGLIMLLIRIVLAEQNTGVIGWLQYVGLQNEQMTNLAWSIFAGILCGIIASCLTLNPQKLYWPTATALALIMVASLLDSQSNALTRPEQLMFSQFLLGFGSAFFLAPAMLAGIGGVFADPRNLVSFSVLFGMSQNIGGLLGSAILGTFQTWREKFHSSQLADQITTLNPLIVERLQQYSQMYQSQIGDSTLLNVQATTLLQNAATLQANILAWNDTYLLTAAISAGTLVWVFWRLIRLRLTARIALKRATGSK				NA	NA	NA	NA	NA
BMS020_00092	432	slyA_1		Transcriptional regulator SlyA	ATGGACCATCGACAGCTTAACTTCTCCCATCTTTTATATCTGACCGCCCATCACTGGCGGCTGGCGGTTAATCGTCGGCTGAAAAACCTCGGCCTCAGCCAGGCCAGCTGGGTGGCGGTCGCCGCCATCGCCCGCCACCACCAGCCGCTGTCGCAAAGCGAACTGGCGCAGGAGCTGGGAGTGGAGAGCCCGACCATTGTGCCGCTGATCAACCGCCTGGTGGCCCTCGGCCTGGTGGAGCGCGTCACCACCGACCGCGATAAACGCAAGCGGCTGCTGGTGGTCACCGACCAGGGGCAGGCCCTCTTCGAGCAGGTCAAAACGGTGGCGGACGATCTGCGTGAAGAGATCCTGACGGCGATCACGCCGCAGGAGCGGGAACAAACTCAGCGGGTGCTGGAAAAGCTGTTGCGCGAAGTGGAGAAGAAATAA	MDHRQLNFSHLLYLTAHHWRLAVNRRLKNLGLSQASWVAVAAIARHHQPLSQSELAQELGVESPTIVPLINRLVALGLVERVTTDRDKRKRLLVVTDQGQALFEQVKTVADDLREEILTAITPQEREQTQRVLEKLLREVEKK	PGPT0016255_1745	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016255-sylA-K06075	NA	NA
BMS020_00093	915	pgrR_2		HTH-type transcriptional regulator PgrR	ATGAAAACGTTGCCTGATTTGCAACAAATTGAAATATTAATACTCATAGTGAAACATGGCAGTTTTCGACAAGCTGCCAGAGCATTAAATCTTTCACCGCCGGCCCTCACCAGCGCTATTAATCATCTGGAAGAAAAATTAGGCGTGCGCCTGCTCAATCGCTCGACGCGCAGTTTGTCTTTAACCGCGGTGGGTGAGGAATTTCTTAATAATATGACGCCGGTGGTGAATGATTATCGCCGGGTGGTCGACAGTCTGAATTATCACCGTCTGACCCCGGAAGGGGTGGTGAAAGTCAATTTACCGCGCATTGTTCTCGACCTTTTCTTTCAGCGCTATTTTATTGCTTTTAAAACCGCCTATCCTGACGTGACGCTGGAGCTGTTTACCACCGATCGGAAAGTGAATATTATCGAGTCCGGTTTTGACGCTGGCATTCGCTATTCCCGGGACGTGCCCAAAGATATGATTGCCATCCCCTTTGGCGAGAAGCTGTCGCTGATCCCGGTGGCCAGCCCGGACTATCTCCACGAGGCCGGAGCGCCTGACACCCCGCAGTCGCTGGTCAATTTCCGCTGCATCAACCGCTGTTTTCCCAGCGGCGAAAAGTACCGGTGGGAATTTATCAGCCCCGACGGCGAGCCAGGCGAAGTCGCCGTCAAGGGCGATCTGGTCGTCGATTCCGATACGGCGATGATCCAGGCGGCGGAGAGCGGACTGGGGATCGCCTTTGTCTATCAGTCGCTGGTGTCCGCGCAACTGAACGCCGGCAGCCTGGTTCGCTTATTACCCAGCTACCGCTACCCGGCGGATCATTTCTGCGTCTACTATCCGAGTCGCAAACATATTCCCGCGCCCCTGCGCGCTTTTATCACCTGGGTGATGGCGCAGAATAAGAGCATCCTCCATGAGTAA	MKTLPDLQQIEILILIVKHGSFRQAARALNLSPPALTSAINHLEEKLGVRLLNRSTRSLSLTAVGEEFLNNMTPVVNDYRRVVDSLNYHRLTPEGVVKVNLPRIVLDLFFQRYFIAFKTAYPDVTLELFTTDRKVNIIESGFDAGIRYSRDVPKDMIAIPFGEKLSLIPVASPDYLHEAGAPDTPQSLVNFRCINRCFPSGEKYRWEFISPDGEPGEVAVKGDLVVDSDTAMIQAAESGLGIAFVYQSLVSAQLNAGSLVRLLPSYRYPADHFCVYYPSRKHIPAPLRAFITWVMAQNKSILHE				NA	NA	NA	NA	NA
BMS020_00094	999	iolS_1	COG0667	Aldo-keto reductase IolS	GTGAAAACACGTTATCTCGGAAAAGAGAAGTTCCAGGTTTCCGCATTGGGTCTCGGGTGTATGGGAATGAGTTTCGCCTATGGCGGCGCTGAGGAGTCGCAGGCGATAAATACCATCCATGCCGCAGTGGACATGGGGGTGACCTTCCTGGATTCCGCCGAAGTGTATGGGCCTTTTGACAATGAAGTCCTTGTTGGGAAAGCGATTAAAGGCATCCGCGATAAGGTGCAGATTGCCACCAAATTTGGCTTTCGTATTCTGCCGACCGGCCAGGGGCTGGAGCGGATGGCCGGCGTCGACAGCCGTCCGGAACATATTCGCGAGGCGGTGGAAGGGTCGCTGAAGCGGCTGAATATCGAGACCATCGATCTGCTCTATCAGCACCGCGTCGATCCCGCGGTGCCGGTGGAAGAGGTGGTGGGCACCATGGCCGACCTGGTCAAAGAGGGTAAAATTCGCCATATCGGGCTGTCGGAAGTGTCAGCCCAGACGCTGCGCCGGGCCTGCAAGGTGCATCCGATCGCCGCGGTGCAGACGGAATACTCGCTATGGACCCGTGAGCCGGAGGGCGGCATCCTCAAGGCCTGCCGCGAGCTGGGCGTGGGCTTTGTCCCTTACAGTCCGCTGGGCCGCGGCTTCCTGACGGGCCAGATCACCGACCCCGGCGTCTTCGCAGCCGATGATTTTCGTCGCAATCTGCCGCGCTTCCAGGCCGAAACCATGCGCAAAAACCAGCAACTGCTCGACCGTCTGCAGCAGGTCGCCAGCCGCTACGAGGCCACCCTGGCGCAGATGGCCCTCGCCTGGGTGATGAGCAAAGGGGAAGATATCGTGCCGATCCCCGGGGCGCGAAAAATGAACCATCTGCGCGATAATGCCGCTGCGGCCGATATTATGCTCTCCCCTGAGGATATTCTCGCCATCGATCATATTTTCGCTCCCGAAAACGTCGCCGGATTACGCTATAACCAGGGCGACTTTAATTTAATCGATAAATAA	MKTRYLGKEKFQVSALGLGCMGMSFAYGGAEESQAINTIHAAVDMGVTFLDSAEVYGPFDNEVLVGKAIKGIRDKVQIATKFGFRILPTGQGLERMAGVDSRPEHIREAVEGSLKRLNIETIDLLYQHRVDPAVPVEEVVGTMADLVKEGKIRHIGLSEVSAQTLRRACKVHPIAAVQTEYSLWTREPEGGILKACRELGVGFVPYSPLGRGFLTGQITDPGVFAADDFRRNLPRFQAETMRKNQQLLDRLQQVASRYEATLAQMALAWVMSKGEDIVPIPGARKMNHLRDNAAAADIMLSPEDILAIDHIFAPENVAGLRYNQGDFNLIDK	PGPT0009140_363	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009140-ydbC-K05275	NA	NA
BMS020_00095	1188	ydhP_1	COG2814	Inner membrane transport protein YdhP	ATGACTATTGCTGTTTCCCGTCCGGCGGGATTGCCTGCGGCGGTGTATGCGCTTTCCGTGGGTTCATTTGGTATTGGCACCACCGAATTTGTGATTATGGGTTTATTACTCGATGTGGCCCATGACTTTCATATATCCATTACGCTCGCCGCCTGGTCTATTACCGCTTATGCCTGTGGGGTGGTGATTGGCGCGCCGCTGCTGACGCCGCTATTAAGCCGTTATCGCAAAAAACCGGCGCTGTTATTTTTAATGATCTTATTTTCCATTGGAAATTTAGGCTGTGCGATCGCCGGTAATATGACCATGCTAATTATTGCCCGGGTAATAACTGCGTTCGCTCACGCCTCGTTCTTCGGAATAAGCTCGGTCTATGCCGCGGAACTGGCGCCGGTGGATAAACGGGCTTCGGCGGTCTCCGCCGTGTTTCTCGGCGCCACCCTGGCCAATATTCTGGGCGTGCCGCTCGGCGCCTGGGTGGGGCAGTACCTTGGCTGGCGCTATACCTTCTATATGGTCACGCTGATCGGCATTCTCTCCGCCCTGGCGGTGATCGCCCTGGTGCCAGGCCGTCAGGCGCAGCCGTCGGCCCAGAGCCGGATCCGCGATGAGCTGAAGGTGCTCCGTCATCCCGCGGTGCTGCGCAGCCTGCTGATCACCGCCCTCGGGTTCTCCGGCGTCTTCGCCGCCTTCACCTACATCGCGCCGATGCTGAAAACCGTCACCGGGATGAGCGACCACCTTATTCCGCCGGTGCTGATGCTGTTCGGCGTCGGGATGGTCGCCGGGAATCATCTTGGCGGCCGACTGACCGACGGCGGCGTCCGCCGGGCGCTGCTGCTAACTCTCGCCTTGCTGAGCGTCGTCCTGTGTCTTTTTCCGTGGGCGATTCAGACGCTGCCCGGCGCCTGCGCGGCGGTGTTTCTGCTGGGGGCGGCGATGTTCTCCACCATTCCGCCGCTGCAGATGCAGGCCCTGGACAGCAGTGAGAGCGGCAAAAGCATGGTCTCTTCGTGCAATATCGCCGCCTTTAACCTCGGCAATGCCGGCGGCGCCTGGTTTGGCGGGCTGCTGCTCGCCTCCGGCGTTTCTCTCTCGCACATTCCCCTGGCCGGTGCTTGCCTGACCGCCAGCGGATGGGTTATCGCTAGTGTGACGTTGTCACCTTTAAAAGGAAGTCAAGCATGA	MTIAVSRPAGLPAAVYALSVGSFGIGTTEFVIMGLLLDVAHDFHISITLAAWSITAYACGVVIGAPLLTPLLSRYRKKPALLFLMILFSIGNLGCAIAGNMTMLIIARVITAFAHASFFGISSVYAAELAPVDKRASAVSAVFLGATLANILGVPLGAWVGQYLGWRYTFYMVTLIGILSALAVIALVPGRQAQPSAQSRIRDELKVLRHPAVLRSLLITALGFSGVFAAFTYIAPMLKTVTGMSDHLIPPVLMLFGVGMVAGNHLGGRLTDGGVRRALLLTLALLSVVLCLFPWAIQTLPGACAAVFLLGAAMFSTIPPLQMQALDSSESGKSMVSSCNIAAFNLGNAGGAWFGGLLLASGVSLSHIPLAGACLTASGWVIASVTLSPLKGSQA	PGPT0028991_2320	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
BMS020_00096	1065	yajO_1	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGAAGTATCGATATTTAGGTTCCACCGGGCTGTCGGTTTCGGAGCTCTGTTTTGGCGCCATGACGTTTGGCGAAAAAGGGGCCTTTCTCGGCGCGCCGGGGCGCAACTGGTCGGAATTCGGCGTGGTGCCTGAGCAGACGGCCTACGACCTGGTGTACAAAGCGCTGGACGCCGGGATTAACTTTTTTGATACCGCGGACTGTTATAAGAACGGCCAGGGCGAAGAGCTGCTCGGCAACGCGCTGAAGGGAAAACGCCAGCAGGTGATTATCGGCACCAAAGGACGCTGGCAAACCGACCCCAACCCGAACGCGCTGGGGGCGTCGCGCTACCATATCATCAATGCCGTCGAGGCCAGCCTGCAGCGGCTGAAGACCGATTATATCGATATCTATCACCTTCACGGGTTCGATCCGCGCACCGCGCTGGAGGATACCCTGCGCACGCTGGATACGCTGATCCGCGCCGGGAAAATTCGCTATATCGGGGTCTCCAACTACGCGGCCTGGCAGCTGGCGAAGGCGCTGGGGATCTCGGAGCGCCTTGGGCTGGAGAAATTCTGCGTCTATCAGGGCTATTACAATATCGCCGCGCGTGAACTGGAGCATGAGATTATCCCGCTCAGCGTCGATCAGAACGTCGGCATCACCGTCTGGAGCCCGCTGGCCGGGGGCTTTCTCACCGGCAAATACCCACGCAATCAGGCGTTTCCCGAGGGCAGTCGTCTGGCGAACGCCACGCCGTTCGAATCCGCGCCGATCGCCAACCGCGAGCAGGCCTGGCAGACCCTGGAGGTGATGCAGGAGATTGCCCGCCAGCGCAACGCCAGCGTCGCGCAGGTGGCGCTCAACTGGCTGCGTACCCGTCCGGGGATCGCTTCGCTGGTGATCGGCGCGACCAAACTGGCCCAGCTGGAGGATAACCTGGCGGCGCTGAACTGGACGCTGAGCGACGAGGAGACGGCGATCCTCAACAGCGTGAGCGAGAAAGAGAAACCATACCCCTACTGGCATATCTGCAATGTCGCCGGCGATCGTCGTCTGGCCGATGATATCTATCCCTAA	MKYRYLGSTGLSVSELCFGAMTFGEKGAFLGAPGRNWSEFGVVPEQTAYDLVYKALDAGINFFDTADCYKNGQGEELLGNALKGKRQQVIIGTKGRWQTDPNPNALGASRYHIINAVEASLQRLKTDYIDIYHLHGFDPRTALEDTLRTLDTLIRAGKIRYIGVSNYAAWQLAKALGISERLGLEKFCVYQGYYNIAARELEHEIIPLSVDQNVGITVWSPLAGGFLTGKYPRNQAFPEGSRLANATPFESAPIANREQAWQTLEVMQEIARQRNASVAQVALNWLRTRPGIASLVIGATKLAQLEDNLAALNWTLSDEETAILNSVSEKEKPYPYWHICNVAGDRRLADDIYP	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
BMS020_00097	1485	oxyL		6-methylpretetramide 4-monooxygenase	GTGAAAAAAGTACTCATTGTTGGCGCCGGCCCGGTAGGGTTAATCATTGGCTGCTATCTGAATAAGTATGGAATTGATTTTGATATCATTGATAAAAATACCCACAGCACCACCTGGTCCAAAGCGCTGAGCGTCAGTCCGGCGACCATTAAAGCCTTCCACGGCTTAGGCCTTGCCGGAGAACTGATCGCCCAGGGAAAGCAGGTTCAGTCAGTCTACGCTTACTATAAAAACCGCAAATTCCTGCATATCGATAACCGCCGACTCGCCACCTGTTACCCCTTCCATGTCAGTATCCCGCAGCCGCGGACGGAGAAGATCCTCGAAACGGCGTTGGCCGACGCCGGGCGGGTGGTAAAACGTGGGCACCAGCTGGTCTCCTGGCGCCGGGAGGGGGAACGCTATCACGTCTCCCTGCTCGACGATGCCCGCCGGGCCTGTTCCGCCGCTTATGACTATATTATCGGCGCCGACGGCGCGGCCAGCACCGTCCGCGAGCTGGCCGGGATCGGCTTTAGCGGTCATGACTATCCGCTGCATTTTGTGATGGCGGACGTGCAATTCGACCGCGCGGCGGCGCTCCCGGGAACCTCCTACCATATTGATGAGCTGGGCTTTTTAATTTTCCTGCCCATGCCGGACAATCAGGTCAGGATCGTGATTAAAAAAGCCGGGCGCCTGCCGACGCCGCGTCCGGTGCCGGACCTGCAGGAGATTAACGCCGCGCTGGCGCGCTACTGCCCTCAGGTGCCGCCGGCGCAGACGCTCACCTGGTCCTCCAGCGCCAATTTCTATACCCGCATCGCCGATGACAATCTGCAGCATCATATTATGCTGGCGGGAGATGCCTTCCACCTGTTCAGTCCCATTGGCGGGCAGGGGATGAACACCGGCGTCCAGGATGCGGTGAACCTCGCCTGGAAGCTGGCTTTCTATCTGCACGGCGTGGCCACTGACCGACTGCCGGCGTCCTATCGCGCCGAGCGCTTCGCGGCGGTGAGCGGTGTGCTGCGCTCCACCGATCGCGATACCGGCCTGATTGCCGGTCTGGTGCCGAGAAATCATATCGACGGGGTCTACTTTCCGGAGTTTTGCAACCGTCACTACTATCGTCACCAGCTGCCGCTGCAGTACGCCGGTTTCACCGCAACGCAGGCGCAGCACCCGGACGGCCTGGCAGGGCACCATGTTCCCTGGTACGTTTTTGCCTCGCCGCAGGCGATGTTTCGCAACAGCTATGACGTCTTCGCCAGCGGTAAGGTGGTGATCTTTTCCGCCCGCGCCGCTTGTCCTCCTATGTCCCGCCTGAAGCAGGCCGGCTGGTTTATATTCTGCCCCCTCGAACCGGCGGACGAGGCGTTTCTCGAAGCGCTACAGATCGGCCCCGATGACTATGCGGTGGTCAATCCCGATGGCTATGTGGGCTTTACCGGCAGCGAAGCCGGGACACGGCAGTATCTTTCCTCGCTCTACGTAATGGAATAA	MKKVLIVGAGPVGLIIGCYLNKYGIDFDIIDKNTHSTTWSKALSVSPATIKAFHGLGLAGELIAQGKQVQSVYAYYKNRKFLHIDNRRLATCYPFHVSIPQPRTEKILETALADAGRVVKRGHQLVSWRREGERYHVSLLDDARRACSAAYDYIIGADGAASTVRELAGIGFSGHDYPLHFVMADVQFDRAAALPGTSYHIDELGFLIFLPMPDNQVRIVIKKAGRLPTPRPVPDLQEINAALARYCPQVPPAQTLTWSSSANFYTRIADDNLQHHIMLAGDAFHLFSPIGGQGMNTGVQDAVNLAWKLAFYLHGVATDRLPASYRAERFAAVSGVLRSTDRDTGLIAGLVPRNHIDGVYFPEFCNRHYYRHQLPLQYAGFTATQAQHPDGLAGHHVPWYVFASPQAMFRNSYDVFASGKVVIFSARAACPPMSRLKQAGWFIFCPLEPADEAFLEALQIGPDDYAVVNPDGYVGFTGSEAGTRQYLSSLYVME				NA	NA	NA	NA	NA
BMS020_00098	1206	thlA_1	COG0183	Acetyl-CoA acetyltransferase	ATGAACAAAGTCTATATCGTCGCGGCCTGCCGTACGCCGGTGGGGCGCTTTCTTGGCGCCCTGAAAACGGTCTCCGCGGTGGAGCTGGCCGCGCTCACCGTCAGGCACAACCTGCAGCAGGCCGGCATTGACCAGGCGTGGATCGATGAGGTGATCTGCGGCTGCGTCCTTGCCGCCGGGCAGGGGATGGGACCGGCGCGTCAGGTTGCGCTGCGGGCGGGGATCCCGGTGCAAAAGCCGGCTTACACCCTGAATATGATCTGCGGTAGCGGCATGAAAAGCCTGACCGAAGGGGCGATCCATATCCAGAGCGGTTATGCCGACCTGGTGGTCGCCGGCGGAATGGAAAATATGAGTCAGGCGCCGTTTTTGCTGCGGGGAGAGATAAGGGGCGGGATGAAATTCGGCGCGTTCAGCAGTGAGGATGTGATCCAGCGCGACGGATTAACCGATCCGCTGCTGCAGATCCCGATGGGGGAAACGGCGGAGGCCATCGCCGCGCAGGAGCAGATCTCGCGCGCGGCGCAGGACCAGTATGCCCTGGAGAGCCATCACAAAGCCTCCGCCGCCAGCCGCGCCGGCTATTTTGCCGATGAGATGGTGCCGGTGACGGTCAGCGCGAAGCGGGGCGTCAGCACGGTCCGCGAGGATGAGCCGATCCGCCATGATCTTAGCGCCGAGCAGCTGGCGGCGTTGAAACCGGCCTTTCGCGCTGACGGCAGCGTCACGGCGGGCAATGCCTCCGGGCTGAACGATGGCGCCGCGTCGGTGATCCTCGCGTCGGCGCGCGCCGTTGCCCGCTATGGCCTGCAGCCGCTGGCGGAGATTGTCTCCTTTGGCGAGGGCGGCGTTGACCCGTCCATGATGGGGCTTGGCCCGCTGCCGGCGATAGCGTGCGCCCTGCGCCGCGGGCGTTTTCAGCTCAGCGATATGGCCCGGCTGGAGATCAACGAAGCCTTTGCCGCGCAGGTGCTGGGGGTGGTCAAGGGACTGGCCAGAGCGCATCAGATGACGGAGGAGGAGATTGCTTCCCGGCTGAACGTCCACGGCGGCGCGATCGCCCTCGGCCACCCGCTGGGCAGTTCCGGGACGCGGATTGTGGTCAGCCTGGTGCACGCGCTGCGCCGGGAGAATCAACCGACCGGCCTGGCGTCGCTGTGCATCGGCGGCGGGATGGGGATTGCGTTACTGGTGAAAACGATCTGA	MNKVYIVAACRTPVGRFLGALKTVSAVELAALTVRHNLQQAGIDQAWIDEVICGCVLAAGQGMGPARQVALRAGIPVQKPAYTLNMICGSGMKSLTEGAIHIQSGYADLVVAGGMENMSQAPFLLRGEIRGGMKFGAFSSEDVIQRDGLTDPLLQIPMGETAEAIAAQEQISRAAQDQYALESHHKASAASRAGYFADEMVPVTVSAKRGVSTVREDEPIRHDLSAEQLAALKPAFRADGSVTAGNASGLNDGAASVILASARAVARYGLQPLAEIVSFGEGGVDPSMMGLGPLPAIACALRRGRFQLSDMARLEINEAFAAQVLGVVKGLARAHQMTEEEIASRLNVHGGAIALGHPLGSSGTRIVVSLVHALRRENQPTGLASLCIGGGMGIALLVKTI	PGPT0008320_4475	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
BMS020_00099	786			hypothetical protein	ATGGAAAAATTAATAGTGGTGGGTGAGAAATTTACCGATTTTGCCCGGCGGCATGAGAATGTGCTGACGGTGAATGAGTTTGAGCGGTTTGTCTGGAGCGGCGAGCTGGCCGGGGTCGATAAAATCGTTATCGGTCAGGGGGTACAGCTCGACGACATCTCCCGCACCATCTGCATTATTCGTCAGCACTATCCGGACACAATGCGCCAGATCGTCAATCTGCAGGATCTCTATTATCAAAACAATCGCGATCATCAGCGGCTGGTACATAAACGTAAAAAAGCGAATATCCTCATCACCTCGCCGGAAAAACGCGATGAGGATAGCTATTGCGCGCGCCTGATCCTGCAGGATGCCTCGGAGCTGCTCTGCGACCACCAGACCGGGCAACATATTCAGGGGATGGTGCTGATCGAGGCGGCGCGGCAGACCATCATCGCCACCACGGAAAAATTCCTGCTGGCGGAGGCCGGCGTGGCGATGGCGGAGAAGTACTTTACCCTGAGCTCGCTGCAGGTGGCCTTTTCCTGCTTTGTTTTTCCGCTGCCGGTGACCATCGTCCTCAACGTGGTGTCGCGCAAAAGTTCAGCCCATGGCCGCTTCACCTGTGAATGCTCGGTGGGGTTTGACCAGACCGGCACCCGCAAAGCGGAAGTTGGCTTTAGCTTCAGCGTCTATGACCTTAACTACATCACTCGCAAAGAGTGCGAGCAGGCGGCGCAGTGCCATCAACATTATCTGGTCAGTATTGAGCAGGGGGACGGGGATGAGCATCGCCTTTTTTGA	MEKLIVVGEKFTDFARRHENVLTVNEFERFVWSGELAGVDKIVIGQGVQLDDISRTICIIRQHYPDTMRQIVNLQDLYYQNNRDHQRLVHKRKKANILITSPEKRDEDSYCARLILQDASELLCDHQTGQHIQGMVLIEAARQTIIATTEKFLLAEAGVAMAEKYFTLSSLQVAFSCFVFPLPVTIVLNVVSRKSSAHGRFTCECSVGFDQTGTRKAEVGFSFSVYDLNYITRKECEQAAQCHQHYLVSIEQGDGDEHRLF				NA	NA	NA	NA	NA
BMS020_00100	654		COG0560	putative phosphatase	ATGAGCATCGCCTTTTTTGATGTGGATGAAACGCTGATTACCGGCAAAAGTATGTTCCTGTTTCTGCACCGCTATGCCGCGGAATATCCGCTGCAGTGCGGTTTGACGGCCGCGGCGATTGTCCGGCAGCTGCAGGCGCTCAGCGAAGCGGGTCAGCCGCGGGAGGCGATCAACCGCTACTATTACTCGCTGTTTCGCCACGAGTCGCGCTCCCGGGTGCGGGCGGTCGCCGAGCGCCTGTATCGCGAAGGCGGATATGGTTTTCACCGCGAGGTGGCGGCGCGCCTCAGGCAGCACCAGGCGCGGGGGGATGACGTGGTGTTTGTCTCCGGGTCGATGACCGACATTCTCTGGCCGGCGATGGCGGCGCTGGGGGTGGAACATGCCCTGTGCTCAGAGCCGGTCGTGGTGGATGACCACTATACCGGCGAGCTCTGGCGGACCGCCATCGGCGAACACAAGGCGGCGCATGCCCAATGCTATGCGCAGGAACAGGGCCAGCCGCTGGCGGCATGCTACGCCTTCGGCGATCATTTCTCGGATCTGCCGCTGCTCGCCGCGGTCGGCCACCCCTGCGCGGTGAATCCCTCTCCGGGGCTGCTGGCGGAGGCGCAGCGTCGGGGATGGCCAGTGCTGTGGTCCACCGGCGGCTGA	MSIAFFDVDETLITGKSMFLFLHRYAAEYPLQCGLTAAAIVRQLQALSEAGQPREAINRYYYSLFRHESRSRVRAVAERLYREGGYGFHREVAARLRQHQARGDDVVFVSGSMTDILWPAMAALGVEHALCSEPVVVDDHYTGELWRTAIGEHKAAHAQCYAQEQGQPLAACYAFGDHFSDLPLLAAVGHPCAVNPSPGLLAEAQRRGWPVLWSTGG				NA	NA	NA	NA	NA
BMS020_00101	1275	gdhA_1	COG0334	Glutamate dehydrogenase	ATGGAAAAGTTATCTTACGCATCTGAAAGTAGTACATCTCCATGGACCACCTACCTGCGCCAGATCGACCGTGTCGCGCCTTATCTCGGCGATCTTGCCTACTGGGTGGAAACCCTGCGCCATCCGAAGCGTGCGCTGATCGTCGACATCCCTGTGCAGATGGACGACGGCACCATTCGCCACTTCGAGGGCTATCGCGTTCAGCACAATCTTTCGCGTGGGCCGGGTAAAGGTGGTGTTCGCTACCATCCGGATGTTGATCTTAACGAAGTCATGGCACTTTCTGCCTGGATGACCATTAAGTGCGCCGCGGTCAATATTCCTTACGGCGGGGCCAAAGGCGGCATCCGCGTCGACCCCTTCTCGCTGTCGGAAGGTGAACTGGAACGCCTGACTCGCCGCTATACCAGCGAAATCGGCATTATCATCGGGCCGCAGAAAGATATTCCGGCGCCGGACGTTGGCACCAACGGCAAAGTGATGGCGTGGATGATGGACACCTACTCCATGAACCATGGCACCACCATCACCGGCGTGGTCACCGGCAAGCCGATCCACCTCGGCGGCTCCCTCGGTCGTGAAAAAGCCACCGGACGCGGCGTGTTCGTCACCGGCCGGGAAGTGGCCCGTCGCGCCAGCATCGAAATTGAAGGCGCTAAAGTGGCGCTGCAGGGCTTTGGTAACGTCGGTAGCGAAGCGGCGCGCCTGTTCGCCGGCGTCGGCGCCCGCGTAGTGGTCATTCAGGATCACACCGCCACCCTGTACAACGAAGGCGGGATTGATATGACCGCCCTCACCGCCTGGCAGGCGGAGAAAAAGCAGATCGCCGGTTTCCCGGGCGCCCAGGAGATCGATAAAGAGGCATTCTGGACCACCCCGATGGACATCCTGATCCCGGCGGCGCTGGAAGGGCAAATCACCCGCGAGCGCGCTGAGAAGCTGAGCTGCAAACTGGTGCTGGAAGGGGCTAACGGCCCAACCTATCCGGAAGCGGACGATGTGCTGGCCGAGCGCGGGGTGATCGTAGTGCCGGACGTTATCTGCAACGCCGGCGGGGTGACCGTCAGCTACTTTGAGTGGGTGCAGGACATGGCCAGCTTCTTCTGGAGCGAAGAGGAGATCAACGCCAAGATGGACCGCATCATGACCGACGCCATTATTCACGTCTGCGATAAAGCGGCCGAGAAAGAATGTACCCTGCGTACCGCCGCCTATATCGTGGCCTGCGAGCGCATCCTGATGGCGCGTAAAGACCGCGGCATCTACCCGGGCTGA	MEKLSYASESSTSPWTTYLRQIDRVAPYLGDLAYWVETLRHPKRALIVDIPVQMDDGTIRHFEGYRVQHNLSRGPGKGGVRYHPDVDLNEVMALSAWMTIKCAAVNIPYGGAKGGIRVDPFSLSEGELERLTRRYTSEIGIIIGPQKDIPAPDVGTNGKVMAWMMDTYSMNHGTTITGVVTGKPIHLGGSLGREKATGRGVFVTGREVARRASIEIEGAKVALQGFGNVGSEAARLFAGVGARVVVIQDHTATLYNEGGIDMTALTAWQAEKKQIAGFPGAQEIDKEAFWTTPMDILIPAALEGQITRERAEKLSCKLVLEGANGPTYPEADDVLAERGVIVVPDVICNAGGVTVSYFEWVQDMASFFWSEEEINAKMDRIMTDAIIHVCDKAAEKECTLRTAAYIVACERILMARKDRGIYPG	PGPT0000695_1281	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0000695-gdhA-K00261	NA	NA
BMS020_00102	1206	astC_1	COG4992	Succinylornithine transaminase	ATGTCAGGCAGTATGACTCGCGAAGATTTTGACGCTTACCTGGTTCCCTGTTTTGCCCCCGCGCCGTTTATTCCGGTGAGGGCGGCGGGCTCCCGCGTCTGGGACCAGCAGGGGAAAGAGTATATCGATATGGCCGGCGGCATCGCAGTGAACGCCCTCGGCCATGCCCACCCGGCGCTGACTGAGGCCCTGCAGGATCAGCTGGCGAAACTGTGGCATATCGGCAATGGCTATACCAACGAACCGGTGCTGCAGCTGGCGAAAACCCTGGTGCAGTCTACCTTTGCCGACAAGGTGTTCTTCTGCAACTCCGGCGCTGAAGCGAACGAGGCGGCCCTTAAGCTGGCGCGGAAATATGCCCACGATAAGTTCGGCGGTGAAAAAAGCGAAATCATCGCCTTCAACCACGCCTTCCATGGCCGCACGCTGTTCACCGTCTCCGTCGGCGGCCAGCCGAAATATTCCAGCGATTATGCGCCGCTGCCGCAGGGCATTACCCATCTGCCCTATAACGATATCGAGGCGGTCACCGCGGCGATCTCCTCACGTACCTGCGCGGTGATCGTCGAGCCGATTATCGGCGAAGGCGGGGTGATCCCGGCGGACCCGGCGTTCCTCCAGGCGCTGCGCGCCCTCTGCGATCGCCATCACGCCACCCTGATATTCGATGAGGTTCAGACCGGCGCCGGGCGTACCGGCCATCTCTACGCCTACCAGCATTACAACGTCGTCCCGGACATCCTCACCAGCGCCAAAGGGCTGGGGGGCGGCTTCCCGATCGGCGCGATGCTGGCGAAAGAGGCCTGGGCGCAGGTCTTCCAGCCAGGCACCCATGGCACCACCTTCGGCGGTAACCCGCTGGCGGCGACCGTCGCCAACGCCGTGCTGGCCCATCTGGATGCGCCGCTGCTGGCGGGCGTCGGCGAGCGCCATGCGCTGATCGTCGACCAGCTGAATGCCCTCTCTGCCCGCTACGATGCGTTCAGCGCCGTGCGCGGCGCCGGTCTGCTGATCGGCGCCGAGCTGGCCGGACCGCTGCGCGGGAAGGCCAAAACCCTGACCAACCTGGCGGCGGAAGAGGGGGTGATCGCCCTGATTGCCGGTCCGGACGTGCTGCGCTTCGCGCCGGCGCTCAATATCCCGCTGGCGGATATTGCGCAAGCCTTCGTGCGCCTTGATCGCGCCGTTGCCCGCTTAACCCGCTAA	MSGSMTREDFDAYLVPCFAPAPFIPVRAAGSRVWDQQGKEYIDMAGGIAVNALGHAHPALTEALQDQLAKLWHIGNGYTNEPVLQLAKTLVQSTFADKVFFCNSGAEANEAALKLARKYAHDKFGGEKSEIIAFNHAFHGRTLFTVSVGGQPKYSSDYAPLPQGITHLPYNDIEAVTAAISSRTCAVIVEPIIGEGGVIPADPAFLQALRALCDRHHATLIFDEVQTGAGRTGHLYAYQHYNVVPDILTSAKGLGGGFPIGAMLAKEAWAQVFQPGTHGTTFGGNPLAATVANAVLAHLDAPLLAGVGERHALIVDQLNALSARYDAFSAVRGAGLLIGAELAGPLRGKAKTLTNLAAEEGVIALIAGPDVLRFAPALNIPLADIAQAFVRLDRAVARLTR	PGPT0014253_1319	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
BMS020_00103	1023	astA_1	COG3138	Arginine N-succinyltransferase	ATGCTATTTCGTCCCGTAAGGGAAAACGATCTTGACGACATCGTCCGCCTTGCCGCGCGGGCGGGGGTCGGCATGACCTCTTTACCCCATGATGCAGGGCGCCTGGCCGCCCGGATACGCCGCAGCATTGACACCTTCGCCGGCGCGCTGCCGCGCGGCCAGCAAGGCTTTCTGTTTGTGCTGGAAGACACCGCGCTGGAGCGGGTGGTGGGGGTCAGCGCCATTGAGGTGGCGGTGGGCCTGGACGAGCCCTTTTACAATTTTCGCATTCAGAAAACGGTTCGCGCCTCGAAAGCGCTGGGAGTCTATAAGCCTCAGGAGCTGCTCAATCTGAGCTATGACCACACCGGTCACAGCGAGCTGTGTACGCTGTTTCTCGACCCCGGGTATCAGCGCAACCGCAACGGTCTGCTGCTCTCCAAGGCGCGGTTTTTGTTTATCGCCGCCTTCCGCGAGTGGTTTTCGCCGCACCTGTTTGCCGAACTGCGCGGCTGCAGCGATGAGCAAGGGCAGTCGCCGTTCTGGGATGCGCTGGGCCATCACTTCTTCGAGATCCCGTTCGCCGATGCCGACCGGCTGACCGGCACCGGCATGAAAACCTTTATTGCCGAGCTGATGCCGGCGTACCCGATCTATATCTCGCTGCTGCCGGAGAATGCCCGTCAGGTCATCGGTCAGGTGCATCCCAACACCGCCCCGGCGCGGGCGATCCTCGAGAAAGAGGGGTTCAGCTGGCGCGGCTCGGTGGATATTTTCGATGCCGGTCCGGTGCTGGAGGCGGAGACCGATCAGATCCGCGCCGTGCGCGACTGCCAGTGCCTGCCGGCTCAGCAGCTGACGGGCACGCTGTCGGCGCCGACGCTGGTCGCCAACGGTCAGTTCGACAATTTTCGGGCGCTGCTGGTGGCCCACGAAGAGCAGGTCTCACTGGACGCCGCCGCGCTGGATGCGCTGCAGGTCACTGAAACCGACCGCGTTTACACGGTAACCCTGAACCCAGAGGAAAACAGATCATGGCGGTAA	MLFRPVRENDLDDIVRLAARAGVGMTSLPHDAGRLAARIRRSIDTFAGALPRGQQGFLFVLEDTALERVVGVSAIEVAVGLDEPFYNFRIQKTVRASKALGVYKPQELLNLSYDHTGHSELCTLFLDPGYQRNRNGLLLSKARFLFIAAFREWFSPHLFAELRGCSDEQGQSPFWDALGHHFFEIPFADADRLTGTGMKTFIAELMPAYPIYISLLPENARQVIGQVHPNTAPARAILEKEGFSWRGSVDIFDAGPVLEAETDQIRAVRDCQCLPAQQLTGTLSAPTLVANGQFDNFRALLVAHEEQVSLDAAALDALQVTETDRVYTVTLNPEENRSWR	PGPT0020090_780	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020090-astA-K00673	NA	NA
BMS020_00104	1467	astD_1	COG1012	N-succinylglutamate 5-semialdehyde dehydrogenase	ATGGCGGTAAAAGCACAGTTCATAGCCGGGCAGTGGCAGCCGGGCAGCGGCGCTACGATGAGTAAACTGGCCCCGGAGGATCAATCTCTGCTGTGGCAGGCGGCCAGCGCGGGGGCCGACGACGTCCAGGCGGCCTGCGCCGCGGCGCGGGCGGCGTTTTATCCCTGGTCGCACCGCCCGCTGGCCGAGCGTATTGACGTCGTACAGCGTTTCGCCGCGCTGCTGGAGACGCACAAAGAGGCGCTGGCGACCCTGATCTCCCGGGAGACCAGCAAGCCGCTGTGGGAGACCCGCACCGAAGTGCAGGCGATGATCGGCAAAGCCGCCATCTCCGTCGAGGCCTATCACCAGCGGACAGGCTTTCACGAGTCGACCCTGCCGGACGGTAAAGCGCAGCTGCGCCACAAGCCGCACGGCGTGATGGCGGTCTTCGGTCCCTACAACTTCCCGGGCCATCTGCCCAACGGGCATATCATTCCGGCGCTGATCGCCGGTAACACCGTGGTGTTTAAACCCAGCGAGCTGACGCCGGCCACTGCGGAACTGACGGTCCAGCTGTGGCAGCAGGCGGGCGTCCCCGACGGGGTGATTAACCTGCTGCAGGGCGGGAAAGCCACCGGCCAGGCGCTGCTGGAAAACCGCGATATCGACGGCGTGCTGTTCACCGGCAGCGCGGCGGCGGGTTTCCACTTCCATCGCTACTTCGGCGGTCAGCCGGAGAAGATGCTGGCCCTCGAGATGGGCGGCAACAACGCGCTGATCGTGGCCGACGTGGCCGATGTCGATGCGGCGCTGCATGTGATTATCCAGTCGGCGTTTATCTCCGCCGGACAGCGCTGCACCTGCGCGCGCCGGCTGATCGTTCAGCGCGGCGAGCAGGGGGATGCGCTGCTGCGGCGACTGGTGGAGGCCAGCGCGCAGATCCGCGCCGGGAAATGGAATGACCAGCCGGCGCCGTTTATGGGCGGGGTGATTTCTCTTGAGGCGGCGCAGAACATGCTGGCGGCGCAGCAGAAACTGGAGGCGCTCGGCGGCAAGGTGCTGCTGCGTATGCGCCAGCCCGACCCGCACTCCACGGTGCTGACCCCGGGGATCGTCGACGTCACCGGTATCGAGGTGACGGATGAAGAGTACTTTGGTCCGCTGCTGACGGTTATCCGTTACGACGACTTCCCGGAGGCGATTCGCCTCGCCAACCAGACCCGCTATGGCCTGGCCGTGGGGCTGATCTCCCGCGATGCGGCGCAGTTTGACCAGCTGGCGGACGAGGCGCGAGCCGGGATCGTCAACTGGAACAAGCCGCTGACCGGCGCTTCCAGTAAAGCGCCGTTTGGCGGGGTGGGCGCCTCCGGCAACCACCGCGCGGCAGCGTGGTACGCCGCCGATTACTGTGCCTGGCCGATGGCCTCTCTGGTCAGCGACACGCTGACGCTTCCGGCGAACGTATCGCCGGGCCTGCCATTCTGA	MAVKAQFIAGQWQPGSGATMSKLAPEDQSLLWQAASAGADDVQAACAAARAAFYPWSHRPLAERIDVVQRFAALLETHKEALATLISRETSKPLWETRTEVQAMIGKAAISVEAYHQRTGFHESTLPDGKAQLRHKPHGVMAVFGPYNFPGHLPNGHIIPALIAGNTVVFKPSELTPATAELTVQLWQQAGVPDGVINLLQGGKATGQALLENRDIDGVLFTGSAAAGFHFHRYFGGQPEKMLALEMGGNNALIVADVADVDAALHVIIQSAFISAGQRCTCARRLIVQRGEQGDALLRRLVEASAQIRAGKWNDQPAPFMGGVISLEAAQNMLAAQQKLEALGGKVLLRMRQPDPHSTVLTPGIVDVTGIEVTDEEYFGPLLTVIRYDDFPEAIRLANQTRYGLAVGLISRDAAQFDQLADEARAGIVNWNKPLTGASSKAPFGGVGASGNHRAAAWYAADYCAWPMASLVSDTLTLPANVSPGLPF				NA	NA	NA	NA	NA
BMS020_00105	1341	astB_1	COG3724	N-succinylarginine dihydrolase	ATGTCTGGTTTTGAAGCTAACTTTGATGGCCTGGTCGGCCCGACGCACCACTACGCCGGACTCTCCGTCGGCAATGAAGCCTCGCAAAATAACCGCGATGGTCTCTCTAACCCGAAAAAGGCCGCGCTGCAGGGGCTGTATAAAATGAAAGCCCTGGCCGATCGCGGATTCGTGCAGGGGATCCTGCCGCCGCAGCCGCGGCCGAACCTGCGCCTGCTGCGCGACCTGGGATTCGAGGGCAGCGATGAGCAGGTCATCCGCCAGGCGGCCCAGGCGGCGCCGCAGCTGCTCTCCGCCTTCAGCTCCGCCTCGTCGATGTGGACCGCCAACGCGGCGACCGTTTCGCCGTCGGCGGACAGCGCCGATGGCAAAGTCCATTTCACTGTCGCCAACCTGAACAATAAGCTGCACCGCATGCAGGAGGCGCCCACCACCTCGGCGATCCTGCGCGCCACCTTCGCCGATCCGCGCTTCTTCGCCCACCACGCGGCGCTGCCGCAGCATGGCGACCTCGGCGACGAAGGGGCGGCCAACCATAACCGCTTCTGCCGGGAGTACGATCGTCAGGGCGTGCAGCTGTTTGTCTACGGTCGACGCGCCAGCGGCGGCATCGCCCCGGTGAAGTATCCGGCGCGGCAGACCCTGGAGGCCAGCGAAGCGGTGGCCCGTCTGCACCAGCTGGATCCGCGCTATACGGTGTTTGCCCAGCAGGCGCCGCAGGCTATCGATCGCGGCGTGTTTCATAACGACGTTATCGCGGTCAGCAATCGCCATGTGCTGTTCCACCATCAGCAGGCGTTTGTCGATCAGTCGACAGTATTGGCGACGCTGCGGGCAAAAAGCGACCGTCTCGATATCCCGTTTACCAGCGTGGAAGTGCCGGACGAGCGGGTGTCGCTTGATGACGCCGTGGCCTCCTATCTGTTCAACAGCCAACTGCTGAGCAAACCCGACGGCAAGATGCTGATCGTGGTGCCAGAGGAGTGCCGGCAGCGGGAAAACGTCTGGCGCTACCTGGGCGACCTGGCGGCCGACAGCGCCTCGCCGATCGATGAAGTGGCGGTTTTTGACCTGCGGGAAAGCATGCGCAACGGCGGCGGCCCGGCCTGCCTGCGGCTGCGGGTGGTGCTCAACGAGGCGGAGCGCGACGCGGTCAACGCCCACAGCCTGATGAACGACGAGCGTTACCAGCAGCTGACGGCGTGGGTGGAAAAACACTACCGTGACCGGCTGCACGCCCGCGATCTGGCGGACCCGCAGCTGCTGCGCGAGGTTTATCAGGCGCTGGATGAGCTGACGCAGATCCTGCGTCTGGGCCCTGTCTATGATTTTCAGCGTTAA	MSGFEANFDGLVGPTHHYAGLSVGNEASQNNRDGLSNPKKAALQGLYKMKALADRGFVQGILPPQPRPNLRLLRDLGFEGSDEQVIRQAAQAAPQLLSAFSSASSMWTANAATVSPSADSADGKVHFTVANLNNKLHRMQEAPTTSAILRATFADPRFFAHHAALPQHGDLGDEGAANHNRFCREYDRQGVQLFVYGRRASGGIAPVKYPARQTLEASEAVARLHQLDPRYTVFAQQAPQAIDRGVFHNDVIAVSNRHVLFHHQQAFVDQSTVLATLRAKSDRLDIPFTSVEVPDERVSLDDAVASYLFNSQLLSKPDGKMLIVVPEECRQRENVWRYLGDLAADSASPIDEVAVFDLRESMRNGGGPACLRLRVVLNEAERDAVNAHSLMNDERYQQLTAWVEKHYRDRLHARDLADPQLLREVYQALDELTQILRLGPVYDFQR				NA	NA	NA	NA	NA
BMS020_00106	996	astE_1	COG2988	Succinylglutamate desuccinylase	ATGGAGCATCTGGTTAACGATTTACTGCACTGCCGCCTGCAGGGGTGGACCTTTCCGGCGGACATCGAGGCCCGCTGGCTGGGCGAGGGCATCCTGCAGCTGCTGCCGTCCACGCCGTGGCATCAGGCGACGATCCTCTCCGCTGGCGTTCATGGCAATGAGACCGCGCCGACCGAGCTGCTGCTGCAGCTGACCCACGATCTGAGCCAGGGGCGGCAGCCGCTCACCCAGGCGTTGCTGATCGTCTTTGGTAACCTGCCGGCGATCCGCGCCGCGCGTCGCTATCTGCACAACGACCTCAATCGCCTGTTCGGCGGCCGCCATCTGGCGGTCTCCCCGGGCAATGAGTCGCGGCGGGCTTTTGCCCTCGAGCAGGCGGTGCAAGCCTTCTATCGCGCCGCCGATGCGGCGGGGCCGGTCAGCCGCAGCCATCTCGATATGCATACCGCCATTCGCGGGTCGCTGTATCGCCAGTTTGCGCTGCTCCCGGCCCACGCGGAGGATTTTTCGCCCGGCTTCTACCAGCTGCTGCAGGCCAGCGGGATGGACGCCATCGTGCGCCATACCGAAGCGGGCGGCACCTTCACTCATTTCACCTGCGAAAAGTTCGCCGCGCAAAGCGCCACCCTTGAGCTGGGAAAAGTGATGCCGTTCGGCGCCAACGATCTCAGCCTGTTCGCCGCCGCCGACGCGGCGATCCGGGCCTGGATTTCTGACGCGCCGCTGCCCACGCGCGACAAAGCGCCGGTGGATTACTTCCTGGTCGAGGAGAGCATCATCAAGCGCGAAGGGGAATTTACGCTTAATCTGGCGGCCAACGTCGAGAACTTCACCGCGCTCCCGGCAGGGTATGAGATCGCCCGCCAGGCAGAGAAACGGTGGGTGGTGCAGGCCCGGGCCCCCTATATCCTCTTTCCCAATGCCGGGGTCGCCACCGGCCAGCGCGCCGGGCTGCTGCTCCGCGCCGCGGCGCTTCGCCTCCCGCAACCAGCCTGA	MEHLVNDLLHCRLQGWTFPADIEARWLGEGILQLLPSTPWHQATILSAGVHGNETAPTELLLQLTHDLSQGRQPLTQALLIVFGNLPAIRAARRYLHNDLNRLFGGRHLAVSPGNESRRAFALEQAVQAFYRAADAAGPVSRSHLDMHTAIRGSLYRQFALLPAHAEDFSPGFYQLLQASGMDAIVRHTEAGGTFTHFTCEKFAAQSATLELGKVMPFGANDLSLFAAADAAIRAWISDAPLPTRDKAPVDYFLVEESIIKREGEFTLNLAANVENFTALPAGYEIARQAEKRWVVQARAPYILFPNAGVATGQRAGLLLRAAALRLPQPA	PGPT0020091_480	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020091-astE-K05526	NA	NA
BMS020_00107	1431	cycA_1	COG1113	D-serine/D-alanine/glycine transporter	ATGACTGAACATCAACATCAGGCGCCATCTGCCGCCGGAGGTGAAGGCGCGTCACAGCTTAAGCGCGGGCTTGGCGCCCGCCATATCCAGATGATCGCCCTCGGCGGCGCCATCGGCACCGGGCTGTTTATGGGGGCAGGGCGCAACATCGCCGTCGCCGGCACCTCGATTCTGGTTATCTATGTGCTGGTCGGGTTCTTTACCTATATGGTGATGCGGGCGATGGGGGAGCTGCTGCTCACCCGCCATGACTACCGCTCGTTTGCCGACTTTGTCGGCGAGTATCTCGGACCGCAGGCCAGCTTTTATCTCGGCTGGACCTACTGGCTGAGCTGGGTGGTGACCTGTATCGCCGACGTGGTGGTGTGCGGGAGCTATATGCAGTACTGGTTCCCCGAGCTGTCAGCGTGGATGCCGGCCCTCAGCATGCTGGCTATCCTGTTTCTGCTCAACCTGCTGTCGGTGAAAATGTTTGGCGAGGCGGAGTTCTGGTTCGCCCTGATCAAGGTGATCACCATTATCGCCCTGATCGCCACCGGCGGCTGGATGATTGCCACCGGCTGGACCTCTCCGGACGGCGTGACGGCTTCTCTGAGCCATCTCACCGACCCGACGGCCTTTATGCCTCACGGTATCACCGGCTTTTTCGCCGGCTTCCAGATAGCGATCTTCTCCTTTACCGGCATCGAACTGCTGGGGACGATGACGGCGGAGACCCGCGATCCACAGCGCATTTTGCCCAAGGCGATCAATGCCCTGCCGCTGCGGATTATCATCTTCTATCTGCTGTCGATGGTGGTGATCATCGCTGTCGCCTCCTGGCCGGGAGTGTCGGCGGAGACCAGCCCCTTCGTGACGCTGTTTGCCAAAGCCGGGCTGCCCGCGGCGGCGGCGGTGATTAACTTCGTGGCGCTGACCTCGGCGATGTCCTCGGCCAACAGCGGGGTCTTCTCCAGCACCCGCATGCTGTACGGCCTGTCGGTGGAGAAGCATGCGCACTGGCAGTTCCGCATTCTGTCGCGCAGCACCCGCATCCCGGTGCGCAGCCTGCTGTTTTCCTGCTTCTGTATGCTGATCGGTACGCTGCTGCTGTTCCTGGTGCCGAATGTGATGACCCTGTTTACCATCGTCTCGACCCTGGCGGCGATTATGGTGGTGTTCAGCTGGGGGATGATCCTCGTGGCCTATCTGGTTTATCGCCGTCAGCGTCCGGACCTGCACGCCGGTTCGATCTTTAAGATGCCCTTTGGCGTGGCGATGAGCTGGGTGAGCCTGCTGTTCTTCGTGTTCGCCATCTTCATCATGATCTTTGACCCGGACACGCTGCTGGCGCTGCTGGCTTCTCCGCTGTGGTTTATCGCGCTGTGGGCCTTCTGGAAGCTGAAGCAGCGGCGCGAGGGGCAGCTTCAGCTGGACAATCAGAGCGCCTGA	MTEHQHQAPSAAGGEGASQLKRGLGARHIQMIALGGAIGTGLFMGAGRNIAVAGTSILVIYVLVGFFTYMVMRAMGELLLTRHDYRSFADFVGEYLGPQASFYLGWTYWLSWVVTCIADVVVCGSYMQYWFPELSAWMPALSMLAILFLLNLLSVKMFGEAEFWFALIKVITIIALIATGGWMIATGWTSPDGVTASLSHLTDPTAFMPHGITGFFAGFQIAIFSFTGIELLGTMTAETRDPQRILPKAINALPLRIIIFYLLSMVVIIAVASWPGVSAETSPFVTLFAKAGLPAAAAVINFVALTSAMSSANSGVFSSTRMLYGLSVEKHAHWQFRILSRSTRIPVRSLLFSCFCMLIGTLLLFLVPNVMTLFTIVSTLAAIMVVFSWGMILVAYLVYRRQRPDLHAGSIFKMPFGVAMSWVSLLFFVFAIFIMIFDPDTLLALLASPLWFIALWAFWKLKQRREGQLQLDNQSA	PGPT0000815_490	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
BMS020_00108	1326	abaF_1		Fosfomycin resistance protein AbaF	ATGAGCAATCCAGAAAGCAACACTGCATCCATTCTGCAGAAAAACAAGAAGGTCCTGATCGCGAGCCTGACCGGCAGCGCCATCGAATGGTTTGATTATTTTCTCTATGGCACCGCCGCCGCGCTGGTGTTTAACAAAATCTTCTTTCCGATGGTCGACCCGGTCATCGGCCTGATCCTCTCCTGGCTCTCCTTTTCGCTCACCTTTTTTATCCGCCCCATCGGCGGGGTCATTTTCGCCCACATCGGCGATCGCATCGGTCGCAAGAAGACGCTGGTGCTGACCCTGTCGCTGATGGGCAGCGCCACGGTGGCCATTGGCCTGCTGCCCACCTACGAAATGGTGGGCCTGTGGGCGCCCGCCCTGCTGATTACCCTGCGCATTATTCAGGGTATGGGTATCGGCGGCGAATGGGGCGGCGCGCTGCTTCTGGCCTACGAATACGCCCCGGAAAAGCGGAAAGGCTTTTTCGGCAGTATTCCTCAGGCCGGCGTGACCATCGGCATGCTGATGGCGACCTTTATCGTCTCGCTGATGACCTTGTTCGATGAGGCGCAGTTTCTTGCCTGGGGCTGGCGCATTCCGTTCCTGCTCAGCTCCGTCCTCGTTTTCCTCGGCCTGTGGATCCGCAAAGATATCGACGAAACGCCCGCCTTTAAGCAGGTGAAACAGTCTGGCCAGGTGGCGAAGGCTCCGCTGCGCGTGACGCTCAAACACCACTGGCGGGAGGTGCTGATCGCCGCGGGTCTGAAAGTGGTGGAGACCGCCCCCTTCTATATCTTCTCTACCTTTGTGGTCAGCTACGCCACTACCACCCTGAGCTATCAGAAGTCGCAGGCGCTGGAATCCGTCACCCTCGGCGCGCTGGTGGCCACCGTGATGATCCCGTTGATGGGGCTGCTGTCCGACAAGGTGGGCCGGCAAAAGATGTACACCCTGAGCGTGGTGCTGCTGGGGCTGTTTATCGTTCCGTGGTTCCTGCTGCTCGACACCGGCACCAGCTGGGGCATTATGCTGGCGACGATCGTTGCCTTCGGCATCCTGTGGGCGCCGGTGACCGCGGTGCTGGGTACCCTGTGCTCAGAGATTTTCAGCGCCAATGTGCGCTACACCGGGATCACCCTGGGTTACCAGCTGGGCGCCGCGCTGGCCGGGGGCACCGCGCCGCTTATCGCCACCGGTCTGCTGGCGAAATACGATGGTGACTGGCGACCGGTGGCCATCTACCTGGGCGTTACGGTGGCGATTTCGTTGCTGGCGATATTCTGCGCCAGCCGGATGAAATCCGTCCCAGGTGCGGCGCGCCCCCGGGCGGAAAGCGCCTAA	MSNPESNTASILQKNKKVLIASLTGSAIEWFDYFLYGTAAALVFNKIFFPMVDPVIGLILSWLSFSLTFFIRPIGGVIFAHIGDRIGRKKTLVLTLSLMGSATVAIGLLPTYEMVGLWAPALLITLRIIQGMGIGGEWGGALLLAYEYAPEKRKGFFGSIPQAGVTIGMLMATFIVSLMTLFDEAQFLAWGWRIPFLLSSVLVFLGLWIRKDIDETPAFKQVKQSGQVAKAPLRVTLKHHWREVLIAAGLKVVETAPFYIFSTFVVSYATTTLSYQKSQALESVTLGALVATVMIPLMGLLSDKVGRQKMYTLSVVLLGLFIVPWFLLLDTGTSWGIMLATIVAFGILWAPVTAVLGTLCSEIFSANVRYTGITLGYQLGAALAGGTAPLIATGLLAKYDGDWRPVAIYLGVTVAISLLAIFCASRMKSVPGAARPRAESA	PGPT0002956_49	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_SHIKIMATE_TRANSPORT,PGPT0002956-shiA-K08172	NA	NA
BMS020_00109	801	ydcF	COG1434	Protein YdcF	ATGGCAGAACAATTTCCCCCGCTGTCGGCCACGACGCTGGCGGCGGCTAACCTGACTGGCGGCTGGCTGGCGCAGAACGATCTGGCGACGCTGACCGCGCCGCCGGCAGTGGATGTGGTGGTGCTGGCTGGCAATGCCGTGATCCCCACCATCGACGCCGCCTGCCGGCTGGCGAAGGAGCAGGAGGTTCCGCTGCTGATCAGCGGCGGCATAGGACACTCCACCGGTTTTCTGTATGAGGCGGTGCGCGAGGATCCCCGCTACTGTTCGCTCGCGGTGGAGGGCCGCCCGGAAGCGCATATTCTGGCGGATATTGCGCATGACTTCTGGCACATTCCTCGCCCGCGGCTGGTGGTGGAGGATCGGTCGACCAACTGCGGGGAAAACGCGCGCTTTACCCGCACAATGCTGGAGAGCCGGGGGATCCCCCATCGTCGCGGGATCGTCATTCAGGACCCCACCATGCAGCGGCGGACGATGGCCACCTTCGCCCGCGTCTGGCAGGGGGCGACGACGCCGCCGCAGTGGCTGAGCTTTCCCGGCTGCTCGCCGGTGCTGGAGCAGACCGACGGCCAGCTGGGGTTCGCGGGCGGCGGGGCGGGGCTGTGGCCGGTGACCCGCTACCTCGCGCTGCTGCTGGGCGAGCTGCCGCGCCTGCAGGATTCCCCTGAAGGGTACGGTCCGCGGGGGAAAGACTTTATCAGCCACGTGACCTTCCCGCCGGCGATCCTCGACGCCTGGCGACAGCTGCGGGAGGATGACCAGCTTGCCGGGGCGCTGCAGGCCCGCCTCCTCGGCTGA	MAEQFPPLSATTLAAANLTGGWLAQNDLATLTAPPAVDVVVLAGNAVIPTIDAACRLAKEQEVPLLISGGIGHSTGFLYEAVREDPRYCSLAVEGRPEAHILADIAHDFWHIPRPRLVVEDRSTNCGENARFTRTMLESRGIPHRRGIVIQDPTMQRRTMATFARVWQGATTPPQWLSFPGCSPVLEQTDGQLGFAGGGAGLWPVTRYLALLLGELPRLQDSPEGYGPRGKDFISHVTFPPAILDAWRQLREDDQLAGALQARLLG	PGPT0030515_2741	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TANNIN_DEGRADATION	PUTATIVE-TANNIN_DEGRADATION-1,PGPT0030515-pnbA-K03929
BMS020_00110	1440	aldA	COG1012	Lactaldehyde dehydrogenase	ATGACAGCACCCGTTCAACACCCAATGTATATTGATGGCCAGTTCGTTACCGGTCGCGGCGACGGCTGGATCGACGTGCTTAACCCGGCGACTGAAGCGCTGCTGTCGCGGATCCCGGACGGGACCGCGGAAGAGGCGCGACTGGCGATTGACGCCGCAGAGCGCGCCCAGCCGGCCTGGGAGGCGCTGCCGGCCATTGAGCGCGCGGGCTGGCTGCGCAAAATTGCCGCTGGCATTCGTCAGCGTGCCGACGACATCGCCGGGCTGATCGTCGCTGAAGGGGGCAAGATCCAGCAGCTGGCGGCGGTGGAGGTTGCGTTTACCGCCGACTATCTCGACTACATGGCCGAATGGGCGCGGCGGTATGAAGGGGAGATCGTGCAGAGCGACCGTCCCGGGGAGAATATCCTCGTCTTCAAACGCGCGCTGGGGGTGACCACCGGGATCCTGCCGTGGAACTTCCCGTTCTTTCTTATCGCCCGCAAGCTGGCGCCGGCGCTGATCACCGGCAACACTATCGTCATTAAGCCCAGCGAATTCACGCCCAACAACGCCATCGCTTTCGCCGAGATCGTCCACCAGGTTGGGCTGCCGAAAGGGGTCTTTAACCTGGTGCTCGGCCGTGGGGAAACCGTCGGCCAGGAGCTGGCCGGCAATCCGAAGGTGGCGATGGTCAGCATGACCGGCAGCGTAGCGGCGGGGGAGAAAATCATGGCCGCCGCGGCAAAAAATATCACCAAAGTGTGCCTCGAGCTCGGCGGCAAAGCGCCGGCCATCGTCATGGACGATGCGGATCTGGAGCTGGCGGTGAAGGCGGTGGTGGACTCGCGGGTGATCAACACCGGGCAGGTGTGCAACTGCGTCGAGCGGGTCTATGTTCAGCAGGGGATTTACGATCGCTTCGTCAACCGCCTCGGCGAGGCGATGAAGGCTATGCAGTTTGGCGACCCGGCGGCGCGGGATGACATCGCCATGGGGCCGCTGATTAACGCCGCCGCGCGGGATCAGGTGGCGCGCAAAGTGGCAAAGGCGGTGGCGCAGGGGGCGCGGGTCGCGCTGGGCGGTCAGCCGCAGGAGGGGAAAGGCTATTTTTATCCGCCGACCCTGCTGCTGGATGTGCGTCAGGAGATGGATATTATCCATGAGGAAACCTTCGGGCCGGTGCTGCCGGTGGTGGCGTTTTCGACGCTCGATGAAGCGCTGGCGATGGCCAATGACAGCGATTATGGCCTGACCTCTTCGATCTACACCCGCGATCTTAATGTGGCGATGAAGGCGATTAAGGGGCTGAAATTCGGCGAAACCTATATCAACCGCGAGAACTTTGAGGCGATGCAGGGATTCCACGCCGGCTGGCGTAAATCGGGGATCGGCGGCGCAGATGGCCGCCATGGCCTGAATGAGTACCTGCAGACTCAGGTGGTCTATCTGCAGGCCTGA	MTAPVQHPMYIDGQFVTGRGDGWIDVLNPATEALLSRIPDGTAEEARLAIDAAERAQPAWEALPAIERAGWLRKIAAGIRQRADDIAGLIVAEGGKIQQLAAVEVAFTADYLDYMAEWARRYEGEIVQSDRPGENILVFKRALGVTTGILPWNFPFFLIARKLAPALITGNTIVIKPSEFTPNNAIAFAEIVHQVGLPKGVFNLVLGRGETVGQELAGNPKVAMVSMTGSVAAGEKIMAAAAKNITKVCLELGGKAPAIVMDDADLELAVKAVVDSRVINTGQVCNCVERVYVQQGIYDRFVNRLGEAMKAMQFGDPAARDDIAMGPLINAAARDQVARKVAKAVAQGARVALGGQPQEGKGYFYPPTLLLDVRQEMDIIHEETFGPVLPVVAFSTLDEALAMANDSDYGLTSSIYTRDLNVAMKAIKGLKFGETYINRENFEAMQGFHAGWRKSGIGGADGRHGLNEYLQTQVVYLQA	PGPT0001725_244	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0001725-aldA-K07248	NA	NA
BMS020_00111	999	gap		Glyceraldehyde-3-phosphate dehydrogenase	ATGAGTAAACTTGGGATTAATGGATTTGGTCGTATCGGACGTCTGGTGTTACGCCGTTTATTAGAAGTCGACAGCAGCCTCGAGGTGGTGGCTATCAACGACCTCACCTCGCCAAAAGTACTGGCCTACCTGCTAAAGCATGATTCAAACTACGGCCCCTTCCCGTGGAGCGTCGACTTCACGGAAGATGCGCTGATCGTCAACGGTAAGACCATCACCGTGTATGCCGAAAAAGAGGCGCAGCATATTCCGTGGCAGGCGGCGGGCGCGGAAGTGATTGTGGAGTGTACCGGGTTCTACACCTCGGCAGAGAAATCGCAGGCCCATCTCCAGGCCGGCGCGCGCAAGGTGCTGATTTCCGCCCCCGCCGGCGAGATGAAAACTATCGTCTATAACGTCAACGATGACACCCTGACGCCGGATGACACCATTATCTCCGTCGCCTCCTGCACCACCAACTGCCTGGCGCCGATGGCCAAAGTCCTGCAGGATGCCTTCGGCATCACCGTTGGCACCATGACCACTATCCACGCCTATACCGGCACCCAGTCGCTGGTGGACGGGCCGCGCGGTAAAGATCTGCGCGCCTCCAGGGCGGCGGCGGAAAACGTCATCCCGCACACTACCGGCGCGGCCAAGGCTATCGGCCTGGTGATCCCCGCCCTGAGCGGGAAGCTGAAAGGCCATGCCCAGCGCGTACCGACCAAAACCGGCTCAGTGACGGAGCTGGTGTCGGTGCTGGAGAAAAAAGTGACTGCGGATGAGGTCAATCAGGCGATGAAGCAGGCGGCAGAGGGCAATGAATCCTTTGGCTACACCGAAGAAGAGATTGTCTCTTCCGATATCATCGGCAGCCATTTCGGTTCAATCTACGATGCCACCCAGCTGGAGATTGTGGAGGCCGGCGGCGTACAACTGGTGAAAACCGTCGCCTGGTACGATAACGAATACGGCTTTGTCACCCAGCTGATCCGCGTGCTGGAGAAATTTGCCCGCTAA	MSKLGINGFGRIGRLVLRRLLEVDSSLEVVAINDLTSPKVLAYLLKHDSNYGPFPWSVDFTEDALIVNGKTITVYAEKEAQHIPWQAAGAEVIVECTGFYTSAEKSQAHLQAGARKVLISAPAGEMKTIVYNVNDDTLTPDDTIISVASCTTNCLAPMAKVLQDAFGITVGTMTTIHAYTGTQSLVDGPRGKDLRASRAAAENVIPHTTGAAKAIGLVIPALSGKLKGHAQRVPTKTGSVTELVSVLEKKVTADEVNQAMKQAAEGNESFGYTEEEIVSSDIIGSHFGSIYDATQLEIVEAGGVQLVKTVAWYDNEYGFVTQLIRVLEKFAR	PGPT0018000_7359	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
BMS020_00112	159			hypothetical protein	ATGGGATTCTGGAGAATCGTTTTTACTATCATTCTGCCGCCGCTGGGAGTACTGCTGGGGAAAGGTTTCGGCTGGGCGTTTATTCTCAACATTATTCTGACCCTGCTGGGCTATATTCCAGGCCTGATCCACGCCTTCTGGGTGCAGACCCGCGATTAA	MGFWRIVFTIILPPLGVLLGKGFGWAFILNIILTLLGYIPGLIHAFWVQTRD				NA	NA	NA	NA	NA
BMS020_00113	393	ydfO	COG5562	putative protein YdfO	ATGGAACTGCTGGCCAGGCTGGGTCATTTTTTTGAGCAAGTGCGTTCAGATGCCGATTTTGCCACCTTCGCCAGTGAACTGCGTCGACATCAGGTCTCGTGTTATATCTACTTTGTCTCTACCGGCAATATGAATTTCGTGATGGCCAACGACGAGGTGATCACGATAAAAAGCGCCCGCGGCCTGCTGCGCGTGCGCAGCGCCCCCAGCCATCGGCTGACCTCGGCCGCGGTCATCCGCCATTTTGCCGGCGCCATCAACTTTGAACAGTACTGCAGGGATCTCGCCAGCGCCGGGGTGTTTAAGTGGAGCGTAGACCTGGACGAGGAGACTCGCCACTACTGGTCGAAGGAAAACAGGCTGCTGTACAAAGAGAGCCTGATTCCCCCCTGA	MELLARLGHFFEQVRSDADFATFASELRRHQVSCYIYFVSTGNMNFVMANDEVITIKSARGLLRVRSAPSHRLTSAAVIRHFAGAINFEQYCRDLASAGVFKWSVDLDEETRHYWSKENRLLYKESLIPP				NA	NA	NA	NA	NA
BMS020_00114	234	yedF	COG0425	Putative sulfur carrier protein YedF	ATGAAGAACATCATCCCTGATTATCGCCTGGACATGGTCGGCGAGCCCTGCCCCTATCCGGCGGTCGCCACCCTGGAGGCGATGCCCTCCCTGCAAAAAGGCGAGATCCTCGAAGTGATTAGCGACTGTCCGCAGTCGATCAATAACATTCCGCTTGATGCCAGGAACCATGGCTATACGGTGCTGGATATTCAGCAGGATGGCCCGACCATTCGCTATCTGATCCAGAAGTAA	MKNIIPDYRLDMVGEPCPYPAVATLEAMPSLQKGEILEVISDCPQSINNIPLDARNHGYTVLDIQQDGPTIRYLIQK				NA	NA	NA	NA	NA
BMS020_00115	1212			hypothetical protein	ATGACATGGCAATCCTTCAAACAGGCCTGGCTTATCCGGTTCTGGTCCCCCGCCCCGGCGGTCATCGCCGCGGGCATTCTCTCAACCTACTATTTTGGCATCACCGGCACCTTCTGGGCGGTGACCGGCGAATTTACCCGCTGGGGTGGCCAGCTGCTGCAGCTGCTGGGGGTCCACAGCGAACAGTGGGGCTATTATCAGCTGATCCATCTCGACGGGACGCCGCTGACCCGCATCGACGGCAGGATGATCATCGGCATGTTCGGCGGCTGCCTGGCCGCGGCGCTGTGGGCCAATAACGTCAAATTGCGCTTGCCACGCAGCCGGATCCGCATTGTGCAGGCCGTAGCCGGGGGTATCATCGCCGGGTTCGGCGCGCGGCTGGCGATGGGCTGCAACCTGGCGGCCTTTTTCACCGGCATTCCGCAGTTCTCCCTGCACGCCTGGCTGTTTGCCATCGCCACCGCCATCGGCTCCTGGTTTGGCGCTCGCTTCACCCTGCTGCCTCTTTTTCGCATACCGGTAAAAATGCAAAAGGTATCCGCTGCTTCGCCGTTAACCCAAAAACCGCAGCAGGCGCGTCGCCGTTTCCGCCTGGGCATGGTGATCTTTTTCGCCATGATCGGCTGGGGCCTGCTCACCGCCGCTGACCACCCTGCGCTCGGCCTGGCAATGCTGTTCGGCATCGGCTTCGGTCTGCTTATCGAGCGCGCGCAGATCTGCTTCACCTCCGCCTTTCGCGATATGTGGATCACCGGCCGGACGGTGATGGCGAAGGCGATAATCTTCGGCATGGCGGCGAGCGCCATCGGCATCTTCAGCTATGTGCAACTGGGGATGGCGCCGAAAATCATGTGGGCCGGTCCCAACGCGGCGATTGGCGGGCTGCTGTTTGGCTTTGGCATCGTGCTGGCCGGCGGCTGTGAAACCGGCTGGATGTACCGGGCGGTGGAAGGCCAGGTTCACTACTGGTGGGTGGGGCTGGGCAACGTTATCGGCTCCACGCTGCTCGCCTGGTGCTGGGACGATATCGCCGCCCCGCTCGCCACCCACTGGCAAAAGGTCAACCTGCTGAACGCTTTTGGTCCCTTCGGCGGACTGCTGGCGACCTATCTGCTGCTGCTGATCGCCCTGCTGCTGGTGATCGCCTGGGAGAGACATTTTTTCCGCCGCCAGTCGGCAGCGGTCCGGACCGTGAAGGAGAGCGCATGA	MTWQSFKQAWLIRFWSPAPAVIAAGILSTYYFGITGTFWAVTGEFTRWGGQLLQLLGVHSEQWGYYQLIHLDGTPLTRIDGRMIIGMFGGCLAAALWANNVKLRLPRSRIRIVQAVAGGIIAGFGARLAMGCNLAAFFTGIPQFSLHAWLFAIATAIGSWFGARFTLLPLFRIPVKMQKVSAASPLTQKPQQARRRFRLGMVIFFAMIGWGLLTAADHPALGLAMLFGIGFGLLIERAQICFTSAFRDMWITGRTVMAKAIIFGMAASAIGIFSYVQLGMAPKIMWAGPNAAIGGLLFGFGIVLAGGCETGWMYRAVEGQVHYWWVGLGNVIGSTLLAWCWDDIAAPLATHWQKVNLLNAFGPFGGLLATYLLLLIALLLVIAWERHFFRRQSAAVRTVKESA				NA	NA	NA	NA	NA
BMS020_00116	354			hypothetical protein	GTGTTAGCCACTCTCCTCGTTGCGCTGGTCGCTATTATTCATCTCGCCATCCTGGTGCTGGAGATGTTTTTCTGGGAAGCGCCCGCCGGGCGCCGGGCCTTTAACCTCAGCGCCGATTTCGCCCGGGAAACCCGGGTGCTGGCGGCCAACCAGGGGTTGTATAACGGTTTCCTGGCCGCCGGCCTGGCGTGGGGGCTGTGGCTGAGGGAGTCCGGCGAGCCGGTGGTGATCTTTTTCCTCGCCTGCGTGCTGGCCGCCGGGGTATTCGGCGCGCTGACCGCCAGCCGCAAAATTCTCTATATTCAGGCGCTGCCCGCGCTGCTGGCGCTGCTGGCGGTGCTGACACAGGGGTAG	MLATLLVALVAIIHLAILVLEMFFWEAPAGRRAFNLSADFARETRVLAANQGLYNGFLAAGLAWGLWLRESGEPVVIFFLACVLAAGVFGALTASRKILYIQALPALLALLAVLTQG	PGPT0024160_4646	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
BMS020_00117	519			hypothetical protein	ATGTTGAATAAATTATGGGTTGTGTTATCCGGGCTGCTGTTGGTTGCCATGCCGTCGGCGCAGGCCGGGGAATTAAATCTCTATTCGATGAATACCGGCTCCTATGTTTATCACATGACCGGCAACCACGGACAATATAACGAGCATTTCAACAACAACTTTTTCTCGGTGGAGCGCAAGTTTTCAGCGGATTCAAAATACAGCGCGCTGGTCGGCACCATGAAAAACAGCTTCGACGATCGCTGCCTGACCCTCGGCGTGCGCCGCGACTGGCTGAAAAACGACACCGGCTGGCTGCTGAAAGGGGTGTATGCCTATACCGGAGAATTTTTCTTTGACGCTTTCAGCCACTGCGGCGACTCAGGCACCTACCGCACCGCCAAAAAAATCACCGGCGTCGGTTTTTCGCCCTATATCTATCATGGTCTGCAGTATAACTTTACCGATTATTTCGGCGTCGAGGGCGGGATTATTCTCCCGGCGATCTTTGTGATGAGTATTCAGTGGAGCTTTCGCTAA	MLNKLWVVLSGLLLVAMPSAQAGELNLYSMNTGSYVYHMTGNHGQYNEHFNNNFFSVERKFSADSKYSALVGTMKNSFDDRCLTLGVRRDWLKNDTGWLLKGVYAYTGEFFFDAFSHCGDSGTYRTAKKITGVGFSPYIYHGLQYNFTDYFGVEGGIILPAIFVMSIQWSFR				NA	NA	NA	NA	NA
BMS020_00118	204	ydfZ		Putative selenoprotein YdfZ	ATGAAAACCTATGACCGTAATCGTAACGCTATTGCCACCGGCAGTATGGTCATGATCGCCGGTAACGGTACGACGGGCGTGATTAAAGCGATCCATGGCGAGGGGAAAACCGCCGAGCAGCTGCGTCGGGCGGACTGCGTGGAAATCGACGGCTGCGAGGGCCGCTTCTGTCCGTTAGATCTGATCCGTCTCGGTTTCCATTAA	MKTYDRNRNAIATGSMVMIAGNGTTGVIKAIHGEGKTAEQLRRADCVEIDGCEGRFCPLDLIRLGFH				NA	NA	NA	NA	NA
BMS020_00119	186	malI_1	COG1609	Maltose regulon regulatory protein MalI	GTGGCGCTGGCGGCGTTCGCCGATGTGCCTGAGGCCGCGCTTGACGACCTGCCGCTCACCTGGGTCACCACCCCGGCGCGAGAGATGGGAAAAACGCTGGCGGAGTCGATGCTGCGGCGGCTGGAGGAGGGCGCGGGCGAGACGCGAAATCAGATTATGCCCCCGCGGCTGGTGACGAGAAAATGA	MALAAFADVPEAALDDLPLTWVTTPAREMGKTLAESMLRRLEEGAGETRNQIMPPRLVTRK	PGPT0014091_125	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTOSE|GLUCOSE_PTS_SYSTEM,PGPT0014091-malI-K16136	NA	NA
BMS020_00120	1539	ydgA	COG5339	Protein YdgA	ATGAAAAAATCGCTGGTCGCAGCAGGAATCATCGTGGCGCTGGGCGTGGTATGGACAGGCGGCGCCTGGTACACCGGCAAACAGCTGGAAGGCCGGATTGCCGATATGGTGCAGCAGGCTAACGCGCAGTTACGCAGCAGCGCGCCGGAGTCAGGTCTGGAGCTGAGCTATCAGGACTACCAGCGCGGGCTGTTCAGCAGCCATCTGCAGCTGGTGGTGAAGCCGATCGCCGGTCAGGCTAACGGCTGGCTGGCCGCCGGGCAGAGCGTGGTGCTTGACGAGGTGGTCGATCACGGCCCCTTCCCGCTGGCCTCGTTAAAAACCTTTAATCTGGCCCCGGCGATGGCCTCGGTCCACACCACGCTGGTGAAAAACGACGCCAGCCAGGCGCTGTTCGAAATAGCCAAAGGCAATACCCCCTTTACCGTCGATACGCGCATCGCCTACAGCGGCGACAGCCAGTCGGCGATCGTCCTCAATGCCCTCGACTACGCCAAAGGGGATGAGAAAGTCACCTTCAGCGGCGGCGAGTTCCAGCTCGACGCCGACCGCGACGGCAAAAACATCAGTCTGAAGGGCCAGGCCGGCAGCGGCCAGATCGATGCTCTCAACGAATATAACCAGAAGGTGCAGCTGCGCTTCGTCAACCTGACCACCGACGGCGCCACCGAGCTGGCCAGCTTCAACGAGCGTATCGGCCAGCAAAAAATGACCCTCGATAAACTGGCCATCAGCGTCGAAGGCAAAGAGCTGGCGCTGGTTGACGGCATGGCGCTGGACGGCGGCTCCACGCTGACCAAGGACGGCAAAGGCGTGAACAGCCAGGTGAACTACACCGTCAACAGCCTGAAGCTGCAGGGTCAGGATATGGGTAGCGGCAAACTGACGCTGAAAGTGGATAACGTCGACGGTCAGGCGTGGCACCAGTTCAGCCAGCAGTACAGCGCGCAGTCTCAGGCGCTGCTGGCGAAACCAGAGCTGGCGCAGAACCCGGAGCTGTACCAGCAGGCGCTTACCGAAACCCTGTTCAATGCGCTGCCGATCCTGCTTAAGGGCAATCCGTCGGTGACTATCTCACCGCTGAGCTGGCGCAATGCCAAAGGCGAAAGCAGCCTCAACCTCTCGGTGCTGCTGAAAGATCCGGCCCTGGTGACCGCCCCGCCGCAGACCCTGGCGGACAGCCTGGATCGCGTGGTGCAGTCCCTTGACGGCAAAGTGGTGATCCCGGTGGATATGGCGACGGAGTTTATGACTAAGATCGCCGGTCTGGAAGGCTACCAGCCAGCCGACGCCGCCAAACTCGCCGATCAGCAGGTCAAAGGCCTGGCGGCGATGGGCCAGATGTTCCGCATCACCACCATGGAAGATAACGCCATCAGCAGCAGCCTGCAGTACGCGAACGGCCAGGTGACGCTGAACGGCCAGAAAATGCCGCTGGAGGATTTTGCCGCGATGTTTGGTCTCGAAGCGCCTTCGTTACCGGACAGCGCGCCGCAGGAGGGCCAGCCGCAGCAGGATGACGCCGCGCCGCAGCCGTAA	MKKSLVAAGIIVALGVVWTGGAWYTGKQLEGRIADMVQQANAQLRSSAPESGLELSYQDYQRGLFSSHLQLVVKPIAGQANGWLAAGQSVVLDEVVDHGPFPLASLKTFNLAPAMASVHTTLVKNDASQALFEIAKGNTPFTVDTRIAYSGDSQSAIVLNALDYAKGDEKVTFSGGEFQLDADRDGKNISLKGQAGSGQIDALNEYNQKVQLRFVNLTTDGATELASFNERIGQQKMTLDKLAISVEGKELALVDGMALDGGSTLTKDGKGVNSQVNYTVNSLKLQGQDMGSGKLTLKVDNVDGQAWHQFSQQYSAQSQALLAKPELAQNPELYQQALTETLFNALPILLKGNPSVTISPLSWRNAKGESSLNLSVLLKDPALVTAPPQTLADSLDRVVQSLDGKVVIPVDMATEFMTKIAGLEGYQPADAAKLADQQVKGLAAMGQMFRITTMEDNAISSSLQYANGQVTLNGQKMPLEDFAAMFGLEAPSLPDSAPQEGQPQQDDAAPQP				NA	NA	NA	NA	NA
BMS020_00121	1179	manA	COG1482	Mannose-6-phosphate isomerase	ATGCAAAAGCTGATTAACGCCGTGCAGAACTATGCATGGGGAAGCCACACCGCCTTAACTGAACTGTATGGCATCGCCAACCCGGACAACCTGCCGATGGCAGAGCTGTGGATGGGGGCGCATCCGAAGAGCAGCTCGCAGATCCTGGCGGCAGACGGCCAGCCGCGTTCGCTGCGCGAAGTGATTGACGCGGAAAAAGCCGCCCTGCTCGGCGACAAAGTGGCGCAGCGCTTCGGTGAACTGCCGTTCCTGTTTAAAGTGCTGTGCGCCGCGCAGCCCCTCTCCATTCAGGTCCATCCTAACAAGCAGGCCTCCGAAGAGGGTTTCGCCCGCGAGAACGCCGCCGGCATCCCCCTCTCCGCCGCCGAACGTAACTACAAAGATCCGAACCACAAGCCGGAGCTGGTCTTCGCCCTGACCCCGTTCCTGGCGATGAACGCGTTTCGCGAGTTCAGCGAGATTGTCAGCCTGCTGCAGCCGGTGGCTAACGCGCACCCGGCGATCGGCGCCTTCCTGCAGCAGCCGGACGCGGCTCGCCTGAGCCAGCTGTTTGCCAGCCTGCTGAATATGCAGGGCGAGGAAAAAGCGCAGGCGCTGAAGGCGCTGCGCGAGGTGCTGGACCGCGAACAGGGCGAACCGTGGCAGACCATCCGCCTGATCGCCGAATTTTATCCCGACGACAGCGGCCTTTTCTCCCCGCTGCTGCTGAACGTGGTGAAGCTGAATCCGGGCGAAGCGATGTTCCTGTTTGCCGAAACGCCGCACGCGTATCTGCAGGGGGTGGCGCTGGAGGTGATGGCCAACTCGGATAACGTGCTGCGCGCCGGCCTGACGCCGAAGTACATTGATATCCCTGAGCTGGTGGCCAACGTCAAGTTCGAGGCCAAACCGGCGGGTGAGCTGCTGACCCAGCCGCAGCGGCACGGCGCGGAGCTGGACTTCCCGATCCCGGTGGAAGATTTTGCCTTCTCGCTGCACGATCTCTCCGCCGAGGCCAGCGATCTGGCCCAGGCGAGCGCGGCGATCGTTTTCTGCGTCGACGGCGAAGCCCTGCTGCGCAAAGGCGATCAGAGCCTGACCCTCAAGCCGGGCGAATCGGCCTTTGTGGCCGCCAATGAGTCGCCGGTGCAGGTCAGCGGCCATGGCCGCGTGGCGCGCGTGTTCAATAAGCTCCAGTAA	MQKLINAVQNYAWGSHTALTELYGIANPDNLPMAELWMGAHPKSSSQILAADGQPRSLREVIDAEKAALLGDKVAQRFGELPFLFKVLCAAQPLSIQVHPNKQASEEGFARENAAGIPLSAAERNYKDPNHKPELVFALTPFLAMNAFREFSEIVSLLQPVANAHPAIGAFLQQPDAARLSQLFASLLNMQGEEKAQALKALREVLDREQGEPWQTIRLIAEFYPDDSGLFSPLLLNVVKLNPGEAMFLFAETPHAYLQGVALEVMANSDNVLRAGLTPKYIDIPELVANVKFEAKPAGELLTQPQRHGAELDFPIPVEDFAFSLHDLSAEASDLAQASAAIVFCVDGEALLRKGDQSLTLKPGESAFVAANESPVQVSGHGRVARVFNKLQ	PGPT0017860_1396	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
BMS020_00122	1647	fumA	COG1838	Fumarate hydratase class I, aerobic	ATGTCGAATAAACCGTTTGTTTACCAGGATCCTTTTCCCCTCAAAAAGGATGACACCGAGTATTATCTCCTCAGCAGTGATTACGTCTCCGTCGCCGAATTTGCCGGCCAGGAAGTGCTAAAAGTTGACCCTCAGGCGCTGACCCTTCTGGCGCAACATGCCTTCCACGACGCCTCCTTTATGCTTCGCCCGGCCCATCAGCAGCAGGTAGCGGATATCCTTAACGACCCGGAAGCCAGCGAAAACGACAAATACGTCGCCCTGCAGTTCCTGCGCAACTCCGATATCGCCGCCAAAGGCATTCTGCCTACCTGCCAGGACACCGGCACCGCCATCATCATGGGTAAAAAAGGCCAGCGCGTCTGGACCGGCGGCGGCGACGAAGCCGCGCTGGCGCAGGGGGTATACAACACCTACATCCAGGACAACCTGCGCTATTCGCAGAACGCCCCGCTGGATATGTATAAAGAGGTCAACACCGGCACCAACCTGCCGGCGCAGATCGACCTCTATGCTACCGATGGCGATGAGTACAAATTCCTCTGTATCGCCAAAGGCGGCGGCTCGGCGAACAAAACCTATCTCTACCAGGAAACCAAAGCGCTGATCACCCCGGCGAAGCTGAAAAACTATCTGGTGGAGAAGATGCGTACCCTCGGTACCGCTGCCTGCCCGCCGTACCACATCGCCTTTGTCATCGGCGGTACCTCGGCGGAAGCGACGCTGAAGACCGTCAAGCTGGCGTCCACCAAATACTACGACGGTCTGCCGACCGAAGGTAATGAGCATGGCCAGGCGTTCCGCGACATTCAGCTGGAGCATGAGCTGCTGGTGGAGGCGCAAAACCTCGGCCTCGGCGCGCAGTTCGGCGGCAAATACTTCGCCCACGATATCCGGGTGATCCGCCTGCCGCGCCACGGCGCCTCCTGTCCGGTAGGGATGGGGGTTTCCTGTTCCGCCGACCGCAACATCAAAGCCAAAATCAACCGCGACGGCATCTGGATCGAGAAGCTGGAGAGCAATCCGGGGAAATATATCCCTGAGCATCTGCGCCAGGCCGGCGAAGGCGAAGCGGTAAAGGTGAACCTTAACCAGCCGATGAGCGAGATCCTGGCGCTGCTGTCGCAGTATCCGGTCTCCACCCGTCTGTCGCTGAGCGGCACCATTATCGTCGCCCGCGACATCGCCCACGCCAAGCTGAAAGAGCTTATCGATAATGGCGAGGAACTGCCGCAGTACGTGAAAGATCACCCGATCTACTACGCCGGCCCGGCCAAGACGCCGGACGGTTACGCCTCCGGCTCCCTCGGCCCGACTACCGCAGGCCGCATGGACTCTTACGTCGATCTGCTGCAGTCTCACGGCGCGAGTAAGATCATGCTGGCGAAAGGCAACCGCAGCCAGCAGGTCACCGACGCCTGCCACAAGCACGGCGGTTTCTACCTCGGCAGCATCGGCGGCCCGGCGGCGGTACTGGCTCAGCAGAGCATCCGCAGCCTGGAGTGCGTGGCGTATCCGGAGTTGGGGATGGAGGCGATCTGGAAAATCGAAGTGGAAGACTTCCCGGCGTTTATCCTCGTCGATGATAAAGGCAACGACTTCTTCCAGCAGATCCAGACGTCGCAGTGCGCCCGCTGCGTGAAATAA	MSNKPFVYQDPFPLKKDDTEYYLLSSDYVSVAEFAGQEVLKVDPQALTLLAQHAFHDASFMLRPAHQQQVADILNDPEASENDKYVALQFLRNSDIAAKGILPTCQDTGTAIIMGKKGQRVWTGGGDEAALAQGVYNTYIQDNLRYSQNAPLDMYKEVNTGTNLPAQIDLYATDGDEYKFLCIAKGGGSANKTYLYQETKALITPAKLKNYLVEKMRTLGTAACPPYHIAFVIGGTSAEATLKTVKLASTKYYDGLPTEGNEHGQAFRDIQLEHELLVEAQNLGLGAQFGGKYFAHDIRVIRLPRHGASCPVGMGVSCSADRNIKAKINRDGIWIEKLESNPGKYIPEHLRQAGEGEAVKVNLNQPMSEILALLSQYPVSTRLSLSGTIIVARDIAHAKLKELIDNGEELPQYVKDHPIYYAGPAKTPDGYASGSLGPTTAGRMDSYVDLLQSHGASKIMLAKGNRSQQVTDACHKHGGFYLGSIGGPAAVLAQQSIRSLECVAYPELGMEAIWKIEVEDFPAFILVDDKGNDFFQQIQTSQCARCVK	PGPT0001635_632	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
BMS020_00123	1401	fumC_1	COG0114	Fumarate hydratase class II	ATGACAACGCATCGCAGTGAAAAAGACTCGATGGGCGCCATCGACGTCCCGGCCGATAAACTCTGGGGCGCCCAGACCCAGCGTTCGCTGGAGCATTTCCGCATCTCGACCGAAAAAATGCCCGGGGAACTGATATATGCCCTCGCGCTGACCAAGCGGGCGGCGGCGAAGGTCAATCAGGATCTTGGCCTGCTGACGGCGGAGAAAGCCGGGGCGATCGTCGCCGCCGCTGACGAAGTACTGGCCGGAAAACACCCCCAGGAGTTCCCGCTGGCTATCTGGCAGACCGGTTCCGGCACCCAGAGCAATATGAATATGAACGAGGTGCTGGCTAACCGCGCCAGTGAACTGCTCGGCGGTGAGCGGGGGATGGCGCGAAAAATCCACCCCAATGACGATGTCAATAAAAGCCAGAGCTCGAACGATGTGTTCCCCACCGCCATGCACGTCGCGGCGCTGGTCGCCCTGCGGGAAAAATTGCTTCCGTCGCTGCAGGCGCTGCGGGCCACGCTCAACGAAAAAGCGGTGGCCTTCAGGGATATCGTGAAGATCGGTCGCACCCATCTGCAGGACGCCACGCCGCTCACCTTAGGCCAGGAAATCTCCGGCTGGGTGGCGATGCTGGACCATAGCCTGAAGCATCTTGAAGCCAGCCAGCCGCACCTTGCCGAGCTGGCGCTGGGCGGGACGGCGGTGGGGACCGGGCTGAATACGCATCCGGAATATGCCGTGCGGGTGGCGGCCGAGCTGGCCTCGCTCAGCGGACAGCCGTTTGTCACCGCGCCGAATAAATTCGAAGCGCTGGCCACTGTCGATGCCCTGGTCCATGCCCACGGCGCGCTGAAAGGTCTGGCGGCCTCGCTGATGAAAATCGCTAACGATGTCCGCTGGCTGGCCTCCGGGCCGCGCTGCGGGATTGGCGAAATCGCCATCCCGGAAAACGAGCCTGGGTCATCGATTATGCCCGGTAAGGTCAACCCGACGCAGTGCGAGGCCCTGACCATGGTCTGCTGCCAGGTGATGGGTAACGACGTGGCGGTGAATATCGGCGGCGCCTCGGGTAACTTTGAGCTCAACGTCTATCGGCCGATGGTCATTCACAACTTCCTGCAGTCGGTGCGTCTGCTGGCGGACGGCATGGCGAGCTTTAACGAGCACTGTGCGGTGGGGATTGAGCCGAATCGTGAGCGGATCACCCAGCTGCTCAACGAGTCGCTGATGCTGGTGACCGCGCTGAATACCCATATCGGCTATGATAAAGCGGCGGAGATCGCCAAAAAAGCGCACCATGAGGGGCTGACCCTGAAGGCTTCGGCGCTGGCGCTGGGCTACCTGACGGAAGCCGAATTCGATAGCTGGGTGCGCCCGGAACAGATGGTCGGCAGCCTGGCTACTCGCTAG	MTTHRSEKDSMGAIDVPADKLWGAQTQRSLEHFRISTEKMPGELIYALALTKRAAAKVNQDLGLLTAEKAGAIVAAADEVLAGKHPQEFPLAIWQTGSGTQSNMNMNEVLANRASELLGGERGMARKIHPNDDVNKSQSSNDVFPTAMHVAALVALREKLLPSLQALRATLNEKAVAFRDIVKIGRTHLQDATPLTLGQEISGWVAMLDHSLKHLEASQPHLAELALGGTAVGTGLNTHPEYAVRVAAELASLSGQPFVTAPNKFEALATVDALVHAHGALKGLAASLMKIANDVRWLASGPRCGIGEIAIPENEPGSSIMPGKVNPTQCEALTMVCCQVMGNDVAVNIGGASGNFELNVYRPMVIHNFLQSVRLLADGMASFNEHCAVGIEPNRERITQLLNESLMLVTALNTHIGYDKAAEIAKKAHHEGLTLKASALALGYLTEAEFDSWVRPEQMVGSLATR	PGPT0001650_1740	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
BMS020_00124	933	tus		DNA replication terminus site-binding protein	ATGGCCAGCTACGACCTCGTTGAACGTCTGAATGATACCTTTCGCCAGATCGAGCTGGAGCTGCAGGCGCTGCGCCAGGCGTTAGCGACCTGCCGGCTGCTGGCGGGCCGGGTGTTTGAGCTGCCGGCGATCAGTAAGGATGCCGAGCACGACCCGCTGGCGAACATTACGGTCGTCCAGCACACCGGCGAGGCGGCGCTGGATCTCGCCCTGCGCCACTACGGCCATCTGTTTATCCAGCAGCAGTCGGAAACCCGCAGCAGCAAAGCCGCCGTCCGCCTGCCGGGCGCTATCTGTCTCCAGGTCACCGCCGCGGAACAGCAGGTGCTGCTGGCGCGCATTCAGCAGATTAACGCCCTGAAGGCCACCTTCGAGAAAATCGTCACTGTCGACGCTGGCCTGCCCCCCACCGCCCGCTTTGAGTGGGTGCATCGCCATCTGCCTGGGTTAATCACCCTCAGCGCCTATCGCACGCTAACGCCCCTCCTCGACCCGAGCACTATCCGCTTCGGCTGGGCCAATAAGCACGTGATCAAAAATCTGACCCGCGACCAGGTGTTGATGATGCTGGAAAAAAGCCTGCAATCGCCGCGGGCGGTGCCGCCCTGGACCCGCGAGCAGTGGCAGAGCAAACTGGAAAGGGAGTATCAGGATATCGCCGCCCTGCCGCAGCGGGCGCGGCTAAAAATCAAACGGCCGGTGAAAGTGCAGCCGATTGCCCGCGTCTGGTATGCCAGCGAGCAGAAACAGGTGCAGTACGCCTGCCCCAGCCCGCTGATCGCCCTGATGTCCGGTAGCCAGGGGGTCAGCGTGCCGGATATTGGCGAATTGCTCAACTACGATGCCGACAACGTGCAATACCGCTACAAACCGGAGGCGCAGGCGCTGAGATTACTGATCCCTCGTCTGCACCTCTGGCTGGCTAGCGAGTAG	MASYDLVERLNDTFRQIELELQALRQALATCRLLAGRVFELPAISKDAEHDPLANITVVQHTGEAALDLALRHYGHLFIQQQSETRSSKAAVRLPGAICLQVTAAEQQVLLARIQQINALKATFEKIVTVDAGLPPTARFEWVHRHLPGLITLSAYRTLTPLLDPSTIRFGWANKHVIKNLTRDQVLMMLEKSLQSPRAVPPWTREQWQSKLEREYQDIAALPQRARLKIKRPVKVQPIARVWYASEQKQVQYACPSPLIALMSGSQGVSVPDIGELLNYDADNVQYRYKPEAQALRLLIPRLHLWLASE				NA	NA	NA	NA	NA
BMS020_00125	1302	rstB_1		Sensor protein RstB	ATGAAAAAGCTGTTCGTGCAGTTCTACCTTCTGCTCTTCGTCTGCTTTCTGGTGATGACCATGCTGGTGGGCCTGGTCTATAAATTTACCGCTGAACGCGCCGGCCGGCAGTCGCTTGACGATCTGATGAAAAGCTCACTGTATCTGATGCGCAGCGAGCTGCGGGAAATTCCGCCTCGCGACTGGAGCAAGACGCTGAAAGAACTGGATCTTAATCTGTCGTTCGACCTGCACATCGAGCCGATGAGCAAATTCAAATTGTCGGAAAGCTCGATGCAGCACCTGCGCGCCGGGGATATCGTCGCGCTCGACGACCAGTACACCTTTATCCAGCGCATCCCCCGCAGCCACTATGTGTTATCCGTGGGCCCGGTGCCCTATCTCTATTTTCTGCATGAAATGCGTCTCCTGGACGTAGCGCTGATGGCGTTTATCGCTATCTCGCTGGCCTTCCCGGTGTTTATCTGGATGCGTCCGCACTGGCAGGACATGCTGCGCATTGAGACCGCCGCCCAGCGCTTTGGCGAAGGCCACCTCAGCGAGCGTATTCATTTTGACAGCATGTCCAGCTTTGAGCGGCTCGGGGTGGCCTTCAACCAGATGGCTGACAACATTAACGCCCTCATTGCCAGTAAAAAGCAGCTGATTGACGGCATCGCCCATGAGCTCAGAACGCCGCTGGTGCGCCTGCGCTACCGTCTGGAGATGAGCGAAAACCTCACCGAGGCGGAATCGCAGGCGCTGAACCGCGATATCGGCCAGCTGGAGGCGCTCATAGAAGAGCTCCTGACCTACGCCCGTCTCGACCGCCCGCAGACGGAGCTCAGCCTGACCACCCCCGATTTTCCCGCCTGGATCAGCGACCACGTCGAGGATATCCAGATGGTCAACCCGCAGCGCGAAGTCGGCCTGGCGACGCTGACCCGCGGCAACTATGGCGCGCTGGATATGCGGTTGATGGAGCGGGTGCTGGATAATCTGGTGAACAACGCCCTGCGCTACAGCGGTCAGCGGGTGGCGGTCAGCCTGACCCTGCAGGGTTCCCGCGCGTCGTTGCAGGTCGACGATGACGGCCCGGGCATTGCCCCTGAGGAGCGCGAGCGGGTGTTCGAACCTTTTGTTCGTCTTGACCCCAGCCGCGATCGGGCGACCGGAGGCTGCGGCCTCGGCCTGGCCATTGTCCACAGTATCGCCCAGGCGATGGGGGGCGACGTTCGCTGCGAGGCCAGTCCACTCGGCGGCGCCCGCTTCTGCTTTAGCTGGCCAGTCTATCATCAGTTGCCCGATTTTACCTCTGCCTGA	MKKLFVQFYLLLFVCFLVMTMLVGLVYKFTAERAGRQSLDDLMKSSLYLMRSELREIPPRDWSKTLKELDLNLSFDLHIEPMSKFKLSESSMQHLRAGDIVALDDQYTFIQRIPRSHYVLSVGPVPYLYFLHEMRLLDVALMAFIAISLAFPVFIWMRPHWQDMLRIETAAQRFGEGHLSERIHFDSMSSFERLGVAFNQMADNINALIASKKQLIDGIAHELRTPLVRLRYRLEMSENLTEAESQALNRDIGQLEALIEELLTYARLDRPQTELSLTTPDFPAWISDHVEDIQMVNPQREVGLATLTRGNYGALDMRLMERVLDNLVNNALRYSGQRVAVSLTLQGSRASLQVDDDGPGIAPEERERVFEPFVRLDPSRDRATGGCGLGLAIVHSIAQAMGGDVRCEASPLGGARFCFSWPVYHQLPDFTSA	PGPT0015040_498	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-BF-RST_PH|TEMPERATURE|STARVATION_SIGNALLING_SYSTEM,PGPT0015040-rstB-K07639	NA	NA
BMS020_00126	363			hypothetical protein	ATGATGAAATACGTTGTACTTTTGGCACTTACCCTCTTCACGTCACTCTCTGGCTGGGCTTTTTCCCTCGACAACGCCGATATCCGGCTCCTCTGTCCACAGCGCGGGCAAATTAAGGTGCTCCTCCACCGCTATCAACATACCCAGCAATCCTGGGGAGATCACCATTTCGAAACCGGCGGCGGATACGTGCGCCAGGGGCCGCTGCTGGTGATCCCGTTTGCTAATCTTGATCAGATGATTTACCACCAGACCACCGGCGAATTTGCTTACTGGTATGCCGAAGCAAAACAGCTGGTGCGCTGTCGACTGCTGAGCCTGGCCACCCTCTATCCGGTGGATATCCCCTACTATCGCGAGTAG	MMKYVVLLALTLFTSLSGWAFSLDNADIRLLCPQRGQIKVLLHRYQHTQQSWGDHHFETGGGYVRQGPLLVIPFANLDQMIYHQTTGEFAYWYAEAKQLVRCRLLSLATLYPVDIPYYRE				NA	NA	NA	NA	NA
BMS020_00127	717	rstA	COG0745	Transcriptional regulatory protein RstA	ATGAATAAAATCGTTTTTGTTGAGGATGACCCTGAGGTAGGGGCGCTGATCGCCGCCTATCTCGGCAAGCATGATATGGATGTGGTGGTCGAGCCTCGCGGCGACCGCGCAGAGGACGTGATCGCGCGGGAGAAACCGGACCTCGTGCTCCTGGACATTATGCTGCCCGGCAAGGACGGAATGACGCTCTGTCGCGATCTGCGTGGGCAATGGCAAGGGCCGATTGTCCTGCTGACCTCGCTCGACAGCGATATGAACCATATCCTCTCCCTGGAGATGGGCGCCAGCGATTATATCCTGAAAACCACCCCGCCGGCGGTGCTGCTGGCGCGGCTGCGTCTGCATTTGCGCCAGCATATCGCCCCGGCGGGAGCTGGCGCGCCTGCGACGCTCACCCCGCACAAGACCATCTCCTTTGGCTCACTGACCATTGACCCGGTCAACCGCCAGGTGCTGCTCGGCGGAGAAAGCGTCGCCCTGTCTACCGCCGATTTCGATCTGCTGTGGGAGCTGGCTACCCACGCCGGGCAGATTATGGACCGCGACGCCCTGCTGAAAAATTTACGCGGCGTCACCTACGACGGGATGGATCGCAGCGTCGACGTCGCCATTTCGCGCCTGCGCAAAAAACTGCTCGATAACGCCACAGAACCCTACCGGATTAAGACGGTACGCAATAAAGGTTACCTCTTCGCCCCCCACGCCTGGGACAACTGA	MNKIVFVEDDPEVGALIAAYLGKHDMDVVVEPRGDRAEDVIAREKPDLVLLDIMLPGKDGMTLCRDLRGQWQGPIVLLTSLDSDMNHILSLEMGASDYILKTTPPAVLLARLRLHLRQHIAPAGAGAPATLTPHKTISFGSLTIDPVNRQVLLGGESVALSTADFDLLWELATHAGQIMDRDALLKNLRGVTYDGMDRSVDVAISRLRKKLLDNATEPYRIKTVRNKGYLFAPHAWDN	PGPT0015035_364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-BF-RST_PH|TEMPERATURE|STARVATION_SIGNALLING_SYSTEM,PGPT0015035-rstA-K07661	NA	NA
BMS020_00128	336	ydgC	COG3136	Inner membrane protein YdgC	ATGGGGCTGTTAATCAAAGGGCTGCTGGGCGCGCTGGTGGTGGTGCTGATTGGCGTGCTGGCGAAAACCAAAAACTACGCCATCGCCGGACTTGTTCCGCTGTTTCCCACCTTTGCGCTCATCGCCCACTATATTGTCGCCAGCGAGCGCGGTATTGAAGCCCTGCGCACCACTATCGTGTTCGGTATGTGGTCGATCGTTCCCTATTTTATCTATCTGCTGTCGCTGTGGTACTTCACCGGGATCATGCGCCTGCCGTTGGCGCTGGCAGGCGCAGTGGGGTGCTGGGGGCTGTGCGCGTGGCTGTTGATTGTTGGCTGGAGCCGCTTCCACTAA	MGLLIKGLLGALVVVLIGVLAKTKNYAIAGLVPLFPTFALIAHYIVASERGIEALRTTIVFGMWSIVPYFIYLLSLWYFTGIMRLPLALAGAVGCWGLCAWLLIVGWSRFH				NA	NA	NA	NA	NA
BMS020_00129	723	folM	COG1028	Dihydromonapterin reductase	ATGGCTGAACAACAGCCCCGCCCGGTTCTGATCACAGGAGGAGGCCGCCGCATCGGCCTCGCGCTGGCGCACCATTTTCTGCAGCAACACCAGCCGGTGATCGTCAGCTATCGCACGCCCTATCCGGCGATCGAAGACCTGCGCGAAGCGGGCGCCCTCTGTCTGCAGGCCGACTTCAGCAGCGATGACGGCATTCTGACCTTTGCTGAAGCGGTTAAATCGCATACCAGCGGCCTGCGGGCCATCATCCACAACGCCAGCGACTGGATGGCGGAGAAGCCGGGAGTACCGCTCAGCACGGTGATCAACCGCATGATGCAGATCCACGTCCATGCCCCCTATCTGCTCAACCACGCGCTGGAGGAGCTCCTGCGCGGCCACGGCCACGCCGCCAGCGACATTATCCATATCACCGATTACGTGGTGGAGCGCGGGAGCGATAAACATATCGCCTACGCCGCCAGCAAGGCCGCGCTGGACAACATGACCCGCTCCTTTGCCCGCAAGCTGGCTCCGGAGATCAAAGTCAACGCCATTGCGCCGTCGCTGATCATGTTCAATGAAGGTGACGACGAGGCTTATCGTCAGCAGGCGCTGGATAAGTCGCTGATGAAAATCGCCCCGGGCGAGAAAGAGATCAGCGACCTTATCGACTATCTGTTTACCAGCCGCTACGTGACCGGCCGGTCATTCGCCGTCGACGGCGGTCGCCCTCTGCGTTAG	MAEQQPRPVLITGGGRRIGLALAHHFLQQHQPVIVSYRTPYPAIEDLREAGALCLQADFSSDDGILTFAEAVKSHTSGLRAIIHNASDWMAEKPGVPLSTVINRMMQIHVHAPYLLNHALEELLRGHGHAASDIIHITDYVVERGSDKHIAYAASKAALDNMTRSFARKLAPEIKVNAIAPSLIMFNEGDDEAYRQQALDKSLMKIAPGEKEISDLIDYLFTSRYVTGRSFAVDGGRPLR	PGPT0008035_73	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008035-folM-K13938	NA	NA
BMS020_00130	1383	ydgI	COG0531	Putative arginine/ornithine antiporter	ATGGAAAAGAAACTGGGCCTGAGCGCCCTGACCGCCCTGGTCCTCAGCTCAATGCTCGGCGCTGGCGTATTCAGTTTGCCGCAAAATATGGCGGCCGTGGCCAGCCCTTCCGCTCTGCTCATCGGCTGGGCGATTACCGGCGTCGGGATCCTGTTCCTCGCCTTCGCGATGCTGCTGTTGACCCGTATTCGTCCCGACCTCGACGGCGGGATCTTCACCTACGCCCGCGAAGGGTTCGGCGAGCTGATCGGCTTCTGTTCCGCCTGGGGCTACTGGCTGTGCGCGGTGATCGCCAATGTCTCCTATCTGGTGATCGTCTTTTCGGCGCTCAGTTTCTTCACCGATACCCCTGAGCTGCGCCTGTTTGGCGATGGCAACACCTGGCAGTCTATCGTTGGCGCTTCAGTTCTGCTGTGGGTGGTCCACTTCCTGGTCCTGCGTGGCGTGCAGACGGCGGCGGGGATTAACCTGGTCGCCACCCTCGCCAAGCTGTTGCCGCTGGGGGCGTTTGTCGCCCTCGCCGCCCTGGCCTTTCAGCTGGATACGTTCCGCCTCGATTTCAGCGGCCTGGCGCTGGGCGTACCGGTGTGGGAGCAGGTTAAAAACACGATGCTGATCACTCTGTGGGTGTTTATCGGCGTCGAGGGCGCGGTGGTGGTCTCCGCCCGCGCGCGACACAAGCGGGACGTTGGCCGCGCGACGCTGCTGGCGGTGCTTTCGGCCCTCGCGGTGTATCTGCTGGTCACCCTGCTGTCGCTGGGCGTGGTGCCGCGTAGCGAACTGGCCGAAATGCGCAACCCGTCGATGGCGGGACTGATGGTCAGACTGATGGGCTCGTGGGGTGAAATTGTGATTGCCGCCGGGCTTATCGTGTCGGTGTGTGGCGCCTATCTCAGCTGGACGATCATGGCTGCCGAAGTGCCTTACCTCGCCGCTACTCACAAAGCCTTCCCGCGCCTGTTCGCCCGCCAGAACCGCAACAACGCCCCCTCCGCTTCGCTGTGGCTGACCAATATCAGCGTTCAGGCGTCGCTGGTCCTCATCTGGCTGACCGGTTCGGACTACGGCACCCTGCTGACCATCGCCTCAGAGATGATCCTCGTGCCCTATCTGCTGGTCGGCGCCTTTTTGCTCAAAATCGCCACCCGTCCGCTGCATAAAGCGGTGGGTATCGGCGCCTGCATTTATGGCTTATGGTTATTATACGCGTCGGGACCTGTGCATTTGCTGTTGTCGGTGGTACTTTACGCTCCGGGTCTTCTGGTCTTTTTGTACGCCCGACGTACGCACCAGCACGATCGTTCGCTCAAACGCCGCGAATTGGCGCTAATTGGTTTATTGCTGGTTGCCGCTGTGCCGGCAACGTGGATGCTGGTGGGGTAA	MEKKLGLSALTALVLSSMLGAGVFSLPQNMAAVASPSALLIGWAITGVGILFLAFAMLLLTRIRPDLDGGIFTYAREGFGELIGFCSAWGYWLCAVIANVSYLVIVFSALSFFTDTPELRLFGDGNTWQSIVGASVLLWVVHFLVLRGVQTAAGINLVATLAKLLPLGAFVALAALAFQLDTFRLDFSGLALGVPVWEQVKNTMLITLWVFIGVEGAVVVSARARHKRDVGRATLLAVLSALAVYLLVTLLSLGVVPRSELAEMRNPSMAGLMVRLMGSWGEIVIAAGLIVSVCGAYLSWTIMAAEVPYLAATHKAFPRLFARQNRNNAPSASLWLTNISVQASLVLIWLTGSDYGTLLTIASEMILVPYLLVGAFLLKIATRPLHKAVGIGACIYGLWLLYASGPVHLLLSVVLYAPGLLVFLYARRTHQHDRSLKRRELALIGLLLVAAVPATWMLVG	PGPT0020620_1305	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020620-arcD|lysl|lysP-K03758	NA	NA
BMS020_00131	951	ydgH		Protein YdgH	ATGAAGCTTAAAAACACCCTCCTGGCGTCTGCTCTCCTGACAACCGCCACGTTGTCTGCCCACGCAGCGACCGAGTTGACCCCGGAGCAGGCGGCTGCGCTGAAGCCCTACGATCGCGTTGTCGTCACCGGCCGCTTTAATGCCATTGGCGACGCGGTGCAAGCGGTATCGCGCAAAGCTGACAAAGACGGCGCGGCCTCATTCTATGTTGTCGACACGTCGGATTACGGCAATGGCGGCAACTGGCGCGTCACGGCTGACCTCTATAAAGACGACGCGCCGAAAGCGGATGCGCCGAAAAATCGCATCATCAATGGCGTGATGGAGCTGCCGAAAGATCAGGCCGTTGAGCTGATGCCTTACGACACCGTCACCGTCCAGGGCTTCTATCGCAGCCAGCCGGAAGTGAACGACGCCATCACCAAAGCGGCGAAAGCGAAAGGCGCCTATGCGTTCTTCATCGTCCGCCAGGTGGACGCCAACCAGGGCGGCAACCAGCGCATTACCGCCTATATCTACAAAAAAGATGCGGAGAAACGCGTTCTGCAGAGCCCGGACGCTATCCCGGCTGATTCTGAAGCCGGCCGCGCGGCGCTGGCCAAAGGCGGCGAAGCGGCGAAAAACGTCGAAATCCCGGGCGTCGCCACCACCGCGGCGGTTGGCTCCGGCACCGGCGTAGGTCGTTTCTTCGAGACCCAGTCGTCAAAAGGCGGACGTTACACTGTCACGCTGCCGGACGGCACCAAAGTTGAAGAAGTGAACAAAGTGACTGCGGCGCAAATGGTGCCGTTCGATAACATCAAGTTCACCGGCAACTACGGCAACATGACCGAGATCTCCTATCAGACGGCAAAACGCGCGGCGAAGAAAGGGGCGAAGTACTATCACATTACCCGCCAGTGGCAGGAACGCGGCGGCAACATCACCATCAGCGCCGATTTGTACAAATAA	MKLKNTLLASALLTTATLSAHAATELTPEQAAALKPYDRVVVTGRFNAIGDAVQAVSRKADKDGAASFYVVDTSDYGNGGNWRVTADLYKDDAPKADAPKNRIINGVMELPKDQAVELMPYDTVTVQGFYRSQPEVNDAITKAAKAKGAYAFFIVRQVDANQGGNQRITAYIYKKDAEKRVLQSPDAIPADSEAGRAALAKGGEAAKNVEIPGVATTAAVGSGTGVGRFFETQSSKGGRYTVTLPDGTKVEEVNKVTAAQMVPFDNIKFTGNYGNMTEISYQTAKRAAKKGAKYYHITRQWQERGGNITISADLYK				NA	NA	NA	NA	NA
BMS020_00132	1530	pntA_1	COG3288	NAD(P) transhydrogenase subunit alpha	ATGCGTATTGGTGTACCACAAGAAAGGCTAGCCCAGGAGACCCGGGCCGCCGCCACGCCGAAGACCGTTGAGCAGTTGCTCAAACTCGGCTTTAGCGTCGCGGTAGAAAGCGGCGCCGGGAAGCTGGCCAGCTTTGACGATGAGGCCTTTGCCCAGGCAGGGGCTGAAATCGTGACCGGCGACGAGGTGTGGCAGTCTGATGTCATCCTCAAGGTCAATGCCCCGAATGACGATGAAATTGCCCTGTTAAACCCAGGAACCACGCTGATTAGCTTTATCTGGCCGGCGCAAAACCCGCAGCTGATGGAAAAACTGGCGGCCCGTAATATCAACGTGATGGCGATGGATTCGGTGCCGCGTATCTCACGCGCCCAATCGCTGGATGCGCTCAGCTCAATGGCCAATATCGCCGGGTACCGCGCTATCGTTGAAGCGGCCCATGAATTCGGTCGTTTCTTTACCGGCCAGATCACGGCGGCAGGCAAAGTTCCGCCCGCCAAGGTGATGGTTATCGGCGCCGGGGTGGCTGGACTGGCGGCGATTGGCGCCGCCAATAGCCTGGGCGCGATTGTCCGCGCCTTCGATACTCGCCCGGAAGTGAAGGAGCAGGTGCAGAGTATGGGCGCCGAGTTCCTCGAGCTGGATTTTAAAGAGGAAGCGGGCAGCGGCGACGGCTATGCCAAGGTGATGTCCGAAGCCTTTATCAAAGCCGAAATGGCGCTGTTCGCCGCCCAGGCGAAAGAGGTCGATATTATCGTCACCACGGCGTTAATACCGGGCAAACCGGCGCCGAAGCTGATCACCCGGGAAATGGTTGACTCAATGAAGTCGGGCAGCGTGGTGGTCGATCTTGCCTCGCAAAACGGCGGCAACTGCGAGTACACCGTGCCGGGCGAAGTGGTGACCACCGCCAACGGCGTGAAAATTATCGGTTATACCGACCTCCCAGGCCGTCTGCCGACCCAGTCCTCCCAGCTCTACGGCACTAACCTGGTGAACCTGCTGAAGCTGCTGTGCAAAGAGAAAGACGGCAATATCGTTATCGATTTCGATGACGTGGTGGTGCGCGGCGTGACCGTGGTGCGCGAAGGCGAAATCACCTGGCCGGCGCCGCCGATTCAGGTCTCCGCTCAGCCGCAGGCCGCGGCGAAAAAAGTGGAAGCGCCGAAAGAAGAGGTCAAACCGGCGTCGCCGTGGCGCAAATATGCGCTGATCGCGCTGGCGATTATCCTCTTCGGCTGGCTGGCCAACGTGGCGCCTAAAGAGTTCCTCGGCCATTTCACCGTCTTCGCGCTGGCCTGCGTGGTGGGTTACTACGTGGTATGGAATGTCTCCCATGCCCTGCATACGCCGCTGATGTCGGTGACGAACGCCATTTCGGGCATTATCGTGGTTGGCGCATTGTTGCAGATAGGCCACGGCGGCTGGGTCAGCTTCCTGAGCTTTATCGCGGTACTGATCGCTAGCATTAATATTTTCGGTGGTTTTACCGTGACTCAGCGCATGCTGAAAATGTTTCGCAAAGGATAA	MRIGVPQERLAQETRAAATPKTVEQLLKLGFSVAVESGAGKLASFDDEAFAQAGAEIVTGDEVWQSDVILKVNAPNDDEIALLNPGTTLISFIWPAQNPQLMEKLAARNINVMAMDSVPRISRAQSLDALSSMANIAGYRAIVEAAHEFGRFFTGQITAAGKVPPAKVMVIGAGVAGLAAIGAANSLGAIVRAFDTRPEVKEQVQSMGAEFLELDFKEEAGSGDGYAKVMSEAFIKAEMALFAAQAKEVDIIVTTALIPGKPAPKLITREMVDSMKSGSVVVDLASQNGGNCEYTVPGEVVTTANGVKIIGYTDLPGRLPTQSSQLYGTNLVNLLKLLCKEKDGNIVIDFDDVVVRGVTVVREGEITWPAPPIQVSAQPQAAAKKVEAPKEEVKPASPWRKYALIALAIILFGWLANVAPKEFLGHFTVFALACVVGYYVVWNVSHALHTPLMSVTNAISGIIVVGALLQIGHGGWVSFLSFIAVLIASINIFGGFTVTQRMLKMFRKG	PGPT0013500_826	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013500-pntA-K00324	NA	NA
BMS020_00133	1389	pntB_1	COG1282	NAD(P) transhydrogenase subunit beta	ATGTCTGGTGGATTAGTTACAGCTGCATACATTGTTGCTGCAATCCTGTTTATTTTCAGCCTGGCGGGTCTGTCGAAACACGAAACCTCGCAGCAGGGCAACTATTTCGGCATCGCCGGGATGGCCATCGCTCTGATCGCCACCATTCTGGGGCCGGACGCCGGCAACGTCGGCTGGATTATCCTCGCGATGGTGATCGGCGGGGCCATCGGTATTCGTCTGGCGAAGAAGGTCGAAATGACCGAGATGCCGGAGCTGGTGGCCATCCTGCACAGCTTCGTGGGCCTGGCGGCGGTGCTGGTAGGGTTTAACAGCTACCTGCAGCATGAAACCGGTATGGAGCAGATTCTGGTCAATATCCATTTGACCGAAGTGTTCCTCGGCATCTTCATCGGCGCGGTGACCTTCACCGGTTCGGTGGTGGCGTTTGGTAAACTGCGCGGCAAGATCTCCTCCAAACCGCTGATGCTGCCTAATCGCCATAAGCTGAACCTGGCGGCGCTGGTGGTCTCCTTCGTACTGATGGTGATTTTCGTGCGCTCCGACAGCACCGGCACCCAGGTCCTGTGCCTGCTGTTGATGACCGCGATCGCGCTGGCCTTCGGCTGGCACCTGGTGGCCTCTATCGGCGGCGCGGACATGCCGGTGGTGGTCTCTATGCTCAACTCCTACTCGGGCTGGGCGGCGGCGGCGGCGGGCTTTATGCTGAGCAATGACCTGCTGATCGTCACCGGCGCGCTGGTGGGCTCTTCCGGCGCCATCCTCTCTTACATTATGTGTAAGGCGATGAACCGCTCCTTTATCAGCGTGATCGCCGGCGGCTTCGGCACCGATGGTTCCTCCAGCGGCGGCGATGAAGAAGTGGGCGAGCACCGCGAAATTAGCGCCGAAGAGACGGCGGAGATGCTGAAAAATTCGCACTCGGTCATCATCACCCCGGGCTATGGTATGGCGGTGGCCCAGGCGCAGTATCCGGTGGCCGAGATCACCGAGAAGCTGCGGGCGCGCGGCATTAAGGTGCGCTTTGGCATTCACCCGGTCGCCGGCCGTCTGCCGGGGCATATGAACGTCCTCCTGGCGGAGGCCAAGGTGCCTTACGACATCGTGCTGGAGATGGATGAGATCAACGATGATTTCAGCGACACCGACACCGTGCTGGTCATTGGCGCTAACGATACCGTCAACCCGGCGGCGCAGGACGATCCGAAGAGCCCGATTGCTGGCATGCCGGTGCTTGAGGTGTGGAAAGCGCAGAACGTGGTGGTCTTTAAGCGTTCGATGAACACCGGTTACGCCGGCGTACAGAACCCGCTGTTCTTTAAAGAGAACACCCATATGCTGTTTGGTGATGCCAAAGCCAGCGTCGATGCGATCCTGAAAGCGCTGTAA	MSGGLVTAAYIVAAILFIFSLAGLSKHETSQQGNYFGIAGMAIALIATILGPDAGNVGWIILAMVIGGAIGIRLAKKVEMTEMPELVAILHSFVGLAAVLVGFNSYLQHETGMEQILVNIHLTEVFLGIFIGAVTFTGSVVAFGKLRGKISSKPLMLPNRHKLNLAALVVSFVLMVIFVRSDSTGTQVLCLLLMTAIALAFGWHLVASIGGADMPVVVSMLNSYSGWAAAAAGFMLSNDLLIVTGALVGSSGAILSYIMCKAMNRSFISVIAGGFGTDGSSSGGDEEVGEHREISAEETAEMLKNSHSVIITPGYGMAVAQAQYPVAEITEKLRARGIKVRFGIHPVAGRLPGHMNVLLAEAKVPYDIVLEMDEINDDFSDTDTVLVIGANDTVNPAAQDDPKSPIAGMPVLEVWKAQNVVVFKRSMNTGYAGVQNPLFFKENTHMLFGDAKASVDAILKAL	PGPT0013505_2130	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013505-pntB-K00325	NA	NA
BMS020_00134	222			hypothetical protein	ATGTTCCGGTTCTTACATCAGACAGAGGATATTATGGATACCGAGTTAACCCCAACGCAGATGGCCATCGAATTCTTACGCCGCGACACCACCGTCATGACCCCAGCGCAGTATCTGAAAAAACTTAAACTGCTGGAGCTGGAGTTTGCTGACCTGATGGCGCTCTCCTCGCTGGAGCTGAAAGAAGAGATCGATCTGGCCTGGCGTCTGGGTATCCACTGA	MFRFLHQTEDIMDTELTPTQMAIEFLRRDTTVMTPAQYLKKLKLLELEFADLMALSSLELKEEIDLAWRLGIH				NA	NA	NA	NA	NA
BMS020_00135	951	uspE	COG0589	Universal stress protein E	ATGGCGAAGTATCAGAGCATGCTGGTAGTAATCGATCCTAACCAGGACGACCAGCCGGCGCTAAGGCGAGCGGTGTACCTGCACCAACGGATTGGTGGACGCATCAAAGCCTTTTTGCCGATCTATGATTTTTCTTATGAAATGACCACCCTGCTGTCGCCGGACGAACGGACGGCGATGCGTCAGGGCGTCATTGCCCAACGAACGGCCTGGATCCGCGAGCAGGCGAAATTCTATCTTGAATCCGGTGTGCCGATTGACGTGAAAGTGGTGTGGCACAACCGCCCCTTCGAAGCCATTATTCAGGAAGTGATCAGTGAGAAACACGACCTGCTGCTGAAGATGGCCCACCAGCACGACAAGCTGGAAGCGGTGATCTTCACCCCGACCGACTGGCATCTGCTGCGTAAGTGCCCCTGCCCGGTCTGGATGGTGAAAGATCAGCCGTGGCCGGAAGGCGGTAAAGCGCTGGTCGCCGTCAATCTGGCCAGCGAAGAGAATTATCACAACACCCTCAACGAGAAGCTGGTTCGCGAGACGCTGTCGCTGGCGGAAGAAGTCAACCACACAGAAGTACACCTTATCGGCGCCTATCCGGTCACCCCGATCAATATCGCGATTGAGCTGCCGGATTTCGATCCCAGCGTCTACAACGACGCCATTCGCGGTCAGCATCTGCTGGCGATGAAAGCGCTGCGGCAGAAGTTTGGCATTGACGAGAAATTCACCCATGTGGAAAAAGGGTTGCCTGAGGAGGTGATCCCGGATCTCGCCGAGCATCTGCAGGCGGGGATCGTGGTGCTGGGTACGGTCGGACGCACCGGCCTCTCCGCGGCGTTCCTTGGCAATACCGCGGAGCAGGTCGTCGACCACCTGCGCTGCGATCTGCTGGTGCTTAAACCAGAGGCCTATCAGACGCCGGTGGAACTGGACGACGACGACGACGATTAA	MAKYQSMLVVIDPNQDDQPALRRAVYLHQRIGGRIKAFLPIYDFSYEMTTLLSPDERTAMRQGVIAQRTAWIREQAKFYLESGVPIDVKVVWHNRPFEAIIQEVISEKHDLLLKMAHQHDKLEAVIFTPTDWHLLRKCPCPVWMVKDQPWPEGGKALVAVNLASEENYHNTLNEKLVRETLSLAEEVNHTEVHLIGAYPVTPINIAIELPDFDPSVYNDAIRGQHLLAMKALRQKFGIDEKFTHVEKGLPEEVIPDLAEHLQAGIVVLGTVGRTGLSAAFLGNTAEQVVDHLRCDLLVLKPEAYQTPVELDDDDDD	PGPT0014995_185	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014995-uspE-K14055	NA	NA
BMS020_00136	753	fnr_1	COG0664	Fumarate and nitrate reduction regulatory protein	ATGATCCCTGAGAAGCGAATTATTCGACGCATTCAGTCTGGCGGTTGTGCTATCCATTGTCAGGATTGCAGTATCAGCCAGCTCTGCATCCCCTTTACTCTGAACGAGCATGAGCTTGATCAGCTGGATAATATTATCGAGCGGAAAAAGCCCATCCAGAAAGGTCAAACCTTGTTCAAAGCGGGTGATGAGCTGAAATCGTTGTACGCCATTCGCTCCGGGACCATCAAAAGCTACACCATCACCGAGCAAGGCGATGAGCAGATTACCGGCTTCCATCTGGCGGGCGATCTGGTGGGCTTCGACGCCATCGGCACCGGCCTGCACCCGAGCTTCGCCCAGGCGCTGGAAACCTCGATGGTGTGCGAGATCCCCTTTGAAACCCTCGACGATCTTTCCGGAAAAATGCCGAATCTGCGTCAGCAGATGATGCGCCTGATGAGCGGTGAGATCAAAGGCGACCAGGATATGATCCTGCTGCTTTCCAAAAAGAACGCCGAAGAGCGCCTGGCCGCGTTTATCTATAACCTGTCCCGCCGTTTCGCGCAGCGCGGTTTCTCTCCCCGCGAGTTCCGACTGACCATGACCCGCGGCGACATTGGCAACTATCTCGGCCTCACCGTCGAAACCATCAGCCGTCTGCTGGGGCGTTTCCAGAAGAGCGGCATGCTGGCGGTGAAAGGCAAATACATCACCATTGAAAACGGCGACCTGCTGGCCCAGCTGGCCGGTCAGGCGCGCAACGTCGCTTAA	MIPEKRIIRRIQSGGCAIHCQDCSISQLCIPFTLNEHELDQLDNIIERKKPIQKGQTLFKAGDELKSLYAIRSGTIKSYTITEQGDEQITGFHLAGDLVGFDAIGTGLHPSFAQALETSMVCEIPFETLDDLSGKMPNLRQQMMRLMSGEIKGDQDMILLLSKKNAEERLAAFIYNLSRRFAQRGFSPREFRLTMTRGDIGNYLGLTVETISRLLGRFQKSGMLAVKGKYITIENGDLLAQLAGQARNVA	PGPT0000515_771	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000515-fnr-K01420	NA	NA
BMS020_00137	516	ogt_1	COG0350	Methylated-DNA--protein-cysteine methyltransferase	ATGTTGACCTTGCTGCAGGATAAAATGGATACCCCGCTGGGGGCGCTGTGGGTGCTCTGCGACGAACAGTTTAATTTGCGCGCCGTCGAGTGGGACGAGCACCGCGATCGGATGGAAACCCTGCTCGATGTACACTATCGCCGGGAAGGCTATCAGCGCGTCGACTGCCGCAATCCAGGCGGTCTCAGCAGTAAGCTGAACGACTATTTTGCCGGCGACCTGGCCGTTATCGAGACCCTGCCTACCGCCACCGCCGGCACCCCTTTCCAGCGCCAGGTCTGGCGGGCGTTACGCGAAATCCCCTGCGGCCAGGTGATGCACTATGGTCAGCTGGCCGAGGCGCTCGGTCGTCCCGGCGCGGCGCGCGCCGTGGGGGCCGCCAATGGCGCCAACCCGGTGAGTATTGTGGTGCCCTGCCATCGGGTCATCGGGCGTAACGGCACGATGACCGGCTATGCCGGCGGCGTGCAGCGTAAAGAGTGGCTTCTGCGCCACGAGGGCTATCTGTTGCTTTGA	MLTLLQDKMDTPLGALWVLCDEQFNLRAVEWDEHRDRMETLLDVHYRREGYQRVDCRNPGGLSSKLNDYFAGDLAVIETLPTATAGTPFQRQVWRALREIPCGQVMHYGQLAEALGRPGAARAVGAANGANPVSIVVPCHRVIGRNGTMTGYAGGVQRKEWLLRHEGYLLL				NA	NA	NA	NA	NA
BMS020_00138	159			hypothetical protein	ATGCAATATATACTGACTGGCGTAATCGTATTGATCTTCAGCGGCCTGGTTATCCATGGCCTCACGCTGTTGCTCGAACGCGGGTATCGCGCGCTTTTCGGCATCTTCGCCGGAGCCGCGGATCTCCCCCGCAAGGTCAAAGTGAAGGTGCCGCGTTAA	MQYILTGVIVLIFSGLVIHGLTLLLERGYRALFGIFAGAADLPRKVKVKVPR				NA	NA	NA	NA	NA
BMS020_00139	1527	abgT	COG2978	p-aminobenzoyl-glutamate transport protein	ATGAGTATGTCATCCATACCGTCGCCTTCCCCCGCCGGAAAGCGCTATGGCTGGGTAGAGAAGATCGGTAATAAGGTCCCGCACCCGTTTTTGCTGTTTATCTATCTTATCGTGGCGCTGATCGCCGCCACGGCGATACTCTCCGCCTTCAACGTCGGGGTCCAAAACCCTGCGGACGGGTCGCGGGTGGTGGTCAAAAACCTGCTCAGCGTGGAAGGGTTGCACTGGTTTCTACCGAACATGATTAAAAACTTCAGCGGATTCGCGCCGCTGGGGGCGATCCTCGCCCTGGTGCTGGGCGCCGGCTTTGCCGAGCGGGTGGGCCTGTTGCCCGCGCTGATGGTGAAGATGGCCTCCCACGTTAGCGCCCGTTATGCCAGCTATATGGTGCTGTTTATCGCCTTTTTCAGCCATATCTCCTCCGACGCCGCACTGGTGATCATGCCGCCGCTGGGGGCGCTGATGTTTCTCGCCGTCGGTCGGCATCCGGTCGCCGGCCTGCTGGCGGCCATTGCCGGGGTGGGCTGCGGCTTTACCGCCAATTTACTGATCGTCACCACCGACGTGCTGCTCTCCGGGATCAGCACCGAGGCGGCCAAATCCATCGATGCCTCTCTGCACGTCAGCGTGATCGACAACTGGTACTTTATGGCGACCTCGGTGATCCTCCTGACCCTCGTCGGCGGTTTGATCACTGACAAGCTGGTGGAGCCGCGGCTGGGCCAATGGCAAGGCAGTCGTGATGACAAGCTGCAGACCCTGACCGTCGAGGAGCGTTTCGGCCTGCGCATCGCCGGCGTGGCGACGCTGGCGTTCGTGGCGGTCATCGCCCTGATGGTGGTCCCCGAAAACGGCATTCTTCGCGACCCGGTTCAACACACGGTCATGCCCTCGCCGTTTATCAAAGGCATCGTGCCGCTGATCATCTTTTTCTTCTTTGTCGTGTCGCTGGCTTACGGCATCGCCACCGGCAAAATTCGCCGCCAGGCCGATCTGCCGCAGCTGATGATTGAGCCGATGAAAGAGATGGCCGGATTTATCGTGATGGTCTTCCCGCTGGCGCAGTTCGTGGCGATGTTCAACTGGAGCAATATGGGCAAGTTTATGGCCGTTGGCCTGACGGACCTGCTGGAGAGCGCCGGCATGAACGGCGTCCCGGCGTTTGTCGGTCTGGCGCTGCTGTCGGCTTTTCTGTGTATGTTTATCGCCAGCGGCTCGGCCATCTGGTCGATTCTGGCGCCGATCTTCGTGCCGATGTTTATGCTGCTGGGCTTCCACCCGGCGTTTGCGCAGATCCTGTTTCGCATCGCCGATTCATCGGTGCTGCCGCTGGCGCCGGTTTCACCGTTTGTGCCGCTGTTTCTCGGTTTTTTACAGCGCTACCGACCGGACGCCCGCCTCGGGACATACTATTCGCTGGTGCTCCCTTACCCGCTGATTTTTCTCGCCGTCTGGCTGCTGTTGCTGGTGGGCTGGTATCTGGCAGGACTGCCCATCGGCCCTGGCATCTATCCGCGGCTTCCTTAA	MSMSSIPSPSPAGKRYGWVEKIGNKVPHPFLLFIYLIVALIAATAILSAFNVGVQNPADGSRVVVKNLLSVEGLHWFLPNMIKNFSGFAPLGAILALVLGAGFAERVGLLPALMVKMASHVSARYASYMVLFIAFFSHISSDAALVIMPPLGALMFLAVGRHPVAGLLAAIAGVGCGFTANLLIVTTDVLLSGISTEAAKSIDASLHVSVIDNWYFMATSVILLTLVGGLITDKLVEPRLGQWQGSRDDKLQTLTVEERFGLRIAGVATLAFVAVIALMVVPENGILRDPVQHTVMPSPFIKGIVPLIIFFFFVVSLAYGIATGKIRRQADLPQLMIEPMKEMAGFIVMVFPLAQFVAMFNWSNMGKFMAVGLTDLLESAGMNGVPAFVGLALLSAFLCMFIASGSAIWSILAPIFVPMFMLLGFHPAFAQILFRIADSSVLPLAPVSPFVPLFLGFLQRYRPDARLGTYYSLVLPYPLIFLAVWLLLLVGWYLAGLPIGPGIYPRLP				NA	NA	NA	NA	NA
BMS020_00140	1446	abgB	COG1473	p-aminobenzoyl-glutamate hydrolase subunit B	ATGGAACCCATCTTTCAGTTTGTGGACGAGGTGATTGAGGCAAGCCGCGAGACATATTGCGCTATCGCCGATGACATCTGGGATCACCCGGAGACGCGCTTTGAGGAGTTCTGGTCCGCCAGCCGGCTGGCGGACGCCCTGGAAGCGGAAGGTTTTCAGCTTACCCGGGATGCCGGCGGGATCCCCAATGCTTTTATCGCCAGCGTCGGCGAGGGCCAACCGGTTATTGCCCTGCTGGGCGAGTTTGACGCCCTGGCGGGTCTTAGCCAGCAGGCCCACTGCGCGGAGCCGACATCGTCGACGCCGGGGGGCAACGGTCACGGCTGCGGGCACAATCTGCTCGGGACGGCGGCTTTCGCCGCGGCGGTGGCCGCTAAAAAATGGCTGCAGCAGCACGGCGGCGCAGGCACCCTGCGCTTCTACGGTTGCCCGGGAGAAGAAGGCGGCTCGGGCAAAACCTTTATGGTGCGTGAAGGGCTGTTTGATGACGTCGATGCGGCCCTCACCTGGCATCCGGAGGCCTGGGCCGGGATGTTCAGCACCCGCACCCTCGCCAACATTCAGGCGGCGTGGCGCTTTACCGGCACCGCCGCCCACGCCGCCAATTCGCCGCACCTGGGGCGAAGCGCCCTGGACGCGGTCACCCTGATGACCACCGGCAGCAACTTCCTGAATGAACATATTATCGAGAAGGCGCGGGTTCATTACGCCATTACCGATACCGGCGGCGTCTCGCCCAACGTCGTCCAGGCCCAGGCGGAAGTGCTGTATCTGATCCGCGCGCCGGAGATGGCCGACGTGGAACAGATTTTCGCCCGCATTGAGAAGATTGCCCAGGGGGCCGCGCTGATGACCGAGACCCACGTCAGCTGCCGCTTTGAAAAAGCCTGCTCGGGCTATCTGCCCAACCACACGCTCGAAGCGGCGATGTACCAGGCGGTATGCCATTACGGCACGCCGGCATGGAGCGACGACGAGCGCGCCTTTGCCGCAGCGATCCGCGCCACGCTCAGCGACAACGATATCAACAACAGCCTGAACAATATCGCCGGCACCGGCGGCGAGGCGGGAAAAACCTTCGCTCGTCGCCACCGCGACACCCTGCTGATTGAGGAGGTGGCGCCGTGGGCGGCCACGGATACGCTCCTCGCCGGCTCCACCGACGTCGGCGACGTCAGCTGGAAAGCGCCGGTGGCCCAGTGCTTCAGCCCCTGCTTCGCGGTGGGTACCCCGTTGCACAGCTGGCAGCTGGTGAGCCAGGGACGCACCGCCATCGCCCATAAAGGGATGCTGCTGGCGGGGAAAGTCCTCGCGGCGACGGCGATCCGCTTATTCAGCGACCGCGCGCTGCTGGAGGCCAGCCAGCGAGAGCTCAGGCAAGCGCTGGCAGAACATCCCTACCGCTGCCCGATCCCGGCGGAGGTGAGGCCGTCGGTTTTACGCTAA	MEPIFQFVDEVIEASRETYCAIADDIWDHPETRFEEFWSASRLADALEAEGFQLTRDAGGIPNAFIASVGEGQPVIALLGEFDALAGLSQQAHCAEPTSSTPGGNGHGCGHNLLGTAAFAAAVAAKKWLQQHGGAGTLRFYGCPGEEGGSGKTFMVREGLFDDVDAALTWHPEAWAGMFSTRTLANIQAAWRFTGTAAHAANSPHLGRSALDAVTLMTTGSNFLNEHIIEKARVHYAITDTGGVSPNVVQAQAEVLYLIRAPEMADVEQIFARIEKIAQGAALMTETHVSCRFEKACSGYLPNHTLEAAMYQAVCHYGTPAWSDDERAFAAAIRATLSDNDINNSLNNIAGTGGEAGKTFARRHRDTLLIEEVAPWAATDTLLAGSTDVGDVSWKAPVAQCFSPCFAVGTPLHSWQLVSQGRTAIAHKGMLLAGKVLAATAIRLFSDRALLEASQRELRQALAEHPYRCPIPAEVRPSVLR				NA	NA	NA	NA	NA
BMS020_00141	1311	iaaH		Indole-3-acetyl-aspartic acid hydrolase	ATGCCGCAACTTGATGAATACCTGCGCCAGCTGGCGCCAGCCATGACCCAATGGCGCCGCGATTTTCACCTGCACGCTGAATCCGGCTGGCTGGAGTTTCGCACCGCCAGCAAGGTGGCGGAGATCCTCGACGGACTCGGCTACCAGCTGGCGCTGGGGCGTGACGTCATCGATGCCGACAGCCGGATGGGGCTGCCGGATGAGGAGACCCTGACCCAGGCTTTCGAGCGCGCCCGCGAGCAAGGGGCGCCGGAACGCTGGTTGCCGGCGTTTGAAGGCGGGTTCGCCGGCGTGGTGGCGACGCTCGACACCGGACGTCCCGGCCCAACCCTGGCCTTTCGCGTCGACATGGACGCCCTCGACCTCAATGAGCAGCACGATGACAGCCACCGCCCCCATCGCGACCATTTCGCCTCCTGCAACGCCGGCATGATGCACGCCTGCGGCCACGATGGACATACCGCCATCGGGCTGGGTCTGGCGCATGTGCTCAAACAGTATGCCGCCCAGCTCAACGGGGTCATTAAACTGATTTTCCAGCCTGCTGAAGAGGGTACCCGCGGCGCCCGCGCGATGGTGGCCGCCGGCGTGGTGGACGAGGTGGACTATTTCACCGCCATCCATATCGGCACCGGCGTTCCGGTCGGCACCGTGGTGTGCGGTGGGGACAACTTTATGGCCACCACCAAATTCGATGTGCAGTTTAGCGGCGTGGCCGCCCATGCCGGCGGTAAGCCTGAAGATGGGCGCAACGCGCTGCTCGCCGCCGCCCAGGCCGCCCTTGCTCTGCACGCCATCCCACCGCACAGCGCCGGCGCGTCGCGGGTCAACGTTGGGGTGATGCAGGCCGGCACCGGACGCAACGTGGTGCCCTCTTCGGCCCTGTTAAAAGTGGAAACCCGCGGCGAAAGCGAAGCCATCAATCAGTATGTTTTTGACCGGGCGCAGCACGTCATCGCCGGGGCCGCGGCGATGCATCAAGCCGGGTACGAGTTACGCATGATGGGCGCGGCCACCGCCAGCGCCCCGTCGCCGGCGTGGGTGGCGTACCTGCGCGAACAGGCCGCCCTTGTGTCCGGCGTGCAGAAGGCGGTGGATCGCATCGCCGCCCCGGCGGGATCGGAAGACGCCACCCTGATGATGGCCCGGGTCCAGGCGCGCGGCGGCCTCGCCTCGTACATGATATTCGGCACCGAACTGAGCGCCGGTCACCACAACGAGAAGTTTGACTTCGACGAGAGCGTAATGACGGTCGCGGTCGACACCCTGGCGCGCGTCGCGCTTAACTTTCCCTGGCAGCGGGGGGTGTGA	MPQLDEYLRQLAPAMTQWRRDFHLHAESGWLEFRTASKVAEILDGLGYQLALGRDVIDADSRMGLPDEETLTQAFERAREQGAPERWLPAFEGGFAGVVATLDTGRPGPTLAFRVDMDALDLNEQHDDSHRPHRDHFASCNAGMMHACGHDGHTAIGLGLAHVLKQYAAQLNGVIKLIFQPAEEGTRGARAMVAAGVVDEVDYFTAIHIGTGVPVGTVVCGGDNFMATTKFDVQFSGVAAHAGGKPEDGRNALLAAAQAALALHAIPPHSAGASRVNVGVMQAGTGRNVVPSSALLKVETRGESEAINQYVFDRAQHVIAGAAAMHQAGYELRMMGAATASAPSPAWVAYLREQAALVSGVQKAVDRIAAPAGSEDATLMMARVQARGGLASYMIFGTELSAGHHNEKFDFDESVMTVAVDTLARVALNFPWQRGV				NA	NA	NA	NA	NA
BMS020_00142	909	tsaR_1		HTH-type transcriptional regulator TsaR	ATGGCATTTCAGATTAAATTTCATCAAATTCGCGCCTTCGTCGAGGTGGCCCGGGAAGGGAGTATTCGCGGCGCCAGCCGCTCGCTGGCGGTCTCGCAGCCGGCCCTGACCAAAGCGATTAAAGAGCTGGAGGAGGGGCTTTCCGCTCAGCTGTTCGTCCGCCGCCGCCAGGGGGTGGCGCTGACTGACGATGGCGAAAGTTTTTATCAACATGCGAGCCTGATCCTCGAGGAGCTGCGGGCGGCGCAGGATGAACTGCTGCAGCGCCAGGGAGAGCAGGCCGGGCAGATCAATATTGGCCTTGGCGCCAGCGTCGCCCGGTCGCTGATGCCGTCGGTGATCTGCCGCTTTCATCAGCAGCATCCGCAGGTGAAGGTGCGGATCATGGAGGGCCAGCTGCTGGCGATGATCAATGAGCTGCGCCAGGGGGAGCTGGATTTCACCATCAACACCTACTATCCCGGGCCGTACGACCATGAGTTCAGCTTTGAAAAACTGTTTGAGAAACCGTTCGCGGTCTTCGCCCGCGCGGGGCATCCGGCGGCGCAGGCCACCTCGCTGGTGGAGCTGATGGATCACCACTGGACCATGCCGACGCCGCGCGGCAGCTACTTTAAACAGCTGCAGGACCGGTTTAATCAGGCCGGACTGGCGCCAAAGGTGGATATTGTGTGCGAGACCTTCTCGTCGTGCATCAGCCTGGTGGTGAAAAGCGATTTTCTCAGTATCCTGCCGGTGGAGCTCGGCAACGATCCGATGATGGCGGACAAACTGATGATGATCCCCGTCCGCGAAGCGTTGCCGACGGCGGCCTATTTTCTGATCCAGCGGCGCGACACCCGGCAGACGCCGCTAACGGCGTCATTAATCACCCTGTTTCGCCGCCAGAGTCGACAATTGTTTCCTTAA	MAFQIKFHQIRAFVEVAREGSIRGASRSLAVSQPALTKAIKELEEGLSAQLFVRRRQGVALTDDGESFYQHASLILEELRAAQDELLQRQGEQAGQINIGLGASVARSLMPSVICRFHQQHPQVKVRIMEGQLLAMINELRQGELDFTINTYYPGPYDHEFSFEKLFEKPFAVFARAGHPAAQATSLVELMDHHWTMPTPRGSYFKQLQDRFNQAGLAPKVDIVCETFSSCISLVVKSDFLSILPVELGNDPMMADKLMMIPVREALPTAAYFLIQRRDTRQTPLTASLITLFRRQSRQLFP				NA	NA	NA	NA	NA
BMS020_00143	564	smrA_1	COG2840	putative DNA endonuclease SmrA	ATGAACCTTGATGACAAATCCCTGTTTCTTGACGCCATGGAAGATGTCCAGCCCCTGAAACGTAACAATGACGTGCACTGGCATCCCGGGCGCAACAGTCGCGCCCCGCAGCGCGTCGACACCCTGCAACTGGATAATTTTCTCACTACCGGCTATCTCGATATCGTACCGCTCGCCACGCCGCTGGAGTTTAAGCGCGAAGGGCTGCAGAGCGGTGTGCTGGATAAGCTACGGCGGGGGAAATACAGCCAGCAGGCGAGCCTCTCCCTGCTGCGCCAGCCGGTGGAACAGTGCCGGCAGATGCTCTTCGCCTTTATGGTGCAGGCGCAGAAAGAGGGGTTACGCAATGTGCTGATCGTTCACGGCAAAGGCCGCGACGACCAGTCCCATGCCAATATCATCCGCAGCTATCTGGCGCGTTGGCTGGAAGAGCTGCCGGAGGTGCAGGCCTTCTGCGCCGCGCTACCACATCATGGCGGTAGCGGCGCCTGCTATGTCGCGCTGCGTAAATCGGCCGAAGCGAAGCAGGAGACCTGGGAGCGGCACGCCAAGCGCAGCCGTTAG	MNLDDKSLFLDAMEDVQPLKRNNDVHWHPGRNSRAPQRVDTLQLDNFLTTGYLDIVPLATPLEFKREGLQSGVLDKLRRGKYSQQASLSLLRQPVEQCRQMLFAFMVQAQKEGLRNVLIVHGKGRDDQSHANIIRSYLARWLEELPEVQAFCAALPHHGGSGACYVALRKSAEAKQETWERHAKRSR				NA	NA	NA	NA	NA
BMS020_00144	807	pcaR_1	COG1414	Pca regulon regulatory protein	ATGGACAAGCATCCAGACGATTTACTGACCGGCGACGGCGATCCGTTTAAGGGCGATCCTAACTTCATGGCCTCGCTGGCGCGCGGCCTGGAGGTGATTCAGGCATTCACGCCGCAGCGGCCCCTGCTGTCTATCTCACAGATCAGTCAGAAGACCGGCATTCCGCGCGCAGCGGTGCGCCGCTGCCTGTATACCCTGAGCAAGCTGGGGTTCGTTTATGCCGAAGACGGTAAGCATTTTCAGCTGCGGCCGCGGATCCTGGCCCTGGGTCACGCCTGGCTGGCCTCGACGCCGCTGGCGCGTTCGGCGCAGCCGGTGCTGCGGCATCTGAGCGAAATGCTCAATGAATCCTGCTCCATCGCCACCCTCGACGGGGACGATATCCTGTATATCGCCCGCGCTTCCAGTTCGCGGATCATGACCATCGACCTCGATATCGGCAGCCGCCTTCCGGCGTGGGCGACCTCGATGGGTCGGGTGCTGCTCAGCCATCAGCCGGAGGAGAAGCTCAACGACATGCTGGCCCGGGTAACCATGATCCGCTATACCCCGCAGACGGTGGATTCGGTGGCGAAGCTGCGCGCCGAGCTGAAACGGGTGCATCAGCAGGGGTATGCCCTCAACGATCAGGAGCTGGAGATGGGCCTGCGCTCCCTCGCGGTACCGCTGTTTAACGCCCAGGGGCAGGCGCAGGCGGCGCTGAACGTCGGGGTGCATGCGGGCCAGATGTCGGCCCGCGAGATGATCGACCGCGTGCTGCCGGAGCTGCAAAAAGCCGCCCGCGAGCTAACGCTGCTGCTGCGCTAA	MDKHPDDLLTGDGDPFKGDPNFMASLARGLEVIQAFTPQRPLLSISQISQKTGIPRAAVRRCLYTLSKLGFVYAEDGKHFQLRPRILALGHAWLASTPLARSAQPVLRHLSEMLNESCSIATLDGDDILYIARASSSRIMTIDLDIGSRLPAWATSMGRVLLSHQPEEKLNDMLARVTMIRYTPQTVDSVAKLRAELKRVHQQGYALNDQELEMGLRSLAVPLFNAQGQAQAALNVGVHAGQMSAREMIDRVLPELQKAARELTLLLR				NA	NA	NA	NA	NA
BMS020_00145	687	pcaI_1	COG1788	3-oxoadipate CoA-transferase subunit A	ATGATTGATAAAAGCGTATCGACGCTGAGCGAGGCCATCGCCGGGATCCACGACGGGGCGACTATTATGATCGGCGGCTTTGGTCCCGCCGGCCAGCCGACCTTTCTGATTGACGCCCTGATTGACCAGGGCGCCCGCGACCTGACCATCATTAACAACAACGCCGGCAACGGCGAAGTGGGGCTCGCGGCGCTGCTTAAGGCTGGCCGGGTGCGCAAAATGATCTGCTCCTTCCCGCGCCAGGTCGATTCCCAGATTTTCGATGACCTCTATCGCCGCGGCAAAGTGGAGCTGGAGCTGGTGCCGCAGGGCAACCTCGCGGCGCGGATCCAGGCCGCCGGCGCCGGGCTGGGCGCGGTGTTTACCCCCACCGGCTACGGCACGCCGCTGGCGGAAGGCAAGGAGACACGGGAAATCGACGGCCGCCACTATGTGCTGGAGTATCCGATCAAAGCCGATTTCGCGCTGATTAAAGCCCACCAGGGCGACCGCTGGGGCAACCTGGTGTATCGCAAGGCAGCGCGCAACTTTGGCCCGATTATGGCGACGGCGGCGAAAACCACCATCGTTGAAGTCTCGCAGCTGGTGTCGCTGGGCGACCTCGACCCGGAACACATCATCACCCCCGGCATTTTCGTCCAGCGCGTGTTCTCGCTGGAAAACCTGACTGCCGCACAACGCGCCTGA	MIDKSVSTLSEAIAGIHDGATIMIGGFGPAGQPTFLIDALIDQGARDLTIINNNAGNGEVGLAALLKAGRVRKMICSFPRQVDSQIFDDLYRRGKVELELVPQGNLAARIQAAGAGLGAVFTPTGYGTPLAEGKETREIDGRHYVLEYPIKADFALIKAHQGDRWGNLVYRKAARNFGPIMATAAKTTIVEVSQLVSLGDLDPEHIITPGIFVQRVFSLENLTAAQRA	PGPT0005025_450	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005025-pcaI-K01031	NA	NA
BMS020_00146	657	pcaJ_1	COG2057	3-oxoadipate CoA-transferase subunit B	ATGCAAAAACTGACCCGTGACGAAATGGCCCAGCGCGTGGCCCGCGATATCCCCGAAGGCGCTTACGTTAACCTCGGCATTGGCCTGCCGACCCGGATTGCCAACTACCTGCCTGCCGACAAAGAGGTGTTCCTGCACAGCGAGAACGGCCTGCTGGGCATGGGGCCGAAGCCGCAGCCCGGAGAAGAAGATCCCGAGCTGATCAATGCCGGTAAAGAGTACGTCACCCTCCTGCAGGGCGGCTGCTATTTCCACCATGGCGACTCCTTCGCCATGATGCGCGGCGGCCATCTCGATATCTGCGTGCTGGGGGCCTATCAGGTCTCCGCCAGCGGCGATCTCGCCAACTGGAGCACCGGCGCGCCGGACGCCATCCCGGCGGTCGGCGGGGCGATGGATCTGGCCATCGGCGCTCGCCAGGTGTTTGTGATGATGGACCATCTGACCCGCGACGGCGAGTGCAAGCTGGTGGAACAGTGCAGCTACCCGCTGACCGGCGTCGGCTGCGTGAGCCGGATCTATACCGACCTGGCGGTGATCGACATTACCGACCGCGGCCCGGTGGTGCGGGAAATCTTTAACGGTCTCTCTTTTGAAGAGCTGCAGCGCATCACTCCGGTGACGCTGACCTTTGAACAACTGGCGGAAAGCGCGTAA	MQKLTRDEMAQRVARDIPEGAYVNLGIGLPTRIANYLPADKEVFLHSENGLLGMGPKPQPGEEDPELINAGKEYVTLLQGGCYFHHGDSFAMMRGGHLDICVLGAYQVSASGDLANWSTGAPDAIPAVGGAMDLAIGARQVFVMMDHLTRDGECKLVEQCSYPLTGVGCVSRIYTDLAVIDITDRGPVVREIFNGLSFEELQRITPVTLTFEQLAESA	PGPT0005030_344	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005030-pcaJ-K01032	NA	NA
BMS020_00147	1203	pcaF_1	COG0183	Beta-ketoadipyl-CoA thiolase	ATGAATCAGGCATTTATCTGTGATGCGGTGCGTACACCCTTTGGCCGTTTTGGTGGTACCCTGGCGACGATGCGCGCTGACGATCTGGCGGCGCTACCGCTGAAAGCGCTGCTGGAGCGTAACCCGGGACTGGATCCTTCGCGCATTGACGATGTGATCTTTGGCTGCGCCAACCAGGCCGGGGAAGACAACCGCAACGTGGCGCGGATGGCGCTGCTGCTGGCCGGGCTGCCGGAGAGCGTGCCCGGCAGCACCATCAACCGCCTGTGCGGCTCCAGCCTCGATGCGATCGGCGTCGCGGCGCGGGCGATTAAAAGCGGGGAGACGCAACTGATGATCGCCGGCGGCGTGGAGAGTATGTCCCGGGCGCCGTTTGTGATGGGTAAAGCGGAGAGCGCCTTTAGCCGCAGCATGCAGATGGAGGATACCACCATCGGCTGGCGCTTTATTAACCCGCAGATGAAAGCCCTGTACGGCGTGCATTCCATGCCGGAGACGGCGGAAAATGTCGCCGATGAGTTTGCCATTTCCCGCGCCGATCAGGATGCGTTCGCCTTACGCAGTCAACTGCGCACCGCCGCGGCCCAGGAGGCTGGGCGTTTTGCCGATGAGCTGATCGCCGTCCAGGTGCCGCAGCGTAAAGGCGAGCCGCTGCGGTTTAGTCGCGATGAACACCCGCGCAGCACCTCGCTGGAGGCGCTGGCGAAACTGCGCGGCGTGGTGCGCGCCGACGGCAGTGTCACCGCCGGCAACGCCTCAGGCGTTAACGATGGCGCCTGCGCGCTGCTGCTGGCCAGCGAAACCGCGCTGGCGGCCAACGATCTTCAGCCGCTGGCCCGGGTGGTCGGCGTGGCGACGGCGGGGGTGGCGCCGCGCATTATGGGCTTTGGCCCGGCGCCGGCGGTGCGGAAGGTGCTGGCGCAGACCGGTCTGACGTTAGCCCAGATGGATGTGATCGAGCTGAATGAAGCCTTCGCCGCCCAAGCGCTGGCGGTGACCCGTGATTTGGGCTTACCGGACGATGCCGCCCATGTGAACCCCAACGGCGGGGCGATCGCCCTGGGGCATCCGCTCGGCGCCTCCGGCGGCCGCCTGGCGATGACCGCAGCTTACCAGCTGAAACGGACCGGCGGCCGCTACGCGCTGTGCACCATGTGCATCGGCGTCGGGCAGGGGATCGCCCTGATTATTGAACGTGTTTAA	MNQAFICDAVRTPFGRFGGTLATMRADDLAALPLKALLERNPGLDPSRIDDVIFGCANQAGEDNRNVARMALLLAGLPESVPGSTINRLCGSSLDAIGVAARAIKSGETQLMIAGGVESMSRAPFVMGKAESAFSRSMQMEDTTIGWRFINPQMKALYGVHSMPETAENVADEFAISRADQDAFALRSQLRTAAAQEAGRFADELIAVQVPQRKGEPLRFSRDEHPRSTSLEALAKLRGVVRADGSVTAGNASGVNDGACALLLASETALAANDLQPLARVVGVATAGVAPRIMGFGPAPAVRKVLAQTGLTLAQMDVIELNEAFAAQALAVTRDLGLPDDAAHVNPNGGAIALGHPLGASGGRLAMTAAYQLKRTGGRYALCTMCIGVGQGIALIIERV	PGPT0001565_1682	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
BMS020_00148	1353	pcaB_1	COG0015	3-carboxy-cis,cis-muconate cycloisomerase	ATGAGTTTGTTGACCCCGATGCTGCGCAGCAGTCCGCTCACCGACTGGTTCAGCGACGCGCAGCGGGTGCAGGGCATGCTGGATTTTGAAGCGGCGCTGGCCCAGGCGCAGGCCGCCTGCGGGATGGTGCCGGCGGCGGCGGTCGGGCCGATTGTCGCGGCCTGCCGCCACGAGGCGATCGATTTTACCGCCCTGGGCGAGGCGGCTGTGGGGGCGGGTAATCTGGCGATCCCGCTGGTGAAACAGCTGACGGCCCAGGTAAAAGCGCGGGATCCAAACGCCGCGCGCTACGTTCACTGGGGCGCCACCAGTCAGGATGCTATCGACACCGGGCTGGTGCTCCAGCTGCGCGGGGCGCTGGATGCCGCCGAGCAACTGCTTGAGCGACTGTTGGCGGCCCTCGCCGGGCAGGCCGACCGTCATTGCCACAGCGTGATGCCGGGCCGGACCTGGATGCAGCATGCGCTGCCGGTGACCTTTGGTCTGAAGCTGGCGGGCACTCTCGACGCGCTGCTGCGCTGGCAGCAGCGGCTGCGGGAGATGCGTCCGCGTCTGCTGGTGCTGCAGTTCGGCGGCGCCGCGGGGACCCTGGACGCGCTGAAAGCGCAAGGACCGGCGGTTGGCCAGGCGCTGGCGCAGAACCTCGGTCTGTCGCTGCCGGATACCCCGTGGCACAGCCAGCGCGATCGGCTGCTGGAGGCAGGCGCCTGGTTCGCTGGCGTCTGCGGCACCCTGGGGAAATTCGCTAACGACTTCTCCCTGCTGATGCAGACCGAAGTGGCGGAGGTGGGCGAGCCGGTAGCGGAAGGGCGCGGCGGCTCGTCGACGATGCCGCATAAGCGCAATCCGGTGGCCTGCGCGGCGATCCTGACCGCCGCCCAGCGCACCCCGGGTCTGATGGCCACCCTCTACGCCTGCCAGATTCAGCAGCACGAGCGGGCGCTGGGCGGCTGGCAGGCGGAGTGGGAGACCCTGCCGGAGCTGATTACCCTGGTGGGCGGGGCGCTGGCGCAAAGCGAGGCGCTGGTGCGCGACATGCAGGTCTTCCCGCAAAAGATGCGTGCCGACCTCGATATCACCCACGGGCTGATCATGGCTGAGGCGGTGACCCTGGCGCTGGCGGAATGCATCGGCAAAGCTGAGGCGCACCATCATATTGAGGCGCTGTGCCGTCAGGCGCTGGACCGCCACTGCCCGCTGGTCGATCTGCTCGCGGCAGACCCGCAGGTTAGTCAGTATCTCTCCCGCGAACGCTTAACCACGCTGCTGGACCCGGCAACGGCGACCGGCAGCGCCGAACGCTTTGTGCGCCAAGTGCTGGCGCGTTATCAGGAGCAACATGATGAATCTTGA	MSLLTPMLRSSPLTDWFSDAQRVQGMLDFEAALAQAQAACGMVPAAAVGPIVAACRHEAIDFTALGEAAVGAGNLAIPLVKQLTAQVKARDPNAARYVHWGATSQDAIDTGLVLQLRGALDAAEQLLERLLAALAGQADRHCHSVMPGRTWMQHALPVTFGLKLAGTLDALLRWQQRLREMRPRLLVLQFGGAAGTLDALKAQGPAVGQALAQNLGLSLPDTPWHSQRDRLLEAGAWFAGVCGTLGKFANDFSLLMQTEVAEVGEPVAEGRGGSSTMPHKRNPVACAAILTAAQRTPGLMATLYACQIQQHERALGGWQAEWETLPELITLVGGALAQSEALVRDMQVFPQKMRADLDITHGLIMAEAVTLALAECIGKAEAHHHIEALCRQALDRHCPLVDLLAADPQVSQYLSRERLTTLLDPATATGSAERFVRQVLARYQEQHDES	PGPT0005000_720	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005000-pcaB-K01857	NA	NA
BMS020_00149	768	catD_1	COG0596	3-oxoadipate enol-lactonase 2	ATGAATCTTGATTATCAACTCGACGGACCGGAAGGTGCGCCGGTTATCGTTCTCTCCAACTCGCTGGGTACCACCCGGGCGATGTGGCAGCCGCAGACAGAGGCGTTAACCGCCCATTTCCGGGTGCTGCGCTACGACACCCACGGCCACGGTAAAACGACGAAAAATGGCAAAGTGACCCTCGCCCAGCTGGGAGAAGATGTGATTGCGCTGCTCGATCATCTGAATATCGACCGCGCCTGGTTCTGCGGGATCTCGATGGGCGGTCTGACCGGTCTGTGGCTGGGCCGCTTTGCGCCAGAGCGTTTTTATGGTCTGGCCGTCGCGAACACCGCGGCGCGCATCGGCGATCAGGCCAGCTGGCTGTCGCGGGCGCGGGCGGTACGCCAGGAGGGAATGGCGGTGGTGGCCGCCGGGGCGGCGGATCGCTGGTTCACCCACGCGTTTCGCCAGAAGGCGCCGGAGGTGGTGGAGGCCCTGTGTCACCAGCTGACCCATACCGACGCCGAAGGCTATGCCGCCTGCTGTGAGGCGCTGGCCGCCGCCGACCTGCGGGGCGAAGTAGGGCAGATCCCGCTGCCGACGTTAATCATCGCCGGTGAAAGTGACCCTGTCACCACGGTCGGTGACGCTAATTTCCTGCAGCAGCAGATCCCCGCTTCCCAGGTGGTAGTTCTGCCGGCATCGCATCTGTCAAACATTGAGGCGGCGAAAAGCTTTACTTCAGCGCTGCTGAGCTTTTTCCAGGGAGAACGCCATGGAGGATAA	MNLDYQLDGPEGAPVIVLSNSLGTTRAMWQPQTEALTAHFRVLRYDTHGHGKTTKNGKVTLAQLGEDVIALLDHLNIDRAWFCGISMGGLTGLWLGRFAPERFYGLAVANTAARIGDQASWLSRARAVRQEGMAVVAAGAADRWFTHAFRQKAPEVVEALCHQLTHTDAEGYAACCEALAAADLRGEVGQIPLPTLIIAGESDPVTTVGDANFLQQQIPASQVVVLPASHLSNIEAAKSFTSALLSFFQGERHGG	PGPT0004995_2271	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
BMS020_00150	390			hypothetical protein	ATGGAGGATAAACAGCGCTATCAGGACGGGTTGGCGGTGCGGCGCAAAGTACTGGGTGACGCCCACGTCGACCGTACGCTGCAGCATCTGACGCCGTTGAACGAAGAGTTTCAGGACTTTATCACCCGCTACGCCTGGGGTGAGACCTGGACCCGTCCGGGGCTCGACCACCACACCCGCAGTATGATTACCATTGCCATGCTGATTGCTCTCAATCGCGAGGCGGAGCTGAAGATGCATCTGCGCGCGTCGTTTAACAACGGGGTGACCCGTGATGAGCTGAAAGAGTTGATCATGCACTCTGCGCTGTACTGCGGACTGCCGGCGGCCAATGCCACGATGCATCTGGCGCAGCAGGTGTTTGACGACATTGACGCCGCGCAGGGTTGA	MEDKQRYQDGLAVRRKVLGDAHVDRTLQHLTPLNEEFQDFITRYAWGETWTRPGLDHHTRSMITIAMLIALNREAELKMHLRASFNNGVTRDELKELIMHSALYCGLPAANATMHLAQQVFDDIDAAQG	PGPT0005005_3096	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005005-pcaC-K01607	NA	NA
BMS020_00151	1653	fumB_1	COG1838	Fumarate hydratase class I, anaerobic	ATGTCGACTAAACCGTTTGTTTATCAGGATCCGTTCCCGCTGGCGCACGACGATACCGAATACTATCTGCTCAGCAAAGCGCACGTCTCCGTCGCCGAATTTGACGGCCAGGAAGTGCTGAAAGTGGAACCGCAGGCGCTGACCCTGCTGGCGCAGCAGGCCTTCCACGACGCCGCCTTTATGCTGCGCGTCTCCCATCAGCAGCAGGTCGCGTCGATTCTGCTCGACCCGGAGGCCAGCGATAACGATAAATATGTCGCCCTGCAATTCCTGCGCAACTCGGAAATCGCCGCCAAAGGCGTCCTGCCCACCTGTCAGGACACCGGCACCGCCATCATCATGGGTAAAAAAGGCCAGCGCGTCTGGACCGGCGGCGGCGACGAAGCCGCCCTGGCGCAGGGCGTGTACAACACCTATACCGAAGATAACCTGCGTTACTCGCAGAACGCCCCGCTGGATATGTATAAAGAGGTCAACACCGGCACCAACCTGCCGGCGCAGATCGATCTCTACAGCGTCGACGGCGACGAATATAAATTCCTGTGCATGGCGAAAGGCGGCGGTTCCGCCAATAAAACCTATCTCTATCAGGAAACCAAAGCGCTGATCACCCCGGCGAAGCTGAAAAACTATCTGGTGGAGAAGATGCGTACCCTTGGCACGGCGGCCTGCCCGCCGTACCATATCGCCTTTGTCATCGGCGGCACCTCGGCGGAAGCGACGCTGAAAACCGTCAAGCTGGCCTCCACCCGCTACTACGACGGTCTGCCAACCGAAGGCAACGAGCACGGTCAGGCGTTCCGCGATGTGCAGCTTGAGCAGGAACTGCTGCAGGAAGCGCAAAACCTCGGCCTCGGCGCGCAGTTCGGCGGCAAATACTTCGCCCACGATATCCGGGTGATCCGCCTGCCGCGCCACGGCGCCTCCTGTCCGATCGGCATGGGCGTCTCCTGCTCCGCCGACCGCAACATCAAAGCCAAAATCAACCGCGACGGTATCTGGATTGAGAAACTGGAGAGCAATCCAGGAAAATATATCCCTGAACATCTGCGTCAGCAGGGCGAAGGCAAGGTGGTCAGCATCAACCTGAATCAGCCGATGAGCGAGATCCTGGCGCAACTGTCCGCCCATCCGGTTTCCACCCGCCTGAGTCTCAACGGCACTATTATCGTCGCTCGCGATATCGCCCACGCCAAGCTGAAAGAGCTTATCGATAATGGCGAGGAACTGCCGCAGTACGTGAAAGATCACCCGATCTACTACGCCGGCCCGGCCAAAACGCCTGCCGGTTACGCCTCCGGATCCCTCGGCCCGACCACCGCAGGCCGCATGGACTCTTACGTCGATCTGCTGCAATCCCATGGCGCGAGCATGGTGATGCTGGCGAAAGGCAACCGCAGCCAGCAGGTCACCGACGCCTGCCACAAACACGGCGGCTTCTACCTCGGTAGCATCGGCGGCCCGGCGGCGGTGCTGGCGCAACAGAGCATCAAGAGCCTTGAGTGCGTGGCGTATCCGGAACTGGGGATGGAGGCGATCTGGAAAATCGAAGTGGAAGATTTCCCGGCGTTTATTCTCGTCGATGATAAAGGCAACGATTTCTTCCAGCAGATCCAGAACAAGCAGTGCGCCGGCTGTAAACAGCACGGCTAA	MSTKPFVYQDPFPLAHDDTEYYLLSKAHVSVAEFDGQEVLKVEPQALTLLAQQAFHDAAFMLRVSHQQQVASILLDPEASDNDKYVALQFLRNSEIAAKGVLPTCQDTGTAIIMGKKGQRVWTGGGDEAALAQGVYNTYTEDNLRYSQNAPLDMYKEVNTGTNLPAQIDLYSVDGDEYKFLCMAKGGGSANKTYLYQETKALITPAKLKNYLVEKMRTLGTAACPPYHIAFVIGGTSAEATLKTVKLASTRYYDGLPTEGNEHGQAFRDVQLEQELLQEAQNLGLGAQFGGKYFAHDIRVIRLPRHGASCPIGMGVSCSADRNIKAKINRDGIWIEKLESNPGKYIPEHLRQQGEGKVVSINLNQPMSEILAQLSAHPVSTRLSLNGTIIVARDIAHAKLKELIDNGEELPQYVKDHPIYYAGPAKTPAGYASGSLGPTTAGRMDSYVDLLQSHGASMVMLAKGNRSQQVTDACHKHGGFYLGSIGGPAAVLAQQSIKSLECVAYPELGMEAIWKIEVEDFPAFILVDDKGNDFFQQIQNKQCAGCKQHG	PGPT0001635_393	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
BMS020_00152	1437	ttdT	COG0471	L-tartrate/succinate antiporter	ATGATGGCGCTGCCGATTATCGTTGCCGTGCTGTTACTCTTCGTCCCGGTCCCGGACGGCCTGCCGCCGTACGCCTGGCACTACTTCGCTATCTTCGTCGGTGTGATCGTCGGGTTGATTTTTGAACCACTGCCTGGCGCCGTTATCGGCATCACCGGCGTGGTGGTCATCGCCCTGTGCAGTCAGTGGCTGCTGTTCAGTCCGGAACAGATGGCCGCACCTGGCTTCAAAATGGCCGGCGCCTCCTTTAAGTGGGCGGTGAGCGGCTTCGGCAACTCCACCGTGTGGCTTATCTTCGGCGCCTTTATGTTCGCCGCCGGCTACGATAAAACCCAGTTCGGCCGCCGCCTGGCGCTGATTCTGGTGAAATATCTCGGCCGTCGCAGCCTGACGCTGGGCTACGCCATCACCTTCGCGGATCTGCTGCTGGCGCCGTTTACGCCGTCGAATACCGCGCGCAGCGGGGGCACCATCTACCCGATTATCGCCAACCTGCCGCCGCTGTACGGTTCAAAACCAAACGATCCGAGCGCGCGTAAAATCGGTTCCTATCTGATGTGGGTAGCGATCACTGCCGCCTGTATCACCAGCTCGATGTTCCTGTCAGCACTGGCGCCGAACCTGCTGGCGCTGGCGCTGGTAAAAAGCATCGTCGGTATCAACATCTCCTGGGGCACCTGGTTCATCGCCTTCCTGCCGCTTGGCGTACTGCTGATCCTGACTATGCCGCTGCTGGCCTACTGGTTCTACCCGCCGGAAGTGAAAGTCAATAACGAAGTGCCGCTGTGGGCCGCTCGTGAACTGGAAAAACTGGGCAAACTGTCGCGCAATGAGATCCTGCTGCTGGTGTTCGTCTGCTTCGCGCTGATGATGTGGATCTTCGCCGCCGACTGGATTGAACCGGCTCTGGCCGCCCTGCTGGTTATCGTGCTGATGCTGTGGACCGGCGTGCTCTCCTGGAGCGATATCACCAACAACAAAGCGGCGTGGAACACCTTTGTCTGGTTCGCCACCCTGGTGGCGCTGGCCGACGGCCTCTCCTCTACCGGCTTTATCGCCTGGCTGGGTAAAGAGGGCGGCGCGCTGATGAGCGGTATCTCCCCGGGGATGGCGACCATCGTCCTGTTGCTGGCGTTCTACCTGCTGCACTATCTGTTTGCCAGCACCACCGCGCACACTACCGCGCTGCTGCCGGCCATGCTGACCATCGCCGCCACCATTCCGGGGATGAATATGGAAGTGTTCGTTCTGCTGATGGTCACCTCGCTGGGCGTGATGGGGATCATCACCCCGTACGGTACCGGCCCAAGCCCGATCTACTACGGCAGCGGCTATCTGCCGACCAAAGATTACTGGCGCCTCGGTACCATCTTTGGCGCCATCTTCCTGGCCGCCCTGCTGCTGATTGGCTATCCGTGGATGTCCATGATGTTCTGA	MMALPIIVAVLLLFVPVPDGLPPYAWHYFAIFVGVIVGLIFEPLPGAVIGITGVVVIALCSQWLLFSPEQMAAPGFKMAGASFKWAVSGFGNSTVWLIFGAFMFAAGYDKTQFGRRLALILVKYLGRRSLTLGYAITFADLLLAPFTPSNTARSGGTIYPIIANLPPLYGSKPNDPSARKIGSYLMWVAITAACITSSMFLSALAPNLLALALVKSIVGINISWGTWFIAFLPLGVLLILTMPLLAYWFYPPEVKVNNEVPLWAARELEKLGKLSRNEILLLVFVCFALMMWIFAADWIEPALAALLVIVLMLWTGVLSWSDITNNKAAWNTFVWFATLVALADGLSSTGFIAWLGKEGGALMSGISPGMATIVLLLAFYLLHYLFASTTAHTTALLPAMLTIAATIPGMNMEVFVLLMVTSLGVMGIITPYGTGPSPIYYGSGYLPTKDYWRLGTIFGAIFLAALLLIGYPWMSMMF	PGPT0001495_15	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_CITRATE_TRANSPORT,PGPT0001495-citT-K09477	NA	NA
BMS020_00153	2778	namA_1		NADPH dehydrogenase	ATGACCAGTAACGAACGAATTCTGCAGCCATTTACTTTACCAAATGGTACGGAGCTGAAAAACCGTTTGCTCATGGCGCCGATGACCACCTGCACCGGTTATTTCGATGGGACTGTCACCAGCGAGCTGGTGGAGTACTATCGCGCTCGCGCCGGCAGCATCGGCACCATTATTGTCGAGTGCTGCTTTATTGATGACTACGGCCTGGCCTTCCCGGGTGCTATCGGTATCGATAACGATGAAAAAATCGCCGGCCTGGCGAAAATCGCCGAAGCGATTAAAGCGGAAGGTTCGAAAGCGATTCTGCAGATCTATCACGGCGGCCGCATGGTCGACCCGCAGCTGATCGGCGGTCGCCAGCCGGTGGCGCCGAGCGCTATCGCCGCCCCGCGTGAGGGCGCCGCGATGCCGCGGGCGCTGAGCGGAGACGAAGTGGAAGGCATGATCGCCAAGTTTGGCGATGGGGTCCGTCGCGCTATCCTCGCCGGTTTCGACGGGGTCGAAATTCACGGGGCTAACACCTATCTCATTCAGCAGTTCTATTCGCCGAACTCCAACCAGCGCGACGATGAGTGGGGCGGTAGCCGCGACAATCGCGCTCGTTTCCCGCTGGCGGTGCTCGACATCACCCATAAAATGGCCCGCCAGTACGCTGACGATGCCTTTATCATCGGTTACCGCTTCTCGCCGGAAGAGATGGAGGTCCCGGGGATCCGCTTCGACGACACCATGTATCTGCTGGAAAAACTGGCCGCTCGCGGCGTCGATTATCTGCACTTCTCGGTGGGCGCGACTCTGCGTCCCTCTATCGTTGATACCTGCGACCCAACGCCGCTGATTGAGAAATACTGCGCCATGCGCTCTGACACTCTGGCTCAGGTGCCGGTGATGGGCGTCGGCGGGGTGGTTAACGTCGCCGATGCCGAGCTGGGCCTCGATCACGGCTATGACCTGATCGCCGTGGGCCGCGCCTGCATCGCCTATCCGGACTGGGCGGCTCGTATCGCCGCGGGTGAAGAGCTGGAGCTGTTTATCGACAGCACCCAGCGCGAGGCGCTGCACATTCCGGAACCGCTGTGGCGCTTCTCGCTGGTGGAAGCGATGATCCGCGACATGAGCATGGGCGACGCCAAATTTAAGCCGGGGATGTTTGTTGAAACCGTTCAGGATGACGCCAATGAGCTGGTGATCAACGTCAGCCTCGAAAATGACCATATCGCCGATATCGAACTGGCGGCGAGCCCGGCGCAGACCGTGGAGTTCACCACCAGCTTCGAAGAGATCCGCGAACGTATTCTGACCGCCAATACCCCGCACGTGGACGCTATTTCCGGGGCCACCAGCCAGAGCGAGGCGGTGAAAAAAGCGGTCGCCAAAGCGATGCTGAAATCGAGCAAAGCGCTGGCGGCGGAAGAGGGCGGCAATGACGCCGCGCCGAAAAGCTATGATGTGGTGGTGGTCGGCAGCGGCGGCGCCGGTCTGGCGGCCGCCATTCAGGCTCACGACGAAGGCGCCAGCGTGCTGATCGTCGAGAAAATGCCGACCATTGGCGGGAATACCATCAAGGCTTCCGCCGGGATGAACGCCGCGGAGACCCGCTTCCAGCGCGTGAAAGGCATTCAGGACAGCAAAGAGCTGTTCTATCAGGAAACCCTGAAAGGTGGGCACAATAAAAACAACCCGCAGCTGCTGCGCCGCTTCGTGGAGAATGCCCCGCAAGCCATTGAATGGCTGGCTGACCGCGGCATTATGCTCAACGATATCACCACCACCGGCGGGATGAGCATTGACCGCACCCACCGTCCGCGCGACGGGTCAGCGGTCGGCGGCTATCTGATTAGCGGCCTGGTGCGCAACATCACCAAACGCGGCATCGACGTCCTGCTGGATACCTCGGTGGAGGAGATCCTGATGAGCGGCGATGAAGTCAGCGGCGTGCGTCTGATCAACGACGAAAACGAGATCATTGAAGTCCAGAGCAAAAGCATTGTGGTGGCCACCGGCGGCTTCAGCGCCAACAGCGCGATGGTGGTGAAGTATCGTCCTGACCTCGAAGGGTTCGTCACCACCAACCACAAAGGGGCCACCGGGAGCGGTATCGCGCTGCTGGAGCGTATCGGCGCCGACACGGTGGATATGGGCGAAATTCAAATTCACCCGACCGTTGAACAGCAGACCTCCTATCTGATTTCCGAGTCGATTCGCGGCGGTGGGGCGATCCTCGTCAACCAGCAGGGTAACCGCTTCTTCAACGAAATGGAGACCCGCGATAAAGTCTCCGCGGCGATTATCGCCCTGCCGGAACACTATGCGTACATCGTCTTTGACGAACATGTACGGGCGAAAAACAAAGCCGCCGATGAGTACATCGCCAAAGGCTTCGTCACCAGCGCCAGCTCGCCGCGTGAACTGGCGGAGAAACTGGGGATGGATTACCATGCCTTCCTCGCCACCCTCGAGTGCTACAACGGGGCGGTGGAAAAACAGCATGATGAACAGTTTGGCCGTACCACCGCGCTGCGCGCGCCGATTAACGAAGGTCCGTTCCACGCCATTCGTATCGCCCCGGGGGTGCACCACACCATGGGCGGCGTGACCATTAACACCGATGGCGAAGTGCTGAACGTTGCCCGGCAGCCGATCCGCGGCGCCTACGCCGCCGGTGAGGTGGTTGGCGGGATCCACGGCGGCAACCGTATCGGGGGTAACGCGGTGGCGGATATCATCATCTTCGGCACCCTCGCGGGCCACCAGGCGGCGAAACGCGCCAGAGGATAA	MTSNERILQPFTLPNGTELKNRLLMAPMTTCTGYFDGTVTSELVEYYRARAGSIGTIIVECCFIDDYGLAFPGAIGIDNDEKIAGLAKIAEAIKAEGSKAILQIYHGGRMVDPQLIGGRQPVAPSAIAAPREGAAMPRALSGDEVEGMIAKFGDGVRRAILAGFDGVEIHGANTYLIQQFYSPNSNQRDDEWGGSRDNRARFPLAVLDITHKMARQYADDAFIIGYRFSPEEMEVPGIRFDDTMYLLEKLAARGVDYLHFSVGATLRPSIVDTCDPTPLIEKYCAMRSDTLAQVPVMGVGGVVNVADAELGLDHGYDLIAVGRACIAYPDWAARIAAGEELELFIDSTQREALHIPEPLWRFSLVEAMIRDMSMGDAKFKPGMFVETVQDDANELVINVSLENDHIADIELAASPAQTVEFTTSFEEIRERILTANTPHVDAISGATSQSEAVKKAVAKAMLKSSKALAAEEGGNDAAPKSYDVVVVGSGGAGLAAAIQAHDEGASVLIVEKMPTIGGNTIKASAGMNAAETRFQRVKGIQDSKELFYQETLKGGHNKNNPQLLRRFVENAPQAIEWLADRGIMLNDITTTGGMSIDRTHRPRDGSAVGGYLISGLVRNITKRGIDVLLDTSVEEILMSGDEVSGVRLINDENEIIEVQSKSIVVATGGFSANSAMVVKYRPDLEGFVTTNHKGATGSGIALLERIGADTVDMGEIQIHPTVEQQTSYLISESIRGGGAILVNQQGNRFFNEMETRDKVSAAIIALPEHYAYIVFDEHVRAKNKAADEYIAKGFVTSASSPRELAEKLGMDYHAFLATLECYNGAVEKQHDEQFGRTTALRAPINEGPFHAIRIAPGVHHTMGGVTINTDGEVLNVARQPIRGAYAAGEVVGGIHGGNRIGGNAVADIIIFGTLAGHQAAKRARG	PGPT0001115_85	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001115-frdA-K00244	NA	NA
BMS020_00154	951	apbE_1	COG1477	FAD:protein FMN transferase	ATGTCTGATAACCGCGTCTATAGCTACTCCGCCGTTCTGATGGGTTCTCCCATCCTGCTCAAACTCTGCTCCCATGATGAGGCGCTGGCCTCCCGCGTATTTCAGTTAATCAAGCGCTACGAAGATCTGCTTACCGTTAACCGCGCCGAGTCCCAGGTGATGGATATCAACCACGCCGCCGGACGTCACCCGGTGACCGTCAGCCGCCCGGTCTTTCAGCTCATTCAGTGCGCCAAAGCCGCCAGCATGGTGCGCGACAGCGCCTTTAACCTCGCGATTGGGCCGCTGGTGAAGCTGTGGCGGATTGGCTTTCAGGGACACAGCGTGCCTGACGCCGGCGAAATCAGGGCCCGGCTGGCGCTGACCCGCCCGCAGGAGGTGATCCTTGATGAGGCAACCTGCAGCGTGTTTCTTCAGCAGCCGGGGATGGAGCTGGATCTTGGGGCGATCGCCAAAGGCTATATCGCTGACCGGGTGCGTGATTATCTGCGTCAGCAGCAGGTGGAAAGGGCGCTGATCAACCTCGGCGGCAATGTGCATACCCTCGGCGAATGGGCTATTGGCCTGAAAAAACCGTTTGCCGATGCGCAGGCGCTGATCGGCTCCCTGACGGTCAACGGACAGTCGGTAGTCACCTCGGGCACCTACGAACGTTATTTCGAGCAGGACGGCAAGCGCTGGCACCATATTCTCGACCCGCGCAGCGGTTACCCGCTGGACAACGAACTCGACAGCGTCACGGTGATTTCCAGCGATTCTTTAGACGGCGATATCTGGACCACGCTGCTGTTCGGCCTCGGCGTCGAGAAAGGCTGCGCAGCGTTGCGTCAGCGGCAGGATATCGACGCGATTTTCGTCACCAAAAATCGCGACATTATACTGTCAGCGCCGCAGCGCTTGCGCTTTGCGTCGCTGGACAGCGGCTACCGCGTTACTGACTGTACTGCTTAA	MSDNRVYSYSAVLMGSPILLKLCSHDEALASRVFQLIKRYEDLLTVNRAESQVMDINHAAGRHPVTVSRPVFQLIQCAKAASMVRDSAFNLAIGPLVKLWRIGFQGHSVPDAGEIRARLALTRPQEVILDEATCSVFLQQPGMELDLGAIAKGYIADRVRDYLRQQQVERALINLGGNVHTLGEWAIGLKKPFADAQALIGSLTVNGQSVVTSGTYERYFEQDGKRWHHILDPRSGYPLDNELDSVTVISSDSLDGDIWTTLLFGLGVEKGCAALRQRQDIDAIFVTKNRDIILSAPQRLRFASLDSGYRVTDCTA	PGPT0000430_3052	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
BMS020_00155	720	dcuR	COG4565	Transcriptional regulatory protein DcuR	GTGATAAATGTGTTGATTGTTGACGATGATGCCATGGTGGCCGAACTGAATCGCCTGTACGTGGCAAGGGTTCCCGGCTTTCGTTGCAGCGGGAGCGCCTCGACGCTCAGTCAAGCCCGGGAGATGATTAACGATCCGCAGCTGGAGATCGATCTGGTGCTGCTGGATGTCTATATGCAGCAGGACAGCGGGCTCGATCTGCTGCCGACTATCCGTAAATCGGGGCGCGCCATCGACGTCATCATGATCACCTCGGCGGCGGATGCCGCCACGGTGCAGACCGCCATGCATTACGGAGTGGTCGATTACCTGATTAAACCTTTCCAGTTTCCCCGTTTTGAAGAGGCGCTCACCACCTGGCGGGAGAAGCGCAAGCTGATAACCGGCCAACCCTATTACGAGCAGGCCGACGTTGACCGCCTGCTGCACGGCGGCGCGCCGGAGGCCAGCGACGCGCGCAAGCTGCCCAAGGGGCTCACCGCGCAAACCCTGCGCACCCTGTGCCAGTGGATTGATGCTCACCCGGACGTTGAATTCTCCACCGATGAGCTGGCGGCGGCGGTGAATATCTCCCGCGTTTCCTGCCGCAAGTATCTGATCTGGCTGGCGCAGATCAATATTCTCTATACCACTATTCACTACGGCGCCACCGGGCGGCCGGTCTATCGCTACCGCCTGGTGGCCGAACAGTACAGTTTGCTTAAGCAGTACAGTCAGTAA	MINVLIVDDDAMVAELNRLYVARVPGFRCSGSASTLSQAREMINDPQLEIDLVLLDVYMQQDSGLDLLPTIRKSGRAIDVIMITSAADAATVQTAMHYGVVDYLIKPFQFPRFEEALTTWREKRKLITGQPYYEQADVDRLLHGGAPEASDARKLPKGLTAQTLRTLCQWIDAHPDVEFSTDELAAAVNISRVSCRKYLIWLAQINILYTTIHYGATGRPVYRYRLVAEQYSLLKQYSQ	PGPT0019535_50	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FUMARATE_SENSING|UTILIZATION,PGPT0019535-dcuR-K07703	NA	NA
BMS020_00156	1617	dcuS	COG3290	Sensor histidine kinase DcuS	ATGAAGGCATCAGAGCACCCGCCTCGCGTTCGTCAACGCGCCTTACCGCTAAAGCTGAGCACCGCCGTCTCCTTGATGATTGGCAGCGTGATCGGCGCCGTGCTGCTGCTGGTCTATGCCCTGTGGTATATGCAGATCAGCAATGCCACCCGCGACGGCCTGAAAGAGACCGCGCTGGCGGTGGCGCGCACCATGGCTGATATGCCGCAGGTGAAGCGCGGACTGGCGGCGCCGCCGCAGCAGCAGATTATTCAGCCGCTGGCGCAGGCCATCACCCGGCGCAACGACCTGCTGTACGCTATCGTCACCGATATGCACGGTATTCGCTATTCGCATCCGGACAGCTCAATTATTGGCAAACCCTTCATCGGCCACGATATCCAGCCGACGCTGCAGGGAAAAGAGAACGTGGCCATTAACCACGGGGTGCTGGCCCCGGCGCTGCGAGTGTTTACCCCGGTGTTCAACGACCAGCATCAGCAGATTGGCGTGGTGGTGGTCGGCATTTCGCTGAGTAAAGTGGACGAGCAGATCGCCAACAGCCGCTGGGACGTGCTGCTGACCATCCTGTTCAGCGCGCTGGTCTGCGCCATCGGCACCTGGAGCCTGGTGCGCGGCCTGAAGCGCGTCCTGCTGGGGCTGGAGCCGCACGAAATCTCCACTCAGTTTCAGCAGCGTCAGGCCATGCTTCACGCCCTCAAGGAGGGGGTGGTGGCCGTCGATGCCCATGGTGAGGTTAACCTGATCAACCCGGCGGCGCGCGAGATACTCTTTTCCGGGCCGGACAAGACCCTCGCGCATACCCCGCTGCTCGCCGACCTGCAGATGGTTTTGCACAGCGGCGAGCCGATGTACGACCGCGAGCTGGGGTGCAATGGCCTGTTGCTCATCAGCAACACGGTGCCTATCCGCAGCCAGGAGGCGGTGGTCGGCGCCATCTGTACCTTCCGCGATAAGACCGAAGTCAGCCAGCTGCTGCAGCGGCTGGACGGCATGATGAGCTATGTGGATGCCCTGCGCACCACCTCTCATGAGTTCATGAACAAACTGCACGTGATTCTCGGCCTGCTGAATATGAAAAGCTATGGCAAACTCGAGGAGTACGTGCTGCAGACCGCCCACCGCTACCAGGCGGACATCGGCGATATTCAGCACCGCATTAAATCCCCGGTGGTGGCCGGCTTTCTGATAAGTAAAATGCAGCGCGCCACCGAGTGCGGCTTTACCCTTAAGCTGGCGGAAGAGAGCCTGGTGCCGGATTGCCCGAATGAGAAGCAGGTCACCGTGCTGGTGACGGTGCTGGGCAACCTTATCGAGAACGCGCTGGACGCCATGAACGGTCAGGCGGAGGGCGAAATCGGCCTGCTGCTGCACTATCAGGACGGCTGGCTAAGCGGTGAAGTGAGCGACGACGGGCCGGGGATCCCGGAAAACAACATCGACGCTATCTTTAACAAAGGCTTCTCCACCAAAGGCGAGAATCGCGGCGTCGGGCTGTTTCTCGCCAACCAGCAATTACGCGAGCTGGGCGGCACGCTCGCCGTCGAGTCGGAACCCGGCGTATTTACCCAATTTTTTGTTCATCTCCCCTGGGATAGTAAAAGGAAACGTGCGTGA	MKASEHPPRVRQRALPLKLSTAVSLMIGSVIGAVLLLVYALWYMQISNATRDGLKETALAVARTMADMPQVKRGLAAPPQQQIIQPLAQAITRRNDLLYAIVTDMHGIRYSHPDSSIIGKPFIGHDIQPTLQGKENVAINHGVLAPALRVFTPVFNDQHQQIGVVVVGISLSKVDEQIANSRWDVLLTILFSALVCAIGTWSLVRGLKRVLLGLEPHEISTQFQQRQAMLHALKEGVVAVDAHGEVNLINPAAREILFSGPDKTLAHTPLLADLQMVLHSGEPMYDRELGCNGLLLISNTVPIRSQEAVVGAICTFRDKTEVSQLLQRLDGMMSYVDALRTTSHEFMNKLHVILGLLNMKSYGKLEEYVLQTAHRYQADIGDIQHRIKSPVVAGFLISKMQRATECGFTLKLAEESLVPDCPNEKQVTVLVTVLGNLIENALDAMNGQAEGEIGLLLHYQDGWLSGEVSDDGPGIPENNIDAIFNKGFSTKGENRGVGLFLANQQLRELGGTLAVESEPGVFTQFFVHLPWDSKRKRA	PGPT0019530_166	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FUMARATE_SENSING|UTILIZATION,PGPT0019530-dcuS-K07701	NA	NA
BMS020_00157	324			hypothetical protein	ATGATGGAACTGGCATCTCTGGTCCGGGATATCCTCCGGCAACAGCACGTTGAACGACTGACGCAGCATCGTGAACAGGATCGTGAAGCGGAAGCAGAGTGGGAGATCGCGCGCTGGCGGCATCGCAGCGGGGTGGTGATCCAGCACCGCTACGAGATCGAGCTTCCGCAACAGGATGCCGCCTCCTGCCCGGAGTGCTGGATCGACTGGCAGGTTATCGATAGCGCCGGCCTGGAGGTGAAGCCAATGCGCAAACAATTTTATAACCTCTGTCAGCAATCCTTCTGGCTGGCCATGCAGGCGGAAGGCGAAGATAAGACCTGA	MMELASLVRDILRQQHVERLTQHREQDREAEAEWEIARWRHRSGVVIQHRYEIELPQQDAASCPECWIDWQVIDSAGLEVKPMRKQFYNLCQQSFWLAMQAEGEDKT				NA	NA	NA	NA	NA
BMS020_00158	921	murQ_1	COG2103	N-acetylmuramic acid 6-phosphate etherase	ATGAGCAGTTCGCTAACCGCGTCAATGCAGGCACGTCGTCATCCGGATACCACCCACATCGATCGCCTCGCCACCGCCGACATGCTGGCGATGCTGCATCAGGATGATAAGCAGATATCGGAGGCGGTCGGCGCCTGTCTGCCGGATATCGCCCGGTTGATTGATATCGCCACCGCGACAATGAGCCGGGGAGGGCGTCTGGTCATTATCGGCGCCGGGGAATCAGGCCGCACGGCAGTCCAGGCGGTCAGCGACTACTCTCCGGAAGGCAAACACGCGCTGGTGGGGCTGATTGCCGGTGGCCAGACGGCGGCGATGGCCGAGCGGGAGACGGCGGCGAATAATTACGATCTTGGCGCCTTCGAGCTGCAGTCGCATGACTTTTCCAGCCACGATATGCTGCTGGCGCTGACCGTTAGCGGCAAGACCCCGTGGGTCTGGGGGGCGATGCGCCACGCCTGGTCGCTGGGGGCCCCGATCGCGGTGGTGACCCAGCAGGCGGCCAGCGAGGCGGCGCAGCTGGCGGATATTGTTATTGCTCCGCAGACCGGGCCGGAAGCGGTGGCGGGCTTGACCAATCCGAAGGCCCGGCTGGCCCAGCGGCAGATCCTTAACATGGTGTCGACGGGCCTCGCTATCCGTGACGGCCGGGTGTACAGCAACCTGCGGGTGGATCTGCAGGCTGACACTCCGCACTGGGCGGAGCGGCAGGTGGCGATTGTCATGGCGGCCACCGACTGCACGCGCAGCGAAGCAAAAGCCGCGCTGACCAGCTGTCACCACCATTGCCGCACTGCGATCCTGATGCTGCTTAGCGGGCTGGACGCCTGGCACGCGCGGGAGCTGCTGACCAAACATCACGATCATCTGCGTCTTGCCCTGCGCGAAGCCCAGCGCAGCGCTGTCACTCCCGCCCATTAA	MSSSLTASMQARRHPDTTHIDRLATADMLAMLHQDDKQISEAVGACLPDIARLIDIATATMSRGGRLVIIGAGESGRTAVQAVSDYSPEGKHALVGLIAGGQTAAMAERETAANNYDLGAFELQSHDFSSHDMLLALTVSGKTPWVWGAMRHAWSLGAPIAVVTQQAASEAAQLADIVIAPQTGPEAVAGLTNPKARLAQRQILNMVSTGLAIRDGRVYSNLRVDLQADTPHWAERQVAIVMAATDCTRSEAKAALTSCHHHCRTAILMLLSGLDAWHARELLTKHHDHLRLALREAQRSAVTPAH	PGPT0019040_647	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
BMS020_00159	1647	mqo_1	COG0579	Malate:quinone oxidoreductase	ATGAAAAAAACGATTATTTCCTTTACCGCATTAGCGATGTTCGTCAGCGCGGCGACGCATGCTGAAGCGGATACCTCTAAAAAAACTGACTTCCTGCTGATTGGCGGCGGGATCATGAGCGCCTCGCTTGGCACCTGGCTGCAGGCGCTGCAGCCGGACTGGGACCTGACGATGGTGGAGAAACTGGACGGCGTGGCCCTGGAATCTTCCAACGGCTGGAATAACGCCGGTACCGGTCACTCGGCGAATATGGAGCTGAACTATACGCCGGAGCGGGCCGACGGATCGATTGACGTCAGCAAAGCGCTGGATATTAACGAACAGTTTATGATCTCCCGTCAGTTCTGGTCGGCACAGGTCAAGCGCGGTATTTTGCACGATCCGCACTCCTTTATTAATTCCACGCCGCATATGAGTTTCGTCTGGGGCGATAATGTTGATTATCTGCAAAAGCGTTATAACGCGCTGCAGCAGACCACCTTATTCCAGGGAATGAAATTCTCCACCGATCACGCGCAAATTAAACAGTGGGCGCCGTTGGTCATGGAAGGACGCGATCCGCAGCAAAAAGTGGCTGCCACCTGGACGCCGGTCGGTACCGACGTGAACTACGGCGAAATTACCCGTCAGCTAATCGGCAGCCTGAAGAAAAACAGCCATTTCACCCTGCAAACCTCCTCTGAGGTCACCGATTTCAAACGCAATGCCGATAACTCCTGGCACGTGACCATTAAGAACGTGCAGAGCGGGGAAGCGCAGACTATTGACGCGAAATACGTCTTTATCGGCGCCGGCGGCGGCGCGCTGAAGCTGCTGCAGAAAACCGGTATTCCGGAAGCGGACAACTATGCTGGCTTCCCGGTGGGCGGTTCGTTCCTGATGACCGAGAACCCGGCGGTCACCGCGCAGCACCTCGAGAAAGTGTATGGCCAGGCTTCGGTCGGCGCGCCGCCGATGTCGGTACCGCACCTTGACGCCCGCTACCTGGATGGCAAGCGCGTGGTGCTGTTTGGGCCGTTCGCCACCTTCTCCACCAAGTTCCTGAAAAACGGTTCCTTCTTCGACCTGTTGAGCACCACCACCACTGACAACGTGCTGCCGATGACCCACGTCGGACTCGATAACTTCGACCTGGTGAAATATCTCGTCAGCCAGGTGATGCTCAGCGATGATGACCGCTTCGCCGCGCTGAAAGAGTACTACCCGGACGCGCGTAAAGAGGACTGGAAGCTGATCCAGGCCGGCCAGCGCGTGCAGATCATTAAGAAAGACGCAGAGAAGGGCGGCGTGCTGAAACTGGGCACCGAAGTGGTGGTCGATCAGCAGAAAACCATTTCCGCGCTGCTCGGCGCGTCGCCGGGGGCTTCCACCGCCGCGCCGATCACCCTCAATGTGCTCAAGCAGATGTTCCCGACGCAGTTTAACTCGCCGGAGTGGCAGACCCGTATCCACCAGATCGTGCCGAGCTACGGCCAGAAGCTGAACGGTAACGTGGCGCTGACCCAGCAGGTTTGGGATGATACCGCCGCGACCCTGCAGCTGACGAAACCGCCGGTGATCCAGATGCCAGCGGCTGCGCCCACCGCGACCGCGAAGCCGGCTGAGCCGCAGCGCGACGCCTCGCCGCAGCACGATATGGCGCTGTAA	MKKTIISFTALAMFVSAATHAEADTSKKTDFLLIGGGIMSASLGTWLQALQPDWDLTMVEKLDGVALESSNGWNNAGTGHSANMELNYTPERADGSIDVSKALDINEQFMISRQFWSAQVKRGILHDPHSFINSTPHMSFVWGDNVDYLQKRYNALQQTTLFQGMKFSTDHAQIKQWAPLVMEGRDPQQKVAATWTPVGTDVNYGEITRQLIGSLKKNSHFTLQTSSEVTDFKRNADNSWHVTIKNVQSGEAQTIDAKYVFIGAGGGALKLLQKTGIPEADNYAGFPVGGSFLMTENPAVTAQHLEKVYGQASVGAPPMSVPHLDARYLDGKRVVLFGPFATFSTKFLKNGSFFDLLSTTTTDNVLPMTHVGLDNFDLVKYLVSQVMLSDDDRFAALKEYYPDARKEDWKLIQAGQRVQIIKKDAEKGGVLKLGTEVVVDQQKTISALLGASPGASTAAPITLNVLKQMFPTQFNSPEWQTRIHQIVPSYGQKLNGNVALTQQVWDDTAATLQLTKPPVIQMPAAAPTATAKPAEPQRDASPQHDMAL	PGPT0001440_153	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
BMS020_00160	927			hypothetical protein	ATGCAAGACGATATCAACCAGGAGATCACCTTCCGCAAGCTGTCGGTCTTTATGATGTTTATGGCGAAGGGCAATATCGCCAGAACCGCCGAAGCGATGAAGCTTAGCAGCGTCAGCGTTCACCGCGCGCTGCATACCCTGGAAGAGGGGGTGGGCTGCCCACTGTTTGTCCATAAAGGGCGCAATCTGCTGCCGCTGCAGGCGGCGTGGACGCTGCTGGAATATTGTCAGGATGTGATGAGTCTGATGAGCCGCGGCCTTGAGGCGACGCGCAAAGTCGCCGGCGTCGGCCAGGGGCGGCTGCGCATCGGCACCCTCTATTCCCTGACCCTGGAAACCGTCCCGCGCATTATCATGGGTATGAAGCTGCGTCGCCCGGAGCTGGAGCTGGATTTGACCATGGGCTCTAACCAGATGCTGCTGGATATGCTGGAAGACGACGCCCTCGACGCTATCCTGATCGCCACCAATGAAGGGGAGTTCAACAATACCGCTTTCGACGTGGTGCCGCTGTTTGAGGACGATATCTTTCTCGCCGCCCCGGCGACGGCGCAGCTGGATAGCACACAGCTTGCTGACCTGCGCGATTACGCCGACCGGAAATTCGTCTCGCTGGCGGAGGGATTCGCCACCTATGCCGGGTTCCGGGAAGCGTTTCATATCGCTGGCTTCGAGCCGACGATCGTCACCCGGGTGAATGACATCTTTTCGATGATTAGCCTGGTGCAGGCGGGCGTCGGGTTTGCGCTGCTGCCGGGGCGGATGAAAAAAGTCTATGAAAAAGATGTACAGCTGTTAAAGCTGGCGGAACCGTACCAGATGCGCCAGCTGATCTCGATTGTCTATTCACACCATCGCGAACGCGATGCCGACCTGCTGGCGCTGGCGGCGGAAGGGAGAATGTACGCCCGGAGCCTTAATCGCTAA	MQDDINQEITFRKLSVFMMFMAKGNIARTAEAMKLSSVSVHRALHTLEEGVGCPLFVHKGRNLLPLQAAWTLLEYCQDVMSLMSRGLEATRKVAGVGQGRLRIGTLYSLTLETVPRIIMGMKLRRPELELDLTMGSNQMLLDMLEDDALDAILIATNEGEFNNTAFDVVPLFEDDIFLAAPATAQLDSTQLADLRDYADRKFVSLAEGFATYAGFREAFHIAGFEPTIVTRVNDIFSMISLVQAGVGFALLPGRMKKVYEKDVQLLKLAEPYQMRQLISIVYSHHRERDADLLALAAEGRMYARSLNR	PGPT0001715_116	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0001715-mdcR-K13928	NA	NA
BMS020_00161	903	fabD_1	COG0331	Malonyl CoA-acyl carrier protein transacylase	ATGAAGATTTTGTTTACTTTTCCCGGACAGGGTGCCCAGCGTCCCGGCATGCTGGCGGCTATCCCCGACCGCGAAGCGATCCTCAGCCAGGCGCGCGCCGTGCTGGGGAATGAAGTCGAGGCCCTCGATAGCGCCGGATCGCTAAAACATACCCGTGCGGTCCAGCTCTGCCTGCTGATCGCCGGGGTAGCCTGGGCGCGCGAGCTACAGCGCCAGGGCGTCAATCCGCAGATGGTCAGCGGCCTGTCCATCGGCGCCTTTCCCGCAGCGGTGATTGCCGGCGCGCTCGATTTCGCCAGCGCGCTGCGGCTGGTGGCCCTGCGCGGCGATCTTATGGAGCAGGCCTATCCCGAAGGTTACGGGCTGACGGCGATCATGGGCCTGACCCGCCCGCGGGTTGAGGCGCTGATGCAGGGCCACGAGGTCTATCTTGCCAACCTGAACGCCGAAACGCAGATCGTGATCGCCGGACGCGATGAAGCCATGGCCGAGGTGGCGCAGCTGGCGCTGCAGGCGGGCGCCAGTAAGGCGCAACGGCTGGCGGTCAGCGTCCCGTCGCACTGCGCGCTGCTGGATAAACCCGCCGCCGCGCTGGCAACAGCCTTTGCCGACGTGACCTTAACGCGCCCGCAGTGCGCCTATTTAAGCGGCTCGACGGCGCGCGTGCTGTGGGATCCCCAGCGGATCGCCGACGATCTGGCGATGAACATGGCGCGCACCGTCCACTGGCAGGAGGCGATGATCGCCGCCGATGAGCGCGACGCGCGCTTAGCGATTGAAATGCCTCCCGGCGGGGTATTGACCTGCCTGACCCGCCAGGCGGGCTGGCGCGGAGAGACCCTTTCGCTGGAACGCAGCGGCGTGGATGTCGCCCGCCATCTGGCGCAGCGGCTTAGCGATTAA	MKILFTFPGQGAQRPGMLAAIPDREAILSQARAVLGNEVEALDSAGSLKHTRAVQLCLLIAGVAWARELQRQGVNPQMVSGLSIGAFPAAVIAGALDFASALRLVALRGDLMEQAYPEGYGLTAIMGLTRPRVEALMQGHEVYLANLNAETQIVIAGRDEAMAEVAQLALQAGASKAQRLAVSVPSHCALLDKPAAALATAFADVTLTRPQCAYLSGSTARVLWDPQRIADDLAMNMARTVHWQEAMIAADERDARLAIEMPPGGVLTCLTRQAGWRGETLSLERSGVDVARHLAQRLSD	PGPT0019630_249	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019630-mdcH-K13935	NA	NA
BMS020_00162	618	mdcG_1		Phosphoribosyl-dephospho-CoA transferase	ATGTCATCAACGCCGCGTCCCCACGATTTAGTGTGGTTAAACCACGCCAGCGCCCTGGAAGATATTGTCGAGCCGTGGGTGGCTCAGCAGTGGCGAGCCGCGCTGCCGGTGGTGGTGAGGCGCGATGTTGACGGCCAGGCCCGCATCCCGGTTGGGGTGCGGGGCATGAAGCGCGAACAGCGCGCCGCCGGCTGGGTACAGGCGCACAATATCGTTCGCAGCGTCACCCCGGAGATGCTGGTGGAGCGCGAGCGCCTGCTGGGCTCCCCTTTTGTTTCGCAGCCGCCGGTCCAGGCGGCCATCGCCCTGACGCTGGGCGACTGGCCCTGGCGCTGGGGCGTCACCGGCAGCACCGGCTACGCGCTGGCGACCGAAATCCCGGTACTCCATGCGGCAAGCGATCTGGATCTCCTGATCCGCGCCCCGCAGCCGCTGGCCCGCGAGGCGCTGCTGGAATGGCAGTCCCGGGTGGCCCAGCTCCCGTGCCGCGCCGATACCCAGGTCGAAACGCCATACGGCGCCTTCGCCCTCAATGAGTGGCTACGCGATGGGCGAGCGCTGCTGAAAACGTCCCGCGGCGCGCGCTTAACCGCTGCGCCGTGGCGCAGGGAGGAATGA	MSSTPRPHDLVWLNHASALEDIVEPWVAQQWRAALPVVVRRDVDGQARIPVGVRGMKREQRAAGWVQAHNIVRSVTPEMLVERERLLGSPFVSQPPVQAAIALTLGDWPWRWGVTGSTGYALATEIPVLHAASDLDLLIRAPQPLAREALLEWQSRVAQLPCRADTQVETPYGAFALNEWLRDGRALLKTSRGARLTAAPWRREE	PGPT0019625_456	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019625-mdcG-K13934	NA	NA
BMS020_00163	960			hypothetical protein	ATGACTTATGTGATTATTCATGCTCTTGCCCCGATTTTCGTCATTATGCTGCTGGGCTTCTGGGCCGGTAAGGCCGGGATGGTAGATAACAAAAATGTCTCCCTGCTCAATATCTTTGTAATGGATTTTGCCTTACCCGCTACGCTGTTCAGCGCCACGGTGCAAACTCCGTGGGCCGGTATCGTCGCCCAGTCGCCGCTGGTGCTGGTGCTCACTGGCGCGATGTGGATCACCTACGCCGGGATTTACTTCCTCGCCACCAGCGTCTTCAAACGCACCCCGCAGGATGCCGCGGTGCTGACCCTCACCGTCGCCCTGCCGAACTACGCCGCGCTGGGCCTGCCGATCCTCGGCAGCGTGCTCGGCGAAGGCGCATCGACTTCGCTGTCGGTGGCGGTCTCTATCGCCTGCGGTTCGGTACTGATGACCCCCTTCTGCCTGCTGATTCTGGAACGTGAAAAAGCCCGCGCCGCGGGGGAAACCACCGGTTCTACGCTGGCGATGCTGCCGGTGCTGATGTGGCGTTCGGTGAAAAAGCCGATCGTCTGGGGCCCGTTGCTCGGGGTGGTGCTTTCCGCTATCGGCATTAAAATGCCGGACCTGCTGCTGGCCGCCATCAAACCGCTGGGCCTGGCCGCCACCGCCGCGGCGCTGTTCCTCACCGGGGTGATCCTCTCGGCGCGTAAACTGCAGCTCAATGCGCTGATCGCCACCTCCACCATCGTGAAACTGCTGGTGCAGCCGTTTATCGCCTGGGGACTGGTGATGCTGCTGGGTCTACACGGCGCCATCGCCATCACCACGATCCTGATGATTGCCCTGGCCGCCGGCTTCTTCGGCGTGGTCTTCGGCAACCGCTTCGGCGTGCAGTCCCCGGATGCTGAAGCCGTGCTGCTGTTGAGCTCGGTTCTGTGTATCCTGTCGCTACCGCTGTTTATCTCTTTGACTTCAGGACTGTAA	MTYVIIHALAPIFVIMLLGFWAGKAGMVDNKNVSLLNIFVMDFALPATLFSATVQTPWAGIVAQSPLVLVLTGAMWITYAGIYFLATSVFKRTPQDAAVLTLTVALPNYAALGLPILGSVLGEGASTSLSVAVSIACGSVLMTPFCLLILEREKARAAGETTGSTLAMLPVLMWRSVKKPIVWGPLLGVVLSAIGIKMPDLLLAAIKPLGLAATAAALFLTGVILSARKLQLNALIATSTIVKLLVQPFIAWGLVMLLGLHGAIAITTILMIALAAGFFGVVFGNRFGVQSPDAEAVLLLSSVLCILSLPLFISLTSGL	PGPT0007207_31	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-ABSCISIC_ACID_DEGRADATION	PHYTOHORMONE-AUXINE|INDOLE‐3‐ACETIC_ACID|IAA_METABOLISM	PHYTOHORMONE-IAA-AUXIN_TRANSPORT_PLANT_LIKE,PGPT0007207-auxin_PIN_like-NA	NA	NA
BMS020_00164	801			hypothetical protein	ATGAGTCAGTTCCCAAACCGCGCCGCGCTATGGCTGAACAAACTGGCGCCCGAGGCGCCGCTGATGAGCGGCCTGTGCCCTTCCGTGCAGGTGGCAGACGGCCAGCTTAATGGCGAAAAGGTGCGTTTTATCGCCGTAGTGCCTGACGCCAATAACCACTACCCGCGCGCCGCCGGTGGCGAAGTCGGCCTGCTCGAAGGCTGGACGCTGGCGAAAGTGGTCAATGAAACCATCGCCGCCGACGCCCACCAGGCCCGCAAACGGCCGATCGTCGCCGTGATCGATGTGCCGAGCCAGGCCTATGGCCGTCGCGAAGAAGCCTTTGGTATTCACCAGGCGCTGGCCGGAGCGGCAGGCGCCTACGCCAAAGCCCGTCTGGCCGGCCACCCGGTGATTGGCCTGATCGTCGGCAAAGCGATGTCCGGGGCGTTTCTGGCCCACGGCTACCAGGCCAACCGTCTGATCGCCTTTAACGACAGCGGCGTACTGGTCCACGCGATGGGTAAAGCGTCGGCCGCGCGCATTACCCTGCGCAGCGTGGAGGCGCTGGAGAAACTGGCGGCGACCATCCCGCCGATGGCCTATGACGTCAGCAACTACGCCACGCTCGGCCTGCTCTCCGCTCTGCTGGACATCAGCCATCCTGACGCCCCTGACGACCACGATCTGGCGCTGGTCAGCCACACCCTGCGCGACGCCATCGCTGACGCGCGCCAGGATCCCTCGCTGAAGTGCCGCCTGGGTGCGGAAAACCGCCGCAGCTCGCAGCGGGTCCGCGACCTGATGCGCGCCAGCTGGTAG	MSQFPNRAALWLNKLAPEAPLMSGLCPSVQVADGQLNGEKVRFIAVVPDANNHYPRAAGGEVGLLEGWTLAKVVNETIAADAHQARKRPIVAVIDVPSQAYGRREEAFGIHQALAGAAGAYAKARLAGHPVIGLIVGKAMSGAFLAHGYQANRLIAFNDSGVLVHAMGKASAARITLRSVEALEKLAATIPPMAYDVSNYATLGLLSALLDISHPDAPDDHDLALVSHTLRDAIADARQDPSLKCRLGAENRRSSQRVRDLMRASW	PGPT0019620_199	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019620-mdcE-K13933	NA	NA
BMS020_00165	834	madC_1		Malonyl-S-ACP:biotin-protein carboxyltransferase MADC	ATGCGTAACGATCGCAGCTTTATCGAACTGCGCGCTCGCGAACGCGCCCACGCTCTGCTGGACGACGGCAGCTACCGCGAACTGCTGGATCCGTTTGACGGCATTATGTCGCCGTGGCTCGGGGCGCAGGGCATTGTCCCGCAGTCCGACGACGGTATGGTGGTCGCCAAAGGCACTATCAACGGCCAGCCGGCGGTGGTGATTGCCATCGAAGGCACCTTCCAGGGCGGCAGTATGGGCGAAGTCTCCGGCGCCAAAATGGCCGCCGCGCTGGAGCTGGCGGCGGAGGATAACCGCAACGGTATTCCGACGCAGGCGGTCCTGTGCCTGGAAACCGGCGGCGTCCGGCTGCAGGAGGCCAACCTTGGCCTGGCCGCCATCGCCGATATTCACGCCGCGATTGTCGATCTGCGCCGCTACACCCCGGTAGTCGGCATCATCGCTGGCACCGTCGGCTGCTTCGGCGGCATGTCCATCGCCGCCGCGCTGTGCAGCTATCTCATCGTCACCCGAGAAGCCCGTCTCGGCCTCAACGGACCGCAGGTTATCGAGCAGGAAGCCGGCATTGAAGAGTACGACTCGCGTAACCGGCCGTTTATCTGGAGCATGACCGGCGGCGAAATTCGCGCCGCCAGCGGCCTGGTCGACGCGCTGGTTAACGATGGCGTCAAGGCCGTCAAAACCGCGATGAACGAAGCGATCGCCAAAGGCGTACCGGCGCAGCACCGCAGCGACAATTATGACGACTATCTGCGCCGTTTGAGCCAGTTCGACACCCGCCAGCAGGCGGATACCGCGCAGATTAAACAGCTTTTTGCCCGGGAGGAAAAATAA	MRNDRSFIELRARERAHALLDDGSYRELLDPFDGIMSPWLGAQGIVPQSDDGMVVAKGTINGQPAVVIAIEGTFQGGSMGEVSGAKMAAALELAAEDNRNGIPTQAVLCLETGGVRLQEANLGLAAIADIHAAIVDLRRYTPVVGIIAGTVGCFGGMSIAAALCSYLIVTREARLGLNGPQVIEQEAGIEEYDSRNRPFIWSMTGGEIRAASGLVDALVNDGVKAVKTAMNEAIAKGVPAQHRSDNYDDYLRRLSQFDTRQQADTAQIKQLFAREEK	PGPT0019615_503	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019615-mdcD-K13932	NA	NA
BMS020_00166	300	mdcC_1		Malonate decarboxylase acyl carrier protein	ATGGAACAGATTACATTGTCATTTCCTGCCAGCCGCGCCCTCCGCGGCCGAGCGCTGGCAGGGGTTGTAGGTTCAGGCGATATGGAAGTGCTCTATACCGCCGCCGGAAGCGATACGCTCAGCGTGCAAATTACCACCTCGGTGGATAACAGCCAGGCGCGCTGGCAGGCGCTGTTCGACCGGCTGAGCCTGATCAACGGCCTGCCCGCCGGGCAGTTGGTTATTCACGACTTCGGCGCCACGCCGGGCGTCGCCCGTATTCGTATCGAACAAGTCTTTGAGGAGGCCGCTCATGCGTAA	MEQITLSFPASRALRGRALAGVVGSGDMEVLYTAAGSDTLSVQITTSVDNSQARWQALFDRLSLINGLPAGQLVIHDFGATPGVARIRIEQVFEEAAHA	PGPT0019610_410	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019610-mdcC-K13931	NA	NA
BMS020_00167	843	citG_1	COG1767	2-(5''-triphosphoribosyl)-3'-dephosphocoenzyme-A synthase	ATGAAAATTCTCTCCCCCCTGCACGCAGAAAGCCGCGTCAGCTGGCTGGCGGATACCGCCAGCGCCTGTCTGATTGACGAAGCCCGTCTGAGCCCGAAACCGGGTCTGGTCGACAGCCGCGGCAGCGGCGCGCATCAGGACCTCACGCTGGCGCTGATGGAACGCTCCGCCCGCAGCCTGCAGCCGACCTTCCACGCGCTGGCCCAGCAAAGCTGGCGCCGCCCGGCGGATATCGCGCTGCGCGAAACCGTCGGCCGCCTCGGCCGGGAAGGCGAAGCGCAGATGATGCAGGCCACCGGCGGGGTCAACACCCACCGCGGCGCCATCTGGGCGCTGGGGCTGCTGGTCAGCGCGGTAGCGATGTTGGGGGGAGTGGGTCATTCACAGGCGATCGCCGACACCGCCGCCGCCCTCGCCCGTCTGCCCGACGGCCTGGCGCCGAAAAGCTTCAGTAAAGGGCTACGCGCCAGCCGCCGCTGGCAGGTGCCGGGCGCGCGCGAAGAGGCGCAGCGCGGTTTCCCGCATATCACCGCCCTGGCGCTGCCGCAGTTACAGCAAAGCCGCGCCCGGGGCGCCAGCGAGCCGCAGGCGCGACTTGACGCGCTGATGGCCATCATGACCTCGCTGAGCGATACCTGCGTGCTGTCGCGCGCCGGCATGACCGGCCTGCAGACCATGCAGCAGGGCGCCCGCGCGGTGCTGGCGGCCGGCGGGTGCGCCAGCGTCGCCGGACGCGCCGCCCTGGCGCGGCTTGACGCGCAGATGCTGGCGCACAACGCCTCGCCGGGCGGCGCCGCCGATCTCCTTGCCGCCACCCTGTTTCTCGACCGGGTTGCCGGCTAA	MKILSPLHAESRVSWLADTASACLIDEARLSPKPGLVDSRGSGAHQDLTLALMERSARSLQPTFHALAQQSWRRPADIALRETVGRLGREGEAQMMQATGGVNTHRGAIWALGLLVSAVAMLGGVGHSQAIADTAAALARLPDGLAPKSFSKGLRASRRWQVPGAREEAQRGFPHITALALPQLQQSRARGASEPQARLDALMAIMTSLSDTCVLSRAGMTGLQTMQQGARAVLAAGGCASVAGRAALARLDAQMLAHNASPGGAADLLAATLFLDRVAG	PGPT0019605_484	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019605-mdcB-K13930	NA	NA
BMS020_00168	1656	madA_1		Acetyl-S-ACP:malonate ACP transferase	ATGAATGCCGAACAAACGACGGGGCGGGTCTGGAACCGTCGCCGGACGGAAAAGCAGCGGCGGCTGGCCGAGGCCAACATCCCCGGCAAAGTCATCCCCACTGACCAGCTGGTCAGCGTACTGGAAAACCTGATCGCCCCCGGCGACCGGGTGGTGCTGGAAGGCAACAACCAGAAGCAGGCCGATTTCCTCTCCCGCATGCTGGCGGAAGTCAATCCGCAGAAAATCCACGATCTGCATATGATCATGCCGAGCGTCGGGCGCAGCGAGCATCTGGACCTGTTTGAAAAAGGTATCGCCCGCAAACTCGATTTCTCCTTCTCCGGTACCCAAAGCCTGCGCATTTCGCAGCTGCTGGAAGATGGCCTGCTGGAAATCGGCGCCATTCATACCTATATCGAACTCTACTCCCGCCTGTACGTCGATCTGTCGCCCAACGTCGCGCTGATCGCCGGCTACAAAGCCGACCGTAAAGGTAACCTGTATACCGGGCCGAGTACCGAAGATACCCCGGCACTGGTGGAAGCCGCCGCCTTCCACGACGGTATTGTTATCGCCCAGGTTAACGAACTGGTGGACGACGAGTGCGATCTGCCCCGCGTCGATATTCCCGGCTCGTGGATTGATTACGTGGTGGTCGCCGACAAGCCGTTCTTTATTGAACCGCTGTTCACCCGCGACCCGCGCCTGATTAAGCAAGAACACATTCTGATGGCGATGATGGCCATCAAGGGCATCTACGCCGAGCATCAGGTGCAGTCCCTCAACCACGGGATCGGCTTCAACACCGCCGCCATCGAACTGCTGCTGCCGACTTACGGCGAACAGCTCGGTCTGAAAGGCAAAATCTGTAAACACTGGACCCTGAACCCGCATCCGACGCTGATCCCGGCGATCGAGAGCGGCTGGGTGGAGAGCGTGCACTGCTTCGGCGGCGAGCTGGGGATGGAAGAGTACATCCGCGCCCGTCCGGATATCTTCTTTACCGGCCCGGACGGCTCCATGCGCTCCAACCGCGCCTTCTGCCAGCTGGCGGGGCAGTACGCGGTGGATATGTTTATCGGTTCGACCCTGCAGGTTGATGGTCTGGCTAACACCTCGACCGTCACCCGCGGCCGCCTTTCCGGCTTCGGCGGCGCGCCGAACATGGGCCACGATCCGCACGGCCGCCGTCATGCCACCCCTGCCTGGCTCAATATGATCACCGAGCCGGACCCCATGCAGCGCGGTAAAAAACTGGTGGTGCAGATGGTCGAAACCTTTCAGGCCGGGGTGAAGCCGACCTTCGTTGAGACCCTCGATGCGGTCGACGTCGCCAAAACCTCCGGCATGCCGCTGGCGCCGGTGATGATTTACGGCGATGACGTCACCCACGTGCTGACCGAAGAGGGTATCGCCTACCTGTATCGTGCGGAAAGCCTTGAAGAGCGCCGGGCGATGGTCGCCGCCGTGGCCGGGATCACCGACATCGGTCTCGGAGTGGACGCGAAACGCGTGGCTGCCCTGCGTCAGAGCGGCAAAGTGGTTTACCCGGAAGATCTCGGCATTCGCCGTAGCGAGGCCACCCGTTCGCTGCTGGCCGCCGGCAGCGTCGCCGACCTGGTGGAATGGTCCGACGGACTGTACAACCCACCGGCAAAATTCCGGAGCTGGTAA	MNAEQTTGRVWNRRRTEKQRRLAEANIPGKVIPTDQLVSVLENLIAPGDRVVLEGNNQKQADFLSRMLAEVNPQKIHDLHMIMPSVGRSEHLDLFEKGIARKLDFSFSGTQSLRISQLLEDGLLEIGAIHTYIELYSRLYVDLSPNVALIAGYKADRKGNLYTGPSTEDTPALVEAAAFHDGIVIAQVNELVDDECDLPRVDIPGSWIDYVVVADKPFFIEPLFTRDPRLIKQEHILMAMMAIKGIYAEHQVQSLNHGIGFNTAAIELLLPTYGEQLGLKGKICKHWTLNPHPTLIPAIESGWVESVHCFGGELGMEEYIRARPDIFFTGPDGSMRSNRAFCQLAGQYAVDMFIGSTLQVDGLANTSTVTRGRLSGFGGAPNMGHDPHGRRHATPAWLNMITEPDPMQRGKKLVVQMVETFQAGVKPTFVETLDAVDVAKTSGMPLAPVMIYGDDVTHVLTEEGIAYLYRAESLEERRAMVAAVAGITDIGLGVDAKRVAALRQSGKVVYPEDLGIRRSEATRSLLAAGSVADLVEWSDGLYNPPAKFRSW	PGPT0019600_346	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019600-mdcA-K13929	NA	NA
BMS020_00169	1035	tqsA_1	COG0628	AI-2 transport protein TqsA	ATGGCTAAACCTATTATTACACTTAACGGATTAAAGATGGTCATCATGCTGGGCATGCTGGTGATCATCCTGACCGGCATTCGCTTTGCGGCAGACATTATTGTCCCGTTTATACTCGCGCTTTTTCTGGCGGTGATTATTAATCCGCTGGTCCAGCTGCTGGTCCGCTGCCGGGTGCCACGCGTGCTGGCGATCTCATTGCTGATCGGCCTTATCGTCATGTTAGCCGTTGTGCTGCTGGCCTCGCTGGGAACCTCGCTTAACGAGCTGGCGCGCACCCTGCCGCAGTACCGCAACTATCTCTACGAACCGATGCAAACCATCGCTCCCTGGCTGCAGCGCCTGGGCTTTACCGTCTCGGTGGTGGAGCTAAACAAATACATCGACCCCAACGCCGTGATGACCCTGGTCACCGGTCTGCTCACTCAGCTGTCGAACGCCATGTCCTCGATTTTTCTGCTGCTGCTGACGGTAGTGTTTATGCTGCTGGAGGTTCCGCAACTGCCCGCCAAACTGCAGCAGCTGATGTCCCGCCCGGTAGAAGGCATGGGGGCCATTCAGCGCGCCATCGACAGCGTGTCGCATTATCTGGTGCTGAAGACCGCGATTAGCCTGGTCACCGGGCTGGTGGTCTGGGGCATGCTGGTTCTGCTGGACGTGCGTTTCGCCTTTATGTGGGGGCTGCTGGCCTTCGCGCTGAACTATATTCCCAATATTGGCTCCGTGCTGGCGGCCATCCCGCCGATCCTGCAGGTCCTGGTATTCGGCGGTCTGTACGAGGCGCTGGTGGTGCTGGCCGGCTATCTGATCGTTAACCTGGTGTTCGGCAATATTCTCGAACCGCGGATCATGGGGCGTGGCCTGGGACTCTCCACCCTGGTGGTATTCCTGTCGTTGATCTTCTGGGGCTGGCTGCTGGGTCCGGTCGGTATGCTCCTGTCGGTGCCGTTGACGATCATCGTCAAAATCGCCCTCGAGCAGACCAGCGGCGGCCAGAGCATCGCATTCTTATTAAGTGATGTGAGCAAAGAGTAA	MAKPIITLNGLKMVIMLGMLVIILTGIRFAADIIVPFILALFLAVIINPLVQLLVRCRVPRVLAISLLIGLIVMLAVVLLASLGTSLNELARTLPQYRNYLYEPMQTIAPWLQRLGFTVSVVELNKYIDPNAVMTLVTGLLTQLSNAMSSIFLLLLTVVFMLLEVPQLPAKLQQLMSRPVEGMGAIQRAIDSVSHYLVLKTAISLVTGLVVWGMLVLLDVRFAFMWGLLAFALNYIPNIGSVLAAIPPILQVLVFGGLYEALVVLAGYLIVNLVFGNILEPRIMGRGLGLSTLVVFLSLIFWGWLLGPVGMLLSVPLTIIVKIALEQTSGGQSIAFLLSDVSKE	PGPT0025496_699	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-BF-RELATED-AI-2_TRANSPORT,PGPT0025496-tqsA|ydgG-K11744	NA	NA
BMS020_00170	363	mdtJ_1	COG2076	Spermidine export protein MdtJ	ATGTTTTATTGGATTTTATTAGCTTTAGCGATTATTGCTGAAATTACCGGCACCTTGTCGATGAAATGGGCAAGCATTAGCGGTGGGCATACCGGCTTTATTTTAATGCTGGCCATGATTGCCCTGTCATATATTTTTCTCGCCTTTGCGGTTAAAAAAATTGCCCTCGGCGTGGCCTACGCGTTATGGGAAGGGATTGGTATTTTGCTGATCACCCTGTTCAGCGTACTGTTGTTTGATGAAAGCCTGTCGCTGCTGAAAATAGCCGGTCTGACTACCCTGGTAGTGGGGATCGTCTTAATTAAGTCCGGCACCCAGAAAAAAGCGTCGTCGAAGCCGGAGGTGGCTCATGCAGCAGTTTGA	MFYWILLALAIIAEITGTLSMKWASISGGHTGFILMLAMIALSYIFLAFAVKKIALGVAYALWEGIGILLITLFSVLLFDESLSLLKIAGLTTLVVGIVLIKSGTQKKASSKPEVAHAAV				NA	NA	NA	NA	NA
BMS020_00171	330	mdtI	COG2076	Spermidine export protein MdtI	ATGCAGCAGTTTGAGTGGATCCACGCCATCTGGCTGGCTATCGCCATTGTTCTGGAAATTATTGCCAACGTCTTTTTGAAGTTTTCCGACGGTTTCCGCCGCAAGGTCTATGGCATTCTGTCGCTGGCGGCGGTGCTGGGCGCGTTCAGCGCCCTGTCGCAGGCGGTGAAAGGCATCGATCTGTCGGTCGCCTATGCGCTGTGGGGCGGCTTCGGTATCGCGGCGACCATCGCCGCCGGCTGGGTGCTGTTTGGCCAGCGCCTGAATAACAAAGGCTGGGCGGGAGTCATCCTGCTGGTTGCCGGCATGGTGTTAATTAAACTCGCCTGA	MQQFEWIHAIWLAIAIVLEIIANVFLKFSDGFRRKVYGILSLAAVLGAFSALSQAVKGIDLSVAYALWGGFGIAATIAAGWVLFGQRLNNKGWAGVILLVAGMVLIKLA	PGPT0029230_2338	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
BMS020_00172	2157			hypothetical protein	ATGCTCACAGCTTTCGGCTGGCGGAAAATTCCTTCCGCCAGGACGTTGTCAATAATGATTTTTCTCGCCGGGCTCGGCCTCACCGCGTCGGTGATCTCCCTGCTTTACCTCTCGCAACACCTCATTGCCAGCAAATCCAATGAAATTGATCAGCAGCGCTCGGTCCTGTCGGTGGAAGGGGCGGTGCAGACCTCGGTCAACCGGGTGCTGTCGCTGGTGCTGGACAATGCCATCTGGGACGATGCGGTGACCCAGACTTACGCTCCCAGCCTGGATCAAAAATGGCTGTACAACTCCTGGGGATCCGGCTTCAAAATCAACAACCTGTATGACGGCACCTTTGTCCTTGATGAACATTATCACATCCTGTGGGGCGCCTTTCAGAGTCAGGTCATGCCCCGGGCAGACCTCTCATTTCTTGGCGCCGGGCTGACCAGCCTGATCCGCTATCATGCACAGGCTCTGCGCGAGGGGAAAAACGCCTTCGCCGGCATCACACGTACCGAGGCCGGGATCGCTTTCGTCGGCATCGGCCTGATACGGCCGACGAGCGGCCGGCTGCAGGTGGCTGACGAGACCCGACGCTATCTGGTCATTACCCGGCACATCAGCCCTCAGCTGCTGGAGCGGTTAGGCGACACCTTCCAGATAAGCCATCTGCATCTCAGCGACGGCCCAGGCGAACACCGGATCCCGCTGCGCACGCAGGGAGGCGAGGTTCTGGGCTATCTGGTGTGGCAGCCGCGTCTGCCCGGTGCCGAAGCGGCCCTGGCCTCGTCAGGCAGTATGCGGTTGATCGCCGGGGTGGCCGCCAGCCTGATCCTGCTGTTTATTCTGTTCAGCAGCCTCGGCATGTATAAGCTGGCCCGCGGCGAACGTCAGGCGCGGGAGATCGCCCTGATTGACTGGCTTAGCCGCCTGCCCAACCGGCGTGCGCTGCTGCTGCGGCTCAGCCAGGTGTGCGACACGAGTAAGCACGATATGCAGTGCGTGGTGTTTATCGATCTGGACGGTTTTAAGGATGTGAATGATAACTATGGCCACGATGTGGGCGACACTCTGATCCGCCATATCGCCAGCGCGCTGCAAAAACGGGTGCCGGCGGGGGCCATGCTGGCAAGAATGGGCGGGGATGAGTTCGCCATGGCGGTGAGCGGCGAACAGGCGATCGACCGGGCCGCGGCGTTCGCCTGGGCGGCGCTGGAGCTGCTTAAAGCGCCGGTGGCGCTGAGCAAACGCACAATTTATATCGGCGCCAGCATCGGCATCGCCAGCGGTACTCCGGCGGAATGCTCCAGTACCGAACTGTTTCGCCGGGCGGATATCGCCATGTACCACGCCAAGAAGAGCGGCAAGGGGCGGACGGCCTGGTATGACGATGCGCTGGATGCCGTGCGACGTCATCAGCTGATGATTGAGAATGGCATCCGTCAGGGGCTGGAGCAGGATGAATTTGAGGTCTGGTATCAGCCGGTGGTCGATGCCGATACGCTGGCGATGACCGGCGTTGAAGCGCTGCTGCGCTGGCCGCGTCGCCCGCAGGGTGCGCTGGCGCCGGATGCGTTTATCGCCATTGCCGAGAGTAGCGGCCTGATTGACACCCTCGGCCAGTTCGTCCTGCAACGCGCCTGCAGCGACCTGCAGCCGGTGGGCGATCTGCTGCTGTCGGTGAACATCTCGCCGGCGCAATTTCGCGATCCGGCGTTTGAAAGCCGGGTGATGGAAACGGTCGCTGCCTGCCGCTTTCCGCCGTCGCGCCTGCAGGTGGAGGTGACGGAGAGTTATGTGCTGGAAAATCCAGAACGTTCGCAGGCGGTGGTGGAGAATCTGAAGGCCCAGGGCATCGCCGTGGCGCTGGATGATTTTGGCACCGGTTACTCCAGCATCGGCTATTTACGCCGCTTTCGCTTTGACAGCCTGAAGATTGACAAATCCCTCGCCGGGCGGGTGGATTGCGATGCGCAGGCGGCGGAGATGGTGCGCGGCACGGTGCGCATCGCCCGCGCGCTGGGGATGACGGTCGTGGCGGAGGGGGTTGAAGATCCGCAACAGCTGGCGCTGCTGCGGCGGGCCGGCTGCGACCGGCTACAGGGCTTTTACTTCAGTAAACCGATGCCGATCGCCGACCTGCTGCAGCGGCGTCAGCAGCAGGGGTAA	MLTAFGWRKIPSARTLSIMIFLAGLGLTASVISLLYLSQHLIASKSNEIDQQRSVLSVEGAVQTSVNRVLSLVLDNAIWDDAVTQTYAPSLDQKWLYNSWGSGFKINNLYDGTFVLDEHYHILWGAFQSQVMPRADLSFLGAGLTSLIRYHAQALREGKNAFAGITRTEAGIAFVGIGLIRPTSGRLQVADETRRYLVITRHISPQLLERLGDTFQISHLHLSDGPGEHRIPLRTQGGEVLGYLVWQPRLPGAEAALASSGSMRLIAGVAASLILLFILFSSLGMYKLARGERQAREIALIDWLSRLPNRRALLLRLSQVCDTSKHDMQCVVFIDLDGFKDVNDNYGHDVGDTLIRHIASALQKRVPAGAMLARMGGDEFAMAVSGEQAIDRAAAFAWAALELLKAPVALSKRTIYIGASIGIASGTPAECSSTELFRRADIAMYHAKKSGKGRTAWYDDALDAVRRHQLMIENGIRQGLEQDEFEVWYQPVVDADTLAMTGVEALLRWPRRPQGALAPDAFIAIAESSGLIDTLGQFVLQRACSDLQPVGDLLLSVNISPAQFRDPAFESRVMETVAACRFPPSRLQVEVTESYVLENPERSQAVVENLKAQGIAVALDDFGTGYSSIGYLRRFRFDSLKIDKSLAGRVDCDAQAAEMVRGTVRIARALGMTVVAEGVEDPQQLALLRRAGCDRLQGFYFSKPMPIADLLQRRQQQG				NA	NA	NA	NA	NA
BMS020_00173	813			hypothetical protein	ATGCGTAGAGACGTTCTGTTATTACTGTGTTCATTTTATCTGTTACCTCTGGGCGCACATGCCGAAGATAGCGGACTGAGCGCCAAAGATATTAAGACGTTGTTTTTCGGCCACGATGAGCGTAAAGCGGTGAGCCGCCCGGAGGAGAGTCCGTGGGACGCGATTGGCCAGCTGGAGACCGCCAGCGGCAATCTGTGCACGGCGACGCTCATCTCCCCCAATCTGGCGCTGACCGCAGGCCACTGCCTGTTAACGCCCCCGCGCGGCAAGCCGGACAAAGCGGTCGCTCTGCGCTTTATTTCCCGCAAGGGCAACTGGGTGTATGAGATCCACGGCATAGACGGACGCGTGGATCCCGGGTTAGGCAAGCGTCTGAAAGCCGACGGTGACGGCTGGATCGTTCCCTCCGCCGCGGCGCCCTCGGATTTTGGCCTGATCGTGCTGCGCTATGCTCCCTCGGGCATCACGCCGATCCCGCTCTTCCCCGGCAGTAAGGCCGATTTAACCGCCGCGCTGAAGGCGGCGGACCGGAAAGTGACCCAGTCAGGTTATCCTGAAGATCATCTGGACAATCTTTACAGCCATCAGGATTGCATCGTCACCGGCTGGGCGCAAAACAGCGTCCTGTCGCACCAGTGTGACACCCTGCCCGGCGACAGCGGCTCGCCGCTGCTGCTGAAAACCGCGGACGGCTGGCAAGTGATCGCCGTGCAAAGTTCGGCTCCCGGCCCGCAGGATCGCTGGCGGGCGGACAACCGCGCCATCGCGGTGACCGGCTTTCGCGATAAGCTGGAAGCGCTGGCCGGAGAGTAA	MRRDVLLLLCSFYLLPLGAHAEDSGLSAKDIKTLFFGHDERKAVSRPEESPWDAIGQLETASGNLCTATLISPNLALTAGHCLLTPPRGKPDKAVALRFISRKGNWVYEIHGIDGRVDPGLGKRLKADGDGWIVPSAAAPSDFGLIVLRYAPSGITPIPLFPGSKADLTAALKAADRKVTQSGYPEDHLDNLYSHQDCIVTGWAQNSVLSHQCDTLPGDSGSPLLLKTADGWQVIAVQSSAPGPQDRWRADNRAIAVTGFRDKLEALAGE				NA	NA	NA	NA	NA
BMS020_00174	105			hypothetical protein	ATGTCTAAAAAAGGTATTCGCGCACTGGTCTATGTTTCCCTGGTCTCGGTGGCCATCTGGGGCGCAACCGGCTATCTGGTGATGGAAGCGGTACGTGCGTTGTGA	MSKKGIRALVYVSLVSVAIWGATGYLVMEAVRAL				NA	NA	NA	NA	NA
BMS020_00175	357			hypothetical protein	GTGGTGTTTTTTCGCTGCCTGAGCTTTCTGGGCTACCGGTTTAGCGGCAGCTTTGTGGTGCTTTTTAGCGGCCTGGGCTTTCTGCGGAGCGGCGGGTTTGGCGTCTGCTTTTTTGTGTTTTTTAGCGGCCTGGGCTTTCTGGGCAGCGGCTGGTTTAGCTTCTGCTTTCTTGTGTTTTTTGGCAGCCTGAGCTTTCTGCTCTGCAGCTGGTTTGGCCGCGACTTTATGGTGTTTTTTGTGATGGGTGGTCTTGGCAGCAGTGCTGTGGGTAGCAGCTGGCGCCTGAGTGGTGCTTACTGCGTCAGCAGCGAAAGCGGCGGAAGAGAGACCCATAGCAGCGGCAACGACCAGAGCTAA	MVFFRCLSFLGYRFSGSFVVLFSGLGFLRSGGFGVCFFVFFSGLGFLGSGWFSFCFLVFFGSLSFLLCSWFGRDFMVFFVMGGLGSSAVGSSWRLSGAYCVSSESGGRETHSSGNDQS				NA	NA	NA	NA	NA
BMS020_00176	1488		COG2317	Thermostable carboxypeptidase 1	ATGACTGAAAATACGCCTTATCAGCAGCTTACCCGCACCTTTCAGCGCCTGTCGCGCTTTTCGCATCTCTCCGCCATCGCCGGCTGGGATATGTTCGCCATGATGCCTCCGGGCGGTAGCGCCGCCCGCGGCGAAGCGCTGGCGGAACTCGGCGTGCTACAGCATCAGATCCTGACCGATAAAAAAGTGGGCCAATGGCTGCAGGCGGCCCGCCAGCAGGATCTCAACGACCTCGAACAGGCCAACCTGCGGGAAATGCAGCGCCAGTACGATCAGGCGGCGCTGCTGCCGGAGAGCCTGGTGGAGGCCAAATCGCTGGCCGGTAGCCGTTGCGAACATGCCTGGCGCAGTCAGCGGCCGGCTAATGACTGGGCTGGCTTTGCCGATAATTTGCGCGAGGTGGTCAGGCTGAGCCGCGAGGAAGCGCAGATCCGCGCCGACGCCCGGGGCGGCTCACGCTATGACGCGCTGCTGGATATTTTCGAACCGGATATGACCAGCGCCCGGCTGGACAGCCTGTTTGCCGATCTCAAGTCCTGGCTGCCTTCCCTGCTGCGACAAGCGGTCGATAAGCAGGCGACGCGAACCTTGATCGCCCCGCAGGGGCCGTTCCCGATCCCTGAGCAGCGCGAACTGGGTCTGCAGGCGATGCGCATCCTCGGCTTTGACTTTGACGGCGGGCGTCTGGACATCAGCGCCCACCCGTTTTGCGGCGGCGTCCCTCAGGATGTGCGCATCACCACCCGCTACAACGAAAACGACCTGCTCAGCGCTCTGTTCGGCGTGATCCACGAGACCGGCCACGCCCGCTATGAGCAGAATCTGCCTCGCCCGTGGGTCGACCAGCCGGTAGGACTGGCCCGCTCTACTGCTATCCATGAGTCGCAGAGCCTGTTCTTCGAAATGCAGCTGGGACGCAGCGAGCGCTTCCTGAAACGCCTGCTGCCGGCGGTGCGCGAACGCTTTGGCGATCGGCCGGCCTTTAGCGAGGAGAATTTCATCGCCTGGAACCAGCGGGTGAAACCAGGCTTTATTCGCGTTGATGCCGATGAGGTCAGCTATCCGGCGCATGTGATCCTGCGCTATGAAATTGAACGCGCGCTGATCGACGGCGAGATAGAGGTGGAAGATATTCCGTCGCTGTGGGATGAGAAAATGCAGCACTGGCTGGGACTGTCGACCACCGGCAACTACCGGGACGGCTGTATGCAGGATATTCACTGGACCGACGGCGGCTTCGGCTACTTCCCTTCCTACACGCTGGGGGCGATGTATGCCGCGCAGCTGATGGCCGCCGCCCGTCGCGCGCTGCCGACGTTAGACCGCGATATCGCGGAAGGGGATTTCAGCGCCCTGTTTGACTGGCTGCGGCAGAATATCTGGCAGCATGGCAGCCGCTTCACCACCTCGCAGCTGATCCAGCAGGCCACCGGCGAGGATCTTAACAGCCGCTACTTCCGCGACCACCTTACCGCCCGCTATCTGTGA	MTENTPYQQLTRTFQRLSRFSHLSAIAGWDMFAMMPPGGSAARGEALAELGVLQHQILTDKKVGQWLQAARQQDLNDLEQANLREMQRQYDQAALLPESLVEAKSLAGSRCEHAWRSQRPANDWAGFADNLREVVRLSREEAQIRADARGGSRYDALLDIFEPDMTSARLDSLFADLKSWLPSLLRQAVDKQATRTLIAPQGPFPIPEQRELGLQAMRILGFDFDGGRLDISAHPFCGGVPQDVRITTRYNENDLLSALFGVIHETGHARYEQNLPRPWVDQPVGLARSTAIHESQSLFFEMQLGRSERFLKRLLPAVRERFGDRPAFSEENFIAWNQRVKPGFIRVDADEVSYPAHVILRYEIERALIDGEIEVEDIPSLWDEKMQHWLGLSTTGNYRDGCMQDIHWTDGGFGYFPSYTLGAMYAAQLMAAARRALPTLDRDIAEGDFSALFDWLRQNIWQHGSRFTTSQLIQQATGEDLNSRYFRDHLTARYL				NA	NA	NA	NA	NA
BMS020_00177	1251	ynfM_1		Inner membrane transport protein YnfM	GTGAGTCGTACAACAACCGTTGACACCGTGCCGGCGGGCGAGGTCAGCGTCGCTGGTGCATCCCGCCCGGATCCGTTTATTAAGCGCGGCACCCCGCAGTTTATGCGCGTCACGCTCGCGCTATTCTCCGCCGGTCTGGCCACCTTCGCCCTGCTCTACTGCGTACAGCCGATCCTGCCGGTGCTGTCGAACGAGTTCGGCGTATCGCCGGCCAGCAGCAGTATTTCTCTCTCCATTTCCACGGCGATGCTGGCGGTGGGCCTGCTGTTTACCGGCCCGCTGTCGGACGCCATAGGCCGCAAGCCGGTGATGGTCACCGCGCTGCTGCTGGCCGCCTGCTGCTCGCTGTTGTCGACCATGATGACCAGCTGGCACGGCATCCTGATTATGCGCGCCCTGATTGGCCTGTCGCTGAGCGGCGTGGCGGCGGTCGGTATGACCTACCTGAGCGAGGAGATCCACCCCAGCTTTGTGGCCTTCTCTATGGGACTCTATATCAGCGGCAACTCCATCGGCGGCATGAGCGGCCGCTTGCTCACCGGGGTCTTTACCGATTTTTTCGGCTGGCGCGTGGCGCTGGCGGTGATCAGCGGCTTCGCCCTGGCCGCGGCGATTATGTTCTGGCGAATCCTGCCCGAGTCGCGCCATTTCCGCCCGACCTCGCTGCGGCCAAAAACGCTGCTGATTAATTTCCGCCTGCACTGGCGCGATCGCGGCCTGCCGCTGCTATTCGTCGAGGGTTTCCTGCTGATGGGGGCCTTTGTCACCCTGTTTAACTACATTGGCTACCGTCTGATGATGTCGCCGTGGTCGTTAAGCCAGGCGGTGGTGGGTCTGCTGTCGGTGGCGTATCTCACCGGGACCTGGAGCTCGCCGAAAGCGGGCGCCATGACCGTACGCTACGGCCGCGGTCCGGTGATGCTCGGCTTTACCGGCGTGATGCTCTGCGGCCTGCTGATGACGCTCTTTTCTTCCCTGTGGCTTATTTTCCTCGGCATGTTGCTGTTCTCCGCCGGCTTCTTCGCCGCGCACTCCGTCGCCAGCAGCTGGATTGGCCCGCGCGCGCGCCGCGCCCGCGGTCAGGCGTCATCGCTGTATCTGTTCAGCTATTATCTTGGCTCAAGCCTGGCGGGGACATTAGGCGGGGTGTTCTGGCATCGCTACGGCTGGAACGGCGTCGGCGGATTTATCGCGCTGCTGCTCCTTGCCGCGCTGTTGACCGGCACTTGCCTGTATCGGCGACTCAAATAA	MSRTTTVDTVPAGEVSVAGASRPDPFIKRGTPQFMRVTLALFSAGLATFALLYCVQPILPVLSNEFGVSPASSSISLSISTAMLAVGLLFTGPLSDAIGRKPVMVTALLLAACCSLLSTMMTSWHGILIMRALIGLSLSGVAAVGMTYLSEEIHPSFVAFSMGLYISGNSIGGMSGRLLTGVFTDFFGWRVALAVISGFALAAAIMFWRILPESRHFRPTSLRPKTLLINFRLHWRDRGLPLLFVEGFLLMGAFVTLFNYIGYRLMMSPWSLSQAVVGLLSVAYLTGTWSSPKAGAMTVRYGRGPVMLGFTGVMLCGLLMTLFSSLWLIFLGMLLFSAGFFAAHSVASSWIGPRARRARGQASSLYLFSYYLGSSLAGTLGGVFWHRYGWNGVGGFIALLLLAALLTGTCLYRRLK	PGPT0017201_740	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_OTHER_SUGAR_TRANSPORT_RELATED_PROTEINS,PGPT0017201-ynfM-K08224	NA	NA
BMS020_00178	903	hcaR_1		Hca operon transcriptional activator HcaR	ATGAATATCGAGTTGCGTCATTTGCGCTACTTTGTCGCCGTCGCCGAGGAGCTGCATTTTGGCCGCGCCGCGGCGCGACTGAACATCTCTCAACCGCCGTTAAGCCAGCAAATTCAGATCCTCGAGCAGCAGACCGGCGCCCGCCTGTTCGCCCGCACCAACCGCAGCGTCAGCCTGACGGCGGCGGGGAAACAGTTTCTCGCCGACAGTCGACAAATTCTCGCCCAGGTGGAGGACGCGGCCGCCCGCGCCGCCCGTCTGCACCATGGGGAAACGGGCGAACTGCGTATCGGCTTTACCTCCTCGGCCCCTTTTATCAAGGCGGTATCCGATACGCTGTCCCTGTTTCGTCAGCGCTACCCGGATGTGCATATTCTCACCCGCGAGACCAATACCCGCGAACAGATTGTCCCGCTGAGCGAGGGAGCCCTCGACCTCGGCCTGTTGCGCAATACCCAACTGCCGGACACCCTGGCGTGGCAGCGAGTGCTGCGCGAGCCGCTGCTGGCGATGGTCCCGGCGGACCATCCGCTGGCCCGCCAGCCCTCGGTCAGCCTGGCGGCGCTGGCGCGGGAGCCGTTCGTCTTTTTCGACCCGCACGTCGGTACCGGCCTGTATGACGATATCCTTGGCCTGCTGCGCCGCTACGGTCATACGCCGGTGATTGCCCAGGAGGTGGGGGAGGCGATGACCATTATTGGCCTGGTGGCCGCCGGGCTGGGGGTGTCGATCCTGCCGGCCTCCTTTCAGCGCGTGCAGCTCAGCGAAATGCGCTGGCTGCCGATTGACGAACAGGATGCGGTGTCGGAGATGTGGCTGGTGTGGTCGAAACACCATGAGCAGGGGGCGCTGGCAAAACGCTTTCGTGACACGCTGCTGGCCTGGAAAAACGAGCGCAATTGA	MNIELRHLRYFVAVAEELHFGRAAARLNISQPPLSQQIQILEQQTGARLFARTNRSVSLTAAGKQFLADSRQILAQVEDAAARAARLHHGETGELRIGFTSSAPFIKAVSDTLSLFRQRYPDVHILTRETNTREQIVPLSEGALDLGLLRNTQLPDTLAWQRVLREPLLAMVPADHPLARQPSVSLAALAREPFVFFDPHVGTGLYDDILGLLRRYGHTPVIAQEVGEAMTIIGLVAAGLGVSILPASFQRVQLSEMRWLPIDEQDAVSEMWLVWSKHHEQGALAKRFRDTLLAWKNERN				NA	NA	NA	NA	NA
BMS020_00179	1224	mlc	COG1940	Protein mlc	ATGGTGGTAGCGGATAGTCAACCAGGCCATATCGATCAAATTAAGCAGACCAATGCGGGCGCCGTCTATCGCCTGATTGATCAGCTCGGCCCGGTATCGCGTATCGACCTCTCCCGATTTGCGCAACTGGCGCCCGCCAGCATCACCAAAATTGTCCGCGAGATGCTGGAAGCGCATCTGGTGCAGGAGACCGAGATTCAGGAGCCCGGCAGCCGCGGGCGCCCGGCGGTGGGTCTGATGGTGGAAACCGAGGCCTGGCACTATCTGGCGGTGCGCATCAGCCGCGGCGAGATCCACCTTTCGCTGCGCGATTTAAGCAGCCAGCTGGTGGTGGAGGAGCAGCTGGAGCTGGCCCTTACCGACAGCTCGCCGTTTCTGACGCGGATTATCGACCATATCGATCGCTTCTTTATTCGCCACCAGAAGAAGCTGGAACGCCTCACCTCCATCGCCATAACGATGCCGGGTATCATTGATACCGAAAACGGCATTATTCATCGCATGCCGTTTTATGAAGAGGTCAAAGACGTCCCGTTGGGCGAAACGCTGGCCAACCATACCGGGGTGCCGGTCTATATTCAGCATGACATTAGCGCCTGGACCATGGCGGAATCGCTATTTGGCGCCTCGCGCGGCGCCCGGGACGTCATCCAGGTGGTGATCGATCATAACGTCGGCGCCGGGGTTATCACCGACGGACGTCTGCTGCACGCCGGCAGCAGCAGCCTCGTGGAGATCGGTCATACCCAGGTCGACCCCTACGGCAAACGCTGCTACTGCGGCAACCATGGCTGTCTGGAAACGATCGCCAGCGTGGAGAGCGTGCTGGAGCTGGCGCAGATGCGGATGGCGCAGTCGATGAGCTCGCTGCTGCATCAGCGTCCGCTGAGCGTGGAGTGGCTGTGCCAGGCGGCGCTGCAGGGCGACCTGCTGGCCCGGGACATTATTAGCGGCGTCGGTCATCACGTCGGTCGCATTCTGGCGATCATGGTCAATCTGTTTAACCCGCAGAAAATCCTGATCGGCTCGCCGTTTAACCTGGCGGCAGACATTCTTTTTCCGGCAATTTCCAGCTGCATTCGGCAACAATCACTCCCGGCCTACAGCCAGCATATCGCGGTTGAAAGCACCCAGTTCTCCAACCGCGGAACGATGGCTGGCGCGGCGCTGGTCAAGGATGCGCTCTATAACGGATCCTTACTCATACGACTGTTACAGGGTTAA	MVVADSQPGHIDQIKQTNAGAVYRLIDQLGPVSRIDLSRFAQLAPASITKIVREMLEAHLVQETEIQEPGSRGRPAVGLMVETEAWHYLAVRISRGEIHLSLRDLSSQLVVEEQLELALTDSSPFLTRIIDHIDRFFIRHQKKLERLTSIAITMPGIIDTENGIIHRMPFYEEVKDVPLGETLANHTGVPVYIQHDISAWTMAESLFGASRGARDVIQVVIDHNVGAGVITDGRLLHAGSSSLVEIGHTQVDPYGKRCYCGNHGCLETIASVESVLELAQMRMAQSMSSLLHQRPLSVEWLCQAALQGDLLARDIISGVGHHVGRILAIMVNLFNPQKILIGSPFNLAADILFPAISSCIRQQSLPAYSQHIAVESTQFSNRGTMAGAALVKDALYNGSLLIRLLQG	PGPT0017991_101	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
BMS020_00180	696	bioD1_1	COG0132	ATP-dependent dethiobiotin synthetase BioD 1	ATGTTTAAGCGTTTCTTTATTACAGGTACAGACACCTCTGTCGGGAAGACAGTGGTTTCCCGTGCGCTGTTGCAGGCACTTGCTGCCAGAGGCAAAAGCGTGGCCGGGTACAAGCCTGTGGCGAAGGGCAGCAAAGAGACGCCGGACGGTTTGCGTAATAAAGACGCGCTGGTGCTGCAGAGCGTCTCCACGCTGGCGTTACCCTATGAGGCTGTCAATCCCATCGCCTTAAGCGAAGACGAAAGCAGCGTGGCGCACAGCTGCCCGATCAACTACGGTCTGCTGTCGGATGGTTTGCAGCGGCTGGCCGGGCAGGTTGAACACGTGGTGGTTGAAGGCACCGGCGGCTGGCGCAGCCTGATGAACGACCTGCGACCGCTCTCCGAATGGGTGGTACAGGAGCAGCTCCCGGTGCTGATGGTGGTGGGGATCCAGGAAGGGTGCATCAACCATGCGCTGCTGACGGCCCAGGCGATCGCCAATGACGGGCTGCCGCTGATCGGCTGGGTGGCCAACCGCATCAACCCCGGTCTGGCGCACTACGCCGAAATCATCGATGTGCTCAGCAAAAAGCTGCCGGCGCCGCTCATTGGCGAGCTGCCGTATCTGCCGCGCGCCGAACAGCGTGAGCTAAGCCGCTACGTCGACTTAGACATGCTCGGCAACGTGATGGCGATAGATCGAATCCCGGCGTAA	MFKRFFITGTDTSVGKTVVSRALLQALAARGKSVAGYKPVAKGSKETPDGLRNKDALVLQSVSTLALPYEAVNPIALSEDESSVAHSCPINYGLLSDGLQRLAGQVEHVVVEGTGGWRSLMNDLRPLSEWVVQEQLPVLMVVGIQEGCINHALLTAQAIANDGLPLIGWVANRINPGLAHYAEIIDVLSKKLPAPLIGELPYLPRAEQRELSRYVDLDMLGNVMAIDRIPA	PGPT0022115_1157	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022115-bioD-K01935	NA	NA
BMS020_00181	1296	clcB_1	COG0038	Voltage-gated ClC-type chloride channel ClcB	ATGCACCGTCTTCATCCCTATCCAGATGTGCAGGTGATGTTTCGTCGCCTGCTGATCGCCACGCTGATTGGCCTTCTCGCCGCCCTGGCGGTGGCCCTGTTTCGCCATGCCATGGTGGTGCTGGAAACGCTGTTTCTCGGTAACGACAGCGGGAGCCTGGTCAATGCCGCGCAGTCGCTGCCGGCGTGGCGGCGGCTGATTACCCCGGCGCTGGGGGGACTGGCGGCAGGGGCACTTCTCTGGCTGTGGCAACGACGCCGCGTTGCCCGCCCGCACGCCGCCACCGATTATATGGAAGCCCTGGAGACCGGAGACGGTTGCTTCGATACGCCGGCAAGCCTGGTGAAGTCGCTGGCCTCGCTGCTGGTGGTGGTCACCGGCAGCGCGATTGGCCGGGAAGGCGCCATGATCCTGCTGGCCGCGCTGGCGGCCTCGCTGTTCGCCCGCCGCTTCACGCCGCAGGCCGAATGGAAACTGTGGGTCGCCTGCGGCGCCGCCGCCGGGATGGCCAGCGCCTATCATGCTCCACTGGCCGGCAGCCTGTTTATCGCTGAAATTCTGTTTGGCACGCTGATGCTGGCCTCGCTTGGGCCGGTAGTGATCTCGGCGGTGATCGCCCTGCTGCTGACCCAGTTTCTCAACGGCGGCGCCGCGCCGTTGTACCATGTCGTCCTGCAGCAGGATCTCAGCGCGCTGCACTATGGCCTGATGCTCGCCACCGGACTGCTGGCCGGACTGTGCGGGCCGCTGTTTATCTGGCTGATGGAATACAGCCACCGCGGGTTCGTCAGGCTGAAACTGGCGCCGCCGTGGCAGCTGGCGCTGGGCGGTCTGATCGTCGGCGGCTTATCGCTCATCACGCCGGCGGTGTGGGGCAACGGCTACAGCGTGGTGCAAAGCTATCTGCTGCTGCCGCCGCCAGGCGCGCTGCTGGTGGCGGTATTCCTGTGCAAACTGCTGGCAGTGCTGGCCAGCAGTGGCTCCGGCGCGCCGGGCGGGGTGTTTACCCCCACGCTGTTTGTCGGCCTGGCGATGGGCATGCTATTGGCCCGCTTCAGCGGGCTGTGGCTACCGGGGGAGCAGGAGATGGCTATGATGATGGGACTGACCGGCATGGCGGCGTTTCTTGCCGCCACTACCCATGCGCCAATCATGTCGACTCTGATGATTTGTGAGATGACCGGGCAGTATGTGCTGCTGCCCGGCCTGCTGATCACCTGCGTGGTGGCGTCGGTGCTGTCGCGGACGTTACGCCGGGATTCGATCTATCGCCATCACGTTGCCGAGCATGTCTAA	MHRLHPYPDVQVMFRRLLIATLIGLLAALAVALFRHAMVVLETLFLGNDSGSLVNAAQSLPAWRRLITPALGGLAAGALLWLWQRRRVARPHAATDYMEALETGDGCFDTPASLVKSLASLLVVVTGSAIGREGAMILLAALAASLFARRFTPQAEWKLWVACGAAAGMASAYHAPLAGSLFIAEILFGTLMLASLGPVVISAVIALLLTQFLNGGAAPLYHVVLQQDLSALHYGLMLATGLLAGLCGPLFIWLMEYSHRGFVRLKLAPPWQLALGGLIVGGLSLITPAVWGNGYSVVQSYLLLPPPGALLVAVFLCKLLAVLASSGSGAPGGVFTPTLFVGLAMGMLLARFSGLWLPGEQEMAMMMGLTGMAAFLAATTHAPIMSTLMICEMTGQYVLLPGLLITCVVASVLSRTLRRDSIYRHHVAEHV	PGPT0004990_2410	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0004990-TC_CIC|eriC-K03281	NA	NA
BMS020_00182	609	dmsD	COG3381	Tat proofreading chaperone DmsD	ATGATGCCGTTCCCTCACCGCGACGCTGTCGCCTTAAGCGCCCGTACCCTGGGCGCGTTGTTCTCTTATGCGCCGAATAGCCCGCAAATCGCGCCGCTGGTGGCCGCCTTCCAGGACGGCAGCTGGCAGCAACAGTGGCCCTTCCCGGTTGCCGCCCCGCTGGCATCGGGGTTTGCCGCGTCGGTTGAAGAGTCGTTGCCGGAAGCCTGGCAGCGCCTGTTTATCGGACCGTGGGCCCTGCCGGCGCCGCCATGGGGATCCGTCTGGCTGGATAAAGAGTCGGTGCTGTTCGGCGAATCCACACTGGCCCTGCGCGAATGGATGCGCGCGAACGGCATCGCACTGGACGCCGAACGCAACGAGCCGGAAGACCATTTCGGCACCCTGCTGCTGCTGGCGGCGTGGCTGTGCGAAACGGAACAGGAGGCGTTGTTTGCCCAGCTGCTGGCCTGGCATCTGCTGCCGTGGTCCGGGCGCTTCCTGAGCGTCTTTGTCGAACATGCCGCCCACCCCTTCTACCAGGCGCTGGGCCAGCTGGCGCAGGCGACCCTGGCGCAGTGGCAGGCAGGTCTGCCCCTCGCGGTGGCGGAAAAGCCGCTCTATCGCTAA	MMPFPHRDAVALSARTLGALFSYAPNSPQIAPLVAAFQDGSWQQQWPFPVAAPLASGFAASVEESLPEAWQRLFIGPWALPAPPWGSVWLDKESVLFGESTLALREWMRANGIALDAERNEPEDHFGTLLLLAAWLCETEQEALFAQLLAWHLLPWSGRFLSVFVEHAAHPFYQALGQLAQATLAQWQAGLPLAVAEKPLYR	PGPT0004865_749	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004865-dmsD|serD-K23349	NA	NA
BMS020_00183	858	dmsC_1	COG3302	Anaerobic dimethyl sulfoxide reductase chain C	ATGGGAAGCGGATGGCAGGAATGGCCGCTGGTGCTGTTTACGGTACTGGGGCAATGCGTGGTCGGCGCGACCCTCGTCAGCGGTCTGGTCTGGCTTGCGCTGGCTGACCAGCGCGAAGCGCGGCAGCGGCTGGTGCGCAGCATGTTTTTTATCTGGCTGCTGATGGGGATCGGTTTTCTCGCCTCAGTGATGCATCTCGGTTCGCCGCTGCGGGCGTTTAATTCGCTGAACCGCGTCGGGGCCTCGGCGCTGAGCAACGAAATCGCCAGCGGCGCCTTGTTTTTCGTCGTGGGCGGATTCTGGTGGCTGCTGGCCGTGCTGGAAAAAATGCCGGCGGCGCTGGGGAAAGTCTGGCTGGCGATCGCCCTGCTGTTGGGGCTGGTGTTTGTGCTGGCGATGACCCGGGTTTATCAAATCGATACCGTGCCGACATGGTACACTGGCTACACCACCAGCGCCTTCTTCCTGACGGTACTCCTCAGCGGGCCGCTGTTCGCCGCCCTGCTGCTGCGTATGGCGAAAGTCGACGTTAACGTCTGGTTTATTGCCGGGCTGAGCGTGGCCGCGCTGGTCATCAGCGCCGCGATTATCGTGATGCAAAGCGCCGGGCTCGGCGCCATTCACAGCGCCGTTCAGCAGGCGGCCACCCTGCTGCCGGATTACGGCAGACTGCAGGCCTTACGTCTGATCCTGCTGGCGCTGGGACTTGGCTGCTGGCTGTGTCCGCTGATCCGCCGTCAGCCGCCGCGCGCTGCGGGGCTGTTGGCCGGTCTGTTGCTGGTCCTGATCGCGGAATGTATTGGCCGCGGCCTGTTTTATGGGCTCCATATGACCGTCGGTATGGCGGTTGCCCGTTAA	MGSGWQEWPLVLFTVLGQCVVGATLVSGLVWLALADQREARQRLVRSMFFIWLLMGIGFLASVMHLGSPLRAFNSLNRVGASALSNEIASGALFFVVGGFWWLLAVLEKMPAALGKVWLAIALLLGLVFVLAMTRVYQIDTVPTWYTGYTTSAFFLTVLLSGPLFAALLLRMAKVDVNVWFIAGLSVAALVISAAIIVMQSAGLGAIHSAVQQAATLLPDYGRLQALRLILLALGLGCWLCPLIRRQPPRAAGLLAGLLLVLIAECIGRGLFYGLHMTVGMAVAR	PGPT0004885_56	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004885-ynfH-K07312	NA	NA
BMS020_00184	618	dmsB_1	COG0437	Anaerobic dimethyl sulfoxide reductase chain B	ATGAGCACGCAATATGGATTCTTTATCGACTCCGCTCGCTGTACCGGGTGCAAAACCTGCGAGCTGGCCTGTAAGGACTATAAGAACCTGACTCCGGAAGTCAGCTTCCGTCGCATCTATGAGTACGCCGGCGGCGACTGGCAGGAGGACAACGGCGTCTGGCAGCAGAACGTGTTCGCCTATTACCTCTCCATCGCCTGTAACCACTGCGCCGATCCGGCCTGCACCAAAGTCTGCCCGAGCGGGGCGATGCATAAGCGAGAAGACGGTTTTGTGGTGGTGGATGAAGAGGTGTGCATCGGCTGCCGCTACTGTCATATGGCCTGCCCGTACGGCGCGCCGCAATACAACGCCGACAAAGGCCATATGACCAAGTGCGACGGCTGTTATCAGCGCGTCGCCGAGGGGAAAAAGCCGATCTGCGTCGAGTCCTGCCCGCTGCGGGCGCTCGATTTCGGCCCCATTGCCGAACTGCGCGCTAAGCACGGCCAGCTGGCGGCGGTGGCCCCGCTGCCCTCCGCGCACTTCACTCAGCCGAGCATCGCGATCAAACCTAACCGCAACGCCCGGCCGTGTGGCGATACCACCGGTTATCTGGCAAATCCGAAGGAGGTGTGA	MSTQYGFFIDSARCTGCKTCELACKDYKNLTPEVSFRRIYEYAGGDWQEDNGVWQQNVFAYYLSIACNHCADPACTKVCPSGAMHKREDGFVVVDEEVCIGCRYCHMACPYGAPQYNADKGHMTKCDGCYQRVAEGKKPICVESCPLRALDFGPIAELRAKHGQLAAVAPLPSAHFTQPSIAIKPNRNARPCGDTTGYLANPKEV	PGPT0002870_362	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0002870-dmsB-K07307	NA	NA
BMS020_00185	2436	ynfE	COG0243	Putative dimethyl sulfoxide reductase chain YnfE	ATGTCGAATCAGGAATCTACCGGCGGCGTCACCCGACGCGCGCTACTTAAATCCACAGCCCTCGGTTCTCTGGCGCTGGCCGCCGGCGGGCTTCCCCTGCCCTTTACGCTGCGCAGCGCCGCGGCGGCGGTACAGCAGGCTGCCGGCGACAACACCCGCATTGTCTGGGGCGCCTGTTCGGTCAACTGCGGCAGCCGCTGCGCCCTGCGGCTGCACGTGCGTGATGATGAAGTGGTCTACGTGGAAACGGATAACACCGGCGACGACCGCTACGGCGATCATCAGGTCCGCGCCTGCCTGCGGGGGCGTTCGATTCGCCGGCGCATCAACCACCCGGATCGCCTTAACTATCCGATGAAGCGCGTTGGCAAACGCGGAGAAGGCAAATTTGAGCGTATCAGCTGGCAGGAAGCGCTGGATACCCTTGCTGACCGTCTGAAACGCGTCGTCGCGCAATATGGCAACGAAGCCGTGTACATTAACTACTCATCAGGAATCGTCGGCGGGAACATGACCCGCTCCTCGCCTTCCGCTTCGCCGGTGGCGCGGCTGATGAACTGCTACGGCGGCTCGCTTAACCAGTACGGTACCTACAGCACCGCGCAGATCGCCTGCGCCATGCCCTACACCTACGGCAGTAACGACGGCAACAGCACTTCGGATATTGAAAACAGTAAGCTGGTGGTGATGTTCGGCAACAACCCGGCGGAAACCCGCATGAGCGGCGGCGGCATTACCTGGTATCTGGAACAGGCCCGCGAGCGCTCCAACGCGCGGATGATCGTTATCGATCCGCGGTACACCGATACCGCCGCCGGTCGCGAAGATGAGTGGATCCCCATTCGCCCCGGCACAGACGCCGCGCTGGTCGCCGGTATCGCCTGGGTGTTGATTAACGAAAATCTGGTGGATCAGCCGTTCCTTGATAAATACTGCGTCGGCTACGATGAGAAGACGCTGCCGGCCGGGGCGCCTGAGAATGGCCACTATAAAGCCTATATCCTCGGCGAGGGCGACGACGGCGTCGCCAAAACGCCGCAGTGGGCTTCGCGTATCACCGGCATCCCCGCCGATCGCATCATTAAGCTGGCGCGCGACATCGGCATGAGCAAACCGGCCTACATCTGCCAGGGCTGGGGGCCGCAGCGCCAGGCCAACGGCGAACTCTCCGCCCGGGCGATCGCCATGCTGCCGATCTTAACCGGCAACGTCGGCATCAACGGCGGCAACAGCGGCGCCCGAGAATCGACCTACACCATCACCATCGAGCGTCTGCCGGTGCTGGAAAACCCGGTGAAAACCGCCATCTCCTGCTTCACCTGGACCGACGCCATCGCTCGAGGCCCGGAGATGACCGCCACCCGCGACGGCGTACGCGGCAAAGAGAAGCTGGATGTGCCGATCAAGTTCCTGTGGAACTACGCGGGCAATACCCTCATCAACCAGCACTCCGACATCAATAAGACCCACGAGATCCTGCAGGACGAAAGCAAGTGCGAAACCATCGTGGTCATCGACAACTTTATGACCTCGTCAGCGAAATACGCCGACCTGCTGCTGCCCGACCTGATGACCGTTGAGCAGGAAGATATTATTCCCAACGATTACGCCGGCAATATGGGCTATCTGATTTTCATCCAGCCCGCCACCTCGGCGAAGTTTGAACGCAAACCGATTTACTGGATCTTAAGCGAAGTGGCGAAACGGCTCGGCGACGATGTCTACCAGCGTTTTACCGAGGGACGTACTCAGGCGCAGTGGCTGCAGCATCTGTACGCCAAAATGGTGGCGAAAGATCCGGCGCTGCCGGCCTACGATGAGCTGAAGCGAATGGGCATCTACAAGCGCAAGGACCCGAACGGCCACTTCGTCGCCTATCGCGACTTCCGCCGCGATCCTGAAGCGCATCCGCTCAAAACCCCGTCCGGCAAAATTGAGATCTACTCCAGCCGGCTCGCCGAAATTGCCGCCCGCTGGCAGCTGGAGAAAGACGAAGTCATCAGCCCGCTGCCGGTCTATGCCTCCACATTTGAAGGCTGGGACGATCCGCTGCGCAGCCAGTATCCGCTGCAGCTGTTTGGATTTCATTATAAGGCGCGCACCCATTCCAGCTACGGCAACGTGGACGTGCTGCAGGCCGCCTGCCGTCAGGAAGTGTGGATCAACCCGCTGGACGCGGAAAAACGCGGGATTAAAAACGGCGATCTGGTGCGGGTGTTCAACCAGCGCGGCGAAGTCCGGCTGCCGGCGAAAGTGACGCCACGCATCATGCCGGGCGTGTCGGCGATGGGCCAGGGCGCGTGGCACGACGCCAATATGGCCGGGGACCGGGTTGACCATGGCGCCTGCATGAATACCCTGACCACCCATCGCCCCTCGCCGCTGGCGAAAGGGAATCCGCAGCATACCAACCTGGTCGACATCGAGAAGGTTTAA	MSNQESTGGVTRRALLKSTALGSLALAAGGLPLPFTLRSAAAAVQQAAGDNTRIVWGACSVNCGSRCALRLHVRDDEVVYVETDNTGDDRYGDHQVRACLRGRSIRRRINHPDRLNYPMKRVGKRGEGKFERISWQEALDTLADRLKRVVAQYGNEAVYINYSSGIVGGNMTRSSPSASPVARLMNCYGGSLNQYGTYSTAQIACAMPYTYGSNDGNSTSDIENSKLVVMFGNNPAETRMSGGGITWYLEQARERSNARMIVIDPRYTDTAAGREDEWIPIRPGTDAALVAGIAWVLINENLVDQPFLDKYCVGYDEKTLPAGAPENGHYKAYILGEGDDGVAKTPQWASRITGIPADRIIKLARDIGMSKPAYICQGWGPQRQANGELSARAIAMLPILTGNVGINGGNSGARESTYTITIERLPVLENPVKTAISCFTWTDAIARGPEMTATRDGVRGKEKLDVPIKFLWNYAGNTLINQHSDINKTHEILQDESKCETIVVIDNFMTSSAKYADLLLPDLMTVEQEDIIPNDYAGNMGYLIFIQPATSAKFERKPIYWILSEVAKRLGDDVYQRFTEGRTQAQWLQHLYAKMVAKDPALPAYDELKRMGIYKRKDPNGHFVAYRDFRRDPEAHPLKTPSGKIEIYSSRLAEIAARWQLEKDEVISPLPVYASTFEGWDDPLRSQYPLQLFGFHYKARTHSSYGNVDVLQAACRQEVWINPLDAEKRGIKNGDLVRVFNQRGEVRLPAKVTPRIMPGVSAMGQGAWHDANMAGDRVDHGACMNTLTTHRPSPLAKGNPQHTNLVDIEKV	PGPT0004870_104	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004870-ynfE-K07309	NA	NA
BMS020_00186	270			hypothetical protein	ATGAAACTATCCCTCTGGACAGGCGCCGCGCTGCTGCTGTGCTCCACGACCGTGCTGGCGGCCCCCGACTCCTGTGAACGGGTCAAAAATGATATTCAACAGAAGATCATTAACAATGGCGTACCGGAAACGGCCTTCAGTCTGGCCATCGTGCCAAACGACCAGGCGGACCAGCCCGGCGCTCAGGTGGTGGGTCATTGCGCCAACGATACCTTCAAAATCACCTACACCCGTAACAGCGACAGTCCCGCCGAAAACGACGCTCAGTAA	MKLSLWTGAALLLCSTTVLAAPDSCERVKNDIQQKIINNGVPETAFSLAIVPNDQADQPGAQVVGHCANDTFKITYTRNSDSPAENDAQ				NA	NA	NA	NA	NA
BMS020_00187	711			hypothetical protein	GTGAAAAGACTGTATTGGCTAATCCCGACCGCGCTGCTGCTGACGGCGTGCGACCGCGAAAGCGCCCCGGAAGCCTTCACCCCGGAGATGGCGAGTTTTTCCAATGAGTTTGAGTTCGATCCGCTGCGCGGTCCGGTGAAGGATTTTAGCCAGACGTTACTGGACGAACACGATGTGGTGGTCAAGAAGGTGAGCGCGCAGCTGTCAAAAGAGGGATGTTTCGATCTGCTGACGCTGGAGGATGTGGAGAATAACACCGGCGCCACGCTGCTGCTGGACGCCAACTATTACGTCGATGGCCGCACCCATGAGAAGCGGCTGCGTCTGCAGGGGAAATGTCAGCTGGCGGAGATGCCCGCCACCGGCGTGAGCTGGGAAACGGATGATAACGGCTTTATTATCAGCGCCCGCGGCAAAGAGACTACCGCCACCTACCGTTACGACAGCGATGGCTATCCGCTGGGGAAAACCACCACCGCCAAAGAGGAGCGATTTACCGTCGCCTCCACGCCGTCGAAGGATCCGCGCAAGAAAATGGACTATACCGCCATCAGCACCTTCAACGACCGCACGCTGGGCACGGTGCGCCAGACCTGCGACTACGATCGCCATGACAATCCGCTGAGCTGTGAGCTGCAGGTGATCGATGAAAGCGTCCAGCCGCCGCTGACCCGCCACTACACGATTAAAAACCGCATTGATTATTACTGA	MKRLYWLIPTALLLTACDRESAPEAFTPEMASFSNEFEFDPLRGPVKDFSQTLLDEHDVVVKKVSAQLSKEGCFDLLTLEDVENNTGATLLLDANYYVDGRTHEKRLRLQGKCQLAEMPATGVSWETDDNGFIISARGKETTATYRYDSDGYPLGKTTTAKEERFTVASTPSKDPRKKMDYTAISTFNDRTLGTVRQTCDYDRHDNPLSCELQVIDESVQPPLTRHYTIKNRIDYY				NA	NA	NA	NA	NA
BMS020_00188	561	speG	COG1670	Spermidine N(1)-acetyltransferase	ATGACCGACGCGCTACACGTCAGACTCCGCCCCCTTGAGCGCGAAGATTTGCGCTTTGTTCACCAGCTCGACAACAACGCCAGCGTGATGCGCTACTGGTTTGAAGAGCCCTATGAAGCCTTCGTTGAGCTTTCCGATCTGTACGACAAGCATATTCACGATCAAAGCGAGCGTCGCTTTGTGATCGAATGCAATGGCGATAAAGCCGGACTGGTGGAGCTGGTGGAAATCAACCATGTGCACCGCCGGGCCGAATTTCAGATCATCATCTCACCCGACTTCCAGGGAAAAGGGCTCGCCACCCGCGCCGCGCGGCTGGCGATGGACTATGGCTTTACCGTGCTCAATCTGTATAAGCTGTATCTGATTGTGGATAAAGAGAATGAAAAAGCGATCCATATTTACCGCAAGCTCGGCTTTATGGTCGAGGGTGAACTGATCCATGAATTTTTCATTAACGGCGAGTACCGCAACACCATCCGCATGTGTCTGTTTCAGCATCAGTATCTGGCGGAACACAAAACGCCGGGCCCGTCTCTGCTGAAGCCGACGGCTCAGTAA	MTDALHVRLRPLEREDLRFVHQLDNNASVMRYWFEEPYEAFVELSDLYDKHIHDQSERRFVIECNGDKAGLVELVEINHVHRRAEFQIIISPDFQGKGLATRAARLAMDYGFTVLNLYKLYLIVDKENEKAIHIYRKLGFMVEGELIHEFFINGEYRNTIRMCLFQHQYLAEHKTPGPSLLKPTAQ	PGPT0007790_227	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
BMS020_00189	342			hypothetical protein	ATGAACATGACACTGAACAAACGCTGGTGCCTGACCGCCATTCTGGCGTTAAGCGCCGTCGTCTATACCTCCAGCTCGTTCGCGGCCACCGACCGGCTGGTGATTGAGTCCGGCGACAGCGCGCAAAGCCGTCAGCAGGCGTCGATGGAAAAAGAGCAATGGAACGATACCCGCAGCCTGCGCCAGAAGGTGAACAAACGGGCGGAAAAAGAGTGGGACAAAACCGATGTCGCCTTTGACGCGCAGGATAACTGCCAGAAGAGCGCCAACGTCAATGCCTACTGGGAACCAAACACCCTGCGCTGCCTTGACCGCCGCACCGGCCGGGCGATCAATCCCTGA	MNMTLNKRWCLTAILALSAVVYTSSSFAATDRLVIESGDSAQSRQQASMEKEQWNDTRSLRQKVNKRAEKEWDKTDVAFDAQDNCQKSANVNAYWEPNTLRCLDRRTGRAINP				NA	NA	NA	NA	NA
BMS020_00190	327			hypothetical protein	ATGCTCAAAACAACGCTGCTGTTCTTTGCCACCGCCCTGTGTGAAATCGTCGGCTGCTATCTGCCGTGGCTATGGTTAAAGCGCGGGGCCACGCCGCTGCTGCTGATCCCCGCCGGCCTGGCGCTGGGGCTGTTCGTCTGGCTCCTGACGCTCCATCCGACCGCCAGCGGGCGGGTATATGCCGCCTACGGTGGCGTCTACGTTTGTACGGCATTGCTCTGGCTACGGGTCGTTGATGGGGTCAAATTAACCCATTATGACTGGGCGGGCGCGGCCATCGCCCTGTGCGGCATGCTGATTATCGTGGCGGGCTGGGGACGAGCGTAA	MLKTTLLFFATALCEIVGCYLPWLWLKRGATPLLLIPAGLALGLFVWLLTLHPTASGRVYAAYGGVYVCTALLWLRVVDGVKLTHYDWAGAAIALCGMLIIVAGWGRA	PGPT0029120_1217	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029120-TC_SMR3-K09771	NA	NA
BMS020_00191	1284	lgoT		putative L-galactonate transporter	ATGGCTATTGAGACATTTGCCCCACAGGCGGGCGCGACGCCGCTGCGCATCCGTCGGGTGCAGAAGATCACCCTGACGCTGCTGTTTATCGCCGGGATCGTTAACTTTCTTGACCGCTCTTCCCTGAGCGTCGCCGGGGAGGCGATACGCGCCGATCTGGGTCTGAGCGCCACCGAGTTCGGGGTGCTGCTCTCCGCTTTTTCGCTCTCCTATGGCTTCGCGCAACTGCCCTCGGGCATTTTGCTGGATCGCCTCGGACCGCGGGTTGTGCTAGGCGCCGGGCTGATATTCTGGTCTGCGATGCAGGCCCTGACCGGGATGGTCAATTCCTTCTCGCATTTTATTCTGCTGCGCATTGGCCTCGGGATCGGTGAAGCGCCGTTTATGCCCGCCGGCGTGAAATCGATCAACGACTGGTATGCGCAAAGAGAGCGCGGCACGGCGGTGGGGATATTTAACTCCTCGACGGTGCTGGGGCAAGCCATTGCCCCGCCGGCCCTGGTCATCATGCAGCTGGCCTGGGGCTGGCGGACAATGTTTGTGGTGATTGGTTTGACCGGTATTCTGGTCGGCCTGTGCTGGTATGTGGGATACCGTAACCGGCGGCAATTTACCCTCCAGGAGGAGGAGCAACGCTATCTGGCCAGCGAGGAGGCGGCCCGGCCGGCGCTGAAACTGAGCGAATGGCTGGCGCTGTTTAAACGGCGTACTACCTGGGGGATGATCCTCGGCTTCTCCGGGGTGAACTATACCGGCTGGCTGTATATCGCCTGGCTGCCCGGCTATTTGCAGGCTCAGCAGGGGTTAAGCCTGGCGCGCACCGGCTGGGTGGCGGCGATCCCGTTCCTCGCCGCGGCGGTGGGAATGTGGGTCAATGGTCTGGTGGTCGACGCCCTGGCGCGCAGAGGCTACGATCTGGCGAAAACCCGCAAAACGGCGATCGTTGCCGGTCTGGTGCTGTCGGCGCTGGGAACGTTGCTGGTGGTGCAATCGTCCACGCCGACCCAGGCGGTGGCGTTTATCTCCATGGCGCTGTTCTGCGTCCATTTCGCTGGCACCTCGGCCTGGGGATTGGTACAGGTGCTGGTGGCGGAGCATAAAGTGGCGTCGGTGGCGGCGATCCAGAACTTTGGCAGCTTTGTGTTTGCCTCCTTCGCGCCGATAGTCACCGGCTGGGTCGTGGATACCACCCATTCTTTCAATCTGGCGCTGGTGATCGCCGCCGGGGTGACCTTCGCCGGGGCGCTGTGCTACTTCTTTATCGTCAAAACCCGCATCGATTAA	MAIETFAPQAGATPLRIRRVQKITLTLLFIAGIVNFLDRSSLSVAGEAIRADLGLSATEFGVLLSAFSLSYGFAQLPSGILLDRLGPRVVLGAGLIFWSAMQALTGMVNSFSHFILLRIGLGIGEAPFMPAGVKSINDWYAQRERGTAVGIFNSSTVLGQAIAPPALVIMQLAWGWRTMFVVIGLTGILVGLCWYVGYRNRRQFTLQEEEQRYLASEEAARPALKLSEWLALFKRRTTWGMILGFSGVNYTGWLYIAWLPGYLQAQQGLSLARTGWVAAIPFLAAAVGMWVNGLVVDALARRGYDLAKTRKTAIVAGLVLSALGTLLVVQSSTPTQAVAFISMALFCVHFAGTSAWGLVQVLVAEHKVASVAAIQNFGSFVFASFAPIVTGWVVDTTHSFNLALVIAAGVTFAGALCYFFIVKTRID	PGPT0002195_67	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GALACTONIC_ACID_TRANSPORT,PGPT0002195-lgoT-K23016	NA	NA
BMS020_00192	1464	por_1	COG0246	Polyol:NADP oxidoreductase	ATGGAAAACACCCTCTTAACCGCTAACGCCATACAGCCGGACTACGATCGCCGCGCGCTGGTTCCCCGTATCGTCCATCTGGGTTTTGGCGCGTTCCACCGCGCCCATCAGGCGGTCTACGCCGATATACTGGCTAGCGAGCACGGCAGCGACTGGGGCTACACTGAAGTCAACCTGATTGGCGGCGAGCAGCAGATCGCCGATCTCCGGCAGCAGGATCTGCTGTACACCGTGGCAGAAATGTCCGCCGACGCGTGGACCGCGCGCGTGGTCGGGGTGGTGAAGCAGGCGCTGCACGCCCAGGTCGATGGTCTCGAGGCCGTGCTTTCGGCGATGTGTGAGCCACAGGTGGCCATTGTCTCCCTGACCATTACCGAGAAAGGCTATTGCCATTCGCCAGCCAGCGGCGAGCTGCAGCTCGATCACCCGCTGATCGCCGCCGATCTCGCTAACCCGCGCCAGCCGAACTCGGCAGTGGGCGTGGTGGTGGCGGCCTTAGCGCGTCGCCGGGAGGCAGGACTGTCGGCCTTTACCGTGATGTCCTGCGATAACATGCCGGAAAATGGTCATGTGATGCGTAACGTCGTTTGCGCCTACGCCCGGGCGCTGGACGCGGACCTCGCCGCATGGATAGAACAGAATGTCACCTTTCCGTCGACCATGGTGGACCGTATTGTCCCGGCGGTGACGGCGGAAACCCTCGATAAAATTGAACAGCTGACCGGCGTGCGCGACCCGGCTGGCGTGGCCTGCGAGCCTTTCCGCCAGTGGGTGATTGAGGATAACTTTGTCGCCGGACGTCCACAGTGGGAGAAAGCGGGGGCGGAGCTGGTCGCCGATGTGGTGCCTTTCGAAGAGATGAAGCTGAGGATGCTCAACGGCAGCCATTCGTTCCTCGCCTATCTCGGCTATCTGGCCGGTTATCAGCATATCAACGACTGTATGCAGGATGACAACTACCGCCGCGCGGCGCTGGCGCTGATGCTGGACGAGCAGGCTCCGACCTTGAAAGTGCAGGGGGTGGATCTGTCACACTATGCCAGTCTGCTGATTGACCGCTACTGCAATCCGGCGCTCAAACACCGTACCTGGCAGATTGCCATGGACGGTAGCCAGAAGCTGCCGCAGCGCATGCTGGACTCGGTACGCTGGCACCTGGCGCACCAGCATGACTTCACGCTGCTGGCGCTGGGCGTGGCGGGCTGGATGCGCTATGTCGGCGGTGTTGACGACGCCGGCCAGGCGATCGAAATTTGCGATCCTCTGCTGCCGGTGATCAAGGAGGCGCTAGCCGCCAGCGCCGATGGCGAAGCGCGCGTCAAAGCGCTGTTGGGCATTGAGGCCATCTTCGGCCGTGAGCTGCCGCAGGAAGCGCGGTTCGTCTCGGCGGTGACCCGCGCCTATGTTGCGCTGCAGCGTCAGGGGGCCAAAGCCACCGTTGCCGCATGGGCTGAGGCGCAATAA	MENTLLTANAIQPDYDRRALVPRIVHLGFGAFHRAHQAVYADILASEHGSDWGYTEVNLIGGEQQIADLRQQDLLYTVAEMSADAWTARVVGVVKQALHAQVDGLEAVLSAMCEPQVAIVSLTITEKGYCHSPASGELQLDHPLIAADLANPRQPNSAVGVVVAALARRREAGLSAFTVMSCDNMPENGHVMRNVVCAYARALDADLAAWIEQNVTFPSTMVDRIVPAVTAETLDKIEQLTGVRDPAGVACEPFRQWVIEDNFVAGRPQWEKAGAELVADVVPFEEMKLRMLNGSHSFLAYLGYLAGYQHINDCMQDDNYRRAALALMLDEQAPTLKVQGVDLSHYASLLIDRYCNPALKHRTWQIAMDGSQKLPQRMLDSVRWHLAHQHDFTLLALGVAGWMRYVGGVDDAGQAIEICDPLLPVIKEALAASADGEARVKALLGIEAIFGRELPQEARFVSAVTRAYVALQRQGAKATVAAWAEAQ	PGPT0018275_927	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018275-uxuB-K00040	NA	NA
BMS020_00193	432	uspG_1	COG0589	Universal stress protein UP12	ATGTATAAAAAGATTTTATTGCCTGTTGATGTTTTTGAAATGGATTTAAGCGATAAGGCAGTGCGTCACGCGGAATTTCTCGCGTCGGCGGAAAATGGCGAAATCACCTTGCTCAACGTTCTGCCGAACAGCAGCCGTTCGTTATTACGCGGGTTTACGGCGGATATTCGTAAATTCGAAGCCTATATGCAGGAAGAGTCGGAGAAAAAGATGCGCGAGGTGGCGCGACTGTTCGACATACCGATGTCGCGGATCCATACCCGGGTCGTCTTTGGTAACGTGCGCGATGAAATTCTGGCTATCAGTAACAACGAAGCGTTCGATGTGATAGTGATTGGCTCCCGCAAACCGGGGATCTCCACCCATCTGCTGGGCTCCAACGCCGAATCCATTTTGCGCTACGCCAAAACGCCGGTGCTGGTGGTCAGATAA	MYKKILLPVDVFEMDLSDKAVRHAEFLASAENGEITLLNVLPNSSRSLLRGFTADIRKFEAYMQEESEKKMREVARLFDIPMSRIHTRVVFGNVRDEILAISNNEAFDVIVIGSRKPGISTHLLGSNAESILRYAKTPVLVVR	PGPT0014880_73	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014880-uspG-K11932	NA	NA
BMS020_00194	687	rspR	COG1802	HTH-type transcriptional repressor RspR	ATGGCCGCAGAATCGCAACTGAATCCGACGCAACCCGTCAATCAGCAAATTTATCGCATCCTCCGCCGGGATATCGTTCACTGCCTGATCCCGCCTGGCACGCCGCTGTCGGAGAAAGAAGTCTCCGTGCGTTTTGCGGTATCTCGTCAGCCGGTGCGCGAGGCCTTTATTAAGCTGGCGGAGAATGGACTTATCCAGATCCGTCCCCAACGCGGCAGCTACGTCAACAAAATTTCCCTGTCTCAGGTGCGCAATGGTTGCTTTGTCCGCCAGGCGATTGAATGCGCGGTGGTCCGCCGTGCCGCTGGCATGATTAACGATGAGCAAGTCTATCAGCTGGAGCAGAATCTTCATCAGCAGCGTATTGCCGTCGACCGCCAGCAGTTAAACGACTTTTTCCTGCTTGATGATGAATTTCACCAGAAGTTGTCAGTTATTGCCGATTGTCAGCTGGCCTGGGATACGGTGGAAAACATCAAAGCCGCTATTGACCGCGTGCGCTACATGAGCCTCGACCATGTCTCCTCCCCGGAGATGCTGCTGCGCCAGCATCATGAAATTTTCACCGCGCTGGAAAAACGCGACGCCGAGGCGGTCGAGAAAGCCATGAGTATTCATTTGCATGAAATCAGCGAATCCGTGCTGTTGATCCGCCAGGAGAATCGCGACTGGTTTAGCGAAGAGTAA	MAAESQLNPTQPVNQQIYRILRRDIVHCLIPPGTPLSEKEVSVRFAVSRQPVREAFIKLAENGLIQIRPQRGSYVNKISLSQVRNGCFVRQAIECAVVRRAAGMINDEQVYQLEQNLHQQRIAVDRQQLNDFFLLDDEFHQKLSVIADCQLAWDTVENIKAAIDRVRYMSLDHVSSPEMLLRQHHEIFTALEKRDAEAVEKAMSIHLHEISESVLLIRQENRDWFSEE				NA	NA	NA	NA	NA
BMS020_00195	750	ydfG_1	COG4221	NADP-dependent 3-hydroxy acid dehydrogenase YdfG	ATGATTATCATGGTCACCGGCGCCACTGCCGGTTTTGGTGAAAGTATTACTCGCCGTTTTGTCGCTAACGGTCATAAAGTGATTGCGACCGGACGTCGCGAAGAGCGCCTGAAGACGCTGAAAGACGAGCTGGGCGATAATCTTTATATCGCGCAACTGGACGTTCGCAACCGCGCCGCTATTGAGACGCTGATTGCCGACCTGCCCGCCGAGTGGCAGGCAATCGATGTGCTGGTGAACAACGCGGGTCTGGCGCTCGGTCTGGAGCCGGCGCACCGCGCCAGCGTGGAAGACTGGGAAGATATGATCGACACCAATAATAAAGGGCTGGTGTACATGACCCGCGCCGTCCTGCCGGGCATGGTGGCGCGCAATCGCGGCCACATCATCAACATCGGCTCCACGGCAGGCTGCTGGCCTTACGCCGGCGGTAACGTCTATGGGGCGACCAAAGCCTTCGTCCGTCAGTTCAGCCTCAATCTTCGCACCGACCTGCACGGCACCGCGGTGCGCGTCACCGACATCGAGCCGGGTCTGGTGGGCGGCACCGAGTTCTCGAACGTCCGCTTTAAAGGCGATGACGCCAAAGCCGGTAAAACCTATGAGAACACCGAAGCCCTGACGCCGGAAGATGTGACCGAGGCGGTCTGGTGGGTGGCCACCCTGCCGAAACACGTCAACATCAACACCCTGGAGATGATGCCGGTGAGCCAGAGCTTTGCCGGACTCAGCGTTCACCGCCAAGGCTAA	MIIMVTGATAGFGESITRRFVANGHKVIATGRREERLKTLKDELGDNLYIAQLDVRNRAAIETLIADLPAEWQAIDVLVNNAGLALGLEPAHRASVEDWEDMIDTNNKGLVYMTRAVLPGMVARNRGHIINIGSTAGCWPYAGGNVYGATKAFVRQFSLNLRTDLHGTAVRVTDIEPGLVGGTEFSNVRFKGDDAKAGKTYENTEALTPEDVTEAVWWVATLPKHVNINTLEMMPVSQSFAGLSVHRQG	PGPT0021285_920	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021285-ydfG-K16066	NA	NA
BMS020_00196	2046	dcp_1	COG0339	Dipeptidyl carboxypeptidase	ATGTCCGAACAAAACCCCTTTTTTAGCGTCAGTCTGTTGCCTTACCAGGCGCCGCGGTTTGATCTGATCGAAGACAGTCACTATCGGCCGGCGTTTGATGAGGGCGTCCGGCAGCAGCGCGAGGAGATCCGCGCCATTATCGACAATCCGCAGCCTGCCAGTTTCGCCAACACGCTCGAGGCGCTGGAGCAGAGCGGACAGCTGCTGGCGCGGGTGACGCGGGTCTTTTTCGCCATGGCCAGCGCCCATACCAACCCTTATCTGCAATCACTGGATGAACAATTTTCCGCCGAGCTCGCCGGGCTGGGGAATGACATCTGGCTCAACGAGGCTTTATTCCAGCGGGTGAACAGCGTCTACGAGCAGCGCGAGACGCTCTCGCTTGACGGCGAATCCCGGCGTCTTCTGACCCTGACATGGCAACGCTTTGTTCACGCCGGGGCAACGCTGGCCCCGGCGCAGAAGGCGGTGCTGCGCGCCCTGAACACCGAAGCGGCCACTTTGCAAAGTCAGTTCCAGCAGCGGCTGCTGGGGGCGGCGAAAAGCGGTGGCCTGGTGGTCGATGACCGGCATCAACTGGATGGCCTGACCGATGAGGAGATAGCGGCTGCGGCCGACGCGGCGCGCGAAAAAGGGCTCGGCGATCGCTGGCTGCTGACGCTGACCAACACCACCCAGCAGCCGCAGCTGCTTGCGCTGCGCGACCGGCAAACGCGGGAGAATCTCTTCGCCGCCGGCTGGACGCGCAATCAACAGGGCGATGAGCATGATACCCGTAGTCTGGTGCTGCGGCTGGCGGCGATCCGCGCGCAGCAGGCGGAACTGTTGGGGGCGACAAATTACGCCAGCTGGGCGCTGACCGATCAAATGGCGGCTTCTCCGGCGGAGGCATTGGGCTTTATGCGCCAGATCGCGCCGGCGGCGCGGGCGAGGGCGGAACGTGAGCTGGCGGACATCCAGCAGGTGATCGACAACGAAGGCGGGGAGTTTCGCGCGCAGGCATGGGACTGGCTCTACTACAGCGAGCAGGTGCGGCGGGCTGCCTATGCCATTGATGACGCACAGCTCAAACCCTATTTTGCCCTCGAGCGCGTGCTGCAGTACGGCGTCTTCTGGACGGCATCGCAGCTCTTTGGACTCCGCTTCGTGGAACGCTTTGACATCCCGGTGTACCACCCGGATGTGCGGGTTTGGGAGATCTTCGACCACAATGGCGAAGGGATGGCGCTGTTTTACGGTGATTATTTCGCGCGCGATTCAAAGAGCGGCGGCGCCTGGATGGACGTGTTTGTCGAACAGTCGACCCTGCGGGAGCAGCGCCCGGTTATCTACAACGTCTGCAATTATGCCCGGCCGCAGAGCGGACAGAGCGCGCTGTTGTCATGGGATGAGGTGATCACCCTGTTCCATGAGTTTGGCCACGCCCTGCACGGACTGTTCGCCAGCCAGCGCTATGCCAGCCTCTCCGGGACCAATACCCCGCGGGATTTTGTCGAGTTTCCGTCGCAAATCTTCGAACACTGGGCCAGCCATCCGCAGGTATTCGCCCACTATGCGAAGCACTATCGCTCCGGAGATCCGATGCCGGAGGCGCTGCGCGACAATATGCTGCGTGCGGCAACCTTCAATAAAGGGTACGACATGAGCGAGCTGCTAGCTGCTGCGCTGCTCGATATGCGCTGGCACACGCTGTCGACCACCGCGTTTCCGGACGAGGTGGATGCATTTGAGCAGAGGGTACTCCGGGAAGAACACCTCGATCTGGCGGCCGTTCCCCCGCGCTATCGCAGCAGCTACTTCTCCCATATCTTCGGCGGCGGCTATGCGGCAGGCTATTACGCCTACCTGTGGACCCAGATGCTGGCCGACGACGGCTATCAGTGGTTCGTGGAGCAGGGCGGTTTGACCCGTGAGAACGGTCAGCGCTTCCGCGACGCGATTTTGTCTCGCGGCAATAGCACTGATTTAGCTGAACTTTATCGCCAGTGGCGCGGGCACGATCCACAGATTGAGCCGATGCTGGAAAATCGTGGTTTGAGCGCATAG	MSEQNPFFSVSLLPYQAPRFDLIEDSHYRPAFDEGVRQQREEIRAIIDNPQPASFANTLEALEQSGQLLARVTRVFFAMASAHTNPYLQSLDEQFSAELAGLGNDIWLNEALFQRVNSVYEQRETLSLDGESRRLLTLTWQRFVHAGATLAPAQKAVLRALNTEAATLQSQFQQRLLGAAKSGGLVVDDRHQLDGLTDEEIAAAADAAREKGLGDRWLLTLTNTTQQPQLLALRDRQTRENLFAAGWTRNQQGDEHDTRSLVLRLAAIRAQQAELLGATNYASWALTDQMAASPAEALGFMRQIAPAARARAERELADIQQVIDNEGGEFRAQAWDWLYYSEQVRRAAYAIDDAQLKPYFALERVLQYGVFWTASQLFGLRFVERFDIPVYHPDVRVWEIFDHNGEGMALFYGDYFARDSKSGGAWMDVFVEQSTLREQRPVIYNVCNYARPQSGQSALLSWDEVITLFHEFGHALHGLFASQRYASLSGTNTPRDFVEFPSQIFEHWASHPQVFAHYAKHYRSGDPMPEALRDNMLRAATFNKGYDMSELLAAALLDMRWHTLSTTAFPDEVDAFEQRVLREEHLDLAAVPPRYRSSYFSHIFGGGYAAGYYAYLWTQMLADDGYQWFVEQGGLTRENGQRFRDAILSRGNSTDLAELYRQWRGHDPQIEPMLENRGLSA				NA	NA	NA	NA	NA
BMS020_00197	603	eamB	COG1280	Cysteine/O-acetylserine efflux protein	ATGGTTTTGATCCTTACTATGCTTATGTTTGCGCTGGCCCTGTCATTTTCGCCAGGTCCGGTTAATATGGTTATTATCTCTTCCGGCGCTGCGCATGGATTCAGAAAAACATTTTCTTTCGTCTCGGGCGCCACTATTGGTTTTACATTGTTACTGGTTTTAATTAGTTTTGGACTCTACGCGGCCATCGCAACGCACCCCTGGTTTTTTAGCTATCTGAATATCGTTGGTTCGTTATTTATCTTGTTTCAGGGCTATAAAATTGCTACTTCACATCCGGAATGGTCACTGAAAAAAGCACAGGCGCCGGGGTTTGCGCAGGGTTTTTTAATGCAATGGCTCAATCCTAAAGCCTGGGCTGCCTGTGCCTCTGGCGTCGCCTTGTTTTCTGAACCCTCGTCGCGCCTGAGTATATCGCTATTTATTATCATCTACTTTTTTGTCTGCTATCTGTCCCTGGCGGCCTGGGCGATATTCGGTGATAAAATGTCAGCGATTCTCAAAAGCAGAGCACAGATCCGCCTGTTTAATCTGGTGATGGGCGGATTATTGTGCATGACTGCGGGTTACATACTGTATTCGCAGTATATTACCTATTCATAG	MVLILTMLMFALALSFSPGPVNMVIISSGAAHGFRKTFSFVSGATIGFTLLLVLISFGLYAAIATHPWFFSYLNIVGSLFILFQGYKIATSHPEWSLKKAQAPGFAQGFLMQWLNPKAWAACASGVALFSEPSSRLSISLFIIIYFFVCYLSLAAWAIFGDKMSAILKSRAQIRLFNLVMGGLLCMTAGYILYSQYITYS				NA	NA	NA	NA	NA
BMS020_00198	894	dmlR_1		HTH-type transcriptional regulator DmlR	ATGATCGATGACATCCGCTACCTGATAGTCTTTGCCAAAATTGTCGAGAGCGGTTCTGTTTCAGGCGGCGCCGCGGCGTTAGGGTTGTCGACCGCAACAGCAAGCGCACATTTATCCAGGCTTGAGAAAAACCTTAACAGCGCTTTGCTCTACAGAAATACCCGAAAGCTTTCTCTAACACAAGATGGCGAAAGTGTGCTGGAGACCGCCAGGTCGATGCTCGAGCTTTATGAAAAAGGCGTCATTGAGTTTAAGCAACGTTCGGTATCCACAGCCGGTAAGCTGCGTATTTCCATACCTGCCGTTTTTTTAAACAGCCCATTCACTCACCATCTTGCAAATTTCATTAAAGAGAACCCGGATATTGCTCTGAGCATTTCTTATAGTGACCTGCGCGAGGACATTATTGCCGACAGTATTGATGTCGCCTTTCGCATTGGCGAGCTCCCCGATAGCGCTCTCAAGGCACGGCACCTGTTTGTTCTGCCGCGAAAGCTGGTGGCAGCAAAGGGCTTTCTCCTGCGCTATCCCCCCATTGATCATCCCGCTATGCTTGAATCAATGCCGTGGATTGGGCTGACGATGAGGGAGAATGTGCGCGAGTTCAGACATCGCAACGGCGAACGGGCGATAATAAAGTATACACCCGGCGTGTATGTCGATAGTGTTGAGGCCGCCTATGCCCTTGCCAGACAACAAATTGGCCTGGCCGCTCCGCCGCGTTTTCTCTGCGAAGAGGATATCCGCCGCGGCGACATGCAGGAACTACTTCCTGACTGGTCATTAGCCCCGCTAAAAGTGTATGCCCTATGGCCTGGCAATATTTCAGTTAGCGGCGCGGCCTATAAACTGATTAATTATATCTATAATGCCATTGAACATCAGCCGCTATGA	MIDDIRYLIVFAKIVESGSVSGGAAALGLSTATASAHLSRLEKNLNSALLYRNTRKLSLTQDGESVLETARSMLELYEKGVIEFKQRSVSTAGKLRISIPAVFLNSPFTHHLANFIKENPDIALSISYSDLREDIIADSIDVAFRIGELPDSALKARHLFVLPRKLVAAKGFLLRYPPIDHPAMLESMPWIGLTMRENVREFRHRNGERAIIKYTPGVYVDSVEAAYALARQQIGLAAPPRFLCEEDIRRGDMQELLPDWSLAPLKVYALWPGNISVSGAAYKLINYIYNAIEHQPL				NA	NA	NA	NA	NA
BMS020_00199	498			hypothetical protein	ATGGCTGAAGATGTCGCCGATCTTTACCGAATTTATGGCGATCCGGCGACCAATACCTTTAACCCCGCAGGACCCTACCCGGATATTGACTTTGCCAGTACGGTTCTCCAGCGCTGGCTTGCCCACTGGCACGATCGCGGGTTTGGCAACTGGGCCATATCGGCGCGTGATGCTCCGGAAAAAATCATTGGCTTTGGTGGCTTAAGTATTCGCCGCTATAACGATGTCATTCTCAACAATCTTGGCTATCGATTCGCAACAGAGGCATGGGGAAAAGGGCTGGCCACCGACCTCGCGACCTCGGCGGTAAGATATGGCTTCGAGGCGATCAAACTCACGGAGATTTCAGCGGTGGTGAGGGCGAATCACCTGGCTTCGCGAAAAGTGCTCGAGAAAGCAGGCTTGAGGTTTATCAACGAGATTGCCGATATAGAAAATGCGCCGCCGAGTCTGCTTTATTCGTTGACCTTAAGCGAGTGGTTAAGCCAGTCGGGGTAA	MAEDVADLYRIYGDPATNTFNPAGPYPDIDFASTVLQRWLAHWHDRGFGNWAISARDAPEKIIGFGGLSIRRYNDVILNNLGYRFATEAWGKGLATDLATSAVRYGFEAIKLTEISAVVRANHLASRKVLEKAGLRFINEIADIENAPPSLLYSLTLSEWLSQSG				NA	NA	NA	NA	NA
BMS020_00200	672	yedK	COG2135	SOS response-associated protein YedK	ATGTGCGGACGTTTTGCGCAAGCGCAGACGCGGGAAGCATACCTGGCGTTTCTCGCAGAAGAGGCCGAACGCGATATCCCCTGGGACCCGGAGCCCATTGGGCGGTATAACGTCGCGCCCGGAACAAAAGTGTTACTCCTGAGTGAAAGGAATGAGCAACTCCACCTCGACCCCGTTCACTGGGGCTATGCGCCGGGATGGTGGGATAAATCACCGCTGATTAATGCCCGGGTTGAAACCGCTGCCACCAGCAGGATGTTCAAACCGCTGTGGCAGCACGGGCGGGCGATCTGTTTCGCCGATGGCTGGTTTGAATGGAAAAAGGTCGGAGACAAAAAACAGCCCTACTTCATCCAGCGGAAGGATGGCCAGCCGATATTTATGGCCGCTATTGGCAGCACCCCCTTCGAACGCGGGGACAGCGCCGAAGGATTTTTGCTGGTGACCGCTGCCGCCGATCGCGGTCTTGTCGATATACATGACCGCCGGCCGCTGGTCCTGACGCCGGAAGCCGCCCGGGAATGGATGAGGCAGGATCTCACCGGCGCGGATGCGGCGGAGATTGCCAGGGACGGAAGCGTCTCCGCCGACGATTTCACCTGGCACGCGGTATCGCGGGCGGTCGGCAATGTGAACAATCAGGGGCCAGCGTTAATTGAGCCAGTAGAATGA	MCGRFAQAQTREAYLAFLAEEAERDIPWDPEPIGRYNVAPGTKVLLLSERNEQLHLDPVHWGYAPGWWDKSPLINARVETAATSRMFKPLWQHGRAICFADGWFEWKKVGDKKQPYFIQRKDGQPIFMAAIGSTPFERGDSAEGFLLVTAAADRGLVDIHDRRPLVLTPEAAREWMRQDLTGADAAEIARDGSVSADDFTWHAVSRAVGNVNNQGPALIEPVE				NA	NA	NA	NA	NA
BMS020_00201	678			hypothetical protein	ATGTTCTCCCCCTTGAAAAATATTAATATTTTGACCATCGGCATTACTATGACTAATATTTTCATTAATACTGAAAACATATTTCTTAATCGAGGTGTTTGTGAACTTCTTATCGAGGTCGCAAAGGAAGAAAACATCTGTACACCTTTTTCCATTTTGCAATACTCACCAGATACTCTCGGTCAGATAGATATGCTGTTTACGGAAATGACGACCGGTGAACATTATCTATGCCACCCGGTTTTCAAAAAAATCCCCGAACACACATCTATTTTTATTTTCGTTCCTACCGATAGTGCTGTGCAAGTTGATCGGATACCGTTTTGTCTACGTGATGCTACTTTTATTAGTATCAACACCGGATTGCACCGTATAAAAAATCAGATTGCGAAACATCTGATGGAGTCAACAGCGTCGATTGCTAGTAGCCAGGTAAAAGACAGCAGACGCTGTGTAAAATGCCCTCGATTAACATTGACCAAATCACAACTTTATATTATCGATGCAATCAGAACGGGAATGAATAATCAGCAGATAGCGCAAGAACTAGGTATCAGCCATAAAACGGTCTTTTCCCATAAAATCAATATCATGAAAAAATTCCAAATAGCCACCAAACAAGAGTTGACGAAATTCTCATCCGTTGCTCTTGCGCTTTCCTCAGGAAGGATCGGTTAA	MFSPLKNINILTIGITMTNIFINTENIFLNRGVCELLIEVAKEENICTPFSILQYSPDTLGQIDMLFTEMTTGEHYLCHPVFKKIPEHTSIFIFVPTDSAVQVDRIPFCLRDATFISINTGLHRIKNQIAKHLMESTASIASSQVKDSRRCVKCPRLTLTKSQLYIIDAIRTGMNNQQIAQELGISHKTVFSHKINIMKKFQIATKQELTKFSSVALALSSGRIG				NA	NA	NA	NA	NA
BMS020_00202	105			hypothetical protein	ATGACCGGCATTTTTATCTCTACCACCCTGTTCGCCCTCTTCGCGTCGATGTTGATCGGTCTGGGGATGGTATGGAAAGGCATCTCCAACAACCCGGATAACTAA	MTGIFISTTLFALFASMLIGLGMVWKGISNNPDN				NA	NA	NA	NA	NA
BMS020_00204	474	ibpB_1		Small heat shock protein IbpB	ATGGCACTCAAAACCTTGTCAGCACTCCCGGTATTTGCTGATTCCCTTTTTGCCGATCGTTTTAACCGTATCGACCGTCTTTTCAGCCAGTTAACGGGCGATACGCCGGTGGGGACCTTACCAGCCTACGATTTACAGAAAGTGGATGACAGTAATTTCCTGCTCAGCGTCAGCGTGCCTGGCTGGAAAGATGATGAACTGGAAATAGAGACCGTAGGCGGTAATCTGCATATTACCGGTAAACGCGCGCAAACCGACAATCATTCCGGAAACAGCCAGGGCTGGATTTATAAAGGCATTCGCCGGGCTGATTTCCAGCTTAGTTTTTCGCTTCCCGAACACGCCCAGATTAATCAGGCGCAGCTGGAGAGCGGGATCTTAAAAATCGCTATCCATCAGGAGATCCCCGAGAGCGAAAAACCGCGCAAAATTGCCATTGAGAACCAGGGGCGGGTGATCGAACACAAAGTGTGA	MALKTLSALPVFADSLFADRFNRIDRLFSQLTGDTPVGTLPAYDLQKVDDSNFLLSVSVPGWKDDELEIETVGGNLHITGKRAQTDNHSGNSQGWIYKGIRRADFQLSFSLPEHAQINQAQLESGILKIAIHQEIPESEKPRKIAIENQGRVIEHKV	PGPT0014641_481	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014641-ibpA-K04080	NA	NA
BMS020_00205	513	pncC_1	COG1546	Nicotinamide-nucleotide amidohydrolase PncC	ATGGCTGACGAGATCGATAAAGACGCACAACATACTCATCAACTGACGGCCGAGGTGGCCCGGGCGCTTATCGCGCGCGGCTGGCGGCTCACCACTGCGGAATCCTGCACCGGCGGCAACCTGGCGGCAGCGCTCTGTGCTCAGGCTGATACTGCGGCCTTTTATGATACCGGCGTGGTCACCTTCAGCGATGAAGCCAAGCGCAATGTGCTGCAGGTGCGCGAGGAAACCCTGGCGGAACACAGCGCTGTCAGCGAAGCGTGCGTGAAGGAGATGTCCAGCGGTATGCTGGCGATAGCCGGGGCCGACATCGCCATTGCCATCAGCGGCTATGCGGGACCGGAGGGGGGAGAGGATGGTACCCCCGCCGGCACGGTATGGTTTGCCTGGAACTTTCGCGGCCAGATCGAAACTCAACGGCTGCGCTTTACCGGTGACTGCGAGACAGTGGTGGCGAAAGCGGTGCGCTTCGCCCTGGCGGCGCTGGGCGAAAAGCTCCCCCACTGGCAGTGA	MADEIDKDAQHTHQLTAEVARALIARGWRLTTAESCTGGNLAAALCAQADTAAFYDTGVVTFSDEAKRNVLQVREETLAEHSAVSEACVKEMSSGMLAIAGADIAIAISGYAGPEGGEDGTPAGTVWFAWNFRGQIETQRLRFTGDCETVVAKAVRFALAALGEKLPHWQ	PGPT0013460_2665	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013460-pncC2-K03743	NA	NA
BMS020_00206	1218	bluF_1		Blue light- and temperature-regulated antirepressor BluF	ATGCTAACCACCCTGATATACCGCAGCCAGGTTAATCCTGCCCGCCCGCCCACCGATCTCGACGCTTTAATTCATCGCGCCAGCGGGAAAAATATGCCTCTTGGCATCACTGGTATTCTGCTGTTTAACGGCCTGCAGTTCTTCCAGGTGCTGGAGGGAAGCGAGGAAGATCTTGAGTCGTTATTCCACGAGATACAGAGCGATCCGCGCCATCGCGACGTGGTGGAACTGATGCGCGACTATTCGGCCTACCGTCGTTTTCACGACACCGGAATGCGCCTGCTGGATCTTCGTCTTTTCGAAGCCGACAGCGCGCTGGAGGAGCTCCTGCGCTTTAGCTCGTTTGGGGTCACCGAGCCGGTCAACGACCGGATGTTCCGCCTGATTAGCGCCTTTATCGCCGACGGTGGGCGCTATTGTCTGCCCGAGCCGCTGCAGCCTTCTCGCTGGACGATGATGCCTGCCCCGGCCACTGCCACCGCGCGCCACCTGCCCGATCAACCTTGCCAGTTTGCCCTGCAGGCCATCGTCGAGCCGGCCAAAAAGCGGGTCTCTTCCTTTGAAGCGCTGATCCGCAGCCCCACCGGCGGATCTCCTGTAGAGATGTTTGCCGCCATCCCGGCGGAGGATCGCTACCGGTTCGACCTCGAGAGCAAAGCGTATGCCTTCTCTCTCGCCGGTCAGTTACCGCTTGGTAAACACCAGCTGGCCATTAACCTGCTGCCCGGTTCGCTGTATAACCACCCTGACGCCGTAGGCTGGCTGATGAACAGCCTGCTGGCGGCCGGCCTCCGGCCGGACCAGGTGCTGATAGAGGTTACCGAAACGGAGGTGATCACCTGCTTTGACCAGTTCCGCAAGGTGCTCAAAGCGCTGCGCGTCGCGGGCATGAAGCTGGCCATCGACGACTTTGGCGCGGGTTACTCCGGCCTGTCGTTACTGACCCGCTTTCAGCCCGATAAAATCAAAGTGGATGCGGAGCTGGTGCGCAATATTCATATCAGCGGCGCCAAGCAGGCGATTGTCGCCTCGGTGGTGCGCTGCTGCGAGGATTTGGGCATCACGGTGGTGGCGGAAGGCGTCGAAACCCTGGAAGAGTGGTGCTGGCTGCAGTCGGTGGGCATTCGCCTGTTTCAGGGGTTCCTTTTCTCCCGACCGTGCCTGAACGGCATCGGGGAAATTTGCTGGCCGATAGCGCGTCAGGCCACGGATCTGTAA	MLTTLIYRSQVNPARPPTDLDALIHRASGKNMPLGITGILLFNGLQFFQVLEGSEEDLESLFHEIQSDPRHRDVVELMRDYSAYRRFHDTGMRLLDLRLFEADSALEELLRFSSFGVTEPVNDRMFRLISAFIADGGRYCLPEPLQPSRWTMMPAPATATARHLPDQPCQFALQAIVEPAKKRVSSFEALIRSPTGGSPVEMFAAIPAEDRYRFDLESKAYAFSLAGQLPLGKHQLAINLLPGSLYNHPDAVGWLMNSLLAAGLRPDQVLIEVTETEVITCFDQFRKVLKALRVAGMKLAIDDFGAGYSGLSLLTRFQPDKIKVDAELVRNIHISGAKQAIVASVVRCCEDLGITVVAEGVETLEEWCWLQSVGIRLFQGFLFSRPCLNGIGEICWPIARQATDL	PGPT0026255_97	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-BF-BLUE_LIGHT|COLD|STARVATION_SIGNALLING,PGPT0026255-bluF|ycgF-K21973	NA	NA
BMS020_00207	612			hypothetical protein	ATGACGAATTTTTTGATCAATATAAAAAATCACTATTTGCGAGTCGCTATTGCGGAGCTGGTGGATGAAGCGATGAAGACCTACGGGGGATCAGCCTATCAGTTTTCTGAACAATGGGACCTGGAGTCGATAGCGCAATCTCAGGTGTTCTTCACGGAAATGGTGGCGGGAGAATGGTACCTGTGTCATGACCTGTTTCAGCATGCCCCAGAGCAATACACGCTTTTTATTTTCCAGGACAATGAACAAGCTACCGTTGAAAAGGGCTTACCCAACTGTCTGCGGCAGGCGGTGTTTATCCCTCCCCATGCTCCCGTTCAGCGTCTTAAAGATGAGATAGCCAGCGCGATTCAGCGCCCCTTGCCTACTCAGCATGACCCGTCCTTCAATCGACTGCGGCGTTGCATCAATTGCGCCTGCAAGTCGGTCAGCGATGCGCAAACCAAAGTCATTTACGCGTTCAGTATTGGTCTGAGTCCGCATGAAGTCGCGGCGGCGCTAAAAATTAGCCACAAAACCATTCATTCACATAAAAAGAATATTATGAGCAAGTTCAATTTGCACAGCCGCCAGCAATTTAACAACCTCGTAAAACTACTCGCCAGACGTTAA	MTNFLINIKNHYLRVAIAELVDEAMKTYGGSAYQFSEQWDLESIAQSQVFFTEMVAGEWYLCHDLFQHAPEQYTLFIFQDNEQATVEKGLPNCLRQAVFIPPHAPVQRLKDEIASAIQRPLPTQHDPSFNRLRRCINCACKSVSDAQTKVIYAFSIGLSPHEVAAALKISHKTIHSHKKNIMSKFNLHSRQQFNNLVKLLARR				NA	NA	NA	NA	NA
BMS020_00208	915	rob_1	COG2207	Right origin-binding protein	GTGCTTATGAAGCAAATGCTCTATTTAAAAATGCTGGCGTGGCTGGAGGATAATATCTACTGTAACCCGGCGATCGATGACCTGGCGCAGTATATGGGCTATTCGCGTCGGTTTGTGTACGAGGTGTTTTATCAATATGGCCGGTTACCCATCGGGCAGTATATTCGCCTGCGGCGGCTGACCATCGCAGCGGTCAGTCTGCGTTTAACGCGGCAACCGATCGCCGCCATAGCCTGGCAGTTAAGTTACGATTCGCCGCAGACCTTCTCCCGGGAGTTTAAGAAACGTTTCTCGCTTTCGCCACGGGAGTACCGCTGCGCGGCGCACTGGGACACGGCAAAACTGTTAAAAAAATTCCCCACGGATGATGAGAGCCTGCCTTTGGCTCGGATCTGTTCCCTGCCGGAGCGGGTCTATTATGGCTACCCGATGAAGTATGAACTGCGCCTGTCGGATATGGTGTTGCAAAGTACCGCCAAGACGGCAATCAGGCAAAAGGTTGACCGTTTTTTCGCCGCTGGAGTCGGTTCGCTTTCCATACTCTCCGATTACGCCGCTGCGAGTCAAAATGAGCTTAACGTCGAGGTTAACGCCTTCGTCGGTTGTCACGAGGCGCGAAAGCCGTCGTCCGCGTTGACCACCCGGTCGGGGCTGTATGTGGGGGTTGAATTCTACGGCAGCTGGTCACGCTATGCCCGTTTGTCCAGCGATCTCTATCTGGATCAGTTGCCAACGCTGGGGGTAAGCCGTCGGGATGGGCATGACATTGAATGCTTCATGACCCGTCATGCGGAAGGAGGAGAGGCAGAGGAGAAGCGCTATCACGTACGCTATTTTATACCGGTGACGCTGTCAGCGGGAGGCCAGCTGCCGGGAAGCGATAATGAGTTAGTCCCCGCGAAGGGGACACGATAA	MLMKQMLYLKMLAWLEDNIYCNPAIDDLAQYMGYSRRFVYEVFYQYGRLPIGQYIRLRRLTIAAVSLRLTRQPIAAIAWQLSYDSPQTFSREFKKRFSLSPREYRCAAHWDTAKLLKKFPTDDESLPLARICSLPERVYYGYPMKYELRLSDMVLQSTAKTAIRQKVDRFFAAGVGSLSILSDYAAASQNELNVEVNAFVGCHEARKPSSALTTRSGLYVGVEFYGSWSRYARLSSDLYLDQLPTLGVSRRDGHDIECFMTRHAEGGEAEEKRYHVRYFIPVTLSAGGQLPGSDNELVPAKGTR				NA	NA	NA	NA	NA
BMS020_00209	1365	ygbN	COG2610	Inner membrane permease YgbN	ATGTCGACATCGGCGCTGTTACTTATTGCGTTAGCCAGCGTAGTGCTGTTGCTCCTGCTGGTGATCAAAGCGAAAGCGCATCCTTTTGTGGCGCTCCTGATCGTCAGCCTGCTGGTGGCGTTCGCCACCGGCATTCCGGCGGATAAAATCATTACCACCATTGAAAAAGGCATGGGCGGCCTGCTCGGCCACATCGCCAGCATAATTATTTTGGGATCAATGCTGGGGGTGCTTATTGAAATATCCGGCGGCGCCGAATCGCTGGCGAAAACGCTGACCGGCGTGCTGGGTTCTAAACGGACTATTGCCGCCTTAACCATCGTGGCTTTTATTCTCGGCACGCCAGTCTTCTTTGAAGTCGGCTTTATTATCATCATTCCGTTAATTTACGGCTTCAGTAAAGTCGCCCATCTGTCGCCGCTGAAATTTGGCCTGCCGATGGCCGGAGTGATGTTAACCGTCCATGTGGCGTTGCCAACCCACCCTGGCGCGGCGGCTGCGGCAGGTATTCTGCATAGCGATGTCGGCTGGTTGATGCTGGCGGGAATTGGAGTGTCGATCGTCGTGGGTATCGTGGGCTATTTTGTCGCCCGGTCTATCAATCAGCGCCATTATCATCTGTCGATTAACGTGCTGGAACAGCAGCAAACGGCCGAGGTGCCCGACCTCTCCGTCAACGCCCAGCAGACCCGACTGGCGCCGCCGAATGCGCTGGTTATCGGCGGGCTGATCGTGGTGCCCATCGTGCTGATTGTTTCCGGAACGCTGTGTCAGGCCCTGCTGCTGCCGGATAACGCGATTCGCCAGCTGATGACCGTCATTGGCACCCCGCCCGTCGCCCTGCTGATCTCCCTGGGGCTGGCCAGCTGGACGCTGGGCATCCGGCGGGGGATGAACCTGAAAAAGTTGGGAGAAGTCACCGGCAGCGCGATCCCCTCCTCGGCGGACGTGATCCTCGTCGCCGGCGCCGGCGGCGCCTTTGGCGGGGTGCTGGTCGCCTCCGGCATCGGCAATGCCTTAGCCGAGGCGCTGGAGACGATTCATCTGCCGCTGATGCCCGCCGCTTTCCTGCTGTCGCTGGTGCTTCGGGCCTCGCAGGGCTCGGCCACCGTGGCGATCCTCACCACCTCCGGCCTGCTGTCACAGGCGGTTGTCGGGCTGGAGCCGCTGCAGCTGGTGCTGGTGACGCTGGCGACCTGTTTCGGCTCGCTCGGGTTATCGCACGTTAACGACGCCGGGTTCTGGGTGGTCACGCGCTATCTCGGGCTCTCGGTGCCGGACGGACTCAAAACCTGGACCGTACTGACCACCATCATGGGGGTGACAGGCTTCCTGATCACCTGGCTGCTGTGGTTTGTACTGTAA	MSTSALLLIALASVVLLLLLVIKAKAHPFVALLIVSLLVAFATGIPADKIITTIEKGMGGLLGHIASIIILGSMLGVLIEISGGAESLAKTLTGVLGSKRTIAALTIVAFILGTPVFFEVGFIIIIPLIYGFSKVAHLSPLKFGLPMAGVMLTVHVALPTHPGAAAAAGILHSDVGWLMLAGIGVSIVVGIVGYFVARSINQRHYHLSINVLEQQQTAEVPDLSVNAQQTRLAPPNALVIGGLIVVPIVLIVSGTLCQALLLPDNAIRQLMTVIGTPPVALLISLGLASWTLGIRRGMNLKKLGEVTGSAIPSSADVILVAGAGGAFGGVLVASGIGNALAEALETIHLPLMPAAFLLSLVLRASQGSATVAILTTSGLLSQAVVGLEPLQLVLVTLATCFGSLGLSHVNDAGFWVVTRYLGLSVPDGLKTWTVLTTIMGVTGFLITWLLWFVL	PGPT0001340_1341	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
BMS020_00210	783	otnI	COG3622	2-oxo-tetronate isomerase	ATGCCAAAATTTGCTGCAAATTTATCCATGCTGTTTACCGAACTGCCGTTCCTGGACCGCTTTGCCGCCGCTGCCCGCGCTGGTTTCGAAGCCGTGGAGTTTCTGTTCCCCTATGAGTATGCCGCCGGGGAAATTAAACAGCGCCTGCAGGAAAACCAGCTGCAGCTGGTGCTGTTCAATACCCCGCCCGGCGACGTTAACGCCGGGGAATGGGGACTCGCCGCTCTACCGGGCAGGAGCGCTGAGGCCCGGCGTGATATCGAGCTGGCGCTGGAGTATGCCTGCCAGCTGGATTGTCCGCAGGTGCATATTATGGCCGGCGTGGTGCAGCCGGGGATGGATCGCGCGGCCTGCGAGGCGGAGCTTTTCGATAACCTGCGCTACGCCGCTGAGCGCTTTGCCCGCCACGGCAAGCGGGCGCTTACTGAAGCCCTGAATCCGCAGACCAAACCGGGCTATTTCTACCACAGTCAATATCAGACGCTGGAGATAGCGCAGCGGGTCGACCGGCCAAACATCGCCGTGCAGTTAGATCTGTTTCATGCGCAGAAAGTGGACGGCAATTTAAGCCATCTTATTACCGAGTATGCCGGTCAGTACCGCCATATTCAGATAGCCTCCCTGCCCGACCGCCATGAACCGGACGAGGGCGAGATTAATTATTCATGGATCTATGCGTTGCTGGATAACGTCGGCTATGACGGTTGGATCGGCTGCGAATATATCCCCAGGGCGGATACCCTTTCCGGACTGGAATGGTTCTCGCCCTACCGGAAAAAATAA	MPKFAANLSMLFTELPFLDRFAAAARAGFEAVEFLFPYEYAAGEIKQRLQENQLQLVLFNTPPGDVNAGEWGLAALPGRSAEARRDIELALEYACQLDCPQVHIMAGVVQPGMDRAACEAELFDNLRYAAERFARHGKRALTEALNPQTKPGYFYHSQYQTLEIAQRVDRPNIAVQLDLFHAQKVDGNLSHLITEYAGQYRHIQIASLPDRHEPDEGEINYSWIYALLDNVGYDGWIGCEYIPRADTLSGLEWFSPYRKK	PGPT0018150_312	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0018150-otnI|ygbM-K22131	NA	NA
BMS020_00211	621	otnC	COG0235	3-oxo-tetronate 4-phosphate decarboxylase	ATGACTGAGCAACAGCTGCGAGATGAGATGGTGCAGATTGGCGCCTCGTTGTTTAACCGCGGTTATGCCACCGGCTCCGCCGGCAATCTGTCGCTCCTGCTGCCGGACGGCAACCTGCTGGCGACGCCGACCGGCTCCTGCCTGGGCGAGCTGCAGGCCCAGCGGTTGTCGGTGGTCACCCTGCAAGGCGAATGGATCGCCGGCGACAAACCGTCGAAAGAGATCGCTTTTCACCGGGCGGTCTATTTGCATAACCCGGCCTGCAAGGCGATCGTCCACTTGCATAGCCACTATCTGACCGCGCTCTCCTGCCTGCAGGGGCTCGATCCGCACAATTGCATTCGCCCCTTTACTCCCTACGTGGTGATGCGGGTCGGCGACGTCCCGGTGGTTCCCTACTACCGACCGGGCGACGACCGCATTGCCGAGGCGCTGGCCGGCCTGGCGCCGCGCTATAACGCCTTTTTACTGGCCAACCATGGTCCGGTGGTCACTGGCTCATCGCTGCGCGAAGCCACCAATAATACCGAAGAGCTGGAAGAGACCGCGCGGCTGATGTTTACCCTCGGCAATCGCGAGATCCGTTACCTGACCGCTGACGAAGTGGATGAACTGAGATAA	MTEQQLRDEMVQIGASLFNRGYATGSAGNLSLLLPDGNLLATPTGSCLGELQAQRLSVVTLQGEWIAGDKPSKEIAFHRAVYLHNPACKAIVHLHSHYLTALSCLQGLDPHNCIRPFTPYVVMRVGDVPVVPYYRPGDDRIAEALAGLAPRYNAFLLANHGPVVTGSSLREATNNTEELEETARLMFTLGNREIRYLTADEVDELR	PGPT0018145_612	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0018145-otnC|ygbL-K22130	NA	NA
BMS020_00212	1266	otnK	COG3395	3-oxo-tetronate kinase	ATGCAGCTTGGTGTCATTGCCGATGACTTTACCGGCGCCACGGATATTGCCAGCTTCCTCGTACGCAATGGCATGCCGACGGTGCAGCTAAACGGCGTACCGCCCCACGAACTGCCGCTGACCAGCGAAGCGGTGGTGATCAGCCTGAAAACGCGCTCCTGCCCGGTGGAAACCGCCGTCAGCCAGTCGCTGGCGGCCCTGCGCTGGCTGCAGGCCCGGGGCTGTCAGCAATTTTATTTTAAGTATTGTTCCACGTTCGACAGCACCGCGCAGGGCAACATTGGCCCGGTACTGGATGCTCTGCTGGCAGAGCTGGGCGAGACTCGGACGGTGATTTCCCCGGCGCTGCCGGTAAACGGCCGCACGGTCTATCAGGGGTATCTGTTTGTCGGCCAGCAGTTACTCAATGAGTCTGGGATGCGCCACCATCCGGTGACGCCGATGGAGGATGCCCACCTGGGCCGCTTAATCGAGCGCCAGGGCGGCGGAAAAGCGGCGCTGATCGCCTGGCCGATTATCGATCAGGGGCCGAAGGCGGTCGCTGCCGCGCTGGCGGCAATCAGCGACCCGGCGGTGCGCTATGTGGTGCTCGACGCCCTCAGTGAACAGCATTTGCTGACCCAGGGGGCGGCGCTGCGGGAAATGAAGCTGGTCTCCGGCGGCTCTGGTCTCGCCATCGGCCTCGCCCGCGACTGGGCGCAGCGCCACGGAACCCAGGGTGAAGGATCCCAGGCGGGCATGCCGCTGCCCGGCCCGGCGGTAGTGCTCTCGGGCTCCTGTTCGCTGATGACCAACAGCCAGGTGGCGGCCTATCGTGAACAGGCTCCCGCCCGCGCCGTCGACTTAAGCGCCTGCTTTACCGATCTGGAGGGCTATGCCGGGACGCTGGCGGCCTGGGTGGACGCAAACCGCGATTCGCCGCTGGCGCCGATGGTCTATGCCACGACTGAGCCGCAAACGCTGCAGCGGATCCAGGCGCAGTATGGCGACAAGGCCAGCAGCGAACGGATCGAACAGCTGTTCGCCGCCCTCGCCGCCGCGCTGAAGGAGAAAGGATTCACCCGGTTTATTGTGGCCGGAGGGGAAACGTCGAGCATCGTGGCGCAGACGCTGGGGGTCGAGGCGTTCCATATCGGGCCGACGATCTCCCCTGGGGTTCCCTGGGTGCGTGACACCCGCCAGCCGCTCTCCCTGGCGCTGAAGTCAGGTAATTTCGGCGATATCCAGTTCTTTGCCCGTGCCCAGCAGGAGTTTTGTCATGACTGA	MQLGVIADDFTGATDIASFLVRNGMPTVQLNGVPPHELPLTSEAVVISLKTRSCPVETAVSQSLAALRWLQARGCQQFYFKYCSTFDSTAQGNIGPVLDALLAELGETRTVISPALPVNGRTVYQGYLFVGQQLLNESGMRHHPVTPMEDAHLGRLIERQGGGKAALIAWPIIDQGPKAVAAALAAISDPAVRYVVLDALSEQHLLTQGAALREMKLVSGGSGLAIGLARDWAQRHGTQGEGSQAGMPLPGPAVVLSGSCSLMTNSQVAAYREQAPARAVDLSACFTDLEGYAGTLAAWVDANRDSPLAPMVYATTEPQTLQRIQAQYGDKASSERIEQLFAALAAALKEKGFTRFIVAGGETSSIVAQTLGVEAFHIGPTISPGVPWVRDTRQPLSLALKSGNFGDIQFFARAQQEFCHD	PGPT0018140_455	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0018140-otnK|ygbK-K21948	NA	NA
BMS020_00213	903	ltnD		L-threonate dehydrogenase	ATGACTGCACACACTAACGTCTGCGTGATTGGACTGGGTTCGATGGGCATGGGCGCCGCCCGCGCCTGCCTGCAGGCGGGCCTGAACACCTGGGGGGTGGACATCAATCCCGACAACTGCCGCGCGCTGCTGGAGGCGGGCGCCAAAGGCGCAGGCCCCAGCGCGGTGCCTTTCGCCGCTGAGCTGGACGCGGTCGTGCTGCTGGTGGTCAATGCCGCCCAGGTTCGGGGGATCCTGTTCGGCGAAAGCGGCCTCGCCGGCCATCTGAAGCCGGGTACCGCGGTGATGGTGTCGTCAACCATCGCCTCCGCCGATGCCCAGGCGATTGCCGCGGCGCTGGCGGAATACCAGCTATTGATGCTCGACGCGCCGGTATCGGGCGGCGCGGTGAAAGCGGCGGCCGGCGACATGACGGTGATGGCCTCCGGGAGCGATGCCGTCTTCGCCCGCCTCGCGCCAGTGCTGGACGCGGTGGCCGGCAAAGTCTATCGCATCGGGAGCGACATTGGCCTCGGTTCGACGGTAAAAATCATCCATCAGCTGCTGGCCGGGGTGCATATCGCCGTCGCCGCCGAAGCGATGGCCCTCGCCGCCCGCGCCGGCATCCCGCTGGAGACGATGTACGACGTGGTGACCCACGCGGCGGGTAATTCGTGGATGTTTGAGAATCGTATGCAGCACGTCCTGGATGGCGATTACTCGCCAAAATCCGCCGTCGATATTTTTGTCAAAGATCTCGGCCTGGTGAATGACACCGCCCGGGCGCTGACCTTCCCGCTGCCGCTCGCCACCACCGCGCTGAATATGTTCACCTCCGCCAGCAACGCCGGATTCGGCCGGGAAGATGACAGCGCGGTGATCAAGATCTTCAACGGCATTACCCTGCCGGGCCATAAACAGTGA	MTAHTNVCVIGLGSMGMGAARACLQAGLNTWGVDINPDNCRALLEAGAKGAGPSAVPFAAELDAVVLLVVNAAQVRGILFGESGLAGHLKPGTAVMVSSTIASADAQAIAAALAEYQLLMLDAPVSGGAVKAAAGDMTVMASGSDAVFARLAPVLDAVAGKVYRIGSDIGLGSTVKIIHQLLAGVHIAVAAEAMALAARAGIPLETMYDVVTHAAGNSWMFENRMQHVLDGDYSPKSAVDIFVKDLGLVNDTARALTFPLPLATTALNMFTSASNAGFGREDDSAVIKIFNGITLPGHKQ	PGPT0018135_347	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_THREONATE_DEGRADATION,PGPT0018135-ltnD|ygbJ-K08319	NA	NA
BMS020_00214	762	glpR_1	COG1349	Glycerol-3-phosphate regulon repressor	GTGATTCCAATAGAACGTCATCAGCGTATTTTAGCCCTGGTGGAGCAGCGCGGGGCGGTGAGCATTAATGAGCTGACGGAGATCCTCGGCGTGTCCCATATGACTATCCGTCGCGACGTCAGTAAGCTGGAAGAACAGGGGCTGCTGGTCAGCGTCTCGGGCGGCGTGCGCGCCGTCAGCCGCCTGGCCGCAGAGCCCAGTCATCTGGTGAAAAGCACTCTACAGAGTGAAGAGAAACAGGCCATCGGCGCGCTGGCGGCCAGTCACATCGCCAAAAACAGCTGCATCTATCTCGATGCCGGCACCACCACCCTGGCGCTGGCGCGGGCGATCCTCGACCGGGACGACCTGCAGGTGGTCACCAACGATTTTGAGATAACCCAGCTGCTGATCGATGCCAGCCAGTGCGGCGTGATCCACACCGGCGGCACCCTGTGCCGGGAGAACCGCTCCTGCGTCGGCGAGTCGGCGGCGCGGACCTTGCGACACCTGGCTATCGATACGGCCTTTATCTCCGCCAGCGGCTGGGACAGCCGCGGGATTTTCACCCCTGATGAGAACAAGGTCACCGTCAAGGAGACCGTCAGCCAGGTCAGCGCCAGAAGCATCCTGCTGTGCGACAGTTCGAAATACAATCAGGTGGCCACGTTTATGGCGTTACCCTTGACCCGCTTTACCACCATCATTACCGACCGGCATCTCTCCGATGCTGCCGCCACACATATCGCCCGGCACGCTTGCGAGGTGCTGCGCGCCGGGTAA	MIPIERHQRILALVEQRGAVSINELTEILGVSHMTIRRDVSKLEEQGLLVSVSGGVRAVSRLAAEPSHLVKSTLQSEEKQAIGALAASHIAKNSCIYLDAGTTTLALARAILDRDDLQVVTNDFEITQLLIDASQCGVIHTGGTLCRENRSCVGESAARTLRHLAIDTAFISASGWDSRGIFTPDENKVTVKETVSQVSARSILLCDSSKYNQVATFMALPLTRFTTIITDRHLSDAAATHIARHACEVLRAG				NA	NA	NA	NA	NA
BMS020_00215	861	bla_1	COG2367	Beta-lactamase SHV-1	ATGCGTTATGTTCGCCTGTGCCTTTTCTCCCTGATTGCCGCCCTGCCACTGGCGGTATTCGCCAGCCCTCCGCCGCTCGAGCAAGTTACACGCAGCGAAAGTCAGCTGGCGGGCCGCGTGGGCTATGTTGAAATGGATCTGGCCAGCGGCCGCACGCTGGCCGCCTGGCGCGCCAGTGAGCGCTTTCCGCTGATGAGCACCTTTAAAGTGCTGCTCTGCGGCGCGGTGCTGGCCCGGGTGGATGCCGGAGACGAACAGCTGGATCGGCGGATCCGCTACCGCCAGCAGGATCTGGTGGACTACTCCCCGGTCAGCGAAAAACACCTTGCCGACGGGATGACCGTTGGTGAACTCTGCGCCGCCGCCATCACCATGAGCGACAACAGTGCCGGCAATCTGCTGTTGAAGAGCGTTGGCGGCCCCGCGGGATTGACCGCTTTTCTGCGCCAGATCGGTGACAACGTCACCCGCCTTGACCGCTGGGAAACGGAGCTCAATGAAGCGCTTCCCGGCGACGTGCGCGACACCACCACCCCAGCCAGCATGGCCGCCACCCTGCACAAGCTGCTAACCAGCCACGCGCTGAGCGCCCGTTCGCAGCAGCAGCTGCTGCAGTGGATGGTGGACGACCAGGTGGCCGGCCCGCTGATCCGCGCCGTGCTGCCGGCGGGCTGGTTTATCGCCGATAAAACCGGGGCCGGCGAGCGGGGCTCACGCGGCATTGTCGCCCTGCTCGGCCCGAACGGCAAAGCGGAGCGCATCGTGGTGATCTATCTGCGGGATACGCCGGCGACCATGGCCGAGCGTAACCAGCAGATCGCCAGAATAGGCGCGGCGCTGATCGAGCACTGGCAGCGCTAG	MRYVRLCLFSLIAALPLAVFASPPPLEQVTRSESQLAGRVGYVEMDLASGRTLAAWRASERFPLMSTFKVLLCGAVLARVDAGDEQLDRRIRYRQQDLVDYSPVSEKHLADGMTVGELCAAAITMSDNSAGNLLLKSVGGPAGLTAFLRQIGDNVTRLDRWETELNEALPGDVRDTTTPASMAATLHKLLTSHALSARSQQQLLQWMVDDQVAGPLIRAVLPAGWFIADKTGAGERGSRGIVALLGPNGKAERIVVIYLRDTPATMAERNQQIARIGAALIEHWQR	PGPT0028150_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028150-blaLEN-K18796	NA	NA
BMS020_00216	132			hypothetical protein	ATGAACTATAAGAAAGTACTTAAGACCGCACTCTGGCTGGCGCCGCTGTTTGCTGACGATACGCCCGCCGCGCTGCGCGGTTTGCCAATGATCTATGCCATCCCGGGAGGAACTGGTGCACCCGATAATTAA	MNYKKVLKTALWLAPLFADDTPAALRGLPMIYAIPGGTGAPDN				NA	NA	NA	NA	NA
BMS020_00217	261			hypothetical protein	GTGCACCCGATAATTAAGGTCATGCTGGTGGGCGGTAAGGCGGATGGACTGCTGGTCAGCGTCGCCGACGATGCGACCGAGGTCTCAGTGACCCCTGCGCAATACGGTGCGCCGTCCGGACAGCCGCTCAGCTATCGTATCGTGAGTCAAACCATTGAAGATGAACGCTATTTCTTTGGCGTTTTCAGTGACGCCCATCAGGATAGCGATAAGCTGACGCGGGTGGCGCTGACCCGCGGAATGAAAAAAATGTTCTGTTAA	MHPIIKVMLVGGKADGLLVSVADDATEVSVTPAQYGAPSGQPLSYRIVSQTIEDERYFFGVFSDAHQDSDKLTRVALTRGMKKMFC				NA	NA	NA	NA	NA
BMS020_00218	1089			hypothetical protein	ATGATTCAGTACATCCGTATTCAAAACTTTCGCTCAGTCAGGGATATCGCGCTGGAGCTGGGGCCGCTGAACATTGTCTTCGGCCCTAACGGCTGCGGCAAATCCAATATTTACAACGCTATCCATCTGTTGACCGCGGCTGCCGACGGCAGGCTGTCGGGATTTATCAGCGAAGAGGGGGGCCTTGAAAATATGATGTGGTCCGGAGATCGTTCTCCCCTCGATCGCCATCCCCGCCGGCTGCAAATCGCCTGTCGGACGGAGAGCTTTGATTATGAACTGCAGGTTGGTTTCCCGGAAAAATTGCCCTATCCGACGCAGTTCATGCTCGATCCCATCGTCAAAGAAGAGAACATCTGGCTGGCGGGCTATTCCCGTCGGCCTTCCTCCCGCGTACTGCAGCGTAAGAATCAGGCGGCGTTCCTCGTCGATGTCGCCGGGGAGAAAAGCACCTTCACCGAGAGTATTTATGAAAACGAGTCGGTGTTCGGTCAGCTTGGCGAGCCGCACCGCTTTCCTGAGGTGTCTCGGGTGCGCGAGACCCTGCGCCGCTGGCGGTTTTACCATGAATTCGCTATCGGCCGCCACTCACTGCTGCGCCAGCCGGCCGTCGGCTACCGTTCACCGGTGCTCGACAGCGACGGCCATAATCTGGCGGCCGCCTTTCAGACCATTGTCGAGATCGGCGCGGAGGAGATTTTGCACGAGATCCTCGCCGACGCCTTTCCCGGCTGCCAGTTTTACTGTGAAAACGAGCACTCGCGTTTCGCGCTGAAAATGCGCCGGGAGGGGATCCGCCGCCCGCTGCTGGCGGCGGAGATGTCCGACGGCACGCTGCGTTTTCTCTGCCTCGCCGTCGCGCTGCTCAGCCCGCGCCCGCCGGCCTTTCTGGCGATCAATGAACCGGAAAACAGCCTGCATCGCGACATGCTCCCGGCGCTGGCCAGGCTGATCGTCGAGGCCTCCCGCTACAGCCAGATCTGGCTGACCAGCCACTCGGCAGAGCTGGCGGATCTTATCGCCGCCGGGGCTGCCTGCCAGCGCTATGCGCTGGAGAATAGCGGCGGAGAGACGCGCATTGTGGAGTGA	MIQYIRIQNFRSVRDIALELGPLNIVFGPNGCGKSNIYNAIHLLTAAADGRLSGFISEEGGLENMMWSGDRSPLDRHPRRLQIACRTESFDYELQVGFPEKLPYPTQFMLDPIVKEENIWLAGYSRRPSSRVLQRKNQAAFLVDVAGEKSTFTESIYENESVFGQLGEPHRFPEVSRVRETLRRWRFYHEFAIGRHSLLRQPAVGYRSPVLDSDGHNLAAAFQTIVEIGAEEILHEILADAFPGCQFYCENEHSRFALKMRREGIRRPLLAAEMSDGTLRFLCLAVALLSPRPPAFLAINEPENSLHRDMLPALARLIVEASRYSQIWLTSHSAELADLIAAGAACQRYALENSGGETRIVE				NA	NA	NA	NA	NA
BMS020_00219	1266	lacY		Lactose permease	ATGAAATTCTCTGAACTGGCGCCGCGAGAACGGCATAATTTTGTCTATTTCCTGCTGTTCTTTTTCTTTTACTATTTCATTATGTCGGCCTATTTTCCGTTTTTCCCGGTGTGGCTGGCGGACGTTAACCATTTAACCAAAACGGAAACCGGGATCGTCTTCTCCTCCATCTCGTTGTTCGCGATTATTTTTCAGCCGGTATTTGGTTTAATGTCGGATAAGCTCGGCCTGCGCAAACATCTGCTGTGGACTATTACGGTGCTGTTAATTCTGTTCGCGCCGTTCTTTATTTTCGTTTTCTCCCCGCTGCTGCAGATGAATATTATCGCCGGTTCGCTGGTGGGCGGGATCTACCTGGGGATTGTTTTCTCCAGCGGCTCCGGGGCGGTGGAAGCCTATATCGAGCGCGTCAGCCGGGCAAACCGCTTTGAATATGGCAAAGTGCGGGTCGCTGGCTGCGTCGGCTGGGCGCTGTGCGCCTCGATAACCGGCGTGCTGTTCGGCATCGACCCCAATATTACCTTCTGGATCGCCTCCGGCTTTGCGCTGGTGCTGGGTCTTCTGCTCTGGCTGTCGCGTCCGGAAAGCAGCAACAGCGCCCAGGTTATCGAGGCGCTCGGGGCCAATCGCCAGGCCTTTTCGCTGCGCACGGCGGCAGAGCTGCTGCGTATGCCGCGCTTCTGGGGCTTTATCGTCTATGTGGTGGGGGTCGCCAGCGTCTACGACGTGTTTGACCAGCAATTTGCTAACTTTTTCAAAAGCTTCTTCGCCAGTCCGCAGCGCGGTACCGAAGTGTTTGGCTTCGTCACCACCGGTGGCGAGCTGCTCAATGCTGTGATCATGTTCTGCGCCCCGGCCATCGTTAACCGTATCGGGGCCAAAAACGCCCTGCTGACCGCGGGGATGATCATGTCGGTGCGTATTCTCGGGTCGTCTTTTGCCTCATCGGCGGTGGAGGTGGTGATCCTCAAGATGCTGCATATGTTTGAGATCCCCTTCCTGCTGGTCGGGACCTTTAAATATATCTCCTCCGCCTTTAACCCGCGGCTCTCAGCCACCCTGTTTCTGATCGGCTTTAACCTGTCGAAACAGCTCTCAGGGGTGGTACTTTCCGCCTGGGTGGGCCGGATGTACGACACCGTCGGCTTCCATCAGGCCTATCTGATCCTCGGCTGCATCACCCTGAGCTTTACCCTGCTCTCGTTCATCACCTTGCGCGGCGGCAAAAGCCTGCTGCCGGCAGCGGAGACGCAGACCCCCGCCTGA	MKFSELAPRERHNFVYFLLFFFFYYFIMSAYFPFFPVWLADVNHLTKTETGIVFSSISLFAIIFQPVFGLMSDKLGLRKHLLWTITVLLILFAPFFIFVFSPLLQMNIIAGSLVGGIYLGIVFSSGSGAVEAYIERVSRANRFEYGKVRVAGCVGWALCASITGVLFGIDPNITFWIASGFALVLGLLLWLSRPESSNSAQVIEALGANRQAFSLRTAAELLRMPRFWGFIVYVVGVASVYDVFDQQFANFFKSFFASPQRGTEVFGFVTTGGELLNAVIMFCAPAIVNRIGAKNALLTAGMIMSVRILGSSFASSAVEVVILKMLHMFEIPFLLVGTFKYISSAFNPRLSATLFLIGFNLSKQLSGVVLSAWVGRMYDTVGFHQAYLILGCITLSFTLLSFITLRGGKSLLPAAETQTPA	PGPT0016855_275	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_LACTOSE_TRANSPORT,PGPT0016855-lacY|MFS_transporter|OHS_family|lactose_permease-K02532	NA	NA
BMS020_00220	3108	lacZ_1	COG3250	Beta-galactosidase	ATGCCAATAAGCGATACCAGTCGCCGCCACGCGCCTGACTTCCACGCCGTCCTCGCCCGCGAAGACTGGCAGAACCAGACCATTACCCATCTCAACCGCCTGCCGGCCCATCCCGCGTTCGCCAGCTGGCGCGATGAGCTTGCCGCCCGCGATAATCATCCTTCGCCCCATCGTCGTCAGCTGGACGGCGAGTGGCAATTTGCTTACGCCCGCAGCCCGTTTGCCGTCGATGCGCAGTGGCTGACGCAGGACCTGCCGGGCAGCCGCGGCACGCCGGTGCCCTCCAACTGGCAGATGGAGGGCTATGACGCGCCGATCTACACTAACGTCCGCTACCCCATCGACACCACCCCGCCGCGGGTGCCGGAGGATAACCCAACCGGCTGTTACTCCCTGCACGTTGCGATCGATGACGCCTGGCGCGCGGACGGGCAGACGCAGATTATTTTCGACGGCGTTAACTCGGCCTTTCATCTCTGGTGCAACGGCGCCTGGGTCGGTTACTCCCAGGACAGCCGCCTGCCGGCGGCGTTCGATCTCAGCCCCTTTCTGCGTCCGGGCGACAACCGCCTGTGCGTGATGGTCATGCGCTGGAGCGCCGGCAGCTGGCTGGAAGACCAGGATATGTGGCGGATGAGCGGTATTTTCCGCTCGGTGTGGCTGCTGAATAAGCCGCACCAGCGGCTGAGCGACGTCCAGCTGACGCCGACCCTTGACGCCCTCTGCCGCGACGGCACTCTGCAGGTCCAGGCGACCGTCGAGGCGACAGAAGCGGCGCTTGCCGGGCTCAGCGTCGGGGTTAGCCTGTGGCGCGGCGAGCAGCCTGTCGTTGCCCACCGTCAGCCGTTAGGCACCCCGACGGTGGATGAGCGCGGCCGTTACGCCGAACGGGTCGATTTCTCCCTGGCGGTGGCGGCGCCGGCGCACTGGAGCGCGGAAACCCCGGATTGCTACCGGGCGGTGGTCACCCTGTGGCGCGGCGAGGCATTGCTGGAGGCCGAGGCGTGGGATATCGGTTTTCGCCGCATCGAGATCGCCGACGGCCTGCTGCGCCTTAACGGCAAACCGCTGCTGATCCGTGGCGTTAACCGCCATGAACACCACCATTTACGCGGTCAGGTGGTCAGCGAGGCGGATATGGTGCAGGACATTCTGTTGATGAAGCAGAACAACTTTAACGCCGTCCGCTGCTCGCACTACCCCAACGCCCCGCGCTGGTATGAGCTGTGCAACCGCTACGGTCTGTACGTGGTCGATGAAGCCAATATTGAAACCCACGGCATGGTGCCGATGAATCGGCTGTCCGACGATCCGGCGTGGCTGCCAGCCTTCAGCGCCCGCGTCACCCGGATGGTACAGAGCAACCGCAACCATCCGTGCATTATCATCTGGTCGCTGGGCAACGAATCCGGCGGCGGCGGCAACCACGAAGCGCTGTACCACTGGCTGAAGCGTAACGACCCGACCCGTCCGGTGCAGTACGAGGGCGGCGGCGCGGATACCACCGCCACCGATATTATCTGTCCGATGTACGCCCGCGTCGAACGCGACCAGCCGATCCCGGCGGTACCGAAGTGGGGGATCAAAAAATGGATCAGCCTGCCCGGCGAGCAGCGGCCGCTGATCCTCTGCGAGTACGCCCACGCGATGGGCAACAGCCTCGGCAACTTCGCCGATTACTGGCAGGCCTTCCGCGAGTATCCACGGCTGCAGGGCGGGTTTATCTGGGACTGGGCCGACCAGGCGATCCGCAAAATCTTTGACGACGGCAGCGTCGGCTGGGCCTACGGCGGCGACTTTGGCGATAAGCCGAACGATCGCCAGTTCTGTATGAACGGCCTGGTGTTCCCCGATCGCACGCCGCATCCGTCGCTGGTCGAGGCGAAGCACGCCCAGCAGTATTTCCAGTTCGCCCTGCTGTCAACCTCGCCGCTGCGGGTGCGCATCGCCAGCGAATACCTGTTCCGCCAGACCGATAACGAAGCGCTGCGCTGGCAGGTGCAGGCGGCCGGTGAAACCCTGTACCACGGCAACCTGACGCTGGCGCTCCCGCCTGAGGGCAGCGACGAGATAACGCTGCTCGACAGTCTGATCCTGCCGCCAGGCGCCCGCGCCGTGTGGCTGACGCTGGAGGTGGCCCAGCCCCAGGCGACAGCCTGGTCCCCGGCGGATCATCGCGTCGCCTGGCAGCAGTATCCCCTGCCGGCGCCGCTGGCGCTGCCTGCGCCCACGGTGCCAGCCGGCGCCCCGGATCTTATCGTCAGCGATGAGGCCTGGCAGATCCGCGCCGGCACGCAGTGCTGGACCGTCGATCGCCGGACCGGTTTGCTGAGTGGCTGGTCGGTTGGCGGTCAGGAGCAGCTGCTGACCCCCCTGCGGGATCAGTTTGTCCGTGCGCCGCTCGACAACGACATCGGGGTCAGCGAAGTGGAGCGCATCGACCCCAACGCCTGGGTGGAGCGCTGGAAAAGCGCCGGCCTGTTCGACCTTGAGGCGCGCTGCGTGCAGTGCGACGCCCAGCGTCTGGCGAATGAGACCCTTGTCGACAGCCGCTGGCACTACCTGCGCGGCGACGAGGTGGTGATTGTCAGCCACTGGCGTCTGCGCTTTACCGCGGACGGAACGGTGCGGCTGGCGGTTGACGGCGAGCGCGCGGAAACGCTGCCGCCGCTGCCGCGGGTCGGGCTGCACTTCCAGGTGGCGGATCAGCAGGCGCCGGTGAGCTGGCTGGGGCTGGGGCCGCATGAGAACTACCCCGACCGGCGGAGCAGCGCCTGCTTCGCCCGCTGGGAGCAGCCGCTGGCGGCGATGACCACCCCCTACATCTTCCCGACGGAAAACGGCCTGCGCTGTGATACTCAGGCGCTGGACTGGGGACGCTGGCACGTCAGCGGTCATTTCCACTTCTCCGTTCAGCCGTGGAGCACCCGTCAGCTGATGGAGACCGACCACTGGCACAAGATGGAGGCCGAAGACGGCGTGTGGATCACCCTTGACGGCCTGCATATGGGGGTGGGAGGCGATGACTCCTGGACCCCAAGCGTGCTGCCGCAGTGGCTCCTGACCCAAACGCGCTGGCAGTACGAGGTCTCATTGCGTTGCCTTTAA	MPISDTSRRHAPDFHAVLAREDWQNQTITHLNRLPAHPAFASWRDELAARDNHPSPHRRQLDGEWQFAYARSPFAVDAQWLTQDLPGSRGTPVPSNWQMEGYDAPIYTNVRYPIDTTPPRVPEDNPTGCYSLHVAIDDAWRADGQTQIIFDGVNSAFHLWCNGAWVGYSQDSRLPAAFDLSPFLRPGDNRLCVMVMRWSAGSWLEDQDMWRMSGIFRSVWLLNKPHQRLSDVQLTPTLDALCRDGTLQVQATVEATEAALAGLSVGVSLWRGEQPVVAHRQPLGTPTVDERGRYAERVDFSLAVAAPAHWSAETPDCYRAVVTLWRGEALLEAEAWDIGFRRIEIADGLLRLNGKPLLIRGVNRHEHHHLRGQVVSEADMVQDILLMKQNNFNAVRCSHYPNAPRWYELCNRYGLYVVDEANIETHGMVPMNRLSDDPAWLPAFSARVTRMVQSNRNHPCIIIWSLGNESGGGGNHEALYHWLKRNDPTRPVQYEGGGADTTATDIICPMYARVERDQPIPAVPKWGIKKWISLPGEQRPLILCEYAHAMGNSLGNFADYWQAFREYPRLQGGFIWDWADQAIRKIFDDGSVGWAYGGDFGDKPNDRQFCMNGLVFPDRTPHPSLVEAKHAQQYFQFALLSTSPLRVRIASEYLFRQTDNEALRWQVQAAGETLYHGNLTLALPPEGSDEITLLDSLILPPGARAVWLTLEVAQPQATAWSPADHRVAWQQYPLPAPLALPAPTVPAGAPDLIVSDEAWQIRAGTQCWTVDRRTGLLSGWSVGGQEQLLTPLRDQFVRAPLDNDIGVSEVERIDPNAWVERWKSAGLFDLEARCVQCDAQRLANETLVDSRWHYLRGDEVVIVSHWRLRFTADGTVRLAVDGERAETLPPLPRVGLHFQVADQQAPVSWLGLGPHENYPDRRSSACFARWEQPLAAMTTPYIFPTENGLRCDTQALDWGRWHVSGHFHFSVQPWSTRQLMETDHWHKMEAEDGVWITLDGLHMGVGGDDSWTPSVLPQWLLTQTRWQYEVSLRCL	PGPT0017810_1231	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017810-lacZ-K01190	NA	NA
BMS020_00221	1065	lacI_1	COG1609	Lactose operon repressor	ATGCCGCGTCGTACCGCAACCCTGGAGGATGTCGCCCGCGCGGCGGGCGTCTCCCAACAGACGGTCTCCCGGGTCCTGAACCGTCCGGAAGTGGTGTCAGCCCGCACCCGCGAGCAGGTGATCCGCGCAATGCAGACGCTGCACTACGTGCCTAACCGCTCGGCGCAGCTGCTCGCCGGCAAAGCGGCGCCCTCCATTGGGCTGATTACCGCCTCGTTGACCCTGCATGCCCCCTCGCAGATCGCCGCCGCGGTAAAGAGCCATGCCAGTCTGCACCAGCTGGAGGTGGCGATAGCGATGCCAGCGCAGGCCGACTTCGCCGCGCTGCAGGCCCGGCTGGACGAACTGCGCGCCCAGCATATTCGCGGGGTGATCGTCAGCCTGCCGCTGGAGAGCGCCACCGCCGAGCGGCTGGTTAAAGAGAACCCGGATATGGCCTGCCTGTTTCTTGACGTCTCCCCGGAGGCCGATGTCTGCTGCGTGCGCTTCGACCATCGCGACGGCTGCGGAGCCTGCGTGCGCCATCTGTGGGAGCTCGGGCATCGCGAATTCGGCCTGCTGGCGGGGCCGGAAAGTTCGGTTTCCGCCCGTCTGCGTCTCGCCAGCTGGCGCGAGGCGCTGCACAGCCTGAACATTGCCCGTTCAACCACGGTGTTCGGTGACTGGAGCGCCGCCAGCGGCTGGCAGAAAACCTTCGAACTGCTGCACCTCCAGCCGCGGATCAGCGCCATTGTGGTGGCCAACGATCAGATGGCGCTCGGGGTACTCAGCGCGCTGGCCCAGCTCAATCGCAGCGGCAGCCAGGCGGTATCGGTGACCGGCTATGACGACACCGCCGACAGTCTCTACTTTCAGCCGCCGCTCACCACGGTGGCGCAGGACTTTGATCTGCTGGGCAAACGGGCCGTGGAGCGGCTGATTGCTCTGATGGCGGCCCCGCAGATGCGGATCCGCGAGCTGCTGCCGACCCGGCTCATCGTGCGCCAGTCGGCGTGGCCGCTCGCCGCCGCGGAGGACCGGCAGCAGACCCTGGCGCAGCTGAAAGCGTTGGTGGAGAAGCTTTAG	MPRRTATLEDVARAAGVSQQTVSRVLNRPEVVSARTREQVIRAMQTLHYVPNRSAQLLAGKAAPSIGLITASLTLHAPSQIAAAVKSHASLHQLEVAIAMPAQADFAALQARLDELRAQHIRGVIVSLPLESATAERLVKENPDMACLFLDVSPEADVCCVRFDHRDGCGACVRHLWELGHREFGLLAGPESSVSARLRLASWREALHSLNIARSTTVFGDWSAASGWQKTFELLHLQPRISAIVVANDQMALGVLSALAQLNRSGSQAVSVTGYDDTADSLYFQPPLTTVAQDFDLLGKRAVERLIALMAAPQMRIRELLPTRLIVRQSAWPLAAAEDRQQTLAQLKALVEKL				NA	NA	NA	NA	NA
BMS020_00222	441			hypothetical protein	ATGATGGTGATTGAGGGCAAAGAGGCGATTGCGCGGGTAGACTGGAGGCGGGTGCGGACCATCGTCGCCGAGGCCGGGCTGAATGAACGTGATGTTCAGCAACTGGAGCAGGCGTTTCGCCAGAGCACCTTCTGCTGGTTCGGCTATGAGAACGGTCAGCTGATTGCCGTGGCGCGCGCCATCAGCGACTGCACCTGGAGCAGCTACTTGTCGGATGTGGCGATCGTCCCCGACCGACAGGGGCTGGGTTACGGACAACAGCTGATGCAGGCGGTCCGGGAGCAGCTGCTGCCCTTTGGCAAAATCTTTATCTATGCGGTGGCCGATAAAATCGCGTTCTATCAGCGTTTTGGTTTTGCCATGCTGACCACCGGGATGGTCTGCGCTGGCGAGGAGGGCATGCGCAAAATGCACGAGCAGGGCTATATCCGCCAGCCCTGA	MMVIEGKEAIARVDWRRVRTIVAEAGLNERDVQQLEQAFRQSTFCWFGYENGQLIAVARAISDCTWSSYLSDVAIVPDRQGLGYGQQLMQAVREQLLPFGKIFIYAVADKIAFYQRFGFAMLTTGMVCAGEEGMRKMHEQGYIRQP				NA	NA	NA	NA	NA
BMS020_00223	219			hypothetical protein	ATGATGAAGAAAGAGTGTCGGGTAGTGATCTATAAAGAGGGCCTGCTGGGCAGCCTGTTTTTTGGCGAAGCCAAAGCCGACCCTGACAAAATGAGCCAGTTTCTCAGCAGCTATACCCGCGAGGGCTGGGAGGTAAAAACCATGTCGGTGGAGCGCCGCCGTACCGCCCTGTTCTGGTCGCGGGAAGCGTATCTGTTTGTGCTTGAAAGGCCTCTGTAA	MMKKECRVVIYKEGLLGSLFFGEAKADPDKMSQFLSSYTREGWEVKTMSVERRRTALFWSREAYLFVLERPL				NA	NA	NA	NA	NA
BMS020_00224	1098	rhaS_2		HTH-type transcriptional activator RhaS	ATGACAGAAAACGCTAACATCCTGACAACCCCTTCGGTGACACCGTCACCTCACCACGTGGTGGCCCTCGCCTACGATGGCCTGTGCACGTTTGAGTTTGGCGTGGCCGTGGAGATCTTCGGCCTGCCGCGCCCGGAAATGGGCGAGCGCTGGTACCAGTTCGCCGTCGCCGCCGTCGATGAAGGGCCTCTGAGAGCCACCGGCGGGGTCCGCCTGATGACCGACGGCGGCCCTGAGCTTCTCGCCCAGGCGCAGACCATCGTGGTCCCGGGCTGGCGCGGCATCGACGCCCCGGTCCCCGAAGCGCTGTGCGCCGCCCTGGCCGCCGCTCACGCCCGCGGATGCCGAATAATCTCCATCTGTTCCGGAGTGTTCGTTCTCGCCGCCGCCGGGCTGCTCAATGGCCGCCAGGCGACAACCCACTGGCGCTACACCGCGGCGCTGCAGTCCCGTTTTCCGCAGATCCAGGTGGTGGAGGATGTCCTTTACGTAGGCGATGATTTGCTGATGACGTCCGCCGGCAGCGCGGCGGGGATCGATCTCTGTCTGCATCTGGTGCGCGAGGATTTCGGCAGCGAGGCAGCGAATGTGGTCGCTCGCCGCCTGGTGGTCTCTCCCCATCGCGATGGCGGTCAGGCGCAGCAGGTCCTGCGTCCGGTGGCCCGCAGCCGGGAGAGCCTGCGCCTTGGCCAGCTGTTTGATTATCTGCACCAGCATCTCGCCGCCAGCCACACCGTCGCCTCCCTCGCGCAGCGCGCCGGCATGGGGACGCGCACCTTTTTGCGCCGCTTTGAAGAGGCCACTGGTAAAACCCCCGCCCGCTGGCTGCTGGAGGAGCGTCTGCTGCGCGCCCGTCAGCACCTGACGGAGAGCACGATGGGCATCGACCAGATCGCTGAGCGCTGCGGATTTGCCAGCGCTGGCACCCTGCGCCACCATTTTCGCCTGCGCTTCGCGCTAAGCCCGCTGCAGTACCGTAAACAGTTTGCTACTTCTCCGATTGCAAAATCCTCGCAGCCACGGACAATAGACGACCACAGTAAACCGGTCGCCAGGATGGTCGATGATGAAGAAAGAGTGTCGGGTAGTGATCTATAA	MTENANILTTPSVTPSPHHVVALAYDGLCTFEFGVAVEIFGLPRPEMGERWYQFAVAAVDEGPLRATGGVRLMTDGGPELLAQAQTIVVPGWRGIDAPVPEALCAALAAAHARGCRIISICSGVFVLAAAGLLNGRQATTHWRYTAALQSRFPQIQVVEDVLYVGDDLLMTSAGSAAGIDLCLHLVREDFGSEAANVVARRLVVSPHRDGGQAQQVLRPVARSRESLRLGQLFDYLHQHLAASHTVASLAQRAGMGTRTFLRRFEEATGKTPARWLLEERLLRARQHLTESTMGIDQIAERCGFASAGTLRHHFRLRFALSPLQYRKQFATSPIAKSSQPRTIDDHSKPVARMVDDEERVSGSDL	PGPT0014658_5	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA	NA	NA
BMS020_00225	399			hypothetical protein	ATGAGTGTAGTAAGCCAATTTACCCCCGCCACCTCCGCCGAGGCTATCCGCTGGTTCCGCCATAAGCTGCATCTCGAGACCGATTGCGCCGATGTGCACAGCGCCCAGCGTGCCGGCGAGGTCGACTTTGTCCTGCTGCACGTGGTCGGCAGCGAGGAGGCCTTCGCCAGGCGTCACCTGCCCGGCGCGCTGCATCTTCCGCACAGCCAGATCAGCGCCGAGAGAATGGCGGCCTGGCCGGCGGAGACCCTGTTTGTGGTCTATTGCGCCGGGCCGCACTGCAACGGTGCCGACGTAGCCGCGCTGAAGCTGGCCGAACTGGGGCGGCCGGTGAAAATGATGCTCGGCGGGATCACCGGCTGGGAAGATGAGGGTTATGCGTTTGTCGCCGGTAAGTGA	MSVVSQFTPATSAEAIRWFRHKLHLETDCADVHSAQRAGEVDFVLLHVVGSEEAFARRHLPGALHLPHSQISAERMAAWPAETLFVVYCAGPHCNGADVAALKLAELGRPVKMMLGGITGWEDEGYAFVAGK				NA	NA	NA	NA	NA
BMS020_00226	1104			hypothetical protein	ATGCAACGTCAACAGGCCCCGTTCCGCGCAGACATCGTCGGCAGTTTTTTGCGTCCGGACAGTATCAAACAGGCGCGTCAGCAGCTGGCGGAAGGGCTGATCGACGCCGGTCAGCTGCGCGAAATTGAGAATAACGCTATCCGTCATCTGGTCCAGCAGCAGTGCGACTGCGGCCTGCACGTGGTCACCGACGGCGAGTTTCGTCGCGCATGGTGGCATTTCGATTTCTTCGACGGCCTGCAGGGCGTTGAGCGTTACGATGCCGAGCAGGGGATCCAGTTCAACGGCGTGCAGACCAAAGCCCACGGCGTGCGCGTTACCGGCAAGCTGGCGTTCGGCGACCACCCGATGCTGGAGGATTTCCGCTATCTGAAAAGCATCAGCGGCGACGCGCAGCCGAAGATGACCATTCCCAGCCCGAGCGTGCTGCACTTCCGCGGCGGTCGGAAAGATATTGATGCCACCGTTTACCCGGATCTCAGCGACTACTTCGACGACCTGGCCACCACCTGGCGCGACGCGATCCGCGCCTTTTATGACGCCGGCTGTCGCTATCTGCAGCTGGACGATACCGTCTGGGCCTATCTGTGCTCCGATGCCCAGCGTCAGCAGGTACGCGAGCGCGGCGACGATCCGGATGCGCTGGCGCGCATTTATGCCCGGGTGCTGAACCAGGCGCTGGAGGGCAAACCGGCCGATCTGACGGTGGGCCTCCACGTCTGCCGGGGTAATTTCCGCTCAACCTGGATCTCGGAGGGCGGTTATGAGCCGGTGGCCGAGGTGCTGTTTGGCGGCGTCAATGTCGATGCCTTCTTCCTCGAATATGACAACGACCGCTCCGGGGATTTCGCGCCGCTGCGCTTTATTCGTCCCGGCCATCAGCAGGTGGTCCTCGGGTTGATCACCACCAAAAACGGCGAGCTGGAGAACCCGCAGGGGGTCATAGCGCGTCTCGCCGAGGCGGCGCAGTATGTTCCGCTTGAGCAGATCTGCCTGAGTCCGCAGTGCGGTTTCGCCTCCACGGAAGAGGGTAACGCCCTCAGCGAAGACCAGCAGTGGCAAAAAGTTCGCCTGGTGACCGCCATCGCCGCCGACGTCTGGTAA	MQRQQAPFRADIVGSFLRPDSIKQARQQLAEGLIDAGQLREIENNAIRHLVQQQCDCGLHVVTDGEFRRAWWHFDFFDGLQGVERYDAEQGIQFNGVQTKAHGVRVTGKLAFGDHPMLEDFRYLKSISGDAQPKMTIPSPSVLHFRGGRKDIDATVYPDLSDYFDDLATTWRDAIRAFYDAGCRYLQLDDTVWAYLCSDAQRQQVRERGDDPDALARIYARVLNQALEGKPADLTVGLHVCRGNFRSTWISEGGYEPVAEVLFGGVNVDAFFLEYDNDRSGDFAPLRFIRPGHQQVVLGLITTKNGELENPQGVIARLAEAAQYVPLEQICLSPQCGFASTEEGNALSEDQQWQKVRLVTAIAADVW				NA	NA	NA	NA	NA
BMS020_00227	1272	amiC_1		Aliphatic amidase expression-regulating protein	ATGCAACGAAGAACGTTATTAAAAGCTTTTGCACTCTCCGCCTCTGTAATGGCTATGGGTCTCTCATTCCAGGCCTATGCCGCCGACACCATTAAAGTCGGGATTATGCATTCGCTCTCCGGGACGATGGCGATTTCCGAAACGCCGCTGAAGGACGTCGCCCTGATGGCCATCGACGACATCAACGCCAAAGGCGGGGTGCTGGGCAAGAAGCTGGAGCCGGTAGTGGTCGACCCGGCCTCCAACTGGCCGCTGTTCGCCGAGAAGGCGCGCCAGCTGCTGGCCCAGGACAAGGTGGCGGTGGTGTTCGGCTGCTGGACCTCGGTCTCGCGTAAATCGGTGTTACCGGTGTTTGAGGAGCTGAACGGCCTGCTGTTCTACCCGGTACAGTACGAAGGGGAAGAGATGTCCCCCAACGTCTTCTATACCGGCGCGGCGCCTAACCAGCAGGCCATCCCGGCGGTGGAATACCTGCTGAGCGAGGACGGCGGCGGCGCCAAACGCTTCTTCCTGCTGGGAACCGACTACGTCTATCCGCGCACCACCAATAAGATCCTTCGCGCCTTCCTGCATGCCAAAGGGATCCAGGACAAAGATATCGAAGAAGTCTACACCCCGTTCGGCTATAGCGATTACCAGACCATCGTCGCCAATATCAAAAAATTCTCCGCCGGCGGCAAAACGGCGGTGGTCTCCACCATCAACGGCGATTCCAACGTGCCTTTCTACAAAGAGCTGGCTAACCAGGGTCTGAAAGCGACCGACGTGCCGGTGGTGGCCTTCTCGGTGGGGGAAGAGGAGCTGCGCGGCATCGATACCAAACCGCTGGTCGGCAACCTCGCGGCATGGAACTACTTTGAGTCGGTCGATAACCCGACCAATAAAGCCTTTGTCGCCGACTATCGCGCTTACGCCAAAGCGCACAAGCTGCCGAATGCCGATACGGTGGTGACCAACGACCCGATGGAGGCGACCTGGGTGGGTCTGCATATGTGGGCGCAGGCGGTGACCAAAGCCGGCACCACCGACGTGGGCAAAGTGCGCGACGCCATGGCCGGGCAAACCTTTAAAGCGCCGTCCGGTTTTACCCTGACGATGGATGCCACCAACCACCATCTGCATAAGCCGGTGATGATCGGTGAAATCGAAGGCAACGGCCAGTTCAATGTGGTCTGGCAGACCGATGAGCCCGTCCGCGCGCAGCCGTGGAGTCCGTGGATCCCCGGTAATGATAAGAAACCTGACCATCCGGTGAAAACCGTCAGCCAGTAA	MQRRTLLKAFALSASVMAMGLSFQAYAADTIKVGIMHSLSGTMAISETPLKDVALMAIDDINAKGGVLGKKLEPVVVDPASNWPLFAEKARQLLAQDKVAVVFGCWTSVSRKSVLPVFEELNGLLFYPVQYEGEEMSPNVFYTGAAPNQQAIPAVEYLLSEDGGGAKRFFLLGTDYVYPRTTNKILRAFLHAKGIQDKDIEEVYTPFGYSDYQTIVANIKKFSAGGKTAVVSTINGDSNVPFYKELANQGLKATDVPVVAFSVGEEELRGIDTKPLVGNLAAWNYFESVDNPTNKAFVADYRAYAKAHKLPNADTVVTNDPMEATWVGLHMWAQAVTKAGTTDVGKVRDAMAGQTFKAPSGFTLTMDATNHHLHKPVMIGEIEGNGQFNVVWQTDEPVRAQPWSPWIPGNDKKPDHPVKTVSQ	PGPT0000925_817	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000925-urtA-K11959	NA	NA
BMS020_00228	1575			hypothetical protein	ATGAACGCATTGCGTCTCATGAGTGTGTTGACGCTGCTGCTGAGCTTGCTGCCATGGCGGGCGCAGGCCGCGGAGGCGGATGATTTCGTCGCCGCCAGCCGCAGCCAGCAGGCGCAGCTGTTGACCCAGTGGGCGGCGGCGCCGCAGGCGGATCGCCTGCCGTTGCTGCGGGCGTTAACCAGCGAAAGCCTGGTGATGGACGACGGAAAACATGCCTTCAGCGCCAGACAGGGCGGCTTGCAACCGCTGGGCGCCGCCGCCGCGCCGCAGGGCGACACCCGGCCGGTCCGTCTGACCAACCGCCTGCGCAATCTGGCTGCCGGCGCGCTGGCCAGCCATCTTATTTTAAGTGACAACGTCACTGAGCGAGCGTCCGCGGCGCGCACCCTGCAGCGGGAAGCGACCCCGGCCATGGCCGCTCTGCTGCAGCAGCGGCTGAAGGCGGAAAGCGATGATAATGTGCGGGGCCTGCTGGAGGTGGCGCTGGCGCGCCTGCAGTTGACTCAGCCTGAGGCCAGCGCGCGGCTGGCCGCGGTGACGCTGCTCGGCCATTCCGCGGACCCGGAAACCCAGGCGCTGCTGATCCCCTTTACCGATGCCCAGCATGAGCCGGATGCGGCGGTGCGCGAGGCGGCCAGCGACAGCCTGCAAAAGATCAAACATCGTCTGCTGCTCGGCGATCTGCTGGGCCAGGCCTTTATGGGGCTGTCGCTGGGCTCGGTGCTGCTGCTGGCCGCGCTGGGGCTGGCGATCACCTACGGCCTGCTGGGGGTGATTAACATGGCCCATGGCGAGATGCTGATGATCGGCGCCTACAGCTGCTGGCTGGTACAGCAGGTCCTGGCGCAGCTCGCGCCGCAGTGGCTGGCCTTTTATCCGCTGGTCGCGCTGCCGGTGGCCTTCCTGGTCACCGCCGGGATCGGCATGGCGCTCGAGCGCACCATTATTCGTCATCTGTATGGTCGGCCGCTGGAGACGCTGCTCGCCACCTGGGGGATCAGCCTAATGCTTATTCAACTGGTGCGGATGCTGTTCGGCGCGCAGAACGTGGAGGTGGCGAACCCCGCCTGGCTCTCCGGCGGCGTGCAGGTCCTGCCGAACCTGATCCTGCCGTGGAACCGGCTGGCGGTGCTGGCGTTCGTCCTGCTGGTGCTGTGCTTCACCTGGCTCATCCTGAACCGCACCCGCCTCGGAATGAACGTCCGCGCCGTGACGCAGAACCGGGCGATGGCCGCCTGCTGCGGCGTGCCTACCGGGCGGGTGGATATGCTGGCCTTTGGTCTCGGATCCGGTATTGCCGGGCTGGGCGGCGTGGCGCTGTCGCAGCTTGGCAACGTCGGCCCGGAGCTGGGTCAGGGCTATATCATCGACTCGTTCCTGGTGGTGGTCCTGGGCGGCGTCGGCCAGCTGGCCGGCAGCGTGGCGGCAGCCTTTGGGCTGGGCATTTTCAACAAAATTCTTGAACCTCAGATGGGCGCGGTGCTTGGCAAGATCCTGATCCTGGTGATGATTATTCTGTTTATTCAGAAACGCCCGCAGGGCCTGTTCGCGCTGAAAGGGAGGGTGATTGACTGA	MNALRLMSVLTLLLSLLPWRAQAAEADDFVAASRSQQAQLLTQWAAAPQADRLPLLRALTSESLVMDDGKHAFSARQGGLQPLGAAAAPQGDTRPVRLTNRLRNLAAGALASHLILSDNVTERASAARTLQREATPAMAALLQQRLKAESDDNVRGLLEVALARLQLTQPEASARLAAVTLLGHSADPETQALLIPFTDAQHEPDAAVREAASDSLQKIKHRLLLGDLLGQAFMGLSLGSVLLLAALGLAITYGLLGVINMAHGEMLMIGAYSCWLVQQVLAQLAPQWLAFYPLVALPVAFLVTAGIGMALERTIIRHLYGRPLETLLATWGISLMLIQLVRMLFGAQNVEVANPAWLSGGVQVLPNLILPWNRLAVLAFVLLVLCFTWLILNRTRLGMNVRAVTQNRAMAACCGVPTGRVDMLAFGLGSGIAGLGGVALSQLGNVGPELGQGYIIDSFLVVVLGGVGQLAGSVAAAFGLGIFNKILEPQMGAVLGKILILVMIILFIQKRPQGLFALKGRVID	PGPT0000930_825	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000930-urtB-K11960	NA	NA
BMS020_00229	1074			hypothetical protein	ATGAGCCAACCCATTACCTTAACGCTGGCGCAGCGCGCGCCGCGGCCTCTGCGCTGGCTGGGGATCCTGTTAGTGCTGGGACTGCTGAGCATGCCATTCCTGGCGCTGCTGCCGGCCTCCCATCCGCTGGCGGTGCCGAGCTGGCTGCTGACCCTGAGCGGTAAAATCCTCTGCTACGCCATCGTGGCGGTGGCGCTGGATCTGGTCTGGGGCTACGCGGGTATGCTATCCCTTGGCCACGGGATTTTCTTTGCCCTCGGCGGGTACGCCATGGGCATGTACCTGATGCGCCAGGCGGCGGGGGACGGTCTGCCGGCGTTCATGTCTTTTCTCTCCTGGAACGAGCTGCCCTGGTTCTGGTGGGGCACGCAGCATTTCGCTTGGGCGATGGCGCTGGTGGTGCTGGTTCCCGGCCTGCTGGCGCTGGTTTTCGGCTGGTTCGCCTTCCGCTCGAAGATCAAAGGGGTCTATTTCTCGATCATGACCCAGGCTTTGACCTATGCCGGTATGCTGCTGTTCTTTCGCAACGAGACCGGGTTTGGCGGTAACAACGGCTTCACCGGATTTACCACGCTGCTGGGCTTTCCGGTCACCGCCACCGGCACCCGGGCGGCGCTGTTTATGGCCACGGTCCTGCTGCTGTTGCTGACCCTGTGGCTGGGCTCGGCGCTGGCGCAGAGTAAGTTTGGCCGCATCCTCACCGCGGTGCGGGATGCCGAGAACCGCCTGATGTTCTGCGGGTACGACCCGCGCGGCTTCAAGCTGCTGGTGTGGACGCTGTCGGCGGTGCTGTGCGGCCTGGCGGGGGCGTTATACGTCCCGCAGGTGGGGATCATCAACCCCAGCGAAATGTCGCCGACCAACTCCATCGAGGCCGCCATCTGGGTGGCGCTCGGCGGGCGCGGCACCCTGATCGGCCCGGTGCTTGGCGCCGGGCTGGTCAATGGCGCGAAAAGCATTTTCACCGTGGCGATGCCGGAGTACTGGCAGCTGTTTCTTGGCCTCATGTTCATCATCGTGACCCTGTTTTTACCCCGCGGGGTGATGGGTCTGCTGCGTCGAGGAGACCGCTAA	MSQPITLTLAQRAPRPLRWLGILLVLGLLSMPFLALLPASHPLAVPSWLLTLSGKILCYAIVAVALDLVWGYAGMLSLGHGIFFALGGYAMGMYLMRQAAGDGLPAFMSFLSWNELPWFWWGTQHFAWAMALVVLVPGLLALVFGWFAFRSKIKGVYFSIMTQALTYAGMLLFFRNETGFGGNNGFTGFTTLLGFPVTATGTRAALFMATVLLLLLTLWLGSALAQSKFGRILTAVRDAENRLMFCGYDPRGFKLLVWTLSAVLCGLAGALYVPQVGIINPSEMSPTNSIEAAIWVALGGRGTLIGPVLGAGLVNGAKSIFTVAMPEYWQLFLGLMFIIVTLFLPRGVMGLLRRGDR	PGPT0000935_1394	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000935-urtC-K11961	NA	NA
BMS020_00230	798	livF_1	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGCAACCGGATGAAGGACTGTTTACCCGCCAGCTGCCCGGAGATCGCTTCCGTGCGCAAACCGACCCGGTACTGCAGCTGGAGAACATTAACGTCAGCTTTGACGGTTTCCGGGCGCTGACGGATCTGTCGCTGGCGATAGGCGTCGGCGAGCTGCGCTGCGTGATCGGCCCCAACGGCGCGGGCAAGACCACCCTGATGGACGTGATCACCGGCAAAACCCGGCCGCAGAGCGGCAAAGCGATCTATGACCAGTCGGTGGATCTGACCACTCTCGACCCGGTGGCCATCGCCCGCCAGGGTATCGGGCGCAAGTTTCAAAAGCCGACGGTCTTCGAAGCGCTGACGGTGGCGGAAAATCTCGCCCTGGCGATGAAGGGGGATAAATCGGTGTGGGCCAGCCTGCGCGCCCGGCTGAGCAGCGAACAGGACGATCGGCTGAATGAGGTGCTGCGCCTGCTGCGCCTCGACGGCGAACGCTACCGCCAGGCGGGTCTGCTGTCCCATGGCCAGAAACAGTTTCTTGAGATCGGCATGCTGCTGGTGCAGGAGCCGCATCTGTTGCTGCTTGATGAGCCAGCGGCCGGCATGACCGATGCGGAAACCGAATATACCGCGGAGCTGTTTCGCACGCTGGCCGGACAGCACTCCCTGATGGTGGTGGAGCACGACATGGGGTTTGTCGAGACCATCGCCGACCGGGTGACGGTCCTGCATCAGGGCCAGGTGCTGGCGGAGGGGTCGCTGCGGGAGGTGCAGGCCAATGAGCAGGTCATTGAAGTTTATCTGGGACGTTAA	MQPDEGLFTRQLPGDRFRAQTDPVLQLENINVSFDGFRALTDLSLAIGVGELRCVIGPNGAGKTTLMDVITGKTRPQSGKAIYDQSVDLTTLDPVAIARQGIGRKFQKPTVFEALTVAENLALAMKGDKSVWASLRARLSSEQDDRLNEVLRLLRLDGERYRQAGLLSHGQKQFLEIGMLLVQEPHLLLLDEPAAGMTDAETEYTAELFRTLAGQHSLMVVEHDMGFVETIADRVTVLHQGQVLAEGSLREVQANEQVIEVYLGR	PGPT0000940_619	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000940-urtD-K11962	NA	NA
BMS020_00231	699	livF_2	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGTTACAGGTGAGTCAGTTACATCAGTACTACGGCGGGAGCCACATCTTGCGCGGGGTGGATTTTACCGCCCGTCAGGGCGAGGTCACCTGCCTGCTGGGGCGCAACGGCGTCGGTAAGACCACCCTGCTGAAATGTCTGATGGGGCTTATTCCGGCGCGTAGCGGCGAGGTGCGCTGGCAGGATCAGAACATCACCCACCGTAAACCGCACCAGCGGGTGCAGGCCGGGGTGGCCTACGTCCCCCAGGGACGCGAGATTTTTCCCCGCCTGACGGTGGAAGAAAACCTGCTGATGGGGCTGTCGCGCTTTCCCGCCCGCGAGGCGCAGCAGGTGCCGGAGGAGATTTACCAGCTTTTCCCGGTGCTCAAAACCATGAGGCAGCGGCGGGGCGGTGACTTATCCGGCGGTCAGCAGCAGCAGCTGGCGATCGGCCGCGCGCTGGCCAGCCGTCCGCAGCTGCTGATCCTCGATGAGCCCACCGAGGGGATCCAGCCCTCGGTCATCAAAGAGATTGGCGAGGTGATCCGTCAGCTGGCGAGCCGCGGGGATATGGCCATTCTGCTGGTGGAGCAATTCTATGACTTTGCCGCCGGGCTGGCGGACCACTACCTGGTGATGTCGCGCGGCTCCATCGTCCAGCAGGGAAAGGGCGGAGATATGGAAACCGACGGCGTGCGCGCCCTGGTGACTATCTGA	MLQVSQLHQYYGGSHILRGVDFTARQGEVTCLLGRNGVGKTTLLKCLMGLIPARSGEVRWQDQNITHRKPHQRVQAGVAYVPQGREIFPRLTVEENLLMGLSRFPAREAQQVPEEIYQLFPVLKTMRQRRGGDLSGGQQQQLAIGRALASRPQLLILDEPTEGIQPSVIKEIGEVIRQLASRGDMAILLVEQFYDFAAGLADHYLVMSRGSIVQQGKGGDMETDGVRALVTI	PGPT0000945_629	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000945-urtE-K11963	NA	NA
BMS020_00232	483			hypothetical protein	ATGAACAGCATCAATCAGGTCAAACAATTACGGCTGCAGCGCGCCTGGTCCCAGGAACAGCTGGCCGAAATGGCGGGGCTCAGCGCCCGCACGATCCAGCGCATTGAGAATGGCGAACGCCCGGGGCTGGAGACCCTCAGCGCCCTCGCCGCGGTCTTTGAGGTGACGGTGGCCGAGATCGGCGGCGAAGCCTCGCGGGAGGGCGCGCCGGGTCCGCAAGCTTCGCTGGATCTGCGTATAGAGGAAGCGAAAGCGCGGGTGCAGCAGGAGAGTCGCTTTTTTCGTTCGCTGTCGGTGGCGCTGGTGGTCTGCGTGCTGCTGGCGGTGCTCAACCGGTACACGAACCCGCAGTACTACTGGTCCGGCTGGGTCGCCCTGATCTGGGGCGCTCTGCTGGTGGTGAGAGGATTACGTCTGTTCGTCTTTGGCGAATGGATCAAAAACTGGCGCCAGGCGCGCCTGCAGCGGCTGCTGCGTAAATAG	MNSINQVKQLRLQRAWSQEQLAEMAGLSARTIQRIENGERPGLETLSALAAVFEVTVAEIGGEASREGAPGPQASLDLRIEEAKARVQQESRFFRSLSVALVVCVLLAVLNRYTNPQYYWSGWVALIWGALLVVRGLRLFVFGEWIKNWRQARLQRLLRK				NA	NA	NA	NA	NA
BMS020_00233	1197	mdrP		Na(+), Li(+), K(+)/H(+) antiporter	ATGATCACCACACTCCGGCGCTCCACCATCGCGCTGCTGGCATCGTCGTTACTGTTGACTATCGGCCGCGGGGCCACACTGCCGTTTATGACCATCTACCTCACCCGACGCTATCAGCTGGAGGTGGATGTGATCGGCTACGCCCTGTCGCTGGCCCTGGTGGTCGGCGTGCTGTTCAGCATGGGCTTTGGCATCCTCGCGGACAAGTTCGACAAAAAGCGCTATATGGTGTGGTCAGTGCTGGTATTTATCCTCGGTTTCAGCGCGATACCGCTGGTCCATAACGCGACCCTGGTGGTGATCTTCTTTGCGCTGATCAACTGCGCCTATTCGGTCTTTTCCACCGTACTGAAAGCCTGGTTCGCCGACCGGCTGACGGCGGAGAAAAAAGCGCGCATCTTCTCGCTGAACTACACCATCCTCAACATCGGCTGGACCGTCGGGCCGCCTATCGGCACGCTGCTGGTGATGCACAGCATTAATCTGCCCTTCTGGCTGGCGGCGGCCTGCGCCGCCTTCCCGCTGGTGTTTATTCAGCTGTTTCTCCAGCGGGATGGGGCCGCCGCCGCCCAGCCGGGAGCTGCCGCCTGGACGCCTTCGGTGCTGCTGCGCGACCGCGCGCTGCTGTGGTTTACCTGTTCCGGGCTGCTGGCCTCCTTCGTCGGCGGCGCCTTCGCCTCCTGTATCTCGCAGTACGTGCTGGTGGTCGCCAGCAGCGACTTCGCAGAGAAAGTCGTGGCCGTGGTGCTGCCGGTTAACGCCGCGGTGGTCGTCGCCCTGCAGTACGCCGTTGGCCGGCGGCTGAGCGCGAGAAATATCCGCCCGCTGATGACCTTCGGTACCGTCTGCTTTGTGATCGGCCTCGTGGGCTTTATGTTCTCCGGCGCTAGCCTGTGGGCGTGGGGGATCTCGGCGGCGATCTTCACCCTTGGCGAGGTGATTTATGCCCCCGGCGAGTATATGCTGATTGACCATATCGCCCCGCCGGGAATGAAGGCCAGCTACTTCTCCGCTCAGTCGCTGGGATGGCTGGGCGCGGCCTTCAACCCGATGTTCACCGGGTTGATCCTCACCCATCTGCCGCACTGGTCGCTGTTTGTCATTCTTATCGTGGCTATTGTCGCCGCCTGGCTGATGATTTTCCGGGGGATCAATGCCCGTCCCTGGCAGCCGGATTCTCCGCTGGCCAGGGCCTGA	MITTLRRSTIALLASSLLLTIGRGATLPFMTIYLTRRYQLEVDVIGYALSLALVVGVLFSMGFGILADKFDKKRYMVWSVLVFILGFSAIPLVHNATLVVIFFALINCAYSVFSTVLKAWFADRLTAEKKARIFSLNYTILNIGWTVGPPIGTLLVMHSINLPFWLAAACAAFPLVFIQLFLQRDGAAAAQPGAAAWTPSVLLRDRALLWFTCSGLLASFVGGAFASCISQYVLVVASSDFAEKVVAVVLPVNAAVVVALQYAVGRRLSARNIRPLMTFGTVCFVIGLVGFMFSGASLWAWGISAAIFTLGEVIYAPGEYMLIDHIAPPGMKASYFSAQSLGWLGAAFNPMFTGLILTHLPHWSLFVILIVAIVAAWLMIFRGINARPWQPDSPLARA				NA	NA	NA	NA	NA
BMS020_00234	900	eamA	COG0697	putative amino-acid metabolite efflux pump	ATGACGAGGAAAGATGGACTGCTGGCGCTGCTGGTAGTGGTGGTGTGGGGGCTTAACTTCGTGGTGATTAAGCTGGGATTGCACAATATGCCGCCGCTGATGCTGGCGGGCCTGCGCTTTATGCTGGTGGCCTTCCCGGCGCTGCTGTTTGTCGCCCGGCCAGCCATTCCGTTGCGCCTGCTGTTGGGCTATGGCCTGACCATTAGCTTTGGCCAGTTTGCCTTTCTGTTCTGCGCTATCGGCCTGGGCATGCCGGCGGGGCTGGCGTCGCTGGTTCTGCAGGCGCAAGCCTTCTTTACCATCATCCTCGGCGCCATCGTCTTTGGCGAACGCCTGCAGGGCAAGCAGCTGGCGGGGATCGCTCTGGCGATCTTTGGCGTGCTGGTGCTGGTGGAGGGGAGCCTCGGAGGGGAACATGTCCCGCTGGTGGGCTTTATGCTGACCCTGGCGGCGGCGCTCAGCTGGGCCTGCGGCAATATTTTTAACAAAAAAATCATGTCCCAGGCGACCCGGTCGCCGATCATGTCGCTGGTGGTGTGGAGCGCATTGATCCCGGTGCTGCCGTTTATGGTCGCCTCGTGGCTGATCGATGGCCCGCAGTTGATGCTGGCGAGTCTGCGCCAGATCGATGTGCTGACGGTTCTCTCGCTGCTTTACCTGGCGTTTATCGCCACTATCGTCGGATACGGTATCTGGGGCTCGCTGCTGGGGCGGTATGAAACCTGGCGGGTGGCGCCGCTGTCGCTGCTGGTGCCGGTGGTGGGGATGGCCAGCGCCGCGCTGCTGCTGGGAGAGACGCTGAGCGGGCTGCAGCTCGCCGGGGCGGCGCTGATCATGGCCGGGCTCTATATCAACGTTTTCGGTCTGCGTCTGGTGCGGCCGGGTATGGCGCGCGGGTAA	MTRKDGLLALLVVVVWGLNFVVIKLGLHNMPPLMLAGLRFMLVAFPALLFVARPAIPLRLLLGYGLTISFGQFAFLFCAIGLGMPAGLASLVLQAQAFFTIILGAIVFGERLQGKQLAGIALAIFGVLVLVEGSLGGEHVPLVGFMLTLAAALSWACGNIFNKKIMSQATRSPIMSLVVWSALIPVLPFMVASWLIDGPQLMLASLRQIDVLTVLSLLYLAFIATIVGYGIWGSLLGRYETWRVAPLSLLVPVVGMASAALLLGETLSGLQLAGAALIMAGLYINVFGLRLVRPGMARG				NA	NA	NA	NA	NA
BMS020_00235	219			hypothetical protein	ATGAAACTATTCGCTGCCGCAGCCATCGTCGTTCTGTCGCTGGCATCCAGCTTCAGCTATGCGGAGCAAACCACCACGCCGGTGCGGCAAAACCAGCGTGACACAATGATTATCCCTTCGGAACATAACGACTCGCCGTTTGATTTCAATCATATGGCGGCCGGCAATGATAAATCTGACGAACTTGGCGTGCCGTACTACCAGCAGCACGACCTGTGA	MKLFAAAAIVVLSLASSFSYAEQTTTPVRQNQRDTMIIPSEHNDSPFDFNHMAAGNDKSDELGVPYYQQHDL	PGPT0029245_31	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIPLE_ANTIBIOTIC_RESISTANCE,PGPT0029245-marB-K13630	NA	NA
BMS020_00236	381	marA_1		Multiple antibiotic resistance protein MarA	ATGTCCAGACGTAATAATGACGCCATCACTATCCATAGTATTTTGTCGTGGATCGAGGATAACCTGGAATCGCCCCTGTCGCTGGAAAAAGTGTCTGAGCGCTCAGGTTACTCCAAGTGGCACCTGCAACGTATGTTTAAGAAAGAGACCGGCCATTCCCTCGGCCAGTACATCCGCAGCCGTAAGCTGACGGAGATTGCGCAAAAGCTCAAGCAGAGCAATGAGCCAATCCTGTACCTAGCGGAACGCTACGGTTTCGAATCGCAGCAGACCCTGACGCGAACGTTTAAAAACTATTTCGATGTTCCGCCCCACAAATATCGCATAACGAATGTACCTGGCGAATCCCGCTATCTGCATCCGCTAAATAACTGTTGTTAA	MSRRNNDAITIHSILSWIEDNLESPLSLEKVSERSGYSKWHLQRMFKKETGHSLGQYIRSRKLTEIAQKLKQSNEPILYLAERYGFESQQTLTRTFKNYFDVPPHKYRITNVPGESRYLHPLNNCC	PGPT0027835_62	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-PORIN_METABOLISM|TRANSPORT,PGPT0027835-marA-K13632	NA	NA
BMS020_00237	435	marR	COG1846	Multiple antibiotic resistance protein MarR	ATGAAAAGTACCAGCGACCTGTTCAACGAGATGATCCCGCTGGGCCGCTTGATCCAGATGGTTAACCAGAAAAAAGATCGCCTGCTCAACGACTACCTCTCACCCATGGATATTACCGCGACCCAGTTCCGGGTGCTCTGTTCCATTCGTTGCGAGGTATGTATTACCCCCGTTGAGCTGAAAACCGTGCTTTCCGTCGACCCGGGCGCGATGACGCGTATGCTCGACCGCCTGGCGTGTAAAGGCTGGATTGAACGGTTACCCAACCCCGCTGACAAGCGCGGCGTGCTGGTGCAGTTGACGCCAGACGGCGCAGCCCTTTGCGAGCAGTGTCATCAGGTTGTGGGTCAGAAGTTACACCAGGAGTTAACAAAAAATCTGTCGGCGGACGAAGTCGCCATGCTTGAGCAACTCCTCAAGAAGGTCCTGCCGTAA	MKSTSDLFNEMIPLGRLIQMVNQKKDRLLNDYLSPMDITATQFRVLCSIRCEVCITPVELKTVLSVDPGAMTRMLDRLACKGWIERLPNPADKRGVLVQLTPDGAALCEQCHQVVGQKLHQELTKNLSADEVAMLEQLLKKVLP	PGPT0029244_187	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIPLE_ANTIBIOTIC_RESISTANCE,PGPT0029244-marR-K03712	NA	NA
BMS020_00238	669			hypothetical protein	ATGTTTGATTTGTTTAAAGCGATAGGGCTCGGCCTGGCGGTGCTGTTACCGCTGGCGAATCCGCTGACTACCGTGGCGCTGTTCCTTGGCCTGGCGGGCAATATGAACAACGCCGAGCGGAACAAACAGGCGTTGATGGCTTCGGTGTATGTCTTCGCCATCCTGATGGTGTCGTGGTATGCCGGCCAGGTGGTGATGAATACATTCGGCATATCAATACCTGGGCTGCGTATCGCCGGGGGGTTGATTGTGGCCTTTATCGGTTTCCGCATGCTGTTCCCCCAGCAAAAAGCCCACGATTCGATGGAAGCGAAGATCAAATCGGAAGAGCTACAGGATGAGCCAACCGCCAATATCGCCTTTGTGCCGCTGGCGATGCCAAGCACCGCCGGTCCGGGCACCATCGCGATGATCATCAGTTCCGCCTCAACCGTGAAGCACGGCGTGGACTTCCCGGAGTGGGTGGTGCTGGCGGCGCCGCCGATTATCTTTGCCCTGTTGGCGATCATTCTCTGGGGTTGCCTGCGAAGTTCGGGGGCGATTATGCGTCTGGTAGGCAAAGGCGGCATTGAGGCCATTTCGCGGCTGATGGGCTTCCTGCTGGTCTGCATGGGCGTGCAGTTCATTATTAACGGCGTGCTGGAGATCATTTCGACCTGGCATCCCTGA	MFDLFKAIGLGLAVLLPLANPLTTVALFLGLAGNMNNAERNKQALMASVYVFAILMVSWYAGQVVMNTFGISIPGLRIAGGLIVAFIGFRMLFPQQKAHDSMEAKIKSEELQDEPTANIAFVPLAMPSTAGPGTIAMIISSASTVKHGVDFPEWVVLAAPPIIFALLAIILWGCLRSSGAIMRLVGKGGIEAISRLMGFLLVCMGVQFIINGVLEIISTWHP	PGPT0029250_534	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIPLE_ANTIBIOTIC_RESISTANCE,PGPT0029250-marC-K05595	NA	NA
BMS020_00239	1200	sotB_1	COG2814	Sugar efflux transporter	ATGACTACGAATACGGTCTCACGCAAGGTAGCGTGGCTACGTGTCGTGACGTTGGCCATCGCCGCGTTTATTTTTAACACCACAGAATTTGCCCCGGTCGGTCTGCTGTCGGATATTGCCGACAGCTTCGGCATGGAAACCGCCCAGGTGGGCATGATGCTGACCATCTACGCATGGGTGGTGGCGTTAATGTCGCTGCCGTTTATGCTGCTGACCAGCAAAGTGGAGCGTCGGCGGTTGCTCATCGGCCTGTTTATTCTGTTTATCGCCAGCCATGTGCTGTCGTTCTTTGCATGGAATTTTGACGTGCTGGTCATCAGCCGCATCGGCATCGCCTTCGCCCATGCGGTGTTCTGGTCGATAACGTCGGCGCTGGCCATCCGCATGGCGCCCCCGGGCAAACGGGCGCAGGCGCTGAGCCTGATCGCCACCGGTACCGCGCTGGCGATGGTGTTTGGCATTCCGATCGGCCGCATCATCGGCCAGTATTTTGGCTGGCGAATGACCTTCCTGGCGATCGGCCTTGGCGCCTTAGCCACTCTGGCCTGCCTGGTGAAACTACTGCCGACGCTGCCGAGCGAACACTCAGGCTCGCTGAAAAGCCTGCCGGTGCTGTTCCGTCGCCCGGCGCTGGTCAGCGTGTACATTCTGACCGTGGTGGTGGTGACCGCCCATTATACCGCCTACAGCTATATCGAACCCTTCGTCCAGACGGTGGCGGGTCTGAGCGGCAATTTTGCCACCGTACTGCTGCTGATCCTCGGCGGGGCCGGGATTATCGGCAGCATTCTGTTCGGCAAGCTCGGTAACCAGCACGCTTCGGGGCTGATAAGCCTCGCCATCGGCCTGCTGCTGGCCTGTCTGCTGCTGCTTTTGCCGGCCTCGCATAACCCGCACCACCTGATGCTGCTCAGCATCTTCTGGGGGGTGGCGATCATGATTATCGGTCTCGGCATGCAGGTGAAAGTGCTGGCCTCCGCCCCGGACGCCACCGACGTCGCCATGTCGCTGTTCTCGGGCATCTTTAACATCGGCATTGGCGCCGGCGCGCTGGTGGGCAGCCAGGTGAGTCTGCACCTCTCTATGGCCTCCATCGGCTACATCGGCGCCATCCCGGCGCTGGCAGGCCTGATCTGGGCCCTGCTGATCTTCCGTCGCTGGCCGGTATCGCTGGAAGAGCACCAGCCGCACCACTCTTGA	MTTNTVSRKVAWLRVVTLAIAAFIFNTTEFAPVGLLSDIADSFGMETAQVGMMLTIYAWVVALMSLPFMLLTSKVERRRLLIGLFILFIASHVLSFFAWNFDVLVISRIGIAFAHAVFWSITSALAIRMAPPGKRAQALSLIATGTALAMVFGIPIGRIIGQYFGWRMTFLAIGLGALATLACLVKLLPTLPSEHSGSLKSLPVLFRRPALVSVYILTVVVVTAHYTAYSYIEPFVQTVAGLSGNFATVLLLILGGAGIIGSILFGKLGNQHASGLISLAIGLLLACLLLLLPASHNPHHLMLLSIFWGVAIMIIGLGMQVKVLASAPDATDVAMSLFSGIFNIGIGAGALVGSQVSLHLSMASIGYIGAIPALAGLIWALLIFRRWPVSLEEHQPHHS	PGPT0016620_119	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOSE_TRANSPORT_II,PGPT0016620-sotB-K08159	NA	NA
BMS020_00240	795	yddE_1	COG0384	putative isomerase YddE	ATGCAGGAAATTCAATTTTATCTGGTCGATGCTTTCAGCGATAAAAACTTCGGCGGCAATGCCGCGGCCGTTTGCCCCCTCAGCGAGTGGTTAGCCGACGATGTGCTGCTGAAAATGGCCCAACAGCATAACCAGTCCGAAACGGCGTTCTTCGTCCGCACCGACGAAGGCTATGAGCTGCGCTGGTTTACCACCCTTGGCGAGATCAACCTCTGCGGCCACGCCACCCTGGCGACGGCGCACGTTATTTTTGAATATCTCGACCATCCCTCGGCGACGATTACCTTTAGCACCCGTTTTGTCGGCGACCTGCGGGTGACCCGCAGCGGCGACTGGCTGACGCTCGACTTCCCGGCGTGGACGACCACCCCGGTGGCCAATCCGCCGGCGGACCTGCTGGCCGGGCTGGGCCTCGAGGCGGCCGTCGAGGTACGGGAAGGGCGCGATTATCTGGTGCTGCTGGCGGATCGCCGGCAGGTTGAAGCGGTGCAACCGGACATGGCGCGCCTGCAGACGCTCGGCAAAATGATCTGCGTGAGCGCGCCGGATGAGGAATATGACTTTGTCAGCCGCTTCTTCTGCCCGGGAGAAGGGGTGCCGGAGGATCCGGTGACCGGCTCCGCCCACAGCATGCTGATCCCCTGGTGGGGCGACAAGCTGGGGAAAACCACCATGATGGCGCGCCAGGTCTCCGCCCGCGGCGGGGATCTGCGCTGCCAGTGGCAGGGCGACCGGGTGCTGATCGGCGGCCAGGCCACCACCTATCTGCGCGGAACGGTTTACCTGCGAGGTTAA	MQEIQFYLVDAFSDKNFGGNAAAVCPLSEWLADDVLLKMAQQHNQSETAFFVRTDEGYELRWFTTLGEINLCGHATLATAHVIFEYLDHPSATITFSTRFVGDLRVTRSGDWLTLDFPAWTTTPVANPPADLLAGLGLEAAVEVREGRDYLVLLADRRQVEAVQPDMARLQTLGKMICVSAPDEEYDFVSRFFCPGEGVPEDPVTGSAHSMLIPWWGDKLGKTTMMARQVSARGGDLRCQWQGDRVLIGGQATTYLRGTVYLRG				NA	NA	NA	NA	NA
BMS020_00241	1320	garP		putative galactarate transporter	ATGAACACGACAGCTAACACTACTCGTATTCGCTGGTGGATAGCCGGGTTAATGTGGTTGGCTATTGCCATCAACTATATCGACCGGACAGTATTATCTGCCGCAGCCCCACATTTAATTGATGAACTGAAACTCGACCCCGAAATGATGGGGTTTATCATGGCTGCTTTTTTTTGGTCATACTCGTTATTACAGATCCCCGCCGGATGGTTCGCCGATCGTTTTGGTCAGAAAAAAGGTCTTGGTTTAGCTGTCGCCTGGTGGTCAATTGCCACCTCGATGATGGGGGTTGCTACGGGTTTTAAATCACTTCTGGCACTGCGTCTGGCTTTAGGTGTTGGCGAGGCCGCCGCCTACCCCAGCAACGCTGGGATCGCCGCACGCTGGTTTCCCGATAAAGAACGTGCCACCGTATCCGGACTCTTCGATAGTGCGTCAAAATTTGGCGGGGCGATTGCCATGCCGCTTATCGTCTGGATGATCTACACATTTGACTGGCGACTGACCTTTTTGATTATCGGCAGTGTGGGCATTTTATGGGTTATCGCCTGGTATTTTATCTATGCTGAAAATCCAGAAGAACACAAACGCATCAGTCCTTCAGAAGTGCGTATTATTCGCGATGGACAAAAACAACATCACGGCGACAAAACTGTATTGCCCATGAAATGGTATAAGCTCTTGCGTTATCGTAACATTTGGGCAATGTGTATCGGCTTTTTTACCATCAATTACACCTCCTATTTTTTCATTACCTGGCTTCCTACTTACCTGGTAAAAGAAAAAGGTATGGATTTTATTAAAATGGGAATGGTAGCCGCTCTGCCTTTATTATGCGGGATGGTGATTGAAGTTTTTGCTGGCTGGGCCTCGGATCGTCTGGTTCATAAGAAAGTACTGTCTCTCACAGCGACCCGTAAACTGTTTTTGACTATCGGCTTGCTCATGGCACTTTGTATCGGCTTTGCACCATTTACCGACTCCGTGTTTATGACCGTCTTTCTCTTGTGTGTCGCCAAATCAGGCACGACGGTCGCCGCATCACAGGTTTGGGCCTTACCGGGTGATGTTGCACCCAAAAATAGCGTCTCAATTGTCGCTGGGCTGCAAAATACAGTTTCGAATATGGGAGGCGCAGTCGGTCCTATCATTACGGGTGCGATCGTTGCTGCGACAGGCTCATTCAACTGGGCTCTGATTTTCTCGGCCATTCTTGTCGTGATCGGGATAATCAACTACCTGTTCCTGATGGGTAAAATAGAACCTATCAATGACAAAGGTGGAAAATCATCCGTCCTTAATGCCGCAGAACAACATTAA	MNTTANTTRIRWWIAGLMWLAIAINYIDRTVLSAAAPHLIDELKLDPEMMGFIMAAFFWSYSLLQIPAGWFADRFGQKKGLGLAVAWWSIATSMMGVATGFKSLLALRLALGVGEAAAYPSNAGIAARWFPDKERATVSGLFDSASKFGGAIAMPLIVWMIYTFDWRLTFLIIGSVGILWVIAWYFIYAENPEEHKRISPSEVRIIRDGQKQHHGDKTVLPMKWYKLLRYRNIWAMCIGFFTINYTSYFFITWLPTYLVKEKGMDFIKMGMVAALPLLCGMVIEVFAGWASDRLVHKKVLSLTATRKLFLTIGLLMALCIGFAPFTDSVFMTVFLLCVAKSGTTVAASQVWALPGDVAPKNSVSIVAGLQNTVSNMGGAVGPIITGAIVAATGSFNWALIFSAILVVIGIINYLFLMGKIEPINDKGGKSSVLNAAEQH	PGPT0002190_916	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_GALACTONATE_TRANSPORT,PGPT0002190-dgoT-K08194	NA	NA
BMS020_00242	951		COG0111	Hydroxypyruvate reductase	ATGAAAGTAATTTGCACCTCGCCCTCATTCGCCAAATACGACGACGCGCCCATTTCGGCACTGAAAGAGGCCGATCTGGAACTGGTCATGTTGCCTGCCGATGCCTCTATAGAGTTGCTGGCTCAGCATCTACCTGATGCCATAGCGATGATTGTCGCCTTCACCGACATCAATGAATCGCTGCTGGCAAAGGCCCCGAGGCTAAAAATTGTCTGCAAACACGGTGTTGGTGTGGATAACATCGATCTTAACGCTACACGTCAGCGCAAAATTTTTGTCACTAACGTTCCTGATGCCAACAAACATGCGGTGGCCGATTTTGCTTTTGGCTTAATTCTCAATACTGCCCGCCAGATTTCTCAGGCAATCAGTGAAACGAAAGCAGGCAACTGGCCTCGTATTTTTGCCACTAATGTTTATGGCAAGACCCTGGGGATCGTCGGTTTAGGCCATATCGGTAAGGAAGTGGCGCGACGTGCGCGCGGATTCAATATGCGAGTGCTCGCCACCGACGCCTGGCCAGACAGAGAATTTGCACAAGAACACCAGATTGAATATGTCTCACTGGATACCCTGACGGCGCAAAGTGATTTTATTAGCCTGCATACCCCTTTAACCCCGGAAACTGAAAATATGTTTAATGCCGCCCGCCTACAGCAGATGAAATCAGGGGCATTCCTGATCAATGTTTCCAGAGGCGGTATTGTTGATGAACAAGCGTTGTATGAAACATTGAAATCAGGACACCTCGCCGGAGCCGCAGCTGACGTTTTTCTCGAGGAACCTTGCGCTACGCACCCTTTATTTACCCTGGCGAATTTTGCGCCAACATCTCATATTGCTGGATATACGGATGGCGCAATTAGCGATATTAGCGCGCGCTGCGTCAACAATATTATTACTTGCGTCTGTCACGGTGAACGACCTGAAAACATTATGAATTCGCTGTAA	MKVICTSPSFAKYDDAPISALKEADLELVMLPADASIELLAQHLPDAIAMIVAFTDINESLLAKAPRLKIVCKHGVGVDNIDLNATRQRKIFVTNVPDANKHAVADFAFGLILNTARQISQAISETKAGNWPRIFATNVYGKTLGIVGLGHIGKEVARRARGFNMRVLATDAWPDREFAQEHQIEYVSLDTLTAQSDFISLHTPLTPETENMFNAARLQQMKSGAFLINVSRGGIVDEQALYETLKSGHLAGAAADVFLEEPCATHPLFTLANFAPTSHIAGYTDGAISDISARCVNNIITCVCHGERPENIMNSL	PGPT0009155_6981	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
BMS020_00243	885	dapA_1	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGAGGAGAGCCATTAGCGGCGTACTCACCGCCATCGTTACCCCCTTTACCACCGAGGGAGCCCTTAATCTGCCAGCGCTGCAGCAGCAGGTGCAGCGCCAGATCGCCGCGGGCAACGGCATATTCTGCGGCGGCACCAACGGCGAGTTTTTTGTCCTCAATGAGGAAGAGAAGATCGCCGTCGCCAGAACCTGCGTGGAGGCGGCCGCCGGTCGCGCGCCGGTGGTAGCCCACATCGGGGAGGTTTCCACGCGGGAGACCCGCCGGCTTGGCCAGCAGATCGCCCGCCTCGGGGTTGACGCGGTATCGGCCATTACCCCGTGGTTCGTGCCCCTGAAGCAGGAAGAGCTGATAAACCACTATACGGCGATCGCCGACGCGCTGAGCGTCCCGCTCTTTCTTTACAACATTCCCGCCCGCACCGGTAACGCCCTTGCGCCGGAGACAGCGCGTAAGCTGGCGCAGCACGACAATATCATTGGCATCAAGGATAGCGCCGGCAGCTACGACAGTCTGAAAGGCTTTCTTGACGCGGTACGCGACATTGACGGTTTCGACGTTCTCAACGGCCCGGACTCGCTTATCCATCAGGGGTTTGTCGACGGCTGCTCAGCCTGCATCTCGGGGCTTGCCAACGTCGCGCCTGCCGAGATCAACGCTATCTGGTCGCTGTTCCATGCTGGTGATATCGCCGGATCGCGCCAGGCGCAGGAGCGGGTAACGGGCCTGCGCACCGACCTGTACAACGTAGCGTTCTCACCCGCGGCGGTGAAAAAAGCGCTGCAGCTGATGGGCCATGAGGTGGGCGACAGCCGCTACGCGGTGCAGTTTAGTGACCAGCAGCTGCAGCAGATTAAAAATATCATTAACACCTACCTTCACTAA	MRRAISGVLTAIVTPFTTEGALNLPALQQQVQRQIAAGNGIFCGGTNGEFFVLNEEEKIAVARTCVEAAAGRAPVVAHIGEVSTRETRRLGQQIARLGVDAVSAITPWFVPLKQEELINHYTAIADALSVPLFLYNIPARTGNALAPETARKLAQHDNIIGIKDSAGSYDSLKGFLDAVRDIDGFDVLNGPDSLIHQGFVDGCSACISGLANVAPAEINAIWSLFHAGDIAGSRQAQERVTGLRTDLYNVAFSPAAVKKALQLMGHEVGDSRYAVQFSDQQLQQIKNIINTYLH	PGPT0002080_6357	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
BMS020_00244	1149	adh1	COG1454	Long-chain-alcohol dehydrogenase 1	GTGGCGACGATACACAGCACGATCATCAGCGGGGCTGGCGCCTCATCGGCCCTGCTCCCGCTGCTGGCAGATAAAACCCGTATCCTGCTGGTGACCGACCAGAACGTCGGAGCGCTGGAGGCGACCCGGGCGATCCATCGCCTGCTGGCGGCTGACGGGCGCCAGGTTGAGGTCATTAACAGTGTGCCTGCCGAGCCCAGTCATCAGGATGTGGCGGAGATCGTCAGCCAGCTGGGCGCTTCTCAACCGCAGATGGTCGTCGGCATTGGCGGCGGGAGCGTACTGGATGTGGCGAAACTGCTGTCGGTGCTGCTGCATCCGCAAGCCCCCACTCTGACGGCCCTGCTGGCGGGTGAACAGCCGCAACGACGGCTATGCTCCCTGCTGATCCCTGCCACCGCCGGGACCGGCTCCGAAGCAACGCCGAACGCTATTCTGGCGATCCCCGAGCAGCAGACCAAAGTGGGGATCATCTCCCCGGTGCTGCTCCCGGACTACGTCGCCCTGCTGCCGGAGCTGACCACCAGCATGCCGGCCAGCATCGCAGCCTCGACCGGGATCGATGCTCTGTGCCATCTGCTGGAGTGTTTCACCTCCACCGTGGCCAACCCGGTAAGCGATAACGCGGCGTTAATCGGTTTACACAAGCTGGTGCGTCATATCGAACGCTCGGTGGATCAGCCGCAGGATCTGACGGCGAAGCTGGAGATGCTCTGGGCCTCGTGGTACGGCGGCGCGGCGATCAACTATGCCGGCACCCATCTGGTGCATGCGCTCTCCTATCCGCTCGGCGGCACCTGGCACCTGCCGCACGGGGTGGCCAACGCCATTCTGCTGGCGCCCTGCATGCGGGTGGTCCGCCCCCACGCGGTGGCGAAGTTCGTTCAGGTCTGGGATCTGATCCCCGACGCGGACCTCACCCTGAGCGAGGAAGAGAAATCCCATGCGCTGGTGGCATGGCTGGCGGCGCTGGTCAAACGCTTACCGCTGCCCGATAACCTCGCCGCGCTCGGCGTTCCCGCAGACAGCATCCCCGCCCTCAGCGCGGCGGCGCAGAACGTTAAACGCCTGATGAATAACGCCCCCTGCAGCGTCAGCCGTGAAGAGATCGCGGCTATCTACCAGACGCTGTTTCCGGAACATGCCTAA	MATIHSTIISGAGASSALLPLLADKTRILLVTDQNVGALEATRAIHRLLAADGRQVEVINSVPAEPSHQDVAEIVSQLGASQPQMVVGIGGGSVLDVAKLLSVLLHPQAPTLTALLAGEQPQRRLCSLLIPATAGTGSEATPNAILAIPEQQTKVGIISPVLLPDYVALLPELTTSMPASIAASTGIDALCHLLECFTSTVANPVSDNAALIGLHKLVRHIERSVDQPQDLTAKLEMLWASWYGGAAINYAGTHLVHALSYPLGGTWHLPHGVANAILLAPCMRVVRPHAVAKFVQVWDLIPDADLTLSEEEKSHALVAWLAALVKRLPLPDNLAALGVPADSIPALSAAAQNVKRLMNNAPCSVSREEIAAIYQTLFPEHA	PGPT0008305_411	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008305-adh1-K19954	NA	NA
BMS020_00245	1236	dtnK	COG3395	D-threonate kinase	ATGAAAGACGGCAATAACAGCGTGCTGGTGCTGGCAGATGACTTTACCGGAGCCAATGACGCCGGGGTCAGCCTGGCGGAGGCGGGTATGTCGGTAGAAGTGGCATTCTCCGCCGGGCAGGCGTCATCCGCCCGGGCGTTAATACTCAACAGCGACAGCCGGGCGATGACCGCCGGCGCGGCCGCCGACAAGGTCACCGCTCTGCTGCGCGGCGCGGCGCGATTCGCCCCGCGCTGGCAGATAAAGAAGATCGACTCCACGCTGCGCGGCAACCCCGGCGCCGAACTGGAAGCGATGATGACGGCGCAGGGCTGCCGGGTGGCGGTTGTGGCGCCGGCTTACCCGGCGGCCGGGCGGCATACCCGGGACGGACGCTGCTATGTACACGGGATACCCCTCGATCACACCGAATTTGCCAGCGATCCGAAGACGCCGGTTAGTCGGGCGGATATTGCCGGCATTCTCGCCATGCAGAGCCGGCTGCCGAGCCGGTCGCTGAGCGCCGCCCAGCTTCCGGGAGCGTTAGCGACGGCGGGCGATGCGAGGCAGGTACTGATTATCGACGCCTGGGAAGAGCGTCATCTGGATCAGGTCATTGACGCCGTCGCTCCTCATGCGCAGGAGACCCTGCTGGTCGGCTCGGCAGGCCTTTGCGAGGCGCTGGCGCGCCGCCTGCGCCGCAGCGAGCAGGGGCCGCTGCTGGCGGTGGTCGGCTCGATGAGCGAGATGGCGCAGCGCCAGGTCGCTGCGCTGCAGGCTCATTCCCGAGTGAGAAAGATCGAAATTGATGTCGAACAGGCCTTTAGCGGATCGCCGAAGGAGGAAGCCTCGCGGATCGCCGAAGTGCTGCGTGAGGGTCATCACTGTGTGGTGACCACCCGCCCGAATAACGCCGTCCGGCACGGGATTGAAGCCCAGTGCCGCGAACGCGGTCTCAGCCGTGCGGCCTACGGGGAGCACATCTGCGCCTGGCTTGCCGACGTTACGGCACAGGCGGTGGCGCTGTGTCCCCCTGGCGCGCTGTACCTCTCCGGTGGCGATGTGGCCATCGCCGTGGCTCAGGCGCTCGGCGCCAGCGGTTTTCAAATCCGCGGCCGGGTCGCGGAGTGCGTCCCATACGGATACTTCCTCGGCGGCCGCTGGTCGCGGCCGGTGATGACTAAAGCCGGAGGATTCGGCACCGACACCACGCTATTACATGTTGTGAATTTTATTGAGGAGAAACTGAGTGTCTAA	MKDGNNSVLVLADDFTGANDAGVSLAEAGMSVEVAFSAGQASSARALILNSDSRAMTAGAAADKVTALLRGAARFAPRWQIKKIDSTLRGNPGAELEAMMTAQGCRVAVVAPAYPAAGRHTRDGRCYVHGIPLDHTEFASDPKTPVSRADIAGILAMQSRLPSRSLSAAQLPGALATAGDARQVLIIDAWEERHLDQVIDAVAPHAQETLLVGSAGLCEALARRLRRSEQGPLLAVVGSMSEMAQRQVAALQAHSRVRKIEIDVEQAFSGSPKEEASRIAEVLREGHHCVVTTRPNNAVRHGIEAQCRERGLSRAAYGEHICAWLADVTAQAVALCPPGALYLSGGDVAIAVAQALGASGFQIRGRVAECVPYGYFLGGRWSRPVMTKAGGFGTDTTLLHVVNFIEEKLSV	PGPT0018125_445	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
BMS020_00246	987	pdxA2	COG1995	D-threonate 4-phosphate dehydrogenase	GTGTCTAACATCATTGCAGTCACAATGGGCGACCCGGCAGGGATTGGTCCGGAGATTATTATCAAATCCCTCGCCGAAGGGGCGCTGAGCGGCGCGCCGGTGGTGGTGGTGGGCTGCGCGCAGACGCTGCGGCGTATCCTGGCGTTGAACATCACCCCGCGGGCGGAACTGCGCATCATTGACCATCCCGCCGAGGCAAGCTTTGCCCCGGCGACGATTAACGTCATCGATGAGCCGCTCAGCGACCCGCAGGGGCTGCGTCCTGGCGAAGTGCAGGCCCAGGCCGGGGATCTGGCGTTTCGCTGCATTAAGCGGGCGACCCGCCTCGCGCTGGAGGGCGCCGTCGCGGCCATCGCCACCGCGCCGTTGAATAAAGAGGCGCTGCATCTGGCGGGGCATGCTTTTCCCGGCCATACGGAACTGTTGGCCCACCTGACGCAAACCACCGATTACGCCATGGTGCTGTACACCGAGAAACTTAAGGTAATCCATATCACCACCCATATCGCCCTGCGCCAGTTCCTTGACACCCTCAACCAGCCGCGGATCGAGACAGTGATCGGCGTGGCGGATCGCTTTCTGCGCCGCGTCGGCTATCAGCGTCCGCGCATTGCGGTCGCCGGCGTGAACCCGCACGCCGGGGAGAACGGCCTGTTTGGCGATGAAGAGATCCGCATCGTCGCCCCCGCGGTTGCCGCCATGCGGGAGCAGGGAGTGGAGGTAACCGGCCCCTGTCCGCCGGACACGGTGTTTATGCAGTGTCATGAGGGGATGTACGACATGGTCGTGGCGATGTATCACGACCAGGGGCATATTCCGCTGAAGCTGCTGGGATTCTATGATGGGGTCAATATCACCGCCGGGCTGCCGTTTATCCGCACCTCTGCGGATCATGGCACCGCGTTTGATATTGCCTGGACAGGTAAAGCGAAGTCTGAGAGCATGGCAACCTCCATTGAGCTCGCCATGCACATCGCGCAGGAATAA	MSNIIAVTMGDPAGIGPEIIIKSLAEGALSGAPVVVVGCAQTLRRILALNITPRAELRIIDHPAEASFAPATINVIDEPLSDPQGLRPGEVQAQAGDLAFRCIKRATRLALEGAVAAIATAPLNKEALHLAGHAFPGHTELLAHLTQTTDYAMVLYTEKLKVIHITTHIALRQFLDTLNQPRIETVIGVADRFLRRVGYQRPRIAVAGVNPHAGENGLFGDEEIRIVAPAVAAMREQGVEVTGPCPPDTVFMQCHEGMYDMVVAMYHDQGHIPLKLLGFYDGVNITAGLPFIRTSADHGTAFDIAWTGKAKSESMATSIELAMHIAQE	PGPT0018130_536	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0018130-pdxA2-K22024	NA	NA
BMS020_00247	762	glcR_2	COG1349	HTH-type transcriptional repressor GlcR	ATGAAGGGATATAACCGGTTAGAGCAGATTATGGACTTCCTGAAAAGCCATAATCTGGTGACTGTCGACCAGCTGGTGGCGGCGACCAACGCCTCGCCAGCCACCATTCGTCGCGACCTGATCAAACTTGATCAGGAAGGGGTGATCAGCCGCACGCATGGCGGGGTGACGTTGAACCGGTTTATTCCTGCCCAGCCGACGACGCTGGAGAAAGCCCAGCGCAGCCCGCTGGAAAAGCAGGCGATCGCCAGCGCGGCGGCAGCGCTGGTGAAAGCCGGCGACGCCATTGTGCTTGATGCCGGCACCACCATGATTGAACTGGCGCGGCAGATCACCCATCTGCCGCTGCGGGTGATCACCAGCGATTTACATATCGCCCTGTTTTTGTCGGAATTTAAGCAGATTGAAGTGACGATTATCGGCGGGCGCATCGATGACAGCAGCCAGTCGTGCATCGGCGATCACGGCCGCCGCCTGCTGCAGACCATCTGGCCCGATCTCGCCTTCGTCAGCTGCAACGGCTGGGACCTTGAGAAAGGGATCACCGCCCCGACGGAGGAGAAGGCCGCCCTGAAACGCGATCTGATGGCCAATGCCCGCCGGCGCATTCTGCTGGCGGACAGCTCCAAATACGGCGCCTGGTCACTCTTCAACATTGCCCCGCTGGAGTCGTTGACCGATATCGTCACCGACGGCCACCTGCCGGAAGCGACCCGCGAGGCGCTGGTGACCCTTTCCCCTCAGCTGATCATTGCCGACTGA	MKGYNRLEQIMDFLKSHNLVTVDQLVAATNASPATIRRDLIKLDQEGVISRTHGGVTLNRFIPAQPTTLEKAQRSPLEKQAIASAAAALVKAGDAIVLDAGTTMIELARQITHLPLRVITSDLHIALFLSEFKQIEVTIIGGRIDDSSQSCIGDHGRRLLQTIWPDLAFVSCNGWDLEKGITAPTEEKAALKRDLMANARRRILLADSSKYGAWSLFNIAPLESLTDIVTDGHLPEATREALVTLSPQLIIAD				NA	NA	NA	NA	NA
BMS020_00248	945	ldh1		L-lactate dehydrogenase 1	ATGCGCACCAAAGCCCGTAAAGTTATGATTATTGGCGCCGGTAACGTCGGCGCGTCAGCGGCCTACGCCCTGCTCAACCAGAGCATTTGTGAGGAGCTGATCCTCGTCGACCTTAACCAGCCGCGCGCCGAGGCCCACGCTCAGGACCTCAGCGATGCCGCGGCCTATCTGCCGGGGATGATGACCATCTCCACCCGCGAGGCCAGCGACTGCGCCGATGTCGACATCGCGGTGATCACCGTCTCCGGCGGCGCGCTGCGCCCCGGCCAGAGCCGTCTCGATGAACTGACCACTACCGCGAAAATCGTCAAGAGCATTGTGCCGACCATGATGGCAAACGGGTTTAACGGCATCTTCCTGGTGGCCACCAACCCGTGTGACATCATCACCTGGCAGGTATGGCAGCTCTCCGGCCTGCCGCGCAGCCAGGTGCTGGGCACCGGCGTCTGGCTGGATACCACCCGCCTGCGCCGTCTGCTGGCGCAGGAGCTGAACATTGGCGCCCAGAGCATCGACGCTTTTATCCTCGGCGAGCACGGCGATACCCAGTTTCCGGTATGGTCGCACTCCTCGGTATATGGCACGCCGATCGCCGACCTCTACCAGCAACGCACCGGCCGGCCGCTCGACCGGGAGGCGATGGCCGACAAAGTGCGCAAGCTGGGGTTTGAGATCTACGCCGGCAAAGGCTGTACGGAATATGGCGTGGCAGGCACCATCGCCGAGATCTGCCGCAATATTTTTACCGGCAGCCACCGCGCGCTGGCGGTCTCCTGCATTCTTGACGGTGAGTACGGGGTCAGCGGCGCGGCGGCTGGGGTGCCGGCGGTGCTGGCCCAGGGGGGCGTGGAGCAGATTATCGAACTGCGGCTGGCCGGCGAAGAACAGACGAAGTTCAGCCAGTCGGTTGCGGTGATCAAAGCCAATATCGCGCGTCTGCCCTGA	MRTKARKVMIIGAGNVGASAAYALLNQSICEELILVDLNQPRAEAHAQDLSDAAAYLPGMMTISTREASDCADVDIAVITVSGGALRPGQSRLDELTTTAKIVKSIVPTMMANGFNGIFLVATNPCDIITWQVWQLSGLPRSQVLGTGVWLDTTRLRRLLAQELNIGAQSIDAFILGEHGDTQFPVWSHSSVYGTPIADLYQQRTGRPLDREAMADKVRKLGFEIYAGKGCTEYGVAGTIAEICRNIFTGSHRALAVSCILDGEYGVSGAAAGVPAVLAQGGVEQIIELRLAGEEQTKFSQSVAVIKANIARLP	PGPT0001760_2328	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001760-ldh-K00016	NA	NA
BMS020_00249	483			hypothetical protein	ATGTATACCATCACCGACATCGCCCCCACCGACGCCGAATTTACCGCCCTGATTGCCGCCCTCGACGCCTGGCAGGAGACACTCTACCCGGCGGAGAGCAACCATCTGCTGGACCTCGGCCAGCTGCCGCCGGAGACAGTGATCGCCATGGCGATCCGCAGTCCGCAGGGCGAAGCCGTTGGCTGCGGGGCTATCGTCCTCAGCGATGAAGGTTTTGGCGAGATGAAGCGGGTCTATATTGATCCACAGCATCGTGGGCAACAGCTGGGAGAAAAGCTGCTGGCGGCCCTGGAGGCGAAAGCGCGCCAGCGCGACTGCCATACTCTGCGCCTGGAGACCGGCATCCATCAGCATGCGGCCATCACCCTCTATACGCGCAACGGCTATCAGACCCGCTGCGCGTTTGCTCCCTACCAGCCCGATCCGCTCAGCGTCTTTATGGAGAAACCGCTGTTTGCCGATCTTCGTTCAGCAGCGCTATAA	MYTITDIAPTDAEFTALIAALDAWQETLYPAESNHLLDLGQLPPETVIAMAIRSPQGEAVGCGAIVLSDEGFGEMKRVYIDPQHRGQQLGEKLLAALEAKARQRDCHTLRLETGIHQHAAITLYTRNGYQTRCAFAPYQPDPLSVFMEKPLFADLRSAAL	PGPT0007180_149	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
BMS020_00250	879	gltR_1	COG0583	HTH-type transcriptional regulator GltR	ATGGACCTGACTCAGCTAGAGATGTTTAACGCCGTCGCCAGCACCGGCAGCATTACCCAGGCAGCGCAGAAAGTGCATCGCGTGCCGTCCAACCTCACCACCCGCATCCGCCAGCTGGAGGCGGATCTTGGCGTTGAGCTGTTTATCCGCGAGAACCAGCGGCTGCGCCTCTCGCCCGCGGGCCACAGCTTCTTACGCTACAGCCAGCAGATCCTCGCCCTGGTGGACGAGGCGCGAATGGTAGTGGCGGGCGACGAACCCCAGGGACTCTTCTCTCTCGGTTCGCTGGAGAGCACCGCGGCGGTGCGGATCCCCACCACCCTGGCCCACTTTAATCAGCGCTACCCGAAAATTCATCTCGCCCTCTCCACCGGCCCCTCCGGGACGATGATCGACGGCGTGCTGGAGGGAGCCCTGAGCGCCGCGTTCGTTGACGGACCGCTGGTGCATCCGGGCCTGGAGGGGCTGCCGGTGTTCCCTGAAGAGATGATGATCGTCGCTCCCTACGGCCACGCGGCCATCGCCCGCGCCAGCGAAGTGAACGGGGCTAATGTCTACGCTTTTCGCGCCAACTGTTCCTACCGCCGGCATTTTGAGAGCTGGTTCCATGCCGACAGAGCCACTCCGGGCCGGATCCATGAGATGGAGTCTTATCACGGGATGCTGGCCTGCGTGATCGCCGGCGCCGGGCTGGCGCTGATCCCGCGCAGTATGCTGGAGAGTATGCCGGGCCATCAGCAGGTATCCGCCTGGCCGCTGGCAGAAGAGTGGCGCTGGCTCACCACCTGGCTGGTGTGGCGTCGGGGCGCCAAAACCCGCCAGCTGGAAGCGTTTATAGCGCTGCTGAACGAAGATCGGCAAACAGCGGTTTCTCCATAA	MDLTQLEMFNAVASTGSITQAAQKVHRVPSNLTTRIRQLEADLGVELFIRENQRLRLSPAGHSFLRYSQQILALVDEARMVVAGDEPQGLFSLGSLESTAAVRIPTTLAHFNQRYPKIHLALSTGPSGTMIDGVLEGALSAAFVDGPLVHPGLEGLPVFPEEMMIVAPYGHAAIARASEVNGANVYAFRANCSYRRHFESWFHADRATPGRIHEMESYHGMLACVIAGAGLALIPRSMLESMPGHQQVSAWPLAEEWRWLTTWLVWRRGAKTRQLEAFIALLNEDRQTAVSP				NA	NA	NA	NA	NA
BMS020_00251	1386	sad_1	COG1012	Succinate semialdehyde dehydrogenase [NAD(P)+] Sad	ATGAATTTATCTGCTACGCACGCCGTCTCCGTCAACCCGACTACCGGCGAGGTGGTCTCCTCGCTGCCGTGGGCCAGCGAACGCGAGGTCGACGCGGCTATCGCTCTCGCCGCGGCGGGCTATCGCCAGTGGCGTCAGACGCCGCTCGCCGCACGCGCCGACGCGCTGCGCCGCATCGGGGCCGAGCTGCGCGCCCGCGGTGAAGAGGTGGCCCAGACGATCACTCTCGAGATGGGCAAACCGATTGCTCAGGCTCGCGGCGAGGTGGCGAAATCCGCCAATCTCTGCGACTGGTATGCCGAACATGGCCCGGCGATGCTGGCGACCGAAGCCACCCTGGTGGAAAATAACCAGGCGGTGATCGAATATCGCCCGCTGGGGGCCATTCTGGCGGTGATGCCGTGGAACTTCCCGGTCTGGCAGGTGCTGCGTGGCGCGGTGCCGATCCTGCTGGCCGGCAACAGCTACCTGCTGAAGCACGCCCCGAACGTGATGGGCAGCGCCCGCCTGCTGGGCGAGATTTTTGCCGCCGCCGGCCTGCCGGAGGGCGTGTTTGGCTGGGTCAACGCCACCAATGACGGCGTTTCGCAGATTATCAATGACGACCGCATCGCGGCGGTGACCGTCACCGGCAGCGTCCGCGCCGGGAAAGCGATTGGCGCTCAGGCGGGCGCAGCGTTGAAGAAATGCGTGCTCGAGCTGGGGGGATCCGATCCCTTTATCGTTTTGAACGATGCCGATCTGGATGAAGCGGTGAAGGCCGCCGTCACCGGCCGCTATCAGAACAGCGGCCAGGTGTGCGCCGCGTCGAAGCGCTTTATCCTCGAAGCCGGCATTGCCGAGGCCTTCACCCGCAAATTTGTCGACGCCGTCGCGGCGCTGAAGATGGGCGATCCGCGCGACGAGCAGAATTACGTCGGGCCGATGGCGCGATTCGATCTGCGCGATGAACTGCACCAGCAGGTAACGGCGACCCTCGATGAAGGCGCAACCCTGCTGCTGGGGGCGGAAAAAATCGAAGGGGCGGGCAATTACTATGCGCCAACGGTCCTGGGCAACGTCACCGCCGGCATGACCGGCTTCCGCCAGGAGCTGTTTGGTCCGGTCGCGACCCTGACCACCGCCCGTGACGCAGACCATGCGCTGGCCCTCGCCAACGACAGCGAATTTGGCCTGTCGGCAACGGTCTACACCACCGACGAGGCGCAGGCCCAGCGCTTTGCCCGCGAGCTGGAGTGCGGCGGTGTCTTCCTTAATGGCTACTGCGCCAGCGACGCCCGGGTGGCTTTCGGCGGCGTGAAGAAGAGCGGTTTTGGTCGCGAACTGTCGCATTTTGGCCTGCATGAGTTCTGCAATGCGCAGACCGTCTGGAAAGACCGTCGCTAA	MNLSATHAVSVNPTTGEVVSSLPWASEREVDAAIALAAAGYRQWRQTPLAARADALRRIGAELRARGEEVAQTITLEMGKPIAQARGEVAKSANLCDWYAEHGPAMLATEATLVENNQAVIEYRPLGAILAVMPWNFPVWQVLRGAVPILLAGNSYLLKHAPNVMGSARLLGEIFAAAGLPEGVFGWVNATNDGVSQIINDDRIAAVTVTGSVRAGKAIGAQAGAALKKCVLELGGSDPFIVLNDADLDEAVKAAVTGRYQNSGQVCAASKRFILEAGIAEAFTRKFVDAVAALKMGDPRDEQNYVGPMARFDLRDELHQQVTATLDEGATLLLGAEKIEGAGNYYAPTVLGNVTAGMTGFRQELFGPVATLTTARDADHALALANDSEFGLSATVYTTDEAQAQRFARELECGGVFLNGYCASDARVAFGGVKKSGFGRELSHFGLHEFCNAQTVWKDRR	PGPT0001585_222	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-GAMMA-AMINOBUTYRIC_ACID|GABA_PRODUCTION	PHYTOHORMONE-GABA_METABOLISM	PHYTOHORMONE-GABA_DEGRADATION,PGPT0001585-sad|yneI-K08324	NA	NA
BMS020_00252	927	glsA2	COG2066	Glutaminase 2	GTGGCGACAGTGATCAATAACGCAATGCTGGAAGCCATTCTGGCAGAAATCAGGCCGCTGATTGGCCGCGGTAAAGTGGCGGATTATATTCCGGCGCTGGCCAGCGTCAGCGGCGATAAGCTTGGCATCGCTATCTGTACGGTGGACGGGCAACATTTTGCCGCCGGCGATGCCCATGAACGATTCTCCATCCAGTCGATCTCCAAGGTGTTGAGTCTGGTGGTGGCCATGAACCACTATCAGGAAGAGGAGATCTGGCAGCGGGTGGGGAAAGATCCCTCCGGTCAGCCCTTTAACTCGCTTCTGCAGCTGGAGATCGAGCAGGGCAAACCGCGCAACCCGTTTATCAACGCCGGGGCGCTGGTTGTCTGCGACATGCTGCAGAGCCGGCTCAGCGCGCCGCGCCAGCGGATGCTGGAGATTGTCCGCCGCCTGAGCGGCGTGGCCGATATCGCCTACGATCCGCTGGTGGCCCGCTCTGAGTTTGAGCATTCGGCGCGCAACGCCGCCATCGCCTGGCTGATGAAATCCTTCGGCAACTTCCATAATGATGTCGCCACCGTGCTGCAGAACTATTTCCACTACTGTTCGCTGGAGATGAGCTGCGTCGAGCTGGCGCGAACCTTTCTGTTTCTCGCCGACCGCGGCATCGCCCCGCATCTCGAAACGCCGGTTATCGCGCCGATACAGTCCCGCCAGGTGAATGCCCTGATGATGACCAGCGGCATGTACCAGAACGCCGGCGAGTTTGCCTGGCGCGTGGGTCTGCCGGCGAAATCGGGCGTCGGCGGCGGAATTGTGGCGATTGTGCCGCAGGAGATGGCGATCGCGGTCTGGAGCCCGGAGCTTGACGAGGCGGGGAACTCCCTGGCCGGCGTGGCGCTGCTGGAGAAACTGACTCAGCGGCTGGGGAGGTCGGTGTTCTGA	MATVINNAMLEAILAEIRPLIGRGKVADYIPALASVSGDKLGIAICTVDGQHFAAGDAHERFSIQSISKVLSLVVAMNHYQEEEIWQRVGKDPSGQPFNSLLQLEIEQGKPRNPFINAGALVVCDMLQSRLSAPRQRMLEIVRRLSGVADIAYDPLVARSEFEHSARNAAIAWLMKSFGNFHNDVATVLQNYFHYCSLEMSCVELARTFLFLADRGIAPHLETPVIAPIQSRQVNALMMTSGMYQNAGEFAWRVGLPAKSGVGGGIVAIVPQEMAIAVWSPELDEAGNSLAGVALLEKLTQRLGRSVF	PGPT0020215_1881	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0020215-glsA-K01425	NA	NA
BMS020_00253	369			hypothetical protein	ATGGTCGATCAGGATCGATTGTTTGCTCGCCTGGCGCGTTCGACGTTTCGTTCACGCTTCCGGCTGGGAATGAAAGAGCGGCAATACTGCCTCGATAAAGGGCCGGAGGTCATCGACCAGCATGCCGCCGATTTTATCCGTCAGCGGCTGGCGTCCGCCGCGCCGGCCAATGATGGCAAGCAGACGCCGATGCGCGGTCACCCGGTGTTTATCGCCCAGCACGCGACCGCCACCTGCTGTCGCGGCTGCCTGGAAAAATGGCACGCCATTCCCCACGGCCGCGCGCTGAGCGAGCAGGAGCAGCGCTATATTGTGCAGGTGATCCACCGCTGGCTGGTGCTGCAGATGAACGGCCCGTCTGTGCGCTAA	MVDQDRLFARLARSTFRSRFRLGMKERQYCLDKGPEVIDQHAADFIRQRLASAAPANDGKQTPMRGHPVFIAQHATATCCRGCLEKWHAIPHGRALSEQEQRYIVQVIHRWLVLQMNGPSVR				NA	NA	NA	NA	NA
BMS020_00254	1425			hypothetical protein	ATGTCTTCACTGTCGATTCGGTCATTTACGCTGTTTCGTGAAGAACAACCCGTGCGCGATGCACTGGTCTTATTTACGTTAACGCTATTGCTGCATTTCCTGGGCGCGATGCTGCGTCTGGTGCAGGAGCTCTCTTTCTTCTGGCCGCTCAACGCAGTGATGGCCGGGATCTTTGCGCGCTACGTATGGCTTAATCGCAGCTATTTTTATGCCGTCTGCTTTGCGGCAATGCTGGTCTATGACGGATTAACTTCGCGCTGGGGAATGGGCTTTGCCTCATTGCTGATTAACTTCTCCAATATTGTCTTTATTGTGACCCTGGCACAGCTGGTGCTGTGGGATAAACGACGCGCCGACTCGATGCCCGGCCCGATTAACGCGCTTAATTTATTCTGTTTCTGTCTGTTAGCCGCGCTGCTGTGCGCAGCGGTCGGCGCGTTGGGGTCGGTGGATGTCGAGCGCGCCACCTTTATTCCCCAGCTGGCGGACTGGTTTAGCGAGCAGTTCTCGACGGCGGTGCTTATTCTGCCGTTTATTCTGACCCTGACGCTGCCCTCCGCGTTAAGCGGTTTTCGCTTTCGCCAGCTGCTGCCCGCGCTGGCGCTGGTGCTGTCGATTGCCCTCGGCGTGGCGGTGGGCGGCGCCGGCAGCATTACCTTCCCGTTACCGGCCCTGATCTGGTGCGCCGTGCGCTATCCGCTGCCGCTGACCTGCCTGTTGACCTTTCTCACCGGCATCGGCGAGATACTGCTGGTGGCCAACTCGTTAATTCACTTTGCGCCGGATACGCGAATGCAGCCGTGGCAGCTGTTCTCCACTCGCCTGGGGATCGCGGCGATGCTGATAAGTCCGGTGATCGTCGCCTCCAGCGTCGAGGCGATTAACATGCTGGTGAAACAGCTGGCCCTGCGCGCCGATTTTGATTTCCAGACCCGGGTCTATTCCCGTTCCGGGCTGAGCGAGGCGCTGAAACGTCAGACGCTGCCGGCCGATAAACTGCTGACGGTGATGGTGCTGGACATCGATGGCTTCAAAAGGGTGAACGATGCCCTGGGCCATGAGGGCGGAGATTGCGTACTGACTCAGTTTGCCCAGCAGGTCAGACAACTGGTGGGCGAGCAGGGTATGGTCGCCCGTATCGGCGGCGAGGAGTTTGCGGTCGCCGCCGTGGTCGACAGCACCCAGCAGGGATACCTGCTGGCGGAGAAGATCCGCCACGGCGTAGAGTCGCAAGCTTTCGGTTGGGGACATAACCCGATCCACCTGACCATCAGTATGGGACTGGAGACACGCGAGGTGGGCCAGGCCCGTATTACCGAGCTGTTTAACCAGCTGCTGCTGGCGGCGGACGATGAAATGGTCAAAGCCAAACAGACAGGCCGTAACCGCATCTGTATGCCGACGCTAACGGAAAGCGCGCCATAA	MSSLSIRSFTLFREEQPVRDALVLFTLTLLLHFLGAMLRLVQELSFFWPLNAVMAGIFARYVWLNRSYFYAVCFAAMLVYDGLTSRWGMGFASLLINFSNIVFIVTLAQLVLWDKRRADSMPGPINALNLFCFCLLAALLCAAVGALGSVDVERATFIPQLADWFSEQFSTAVLILPFILTLTLPSALSGFRFRQLLPALALVLSIALGVAVGGAGSITFPLPALIWCAVRYPLPLTCLLTFLTGIGEILLVANSLIHFAPDTRMQPWQLFSTRLGIAAMLISPVIVASSVEAINMLVKQLALRADFDFQTRVYSRSGLSEALKRQTLPADKLLTVMVLDIDGFKRVNDALGHEGGDCVLTQFAQQVRQLVGEQGMVARIGGEEFAVAAVVDSTQQGYLLAEKIRHGVESQAFGWGHNPIHLTISMGLETREVGQARITELFNQLLLAADDEMVKAKQTGRNRICMPTLTESAP				NA	NA	NA	NA	NA
BMS020_00255	531	ttr		Acetyltransferase	ATGATCGCATCATTTTCACTGCGCACGCTATCGCGTGACGATATTCTTCATCACCTTCCGGCATTAAGCGATATCCTGGCGAGCTGCGTGAACGGCGGCGCCTCGGTGAGCTTTATGCTGCCTTTCAGTCAGCAGACGGCGACGACCTTCTGGCAACATGTCGCCAACAGCGTGGCGGCCGGGGAGCGCATCGTGCTGGCCGCCCTTGACGCTGAGGAACGTCCCGTCGGCACCGTGCAACTGATCACCAGCCAACCGGAAAACCAGCCCCATCGTGCGGACGTGGCCAAACTTTTGGTTCACCAAAATGCCCGCCGCCTGGGGATTGCCAACGCGCTGATGGCGGAGCTGGAGCAAACCGCCCGGCGGGTAGGTAAGACGGTGCTGGTGCTGGACACGGCGACCGGCAGCGGGGCGGAACAGTTCTATGTCCGCTGTGGCTGGGAAAAAGTGGGCGAAATTCCGCGCTATGCGCTGATGCCTGACGGTGCGATGACCGCCACTTCACTGTTCTATAAGTTTCTTCCCTGA	MIASFSLRTLSRDDILHHLPALSDILASCVNGGASVSFMLPFSQQTATTFWQHVANSVAAGERIVLAALDAEERPVGTVQLITSQPENQPHRADVAKLLVHQNARRLGIANALMAELEQTARRVGKTVLVLDTATGSGAEQFYVRCGWEKVGEIPRYALMPDGAMTATSLFYKFLP	PGPT0012925_143	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
BMS020_00256	1452	uxaB	COG0246	Altronate oxidoreductase	GTGAAAACGTTAAACCGTCGTGATTTCCCCGGCGCGCAGTACCCTGACCGTATCATCCAGTTTGGAGAAGGTAACTTCCTGCGCGCATTCGTTGACTGGCAGATTGACCTGCTCAACACGCATACCGACCTGAATGCTGGCATCGTGGTCGTTCGTCCTATCGCCACCGATTTCCCCCCCTCCCTGAATACCCAGGACGGCCTCTATACCACCATCATTCGCGGTCTCAACGAGCAGGGCGAAGCGGTGAGCGACGCGCGGCTGATCCGCTCGGTCAACCGGGAAATCAGCGCTTACGCTGACTACGACGCTTTTTTACGTCTGGCGCATAACCCCCAGATGCGGTTTGTCTTTTCCAATACCACTGAGGCGGGCATCAGCTACCATGCCGGGGATCGGTTTGATGACGCGCCGCCGGTAAGCTATCCGGCAAAACTGACCCGCCTGCTGTTTGAACGCTACCAGCATTTTGCCGGCGCAGCCGATAAGGGATGGGTGATCATCCCCTGCGAACTGATCGATTATAACGGCGAGGCATTGCAGACGCTGGTGCTGCGCTATGCCTCCGAGTGGCAGCTGCCGCAGGCCTTTATCAACTGGCTGACGTCGGCAAATACCTTCTGTTCCACGCTGGTGGATCGCATTGTGACCGGCTACCCGCGCGATGAAGTGGCGGCTCTGGAGGCGCAAACCGGCTATCAGGACGCTTTCCTCGATACTGCCGAGCACTTTTATTTGTTCGTTATTCAGGGGCCCGCCTCATTAGCCAGCGAGCTGCGACTCGATAAGCTGCCGCTCAATGTGCGTATCGTGGACGATATCAAGCCCTATAAAGAGCGCAAAGTGGCGATCCTCAACGGGGCGCACACCGCCCTGGTGCCGGTGGCCTTCCTGGCCGGGATCGACACCGTCGGCGAGGCGATGAACGATGCGGAGATTTGCGCGTTTGTCGAAAAGGCGATTTATGACGAGATTATTCCGGTGCTGGATCTGCCGCGCGATGAGCTGGTGTCATTCGCCAGCGCCGTGACCGGGCGCTTCCGTAATCCCTATATCAAACATCAGCTGCTCTCGATCGCTCTCAACGGCATGACCAAATATCGCACCCGTATTCTGCCGCAGCTGCTGGCAGGGCAGAAGGTGCATGGCGCGCTGCCGCCGCGCCTGACCTTCGCCCTGGCGGCGCTGATCGCCTTCTACCGGGGAGAGCGGGAGGGGACAAGCTATCCGGTACAGGATGATGCGGAATGGCTGACGCGCTACCAGACGCTCTGGGCGCGCCATCGTGACGGCCAGATATGCACCCGCGAACTGGTTTCCGCCGTGCTCAGCGTGGAGTCCCACTGGGAGCAGGATCTCAGCCAGATCCCCGGCCTGGTGGAGCAGGTCGCCGCTGACCTTGACGCTATCCTGACCCGCGGTATGCGCGACGCCGTCAGGCCGCTCTGCTGA	MKTLNRRDFPGAQYPDRIIQFGEGNFLRAFVDWQIDLLNTHTDLNAGIVVVRPIATDFPPSLNTQDGLYTTIIRGLNEQGEAVSDARLIRSVNREISAYADYDAFLRLAHNPQMRFVFSNTTEAGISYHAGDRFDDAPPVSYPAKLTRLLFERYQHFAGAADKGWVIIPCELIDYNGEALQTLVLRYASEWQLPQAFINWLTSANTFCSTLVDRIVTGYPRDEVAALEAQTGYQDAFLDTAEHFYLFVIQGPASLASELRLDKLPLNVRIVDDIKPYKERKVAILNGAHTALVPVAFLAGIDTVGEAMNDAEICAFVEKAIYDEIIPVLDLPRDELVSFASAVTGRFRNPYIKHQLLSIALNGMTKYRTRILPQLLAGQKVHGALPPRLTFALAALIAFYRGEREGTSYPVQDDAEWLTRYQTLWARHRDGQICTRELVSAVLSVESHWEQDLSQIPGLVEQVAADLDAILTRGMRDAVRPLC	PGPT0018320_357	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
BMS020_00257	447			hypothetical protein	ATGGTCATCGATATCCGGGAAGTTCGGCCGCATGACAAAGCTGAATGGCTTCAGCTCTGGGAAGGCTATACCCGCTTCTACGGCAGCCCGCAGCCGGAAGAGGTGACCGAATGCACCTGGCAGCGGATGCTGGAGGTGAACTCACCCGTGCTGGGCAGAGTCGCGGTGGTGGATGATACCGTGGTGGGGTTCGCTATCTGCATTCTGCACGAAGGCACCTGGGTTACCACGCCGATCTGCTATCTGGAGGATCTGTTCGTCGATCCTGCCTTCCGCGGACAAGGCATTGCCAGAACGCTGATTAAGTCGCTGCAAACCGAAGGGGCTGAGAAAGGCTGGTCACGTCTGTACTGGCATACTCGCCGTGATAATCCCGCCCGCCACCTGTATGATGAATTCACCCCGGCTGACGATTATGTGCGCTACAGGATCACCCTCGACTCCTGA	MVIDIREVRPHDKAEWLQLWEGYTRFYGSPQPEEVTECTWQRMLEVNSPVLGRVAVVDDTVVGFAICILHEGTWVTTPICYLEDLFVDPAFRGQGIARTLIKSLQTEGAEKGWSRLYWHTRRDNPARHLYDEFTPADDYVRYRITLDS				NA	NA	NA	NA	NA
BMS020_00258	99			hypothetical protein	ATGGAAAAACGTCTCGAAACAGTGGTCAATCTGATAATGTTTCTTTCGCTATTGGCGACGGCCTGGGATCTGTCACTGGTGCATCATCTCGCCTGGTAG	MEKRLETVVNLIMFLSLLATAWDLSLVHHLAW				NA	NA	NA	NA	NA
BMS020_00259	381			hypothetical protein	ATGCCTCTGACGCGTATTTCGCTTGGCGCGGCCTGGCGCCCCGCGGAGTTTGCTCAACTGTCGGCGCTATTCCATGAATGCCTGGTGGCGGAGTTTGACGTGCCGCCGGCGGACAAATTTCAGTTTATCGAGCAGACCGCCGACGGACAGCGTATTTACGACCCGCATTATCTCAGCGGCGGGCGCAGCGCCCGCTTCGTGCTGTTTCATATTTTCGCCGGGAAGCCGCGCCGCCGGGCGCAGAAACAGGGGCTCTACCGTCGGCTGTGCGCGCGGTTAGCCGATGAGATGGCGGTCAGCCCGCAGGACGTGATGGTGGTGATCCAGTTTAACCAGCTGGAGGACTGGAGTTTCAGCGCCGGCATAATGGCGGGTGAATAA	MPLTRISLGAAWRPAEFAQLSALFHECLVAEFDVPPADKFQFIEQTADGQRIYDPHYLSGGRSARFVLFHIFAGKPRRRAQKQGLYRRLCARLADEMAVSPQDVMVVIQFNQLEDWSFSAGIMAGE				NA	NA	NA	NA	NA
BMS020_00260	321			hypothetical protein	ATGCATACCCCCTCTGTCGATCGCCACACGCTGGCCGCCATTGCGCCAAAACTGGCCGAACTGACCGAAACGGTGCTGTTTGGCGATATCTGGGCGCGCAGCGAGCTGTCGCTCCGCGAACGCAGCTTAATCACCCTCTCCGCCCTGACGGCGCTGGGCAAAACGGAGCAACTGCCCTGGCATATCGCCTACGGCTATCAAAATGGCCTGAGCCAGGAGGAGATGGTCGAATTGTTTACCCACCTGGCGTTCTATGCCGGCTGGCCGGCGGCGGCTAGCGCCCTGACCTGCCTGAACGCGCAGGAGGCGCCATGCCTCTGA	MHTPSVDRHTLAAIAPKLAELTETVLFGDIWARSELSLRERSLITLSALTALGKTEQLPWHIAYGYQNGLSQEEMVELFTHLAFYAGWPAAASALTCLNAQEAPCL	PGPT0005005_4285	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005005-pcaC-K01607	NA	NA
BMS020_00261	762	tam_1	COG4106	Trans-aconitate 2-methyltransferase	ATGGCCGACTGGAACCCCACGCTGTATCTGCAGTTTGACGCTGAGCGCACCCGCCCGGCGGCTGACCTGCTTTCCCGTATCGCTCACCTGCAGGTCGAGAGCGTCGTTGACCTTGGCTGCGGGCCGGGCAACAGTACCCGCCTGCTGCGTGCCGCCTGGCCGCTGGCGGCGATCGTCGGTATCGATAACTCCCAGGCCATGCTGGACCAGGCGACGCAGGCCTTACCTGACTGTGAGTTTATCGAGGCCGATATCGCCAGCTGGCGGCCTGCGCAACCGCCGGACGTGATCTATGCCAACGCCTCGCTGCAGTGGCTGGCGGATCATGAGACGCTGTTTCCGCATCTGGTTAACCAGCTGGCGGAGAACGGTACGCTGGCGGTGCAGATGCCGGATAACTGGCAGGAGCCCTCCCATACTCTGATGCGTCAGGTCGCCAGCGAGCTGGGATTACCGGACCGTGGTCGCCAGCCCTTGCTTTCGCCGGACGCCTGGTACGATCTGCTCACCCGTCAGGGCTGCGAAGTTGATATCTGGCGCACCACCTATTTTCATCCGCTCGCTTCGCATCAGGCGATCGTCGACTGGCTGCAGGGCACCGGACTGCGACCTTATTTGAAGGGCCTCGATGAACCGGCCAGGAGCGCCTTTCTGACCCGCTATGTGGCATTGCTGGCCGACCACTATCCGTTACAGTGTAACGGAATGGTGCTTCTGCGCTTCCCGCGTCTGTTTATCGTGGCGCGAAAAAGAGCCGCCTGA	MADWNPTLYLQFDAERTRPAADLLSRIAHLQVESVVDLGCGPGNSTRLLRAAWPLAAIVGIDNSQAMLDQATQALPDCEFIEADIASWRPAQPPDVIYANASLQWLADHETLFPHLVNQLAENGTLAVQMPDNWQEPSHTLMRQVASELGLPDRGRQPLLSPDAWYDLLTRQGCEVDIWRTTYFHPLASHQAIVDWLQGTGLRPYLKGLDEPARSAFLTRYVALLADHYPLQCNGMVLLRFPRLFIVARKRAA				NA	NA	NA	NA	NA
BMS020_00262	291			hypothetical protein	ATGCACCAAAGTTTTAATCAGCGCGTTCATTTCTATTACTGCGTCCTGGTCGCGCTGAAGATGCACGGAAAGTCGAAAAAGTCGGGCGGTATCAGAGGAAAGAACAACTTTCTGCTGAAATGGCTGCGCCGGGCGCAGGATAACAACATTTTCCCTCCCGATATCACCAGTGAAATAGAATGGCTGCGCGGGAAGATTATTCAGGCCGGCTACGATACCGATCTCGAGCCGATGCTGGATTTTGTTTACGCCACCGCCAGCCGCGCCGAAGCGCTCAAGAACGCCGAATAA	MHQSFNQRVHFYYCVLVALKMHGKSKKSGGIRGKNNFLLKWLRRAQDNNIFPPDITSEIEWLRGKIIQAGYDTDLEPMLDFVYATASRAEALKNAE				NA	NA	NA	NA	NA
BMS020_00263	1188	yhhS_1		putative MFS-type transporter YhhS	ATGAGCACTTCCGTCAGCACCACGCAACTTAATCTGCGCATCATTTCGATCGTTGTTTTTACCTGTATCTGTTATCTCTCTATTGGTCTGCCGCTGGCCGTTCTGCCGGGTTATATTCACTATCAGCTGGGCTACAGCACCTTTGTCGCCGGGATCGTGATCAGCCTGCAGTACATCTCGACGCTGATAAGCCGGCCGCACGCCGGGCGCTACACCGATATCTGGGGCCCGAAAAAAGTGGTTAGCCTCGGGATCGTCTGCTGTCTGCTCAGCGGCGCCTTCACGCTGCTGGCGGTAATGTTGCAGGCGATGCCGATGCTGGCGATTGCCGCGCTGTTGGCGGGCCGGGTGTTTCTTGGCGTCGGCGAAAGCTTTACCGCCACCGGCGCCACGCTCTGGGGGATCAAAACCGTCGGCGCGATCCATACGTCGCGGGTGATCTCCTGGAACGGCGTGGCAACCTATGTGGCGATGGCGGTCGGCGCGCCGCTGGGGGTCACCCTTAACCAGTATTTCGGCATCAGCGGCTTTGCCACGGTGGTGGTGCTGGTCGCCGCCATCGGCCTGCTGTTCGCCCGCACGCGGCAGGACGTCAGCGTGACCGCCGGCGTCAGAGCGCCCTTTCACGCGGTGGTGCGCAAAATCTGGCCTTATGGGCTGGGGCTGGCCTTTGGCACCGTTGGTTTCGGCGTTATTGCCACCTTTATCACCCTCTACTTTGCCGCGCACAGCTGGCAGGGCGCCGCGTTTACCCTCTCGCTGTTCAGCGTCGGCTTTATCTGTGTTCGCCTGGTGCTGGGGAATACCATCACTCGCTTTGGCGGGGTCCCGGTATCCCTGGCCTGCTTCGTCATCGAATGTCTCGGCCTGCTGCTTATCTGGCTGGCGCCGTCGGCCTGGGTGGCGGGGATCGGCGCCTTTCTCACCGGCTCGGGTTTTTCGCTGGTCTTCCCGGCGTTGGGGGTTGAGGCGGTAAAACAGGTGGAAGAGCAAAACCAGGGGACCGCCCTTGGCACCTACTCGGCGTTCCTTGATCTCGCGCTGGGGCTGACCGGGCCGCTGGCCGGCTGGGTCGCCGGGTACTACGATCTCGTCACCCTGTATCTGCTGGCGGCAATCGTCGTAGTGTTCGCTTTCCTGCTGATTTTACGCGTATATCTGCAACAGCGGGCCGCGGTCAGGACGTAG	MSTSVSTTQLNLRIISIVVFTCICYLSIGLPLAVLPGYIHYQLGYSTFVAGIVISLQYISTLISRPHAGRYTDIWGPKKVVSLGIVCCLLSGAFTLLAVMLQAMPMLAIAALLAGRVFLGVGESFTATGATLWGIKTVGAIHTSRVISWNGVATYVAMAVGAPLGVTLNQYFGISGFATVVVLVAAIGLLFARTRQDVSVTAGVRAPFHAVVRKIWPYGLGLAFGTVGFGVIATFITLYFAAHSWQGAAFTLSLFSVGFICVRLVLGNTITRFGGVPVSLACFVIECLGLLLIWLAPSAWVAGIGAFLTGSGFSLVFPALGVEAVKQVEEQNQGTALGTYSAFLDLALGLTGPLAGWVAGYYDLVTLYLLAAIVVVFAFLLILRVYLQQRAAVRT				NA	NA	NA	NA	NA
BMS020_00264	447			hypothetical protein	ATGTCCCAGAAATTCGCCGATATTGACGTTATGTTCATTGCGGGCTTCGGCCCTATTACCCAAAGCACCTCGCAAAGCCGTGATTTCTATTGTCAGGCATTGGGATTACCGCTGAAGCCGATGCCGGGTAACGAGGCGTATCTGCTCAGCGAGCAGGATGCCATCGGCGGGGTGAAGCATTTTGCGCTGTGGCCGCTGGCGCAGGCGGCGCAGTCCTGTTTTGGTCAGGAGCAGTGGCCGGAGACGGAGCCGGTGCCGCAGGCGTGGATTGAATTTGAGGTCCGCGACCTTGCCGCGGCGACGGCGCGGCTGCAGCAGCAGGGGTACCATCTCCTTGTTGCCGCGCGCGACGAGCCGTGGGGGCAGACCGTCACCCGTCTGCTCAGTCCGGAAGGTCTGCTGGCCGGGCTTACCGTGACGCCGTGGCTGCGGGCGGAACAGGCTTAA	MSQKFADIDVMFIAGFGPITQSTSQSRDFYCQALGLPLKPMPGNEAYLLSEQDAIGGVKHFALWPLAQAAQSCFGQEQWPETEPVPQAWIEFEVRDLAAATARLQQQGYHLLVAARDEPWGQTVTRLLSPEGLLAGLTVTPWLRAEQA				NA	NA	NA	NA	NA
BMS020_00265	426	yycE		putative protein YycE	ATGTCGTTCTGCCACATGCGCATCGCCAGACCGGTCAGCGAACTGGAGAGCACCGCCAGCATGTATTGCGCCGGGCTGGGGCTGCAGCAACTTGGAAGCTTTACCGATCATGAAGGATTCAGCGGGATGATGATCGGTTCGCCGGATGCCAGTTGGCATCTGGAATTCACCCACTGCCGCCACCATCCCGTTACCCCCTCGCCAGGAGATGAAGATCTGCTGGTGCTGTACTATCCGCAGCCTGAGGCCTGGAAGGCACAATGCAGCGCCATGGACGCCGCCGGGTTTCTGCGCGTCACGGCATTCAACCCCTACTGGGAGGTCAACGGCGTCACTTTCGTCGACCGCGACGGCTATCGCACCGTGCTGCAAAACCGCGCCTGGGGGGAAGTGCGAAACGTTTTACATCACGAGGAGCCTCAATAA	MSFCHMRIARPVSELESTASMYCAGLGLQQLGSFTDHEGFSGMMIGSPDASWHLEFTHCRHHPVTPSPGDEDLLVLYYPQPEAWKAQCSAMDAAGFLRVTAFNPYWEVNGVTFVDRDGYRTVLQNRAWGEVRNVLHHEEPQ	PGPT0020970_2612	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020970-PREP-K01322	NA	NA
BMS020_00266	846	gltR_2	COG0583	HTH-type transcriptional regulator GltR	ATGAACCACAGCACACTGCAGATTTTTATCCAGGTGGCCGACACGCAAAGCGTCACTCTGGCAGCAAAACGGCTTGGCCGCGCCCAGTCCAATATCACCACCCGTATTCAGCAACTGGAGGAGGAGCTTGCCGTGGAACTCTTCGTCCGCGGCAACAAAAAAATGGTGCTGTCGCCGGCAGGCGTTCAGTTTCTCAGCTATGCCCGGCGGATCCTGAGCCTGGCGGAAGAGGCAAAGCAGAGTCTGCATCCAACCACGCCCGGCGGCAGCCTGCGGCTGGGCGCGATGGAGGCGACCGCCGCCAGCCGTCTGCCGCCGCTGCTCACCCGCTTCCAACAGCGGTGCCCGCAGGTGGATGTCACGCTCAGCACCCGGCCGACCCGCCAGTTAACCGAGGGGGTATTAACCGCCGCCCTTGATGCCGCGCTGGTCTGCCTGCCGCCAGGGACGGATGGCCAACCGGCTTGCCCGCCCGGCCTGGGATCTGTCCCGGTGTTTCAGGAAACCCTGATGCTGGTCCGTCCGCAGAGCGCTGGCCCGCTGCGGTTCGCGGCATTTGCCAGCGGCTGCAGCTATCGGGCGCTGGGAGAGCGCTGGCTGGCGGAACAACAGGCGGCCGTCGAGGTGCATGAGGTGAGCTCCTATCACAGCATGCTGGCCTGCGTGGCCTCCGGGCGCTACGCCTGCCTGTTGCCGCAGAGCGTGCTGGCGCTGATGACGCTTCCCGAAAACAGCTTAAGCGAACCGCTGTGCGAGGCGACCACCCAGCTTATCTGGCGCCAGGGGCTCAGCACCTCCGCCCTCAGCGAGTGGCGCATCCTGTTGCAAAGCGCCGCGAACGGCTAA	MNHSTLQIFIQVADTQSVTLAAKRLGRAQSNITTRIQQLEEELAVELFVRGNKKMVLSPAGVQFLSYARRILSLAEEAKQSLHPTTPGGSLRLGAMEATAASRLPPLLTRFQQRCPQVDVTLSTRPTRQLTEGVLTAALDAALVCLPPGTDGQPACPPGLGSVPVFQETLMLVRPQSAGPLRFAAFASGCSYRALGERWLAEQQAAVEVHEVSSYHSMLACVASGRYACLLPQSVLALMTLPENSLSEPLCEATTQLIWRQGLSTSALSEWRILLQSAANG				NA	NA	NA	NA	NA
BMS020_00267	1059	pnoA_1		Nitronate monooxygenase	ATGCAAAATTCACTGCTTTCGCTTCTTGATATTGACTACCCCCTGATCCAGGCCCCGATGGCGGGCGTCTCCACCCCCGCGCTGGCTGCCGCGGTGAGTCATGCCGGGGCGCTGGGTTCGCTGGGGCTGGGCGCTTCAACCGTTGCCCAGGCGGAAGCGATGATCGTCGCCACCCGCCAGCTGACGGACCGGCCGTTCAATGTCAATCTGTTTTGCCATGCGCCGCCCCGGCGCGACGTTCGACGGGAGGCGGACTGGGCTGAGACGCTGCGCCCCCATTTTACCCGCTTTGGCAGTATCCCTCCGGCGTCGCTTAGGGAGATATACCAGACGTTTATCGGCCACACCGCCATGCTGGAGCTGCTTCTCGATCTCTCACCCGCGGTGGTGAGCTTTCATTTCGGCCTTCCTGAGCGCGAGGCGATCCAGCGCCTGCGACAGCAGGGGATCGTCACTCTGGCCACGGCGACGTCGCTTAAGGAGGCGCAGGTCATTGAAGAGCAGGGGATTGACGTGGTGGTCGCTCAGGGCGTTGAGGCGGGCGGGCACCGGGGGATCTTCGACCCGCAGGAGCCAGATGCGCAGATGAGCACCTTTATTCTGGTGCAACATCTGCGGCGTCGGCTGACCATCCCGGTGGTCGCCGCCGGGGGCATCATGGACGGCGCGGGGATCGCCAGCGTGATGCAGCTGGGGGCGCAGGGCGCTCAGCTCGGCACGGCGTTTTTACTCTGTGCGGAATCGGCCGCCGACGCCGGCTACCGCGCGGCGATCGCTAACAGCATTGACGGGCGTACGGTACTGACCTCAGCGATATCCGGGCGTCCGGCACGTTGTCTGGCGAATACCTTCTGCGCAGTGGGGGAAGCCTGTCCGGCGAGCGCTGTGCCGGATTATCCGCTGGCATATGATATCGGCAAAGCGCTGGCCGCCGCCGCGAAAGCCCAGGGCGTCCATGAGTATGGCGCGCACTGGGCTGGGCAGGGTGTGGGGTTGATCCGCGAGTGTGACGCCGCCAGTCTGGTCCGCCAGCTGGCGGCTGAGTGCGGCTGGAATTAA	MQNSLLSLLDIDYPLIQAPMAGVSTPALAAAVSHAGALGSLGLGASTVAQAEAMIVATRQLTDRPFNVNLFCHAPPRRDVRREADWAETLRPHFTRFGSIPPASLREIYQTFIGHTAMLELLLDLSPAVVSFHFGLPEREAIQRLRQQGIVTLATATSLKEAQVIEEQGIDVVVAQGVEAGGHRGIFDPQEPDAQMSTFILVQHLRRRLTIPVVAAGGIMDGAGIASVMQLGAQGAQLGTAFLLCAESAADAGYRAAIANSIDGRTVLTSAISGRPARCLANTFCAVGEACPASAVPDYPLAYDIGKALAAAAKAQGVHEYGAHWAGQGVGLIRECDAASLVRQLAAECGWN	PGPT0006800_2203	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
BMS020_00268	672	metI_2	COG2011	D-methionine transport system permease protein MetI	ATGCGGAGTAGCATGAGCTGGGAAGATTTGTGGCCGTTATTACTCGACGGCACGCTGGATACGCTCTATATGGTGGGCCTGGCGGCCCTGTTTACCGTGCTGATCGGGCTGCCCACCGGTGTGTTGTTATTTATTTCCCGCGCCAACGGCCTCGCGCCGATGCCGAAACTGAACGCGCTGCTGGGGGCGGCAATCAACATCGGCAGATCGTTACCGTTTATCGTGCTGCTGATCGCGCTGATCCCTTTTACCCGCCTGATCGTCGGCACCACGCTGGGCAGCACCGCCGCTATCGTGCCGGTGACCATCGGCGCCTTTCCATTCTTTGCCCGCCTGACGGAAAACGCGCTCGACGAGGTGGATTACGGGAGAATCGAAGCCATTCTGTCGATGGGCGGCAACGTCTGGCACGTGATTTTTAAATCTCTGCTGCCGGAAGCCCTGCCGACGCTGCTGGCCGGGATTACGCTGACCATCGTGATGCTGATTGGCTTTTCGTCGATGGCCGGGGTGATCGGCGGCGGCGGACTCGGCGACCTCGCCATCCGCTACGGCTATCAGCGGTTCAATAATGAGGTGATGTTTGGCACGGTGCTGATCCTGGTGGCGATGGTTCAGGGCGTACAAATGGCCGGCGATCGGCTGGTGCGCCGCCTGGCACACCGCCGCTAA	MRSSMSWEDLWPLLLDGTLDTLYMVGLAALFTVLIGLPTGVLLFISRANGLAPMPKLNALLGAAINIGRSLPFIVLLIALIPFTRLIVGTTLGSTAAIVPVTIGAFPFFARLTENALDEVDYGRIEAILSMGGNVWHVIFKSLLPEALPTLLAGITLTIVMLIGFSSMAGVIGGGGLGDLAIRYGYQRFNNEVMFGTVLILVAMVQGVQMAGDRLVRRLAHRR	PGPT0020515_1525	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072	NA	NA
BMS020_00269	792	metN2	COG1135	Methionine import ATP-binding protein MetN 2	ATGATAACCATCGAAGGGCTGAGCAAAACCTACGCCGGAACCGGCCGACCGGCGCTGAACGATATCGCGTTACAGATTCCGAAAGGGGCGATATACGGCATTCTCGGGCGCAGCGGCGCCGGCAAAAGTACGCTCATCCGCTGTCTCAATTTGCTGGAGCGGCCCACCTCGGGCCGCATTCTGGTGAACGGACAGGATATTACACAGCTGAACAAGGCGGCGCTGCGGGATTATCGCCTGCGTACCGGGATGATTTTCCAGCACTTCAATCTGCTGCATGCCCGCACCGTCGCCGACAACATCGCGGTGCCGCTGGAGATAGCCGGGGTGCCGCGGGCCGCTCGCGAAGCGCGGGTGCGCGAACTGCTGGAGCTGGTGGATCTCAGCGACAAGGCCGCCGCCTTCCCGTCTCAGCTTTCCGGCGGGCAAAAACAGCGCGTCGGCATCGCCCGGGCGCTGGCCGCCCGACCGGAGGTGCTGCTGTGCGATGAGGCGACCAGCGCGCTGGATCCCGAGACCACCGCCTCGGTGCTGGCTCTGCTGGCGGATATTAACCAGCGGCTCAATCTGACCATTGTGCTGATAACGCACCAGCTGGAGGTGGTGAAAACCATTTGTGACCACGCGGCGCTGCTGGAACAGGGCGAAATTGTCGAAAGCGGCAAACTCGCCGACCTGCTGGTGACCCCGTGGTCGCGGCTGCGTCAGTCGCTGCTGCACGACCCGCAGGCTGAACAGGATTTTCTTACCCGTCACGGCGTTCAGGGGAGGCCATTATGCGGAGTAGCATGA	MITIEGLSKTYAGTGRPALNDIALQIPKGAIYGILGRSGAGKSTLIRCLNLLERPTSGRILVNGQDITQLNKAALRDYRLRTGMIFQHFNLLHARTVADNIAVPLEIAGVPRAAREARVRELLELVDLSDKAAAFPSQLSGGQKQRVGIARALAARPEVLLCDEATSALDPETTASVLALLADINQRLNLTIVLITHQLEVVKTICDHAALLEQGEIVESGKLADLLVTPWSRLRQSLLHDPQAEQDFLTRHGVQGRPLCGVA	PGPT0020520_4031	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
BMS020_00270	807	metQ_2	COG1464	D-methionine-binding lipoprotein MetQ	ATGAAATATGCCGCTTTTAAACTGGCAGGGGTCGCACTGTCTCTTTCTCTGGCATGGACGTCTGCCCAGGCCGCCGCGCTGCGCGTCGCCGCGGACCCGGTTCCCCACGCGGAGATCCTCAACTACATCAAAAAAATCGAACCCAGCCTCGATCTGAAGGTGGTGGAGCTGACCAGCGGGGTCAACGCCAATGAACTGCTGGCCAGTGGCGACGTGGATGCCAACTACTTCCAGCATGTTCCCTACCTGAAGGATCAGGAAAAAGCGCTGGGTAAAACCTTTGCCGTCGCGGCCACCGTGCACATTGAGCCGCTGGGGATCTACTCGCACAAACATAAAAATTTCTCGTCGCTGCCGGACAACGCCACGGTGGCGGTGCCGAATAACACCACCAACCTGAGCCGTGCGCTGTTCCTGCTGCAGGCGCAGAAGCTTATCAAGCTGGACCCTAAATTTACCGACCCGGCCACCACTCTGGCGACGCCGAAGGATATTGTCGAGAACCCGAAACACCTGAAGATCCTGGAGATTGAATCGCCGCAGATCCCGCGCTCCCTCGACGATGTCGACCTGGCGGTGATTAACGGTAACTACGCCCTCGAAGCCGGGCTGGTGCCGGCGAAAGACGCTCTGGGGCTGGAAAGCGCCGAGCATAACCCCTACGCCAATATCCTGGTGACCACCCCAGCCCTGGCCAATGACCCGCGCATTAAGGCGCTGGCGAAAGACCTGACGTCGCCGCAGGTAGCGGAGTTTATCCGTAAAAACTACAACGGCTCGGTGATCCCGGTGGCCCCTCAGTCATGA	MKYAAFKLAGVALSLSLAWTSAQAAALRVAADPVPHAEILNYIKKIEPSLDLKVVELTSGVNANELLASGDVDANYFQHVPYLKDQEKALGKTFAVAATVHIEPLGIYSHKHKNFSSLPDNATVAVPNNTTNLSRALFLLQAQKLIKLDPKFTDPATTLATPKDIVENPKHLKILEIESPQIPRSLDDVDLAVINGNYALEAGLVPAKDALGLESAEHNPYANILVTTPALANDPRIKALAKDLTSPQVAEFIRKNYNGSVIPVAPQS	PGPT0020510_4472	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
BMS020_00271	1029	vldW_1		Validamycin A dioxygenase	ATGAACGCGACAACCCTGCCGATTCTCGATCTGGCCCGCTACGCGGACCCCGCGGATAAAGCGGCCTTCCTGGCCGACCTGCGCCACGCCGCCCGCGACATTGGCTTCTTTTATCTGATCAACCACGGTGTCGACGACGCGCTTCAATATGAAGTTCAGCGCCAGTTCCAACGCTTTTTTGCCCTCGATGAGGCGCAAAAACAGCAGGTGGCGATGATCCACTCCCCCCATTTTCGCGGCTATAACCGCGCGGCCTCTGAGCTGACGCGCGGCCAGCCTGACTGGCGAGAGCAGTTTGATATCGGCGCCGAACGTCCGGCGCTGACCCTCAGCGATGACGCCCCGCGCTGGCAGCGCCTGCAGGGTCCGAATCTGTGGCCTGCCGCCCTGCCGTCGCTTAAACCGGTATTACTTCACTGGCAACAGCAGATGACCCAGGTGGGGATCCGCCTGCTGCGCGCCTTTGCCGAAGCGCTGCAGCTCCCGGAGAATGCCTTTGACCGGCTCTATGGCGACAAACCCAACGAGCATATCAAACTGATCCGCTATCCCGGCCAGCAGGAGACGCAAAGCAGCCAGGGCGTCGGCGCCCATAAAGATTCCGGTTTTCTCAGCTTCCTGCTGCAGGACGAACAGAAAGGGCTGCAGGTTGAGGTGGCGCCCGGGCAGTGGATCGACGCTGTGCCGCTGGCCGGCAGCTTTGTGGTCAATATTGGCGAACTGCTGGAGCTGGCCACCAACGGCTATCTGCGCGCTACCGTTCACCGGGTGGTGTCGCCGCCGGCGCAGCAGCAGCGCCTCTCCATCGCTTTCTTCCTTGGCGCCCAGCTTGACGCGGTGGTGCCGGTTTATACCCTGCCGCCCGAGCTGGCGCGTGAGGCGCGCGGTCCGGACAGCGACCCGCACAATCCGCTGCTGCGCGATGTCGGCTGGAATTATCTCAAGGGCCGTCTGCGTTCCCATCCGGACGTGGCGGAACGCTACTATCAGGACGTGTTTCGCGAACGCGCCGAGCAATTGATCGTTTAA	MNATTLPILDLARYADPADKAAFLADLRHAARDIGFFYLINHGVDDALQYEVQRQFQRFFALDEAQKQQVAMIHSPHFRGYNRAASELTRGQPDWREQFDIGAERPALTLSDDAPRWQRLQGPNLWPAALPSLKPVLLHWQQQMTQVGIRLLRAFAEALQLPENAFDRLYGDKPNEHIKLIRYPGQQETQSSQGVGAHKDSGFLSFLLQDEQKGLQVEVAPGQWIDAVPLAGSFVVNIGELLELATNGYLRATVHRVVSPPAQQQRLSIAFFLGAQLDAVVPVYTLPPELAREARGPDSDPHNPLLRDVGWNYLKGRLRSHPDVAERYYQDVFRERAEQLIV				NA	NA	NA	NA	NA
BMS020_00272	264			hypothetical protein	ATGCACAGTTCAAAAGATCCCCTGCACGGCGTGACGCTGGAAGCGCTGCTCAATGCCCTGGTCGCGCGCTACGGCTGGGCGGAAATGGCCCGCCAGGTCAACATTAACTGCTTTAAAAGCGATCCCAGCATCAAGTCCAGCCTGAAATTTCTCCGCCGGACGCCGTGGGCGCGCAAAGAGGTGGAGGCGATGTATCTGGCTTCGCTCGACGACGATGCGCCGGCAGAGAAAGCGGATCCATGGGCAAACTGGCAGAAAAAATAA	MHSSKDPLHGVTLEALLNALVARYGWAEMARQVNINCFKSDPSIKSSLKFLRRTPWARKEVEAMYLASLDDDAPAEKADPWANWQKK				NA	NA	NA	NA	NA
BMS020_00273	312			hypothetical protein	ATGCAGAGCTGGAGCAGTAAAGATTTCACCGCCGACCGCGCGTGGGGCGCGCTGGATATCGCCAATTTTTCCGGCACCACCGTGCGCCTGCACTGGACCGACCAACCCTATATCTGGCACATCAACGACGGTCAGGAGGTGTTTGCCGTCATGGATGGTCAGGTGGCGATGCATGTGAAAGTCAACGGCGAGGAGCAGGTGATCGTGCTGAACGCCGGCGATATCTTCTACGCCGAGGTGGGATGCGAGCATGTCGCTCATCCCCAGGGGGCGGCGCGTATTCTGGTGATTGAGAAAGAAGGGTCGGTCTGA	MQSWSSKDFTADRAWGALDIANFSGTTVRLHWTDQPYIWHINDGQEVFAVMDGQVAMHVKVNGEEQVIVLNAGDIFYAEVGCEHVAHPQGAARILVIEKEGSV				NA	NA	NA	NA	NA
BMS020_00274	756			hypothetical protein	ATGGCAACCTTGCAGTGGGACCACGCAGTACAGTTTGTGAATCAGCCGGAAGCGGCGATTGAAACCTTTGCCGGACAGCAGCTGCGGGCGGTGGCCGGCGGGCGCCATCCGGGGAGGGGAACCCGCAATGCGCTGAGCTATTTTGGTCTGACCTATATCGAATTCCTCGCCATTTCCGACCCGGACGAACTGCGCGTCGCGACGGACAGGTTTCTGCTCTCGCGGGATGCCGCGCGGTTGCTGCCGGAGAACGAAGCGCTGTTTCGCGTCGCGCTGCGCAGCGACGACATCGACGCCACCCATGACCACTTGCGTCGCAAGGGGCTGGCGGTGTCACCGATCGTCGATGGCCAGCGCCACGATCCGCAGGGCAATGTCATCCGCTGGCGGATCTTCACCATTGATGGCGACACCGACGGGCTGGTCTATCCTTTTGTGCTGCAGTGGGGAGAAGACGACGAGACCAGGCTGGCGCGGCTGCGCGACCAGGGGCTGAACGTGCCTCATCCGCTGGGCGACATTGTGCTCGAGCAGGCGGTGTTCGAGGTGGACAATCCGCAGGCGGTGCGCGATCGCTGGCAGGCGCTGCTGGGCTTCCCGCCACAGGGGGAGCAGGGGCTGGACGTGGGCGGCCAGTGGTTTACTTTCCGCGAAGGAGCCGCCAACCAGCTGACCGAACTGGTGTTTCGCGTCGCCAACCCGGCGCTTAAGGGGCAACGCTTTCGCGTTGGCAACGGCGTGTATCGCTTTATATAA	MATLQWDHAVQFVNQPEAAIETFAGQQLRAVAGGRHPGRGTRNALSYFGLTYIEFLAISDPDELRVATDRFLLSRDAARLLPENEALFRVALRSDDIDATHDHLRRKGLAVSPIVDGQRHDPQGNVIRWRIFTIDGDTDGLVYPFVLQWGEDDETRLARLRDQGLNVPHPLGDIVLEQAVFEVDNPQAVRDRWQALLGFPPQGEQGLDVGGQWFTFREGAANQLTELVFRVANPALKGQRFRVGNGVYRFI				NA	NA	NA	NA	NA
BMS020_00275	945	rclR_1	COG2207	RCS-specific HTH-type transcriptional activator RclR	ATGAGCCAGCCTACTATCGACCTGACCAGCGAACTGCTGCGCGGTATGCGCCTCTCCGGCGTGAATTACCGGCGCATCGAAACCTCCCGCCCGTTTGGCGTCGGCTTTAGCGCCGTGGCGGGCAAAGCCCAGTTCCATTTCATCAGCCGCGGACCGGTGCTGCTGCGCATGGCCAGCGGAGAACAGTTCACCCTGGAGAGCGGCGACGCGCTGTTTATTCCCAACGGTGACGGACACGCCCTGCTCTCCGATCCGCAGGCCGCGGTGGTGAATGTGGCGCAGCTGAACAGCGAAACGGTGTGCAGCACGGTAAGTTGCATCAACGCTGGCGACCAGCCTGACTGCCCGGAGCGCGCCGTGATTTTCAGCGGTTGCATGGACTTTGAGCTCGGCGGCATGCAGCCGCTGGTGAAGGCCATGCCCGAGGTGATGCGGGTGAGTTGCCTGCTCCACACCTGGCCGGAGATCCAGCCGCTGCTGGCCGCAATGGAGCGGGAATCGCTCACCCGCCAGGCGGGCTATGCCGGGATCCTCGCCCGGCTGGCGGACGTGGTGGCCGCGCTGATTGTCCGCGGCTGGGTGGCATGCGGGTGCGGTAACGCCACCGGCTGGGTGCAGGTCCTGCGCGATCCCCGGCTGGCGAAAGCGATCTACGCCATGCATCAGCGTCCGGGCGTGAACTGGAAAGTGGAAGATCTGGCGCGGGAGGCGGGGCTGTCGCGCTCTCTCTTCGCCGAGCGTTTTCTTGCCGCCACCGGCACCACCCCCGCCCGCTATCTGACCGAGCTGCGTATGCGGCTGGCGGTGCAGTACATCACCCACGAAGGCCAGGCGCTGGAAAAGGTGGCCTTCCGCCTCGGGTATCAGTCGCTGGCGGCCTTCAGCCGGGCTTTCAAACGCATCACCGGCCAGCCGCCGGGGGCCCTGCGCGCCACGGCACGCTAG	MSQPTIDLTSELLRGMRLSGVNYRRIETSRPFGVGFSAVAGKAQFHFISRGPVLLRMASGEQFTLESGDALFIPNGDGHALLSDPQAAVVNVAQLNSETVCSTVSCINAGDQPDCPERAVIFSGCMDFELGGMQPLVKAMPEVMRVSCLLHTWPEIQPLLAAMERESLTRQAGYAGILARLADVVAALIVRGWVACGCGNATGWVQVLRDPRLAKAIYAMHQRPGVNWKVEDLAREAGLSRSLFAERFLAATGTTPARYLTELRMRLAVQYITHEGQALEKVAFRLGYQSLAAFSRAFKRITGQPPGALRATAR				NA	NA	NA	NA	NA
BMS020_00276	1239	nepI_1	COG2814	Purine ribonucleoside efflux pump NepI	ATGACTTCCTGCATAGCTGCTGACGCAAGCCTGACACCCGTCAGGCCTGCCTGGCGTGCCGTCTATGCCCTGGCCCTCGGGGTGTTCGGCCTGATCGTGGCCGAGTTTCTGCCCGCCAGCCTGTTAACGCCGATGGCCAGCAGCCTCGGCGTCAGCGAAGGGATGGCCGGGCAGGCGGTGACCGCCACGGCGCTGGTGGCGTTAGTCACCGGCCTGCTGATCGCCACCGCCACCCGCAATATCGACCGCCGCTGGGTGCTGATGTTTTTTTCCGTGCTGCAGATTGTCTCCAGCCTGATGGTCGCTTTTGCCGGTTCGCTGGCGTTTCTCCTGCTCGGTCGTCTGCTGCTGGGGATCGCCATCGGCGGTTTCTGGGCGATGTCCACCGCCACGGCGATGCGTCTGGTGCCGGCGGCCCATGTGCCGAAGGCGCTGGCGATCATCTTTTCCGCGGTGTCTGTCGCCACAGTGGTGGCCGCGCCGCTCGGCAGCTACCTCGGGGAGCTGATCGGCTGGCGCAACGTGTTTATTCTCTGCGCGATACCCAGCCTGCTGGCGCTGCTCTGGCAGCTGTGGGTGCTGCCCTCCATGCGCCCGGAAAGCGTTGGCACCTTCTCCACGCTGTTCAGGGTGCTGCGCCGTCCCGGTATGCTGGGCGGCATGCTGGCGTCGATCCTCATTTTCAGCGGCCATTTCGCCTTCTTCACCTACCTGCGGCCGTTCCTTGAGACTGTCGCGCAGGCCAGCGTTGAAGGCGTTTCACTGATTTTGCTCGGCTTCGGTATCGCTAACTTTATCGGCACCTCGGTAGCGAGCTATCTGCTGAGCCGCAGCCTGCGTCTGACCCTGGCGCTGGTGCCGCTGATGATGAGCATCCTGGCGCTGCTGATGGTGACGTTTGGCCATCTGAGCGTGCTCGACGGGCTGCTGGTCGCCCTCTGGGGGTTTGCCTTCGGTCTGGTGCCGGTGGCCTGGTCCACCTGGCTGGCCACCACCGTGCCGGATGAGGCGGAAAGCGCGGGCGGTCTGCTGGTGGCCTCTATTCAGCTGGCCATCAGCGCCGGCGCCGCCGGCGGTGGGGCGGTGTTCGATCTGCACGGCGCCAGCGGCGTCTTCACCGGCAGCGGTGTGCTGCTGTTGACCGCGATGGTCGTGGTCTTCACCGCCGTGCGGGTGAAACCGGTCGCCCGCGCCGAACAGCCGGAGACCGGTCGCTTATCCCGCGAGATCGATAACTAA	MTSCIAADASLTPVRPAWRAVYALALGVFGLIVAEFLPASLLTPMASSLGVSEGMAGQAVTATALVALVTGLLIATATRNIDRRWVLMFFSVLQIVSSLMVAFAGSLAFLLLGRLLLGIAIGGFWAMSTATAMRLVPAAHVPKALAIIFSAVSVATVVAAPLGSYLGELIGWRNVFILCAIPSLLALLWQLWVLPSMRPESVGTFSTLFRVLRRPGMLGGMLASILIFSGHFAFFTYLRPFLETVAQASVEGVSLILLGFGIANFIGTSVASYLLSRSLRLTLALVPLMMSILALLMVTFGHLSVLDGLLVALWGFAFGLVPVAWSTWLATTVPDEAESAGGLLVASIQLAISAGAAGGGAVFDLHGASGVFTGSGVLLLTAMVVVFTAVRVKPVARAEQPETGRLSREIDN	PGPT0021090_142	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021090-nepI-K03445	NA	NA
BMS020_00277	975	ndmD		Oxidoreductase NdmD	ATGCGCGACATACTCCCGGTGGTGGTCGATGGCCTGTGGCGCCAGGGCGCGAAAAATCTGGCCGTTCGTCTGGTGAGCGCCGATGGGCAACCGCTGCCGGCGTGGACGCCCGGCGCCCATATCGACCTCCATCTCCCCTGCGGGCTGATCCGTCAGTATTCGCTGACCGGCAGCCCGGCCGGGCGGGATCACTATCTGCTCTGCGTCGCCCGCGAGGCGCAGTCGCGAGGCGGCTCCCGTTATATTCATGACACCCTGCGTCCGGGGCAGCCCTTGCTGATCTCTGCCCCGCGCAACCACTTTCCCCTGCGCGGGGGCGGCCACGTGGTGCTCCTCGCCGCCGGGATCGGCATTACGCCGCTGCTGGCGATGGCCCACGCCCGGGCGGCGTCCGGCGCCAGCTTTACGCTGCACTACTACGTCAGCCGCGCGCAGGAGGCCGCCTTCGCCACCGAGATCGCCAGCCAGCTCACCGGCGGAACCTGCCTGATCCACTGCTCTGCCGACGGACAGAGTCCGCGCCTGCGGCTGGCGCAGGATCTGGGCGCGCCGGACGCCGACACCCGGGTCTATTTCTGCGGACCGGCAGGGTTTATGAGCCAGGTGCGCGACACCGCGCTGGCTGCCGGCTGGGCGGAGGCGCAACTGCACAGCGAAGCGTTCCAGCCGCCCGCCCCGACGGCGGCCTCGGCGGCGGACGGAACCTTCACCATCACCCTCGCCTCCACCGGGGAGCGCTGGCCGGTACCGGGGGACAAAACCATCGCCCGGGTGCTGCAGGAGCATGGCGTCGACGTGCCGCTCTCCTGCGAGATGGGGATCTGCGGCGCCTGCCTGACGCCGGTGCGGGAGGGAACGGTCGACCACCGGGATACCGTGCAGTCGGAGGCGGAAAAACAGGCAGCGGAGCAGCATATTGCGCTGTGCTGCTCCCGCAGCCTGTCGGCCAATTTAGTTATCGATCTCGCGGGATAA	MRDILPVVVDGLWRQGAKNLAVRLVSADGQPLPAWTPGAHIDLHLPCGLIRQYSLTGSPAGRDHYLLCVAREAQSRGGSRYIHDTLRPGQPLLISAPRNHFPLRGGGHVVLLAAGIGITPLLAMAHARAASGASFTLHYYVSRAQEAAFATEIASQLTGGTCLIHCSADGQSPRLRLAQDLGAPDADTRVYFCGPAGFMSQVRDTALAAGWAEAQLHSEAFQPPAPTAASAADGTFTITLASTGERWPVPGDKTIARVLQEHGVDVPLSCEMGICGACLTPVREGTVDHRDTVQSEAEKQAAEQHIALCCSRSLSANLVIDLAG	PGPT0005495_93	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005495-vanB-K03863	NA	NA
BMS020_00278	1038	ndmA_1		Methylxanthine N1-demethylase NdmA	ATGAAGAGAACCGTCCCGACGCCCCCCGCCCATTGCACCTTTGATCCAGAGGACTGGCTGCGGCTGGCCCGCTGCTGGCACCCGGTGGCCCGCGCCTGCGATATTGGCGGCGCCCCGGTGAAAGCCACCCTGCTGGACGAACAGCTGGTTATCTATCGCATTAAAGGTCAGGTGGTGGTCGCCCGCGACGTCTGCCCGCACCGCGGCGTCCCGCTGACCCTGGGGTTTCATGAAGAAGAAGGCATCGTCTGCCCCTATCATGGCCTGCGCTTTGGCGAGGATGGCCGCTGCAACCGCATCCCCTCCAGTCCGGGGCAACCCATTCCAGCCAAACTGCATCTCACCAGCTTCGCCGTGGAGGAGCGCTACGGGCTGATCTGGACCTGTCTGGCCTGCGATCCGGACAATCCGCCGCCGTTACCGACCATGCCGCACTGGGACGACGCCGGCTTTCAGCAAATCAACTGCCCGGCCTTCGAGGTGAAGGGCTTTGCCGGCCGCCAGGTCGAAGGCTTTCTCGATGTCGCCCACTTTGCGTGGATCCACACTGATACCTTTGCCGACCCGGACAATCAGCAGGTGCCGGACTACACCCCGCAGGAGACACCGTTCGGTTTTGTTGCCGACTACTGGAGCTCGGTGGGCAATTACCCGGCCAGCTCCGATTTCCGCGCGCCGGAAGGGTTCCAGTGGCTGCGTCACTTTGAAATGCATCTGCCCTTCACCGCCACGCTGACCATCCATTTCCCTGCCGATGCGAAGCTGGTGATCATGAACGCCGCCTCGCCGGTGTCGTCGCGCGTGACGCGGATGTTCGCCCCTATCGCCCGCAATTTTGACCTGCATGTGCCGGTAGAAGAGGTTCATGCGTTCAACCTGCGGGTGTTTGAGGAGGATCGCCTGATGGTTGAGACCCAGCGCCCGGAGCGGCTGCCGCTGGATCTGACCCTGGAGGCGCATATTCCGGCAGACCGCAGCTCTATCGCCTACCGGCGCGGGCTGAAGAAGATGGGCTTTGGCGATTTCTTTCTGGTATGA	MKRTVPTPPAHCTFDPEDWLRLARCWHPVARACDIGGAPVKATLLDEQLVIYRIKGQVVVARDVCPHRGVPLTLGFHEEEGIVCPYHGLRFGEDGRCNRIPSSPGQPIPAKLHLTSFAVEERYGLIWTCLACDPDNPPPLPTMPHWDDAGFQQINCPAFEVKGFAGRQVEGFLDVAHFAWIHTDTFADPDNQQVPDYTPQETPFGFVADYWSSVGNYPASSDFRAPEGFQWLRHFEMHLPFTATLTIHFPADAKLVIMNAASPVSSRVTRMFAPIARNFDLHVPVEEVHAFNLRVFEEDRLMVETQRPERLPLDLTLEAHIPADRSSIAYRRGLKKMGFGDFFLV				NA	NA	NA	NA	NA
BMS020_00279	924	argP_1		HTH-type transcriptional regulator ArgP	ATGAGTCCATTTTCCCGTTTCGCCCACTATTTCATCGCCGTGGCCCGCTGCGGCAGCCTGCGCCGGGCCGCCGAGCAGCTGCATATCTCCGCCTCGGCGATTAACCGCCAGATCCTGCAGGCCGAGGAGGCTTTCGGCACACCGCTGTTCGAGCGGCTGCCGGAGGGGTTGCGGATGACCACCGCGGGCGAACTGCTGTATGACAATCTGCTGCGCTGGCAGAAGGAGTTTCGCCAGACCCGGCAGAAATTTGATGAGCTGCAGGGGATGAAGCGCGGGAGCGTCAGCGTCGGTATGGTGCAGGCGCTGGCGGAAGGTGGCTTCGCCGCCGCGCTGGCGGAGATTATCGCCAACTGGCCGTGGCTGGAGCTGGATCTGCAGGTGGCCGACAGCCACACCGTCAGCCAGAAAGTGCGTCAGGCGGATCTGGACGTCGGTCTGATCCTCGATCCGCAGGGGCAGGCCGGACTCAGCGTGCTGGCCTTTGCCGAACTGGAGGTGGGGATTGTGATGCGCCCGGACCACCCCCTGGCGGGGGCGAGGGCCCTGTCTTTGGGTGAGCTCAGCCTCGAGCGGCACATTGTGCCCGGCGCGCCGCTGATCGTTCATGAGCGGGTGGCGCTTCTCTATCGCCACCATGACTTTGCGCCGGAGAATACCATCAGCTGCAATGATATCCGGCTCATTAAGTCGCTGGTGCTGCGCGGCAGCGGCGTGACGCTCCTCAGCCTGCTCGACGTGCTGGACGAGGTTCAGCGCGGACAGCTGGCCTTTGTCCCGCTGCGCAGTACGCTGCTGCGGCCGCTGACCCTGGCGCTGTGCACTGCGCCTTCTCGTCAGCTATCGCGTCCTGCGCAGATGGCCATTCAGACGCTGAGCGCGGTGATTGAATCCATGGCGACCGTCAGCCCAGCGGCCCGCTGA	MSPFSRFAHYFIAVARCGSLRRAAEQLHISASAINRQILQAEEAFGTPLFERLPEGLRMTTAGELLYDNLLRWQKEFRQTRQKFDELQGMKRGSVSVGMVQALAEGGFAAALAEIIANWPWLELDLQVADSHTVSQKVRQADLDVGLILDPQGQAGLSVLAFAELEVGIVMRPDHPLAGARALSLGELSLERHIVPGAPLIVHERVALLYRHHDFAPENTISCNDIRLIKSLVLRGSGVTLLSLLDVLDEVQRGQLAFVPLRSTLLRPLTLALCTAPSRQLSRPAQMAIQTLSAVIESMATVSPAAR				NA	NA	NA	NA	NA
BMS020_00280	1155	hpxO_1	COG0654	FAD-dependent urate hydroxylase	ATGAAAGCAATCGTGATTGGCGCCGGCATCGGCGGCTTAAGTGCGGCAGTGGCGCTCAAACAGTCGGGGATTGACTGCGAAGTCTATGAAGCGGTGAAAGAGATCAAACCGGTCGGCGCGGCGATTTCCGTGTGGCCCAACGGCGTGAAGTGCATGGCCCACCTCGGCATGGGCGATATCATGGAAACCTTCGGCGGACCGCTGCGCCGCATGGCGTATCGCGATTTCCGCAGCGGCGAGAACATGACCCAGTTCAGCCTCGCGCCGCTGATCGAACGTACCGGCAGCCGCCCCTGCCCGGTCTCCCGCGCAGAGCTGCAGCGGGAAATGCTGGATTACTGGGGACGGGAAAGCGTGCAGTTCGGCAAACGCGTCACCCGCTGTGAAGAAAACGTCGACGGCGTGACGGTGTGGTTTACCGACGGCAGCAGCGCCAGCGGCGATCTGCTGATTGCCGCCGACGGCAGCCATTCCGCGCTGCGTCCGTGGGTGCTCGGCTTTACCCCGCAGCGCCGCTACGCCGGCTACGTCAACTGGAACGGTCTGGTGGAAATAGATGAAGCGCTGGCGCCCGGCGATCAGTGGACCACCTTTGTCGGCGAAGGCAAGCGCGTCTCGCTGATGCCGGTCTCCGCCGGCCGGTTCTACTTTTTCTTTGATGTGCCGCTGCCGGCGGGTCTGGCGGAGGATCGTGACACCCTGCGCGCTGACCTCAGCCGCTACTTTGCCGGCTGGGCGCCGCCGGTGCAGAAGCTGATCGCCGCCCTCGACCCGCAGACCACCAACCGTATTGAAATCCACGATATCGAACCGTTCAGCCGCCTGGTGCGCGGTCGCGTCGCGCTGCTGGGCGACGCCGGACACAGCACCACCCCGGATATTGGCCAGGGGGGATGCGCGGCGATGGAAGATGCGGTGGTGCTGGGCGCCGTTTTCCGCCAGACCCGCGATATTGCGACCGCCCTGCGCGAGTATGAAGCCCAGCGCTGCGACCGGGTCCGCGATCTGGTACTGAAGGCGCGCAAGCGCTGCGATATCACCCACGGAAAGGATATGCAGCTCACTGAAGCCTGGTACCAGGAGCTGCGGGAGGAGACCGGCGAGCGGATTATCAACGGCATGTGCGATACCATCCTCAGCGGGCCGCTGGGCTGA	MKAIVIGAGIGGLSAAVALKQSGIDCEVYEAVKEIKPVGAAISVWPNGVKCMAHLGMGDIMETFGGPLRRMAYRDFRSGENMTQFSLAPLIERTGSRPCPVSRAELQREMLDYWGRESVQFGKRVTRCEENVDGVTVWFTDGSSASGDLLIAADGSHSALRPWVLGFTPQRRYAGYVNWNGLVEIDEALAPGDQWTTFVGEGKRVSLMPVSAGRFYFFFDVPLPAGLAEDRDTLRADLSRYFAGWAPPVQKLIAALDPQTTNRIEIHDIEPFSRLVRGRVALLGDAGHSTTPDIGQGGCAAMEDAVVLGAVFRQTRDIATALREYEAQRCDRVRDLVLKARKRCDITHGKDMQLTEAWYQELREETGERIINGMCDTILSGPLG	PGPT0021115_315	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021115-hpxO-K16839	NA	NA
BMS020_00281	1380	xanP_1	COG2233	Xanthine permease XanP	ATGTCTGACGAACATCACAGCGGCCTGCTTTACGGCCTTGAACAGCGGATCCCACCGCTTGCGGCCTTTTTTAGCGCCCTCCAGCATGTGCTGGCGGGTCTGGTGGGGATCATCACGCCGCCGCTGATTATCGGCGCCACCCTCGGACTTGGCGACTGGCTGCCGTATCTCATCAGTATGTCGCTGCTGGCCTCGGGTATCGGTACCTTTTTGCAGTCCAACCGGGTCTGGGGCATTGGCGCCGGGATGATCTGCATGCAGGGCACCAGCTTCGCCTTTCTTGGCGTGGCGGTAGCCGGAGGGATGTGGGTGAAAGCGCAGGGCGGCGGGCCGCAGGATATTATGGCGATGCTGTTTGGCGTTAACTTTGTCGCCGCCCTGGTGCCGGTGATTGTCAGCCGCTTTATTGAACCGCTGAAGAAAATCTTTACCCCCATCATTACCGGCAGCGTGATTGCGCTGATCGGCATCAGCCTGATCAAGGTCAGCGTCATTAACTGGTGCGGTGGCGAAAAGGCGCAGGATTTCGCCAGCATGAGCAATATCGCGCTCGGGGCGGGTACCCTTGGCGTTATCGTTCTGCTGAGCTGCGCCAAAAACCGCTGGCTGCGGCTCTCCTCGGTGGTGGTGGGCATTGCCGTGGGCTGTGTGGCGGCAGGGCTGAGCGGTCAGTTCCACCTTCACAGCCTGGGCGACACCCTGTTTCGCCTGCCGACGCTGTTTCCGTTCGGTTTTCAGTTTAACAGCGCGATTTTTCTGCCGGTGGCGCTGGTGTCGCTGGTCTGTATTCTGGAGGCGGTGGGCGATCTGACAGCCAACTCGCTGATTTCGCAACAGTCTGTTGACGATCGCGCTTTCCGCAACCGGTTGAAGGGCGGTATCCTGGCGGACGGCGTCAGCTGCATGGTGGCCGCGATGCTCAGCGCCTTTCCGAACACGACTTTCGCGCAGAACAACGGCGTGATCCAGATGACCGGGGTGGCCAGCCGCTATGTCGGGCGCTACATTGGCGTGATTCTGATCCTGCTTGGGCTGTTCCCGCCGGTGGGCGAACTGCTGCGGCAGATCCCGGCGCCGGTGCTGGGGGGCGCCACGATGGTGATGTTTGGCTGTGTGGTAGCGGCCGGGATCCGGATCATTACCCAGAACCCGCTCACCCGACGCGATGTGCTGATCGTTGGTCTGGCGTTTGGCGCGGGCCTTGGCGTGGAGTCGGTGCCGGCGTTTCTCAGCCATTTTCCGCCGATGGTCGGCGATCTGTTCGGTTCGGCGGCCACCAGCGGTGGGCTGGTGGCGATAGCGCTGAACCTTGTTCTGCCGCAGGAGCAGGCGGCGACGAAAACGATAAGGAGTCAGGATGATCGCGCTGAGACAGTTTAA	MSDEHHSGLLYGLEQRIPPLAAFFSALQHVLAGLVGIITPPLIIGATLGLGDWLPYLISMSLLASGIGTFLQSNRVWGIGAGMICMQGTSFAFLGVAVAGGMWVKAQGGGPQDIMAMLFGVNFVAALVPVIVSRFIEPLKKIFTPIITGSVIALIGISLIKVSVINWCGGEKAQDFASMSNIALGAGTLGVIVLLSCAKNRWLRLSSVVVGIAVGCVAAGLSGQFHLHSLGDTLFRLPTLFPFGFQFNSAIFLPVALVSLVCILEAVGDLTANSLISQQSVDDRAFRNRLKGGILADGVSCMVAAMLSAFPNTTFAQNNGVIQMTGVASRYVGRYIGVILILLGLFPPVGELLRQIPAPVLGGATMVMFGCVVAAGIRIITQNPLTRRDVLIVGLAFGAGLGVESVPAFLSHFPPMVGDLFGSAATSGGLVAIALNLVLPQEQAATKTIRSQDDRAETV	PGPT0007335_565	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_TRANSPORT,PGPT0007335-xanP-K16345	NA	NA
BMS020_00282	501	uao		Uric acid degradation bifunctional protein	ATGATCGCGCTGAGACAGTTTAACCGTCTGAGTCATGATGAGGCAGTGGCGCTGCTGGCCCCCTGCGTGGCGATCCCGGCCTGGAGCGATACGCTGGTGAGCTTGCGACCCTTCGCCTGCCGTGAAGCGCTGCTGCAGGTCGCCCGGGAAGCGATGGCCGACTGGGGGGAGAACGATCTGAACGCGGCGCTCAGCGCCCATCCGCGGATCGGCGAAAAACCGACCGGCAGCCAGGCGCATGCGACGATGTCGCGCCAGGAGCAGTCGGCGGTGGACAGCGATAATGAAAAGCTGGCGCAGGCCCTGCGGGAGGGGAATGCCCGCTACGAGGCTCGTTTTGGCCGGGTGTTTTTAATCCGCGCCAAAGGGCGCAGCGGCGAAGAGATGCTGCAGGCGCTGACGCGCCGGCTGCAGCATACCGCCGACGAAGAAGTGGCTGAGGCGCTTGCCCAGCTGCGGGAAATTACGATGTTAAGACTGGAAGGAGCGATTGGCGAATGA	MIALRQFNRLSHDEAVALLAPCVAIPAWSDTLVSLRPFACREALLQVAREAMADWGENDLNAALSAHPRIGEKPTGSQAHATMSRQEQSAVDSDNEKLAQALREGNARYEARFGRVFLIRAKGRSGEEMLQALTRRLQHTADEEVAEALAQLREITMLRLEGAIGE	PGPT0021135_523	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021135-hpxQ-K16840	NA	NA
BMS020_00283	327	pucM	COG2351	5-hydroxyisourate hydrolase	ATGAGTACCCTGAGCACCCATATTCTGGATATTTCCACCGGCACGCCGGCGGAAGGCGTGGCGGTCAGCCTGCGCCGGGAGGGCGAGACGCTGGCGAACCTGGTGACTAACGCCCAGGGGCGTATCGCCACCTTCAGCGCCGCGCCGCTGCCGGCGGGGCGCTACTGCTTAACCGCGGAAACGGGGGCGTGGTTTGCCCGCGTCGGGCGCGAGAGCGTTTTTACCCGGGCGCAGATTGATTTTGTCATTGGCGAGGCGACAGATGACCATTTCCATCTGCCGTTTCTGATAGCCCCGGGCGGGTGGTCGACCTACCGCGGCAGCTAA	MSTLSTHILDISTGTPAEGVAVSLRREGETLANLVTNAQGRIATFSAAPLPAGRYCLTAETGAWFARVGRESVFTRAQIDFVIGEATDDHFHLPFLIAPGGWSTYRGS	PGPT0021125_1932	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021125-uraH|pucM|hiuH-K07127	NA	NA
BMS020_00284	267	hipB	COG1396	Antitoxin HipB	ATGAATTCCCCGCAGATATACAGTCCCGTTCAGCTGGCCAATTACCTGAAACTGCTGCGCCAGCAAAATCACTGGACTCAGGAGGCGCTGGCCAGCCGGATCGGCATTAAACAGGCGACGCTGTCCAATTTTGAAAATCACCCGGACAAAACCACCTTGACCACCCTGTTCAAGATCCTCCAGTCGCTGGGGGTGGTGATGACCCTGAACGCCAAACCGGCCGAAACGGCGACGGCTCCCGATAACACCACGGATCTGGACTGGTAA	MNSPQIYSPVQLANYLKLLRQQNHWTQEALASRIGIKQATLSNFENHPDKTTLTTLFKILQSLGVVMTLNAKPAETATAPDNTTDLDW	PGPT0027485_405	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HipA-HipB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027485-REGULATION_hipB-K15773	NA	NA
BMS020_00285	1323	hipA	COG3550	Serine/threonine-protein kinase toxin HipA	ATGGCGACGCTCACCACCTGGATGAACAATGTGCGCGTGGGAACCTTAACCCGCCAGGCCAACGGGGCGCACAGTTTCCGCTATGATGACGAGTGGCTGCGCAGCCCGCGCGCCAGGCCGCTCTCCCTCTCGCTGCCGCTGCAGTATGGCAATATCACCGCCGACGCGGTGTATCACTATTTTGATAACCTGTTGCCCGACAGCCCCCAGGTCCGCGACCGGATCGTCAGGCGCTATCAGGCGCGCTCGAAACAGCCGTTCGATCTGCTGGCCGAGGTCGGCCGGGATAGCGTAGGGGCGGTGACTCTGCTGCCGCCGGGGGAAGAGGCGCATCTTGCAGCGTTGCGCTGGCAGACGCTGGATGAGGCGCAACTGACCGCGTTGCTGACCGCCTACCAGTCGGATATTCCGCTCGGGATGGTGACCGGCCAGGACGATTTTCGTATCTCGGTGGCCGGCGCTCAGGAGAAAACCGCGCTGCTGCGAATGGGCGAGCACTGGTGTATTCCGCAGGGCACCACCCCGACCACCCATATCATTAAACTGCCCATTGGCGAGATAAAGCAGCCCAATGCGACGCTGGATCTGCGCGAAAGCGTGGATAACGAATATCTGTGCCTGGCGCTGGCCAGGGCGTTGGGCCTGGCGGTGCCGGAGGCGGAGATTATCACCACCCCGCAGATCCGTGCGCTGGCGGTGACTCGCTTCGATCGGCGCTGGGCTCAGGAGGGGCGCGTGCTGTTGCGGCTGCCGCAGGAGGATCTGTGTCAGGCATTCGGCATACCGTCGTCGATGAAATACGAGTCTGACGGCGGGCCGGGTATCGCCGCGATCATGACCTTTCTGCTGGGCTCCAGTGAAGCCCTGAAAGATCGCTATGACTTTATGAAGTTCATGGTGTTCCAGTGGCTGACCGGGGCAACGGACGGGCATGCGAAGAATTTCTCGCTCTTTTTGCTGCCCGGCGGCAGCTACCGGCTCACGCCGTTCTACGACATTATTTCGGCATTTCCGGTGCTGGGAGGGACGGGACTGCATCTGCGCGATCTGAAGCTGTCGATGGGGCTCAACGCCACCCGGGGGCGGAAAACGGAGATTAACGCCATCTATCCGCGTCATTTTCTGGCGACCGCCAAAGCGGTTAACTTTCCCCGGGACCAGATGCTGGCGATCCTTGACGAGTTTGCCGACCGCGTGCCGCAGGCCATCGAAAGCGCCCGCCGAACGCTGCCGGCGGACTTTTCCGCCCACGTCTGGCGGGCGATCACGGAGAACATGCTGAAACTGCACGCCCGCCTGCAGCAAGGGCTGCAGGCGCGATAG	MATLTTWMNNVRVGTLTRQANGAHSFRYDDEWLRSPRARPLSLSLPLQYGNITADAVYHYFDNLLPDSPQVRDRIVRRYQARSKQPFDLLAEVGRDSVGAVTLLPPGEEAHLAALRWQTLDEAQLTALLTAYQSDIPLGMVTGQDDFRISVAGAQEKTALLRMGEHWCIPQGTTPTTHIIKLPIGEIKQPNATLDLRESVDNEYLCLALARALGLAVPEAEIITTPQIRALAVTRFDRRWAQEGRVLLRLPQEDLCQAFGIPSSMKYESDGGPGIAAIMTFLLGSSEALKDRYDFMKFMVFQWLTGATDGHAKNFSLFLLPGGSYRLTPFYDIISAFPVLGGTGLHLRDLKLSMGLNATRGRKTEINAIYPRHFLATAKAVNFPRDQMLAILDEFADRVPQAIESARRTLPADFSAHVWRAITENMLKLHARLQQGLQAR	PGPT0027480_615	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HipA-HipB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027480-toxin_hipA-K07154	NA	NA
BMS020_00286	1293			hypothetical protein	GTGGCGCTGGCAGGCGCGGCGCTCATCGCCGCCGGCATGCTGTTCAGCTGCACCAGTAAGGCCCCGAAATCCCTCGTCACGCCGCCGAAGAGCGCGGCCGTTAAAGCCGGTCAGACGCACCGGGAGCCGGTACGCGGCGTCTGGCTGACCACCGTCTCGCGCCTTGACTGGCCGCCGGTCGGGTCGATTATCGCCAGTACACCGGAAAGCCGCATCACGCAGCAGAAGCTGGCGCTGATCGCCAAACTCGATAATCTGCAGCGCCTGGGGATCAACACCGTCTTTTTCCAGGTGAAACCGGACGGTACGGCGCTCTGGCGGTCGGATATTCTACCGTGGTCCGATATGCTGACCGGCAAAATCGGCGAATATCCCGGCTACGATCCGCTGCAGTTTATGCTGGATGAAGCGCACAAGCGCGGCATGAAGGTTCACGCGTGGTTTAACCCTTACCGCGTCTCGGTCAACACCAAACCGTCGACCATTGCCGAGCTGAATAACACCCTCACTCAGGTACCGGCCAGCGTGTTTGTCCTGCACCGTAACTGGATCCGCACCGCCAGCGACCGCTTTGTTCTCGACCCGGGTATTCCCGAAGCGCGTGACTGGATCACCAGCATCGTCGCTGAAGTGGTGCAGAACTACCCGATTGACGGCGTGCAGTTCGATGACTATTTCTACACCGAAACTGCCGCTTCCCCGCTTAACGACAACGAGACCTTCCGCCGTTACGGGCAGGGTTATGCCTCGAAGGGCGACTGGCGGCGGCATAACACTCAACAGCTTATTGCCCAGGTCTCCGCGACCATTAAAAAACTCAATCCGAACGTCGAGTTTGGCGTAAGTCCGGCCGGGGTGTGGCGCAACCGCTCCCACGATCCAGCGGGGTCTGATACCCGTGGCGCGGCCGCCTATGATGAATCCTATGCCGATACCCGCAGCTGGGTGCAGCAGGGACTACTCGACTACATCGCCCCGCAGATCTACTGGCCATTTGCCCGCGATGCGGCGCGCTATGATGTGCTGGCCAACTGGTGGGCCGAGGTGGTTAAGCCCACCCATACCCGGCTGTATATTGGCGTGGCGCTGTACAAGGTGGGTGAACCGTCTAAAAATGAGCCTGACTGGACGGTGGATGGCGGCGTGCCGGAGCTGAAAAAGCAGCTCGATCTCAATGAGTCCCTGCCGCAGATCCAGGGCACCATCCTGTTCCGCGAAAACAACCTCAATCAGCCGCAGACCCGCCAGGCGGTTAACTACCTGCGCAGCCGCTGGGGGCAGCCGCAGAGCTAA	MALAGAALIAAGMLFSCTSKAPKSLVTPPKSAAVKAGQTHREPVRGVWLTTVSRLDWPPVGSIIASTPESRITQQKLALIAKLDNLQRLGINTVFFQVKPDGTALWRSDILPWSDMLTGKIGEYPGYDPLQFMLDEAHKRGMKVHAWFNPYRVSVNTKPSTIAELNNTLTQVPASVFVLHRNWIRTASDRFVLDPGIPEARDWITSIVAEVVQNYPIDGVQFDDYFYTETAASPLNDNETFRRYGQGYASKGDWRRHNTQQLIAQVSATIKKLNPNVEFGVSPAGVWRNRSHDPAGSDTRGAAAYDESYADTRSWVQQGLLDYIAPQIYWPFARDAARYDVLANWWAEVVKPTHTRLYIGVALYKVGEPSKNEPDWTVDGGVPELKKQLDLNESLPQIQGTILFRENNLNQPQTRQAVNYLRSRWGQPQS				NA	NA	NA	NA	NA
BMS020_00287	783	map_1	COG0024	Methionine aminopeptidase	ATGCCATCAATAATCATTAAAACCGCCGATGAGCTCGCGCGCCAGCGTCATGCCGGCCAGCTGCTGGCATCGGTGTTTGCCATGCTGGATACCTTTATCGTTCCCGGCGTGACGACGATGGAAATCAACGATCGAGTGGAAGATTTTATCGTCAACCAGTTGCACGCCCGCCCGGCCAGCAAGGGGCAATACGACTTTCCCTATGTGTTGAACACCTCGATTAACGACGTGGTCTGCCATGGGATCCCCAAGGCGACCGAGCATCTGCGCTCCGGGATGATCGTTAACGTCGATATTACCCTCGAGAAAGCGGGCATGATCGCTGACTCCAGTAAGATGTACCTGATAGGCGACGTTTCCCCGCTGGCCCGCCGGCTGGTAAAGACCACCTATGAAGCGATGTGGAAAGGCATTGAGGTGGTGAAACCTGGCGCGACGCTGGGCGACATCGGCCATGCCATTCAGCGCTGGGTCGAGGACCATGGCTACAGCGTGGTCAGAGAATACTGCGGTCACGGCGTCGGTCAGGAAATGCATGAAGAGCCGCAGGTGCTGCACTACGGCAGGCCCGGTGAAGGCGCCGTGCTGCGGGAAGGCATGGTATTCACTATTGAACCGATGGTGAACCAGGGCGACAGTCGTATCAAGACCAAAAAGGATGGCTGGACGGTGGTCACCCGCGATAAAAAACTCTCCGCGCAGTGGGAGCACACCGTGGCGGTGACCGCCAACGGTTTTGAGATACTGACGCTGCGCGACGACGAGCAGTCGCGGATCCGCTGA	MPSIIIKTADELARQRHAGQLLASVFAMLDTFIVPGVTTMEINDRVEDFIVNQLHARPASKGQYDFPYVLNTSINDVVCHGIPKATEHLRSGMIVNVDITLEKAGMIADSSKMYLIGDVSPLARRLVKTTYEAMWKGIEVVKPGATLGDIGHAIQRWVEDHGYSVVREYCGHGVGQEMHEEPQVLHYGRPGEGAVLREGMVFTIEPMVNQGDSRIKTKKDGWTVVTRDKKLSAQWEHTVAVTANGFEILTLRDDEQSRIR	PGPT0020010_6368	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
BMS020_00288	219			hypothetical protein	ATGGGAATCGTCAAAATCTCCGATCTGCTGCACGATGACATTCGTGATGCCAGCAAAGCCATGTCCCGCTCCGTCAATGCGCAGGCGGAATACTGGATCCGTCTGGGCATGATGAGCGAACTCTACCCCGAGCTTAACCACCAGCAGATCAAACTGCTGATGCTGAAATCCGGCTCTGACCGTCTGCTGGAGGTGATCAATGCCATCAATAATCATTAA	MGIVKISDLLHDDIRDASKAMSRSVNAQAEYWIRLGMMSELYPELNHQQIKLLMLKSGSDRLLEVINAINNH				NA	NA	NA	NA	NA
BMS020_00289	249			hypothetical protein	ATGTTGCGTGATTATTTAAAAGTGGAAAAAGAAGATCGCCTGGTTGAACAACAGAGTCGTCATGACAATAGTCAGCATTATTCTTCGGTGACCGAATGGGTTATTTTAAGCAAAGATGGCCAGCGTAAAGGTCGGGTATCCCTGTTTGACCGCTTCACCACCCGCCGCTCCTGGAGCGACAGCTTCCGCATTACGCAGTTTGATAATGCGGGTAAAGTGGTGGTGGATAAACTCACTGACGCGCTGTAA	MLRDYLKVEKEDRLVEQQSRHDNSQHYSSVTEWVILSKDGQRKGRVSLFDRFTTRRSWSDSFRITQFDNAGKVVVDKLTDAL				NA	NA	NA	NA	NA
BMS020_00290	1656		COG2199	putative signaling protein	ATGAGTAACGATCACCTGACGGACATTGCCTATCGCCACTTTATTGAAAGTGTTAAAGATTATGCCATCTATATGTTGAGCGCCGATGGGACGGTCATCAGCTGGAACGAGGGCGCCCGCCGGGCAAAAGGGTACCTGAGCGACGAGATCGTCGGTCGCTACTTCGGCCTCTTCTATAGCGAAGCCGAACAGCTCTCCAGGGTGCCGGCAAAAAATCTGCAAATTGCCCTGCGTAGCGGCCAGTTCGAAGGCGAAGGCTGGCGGTATCGTAAAGATGGCTCCCGGTTCTGGGCGCATGTCATGATCAATGCCATCCGCGATGAACAACATAACCTGCTGGGCTTTGCCAAAATTACCCGCGACATCAGCGAACAGAAGGCGATCAATGACCGCATCGCGTGGATGGCGCGCTACGATGCGCTGACCGGTTTACCCAATCGGGTGGAGTTCTTTGAGCGGGTGGAAAAGCTGATCACCGGTAATGACGCCCGCCGCTTTGCCGTTTTCACCATCGATTTAGATAAGTTTAAAGAGATTAACGATCTGCAGGGCCATCTTATTGGCGATCAGCTGCTGCAGCGCGTGGCAGGCGCCGTGCTCAAAACGCTGCAGAAGGAGGAGATGGTCGCCCGCTTCGGCGGCGATGAGTTTGTGGCCGTCAAACCTTTTGCCGATGAAAGCGAGGTGGACGCCTTTGCCACCCGTCTCTGGCACTGCTTCAGCGGTAAGCAGACGTTTGCCGCGACGGAAGTGATCCTCTCCGCCAGCATAGGTATCTCCGTCTACCCGGAGGACGGGACGGATATTAATACGGTACTGAGCAATTCCGATCTGGCCATGTATCGGGCAAAGAGCAGTCTCGACCACAAGATTTGCTGGTACGAACGTGAGATGGACGACAAGACGCGGCAGCGGAATATGATGGCCGCCGACATCCGCCGCGGTATTCAGGCGGGGGAGTTTTCGCTTCACTATCAGGCGATCCGCAACATTAAAGATCGTCGCATCACCGGTTATGAAGCGCTGTTGCGCTGGCAGCATCCGCAGCTGGGGGCTATCCCGCCGGAGGTGTTTATTCCCATCGCCGAAGAGAGTGGCGCTATTGTGCCATTAGGCTACTGGGTACTGGAGCAGGTGTGCAGCGAATCACTGGATAATCGGCTGAATAAAAAAATCTCAGTCAATATCTCACCGGTACAGTTGCGTCACCGCAGCTTTATCGAAAAAGTCCGCGAGATCCTGATGCGAACCGCTTATCCGGTTAGCCTGCTGGAATTTGAAGTGACGGAGACGGCGTTTATCATCAATAAACAGCTGGCGTTCAGCGTGCTGCATCATCTGCAAAAGATGGGCATCAGTATTGCGCTGGATGATTTCGGCACCGGTTACTCCTCCCTGAGCATGCTGCGCGATTTTCATTTCGACGTCATCAAGCTCGACCGTAGCTTTATGCAGGATGTGGAGAGCAATCCTCAGGTTCGCTCGTTCGTGCGGGCGATTATCTCGCTGGGCAACTCAATCAATACCCCGCTTATCGCCGAAGGGGTAGAAACCGAAGGGCAACGGCAAATCCTCGAAGAAGAGGGATGCGACGAAATGCAGGGCTTTCTGTTCGGCGAGCCGGTCGATGTTAAACATCTGCTACGGCAGAATTAA	MSNDHLTDIAYRHFIESVKDYAIYMLSADGTVISWNEGARRAKGYLSDEIVGRYFGLFYSEAEQLSRVPAKNLQIALRSGQFEGEGWRYRKDGSRFWAHVMINAIRDEQHNLLGFAKITRDISEQKAINDRIAWMARYDALTGLPNRVEFFERVEKLITGNDARRFAVFTIDLDKFKEINDLQGHLIGDQLLQRVAGAVLKTLQKEEMVARFGGDEFVAVKPFADESEVDAFATRLWHCFSGKQTFAATEVILSASIGISVYPEDGTDINTVLSNSDLAMYRAKSSLDHKICWYEREMDDKTRQRNMMAADIRRGIQAGEFSLHYQAIRNIKDRRITGYEALLRWQHPQLGAIPPEVFIPIAEESGAIVPLGYWVLEQVCSESLDNRLNKKISVNISPVQLRHRSFIEKVREILMRTAYPVSLLEFEVTETAFIINKQLAFSVLHHLQKMGISIALDDFGTGYSSLSMLRDFHFDVIKLDRSFMQDVESNPQVRSFVRAIISLGNSINTPLIAEGVETEGQRQILEEEGCDEMQGFLFGEPVDVKHLLRQN	PGPT0026010_569	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
BMS020_00291	936			hypothetical protein	GTGAAGCAGGATTCAGGGATCATCACAGCGCGGCAGACGCACGGATTGCTGACGCTGGCGATAGGCGCGCTATTTTACAGCAGCGGCAGTTTCGCCCGGCCGGATCTGCAGCCGCTGGGACCGAATATTGCGGATAAAGGGTCAGCTTTCTATCATTTTACCCAGCGCCAGTACGACTCTGCCGATGGCGAACGCCATTACCGGGTGTGGACCGCGGTGCCGGATAAAGCGCCGCCGGCCGCCGGTTACCCGGTGCTGTATATGCTGGACGGCAATGCGGTGATGGATAAACTCAACGACGCGTTTCTGCAACAGCTCTCCGCCGGTTCCCCACCGGTCATCGTCGCTATTGGTTACCAGACGGCGCTGCCCTTCGATACCGCCGCCCGGGCCTGGGATTACACTCCGCCGCTGAAGACGCATGAACCTCGCGCCGGGAAAACCGCGCTGCCGCCGCGAAAAACCGGGGGTAATGATCTGTTTCGTCAGCTGCTGAGCGAAACGATGGTTCCGCAAACAGAAGCTAACCTGAAAATCGATCCTCGCCAGCGCGCTATCTGGGGCCACTCTTACGGCGGACTGTTTGTACTCGACGCGTGGCGAAACCACTCCCTTTTCAGGATCTACTATTCTGCCAGCCCGTCGCTTGGCCAGGCGCAGACGTCTCCCCTGAAGGACACCCAGACCCTTGATGCCACCGCGTTTACCGGGACGTCCCTGTATCTGCTGGAAGGCGACGGAAAAGCCGCTGGCGAGCCCTCCGGGCATGAAGCCTCCCTGGGCGTACTGCGTCAGACCCAGCAGCAGCTGGCCAGCAACGGTCTGACGGTGCAATTCTGGCGCTACCCTGGCCTGACGCACGGTCAGATGTTCGAGGTCTCCCTGCGCGCGGCACTGCTGCACCTTTCCGGGCAGCCTACGTTAGCGCATCAGTAA	MKQDSGIITARQTHGLLTLAIGALFYSSGSFARPDLQPLGPNIADKGSAFYHFTQRQYDSADGERHYRVWTAVPDKAPPAAGYPVLYMLDGNAVMDKLNDAFLQQLSAGSPPVIVAIGYQTALPFDTAARAWDYTPPLKTHEPRAGKTALPPRKTGGNDLFRQLLSETMVPQTEANLKIDPRQRAIWGHSYGGLFVLDAWRNHSLFRIYYSASPSLGQAQTSPLKDTQTLDATAFTGTSLYLLEGDGKAAGEPSGHEASLGVLRQTQQQLASNGLTVQFWRYPGLTHGQMFEVSLRAALLHLSGQPTLAHQ	PGPT0003410_19	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-SALMOCHELIN_BIOSYNTHESIS,PGPT0003410-iroE-K23721	NA	NA
BMS020_00292	141			hypothetical protein	ATGACGCTGGCGATGCTGTGGGTGCTTATCACTCACCATAAAGGGCTCGCGCTCTTGCTGGTCGTGATAATTGCACTGCTGTTTATTGCGCTTACCCCGCTGGTCAAAAAAGTGCTGAGCACCCTTCACGATCGTTCCTGA	MTLAMLWVLITHHKGLALLLVVIIALLFIALTPLVKKVLSTLHDRS				NA	NA	NA	NA	NA
BMS020_00293	252			hypothetical protein	ATGTGTAACGCGCTTAACGGTATCGCCATCGTCCTTTGCTTTCGCGGGATAAGCGTCGTGACAGGCTATCGTCAAGCGGTCTGGCAGGTCATCATCACGCTGGCTATTATTATATCGACCTGGTATAGCGCTAATTATTTCGCCGCCCTGGAAGCGCGGCGCGACAAACGACGCTTTCTGCTGCTGGCCTGGGTGGTCATGACCATTCTGTTGAATTTCATTCACCTGAGCGGTGGTGAATACGGTTATTAA	MCNALNGIAIVLCFRGISVVTGYRQAVWQVIITLAIIISTWYSANYFAALEARRDKRRFLLLAWVVMTILLNFIHLSGGEYGY				NA	NA	NA	NA	NA
BMS020_00294	444	fruB_1	COG1925	Multiphosphoryl transfer protein	ATGATCGATAACATCACGCTGGATAATCTGCACATCGGCTGCAAGGCCAGTAATAAAGCGGAAGTCATCGCCATGATTGGCGCGGAGTGTAAAGCCAAAGGCTATGTCAATCAGGAGTGCGTTCACTTTCTGCTGGAGCGTGAACATCAGGTTTCCACTTTTTTGGGCAATGGCATCACCCTGCCGCATCTGCCGAAATCAGCGACGGATATCATCCTTAAAACCGGGATTGAGATCTTTCAGTTTCCTGATGGCGTTATCTGGGATCGCGGCAACGTGATGTTTATTGCCATTGGCGTGATTGCGAAAGAGAAAGAGCATATTGACGTGCTCAAAGAAATTGCCTCGATATTCAGCGATGAGCTGATCGCGAATGCGCTGTCATTAATCTCTGACAAAAATGACTTCCTGAAGATCCTCCAGCATAACGCGCTGCCCCATTAA	MIDNITLDNLHIGCKASNKAEVIAMIGAECKAKGYVNQECVHFLLEREHQVSTFLGNGITLPHLPKSATDIILKTGIEIFQFPDGVIWDRGNVMFIAIGVIAKEKEHIDVLKEIASIFSDELIANALSLISDKNDFLKILQHNALPH	PGPT0016940_120	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNITOL_PTS_SYSTEM,PGPT0016940-cmtB-K02798	NA	NA
BMS020_00295	1446	iolT		Major myo-inositol transporter IolT	ATGTCATTTATAACAAACCTGAACCAGCAACAGAGAAAACGACTTCATCAGATCACCTTAGTGGCCACCTTCGGCGGCCTGCTTTTCGGTTATGACACTGGCGTTATCAACGGCGCCTTTTCCTCACTGAAGCAGTACATGGCGCTGACCCCGACCACCGAAGGGCTGGTGATGAGCGTCCTGCTGGTCGGCGCCGCGCTGGGCAGCGTGTTTGGCGGCAAGTTTGCCGACTACTTCGGCCGGCGCAAATACTTACTCTTCCTCTCCTTTATCTTTCTCATCGGCGCCCTGCTTTCCGCCGCGGCTCCCGATATCACCACCCTGCTGATTGCCCGCGCCCTGCTGGGGTACGCCGTCGGCGGCGCCTCGGTTACCGCTCCGACCTTTATTTCTGAAGTGGCGCCCACCGAGATGCGCGGCAAGCTGACCGGCCTGAATGAAGTCGCCATCGTTATCGGCCAGCTGGCGGCGTTTGCCATTAACGCGATCATTGGCATCATCTGGGGCCATCTGCCGGACGTCTGGCGCTATATGCTGTTAGTGCAGGCGATCCCCGCTATCTGCCTGTTTGTTGGTATGTGGCGCGCGCCGGAAAGTCCGCGCTGGCTGATCAGCAAAAACCGCCACGAAGAAGCGCTGCATATTCTCAAACAGATCCGCCCGGCGGAACGCGCACAGAAAGAGTATGACGACATCTCCACCCTGATCAAAATTGAAGCCGGCAATAAGTACAGCACTCAGAACACCTTTACCACTATCCTCAAAACGCCATGGATCCTCAAAATTTTGCTGGTGGGCATTACCTGGGCCGCACTGCAGCAAACCACCGGGGTGAACGTCATTATGTATTACGGTACGGAAATCCTGAGTGCCGCCGGCTTCTCAGAGCGTACATCGCTGATCTGTAACGTGCTGAACGGTGTCTTCTCCGTCGGCGGTATGCTGATTGGCGTGCTGTTCCTTGTCGACCGCTTCAAACGTAAGACGATCATCATCTACGGCTTCGCCATTATGGCCACGCTTCATCTGATTATCGCCGCGGTTGACTACACCCTGGTGGGCGATCTGAAAGCCACCGCTATCTGGCTTCTGGGCGCGCTGTTCGTCGGCGTGATGCAGGGCTCGATGGGCTTTATCACCTGGGTGGTATTAGCCGAGCTGTTCCCGCTGAAATTCCGCGGACTGTCGATGGGGATCTCGGTATTTTTCATGTGGATCATGAACGCGGTAGTCAGCTACCTGTTCCCGCTGCTGCAGGCGAAACTGGGCCTGGGGCCGGTCTTCTTCATCTTCGCGGCCATCAACTATTTGGCGATTCTGTTCGTGGTATTCGCCCTGCCGGAGACCTCCAATAAATCGCTGGAGCAGTTAGAAGCAGAGCTATCAGCGAATCATGAGGATAAAAAATCCACTCGTCTCACCAGGGAGGTTGGCTATGATCGATAA	MSFITNLNQQQRKRLHQITLVATFGGLLFGYDTGVINGAFSSLKQYMALTPTTEGLVMSVLLVGAALGSVFGGKFADYFGRRKYLLFLSFIFLIGALLSAAAPDITTLLIARALLGYAVGGASVTAPTFISEVAPTEMRGKLTGLNEVAIVIGQLAAFAINAIIGIIWGHLPDVWRYMLLVQAIPAICLFVGMWRAPESPRWLISKNRHEEALHILKQIRPAERAQKEYDDISTLIKIEAGNKYSTQNTFTTILKTPWILKILLVGITWAALQQTTGVNVIMYYGTEILSAAGFSERTSLICNVLNGVFSVGGMLIGVLFLVDRFKRKTIIIYGFAIMATLHLIIAAVDYTLVGDLKATAIWLLGALFVGVMQGSMGFITWVVLAELFPLKFRGLSMGISVFFMWIMNAVVSYLFPLLQAKLGLGPVFFIFAAINYLAILFVVFALPETSNKSLEQLEAELSANHEDKKSTRLTREVGYDR	PGPT0016801_233	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_lNOSITOL_TRANSPORT_2,PGPT0016801-iolT-K06609	NA	NA
BMS020_00296	1329	malH	COG1486	Maltose-6'-phosphate glucosidase	ATGAAAGATAACTTTGTGGTCACGATTGCCGGCGGCGGGAGTACCTACACGCCAGGGATTGTCATGATGCTGCTGGAAAATATGGCGCGCTTTCCCCTGCGGGAGATCCGTCTGTACGATAACCATCACGAGCGTCAGAAGACCATTGGCGACGCCTGCGCCATTCTGGTGGCTGAACGCTTCCCGCAGGTGAAGTTCAGCTATACCACCGATCCGCAGGCGGCCTTCACCGACGTTGATTTTGTGATGGCGCATATTCGCGTTGGCCTGTATGAGATGCGGGAAAAGGATGAAAAGATCCCGCTGAAATATGGCGTGCCGGGCCAGGAAACCTGTGGGCCGGGGGGGATCGCCTACGGTATGCGCTCGATTGCCGGCGTACTGGAGCTGGTCGATTATATGCAGCAGTACGCCCCGGGGGCGTGGATGCTCAACTACTCCAACCCGGCGGCCATCGTCGCGGAAGCGACCCGTCGCCTGCGTCCCGACGCGCGCATTATCAACATCTGCGATATGCCGGTGGCCATCGAGGGGCTGTTTGCCGACATCCTCGGTCTGCCGTCCCGCAAGGCACTGAACGTCCGCTACTACGGCCTGAATCATTTTGGCTGGTGGACCAGCATCACCGATAAAGCCGGTAACGATCTGATGCCGGCGCTGAAGCGTCACGTGGCGGAGCAGGGTTACAGTAGCCCAAAAGAGGATTTTCAGCATAAGGCGCCGAGCTGGATCGAGACCTTTAAAAAGGTGAAGGATGTGTTTGCCCTTGATCCCCTGACCCTGCCTAACACTTACCTGAAATACTACCTCTACCCTGACTACGAGGTGGCGCACTCTGACCCGGACTTTACGCGGGCCAACGAGGTGATGGCCGGGCGCGAAAAAGAGGTCTTCGATATGGCCCGGGAGATCACCCGTCGCGGCACCGCGGAAGGCGCGCATTTCCACGCCGGGGCCCATGCCACTTTCATCGTCGACCTCGCCTGCGCCATCGCCTTTAACACCCAGGAGCGGATGCTGTTGATCGTGGAGAACAACGGGGCAATCGCCAACTTTGACGAAACGGCGATGGTGGAAGTCCCCTGCCTGGTGGGCGTCAACGGCCCGGAACCGCTGGCGATGGGAAAAATCCCTTTGTTCCAGAAAGGGTTGATGGAGCAGCAGGTGGCGGTGGAGAAGCTGGTGGTTGACGCCTGGATCGAGGGCAGCTACCAGAAACTGTGGCAGGCCATCACCCTGTCGAAAACGGTCCCCAGCGCCGCGGTGGCGAAAGCGATCCTCGATGAGCTGATCGTCGCCAACGAAGGTTACTGGCCCGCGCTGCTCTGA	MKDNFVVTIAGGGSTYTPGIVMMLLENMARFPLREIRLYDNHHERQKTIGDACAILVAERFPQVKFSYTTDPQAAFTDVDFVMAHIRVGLYEMREKDEKIPLKYGVPGQETCGPGGIAYGMRSIAGVLELVDYMQQYAPGAWMLNYSNPAAIVAEATRRLRPDARIINICDMPVAIEGLFADILGLPSRKALNVRYYGLNHFGWWTSITDKAGNDLMPALKRHVAEQGYSSPKEDFQHKAPSWIETFKKVKDVFALDPLTLPNTYLKYYLYPDYEVAHSDPDFTRANEVMAGREKEVFDMAREITRRGTAEGAHFHAGAHATFIVDLACAIAFNTQERMLLIVENNGAIANFDETAMVEVPCLVGVNGPEPLAMGKIPLFQKGLMEQQVAVEKLVVDAWIEGSYQKLWQAITLSKTVPSAAVAKAILDELIVANEGYWPALL	PGPT0014100_266	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0014100-glvA-K01232	NA	NA
BMS020_00297	1539	malX	COG1263	PTS system maltose-specific EIICB component	ATGATTGGCGTGAAAAAGCTTCAGGACTTTTCCAAGGCGATGATCGGGCCGGTGCTGTATCTGCCGGCTATCGGCCTGTTGATCGCCCTGTTCAGCATGACCACCAACCGGCTGTGGGTGGATGAAAGCAGCGGGATCTATCTGTTAGGGAAATTCGTCTCCAGCATGCTCTGGGCGCTGATGAACAATCTCGGGTTTCTGTTCTGCCTCGGGCTGGCAAGCGGTCTGGCGAAAACCCGCAAAGCCGAAGCCGCTTTCGTGGCGGCCATGACCTGGCTGGTCTACCTGGCGGCGAATAACAGCTGGCTGATCCTGACCCATCGCCTGGCGACCGGGGCCACCAACGCGCAACTGTATGGCAGCGGACAAACCTACATCTTCGGTTTTCAGGTTATCGATATGGGCGTGTTCCTCGGTATTATCCTTGGCTGCGCTGTCGCCTTTGTTCACAATCGCGTGATCGGCATCGAATTTCGCGGCGCGCTGTCGATCTACGGCAACAGCAAGCTGGTGCTGATCGTGATGCTGCCGCTGGTGGGCCTGTTTGCTATCGCCACCGTCTATCTCTGGCCGGTGGTGGAGCTGGGCATCTCGGCGCTGACCGGCTTTATGAAATCGTTTGGCGCCATCGGGGTCTTCCTGTACGGCTTCCTCAACCGGTTCCTGATCCCCACCGGGCTGCATCATCTGATCTGGTCGCCGTTCGTCTTTACCTCTATCGGCGGTCAGCTGCTGATTGATGGCCAGACCGTCATTGGCGCCAAGCCTATTTTCCTCGCCGAAATCGCCCGTCATCCCGTTGACGCGCTCAGTGATTCCGCCCGCTTTTTAACCTATGGGATGGTGAAGATTTTTGGCACCGCCGGTATGGCGCTCGCCTTCTACCGCACGGCGAAACCGGAGAATAAACAGCGACTCAAAGTCACGCTGATCCCCTTAATTGTCACCTCAGTGCTGGTGGGGATCACCGAACCGTTTGAGTTTCTCTTTATCTTCACCGCCCCGCTGCTGTGGCTTATCTACTCCCTGCTGGACGGTTTCTTCCAGATGCTGGCCTGGCTGCTTCACGTGCGGGTCTGCGCCACCAACGGTCTTATCGATTTTGTCGTCTATAACCTGCCCGCCGGCGCCAGCGTGACGCGCTGGCCGGTATTTGTCCTGCTCGGCCTGCTGGAAACCGCCACCATGTACCTGGTCGGCACCTTCTGCATTACCCGCCTGCGAATGCTTACCCCGGGGCGCGAAGCCGCTGCCGATGCGGCGTCTTCCCCACAGACGGATCAGGCGCATGGCGATTCAGACAAAGGCGCGCTGGTGATTGCGGGGCTGGGCGGTAAAGAGAATGTTTGTACGGTGGAAAACTGTTTTACCCGTCTGCGGGTGGATGTGCGCGACCCCGCGCTCATCAAGCAGACGCTGTTGAAAGAGAGCGGCGGGAGCAGCGTGCTGATTAAAGGCAATCATGTCCAGGTGATCTATGGCCTGGGGGTTAACAAAATTCGAACGGCGGTCAACGCCAGTCTGGGTGTAACTGAATAA	MIGVKKLQDFSKAMIGPVLYLPAIGLLIALFSMTTNRLWVDESSGIYLLGKFVSSMLWALMNNLGFLFCLGLASGLAKTRKAEAAFVAAMTWLVYLAANNSWLILTHRLATGATNAQLYGSGQTYIFGFQVIDMGVFLGIILGCAVAFVHNRVIGIEFRGALSIYGNSKLVLIVMLPLVGLFAIATVYLWPVVELGISALTGFMKSFGAIGVFLYGFLNRFLIPTGLHHLIWSPFVFTSIGGQLLIDGQTVIGAKPIFLAEIARHPVDALSDSARFLTYGMVKIFGTAGMALAFYRTAKPENKQRLKVTLIPLIVTSVLVGITEPFEFLFIFTAPLLWLIYSLLDGFFQMLAWLLHVRVCATNGLIDFVVYNLPAGASVTRWPVFVLLGLLETATMYLVGTFCITRLRMLTPGREAAADAASSPQTDQAHGDSDKGALVIAGLGGKENVCTVENCFTRLRVDVRDPALIKQTLLKESGGSSVLIKGNHVQVIYGLGVNKIRTAVNASLGVTE	PGPT0016930_449	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0016930-glvC|malP|aglA-K02750	NA	NA
BMS020_00298	699	mngR_1	COG2188	Mannosyl-D-glycerate transport/metabolism system repressor MngR	GTGATTTATAAAAAGATTGCCACCGAACTGAAGGCCCGTATCAACAGCGACGACTACGCCGTCGGGGATATGCTGCCCAGCGAAAAAGCGCTGGCTGCGGAGTTGCAGGTCTCGGTGATGACGCTGCGCAAAGCGCTGGCGCTACTGGAGGAGGAAAAGCTGATCGCCCGACGGCACGGCAGCGGAACCTGCATTGTGCGTAAGAGTAACTATCATGGCGGCGAGCTGGAGGGGTTTAACTACCAGATGCAGGTGGTGGGGGTCACCAACTACCGTAATAAGGTCATTGAGTTCACGTTGCTTGACGCCCCGCCGGCCATTGCCCAGCAGTTAAAGATCCAGCCGGGAGAGAAAGTCTACTACGTCAGGCGGCTGCGCCTGATTGATGAGGTCCCGATCCTGGTGGAGAACAGCTACATTCCGTACGCCGCTTTTCCGTGGCTCAGCGTGGGTAACCTTGAGCAGTCTAAGTTCAACTATTTCAAAAAAGAGTGCCATATCACCATTATCGAGAGCCACCGCAGCTATACGCCGGTGCTGGCGACCCGCGAGCAGGCGGAGCTGCTGCAGGTGGCGCCTAACAGCCTCCTGCTACGGGTACAGTCTGTCAGCTACGCCCAGAACCGGGCGATCGTTGATTTCTCAGAGATCTACCAGAACACCAGTAAATACAATGTGAAGCACATTACCCGCCGCTAG	MIYKKIATELKARINSDDYAVGDMLPSEKALAAELQVSVMTLRKALALLEEEKLIARRHGSGTCIVRKSNYHGGELEGFNYQMQVVGVTNYRNKVIEFTLLDAPPAIAQQLKIQPGEKVYYVRRLRLIDEVPILVENSYIPYAAFPWLSVGNLEQSKFNYFKKECHITIIESHRSYTPVLATREQAELLQVAPNSLLLRVQSVSYAQNRAIVDFSEIYQNTSKYNVKHITRR				NA	NA	NA	NA	NA
BMS020_00299	753			hypothetical protein	ATGTTTGATCTTCACACTCTCTGTTTACTGCTGATCTTTATCGCCGCCGGGCTGGTCAAAGGGGTGACCGGCATGGGACTGCCCACCGTGGCGATGGGCCTGCTTGGCCTGCTGATGCCGCCACCGGCCGCGGCGGCCCTGCTGGTGCTCCCCTCGCTGTTAACCAATCTCTGGCAACTGCTGGCAGGCCCCGCGCTGGCGCAGATTGTGCGTCGCCTCTGGTTAATGATGACCGGGATGATTATCGGCACGCTGGCGGGGTCATCACTGCTCATCCACCTGAACCCGCGGTGGTCGGCGCTGGCGCTGGGCGTCGTGCTGATAGCTTATGCCGGATACGCGCTCCGTGGTCCGGCGGTGCAGGTTTCCGCCCGCGTGGAAAAGCGCCTGTCGCCGCTGATGGGCGGACTGACCGGACTGATCACCGGGGCGACCGGGGTATTCGTTATTCCGGCGGTGCCCTGGCTGCAGGCGCTGGGCTTTCGTCGCGACGAGCTGGTCCAGGCCCTGGGACTGTCGTTCACCCTCTCCACTCTGGCGATGGCGGCCGGCCTCTCCCTGCACGCTGGCTGGCGCGCAGAGTCGCTGCTGCTGTCGGCGCTGGCGCTGTTGCCCGCGCTGCTCGGCATGTGGCTGGGACAGCGGATCCGCTCGCGTCTCAGCCCGCAGCGCTTTCGTCAGGGCTTTCTGTTGTTCCTGCTGGCGCTGGGGCTGGAACTTGTCCTCCGGGGCCTGCTGGGGGGATCGGCCTAG	MFDLHTLCLLLIFIAAGLVKGVTGMGLPTVAMGLLGLLMPPPAAAALLVLPSLLTNLWQLLAGPALAQIVRRLWLMMTGMIIGTLAGSSLLIHLNPRWSALALGVVLIAYAGYALRGPAVQVSARVEKRLSPLMGGLTGLITGATGVFVIPAVPWLQALGFRRDELVQALGLSFTLSTLAMAAGLSLHAGWRAESLLLSALALLPALLGMWLGQRIRSRLSPQRFRQGFLLFLLALGLELVLRGLLGGSA				NA	NA	NA	NA	NA
BMS020_00300	885	cynR_1		HTH-type transcriptional regulator CynR	ATGCGACTGGATCTCGCCGATCTGCGACTGTTTATCGCCATCGTGGATAGCGGCAGCATTACCGGCGGGGCGGCGGCGGCCCATCTGGCGCTGGCCTCCGCCAGCGAAAGGCTGCGCAAAATGGAGGCGGAGGTCGGTGTGCCGCTGCTGCACCGTCATGCCCGGGGGGTGACAACGACCGAGGCCGGGGAGGTGCTGGCGCGCCATGCTCGTCCGTTGTTAGAGCAGCAGCGGCGTCTGTGCCAGGCGATGCACGCCTTCGCCCGCGGTCAGCAGGGCACGCTGCGCCTGTTTGCCAATACCTCGGCGATGTCGGCTTTTCTGCCGGGCAAGCTCGCCGCGTGGATGGCCGCGCATCCCGGGATACAGATCGACACCGAAGAGCGCACCAGCGCGGATATTGTCAGCATCATTCTGGCTGGCGTGGCGCAGGCCGGGGTGGTGTCCGATGCGGTCGACCCCGGGCCGTTGCGCCTGGAGCCCGTCGCGGAGGATCCCCTGGTGCTGATCGTGCCGCCGGCCCATGCCTTGAGTGACGCCGCCGAGGTGGCTTTCGCAACGATCATCCATGAGCCGCTGGTCGCGCTCTATCAGACCAGCGCGCTGCAGCAGCATATCGAAGAGCAGGCCGCCGGAGTCGGCCAGGCGCTGAACGTCCGCATCAGGATGAGCCATTTTGAAGGGCTTTGCGAGATGGTGGCTCACGGCGCCGGCGGGGCGATCCTGCCGCGCGTTATTGCCGAACGCTACCTGCCGCGCTACCGGTTCGCCGTTATCACATTGCAGGATCGCTGGGCGCTGCGTCGGCTGTGCCTGTGCTATCAGGATGACGAACGCCTGTCGCCAGCGATGCGCCGCTTGCTGGAGTGGCTCCGCCAGCCCTGA	MRLDLADLRLFIAIVDSGSITGGAAAAHLALASASERLRKMEAEVGVPLLHRHARGVTTTEAGEVLARHARPLLEQQRRLCQAMHAFARGQQGTLRLFANTSAMSAFLPGKLAAWMAAHPGIQIDTEERTSADIVSIILAGVAQAGVVSDAVDPGPLRLEPVAEDPLVLIVPPAHALSDAAEVAFATIIHEPLVALYQTSALQQHIEEQAAGVGQALNVRIRMSHFEGLCEMVAHGAGGAILPRVIAERYLPRYRFAVITLQDRWALRRLCLCYQDDERLSPAMRRLLEWLRQP				NA	NA	NA	NA	NA
BMS020_00301	876	garR_1	COG2084	2-hydroxy-3-oxopropionate reductase	ATGAGTACATTACCAAAAGTCGCGGTGCTGGGACTCGGCGCCATGGGACACGCTTTTGCCAGCAATCTGTTGAAGAAGGGCTTTACCGTCGCGGGCTGGAACCGTTCGCCAGCGCGCGGCGAGGATTTACAGGCGCAGGGATTATCCCTGCACGCCACGCCGCAGCAGGTGGTGGCCGATGCCGAGGTGATCATCAGTATGCTCGCCGATGGTCAGGCTACCCTGCAGGTACTGGCGCAAATAGCGCCTGCCTGTCAGCCGCAGGCGATCTATTGCCAGATGGGCACCATCGGCCTGGCGGAGACCCAGGAGGCTATCGCTTTGTTGCGGGAGCGTCAGCCGGCGATGACCTTCGTCGATGCCCCGGTTTCAGGGACCAAAGCCCCGGCGGAGAAGGCGCAGATCCTGGTGCTCGCCAGCGGAGATCGTGAAAAGTGTAGCCCGGCGGAACAGGTATTTGCCGCTATCTCACGTGGGACGCAGTGGTTTGGCGAGGCGGGCAACAGCCAGAAAATGAAGCTGGTCCTCAATGCCTGGCTGATTGCGATGATGCAGGGCATCGCGGAAAGCGCACAGCTGGCGAAGACGCTGGGCTTTACCCCCGACCAGCTGTGGAGCGCCCTGGAGGGCGGCCCGCTGGCGGCGCCCTATGTCAAAGTCAAACTGGACGCCATCGCCAATGAGCAATTCGCGCCGCAGATGCAGCTGGCGCATGCGCTGAAAGATGCCCGGCTGGCCTTGTCCCTGTCCGAGCCGCACACCATGCCGGGACTGGATAACATCGCCGAACTGTGGCAGCAGGCGGCGGATGCGGGATTTGCCGGGCAGGACCTGTCCTCGATATATCAGTGGCTGTCGACGTCGGCGAAAGCATAG	MSTLPKVAVLGLGAMGHAFASNLLKKGFTVAGWNRSPARGEDLQAQGLSLHATPQQVVADAEVIISMLADGQATLQVLAQIAPACQPQAIYCQMGTIGLAETQEAIALLRERQPAMTFVDAPVSGTKAPAEKAQILVLASGDREKCSPAEQVFAAISRGTQWFGEAGNSQKMKLVLNAWLIAMMQGIAESAQLAKTLGFTPDQLWSALEGGPLAAPYVKVKLDAIANEQFAPQMQLAHALKDARLALSLSEPHTMPGLDNIAELWQQAADAGFAGQDLSSIYQWLSTSAKA				NA	NA	NA	NA	NA
BMS020_00302	1470	menH_1		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	TTGAAATGGGTAACCTGGTTAAAACGTATCGTGTTGTCCCTGCTGCTGTTGATTGTTGGCGCTCTGGGACTACGCGTTTATGACATTCAGCGCGGGCCCGATCTGCAGCTCTGGCATACCTGGGTTCCGCATGAAATGGGCGCGGATGAAATCGACGATGCTGACTGGAACGATTACCTCCAAAAAGAGAATGCGCTCTTCGGTGAGGTAAAACGCCAGGTTACCGATAAGCTGGACGCTGAACAGCAAACCGAACTGAATCGTTACTACAGTCACAGCCCCATTTATCCGGACTCGTTTCCCACCAACTGGAATCGGTCATACATTATGATGCCGGATGGCAAACCGAAAGGCGCTGTGGTGTTGCTGCATGGTCTGACTGATACACCCTACAGTCTGCGGCATATCGCCGAAAATTACCGGCAACAGGGTTATGTCGCGATCGGTATCAGGTTACCGGGCCACGGGACGGTACCCGCCGGGCTGACCGACGTGGACTGGCAGGATTGGCTGGCCGCCACGCGCCTGGCGGTGAGAGAAGCAAAACGACTGACGAGTCATGATGCGCCCTTGCATATCGTCGGATTTTCCAACGGCGGCGCGCTGGCAATGAAGTATTCGCTGGACGCGCTGGATAATACCGGACTGGCAAAACCCCAGCGGGTGATCCTGATTTCTCCAATGATCGGTATTACCCGCTTCGCGCGCTTTTCCGGCCTCGCGGGCTGGCCCGCGTTTCTTCCCGCCTTCTCGAAAGCCGCATGGTTAAACATCATGCCTGAGTTTAATCCGTTTAAATATAACTCCTTCCCGACGAACGCCGCCCGTCAGTCGTTTCTGCTGACCAAAGCGCTGCAAAAGCAGATAGTGACGGATTCGAGAAATCATAGGCTTAACAGCTTACCGCCGGTATTGACCTTTCAGTCCGTTGTGGATTCAACAGTCAGTACGCGGGCGATCGTGACGGCGCTGTATAACCGCTTGCCGGATAATGGCAGTGAAATTGTCCTGTTCGATTTAAATCATGCGGTCAGGTTTAATTCATTATTACGCCGGACGTCTTACACCGCGCTGGCGCGGTTGCTGCCCGTGGCGCCGCGGGCTTATCAAACCACGATCATCACTAACGCCAATTCCGCCAGTACAGAGATGGAAATTCGCACCACCCGCGCCGGGAAAACAGACACCACGGTAGAAAAGCTGCAGGGAATGCACTATTTACCGGACGTCTACTCTCTTTCTCATGTCGCGCTCCCCTTCCCCTTGAGCGATTCGCTGTACGGGCGCTATCCCCATCCGCTGAATCAATACGGGATCAGCCTCGGCACGTTTGCAGCTCGCGGTGAGCGTTCTGTGCTGGTTGTGGGTCTGGACTCGCTGATGCGCCAGTCTTCCAATCCGTTCTTTCCCTATATGATCAAGCGCATTGACGAAGGGATCGACACTCGCCCGGCGCTCTCCGGAAAATAA	MKWVTWLKRIVLSLLLLIVGALGLRVYDIQRGPDLQLWHTWVPHEMGADEIDDADWNDYLQKENALFGEVKRQVTDKLDAEQQTELNRYYSHSPIYPDSFPTNWNRSYIMMPDGKPKGAVVLLHGLTDTPYSLRHIAENYRQQGYVAIGIRLPGHGTVPAGLTDVDWQDWLAATRLAVREAKRLTSHDAPLHIVGFSNGGALAMKYSLDALDNTGLAKPQRVILISPMIGITRFARFSGLAGWPAFLPAFSKAAWLNIMPEFNPFKYNSFPTNAARQSFLLTKALQKQIVTDSRNHRLNSLPPVLTFQSVVDSTVSTRAIVTALYNRLPDNGSEIVLFDLNHAVRFNSLLRRTSYTALARLLPVAPRAYQTTIITNANSASTEMEIRTTRAGKTDTTVEKLQGMHYLPDVYSLSHVALPFPLSDSLYGRYPHPLNQYGISLGTFAARGERSVLVVGLDSLMRQSSNPFFPYMIKRIDEGIDTRPALSGK				NA	NA	NA	NA	NA
BMS020_00303	963	gcvA_1		Glycine cleavage system transcriptional activator	ATGAAAACACCCGTTCATCTCAATGCATTACGTGCCTTTGAAGCCAGCGCGCGCCACCAGAGCTTTTCTCTTGCAGCCGAGGAGTTAAATGTCACCCCGGCAGCCGTCGGACAGCTGGTGCGTTCACTTGAAGAAGTGGTCGGTTTTCCGCTATTTCATCGCAGCAATAATCGTCGTGCCGCCCTCGTTTTAACAGAGCCTGCGCTGCGTGCGCTCCCCGATATACGCATGGGTTTTCAAAGCCTGAACCTGGGGATGACGCTCCTGCGGGAGGGCGCGACAAACGGTATTCTGAACGTAACCGTCAGCCCTGCCTTTGCGGCTAAGTGGTTATTACCACGTATTGAAGATTTCCAGCATAAATGGCCTGATATTGACGTGCGCCTGGAAACCAGCCTGAAGTTAATGGATTTTACCGCACAGGGTATAGACGTAGGTATTCGCTATGGTCTGGGGCAATGGGAAGGATTAGAGGCAGAGCGCTTAATGTCTGAGGAGGTTTTCCCAGTATGCGCCCCCGCTCTTATGTCAGTGAATCCAGCGATTAACTGTCTGACGGGGGTCACTGAGCTGACGCTTATTCACGATCTGTCGATGGAGCAACACCAGGATTTTATCACCTGGGATCGCTGGTTACGGCGCTTTAACGTCCAGTCGATAGCCCGTAAACCCGGCCTGCGGATAAATAACTCCGCCGCGGTACTTCAGGCAGCTATTGATGGTCACGGCATCGCGCTGGCGAGGAGCATAATGGTTGATGATGACATCAAAAGCGGGCGCCTTCTTCGCTTATGTCCGGACGTTTCTCTGACAAGCCCGCTGTTTTATTATCTGGTCTACAGGCCAGGGTGTGAAAGCCTGCCGAAAATTGCCAATTTTCGTAAGTGGATAATTGAGCAAGCTCACGCGTTTAATAACACCGTAAATCCCGGAAACCTCCCCAGCAAGAGCGATTCAGCGTAA	MKTPVHLNALRAFEASARHQSFSLAAEELNVTPAAVGQLVRSLEEVVGFPLFHRSNNRRAALVLTEPALRALPDIRMGFQSLNLGMTLLREGATNGILNVTVSPAFAAKWLLPRIEDFQHKWPDIDVRLETSLKLMDFTAQGIDVGIRYGLGQWEGLEAERLMSEEVFPVCAPALMSVNPAINCLTGVTELTLIHDLSMEQHQDFITWDRWLRRFNVQSIARKPGLRINNSAAVLQAAIDGHGIALARSIMVDDDIKSGRLLRLCPDVSLTSPLFYYLVYRPGCESLPKIANFRKWIIEQAHAFNNTVNPGNLPSKSDSA	PGPT0026360_632	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS020_00304	282			hypothetical protein	ATGGCTTATTTGCAGATCAACCTGGATATCAGCGAAAAGAACAGAGCAGCAGCTGCAGCGGTATATCAAAAATACAAAGCACCATTCCTCTCAACGATCGACGGCGCTGTTTCAAAAGAACTGTTGGTACGTGCCGAAGATGTGCAAGTTCTGCATGGTTTCCACACGGTTAAACAGGCTGAAGCGTATCTCGGATCTCAGTTATTTACCGCGGATGTGGTTGAGGCACTCAAACCCTATTTGAACCGCGCGCCTGACGTGCGTATCTACGACCTTGCCTGA	MAYLQINLDISEKNRAAAAAVYQKYKAPFLSTIDGAVSKELLVRAEDVQVLHGFHTVKQAEAYLGSQLFTADVVEALKPYLNRAPDVRIYDLA				NA	NA	NA	NA	NA
BMS020_00305	339			hypothetical protein	ATGGTTCACTGGACTGAAATGCGCAAAGAACTACGGGCAGCGATCGGAGAATTCGCAGGTTTGCAACCCGATGTGATGCAAGGCATCGATAAGATGCAAAATGCGGCTGTCGCAACAGGCCACCTGGACGCGAAAACTCATGAGCTGATCGCGCTTGCCGTGGCGGTCACGACCCGGTGTGATGGATGTCTGTCCGTCCATGCTGAAGCTGCTGCAAAACAGGGGGCAACGCGCGAAGAGATCGCTGAGGCGCTTGGTGTGGCAATCACACTAAACACGGGCGCCGCGCTGGTCTATTCCAGCCGAGCACTTGACGCCTTCGACAACCTGCCTAAGTAA	MVHWTEMRKELRAAIGEFAGLQPDVMQGIDKMQNAAVATGHLDAKTHELIALAVAVTTRCDGCLSVHAEAAAKQGATREEIAEALGVAITLNTGAALVYSSRALDAFDNLPK				NA	NA	NA	NA	NA
BMS020_00306	675			hypothetical protein	ATGTTAATAAACCACGATTTCACCCAGCGCGTTACCGTTTCCTGTGATGATTACCACTGGGTTCACTCCCCTCAGACAGGGATTGATCGGGTTATGTTGGATCGTATCGGTGGTGAGCAGGCCCGCGCCACCAGCGTGGTTCGTTATTTGCCTCTTACAGTATTCCCGCAACATCAACATCCCGGTGGAGAAGAGATCCTGGTTCTGCAGGGTCAATTCTCAGAAGGTAACCGCGATTATCCCACCGGCTGGTATTTGCGTAACCCACCGGGTTCTTCCCATCAACCTCACAGCAAAAACGGCACGCTGTTGTTCGTTAAGCTTGGCCAGATGACAACCCAGGAAACTGTTCCGTTACGTATCGATACCCGTGCGCCTGAAAATTGGCTTGCGGACGGCGGAATGTCTGTTTGTCCGTTATTTGAGAGTGCACAAGAAAGTGTTTGTCTGCTGGGTATTCATGCTGGTGCGCTACTGGTGGACCCTGCACTGAAGGGAGGGGCAGAGTTGCTCATCGTGGAAGGTAGCATGATAGAAGGCAACCGCATCCATGCGAAGGGGAGCTGGATACGCATCCCGTCCGGGCAGGGAATGGCGTTTACTGCCGGGCTCGACAACACCCTGGTGTATCTCAAAAAAGGCCATCTCGACGTTGAGCAGGTAACAGTACCATGA	MLINHDFTQRVTVSCDDYHWVHSPQTGIDRVMLDRIGGEQARATSVVRYLPLTVFPQHQHPGGEEILVLQGQFSEGNRDYPTGWYLRNPPGSSHQPHSKNGTLLFVKLGQMTTQETVPLRIDTRAPENWLADGGMSVCPLFESAQESVCLLGIHAGALLVDPALKGGAELLIVEGSMIEGNRIHAKGSWIRIPSGQGMAFTAGLDNTLVYLKKGHLDVEQVTVP				NA	NA	NA	NA	NA
BMS020_00307	816			L-amino acid dehydrogenase	ATGCTTTTTGAGCGTCCCAATGATGCCCCTTCTCGCCATCCTGGATTTGTCTCTTCGCCTGTCGCCGCCCGTGTAAGTGGTGGGATGTCACGACTGCCCAATGTATTACTGGCGGAGTTAAAGCCTGGGCGCATTCAGACCGGACTGCAGGTTAAACACATCGAACAGCAAAATGGCACCCTGAACGTTTGCGGAACTTATGCCGATGGACGCCCGTTTAGCCGGCAGGCGCAACATGTACTGTTGGCATTGCCCCCTATGCTGGCTGCAGGGATCAATTTTTTCCCCGCGCTACCCACGACGTTATTGCACGCATGGCGTAACACCGGAACCTGGATGGCGCCCCATGCAAAGTATGTCGCTGTGTATCCCAATAATTTCTGGAAAAGGAAGGGACTATCCGGGGAGGTAAGAAGCAACATTGGGCCTATGGTTGAAATTCACGATGTTTCAGAACCTGACAGGATGTTTGCGTTATTCGGGTTTATTGGCGTGCCTTTTCACGAGCGTCATAAGATAGGTGACGCGGTCCTGAGAGATTTATGCAGAGACCAGTTGATAAGACTGTTTGGCGAGGAAGCCGCCTATCCCCATGCTGAATTTCTTAAAGACTGGGCGGCAGATCCCTTTACCTCCACCTCGCGCGATCTAACCCTACCCGCAGGTCATTCTGTACCACCTGCCAGCGCAAATCACGGTCCGTGGCGTAACTGTCTTACCGGTATCGCGAGCGAATGGTCCACCGTCTTTCCTGGCTATCTGGCAGGGGCGATTGATGCCGCTGCGGCAGGCGTACAACACATAATCGAGAAATAA	MLFERPNDAPSRHPGFVSSPVAARVSGGMSRLPNVLLAELKPGRIQTGLQVKHIEQQNGTLNVCGTYADGRPFSRQAQHVLLALPPMLAAGINFFPALPTTLLHAWRNTGTWMAPHAKYVAVYPNNFWKRKGLSGEVRSNIGPMVEIHDVSEPDRMFALFGFIGVPFHERHKIGDAVLRDLCRDQLIRLFGEEAAYPHAEFLKDWAADPFTSTSRDLTLPAGHSVPPASANHGPWRNCLTGIASEWSTVFPGYLAGAIDAAAAGVQHIIEK	PGPT0007641_1990	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007641-aofH-K00274	NA	NA
BMS020_00308	1026	adh_1		Alcohol dehydrogenase	ATGAAGCAAACTTATAAAGCAATGCAGGTTTCTCGTCCTGGTCAACTGGAATACGTGGAAAAAGAACTCCCGGATCCCGGCCCAGGCGAAGTGCTGATAAAAGTGGAAGCCTGTGGAATTTGCGGAGCGGATTCTGGCGTCGTTGAAGGTCTGGAAAAGCGTGTTGAGTATCCTCGCGTACCGGGTCATGAAGTGGTCGGTACGATCTGCAAAACATCGGGGCCGCTCCCTGCCTGGCTCAAACCTGGTCAACGTGTCGGCGTTGGGCGACTAGGTGGTCATTGCAACGCCTGCGAGCAATGCCGTCTTGGTCACTTTAATCTCTGTCAAAATCAACCGGTTACTGGCAGCACAAGAGACGGGGGGTATGCAGAATACATGCTGGCGCGTGAGACGGGACTGGTCGCTATACCGGATGACTTGTCCTCCGTCGACGCCGCACCATTACTTTGTGCGGGAGTAGCGACCTTTAATGCCTTAAAAAAATCTCAAGCACAGGCTGGCGATACGGTTGTTGTTCAGGGGATCGGGGGGTTAGGACATTTAGCTTTGCAATATGCACGCAAAATGGGTTTTCGCGTTATCGCAGTTGGCAGGGGCGATGATATTGCACGAGAAGTCATTGCGCTCGGTGCCCATCACTACGTCGATACCAACACCGAAGAGGCTGTTGAAGCCATTAAGGCGTTGGGCGGCGCCAAAATTATTTTGTCGACCATCACTGACAGCCACGCCGTTTCCACTCTGCTACCCGCGCTGCTTCCCCAGGGAAGGCTGATGGTCGTTGGTGTGGGTAAAGCGCCACTGAGCTTTGCACCGGGTCTCATGGTCGGGCGGGAATTACAGATAAACGGCGCTATGACCGGGACGGCAATTGAATTAGAAAAAACGCTTCATTTCAGCCTGCTGGCAGCTGTGCGCGCGCAGATTGAAACGCGTTCTCTGGCACAAGCACAAGAGGCGTATGAAAAAATGCGTAGCGGAAAGGCGTCTTTTCGCATGGTTCTCACCATGGGACATCGTTGA	MKQTYKAMQVSRPGQLEYVEKELPDPGPGEVLIKVEACGICGADSGVVEGLEKRVEYPRVPGHEVVGTICKTSGPLPAWLKPGQRVGVGRLGGHCNACEQCRLGHFNLCQNQPVTGSTRDGGYAEYMLARETGLVAIPDDLSSVDAAPLLCAGVATFNALKKSQAQAGDTVVVQGIGGLGHLALQYARKMGFRVIAVGRGDDIAREVIALGAHHYVDTNTEEAVEAIKALGGAKIILSTITDSHAVSTLLPALLPQGRLMVVGVGKAPLSFAPGLMVGRELQINGAMTGTAIELEKTLHFSLLAAVRAQIETRSLAQAQEAYEKMRSGKASFRMVLTMGHR	PGPT0006375_1150	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
BMS020_00309	939	dmlR_2		HTH-type transcriptional regulator DmlR	ATGACCATTCCATTGACGATCAAACAAATTGAAATGCTGGTAAAAATAAGTGAAGGGAAGGGGCTGTCAGAAGCGGCGCGCTTGCTTAATTTATCGCCCTCCGCCGTGAGTAAGGGGCTGGCGGTAATGGAAGAAAACCTGGGCGTTCCGCTGATCCAAAGAACAACCCGTTCATTTCAGTTGACTGAAGCCGGGGAGTACTTCGTTTCCAGAGCTTCGGAATTGCTCAAAGAGTTCGACGATATCATTAACACGACCTGTGGCTATTTCAACCATCCGCACGGGGCCTTGAAGGTCACCAGTTCTGTGGCGTTTGGCTACGCACATTTGATTGATATTTTCGAAGAATATCGTAAGAAAAATCATAATGTCGAACTTATACTGGAACTTGACGATCACCTGACGAACCTGAACGAAAACAATGTTGATATCGCATTGAGGGTTACCGCCACGCCCCCGCAGAACTATGCCGCCAGAAAACTTTCAAAAATCAGCTGGCTATACTGCGCTTCCCCTGATTATCTTGCACGGATGGGCTCGCCGACTAAACGCGCCGAGCTTGCAAGCCATGAGTGCCTGATCTATCCAGGGTTAACGCCGCCCTTGCGCTATAACGATATCGTATCCCCGCATCCGCAGTGCGCGATAAAACCCCGAACGCCGGTTCAAGCCAACAGCAGCCTGTTGCTCTTGAAGGCGGCTCTTTCAGGGCAGGGTATTGCCTGGCTTCCCTCTTATCTCATCAGCCAGCACATCGATGCAGGGGAGCTTGTTCCTTTAAAGCTTGATGGTAAATACGCTTACCCGACGCATAGCCTCTATGCACTCTATTTCCCCAGCAAGTTTCGTAATCCAAAAGTAAGATCCTTTATTGATTTTTTGGTGGAAGAAAACCAGCCATGGAATCACTGGGAAAAAGCGATAGATAATTTGCTCTAA	MTIPLTIKQIEMLVKISEGKGLSEAARLLNLSPSAVSKGLAVMEENLGVPLIQRTTRSFQLTEAGEYFVSRASELLKEFDDIINTTCGYFNHPHGALKVTSSVAFGYAHLIDIFEEYRKKNHNVELILELDDHLTNLNENNVDIALRVTATPPQNYAARKLSKISWLYCASPDYLARMGSPTKRAELASHECLIYPGLTPPLRYNDIVSPHPQCAIKPRTPVQANSSLLLLKAALSGQGIAWLPSYLISQHIDAGELVPLKLDGKYAYPTHSLYALYFPSKFRNPKVRSFIDFLVEENQPWNHWEKAIDNLL				NA	NA	NA	NA	NA
BMS020_00310	1281	yhjV	COG0814	Inner membrane transport protein YhjV	ATGACCGTAGGAATTAATACTGAAGCAATTAATAATAAGAATATTCCCTTTACCATGTATGATTTAGGGTGGGTGGTGCTTTGCATCGGAGCTGCCATTGGTTCCGGAATCGTCTTTTTCCCGTTACAGGTTGGATTGAAAGGGGTGTGGGTCTTTGCCCTGGCCGTTATCCTGGGCTATCCGGCAGTTTATTACATGCAGAAGCTATTCATCGAAACGATGGCGCGCAGCGATGAGCAAGATTCCTATCTGAGTATCATCACCAGCTACGTTGGCAGTCGCTGGGGCGTGCTGCTTGGCGCGCTTTACTCCTTCACCATGCTGAAGTCGATGGTGGAGTATGCTCTTGCCATTACCAACGACAGCGCCTCGTATCTGAAAACCTTTGGGCTTACTAACCAGACGCTGTCCGAACACTGGTGGTGGTCTCTGCTGTTAATCGCCGGGCTCTCGCTGGTCGCGTCGAAAGGAGAAAAGCTGCTCTTCAAAGTCTCAGGCAGCATGATCGCCGTAAAGCTGGTGATCATCGTAGCGATTGGTTTCGTGGTGATCCCCTTCTGGGATCTGAGCAATATTGGTGCATTCCCAACCGTTAGCCACCTTGTCGTAGGTACGTTCCCGACGCTTCCGTTCGCTATCTTCTCCATTATGTTTGTTGGGATACTAAATCCGATGAACATCGCCTACAAAAAACGTGAAGAAGATAAGGACGTGGCAAAGTATAAAATTTTACGCGTACATAAAGTGGCTTATTTAGTTCTGGTCGCTACCGTGCTGTTGTTTGTCATGTCCATCGTACTCTCTATCAGTGAAGCCGATGCGCTACGAGCCTATCAGGACAATATCTCGGCCCTGGCTCTGGCCGCTAAGGTCATTCCTGGTGCCGCGGTCAAGTATATGAGCGTTGTTCTCAATGTGTTTTCCATCGTGACGGCGTTCCTGGCGCTCTATCTGGCCGTACATGAATCTTTCGTAGGTCTGATCAAAGTCACTGTTGAAAAAATGGTTAAGCCTCAGGCAAACAACAGCAAGGCGATTTCAGTTGCCGCTTTTGTCATGGTTGTACTGGTGCTGTGGTTGATCGTGCTAACGAACTTTCCCATTCTGAAGGTGTTCGTGTTTGGTGGCGTGACTTACGGTCTTATAAGCTGCATCATTCCCGGTTTTATTATTCTTAAAAATGACAAGTTTTCTGACCTGCGTGGCGTCTCGGTTTACTATGTGATTTTAATCGGCATGCTCATGTGCATTGGTCCTTTTGTCATGTTATTTTCACAATAA	MTVGINTEAINNKNIPFTMYDLGWVVLCIGAAIGSGIVFFPLQVGLKGVWVFALAVILGYPAVYYMQKLFIETMARSDEQDSYLSIITSYVGSRWGVLLGALYSFTMLKSMVEYALAITNDSASYLKTFGLTNQTLSEHWWWSLLLIAGLSLVASKGEKLLFKVSGSMIAVKLVIIVAIGFVVIPFWDLSNIGAFPTVSHLVVGTFPTLPFAIFSIMFVGILNPMNIAYKKREEDKDVAKYKILRVHKVAYLVLVATVLLFVMSIVLSISEADALRAYQDNISALALAAKVIPGAAVKYMSVVLNVFSIVTAFLALYLAVHESFVGLIKVTVEKMVKPQANNSKAISVAAFVMVVLVLWLIVLTNFPILKVFVFGGVTYGLISCIIPGFIILKNDKFSDLRGVSVYYVILIGMLMCIGPFVMLFSQ				NA	NA	NA	NA	NA
BMS020_00311	1209	lysN_1	COG1167	2-aminoadipate transaminase	ATGTCGCGCAATAAGATCGCAAAAAAGTTACAAAACCTTCAATCATCTGCAATTAGAGAACTACTGAAACACAGCAAAATGGACGGTGTTATTTCCCTGGGCGGCGGAATACCAGATCCAAACTTGTTTGATCGGGAAGGCTTACAGATTGCTATGGATAATATCCTGACCCATGGTTGGAAAGACGCGTTTCAGTATGGATTGAGTGAGGGTCATTCTGAACTGCGGGCAGCCATCTGCCAGATCATGCGTGACCGGGGAATTCACTGCAGCATAGAGGATGTCGTTGTGACCTCTGGCTCGCAGCAATCTCTGGATATTCTTGCTCGGGCACTGATTAATCCTGGCGATGTAGTGGTGTTAGAACGGCCTACTTACCTGGCGGCACTGCAGGTATTTCAGCTTGCTGAAGCGAACCTGATGTCGGTAGGAACTGATGCTCAGGGCATGATTGTCGATGAGCTGGAAACGCTGCTTCTAACGACCCGGATAAAAGCAGTGTATATCGTACCCACGTTTGGTAATCCCAGCGGCGTTACCCTCGCGGAGCAACGGCGTAAACAGCTGGTGGAACTCTCGCTACGCTACGATTTTATCATCATCGAAGACGACCCTTACGGCGAAATCAATTTTACGGATACGTCATTCATTCCGCTCAGAGCATGGTCTGCGGAAAGGGGTAACAGTGATAACGTTGTTTACACATCAACCTTTTCGAAGATCCTCGCGCCAGGCGCTCGGGTAGGGTGGCTGGTGCTACCGGATTGGCTCAAAAGAGGGGTTGTCAACATCAAGCAAACCACAGATTTACATACAAGTTCTCTCTCGCAGTCGCTTACCTACCACTATTTAAGCAGTGGCCGCTTGCCGGGACAGATCGCACTCATCCGAAAGGCTTATGAGCGCAAATGTCGAGTTCTAAGCCACCATTTGTTGAACGAACTAGGTGACCACATCACGTTCCACCAGCCGATGGGCGGCATGTTTTTATGGGCAAAGTTTAAATATGAGATGGATACCACGCAGTGGCTTCAGAAAACATTGCGCAACGGCGTGGTGTACGTGCCTGGTGAATTTTTCTACTGCGAAGAACCGGATCATTCCACCCTACGAATGTCGTATGTCAGCGCGACAGAAGAGAGCCTTAAAGAAGCGGCAAAACGCCTAAAAACCGCGCTTAATGAGTTGTCCTCTCCCGTTATCCCGTGA	MSRNKIAKKLQNLQSSAIRELLKHSKMDGVISLGGGIPDPNLFDREGLQIAMDNILTHGWKDAFQYGLSEGHSELRAAICQIMRDRGIHCSIEDVVVTSGSQQSLDILARALINPGDVVVLERPTYLAALQVFQLAEANLMSVGTDAQGMIVDELETLLLTTRIKAVYIVPTFGNPSGVTLAEQRRKQLVELSLRYDFIIIEDDPYGEINFTDTSFIPLRAWSAERGNSDNVVYTSTFSKILAPGARVGWLVLPDWLKRGVVNIKQTTDLHTSSLSQSLTYHYLSSGRLPGQIALIRKAYERKCRVLSHHLLNELGDHITFHQPMGGMFLWAKFKYEMDTTQWLQKTLRNGVVYVPGEFFYCEEPDHSTLRMSYVSATEESLKEAAKRLKTALNELSSPVIP	PGPT0007135_1560	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
BMS020_00312	1206	metC_1	COG0626	Cystathionine beta-lyase MetC	ATGTCTAATCATAGTTTTGATAACCAGATATCACCAGAAACGTATCTATGTCATGGTCCGTTCGATCCCGAAGTATTTGGTGGCGTGGTTAACCCGCCTGTATATCACGCCTCAACGGTCATCTTCAAAAACTGCAAAGAGCTCAATGAGCGCCACCAGGCGCTGTTTGAAGATGCGGAAGATGAAGTGATGTATTATGGTCGATTTGGAACGCCTATCACCTTCGCCGTGCAGAAAGCCCTGGCCGAACTGGAGGGGGGGTACCGATCTTTACTGGTGCCTACTGGACTTGCAGCCTGCACAAGTGCGTTACTGGCTCTGGTTAAAAATGGCGATCATATCCTGGTCAGTAGTAGCGTTTACGGCCCGACGCGTGGATTCGTCAATAATGTGCTGGCCAAAATGGGCGTTTCGGCAACCTTTTTCGATCCGACTATTGGCGATCGCATTGCTGAACTGTTCCAGGAAAACACGACCGTAGTGTTTACAGAATCTCCTGGCTCCCAAACTTTCGATATCCAGGATATTCCGGCAATAACTCGCGTGGCGCATGCCCACAACGCTAAAGTTATTATTGATAATACCTGGGCGACACCGCTGTTTTTCAAGCCATTTGAGCACGGTGTGGATGTCTCCGTGCATGCTGCCACTAAATATATCGTTGGACATTCTGACGCGCAGATGGGGTTGATCACCACAAATAAAGAAACCTGGCTTGCCATTCGTCGCTTTATCTATCTCTTTGGTCTGCATGCTGCGCCGGATGATGTTTATCTCGCACAGCGCGGATTGCGTACTATGTCTTTGCGTCTTGGACGCCATCAGGATTCAGCGCTTAAAATTGCTAAATGGTTTGAGGAACGTGAAGAAGTGGAGCAGGTGCTACATCCAGCATTACCTTCCTGTCCGGGTCACGAAATTTGGAAACGTGACTTCACCGGTTCCAGCGGTTTGTTTAGCGTGGTGCTTAAACCTCACTATTCAAAAGAGTCCGTGGAGAAGTTTATTGATAGCCTGGAGTATTTCGGCATCGGTTTTTCGTGGGGCGGTTTTGAAAGCCTGGCTATTCCGTTTAACCCGCGTAAAGATCGTCCGGAATATCACTGGCCGTACGAAGGGCACTCCTTCCGTTTACAGATCGGCTTAGAAGATCCCGTAGATTTAGTAAAAGACCTGGATCGGGCGCTACGTCATCTAAAGGCGTAA	MSNHSFDNQISPETYLCHGPFDPEVFGGVVNPPVYHASTVIFKNCKELNERHQALFEDAEDEVMYYGRFGTPITFAVQKALAELEGGYRSLLVPTGLAACTSALLALVKNGDHILVSSSVYGPTRGFVNNVLAKMGVSATFFDPTIGDRIAELFQENTTVVFTESPGSQTFDIQDIPAITRVAHAHNAKVIIDNTWATPLFFKPFEHGVDVSVHAATKYIVGHSDAQMGLITTNKETWLAIRRFIYLFGLHAAPDDVYLAQRGLRTMSLRLGRHQDSALKIAKWFEEREEVEQVLHPALPSCPGHEIWKRDFTGSSGLFSVVLKPHYSKESVEKFIDSLEYFGIGFSWGGFESLAIPFNPRKDRPEYHWPYEGHSFRLQIGLEDPVDLVKDLDRALRHLKA	PGPT0001995_656	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
BMS020_00313	921	metR_1		HTH-type transcriptional regulator MetR	ATGGATATTCCGATAGACCTTAAGCACTTACAAACTCTTTTAGCATTGCGTAAAACAGGAAGCCTGACGCGCGCGGCAGCAGCTATGCAACTGACTCAATCGGCATTATCGCACCAGATCAAACAGCTCGAAGAGCACTATAACGTTTCTCTGTTTATGCGAAAAACATCGCCCGTAAAGTTTACCCTGGCGGGTGAGCGTCTGTTACAGCTTGCTGAAACCGTGCTTAATGCAATGGAGGAAGCCAACAGGGATCTTTATAAGTTAGCGCTCGGAAAACAGGGCGCGCTCCGGATAACCCTTGAGTGTCACACCTGTTATGGCTGGTTACTACCGGTGATGGATGAGTTTCGTAAGAAATGGTCTGAGGTTGAAATTGATATTTTGCCTGGTTTTCAGCCAGATCCAGTGGGTCTTCTGTTGCAAAACAGAGCTGATGTTGCCATCGTGGATGAAACCGAGCAGACAGACCTGGTGAGTTATAGCTCCTTATTTAAATATGAAATGGTTGCTATTTTGGCAAATGAACATCCTTTAACGCGAAAGCCCTGGCTTGAAGCGGAGGACTTCCGTGGTGAATCGCTCATCACCTACGCAGTACCGGATGAACGTATCGATCTTTGTCGAAAAGTCCTTAAACCTGCCGGCATTCCAATAAGGAGGAAAACAACAGAGCTCACCATGGCTATCATTCAACAGGTTGCCTGCCAGCGGGGTATTGCCGCATTGCCTATCTGGGCAGTATCAGAATATCTTGATAAAAAATACGTCACAGCAAAGTCAATTACAGAAAATAAACTAATTTCAGAAATTTGGCTTGCTACACTTACAGAAAACATCAAAAAGGACTATATCACTGACTTTATTAACTTTACCCGACAGCACTGCTTACGCTTGTTAACTGAAATCCAAACAACGTAA	MDIPIDLKHLQTLLALRKTGSLTRAAAAMQLTQSALSHQIKQLEEHYNVSLFMRKTSPVKFTLAGERLLQLAETVLNAMEEANRDLYKLALGKQGALRITLECHTCYGWLLPVMDEFRKKWSEVEIDILPGFQPDPVGLLLQNRADVAIVDETEQTDLVSYSSLFKYEMVAILANEHPLTRKPWLEAEDFRGESLITYAVPDERIDLCRKVLKPAGIPIRRKTTELTMAIIQQVACQRGIAALPIWAVSEYLDKKYVTAKSITENKLISEIWLATLTENIKKDYITDFINFTRQHCLRLLTEIQTT				NA	NA	NA	NA	NA
BMS020_00314	1308	dgoT_1		D-galactonate transporter	ATGAAAAATGATACTGATTTACCTCAAAGTGTCACAATTTTAGAACACGTACAAAAACCTACCCGACAGCGTTTTTTTGTATTAGGGATTTTATTCATTAGCTTATCGATTATATATCTTGACCGTGTCAATATTTCTATTATTGCAGCGAACACTCATTTTTTAAATGAAATGCATCTCAATGACAAACCAATCTTAGTTGGCTTATTGATGTCTTTATTCTTAGCGAGTTACGGGATTGCAAATGTTTTTTTAAGCCCTCTAGGAGATTATATTGGTCCTCGAAGAGCCATGCTTATCGCTTATGTGGTGATAAGCCTGTCACTTTTGGTTGGGGGGTTGTCAAGTTTTTTTGCTATATTATTAGGAACCAGAATTTTGCTAGGTATTGGTGAGGGTCTTTACTACCCTATGCAAAATACAATCATAAAAAATTGGTTCCCAGCTGGAGAACGAGGTCGAGCAAATACGGCATGGATCTTAGGGCAGTCCCTCGCTCCTGCACTAGCCATGCCTCTTTATACCTGGATCATAGCTGAGCATTCCTGGCGTCATACTTTTTATTTTTCATTTTCGTTAACCTTGTTACCCATTGTTCTAATCTATTTTTTTACATCAAACTTCCCACAGGAGAATAAATATGTAAACGATCTTGAACTCAAAACAATCAATAAAAGCACCACGGAGGAAGTTTTACATAAAAATAGCAGTGAAAAAATTTCAGTTATTGAACGTGCCAAAGTATATCTGTGCAATTTTAACTTTTGGATTTTATTGGCTGTTTTTTCCTCTAACTCCATGCTGTCATGGGGTGTCGTAACTTGGCTTCCAACATATTTAAATACCGAGCGCGGTTTTTCATGGGCAAATGTCGGTTGGATGTCCGCGCTTCCTTTTATATTTGGACTTTTGTTCAAAGTGCTCGCTGGGTTCATTGTCGACAAAACTGACAGGAAAGGCATGGTAATGTTTGCCTCCGCCATGTTGTGTGCTGCAAGCATCCTGATTGGAGTGAATATAACTAATAATGTTTTCGCTGCCATCGTGATCTCTTTCGGTATCGGTGCCTCCTCAATGCAGCTGCCCTGTGTGTTTACCCTTTTGCAATCAATGGTTCCTGCAGAAGCGATGTCTGCAGCTGCGGGGGCTTTAAATGGCATGGCCGTTGGTTTTGGTGCATTATCACCTGTATTAATTGGTTTTATTCTGAGTGTTACTCATAACTTTTACGTTGTTATGTATCTCCTGGTTGGGATAGTGATACTTGGCGGTTTGTTTTCATTATTATTTAGCCGTCGCAGAAATTAA	MKNDTDLPQSVTILEHVQKPTRQRFFVLGILFISLSIIYLDRVNISIIAANTHFLNEMHLNDKPILVGLLMSLFLASYGIANVFLSPLGDYIGPRRAMLIAYVVISLSLLVGGLSSFFAILLGTRILLGIGEGLYYPMQNTIIKNWFPAGERGRANTAWILGQSLAPALAMPLYTWIIAEHSWRHTFYFSFSLTLLPIVLIYFFTSNFPQENKYVNDLELKTINKSTTEEVLHKNSSEKISVIERAKVYLCNFNFWILLAVFSSNSMLSWGVVTWLPTYLNTERGFSWANVGWMSALPFIFGLLFKVLAGFIVDKTDRKGMVMFASAMLCAASILIGVNITNNVFAAIVISFGIGASSMQLPCVFTLLQSMVPAEAMSAAAGALNGMAVGFGALSPVLIGFILSVTHNFYVVMYLLVGIVILGGLFSLLFSRRRN				NA	NA	NA	NA	NA
BMS020_00315	288			hypothetical protein	ATGAAGATCCCCTTGAGAAAGTGCATCATTACCATTCCCAATCCATCCATATGCGCCAGGTACCTCCTGGAGCATAAAACCAAAATCTTCGGCGGTCATCGCTGGAAGAACATTATCATGCGCATTATTTTCACCAACAATTTCCCGCATCATTTTAGCCATAAATCGCGCTTCTTTGGGATGATTGTTTGTATTTGGATAACCACCTTCTTTTATAATTACCTCAGCATGTGCGCCATGTGCTTCTGCTATGCTGATGGCAATGTGCTGCATATTATCCAGAATTAA	MKIPLRKCIITIPNPSICARYLLEHKTKIFGGHRWKNIIMRIIFTNNFPHHFSHKSRFFGMIVCIWITTFFYNYLSMCAMCFCYADGNVLHIIQN				NA	NA	NA	NA	NA
BMS020_00316	135			hypothetical protein	ATGCAAAGCAAATACGGCCTGACAAGGAAAGAGCTTAAACAGCCCTTCGTTCATCATAACGCGTGCCCCGGCGCCGCCTTCTTCCCCTGGCTGAAAAATCAGATGAATGGTCCCATCAAAATCTCGATTAGCTGA	MQSKYGLTRKELKQPFVHHNACPGAAFFPWLKNQMNGPIKISIS				NA	NA	NA	NA	NA
BMS020_00317	876	tfdS		HTH-type transcriptional regulator TfdS	ATGGAATTGCGTCAATGCCGCTACTTCATCTCAGTAGCGAAGCTAGGCAGCATTAGTCAAGCAGCCTTAGAACTCCATATTGCTCAACCTGCTCTAACTCGGCAGATCCAAAAACTGGAAGAGGATCTTCAAGTCATGCTCTTCAAACGAACGGGGCGAGGAGTGCAACTTACTGATGCAGGAAGTCAGTTCCTCATTGACGCAGAAATATTAATCGACAATGTTACGGTCATAAAGGAACGTGCTATTCGGGCCTCCCGTGGAGAATGTGGTAATATCTCTCTAGCACTTCCTGTAATACAAAATGCAGCGCCGCCGATCACGGCATTATTAAAAAAATTCAAGAAAACGTCACCGCTCGTCGGCATTACGCTTCACCACCTCATATCTGAAGTGCAACTTTCAAAGATCGCTGAGGGAGATCTTGATGCTGGTTTTTTATTGTTCAGACCACTTAATGATCCTCTTTTTGCAGGAATCCCCGTTTTCAAAGAAAAAATGTTATTAGCTTATCCGGCTGAATGGAAGTGGCCTGATAATAAGGAACCTCGTTACTTAAGAGATTTGCAAAATCTTGACTTTATATGGCTTCCTCGTACCGCCGCACCGGCGTGGCATGATCGACTTATTCATTGCTTTTACGATGCGGGTTTTACGCCGCGTTCCGTTATGCACGGCGTGGATGCAGTATCCATGCTTACGTTAGTTAGCGCCGGCATGGGATGTACCATCGTTGCAGAAGGGATTAGACACCTTGCTCCGCCAAACGTGTCGTTTGTGGCATTAGAAGATTTAAACCTGGTACAGGAATGGGAATTAGTATGGCGCAAAGACAGATGCTCTGAAGTTTTAAAAAGTTTAATAAATCTGATTTGA	MELRQCRYFISVAKLGSISQAALELHIAQPALTRQIQKLEEDLQVMLFKRTGRGVQLTDAGSQFLIDAEILIDNVTVIKERAIRASRGECGNISLALPVIQNAAPPITALLKKFKKTSPLVGITLHHLISEVQLSKIAEGDLDAGFLLFRPLNDPLFAGIPVFKEKMLLAYPAEWKWPDNKEPRYLRDLQNLDFIWLPRTAAPAWHDRLIHCFYDAGFTPRSVMHGVDAVSMLTLVSAGMGCTIVAEGIRHLAPPNVSFVALEDLNLVQEWELVWRKDRCSEVLKSLINLI				NA	NA	NA	NA	NA
BMS020_00318	915	rhaS_3		HTH-type transcriptional activator RhaS	ATGATTTCTGACAAGACGGTTGAAAAACTACTCGGCGTGCTTTCCCGTGATATTGCTCAGCGCACTCCGGGCACCGGTGATTTCCCAACAGCGGTAGAAGGACTCGAACTGTTCCGCCGAAACGAACCTGCTCCTCCGGTGAGCTGCCTGGTCCCTCCCAGTATCGTTCTGGTGGCCGATGGCGCGAAGATCATGTGGGTTGGTGGTGAACCTTACGAATACAATGCGGAAAAATTCCTGATCACCTCCCTTGACCTGCCAGCCAGCTCGGAGGTTTTACAGGCTTCGACATCCCGGCCCTGCGTCGGCGTAGCCTATAAACTTGACCAGCGCGTGCTGATGGAATTAATTGCCCAGGGAAGCCTGCCGCTGGTCAAAAAACGAGACGCGGGAACGGGTGTCGGTATAGGAACGGTTACTGATGTTTTGCTGGAACCTTTTTGCCGTCTGCTTTCTTTGCTTGACGAGCCTGAAGCCATTCCTGTCCTCGGGCCGCTGATTCAAAGGGAGATACATTACCGGCTTTTGATGAGCGATCAGTCCGATCATCTCAGACAGATTGCAGCAGTAGACGGCCATGGCTACCGTATCGGTAAAGCTATCGACTGGTTAAAAACCAATATTGCGTCACCCTTACGCGTAGAGGAACTGGCAAGTCGGGTGCAAATGAGCACGCCCTCTTTTCACCAACACTTCAGGCAGCTTGCGGGAATGAGCCCGCTCCGGTATCAGAAATGGCTGCGCCTCAATGAAGCCAGGCGACTGATGCTGAATGAACATTACGATGTCACCACAGCAGCCTATGCTGTCGGTTACGAAAGCTTATCGCATTTCAGCCGGGAATATACGCGGATGTTCGGGGAGTCACCCAAGAGGGATGTTACTGTGCTGAGAAATTCAGCTGGTAAGCTTTAG	MISDKTVEKLLGVLSRDIAQRTPGTGDFPTAVEGLELFRRNEPAPPVSCLVPPSIVLVADGAKIMWVGGEPYEYNAEKFLITSLDLPASSEVLQASTSRPCVGVAYKLDQRVLMELIAQGSLPLVKKRDAGTGVGIGTVTDVLLEPFCRLLSLLDEPEAIPVLGPLIQREIHYRLLMSDQSDHLRQIAAVDGHGYRIGKAIDWLKTNIASPLRVEELASRVQMSTPSFHQHFRQLAGMSPLRYQKWLRLNEARRLMLNEHYDVTTAAYAVGYESLSHFSREYTRMFGESPKRDVTVLRNSAGKL				NA	NA	NA	NA	NA
BMS020_00319	1149	adh2	COG1979	Long-chain-alcohol dehydrogenase 2	GTGAAAGAGTTTACTTTCTACAACCCAACCCGAATCGAATTCGGTTCCGGAAAAGAGGATACTATCGGTGCACACATTGCCAGTGCTGGCGCACGTAACGTCCTGCTGTGCTACGGAAGCGAACGTATTAAACGAGAAGGCCTGTTCGCTACGGTCAGCCAGAATCTTGCCGATAACGACATCGAGTATATAGAACTTGGCGGTATCGTAAGTAACCCGGTGATATCCAAAGTCCGTGAAGGGGTGGAACTGGCGAAACACCATAACGTGGACGCTATTCTGAGCGTTGGCGGCGGCTCCGTCCTTGACAGCGCTAAGGCAATCGCGGCCGGTGCACATTATAATGGCGACGTCTGGGATTTATTCGCTGGTAAAGGCGAGCTTATCTCTGCTTTACCTTTGTTTGCCATTCTGACCCTGGCCGCAACGGGAAGCGAAATGAACCCGCATGCCGTTGTCACCAACGAAGCAACCCATGAAAAATTATCGATCGGTAACGACTACACGCGTCCGGTGGTATCCGTACTGAGTCCTGCGCTGATGACGGGCGTCTCCCGAGATTACCTGGTCTATTCTGCCGCTGATATCATTTCACACCTTATCGAAGTGTACTTCACCGCAACCGTTCAGCCTGCAATTCAGTCGCGACTGGTTGAAGCGCTACTAAATACGGTAATTGAAACCACACAAATACTCATTGCCAGTCCGGATGATGAGGCTGCGCGTGGGGAATTTGCCTGGGCAGCAACCCTTGCTCAAAACGGTTTGATCCTGTCAGGCTGTGCCGGATTCAGCTATCCGAATCATGCAATCGAGCACGCTTTATCCGCACTTTTCAACGTTCCGCATGGGGCAGGGTTGTCCGTTGTTATGCCCGCCTGGATGAAATGGTACAAAAACCAAAATACACCGCAGTTTGAGCGTTTCGCAAAATATGTGTTCGGACTCAGTTCGGCAGACGACGGCATCGCAGCGCTTGAGAAGTGGTTCGAAGAAATTGGTACGCCAACACGTCTTGAACAGCTGAACATCAGGGAAGCAGATCTGCCCGCTATCGTTGAGAACGTCCAGATTAATGTCAAAGCGTTTGGTATCGCCAGTGATTACCCGGCGGAAGTTGTAACTGAAATACTCATGCATGCTGTCTGA	MKEFTFYNPTRIEFGSGKEDTIGAHIASAGARNVLLCYGSERIKREGLFATVSQNLADNDIEYIELGGIVSNPVISKVREGVELAKHHNVDAILSVGGGSVLDSAKAIAAGAHYNGDVWDLFAGKGELISALPLFAILTLAATGSEMNPHAVVTNEATHEKLSIGNDYTRPVVSVLSPALMTGVSRDYLVYSAADIISHLIEVYFTATVQPAIQSRLVEALLNTVIETTQILIASPDDEAARGEFAWAATLAQNGLILSGCAGFSYPNHAIEHALSALFNVPHGAGLSVVMPAWMKWYKNQNTPQFERFAKYVFGLSSADDGIAALEKWFEEIGTPTRLEQLNIREADLPAIVENVQINVKAFGIASDYPAEVVTEILMHAV	PGPT0008275_236	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0008275-yqhD-K08325	NA	NA
BMS020_00320	915		COG1073	putative protein	GTGGATCATCAAAAAGTCACTTTTAAAAATCGTTACGGTATTACGCTGGCCGCAGATGTGTATCTTCCTAAAGATCGCGGGAACAAGAAGCTTGCTGCGCTTGTGATTTCCGGCCCGTTTGGCGCGGTAAAAGAGCAGGCTTCAGGTCTTTATGCTCAGACCCTGGCAGAGCGCGGATTCGTGACGCTGGCATTTGATCCGTCTTATACCGGTGAAAGCAGTGGTGAACCCCGCAATATTGCTTCCCCTGATATCAATACCGAAGACTTTATGGCCGCAGTCGATTTCATTGGACTGCAACCTTATGTGGATCGTGAACGTATCGGTGTCATTGGTATCTGCGGCATGGGAGGGATTGCCCTGAACGCTGTTGCAGTGGATAAACGCGTAAAAGCGGTCGTTGCCAGCACCATGTATGATATGAGCCGCGTGATGTCGAAAGGCTACAATGACAGCGTAACGCCGGAGCAACGCGAGCAGGCGCTGGAGAAGATGAGTCTTCAGCGCTGGGAAGATGCGGCAAACGGCAAACCTGCATACCAGCCAGCCTATAATAAACTGAAGGGCGGGGAAGCGCAGTTCCTCGTGGACTATGCGGATTACTACATGACCAAACGCGGTTATCATCCACGAGCCGTCAACTCTGGCAATTCATGGTCGGTGACAACGCCGATGGCCTTCATGAATTTCCCGCTCATGACCTATATCAAGGAAATTTCTCCGCGTCCGATCCTGTTCATCCATGGCGAAAAAGCGCATTCGCTTTACTTCTCTAAAACGGCTTATGAAGCGGCAAATCAACCCAAAGAGCTGCTGATTGTTAAAGATGCCACACATGTCGATTTATATGATCGTATGGATAAGATCCCGTTCGATAACATCACTGCATTTTTTAACAAAAATTTTAATAAGTAA	MDHQKVTFKNRYGITLAADVYLPKDRGNKKLAALVISGPFGAVKEQASGLYAQTLAERGFVTLAFDPSYTGESSGEPRNIASPDINTEDFMAAVDFIGLQPYVDRERIGVIGICGMGGIALNAVAVDKRVKAVVASTMYDMSRVMSKGYNDSVTPEQREQALEKMSLQRWEDAANGKPAYQPAYNKLKGGEAQFLVDYADYYMTKRGYHPRAVNSGNSWSVTTPMAFMNFPLMTYIKEISPRPILFIHGEKAHSLYFSKTAYEAANQPKELLIVKDATHVDLYDRMDKIPFDNITAFFNKNFNK				NA	NA	NA	NA	NA
BMS020_00321	372			hypothetical protein	ATGTTCTGGAACCCTGAAGTATTAACAAGAATAGATGCGGCCGACGACCTGAAAATCGCTCCGTATCATCCCGATATGAATACGACCGGTACGCCGACATGGATTTGGGAAGTGAAGGTGGAGAACAGACTTTTCGTCCGAGCCTATAGTGGTACCCGTTCAAAATGGTATCAGGCTGCATTGTCCCAGCAGGCGGGTAAGATACTGGCTATTGGACAAGAGTTCGACGTACTGTTCGCAAAACCATCAGACCCTGAGCTTGAAAGTAAAATTGATCAGGCTTATCAGAAAAAGTACTCCAGCAGCAGCTATGTTTCAGCAATGACAGGGACACGCGCCAGAGCGGCCACGATTGAGATTTTACCTTCGTGA	MFWNPEVLTRIDAADDLKIAPYHPDMNTTGTPTWIWEVKVENRLFVRAYSGTRSKWYQAALSQQAGKILAIGQEFDVLFAKPSDPELESKIDQAYQKKYSSSSYVSAMTGTRARAATIEILPS				NA	NA	NA	NA	NA
BMS020_00322	339			hypothetical protein	GTGAAGCGCATTAACGAACGTGCCTGGGAAGTGTTTGGTATCTATGGAAGGGTTTGTGAAAGCTGCTCCGGGGCGATCGCATTAAGCCTGTTGCAGGCGCTGGCGATGTTTGGTTGCCTTGAGAAAAGAGAGGCTGGCGGGTTAACGCTGTATTGCATTCTGACTTTCATCGCCGTTGCGGCGACGATCGGTTTTTTTGCCTCTCTGATAAGTATAGGAAGAACTATTCATATACAAAGTGAAGGTCATAAGGTAGCTGAATTCCTGATTTCCTGCGTTTTTTATCCGGTCGTTATCGGTATCCTGCTTTCGGCGCTTGCGACGCTTCAATCAATATAA	MKRINERAWEVFGIYGRVCESCSGAIALSLLQALAMFGCLEKREAGGLTLYCILTFIAVAATIGFFASLISIGRTIHIQSEGHKVAEFLISCVFYPVVIGILLSALATLQSI				NA	NA	NA	NA	NA
BMS020_00323	873	pgtP	COG2271	Phosphoglycerate transporter protein	ATGCAGGATATTATCAACCATCGTCTGGCGCCATGCCTAAACCCCTTTGTAGTGCTCTTTACTCAGGCCATACTTCTTCATTCTGAGATAGAGTTTTTTACGCGGTATAAGCAGATACTCCGCCACCTCATTGATACGTCCCTGGTGGAGATGCCGGAAGAGAAAGTGGTGCTGAAGACCAAACACGCCCAGAAAGCGCCGGAGAACATGAGCGCATTCCAGATCTTCTGCACCTACGTCCTGCGTAACAAAAACGCCTGGTATGTCTCCCTTGTGGATGTATTTGTCTATATGGTGCGTTTCGGCATGATCAGCTGGCTGCCAATCTACCTGCTGACGGTGAAACATTTTTCTAAAGAGCAGATGAGCGTCGCCTTCCTGTTTTTTGAATGGGCGGCGATTCCGTCAACCCTGCTGGCCGGCTGGCTTTCCGACAAGCTGTTCAAAGGCCGCCGGATGCCGTTAGCCATGATCTGCATGGCGCTGATCTTCATCTGTCTGATCGGCTACTGGAAAAGCGAATCACTGCTGATGGTCACGGTATTTGCGGCGATTGTGGGCTGCCTGATTTACGTCCCGCAGTTTCTGGCCTCGGTCCAGACCATGGAGATCGTCCCCAGCTTTGCCGTTGGCTCCGCCGTGGGCCTGCGCGGATTTATGAGCTATATCTTTGGCGCCTCGTTAGGCACCAGCCTGTTCGGCGTGATGGTGGATAAAATGGGCTGGCACGGCGGGTTCTATCTGCTGATGGGCGGGATCGTCTGCTGCATCCTGTTCTGCTATCTCTCCCATCGCGGCGCGCTGGAGCTTGAGCAACAGCGTAAAAACAGCGAGCAGGAAGAGGCCCGGCTGGCGCTGGCTGACGCACAGTAA	MQDIINHRLAPCLNPFVVLFTQAILLHSEIEFFTRYKQILRHLIDTSLVEMPEEKVVLKTKHAQKAPENMSAFQIFCTYVLRNKNAWYVSLVDVFVYMVRFGMISWLPIYLLTVKHFSKEQMSVAFLFFEWAAIPSTLLAGWLSDKLFKGRRMPLAMICMALIFICLIGYWKSESLLMVTVFAAIVGCLIYVPQFLASVQTMEIVPSFAVGSAVGLRGFMSYIFGASLGTSLFGVMVDKMGWHGGFYLLMGGIVCCILFCYLSHRGALELEQQRKNSEQEEARLALADAQ	PGPT0016821_732	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016821-glpT-K02445	NA	NA
BMS020_00324	450	kbp	COG1652	Potassium binding protein Kbp	ATGGGATTATTAAGTTTTGTGAAAGAAGCGGGCGAGAAAATATGGGACGCCGTCTCCGGCGACAGTAAAGAAGAGCGGGCCGATAAACTGAAAAAACATATCGATGGTCTTAATCTGCCTGGCGCCGAAAAGGTCGATATTGATGTTGCGGACGATGGCACCGCCACGGTCACTGGCGATGTTGCTTCGCAGGAGGATAAGGAAAAAATTCTGGTAGCGGTCGGGAATGTCACTGGCGTAGGTCAGGTCAGTGACGGCGTTAAGGTGACGCAAAGCGGGGCGGAAAGTCGTTTTTACACGGTCAAATCCGGTGACACCCTGAGCGCTATCTCCAAAGCGATGTATGGCTCTGCCAATGATTATCAACGTATTTTTGAAGCCAATAAACCGATGCTGACGCATCCCGATAAAATCTATCCGGGTCAAGTGCTGATTATCCCGGCGAAGTAG	MGLLSFVKEAGEKIWDAVSGDSKEERADKLKKHIDGLNLPGAEKVDIDVADDGTATVTGDVASQEDKEKILVAVGNVTGVGQVSDGVKVTQSGAESRFYTVKSGDTLSAISKAMYGSANDYQRIFEANKPMLTHPDKIYPGQVLIIPAK				NA	NA	NA	NA	NA
BMS020_00325	645	tenA_1	COG0819	Aminopyrimidine aminohydrolase	ATGGAAGCGTTTAGCGAACGCCTGCTGCGCGAACATCAACCGGCGTGGCAGGCGATGCAGCAGCACCCGTTTGTCACTGATATTGAACAGGATCGACTGCCGACAGCGGTCTTCAACCGCTATCTGGTGTTTGAGGGCAATTTTGTCGCGACGGCCATCGCGATTGTTGCCCTCGGGGTCAGCAAAGCGCCGGGTATTCATCAGCAGCGCTGGCTGATTGGCGTACTGAATGCCCTGGTTGATACGCAGATCGCGTGGTTTGAGCAGGTGTTGTCAGCGCGGCAGATCGATCCCGCTGAGTACCCGGATGATTTGCCCGGGGTACGGCGTTTTCGCGACGGTATGCTGCGGACCGCCCGCGAGGGCAGCTATGAGCAGATCGTGACCCTGATGTTCGGTGCGGAGTGGATGTACTATCGCTGGTGCCGACGGGCGAGCGATCATCGACAGAGCGATGCTGATTTACGACGCTGGGTGGAAATGCACGCGGAGGACGAATTTTATCAGCAGGCGCTCTGGCTAAAGAACGAACTCGACCGTTGCGCCATGGCGCTGAGTGAAAAAGAAAAGCAGGCGCTGTCGGCGCTTTACGGTGAAGTACTGCAGTGGGAAATTGATTTCCATCACGCTGCGTACGAGGAATAG	MEAFSERLLREHQPAWQAMQQHPFVTDIEQDRLPTAVFNRYLVFEGNFVATAIAIVALGVSKAPGIHQQRWLIGVLNALVDTQIAWFEQVLSARQIDPAEYPDDLPGVRRFRDGMLRTAREGSYEQIVTLMFGAEWMYYRWCRRASDHRQSDADLRRWVEMHAEDEFYQQALWLKNELDRCAMALSEKEKQALSALYGEVLQWEIDFHHAAYEE	PGPT0009055_1618	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
BMS020_00326	846			hypothetical protein	ATGGTTGCTATCTCAGCAGAAAAAACTAATGCAATACAAGCTATTTTTTCACGAAACAAAGCCGTTATTGGCGTTATTCATTGCGATCCTTTTCCTGGCGCGCCTAAATATCGAGGAAAATCAGTCTCCGATATTGTTGAGCGTGCGCTTCGCGATGCTGAAAATTATATTTCAGGCGGTGTTCATGGTCTGATTATTGAAAACCACGGCGATATTCCGTTTTCCAAACCTGAGGACATCGGCCATGAAACCTCCGCGCTGATGGCGGTCATTACCGAGAAAGTTCGTGAGCGGTTTGCGGTCCCGCTGGGTATTAACGTCCTGGCTAACGCGGCGATCCCGGCGATGGCCATCGCGCTGGCGGGCGGCGCCGATTTCGTCCGCGTCAACCAGTGGGCCAACGCCTATATCGCCAACGAAGGATTTATTGAAGGGGCGGCCGCAAAGGCGCTGCGCTACCGCAGTATGCTGCGCGCTGAGCATATTCGCGTTTTTGCCGATAGCCATGTCAAGCACGGTAGCCATGCCATCGTCGCCGATCGCTCGATACAGGAGCTGACGCGCGATGTCGATTTCTTCGAGGCCGACGCGGTGATCGCCACCGGCCAGCGCACGGGCGATAGCGCCACGATAGCGGAAATTGACGAGATCCGCGCGGCGACGGCGCTACCGCTCCTGGTGGGCTCCGGGGTAACGCCGGCTAACGTGAGGCAGATCCTCGGGCGGACCCAGGGGGTCATTGTGGCCAGTACGATGAAGGTCGATGGCGTCTGGTGGAACGATGTTGAGCTGGCCCGGGTGAAGCATTTTATGTCGGTCGCTCAGGCCGCGCTGGAGGAAGCCTAA	MVAISAEKTNAIQAIFSRNKAVIGVIHCDPFPGAPKYRGKSVSDIVERALRDAENYISGGVHGLIIENHGDIPFSKPEDIGHETSALMAVITEKVRERFAVPLGINVLANAAIPAMAIALAGGADFVRVNQWANAYIANEGFIEGAAAKALRYRSMLRAEHIRVFADSHVKHGSHAIVADRSIQELTRDVDFFEADAVIATGQRTGDSATIAEIDEIRAATALPLLVGSGVTPANVRQILGRTQGVIVASTMKVDGVWWNDVELARVKHFMSVAQAALEEA				NA	NA	NA	NA	NA
BMS020_00327	873	rbsK_1		Ribokinase	ATGCGTGTTTACGTTACCGGTAATATTGCCGTCGATGAAACCTGGTCTATTCCGGATATACCGAAAAAAGGCACTTCCATTCACGGCGTTAAAGTCTCGCAGGATATCGGCGGTAAAGGCGCGAATCAGGCGATTATATTATCCCGCTGTGGAATAGAGACGCGTTTAATTGCCGCCACGGGAAATGACAGCAACGGCGCCTGGATCCGCCAGCAGATAAAAAATGAACCACTGACCTTACTTCCCGACGACCCTTTCAATCAACATAGCGACACCTCGATTATTTTAAATAGCGCTGATGGCGACAATGCCATCATTACCACGACGGCGGCTGCCGACGCATTCAGCCTTGAGGACATTATTCCGCATATGGCGGACGCCGTTGCCGGCGATATTCTGCTACAGCAGGGCAATTTCTCACTCGATAAAACCCGGGCGCTGTTCCGGTACGCCAAAACTCTCGGCATGACAACGGTGTTCAACCCCTCGCCCGTCAATCCTGACTTTTGCCATCTGTGGCCGCTCATCGACATCGCGGTAGTCAATGAATCCGAGGCCGAGCTGCTTCAGCCCTATGGGGTGAAAACCTTAGTGATAACCCAGGGCGCCGCTGGCGCCTGGCTGGTTCAGGCGGGACAGCGCCAGTTTTGTCCCGCCGTGCCCGCCGAGGCGATTGATACGACCGGCGCAGGCGATACGTTCCTCGCCGTCATGCTGGCCTCCGCCCTGCTGCGCGGCGTCGCGCCGGATGACCTGGCGCTGGCGCACGCCAGCCGCGCTGCCGCCATAACCGTTAGCCGCCGGGGAACGCTCAGCGCGTTTCCCGGCAGCCATGAGCTCGCCGCCCTGTTAACCCAGGACGGCGCGCGTTGA	MRVYVTGNIAVDETWSIPDIPKKGTSIHGVKVSQDIGGKGANQAIILSRCGIETRLIAATGNDSNGAWIRQQIKNEPLTLLPDDPFNQHSDTSIILNSADGDNAIITTTAAADAFSLEDIIPHMADAVAGDILLQQGNFSLDKTRALFRYAKTLGMTTVFNPSPVNPDFCHLWPLIDIAVVNESEAELLQPYGVKTLVITQGAAGAWLVQAGQRQFCPAVPAEAIDTTGAGDTFLAVMLASALLRGVAPDDLALAHASRAAAITVSRRGTLSAFPGSHELAALLTQDGAR	PGPT0017405_4649	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
BMS020_00328	954	rbsB_1	COG1879	Ribose import binding protein RbsB	ATGATGTTATTTCACACCGGAAAACTGCGTTTACTTGCTGTCGCCACGACCATGCTGGCATCGATGAGTTTTATTTCTGCCGCCAGCGCTGCCGGTCCGACTTATGCGCTGGTGCAAATCAATCAGCAGGCGCTGTTCTTTAATTTGATGAATAAAGGCGCGCAGGATGCGGCTAAGGCCAGCGGCAAGGATTTAGTTATTTTCAATTCTAACGATAATCCCGTGGCGCAAAACGACGCGATAGAAAACTATATTCAGCAAGGCGTTAAAGGCATTCTGGTCGCCGCTATCGACGTTAACGGAATTATGCCAGCGGTAAAAGAAGCCGCCGCCGCTAACATTCCGGTGATTGCGATTGATGCCGTATTACCGGCCGGACCACAGGCGGCCCAGGTCGGCGTGGACAATATTGAAGGCGGCAGAATTATTGGTAAATATTTTGTGGACTACGTGCAGAAAGAGATGGATGGCAAGGCGAGGGTGGGGATTGTCGGCGCGCTGAATTCGGCCATCCAGAACCAGCGGCAGAAAGGGTTCGAAGAGACGCTGAAAAGCAATCCGAACATTACCATCGCTAACGTGGTCGACGGGCAGAACGTGCAGGATAAAGCGATGACCGCGGCGGAAAACCTGATCACCGGCAACCCGGATCTGACAGCAATCTATGCCACCGGCGAACCCGCGCTGCTCGGCGCTATCGCCGCCGTAGAAAACCAGGGGCGGCAGAAGGATATTAAAGTGTTTGGCTGGGATCTGACGGCGAAGGCGATTTCCGGAATTGACGGCGGCTACGTAACCGCCGTCCTGCAGCAGGATCCGGAAAAGATGGGCGCCGAAGCCCTGAATGCGCTGAACAGCATCACGTCGGGAAAAACCGTGCCGAAAACCATTCTGGTTCCGGCGACGGTGGTGACCAAAGCGAACGTCGATGCTTACCGTCCGCTGTTTAAGTAG	MMLFHTGKLRLLAVATTMLASMSFISAASAAGPTYALVQINQQALFFNLMNKGAQDAAKASGKDLVIFNSNDNPVAQNDAIENYIQQGVKGILVAAIDVNGIMPAVKEAAAANIPVIAIDAVLPAGPQAAQVGVDNIEGGRIIGKYFVDYVQKEMDGKARVGIVGALNSAIQNQRQKGFEETLKSNPNITIANVVDGQNVQDKAMTAAENLITGNPDLTAIYATGEPALLGAIAAVENQGRQKDIKVFGWDLTAKAISGIDGGYVTAVLQQDPEKMGAEALNALNSITSGKTVPKTILVPATVVTKANVDAYRPLFK	PGPT0015740_4278	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
BMS020_00329	1011	rbsR_1	COG1609	Ribose operon repressor	ATGAGTATAAAACGCGTATTGTTATCTGATGTGGCAAAGCTGGCGGGACTGTCGAAAGCGACCCTGTCGCGCTATATGAACAACAGTATTGTGCTGCCGCAGGACACCATCGACCGTATCGAAACCGCCATTCGCGAACTGGACTATCGCGGCAATAGCCTGGCGCGCCGTCTGAGCAAAGGCGGCAGCGAGACGCTTGGCCTGGTGCTCCCCGACATTACCAACCCCTTCTTTGCCGAGCTGGCCGACGCTGCCGAAGAGGCCGCTTCTGCCAGCGGCTACAGCCTGGTGTTGTGTATCACCCGCAACAACCCGGAAAAAGAGTGCCAGTTCATCCGCTGGCTGGATACCTGCCAGGTAGACGGCCTGCTGTTCACCACCAACCGCCCCGATAACGGCCTGCTGCGCAAGGAGATCCAGCGTCACGAACGCATTGTCCTGCTGGATGAAGATATTCCCGGGAGTCAGGTTCCAAAAGTGTTTGCTGATAACGTTCAGGGCGGGCGCATCGCCACCGAAAAACTGATCGCCGCCGGGCATCGTCATATCGCTTTCGTCGGCGGCCCGGACAAACTGATGAGCGTCCGTGAGCGCTATCAGGGTTTTTGCACCGCGATGGAGCAAGCCGGCCTGAGCTGGCCGCCCGAATGGGTGATGTACGGCGACTATCAGCGCGAGTTTGGCCAGCAGGCGCTGCGGCACCTCTTCAGCCAACCGGTTCGCCCTACCGCCGTCTTCGCGGCCAGCGACTATCTGGTGCTCGGTCTGCTTGACGGTCTACGCGCCAGCGGGCTCCAGGCGCCGGAGGCGCTTTCGCTAGTCGGCTTCGATGACGCCAATTACGCCGATTTTACCCAGCCGCGGATCTCCACTATCCGCCAGCCCGCCCGGGAACTGGGGCGCACCGCGGTGCACATCATGATGCGCCTGCTAAACGACGATCCGGATATCCCAGCGGAAACCCGCCTGCCGGTTGAATGGATTGGTCGCGACTCGATCAAGATCTGTTAA	MSIKRVLLSDVAKLAGLSKATLSRYMNNSIVLPQDTIDRIETAIRELDYRGNSLARRLSKGGSETLGLVLPDITNPFFAELADAAEEAASASGYSLVLCITRNNPEKECQFIRWLDTCQVDGLLFTTNRPDNGLLRKEIQRHERIVLLDEDIPGSQVPKVFADNVQGGRIATEKLIAAGHRHIAFVGGPDKLMSVRERYQGFCTAMEQAGLSWPPEWVMYGDYQREFGQQALRHLFSQPVRPTAVFAASDYLVLGLLDGLRASGLQAPEALSLVGFDDANYADFTQPRISTIRQPARELGRTAVHIMMRLLNDDPDIPAETRLPVEWIGRDSIKIC	PGPT0017992_7928	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
BMS020_00330	783	frcA	COG1129	Fructose import ATP-binding protein FrcA	ATGCAGCAGCCACAAACTACCCCGCCAAGGGTGGAGATGATCAATATCACCAAGACCTACGGGTCGATACGTTCATTGCGCGGCGTTAACCTCGAGTTGGCCCCGGGCGAAGTGCTGGGTTTAGTGGGCGATAACGGCGCGGGGAAATCCACCCTCACCAAAGTGCTCTCTGGCGCGGTGATCCCCTCCAGCGGCACGATTCGTATCGACGGTGAACAGCAGCAGTTTACCAATCCGGCCGATTCGCGCCGCTGCCATATCGAGATGGTCTATCAGGATCTGTCGCTCTGCGACACGGTCGACGTCGCGGGCAATCTGTTTATGGGCCGTGAGCCGATGAAATCGGTCCTCGGTATTCCCTTTCTCGACGAGGCCAAAATGCACGCCGATGCCAGAGAGATGCTTAAAGGGCTGGGGATCTCTATTCCGGATACCCGCCTGCTGGTGCGAAATCTCTCCGGCGGCCAGCGCCAGGCTATTGCCATCGCCCGCGCGGCGGCCTTTGACCCGAAAGTGCTGATTATGGATGAACCCACCGCCGCGCTGGCCGTCGCGGAGGTCGAAGCGGTGCTGGAACTCATTCGCCGCGTTTCCGCTCGCGGGGTGAGCGTGATTCTGATTACCCACCGCCTGCAGGACCTGTTCCTGGTGTGTGACCGGATCATGGTGATGTATGAAGGTACCAATGTCGCTGACAGACGGGTGTCCGACACCAGCCTGAACGATATCGTTAACCTGATTGTGGGCGAAAAATTCACCGCCCGCTCTGCGGCTGCACATTGA	MQQPQTTPPRVEMINITKTYGSIRSLRGVNLELAPGEVLGLVGDNGAGKSTLTKVLSGAVIPSSGTIRIDGEQQQFTNPADSRRCHIEMVYQDLSLCDTVDVAGNLFMGREPMKSVLGIPFLDEAKMHADAREMLKGLGISIPDTRLLVRNLSGGQRQAIAIARAAAFDPKVLIMDEPTAALAVAEVEAVLELIRRVSARGVSVILITHRLQDLFLVCDRIMVMYEGTNVADRRVSDTSLNDIVNLIVGEKFTARSAAAH	PGPT0016600_5306	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
BMS020_00331	1002	rbsC_1	COG1172	Ribose import permease protein RbsC	ATGAACTTAAGCAGCTCCCACATGATCCAGCATTCGCTGCCGCGCCGCCTGCTGCATAACCACTCAGGCGTAGTCAGCATCGCGCTCTTTTTCGTCTTCTGCTGCGTGGTGTTTTCGCTGATCACCAGCAACTTTCTCACCGGCACCAACTGGCTGAATATCATCCGTCAGAGCGCCCCGCTGCTGATCGTCGCGACGGCGATGACCCTGGTGATTACCACCGGCGGTATCGATCTGTCGGTGGGCTCTACCCTGGCGCTGGTCGGCGCACTCTCCGCTATCGCCCTGAATAGCTGGGGGCTGCCGTGGCCGGTGGTACTGCTCGGCGGCCTGCTGCTCGGCGGATTGGTGGGCGCCATCAACGGCTTCTTTATTGCCTATGAAGGGATTCCGGCGTTTATCGTCACCCTCGCCACTCTGGCTGTGGTTCGCGGCATCGCGCTGCTGATCACTCAGGGTTATTCGATTCCGGTTCCGGCTGACAGCCTGTTTACCTTTATCGGACGCGCGTGGGTTGTCGGTATCCCCATGCCCGCGCTGCTCGGCATTCTGATTCTGGTGATCGGGCATATCGTTCTTAATCACATGCGTTTTGGTCGCTATGTGACCGCTATCGGCGCCAACGCCGAAGGCGCGCGACGCAGCGGGATTAACACCAAAGCCGTCACGATGAAGGTCTATATCCTCAGCGGCATGGCCGCCGCGCTGGCGGGAATGATCATTACCGCTCGCCTCGGCAGCGGCTCCTCCAACCAGGGCGAAGGCTTTGAACTGCAGGTTATTGCCGCCGTGGTGCTCGGCAGTACCAGCCTGTTTGGCGGCTTCGGTACCATTATCGGCACGCTGCTGGGCGCGCTGTCGATTGCGGTCATTCAGAACGGGCTGATCCTGTCGCATATTTCGCCGTTTTACACCCAGATAGCTACCGGCACCATTATCCTGCTGGCTATCTGGCTGAACACCCGCATTCTCAACCCCACGCGCTCCGCGGCAAAAGGATAG	MNLSSSHMIQHSLPRRLLHNHSGVVSIALFFVFCCVVFSLITSNFLTGTNWLNIIRQSAPLLIVATAMTLVITTGGIDLSVGSTLALVGALSAIALNSWGLPWPVVLLGGLLLGGLVGAINGFFIAYEGIPAFIVTLATLAVVRGIALLITQGYSIPVPADSLFTFIGRAWVVGIPMPALLGILILVIGHIVLNHMRFGRYVTAIGANAEGARRSGINTKAVTMKVYILSGMAAALAGMIITARLGSGSSNQGEGFELQVIAAVVLGSTSLFGGFGTIIGTLLGALSIAVIQNGLILSHISPFYTQIATGTIILLAIWLNTRILNPTRSAAKG	PGPT0016590_2088	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
BMS020_00332	1080	opd		Parathion hydrolase	ATGAACGGATCAATTTTTCGTCATCCCTCACCGCTGCCGGTTGGCGTCAGCAGCGGTTACGTGATGACAGTGCTTGGCCCGCTGCCGATTAACGAAATGGGCGTCACCCTGATGCATGAGCATATTCTGCTGGATGCCTCCGGCAAATGGGTGCCGCCCTGCTGCTGTAGCGATCGCCATCTTGCCGAAATGCCGGTGAAAATGGAAAACCTTGGCGAACTGTCGCTGAATCCGTTGATGAGCCGCGATAACTGTCAGCTGTTTGATGTCGACGTTGCGATTGAGGAACTCACTAAATATCGCGCCCTTGGCGGCGAAACCGTGGTCGACCCGACCAATATCGGTATTGGCCGCGATCCGAAAGCGCTGGCGCGCATCGCGCGTCTGACCGGTCTGAACATTATTATGGGTACCGGCCTCTATCTGGAGCCCTCGCACCCCGAGTGGGTAAGGACCAGCAGCGTTGAACAGCTGACCGAACGGCTGATTTACGATCTTGGCGGCGCGGAGGAGAAACCGGAGGTACTCGCCGGGCTTATCGGCGAAATCGGTATCTCCAGCCGTTTTACGCCGGATGAGGAGAAATCCCTGCGCGCTGCGGGTCGGGCCAGCGCCGCGACCGGCGTGCCGATCGAGGTCCATCTGCCGGGCTGGGAGCGGCTGGGTCATCGGGTGCTGGATATTCTCGAGCAGGAAGGCGCCGATTTACGCCATACCGTGCTGTGCCATATGAACCCCAGCTTTGCCGATAAGCGCTACCAGCGCGAACTGGCCCAGCGCGGAGCATTCCTCGAATACGACATGATTGGCATGAGCTATTACTACGCCGACGAGTCAGCGCAGTCGCCCTCCGACGAGGAGAACGCCCGCGCGATCCGCGAGTTAATTGACGACGGCTATATCCAGCACATTCTGTTGTCGCAGGATGTCTTCCTGAAAACCATGCTCACCCGCTACGGCGGCCACGGTTACGGCTACATACTCAAGCATTTTGTTCCGCGTCTGCGGCGCCACGGCGTCAGCGGCGAACAGCTTGAAACCTTAATGATTGGAAACCCCCAGCGGGTCTTTGGCGGATAA	MNGSIFRHPSPLPVGVSSGYVMTVLGPLPINEMGVTLMHEHILLDASGKWVPPCCCSDRHLAEMPVKMENLGELSLNPLMSRDNCQLFDVDVAIEELTKYRALGGETVVDPTNIGIGRDPKALARIARLTGLNIIMGTGLYLEPSHPEWVRTSSVEQLTERLIYDLGGAEEKPEVLAGLIGEIGISSRFTPDEEKSLRAAGRASAATGVPIEVHLPGWERLGHRVLDILEQEGADLRHTVLCHMNPSFADKRYQRELAQRGAFLEYDMIGMSYYYADESAQSPSDEENARAIRELIDDGYIQHILLSQDVFLKTMLTRYGGHGYGYILKHFVPRLRRHGVSGEQLETLMIGNPQRVFGG	PGPT0006755_96	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-ORGANOPHOSPHATE_DEGRADTION,PGPT0006755-php|opd|adpB-K07048	NA	NA
BMS020_00333	756			hypothetical protein	ATGCAGAAAAAAATCTTACTGGTCGGTGAGTCCTGGACCAGCACCTCAACGCACGTTAAAGGCTTCGACCAGTTTGCCACCGCCACCTGGCACACCGGCGCAACGGATTTTCTGGCCGCGCTCGCCGACAGTCCCTATGCCATTACCTATATGCCCGCCCACGCGGCGGCGACCGACTTTCCGCTGACGCTGGAAGCGCTGGAATACTGGGATGCGATCATCCTTTCGGATATCGGCGCCAATACGCTGCTGCTGCATCCGGACACCTGGCTGAAGAGCCGCCGCACCGCCAACCGTCTAACGCTCCTGCATGATTACGTGGCCGGCGGGGGGGCGCTGATGATGATCGGCGGTTATTACAGCTTCCAGGGGATCAACGGCGGCGCACGCTACCGTAATACCGCGGTGGAGAAAGTGCTGCCGGTTCGCTGCCTGGCCTGGGACGATCGCATTGAAACCCCGGAAGGCTGCTTTGCTGAAGTGGCGGGATCTCACCCCCTGTTTAACGATATTCCGGGCGAATGGCCGTGGCTGCTGGGCTATAACGAGGTTGAAATGCATCCGGAAGGTAAACTGCTGGCGACCGTGGCCGGTACCGATCATCCTCTGCTGGCCATTCGCGAATATCAGCGGGGGCGCTCGCTGGTGTGGACCAGCGACATGTCGGCGCACTGGCTGCCGGAAGAGTTTGCCAAATGGCCCGGCTATCGCCAGCTGTGGATTAACTGCCTCGACTGGCTGACGGAACGCCGCTGA	MQKKILLVGESWTSTSTHVKGFDQFATATWHTGATDFLAALADSPYAITYMPAHAAATDFPLTLEALEYWDAIILSDIGANTLLLHPDTWLKSRRTANRLTLLHDYVAGGGALMMIGGYYSFQGINGGARYRNTAVEKVLPVRCLAWDDRIETPEGCFAEVAGSHPLFNDIPGEWPWLLGYNEVEMHPEGKLLATVAGTDHPLLAIREYQRGRSLVWTSDMSAHWLPEEFAKWPGYRQLWINCLDWLTERR				NA	NA	NA	NA	NA
BMS020_00334	1113	argE_2	COG0624	Acetylornithine deacetylase	ATGACCGCTACCCTTGAGCTCGCCCGGCAACTGCTGGGCTTTAACACCATCAACCCGCCGGGCAGCGAAGCTGACTGCATGCGGTTCTTCGCCGACTGGCTTGCCGATAGCGGTTTTGAGGTATCGCTGTCGTCATTCGGCGAGGGACGCTGCAATCTTATCGCCAGGCTGCCCGGGTCGAAGAGCGGTAAACCGCTGGCTTTTACCGGACATCTGGATACCGTCCCGCTGGGAAATGCCCGCTGGCAGTACGATCCTTTCGGTGCGCAGATGGAAGACGGGCGTCTTTATGGACGCGGGTCGAGCGATATGAAAGCGGCGATAGCGGCATTTGCCGTCGCCTGCGTTCATCAGCAGCAAACGATTTGCGCCGGGCGCGGCGCACTATTGCTGATCACCGGCGGAGAGGAGACCGGCTGCGACGGCGCGCGGGCGCTGATCGCCTCCGAGACGTTGCCTGAGGTGGGCGCGCTGATCGTCGGTGAGCCCACCGCCAACTACCCGGTTATCGGCCATAAAGGCGCCCTCTGGCTACGCTGCGAAACGCGGGGAAAAACCGCCCACGGCGCGATGCCGGAGCTGGGGATCAATGCTATCTATCTTGCGGCGGATGCGCTGGGTAAGATCCAGCATTTTTCGCCGGGCGCGCCGCATCCGCTGATGAAGCAACCCACCCTCAACGTCGGCCGCATAGAGGGCGGACTCAATATTAATTCCGTACCGGACCGCACGCGTTTTGATGTCGATATCCGCAGCGCGCCCAATTTACAGCACGCCGCTATCCGGGAGTGCTTGACGACGCTGCTGGGCGAAAGCGTTACGGTCACCACGCTGGTCGACCTGCCTGCGGTCCTGAGCCGGGAGGATCATGCATGGATTAAGCAGGTTTACCAACGCTGTCAGCCGCTGCACGCTGAGCCGATTACGCCGCGCGTGGTGCCCTACTTTACCGACGCCTCGCTGCTGCTGCCTGCCCTGGGAGACCCGCCCTGTATTATTCTCGGCCCCGGGGAGCCGTCGATGGCTCATCAAACCGACGAGTACTGCCTGCTCAGCCGGCTGGCGGAGGCAGAACGGCTATACGGTGACCTGATTCGCGACTGGATGGCCTAA	MTATLELARQLLGFNTINPPGSEADCMRFFADWLADSGFEVSLSSFGEGRCNLIARLPGSKSGKPLAFTGHLDTVPLGNARWQYDPFGAQMEDGRLYGRGSSDMKAAIAAFAVACVHQQQTICAGRGALLLITGGEETGCDGARALIASETLPEVGALIVGEPTANYPVIGHKGALWLRCETRGKTAHGAMPELGINAIYLAADALGKIQHFSPGAPHPLMKQPTLNVGRIEGGLNINSVPDRTRFDVDIRSAPNLQHAAIRECLTTLLGESVTVTTLVDLPAVLSREDHAWIKQVYQRCQPLHAEPITPRVVPYFTDASLLLPALGDPPCIILGPGEPSMAHQTDEYCLLSRLAEAERLYGDLIRDWMA				NA	NA	NA	NA	NA
BMS020_00335	429			hypothetical protein	ATGTCCGTGAAAATCAACGCCGTGCTCGTTTGCACCCTCTCTTTCCTCCTTTCCGCCTGTTCGGGTCATGCTTCTGCGCCGGACAGCGCCGAAGACGCTCAAATATCGGCAGAAGTGGATAAGATACTTCGCGATTATCAAACGGGTGCCGATACGTCACCGCAGGCCAATGCCTCACGCTATCTGGCGCGGATCCAGGCGGCTATCTTCGCTAACATAGACCAGCCGGACTCCTGGCAAGGGCAAAAATGCTCGGTGCGCTTTACCCTGCAGCGTGACGGGACGGTGCAGGATCCGGCGGTCGAGAACGGCGATCGGCCATTCTGCGCGCAGGTGATGTCCGCGCTGAAAGTCGCCAAAATTCCGCCTGCGCCAGATGAAAAAACCTATCAAACATTCAGCCATGTCGTTCTGGACTTGAAGGCCTGA	MSVKINAVLVCTLSFLLSACSGHASAPDSAEDAQISAEVDKILRDYQTGADTSPQANASRYLARIQAAIFANIDQPDSWQGQKCSVRFTLQRDGTVQDPAVENGDRPFCAQVMSALKVAKIPPAPDEKTYQTFSHVVLDLKA				NA	NA	NA	NA	NA
BMS020_00336	906	dmlR_3		HTH-type transcriptional regulator DmlR	ATGCGGCCAGTTCTTGATTTTAATGCGCTGAAAGTCTTCATCGCTGTAGTTGAAAGAGACAGTTTTGTGGGGGCATCGAAAGCCCTTGAAATGCCGGCATCAAATGTGAGCCGTTGCATTGCTCAGCTAGAAGACAAACTGAATCTTCAGCTTATTGAACGCAGTACCCGACATATGAAACTCACTCAGGCGGGGCATCTACTCTATACCCGGGCGAAGCCATTACTGGAAGCGCTTGAGCAAACTGAAACCGAATTAACGTTGCGGCAAATGCAATTCAAGGGGCCATTACGTATCTGTATTCCCAATGAAATCGGTCCTGCACTGCTGGGCGCTGTTGTTGCCGATTTCGCCTGTCAGCATCCGGACCTGGAGATAAGTTGCGTCACCAATTTGTCTGGTTATGAATCCCTGCGCAATGATCTGGATCTCGCTGTCATTGTGAGTCGTGGTCAGATGGATGACAGTGACTACATAGCCCGTCACCTGGTGACCATCCCTTGCACCATCGTTGCGGCTCCCTCCGTTATCCAGCGTTATGGCACGCCTTCTCGTATACAGCAATTTGAAGAATTGCCCTGTATTACAACGGTAAATGCGCTTAAAGGCGCTCCCTGGCAGTTTGTGAATAAAAAGGGCGGATTCGAGACGATTAAAGTGAACGGTCGTTATCGGGTCAACAGCGGGGAGATGGCAGGGCGAGCGGCCATCTCAGGCGTCGGTTATGCCATCCTGTCGAAACAAGCCTGCCAGCCCTATATTGACGATGGCCGGTTAATCGAAATTGAATTTGAACAATCGGCGGCCCCCTTGCAATTGTTCGCCCTGTATTCCGATCGGCGTTATTTGCCGGCAAAAACAAGAGCGCTTATTGATTTCATGCATCAGAGATTGAGTCATGAATAA	MRPVLDFNALKVFIAVVERDSFVGASKALEMPASNVSRCIAQLEDKLNLQLIERSTRHMKLTQAGHLLYTRAKPLLEALEQTETELTLRQMQFKGPLRICIPNEIGPALLGAVVADFACQHPDLEISCVTNLSGYESLRNDLDLAVIVSRGQMDDSDYIARHLVTIPCTIVAAPSVIQRYGTPSRIQQFEELPCITTVNALKGAPWQFVNKKGGFETIKVNGRYRVNSGEMAGRAAISGVGYAILSKQACQPYIDDGRLIEIEFEQSAAPLQLFALYSDRRYLPAKTRALIDFMHQRLSHE				NA	NA	NA	NA	NA
BMS020_00337	1209			hypothetical protein	ATGCCACGGGTCACCACAACATTTAATCAAAAGGCGCTGATACGGATAGCGCTGGTCATCGCTTTTGTGCAGTTTACTAATGCGCTGGAATATATGATGTTCAGTCCTGTTTTTACATTTATGGCCGCGGATTTCGCTGTTCCCGTCTCCTTCTCAGGCTATGTATCCGGTATGTACACCTCTGGAGCCGTCCTGTCGGGAATTATCGCCTTTTACTGGGTTGACCGTTGCAATAAGAAGCGTTTTTTTATCGCTAATATGGTGCTGCTAGCCATAGCGACACTGTTGACAACATTCATAACCCGTTTTCCTCTTCTTCTTACCTTGCGATTCTTCGCAGGGCTGGTTGGAGGGACGACAATGGGTGTGGGGATCGGTATTTTGATAAACCACACGCCGGCTGACTTGCGCGGAAAAATGTTGGCGACGGTGATTGCGTCATTTTCGCTGGTAAGCGTTGTGGGGATGCCCGCTATATTATTTTTGTGTACTCATTACGGTTGGCATGTCGCGTTGTGGTTAATCAGCACGCTCTGTTTGTTGGCATTGCCATTGATCGTCACTGTCATTCCTCAGGACCCCGTCACTTTCGACACGTCTCACGCGCTGCCCCTCGATGTTGATACTTTACTGTTTGCTTCCGGTAATGCGCTGGTACAGTTTAGTCCAATGCTGATCATTCCTGTTCTGGCGCCATTAATGACGCAGCTGTTGGGGGCTTCTGAAGGCCTGCTGCCCTGGCTGTTCTTCGGCGGGGGACTGGCGGGGTATTTGTCTACAAGAATGACAGGGGCATTAACCTCTCGTTTTTCTGCATTGAGTTTGGCGACCGGGTCAACCCTCGTTTTTATTCTGAGCTTGCTGATACCCTTCCTGGGCTATCCGCATCCGGCGCTGTTTATGACGTTATTTCTCGGGGCAGCTTACAGTCGTCTGGTTTCATCTTCGGCGGTTACGATTCAGTTTCCTGATAACAACCAACGAGCGGGATTCTCTTCATTACAGACGTCCATGATGTATCTGATGACGACTGCCGCATTTTTCCTGTCCGCTTTTCTGTTACCTGACCATCGCATGGCGCTCCAGAATATGGACAGGTTGCTGGCGCTATGTGCAATTTCCGCATCAGGATCCCCAATTATTATCATCATTTTGCAAAAGAAACTGGCTAAGCGGACGATCCCGCCCGATCGGTGCACCACTGGCTAG	MPRVTTTFNQKALIRIALVIAFVQFTNALEYMMFSPVFTFMAADFAVPVSFSGYVSGMYTSGAVLSGIIAFYWVDRCNKKRFFIANMVLLAIATLLTTFITRFPLLLTLRFFAGLVGGTTMGVGIGILINHTPADLRGKMLATVIASFSLVSVVGMPAILFLCTHYGWHVALWLISTLCLLALPLIVTVIPQDPVTFDTSHALPLDVDTLLFASGNALVQFSPMLIIPVLAPLMTQLLGASEGLLPWLFFGGGLAGYLSTRMTGALTSRFSALSLATGSTLVFILSLLIPFLGYPHPALFMTLFLGAAYSRLVSSSAVTIQFPDNNQRAGFSSLQTSMMYLMTTAAFFLSAFLLPDHRMALQNMDRLLALCAISASGSPIIIIILQKKLAKRTIPPDRCTTG	PGPT0028991_3955	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
BMS020_00338	630	iprA_1		Inhibitor of hydrogen peroxide resistance	ATGTCCTCTTCAGCAAAACCTCACAGAGGTTCACCCTACGCGCAAGAGTTGATGACGCATTTACAGCCGTATTGCACGCCACGTAAAACTGAAAGGGGGGAGCAACTGGATTTCAAGGTGAATGGCCAGGGGATGTGTTACCTCATCCTTGAGGGAACCGTAGCGGTTTATCGCCGAAACGATAATATGATGCTGTCCACTGCGCGCAGTCCCGCCGTGTTTGGTCTTGCCAATCTGACGGATATTTACTTCGATGATTACATTAAAACTATCAACTCCTGCGTGATTGGCGAGATCTCCACCGCTCGTGTTCATGACATTATTAAAGAAAAGTCGTTATGGGGGCTGCTCTCAAAGCAACTGATGTTTGTGTATGGCCGACTTTACAACAATGTGATGCCGCAGGGCGCACCGACGGCGTACGAGATGATCCGCCAGCAGTTGCTCAATTTAATCGAAGAAGATGAGAGTTATCGCGCCGCAGTCACAGCGGAACTCTACATCCGTGAGAAAACCCATCTTTCTCGCAGCGGCGTCATGCGCATTCTTGCAGATTTAAAAACGGGTGGTTTTATCGAAATGGAAGAGGGAAGACTCATTAAAATCCATAAGCTTCCCGCCAGGTACTAA	MSSSAKPHRGSPYAQELMTHLQPYCTPRKTERGEQLDFKVNGQGMCYLILEGTVAVYRRNDNMMLSTARSPAVFGLANLTDIYFDDYIKTINSCVIGEISTARVHDIIKEKSLWGLLSKQLMFVYGRLYNNVMPQGAPTAYEMIRQQLLNLIEEDESYRAAVTAELYIREKTHLSRSGVMRILADLKTGGFIEMEEGRLIKIHKLPARY				NA	NA	NA	NA	NA
BMS020_00339	660	iprA_2		Inhibitor of hydrogen peroxide resistance	ATGAACACGCGCTTAACCACCCCGGAAAACCAGGACAAATCAATTGCCCTGGAATTAAAACCATTTCGGCACATCGAGACTCTGATAAATCATGTGTTGCCAGCAGCAGAAAGAGTAGTGATCGGCAGAGGTGAGGTCGTGCATTATTATAAAGATGATATCCGGCAATGTTTTTTACTATTGCAAGGTAGCGTCGCGCTGCACCGTCGCGGCGATGGCATTGTTTTAAATTCTGAATCATCACCCTTTATTCTGGGCGTCAGTAGTCAGTTTTCCTCAGAGCATCTCTATGTGAGAGCGCTGGAGACGTCAGAGATCGCCCGGGTGTCACTGGATTGTTTTAATCACATCGTGGCGCAACTGGATCTATGGGAGCATTTTTCGAAACTCCTGATTTATACGGCCTCCCGGGTGTATGAGCATTGCGCACAAATCTCGCAGATGTCGGCTTATGACATCATCCGCTTTCAGCTTGTTGAACTGATGCAAGAGCCGGATGCGATACGGCAACAAATTACGGCTGCAGCCTATATTAAGAGCCGAACCTATCTTTCACGGAGCGGGATTATGCGAATTCTGGCAGAGCTGCGAACCGGGAACTACATCACCATGGAACGGGGTATACTTCTTGATATCAACCATTTGCCTCGAAAATACTGA	MNTRLTTPENQDKSIALELKPFRHIETLINHVLPAAERVVIGRGEVVHYYKDDIRQCFLLLQGSVALHRRGDGIVLNSESSPFILGVSSQFSSEHLYVRALETSEIARVSLDCFNHIVAQLDLWEHFSKLLIYTASRVYEHCAQISQMSAYDIIRFQLVELMQEPDAIRQQITAAAYIKSRTYLSRSGIMRILAELRTGNYITMERGILLDINHLPRKY				NA	NA	NA	NA	NA
BMS020_00340	531	fimF_1		Protein FimF	ATGAAAAAAAGTCTTGTTTTAGTTGCCTTGACCGCAACTGCAGCGCTGTCTATGTCTCACGCTTTTGCTGCCGCTGGCACCGTGAATTTCGTCGGCAATATTCTTGATACTGCCTGTGAAGTCGATGTGGCATCGCAAAACCAGCAGGTCAATCTCGGTAACTTTTATAAAACTGAATTTCCGAACAGTGGCGCAAAAGCGGCTGCAAAGGATTTTAATATCGTGCTTAAAAACTGCCCAACCACAGTGACTTCGACAAAAGTACGCTTTGATGGCACCCCCGATCTGACCAACCCTAACCTGCTGGCTATTGATACCTCAACCTCCAGTGCGGCGTCAGGGGTGGCGATTAACCTGATGACCGCCGATAAAGTCGACCTGCCTTTACACGGTGAGAACAGCTATAACTACACCCTTAGCAGCACCCAGGACAATACGCTGAAATTCTACGCGCAATATATCTCCACCACGGCATCAGTAACGCCGGGTACGGCCAACTCTGTTGCTAACTTCTCCATTGTATATAACTGA	MKKSLVLVALTATAALSMSHAFAAAGTVNFVGNILDTACEVDVASQNQQVNLGNFYKTEFPNSGAKAAAKDFNIVLKNCPTTVTSTKVRFDGTPDLTNPNLLAIDTSTSSAASGVAINLMTADKVDLPLHGENSYNYTLSSTQDNTLKFYAQYISTTASVTPGTANSVANFSIVYN	PGPT0016030_1689	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016030-fimA-K07345	NA	NA
BMS020_00341	678	lpfB_1		putative fimbrial chaperone LpfB	ATGAATGTTCTTCGCAGTATCTTGCTTACCACCACGATATTGAGTATTGGCTTATCCGCTGCTCAGGCCGGTGTCGTTATTGGTGGTACGCGGGTCATTTTTGATGGTAATAAAAAAGAAGCCTCAATTGGCATAAATAATCCTGATAAAACCCCCTACCTGATCCAGTCCTGGATCGAAACACCAGGTGGCGGTACCGAAAAGGCGCCTTTCATCATTACGCCGCCGTTATATCGACTGAATAATGGCCAACAAAACGTCGAGCGCATTGTTGCCACCGGAGCATTACCTCAGGATAAAGAGAGCTTATTTTGGCTTAATATAAAAGCCATACCCTCTGCAGCTAAAGTTGACAATACGTTGCAAATTGCCATTAAAACCAGAATCAAGCTCATCTACCGTCCGGCGGCGATGAAAGGCGCATCCCCTGAAGAGCAGGTCGATAAATTACGCTGGCAACGCGTCGGTAATAAGATACAGGTAAACAATCCGACTCTGCATGTCATGAATTTTAACGAAATTTCACTATCAGGTAAAAAATTACCCGATGTCAGTTATGTATTACCCGGTAGTACAGCGACGTTCGATTTACCCTCCGGCGTAACGGGCGGGCCAGTGACATTCAAAATTATCAATGATTATGGCAGTCCCGGGGCAGAACACAAAGCCAGTCTGTAG	MNVLRSILLTTTILSIGLSAAQAGVVIGGTRVIFDGNKKEASIGINNPDKTPYLIQSWIETPGGGTEKAPFIITPPLYRLNNGQQNVERIVATGALPQDKESLFWLNIKAIPSAAKVDNTLQIAIKTRIKLIYRPAAMKGASPEEQVDKLRWQRVGNKIQVNNPTLHVMNFNEISLSGKKLPDVSYVLPGSTATFDLPSGVTGGPVTFKIINDYGSPGAEHKASL	PGPT0016035_1400	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016035-fimC-K07346	NA	NA
BMS020_00342	2535	elfC_1	COG3188	putative outer membrane usher protein ElfC	ATGATGATGGCAATGGATTATATAAAAGCACGTTCTCCACGGTTGGCATTATTGATAACCATCGCGCTCTTCGGTAATACGCAAAATAGCTATAGTCGCGTTTTTTTTAATCCAGAACTGGTTGAACTGGATAATCCGGGGACAGAAAAAGTCGATCTCTCTGGTTTTGAATCGGGCGCGCAAGCTCCCGGGGATTATCATGTTGATATCGTCCTGGACGATCGGTTAGTTGATACCCGCGATATCAGGTTTGTGTTGCTGAAAGAGCCTGGCGGTGATGACAAATTAGTCCCCTGTTTATCCATTGAGCAATTAGAAAGCTGGGGAGTGAAGACTGGACTTTTTTCCGCGTTAAAAGGCGAAACTTCCTGTGCGAACCTGTCCGCGATCCCTCAGGCCAGTACGGATTTCCAGTTTGCCATGCAGCGTCTGGTATTGAGCATTCCGCAAGCGGCACTATCAGCGCAAGCGCGCGGAGCGGTGTCGCCGGATCGCTGGGATCAAGGGATTAACGCCGCCCTGCTCAACTACAGTCTGACTGGGGCCAATAACTGGGCCAAAAATAGCAACAGCAGCACCAGCGATAATCAGTATGCCAACCTGCGTCCTGGCGTGAATATTGGCCCCTGGCGGTTAAGAAATTACACCACCTGGTCGCGCGATTCACAGGGTCACGATGCCTGGAAGACGGTTTATACCTATGCTCAGCGTACGATAATCCCGTTACAGTCGCAGCTCACGCTGGGTGATAGCTCTGCCCCGGCAGATGTCTTCGACAGCATGCCTTTCCGGGGAGGACAACTTGCCTCCGACGATGACATGCTGCCCGACTCCCTCAAGGGCTATGCCCCAGTGGTGCGTGGTATCGCCCGGACCAATGCCCAGGTGATAATTCGCCAGAATGGCTATCAGATATACCAGAGCTTTGTGGCGCCGGGGGCTTTTGAAATCACGGATATGTATCCTACCGGCGGCGCCGGCGATCTTGATGTCACTATTAAAGAGGCTGATGGCAGTGAGCAGCACTTTAGCGTGCCATTTGCCTCCCTTCCCGTATTACAGCGTGAAGGCCGAATAAAATATGCGTTAACGGGCGGCCAATATCGTTCTTACAACGGCAGCGTGGACAAAACGCCCTTTGCTCAGATGAGCGTTATTCTCGGCTTGCCCTATGGCTTTACGTTTTACGGCGGATTACAGGAGTCGAGTAAGTACCAGTCCCTCGCCGTGGGCGTCGGTAAAAACATGGGTAACTTTGGCGCAATCTCCAGCGATATCACCCAGGGCTGGTCTACGCCGCAAAATATGCCGAAATCCAGGGGGCAATCATGGCGGGCTCGATACAGTAAAAATTTTGCCGCAACGGGCACCAACTTCGCGATTGCCGGCTACCGCTATTCGACCAGCGGCTACTATGGCATGCAAGAGGTCCTGGATTCTTACGGTGACAGTCAGGCGCTTCAGGACCGACGCCGCAACCGTGCTGAGCTGACGTTGAGCCAGGGGTTGGGAGACCATCTGGGATCGTTGATGCTGAACGCCGCGCGTGAAGATTACTGGAATTCGGGTAAGCCGATGGAATCATGGAGCGTTGGGTATAACAACTACTGGCACAGTATCAGTTATGGCCTGACCTGGACGCTGAGTAAGAATGGGAGCGCGGGATCGTACAGCTCACCCCAGAGCGACGATAAAAACCAGATGCTGGCGCTGAATATCAGCATTCCCCTGGAAAAACTGTTGCCGCAGACATGGGCAAACTATGGCATGAATACCAGCAAGAATAACGGTACGACACACAGCGCTGGGTTAAATGGCGTTGCTTTGCCGAATAATGCGCTCAACTGGAATATTCAACAGGGTTTCGGCACTCACGATGCGGCCTACACCGGCAATATGAATGGTGATTATCGCGGCACCTATGGCGAAATCACAGCCGGGTACAGCTATGACAAAAATACCGATCGTCTGAATTATGGGATTCAGGGAGGTGTGGTTGCGCATGCCAATGGCGTGACGTTTTCTCAGCCCTTGGGTGAAACCAACGTGCTGATTGCCGCCCCCGGGGCTGCCGGCGTAGGCATCCAGAATATGACCGGAGCGACAACCGATTATCGCGGATATACGGTTGCCTCTAACTTAATGCCTTATCGCAAAAATGATGTGTCATTAATCACCGATACATTACCGGCTAACGTTGAGTTAGAGCAAACGGTTAAAACCGTGGTTCCTACGCGTGGCGCGATTGTCAGGGCGAATTATCGGGCAAGCGTAGGCGTTCGCATGTTGATGACCTTGAGCCAGCGAAACGGCCAGGTAGTGCCGTTTGGCGCAATGGCCAGCGTTGATGGAACAGATCATAACAGTTTTATCGTGGGTGATAGCGGACAGGTCTATTTGACGGGTCTCGATCCCGAGGTAAACCTGACCGTGAAATGGGGAAATCAATCCGCAAACACCTGCAGGGTTCATTACTCGATAAACATGACGAAGCTGAATAACGATGTGATTATCGATAATGCTGTTTGCCGATAA	MMMAMDYIKARSPRLALLITIALFGNTQNSYSRVFFNPELVELDNPGTEKVDLSGFESGAQAPGDYHVDIVLDDRLVDTRDIRFVLLKEPGGDDKLVPCLSIEQLESWGVKTGLFSALKGETSCANLSAIPQASTDFQFAMQRLVLSIPQAALSAQARGAVSPDRWDQGINAALLNYSLTGANNWAKNSNSSTSDNQYANLRPGVNIGPWRLRNYTTWSRDSQGHDAWKTVYTYAQRTIIPLQSQLTLGDSSAPADVFDSMPFRGGQLASDDDMLPDSLKGYAPVVRGIARTNAQVIIRQNGYQIYQSFVAPGAFEITDMYPTGGAGDLDVTIKEADGSEQHFSVPFASLPVLQREGRIKYALTGGQYRSYNGSVDKTPFAQMSVILGLPYGFTFYGGLQESSKYQSLAVGVGKNMGNFGAISSDITQGWSTPQNMPKSRGQSWRARYSKNFAATGTNFAIAGYRYSTSGYYGMQEVLDSYGDSQALQDRRRNRAELTLSQGLGDHLGSLMLNAAREDYWNSGKPMESWSVGYNNYWHSISYGLTWTLSKNGSAGSYSSPQSDDKNQMLALNISIPLEKLLPQTWANYGMNTSKNNGTTHSAGLNGVALPNNALNWNIQQGFGTHDAAYTGNMNGDYRGTYGEITAGYSYDKNTDRLNYGIQGGVVAHANGVTFSQPLGETNVLIAAPGAAGVGIQNMTGATTDYRGYTVASNLMPYRKNDVSLITDTLPANVELEQTVKTVVPTRGAIVRANYRASVGVRMLMTLSQRNGQVVPFGAMASVDGTDHNSFIVGDSGQVYLTGLDPEVNLTVKWGNQSANTCRVHYSINMTKLNNDVIIDNAVCR	PGPT0016040_1405	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016040-fimD|fimC|mrkC|htrE|cssD-K07347	NA	NA
BMS020_00343	981	mrkD_1		Fimbria adhesin protein	ATGCTGGCTGTGTTGTTTCCATTGAGTGGCTTCTGTTGTGATTATACTTACATCGGCTCTCCCTATACCGTGGATTATGGCAATATTATCGTTCAGCGCGATGTTCCCGTTGGCCAGGCGATAAGCAATGAGATATATGGCTCTTTAGCACATGCTTATACCTGCGTCACAACCGGCAACGAAGGGTCTAGCTCAGGAATGAAAAGCGCTATTTTACCCTATGTCGCGACGTACGGCGCGCGGCGCGTTTATCAAACCAATGTGCCTGGGGTGGGTATTTCTTTTGGCTTTTACATGAACTCCAAAGCAGGCGCGTCGACATTTAGCGGCACCGATTATATTGACCGCGGTAACGCTTCAATGTCCAGTTGGTCTTCAAACCCAGGCGAGCTGGTTATTCATGATTATCAGCCGGTTATACAATTCTGGAAGATTGGTGATATTACATCTGGCTCAGTAACGGGGCAACTGGCATCGTTTGTCGCCTTTACGATGCAATATCTCGGCGGAGAACAAGCTCCTGAGATCCCCGTCAATGCGGGGACCGGATCTATTACCCAGGTGGCATGCGCGGTGACAACGTCGAATATGGTATTTGAACTGGGGGACGTTTTGGTCAGCGAGTTTGGTTCTGCGGTGGGATCAACCCCCGCTAATGCGCAGAAAACGCAGAATCTCATTCTGGACTGTGACGCCGGAGCCAATATTAACGTCATGCTCTCCGGGGCACAAAATCCAGACGTCAGCGATAATACCGTGCTGGCGTTAACCGGTCAGGGAAGCGCAGGCGTCGCACAGGGGGTTGGCGTGCAGCTGGTTTATAACAATACCCCTCTCATCCTTGGCAATAACCTTGTTCTGAAGAGAACCAATGGCGGCCAGGAGATGTTTCCGTTAACCGCACGCTACTATCAGACCAATACAACGGTAACCACCGGCATCGCCAATGCCTCCGCAACGCTGAGTCTTACCTATCAATAA	MLAVLFPLSGFCCDYTYIGSPYTVDYGNIIVQRDVPVGQAISNEIYGSLAHAYTCVTTGNEGSSSGMKSAILPYVATYGARRVYQTNVPGVGISFGFYMNSKAGASTFSGTDYIDRGNASMSSWSSNPGELVIHDYQPVIQFWKIGDITSGSVTGQLASFVAFTMQYLGGEQAPEIPVNAGTGSITQVACAVTTSNMVFELGDVLVSEFGSAVGSTPANAQKTQNLILDCDAGANINVMLSGAQNPDVSDNTVLALTGQGSAGVAQGVGVQLVYNNTPLILGNNLVLKRTNGGQEMFPLTARYYQTNTTVTTGIANASATLSLTYQ				NA	NA	NA	NA	NA
BMS020_00344	165			hypothetical protein	ATGCAAATTGCCGAAGAACTGATGGTGAGTGAGAAAACGGTCTATACGCATAAATATATGGTGATGAGGAAATTTAACTTACATAGCGATTATGAGTTAATGCTCCTGCTCAATAAGCTGATAATAAATAACGACTGGCCCAAGGGCTTTATAAATGTAAATTAA	MQIAEELMVSEKTVYTHKYMVMRKFNLHSDYELMLLLNKLIINNDWPKGFINVN	PGPT0012935_1211	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-VarA|VarS_SIGNALLING_SYSTEM,PGPT0012935-gacA|uvrY|varA-K07689	NA	NA
BMS020_00345	978	fadL_1	COG2067	Long-chain fatty acid transport protein	ATGGACGGTGATGTATCTTATTCACTTAACGATGACGCCGGACGTAAGAGCCCTGGGGATATTATGCGCTTCTTCCCTAATGCCAGCGCATTCTATGCACAAAAAATCAATGATGATCTCTATGCTGGCCTCGGCATTTACGGCAACTATGGCCTGGGGATTGACTTTGGTCAGTGGGCTGGGGACAGATTAATCAAGAAAAGCACCATGGTGGCGATGACACTCAGCCCTTCAATAGCTTACAAATTAAGCGATAGAGTGTCTGTGGGCGGCTCTGTAAACATCAACTATGGCTTCCTGTCATTAACACGTAACGTCGATAATACTGATGAAACGCAGAAGGATCACGACTGGGCGTTAGGGTATCGTCTTGGCTTGCTGATGCAGCTGACGGACCAGACCCGGCTTGGTATAGCATGGACGAGTAAGACAGAATACGATTTTGATATTGATGGTAAGGCGCGCTTGCCGAATTTAGCCAACGTTGAGTACGAGCTTCCTGTCTCAGCGCAGGTACGCGCGCCTCAGCAAATTATGCTGAGCCTGGTGCATGATATCAATAAACGATGGTCGGTGATGGGCGATCTCGGTTGGCAGGACTGGAGCCAGTTTGGCGCCCCACAAATTGCCGTGGCGGGGCAGGAACTGGAAAAAAATAGCCGTCTGAAGGATTCCTGGCATACGGCATTAGGCGTGCAGTACCGTCCTACCGAACAATGGCGTCTCAACGCTGGTGTTGCCTTTGACAGCACGGTATACGATTCGCAGAGTAACGTAGCGCTGACCTTACCGACGGGTGATGAATGGCGTTTTGCCACAGGCGCCCAGTACCAGATTACACCGCAGAGCAATATTGGCGTCGCCGTCTCCTACTTGCATATGCAATCGTCTCACGTTCAGTCGCCTGCTATCTATAGCGGTAGCTACAACCACCCATATTTATGGTTTGCTAATGTAAACTATAGTTATCAATTCTAA	MDGDVSYSLNDDAGRKSPGDIMRFFPNASAFYAQKINDDLYAGLGIYGNYGLGIDFGQWAGDRLIKKSTMVAMTLSPSIAYKLSDRVSVGGSVNINYGFLSLTRNVDNTDETQKDHDWALGYRLGLLMQLTDQTRLGIAWTSKTEYDFDIDGKARLPNLANVEYELPVSAQVRAPQQIMLSLVHDINKRWSVMGDLGWQDWSQFGAPQIAVAGQELEKNSRLKDSWHTALGVQYRPTEQWRLNAGVAFDSTVYDSQSNVALTLPTGDEWRFATGAQYQITPQSNIGVAVSYLHMQSSHVQSPAIYSGSYNHPYLWFANVNYSYQF				NA	NA	NA	NA	NA
BMS020_00346	1626			hypothetical protein	ATGAAGCAAATTCTGTTCATTTGGCTGGCGAGCTTGTTCACGATAACAAGTTTCATTTCGCATGCCGCAGAGCCACGACAGGAGGCGACGCCGCAAGAGCGTGCCCGTACGGTATATATCTTTCATCAGCCGATAGTCATGCTACAGGCTAAATTTGGACTTACTACGCCGGAAGAGCGGGTATTGCGAATTAGAAATACGCTGCGGAATTTCACTGAGGAGGATGTTCGCCAACCTCTCAAACTGGTATCTGTTACCCGTTATAACCAGCCTGGAAAACTCATCGTGATGAACGGTAAGCCAGTTATGCTGCTTACCGAAGGTGATCTTGACGAAGGGGATGACCTCACGCTCGATCAGGCCGCGCAGCGGGTTATGGCGCGTATGGAGGCGCAGAGAACCGCTCTGCGCGACCAGTATAACCGCAGCTGGTTGGTGCTTTCCGCCATAAAAGCCGTTGGAGGTCTGCTTGGGCTAGTCGCGCTTTGGTACGGTGCATACCGCTCATGGCGCAGGGTAAAACAGCTATTTCGGCGACGTATCATTGAGAATCGTAGCTGGATCCCCCAAAGCTGGCGACGCTTTATCGGTGCTATCGAAGCGCGACTTTATGCCACATTGATGATCTTGCTGGGCGTCATAGTACTGTATGTCTGGCTGAGCTGGGTATTAAGCCTGTTCCCATGGACACGCGTATGGGGTGCCTCACTGGGCGATTGGTCTGTGCGCGCTTTTCAGGGCATAGCGCTTGCTGTGGTATCTGCCTTGCCGGGCCTGATGATCGTGCTGATTATTTTTATGCTAACCGCTGTGATTTTGAAACTGCTTAAAGTGGTTCTCAATCAGGTGGCAGCAGGACGTTTGCAACTTCCTGGCATTCATCCGGAAACGGTCGGGGCGACTCGTAAACTGATCGCTGTGGTGGTATGGCTGTTTGCGCTGTCAGCAGCGTACCCCTTTTTGCCTGGCGCTAACTCGCTCGCGTTTAAAGGGATCAGTGTCTTCTTTGGTCTGATGTTGACGTTAGGGTCCGCCGGAGTGATGAACCACGCCATGAGCGGTCTTGTACTGATTTATTCCCGCGCGCTGCGCAAAGGCGATGTGATACGCGTGGCCGATAACGAAGGGCTGGTGAGTGAAATTGGTATGTTGGCCACCAAGATCATTACCCGAGAAAATTACGTGGTCACGGTGCCTAATGCGGTGGTTGTGAGTGGAAAAATCACCAATTTGAGCGCACATGCTCACGGTGGTGGCATCAACCTGACCATCAGCGTGACGATTGGTTATGACACACCCTGGCGACAGGTTCATGCCATGCTAGAGCTCGCCGCCAAGCGGGCAAGCTCAGTCGATCCGGCTCAACCACCGCTGGTACGTCAGCTCAGTTTGATGGACTGGTATATCGCCTACGAATTACAGGTACAACTGAAAGCAGGGCAATCATTAGCCGCAGCACGCAATGAACTATATAGCCATATTCAGGATGTATTTAACGAATTCAACGTACAGATTATGTCCCCGAATTATGTTATGCAACCCGAGGGCTCAGTCACTGTTGCCAAAGAAAACTGGTATTCAGCCCCGGCGGTTCCTCCTGATGGCAGTAAAAATGTGAGTGCGTAA	MKQILFIWLASLFTITSFISHAAEPRQEATPQERARTVYIFHQPIVMLQAKFGLTTPEERVLRIRNTLRNFTEEDVRQPLKLVSVTRYNQPGKLIVMNGKPVMLLTEGDLDEGDDLTLDQAAQRVMARMEAQRTALRDQYNRSWLVLSAIKAVGGLLGLVALWYGAYRSWRRVKQLFRRRIIENRSWIPQSWRRFIGAIEARLYATLMILLGVIVLYVWLSWVLSLFPWTRVWGASLGDWSVRAFQGIALAVVSALPGLMIVLIIFMLTAVILKLLKVVLNQVAAGRLQLPGIHPETVGATRKLIAVVVWLFALSAAYPFLPGANSLAFKGISVFFGLMLTLGSAGVMNHAMSGLVLIYSRALRKGDVIRVADNEGLVSEIGMLATKIITRENYVVTVPNAVVVSGKITNLSAHAHGGGINLTISVTIGYDTPWRQVHAMLELAAKRASSVDPAQPPLVRQLSLMDWYIAYELQVQLKAGQSLAAARNELYSHIQDVFNEFNVQIMSPNYVMQPEGSVTVAKENWYSAPAVPPDGSKNVSA				NA	NA	NA	NA	NA
BMS020_00347	1590		COG3119	N-acetylgalactosamine-6-O-sulfatase	ATGCAAAAAAGTGTCCCTTTTAGAAGGACCGTGATTGCCAGCATGCTGACGTTAGCGGCTGGCGTGGTTTCCACAGTCCATGCAGCACCCGCAACGACCGCCGCAGAGAATGCCCCGAAACAAGATCCCGCTAAACCAAATATTGTGGTAATTTTTGGCGATGATATCGGCTACTGGAACCTGAGTACCTATAACCAGGGCATGATGGGATATAAAACCCCAAATATCGACAGTATTGCTGCCGAAGGCGCCAAGTTCACCTCTTATTACGCTGAGCAAAGCTCTACCGCAGGACGCTCATCGTTTATTACCGGCCAGATGCCTTTCCGCACCGGGATGAGTAAAGTCGGAATGCCGGGCGCTCCTCAGGGTCTGCAAAAAGAAGATCCAACCATTGCGAACATCCTTAAGCAGCTGGGCTACGCTACCGGTCAGTTTGGTAAAAACCACCTGGGCGATCGCGATGAATTCCTGCCGACCGCTCACGGCTTTGATGAATTCCTGGGTAACCTTTACCACCTGAATGCCGAAGAAGAGCCAGAAAACTCAGACTATCCGAAAGATCCTGCCTTCCGTAAGGAATTTGGTCCGCGCGGCGTAATTAAGAGTACCGCAGACGGCAAAATTGAAGATACGGGTCCATTAACGGTGAAGCGTATGGGCACCGTGGATGAAGAGACCCTGGCTGCGAATAATGACTTCATGGAGCGCCAGGTTAAGGCCAACAAACCGTTCTTTACCTGGTTCAATACCACCAGGATGCACAATAAAACCCACCTGAAAGATGCCAGCATTGGTGCAACAGGCCTTGGGACCTATGCCGATGGCATGGTGGAACACGATAAAATGATTGGCGAAGTGCTGAAGAAAATTAAAGATCTCGGCATTGAAGACAATACGATCGTCATTTATACCACTGACAACGGCCCCATGACCGCGACCTGGCCAGATGCCGGTATCACACCGTTCCGTGGCGAGAAGAATACGGGCTGGGAAGGCGGTTTCCGCGTCCCTGCGATGATCAAATGGCCAGGTCATATTAAACCAGGCACGCTAATTAATGATATTTTTGCCAGCTACGACTGGTTCCCTACCCTCATTGCCGCAGCGGGTAACCCTAATATCAAACAAGAGCTTTTAAAAGGTTATAAAACGCCATCTATTACTTATAAAGTTCATCTCGACGGCTATAACCAGCTCGACTTCCTGCAGGGCAAAGGCGAGGATCAGCGTAAAGAATTCTTCTACTGGAGCGATGACGGCGATCTGCTGGCTATGCGCTATGGACGCTGGAAAGCGCATTTCATGATTCAGGAGCATACCGGTCTTGATTTGTGGCGTTATCCGTTCACCAAACTGCGTGCGCCAATGATCTTTGATCTCGAAGTTGACCCGCTGGAGAAAGGCAGCGACGGTATGGGATACAACTCCTGGTTCTACGATCGTATGTTCCTGATGGGCGGCGCGCAGAAGTACGCCAAAGAAATGTTGGCCACCTTTAAGGAGTTCCCGCCACGTCAGAAGCCAGGTTCATTCACGATCTCTGATGCTTCGGCAATGCTGGAACAAGGCTCTAATATCAATAAATGA	MQKSVPFRRTVIASMLTLAAGVVSTVHAAPATTAAENAPKQDPAKPNIVVIFGDDIGYWNLSTYNQGMMGYKTPNIDSIAAEGAKFTSYYAEQSSTAGRSSFITGQMPFRTGMSKVGMPGAPQGLQKEDPTIANILKQLGYATGQFGKNHLGDRDEFLPTAHGFDEFLGNLYHLNAEEEPENSDYPKDPAFRKEFGPRGVIKSTADGKIEDTGPLTVKRMGTVDEETLAANNDFMERQVKANKPFFTWFNTTRMHNKTHLKDASIGATGLGTYADGMVEHDKMIGEVLKKIKDLGIEDNTIVIYTTDNGPMTATWPDAGITPFRGEKNTGWEGGFRVPAMIKWPGHIKPGTLINDIFASYDWFPTLIAAAGNPNIKQELLKGYKTPSITYKVHLDGYNQLDFLQGKGEDQRKEFFYWSDDGDLLAMRYGRWKAHFMIQEHTGLDLWRYPFTKLRAPMIFDLEVDPLEKGSDGMGYNSWFYDRMFLMGGAQKYAKEMLATFKEFPPRQKPGSFTISDASAMLEQGSNINK				NA	NA	NA	NA	NA
BMS020_00348	1296	chuR_1	COG0641	Anaerobic sulfatase-maturating enzyme	ATGAAGTACAGCACCACACTACCCGTTAAGGCGCTTCCGTCGGCGGAAAAATATGACGGCAAAGGGCCAGAATACAAGCGCCGCTTTCATGTCATGGCTAAACCAACCGGCTCAACCTGCAACCTCGATTGTTCCTACTGTTTTTACCTGCACAAAGAAGAGCTTCTGCATCAGGACAGACATACCGGAATGAGTGACGAGGTGCTGGAGAATTTCATTCGCCAGTATATTGACGGTCAGGACGGTGACCAGGTGGTATTTTCCTGGCAAGGCGGCGAACCCACGCTGATGGGGTTAGCGTTTTTCCAGAAGGTTGTGAAATTTCAGAAGCAGTACCAGAAGCCCGGACAGCGTGTCGAGAATGATTTACAAACCAATGGCGTGTTGTTAAACGATAAATGGGCTGAATTTCTAAAAGAACATCAATTTCTGGTGGGACTCTCGATTGATGGCCCACGAGAACTGCATGACCGCTATCGCGTGACCCGTAGCGGCAAACCGACATTTGACAAAGTGATGGCGGGCGTTGAGGCCCTGAAGCGTCACGGCGTCCCATTTAACGCGCTGGTAACGGTAAACCGGACCAACGCCCGCTTTCCGCTGGAAGTGTACCGCTTCGTCACCCGCGAACTGGGTGCGACCTATGTACAGTTTAATCCCTGCGTCGAACCTGTTGATTTCAAACAAACCGCGCCGCAATTCTGGCAGGATGACGCCATCCCGCTCACCGGTAGCCGCCGCGCGCGTCCCGGCGACCTCGACTCCATTGTTACCGACTGGTCGGTTGACCCGGAAGACTGGGGCACGTTTCTGATTGCCGTTTTTGAAGAGTGGGTGAATAACGACCTGGGCCGCGTGCAGGTCAATCTGTTTGAAACGGCGGTCGCCCAGACAATGGGAATGCCGGCGCAAATTTGCACCCACTCAGAATTCTGCGGAAAAGGGCTGGCGATTGAGAAAAACGGCGATATTTATTCCTGTGATCACTATGTCTACCCGGAATATCAGATCGGCAACATTGAGCATGCTCAGCTTTCGCATCTGGCTTTCTCCGAACGGCAGAAAGCGTTTGGCATGGGCAAGCGCGACACGCTGCCCAACTACTGTAAAGCCTGCCCTTATCTGAAGCTGTGCTGGGGCGAATGCCCGAAAAACCGCCTGGTGCGCGCACCGGACGGCGAGTTGGGACTGAATTATCTTTGCCCGGGCATTAAGGCCTTTTTCAACTATGCCGAGCCGATCCTGGTGGGCATCGCCACTTTAATTAAACGTGATTTTGCAGGGCTACGCCGATGA	MKYSTTLPVKALPSAEKYDGKGPEYKRRFHVMAKPTGSTCNLDCSYCFYLHKEELLHQDRHTGMSDEVLENFIRQYIDGQDGDQVVFSWQGGEPTLMGLAFFQKVVKFQKQYQKPGQRVENDLQTNGVLLNDKWAEFLKEHQFLVGLSIDGPRELHDRYRVTRSGKPTFDKVMAGVEALKRHGVPFNALVTVNRTNARFPLEVYRFVTRELGATYVQFNPCVEPVDFKQTAPQFWQDDAIPLTGSRRARPGDLDSIVTDWSVDPEDWGTFLIAVFEEWVNNDLGRVQVNLFETAVAQTMGMPAQICTHSEFCGKGLAIEKNGDIYSCDHYVYPEYQIGNIEHAQLSHLAFSERQKAFGMGKRDTLPNYCKACPYLKLCWGECPKNRLVRAPDGELGLNYLCPGIKAFFNYAEPILVGIATLIKRDFAGLRR	PGPT0026880_1180	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0026880-ydeM|yidF|alsB|chuR-K06871	NA	NA
BMS020_00349	1005			hypothetical protein	ATGATAAATCGAGAGAAGTTATTGCAGCTTGAGCAACGCATGAACGAACAGGTTCTCGGTCAGGAAGAACTGGTGCGCATGTTGATAGTCGCCCTGTTGTGCGACGGACACGTGTTGCTTGAAGGTTTACCGGGCCTGGCGAAAACGCGCGCGGTACGCGAACTTGCCCGCCACGTTGAGGGGGATTACCGTCGTATTCAGTTCACGCCTGATCTTCTGCCCTCAGATATCACCGGCAGCGAAATTTATCAGCAAAACGCCACCCGTGAAGAGGATCAGTTCCGCTTCCGTCCCGGCCCGGTGTTCGGCAATATCATCCTCGCCGATGAAATCAACCGCGCCTCGGCCCGCGTGCAGTCCGCGCTGCTCGAAGCCATGGAAGAACGTCACGTCACCGTGGCGGGCAAAAGCTGGCCTTTACCCGGTGTTTTTATGGTTCTGGCCACGCAAAACCCAGTGGATCAGGAAGGTACCTGGCCTCTGCCGGAAGCCCAGCTGGACCGTTTTTTGATGAAGGTACTGGTGCACTATCCGTCAAAAGACAATGAACAGAAAGTGATGCAACTGGTGCGCGCCGAGCAGCAGAAAAAGTATCAACAACTGACGAGTACCGCATCAGCACAGCCAGAACAGACCGATACGCTCATGCTGAGTCAGCAGGAAATCGCTGAATGCTGGCAGGCGATTTCCGCTATTCACGTCTCCCCGACCGTCGAAAATTATATCGTCAACCTGGTAGACTTAAGTCGTCATCCACAGTCGGTGAGCGATACGCTGGCCGGTTATCTGACGTTTGGCATCAGTCCTCGCGGCACGCTGGCCCTGGAGCGCTGCGGGCGAGCGCAGGCCTGGCTGGAAGGCCGGGACGCGGTGCTGCCCGAAGACATTAAAAAGATCGCCCCAGCGGTATTACGTCATCGTCTGATGCTCAGCTACCAGGCCAGCGCGGATAACTGCACACCGGACGATGCCGTGCGGATGCTGCTTGATGCCGTGGTGGCATAA	MINREKLLQLEQRMNEQVLGQEELVRMLIVALLCDGHVLLEGLPGLAKTRAVRELARHVEGDYRRIQFTPDLLPSDITGSEIYQQNATREEDQFRFRPGPVFGNIILADEINRASARVQSALLEAMEERHVTVAGKSWPLPGVFMVLATQNPVDQEGTWPLPEAQLDRFLMKVLVHYPSKDNEQKVMQLVRAEQQKKYQQLTSTASAQPEQTDTLMLSQQEIAECWQAISAIHVSPTVENYIVNLVDLSRHPQSVSDTLAGYLTFGISPRGTLALERCGRAQAWLEGRDAVLPEDIKKIAPAVLRHRLMLSYQASADNCTPDDAVRMLLDAVVA				NA	NA	NA	NA	NA
BMS020_00350	906			hypothetical protein	ATGAGTAGCGCCGTTCGCATTGACCGGGAAACGCTGCTGAAGCTCGCCGCAGAGGCGCGAGCCATCGCCAATCCGCCAGGGCAGATCCCGCCTGGCGCGCTTGGGGGTGAACGTACATCACGCCAGCAGGGCCGCGGGCTGAACTTTGACAGCCTGCGTCGTTATCAGCCCGGCGACGACGTCCGGCTGATTGACTGGCAGGCTACTGCCCGCATGCGTACGCCGTGGATCCGACTTTATAACGAAGAAAAAGAGCGCCCCGTCTTTCTGCTGGTTGATCAACGACGGGATATGTTTTTTTCCACGCGCGTTCAGACAAAATCCGTCGCGGCAGCGAAAACTGCCGGATTGCTGGCGTGGCGCAGCTGGCACGACGGCGATCGTTTAGGCGGCATTGTCTTTGGCGATCGGGACTTTTCTCTGCGTAAATGCCGCGCGCCAAACGGTACGCTTCCCGCATTTCTCGACGATATTGTGCAGTACAACCACGCCGTGGCGGATAATTATCCGCGGGAAACGCCTGACCCACTTTCGCTGGCCGCCATTCTGCGCCACTCTCTGCCGTTAATTCCAACCGGCTGCTGGGTCGCGTTAATCAGCGACTTTCACGATCTGGATAACGAGTGCGATGCGCTGCTGGCAGCCCTGCGCCGTCGAGGGGAAGTGAGTGCATTCGTGATCCTCGACGATCTGCATTTGCGCCTGCCTGCACACGGGCGGCTGGCCGCTCGGTATGAAGGGCAAGAGGCGGCATTTTCGCTCTCGCCTGCGCTACAGGACGGCATCAAACAAAGCATCACGGCGCGACTCTCAGCCCAGGCGTCTCGTCTCACTCGACTTGGCGTGCAGGTGAAGCAGATTGTCGTCGCCGGAGATCTACTCAGACAGCTTCAAAAAGAGGTATAG	MSSAVRIDRETLLKLAAEARAIANPPGQIPPGALGGERTSRQQGRGLNFDSLRRYQPGDDVRLIDWQATARMRTPWIRLYNEEKERPVFLLVDQRRDMFFSTRVQTKSVAAAKTAGLLAWRSWHDGDRLGGIVFGDRDFSLRKCRAPNGTLPAFLDDIVQYNHAVADNYPRETPDPLSLAAILRHSLPLIPTGCWVALISDFHDLDNECDALLAALRRRGEVSAFVILDDLHLRLPAHGRLAARYEGQEAAFSLSPALQDGIKQSITARLSAQASRLTRLGVQVKQIVVAGDLLRQLQKEV				NA	NA	NA	NA	NA
BMS020_00351	441			hypothetical protein	ATGCTGGAGAAAGGATTTACGGTACCCGAACTGGCGGAACCGGTTCTTCCCGATTCACCGTCATGGTTTCCCCTACCGCCGGGATGGTTTGTACTGGGCGGTATCCTGCTCGCCCTGTTGCTCATTTATCTCATCATCCGCATCGCCAGATGGCGGCGAAACCTGTGGCGTCGCCAGGCGCTGGCGGCTCTCGCTCAACCGCAAACGGTAGACAGCTGGCTGCTGCTGATGAAACGTATTTTGCTGGTGCATCAGCCGCGGGAGCAAGTGAGCGGCGCGCTGGATCCTGCCCAATGGTTGCAAAACGTCCCGCTGGATGACACGTTACGCCAGCAGCTGTGCGAACGCTACTGTCAGCCAGAGAACCAGCTCAGTGATGGCGATACCGAACGGCTGCGTATGCAGCTTCGCTCCTGGCTTGAAGGATTACCCCATGTCTGA	MLEKGFTVPELAEPVLPDSPSWFPLPPGWFVLGGILLALLLIYLIIRIARWRRNLWRRQALAALAQPQTVDSWLLLMKRILLVHQPREQVSGALDPAQWLQNVPLDDTLRQQLCERYCQPENQLSDGDTERLRMQLRSWLEGLPHV				NA	NA	NA	NA	NA
BMS020_00352	978			hypothetical protein	ATGTCTGACTTCTTCTCACGTCTGGCGTTCGCCTGGCCGTGGGCCTGGCTGCTACTGATCCTGCCGCTGGCAAGTCGCTTTGTGATGGCCAAAGAGCGCTCGTTGAAAGAGTATGTCCGGGTTCCTTTTTTGCCTGGGCTGATTAACGAACTCCAGCTTAACAACCAACCTGCACATGGCGGGAAGCTATCCACCTGGCTGTTCTGGCTGGTATGGTCGCTGTTGGTCTGCGCCCTCGCCCGCCCGGAATTGCTTGCCCCGCCGCAGCATACTGAAAAACCGATGCGCGATATTATGCTGATTCTTGATGTTTCCGGCTCTATGGAGAAAAACGACGTCACGGGCGGTATCACCCGTCTGCAGGCGGTACAGAGCTCCGTTAAAAAATTCGTAGCGGCTCGTAAATCCGATCGTATCGGGCTGGTGATTTTTGCCAACAGCGCCTGGCCTTTCGCGCCCGTCAGTGAGGATAAACAGGCGCTGGAAACCCGTATCAATCAGCTTGCGCCTGGCATGGCGGGACAACAGACGGCGATTGGCGACGCGCTGGGCGTCACGGTGAAACTGCTGGATTCCAGCGGCGATACTGACGCCAGTAAATTAGCAATCCTTTTGACCGATGGTAACGACACCGCGTCACAACTGACCCCTCGCCTCGCCGCACAGCTGGCGGCCCGTCATCACGTACAGGTTCACACCATCGCCTTTGGCGACGTGAACAGCGGCGGCGATGACAAAGTGGATGTCGCTCTTTTACAGGATATAGCTCGCACCACCGGCGGGCGCGCCTGGACGGCAGAGAATAGCGGGGCTTCGCTGGATGCGGTCTGGCAAGAAATTGACGCGATTACGCCAGTGCAGGTAAAGAGCATCGGCTGGTCGTGGCGTATACCGCTTTTTGCCTGGCCGCTTGCCGCCGCACTGCTTCTGTTGCTGACCTTTAATCTGTATCGCGCGTTCAGGGAGAGAGCGGCATGA	MSDFFSRLAFAWPWAWLLLILPLASRFVMAKERSLKEYVRVPFLPGLINELQLNNQPAHGGKLSTWLFWLVWSLLVCALARPELLAPPQHTEKPMRDIMLILDVSGSMEKNDVTGGITRLQAVQSSVKKFVAARKSDRIGLVIFANSAWPFAPVSEDKQALETRINQLAPGMAGQQTAIGDALGVTVKLLDSSGDTDASKLAILLTDGNDTASQLTPRLAAQLAARHHVQVHTIAFGDVNSGGDDKVDVALLQDIARTTGGRAWTAENSGASLDAVWQEIDAITPVQVKSIGWSWRIPLFAWPLAAALLLLLTFNLYRAFRERAA	PGPT0014015_6136	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
BMS020_00353	1515			hypothetical protein	ATGAGTGATTTTCACTTTTTATACCCCTGGCGTTTGCTGCTGCTGATCCCGGCCATCGCGCTGTGGTGGTTACCCTCCGCCGGGCATAGCGCCTGGTCGCGCATCATGGACAAGCCGCTGGCGAAAGCGCTGATCGTCGGGCGGCAGCGCAAGCTCACCCGCGTACTGCCATGGCTGGCGATGCTTGGCCTCATCGCGCTGGCTGGCCCAAGCTGGCAGCGTCAGCTTCCCGCCGCGCTGACGACGGAAAGTAACGTGATGGTGATTTTGCAACAGGATACCGCCATGTTTGCCAGCGATCTGCCTCCCAGCCGCCATCAGAGGATGCAGACCAAAATCCTGTCCCTCATGGAGCGCATGCCGGGTACCCGATTTGGCCTGGTGGTGTATAACTCCGGTGCCTGGCTAACCACCCCGCTCACTGTCGATACGGCGTTTTATTCGCTATTCCTGCATGCGCAAACCCCCGCGTTATTACCGTCTGGCGAGGGTTCCGGACTTCAGCATGCCATCTCACTGGCCATGCATAATATGCCCACCGCCCCGCGCAGCATTATTCTGGTGGCGGATACCCTTAGTGCGGATGACGCCAGATGGCTAGGCACACAAAAGACACCGCTGCAGATCTGGGTGCCGGGAACCGCTCAGGGGGGCGCGCTGCCTGAAAAATATGCCGCCAGTGAAACCGATACGCGACTGAATGTTAAACGCTTCGAGCAGGTGCGAGACGAGGGGATCCCCGTCACGCTGGTGACCACCGATGATGACGATCTGCCCGTGATACAGAGCCATATTCAACAAAGTGTCACCGCACAGAACAATTCCCGGAGTGATTTACACTGGCGTAACGATGGCTGGATGCTGGCGATACCTATGCTCGTCATGCTGTTTATCTGGCGACGCCAGCTCTTTTGCTGGATTTTAATCGCGCCGCTGCTGCTCTGGCAGCCATCCGGCCATGCCGCCTGGCTGGATGCCTGGATAAGCCCCGATGTGCAGGGTCAGCGTGCTTTTGCCGAGGGGGATTATGCCCGCGCGGCCCAGCATTATAGCGACCCGCTCCGGCAAGGTATTGCATGGTATCGGGCGGGCAATTACCCCGCCGCTACCGCCGCGTTCCGCCAGGCGCAACAAACCCCGGAAACCCTGCTCTGGACAGGCAATAGTTATGCCCAGCAAAAACAGTGGCAGCAGGCGCTAAACAGCTATGACCGGGCGTTAAGTCTGCGCCCGGACTGGAAGCTGGCCCAGGGGAACCGCGCCAAAATCGCCGCGATCATCATGCAACTGCGGCAAAAAGAACGCGAGAAAAAGTCGGCGCAAGGTGAAGAAGCCGATTACAAACCTGATGAAATTAAGCATGATTTGAAACCCGACGATGGCGTCGAACAAAAGGACATTCAGCCCATTGCTGGAGGGAATCCGCAGGTGAATCAGTGGTACGAAAATCTGACCGTTTCGCCTTCGGGGCTGCTGGAAAGTCTCTACCGGACTCAGTCAGGAGAAGGCCAATGA	MSDFHFLYPWRLLLLIPAIALWWLPSAGHSAWSRIMDKPLAKALIVGRQRKLTRVLPWLAMLGLIALAGPSWQRQLPAALTTESNVMVILQQDTAMFASDLPPSRHQRMQTKILSLMERMPGTRFGLVVYNSGAWLTTPLTVDTAFYSLFLHAQTPALLPSGEGSGLQHAISLAMHNMPTAPRSIILVADTLSADDARWLGTQKTPLQIWVPGTAQGGALPEKYAASETDTRLNVKRFEQVRDEGIPVTLVTTDDDDLPVIQSHIQQSVTAQNNSRSDLHWRNDGWMLAIPMLVMLFIWRRQLFCWILIAPLLLWQPSGHAAWLDAWISPDVQGQRAFAEGDYARAAQHYSDPLRQGIAWYRAGNYPAATAAFRQAQQTPETLLWTGNSYAQQKQWQQALNSYDRALSLRPDWKLAQGNRAKIAAIIMQLRQKEREKKSAQGEEADYKPDEIKHDLKPDDGVEQKDIQPIAGGNPQVNQWYENLTVSPSGLLESLYRTQSGEGQ	PGPT0014015_2690	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
BMS020_00354	1014			hypothetical protein	ATGAAACTTATCTGGTTAATTCTGGTAGCGGCGCTTCCCTGTCAGGCAGCCATGACGGTCACGCGCGAGCTGGTCGCTCCCGAACACGTTGTCCCAGGCCAACCGGTGCGCGTGGCGGTGACGTTCTGGACGGATTCATGGTTTAATCCGCCGCCGCAGTGGCCCGGTTTCCCGGTCGAAAATGGCGATATCTTGAGCAAAGCCGAACCCAATCAGCTTCTGACCCGTCACGCCGAGGGAACCAGCTGGAGCGGCGTGCGCATGGAACGCCAGCTCACTGCCTGGGATGCAGGTAAGCTGCGTTTACCGGCTTTTGAAATGACGTTAACCGCCTCCGGACAGGCGCCCGTGACGGTCAAACTACCGGCGCTGGAAACGCAGGTTAACTGGCCGCAAGGAATTGAACAGCCAGACCGTTTCCTGCCCGCTTCAGGTCTCTCGCTCAGCCAGAAGGTCAATATTTACCGTAGTGGTAAAGATAAAACGCTGCGTGCCGGCGACGTTATTGAACGCGTCGTCACCGTCCGAGCCACGGAGGTGATGCCCGCCCAAATCCCACCGCTGCTCTATGCCATCAGCGGCACCCATACCCAGCGTCTGCCGCCTGAAAATCGTCTGCTGACTTCGGGTCGGGGGGATCTTGAAGGCGCGGAACGCGTGGAAACGCTCCGCTATTTGCCTGTTGTTGCGGGGGAAGTCACGCTGCCGCCGATCAAATTGCGGTGGTGGGATACAACCCATCAGCAGTGGCAAACCGCTGAACTCCCCGGCAGCACCTACCGAATTGCCGCTTCGCGCTCGGCCGGTGCGGAATCCTCGTTAAAGGGCGATCGTGGCACGTTGACTCGGCAGAATGCGTTAATGCTCGCAGGCGGCCTCGCGTTACTCATGCTGATGTTTATTTTCCGCCGCACTTTGCTGCGTAGCGCGCGTTACTTATCTCACCGTTGGCGCCGATTCTGGCAGCCACTTTCGCTACCGGGACAGACCCCGGATAACAGGAGTTCACGATGA	MKLIWLILVAALPCQAAMTVTRELVAPEHVVPGQPVRVAVTFWTDSWFNPPPQWPGFPVENGDILSKAEPNQLLTRHAEGTSWSGVRMERQLTAWDAGKLRLPAFEMTLTASGQAPVTVKLPALETQVNWPQGIEQPDRFLPASGLSLSQKVNIYRSGKDKTLRAGDVIERVVTVRATEVMPAQIPPLLYAISGTHTQRLPPENRLLTSGRGDLEGAERVETLRYLPVVAGEVTLPPIKLRWWDTTHQQWQTAELPGSTYRIAASRSAGAESSLKGDRGTLTRQNALMLAGGLALLMLMFIFRRTLLRSARYLSHRWRRFWQPLSLPGQTPDNRSSR				NA	NA	NA	NA	NA
BMS020_00355	1002			hypothetical protein	ATGAAGCGTACGTTAATCGCTCTGACTTTATTCGCCCTCTGCGGCAACGCAGTGGCAGATCCACTCTCAGCATGGAACGATACGGCAGCCAAGCGCGCCATTGAAGAATGGGTGCAAGGTGCCACCAACCCAGACCGCTCAACGTTTATTCCGGCCGAAAAACGCTACGTCGTATTTGATAATGATGGCACCCTGTGGCCAGAAGCGCCGCTGACGTTTCAGATCCGGTTCGTGCTGGATGAGATCAAACGTCTGGCCCCGCAACACCAGGAGTGGTCTAGCGACGCGTTGGTGCAGGCCGTGTTGAAAGACGATATCAAAACTGTCGCCGCTTCCGGCGAAAAAGGGCTTATTCATCTTTTATCGCTGACGCACAGCGGCATGACGACAGATGACTTTAATCAGCGCGTTGCTAACTGGGTTTCATCGCATAAGGACCCGCGTTTTGGCTGCCAGTACGATCGGATGGGATATCAGCCGATGCGTCAGCTACTGGAATATCTGCGGGCCAACGGTTTCAAAACCTGGATTGTCTCCGGCGGCGGTATCGATTTTATGCGCGTACTGTCGCAAAAAATGTACGGCATTCCACCTGAACAAGTGATCGGGTCGTTTTCGCTTGGCGAATTCGCGTTATCTGATGAAGGGACAAAAATTACCAAGACAATGTCGGGGGCCTTCAATGACGATGCAGCCAATAAACCCGTGGCGATCCACCTTTTCATGGGCCAGCGCCCTGTCGCGGCATTTGGCAATAGCGATGGCGATCTCGCCATGCTGCAGTACACCGCCGCCAATCCTGACGTCAAACCCTTTGGCCTTCTGGTGCATCATACGGATTCCGTGCGTGAATATGCCTATGATAGTCATCCTCCAGCCAGCGGAAAGCTGATTGATGGATTAACGCAGGCAAAAGCGCATGGCTGGACCGTCGTTGATATGAAGCAAGACTGGAAAACGGTGTTTGATCCGGCACAGTGTGTGACCCAGCCGGGATCGTAG	MKRTLIALTLFALCGNAVADPLSAWNDTAAKRAIEEWVQGATNPDRSTFIPAEKRYVVFDNDGTLWPEAPLTFQIRFVLDEIKRLAPQHQEWSSDALVQAVLKDDIKTVAASGEKGLIHLLSLTHSGMTTDDFNQRVANWVSSHKDPRFGCQYDRMGYQPMRQLLEYLRANGFKTWIVSGGGIDFMRVLSQKMYGIPPEQVIGSFSLGEFALSDEGTKITKTMSGAFNDDAANKPVAIHLFMGQRPVAAFGNSDGDLAMLQYTAANPDVKPFGLLVHHTDSVREYAYDSHPPASGKLIDGLTQAKAHGWTVVDMKQDWKTVFDPAQCVTQPGS				NA	NA	NA	NA	NA
BMS020_00356	621	rhtB_1	COG1280	Homoserine/homoserine lactone efflux protein	ATGCTCGTCACTGATTCACTTCTGGCTTACACCCTCGCTGCCACTCTGCTTACCCTGACGCCAGGTCTGGATACCGCGCTTATACTGCGCACGGCGACCGCTGAAGGCGGGCGCAAAGCCTTGCATGCCGCGTTAGGCATCGATCTCGGGTGCTTTATCTGGGGCGCGCTGGTGGCCTTTGGTTTGGGCGCGCTGCTGGCGGTTTCTGAGCTGGCTTATACCTTGTTGAAATGGTGCGGCGCGGGCTACCTTTGTTGGCTGGGCATCCAGCTGCTTCTGCGTCCGCGCCAGCAATTTAACAGCAATCCGGCAGCGGCAACCGCCACGAGCAACTGGTTTCTGCGTGGGATGCTGGGAAATGTGCTTAATCCCAAAATGGGCGTCTTCTACGTTTCGTTTTTACCTCAGTTTATCCCGGCGGGGCATTCCCCCATCACATGGACCTTTCTCCTGGTTACTATCCATGTATTGATTGGTACGCTGTGGTCGTTAACGCTGATTACCGCCACTCGCTATGCCGCCGGTATCCTGAAAAAAACGGCGGTAGTGAAATGGATGGATCGAACGACCGGCTGCCTGTTTCTGCTTTTTGCGGCGAAGCTGGCGATGAGCCGCCGGTAA	MLVTDSLLAYTLAATLLTLTPGLDTALILRTATAEGGRKALHAALGIDLGCFIWGALVAFGLGALLAVSELAYTLLKWCGAGYLCWLGIQLLLRPRQQFNSNPAAATATSNWFLRGMLGNVLNPKMGVFYVSFLPQFIPAGHSPITWTFLLVTIHVLIGTLWSLTLITATRYAAGILKKTAVVKWMDRTTGCLFLLFAAKLAMSRR				NA	NA	NA	NA	NA
BMS020_00357	792			hypothetical protein	ATGAATTTAATTGATAGCGCTAAGAATGAAGAGCTACGGAATATTCGTTTTGTTTTAACTGATATGGATGAAACGCTGACCTATAAGGGCAGACTGCAGGCCAGAACCTATCAGAGTCTGGAAATGCTACAACATGCGGGCATTAAGGTTATTCCGGTAACGGCGGCCTCTGCCGGGTGGGCCGATCAGTTGGCGAGAATGTGGCCTGTTGATGGGGTCATCGCTGAAAATGGAGGATTATTTCTTATCAGAAATAACGTCGGTGAGGGTATTAACAGGTATTTCTGGCATGAAGACAACTATCTTCTTAATCGAAAAAACATCAGCCATATTCTTTTCAAGATTCGCCAGAAATACCCCTGGGTTGAGGTTTCTGACGATCAGGATTTTCGCCTGACGAGTATTGCTTTCAAACTTCCCAAAAATCATGAGCAGACCAAACAACTTATTGACGAATTAGTGGAAAATAAATGCAGCTATACCATTAATAATTTATGGGTACTGGGGTGGTTAGGGGGATATGACAAACTCGTCATGAGCAGAAAGGTGTTAAAGCAGTTTTATGCACTGGAAGAATCTGATGAACAAGCATCGGTTTTCTACAGTGGTGATTCGCTCAATGATGCACCTATGTTCAGTTACTACAGCAAAACGTTGGGAATGAACACGATCAATGACATAGCGCAAGTTATACCATCATTGCCTCGCTGGATAAGTCAATTTCCAGGTGGTGAAGGGTTTGTCGATGGCGCGAACAGAATTTTAAATGCTAAAAGGGCAAGCATCAGTTAA	MNLIDSAKNEELRNIRFVLTDMDETLTYKGRLQARTYQSLEMLQHAGIKVIPVTAASAGWADQLARMWPVDGVIAENGGLFLIRNNVGEGINRYFWHEDNYLLNRKNISHILFKIRQKYPWVEVSDDQDFRLTSIAFKLPKNHEQTKQLIDELVENKCSYTINNLWVLGWLGGYDKLVMSRKVLKQFYALEESDEQASVFYSGDSLNDAPMFSYYSKTLGMNTINDIAQVIPSLPRWISQFPGGEGFVDGANRILNAKRASIS				NA	NA	NA	NA	NA
BMS020_00358	990	dmlR_4		HTH-type transcriptional regulator DmlR	ATGTTAATACCCTGGCAGATCGCTGATAATCAGCCTTATTTGCAAATGATTAATGTGCTGGGTGCAGGAATCATGTTCGATGATTTTGAAGAGCTGATGGCGTTTGTCTGTGTGGCCGAGACAGGGAGTTTTATCGGGGCCAGCCGCAGGCTGGCTCGGGATGCGTCGGTCATTTCCCGCCGGGTTAGCCACCTCGAGAAAAAACTGGGCGTCCGGTTGCTGGTGCGCACTACCCGTAGCGTAACGCTTACCGAAGCCGGAACCTGGTTTTTGCAGCGCGCCCGCGCGGCGCTGGATGAGCTCAGCGCCGCCAGCCGGGAGGTGGGGGACTTTGCTGCCACCCCGCAGGGAACGTTGCGGGTTTCGCTGCCGGTGACCTTTGGCCGGGAGCTGATTGCCCCGGTGTTTCCTGATTTCCTGCAGGCGTATCCGGATATTCGCCTGGATGCCCATTTTCTCGATCGACGGGTCGATATTGTCGCGGAGGGGTTTGATGCGGTGGTTCGCCTGGGGAGCGTGCGGGACAGTACCTTAACCGGGCGCGAGCTGGGGGCGTTTAGAAGTCAGCTGATTGCTTCGCCGGCCTATCTGCAACGCTTCGGTGAGCCTACTCATCCTGAGCAACTGGCAGCCCATCGGTGTCTCGGCTTTACCCACCATCCGGACTGGCCCTACTGGATCCTCGAAAATGGTCGGGAGCATATCCAGGTGACGCCAGCCGGCCCCCTCACCACCAATATCAGTGAAGCGCTGCTGACGGCGGTCATTCGGGCAACCGGGATCGCACTGCTGCCGGGGTGGATGGTTTGCCAGGCGGTGCAGCGCGGGGAACTGGTCCGCGTGCTGCCCGACTGGCGTAGCGCGGCGAAGGTCAGCGTTTATGCCCTGATGCCGCCCGGCACGCTGGTACCCGCCAAGACCCGGGTATTTATCGACACGGTATGCCATCAACTGGCGTCATCCCCGCTGTGGCAGGACGAATTGAAGTGA	MLIPWQIADNQPYLQMINVLGAGIMFDDFEELMAFVCVAETGSFIGASRRLARDASVISRRVSHLEKKLGVRLLVRTTRSVTLTEAGTWFLQRARAALDELSAASREVGDFAATPQGTLRVSLPVTFGRELIAPVFPDFLQAYPDIRLDAHFLDRRVDIVAEGFDAVVRLGSVRDSTLTGRELGAFRSQLIASPAYLQRFGEPTHPEQLAAHRCLGFTHHPDWPYWILENGREHIQVTPAGPLTTNISEALLTAVIRATGIALLPGWMVCQAVQRGELVRVLPDWRSAAKVSVYALMPPGTLVPAKTRVFIDTVCHQLASSPLWQDELK				NA	NA	NA	NA	NA
BMS020_00359	666	gno		Gluconate 5-dehydrogenase	ATGAAAACGTTTTTGAGTATCGGGTCCGGTCCTGGGATGGGAATGGCGACGGCCTCACGATTTGCTGGTGAGGGATTCCGGGTGGTGCTGTCCTCACGCAATAAAAACTATGTGGCGGCGCAGGTCGACCAACTGAGAGCGGCTGGATTAGCCGCGGAAGGCCGCGTGGCGGACGCCAGCGATATCACCAGTATCGTGGAACTCATTCGCGAGGTAGAGGTGGAGACCGGCGGCGTGGATGTGCTGCACTTCAACGCCGCGGCCATGCATGACGGTAATCTGGAGTCCCAGTCGGTGGCAGGCTTCATCCAGGATCTCACCACCAATATTGGCGCGGTATATGCCGCCATCAAAGCGGTCACTCCTCGGATGGCCGCGCGTGGAGAAGGCGCGATCCTGCTGACTGGCGGGATGTTTGCCACTCAGCCTCATCCGGAGTATCTGACGCTAAGCGTCGGCAAAGCCGGGCTGCTTAACCTGACGCATGGCCTTTTTCCGCTCTTAAAAGCGCAGAATATTCATCTTTCCATCGTGACGGTGGGGGCGTACGTCACGCCGGGTTCCGCCGAAGCCCGGGAGATTGCCGAACTGTTCTGGCAGCAATACCGCCAGCCATCTGCGCAATGGACAGCGGAAGCGTTTTATCCAGCCCTACACCATCAGTAA	MKTFLSIGSGPGMGMATASRFAGEGFRVVLSSRNKNYVAAQVDQLRAAGLAAEGRVADASDITSIVELIREVEVETGGVDVLHFNAAAMHDGNLESQSVAGFIQDLTTNIGAVYAAIKAVTPRMAARGEGAILLTGGMFATQPHPEYLTLSVGKAGLLNLTHGLFPLLKAQNIHLSIVTVGAYVTPGSAEAREIAELFWQQYRQPSAQWTAEAFYPALHHQ				NA	NA	NA	NA	NA
BMS020_00360	639			hypothetical protein	ATGAAATATTTTATCGGTATGGCGGTGACGTTATTGTTGAGCACGCCGGTGCTGGCGGCGGGCGAGCTTGAGATAAACCAGTCTCCTCTGACGCTGGTGCTGAGTGACCAGAATCAGGCACGGGTCTCTTCCTGTGCCGATTTCATTGCGCTGCGTAAAGCGGGAGAGACCGTCGATGCGCTGCCCGGACTTTCTGACCCGGATGGCCGTGCGGCGGAAGCGGCGTTATTCTCCTGCTGGCTACAGGCCTACACTATCGATCACACGTTATTCCCCTCTGCCGCGCCTAAACCGACCCTGGCTGACGTGGTTCAGCACTTTCCTGCCAGCGCGGCGTTTATCGTCAGCGTTGACGAAAAGCAGGACGTCGCCAAAAACTTTGTGGGGAAAACCATCGCGGACTATACCCCGGACCTGAAAGCCAGGGACGATCGTCTGGAATCAGCGGCTAGCGCCAGTGGCTATGTGCTGGATGAATATTATGCGTTTACCGATAAGCAGGGGCATCAGCTCAACATTGTGGCTCTGGTGGGCTACGCCATCGGCGGTACGGCAAGCGTGAAAAGCTACTATCGCATTGATGACACGCACGCCCGCGTCTGGAGCGTCACCCGGCTCGATGAGAACAGCCCGCTATAA	MKYFIGMAVTLLLSTPVLAAGELEINQSPLTLVLSDQNQARVSSCADFIALRKAGETVDALPGLSDPDGRAAEAALFSCWLQAYTIDHTLFPSAAPKPTLADVVQHFPASAAFIVSVDEKQDVAKNFVGKTIADYTPDLKARDDRLESAASASGYVLDEYYAFTDKQGHQLNIVALVGYAIGGTASVKSYYRIDDTHARVWSVTRLDENSPL				NA	NA	NA	NA	NA
BMS020_00361	1797	atzF		Allophanate hydrolase	ATGATGCAGCAGACGTTTGATTTACGCCTGGCGACTCTGGCGGCGAACTATCGTAACGGCCACACCACCCCGCGCGCGCTGCTGGCGGAGATCCGCCAGCGGGCGCAAGCGCTGGATCCCGAGTTTAATCTGTTTATCCATCTCCTGAGCGAAGCGGAGCAGGCGCCGTTTCTGGCGGCGCTGGAAGGCCATTCGCCAGACACGCTCCCGCTGTACGGGGTGCCGTTCGCCATCAAAGATAATATTGACCTTGCGGAGATCGTCACCACCGCTGCCTGTCCGGCGTTTGCTTACCGGCCGACGCAAAGCGCGACCATTGTCGCACAGCTGATTGCCCTGGGGGCGGTGCCGGTGGGCAAAACCAATCTCGATCAGTTTGCCACCGGCCTGAACGGGACCCGTTCGCCGTATGGTCGCTGCCGCAACGCGTACCATCCCGCTTATCCCTCCGGCGGCTCCAGCGCCGGCTCGGCGCTAGCGGTAGCCCTGGGCGTCGCCAGCTTCGCGCTGGGGACTGACACCGCCGGCAGCGGTCGCGTCCCGGCCGGGCTGAATAACCTGGTGGGCCTGAAAGCGACGAAAGGGGTGATCTCCACCGCCGGGGTGGTACCGGCCTGCCGCACGCTGGACTGCGTGACCTTTTTCAGCGCCACCGCCGACGAGGCCAGCCAGCTGCTGGCGCTGGTTGCCCGGGCCGATCCGCAGGATAGCTACAGCCGCCGCAATCCTCAGTGGAACAGTCGTCAGGCCTTCGGCAGGCCGTCCGCCGGGTTTCGCTTTGGCGTCCCGCGGGAGCTTAACTTCCTCGGCTGCCGCGCCAGCGAAGCGCTGTTCGCCCAGGCCGTGCAGCGGCTGACGGCGCTCGGTGGGGAAGCCGTGGCAATCGATTTTGCGCCTTTTCTCGCCGCCGCCCGCCTGCTGTATGACGGGCCGTGGGTCGCTGAACGCTATGCGGTGGCTGGCCCGTTGATTGAGCAGCAGCCGGACGCCGTGCTGCCGGTCATTCGCGACGTGCTGGCGAAAGCGCCTGATATCGACGCGACGGCGACCTTTAAGGCGATGTATCAGCTGCAGGAGTATAAAGCGCAGTGCGATGCCATCCTCGAGACGCTGGACTGCGTGCTCACGCCAACCTTTCCGCGGCCGGTAACGCTGGACGAGCTGGCGGCGGAGCCCATCGCCCGCAACGCCGACCTGGGCTACTACACCAACTTTATGAACCTGCTGGACTATGCGGCGGTGAGCGTGCCGTGCGGGTTTATGCCCGACGGACTGCCCTCCGGCGTCACGCTGTTCGGCCGGGCCTTTACCGATCAGTATTTGCTGAGCCTGGCCGACGCCTTCCAGCGCGCGGAGCGGCTGCCGCTGGCAGGCGGCGCGCGGCTGGAGAGCCCGCCGCCTGCGCACCCCGCGGGCCATGATCGGATGGCCCTGGCGGTATGCGGCGCCCACCTGACCGGCCAGCCGCTGAACGGTCAATTGCTGGCGCGGGGCGGCCGGCTGCTGCAGGCGACCCACAGCGCGCCGCGCTATCGGTTGTATGCCCTCCCGGATGGCAAGCGCCCGGCGATGGTGCGTGACGAACCAGAGGGGGCCGCGATAGCGGTGGAAGTCTGGGAGATCCCCAGCGCTGAGGTGGGGTCGCTGCTGGCCACCATCCCCGCGCCGCTGGGGCTGGGACAGATTGAGCTGGCGGACGGCCGCTGGGTGACAGGCTTTATCTGTGAAGCCGGGGGGCTGGGCGCGGCCACCGAGATCACCGCCTGGGGCGGCTGGCGCCAGTGGCTGGCCAGGTAA	MMQQTFDLRLATLAANYRNGHTTPRALLAEIRQRAQALDPEFNLFIHLLSEAEQAPFLAALEGHSPDTLPLYGVPFAIKDNIDLAEIVTTAACPAFAYRPTQSATIVAQLIALGAVPVGKTNLDQFATGLNGTRSPYGRCRNAYHPAYPSGGSSAGSALAVALGVASFALGTDTAGSGRVPAGLNNLVGLKATKGVISTAGVVPACRTLDCVTFFSATADEASQLLALVARADPQDSYSRRNPQWNSRQAFGRPSAGFRFGVPRELNFLGCRASEALFAQAVQRLTALGGEAVAIDFAPFLAAARLLYDGPWVAERYAVAGPLIEQQPDAVLPVIRDVLAKAPDIDATATFKAMYQLQEYKAQCDAILETLDCVLTPTFPRPVTLDELAAEPIARNADLGYYTNFMNLLDYAAVSVPCGFMPDGLPSGVTLFGRAFTDQYLLSLADAFQRAERLPLAGGARLESPPPAHPAGHDRMALAVCGAHLTGQPLNGQLLARGGRLLQATHSAPRYRLYALPDGKRPAMVRDEPEGAAIAVEVWEIPSAEVGSLLATIPAPLGLGQIELADGRWVTGFICEAGGLGAATEITAWGGWRQWLAR	PGPT0001010_523	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_ATRAZINE|DERIVATE_DEGRADATION	XENOBIOTIC_CYANURIC_ACID_DEGRADATION,PGPT0001010-atzF-K01457	NA	NA
BMS020_00362	3606	carB_1		Carbamoyl-phosphate synthase large chain	ATGTTTGATACCTTACTGATTGCCAACCGCGGGGCGATTGTCTGCCGCATTCTGCGCACCCTGCGCGCCATGCAGGTGAAGGGCGTCGCCGTTTACGCCGAAGCCGACCTGAGCAGTCTGCACGTCCGCGAAGCGGATGAGGCGCTGAGCCTTGGCGAGGGGCCGGCAGCGCAAACCTATTTAGTCGTAGAGAAGATCATTGCCGCCGCGCGGCAGAGCGGCGCCCGCGCCATCCACCCCGGCTACGGCTTTCTGTCGGAAAACGCCGCCTTCGCCGAGGCCTGTGAGGCGGCGGGACTGGCGTTTGTTGGCCCGACCCCGCAACAGCTGCGAACCTTCGGCCTGAAGCATACCGCCCGCGCGCTGGCCAAAGCGGAGGGCGTTCCGCTGCTGGAAGGCAGCGACCTGCTGGCCGACAGCGAAGAAGCCTGCCGGGCGGCAGAGGCGGTGGGCTACCCGGTGATGCTCAAGAGCACGGCGGGCGGCGGAGGGATTGGCATGCGCGTCTGCCGCGACGCCCGCGAACTGAGCGAGGCGTTTGCCACGGTGCAGCGGCTGGGGCAAAACAACTTCAGCGACGCCGGGGTGTTTCTCGAAAAATATATTGAACGCGCCCGCCATCTCGAGGTGCAGATCTTCGGCGACGGGAAGGGGGCGGTTATCGCCCTCGGCGTGCGCGACTGCTCGCTGCAGCGGCGTAACCAGAAAGTGATTGAAGAGACGCCGGCGCCAAATCTGCCGGACGGGATGGCGCAGGCGCTGTGTAGCGCGGCCATTGCCCTCGGTAAAGCGGTGAACTACCGCAGCGCCGGGACGGTGGAGTTTGTCTACGACAGCGCGGCGCAGCGCTTTTATTTCCTCGAGGTCAATACCCGGCTGCAGGTGGAGCACGGCGTCACGGAGCAGGTGTGGGGCGTGGACCTGGTGCGCTGGATGATCGCCCTGGCGGCAGGGGATTTACCGCCGCTGAGCGAGCTGGCCGCCGGGCTACAGCCCCGGGGGCATGCCATTCAGGCGCGAATTTACGCCGAAGATCCTGGCCGCCAGTTTCAGCCTTCGCCCGGACTGTTAACCGACGTCTGGTTTCCGCCGGCGGACGGCGCTACCCTGCGCATCGACCGCTGGGTGGAGGCCGGCTGTGAAGTGCCGCCGTTTTTTGACCCGCTGCTGGCGAAAGCTATCGTCTGGCGCCCCAGCCGCGATGAGGCGATCGACGGCCTGGCGCAGGCCCTGGCGGAGACCCGCCTGTACGGCGTCGAAACCAACCGCCAGTACCTGCAGCAGATCCTTGGCTTTGCGCCGTTCACCGCCGGGGAACCCTGGACCCGCTGTCTGGAGCAACTGCGCTACCGGGCCGATACCGTGGAGGTACTCAGCGCCGGCACCCAGACCAGCGTCCAGGACTACCCGGGACGTCTGGGGTTCTGGGCGGTGGGCGTACCGCCCTCAGGCCCGATGGATGACCGGGCGCTGCGCTTGGGCAATCGTCTGCTGGGCAATGCCGAGGGCGACGCCGCGCTGGAGATCACCCTTAGCGGACCCACGCTGAAATTTAATACCGCGGTGCAGGCGGTGGTCTGCGGCGCGCCGCTGCCCGTAACGCTCGACGGCATCGACCAGGAGATGGACGGCGTCTTCTCTGTTCCGGCGGGGGCGACCCTCAGGCTGGGGGCGATAAGCGGGCCAGGCGTCAGAAGCTATCTCTGCCTGTGCGGCGGCATTCAGGTGCCGGACTACCTGGGCAGTAAAAGCACCTTTACCCTCGGTCAGTTTGGCGGCCACGGCGGACGGGCGCTGCGCGCCGGCGACGTACTGCATCTTGCGCCTCCGGCTGAGACCATGGAAGGCGCGGCGCTTCCCGCAGGGCTGCGCCCTGAGCTTTTGGAAGTACGAACGCTGCGGGTGATTTATGGCCCCCACGGCGCGCCGGAGTTCTTTGCCCCGGCGTATATGGCGACCTTTTTTGCCACCGACTGGGAAGTGCATTTTAACTCCAGCCGCACCGGCGTGCGCCTGATCGGGCCCAAGCCGGTCTGGGCCCGCGACAGCGGCGGCGAAGCCGGGCTCCATCCGTCGAATATTCACGACAACCCCTACGCGGTGGGGGCGGTGGATTTTACCGGCGATATGCCGGTGATCCTCGGGCCGGACGGCCCAAGCCTCGGGGGCTTTGTCTGCCCGGTCACGGTGATCGAAGCCGATCTCTGGCAGCTGGGCCAGCTTAAGGCGGGGGATAAGGTGCGCTTTGTAGCGGTTGACGTCCCCACCGCCCGGCGGCTGGCGGCAGGCCGTCGCGCGGAGCTGGCGACCCTGCAGGCGCAGGACGTTGCCTGGCAGCCTGTGCCGCTCACCTCACCGGTGGTGATGACCTGCGGCGACGCTGACAAACGCCTGGTGGCGCGCCTCTCCGGCGATACCCATCTGCTGCTGGAGGCCGGTGAGGCGGAGCTGGATCTGGTGCTGCGCTTTCGCATCCATGCCCTGATGCAGGCCCTTGAGGGGCAATCCCGGGACGGGATCATCGATATCACGCCGGGGATCCGCTCTCTGCAGCTCCATTTCCAGCCGGAAACGCTGGCGCTGGAGACGCTGCTGGCGTGGGTCCGCGAGGAGTGGGCCACGGTCTGCATGAGCGACGATCTGCAGGTTCCGACACGGGTGGTGCATCTCCCGCTCTCCTGGGACGATCCGGCCTGCCGCAAGGCGATCGACAAATATATGACCACCGTCCGCCCGGACGCCCCCTGGTGCCCAAGCAACCTCGAGTTTATTCGCCGGATAAACGATCTCCCGGATGAGCAGGCGGTGTGGCAAACGGTGTTTGACGCCAGCTATCTGGTGATGGGGCTCGGCGATGTCTATCTCGGCGCGCCGGTGGCCACGCCCCTTGATCCGCGCCATCGGCTGGTCACCACCAAATACAACCCGGCGCGAACCTGGACGGCGGAAAACTCGGTGGGCATCGGCGGAGCGTATCTGTGCGTTTACGGCATGGAAGGCCCGGGCGGCTATCAGTTTGTCGGCCGCACCCTGCAGATGTGGAATCGCTATCACGAGGTGGCCGATTTTGCCGGTAAGCCGTGGCTGCTGCGCTTTTTCGACCAGCTGCGTTTTTATCCGGTCTCGGCGGAAGAACTGCTGGCTATTCGCCGTGATTTCCCGCTCGGACGCTACCCGCTGCGCATCGAGTACAGCACGCTGCGGCTGGCGGAGTACCAGCAGTTTCTCTCTCGCGAGGCGCAGAGCATTAGCGCATTTCGCGACCATCAGCAGCGGGCGTTTAACGACGAGCGCGAGCGCTGGATCGCCAGCGGCCAGGCCCATTTCGACAGCCAGGAGAGCGCGACAGAAGAGGCGGGCGATGCGCCGCTGCAGCCGGGGGAGCAGGGGGTGGAAAGCCCGGTATCCGGTAATCTGTGGCAGGTACAGACCGCTGCCGGCAGCCAGGTACGCGCCGGCGATGTGCTGGTGGTGCTTGAGTCGATGAAAATGGAGATCCCGCTGCTGGCGCCGTGCGATGGCAGGGTTCAGCAGGTCAATGTGCAGCCAGGCAGCGCGGTGCGTGCCGGGCAGCGGGTGGCAGTGATTATTGAGGAGAAGGCATGA	MFDTLLIANRGAIVCRILRTLRAMQVKGVAVYAEADLSSLHVREADEALSLGEGPAAQTYLVVEKIIAAARQSGARAIHPGYGFLSENAAFAEACEAAGLAFVGPTPQQLRTFGLKHTARALAKAEGVPLLEGSDLLADSEEACRAAEAVGYPVMLKSTAGGGGIGMRVCRDARELSEAFATVQRLGQNNFSDAGVFLEKYIERARHLEVQIFGDGKGAVIALGVRDCSLQRRNQKVIEETPAPNLPDGMAQALCSAAIALGKAVNYRSAGTVEFVYDSAAQRFYFLEVNTRLQVEHGVTEQVWGVDLVRWMIALAAGDLPPLSELAAGLQPRGHAIQARIYAEDPGRQFQPSPGLLTDVWFPPADGATLRIDRWVEAGCEVPPFFDPLLAKAIVWRPSRDEAIDGLAQALAETRLYGVETNRQYLQQILGFAPFTAGEPWTRCLEQLRYRADTVEVLSAGTQTSVQDYPGRLGFWAVGVPPSGPMDDRALRLGNRLLGNAEGDAALEITLSGPTLKFNTAVQAVVCGAPLPVTLDGIDQEMDGVFSVPAGATLRLGAISGPGVRSYLCLCGGIQVPDYLGSKSTFTLGQFGGHGGRALRAGDVLHLAPPAETMEGAALPAGLRPELLEVRTLRVIYGPHGAPEFFAPAYMATFFATDWEVHFNSSRTGVRLIGPKPVWARDSGGEAGLHPSNIHDNPYAVGAVDFTGDMPVILGPDGPSLGGFVCPVTVIEADLWQLGQLKAGDKVRFVAVDVPTARRLAAGRRAELATLQAQDVAWQPVPLTSPVVMTCGDADKRLVARLSGDTHLLLEAGEAELDLVLRFRIHALMQALEGQSRDGIIDITPGIRSLQLHFQPETLALETLLAWVREEWATVCMSDDLQVPTRVVHLPLSWDDPACRKAIDKYMTTVRPDAPWCPSNLEFIRRINDLPDEQAVWQTVFDASYLVMGLGDVYLGAPVATPLDPRHRLVTTKYNPARTWTAENSVGIGGAYLCVYGMEGPGGYQFVGRTLQMWNRYHEVADFAGKPWLLRFFDQLRFYPVSAEELLAIRRDFPLGRYPLRIEYSTLRLAEYQQFLSREAQSISAFRDHQQRAFNDERERWIASGQAHFDSQESATEEAGDAPLQPGEQGVESPVSGNLWQVQTAAGSQVRAGDVLVVLESMKMEIPLLAPCDGRVQQVNVQPGSAVRAGQRVAVIIEEKA	PGPT0001005_488	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0001005-uca|dur|urd-K01941	NA	NA
BMS020_00364	99			hypothetical protein	ATGGAACTGACCCGCTGGCAGCGCTGGCGTTTGCTGGCCTTTCGGCTGTTCGCCGTTCGCGCCGACCGCCTGAACCACACGCCGACGCGCCACCTTTAA	MELTRWQRWRLLAFRLFAVRADRLNHTPTRHL				NA	NA	NA	NA	NA
BMS020_00365	636			hypothetical protein	ATGACCCTTATCACCAGTCACCGACGTCCGGAAGAGGCCGTCTATCGCCATGTGATCCCCGCCGGGGAGCCGTGGCTGTTCGAGGTTAAACAAGGACAAACCCTGCGTCTGCTCGATCTCGAAGGCAACCAGGCGATTGATACCCTGTTTTACAACGCCGACAACCCGCGCGAGCGCTACGATGCGCAGCGCACGCTGCGCCGCCAGGGTAACGCCTACCTCACCGCCGGCAGCGTGCTCTATTCCAACCTTGGCCGTCCGCTGATGACCATCGTGGCCGATACCTGTGGGCGGCACGATACCCTCGGCGGCGCCTGCGCCCAGGAGAGCAACACCGTCCGCTACGCCCTCGACAAGCGCTACATGCACAGCTGCCGGGATAATTTCCTCTGCGCCTGTCTGCATGATGGCCGTCTGCATAAGCGCGATATCGGCGCCAACATTAACTTCTTTATGAACGTGCCGGTGACGCCGGAGGGCGGTCTGACCTTTGCGGATGGCATCTCGGCGGCGGGAAAATACGTGGAACTGCGCGCGGAGTGTAACGCAATGGTGTTGATCTCCAACTGCCCGCAGCTCAACAATCCCTGCAATGGCTGGAACCCGACCCCCGCCGAGGTGCTGGTATGGAACTGA	MTLITSHRRPEEAVYRHVIPAGEPWLFEVKQGQTLRLLDLEGNQAIDTLFYNADNPRERYDAQRTLRRQGNAYLTAGSVLYSNLGRPLMTIVADTCGRHDTLGGACAQESNTVRYALDKRYMHSCRDNFLCACLHDGRLHKRDIGANINFFMNVPVTPEGGLTFADGISAAGKYVELRAECNAMVLISNCPQLNNPCNGWNPTPAEVLVWN	PGPT0001000_1406	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0001000-ycgI-K09967	NA	NA
BMS020_00366	729			hypothetical protein	ATGACTGAACTGTTTCACTCCACCCCCAGCCTGCGCGAAGAGCGGCTTCCCGGCGGGGCGCACACCTCGCTGATTTTGCGCAAAGGGCAGATCCTGCGCCTGACCGATCTCGACGGCGGGGCAAACGTCAGCATGATGATGCTCAATCCCCATGAGAAAAGTGAGCGGCTCAACCTGCCGGATACCCTCAAAGGACAGCATACCGCGCGCCTGACCGCCGGGCATTGTTTCTACTCCGATATGGGCCGGGTGCTGGCCGGGATCGTCGCCGACAGCTGCGGCTGGCACGATCCGTTCGGCGGTGTCCTCAACGCCGGGGAGACGCACGACAAATATGGCGCCGGACGCTACCAGGAATTACGCAATGGCTTCTATCGCAACGGCGTCGATAACCTGCTGGTGGAGATGGGGAAATGGGATCTCGGTCTGGAAGATCTGCTGATGGTGGTCAACTTCTTCAGCAAAGTGACCGTCGATGACGAGGGGCGCTTTCACTTTGTCTCCGGCAACAGCCGCGCCGGGGACTATGTGGAACTGTATGCCCCGATGGACGTCCTGCTGGTCCTCACCGCGCTACCGCATCCTCAGGATCCGGCCACAGAGTATGCCCCCCGTCCGGTACAGCTGAGCTGGTATCAGGCCGACGATGAAGACGCGGCCACTCAGGCGCTCCTGACCCGCGATGAGAACCTGCGCGCGTTCCGCAATACCCAACTTTTTGCCCTGTAA	MTELFHSTPSLREERLPGGAHTSLILRKGQILRLTDLDGGANVSMMMLNPHEKSERLNLPDTLKGQHTARLTAGHCFYSDMGRVLAGIVADSCGWHDPFGGVLNAGETHDKYGAGRYQELRNGFYRNGVDNLLVEMGKWDLGLEDLLMVVNFFSKVTVDDEGRFHFVSGNSRAGDYVELYAPMDVLLVLTALPHPQDPATEYAPRPVQLSWYQADDEDAATQALLTRDENLRAFRNTQLFAL	PGPT0001000_719	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0001000-ycgI-K09967	NA	NA
BMS020_00367	777	nrtD_1	COG1116	Nitrate import ATP-binding protein NrtD	ATGAGTTTTATCGACATCAAAAACATCTGGCAGGAGTACGGCGACCACGTGGTGCTGGAGCGCATTAATCTGCAGGTGAAAGAGGGCGAGTTTTGCTCAATGGTCGGCGCGTCCGGCTGCGGTAAATCGACCTTTCTGCGTCTGCTGCTCGGTCAGGAGCAACCGACCCGCGGCGCCATCCTGCTCGACGGCCAGCCGCTGGCGGCGGAGCCGGACCGCAGTCGCGGCGTGGTTTTCCAGCGCTATTCGGTGTTTCCGCATCTCAACGTGCTGGATAACGTCGCCATCGGCCTGGAGCTGCCGGCGTCCCCGCTGCTGGGGCGCCTGTTTGGCGGCAGAAAGCGCGAGGCCCGGCAACAGGCCCAGCGAATGCTGGAGAAAGTGGGCCTGGGACACGCCCTGGATAAATACCCGGCGCAGCTCTCGGGCGGGATGCAGCAGCGGCTGGCCATTGCCCAGGCGTTCGTGATGCAGCCGCGGGTGCTGCTGCTGGACGAGCCCTTCGGCGCGCTGGATCCCGGCATTCGCAAGGATATGCATGCGCTGCTGCTCCAGCTGTGGAGCGAAACGCGCATGACGGTGTTTATGGTCACCCACGACCTGGCCGAAGGCTTCAACCTGGGCACGAGGCTGCTGGTGTTCGACAAAGTGCGCATCGACCCGCAGGCGCCCAACGCCTGGGGAGCGCGTATTACCTACGACATCCCGCTCAATGAAGCGCGGATGGCGCAACTGGCCACCGGTAGCGACACCAACGTTTACGCATTAAGGAGATAA	MSFIDIKNIWQEYGDHVVLERINLQVKEGEFCSMVGASGCGKSTFLRLLLGQEQPTRGAILLDGQPLAAEPDRSRGVVFQRYSVFPHLNVLDNVAIGLELPASPLLGRLFGGRKREARQQAQRMLEKVGLGHALDKYPAQLSGGMQQRLAIAQAFVMQPRVLLLDEPFGALDPGIRKDMHALLLQLWSETRMTVFMVTHDLAEGFNLGTRLLVFDKVRIDPQAPNAWGARITYDIPLNEARMAQLATGSDTNVYALRR	PGPT0001140_6246	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
BMS020_00368	816			hypothetical protein	ATGCGCCACATTAACCGATATCCCCAAAAGGGGATGCGCCTGACGCTGATGCTGCTGCCGTTTGTGCTGCTGATCGCCGCCTGGTTTATGGGATCGGCGGTGCGGCTGGAAGCCAATCCGCAGGACAAGTTGCTGCCAGGCCTGTCGCAGATGGCGGCGGCCATTGACCGGATGGCGTTCACCCCGGACAAACGCAGCGGCGAGTATCTGCTGTGGGCCGACACGCTGATCAGCCTGAGCCGTCTGCTGACGGGCCTGGCCGTCTCGTCGCTCATCGGCCTCGGCATCGGTATCGCCGCCGGCGTCTTCCCGATGTACCGCGCGGCGCTGTCGCCGCTGATGACGGTGGTGTCAATGATCCCGCCGCTGGCGATCCTGCCGGTGCTGTTTATCGTCTTTGGCCTGGATGAGCTGTCGAAAGTGATGCTGATCGTCATCGGCATTACGCCGATGCTGGCGCGCGACCTGGAGCAGCGGGCGCGGGAGATCCCGGCGGAGCTGTTTATAAAGGCGCAGACCCTGGGGGCTAATAGCTGGACGGTGGTGCTGCGGGTGGTGCTTCCTCAGCTGCTGTCGCGGCTGATCGCTTCTCTGCGCCTGCTGCTGGGCTCGGCATGGCTGTTCCTGATCTCCGCCGAGGCCATCTCCGCCACCGCCGGGCTGGGGTATCGCATCTTCCTGGTGCGGCGCTATATGGCGATGGACGTGATTATTCCGTATGTCATCTGGATCACGCTGCTGGCATGGCTGATGGATCTGGCGCTGCGTCAGCTGCACAAAGCCTGTTTCCCTTGGGCGGAAGGAGGCCGGGGATGA	MRHINRYPQKGMRLTLMLLPFVLLIAAWFMGSAVRLEANPQDKLLPGLSQMAAAIDRMAFTPDKRSGEYLLWADTLISLSRLLTGLAVSSLIGLGIGIAAGVFPMYRAALSPLMTVVSMIPPLAILPVLFIVFGLDELSKVMLIVIGITPMLARDLEQRAREIPAELFIKAQTLGANSWTVVLRVVLPQLLSRLIASLRLLLGSAWLFLISAEAISATAGLGYRIFLVRRYMAMDVIIPYVIWITLLAWLMDLALRQLHKACFPWAEGGRG	PGPT0001145_4835	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
BMS020_00369	1059			hypothetical protein	ATGAAAACATCGCCGCTCCTCCGCTCACTTGTCCTGTCGCTGACGCTATTGACCAGCGTCCCGTCCTTTGCCACCGTCAAGAAAGAGTTCAACGTCTGCTGGACCATCTACGCCGGCTGGATGCCCTGGGGCGCCATCAGCAATGAAAAGATCATCGATAAATGGGCCAGCAAGTACGGCATCAAAATCAATATTGTTCAGCTCAACGATTACATCGAATCCATCAATCAGTACACCGCCGGGCAGTTTGACGGCTGCACGATGACGAATATGGACGCCCTGACCATCCCGGCGGCCGGCGGTGTCGACAGCACGGCGCTGATCACCGGCAGCTACTCCGATGGTAACGACGGGGTGGTCCTGAAAGGGGCGGATAAAAAGCTCAGCGACCTGAAAGGGATGTCGGTGTATCTCCCGGAGCTGTCGGTCTCCCACTATCTGCTGGTGCGCGGCCTGGAAAAAGCCGGGCTGCAGGAAAAAGACGTCAAGGTGGTGAATACCTCCGATGCCGATATCGTCTCGGCTTTTGGCACCAGCGGCGTGCGGGCGGCGGTGGCCTGGAATCCACAGCTGTCGGTTATCAAAAAGACCCCGCAAACCAGCGAAGTGTTTAGCTCCTCGCAGGTGCCGGGCGAGCTTATCGACATGATGGTGGTCAATACCCAGACCCTGAAAGATAACCCGGCGCTGGGCAAAGCCCTGACCGGCGCGTGGTTTGAAATGATGACCAAAATGAAGGCCGGCGATACCCAGGCGCTGAGCGCTATGGCCGCCGACTCCGGTACCGATCTCGCCGGCTACCAGGCGCAGCTCAAAACCACTCATCTTTTCTGGACGCCTGCCGACACCCTGGCGTTTATCGCCTCGCCGGATCTGGCGAAAACCATGCAGCGTGTGGCGCAGTTCTCCTTCGATAAAGGTCTGCTGGGCGAGGGGGCGCAGAGCGCGGACTTTATCGGCATGACCTTCCCGGGCAATGCCACGCTCGGCGATGCCGCCAACCGCAAACTGCGCTTTGACGACAGCTACCTGAAGCTGGCCGCCGCGGGCCAGCTGTAA	MKTSPLLRSLVLSLTLLTSVPSFATVKKEFNVCWTIYAGWMPWGAISNEKIIDKWASKYGIKINIVQLNDYIESINQYTAGQFDGCTMTNMDALTIPAAGGVDSTALITGSYSDGNDGVVLKGADKKLSDLKGMSVYLPELSVSHYLLVRGLEKAGLQEKDVKVVNTSDADIVSAFGTSGVRAAVAWNPQLSVIKKTPQTSEVFSSSQVPGELIDMMVVNTQTLKDNPALGKALTGAWFEMMTKMKAGDTQALSAMAADSGTDLAGYQAQLKTTHLFWTPADTLAFIASPDLAKTMQRVAQFSFDKGLLGEGAQSADFIGMTFPGNATLGDAANRKLRFDDSYLKLAAAGQL	PGPT0001135_2067	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
BMS020_00371	351			hypothetical protein	ATGAAAATATTGCTGATGTTGCCCACCCTTTTTCTGTTAAGTGGTTGTGTGGATCTGGGGGATGTGGGCATACACCCGGAAGAAGAAACCTATTACGTTAATCAGGGAAAACATCAGGTGATTGATTGCCTTCATTATGCCGCTTCTAAAGAGAATTTATCGCTGGAATATGATGACACTCTTCCTGAAAACATCGATAAATACAACCTGATGAATACTGAAAACACGACTGTCGGGTGGGTGGAAATCAGTAACTTCAACGGCAGGCAGACTTCGGTAGAATTTTATTATGCGCCGCATGCCCCGGATATACATCGGTCGGTCACTAACATTGCTGAACGGTGTTCATAA	MKILLMLPTLFLLSGCVDLGDVGIHPEEETYYVNQGKHQVIDCLHYAASKENLSLEYDDTLPENIDKYNLMNTENTTVGWVEISNFNGRQTSVEFYYAPHAPDIHRSVTNIAERCS				NA	NA	NA	NA	NA
BMS020_00372	432			hypothetical protein	ATGCATAATTATATTGCCAAAGGTATTGCGCTGGCTGTAGCCATCGCTGCCTCAGGAACGGTGCAGGCTATTGATAAAAAGAATCCTGATCCTTATTTTTCAGGGGTCAAGATTTTTGCCCTAAAGGAGGCCGCCGGAAGTGAATGGGATAGCGTGACCGGCGAGGCGAAGTATCTGGTGACCTATAAAGTTACGCTTGATAACTTCTCTGATAAAAGCATTGAACCTGGCAAAGATAACAAAATGTGCTTCTTTTTGTATGATAAAAATGGCAAGTCATTTATGAGCACGGGTATTGAAATGGAGATGCTGAAAAAATACAAACCCATTGAAAGCCGAACAGGTAACGTGTTCTTCAGCAGCGCCGATCCTGAAATACTGAATATACCTTTTGTCCGTCTCGCTTTCGGTAAAGACTGCTTAACAAAATAA	MHNYIAKGIALAVAIAASGTVQAIDKKNPDPYFSGVKIFALKEAAGSEWDSVTGEAKYLVTYKVTLDNFSDKSIEPGKDNKMCFFLYDKNGKSFMSTGIEMEMLKKYKPIESRTGNVFFSSADPEILNIPFVRLAFGKDCLTK				NA	NA	NA	NA	NA
BMS020_00373	1257	oxlT		Oxalate:formate antiporter	ATGACGACACTCAGCGAACCGTTGGTTACCCCGAAATATGGCAAATGGCGCCAGCTGGTGCTGGGCCTGATCTGTATGGCCGCCATCTCCAGTCCGCAATATGTCTGGACGCTGCTGACGAAACCCCTGGCCGCAAAGCTGGGCGTCGGTCTGCCCGAGCTGCAGGTCACCTTCTCGCTGCTGATCATCCTCCAGACCTTCTTTTCGCCCTTTCAGGGGCGGTTAGTGGAGAAATTTGGCCCACGGCGGCTAATCGCTATCGGCACGGTGATGGCGGGAATGAGCTGGGTGCTTTCCGCACAGGTGAATGGCCTGGCGACGCTGTGGCTGGTTTATGGCTGCATGGGCGGCCTTGGAACCGGGATCGTCTACATCGGCGTTGTCGGCCTGATGGTCAAATGGTTTCCGCGGCAGCGGGGGTTCGCCGCCGGCGCGGTGGCGGCGGGCTACGGGATGGGGGCCATCCTAACCACCTTCCCCATCTCCCTGTCGCTGACCACCAACGGCCTTGAACACACGATGACGACCTTCGGGGTCCTCTTCGCGCTCGTCGGCTTCCTCGCCAGTCAGGGACTGAAGCTGCCGCCGCCTGCTGTCTCTTTGCCCGTCAGCCAGACGGTGGCGCAGAGCAGCAGATCGTTTACCTCCCGGGAAATGCTGCGCCAACCGCTGTTCTGGCTGATGTTTGCCATGATGGCGATGATGTCGACTTCCGGGCTGATGGTCACTTCGCAGATGGCGGTGTTCGCCGAGGACTTCGGCATTAGCCAGGCGGTGGTGTTTGGCATGGCGGCGCTGCCGCTGGCGTTAACGATAGACCGCTTCACCAACGGTTTAACCCGGCCGCTGTTTGGTTTTATTTCCGACCGCTTCGGCCGCGAGCAAACCATGTTTATCGCCTTTGCGCTGGAGGGGGTGGCGATGACGCTCTGGCTGGCGTGCCGGGAAGATCCGCTGCTGTTTGTCCTGCTTTCCGGGGTGGTGTTCTTTGGCTGGGGGGAAATCTTCTCCCTCTTCCCGTCGACGCTCACCGATACCTTCGGCAGCGAACATGCCGCCAGCAACTATGGCTGGCTGTATATTTCTCAGGGCATCGGGTCAATCTTCGGCGGCCCGCTGGCGGCGTTGCTCTATCAGTACACCCACGGCTGGCATGTGGTTTTCAGCTGCGCCATTGGCCTGGATTTTGTCACCGCCGCCCTCGCGCTGTGGGTGCTAAAACCGTGGCGCGCGCGCTTTATCCGCCAGCATACCTAA	MTTLSEPLVTPKYGKWRQLVLGLICMAAISSPQYVWTLLTKPLAAKLGVGLPELQVTFSLLIILQTFFSPFQGRLVEKFGPRRLIAIGTVMAGMSWVLSAQVNGLATLWLVYGCMGGLGTGIVYIGVVGLMVKWFPRQRGFAAGAVAAGYGMGAILTTFPISLSLTTNGLEHTMTTFGVLFALVGFLASQGLKLPPPAVSLPVSQTVAQSSRSFTSREMLRQPLFWLMFAMMAMMSTSGLMVTSQMAVFAEDFGISQAVVFGMAALPLALTIDRFTNGLTRPLFGFISDRFGREQTMFIAFALEGVAMTLWLACREDPLLFVLLSGVVFFGWGEIFSLFPSTLTDTFGSEHAASNYGWLYISQGIGSIFGGPLAALLYQYTHGWHVVFSCAIGLDFVTAALALWVLKPWRARFIRQHT	PGPT0017235_397	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OXALATE_TRANSPORT,PGPT0017235-oxlT-K08177	NA	NA
BMS020_00374	537			hypothetical protein	ATGTTGCTACCCCTGACCACGCCCCGGCTGCTACTGCGCCGGTTCAGAAAGGAAGATCTGCCGTCTTTCAGCCGCTATCGCAACCTGCCGGAAGTGGCCCGCTTACAGAGCTGGAGCCATTACGGTATGGCAGAGGCGACTGCCTTCTATGAACAACAGCGTTCCCTGGCCTTTGCTGAGGATGAGAGTTGGTTCCAGCTTGCCGTAGAGATCCAGGCCAACGGTGCGCTGGCGGGAGATGTGGGGATCCACTTTTTCGATCAGGGCAGACAGGCCGAGCTGGGGATGACCTTTTCCCCGGCGTATCAGCATCAGGGGTATGCCCGGGAAGCCATACAGGCGGTGATAGCCTTACTCTTTGAACCGTTGGCCCATCACCGGCTGATCGCGGTGGTAGACACCCGCAATACCGCCGCGATCAAACTCCTGGAATTGCTGGGCTTTCGTCGCGAGGCGCATTACCGGCAGAATATCTTTTTTAAAGGCCAGTGGGGCGATGAGTATCTGTACGCACTGCTGCGCAGCGAATATCAGTGA	MLLPLTTPRLLLRRFRKEDLPSFSRYRNLPEVARLQSWSHYGMAEATAFYEQQRSLAFAEDESWFQLAVEIQANGALAGDVGIHFFDQGRQAELGMTFSPAYQHQGYAREAIQAVIALLFEPLAHHRLIAVVDTRNTAAIKLLELLGFRREAHYRQNIFFKGQWGDEYLYALLRSEYQ	PGPT0028650_52	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
BMS020_00375	609			hypothetical protein	ATGAAGAAGAACATTGCCTTTTTTGACTTCGATGGCACGATAACCCACGAAGATACGTTTACCCCTTTCATTTATCAGTCCCTCGATGCGAAAGCCATTCGTCGGGGCAAACTGCGGCTGTTACCGTATATTCTCGCCTGGAAAATGGGCTGGCTTTCAGCCTCTGCCATCCGGCAAAAAGTGTTTCATTATGCTTTTGCCGGGAAATCGCAACCTGAGATCCTGCAGCGTGGGAACGATCATAGCCAGGCGTTTATTCCCCGCACGCTGCGGGAGAACGCGATGCAGCGTATAGCCTGGCATCAGGCGCGAGGGGACACCGTGGTGGTGGTCTCAGCCTCGCTGGATGTCTACCTTCGACCGTGGTGCCAGCAGCATAATCTTGAGCTGCTGTGCAGCGAAGTGGAATTTCAAAACGGGGCAGCGACCGGAAAGTATCAGGGTGGAGACTGCAGCGGCCTGGCCAAAAAGGCGCGTATCCTGGCGAACTACGCCCTGACCGATTACGAAGCGATCTTCGCTTACGGCGATACGCCGGAAGATTTCGCCATGCTGGCGCTGGCCACCACTCAAATCTATCGCTGGGAGGAGGCACCGCCATGCGGCTAG	MKKNIAFFDFDGTITHEDTFTPFIYQSLDAKAIRRGKLRLLPYILAWKMGWLSASAIRQKVFHYAFAGKSQPEILQRGNDHSQAFIPRTLRENAMQRIAWHQARGDTVVVVSASLDVYLRPWCQQHNLELLCSEVEFQNGAATGKYQGGDCSGLAKKARILANYALTDYEAIFAYGDTPEDFAMLALATTQIYRWEEAPPCG	PGPT0007720_606	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATASE_ACTIVITY,PGPT0007720-pgpC-K18697	NA	NA
BMS020_00376	579	betI_1		HTH-type transcriptional regulator BetI	ATGAAGCCAAAACAAGCGGACATTCTCCGCCACGCCAGCGCGCTGTTTAATCGCGAAGGATATCAGTCGCCCAGCATCGAGCGGATTGCTGAGCATGCCGGCATCTCCAAAATGACCTTCTACCGCTACTTTGCCGATAAAGAGGCGCTCATTCTGGCTATCCTCCGGCAGAAAGAGAGCGAGTTTATGCAGGATCTGACGCAGATCACCGCGGATAAAGCCACCGCGCGGGAGAAGCTGTTCGCCGTGTTCGACTACTATCAGTGCTGGTTAACCTGCGAAACGTTCCACGGCTGCATGTTTACCCGCGCGCTGTTTGAATATGGCGCGTCATCGCCGGCGATCCGGGAGCAGTGCTCCCGGTTCAAATCGCGCCTGTGGCAGTTCTTCCGCGATATTCTGAGTCGGGTATTAAAACCAGAGCCTGCCGAACGGGTCGCCATGATGATGGTGATGCTCATCGATGGCGCCATCGCCGCCCAGCAGGCCGAGTCCGCCGAATGCCGGGAGATCCCGCCGGGGACGACCGCCTGGAGCGCGGCCAAAGCGCTGATCTACTCAGAAGGCGGTACGCTGTGA	MKPKQADILRHASALFNREGYQSPSIERIAEHAGISKMTFYRYFADKEALILAILRQKESEFMQDLTQITADKATAREKLFAVFDYYQCWLTCETFHGCMFTRALFEYGASSPAIREQCSRFKSRLWQFFRDILSRVLKPEPAERVAMMMVMLIDGAIAAQQAESAECREIPPGTTAWSAAKALIYSEGGTL				NA	NA	NA	NA	NA
BMS020_00377	1095			hypothetical protein	ATGCGTAATACCGACAATGGGGTCATTGGTAGTGACCAAACCGCGGTGATAGCCAGGCTGGCGCTGGATGAGTTAATTGACCAGCTTCTGCACAGCAACGCACTGTCGCTGAAGCTGACGGCCAATCCGCTGGTCGCCGACAGAGCCTGGCATCTGACGGAGAATACCTGCATCCGCGCCTTCTCCGCTGACGATCCGCAGGCCAAAAAGCGCGCGCACCATGCGCTGTTCATCCTTTATCAGTCCTGGCTTGCCGACCCGCTCTCGCCGGCGGCTGCCAATCAGTTTCATCCGTTGCTCTCCGGGATCCGAAATTACATTGAGTCTGAGTGGCTGCGGGCGGAAAGCAAACGTTTCCACCGCCAGAGGCCGGTGCTCAATGCCGGCAATATCGTCGACGAACTGCGCGCCTTATGCCAGCAGCACCCGGCGTCTCATCATCCGCTGTTCGATTTCCTTGCCAGCGAGGCCTCCGCGGCGCAAATCGACTATTTCTTCAAAAGCGACAGCGCGCTGAATCTGCTTTTCTTCGATCTGGTGGCGATGGGGCTGGTGGGCTCGTTGCCGGAAACCCGCGCCGAGATTGCGCAAAATCTGTGGGATGAGATAGGCCAGGGCAGCGCTGAGATCACCCACGTTAATCTGTATAAGGATTTACTGAAGCGGCGGAATATCGCCTTACCGGACAATCATTTTGCCCATCTTTATGAGTGGCAGGGGCTGGCCGGGTATAACGCCTTTATGCTCGGCGGCGTAAATCGTCAGCATTACTACAAATCGCTGGGGGTGATGGCGATGACCGAACTGCTCGACCCGCCGCAGTATGAAAAACTGGTGGCGGGCTGTCGGCGGATTGGGCTTAGCGATCGCGACGTGCATTACTATGCCGAACATATCACGGTCGATATCGGCCATGCGGACGGTTGGCTGAACAATGTGATTGTGCCGATTGGCAAAAAACATCCGGCGGCGATGGAGGAGGTCTACTTTGGCGCCGCGCTGCGCCTGCAAACCTGCAACGATTACTATGATGGTCTGCTGGCGGCGCTGCAGTCACTGGACGGCAGCATGAGCTCACAGCGTACCGCCTTCTGA	MRNTDNGVIGSDQTAVIARLALDELIDQLLHSNALSLKLTANPLVADRAWHLTENTCIRAFSADDPQAKKRAHHALFILYQSWLADPLSPAAANQFHPLLSGIRNYIESEWLRAESKRFHRQRPVLNAGNIVDELRALCQQHPASHHPLFDFLASEASAAQIDYFFKSDSALNLLFFDLVAMGLVGSLPETRAEIAQNLWDEIGQGSAEITHVNLYKDLLKRRNIALPDNHFAHLYEWQGLAGYNAFMLGGVNRQHYYKSLGVMAMTELLDPPQYEKLVAGCRRIGLSDRDVHYYAEHITVDIGHADGWLNNVIVPIGKKHPAAMEEVYFGAALRLQTCNDYYDGLLAALQSLDGSMSSQRTAF				NA	NA	NA	NA	NA
BMS020_00378	915			hypothetical protein	ATGCCCTATCTGTTACTGACGCTGGCCGCCCTGTTCTGGGGTGGGAATTACGTTGTCGGTCACGTGCTGGTTCAGGGCGTGGATCCGATCCTGATGACCGAAGCGCGGTGGGCGTTAACGGCGCTGCTGCTGGGCCTGCTCTACCGCCGGCAGATTGCCGGCAGTCGTCACCTGCTGCGGGAAAACGCCCCGGCGGTGCTGGTGCTCACCCTCTGCGGTCAGGTCAGTTTCCCGCTCACGCTCTATATCGGTCTGCAAACCACCTCCGCCCTCAACGCCGCCATCTATATGTCCGCCACGCCGAGCATGGTGCTGCTGATTAATCGGCTGATTTTTCGCGACCCGGTATCGGCCCGCAACTGGCTGGGGGTGGTCTTCAGCACCCTCGGCGTGATGATCCTCTTATTCCAGGGCAACCCGCTGCATGCCGCCTCGCTGCATACCTTTTCCGTCGGCGATCTGTGGGCGATGGGGTCGGCGCTGAGCTGGGCGCTCTATTGTTCGCTGTTACGTCTGAAGGACCGCCGGATCCCGGCGAATGGCTTTGTCGCCGTCAGCTCGCTGCTCGGCGCCCTGCTCCTGCTGCCGATCGTCGCCTTCTGGCTGATGCGCCACCCGGCGCAGGACTGGGATGCCTGGCGCGAGCCGTTTTTCCTCAGCGGGCTGGCTTATCTGGTGATTTTTCCGTCATGGCTGGCCTATCTGTTCTGGAATAAAGGGATCGCCACCATCGGCGCCACGCGGGGGGAGATTTACACCCACATCATCCCCCTCTCGGGTGGCGTGTTAAGCATCCTCTTCCTGCATACCCAGCCCCATGCCTGGCACCTGTTCAGCGCGCTGTTCATTATGCTGGGGATTGGCATCTGCTCGCTGGAAAAACGCCAGGCGGCGACGGTTCGCCTGCGCGGTTAG	MPYLLLTLAALFWGGNYVVGHVLVQGVDPILMTEARWALTALLLGLLYRRQIAGSRHLLRENAPAVLVLTLCGQVSFPLTLYIGLQTTSALNAAIYMSATPSMVLLINRLIFRDPVSARNWLGVVFSTLGVMILLFQGNPLHAASLHTFSVGDLWAMGSALSWALYCSLLRLKDRRIPANGFVAVSSLLGALLLLPIVAFWLMRHPAQDWDAWREPFFLSGLAYLVIFPSWLAYLFWNKGIATIGATRGEIYTHIIPLSGGVLSILFLHTQPHAWHLFSALFIMLGIGICSLEKRQAATVRLRG				NA	NA	NA	NA	NA
BMS020_00379	1233	yjhB		Putative metabolite transport protein YjhB	ATGCACGGCTGGACTTCACGACAGCGCAATGCGGCGATCGCCAGTTTTTTAAGCTGGACGCTCGATGCTTTCGACTTTTTCCTGTTGGTTTTTTTACTGAGCGATATCGCCCACTCCTTTCACTTCGACCTCGAAGAGGTCACCCTGGCGATTCTGCTGACCCTGGCCGTGCGGCCCGTCGGCGCATTGATCTTCGGCAGGGCGGCGGAAAAGTTTGGCCGCAAACCGATTCTGATGCTCAATATCGTTTTCTTCTCCGCCTTTGAGCTGCTCTCCGCCGCGGCGCCGTCGTTGATGCTGTTTTTTCTGCTGCGCGTGCTGTACGGCGTGGCGATGGGCGGGATCTGGGGCGTGGCTTCGTCGCTGGCGATGGAGACGATCCCCGACCGCTCGCGCGGCCTGATGTCCGGTCTGTTCCAGGCGGGGTATCCCTTCGGCTATCTGCTGGCGGCCGTGGCCTACGGGCTGCTGTTTGCACAGCTCGGCTGGCGCGGGATGTTTGTCATTGGCGCCGCCCCGGTGCTGCTGTTGCCGTTTATCTATTTCTGCGTCGAGGAGTCCCCGGTCTGGCTGGCGGCCCGGCAGAGTAAAGCGAGCACGGCTCTGCTGCCGGTGCTGCGTAGCCACTGGAAGCTGTGCCTGTACCTGGTGGTGCTGATGGCGGCCTTTAACTTCTTCTCCCATGGGACGCAGGATCTCTACCCGGTATTTTTGAAAGTCCAGCACGGGTTTGCGCCGGAAACGGTCAGCATTATCGCGGTGTGCTACAACATCGCCTCAATCATCGGCGGGGTGTTCTTCGGCTCACTGTCGGAGAAGATTGGCCGGCGCAAAGCGATTATGATCGCCGCTCTGCTGGCGCTGCCGGTGATCCCGCTGTGGGCTTTCGCCAGCGGCTCGCTGGCGCTGGGGGCCGGGGCGTTTCTGATGCAGTTTATGGTGCAGGGCGCCTGGGGGGTGATCCCGACCTGGCTCAACGAACTGGTCCCGGCCAACACCCGGGCGGTGCTGCCCGGTTTCGTCTATCAGCTGGGGAATCTGCTGGCCTCGGTGAATGCCACCCTGCAGGCCTCCATTGCGCAGCACCACGGGCATAACTACGGCCTGGCGATGGCCCTGGTGGCCGGGACGGTGGCGATCGTCATTACCATTCTGACCTTCTTTGGCCGCGAGGGCCGGGTGGCGCAACCTGCCGGAGCGGCGCGTCACCAGCCGCTCTCCACCAGCCGTTAA	MHGWTSRQRNAAIASFLSWTLDAFDFFLLVFLLSDIAHSFHFDLEEVTLAILLTLAVRPVGALIFGRAAEKFGRKPILMLNIVFFSAFELLSAAAPSLMLFFLLRVLYGVAMGGIWGVASSLAMETIPDRSRGLMSGLFQAGYPFGYLLAAVAYGLLFAQLGWRGMFVIGAAPVLLLPFIYFCVEESPVWLAARQSKASTALLPVLRSHWKLCLYLVVLMAAFNFFSHGTQDLYPVFLKVQHGFAPETVSIIAVCYNIASIIGGVFFGSLSEKIGRRKAIMIAALLALPVIPLWAFASGSLALGAGAFLMQFMVQGAWGVIPTWLNELVPANTRAVLPGFVYQLGNLLASVNATLQASIAQHHGHNYGLAMALVAGTVAIVITILTFFGREGRVAQPAGAARHQPLSTSR	PGPT0001795_355	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_LACTATE_TRANSPORT,PGPT0001795-JEN_Homologous-K08178	NA	NA
BMS020_00380	1608			hypothetical protein	ATGAAGAGAATCGCCATCGTCGGCGCCGGGCCGACGGGGATTTACACCTTGTATGAACTGGTGAAGCGCGGTGAGCCGCTATCGATCGCGCTGTTTGAAAAAGAGGCGCAGGCCGGGGTCGGTATGCCCTACAGCGACGATAATACCGCGGCGCAGATGCTGGCCAACATCGCCAGCATTGAGATCCCCCCTATCGACCTGACCTATCTGCAATGGCTGCAGCAGCAGAGCGATGACTGGCTGGCGGCGCGCGGTCTTGAACGGCACGCGCTGCATGAGCGCCAGTTTCTGCCGCGGGTGATCCTCGGCGAGTACTACCGCGACCGCTTTCTGTATCTTGTCCAACGGGCCAGAGACGCCGGCTTCGTGGTGAACGTTTGCGAGTCCTGTGAGGTCACGGATATTGCGGTGCAGCCCGTCGGGATCGCCATCCACACCGACAGCGCGGCGCAGCCGGTTATCGTCGATCTGGTGGTGATAGCCACCGGCCATTTGTGGCCTGAAGAAGAACGCGCCAGCCGGCAGTACTTCCCCAGCCCGTGGACCGGCCTGATGGAGGCCCGCATCGCCCCCTGTCGGGTCGGGATCCTCGGGACCTCCTTAAGCGCGATTGATGCCGCCGTGGCGGTTGTAGCCCGCCACGGCGTTTTCCATACTGAACACGACAAAACGACCCATTTTTCCCTGCATCCCGGCAGCGAAGCGCTGGAGATCACGCTGATGTCACGCAACGGCGTGCTGCCGGAGGCCGATTTCTACTGCCCGATCCCGTGGGAGCCGCTGGAGATCGCCACCTCTGCCGCCCTTGAGGCGGCCGTCGCTCAGGGCAGCGACGGCCTGCTGGAGCGGGTGTTTCAGCTGATCGTCCAGGAGCTGGAATATGCCGCCCCGGCCTGGTGCCAGGCGATGGGGCTGCGCCAGCTGACGCCTGACAGCATCGCCGACGCCTGGTTTGCCGACCGTCTTACCCATGACCCCTTCCAGTGGGCGCAGCGCAATCTGCAGGAGGTGGAGCGCAATAAGCGCGAGCGCCACACGGTGCCCTGGCGCTATGCCATTCTCCGCCTGCACGAGGCGATTGAAACCGTGGTGCCGCAGCTCAACGACGAGGACAGCCGTCGCTTCCGCCAGGGGCTCGCCCGCGTGTTTATCGATAACTACGCCGCGATCCCGCCGGAGTCCATTCGCCGCCTGCTGGCCCTGCACCGGGCGGGCATTCTGCGCATTGTGGCGCTGGGTGAGGATTACGATCTGCAGCGCGAGTCTGACCGGACGCTGATTGTCCATCATCAGCAGCGCTGTGAATTCGATGTCTTTATCGATGCCCGCGGACAGAAAGCGCTCAAAACCCGGGATCTGCCCTTTCCTTCACTGCGCCAGCAGCTGCTGGCCTGCGGCGACGCTATTCCGGACGTTGGTGATGACTACACGCTGCAGGCGCCGGAGGCAGTGCGCGGCCGGGTCGCCTTCGGCGCCCTTCCCTGGCTGATGCACGATCGCCCCTTTGTCCAGGGGCTGACGGCCAGCGCCGAGATTGGCAGCGCAATGGCCCGCGCGGTGTCACAGCAGGCAACCGGCCGGCGGCGCCGTCTCTGGTTTATCGACTAG	MKRIAIVGAGPTGIYTLYELVKRGEPLSIALFEKEAQAGVGMPYSDDNTAAQMLANIASIEIPPIDLTYLQWLQQQSDDWLAARGLERHALHERQFLPRVILGEYYRDRFLYLVQRARDAGFVVNVCESCEVTDIAVQPVGIAIHTDSAAQPVIVDLVVIATGHLWPEEERASRQYFPSPWTGLMEARIAPCRVGILGTSLSAIDAAVAVVARHGVFHTEHDKTTHFSLHPGSEALEITLMSRNGVLPEADFYCPIPWEPLEIATSAALEAAVAQGSDGLLERVFQLIVQELEYAAPAWCQAMGLRQLTPDSIADAWFADRLTHDPFQWAQRNLQEVERNKRERHTVPWRYAILRLHEAIETVVPQLNDEDSRRFRQGLARVFIDNYAAIPPESIRRLLALHRAGILRIVALGEDYDLQRESDRTLIVHHQQRCEFDVFIDARGQKALKTRDLPFPSLRQQLLACGDAIPDVGDDYTLQAPEAVRGRVAFGALPWLMHDRPFVQGLTASAEIGSAMARAVSQQATGRRRRLWFID				NA	NA	NA	NA	NA
BMS020_00381	1101	namA_2	COG1902	NADPH dehydrogenase	ATGAGTCATCTTTTTAGCGCGACGCGTATTGGTCAGTTGACGCTGGATAACCGTATCGTTATCGCCCCCATGTGTCAGTACTCTGCCGACGAGGGGAAGGCGACGTCCTGGCACCGGATCCATCTCGGGCAGCTGGCGTTCTCCGGCGCCGGCCTGTTAATTCTGGAAGCCACGGCGGTAGAGCCGGCGGGACGTATCTCGCCGGGGGATCTGGGGCTGTGGGATGATGAAACCGAAAACGCCCTGCGCGCCGTGGTGGAGGATATCCGGGCCTGGTCACCGATCCCTCTGGGGATCCAGCTGGGGCATGCCGGGCGCAAGGCCTCCTGCGCGGCCCCCTGGCAGGGTGGCCATCAGCTGGCGCTCAACCAGGGCGGCTGGCAGACCGTCGCCCCCTCCGCGGTGGCGTTTCACGACGGCGATCGCGCCCCGGCCGAGCTGAGCCATGCCGATCTGGCGCGCATCAAAGCGGCCTTTGTCGCCAGCGCATTGCGCGCCCAACGCCTGGGCTTTGAGCTGATTGAGCTGCACGCCGCCCACGGCTATCTGCTGCACCAGTTTCTCTCGCCGCTCAGCAATCAGCGCCGGGACGAGTATGGCGGTTCGCTGGAAAACCGCATGCGCTATCCGCTGGAAGTGTTTAAGGCAATCCGCGAGGCGGTGGGCAACGCCATGGCGGTGGGCGTCAGGTTGTCGGCTACCGACTGGGTCGAAGGCGGCTGGGACGGCGAGCAATCCATTCAGTTCAGTCAGCAGCTGGAAGCGCTGGGCAGCGACTATATCCATGTCTCCAGCGGCGGATTGTCGCCGCAGCAGGCAATCACCGTCGGGCCGGGGTATCAGTTGCCTTTCGCCCGCGACATTCGCGAGCAGGTAGCCATCCCGGTGATTGGCGTGGGACTGATCACCGACCCGCAGCAGGCGGAAGCGGCGCTGGAGAATGGCGATGCCGACCTGATCGCCCTCGCCCGCGCGGTGCTCTACGATCCGCACTGGCCATGGCACGCCGCGGCCAGCCTTGGCGCCCAGGTTCGCGTACCTTCGCAATATCTGCGCTCCGAGCCGCACGGCCTGAAAGGCACCCTGCTTCCAAACCGCTGA	MSHLFSATRIGQLTLDNRIVIAPMCQYSADEGKATSWHRIHLGQLAFSGAGLLILEATAVEPAGRISPGDLGLWDDETENALRAVVEDIRAWSPIPLGIQLGHAGRKASCAAPWQGGHQLALNQGGWQTVAPSAVAFHDGDRAPAELSHADLARIKAAFVASALRAQRLGFELIELHAAHGYLLHQFLSPLSNQRRDEYGGSLENRMRYPLEVFKAIREAVGNAMAVGVRLSATDWVEGGWDGEQSIQFSQQLEALGSDYIHVSSGGLSPQQAITVGPGYQLPFARDIREQVAIPVIGVGLITDPQQAEAALENGDADLIALARAVLYDPHWPWHAAASLGAQVRVPSQYLRSEPHGLKGTLLPNR	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
BMS020_00382	483			hypothetical protein	ATGAAACTCTGGAATAAAACACTGCTCGCTTCCGCACTGTGCCTGACCCTGTTTGGCTGCGACGATGCGTCGAAAGTAGATAACAAACTGGATAAGGCGAAAGATAATGCGGAGCAGATGAAGGATGCCGCGGCGGACAAAGCCCAGGCGATTAAGCAGGATGCGGATAAGCAAATTGATACGCTGAAAAGCCAGGCCGACGCCGAGGCCGATCGCCTGAAGGATCAGGCCAGCGCCATCAAGGCGGAGGCGGACAAGAAAGCGGATGCCATCGCCGAGCAGGCGAAAGCCCAGGCCGATGCGGTGAAGCAGAACGCAAAGCAGGAAAGTGACCGCATCGTCAAAGAGGCGGGTCAGATCAAAGACAACGCCATCGGCGATGCCAATCAGCTTTCGGCGGAAGCGGCGAGCAAAACCAAAGCCATTCAGGACAGTATCGCGAAGGATAAACAGAACGCTACGCCACCGGCCGCCCAGCAGTAA	MKLWNKTLLASALCLTLFGCDDASKVDNKLDKAKDNAEQMKDAAADKAQAIKQDADKQIDTLKSQADAEADRLKDQASAIKAEADKKADAIAEQAKAQADAVKQNAKQESDRIVKEAGQIKDNAIGDANQLSAEAASKTKAIQDSIAKDKQNATPPAAQQ				NA	NA	NA	NA	NA
BMS020_00383	912	dmlR_5		HTH-type transcriptional regulator DmlR	ATGCAGATGAATCTGTTTGAAAATATTAAAATCTTTATTGAAATCGTCGACGCCGGCAGCTTTTCCCAGGCGGCGGAAAATTTGCAGATCCACCGGCCGGCGGTGACCAAAGCGCTGCAGCAGCTGGAGCGGGAGAGCGGGGTCAGGCTGCTGCAGCGTACCACCCGGCGCCTGTATCTCACGCCGGAGGGAGAAGAGTTTTATCGCCGCAGTAAACCGCTGCTCTCCCAGGCCGACGATCTGCTGGAGTCGTTCGCGCCGGACCGGCCGATACGCGGCCAGCTACGTGTCGATATGCCGATCGCTTTTGCACGGCTGCTGGTGATCCCGCATCTTGCGGATTTTTATCAGGCCCATCCGGAGGTGGAAATTGTCCTCAGCAGCTCCGATGTGCGCCGGGATATGCTGCGCGATGGCCTGGATTGCCTGCTGCGGGTGGGTGAACTGGAGGATGGCGACTATGTGGCGCGCTCGCTGGGGGAGGTGGCGTTAACCACCTGCGCCAGTCCGGAATATCTGGCGCGCTATGGGGCGCCCGCCACGCTGGAGGACCTGCAGTCGCACCTGGCGGTGAACTGGGTGAACAGCAGCAGCCGGCAGATTATGCCCTGGCGATTCCAGACCCTGGAGGGCGTCCGGCAGGTCGCCATTCCCGGCAAGCTGGTGCTGGACAACTCGGAAGTCTTTACCGCCGCCGGACTGGCGGGGCTGGGGATGCTGCAGGGAATGCGCTTCTTTTTACAGCCCTACATCGACAGCGGCCAGCTGGTGGAAATTCTGCCGGACTTCCCGGCGCCGCGTCGGCCGCTGTCGCTGCTCTATCCGCACCGGCATCTTTCGCACAAGGTGCGGGTCTTTGCCGACTGGCTGCAGGGGCTGGTGGCGACCCTGGCGCGGACGCCGCCGGCTTGA	MQMNLFENIKIFIEIVDAGSFSQAAENLQIHRPAVTKALQQLERESGVRLLQRTTRRLYLTPEGEEFYRRSKPLLSQADDLLESFAPDRPIRGQLRVDMPIAFARLLVIPHLADFYQAHPEVEIVLSSSDVRRDMLRDGLDCLLRVGELEDGDYVARSLGEVALTTCASPEYLARYGAPATLEDLQSHLAVNWVNSSSRQIMPWRFQTLEGVRQVAIPGKLVLDNSEVFTAAGLAGLGMLQGMRFFLQPYIDSGQLVEILPDFPAPRRPLSLLYPHRHLSHKVRVFADWLQGLVATLARTPPA	PGPT0028940_633	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
BMS020_00384	978		COG2070	NADH:quinone reductase	ATGCAACCTAACCGCGTTGCCCGCATTCTGGGTATTGAAAAACCGGTGGTCCAGGGGCCGCTTTCCTGGCTGACCGATGCGCGTCTGGTGGCGGCCGTCGGCAACGCCGGTGGTCTCGGGGTACTGGGCCCGAACGCCGGGCTGACGGCGGCAACCGCCGTCTCCACGCCGGAAGCGACGGCTGAGAAAATGCGCGAAGAGATCCGCAAAACCAAACAGCTGACCGAGAAGCCCTTTGGCGTCAATCTGATCCCGACGGCGGAAAACGACATCTGGACGCCGGCGATCCTGCCGGTGATCAAAGCGGAAGGCGTTAAGGTGGTGGTCTACACCGGCTACGGCGACGGTTCGTTAAAACCGGCGCTGTTCGATGAGCTGAAAACCGCCGGGATCACCATTATCTACCGCGATATTAACCCGACGCCTGAGAACAGCCGCCGCGCGGAGCAGGCCGGAGCGGACATTATCGTCGCCACCGGCTTTGACGAAGGCGGCACGCTGCCGGGCACCGCGCTGGGGACCTTCACCATCGTCCCGCTGATTGTTGACGCGGTACAGCGGGTTCCGGTAATGGCCGCGGGGGGGATAACCGATGCCCGAGGGGCGCGTGCCGCTCACGCCCTCGGCGCGGAAGGCGTCTTCGCCGGTTCGGTATTCATCAGCACTGTCGAAAGCCGGGTTCCCGACTCGGTGAAAGCGAAAATTGTCGCCGCCAACGGCCTGGATCTGCGGCTGTTCCGCACCCTGCCGGACTACTACCGCGCTCTGCCCGGCAAACTGAGCGACAAACTGGTAGCCATGGACCGGGCCGGCGCCTCAAAGGCCGAGCTGGCTCAGGCGATGGGCGGTCTGCGCGGAATGCGGCTGGGCATGCTGGAGGGGAATACTGATGAGGGGTATATCTCGCTGGGGGCGGGGATCGGCAATATCCATGCCATCACCTCCGTCGCCGAGGTGGTCAACCGGCTGGCGGTGTAA	MQPNRVARILGIEKPVVQGPLSWLTDARLVAAVGNAGGLGVLGPNAGLTAATAVSTPEATAEKMREEIRKTKQLTEKPFGVNLIPTAENDIWTPAILPVIKAEGVKVVVYTGYGDGSLKPALFDELKTAGITIIYRDINPTPENSRRAEQAGADIIVATGFDEGGTLPGTALGTFTIVPLIVDAVQRVPVMAAGGITDARGARAAHALGAEGVFAGSVFISTVESRVPDSVKAKIVAANGLDLRLFRTLPDYYRALPGKLSDKLVAMDRAGASKAELAQAMGGLRGMRLGMLEGNTDEGYISLGAGIGNIHAITSVAEVVNRLAV				NA	NA	NA	NA	NA
BMS020_00385	1260	amaB_1		N-carbamoyl-L-amino acid hydrolase	ATGAGTGATACCATCCGCCAGCAGGCGGAGAGAGAGGCGGCCGCCAGCCGGGTAATGGCGCGCGCCGACCAGCTGGCCGCCCTCAGCGAAACCGCCGACGCCCTGACCCGGGTCTATCTGTCGCCGGAGCATCTGCAGGCCAACCAGCTGGTGGGTCAGTGGATGCAGGCCGCCGGTATGATGGTGTGGCAGGACAGCGTCGGCAACATCTGCGGTCGCTATGAAGGCGTGCAGGAGGGCGCGCCGGCGGTGCTGCTGGGCTCTCATCTTGACACCGTGCGCAACGCCGGGCGCTACGACGGCATGCTCGGCGTGCTGACGGCGATTGAGGTGGTGCAGCGTCTGCACCAGCAGGGGCGACGGCTGGCAAAGGCTATCGAGATCGTCGGTTTTGGCGATGAAGAGGGCACCCGCTTCGGCATCACCCTGCTTGGCAGCCGCGGCGTCACCGGCACCTGGCCTGAAAGCTGGCTGTCGCAGTGCGATGCCGACGGGGTGAGCGTCGCCCAGGCGCTGGTGAATGCCGGGCTCGATCCGGCGCGGATCGCCCATGCCGCCCGCCGCCCGCAGGATATCGCCGCCTATCTGGAACTGCATATCGAGCAGGGGCCGTGCCTGGAGCAGGCGGGTCTGGCGCTCGGCGTAGTGGAGGCGATTAACGGCGCCCGCCGCCTGAACTGCCGCTTTACCGGCGAAGCCGGCCATGCCGGCACGGTGCCGATGCTCCATCGTAAGGACGCGCTCGCCGCGGCGGCGGAATGGATGGTGCAGGTGGAAAGCCTGACCCGGCAGCGCGGCGGCAATCTGGTGGCGACGGTCGGCACCCTGCGCTGTGCGCCGGGCGCGGTGAACGTGATACCGGGCGAGGTGCAGCTGACGCTGGATATTCGCGGCCCGCAGGATGCGCTGCTGGCGGCGCTGCTGGAGGAGTTGCTGGCGGAGGCGCAGGCCATTGCCGGGCGCCGCCAGCTGAGCTTCAGCGCCGAGGAGTATTATCGCATCGCCGCCACCGCCTGCGACAGCCAGCTGCAGGCGGTGCTGAGCGAGGCGGTGGTGGCAGTGCAGGGGCGGTCGCTGACGCTGCCGAGCGGCGCAGGGCATGACGCCATCGCCATCGCCGAGCGCTGGCCATCGGCCATGCTGTTTGTGCGCTGCCTGGGGGGCGTCAGCCATCACCCGGCGGAATCGGTCACCACCGCTGACGTCGGGCTGGCCATCGACGCGTTCTCCCGAGCGGTAGAGCAGGTGGCCGACGCCTGA	MSDTIRQQAEREAAASRVMARADQLAALSETADALTRVYLSPEHLQANQLVGQWMQAAGMMVWQDSVGNICGRYEGVQEGAPAVLLGSHLDTVRNAGRYDGMLGVLTAIEVVQRLHQQGRRLAKAIEIVGFGDEEGTRFGITLLGSRGVTGTWPESWLSQCDADGVSVAQALVNAGLDPARIAHAARRPQDIAAYLELHIEQGPCLEQAGLALGVVEAINGARRLNCRFTGEAGHAGTVPMLHRKDALAAAAEWMVQVESLTRQRGGNLVATVGTLRCAPGAVNVIPGEVQLTLDIRGPQDALLAALLEELLAEAQAIAGRRQLSFSAEEYYRIAATACDSQLQAVLSEAVVAVQGRSLTLPSGAGHDAIAIAERWPSAMLFVRCLGGVSHHPAESVTTADVGLAIDAFSRAVEQVADA	PGPT0000875_511	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000875-allC-K02083	NA	NA
BMS020_00386	1242	pucG_1	COG0075	(S)-ureidoglycine--glyoxylate transaminase	ATGGATATCACTCAGTTTTCGCAAATTAACCCGCCGCAGCGCCTGCTGATGGGTCCGGGGCCGATCAACGCCGACCCGCGCGTGCTGCGCGCCATGGCGAGCCAGCTGGTGGGTCAGTACGATCCGGCGATGACCCACTATATGAATGAAGTGATGGCGCTCTACCGCGGCGTGTTTCGCACCGAAAACCGCTGGACGATGCTGGTGGACGGTACCTCCCGCGCCGGTATCGAAGCGATCCTGGTGTCGGCGATCCGTCCGGGCGACAAGGTGCTGGTGCCAGTGTTCGGCCGGTTTGGCCACCTGCTGTGCGAGATTGCGCGCCGTTGCCGGGCAGAGGTACACACCATCGAGGTGCCGTGGGGGGAAGTCTTTACCCCGGACCAGGTTGAGGACGCGATCAAGCGCGTGCGCCCGCGCCTGCTGCTTACCGTGCAGGGCGATACCTCGACCACCATGCTGCAGCCGCTGGCGGAGCTGGGGGAGATTTGTCGTCGCCACGACGTGCTGTTCTATACTGACGCCACCGCGTCGCTCGGCGGCAACCCGCTGGAAACCGACGCCTGGCAGCTGGACGCGGTGTCCGCCGGGATGCAGAAGTGCCTGGGCGGCCCCTCCGGCACCTCGCCCATCACCCTCAGCCCGCGGATGGAAGAGGCGATCCGCCGCCGCCGCTGCATTGAGCAGGGGATCCGCACCGACGCCCACCACGATGGCGTCGACGAGATGATCTACTCCAACTATTTCGATCTCGGCATGGTGATGGATTACTGGGGGCCGGAGCGCCTTAACCACCACACTGAAGCGACCTCGGCGCTGTTCGCCGCCCGGGAGTGCGCGCGCCTGATCCTTCAGGAGGGACTCGACAACGGCATCGCCCGCCACAAGCTGCACGGCGATGCGCTGCTGAAAGGGATCCAGGCGATGGGTCTCGAGACCTTTGGCGACCTGCGGCACAAAATGAATAACGTGCTGGGGGTGGTGATCCCCAACGGGGTCAACGGCGACCAGGTGCGTAAGCTGATGCTGGAAGATTTCGGCATTGAGATTGGCACCTCGTTCGGCCCGCTGCACGGTAAAGTCTGGCGCATTGGCACCATGGGCTATAACGCGCGTAAAGACTGTGTGATGCAGACCCTCAGTGCGCTGGAGGCGGTGCTGAACTACCTCAAGTTCACCACCACCCAGGGCGCGGCGATGCAGGCGGCCTGGGATCACTACCGCACCGAGGGCAACCTATGA	MDITQFSQINPPQRLLMGPGPINADPRVLRAMASQLVGQYDPAMTHYMNEVMALYRGVFRTENRWTMLVDGTSRAGIEAILVSAIRPGDKVLVPVFGRFGHLLCEIARRCRAEVHTIEVPWGEVFTPDQVEDAIKRVRPRLLLTVQGDTSTTMLQPLAELGEICRRHDVLFYTDATASLGGNPLETDAWQLDAVSAGMQKCLGGPSGTSPITLSPRMEEAIRRRRCIEQGIRTDAHHDGVDEMIYSNYFDLGMVMDYWGPERLNHHTEATSALFAARECARLILQEGLDNGIARHKLHGDALLKGIQAMGLETFGDLRHKMNNVLGVVIPNGVNGDQVRKLMLEDFGIEIGTSFGPLHGKVWRIGTMGYNARKDCVMQTLSALEAVLNYLKFTTTQGAAMQAAWDHYRTEGNL	PGPT0021460_176	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021460-pucG-K00839	NA	NA
BMS020_00387	738	glnQ_1		Glutamine transport ATP-binding protein GlnQ	ATGCCTCTCATCACCATTAATCAGATGCAGAAGTACTACGGCGACAACCATGTGCTGAAGGGCGTCGATCTGGATATCGACATGGGGGAAGTGATCTCGATCATCGGCCGCAGCGGCTCGGGCAAAAGCACTCTGCTGCGCTGCATCAATGGCCTGGAGGGGTACCAGGAGGGGAGCATCAAGCTCGGGGGCATGACCATCACCGACCGCGATTCCCAGGCCCGGGAGATCAGCCGCTCCATCGGCATGGTGTTCCAGAACTTCAATCTCTTTCCGCACATGACGGCGCTGGAGAACGTCATGCTGGCCCCGCGGCGGGTGCTGAAGAAGTCCCAGGCCGAATGCCGTGAGCTGGCGCAGCGGATGCTGGAGAAGGTCGGGCTCGGCGACCGTCTGGATTATTACCCGGCCAACCTCTCCGGCGGCCAGCAGCAGCGCGTGGCCATCGCCCGGGCGCTGGCCATGTCGCCAAAGGTTTTACTTTGTGACGAAATCACCTCGGCGCTCGACCCGGAACTGGTGGGCGAAGTACTGAAGGTGCTGGAGCAGCTGGCGGCGGAAGGCATGACGCTGATCCTCGTCACCCATGAAATGAATTTTGCCCGCGAAGTGGGCGACCGCGTGGTGTTTATGCATCAGGGGCGCGTCTGGGAGCAGGGTGACAGCAAAACGCTGTTCGCCAGTCCGCAGACAACCGAACTGAAACAGTTTATCTCCTCGGTGCGCGGTCTTAACTAA	MPLITINQMQKYYGDNHVLKGVDLDIDMGEVISIIGRSGSGKSTLLRCINGLEGYQEGSIKLGGMTITDRDSQAREISRSIGMVFQNFNLFPHMTALENVMLAPRRVLKKSQAECRELAQRMLEKVGLGDRLDYYPANLSGGQQQRVAIARALAMSPKVLLCDEITSALDPELVGEVLKVLEQLAAEGMTLILVTHEMNFAREVGDRVVFMHQGRVWEQGDSKTLFASPQTTELKQFISSVRGLN	PGPT0020790_4166	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
BMS020_00388	660	yecS_1	COG0765	L-cystine transport system permease protein YecS	ATGATGACCACCTTTACCGACTGGGACATTATCCGCAACCTGCTGCTGGCCGGTCGCTGGACGGTGCTGCTGTCGCTGGTCGCGTTTACCGGCGGGGCGCTGGTGACCTTACCGTTGCTGCTGTTGCGCCTGACCGGCGGACGGCAGGTAAAACGACTGATCCGCGGCTACGTCGAACTGTTTCAGGGGACGCCGCTGCTGATGCAGCTGTTTCTGGCATTTTTCGGCGTGGCGCTGTTCGGCATCGACGTCTCGGCATGGACCGCGGCGTCGGTGGCCCTGACGCTCTACACCAGCGCCTTTCTGCTGGATATCTGGTTCGGCAGCATTCGCGCGCTGCCGAAAGGCCAGTGGGAAGCCTCGCGCTGTCTCGGGCTGAGCTTCGGCCAGACCCTGTACCGGGTGGTGGCGCCGCAGGCGCTGCGCATCGCCATCGCGCCGACGGTGGGGTTCGCCGTGCAGGTGATCAAAGGTACGGCGCTGGCCTCGATTATTGGCTTTGTGGAGCTGACCAAGGCGGGAACCATGCTGACCAACGTCACTTACCAGCCGTTTAAAGTGTTTGCCCTGGTGGCGCTGGGCTATTTCATTCTGTGCTATCCGCTGTCCCGCTACAGCCGTTATCTGGAGAACAAATTCAATGCCTCTCATCACCATTAA	MMTTFTDWDIIRNLLLAGRWTVLLSLVAFTGGALVTLPLLLLRLTGGRQVKRLIRGYVELFQGTPLLMQLFLAFFGVALFGIDVSAWTAASVALTLYTSAFLLDIWFGSIRALPKGQWEASRCLGLSFGQTLYRVVAPQALRIAIAPTVGFAVQVIKGTALASIIGFVELTKAGTMLTNVTYQPFKVFALVALGYFILCYPLSRYSRYLENKFNASHHH	PGPT0020795_6966	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
BMS020_00389	666			hypothetical protein	ATGACGGAGCAACTTCATTTTTCTGAGCTCTGGCCGCACTGGCCGGAGCTGCTGGCCGGCCTGTGGGTGACGGTGCAGCTGACGGTACTGGCGACGATCGGCGGACTGGCGATCGGCATCCTCGGGGCGGCGATCCGCAGCGGCCGCCCGGGCGTCCTCAGCCGGGTGTGGGGCGGATATGTGGAAATCATTCGTAACACGCCGTTCGTGGTGCAGCTCTTTTTTATCGTCTTTGGTTTACCGAACCTGGGACTGAAGATGACCGCCGGCGAAGCGGCGCTGCTGGCGATGGTGGTTAACCTTGGGGCCTACAGCACCGAGATCGTGCGCGCCGGCATTCAGGTGACGCCGAAAGGCCAGTGGGAGGCCGGACGCGTGCTCGGACTCAGCCGGACGCAAACCTTCGTTCGCGTCGTGCTGCCCCCGGCGCTGCAGCGGATTTATCCGGCGCTGGTCAGCCAGTGCATCATCGTGATGCTCGGCTCGTCGGTGGTGTCGCAGGTCTCCTATGAGGAGTTGACCTTCGCCGCCAACCTGATCCAGTCGCGGACATTTTTGAGCTTTGAGGTCTATCTGGTGACCACCGGGATCTACTTAGCGTTATCGATAGCGATGCGTCAGCTGCTGATGGCGGCGGGGCGTAAATGGCTGGGAGTGCAGGCATGA	MTEQLHFSELWPHWPELLAGLWVTVQLTVLATIGGLAIGILGAAIRSGRPGVLSRVWGGYVEIIRNTPFVVQLFFIVFGLPNLGLKMTAGEAALLAMVVNLGAYSTEIVRAGIQVTPKGQWEAGRVLGLSRTQTFVRVVLPPALQRIYPALVSQCIIVMLGSSVVSQVSYEELTFAANLIQSRTFLSFEVYLVTTGIYLALSIAMRQLLMAAGRKWLGVQA	PGPT0020795_8449	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
BMS020_00390	786	fliY_2	COG0834	L-cystine-binding protein FliY	ATGAAGAAACTGTTGATCGCACTGGCCGGGGCCGCTTGTCTCCTTTCGTCTGTTTCCGCCGCTCAGGCTGACCAGCTCCAGGATATTGAAAAACGCGGCGTCATCCGCATTGCCGTACCCCAGGATTTTCCGCCATTCGGCTCGGTGGGGACCGACCTGCAGCCGCAGGGGTATGACATCGACATGGCGCGCTATCTGGCGAAGTCGATGAAGCTCAAGCTGCAGCTGGTCCCGGTAACCAGCGCCAACCGCGTGCCGTATCTGCAGACGGATAAGGTGGACCTGGTGATCTCCAGCCTCGGCAAAAACGCTGAGCGTGAGAAAGTGATCGACTTCAGCCGCGCCTACGCGCCGTTCTTCCTCGGGGTGTTTGGCCCGAAAGGGGCGGAGCTGAAGGACGCGGCCGCGCTGAGCGGTAAAAGCGTCGGCGTGACCCGCGGGGCGGTGGAAGACATGGTGCTGACCAGCGTGGCGCCGCAGGCGGCGCAGATTAAGCGCTACGAGGACAATAACACCACCCTGTCGGCCTACCTGTCAGGCCAGGTGCAGTATGTCGCCACCGGGAACCTGGTGGTGGCGGCCATCGCCCGGCAGAACGCCGACAAAGCGCCGGTGCCGAGCTTTATGCTGAAGGACTCGCCGTGCTTTATCGGGCTGAAAAAGAACGAACCGGCGCTGAAGGCGAAAGTGGATACCCTCATCGAGCAGGGCATTAAGGACGGCACCCTCAACGGTCTGTCTGAGAAGTGGCTGAAAGCGCCGCTGCCTGCCAGCCTCGGCGCGTAA	MKKLLIALAGAACLLSSVSAAQADQLQDIEKRGVIRIAVPQDFPPFGSVGTDLQPQGYDIDMARYLAKSMKLKLQLVPVTSANRVPYLQTDKVDLVISSLGKNAEREKVIDFSRAYAPFFLGVFGPKGAELKDAAALSGKSVGVTRGAVEDMVLTSVAPQAAQIKRYEDNNTTLSAYLSGQVQYVATGNLVVAAIARQNADKAPVPSFMLKDSPCFIGLKKNEPALKAKVDTLIEQGIKDGTLNGLSEKWLKAPLPASLGA	PGPT0020800_11647	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
BMS020_00391	840			hypothetical protein	ATGCAACAACTCGATGAACGACTGAAAGGGCAATACGCCTCGCTGTCGCCGCAGGAGCAGCGGGTGGCGGATTTCATCTTTGACCACTTTGATGACCTGATAAGCTACAACAGCGCCGAGCTGGCGCAGCTGAGCGGCGTGTCGAAAGCCACCGTCAGCCGGCTGTTCAAGCGCCTGGGCTATGACAAATATAAGGACATGCGCGATGAACTGCGCACCCTGCGCCAGAGCGGAATGCCGCTGACCGACCAGCGCGACGCGGTGCAGGGTAACACGCTGCTGGCGCGTCATTATAAGCAGGAGATGGCGAACCTCACCCAATGGGTCAATGCCCTTGACGCTCACCAGTTCGCCGAGGCGCTGACGGCGATGGTGGCCGCGCGCCGCATTGTGGTGATTGGCATGCGCAATGCCTATCCGGCGGCGCTACACCTGCGCCAGCAGCTGCTGCAGGCTCGCGGTCAGGTGCTGGTGCTGCCCCAGCCGGGGCAGAGCCTCAGCGAAGAGCTGGTCGACCTGACCGCCGATGACCTGGTGGTGATGATGGCGTTTCGCCGGCGGCCGCGGATCGTGCGCCCGCTGCTGCAGCAGCTGCAGCGCGACGGGGTGCCGGTTCTGTTAATGTGCGAGCCGCAGGCCCACAGCCTGTTCCCGCTCTCCCGCTGGCAGCTCTGCGCGCCGCTGGACAGCGTCTCGGCTTACGACAGCTATGCCTCGGTCAACAGTTTGATCAATCTGCTGGCCAATGCCTTTCTGCATGAAACGCTCGACAGCGGTCGTCCGCGGATCCACGATATCGCTACGCTTTATCAGCAGCTGGACGAGCTGGAACAACGCTGA	MQQLDERLKGQYASLSPQEQRVADFIFDHFDDLISYNSAELAQLSGVSKATVSRLFKRLGYDKYKDMRDELRTLRQSGMPLTDQRDAVQGNTLLARHYKQEMANLTQWVNALDAHQFAEALTAMVAARRIVVIGMRNAYPAALHLRQQLLQARGQVLVLPQPGQSLSEELVDLTADDLVVMMAFRRRPRIVRPLLQQLQRDGVPVLLMCEPQAHSLFPLSRWQLCAPLDSVSAYDSYASVNSLINLLANAFLHETLDSGRPRIHDIATLYQQLDELEQR				NA	NA	NA	NA	NA
BMS020_00392	1587	hpxW_1	COG0405	Oxamate amidohydrolase proenzyme	ATGCACAGTAGCAACGTTTCGACCCACGGCATGGCGGTCGCTCCCCACCACCTCGCCAGCCAGAGCGCGCTGGCCATCCTGCGCGAGGGCGGCAGCGCCATTGAAGCGATGGTGGCTGCCGCCGCGGCCATCGCCGTCGTCTATCCGCACATGAACGGCCTGGGCGGGGATGGTTTCTGGCTGATCGTGCCTCCCGGGGGGGATCCCATCGCCATTGACGCCAGCGGGGCGGCCGGCTCGCTGGCCACCCTCGAGGCCTATGCCGGTCAGCGGCATATCCCCCACCGGGGGCCGCAGGCTGCGCTGACCGTCGCCGGCACCGTCAGCGGCTGGGACGAGGCGCTGCGAATTTCACGGGACTTAACCGGCCGCGCGCTGCCGGTGGCGCGCCTGCTGGCCGATGCTATCGGTTATGCCGAAGACGGCATTCCGGTCACCGCCTCCCAGGCCCATGCCACCGCCAGCAAACTGGAAGAGCTGCGCCACCAGCCGGGCTTCAGCGAAACCTGGCTGGCGGCAGGCGAGCCCCCCCGGGCCGGCAGCCGCTTTCGCCAGCCCGCCCTCGCCGGAACCCTGCGCATGCTGGCCAGCGACGGTCTCGACAGTTTCTATCGCGGCCCGCTGGCCGAACGTCTCGCCCAGGGGATGGCCGCGCTGGGGATGCCCGTCACCCTCGGCGACCTGCAGGCCCACCGCGCCCGGCGCCCGGCGCCGCTGACGCTCCAGCACCGACAGGGCACGCTGTGGAACCTCGCCCCGCCGACGCAGGGGCTGGTGTCGCTGGCGATCCTCGGCATCACTGACCGTCTGAACATGGCCGACGCCGACGAGGCGCAAACGGTGCATCGCATCGTCGAAGCCACCAAGCGGGCGTTTGCCCTGCGCGATGCGCATATCACCGATCCGCGCCATCTGGATGTCGACGTTCAGCAACTGCTGACTCCGGAGGCGCTGCAGCCGCTGGCCGACAGCATCGACGACGCCAGCGCTTCGCCCTGGGGCGGCGGCAAAGGTCCGGGCGATACCGTCTGGATGGGCGTTGTGGATAACAGCGGCCTGGCGGTGTCATTCATTCAGAGCATCTATCACGAGTTTGGCAGCGGCGTGGTGATCCCGGACACCGGGATCGTCTGGCAAAACCGCGGGGCGGCCTTCAGCCTCGATCCGCAGCATCTTCTGGCGCTGGCGCCAGGCAAACAGCCGTTCCATACCCTCAACCCCGCCGCGGCGCGCCTGAACGATGGCCGGGTGATGGTCTATGGCTCGATGGGCGGCGACGGTCAGCCGCAGACCCAGGCGGCGCTGTTTACCCGCTATATCCTGCAGGGGGCGCCGCTGCAGGAGAGCATCTCCCGGCCGCGCTGGCTGCTGGGCCGCACCTGGGGCCAGTCCTCGGATTCACTGAAGCTGGAGGGACGCTTTGCCCCCGCCTGCATCGCTCGCCTGCGCGAGCTGGGGCACGAGGTGGAAGTGCTGGCCGATTTCAGCGAGGCGATGGGCCACGCCGGGGCCATTGTCCGCCATCCCAACGGCCTGCTTGAAGGGGCTACCGATCCACGCAGCAACGGCGCCGCCGCCGGATACTAA	MHSSNVSTHGMAVAPHHLASQSALAILREGGSAIEAMVAAAAAIAVVYPHMNGLGGDGFWLIVPPGGDPIAIDASGAAGSLATLEAYAGQRHIPHRGPQAALTVAGTVSGWDEALRISRDLTGRALPVARLLADAIGYAEDGIPVTASQAHATASKLEELRHQPGFSETWLAAGEPPRAGSRFRQPALAGTLRMLASDGLDSFYRGPLAERLAQGMAALGMPVTLGDLQAHRARRPAPLTLQHRQGTLWNLAPPTQGLVSLAILGITDRLNMADADEAQTVHRIVEATKRAFALRDAHITDPRHLDVDVQQLLTPEALQPLADSIDDASASPWGGGKGPGDTVWMGVVDNSGLAVSFIQSIYHEFGSGVVIPDTGIVWQNRGAAFSLDPQHLLALAPGKQPFHTLNPAAARLNDGRVMVYGSMGGDGQPQTQAALFTRYILQGAPLQESISRPRWLLGRTWGQSSDSLKLEGRFAPACIARLRELGHEVEVLADFSEAMGHAGAIVRHPNGLLEGATDPRSNGAAAGY	PGPT0021715_399	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021715-hpxW-K22602	NA	NA
BMS020_00393	186			hypothetical protein	ATGACCACACAGCCAGACTGGAGCGAGTATCTGACGCAGATGACTCACCTGTTGGATATGGAGCTGGATGCGCCGCGTCGTGAAGAGCTGGAGCGCCAGTTTGCCCGCATCGCCGCCATGGCGCAGCCGCTGATGGACTATCCCCTCGGGCCGCGCGACGACATTGCGGGGGTGTATAAAGCATGA	MTTQPDWSEYLTQMTHLLDMELDAPRREELERQFARIAAMAQPLMDYPLGPRDDIAGVYKA				NA	NA	NA	NA	NA
BMS020_00394	1398	atzE_1		1-carboxybiuret hydrolase subunit AtzE	ATGACACTTCACCATTTCACCATCGCCGAGATCCAGCGTGCGCTGCACGAGGGCGAACTGAGCGCCCGGGAGATCGCCCGTCAGACGCTGGACGATATCGCCCGCGTGAATCCGCAGATCAACGCCTGGACCGAGGTCACCGCCCAGCGCATGCTGGCGGAGGCCGACAGCATCGACGCCCTGCGCCGGGAAAAGCGCCCCCTGCCGCCGCTGGCGGGCATTCCCTACGCGGTGAAAAATCTGTTTGATGTCGCCGGGCACACCACCCTCGCCGGCGCGGAACTGCTGAGCGACCGGCCGCCGGCAGCCAGCGACAGCTGGGCGGTGCGCCAGCTGCACAGCGCCGGCGCCCTGCTCAGCGGTATGCTCAATATGGACGCCTACGCCTACGGCTTCACCACCGAAAACAGCCACTATGGCGCGACGCATAACCCGCACGATCTGTCGCGGATCGCCGGCGGATCTTCCGGCGGTTCGGCCGCGGCGGTGGCGGCCGGGCTGGTCCATTTCAGCCTCGGCAGCGATACCAACGGCTCGATCCGCGTCCCCGCGTCGCTGTGCGGGATCTTTGGCCTGAAACCCACTTTCGGCCGCCTCTCCCGCTCCGGCAGCCATCCGTTTGTCGCCAGTCTGGATCATATTGGTCCCTTTGCCCGCCGGGTGGCCGACCTCGCCGCGGTGTATGACGCCCTGCAGGGGCGCGACCCGGCCGATGACTTTCAGGCCGATAAAGCCAGCGAGCGCACCGGCAACCTGCTGGAGCGCGGGCTGGACGGTCTGCGCTGCGCGCGGCTGGGGGGCTATTTCACCACCTGGTGCGATGACGACGCCCGGGCGGCCGTGGATCGGGTCGCCCACGCGCTGGGCGCCGACAGCGAGCTGCAGTTCACGGATGCCGCCCTGGCCCGCTCGGCGGCCTTTATCATCAGCGCCAGCGAAGGCGGCAATCAGTATCTGCCGGATCTTCGCCACTCGCCCGAGCGCTTTGAGCCTCACTCCCGCGAGCGGCTGCTGGCCGGGGCGATGATCCCCTCCGCATGGTATCTGCAGGCCCAGCGCTTCCGCCGCCATGCCCGTCAGGCGATGAAATCCCTGTTCAGTCAGGCCGATGTGCTGATCGCCCCGGCCACCCCATGCAGCGCCACGCCGATTGGCGCCGAGGAGATGGTGATTAACGGCCAGCCGCTGCCGGTGCGCGCCAGCATGGGAATGCTGACGCAGCCAATCTCCTTCCTCGGGCTGCCGGTGGCGACCGTGCCCCTGCGTACCGCCAGCGGCAAGCCGATTGGCCTGCAGCTGATTGCCGCGCCGTTTAACGAACAAGCCTGTCTTCGCGCCGCGCGGGCGCTGGAAGCGATGGGCATTACCGATGCCCGAGTGGCGGAGAGTGCAGCATGA	MTLHHFTIAEIQRALHEGELSAREIARQTLDDIARVNPQINAWTEVTAQRMLAEADSIDALRREKRPLPPLAGIPYAVKNLFDVAGHTTLAGAELLSDRPPAASDSWAVRQLHSAGALLSGMLNMDAYAYGFTTENSHYGATHNPHDLSRIAGGSSGGSAAAVAAGLVHFSLGSDTNGSIRVPASLCGIFGLKPTFGRLSRSGSHPFVASLDHIGPFARRVADLAAVYDALQGRDPADDFQADKASERTGNLLERGLDGLRCARLGGYFTTWCDDDARAAVDRVAHALGADSELQFTDAALARSAAFIISASEGGNQYLPDLRHSPERFEPHSRERLLAGAMIPSAWYLQAQRFRRHARQAMKSLFSQADVLIAPATPCSATPIGAEEMVINGQPLPVRASMGMLTQPISFLGLPVATVPLRTASGKPIGLQLIAAPFNEQACLRAARALEAMGITDARVAESAA	PGPT0021710_144	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021710-hpxY-K22601	NA	NA
BMS020_00395	387			hypothetical protein	ATGATCAATCTGGATAATATAGACCGCCCGGCGATCCTCGCCGAGGTGACGGCGGCGTTTTATCAGTATGAAGAGGCGCTGGTCAGCAATAACATCGAGGCGCTGGATGCGCTGTTCTGGCACGATCCGCGTACCGTGCGGCTGGGGGCCGGTGAAAATCTGTATGGCATCGAGGCGATCCGCGCCTTTCGCGCCGCCCGCCCCGCCGCCGGTCTGGCCCGCGATCTGCGCCATACCATCATCACCACCTTTGGCGCGGACATGGCGGTGTGCAGCACCGAGTTCACCCGCGAAGGCAGCGCCCGTCCTGGACGCCAGCAGCAGACGTGGGTGCGTTTTCCCTATGGCTGGCGGATTGTCGCCGCCCAGGTCAGTCTGATGGACTGA	MINLDNIDRPAILAEVTAAFYQYEEALVSNNIEALDALFWHDPRTVRLGAGENLYGIEAIRAFRAARPAAGLARDLRHTIITTFGADMAVCSTEFTREGSARPGRQQQTWVRFPYGWRIVAAQVSLMD				NA	NA	NA	NA	NA
BMS020_00396	156			hypothetical protein	ATGACCTTTTCAGCGCAAGACTATCTGCTGATTCAGCAGCCCTCAATCATCCTGACCATCGTCAATAACTCCATTTTTACCGGTTCGGGAATGGCCAGGGGAGACGGTATCCACCTGGCCATAATCGGTATTGTTCCCCTCAGTCCATCAGACTGA	MTFSAQDYLLIQQPSIILTIVNNSIFTGSGMARGDGIHLAIIGIVPLSPSD				NA	NA	NA	NA	NA
BMS020_00397	1119	asd_1	COG0136	Aspartate-semialdehyde dehydrogenase	ATGAAGCAGGTGGGTATTGTTGGCTGGCGGGGCATGGTTGGCTCAGTATTGTTGCAGCGAATGATCGAAGAGAATGATTTCGACGATATTTCAGCGCATTTTTTTAGTACCTCCAGTGCGGGTGCCGCGGGCCCGGTTATTAATGGTAAAAGCGACAGACTGAAAGATGCGAATTCCCTGAGCGCCCTCGCCGAAATGGATATTATTATTACCTGTCAGGGCGGGGATTATACCAAAGCCATCTATCCGGCGTTAATTCACTCGGGCTGGCAAGGGTACTGGATCGACGCCGCTTCGGCGCTGCGAATGGATGAGAACGCCTGCATTATTCTCGACCCGGTCAACCGCGATAATATCGATCGTGCGGTGAAAGCGGGAGTGAAACTGTTTGTCGGCGGCAACTGCTCCATTACGCTGAGCCTGATGGGGCTGGCCGGGCTGATCAAGGCTGATCTGATCGAATGGATGAGCGTCATGACCTATCAGTCTGCCTCCGGGGCGGGCGCTAAGCAGGTGCGAGAATTGATCGCGCAAAGCGCGTATATCAGCCAGCATTTGTCCGCTGATGAACTGGCGGCATCAGGTTCCGTGCTGCCTTTAGTCAATAAAGTGAGTGAGCTGATTAATAGCGCCGGCATACCGGTGGAGAATTTTGGCGTCCCGCTGATGGGCAGCATTATTCCATGGATCGACAGCGATTTAGGCGATGGAAATAGCCGCGAAGAATGGAAGGGGGAGGCGGAAACCAATAAAATACTTGGCCTTGCGCCCGGCACCATCCCGGTTAATGGTTTATGTATTCGGGTTGGCGTGATCCGCTGCCACAGCGCTGCCATTACCCTTAAACTTAAACGTGAGGTCAGCGAAACGGAATTCACAGAGTTAGTGACCCATTCCCATCCGTGGGTAAACTATATCCCCAATAATAAGCCAGAGAGTGTCAGTAAACTGACCCCGGCTGCTATTAGCGGTTCGCTGCAGGTGGGTATTGGCCGCTACAAGAAAATGTCGCTAAATAATGAGCCGATCTACTCGGTGTTGACGGTGGGCGATCAGCTGTTATGGGGCGCGGCGGAACCCTTGCGCCGTATGTTAAATATCCTGCTTGGCAAAGTGTAA	MKQVGIVGWRGMVGSVLLQRMIEENDFDDISAHFFSTSSAGAAGPVINGKSDRLKDANSLSALAEMDIIITCQGGDYTKAIYPALIHSGWQGYWIDAASALRMDENACIILDPVNRDNIDRAVKAGVKLFVGGNCSITLSLMGLAGLIKADLIEWMSVMTYQSASGAGAKQVRELIAQSAYISQHLSADELAASGSVLPLVNKVSELINSAGIPVENFGVPLMGSIIPWIDSDLGDGNSREEWKGEAETNKILGLAPGTIPVNGLCIRVGVIRCHSAAITLKLKREVSETEFTELVTHSHPWVNYIPNNKPESVSKLTPAAISGSLQVGIGRYKKMSLNNEPIYSVLTVGDQLLWGAAEPLRRMLNILLGKV	PGPT0014045_620	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133	NA	NA
BMS020_00398	558			hypothetical protein	ATGAAAAATGAACCGCTTTGCCACGCTCCCTGCCCCATCGCCCGTAGCCTGGGCCGCATCGGCGACAGCTGGAGCATCATGATCCTGCGCGACGCCTTTGCGGGCTTTACCCGCTTCGACGAATTTCAGAAAAGCAGCAACGTCGCGCCCAATATTCTGTCGCGCCGCCTGAAGGCGCTGGTCGACGACGGGCTGCTGGAGAAGGTCTGCTATAGCAGCACGCCGCCGCGCTACGAATACCACCTCACCCCGCGCGGCCGCGATTTCCGCATGGTGCTGCTGGCGCTGGCGGAATGGGGTAATCGCCACTTCGCTCCCGAAGGCCGTCAGATGCAGCTGGTGGAAACCGCCACCCAGCGACGGGTGGAGCCAGTCATGGTGGATAAAGCGACCGGGGAAGAGATTATTCCGGGTAAATACGCCATGGTGCCGGGCCCCGCCGCCTCGCCGCTGATGAAATATCGTCATGAATATCTGCTGCGCAAACGCGAAGGCGATAGCGTGCAAAAATTCCAGCCTGAACCCTACAGAGAGGCCGGCAATGAATCCGGCCAGTAA	MKNEPLCHAPCPIARSLGRIGDSWSIMILRDAFAGFTRFDEFQKSSNVAPNILSRRLKALVDDGLLEKVCYSSTPPRYEYHLTPRGRDFRMVLLALAEWGNRHFAPEGRQMQLVETATQRRVEPVMVDKATGEEIIPGKYAMVPGPAASPLMKYRHEYLLRKREGDSVQKFQPEPYREAGNESGQ	PGPT0028680_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028680-aadA-K00984	NA	NA
BMS020_00399	1275	fabF_1	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGGGCGTTTCCGTTAAACGCATTGTCGTCACCGGGATGGGGATTGTCAGCCCGCTGGGCTGCGGCGTACAGCACGTCTGGCAGTCGCTGCTGGCAGGAAAATCAGGGATTACCCGGCTCAGTGAGCAGCTGGTCGCGGATATTCCCTGCAAAGTGGCCGGCCAGGTGCCGTCCATTGAAAGCGATCCGCTGCACGGCTTCGACCCGCTGGCGACCATCCCGGCGAAAGAGCGCAAAAAGATGGATCGTTTTATCGAGTTTGCGCTGGTCGCCGCGCGTGAAGCGCTGACTCAGGCCGGTTGGTCGCCGGCATCTGCGGCCGAACAGGAACGCACCGCCACGGTGATCGCCACCGGGATCGGCGGGTTCAGCGAGATCGCCAATGCGGTACATACCACCGATGAGCGCGGGCCGCGTCGCCTCTCCCCGTTCACCATTCCCTCTTTTCTGGCCAACCTGGCCGCCGGGCATGTGTCTATCGCTCACGGTTTCCGGGGACCCATCGGCGCACCGGTCACCGCCTGCGCGGCGGGCGCCCAGGCCATTGGCGATGCGGCGCGGATGATCCGCAGCGGCGAGGCGGATATCGCCCTCTGCGGCGGCGCGGAAGCGGCAATACATCGCGTTAGCCTTGCCGGGTTCGCCGCGGCAAGGGCGCTCTCCAGCGCCTCCAGCGACCAGCCGGAAGCCGCTTCCCGCCCCTTTGACCGCGACCGCGATGGATTTGTGATGGGAGAAGGCGCCGGGCTTATCGTGATCGAGTCGCTGGAGCACGCGCTGGCGCGCGGCGCCACGCCGCTGGCCGAGCTGGTGGGCTACGGCACCAGCGCAGATGCTTATCACCTGACCGCGGGACCGGAAGATGGTAACGGCGCGCGTCGGGCCATGGAAACCGCCCTTCGCCAGGCCGGAGTGACCGCTGAAGAGATTGACCATATCAACGCCCACGCCACCTCGACCCAGGTCGGCGATAAAGGCGAGCTGGCGGCGATTAAAACGCTGTTTGGCGCCCATCCCGTCGCCATTACCTCGACGAAATCCGCCACCGGCCATCTGTTAGGCGCGGCAGGCGGGATTGAGGCCATCTTCACCATTCAGGCGCTGCGTGATCAGGTGGTGCCGCCGACGCTGAACCTGCATCACCCCGATGAAGAGGCGGCCGGTCTTAACCTGGTGGCGCTGGAGGCCCGCCCGCAGAAGATGCGCTATGCGCTGTCGAACGGTTTTGGCTTTGGCGGGGTTAACGCCAGCCTGTTGCTGAAACGCTGGGAATAA	MGVSVKRIVVTGMGIVSPLGCGVQHVWQSLLAGKSGITRLSEQLVADIPCKVAGQVPSIESDPLHGFDPLATIPAKERKKMDRFIEFALVAAREALTQAGWSPASAAEQERTATVIATGIGGFSEIANAVHTTDERGPRRLSPFTIPSFLANLAAGHVSIAHGFRGPIGAPVTACAAGAQAIGDAARMIRSGEADIALCGGAEAAIHRVSLAGFAAARALSSASSDQPEAASRPFDRDRDGFVMGEGAGLIVIESLEHALARGATPLAELVGYGTSADAYHLTAGPEDGNGARRAMETALRQAGVTAEEIDHINAHATSTQVGDKGELAAIKTLFGAHPVAITSTKSATGHLLGAAGGIEAIFTIQALRDQVVPPTLNLHHPDEEAAGLNLVALEARPQKMRYALSNGFGFGGVNASLLLKRWE	PGPT0008360_2038	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
BMS020_00400	492			hypothetical protein	ATGACAATTATCATGATTCTGCTCGCCGTCGCCGGTGGCGCCATGCTGAGTATCCAGGCGGCTATCAATGGCCAGCTGGGCAGCAAAGTCGGCGTATTCAAAAGCGCGTTCCTGACATTTTCTGTCGGCGCGCTGGTGACGGGATTGCTGATCTTCTTCTTCGAACCCAAACACACCCTGACGCTGATGGACGTGCCTAAATGGCAGCTGCTGGGCGCAATGTTTGGCGTACCGTATATCGTCATTATGGTACTGGCCGTCCAGCGTATTGGCGCTGCAGTGGCTACGGTCGCTGTCATTTTTGGCCAGTTAACCATGAGCATGCTGATCGATAACTTCGGCTGGCTGGGCAATGCGTCGATTCCATTCTCGCTGAGCCGAATCGGCGCCATTGTCTGTCTGGGTATCGCGCTGTTCTTCATTTACGCCAGCAGCAGGTCAAAAGCCGCAACGGCGACACCCCCCAGGCAGCAGGAAAACGCTAACACATAA	MTIIMILLAVAGGAMLSIQAAINGQLGSKVGVFKSAFLTFSVGALVTGLLIFFFEPKHTLTLMDVPKWQLLGAMFGVPYIVIMVLAVQRIGAAVATVAVIFGQLTMSMLIDNFGWLGNASIPFSLSRIGAIVCLGIALFFIYASSRSKAATATPPRQQENANT	PGPT0009795_710	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936	NA	NA
BMS020_00401	435			hypothetical protein	ATGCAACTCATATTGATTTTTATCGTCATTGCCGGAGGCATGGGACTGTCCATAGAGGCAGGATTGCTCGGGCCACTGGGTGGGGAGGTCGGTGACCTCTGGGCTACCTTTAGCATATTCGGCGTGGGTGCGGCGCTGACCTTTCTGCTGATGATTTTTTTCAGCCCGCGCAACAGCCCGTCATTCTTTGCGCAACCAGCGTGGCAGCTGCTTGGCGGCGTGCTTGGGCCGATCTACGTCATCATCCTCACCGTGGTAACGCCGGCAATCGGCATCGCCATGACGATGATCGGCATTCTGGCAGGCCAGGTGTTCAAGAGCCTGATGATTGATCACTTCGGCCTGCTCGGTACATCGCGCCGGAAAATTGACAGTAAACGTATCATTGCGCTGATTTTTATCATTGCAGCGCTGGTTATGGTTGCCCAGGGGTAA	MQLILIFIVIAGGMGLSIEAGLLGPLGGEVGDLWATFSIFGVGAALTFLLMIFFSPRNSPSFFAQPAWQLLGGVLGPIYVIILTVVTPAIGIAMTMIGILAGQVFKSLMIDHFGLLGTSRRKIDSKRIIALIFIIAALVMVAQG	PGPT0009795_1800	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936	NA	NA
BMS020_00402	936	dmlR_6		HTH-type transcriptional regulator DmlR	ATGAATGAGCTCGGGAACATCAGTATTCGCGCCCTGCTGATTTTTATTGACGTTTATGAGACGCAGAATTTCTCTGTGGTAGCTCGGCGGGAAGGGATATCTGCCTCTCAGGTTTCGCGCGTCATCCATCAGATGGAGGATGTGCTCGGGCAGCAGCTTTTTTACCGCAATACCCGGGCGATAATTCCGACCGAAAGCGGCCATCTTTTTATCCGCTATGCGCGAGCCATGACTGGCAGCATGGAGGAGGCGCGGCGGGAACTCAACGAGAGAACGCTTGAGCCTTCCGGAATGGTGCGCATAAACGCCCCGGTGTTCTTTGGACAGCGCCATGTCGCCCCCGCGTTACCCGGCCTGACGGCGCGATATCCGAAGCTCAGCATTGAGCTTACCCTGACTGATGATTACATCGATCCGCACCGCGAGCCGGCTGACGTAATTTTCCGCATTGGCGTGCTGACGGATTCCGCCTTTCATGCGCGCGTGTTTGGCCAGCAGTTCTATCATCTTGCCGCGTCACCGGATTACATCCGCCGGCACGGCATGTTGGGATCACCCGAAGAGCTGGCGCGGCATAAATGCCTGGTCTATCGCGGTTCGTCAGGACCAAACCAATGGCTGCTGCGCAGGCACGGAGAGGAATGGGTGCACTACCCCGTCTCGCCCCTGATGTCATCGAATAATGCTGAAACTCTGCTGATTGCCGCGCTCGGGGGAATGGGGATTGTGCTGTTTCCTGACTGGCTGATTGGAGACCGGCTGAAGCGCGGCGAGCTTGTCGAACTGCTGCCGGAGCTGGATACGTCCATAAAAACGGAGCCACAGCATATCGCGGCAATCTATCCGAATGCCCGCCACCCTCCTCTGAACGTTCGGGCGATTATCGATTACTACCTGGACGCGTTCGGTTCACCGCTTTACTGGCAGTCTGAATAA	MNELGNISIRALLIFIDVYETQNFSVVARREGISASQVSRVIHQMEDVLGQQLFYRNTRAIIPTESGHLFIRYARAMTGSMEEARRELNERTLEPSGMVRINAPVFFGQRHVAPALPGLTARYPKLSIELTLTDDYIDPHREPADVIFRIGVLTDSAFHARVFGQQFYHLAASPDYIRRHGMLGSPEELARHKCLVYRGSSGPNQWLLRRHGEEWVHYPVSPLMSSNNAETLLIAALGGMGIVLFPDWLIGDRLKRGELVELLPELDTSIKTEPQHIAAIYPNARHPPLNVRAIIDYYLDAFGSPLYWQSE				NA	NA	NA	NA	NA
BMS020_00403	357			hypothetical protein	ATGGGTGACAGTCCGGAACTGGCAAGCGAGCTTGCGGAGCTGATTAAAAAAGGGATCAAAACGGCTTCTTGCGGATCTTTTACCTCTTATCAGCAGGAAGCGTCTGCTCCGAGGATTGGGGATTATAACATTATTCTTGATGGCCAGAATGTTCCAGTTTGCGTGATCAGACTGGTTTCGATGCAGCTGGTGCGTTTTTGTGATGTGACTGAAGCGTTCGCCCGCAAAGAGGGTGAAGGCGATTTAAGCCTTGAATACTGGCAGAAAGAGCATCAGCGTTTTTTCATTCGTGAAGGTCATTTTTCTGAGGATATGGAGTTGATCGCAGAAGAGTTTGAAGTGGTTGAGGTGCTGTGA	MGDSPELASELAELIKKGIKTASCGSFTSYQQEASAPRIGDYNIILDGQNVPVCVIRLVSMQLVRFCDVTEAFARKEGEGDLSLEYWQKEHQRFFIREGHFSEDMELIAEEFEVVEVL	PGPT0020305_57	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
BMS020_00404	774	nimR_1		HTH-type transcriptional regulator NimR	ATGCCAGGTAGTATAGATAAAGCGCCAAGACATGATGAAGTCACAGGCTGGTCCAGTACTGCGATAAGCTATCAACGCGGTGAGGTCGATCCTCCCCATCATCATGTTGAGGGGCAGCTACTCTTCGCCACCAGAGGGGTGATGCTGGTGCAAACAGAGAGTGACCGTTGGGTGATCCCTCCTCAGCGGGCATTATGGCTACCGCCTCTGCATATCCATAGTTACCATCTGCTTTCACAAACCGATCTCAGGGCGATCTATTTCAGCAGTAGCCTTATCGCAGAATGTATGAGCTTTACGAAGAGTCATCAGGTGCATGTGATCACGGCTACGCCATTAGTCAAAGAACTTATCGCAGGCCTGTTCAGTGAGGACTACGCCAGACCGATTCAACGGAAGATAGCGTTGTTGCTTCTGGAAATTCTCAGCGAGGCGCCACCTTTAACGATGGCGCTACCCATGCCGAATGATGAGCGATTATTTAGCGCGGCTAGATCGCTACTGGTCAATCAGCGCTGGGAAGCATCGCTGAGCGAGCTGGCTTTTATGTCGGCCATGTCGGAACGGACCTTTTCCCGATTGTTTATGAAGGATACAGGCTTTAGTTTTCGAACATGGAAGCAGAGAGCCAGAATTTGCGCTTCGTTGGATCTTCTCGCGAATGGCGTTCCAATCAAACAGGTCGCTTACCAGCTTGGTTTCTCATGCCCGGCGGCATTTACCGCTGCTTTTCGTTCCATTCTTGATTCAACGCCGCGCGATTTTGTGCCTTAA	MPGSIDKAPRHDEVTGWSSTAISYQRGEVDPPHHHVEGQLLFATRGVMLVQTESDRWVIPPQRALWLPPLHIHSYHLLSQTDLRAIYFSSSLIAECMSFTKSHQVHVITATPLVKELIAGLFSEDYARPIQRKIALLLLEILSEAPPLTMALPMPNDERLFSAARSLLVNQRWEASLSELAFMSAMSERTFSRLFMKDTGFSFRTWKQRARICASLDLLANGVPIKQVAYQLGFSCPAAFTAAFRSILDSTPRDFVP				NA	NA	NA	NA	NA
BMS020_00405	726			hypothetical protein	ATGCGTGTACACTTTATCGTACATGAAAGTTTTGAAGCCCCGGGCGCATATGAAACCTGGGCAATAAACCAAGGTCATGATGTAACTTACTCACGCGTCTATGCAGGCGATCGGCTACCTGCTGACGCCGAAGGCATCGATTTTCTTATCGTGATGGGCGGTCCGCAAGATCCGGACACAACGCTTGAAGCGTGCCCGCACTTTAATGCTAAAGCGGAACAGGCGCTGATTGCTTCCGCGGTTAAAACCGGTAAGGCGGTGATCGGTATCTGCCTGGGTTCACAGCTCATTGGTGAAGCGCTGGGCGCGCCGTTCTCTCATAGCCCGGAAAAAGAGATTGGTAAATTCCCGATCACATTGACCGAAGACGGCAGAAAGGATGAGATGTTCTCTCACTTTGGGAAAACACTGGAAGTGGGTCACTGGCATAACGATATGCCAGGCTTGACGCCGGAGGCCAAAATTATCGCTTACAGCGAAGGCTGTCCCCGGCAGATCGTTGCCTATTCAGACCGCGTCTTTGGTTTCCAGTGCCACATGGAGCTCACATTGGACGTTGTAGAACGGCTGATCGCCCATTCTGAGCAAGACCTGAGCCGTGCAGCAGACTACCGTTTCGTTGACACGCCTGAAGCGCTCCGGGCCCACGATTACAGTGAAATGAATCAAGCGCTTTTTGGCTTTCTGGATAAGCTGGAAGCGCGTTACAACGCGGCTCAAGCATAA	MRVHFIVHESFEAPGAYETWAINQGHDVTYSRVYAGDRLPADAEGIDFLIVMGGPQDPDTTLEACPHFNAKAEQALIASAVKTGKAVIGICLGSQLIGEALGAPFSHSPEKEIGKFPITLTEDGRKDEMFSHFGKTLEVGHWHNDMPGLTPEAKIIAYSEGCPRQIVAYSDRVFGFQCHMELTLDVVERLIAHSEQDLSRAADYRFVDTPEALRAHDYSEMNQALFGFLDKLEARYNAAQA	PGPT0021580_6665	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
BMS020_00406	1278			hypothetical protein	ATGATTTCACGCTGGAAATGGATTCTGAAGCAGACATTTAAAAAGCTATGGTTCAGGGCAACGTTATTCGCCATTGTCGCGATAATAACGGCCCTTTTATCAATTCTTTTTAAATCAATGATACCTGAGTCGGTTTCCGTGAAGGTTGGTGCGGAAGCAGTCGATAACATTCTGAACATACTGGCATCGAGTATGCTGGCAGTGACCACTTTTTCGTTGAGTATCATGGTCACAGCCTACGGTTCAGCCACTACTAATGTGACTCCCAGAGCTACGCGTTTAGTTGTTGAAGACGTAACCACACAAAATGTACTGGCCACCTTCATCGGTTCTTTTCTCTTCAGTCTGGTAGGGATTATTGCCCTCAATATGGGAGCTTATGGAGAAAGGGGGAGAGTCATTTTATTCATTGTCACACTGGTTGTCATTGCCTTAATCCTCATCACATTGCTTCGCTGGATACAGCATTTGACCTCGCTGGGGAGGGTAGGTGAGACAACGGCAAAAGTAGAACAGGCGGCCATCGAATCATTTATTGCGAGAGCAAGAAATCCCTTTCTCGGCGGATATCCATGGCTTGAGAACAATGAACAGCCGAAAGGAACGGTTGCCGTTTATCCGAAGAAGATTGGCTATGTTGAATATATTGATATGGTGAAACTTAGCAAACTGCTGACCAATGATCCCCGTCATGTATACCTCGTGGCGCAGCCAGGCAGTTTCATACATCCATCCATGCCAGTTTTGTACCTGAGTCAAGGCCAGGAGTCATCAATCAGCGCCGATTTACTTGAGACGATTATTGTCTCGGATGTACGTTCATTTGCTCAGGATCCGCGATTTTGTCTTAGCGTCATGGCCGAAATAGCCTGCCGGGCCCTTTCCCCCGCAGTGAACGATCCTGGAACCGCCATTGATGTCATTGGCAGAGGTGTTCGTATACTTTCCACTTACGCGCAGAATAAATCTGATGAAATAGAAGTGAAATATCCTTCAGTTCATGTTGCACCACTTCAGAATAACGATCTACTGGAAGACTTTTTCTCACCTGTCGCGCGCGATGGTGCCAGTATGAGGGAGATTCAGATAAGAGTCCTTAAAGGACTGTCTATGCTGAGTAAGGGTTGGCCTGGAATATTTTCTGAGGCCGCGCATAATTTAGCATTTGAAACATTAGAGCATGCAACACGTGCTGACCATATAGATTCTGACAGATGTCTAATAAAATCAATTTATTATAATTTATTTGGTGGCGAAGATTCTAATAAAAAACCATAG	MISRWKWILKQTFKKLWFRATLFAIVAIITALLSILFKSMIPESVSVKVGAEAVDNILNILASSMLAVTTFSLSIMVTAYGSATTNVTPRATRLVVEDVTTQNVLATFIGSFLFSLVGIIALNMGAYGERGRVILFIVTLVVIALILITLLRWIQHLTSLGRVGETTAKVEQAAIESFIARARNPFLGGYPWLENNEQPKGTVAVYPKKIGYVEYIDMVKLSKLLTNDPRHVYLVAQPGSFIHPSMPVLYLSQGQESSISADLLETIIVSDVRSFAQDPRFCLSVMAEIACRALSPAVNDPGTAIDVIGRGVRILSTYAQNKSDEIEVKYPSVHVAPLQNNDLLEDFFSPVARDGASMREIQIRVLKGLSMLSKGWPGIFSEAAHNLAFETLEHATRADHIDSDRCLIKSIYYNLFGGEDSNKKP				NA	NA	NA	NA	NA
BMS020_00407	1998		COG1292	Glycine betaine transporter	ATGAGTGATAATGATACAACCCCGAAGAAGTCTACAAGCCAGATTAACAAAGCGGTATTCTTTACATCTGCTTTGCTAATTTTCCTTCTTGTCGCCTTTGCCGCCGTATTCCCGGATGTCGCCGACAAAAATTTTAAACTACTACAGCAACAAATCTTCACGAATGCCAGCTGGTTCTACATCCTTGCTGTGGCCCTGATTTTACTAAGTGTCACCTTCCTTGGACTCTCACGCTACGGTGATATCAAGCTGGGCCCGGACCATGCGCAGCCTGATTTCAGCTACCACTCCTGGTTTGCGATGCTTTTTTCGGCAGGGATGGGGATCGGCCTGATGTTCTTTGGCGTTGCCGAACCTGTAATGCATTATCTTTCGCCTCCCGTTGGCACGCCAGAAACCGTTGCGGCAGCCAAGGAAGCAATGCGTCTGACCTTCTTCCACTGGGGACTGCACGCATGGGCAATTTATGCCATTGTGGCGCTGATTCTGGCGTTCTTCAGTTACCGTCACGGTCTGCCTTTAACTCTGCGCTCCGCACTCTATCCCATTATTGGCGATCGCATATACGGGCCTGTAGGCCATGCGGTTGATATTTTCGCTGTTATAGGCACGGTCTTTGGCGTCGCGACATCGCTGGGTTACGGTGTTTTGCAGGTGAATGCCGGTTTGAACCATCTTTTCGGGGTGCCCATCAATGAAACGGTGCAGGTCATTCTGATCGTGGTCATCACGGGGTTAGCGACGATTTCAGTGGTGTCCGGCCTGGATAAGGGAATACGTATCCTGTCTGAGCTCAATCTGGGTCTGGCGTTGTTGCTCCTGGCGCTGGTTCTGTGTCTGGGACCAACCGTGCTTCTGCTGAAGTCATTTGTGGAAAATACGGGCGGTTATCTTTCGGAACTGGTGAGTAAAACGTTCAACCTTTACGCGTATGAGCCTAAGTCGAGCAACTGGCTGGGGGGCTGGACATTACTGTACTGGGGATGGTGGCTTTCATGGTCGCCGTTTGTGGGGATGTTCATCGCCCGGGTCTCCCGCGGGCGAACCATTCGCGAGTTTGTCACCGGCGTGCTGTTTGTTCCCGCGGGTTTTACGCTAATGTGGATGACGGTGTTTGGTAACAGCGCGATCTATCTCATTATGAACCAGGGGGCCACAGACCTCGCCAATACTGTTCAGCAGGATGTGGCGCTGGCCCTGTTTAATTTCCTGGAGCATTTCCCGTTCTCTTCCGTGCTGTCATTCATCGCAATGGCGATGGTCATCGTCTTCTTTGTCACATCTGCTGATTCAGGGGCAATGGTTGTTGATTCTCTGGCATCAGGTGGAGTGGCAAACACACCCGTCTGGCAGCGAATATTTTGGGCCTCGCTCATGGGCATTGTCGCAATTGCGCTTCTCCTTGCCGGAGGGCTCAGTGCGCTGCAAACAGTGACAATAGCGAGTGCATTGCCTTTCTCAGTGATCTTACTGATATCTATATACGGACTTTTAAAAGCTTTGCGCCGGGATTTGACCAAGCGTGAAAGCCTGAGCATGGCGACAATTGCTCCTACAGCTGCACGTAACCCAATTCCCTGGCAGAGAAGGTTGCGCAATATCGCGTATCTGCCGAAGCGATCTCTTGTGAAACGTTTTATGGACGACGTCATCCAGCCCGCCATGACGCTGGTTCAGGAAGAGCTGAACAAGCAGGGGACGATAAGCCACATCAGTGACGCAGTCGAGGATCGTATTCGTCTTGAAGTCGATTTGGGTAACGAGCTGAATTTTATATATGAAGTGAGGCTTCGCGGGTATAGCTCACCGACCTTCGCGCTCGCCGCGATGGATAATAATGAGCAGCAGACTGAACAACATAGATATTATCGCGCTGAGGTTTATCTCAAAGAAGGCGGTCAAAATTATGATGTGATGGGCTGGAACCAGGAACAGCTGATTAATGACATACTGGACCAGTACGAAAAACATCTGCACTTCCTGCACCTGGTTCGTTAA	MSDNDTTPKKSTSQINKAVFFTSALLIFLLVAFAAVFPDVADKNFKLLQQQIFTNASWFYILAVALILLSVTFLGLSRYGDIKLGPDHAQPDFSYHSWFAMLFSAGMGIGLMFFGVAEPVMHYLSPPVGTPETVAAAKEAMRLTFFHWGLHAWAIYAIVALILAFFSYRHGLPLTLRSALYPIIGDRIYGPVGHAVDIFAVIGTVFGVATSLGYGVLQVNAGLNHLFGVPINETVQVILIVVITGLATISVVSGLDKGIRILSELNLGLALLLLALVLCLGPTVLLLKSFVENTGGYLSELVSKTFNLYAYEPKSSNWLGGWTLLYWGWWLSWSPFVGMFIARVSRGRTIREFVTGVLFVPAGFTLMWMTVFGNSAIYLIMNQGATDLANTVQQDVALALFNFLEHFPFSSVLSFIAMAMVIVFFVTSADSGAMVVDSLASGGVANTPVWQRIFWASLMGIVAIALLLAGGLSALQTVTIASALPFSVILLISIYGLLKALRRDLTKRESLSMATIAPTAARNPIPWQRRLRNIAYLPKRSLVKRFMDDVIQPAMTLVQEELNKQGTISHISDAVEDRIRLEVDLGNELNFIYEVRLRGYSSPTFALAAMDNNEQQTEQHRYYRAEVYLKEGGQNYDVMGWNQEQLINDILDQYEKHLHFLHLVR	PGPT0021960_421	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021960-TC_BCT-K03451	NA	NA
BMS020_00408	621	pspA_1	COG0406	Phosphoserine phosphatase 1	ATGATGCAAGTGATACTGGTTCGACACGCAGAAACAGAATGGAATGTAAAAGGTAGTATTCAGGGACACAATGATAGCGCATTGACGCTTCGGGGGGAGCGTCAAACATCAGCCTTACTGGCGGCGTTTGCAGCGAGTAATTACCGGGTAGAATGTGTTTACGCTTCTCCGCTTGGCCGGGCCTGGCAAATGGGACAGCGCCTGGCGGAGAGTTTTTATTGTTCACTGATAGCTGAACCAGCTCTGAAAGAACAGGCTTTTGGTCAGTTTGAGGGCATGACAAGCGTAGAGCTCCTGCAGAATAATCCAGACGCCGCAGAAGCGTTATTCAACCTTGATGCAGAGTATTGTCCGCCAGGGGGGGAGTCTCTCTCACATGCTTCGCAGCGAATTATGCATTTTTTATCCAATCTGGAAAAAAAACATCATCATCGAACAATATGTCTTGTCTCTCACGGGCAGGTCATTCAGGGCGTGCTTGCGATGCTAACAAGCGGAGCTGTGGATGATTTTCACAGGTATGCGCAACCCAACGCGAGTTACTCCGTTTTCGAGTTGGTTAATGGAAGGTGTACCGCCCTTAGATGGGGGATCGCGACACATTTACGTCACCTGGATTGA	MMQVILVRHAETEWNVKGSIQGHNDSALTLRGERQTSALLAAFAASNYRVECVYASPLGRAWQMGQRLAESFYCSLIAEPALKEQAFGQFEGMTSVELLQNNPDAAEALFNLDAEYCPPGGESLSHASQRIMHFLSNLEKKHHHRTICLVSHGQVIQGVLAMLTSGAVDDFHRYAQPNASYSVFELVNGRCTALRWGIATHLRHLD	PGPT0018035_1151	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
BMS020_00409	933			hypothetical protein	ATGGTTGAGAACCAGGAACACTATCCTCGCGATCTGCGAGGTTATGCAGGGCAGCCGCCGCACGCGCGCTGGCCGGGCGGGGCGCGGATCGCGGTGCAGTTCGTCCTTAACTATGAGGAAGGCGCTGAGAACCACGTCCTGCATGGCGATGCGGGTTCGGAACAGTTCCTGTCCGATATTATCGGCGCCGCCAGCTACCCGGCGCGCCATATGTCGATGGACTCGCTCTATGAATACGGCAGTCGGGCCGGGTTCTGGCGCATCCATCGCGAGTTTAGCCAGCGCGGGCTGCCGCTGACGGTCTTCGGCGTGGCGATGGCGCTGGCGCGGCATCCGGAGATTGTGGCGGCAATCAAGGCCGCGGATTACGATGTGGTCAGCCACGGCTGGCGCTGGATCCACTATCAGCACATGGATATCGCCGAGGAGCGCGAGCATCTGCACAAAGCGGTGCAGGTGCTGACCGATCTGTTCGGCAAGCCGCCCACCGGCTGGTATACCGGCCGCGATAGCCCCAACACCCGCCAGCTGGTGGTGGAGCACGGCGGCTTTAACTACGACAGTGATTATTACGGCGATGATTTACCTTTCTGGAGCGAAGTGGCCTGCAGCGACGGCAGCCGTCGACCGCACCTGATCGTGCCTTACACCCTCGACGCCAACGACATGCGCTTTGCCACCGCCCAGGGGTTCAACACCGCGGAGCAGTTTTATACCTACCTGAAAGACAGCTTTGACGTGCTGTACGCCGAGGGGGAAACCGCGCCGAAGATGATGTCCGTGGGGATGCATTGCCGGCTGCTGGGGCGTCCGGGCCGTTTCCGCGCGCTGCAGCGTTTCCTTGACTATATCCAGCAGCACGACAAGGTATGGGTCTGTACCCGGCAGCAGATCGCCGACCACTGGCGCGAGGTCCATCCGTATCGCGGGTAG	MVENQEHYPRDLRGYAGQPPHARWPGGARIAVQFVLNYEEGAENHVLHGDAGSEQFLSDIIGAASYPARHMSMDSLYEYGSRAGFWRIHREFSQRGLPLTVFGVAMALARHPEIVAAIKAADYDVVSHGWRWIHYQHMDIAEEREHLHKAVQVLTDLFGKPPTGWYTGRDSPNTRQLVVEHGGFNYDSDYYGDDLPFWSEVACSDGSRRPHLIVPYTLDANDMRFATAQGFNTAEQFYTYLKDSFDVLYAEGETAPKMMSVGMHCRLLGRPGRFRALQRFLDYIQQHDKVWVCTRQQIADHWREVHPYRG	PGPT0000885_392	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0000885-hpxB-K16842	NA	NA
BMS020_00410	744	hyuA	COG4126	Hydantoin racemase	ATGTCTTCCGTTTGTATACAAGTGATCAACCCCAACACCAGCCTGGCGATGACCGAAACGATAGGCGCCGCCGCGCGTGCGGTCGCCGCGCCTGGCACCGAGATCCTTGCGGTCTGTCCCCGCGCCGGCGTGCCGTCAATAGAGGGCCACTTTGACGAAGCCATCGCGGCGGTCGGCGTGCTGGAGCAGATCAGGGCCGGACGCGAGCAGGGAGTGGATGGGCATGTGATCGCCTGCTTCGGCGACCCGGGGCTGCTGGCGGCGCGCGAGCTGGCTCAGGGGCCGGTGATCGGCATTGCGGAAGCGGCGATGCACATGGCGACGATGGTCGCCACCCGGTTCTCGATTGTGACCACGCTGCCGCGCACGCTGATCATCGCCCGCCATTTGCTGCACCAGTACGGCTTTCATCAACACTGCGCGGCGCTGCACGCCATTGATTTACCGGTGCTGGCGCTGGAAGACGGCAGCGGCCTGGCGCAGGAGAAAGTGCGTGAGCGCTGCATCCGCGCGCTGAAAGAGGATGGCAGCGGGGCGATTGTCCTTGGCTGCGGCGGGATGGCGACGCTGGCGCAGGAGCTGACCCGCGAGCTGCGGGTGCCGGTGATCGACGGCGTCAGCGCGGCGGTGAAGATGGTCGAGTCGCTGGTCGCGCTGGGCCTGGCGACCAGCAAGCACGGGGACTTAGCGTTCCCGGAGAAAAAAGCGTTAAGCGGACAGTTTCAGTCGTTAAATCCATTTTAA	MSSVCIQVINPNTSLAMTETIGAAARAVAAPGTEILAVCPRAGVPSIEGHFDEAIAAVGVLEQIRAGREQGVDGHVIACFGDPGLLAARELAQGPVIGIAEAAMHMATMVATRFSIVTTLPRTLIIARHLLHQYGFHQHCAALHAIDLPVLALEDGSGLAQEKVRERCIRALKEDGSGAIVLGCGGMATLAQELTRELRVPVIDGVSAAVKMVESLVALGLATSKHGDLAFPEKKALSGQFQSLNPF	PGPT0000895_472	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000895-hpxA-K16841	NA	NA
BMS020_00411	717			hypothetical protein	ATGAATAATGAACATCGTCTCCAGGCCGCGCCAGCGCTGCAGGATAAGGACGAAAGCATTTACCAGGCGCTGATGACGGCTATCGTCGAACATCAGCTGCCGCCGGGCAGCAAACTGCCGGAAGAGGCGCTGGCGGAAGTATTCGCCGTGAGCCGCACCGGCATCAGAAAGGTGCTGCAACGACTCGCCGCTGTGCAACTGGTCACGTTAACGCCCAAACGTGGTGCACACGTCACCAGCCCGAGCGTGGAAGAGTCCCAGGCGATCTTTCGTACCCGGGCGCTGCTTGAGGTCGCTAATCTGCCCGATGTCATCGCGCGCTGTCAGCCGCCGCATCTGGCGGCGCTGGAGAACATTATCCAGCGTGAACAGCAGGCCCATGAGGCGCACGACGGCCCGGCGGCGATCCGCCACTCCGCTGACTTTCATATTCAGCTGCAGGCTATCTCCGGCAACCCGGTACTCACCGAGATGGTGACCCGCCTCAGCCAGCGCTCCTCGTTAGTGATTGCCGCCTGGGGCGCACCCTGGCGCCAGGGCTGCCGCTGCGACGATCACCAGCAGCTGGTCGGTTTGCTGCGGGATAAAGCCCTGCAGCCGCTTAGCGAGGCGCTGATGCACCATTTTGATCATATTGTCGCCAGCCTGTGCTTCGAGCGCGATGGCGTCAGTCTGCCCGATTTTTCCCGGCTGTTCGCCGGCCACAAGGAGTCGTGA	MNNEHRLQAAPALQDKDESIYQALMTAIVEHQLPPGSKLPEEALAEVFAVSRTGIRKVLQRLAAVQLVTLTPKRGAHVTSPSVEESQAIFRTRALLEVANLPDVIARCQPPHLAALENIIQREQQAHEAHDGPAAIRHSADFHIQLQAISGNPVLTEMVTRLSQRSSLVIAAWGAPWRQGCRCDDHQQLVGLLRDKALQPLSEALMHHFDHIVASLCFERDGVSLPDFSRLFAGHKES				NA	NA	NA	NA	NA
BMS020_00412	1497	pucI	COG1953	putative allantoin permease	ATGCCACATTCATCCCACACGCAGCAGACTAAGACTCACGAGGCGGCCGCCGGCTACAGTCCGCGGCTATGTAATGACGATCTGGCGCCCACCCGCGACCAGAACTGGAGCTGGTACAATATCTTTTCATTCTGGATGTCGGACGTGCACAGCATGGGCGGCTACGTGGTGGCGGCAAGCTTCTTTACGCTTGGGCTGGCCAGCTGGCAGGTTCTGCTCTGCCTGCTGGTGGGCATCTGTATTGTGCAGCTGTGCGCTAACCTGGTGGCGAAGCCCAGCCAGATGGCCGGGGTGCCTTACGCGGTGATCTGTCGCCAGGCGTTCGGTGTCTTCGGCGCCAATATCCCGGCGGTGATCCGCGGGCTGATCGCCTTCGCCTGGTACGGTATTCAGACCTATCTGGCGGCAAACGCCCTGATGCTGGTCCTGCTCAAGTTCTGGCCCTCCCTTGCCTCGCTGACCGGCAGCAGTTTCCTCGGGCTGTCGACGCTCGGCTGGCTGTGCTTCGCCACCATGTGGCTGCTGCAGGCGATGGTTTTCTGGCACGGCATGAACGCCATCAAGCGTTTTATCGACATCGCCGGTCCGGCGGTCTATGTGGTGATGCTGGCCCTGGCGGGCTGGATTGTATACAAGACCGGTCTCGACGGGATCTCCTTTACCCTCGCCAGCAAATCCCTGAGCGCCGGAGAGCAGACCTGGCAGATGATCACCGCCACGGCCCTGGTCGTCTCCTACTTCTCCGGGCCGCTGCTTAACTTCGGCGACTTTTCCCGCTACGGCAAAAGCATGGGCGAGATCCGCCGCGGCAACCGCTGGGGTCTGCCGTTTAACTTCCTGCTGTTCTCGGTGGTCACCGTGGTGATTGTCTCCGGCACCCAGTCGCTGTTCGGCAAAATGATCACCGACCCGATTGAAACCGTCAGCCGCGTGGGCAACGATCTGGCGGTGGCCATCGGCCTGCTGACCATGATCACCGCCACCATCGGCATCAATATCGTGGCTAACTTTGTCTCGCCGGCCTTCGATTTTTCCAACTGCGCGCCGCAGAAAATCAGCTTCCGCGCCGGCGGGATGATCGCCGCGGTGGGGTCGATACTTCTGACGCCGTGGAACCTGTTTAACTCACCGGAACTGATCCACTATACCCTCGACGTGCTGGGCGCCTTTATTGGCCCGCTGTTTGGCATCCTGATCGCCGACTTCTATTTGATCAAACGCGGCCGGGTGTCGGTGGACGACCTGTTTGACGATACGCCGAAGGGTAAATACTGGTACCGCAACGGCTTTAACCCGAAAGCCATTGCCGCCCTGCTGCCGTCGGTGGGCCTGGGGCTGATTATCAGCTTTATTCCGGCCCTGCACGAAGTGGCGAACTTCAGCTGGTTTATCGGCGTCTTCCTCGGCGCGACCACCTACCGCTGGCTGGCTCGCGACGAGCGTGAAGTGGAGGCGAAAGCCGCCTTCCGCTCCGGCGCGGTGGCGCAAAAAGAGTAA	MPHSSHTQQTKTHEAAAGYSPRLCNDDLAPTRDQNWSWYNIFSFWMSDVHSMGGYVVAASFFTLGLASWQVLLCLLVGICIVQLCANLVAKPSQMAGVPYAVICRQAFGVFGANIPAVIRGLIAFAWYGIQTYLAANALMLVLLKFWPSLASLTGSSFLGLSTLGWLCFATMWLLQAMVFWHGMNAIKRFIDIAGPAVYVVMLALAGWIVYKTGLDGISFTLASKSLSAGEQTWQMITATALVVSYFSGPLLNFGDFSRYGKSMGEIRRGNRWGLPFNFLLFSVVTVVIVSGTQSLFGKMITDPIETVSRVGNDLAVAIGLLTMITATIGINIVANFVSPAFDFSNCAPQKISFRAGGMIAAVGSILLTPWNLFNSPELIHYTLDVLGAFIGPLFGILIADFYLIKRGRVSVDDLFDDTPKGKYWYRNGFNPKAIAALLPSVGLGLIISFIPALHEVANFSWFIGVFLGATTYRWLARDEREVEAKAAFRSGAVAQKE	PGPT0009075_1304	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009075-cytX-K03457	NA	NA
BMS020_00413	1311	guaD_1	COG0402	Guanine deaminase	ATGATGGATTACCAGACCGCGGTGCGCGGTGCATTTTTTGATATCGCCGGCGTGGCGGAGACGCCGGATGAGGTGGCCGCCCAGGCCCGCTATCTCAATGATGGCCTGTTGTTCTTGCAGGACGGGAAAATTGTTACGCTGCTGCCATGGCAGGAGGGTGAAGCCTTTCTGCATCCGCTGAAGGGCTATGTTGACCTGCGGGGTAAGCTGCTGTTGCCGGGGTTCGTCGATGCCCATGTCCACTATCCGCAGACTGAGATGATCGGCGCCTTTGGCGAACAGCTGCTGGAGTGGCTTACCACTTACACCTTCCCGGTGGAGAGCCAGTTTGCCGATGCGGAGTATGCCCAGGAGATAGCGCAGTTTTTTGTCAATCAGCTGATTAGCCATGGCACCACCACCGCGCTGGTGTTTTGTACCCTGCATCCGGCCTCGGTGGAGGCGTTGTTCAGCGAAGCGCTGCGCCTTAATATGCGCCTGATCGCCGGAAAGGTGATGATGGATCGCCATGTGCCCGACTATCTGTGCGAAACCGCCGGGGAAAGCTACGAGCAGACCCGGGCGCTGATCCGCCGCTGGCATCAGCGCGGCAGGCTGGGGTATGCCATCACCCCGCGCTTTGCCCCCACCTCGACGCCGGCGTTGCTGGAGGCGGTGCAGCGTCTGCGGGCCGAGTTTCCCGATACCTGGCTGCAGACGCATCTCAGTGAAAACCGGGAGGAGATCGCCTGGGTTAAACAGCTTTGGCCGGAGCATGCACGCTATCTGGATGTCTATCATCATTACCAGCTCACCGGCGAACGCAGCGTATTTGCTCACGGGATCCATCTTGATGATGCCGAGTGGCAGTGCCTGCATGACACCGGGTCCGCCGTTGCCTTCTGTCCGACCTCGAATCTGTTCCTCGGCAGCGGGCTGTTCCGCCTGCCCGCCTGCTGGCAGCACCGGGTGCGGATGGGCATCGGCAGCGACGTCGGGGCCGGGACCACCTTCAGCATGCTGCGAACGCTGGGTGAGGCCTACAAGGTAGGACAACTACAGAGCTATCGCCTGCGCGCCAGCGAGGCCTTCTATCACGCCACTCTCGGCGGGGCGCGCGCCCTGCGGCTGGAAGAGAAGATTGGCAATTTTCAGCCGGGCAAAGAGGCCGACTTTGTGGTCATTGACCCGGCGGTCACTCCGCTGCAGCGTCTGCGGATGGGCCGCTGCCATGATATTTATGAGCAGCTGTTCGTACTGATGACCCTGGGCGATGAGCGCAATATCAGCGAGACGTGGGTGAACGGCGAGCGGGTGTGGTGTCAGGATTGA	MMDYQTAVRGAFFDIAGVAETPDEVAAQARYLNDGLLFLQDGKIVTLLPWQEGEAFLHPLKGYVDLRGKLLLPGFVDAHVHYPQTEMIGAFGEQLLEWLTTYTFPVESQFADAEYAQEIAQFFVNQLISHGTTTALVFCTLHPASVEALFSEALRLNMRLIAGKVMMDRHVPDYLCETAGESYEQTRALIRRWHQRGRLGYAITPRFAPTSTPALLEAVQRLRAEFPDTWLQTHLSENREEIAWVKQLWPEHARYLDVYHHYQLTGERSVFAHGIHLDDAEWQCLHDTGSAVAFCPTSNLFLGSGLFRLPACWQHRVRMGIGSDVGAGTTFSMLRTLGEAYKVGQLQSYRLRASEAFYHATLGGARALRLEEKIGNFQPGKEADFVVIDPAVTPLQRLRMGRCHDIYEQLFVLMTLGDERNISETWVNGERVWCQD	PGPT0021515_1302	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021515-guaD-K01487	NA	NA
BMS020_00414	942			hypothetical protein	ATGGTGCGTCTTCTCGTTCTGCTGTCGGTAGTCTCTCTTTCTGCGCCGACGACGCTGGCGGCGGACGGGCACGCGATTAAACAACGTGCCGATGCGGTATTGACCTTGATGAGCTATACCGTGGTTCCCGACGTGACCGCCAGCGATCTCAACATCGGTTCCGGGAGCAACGATAAACACAACCTGACCATCACCCAGTTTGGCGGCGGAGCGACCCTGAGCGAGTCGTTTCCTCTTTACCTCGAAGGCACAATGGGCTACAGCCGTTACGACCCGCGATTCGTCGTCAGTCATGGCCAACAGACGCGGAATGTGCCGACCAAATGGAACAGTCTGACCACCACCGGCGGCGTCGGCTGGGATTTTTCGCTACATCGGGACAGCCTCGGAGGTAACCTGGTGCTGCGGCCGATCGTCAATGTAATGCTCGGCACCCTGGCCAGCGATGTACGCCTTGGCCGCTGGGTCATAGAGCGAAAAACCAACGCCGATCTGCAGTTTCTTGACGGCGGACGCTTCAACGCCTGGGGGCTGGGCGGGGCGCTGATGCTGGATTATGAACGCTTCTCCGCCACCCAGGATATTGATGCCGAACTGCGTTACTCCTATATGCGTCTGCAAAGTTTCGGCAGCAGCGCCGAGGTGGTGCAGGGCGAAGCCAGCGCGGAGAATCTCGGCCTGTATCTGCGCCGCCGCGCGCCGATCGCTGACTGGACGCTGCTGGGCAACCCGCTGCGCTACGTGCTGGAGGGCGCGCATACTGAATTTATTGGCGACCAGCGAGGGGCGCTGGGTTTTACCGGTTTGACCTCCCTGGGGGTTGGTCTCGAACTGGACAGCAGTAAATACCCGGTCTTTATCACCCGTACCCGGCTGGTGGCGCGCTATATGTTCGGCAATAACACCACGGGCTATGGCCTCGGCCTGGCGATGAGTTTTTGA	MVRLLVLLSVVSLSAPTTLAADGHAIKQRADAVLTLMSYTVVPDVTASDLNIGSGSNDKHNLTITQFGGGATLSESFPLYLEGTMGYSRYDPRFVVSHGQQTRNVPTKWNSLTTTGGVGWDFSLHRDSLGGNLVLRPIVNVMLGTLASDVRLGRWVIERKTNADLQFLDGGRFNAWGLGGALMLDYERFSATQDIDAELRYSYMRLQSFGSSAEVVQGEASAENLGLYLRRRAPIADWTLLGNPLRYVLEGAHTEFIGDQRGALGFTGLTSLGVGLELDSSKYPVFITRTRLVARYMFGNNTTGYGLGLAMSF				NA	NA	NA	NA	NA
BMS020_00415	1302	dgcM	COG2199	Diguanylate cyclase DgcM	ATGATGTGCCGTTCCGCGCCGGGAGTGGGTCGGTTTGGGGCCTGTATGTTATTAAAAGAACTGGCTGTTTTTGATGTATTAAGCACCCCGATCTGGGTAGTCCATCCTTTTACAGAGTGTGTGGTCTATGCCAATCAGGCTTCCCGGACGCTGAGCGGCGATATGTCGCTGAATGAGATGCGCAACGGTATCTATTCCACCTGCCCGGAAACGCAGCTGCAGCATTATTTGCGCTATCTCGACGCCATGACTGAGATATTTGAAGTCTGGACGCTGCAGACCGCCAAAGGGTTGCAGTCGGTATATTGTAAAACCACCCTGGTGGAGACCGAGGACAGCGGCACCTTACTGTTATTCGAAGCGGTGAAGCTGCTCGCGCAAAATCAGTCGATTCATACCGGCTCTCGCCGCTACCAGCGGCGGAACAATGGCTTTTTTGCCCGCTTTTTTATGACCAATACCGCGCCGATGCTGTTGATCGATCCTCAGAAAGAGGGCCGGATTGTCGATGCCAATATTGCCGCGCTGCGCTTTTATCATTATTCCGATGAGGAAATGCGCACCAAACATACCTGGCAAATTAATACCCTGGGCCGGGATGTGATCCCCATTATGAATAATATTGCCAATATGCCCGGCGGGCATAAGCCGCTTAATTTTACTCATATTCTGGCTGACGGTTCGCTGCGCCATGTTCAAACCTATGCCGGGCCGGTGGTGCTGTATAATATCCGGCTGATGTTATGCATCATTCACGATATCACCGAAGAAGTGCATCTGAAAAAAGAGCTGGAATTTTCTGCCGCCCACGATCCCTTAACCGGACTGTTAAATCGCCGCGAATTTTACCGGCTCGTCGACGCGCCGTCGTTTATCGCCCATGGTTTTTGTCTGTTGTTAATCGATATCGATCATTTCAAGAGTATTAATGATATTCACGGTCATCAAAAAGGCGATGAAGTTCTGCTGGTGATCTCCCGCATTCTGGAAACCTCGGTGGACCGTGAAGATAAGATATATCGCTGGGGAGGCGAGGAGTTTCTGCTCTTTTTGCCCCATTCGCCGATCGCCCGCGCGCTGATGGTGGCGGAGGCGATCCGCCAGGCGGTCAGCGAATATCAGACGCTGTCGGTCACCGTCAGCATCGGCGTCGCCGAGCATCATGATGGCGAAGCGATTGATCAGCTGTTTTACCGCGTCGATAAAGCGCTGTATGCGGCGAAAAATGACGGGCGCAACCGGGTAACGCGTATGCCTTTTGACAGTGCGGAACTGTTGCGCAATAGCGGTGGCGCAGCCTGA	MMCRSAPGVGRFGACMLLKELAVFDVLSTPIWVVHPFTECVVYANQASRTLSGDMSLNEMRNGIYSTCPETQLQHYLRYLDAMTEIFEVWTLQTAKGLQSVYCKTTLVETEDSGTLLLFEAVKLLAQNQSIHTGSRRYQRRNNGFFARFFMTNTAPMLLIDPQKEGRIVDANIAALRFYHYSDEEMRTKHTWQINTLGRDVIPIMNNIANMPGGHKPLNFTHILADGSLRHVQTYAGPVVLYNIRLMLCIIHDITEEVHLKKELEFSAAHDPLTGLLNRREFYRLVDAPSFIAHGFCLLLIDIDHFKSINDIHGHQKGDEVLLVISRILETSVDREDKIYRWGGEEFLLFLPHSPIARALMVAEAIRQAVSEYQTLSVTVSIGVAEHHDGEAIDQLFYRVDKALYAAKNDGRNRVTRMPFDSAELLRNSGGAA	PGPT0014690_59	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-OXYGEN_AVAILABILITY_SIGNALLING,PGPT0014690-ydaM-K21088	NA	NA
BMS020_00416	1053			hypothetical protein	ATGGTCATCACAGTGAAAAAATCCGCCAGCAAAATCACGCTTACCGACATTGCGCGCGAAGCCAACGTCGGCGTGGCCACCGTCGACCGGGTACTCAACAAGCGCGCGGCGGTGAAAGAATCTACCGCGTACCGCGTGCTGGAGGCCGCCCGACGGCTGGGGTTTACCCTCGAACAGCCGCACTATCGCCTGGCCGCCGGCAAAGCGCCGGTTACCGTCAGGATGGGCTTTATTCTGCTGCAGGAGACCCACTCCTTCTACCTGCCGTTGGCGAGGGCGCTCGCAAGAGAGGCCGCGCCGTGGCTGCCGGCGGGCGAGACGCCGACGATCCTGCATTTTGCCATTGATGCGGTGGAAGCGATGGCCCAGGCCATTCACCGGCTCAGCGATGAGGTGGAGGTGCTCGGCCTGGTGGCGCTGGATCACCCGCTGATCCGCCATGCGGTGGGCCGGGCCGCCGCCCGCGGCGTTCGCGTATTCACCCTGCTTTCGGATCTGTCGGTTCCCCAGCGCAGCGGCTATATCGGCCTCGATAACCAAAAAGCCGGGCGCACCGCCGCCTGGTTTATCGACCGCTTATGCCGTGGCGAAGGCGAAATAGCCATTATCATTGGCGATAATCGTTTTACCTGTCAGGAAAGCTGTGAGATCAGCTTCCGCTCCTGTCTGCGCGAGCAGGGTAAAGGGCAGCAGATCCTTGAGCCGGTTCGCAGCCATGAACGGGCGGATATCGCCAGAAGCGTAACGGAACAGCTGCTCAGCCAGTCCCCGGCCCTGCAGGCGATCTATGCTCCCTGCGGCGGCATTGAAGGGATTGTCGGGGCGCTGCGCGACAGCGGCCGCCAGCAGGCCGTCACCCTGGTCTGCCATGGCCCGCTAAGCGACAGTGAACTGGCGCTGATCGATGGCACCATCGATGTCATTCTCAACCACCGGCTGGATGACTTTGCCGCCGCCACCCTGCGCGCCATGACGGAAGCCGTTTCGCGGCCGCCCAGCGAAGTGATTTCGCACCCTCAGCCTTTCGATATCATCACCAAAGAAAATATGTAA	MVITVKKSASKITLTDIAREANVGVATVDRVLNKRAAVKESTAYRVLEAARRLGFTLEQPHYRLAAGKAPVTVRMGFILLQETHSFYLPLARALAREAAPWLPAGETPTILHFAIDAVEAMAQAIHRLSDEVEVLGLVALDHPLIRHAVGRAAARGVRVFTLLSDLSVPQRSGYIGLDNQKAGRTAAWFIDRLCRGEGEIAIIIGDNRFTCQESCEISFRSCLREQGKGQQILEPVRSHERADIARSVTEQLLSQSPALQAIYAPCGGIEGIVGALRDSGRQQAVTLVCHGPLSDSELALIDGTIDVILNHRLDDFAAATLRAMTEAVSRPPSEVISHPQPFDIITKENM	PGPT0017992_4596	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
BMS020_00417	924	iolE_1	COG1082	Inosose dehydratase	ATGACCTATCCTATCGCCAACGCCCCCTGCAGCTGGGGCGTGGATGACCCGAAAAACCCTGACCTTCCCGCCTGGACTACCGTGCTGAAGGAGGCGGCGCAGGCCGGCTATCGCAGCATCGAGCTCGGCCCGTGGGGCTACCTGCCCACCGACCCGAGCAGCCTGCGCGCGGCGCTGGAGCAGCATCAGCTGTCGCTGGTCGCCGGGACGATCTTTGACGATCTGGTGAGCGAAGACCATTATCCCACTCTGGAGGCGCTGACCCATCAAATCTGCCGCAATCTGTCGCAGGTTCCGACCGCCGCCCCCATCCCGGGGCACCCTTTCCAGCCGCCCTATCTGGTGATTATCGACTTCGGCAACCCCGAGCGGGCGCGCTTTGCCGGACGCAGCGCGCTGGCTCCGCGCCTCAATGACGCAGACTGGCAGCGGATGATCGCGCACATTACCGCCCTCAGCACCCTCGCCTGGCGGGAGTACGGCGTGCGGGCGGTTATCCATCCCCACGCCGGGGGCTGCATCGAATTTGCCGATGAAATCGAGCGGCTGGCCAACGCTATCCCGCACGACGTGGCAGGGTTGTGTCTGGATACCGGGCATCTCTACTACGCCGGAATGGATCCGCTCACCTGGCTGGATCGCTATTACGCGCGGCTCGACTACCTGCACTTCAAGGATGTGGATCCGCAGGTTTACCAGCGCGCCGTCGCCGAAGGCATCGACTTTTTCACCGCCTGCGCCGAAGGGGTGATGTGCCCGCTCGGCAGCGGCGCCATTGACTACCCGGCCATTAACGATTTTCTTGCCCGCCGCGGCTATCAGGGCTGGATAACCATTGAACAAGAGCGTGATCCGCGCCATGCCGCAGGCAGCCTGCAGGCGGTCACGGAGAGCCTGCGCTATCTGCGCGGCGTTGGATTCTGA	MTYPIANAPCSWGVDDPKNPDLPAWTTVLKEAAQAGYRSIELGPWGYLPTDPSSLRAALEQHQLSLVAGTIFDDLVSEDHYPTLEALTHQICRNLSQVPTAAPIPGHPFQPPYLVIIDFGNPERARFAGRSALAPRLNDADWQRMIAHITALSTLAWREYGVRAVIHPHAGGCIEFADEIERLANAIPHDVAGLCLDTGHLYYAGMDPLTWLDRYYARLDYLHFKDVDPQVYQRAVAEGIDFFTACAEGVMCPLGSGAIDYPAINDFLARRGYQGWITIEQERDPRHAAGSLQAVTESLRYLRGVGF	PGPT0016785_368	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016785-mocC-K03335	NA	NA
BMS020_00418	1173	iolG_1		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGATTAACGGTTTAAGACCGCTCGACCGCACCCTGCGCTGGGGCATGGTCGGCGGCGGCGGCAGCAGCCAAATCGGCTATATTCACCGCTCTGCCGCCCTGCGCGATAACACCTTTGCGCTGCTGGCCGGTGCCTTTGATATTGATGCCGATCGCGGGCGCCAGTTCGGCCAACAGCTGGGGGTGGATCCCGCACGCTGTTACGCCGATTACCAGAGTCTGTTTCGCGGCGAGGCTGCCCGCCCGGACGGTATTCAGGCCGTATCGATTGCCACGCCGAATAACACCCACTATGCCATCTGTCGGGCGGCGCTGGAGGCCGGGCTGCACGTGGTATGTGAAAAGCCGCTGTGCTTCAGCAGCGAAGAGGCGGACGAACTGATGGCCCTCAGCCAGCGGCAGCGTAAGATCATCGGCGTGACCTACGGCTATGCCGGCCATCAGATGATCCTGCAGGCCCGGCAGATGATCGCCGACGGACTGCTGGGCGACATCCGTATCGTCAATATGCAGTTTGCTCATGGCTTCCACGCCCAGCCGGTGGAGCAGGAAAACGCCAGTACCCGCTGGCGGGTCGATCCCCGCTTCGTCGGCCCCAGCTATGTGCTGGGGGATCTTGCCACTCATCCGCTGTTTCTGGTCGAAACCATGGCCCCGCAGTTGAAGATCGCCCGGCTGATGTGCGCCAGACAAAGCTTCGTCAAAAGCCGCGCCCCGCTGGAAGATAACGCGCATGTGCTGATGGAGTATGACAACGGCGCCGTCGGCTCGCTGTGGAGCTCCGCCGTTAACTGCGGCTCCATGCACGGGCAAAAGGTGCGCATCGTGGGGGAAAAAGCCAGTCTTGAATGGTGGGATGAACAGCCCAACCAGCTGCGCTACGAGGTGCAGGGCGAACCGGCGTGCGTTCTGGAGCGCGGCATGGGCTATCTTGATCCGCTGGCGCGCCAGGACGATCGCATCGGCGGTGGCCACCCGGAGGGGCTGTTCGACGCCTGGTCGAATCTCTATCGCCGCTTCGCCATCGCCATGGACGCCGCAGACCGGCGTGACGAGGCGCTGTTGGCGGACTTCTGGTATCCGGACGCCCGCGCCGGGGCGTTCGGCGTCCGCTGGGTGGAAAACTGCGTACGCTCTGCCGACAACGGCGCCTGTTGGGTCAACTTCCGCTAA	MINGLRPLDRTLRWGMVGGGGSSQIGYIHRSAALRDNTFALLAGAFDIDADRGRQFGQQLGVDPARCYADYQSLFRGEAARPDGIQAVSIATPNNTHYAICRAALEAGLHVVCEKPLCFSSEEADELMALSQRQRKIIGVTYGYAGHQMILQARQMIADGLLGDIRIVNMQFAHGFHAQPVEQENASTRWRVDPRFVGPSYVLGDLATHPLFLVETMAPQLKIARLMCARQSFVKSRAPLEDNAHVLMEYDNGAVGSLWSSAVNCGSMHGQKVRIVGEKASLEWWDEQPNQLRYEVQGEPACVLERGMGYLDPLARQDDRIGGGHPEGLFDAWSNLYRRFAIAMDAADRRDEALLADFWYPDARAGAFGVRWVENCVRSADNGACWVNFR				NA	NA	NA	NA	NA
BMS020_00419	1107			hypothetical protein	ATGCGTAAAGCCTTATGGCTGTTATTCGCGCTGGCGCTGCCGGCGCTGGCGCAGGACCCGGTGTTGCCCGCCGTGACGGCGATCCATCCTGCGCCCACCCTGGGCGAGCTGTCGCCGCCGGAATCGCTGCGGCCATGCTGCGCCTTTGGCTACGACCTGCACGTGCGGGCGGTGGGCATTCCGATCCCGGTGTATCAGATTGGTAACGTGCTGACCCTGGATACCCTGGGCAAGCACCATTACAACGACAGCGCGCTCGGCGCGGTGAAAAATCTGCTGGGGCTGAGCGAGGAGCAGAACGGGCTTATCTATACCCGTCGCGGCGGGTTTATCGATATTGCCCATGTGCGCGACACGGCGGATTACACCTTTTATCTTTTCAATCGCATTTCGCCGACGCTGGGCCAGGCGGGGCGCATATTCTACAGCGAAGAACTTGGCGTGCGCCGCGTTCAGCTCAATGCCTTTACGCCGCCGGCGGGGGTCAGGCAGCGCTATCAGCTGGCGGCCTGGCTCGCCGGGCATCTGGCCTTCGAAATCGCCCAGTGGCATGAGATCGCCCAGTGGTATGGCTTCCAGTCAGTGCCCGGGTTTTCAGAGGAGATCTCCGCGTTTTCGCCGGAGGATCTCTACTCCAACTTACTGGGCGCCAGGCTGGCGATTAACGTCATCCTTAGCGGCCACGGCGGGTCAGTGGAAGCGTATAACCGGGCCATGGAGGCGGCGCTGAAAAAGGCGCTGACCCGGCTGATGGTGGCCACGCGAGGGGAGACGGAAGCGATGTTCCAGCGGATCGATGGCGACTGGTGGAACAGTCGCCGCCGGGTGCCGGATAAGTTTCTGGTGCTGAAGCGTAATTACGATCTACAGGAAAACCGGCTGCCGACGCCGGTCCCTTTCGAAACCATGCCGCCATATCGCCTGACCATGCCGGCGCAGGTGGGGGGATTCCGCTTGCGCGACCTCGGCGAGCTGCAGATCTATCCGGGGCACGATATGCAGGCGCTGCCGGTTCCTGAGCAATACTATGGCGCTGCCGCGTTTCAGGGGCTGGCCGATCGCGCCCGCGAGGCCGATAAAACCCAGCTGGCGCGCATTGAGAAGTAG	MRKALWLLFALALPALAQDPVLPAVTAIHPAPTLGELSPPESLRPCCAFGYDLHVRAVGIPIPVYQIGNVLTLDTLGKHHYNDSALGAVKNLLGLSEEQNGLIYTRRGGFIDIAHVRDTADYTFYLFNRISPTLGQAGRIFYSEELGVRRVQLNAFTPPAGVRQRYQLAAWLAGHLAFEIAQWHEIAQWYGFQSVPGFSEEISAFSPEDLYSNLLGARLAINVILSGHGGSVEAYNRAMEAALKKALTRLMVATRGETEAMFQRIDGDWWNSRRRVPDKFLVLKRNYDLQENRLPTPVPFETMPPYRLTMPAQVGGFRLRDLGELQIYPGHDMQALPVPEQYYGAAAFQGLADRAREADKTQLARIEK				NA	NA	NA	NA	NA
BMS020_00420	945			hypothetical protein	ATGAGAACATCCGGCGCGGTGTTAACGCTACTGTTAGCGGCCTGGGGCACGTCGGCTGCGGAGCCGGACGACAGCGACAGCTATTTTCCGATCTGGGGCGATGAGGCTCGCGCCAGAGGATATTCCATTCCGTTACCCTACGGCGTCAACCTGAGCTATATGAATATCCGCCAGGATATCATGGTCGACAGTATTACCTTTTCCGGGCTTAAGCTCGGCAATCATCCCATTCCCAGCGATATGTTCGCCATCGATGCCGGACACACCCGCGAGAAAAGCAAAACCGAAAACCTGCGCCTGGATATGTGGGTCTTTCCGTTCCTCAACGTATACGGACTGGTGGGGCATACCCGCGGGTCGTCCGTCTCCCAGGTTTCAGTGGATTCAGATCCGTCGCAGTTTCGCGGCCTGGATCGGGTCATCGCCGGCGCGGTTCACCAGCTTTATCAGAGCGGGAAGTTGCAGGATATTGATTTTACCCTTGATTTTAAAGGCACCACCTGGGGGGCCGGCTTTACGCTCGCCGGCGGCTACGGCAACTGGTTTGGGTTAGTGGATACTAACTATACCCGCACCGACTTCGATATCCTCGACGGCAGCATTTCGGCGGTCACCGTCTCGCCGCGCGTCGGCTATCGGTTCAGTTTTCAGGGGATCGACGGGCCGTCCCATCTCAGCCTGTGGGTCGGCAGCATGTATCAGGACGTGCAGCAGGAGTTTAAGGGCGATCTCGCCGACCTGCACATGCCGCCAGAGCTGCAGCCCCTTATTGCCGCGGTCAATAAAGACGGCGAGGGCAAATTCGACGTTAAGCAGAAGCTGACCTCGCCGTGGAATATGCTGATTGGCGCCCAGTATGAGGTCACCAAAAACTTTAACGTGCTGACTGAATTCGGTTTTAACGACCGCAACAGCTTCTTTGTCTCCGGTGAATACCGTTTTTAA	MRTSGAVLTLLLAAWGTSAAEPDDSDSYFPIWGDEARARGYSIPLPYGVNLSYMNIRQDIMVDSITFSGLKLGNHPIPSDMFAIDAGHTREKSKTENLRLDMWVFPFLNVYGLVGHTRGSSVSQVSVDSDPSQFRGLDRVIAGAVHQLYQSGKLQDIDFTLDFKGTTWGAGFTLAGGYGNWFGLVDTNYTRTDFDILDGSISAVTVSPRVGYRFSFQGIDGPSHLSLWVGSMYQDVQQEFKGDLADLHMPPELQPLIAAVNKDGEGKFDVKQKLTSPWNMLIGAQYEVTKNFNVLTEFGFNDRNSFFVSGEYRF				NA	NA	NA	NA	NA
BMS020_00421	1122			hypothetical protein	ATGAAATTCCCGCTGTCCGCGCTGGCGCTTCTGTTCCTGTTGTGCCCGCCTGGCGATGCCGCCGATCTCTTCGATGCGGAAGATAGCATGCTCGACATGAGTCAATATCTGGCGGAAAACCGTTACGGTTTTCTGCCGGTGCCGCTGGCGATAACCGAGCCGGCGATCGGCTATGGCGGCGGACTGTTTGGCCTGTTTTTACACGGTAAAGGCAGCCGGGAGGGCGGGCAGTTTATTCCTCCGCCGCTCACCGCTTTCGGCGGGGCCGCCACGCAGAATGGCACCTGGTTTATAGGCGGCGGCCATCGTCACACCTGGCGGCATGATCGCATTCGTTACCTGGCGGGAGCCGGCTACGCTAACGTCAATCTGGATATCTATTCCGGCGATACCGGCGGCTTCAGCCATGCTAAACCGGTGCAGACGCAGACCAAAGGGGTCGCCGCGCTGCAAAAGCTGCTGTTTCGCGTGGGCGATACGCCGGTGTTCCTCGGGGCCTCCCAGGTGTATGCCCGGGCGGATGTCGCTTTCGATAATCCGCGGGTCAACCGGGTCTGGCAGCAGGTGCTCGGGCAAAACAGCACCTCTTCGGCGCTGGGGGTGGTGGCGGAATATGACACTACCGATAATATTTTCTATCCTCAGAGTGGGTTAGCGCTGAAGGGCGAATATCGGTTTTTCCGTTCGCTGCTCGGGGGCGATTATCACTACAACACGTTTTCGCTGGACGGGAAGGTGTTTATTCCGCTCAGCCAGACGCTGACCCTGGCGGTCGCGGGCAATTATCAGTCCTTAACCCACCATGATAAGCACCTGATGCCGATGGCGCGTCCTTACATCGCGCTGCGTGGGATTTCGCGCTACCGCTATCAGGGCGACTACGTGGCCACGGCGCAAACCCAGCTGGCCTGGGCCGTCACTCCGCGCTGGATCCTGCAGGGATTCGTTGGCGCCGGGAGCGCGGCGGACGCGGCGGAGACGCTATGGGAACAGTCAGAGGTGGCATGGGGGGCCGGTTTTCGTTACCTGATCGCGCGACAGTACGGTTTGCGTACCGGGATTGACGTGGCGTTCAGCGAACATGAGCAGGCGGTCTATTTCAATGTCGGTTCGGGTTTATAA	MKFPLSALALLFLLCPPGDAADLFDAEDSMLDMSQYLAENRYGFLPVPLAITEPAIGYGGGLFGLFLHGKGSREGGQFIPPPLTAFGGAATQNGTWFIGGGHRHTWRHDRIRYLAGAGYANVNLDIYSGDTGGFSHAKPVQTQTKGVAALQKLLFRVGDTPVFLGASQVYARADVAFDNPRVNRVWQQVLGQNSTSSALGVVAEYDTTDNIFYPQSGLALKGEYRFFRSLLGGDYHYNTFSLDGKVFIPLSQTLTLAVAGNYQSLTHHDKHLMPMARPYIALRGISRYRYQGDYVATAQTQLAWAVTPRWILQGFVGAGSAADAAETLWEQSEVAWGAGFRYLIARQYGLRTGIDVAFSEHEQAVYFNVGSGL				NA	NA	NA	NA	NA
BMS020_00423	696	tenA_2	COG0819	Aminopyrimidine aminohydrolase	GTGATTGTTCCCGCGTTTAGCCAAGGTCTTTATGGCCGTTTACGCCAGCTGGCCGCCGCTGACTGGCAGCACTATGTGGCGCACCCTTTCGTCCAGCAGCTTGCCGAAGGCACCCTGGCGAAAAGCGCGTTCCGTCGCTATCTGACCCAGGATTATCTGTTTCTGATCCATTTCGCCCGCAGCTACGCGCTGCTGGTGAGTAAACTGCGCACGCTGCCGGAGATGCGCGCCGCGGCCGCCTCCATGAACGCCATCCTTAACGAAGTGCCGCTGCACGTCGGCTACTGCGCCCAGTGGGGCATTAGCGAATCGGAGATGGCCGCCCAGCCCGAAGCGCCAGAAACCATCAATTATACCCGCTACGTGCTGGATATCGGTCATTCAGGCGACGCGCTGGATCTGCTGGTCGCCCTGATGCCCTGCGTGGCGGGGTACGCCGAAATCGGTCTGGGCCTGCTGCATCACCCCGCCACCCGCCTGGAGGATAATCCTTACGCCTCGTGGATCCGTAACTATGGCGATGAAGGCTATCTGCAGGGCGTCAGCGCCGCGCTGGCGCTGCTGGAGACCATGTGGCAACAGCGCGGAAGCGAGGCCCGCCTCGCCGGGCTGAGCGACATCTTCACCACCGCCACCCGCCTGGAGGCGCAGTTCTGGCAGATGGGGCTCAACGCCGCGGCGGAGTCCCGGGCGTGA	MIVPAFSQGLYGRLRQLAAADWQHYVAHPFVQQLAEGTLAKSAFRRYLTQDYLFLIHFARSYALLVSKLRTLPEMRAAAASMNAILNEVPLHVGYCAQWGISESEMAAQPEAPETINYTRYVLDIGHSGDALDLLVALMPCVAGYAEIGLGLLHHPATRLEDNPYASWIRNYGDEGYLQGVSAALALLETMWQQRGSEARLAGLSDIFTTATRLEAQFWQMGLNAAAESRA	PGPT0009055_352	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
BMS020_00424	729	ssuB_1	COG1116	Aliphatic sulfonates import ATP-binding protein SsuB	GTGACGGCGCCAGGTATCGAGGTCCGTAAGCTGAGCCTCCATTTCGACGACCGCCGCCTGTTCGATAACCTGTCGCTGACGGTCCCCGGCGGCCAGTGGGTGTCGCTGCTCGGCGCCAGCGGGGCCGGTAAAACCAGCCTGCTGCGGGTCATGGCCGGCCTGGCCCCCGCCACCCGCGGGGAAGTGGTCGCCAGCGACGGAAAGCCGATACCCGGCCGCCTGGCGTGGATGGGGCAGAAAGACCTGCTTTACCCCTGGCTGAGCGTTCGGGAGAACGTCGCCCTCGGCGCGCGGCTGCGCGGTGAGAAAGTGGATCACGCCCGGGTCGCCACCCTGCTTGAACAGGTGGGGCTAGCCTCCTGCGCCGACGCCCGGCCGGCGACGCTCTCCGGCGGGATGCGTCAGCGCGCCGCGCTGGCCCGCACCCTGTATGAGGACCGGCCCATCGTGCTGATGGATGAGCCCTTCTCGGCGCTGGACACCCTCACCCGCACGCGCATTCAGACCCTCGCGGCCACTCTGCTGGCGGGGCGCACGGTGGTGCTGATCACCCACGATCCGCTGGAAGCCTGCCGGCTGAGCCACCGTCTGCTGGTCCTCTCGGCCGCCGACGGGGAGATCGACGACAGCCATCACCTCACCGGCGCGCCTCCGCGCGCGCCGGATGCGCCCGAGCTGTTGAACGCCCAGGCGGCGCTGCTGCAGCAGCTAATGAGGGCCCACTCATGA	MTAPGIEVRKLSLHFDDRRLFDNLSLTVPGGQWVSLLGASGAGKTSLLRVMAGLAPATRGEVVASDGKPIPGRLAWMGQKDLLYPWLSVRENVALGARLRGEKVDHARVATLLEQVGLASCADARPATLSGGMRQRAALARTLYEDRPIVLMDEPFSALDTLTRTRIQTLAATLLAGRTVVLITHDPLEACRLSHRLLVLSAADGEIDDSHHLTGAPPRAPDAPELLNAQAALLQQLMRAHS	PGPT0003035_556	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003035-ssuC-K15555	NA	NA
BMS020_00425	741	ribX_1		Riboflavin transport system permease protein RibX	ATGACTGGACGTCTCTGGCGCGGCGGCATGGTGTTCTGCGGACTGATGCTTCTCTGGGGGCTGGCCAGCCGCAGCGGCATTCCGCACTTTCTTTTGCCCTCCCCGGCGGCGGTCGCCGAGGCGCTGTGGGTCAATCGCGCCTATCTCGGCTGGCACACGCTGATTACCCTTAGCGAGATCCTCAGCGGCCTGGCGCTGGGGGTGGCGCTCGGCGTCACGCTGGCGCTGGGCATGATCCTCTCCCCGCGCCTGCAGCGCTGGCTGATGCCGCTGGTGCTCACCAGCCAGGCGATCCCGGTCTTTGCCCTCGCCCCGCTGCTGGTGCTGTGGCTGGGGTTTGGCATGAGCGCCAAAGTGGCGATGGCGGTGCTGGTGATTTTCTTTCCCGTCACGTCCGCCTTCTTTGACGGCTTGCGACGGGTCAACCACGAGTATCTCGATCTGGCGCGCAGCATGAACGCCTCCTTCGGCGCTCAGCTGCGGCATGTCCGCCTGATGGCCGCCCTGCCGGCGCTGGGCTCGGGCCTGCGCATGGCGGCGGCGGTGGCCCCCATCGGCGCCATTATCGGCGAATGGGTCGGCTCCGCCGAGGGGCTGGGCTACGTCATGCTCAATGCCAACGCGCGGCTGCAAACCGATATCTGCTTCGCCGCGCTGTTTATTTTAGTACTGCTGACCCTCTTCCTGTGGCTGGCGGTAGACACCCTGCTGCACCGGCTGATCGACTGGTCGCCGGAATAA	MTGRLWRGGMVFCGLMLLWGLASRSGIPHFLLPSPAAVAEALWVNRAYLGWHTLITLSEILSGLALGVALGVTLALGMILSPRLQRWLMPLVLTSQAIPVFALAPLLVLWLGFGMSAKVAMAVLVIFFPVTSAFFDGLRRVNHEYLDLARSMNASFGAQLRHVRLMAALPALGSGLRMAAAVAPIGAIIGEWVGSAEGLGYVMLNANARLQTDICFAALFILVLLTLFLWLAVDTLLHRLIDWSPE	PGPT0001145_8216	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
BMS020_00426	936		COG0715	Putative thiamine biosynthesis protein	ATGAAAACGTCGCTTTTCGCCGGAGCAACCCTGACGGCGCTGCTCAGCGGTCACGCGCTGGCCAATGAACCGCTCACCCTGGTGCTGGACTGGTATATTAACCCCGACCATGCGCCGATTATGGTGGCCGAGCAGATCGGCGCCTTTAAGGCCCAGGGTCTGGACGTCAAGATTGTCCCCCCGTCGGATCCGGCGCTGCCGCCCCGCATGGTGGCCGCCCGTCAGGCGGACCTGGCCATCACCTACCAGCCGCAGGTGCACTTCTTCGCTGACGAAGGGTTACCGCTGGTGCGCGTGGGCACCCTGATCGGCTCGCCGCTGAACACGGTGATCGCCCTGGATAAGCAGATCAAAACCCCGGCGGATCTGCAAGGCAAGAAGGTGGGTTACTCGGTCAGCGGCATTGAGCAGGCCACCCTGTCGACCATGGCGCAGCATGCGGGGATCGATCCGGCCAGTATCAAGCTGGTCAACGTCAATTTTCAGCTGACCAGCGCTCTGCTGACGGGCCAGGTGGACGCGGTCATCGGCGGTTATCGTAATATAGAAGCGCAGGAGCTGAAGCTGCAGGGCAAAGCCCCGGTGGTGATGAACGTTGAGGATTATGGCGTACCGGCCTATGACGAGCTGGTGATTGTCGCCCACCGCGACGCGATTCATGAGGCGAAAATCCGTAAATTCCTCACCGCCCTGCAGGCCGGGGTCAGCTACCTGCGCGCGCATCCGCAGGAGAGCTGGGAGGCGTTCGCCGCCGCGCATCCGGAGCTGAAGACCGAGCTTAACCATCAGGCGTGGCTGCAAACCGTGCCGCTGTTCGCCGCCGATCCGGCGGCGCTGGATAAAGCGCGCTACGACACTTACGAACAGTTTTTATATAACAATAAGTTGGTGAAAAAAGTTACACCTTTAACAAATTATGCGGTTGAGCTGCATTGA	MKTSLFAGATLTALLSGHALANEPLTLVLDWYINPDHAPIMVAEQIGAFKAQGLDVKIVPPSDPALPPRMVAARQADLAITYQPQVHFFADEGLPLVRVGTLIGSPLNTVIALDKQIKTPADLQGKKVGYSVSGIEQATLSTMAQHAGIDPASIKLVNVNFQLTSALLTGQVDAVIGGYRNIEAQELKLQGKAPVVMNVEDYGVPAYDELVIVAHRDAIHEAKIRKFLTALQAGVSYLRAHPQESWEAFAAAHPELKTELNHQAWLQTVPLFAADPAALDKARYDTYEQFLYNNKLVKKVTPLTNYAVELH				NA	NA	NA	NA	NA
BMS020_00427	1383	dat	COG0160	Diaminobutyrate--2-oxoglutarate aminotransferase	ATGACGGATAAAGTCCGTATTGATACTTTACGTGCCGATTTATTAGACGCAAACAACGAAACCTTTTTGGCCCGTCAGGCCGAATTCGAATCGAATGTCAGGAGTTACCCGCGTAAGTTACCGCTGGCTATCACTAAAGCTGAAGGCGTGTGGCTGACGGATGCGGATAACAAACAGTACCTGGACTGCCTCGCCGGCGCCGGTACTCTCGCTCTGGGCCACAACCACCCTGATGTATTGCAGAGCATCCAAAGTGTCATTACCAGCGGCTTGCCGTTACATACTCTCGATCTGACTACTCCGTTAAAAGATCGTTTCTCCGAATACCTGCTCTCTTGCCTGCCGGGCGAAGGGAAAGAGTATTGCCTACAGTTCACCGGTCCTTCCGGCGCTGACGCCGTGGAAGCGGCGCTGAAGCTGGCGAAAAAATACACCGGCCGTACGTCGGTGATCAGCTTCTCCGGCGGCTATCACGGGATGACCCACGGCGCGCTGTCGGTCACCGGCAACCTGTCGCCGAAAGCGGCGGTCAACGGCATGATGCCGGAAGTGCAGTTTATGCCTTACCCGCACCTGTACCGCTGCCCGCTGGGCATCGGCGGCGAAGCCGGCGTCAAAGCGCTGACCTACTACTTCGAAAACCTGATCAACGACGTGGAGAGCGGCGTCCGTAAACCGGCGGCCGTGATCCTCGAAGCCGTTCAGGGCGAAGGCGGCGTGAACCCGGCGCCGGTCGAGTGGCTGCAGCGCATCCGCAAAGTGACCGAAGAGCACGGTATTCTGCTGATCGTCGATGAAGTGCAGGCCGGCTTTGCCCGTACCGGTAAATTCTTCGCCTTCGAACACGCCGGTATTCAGCCGGACATCATCGTGATGTCGAAAGCGGTTGGCGGCGGTCTGCCGCTGGCGGTGCTGGGCATTAAAAAGCAGTTCGACGCCTGGGAACCGGGTCACCACACCGGCACCTTCCGCGGCAACCAGCTGGCGATGGCTACCGGCCTGACCACCCTGCGTCACCTGCGCGACAACAGCATTGCCGACAAAGTCGCCGCCCAGGGCGAGTGGCTGAAAGGCAAACTGGCGGAGCTGCAGAAGCGCTACCCGGTCATTGGCCACGTTCGCGGTCTCGGTCTGATGATCGGTATCGAAATCGTCAAGCCGAACGACGCGCAGGATCATATGGGCTGCTACCCGGCTGACGGCGAACTCTCTGCCCTGCTGCAGAAGAAATGCTTCGAAGCGGGCCTGATTCTGGAGCGCGGTGGCCGTCACGGCTGCGTGCTGCGCCTGCTGCCGTCCCTGCTGATCAGCGACGCGGAACTGAATGTGTTCCTCGACAAATTTGAACAGGCCCTGCTGGCCGCCGGTGTGAAACCGGTCTGA	MTDKVRIDTLRADLLDANNETFLARQAEFESNVRSYPRKLPLAITKAEGVWLTDADNKQYLDCLAGAGTLALGHNHPDVLQSIQSVITSGLPLHTLDLTTPLKDRFSEYLLSCLPGEGKEYCLQFTGPSGADAVEAALKLAKKYTGRTSVISFSGGYHGMTHGALSVTGNLSPKAAVNGMMPEVQFMPYPHLYRCPLGIGGEAGVKALTYYFENLINDVESGVRKPAAVILEAVQGEGGVNPAPVEWLQRIRKVTEEHGILLIVDEVQAGFARTGKFFAFEHAGIQPDIIVMSKAVGGGLPLAVLGIKKQFDAWEPGHHTGTFRGNQLAMATGLTTLRHLRDNSIADKVAAQGEWLKGKLAELQKRYPVIGHVRGLGLMIGIEIVKPNDAQDHMGCYPADGELSALLQKKCFEAGLILERGGRHGCVLRLLPSLLISDAELNVFLDKFEQALLAAGVKPV	PGPT0014050_120	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014050-ectB|dat-K00836	NA	NA
BMS020_00428	1473	ddc	COG0076	L-2,4-diaminobutyrate decarboxylase	ATGTCCACATTGAATCCGATTCTTGCTGGTTCGGCGCAGAGCGTTGAGGCCTATCAGCAGGTTATCGAGCAGACCAGTCAGGCCGTTGTGCAGTGGCTGAAGCAACCTGAGATGTATCAGGGGAAAAGCGTTGACGAACTGCGTGAGCGTATCTCCCTTGAATTTAACGAACAGGGGTTGGGTAACCAGGCGGCGATTGATCGTGCGATCGAGTACTTCCTGAAAGACAGCCTGTCGGTGCATCACCCACAGTGCGTGGCGCACCTGCACTGCCCGAGCCTGGTGATTAGCCAGGCGGCGGAAGTGCTGATCAACGCCACCAACCAGAGCATGGACTCCTGGGATCAGAGCCCGTCGGCGACCATCATTGAGATGAAGCTGATCGAGTGGCTGCGCGCCCGGGTCGGCTATCCGGCAGGCGACGCCGGCGTCTTCACCAGCGGCGGCACCCAGAGCAACCTGATGGGCCTGATGTTGGCGCGCGACGCCTTCTTCGCCCGTCAGGGACACTCCATCCAGCAGGATGGACTGCCGGGGGATATCCGCCAGTACAAAGTGCTGTGCTCGGAAAACGCCCACTTCTCGGTGCAGAAGAACATGGCGCTGATGGGTCTCGGCTACCGCTCGGTTACGCTGGTGAAAACCGACGAATTCGCGCGGATGGACGTGGCCGACCTGAAGGCGAAGATTGCGCAGGCGCAGGCTAACGGCGAACAGATCATGGCGATCGTCGCCACCGCCGGGACCACCGACGCGGGGGCTATCGACCCGCTGCGCGACATCGCTGGTATCGCCGCGGAGCATCAGATCTGGCTGCACGTTGACGCGGCCTGGGGCGGCGCGCTGCTGCTGTCTGAGCAGTATCGCGACTATCTTGACGGTCTGGAGCTAGTGGATTCCGTTACCCTGGACTTCCACAAGCAGTTCTTCCAGACCATCAGCTGCGGTGCCTTCCTGCTGAAGGATGCCCGCCATTACGAGCTGATGCGTTATCAGGCGGCCTATCTGAACTCCGAGTTCGATGAAGAACACGGCGTGCCGAACCTGGTCTCTAAATCGCTGCAGACCACCCGCCGCTTCGATGCCCTGAAGCTGTGGATGGGCCTCGAAGCGCTGGGGCAGAAACAGTATGCGGCGATCATCGATCACGGCGTCACCATGGCGAAAAACGTCGCGGAGTACGTGAAGTCGCAGCCGACGCTGGAGCTGGTGATGCAGCCGCAGCTGGCGAGCGTGCTGTTCCGTTCTCGTCCGGCGCAGATGGCGCAGAGCGACGCGGCGGCTATCGCCCTGCTCAACCAGCGCGTCGGCGACGCCCTGCTGGCTTCCGGCCGCGCCAACGTTGGCGTGACCGAGCACAACGGCGTTACCTGCCTGAAGCTGACCCTGCTGAACCCGGTGGTGACGCTGGATGATGTGAAGGTCCTGCTGAGCCTGGTGGAGCGCACCGCTCAGGAGCTGCTGGCGCAATAA	MSTLNPILAGSAQSVEAYQQVIEQTSQAVVQWLKQPEMYQGKSVDELRERISLEFNEQGLGNQAAIDRAIEYFLKDSLSVHHPQCVAHLHCPSLVISQAAEVLINATNQSMDSWDQSPSATIIEMKLIEWLRARVGYPAGDAGVFTSGGTQSNLMGLMLARDAFFARQGHSIQQDGLPGDIRQYKVLCSENAHFSVQKNMALMGLGYRSVTLVKTDEFARMDVADLKAKIAQAQANGEQIMAIVATAGTTDAGAIDPLRDIAGIAAEHQIWLHVDAAWGGALLLSEQYRDYLDGLELVDSVTLDFHKQFFQTISCGAFLLKDARHYELMRYQAAYLNSEFDEEHGVPNLVSKSLQTTRRFDALKLWMGLEALGQKQYAAIIDHGVTMAKNVAEYVKSQPTLELVMQPQLASVLFRSRPAQMAQSDAAAIALLNQRVGDALLASGRANVGVTEHNGVTCLKLTLLNPVVTLDDVKVLLSLVERTAQELLAQ	PGPT0013725_571	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-1|3-DIAMINOPROPANE_BIOSYNTHESIS,PGPT0013725-ddc|dfoJ|desA-K13745	NA	NA
BMS020_00429	882	yofA_1	COG0583	HTH-type transcriptional regulator YofA	ATGGAGAAACGCTTACCCGGCCTCGATCTTGACGCCCTGCGCAGCTTTGTGACCGGCATGGAGTGCGGCAGCTTCGCCCTGGCGGCGCAGCGTCTGGCGCGCTCCACCTCCGCCGTCAGCGCCCAGCTCAAAAAGCTGGAGAGTCAGTGCGGCGCCGCGCTGGTGGTTAAACAGGGGCGTCACCTGGCGCTGACCGCGGAGGGCGAAAAGCTAATGAGCTACGCCAGACGGCTGCTGGCGCTCAATGATGAAACCCTGCGCGCGCTGCAGGGCGAACGGCTCACTGGCGAAATTCACCTTGGCATGCAGGAAGATTTTGGCGAATCGCTAATGCCGGGGATCCTTGGGCAGTTTACCCGCCACCATCCGCAGGTGCGGATCGTCGCCAGGGTGGATCGCAATGGCCCGCTGCGCCAGGCGCTGGCGGAGCAGACGCTGGATCTGGCGCTGCTGTGGCAAACCGAAGATCAGGGCCCTGGGCTGGGCCGCTGCCCGCTGGCGTGGATTGCGCATCCTGACTTTGACGTTCGCGCGTGGCTGGCGTCCGGCGAGCCGCTGCCGCTGGTGATGTTCGACAGCCCGTGCTTGATGCGTTCCCGCGCTATTGCCTGTCTCGATGCCGCAGGGATCCCCTGGCAGGTGGTGTTCGTCAGCCACAGCCTGAGCGGCATCTGGGCGGCGGTGCAGGCCGGCCTGGGGCTGACGGTACGCAGCCGCATCGGCATGCCAGGCAATCTGCGCCCCGCCGGCGGATCACTGCCATCCCCCGGCAACCTGGCCGTCAGTCTGCAACAACCCCCGCGTCAGGAACCCCATTCCGCCGCGGTCACGCTGCTCGGCGAACTGATGTCCGAGGCCCTGCAGGAGTGGGTTGTTCGGTGA	MEKRLPGLDLDALRSFVTGMECGSFALAAQRLARSTSAVSAQLKKLESQCGAALVVKQGRHLALTAEGEKLMSYARRLLALNDETLRALQGERLTGEIHLGMQEDFGESLMPGILGQFTRHHPQVRIVARVDRNGPLRQALAEQTLDLALLWQTEDQGPGLGRCPLAWIAHPDFDVRAWLASGEPLPLVMFDSPCLMRSRAIACLDAAGIPWQVVFVSHSLSGIWAAVQAGLGLTVRSRIGMPGNLRPAGGSLPSPGNLAVSLQQPPRQEPHSAAVTLLGELMSEALQEWVVR				NA	NA	NA	NA	NA
BMS020_00430	606			hypothetical protein	TTGTTCGGTGACAGTGTCACGCCAGTTTCCCTCACCCTAACCTTCTTCCGGAGGGAGAGGGAACCGTTCGGCAACGTCTGTTACCCCGGCCAAGATTCTGTCTCCACCCGCTACGTAACCCGCCTTACCGGGCCTGCACCCGGCACCGTAACCCCCCAGGCCGGGCAAGCGCAGCGCCGCCCGGCAACAGGCATCCAGCACCGTTCCCGCTTCGATGCCCGGTGGCGGCTGTGCCTTACCGGGCCTACATTCTCCCTGCGCGCTCCTGTAGGCCGGGCAAGCGTAACGCCGCCCGGCAATGAGCATTCTGCGCCGTTCCCGCTTCGATGCCCGGTGGCGGCTGCGCCTTACCGGGCCTACATTCTCCCTGCGCACTCCTGTTGCCGGGCAAGCGTAGCGCCGCCCGGCAATGAGCATCGAGCACCCTTCCCGTTTCAACGCCCGGTGGCGGCTGCGCCTTACCGGGCCTACATTCTCCCTGCGCTCTCCTGTAGGCCGGGCAAGCGTAGCGCCGCCCGGCAACAGGCATCCAGCACCCTTCCCGTTTCAACGCCCGGTGGCGGCTGCGCCTTACCGGGCCTACATTCTCCCTGCGCACTCCTGTAG	MFGDSVTPVSLTLTFFRREREPFGNVCYPGQDSVSTRYVTRLTGPAPGTVTPQAGQAQRRPATGIQHRSRFDARWRLCLTGPTFSLRAPVGRASVTPPGNEHSAPFPLRCPVAAAPYRAYILPAHSCCRASVAPPGNEHRAPFPFQRPVAAAPYRAYILPALSCRPGKRSAARQQASSTLPVSTPGGGCALPGLHSPCALL				NA	NA	NA	NA	NA
BMS020_00431	1191	dipZ	COG0785	Protein DipZ	ATGTCGATATTGATGGCATTTTTGGGCGGGATGTTAACCCTGCTAAGCCCCTGCACGCTGCCGGTGATCCCGCTGCTGTTCGCCAGCGTCCGGGGCCGACGGGGGCAACTGGCGATCATGCTGGCGGGCATGGCGCTGATGTTCGGCGCTGTGTCGTGGCTGGTGACGGTCGCCAGCGGTTGGGTCGTGAATCTGACGCTGGCTGGGCGCGGCCTGGCGCTGGCGTTCTTCGCCCTTGTCGGGCTGAGCCTGCTTTCGCCGCGCGTCGCGCAGCGGCTGACGTCACCCCTGGTGGCGCTGGGGAATCAGCTTAACGACGCCAGCTCACGCCAGCGCGGCTGGATCGGTTCGCTGCTGGCCGGGCTGGCGGTGGGGCTGCTGTGGGCGCCATGCGCCGGGCCGGTACTGGGGGCGATACTGAGCCTGGGCTTTGTGCATCCGGGCCAGGCGACCACCGGCGGGTTGCTGTTGGCCTACGGCGGCGGCGGGGCGCTGATGTTATTCCTGCTCGGGTGGTGCGGCGCGGCGTTGATTGCCCGTCTGCGTCGCGGGCTGGCGTTCGGCGAACGGCTGCGCCGGCTGGCGGGGGTGGCGATGCTGGCCTCGGTGGCGCTGATCGCCAGCGGCGGCGACCGCTATTTGCAAAGCGCGGGAGGATGGAGTCAGGCGCTGGAGCAGCGGCTGGCCGCCCGTCTGCCGCAGCCAACGCAGAAAACGGTTCTGCAACCGATCGCGACGCCCGAGCCCAGCAGCGCGATGCCTTCGCTGGCGGGAGGCAGCGCATGGCTCAATAGCCCGGCGTTAACCCCGGAGAGTCTGAAGGGCAAAGTGGTGCTGGTGGACTTCTGGACCCGGGAGTGCATCAACTGTCAGCATACCCTGCCTTACGTGCGCGACTGGGCGAACAAATACCGCGCGGCCGGGCTGGTGGTGATTGGCGTCCATACCCCGGAATATCCCTGGGAGCGCTCTCTACCGCTGCTGCGCCAGGCGGTGAAGGACTGGCGGATAACCTACCCGGTGGTGGCGGATAATGAGTACGCCATCTGGAATGCCTTCGGCAATCAGTACTGGCCGGCGCATTACATTTTCGACGCACGTGGGCAACTGCGCTATACCGCCTTCGGCGAAGGGGATTATGCCCGCCAGGAGCAGGTGATCCAGCAGCTGCTGCAGGAGAGCAAAGCCTGA	MSILMAFLGGMLTLLSPCTLPVIPLLFASVRGRRGQLAIMLAGMALMFGAVSWLVTVASGWVVNLTLAGRGLALAFFALVGLSLLSPRVAQRLTSPLVALGNQLNDASSRQRGWIGSLLAGLAVGLLWAPCAGPVLGAILSLGFVHPGQATTGGLLLAYGGGGALMLFLLGWCGAALIARLRRGLAFGERLRRLAGVAMLASVALIASGGDRYLQSAGGWSQALEQRLAARLPQPTQKTVLQPIATPEPSSAMPSLAGGSAWLNSPALTPESLKGKVVLVDFWTRECINCQHTLPYVRDWANKYRAAGLVVIGVHTPEYPWERSLPLLRQAVKDWRITYPVVADNEYAIWNAFGNQYWPAHYIFDARGQLRYTAFGEGDYARQEQVIQQLLQESKA				NA	NA	NA	NA	NA
BMS020_00432	1344	rcsC_1		Sensor histidine kinase RcsC	ATGAGGTTCTGGCCCGCCTCGCTGCAGTCGAGGCTGATGGCGCTGCTGTTTCTGGCGCTGCTGCTGGCGAATACCTTAACCCTGTCGCTGCTGTTTTATGAGCGTATGAGCAGCGCCCGCAGCGTGATGCTGGGCAATCTGGCGTCGGATGTCGCCACCAGCGTGGCGATCCTCGACCGTCTGCCGCCCGCTGAACGCCCGCAGTGGCTGCCGAAGCTGGCGCGCGGCAACTACCGCTATCAGCTGGACGCCGGCGAGCGCGGCGACTACCCGGACAGCTGGCGCGCCCGGGACGCGGCGCGCTCCCTGCAGGAGGCGTTGAGCGCGCAGTATCCGGTGAGTATTGTGGCGATCCCCGGTCCGCGGCAGCATATCCAGGCCCATATTACCCTCCACGATGGCGCCCCCTTAACCCTCGACCTGTGGCCGAAACTACCGCCCATCGCCCGCTGGCTGCCGGTGGTGCTGATCGCTCAGTTTGTCCTCCTGCTGGCCTGCGCCTGGTACGCGGTTCGCCAGGTACTGCAGCCCATCACTCGCTTTACCCATGCGGTGAATGCGCTTGAGCCGGCCAGCGACACGGCGGGAACCATGACCGAGCAGGGGCCGGAGGAGGTGCGCCGTGCCGCCCGCGCGTTTAACGCGATGCAGACCCGCATCCACGATCATCTGCAGGAGCGGGCGCGGATCCTCGCCGCCATCTCCCACGATCTGCAAACCCCGATCACCCGGATGAAGCTGCGGGTGGAGATGGCCGACCAGCCTGAACTGCGCGACAAACTGCTGCAGGATCTCGACAATATGACCCGCCTGGTGCGCGAAGGTATCGCCTTCGCTCGCACCTCGCAGCCGCTGGAGGAGGCGCGCCAGCGGCTGAACCTTGACGCCTTTCTCGACAGCATCGCCTGCGATTATGCCGATGTCGGCCGGCCGGTGCGGTTTTGCCCCGAGGCGCGCGCCGGAGTGGTGTGGATCCCACCGCAGGCCCTGCGCCGGGTGATGACCAACCTTATCGATAACGGGCTGAAATTCGGCGCCACGGTAACGGTCGCCCTGAACCGCGACGCCGCCGGGGATATCATCATTCATGTGCTGGATGAGGGGCCGGGGATCCCTGAGGCGTCGCTGCAGGCGGTGCTGCAGCCGTTTTATCGCCTGGAGGACTCGCGCAATCGCGATACCGGCGGCACCGGCCTGGGGCTGGCGATCGCTGCGCAGCTGGTCAGCCAGATGAACGGCACGCTGCGCCTGGCCAACCGCCCGCAGGGCGGTCTGGATGCCAGCGTGCGTCTCGCCGCGCAGGGATTGTATCCTGCTGTATCACCAGCGCAGATAGAAAACTAA	MRFWPASLQSRLMALLFLALLLANTLTLSLLFYERMSSARSVMLGNLASDVATSVAILDRLPPAERPQWLPKLARGNYRYQLDAGERGDYPDSWRARDAARSLQEALSAQYPVSIVAIPGPRQHIQAHITLHDGAPLTLDLWPKLPPIARWLPVVLIAQFVLLLACAWYAVRQVLQPITRFTHAVNALEPASDTAGTMTEQGPEEVRRAARAFNAMQTRIHDHLQERARILAAISHDLQTPITRMKLRVEMADQPELRDKLLQDLDNMTRLVREGIAFARTSQPLEEARQRLNLDAFLDSIACDYADVGRPVRFCPEARAGVVWIPPQALRRVMTNLIDNGLKFGATVTVALNRDAAGDIIIHVLDEGPGIPEASLQAVLQPFYRLEDSRNRDTGGTGLGLAIAAQLVSQMNGTLRLANRPQGGLDASVRLAAQGLYPAVSPAQIEN				NA	NA	NA	NA	NA
BMS020_00433	741	ompR_1		Transcriptional regulatory protein OmpR	TTGGAGCGTATTGACCACATCCTGGTCGTCGATGACGACCGCGACATCCGGGAACTGATTGTCGACTATCTGGAAAAATCGGGATACCGCGCCAGCGGCGCGGCGAACGGCAAAGCCATGTGGTCGGTGCTCAAAAACCATCAAATCGACCTGATTGTGCTGGATATCATGATGCCGGGCGAGGATGGCTTAACGCTCTGTCGCCAGCTGCGCGCAAACCCGCAACAGGATATCCCGGTGCTGATGCTCACCGCCCGCACCGACGACAGCGACCGGATCCTCGGCCTTGAGATGGGGGCTGACGACTATCTGGTGAAGCCCTTTGTGGCCCGCGAACTGCTGGCGCGCATCAAAGCCATTTTACGCCGCACCCGGGCGCTGCCGCCCAACCTGCAGATCACCGAGGCGGGCAGGCTGATCGCGTTTGGTGACTGGCTGCTCGATACCGCCGCCCGCCATCTGCTGGACGACAGCGGGGCGATTGTCGCCCTCAGCGGGGCGGAGTATCGACTGCTGCGGGTGTTTCTCGACCATCCCCAGCGGGTGCTGAACCGCGATCAGCTGCTCAATCTGACCCAGGGACGCGACGCCGAACTGTTTGAACGGTCAATCGACCTGCTGGTGAGCCGGCTGCGTCAGCGCCTGCGGGAGGATGCCCGCGAGCCGGCCTACATTAAGACGGTGCGCAGCGAAGGCTATGTGCTGTCGGTCCCGGTCTCCATCCGCGAGAGGCATGAATGA	MERIDHILVVDDDRDIRELIVDYLEKSGYRASGAANGKAMWSVLKNHQIDLIVLDIMMPGEDGLTLCRQLRANPQQDIPVLMLTARTDDSDRILGLEMGADDYLVKPFVARELLARIKAILRRTRALPPNLQITEAGRLIAFGDWLLDTAARHLLDDSGAIVALSGAEYRLLRVFLDHPQRVLNRDQLLNLTQGRDAELFERSIDLLVSRLRQRLREDAREPAYIKTVRSEGYVLSVPVSIRERHE	PGPT0012985_762	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
BMS020_00434	993	dhmA		Haloalkane dehalogenase	ATGAACAGATTATCCCTGATCCGGTATACCAGCGCCGCGGCGCTGGGGTTATCCACCCTGTGGTCCGCCGCCGTTTGCGCCGCTGAAGACGCGGGGGCGTTCGACAAGATCCACCAGATCCACGCCGGCGATCTGAATATTGGCTACGTGGATATCGGTCCGCGCGACGGCCAGCCGGTGATTCTGCTGCACGGCTGGCCCTACGATATTCAGAGCTATGCCCAGGTGGCGCCGGCTTTAGCGCAGAAGGGCTACCGGGTGATTGTGCCGTATCTGCGCGGCTACGGCACCACCCGTTTCCTCTCCGCCAGCACGCCGCGTAACGGTCAGCCGTCGGCGATGGCGGCCGATATTGTCCATCTGATGGATGCCCTGAACATCAGGCAGGCGGATCTGGCCGGCTTTGACTGGGGGGCGCGCACGGCGGATATCGTCGCCGCGCTGTGGCCGCAGCGGGTGAAATCCCTGGTCTCGGTGAGCGGGTATCTGATCAGCAGTCAGCAGATTGGCGAAAAACCGCTGCCGCCGCAGGCGGAGCTGTCGTGGTGGTATCAGTTCTATTTTGCCACTCCGCGCGGGGAAGCCGGTTACCGGCAGAACACCCATGACTTTGCGAAATTTATCTGGCATCAGGCGTCGCCGCAGTGGCCATTCAGCGACGCAACCTTTGCCAAAACCGCCCGGGCGCTGGATAACCCGGACCACGTGGCGATCACCATCAGCAACTACCGCTGGCGCCTGGGGCTGGAGAAGGGAGAAGCGAAGTATGCCAGCTATGAACAACGGCTGGCGGCGCTGCCGCCGATTACGGTGCCCACCATCACTCTGGAAGGGGCGAATAACGGCGCGCCGCATCCGGCTCCCGCCAGCTACCGGGCCAAATTTACCGGTAAATATGAGCACAGGGATCTGCAGGGGCCGGTGGGCCATAACCCGCCGCAGGAGGACCCGACGGCGTTTGTGCAGGCGGTGGTGGACGCCGATCGTTTGTAA	MNRLSLIRYTSAAALGLSTLWSAAVCAAEDAGAFDKIHQIHAGDLNIGYVDIGPRDGQPVILLHGWPYDIQSYAQVAPALAQKGYRVIVPYLRGYGTTRFLSASTPRNGQPSAMAADIVHLMDALNIRQADLAGFDWGARTADIVAALWPQRVKSLVSVSGYLISSQQIGEKPLPPQAELSWWYQFYFATPRGEAGYRQNTHDFAKFIWHQASPQWPFSDATFAKTARALDNPDHVAITISNYRWRLGLEKGEAKYASYEQRLAALPPITVPTITLEGANNGAPHPAPASYRAKFTGKYEHRDLQGPVGHNPPQEDPTAFVQAVVDADRL				NA	NA	NA	NA	NA
BMS020_00435	1020			hypothetical protein	GTGGCGATTTTTGATGGTCACAATGACCTGCTGCTGAATCTCTGGCTTCACCATCGCGAGGATCCGGTGACCGCCTTCTTTGCCGGGATAGAGAACGGCCACCTCGATTATCCGCGTATTCGCCAGGGCGGTCTGGCCGGCGGCCTGTTCGCCCTCTTTGTACCGCCGCAGGAGTATATCGCCCGCGTGGCGCCCCAGTATGCCAGTCAGGCGTGGGACCCATTAACGATCCTCTGGCAGCAGCTGACTATCCTCAAGGCGATTTGCGCCCATGACGCCAGCCGCGCGCGGCTGTGCCTGAGCGCGGCGGATATCGAACGCTGCCGTCAGGATAAGGCGCTGGCGATGGTGGCGCACATCGAAGGCGCCGGCGGGTTCGACGCCCAGGGCGAAGATCTGCAGGACTTTTATCGCGCCGGGGTGCGCAGCATAGGTCCGTTCTGGAACATCGCCAATCGCTTCGGCTGCGGGGTCACCGGCGCCTTTCCCGGCAGTCCGGACAGCGGGCCGGGTCTTACCGGCGAGGGCATTGCGCTCATTGCTCAGGCCAACGCCCTGAAGATGCAGATCGATGTTTCGCACATGAATGAACAGGCCTTTTGGGATACCGCCCGTCACTCCACCGCCCCGCTGGTGGCCACCCACTCCAATGCCCACGCCCTGTGCCCACAGCCGCGCAACCTGACCGATCGGCAACTGCGGGCGTTCCGCGACAGCGGCGGCGTAGTGGGCGTTAATTTCGGCAACGCCTTCCTGCGCGCCGACGGACGGCGCGATAGCGACACGCCCTTCGCCACCATCATCCGGCATATCGACTATCTTATTAACATAATGGGTGAGGATCATGTGGCCCTTGGCTCGGATTTTGACGGCGTCACCCTGCCGGACGCGCTGGGGGATGTGGCCGGCTTACCGCGGCTTATCAATGCCTTGCGTGACAGCGGCTATGATCAATTGGTGCTGGATAAGCTGCTGTGGCGTAACTGGCTGCGGGTATTAAAAAATGTTTGGCAACAATAG	MAIFDGHNDLLLNLWLHHREDPVTAFFAGIENGHLDYPRIRQGGLAGGLFALFVPPQEYIARVAPQYASQAWDPLTILWQQLTILKAICAHDASRARLCLSAADIERCRQDKALAMVAHIEGAGGFDAQGEDLQDFYRAGVRSIGPFWNIANRFGCGVTGAFPGSPDSGPGLTGEGIALIAQANALKMQIDVSHMNEQAFWDTARHSTAPLVATHSNAHALCPQPRNLTDRQLRAFRDSGGVVGVNFGNAFLRADGRRDSDTPFATIIRHIDYLINIMGEDHVALGSDFDGVTLPDALGDVAGLPRLINALRDSGYDQLVLDKLLWRNWLRVLKNVWQQ	PGPT0020950_2653	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
BMS020_00436	927	pqqB	COG1235	Coenzyme PQQ synthesis protein B	ATGTTCATTAAAGTCCTCGGTTCCGCCGCCGGCGGCGGTTTCCCGCAATGGAACTGCAACTGCGCCAACTGTCAGGGTCTGCGCGACGGCACGATCCAGGCCAGCGCCCGCACCCAGTCGTCGATCATCGTCAGCGATAACGGTCAAGAGTGGGTGCTGTGCAACGCCTCGCCGGATATCAGCCAGCAGATTGCCCACACGCCCGAGTTAAATAAAACCGGCGTGCTGCGCGGAACACATATCGGCGGCATTATTCTCACCGACAGCCAGATCGACCACACTACCGGGTTACTCAGCCTGCGCGAAGGCTGCCCGCACCAGGTGTGGTGCACCCCGGAGGTCCATGAGGATCTCTCCACCGGCTTCCCGTTGTTTACCATGCTGCGCCACTGGAACGGCGGCCTGGTGCATCACCCCATCGCGCCGCAGCAGCCTTTTACCGTTGACGCCTGTCCTGATTTGCGGTTTACCGCGGTGCCTATCGCCAGCAACGCGCCGCCCTATTCGCCGTATCGCGACCGGCCGCTGCCGGGCCATAACGTGGCGCTGTTTATCGAAAACCGCCGCAACGGGCAGACGCTGTTCTACGCTCCGGGGCTCGGTGAGCCGGATGAGACCATTCTGCCCTGGCTGCAAAAAGCGGACTGTCTGCTGATCGATGGCACCGTCTGGCAGGATGACGAACTGCAGGCCGCCGGCGTCGGGCGCAATACCGGCCGCGATATGGGCCACCTGGCGCTCGGCGATGAGCACGGGATGATGGCCCTGCTGGCCTCCCTGCCGGCAAAACGCAAAATTCTTATTCATATCAATAACACCAACCCGATCCTTAATGAGCGCTCTCCCCAGCGTCAGGCGCTGACGCAGCAGGGGATTGAAGTGAGCTGGGACGGGATGGCTATCACCCTTCAGGATATCGCATGCTGA	MFIKVLGSAAGGGFPQWNCNCANCQGLRDGTIQASARTQSSIIVSDNGQEWVLCNASPDISQQIAHTPELNKTGVLRGTHIGGIILTDSQIDHTTGLLSLREGCPHQVWCTPEVHEDLSTGFPLFTMLRHWNGGLVHHPIAPQQPFTVDACPDLRFTAVPIASNAPPYSPYRDRPLPGHNVALFIENRRNGQTLFYAPGLGEPDETILPWLQKADCLLIDGTVWQDDELQAAGVGRNTGRDMGHLALGDEHGMMALLASLPAKRKILIHINNTNPILNERSPQRQALTQQGIEVSWDGMAITLQDIAC	PGPT0001250_171	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001250-pqqB|pqqG-K06136	NA	NA
BMS020_00437	756	pqqC	COG5424	Pyrroloquinoline-quinone synthase	ATGCTGATCACCGACACGCTGTCGCCGCAGGCCTTTGAAGCGGCCCTGCGGGCTAAAGGCGCCTTCTACCATATTCACCACCCTTACCACATCGCCATGCATAACGGCGACGCGACCCGCGAGCAAATTCAGGGCTGGGTGGCGAACCGGTTTTATTACCAGACCACTATCCCGCTGAAAGACGCGGCGATCATGGCCAACTGCCCGGACGCGCAGACCCGGCGCAAATGGGTGCAGCGGATCCTCGACCACGATGGCAGCCACGGCGAGGACGGCGGGATTGAAGCCTGGCTGCGGCTGGGGGAAGCGGTCGGTCTGAGCCGCGACGATCTGCTCAGCGAGCGCCACGTGCTGCCCGGCGTGCGCTTCGCGGTGGATGCCTATCTTAACTTCGCCCGTCGCGCCTGCTGGCAGGAGGCGGCCTGCAGCTCCCTGACCGAGCTGTTCGCCCCGCAGATCCATCAGTCGCGCCTCGACAGCTGGCCGCAGCACTACCCGTGGATCAAAGAGGAAGGCTATTTTTACTTCCGCAGCCGTCTGAGCCAGGCTAACCGCGACGTTGAGCATGGCCTGGCGCTGGCGAAGGCCTACTGCGACAGCGCTGAAAAACAGAACCGGATGCTGGAGATCCTGCAGTTTAAGCTCGACATTTTATGGTCGATGCTCGACGCCATGACCATGGCCTATGCCCTGCAGCGCCCGCCCTATCATACGGTCACCGACAAGGCGGCCTGGCACACGACCCGACTGGTGTAA	MLITDTLSPQAFEAALRAKGAFYHIHHPYHIAMHNGDATREQIQGWVANRFYYQTTIPLKDAAIMANCPDAQTRRKWVQRILDHDGSHGEDGGIEAWLRLGEAVGLSRDDLLSERHVLPGVRFAVDAYLNFARRACWQEAACSSLTELFAPQIHQSRLDSWPQHYPWIKEEGYFYFRSRLSQANRDVEHGLALAKAYCDSAEKQNRMLEILQFKLDILWSMLDAMTMAYALQRPPYHTVTDKAAWHTTRLV	PGPT0001255_295	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001255-pqqC-K06137	NA	NA
BMS020_00438	279	pqqD		PqqA binding protein	ATGCAAAATACCTCCATCGTCGCCTTTCGTCGCGGCTACCGCCTGCAGTGGGAAGCCGCCCAGGAGAGCCATGTGATCCTCTATCCGGAGGGAATGGCCAAACTCAATGAGACCGCCGCGGCGATCCTCGAGCTGGTGGATGGCCGGCGCGACGTCGCGGCGATTATCGCCATGCTCAACGACCGCTTCCCGGAAGCCGGGGGCGTTGATGACGACGTCATCGAGTTCCTGCAGATAGCCTGTCAACAGAAGTGGATCACCTGCCGTGAGCCAGCGTAA	MQNTSIVAFRRGYRLQWEAAQESHVILYPEGMAKLNETAAAILELVDGRRDVAAIIAMLNDRFPEAGGVDDDVIEFLQIACQQKWITCREPA	PGPT0001260_463	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001260-pqqD-K06138	NA	NA
BMS020_00439	1143	pqqE	COG0535	PqqA peptide cyclase	GTGAGCCAGCGTAAACCCGCCGTCAATCCGCCGCTGTGGCTGCTGGCGGAGCTAACCTATCGCTGCCCGCTGCAGTGCCCCTACTGTTCGAATCCGCTGGACTTCGCCCAACAGGAAAAAGAGCTGACCACCGAACAATGGATCGAGGTTTTTCGCCAGGCGCGGGCGATGGGCAGCGTACAGCTGGGCTTTTCCGGCGGCGAGCCGCTGACGCGTAAAGATCTGCCGGAGCTGATCCGCGCCGCGCGCGACCTCGGGTTTTATACTAACCTGATCACCTCCGGGATAGGGCTGACGGAGAGCAAACTCGACGCCTTCAGCGAGGCCGGTCTGGACCATATCCAGATTAGCTTCCAGGCCAGCGATGAAGTGCTCAACGCCGCGCTGGCCGGCAACAAAAAAGCCTTCCAGCAGAAGCTGGCGATGGCCAGAGCGGTGAAAGCGCGCGACTATCCGATGGTGCTCAACTTCGTTCTGCACCGGCACAACATCGATCAGCTGGATAAAATTATCGCGCTGTGCATTGAGCTGGAAGCGGATGACGTTGAGCTGGCCACCTGCCAGTTCTACGGTTGGGCGTTCCTCAATCGCGAGGGGCTGCTGCCGACCCGGGAGCAGATCGCCCGCGCCGAGCAGGTGGTCGCCGACTACCGGCAGAAAATGGCCGCCAGCGGCAACCTCACCAACCTGCTGTTTGTCACCCCGGACTATTACGAAGAGCGACCGAAAGGCTGCATGGGCGGCTGGGGATCGATTTTCCTCAGCGTCACCCCGGAAGGCACCGCCCTGCCTTGCCACAGCGCGCGCCAGCTGCCGGTGGCGTTTCCGTCAGTGCTGGAGCAGAGTCTGGAGTCGATCTGGTATGACTCGTTCGGCTTCAATCGTTACCGCGGGTATGACTGGATGCCGGAACCGTGCCGCTCCTGTGATGAAAAAGAGAAAGACTTCGGCGGCTGCCGCTGCCAGGCCTTTATGCTGACCGGCAGCGCCGATAACGCCGACCCGGTGTGCAGCAAATCCCCGCATCATCACAAAATCCTTGACGCCCGGCGCGAAGCGGCCTGCAGCGAGATAAAAGTCAGCCAGCTGCAGTTCCGCAACCGGGCCAGCTCGCAGCTGATCTACAAAACCCGGGACCTGTAA	MSQRKPAVNPPLWLLAELTYRCPLQCPYCSNPLDFAQQEKELTTEQWIEVFRQARAMGSVQLGFSGGEPLTRKDLPELIRAARDLGFYTNLITSGIGLTESKLDAFSEAGLDHIQISFQASDEVLNAALAGNKKAFQQKLAMARAVKARDYPMVLNFVLHRHNIDQLDKIIALCIELEADDVELATCQFYGWAFLNREGLLPTREQIARAEQVVADYRQKMAASGNLTNLLFVTPDYYEERPKGCMGGWGSIFLSVTPEGTALPCHSARQLPVAFPSVLEQSLESIWYDSFGFNRYRGYDWMPEPCRSCDEKEKDFGGCRCQAFMLTGSADNADPVCSKSPHHHKILDARREAACSEIKVSQLQFRNRASSQLIYKTRDL	PGPT0001265_383	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001265-pqqE-K06139	NA	NA
BMS020_00440	2286			hypothetical protein	ATGACGCTGGCGACCCGCACCGTCACGCTGCCGGGCGGCCTGCAGGCCACCCTGGTCCATCAGCCGCAGGCCGAACGCGCGGCGGCCCTGGCGCGGGTCGCCGCCGGCAGCCACCACGAACCCTCGCGCTTCCCCGGGCTGGCGCACCTGCTGGAACACCTGTTGTTTTACGGCGGTGAGCGCTACCGGGATGATGACCGGCTGATGGGCTGGGTGCAGCGCCAGGGCGGAAGCGTGAATGCCACCACCCTGGCCCGCCATAGCGCGTTCTTTTTCGAGGTCGCCGCCGATGGTCTGGCTGACGGTGTCGCGCGTCTACAGGAGATGCTGCAGGCGCCGCGGCTGCTCAGAGAAGATATTCAGCGCGAAGTGGCGGTGATTGACGCCGAGTACCGCCTTATCCAGCAGCATGAGCCGTCGCGCCGGGAAGCCGCCGTGCGTCACGCCGCCAGCGCGCCCGCGGCGTTTCGTCGCTTTCAGGTAGGCAGCGCCGACGCGCTGGCGGGCGATCTCCCTGCACTGCAGGCGGCCTTACGCGATTTTCACCACACCCATTACGTCGCCCGGCGGATGCAGCTCTGGCTGCAGGGGCCGCAGTCGCTGGAGGCGCTCGGCGAGCTGGCGGTCCGTTTCGCCGCCGGGCTTGCCGCAGGCGAGGCTCCGCCGCCGGCGCCGCCGCTGCGCCTGGACGAGACCACTGAACTGCAGCTGGCGGTCGACGCCCAACCCGCCCTGTGGCGCTGTCCGCTGATCGCCTTAAGTGACAACGTCACCTTACTGCGCGAGTTTTTGCTCGATGAAGCCCCCGGCAGCCTGATGGCCGGGCTGCGCCAGCGTGGTCAGGCGCAAGAGGTAGCGCTGAACTGGCTGTATCAGGATCGGCACCTCGGCTGGCTGGCGCTGGTCTTCGCCAGCGACCAGCCGGAACAGGTCGACCGGCAGATAACCCACTGGCTGCAGGCGCTACAGCGGACGACGCCAGACCAGCAGCAACACTACTATCAGCTCTCCCGGCGCCGTTTTCAGGCACTGTCGCCCCTCGATCAGCTGCGCCAGCGGGCATTCGGCTTTGCCCCCGGCGCGCCGCCCGCCGGGTTCGCCGATTTTTGCGCCGCCCTGCAGGCCGCCCCTACGGTCAGCCTGGCCTGCCAGACCCTTTCCCCAGGGGAGCCTGTTGCCACCCAGGGCTTTAGCCTGCCGCTCAGCCGCTGGCGCCGCCGCCCGGTCACTGCCCCGGCGCTGAAATTCGCTTTTTATCCGCAAGCCGCTGGCGGCCTCGTGGCCGAAAGCCCGGCGCAAGCCGCGCCGCTGCTCCACCTCCCGTCACCGGGAGAGCCGCCGAGGCTCCTGCTCCGACCGTCCTTCTCCTGCTCGCCCACTCAGGCCGAGGGGCTGGCGCGCGGGGAACAGCTGCGCCCGCTGCTCGCCGCGCTGCGCCACGCCGGGGGCCACGGCGAGTGGCATCGCTTCGACGGCAGCTGGCAGCTGCTCCTGCAGTTGCCAGCTGCCGGCCGGCGGCCGGAGGCTATTCTGCAGGCCATCGTGCGGCAGCTCGCGCTCCCGGCCGACCCGCTGACCCCGCCGCCGGAGAGTATTGCTATCCGTCATCTCATGGCCCAGCTCCCCGAACGGTTGGCCACATCAGAGCATCAGGCTGGTTGGCTGGCGGCCCTGGCCGGCGGCAGCGCGGAGGATGCGCGGTGGGTCGCGCGCCAGCTGAGCCTGCTTACCGTCCCGGTCAACCCGCCGGGCAGCCTCCCCGGCCCCTGCCGGCGCGGCGTCGAACGGCTGGCTTTCCCCGGGGGCGATACGGCGCTGCTGGTCTTTATTCCGCTGCCGGATGGCGCCTCGCTGGCGGCTCTGCGGGTGCTGGCGCAGCGCTGTGAACCGCTCTTCTTCCAGCGCATGCGGGTAGAGCAGCAGATTGGCTATGTGGTGAGCTGCCGCTATCAGCGCGTCGCCGATCGCGACGGGCTGCTGATGGCGCTCCAGTCCCCGGATCGCCGCGCCGTGGAACTGCTGCGCTGTTGCAAAACCTTTCTGCGCCAGCTGCCGCCGCTGGATGAGGCGGCCTTCAGGCCGCTACAGCAGCGCCTGGCCGCACAGGTCCGCGCCCGGACGCCGCCCGAGGCGCAGGCGCTGGCCGCCCTGCGTCAGAAGTATGCTTTACCGGAGCTGACGGCGCAGGCGGCTGACGCGCTGCGCGTCGAAGCGGTCGTCGACCTGGCCCACGAGATGTCCCGCCGACGTCGCCGCTGGCGGGTGCTATTCACTGCAGGGGATTAA	MTLATRTVTLPGGLQATLVHQPQAERAAALARVAAGSHHEPSRFPGLAHLLEHLLFYGGERYRDDDRLMGWVQRQGGSVNATTLARHSAFFFEVAADGLADGVARLQEMLQAPRLLREDIQREVAVIDAEYRLIQQHEPSRREAAVRHAASAPAAFRRFQVGSADALAGDLPALQAALRDFHHTHYVARRMQLWLQGPQSLEALGELAVRFAAGLAAGEAPPPAPPLRLDETTELQLAVDAQPALWRCPLIALSDNVTLLREFLLDEAPGSLMAGLRQRGQAQEVALNWLYQDRHLGWLALVFASDQPEQVDRQITHWLQALQRTTPDQQQHYYQLSRRRFQALSPLDQLRQRAFGFAPGAPPAGFADFCAALQAAPTVSLACQTLSPGEPVATQGFSLPLSRWRRRPVTAPALKFAFYPQAAGGLVAESPAQAAPLLHLPSPGEPPRLLLRPSFSCSPTQAEGLARGEQLRPLLAALRHAGGHGEWHRFDGSWQLLLQLPAAGRRPEAILQAIVRQLALPADPLTPPPESIAIRHLMAQLPERLATSEHQAGWLAALAGGSAEDARWVARQLSLLTVPVNPPGSLPGPCRRGVERLAFPGGDTALLVFIPLPDGASLAALRVLAQRCEPLFFQRMRVEQQIGYVVSCRYQRVADRDGLLMALQSPDRRAVELLRCCKTFLRQLPPLDEAAFRPLQQRLAAQVRARTPPEAQALAALRQKYALPELTAQAADALRVEAVVDLAHEMSRRRRRWRVLFTAGD				NA	NA	NA	NA	NA
BMS020_00441	738	ipuF		Gamma-glutamyl-L-1-hydroxyisopropylamide hydrolase	GTGACACGTAAGCGATTATTGCTGGTTCAGACCGGGACGCCCCCGGCAGCCATCCGCGAGGAGCATGGCGATCTGCCGCGCTGGTTCCGCACGCTGCTGGCGCCATGGCAGGCGCAGCTCACCGCGGTACGGGTGTTTGAGGACGAGCCGCTGCCGGCGCCGGATCGCCAGACGGTGGCGGTGCTGACCGGCTCCTGGGCGATGGTTTCCGACCGCCTGGCGTGGAGCGAACGGACCGCTGACTGGATCCGTCAGGCGGTGGCTATCGGCATGCCGCTGTTCGGCGTTTGCTATGGCCATCAGCTGATGGCTCATGCCCTGGGTGGCGAGGTGGCGTATCATCCAGCCGGACGGGAAAGCGGCAGCCAAACAGTTTCGCTATCGCCGTGGGGTGTCGACGACCCGCTGCTCCGGGACCTGCCGGCCGCCTTTCCCGCGCATCTGAGCCATATGCAAACCATTACCCGCCTGCCGGAGGGGGCCACGGTGCTGGCCGCGTCCGCACACGACCCCCACCAGATCGTGCGCTACAGGCCGCATGCGGTCTCCACGCAGTTTCACCCGGAATTCACCGCGCCGATTGCCCGCGCGCTGATCCGCTACCGGGAGGCGGTGCTGCAGGCAGAGGGCATCGACCCCCAGCGGTTATACGATGAGGTGCAGGAGAGCCCGCAGGCCGCGGCAATCCTCACGCGCTTCGTCAGCGCCTTTCTGCCCCCTGATGCACCCGGCCATTAA	MTRKRLLLVQTGTPPAAIREEHGDLPRWFRTLLAPWQAQLTAVRVFEDEPLPAPDRQTVAVLTGSWAMVSDRLAWSERTADWIRQAVAIGMPLFGVCYGHQLMAHALGGEVAYHPAGRESGSQTVSLSPWGVDDPLLRDLPAAFPAHLSHMQTITRLPEGATVLAASAHDPHQIVRYRPHAVSTQFHPEFTAPIARALIRYREAVLQAEGIDPQRLYDEVQESPQAAAILTRFVSAFLPPDAPGH	PGPT0021580_6341	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
BMS020_00442	1911	mrdA_1	COG0768	Peptidoglycan D,D-transpeptidase MrdA	ATGCCCCTTTTGAGAGATGAAATTCGCGACCACTCCGCGGAAGAGATGCTGTTTATCCGCCGGGCCGCAATCGCCTTTCTGCTGGTGGTGGTCTGCTTTGGCGTGCTGATTTTCAACCTCTACCATCTGCAGGTGGAGCAGCACGATTTCTACCAGACCCGCTCCAACCAAAACGATATCAAAATGCTGCCCATCGCCCCCAGCCGCGGGTTGATATTCGATCGCAACGGCATTCCGCTGGTGCAGAATATTACCCTGTATCGCCTGCAGGTGATCCCGAGCAAAATTCCCGATATGGCCGCGCTGCTGCAAAGCCTGACGCCGATTGTCGACCTGACTGCGGACGACATCGCCAGTTTCCGCGACGATATGCACCACAGCAGCCGCTATAAAGCGGTTACCCTCAAGTCCGACCTCAGCGACGTAGAGGTGGCCCGCTTCGCGGTCAACGAATTCCGTTTCCCCGGGGTGACGGTGGAGAGCTACCAGCAGCGTGAATACCCCTACGGCGCAGAGCTGGCGCACGTGGTGGGCTATGTGTCGAAAATCAACGACAGCGACCTGCAGCGGCTGGCGAAAGACGGTGAAGAGGAGAACTATGCTGCCGACCACAATATCGGCAAGCAGGGGATCGAAGGCTATTACGAAAAAGCGCTCCACGGCACCACCGGCTACCAGGAGGTGGAGGTGGATAACCACGGCCGGGTGGTACGTCTGCTGAAAGAGGTACCGCCGGTGGCCGGGGAAAACCTCTACCTGACCCTTGACCTGCACCTGCAGCAGTATATTGAGTCGGTGCTGAAGGGGCAGCGCGCGGCGGTGGTGGTGGTCGATCCTCGTGATGGCGGGGTACTGGCGATGGTCTCCAGCCCCAGCTACGATCCTAATCCGTTCGTCAAAGGCATCGGCTATCAGGCCTATAAATCGCTGCTGGATAACCCCGACCGACCGTTAATCAACCGTGTCACCCAGGGGCTGTATCCCCCGGCCTCGACGGTGAAGCCCTATATGGCGCTCTCGGCGCTCTCCGCGGGCGTGATCACGCCGAATACCACCTTCTTCGGGGCGCCGACGTGGACGCTGCCGGGCACGCAACGCCGCTATCGCGACTGGCTGAAAACCGGCCACGGCATGCTCAACGTCACCAAAGCCATTGAAGAGTCCGCAGACACCTTTTTCTACCAGGTTGCCTTCGAGATGGGTATCGACCGGATCCATGAGTGGCTGAGCAAGTTCGGCTACGGCCAGTCTACCGGCATCGATCTCAATGAGGAGTATGCCGGGGTGCTGCCGAGCCGGGCGTGGAAGCAGCGGGTGCATAAAAAGCCCTGGTATCAGGGGGATACCATCTCCGTCGGCATCGGCCAGGGATACTGGATCGCCACTCCCATCCAGATGGTGAAAGCGCTCACCACGCTGCTGAACAACGGCAAGGTGCAGGATCCGCATCTGCTCTATTCGATGAAGCAGGGCAATCATGTGGAACGTTATCAGCAGCCGGCGAACCTGCCGCAGGTCGGCGATCCGAAATCCCCGTACTGGGACATTGTGCGCAACGGCATGTATGGGATGGCGAATCTGCCCAACGGCACCGGCTATAAACTGTTCCATACCGCGCCGTATCAGATTGCGGCAAAGTCCGGGACCTCGCAGGTGTTCAGTCTGAAGCAAAACCAGACCTATAACGCCAAAATGATCCCGGTGCGTCTGCGCGACCACATTTTCTATACCCTGTTTGCCCCTTATCAGCATCCGAAGGTGGCGATGGCGCTGATCCTGGAGAACGGCGGCGGGGACGGGGTGGTGGCCGGACCGACGGCGCGCGCCATCCTGGACCATATTTTTGTCCCGCAGCAGGCGCCGGCGGCGGCCGCCGACGTGCCGCAGCGGGAGAGCGCGGACGCCCAGTAA	MPLLRDEIRDHSAEEMLFIRRAAIAFLLVVVCFGVLIFNLYHLQVEQHDFYQTRSNQNDIKMLPIAPSRGLIFDRNGIPLVQNITLYRLQVIPSKIPDMAALLQSLTPIVDLTADDIASFRDDMHHSSRYKAVTLKSDLSDVEVARFAVNEFRFPGVTVESYQQREYPYGAELAHVVGYVSKINDSDLQRLAKDGEEENYAADHNIGKQGIEGYYEKALHGTTGYQEVEVDNHGRVVRLLKEVPPVAGENLYLTLDLHLQQYIESVLKGQRAAVVVVDPRDGGVLAMVSSPSYDPNPFVKGIGYQAYKSLLDNPDRPLINRVTQGLYPPASTVKPYMALSALSAGVITPNTTFFGAPTWTLPGTQRRYRDWLKTGHGMLNVTKAIEESADTFFYQVAFEMGIDRIHEWLSKFGYGQSTGIDLNEEYAGVLPSRAWKQRVHKKPWYQGDTISVGIGQGYWIATPIQMVKALTTLLNNGKVQDPHLLYSMKQGNHVERYQQPANLPQVGDPKSPYWDIVRNGMYGMANLPNGTGYKLFHTAPYQIAAKSGTSQVFSLKQNQTYNAKMIPVRLRDHIFYTLFAPYQHPKVAMALILENGGGDGVVAGPTARAILDHIFVPQQAPAAAADVPQRESADAQ	PGPT0023885_1801	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023885-mrdA-K05515	NA	NA
BMS020_00443	633	leuE_1	COG1280	Leucine efflux protein	ATGCCTGAATTAGCTTCTTTAATGGCCTTTGCCGCGGTGGCGCTGGGGTTAGTGTTAACCCCTGGCCCCAATATGATGTATCTCACTTCGCGTTCGATTTGCCAGGGAAAACGCGCTGGCTTTATCTCCCTTGCCGGGGTGGCCGTGGGTTTTTTCTTCTATATGTTGTGTGCCGCTTTCGGCATTACCGCGTTGGTTTTCGCGGTCCCTTATGCCTACGATGCATTGCGTTTGTGCGGGGTCGCTTATTTGCTCTATCTGGCGTGGCAGGCGATTAAACCGGGAGGGCGGCCGATATTCGCGGTGCGCGACTTACCCGCGGACAGTGGGCGTAAGCTGTTTCTGATGGGATTTATCACCAGCCTGGCGAACCCCAAAGTTGCCATCCTGTATTTGTCCCTGCTGCCGCAATTTATCACCCCCGGACTCGGCAGCGTGCTCAGCCAGTCGTTGATATTAGGCTGTACCCAGGTATTAATCAGCGTGGCGGTGAACGGCCTGATTATCTTGCTGGCCGGGCAGGTGGCGCTTTTTCTTGGTCGGCGGCCGGGCTGGCAACAATTTCAACGCTGGCTGATGGCGACGGTACTGGCCGGGATGGCGGTTAAGATCGCTTTTGAGGCCAGAAAATAA	MPELASLMAFAAVALGLVLTPGPNMMYLTSRSICQGKRAGFISLAGVAVGFFFYMLCAAFGITALVFAVPYAYDALRLCGVAYLLYLAWQAIKPGGRPIFAVRDLPADSGRKLFLMGFITSLANPKVAILYLSLLPQFITPGLGSVLSQSLILGCTQVLISVAVNGLIILLAGQVALFLGRRPGWQQFQRWLMATVLAGMAVKIAFEARK				NA	NA	NA	NA	NA
BMS020_00445	2178	katG_1	COG0376	Catalase-peroxidase	ATGAGCACGTCTAACGACCCATCCAACAACGCATCCGCCGGAAAGTGCCCTTTCCACGCCGAGACGCCCAAGCAGAGCGCCGGCAGCGGCACCGGCAACCGCGACTGGTGGCCTAACCAGCTGCGTGTCGATCTGCTAAACCAGCACTCCAGTCGTTCCAACCCGTTGGGTGAGGATTTTAACTACAGGGAAGAGTTTAAAAAGCTCGATTACTCCGCGCTGAAGGCTGACCTCAGAGCGCTGCTGACCGATTCGCAAGAGTGGTGGCCGGCAGACTGGGGCAGCTATATCGGTCTGTTTATTCGTATGGCCTGGCACGGCGCTGGCACCTACCGCACCGTTGACGGTCGCGGCGGCGCGGGTCGTGGACAGCAGCGCTTTGCGCCGCTGAACTCCTGGCCTGATAACGTCAGCCTCGATAAGGCCCGCCGTCTGCTGTGGCCGGTGAAACAGAAATATGGCCAGAAAATCTCCTGGGCCGATCTTTACATGCTGGCGGGTAACGTGGCGCTGGAAAACGCCGGCTTCCGCACCTTTGGCTTCGGCGCCGGCCGTGAAGATGTCTGGGAACCGGATCTGGACGTCGATTGGGGCGATGAGAAAGAGTGGCTGGCCCACCGTCACCCGGAAAGCCTGGCGAAACAGGCCATCGGCGCCACCGAAATGGGGCTAATCTACGTTAACCCGGAAGGTCCTAACGCCAGCGGCGAGCCGCTGTCCGCCGCGGCGGCCATTCGCGCCACCTTCGGCAATATGGCGATGGACGATGAAGAGATTGTCGCGCTGATCGCCGGCGGCCACACCCTGGGTAAAACCCACGGCGCAGCCGAGACCAGCCACGTCGGCGCCGAGCCGGAAGCCGCCCCGCTGGAAGCTCAGGGTCTGGGCTGGCACTCCAGCTACGGCAGCGGCGCAGGCGCGGATGCCATCACCTCCGGTCTGGAAGTGGTCTGGACGCAGACGCCCACCCAGTGGAGCAACTACTTTTTCGAGAACCTGTTTAAATACGAATGGGTGCAGACCCGCAGCCCGGCGGGCGCTATCCAGTTCGAAGCCAAAGACGCGCCGGAAATTATCCCGGATCCGTTTAACCCGGGTAAAAAGCGCAAACCGACCATGCTGGTCACCGACCTGACCCTGCGCTTCGACCCGGAGTTTGAGAAGATCTCCCGTCGCTTCCTCAACGATCCGCAGGCCTTTAACGAGGCGTTCGCCCGGGCGTGGTTCAAGCTGACCCACCGCGATATGGGGCCGAAATCCCGTTACCTCGGGCCGGAAGTGCCGAAAGAAGATCTCATTTGGCAGGATCCGCTGCCGGCGGCGACCCATCAGCCGAGCGCGGACGACATCGCCAGCCTGAAAACCGCCATCGCCGGCGCCGGCCTGTCGGTGAGTGAGCTGGTGTCGGTCGCCTGGGCCTCCGCCTCCACCTTCCGCGGCGGTGATAAGCGCGGCGGCGCCAACGGCGCGCGTCTGGCGCTGGCCCCGCAGAAAGACTGGCCGGTCAATGCTATCGCCAGTCGGGTGCTGCCGACCCTGCAGGCGATCCAGCGCGCCTCCGGCAAAGCGTCACTGGCCGATATCATCGTGCTGGCTGGCGTGGTCGGCGTGGAGCAGGCGGCGGCGGCGGCCGGCGTCAGCGTCAACGTGCCGTTTACTCCAGGCCGCGTCGACGCCCTGCCTGAGCAGACCGACGTCGAGTCGTTTGACCTGCTGCAGCCGCTGGCGGATGGCTTCCGCAACTACCGTCGCATCGAGGGCGGTGTGTCGACGGAAACGCTGCTGATCGATAAAGCGCAGCAGCTGACCTTAACCGCTCCGGAGATGACGGTTCTGGTGGGTGGACTGCGCGTGCTGGGCGCCAACTACGACGGCAGCAAACACGGGGTGTTTACCGACCGCGTCGGCGTGCTCAGCAATGACTTCTTCGTCAACCTGCTGGATATGGCCACCGTCTGGAAAGCGGCCGATGATCGGGCGGAGCTGTTTACCGGCAGCGACCGTAAAACCGGCGAAGCGAAGTACAGCGCCACCCGCGTGGATCTGGTGTTTGGCTCCAACTCGGTCCTGCGCGCGCTGGCGGAAGTCTACGCCTGCGCCGACGGGCAGCAGAAGCTGGTGCATGACTTTGTCGCCGCCTGGACCAAGGTTATGAACCTCGACCGTTTCGACCTGTGA	MSTSNDPSNNASAGKCPFHAETPKQSAGSGTGNRDWWPNQLRVDLLNQHSSRSNPLGEDFNYREEFKKLDYSALKADLRALLTDSQEWWPADWGSYIGLFIRMAWHGAGTYRTVDGRGGAGRGQQRFAPLNSWPDNVSLDKARRLLWPVKQKYGQKISWADLYMLAGNVALENAGFRTFGFGAGREDVWEPDLDVDWGDEKEWLAHRHPESLAKQAIGATEMGLIYVNPEGPNASGEPLSAAAAIRATFGNMAMDDEEIVALIAGGHTLGKTHGAAETSHVGAEPEAAPLEAQGLGWHSSYGSGAGADAITSGLEVVWTQTPTQWSNYFFENLFKYEWVQTRSPAGAIQFEAKDAPEIIPDPFNPGKKRKPTMLVTDLTLRFDPEFEKISRRFLNDPQAFNEAFARAWFKLTHRDMGPKSRYLGPEVPKEDLIWQDPLPAATHQPSADDIASLKTAIAGAGLSVSELVSVAWASASTFRGGDKRGGANGARLALAPQKDWPVNAIASRVLPTLQAIQRASGKASLADIIVLAGVVGVEQAAAAAGVSVNVPFTPGRVDALPEQTDVESFDLLQPLADGFRNYRRIEGGVSTETLLIDKAQQLTLTAPEMTVLVGGLRVLGANYDGSKHGVFTDRVGVLSNDFFVNLLDMATVWKAADDRAELFTGSDRKTGEAKYSATRVDLVFGSNSVLRALAEVYACADGQQKLVHDFVAAWTKVMNLDRFDL	PGPT0013165_1933	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PHENYLALANINE_DEGRADATION,PGPT0013165-katG-K03782	NA	NA
BMS020_00446	1062	zapE_1	COG1485	Cell division protein ZapE	ATGTTAAATAATGGATGTGTGCCGTCGGGATCTGGCCAGACTATGACGACGGCTGATTTTCGCTTTACCCGCGTGATGGCCGAGCAGGCGGCGCGTGCCCGTCTGACGCTGGACGACGATCAGCTGTCGCTCATCGCCGGCCTCGACGCCCTGGGCCAACAGCTGTTGTCCGCGCCCGGCACGCCGCAGGGACTGTACGTTTGGGGACGCACCGGGCGAGGGAAAAGCTTTATTCTCGACCACTTTTTTGCCAGCCTGCCGCTCGCCGCCAGACGTCGGGTCCATTTTCATCACTTCTTCCGCGAACTGCATCAGCGGCTGAATGCCCCCGGCGCGCCCGGCCTGCAGGCGGTGATGATGCAGATGACCTCCGGCTGCCGCCTGCTGTGCTTTGACGAATTTCATCTTCACGACCCCGGCGACGCCATGCTGATAAAGGCGCTGCTGGAACACCTTTTTCAACGGGGCATCGTGCTGCTGGCAACCTCTAACTACCCGCCGGAGATGCTGCTGCCTAATCCGCTGTATCACGATCGCTTTTTACCGTCGATCGCGCTGATCCGCGCCCACCTGGCGGTCGTCGCGCTTAACGGCGAGGAAGATTATCGCGAACGGCACCTGAGCCAGGATAACGCCTTCTGCAGCGGGCGGCTATGGGTTAACCCGAGCGAACAACAGCGTCAGCTGTACGATCTGCCCTCGCTGCCTGCCGAACCGGTTCCGCTGGCGGTAGGCTATCGCACGCTGCAGGCGGCCGCGGCGTCACCCGACTTGCTCCATTTCTCTTTTGCCCAACTCTGCCAGGCCGCCACGGCAGTGATGGACTATCTGGCGCTCAGTGAACGTTATGCCGTCTGGTTGCTGGACGAGGTGCCGCCGCTGGCCACGGTAGGGCCGGCGGCCCAGCAGCGCTTTATCAACGTGATTGATGTGCTGTATGAAAAGCAGATCCGCCTGCTGCTGGTGACCCGCTGCGACCTGGAGACGCTGGTGGCCGGGGTGGAACTGGAGGATATTCAGCGAACGCGGAGCCGCCTGCAACAGCTGCCGCGGGCGGTATAA	MLNNGCVPSGSGQTMTTADFRFTRVMAEQAARARLTLDDDQLSLIAGLDALGQQLLSAPGTPQGLYVWGRTGRGKSFILDHFFASLPLAARRRVHFHHFFRELHQRLNAPGAPGLQAVMMQMTSGCRLLCFDEFHLHDPGDAMLIKALLEHLFQRGIVLLATSNYPPEMLLPNPLYHDRFLPSIALIRAHLAVVALNGEEDYRERHLSQDNAFCSGRLWVNPSEQQRQLYDLPSLPAEPVPLAVGYRTLQAAAASPDLLHFSFAQLCQAATAVMDYLALSERYAVWLLDEVPPLATVGPAAQQRFINVIDVLYEKQIRLLLVTRCDLETLVAGVELEDIQRTRSRLQQLPRAV				NA	NA	NA	NA	NA
BMS020_00447	681	mgtC	COG1285	Protein MgtC	ATGGTATTTCCTTATATGACACATTTACTTGCGGCGATGCTGCTGGGAGCGCTGATCGGCGCGGAAAGACAGTGGCGGCAACGTATGGCCGGCTTGCGGACCAATGCGCTGGTGGCCACCGGCGCGGCGGTGTTTATTCTTAGCGCGATGTCGGCGTCGCCGGACAGCCCAGGGCGCATTGCGGCGCAGATCGTCTCCGGTATCGGCTTCCTTGGGGCGGGAGTGATCATGCGCGATGGCATGAACGTTCGCGGCCTCAATACCGCCGCCACCCTGTGGTGCTCGGCCGGTATCGGTGTCCTCTGCGGCCTGGGACAGTTCTGGAACGCGACGGCGGCGACGCTGATTATTCTGTGCGCTAATATCCTGCTCCGCGAAGCGGCGCAGCGCATTCATGCCTTGCCGGGCGCCGGAGACGAAGAGAAACGCTATATCTTGCGCGTCACCTGTTTACGCGAGCATGAAAAGGCCGTGCGTCAGCTGCTGCTGAATATTGCTCAGCAGCAGAGGTTCACCCTGCAGGGGCTGCAGTCGGCGGCGGCAGATACGGCGGATCAGCGGGAGATTTGCGCGGAGCTGATTAGCCATAAGCAGCATCACAAAACGCTGGCGCAGATTATGGCGCAGGTGGCCGGCCAGCAGAACGTCACCTCGGTACACTGGCGCGTCGGAGAAGCATAG	MVFPYMTHLLAAMLLGALIGAERQWRQRMAGLRTNALVATGAAVFILSAMSASPDSPGRIAAQIVSGIGFLGAGVIMRDGMNVRGLNTAATLWCSAGIGVLCGLGQFWNATAATLIILCANILLREAAQRIHALPGAGDEEKRYILRVTCLREHEKAVRQLLLNIAQQQRFTLQGLQSAAADTADQREICAELISHKQHHKTLAQIMAQVAGQQNVTSVHWRVGEA	PGPT0014005_1749	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014005-mgtC-K07507	NA	NA
BMS020_00449	1407	ydjE		Inner membrane metabolite transport protein YdjE	ATGTCTACCACCCAGGTTCTCGGCGAAACGCCCTATGCTTCGCCAGGACAACCGCACGCCAGCTTAACCGGACGCATTGACGCGCTGCCCGCCTCCTTCGGGTTATGGTCGTTTATCACCCTGCTCTCCCTCGGCGGCTTCTTCGAGCTCTACGACTTGTTCCAGACCGGGTACATCAGCGCGGGCCTGCTGGCGGAGGGTATTTTCCACACCGGCGCGGCGGGGATCTTTGGCATCGCCGATCAGGCGGCCTTTGCCTCCGCCACCTTTATGGGGCTGTTTATCGGCGCGAGCCTGCTGGCGCCGCTGGCGGACAAGCTGGGACGCCGCCTGACCTTTATGGTGGCGCTCGCCTGGTACGGCTTTTTCTCGCTGCTGATGGCGACCCAGAGCAGCGCGGAAGGGGTGATCTTCTTCCGCTTTATGGTGGGAATCGGCCTCGGCATTGAGCTGGTGACCATTGATACTTACCTCAGCGAATGGGTCCCTACCCACCTGCGCAATAAAGCCTTCGCCTTTGCCTTCTTTATCCAGTTTCTGTCGGTTCCGGCGGTGGCGCTGATGTCCTGGATATTGGTGCCAACCACCCTCTTCGGCCTCAGCGGCTGGCGCTGGGTGATCATCTTCGGCGCGCTGTTCTCGCTGGCAATCTGGTTTATCCGCAAAAAACTGCCGGAGTCAGCCCGCTGGCTGGAAACCAAAGGGCGGCATGATGAGGCGCATGCGGTGATGTGCGCGATGGAAGCCCGCTGCGGCCTGACGCCGTCGCCGAAGCATGCGCAGGCGGCGGAGAGCGTCGTCAAACGCGGCACCTTCCGCGAAATCTGGGCGCCGCAGTATCGGCAGCGCACCCTGATGCTGATGGTGATGAATTTCTTCCAGGCGATCGGTTTCTTCGGCTTTGGCAACTGGCTGCCGGCATTGCTCTCCGGTCAGGGCGCCAGCATTACCCACAGTCTGCTGTACGCCTTCTTTATCACCCTCGCCTATCCGCTGGGCTGCCTGTTCTGCACCCGCTTCGTGCATCGCTTTGAGAACAAGTGGCAGATCGTCCTCTCCGCGCTGATGACCGTCATCTTCGGCACCCTGTTTGCCCTGCAGAACAGTCCGGTTCTGCTGGTGATCTGCGGGTTTATGATCACCTGGTCCAACGCCTGGCTGACCATCAGCTACCACGCCTACCAGGCCGAGGTCTTCCCGACCCATATTCGCGCCCGCGCCGTCGGCTTCTGCTACTCGTTCAGCCGGCTCTCGACCGCGGTGACCAGCATCCTGATCGGCATTATTCTGCAATATGCCGGCACGCCGGGGGTGATTAGCTTTATCGTCGTCAGTATGCTGATGGTGATGCTGTCGGTGGGGATCTTCGGCCCGAGAACCCGGGGCATTCGACTGGAGAATATCTGA	MSTTQVLGETPYASPGQPHASLTGRIDALPASFGLWSFITLLSLGGFFELYDLFQTGYISAGLLAEGIFHTGAAGIFGIADQAAFASATFMGLFIGASLLAPLADKLGRRLTFMVALAWYGFFSLLMATQSSAEGVIFFRFMVGIGLGIELVTIDTYLSEWVPTHLRNKAFAFAFFIQFLSVPAVALMSWILVPTTLFGLSGWRWVIIFGALFSLAIWFIRKKLPESARWLETKGRHDEAHAVMCAMEARCGLTPSPKHAQAAESVVKRGTFREIWAPQYRQRTLMLMVMNFFQAIGFFGFGNWLPALLSGQGASITHSLLYAFFITLAYPLGCLFCTRFVHRFENKWQIVLSALMTVIFGTLFALQNSPVLLVICGFMITWSNAWLTISYHAYQAEVFPTHIRARAVGFCYSFSRLSTAVTSILIGIILQYAGTPGVISFIVVSMLMVMLSVGIFGPRTRGIRLENI	PGPT0014435_630	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0014435-ydjE-K08369	NA	NA
BMS020_00450	882	oxyR_1		Hydrogen peroxide-inducible genes activator	ATGGACATTAAGCAACTCAAATATTTGATCGCGCTCGATCAGACGCGCCATTTTGGTCAGGCGGCGGCAGCCTGCCATATTACCCAGCCGACCCTCTCCATGCGCATTCGTAATCTGGAAGAGGAGCTGAACCTGACCCTTATCCAGCGCGGCCAGCGCTTCGAGGGTTTTACCCCGGAGGGGGAGCGGATCCTGGCCTGGGCGCGGGCGGTGCTTGCCGCCCATGACGGTCTGGCGGCGGAGGCGGCCATTTGTCGCGGACAGATGGTCGGTCAACTGCGGGTTGGCATGGTGCCGCTGGCGAGCCTCAATCCGATGCAGCTGATTAAACCTCTCGCAGAGAAATACCCGGCGCTGCAGTTCAGCCTGCTGTCAATGACCTCGGAGCAGATTATCGATGGCGTCAGCCGCAACCAGCTGGACCTGGGGATCTGTTACCTGCAGCATCTGGATGAACGTCTGTTTAAGATCGCCCGGCTGCCGCAAACCCGGATGGGACTGTTGCACGATAAACGCCATTTCGACTTCAGCGACGGGACGCCGGGGTGGGATACGCTGGCGACGCTGCCCCTTGGCTTTCTGACCAAGGGAATGTACTACCGGGAATCCATTGAAATCAGCTTTAAGGCCAAAGGGCTAACGCCGAAGTCTGTCTTTGAAAGCGATTCGACGTTTCAGATTATCCAGGCGGTGCAGGCGGGGATCTGCTGCGCCATCATGCCGCTCAACAACGGCCTGGAAGCCCTCAGCGACAATCTTGACATCCTGCCCATCGCCGAAAGCCAGGTCGATTCGCAGCTGGCGCTGATTATGCGCCAGCAGGAGCCGGTCTCGACGCTGGCGGAAAAATGCTTCGCCGAGGCGCAGGGGATTTTTGGCTGA	MDIKQLKYLIALDQTRHFGQAAAACHITQPTLSMRIRNLEEELNLTLIQRGQRFEGFTPEGERILAWARAVLAAHDGLAAEAAICRGQMVGQLRVGMVPLASLNPMQLIKPLAEKYPALQFSLLSMTSEQIIDGVSRNQLDLGICYLQHLDERLFKIARLPQTRMGLLHDKRHFDFSDGTPGWDTLATLPLGFLTKGMYYRESIEISFKAKGLTPKSVFESDSTFQIIQAVQAGICCAIMPLNNGLEALSDNLDILPIAESQVDSQLALIMRQQEPVSTLAEKCFAEAQGIFG				NA	NA	NA	NA	NA
BMS020_00451	2301	ydeP	COG0243	Protein YdeP	ATGACCAATAAAAGACGCGCGGTTCCCGGTGTTCACCCTTATGACGGTCCGGCAGGCGGGTGGGGCGCGTTGAAGGCGACGGCCATCGCCGTGCGTACCCAGATGGATGCCTTTGAAGCGCCCGCCACGCTGCTGCGAACCAACCAGCCTGACGGCTTCGATTGCCCGGGCTGCGCCTGGCCGGATAAAGAGCATAAATCCACTTTTCAGTTTTGCGAAAACGGCGCCAAAGCTGTGACCTGGGAGGCGACCACCAAACGGGTGACGCCAGCGTTCCTCGCGGCTAACACCGTGACCTCCCTGCTGGCGAAAAGCGATTTTGAACTGGAGGGCTATGGCCGCTTAACCCATCCTTTGGTTTACGACCGCGCCAGCGACACGCTGCGCCCGGTGGCGTGGGAAGAGGCTTTCGCCCGTATCGGCGAGATCCTTCGCGGCCTGCAGCCGGATGAAGTTGAATTCTACACCTCCGGACGGGCCTCCAATGAAGCGGCATGGCTGTTTCAGCTTTTTGCCCGCGAGTATGGCACCAATAACTTTCCCGACTGCTCTAACATGTGCCATGAATCCACCAGCGTGGGCCTGCCGCAGTCGATCGGCATTGGCAAAGGCACCGTTTCCCTCGACGACTTTGACCAGACCGAGCTGGTGATCTCTATCGGCCATAATCCGGGCACCAACCACCCGCGGATGATGGGCACCCTGCATGAGCTTTCCCGCCGCGGCGTGCCGATTATCGTTTTTAATCCGCTGCGTGAGCGGGCGCTGGAGCGTTTTGCCGACCCGCAGAACGTGATGGAGATGGCGACATATCGCTCGACGCCGATCGCCTCGACCTACTACCAGGTGCGGGCCGGCGGCGACGCGGCGGCGCTGAAAGGGATCGCCAAAGCGCTGCTGCAGCTGGAGGAGGAGCAGGGCCAGGTGCTCGACCACGCGTTTATTGCGCAACATACCCAGGGGTTCGCCGCCTTCGCCGAGGATCTGCACGCCACCCGCTGGCAGGACATTGAGCAGGAGTCCGGCCTGACGCGCGAGTCGCTGACCCAGGTCGCCGTGGCCTACGCCAAATCCAGGGCCACCATCGTCACCTACGGCATGGGGATCACTCAGCATAATAAAGGCACTTCCAACGTCCGGCTGATTGCCGACCTGCTGCTGATGCGCGGCAATATCGGCAAGCCGGGGGCCGGCATCTGTCCGCTGCGCGGCCACTCTAACGTGCAGGGAAACCGCACCGTTGGGATCAGCGAAAAACCTTCCGCGGCCTTCCTCGACAGCCTGCAGCGGGTGATGGGGATCACGCCGCCGCGGCATCATGGTCACGATGCGGTGAAGGCGCTGGAGGCCATGATCGCCGGCGACGCCAAAGCCCTGATCTGCCTCGGGGGCAACTTCGCCGTGGCGATGCCGGATCACGAACGCGCCTTCCCGGCGATGCGCGGCCTTGAGCTCAGCGTGCACGTCGGCACCAAGCTCAACCGCTCGCACCTGCTGACGGCGAAAGAGACCTTTATACTGCCGTGCCTTGGCCGCACCGAGCTTGACCTGCAGGCCAGCGGCCGACAGTCGATCACCGTCGAGGATTCGATGTCGATGGTGCATGCCTCGTCAGGCAAGCTAAAGCCCGCCTCGCCGACGCTGCGTTCGGAGCCGGCGATTGTCGCCGGTCTGGCGAAGGCCACTCTGCCGGCCAGCAAAGTGGACTGGCTGTATCTGGTGGAAGATTACGACCGTATTCGGGAGCTGATCGAACAGACCATTCCGGGGTTCGAAAATTATAACCAGCGCATTCGCCACCCCGGGGGCTTTCGCATGCCGCTGCCGCCGACCGAGCGCATCTGGCCTACCGCCACCGGCAAAGCCATGTTCTCGGTTTTCAAAGGCGTGCATGAGAACGTGGTGGTGGAGGGCGAGGAGGTGATGCGCTTAGTGACCCTGCGCAGCCACGACCAGTACAACACCACAATCTACGCTATGGATGACCGCTACCGCGGCGTCTTCGGCCGTCGCGACGTGCTGTTTATGAACGAGCAGGATATGGCCGACCAGGGTCTGGAGCATGGCGATCGGGTCGATATCCACACTGCGCTGCCGGGCAGCTCGCTGACGCTCAGAGATATCACGGTGGTGGCCTACGGCATCGCGCCCGGCACCGTCGGCGCCTATTATCCGGAAGCCAACGTGCTGGTGCCGCTGAACTATCTGGATGAAGAGAGCGGAACGCCCTCCTATAAGTCGGTCCCTGTCCGCCTGACGCTGCGCTCGAAAGAGATCCGCCCGCTGTCCGGTGTGCGTTAA	MTNKRRAVPGVHPYDGPAGGWGALKATAIAVRTQMDAFEAPATLLRTNQPDGFDCPGCAWPDKEHKSTFQFCENGAKAVTWEATTKRVTPAFLAANTVTSLLAKSDFELEGYGRLTHPLVYDRASDTLRPVAWEEAFARIGEILRGLQPDEVEFYTSGRASNEAAWLFQLFAREYGTNNFPDCSNMCHESTSVGLPQSIGIGKGTVSLDDFDQTELVISIGHNPGTNHPRMMGTLHELSRRGVPIIVFNPLRERALERFADPQNVMEMATYRSTPIASTYYQVRAGGDAAALKGIAKALLQLEEEQGQVLDHAFIAQHTQGFAAFAEDLHATRWQDIEQESGLTRESLTQVAVAYAKSRATIVTYGMGITQHNKGTSNVRLIADLLLMRGNIGKPGAGICPLRGHSNVQGNRTVGISEKPSAAFLDSLQRVMGITPPRHHGHDAVKALEAMIAGDAKALICLGGNFAVAMPDHERAFPAMRGLELSVHVGTKLNRSHLLTAKETFILPCLGRTELDLQASGRQSITVEDSMSMVHASSGKLKPASPTLRSEPAIVAGLAKATLPASKVDWLYLVEDYDRIRELIEQTIPGFENYNQRIRHPGGFRMPLPPTERIWPTATGKAMFSVFKGVHENVVVEGEEVMRLVTLRSHDQYNTTIYAMDDRYRGVFGRRDVLFMNEQDMADQGLEHGDRVDIHTALPGSSLTLRDITVVAYGIAPGTVGAYYPEANVLVPLNYLDEESGTPSYKSVPVRLTLRSKEIRPLSGVR	PGPT0019635_3094	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019635-fdoG|fdhF|fdwA-K00123	NA	NA
BMS020_00452	918			hypothetical protein	ATGATCATTCGGCCAGAACAACACTGGTTTCTTCGCCTATTTGACTGGCACGGCTCCGTGCTGTCAAAAATCATCTTTCGTCTGCTGCTTAATGTGCTGATGTCCATCATCGCCATTATCAGCTATCAATGGTACGCGCAGTGGGGGATCCACTTAACGGTGGCGCCGTTCAGCCTGCTGGGGATCGCGATAGCGATTTTCCTCGGCTTTCGCAACAGCGCCAGCTACAGCCGCTTCGTCGAGGCGCGCAATCTGTGGGGGACGGTGCTTATCGCCGAACGTACGCTGGTTCGCCAGTTGCGCAATATCCTGCCGGCCGAACACGATGCCCATCGCCGCATCGTCAGCTATCTGGTGGCTTTTAGCTGGAGCCTGAAGCATCAGCTGCGCAAAACCGATCCGACGGCTGACCTGCGGCGGTTGCTGCCGGCGGACCAGGTGGCGGAGATCCTCGCCAGCTCAATGCCTACCAACCGGATCCTGCTGCTGGTCGGCAACGAAATCGGCCAGCTGCGCGAGGCGGGCAAGCTTAGCGACATCACCTATGGGCTGATGGACAACAAACTCGATGAGCTGGCGCACGTGCTGGGCGGCTGCGAAAGGCTGGCCAGCACCCCGGTGCCGTTCGCCTATACCCTGATCCTACAGCGCACCGTGTATCTGTTCTGCACGCTGCTGCCGTTCGCCCTGGTCGGGGATCTGCACTACATGACGCCGTTTGTCTCGGTCTTTATCTCCTACACCTTTTTGTCGTGGGATTCACTGGCGGAAGAGCTGGAGGATCCCTTCGGCACCGCCGCCAACGACCTGCCGCTGAACGCGATGTGCAATACCATTGAGCGCAATCTGCTCGACATGACCGGTCAACATCCGCTGCCGGAGACGCTGCGTCCGGACCGGTACTTCAACCTGACCTGA	MIIRPEQHWFLRLFDWHGSVLSKIIFRLLLNVLMSIIAIISYQWYAQWGIHLTVAPFSLLGIAIAIFLGFRNSASYSRFVEARNLWGTVLIAERTLVRQLRNILPAEHDAHRRIVSYLVAFSWSLKHQLRKTDPTADLRRLLPADQVAEILASSMPTNRILLLVGNEIGQLREAGKLSDITYGLMDNKLDELAHVLGGCERLASTPVPFAYTLILQRTVYLFCTLLPFALVGDLHYMTPFVSVFISYTFLSWDSLAEELEDPFGTAANDLPLNAMCNTIERNLLDMTGQHPLPETLRPDRYFNLT				NA	NA	NA	NA	NA
BMS020_00453	942	mneS	COG0053	Manganese efflux system protein MneS	ATGACACAACATAATTTTGAAAATGATAATAAATATCATCAGCGTTCGGAGCAGGCGCGAAAGAGTACCCTGGTTAGCGTGGTGGTCAATATTTTTCTCTCCGCGTTGCAGATTGCGGTGGGAATATTCTCGGGTTCCCAGGGGTTAATTGCCGATGGAATGCACTCTTTTTCCGATCTGCTCGCCGATGGCGTTGTGCTGGTGGCGAATAAAAAGAGTCGCCGGCCCTCTGACCACGATCACCATTATGGCCACTGGCGCTATGAGAACGGCGCCTCTCTGATCCTCGGCGCGATCCTGGCGCTGGTCGGGGTCGGTATGCTGTGGTCTGCAGCGGGTCATCTCGCGCAACCGCAGACGATTGCGCCGGTGCACAGCGTGGCGCTGTGGATGGCGCTGACGGCGCTGGTGGTCAAAGAGGGACTGTTTCGCTATATGCTGGCGGCCGCCAGGCGGCTGAACTCCTCGTTGCTCATCGCCAACGCCTGGCATGCCCGCTCGGACGCCGCGTCATCCCTGGTAGTGGCGCTGGGGATTATCGGTAATCTGGCCGGGTTTGCCTGGTTCGATCCGCTCGCCGCGCTGGCGGTGGGGCTGGTGATTACGCGGATGGGCTATCGTTTCGCCGCCACCGCGCTGCACGATTTAATGGACCGCGCCGTCGATGAAGAGACGCAGCGGGCGATCGCCGGCACGCTGCGGGCCACGCCGGGCGTAGCGGGTCTGCACGATTTGAAAACCCGTAAGGCGGGGGATCTGGTGCTGGTGGATGTCCATCTCGAGGTGGCGGGAGAGCTGTCGGTAGCCGAAGGGCATCAGATTGCCCGGCAGGCGCGGGCGCGGGTCATAGCGCACCATCCGGTGCTCAATGTGATGGTGCATCTCGATCCCAGCGCGGCGGTTGCCGGTTCGCCGGGGGAGGCAAACTGTCTGACGTCATAA	MTQHNFENDNKYHQRSEQARKSTLVSVVVNIFLSALQIAVGIFSGSQGLIADGMHSFSDLLADGVVLVANKKSRRPSDHDHHYGHWRYENGASLILGAILALVGVGMLWSAAGHLAQPQTIAPVHSVALWMALTALVVKEGLFRYMLAAARRLNSSLLIANAWHARSDAASSLVVALGIIGNLAGFAWFDPLAALAVGLVITRMGYRFAATALHDLMDRAVDEETQRAIAGTLRATPGVAGLHDLKTRKAGDLVLVDVHLEVAGELSVAEGHQIARQARARVIAHHPVLNVMVHLDPSAAVAGSPGEANCLTS				NA	NA	NA	NA	NA
BMS020_00454	687			hypothetical protein	ATGTCAGATATCACACCCTCCCGGCTGCGTTTTGCCATTAATCTGGGCAATGCGGTACTGGCCCATCCTGGCGAAAGGGGCGTGCCGACAGGCATTACCCCCGAGCTCAGCCATCGACTGGCGAAGCGCTGGGGCGTCGCCGCCGAGTTCGTCACCTATCCTGCCGCCGGTAAAGTGGTGGCCGACGCCGGCGGCGAACGCTGGGATATTGCCTTTCTGGCCATCGATCCGGCACGGGAGGCGACCCTGCGCTTTACCTCTCCCTATATCACCATCCAGGGAACCGCGCTGGTGAGAGCCGGTTCGCCCTGCCAGAGCGTGGCCGATATGGATCGCCCGGCAACCACGATTAACGTCGGGCAAAACGCCGCCTACGATCTGTGGCTAACCCGCCATCTGCAGCACGCCAGCCTGAATCGTCTCCCCTCCTCGCAGGAGGCCATCGACGCCTTCCTCGCCGGTGAAGGGGATATGGTCGCCGGCATCCGTCAGCCACTGGAGGCGACAGCGCGCCGCCATCCGGGGGTGCGGGTCCTGGCGGATAATTTTACCGAGATCCAGCAGGCCATCTGCGTCGCCCGGGAAGACGTGGCCCGCTTTAGCGCGGTGAACGACGCGTTGAACGAATGGCGAGCGGACGGTAGCCTGGAGGCGCTGATTGCCCGGCACCTGAGCGAGGCGGGCTGA	MSDITPSRLRFAINLGNAVLAHPGERGVPTGITPELSHRLAKRWGVAAEFVTYPAAGKVVADAGGERWDIAFLAIDPAREATLRFTSPYITIQGTALVRAGSPCQSVADMDRPATTINVGQNAAYDLWLTRHLQHASLNRLPSSQEAIDAFLAGEGDMVAGIRQPLEATARRHPGVRVLADNFTEIQQAICVAREDVARFSAVNDALNEWRADGSLEALIARHLSEAG	PGPT0020800_17135	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
BMS020_00455	870			hypothetical protein	ATGATCGGCATTCGCGGGATGATCGAGGCGCAGGTGCTCGGCCTGACCGGCATGGCGCTAAAAGAGATTGATTTTGAACAGCCCAAAGGGGAGCCGGGGCTGTTTGGTCCGCAATCAGCCATCTGGCAGGTGCATGGCGATTTTACCTCTATGTTGTGCGGCGGCATTAGCGCGCTGCTGCTGCAGATGCTGCATCCCCTGGCGCTGGCCGGCGTCTGGGACCACTCCCGTTTTCGCGAGGATATCTTTGGCCGCCTGCGCCGCACCAGTCAGTTTATCTCCGCCACCACCTTTGCCGCCACCCCTGACGCGGAGCGGCTGATCGCCAAAGTGCAGGGGATCCATCAGCGGATCGCCGGGGTGGATAAGGACGGCACGCCGTATCAGGCAAGCGACCCGGCGCTGTTGACCTGGGTGCATGTCGCCGAGTGCAGCCGCTTTATGGCCTCCCACCTGCGCTATAAGCGCACGGTGGTCAGCGTCCAGCGCCAGGAGGACTATTTTCGCGAGTCGGCGGAGATCGCTCGCCGGCTGGGGGCCGAGGATATTCCCCGGACGCCGAATGAGGTCGCGGACTATCTTGAGGCGATGCGCCCGCAGCTGCGCTGTGACGAACGTACCCGGGAGGTGGCCGAGGTGCTGCTCACCACCCGTCTGCCGGGTCGCCTGAGTCAGCCGGTTGGCCAGGTGATGATGCGGGCCGGGATCGATCTTCTGCCGCCATGGGCGCAGGAGATGCTGGGACTGTCGCTGACGCCGCTGCAGCGGCGCACGACGCATCTGATGGTGCAGGCTATCGCCCGCGTGCTGCGCGCCTCGGTACGCAACGGCGCCTGGCATTGCGCCATGCGCCGGATGGCAGAGGCGTGA	MIGIRGMIEAQVLGLTGMALKEIDFEQPKGEPGLFGPQSAIWQVHGDFTSMLCGGISALLLQMLHPLALAGVWDHSRFREDIFGRLRRTSQFISATTFAATPDAERLIAKVQGIHQRIAGVDKDGTPYQASDPALLTWVHVAECSRFMASHLRYKRTVVSVQRQEDYFRESAEIARRLGAEDIPRTPNEVADYLEAMRPQLRCDERTREVAEVLLTTRLPGRLSQPVGQVMMRAGIDLLPPWAQEMLGLSLTPLQRRTTHLMVQAIARVLRASVRNGAWHCAMRRMAEA				NA	NA	NA	NA	NA
BMS020_00456	432	osmC_1	COG1764	Peroxiredoxin OsmC	ATGGCGATTCATAAGAAAGGGCTGGCGCACTGGGAAGGCGATCTCAAGCATGGCAAAGGCACCGTGTCGACGGAGAGCGGGGCGCTGAGCCAGCAGCCCTACGGCTTTAACACCCGTTTTGAAGGGGTGAAAGGCACCAACCCCGAGGAGCTGATCGGCGCCGCGCATGCCGCCTGCTTCTCGATGGCTCTGTCGCTGATGCTCAGCGAAGAGGGCTATACCGCGACGTCCATCGACACCACCGCGGTGGTCACCCTCAATAAAACCGACGGCGGGTTTGCGATAACCGACATCGCGCTGCAAAGCCAGATTGTCCTGCCGGGCGTCGCGCCGGCGGCGTTCGATGAGATCATCCAGAAAGCGAAGGCCGGCTGCCCGGTATCGCAGGTGCTGAAAGCCAATATCACCCTCGACTACCAGCTGAATCCGTAA	MAIHKKGLAHWEGDLKHGKGTVSTESGALSQQPYGFNTRFEGVKGTNPEELIGAAHAACFSMALSLMLSEEGYTATSIDTTAVVTLNKTDGGFAITDIALQSQIVLPGVAPAAFDEIIQKAKAGCPVSQVLKANITLDYQLNP	PGPT0013160_837	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
BMS020_00457	147			hypothetical protein	ATGAGCATAACATCTCACCCGCACGGCGAGGAGCGCGGGAAGCATCCTGCGCGCGAGGCGCCGGGCGAACAGGGCGAAGTGCCGCGTAAACGGGACGACAGCGAGGATGACAAAACCGATCCTTATCATCCTCACGATGGCCGTTAG	MSITSHPHGEERGKHPAREAPGEQGEVPRKRDDSEDDKTDPYHPHDGR				NA	NA	NA	NA	NA
BMS020_00458	405	ygiW_1	COG3111	Protein YgiW	ATGAAAAAATTAGCCTTGGCCATGGCCTGTTTGTTTGCCGCCGCTGTCGCGCAAGCGGACGATAAGGGCGGTTTTAGCCAGGATGTCGCGCCGCCGCCGCCGCACAAACTGGATGACGGCTATCGCGGCGTCGAGGAGGGGCGGATCATGACCGTTGAGCAGGCGAAAACCATGCACGACGGCGCCACGATTTCGCTGCGCGGCAATCTGCTGACCCGGCAGGGAGATGACCGTTATCAGTTTCGCGATAAAAGCGGCACCATCACCGCCATTATTCCGGTTGCCGCGTTTAATGAACAGCATGTAGAGCCTGACGATCTGGTCAGTATTAACGGTAGCCTTGATCGCAAAATGACGCCGCCGGTAGTGCGTATCGATCGCCTGCTCAAACAGTCGCCTAAATAA	MKKLALAMACLFAAAVAQADDKGGFSQDVAPPPPHKLDDGYRGVEEGRIMTVEQAKTMHDGATISLRGNLLTRQGDDRYQFRDKSGTITAIIPVAAFNEQHVEPDDLVSINGSLDRKMTPPVVRIDRLLKQSPK				NA	NA	NA	NA	NA
BMS020_00459	504			hypothetical protein	ATGATTGAGAATCAACAGCCTTGTCCTATCGTCGACGAAAATGAACGAGCCCTCCGCTTTGAATATCGCTTCAGGCGCTATGGGATAATTGCACTCAGCCTCATTATCCTTACCGCGTTAAGCGGCCTGTGGTCCTCTGGTTATTTCAGTGAGGCGCACCGGGAAAGCGCCGGAGGTGAATTAATCGTCGATTACCAGCGTTATGCCAGACTGATGAGTGAAACCGAACTGAATATTCAGATCAAACCCACCCAGGAAAATGACACCACGATCAGCTTCGCCGCCACGTTATTAACTCGCTACCAGCTTGGCGATATCCGCCCGCAGCCGGATAAAATGTACAGTGCCGACGGGAAATTATATCTGGTGTATCAGCGGACGACCAGCCGCTCGCCGCTCTCGGTGTGGTTAGCGATTACCCCCAAAACCATAGGCACGCTCTCCCTGCAGGCGGCCGTCAACGATCGCCCTGCCGTCAGCTGGCAGCAGTTTGTCTATCCGTAG	MIENQQPCPIVDENERALRFEYRFRRYGIIALSLIILTALSGLWSSGYFSEAHRESAGGELIVDYQRYARLMSETELNIQIKPTQENDTTISFAATLLTRYQLGDIRPQPDKMYSADGKLYLVYQRTTSRSPLSVWLAITPKTIGTLSLQAAVNDRPAVSWQQFVYP				NA	NA	NA	NA	NA
BMS020_00460	447			hypothetical protein	ATGGAAATGGTCCTTAGAGCCGCAGCAATCTATCTGATATTGCTGATTATTTTCAAGATTGCCGGCAGACGAACCCTGATGCAGTTAACGAATTTTGACCTGATATTGCTGCTGATTATCAGCGAAGCTACCCAGCAGGCGATGCTCAGCACAGACTATTCCGTCACCGGTTCGATGCTGACTATCGTCACCCTGGTCAGTATTGATATTTTATTTGGTTATATTAAGAAAAAATTTGCCCAGGCGGAAAATTTCCTTGATGGCACGCCGGTTATCGTGGTGGAAAATGGTGCTGTCATCGATGAGAAAATCAAGCTCGTCAATATTTCTGTCGATGATATCCTGCTGGCGGCCAGGCAGCACCATGGGATTTATGAACTGAAAGCGATCAAATTCGCTATTCTCGAACGTAACGGCCAGATATCCATTATTCCGCAACAGGAATAA	MEMVLRAAAIYLILLIIFKIAGRRTLMQLTNFDLILLLIISEATQQAMLSTDYSVTGSMLTIVTLVSIDILFGYIKKKFAQAENFLDGTPVIVVENGAVIDEKIKLVNISVDDILLAARQHHGIYELKAIKFAILERNGQISIIPQQE				NA	NA	NA	NA	NA
BMS020_00461	96			hypothetical protein	ATGTTGACATTAAACACGCGTAGCGTTGAAAAAGAAGAGGATGACGCCACCCGCGCCCCGGAATCGGGGGATAAACAACCGGAGCGCGATAAATAG	MLTLNTRSVEKEEDDATRAPESGDKQPERDK				NA	NA	NA	NA	NA
BMS020_00462	996	hcaB_1		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGTCCGTGATGGTTATTACCGGCGGAACCGCCGGGGCAGGAAAAGCCACCGCGCTGCGTTTCGCCCGCGCAGGGTATCACGTGGCGCTGATCGCCCGCGATGAAACGGGTCTGCAGGAGACGCAGCAGGCCTGCGAACGGTTTGGCGTCAAAACGCTGGCGATTAGCGCCGATGTTGCCGATGCCGGGGCTGTGCAGCGCGCCGCCGCCGAGGTGGAAGCCACCCTCGGTGCCATAGACGTCTGGATCAACAACGCCATGACCACCGTGCTGGCGCCCTTTCGTCAGATGAGCGACGACGAATTTCGCCGGGTGACGGAGGTGACCTATCTCGGCTATGTCAACGGCACCCGCGCGGCGCTGGAGGTGATGACGCCCCGGGATCGGGGGGTGATTATTCAGGCTGGATCGGCGCTGGCCTGGCGCTCGATCCCCCTGCAGTCGGCCTATTGCGGAGCCAAAGCGGCCATTCGCGGCTTCACCGATGCCGTGCGCACCGAGCTGATGCATGAGAAAAGCCACATCCAGTTGACCATGGTCCAGCTGCCGGGGATGAACACCGCTCAGTTTGGCTGGGCGCGCAACAAAATGGATCAGGCCATGCAGCCGGTACCGCCGGTCTATCAGCCGGAGGTCGCCGCCGAGGCTATCTACAGCGTGATCCAGCGGCCGGTGAACGAGCTGTGGGTGGGGAAAAGCACCATCCAGTCGATCCTCGGCCAGGTCTTCTTCCCTCGTCTGCTCGATCGGCTGATGGTGAAGAAAGCGTGGGAGGGACAGTTTACCGGCCAGCCGAAGCCGGCAGAGCACCAGGACGACCTGTTCACGCCGGTGCGCGGCAATCATCCCGGACACGGCCCTTTTAACGAGGGCGCGCGGCGTAAAGCAGTGACCATCAGCGCCGATCTCCCGGGAAAAGTGGCTGCCGGCGTCGGCGTGGCGGTGGCGACGATGGCCCTGCGCGCGTTGTTCCGCCGACCGGGGAGACGGCGCTAA	MSVMVITGGTAGAGKATALRFARAGYHVALIARDETGLQETQQACERFGVKTLAISADVADAGAVQRAAAEVEATLGAIDVWINNAMTTVLAPFRQMSDDEFRRVTEVTYLGYVNGTRAALEVMTPRDRGVIIQAGSALAWRSIPLQSAYCGAKAAIRGFTDAVRTELMHEKSHIQLTMVQLPGMNTAQFGWARNKMDQAMQPVPPVYQPEVAAEAIYSVIQRPVNELWVGKSTIQSILGQVFFPRLLDRLMVKKAWEGQFTGQPKPAEHQDDLFTPVRGNHPGHGPFNEGARRKAVTISADLPGKVAAGVGVAVATMALRALFRRPGRRR				NA	NA	NA	NA	NA
BMS020_00463	1626	treS	COG0366	Trehalose synthase/amylase TreS	ATGCAACAGGAAGAGTGGTTTCACAGAGCGGTCATCTATCAGGTGGACAGTTCTCTGTTTTACGATGCCAATGGCGATGGGTTTGGCGATCTTGCCGGTATCCGCCAAAAGCTGCACTACATTCGTAGTCTGGGGGCGACGGTGCTCTGGCTGACCCCTTTCTATCTCACCCCACTGCAGGATGATGGCTATGATATCAGCGACCATCTGCAGCCCGATCCCCGCTTCGGGACCATCGCCGATGTGATTGAGCTGATTGCCCGCGCCCGGGAGCTGGGACTGCGGGTGATCGTTGAGCTGGTTATCCAGCACACCTCCGCCCGGCACCCGTGGTTTCAGGCGGCGCGACGCGATCCCCGCTCGCCGTGGCGGCCATACTATCTTTGGGCCGATCGGCCGCCGGAGAACGACGATCCGCCCATGTTTCCCGGCGTCGAGGAGAGCGTCTGGAGCTGGGACGACCAGGCCGGACAATACTATCGTCACATGTTTTATCGGCATGAGCCCGACCTGAATCTCGCTCATCCGCCGGTGATCGCCGAAATTGAAAACATCATCACCTTCTGGCTGCAGGCCGGGGTGTCGGGATTTCGCCTCGATGCGGCGTCACATCTGGTGAAGCAGGCCGGGAAGGGCGAAGAGGCGCGGGGCTACCCGCTGCTGACGCATCTTCGCCAGGTCGTGCAGCGCCTCAACCCCGACGCGATACTGCTGGGTGAAGTGGACGTGGAGGTGGAAGCGTATCGCCATTATTTCGGCCGCGGCGATCGGCTGCAGATGGTGCTCAATTTCTGGCTTAATAAATACCTCTATGTCAGCCTGGCGCAGCAGCGCGCCACCCCGGTGGTGAAGGCGCTGCAGGCGATGGTGGCCCCGCCGGACGGATGCTGCTTCGTCAACTGGCTGCGTAACCATGATGAACTGGACCTGGAGGGGATTGGCGAACGCAACAAGCGCCAGGTTATCCGTACCTTTGCCCCGGATAAATCGATGTCGGTTTACCAGCGCGGCGTGCGCCGGCGGCTGGCGCCGATGCTGGGTGGCGATACCCGACGCATCGCGCTGGCCCATGCTATCCTGCTGGCGCTGCCTGGCGTGCCGGTGATGCGCTATGGCGACGAGATTGGTATGGGCGACGATCTGCGCTTACCGGAGCGCTACGCGGTCCGAACGCCGATGCAGTGGTCGGCGGCGCCCAACGGCGGCTTCTCCCGGGCGGCGCGGGAGGATTTGCCGGTAAAACCGGTGGCCAGCGGACGGTTTCGCTACCAGCGGATCAATGTCGAAGCGGCGCTGCGCCACCCCCGCTCGCTACTGCATCGGGTGCGCAATATGGTGCTGGCGCGCACGGAATATACTGAACCGGGATCCATCCCTTTTACCCTCCTTACGGTGAAGCCTGCCGCGGTGCTGGGCTTGTGCTATCGCAGTGAATCGCGGGAGGTGTTGATGCTGGCGAACTGCGGCCAGCAGGCGGTAGAGGTGCAGCTCCCGCCGCTGGCCGAGGGCTACTGGAGCCCGATTCTGGAAGATAAGTTCTACCAGGACGGGCTGCGCGGCGGGAAAGAGGCGCGGCTGGCGCTCTCAGGGTATGGCTACCGCTGGTTCAGCCGCAGTTTGCCTTAG	MQQEEWFHRAVIYQVDSSLFYDANGDGFGDLAGIRQKLHYIRSLGATVLWLTPFYLTPLQDDGYDISDHLQPDPRFGTIADVIELIARARELGLRVIVELVIQHTSARHPWFQAARRDPRSPWRPYYLWADRPPENDDPPMFPGVEESVWSWDDQAGQYYRHMFYRHEPDLNLAHPPVIAEIENIITFWLQAGVSGFRLDAASHLVKQAGKGEEARGYPLLTHLRQVVQRLNPDAILLGEVDVEVEAYRHYFGRGDRLQMVLNFWLNKYLYVSLAQQRATPVVKALQAMVAPPDGCCFVNWLRNHDELDLEGIGERNKRQVIRTFAPDKSMSVYQRGVRRRLAPMLGGDTRRIALAHAILLALPGVPVMRYGDEIGMGDDLRLPERYAVRTPMQWSAAPNGGFSRAAREDLPVKPVASGRFRYQRINVEAALRHPRSLLHRVRNMVLARTEYTEPGSIPFTLLTVKPAAVLGLCYRSESREVLMLANCGQQAVEVQLPPLAEGYWSPILEDKFYQDGLRGGKEARLALSGYGYRWFSRSLP	PGPT0014120_1318	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0014120-treS-K05343	NA	NA
BMS020_00464	174			hypothetical protein	ATGGTTAAGCGCCACACCATCGCGCTGCTCGCCACTGAGAAAGCGGTTCCGCTGAAATTAACCGCCAGGCAGCTGGCGCTGGTGGACGCGGTGGCGAACAGGGCCCCTCCTGCAGAGCCCGATCCCGTACCGCCTGTCGGCAAAGCAGACGTCAGGAACAGGAGGGCGCGCTGA	MVKRHTIALLATEKAVPLKLTARQLALVDAVANRAPPAEPDPVPPVGKADVRNRRAR				NA	NA	NA	NA	NA
BMS020_00465	507	yciE_1	COG3685	Protein YciE	ATGACGGATAGTGAAAATTACCATAACTGGCTTCGCGATGCCCATGCCATGGAAAAACAGGCCGAGTCACTGCTTATGGCCACCATCAGACGCCTCGATAATGAACCGCAATTACGGACCCGCCTTGAACAACATCTCTATGAAACCCGTCGGCAACTGTCGGCCCTGCAGGACCTTATCGCCCGCAACCACATTTCCCGCTCGGCGCTGAAGGATGCGATGAGCCGGGTCGCAGCCCTGGGCCAGACTATTGGCATCATGCTGCCCGGCGATGAGCTCATTAAACTTCTTATCACCGCCTACGTTTTTGCCCATTTTGAGGTCGCCTGCTATACCGCTTTATTAACGGCGGCGAAGCGAGTGGGGGACCATAGCGCGATGCCTACTCTGGAAGGGATCCTTGCCGAAGAGAGAGGGATGGCTGACTGGCTGCTGCATCATCTGCCGGCGCTGACCGGGCAATATCTGATGCATAACAATCTGCCCGGCGTTGAGGCCGGACAATAA	MTDSENYHNWLRDAHAMEKQAESLLMATIRRLDNEPQLRTRLEQHLYETRRQLSALQDLIARNHISRSALKDAMSRVAALGQTIGIMLPGDELIKLLITAYVFAHFEVACYTALLTAAKRVGDHSAMPTLEGILAEERGMADWLLHHLPALTGQYLMHNNLPGVEAGQ				NA	NA	NA	NA	NA
BMS020_00466	915	yghA		putative oxidoreductase YghA	ATGCAAGATGAAAAACCGCCAATGAAGAAATTACCCACCTCCATGTTGCCAGAAGAGACGGCTCCACGTCCGGAGTTCCCGGAGCAAGAACAAAACCCGCCGGGTCTGGATGCGGAAATGGAGCCGTCACCGGACCATGGAGAAACCAGCTACACCGGCACCGGGCGGCTGGCCGGTAAGAAAGCGCTCATTACCGGCGGTGACTCCGGCATTGGCCGCGCGGTGGCGATCGCCTTTGCCCGCGAAGGGGCCGATGTCGCCATAAGCTATCTGCCGGAAGAGCAAGAGGATGCCGATGAAGTCATCGCCCTGATTAAAGCCGAAGGCCGCACCGCGGTGGCCCTGCCGGGGGATATTCGCTCCGAGTCCTTCTGTCAGTCGCTGGTGGCCGATGCGGTGGAACAGCTGGGTGGCCTGAGCATCCTGGTCAATAACGCCGGGCGTCAGCAATATTGTGAGACTCTCGAGGAGCTCACCACCGAAGACTTTGACGCCACCTTTAAAACCAATGTCTACGCGCCGTTCTGGATCACCCGCGCCGCGCTGCCCCATCTCCAGGCCGGGAGCGCGATCATCAACACCACCTCGGTGCAGGCCTATAAACCCAGTCCGATCCTGCTCGATTACGCCCAGACCAAAGCCTGCCTGGCGATCTTCACCAAATCGCTGGCCAAACAGGTGGCAAAACGCGGCATTCGCGTTAACGCCGTGGCGCCAGGCCCTTACTGGACGGTACTGCAGTCCAGCGGCGGTCAGCCGGACGAGAAAGTGAAACAGTTCGGGAAGGACACGCCGATGGGGCGTCCGGGACAGCCGGTCGAGATCGCCCCGCTGTACGTCACCCTGGCATCCGATGCCTGCTCTTATACCTCCGGCCAGGTTTGGTGCTCTGACGGTGGGGACGGGGTAGTCTAA	MQDEKPPMKKLPTSMLPEETAPRPEFPEQEQNPPGLDAEMEPSPDHGETSYTGTGRLAGKKALITGGDSGIGRAVAIAFAREGADVAISYLPEEQEDADEVIALIKAEGRTAVALPGDIRSESFCQSLVADAVEQLGGLSILVNNAGRQQYCETLEELTTEDFDATFKTNVYAPFWITRAALPHLQAGSAIINTTSVQAYKPSPILLDYAQTKACLAIFTKSLAKQVAKRGIRVNAVAPGPYWTVLQSSGGQPDEKVKQFGKDTPMGRPGQPVEIAPLYVTLASDACSYTSGQVWCSDGGDGVV	PGPT0003180_7466	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
BMS020_00467	246			hypothetical protein	ATGAGTAATGACATCCCCCTGAAATTTTATGACATCGTGGACGAATACGAGACCGAAGCGGCTGCCCCGGTTAAGGATGAGGAACGCGATGCGCTGGCGCGCTATTTTCAGCTGCTGATTGCGCGGTTAACCAATAACGAAGAGATCGACGAAGAAGCGCAGCAGGAGATGGCCCGCGAGGCGGCCATTGACGAGCGCCGTATTGACGATATCGCTAACTTCCTCAATCAGTGGGGCAACGAGTAA	MSNDIPLKFYDIVDEYETEAAAPVKDEERDALARYFQLLIARLTNNEEIDEEAQQEMAREAAIDERRIDDIANFLNQWGNE				NA	NA	NA	NA	NA
BMS020_00468	894	dmlR_7		HTH-type transcriptional regulator DmlR	ATGGACAGGGTGATTGCGGCGCAGGTATATCTGCGCATTTGCGAACTGGGAAGCCTCAGCGCCGCGGCGCGCGCGCTGGGGATGTCGCGCCCGATGGTCAGCCGCTATCTGGAACAGATGGAGAGCTGGGCCGGCGCCCGGCTGATCCATCGCTCAACCCGGCGGCTGACGCTGACCCCGGCGGGGGAGAAGGTGTTGCTCAAGACCCGCGGGTTGACGCGGATCGCCGATGAAATCGCCGGCGAGCGCCAGCGGGCCGACCCCAGCGGCACGCTGCGGGTGGCGTGCGCGCATTTTACCGCGATGCAGCTGATCTCCCCGCTGCTGCCGGACTTTCTCGCTCGCTATCCGCTGTTGCGCCTGGAGCTGGATATCAATAACCATCCGGTCAGCCTGATCGGCGAGCGCATCGACGTGGCCATTCGCATTACCGATAATCCGGAGGCCGGGGCTATCGCTCGCCGTCTCGGCGTGTGCCGGTCGCTACTCTGCGCTGCGCCGCGCTGGCTCCGCCAGCATGGTCCGCTGACGACGCTTGACGATCTGCAACAGCATAACTGCCTGTTATACAGCCATTTTGCCGGCCAGCGCTGGCAGTTCAGCGATGCGCAGGGGCAGGAGGCGTCGGTGTCGGTGAACGGTAATCTGAGCGCGGGGATCTCTTCCTTGCTGCTGGAGGCGGCGGTCGCCGGGTGCGGCATCGCGATGCTCCCCGAACTGGAGGCGCGGGGCGCGATTGCCAGCGGCGCGCTGGAGGTGGTGCTGCCTGACTGGACGCCGAAGGCGCTGAGCGTTTACGGCATCTATCTTTCCCGCGACTATCAGCCCGATGGGCTGCCGCTGTTTCTGGATGCGCTGCAGCGACGTCTGGGGGAAACGCTCGCCGATGCCTGA	MDRVIAAQVYLRICELGSLSAAARALGMSRPMVSRYLEQMESWAGARLIHRSTRRLTLTPAGEKVLLKTRGLTRIADEIAGERQRADPSGTLRVACAHFTAMQLISPLLPDFLARYPLLRLELDINNHPVSLIGERIDVAIRITDNPEAGAIARRLGVCRSLLCAAPRWLRQHGPLTTLDDLQQHNCLLYSHFAGQRWQFSDAQGQEASVSVNGNLSAGISSLLLEAAVAGCGIAMLPELEARGAIASGALEVVLPDWTPKALSVYGIYLSRDYQPDGLPLFLDALQRRLGETLADA				NA	NA	NA	NA	NA
BMS020_00469	855			hypothetical protein	ATGATGAAATTATCTGCCCTTGCTATTGCCACCGCCCTGTTCAGCGGCGCGGTCTTCGCGGCGCCGCTGACGCTGCAGACTTACAACCCTCAGGAGAAAGGTATTTTTGCCGTCAACTCCACCCTCGTTTCCGGCCCGCATGAAGCGGTGCTGTTTGACGCCCAGTTCAGCGTCAAAGACGGCGAAAAGCTGGTGGACATGATCAAGAAAAACGGCAAACCGCTGTCGCGGATTGTGATCACCTCCGGCGATCCTGACTTCTATTTTGGCCTTGAGCCGCTGGTGAAAGCCTTCCCGCAGGCGGAAGTGGTCGCCACGCCGGAAGTGGTTAAACATATTGAAGCCACCAAAGCGGCAAAGCTGGCGTACTGGGGCCCGCAGATGAAAGACGGCGCGCCGACGCAGGTATACGTCCCGCAGGCGCTGAAAGCCAACAGCTTTACCATCGATGGCGAAACAGTGACGATTATGCAGCCGCATGACTACGCGGCGTTCGTTTGGATCCGGGCGAACAAAACGATCCTCGGCGGCACCGGCGTGGCGTGGGGCATGCATCTCTGGACCGCCGACACCCAGACGCCGGCCAGTCGCCAGCAGTGGCGCACTACGCTGGAGCAGATGATTGCCCTGCACCCGCAGCAGGTGATCCCGGGGCATTACCTCGGCACGCCGCCGGAGGGTGACCGCGCGGTGCGCTTTACAAAAACCTACCTCCAGCAGTTTGAGCAGGCGCTGAAGACACATAAGGATTCCGCCGGGGTGATCAAGGCAATGGAGACGCAGTGGCCGGGGCTGGCGGAAACCAGCTCGCTGGAGCTTAGCGCCAAAGTTAACACCGGCGAGATGAAGTGGTAA	MMKLSALAIATALFSGAVFAAPLTLQTYNPQEKGIFAVNSTLVSGPHEAVLFDAQFSVKDGEKLVDMIKKNGKPLSRIVITSGDPDFYFGLEPLVKAFPQAEVVATPEVVKHIEATKAAKLAYWGPQMKDGAPTQVYVPQALKANSFTIDGETVTIMQPHDYAAFVWIRANKTILGGTGVAWGMHLWTADTQTPASRQQWRTTLEQMIALHPQQVIPGHYLGTPPEGDRAVRFTKTYLQQFEQALKTHKDSAGVIKAMETQWPGLAETSSLELSAKVNTGEMKW				NA	NA	NA	NA	NA
BMS020_00470	141	sra		Stationary-phase-induced ribosome-associated protein	ATGAAATCGAACCATCAGGCACGTCATCTTCTCGGTCTGAACTACAAGCTTTCCCAGCAGAAAAAAGTAGTGCTGGAAGGCGATGAAGAAACCACCCTCAACCATATCCATGCTACCGGCCGCAAACGCCGCGGTGGTTAA	MKSNHQARHLLGLNYKLSQQKKVVLEGDEETTLNHIHATGRKRRGG				NA	NA	NA	NA	NA
BMS020_00471	1698	maeA	COG0281	NAD-dependent malic enzyme	ATGCAATTTACCCATAAGAAAAACCGTTCCCTGTACATCCCCTACGCGGGCCCAGTTCTGCTTGAATTCCCTCTGCTCAACAAGGGCAGCGCCTTCAGTATGGAAGAGCGCAGCAGTTTCAACCTGCTTGGCCTGCTGCCGGAAGTGGTTGAAACCATCGAAGAGCAAGCGGAACGCGCCTGGATCCAGTATCAGGGATTCAAAACAGAAATCGACAAACACATTTACCTGCGTAATATCCAGGACACCAACGAGACCCTTTTCTATCGCCTGATTGGCAACCATCTCGAAGAGATGATGCCGGTTATCTATACCCCGACGGTGGGCGCCGCCTGCGAACGTTTCTCCGAGATTTACCGTCGCGCCCGCGGCGTCTTTATCTCCTACCAGAATCGCCATAACCTTGACGACATTCTGCAAAACGTCCCGAACCATAATGTCAAAGTGATTGTGGTGACCGATGGCGAGCGTATCCTCGGCCTCGGCGACCAGGGGATCGGCGGGATGGGGATCCCAATCGGTAAACTGTCGCTGTACACCACCTGCGGCGGCATCAGCCCGGCTTACACCCTGCCCATCGTGCTGGACGTCGGGACAAACAACCAGCAGCTGCTGGACGATCCGCTGTATATGGGCTGGCGTCATCCGCGTATTACCGACAACGAGTACTATCAGTTCGTTGACGACGTGATCCAGGCGATTAAAGCCCGCTGGCCGGACGTGCTGCTGCAGTTTGAAGACTTTGCGCAGAAGAACGCCATGCCGCTGCTCAACCGCTACCGCAATGAGATCTGCTCCTTTAACGACGATATTCAGGGCACCGCGGCGGTCACCGTCGGGACGCTGATCGCCGCCAGCCGCGGCGCCGGCAGCCAGCTGAGCGAACAGAAAATCGTCTTCCTCGGGGCGGGCTCCGCCGGCTGCGGCATCGCCGAGCAAATTATCGCCCAGATCGTCCGCGAAGGACTCAGTGAAGAAGAGGCCCGCCAGCGCGTATTTATGGTTGACCGCTTCGGCCTGTTAACCGACGGCATGCCTAATCTGCTGCCGTTCCAGAACAAGCTGGTGCAGAAGCGTGAACATCTGCAGGGCTGGGATACCACTAACGATGTCCTGTCCCTGCTGGACGTGGTGCGCAACGTGAAACCGAACATCCTGATCGGCGTTTCGGGTCAGCCGGGGCTGTTCACGGAAGAGATTATCCGCGAGATGCACAAGCATTGCCCGCGGCCGATCGTGATGCCGCTCTCCAACCCAACGTCACGGGTGGAAGCCACGCCGCAGAATATCCTGAGCTGGACCGACGGCGAGGCGCTGGTCGCCACCGGCAGTCCGTTTGCCCCGGTCACCGTGAAAGGCAAACAGTATCCCATCGCCCAGTGCAACAACTCCTATATCTTCCCGGGCATTGGTCTGGGGGTGATCGCCTCCGGCGCGTCGCGGGTCACCGACGAGATGCTGATGGCCGCCAGCGAAACCCTGGCGAAACACTCGCCGCTGGTGAACAACGGCGAAGGTCCGGTTCTGCCGGAGTTGAAGGATATCCAGACCGTCTCGCGGGCGATTGCCTTCGCGGTCGGTAAGGTGGCTCAGGAGCAGGGCGTGGCGGTGAAAACGTCCGCGGAAGCGCTGCTGCAGTCCATCAGCGATAATTTCTGGCTGCCGGAATATCGTAATTACCGCCGCACCTCAATTTAA	MQFTHKKNRSLYIPYAGPVLLEFPLLNKGSAFSMEERSSFNLLGLLPEVVETIEEQAERAWIQYQGFKTEIDKHIYLRNIQDTNETLFYRLIGNHLEEMMPVIYTPTVGAACERFSEIYRRARGVFISYQNRHNLDDILQNVPNHNVKVIVVTDGERILGLGDQGIGGMGIPIGKLSLYTTCGGISPAYTLPIVLDVGTNNQQLLDDPLYMGWRHPRITDNEYYQFVDDVIQAIKARWPDVLLQFEDFAQKNAMPLLNRYRNEICSFNDDIQGTAAVTVGTLIAASRGAGSQLSEQKIVFLGAGSAGCGIAEQIIAQIVREGLSEEEARQRVFMVDRFGLLTDGMPNLLPFQNKLVQKREHLQGWDTTNDVLSLLDVVRNVKPNILIGVSGQPGLFTEEIIREMHKHCPRPIVMPLSNPTSRVEATPQNILSWTDGEALVATGSPFAPVTVKGKQYPIAQCNNSYIFPGIGLGVIASGASRVTDEMLMAASETLAKHSPLVNNGEGPVLPELKDIQTVSRAIAFAVGKVAQEQGVAVKTSAEALLQSISDNFWLPEYRNYRRTSI	PGPT0001350_669	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
BMS020_00472	1713	yheS_1	COG0488	putative ABC transporter ATP-binding protein YheS	ATGAGTACATTACTAACTGCCCATGCGCTCCACGTGGAGACTGCCTTCGGGCCGCTGTTTAATACCCTCTCCTTCACCCTGAAGAAAGGCGACCGTATCGGTCTCATCGGCCATAACGGTTGCGGCAAAAGCACCCTGCTGCAGGTGCTGGACGGCACCCTCGCGCCCACCTCGGGCAGCGTCTCACTCGCCGGTCAGTGTCTGATGGCCCGCGTTGAACAGCATCTGCCGGAGGCGCTGCGTTCGCAGTCGCTGCTGCAGGCGGTGCTGGCCCTGTTACCCGCCGACGCGCGGGAAGCACAGCGCTGGCTGGCCGAACGCCTGCTGGCGCAGATGGGCTTCACGCCGGCGGTGATCGAGCAGCAAACCAGCACCCTGAGCGGCGGACAGCATACGCGCCTGCTGCTGGCCCGGGCGCTGATCCGCCAGCCTGACCTGCTGCTGCTGGATGAGCCCGGCAACCATCTCGATCTGCCCACCCTGCTGTGGCTGGAAAGCTTCTTGCAGACCTGGCAGGGGAGCTTCGTGCTGGTGTCACACGACAACGCTTTACTGGATGCTGTAACTAATGCCAGTTGGATCCTCCGCGACCAGACGCTGCACAGCTTCGCCTTGCCCTGCAGCGCTGCCCGTCAGGCGCTGCAGGAGCAGGATGAAAGCGCCGCGTTACGTCATAAGGCGGAGCAAAAAGAGATCGACCGGGTCAGCGCCAGCGCCAGGCGGCTGGCCACCTGGGGGCGGGTGTATGACAACGAAGATCTCGCCCGCAAAGCCAAACAGATGGAGAAGCAGGTCGCCCGCCTGAAAGACGAGCAGACCGAGCTCAGCATCGGCCCGCCGTGGCGCCTGGTGTTGCAGGGGGACGCCCTGCCGGCGGACCGCCTGCTGGAGATGGACAGGCTGCCGGTGGCTCCCGCGCCGGGACTGCCGGCCCTGTTCACCACCGGGGTGGCGCGACTGCGCAGCGGCGATCGCGTGGCCATCATGGGCCGCAACGGCGGCGGTAAATCGTCCTTGCTGCGCCTGCTGTGGCAGCAGATGAACGACGCATCGCCGCTTCCGGGGCTGCGTCTGCACCCCCGGCTTCACCCTGGGTACTACGACCAGACCCTGGCACAGTTGCCGGACGAGGCCAGCCTGCTCGACGCCCTGATGCCGTTCGCCCCGTCGGCGGACACCCGTAAACGGGCGTTGATCGCCGCCGGGTTTGGCTGGGCGAGGCATGGACAGAAGGTCTGCACCCTCAGCGGCGGCGAGCGGTCGCGGCTGCTGTTCGTCGGTCTGTCGCTGGCGCGCTACAGCCTGCTGCTGCTGGATGAACCCACTAACCATCTGGATATGGAGGGCAAAGCGGCGCTGGCGCAGACGCTCCGCGACTATCCCGGCGGCGTGCTGCTGGTCAGTCATGACCGCCAGCTTATTAGCGAAAGCTGTAACCGCTTCTGGCTGATCGACAGCGCCGGGTTAACGGAGTGGCACAGTCTGGAGGAGGTCTATGCCCGTCTGCAGGCGCAGACCCCCACCCTGACGGCGGCCTCCTCACCCCAGGAGCCGTCACTCGCGGCTGATGATGAAGAGACGCTGCTGACGCGCCTGATAGCCCTGGAGCAATGGCTGGCGGACGATATGGCCCGTAAGCCGAAACATCAAAAGCCCTCGCTGCAGACCCAGTGGCGAGAGGAGATCGCCCGGCTGCTTAACCAGCTGGCGTAA	MSTLLTAHALHVETAFGPLFNTLSFTLKKGDRIGLIGHNGCGKSTLLQVLDGTLAPTSGSVSLAGQCLMARVEQHLPEALRSQSLLQAVLALLPADAREAQRWLAERLLAQMGFTPAVIEQQTSTLSGGQHTRLLLARALIRQPDLLLLDEPGNHLDLPTLLWLESFLQTWQGSFVLVSHDNALLDAVTNASWILRDQTLHSFALPCSAARQALQEQDESAALRHKAEQKEIDRVSASARRLATWGRVYDNEDLARKAKQMEKQVARLKDEQTELSIGPPWRLVLQGDALPADRLLEMDRLPVAPAPGLPALFTTGVARLRSGDRVAIMGRNGGGKSSLLRLLWQQMNDASPLPGLRLHPRLHPGYYDQTLAQLPDEASLLDALMPFAPSADTRKRALIAAGFGWARHGQKVCTLSGGERSRLLFVGLSLARYSLLLLDEPTNHLDMEGKAALAQTLRDYPGGVLLVSHDRQLISESCNRFWLIDSAGLTEWHSLEEVYARLQAQTPTLTAASSPQEPSLAADDEETLLTRLIALEQWLADDMARKPKHQKPSLQTQWREEIARLLNQLA				NA	NA	NA	NA	NA
BMS020_00473	954			hypothetical protein	ATGTCTGACACGCCTTTAATCCAACAAATTCGAACGGCCTCGCGATTAATGGTGCGCGAGCTGGGTTTTATGAACACCACGCTGGCCGCCACCCACTATTCACCCTCGGCGGTGCATACCCTGCTGGAGGTGTCGGTCAGGGGGACGATAACCGCCGCGCAGCTGGTCACATTGCTCGGGCTGGAAAAATCGAGCGTCAGCCGGATGGTCGCCCGGCTGCTGGCCGCCGGAGAGCTGGAGGAGCGCCCCTGCGCGGAGGACGCGCGGTCGAAATCGCTGGCGCTGACCGCGAAAGGGCACGACACGGTGGCAACGATTAACGCCTACGGTACCCGCCGGGTGGTGGAGGCGTTAGCGCATCTCGATGAGACGCAGCAGCGGACCGTCGCCAGCGGACTGGCGGCCTATGCTCAGGCGCTGGCGCAGTGTCGGGATGCTGCGCTTGCGGAAACGACGCCGCAAATTTCGCTGGTGACCGGCTATCAGCCGGGGGCGATCGGCCGGATAGCCCAGATGCACGGGGAGTATTACGCCCGGCACCATGATTTCGGCGCTTTTTTTGAAGGCAAGGTTGCCAGCGGCGTCGCGGAATTCGCCACCCGGCTTTCCTCGCAGGTCAACCAGATCTGGCTGGCGATGCGCGAGGGGAAGATTGTCGGTTCGGTGGCGATCGATGGCGAGGATCTCGGCCAGCAGCAGGCGCATCTGCGCTGGTTCATTCTCGATGACAGCTGCCGGGGAACCGGCATTGGCAGGCGGCTGCTCAGTGAGGCGATGGTTTTCTGCGACAGTCGTCAGTTCAGCGCCGTTCAGCTGTGGACGTTTAAAGGTCTGGACGCGGCCCGCAAACTGTATGAGTCCTTTGGCTTCACGTTAACCCGCGAATGGCAGGGGGACCAGTGGGGAAAGATGATGACCGAGCAGCAGTTTACCCGGCCAGGAAACGCCGGCTAA	MSDTPLIQQIRTASRLMVRELGFMNTTLAATHYSPSAVHTLLEVSVRGTITAAQLVTLLGLEKSSVSRMVARLLAAGELEERPCAEDARSKSLALTAKGHDTVATINAYGTRRVVEALAHLDETQQRTVASGLAAYAQALAQCRDAALAETTPQISLVTGYQPGAIGRIAQMHGEYYARHHDFGAFFEGKVASGVAEFATRLSSQVNQIWLAMREGKIVGSVAIDGEDLGQQQAHLRWFILDDSCRGTGIGRRLLSEAMVFCDSRQFSAVQLWTFKGLDAARKLYESFGFTLTREWQGDQWGKMMTEQQFTRPGNAG				NA	NA	NA	NA	NA
BMS020_00474	600	ppa_1	COG0221	Inorganic pyrophosphatase	ATGCATCTGGTCAAAACGCTCCTCACCGCCGGTCTGCTTTTCTCCGCCGCCGCGCAGGCTCACAATGTGCTGGAATTCCCGCAGCCGGAAAACAATCCGGAAGAGTTTTACGCAGTCACCGAGATCCCGGCAGGCGGGATCATTAAGTATGAAACCGACGCTAAAACGGGGTTTATCGTCGCCGACCGCTTTCAGTCGATGCCGGTGGCTTACCCGGCGAACTACGGTTCATTAACCCAGTCGCTGGCCGGGGATGGCGACCCGCTGGACGTGGTGTTTTACACCCGCGCGCCGATGGCCCCGGGCACGCTGATTAAGCTGCGGCCGATCGGCGTTCTTAAGATGATAGACGGCGGTGAGAAAGACGACAAAATCATCGCCGTCCCGGCCAGTAAAATTGATCCGACCTATGACGACATTCAGACCATCACCGATCTGCCGAAAATCGAGCAGCAGCGGCTGGAGGCCTTCTTCCGGGTCTATAAAGAACTACCAGAGGGGCGGAAAAAGGTCGAGCTGGCCGGTTTTAATGATGCCGCCGCCGCGAAGCAGGAGATCAAATCGGCCTGGGAGGCCTGGAAGGCGAAGAACCCGCAATAA	MHLVKTLLTAGLLFSAAAQAHNVLEFPQPENNPEEFYAVTEIPAGGIIKYETDAKTGFIVADRFQSMPVAYPANYGSLTQSLAGDGDPLDVVFYTRAPMAPGTLIKLRPIGVLKMIDGGEKDDKIIAVPASKIDPTYDDIQTITDLPKIEQQRLEAFFRVYKELPEGRKKVELAGFNDAAAAKQEIKSAWEAWKAKNPQ	PGPT0002600_1490	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-INORGANIC_PHOSPHATASE,PGPT0002600-ppa-K01507	NA	NA
BMS020_00475	1011	adhP	COG1064	Alcohol dehydrogenase, propanol-preferring	ATGAAGGCAGCTGTTGTTACTCACGACCATCAGGTTAACGTTACGGAAAAAACGCTGCGCCCGCTGGAATACGGCGAAGCGCTGTTGAAAATGGAATGCTGCGGCGTGTGTCATACTGACCTGCACGTGAAAAACGGCGATTTTGGCGATAAAACCGGCGTTATTCTCGGTCATGAAGGGATCGGGGTAGTACAAAAAGTCGGCCCTGGCGTCACCTCCCTGAAGCCGGGCGATCGCGCCAGCGTGGCGTGGTTCTTCGAAGGCTGCGGCCACTGCGATTACTGTAACAGCGGCAACGAGACGCTGTGCCGCTCGGTGAAAAACGCTGGCTATACCGTCGACGGCGGCATGGCGGAAGAGTGTATCGTCACCGCCAACTATGCGGTTAAAGTCCCGGACGGCCTCGACTCCGCCGCCGCCAGCAGCATTACCTGCGCTGGGGTCACCACCTACAAAGCCGTTAAGGTCTCCCACATCAAGCCGGGCCAGTGGATCGCTATCTACGGCCTCGGCGGGCTGGGCAACCTGGCGCTGCAGTATGCCAAGAATGTCTTTAACGCCAAAGTGATCGCTATCGACGTCAACGACGGCCAGCTGGAGCTGGCGGCGTCGATGGGCGCTGACCTGACCATCAACTCGCGCAATGAAGATGCGGCGAAAGTGATTCAGGAAAAAACCGGCGGCGCCCACGCTGCGGTGGTGACCGCGGTGGCCAAAGCGGCCTTTAACTCGGCGGTGGATGCCGTTCGCGCCGGCGGCCGCGTGGTGGCGGTAGGCCTGCCGCCAGAGGCGATGAGCCTCGATATTCCACGTCTGGTACTCGACGGTATCGAGGTGGTCGGCTCGCTGGTCGGCACTCGTCAGGATCTGGTGGAAGCGTTCCAGTTCGCCGCCGAAGGCAAAGTGGTGCCGAAAGTCACCCTGCGTCCGCTGGAAGATATCAATGCCATCTTCAAAGAGATGGAACAGGGTCAGATCCGCGGCCGTATGGTTATCGATCTGCGTAGCTAA	MKAAVVTHDHQVNVTEKTLRPLEYGEALLKMECCGVCHTDLHVKNGDFGDKTGVILGHEGIGVVQKVGPGVTSLKPGDRASVAWFFEGCGHCDYCNSGNETLCRSVKNAGYTVDGGMAEECIVTANYAVKVPDGLDSAAASSITCAGVTTYKAVKVSHIKPGQWIAIYGLGGLGNLALQYAKNVFNAKVIAIDVNDGQLELAASMGADLTINSRNEDAAKVIQEKTGGAHAAVVTAVAKAAFNSAVDAVRAGGRVVAVGLPPEAMSLDIPRLVLDGIEVVGSLVGTRQDLVEAFQFAAEGKVVPKVTLRPLEDINAIFKEMEQGQIRGRMVIDLRS	PGPT0006365_2469	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006365-adhP-K13953	NA	NA
BMS020_00476	1623			hypothetical protein	ATGCATCGTCATTTTCGCCTGCCCGCGCTGGCCGCGCTGTTTCTCTCCGGCGCCTTCTCCGTCTGGGCCGCCGACACGCCGGTTAAAGGCGGTACCTTGATTTATCTGGAGCAGCAACCGCACACCAATCTCTATCCACCCGCCGGCGGCTTTTATCCCAATGGCGGCATACTCAATCAGATCACCGACAAGCTGACCTGGCAGAACCCGAAAACGCTGGAGATTGAGCCGTGGATCGCCGAAAGCTGGACCAGCAATGCCGATAAAACCGAGTACACTTTCCACCTGCGAAAAGGGGTCACCTTCTCGGATGGCACGCCGCTGGACGCCGCCGCGGTCGCCAAAAACTTCGACACCTATGGGCTGGGGGATAAAGCCCATCGCCTGCCCGTCTCGGAGGTGATCAATAACTACCAGCGCAGCGAAGTGATCGACCCGCTGACGGTGAAATTCTACTTCAACAAGCCGTCGCCGGGCTTCCTGCAGGGGACCGCCACCATCGGCTCCGGCCTGGTCTCCCTCAGCACCCTGCAGCGCAATTTCGAGGAGCTGGGCGATGCCCGGCACATCATCGGCTCCGGTCCCTTCGTGGTGCAGGATGAAAAACCGGGCCGCGAGCTGACGCTGGTGGCGCGCAAGGATTATCAGTGGGGGCCGAAAAACATCGCCCAGCAGGGCCCCGCTAACCTCGACGGCATCACCTATATCGTGACCCCGGAAGACAGCGTGCGCATCGGCGCGCTGCTGGCGGGCCAGGCGGGCTTTATTCGCCAGGTGCAGGCCTACGATGAAAAGCAGGCGACCGATCAGGGATTTACGGTCTACGCCGCGCCTACCCGCGGGGTCAACGACAGCCTGAGCTTCCGCCCGGATAACCCACTGGTCGCCGACCTGCGGGTGCGCCAGGCCCTGCTCCATGCCACCAACGCCCGGCAGGTGGTGGAGACGCTGTTCTCCGCTAACTACCCGCAAGCCACCTCCGTGCTGGCCAGCTCCGCCGCCGGCTATGTCAATCTGAGCGATAAGCTCACCTTCGACCAGGCCAAAGCCCGGCAGTTGCTGGATGAGGCCGGCTGGAAACCCGCCGCCGACGGCATTCGCAGCAAAGACGGGCAGCGGCTGGCGCTGACGGTCTATGAGTCGCTCCCGCAGCCGCAGAATAAAGAAGTGCTGCAGCTGATCGCCCAGCAATGGCGCCAGGTGGGGGTAGCGTTAACGGTCAAAGCCGGGGACGCCGGCAGCCGGACGCTTGACAACCTCGACCCGCAGAAAACCCCGCTCACCGTCTCGGAAGTGGGCCGCGCCGACCCGGATGTAGTGAAAAGCATGTTCTTTCCTAACAACCGTGACGCGCTGCTGCAGAAAGGCGGCTCCAGCGATAAAGTGCAGCACTTCCGCGATGATAAACTGAACGACCTGCTGACCGGCATCTCCGCGGCGGTGGAGCCGCAGCAGCGCCTGCAGTTAACCGGCGATGCCCAGCGCTATCTGATCGATAACGCCTATGTGATCCCCATTTTCGAAGAGCCGCAGGTGTTCGCCGGCGCGCCGTGGGTGAAAGGCGTCAGCTTCGAAGCCGTCGGGCGTCCGTCGTTCTACGGCGCCTGGCTGGATAAACACTAA	MHRHFRLPALAALFLSGAFSVWAADTPVKGGTLIYLEQQPHTNLYPPAGGFYPNGGILNQITDKLTWQNPKTLEIEPWIAESWTSNADKTEYTFHLRKGVTFSDGTPLDAAAVAKNFDTYGLGDKAHRLPVSEVINNYQRSEVIDPLTVKFYFNKPSPGFLQGTATIGSGLVSLSTLQRNFEELGDARHIIGSGPFVVQDEKPGRELTLVARKDYQWGPKNIAQQGPANLDGITYIVTPEDSVRIGALLAGQAGFIRQVQAYDEKQATDQGFTVYAAPTRGVNDSLSFRPDNPLVADLRVRQALLHATNARQVVETLFSANYPQATSVLASSAAGYVNLSDKLTFDQAKARQLLDEAGWKPAADGIRSKDGQRLALTVYESLPQPQNKEVLQLIAQQWRQVGVALTVKAGDAGSRTLDNLDPQKTPLTVSEVGRADPDVVKSMFFPNNRDALLQKGGSSDKVQHFRDDKLNDLLTGISAAVEPQQRLQLTGDAQRYLIDNAYVIPIFEEPQVFAGAPWVKGVSFEAVGRPSFYGAWLDKH	PGPT0004430_8014	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
BMS020_00477	945	gsiC_1	COG0601	Glutathione transport system permease protein GsiC	ATGAGCGCTTATCTTCTGCGACGGTTCGGCCAGGGGCTGCTGGTCCTGTGGGCGGCGTTTACCCTCACCTTTTTCCTGCTGCAGGTGCTGCCGGGGGATGCGGTGCTGATCAAGTTTCAGAACCCGGACCTCGGTCTGAGCCCGGCGCAAATCGCCGACATGCGGCTGGCCTACGGCGCCGACAGCCCGCTGTGGCGCCAGTACCTGCACACGCTGCTGGCGATGCTGCACGGCGACTTTGGCTATTCCCTGCAGGCGGGTCTGGCGGTCAGTAGCCTGATTGCCAGCAACCTGCCGGATACCTTAAGCCTCGCCCTGCCGGCGTTCCTGCTGGCCGTGATCCTGGCGTTTGCCCTCGCTTTCGCCTCACGTCTGCCGGGGCTGCGCTGGCTCAGCAACCTCCTGCAGTCGCTGCCGGTGCTGTTTATCTCGCTGCCCACCTTCTGGCTGGGTATCGCCCTGATCCAGCTCTTTTCGTTTCAGCTGCGCTGGATCCCGGTGATCAACCCCGGTCCGCTGGAGGGGCTGATTTTACCGGTTATCGCCGTCGCGCTGCCCATCTCCGCCCCGCTGGCGCAGATCCTGATGCGCAGCATGGATCAGGTGGCGGTTCAGCCCTTCGTCACGGTCGCCCGCGCCAAGGGAATGAGCGAGACCGGCGTCCTCTGGCGCCATGTGATGGGTAACGCCCTGCTGCCGGCGCTGAATATAGCCGGGCTGCTGCTGGGCGAGCTGATTGCCGGGGCGCTGATCACCGAGACCGTCTTCGGCCGCAGCGGCCTCGGCCAGCTGACCCAGCAGGCGGTGAATAACCAGGATATCGCCGTGCTGCAGGCGGTGGTGATGATCTCAGCTCTCGGTTTCGTCCTGATCAACCTGCTGGTCGACCTGGTCATGCCGCGGCTGGATCCCCGACTCCAATTACAGACCGGAGGTGCGAAATGA	MSAYLLRRFGQGLLVLWAAFTLTFFLLQVLPGDAVLIKFQNPDLGLSPAQIADMRLAYGADSPLWRQYLHTLLAMLHGDFGYSLQAGLAVSSLIASNLPDTLSLALPAFLLAVILAFALAFASRLPGLRWLSNLLQSLPVLFISLPTFWLGIALIQLFSFQLRWIPVINPGPLEGLILPVIAVALPISAPLAQILMRSMDQVAVQPFVTVARAKGMSETGVLWRHVMGNALLPALNIAGLLLGELIAGALITETVFGRSGLGQLTQQAVNNQDIAVLQAVVMISALGFVLINLLVDLVMPRLDPRLQLQTGGAK	PGPT0004445_12026	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
BMS020_00478	849	ddpC_1	COG1173	putative D,D-dipeptide transport system permease protein DdpC	ATGAGCCTGGTCGACTATGCCATCGCGGTTCGCCGCCGCCCGGAGTGGCGCAAAGTGCGTCTGCAGCCAGGCCTGTGGCTGGCGTGGGCGGTGATGATCACCGCCCTGTTAATGGCCCTTGCCCCACAGTGGTTTACCTCCGCTAACCCGCTGGAAGGGATCCCCGGCGCTCAGCGCCTGGCGCCGCAGGCGCACTACTGGCTGGGTACCGACCAGCTGGGCCGCGACCTGTGGACGCGGGTGGTTTACGGCGCGGTACATTCTCTGTCGGCGGCGCTGATCGCCGTCGCCATCGGTCTGGTGGTGGGCACCGCCCTTGGCACCCTCGCCGGGGCGCTGGCCGGCCGCGTGGAATCGACCATCATGCGCCTGGTGGATGTCCTGCTGGCTATCCCTTCCCTGCTGCTGCAGCTGACGGTGATCATTCTGCTGGGTTTTGGCACGGTGAATGCGGCGGTGGCGGTCGGCGTGGCGGCCATCGCCAGCTTCGCGCGCCTGGCGCGGGCGGAGGTGGTGCGCGTGCGCCACAGTGATTACGTCGAGGCGGCCCGGGGCAGCGGCGGCACCTTTCTCGCCATCTTCTGGCGTCATATCCTGCCCAACTCGCTCACCGCGGTACTCGCCTTCGCCACGCTGCAGTTTGGTCAGGCGATGCTGGCGCTGGCCACCCTCAGCTTCCTTGGCTACGGCACCCCGCCGCCGGTCCCGGAGTGGGGATTACTGATCGCCGAAGGTCGTAATTACCTGTCGACCGCCTGGTGGCTGACCACCTTCCCCGGCCTCGCCGTGGTCGCGGTGGTCCTGGCCGCCAATCGTCTTAGCCGCCAGTGGAATGGAGTACGCCCATGA	MSLVDYAIAVRRRPEWRKVRLQPGLWLAWAVMITALLMALAPQWFTSANPLEGIPGAQRLAPQAHYWLGTDQLGRDLWTRVVYGAVHSLSAALIAVAIGLVVGTALGTLAGALAGRVESTIMRLVDVLLAIPSLLLQLTVIILLGFGTVNAAVAVGVAAIASFARLARAEVVRVRHSDYVEAARGSGGTFLAIFWRHILPNSLTAVLAFATLQFGQAMLALATLSFLGYGTPPPVPEWGLLIAEGRNYLSTAWWLTTFPGLAVVAVVLAANRLSRQWNGVRP	PGPT0004450_11993	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
BMS020_00479	1617	gsiA_1	COG1123	Glutathione import ATP-binding protein GsiA	ATGAACGTTCTCTCTGTTGAAGATCTGCGCATCAGCTACCGGTCGCGGGGCGAATGGCGCGAAGTGGTGCATAACGTCAGCTTTTCCATTCAGCGCGGCGAAATGCTGGCCTTCGTCGGTGAATCCGGCTCGGGGAAAACCACGACCGCGCAGGCCATTATCGGCCTGCTGGCGGATAACGCCCGCCGCGACGCCGGGCGGATTATCCTCAATGGCGAAGTGATCAGCGACTGGTCGGCAAAACGCCTGAACCGCCTGCGCGGGGTGAGCATCAGCCTGGTGCCGCAGGACCCCGGCAATTCGCTTAATCCGGTAAAAACCATTGGTCAGCAAGTGGAAGAGATCCTGCGGCTGCATCAGTCCCTTTCCGCCGCCGAACGCCGGCAGCAGGTCCTCAACCTGCTCGCTAAAGTCGGGCTCAGCCACCCGGAACAGCGTTTTGACCAGTACCCGCATCAGCTGTCGGGCGGGATGAAACAGCGGGTGCTGATCGCCATCGCCATCGCCCTGCAGCCGGATCTGATTATTGCCGACGAGCCCACCAGCGCCCTCGACGTTACGGTGCAAAAGCGCATTCTCGATCTGCTCGACATCCTGCGGCGCGAGTCGGGAACCGCCGTGCTGTTTGTCACTCACGATCTGGCGCTGGCCGCCGAACGCGCCGACCGGATCATGGTGTTTCGCCAGGGCGAGATTCAGGAACAGGGCGCCACCGAGGCGATTGTCCGGCGTCCCCAGCACCCTTACACCCGCCAGTTGCTCCACGATCTGCAGGACGCGCCGCTGAGGCTGACGGCGGATCGTCACCGTCCGCTGGCCACGCCGGCCATTCGCGTCGAAGGGATCAGCAAACGCTTCTCGCTGGGCAAACAGGCCCTGCAGGCGCTCGATAGCGTCAGCTTTGAGGTCAGACGCGGCAGCACCCATGCGCTGGTGGGCGAATCCGGCTCCGGGAAAACCACCCTGGCGCGGATCCTGCTGGGCTTCGAGCGCGCCGACGCCGGACAGGTGACCATCGACGGTATTGACGCCGGGCATCTCAGCCGCGAGGCGCAGCGTCAGCTGCGGCGCAAAATCCAGTTCGTCTACCAGAACCCCTTCGCTTCGCTCGACCCGCGCCAGACGCTGTTTGCGATTATCGAAGAGCCGTTAAAAAACTTTGAGCGCCTCAGCGCGGCGACGCGTCGCCAGCGTGTGGAGAGCGTCGCCGCCCGGGTGGCGCTGGCCCCGGAGCTACTGTCGCGGACGCCGCGGGAGCTTTCCGGCGGCCAGCGGCAGCGGGTGGCGATTGCCCGGGCGCTGATCCTCGAGCCGGCGATACTGGTTCTTGACGAAGCGACCTCGGCGCTCGATGTCACCGTTCAGGCGCAGATCCTCGCCCTGCTGCAGCAGCTACAGCAGCAGCTTGGTCTGAGCTACCTGTTCATTACCCACGATCTGGCGACAGTGAGGCGGATTGCCGACAGCGTCACGGTGCTGCGCGCTGGCCAGGTGGTGGAGCATGGCGACGTTGGGCGCCTGTTCGCCGCTCCGCAGCAGGCCTACACCCGCGAACTGATCGCCGCCATTCCCCAGGTATCCCCACGCCTGGCTCAGGCCCACATGGAGAACGCATAA	MNVLSVEDLRISYRSRGEWREVVHNVSFSIQRGEMLAFVGESGSGKTTTAQAIIGLLADNARRDAGRIILNGEVISDWSAKRLNRLRGVSISLVPQDPGNSLNPVKTIGQQVEEILRLHQSLSAAERRQQVLNLLAKVGLSHPEQRFDQYPHQLSGGMKQRVLIAIAIALQPDLIIADEPTSALDVTVQKRILDLLDILRRESGTAVLFVTHDLALAAERADRIMVFRQGEIQEQGATEAIVRRPQHPYTRQLLHDLQDAPLRLTADRHRPLATPAIRVEGISKRFSLGKQALQALDSVSFEVRRGSTHALVGESGSGKTTLARILLGFERADAGQVTIDGIDAGHLSREAQRQLRRKIQFVYQNPFASLDPRQTLFAIIEEPLKNFERLSAATRRQRVESVAARVALAPELLSRTPRELSGGQRQRVAIARALILEPAILVLDEATSALDVTVQAQILALLQQLQQQLGLSYLFITHDLATVRRIADSVTVLRAGQVVEHGDVGRLFAAPQQAYTRELIAAIPQVSPRLAQAHMENA	PGPT0004435_5040	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
BMS020_00480	987	luxA_1	COG2141	Alkanal monooxygenase alpha chain	ATGCCTAAACGCCTCGGCTTTTTTACCCGTCTGCTCGATCAGGGCTCCGCACAAACGCGCTACCGGCTGGCGGCCGAACAGATCCGCCACGCGGAGCGCGTCGGCTTCGACAGCGCATGGATTGCACAGCACCATTTTCATGAACAGGAAGGCGGCCTGCCTTCCCCGCTGGTGTTCCTCGCCCACGTGGCGGCGCAGACTGACCGCATTCGCCTCGGCACAGCGATTATCACGTTGCCCATGGAGAATCCGCTGCGCGTCGCCGAAGACGCGGCGGTGCTGGATTTACTCACCGACGGGCGTCTGGAGGTGGGATTTGGTTCCGGCGGCACGCCAACGTCGTTTCTGCCCTTCGGCCTGACCAGCGAGCAGCGCGGGGCGGTGTTTGCCGACCATCTGCACCTGATCCACAGCGCCTGGCGCGGCGACACCCTCAGCCACCCGGACAACCGTCTCTATCCGCCCGCGCCGCAGCTGGCGGCGCGCATCTGGATCGCCACCTTCTCGGTGGAAGGCGCCATCCGCGCCGGTCAGGCGGGGCACGGGCTGATGCTGTCGCGCACGCAGCCCCGGCCGCCCGGTGAGCCACGCCTGCCGCTGGACGCCATTCAGAACCCGATCGTCGACGCCTATCTGGCGGCGCTGCCGGACGGCGTTGCGCCGCGGATCCTCGCTTCGCGCACCGCCTTCGTCGCCGACAGTCGCGCCCACGCCCTGCAGGTCGCCGAACCCGGCCTGCGCAAGCAGGCGGCACAGCACCGGGCTGCGGGTCATCTGATAGAAGGTGACAGTGTCACTGACTATCTGCAACAGCTGGATGCCCACGTGGGCGATCCTGAGCATGTTGTTGCCTCCCTGGCGCAGGACAGCGTGCTGGCCCGCGCCACCGATGTTTCGTTCCAGGTGCACTCGGTGGAGCCTTCGCACCGGGATACGCTGCGTTCCATTGAGCTGATCGCTCAGCATATTGCCCCCCACATCAGATAA	MPKRLGFFTRLLDQGSAQTRYRLAAEQIRHAERVGFDSAWIAQHHFHEQEGGLPSPLVFLAHVAAQTDRIRLGTAIITLPMENPLRVAEDAAVLDLLTDGRLEVGFGSGGTPTSFLPFGLTSEQRGAVFADHLHLIHSAWRGDTLSHPDNRLYPPAPQLAARIWIATFSVEGAIRAGQAGHGLMLSRTQPRPPGEPRLPLDAIQNPIVDAYLAALPDGVAPRILASRTAFVADSRAHALQVAEPGLRKQAAQHRAAGHLIEGDSVTDYLQQLDAHVGDPEHVVASLAQDSVLARATDVSFQVHSVEPSHRDTLRSIELIAQHIAPHIR				NA	NA	NA	NA	NA
BMS020_00481	1092			hypothetical protein	ATGACGCTGAGTCAGGATATTCTGGCCGAACTGGCGGAGATCGCCGCCGGTTCCTCGCTCGACCAGGCGCGCGCAGTCCGCGATGCCGCTACCCGACATGCGCAGGGAAGTTATGAAGTGCTGTTCAGCCAGCAGGACGCCGACTTTCCCCTCGATGAACGCTTCGCGGTGGCGGCAAAGGTGGCGAAGCTCCATCAGGCGGACGCGCTGGCGGCGCACTATGCCGGCTTCGGCCTGGCCAATCCGACCACGGATCGTCTGGTTCCGGCGCTGACCTTTGCCCGCCTGCTGACCTTCACCCCCGTCGAAGCGACACCCGGCGCGCTGCAGGCTCTGACAAACGCGGGCTGGAGCCTGCGGGGCATCGTCACCCTGGCGCAGCTGGTGGCCTTTGTCAGCTTCCAGAGCCGCCTGCTGCTGGGTCTGCGGGCGCTCAACCACCAGCCCATCGTCAGTGCCGATACGCCGGTGGTGGCCGGGTACTGGCACACCACCCCGCACGCGCAGAGCGGTAAAGCGGCCCCCGTGCGCTTCACCCGCGAGGAGCTGCACTGGGAACCCTGGCTGGCGGATAAACCGCTGGTGGAATTTAGCGCTGAAGAACAGGCGATTCTGGCCAAATATGGCCATAGCGATTCGCCCTACTTCCGCCTGCTGGCGCGCAACCAGCCGGTGCTGGAGCAGCGGACGCTGACCGATAAAGGCATTTTCTATACCCCGGGGGGATTGCCGCGCGCCGAACGTGAACTGGCCGCCACGGTGGCCAGTAAAATCAACGGCTGTATTTACTGCGCCTCGGTGCATGCCCGCAAAGCGGCGCAGCTGGCGAAGGACGAGACCGCCGTCGACACGCTGCTGGCGGTGACGCCGGGAGAGGATCTGCGCGGTGGGCAGTCGCCGCGCTGGCAGGCGGAAATCAACGCCGCCGCCGCGCTATCGGTGACGCCGCCCGCGCTGAATGCCAGCCATCTGGCAGCGCTTGATGAACAGGGCTTAGATACTCTGGCCCAGCTGGATCTGCTGCAGTCAGCGGCCTTTTTCGCCTGGGCAAACCGGCTGATGCTGACGCTCGGCGAGCCCTGGCGTGAGTAA	MTLSQDILAELAEIAAGSSLDQARAVRDAATRHAQGSYEVLFSQQDADFPLDERFAVAAKVAKLHQADALAAHYAGFGLANPTTDRLVPALTFARLLTFTPVEATPGALQALTNAGWSLRGIVTLAQLVAFVSFQSRLLLGLRALNHQPIVSADTPVVAGYWHTTPHAQSGKAAPVRFTREELHWEPWLADKPLVEFSAEEQAILAKYGHSDSPYFRLLARNQPVLEQRTLTDKGIFYTPGGLPRAERELAATVASKINGCIYCASVHARKAAQLAKDETAVDTLLAVTPGEDLRGGQSPRWQAEINAAAALSVTPPALNASHLAALDEQGLDTLAQLDLLQSAAFFAWANRLMLTLGEPWRE				NA	NA	NA	NA	NA
BMS020_00482	1155	araJ	COG2814	Putative transporter AraJ	ATGAAAAAAACGATTTTTTCACTGGCGCTGGGCACTTTCGGACTCGGCATGGCGGAATTTGGCATTATGGGCGTGCTGCCGGACATGGCGCGCGATGTCGGGATTTCAATCCCCGCCGCCGGCAATATGATTGCCTGGTATGCCTTCGGCGTGGTGATCGGCGCGCCGATCATGGCGTTGCTCTCCAGTCGGTTTTCGTTGAAATCGGTGATGCTGTTTCTCGCCGCCCTGTGCATTCTCGGCAATACCCTGTTTACCTTCTCCAGCAGCTACGCCATGCTGGCGCTTGGCCGGCTGGTTTCCGGGTTTCCCCACGGGGCTTTCTTCGGCGTGGGGGCGATCATCCTGTCGAAAATCGCGCCGCCGGGGAGGGTGACCGCCGCGGTGGCGGGGATGATCGGCGGCATGACGGTGGCTAACCTGGTGGGCGTTCCCGGGGGCACCTGGCTTGGGCATCATTTTAGCTGGCGCTATACCTTCGCGCTTATCGCGGTGTTTAACGTCGCGGTGTTTATGGCCATCTTCTGCTGGGTCCCTACGCTGTATGATCGGGCCACCACCCGGCTGCGCGAGCAGTTCCGTTTCCTCGCTTCCCCGGCGCCGTGGCTGATTTTTGCCGCCACCATGTTCGGCAACGCCGGGGTGTTCGCGTGGTTCAGCTATATCAAGCCCTTTATGCTCAACGTTTCCGGCTTTGCCGAAAGCCGGATGATGCTGATTATGATGCTGGCGGGGCTGGGGATGGTGGTCGGCAACCTGTTCAGCGGCAAAATTTCCGGGCGCTACAGTCCGCTGCGCATCGCAGCCATCACCGACGGGGCGATCGCTGTGACGCTGCTGCTGATCTTTGCCTGCGGGGAGCATAAAATCGCTTCGCTGACGCTGGCGTTTTTCTGCTGTGCCGGGCTGTTTGCCCTGTCGGCGCCGCTGCAGATCCTGTTGCTGCAGAACGCCAAAGGCGGCGAGATGCTGGGGGCGGCTGGGGGGCAGATCGCCTTTAACCTCGGGAGCGCCATCGGCGCCTTCTGCGGCGGAATGATGATTGCCCAGGGCTTCGGCTGGAACAGCGTGGCGCTCCCCGCCGCCACGCTGTCGTTTCTGGCGATGAGCGCCTTGCTCATCTACGGCCGCCATCAGCGCCGACAGGCTTGCTAA	MKKTIFSLALGTFGLGMAEFGIMGVLPDMARDVGISIPAAGNMIAWYAFGVVIGAPIMALLSSRFSLKSVMLFLAALCILGNTLFTFSSSYAMLALGRLVSGFPHGAFFGVGAIILSKIAPPGRVTAAVAGMIGGMTVANLVGVPGGTWLGHHFSWRYTFALIAVFNVAVFMAIFCWVPTLYDRATTRLREQFRFLASPAPWLIFAATMFGNAGVFAWFSYIKPFMLNVSGFAESRMMLIMMLAGLGMVVGNLFSGKISGRYSPLRIAAITDGAIAVTLLLIFACGEHKIASLTLAFFCCAGLFALSAPLQILLLQNAKGGEMLGAAGGQIAFNLGSAIGAFCGGMMIAQGFGWNSVALPAATLSFLAMSALLIYGRHQRRQAC				NA	NA	NA	NA	NA
BMS020_00483	438			hypothetical protein	ATGCAAAATGTTGATGTTGGCTTTACCCATGTCGCCTTTACCGTCCGCTGTCTGGCCAGCAGCATCGATTTTTATACCCGCTACACGGCAATGACCGTTATTCACCAGCGCGAACCCAACCTCCCCTCGGCGCGTAAAGTGGCGTGGCTCAGCGATCGCACCCGACCTTTCGCCCTGGTGCTGGTGCAAAGTGATGACCCTGCCGACACGCCGCTGGGTCCGTTCGGCCATCTCGGCGTCGCCTGCGCCACCCAGGCGGAGATCGATGAGAAGGTCGCCCAGGCGCGGCGGGAAGGCGTTCTGCGCCGGGAACCGGAGCAGCTGGGCGATCCTGTGGGCTATTTCGCTTTCTTTGCCGACCCGGACGGTAACACCCTGGAGCTGTCATGGGGGCAGCGGGTGGGGCTGGAAGTCATTGCCGCGGGGAACGTCAGCTAG	MQNVDVGFTHVAFTVRCLASSIDFYTRYTAMTVIHQREPNLPSARKVAWLSDRTRPFALVLVQSDDPADTPLGPFGHLGVACATQAEIDEKVAQARREGVLRREPEQLGDPVGYFAFFADPDGNTLELSWGQRVGLEVIAAGNVS	PGPT0013300_1497	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
BMS020_00484	819			Polyphosphate:ADP phosphotransferase 3	ATGGGTAATAAGAAAAGCGGTCATCCTGTCGACGCGGCGGTGAAGATCGCCCCGCTCGACAATAAAGCGTACGAGAAGGCGCTGCGCAAGCTCCACGTTGAGCTGGTAAAACTGCAGCGCTGGGTGGTGCATAAAGGGCTGAAGGTATGCATCGTCTTTGAAGGCCGGGACGGCGCCGGCAAAGGCGGCACGATTAAGGCGATCACCGAGCGCGTCAGTCCGCGGATATTCCGGGTCGTCGCCTTACCCTCGCCCACCGAACGCGAGAAAAGTCAGCTCTATTTTCAGCGCTATATCAAGCACCTCCCGGCGGCTGGCGAAATCGTGATTTTCGATCGCAGCTGGTATAACCGCGCCGGCGTCGAACGAGTGATGGGCTTTTGTACCCCGGAGGAGGTGCAGAAGTTCCTAGACGGCGCGCCGATGGTGGAGCGCGGCATGGTCGAGTCGGGCATTATCCTGCTCAAGTACTGGCTGGAGGTCTCTCCGCAGGAGCAGGAGCGGCGCCTGCGGGATCGCATCGACGACGGGCGCAAGATCTGGAAGCTCTCGCCGATGGACATCAAGTCTTTCAACCGCTGGGATGAATATACCGCTGCCCGCGACGCCATGTTCGCCGCCACCGACACCGCCTGGGCGCCGTGGTTCGTCGCCCGCTCCGAGGATAAAAAGCGGGTGCGTCTGAATATCATTACCCACCTGCTGTCGCAGATCCCCTACGAAGCCTTGCCAGTGGAGCATGTCACGCTGCCGAAGCGCAAAATGGGCAAAATGAAACAGACCAATTTCCCCTTCCGCTTTATTCCGGAGAAGTTCTGA	MGNKKSGHPVDAAVKIAPLDNKAYEKALRKLHVELVKLQRWVVHKGLKVCIVFEGRDGAGKGGTIKAITERVSPRIFRVVALPSPTEREKSQLYFQRYIKHLPAAGEIVIFDRSWYNRAGVERVMGFCTPEEVQKFLDGAPMVERGMVESGIILLKYWLEVSPQEQERRLRDRIDDGRKIWKLSPMDIKSFNRWDEYTAARDAMFAATDTAWAPWFVARSEDKKRVRLNIITHLLSQIPYEALPVEHVTLPKRKMGKMKQTNFPFRFIPEKF	PGPT0002690_1896	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002690-ppk2-K22468	NA	NA
BMS020_00485	327			hypothetical protein	ATGATGCTTGAGCAATTCAATATCTATCGAAACTGTTCTGCTCAGACAAATAAAACCCTGCCGTATTATATGATCGTGCAGAATGATTATTATGCAGACCTGGCCACGAGAGTCATTATTCCATTAATGCGACCGCAACAGTTACCTCGCTGGCATCAGCATGTCACACCAAGGATAAATATAGAATTTGACAGCTTTTTACTTTGTACGCCGATGATCAGTAATTTAAATAATAAACGGATCCAGCCACAGGATTTCGTCTGCAATCTGAGTCATGCGCGCCAGGGCGTTATCGATTCAATCGATACACTGATCACGAACTGCTGA	MMLEQFNIYRNCSAQTNKTLPYYMIVQNDYYADLATRVIIPLMRPQQLPRWHQHVTPRINIEFDSFLLCTPMISNLNNKRIQPQDFVCNLSHARQGVIDSIDTLITNC	PGPT0027530_27	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-CcdB-CcdA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027530-toxin_ccdB-K19163	NA	NA
BMS020_00486	657	fdnI	COG2864	Formate dehydrogenase, nitrate-inducible, cytochrome b556(Fdn) subunit	ATGAGTAAATCGAAGATGATAGTGCGCACGACCTTTATCGATCGCGCCTGTCACTGGACGGTGGTGATCGCTTTCTTCCTCGTGGCGCTATCGGGTATTTCGTTTTTCTTCCCGACCCTGCAGTGGCTGACGGAAACCTTCGGTACCCCGCAGATGGGGCGTATTCTGCACCCCTTCTTCGGAGTGCTGATTTTTATCGCCCTGATGTTTATGTTCGTGCGTTTTGTCCATCACAACATCCCTGATAAACAGGATATCCCCTGGCTGAAAGGCATTGTGGAGGTGCTGAAAGGCAACGAGCATAAAGTGGCGCGGGTCGGTAAATATAACGCCGGGCAAAAGATGATGTTCTGGACCATCATGAGCATGATTTTTGTGCTGCTGGTGACCGGCGTGATTATCTGGCGTCCCTGGTTTGCCCACTATTTCCCGATTCAGGTGATTCGCTACAGCCTGTTAATTCACGCGACGTCGGCCATTATTCTGATCCACGCAATCCTTATCCATATGTATATGGCGTTCTGGGTGAAGGGGTCGATTAAGGGGATGATTGAAGGCAAGGTCAGCCGCCGTTGGGCGAAGAAACATCACCCGCGCTGGTATCGCGATGTCGAACGTCTGGAGGCGATCAAAGAGAGTCGCGAAGGGATGAAGTAA	MSKSKMIVRTTFIDRACHWTVVIAFFLVALSGISFFFPTLQWLTETFGTPQMGRILHPFFGVLIFIALMFMFVRFVHHNIPDKQDIPWLKGIVEVLKGNEHKVARVGKYNAGQKMMFWTIMSMIFVLLVTGVIIWRPWFAHYFPIQVIRYSLLIHATSAIILIHAILIHMYMAFWVKGSIKGMIEGKVSRRWAKKHHPRWYRDVERLEAIKESREGMK	PGPT0001110_58	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	FUMARATE_BASED_NITROGENASE_REGULATION,PGPT0001110-fdnI-K08350	NA	NA
BMS020_00487	885	fdnH	COG0437	Formate dehydrogenase, nitrate-inducible, iron-sulfur subunit	ATGGCGATGGAAACACAAGACATTATTAAACGCTCCGCGACCAACCCGATCACGCCCGCGCCGCGCGCGCGGGACCATAAGGCGGAAGTCGCCAAGCTTATCGATGTCTCCTCCTGCGTGGGCTGTAAAGCCTGCCAGGTGGCCTGCTCCGAGTGGAACGACATCCGCGATGAGGTGGGGCACTGCGTCGGGGTGTACGACAACCCGGCGGATCTCAGCGCTAAATCCTGGACGGTGATGCGCTTTAGCGAGACCGAACAGAACGGCAAACTGGAGTGGCTTATCCGTAAGGATGGCTGTATGCACTGCGAAGAGCCGGGCTGCCTGAAGGCCTGCCCGTCCGCCGGGGCGATTATTCAGTACGCCAACGGCATCGTCGATTTCCAGCAGGAAAACTGCATCGGCTGCGGCTACTGCATTGCCGGCTGTCCGTTTAACGTCCCGCGTCTCAATAAAGAGGATAACCGGGTCTATAAATGCACCCTGTGCGTGGACCGGGTCAACGTCGGTCAGGAACCGGCGTGCGTGAAAACCTGTCCGACCGGCGCGATCCACTTCGGTACGAAGAAAGAGATGCTGGAGGTGGCCGAGGAGCGGGTGGCTAAGCTGAAAAAACGCGGCTATGCCATGGCCGGGATTTACAACCCGCAGGGCGTCGGCGGCACCCATGTGATGTACGTCCTGCATCATGCCGACCAGCCCGAGCTTTATCACAAGCTGCCTGCTGCGCCGAAGATTGATACCTCGGTGGAGCTGTGGAAAGGGATCCTGAAGCCGCTGTCGGCGGCGGGCTTTATCGCTACCTTTGCCGGGCTTATCTATCACTACATCGGTATCGGGCCAAATAAGGAAGTTGACGACGACGAGGAGGAGCATGATGAGTAA	MAMETQDIIKRSATNPITPAPRARDHKAEVAKLIDVSSCVGCKACQVACSEWNDIRDEVGHCVGVYDNPADLSAKSWTVMRFSETEQNGKLEWLIRKDGCMHCEEPGCLKACPSAGAIIQYANGIVDFQQENCIGCGYCIAGCPFNVPRLNKEDNRVYKCTLCVDRVNVGQEPACVKTCPTGAIHFGTKKEMLEVAEERVAKLKKRGYAMAGIYNPQGVGGTHVMYVLHHADQPELYHKLPAAPKIDTSVELWKGILKPLSAAGFIATFAGLIYHYIGIGPNKEVDDDEEEHDE	PGPT0001105_59	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	FUMARATE_BASED_NITROGENASE_REGULATION,PGPT0001105-fdnH-K08349	NA	NA
BMS020_00488	2412	fdnG_1	COG0243	Formate dehydrogenase, nitrate-inducible, major subunit	ATGACCAACCACTGGGTGGATATCAAAAACGCGAACGTCGTGGTGGTGATGGGCGGCAACGCCGCGGAAGCCCACCCGGTGGGATTCCGCTGGGCGATGGAAGCGAAAAACAACAACGACGCCACGCTTATCGTTGTCGACCCGCGCTTTACGCGTACGGCGTCGGTGGCGGATATCTATGCGCCGATTCGCTCCGGTACCGACATTACCTTCCTGTCGGGGGTCCTGCTGTACCTGATCGAACATAACAAAATCAATGCCGAGTACGTGAAGCACTACACCAACGCCAGCCTGCTGGTGCGGGATGATTTTGCCTTCGAAGAGGGGCTGTTCAGCGGCTATGATGCGGACAAACGCCAGTATGATAAATCGTCCTGGAACTACCAGTTCGATGAAAACGGCTACGCCAAACGCGATGAGACGCTCAGCCATCCGCGCTGCGTGTGGAACCTGCTGAAGCAGCATGTTTCCCGTTACACGCCGGAGGTGGTCGAAAACATCTGCGGTACGCCGAAAGCGGACTTCCTCAGGGTGTGCGACGTGCTGGCCTCAACCAGCGCCGCCGATCGCACCACCACTTTCCTGTATGCCCTGGGCTGGACGCAGCACACCGTCGGCGCGCAAAACATTCGCACCATGGCGATGATCCAGCTGCTGCTCGGCAATATGGGCATGGCCGGCGGCGGCGTGAATGCCCTGCGCGGTCACTCTAATATTCAGGGACTGACCGACCTTGGCCTGCTGTCCACCAGCCTGCCGGGCTACCTGACGCTGCCTTCTGATAAGCAGCCGGATCTGCAGACGTATCTGACGGCCAACACGCCAAAAGCGACCCTGCCGGACCAGGTGAACTACTGGAGCAACTACCAGAAATTCTTTGTCAGCCTGATGAAGTCCTTCTACGGCGAGGCGGCGCAAAAAGAGAACGACTGGGGCTTCGAGTGGTTACCGAAGTGGGACCAGGCTTACGACGTGATCAAGTACTTCAACATGATGGATAACGGCAACGTCACCGGCTATATCTGCCAGGGCTTTAACCCGGTGGCGTCGTTCCCGGATAAAAACAAGGTGGTTCGCAGCCTGAGCAAGCTGAAGTATATGGTAGTTATCGACCCGCTGGTCACCGAAACCTCCACCTTCTGGCAAAACCACGGCGAGTCGAACGATGTCGACCCGTCGACGATTCAGACGGAAGTCTTCCGCCTGCCGTCCACCTGCTTTGCCGAAGAGGATGGTTCGATCGCTAACTCTGGCCGCTGGCTGCAGTGGCACTGGAAAGGTCAGGATGCCCCAGGTGAAGCACGTAACGACGGCGAGATCCTGGCCGGGATTTACCATCGTCTGCGCGAACTGTACCGCACCGAAGGCGGTAAAGGCGCTGAGCCGCTGCTGAAGATGAGCTGGCGCTATAAACAGCCGGATCGCCCCGAGTCTGAAGAGGTCGCGAAAGAGAACAACGGCTACGCGCTGGCGGATCTTTACGATCAACATGGCGCTTTGCTGGCGAAAAAAGGGCAACTGCTCAATAGCTTCGCGCTGCTGCGCGATGACGGCACCACCGCGTCGTCTTGCTGGATCTACAGCGGCAGCTGGACGGAGCAGGGCAACCAGATGGCGAACCGCGATAACGCCGACCCGTCGGGTCTGGGCAATACGCTGGGCTGGGCCTGGGCGTGGCCGCTCAATCGCCGGGTGCTCTATAACCGCGCGTCAGCCGACATCAACGGCAAGCCGTGGGATGCGAAGCGGATGCTGATCCAGTGGAACGGCAGCAAGTGGGTCGGGAATGATATTCCGGACTTCAATACCGCGCCGCCGGGGAGCAACACCGGGCCGTTTATCATGCAGCAGGAGGGGCTGGGTCGCCTGTTCGCACTGGATAAGCTGGCGGAAGGACCGTTCCCGGAACACTACGAGCCGATGGAAACCCCGCTTGGCACTAACCCGCTGCACCCGAAGGTGGTCTCCAGCCCGGTGGTGCGTGTGTATGAAGAGGACGCCATTCGCTTAGGTAAGAAGGATAAGTTCCCGTACGTCGGGACCACCTATCGTCTTACCGAACACTTCCATACCTGGACCAAGCATGCGCTGCTCAATTCCATCGCGCAGCCGGAACAGTTTGTCGAAATCAGCGAAGGGCTGGCAAAAGCGAAAGGCATCGCCAACGGCGACCGGGTAAAAGTCAGCAGCCAGCGCGGCTTTATTCGCGCGGTGGCGGTGGTGACGCGCCGTCTGCAAACTCTCAACGTCAACGGCCAGCAGGTGGAGACCGTCGGGATCCCGCTGCACTGGGGTTTTGAAGGCGTGGCTCGCAAAGGCTATATCGCTAACACCCTGACGCCGAACGTCGGCGATTCCAACTCGCAAACGCCGGAGTACAAGGCGTTTCTGGTCAACATCGAGAAAGCGTAA	MTNHWVDIKNANVVVVMGGNAAEAHPVGFRWAMEAKNNNDATLIVVDPRFTRTASVADIYAPIRSGTDITFLSGVLLYLIEHNKINAEYVKHYTNASLLVRDDFAFEEGLFSGYDADKRQYDKSSWNYQFDENGYAKRDETLSHPRCVWNLLKQHVSRYTPEVVENICGTPKADFLRVCDVLASTSAADRTTTFLYALGWTQHTVGAQNIRTMAMIQLLLGNMGMAGGGVNALRGHSNIQGLTDLGLLSTSLPGYLTLPSDKQPDLQTYLTANTPKATLPDQVNYWSNYQKFFVSLMKSFYGEAAQKENDWGFEWLPKWDQAYDVIKYFNMMDNGNVTGYICQGFNPVASFPDKNKVVRSLSKLKYMVVIDPLVTETSTFWQNHGESNDVDPSTIQTEVFRLPSTCFAEEDGSIANSGRWLQWHWKGQDAPGEARNDGEILAGIYHRLRELYRTEGGKGAEPLLKMSWRYKQPDRPESEEVAKENNGYALADLYDQHGALLAKKGQLLNSFALLRDDGTTASSCWIYSGSWTEQGNQMANRDNADPSGLGNTLGWAWAWPLNRRVLYNRASADINGKPWDAKRMLIQWNGSKWVGNDIPDFNTAPPGSNTGPFIMQQEGLGRLFALDKLAEGPFPEHYEPMETPLGTNPLHPKVVSSPVVRVYEEDAIRLGKKDKFPYVGTTYRLTEHFHTWTKHALLNSIAQPEQFVEISEGLAKAKGIANGDRVKVSSQRGFIRAVAVVTRRLQTLNVNGQQVETVGIPLHWGFEGVARKGYIANTLTPNVGDSNSQTPEYKAFLVNIEKA	PGPT0001100_195	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	FUMARATE_BASED_NITROGENASE_REGULATION,PGPT0001100-fdnG-K08348	NA	NA
BMS020_00490	588	fdnG_2	COG0243	Formate dehydrogenase, nitrate-inducible, major subunit	ATGGACGTCAGCCGCAGAAAGTTCTTTAAGATCTGCGCAGGCGGTATGGCCGGAACCACAGCTGCCGCCCTGGGCTTTGCCCCCAAAATGGCGCTGGCTCAGGCACGCAACTACAAATTGCTGCGTGCGAAAGAGATCCGTAACACCTGCACTTACTGCTCCGTTGGCTGCGGGCTATTAATGTATAGCCTCGGCGACGGCGCGAAAAACGCCAAAGAAGCGATTTACCATATTGAAGGGGATCCGGACCATCCGGTGAGCCGCGGCGCGTTATGCCCGAAAGGCGCCGGCCTGCTGGACTATGTCCACAGCGACAACCGCCTGCGCTACCCGGAATACCGCGCGCCGGGATCTGATAAATGGCAGCGACTCTCCTGGGATGAAGCCTTCAGCCGCATCGCGCGGCTGATGAAAGCCGACCGCGACGCCAACTTTATGGAAAAGAACGAACAGGGTGTGACGGTTAACCGCTGGCTTTCCACCGGCATGCTGTGTGCTTCGGCGGCAAGTAATGAAACCGGCATGCTGACGCAAAAATTTGTGCGTTCGCTCGGCATGCTGGCGGTAGACAACCAGGCGCGCGTCTGA	MDVSRRKFFKICAGGMAGTTAAALGFAPKMALAQARNYKLLRAKEIRNTCTYCSVGCGLLMYSLGDGAKNAKEAIYHIEGDPDHPVSRGALCPKGAGLLDYVHSDNRLRYPEYRAPGSDKWQRLSWDEAFSRIARLMKADRDANFMEKNEQGVTVNRWLSTGMLCASAASNETGMLTQKFVRSLGMLAVDNQARV	PGPT0001100_302	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	FUMARATE_BASED_NITROGENASE_REGULATION,PGPT0001100-fdnG-K08348	NA	NA
BMS020_00491	879	yddG	COG0697	Aromatic amino acid exporter YddG	ATGGAGAAAAAGAGAGCCACGACCATCGGCTTCGCCGCCATTATTTTATGGAGCACCATGGTCGGATTGATTCGCGGCGTCAGCGAAGGACTGGGACCGGTCGGCGGCGCGGCGATGATTTACAGCCTCAGCGGCCTGCTGCTGATTTTTACCGTCGGTTTCCCTAACCTGCGCCAGATCCCGCGCCGCTATCTGCTGGCCGGCAGCGCGCTGTTCGTCAGCTATGAAATCTGCCTCGCGCTATCCCTGGGCTATGCCGCCAGTCGTCAGCAGGCCATTGAAGTGGGGATGGTCAATTACCTGTGGCCCAGCCTGACCATCCTGTTCGCCATCCTGTTTAATGGTCAGAAAAGCAGCTGGCTGGTGATCCCCGGTTTGCTTCTCGCCCTGCTTGGCGTCGGCTGGGTGTTGGGGGGTGAGCACGGCCTGCAGCTGGACGAGATTATCAGCAACGTCATCTCCAGTCCGCTCAGCTATCTGTTGGCCTTTATCGGCGCCTTTATCTGGGCGGCCTACTGCACGGTGACGGCCAAATATGCCCGCGGCAAAAATGCCATTACCCTGTTCGTCCTGTTAACCGCGCTGACGCTGTGGCTGAAGTTTCTCGCCACGCCGCAGCCGCCGATGGTCTTCAGCTGGCCGGTCAGCATCAAGCTGCTGACGGTAGCGGTGGCGCTCGGTCTGGCCTACGCCGCGTGGAACGTGGGGATCCTCCACGGCAACGTCAGCCTGCTGGCGGCGGCCTCCTACTTCACGCCGGTGCTCTCCTCCGCGCTGGCGGCGATCCTGCTTAGCGCCACGCTATCGTGGCCCTTCTGGCAGGGGGCCGGGATGGTGTGTCTCGGCTCCCTGCTCTGCTGGTACGCGACCCGCCGTTAG	MEKKRATTIGFAAIILWSTMVGLIRGVSEGLGPVGGAAMIYSLSGLLLIFTVGFPNLRQIPRRYLLAGSALFVSYEICLALSLGYAASRQQAIEVGMVNYLWPSLTILFAILFNGQKSSWLVIPGLLLALLGVGWVLGGEHGLQLDEIISNVISSPLSYLLAFIGAFIWAAYCTVTAKYARGKNAITLFVLLTALTLWLKFLATPQPPMVFSWPVSIKLLTVAVALGLAYAAWNVGILHGNVSLLAAASYFTPVLSSALAAILLSATLSWPFWQGAGMVCLGSLLCWYATRR				NA	NA	NA	NA	NA
BMS020_00492	774	lvr		Levodione reductase	ATGCGTTTTCGCGATAAAGTGGTCGCCATCACCGGCGCGGCCCAGGGCATTGGCCGCCAGACCGCGGAGCAGGCGGCTGCGGAAGGCGCGGCTCTGCTGCTCATCGATCGCGCGCCCTGGGTGCGCGAGCTGGCGGCGACCCTGGCGCAGTCCGGCAGTCAGGTGCTGGCGCTGGAGGCGGACCTGGAACAGTGGTCGAGCGCCGAGCAGGCATTTGCCGACGGGGTCGCGCATTTTGGCCGCATCGATGTGCTTATCAATAACGTCGGGGGGACCATCTGGGCGCGGCCGTTTGCCGAATACCAGCCGGACCAGATCGAGAAAGAGATCCGCCGCTCGCTGTTTCCCACCCTGTGGGGCTGTCGCGCGGCGCTGCCCTGGATGCTCAAGCAGGGCAAAGGCAGCATCGTCAACGTCTCATCGGTGGCGACGGCGGGGGTCAACCGGGTGCCTTACTCGGCGGCGAAAGGCGGCGTCAATGCGCTGACCCGGTCGATCGCCATGGAGTACAGCGGCAGCGGCATCCGCATCAATGCCGTCGCGCCGGGCGGGACGGAGGCGCCGCCGCGCCTGACGCCGCGTAACGACGAGCAGCCCGATGAGCAGGAGAAGGCGTGGTATCAGCAGGTGGTCGATCAGACGGTGGCCAGCAGCCTGATGCACCGCTACGGCACGCTGGCGGAACAGGCGAATGCGATCCTGTTCCTCGCCAGCGATGAGGCCAGCTATATCACCGGCGTGACCCTCCCGGTGGCGGGCGGCGATCTCGGCTAA	MRFRDKVVAITGAAQGIGRQTAEQAAAEGAALLLIDRAPWVRELAATLAQSGSQVLALEADLEQWSSAEQAFADGVAHFGRIDVLINNVGGTIWARPFAEYQPDQIEKEIRRSLFPTLWGCRAALPWMLKQGKGSIVNVSSVATAGVNRVPYSAAKGGVNALTRSIAMEYSGSGIRINAVAPGGTEAPPRLTPRNDEQPDEQEKAWYQQVVDQTVASSLMHRYGTLAEQANAILFLASDEASYITGVTLPVAGGDLG	PGPT0005250_311	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZOATE_UTILIZATION,PGPT0005250-benD_xylL-K05783	NA	NA
BMS020_00493	1017	benC	COG0543	Benzoate 1,2-dioxygenase electron transfer component	ATGACCTTCACTATTGCTCTTAATTTTGAGGACGGTATTACCCGCTTTATTCAATGCCATGCCGGGGAGAAAGTCCTGGATGCCGCCTATCGGCAGAAGGTGAATTTGCCGATGGACTGCTCGGACGGCGTGTGCGGCACCTGCAAATGCCACTGCGCCAGCGGGGAATACGCTCTCGGCGACGAGTATCTCGACGAAGCGCTAAGTGACGAGGAAGCGCAGGCCCGCCAGGTGCTGACCTGTCAGATGGTGCCCACCAGCGACTGCGTAATCGATGTGCCAGTGGCTGCCGCCCAGTGTAAAACCGCCCTGACGAACACCGGGGCGCAGGTGCGGCAGGTGAATTGTCTGTCCGATACCGCCGTCGAGCTGGTGGTCGCCCTCGATGAGCCGCTGGACTTCCTGGCGGGGCAGTACGTCAACATCCAGGTGCCAGGCACGCCGCACGTTCGCGCCTATTCCTTCAGCTCCCGCCCAGGCTCGGCAGAAGGACATTTCCTGATCCGTAACGTGCCCGGCGGCATGATGAGCCAGTGGTTAACCCGGCAGGCGCGGCCCGGCGATCGCCTGATCCTCAGCGGCCCGATGGGCAGCTTCTATCTGCGCCATGGCGAACGTCCGCTGCTGATGCTGGCCGGCGGTACCGGGCTGGCGCCGCTGCTCTCCATGCTCGAGACTCTGCAGGCGCAGAACAGCTCGCGCCCGGTGACCCTGCTGTATGGCGTCACGCGCGACGGCGACCTGGTGAAGACCGAGGCGCTGGAGGCATTCCGTCAGCAGTTAACCCACTTTCGCTGGCTGCCGGTGGTGGCGGAGGAAAACAGCGCCTGCCCGCAGCGCGGCTTTGTCACCGATCATCTTGACGACGCTATGCTGAATAATGGCGAGGTCGATATCTACCTTTGCGGCCCGCCGCCGATGGTCAACGCGGTCGCCACGGCGCTGCGCGAGCGAGGGATCGCCCCGGCGGGCTTCTGGTACGAGAAATTTATCGCCAGCCAGAGCGCGGCGGCATAA	MTFTIALNFEDGITRFIQCHAGEKVLDAAYRQKVNLPMDCSDGVCGTCKCHCASGEYALGDEYLDEALSDEEAQARQVLTCQMVPTSDCVIDVPVAAAQCKTALTNTGAQVRQVNCLSDTAVELVVALDEPLDFLAGQYVNIQVPGTPHVRAYSFSSRPGSAEGHFLIRNVPGGMMSQWLTRQARPGDRLILSGPMGSFYLRHGERPLLMLAGGTGLAPLLSMLETLQAQNSSRPVTLLYGVTRDGDLVKTEALEAFRQQLTHFRWLPVVAEENSACPQRGFVTDHLDDAMLNNGEVDIYLCGPPPMVNAVATALRERGIAPAGFWYEKFIASQSAAA	PGPT0005255_291	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
BMS020_00494	486	cbdB		2-halobenzoate 1,2-dioxygenase small subunit	ATGCTGAACCTCGAACAGGTACGCCAGTTTCTCTACTACGAAGCCCGTCTGCTGGATGATCGTCAGTGGGATGAATGGCTCAGCTGCTACAGCCCGCAGGTCGTCTACTGGATGCCGGCGTGGGGCGACGATGACCAGCTGACGCGCGATCCGCAAAAAGAGATTTCGCTGATCTACTATCCCAACCGCGAAGGGCTGGAGGATCGCGTCTACCGCATTAAAACCGAGCGGTCCGGGGCCAGCACGCCGGAGCCGCGGACCACCCATATCATCAGCAACGTCGAGCTGCTGGGGGAGAACGATGAAGGGCTGGAGGTGCGTTACAGCTGGGTGACCTGGAGCCACCGCTATCAGCACACCGACGCCTTTTTCGGCGCCACCTGCTGCACGCTGACCGAGCAGGACGGCAGACCGCAGATCGTGCGCAAAACCGTGCGCCTGAATAACGATTATATCCGTCAGGTGATCGACGTTTACCACATTTAA	MLNLEQVRQFLYYEARLLDDRQWDEWLSCYSPQVVYWMPAWGDDDQLTRDPQKEISLIYYPNREGLEDRVYRIKTERSGASTPEPRTTHIISNVELLGENDEGLEVRYSWVTWSHRYQHTDAFFGATCCTLTEQDGRPQIVRKTVRLNNDYIRQVIDVYHI	PGPT0005245_445	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZOATE_UTILIZATION,PGPT0005245-benB_xylY-K05550	NA	NA
BMS020_00495	1383	cbdA		2-halobenzoate 1,2-dioxygenase large subunit	ATGCAAAAAACGCTATCAGCGCTTAAAGACAAAATTAACAACGCCTTAATTGTCGATCGTGAAAACCATATTTACCGCTGCCACCGTTCGATATTTACCGACCCGCAGCTGTTTGAATTTGAAATGAAGCATATCTTTGAAGGTAATTGGGCGTTTCTCGCCCATGAAAGCCAAATAGCCGAACCGGGGGATTATTATACCCTGACGCTGGGGCGTCAGCCGGTCATCATTACCCGCGATAAAAAGAACGAGCTGCATGCGTTAATTAACAGCTGCGCCCATCGCGGCGCGATGTTATGTCGACGGAAAACCGGGAATAAAAACTCATTTACCTGTCCGTTTCACGGCTGGACCTTCAGCAATAATGGCAAACTATTAAAAGCTAAAGATGAAAGCACCGGCGGCTATCCTGACACCTTCAAACAGGAAGGATCGCACGACCTGCAAAAGCTGCCGCGTTTTCAGTCCTATCGCGGTTTCTTATTCGGTAGCCTCAATGCCGACGTGCAGCCGCTGGAAGCCTATCTCGGGGAAACCTGCAAAATCATCGATCTGATCGTCGACCAGGCGCCGGAGGGGCTGGAGGTGCTCAAGGGATCGTCGAGCTATGTGTACGAGGGCAACTGGAAGCTGGGCGCAGAGAACGGCGCTGATGGCTACCACGTGAGCGTGGTGCACTGGAACTATGCCTCCACCATGTCGCGGCGCAACTATGAAGCGGAAGGCACCCATGCGGTGGACGCCAACGGCTGGTCAAAAAGCCTCGGCGGCGGCTATGGATTTGATAACGGCCATATGCTGCTGTGGACCCGGGCGCTGAACCCGGAGGTGCGCCCGGTGTATGCCCACCGCGAGCGCCTGCAGGCGGAATTCGGCGAACTCCGCGCCGACCAGATGGTCAACGAAACCCGCAACCTGTGCCTGTACCCCAACGTCTATCTGATGGATCAATTCTCCACCCAGATCCGCGTCATTCGTCCGCTGGCGGTGGACAAAACCGAAGTCACTATCTGGTGCTTTGCGCCGAAGGGGGAATCTGACCAGGCGCGGGCCCTGCGCATCCGCCAGTACGAGGATTTCTTTAACGTCAGCGGGATGGGGACCCCGGACGACCTCGAAGAGTTCAGCGCCTGTCAGCGCGGCTATCTCGGCGAAAACCTGGCGTGGAGCGATCTCAGCCGCGGCGCGCTGCGCTGGGTCGACGGTCCGGATGCGCATGCGCAGCACGCCGGATTTCATCCGCGCTTAAGCGGCGTGAAATCAGAGGACGAGGCGCTGTATATCGCCCATCACCATCACTGGCAGACGCTGATGCTGGCGGCGATTGAACAAGAGCAGCAGCGCTATGACCAGTCGATCACCCAGCGCGTGGAGGTGGCCTGA	MQKTLSALKDKINNALIVDRENHIYRCHRSIFTDPQLFEFEMKHIFEGNWAFLAHESQIAEPGDYYTLTLGRQPVIITRDKKNELHALINSCAHRGAMLCRRKTGNKNSFTCPFHGWTFSNNGKLLKAKDESTGGYPDTFKQEGSHDLQKLPRFQSYRGFLFGSLNADVQPLEAYLGETCKIIDLIVDQAPEGLEVLKGSSSYVYEGNWKLGAENGADGYHVSVVHWNYASTMSRRNYEAEGTHAVDANGWSKSLGGGYGFDNGHMLLWTRALNPEVRPVYAHRERLQAEFGELRADQMVNETRNLCLYPNVYLMDQFSTQIRVIRPLAVDKTEVTIWCFAPKGESDQARALRIRQYEDFFNVSGMGTPDDLEEFSACQRGYLGENLAWSDLSRGALRWVDGPDAHAQHAGFHPRLSGVKSEDEALYIAHHHHWQTLMLAAIEQEQQRYDQSITQRVEVA	PGPT0005240_130	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZOATE_UTILIZATION,PGPT0005240-benA_xylX-K05549	NA	NA
BMS020_00496	930	catA	COG3485	Catechol 1,2-dioxygenase	ATGATGAGTAATGCTTTCGTACAACAAGAAGCCGTGCAGAAATTATTACGTGAAGGCGCGGGTTTACATGTCCCTGGCGGTAACGAACGTTTTAAAGCCATTATTCACCGTCTGCTGGAGAATATCTGTACGCTGATCGACGACTATAACGTTACCGAAGAAGAGTTCTGGCATGCGGTGAACTATCTGCATGCGCTGGGCGGCCGTCAGGAGGCGGCGCTGCTGGCGGCGGGACTGGGTCTGGAGCATTTCCTCGACCTGCGTCAGGACGCCATTGACGCGGCGGCGCGCCGGGAAACCGGCACCCCGCGCACCATCGAAGGGCCGCTGTATGTGGCTAATGCGCCGCTGGCGGACGGCCACGCCCGGATGGATGATGGCGCCGACGCCGGGGAAGTGATGTGGCTGCATGGCCAGGTCAACGATACCGAGGGCCGGCCGGTGGCCAACGCCATTGTCGATATCTGGCACGCCAATACCCTCGGCAATTACTCCTTCTTCGACCCGAGCCAGAGCGAATACAACCTGCGCCGGCGGATCCGCACCGGCGCCGATGGCCGCTACAGCGTGCGCAGCATCCTGCCTTCCGGCTACGGCTGTCCGCCGGATGGCCCGACGCAGAAGCTGCTGGATCGGTTAGGCCGCCATGGCAACCGTCCGGCGCACATTCACTTCTTCGTCTCCGCGCCGGGGCATAAACATCTCACCAGCCAGATCAACCTCAGCGGCGATAAATACCTGTGGGATGATTTTGCCTTTGCCACCCGCGACGGCCTGATTGCCGACCCGATCAAAGTGACGGACCGCGAGACTATCGCGCAGCGCGACCTTGGGGGAGAGCACACTGAGGTCTGTTTTGATTTCACCCTGTGTAAAGCGCTCAGCGCCGACGAAGAGCAGCGCGGCGCCCGCCTGCGCGCCAAAGCGTAA	MMSNAFVQQEAVQKLLREGAGLHVPGGNERFKAIIHRLLENICTLIDDYNVTEEEFWHAVNYLHALGGRQEAALLAAGLGLEHFLDLRQDAIDAAARRETGTPRTIEGPLYVANAPLADGHARMDDGADAGEVMWLHGQVNDTEGRPVANAIVDIWHANTLGNYSFFDPSQSEYNLRRRIRTGADGRYSVRSILPSGYGCPPDGPTQKLLDRLGRHGNRPAHIHFFVSAPGHKHLTSQINLSGDKYLWDDFAFATRDGLIADPIKVTDRETIAQRDLGGEHTEVCFDFTLCKALSADEEQRGARLRAKA	PGPT0005035_336	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005035-catA-K03381	NA	NA
BMS020_00497	291	catC	COG4829	Muconolactone Delta-isomerase	ATGCTATTTAAAGTGGAGATGACCGTGAATATTCCGCTTGGTTTTCCCGTCGCCGAAGCGGAGGAAATAAAGCAACGCGAAAAAACCTATTCACAACAATTACAGCGGGAAGGCAAATGGCGACATATCTGGCGCGTCGCCGGTCTTTACGCCAATGTCAGTATTTTCGATGTCAACGATGCCGAAGAGTTACATCAAATATTAATGGGATTGCCGCTGTATCCTTTTATGGATATTCGCGTCGAGGCGCTGTGCCGTCATCCCTCGTCTGTTCGTGACGACGATAGCTAA	MLFKVEMTVNIPLGFPVAEAEEIKQREKTYSQQLQREGKWRHIWRVAGLYANVSIFDVNDAEELHQILMGLPLYPFMDIRVEALCRHPSSVRDDDS	PGPT0005045_139	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005045-catC-K03464	NA	NA
BMS020_00498	1119	catB	COG4948	Muconate cycloisomerase 1	ATGACTGCCACCGTAGAAGGTATTGAGAGCTGGATTGTGGATGTCCCAACCATCCGGCCACATAAATTGTCGATGACCACCATGGGATGTCAGACGCTGGTGATTGTGCGCCTTACTCGCTCCGACGGCATCTGCGGCATTGGCGAGGCCACCACCATCGGCGGCTTGAGCTATGGCGTCGAGAGCCCGGAGGCTATCTCGTCGGCGATAACGCATTACCTGACGCCGCTGCTGCTGGGGCAACCGGCCGATAACCTGAATGCGCTGACCGCCCGCATGAACAGCGCCATTAAAGGCAACACCTTTGCGAAGTCCGCCATTGAAACCGCGCTGTTGGATGCGCAGGGCAAAGCGCTGGGCCTGCCGGTGTCGGCGCTGCTCGGCGGCGCGCTGCAAACGTCCTTGCCGGTGCTGTGGACGTTAGCCAGCGGCGATACCGCAAAAGATATTGCCGAAGGGGAAAAATTGTTAGCAGAGGGCCGCCATCGGGCATTCAAGCTGAAAATTGGCGCCCGCGAATTAGCTACCGACCTGCGCCATACCCGCGCCATTGTGGAAGCGTTAGGGGATCGCGCCAGCATCCGCGTCGACGTCAACCAGGCCTGGGACGCCGCGACCGGCGCGAAAGGCTGCCGCGAGCTGGCGGCGATGGGCGTCGACCTCATCGAACAGCCGGTCAGCGCCCACGACAACGCGGCGCTGGTGCGGTTGAGCCAGCATATTGAAACCGCGATCCTCGCCGACGAAGCGGTAGCCACCGCTTACGATGGCTATCAACTGGCGCAGCAGGGCTTTACCGGCGCTTACGCGCTGAAAATAGCCAAGGCCGGCGGACCGAATAGCGTACTGGCGCTGGCTCGCGTCGCCCAGGCGGCGGGGATTGGCCTGTATGGCGGCACCATGCTGGAGGGGACCGTGGGGACTGTCGCCTCGCTGCATGCCTGGTCGACGCTGCCGCTGCAGTGGGGCACCGAGATGTTCGGCCCGCTGTTGCTGAAAGACGATATCGTCCGCGTACCGCTCTCCTTTGCCGACGGCGAGGTGGCGCTCCCGCAAACCCCGGGTCTTGGCGTCGAGCTGGATGAAGACAAACTGCGTTTTTACACCCGCCAGGCGTAG	MTATVEGIESWIVDVPTIRPHKLSMTTMGCQTLVIVRLTRSDGICGIGEATTIGGLSYGVESPEAISSAITHYLTPLLLGQPADNLNALTARMNSAIKGNTFAKSAIETALLDAQGKALGLPVSALLGGALQTSLPVLWTLASGDTAKDIAEGEKLLAEGRHRAFKLKIGARELATDLRHTRAIVEALGDRASIRVDVNQAWDAATGAKGCRELAAMGVDLIEQPVSAHDNAALVRLSQHIETAILADEAVATAYDGYQLAQQGFTGAYALKIAKAGGPNSVLALARVAQAAGIGLYGGTMLEGTVGTVASLHAWSTLPLQWGTEMFGPLLLKDDIVRVPLSFADGEVALPQTPGLGVELDEDKLRFYTRQA	PGPT0005040_524	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005040-catB-K01856	NA	NA
BMS020_00499	798	pcaR_2	COG1414	Pca regulon regulatory protein	ATGCGTGACCATACCCCCACCACCCTAAGCGCCAGGCAGGCCGAGCACGATCCCAACTTTATGCTGTCTCTGGCTCGCGGGCTGGAGGTGCTTAACGCCTTTACCCCGCAGCGTCAGCGGCTGACCATTTCCCAGTTAAGCCAGAAAACGCAAATTTCCCGCGCGGCGGTGCGCCGCTGCCTGTATACCCTCGCCGCGCTGGGCATGGTCCATAGCCCGGATGGCCGCCATTATGAGCTCTTGCCCCGGGTGCTGGCGGTGGGCCATGCCTATCTCGCCGGCACTCCGCTGGCGAAAGTGGCGCAGACGGCGCTGGATAGCCTCGGCAAAGCCCTCGGCGAATCCTGTTCGGCGGCGACGCTCGATGGGGATAACGTGCTCTATATCGCCCGCGCCGCGGTGAATAATTTACTGAGCGTCGATCTCGGACGCGGCAGCCGTCTGCCGGCGTGGGCGACGTCGATGGGTCGGGTATTGCTCAGCGCGCTGCCGGAGGAGCAGCTGGAGGTGACACTGTCACGCGCCGTGCTCATTCGCTACACCCCACACACCCTGTGCGATATGGCCGGGCTACGCGCGGAGATTGATCGGGTGCGCATGCAGGGCTATGCCCTCGCCGACCGCCAGATAGAGGTGGGCCTGTGCTCGCTGGCGGTGCCGGTGCTGTCGCGTCATGGCCAGGTGGTGGCCGCGCTGAATGTCGGGGTGCCGGCCGCGACGGTCAGCGCCTCGGCGTTAAAAGAGAAGGCCCTCGCCCCGCTACGCCGCGCGGCGATGGACCTGTCGCTACAGCTATAG	MRDHTPTTLSARQAEHDPNFMLSLARGLEVLNAFTPQRQRLTISQLSQKTQISRAAVRRCLYTLAALGMVHSPDGRHYELLPRVLAVGHAYLAGTPLAKVAQTALDSLGKALGESCSAATLDGDNVLYIARAAVNNLLSVDLGRGSRLPAWATSMGRVLLSALPEEQLEVTLSRAVLIRYTPHTLCDMAGLRAEIDRVRMQGYALADRQIEVGLCSLAVPVLSRHGQVVAALNVGVPAATVSASALKEKALAPLRRAAMDLSLQL				NA	NA	NA	NA	NA
BMS020_00500	1500	smvA		Methyl viologen resistance protein SmvA	ATGTCACGGCAATGGATGACGCTGATGGCGATTTTGCTGGTTTATATTCCGGTGGCGATTGACGCCACGGTGTTGCATGTGGCCGCGCCGACCCTCAGCGTCGCGCTGGGCAGCAGCGGTAATGAGCTGTTGTGGATCATTGATATCTATTCATTGGTGATGGCCGGGATGGTGCTGCCGATGGGCGCCCTTGGCGATAAAATCGGCTTTAAACGTCTGCTGCTGCTCGGCAGCGCTATTTTTGGCATCGCCTCGCTGTGCGCCGCGCTGTCGCCGACCGCCCTGACGCTGATTGCCTCCCGCGCCCTGCTGGCGGTGGGGGCGGCGATGATCGTTCCGGCGACGCTTGCCGGGATCCGCAGCACCTTCGCCGAGGCCAGCCAGCGCAATATGGCGCTGGGGCTGTGGGCGGCGGTGGGCTCCGGCGGCGCGGCCTTTGGCCCGCTGGTGGGCGGCATGCTGCTGGAGCATTTCTACTGGGGATCGGTGTTCCTGATCAACGTGCCGATTGTGCTGGTGGTTATCGCCATTAACGCGAAAGTGGTGCCGCGCCAGCCCGCGCGCCGCGACCAGCCGCTGAACCTGCTGCAGGCGCTCATTTTGATTGCGGCGATCCTGATGCTGGTGTTTAGCGCCAAATCGGCCCTGAAGGGCCAGCTGGCGCTGTGGCTTACCGCGCTGGTGGCGATCGGCGGGGCGGCGATGCTGACCTGGTTTATCCGCAAACAGCTGTCGGCGGCCCGGCCGATGGTGGATATGCGCCTGTTCACCCATCGCATTATTTTAAGCGGGGTGATGATGGCGATGACGGCCCTGATTACCCTGGTGGGTTTTGAGCTGCTGATGGCGCAGGAGCTGCAGTTTGTGCATCAGAAAACGCCGTTCGAGGCGGGGATGTTTATGCTGCCGGTGATGGTGGCCAGCGGCTTTAGCGGGCCGATTGCCGGGATGCTGGTGTCGAAGCTCGGACTGCGCGAGGTGGCTACCGGCGGGATGTTGCTGAGCGCCTTCAGCTTTCTGGGCCTGGCGCTGACCGATTTCAGCACTCAACACTGGCTGGCCTGGGGGCTGATGACGCTGCTGGGCTTTAGCGTCGCCAGCGCGCTGCTGGCCTCCAGCTCCGCCATTATGGCGGCGGCGCCGAAGGAGAAAGCGGCGGCGGCCGGGGCGATCGAAACCATGGCTTATGAGCTGGGCGCCGGACTCGGCATTGCGCTGTTCGGCCTGATCCTCACCCGCAGCTACAGCGCCACCATTGTGCTACCGTCCGGGCTGAATGAGACGATGGCGCAGCAGGCGTCGTCATCGATCGGCGAGGCGGTCAGCCTGACCCAGGCGCTGCCCGCCGGGGTGGCGGAGGCGCTAATGGCGGCGGCGAAGGCGGCCTTTACCCAGGCGCACAGCCTGGTGCTGGCGACAGCGGGGGTCATGCTTCTGCTGCTGGCCGCCGGGATCTGGCGCAGCCTCGCCACGGCGACGAAGCCGCCGTCGGCGCTATAG	MSRQWMTLMAILLVYIPVAIDATVLHVAAPTLSVALGSSGNELLWIIDIYSLVMAGMVLPMGALGDKIGFKRLLLLGSAIFGIASLCAALSPTALTLIASRALLAVGAAMIVPATLAGIRSTFAEASQRNMALGLWAAVGSGGAAFGPLVGGMLLEHFYWGSVFLINVPIVLVVIAINAKVVPRQPARRDQPLNLLQALILIAAILMLVFSAKSALKGQLALWLTALVAIGGAAMLTWFIRKQLSAARPMVDMRLFTHRIILSGVMMAMTALITLVGFELLMAQELQFVHQKTPFEAGMFMLPVMVASGFSGPIAGMLVSKLGLREVATGGMLLSAFSFLGLALTDFSTQHWLAWGLMTLLGFSVASALLASSSAIMAAAPKEKAAAAGAIETMAYELGAGLGIALFGLILTRSYSATIVLPSGLNETMAQQASSSIGEAVSLTQALPAGVAEALMAAAKAAFTQAHSLVLATAGVMLLLLAAGIWRSLATATKPPSAL	PGPT0028045_1267	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
BMS020_00501	537			hypothetical protein	ATGCAGGCCGCCATGCGCCTGGCGCTGCGTGGCGGCTTCAGCGCCATGACCGTCCGGCAGATCGCCCGCGAAGCGCAGGTGGCCGCCGGGCAACTGCACCACCACTTCGCCTCCATCGGCGAGCTGAAGTCCCAGGTGTTCATCCGTCTTATCCGCGAGATGCTCGACATGCCGCTGGTGGCGGAGGATGCCAGCTGGCGCGAGCGGTTATTCTCGATGATCGGCAGCGAGGATGGCCGGCTGGAACCCTATATCCGCCTGTGGCGGGAGGGCCAGGTGCTGGCCGACAGCGACCCGGACATCAAAGCGGCCTACCTGCTGACCATGACCATGTGGCATGCCGAGACCGTGGCGATCGTGGAACAGGGCCTCGCCTGCGGTGAGTTTCACTCGAGCGAGCCGCCGGTGGATATCGCCTGGCGTTTTATCGCCCTGGTGTGCGGCCTCGACGGGATTTACGCCCTCGGCACCCAAACCCTGGACGAGACGGCGTTTAGCCGTTACGTCAATAAGATGATTACGCTGGAGTTATTTTAG	MQAAMRLALRGGFSAMTVRQIAREAQVAAGQLHHHFASIGELKSQVFIRLIREMLDMPLVAEDASWRERLFSMIGSEDGRLEPYIRLWREGQVLADSDPDIKAAYLLTMTMWHAETVAIVEQGLACGEFHSSEPPVDIAWRFIALVCGLDGIYALGTQTLDETAFSRYVNKMITLELF				NA	NA	NA	NA	NA
BMS020_00502	1383	narU	COG2223	Nitrate/nitrite transporter NarU	ATGTCGGTACAAAATGAGAAAGATAATCATTACCTTTTGAAAAACTGGCGGCCGGAAAATAAGGCCTTCTGGGAAAACAAGGGTCAGGCCATTGCGAGAAGAAACCTCTGGATATCAGTCACCTGCTTACTACTTGCCTTCTGCGTATGGATGTTATTCAGCGCCGTGGCGGTCAACCTTAATAAGGTCGGTTTTCATTTCACTACCGACCAGCTTTTTTTATTAACCGCACTTCCTTCACTTTCCGGCGCGATATTACGGGTCCCCTACTCCTTTATGGTACCCCTCTTCGGCGGGCGCTACTGGACCGTATTAAGTACAGTGATCCTAATTGTGCCTTGTATTTGGTTAGGCGTGGCGATCCAGAATAGTGCTACTCCATTCTGGGTATTTATTGTTATTGCGCTGCTGTGCGGTTTTGCCGGGGCTAATTTTGCTTCCAGTATGGGAAATATCAGTTTCTTTTTTCCCAAAGCCAAACAGGGCAGCGCGCTGGGGGTCAACGGCGGCCTGGGCAATCTCGGGGTCAGCGTGATGCAGATGGTCGCCCCGGCGGTGATCTTCCTGCCGATCTTCACCTTCCTCGGCGTCCATGGCGTCACCCAGCCCGATGGCTCGACCATGGCCCTGAGTAATGCGGCGCTCGTCTGGGTACCCCTCCTTCTGCTTGCCACCGCTGCCGCCTGGTTCGGTATGAATGATATCGCCAGTTCGAAGGCCTCGATTCGCGATCAGCTTCCCGTACTCAAGCGCCCGCATATGTGGCTGTTGAGCCTGCTCTATCTGGCGACTTTCGGCTCATTTATCGGCTTCTCCGCCGGCTTCGCCATGCTGGCGAAAACCCAGTTTCCTGCGGTCGACATTCTCAAGCTGGCTTTCTTTGGACCGTTTATCGGCGCGCTGGCGCGTTCATTCGGCGGGATCATCTCCGACCGTCTGGGCGGTGTGCGGGTGACGCTGGTCAATTTCGTGCTGATGGCGCTCTTTACCGGTCTGCTGTTCCTCACCCTGCCGGGCAGCGGATCCGGTAGCTTCCTCGCCTTCTACGTGGTGTTTATGGGGCTGTTCTTAACCGCCGGGCTCGGCAGCGGCTCCACCTTCCAGATGATCGCCGTCATCTTCCGTCAGCTCACCATCGAGAGCGTGAGGCAGCGCGGCGGCAGCGAAGAAGAAGCGCAGCACGAAGCCGTAACCGATACCGCTGCCGCGCTGGGCTTTATCTCGGCAATTGGCGCCATCGGCGGCTTCTTTATCCCGAAAGCCTTCGGCACCTCGCTGGCGATGACCGGTTCGCCGGTCGGGGCGATGAAGGTCTTCTTCGTTTTTTACGTGGTTTGCGTATTGGTGACCTGGCTGGTCTACGGCCGACGTAAACCCGCTTAA	MSVQNEKDNHYLLKNWRPENKAFWENKGQAIARRNLWISVTCLLLAFCVWMLFSAVAVNLNKVGFHFTTDQLFLLTALPSLSGAILRVPYSFMVPLFGGRYWTVLSTVILIVPCIWLGVAIQNSATPFWVFIVIALLCGFAGANFASSMGNISFFFPKAKQGSALGVNGGLGNLGVSVMQMVAPAVIFLPIFTFLGVHGVTQPDGSTMALSNAALVWVPLLLLATAAAWFGMNDIASSKASIRDQLPVLKRPHMWLLSLLYLATFGSFIGFSAGFAMLAKTQFPAVDILKLAFFGPFIGALARSFGGIISDRLGGVRVTLVNFVLMALFTGLLFLTLPGSGSGSFLAFYVVFMGLFLTAGLGSGSTFQMIAVIFRQLTIESVRQRGGSEEEAQHEAVTDTAAALGFISAIGAIGGFFIPKAFGTSLAMTGSPVGAMKVFFVFYVVCVLVTWLVYGRRKPA	PGPT0000300_2131	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000300-narK|nrtP|nrt|narU-K02575	NA	NA
BMS020_00503	3741	narZ	COG5013	Respiratory nitrate reductase 2 alpha chain	ATGAGTAAACTACTGGATCGCTTTCGCTACTTTAAGCAGAAAGGCGAAACCTTTGCCAACGGCCACGGTCAGGTCTACAACAACAACCGTGACTGGGAAGACAGCTACCGTCAACGCTGGCAGTTCGACAAAATTGTCCGCTCCACCCACGGCGTGAATTGCACCGGCTCCTGCAGCTGGAAAATTTATGTCAAAAACGGTCTGGTGACCTGGGAAACCCAGCAGACCGATTATCCGCGTACCCGCCCGGATCTGCCGAACCATGAACCACGCGGCTGCCCGCGAGGCGCCAGCTACTCCTGGTATCTCTATAGCGCCAACCGTCTGAAGTACCCGCTGGCGCGTAAACGGCTGATTGCGTTGTGGCGCGAAGCACTGGCGCAGTTTCCCGACCCGGTGCAGGCCTGGGATAGCATCATGCAGGATCCGGCCAAAACCACCAGCTATAAAGCGGCGCGCGGCAAAGGCGGCTTTGTCCGCTCCAGCTGGAAAGAGCTGAATCAGCTCATCGCCGCCGCCAACGTCTGGACCATCAAACACTACGGCCCGGACCGTGTCGCCGGGTTCTCGCCGATCCCGGCGATGTCGATGGTCTCCTACGCGGCGGGTACCCGCTATTTATCCCTTATCGGCGGCACCTGCCTCAGCTTCTACGACTGGTACTGCGATCTGCCCCCGGCCTCGCCAATGACCTGGGGCGAGCAGACCGACGTGCCGGAATCCGCCGACTGGTACAACGCCAGCTACATTATCGCCTGGGGCTCCAACGTGCCGCAGACCCGGACCCCGGATGCCCACTTCTTCACCGAAGTACGCTACAAAGGCACCAAAACCATCGCCATCACCCCGGACTATTCGGAAGTGGCCAAACTGTGCGACCACTGGCTGGCGCCGAAGCAAGGTACCGACAGCGCGCTGGCGATGGCCATGGGCCACGTCATCCTCAAAGCCTTCCACCTTGATAACCCGAGCGATTACTTTCTTAACTACTGCCGCACCTATACCGACATGCCGATGCTGGTGATGCTTGAGCCGCGCGACGATGGCAGCTATGTGCCAGGCCGCATGCTGCGCGCCTCCGACCTGCTGGATGGACTGGGCGAAATGAATAATCCGGAATGGAAAACCGTCGCCTGCACCGCCGACGGCGAACTGGTGGCGCCAAACGGTTCCATCGGCTTTCGCTGGGGCGAAAAAGGGAAATGGAATCTCGAACCGCTGGCTGACGGCAAAAAGGTGGAGCTCACGCTGTCTCTGCTGGATATTCGCGACAGCGTGGCGTCAGTCGCCTTCCCCTACTTCGGCGGCAATGAAAACCCGCATTTCCGCAGCGTGCCGCAGGCACCGGTAACCCTTCATCCGCTCCCGGTGAAACAGCTGACGCTGGCCAGTGGCGAAAGCGGCCTGGTGGTCAGCGTATATGACCTGATTCTGGCTAACTACGGCCTGGACCGAGGGCTTGATGATGTCAATGCGGCGAAAGATTTCGCCGAGGTTAAAGCCTATACCCCGGCGTGGGCGGAGCAGATCACCGGCGTGCCGCGCCAGCATATCGAACAAATCGCCCGCGAGTTCGCCGATACGGCGCATAAAACCCATGGCCGTTCAATGATTATCCTCGGCGCCGGGGTAAACCACTGGTACCACATGGATATGAACTACCGGGGGATGATTAACCTGCTGGTGTTCTGCGGCTGCGTCGGCCAGAGCGGCGGCGGTTGGTCGCACTATGTTGGTCAGGAGAAGCTGCGCCCGCAGACCGGCTGGCTGCCGCTGGCGTTCGCGCTGGACTGGAACCGTCCGCCGCGGCAAATGAACAGCACCTCCTATTTCTACAATCACGCCAGCCAGTGGCGCTATGAAAAACTGACCGCGCAGGAGCTGTTGTCGCCGCTGGCCGACGCCAGCAAATTTAGCGGCAGCCTTATCGACTTCAACGTCCGCGCGGAACGGATGGGCTGGTTGCCTTCTGCACCACAGCTCAACGTCAACCCGCTGACCATCAAGCAGCAGGCCGAGGCCGCCGGGCTATCGCCCTCGGAGTTCACGGTGCGGTCGCTAAAATCCGGCGAGATCCGCTTTTCCGCCGAGCAGCCGGACAGCGGCAAAAACCATCCGCGGAACCTGTTTATCTGGCGCTCTAACCTGCTGGGATCGTCCGGTAAGGGGCATGAGTACATGTTGAAATACCTGCTCGGGACCGACAGCGGTATTCAGGGGGATGAACTGGGCGCCAGCGATGAGGTGAAACCTGAGGAGGTCGAGTGGCAGACGGCGGCTATCGAGGGCAAACTCGACCTGCTGGTGACGCTGGATTTCCGCATGTCCAGTACCTGTCTCTTTTCCGATATTGTTCTACCGACCGCCACCTGGTACGAAAAAGACGATATGAACACCTCGGATATGCATCCGTTTATCCACCCGCTTTCCGCCGCCGTCGACCCGGCGTGGGAGGCAAAGAGCGACTGGGAGATTTACAAAGATATCGCCAAATCCTTCTCGCAGGTCTGCGTCGGCCATCTCGGGAAAGAGACCGACGTGGTGCTGGTCCCGCTGCAGCATGACTCTCCGGCTGAGCTGGCGCAGCCGTTCGAGGTGCTTGACTGGCGCAAGGGGGAATGCGATCTGATCCCCGGGAAAACCGCTCCGTCGATTGCCCTGGTGGAGCGCGACTATCCCGCCACCTGGGAACGCTTCACCTCTCTCGGGCCGCTGCTCGATAAGCTTGGCAACGGCGGAAAAGGCATCTCGTGGAATACGCAAAGCGAAGTCGATTTCCTCGGCAAGCTTAACTACCTCAAGCAGGACGGTCCGGCCAAAGGCCGGCCGCGGATCGACAGCGCCATTGACGCCTCCGAAGTTATTCTCAGCCTCGCGCCGGAAACCAACGGCCAGGTGGCGGTGAAAGCCTGGCAGGCGCTGGGAGAATTTACCGGTCGCGACCACACTCATCTGGCGCTGAATAAAGAGGATGAGAAGATCCGCTTCCGCGATATTCAGGCGCAGCCGCGCAAGATCATCTCCAGCCCAACGTGGTCCGGACTGGAAAGCGAGCACGTCTCCTACAACGCCGGTTATACCAATGTGCACGAACTGATCCCGTGGCGCACCCTCTCCGGGCGGCAACAGCTGTATCAGGACCATCCGTGGATGCGGGCTTTCGGCGAAAGCCTGGTGGCTTATCGCCCGCCCATTGATACCCGCAGCGTCAGCCAGATGAAGGCCGTGCCGCCGAACGGTTTTCCGGAGAAAGCGCTGAACTTCCTGACCCCGCACCAGAAATGGGGGATCCACTCCACATACAGCGAAAACCTGCTGATGCTGACGCTGTCGCGCGGCGGGCCGATCGTCTGGCTCAGTGAAACTGACGCCAGAGAGCTGGGCATTGAAGATAACGACTGGATTGAAGCGTTCAACGCCAACGGCGCCCTCACCGCCCGGGCGGTGGTGAGCCAGCGCGTGCCGCCGGGGATGACCATGATGTATCACGCTCAGGAGCGGATTATGAATATCCCGGGTTCGGAAGTGACCGGCCGCCGCGGCGGCATTCATAACTCCGTCACCCGCGTCTGCCCGAAGCCGACGCACATGATCGGCGGCTACGCCCAGCTGGCCTATGGCTTTAACTACTACGGCACCGTCGGCTCCAACCGCGACGAGTTCATCATGATCCGCAAAATGAAAAATATTGCCTGGCTGGATGACGAAGGTCGCGATCAGGTACAGGAGGCGAAAAAATGA	MSKLLDRFRYFKQKGETFANGHGQVYNNNRDWEDSYRQRWQFDKIVRSTHGVNCTGSCSWKIYVKNGLVTWETQQTDYPRTRPDLPNHEPRGCPRGASYSWYLYSANRLKYPLARKRLIALWREALAQFPDPVQAWDSIMQDPAKTTSYKAARGKGGFVRSSWKELNQLIAAANVWTIKHYGPDRVAGFSPIPAMSMVSYAAGTRYLSLIGGTCLSFYDWYCDLPPASPMTWGEQTDVPESADWYNASYIIAWGSNVPQTRTPDAHFFTEVRYKGTKTIAITPDYSEVAKLCDHWLAPKQGTDSALAMAMGHVILKAFHLDNPSDYFLNYCRTYTDMPMLVMLEPRDDGSYVPGRMLRASDLLDGLGEMNNPEWKTVACTADGELVAPNGSIGFRWGEKGKWNLEPLADGKKVELTLSLLDIRDSVASVAFPYFGGNENPHFRSVPQAPVTLHPLPVKQLTLASGESGLVVSVYDLILANYGLDRGLDDVNAAKDFAEVKAYTPAWAEQITGVPRQHIEQIAREFADTAHKTHGRSMIILGAGVNHWYHMDMNYRGMINLLVFCGCVGQSGGGWSHYVGQEKLRPQTGWLPLAFALDWNRPPRQMNSTSYFYNHASQWRYEKLTAQELLSPLADASKFSGSLIDFNVRAERMGWLPSAPQLNVNPLTIKQQAEAAGLSPSEFTVRSLKSGEIRFSAEQPDSGKNHPRNLFIWRSNLLGSSGKGHEYMLKYLLGTDSGIQGDELGASDEVKPEEVEWQTAAIEGKLDLLVTLDFRMSSTCLFSDIVLPTATWYEKDDMNTSDMHPFIHPLSAAVDPAWEAKSDWEIYKDIAKSFSQVCVGHLGKETDVVLVPLQHDSPAELAQPFEVLDWRKGECDLIPGKTAPSIALVERDYPATWERFTSLGPLLDKLGNGGKGISWNTQSEVDFLGKLNYLKQDGPAKGRPRIDSAIDASEVILSLAPETNGQVAVKAWQALGEFTGRDHTHLALNKEDEKIRFRDIQAQPRKIISSPTWSGLESEHVSYNAGYTNVHELIPWRTLSGRQQLYQDHPWMRAFGESLVAYRPPIDTRSVSQMKAVPPNGFPEKALNFLTPHQKWGIHSTYSENLLMLTLSRGGPIVWLSETDARELGIEDNDWIEAFNANGALTARAVVSQRVPPGMTMMYHAQERIMNIPGSEVTGRRGGIHNSVTRVCPKPTHMIGGYAQLAYGFNYYGTVGSNRDEFIMIRKMKNIAWLDDEGRDQVQEAKK	PGPT0000285_806	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000285-narG|narZ|nxrA-K00370	NA	NA
BMS020_00504	1545	narY	COG1140	Respiratory nitrate reductase 2 beta chain	ATGAAAATCCGTTCTCAGGTTGGAATGGTGCTGAATCTGGACAAATGCATCGGCTGTCACACCTGCTCGGTCACCTGTAAAAACGTCTGGAGCAGCCGGGAGGGCATGGAGTACGCGTGGTTCAATAATGTGGAAACCAAACCGGGCATTGGCTACCCAAAAAACTGGGAAGACCAGGAGCAGTGGCAAGGCGGCTGGATCCGCGGCATCAGCGGTAAACTGACGCCCCGCCTCGGCAATCGGGTTAGCGTGCTGTCGAAGATATTCGCCAACCCGGTGCTGCCGGCGATTGACGATTACTACGAACCTTTCACCTACGATTACCAGCATCTGCACAACGCGCCGGAGGGAAAATATCTGCCTACCGCCCGCCCACGCTCGCTGATCAGCGGCGAGCGGATGGATAAAATTGACTGGGGCCCGAACTGGGAGGAACTGCTCGGCGGCGAGTTCGAGAAACGCGCCCGCGACCGTAACTTCGAAGCCATGCAGAAAGAGATGTACGGCCAGTTCGAAAACACCTTTATGATGTACCTCCCGCGCCTGTGCGAGCACTGCCTCAACCCGAGCTGCGTGGCCACCTGCCCGAGCGGCGCCATCTACAAGCGTGAGGAAGATGGCATCGTGCTGATAGACCAGGACAAATGCCGCGGCTGGCGGATGTGCATCAGCGGCTGTCCATATAAAAAAATCTACTTTAACTGGAAGAGCGGTAAGTCGGAAAAATGCATCTTCTGCTATCCGCGCATTGAGTCCGGGCAGCCAACGGTGTGCTCCGAAACCTGCGTCGGGCGCATCCGCTATCTCGGCGTCTTGCTGTATGACGCCGACCGTATCGAAGAAGCTGCCAGCACCGAGCATGAAACCGACCTCTATGAGCGCCAGTGCGAGGTATTCCTTAATCCAAACGATCCGGCGGTCATCGAGGAAGCGTTAAAACAAGGCATCCCCCACAATGTCATTGAGGCGGCGCAGAAATCGCCGGTCTATAAGCTGGCGATGGACTGGAAGCTGGCCCTGCCGCTGCATCCGGAGTATCGCACCCTGCCGATGGTCTGGTATGTGCCGCCCCTGTCGCCGATCCAGTCGGTTGCCGACGCCGGCGGCCTGCCCAACAACGGCGCCATCCTGCCGGCGGTTGAGAGCCTGCGCATTCCGGTCCAGTACCTGGCGAACCTGTTGAGCGCCGGGGATACCGGGCCGGTATTGCGCGCGCTGAAACGGATGATGGCGATGCGCCACTACAAGCGCTCGCAAACCGTTGAGGGCGTGACCGATACCCGGGCAATTGAAGAGGTGGGACTCAGCGTTGAGCAGGTCGAAGAGATGTATCGCTATCTGGCGATCGCCAACTACGAAGACCGCTTCGTGATCCCCACCAGCCATCGCGAACTGGCGGAGGACGCCTTCCCGGAACGCAACGGCTGCGGCTTTACCTTCGGCGACGGCTGCCACGGGTCAGATACGAAATTCAACCTGTTTAACAGCCGGCGGATTGACGCCATCGACGTCAGCGGCGTGCGTAAGCATGGGGAGGGAGAGTGA	MKIRSQVGMVLNLDKCIGCHTCSVTCKNVWSSREGMEYAWFNNVETKPGIGYPKNWEDQEQWQGGWIRGISGKLTPRLGNRVSVLSKIFANPVLPAIDDYYEPFTYDYQHLHNAPEGKYLPTARPRSLISGERMDKIDWGPNWEELLGGEFEKRARDRNFEAMQKEMYGQFENTFMMYLPRLCEHCLNPSCVATCPSGAIYKREEDGIVLIDQDKCRGWRMCISGCPYKKIYFNWKSGKSEKCIFCYPRIESGQPTVCSETCVGRIRYLGVLLYDADRIEEAASTEHETDLYERQCEVFLNPNDPAVIEEALKQGIPHNVIEAAQKSPVYKLAMDWKLALPLHPEYRTLPMVWYVPPLSPIQSVADAGGLPNNGAILPAVESLRIPVQYLANLLSAGDTGPVLRALKRMMAMRHYKRSQTVEGVTDTRAIEEVGLSVEQVEEMYRYLAIANYEDRFVIPTSHRELAEDAFPERNGCGFTFGDGCHGSDTKFNLFNSRRIDAIDVSGVRKHGEGE	PGPT0000500_675	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000500-narH|narY|nxrB-K00371	NA	NA
BMS020_00505	696	narW	COG2180	putative nitrate reductase molybdenum cofactor assembly chaperone NarW	ATGCGGATCCTGAAAGTGCTCGGTCTGCTGCTGGAGTATCCCGACGAGGTGCTGTGGGAGAACCGCGACGAAGCCCTGGCGCTGGTCAGCGCCGATATCCCTTCCCTGACGCCCTTTGTCGGGGAGCTGCTGGCGGCGCCGCTGTTGGATCGCCAGGCCGACTGGTGCGAGGTGTTCGAGCGAGGGCGCGCCACCTCGCTGCTGCTGTTTGAACATGTGCATGCTGAGTCCCGCGACCGTGGCCAGGCGATGGTGGACCTGATGAATCAGTATCAGCAGGCAGGTCTGCTGATCGATTGCCGTGAACTGCCCGACTATCTGCCGCTGTATCTGGAGTATCTCAGTATTTTACCCCTCGCCGACGCCCGCGAAGGGCTGCAGAATATCGCGCCGATTCTGGCGCTGATCGGCGGCCGCCTGAAGCAACGAGAATGCTCGTATTATCAACTGTTTGACGCCCTGCTGGAACTGGCAAAAAGCCCGCTCACCAGTGACAGTGTCACCAAACAGGTAGCTGGAGAAAAGCGCGACGATACCTGTCAGGCGCTGGACGAAGTGTGGGAAGAAGAGCAGGTGAAGTTTATTGAAGATAATGCGACCGCTTGCGACAGCTCGCCTATGCAAGCTTATCAACGACGCTTTAGCCAGGATGTGGCGCCGCTGTACGTCGACATCCGCGCCGGAGGCCCGAAATGA	MRILKVLGLLLEYPDEVLWENRDEALALVSADIPSLTPFVGELLAAPLLDRQADWCEVFERGRATSLLLFEHVHAESRDRGQAMVDLMNQYQQAGLLIDCRELPDYLPLYLEYLSILPLADAREGLQNIAPILALIGGRLKQRECSYYQLFDALLELAKSPLTSDSVTKQVAGEKRDDTCQALDEVWEEEQVKFIEDNATACDSSPMQAYQRRFSQDVAPLYVDIRAGGPK	PGPT0000510_632	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000510-narJ|narW-K00373	NA	NA
BMS020_00506	681	narV	COG2181	Respiratory nitrate reductase 2 gamma chain	ATGATCCAGTATCTGAACGTCTTCTTTTACGATATCTACCCTTACCTTTGCGGCGCCGTGTTTCTGCTCGGCAGCTGGCTACGCTACGACTATGGGCAGTATACCTGGCGCGCGTCATCCAGCCAGATGCTGGATAAACGCGGTATGGTGCTATGGTCGAACTTGTTTCATATCGGCATTCTCGGCATTTTTTTTGGCCATCTCTTTGGCATGCTGACCCCGCACTGGGTCTACTCGTGGTTCCTGCCAATGTCGCAGAAGCAGCTGATGGCAATGATCCTCGGCGGCGTGTGTGGGGTGCTCACCCTGGTGGGCGGCATCGGCTTGCTGGCTCGCCGCCTGACCAACCCGCGCATTCGCGCCACCTCTACCACGGCAGATATTCTGATCCTGTGCATTTTGCTGATTCAGTGCGCGCTGGGGCTGACGACGATCCCCTTCTCCGCCCAGCATCCGGACGGCAGCGAAATGCTCAAGCTGGTGGACTGGGCGCAGGCGGTGGTCACCTTCCACGGCGGCGCCTCGGCGCATCTGGACGGCGTGGCCTGGATTTACCGCGTCCACCTGGTGCTGGGGATGACCATCTTCCTGATCTTCCCGTTCACCCGTCTGGTTCACGTCTGGAGCGCGCCGGTGGAGTATTTCACCCGCCGCTACCAGGTGGTGCGCTCCCGACGCTGA	MIQYLNVFFYDIYPYLCGAVFLLGSWLRYDYGQYTWRASSSQMLDKRGMVLWSNLFHIGILGIFFGHLFGMLTPHWVYSWFLPMSQKQLMAMILGGVCGVLTLVGGIGLLARRLTNPRIRATSTTADILILCILLIQCALGLTTIPFSAQHPDGSEMLKLVDWAQAVVTFHGGASAHLDGVAWIYRVHLVLGMTIFLIFPFTRLVHVWSAPVEYFTRRYQVVRSRR	PGPT0000505_1120	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000505-narI|narV-K00374	NA	NA
BMS020_00507	846	nhoA	COG2162	Arylamine N-acetyltransferase	ATGAGTCCCTTTTTACGCGCCTATTTTTCCCGTCTGGGCTGGACGGGCGAGCCTGATGTTTCCATTGATACCTTGCGCCAACTGCATCTGCAGCATAACAGCGCCATCCCCTTTGAAAACCTCGACGTCCTGCTGCCGCGCGAGATCCATCTTGACGACCTGGCGCTGGAAGAGAAGCTGATCGCCGGCCGCCGCGGGGGGTATTGTTTTGAACAAAATGGCCTGCTGGAGCGCGCGCTGCGCGAAATAGGTTTTAACGTTCGCAGCCTGCTTGGCCGGGTGGTGCTGGCCAATCCGCCGCAGATGCCGCCGCGCACTCACCGTTTATTGCTGGTGGAAGTGGCGGGTGAGCGCTGGGTAGCCGACGTTGGCTTCGGCGGCCAGACGCTGACCGCGCCGATCAAGCTGCTGGCCGATATCCCGCAGCAGACGCCGCACGGCAGCTATCGTCTGGTGCATGAAGGGGATGAGTGGACGCTGCAGTTCAACCATCACGAGCACTGGCAGTCGATGTACCATTTCGATTTAGGCCGCCAGTATGCGTCTGATTATGTAATGGGAAACTTTTGGTCGGCGCACTGGCCGCAGTCCCACTTCCGTCACCACCTGCTGATGTGCCGTCATCTGCCTGACGGCGGCAAAATGACCCTCACCAATTTCCACTTTACCCACTGGGAGAATAACCACGTGGTGGAGAAGGTCGATTTTGCCGATGTCTCCGCGCTGTACGAAGGGCTGCAGACCCGCTTCGGCCTCGGCGTGGACGATCCTAAACATGGCTTCAGCGAAGCGGCGCTGGCGGCGGTGATGGCGGCGTTCGATACCCATCCGGAAGCCGGGAAGTAA	MSPFLRAYFSRLGWTGEPDVSIDTLRQLHLQHNSAIPFENLDVLLPREIHLDDLALEEKLIAGRRGGYCFEQNGLLERALREIGFNVRSLLGRVVLANPPQMPPRTHRLLLVEVAGERWVADVGFGGQTLTAPIKLLADIPQQTPHGSYRLVHEGDEWTLQFNHHEHWQSMYHFDLGRQYASDYVMGNFWSAHWPQSHFRHHLLMCRHLPDGGKMTLTNFHFTHWENNHVVEKVDFADVSALYEGLQTRFGLGVDDPKHGFSEAALAAVMAAFDTHPEAGK	PGPT0019890_286	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
BMS020_00508	1656			hypothetical protein	GTGAAACAAAAATTCCTTTCCGGCGTGACGCTTGCCGCCCTGACGCTGCTGGTCGCGTTACCGCTGTTGTTTATTCTGCTGCAGGCGATTTTCCCCCATTTTAGCGCCGGTTCGCTCCATGACGCCTTTGGCGGCGTCTGGCCGCTGCTGGTCGACCCCCAGCTGCCGTCGATGCTCGGCGGTACGCTGTGGATTGCCGGCGGCGTGGCGCTGGCCAGCGTGATGATCGGCCTGCCGCTCGGTATTCTGCGCGGTATGTTTTCGTTGCCGCTACCCCGGCTGTGGGACCTGCTGTTTTTGATCCCCTTTCTGACGCCGCCCTATATCTCGGCGCTCTCGTGGATGCTGGCTCTGCAAAGCCAGGGCTATCTGCAGCAGCTGACTGGCTGGCAGCTAAACGATCTGCTGTTCAGCCGCAGCGGGATCGTGCTGGTGATGACCTTTAACATTTTTCCGGTGGTTTACTTTGCCGTCTCCCGCAGCCTGCTGGCGAGCGGGCAACGGCTGGCGATGATCGCCCGGGTCCATGGCGCCAGCGCCTGGCGCGCCTTCTGGCACGTGACGCTGCCGATGCTCTCCCCGGCGCTGGCGGCGGGGATGCTGCTGGCCTTTACTCTCGCCATCGAGGAGTTTGGCGTCCCGGCGGCGCTGGGCAGTCGGGCGGGAGTAGTGATGCTGACGGTGGGCATTGAGAAAAAGCTGGCCGACTGGCCGGTGGATCTCACCGGCGCTGCGCTGCTGTCGCTGCTGCTGATGGCGGTGGCGTTGTTCGCCTGGTGGCTGCAAACGCGGCTGGTGGGTGAGAAGGAGGTCACCAGCGTCACCGGTAAACCGGGAGAAAACCGCGGAGCGTCGCTGGGCTGGATGACGCTGCCCGCGCTGCTGGTGATGGCGGCCGTCGGCGGCCTGGCGGTCGGGGTCCCCGCCGTCTCGATGATGCTCACCAGCCTGATGGGCACCCTCTCGGGCGGGGTGAGCCTGGAGAATGTCACGCTGCGTCACTTCGCGGCGCTGTTCGACCAGCAGGGCGACGCCCTGTCGGCCCTCGGCGTCAGCCTGTCGCTGGCGTTAGGTTCGGCGCTGATCGTCGGCGCGCTGGGGCTGCTGGCCGCCTGGCTGGTAATGGTGCAGAAGATCAAAGGGCGCGGGGTGGTGGATGCGCTGTCGCTGATGCCGGCGGCGCTGCCCGGCGTGGTGGTGGGGGTGGGATTGATCCTGCTGTGGAATCAGCCCTTCTGGCCGCGCTCGCCCTACAACACGCTGTGGATGCTGCTGCTCTCCTATTGCTGCCTGCTGCTGCCCTGGCCAGTGCGCTATGTCGGCAGCGCGCTGCGCCAGCTGGGCCCGAACCTTGAGCCCGCCGCCCGGGTGCACGGCGCGTCGCCGCTGCGGGCGCTGCGGTTGATTGTCCTGCCGCTGGTCTTTCCTGCGCTGCTGGCGGCGATGCTGATGGTGTTTGCGGTGGCGTCCCGGGAGCTGGTGACCTCGCTGCTGCTGTCGCCCGCCGGCACGCAGACCGTGGCGGTGTTTATCTGGCGCCAGTTTGAACAGGGATCCGTTGGTCAGGGCATGGCGATGGCCAGCCTGACGCTGTTGACCGGTCTGGTCCTGATGCTGACGGCGCTGGCGCTGATGCAGCGCAGCACGCGCGGTTAA	MKQKFLSGVTLAALTLLVALPLLFILLQAIFPHFSAGSLHDAFGGVWPLLVDPQLPSMLGGTLWIAGGVALASVMIGLPLGILRGMFSLPLPRLWDLLFLIPFLTPPYISALSWMLALQSQGYLQQLTGWQLNDLLFSRSGIVLVMTFNIFPVVYFAVSRSLLASGQRLAMIARVHGASAWRAFWHVTLPMLSPALAAGMLLAFTLAIEEFGVPAALGSRAGVVMLTVGIEKKLADWPVDLTGAALLSLLLMAVALFAWWLQTRLVGEKEVTSVTGKPGENRGASLGWMTLPALLVMAAVGGLAVGVPAVSMMLTSLMGTLSGGVSLENVTLRHFAALFDQQGDALSALGVSLSLALGSALIVGALGLLAAWLVMVQKIKGRGVVDALSLMPAALPGVVVGVGLILLWNQPFWPRSPYNTLWMLLLSYCCLLLPWPVRYVGSALRQLGPNLEPAARVHGASPLRALRLIVLPLVFPALLAAMLMVFAVASRELVTSLLLSPAGTQTVAVFIWRQFEQGSVGQGMAMASLTLLTGLVLMLTALALMQRSTRG	PGPT0003730_2937	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
BMS020_00509	969			hypothetical protein	ATGAACACCGTTTTGACCGTTAAGAAAGGAGTGGTACTCGCGATGGCTCTCTCCGCCATGATGCTCTCCAGCGCCCATGCGCTGACCGTTTACACCGCCGGCCCCGGCTCGCTGGCGAAAAGCCTGGCCAGTGGTTTTGAACAACAGACCGGGGTGAAGGTGACCGTTTTCCAGGCCACCACCGGCAAAGTGATGGCCCGTCTGGAGGCCGAGCAGGCCAACCCGCAGGCGGATGTGCTGATCTCCGCTTCATGGGATACTGCGGAGGATCTGCACAACCGGGGCTGGTTGCTGCCTTTTCACAGCGCCAACGCCGACAAGGTACCGGCTAATCTGAAATCGGCGGACTATATCGCCCAGGGAGTCTCGGCGCTTGGCATCGTCTGGAACAGCAAAAGCGGCACTCCGGAGCCGAAAGAGTGGCGCGACCTCACCCAGCCGGCGTTTAAAGACAAGGTGACCACGCCCGACCCGTCGCTCTCCGGCGCGTCGCTGGATCTGTTGATTGGCCTGCAAAACAGCATGGGCGACCAGGCCTGGCAGCTGTTTGACGATCTGAAAAAGAACGGCATGGTGGTCAGCGGCCCCAACGCCCAGGCGGTGACGCCGGTGATGCAGGGGGCGAAAGCGGCGGTGTTCGGCGCGGTGGATTATGTCTCCTACGGCAATATCCAGCAGGGCGAGTCGCTGAAGGTGATTTTCCCGGCCAGCGGGACGGTGATCGCCCCGCGCCCGATGATGATCCTCAAAACCAGCCAGCATGCCGACGAGGCCAAAGCCTTTATCGATTACGTGCTGTCGCCGGAAGGTCAGGCGCGGGTCGCCGACGCCTGGCTGATGCCCGCTCGCCGCGATGTGGCCGCCAAACGCCCGCTGCTGGACGCGCTGAAGGTCTTGCCCACCAGCGGCGAGGGGAGTAGCGAGCGTAGCGCCGTCCTCAGCCGCTTCAGTCAGCTGTATGCCCACTAA	MNTVLTVKKGVVLAMALSAMMLSSAHALTVYTAGPGSLAKSLASGFEQQTGVKVTVFQATTGKVMARLEAEQANPQADVLISASWDTAEDLHNRGWLLPFHSANADKVPANLKSADYIAQGVSALGIVWNSKSGTPEPKEWRDLTQPAFKDKVTTPDPSLSGASLDLLIGLQNSMGDQAWQLFDDLKKNGMVVSGPNAQAVTPVMQGAKAAVFGAVDYVSYGNIQQGESLKVIFPASGTVIAPRPMMILKTSQHADEAKAFIDYVLSPEGQARVADAWLMPARRDVAAKRPLLDALKVLPTSGEGSSERSAVLSRFSQLYAH	PGPT0003725_5171	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
BMS020_00510	702	msiK_1	COG3839	Diacetylchitobiose uptake system ATP-binding protein MsiK	ATGCGCGCGCTAACCCCTATCACTCTGCAGGCGGTCTCATTCGCCTTCGCAGAGACCCCCATTCTCGATGGCTTCTCGCTGCATATCGAACCCGGCAGCATTGTGGCGCTGCTGGGCCCGTCCGGCTGCGGCAAAAGCACCTTGCTGCGCCTGCTGGCCGGGCTGAGCGTGCCGGCCAGCGGTGAAATCCGCTTTGGCGATCGGCTGGTCGCCCGCGCAGGATGGGGATTGCCCCCGGAACAGCGCGATATCGGCATGGTTTTCCAGGATTACGCCCTCTGGCCGCATATGAGCGTGGCGCAGAACGTCGCCTTTCCGCTGCGCATGCGCGGCGTTGCCCGCGCCGAACGCGAGCGCCGGGTGAGCGAGGCGCTGGCGCGGGTGGGCCTCCACGGCTTTGCGGAACGTAAACCTTCAGGCCTTTCCGGCGGCCAGCAGCAGCGGGTGGCGCTGGCGCGGGCGATCGTCGCCGAGCCGCGGGTGCTGCTGTTTGATGAGCCGCTCTCCAACCTGGACAGCGAACTGCGCGAATCGCTGTGTGGCGAAATGAGCCGCCTGCTGCGACAGCTCGGCACCACCGCCGTGTATGTCACCCACGACCGCCGTGAAGCCGACCTGTTAGCCGACCGGATCGTCCATTTATCCGCGGGCCGCGTGGCCGCTGTCCGCGCCGTTACGCCAACCTCAGGGGAAGTTGCATGA	MRALTPITLQAVSFAFAETPILDGFSLHIEPGSIVALLGPSGCGKSTLLRLLAGLSVPASGEIRFGDRLVARAGWGLPPEQRDIGMVFQDYALWPHMSVAQNVAFPLRMRGVARAERERRVSEALARVGLHGFAERKPSGLSGGQQQRVALARAIVAEPRVLLFDEPLSNLDSELRESLCGEMSRLLRQLGTTAVYVTHDRREADLLADRIVHLSAGRVAAVRAVTPTSGEVA	PGPT0003735_4355	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
BMS020_00511	582			hypothetical protein	ATGAGCCGCTTTCGCCACGTGGAACTGCAGTATGCCAGCCGCCTGCTCAACCACGGCCCGACCATTTTGATCACCAGCTACGACGCTGCCTCCGACCGGCGCAACGTCATGGCCGCCGCCTGGTCGATGCCGGTGGAATTCGCCCCGCCGCGGGTGGCTATCGTGGTGGATAAAAGCACCTGGACGCGGGAAATCATCGAGCGCAACGGCACCTTCGGCATCGTGGTTCCCGGCGTGGCCGCCGCCAGCTGGACCTACGCGGTCGGCAGCGTCAGCGGCCGCGATGAAGACAAATTCAATGCTTACGGAATTCCGGTGGTGAACGGCCCGGAACTGGGACTGCCGCTGATCGAGGAGAAGTGTCTGGCATGGATGGAGTGCCGTCTGCTGCCGGCGACGGCGGCCCAGGAGCAGTACGATACGCTGTTTGGCGAAGTGGTTTCCGCCGCCGCCGATGAGCGCGCGTTTGTCACCGGACGCTGGCAGTTCGATGACGATAAGATCAATACCCTGCATCATCTGGGGACCGGCAATTTTGTCGCCAGCGGCCGCCACGTGCGGGCAAACTCCCTTGACGAATAA	MSRFRHVELQYASRLLNHGPTILITSYDAASDRRNVMAAAWSMPVEFAPPRVAIVVDKSTWTREIIERNGTFGIVVPGVAAASWTYAVGSVSGRDEDKFNAYGIPVVNGPELGLPLIEEKCLAWMECRLLPATAAQEQYDTLFGEVVSAAADERAFVTGRWQFDDDKINTLHHLGTGNFVASGRHVRANSLDE				NA	NA	NA	NA	NA
BMS020_00512	234	scrY_1		Sucrose porin	GTGTATCAGTACCAGGCGGTGAGCGGCGATTTTTACAAGCTGACCTTCGCCCCGACGTTTAAAGTTGGCGATGTGTTTGATATCAAAGCGAGGCCGGAGATACGTTTCTTTGTCACGTGGATGAACTGGGATAAAGACCTGGATCGTTATGCGATCAACGATGATTTCGGCAGTAAAGGCTTTACCGCCGGAGGAAACTGGAACTTTGGCGTGCAGACGGAGATTTGGTTTTAA	MYQYQAVSGDFYKLTFAPTFKVGDVFDIKARPEIRFFVTWMNWDKDLDRYAINDDFGSKGFTAGGNWNFGVQTEIWF	PGPT0014185_46	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_SUCROSE_TRANSPORT,PGPT0014185-scrY-K16077	NA	NA
BMS020_00513	183			hypothetical protein	ATGAAAGACGAATTGTTTGCCGATCTGCTGACTAGTGCAGAAGAAATGGTCAGAATTGAGAAGGGTGAACAAACGCCGAAGGTGCACCACGTTCATACCTTCAGCGAAGTTGATGTGAAAGCAATACGTGAAGCCACAGGTTTAAAACAGCAGGACTTTGCAGCGGCCGTTGGCGTTAAGTAA	MKDELFADLLTSAEEMVRIEKGEQTPKVHHVHTFSEVDVKAIREATGLKQQDFAAAVGVK				NA	NA	NA	NA	NA
BMS020_00514	228	pptA	COG1942	Tautomerase PptA	ATGCCGCATGTTGATATTAAATGCTTTCCCCGTGAACTGACTGACGAACAAAAAACCGCGCTGGCCGCCGACATTACCGAGGTGCTGATCCGCCATCTGAACAGTAAAGAGGGCGCGGTCAGCGTCGCGCTCACTCAGGTTGAGCCGGACGCGTGGCAGGCGGTGTGGGACAGTGAGATCGCCCCGCAGATGGCGCAATTGATTAAGAAGCCGGGTTATAGCATGTAA	MPHVDIKCFPRELTDEQKTALAADITEVLIRHLNSKEGAVSVALTQVEPDAWQAVWDSEIAPQMAQLIKKPGYSM	PGPT0005210_782	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
BMS020_00515	618	gstB_1	COG0625	Glutathione S-transferase GST-6.0	ATGATTACCGTATATGGCGTGCCGGGATGGGGCTCGACGATTAGCGAGCTGATGCTCTCCCTGGCCGATATTCCCTACGAGGTGGTTGACGTCGAGGGCTTTGACCAGCCCGGCCCGGCGCGCGAGCGCCTGCGGCAGATTAACCCGCTGTGCCAGGTGCCCACCCTCAGGCTGGCCGACGGCAGCATCATGACCGAAACCGCCGCCATCGCGCTGATGATCCTCGACCAGCGCCCCGATCTGGCCCCCGCGCCGGGGACGCCGCAGCGTCAGCAGTTTCAGCGTCTGCTGATCTGGCTGGTGGCGAATGTCTATCCCACCTTTACCTATGCCGACTACCCGGAACGCTGGGCGCCCGCCGCGGCGGAGCAGCTGGTGGAAAATTGTCGCCAGTACCGGAACAACCTCTATCTCTGGTTCGAACAGCAGCTGGTCGCCGGGCCCTGGGCGCTGGGCGCGTCGGTTACCCTCCTGGACTGCTATATCGCGGCGATGTATAGCTGGGGGCCCAGGCAGGCGTGGTTTAACGCCCATACGCCCAAATTTGCCGCCGTCGCCCTGGCGATCTATCAGCGACCGGAGCTGGCCGCGGCGCTGCGACGTAACAAGCTGATTTAA	MITVYGVPGWGSTISELMLSLADIPYEVVDVEGFDQPGPARERLRQINPLCQVPTLRLADGSIMTETAAIALMILDQRPDLAPAPGTPQRQQFQRLLIWLVANVYPTFTYADYPERWAPAAAEQLVENCRQYRNNLYLWFEQQLVAGPWALGASVTLLDCYIAAMYSWGPRQAWFNAHTPKFAAVALAIYQRPELAAALRRNKLI				NA	NA	NA	NA	NA
BMS020_00516	894			hypothetical protein	ATGAACAGAGCGATAGCGACCCTTGTATTCAGCGCCCTGGCGCTGGACGCTCACGCGGCGCTGGATCTGCGCGCCAATGAGCAGCCATTGCCGGTCACCCGCGACCCGCAGGCGATAGCGAAAATTCCGCCGGGCTACCGCTTCGTGGAGCCGGGAACGCTGACGGTGGCGATCTCGGCGCTCAATTCGCCGCCGCTGGCGCTGCTGGCCAGCGACAACCGCACGCGGATCGGCAGCGACCCGGATATAGCCCGCCTGCTGGCCGGGAGCCTTGGCCTGAAGCTCAGGCTGGTGCCCACCGCGTGGGAGGACTGGCCGCTGGGCATCGCCGCCGGCCGCTATGACGTGGCGCTGATTAATATCGCGGTAACCGAGAAGCGCAAAGAGAAGTTCGATTTCGCCACCTATCGGGTGGACTCTCTGGCCTTCTCGGTGAAATCCACCAGCGACATCGCCGCGGTACATGGACCTGCGGACCTTGCCGGGCGCAAAGTGATCGTTGGGTCCGGCACCAATCAGGAGCGGATCCTGCTGGGCTGGAATGAGGACAACCGGGCCGCCGGGCGGCCGCCGGCCCAGCCGGTCTACCTGAGCGATGATGCCTCCGGCAACCTCTATATCCAGTCCGGGCGGGCGGATATTTTTTTCGGTCCGCAGTCGGTGGCCGCCTATAAAGCGGCCCTCAACGGCCAGACCCGGGTGGTAGGCCTGGGGCCGAAAAAAGCGTGGGTGGCGACGACCACTAAAAAAGGCAACGGTCTGGTCTTTGCCCTGCAGGCCGCCCTCGACGGGGCGATCGCCCGCGGTGAATATCAACAGGTGCTGGCGCGCTGGGGAGAGCAGGGCGAAGCGGTGGCGCAGTCGGTAGTCAACCCGCCGGGGATCACCTACTAA	MNRAIATLVFSALALDAHAALDLRANEQPLPVTRDPQAIAKIPPGYRFVEPGTLTVAISALNSPPLALLASDNRTRIGSDPDIARLLAGSLGLKLRLVPTAWEDWPLGIAAGRYDVALINIAVTEKRKEKFDFATYRVDSLAFSVKSTSDIAAVHGPADLAGRKVIVGSGTNQERILLGWNEDNRAAGRPPAQPVYLSDDASGNLYIQSGRADIFFGPQSVAAYKAALNGQTRVVGLGPKKAWVATTTKKGNGLVFALQAALDGAIARGEYQQVLARWGEQGEAVAQSVVNPPGITY	PGPT0020800_3305	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
BMS020_00517	780	glnQ_2		Glutamine transport ATP-binding protein GlnQ	ATGCCCAGCTCTCGTAATGGCCATATCTCTATCACCGGGGTCAGCAAATACTATGGCCGCCACAAGGCGCTGGACGATGTGTCGCTGGAGATACCTCCGGGCACGGTGACGGTGATCCTCGGCCCTTCCGGTTCGGGCAAGTCCACGCTGCTGCGCACCATTAATCACCTCGAGCGCGTCGATGAGGGGTTTATTCAGATTGATGGCGACTATATTGGCTATCGCCGCAAAGGCGACAAGCTGTATGAGATGAAAGAGAAGGAGATCCTCCGCCAGCGGATCAACGTCGGCTACGTGTTCCAGAACTTTAACCTGTTTCCGCACCTGACGGTGCTGGAGAACCTGATAGAGGCGCCGATCGCCCACAAGCAGGTCACGCGCAAAGAAGCCATTGCCCGTGCCTGGGAGCTGCTGGACGTCGTCGGACTGCGCAATAAAGCCGACGCCTGGTCGCGGCATCTCTCCGGCGGCCAGCAGCAGCGTATCGCCATAGCCCGGGCGCTGGCGCTGGACCCGCGGGTTATCCTGTTTGATGAGCCCACCTCGGCGCTGGATCCGGAGTTGGTGGGCGAGGTGCTGGATGTGATCAAGAAGCTGGCGCGCTCTGGCACCACGCTGGTGGTGGTCACCCACGAGGTTGGCTTTGCCCGCGAGGTGGCCGACCAGGTGGTGTTTATGGTCGACGGCAGGATCGTCGAGCAGGGCAGCAGCGACGAGGTGCTCAACCATCCGCAGCATCCGCGTACCCGGCAGTTTTTATCCAGGGTGCTGCCGTCATGA	MPSSRNGHISITGVSKYYGRHKALDDVSLEIPPGTVTVILGPSGSGKSTLLRTINHLERVDEGFIQIDGDYIGYRRKGDKLYEMKEKEILRQRINVGYVFQNFNLFPHLTVLENLIEAPIAHKQVTRKEAIARAWELLDVVGLRNKADAWSRHLSGGQQQRIAIARALALDPRVILFDEPTSALDPELVGEVLDVIKKLARSGTTLVVVTHEVGFAREVADQVVFMVDGRIVEQGSSDEVLNHPQHPRTRQFLSRVLPS	PGPT0020790_1798	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
BMS020_00518	927			hypothetical protein	ATGCATTCATCTGAAACGATCAAAGTGGTGCCGGCGCGCTATCCGCTGCGGGTAGTCGGGGCCCTGGTGGCCCTGCTGGTGCTGACGGTGGTGATCCAGTCGGTGGCCTTTAACCCGCGCTGGGAGTGGGGCGTCTTCGCCCGCTGGTTCTTCGACCCGGTGATCCTTGAAGGGCTGGGGCAAACCCTGCTTCTGACCCTGCTCGGCACGGTGCTGAGCGTGATCTTCGGCGGCCTGCTGGCGCTGGCCCGCTTGTCCTCATCGTGGCTGCTCAGCAGCCTCGCCTGGGGCTATATCTGGCTGTTTCGCTCGCTGCCGCTGATTGTCGTGCTGATCATTCTCTACAACTTCTCCTATCTCTACGACACCCTGTCGCTGGGGATCCCGTTTACCGGCGTCACCTGGGCCAGCTACCAGACGATAAACGTGCTGGGGCAATTCTCCACGGCGGTGGTGGGCCTGACCCTGGTGCAGAGCGCCTATACCGCGGAGATTATTCGCGGCGGCTTCCTCGGCGTTGACCACGGGCAGTATGAAGCCGCCGCCGCGCTGGGGCTACCCGCCTGGCGACGCACGCTGCGCATTATTCTGCCGCAGGCGCTGCGCACCATCCTGCCATCCGGCTTCAATGAGATCATCAGTCTGGCGAAAGGAACGGCGATGGTGTACGTCCTGGCGATGCCGGAGCTGTTCTACACCATCCAGATGATCTACAACCGTACCCAGGAGGTGATCCCGCTGTTGATGGTCGGCGCCGCCTGGTATCTGGTGATCACCAGCGTCCTCTCCGCCATTCAGTACCTGGTGGAACGTGGCCTGGCGCGCAGTGAGCGCCGCTCGGCGGTGAACAGCGCCCGCGGCAGCCGTCTGAATCAACCCGCACGTCAACCACAGCCCCAGGAGGCCGTCCATGCCCAGCTCTCGTAA	MHSSETIKVVPARYPLRVVGALVALLVLTVVIQSVAFNPRWEWGVFARWFFDPVILEGLGQTLLLTLLGTVLSVIFGGLLALARLSSSWLLSSLAWGYIWLFRSLPLIVVLIILYNFSYLYDTLSLGIPFTGVTWASYQTINVLGQFSTAVVGLTLVQSAYTAEIIRGGFLGVDHGQYEAAAALGLPAWRRTLRIILPQALRTILPSGFNEIISLAKGTAMVYVLAMPELFYTIQMIYNRTQEVIPLLMVGAAWYLVITSVLSAIQYLVERGLARSERRSAVNSARGSRLNQPARQPQPQEAVHAQLS	PGPT0020795_1590	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
BMS020_00519	510			hypothetical protein	ATGAGCGAAGCATTCCGCGATATTTCTCCGGACGCACCGGAGCTGCAGCCGATTATTAGCGGGCTGTTTGCCGAATACGCCGCCCGCTACGGTGACTATTTTTCCCGCGATGCGGAAGTGGAGTTGAGCGAGTGGTATTTGCCGCCGCAGGGGCTGTTTATCGTCCTTGAGCGTGAGGGCGAAATTATCGCCACCGGCGCTTATAAGCCGAAGGATCGCCACACCGCAGAGATCAAACGTATCTGGACGCACCGCCGTCTGCGCCAGCAGGGGCTGGCGGCGAAAGTGGTTCAGGAGCTGGAGCGGCGGGCGGTGCTGGCCGGGTACAGCCATATCTACCTGACCACCGGCTTTCGTCAGCCGGAGGCGGTCAAGCTCTATCTCAGCCAGGGGTATGAGGCGCAGTTTGACCTCGCGCGAGACCCCGAAGAGTACAGTCAGCCGCCCTACGATGGCCGACTGCGGTTCACTAAAGCGCTGGCGGTGAGCGCCTTCAGCCACAGCGCCTGA	MSEAFRDISPDAPELQPIISGLFAEYAARYGDYFSRDAEVELSEWYLPPQGLFIVLEREGEIIATGAYKPKDRHTAEIKRIWTHRRLRQQGLAAKVVQELERRAVLAGYSHIYLTTGFRQPEAVKLYLSQGYEAQFDLARDPEEYSQPPYDGRLRFTKALAVSAFSHSA	PGPT0020795_263	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
BMS020_00520	933			hypothetical protein	ATGCAGAAAACAACACTCTTGCTGGCCGTCGCGTTGGCATTTAGCGCCTCGTCGTGGGCACAGGACGTCAAGATCAATGGCACCGGGGTAAGCCTTGAGGCCAACAAAACGCCCATTCACACAGCGAAAAACCCGCAGGCCATTGCCCTGTTGCCGAAAGATCTGCATCTGGCGGTGCCGGGGAAATTTACCGTCGCGGTGGCGGCCCTGAACTCACCCCCGCTGACGGTCTTCGCCGATGACAACAAAACCCTGCTCGGCAGCGAGGCGGATATCGCCCGGCTGGTGGCGGAGAGTCTCGGGCTGGAGGTGAACGTGGTTCCCACCTCCTGGGAAGACTGGCCGCTGGGGGTCACCTCCGGCAAATATGATGCCGCGATCAGCAATATTACGGTCACCAAAGCGCGGAAAGAGAAGTTCGATTTCGCCACCTACCGCAAAGACTCGCTGGGCTTCTACGTCAAAAGCAGCAGTCCGCTGAGCAAGATTGACAAGGCGGAAGACATCGCCGGGCTGAAGATTATCGTCGGCTCCGGTACCAACCAGGAGGCGATCCTGCTGGCGTGGAACGCGGAGAACGTCAAAAAAGGGCTGAAGCCGTTTACCCCGGTCTACACCAAGGATGATGCCGCCCAGACTCTGGCGCTGCAGACCGGACGAGCCGATGCCTTTTTCGGCCCCAATGTGATTGGCGCGTGGAAGGCGGCGCTGACCGGCAAAACCAAACTGGTGGGCAGCGTTGACGGCGGCTGGCCGAAAGCGGCGCATATCGCGGTGACGCTGAAAAAAGACAGCGGGCTGGTGAATGCCGTCCAGGCGGCGCTGAACGGCGCTATCGCCAGCGGGGACTACGCCAAAGTGCTTAACCGCTGGGGAGAGGGAGTGGAAAGCATTCCGCAATCGGAGATCAACCCGCCCGGACTGGGCGACTGA	MQKTTLLLAVALAFSASSWAQDVKINGTGVSLEANKTPIHTAKNPQAIALLPKDLHLAVPGKFTVAVAALNSPPLTVFADDNKTLLGSEADIARLVAESLGLEVNVVPTSWEDWPLGVTSGKYDAAISNITVTKARKEKFDFATYRKDSLGFYVKSSSPLSKIDKAEDIAGLKIIVGSGTNQEAILLAWNAENVKKGLKPFTPVYTKDDAAQTLALQTGRADAFFGPNVIGAWKAALTGKTKLVGSVDGGWPKAAHIAVTLKKDSGLVNAVQAALNGAIASGDYAKVLNRWGEGVESIPQSEINPPGLGD	PGPT0020800_2298	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
BMS020_00521	1314	moxC	COG2141	Putative monooxygenase MoxC	ATGTCTGAAAATCGACAATTGCGTCTGGGGACGATATTACATGGCGCATCGGGAAATATGTCCGCCTGGCGTCATCCGGCGGCGCAAGCGGACGCCAGTATTAATTTTGATTTTGTTACAGAGACGGCGTTAAAAGCGGAAGCGGGAAAACTGGATTTTATTTTTGTCGCCGACGGTTTATATATTAATGAAAAATCGATTCCCCATTTTTTAAATCGCTTCGAACCTTTAACGGTGCTTTCCGCGCTGGCCGCGGTCACCCGGCGGCTGGGGCTGGTGGGGACCTTATCCACTTCGTACAGCGAGCCGTTTACCACCGCCCGCCAGTTCGCCAGCCTCGACCATTTAAGCCAGGGGCGGGCGGGCTGGAACGTGGTCACTTCGCCGCTGGAAGGGTCGGCGAAAAACTTCTCCCGGACCCAGCATCCGGATCATGCGCTGCGCTATCGCATTGCCGATGAATATCTGCAGGTGGTGAAAGGCTTGTGGGATTCGTGGGAAGAAGATGCCTTTGTGCGCAATAAAGCGACCGGTCAGTTCTTTGACAAAAATAAGCTGCATACGCTCGATCATCACGGGGATTTCTTTAAAGTGGCCGGACCGCTGAATATTGCCCGCACGCCGCAGGGACGACCGATTATTTTCCAGGCTGGCGCGTCGGACGACGGCAAAAAATTAGCCGCACGCCACGCCGATGCCATTTTTACCCATCAGGAATCGCTGGCCGAGGCGCAGGCATTTTATCAGGACGTGAAAAGCCAGTTGGCGGCCTGGCAGCGCACCCCGGATCAGCTGCATATTTTCCAGGGCGTCAGCGTCATTGTCGGCGATGACGCCGAAGACGCGGAGCGCCAGTACCAGACCACCGCGGCGCTGGTCTCCATCGAGGATGCGCTGAACTATCTGGGGCGGTATTTCGAACACCATGATTTTTCGCAGTATCCGCTTGATGAACCGTTCCCGGATATTGGCGACCTCGGGCAAAACAGCTTCCGCAGTACCACCGAAGAGATTAAACGTCACGCCCGCGAGCGCGGATTAACCCTGCGCCAGGTGGCCCTGGAGGCAGCGAGCCCGCGTCCGCGCTTTACCGGCACCGCCAGCGATGTCGCCGACGGGCTGCAACTGTGGTTCGAACAGCGCGCGGCGGACGGCTTCATTATTCAGGGCGGCACGCCGGAAACCTTTCCGCGCTTTGTGGATGAGGTGGTGCCTCTGTTACAGGCGCGCGGCCTGTTCCGTCGCGACTATCCGGGCGCCACCCTGCGGGAAAGTCTGGGACTGGCGCTACCCGCTAATCAATTCCAAAAATAA	MSENRQLRLGTILHGASGNMSAWRHPAAQADASINFDFVTETALKAEAGKLDFIFVADGLYINEKSIPHFLNRFEPLTVLSALAAVTRRLGLVGTLSTSYSEPFTTARQFASLDHLSQGRAGWNVVTSPLEGSAKNFSRTQHPDHALRYRIADEYLQVVKGLWDSWEEDAFVRNKATGQFFDKNKLHTLDHHGDFFKVAGPLNIARTPQGRPIIFQAGASDDGKKLAARHADAIFTHQESLAEAQAFYQDVKSQLAAWQRTPDQLHIFQGVSVIVGDDAEDAERQYQTTAALVSIEDALNYLGRYFEHHDFSQYPLDEPFPDIGDLGQNSFRSTTEEIKRHARERGLTLRQVALEAASPRPRFTGTASDVADGLQLWFEQRAADGFIIQGGTPETFPRFVDEVVPLLQARGLFRRDYPGATLRESLGLALPANQFQK	PGPT0003040_16	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
BMS020_00522	1122	scmP_1	COG1473	N-acetylcysteine deacetylase	ATGTCCTTTGAACAACAACTGATTAGCTGGCGGCGCGAGCTGCACCAGAACCCGGAGCTCTCCCTGCAGGAGGTGGCCACCACTGCGCGGATCCGCGACTGGCTGCAAAGCGGCGGGTTGACCCTGCTGCCTTACGATCTGAAAACCGGGCTGGTGGCCGAAGTCGGCAGCGGCGACAAGGTGATAGCCCTGCGGGCGGATATCGACGCGTTGCCCATCGAGGAGGCGACCGGTCTGCCTTACCGCTCGCAGAATCAAGGGGTGATGCATGCCTGCGGGCACGATATTCACACCAGCGTAATGCTGGGAGCGGCGCTGATGCTGAAGGATCGGGAAGCGGAACTCCCGGGGCGGGTGCGGATCCTTTTCCAGCCGGCGGAAGAAAATTTCGGCGGGGCGAAAACCCTGATCCGCGCCGGGGCGCTGGAGGAGGTGTCGGCGATCTTTGGCATGCACAATGAGCCCGGCCTGCCGGTGGGTGAATTTGCCACCCGCGGCGGCGCGTTCTACGCCAACGTCGACCGCTTCGTCTTCAAAGTGACCGGGAAGGGGGCGCATGCCGCCCGCCCCCACGAAGGCAAGGATGCGATCCTGCTGGCCAGCCAGCTGGTGACGGTGCTGCAGAGCGTGGCCAGCCGGGAAGTGAACACCCTCGACTCGGTGGTGCTCAGCGTGACGCGGATCCAGGGAGGCAATACCTGGAACGTGCTGCCGGAGAGCGTCGAGCTGGAGGGGACGTTGCGCACCCACAGCAGTGAAGTGCAGCAGCGGGTCAAGGCCCGGGTCAGCGAGATTGCGGCCGGTTTCGCCAGCGCCTTTGGCGCGCAGATTGACGTCTTCTGGTATGCCGGCCCGACGGCGCTGGTCAATGACGCCCGCTGGGCCGACTTCGCCAGCGAGGTAGCGGCCCAGGCCGGGTACCGCACCCACCACGCCGATCTGCATCTCGGTGGTGAAGATTTTGCGGTCTATCTTCAGCATATTCCCGGGGCGTTCGTCAGTATCGGCAGCGCTAGCGAATATGGTCTGCACCATCCGGCATTTAATCCGGACGAACGGCTTATTGCACCCGCAGCGCACTATTTCGCCCGTCTGGCGGAGCAGGCATTACAACACATTTAA	MSFEQQLISWRRELHQNPELSLQEVATTARIRDWLQSGGLTLLPYDLKTGLVAEVGSGDKVIALRADIDALPIEEATGLPYRSQNQGVMHACGHDIHTSVMLGAALMLKDREAELPGRVRILFQPAEENFGGAKTLIRAGALEEVSAIFGMHNEPGLPVGEFATRGGAFYANVDRFVFKVTGKGAHAARPHEGKDAILLASQLVTVLQSVASREVNTLDSVVLSVTRIQGGNTWNVLPESVELEGTLRTHSSEVQQRVKARVSEIAAGFASAFGAQIDVFWYAGPTALVNDARWADFASEVAAQAGYRTHHADLHLGGEDFAVYLQHIPGAFVSIGSASEYGLHHPAFNPDERLIAPAAHYFARLAEQALQHI				NA	NA	NA	NA	NA
BMS020_00523	1008			hypothetical protein	ATGTCTTATCGAATCAGTATCCTGGATAAAAGTCCGCTTGCCGCCGGGGAAACCGCCGCGCAGGCGCTGGCGCGTACATTAACGCTGGCGCAACACGCCGAAGCCTGGGGCTATCACCGCTTCTGGGTCGCCGAACACCACAATACCGATCAGCTGGCGAGCCCCTCGCCGGAGCTGGTTATCGCCTGGCTGCTGGGCCACACCCGGCGGATCCGCCTCGGGTCCGGCGGCGTCATGCTCCAGCACTATAGCCCCTATAAGGTTGCGGAAAACTTCAACCTGCTGGCCGCCCTCGCGCCGGGCCGCATCGATCTCGGGGTCGGCAAGGCGCCTGGTGGCCTGCCGCTCTCCACCCGCGCCCTGCAGCAGGGCCTGCATCAGGAAGAGAAAGGCGCCTTTGCCGACCAGCTGGCGCAGCTGGATAACTGGCTGTCGCTGACTGAGCCCGTAGGGGAAGAGAGTCTGCGCGCCACGCCGATCCCGCCGCGCCGGGCAGACGGTTTTCTGCTCGGCGCCAGCCTGGAGAGTGCTGAACTGGCGGCCCGCCTTGACTGGAACTTTGTCTTTGCCGCCCATCTCAATGGCGACAGCGCGCTGCGCCGCACGGTGCTCAACCGCTGGCGCGAGCTGAGCCCGCGCGAGGCAATTGTCGCCGTGCAGGTGGTGGTCGCCGACGATCCCGCTACCGCCGCCGCGCTGGCGCAGCAGGTGGAGGCGTGGGGCGTTGAGCTGGAGAACGGCCAGCGGGTGACCGTCGGCAGTGAGGCGCAGGCCGTCGCTTTTGCCCGCCAGGCCGGTAGCCGTCCCACCCGTATCGCCCGCCGCGAATCTTCGCTGATATCGGGTACCCCCGAAGAGGTGAAAGCCCGGCTGGACGCGCTGCAGGCGGAAGATCAGCTGGATGAACTCATCATTGATACCCCCATTAGCGACGGGCCTGCGCGCCTGCGCTCCCTGCGCCTGCTGGCGCAGGCTCACTACGGCAAGGCGGTGCTGAATGTCCTTTGA	MSYRISILDKSPLAAGETAAQALARTLTLAQHAEAWGYHRFWVAEHHNTDQLASPSPELVIAWLLGHTRRIRLGSGGVMLQHYSPYKVAENFNLLAALAPGRIDLGVGKAPGGLPLSTRALQQGLHQEEKGAFADQLAQLDNWLSLTEPVGEESLRATPIPPRRADGFLLGASLESAELAARLDWNFVFAAHLNGDSALRRTVLNRWRELSPREAIVAVQVVVADDPATAAALAQQVEAWGVELENGQRVTVGSEAQAVAFARQAGSRPTRIARRESSLISGTPEEVKARLDALQAEDQLDELIIDTPISDGPARLRSLRLLAQAHYGKAVLNVL				NA	NA	NA	NA	NA
BMS020_00524	552			hypothetical protein	ATGAACATCAATGTGGTCGGCACCAGCGGCTCAGGCAAATCCACCCTGGCTCGTCGCCTGGCGCACAGGCTGGGGCTGCCGTGCATCGAACTGGATCGCCTGTACTGGCGGCCGAACTGGCAGGGCGCGCCGGATGAGGCGTTTTTCGCCGCCATTGCCGCCGCGACGGCCACCCCGGGTTGGGTATTGGATGGCAACTACAATCGCAGCCGCGGGGTCAAATGGCGCGAGGTGGATCTGGTGATCTGGCTGGATTATGGCCTCTGGCGCACGCTGCGCCAGGCGGTGTGGCGGGCCGCGAGCCGGGCGTGGCGCCGTCAGGAGCTGTGGCCGGGAACCGGCAACCGCGAGAGTTTCCGCCGTTCGTTCTGCAGCCGGGAATCCATCATCCTCTGGACGCTGAAAACCTGGCGGCAGAATCGCCGACGCTATCTGGCCGATATGCAGGATCCGCAATATCGTCATATTCGCTTCGTCCGGCTACGCAGTCCTCGGCAGGCCGAGGCGCTGCTCCGCGAGCTGGAAGCGCAGCGGTCAGGCGGGCATATCTAA	MNINVVGTSGSGKSTLARRLAHRLGLPCIELDRLYWRPNWQGAPDEAFFAAIAAATATPGWVLDGNYNRSRGVKWREVDLVIWLDYGLWRTLRQAVWRAASRAWRRQELWPGTGNRESFRRSFCSRESIILWTLKTWRQNRRRYLADMQDPQYRHIRFVRLRSPRQAEALLRELEAQRSGGHI				NA	NA	NA	NA	NA
BMS020_00525	906	dapF_1	COG0253	Diaminopimelate epimerase	ATGGAAAAACATACCCGTAGCGCCAGGCGACCCCACACAATGACCCCCTTGCACTTTCATAAATATCACGGACTGGGTAATGATTACCTGGTATGCCATCGCGCCGTTGCCGACCAGCTGAGCAACGAGCATATTCGAATTCTGTGCCATCGCCACTATGGCGTCGGGTCTGATGGTCTCCTGATCGACAGCGGCGATCGAACCCACCCCACGCTGCGTATTATCAATCCGGACGGCTCCGAGGCGGAGAAAAGCGGGAATGGGCTACGGATCTATGCGCGCTATCTGTTTGATATCGGTCGTGTCGGGCATGAGCCCTTTTTAGTGCACACGGCGGGCGGAGACGTCTATTGCACCGTGGAGCGTGATTTTCATCAGATTAGCGTCGACATGGGGCGGGCGAATTTCAATCCGGCGGCGTTACCCGCCCTGGTGAATTTGCCCGAGGCGGTGAATTATCCCTTGCCGCTGGCGGATGAAACCCTGTCCGTCGTGCTGGTCTCTATGGGCAATCCCCACTGCGTTGTCCTCGTGGATAAGCTCGACCTGGAACAGGTTCATCGCTTAGGGCCGCAAATTGAACATCATCCCTTGTTCCCCAAACGCTGCAATGTGCAGTTCGTGGAAGTTGTCGATCGCCATACGCTGAAGATTGGTATCTGGGAGCGGGGCGCCGGGTTTACGATGGCCTCCGGGAGCAGCAGCTGCGCGGCGGCCAGCGCCATGCGCCGGTTAGGGAAGGTGGACGATCGGGTGGAGGTCAACATGCCAGGCGGCCAGCTGAGCATCACCTTCGGCGCGGATTTTCAGGTACTTATGCGTGGCCCGGTGCATAAGATCGCCAGCCTGACGCTGGATAAAGACTGTTTTGTCGGCGGCGGCGCTATCTCCACTGGCGCGGCATGA	MEKHTRSARRPHTMTPLHFHKYHGLGNDYLVCHRAVADQLSNEHIRILCHRHYGVGSDGLLIDSGDRTHPTLRIINPDGSEAEKSGNGLRIYARYLFDIGRVGHEPFLVHTAGGDVYCTVERDFHQISVDMGRANFNPAALPALVNLPEAVNYPLPLADETLSVVLVSMGNPHCVVLVDKLDLEQVHRLGPQIEHHPLFPKRCNVQFVEVVDRHTLKIGIWERGAGFTMASGSSSCAAASAMRRLGKVDDRVEVNMPGGQLSITFGADFQVLMRGPVHKIASLTLDKDCFVGGGAISTGAA	PGPT0007230_1533	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007230-dapF-K01778	NA	NA
BMS020_00526	1455	ansP2	COG1113	L-asparagine permease 2	ATGAATACGAAACACGACACTGCAGCGGAGCACCATGCTGCAAAACGCCACTGGCTCAACTCACATGAAGCGGGTTATCACAAAGCGATGGGCAACCGTCAGGTACAGATGATCGCCATCGGCGGCGCCATCGGTACCGGTTTGTTCCTCGGCGCCGGGGCACGTTTACAAATGGCAGGGCCAGCGCTCGCACTGGTCTATCTGGTCTGCGGCATCTTCTCTTTCTTTATTCTTCGCGCCCTCGGCGAACTGGTTCTCCACCGCCCCTCGAGCGGCAGCTTCGTCTCCTATGCCAGGGAATTCCTCGGCGAAAAGGCCGCCTACGTGGCCGGCTGGATGTACTTCGTTAACTGGGCAATGACCGGGATCGTCGATATCACCGCCGTGGCGCTGTATATGCACTACTGGGGCGCGTTTGGCGATGTGCCGCAGTGGGTCTTCGCCCTCGGCGCGCTGGCCATCGTCGGCACCATGAACATGATCGGCGTGAAGTGGTTCGCCGAGATGGAGTTCTGGTTCGCGCTGGTCAAAGTGCTGGCGATCGTCGCGTTTCTCGTGGTCGGCACCATTTTCCTCGGCTCCGGTAAGCCGCTGGACGGTAATGCCACCGGCTTCCACCTGATCACCGATAACGGCGGCTTCTTCCCGCACGGCCTTCTGCCGGCGCTGGTGCTGGTGCAGGGCGTGGTCTTCGCCTTCGCCTCCATTGAACTGGTGGGCACCGCGGCCGGTGAGTGTAAGGATCCGGAGACGATGGTGCCGAAGGCCATCAACAGCGTGATCTGGCGTATCGGCCTGTTCTACGTCGGATCGGTGGTGCTGCTGGTGCTGCTGCTGCCGTGGAACGCCTACCAGGCGGGACAGAGCCCGTTCGTTACCTTCTTCTCAAAACTGGGCGTACCGTATATCGGCAGCGTGATGAACATCGTGGTGTTAACCGCCGCCCTCTCCAGCCTCAACTCCGGCCTCTACAGCACCGGGCGTATTCTGCGCTCCATGTCGATGGGGGGCTCCGCGCCGAAGTTCATGTCGAAGATGAGCCGTCACCACGTCCCTTACGCCGGGATCCTGGCGACGCTGGCGGTGTACGTGGTCGGGGTGTTCCTCAACTATCTGGTGCCGTCGCAGGTGTTTGAGATCGTCCTCAACATCGCTTCGCTGGGGATCATTGCGTCCTGGGGCTTCATCGTGGTGTGTCAGATGCGTCTGCGCAAAGCGATTAAGGAAGGGAAAGCGGCTCAAGTGAGCTTCAGAATGCCTGGGGCGCCGTTCACCTCCTGGCTGACGCTGCTGTTCCTGTTTAGCGTGCTGGTGCTGATGGCCTTCGATTATCCGAACGGCACCTATACCATTGGCTCCATCCCGTTGCTGGCGGTGCTGCTGGTGGCGGGCTGGTTTGGCGTGCGTAAACGCGTGCATGCGATTCACAGCACAGCGCCGACGCTCAAGCAGTAA	MNTKHDTAAEHHAAKRHWLNSHEAGYHKAMGNRQVQMIAIGGAIGTGLFLGAGARLQMAGPALALVYLVCGIFSFFILRALGELVLHRPSSGSFVSYAREFLGEKAAYVAGWMYFVNWAMTGIVDITAVALYMHYWGAFGDVPQWVFALGALAIVGTMNMIGVKWFAEMEFWFALVKVLAIVAFLVVGTIFLGSGKPLDGNATGFHLITDNGGFFPHGLLPALVLVQGVVFAFASIELVGTAAGECKDPETMVPKAINSVIWRIGLFYVGSVVLLVLLLPWNAYQAGQSPFVTFFSKLGVPYIGSVMNIVVLTAALSSLNSGLYSTGRILRSMSMGGSAPKFMSKMSRHHVPYAGILATLAVYVVGVFLNYLVPSQVFEIVLNIASLGIIASWGFIVVCQMRLRKAIKEGKAAQVSFRMPGAPFTSWLTLLFLFSVLVLMAFDYPNGTYTIGSIPLLAVLLVAGWFGVRKRVHAIHSTAPTLKQ	PGPT0000815_297	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
BMS020_00527	222	ygdR_1		putative lipoprotein YgdR	ATGAAAAAACCATTCATGGTGATTTGCGCCGGCGCGATGCTGGCGCTGCTGGCCGGCTGTTCGTCCAACTACGTTATGACCACCAAAAGCGGTCAGACGATCGTCACCCACGGCAAGCCGCAGCTGGATAAAGAAACGGGGATGACCAGCTATATCGATGAGTCTGGTAATAAGCGGGAAATTAACAGCAGCGACGTGTCGCAGCTGGTTGAGGATAACTAA	MKKPFMVICAGAMLALLAGCSSNYVMTTKSGQTIVTHGKPQLDKETGMTSYIDESGNKREINSSDVSQLVEDN				NA	NA	NA	NA	NA
BMS020_00528	1062	yncE	COG3391	putative protein YncE	ATGTCATTACGTCAGTTTGCCGCGCCGCGTCTGCGCCATTCACTGTTATTCACTTCTCTGCTGCTGGCAGGCAGCTTTAGCGCCCACGCCGCGGAAGAGATGCTGCGCAAGGCCGTCGGGAAAGGGGCCTACGAAATGGCCTACAGCCAGCAGGAGAACGCGCTGTGGGTCGCCACTTCGCAAAGTCGTTCGCTGGACAAAGGGGGGATTGTTTATCGTCTTGACCCAACCACCCTCGACGTGACGCAGATTATTCACAACGATCTGAAGCCGTTTGGCGCCGCTATCAACCATGCCACCGGTACGCTGTGGTTTGGTAATACCGTCGACAGCACCGTCACCGCCATTGACGCCAAAACCGGCGCCGTGAAGGGGCGACTGGTGCTGGACGAGCGTCAGCGCAGTGAAACCGTGCGCCCGCTGCAGCCGCGCGAGCTGGCGGTCAATGAGCAGACCAACACTATCTACATTACCGGTCTGGGCAAAGAGAGCGTGATTTGGGTGGTGGATGGCGCTACCCTGAAGCTGAAAACGACGATTACCGGCACCGGGGCGATGGCCACCGGCCTGGCGATCGATCCGCAGGCGAAACGCCTTTATACCACCAATGCCGACGGCGAACTGCTGACCATCGACAGCGAGAGCAACACCATTGTGTCGCGCAAAAAATTGCTGGATGACGGCAAGGCGCATTTCTACCTTAACCTGAGCCTCGATACCGCCGGCCACCGCGCCTTTATTACCGACAGCAAGCAGCCGGAAGTGCTGGTGGTCGATACCCGCGACGGCAAAGTGCTGGAGAAAATCACCGCGCCGGAATCGCTGGCGGTGCTGTTTAACCCCACCCGCAACGAAGCCTATGTGACGCACCGTAAGGCGGGGGAAGTGAGCGTTATCGACGGCAAGAGCTATAAGGTGGTGAAGACCTTTAAAACGCCGACCCATCCCAACAGCCTGGCGCTCTCTGATGACGGCAAAACGCTGTACGTCAGCGTGAAACAAGCATCCAGCCGTGAGAAAGAGGCCACGGCGCCGGACGACGTGATCCGCATCGCCCTGTAA	MSLRQFAAPRLRHSLLFTSLLLAGSFSAHAAEEMLRKAVGKGAYEMAYSQQENALWVATSQSRSLDKGGIVYRLDPTTLDVTQIIHNDLKPFGAAINHATGTLWFGNTVDSTVTAIDAKTGAVKGRLVLDERQRSETVRPLQPRELAVNEQTNTIYITGLGKESVIWVVDGATLKLKTTITGTGAMATGLAIDPQAKRLYTTNADGELLTIDSESNTIVSRKKLLDDGKAHFYLNLSLDTAGHRAFITDSKQPEVLVVDTRDGKVLEKITAPESLAVLFNPTRNEAYVTHRKAGEVSVIDGKSYKVVKTFKTPTHPNSLALSDDGKTLYVSVKQASSREKEATAPDDVIRIAL				NA	NA	NA	NA	NA
BMS020_00529	2106	cntO_1		Metal-pseudopaline receptor CntO	ATGAAAATCCTATCCGTGCAACACGCGGCCCTGCCGGCCCTGCTGCTGCCGCTCATCGCCGCCGCCCAGGCCGCCGATGAACAAACCATGGTGGTGACCGCTGCGCCAACCACTGTTTCTGAACTGGATACCCCCGCCGCCGTCAGCGTGGTCAATGGGGATGAGATGCGCCAGGCCGCGCCGCGCGTCAACCTCTCTGAATCGCTGGGCGCCGTGCCGGGCCTGCAGGTGCAGAACCGACAAAACTATGCCCAGGATCTGCAGCTGTCGATTCGCGGCTTTGGCTCCCGCTCTACCTACGGCGTGCGCGGGCTGCGCATCTATGTGGACGGCATCCCGGCGACCATGCCCGACGGCCAGGGGCAGACCTCCAATATCGATATCGGTAGCGTCGACACCCTCGAGGTGCTGCGCGGCCCCTTCTCTGCCCTCTACGGTAACTCGTCCGGCGGGGTGATCAATGTCACCAGCCAGACCGGCACCCAGCCGCCCACCGTGGAAGCCAGCAGTTACTATGGCAGCTTCGGCACCTGGCACTACGGGATGAAAGCCACCGGCGCCGTTGGCGACGGCAGCCACGCAGGCGATGTGGATTACACGGTGTCGACTAACCGCTTCACCACCCATGGCTATCGCGATCACAGCGGCGCGCGCAAAAATCTGGCCAACGCCCGGCTGGGGGTGCGCATCAACGACGTCAGTAAGCTGACGCTGCTGCTGAACAGCGTTGATATCAAAGCCAATGACGCCGGCGGCTTAACCGCCGATGAATGGCGCGATAACCCGCGCCAGTCGCCGCGCGGCGACCAGTATAATACCCGCAAGGATACCCGGCAGACCCAGGCTGGCCTGCGCTACGAGCGCCAGCTGAGCGCCCAGGACGATCTCAGCGTCATGATGTACGCCGGGGAACGCGAAACCACCCAGTACCAGTCGATCCCGCGCGCGCCGCAGCTGAAGCCGAGCCATGCCGGCGGGGTGATCGACCTCACCCGCCACTACCAGGGGATCGATACCCGGCTGACCCATCGCGGCGAGCTGCTGGTGCCGGTCACCCTGACCGCCGGTCTTGACTACGAGAACATGAGCGAGCGCCGCAAGGGCTATGAAAACTTTGTGATGGTCAACGGCGCGCCGCAGTATGGCGAACAGGGCGCGCTACGCCGTAACGAACGTAACCTGATGTGGAACGTCGACCCTTACCTGCAAACCCAGTGGCAGCTCACCGACAAACTTTCGCTCGATGCCGGGGTGCGCTACAGCTCGGTATGGTTCGACTCGAATGATTACTACATCACCCCAGGCAATGGCGACGACAGCGGCGATGCCAGCTATCACAAATGGCTGCCCGCAGGCTCGCTGAAGTATGCCCTGACCGACGCCTGGAACGTTTACCTCTCCGCTGGCCGCGGCTTCGAGACGCCGACCATTAACGAGCTGTCATACCGCGCCGATAACCAGAGCGGTCTCAACTTCGGCCTGAAGCCCTCCACCAACGACACGGTGGAGATCGGCAGCAAGACGCGGATTGGCAATGGGTTGCTCACCGCCGCCCTGTTCCAGACCGATACCGATAATGAGATCGTGGTCGACAGCAGCAGCGGCGGACGCACCAGCTATAAAAACGCCGGCAAGACCCGTCGTCAGGGGATGGAGCTGGGACTGGATCAGCAGTTTGGCGAGAGCTGGCGCCTGAAGGCGGCCTGGACCTGGCTTGACGCGACCTATCGCACCAACGTCTGCGGCGACGCCAGCTGCAACGGCAACCGTATTCCGGGGATCGCGCGCAATATGGGTTACGCCTCCTTCGGCTATCAGCCGGAGCAGGGCTGGTACGCCGGGAGCGATATTCGCTACATGAGCGACATCATGGCGAACGACGAAAACACCGCCAAAGCCCCTTCCTGGACGGTGGTCGGCCTGACGACCGGCTATAAGTGGAGCTATGGCAGGATGGATATGGATCTGTTCGGCCGGGTCGACAACCTGTTCGACCGCGAATACGTCGGGTCCGTCATCGTTAACGAGTCCAACGGACGCTACTACGAGCCCGCGCCGGGACGCAACTACGGTATCGGGCTGAACCTCGCCTGGCGCTTCGAGTAA	MKILSVQHAALPALLLPLIAAAQAADEQTMVVTAAPTTVSELDTPAAVSVVNGDEMRQAAPRVNLSESLGAVPGLQVQNRQNYAQDLQLSIRGFGSRSTYGVRGLRIYVDGIPATMPDGQGQTSNIDIGSVDTLEVLRGPFSALYGNSSGGVINVTSQTGTQPPTVEASSYYGSFGTWHYGMKATGAVGDGSHAGDVDYTVSTNRFTTHGYRDHSGARKNLANARLGVRINDVSKLTLLLNSVDIKANDAGGLTADEWRDNPRQSPRGDQYNTRKDTRQTQAGLRYERQLSAQDDLSVMMYAGERETTQYQSIPRAPQLKPSHAGGVIDLTRHYQGIDTRLTHRGELLVPVTLTAGLDYENMSERRKGYENFVMVNGAPQYGEQGALRRNERNLMWNVDPYLQTQWQLTDKLSLDAGVRYSSVWFDSNDYYITPGNGDDSGDASYHKWLPAGSLKYALTDAWNVYLSAGRGFETPTINELSYRADNQSGLNFGLKPSTNDTVEIGSKTRIGNGLLTAALFQTDTDNEIVVDSSSGGRTSYKNAGKTRRQGMELGLDQQFGESWRLKAAWTWLDATYRTNVCGDASCNGNRIPGIARNMGYASFGYQPEQGWYAGSDIRYMSDIMANDENTAKAPSWTVVGLTTGYKWSYGRMDMDLFGRVDNLFDREYVGSVIVNESNGRYYEPAPGRNYGIGLNLAWRFE	PGPT0003790_23549	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_00530	300			hypothetical protein	ATGAAAGATGTAGTAGATAAATGCAGCACCAAAGGCTGCGCCATTGATGTCGGGACAATTATTGATAACGAGGACTGCGTCTACCGGGCTGAGAAATTATTCCCGAGCCGCGAGGAAGCGGAGTCAACCGTAGCCGCCGTTCGCGAGCGTGCCGCCGCGGCGGCGCCGGCCAGTGAACCACCGCAGGTTGACTACACGCTCGCCGCCGCCGGCGACGAGGTGAAACTCGATCTGTCCATCGCCTTCTCCTGCCAGGCGGAAAAGATCATTTTCGAATTGTCCCTGAGAAACCTGCTTTAA	MKDVVDKCSTKGCAIDVGTIIDNEDCVYRAEKLFPSREEAESTVAAVRERAAAAAPASEPPQVDYTLAAAGDEVKLDLSIAFSCQAEKIIFELSLRNLL				NA	NA	NA	NA	NA
BMS020_00531	936	rihA_1	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihA	ATGGCACTGCCGATAATGATTGATTGCGATCCGGGACATGATGACGCGATCGCCCTGGTCCTCGCCCTCGCCTCGCCGGAGCTGGAGGTGAAAGCCGTCACCGCCTCCGCAGGCAACCAGACCCCGGAGAAGACCCTGCGCAACGTGCTGCGTATGCTGACGCTGCTGAACCGCGCGGATATTCCGGTCGCCGGCGGCGCGTGGAAGCCGTTAATGCGCGATCTGATCATTGCCGATAATGTGCACGGGGAAAGCGGACTGGATGGCCCGAACCTGCCGGAGCCGGCCTTTGCGCCGCAAAACTGCACCGCCGTCGAGCTGATGGCCAGGGTGCTGCGCGAAAGTCAGGAGCCGGTGACGCTGGTGGCCACCGGGCCGCAGACGAACGTGGCGTTGCTGCTCGCCAGCCATCCGGAGCTGCACGCGAAGATCGCCCGCATCGTGATCATGGGTGGCGCTATGGGGCTGGGCAACTGGCAGCCGGCGGCGGAGTTTAATATCTACGTCGATCCGCAGGCGGCGGAGATGGTCTTTCAGTCGGGGATCCCTGTGGTGATGGCAGGCCTGGATGTCACCCACCGGGCGCAGATCCTTCCTGCGGATATTGAGCGATTCCGCCAGATTGGCAATCCGGTATCAACCATCGTCGCCGAACTGCTCGACTTCTTTATGGCCTACCACAAGGACGAAAAGTGGGGCTTCGACGGCGCGCCGCTCCACGACCCCTGCACCATCGCCTGGCTCCTCAAGCCGGAGCTCTTTACCACTATCGAGCGCTGGGTCGGCGTGGAAACGGAAGGCAAATATACCCAGGGGATGACGGTGGTCGATTACTACCATCTGACCGGCAATCCGCCCAATACCACCCTGATGCTGGATGTGGACCGCGAAGCCTTTGTCGATCTGCTCGCCCAGCGGTTAGCCTTTTACGCCTGA	MALPIMIDCDPGHDDAIALVLALASPELEVKAVTASAGNQTPEKTLRNVLRMLTLLNRADIPVAGGAWKPLMRDLIIADNVHGESGLDGPNLPEPAFAPQNCTAVELMARVLRESQEPVTLVATGPQTNVALLLASHPELHAKIARIVIMGGAMGLGNWQPAAEFNIYVDPQAAEMVFQSGIPVVMAGLDVTHRAQILPADIERFRQIGNPVSTIVAELLDFFMAYHKDEKWGFDGAPLHDPCTIAWLLKPELFTTIERWVGVETEGKYTQGMTVVDYYHLTGNPPNTTLMLDVDREAFVDLLAQRLAFYA	PGPT0013465_2451	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
BMS020_00532	1038	curA	COG2130	NADPH-dependent curcumin reductase	ATGTCAGAACAACCGCAACGCCATCGCCGCTGGGTACTGGCTTCCCGTCCCCATGGTGAACCGACGGCAGAGCATTTCCGCCTGGAAGAGCGCGAGGTGCCCACCCCGGGGCCGGGTCAGGTTCTGCTGCGTACCGTTTATTTATCGCTGGATCCCTATATGCGCGGGCGGATGAGCGACGCGCCGTCCTATTCACCGCCGGTGGCTATCGGCGCGGTGATGGTGGGCGGGACCGTGAGTCGCGTCGTGACCTCGCAGCATGATGATTTTCAACCCGGCGACTGGGTGCTGGGCTACAGCGGCTGGCAGGATTATGAGCTTTCCGACGGCAGCGGGCTGGTGAAGCTAGGGGACAACCCGCAGCACCCGTCCTGGTCGCTGGGGGTGCTGGGGATGCCGGGCTTCACCGCCTACATGGGATTACTGGACATTGGCCAGCCGAAGCCGGGTGACACGCTGGTGGTCGCTGCGGCCACCGGGCCGGTGGGCGCTACGGTCGGACAGATCGGCAAAATTAAGGGCTGCCGTACCGTCGGCGTCGCCGGCGGCGCGGAGAAATGTCGCTATGCGGTTGACACCTTAGGCTTTGATGTCTGCCTTGACCATCGCGCGGCGGACTTTGCCGAACAGCTGGCCCAGGCCTGCCCGCAAGGCATTGACGTCTACTACGAAAACGTCGGCGGCAAGGTTTTTGACGCGGTGCTGCCGCTGCTCAACACCGCGGCGCGGGTTCCGGTCTGCGGGCTGGTGAGCGGCTATAACGCCACCGGTCTGCCGGACGGGCCGGACCGTCTGCCGCTGCTGATGGCGACCATCCTCAAGAAACGCATTCGGATGCAGGGCTTTATTATCGGCCAGGATTATGGGCATCGGATCGCGGAATTCCAGCAGCAGATGGGGCGCTGGGTGCAGGAGGGTAAAATTAAATATCGCGAACAGCTGATCGACGGTCTGGAGCAGGCGCCGCAGGCGCTGATCGGCCTGTTGAAAGGTGAAAACTTTGGTAAGGTGGTGATCCGCGTGTCGGCGGATGACTAA	MSEQPQRHRRWVLASRPHGEPTAEHFRLEEREVPTPGPGQVLLRTVYLSLDPYMRGRMSDAPSYSPPVAIGAVMVGGTVSRVVTSQHDDFQPGDWVLGYSGWQDYELSDGSGLVKLGDNPQHPSWSLGVLGMPGFTAYMGLLDIGQPKPGDTLVVAAATGPVGATVGQIGKIKGCRTVGVAGGAEKCRYAVDTLGFDVCLDHRAADFAEQLAQACPQGIDVYYENVGGKVFDAVLPLLNTAARVPVCGLVSGYNATGLPDGPDRLPLLMATILKKRIRMQGFIIGQDYGHRIAEFQQQMGRWVQEGKIKYREQLIDGLEQAPQALIGLLKGENFGKVVIRVSADD	PGPT0023605_302	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
BMS020_00533	582			hypothetical protein	ATGAATACTATAGAAGACAACCTCAATCAGCGTATCAGCGCGCGCATCCGCATCGAGCGCGAATCCCGTGGCTGGTCGTTGAACGACCTGGCCGAACGGGCCGGCGCCTCGCGGGCGATGATCCATAAAATCGAGCGCGGCGAAAGCAGCCCGACGGCGTCGATGCTGGGCCGCCTTTCCGGCGCCTTCGGCATCAGTATGTCGACCCTGATCGCCAGGGCGGAAATGCAGGAAGGCAAGCTGCTGCGTTTTGCCAGCCAGCCGGTATGGCACGACCCGCAAAGCCACTATCTCCGCCGCCACGTTTCGCCGCGCAGCGATCTGCCCATTGACCTGGTGCAGATCGAGCTGCCGCCCGGCAGCGATGTGCCGATGCCGGCTTCGTCCTATGCGCTGGCACGCCAGCTGATCTGGCTGCAGCGGGGCGAGCTGGTGTTCCTGGAAGGGAATACCCGCCACGAGATGCAGACCGGGGACTGTCTGGAGCTCGGCCCACCGAACGACTGCCGCTTTATCAATGAATCCGCAGAGACCTGCGTCTATCTGGTGGTGCGCCTTAATCAATCGCCATCCGGCTCTTAA	MNTIEDNLNQRISARIRIERESRGWSLNDLAERAGASRAMIHKIERGESSPTASMLGRLSGAFGISMSTLIARAEMQEGKLLRFASQPVWHDPQSHYLRRHVSPRSDLPIDLVQIELPPGSDVPMPASSYALARQLIWLQRGELVFLEGNTRHEMQTGDCLELGPPNDCRFINESAETCVYLVVRLNQSPSGS				NA	NA	NA	NA	NA
BMS020_00534	519	mnaT	COG1247	L-amino acid N-acyltransferase MnaT	ATGTCCATCCGCCCTGCCATTAAAGACGATTGCGCGGCGATCGCCGAGATCTATAACCACGCCGTCGTGCATACCGCCGCTATCTGGAATGACAAAACCGTGGATACCGACAACCGCATCGCATGGTTTGAAGCCCGCCAGCTGGCAGGCTTTCCGGTGCTGGTGAGCGAGGAAAACGGCGTCATCACCGGCTATTCCTCCTTTGGCGACTGGCGCGCGTTTGACGGCTTTCGCCACACCGTGGAGCATTCGGTGTACGTTCACCCCGAGCACCAGGGGAAAGGCCTGGGCCGCAAACTTCTGGTCGCCTTGATCGCCGAAGCGCGTCGGCTGAATAAACATGTGATGGTCGCCGGGATCGAGTCGCAGAACCACGCCTCGCTGCACCTGCATGAAACGCTGGGCTTTATCACCACCGGGCAGATGCCGCAGGTGGGAACCAAATTTGGTCGCTGGCTGGATCTGACCTTTATGCAGCTGCAGCTTGATGCGCGCCAGGACCCGGACGGCCAGGCATGA	MSIRPAIKDDCAAIAEIYNHAVVHTAAIWNDKTVDTDNRIAWFEARQLAGFPVLVSEENGVITGYSSFGDWRAFDGFRHTVEHSVYVHPEHQGKGLGRKLLVALIAEARRLNKHVMVAGIESQNHASLHLHETLGFITTGQMPQVGTKFGRWLDLTFMQLQLDARQDPDGQA				NA	NA	NA	NA	NA
BMS020_00535	450	ydcZ	COG3238	Inner membrane protein YdcZ	ATGAATGGGTCGCTTACCCTCGCCTTTCTGGTGGCCGCCGGCGTAGGCCTGGTGGTGCAGAACACCCTGATGGTGCGCATCACCCAGTCGGTGTCGACGATCCTCATCGCCATGCTGCTCAATTCGCTGGTAGGTATCGTTATTTTCGTGACCTTGTTGCTGCTGCGCCAGGGTGTCGCCGGCTTTCATGAGCTGGCCCTGAACGTGAAGTGGTGGACGCTGATCCCCGGCATGCTGGGATCCTTTTTCGTCTTCGCCAGCATCAGCGGCTATCAGACCGTGGGCGCAGCCACCACCATCGCGGTACTGGTGGCCAGCCAGCTGGTCGGCGGGTTGATCATGGATTTAATTCGCGCCCACGGCGTACCGCTGCGGGCGCTGATCGGGCCATTATGCGGCGCGGTGATGCTGGTGGTGGGCGCCTGGCTGGTGGCCAGACGCCAGTTCTGA	MNGSLTLAFLVAAGVGLVVQNTLMVRITQSVSTILIAMLLNSLVGIVIFVTLLLLRQGVAGFHELALNVKWWTLIPGMLGSFFVFASISGYQTVGAATTIAVLVASQLVGGLIMDLIRAHGVPLRALIGPLCGAVMLVVGAWLVARRQF	PGPT0009795_1591	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936	NA	NA
BMS020_00536	234	ydcY		putative protein YdcY	ATGGCACATCTGGATGAGGTCATCGTTAAAGTCGATGACATCCTTGCCGAGGGCGTTATCGCGCATATGAATGAGCTGCTGATCGCCCTGAGCGATGACGCGCAGCTCAGTCGTGAGGAACGCTATACTCAGCAGCAGCGCCTGCGCACCGCCATCGCTCACCATGGGCGACAGCATCAGGAAGAGCAGGACGCGCGCCGCGAGCAGTTGACCAAAGGCGGCGCGATCCTCTGA	MAHLDEVIVKVDDILAEGVIAHMNELLIALSDDAQLSREERYTQQQRLRTAIAHHGRQHQEEQDARREQLTKGGAIL				NA	NA	NA	NA	NA
BMS020_00537	1599	dppA_1	COG0747	Periplasmic dipeptide transport protein	ATGTCTACAGGGAAAACCACGCTGGCGCTGCTGCTGAGCGCGCTGCTGCCGGCCAGCGCCGCATGGGCCGCGGGCAATGACACGCTGGTCTATTGCTCAGAGGCCTCCCCGGAGTCCTTCAACCCGCAGATCGCCAGCTCCGGCCCGTCGTTCGTCGCCAGCTCGCAGGTGCTGTATAACCGCCTGGTCACCTTTGACCCGGTGAAGAACACGCCGATCCCGTCGCTGGCCACCGAGTGGCACGTCTCTGAAGATGGCAAAACCTGGACCTTCACGCTGCGTCAGGGGGTGAAGTTCAACAGCAATAAATTCTTCAAACCGACCCGCGATTTTAACGCCGACGACGTCCTGTTTTCGGTACTGCGCCAGATGGATCCTCAGCATCCTTATCACAAGGTGTCGCAGGGGAACTATGAGTACTTCCACGACGTGGGCCTCGATAAGCTGATTAAGTCGGTGAAAAAGGTCGATGACTATCACGTCCAGTTTGTGCTCAATCAGCCGAACGCGGCGTTTCTTGCCGACTGGGGAATGGACTTCGCCTCTATTCTGTCGGCGGAATATGGCGAGGCGATGCTGAAGAAAGGAACGCCAGAAAACGTCGATAACTGGCCTGTCGGCACCGGACCCTATGCTCTGCAGCAGTATAAAGTGGATTCGCAAATCCGCTATATCGCCAATCCCCACTACTGGGAAGGCGAGGTGCCGACGAAGCACCTGATCTTCTCCATCACGCCGAACGTCGAGACCCGACTGGCTAAACTGCAGACTAACGAGTGCCAGATTATTCCGGCGCCTTCGCCGGTACAGTTCCCGGTGATCAAGGGCAATAACGATCTGACGCTGCACGCCGTCGAGGCGCTGAACGTCGGCTATCTGGCGTTCAACACCGAGAAAAAACCGTTTGATAATGTGCTGGTGCGCCAGGCGTTAAACTACGCCACCGACAAACAGGCCATCGTCAGGGCGGTGTTCCTCGATTCCGGTACGGTGGCGAAGTCGCCGATCCCGTCCACCATGCTCGGGTATAAAAAAGACCTCCCGGACTACGACTACGATCCGCAGAAAGCGAAGGCGCTGCTCAAACAGGCGGGTCTGGAGCAAGGGGCGGAAGTGACCCTGTGGTCGATGCCGGTTCAGCGGCCCTACAACCCAAACTCAAAACGCATTGCTGAAATGATCCAAAACGACTGGGCGAAAGTCGGGGTGAAAGCGAAGATTGTCAGCTATGAGTGGGGCGAATACCTGGCCGGCATGCGTAAAGGCGAACACGACAGCGCGCTGTACGGCTGGATGTCAGACAATGGCGACCCGGACAACTTTGCCGGCACGCTGCTCAGCTGTGATAATATCCAGACCGGCTCTAATGCCGCCCGCTGGTGCGATAAGTCGTATGACGCGCTGGTGAAGAAAGCCCTGCTGGTGAGCGATCCGCAGGCGCGCGCCAAACTCTACGAACAGGCGCAAGAGATCTTTTACCAGCAGGCGCCGTGGATCACCCTGGCGACCGGCAAGACCTTCTATGCCACCCGCAGCAACGTCAGCGGCTACACTGTGAGCATGATGGGGAGCGATTTTTCCAAAGCGAAGCTGAATTAA	MSTGKTTLALLLSALLPASAAWAAGNDTLVYCSEASPESFNPQIASSGPSFVASSQVLYNRLVTFDPVKNTPIPSLATEWHVSEDGKTWTFTLRQGVKFNSNKFFKPTRDFNADDVLFSVLRQMDPQHPYHKVSQGNYEYFHDVGLDKLIKSVKKVDDYHVQFVLNQPNAAFLADWGMDFASILSAEYGEAMLKKGTPENVDNWPVGTGPYALQQYKVDSQIRYIANPHYWEGEVPTKHLIFSITPNVETRLAKLQTNECQIIPAPSPVQFPVIKGNNDLTLHAVEALNVGYLAFNTEKKPFDNVLVRQALNYATDKQAIVRAVFLDSGTVAKSPIPSTMLGYKKDLPDYDYDPQKAKALLKQAGLEQGAEVTLWSMPVQRPYNPNSKRIAEMIQNDWAKVGVKAKIVSYEWGEYLAGMRKGEHDSALYGWMSDNGDPDNFAGTLLSCDNIQTGSNAARWCDKSYDALVKKALLVSDPQARAKLYEQAQEIFYQQAPWITLATGKTFYATRSNVSGYTVSMMGSDFSKAKLN	PGPT0004500_965	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004500-dppA-K12368	NA	NA
BMS020_00538	1434	vdh		Vanillin dehydrogenase	ATGACAATCACCTGCAATCTGTACCTTGACGGCCAGTGGCACGATGCCGAAGACCGTCGGACCTTTACCCGGCGCCACCCTGCCCACGATGACGTCGCCTCGGTTGCCGCTGCCGCCAGCCTCGTCGACGGTAAACGCTGCGTCGAGGCCGCGGCCAGCGCCTTCCCGCAGTGGCGCGATACATCCCCGGCGGAACGGCGACGCTTACTGCTCGACGCGGCGGAGCATATGCTGCTGCGGGAAGCTAAATTTATCGCCGCCATGGCGGCGGAAACCGGCGCCACCGCCCACTGGGCGGGATTTAACGTCCATCTGGCGGCCGATATCCTGCGCGAAGCGGCGGCGCTGACCACCCAGATCGAAGGGCAGATCATTCCATCCAACGTGCCGGGCAATCTGGCGATGGGGGTCCGCCAGGGTGCCGGCGTGGTGCTGGGCATGGCGCCGTGGAACGCGCCGCTGATCCTTGCCACCCGGGCGCTAGCGACGCCGCTGGCCTGCGGCAACACGGTGATCCTCAAGGGCGCTGAGCTCTCTCCGGCTACACAAGGATTGATTATCGACGCCCTCGACGCGGCGGGCTTCCCGCCGGGCGTGGTGAACTATCTAACCTGCGCGCCTCAAGACGCGCCGGCGCTGGTGGAGTCGCTGATCGCCCATCCGGCGGTGCGGCGCGTCAACTTTACCGGCTCCACGCCGGTGGGGCGGATTATCGCCCGCACCTGCGGGCAGTATCTGAAACCGGCGGTGCTGGAGCTCGGTGGCAAAGCGCCGCTGCTGGTCCTCGACGATGCCGACATTGAGCAGGCGGCGGCGGGCGCCATTTTTGGCGCCTTCGCCAACGCCGGACAGATCTGCATGTCCACCGAGCGCATTATTGTCGACAACGCCGTGGCGGAGCGCTTTATCCCTCTGCTGACCAGGCGCGCCGCTTCTCTCCCCGCCAGCCTGACCGGCCCGGTGGTCGACATGAACACCGTCACCCGCTGCAACGCGTTAATCGACGATGCCTTAGTCAAAGGCGCCCGCCTGCTGACCGGCGGTAAAGCCAGCGATACCCACATGGCGCCTACCTTGCTGGACGGCGTCACCCGCGAGATGCGGCTGTGGAACGAAGAGTCCTTCGGCCCGGTAAAAGCGATTATTCGCGTTAATAACGACGAAGAGGCGCTGGTGGTAGCCAACGACAGCGACTATGGCCTTTCCGCTGCGGTCTACAGCCGCGACAGCGCCAGAGCGTGGAACCTGGCGCAACGTCTGCAAACCGGCATTTGCCATATCAATGGTCCAACCGTTCATGATGAAGCGCAAATGCCGTTTGGCGGTTGCAAAGCCTCCGGCTATGGCCGGTTCGGCGGTCGGGCCGGGATTGCTGAATTTACCGAGCTGCGCTGGATAACGCTCCAGACCCAGCCTCGCGAACTGCCATTCTGA	MTITCNLYLDGQWHDAEDRRTFTRRHPAHDDVASVAAAASLVDGKRCVEAAASAFPQWRDTSPAERRRLLLDAAEHMLLREAKFIAAMAAETGATAHWAGFNVHLAADILREAAALTTQIEGQIIPSNVPGNLAMGVRQGAGVVLGMAPWNAPLILATRALATPLACGNTVILKGAELSPATQGLIIDALDAAGFPPGVVNYLTCAPQDAPALVESLIAHPAVRRVNFTGSTPVGRIIARTCGQYLKPAVLELGGKAPLLVLDDADIEQAAAGAIFGAFANAGQICMSTERIIVDNAVAERFIPLLTRRAASLPASLTGPVVDMNTVTRCNALIDDALVKGARLLTGGKASDTHMAPTLLDGVTREMRLWNEESFGPVKAIIRVNNDEEALVVANDSDYGLSAAVYSRDSARAWNLAQRLQTGICHINGPTVHDEAQMPFGGCKASGYGRFGGRAGIAEFTELRWITLQTQPRELPF	PGPT0005405_451	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZALDEHYDE_DEGRADATION,PGPT0005405-xylC-K00141	NA	NA
BMS020_00539	750	menH_2		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	GTGAACGGTTTCTTTTCGTCCGTCGCAGGCGCCACATTGCGTTGGCTCGATCTTCCGGGAGAGGGGCTTCCGCTGGTGTTTATCCACGGCCTCGGCTGCGCGTCATCTTACGACTACCCCCGCGTCGCCAGCGCCCCCGCGCTCAACGGGCGGCGCAAAATACTTATTGATCTACCGGGCTTCGGCTACAGCGATAAACCGCACGACTTTAGTTACAACATACATAGACAAGCGCAAGCAGTGGAGCAAGTCCTCGACCACCTGCGCCTGCAGCGCTTCGCGCTGTACGGGCATAGCATGGGGGGAAGCATCGCCATTGAAGCGGCAGGGTTGCTGGCGGAGCGGGTGACGACGCTGCTGGTTTCTGAACCCAACCTGTTCGCCGGAGGCGGTGAGTACAGCATGCGCATAGCGGCGCAGTCAGAGGCGGCCTTTATCGCCGAAGGTTACGCCAGGATGCTGGCGGAAGAGCGCTCGCCCTGGGCCGGCTGTTTGCAAAACAGCGCCCCCTGGGCCGTCTGGCGAGCCGCCAGCAGCCTGATACACGGCAGCGACACCCCCTGGTTTACTCAGCTCTGCCAGCTGCGCTGTCAGAAGATGCTGATCGTCGGCGAGCAGTCGCTCCCTTATGCGGATATCGAACGGGTAGAGGCGCAAGGGATCCCGGTCGGGATTGTGCCCCACGCGGGGCACTCGATGGCGTGGGAAAACCCGGAAGGGCTGGCGCAGCTCATCGCCAGCCACGGCTAA	MNGFFSSVAGATLRWLDLPGEGLPLVFIHGLGCASSYDYPRVASAPALNGRRKILIDLPGFGYSDKPHDFSYNIHRQAQAVEQVLDHLRLQRFALYGHSMGGSIAIEAAGLLAERVTTLLVSEPNLFAGGGEYSMRIAAQSEAAFIAEGYARMLAEERSPWAGCLQNSAPWAVWRAASSLIHGSDTPWFTQLCQLRCQKMLIVGEQSLPYADIERVEAQGIPVGIVPHAGHSMAWENPEGLAQLIASHG	PGPT0022139_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	SURFACE_ADHESION-VIRULENCE_OPERON_srfABCD,PGPT0022139-srfD-NA	NA	NA
BMS020_00540	174	ortT		Orphan toxin OrtT	ATGACGTTATATCAAAAAATGTTGGTGTTTTACGCCATTATGGGCGTGATCTGCGCCGTAATTAGCTGGTTTTTAACCAAAGAGAGCCGGGTGATCCGCCTGCTGGCGGCCCTGTTGATCGGCGCCACCTGGCCGTTCAGCTTCCCGATGGCGCTCCTCGTCTCGCTGTTTTAA	MTLYQKMLVFYAIMGVICAVISWFLTKESRVIRLLAALLIGATWPFSFPMALLVSLF	PGPT0027755_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-GhoT-GhoS_TOXIN-ANTITOXIN_SYSTEM,PGPT0027755-toxin_ghoT-K18839	NA	NA
BMS020_00541	93			hypothetical protein	ATGGATGTCTCCAGCAAGACCGTCGTTATGATTAATGTCTGCGCCGCGTTCGCGCTTATCAGCCTGCTGTCGGTGAGATTTGGCTGGTTTTAA	MDVSSKTVVMINVCAAFALISLLSVRFGWF				NA	NA	NA	NA	NA
BMS020_00542	195			hypothetical protein	ATGAGGCAAAACATTCACTTTCTCACTATCCCATTCGGCGGCGGCGCAAACGGCCTGCCCCACTCCCGCGCTCTCACAGCCCTGAATACGTTTTGCCGGCGCGTTACCATAGCTCAGCGCCACGGTGCCGACAGCCAGCAGAATAAAAGCAAAAATTTTCACAGCGACATCAACGTTAAAACCGAATATGCGTGA	MRQNIHFLTIPFGGGANGLPHSRALTALNTFCRRVTIAQRHGADSQQNKSKNFHSDINVKTEYA				NA	NA	NA	NA	NA
BMS020_00543	123			hypothetical protein	ATGTCCGGAATCATCACCCTGGTCATCGCGCTGATCCTGCTGGTCGCGGCGGTGTATAATCTTATTTCCTATATACGGGACCGTCGCAGCGCCAGCTTGCCGAGCAAAAAAACCAAGCGCTGA	MSGIITLVIALILLVAAVYNLISYIRDRRSASLPSKKTKR				NA	NA	NA	NA	NA
BMS020_00545	1428	prr	COG1012	Gamma-aminobutyraldehyde dehydrogenase	ATGCAACACAACCTCTTGATAAACGGTAAGTTAGTGGCAGGTGAAGGCGAGAAGGTGCCGGTATACAACCCTGCGACCGGCGATGTGATCCTGGAGATTGCCGAAGCGACAGCGGCCCAGGTGGATGCCGCCGTTGAGGCGGCGGATCGGGCGTTCGACGCCTGGAGCCAGACGACGCCGAAAACGCGCGCGGAATGTCTGCTGAAGCTGGCGGATGCCATCGCGGCGCAGGCGGAGACCCTGGCGCAGCTGGAGTCGCTGAACTGCGGCAAGCCGCTGCACTGCGTGCTTAACGATGAGATGCCGGCCATTGCGGACGTTTTCCGCTTCTTCGCCGGCGCCGCCCGCTGCCTGCCGGGAATGGCGGCCGGAGAGTATCTGGAAGGGCATACCTCGATGATCCGTCGCGACCCGGTGGGCGTGGTGGCCTCCATCGCGCCGTGGAACTATCCCCTGATGATGGCGGCCTGGAAGCTGGGCCCGGCGCTGGCGGCAGGCAACTGCGTGGTGCTAAAACCCTCAGAGATCACCCCGCTGACGGCGCTGAAGCTGGCTGAGCTGGCAAAAGATTTTTTCCCGGAAGGGGTGGTCAACGTACTGTTCGGCCGCGGCAAAACGGTGGGCGATCCGCTGACCGCCCACGCGAAAGTGCGAATGGTTTCCCTGACCGGGTCGATTGCCACCGGCGCGCATATCATCGGCCATACCGCCTCGTCGATTAAACGTACCCATATGGAGCTGGGCGGTAAGGCGCCGGTCATCGTCTTTGACGACGCGGATATCGATGCGGTGGTGGATGGCGTTCGGACCTTCGGGTTTTACAACGCCGGCCAGGACTGTACGGCCGCCTGCCGGATCTACGCCCAACAGGGTATTTATGAGCAGCTGGTGGAGAAGCTCGGGGCGGCGGTGGCCAGCCTGAAAATGGGGGCGCCGGAGGATGCCGCCACCGAGCTGGGACCGCTGAGCTCGCTGGCCCATCTTGAGCGCGTTAGCGCCGCGGTGGAAGCCGCCAAGGCGCTACCGCATATTAAAGTGGTGACCGGCGGCAATCGGGTGGACGGCGCGGGCTATTATTTCCAGCCGACGCTGCTCGCCGGCGCCCGGCAGGAAGACGCCATCGTGCAGCGCGAAGTGTTTGGCCCGGTGGTCAGCGTGACGCCTTTCAGCGATGAAGCGCAGGCCCTGAGCTGGGCAAATGACTCCCAGTATGGTCTGGCCTCTTCGGTGTGGACGAAAGATGTTGGCCGCGCCCACCGGCTCAGCGCCAGGCTGCAGTACGGCTGCACCTGGGTCAACACCCACTTTATGTTGGTGAGTGAAATGCCGCATGGCGGCCAGAAGCTGTCGGGCTATGGGAAAGACATGTCGATGTATGGCCTTGAGGATTACACCGTGGTCCGCCATGTGATGGTTAAACATGGCTAA	MQHNLLINGKLVAGEGEKVPVYNPATGDVILEIAEATAAQVDAAVEAADRAFDAWSQTTPKTRAECLLKLADAIAAQAETLAQLESLNCGKPLHCVLNDEMPAIADVFRFFAGAARCLPGMAAGEYLEGHTSMIRRDPVGVVASIAPWNYPLMMAAWKLGPALAAGNCVVLKPSEITPLTALKLAELAKDFFPEGVVNVLFGRGKTVGDPLTAHAKVRMVSLTGSIATGAHIIGHTASSIKRTHMELGGKAPVIVFDDADIDAVVDGVRTFGFYNAGQDCTAACRIYAQQGIYEQLVEKLGAAVASLKMGAPEDAATELGPLSSLAHLERVSAAVEAAKALPHIKVVTGGNRVDGAGYYFQPTLLAGARQEDAIVQREVFGPVVSVTPFSDEAQALSWANDSQYGLASSVWTKDVGRAHRLSARLQYGCTWVNTHFMLVSEMPHGGQKLSGYGKDMSMYGLEDYTVVRHVMVKHG	PGPT0007650_218	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007650-patD|prr|ydcW-K00137	NA	NA
BMS020_00546	807	ydcV_1		Inner membrane ABC transporter permease protein YdcV	ATGCACTCTGAACGCGCACCCTGGTATCTGAAACTGGCGACATGGGGCGGGGTGGTCTTTCTCCACTTCCCGCTGCTGATCATCGCCATCTATGCTTTTAATACGGAAGATGCCGCCTTCAGTTTTCCGCCGCAGGGGCTGACGCTGCGCTGGTTCAGCGAGGCGGCAGGGCGCAGCGATATTCTGGAGGCAGTGACGTTGTCACTTAAAATTGCCGCCCTGTCGACGGCCATTGCCTTAGTGCTTGGCACGCTTGCTGCAGGAGCCCTGTGGCGGAGCACCTTTTTTGGTAAGAACGCGGTGTCGCTACTGCTGCTGCTGCCCATCGCCCTGCCGGGGATTATTACCGGCCTGGCGCTCCTGACCGCCTTTAAAGCGGTCGGCCTTGAGCCTGGTCTGCTGACCATCGTGGTGGGGCACGCGACCTTCTGCGTGGTGGTGGTGTTTAACAACGTCATCGCCCGCTTCCGCCGGACCTCCTGGAGCCTGGTGGAGGCCTCGATGGATTTGGGGGCGACCGGCTGGCAGACCTTTCGCTACGTGGTGCTGCCCAATCTGGGATCGGCGCTGCTGGCGGGCGGGATGCTGGCATTCGCCCTGTCATTTGATGAAATCATCGTCACGACTTTTACCGCGGGGCATGAGCGAACTTTGCCGCTGTGGTTACTGAATCAGCTGGGGCGGCCGCGAGATGTGCCCGTCACCAACGTTGTCGCGCTGTTGGTGATGCTGGTAACAACGATACCAATCTTAGGGGCCTGGTGGCTCACCCGCGACGGCGATAACGTCGCCGGAAACGGGAAATAA	MHSERAPWYLKLATWGGVVFLHFPLLIIAIYAFNTEDAAFSFPPQGLTLRWFSEAAGRSDILEAVTLSLKIAALSTAIALVLGTLAAGALWRSTFFGKNAVSLLLLLPIALPGIITGLALLTAFKAVGLEPGLLTIVVGHATFCVVVVFNNVIARFRRTSWSLVEASMDLGATGWQTFRYVVLPNLGSALLAGGMLAFALSFDEIIVTTFTAGHERTLPLWLLNQLGRPRDVPVTNVVALLVMLVTTIPILGAWWLTRDGDNVAGNGK	PGPT0007845_2837	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007845-ABC_SP_P|ydcV-K02053	NA	NA
BMS020_00547	930	ydcU	COG1176	Inner membrane ABC transporter permease protein YdcU	ATGACCATGGCGATTGTTCCTGCGCAGGCCGGACGCGTATCGGGGATCTTCTGGCGCCGGCCGGCGCTGGGCCTGTTTTTGCTGCTGCTTGGGCCGTTGATGTGGTTTGGCATCGTCTATCTGGGATCGCTGCTGACCCTGCTGTGGCAGAGTATCTTTACTTTTGACGACTTCACCATGTCGGTGACCAGCGACTACACGCTGGCCAATCTGCAGGCGCTGTTCAACCCTGCCAACTACGACATTATCGTTCGCACCCTGGTCATGGCGCTGTGCGTGACGCTGGCCAGTGCTCTGCTGGCGCTGCCGATGGCCTGGTATATGGCGCGCTACACCAGCGGCAAAATGAAGGCCTTCTTTTATATCGCGGTCATGTTGCCGATGTGGGCCAGCTATATCGTCAAAGCCTACGCGTGGGTGCTGCTGTTAGCCAAAGATGGCGTGGCGCAGTGGTTTCTCGGCCATCTCGGGCTGGAAGGGGCGCTGAACGCTCTGCTGACCGTCCCGGCGGTGGGCGGCAACACCTTATCCACCTCCGGACTCGGACGCTTCCTGGTCTTCGTCTACATCTGGCTGCCTTTTATGATCCTGCCGGTGCAGGCAGCGCTGGAGCGTATCCCGGGCTCTTTGCTGCAAGCCTCGGCCGATCTTGGCGCCGCCCCGCGGCAGACCTTCCGCTACGTGGTCCTGCCGCTGGCTATTCCCGGGATTGCCGCCGGGTCGATCTTCACCTTTTCGCTGACGCTGGGCGATTTTATCGTGCCGCAGCTGGTCGGCCCGCCGGGGTACTATATCGGCAATATGGTTTACTCGCAGCAGGGGGCGATCGGCAATATGCCGATGGCGGCGGCGTTTACCCTCGTGCCGATCGTGCTGATTGCCCTTTATCTGGCGTTCGTGAAACGTCTGGGAGCCTTCGATGCACTCTGA	MTMAIVPAQAGRVSGIFWRRPALGLFLLLLGPLMWFGIVYLGSLLTLLWQSIFTFDDFTMSVTSDYTLANLQALFNPANYDIIVRTLVMALCVTLASALLALPMAWYMARYTSGKMKAFFYIAVMLPMWASYIVKAYAWVLLLAKDGVAQWFLGHLGLEGALNALLTVPAVGGNTLSTSGLGRFLVFVYIWLPFMILPVQAALERIPGSLLQASADLGAAPRQTFRYVVLPLAIPGIAAGSIFTFSLTLGDFIVPQLVGPPGYYIGNMVYSQQGAIGNMPMAAAFTLVPIVLIALYLAFVKRLGAFDAL	PGPT0007850_1331	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007850-ABC_SP_P1|ydcU-K02054	NA	NA
BMS020_00548	1014	potA_1	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGACGTACGCGGTCGAGTTTCAGAATGTATCGCGCCTGTATGGCGATGTGCGGGCGGTGGACGGGGTCAGCATTGGTATCCGCGACGGCGAGTTTTTCTCCATGCTGGGACCTTCGGGCTCGGGGAAAACCACCTGCCTGCGGCTGATTGCCGGTTTTGAGCAGCTCTCCGGCGGCACCATCCGGATCTTCGGTCAGCCGGCCAGCGAGCTGCCGCCCTGGCAGCGGGACGTCAATACCGTGTTCCAGGACTATGCGCTGTTTCCCCATATGTCGATCCTCGACAATGTCGCTTACGGCCTGATGGTCAAAGGCGTGGCGAAGAAAGCGCGCCATGCCCGCGCCCAGGAGGCGCTGGAGAAGGTGGCCCTCGGTTTTGCGCACCATCGCAAGCCCTCCCAGCTCTCTGGCGGTCAGCGGCAGCGGGTCGCCATCGCCCGTGCGCTGGTGAACCAGCCGCGGGTGCTGCTGCTCGACGAGCCGCTGGGCGCCCTGGATTTAAAGCTGCGCGAGCAGATGCAGGTGGAGCTGAAAAAGCTGCAGCAGTCGCTGGGGATCACCTTCATCTTCGTCACTCACGACCAGAGCGAAGCGCTGTCGATGTCCGATCGCGTGGCGGTGTTTAACAACGGGCGCATTGAGCAGGTGGATGCCCCGCAGGATCTTTATCTGCATCCGAAGACTGCCTTTGTCGCCGGTTTTGTCGGCACCGCCAACGTCTTTGAGGCCGAGGCGGCCCGGCGGCTATGCGGCCTGGCGGGCTGCTGGTCGCTGCGCCCGGAACATGTTCGCCTGCAGGGCGGCGGCGAAGTGCAGGTGCAGGGCGTGGTGCAGGCGGTACAGTATCAGGGGGCGGCAACGCGGATCGAGCTCCGGCTGGCGGATGGCGACAAGCTGATGGTCAGCCAGGCCAATATCGACGGCGCGGCGGCGGCGAGCGTTCCGCGAACCGGGCAAACGGTGCAGGCTTCATGGTCGCGCGCGGCGATGACCCCGCTGGAAAGCGGAGGCTGA	MTYAVEFQNVSRLYGDVRAVDGVSIGIRDGEFFSMLGPSGSGKTTCLRLIAGFEQLSGGTIRIFGQPASELPPWQRDVNTVFQDYALFPHMSILDNVAYGLMVKGVAKKARHARAQEALEKVALGFAHHRKPSQLSGGQRQRVAIARALVNQPRVLLLDEPLGALDLKLREQMQVELKKLQQSLGITFIFVTHDQSEALSMSDRVAVFNNGRIEQVDAPQDLYLHPKTAFVAGFVGTANVFEAEAARRLCGLAGCWSLRPEHVRLQGGGEVQVQGVVQAVQYQGAATRIELRLADGDKLMVSQANIDGAAAASVPRTGQTVQASWSRAAMTPLESGG	PGPT0007860_3675	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007860-ABC_SP_A|ydcT-K02052	NA	NA
BMS020_00549	1146	ydcS		Bifunctional polyhydroxybutyrate synthase / ABC transporter periplasmic binding protein	ATGAGCAAAAAATTGGCCCGTTGCAGCCTTTATCTGCTGGGGATGGCATGCCTGACCGTCCAGGCGGCTGAGCCACTCACCTCGCTGGATAAACCGGAAGGGCGGCTGGATATTATTGCCTGGCCGGGGTATATCGAACGCGGTCAGACCGACAAGCAGTACGACTGGGTCAGCCAGTTTGAAAAGGAGACCGGCTGTCAGGTTAATGTGAAAACTGCCGCCACCTCTGACGAAATGGTTAGCCTGATGGCCAAGGGCGGCTACGATCTGGTGACTGCCTCGGGCGATGCTTCGCTGCGTCTGATCATGGGCAAACGCGTTCAACCGATTAACACAGCGCTGATTGCCGGGTGGCACACTCTCGACCCGCGCATTGCGCAAGGGGCATGGTTTAACGTCGGGGGCAAAGTTTACGGCACGCCGTATCAGTGGGGACCGAATCTGCTGATGTACAACACCCGCGTATTCCCGACGCCGCCGGACAGCTGGAGCGTGGTCTTCGTGAAGCAGGATCTTCCGGATGGCAAAACCAATCAGGGGCGGGTGCAGGCCTATGATGGCCCGATCTATATCGCCGACGCTGCGCTGTTTGTCAAAGCCACCCAACCGCAGCTGGGGATCGAAGATCCCTATCAACTGACCGAAACCCAGTACAACGCTGTGCTGAAGGTGCTGCGTGACCAGCAACCGCTGATCCACCGCTACTGGCATGACGCCACCGTGCAGATGAACGACTTCAAAAACGAAGGGGTGGCCGCCTCCAGCTCGTGGCCCTATCAGGCCAACGGCCTGAAGGCGGAAGGCCAGCCTGTCGCTACCGTATTTCCGAAGGAGGGGGTGACCGGCTGGGCGGATACCACCATGCTGCACAGCGAGGCGAAGCACCCGGTCTGCGCTTATAAATGGATGAACTGGTCGCTCACGCCGAAGGTGCAGGGCGATGTAGCGGCCTGGTTCGGCTCGCTACCGGTGGTGCCTGAGGGCTGTAAAGCCAGCGCGCTGCTCGGAGAGAAGGGCTGTGAGACCAACGGCTATGACCAGTTTGCCCGCATCCACTTCTGGAAAACGCCGGTTGCCGAGGGGGGGAAATACGTTCCCTACAGCCGCTGGACGCAGGACTACATTGCGATAATGGGCGGCCGCTAA	MSKKLARCSLYLLGMACLTVQAAEPLTSLDKPEGRLDIIAWPGYIERGQTDKQYDWVSQFEKETGCQVNVKTAATSDEMVSLMAKGGYDLVTASGDASLRLIMGKRVQPINTALIAGWHTLDPRIAQGAWFNVGGKVYGTPYQWGPNLLMYNTRVFPTPPDSWSVVFVKQDLPDGKTNQGRVQAYDGPIYIADAALFVKATQPQLGIEDPYQLTETQYNAVLKVLRDQQPLIHRYWHDATVQMNDFKNEGVAASSSWPYQANGLKAEGQPVATVFPKEGVTGWADTTMLHSEAKHPVCAYKWMNWSLTPKVQGDVAAWFGSLPVVPEGCKASALLGEKGCETNGYDQFARIHFWKTPVAEGGKYVPYSRWTQDYIAIMGGR	PGPT0007855_1278	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007855-ABC_SP_S|ydcS-K02055	NA	NA
BMS020_00550	1413	lysN_2	COG1167	2-aminoadipate transaminase	ATGAAAAAGTATCAACAGCTGGCGCAGCAGCTGACCGACCAGATCGCGCTTGGCGTCTGGTTGCCGGGCGATCGGCTCCCCTCGCTGCGCGAGCAGGTGGTCAGCAGCGGCATGAGCTTTATGACCGTCAGCCATGCCTATCAGCTACTGGAAAGCCAGGGGCGCATCGTCGCCCGACCGCAGTCGGGATATTACGTCGCCCCCCAGCCGGTGAAGCTTCGTCAGCCGGCGCCGCCTGCTCAGGTGACCCGCGATGAAGCGGTCGATATCAATACTTACATCTTTGAGGTGCTCCAGGCCAGCCGCCAGGCGTCAATGCTGCCCTTTGCCTCGGCCTTCCCGGACCCGCGTCTCTTCCCACTCCAGCAGCTTAACCGTTCGCTGGCGCAGGTGAGTAAAACCGCCACCGCCATGAGCGTGATTGAGAACCTGCCGCCGGGCAACGCGGAGCTACGGCACGCCATTGCCCGGCGCTATGCCCTGCAGGGGATGAACGTCTCGCCCGACGAGATCGTCATTACCGCCGGAGCGCTGGAGGCGCTAAACCTCAGCCTGCAGGCGGTGACCGAGCCCGGCGACTGGGTGGTGGTGGAGAATCCCTGTTTCTACGGAGCCCTGCAGGCGCTGGAGAGGCTGCGTCTGAAGGCGCTGTCGGTGGCCACCGACGTCAAAGAGGGCATTGACCTGACGGCGCTGGAGGCGGCCCTGCAAAACTATCCGGTCAAGGCCTGCTGGCTGATGACCAACGGCCAGAACCCGCTCGGCTTCACCCTCAGCGCCGAAAAAAAAGCAGCGCTGGTGGCGCTGCTGGCGCGCTATGACGTGATGCTGATTGAAGATGATGTTTACAGCGAGCTCTACTTTGGCCGCGAGAAGCCGTTGCCGGCGAAGTTCTGGGATCAACAGGATATGACGCTGCACTGCAGTTCGTTTTCAAAATGTCTGGTGCCCGGCTTTCGCATCGGCTGGGTGGCGGCCGGGAAACAGGCGCGGCGGATCCAGCAGCTGCAGCTGATGAGTACGCTCTCCACCAGCTCGCCGATGCAGTTAGCCCTGGTGGATTACCTGTCGACCAAACGCTATGACGCCCATCTGCGCCGTCTCCGTCGCCAGCTGGCGGAACGTAAACAGCAGGCCTGGCAGGCGCTGCTGCGCCATCTGCCGCCGGAGGTCACTATCCATCACAGCGACAGCGGCTATTTTCTGTGGATCGAACTACCGGAAGGGGCCGACGCCAGCGTGCTGAGCGCCAGGGCGCTGGCGTCGCACATCAGCATCGCCCCGGGAAAAATGTTCTCCACCTCCGCCAGCTGGACCTCGTTTTTCCGCTTTAATACCGCCTGGGGCTGGGGAGAACGCGAAGAGCAGGGGGTGAAGCGCCTGGGCGAGCTAATTCGTGAGCAGCTTTCCTGA	MKKYQQLAQQLTDQIALGVWLPGDRLPSLREQVVSSGMSFMTVSHAYQLLESQGRIVARPQSGYYVAPQPVKLRQPAPPAQVTRDEAVDINTYIFEVLQASRQASMLPFASAFPDPRLFPLQQLNRSLAQVSKTATAMSVIENLPPGNAELRHAIARRYALQGMNVSPDEIVITAGALEALNLSLQAVTEPGDWVVVENPCFYGALQALERLRLKALSVATDVKEGIDLTALEAALQNYPVKACWLMTNGQNPLGFTLSAEKKAALVALLARYDVMLIEDDVYSELYFGREKPLPAKFWDQQDMTLHCSSFSKCLVPGFRIGWVAAGKQARRIQQLQLMSTLSTSSPMQLALVDYLSTKRYDAHLRRLRRQLAERKQQAWQALLRHLPPEVTIHHSDSGYFLWIELPEGADASVLSARALASHISIAPGKMFSTSASWTSFFRFNTAWGWGEREEQGVKRLGELIREQLS	PGPT0026010_15	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
BMS020_00551	1398	cydA_1	COG1271	Cytochrome bd-I ubiquinol oxidase subunit 1	ATGTTCGGTCTTGATGCATTCCATCTGGCGCGAATTCAATTCGCCTTTACGGTCTCGTTTCATATTATCTTTCCCGCCATCACCATTGGCCTGGCAAGCTACCTGGCGGTTCTCGAAGGCCTGTGGCTGAAAAGCAAAAATCCCACCTGGCGCTCGCTGTACCATTTCTGGTCGAAGATCTTCGCCGTCAACTTCGGTATGGGAGTGGTGTCCGGGCTGGTGATGGCCTATCAGTTCGGCACTAACTGGAGCGGTTTTTCGCAGTTCGCGGGCAGCATCACCGGCCCCCTGCTGACCTATGAAGTCCTGACGGCGTTCTTTCTGGAAGCCGGTTTTCTCGGGGTCATGCTCTTCGGCTGGAACCGCGTGGGGCCGGGGCTGCACTTTTTCGCCACCTGCATGGTGGCGCTGGGGACTATCATCTCGACCTTCTGGATCCTCGCTTCCAACAGCTGGATGCAGACCCCGCAGGGGTTTGAGATCGTCGATGGCCAGGTGGTGCCCGTCGACTGGCTGGCGGTGATCTTTAACCCGTCGTTCCCCTACCGCTTGCTGCACATGACGGTGGCGGCATTTCTCAGCAGCGCGCTGTTCGTCGGCGCCTCGGCGGCCTGGCATCTGCTGCGCGGCAATCAGTCGCCAGCGATCCGCAAGATGTTCTCCATGGCGCTATGGATGACGCTGCTGGTCGCGCCGGTCCAGGCGCTGATCGGCGATATGCATGGCCTGAACACCCTGAAACACCAGCCGGCAAAAATCGCCGCCATTGAGGGCCACTGGGAAAACCCGCCCGGCGAGCCGACGCCGTTACTATTGTTTGGCTGGCCAGATATGGAACAGGAGCGCACCCGCTACGGGCTTGAGATCCCGGCGCTGGGCAGTCTGATCCTCACCCACAGCCTGGATAAACAGGTGCCAGCGCTGAAGGAGTTCGCCCCTGAGGATCGGCCAAACTCCACCGTGGTGTTCTGGTCATTTCGCCTGATGGCTGGTCTCGGCATGCTGATGCTGCTGCTCGGGGCGCTGGCCCTGTGGCTGCGCCGCGGCGACCGGCTGTACCACTCGCGGCCGTTTCTGCGCTTTGCCTTGTGGATGGGCCCCTCAGGACTGATTGCTATTCTCGCCGGCTGGGTGACCACCGAAGTGGGCCGCCAGCCATGGGTGGTGTATGGCGTTCAGCGCACCGCCGAGGCGGTTTCCGCCCACGGCGATCTGCATATGTCGGTCAGTTTGTTGACCTTTATTGTGGTTTACAGCGCCGTCTTCGGGGTCGGCTACAGCTACATGCTGCGCCTGATCCGCAAGGGGCCGCAGGAGGTGCAACCCGCGACAACCGGTACGCCAGCCCGCCCGCTGTCCGCCGCTACTGAAGGTTATCTGCAGAAGGAGTCTCGCTAA	MFGLDAFHLARIQFAFTVSFHIIFPAITIGLASYLAVLEGLWLKSKNPTWRSLYHFWSKIFAVNFGMGVVSGLVMAYQFGTNWSGFSQFAGSITGPLLTYEVLTAFFLEAGFLGVMLFGWNRVGPGLHFFATCMVALGTIISTFWILASNSWMQTPQGFEIVDGQVVPVDWLAVIFNPSFPYRLLHMTVAAFLSSALFVGASAAWHLLRGNQSPAIRKMFSMALWMTLLVAPVQALIGDMHGLNTLKHQPAKIAAIEGHWENPPGEPTPLLLFGWPDMEQERTRYGLEIPALGSLILTHSLDKQVPALKEFAPEDRPNSTVVFWSFRLMAGLGMLMLLLGALALWLRRGDRLYHSRPFLRFALWMGPSGLIAILAGWVTTEVGRQPWVVYGVQRTAEAVSAHGDLHMSVSLLTFIVVYSAVFGVGYSYMLRLIRKGPQEVQPATTGTPARPLSAATEGYLQKESR	PGPT0026700_3607	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
BMS020_00552	1011	cydB_1	COG1294	Cytochrome bd-I ubiquinol oxidase subunit 2	ATGGGTATCGAATTATCGGTGATCTGGTTCGTGATTATCGTCTTTGCCACGCTAATGTACATCGTCATGGACGGCTTTGATCTGGGCATTGGCATGCTGTTCGGCACGGTCCGGGGCAGCACAGAGCGCGACGTGATGGTGAACAGCGTCGCCCCGGTATGGGATGGCAATGAGACCTGGCTGGTGCTGGGCGGCGCCGGTCTGTTTGGCGCCTTTCCCCTCGCCTACGCGGTGATAATCGACGCCCTGTCGATCCCCCTGACCCTGATGCTGATCGGCCTGATCTTTCGCGGCGTGGCCTTTGAATTTCGCTTCCAGGCCACGCCGTCGCACCGGCCATTCTGGGACCGCGCCTTCTTTGGCGGTTCCCTGCTGGCGACCTTCAGCCAGGGCGTGGTGGTCGGAGCGGTGATCGACGGTTTTACCGTCAGCGGTCGCGCCTTCAGCGGCGGCATGTTTGACTGGCTGACCCCGTTCAGCCTGTTTTGCGGACTCGGGCTGTGCGTGGCCTATGCGCTGCTCGGCGCTACCTGGCTGGTGATGAAGAGCGAAGGCGCGCTGCAGCAGCGGATGCGCAGCGCGTCGCGACAGTTGCTGGTTGCCCTGCTGGCGGTGTTTGCCATCATCAGCCTGTGGACGCCGCTGGCGCACCCGGCGATCGCCGCCCGCTGGTTCAGCCTGCCGAATCTCTATTTCCTGCTGCCGGTGCCGCTGCTGGTGCTCCTGATTAGCGCCTGGCTGTGGCGCACACTGCCTCTGCACGACCGCCATGTCTCGCCTTTCACCCTAACGCTGGGCCTGGTGTTTCTCGGCTTTAGCGGCCTGGGGATCAGCATCTGGCCGCATATTATTCCGCCATCGATTACCTTGTGGCAGGCCGCCGCCCCGCCGCAAAGCCAGGGCTTTATGCTGGTGGGCGCGCTGCTGATTATTCCGGTTATTCTTGGCTATACCTGCTGGAGCTATTACGTGTTCCGCGGCAAAGTCCAGCCAGGGGAGGGTTATCATTGA	MGIELSVIWFVIIVFATLMYIVMDGFDLGIGMLFGTVRGSTERDVMVNSVAPVWDGNETWLVLGGAGLFGAFPLAYAVIIDALSIPLTLMLIGLIFRGVAFEFRFQATPSHRPFWDRAFFGGSLLATFSQGVVVGAVIDGFTVSGRAFSGGMFDWLTPFSLFCGLGLCVAYALLGATWLVMKSEGALQQRMRSASRQLLVALLAVFAIISLWTPLAHPAIAARWFSLPNLYFLLPVPLLVLLISAWLWRTLPLHDRHVSPFTLTLGLVFLGFSGLGISIWPHIIPPSITLWQAAAPPQSQGFMLVGALLIIPVILGYTCWSYYVFRGKVQPGEGYH	PGPT0026705_3469	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
BMS020_00553	126			hypothetical protein	ATGAAAACCGTCTGGTCCAAACGTCTGCTGTGGCTGATCGCGCTGTGGGGAGGCAGCGTGCTGACGCTGGCCGCCATCAGCCTGCTGTTTCGCCTGCTGATGACCGCCGCAGGTCTTAAAGTTTGA	MKTVWSKRLLWLIALWGGSVLTLAAISLLFRLLMTAAGLKV				NA	NA	NA	NA	NA
BMS020_00554	282			hypothetical protein	ATGAAGAAGTTAGCTTTACTGTCTGCCGCGATGACGCTGGGAATATCGTCATGGGCTTTCGCTGCCGACAACCCGCCGCCGCCAGAAAAAAGCGCGCAGCATCAGGGTAAATCGGCGGCGAAAAACGGCCAGCACGACGGTAAGCAAGCGCAACACAACGGCAAGCAGCCGCGGCATGATGGCAAGCAGCCGCAACGAGACGGCAAACAACCGCAGCATGGTGGTAAGCAGCCGCCAAAAGGCGGTGAGCACAGCGGGAAACCACGGCCGCCAAAAGCGTAA	MKKLALLSAAMTLGISSWAFAADNPPPPEKSAQHQGKSAAKNGQHDGKQAQHNGKQPRHDGKQPQRDGKQPQHGGKQPPKGGEHSGKPRPPKA				NA	NA	NA	NA	NA
BMS020_00555	219			hypothetical protein	ATGAGCGCCCTGCTGTTGCTGTGCGCGCTTTTTTCCGGGCATCTGCTGGCCCACCGTCAGGGGCACGATTACTTTCCGGTACAGAGCCTCGAGCAGCAGCTGCTGCACGAGGCGGATAGCGATGAGCTTCGCAGCCGGTGCGAAGAGAACGCCGCCGACCTGCGCGAGCATCACCGCTGGCAGGACGCCCGCAAACCGCGGGCATCACACAGCCAGTAG	MSALLLLCALFSGHLLAHRQGHDYFPVQSLEQQLLHEADSDELRSRCEENAADLREHHRWQDARKPRASHSQ				NA	NA	NA	NA	NA
BMS020_00556	1962	rlhA_1	COG0826	23S rRNA 5-hydroxycytidine synthase	ATGCGCCTGCACAATCATCGTCTTGAACTTCTTAGTCCTGCCCGCGACGCCGGTATCGCTCGCGAAGCTATCCTTCACGGCGCCGACGCCGTTTATATCGGTGGACCTGGCTTTGGCGCCCGCCACAACGCCAGCAACAGCCTGAGCGACATCGCCGGTCTGGTGCCTTTCGCCCATCGCTTTGGCGCCAAGGTCTTTGTGACGCTGAACACCATTCTGCATGACGATGAGCTGGAGCCGGCGCAGCGGCTGATTACCGACCTTTACGACGCGGGCGTCGATGCGCTGATTGTCCAGGATATGGGGATCATGGAGCTGGACCTGCCGCCGATCGAGCTGCACGCCAGCACCCAGTGCGACATCCGCAGCGTGGAGAAAGCAAAGTTTCTCTCAGACGCCGGTTTCAGCCAGATCGTGCTGGCGCGCGAGCTGAACCTCAGTCAAATCAAAGCCATCTACGATAATACTGACGCCACCATCGAATTCTTTATCCATGGCGCGCTGTGCGTGGCCTATTCCGGCCAGTGCTACATTTCCCACGCCCAGACCGGACGCAGCGCCAACCGCGGCGACTGCTCGCAGGCCTGCCGCCTGCCGTATACCCTGAAGGACGATCAGGGGCGAGTGGTGGCCTATGAAAAACATCTCCTGTCGATGAAAGACAACGACCAGACCGCCAACCTGGCGGCGCTGATCGATGCCGGGGTGCGCTCCTTCAAAATCGAAGGCCGTTACAAAGACATGAGCTACGTGAAAAACATCACCGCTCACTACCGCCAGATGCTGGACGCCATTATTGAAGACCGCGGCGATCTCGCGCGCGCCTCGGCAGGGCGCACCGAGCATTTCTTTATCCCGTCCACCGATAAAACCTTCCACCGCGGCAGCACCGATTACTTCGTTAATGCCCGTAAAGGCGATATCGGCGCCTTTGATTCGCCAAAATTTATCGGACTGCCGGTGGGCGAAGTGCTGAAGGTGGGTAAAGACCATCTCGACGTTGAGGTCAGCGAACCGTTAACCAACGGCGATGGCCTTAACGTGATGATTAAGCGTGAAGTGGTGGGCTTCCGCGCCAATACCGTGGAAAAAACCGGCGAAAATCGCTATCGGGTGTGGCCGAACGAGATGCCTGCGGATCTGCACAAAGTGCGCCCGCATCAGGCGCTCAATCGCAACCTTGATCACAACTGGCAGCAGGCGCTGCTGAAGACCTCCAGCGAACGCCGCATCGCCGTAGACGTCACCCTAAGCGGCTGGCAGGAGCAGCTGGTTCTCACCATGACCTGTGAAGATGGCGTCAGCGTGACCCACACCCTTGACGGGGAGTTCGCCGAAGCTAACCAGGCGGAGAAAGCGCTGGCTAACCTGCGTGACGGTGTCACAAAACTGGGGCAAACCATTTACTATGCGCGCGAGGTGCAGGTCAATCTGCCGCCGCTGTTTGTGCCCAACAGCCTGCTCAACCAGCTGCGGCGTGAAACGGCCGAAATGCTGGATGACGCGCGGCTCAATGCCTGGCAGCGCGGTACCCGTAAGCCGGTCTCTGTGCCGCCGCCGGTCTACCCTGAGACCCATCTCTCCTTCCTCGCCAACGTCTATAACCACAAGGCGCGGGCGTTCTACCAGCGCTATGGCGTGCAGCTGATTGACGCCGCCTATGAAGCGCACGAAGAGAAGGGCGATGTGCCGGTGATGATCACTAAACATTGTCTGCGCTTTGCCTTCAACCTCTGTCCGAAACAGGCGAAAGGCTCCATCAAGAGCTGGAAAGCCACGCCGATGCAGCTGATCCATGGCGATGAAGTGCTGACCCTGAAGTTTGACTGCCGTCCGTGCGAAATGCACGTGGTCGGCAAGATCAAAAACCATATCCTCAAAATGCCGCACCCGGGTAGCATCGTGGCCTCCGTTAGCCCGGACGAGTTGATGAAGACCCTGCCGAAGCGCAAAGGGGCCTGA	MRLHNHRLELLSPARDAGIAREAILHGADAVYIGGPGFGARHNASNSLSDIAGLVPFAHRFGAKVFVTLNTILHDDELEPAQRLITDLYDAGVDALIVQDMGIMELDLPPIELHASTQCDIRSVEKAKFLSDAGFSQIVLARELNLSQIKAIYDNTDATIEFFIHGALCVAYSGQCYISHAQTGRSANRGDCSQACRLPYTLKDDQGRVVAYEKHLLSMKDNDQTANLAALIDAGVRSFKIEGRYKDMSYVKNITAHYRQMLDAIIEDRGDLARASAGRTEHFFIPSTDKTFHRGSTDYFVNARKGDIGAFDSPKFIGLPVGEVLKVGKDHLDVEVSEPLTNGDGLNVMIKREVVGFRANTVEKTGENRYRVWPNEMPADLHKVRPHQALNRNLDHNWQQALLKTSSERRIAVDVTLSGWQEQLVLTMTCEDGVSVTHTLDGEFAEANQAEKALANLRDGVTKLGQTIYYAREVQVNLPPLFVPNSLLNQLRRETAEMLDDARLNAWQRGTRKPVSVPPPVYPETHLSFLANVYNHKARAFYQRYGVQLIDAAYEAHEEKGDVPVMITKHCLRFAFNLCPKQAKGSIKSWKATPMQLIHGDEVLTLKFDCRPCEMHVVGKIKNHILKMPHPGSIVASVSPDELMKTLPKRKGA				NA	NA	NA	NA	NA
BMS020_00557	570	sutR_1	COG1396	HTH-type transcriptional regulator SutR	ATGAATATTGCGCAACATCTGGCGGCCACCCTCAAAAATCTGCGTCAGCAGCGCGGCTGGAGCCTGTCGCGTCTGGCGGAAGAGACCGGGGTGTCGAAAGCCATGCTCGGGCAGATTGAGCGGAATGAATCGAGTCCGACGGTCGCGACGCTGTGGAAGATTGCCACCGGGCTGAACGTGCCGTTTTCGGCGTTTATCGTTCCGGATGACGGCGCGGCGCCCTCCGCGTTTGACCCGCAGCAGCAGGCGATGGTGGTGACCCCGGTCTTCCCGTGGGACCCGGAGTTGCGCTTTGATCATTTCTCGATAACCCTAGCTCCCGGGGCGCTGAGCGAATCGACGCCGCATGAGCAAGGGGTGATTGAGCATGTTGTCGTGATTAGCGGTACCCTGGATCTCTGCTTACAGGGGGAGTGGCACTCGCTGCAGGCGGGTGAGGGTCGGCGCTTCGCCGGCGATGCGGCGCATGCCTACCGGAACAGCGGCGCCCAGGCGGCTCATTTCCATTCGCTTATCCACTATCCAAAAGAAAAAACCGCGGGCGAACCCGCGGCCAGACAAGATGACTGA	MNIAQHLAATLKNLRQQRGWSLSRLAEETGVSKAMLGQIERNESSPTVATLWKIATGLNVPFSAFIVPDDGAAPSAFDPQQQAMVVTPVFPWDPELRFDHFSITLAPGALSESTPHEQGVIEHVVVISGTLDLCLQGEWHSLQAGEGRRFAGDAAHAYRNSGAQAAHFHSLIHYPKEKTAGEPAARQDD				NA	NA	NA	NA	NA
BMS020_00558	1167	ydcO_1	COG3135	Inner membrane protein YdcO	ATGCGCTCGTTTACCGTTCCGCTTCCCACCCTGTTCGCCGGCTTCGTCGCCGTGCTGGTGGGCTACGCCAGCTCTGCCGCTATCATCTGGCAGGCTGCCGCTGCCGCCGGCGCCACGCCCGGGCAGATCGCCGGCTGGATGACGGCCCTGGGCCTCGCCATGGGCGTCAGCACCCTCGCGCTGAGCGGCTGGCGAAAAGTGCCGGTGCTCACCGCCTGGTCAACGCCGGGCGCCGCCCTGCTGGTCAGCGGCCTGCAGGGGGTGACCCTCCCTGAGGCGGTGGGGGTATTTATCTTCGCCAATGCGCTGATCGTCCTCTGCGGCGTCACCGGCCTGTTTGCCCGGCTGATGAAAATCATTCCCCATTCGCTGGCCGCCGCGATGCTGGCCGGCATTCTGCTGCGTTTCGGTTTGCAGGCCTTCGCCGGCTTCCAGGATCATCTGCTGCTGTGCGGCGGCATGCTCGCCGCCTGGCTTCTGTGTAAGGCGCTGTGGCCCCGCTTCGCCGTGGTCGCCGCGCTGGTTGCCGGGGCGCTGATTGCCGCGGCCTCCGGGGAGGTGGCCAGCGCCGCTGTGCCGCTGACGTTTGTGGCGCCGGAATGGATCGCCCCGCAGTTTACCCCGGCGCTGCTGCTCAGCGTCGGCCTGCCGTTCTTCCTCGTGACCATGGCCTCACAGAACGCGCCCGGGTTCGCTACCCTGCAGGCATCAGGCTATGCCGTACCGGTCTCCGCGCTGATCGTTGTCTGCGGGGGGCTGGCGCTGCTGCTGGCGCCGTTTGGGGTCTACTCCATCTGTATTGCGGCGATCACCGCCGCCATCTGCCAGAGCCCGGAGGCGCACCCGGATCCGCAGCAGCGTTGGCTGGCGGCCATGGCCGCAGGCGGTTTTTATCTGCTGGCCGGTCTGTTCGGGGGATCGATCACCGCGCTGATGTCGGCCCTGCCGACAGCGTGGATCCAGATGCTGGCCGGCCTGGCGTTGCTCGGCACCATCGGCGGTAGTCTGTTTCAGGCGGTACATCAGGCCAGTGAGCGCGACGCGGCGGTGCTGACCTTTCTGATCACCGCCAGCGGCGTGACGCTGGCGGGAATTGGCTCCGCATTCTGGGGCGTGGTGCTCGGCGGAGTGAGCTACGGCGTGCTATCCGCGCTGCGCCGCCCGTAG	MRSFTVPLPTLFAGFVAVLVGYASSAAIIWQAAAAAGATPGQIAGWMTALGLAMGVSTLALSGWRKVPVLTAWSTPGAALLVSGLQGVTLPEAVGVFIFANALIVLCGVTGLFARLMKIIPHSLAAAMLAGILLRFGLQAFAGFQDHLLLCGGMLAAWLLCKALWPRFAVVAALVAGALIAAASGEVASAAVPLTFVAPEWIAPQFTPALLLSVGLPFFLVTMASQNAPGFATLQASGYAVPVSALIVVCGGLALLLAPFGVYSICIAAITAAICQSPEAHPDPQQRWLAAMAAGGFYLLAGLFGGSITALMSALPTAWIQMLAGLALLGTIGGSLFQAVHQASERDAAVLTFLITASGVTLAGIGSAFWGVVLGGVSYGVLSALRRP	PGPT0005385_1405	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0005385-benE-K05782	NA	NA
BMS020_00559	879	rhaR_1		HTH-type transcriptional activator RhaR	GTGAAGGCGATGGGTTACGGGACGTTTGAAACATTACGGCGACAGAACGCGGTGCTGAAGGGCACCGTGGAGCTGAATTCCGGTATTCAACTGGCCGCCTGGTATAACAACTGCGATACCGTAACGGTACGCAGCGATCATCATACCTTAAGCCTGTACGTCGCCGATGGTTATGAAAGTTATCAAAAGACGCCGCACGGCTGGAAGAATGGCGGCGGCCCGGATCGCTTTTGCCTGATGCCGAAAGGCGATGAAAGCGTCTGGGATATCCGCGGCGATCTGTCGTTTGTCCATCTCTATTGTACCGATGCGCATCTGCGCCGCGTCGGGGAGGAGGTGTGGGATCGCAGCCCGGCGAACTTCACCCTGCAGGAGAAAACCTTTGCCAGCGATGACAAAATCACCACCGTGTATCGTCAGTTTTTGCTGGCTAATGACTGGCGACAGCCGGCGAACCAGCTGACCCTTAGCGCCGCCAGCAGTTTATTGCTCACCCATCTGATCCAGCACTATTCCACCGTGCAGTGGCGTTTGCCCTCGGTCACCGGGGGACTGGCGCCGGGAGTGAAGCGTCACGTGCTGGCCTGGATCGACGCTCACCTCGATCAGCCATTGACCCTGGCCGACCTGGCGCAGCAGGCGGGACTGAGTGAATTTCATTTTGCCCGTATGTTCCGCCAGTCGCTGAATATGGCTCCGCATCAATATGTGATGCAGCAGCGAATGGCGAAGGCGCAAAACCTGATCTGCCACAGCGCGCTGCCGCTCACCGAGATCGCTCTGGCCTGCGGTTTCAGCTCCGCCAGCCATTTCAGCCATCGGGTTAAAGCCGCCACCGGTCTGACGCCGACCCAGCTACGGGCGGCGCAGCGCGGATAG	MKAMGYGTFETLRRQNAVLKGTVELNSGIQLAAWYNNCDTVTVRSDHHTLSLYVADGYESYQKTPHGWKNGGGPDRFCLMPKGDESVWDIRGDLSFVHLYCTDAHLRRVGEEVWDRSPANFTLQEKTFASDDKITTVYRQFLLANDWRQPANQLTLSAASSLLLTHLIQHYSTVQWRLPSVTGGLAPGVKRHVLAWIDAHLDQPLTLADLAQQAGLSEFHFARMFRQSLNMAPHQYVMQQRMAKAQNLICHSALPLTEIALACGFSSASHFSHRVKAATGLTPTQLRAAQRG				NA	NA	NA	NA	NA
BMS020_00560	897			hypothetical protein	GTGAACGCATTACTTTATGCACTCGTTGTCGTTATCTGGGGAACAACGTGGATTGCGATTTTTTTACAGCAGGGGCCGGTGGCGGCGCCGGTATCGATTTTCTGGCGTTTCGCCGTGGCCAGCGTCACGATGCTGGCGATTCTGCTCGTCACGCGACGTCTGCGGCCGCTGGGCGCGAAGGACCATCTCTGCTGCCTGCTGCAGGGCTGCTGCGTCTTCTGCTTCAATTTCTGGTGCTTTTATACCGCCGCCGCCTGGATCAACACCGGTCTGGAATCGGTGATCTTTTCCATGGCGGTGCTGTTTAACGCCATCAACAGCTTTCTTTTCTTCCGTCAGCAGCCGCCGGGACGCTTCTGGGCTGCCGCCGCGCTCGGTCTGGCCGGTATCGTCACCCTGTTCTGGGATGACCTGCTGGCCAACGGGCTGAACGCTTCGCTACTGTGGGGGATCGGTCTGAGCGCGCTGGGCACTTACGGCTTTTCGCTGGGCAATATGTTCAGTATTCGTCACCAGCGGCGGGGGCTGGAGACGCTGACCACCAACAGCTGGGCGATGCTGTACGGCACGCTGGTGATGGGCGCCATCGCACTCCTCCGCGGGGATAATTTTATGCCGGAGTGGACCGTCAGCTATCTTGGCGCCCTGCTTTACCTGGCGCTGTTCGGCTCAGTTGTCGCCTTCGGCGCCTATTTCACCCTTGTGGGACGCATCGGCGCCAGCAAAGCCGCCTACAGTACGCTGCTGTTTCCGCTGGTCGCCCTGTCCATCTCCACCGTCTATGAAGGCTATGTATGGCACAGCAACGCCGTTATCGGACTGGCGCTGATCCTGTTGGGTAATCTGGTGATGTTTGCCAAACCGGAACAGCTGCTGCTGCGCCGAAAGCTGGCCTGA	MNALLYALVVVIWGTTWIAIFLQQGPVAAPVSIFWRFAVASVTMLAILLVTRRLRPLGAKDHLCCLLQGCCVFCFNFWCFYTAAAWINTGLESVIFSMAVLFNAINSFLFFRQQPPGRFWAAAALGLAGIVTLFWDDLLANGLNASLLWGIGLSALGTYGFSLGNMFSIRHQRRGLETLTTNSWAMLYGTLVMGAIALLRGDNFMPEWTVSYLGALLYLALFGSVVAFGAYFTLVGRIGASKAAYSTLLFPLVALSISTVYEGYVWHSNAVIGLALILLGNLVMFAKPEQLLLRRKLA				NA	NA	NA	NA	NA
BMS020_00561	669			hypothetical protein	ATGCGTACTCGCGTGTTATTTAAAGTCGCCGCTCTGGCGGGGATGTTAGCGTTGACGGGCTGTGCGTCCAAACTGGCGCAGCCGAATCAGTATTCGGGCTTTTTAAAAGATTATTCCAACCTGAAAGAAGCCACCACGGCCTCCGGCAAGTCGGAGCTGCGCTGGATCGACCCAAACTACAATCCGGCTAACTACGATAATGTCGTCTACCATCCGGTAACGTACTATCCGGTACCGAAGCCGACGACCCAGGTCGGTGAAAAGGCGTTGCAGGATATTCTTAATTACACCAACAAACAGCTCAAACAGGCCATTTCCGAGCGTAAACCGCTGGCTACCACCGCCGGCAAGCGTAGCCTTATTTTCCGCGGGGCGATCACCGGGGTGGACTCCAGCAAAGAAGGGCTGCAGTTCTATGAAGTGGTTCCGGTCGCGATGATTGTTGCCGGTACTCAGGCCGCCACCGGCCATCGTACGATGGACACCGACCTCTATTTTGAAGCCGAACTGATTGACGCCAGCACCAACAAGCCGGTGATCAAAGTGGTTCGTAAAGGGGAAGGAAAAACCCTGGCCAATGAAAACACGCCGCTGACCATCGAAACCATGAAGCAGGTGATCGATGATATGGCGGTCGATGCCGTCAAATTCGACCCTTCCCAGCGGTAA	MRTRVLFKVAALAGMLALTGCASKLAQPNQYSGFLKDYSNLKEATTASGKSELRWIDPNYNPANYDNVVYHPVTYYPVPKPTTQVGEKALQDILNYTNKQLKQAISERKPLATTAGKRSLIFRGAITGVDSSKEGLQFYEVVPVAMIVAGTQAATGHRTMDTDLYFEAELIDASTNKPVIKVVRKGEGKTLANENTPLTIETMKQVIDDMAVDAVKFDPSQR	PGPT0004500_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004500-dppA-K12368	NA	NA
BMS020_00562	597	tehB	COG0500	Tellurite methyltransferase	ATGACAACGCGTGACGCGGACTATTTTAGTGAAAAATATGGCCTGACCCGCACCCACTCCGAGGTGCTGCATGCCGCGACGATGGTGCCGCCGGGGCGGGCGCTGGATCTGGGCTGCGGCAACGGACGTAACAGCCTTTATCTGGCGGCGAACGGCTTCACGGTGACGGCGTGGGATAAAAATGCGATGAGCATCAATAATCTGGAGACTATTCGCGCCGCCGAAGGGCTGGATAATCTGCAGACCGCGGTGAAAGACCTCAACAGCCTGACCTTTGACGGCGAGTATGATCTGATCCTCTCCACCGTGGTGATGATGTTTCTTGAGGCCGGCGCTATCCCGGGACTCATCGCCAATATGCAGCGTTGCACCGCCGCCGGGGGCTATAACCTGATTATCGCGGCGATGGACACCGAGGACTATCCCTGCACCGTCGGCTTCCCGTTTGCTTTTAAACCCGATGAACTTCGGGAGTACTACCGGGGCTGGGAATTACTGAAATACAATGAGGACGTCGGTGAGCTGCATCGGACCGACGCCAGCGGCAACCGGATCAAACTGCGCTTCGCCACGCTGCTGGCGCGCAAGCCCGCATAA	MTTRDADYFSEKYGLTRTHSEVLHAATMVPPGRALDLGCGNGRNSLYLAANGFTVTAWDKNAMSINNLETIRAAEGLDNLQTAVKDLNSLTFDGEYDLILSTVVMMFLEAGAIPGLIANMQRCTAAGGYNLIIAAMDTEDYPCTVGFPFAFKPDELREYYRGWELLKYNEDVGELHRTDASGNRIKLRFATLLARKPA	PGPT0004925_488	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TELLURIUM_RESISTANCE	TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004925-tehB-K16868	NA	NA
BMS020_00563	1005	tehA	COG1275	Tellurite resistance protein TehA	ATGAACAAAACGCATACGTCGCGGCAGGTGCTGAACCTGCCGGCGGGTTACTTTGGCATGGTGCTCGGCACCATCGGGATGGGCTTTGCCTGGCGTTACGCCAGCACCCTCTGGCCGGTCAGCCGCAGCATTGGTGATGGGCTGGTGACGCTGGCGATGGCGATGTGGGTCCTGCTCAGCATGGCGTTTATCAGCCGGGCGATCCGCTTTCCGGCGAGTGTGCTGCAGGAGATGCGACATCCGGTCAGCAGCAGCTTCGTCAGCCTGTTTCCCGCCACTACCTTGCTGGTATCGATTGGTCTGGTACCCTGGTGCCGGCCGCTGGCCATCGGGCTGTTTGTGCCGGGCGTGGCGCTGCAGCTCGCCTATGCCGCCTGGCAAAGCGGCGGCCTGTGGCGGGGAAACCATCCTCGCCAGGCCACCACGCCGGGGCTGTATCTGCCCACGGTGGCGAATAATTTTATCAGCGCGATGGCCTGCGGCGCGCTGGGGTTTACCGACGCCGGACTGGTGTTCCTTGGCGCCGGGGTCTTCTCCTGGCTGAGCCTTGAGCCGGCTATCCTCCATAGGCTGCGCAGCGCAGGCGAACTGCCGACCGCGCTGCGCACGTCGTTGGGGATCCAGCTGGCGCCTGCGCTGGTGGCCTGCAGCGCCTGGCTCAGCGTCAACGGCGGGGAGGCTGATATCTTTGCTAAGCTGCTGTTTGGCTACGGTCTGCTACAGCTGTTGTTTATGCTGCGTCTGATGCCCTGGTATCTTCGCCAGCCGTTCAATGCTTCTTTCTGGAGCTTCTCGTTCGGTATTTCCGCACTGGCCACTACCGGCCTGCATCTGGGCCAGGCTAAGGCGGACGGCTTTTTTCATCATCTGGCGCTGCCGCTCTTTATTTTTAGCAATCTGGTCATCGGCCTGCTGCTGCTGCGCACAGGGCTGCTGTTGGTTAGCGGGAAACTGTTGCTACAGGTCGACCGGGAAACACTCCTGAATAAGAAGGAAGGATCATGA	MNKTHTSRQVLNLPAGYFGMVLGTIGMGFAWRYASTLWPVSRSIGDGLVTLAMAMWVLLSMAFISRAIRFPASVLQEMRHPVSSSFVSLFPATTLLVSIGLVPWCRPLAIGLFVPGVALQLAYAAWQSGGLWRGNHPRQATTPGLYLPTVANNFISAMACGALGFTDAGLVFLGAGVFSWLSLEPAILHRLRSAGELPTALRTSLGIQLAPALVACSAWLSVNGGEADIFAKLLFGYGLLQLLFMLRLMPWYLRQPFNASFWSFSFGISALATTGLHLGQAKADGFFHHLALPLFIFSNLVIGLLLLRTGLLLVSGKLLLQVDRETLLNKKEGS	PGPT0004920_168	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TELLURIUM_RESISTANCE	TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004920-tehA-K03304	NA	NA
BMS020_00564	981			hypothetical protein	ATGCGTAAATACCGTCTCAGCGAACAGACCCGGCAGTATTGTTACCAGGCAGAGGATGGCAAACAGTGCGTCACCCTGCGCCAGATCGTGGCGCTTATCGATTTCGCTGACGTCAAAGCGGGCAGCGAAGGCGGCTGGGTGGAGGAGGAAAGCGCTCTCAGCCAACAGGGAGAGTGCTGGATCTACGATGCCAACAGCGTGGTCTTCGCCGGGGCGCGCATCCTCGACGATGCCCGACTCCATGGCCCCTGCGAGGTCAGCCATGGGGCTATCATCAGCGGACGGGCATCCATTCACGCCTCGCAGATCAGCCATCACGCGCAGATTGGTGACAACGTCACGATTAGCCTGAGTACGGTGCGCGGTGACTGTCGCCTCGCCGACGAGGCGCGTCTTCTGCCCCACTGTCAGGTGATTGCCGCCCGCGGGCTGACCGCCGACCGCGACAAAGTGCTGCAGATTTATCAGCGAGCCACCGTCAGCGCGTCGCGCATTCTCCATCAGGCGCAGATCTATGGCGAGGCCTACGTTGAGCACGCTTTTGTCGAACATCGGGCGGAAGTCTTTGACCACGCCAGGCTTGAGGGAAACGAGGAGAATGACGTTTGGGTGTGCGATAACGCGCGGATTTACGGGCATGCCCGTCTGATCGCGGGTCGCGGCGAGGATGCCATTCCCACTGTGCGCTACAGTTCCCAGGTTGCGGAGAATGCGGTGATTGAAGGTAACTGTCTGCTAAAGCACCGGGCGATGGTGGGCGGCGAGGCGCAGCTGCGCGGTGGACCGATTCTGCTTGACGACGACGTGCTGATCCAGGGTCGGGCTGTTATCGTCGGCGATGTGATCGTTGAGCACCAGGTCACGCTTGGGGACGAGGTGCAGATCGCCGCGCGGGAAGGAGAAGCCATTCACCTGCGCGGCCCGAAGACCCTCGACGGCCAGCAGCAGATCACCCGAACGCCGCTGTTAGGCGCCCTGTAG	MRKYRLSEQTRQYCYQAEDGKQCVTLRQIVALIDFADVKAGSEGGWVEEESALSQQGECWIYDANSVVFAGARILDDARLHGPCEVSHGAIISGRASIHASQISHHAQIGDNVTISLSTVRGDCRLADEARLLPHCQVIAARGLTADRDKVLQIYQRATVSASRILHQAQIYGEAYVEHAFVEHRAEVFDHARLEGNEENDVWVCDNARIYGHARLIAGRGEDAIPTVRYSSQVAENAVIEGNCLLKHRAMVGGEAQLRGGPILLDDDVLIQGRAVIVGDVIVEHQVTLGDEVQIAAREGEAIHLRGPKTLDGQQQITRTPLLGAL				NA	NA	NA	NA	NA
BMS020_00565	579	rimL	COG1670	Ribosomal-protein-serine acetyltransferase	ATGACCACAGACATTCCAGCAGTACCTGAGTCGATCCCGGTGACCGAGGGACTGACGCTTACCGCCATTGATGAGCGTTACGTCAGCGACCTGCACCAGCTGGTGGTGAAAAACCAGCGCTGGCTACAGCAGTCGCTCAGCTGGGCTGGAGAGGTGCGCAGCGAAGAGGAGACCCGCCGCCATGTGCAGGGTAACGTGATGCTGCACCAGCGGGATTACGCCAAAATGTTTTTGCTGTTTCTCGATAAGCGGCCGATTGGCGTTCTGTCGTTCAACCAGATCGAGCCGCAGAATAAGACGGCCTATATTGGCTATTGGATCGATGAAGATTGCCAGGGGCAGGGGTATCTGTCCCGTTCCCTGCAGGCCTTTATCCACTATTATGCCCGCAGCGGGCTGGTGCGCCGGTTTGTAATCAAATGTCGGGTGGCGAATACCCGCAGCAACCAAGTGGCGTTGCGTAACGGGTTTGTTCTGGAAGGCTGTCTCCGCCAGGCCGAGTATCTGAACGGCAGCTATGACGATCAGAATATCTACGCCCGCATTATTGACCGCGACGAGGCGCTACAGGGCGCCTAA	MTTDIPAVPESIPVTEGLTLTAIDERYVSDLHQLVVKNQRWLQQSLSWAGEVRSEEETRRHVQGNVMLHQRDYAKMFLLFLDKRPIGVLSFNQIEPQNKTAYIGYWIDEDCQGQGYLSRSLQAFIHYYARSGLVRRFVIKCRVANTRSNQVALRNGFVLEGCLRQAEYLNGSYDDQNIYARIIDRDEALQGA				NA	NA	NA	NA	NA
BMS020_00566	1626	mdoD_1	COG3131	Glucans biosynthesis protein D	ATGGCTGTTGCCGCCGTATGCGGAACGTCAGGAGTCGCTTCCTTATTCAGTCAGGCCGCGTTTGCTGAAGACGCGGGCATTGCCGACGGGCAGACACGTCGTTTTGATTATGCCGTGCTGCAGGCGATGGCCCACGATCTGGCGCGCCAGCCGTGGGGCGGCGCCCCGCGCGATCTGCCGCCGACGCTGGCCAATCTCACCCCGCAGGCTTATAACAGCATCCAGTATGACGCCAACCACTCGCTGTGGAACAATATTGAAGAACGCAAACTGGATATCCAGTTTTTCCACGTCGGGATGGGGTTCCGTCGCCGCGTGCGCATGTTCTCTTTAGACGCCGCCACCCAGCAGGCGCGCGAGATCCACTTCCGTCCGGAGCTGTTCAAGTACAATGACGCCGGGGTGGATACCCGCCAGCTGGAAGGCCAGTCCGACCTCGGCTTCGCCGGGTTCCGGGTATTTAAAGCGCCTGAGCTGGCGCGCCGGGATATCGTGGCGTTTCTCGGCGCCAGCTATTTCCGCGCGGTAGACAGCACCTACCAGTATGGCCTCTCGGCCCGTGGGCTGGCGGTGGATACCTTTACCGATACCCCGGAAGAGTTCCCCGATTTCACCTCTTTCTGGTTCGAAACGGTCAAAGGGGACGCCACGGTATTCACCGTTTACGCTCTGCTGGACAGCCCGAGCATCACTGGCGCCTACAAGTTCACCATCCACTGCCAGGATACCCAGGTCATTATGGACGTGGAGAACCATCTCTACGCCCGCAAGGATATCAAACAGCTGGGTATCGCGCCGATGACCAGCATGTTCAGCTGCGGCAACAACGAGCGTCGGATGTGCGATACCATCCACCCGCAGATCCACGACTCCGATCGGCTGTCGATGTGGCTGGGCAACGGCGAATGGGTCTGCCGGCCGCTGAACAACCCGCAGAAGCTGCAGTTCAACGCCTTCCAGGACAAGAACCCGCGCGGTTTTGGTCTGCTGCAGCTGGACCGCGATTTCTCCCACTACCAGGACGTGATGGGCTGGTATAACAAGCGTCCCAGCCTGTGGGTGGAGCCGCGTAACCAGTGGGGCAAAGGGGCGGTCAGCCTGATGGAGATCCCGACCACCGGTGAAACGCTGGATAACATCGTCTGCTTCTGGCAGCCGGAAAAGGCGGTGAAGGCGGGCGACGAACTGGACTTCCGCTACCGTCTCTACTGGAGCGCGCAGCCGCCGGTGAGCACCCCGCTGGCGCGTGTGCTCGCCACCCGCACCGGGATGGGGGGCTTCCCGGAGGGATGGGCGCCGGGGGAACACTACCCGGACAAGTGGGCGCGTCGTTTTGCCATCGACTTTGTCGGCGGCGATCTGAAAGCGGCCGCGCCGCGCGGTATTGAACCGGTGATCACCCTCTCCAGCGGCGAAGCGAAGCAGATTGAGATCCTCTACGTCGAGCCGTTCGATGGCTACCGGATCCTCTTCGACTGGTATCCGACCTCCGACTCAACCGACCCGGTGGAGATGCGTCTGTTCCTGCGCTGTCAGGGAGAAGCCATCAGCGAAACCTGGCTCTATCAGTACTTCCCGCCGGCGCCGGATAAACGTAACTACGTCGACGACCGGATCATGAAATAA	MAVAAVCGTSGVASLFSQAAFAEDAGIADGQTRRFDYAVLQAMAHDLARQPWGGAPRDLPPTLANLTPQAYNSIQYDANHSLWNNIEERKLDIQFFHVGMGFRRRVRMFSLDAATQQAREIHFRPELFKYNDAGVDTRQLEGQSDLGFAGFRVFKAPELARRDIVAFLGASYFRAVDSTYQYGLSARGLAVDTFTDTPEEFPDFTSFWFETVKGDATVFTVYALLDSPSITGAYKFTIHCQDTQVIMDVENHLYARKDIKQLGIAPMTSMFSCGNNERRMCDTIHPQIHDSDRLSMWLGNGEWVCRPLNNPQKLQFNAFQDKNPRGFGLLQLDRDFSHYQDVMGWYNKRPSLWVEPRNQWGKGAVSLMEIPTTGETLDNIVCFWQPEKAVKAGDELDFRYRLYWSAQPPVSTPLARVLATRTGMGGFPEGWAPGEHYPDKWARRFAIDFVGGDLKAAAPRGIEPVITLSSGEAKQIEILYVEPFDGYRILFDWYPTSDSTDPVEMRLFLRCQGEAISETWLYQYFPPAPDKRNYVDDRIMK	PGPT0013325_133	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0013325-mdoG-K03670	NA	NA
BMS020_00567	1506	pnbA_1	COG2272	Para-nitrobenzyl esterase	ATGCAACATCCGTCGAAACCGTTGGCGAAAACCCGGCAGGGCACGCTGGCCGGGAGCGCAGAGCAGGGGATCCATATCTGGCGCGGCATTCCGTACGCCGCGCCGCCCGTGGGGCCGCTGCGCTGGCGCGCGCCGCAGCCTCCCGCCCGCTGGCATGGCGTGCGTCAGGCCGACGCCTTTTCCGCCGCCAGCTGGCAGGACATTGACTACTGCCGCGAACTTGGCGGCGGGGATCCCGGCCGCTTCAGCGAAGACTGTCTCTATCTCAACGTCTGGGCCCCCGCCAGCGCAGCGCAGCCGCTGCCGGTGATGGTCTGGTTGCACGGCGGCGGGTTTACCATCGGCGCCGGCAGCCTGCCGCCTTACGATGGCCTGGCGCTGGCCAGCCGCGACGTGGTGGTGGTGACGGTCAACTACCGACTGGGCCATCTTGGCTTTTTCGCCCATCCGGCTCTGGAGGAAGAGGCGGGCGAGCGTCTGTATAACTTCGCGCTGCTCGACCAGATCGCCGCCCTGCAGTGGGTCCAGGAGAATATTCACGCCTTCGGCGGCGACGCCGCAAACGTTACGCTGTTTGGCGAATCCGCCGGGGCGCGTAGCGTGCTGTCGCTGATGGCCTCGCCGAAAGCGAAAGGGTTGTTCCATAAAGCGATAATTCAGAGCGGGTATACCTTACCCGATCTGCCGCGAGAAAAGGCGCTGGAGAAAGGCCGCCTGCTGGCGGAACGCTTCGCCTTGCCGCAGGCCAGCGCCGAACAACTGCGGGCGATCCCGGCGGAGGCCTTCTGGTCGCTAACCGCCCCGCTGAATATCGGGCCAGCGCCCATCGCCGGCGATGTGGTGCTTCCGCAGCCGATGCTGGAGACTTTTTTTGCCGGGCGCCAGCATCCGATGCCGGTGATGATCGGCTCCAATAGCGATGAAGCCAGCGTGATGGCGGTGTTTGGGGTCGATATCGCCGGGCAGATCCAGAAACTGCGCCGCGAGCGCCGTCTGGGGCTGGGACTGATCAAACTCCTCTATCCCGGCGTCAAGGGGGATGAAGCGCTGGGGCGGGAAGTCTGTCGGGATATGGCGTTTACCACCCTCGGCTATGTGGTGATGCAGGCCCAGCAGCGCGTGGGCCAGCCATGCTGGCGGTACTGGTTCGATTATGTGGCGGAAGCGGAGCATGATGTCTATCCGCACGGCGCCTGGCACGGCAACGAGGTACCCTACGTGTTTGATAACCTGCGGCTCACCGACCCGGTGCGGCAATATGCCAGTGAAGCGGATCTGGCCTTCGCCGCTCAGGTCGCTGACTACTGGGCCCAGTTTGCCCGCGTCGCCAGCGGCGAGCAGGTGCTTGCCGGCGCGGTGCGCTGGCCGGCGTGCGTGCGCGGACGGGATCGTCTGCTGCGCATTGGCCTGCATAAGCGTGCCGGCTTTAAAGTGGAGAATCGCTTTATGCGCGCCAGGCTGGCGCTGTTTCGCCGGGTGATGAAGCATCACGTGACCCTCGAATAA	MQHPSKPLAKTRQGTLAGSAEQGIHIWRGIPYAAPPVGPLRWRAPQPPARWHGVRQADAFSAASWQDIDYCRELGGGDPGRFSEDCLYLNVWAPASAAQPLPVMVWLHGGGFTIGAGSLPPYDGLALASRDVVVVTVNYRLGHLGFFAHPALEEEAGERLYNFALLDQIAALQWVQENIHAFGGDAANVTLFGESAGARSVLSLMASPKAKGLFHKAIIQSGYTLPDLPREKALEKGRLLAERFALPQASAEQLRAIPAEAFWSLTAPLNIGPAPIAGDVVLPQPMLETFFAGRQHPMPVMIGSNSDEASVMAVFGVDIAGQIQKLRRERRLGLGLIKLLYPGVKGDEALGREVCRDMAFTTLGYVVMQAQQRVGQPCWRYWFDYVAEAEHDVYPHGAWHGNEVPYVFDNLRLTDPVRQYASEADLAFAAQVADYWAQFARVASGEQVLAGAVRWPACVRGRDRLLRIGLHKRAGFKVENRFMRARLALFRRVMKHHVTLE	PGPT0030515_1882	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TANNIN_DEGRADATION	PUTATIVE-TANNIN_DEGRADATION-1,PGPT0030515-pnbA-K03929
BMS020_00568	1344		COG5383	putative protein	ATGGCGAACACCATCACGGCTGATGAGATTCGGGAGCACTTTTCGCAGGCCATGTCGGCCATGTACCAGCAGGAAGTTCCGCAGTACGGGACGCTGCTGGAGCTGGTGGCTGACGTCAACCTGGCGGTACTGGAAAATAATCCGAAGCTGCATGAACAACTGGCCAACGCCGACGAGCTGGCGCGCCTGAACGTTGAGCGCCACGGGGCGATCCGCGTGGGCACAGCGGAGGAACTGGCGACGCTGCGTCGCATGTTTGCCATTATGGGGATGTATCCCGTCAGCTATTACGATCTCTCGCAGGCCGGCGTGCCGGTTCACTCCACGGCGTTTCGTCCTGTCGACGATGCCGCGCTGGCGCGCAATCCGTTTCGGGTATTTACCTCGCTGCTGCGTCTGGAGCTGATCGAAAACCGCGCTCTGCGCGAGCGGGCCGAGGCGATCCTCGCCCGGCGCAACATATTCACTCCCCGCTGCCTGGCGCTGATCGCCCGGCACGAGGCCGAAGGGGCCTTCACCCCAGCGGAAGCCCGCGAGTTTGTGCAGGAGGCGCTGGAGACCTTCCGCTGGCACCGGCATGCCACCGTCGATGAGGAGACCTACCACGCGCTGCATCGCGAGCATCGCCTGATTGCCGATGTGGTCTGCTTCCCGGGATGCCATATCAACCACCTCACGCCGCGGACGCTGGATATTGACCGCGCGCAGGCCCTGATGCCGGAGTGCGGTATTGAGCCAAAGGCCCTGATCGAAGGTCCGCCGCGCCGGGAGGTACCGATCCTCCTGCGGCAGACCAGCTTCAAGGCGCTTGAGGAGCCGGTGATGTTCGCCGGCGAACACCGCGGCACCCACAGCGCCCGCTTTGGCGAAATTGAGCAGCGCGGCGTGGCGCTGACGCCGAAAGGGCGCGCGCTGTACGACCGGCTGCTGCAGGCGGCAGGGACCGGCAAAGACAATCTCAGCCATCAGCTGCATCTGCAGGAGGTGTTCCGCGAATTTCCCGACAGCGAATTTCTGCTGCGTCAGCAGGGGCTGGCCTGGTTTCGCTACCGCCTGACGCCGGCTGGCGAGGCCCATCGCCAGGCGTTTCGCCCGGGCGACGATCCCCAGCCGCTGATCGAGCGCGGATGGGTGGTGGCCCAGCCCATCGTCTATGAGGATTTTTTACCGGTCAGCGCGGCGGGCATTTTTCAGTCCAATCTGGGTAATGAAACCCAGGCGCGCAGCCACGGGAATGCCAGCCGCGAAGCCTTTGAGGCGGCGCTGGGCTGCCCGGTGCAGGATGAGTTTGAACTGTACCGGCAGGCGGAGGAGCGCAGTAAACGACGTTGCGGTCTGCTGTAA	MANTITADEIREHFSQAMSAMYQQEVPQYGTLLELVADVNLAVLENNPKLHEQLANADELARLNVERHGAIRVGTAEELATLRRMFAIMGMYPVSYYDLSQAGVPVHSTAFRPVDDAALARNPFRVFTSLLRLELIENRALRERAEAILARRNIFTPRCLALIARHEAEGAFTPAEAREFVQEALETFRWHRHATVDEETYHALHREHRLIADVVCFPGCHINHLTPRTLDIDRAQALMPECGIEPKALIEGPPRREVPILLRQTSFKALEEPVMFAGEHRGTHSARFGEIEQRGVALTPKGRALYDRLLQAAGTGKDNLSHQLHLQEVFREFPDSEFLLRQQGLAWFRYRLTPAGEAHRQAFRPGDDPQPLIERGWVVAQPIVYEDFLPVSAAGIFQSNLGNETQARSHGNASREAFEAALGCPVQDEFELYRQAEERSKRRCGLL				NA	NA	NA	NA	NA
BMS020_00569	741	pcaH_1	COG3485	Protocatechuate 3,4-dioxygenase beta chain	ATGAACGATAAATGGTCCCCGCGCGAGGTTATCCATCGCGATTACAGTAGTCACCCGCCCGCTTACGCCCCGGGCTATAAAACCAGCGTCCTGCGCTCCCCGAAAAACGCCCTGATCTCCCTGCAGAACTCGCTGTCGGAGATCACCGGCCCGGTGTTTAGCCGCGACGACCTGGGTCCGCTGGATAATGACCTTATCCTTAACTATGCCAAAGAAGGCCTGCCGATTGGCGAGCGGATCATTGTGCACGGCTACGTGCGGGATGGCTTCGGCCGACCGATGAAAAACACCCTGGTGGAAGTCTGGCAGGCCAATGCCGGCGGCCGCTATCGACATAAAAAAGATCAGTATCTGGCGCCGATTGACCCGAACTTCGGCGGCTGCGGCCGGGTGCTGACCGACGAGAACGGCTATTACTGTTTTCGCACCATCAAGCCCGGCCCCTACCCCTGGCGCAACCAGGCCAGCGACTGGCGTCCGGCGCATATTCATTTCTCGCTCTCAGGCGACGCCTGGGCCCAGCGCCTGATCACCCAGATGTATTTCGAAGGCGACCCGCTGATCAAGCAGTGCCCGATCGTCAGAACCATTAATAATGACGACGCCGTGCGCACCCTGATCGCCGAGCTGGACATGCACGCCGCCGTGCCGCTGGATTGTCTGGCCTACCGCTTCGACCTTGTTCTGCGCGGCCATCGCGCCACGCTGTTTGAAAATCGCACTCAGGGGGCCGCCCGATGA	MNDKWSPREVIHRDYSSHPPAYAPGYKTSVLRSPKNALISLQNSLSEITGPVFSRDDLGPLDNDLILNYAKEGLPIGERIIVHGYVRDGFGRPMKNTLVEVWQANAGGRYRHKKDQYLAPIDPNFGGCGRVLTDENGYYCFRTIKPGPYPWRNQASDWRPAHIHFSLSGDAWAQRLITQMYFEGDPLIKQCPIVRTINNDDAVRTLIAELDMHAAVPLDCLAYRFDLVLRGHRATLFENRTQGAAR	PGPT0005015_368	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005015-pcaH-K00449	NA	NA
BMS020_00570	621	pcaG_1	COG3485	Protocatechuate 3,4-dioxygenase alpha chain	ATGAAAGAGTATCTGCCTGAAACCGCCTCGCAGACCGCGGGACCCTATGTTCATATCGGTCTGGCGCCGGACGCCGCGGGTTTCCATATTTTTGAGAAAAATTTTGGTCCGGTTCTCACCACCGCCGATACCGTCGGAGAACGGATCACCATTGAAGGCCGGGTTATCGACGGCTCCGGAACCCCGGTCCGCGATGTGCTGCTGGAGATCTGGCAGGCCAACGCCGCGGGACGCTATAACCATCCTGACGATCGTCAGCAGCAGAAAGCGGTCGACCCGGGCTTTCGCGGCTGGGGGCGCACCTGCTCTGACTTCACCTCCGGCGTCTGGCGCTTTGAAACCATCAAGCCCGGCGCGGTGGTTGGCCGCGATGGCCGTCTGATGGCGCCGCACGTCAATCTGTGGGTGGTGGCCCGGGGGATCAATATTGGCCTCAATACGCGGATGTATTTTGCCGATGAGCACGAGGCCAACGCCAGCGACCCGGTACTGAATCTCATCGAGTGGGAGGTGAGACGCAAAACCTTAATCGCTGAGCGCGAAGTTCGCGGTGCGGAAGTGGTCTATCGTTTCGACATTTATCTGCAGGGCGAGAACGAAACCGTCTTTTTCGATATCTAG	MKEYLPETASQTAGPYVHIGLAPDAAGFHIFEKNFGPVLTTADTVGERITIEGRVIDGSGTPVRDVLLEIWQANAAGRYNHPDDRQQQKAVDPGFRGWGRTCSDFTSGVWRFETIKPGAVVGRDGRLMAPHVNLWVVARGINIGLNTRMYFADEHEANASDPVLNLIEWEVRRKTLIAEREVRGAEVVYRFDIYLQGENETVFFDI	PGPT0005010_173	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005010-pcaG-K00448	NA	NA
BMS020_00571	924	gbpR_1		HTH-type transcriptional regulator GbpR	ATGGAAAAAAATGGTCTCTTCAGTCAGCGCATTCGCTTGCGCCATCTACACACCTTCGTGGCCGTCGCTCAACAGGGAACGCTGGGGCGCGCGGCTGAAACTTTAAATCTGAGCCAGCCAGCACTTTCAAAAACGCTTAACGAGCTTGAACAGCTGACCGGTACCCGTCTGTTTGAGCGGGGACGTCTGGGGGCGCAGCTGACCCTGGTCGGGGAACAGTTTCTGACTCATGCCGTGAAGGTGCTTGATGCCCTTAACTCGGCGGGCCAGGCGCTGAACCGTAAAGAGGGCCTGAATAACGATATTGTACGCATCGGCGCGCTGCCTACCGCCGCGCTGGGGATCCTGCCGACGGTGATCGGCCAGTTCCATAAGCAGCAAAAAGATATCACGCTGCAGGTCGCCACCATGAACAACACCATGCTGCTCGCCGGGTTAAAGTCCGGGGAGATCGACATCGGCATCGGACGGATGTCCGATCCGGAGCTGATGAGCGGCCTGCATTACGAACTGCTGTTCCTGGAATCCCTTAAGCTGGTGGTCCGTCCGGGACATCCCCTGCTGCAGGAGACGGTGACCCTCAGTCGGGTGATGGAGTGGCCGGTGGTGGTCTCGCCAAAGGGCACCGTGCCGCGGCAAAACGCCGAAGCGCTGCTCCAGAGCCAGGGGTGTAAAATGCCCGCCGGCTGCATCGAGACTCTGTCCGCTTCCCTGTCGCGCCAGCTAACGGTTGATTTTGACTATGTCTGGTTCGTCCCTTCCGGGGCGGTGAAAGACGATCTTCGCCGTGGCGTACTGACCGCCCTGCCGATTGCCACCCAGGGCGCCGGGGAGCCCATCGGCATTTTAACCCGCGTCGATGCGACGCTGACCCCCGGGACGCACACCCTGCTCAGCGCTATTCGTAAATCAATGCCTGCCTGA	MEKNGLFSQRIRLRHLHTFVAVAQQGTLGRAAETLNLSQPALSKTLNELEQLTGTRLFERGRLGAQLTLVGEQFLTHAVKVLDALNSAGQALNRKEGLNNDIVRIGALPTAALGILPTVIGQFHKQQKDITLQVATMNNTMLLAGLKSGEIDIGIGRMSDPELMSGLHYELLFLESLKLVVRPGHPLLQETVTLSRVMEWPVVVSPKGTVPRQNAEALLQSQGCKMPAGCIETLSASLSRQLTVDFDYVWFVPSGAVKDDLRRGVLTALPIATQGAGEPIGILTRVDATLTPGTHTLLSAIRKSMPA				NA	NA	NA	NA	NA
BMS020_00572	2373	quiA_1	COG4993	Quinate/shikimate dehydrogenase (quinone)	ATGAAAACTGGCAACGCGCCGCGCGGATTCCCCCGGATCCTGCAGTGGCTTCTCGCCGGACTGATGCTGATCATCGGTCTGGCTATCGGTATTCTGGGTGCAAAACTGGCTCTCGTCGGCGGCACGCTGTACTTTGCGCTGATGGGCGTGGTGATGGTTATCGCGGCAGTGCTAATTTTCCGTCGCCGCCGCGGCGGGATTCTGCTGTACGCCGTGGCGTTTATCGCCTCAGTGATCTGGGCGATCGGCGACGCTGGCTGGAACTTCTGGCCGCTCTTCTCGCGCCTGTTCGCCCTTGCCGTGCTGGCCTTTCTCGCCGCCCTGGTGTGGCCTTTCCTCGCCAGCCCGCCGGCGAAAAAAGGCCCGGCTTTTGCCATCGCCGCCGTGCTCGCCGTGGCGCTGGCGGGAAGCTTTGGCTGGATGTTTAAATCCGAACCGCTGGTCAGCGCCACGGAAGCGGTACCGGTGAAACCCGTCGCACCGGGCGAAGAGCAGAAAAACTGGGCGCACTGGGGCAACACCACCCACGGCGACCGCTTCGCCGCTCTCGATCAAATCAACAAGCACAACGTCAACCAGCTGCAGGTAGCCTGGGTGGCGCATACTGGGGATATTCCGCAGAGCAATGGCTCCGGCGCGGAAGATCAGAATACCCCGCTGCAGATTGGCGATACCCTATACGTCTGTACCCCATACAGCAAAGTGCTGGCGCTGGATGTCGACAGCGGCAAAGAGAAATGGCGCTATGACTCCAAATCCTCTTCGCCTAACTGGCAGCGCTGCCGCGGCTTAGGCTATTACGAAGATAGCCAGGCGCAGACGACGCCAGCGTCAGGCGCCCAGCCTGCCGCCTGCTCCCGTCGTCTGTTCCTGCCGACGATCGATGCCCGCCTGATCGCCATTGATGCCGACACCGGCAAACTGTGCGAGAGCTTCGGCGATCGCGGTATTGTCGACCTCAGCGTCGGAATGGGCGAAGTCAAAGCGGGCTACTATCAACAGACCTCCACCCCGCTGGTCGCGGGCAATGTGGTGGTGGTGGGCGGCCGCGTCGCGGATAACTACTCTACCGGCGAACCGCCGGGGGTGGTCCGCGCGTTTGACGTCCATACCGGTAAACTGGCTTGGGCGTGGGATCCGGGTAATCCGGCGCTGACCGGCGTACCGCCGGAGGGCCAGACCTATACGCGCGGCACGCCGAACGTCTGGTCGGCGATGTCTTACGACGCGAAGCTGAACCTGATCTATCTGCCGACCGGCAACGCTACGCCAGACTTCTTCGGCGGCGAACGAACCGCGCTGGACGACAAATACAGCTCCTCTATCGTCGCTGTGGATGCCGCGACCGGCCAGGTACGCTGGCACTTCCAGACCACCCACCACGACCTGTGGGACTTTGACCTGCCGTCTCAGCCGCTGCTGTACGATCTGCCTGACGGCAAGGGCGGCACCACCCCGGTGCTGGTGCAGACCAGCAAGCAGGGCATGATCTTTATGCTCAATCGCGAAACCGGCGAGCCGGTGGCGAAAGTGGAAGAGCGACCGGTGCCGGTGGGCAACGTCAAAGGCGAGCGCTACTCGCCGACGCAGCCTTACTCGGTGGGAATGCCGATGATCGGCAACCAGACGCTGACCGAGTCCGATATGTGGGGCGCGACGCCGATCGACCTGCTGCTGTGCCGTATCCAGTTCAAAGAGATGCGCCACCAGGGGGTCTTTACCCCGCCGGGGGAAGACCGCTCCCTGCAGTTCCCGGGCTCGCTCGGCGGCATGAACTGGGGCAGCGTCTCGGTGGATCCCAACAACAGCCTGATGTTCGTTAACGATATGCGTCTCGGTCTCGCCAACTATATGGTGCCGCGCGAGAAGGTAGCGAAAGACGCCAGCGGCATTGAGATGGGCATCGTGCCGATGGAAGGCACGCCGTTTGGCGCCATGCGCGAACGTTTCCTGTCGCCGCTGGGCATTCCGTGCCAGAAACCGCCTTTCGGCACCATGTCCGCTGTGGATCTGAAAACCGGGAAACTGGTGTGGCAGGTGCCGGTAGGCACCGTAGAGGATACCGGGCCGCTGGGGATCCGCATGCATATGCCGATTCCGATCGGTATGCCGACCCTTGGCGCGTCGCTGGCGACGCAGTCCGGGCTGCTGTTCTTCGCCGGCACCCAGGATTTCTACCTGCGCGCCTTTGATACCGCTGACGGCAAGGAGATCTGGAAATCCCGTCTGCCGGTTGGCAGTCAGTCCGGCCCGATGACCTACGTGTCGCCGAAAACCGGTAAGCAATACATCATTATCAATGCGGGCGGCGCCCGTCAGTCTCCGGATCGCGGGGATTACATTATTGCCTACGCGCTTCCTGACCATCACTGA	MKTGNAPRGFPRILQWLLAGLMLIIGLAIGILGAKLALVGGTLYFALMGVVMVIAAVLIFRRRRGGILLYAVAFIASVIWAIGDAGWNFWPLFSRLFALAVLAFLAALVWPFLASPPAKKGPAFAIAAVLAVALAGSFGWMFKSEPLVSATEAVPVKPVAPGEEQKNWAHWGNTTHGDRFAALDQINKHNVNQLQVAWVAHTGDIPQSNGSGAEDQNTPLQIGDTLYVCTPYSKVLALDVDSGKEKWRYDSKSSSPNWQRCRGLGYYEDSQAQTTPASGAQPAACSRRLFLPTIDARLIAIDADTGKLCESFGDRGIVDLSVGMGEVKAGYYQQTSTPLVAGNVVVVGGRVADNYSTGEPPGVVRAFDVHTGKLAWAWDPGNPALTGVPPEGQTYTRGTPNVWSAMSYDAKLNLIYLPTGNATPDFFGGERTALDDKYSSSIVAVDAATGQVRWHFQTTHHDLWDFDLPSQPLLYDLPDGKGGTTPVLVQTSKQGMIFMLNRETGEPVAKVEERPVPVGNVKGERYSPTQPYSVGMPMIGNQTLTESDMWGATPIDLLLCRIQFKEMRHQGVFTPPGEDRSLQFPGSLGGMNWGSVSVDPNNSLMFVNDMRLGLANYMVPREKVAKDASGIEMGIVPMEGTPFGAMRERFLSPLGIPCQKPPFGTMSAVDLKTGKLVWQVPVGTVEDTGPLGIRMHMPIPIGMPTLGASLATQSGLLFFAGTQDFYLRAFDTADGKEIWKSRLPVGSQSGPMTYVSPKTGKQYIIINAGGARQSPDRGDYIIAYALPDHH	PGPT0019720_330	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_QUINATE_CATABOLISM,PGPT0019720-quiB-K05358	NA	NA
BMS020_00573	1119	frmA_1	COG1062	S-(hydroxymethyl)glutathione dehydrogenase	ATGAAATCACGCGCAGCAGTGGCCTTTGGCCCCGGTCAGCCGTTAAAAATCGTAGAGATTGACGTCGCGCCGCCGAAAAAAGGCGAAGTTCTGGTGAAAATCACCCATACCGGCGTGTGCCATACCGATGCCTTCACCCTTTCCGGCGACGATCCCGAAGGCGTCTTCCCTGCGGTGCTGGGCCATGAAGGCGGCGGCGTGGTCGTGGAAGTGGGCGAGGGCGTCACCAGTCTTAAGCCGGGCGATCATGTCATCCCGCTGTATACCGCCGAATGCGGCGAGTGCAAGTTCTGTAAGTCGGGTAAAACCAATCTCTGTCAGGCGGTGCGCGCCACCCAGGGCAAAGGGCTGATGCCGGACGGCACCACCCGTTTCTCGTATAACGGCGAACCGATTTATCACTACATGGGCACCAGCACCTTCAGCGAATACACGGTCTGCGCTGAGATCTCGCTGGCGAAAGTCAATCCGCAGGCGCCGCTGGATAAAGTGTGTCTGCTGGGCTGCGGCGTGACCACCGGCATCGGCGCGGTGCACAACACGGCGAAGGTTAAGCCCGGGGATACCGTCGCGGTCTTTGGCCTGGGCGGCATCGGCCTGGCGGTGATCCAGGGCGCCGTGCAGGCGCAAGCCGGGCGCATTCTGGCGGTCGATACTAACCCGGATAAGTTCACTCTCGCGAAAGAGATGGGGGCTACCGACTTTATCAACCCCAACGACTACGATAAGCCCATTCAGGATGTGATCGTTGAGCTGACCGACGGCGGGGTGGATTTCAGCTTCGAGTGCATCGGTAATGTCAATGTGATGCGCGCGGCGCTGGAATGCTGCCATAAAGGCTGGGGCGAGAGCGTCATTATCGGCGTGGCCGGCGCCGGGCAGGAGATCAAGACCCGTCCGTTCCAGCTGGTGACTGGCCGGGTGTGGCGCGGCTCCGCCTTTGGCGGCGTGAAAGGCCGTAGCCAGCTGCCGGGAATGGTGGAAGACGCGATGGCGGGTAAAATTCGCCTCGACCCGTTTATTACTCATCGCCTGCCGCTGGCGCAAATTAACGAGGCCTTTGACCTGATGCATGAAGGCAAATCGATTCGCACCGTGATCCACTTTGGCGACCAGTAA	MKSRAAVAFGPGQPLKIVEIDVAPPKKGEVLVKITHTGVCHTDAFTLSGDDPEGVFPAVLGHEGGGVVVEVGEGVTSLKPGDHVIPLYTAECGECKFCKSGKTNLCQAVRATQGKGLMPDGTTRFSYNGEPIYHYMGTSTFSEYTVCAEISLAKVNPQAPLDKVCLLGCGVTTGIGAVHNTAKVKPGDTVAVFGLGGIGLAVIQGAVQAQAGRILAVDTNPDKFTLAKEMGATDFINPNDYDKPIQDVIVELTDGGVDFSFECIGNVNVMRAALECCHKGWGESVIIGVAGAGQEIKTRPFQLVTGRVWRGSAFGGVKGRSQLPGMVEDAMAGKIRLDPFITHRLPLAQINEAFDLMHEGKSIRTVIHFGDQ	PGPT0006355_2226	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
BMS020_00574	276	frmR_1	COG1937	Transcriptional repressor FrmR	GTGCCACATTCACCTGAAGATAAAAAACGGGCCCTCAGCCGCGTACGCCGCATCCGCGGCCAGGTTGAAGCCCTTGAACGGGCGCTGGAGTCAGGCGAACCCTGTATGACTATCCTGCAGCAGATCGCCTCGATTCGCGGGGCGGCAAACGGTCTGATGGGCGAAATGGTGGAGATCCACCTGCAGGACGAGCTGGTCAGCGGCGACACCACCCCGGACCAGCGGGCCGCGAGAATGGCAGAGGTCGGTCATCTGCTACGATCTTATTTAAAATAA	MPHSPEDKKRALSRVRRIRGQVEALERALESGEPCMTILQQIASIRGAANGLMGEMVEIHLQDELVSGDTTPDQRAARMAEVGHLLRSYLK				NA	NA	NA	NA	NA
BMS020_00575	528	cybB	COG3038	Cytochrome b561	ATGCGCGATAAATATTCCGGCCTGCAGATTGGCATCCACTGGCTGGTCTTCTTGCTGGTGGTGGTGGCCTATGCGGCGATGGAGCTGCGCGGATTTTTCCCCCGCAGCGATCGGCCGCTGATTAATATGATTCATGTTTCCTGCGGGATCGCCATTTGCGTGCTGATGGCGGCGCGTCTGCTGGTGCGGCTGAAAACGCCGACGCCGCCGATCGTGCCGAAGCCGTCGCCAATGATGACCGGTTTCGCCCATCTCGGCCATCTGGTTATTTATCTGCTGTTTATTGCCCTGCCGCTGATCGGCATGGTGATGATGTACTGGCGCGGGAATCCCTGGTACGCCTTTGGCCTGACGATGCCGTATGCCCCGCAGAGCGATTTTGAGCGGGTGGACACCCTGAAAGCGATCCATGAATGGTTAGCGAATGCCGGTTACTTCGTGATTGGCCTGCATGCCTTTGCCGCGCTGCTCCATCATTACTGGTGGAAAGATAATACCCTGCTGCGAATGATGCCCCGTAAGCGCTGA	MRDKYSGLQIGIHWLVFLLVVVAYAAMELRGFFPRSDRPLINMIHVSCGIAICVLMAARLLVRLKTPTPPIVPKPSPMMTGFAHLGHLVIYLLFIALPLIGMVMMYWRGNPWYAFGLTMPYAPQSDFERVDTLKAIHEWLANAGYFVIGLHAFAALLHHYWWKDNTLLRMMPRKR	PGPT0013195_437	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0013195-cybB-K12262	NA	NA
BMS020_00576	369			hypothetical protein	ATGAAGAAAATCAGCTTACCGCTATTGCTGCTGACCGCGTTGGCCAGCCCGACTTTCGCCGCGGACTGTCAGCCTAACGGCATCGGCGGCTCATTTTGCATTAACGATGACGGGACCACCACCGACACGGTGCCGAATGAAGTCAACGGTATGGATACGTATTCGAACAATGGCGGGTATAGCAGTTCTCTGCCCGACCAGTCGGGGGCAGAGGAAGCGCTTGAAGGGTCAACGCTGTCGACGCAGCAGGACAGCGTCGCCAGCAGCGGTCAGGGAGACAGCGCCCTGGCGGGCCGCGACTGGCATTCGCCGTCCAATCTGAATGATGGCGCCGCCACCTCCAGTATGAGCCTGCTGGATAAACCCTGA	MKKISLPLLLLTALASPTFAADCQPNGIGGSFCINDDGTTTDTVPNEVNGMDTYSNNGGYSSSLPDQSGAEEALEGSTLSTQQDSVASSGQGDSALAGRDWHSPSNLNDGAATSSMSLLDKP				NA	NA	NA	NA	NA
BMS020_00577	186			hypothetical protein	GTGGAAAGCGTAATCCATAATAATATTGAGGGTTTTCTGCTGTTGTTATTAAGCATGTGGCCCATTCTGTTGGTGGTATTCGTTGGCGTCGCCATCTCCTTCTATACCATGCTGTTACGCAAAACGGCGCTGGCCTGCCTGCTGTTCGCCGTCGCCATCGGCGCCGCAGGCTGGAGCTTTGCCTGA	MESVIHNNIEGFLLLLLSMWPILLVVFVGVAISFYTMLLRKTALACLLFAVAIGAAGWSFA				NA	NA	NA	NA	NA
BMS020_00578	1002	add_1	COG1816	Adenosine deaminase	ATGATTGATTCCTCATTGCCATTAACCGACATTCACCGCCACCTTGACGGTAACATCCGGGCCCAAACCATCCTCGATCTTGGCCGCGAGTTTAACATCACCCTTCCCGCTACCACCCTTGACACGCTGCGTCCCCACGTCCAGGTCACCAGCCTGGAGCCCGATCTGGTCAGTTTTCTCGCCAAGCTCGACTGGGGGGTGAAAGTCCTGGCCTCGCTGGAAGCCTGCCGTCGCGTGGCGTATGAGAACGTCGAAGACGCGGCGCGCAATGGCCTGCACTACGTGGAGCTGCGCTTCTCCCCCCGCTATATGGCGATGACCCACCAGCTGCCGGTCGACGGCGTGGTAGAGGCAGTGATCGCCGGGGTACGTGAGGGGTGCCGCGATTTCCAGGTCGATGCCCGCCTGATCGGCATTTTGAGCCGCACCTTTGGCGAAGCGGCCTGTCAGGAAGAGCTGGCGGCCCTGCTCGCCCACCGCGATGGCATCACCGCCCTCGACCTCGCTGGCGATGAGCTGGGATTCCCGGGGGCGCTGTTCCTCAGTCATTTTAACCAGGCCCGCGATGCCGGGTGGCATATCACCGTCCACGCTGGCGAAGCGGCCGGCCCGGAAAGTATCTGGCAGGCCATCCGTGAACTGGGCGCCGAGCGCATCGGCCATGGGGTAAAAGCGGTACAGGATCCCGCCCTGATGGACTATCTGGCCGAGCACCGCATCGGGATTGAATCCTGCCTCACCTCGAACGTGCAAACCAGCACCGTGCCCTCTCTGGCCCAGCATCCGCTGAAGCAGTTCCTTGAGCACGGCGTGCTGGCGAGCCTCAACACTGACGATCCGGCGGTCCAGGGGGTCGACATTATCCACGAATACACCGTGGCGGCACCGGCGGCGGGCCTGAGCCGGGAGCAGATCCGCCAGGCACAGATCAACGGTTTGACTCAGGCGTTTCTCAGCGAACAGGAAAAAGCCGCGCTCATTCAGCGGGTGGCCAAAGGCTGA	MIDSSLPLTDIHRHLDGNIRAQTILDLGREFNITLPATTLDTLRPHVQVTSLEPDLVSFLAKLDWGVKVLASLEACRRVAYENVEDAARNGLHYVELRFSPRYMAMTHQLPVDGVVEAVIAGVREGCRDFQVDARLIGILSRTFGEAACQEELAALLAHRDGITALDLAGDELGFPGALFLSHFNQARDAGWHITVHAGEAAGPESIWQAIRELGAERIGHGVKAVQDPALMDYLAEHRIGIESCLTSNVQTSTVPSLAQHPLKQFLEHGVLASLNTDDPAVQGVDIIHEYTVAAPAAGLSREQIRQAQINGLTQAFLSEQEKAALIQRVAKG	PGPT0021520_2293	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021520-add-K01488	NA	NA
BMS020_00579	1041	ydgJ_2	COG0673	putative oxidoreductase YdgJ	ATGAGTGATGCGATCCGGGTGGGGCTGGTGGGCTATGGCTACGCCAGCAAAACGTTTCATGCGCCGTTAATCAGCGGCACGTCGGGCCTGGCGCTGACGATGGTCTCCAGCAGCGACGCGGCCAAAGTTCATGCCGACTGGCCTGGCGTGAAGGTGGTCAGTGCGGCGAGTGAATTGCTGAACGACCCGGAGATCGATCTGGTGGTCATCGCCACGCCGAACGACACGCACTTCCCACTGGCGAAAGCGGCGCTGGAGGCCGGGAAGCACGTGGTGGTGGATAAACCCTTTACCGTGACACTGTCACAGGCTCGCGAGCTGGAGAGCCTGGCGAAGCACTGTGGTCGGGTGCTGTCGGTATTTCACAACCGGCGTTGGGACAGTGATTTTTTAACGGTCAGAACGTTGATCAACGAAGGCCAGCTGGGAGAGGTGGGTTACTTCGAATCACATTTCGACCGTTTCCGGCCGCAGGTGCGCCAGCGCTGGCGGGAGCAGGCGGGCCCCGGGAGCGGAATTTGGTATGATCTTGGACCGCATCTGCTCGACCAGGCGGTGGCGCTGTTTGGTCTGCCGGTGAGCATCACGGTCGATCTCGCTCAGCTTCGGCCCGGCGCGCAATCCACTGACTATTTTCACGCGGTGCTGGCCTATCCCCAGCGGCGGGTGGTGCTGCACGGCACATTGCTCGCCGCCGCGGAGAGCGCGCGCTTTATCGTCCACGGCTCGCGGGCCAGCTATATCAAGTACGGTCTCGACCCGCAGGAGGAGCGGTTGAAAAATGGCGAACGTTTGCCGCAGGAGGACTGGGGGTATGATATGCGTGACGGTACCCTCACTCGCGCCGAAGGCGACGAACGCAGCGAGGAGACGTGGCTGACGCTGCCGGGCAATTATCCCGCTTACTATGCCGCTATCCGCGATGCGCTCAACGGGGTGGGAGAAAACCCGGTCCCGGCCAGCGAGGCGATTCAGATCATGACCCTGATTGAGCTCGGTATCGAGTCGGCCCGGCACCGCGCCACGCTCAGCCTGGTGTGA	MSDAIRVGLVGYGYASKTFHAPLISGTSGLALTMVSSSDAAKVHADWPGVKVVSAASELLNDPEIDLVVIATPNDTHFPLAKAALEAGKHVVVDKPFTVTLSQARELESLAKHCGRVLSVFHNRRWDSDFLTVRTLINEGQLGEVGYFESHFDRFRPQVRQRWREQAGPGSGIWYDLGPHLLDQAVALFGLPVSITVDLAQLRPGAQSTDYFHAVLAYPQRRVVLHGTLLAAAESARFIVHGSRASYIKYGLDPQEERLKNGERLPQEDWGYDMRDGTLTRAEGDERSEETWLTLPGNYPAYYAAIRDALNGVGENPVPASEAIQIMTLIELGIESARHRATLSLV	PGPT0018530_571	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
BMS020_00580	1371	bglC	COG2723	Aryl-phospho-beta-D-glucosidase BglC	ATGGCCGCTTTTCCGCAACATTTTTTATGGGGTGCCGCTACCGCAGCGTATCAGGTCGAAGGTGGGCACGACGCTGACGGTAAAGGACCGTCAATCTGGGATATTTACTCTCACCTGCCGGGAACCACCTTTGAAGGGACCACCGGCGATATCGCCGTCGATCACTATCACCGTTTTCGCGAAGACGTGGCGTTGATGGCCGAGATGGGTCTGCAGAGCTATCGCTTTTCCATCTCCTGGCCCCGCCTGCTGCCCTCCGGGCGCGGCGAGGTTAATGAAGCAGGCGTGCAGTTTTATAGCGATCTGATCGATGAACTGCTGGCGCATAATATTGAGCCGATGATCACCCTCTATCACTGGGACCTGCCGCAGGCCCTGCAGGATGAGGGCGGCTGGGAAGCACGCAGCACCGCCGAGGCCTTCGCCGAGTACGCCCGCCTGTGCTACGCGCGCTTTGGTTCGCGGGTGAAGCTGTGGGCGACCTTTAACGAGACCATTGTCTTCATCGGCCACGGCTACATTAACGGCCTGCATCCCCCGGCCGTTCGCGATCCGGCGCGCGCCATCCAGGCCTGTCATCACGTATTTATCGCCCATGCGCTGGCGGTGAAGGCTTTTCGCGAGATGGCCGTGGCGGGCGAGATTGGTTTCGTCAATGTGCTGCAGCCGCATACCCCACTCACCGACAGCGAGGCAGACCGGCAGGCTACCGACCTGGCTGACGCCATCCATACCCACTGGCTGTACGATCCGGTGCTAAAAGGCGCCTATCCTGCTGCCCTGCTGGCGCAGACTCAAGCGCTGTGGGGCGTACCGCGCTTTGCTCCAGGGGACGACGCGCTGCTGCGAGACAACCGCTGTGACTTTATCGGTCTGAATTACTATCGTCGGGAAACGGTATCCGCCCAGCCGCCCGAAATCCCCACCGGCGGCGAGCCTGGCGTGGAGGGGTTATTCTATTTCGTGCGTAATCCGCAAAGCACCTATACCGAATGGGGCTGGGAGATCTGGCCGCAGGGGCTGACCGACGGCATTATGATGATCAAGGCGCGCTATGGCGATATCCCGATCTATATCACCGAGAATGGCCTTGGGGCGAAAGACCCGATTATTGCCGGTGAGGTGGTCGACGATCCGCGAATCGACTATCTGAGCAGCCATATTGGCGCCCTGGAAAAGGCGCTGGCGCAGGGAGCGGACGTCCGCGGCTATTATCCCTGGTCGTTTATCGATTTGCTGAGCTGGCTCAACGGTTATCAAAAGCAATATGGCTTTGTCTATGTGGACCACCAGCAAAATCTGGCACGCAAACGAAAGAAGAGTTTTTATTGGTACAAATCTGTTATTGCCAGCCGCGGCGAACAGCGTTAA	MAAFPQHFLWGAATAAYQVEGGHDADGKGPSIWDIYSHLPGTTFEGTTGDIAVDHYHRFREDVALMAEMGLQSYRFSISWPRLLPSGRGEVNEAGVQFYSDLIDELLAHNIEPMITLYHWDLPQALQDEGGWEARSTAEAFAEYARLCYARFGSRVKLWATFNETIVFIGHGYINGLHPPAVRDPARAIQACHHVFIAHALAVKAFREMAVAGEIGFVNVLQPHTPLTDSEADRQATDLADAIHTHWLYDPVLKGAYPAALLAQTQALWGVPRFAPGDDALLRDNRCDFIGLNYYRRETVSAQPPEIPTGGEPGVEGLFYFVRNPQSTYTEWGWEIWPQGLTDGIMMIKARYGDIPIYITENGLGAKDPIIAGEVVDDPRIDYLSSHIGALEKALAQGADVRGYYPWSFIDLLSWLNGYQKQYGFVYVDHQQNLARKRKKSFYWYKSVIASRGEQR	PGPT0019255_4296	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0019255-bglA-K01223	NA	NA
BMS020_00581	216	ydgT		Transcription modulator YdgT	ATGACCGTTCTGGACTATTTATTAAAATTCCGCAAAATCAGTTCGCTGGAAAGTCTTGAAAAACTATTTGATCACCTTAACTACTCCCTGACTGACACCGAAGAGATCGTTAATATGTATCGCGCCGCCGACCATCGCCGGGCAGAGCTGGTTTCCGGTGGTAAATTGTTCGATGTGGGCCAGGTGCCTAAATCCGTTTGGCGATTCGTGCAGTAA	MTVLDYLLKFRKISSLESLEKLFDHLNYSLTDTEEIVNMYRAADHRRAELVSGGKLFDVGQVPKSVWRFVQ	PGPT0027510_105	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-Hha-TomB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027510-toxin_hha-K05839	NA	NA
BMS020_00582	441	ydgK		Inner membrane protein YdgK	ATGACGTCTCAATCTGCGGAGCGCATCGGCGGCTGGCTGTTGGCACCGCTGGCCTGGTTGCTGTTGGCGCTGTTGAGCGCCTCGTTATCGCTGCTATTTTTTGCCAATGCCCTCATATCGCCGCAGACCTGGGCCCTGCTGCGCGCCATGAGCACCGGACACATGGCGCTGTGGGTCGCCTCGCTGCTGTTTGCCATCGCCATGTGGTTTTATACGCTCTGGCTGACCATCGCCTTTTTCAAGCGGCGCTCGCTGGTGCCGAAACACTATATTATCTGGCTGCTCATTACGCTGTTGCTGGCGATAAAGGCGTTTGCCTTCTCCCCCGTTTCGGATGCCCTTGCTCTGCGTCAGCTACTGTTTCCGCTGCTGGCCGCCGCGCTGCTGGCGCCCTATTTTCGCCGTTCACAGCGAGTCAAACGGACCTTTGTTAATCCGTAA	MTSQSAERIGGWLLAPLAWLLLALLSASLSLLFFANALISPQTWALLRAMSTGHMALWVASLLFAIAMWFYTLWLTIAFFKRRSLVPKHYIIWLLITLLLAIKAFAFSPVSDALALRQLLFPLLAAALLAPYFRRSQRVKRTFVNP				NA	NA	NA	NA	NA
BMS020_00583	582	rsxA	COG4657	Ion-translocating oxidoreductase complex subunit A	ATGGCTGATTATTTACTGCTCTTTATCGGTACTGTCCTTGTCAATAACTTCGTTTTAGTGAAGTTCCTTGGCCTGTGCCCGTTTATGGGTGTTTCCAAAAAGCTGGAAACCGCAATGGGAATGGGGCTCGCGACCACCTTCGTGATGACCCTGGCCTCTATTTGCGCCTGGCTGATTGATACTTGGATCCTTATCCCGCTAAATCTGGTTTATTTACGTACCCTGGCCTTTATTCTGGTTATCGCCGTGGTGGTTCAGTTCACTGAGATGGTGGTGCGTAAAACCAGCCCGGCGCTTTATCGCCTGCTGGGGATCTTTTTGCCACTGATCACCACCAACTGCGCGGTGCTTGGGGTGGCGCTGCTGAACATCAATCTGGGCCACAATTTCCTGCAGTCGGCGCTGTACGGTTTTGCCGCCGCCGTCGGCTTCTCGCTGGTGATGGTGCTGTTCGCGGCGATCCGCGAGCGTCTGGTGGTGGCCGATGTCCCCGCGCCGTTCCGCGGTAATGCCATCGCGCTGATTACCGCCGGTTTAATGTCTCTGGCCTTTATGGGCTTTAGTGGTTTGGTGAAGTTGTAA	MADYLLLFIGTVLVNNFVLVKFLGLCPFMGVSKKLETAMGMGLATTFVMTLASICAWLIDTWILIPLNLVYLRTLAFILVIAVVVQFTEMVVRKTSPALYRLLGIFLPLITTNCAVLGVALLNINLGHNFLQSALYGFAAAVGFSLVMVLFAAIRERLVVADVPAPFRGNAIALITAGLMSLAFMGFSGLVKL	PGPT0013260_198	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013260-rnfA|rsxA-K03617	NA	NA
BMS020_00584	579	rsxB_1	COG2878	Ion-translocating oxidoreductase complex subunit B	ATGAGCGCAGTCTGGATAGCCGTGATCGCCATCAGCCTGTTAGGGCTGATTTTCGGCTTAATACTGGGGTACGCGTCGCGCCGTTTCGCGGTGCAGGACGACCCGGTGGTGGAAAAAATTGATGAACTGTTGCCGCAGAGCCAGTGTGGGCAGTGCGGCTACCCTGGCTGCCGCCCCTATGCGGAAGCGGTGGGCGTGCAGGGTGAGAAAATTAACCGCTGCGCGCCGGGTGGCGAAGCGGTGATGTTAAAAATCGCCGCCCTGCTCAACGTCGACCCGCAGCCCGTCGACGGCGACGAGCAGGCAGCCGAGCCGGCCCGCATGCTCGCCGTGATTGACGAGCCGAACTGCATCGGCTGCACCAAATGTATTCAGGCGTGTCCGGTGGATGCCATTGTCGGGGCGACCCGCGCCATGCATACCGTGATGAGCGACCTGTGCACCGGCTGCAACCTGTGTGTTGCCCCCTGCCCGACCCAGTGCATTTCTCTCGTTCCGGTGGCGACGACCCCGGAGACCTGGAAATGGGATCTGCATACGATCCCGGTGCGAAATATTCCTGTGGAACAACATGTTTAA	MSAVWIAVIAISLLGLIFGLILGYASRRFAVQDDPVVEKIDELLPQSQCGQCGYPGCRPYAEAVGVQGEKINRCAPGGEAVMLKIAALLNVDPQPVDGDEQAAEPARMLAVIDEPNCIGCTKCIQACPVDAIVGATRAMHTVMSDLCTGCNLCVAPCPTQCISLVPVATTPETWKWDLHTIPVRNIPVEQHV	PGPT0013265_1372	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013265-rnfB|rsxB-K03616	NA	NA
BMS020_00585	2355	rsxC_1	COG4656	Ion-translocating oxidoreductase complex subunit C	ATGTTTAAGCTATTTTCCGCTTTCCGAAAAGATAAAGTCTGGGATTTTAACGGCGGTATTCACCCGCCGGAGATGAAAACCCAGTCTAACGGCACCCCGCTGCGCCAGGTTTCCCTGCCGCAGCGCTTTGTGATCCCGCTGAAGCAGCACATCGGCGCCGAAGGCGAACTGTGCGTCAAGGTCGGCGACCGGGTGCTGCGCGGCCAGCCGCTGACCCGCGGTTGGGGAAGAATGCTGCCGGTTCACGCTCCCACCTCCGGCACCGTGGCCGCTATCGCCCCGCACACCACTGCCCATCCGTCCGCGCTGGCGGAGATGAGCGTGATCATTGACGCCGACGGCGAAGACCGCTGGATCGAACGCGACGGCTGGAGCGACTATCAGACCCGCACCCGTGAAGCGCTGATTGAGCGCATCCACCAGTTTGGCGTTGCCGGCCTCGGCGGCGCGGGCTTCCCCACCGGCAGTAAACTGCGCGGCGGCGGCGATAAAATTAAAACGCTGATCATTAACGCCGCCGAGTGCGAACCCTATATCACGGCGGACGACCGTCTGATGCAGGACTGCGCGGCGCAGATTGTCGAAGGGATCCGCATCCTTGCCCATATTCTGCAGCCTGACGAGGTGCTGATCGGCATTGAAGACAATAAGCCGCAGGCCATCTCGATGCTGCGGGCGGTGCTTTGCGACGCCCATGGCATTTCGCTGCGCGTGATCCCCACCAAATACCCCTCCGGCGGCGCCAAGCAGCTCACCCAAATTCTCACCGGCAAACAGGTACCCCACGGTGGTCGCTCTTCGGACATTGGCGTGCTGATGCAGAACGTCGGTACAGCCTATGCGGTGAAACGCGCAGTGATTGACGGCGAGCCGTTAACCGAGCGCGTAGTCACCCTCACCGGCGAGGCGGTAACCCGGCCGGGCAACGTCTGGGCGCGCCTTGGCACGCCGGTGCGCCATCTGCTGAATGACGCCGGCTTCTGCGCCAGCGCCGAGCCGATGGTGATCATGGGCGGGCCGCTGATGGGCTTTACCCTGCCGGGGCTCGACGTCCCGGTGGTGAAGATCACCAACTGTCTGTTAGCGCCCTCCGCCAGCGAGATGGGCGAGCCGCAGGAAGAGAAAGGCTGCATTCGCTGCAGCGCCTGCGCCGACGCCTGCCCGGCCGATCTGCTGCCGCAGCAGCTTTACTGGTTCAGCAAAGGCCAGCAGCACGATAAAGCCACCGCCCACAATCTGGCGGACTGCATCGAATGCGGCGCGTGCGCGTGGGTATGCCCAAGCAATATTCCGCTGGTGCAGTACTTCCGTCAGGAGAAAGCCGAGATCGCGGCGATTCGTCAGGAAGAGCAGCGCGCTGCGGAAGCCAAAGCGCGATTCGAGGCCCGACAGGCGCGCCTGGAGCGTGAGAAAGCGGCCCGCGCCGAGCGGCATAAAAAAGCCGCCGTCCAGCCTGCCGCCAAAGATCAGGATGCGATTAACGCCGCCCTGGCCCGGGTACGTGATAAACAGCGCGACGCCGCGCAGCCTATCGTGATTCAGGCCGGCGCCAGACCGGACAACAGCGAGGCGATCGCCGCCCGCGAAGCGCGGAAGGCCGAAGCCCGGGCGCGTAAAGCGCAGCAGCAGGCCGCGCCGGCGGAAACTCCGTCGACCGACGCTGCCGATCCACGCAAAGCGGCCGTGGAAGCTGCTATCGCCCGCGCCAAAGCGCGCAAAGCCGAACAGCAGGCCGCGCCGGCGGAAGCCCCGGCGGCCGACGCTGCCGATCCACGCAAAGCGGCCGTGGAAGCCGCTATCGCCCGCGCCAAAGCGCGCAAAGCCGAACAGCAGGCCGCGGCGGCGGAAGCCCCGGCGGCCGACCCGCGTAAAGCCGCGGTGGAAGCCGCCATCGCCCGCGCCAAAGCGCGCAAAGCCGAACAGCAGGCCGCGCCGGCGGAAGCCCCGGCGGCCGAGCCGGCCAATCCGCGTAAAGCCGCGGTGGAAGCCGCCATCGCCCGCGCTAAAGCGCGCAAAGCCGAACAGCAGGCCGCGCCGGCGGAAGCCCCGGCGGCCGACGCTGCCGATCCACGCAAAGCGGCCGTGGAAGCCGCTATCGCCCGCGCCAAAGCGCGCAAAGCCGAACAGCAGGCCGCGCCGGCGGAAGCCCCGGCGGCCGAGCCGGCCGACCCGCGTAAAGCCGCGGTGGAAGCCGCCATCGCCCGCGCCAAAGCGCGCAAAGCCGAACAGCAGGCCGCCCAGGCGGAAATCGCGTCAACCGCAGCCAATGACGACCCACGCAAAGCGGCCGTCGCCGCGGCGATCGCCCGCGTTCAGGCGCGCAAAGCAACACAGCAGGCAGTTAACGAGGAATAA	MFKLFSAFRKDKVWDFNGGIHPPEMKTQSNGTPLRQVSLPQRFVIPLKQHIGAEGELCVKVGDRVLRGQPLTRGWGRMLPVHAPTSGTVAAIAPHTTAHPSALAEMSVIIDADGEDRWIERDGWSDYQTRTREALIERIHQFGVAGLGGAGFPTGSKLRGGGDKIKTLIINAAECEPYITADDRLMQDCAAQIVEGIRILAHILQPDEVLIGIEDNKPQAISMLRAVLCDAHGISLRVIPTKYPSGGAKQLTQILTGKQVPHGGRSSDIGVLMQNVGTAYAVKRAVIDGEPLTERVVTLTGEAVTRPGNVWARLGTPVRHLLNDAGFCASAEPMVIMGGPLMGFTLPGLDVPVVKITNCLLAPSASEMGEPQEEKGCIRCSACADACPADLLPQQLYWFSKGQQHDKATAHNLADCIECGACAWVCPSNIPLVQYFRQEKAEIAAIRQEEQRAAEAKARFEARQARLEREKAARAERHKKAAVQPAAKDQDAINAALARVRDKQRDAAQPIVIQAGARPDNSEAIAAREARKAEARARKAQQQAAPAETPSTDAADPRKAAVEAAIARAKARKAEQQAAPAEAPAADAADPRKAAVEAAIARAKARKAEQQAAAAEAPAADPRKAAVEAAIARAKARKAEQQAAPAEAPAAEPANPRKAAVEAAIARAKARKAEQQAAPAEAPAADAADPRKAAVEAAIARAKARKAEQQAAPAEAPAAEPADPRKAAVEAAIARAKARKAEQQAAQAEIASTAANDDPRKAAVAAAIARVQARKATQQAVNEE	PGPT0013270_375	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013270-rnfC|rsxC-K03615	NA	NA
BMS020_00586	1053	rsxD	COG4658	Ion-translocating oxidoreductase complex subunit D	ATGGTTTTCAGAATCGCAAGCTCCCCCTATACCCATAACCAGCGGCAGACCTCGCGCATTATGCTGCTGGTGCTGCTCGCCGCCGTGCCTGGCATTGTGGTCCAGACATGGTTTTTCGGCTGGGGCACCGTCCTGCAGATTGTCCTCGCCGCTCTGACGGCCTGGGCAATGGAAGCCGCTATTCTCAAACTGCGCAAACAGCCTGTTGCGTCCACCCTGAGGGATAACTCCGCCCTGCTCACTGGCCTGCTGCTGGCGGTGAGTATTCCGCCGCTGGCCCCCTGGTGGATGGTGGTGCTCGGCACCGCCTCTGCCATAGTGATCGCCAAGCAGTTGTACGGTGGACTCGGCCATAACCCCTTCAACCCGGCGATGATCGGCTACGTCGTGCTGCTGATTTCGTTCCCGGTGCAGATGACCTCCTGGCTGCCTTCATACGAGATTGCCGCCCATATCCCGGCGTTCAGCGATACGCTGCAGATGATCTTTACCGGTCATACCGCCGCCGGAGGCGACATGGCCAGCCTGCGGCTGGGTATCGACGGCATCAGCCAGGCAACCCCGCTGGATACCTTCAAAACCTCCCTGCATGCCGGACATAGCGTCCAGCAGGTACTGCAGTTGCCGGTTTACGGCGGCGTTCTGGCGGGCCTGGGCTGGCAGTGGGTGAATATCGCCTGGCTGGCGGGCGGACTTTTTCTGCTGTGGCAGAAAGCGATCCGCTGGCATATCCCGGTCAGCTTCCTCGTCAGCCTTGGCCTGTGCGCGACCCTCGGCTGGATCTTCTCGCCGCAGAGTCTGGCCTCGCCGCAGATGCATTTGCTCTCCGGAGCCACCATGCTTGGCGCCTTCTTTATTCTGACCGACCCGGTGACGGCTTCGACAACCAACCGCGGCCGTCTGATCTTTGGCGCCCTCGCCGGCCTGTTGGTGTGGCTTATTCGTAGCTTCGGCGGTTACCCGGACGGCGTGGCGTTTGCCGTTCTGCTGGCGAATATTACCGTGCCGCTGATCGATTACTACACCCGTCCGCGCGCGTATGGCCACCGTTGA	MVFRIASSPYTHNQRQTSRIMLLVLLAAVPGIVVQTWFFGWGTVLQIVLAALTAWAMEAAILKLRKQPVASTLRDNSALLTGLLLAVSIPPLAPWWMVVLGTASAIVIAKQLYGGLGHNPFNPAMIGYVVLLISFPVQMTSWLPSYEIAAHIPAFSDTLQMIFTGHTAAGGDMASLRLGIDGISQATPLDTFKTSLHAGHSVQQVLQLPVYGGVLAGLGWQWVNIAWLAGGLFLLWQKAIRWHIPVSFLVSLGLCATLGWIFSPQSLASPQMHLLSGATMLGAFFILTDPVTASTTNRGRLIFGALAGLLVWLIRSFGGYPDGVAFAVLLANITVPLIDYYTRPRAYGHR	PGPT0013275_503	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013275-rnfD|rsxD-K03614	NA	NA
BMS020_00587	621	rsxG	COG4659	Ion-translocating oxidoreductase complex subunit G	ATGTTAAAAACCATGCGAAAACACGGCGTCACGCTGGCGCTGTTTGCCGCCGGCTCCACCGGGCTAACGGCGGCGATCAATGAGTTAACCAAAAGCACCATCGACCAGCAGGCGGCCCAGCAGCAGAAAGCGTTATTCGACCAGGTTTTACCTGCCGACCGCTATAATAACGATCTGCTCAAGAGCTGCTATCTGGTCAGCGCCCCGGCGCTGGGCAAAGGCCAGCATAAAGTGTGGATAGCCAAAAATAACGACCAGCCGATCGGCGCGGTCATGGAAGCCACCGCGCCGGATGGCTATTCCGGAGCGATCCAGCTGCTGGTGGCCGCCGATTTTAGCGGCACGGTCCTCGGCACCCGCGTGACCGAGCATCATGAAACCCCGGGTCTGGGGGATAAAATCGAGCTGCGCCTGTCGGACTGGATCACCCATTTTACCGGGAAAGTCATCCACGGCCAGGGCGACAGCCACTGGGCGGTCAAAAAAGACGGCGGCGATTTTGACCAGTTCACCGGCGCCACCATCACCCCCCGGGCGGTGGTCAATGCCGTTAAGCGCGCAGGCCTGTATGCACAAACGCTGCCTGCGCAACTTCCTGAATTCAGCGCCTGTGGAGAGTAA	MLKTMRKHGVTLALFAAGSTGLTAAINELTKSTIDQQAAQQQKALFDQVLPADRYNNDLLKSCYLVSAPALGKGQHKVWIAKNNDQPIGAVMEATAPDGYSGAIQLLVAADFSGTVLGTRVTEHHETPGLGDKIELRLSDWITHFTGKVIHGQGDSHWAVKKDGGDFDQFTGATITPRAVVNAVKRAGLYAQTLPAQLPEFSACGE	PGPT0013285_875	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013285-rnfG|rsxE-K03612	NA	NA
BMS020_00588	699	rsxE	COG4660	Ion-translocating oxidoreductase complex subunit E	ATGAGCGAAGTTAAAGACGTCATCGTCCAGGGTCTGTGGAAAAACAACTCCGCTCTGGTTCAGCTGTTAGGGATGTGTCCCCTGCTGGCGGTAACCTCGACCGCCACCAACGCCCTTGGGCTGGGTCTGGCGACGACCCTGGTGTTGACCCTGACCAACCTGACCATCTCCAGCCTGCGCCGCTGGACCCCGGCGGAGATCCGGATCCCGATCTACGTGATGATTATCGCCTCGGTGGTGAGCGTGGTGCAGATGCTGATCAACGCCTATGCGTTCGGTCTGTATCAGTCGCTGGGGATTTTCATCCCGCTTATCGTCACCAACTGCATCGTGGTGGGCCGCGCCGAAGCCTTTGCCGCCAAAAAAGGACCGGCGCTGTCGGCGCTGGACGGCTTCTCTATCGGTATGGGGGCCACCTGCGCGATGTTCGTGCTGGGCTCCCTGCGCGAAATCCTCGGCAATGGCACGCTGTTTGACGGCGCCGACAGCCTGCTTGGCAGTTGGGCAAAGGTCCTGCGCATCGAGGTTTTCCATACAGACACTCCTTTCCTGCTGGCTATGCTGCCGCCAGGCGCCTTTATTGGCCTCGGCATGATGCTGGCGGTAAAATACCTTATCGATGAACGTAGCAAGCAGCGGAAGGCGCAGGCGGCCCAGGCCGACGCTGTCGCACCGTCTGACGCGACAGGGAAAGCGTAA	MSEVKDVIVQGLWKNNSALVQLLGMCPLLAVTSTATNALGLGLATTLVLTLTNLTISSLRRWTPAEIRIPIYVMIIASVVSVVQMLINAYAFGLYQSLGIFIPLIVTNCIVVGRAEAFAAKKGPALSALDGFSIGMGATCAMFVLGSLREILGNGTLFDGADSLLGSWAKVLRIEVFHTDTPFLLAMLPPGAFIGLGMMLAVKYLIDERSKQRKAQAAQADAVAPSDATGKA	PGPT0013280_477	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013280-rnfE|rsxE-K03613	NA	NA
BMS020_00589	636	nth_1	COG0177	Endonuclease III	ATGAACAAAGCCAAACGCCTGGCGATCCTTACCAGGCTGCGGGACAACGATCCCCACCCCACCACCGAGCTGCACTTCAGCTCGCCGTTTGAGCTGCTGATTGCCGTCCTGCTCTCGGCGCAGGCGACCGACGTGAGCGTCAATAAAGCGACAGCCAAACTCTACCCGGTGGCCAATACGCCTGCGGCGATGCTGGCGCTGGGGGTGGAGGGCGTGAAATCCTATATCAAAACCATCGGCCTGTTTAACAGCAAAGCGGAAAACGTCATCAAAACCTGCCGGATCCTGCTGGAGCAGCACAACGGCGAGGTACCGGAGGACAGAGCGGCCCTGGAGGCGTTGCCCGGCGTGGGCCGCAAAACCGCCAACGTGGTGCTAAATACCGCCTTTGGCTGGCCGACGATCGCCGTAGACACCCATATCTTCCGCGTTTGCAACCGGACGCAATTCGCCCCAGGGAAAAACGTCGAACAGGTGGAAGAGAAGCTGCTGAAGGTGGTTCCCGCCGAGTTTAAGGTCGACTGCCATCACTGGCTTATTCTGCACGGCCGTTACACCTGTATCGCTCGCAAGCCGCGCTGTGGCTCCTGCCTGATTGAAGACCTTTGCGAATTCAAAGACAAAGTTTACGCCTGA	MNKAKRLAILTRLRDNDPHPTTELHFSSPFELLIAVLLSAQATDVSVNKATAKLYPVANTPAAMLALGVEGVKSYIKTIGLFNSKAENVIKTCRILLEQHNGEVPEDRAALEALPGVGRKTANVVLNTAFGWPTIAVDTHIFRVCNRTQFAPGKNVEQVEEKLLKVVPAEFKVDCHHWLILHGRYTCIARKPRCGSCLIEDLCEFKDKVYA	PGPT0013735_5184	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013735-nth-K10773	NA	NA
BMS020_00590	1506	dtpA	COG3104	Dipeptide and tripeptide permease A	GTGTCTACTGCAAACAATAAACCAGCAGAAAGCGTGAGTCTGAACGCTTTCAAACAACCACGCGCGTTCTATCTCATTTTCTCGATCGAGTTGTGGGAGCGTTTTGGTTACTACGGCCTGCAAGGGATCATGGCCGTTTACCTGGTAAAACAGCTGGGTATGTCGGAAGCGGATTCCATTACTCTGTTCTCCTCCTTTAGCGCGCTGGTTTATGGCCTGGTCGCAATTGGCGGCTGGCTGGGCGATAAAGTGCTGGGTACCAAACGCGTCATTATGCTGGGCGCTATCGTGCTGGCCATCGGCTATGCGCTGGTCGCCTGGTCCGGTCATGACGCCGCTATCGTTTATATGGGTATGGCGACTATCGCCGTCGGTAACGGCCTGTTTAAAGCCAACCCGTCTTCCCTGCTTTCTACCTGCTATGACAAAAACGATCCGCGTCTGGACGGTGCATTTACCATGTACTACATGTCCATCAACATCGGTTCGTTCTTCTCGATGCTGGCAACTCCGTGGCTGGCCGCGCGTTTCGGCTGGAGCGTCGCCTTCGCCCTGAGCGTGGTGGGGATGGTGATCACCATCATTAACTTCGCCTTCTGCCAGAAATGGGTGAAACAGTACGGTTCGAAACCGGACTTTGCCCCGGTGCATATGGGTAAACTGCTGGCGACCATCGCTGGCGTGGTGGTGCTGGTCGCTATCGCTACCTGGCTGCTGCACAACCAGGATATCGCACGTATGGCGCTGGGCGTCATCGCGCTGGGTATCGTGGTGATTTTCGCCAAAGAGGCGATGGGCCTGAAAGGCGCCGCGCGTCGCAAAATGATCGTCGCCTTCCTGCTGATGGTAGAAGCGATCGTCTTCTTCGTACTGTACAGCCAGATGCCGACCTCTCTGAACTTCTTTGCTATCCGCAACGTGGAGCACTCGATCCTCGGCCTCGCCTTCGAGCCGGAACAGTATCAGGCGCTGAACCCGTTCTGGATCATGATTGGTAGCCCTATTCTGGCCGCCATCTATAACAAGATGGGCGACCGCCTGCCGATGCCGCACAAGTTCGCTATCGGTATGGTGCTGTGCTCCGGCGCGTTCCTCGTCCTGCCTTTAGGGGCGAAGTTCGCCAGCGACGCCGGTATCGTCTCGGTTAACTGGCTGATTCTGAGCTACGCGCTGCAGTCTATCGGTGAGCTGATGATTTCCGGCCTCGGCCTGGCGATGGTCGCTCAGCTGGTTCCCCAGCGTCTGATGGGCTTCATTATGGGCAGCTGGTTCCTCACCACCGCCGGTGCGGCAATCATCGCCGGGAAAATCGCCAACCTGATGGCGGTACCGGAAAACGTCACCGATCCGCTGGTGTCGCTGGAAGTGTATGGCCACGTGTTCCTGCAGATCGGTATCGTCACCGCGGTCATCGCCGCCCTGATGCTGCTGACCGCGCCGAAGCTGAACCGAATGACTCAGGACGACAGCGCGGACGTAAAAGCACGCGAAACCGCGGCAGCCTGA	MSTANNKPAESVSLNAFKQPRAFYLIFSIELWERFGYYGLQGIMAVYLVKQLGMSEADSITLFSSFSALVYGLVAIGGWLGDKVLGTKRVIMLGAIVLAIGYALVAWSGHDAAIVYMGMATIAVGNGLFKANPSSLLSTCYDKNDPRLDGAFTMYYMSINIGSFFSMLATPWLAARFGWSVAFALSVVGMVITIINFAFCQKWVKQYGSKPDFAPVHMGKLLATIAGVVVLVAIATWLLHNQDIARMALGVIALGIVVIFAKEAMGLKGAARRKMIVAFLLMVEAIVFFVLYSQMPTSLNFFAIRNVEHSILGLAFEPEQYQALNPFWIMIGSPILAAIYNKMGDRLPMPHKFAIGMVLCSGAFLVLPLGAKFASDAGIVSVNWLILSYALQSIGELMISGLGLAMVAQLVPQRLMGFIMGSWFLTTAGAAIIAGKIANLMAVPENVTDPLVSLEVYGHVFLQIGIVTAVIAALMLLTAPKLNRMTQDDSADVKARETAAA	PGPT0021010_2140	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021010-TC_POT-K03305	NA	NA
BMS020_00591	606	gstA	COG0625	Glutathione S-transferase GstA	ATGAAACTGTTCTACAAACCCGGCGCCTGTTCCCTCGCCTCACACATCGCCCTGCGCGAAAGCGGCCTGGATTTCACTTTGCAGAGCGTGGATCTGGCAAGGAAACAGCTGGAAAACGGGGAAGATTATCTGCTGATCAACCCGAAAGGTCAGGTGCCGGCGCTGCTGCTGGATGATGACATCCTGCTTACTGAGGGCGTGGCTATTATGCAGTACATCGCCGATCAGGTGCCGGACCGCCATCTTCTGGCGCCCGTGGGCTCCGTTGCCCGTTACCAGACCCTGGAATGGCTGAACTACGTCGCTACCGAACTGCATAAAGGCTTTACGCCACTGTTCCGCCCGGACACCCCGGAGGACTATAAGCCCGTTGCGCGCGCGTTGCTCGAGAAAAAACTGCAGTACGTGGATGCCTCGCTGGCGGATAAACAGTGGCTCACCGGCCATCGCTTCACTATCGCCGATGGTTATCTGTTCACGGTGCTGCGCTGGGGCTATGCGATTAAACTGGATATGGCCGCCTGTAGTCATATCGGCAGCTGGATGGCGCAGGTGGCGGCGCGTCCGGCAGTGGCTGACGCCCTGGCAGCGGAAGGCTTAAAGTAA	MKLFYKPGACSLASHIALRESGLDFTLQSVDLARKQLENGEDYLLINPKGQVPALLLDDDILLTEGVAIMQYIADQVPDRHLLAPVGSVARYQTLEWLNYVATELHKGFTPLFRPDTPEDYKPVARALLEKKLQYVDASLADKQWLTGHRFTIADGYLFTVLRWGYAIKLDMAACSHIGSWMAQVAARPAVADALAAEGLK	PGPT0013170_20611	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS020_00592	861	pdxY	COG2240	Pyridoxal kinase PdxY	ATGAAGAACATCCTCGCCATTCAGTCTCACGTTGTGTTTGGCCACGCCGGCAACAGTGCCGCCGAGTTCCCGATGCGCCGCCTGGGCGCCAATGTCTGGCCCCTCAATACCGTACAGTTCTCTAACCACACGCAGTACGGCAAATGGACCGGCTGTGTGATGCCGCCTTCGCACCTGACGGAGATCGTCCAGGGCATCGCCGCTATCGATAAGCTGCAGACCTGTGATGCGGTACTGAGCGGCTATCTCGGCTCTGCTGAACAGGGCGAGCATATCCTGGGCATTGTGCGTCAGGTAAAAGCGGCCAATCCGGCGGCGAAGTATTTTTGTGACCCGGTGATGGGCCATCCGGAGAAGGGCTGCATCGTCGCCCCGGGCGTGGCGGAGTTCCACGTGCGCTATGCGCTGCCGGCCAGCGATATCATTGCGCCTAATCTGGTGGAGCTGGAGATCCTCTGCGGTCATCCGGTCGCCAGCGTGAGCGAGGCGGTGGCCGCCGCGCGGGAGCTGATTGCCCAGGGGCCGGAGGTGGTGCTGATTAAGCATCTTTCCCGCGCCGGCATGAGCATGGACCGTTTTGAGATGCTGCTGGTGACCGCAGATGAAGCCTGGCATATCAGCCGGCCGCTGGTGGATTTTGGCCTGCGTCAGCCGGTGGGCGTTGGCGATGTGACTAGCGGTCTGCTGCTGGTGAAACTGCTGCAGGGCGCCAGCCTGCGCGACGCGCTTGAGCACGTCACCGCCGCAGTGTACGAGATCATGTTGACCACCAAAAACATGCAGGAGTATGAACTGCAGGTGGTGGCGGCGCAGGATCGTATTGCTGTGCCGGAGCACTGCTTCAGCGCCACCCGACTGTAA	MKNILAIQSHVVFGHAGNSAAEFPMRRLGANVWPLNTVQFSNHTQYGKWTGCVMPPSHLTEIVQGIAAIDKLQTCDAVLSGYLGSAEQGEHILGIVRQVKAANPAAKYFCDPVMGHPEKGCIVAPGVAEFHVRYALPASDIIAPNLVELEILCGHPVASVSEAVAAARELIAQGPEVVLIKHLSRAGMSMDRFEMLLVTADEAWHISRPLVDFGLRQPVGVGDVTSGLLLVKLLQGASLRDALEHVTAAVYEIMLTTKNMQEYELQVVAAQDRIAVPEHCFSATRL	PGPT0009125_1630	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
BMS020_00593	1275	tyrS_1	COG0162	Tyrosine--tRNA ligase	ATGGCAAGCAGTAACTTGATTAAACAATTGCAAGAGCGGGGGCTGGTAGCCCAGGTGACGGACGAGGAAGCGTTAGCAGAGCGACTGGCGCAAGGCCCGATCGCGCTCTATTGCGGCTTCGATCCTACCGCTGACAGCTTGCATTTGGGGCATCTTGTTCCATTGTTATGCCTGAAACGCTTCCAGCAGGCAGGTCATAAACCTGTGGCGCTGGTGGGCGGCGCTACCGGTCTGATTGGCGACCCAAGCTTTAAAGCCGCTGAGCGTAAGCTTAATACCGAGGATACCGTGCAGGAGTGGGTGGATAAAATCCGCAAACAGGTAGCCCCGTTCCTTGATTTTGACTGCGGCGACAACTCGGCGATCGCGGCGAACAACTATGACTGGTTTGGCAGCATGAACGTGCTGACCTTCCTGCGCGATATTGGTAAACACTTCTCTGTTAACCAGATGATCAACAAAGAAGCGGTGAAGCAGCGCCTGAATCGTGACGATCAGGGCATCTCCTTTACCGAGTTTTCTTACAATCTGCTGCAGGGTTACGACTTCGCCTGCCTGAACAAGCTGCACGGCGTGGCGCTGCAGATTGGCGGCTCCGACCAGTGGGGCAACATTACCTCCGGTATCGATCTGACGCGTCGTCTGCACCAGAACCAGGTGTTTGGCCTCACCGTGCCGCTGATTACCAAAGCGGACGGCACCAAGTTCGGCAAAACCGAGGGCGGCGCCGTGTGGCTGGATCCGAAAAAGACCAGTCCGTATAAATTCTACCAGTTCTGGATCAACACCGCGGATGCTGACGTCTATCGCTTCCTCAAGTTCTTCACCTTTATGGACATCGCAGAGATCAATGCCCTGGAAGAAGAAGATAAAAACAGCGGTAAAGCGCCGCGCGCCCAGTACGTGCTGGCAGAGCAGGTGACGCGTCTGGTGCACGGCGAAGAGGGCCTGGAAGCGGCGAAACGCATTACCGAGAGCCTGTTCAACGGCAACCTGAGCGACCTGAGCGAAGCTGACTTCGAACAGCTTGCTCAGGACGGCGTGCCGATGATTGAGATGGAAAAGGGCGCCGATCTGCTGCAGGCGCTGGTGGATTCCGAGCTGCAGCCGTCCCGCGGCCAGGCGCGTAAAACCGTCGCCTCTAACGCAGTGACCATCAACGGTGAAAAACAGGCCGATCCGGAATATGTTTTTGCCGACAGCGATCGCCTGTTCGGCCGCTACACCTTGCTGCGCCGCGGTAAGAAGAATTACTGCCTGGTCTGCTGGAAATAA	MASSNLIKQLQERGLVAQVTDEEALAERLAQGPIALYCGFDPTADSLHLGHLVPLLCLKRFQQAGHKPVALVGGATGLIGDPSFKAAERKLNTEDTVQEWVDKIRKQVAPFLDFDCGDNSAIAANNYDWFGSMNVLTFLRDIGKHFSVNQMINKEAVKQRLNRDDQGISFTEFSYNLLQGYDFACLNKLHGVALQIGGSDQWGNITSGIDLTRRLHQNQVFGLTVPLITKADGTKFGKTEGGAVWLDPKKTSPYKFYQFWINTADADVYRFLKFFTFMDIAEINALEEEDKNSGKAPRAQYVLAEQVTRLVHGEEGLEAAKRITESLFNGNLSDLSEADFEQLAQDGVPMIEMEKGADLLQALVDSELQPSRGQARKTVASNAVTINGEKQADPEYVFADSDRLFGRYTLLRRGKKNYCLVCWK				NA	NA	NA	NA	NA
BMS020_00594	663	pdxH_1	COG0259	Pyridoxine/pyridoxamine 5'-phosphate oxidase	ATGGCCATGTCTGATAACGACGAACTCCAGCAAATCGCGCACTTGCGCCGTGAATACACCCGTGGCGGTTTGCGTCGCCACGATCTTCCTGCTGAACCTCTGCCGCTGTTTGAGCGCTGGCTGCGTCAGGCTTGCGACGCGAAACTCGCCGACCCAACGGCCATGGTGGTTGCCACCGTCGATGAGCGCGGCCAACCCTATCAGCGCATTGTGCTGCTTAAGCATTACGACGAAAAAGGGCTGGTGTTTTATACCAACCTCGGCAGCCGCAAAGCCCATCAGATTGAAAATAACCCGCAGGTCAGCCTGCTGTTTCCGTGGCATATGCTGGAGCGCCAGGTGATGGTGATCGGCAAAGCGGAACGCCTGTCGACGCTGGAGGTGGTCAAATATTTCCACAGCCGCCCGCGTGACAGCCAGATCGGCGCCTGGGTCTCGCAACAGTCGAGCCGGATCTCTGCCCGCGGTATCCTGGAGAGCAAATTTCTCGAGCTGAAGCAGAAATTCCAGCAGGGTGAAGTGCCGCTGCCGAGTTTCTGGGGCGGATTCCGCGTCAGCATCGAGCAGATGGAGTTCTGGCAGGGGGGCGAACATCGCCTGCACGATCGCTTTTTATACCAGCGCGATAACGGCGCCTGGAAAATCGACCGCCTGGCACCGTAA	MAMSDNDELQQIAHLRREYTRGGLRRHDLPAEPLPLFERWLRQACDAKLADPTAMVVATVDERGQPYQRIVLLKHYDEKGLVFYTNLGSRKAHQIENNPQVSLLFPWHMLERQVMVIGKAERLSTLEVVKYFHSRPRDSQIGAWVSQQSSRISARGILESKFLELKQKFQQGEVPLPSFWGGFRVSIEQMEFWQGGEHRLHDRFLYQRDNGAWKIDRLAP	PGPT0009115_1059	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009115-pdxH-K00275	NA	NA
BMS020_00595	360	mliC	COG3895	Membrane-bound lysozyme inhibitor of C-type lysozyme	GTGCCCTCCGTGACCGGGAAAGTCGAAGGCAAACGAATGAAAAAAATTCTTATCGCAGTTGTACCTTTTATGTTGGCGGGCTGTAGCTACTACAACCAGTTTGTCGAGCGGATGCAGACAGACACGCTGGAGTATCAATGCGACCAGAAACCGTTGACGGTCCATCGCAATAACCAACGCCAGCAGGTTAGTTTTATCTATGACAATCAGCAGCTGAATCTGTCAGAGGGGCTGTCGGCTTCCGGCGCGCGCTACACCGACGGCGTCTATGTCTTCTGGTCGAAAGGCGATACCGCCACCGTCTATAAGCGCGACCGCATCGTCCTCGATAACTGCCAGCTGCAGACCGCCAAACGTTGA	MPSVTGKVEGKRMKKILIAVVPFMLAGCSYYNQFVERMQTDTLEYQCDQKPLTVHRNNQRQQVSFIYDNQQLNLSEGLSASGARYTDGVYVFWSKGDTATVYKRDRIVLDNCQLQTAKR				NA	NA	NA	NA	NA
BMS020_00596	1125	anmK	COG2377	Anhydro-N-acetylmuramic acid kinase	ATGAGATCGGGTCGCTTTATTGGCGTTATGTCTGGTACCAGCCTTGATGGTATCGATGTCGTTTTGGCTGCCATCAATGAAAACATGGTGGCGCAGCAGGCCAGTCTCACCTGGCCCATCCCACACGCGATAAAAGAAGAGATTCTGGCGATTTGCCAGGGCCAGTCATTGACCCTTTCACAGCTAGGTCGTCTGGACACCCGACTGGGGCGGCTGTTTGCCGATGCCGTGCTGGCGCTGATGCGTCAGGAAAAGCTCAAACCCACCGACGTTATTGCCATCGGCTGCCATGGACAGACCGTATGGCATGAACCCCAGGGCGACGCGCCGCATACGATGCAAATTGGCGATAACAACCAGATCGCCGCCCACACCGGCGTCACCGTGGTGGGGGATTTTCGTCGCCGGGATATGGCGCTTGGCGGGCAAGGGGCGCCGCTGGTGCCGGCATTCCATCATGCGCTGCTGGCGCACCCCGTTGAGCGGCGGATGGTGCTCAATATCGGCGGGATCGCTAATGTATCGCTGCTGGTGCCGGGCCAGCCGGTGCGGGGCTATGATACCGGACCAGGAAATATGTTGCTGGACGCCTGGATCTGGCGCCAGCAGGGCAAACCGTACGATAAGGACGCCCAATGGGCCAGCGAAGGCAAAGTGCTCCTGCCGCTGCTGCAGGATATGCTGAGCGATCCATGGTTTGCCCTGCCGGCGCCGAAAAGCACCGGTCGGGAATATTTCAATTACGGCTGGCTGGAGCAGCATCTGGCTCGTTATCCGGGGCTGCGCGGGCAGGATGTGCAGGCAACGCTCGCAGAATTAACCGCCGTGACCATCAGTGAGCAGGTATTGTTAAGCGGCGGCTGCGAGCGTTTGTTAGTGTGCGGCGGCGGCGCGCGTAACCCATTGTTGATGGCGCGCATGGCGGCCCTGCTGCCAGGAACCGAAGTCTCCACCACCGATGAGGCGGGGATCAGCGGCGATGATATGGAAGCGCTGGCCTTTGCCTGGCTGGCCTGGCGCACGATCGCCGGCCTGCCGGGTAATCTGCCCTCCGTGACCGGCGCCAACGAAGCCACGGTGCTGGGCGCCATTTTCCCTGCTAACCCGCCGAAGAATCGGAGTTAA	MRSGRFIGVMSGTSLDGIDVVLAAINENMVAQQASLTWPIPHAIKEEILAICQGQSLTLSQLGRLDTRLGRLFADAVLALMRQEKLKPTDVIAIGCHGQTVWHEPQGDAPHTMQIGDNNQIAAHTGVTVVGDFRRRDMALGGQGAPLVPAFHHALLAHPVERRMVLNIGGIANVSLLVPGQPVRGYDTGPGNMLLDAWIWRQQGKPYDKDAQWASEGKVLLPLLQDMLSDPWFALPAPKSTGREYFNYGWLEQHLARYPGLRGQDVQATLAELTAVTISEQVLLSGGCERLLVCGGGARNPLLMARMAALLPGTEVSTTDEAGISGDDMEALAFAWLAWRTIAGLPGNLPSVTGANEATVLGAIFPANPPKNRS				NA	NA	NA	NA	NA
BMS020_00597	468	slyB	COG3133	Outer membrane lipoprotein SlyB	ATGATTTTACGTGTTTTGGCTGTATCGATGATTGGTTTCACGCTCGCAGGCTGCGTGAGCAGCAGCGGCCTGTCCGGCGATGTGTATTCCGCATCTGAAGCCAAACAGGTGCAGAGCGTGACATACGGTACCATCGTGCATACCCGCGCCGTACAGATCCAGAGCGGCGACGACAGCAATGCCATCGGGGCGATTGGCGGTGCGGTGCTGGGTGGGTTCCTCGGGAACACCATCGGCGGCGGTACCGGACGCTCTCTGGCCACAGCGGCAGGTGCGGTCGCGGGCGGCGTAGCCGGTCAGGGCGTGCAGGGTGCGATGAATAAAACCCAGGGCGTGGAACTGGAAATCCGTAAGGATGACGGCAATACCATTATGGTGGTGCAGAAACAGGGCAGCACCCCGTTCTCCGTGGGTCAGCGCGTGGCGATTGCCGGCAGCGGCAGCCAGGTCACCGTCTCTCCTCGATAA	MILRVLAVSMIGFTLAGCVSSSGLSGDVYSASEAKQVQSVTYGTIVHTRAVQIQSGDDSNAIGAIGGAVLGGFLGNTIGGGTGRSLATAAGAVAGGVAGQGVQGAMNKTQGVELEIRKDDGNTIMVVQKQGSTPFSVGQRVAIAGSGSQVTVSPR	PGPT0024490_521	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024490-slyB-K06077	NA	NA
BMS020_00598	1362			hypothetical protein	ATGCCCAAACACATGAATCATATCGTTAAACGTCTTATCGTTTATATTTGTATTTGTTTACTGGCCGGGGTCGGCATGACCGGGTTGACGGACTTTTTTCACACCAGATTTAACAGCACTTCATCTACACTATTTCCTCTGCTGACCAGTTTTCTGATGGTGTTTCATATCACTATTGCCTGTTTTATGGGCATGAAATACTGGAGCAGCAAGCGTCGCCTGTATCTGACCCCTGTCGCTTTCGGCTTTGCCTGTTCGGCGTTGCTGATGCTGGGCACGCTCAGCAGCTATCCGGACTGGCTCAGCTGCAATCCCTCGCCGGTGGTGAAACAAAATGACGCCGTCATATATTATTTCTTTCGCAATATAATGATGGCTATCTTATTCATGTCATCAATTATTTTGTATTACTTCCGCCGGCGCATCATGCATTCCTGGAAAGCCCATGTAATGACTTTCGCGGCATGTATTGTTCTTGTATTAACCATTATTTATTTATCATGGCTGTACTCCAGCCACTCGCCGAAGCTGAGCATCAATTTTATCGACGACCTGAATCATACTTTCACCCCGCTGTGGCAAAGTATTATCAGCTGGCTGCTGATGGCAGTCTGGTTTATCACGCTAATATTAATAATTTGCTTGAGCAAACTGCGCAATATTTTCTGGTATAGCGGCGCTTTTTTTTGTAGCGCATATTTGTTCACCCTCTTCCGGCTGCTCTCTACCGTTGGGGAACTCGATCAGGCCTGGTATCAGGCGCGTTTTTTTGAAACGCTGTGCACCCTGTTCCTGATCCTGGTGCTGCTGGTCGACGTCTTTATCCTCTATCGGGAGTCTAACCACAAGTATGTCAACTCCTACCAGAATTCGATCCGCGACCCGCTGACCCGCCTCTATAACCGCAGCTTCTTCTATGACACCCTAAACCAGCAACTGGCGAAGGTGAAGGCCCAGCATCCGCTGTCGGTGATTATCAGCGACCTCGACCATTTCAAACGCATCAACGATAACTACGGCCACATCGCCGGCGACAAGGTGATCCAATTTGCCGCCTCGGTGCTGGACAGCCATTCGCGCAAGGATGATGTCGCCGCCCGCATCGGCGGTGAGGAGTTTGCCCTGCTGCTGGTCAACACCTCAGAGAACGAGGCGCAGGCGATCGCCGAGCGCATCCGTCTGGCGGTCAGCGCCGAGCAGACCGCTCTGCCAGAGCGGATGACCATCAGCATGGGGGTGTATACCACCCATGACAGAAGTGTGACGGCGGAGGAGTGCGTCCAGCGTGCGGACGAAGCCATGTATGAAGCAAAAAACAGCGGACGTAATCGGGTGGTGATCTGGCGACGCCAGGGTGGGTAA	MPKHMNHIVKRLIVYICICLLAGVGMTGLTDFFHTRFNSTSSTLFPLLTSFLMVFHITIACFMGMKYWSSKRRLYLTPVAFGFACSALLMLGTLSSYPDWLSCNPSPVVKQNDAVIYYFFRNIMMAILFMSSIILYYFRRRIMHSWKAHVMTFAACIVLVLTIIYLSWLYSSHSPKLSINFIDDLNHTFTPLWQSIISWLLMAVWFITLILIICLSKLRNIFWYSGAFFCSAYLFTLFRLLSTVGELDQAWYQARFFETLCTLFLILVLLVDVFILYRESNHKYVNSYQNSIRDPLTRLYNRSFFYDTLNQQLAKVKAQHPLSVIISDLDHFKRINDNYGHIAGDKVIQFAASVLDSHSRKDDVAARIGGEEFALLLVNTSENEAQAIAERIRLAVSAEQTALPERMTISMGVYTTHDRSVTAEECVQRADEAMYEAKNSGRNRVVIWRRQGG	PGPT0015900_1018	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-CELL_FATE_CONTROL	PUTATIVE-CELL_FATE_CONTROL-1,PGPT0015900-pleD-K02488
BMS020_00599	435	slyA_2	COG1846	Transcriptional regulator SlyA	TTGGAATCGCCACTTGGTTCTGATCTGGCACGTTTAGTTCGCGTCTGGCGCGCGCTAATCGACCATCGCCTGAAACCTCTGGAGTTAACGCAGACCCACTGGGTCACGCTGCATAACATCCACCAGCTGCCGCCTGAGCAGTCGCAGATCCAGCTGGCGAAAGCCATCGGTATTGAACAACCGTCGCTGGTGCGTACGCTCGATCAGCTGGAGGAGAAAGGGCTTATTTCTCGCCAGACCTGCGCAAGCGATCGGCGGGCCAAACGCATCAAGTTGACTGAAAAAGCCGAACCGCTGATCAATGAGATGGAAGAGGTGATAGGCAAGACCCGCGATGAAATCCTCTCGGGGGTCTCGAAGCAGGAAGTGGAGACGTTGCTCCACTTAATTCGTAAACTTGAACAAAATATCCTCGATCTCCAGGCAAAAGATTAA	MESPLGSDLARLVRVWRALIDHRLKPLELTQTHWVTLHNIHQLPPEQSQIQLAKAIGIEQPSLVRTLDQLEEKGLISRQTCASDRRAKRIKLTEKAEPLINEMEEVIGKTRDEILSGVSKQEVETLLHLIRKLEQNILDLQAKD	PGPT0016255_1576	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016255-sylA-K06075	NA	NA
BMS020_00600	237			hypothetical protein	GTGAAACTGAGTCTTAATTCATCCGGATTGCCGCTGCAGGACCTGATGTTCGGCGCATCCGTCTATTTCCCTCCATTGTTCAAAGCCGTCTTGCTGGGCTTCTTTATCTGGCTGTTTTTACATCGCCAGCTGCGTGACTGGATGTATGCGGGCGACATCTGGCATCCCCTGCTGATGGATCTCTCCCTGTTCGCGCTCGCGGTCTGTCTGGCCCTGCTGTTATTGATTGCCTGGTGA	MKLSLNSSGLPLQDLMFGASVYFPPLFKAVLLGFFIWLFLHRQLRDWMYAGDIWHPLLMDLSLFALAVCLALLLLIAW				NA	NA	NA	NA	NA
BMS020_00601	897	aaeA_1	COG1566	p-hydroxybenzoic acid efflux pump subunit AaeA	ATGAAAAAATTAAAATATTTGTCAACGCTGTTGGTGGCGGCCATCGCACTGGTTGCCGCGTGGTTGTTATGGAATTTCTACACTCAGTCCCCCTGGACCCGCGACGGGAAAGTGCGCGCCGAGCAGGTCGGGATCACCCCTCAGGTCTCCGGCAGTATTCTGCAGCTTAACGTGGCCGATAACCAGCGAGTCAAGGCCGGTGAAGTCTTGTTTACCATCGACGACACCCCCTACCGCATTGCGGTGCTGAACGCCCAGGCTCAGCTGGCGAAAGCGCAAGCTGAGGTGGCGAAAGCGCAGGCGGAGCAAAGCAAAGCCGCCAGCGAGGCCCGCCGTCGCAGAAACCTGTCGCAGAATGCCATCTCGGCTGAAGACCTTGAAAACGCCAATACCGCCCTGAATACCGCCACCACCACCCTGGCGGCCGCCAGAGCGGGAGTCGGTGTCACCGAGGCGGCGCTAAAGCATGCGCAGTGGCAGCTCAGCCAGACGGTAGTCAAAGCGCCGGTGGACGGCTGGGTGACTAACCTCTCCACCCGGGTCGGCGATTACGCCACCACCGGCCATCCGGTCTTTGCCCTGGTGGACAGCCATTCGTTCTATGTGCTGGGCTACTTTGAAGAGACCAAACTGCGCCATATTCGCATCGGCGATCCGGCGCAAATCATTCTCTACAGCAATCAGCAGACGCTGCAGGGGCATGTCGCCAGCATCGGTCGCGCGATTGTCGACCAGAGCGTGGAACAGGGAACCGGGCTGGTGGCCAATATCAAACCGAATATCCCCTGGGTCCGCCTCGCCCAGCGCGTCCCGGTGCGGATTGCCTTTGATAGCTTGCCGGCCGATGTCACTCTGGTCTCCGGCACCACCTGCACCGTCTCGATCGGCGGACAGTGA	MKKLKYLSTLLVAAIALVAAWLLWNFYTQSPWTRDGKVRAEQVGITPQVSGSILQLNVADNQRVKAGEVLFTIDDTPYRIAVLNAQAQLAKAQAEVAKAQAEQSKAASEARRRRNLSQNAISAEDLENANTALNTATTTLAAARAGVGVTEAALKHAQWQLSQTVVKAPVDGWVTNLSTRVGDYATTGHPVFALVDSHSFYVLGYFEETKLRHIRIGDPAQIILYSNQQTLQGHVASIGRAIVDQSVEQGTGLVANIKPNIPWVRLAQRVPVRIAFDSLPADVTLVSGTTCTVSIGGQ	PGPT0023615_86	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYBENZOIC_ACID_GALLATE_RESISTANCE,PGPT0023615-aaeA-K15548	NA	NA
BMS020_00602	2025	aaeB_1		p-hydroxybenzoic acid efflux pump subunit AaeB	ATGAATCTGCAGACCCTGTCATGGCGCACGCTGCCCTGGGTTAAAGCCACCCGACCGCAGTGGCGATACGCGCTGCGTAACGGCATCGCCATGTGTCTTGCGCTGAGCATCGCCTATGCGCTGGATCTGGATGAGCCCTACTGGGCGATGACCTCCGCGGCGGTGGTCAGCTTTCCCACCGTCGGCGGGGTGATCAGTAAAAGTTTCGGCCGCATTGCCGGCAGCCTGCTTGGCGCCTGCGCCGCCCTGCTGCTGGCGGGCCATACGCTCAACGATCCCTGGCTGTTCCTGTTCAGTATCTCCGGCTGGCTGGCGCTCTGCACCTGGGCCTGCGCCCTGTTCACCAACAACGTGGCCTACGCCTTTCAGCTGGCGGGCTATACCTGCGCCATCATCGCCTTTCCGGTGATTAATATCAGCGACAGCTACGAGCTATGGGTGATTGCCCAGTCGCGCGTCTGCGAAGTCATCGTCGGGATCCTGTGCGGCGGGTTGATGATGATGATCCTGCCCAGCACCTCCGATGGCAGCAACCTGCTGACGGCGCTGAAAACCATGCACGCCCGCCTGCTGGAGCACGCCAGTCTGCTGTGGGTACCGGAAACGACGGATGCTATCCGCACCGCCCATGAAAGCGTAATTGGCCAGATCCTGACCATGAACCTGCTGCGCATCCAGGCCTTCTGGAGCCACTACCGCTTCCGTCGGCAGAATCCCCTGCTGAACTACCTGCTGCACCAACAGCTCCGAATGACCAGCGTCATTTCCAGCCTGCGGCGTATGCTGCTGAACTGGCCTGACGCCCCGGCCAATACCCGCCAGGTGCTGGAGTCGTTGCTTGCGGAGCTCGCCACCGCCCATGCTGACAGCTATCACGTCGCCCGCATTCTGGTGCCGCTGGCGCCGCCGCCGGGCGCGGATTACCGCCACCTCGCCTTCTGGGCGCGGTTACGCTATTTCTGTCGCATTTATCTGGAAAGCAGCCGCTGGATCCGCCGGGTTGAAAATGCCTCAGCGATCGCCGAGTTCAATGTTCCTTCCGCACCCGCGCTGACCCGCCACACGGACCAGGCGGAAGCCCTGCTCAACGGCATTCGTACCTTTTGCGCCCTGGTGGCGATAGGCGCGTGGGGGATCAGTACCCAGTGGACCAGCTGCGCGGCGGCCCTGACCCTGGCCTCCATCTGCTGCGTACTCTACTCGGTGTCGGCCTCGCCGTTTCGCTCGCTAACCCTGCTGATGCAGACCCTGGTCCTGCTGTCGCTGTTCAGTTTTGTGGTGAAATTTGGCCTGATGGTGCAGATCACCGACCTGTGGCAGTTCCTGCTGTTTCTGTTCCCGTTGCTGACCACCATGCAGTTACTCAAGCTGCAGTGGCCAAAATTTGCCGGCCTGTGGGGGCAGCTTATCGTCTTTATGGGCTCGTTTATCTCCGTCACCAACCCACCGGTGTACGACTATGCGGCCTTTTTCAATGACAATTTAAGCAAGATTGTCGGCGTGGGCTTTGCGTGGCTGGCTTTTGCGGTGCTCAGTCCCGGCTCGGACGCCCGCAAAGGGCGACGGCACATCAGAGCGTTACGGCGTCACTTTGTCGATCAGCTCAGCCGCCGCCCCCAGCACAGCGAGCACGAATTTGAATCGCTGGTATATCACCACGTCAGCCAGCTTAGTCAGAGCCAGGATGCGCTGGCCCGTCGCTGGCTACTGCGCTGGGGGGTGGTCTTACTGAACTGCTCCCACGTGGTCTGGCAGCTTCGCGAGTGGGAAACCCGCTCCGATCCGCTCGCCCAGGTGCGCGATCTGTGTATCAACCTGCTGCGCGATGTCATGAGCGAGCGCGGCGTGCAGCAGCGGCCGCTGGCCACCACGCTGCAGGAGCTGCTGCGGATCTGCGAGGTTCTGAACCACCATCATCAGCCGGCGGCCCGGGAGCTGGCCGCCGCGATCTGGCGACTGTATTGCGCGCTATCGCAGCTGGAACAGGCTCCGGTCGCCGGAACGATTGGCGAAAAGATTACTTAA	MNLQTLSWRTLPWVKATRPQWRYALRNGIAMCLALSIAYALDLDEPYWAMTSAAVVSFPTVGGVISKSFGRIAGSLLGACAALLLAGHTLNDPWLFLFSISGWLALCTWACALFTNNVAYAFQLAGYTCAIIAFPVINISDSYELWVIAQSRVCEVIVGILCGGLMMMILPSTSDGSNLLTALKTMHARLLEHASLLWVPETTDAIRTAHESVIGQILTMNLLRIQAFWSHYRFRRQNPLLNYLLHQQLRMTSVISSLRRMLLNWPDAPANTRQVLESLLAELATAHADSYHVARILVPLAPPPGADYRHLAFWARLRYFCRIYLESSRWIRRVENASAIAEFNVPSAPALTRHTDQAEALLNGIRTFCALVAIGAWGISTQWTSCAAALTLASICCVLYSVSASPFRSLTLLMQTLVLLSLFSFVVKFGLMVQITDLWQFLLFLFPLLTTMQLLKLQWPKFAGLWGQLIVFMGSFISVTNPPVYDYAAFFNDNLSKIVGVGFAWLAFAVLSPGSDARKGRRHIRALRRHFVDQLSRRPQHSEHEFESLVYHHVSQLSQSQDALARRWLLRWGVVLLNCSHVVWQLREWETRSDPLAQVRDLCINLLRDVMSERGVQQRPLATTLQELLRICEVLNHHHQPAARELAAAIWRLYCALSQLEQAPVAGTIGEKIT				NA	NA	NA	NA	NA
BMS020_00603	522	sodC	COG2032	Superoxide dismutase [Cu-Zn]	ATGCAACGATGTATTCTCGCTATCCTTTCCCTCGCATTTTGCGCTGGCGCGCAGGCCGTCAGTGAAGATGTGCAACTTAATCTCGTGACCAGCCAGGGCGTTGGTCAATCCATCGGCAGTGTAAAAATCACCGAAACCGACCGCGGACTCGAATTTGCTCCCGATCTGCGAGCGTTGCCGCCGGGCAAGCACGGCTTTCATATCCATGCTGAAGGTAGCTGCCAGCCGGCGATGAAAGAGGGCAAAGCCGTAGCCGCCGGAGCGGCGGGCGGACATTACGATCCGCAACATACCGGTAAACATGAAGGGCCGCTGGGCACCGGACATCTTGGCGATTTGCCCCTGCTGGTGGTCAACGACGCGGGCGTGGCTGACCAGCCGATTATCGCTCCGCGTCTGAAAACGCTGGCGGAAGTGAAAGGCAAAGCGCTGATGGTTCATGTCGGCGGCGATAATATGGCCGACAGTCCGCAGCCGCTGGGCGGCGGCGGCGAACGGTTTGCCTGCGGGGTGATTAAGTAA	MQRCILAILSLAFCAGAQAVSEDVQLNLVTSQGVGQSIGSVKITETDRGLEFAPDLRALPPGKHGFHIHAEGSCQPAMKEGKAVAAGAAGGHYDPQHTGKHEGPLGTGHLGDLPLLVVNDAGVADQPIIAPRLKTLAEVKGKALMVHVGGDNMADSPQPLGGGGERFACGVIK	PGPT0013181_2021	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0013181-sodC|sod1-K04565	NA	NA
BMS020_00604	897	ydhF	COG4989	Oxidoreductase YdhF	ATGGTTCAGCGTATTGCTATGGCCCCCCAGGGGCCGGAATTTTCGCGTTTTGTGATGGGCTACTGGCGTCTGATGGACTGGAAAATGTCGCCAGGCGAGCTGGTCGGCTTTATCGAACAGCATCTCGATTTAGGTATTACCACCGTCGATCACGCCGATATCTATGGCGATTACCAGTGCGAATCCGCCTTTGGTGAAGCTCTGAAGCTGGCGCCGCATCTGCGTAGCCGAATGGAAATTGTCAGCAAATGCGGCATTGCCACCCGGGCGCGCGCTGAAAACACCATCGGTCACTACATTACCGACCGGGACCACATCGTGCTCAGCGCTGAGCAATCGCTGCGTAATCTGGCGACGGACCATCTCGATCTGCTGCTGATCCACCGGCCGGATCCGCTGATGGACGCCGACGAGGTGGCTGAAGCCTTCCTCGCGCTGCATCACAGCGGCAAAGTACGTCATTTCGGCGTCTCGAACTTTACCCCTGCCCAGTTCACCCTTCTGCAGTCGCGCCTGCCGTTTACGCTTGCTACCAACCAGGTGGAGATCTCGCCGGTGCATCAGCCGTTGCTGCTCGACGGCACCCTCGATCAGCTGCAGCAGCTGCGTATTCGCCCGATGGCCTGGTCCTGCCTCGGCGGCGGCCGCCTGTTTAATGAAGAGGGCTTTCAGCCGCTGCGCGACGAGCTGGCCCAGGTGGCCCACGAGCTTAACGCCGACAGCATCGAGCAGGTGGTTTATGCCTGGGTGCTGCGCCTGCCATCGCAACCGCTGCCGATTATCGGCTCGGGCAAAATTGAGCGCGTGCGCTCGGCGATTGTGGCTGAAAAACTGAGTATGACCCGCCAGCAGTGGTTCCGTATCCGCAAAGCCGCGCTCGGTTACGACGTGCCATAA	MVQRIAMAPQGPEFSRFVMGYWRLMDWKMSPGELVGFIEQHLDLGITTVDHADIYGDYQCESAFGEALKLAPHLRSRMEIVSKCGIATRARAENTIGHYITDRDHIVLSAEQSLRNLATDHLDLLLIHRPDPLMDADEVAEAFLALHHSGKVRHFGVSNFTPAQFTLLQSRLPFTLATNQVEISPVHQPLLLDGTLDQLQQLRIRPMAWSCLGGGRLFNEEGFQPLRDELAQVAHELNADSIEQVVYAWVLRLPSQPLPIIGSGKIERVRSAIVAEKLSMTRQQWFRIRKAALGYDVP				NA	NA	NA	NA	NA
BMS020_00605	240			hypothetical protein	GTGGCAGAGCAGTTAGAGTTTTTCCCGGTGCAGAGCCCGTGCCGGGGAATTTGTCAGACCGATGAGCGCGGCTACTGTCGCGGCTGTTTCCGTAGCCGTGAGGAACGTTTTAACTGGCAAACGATGAGCGATGCGCAGAAACAGGAGGTATTGCGTCTGTGCCGTCAACGCCTGCTGCGCAAAATCCGCGCAAACAGGCCAGAGGCGGCGGAAGAACCGCAGCAACCCTCACTGTTTTAA	MAEQLEFFPVQSPCRGICQTDERGYCRGCFRSREERFNWQTMSDAQKQEVLRLCRQRLLRKIRANRPEAAEEPQQPSLF	PGPT0013210_889	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013210-ydhL-K06938	NA	NA
BMS020_00606	537	nemR		HTH-type transcriptional repressor NemR	ATGCATCGCGGCTTTACCGGCATGGGCTTGAGCGAACTCCTGAAGACGGCGGAAGTGCCCAAGGGCTCTTTCTATCATTACTTTCGCTCTAAAGAAGCCTTCGGCGTCGCCTTGCTGGAAAACCATTTCGCCGGATATCTGCAGCGCCTGGTCGAGCATTTCGCCCATGGCGACGGCAACTATCGCGATCGGCTGCTGGCCTACTATCAGCACACGCTGAATCAGTTTTACCAGCAGGGAATTATTAGCGGGTGTCTTACCGTCAAGCTGTCGGCAGAGGTCTGCGATCTGTCGGAAGACATGCGCACCGCCATGAACCACGGCGCCAGCCAGATCATCGCCCTGCTGGGCGACGCGCTGGAGAAAGGACGCCAGGAAGGCAGTCTGACATTTGACGGCGAGGCCATGACCCTGTCGCAGGTGCTCTATTCCCTGTGGCTCGGCGCCAACCTGCAGGCCAAAATAACGCGTAGCGCAACGCCGCTGGAGAGCGCCCTTGCCCACGCGAAACAGATTATTGCGGCGCCTGCTGTTTAA	MHRGFTGMGLSELLKTAEVPKGSFYHYFRSKEAFGVALLENHFAGYLQRLVEHFAHGDGNYRDRLLAYYQHTLNQFYQQGIISGCLTVKLSAEVCDLSEDMRTAMNHGASQIIALLGDALEKGRQEGSLTFDGEAMTLSQVLYSLWLGANLQAKITRSATPLESALAHAKQIIAAPAV				NA	NA	NA	NA	NA
BMS020_00607	1098	nemA_1	COG1902	N-ethylmaleimide reductase	ATGTCGGAATCAAAATTATTCACCCCGTTGAAAGTCGGTGCCGTCACCGTCCCTAATCGCGTATTTATGGCTCCACTGACGCGTCTGCGCAGCATCGAGCCGGGCGATATCCCTACCCCGCTGATGGGCGAATATTACCGTCAGCGCGCCAGCTCCGGGCTGATCATCAGCGAAGCGACGCAGATTTCCGCCCAGGCCAAAGGCTATGCCGGCGCGCCAGGACTGCACAGCCCGGAGCAGATTGCCGCCTGGCAGAAAATCACCGCCGGCGTTCACGCGGAAAACGGCCATATCGCCGTGCAGCTGTGGCATACCGGGCGAATTTCCCATAGCAGCCTGCAGCCCGGCGGCGCCGCCCCGGTAGCGCCGTCTGCGCTGAGCGCCGGCACCCGCACCTCGCTGCGCGACGAAAACGGCCACGCCATCCGCGCCGATACCTCGATGCCTCGCGCTCTGGAAACCGAAGAGATCCCGGGGATCGTCGATGATTTCCGTCAGGCGGTGGGCAATGCCCGTGACGCCGGTTTCGATCTGGTTGAACTGCACTCGGCTCACGGCTATCTGCTGCACCAGTTCCTCTCGCCGTCGGCAAACCAGCGTACCGACCAGTATGGCGGCAGCGTGGAAAACCGCGCCCGTCTGGTGCTGGAGGTGGTTGACGCCGTGAGCAAAGAGTGGAGCGCCGACCGGATTGGCATCCGCGTGTCGCCGATTGGCAGCTTCCAGAATGTAGATAATGGCCCGAACGAAGAAGAAGACGCGCTGTATCTGATTAGCGAGCTGGCGAAACGCGGTATCGCCTATCTGCACATGTCCGAGCCGGACTGGGCGGGCGGCAAGCCGTACAGCGAAGCCTTCCGTCAGAAAGTTCGCGACCGCTTCCCGGGCGTGATCATTGGCGCTGGCGCCTACACCGTTGAAAAAGCCAACGACCTGATCAGCAAAGGGCTGATTGATGCCGTGGCCTTTGGCCGCGATTACATCGCCAACCCGGATCTGGTTGCCCGCCTGCAGAAAAAAGCGGCGCTCAACCCGCAGCGCCCGGAGTCCTTCTACGGCGGCGGCGCGGAAGGCTACACCGATTATCCTACGCTGTAA	MSESKLFTPLKVGAVTVPNRVFMAPLTRLRSIEPGDIPTPLMGEYYRQRASSGLIISEATQISAQAKGYAGAPGLHSPEQIAAWQKITAGVHAENGHIAVQLWHTGRISHSSLQPGGAAPVAPSALSAGTRTSLRDENGHAIRADTSMPRALETEEIPGIVDDFRQAVGNARDAGFDLVELHSAHGYLLHQFLSPSANQRTDQYGGSVENRARLVLEVVDAVSKEWSADRIGIRVSPIGSFQNVDNGPNEEEDALYLISELAKRGIAYLHMSEPDWAGGKPYSEAFRQKVRDRFPGVIIGAGAYTVEKANDLISKGLIDAVAFGRDYIANPDLVARLQKKAALNPQRPESFYGGGAEGYTDYPTL	PGPT0005930_1709	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_TOLULENE|DERIVATE_DEGRADATION	XENOBIOTIC_NITROTOLULENE_DEGRADATION,PGPT0005930-nemA-K10680	NA	NA
BMS020_00608	408	gloA_1	COG0346	Lactoylglutathione lyase	ATGCGCTTACTCCACACCATGCTGCGCGTTGGCGACCTGCAACGTTCTATCGACTTCTATACCAATGTGTTGGGCATGAAGCTGCTGCGCACCAGCGAAAACCCGGAGTACAAATACTCCCTCGCCTTCGTCGGCTACGGCGAAGAGAGCGATACCGCGGTGATCGAACTGACCTACAACTGGGGCGTGGACAGCTATGAGCTGGGCACCGCCTACGGTCACATCGCGCTGAGCGTCGACAACGCCGCCGAAGCCTGCGAGCGGATCCGCCAGAACGGGGGCAACGTTACCCGCGAAGCCGGGCCGGTAAAAGGCGGCAGCACCGTTATCGCCTTCGTGGAAGATCCTGACGGTTACAAAATCGAGCTGATTGAAGAGAAAGACGCCGGCAAAGGGCTGGGCAACTAA	MRLLHTMLRVGDLQRSIDFYTNVLGMKLLRTSENPEYKYSLAFVGYGEESDTAVIELTYNWGVDSYELGTAYGHIALSVDNAAEACERIRQNGGNVTREAGPVKGGSTVIAFVEDPDGYKIELIEEKDAGKGLGN	PGPT0013300_2916	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
BMS020_00609	648	rnt_1	COG0847	Ribonuclease T	ATGTCCGAGAACGCTCAACTGAATGGTCTATGCGACCGTTTCCGCGGTTTTTATCCAGTGGTGATTGATGTTGAAACCGCAGGATTTAATGCCAAAACCGACGCCCTGCTGGAGATCGCCGCCATTACGTTGAAGATGGATGAGCAAGGCTGGCTGATGCCCGATGAAACGCTGCATTTCCATGTTGAACCTTTCGAGGGCGCCAACCTTCAGCCCGAAGCGCTGGCCTTTAACGGGATTAACCCGCACGATCCAGAGCGCGGCGCCGTTAGCGAATACGACGCTCTGCATGCCATCTTCAAAATGGTACGCAAAGGGATGAAAGAGAGCGACTGCAGTCGGGCTATCATGGTGGCGCACAACGCCACATTTGACCACAGCTTCACCATGACCGCCGCCGAACGGGCGGGGCTAAAACGCAACCCGTTCCATCCGTTTGTCACCTTTGACACCGCCGCGCTGAGCGGGCTGGCTTTGGGCCAGACGGTGTTGTCGAAAGCCTGTATTGCCGCGGGTATGCCGTTCGACGGCGCGCAGGCCCACTCCGCCCTCTACGATACCGAGCAGACGGCACAGCTGTTTTGCGAGATAGTGAACCGCTGGAAGCGTCTGGGCGGTTGGCCGCTGCCGGTGGCGACGCCGGAGTGA	MSENAQLNGLCDRFRGFYPVVIDVETAGFNAKTDALLEIAAITLKMDEQGWLMPDETLHFHVEPFEGANLQPEALAFNGINPHDPERGAVSEYDALHAIFKMVRKGMKESDCSRAIMVAHNATFDHSFTMTAAERAGLKRNPFHPFVTFDTAALSGLALGQTVLSKACIAAGMPFDGAQAHSALYDTEQTAQLFCEIVNRWKRLGGWPLPVATPE				NA	NA	NA	NA	NA
BMS020_00610	348	grxD_1	COG0278	Glutaredoxin 4	ATGAGCTCGACTTTAGAAAAGATCCAACGCCAAATCGCTGAAAACCCGATCCTGCTGTACATGAAAGGTTCGCCGAAGCTGCCAAGCTGCGGTTTCTCCGCTCAGGCCGTTCAGGCGCTGTCCGCCTGTGGCGAACGTTTTGCTTACGTTGATATCCTGCAGAACCCGGATATCCGCGCCGAGCTGCCAAAATATGCCAACTGGCCGACCTTCCCGCAGCTGTGGGTGGACGGTGAACTGGTGGGCGGCTGCGATATCGTCATCGAGATGTACCAGCGCGGTGAACTGCAGCAGCTGATCAAAGAGACAGCGGCGAAATACCACACTGACGAGCCGAAAGCGGAATAA	MSSTLEKIQRQIAENPILLYMKGSPKLPSCGFSAQAVQALSACGERFAYVDILQNPDIRAELPKYANWPTFPQLWVDGELVGGCDIVIEMYQRGELQQLIKETAAKYHTDEPKAE	PGPT0013203_929	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CHAPERONES,PGPT0013203-grxD-K07390	NA	NA
BMS020_00611	873	mepH	COG0791	Murein DD-endopeptidase MepH	GTGGCGCGGCTAAACAAAATCGCGATATCGCTCTGTGCATTACTGTTCACATCTATCTCATTCACGCCACTGGCTCAGGCTTCAGGGCATACGCACGCCTCCGCCTCGCCAAAGGCGTTGCCCGCGAAAAGCGGCTCAGAGCGCAAGAAAAAAGCAACCAGTCAAAAAAGTAAAACCACCGCTAAAACCACCAGTAAAAAATCCTCGAGCACCCGGCTCCCTACCCGCTCTACCGCAGCAAGCCAAACCGCGCTTCATCGTCAGGCCGCCGGCGCCACGAAAAAATGCGTGCTGCGTAAAGGGTATAAAAAGCAGTGCGCAAAAACGGTGACCGCCAGCGCCGAGCCGGCCCTGGCGCTGAACAGCGTCAAAAGCAAATGCGTGGTGCGTAAGGGCTATAAAAAACGCTGTAAACCCGAGGCCAGCGAAGCGAATCTGACGATCGCCGACGCGCATAAAGTCCGGGTGCAAAAAGCGCAGAGTACCGCCATGAACAAACTGATGGGCCAGCTGGGTAAACCGTATCGCTGGGGCGGCACCTCGCCGCGCACCGGGTTCGACTGCAGCGGGCTGGTCTATTACGCCTACAAAGACCTGGTCAAGATTCATATCCCGCGTACCGCCAATGAAATGTACCACCTGCGCGATGCGCGTCCGGTCGATCGTGACGAACTGCAGAGCGGCGACCTGGTCTTCTTCCGCACCCGCGGACGCGGCACTGCCGACCACGTTGGCGTTTACGTCGGCAACGGGAAATTCATTCAGTCCCCGCGCACGGGGCGCGATATTCAAATCACCTCCCTGAGCGAAGATTACTGGGTACGTCATTACGTCGGCGCCCGTCGCGTCATGACCCCGAAAACCATTCGCTGA	MARLNKIAISLCALLFTSISFTPLAQASGHTHASASPKALPAKSGSERKKKATSQKSKTTAKTTSKKSSSTRLPTRSTAASQTALHRQAAGATKKCVLRKGYKKQCAKTVTASAEPALALNSVKSKCVVRKGYKKRCKPEASEANLTIADAHKVRVQKAQSTAMNKLMGQLGKPYRWGGTSPRTGFDCSGLVYYAYKDLVKIHIPRTANEMYHLRDARPVDRDELQSGDLVFFRTRGRGTADHVGVYVGNGKFIQSPRTGRDIQITSLSEDYWVRHYVGARRVMTPKTIR	PGPT0023830_75	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_DD-ENDOPEPTIDASE_ACTIVITY,PGPT0023830-mepH-K19303	NA	NA
BMS020_00612	486	rhaS_4		HTH-type transcriptional activator RhaS	ATGGCAAAAACAGATGAAGTGGTAAGCCCGAAAATGATCCCGGTCGTGCAGGGGATCGTTGACTGGATCGAAGCACATATTTTTGACACCCTGCCGGTAAGCGCGATAGCGAAAAAGTCCGGCTACTCGCACTGGTATTTCCAGCGGCAATTCGCCATGGTGACCGGCTGCACGCTGGCGAGCTACGTCAGCCGACGGAAGATGACCATCGCGACAATCTACTTAACGCAGACCGAGGCCTCCATGCAGAGTATTTCCCAACGTCTGGGGTACGACGGGCAGGCGGCGTTCTGCCGCACCTTTCACCGTCACTTTGGCATGTCGCCCACCCGCTATCGTCGGGAAGCGCCGGTCACAGAGGCGAATATGCAGTTTCCCCTGACGGTGGGGGCGGAGAACGCGCAGGTGAAGAGGGCTGCCGCCGTAGCGGCAGACCGGGATCAGCGAATGGTTTTCGGGGTCATGACGCGACGGGCGCCGACGTAA	MAKTDEVVSPKMIPVVQGIVDWIEAHIFDTLPVSAIAKKSGYSHWYFQRQFAMVTGCTLASYVSRRKMTIATIYLTQTEASMQSISQRLGYDGQAAFCRTFHRHFGMSPTRYRREAPVTEANMQFPLTVGAENAQVKRAAAVAADRDQRMVFGVMTRRAPT	PGPT0012960_8	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012960-soxS-K13631	NA	NA
BMS020_00613	582	sodB_1	COG0605	Superoxide dismutase [Fe]	ATGTCGTTTGAATTACCTGCATTACCATATGCAAAAGACGCCCTGGCGCCGCACATTTCCGCAGAAACCCTGGAATACCACTACGGTAAACACCACCAGGCATATGTCACTAACCTCAACAACCTGATCAAAGGCACCGCGTTCGAAGGTCAATCGCTCGAAGAGATCGTGCGCACCTCTGAAGGCGGCGTTTTCAACAACGCGGCGCAGGTCTGGAACCACACCTTCTACTGGAACTGCCTGGCGCCGAACGCCGGCGGCGAACCGGAAGGCGAGCTGGCGGCCGCGATTGCCAAATCCTTCGGCAGCTTCGCAGAGTTTAAGGCCAAATTTACCGACGCCGCGGCGAAAAACTTTGGCGCTGGCTGGACCTGGCTGGTTAAAAATGCCGACGGCAGCCTGGCTATCGTCTCCACCAGCAACGCGGGTACCCCGCTGACCACCGACGCGAAGCCGCTGCTGACCGTTGACGTCTGGGAACATGCTTACTACATCGACTACCGCAACGCCCGTCCAAGCTATCTGGACCACTTCTGGGCGCTGGTTAACTGGAAGTTTGTTGCCGCTAACCTGGCCGCATAA	MSFELPALPYAKDALAPHISAETLEYHYGKHHQAYVTNLNNLIKGTAFEGQSLEEIVRTSEGGVFNNAAQVWNHTFYWNCLAPNAGGEPEGELAAAIAKSFGSFAEFKAKFTDAAAKNFGAGWTWLVKNADGSLAIVSTSNAGTPLTTDAKPLLTVDVWEHAYYIDYRNARPSYLDHFWALVNWKFVAANLAA	PGPT0004190_5897	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
BMS020_00614	1170	ydhP_2	COG2814	Inner membrane transport protein YdhP	ATGAAAATCAACTTTCCTTTACTCGCGCTGGCGATCGGCGCCTTTGGCATTGGGACTACCGAGTTCTCCCCGATGGGATTGCTGCCGGTGATTGCCAAGGGCGTGGACGTCTCGATACCGGTAGCGGGAATGCTGATCAGTGCGTATGCCATCGGCGTCATGGTCGGCGCGCCGCTGATGACCCTGCTGCTGTCCCATCGTGCCCGACGCAATGCGCTGATTTTTCTGATGGGGATCTTCACCGTCGGCAACCTGCTGTCATCCATTGCGCCGGATTACACCACGCTGCTGCTGTCGCGCATTATTACCAGCCTCAACCACGGCGCCTTTTTTGGCCTGGGGTCGGTGGTGGCGGCCAGCGTGGTGCCCAAGCACAAGCAGGCCAGCGCGGTGGCCACCATGTTTATGGGCCTCACCATCGCTAATATCGGCGGCGTGCCTGCCGCGACCTGGCTTGGAGAAACCATCGGCTGGCGGATGTCCTTCCTCGCCACCGCGGGGTTAGGCCTGCTGGCGATGGTGAGCCTGTGGTTCTCCCTGCCGAAGGGCAGCGCGGGCGAACGGCCGGATGTCAAACAAGAGCTTTCGGTCCTGTTACGGCCGCAGGTGCTTTCTGCCTTACTGACCACCGTGCTGGGCGCCGGGGCGATGTTTACGCTGTATACCTACATTTCGCCGGTACTGAATTCGCTGACCCATGCTTCATCGCTGTTTATCACCGCGATGCTGGTGCTGATTGGAGTTGGTTTTTCGCTGGGCAACTATCTGGGCGGCAAATTCGCCGACCGGTCGGTCTCCCGCACGCTGAAAGGCTTTCTGCTGCTGCTGATGGCGATCATGCTGGCGATACCGCTGCTGGCGCAATCCCAGGCGGGTGCGGCCATCAGTATGATCGTCTGGGGCGCAGCCACCTTTGCGGTAGTGCCGCCGCTGCAGATGCGAGTGATGCGCGTGGCGCATGAGGCGCCGGGTCTCTCTTCTTCGGTGAATATCGGGGCGTTCAACCTGGGCAACGCGCTGGGCGCCGCCGCCGGCGGGGCGGTGATCTCCGGCGGACTGGGATATGCGTTTGTGCCGGTGATGGGCGCGATTATTGCCGGTCTGGCGCTGCTGCTGGTCTGGTTTAGCGGACGAGCGCAGCCGGAGGAGGCCTTTGCCAGCCAGTCATAA	MKINFPLLALAIGAFGIGTTEFSPMGLLPVIAKGVDVSIPVAGMLISAYAIGVMVGAPLMTLLLSHRARRNALIFLMGIFTVGNLLSSIAPDYTTLLLSRIITSLNHGAFFGLGSVVAASVVPKHKQASAVATMFMGLTIANIGGVPAATWLGETIGWRMSFLATAGLGLLAMVSLWFSLPKGSAGERPDVKQELSVLLRPQVLSALLTTVLGAGAMFTLYTYISPVLNSLTHASSLFITAMLVLIGVGFSLGNYLGGKFADRSVSRTLKGFLLLLMAIMLAIPLLAQSQAGAAISMIVWGAATFAVVPPLQMRVMRVAHEAPGLSSSVNIGAFNLGNALGAAAGGAVISGGLGYAFVPVMGAIIAGLALLLVWFSGRAQPEEAFASQS	PGPT0028991_3351	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
BMS020_00616	93			hypothetical protein	ATGATGGATACCAATTTAAAGTTTTCGCTGATCACCACGATTATTGCCCTCGGCGTGATCGTCGCATTCAGCCTGACCGCCATACTGCACTAA	MMDTNLKFSLITTIIALGVIVAFSLTAILH				NA	NA	NA	NA	NA
BMS020_00617	1026	purR_1	COG1609	HTH-type transcriptional repressor PurR	ATGGCAACTATTAAAGATGTAGCGAAGCGCGCAAACGTTTCCACTACAACTGTGTCACATGTAATTAACAAAACCCGTTTCGTTGCCGAAGAGACGCGCAATGCGGTATGGGCGGCGATTAAAGAGCTGCACTACTCGCCGAGCGCCGTGGCCCGCAGCCTGAAAGTCAATCATACAAAATCGATTGGCCTGCTGGCGACCAGTAGCGAAGCCGCCTATTTCGCTGAAATCATTGAGTCCGTTGAAAAGAGCTGCTTCCAGAAGGGCTATACCCTGATTCTCGGCAACGCCTGGAACGACCCGGAAAAACAGCGGGCCTATCTGTCGATGATGGCGCAAAAACGCGTCGACGGTCTGCTGGTGATGTGTTCCGAATACCCGGATTCCGTCCTGAGCATGCTGGAAGAGTATCGCCATATTCCGATGGTGGTGATGGACTGGGGCGAAGCAAAAGCCGACTTTACCGATGCGGTAATCGATAACGCCTTCCAGGGCGGGTATATCGCCGGACGTTACCTGATTGAACGCGGTCACCGCGAAATCGGCGTGATCCCGGGCCCGCTGGAGCGCAACACCGGCGCGGGGCGACTGGCCGGCTTCATGCAGGCGATGAAAGAGGCGCATATCAGCGTGCCGGAAAACTGGATTGTACAGGGCGACTTCGAGCCGGAGTCCGGCTACCGCGCCATGCAGCAGATCCTGAGCCAACAACACCGTCCAACGGCGGTCTTCTGCGGCGGCGACATTATGGCGATGGGCGCTATCTGCGCCGCGGATGAAATGGGGCTGCGCGTGCCGCAGGACATTTCGCTGATCGGTTATGATAATGTGCGCAACGCCCGCTATTTCAGCCCGGCGTTAACCACCATTCATCAGCCGAAAGATTCGCTGGGCGAAGCCGCGTTCAATATGCTGTTGGATCGTATCGTCAACAAGCGCGAAGAGTCGCAGTCTATTGAAGTGCACCCTCGGCTGGTCGAACGCCGCTCGGTGGCGGATGGCCCGTTTGTCGACTATCGTCGCTAA	MATIKDVAKRANVSTTTVSHVINKTRFVAEETRNAVWAAIKELHYSPSAVARSLKVNHTKSIGLLATSSEAAYFAEIIESVEKSCFQKGYTLILGNAWNDPEKQRAYLSMMAQKRVDGLLVMCSEYPDSVLSMLEEYRHIPMVVMDWGEAKADFTDAVIDNAFQGGYIAGRYLIERGHREIGVIPGPLERNTGAGRLAGFMQAMKEAHISVPENWIVQGDFEPESGYRAMQQILSQQHRPTAVFCGGDIMAMGAICAADEMGLRVPQDISLIGYDNVRNARYFSPALTTIHQPKDSLGEAAFNMLLDRIVNKREESQSIEVHPRLVERRSVADGPFVDYRR	PGPT0017992_12180	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
BMS020_00618	912	yahB		putative HTH-type transcriptional regulator YahB	ATGTGGTCTGAATACTCTCTGGAAGTGGTTGATGCCGTCGCCCGTAACGGCAGCTTTAGCGCGGCGGCGCAGGAGCTCCATCGGGTGCCTTCCGCCGTCAGCTATACCGTGCGTCAGCTCGAAGAGTGGCTGGCCGTCCCGCTGTTTGAGCGCCGTCATCGTGATGTGGAGCTGACCCCCGCCGGGGTCTGGTTTTTACAGGAAGGGCGCTCTGTTATCAAAAAAATGCAGATCACCCGCCAGCAGTGCCAGCAAATTGCCAACGGCTGGCGCGGGCAGTTGTCGATCGCGGTGGACGATATCGTGAAACCCGCGCGGATGCGCCAGATGATCGTGGATTTCTATCGCCATTTTCCCGACGTCGAGCTGATCGTTTTTCAGGAAGTGTTCAATGGGGTATGGGATGCGCTGGCCGACGGCCGCGTGGAGCTGGCGATTGGCGCAACGCGCTCTATTCCGGTTGGGGGCCGCTATGCGTTCCGCGATATGGGGATGCTGAGCTGGGACTGCGTGGTGGCGAGCGCTCACCCGCTGGCGAAGATGGCGGGGCCGCTGAGCGACGATGTCCTGCGCAACTGGCCGTCTCTGGTGCGGGAAGATACCTCGCGTTCGTTGCCCAAACGGACAACGTGGCTGCTGGATAACCAGAAGAGGGTGGTGGTCCCCGACTGGGAATCGTCGGCAACCTGTCTGTCGGCAGGGCTCTGCGTCGGCATGGTGCCAAGCCATTTCGCCCGGCCATGGGTGGATCGCGGCGAGTGGACCGCGCTGGCGCTGGAAAATCCGTTTCCGGATGCGGCCTGCTGTCTGACCTGGCAGCAGAATGATGCTTCGCCGGCGTTAAACTGGATGCTGGACTACCTGGGGGACAGCGACACGCTGAATCGGGAGTGGCTGCGGGCGCCGGAGTGA	MWSEYSLEVVDAVARNGSFSAAAQELHRVPSAVSYTVRQLEEWLAVPLFERRHRDVELTPAGVWFLQEGRSVIKKMQITRQQCQQIANGWRGQLSIAVDDIVKPARMRQMIVDFYRHFPDVELIVFQEVFNGVWDALADGRVELAIGATRSIPVGGRYAFRDMGMLSWDCVVASAHPLAKMAGPLSDDVLRNWPSLVREDTSRSLPKRTTWLLDNQKRVVVPDWESSATCLSAGLCVGMVPSHFARPWVDRGEWTALALENPFPDAACCLTWQQNDASPALNWMLDYLGDSDTLNREWLRAPE				NA	NA	NA	NA	NA
BMS020_00619	1182	ydhC		Inner membrane transport protein YdhC	ATGTCACAACCTGGGAAAGGATTTTTAGTCTGGCTGGCCGGCCTGAGCGTGCTGGGCTTTCTGGCCACCGATATGTACCTGCCGGCATTTGCCGCCATGCAGCAGGATCTTGACACCTCCGCCGCATCCATTAGCGCCAGCCTGAGCCTGTTCCTCGCCGGCTTCGCGCTGGGCCAGCTCTTCTGGGGGCCGCTGTCAGACCGCTACGGGCGCAAACCGGTGCTGCTGAGCGGCCTGGCGATTTTCGCGGTCGGCTGCCTGGGAATGCTGTGGGTGCAGAACGCCACGCTGATGCTGGCGCTGCGTTTTCTGCAGGCGATTGGCGTCTGCGCCGCGGCGGTCACCTGGCAGGCGATGGTGACCGATTACTATCCCGCCCAGCGCACCAACCGCATCTTCGCCACTATTATGCCGCTGGTAGGACTGTCCCCTGCGCTGGCCCCGCTGCTGGGCAGCTGGCTGCTGGTACACTTCGAGTGGCAAGCCATCTTCGCCACCTTGTTTGCCATCACTCTGCTGCTGATGCTGCCTGCCCTGCGCCTGAAGGCCGCCGCTAAGTCGGCCACAGTGGCTGAAAAGAAAATCACTTTTCTGGCGCTGCTGCGCTCCCGGGAATACAGCGGCAACGTCCTGATCTACGCCGCCTGCTCCGCCAGCTTCTTCGCCTGGCTTACCGGTTCGCCGTTTATCCTTCATGAGATGGGCTACGGCCCGACCGCCATCGGCCTGAGCTATATCCCGCAGACCATCGCTTTTCTGGTGGGCGGCTATGGCTGTCGCGCGCTGCTGCAAAAATGGTCCGGGCAACAAATGCTCCCGTGGCTGCTGGTGGTCTTCGCCGTCAGCGTCGCCGCCACCTGGCTGGTGGGTCTGCAAACGCATGCCTCGCTGGTGGCGTTAATGATCCCGTTCTGCCTGATGGCGGTGGTCAACGGCGGGATCTACCCCATCGTGGTCGCTCAGGCGTTGAAGCCTTTCCCGCAGGCAACCGGCCGCGCGGCGGCGCTGCAGAACACCCTCCAGCTTGGCCTGTGCTTCCTGACCAGCCTGCTAGTCTCCGCGCTGATCGCCACGCCGCTGCTGACCACCACCAGCGTGATGCTGGTCTCTATTTTGTTAGCCGGAGTGGGTTATCGCCTGCAGCAGACGCCAGCGCTGGCGGCCCACTCTTCCCACGCCTGA	MSQPGKGFLVWLAGLSVLGFLATDMYLPAFAAMQQDLDTSAASISASLSLFLAGFALGQLFWGPLSDRYGRKPVLLSGLAIFAVGCLGMLWVQNATLMLALRFLQAIGVCAAAVTWQAMVTDYYPAQRTNRIFATIMPLVGLSPALAPLLGSWLLVHFEWQAIFATLFAITLLLMLPALRLKAAAKSATVAEKKITFLALLRSREYSGNVLIYAACSASFFAWLTGSPFILHEMGYGPTAIGLSYIPQTIAFLVGGYGCRALLQKWSGQQMLPWLLVVFAVSVAATWLVGLQTHASLVALMIPFCLMAVVNGGIYPIVVAQALKPFPQATGRAAALQNTLQLGLCFLTSLLVSALIATPLLTTTSVMLVSILLAGVGYRLQQTPALAAHSSHA				NA	NA	NA	NA	NA
BMS020_00620	1149	cfa_1	COG2230	Cyclopropane-fatty-acyl-phospholipid synthase	ATGAGTTCATCGTGTATAGAAGAAGTAAGTGTACCAAATGATGACTGGTACCGGATTGCAGCTGAATTGTTGGGCCGTGCGGGAATTGAAATCAATGGCTCCGCGCCGTCAGACCTGCGGATTAAAAACCCTCTTTTTTTTAAACGCGTATTGCAGGAGGGGTCGCTGGGTTTAGGCGAAAGCTATATGGACGGCTGGTGGGACTGCGAGCGTCTGGATATATTCTTCCATAAAGTGCTCCGCGCCGGGCTGGAAAAACAACTCCCTCACCATTTCAAAGACACACTCCGCATCGCAGGCGCTCGCCTGTTTAACCTGCAAAGTAAAAAACGCGCCTGGATCGTCGGCAAAGAGCACTATGACCTCGGCAACGATCTTTTCAGCCGGATGCTGGATCCCTACATGCAATATTCCTGCGGGTACTGGAAAGAGGCGCAGACCCTCGAAGCCGCGCAGCAGGATAAGCTGGATCTCATCTGCCGTAAGCTGGAGCTCGAGCCAGGCATGCGAGTGCTGGATATCGGCTGCGGCTGGGGCGGTCTTGCCGAATATATGGCGCGGAATTATCAGGTGAGCGTTGTCGGCGTGACCATCTCCGCCGAACAGCAAAAGATGGCCCAGGCGCGCTGCGATGGCCTTGACGTGGATATTCGTCTTCAGGATTATCGCGATCTGCACGACAGCTTCGACCGCATCGTCTCCGTCGGCATGTTCGAACACGTGGGTCCCAAAAATTACGCCACCTACTTTGAGGTCGCCGATCGTAATTTGAAACCCAACGGCCGCTTCTTACTGCACACCATCGGTTCCAAAGTCACCGACCATAACGTTGACCCGTGGATCAATAAATATATCTTCCCTAACGGCTGCCTGCCCTCGGTACGGCAGATCGCCGATGCCAGCGAGAAGCACTTTGTGATGGAAGACTGGCACAACTTCGGCGCCGATTATGACACCACCCTGATGGCCTGGTATGAGCGTTTCCTCGCCAGCTGGCCGGAAATTGCCGATAACTATTCTGAGCGTTTCAAACGCATGTTCAGTTATTACCTGAACGCCTGCGCCGGCGCCTTCCGCGCCCGCGACATTCAGCTCTGGCAGGTGGTGTTCTCGCGCGGGATTGAACACGGACTGCGCGTCGCCCGTTAA	MSSSCIEEVSVPNDDWYRIAAELLGRAGIEINGSAPSDLRIKNPLFFKRVLQEGSLGLGESYMDGWWDCERLDIFFHKVLRAGLEKQLPHHFKDTLRIAGARLFNLQSKKRAWIVGKEHYDLGNDLFSRMLDPYMQYSCGYWKEAQTLEAAQQDKLDLICRKLELEPGMRVLDIGCGWGGLAEYMARNYQVSVVGVTISAEQQKMAQARCDGLDVDIRLQDYRDLHDSFDRIVSVGMFEHVGPKNYATYFEVADRNLKPNGRFLLHTIGSKVTDHNVDPWINKYIFPNGCLPSVRQIADASEKHFVMEDWHNFGADYDTTLMAWYERFLASWPEIADNYSERFKRMFSYYLNACAGAFRARDIQLWQVVFSRGIEHGLRVAR	PGPT0007680_4241	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-PHOSPHOLIPID_PRODUCTION	PLANT_SIGNAL-PHOSPOLIPID_METABOLISM	PLANT_SIGNAL-CYCLOPROPANE-FATTY-ACYL-PHOSPHOLIPID_BIOSYNTHESIS,PGPT0007680-cfa-K00574	NA	NA
BMS020_00621	636	ribC	COG0307	Riboflavin synthase	ATGTTTACTGGTATTGTTCAGGGAACCGCGAAAGTGGTCTCCATTGATGATAAACCCAATTTTCGCACCCACGTGGTGGAGCTGCCGGCGCATATGCTGGAGGGGCTCGAAACCGGGGCATCGGTAGCCAACAACGGCTGCTGCCTGACGGTGACCGACATCAACGGCGCGCGCATCAGCTTCGATCTGATGAAAGAGACGCTGCGGATTACCAACCTCGGCGATATTCAGGTCGGGGATGAAGTCAATGTCGAACGGGCGGCGAAATTCAGTGATGAAATTGGCGGGCATTTGATGTCCGGCCATATTATGACCACGGCGGAAATCGTGAAGATCCTCACTTCCGAAAATAACCGTCAGATCTGGTTTAAAGTACAGGATCCGACGCTGATGAAATATATCCTTTATAAAGGATTCATCGGTATCGATGGCATCAGCCTGACGGTAGGCGAGGTGACGGCAACCCGATTCTGCGTGCATCTTATTCCGGAGACGCTGCAGCGGACCACGCTGGGGGCGAAGAAGCTGGGCGACCGCGTCAATATCGAGATCGACCCGCAAACCCAGGCGGTTGTCGATACGGTTGAACGCGTGCTGGCGGCGAAAGAGGTCGCGGCTAAGGTCAGTGAAGCCTGA	MFTGIVQGTAKVVSIDDKPNFRTHVVELPAHMLEGLETGASVANNGCCLTVTDINGARISFDLMKETLRITNLGDIQVGDEVNVERAAKFSDEIGGHLMSGHIMTTAEIVKILTSENNRQIWFKVQDPTLMKYILYKGFIGIDGISLTVGEVTATRFCVHLIPETLQRTTLGAKKLGDRVNIEIDPQTQAVVDTVERVLAAKEVAAKVSEA	PGPT0008610_2222	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
BMS020_00622	1374	mdtK	COG0534	Multidrug resistance protein MdtK	GTGCAGAAGTATTTCATTGAAGCGCGTCAGTTATTAGCTCTGGCTATACCCGTCATTCTTGCGCAAGTGGCGCAGACGGCGATGGGTTTTGTCGATACCGTGATGGCGGGCGGCTACAGCGCCACCGATATGGCCGCGGTGGCCATCGGGACCTCCATCTGGCTACCGGCCATTCTCTTCGGCCACGGGCTGCTGCTGGCGCTGACCCCGGTGGTGGCGCAGCTCAATGGCTCCGGGCGGCGGGAGCGTATCGCGCCTCAGGTGCGTCAGGGCTTCTGGCTGGCGGGGCTGGTCTCGGTGCTGATCATGATCGTGCTGTGGAATGCCGGGTATATCATCAGCTCCATGCACAACATCGATCCGCTGCTGGCGGAGAAAGCGGTTGGCTATCTGCGCGCGCTGCTGTGGGGAGCGCCGGGCTACCTGTTCTTCCAGGTCGCCCGTAACCAGTGTGAAGGGCTGGCGAAAACCAAGCCCGGGATGGTCATGGGCTTTATCGGTTTACTGGTCAACATTCCGGTGAACTACATCTTTATCTATGGCCATTTTGGCATGCCGGAGCTGGGCGGCGTCGGCTGCGGCGTGGCGACGGCCTCCGTTTACTGGGTGATGTTCGCCAGCATGCTGTGGTGGGTGCGCCGGGCGCGTTCGATGCGCGATATCCGCTGCGCCGAGGGCTTCAGCGGCCCCGATTTCGCCGTTCTGCTGCGGTTGGTGCAGCTGGGGCTGCCCATCGCCCTGGCGCTGTTCTTCGAAGTGACCCTGTTTGCCGTCGTCGCGCTGCTGGTCTCTCCGCTCGGGATCATTGACGTCGCCGGCCACCAGATTGCGCTGAACTTCAGCTCGTTGATGTTCGTTCTGCCGCTGTCGCTGGCGGCCGCGGTCACCATTCGCGTCGGCTTCCGCCTCGGCCAGGGCTCAACGATCGATGCCCAGGTTTCCGCCCGCACGGGCGTGGGCGTGGGCGTCTGCCTGGCGGTATTTACCGCTATCTTTACCGTGCTGATGCGTAAGCAGATTGCCCTGCTGTATAACGATAACCCTGAGGTGGTGATGCTGGCCTCGCATCTGATGCTGCTGGCGGCGATCTACCAGATCTCCGACTCCATTCAGGTGATCGGCAGCGGTATCCTGCGTGGCTATAAGGATACGCGGTCTATCTTTTTTATCACCTTTACCGCGTACTGGGTGCTGGGTTTGCCCAGCGGCTACCTGCTGGCACTGACCGACGTGATTGTCCCCCGCATGGGGCCCGCCGGCTTCTGGTGCGGATTTATCATCGGCCTGACCTCCGCCGCCATTATGATGATGCTGCGGATGCGTTTTCTGCAGCGCCAGCCCTCCAGCACTATCTTACAGCGCGCCGCGCGCTAA	MQKYFIEARQLLALAIPVILAQVAQTAMGFVDTVMAGGYSATDMAAVAIGTSIWLPAILFGHGLLLALTPVVAQLNGSGRRERIAPQVRQGFWLAGLVSVLIMIVLWNAGYIISSMHNIDPLLAEKAVGYLRALLWGAPGYLFFQVARNQCEGLAKTKPGMVMGFIGLLVNIPVNYIFIYGHFGMPELGGVGCGVATASVYWVMFASMLWWVRRARSMRDIRCAEGFSGPDFAVLLRLVQLGLPIALALFFEVTLFAVVALLVSPLGIIDVAGHQIALNFSSLMFVLPLSLAAAVTIRVGFRLGQGSTIDAQVSARTGVGVGVCLAVFTAIFTVLMRKQIALLYNDNPEVVMLASHLMLLAAIYQISDSIQVIGSGILRGYKDTRSIFFITFTAYWVLGLPSGYLLALTDVIVPRMGPAGFWCGFIIGLTSAAIMMMLRMRFLQRQPSSTILQRAAR	PGPT0029115_7237	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
BMS020_00623	408	asr		Acid shock protein	ATGAAAAAAGTATTAGCTCTGGTTGTTGCCGCTGCTATGGGTCTGTCATCTGTTGCTTTCGCCGCCGATGCCGCGACCACCACCCCGGCTGCCGCAGCCAGCCACACCACCGTTCATCACAAGAAACATCATAAAGCGGCGGCGAAACCAGCAGCCGAACAGAAAGCCCAGGCAGCGAAGAAACACCATAAAGCCGCAGCGAAACCGGCAGTAGCGCAGAAAGCCCAGGCGGCGAAGAAACACCACAAAGCCGCGGCGAAACCGGCGGCCGCGCAGAAAGCCCAGGCGGCGAAGAAGCACCACAAAGCCGCAGCGAAACCGGCTGTAGCGCAGAAAGCCCAGGCGGCGAAGAAGCACCACAAAGCGGCGCACCACGCAGCCAAACCGGCGGTACAACCGGCGGCATAA	MKKVLALVVAAAMGLSSVAFAADAATTTPAAAASHTTVHHKKHHKAAAKPAAEQKAQAAKKHHKAAAKPAVAQKAQAAKKHHKAAAKPAAAQKAQAAKKHHKAAAKPAVAQKAQAAKKHHKAAHHAAKPAVQPAA				NA	NA	NA	NA	NA
BMS020_00624	579		COG1611	Putative cytokinin riboside 5'-monophosphate phosphoribohydrolase	ATGAAATCGATAGGTATTTTCTGCGGTTCTTCAGCTGGCGAACATCCGCTGTATCTCGACACTGCCCGACGGGTTGGCCACACGCTGGCGCAGCAGGGACTGGCTGTTGTCTATGGCGGCGGCAAAGTTGGCTTGATGGGGGCGGTTGCCGATGCGGCGCTTGAGGCCGGGGGCGTGGTGATTGGCGTGATGCCGCGCGGCCTGGTGGAGCGGGAAATTGCCCATCGCGGGTTGACGGAGCTGCATGTGGTTGAGGATATGCACGAACGGAAAACCAAAATGGCGGCGCTTGCCGACGGCTTTATTGCTCTGCCGGGCGGAGCGGGGACGCTGGAAGAGATTTTCGAACAGTGGACCTGGGCGCAGTTGGGCATCCATGAAAAACCGTGCGCATTTCTGAATATTAAAGGGTATTACGATCCGCTGCAGGCGATGGTCAATAACATGGTGCGGGAAGGGTTTATGCACCCGCGCTACGCGGAGATGCTGCCGTTTGCTGCCTCGGCAGAGGAGATTATCGCCGGTTTTCGCGACTATACGCCGCCGGCGCGTAAATGGGTTCAGCAGCCCGCTATTTAA	MKSIGIFCGSSAGEHPLYLDTARRVGHTLAQQGLAVVYGGGKVGLMGAVADAALEAGGVVIGVMPRGLVEREIAHRGLTELHVVEDMHERKTKMAALADGFIALPGGAGTLEEIFEQWTWAQLGIHEKPCAFLNIKGYYDPLQAMVNNMVREGFMHPRYAEMLPFAASAEEIIAGFRDYTPPARKWVQQPAI	PGPT0008350_31	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
BMS020_00628	789	ydfG_2	COG4221	NADP-dependent 3-hydroxy acid dehydrogenase YdfG	ATGATGAAAAGGAAGAAGCCAATCGGAGACAGAGAGATGCAAACGATTATGATCACCGGCTGTTCATCGGGTTTTGGCCTGGAGACGGCGCGTTATTTTCTTGAACAGGGCTGGAAGGTTATCGCCACGATGCGGGTTCTGCGAGAGGATCTGTTGCCAGCCAGCGACCGTCTGCGGCTGGTGCGCCTTGACGTCACCTCAGCGCAGAGTATCGCCGAGGCGATTGCCGAGGCCGGAGAGATTGACGTTCTGGTCAATAACGCCGGAGTGGGGATGCTCAACGCCCTGGAGGGGGCGTCGCACGAGGCGATAGCGAACCTGTTTGCCACCAATACTCTTGGGACTATCGCCATGACCCAGGCGGTACTTCCCCGGTTCAGAGCGCGCCGTAGCGGGACGATCGTGAATATCACCTCGGCGGTCACCCTACAGCCGATGCCCCTGCTGGCGGTCTATACCGCGAGTAAGGCGGCGGTGAACGCCTTCACGGCATCCCTGGCGCTGGAGCTGCGGCCCTTCAATATTCGCGTCGGGGTGATCCTGCCGGGACGCGATCCCCAGACCCGCTTCGGGGAAAACGCGCGTCGAACGATGGGCCAGCTCCCGGAGAGCTATGCGGCGCTCGGCCAGCAGATCCTCGACAGCATCCAGGAAAACGCCAGCGTGACGCGGGCTGTCGATGTGGCTCAGGCCGTCTGGCGAATGGTGAACGATCCTGATGCCCCTTCGCGGCTGCCGGCAGGGGATGATGCCCTGGCGATGGCGCAGGCCAGTCGGAGTCGCGAATAA	MMKRKKPIGDREMQTIMITGCSSGFGLETARYFLEQGWKVIATMRVLREDLLPASDRLRLVRLDVTSAQSIAEAIAEAGEIDVLVNNAGVGMLNALEGASHEAIANLFATNTLGTIAMTQAVLPRFRARRSGTIVNITSAVTLQPMPLLAVYTASKAAVNAFTASLALELRPFNIRVGVILPGRDPQTRFGENARRTMGQLPESYAALGQQILDSIQENASVTRAVDVAQAVWRMVNDPDAPSRLPAGDDALAMAQASRSRE	PGPT0019185_577	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0019185-nglA-K01205	NA	NA
BMS020_00629	927		COG3039	IS5 family transposase IS4811	ATGAGCGACCCGCTGGCGGAAATCATTGCGATGCTAAATCTCAGAGCGGTGCTGACCAAAACCATTGAGGGGGCGGGAGAATGGCGCGTCATTCGCTCGGACCAGGGCATGGCGTTCTATGGCGTGGTACTGGAAGGAGGCTGTCGGCTGGAAATAGACCAGCATCCGCCGCAGACCCTGCGCGCCGGGGATTTTATGCTGATCCCAGCGGCGTACCGCTTCGCGCTTACCAGCCTGACCCCGCCGCCTTCACCGGCGCTGGAGACCACCCCTGTGAAACTGGCGGAGGAACACTTTCGCCTGGGAGCCCTCGACCAGCCGGCGGAGATGCTGGCGCTGATTGGCCACTGCGCTGCCGATTCGGATAACGCCAGCCTGCTGACCTCGCTGCTGCCCGCCCTGGTGGTGGTTCGCGACCAGCCGCGGCTGGCCACCTTTGTCGGACTGCTGAAAGAGGAAGCCCAGGCGGATCGCGCAGGTAAATCTTTCGTTCTGGCGCGGATGGTTGAGCTGCTGTTTATCGAGGCCATCCGCTCCTGCGAAACACTCGCCACCCCAGGCCTGGTGCGCGGCCTGAGCGACCCGCGGATCGCCCAGGCAATCCGTCTGCTGCATGAGGCCCCCGCCAGACGCTGGACCGTCAACGCCCTGGCCGCCGACTGCGCGCTGTCTCGCTCGACGTTGTTTGAACGCTTTACCGGCCTGACCGGAATGACCCCGATGGGCTATCTGTTGAACTGGCGCATGACCCTGGCGATGCGGTGGCTGGGAGAGTCGGGCATCAGCATGGCGGATATCGCCGAGCGCCTCGGCTATGGCTCGGCCAGCGCGTTCAGCGTGGCTTTTACCCGCTATGCCGGGACATCGCCCGGCAAATATGCCCGCCAGCGGGCGGCGCAGCGTACGCCCGGGCCCGCCTTAAGCTAA	MSDPLAEIIAMLNLRAVLTKTIEGAGEWRVIRSDQGMAFYGVVLEGGCRLEIDQHPPQTLRAGDFMLIPAAYRFALTSLTPPPSPALETTPVKLAEEHFRLGALDQPAEMLALIGHCAADSDNASLLTSLLPALVVVRDQPRLATFVGLLKEEAQADRAGKSFVLARMVELLFIEAIRSCETLATPGLVRGLSDPRIAQAIRLLHEAPARRWTVNALAADCALSRSTLFERFTGLTGMTPMGYLLNWRMTLAMRWLGESGISMADIAERLGYGSASAFSVAFTRYAGTSPGKYARQRAAQRTPGPALS				NA	NA	NA	NA	NA
BMS020_00630	885	gcvA_2		Glycine cleavage system transcriptional activator	ATGCGTCGTAAAATTCCCAGCAGCGCTGCGCTACTGGCCTTTGAGGCCGCCGCCCGCCACGACAACTTTGCCCGCGCGGCGGCGGAGCTCGCGTTAACGGAAGGGGCCATCAGCCGGCAGATCGCCCGTCTGGAAGCGCTCCTCGACAGCAAACTATTCGACAGAATCGGGAGCCGGGTACGGCTCAATCCGGCCGGCGCCCGCTATGCCAGACAGGTCCGCGAGATCCTCAGCAGGCTGGAGCGGGAAACCCTCGACGTCAGCGGGATGCCGGCTGATGGCCGCAGTCTGGAGATCGCCGTGCTCCCCACCTTCGCCAGCCGCTGGCTCATCCCCCGCCTCGGGCAGTTCACAGCGCAGCATCCGCATATCGTGGTCAATATCGCCGCTCGCAGCGACCCCTTCATTCTGCCGGGCAGCGGATTTGATGCGGCTATCCATTTTGATCACCCGGCGTGGACCGGAATGGATGTGACCTTTTTATTTGCGGAGTATCTGCTGCCGGTCTGTCATGCTGCGCTGCTGACGGATAACGATCTCCCGGGGCTGCTGAACCGGCTGCCGCGCATTCATCGGTGGCAAAATCCGGATGCCTGGCTGCACTATGCCCGGGAGTGTGGTCTGGCGCTGGATAACCCGGCGCAGGGGCCGCGCTATGATCTGCATGAGATGGCGATCGCTGCGGTACTCAGCCAGCAGGGCGTGGCCCTGGTGCCGAAGATGTATGTGGAGAGCGAGCTGCGTAACGGGACGCTGGTCGCCCCGTGGCCGGGCTCCCCGACGCTGGCCAAGCGCTTCTGCCTGATCAAACCCGGCGGCGGCGAAGGGGAGCCTGCGCTGCAGGCGTTTGAGCGCTGGCTGCAGACGACAATTGCGGCAGGTTAG	MRRKIPSSAALLAFEAAARHDNFARAAAELALTEGAISRQIARLEALLDSKLFDRIGSRVRLNPAGARYARQVREILSRLERETLDVSGMPADGRSLEIAVLPTFASRWLIPRLGQFTAQHPHIVVNIAARSDPFILPGSGFDAAIHFDHPAWTGMDVTFLFAEYLLPVCHAALLTDNDLPGLLNRLPRIHRWQNPDAWLHYARECGLALDNPAQGPRYDLHEMAIAAVLSQQGVALVPKMYVESELRNGTLVAPWPGSPTLAKRFCLIKPGGGEGEPALQAFERWLQTTIAAG	PGPT0026360_4292	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS020_00631	516			hypothetical protein	ATGCTCTATGTCGTCGAATGCGCCTACACCGACCCGCAAAGCGAAGCGGCGTGGAATACCTTTTACAATCTGGAAAAATTACCGGCGCTGGTCTCAGTGCCCGGTTTTCATGCCTCGCAGCGCTTCTGCGCGCTCAGCGAGGGCTGCCCTCGCTACCTGGCGCTACACGATATCCGCGATGCCGCCGTCATCGACAGCGACGCCTATCGCCGCAACGGCGGCGGTCATTTTGCCCGCTGGCAATCGGCGATCGCCGACTGGCATCGCCATCTCTACCTCACAACTAACGCGCTGCGGGAGGTTGCTCCGGACGAGGTGCTGCTGCTGAGCGATACCGCGGAAGCCCTGCCCGTCGCTGCGCCGGTCGTCCTGCAGCCCGGCGGTCTGGCCACCCGGCATGCCCGCTATGCCGCCATCGTCCCGCGTGACGACCTGCATCACCACGCCGCCACGGCCGCCGTCTTTGTCTATCAGCCCATTACCGCCCGATTGCGTCACCCGGCGGAGCAAGCGTGA	MLYVVECAYTDPQSEAAWNTFYNLEKLPALVSVPGFHASQRFCALSEGCPRYLALHDIRDAAVIDSDAYRRNGGGHFARWQSAIADWHRHLYLTTNALREVAPDEVLLLSDTAEALPVAAPVVLQPGGLATRHARYAAIVPRDDLHHHAATAAVFVYQPITARLRHPAEQA				NA	NA	NA	NA	NA
BMS020_00632	837			hypothetical protein	ATGACACCAGCTCCCTTTTATTCCCTGACAGCAGGCGACCTGACGATAAGCGCCATCAGTGATGGCCAGATGACGGCGCCGCTGACGTTACTGGCGGGGATTGCCCCTGAAGAGGCGGCGCGTCTGCAGCGCCAGGCCGGGTTAATCTCGCCGGAAACCATCGAGATCGGCGCTTACCTGATCCGCGGACGCGGGCACACGGTGCTGGTGGATACCGGCACCGGCGGGGCCAACGGCGTCGGCGGCGCGCTTATCGCCAATCTGGCGCTGCTCGGCGTCCGCGCTGAGGACATTGACACCATCCTCCTCACCCACGCGCACCCGGACCATATCGGCGGCCTGCTGACCGCGGCCGGTACACCGGCTTATCCCAACGCCACGGTGTTCCTGCCCTCGCGGGAAAGCGCTTACTGGCTGGCGCCGTCGACACTGGACAACGCCAGCGAGCGTGGACAACGCAACGTGCTGCTCATCCGGCGCGTAATGGCGATCTGCGCGACGCAAATTCGTGCTATCGATGAAAATGAGCGGATCGCCGGGATCCGACCATGTCCCCTGCCCGGCCATACGCCGGGACATACCGGATATCGCCTCGAGGCGGGCGGAACGTCGCTGCTGATCTGGGGGGATATCGTCCACTTTCCCTCGATCCAGAGCGCCCGGCCAGAGGCATCGGTGGCCTTTGACGTCGATCCTGACCAGGCGCGACGTACACGGGAAAGTCTCCTGCGCCAGGCCGCCAGCGAGCGGTGGCTCGTCGCCGGTATGCATCTTGGCCTGCCGGGCTTCGCCAGCGTGGAGAATACCGCCTCAGGCTACTGCCTGCGCCCGGTGTGA	MTPAPFYSLTAGDLTISAISDGQMTAPLTLLAGIAPEEAARLQRQAGLISPETIEIGAYLIRGRGHTVLVDTGTGGANGVGGALIANLALLGVRAEDIDTILLTHAHPDHIGGLLTAAGTPAYPNATVFLPSRESAYWLAPSTLDNASERGQRNVLLIRRVMAICATQIRAIDENERIAGIRPCPLPGHTPGHTGYRLEAGGTSLLIWGDIVHFPSIQSARPEASVAFDVDPDQARRTRESLLRQAASERWLVAGMHLGLPGFASVENTASGYCLRPV				NA	NA	NA	NA	NA
BMS020_00633	150			hypothetical protein	ATGGTCATTGCAACTCGTAAGCCTCTGTGCAACAAACGCTGGGCCGCCAGCCCGGCCTCTCAGGATCTTCAGTTGACCCAGCTGCGTCACCCCTGGGTCGCCACCACAGCCAGCTGCAAAAGTAAAAAAGGCTGGAAGCGCCGCGGTTAA	MVIATRKPLCNKRWAASPASQDLQLTQLRHPWVATTASCKSKKGWKRRG				NA	NA	NA	NA	NA
BMS020_00634	435			hypothetical protein	ATGACTACAGGCTATAAACTACTTGGCTATAAGTTAGCGGATAATATTTTCTACTGCCTGCATCATCGGGAAATTATCGCGTTACGTGGGACGCGAACGCAAGTTCAGCTGCGCAGCACCATGGCGTGTTTACTGGAATATTTGCTGGCGCATGGCAGAGAACGTCTGGTCAGTGATGAAGAGTTAATGATTAACGTCTGGGAGAAAAATAATCTCCGTCCGTCCGCGCAGCGATTATGGCAGGTCATTCAGACCTTAAAATCTCGCTTAAACCAGGCGGGGGTCGAAAGCGTGTTAATTATCCGCGTTAAGTGCGCAGGGTATTATATTAATCCTGCTTGTGTAGCCGAAATTTATTCCTTCAAACCGCCGGGCATGATGAATTATATAAACACCTCGCCTGCTGATATGAATAAACTTCTGGTTCGCAGCTAA	MTTGYKLLGYKLADNIFYCLHHREIIALRGTRTQVQLRSTMACLLEYLLAHGRERLVSDEELMINVWEKNNLRPSAQRLWQVIQTLKSRLNQAGVESVLIIRVKCAGYYINPACVAEIYSFKPPGMMNYINTSPADMNKLLVRS				NA	NA	NA	NA	NA
BMS020_00635	717			hypothetical protein	TTGAATATTTTAATTCACAGCAATAATATTTATTTTAATATCGGCCTCGCCCAGTGTTTCAGAGATATTCAGGAAACCTTGCCCGGTCTGAACATTATTCATTCACTGCCGCTCAGCCATCTGCCCGATCCGGCCGGGCTGGATGTGATTATTTTAGCGCTGGAAAACTATCACGATTATCAGGCCGCTGCTGAATTAGCCCAGCGCTATCCCGGCCTGGTGGTCGGATTTACCTCCGCCAACAACGTTAAACGCGGACGTGCCTTTTACGCGGATACCCTCCTGTGGGTCAGCCAGCGGGAAGGCGTTCAGGAGATCCGCCGCCTTCTGCTCCGTCTGGCAGATCGCAGCCGCCCTTTCGCGCCGCGCCATCAGCGTCAGAGTCGCTCCTCCCGGCTGCGAGCCCCACTCAATGACCTGGAGATGCAGATGATCCGTGGCGTGGTCAGCGGACAGTCGATTAATCAAATGGCAGACACGCTGGGCGTCAATCGCAAGCGGGTTTACAACGGACTGGAGCGGATCAAAAGTAATTTTCGCCTCGTCAGCCATACCCATTTTCATCATTTTATGACCGCGGAGGCCACGTTTAGCCGCCTCTGCGCCGATCTGAGTTGCTATAGACCAGGGGTACGGCCAGCCCGGCAACGACGTGCTGCATCGCGACCGGCCGAAAATCATTCATATTATTTGAATGATTTTCGCAAATTGTTTTGA	MNILIHSNNIYFNIGLAQCFRDIQETLPGLNIIHSLPLSHLPDPAGLDVIILALENYHDYQAAAELAQRYPGLVVGFTSANNVKRGRAFYADTLLWVSQREGVQEIRRLLLRLADRSRPFAPRHQRQSRSSRLRAPLNDLEMQMIRGVVSGQSINQMADTLGVNRKRVYNGLERIKSNFRLVSHTHFHHFMTAEATFSRLCADLSCYRPGVRPARQRRAASRPAENHSYYLNDFRKLF				NA	NA	NA	NA	NA
BMS020_00636	210			hypothetical protein	ATGAAATCCATCAAAACTTTCGTTGCTGTTGCTGCACTGTCGCTGTTCTCTTCCGTCAGCTTCGCCCAGAGCGTCAGCGCCACCGCTTCCACCCTGGACCGTGCAGAAGCCAAAATCGCCGCCCAGGCCGCTGAGCAGGGAGCGTCCTATAAAATCACCAGCGCCCAGTTTAATAATCGCGTTCATATGACGGCTGAGCTGAGCAAATAA	MKSIKTFVAVAALSLFSSVSFAQSVSATASTLDRAEAKIAAQAAEQGASYKITSAQFNNRVHMTAELSK	PGPT0015005_275	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0015005-comC|ycfR|bhsA-K12151	NA	NA
BMS020_00637	1017	adhT_1		Alcohol dehydrogenase	ATGATGAAAGCCTGGATCGTCAACAAACCCGGTTCGCTGGACAATCTGCAGCTTGTCGATCTTGCCGACCCCGGCGCGCCGCCGGCAGGCGAGATCCGCGTAGCGCTACACGCCACCTCCCTGAACTATCACGATTTGCTGGTAGCGACGGGGGTGATTCCCACTGCCGATCGGCGGATCCTGATGGCGGACGGCGCGGGGGTGGTCGAAGCGGTTGGAGCCGAGGTCAGCGAGTTTCAGCCAGGCGACCGGGTGGTCGCTGGCTTTTTCCCGCAGTGGCTGGATGGCCGTCCGGGCCCGCAGGTGAAGGACTTCAGCCAGACGCCAGGCGACGGCGCCGAGGGGTTCGCCTGCCAGTATGTGGTCAGACCGGCCAGTCATTTTACCCATGCGCCTGACGGATGGCGCTTCAGAGAGGCGGCGACGATCACCACCTCCGGCCTCACCGCCTGGCGCGCGCTGGTGGTGGAGGGGCGGCTAAAAGCGGGCGATACGGTGCTGACGCTCGGCACCGGCGGCGTGTCGATAACCGCCCTGCAGCTGGCGAAAAGCATGGGCGCGCAGGTCATCGTCACCTCCTCATCCGATGAAAAGCTCGCCCGCGCGCGCGCCCTGGGGGCTGACCATCTCATCAATTACCGCACCACCCCGGCCTGGGGCGCTACGGTGCAGGACATCACCGGTCATCGCGGGGCCGATATTATCCTGGAGCTCGGCGGACCGGGCACCCTGGGCCAGTCGTTCGAGGCCGTCAGTGTTGGCGGACACATCGCGCTGATCGGCGTCCTGACTGGCTTCGAAGGTCATGTGCCCACCCATCTGCTGATGAGTAAACAGGCCCGACTGCAGGGGCTGGTGGTGGGTCATCGCCGGCAACAACAGGACTACGTCAACGCGCTGAACCTGCAGGCGTCGCGGCCGGTCATCGATAAAGTGTTTGATTTTGCGGCCTTACCAGACGCCTTCCGCTATCTGCAAAGCGGCGCCCATTTCGGCAAAATTTGCGTGGAGTGGTAG	MMKAWIVNKPGSLDNLQLVDLADPGAPPAGEIRVALHATSLNYHDLLVATGVIPTADRRILMADGAGVVEAVGAEVSEFQPGDRVVAGFFPQWLDGRPGPQVKDFSQTPGDGAEGFACQYVVRPASHFTHAPDGWRFREAATITTSGLTAWRALVVEGRLKAGDTVLTLGTGGVSITALQLAKSMGAQVIVTSSSDEKLARARALGADHLINYRTTPAWGATVQDITGHRGADIILELGGPGTLGQSFEAVSVGGHIALIGVLTGFEGHVPTHLLMSKQARLQGLVVGHRRQQQDYVNALNLQASRPVIDKVFDFAALPDAFRYLQSGAHFGKICVEW				NA	NA	NA	NA	NA
BMS020_00638	636	cynT	COG0288	Carbonic anhydrase 1	ATGCAACATATCATTGAGGGCTTCCTCAACTTCCAGAAAGAGATCTTCCCCCAGCGTAAAGAGCTCTTCCGTAGCCTGGCCTCCAGCCAGAATCCCAAAGCGCTTTTCATCTCCTGCTCTGACAGCCGTCTGGTGCCGGAACTGGTTACCCAGCAGGAGCCGGGACAGCTCTTTGTTATTCGTAATGCCGGGAATATCGTGCCGTCTTTCGGGCCGGAGCCGGGCGGTGTATCTGCGACCATTGAGTATGCCGTGGTTGCGCTGGGCGTGACGGATATCGTAATCTGCGGCCACTCTAACTGCGGGGCGATGAAAGCGATCGCCACCTGCCAGTGCCTGGAGCCGATGCCGGCGGTGTCTCACTGGCTGCGCTACGCTGATGCTGCGAAAGCGGTGGTGGAAAAGAAAACCTGGGCCAGCGAAACCGATAAGGTCAACGGCATGGTGCAGGAAAACGTCATCGCTCAGCTGAACAACATCAAAACCCACCCGTCGGTGGCGGTCGGTCTGCGCGACCAGACCCTGCGCCTGCACGGCTGGTTCTATGACATTGAAAGCGGCGAGATTCAGGCGCTGGATAAAAACACCAAATCCTTTGTTTCGCTGTCGGAAAATCCGGACGTCTTTTTCGAATAA	MQHIIEGFLNFQKEIFPQRKELFRSLASSQNPKALFISCSDSRLVPELVTQQEPGQLFVIRNAGNIVPSFGPEPGGVSATIEYAVVALGVTDIVICGHSNCGAMKAIATCQCLEPMPAVSHWLRYADAAKAVVEKKTWASETDKVNGMVQENVIAQLNNIKTHPSVAVGLRDQTLRLHGWFYDIESGEIQALDKNTKSFVSLSENPDVFFE	PGPT0002415_4905	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
BMS020_00639	630	rhtC_1	COG1280	Threonine efflux protein	ATGTTCTTATCCAGCCTGATGGCCCTTGCCGCGGTGCTGATCATGGGGGTGATCAGTCCCGGCCCGAGCTTTATTTTTGTCGCGCGCAATGCGGTCGCCCGCTCGCGCCTGCACGGTCTGGTGACCGCCCTGGGCACCGGCGCCGGCGCCGCCATTTTTTCTATTATGGCGATGCTGGGCCTGCAGAAGGTGCTCACCGCGGTGCCGGAGCTGTTTATTGGCTTGAAAGTAGCGGGCGGGCTCTACCTGCTATGGTTGGGCTATAAGATTTTCCGCGGTTCGGCGCAGCCGATGGATTTTTCCGCCAGCGGCATGGACGGCAACCGTTCGTTGCTGAAGACTTTCCGCGACGGGCTGTATACTCAGTTGAGCAATCCCAAAACCGCGCTGGTGTTTGCCTCGATTTTTACCGCCGTGCTGCCGGCGCAGATCCCCACCGCATTCTATTACATCGTGCCGCTGATGAGTTTCCTGATCGACGTCAGCTGGTATTCGCTGGTGGCGCTGGTACTCTCCGCTGATCGTCCGCGTCGGGTCTACCTGCGGCTGAAGCGGCGAATCGATATCGCCACCGCGACGGTGCTGGGGGCGCTGGGACTGCGGCTTATCACCACCTCCCTCACCCGCTAG	MFLSSLMALAAVLIMGVISPGPSFIFVARNAVARSRLHGLVTALGTGAGAAIFSIMAMLGLQKVLTAVPELFIGLKVAGGLYLLWLGYKIFRGSAQPMDFSASGMDGNRSLLKTFRDGLYTQLSNPKTALVFASIFTAVLPAQIPTAFYYIVPLMSFLIDVSWYSLVALVLSADRPRRVYLRLKRRIDIATATVLGALGLRLITTSLTR				NA	NA	NA	NA	NA
BMS020_00640	771	glpR_2	COG1349	Glycerol-3-phosphate regulon repressor	TTGCTCGATTATGCTGCTTTTCCTCAACAGCGACAAGCGCTGATTTGCCAGATCCTGCAGGAAAACGGCAGGGTGGTGTGTGCGGAGCTGGCGGCGCGTCTTCAGGTGTCTGAGCATACCATCCGCCGCGATCTGCATGAGCTTAGCCGCGAAGGCGTCTGTAAAAAAGTCTACGGCGGGGCGGTGTTGAGCCTGCCGGAAGCGGGAGATTACAGTGAACGGAAAGATAAAAACCGAGCAACAAAACTCAGGATCGCGCAGCAGTGCGCCCGGCTGGTGAAACCCGGCGGCATCCTTTTCATTGATACCGGCACCACCAATCTGGCGATGGCCGAGGCGCTGCCCGCCGAGCTGGCGCTGACGGTGGTAACGAACTCTCCGGAGATCGCCGCGGTACTGGTGAAAAAGCCGCTCTACGAGGTGGTGATGCTCGGCGGCCAGGTGCAGCGGGCGAGCGGGGGCTGCGTTGGGGCCGCGGCGGTGGCTCAGGTGCAGGGAATGTTATTCGACCAGGGGTTTATCGGCGGCTGCGCCATGGCGCCAGAGTCGGGCCTGACCGGCTTTGACTATGCCGACTGCGAGTTTAAGAAAGCGGTGATTAAGCAGTGCAGCGAAATTATCATCGGCCTGACCTCGGATAAAATTCCGGCGGTGGCGCGATTCGTGGTGGCCGCGAGCAGCGATATCGATGTGCTGGTGGTGGAGGAGAACATCAGTCGCGAATATCGCGTTGCCTTTCAGCAACACGATATTCGCATCCATACCGTGTAG	MLDYAAFPQQRQALICQILQENGRVVCAELAARLQVSEHTIRRDLHELSREGVCKKVYGGAVLSLPEAGDYSERKDKNRATKLRIAQQCARLVKPGGILFIDTGTTNLAMAEALPAELALTVVTNSPEIAAVLVKKPLYEVVMLGGQVQRASGGCVGAAAVAQVQGMLFDQGFIGGCAMAPESGLTGFDYADCEFKKAVIKQCSEIIIGLTSDKIPAVARFVVAASSDIDVLVVEENISREYRVAFQQHDIRIHTV				NA	NA	NA	NA	NA
BMS020_00641	384			hypothetical protein	ATGAAAATTGCCCATTTCGCCCTGTGGACCCAACGGCTTGAGGCTCAGGCCCGCTTCTGGGTCGAGTTCTTTGCCGCCAGCATCAATGAAAAATACCTCAGCCAGACCAATCCCGGCTTTGCCTCCTATTTTGTCACCATCGACGACGAGGTGGTGATCGAGCTGATGACCAAGCCTGGCCTGCAGCAGGCCAGCGCCGATAATAACCATACCGGCTGGGCGCACCTGGCCCTCTCGGTGGGCGGCGCAGAACAGGTCGATGCCCTTGCCCAGCGCGCCGGCGCGGCGGGAATACTGGTTTCACCGCCGCGCACCACCGGCGACGGCTATTATGAGGCGGTGATCGCCGATCCCGATGGCAACCTGATTGAAATCGTCGCATAG	MKIAHFALWTQRLEAQARFWVEFFAASINEKYLSQTNPGFASYFVTIDDEVVIELMTKPGLQQASADNNHTGWAHLALSVGGAEQVDALAQRAGAAGILVSPPRTTGDGYYEAVIADPDGNLIEIVA	PGPT0013300_4736	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
BMS020_00642	684	cmlA		Chloramphenicol acetyltransferase 2	ATGGCACATTACCGGATCATCGACACCGCGGCCTGGCCCCGCCGGGACCATTTCACCTTTTACCGACAATTTGCCAACCCCAGCTTTAATCTCTGCGTTCCGATAGAGGCGCAGCGCCTGTACGAATGTGCGAAGGACCGTCGGGTCTCGTTTTTTCAGCTCGCGCTCTATGCCCTGCTGCGCGCGGCCAACGGGGTACCGCAGCTCCGACAGCGCATGCGCAATGGTGAGGTGATTGAATATGACAGTCTGGCGGTCATGACGCCGGTGATGACCGTCGAGGAGGGCTTCCGCCAGGTATGGTGCGACAACGCCCCCGAGTTCACCACCTTCAGCGCCGCGGCAACGCCAAAGATCGTCGCGGCAAGAGAGACATCGCCTGCGCCGCTCATCGTCGATGGCGAACATTTTATCTGCGCCAGCTGTCTGCCGTGGCTCCACTTCACCTCGATGACCCATGCGGAATACGCGGTGGGCGCCGCGGTTCCGGCGCTCACTTGGGGGAAACTGCAGAACGGCGTGATCCCGGTGGCCGGGCGATTTAACCATGCCTTCGTCGACGGTCTCCACGCCAGCCGCTTTTATGCCCTCATCGAAGAGGGGTTTTGCGACCCCGAGCGGCTCTGGCAGCCGCAAGCCGCAACCGCCCCCTCACTGCTTCCCCCTGCGGCGAAGGAGCGTTAA	MAHYRIIDTAAWPRRDHFTFYRQFANPSFNLCVPIEAQRLYECAKDRRVSFFQLALYALLRAANGVPQLRQRMRNGEVIEYDSLAVMTPVMTVEEGFRQVWCDNAPEFTTFSAAATPKIVAARETSPAPLIVDGEHFICASCLPWLHFTSMTHAEYAVGAAVPALTWGKLQNGVIPVAGRFNHAFVDGLHASRFYALIEEGFCDPERLWQPQAATAPSLLPPAAKER	PGPT0028030_24	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
BMS020_00643	1704	appA_1		Oligopeptide-binding protein AppA	TTGTCCAGATTACAACAAGGATTAAAAACCAGAAAAACCCGCTTTGCCCTGGCGCTAAAAGTGGCCCTGCTCGGCGGCGTGGTAGCATTTTCTTCTGCCGTCTTTGCTGAGGGTCTCCTGAAAGAAGGCATCACCCCGGCCGCCGACGCCAGTCAGATCCCGGCCAGCGCTAAGCTGCGCAAAGACACGGTAGTGGCCGGGATCTCCGAGCCGCAGGGGATCTTCAACCCCTACTTTTTCGTCAACGGCTGGGATGAAAACGTCACTAACGTCATTTTTTCACGCCTGATCGACTGGGACAGCCAGGGCAAGCTGGTCCCGGGGCTGGCGGAGAGCTGGACGGTCAGCCCGGACAGTAAAGTCTATACCATCAAATTGCGCCCTGGCCTGACCTTCAGCGACGGTTCACCGCTGACGGCGGAAGATGTCGCCTTTACCCTGACGGTCCTGCTCGACCCCAAATATGATGGCGATACCGACATCACTCTGGCCAATATCGCCGGCGGCGCAGAATACAAAGCCGGCAAGGCTGACCGCGTCAGCGGTCTGAAGGTCATCGACCCGCTCACCCTGCAGGTGACCACCACCCAGCCAGGCGCCACCACGCTGGCCAAAATTGGCGGGCCGGTGTTGTCGAAAGCCTGGTACGGCAAAGGATATCAGCGGGGAAATCTCGACTATCTGCGCTCACTACACGGCAAGCCGCTGGGAAACGGCCCTTACGTGTACGATACCTATATTCCCGGTCAGGAAATTCGCTTCCATGCCAATAGCCACTTTTACCGTGGGACGCCGCCAACGCCGCGCTTTATCTATCGCGTAACCAATCCGTCGACCAACTTCCAGCTGTTCCAGACCGGGGAGACCGACTACGACGCCTTTACCTCACGTCCTGACGATATCGAACAGCTGAAGATGCTCGGCTTCGCCAACATTAACCTTTACGGCTCCAGCGACTACAGCCAGGTGGAATTCAACGTTCATCGCCCGGCGCTGCAGGATAAGCGGGTGCGCCAGGCGCTGATTTACGGCCTGGACCGGCAAAAGCTGATCGACGTGGTCTATCAGGGGTACGGCAAAGTCGCCATCGAGCCGATCGCCCCTATCTCCTGGGCCTTTAACGCAGAAGGCGTCAATCCTTACCCTTACGATCCGGCGCAGGCGAAAAAGCTGCTGGATGAGGCCGGCTGGAAAGCTGGCGCCGACGGTATCCGCGTCAAAGAGGGCCAGCGTCTGGAGCTGACCCTGCTGGTGAGCAAGAAGGTGCTCAACGATGCGTTGATCCCTATCGCCAAAGAGAACTGGCGGCAGATCGGCGTGCTGCTTAAGCCGCAGGTGGTGGATTTCAACGCCCTGATGGCGCAGCGCAAAGCCGGAAATTACGATCTGGCCTCGTTCAGCACCAGCACCCTCAACGACCCGCACGATGGGGTATGGGATTTCTACAGCAGCGAAGCGAAAGCGTCCGGCTACCACAACGCGGAGGTCGATAAGCTGATTAACGCCGGCAACGCAGTGCTCGACATCGAACAGCGCAAGCCGATCTATCACCAGCTGTACAAAGTGCTGGCCGACGATCCACCGGTGATCCTGCTCGGCTATCGCAACATTCTTTCCGCCAGCAGCGCCCGCGTCACCGGCTTTAAACCGGATATCTACAACGGCCTGACCGGCAGCCTGCCGGATGTGAAAATCGTCAAGTAA	MSRLQQGLKTRKTRFALALKVALLGGVVAFSSAVFAEGLLKEGITPAADASQIPASAKLRKDTVVAGISEPQGIFNPYFFVNGWDENVTNVIFSRLIDWDSQGKLVPGLAESWTVSPDSKVYTIKLRPGLTFSDGSPLTAEDVAFTLTVLLDPKYDGDTDITLANIAGGAEYKAGKADRVSGLKVIDPLTLQVTTTQPGATTLAKIGGPVLSKAWYGKGYQRGNLDYLRSLHGKPLGNGPYVYDTYIPGQEIRFHANSHFYRGTPPTPRFIYRVTNPSTNFQLFQTGETDYDAFTSRPDDIEQLKMLGFANINLYGSSDYSQVEFNVHRPALQDKRVRQALIYGLDRQKLIDVVYQGYGKVAIEPIAPISWAFNAEGVNPYPYDPAQAKKLLDEAGWKAGADGIRVKEGQRLELTLLVSKKVLNDALIPIAKENWRQIGVLLKPQVVDFNALMAQRKAGNYDLASFSTSTLNDPHDGVWDFYSSEAKASGYHNAEVDKLINAGNAVLDIEQRKPIYHQLYKVLADDPPVILLGYRNILSASSARVTGFKPDIYNGLTGSLPDVKIVK	PGPT0004430_4298	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
BMS020_00644	960	gsiC_2	COG0601	Glutathione transport system permease protein GsiC	ATGAAAAATTTCATCCTGAGGCGCCTGCTGCAAACGCTGCCGATGCTGCTGCTGGCCTCGTTCATTATTTTTATGCTGTTTGCCAAAACCCCCGGCGACTTTATCGATGGCAATATCAGCCTGACCGCCGCCCGCGCCGCGGAGCTGAAGGCGATCTATGGCCTCGACCAGCCGCTGTTCACCCGCTATGTCCACTGGCTGGGACATCTGCTGCGCGGCGATTTAGGCTTTTCGCTGCAGTATCAGATCCCGGTCAGCCAGCTGCTCAACCAGTACATCTGGAACTCTTTTCTGCTGGCCAGCGTCGCGCTGGTCTTTTACTGGGGCATTGGCCTGGCGGTCGGCGTGGTGTCAGCCCTGCGACCCGGCTCCTGGTTTGATCATCTGGTGAGCGTCGCGGTGTTTGCCGCCATGTCGTTCCCCACCTTTTTCCTCTGCCTGCTGCTGATTAAATGGTTTGCCGTCGATCTCCACTGGCTGCCGGTAGGCGGGATGACCAATACCGGCAGCGACGAGAGCGGCTGGCAGTATGTGCTGCAGGTGGCGGCCCACCTGGCGCTGCCGGTGCTGGCGCTGGTGATGCTGCAGGCGGGCAGCCTGACGCGCTATGTGCGCGCCAGTATGCTCGACGTGGTGAAAATGGATTTTATCCGTACCGCCCGTGCCAAGGGGTTGCAGGAGCGCACGGTGATCCTCAAACATGCGCTGCGCAACGCCCTGCTGCCGATCATCACCCTGCTGGGCTTCGAGCTGCCGGGGCTGTTCTCCGGGGCGATCATTACCGAAAAGGTATTCAACTGGCCGGGGGCGGGCCACATCCATATCGACTCGCTGGCCGCCCGCGACTATCCGGTGCTGATGGGGTTCACCCTGTTTCTGGCGGTGCTGACGATCGTCGGTAATTTGCTCGCCGACGTGCTGTACGCCTGGGCCGATCCGCGTATTCGGGTGAGGTCATGA	MKNFILRRLLQTLPMLLLASFIIFMLFAKTPGDFIDGNISLTAARAAELKAIYGLDQPLFTRYVHWLGHLLRGDLGFSLQYQIPVSQLLNQYIWNSFLLASVALVFYWGIGLAVGVVSALRPGSWFDHLVSVAVFAAMSFPTFFLCLLLIKWFAVDLHWLPVGGMTNTGSDESGWQYVLQVAAHLALPVLALVMLQAGSLTRYVRASMLDVVKMDFIRTARAKGLQERTVILKHALRNALLPIITLLGFELPGLFSGAIITEKVFNWPGAGHIHIDSLAARDYPVLMGFTLFLAVLTIVGNLLADVLYAWADPRIRVRS	PGPT0004445_9065	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
BMS020_00645	948	gsiD_1	COG1173	Glutathione transport system permease protein GsiD	ATGATCCTGTCTTACTTTGCTTCCCGTCGTCGCCAGCCGCAGGCGGCTATCCCGGCGCTGGCGCACATTCCCCCCTCTCCCTGGCGTCAGGGGTGGCGACAGCTGCGCCGTAACCGGCTGGCCATGTTCTGCCTGATCCTGCTGGCGGTCATGGCGGTGTGGTGCGCGCTGGGGCCCGTCTGGTCGCCGTGGAAAGAGGATGCCACCGACGCCCTGAGCATCAACCAACCGCCCGGTGCCGAACACTGGCTGGGGACCGATTTCCTCGGCCGCGATGTTTACACCCGCCTGCTGCTGGCCGGGCGCATCTCGCTGATTATCGGTCTGCTGACCATGGTGATGTCGGTGTTCCTGGGCTATCTGCTCGGCGCTCTCTCGGGGTATGTCGGCGGGTTAACCGACAGAGTGATCATGCGCGTGGCCGACCTGGTGATGACCATCCCCGGATTGCCGCTGTTGATCGTCGCCGGGGCGATGCTTTCCGAGCTCGATTTTTCTCCGGACTCGCGCATCTATATGGTGGTGGTGATGCTCAGCCTGCTGGAGTGGCCCCGACTGGCGCGGCTGGTGCGCGGACAATGTCTCTCCCTGCGCGAACGCGATTTTATGCTGGCCACCCAGGTGCTGGGCCTGTCGGCGCGTCGCCGGCTGTTTGGCCACCTGCTGCCGAATACCATTCCGATTCTGGTGGTGATGGCGACCATGGCTGTCGCCAACGCCATCCTCAGCGAATCCGCGCTGAGCTATCTCGGCCTCGGCGTGGTGCCGCCGACGCCGTCGTGGGGCAATATGATGGACGCCGCCAATAGCCTGATCGATTTCCAGCGCCGTCCCTGGCTGTGGATGCCGCCAGGGATCGCCATCTTTATCACCGTGATCGCCATTAACGTGCTGGGCGATGGCCTGCGCGACGCCATGGATCCCAATATGAAACCGAGGCTGAAATGA	MILSYFASRRRQPQAAIPALAHIPPSPWRQGWRQLRRNRLAMFCLILLAVMAVWCALGPVWSPWKEDATDALSINQPPGAEHWLGTDFLGRDVYTRLLLAGRISLIIGLLTMVMSVFLGYLLGALSGYVGGLTDRVIMRVADLVMTIPGLPLLIVAGAMLSELDFSPDSRIYMVVVMLSLLEWPRLARLVRGQCLSLRERDFMLATQVLGLSARRRLFGHLLPNTIPILVVMATMAVANAILSESALSYLGLGVVPPTPSWGNMMDAANSLIDFQRRPWLWMPPGIAIFITVIAINVLGDGLRDAMDPNMKPRLK	PGPT0004450_4390	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
BMS020_00646	981	ddpD	COG0444	putative D,D-dipeptide transport ATP-binding protein DdpD	ATGAGCATACCGTTAGTCTCCTTTAATCATCTCTCCGTCTCTTTCGCTGGCGAACGCCATCGCGTGCGCGCGGTGCAGGACGTCTCTTTCACGATTCAGGCCGGGCAAACCGTTGGCGTGGTGGGCGAGTCCGGCTGCGGCAAAAGCGTCACCGCGATGGCGCTGATGGGCCTCCTGCCGCCGCAGGCCGCGCGCATCGACGGCGGCGAGATCCGTTTCGCGGACCGCGATCTGCTGCGGCTAAAAGCCAGACAGATGGCCGACCTGCGCGGCCACCAGCTGGCAATGATCTTTCAGGAACCGATGTCGGCCCTGAACCCGGTGTTGACCATCGGAGAGCAGCTGTGCGAACCAGCGATCCGCCACCTCGGCGCCTCGCCGAAAGCAGCCTGGCAGCAGGCTACCCGGCTGCTCAGCGAGGTCGGCCTGGCGCGCGGCGACAGCCTGATGGTCAGCTACCCCCACCAGCTTTCCGGCGGCATGCTGCAGCGGGTGATGATCGCCATGGCGCTGAGCTGTCAGCCCAAACTGCTGATTGCCGACGAACCCACTACCGCGCTCGACGTGACCGTGCAGGCGCAGATCCTGCGCCTGCTGCGGGACCGGGCGCGGGCCAGCCAGATGGCGATGATGCTGATTACCCACGACCTGGGGGTGATCGCGCAGATGGCCGAACAAGTAGTGGTGATGTATGCCGGACGGATTGTGGAACAGGGCGCCACCGCGGAGGTATTACGCCATCCGCAGCACCCTTACACGCGTGGGCTCATCGCCTCCCGCCCGGTGCCGAGCGAGCGGCGTCGGCGGCTGTACTCGATTCCCGGCCAGGTGCCGGATCTGGCCGCCCTGCCGACGGGCTGCGCCTTTGCCGGGCGCTGCGAGCGGGCGACGGCGCGCTGCCGGGAGGCGATTCCGCCGCTGCTCGGCGAGCGCCAGCGGGCCGCCTGCTTTTACAGTGAATTTGCGGAGGCGACAGCATGA	MSIPLVSFNHLSVSFAGERHRVRAVQDVSFTIQAGQTVGVVGESGCGKSVTAMALMGLLPPQAARIDGGEIRFADRDLLRLKARQMADLRGHQLAMIFQEPMSALNPVLTIGEQLCEPAIRHLGASPKAAWQQATRLLSEVGLARGDSLMVSYPHQLSGGMLQRVMIAMALSCQPKLLIADEPTTALDVTVQAQILRLLRDRARASQMAMMLITHDLGVIAQMAEQVVVMYAGRIVEQGATAEVLRHPQHPYTRGLIASRPVPSERRRRLYSIPGQVPDLAALPTGCAFAGRCERATARCREAIPPLLGERQRAACFYSEFAEATA	PGPT0004435_10968	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
BMS020_00647	972	oppF_1	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGAGCGAACGCTATGTTATTGAAGTGGATGGATTGAAAAAATATTTTCCGCTGCGCGACGGCCTGTTTGGCCAACAGACCGGCGAGCTTCGCGCGGTGGACGGCGTCAGCTTTAACATCCGTCCGGGCACCATTTTTGGCCTGGTGGGCGAGTCCGGCAGCGGGAAAACCACCGTCGGCCGAACCCTGCTTGGCCTGTACGAGAAGAGCGCCGGCAGCGTGAAATTTCACGGTCAGGAGCTGGCCGACCTGACCGCGCCTGCCCTGCGCGCCATTCGGCCGAAGATGCAGCTGGTCTTTCAGGATCCCTACAGCTCGCTGAACCCGCGGCTGCGTATTGGCGAGGCGATAGGCGAAGCTATGCTGCAGCACAAGCTCTGCGCCCGCGATGAGCTGTATGACCGGGTGATCGACGTGATGAAGATCTGCGGCCTGGCGCCGGAACACTACGCCCGCTTCCCGCATCAGTTTTCCGGCGGCCAGCGCCAGCGGATCGGTATTGCCCGGGCGCTGATCCTCAACCCGGATTTTATCGTCGCCGATGAGCCCATCTCGGCCCTCGATGTGTCCATTCAGGCGCAGATCATCAATTTGTTTTCCGACCTGCGCGACGACCGCGGCGTCACGTTTCTGTTTATCTCCCACGACCTCGGGGTGGTGGAGCATCTATGTGACGATGTGGCGGTGATGTATCTCGGGCAACTGGTGGAAAGCGCCAGCCGCGATGCGCTGTTCAGCCGCCCCCTCCACCCCTACACCCGCGCGCTTCTGGCCGCGGTGCCGACCCTCGACCCGCACAGCGAACCGCAAGCGCTGGTGCAAGGCGAGATCCCGGATCCGGTCAATCCTCCCGCCGGCTGCCGTTTTTCATCCCGTTGCCCGCAGGTCGGCGAACGGTGCCGCAGAGAAGCGCCGGCGCTGCGCGAGGTGGCCCCTGGCCATCGGGTCGCCTGCCATTGGATCGCGTCCTGA	MSERYVIEVDGLKKYFPLRDGLFGQQTGELRAVDGVSFNIRPGTIFGLVGESGSGKTTVGRTLLGLYEKSAGSVKFHGQELADLTAPALRAIRPKMQLVFQDPYSSLNPRLRIGEAIGEAMLQHKLCARDELYDRVIDVMKICGLAPEHYARFPHQFSGGQRQRIGIARALILNPDFIVADEPISALDVSIQAQIINLFSDLRDDRGVTFLFISHDLGVVEHLCDDVAVMYLGQLVESASRDALFSRPLHPYTRALLAAVPTLDPHSEPQALVQGEIPDPVNPPAGCRFSSRCPQVGERCRREAPALREVAPGHRVACHWIAS	PGPT0004440_7946	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
BMS020_00648	534			hypothetical protein	ATGCTTAAGCGTCGCACTATTAAAACAGCACTGGCGGCGGTTATTTCTCTCGCCGTCATGGCGGCTCCGGCCTATGCCAACCCGGGTAACGGCAATGGCAATGGCGGCGGCGGTGGTAATCACGGGAACAGTGGTAACCATGGCAATAGCGGCAATCATGGTAACAGCGGTAACAGCGGCGACCATGGCAATAAAGGACAAAATAAAGGTCAGTCCAATGACGATCATGGCAACCGCAAAAACTACGGCAAGCCCGACCACGTCGACAGCGATATTAGCTTCTCACGGGCGCGCTCCCTTGCGGTGAACTACGGTCTGGTCGGCTATCAGGCGCTGCCTCCGGGTATCGCCAAAAATGTCGCCCGCGGCAAACCGTTACCTCCGGGTATCGCGAAAAAGACCCTGCCCGCTTCTATGATTAACGACCTGCCCTATTATCCGGGCTATGAATGGCGCGCGGTCGGCGATGACCTGGTGCTGGTCGCCCTGAGCACCGCCATCGTTACCGCCGTGATTAACGGTGTGTTTGACTAA	MLKRRTIKTALAAVISLAVMAAPAYANPGNGNGNGGGGGNHGNSGNHGNSGNHGNSGNSGDHGNKGQNKGQSNDDHGNRKNYGKPDHVDSDISFSRARSLAVNYGLVGYQALPPGIAKNVARGKPLPPGIAKKTLPASMINDLPYYPGYEWRAVGDDLVLVALSTAIVTAVINGVFD				NA	NA	NA	NA	NA
BMS020_00649	489			hypothetical protein	ATGGACAAAGACACCGTAGTGACGCTGTTGAAATACAAGCGCTGGATTGACCTTGCAACCTTGCAGGCGATCCGCGCGATAGACGGTACAGTACATGGCGAAAAGCGTCACCTGACCCTCCGGCTGATGAACCATATCCATGTCGTTGACATGATTTTCCGGGCGAATCTGCGCGGCAAGACGCACGGTTACACCGCGCTGAATACCCCCGAGACGCCAACCGTTGATGAGCTGGAAACGGCCATGACCGCCTGTACGGACGAATACATTCAGTACGTCAGCGCCATGACGCCCGCCGATTTCCACGAACGTATCGCCTTCAAATTTGTCGACGGCGGCGACGGCAATATGACCGCGATGGAGATGCTCAACCACATGCTCTTTCACGGCGCCTATCACCGCGGCGCGGTAGGCTGGATGATTGGCGAATGCGGCGGCGTGCCGCCGAAAGAGGTGCTGACCGTTTTCCTGCGCGACCATCATTCCTGA	MDKDTVVTLLKYKRWIDLATLQAIRAIDGTVHGEKRHLTLRLMNHIHVVDMIFRANLRGKTHGYTALNTPETPTVDELETAMTACTDEYIQYVSAMTPADFHERIAFKFVDGGDGNMTAMEMLNHMLFHGAYHRGAVGWMIGECGGVPPKEVLTVFLRDHHS				NA	NA	NA	NA	NA
BMS020_00650	1074			hypothetical protein	ATGGCGAGCGATCCGGAACTGATTTACATCGAGATCCTTGAAACGGTGCTGATGGCCACCCTGGATCCTGATTTGTGGAAATCGGCGCTGCAGAAACTGGCGTTCCTCACCGGCCATCAGTACGCGGCATTTCTGTTCTACGATAAAGGCAACGCGCACCTGCTGACCGATTCACTCCTGCTGGAGGAGAAGGTTTTCACCGCCTATCGCGACGTGTTTCTGGCCATCGATCCCGCCGAAAAAATACTGACCGCGTTACCGGTCGGGCAGATGTACCGGGACCGCGAGTATTTAGGCGATAAGTTTATTGCCGGCAGCGTCTATTACAATGAGTTTCATCACCCCAACGATCTGAATAATCTTACCAGCGTCAAGCTGTGCACCCTCAATGGCTATGCCACCTATCTGTCACTGATGACGGCCAATACGGCAGCTTATCCGCAGCCGGCGCAGTTTGAGCTGTTCAGGCGCGTGATCCCGGCGCTGAAAACCGCCTGCCAGCTACACGCCCGGTTTGAACAGCTGCGGGACACCATAAAATACCAGAGCGCGGTGATGGACAATGGGATCTACCCGGTATGGCTGGTGGATCATGGCGGTAACATTCTCTACGCCAGCGCGCATGCCGAACGCTACCTGCGCGCCAACGCCCGCCTCTCCTGGTACAGCGGGGGCGATACGCTGTGCCTTGATACCGACAGCAAAAAACTGAAACGGGCTATCGAGCAGGCCACCCGAACGGCAGAGCCGCCAAGGGCAGGGCTGTGCTATACCGCCGGCCGCCAGCCGAAACCGATCCTGGTGATCCCGGCGGCCCGCCTTGCCGGGGTGGCCTGCGTAATTATTCCCGAGCCGTTTCTCACCGGCAGCGCCGTGATGGAGCTGTTTAACGTCAAGCCTGCCGAGAACGCAGTGGCGGAGCTGCTGGTGCGGGGCATGACGCCGGATGAGTGCGCCTTACATCTGGGCGTATCTATCGCCACCATCAGAACCCACCTCAGCGCCCTGTACCGGAAAACCCACACCCGTAATCAGGCAGAACTGTTGCTGATCATCCGCGCGATCCACGGCTGA	MASDPELIYIEILETVLMATLDPDLWKSALQKLAFLTGHQYAAFLFYDKGNAHLLTDSLLLEEKVFTAYRDVFLAIDPAEKILTALPVGQMYRDREYLGDKFIAGSVYYNEFHHPNDLNNLTSVKLCTLNGYATYLSLMTANTAAYPQPAQFELFRRVIPALKTACQLHARFEQLRDTIKYQSAVMDNGIYPVWLVDHGGNILYASAHAERYLRANARLSWYSGGDTLCLDTDSKKLKRAIEQATRTAEPPRAGLCYTAGRQPKPILVIPAARLAGVACVIIPEPFLTGSAVMELFNVKPAENAVAELLVRGMTPDECALHLGVSIATIRTHLSALYRKTHTRNQAELLLIIRAIHG				NA	NA	NA	NA	NA
BMS020_00651	1533	mdtD_1		Putative multidrug resistance protein MdtD	ATGTTACTCACCGCCAGAACACATTGCCGATCCGCCAGCGCCCTGGCCGCGCTTTCTGTCTTTATGGCGGCCATGCTGCTGCCGTTAAGTTTTACCGGCGGCGTCATGACCACCCCGGCGATACAGCAGTCGCTGGGCGGCTCTCCCGCTGCGCTGTCGTGGCTGACCAATGGCTTTATGCTGACCTTCGGCAGCTTTTTGCTGGCCGCAGGCGTGACGGCGGATGCCATTGACAGAAAACGCATCTTTCTCGCCGGCGCCGCGCTGTTTTGCCTGAGCAGTCTGCTGTTTTGCCTGACGGACGATCTCTTCCTGTCAGGCGCGCTGAGGGCTCTGCAAGGTCTGGCCGCGGCGATGATTTTAGCCAGCGGCAGTGCGGCGCTGGCCCAGTTGTATGACGGCGCTCAGCGGACGCGGGCATTCAGCATCCTGGGCACGGTGTTCGGCGCCGGCCTGGCGTTCGGTCCGCTGCTGATCGGCTTCATGACCGACGCGGTGGGCTGGCGCGGCGTATACGCCCTGTTTGCGCTGCTCTCGGCGATGGTTCTGCTTATCGGTCTGGCGTATCTGCCCGCGGCAGAAAAAAGCGAGCCGCGGACACCCGACAATCTCGGCTTAACCCTGTTTACGCTGGCCCTGATGCTGTTCACTGCCTCGCTGATGGTCATTCCGGCCCGCGGTTTTTTATCGCTGACCACGCTGGCCTTGTTCATCGTATCGGGGGGGCTGTTCGTCGCGTTTGCCGTGCGCTGCCGAAGAGTGAACAACCCGGTGCTGGAACTCGCCCTGCTGCGCCATCCGCGTTTTGTCGGCGTACTGTTGCTGCCTGTCGCCACCTGCTGTTGCTACGTTGTCCTGCTGATTATTGTTCCACTGCATTTTATGGGCGGAGAGGGGATGAGTGAGTCGCAGAGCGCGCTGTATCTGATGGCGCTGACCGCGCCGATGCTGATTTTCCCATCCGTTGCGGCCCTGCTCACCCGCTGGTTTTCACCGGGGCAGGTGGCCACGGGGGGGCTGATGATTGCCTCCGTCGGGTTGCTGTTGCTGGGTGATGCTTTTCACAGCCACCGCCTCCCGCTGCTGGTGCTGGCGCTGATCCTGTGCGGGGCGGGGGCGGCGCTTCCCTGGGGATTGATGGATGGCCTGGCGATATCCGCAGTGCCTGTCGCCAAAGCCGGTATGGCGGCAGGCCTGTTCAACACCGTTCGCGTTGCCGGCGAGGGGATCGCCCTGGCGGTCGTCACCGCGGTATTAACGGCAAGCAATAACCTGACTCTGCAGAGTCGCGTTCACGGGTATGCGCCCGAGGTGATTCACCGCGCCGCAGGCTGGCTGGGGGCCGGTAATATGCCGCAGGCGGCTGCGCTTTTGCCTGACTTTTCCCTTCGGGCGCTGCGCGAGAGCTATGACACTGCTTATACGGTACTGTTTAGCGGGCTGGCGGTCGTCACCCTGCTGTGCGCCCTGATGGTCTGGCGGACGCTATGCCGCAAGGGGGGCGCTATCCAGACCCGCAACAGCGGATCCTGA	MLLTARTHCRSASALAALSVFMAAMLLPLSFTGGVMTTPAIQQSLGGSPAALSWLTNGFMLTFGSFLLAAGVTADAIDRKRIFLAGAALFCLSSLLFCLTDDLFLSGALRALQGLAAAMILASGSAALAQLYDGAQRTRAFSILGTVFGAGLAFGPLLIGFMTDAVGWRGVYALFALLSAMVLLIGLAYLPAAEKSEPRTPDNLGLTLFTLALMLFTASLMVIPARGFLSLTTLALFIVSGGLFVAFAVRCRRVNNPVLELALLRHPRFVGVLLLPVATCCCYVVLLIIVPLHFMGGEGMSESQSALYLMALTAPMLIFPSVAALLTRWFSPGQVATGGLMIASVGLLLLGDAFHSHRLPLLVLALILCGAGAALPWGLMDGLAISAVPVAKAGMAAGLFNTVRVAGEGIALAVVTAVLTASNNLTLQSRVHGYAPEVIHRAAGWLGAGNMPQAAALLPDFSLRALRESYDTAYTVLFSGLAVVTLLCALMVWRTLCRKGGAIQTRNSGS				NA	NA	NA	NA	NA
BMS020_00652	918	dmlR_8		HTH-type transcriptional regulator DmlR	ATGGACAGCCTCACCTCGCTAACGTCCTTTGTCCGCACCGCCGAAACGCTAAGCTTTGTTCAGGCCGCCAGGCTGCTGGGCATTTCAGCCTCGGCGGTGGGTAAGAATGTCGCCCGGCTTGAGCATAAGCTGGGGGTCCGGCTGTTTAACCGCAGCACCAGAAACGTCAGCCTGACGGCGGAGGGGGCCGCGTTTCTGACCCGCTGCCAGAGTATCCTGGAGCAGATCCAGGAGGCCGAGTCTGAGCTGACGAGCAGTCTCTCACAGCCCTCCGGCAAATTGAGAATTTCACTGCCTGTCATCGGCTACCGCCTGCTGCTCCCTGCCCTCACCGCCTTTAGCCGTCTTTATCCGCAGGTTGAACTGGATCTCGATTTTAGTGACCGGCTGGTCAATCTGATCGATGAGGGATTTGATATCGCTATCCGCAGCGGTGAACTAGCGGACTCCCGCTTGATCGCCAGAAAGCTGGGGGGGTTTCGTTTTGTGCTCTGCGCCAGCCCGGCATATCTGGCGGAATACGGCGTTCCCGGCTCGCCAGCGGAATTGGCGGCGCACAAGTGCATTTTTTTTCGCTTCCCTTCGACGGGGCTGATCCAGCCCTGGGAACTGCGCGATATGCGGCTGACGGGGGATTTCAGGGCCGCTTCCGTGATGAGGGTCAATAACATTGAGGCTGCCATTCGCTTAAGCGCGGCGGGGATGGGTATCGCCTATGTCCCTGATTTTGTTGTGCGTGAGGCCATCAATGAGGGACACCTGCAGGAGGTGTTGCCCGGCTGTTGCGTCAAGGATGGGCATTTCTCCGTCCTGTGGCCTGCCAGCCGCTACCTGTCGCCGCGAATACGCTGTTTTATCGATTTTATGGCTGCGGCAGAGATACCCTTGTCGCCCGCATCGACAATACCGACCTCCTGA	MDSLTSLTSFVRTAETLSFVQAARLLGISASAVGKNVARLEHKLGVRLFNRSTRNVSLTAEGAAFLTRCQSILEQIQEAESELTSSLSQPSGKLRISLPVIGYRLLLPALTAFSRLYPQVELDLDFSDRLVNLIDEGFDIAIRSGELADSRLIARKLGGFRFVLCASPAYLAEYGVPGSPAELAAHKCIFFRFPSTGLIQPWELRDMRLTGDFRAASVMRVNNIEAAIRLSAAGMGIAYVPDFVVREAINEGHLQEVLPGCCVKDGHFSVLWPASRYLSPRIRCFIDFMAAAEIPLSPASTIPTS	PGPT0028940_383	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
BMS020_00653	990	vldW_2		Validamycin A dioxygenase	ATGAACGCAACCACCCAAAATCAACGCTATGCCTTACAGGAACTGGAAAAAGAGGCGCTGATGGGCGCCCAGGGCGAAGAGACCTTCGCCCGCGAAGTGCGCTGTATCGACCTGTCTAACTTTGCAGAAAGAAAAAATGACATTGCCGAACAACTGTGGGAGGCGGCGGTGGAGATCGGTTTCTTCCAGGTCAGCCACCACGGTATTCCGCTGGCGGCGATCCGCCAGGCGTTCAGCACGACCGAGGCGTTTTTCGACCTGCCCGACGAGGTGAAGCGCCAGTATCCGCTGGCCGGCAACGCCGGCTGGGAGAGCAAGGCGCAGGTCCGGCCATCGACCCGCACGCCGGATCAAAAAGAGTCATATCAGATAACCCGTCCGCTGATGGACGGGCGCTGGCCCAGCGAACGGGAGCTGCCAGGCTTCCGACAGACGATGCTCGGATTTGAATCGCAGTGCTGGCAGCTGGGGATGAAGATCCTCTCCTGCTTTGCTTTAAAGCTCGGTTTTCCGGAATCGTTTTTTACCACCGCGCACGATCCGCAGCGTGACACCTATCAGAGCACCTTGCGCATGCTGCACTACTATGCAACCGAGCAGTCGCAGCAGGGGATGTGGCGGGCCGGTGCGCATACCGATTTTGACTGCCTGACGCTGCTGTTCCAGCGCCCCGGTCAGGGCGGCCTGCAGGTCTGCCCTGGCAAGGACCGCGAAAGCCAGCAGTGGACCAGCATTGAGCCAAGGGAAGAGGTCATCACCTGCAATATCGGCGATATGCTGATGCGCTGGAGCGACGACCAGCTGCCGTCTAACTTCCACCGGGTGAGAAACCCGCAGCCCCACGAATATCAGGGGCCGCGCTACAGCCTGGCGTTTTTCTGCCAGGCCAATAAAGATATCGAGATCCTTGGGCCGCAGAGGAAGTACCCGCCCATCAGCGCCGAGGATTATCTGCAGCAGCGGATCCAGGCCAATTTCGCCAAAGGGTAG	MNATTQNQRYALQELEKEALMGAQGEETFAREVRCIDLSNFAERKNDIAEQLWEAAVEIGFFQVSHHGIPLAAIRQAFSTTEAFFDLPDEVKRQYPLAGNAGWESKAQVRPSTRTPDQKESYQITRPLMDGRWPSERELPGFRQTMLGFESQCWQLGMKILSCFALKLGFPESFFTTAHDPQRDTYQSTLRMLHYYATEQSQQGMWRAGAHTDFDCLTLLFQRPGQGGLQVCPGKDRESQQWTSIEPREEVITCNIGDMLMRWSDDQLPSNFHRVRNPQPHEYQGPRYSLAFFCQANKDIEILGPQRKYPPISAEDYLQQRIQANFAKG				NA	NA	NA	NA	NA
BMS020_00654	1419			Isoxanthopterin deaminase	ATGTCATTCATCATTAAAAATGCCCATGCCATCCTCAGCGGTCTGTCCGGAGAGGCGGCGCGGCTGGCCGGGCCGGATATTCGCATCCGCGACGGCAAGATTGCGGCCATCGGCAGCCTGACGCCGCTGCCGGAAGAGCGACTGATCGACGCCCGCGACTGCGTGATCTATCCGGCATGGGTGAATACGCACCATCATCTTTTTCAGTCGCTGCTGAAGGGCGAGCCGCAGGGGCTGAACCAGAGCCTGACGGCCTGGCTGAGCGCCACGCCGTACCGCTTTCGCGCGGCTTTCGATGAACATACCTTTCGTCTGGCGGTGCGCATTGGTCTGGTGGAGCTCCTGCGCTCGGGCTGCGCCAGCGTGGCGGATCACAACTACCTGTACTGGCCGGATATGCCTTTCGATACGTCGGAGATTCTCTTCAGCGAAGGGGAAGCGCTGGGGATGCGCATCGTTCTGTGCCGCGGTGGGGCGACCCAGGGTCGGGCGGTGGAGCAGGATCTGCCGGTGGCGCTGCGTCCGGAAACCTTCGACGGCTATATGGCGGATATTGAACGGCTGGTCAGCCGCTATCACGACCCGCGGCCCGACTCGCTGCGCCGGGTGGTGATGGCGCCCACTACCGTCCTGCACTCCGCGCCGGGCGCCCAGCTGCGGGAGATGGCGAAGCTGGCCCGCCAGCTGGGGATCCGGCTGCACAGCCATTTATCGGAAACCGTCGATTATCTTGACGCCGCGCGGCAGAAATTCGCCATGACGCCGGTGCAGTTCTGCGCGGAGCACGACTGGCTGGGAAATGACGTGTGGTTTGCCCATCTGGTGAAGCTTCTGCCGGAGGAGATTGCCCTGCTGGGCCGCACCGGTACCGGCATTGCTCATTGTCCGCAAAGCAATGGCCGGCTGGGCAGCGGCATCGCCGATCTGCTGGCGCTGGAGCAGGCCGGGGTCCCGGTCTCGCTGGGGGTGGACGGCGCTGCCTCCAATGAAGCGGCGGATATGCAAAGCGAAGCCCATGCCGCATGGCTGCTGCAGCGCGCGCGCAAAGGGATGCTGGCGCAGCCGCGCTACGCCGGAGGCACCTTCGAGGGCGGAGCCGATGCGGCCACGGTGGAGGATGTGGTGCGCTGGGGCAGCGCTGGCGGGGCGCAGATCCTTGGCTTAGCGCAGAGCGGCACCCTGCAGGTCGGGATGCAGGCGGACCTCGCCATTTACCGGCTGGACGATCCGCGCTACTTCGGCCTGCATGATATGGCGATTGGCCCGGTGGCCTGCGGCGGCCGCGCCGCGCTGAAGGCGCTGCTGCTGAATGGCCGGCCCATCGTGGAAGATGACGCCATTCCCGGTCTCGACCTTGACGCGATGCGCCACGACGCGCTGGCGGCAGTCCGTACCCTCCAACAGCGCGCCGCTGTTTAA	MSFIIKNAHAILSGLSGEAARLAGPDIRIRDGKIAAIGSLTPLPEERLIDARDCVIYPAWVNTHHHLFQSLLKGEPQGLNQSLTAWLSATPYRFRAAFDEHTFRLAVRIGLVELLRSGCASVADHNYLYWPDMPFDTSEILFSEGEALGMRIVLCRGGATQGRAVEQDLPVALRPETFDGYMADIERLVSRYHDPRPDSLRRVVMAPTTVLHSAPGAQLREMAKLARQLGIRLHSHLSETVDYLDAARQKFAMTPVQFCAEHDWLGNDVWFAHLVKLLPEEIALLGRTGTGIAHCPQSNGRLGSGIADLLALEQAGVPVSLGVDGAASNEAADMQSEAHAAWLLQRARKGMLAQPRYAGGTFEGGADAATVEDVVRWGSAGGAQILGLAQSGTLQVGMQADLAIYRLDDPRYFGLHDMAIGPVACGGRAALKALLLNGRPIVEDDAIPGLDLDAMRHDALAAVRTLQQRAAV				NA	NA	NA	NA	NA
BMS020_00655	990	ribY	COG0715	Riboflavin-binding protein RibY	ATGAAAACAGGCGCACGCCTTTCCCGGGGCTTACGCTGGCTGGGCCTGATGGCCCTCGGCGGTGTCTCGCTGGCCGTTCAGGCCGAGGAAAAAATCGTTCTGCTGACCTCCTGGTACGCTCAGGCGGAGCAGGGGGGTTATTATCAGGCTCAGGCCACTGGGCTGTACAAAAAATATGGTCTCGACGTCGAGATCCGCTCCGGCGGACCGCAGGTCAACGGCATGCAGTTGCTGTTGTCCAAGCGGGCCGATGTGATCATCGGTTACGATCTGCAGCTGCTGGAAGGCATTCAGCGCGGCTTCCAGGCGAAAGCCATTGCCGCGCCCTTTCAGTACGATCCCCAGGGGCTGCTGACCCACGCCGATGTTACCTCCCTGCAGGGGCTGAAAGACAAAACCATTCTGGTCTCCAGCTCCGGTCAGGCGACATGGTGGCCGTGGCTGAAGGCGCAATACCAGCTGAGCGACGCTCAGGTTCGCCCCTATACCTTCAATATTCAACCCTTTGTCGTCGACGACGCTGTCGCCCAGCAGGCCTATGTCAGCTCCGAGGTGTTCCAGGTGCAGAAGGCCGGGGTGAAGGCGAACTTCTTCCTCTTTTCTGAGCATGGTTACCCTCCCTATGGCGGCATTCTCATCGCCCGCCCGGACACCATCGCTGAGCGTAAAGCGGCGATGGCGAAGTTTGTCCGCGCCTCAATGGAGGGTTGGGTGAGCTATCTCAAGGATCCGGCGCCGGGAAATGCGTTGATTAAGCAGGACAACCCGAAAATGACCGACGATCTGCTCGCCTGGGGCGTGACCCAGATCCGTGAGCATCATCTGATCGACGGCGGGGATGCCGCCAGCCAGGGCTGGGGGACGATGACCGACGCCCGCTGGCAAAAGACGCGCGATTTTATGGTCAGCGCCGGTCTGCTGGCGGCGGCCACCGACTGGAAACAGGCCTATACCACCGACTTTGTCCAGACCATGCAGGTTAAACCCTGA	MKTGARLSRGLRWLGLMALGGVSLAVQAEEKIVLLTSWYAQAEQGGYYQAQATGLYKKYGLDVEIRSGGPQVNGMQLLLSKRADVIIGYDLQLLEGIQRGFQAKAIAAPFQYDPQGLLTHADVTSLQGLKDKTILVSSSGQATWWPWLKAQYQLSDAQVRPYTFNIQPFVVDDAVAQQAYVSSEVFQVQKAGVKANFFLFSEHGYPPYGGILIARPDTIAERKAAMAKFVRASMEGWVSYLKDPAPGNALIKQDNPKMTDDLLAWGVTQIREHHLIDGGDAASQGWGTMTDARWQKTRDFMVSAGLLAAATDWKQAYTTDFVQTMQVKP	PGPT0001135_6614	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
BMS020_00657	900	hdfR_2		HTH-type transcriptional regulator HdfR	ATGTTTGCCTTCTCCCGATTTCTGCTCTATTTCACCGAAGTGGCCCGTCAGGGGTCGTTTCGTAAAGCGTCAGAGGCGCTGCATGTGTCTGCGTCTTCTATTGACCGTCAGATTTTGCGCGTGGAACAGGAGCTGGCGATGCCGCTCTTCGAGCGCCATCCCACCGGGCTGCGGCTGACCGCCGCCGGGGAGCTGCTGCTGCACGCGGCCAATAACTGGAAAAAGGACTTTACCCGGGTCTGCGAGCAGCTGGATGACCTGCGCGGACTGCGGCGGGGGCATGTGCGCATCGCCACTATCGATGCCATTAACCGGCATTTCTTTTCGACGATGCTTAAAGAGGTGCACAAACATTATCCCAACATCTCTTTTACATTGACCACCATCAACAATATCCACATCCAGCAGGCGCTGATCTCCGGCGAGGCGGATTTCGGCATCATGCTCAATCCGCAGACCTCCCGCGAACTGCAGGTGCGGGCGTTTGCCGAAATGAATATGGGGATCGTTGTGCCGACCGGCCATCCGCTGGCCAGCCGCAGCGCTGTGCGTTTTAGCCAGTGCATCGACTACCCGTTTATCCTGCCATCCGCCCCGTTGATGATCAGCGAACCGGTGGAGGCGCTGGTGAACATCAGCGGCAACGAGGTGAAGGAGGTGGCGGTATCGAATAACATCCACATGATCCGCACCCTGATCAAAGAGCAGATGGGCATCGGCATCCTGTGCCGGCTGGATATTCTCGATGAGATCGAGTCCGGCCAGCTGGCGTTTGTGCCGCTAACCGATCCGCAGCTTAAGCCTTTCACCCTGGCGCTGTGCGTTTCGCCCGCTCGCCAGCTTTCCCTTGCCGCGTCGATGATGCTGAACCAGCTGGAGATGCTCTTCAGCCAGCTGTGA	MFAFSRFLLYFTEVARQGSFRKASEALHVSASSIDRQILRVEQELAMPLFERHPTGLRLTAAGELLLHAANNWKKDFTRVCEQLDDLRGLRRGHVRIATIDAINRHFFSTMLKEVHKHYPNISFTLTTINNIHIQQALISGEADFGIMLNPQTSRELQVRAFAEMNMGIVVPTGHPLASRSAVRFSQCIDYPFILPSAPLMISEPVEALVNISGNEVKEVAVSNNIHMIRTLIKEQMGIGILCRLDILDEIESGQLAFVPLTDPQLKPFTLALCVSPARQLSLAASMMLNQLEMLFSQL				NA	NA	NA	NA	NA
BMS020_00658	969	yeaX	COG1018	Carnitine monooxygenase reductase subunit	ATGCACAGCCACGATCTTATTTCGGTCTCGGTGGGGGAAATACGCCCCAACGGCGAGGGAAATCTATCTTTAATATTGCAGGCGGCAGCCGGGGAAATATTACCGGCCTACTCCGCCGGGGCGCATATCGATATTATTATTCCCGGCGTTGGCCCGCGGCAATATTCCCTGTGCGGCATGCCTGACCGCGGTAATCATTATGAAATTTGCGTCCGGCTGACGGACGCGTCCACCGGCGGCTCACGCTATTTGCACCAGCAGCTCAATCCCGGCGATCGGCTCTCCATTTCGTCGCCGCGCAACCATTTTCCCCTGCCGGAGGCCGGGCGCTACCTGCTGTTTGCCGGCGGTATCGGCATCACGCCTTTGCTGGCGATGGCCGAAGCGATTGCCGCCAGAAAAGGGGCGCTGGAGCTGCATTATTATGTCGCCAGCTCGCGCCAGACGGCCTTCACATCGCGCCTGGCCCAGCTGGCCGCGAGCGGCACGGTGGCGCTCCACTGCAGCGAGGAAGGCGCGTCGTTTCGCCAGCGGATCCCCGAATGCTTAACCACGCCCCACCCTGATACCGCAGTGGTGGCCTGCGGCCCGGAGGGCTTTATTCAGCGACTGCGGTCAGTCATGGATGAATATCGCTGGTCGCCGTCGCAATTCGTATTCGAGCGCTTTACTCCCGCGGCGGAAAATAATATCGCGGCGAACAACGCATTTTATATTGAGCTGGCCTCCAGCGGGCAGCGTCTGCAGGTCGCCGCGGATCAAACCATTGCTCAGGTATTACAGCAGGCCGGGGTGGAGGTGATGCTCTCCTGCGAACAGGGAATGTGCGGATCGTGTATTACCGGGGTTCTCAACGGGCTCCCCGAGCACCGGGACAGCGTGCTGACGGCGGAAGAGAAAGCCGGCAACGACCAGATCACGCTCTGCTGTTCGCGGGCGAAATCGCCGGGTCTGGTTTTAGATCTGTGA	MHSHDLISVSVGEIRPNGEGNLSLILQAAAGEILPAYSAGAHIDIIIPGVGPRQYSLCGMPDRGNHYEICVRLTDASTGGSRYLHQQLNPGDRLSISSPRNHFPLPEAGRYLLFAGGIGITPLLAMAEAIAARKGALELHYYVASSRQTAFTSRLAQLAASGTVALHCSEEGASFRQRIPECLTTPHPDTAVVACGPEGFIQRLRSVMDEYRWSPSQFVFERFTPAAENNIAANNAFYIELASSGQRLQVAADQTIAQVLQQAGVEVMLSCEQGMCGSCITGVLNGLPEHRDSVLTAEEKAGNDQITLCCSRAKSPGLVLDL	PGPT0021315_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021315-codA-K01485	NA	NA
BMS020_00659	1284	codAch2	COG0402	Pterin deaminase	ATGACGTTCCCCTCCTCTTGCGCACCGCTCGCCGGCATCAGCCGCGCCCGACTCCCGGCCTGGGCGCTGCCCGACGGCTGGCCGACGCAGGCCAACGGTGAACCGCGGCTGGCGGACCTGACCTTTCGCGATGGACGGATCGCCGCCGTGACGCCGTCCGTCGAGCCGGCTCCCGGCCTGTGGGACCTGGCGGGGGCCCTGACGCTCCCCGGCCTGGTGGAACCCCATGCCCATCTGGACAAAACCTTTACCCTTGAACGCTGCCGTCCGGCGCAGGCCGGGCTGCTGGCGGCGATCCACGCCATGCACGAGGATCGCCGACACTGGACCCGGGCGGATATTCAACGTCGGGCGTCCGCCGCGCTGGCCCGGGCGGCAGCAAATGGCGTGACCCATTTACGCAGCCATATCGACTGGTTTACCGCCGACGCGCCGGACGCCTGGCAGGAGATCGCCCGTCTCGATACCGGCGGCATCACCCTGGAACGGGTGGCGCTGGTCCCGCTGCCCCTGTTTCGCGATCCGGCGGACGCCGAGGCCATTGCCCGGACGGTCGCCAACAGCGGGGAGCGCTGCCTGCTGGGGGGCTTCATTCACTCCTCCAACTGGGACGCCGCCGCCATGGCAAACCTGCTGCGCAGCGCGGCCCGCTGGGAACTGGATCTGGATTTGCATATCGATGAGGAGCTCAGCGAGGTGTCTCAGGGGCTGACCTGGCTGGCGGATCATCTCTCCCGCCACCCATTCCCCGGGCATATCTGCTGCAGCCACGGCTGCGCGCTGGCCGCCGGCAGCGACGCGCAGGCGGCGCTGATCCTGCGCCAGCTGGCGGCGCACGGCGTCACCCTTATCGCCCTGCCGATGACCAACCTGCTGCTGCAGGATGCGACGTTCGGCCGCACGCCGCGCCAGCGAGGGATCACCCTGCTGCACGAGGCGCAGGCCGCCGGCGTGGCCACCCTGCTTGGGTGCGACAACGTGCAGGACGCTTTTTGTCCGGCGGGAAGCTACGACCCGCTGGACACCCTGGCCTGCGGCCTGTTCAGCGCCCAGCTCAGCGACCCGTTCGACCGGCAGTCTCGGCTGATCTGCGATCGCGCGGCGCTAACCGGTTCGCCGGCAGACGCGGCCCCTTTTGCCGTCGGGGCGGCGGCCAGCGTGGTGATTTTCCCGGGTAGCGACCGTTTTACCTGGCCTTTAAACAGCGCCGCCCGTCTGGTGGTTAACCACGGCAGGTTAACCCACCGGCGAGTGTGGCAGGAGGAGATGGCACATGAGTCTTGA	MTFPSSCAPLAGISRARLPAWALPDGWPTQANGEPRLADLTFRDGRIAAVTPSVEPAPGLWDLAGALTLPGLVEPHAHLDKTFTLERCRPAQAGLLAAIHAMHEDRRHWTRADIQRRASAALARAAANGVTHLRSHIDWFTADAPDAWQEIARLDTGGITLERVALVPLPLFRDPADAEAIARTVANSGERCLLGGFIHSSNWDAAAMANLLRSAARWELDLDLHIDEELSEVSQGLTWLADHLSRHPFPGHICCSHGCALAAGSDAQAALILRQLAAHGVTLIALPMTNLLLQDATFGRTPRQRGITLLHEAQAAGVATLLGCDNVQDAFCPAGSYDPLDTLACGLFSAQLSDPFDRQSRLICDRAALTGSPADAAPFAVGAAASVVIFPGSDRFTWPLNSAARLVVNHGRLTHRRVWQEEMAHES	PGPT0021315_710	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021315-codA-K01485	NA	NA
BMS020_00660	480	rutC_1		Putative aminoacrylate peracid reductase RutC	ATGAGTCTTGAAGCAGGCGCGGGGGCGCCGCTGGCGCGGTATGCCGCCTGGCGCAGAGCCGGCGATTTTATTTTTCTCTCCGGCATTATTCCGGTCAATCCCCTGACCGACACCATCGTCAACGGCTTTCAGGATGTGCCTGAGCCGGTGCGGGAGCTGCTGGGGGCGACCGGGGAATTTTCAACCGATGCGAAGCAGGGGCCGATCCTCGCCCAGAGCTGGTACGTACTGGAAAGCATCCGCCGCACCGTGGCGTCGGCGGGGGGGCAGATGAGCGACGTTATCAAGCTGGTGCAGTACTTTCGCAACCTTGACCATTTTCCCTATTACAGCCGGGTCAGGAAGCTGTTTTATCCCGACCAGCCGCCCGTATCCACCGTGGTGCAGGTCAGCGAAATGCTGCCCGACGCCACGGTATTGATTGAAGTCGAAGCAACCGTCTGGTTACCCCAGCCAATTCACTCCGAGGCACCGCGATGA	MSLEAGAGAPLARYAAWRRAGDFIFLSGIIPVNPLTDTIVNGFQDVPEPVRELLGATGEFSTDAKQGPILAQSWYVLESIRRTVASAGGQMSDVIKLVQYFRNLDHFPYYSRVRKLFYPDQPPVSTVVQVSEMLPDATVLIEVEATVWLPQPIHSEAPR	PGPT0020030_302	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
BMS020_00661	882	crnA		Creatinine amidohydrolase	ATGATTAACGGTTACATTCCTGCAGCGCGCTTTCTCCCTTTTCTGAGCTGGACGGACGTGGCCGCCCTGCCGGATAAAAGCAATACGGTTATCGTCCTCCCCACCGGGGCGATCGAACAGCACGGCCCCCATCTGCCCTGCTCGGTGGACAGCGTGATCTCCTCCGGCGTGGCGGGCCATGCCCTCGCCCGGCTGCCGGCGGAGATCCCGGCCTACGCCATCCCGCCGATCGTCTACGGTAAGTCAGAGGAGCATCTGCATTTTCCCGGCACCCTGACCCTCAGCGGCGATACCCTGCTGCATACCCTGCTGGAGATCGCCGAATCCCTCTATCGGGCCGGTTTTCGCAAGCTGCTGATGATCAACGGCCACGGCGGCCAGCCGCAGATCCTGCAGATCGCCTGCCGGGAAATGCGCCTGCGCCACGGGGATTTCATCGCCATCCCGCACGACGTATTCAACGTGCCCAACTGCGAAAAACAGTTCCTCAGCCCGCATGAACAGCGGATGGCAATGCACGCCGGGCATAGCGAAACGGCGCTGATGCTGGCGCTGGCGCCGGAGTGCGTTCATATGGAGCGGGCGGTCGCCAACTTCCCGCCGGAATTCCCCTGCCCGACCCTGTCGAAAGGCCGCCCGGCGGCGGCGTGGGCGTCCTATGACTTTGGCCCCAGCGGGGTGATTGGCGACCCAACCCCGGCGACGCGGGAGCAAGGCGAAGGGCTTCTCGACTCCCTCGCCGCCAGCTGGGCGCAGGCAATCATCGAGATCCACCGCATGGCCTGGGTCGAACGTCGCGAACCGACCTGGGGCAAACAGCACTGGCACGGCTTTGTGCAGTCCCTACCACCCTCTTTCGCTGCTGAATCCAAGGAGCCCTGA	MINGYIPAARFLPFLSWTDVAALPDKSNTVIVLPTGAIEQHGPHLPCSVDSVISSGVAGHALARLPAEIPAYAIPPIVYGKSEEHLHFPGTLTLSGDTLLHTLLEIAESLYRAGFRKLLMINGHGGQPQILQIACREMRLRHGDFIAIPHDVFNVPNCEKQFLSPHEQRMAMHAGHSETALMLALAPECVHMERAVANFPPEFPCPTLSKGRPAAAWASYDFGPSGVIGDPTPATREQGEGLLDSLAASWAQAIIEIHRMAWVERREPTWGKQHWHGFVQSLPPSFAAESKEP				NA	NA	NA	NA	NA
BMS020_00662	984			hypothetical protein	ATGAATACCAGATCAACGCCAGTTTTTACCCTGCTGACCGTGGCCGCCCTCGCGGCCTCAGCCTCCTGCGTCGCGGCGGAGAAGTTCACGTTTCTCACCAACTGGTATGCCCAGGCGGAGCATGGCGGTTTTTACCAGGCCCAGGCCACCGGGCTGTATAAGCACGCCGGACTTGATGTCGAGATTAAAATGGGCGGCCCGCAGATCAACGTCATGCAGCTGATGGCGGCCGGCCAGGCGGATTGCACCCTTGGCGACAACGGCCAGGCGCTGGAGACCTGGCAGGCCGGGGTGCATGCGGTAACCGTCGCCACCGTATTCCAGCACTCGCCGACGGTGTTTATCACTCATGACAAAGTGAGCAACCCGGCGCAGCTTAAAGACAAAACCTTCCTGCTCGCCACCGAGGCCTATACCTCCTTCTGGCCGTGGGCAAAGAGCGAGCTGGGTCTGGCTGGCAGCAAAGTGCGCCCCTATACCTTTAACGTCCAGCCGTTCCTCGCCGATAAAAATCTGGTGCAGCAGGGGTACGTGACCTCCGAGCCGTTCTCCGTCGCCAAAGGCGGGCAGCCGTTCTATGTCTATCCGCTCAGCGACTGGGGCTACCCGCCCTACGGCAACTCGATTATCTGTATGGCGGACACCATCCGCAAACGTCCGGCGGCGGTGGCGGCCTTCGTCAAAGCCTCCATGGAAGGGTGGAAAAGCTACCTGCAGGATCCTGGCCCCGGCAACAACCTGATCGGCAAAGCGAACCCGCAAATGAGCGCCGAGCAGATCGCCTTTGGCATTGCCCAGATGAAGCAGTACCAGCTGGTGACCGGCGGCGACGCCATGACCGGCGGCATCGGCATCATCACCGAGCCGCGGCTGAAGAAAACCTGGGACATGCTGGTGAAAAACAAACTGATCGACGCCAGCAAGGTGCCGTTTGAGCAGACATATACCCTGGAGATGGTCAAAGACGCCGGAGTGATGCCATGA	MNTRSTPVFTLLTVAALAASASCVAAEKFTFLTNWYAQAEHGGFYQAQATGLYKHAGLDVEIKMGGPQINVMQLMAAGQADCTLGDNGQALETWQAGVHAVTVATVFQHSPTVFITHDKVSNPAQLKDKTFLLATEAYTSFWPWAKSELGLAGSKVRPYTFNVQPFLADKNLVQQGYVTSEPFSVAKGGQPFYVYPLSDWGYPPYGNSIICMADTIRKRPAAVAAFVKASMEGWKSYLQDPGPGNNLIGKANPQMSAEQIAFGIAQMKQYQLVTGGDAMTGGIGIITEPRLKKTWDMLVKNKLIDASKVPFEQTYTLEMVKDAGVMP	PGPT0001135_6888	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
BMS020_00663	831	btuD_2		Vitamin B12 import ATP-binding protein BtuD	ATGAATACCGCCCCGAAACTGACCGTGATGAGCGACACCCGCTTTATACCCGCCTCCGCCACGCCGGCCATCGAGGTGCTGTCGGCGGAGAAGATCTACAGCAACGGCACCCGGGCGCTGCTGCCCGTCAATCTGACCATCAACCAGGGGGAGTTCATTACCCTGCTCGGCCCGTCCGGCTGCGGTAAGAGTACGCTGCTGAAGATGGTCGCCGGCCTGGTGGAGCCCAGCGACGGCAAGCTGATGCTGTGGCGGCGCGACAGCCGGGAAAAAGCGCAGCATCCGCTCTCGTTCGTCTTCCAGGAGGCCACCTTGATGCCCTGGAGCAGCGTGCGCAATAACGTCAGGCTGCCGCTGGATCTGGCCGGCGTGCCGCGCGCGGAGGGCAACACCCGGGTGAGTGAAGTCCTTGAGCTGGTGGGGCTCGGCAAGTTCGCCGACGTCCTGCCGCGCGAACTCTCCGGCGGCATGCAAATGCGCGTCTCCATCGCCCGCGGCCTGGTCACCCGGCCAAAGCTGCTGCTGATGGATGAGCCCTTCGGCGCGCTGGATGAAATTACGCGGAACAAGCTCGACAGCGATCTGCTACGCCTGTGGCAGGAGCAGAATCTGACGGTGGTCTTCGTCACCCACTCGATCCACGAAGCGGTGTTTCTCTCGCAGCGGGTGATCATGATGGCGGCCCGTCCCGGACGGGTGGTGGAAGATATCGCCATCCGGGAGCCGTTCCCGCGCAGCGAGGCGTTCCGCGTCAGTCCGGCATTTTCCCTGTATGCCCGTCAGCTGCAGGACAGTCTGTTGCAGGCCAGCCAGTCCGGTATGGAGCCATAA	MNTAPKLTVMSDTRFIPASATPAIEVLSAEKIYSNGTRALLPVNLTINQGEFITLLGPSGCGKSTLLKMVAGLVEPSDGKLMLWRRDSREKAQHPLSFVFQEATLMPWSSVRNNVRLPLDLAGVPRAEGNTRVSEVLELVGLGKFADVLPRELSGGMQMRVSIARGLVTRPKLLLMDEPFGALDEITRNKLDSDLLRLWQEQNLTVVFVTHSIHEAVFLSQRVIMMAARPGRVVEDIAIREPFPRSEAFRVSPAFSLYARQLQDSLLQASQSGMEP	PGPT0001140_2281	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
BMS020_00664	816	ribX_2		Riboflavin transport system permease protein RibX	ATGAAGACCACAACCTCAACGCCGTGGATCCAGCATCCGCGTTTTCTCAAAATTCTCTATCCGACCCTCGTCGCGGTGGCGGTGGTGCTCCTCTGGCAGGGCGCGGTAAGCTATTTCCGCATCCCGGCTTTTCTGGTGCCGTCGCCGCTGGTGATGCTGGACAGCCTGTGGACGCATCTCACGCCGCTGCTGCTGGCGCTGCTGTTCACCCTCAAGATCACCCTGATCTCGTTTCTGCTGTCGATTGTCATCGGCGCCGCCGTGGCGTTTATCCTGGTGCAGAACCGCTTTGTGGAGACCGCCCTGTTTCCCTACATCGTGTTTTTGCAGGTGACGCCGATCGTCGCCATCGCCCCGCTGATCATCATCTGGGTGAAGGACGCCACCCTCTCGCTGGTGGTGTGCGCCACCCTGATGGCGGTCTTCCCCATCATCTCCAATACCACCCAGGGACTGCGCAGCGTCTCCCCCGGCCTGCTGAGCTATTTCCGCCTCAATCACGCCAGCCGCTGGCAAACGCTGGTGCGGCTGCGTATCCCCTCGGCGCTGCCCTATTTCTTCGGCGCGCTGCGTATTTCCAGCGGGCTGTCGCTGATTGGCGCGGTGGTGGCGGAGTTTGTCGCCGGCACTGGCGGGACCAATACCGGGCTGGCCTATCAGATCCTGCAGGCCGGCTACCAGCTGGATATCCCGCTGATGTTTGCCGCGCTGCTGCTGATCTCTCTCGCCGGGATCGCGCTGTTCGGCGTGATGTCCTGGGTCTCGCGCCGGGCGCTCAGCGCCTGGCATGAAAGCGAAGCCGTGCAATCTCATTAA	MKTTTSTPWIQHPRFLKILYPTLVAVAVVLLWQGAVSYFRIPAFLVPSPLVMLDSLWTHLTPLLLALLFTLKITLISFLLSIVIGAAVAFILVQNRFVETALFPYIVFLQVTPIVAIAPLIIIWVKDATLSLVVCATLMAVFPIISNTTQGLRSVSPGLLSYFRLNHASRWQTLVRLRIPSALPYFFGALRISSGLSLIGAVVAEFVAGTGGTNTGLAYQILQAGYQLDIPLMFAALLLISLAGIALFGVMSWVSRRALSAWHESEAVQSH	PGPT0001145_4837	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
BMS020_00665	1422			hypothetical protein	ATGATGACTGATGAACAGCGTCAACAAGCGGTCGCGGCGATCCAGCAGGCACTCCCGGCGCTGGAGTGGACCCTGCAGCCGGCGAAACTCAAACGGCTTTCCCGCGATTTTCACTGGTTCAGTCCGGTACTCGCCGAGCAGCTGGCGGGAAAACAGGCGGACGCGGTGGTTCGCCCGCGCGATGAAGAGGAGCTGCGCCAGCTGGTCGCCGCCTGTGCGCAGCATCAGCTGCCGCTGACCTTGCGCGGCAGCGCCACCGGCAACTATGGACAGCTGGTCCCTCTCGAAGGAGGGATGCTGGTGGATATGACCGGGCTCAACCAGATCGTCGCCCTCGGCAACGGCACGGTGAGGGCCCAGGCCGGCATTCGCCTGGCGGACATCGAAACCGCCGCCCGCCCGACGGGCTGGGAGCTGCGCTGTATGCCGTCTACCTACCGCCTGGCGAGCCTGGGCGGCCTTTACGGCGGCGGGTTCGGCGGCATCGGCTCCATCAACTATGGGCCGCTGGCGGCGCCCGGCAATGTGCTCAGCGTCAAAGTGATGACCGTCGAGCCGGTCCCTCGCGTACTGACCGTCCCGGCTCCCGAAGCGCTGTTGCTGCATCACGCCTACGGCACCAACGGCATCATTCTTGAGGTTGAGCTGGCGCTGGCTCCCGCGCACCAGTGGATAGAACGCCTGGACGTGTTTGACGATTTCGCCGATGCCCTGAACTATGCCAACGCCTGCGTCCGCTCGCCGGGGCTGGTGAAGCGCCAGGTCGCGCTGCTGGCCACCCCGATCGCTGACTATTTTAGCCACCTCAACGATCGTTACCGCGCCGGGCAGCATGCGGTTATCAGCCTGATCGCCGAAGAGAGCGAAGGCGTGTGCGCCAGCCTGTTACAGCCCCATCGCGGGGCCAACGCCATCCGCCAGGCCAGCGATGAGGCCCGGGCGCGCAATGGCTCGTTAATGGAATACTGCTGGAACCACACCACTCTGCATGCGCTCAAGGTGGACAATACGCTGACCTATCTGCAGACCGCGTTTGATCCGCAGCGCTATCCGCAGCAAATTTTACAGATGGAACAGCATTTCGCCGGGGAGGTGATGTCTCATATTGAATTTCTGCGCGATATCGAAGGCAACCTCACCGCCAGCGGTCTGCAGCTGGTGCGCTATACCACGCCCGAACGTCTCAACGCGATCATGCAGATATTTCGCGATAACGACGTCAAAATTAACAACCCCCACGTGCTGCAGGTTGAGGATGGCAAACAAGGGGTGATTCGCCCTGACGTGGTGGCGGTGAAACAATCTCTTGACCCCGCGGGATTGCTTAACCCCGGCAAGCTGCGCGGCTGGGCGCTGCGCGACCAGCTGGAACTAGACAGCAACCCGCTGACGCGGGCCACCCGCGAAACTCCCGCGACTTGA	MMTDEQRQQAVAAIQQALPALEWTLQPAKLKRLSRDFHWFSPVLAEQLAGKQADAVVRPRDEEELRQLVAACAQHQLPLTLRGSATGNYGQLVPLEGGMLVDMTGLNQIVALGNGTVRAQAGIRLADIETAARPTGWELRCMPSTYRLASLGGLYGGGFGGIGSINYGPLAAPGNVLSVKVMTVEPVPRVLTVPAPEALLLHHAYGTNGIILEVELALAPAHQWIERLDVFDDFADALNYANACVRSPGLVKRQVALLATPIADYFSHLNDRYRAGQHAVISLIAEESEGVCASLLQPHRGANAIRQASDEARARNGSLMEYCWNHTTLHALKVDNTLTYLQTAFDPQRYPQQILQMEQHFAGEVMSHIEFLRDIEGNLTASGLQLVRYTTPERLNAIMQIFRDNDVKINNPHVLQVEDGKQGVIRPDVVAVKQSLDPAGLLNPGKLRGWALRDQLELDSNPLTRATRETPAT				NA	NA	NA	NA	NA
BMS020_00666	1365			hypothetical protein	ATGTCATTATCCGTGAATAGTTACCTAAAAGAAGTTGAAGAAATAAAAAATAAAACCACCGCCCTGTCCAATAAAGAATTCAGTGACACTATTGATGAAAATGGCCATCAATACGTTGATCTGGTAATGGAGGGTGGCGGCGTCCTCGGATTAGCCCTTGTAGGTTACATATATATTTTAGAGAAAGCAGGGATAAGATTCATTGGTATCGCAGGTACTTCAGCCGGTTCAATTGCCGCCTTACTATTATCTGCAGTAGATATACCTGAAAAAGAAAAAAGCGAACAGTTAATAAACATGATCGCCAACATGCCTATAAATACATTTATTGATGAAAAAAAAGACGGAGATTATGATCCAAAGAAATTTATGGATACTGCAACTGGCTTAATGAATGCTGAAAACAAATCAGGGTTTAAATACTTTCGTGCATTTTTGAGACTTCTTTCGACAACGGACAACTTAAAAATAATGCATGGACTTAATAGAGGTGATGAATTCGAGTCCTGGCTTAAAAAACAGCTATCATCTTTTAATATTTATACTGTCAGCGACCTTAGAAAAAGAATGGCGACAACTCCACCCGGATGGAAGCTTAGAAGCACCAGTATCGATAAAGCATCCCAGCTTGAAGGTAAACTTTACCTTGATGAGTTAGATGTTAATCATGACTATTTATGCTTGATAACAGCGGATTTGGCTACCGAATACAAGGTTGAACTTCCTGTCATGGCAGATCTATATTGGGAAAAACCGAAAGATGTAAATCCCGCGGTCTTCTGCCGCTGCTCTATGTCTATCCCTTTTGTCTTTCAGCCCTACATGGTAAAAATACCTCATATGGATAATAATCTACAATTGAAATGGCAAAAATATACCGGCATTAGTTTTCAAAGCAGATTAGCGACTCGATTTCCGCCACCTATCGCTTGTTTTGTTGATGGCGGAATCATGTCAAACTTTCCGATTGATGTTTTTCACAACCCCACAAAAATTCCAGCAAGACCCACATTTGGTGTCAAACTGCAACTTGATGATCACAGTCATGAAATTAACAGTACCCTTGATATATTTGCTCAATCTTTCAACACCGCCAGACATGCCATGAATTACGATTTCATTAAAAAAAACCCTGATTACAATAAGCTAGTATCATTCATAGACACTGGAGACATCGGCTGGTTAGACTTCAGCATGAGCGACACCAACAAACTTAAACTTTTTAGACTTGGCGCAGAAACAGCTTATCAATTTCTTATTAATTTTGATTGGCAAAATTACAAAAAAATCAGGCGAGATATTACTTCCGCTTATCAGACAAGCCTTCCCCTTGCAAAATTAAATAGATACTTCAAGAATAAATAA	MSLSVNSYLKEVEEIKNKTTALSNKEFSDTIDENGHQYVDLVMEGGGVLGLALVGYIYILEKAGIRFIGIAGTSAGSIAALLLSAVDIPEKEKSEQLINMIANMPINTFIDEKKDGDYDPKKFMDTATGLMNAENKSGFKYFRAFLRLLSTTDNLKIMHGLNRGDEFESWLKKQLSSFNIYTVSDLRKRMATTPPGWKLRSTSIDKASQLEGKLYLDELDVNHDYLCLITADLATEYKVELPVMADLYWEKPKDVNPAVFCRCSMSIPFVFQPYMVKIPHMDNNLQLKWQKYTGISFQSRLATRFPPPIACFVDGGIMSNFPIDVFHNPTKIPARPTFGVKLQLDDHSHEINSTLDIFAQSFNTARHAMNYDFIKKNPDYNKLVSFIDTGDIGWLDFSMSDTNKLKLFRLGAETAYQFLINFDWQNYKKIRRDITSAYQTSLPLAKLNRYFKNK				NA	NA	NA	NA	NA
BMS020_00667	1368	srpC	COG2059	putative chromate transport protein	ATGAGCAAAACGGTGGTTCTTCCGCAGAGTGACAGTCCTTCCGTCGTCGCCTACGTCTCCTTCTGGCAGGCCTTTCGCTTCTGGCTGAAGCTCGGCTTTATCAGCTTCGGCGGGCCTGCCGGGCAGATCGCCATGATGCACCAGGAGCTGGTGGATAACCGCCGCTGGATCTCGGAAGGACGATTCCTGCACGCGCTCAACTTTTGTATGGTCCTGCCCGGCCCGGAGGCGCAGCAGCTGGCGACCTATATCGGCTGGCTGATGCATAAAACCTGGGGAGGCGTCATCGCCGGGGTGCTGTTTATTTTGCCCTCGCTGGTATTACTCATCGCGCTGGCGTGGATCTACCTCGTCTGGGGAGATGTCGCGGTGGTGGCGGGGATTTTTTATGGCATCAAACCCGCCGTGGCGGCGATCGTGCTGCAGGCGGCGCACCGCATCGGCTCGCGGGCGCTGAAAAATGGTGCCTACTGGGCCATCGCCGCCGCTGCCTTTGTCGCTATTTTTGCGCTGAACGTTCCTTTTCCGCTGATCGTCCTGACCGCGGCGATCGTCGGGTTTATCGGCGGACGGATGGCGCCGGCGACATTCGGCAAAGCGGACACCCACCGTGCGCAGAGTCACCCCGGCGGGGCCGCCATCATTGATGATGCGACGCCGATCCCGGCCCATGCCATTTTCAGCTGGCGGCGTACCGCCCAGGTACTGATCGCCGGGATGCTGCTGTGGCTGGTGCCGATGGCCGCCCTGGCGCTAATGCTGGGCTGGGCGCATCCGCTGACCCAGATGAGCTGGTTCTTTACCAAAGCCGCGCTGATGACCTTTGGCGGGGCGTATGCCGTCTTACCTTACGTTTACCAGGGGGCGGTAACCCACTATGGCTGGCTGACCGCAGGGCAGATGATGGACGGCCTCGCCCTTGGGGAATCCACCCCCGGGCCGTTGATCATGGTGGTGACCTTTGTCGGGTTTGTCGGCGGCTACACCAAAGCGGTATTGGGCGTCGATGATGCGCTGCTGGGGGGCATCGCGGCGGCGTGCCTGGTGACATGGTTTACCTTTTTGCCCTCGTTTATCTTTATTCTCGCCGGCGGGCCGTTTATTGAAACCACCCATAATAAAGTGGGATTTACCGCGCCGTTGACTGCTATCACCGCCGCGGTGGTGGGCGTTATCCTGAATCTGGCGCTGTTTTTTATCTGGCATAGCGTCTGGGGACCGTCCGGTTTCGACCCATGGTCTGCGGCCATTGCCCTCGCCGCCGCCGGGCTGCTGTTTCGCTATAAGTGGAAGCTGGCCTGGGTGCTGGCCGCCGCCGCCGCGGTGGGCCTTATCGTCCATATGGCGGGACTGTCCGGCGCAGGATAA	MSKTVVLPQSDSPSVVAYVSFWQAFRFWLKLGFISFGGPAGQIAMMHQELVDNRRWISEGRFLHALNFCMVLPGPEAQQLATYIGWLMHKTWGGVIAGVLFILPSLVLLIALAWIYLVWGDVAVVAGIFYGIKPAVAAIVLQAAHRIGSRALKNGAYWAIAAAAFVAIFALNVPFPLIVLTAAIVGFIGGRMAPATFGKADTHRAQSHPGGAAIIDDATPIPAHAIFSWRRTAQVLIAGMLLWLVPMAALALMLGWAHPLTQMSWFFTKAALMTFGGAYAVLPYVYQGAVTHYGWLTAGQMMDGLALGESTPGPLIMVVTFVGFVGGYTKAVLGVDDALLGGIAAACLVTWFTFLPSFIFILAGGPFIETTHNKVGFTAPLTAITAAVVGVILNLALFFIWHSVWGPSGFDPWSAAIALAAAGLLFRYKWKLAWVLAAAAAVGLIVHMAGLSGAG				NA	NA	NA	NA	NA
BMS020_00668	1179	rfnT		Riboflavin transporter RfnT	ATGCTGCCGCTGGCGGCGCAGAATAAAAATATCATCCGCCTGGCCGCCGCTCAGGCGCTGGCCGGCGCCAACTCGGTGGTGTTCTACGCCACCGGCGCTATCGTCGGCAATACCCTCGCCCCCAGCCCGTCGCTGGCCACGCTGCCGATCACCCTGTTTGTGCTGGGGATGGCGGCCTCGATTTTGCCTTTCGGCGCGCTGGCGCGAAAGCGGGGCCGCAAAGCCGCGTTTATGGCCGGTACCGGCGCCGGGGTGGTCACCGGTCTGGCGGCCGCTCTGGCGGTGGTGCTGGGCTCTTTTCTGCTGTTTTGCTTCGCCGCGATGCTCGGCGGCGCCTATGCCGCGGTGGCGCTCAGTTTTCGCTTTGCCGCCACCGACGGCGTCGCTCCGGAACGTCGCGCCCGCGCGCTGTCGCTGGTGATGGGCGGCGGCGTGGCCGCCGGGATCATTGGCCCGATGCTGGTCACCGGCACCATGCACCTCTGGCCGACCCATACCTTCGCCTTCACCTTTCTTGCTCAGGCGCTGGTGGCGGCGCTCGCCGCCATTCTGCTGGCCGGCGTGACGTCGGCAGAGCCCGCGGCGGCCAGCGTGCGCGGAGGGCGGCCACTGCGCGAGATTATCCGCCAGCCGGGCTTTGCCACCACGGTGTTCAGCGGGGCGGTGGCCTATATGGTGATGAATTTTCTGATGACCGCCGCGCCGCTCTCCATGCATATGCACGGTCTTTCCCAGCAGGCCGCCAACCTCGGGATCCAGTGGCATGTGATGGCGATGTACGGCCCGGGATTTGTCACCGGCCGGTTGATCCAGCGCTTCGGCGCCGTGCGCATGGCGGCGGCGGGATTGCTGATCACCGGCGCGTCGGTGGCGGTCGGTCTCAGCGGCGTCGGGGTATATCATTACTGGCTGTCGCTGATTTTGCTCGGCATCGGCTGGAACTTTGGCTTCACCGGCGCCTCGGCGAAAATCATCGATTTCCACCGCCCGGAAGAGAAGACCCAGGTGCAGTCGCTCAACGATTTTCTGGTCTTCGGCGTGATGATCGTGGGTTCGTTTTCGTCCGGCGTTCTGCTCAACGCCTTCGGCTGGAACGCGGTGCTGTGGGGCTCCCTGGTGCCGGTGGGGCTGGCGCTGTTCACCCTGCTGCTGCGCCCTTTATCGCCACCCCGCGCTTAG	MLPLAAQNKNIIRLAAAQALAGANSVVFYATGAIVGNTLAPSPSLATLPITLFVLGMAASILPFGALARKRGRKAAFMAGTGAGVVTGLAAALAVVLGSFLLFCFAAMLGGAYAAVALSFRFAATDGVAPERRARALSLVMGGGVAAGIIGPMLVTGTMHLWPTHTFAFTFLAQALVAALAAILLAGVTSAEPAAASVRGGRPLREIIRQPGFATTVFSGAVAYMVMNFLMTAAPLSMHMHGLSQQAANLGIQWHVMAMYGPGFVTGRLIQRFGAVRMAAAGLLITGASVAVGLSGVGVYHYWLSLILLGIGWNFGFTGASAKIIDFHRPEEKTQVQSLNDFLVFGVMIVGSFSSGVLLNAFGWNAVLWGSLVPVGLALFTLLLRPLSPPRA				NA	NA	NA	NA	NA
BMS020_00669	237			hypothetical protein	GTGCCATTTGTTAACGTGCAAACCATTAAAGGGATCATGACCGCGGAACAGAAAAGTGAGCTGCTGCGGCGGATGACCGATCTGCTGGTGGAGATTGAGGGGCAGGGCGATCCGCAGTTCCGCCAGTCGGTATGGATCCGCATTGATGAACATGACCCGGAACAGTGGAGCCTGGGGGGCGTCCAGCCGACGGCCGCGATGATTGCGGCTAAATTCGCCGCGGCGCGGCGCGACTGA	MPFVNVQTIKGIMTAEQKSELLRRMTDLLVEIEGQGDPQFRQSVWIRIDEHDPEQWSLGGVQPTAAMIAAKFAAARRD	PGPT0005210_411	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
BMS020_00670	462			hypothetical protein	ATGTCAAAAAATAAATCACTGCCCTACCTCGATCCGGAGCTGTGCGGCCTGGCGGAAGGAGCCAAAATACTCGGTGACCGCTGGGTGCTGCTGATCCTCCGCGAGGCGTTTTACGGTGTGACGCGCTTTGAAACGATGCAGACGCATACCCATATCACCCGCCAGACGCTCACCACCCGGTTGAAAACGATGACCGAAATGGGATTGCTCCGCAAAGTCCCCTACCGGGAAGCGGGGGCTCGCGAGCGCTATGAATATGTTCTCACCGATAAAAGCCGTAGCCTGGCGCTGGTGCTGTTCGCCCTGATGGAATGGGGCCACCAGCAGGTGCTGCACAGCGCGCCGCATATTGCGCTGGTGGATAGCGTCAGCGGCGAGGCCGTCCATCCGGGGTTCGTCACCGCCAGCGGCAGCGTGGCGAATCCCGCCGCGCTGCAGATCGTTAAAGCAGACGAACGCTGA	MSKNKSLPYLDPELCGLAEGAKILGDRWVLLILREAFYGVTRFETMQTHTHITRQTLTTRLKTMTEMGLLRKVPYREAGARERYEYVLTDKSRSLALVLFALMEWGHQQVLHSAPHIALVDSVSGEAVHPGFVTASGSVANPAALQIVKADER				NA	NA	NA	NA	NA
BMS020_00671	1218			putative MFS-type transporter	ATGTCGCTTCGTTCACTGCGGGCTTTATGTTTGACCAGCTTCTTTATCGCCGACGTTCGCGACGGCCTCGGGCCGTTTCTGGGGATCTTTCTCACCCAGCGTCACTGGCAGGCGGAGGACATCGGCCTGTTGATGACCATCGGCGGCGTTGCTGGCCTGCTGGCGACCCTGCCCGCCGGCTTCATCACCGACACCTCGCGGCATAAGCGCGTGCTGCTGGCCGTGGTCTGCCTGGTGATAACCCTCACCACCCTGCTGCTCTGGTTCAGTCAGAAGACCAGCGTGGTGGCCCTTTCGCAAGTCGCCAGCGGGATCTGCGCGGCCTTTGTCGGACCGTTAATCGCCGGGATCACCCTTGGGCTGACCCGACAGCGCGGCTTTAGCGCCCAGATGGGCAAAAACGAAGCCTTCAACCACGCGGGGAATTTCTTCACCGCGCTGATTGCCGGGGCCATCGCCTGGTACTGGGGCATCGGCGGTATTTTCATTCTGATGGCCGGTACCACCCTGTTCACCCTCATCGCCCTGCTGGCGATCCGCGGCAGCGATATCGACGATGACGCCGCCCGCGGCCTCGAGTCGGCCGTCCCGCCCTCTCTGCCTGGGTTTGCCATCCTGTTCCGCCATACGCCGCTGCTGATCGCCGGCGTGACCCTGATGCTGTTCCATCTCGCCAACGCCGCGCTGTTGCCGATGCTGAGCATGCGGATCGCCGCCGCGCCGGGACACCTCAATCCGGGGCTGTTTGCCGCCGCCACGGTGATTATTTCGCAGGTGGTGATGATCCCGGTCGCCATTCGGGTCGCCGGCAGCATCGACAAATATGGTTACTGGCGATGCATTCTGCTGGCGCTGCTGATCATGCCCATCCGCGCGGCGCTGGCGGCCTCCAGCGACGCCCCGGCGATGATGGTCCCGGTGCAAATTCTTGACGGTCTGGCGGCAGGGATTTTGGGGGTGGCGGTGCCCAGCTTTATCGTCTCGCTGCTGCGCGGCAGCGGGCACGTCAACGCCGGACAGAGCGTGGTGATGCTGATGCAGGGGGCCGGGGCGGCAATGAGTCCGGCGTTAACCGGCGCTATCGCCGGACGCTACTCCTTTGCCACCGCCTTCGGGGTGCTGAGCGTTATCGCGCTGGTCGCGCTGATGGTGTGGTGGCGCAGCGCCCCGCTGCTCGCCGCCTCCGCCTCGCCGCCGGTCGGCGAAAGCGGCCAGTAA	MSLRSLRALCLTSFFIADVRDGLGPFLGIFLTQRHWQAEDIGLLMTIGGVAGLLATLPAGFITDTSRHKRVLLAVVCLVITLTTLLLWFSQKTSVVALSQVASGICAAFVGPLIAGITLGLTRQRGFSAQMGKNEAFNHAGNFFTALIAGAIAWYWGIGGIFILMAGTTLFTLIALLAIRGSDIDDDAARGLESAVPPSLPGFAILFRHTPLLIAGVTLMLFHLANAALLPMLSMRIAAAPGHLNPGLFAAATVIISQVVMIPVAIRVAGSIDKYGYWRCILLALLIMPIRAALAASSDAPAMMVPVQILDGLAAGILGVAVPSFIVSLLRGSGHVNAGQSVVMLMQGAGAAMSPALTGAIAGRYSFATAFGVLSVIALVALMVWWRSAPLLAASASPPVGESGQ				NA	NA	NA	NA	NA
BMS020_00672	909			hypothetical protein	ATGGGACATACTGTTGCAGGCGCCATCAAAGAATGGCGTAAACATAATAAAGTGATCGGTCAGGTCAAAATAAACTATAAAAAAATTTTACGAAAATGCAGAGAGCTCTCGCTCGCAGGAGGTAAGTACAGAGAATATCAAGGACTTTGCGCCAAATATCAGTGCGCGCGGTTGACCGCCGTAACCCAGGGGCTGGTGCCTTTCGAGGATAAACCCTTTAAGGCCTATCTTAATAAACGGATGTCAAAACGGCGCAAGCTGGATATTGCCCACGGTTCGCTGAATTTTATCGAGAAAACATTTCAGCCGGATGTGTTGCCGCAGCTCTATAACGTGGCGGATTTTGGCCGGGCGATGTTTGCTATTCCTTTGAAAAATGGCGATAAGCTTGACGTTAAGCTGCTGGCGTCGCCGTTTCAGGAGGAGGGTGAACTGATGCTGCAGCTGTTTCTCGGCGACCGTCGCGTCTATAGCGTCTGTTTTTCCTGTACCGACGATGGCCGCGCCTATATCGGCGGTATTCAGGGCGGGAAAGATATCACCAATGAAGAGGTGAAGGCGCTGACCAAAGAGCTGCATGGCGCGCGGCCGAAAAATATCATCATGAGCGTGCTGTATGGTTTCTTAGGCTATTTCAACATCACCACGGTCTACGCGATCGATTCCGATTACCACGTGAAAAGCGATCTGGTGAAAGCCAGTTACTCATCGCTGTGGCTGGAAATGGGCGGTGAGAAACAGGCTCGCGGATGGTATAAACTGCCGGCACAAGAGATCAAAAAAAGTATTGAAGAGGTGAAAAGTAAACACCGCAGCCAGTTTATTAAGCGCGAAGGCATTAAAGAGCTGATTCAGCTCGATATGGCCAACGCCCTGCGGCAAATCACCTTGCGTTCGCGGGTGAATTAA	MGHTVAGAIKEWRKHNKVIGQVKINYKKILRKCRELSLAGGKYREYQGLCAKYQCARLTAVTQGLVPFEDKPFKAYLNKRMSKRRKLDIAHGSLNFIEKTFQPDVLPQLYNVADFGRAMFAIPLKNGDKLDVKLLASPFQEEGELMLQLFLGDRRVYSVCFSCTDDGRAYIGGIQGGKDITNEEVKALTKELHGARPKNIIMSVLYGFLGYFNITTVYAIDSDYHVKSDLVKASYSSLWLEMGGEKQARGWYKLPAQEIKKSIEEVKSKHRSQFIKREGIKELIQLDMANALRQITLRSRVN				NA	NA	NA	NA	NA
BMS020_00673	141			hypothetical protein	ATGGAAATTGATCTCGACAACCTGGTCTTCAGCGGCCTGGATGAAGCGGAAGAGCGCAACGCGGAGCGTCTGGAAGAAGCGGACAAAAAAGCCCAGGCGATCGTTGCCGATGACGATTGCGGCGACGCCTGCAAAATCTGA	MEIDLDNLVFSGLDEAEERNAERLEEADKKAQAIVADDDCGDACKI				NA	NA	NA	NA	NA
BMS020_00674	891	hcaR_2		Hca operon transcriptional activator HcaR	ATGAGAATGAGTGTCAAACAGTTACGCGCGTTTTTAGCGGTAGCTCACACTCTCAATTTCGCCCACGCCAGCGAAAGGCTGAATCTGTCGCAGCCAGCTCTCAGCCTGACCATCAAAGGGTTGGAGGAGGCGCTGGGGGGCGCCTTGCTGCAGCGCAGCACCCGCAAAGTGACCCTCACCCAGGAGGGGGAACTCTTTCTGCCGATGGCCCGTCAGCTGCTGGCCGACTGGGATAACGTCGAGGAGGCGATGCGTCAGAGCTTTACCCTGCAGCGGGGCAAAATCTCGGTCGCCGCGATGCCGTCGTTCGCCGCCAACGTTCTGCCGGAGGCGCTGAAAGCCTTCCGCGACCGCTATGCCGGGGTGAACGTCACGGTACATGACGTGATAAATGAGCAGGTGATCGAGATGGTGCGCGAGGGGCGGGTGGAAATGGGTATCGCTTTCGAGCCATCGCCCAGCCACAACCTGCTGTTTACCCCGCTGGCGGTGGACCGCTTCGTGGCGATCGTTCCCCGGCAATCGCCGCTGGCGAAGAAAAAAAAGCTCACCTGGCAGGAGCTGTTAACCCTCGACTTTATTACCCTCCAGCGCCCTTCGGCGGTGCGCCTGATGCTGGAGGAGGCGCTGGCGCGCAGCGGGCGTCAGCTGGACGTGGCCCTGGAGAGCCATCAGCTGGTGACGGTGGGGAGAATGGTGGCCAGCGGGCTGGGGGGCAGCGCGGTGCCAGCGCTATGCAAAACGCAGATGGCCTCGCTGGGGGCGGTGTGCATTCCGCTTAGCGATCCGCCGATTGAAAAGTGCGTTGGGGCGATTTATGCCGGACATCTGCCGCTGTCGAAGGCGGCGCAGGCGCTGCTGGATACGCTGAAAGGGTTTTTACCCAGCTGA	MRMSVKQLRAFLAVAHTLNFAHASERLNLSQPALSLTIKGLEEALGGALLQRSTRKVTLTQEGELFLPMARQLLADWDNVEEAMRQSFTLQRGKISVAAMPSFAANVLPEALKAFRDRYAGVNVTVHDVINEQVIEMVREGRVEMGIAFEPSPSHNLLFTPLAVDRFVAIVPRQSPLAKKKKLTWQELLTLDFITLQRPSAVRLMLEEALARSGRQLDVALESHQLVTVGRMVASGLGGSAVPALCKTQMASLGAVCIPLSDPPIEKCVGAIYAGHLPLSKAAQALLDTLKGFLPS	PGPT0021950_531	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021950-dhcR-K17737	NA	NA
BMS020_00675	708	scoA_1	COG1788	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit A	ATGGCAGGACTGGATAAACGCGTCGCCAGCTACGAAGCGGCGCTGGAAGGGTTAACGGACGGCATGACGCTGCTCGCCGGCGGCTTCGGCCTGTGCGGTATACCCGAAAATTTGATCGCCGAAGTGAAGCGCCGCCAGGTGCAGGGGTTGACGGTGGTTTCCAACAACTGCGGCGTCGACGGCTTCGGTCTCGGCATGCTGCTGGAATCGCGCCAGGTCAGCAAAGTGGTGGCCTCTTACGTCGGAGAAAACGCGCTGTTTGAACAGCTGGTGCTGAGCGGCGAGCTGGCGGTAGAGCTCACCCCGCAGGGAACGCTGGCGGAAAAAATCCGCGCCGGTGGCGCCGGGATCCCCGGCTTTTACACCGCTACCGGCTATGGCACCCCGGTCGCCGAAGGCAAAGAGGTGCGCCAGTTCGACGGTAAAAATTACATTCTCGAACAGGCCATTCGCGGCGATTTCGCCCTCGTGAAGGGCTGGAAAGCTGACTGGTACGGCAACGTGGTTTACCGCCACACCGCGCAGAATTTCAACCCGCTGATGGCCACCGCCGGGCGCATTACGGTGGTGGAGGTGGAAGAGATCGTGCCGCCGGGCGAACTGCCGCCCTCCGCCATTCACACCCCGGGGATCTATGTCGACCGGCTGATCGTCGGGCAATTCGAAAAACGTATTGAACAGCGCACCCTGCGCGCCGGAGGGCACTGA	MAGLDKRVASYEAALEGLTDGMTLLAGGFGLCGIPENLIAEVKRRQVQGLTVVSNNCGVDGFGLGMLLESRQVSKVVASYVGENALFEQLVLSGELAVELTPQGTLAEKIRAGGAGIPGFYTATGYGTPVAEGKEVRQFDGKNYILEQAIRGDFALVKGWKADWYGNVVYRHTAQNFNPLMATAGRITVVEVEEIVPPGELPPSAIHTPGIYVDRLIVGQFEKRIEQRTLRAGGH	PGPT0008325_821	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008325-scoA-K01028	NA	NA
BMS020_00676	657	scoB_1	COG2057	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit B	ATGCTAACCCGTGAACAAATGGCGATGCGCGTCGCCCAGGAGCTGCGCGACGGCGACTACGTCAACCTCGGGATCGGTATCCCGACGCTGGTGGCCAACTATATCCCCGCCGGTATTGAAGTGATGCTCCAGTCGGAGAACGGCCTGCTGGGGATGGGCGAATTTCCCGATGAGGAAACCATCGACGCCGACATGATTAACGCCGGCAAACAGACCGTCACCGCGCAAACCGGGGCGGCGATCTTCGATTCCGCCCAGTCGTTCGCCATGATCCGCGGCGGCCACGTCGATCTTACGGTTCTTGGCGCCTTTGAGGTCGACGTCGCGGGGAATATCGCCTCATGGATGATCCCCGGGAAAATGGTTAAGGGGATGGGCGGCGCCATGGACCTGGTGGCCGGCGCGCAGAACATCATCGTGGTGATGACCCACGCCTCAAAGAACGGCGAATCCAAACTGCTGCCGCAGTGCACCCTGCCGCTCACCGGCGTGGGCTGCATTCGCCGGGTGCTCACCGACCTGGCCCTGCTGGACATTGTCGACGGGGCGTTTGTCCTGCGCGAAGTGGCTCCGGGGGTCAGCCCCGACGAGGTGATGCGTAAAACGGCGGGACGGCTGATCGTCGCCGACGACGTGCGCGAAATGCGCTTCAGCTAA	MLTREQMAMRVAQELRDGDYVNLGIGIPTLVANYIPAGIEVMLQSENGLLGMGEFPDEETIDADMINAGKQTVTAQTGAAIFDSAQSFAMIRGGHVDLTVLGAFEVDVAGNIASWMIPGKMVKGMGGAMDLVAGAQNIIVVMTHASKNGESKLLPQCTLPLTGVGCIRRVLTDLALLDIVDGAFVLREVAPGVSPDEVMRKTAGRLIVADDVREMRFS	PGPT0008330_479	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008330-scoB-K01029	NA	NA
BMS020_00677	1182	thlA_2	COG0183	Acetyl-CoA acetyltransferase	ATGACCGATATTGCCATTGTTGCTGCAGTACGCACCCCGGTCGGCAGCTTTCGCGGCGCCTTCGCCCCGCTTTCCGCCGTCGACCTCGGCGCGACGGTGGTGCGCAGCCTGCTTGAACGCTGCCAGCTGCCCGCCGCGGCGGTCGATGAACTGATTTTCGGCCAGGTGCTCACCGCCGGCTGCGGGCAGAACCCGGCGCGCCAGACCGCGCTGCGGGCCGGCCTGCCGGTGGACACCCCGGCGGTCACCGTCAATCTGGTGTGCGGCTCCGGGTTGAAAGCGGTTCAGCAGGCGGTGCAGGCGATCCGCTGCGGCGACGCCGGGATCGTCATCGCCGGCGGCCAGGAGAGCATGAGCAATGCTCCCTATCTGATGCACGGCGCCCGCGACGGCCTGCGTTTCGGCCACGCCAGCCTGCAGGACAGCATGATCCAGGACGGCCTGTGGGACGCCTTTAACGACTACCACATGGGCATGACCGCCGAGAACCTCGCCGATACCTTCGATATCAGCCGCGAGCGCCAGGACGCCTTCGCCGCCAGCTCCCAGCGCAAAGCGGCGGCCGCTATCGCCGCCGGACGCTTTCGCGAGGAGATCGTCCCGGTCAGCGTCCCGCAGGGCAAAAAGCCGCCGCGTGTCGTGACCGACGATGAACAACCGCGCCCGGAGACCAGCGAGCAGCAGCTGGCCCAGCTGCGCCCGGCGTTTCGCCCGGCTGACGGCAGCGTCACCGCCGGGAATGCCTCATCCCTGAACGACGGCGCCGCGGCGGTCCTGCTGATGAGCGTCGATAAAGCCCGCGAGCTTGGGCTGCCGGTGCTGGCGCGCATCGTCAGCGCGGCGGTCGCCGGGGTCGACCCGTCGGTGATGGGCATCGGCCCGGTGAGCGCCTGCCGCCAGGCGCTGCAGCGCGCCGGCTGGACGCTGGACGAAGTGGATCTTATCGAAGCCAACGAGGCCTTTGCCGTCCAGGCGCTGGCCGTCGGTCAGCTGCTCGAATGGGACAGCGAGAAAGTCAACGTCAACGGCGGCGCCATCGCCCTGGGCCATCCCATCGGCGCCTCCGGCTGCCGGATCCTCGTCAGCCTGGTGCATGAGATGCAGCGCCGGGGCGCCGGTAAAGGGCTGGCCACCCTGTGCGTCGGCGGCGGCCAGGGCATCGCCATGACCCTTCAACGTTAA	MTDIAIVAAVRTPVGSFRGAFAPLSAVDLGATVVRSLLERCQLPAAAVDELIFGQVLTAGCGQNPARQTALRAGLPVDTPAVTVNLVCGSGLKAVQQAVQAIRCGDAGIVIAGGQESMSNAPYLMHGARDGLRFGHASLQDSMIQDGLWDAFNDYHMGMTAENLADTFDISRERQDAFAASSQRKAAAAIAAGRFREEIVPVSVPQGKKPPRVVTDDEQPRPETSEQQLAQLRPAFRPADGSVTAGNASSLNDGAAAVLLMSVDKARELGLPVLARIVSAAVAGVDPSVMGIGPVSACRQALQRAGWTLDEVDLIEANEAFAVQALAVGQLLEWDSEKVNVNGGAIALGHPIGASGCRILVSLVHEMQRRGAGKGLATLCVGGGQGIAMTLQR	PGPT0008320_9077	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
BMS020_00678	924	hbd	COG1250	3-hydroxybutyryl-CoA dehydrogenase	ATGTTTACACCACGTCTGGCGGTACTCGGCGCGGGACTGATGGGCGTCGGCATTGCCTGCCATTTCGCCCGTCACGGTCACGCCGTCCGCCTGTATGACACCGATCCGCAACGTCTTGCCGAGGTGCCCACGGTGGCCGGGGCGATCCTGCGCGAGCTGGAGGCGAGCGGTCAGCAGGATCCCGCCGACCGCGACGCCGTGCTGAGCCGTTTAATCCCCACCCCGGCGCTGCAGGCGCTGGCCGACGCCACGCTGCTGATTGAAGCGATCCCCGAACGGCTGGCGCTGAAGCACGCCCTGTATGCCGAACTGGAAACGCTGATCGCCGACGAGGCGATTATCGCCAGCAACACCAGCGGCCTGCCGCCGGATCGGCTGGCGCAGGGCATGCGCCTTCCGGAACGCCTGCTGATCGCCCATTTCTGGCATCCGCCGCACCTGATCCCGCTGGTGGAAGTGGTGCCCGGGAGCGCCACGCTGCCCCATCTGGCGCGCCAGGTAAGCGACTTTTGCGCCGGCTGCGCGCTGGAAGCGGTGGTGCTCAACCGCGCCGCGCCGGGCTTTGTCGGCAACCGACTGCAGTTCGCCCTGCTGCGCGAAGCGCTGCACATCGTCCACAGCGGCATCGCTTCCCCGGAGGTGGTGGACCAGGTGATGCGCGCCTCGCTGGGCCGTCGCTATGCGATGGTCGGCCCGCTGGAGGCGGCGGACATGACCGGCCTGGCGACGGTCCAGGATATCTGCCAGCACCTGCTGCCGGAGCTGGCCAGCGGTACGGAGATGATGTCGCTGGTGGCGGAGAAAGTGGCGCAAGGCGACACCGGCGCCCGCAGCGGGCAAGGCTTTTACCGCTGGGACGAGGCGCGGCGCCAGCGCATCCAGTCGCGCCGGGAACACCAGCTGCGCTTCGCCCTGAAACCCTAG	MFTPRLAVLGAGLMGVGIACHFARHGHAVRLYDTDPQRLAEVPTVAGAILRELEASGQQDPADRDAVLSRLIPTPALQALADATLLIEAIPERLALKHALYAELETLIADEAIIASNTSGLPPDRLAQGMRLPERLLIAHFWHPPHLIPLVEVVPGSATLPHLARQVSDFCAGCALEAVVLNRAAPGFVGNRLQFALLREALHIVHSGIASPEVVDQVMRASLGRRYAMVGPLEAADMTGLATVQDICQHLLPELASGTEMMSLVAEKVAQGDTGARSGQGFYRWDEARRQRIQSRREHQLRFALKP	PGPT0006075_1783	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006075-paaH|hbd|fadB|mmgB-K00074	NA	NA
BMS020_00679	1392			hypothetical protein	ATGAGTGTGATAATAGCCCTGGCCGCGCTGGCGTTACTGATGCTGGCAGCCTACCGTGGATACAGCGTGATCCTCTTTGCGCCGATCGCCGCCCTCGGCGCGGTGCTGCTCACCGACCCGGGCGCGGTCGGCCCGGCCTTTACCGGCCTGTTTATGGAAAAAATGGTCGGCTTTGTGAAGCTCTATTTCCCGGTGTTTCTGCTGGGCGCCGTGTTCGGCAAGCTGATTGAGCTGTCGGGATTCTCACGGTCGATTGTCGCCGCCGCCATCCGCATCCTCGGCCGCCGCCACGCGATCCCGGTGATCGTGCTGGTGTGCGCCCTGCTGACCTACGGCGGGGTGTCGCTGTTTGTGGTGGCCTTTGCCGTCTACCCTTTCGCCGCCGAGCTGTTTCGCCAGAGCGGGATCCCCAAACGGCTGATCCCCGCCACCGTCGCCCTCGGCGCGTTCTCGTTTACCATGGACGCCCTGCCCGGCACGCCGCAGATCCAGAATATTATTCCCACCAGCTTCTTCGGCACCAACGCCTGGGCGGCCCCGTGGCTGGGGCTTATCGGCTCGCTGTTCATTATCCTCTTCGGTTTGCTGTGGCTGGAGCGCCAGCGCCGCAAAGCGCAGGCCAGCGGCGAAGGCTATGGGACCGATCTGCAAAATGAGCCGGAGACCCCGGATGACATCGATCTGCCGCATCCGCTGATCGCAATCGCCCCGCTGCTGCTGGTGGGGGTGCTGAATCTGCTGTTTACCCACTGGATCCCGCAATGGTACGGCGCCAGCCATGAGCTCACCCTGCCGGGTCTGGCGAAGCCTGTCGTCACCGAGGTGGGGAAAATCACCGCCATCTGGGCGGTGCAGGCGGCGCTGCTTTCCGGCATTGTGCTGGTGCTGGTCTGCGGCTATCGCAATATTCGCGGCCGGCTGGCGGAGGGGAGCCGGACGGCGGTGGGCGGGGCGATTCTCGCGGCAATGAACACCGCCTCTGAGTATGGCTTCGGCGCGGTTATCGCCGCCCTCCCGGGTTTCCTGGTGCTGTCGAAAGCCCTCGCGGCCATTCCCAATCCGCTGTTAAACGAGGCGATCAGCGTCACGGTGCTGGCCGGGATCACCGGCTCGGCCTCCGGGGGAATGAGCATCGCCCTGGCGGCGATGTCCGAAACCTTTGTCGCCGCCGCCCACGCCGCCAATATTCCGCTGGAGGTCCTGCACCGCGTCGCCGCTATGGCCAGCGGCGGCATGGACACCCTGCCGCATAACGGGGCGGTGATCACCCTGCTGGCGATCACCGGCCTGAGCCATCGCCAGGCCTACGGCGGCATTTTCGCCATCACGGTGATCAAAAGCCTCGCGGTGCTGTTTGTCATTGCCACGTTCTATGTGACCGGCATTGTCTGA	MSVIIALAALALLMLAAYRGYSVILFAPIAALGAVLLTDPGAVGPAFTGLFMEKMVGFVKLYFPVFLLGAVFGKLIELSGFSRSIVAAAIRILGRRHAIPVIVLVCALLTYGGVSLFVVAFAVYPFAAELFRQSGIPKRLIPATVALGAFSFTMDALPGTPQIQNIIPTSFFGTNAWAAPWLGLIGSLFIILFGLLWLERQRRKAQASGEGYGTDLQNEPETPDDIDLPHPLIAIAPLLLVGVLNLLFTHWIPQWYGASHELTLPGLAKPVVTEVGKITAIWAVQAALLSGIVLVLVCGYRNIRGRLAEGSRTAVGGAILAAMNTASEYGFGAVIAALPGFLVLSKALAAIPNPLLNEAISVTVLAGITGSASGGMSIALAAMSETFVAAAHAANIPLEVLHRVAAMASGGMDTLPHNGAVITLLAITGLSHRQAYGGIFAITVIKSLAVLFVIATFYVTGIV				NA	NA	NA	NA	NA
BMS020_00680	771	bdhA_1		D-beta-hydroxybutyrate dehydrogenase	ATGAATTTAGACGGTAAAACGGCGCTGGTCACCGGCTCCACCAGCGGCATCGGTTTAGGGATTGCCAAAGTGCTGGCGCAGGCGGGCGCCCAGTTGGTGCTCAATGGCTTCGGCGACAGCAGCCACGCCCGGGCTGAAGTCGCCGCGCTGGGCAAGATCCCCGGCTATCACGACGCCGACCTGCGCGACGTCGGGCAGATCGAGGCGATGATGCGCTATGCCGAAAGCACCTTCGGCGGCGTCGATATCGTGATCAATAACGCCGGTATCCAGCACGTCGCCCCGGTGGAGCAGTTCCCGGTGGACAAATGGAACGACATCATCGCGATCAATCTCTCCAGCGTCTTCCACACCACCCGCCTGGCGCTGCCGGGCATGCGCCAGCGCAACTGGGGGCGCATCATCAACATTGCCTCAGTGCATGGCCTGGTGGCGTCGAAAGAGAAATCGGCCTACGTCGCCGCCAAGCACGCGGTGGTCGGGCTGACCAAAACCGTGGCCCTGGAAACCGCGCGCAGCGGCATCACCTGCAACGCCATCTGCCCCGGCTGGGTGCTGACCCCGCTGGTGCAGCAGCAGATCGATAAGCGCATCGCCGAAGGGGTCGACCCGCAGCAGGCCAGCGCGCAGCTGCTGGCGGAAAAACAGCCCTCCGGGGAGTTTGTCACCCCGCAGCAGCTGGGCGAAATGGCGCTGTTTCTGTGCAGCGACGCCGCCGCCCAGGTGCGCGGCGCGGCGTGGAACATGGACGGCGGCTGGGTGGCGCAGTAA	MNLDGKTALVTGSTSGIGLGIAKVLAQAGAQLVLNGFGDSSHARAEVAALGKIPGYHDADLRDVGQIEAMMRYAESTFGGVDIVINNAGIQHVAPVEQFPVDKWNDIIAINLSSVFHTTRLALPGMRQRNWGRIINIASVHGLVASKEKSAYVAAKHAVVGLTKTVALETARSGITCNAICPGWVLTPLVQQQIDKRIAEGVDPQQASAQLLAEKQPSGEFVTPQQLGEMALFLCSDAAAQVRGAAWNMDGGWVAQ	PGPT0008310_2320	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008310-bdh-K00019	NA	NA
BMS020_00681	873	benM_1		HTH-type transcriptional regulator BenM	ATGGAACTTCGTTATCTTCGCTATTTTGTCGCCGTCGCCAGGACGCGGCACTTCACCCAGGCCGCCAAGGAACTGGGTATTTCACAGCCTCCGTTAAGTCAGCAAATTCAGCGGCTTGAGCGCGAGGTGGGGACCCCGCTGTTTCGGCGTTTGACCCGCGGGGTGGAGCTCACCGAGGCCGGTGAGTCGTTCTATGAGGATGCCCGCCAGATCCTCGCCATGAGCGATGCGGCGCTGGAGAAGGCCAAGGGCATTGCCCGCGGGATGAACGGCAGCCTGTCGCTAGGCATTACCAGTTCTGATGCTTTCCACCCGCAAATCTTCACGCTGCTGCACCGTTTTCAGCTCGATCACCCCGGGGTGACCCTGCACCAGATGGAAGACAATATGGCTAATCTGATGACCGCCCTGAGCGAGGCCGAGCTGGACATCGCCTTCGTCCGTCTGCCGTGCGAGAGCAGTAAAGCCTTTAATCTGCGGATTATCGATGAGGAGCCGATGGTTATCGCGCTGCCGCGCGACAACCCGCTGGCGACGCAGCCGACCCTGGCCCTGGAGCAGCTGCGCGACGTGGCGCCCATCCTCTTCCCGCGGGAGGTGGCCCCGGGGCTGTATGAGCTGGTGTACAACAGCTGCCTGCGCGCCGGCATCGATATGGAGCGCGCCTGGCAGTCGTCGCAGATTTCGTCATCGCTGAGCATGGTCAATGCCGGGTTCGGCTTCGCGCTGGTCCCGCAGTCGATGACCTGCATTCAACAGCCGAACGTCAGCTATCACCCGCTCAGCGGGGCGCCGCTGAAGACCGATATCGCCATCGCCTGGCGGCGCTTCGAGCGCTCGCGCACGGTGAAACGCTTTCTGGCGATGTTCTGA	MELRYLRYFVAVARTRHFTQAAKELGISQPPLSQQIQRLEREVGTPLFRRLTRGVELTEAGESFYEDARQILAMSDAALEKAKGIARGMNGSLSLGITSSDAFHPQIFTLLHRFQLDHPGVTLHQMEDNMANLMTALSEAELDIAFVRLPCESSKAFNLRIIDEEPMVIALPRDNPLATQPTLALEQLRDVAPILFPREVAPGLYELVYNSCLRAGIDMERAWQSSQISSSLSMVNAGFGFALVPQSMTCIQQPNVSYHPLSGAPLKTDIAIAWRRFERSRTVKRFLAMF				NA	NA	NA	NA	NA
BMS020_00682	780	budA		Alpha-acetolactate decarboxylase	ATGAATCATTCTGCTGAATGCACCTGCGAAGAGAGTCTGTGCGAAACCCTGCGGGCGTTTTCCGCGCAGCATCCCGAGAGCGTGCTCTATCAGACATCGCTCATGAGCGCCCTGCTGAGCGGGGTTTACGAAGGCAGCACCACCATCGCGGACCTGCTGAAGCACGGCGATTTCGGTCTCGGCACCTTTAATGAGCTGGACGGGGAGCTGATCGCCTTCAGCAGTCAGGTCTATCAGCTGCGGGCCGACGGCAGCGCGCGCAAAGCCCAGCCGGATCAGAAAACGCCGTTCGCGGTGATGACCTGGTTCCAGCCGCAGTACCGGAAAACCTTCGACCATCCGGTGAGCCGCCAGCAGTTGCACGAGGTGATCGACCAGCAAATCCCCTCTGACAACCTGTTCTGCGCCCTGCGCATCGACGGCCATTTCCGCCATGCCCATACCCGCACCGTGCCGCGCCAGACGCCGCCGTACCGGGCGATGACCGACGTCCTCGACGATCAGCCGGTGTTCCGCTTTAACCAGCGCGAAGGGGTGTTGGTCGGCTTCCGTACCCCGCAGCATATGCAGGGGATCAACGTCGCCGGGTATCACGAGCACTTTATTACCGATGACCGCAAAGGCGGCGGTCACCTGCTGGATTACCAGCTCGACCACGGGGTATTGACCTTCGGCGAAATTCACAAGCTGATGATCGACCTGCCCGCCGACAGCGCGTTCCTGCAGGCCAATCTGCATCCCGATAATCTCGATGCCGCCATCCGTTCCGTAGAAAGTTAA	MNHSAECTCEESLCETLRAFSAQHPESVLYQTSLMSALLSGVYEGSTTIADLLKHGDFGLGTFNELDGELIAFSSQVYQLRADGSARKAQPDQKTPFAVMTWFQPQYRKTFDHPVSRQQLHEVIDQQIPSDNLFCALRIDGHFRHAHTRTVPRQTPPYRAMTDVLDDQPVFRFNQREGVLVGFRTPQHMQGINVAGYHEHFITDDRKGGGHLLDYQLDHGVLTFGEIHKLMIDLPADSAFLQANLHPDNLDAAIRSVES	PGPT0008180_241	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,PGPT0008180-budA|aldC|aldB|alsD-K01575	NA	NA
BMS020_00683	1680	budB	COG0028	Acetolactate synthase, catabolic	ATGGACAAACAGTATCCGGTACGCCAGTGGGCGCACGGCGCCGATCTCGTCGTCAGCCAGCTGGAAGCCCAGGGGGTACGTCAGGTGTTCGGCATCCCTGGCGCCAAAATCGACAAGGTATTCGACTCACTGCTGGATTCCTCCATTCGCATTATTCCGGTACGCCACGAAGCTAACGCCGCCTTTATGGCCGCCGCCGTCGGGCGCATTACCGGTAAAGCGGGCGTGGCGCTAGTCACCTCCGGTCCAGGCTGTTCCAACCTGATCACCGGTATGGCCACCGCCAACAGCGAAGGCGACCCGGTGGTGGCCCTGGGCGGCGCGGTGAAACGCGCCGATAAGGCCAAACAGGTCCACCAGAGTATGGATACGGTGGCGATGTTCAGCCCAGTGACGAAATACGCCGTCGAGGTGACCGCGCCGGACGCGCTGGCGGAAGTGGTCTCCAACGCCTTCCGCGCCGCCGAGCAGGGCCGCCCGGGCAGCGCTTTCGTCAGTCTGCCGCAGGATGTGGTCGATGGCCCGGTCAGCGGCAAAGTGCTGCCGGCCAGCGGGGCCCCGCAGATGGGCGCCGCGCCGGATGCCGCCATCGACCAGGTGGCGAAGCTTATCGCTCAGGCGAAGAACCCGATCTTCCTGCTCGGCCTGATGGCCAGCCAGCCGGAAAACAGCGCGGCGCTACGCCGTTTGCTGGAGGCCAGCCATATTCCGGTCACCAGCACCTATCAGGCCGCCGGGGCGGTAAATCAGGATAACTTCTCTCGCTTCGCCGGCCGGGTCGGGCTGTTTAACAACCAGGCCGGGGACCGTCTGCTGCAGCTCGCCGACCTGGTGATCTGCATCGGCTACAGCCCGGTGGAATATGAACCGGCGATGTGGAACAGCGGCAACGCGACGCTGGTGCATATCGACGTCCTGCCCGCCTATGAAGAACGCAACTATACCCCGGACGTCGAGCTGGTGGGCGATATCGCCGGCACCCTCAGCAAGCTGGCGCAAAATATCGATCGCCGGCTGGTGCTCTCCCCGCAGGCGGCGGAGATCCTCCGCGACCGCCAGCACCAGCGCGAACTGCTGGACCGCCGCGGCGCGCAGCTGAATCAGTTTGCCCTGCATCCGCTGCGTATCGTTCGCGCGATGCAGGATATCGTCAACAGCGACGTCACGCTGACCGTGGACATGGGCAGCTTCCATATCTGGATCGCCCGCTACCTGTACAGCTTCCGCGCCCGTCAGGTGATGATCTCCAACGGCCAGCAGACCATGGGCGTCGCCCTGCCCTGGGCCATCGGCGCCTGGCTGGTCAATCCTGAGCGCAAAGTGGTCTCCGTCTCCGGCGACGGCGGCTTCCTGCAGTCGAGCATGGAGCTGGAGACCGCCGTCCGCCTGAAAGCCAACGTGCTGCACCTGATCTGGGTCGATAACGGCTACAACATGGTGGCCATCCAGGAAGAGAAAAAATACCAGCGCCTGTCCGGCGTCGAGTTCGGGCCGATGGATTTTAAAGCCTATGCCGAGTCCTTCGGCGCCAAAGGGTTTGCCGTGGAAAGCGCCGAGGCGCTGGAGCCGACCCTGCGCGCGGCGATGGACGTCGAGGGCCCGGCGGTAGTGGCCATCCCGGTGGATTATCGCGATAACCCGCTGCTGATGGGCCAGCTGCATCTGAGTCAGATTCTGTAA	MDKQYPVRQWAHGADLVVSQLEAQGVRQVFGIPGAKIDKVFDSLLDSSIRIIPVRHEANAAFMAAAVGRITGKAGVALVTSGPGCSNLITGMATANSEGDPVVALGGAVKRADKAKQVHQSMDTVAMFSPVTKYAVEVTAPDALAEVVSNAFRAAEQGRPGSAFVSLPQDVVDGPVSGKVLPASGAPQMGAAPDAAIDQVAKLIAQAKNPIFLLGLMASQPENSAALRRLLEASHIPVTSTYQAAGAVNQDNFSRFAGRVGLFNNQAGDRLLQLADLVICIGYSPVEYEPAMWNSGNATLVHIDVLPAYEERNYTPDVELVGDIAGTLSKLAQNIDRRLVLSPQAAEILRDRQHQRELLDRRGAQLNQFALHPLRIVRAMQDIVNSDVTLTVDMGSFHIWIARYLYSFRARQVMISNGQQTMGVALPWAIGAWLVNPERKVVSVSGDGGFLQSSMELETAVRLKANVLHLIWVDNGYNMVAIQEEKKYQRLSGVEFGPMDFKAYAESFGAKGFAVESAEALEPTLRAAMDVEGPAVVAIPVDYRDNPLLMGQLHLSQIL	PGPT0008185_7177	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
BMS020_00684	771	budC		Diacetyl reductase [(S)-acetoin forming]	ATGAAAAAAGTCGCACTTGTTACCGGCGCCGGCCAGGGGATTGGTAAAGCTATCGCCCTTCGTCTGGTGAAGGATGGATTTGCCGTGGCCATTGCCGATTATAACGACGCCACCGCCAAAGCGGTCGCCTCCGAAATCAACCAGGCCGGCGGCCGCGCCATGGCGGTGAAAGTGGATGTTTCTGACCGCGACCAAGTATTTGCCGCCGTTGAACAGGCACGCAAAACGCTGGGCGGCTTCGACGTCATCGTCAACAACGCCGGCGTGGCGCCGTCCACGCCGATCGGGTCCATTACCCCGGAGATTGTCGATAAAGTCTACAATATCAACGTTAAAGGGGTGATCTGGGGCATCCAGGCGGCGGTTGAGGCCTTTAAGAAAGAGGGTCACGGCGGGAAAATCATCAACGCCTGTTCCCAGGCCGGCCACGTCGGCAACCCGGAGCTGGCGGTGTATAGCTCCAGTAAATTCGCCGTACGCGGCTTAACCCAGACCGCCGCTCGCGACCTCGCGCCGCTGGGCATCACGGTCAACGGCTACTGCCCGGGGATCGTCAAAACGCCGATGTGGGCCGAAATTGACCGCCAGGTGTCCGAAGCTGCCGGTAAACCGCTGGGCTACGGTACCGCCGAGTTCGCCAAACGCATCACCCTCGGTCGTCTGTCCGAACCGGAAGATGTCGCCGCCTGCGTCTCCTATCTTGCCAGCCCGGATTCTGATTATATGACCGGTCAGTCATTGCTGATCGACGGCGGGATGGTGTTTAACTAA	MKKVALVTGAGQGIGKAIALRLVKDGFAVAIADYNDATAKAVASEINQAGGRAMAVKVDVSDRDQVFAAVEQARKTLGGFDVIVNNAGVAPSTPIGSITPEIVDKVYNINVKGVIWGIQAAVEAFKKEGHGGKIINACSQAGHVGNPELAVYSSSKFAVRGLTQTAARDLAPLGITVNGYCPGIVKTPMWAEIDRQVSEAAGKPLGYGTAEFAKRITLGRLSEPEDVAACVSYLASPDSDYMTGQSLLIDGGMVFN	PGPT0008195_853	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
BMS020_00685	393			hypothetical protein	GTGGCTAAACGAGCCTCTGACCCAGCACAGTATGCCGTTTGTCTAAAAGAAACCGATACCGTAATCGGACATCTTTTTGCGGACAATAGCAACGAGCCAGACAGCAATACCTGGTCAGTAGGCTGGCATTTTAATCAACGTTATGAACATCAGGGATATGCAAGCGAGTCAGTTGCTGCACTGTTTGATTATTTATTTAAAGTAAAAGGTGCCAGACGTTTGTACGCCTGGGTAGAAGTTTACAACCTGGCCTCTCAAAAACTCTGTGAACGTTTGCATATGCGACAGGAAGGTTGTTTTAAAGAGTTTGTCTCCTTTGAAAACGACGATGGTAAGGCAAGGTATGACGACACATACATCTATGCGTTACTGCATAAAGAATGGACGAAGTAG	MAKRASDPAQYAVCLKETDTVIGHLFADNSNEPDSNTWSVGWHFNQRYEHQGYASESVAALFDYLFKVKGARRLYAWVEVYNLASQKLCERLHMRQEGCFKEFVSFENDDGKARYDDTYIYALLHKEWTK	PGPT0015240_443	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
BMS020_00686	3117	acrB_1	COG0841	Multidrug efflux pump subunit AcrB	ATGCCGCACTTTTTCATTGAGCGCCCCATCTTCGCATGGGTTATTGCCCTGTTTATTGTTCTGACGGGACTGTTGTCCATACCTCGTTTACCGGTTGCGCAATACCCTGAAGTTGCGCCACCCGGTATTATCATTTCAGTGAGTTACCCCGGAGCCAGCCCGGAAGTGATGAACACATCCGTCGTGTCTCTGATCGAGCGTGAAATTGCGAGTGTTGACAATTTACTCTATTTTGAATCTTCCAGTGACACGACAGGGATGGCGTCAATTACGGTAACTTTCAAACCCGGCACCGACATCAAACTCGCCCAGATGGATCTGCAGAACCAAATTAAAATTGTGGAATCCCGCCTGCCGCAGTCGGTCAGACAGAATGGGATAAATGTTGAGGCAGCTAATTCCGGTTTTTTAATGATGGTGGGGTTAAAATCGCCAAACGGAGACTATCAGGAAGCTGACTTAAGCGATTATTTTGCAAGGAATGTTACTGATGAACTCCGTCGCGTACCTGGTGTAGGTAAAGTTCAGCTTTTTGGCGGAGAAAAGGCACTCCGCATATGGCTGGACCCGATGAAATTACACAGCTATGGGCTCTCTGTTACGGATGTATTAAGCGCCATCAGTCAACAAAACGTGATTGTTTCACCGGGCAGAACCGGAGATGAACCCGCGACGAGCAGCCAAGAGGTGACCTATCCAATAACGGTAAAAGGGCAGCTCTCTTCGGTTGAAGAATTTCGCAATATCACGATTAAATCACAGGTCTCAGCCGCCCGGGTGACACTGGCAGACGTTGCCCGCGTGGAATCCGGGTTGCAAAGTTACGCATTTGGCATCCGTGAAAATGGCGTGCCTGCAACGGCAGCCGCCATTCAATTGTCTCCTGGCGCAAATGCGATTAGTACTGCGTCGGGTATCCGCGCGCGGTTAACAGAACTGTCCGGTGTGCTTCCCACGGGAATGACATTCACCGTGCCTTTCGATACGGCTCCATTTGTAAAGCTATCGATATTGAAGGTAGTTGAGACATTTGTTGAAGCCATGGTTCTGGTCTTTTTCGTGATGCTGCTTTTCCTTCACAAGATACGCTGTACGCTTATTCCTGCGATTGTGGCACCCGTGGCGCTGCTCGGCACATTTACCGTAATGCTATTAAGCGGTTATTCCATCAATATTTTAACCATGTTTGGAATGATACTGGCCATCGGGATTATTGTTGACGATGCTATTGTTGTGGTAGAGAACGTCGAACGACTGATGGAAGACAAAAAAATGTCTCCACAGGATGCAACGCGAGAAGCGATGCGTGAAATTACGCCGGCAATCATTGGTATTACGCTGGTGCTCACTGCGGTGTTTATACCAATGGCCTTTGCCAGCGGTTCTGTGGGTATTATTTATCGACAGTTCAGCATTTCGATGGCGATATCCATTTTACTGTCGGCATTCCTGGCGCTGACGTTAACGCCTGCGCTTTGTGCAACCCTGCTCAAACCACATGGTATTCATCAGGGTAAAAGCAGCGCATTTTCAGCGTGGTTTAACGCTCACTTTCATCGCCTCACTGCGTTTTACGCCACTGGTCTTGGATTTGTACTGAAGCGTACTGGCCGTATGATGATGATCTACGCTGCATTATGTTTGGCATTGTTTGCCGGGCTGTCCTCCTTACCCTCATCATTTTTACCTGATGAAGATCAGGGTTATTTTATGTCCTCAATCCAGCTTCCTTCTGATGCCACGATGCAGCGGACGCTTAAGGTCGTCGATACATTTGAAGAGGAGATCGCTCATCGGCAGGCGGTAGAAAGTAACATTATGATCCTGGGATTTGGTTTCTCAGGGTCAGGCCAAAATTCGGCCATGGCATTCACCACCCTCAAGGATTGGAAACAACGCAAAGGAACCACGGCACAGGAAGAAGCTGACCATATTCAGTCCCAAATGGCAAACGTGCCGGACGCCGTAACAATGACTCTGCTGCCCCCGGCCATTTCTGATATGGGAACCTCATCCGGGTTCACTTATTATTTACAGGACAGAGGGGGGAAAGGCTATCAGGCACTCAAAAAGGCGGCCGATGAGCTTATTGTACAGGCAAATCATAATCCTCACCTTGCCGATGTCTATATTGATGGACTTGGTGAGGGAACAAGCCTTTCCCTGCATATCGACAGGGAAAAAGCGGAGGCCATGGGGGTATCGTTTGATGAAATAAATCAAACCATTTCCGTTGCAGCAGGTTCCAATTATGTGAATGACTATACCAATAATGGTCGGGTTCAGCAGGTTATCGTCCAGGCGGACGCGCCATACCGGATGCAGCCTGAACAACTTTTGGTTTTGTCTGTCAAAAACCGTCTGGGGCAGATGCTTCCATTATCCACTTTTGTGTCGCTTTCGTGGAATGTTGCGCCGCAGCAACTGATACGCTATCAGGGATATCCTGCCATACGCCTAACCGGGAGTGCCGCACAGGGAAAATCGTCAGGTACCGCAATGGCGGCAATGGACAATCTGGCTAAGCACTTACCACCGGGGTTCGCCGGTGAGTGGGCGGGAAGTTCGTTACAGGAAAAAGAGTCTGCATCACAGCTTCCGGGTCTTATTGTGCTCTCGGTACTGGTGGTATTCATGGTGCTGGCTGCTCTATACGAAAGCTGGTCCATTCCCTTCGCGGTCATGCTCGTTGTTCCTCTGGGGCTGCTCGGCGCTGTGCTGGCCGTATCCGTTACGAATATGACGAATGACGTCTTTTTCAAAGTGGGTCTGATAACACTGATTGGACTTTCCGCCAAGAATGCGATTCTGATTATCGAGTTCGCGAGACAATTGCTGAAAGAAGGAAAGAGCCTTATTGACGCGACATTGACGGCTGCAAAGCAACGCTTACGGCCAATTCTGATGACATCTCTGGCTTTTACATTAGGTGTTGTTCCGCTGATGCTTGCCAGTGGAGCCAGCGACAGCACACAACATGCGATTGGTACCGGTGTATTCGGCGGGATGATTAGCGGAACGCTACTGGCTATTTTCTTTGTTCCGGTATTTTTCGTGACGATCACACGATTTACTGGCATGCGAAAAGACAGGCCGGGGAATAGCCGGAACGGCTAA	MPHFFIERPIFAWVIALFIVLTGLLSIPRLPVAQYPEVAPPGIIISVSYPGASPEVMNTSVVSLIEREIASVDNLLYFESSSDTTGMASITVTFKPGTDIKLAQMDLQNQIKIVESRLPQSVRQNGINVEAANSGFLMMVGLKSPNGDYQEADLSDYFARNVTDELRRVPGVGKVQLFGGEKALRIWLDPMKLHSYGLSVTDVLSAISQQNVIVSPGRTGDEPATSSQEVTYPITVKGQLSSVEEFRNITIKSQVSAARVTLADVARVESGLQSYAFGIRENGVPATAAAIQLSPGANAISTASGIRARLTELSGVLPTGMTFTVPFDTAPFVKLSILKVVETFVEAMVLVFFVMLLFLHKIRCTLIPAIVAPVALLGTFTVMLLSGYSINILTMFGMILAIGIIVDDAIVVVENVERLMEDKKMSPQDATREAMREITPAIIGITLVLTAVFIPMAFASGSVGIIYRQFSISMAISILLSAFLALTLTPALCATLLKPHGIHQGKSSAFSAWFNAHFHRLTAFYATGLGFVLKRTGRMMMIYAALCLALFAGLSSLPSSFLPDEDQGYFMSSIQLPSDATMQRTLKVVDTFEEEIAHRQAVESNIMILGFGFSGSGQNSAMAFTTLKDWKQRKGTTAQEEADHIQSQMANVPDAVTMTLLPPAISDMGTSSGFTYYLQDRGGKGYQALKKAADELIVQANHNPHLADVYIDGLGEGTSLSLHIDREKAEAMGVSFDEINQTISVAAGSNYVNDYTNNGRVQQVIVQADAPYRMQPEQLLVLSVKNRLGQMLPLSTFVSLSWNVAPQQLIRYQGYPAIRLTGSAAQGKSSGTAMAAMDNLAKHLPPGFAGEWAGSSLQEKESASQLPGLIVLSVLVVFMVLAALYESWSIPFAVMLVVPLGLLGAVLAVSVTNMTNDVFFKVGLITLIGLSAKNAILIIEFARQLLKEGKSLIDATLTAAKQRLRPILMTSLAFTLGVVPLMLASGASDSTQHAIGTGVFGGMISGTLLAIFFVPVFFVTITRFTGMRKDRPGNSRNG	PGPT0028825_119	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_AdeABC,PGPT0028825-adeB-K18146	NA	NA
BMS020_00687	876			hypothetical protein	ATGGCCCCCGGGGTTGCTATCTCACTTAAGACACTTGCCTGGCGGTACAGAAAGAAATTGTGCATTACTTTCATGCTGGTTATTGCTGAAAACGTTGCATTCCTGCTCTACCCCGTTCTGGCGGGCATGGCGATAAATGCCATCCTGGGCGGACAGACGTCACATGCGGCCCTTTATGGCCTGATGGTTCTGTTCATGTGGTGCATGGGAGCCACCAGACGTAGTGTCGATACGCGAACGTTTGCACGTATCTACGCAAGTCTTGCTGTGACTGTAGTATTAGCTCAGCGAAAATATTCACTTAATCACTCGACTATTGCTGCGAGAGTCACTCTGTCCCGTGAATTTGTAGATTTCTTCGAGTTGCACCTGCCGGTCTTGATCACCTCAATCATTTCCCTTTTCGGCGCAGCAATTATGCTGTTATGGATTGAGTTCTGGACAGGTATAGCCTGTTTGATCATCGTGGGAATACTGATGTGTTTTGTCTCAAGCTATGCCAGCAAAAATGAGACATTCTACAGACGGCTGAATAATCGCTTTGAGAAAGAGGTCGATTATGTTAATAAGGCGCCTTTTAGTGCTCTTAAGCGACATTATGACACACTTGCCCGTCTGCGCGTGGTGTTATCCGACAGAGAGGCAAGGGGATATTTATCAATAGGCCTTCTGGTTTCGGCTCTCTTTTCCATGACCATTATCAGGATGAGCATGGAATCCGGAATTAATGCCGGACATATTTATTCCGTCATGACCTATATGTGGATGTTTGCAACAAGCCTGGATGACGCGCCACAACTTCTTGAGAAATTTTCCCAGCTCAGGGATATCGGTAAACGGGTTTCGACAGACGATGAGACCTCTTTATCAGGATAA	MAPGVAISLKTLAWRYRKKLCITFMLVIAENVAFLLYPVLAGMAINAILGGQTSHAALYGLMVLFMWCMGATRRSVDTRTFARIYASLAVTVVLAQRKYSLNHSTIAARVTLSREFVDFFELHLPVLITSIISLFGAAIMLLWIEFWTGIACLIIVGILMCFVSSYASKNETFYRRLNNRFEKEVDYVNKAPFSALKRHYDTLARLRVVLSDREARGYLSIGLLVSALFSMTIIRMSMESGINAGHIYSVMTYMWMFATSLDDAPQLLEKFSQLRDIGKRVSTDDETSLSG				NA	NA	NA	NA	NA
BMS020_00688	738	phoP_1	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein PhoP	ATGCATGTTGTCATCAGCACTGTGGAAGAAAATATGAACAACAACAATCTGATTATCGTCGCAGAAGACGATGATGACATCGCTGCCATACTGACAGGCTATTTACGTAAGGCAGGTATGAAAACCTTAAGAGCTGAAGACGGTGAGCAGGCAATCAATCTTACCCGTCTGAACAAGCCTGATCTCCTGCTGTTGGACATCCACCTGCCCGTGTACGATGGCTGGAATGTTCTCACCACGTTAAGAAAGGAAACGAATGTACCGGTCATCATGGTGACAGCACTGGATCAAGACGTTGATAAATTGATGGGGCTACGACTCGGGGCGGACGACTATGTGATAAAACCCTTTAATCCATCTGAGGTTATTGCCCGGGTTGAAGCTGTGCTTCGCAGAACCAGACCGGTTGCAGAGTCTACACATTCACGGCCTTTAAGAACGCCTTTTTTAACGATTTATCCTGATGAGTTTTACGTTGAAATCACTGCACAAGGTGAGGTTTCCACGCCAGTATTAACCACCACTGAGTTTAAGCTTTTAACCTATCTGGCGAGAAACCCGAGAAAAGTCTGTTCACGTGAAGAGTTACTCGATGCGTGTTTACCTGAGGGAGACTCGCTGGATCGTACTGTAGACAGTCATATGAGTAAACTTCGGAAAAAGCTTGAGCATGCCGGATTGAAGGGCATTCCGGAAAGCATCCGAGGATTAGGCTACCGGTTGGGTGACAAAAAATGA	MHVVISTVEENMNNNNLIIVAEDDDDIAAILTGYLRKAGMKTLRAEDGEQAINLTRLNKPDLLLLDIHLPVYDGWNVLTTLRKETNVPVIMVTALDQDVDKLMGLRLGADDYVIKPFNPSEVIARVEAVLRRTRPVAESTHSRPLRTPFLTIYPDEFYVEITAQGEVSTPVLTTTEFKLLTYLARNPRKVCSREELLDACLPEGDSLDRTVDSHMSKLRKKLEHAGLKGIPESIRGLGYRLGDKK	PGPT0028840_70	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_AdeABC,PGPT0028840-adeR-K18144	NA	NA
BMS020_00689	1062	rstB_2		Sensor protein RstB	ATGACCAAAGAAACGATTCTGAGCCGTCAGATTTTGACATATATGTTATTGTTAACGTTTGTTATTATTGCCATTGCAATACTCGGTTCCTACTTATTTTATAGTTTCCTGATTTATTACCTGCCGGGTGGAATGAACGAAGGTAGTGAAGATGCTATGACATTCCTTGACTGGATGTGGATTCTGATGGCGTCCATTACCAGTCTGGTCGTTGCACTTTTCTTTACCGTAAAGCTGTCTGCCAGAATATTTAACCCACTGAATGACGTCGCATACAGCCTGAAACAAATCTCTCAGGGAAACCTTAGTGCCAGAGCATTTAACAGCAGTTCTAAGTTGGGAGAGATGAATAGGCTCGTCAATGACTTTAATGAGATGGCTGAAAAATTACAGACGCTGGATGCGCAGCGAAATTTATGGAATGCTGCAATTGCTCATGAACTCCGGACGCCGGTGACTATCTTACGTGGGAGGCTTCAAGGACTGGTTGACGGCGTTTTCGAACCAGAACCGTCGTTATTCAGGAACCTTCTTAAACAAACTGAAGGTCTGACCAACTTAATTGAGGATCTCCGCGTCGTGAGTTCGTCAGGAGGCGCTGGGTACTCCTTGATGCTGAGTGAAGTCGATCTCAAGTCCACGATTTCAAATGCGCTTGATACCTTTTGGCCGGATTTTGATAAAAAGCATTTCAAAATTGTCACTGAGATTAACCATCAGTATTGCGTTTGCGATCCCTTACGCATTATTCAGTGCCTCACCGTTCTTTTTGACAATGCCTTAAAATATTCCACATCACAAACGCTGTTAATAAAGAATGGTATTACAGGAAACGATAATTTTATTATCGTTCAGGACAAAGGACCTGGAATTCCTGAAGAACTCCAGAAGTCCTTATTCCAGCCTTTTCAGCGAGGACAATACGCCAAAAATATTAATCCAGAGGGCTGTGGTTTGGGGTTGTCGGTAGTTAAAGCCATTATGTGCGCCCACGGCGGAGACGTTAGCTATAGTATGACACCAGAAAATGGCTCACTTTTCAAACTCTCATGGCCTGTTTAA	MTKETILSRQILTYMLLLTFVIIAIAILGSYLFYSFLIYYLPGGMNEGSEDAMTFLDWMWILMASITSLVVALFFTVKLSARIFNPLNDVAYSLKQISQGNLSARAFNSSSKLGEMNRLVNDFNEMAEKLQTLDAQRNLWNAAIAHELRTPVTILRGRLQGLVDGVFEPEPSLFRNLLKQTEGLTNLIEDLRVVSSSGGAGYSLMLSEVDLKSTISNALDTFWPDFDKKHFKIVTEINHQYCVCDPLRIIQCLTVLFDNALKYSTSQTLLIKNGITGNDNFIIVQDKGPGIPEELQKSLFQPFQRGQYAKNINPEGCGLGLSVVKAIMCAHGGDVSYSMTPENGSLFKLSWPV	PGPT0028835_261	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_AdeABC,PGPT0028835-adeS-K18143	NA	NA
BMS020_00690	936			hypothetical protein	ATGAACAAAATAAACTATCAAATCAAATACATTGAATATTTGTTGAGAAAATGCAGAACCATTTTGACTAATGACATTTCATTTCATGCAGACAGGTTAAGAGAAATATCTGGCACATATCCGGATTTACTCAATCCTGTGACGCTTAATGAGAAAATCTGCCATCGCATTTTATTTATCCACAACCCATTTTATACGATGCTTGCTGATAAACTTCTGGTCAGGGAGTATGTTGAGAAAAGAACTAATTTAATCAAGCTTATTCCTTTAGTAGGTGTTTATAACAGAGTTGATGATATTGATTTCGATAAACTACCCCCTAAATTTGTTTTGAAATGCAATCATGATAGTGGAAGCGCGGTCATATGCACGGACAAAACGAATATTGATCCCGCTAAGGTTAAAAGCAGATTAAAACTATCTCTTAAAAAGAACATGTATTATACGACCCGAGAATGGCAGTATAAAAATATACCACCTGTGGTCCTATGCGAAATGTATCTGGATCTATTTTCCAGTAAACACCGGAGTATAACTCCGGAAATGCTAAGAATACATTGCTTTCACGGTGTGGCATGTTTTATCGAGGCAGACTTTACTGACAGCGATGGAAACGAATTCATTAACGTTTATGACAGAGCGTGGAATTTGCAACCCTTTCAGATGGAATACCCAAATACGCCATTGCCGGTTGATGAACCAGAATCATTTCATAAGTCCGTTATTGCCGCCCAGGACTTAGCAAAAGAAATAGACTACTGCCGCGTCGATCTTATGCTAAAAGGAGAAGATATCTATTTCAGCGAAATAACACTAAGCCCCAAAAGAGGCAAACTTAAAATCACCCCATCAATTTGGGACGCCAAAATCGGCAGTATGTGGGATCTGTCTGTTGCTAAAACAAGTTCAATCGAGCCTGTATATTCATGCCCTTAA	MNKINYQIKYIEYLLRKCRTILTNDISFHADRLREISGTYPDLLNPVTLNEKICHRILFIHNPFYTMLADKLLVREYVEKRTNLIKLIPLVGVYNRVDDIDFDKLPPKFVLKCNHDSGSAVICTDKTNIDPAKVKSRLKLSLKKNMYYTTREWQYKNIPPVVLCEMYLDLFSSKHRSITPEMLRIHCFHGVACFIEADFTDSDGNEFINVYDRAWNLQPFQMEYPNTPLPVDEPESFHKSVIAAQDLAKEIDYCRVDLMLKGEDIYFSEITLSPKRGKLKITPSIWDAKIGSMWDLSVAKTSSIEPVYSCP				NA	NA	NA	NA	NA
BMS020_00691	225			hypothetical protein	ATGAATATTCACGTTACCAACGGCGCGCGTGACAGGTTACCAGATGAGATGATCCGTGAACACCGCGTCTTCAGCGGCAATCACATTGAACTCCTTACCTGGCGCTTCGTACTGCATCCATTCCCGAGGACGTTTGGCTATCAGGACAAGTGGCCGCTGAGCGACTATATCAACGACTCTTTTGCCAGTTGTCGGCAGCGCTATCCGGCTCGTCGGGGAACATGA	MNIHVTNGARDRLPDEMIREHRVFSGNHIELLTWRFVLHPFPRTFGYQDKWPLSDYINDSFASCRQRYPARRGT				NA	NA	NA	NA	NA
BMS020_00692	843			hypothetical protein	ATGAGCCTGTTGGTGGTTATCGCCGGGCTGCTGCTGGCTGGCGCGCTGGGGCTGCTGTACTTCCCGTGGACGGGCAAAGGGGCGGTGGACCGCGATACCCTCAACCGCGCCCTGTATCAGTCGCGCCTGCAGGAGCTGGCGCAGGAGCGCGGCGAGGACAACCCGGCGCTGGTCGTCGAGCTGCAGCGCACGCTGCTGACGGATATCCCGCCCCAGGCACAGCCTGGCGAACGGCCGCTAAGCCGCTGGGCGCTGCTTCCGGGCGCGCTGCTGCTGGTGGTTCTGAGTCTGGGCCTGTATCTGAAAACCAGCGATATTGGTCAGGTGCTGCTCTGGCAGCAGGCGGAGCGGCATTATCCTGCGCAGCTGCAGCAGGTTAAGGACCCGACCGCGCCGCCGCTGCGTATGGATGAGCTGGCGGAGCTGCGGCTTGGCCTGCGCAGCCATCTGCAGAATACTCCGCACGACCTCGCCGGCTGGCAGCTGCTTGGGCGGCTGGGGCTGTTGTTGAACGATGGCGAGACGGCGATCGGCGCCTTTGGCCGGGCGCATGCGCTGGCGGCGGACGACCCGGCGGCGGCTTTCGATTATGCCAGCGCGCTGGTGCGGGCGGGGGATAGCGGTCAGGTCCGGATGGGCGAGCTGCTGCTGCGTGACCTGCATCAGCGACAGCCGACCAGCCTGCCGGTGCTGGAGATGCTGGCCCTGAGCGCGGTGCGTAATGAAGATTACCCCGAAGCCGTGGCGGCCCTGCAGGCGTTGCTGGCCCGGCTGCCGGAAGGGGATGCGCGGCGCGAGGCGATCGTCCGCCAGCTGGCGCAGGCGCAGCAGCAGGCGCAGTAA	MSLLVVIAGLLLAGALGLLYFPWTGKGAVDRDTLNRALYQSRLQELAQERGEDNPALVVELQRTLLTDIPPQAQPGERPLSRWALLPGALLLVVLSLGLYLKTSDIGQVLLWQQAERHYPAQLQQVKDPTAPPLRMDELAELRLGLRSHLQNTPHDLAGWQLLGRLGLLLNDGETAIGAFGRAHALAADDPAAAFDYASALVRAGDSGQVRMGELLLRDLHQRQPTSLPVLEMLALSAVRNEDYPEAVAALQALLARLPEGDARREAIVRQLAQAQQQAQ				NA	NA	NA	NA	NA
BMS020_00693	459	ccmH	COG3088	Cytochrome c-type biogenesis protein CcmH	ATGAGAGGTGTCATAGGCATCCTGCTGGCGCTGATGCTGACCGGCCAGGCGTGGGCCGCCATCGATACCTGGCAGTTTAAAGACGAGGCCCAGGAGCAGGCGTTCCGCGAGATCACCTCCCGGCTGCGCTGCCCGAAATGCCAGAACAACAGCATCGCCGACTCGAACGCGATGATTGCCGCCGATATGCGGCAGAAGGTGTACGAGCTGATGCAGCAGGGGAAAACGAAAGGGCAGATCGTTGACTATATGGTGGCCCGCTACGGCAATTTTGTCAGCTACGAGCCGCCGCTGACCGCGGGCACGGTGCTGCTGTGGCTGGGGCCGGGGCTGTTCGTCCTGGCGGGCGCGGGGGTGATTATCGCCCGCGCGCGTCGTCGCGATATTCCTGACGCGGCGCTCAGCGTCGAAGAGCGCCAGCGGCTGGCGGCATTATTGAAAGAAGGAAAAGAACGATGA	MRGVIGILLALMLTGQAWAAIDTWQFKDEAQEQAFREITSRLRCPKCQNNSIADSNAMIAADMRQKVYELMQQGKTKGQIVDYMVARYGNFVSYEPPLTAGTVLLWLGPGLFVLAGAGVIIARARRRDIPDAALSVEERQRLAALLKEGKER				NA	NA	NA	NA	NA
BMS020_00694	555	dsbE_1	COG0526	Thiol:disulfide interchange protein DsbE	ATGAACCGGAAGCTGCTGTTTATCCCGCTGGTGCTGTTTCTGGCGCTGGCCGCCGCGCTGTTCTGGCAGCTGATGCGTAACGCCGATGGCGACGACCCGACGACCCTCGAGTCGGCGCTGATTGGCAAACCGCTGCCGGAATTTCGCCTTGAAGCGCTGAATACCCCCGGCCAGACGCTGGACCGACGGACGCTGATTGACGGCAAGCCGCTGCTGCTTAACGTCTGGGCCACCTGGTGCCCAACCTGTCGCGCCGAGCATCAGTTTCTCAACGGCCTGGCGCAGCAGGGCGTGCGGGTGGTGGGGATGAACTACAAAGACGATCGGCAGAAGGCGATCAGCTGGCTGCAGCGCCTGGGTAATCCGTACAGGCTGAGCCTGTACGACGGCAACGGTATGCTCGGCCTGGATCTGGGGGTTTATGGCGCGCCGGAGACGTTTCTCATCGACGGTCAGGGCATCATCCGCTGGCGGCACGCCGGCGACCTGAACGACCGGGTGTGGCGCGAGGAGCTCCAGCCGCTGTGGAATCAATACAACCGGGGGGCGGGCTGA	MNRKLLFIPLVLFLALAAALFWQLMRNADGDDPTTLESALIGKPLPEFRLEALNTPGQTLDRRTLIDGKPLLLNVWATWCPTCRAEHQFLNGLAQQGVRVVGMNYKDDRQKAISWLQRLGNPYRLSLYDGNGMLGLDLGVYGAPETFLIDGQGIIRWRHAGDLNDRVWREELQPLWNQYNRGAG				NA	NA	NA	NA	NA
BMS020_00695	1953	ccmF_1	COG1138	Cytochrome c-type biogenesis protein CcmF	ATGATGCCGGAGCTGGGCAACTTTTTATTGTGTCTGGCGGCGGGGCTGGCGCTGCTCCTGAGCGTCTATCCCCTGTGGGGCGCGGCGCGGCAGGACCGGCGGCTGATGGCCCTGGCGCGGCCGCTGGCCTGCGGGCTGTTCGCCTGCATCGGCGGCGCCTTCCTGCTGCTGGTGCACGCCTTTGTGGTCAATGACTTTACCGTCCGCTACGTGGCGGAAAACTCCAACAGCGCACTGCCGGTGTGGTATCGGGTGGCGGCGACCTGGGGGGCGCACGAGGGCTCGCTGCTGCTGTGGGTCCTGCTGCTCAGCGTCTGGACCTTCGCCGTCGCCCTCTTCAGCCGCCGGATGCCGCTCGACGCCGTCGCCCGGGTGCTGGCGGTGATGGGGATGATCGCCTTTGGGTTCCTGCTGTTCATCCTCTTTACCTCCAACCCGTTCAGCCGCGGCCTGCCGCAGTACCCCATTGACGGCCGCGACCTTAATCCGCTGCTGCAGGATATCGGCATGATTTTTCATCCGCCGATCCTCTATATGGGGTACGTCGGCTTCTCGGTGGCTTTCGCCTTCGCCATCGCCTCGCTGCTGGCGGGGCGGCTGGACACCGCGTGGGCGCGCTGGTCGCGTCCCTGGACCCAGGCGGCGTGGATGTTCCTCACTCTCGGCATCGTGCTGGGCTCGGCGTGGGCCTATTACGAACTGGGCTGGGGCGGCTGGTGGTTCTGGGACCCGGTGGAAAACGCCTCGTTTATGCCGTGGCTGGTAGGGACCGCGCTGCTGCACTCCCTGGCGGTGACCGAGAAGCGCGGCAGCTTCCGCGCCTGGACGGTGCTGCTGGCCATCGCCGCCTTCTCCCTGTGCCTGCTGGGCACCTTCCTTGTGCGCTCCGGCGTGCTGGTCTCGGTGCATGCCTTCGCTTCGGATCCATCGCGCGGGCTGTTTATTCTGGCGCTGCTGATTGTCGCCATCGGCGGGTCGCTGCTGCTGTACGCCCTGAAGGGCGGCAGGGTGCGGGCGCGGGTGGAACATACGCTGTGGTCGCGCGAGTCGTTCCTGCTTGGCAACAATATTTTGCTGATGGCCGCGATGCTGGTGGTGCTCCTCGGAACGCTGCTGCCGCTGGTGCATAAAGAGCTGGGCCTCGGCAGCATCTCCATCGGCGAGCCGTTCTTTAACACCATGTTCACCGCCCTGATGGCGCCGTTTGCGCTGCTGCTGGGGCTGGGACCGCTGATCCGCTGGCGGCGCGATGACATCGCCAGGCAGATTAAGCGCCTGGTGGTCGCCCTGATGGTGACATTGTCACTTTCTCTGGCGCTGCCGTGGCTGCTGCAGGATCGTATCACCGCGATGGCGGTCATTGGCCTGATGATGGCCCTGTGGGTGCTGATCTTCGCCCTGATGGAGGTTCACGAACGGGCCACCCATCGCCACGGCTTCTGGCGCGGCCTGCGGACGCTGACCCGCAGCCAGTGGGGGATGGTGCTCGGTCACGTCGGCGTGGCGGTGACCGTTATCGGCATCACCTTTAGCCAGAACTACAGCGTGGAGCGCGATGTACGGATGCGCCCTGGCGACAGCATCGATATCCACCGTTATCACTTTGTGTTTAACGGCGTGCGCAATATCGTCGGCCCCAACTGGACCGGCGGGGAAGGCATTATTGCCGTGACCCGCAACGGCCGCCCGGAAGCGACGCTGTATGCCGAGAAACGCTTTTATACCGCCAGCCGGATGATGATGACCGAGGCGGCGATCAGCGGCGGGCTGACCCGCGATCTGTACGCCGCGCTGGGGGAAGAACTGAGCGACGGCAGCTGGGCGGTGCGTCTGTACTACAAACCGTTCGTTCGCTGGATCTGGTATGGCGGGGTGCTGATGGCCCTCGGCGGTCTGTGCTGCATGCTCGACCCGCGCTACCGGATGCGTAAGAAACTGCAGGAGGCCTCATGA	MMPELGNFLLCLAAGLALLLSVYPLWGAARQDRRLMALARPLACGLFACIGGAFLLLVHAFVVNDFTVRYVAENSNSALPVWYRVAATWGAHEGSLLLWVLLLSVWTFAVALFSRRMPLDAVARVLAVMGMIAFGFLLFILFTSNPFSRGLPQYPIDGRDLNPLLQDIGMIFHPPILYMGYVGFSVAFAFAIASLLAGRLDTAWARWSRPWTQAAWMFLTLGIVLGSAWAYYELGWGGWWFWDPVENASFMPWLVGTALLHSLAVTEKRGSFRAWTVLLAIAAFSLCLLGTFLVRSGVLVSVHAFASDPSRGLFILALLIVAIGGSLLLYALKGGRVRARVEHTLWSRESFLLGNNILLMAAMLVVLLGTLLPLVHKELGLGSISIGEPFFNTMFTALMAPFALLLGLGPLIRWRRDDIARQIKRLVVALMVTLSLSLALPWLLQDRITAMAVIGLMMALWVLIFALMEVHERATHRHGFWRGLRTLTRSQWGMVLGHVGVAVTVIGITFSQNYSVERDVRMRPGDSIDIHRYHFVFNGVRNIVGPNWTGGEGIIAVTRNGRPEATLYAEKRFYTASRMMMTEAAISGGLTRDLYAALGEELSDGSWAVRLYYKPFVRWIWYGGVLMALGGLCCMLDPRYRMRKKLQEAS	PGPT0000484_36	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000484-nrfE-K04016	NA	NA
BMS020_00696	459	ccmE_1	COG2332	Cytochrome c-type biogenesis protein CcmE	ATGCAAGCGCGTCGTAAAACCCGGCTGTATATCGTGCTGGCGGTGCTCGCCGGCCTTGGGCTGACCGTCAGCCTGACGCTGTACGCCCTGAGCAGCAATATCGATCTGTTCTACACCCCGGGGGAAATTATCTACGGTAAAACGGAAACCCGGGCGCTGCCCCATACCGGGCAGCGCCTGCGGGTAGGGGGCTACGTTCAGCCCGGCTCCCTGCAGCGCGACCCGCAAACCCTCGACGTGCGCTTTAAGCTGTATGACGCCCGCGGGGTCGTGGACGTCAGCTATAAGGGCATTCTGCCGGACCTGTTCCGTGAAGGACAGGGCGTGGTGGCCCAGGGCGTTCTGGACGGCGAGCGGCATATCACCGCTCAGCAAGTGCTGGCCAAGCATGATGAAAATTACACCCCGCCGGAGGTGAAAAACGCCATGACGCCGGCGAAAGCGGAGGCGCAGCCATGA	MQARRKTRLYIVLAVLAGLGLTVSLTLYALSSNIDLFYTPGEIIYGKTETRALPHTGQRLRVGGYVQPGSLQRDPQTLDVRFKLYDARGVVDVSYKGILPDLFREGQGVVAQGVLDGERHITAQQVLAKHDENYTPPEVKNAMTPAKAEAQP				NA	NA	NA	NA	NA
BMS020_00697	231			hypothetical protein	ATGAGCCCCGCTTTTTCTTCGTTCGCCGCCTTCCTGAATATGGGCGGCTATGCCCTGTACATCTGGCTGGCGGTGGCCGTGGCCATCGCCGCCTTTGGCCTGCTGACGGTTCATACCCTGTGGGCGCGGCGGGCGCTATTCCATGAGGTGCGACGCCAGCAGGCGCGTGAGCGGCGGATCGCGGCCGCTCGCGAACATGACAAGGAGGCCGCGGATGCAAGCGCGTCGTAA	MSPAFSSFAAFLNMGGYALYIWLAVAVAIAAFGLLTVHTLWARRALFHEVRRQQARERRIAAAREHDKEAADASAS				NA	NA	NA	NA	NA
BMS020_00698	738	ccmC_1	COG0755	Heme exporter protein C	ATGTGGAAAGCGTTACATCAACTGGCGATCCCCGAGCGGCTGTACCGCCTGTGCGGATGCTGGATCCCCTGGCTGGCGGCGTTGAGCGCGCTGTTGCTGGTCATCGGCCTGGGGTGGGGCTTTGGCTTCGCCCCGGCGGACTATCAGCAGGGGGAAAGCTACCGGATCATGTATCTTCACGTCCCGGCGGCGATGTGGTCGATGGGGCTGTACCTGGCGATGGCCGTCGCGGCCTTCGTCGGGGTGGTCTGGCAGATCAAAATGGCCGACCTGGCGATCGCCGCCCTGGCGCCGGTGGGGGCGGTCTGCACCCTGGTGGCGCTGGTCAGCGGCGCGGCGTGGGGCAAGCCGATGTGGGGGACCTGGTGGATCTGGGACGCCCGTCTGACCTCGGAACTGGTGCTGCTGTTTCTGTATGCCGGGGTCATCGCCCTGTGGCACGCCTTTGACGACCGCCGCCTGGCCGGGCGCGCGGCGGGGATCCTCGTCCTGGTCGGGGTGGTCAATCTGCCCATCATTCATTACTCGGTTTACTGGTGGAACACCCTGCACCAGGGCTCGACCAACCTGCAGCAAACCATCGACCCGAGCATGCGTCTGCCGCTGCGGATCTGCATTTTTGCTTTCCTCGCGCTGTCGGTCACCCTGACCCTGATGCGCCTGCGTAACCTGATCCTCCAGCTGGAACGTCGTCGACCGTGGGTGGTGGCGCTGGCTAACAAAGGAGCCGCCCGATGA	MWKALHQLAIPERLYRLCGCWIPWLAALSALLLVIGLGWGFGFAPADYQQGESYRIMYLHVPAAMWSMGLYLAMAVAAFVGVVWQIKMADLAIAALAPVGAVCTLVALVSGAAWGKPMWGTWWIWDARLTSELVLLFLYAGVIALWHAFDDRRLAGRAAGILVLVGVVNLPIIHYSVYWWNTLHQGSTNLQQTIDPSMRLPLRICIFAFLALSVTLTLMRLRNLILQLERRRPWVVALANKGAAR				NA	NA	NA	NA	NA
BMS020_00699	660	ccmB_1	COG2386	Heme exporter protein B	ATGATGAGAGCGCTGTTGGCCCGGGAACTGCGCCTGGCGTGGCGCAGCGGGGCGGAGATCCTCAATCCGCTATGGTTCTTTCTGATCGTCATCACCCTGTTTCCGTTCGGCGTCGGCACCGCGCCGCAGCTGCTGGCGCAGATTGCGCCGGGCGTGGTGTGGGTCGCCGCGCTGCTGGCGGCGCTGCTGGTGATGGATCGGTTGTTTCGCGACGACTGGCAGGACGGTTCCCTGGAGCAACTGATGCTTCTGCCGACGCCGCTGGTGGCGGTGGTGCTGGTGAAGGTGGTCGCTCACTGGATGATGAGCGGCCTGCCGCTGCTGATCGTCTCGCCGCTGGCGGCGCTGCTGCTGGGGATGAATCTGCACGACGCCGGCGTGCTGGCGCTGACCTTGCTGCTTGGCACGCCGACGCTCAGTTTTCTTGGCGCGGTGGGGGTTGGCCTGACCGTCGGCCTGAAGCGCGGCGGCGTCCTGCTGAGCCTGCTGGTGCTGCCGCTGGCGGTGCCGCTGCTGATTTTCGCCACCGCGGCCTGCCAGGCGGCGGCCGCCGGGCTCCCGGTCGGCGGCTATCTGGCGATGCTGGCGGCGTTCTTAACCGCCAGCGCCACCCTGTGTCCGTTCGCCACCGCCGCCGCGCTGCGGCTGACCGTGCAATAA	MMRALLARELRLAWRSGAEILNPLWFFLIVITLFPFGVGTAPQLLAQIAPGVVWVAALLAALLVMDRLFRDDWQDGSLEQLMLLPTPLVAVVLVKVVAHWMMSGLPLLIVSPLAALLLGMNLHDAGVLALTLLLGTPTLSFLGAVGVGLTVGLKRGGVLLSLLVLPLAVPLLIFATAACQAAAAGLPVGGYLAMLAAFLTASATLCPFATAAALRLTVQ				NA	NA	NA	NA	NA
BMS020_00700	624	ccmA_1	COG4133	Cytochrome c biogenesis ATP-binding export protein CcmA	ATGCTGCATGCAGAGCGACTGACCTGCATCGTTGACGATCGACCGCTGTTTGCGGAGCTGACGCTGTCCCTTGCTGCCGGCGAGCTGCTGCAGGTCGCCGGTGATAACGGCGCGGGGAAAACCTCGCTGCTGCGGATCCTTTGCGGCCTGGCGCGCCCGGAAAGCGGGGTGGTGAGCTGGCAGGGCCAGCCGCTGGCCCAGGTGCGGGAGTCATTTCACCGGCAGCTGCTGTGGCTGGGCCATAAGCCCGGCGTCAACGCGGCGCTGACCGCCGATGAAAACCTGCGTTTCTTCTTTCCGGCCAGCCGCCTTCAGCAGCGGGAAAGCGCCCTCGCCGCCGTCGGCCTGGCGGGCTATGAAGATCTCCCCTTAAGCCAGCTCTCCGCAGGGCAGCAGCGCCGGGTGGCGTTAACCCGCCTGTGGTTAACCGATGCGCCGCTGTGGATCCTCGATGAGCCGTTCACCGCCCTCGACGCCACGGCGATAGAAACCCTGACCCGACGCCTGGAGCAGCACGCCCGGCAGGGGGGAAGCGCGATCCTCACCACCCATCAGCCGCTGCGGCCGCTGGGCTGCCCGTTGCGCACCCTGCGCCTCGGCGACGACGGCGGGAGGCGGCAATGA	MLHAERLTCIVDDRPLFAELTLSLAAGELLQVAGDNGAGKTSLLRILCGLARPESGVVSWQGQPLAQVRESFHRQLLWLGHKPGVNAALTADENLRFFFPASRLQQRESALAAVGLAGYEDLPLSQLSAGQQRRVALTRLWLTDAPLWILDEPFTALDATAIETLTRRLEQHARQGGSAILTTHQPLRPLGCPLRTLRLGDDGGRRQ				NA	NA	NA	NA	NA
BMS020_00701	1341			Gluconate 2-dehydrogenase cytochrome c subunit	ATGATGAAAATGCAATGGTTATCGGCCCTGGTGCTTGGGGCATTGAGCTGCGCGGCCTTCGCCGAAGAGGCGCCTGCGGACAGCAATCTGATTAAGCAAGGAGAGTATCTGGCGCGGGCGGGGGACTGTGTCGCCTGCCACACCAACGGCAAAGCGGGCAAACCTTTCGCCGGCGGTCTGCCGATGGAAACGCCGATCGGCACCATCTACTCCACCAATATCACGCCGGATAAAGAACACGGCATCGGCGGGTACACCTTCGAAGAGTTCGACGACGCGGTGCGCAAGGGTGTGCGGAAAGACGGTTCCACGCTCTATCCGGCAATGCCGTATCCCTCATTCGCGCGGATCAGTGAAGCGGACATGCGCGCCATGTACGCCTACTTTATGCATGGCGTGGAGCCGGTGAATGTCGCCAACAAGGACACCGACATCCCGTGGCCGCTGTCGATGCGCTGGCCGCTGGCGTTCTGGCGCGGCATCTTCGCCCCGACGCCGAGCGATTTTGTCGCCAACCCGCAGGTTGACCCGGTGCTGGAGCGCGGTCGCTATCTGGTGGAAGGCCTGGGCCACTGCGGCGCCTGTCATACCCCGCGTAGCCTGACGATGCAGGAAAAAGCGCTCAGCGAAAGCGAAGGCGATGATTACCTGGCGGGCAGCAATGCGCCGATTGACGGCTGGGTCGCCTCCAGCCTGCGCGGCGAAAATCGCGACGGTCTGGGGACCTGGAGCGAAGCCGAGCTGGCTGAGTTCCTGAAAACCGGACGTAACGATAAATCGGTGGTCTTCGGCGGCATGAGCGATGTGGTGGAGCACAGTCTGCAGTATCTCTCTGATGACGACATCACCGCCATCGCCCGCTATCTGAAGTCGCTCCCGCCGCGCGGCGGCAAACAGACCCCAGCCCCGGTGGAAGACAGCGTGGCGAAAGATCTGTGGAAGGGTAACGACAGCAAAACCGGCGCCGCGCTATACGTCGATAACTGCGCCGCCTGCCACCGCACCGACGGCGCGGGCTATCAGCGCGCCTTCCCGTCGCTGAAGGGCAACCCGGTGGTACAGACCGAAGATGCCACTTCGCTGATCCACATCGTTCTGACCGGGAGCACCACGCCGGCGGTGAAAGATGCGGTCTCCAACCTGACCATGCCGTCGTTCGGCTGGCGTCTGGACGACCAGCAGGTGGCGGATGTGGTCAACTTCATCCGCACCAGCTGGGGCAACAATGCGCCGGCGGTCAGCGCCAGCGATGTGGCGAAGGTGCGTAAGGAGACCGCGGCGCACAATGAGAAGGCGTTAGGCAACGCCGATATCTCGAAGCTGCCGGGGGCCGGACAGTAA	MMKMQWLSALVLGALSCAAFAEEAPADSNLIKQGEYLARAGDCVACHTNGKAGKPFAGGLPMETPIGTIYSTNITPDKEHGIGGYTFEEFDDAVRKGVRKDGSTLYPAMPYPSFARISEADMRAMYAYFMHGVEPVNVANKDTDIPWPLSMRWPLAFWRGIFAPTPSDFVANPQVDPVLERGRYLVEGLGHCGACHTPRSLTMQEKALSESEGDDYLAGSNAPIDGWVASSLRGENRDGLGTWSEAELAEFLKTGRNDKSVVFGGMSDVVEHSLQYLSDDDITAIARYLKSLPPRGGKQTPAPVEDSVAKDLWKGNDSKTGAALYVDNCAACHRTDGAGYQRAFPSLKGNPVVQTEDATSLIHIVLTGSTTPAVKDAVSNLTMPSFGWRLDDQQVADVVNFIRTSWGNNAPAVSASDVAKVRKETAAHNEKALGNADISKLPGAGQ	PGPT0017695_81	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017695-fdhC-K23275	NA	NA
BMS020_00702	1785			Gluconate 2-dehydrogenase flavoprotein	ATGGCCACCGTATTGAAAAAAACCGATGTCGCGATCGTCGGCTTCGGCTGGGTTGGGGCGATCATGGCCAAAGAGCTGACCGAAGCCGGGCTCAACGTCGTGGCGCTGGAGCGCGGCCCGATGCGCGACACCTGGCCGGACGGCGCCTATCCGCAGGTGATTGATGAGCTGACCTACAACATCCGCCGCAAGCTGTTCCAGGATCTGTCGAAAAGCACCGTCACCATCCGGCATAACACCAGCCAGCAGGCGGTGCCGTATCGCCAGCTGGCGGCTTTCCTGCCGGGTACCGGCGTGGGCGGCGCCGGGCTGCACTGGTCCGGCGTCCATTTCCGCGTCGATCCCATCGAACTGCGGATGCGCAGCCACTATGAAGAGCGCTACGGCAAAAACTTCATCCCCCAGGATATGATCATCCAGGATTTCGGCGTCACTTACGACGAGCTGGAACCGTTCTTCGATAAAGCGGAGAAAGTGTTCGGCACCTCCGGGACCGCCTGGTCGATCAAAGGCAAGGTCGTCGGTAAAGGCCGCGGCGGCAACGCCTTCGCCCCGGACCGTTCAGATGACTTCCCGCTGCCGGCGCAGAAAAACACCTGGTCGGCGCAGCTGTTTGAAAAGGCGGCGCTCGAGGTGGGCTACCATCCCTACAACCTGCCGTCGGCCAACACTTCCGACTCCTATACCAACCCGTACGGCGCGCAGATGGGCCCGTGCAACTTCTGCGGTTTCTGCAGCGGCTACGCCTGCTACATGTATTCCAAAGCCTCGCCGAACGTGAACATTCTGCCGGCGCTGCGCCAGGAAAAACGCTTTGAGCTGCGGACCAACGCCAACGTGCTGAAGGTCAACCTGACCGACGACAAATCCCGTGCCACCGGCGTGACCTACGTCGACGGCCAGGGGCGCGAAATGGAGCAGCCGGCGGACCTGGTGATCATCGGCGCCTTCCAGTTCCATAACGTGCACCTGATGCTGCTCTCCGGGATCGGCAAACCCTACAATCCGGAGACCGGCGAAGGGGTGGTGGGGCGTAACTTCGCCTACCAGAACATGACCACCATCAAGGCCATTTTCGACAAAGACACCTACACCAACCCGTTTATCGGCGCGGGCGGCAACGGCGTCGGCGTCGACGACTTCAACGCCGACAACTTCGACCACGGCGCGGCGGGCTTTGTCGGCGGTTCGCCGTTCTGGGTCAACCAGGCCGGGACCAAGCCCATCTCCGGTTTCCCGGTACCGCCGGGCACCCCGGCGTGGGGCAGCAAATGGAAAGCGGCGGTGGCCGATACCTACACCCATCACCTGTCGATGGATGCTCACGGCGCGCACCAGTCCTATCGGCAGAACTACCTCGATCTTGATCCGAACTACAAAAACGTCTTTGGCCAGCCGCTGCTGCGCATGACCTTTGACTGGCAGGAAAACGACATCAAGATGGCGCAGTTTATGTTCGATAAGATGGCGCCGATCGCCAAAGCGATGAAGCCGAAATATATCCTCGGCAGCCCGAAAAACGCCAACAGCCACTTTGATACCACCACCTACCAGACCACCCATATGAACGGCGGGGCGGTGATGGGGGAGGATCCGAAAACCAGCGCCGTTAACCGTTATCTGCAAAGCTGGGACGTGCATAACGTCTTCGTCATCGGCGCCTCCGCTTTCCCGCAGGGGCTGGGCTATAACCCAACCGGCACGGTGGCCGCGCTGGCGTACTGGTCAGCGAAGGCGATCCGCGAGCAGTATCTGAAAAATCCGGGTCCCCTGGTGCAGGCATAA	MATVLKKTDVAIVGFGWVGAIMAKELTEAGLNVVALERGPMRDTWPDGAYPQVIDELTYNIRRKLFQDLSKSTVTIRHNTSQQAVPYRQLAAFLPGTGVGGAGLHWSGVHFRVDPIELRMRSHYEERYGKNFIPQDMIIQDFGVTYDELEPFFDKAEKVFGTSGTAWSIKGKVVGKGRGGNAFAPDRSDDFPLPAQKNTWSAQLFEKAALEVGYHPYNLPSANTSDSYTNPYGAQMGPCNFCGFCSGYACYMYSKASPNVNILPALRQEKRFELRTNANVLKVNLTDDKSRATGVTYVDGQGREMEQPADLVIIGAFQFHNVHLMLLSGIGKPYNPETGEGVVGRNFAYQNMTTIKAIFDKDTYTNPFIGAGGNGVGVDDFNADNFDHGAAGFVGGSPFWVNQAGTKPISGFPVPPGTPAWGSKWKAAVADTYTHHLSMDAHGAHQSYRQNYLDLDPNYKNVFGQPLLRMTFDWQENDIKMAQFMFDKMAPIAKAMKPKYILGSPKNANSHFDTTTYQTTHMNGGAVMGEDPKTSAVNRYLQSWDVHNVFVIGASAFPQGLGYNPTGTVAALAYWSAKAIREQYLKNPGPLVQA	PGPT0001300_30	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
BMS020_00703	756			Gluconate 2-dehydrogenase subunit 3	ATGATGTCGAGCGAGAAAACTAACAATTCCAGGCGTGATTTCCTGGTGAAATCGATGGCGCTGATCCCGACGGTGGTGATCGGCGGCGCGGGAGCAGGGGCCATTGGCGTGGCCACCAGCGCGACCGCGCAGGCGGCCCCCGCTTCAGAGCCAGCCTCCGGGAACACGGCGGCGGCCAGCGACTGGAAGCCGCAGTTCTTCAACGATCGTGAGTGGGCGTTTATCAACGCCGCTGTCGCTCGCTTAATCCCGGCGGATGAACTTGGCCCCGGCGCTAAAGAGGCCGGCGTGCCGGAGTTTATCGACCGCCAGCTCAATACCCCTTACGCCACCGGCTCCATCTGGTATATGCAGGGGCCCTTCAACCCCGACGTGCCGAAAGAGATGGGCTATCAGCTGCCGCTGGTGCCCAAACAGATCTATAACCTCGGGATCGCCGATGCCGAGGCCTGGTGTCAGGACAAGTATCACAAGACCTTTGCTGAACTGAGCAGCGAGCAGCAGGACGAGGCGCTCGGCCTGTGGGAATCCGGTAAAGCTGAGTTCAAACAGCTACCGGCTTCGCTGTTCTTCACCTATCTGCTGCAGAACACCCGCGAAGGCTTCTTCAGCGACCCGATCCATGGCGGTAACAAAGGCATGGTCGGCTGGACGCTGATTAATTTTCCCGGCGCGCGCGCCGACTTTATGGATTGGGTTGAACGGGGCGAACGCTACCCCTTCCCGCCGGTATCAATTAATGGGGAGAGGGCGTAA	MMSSEKTNNSRRDFLVKSMALIPTVVIGGAGAGAIGVATSATAQAAPASEPASGNTAAASDWKPQFFNDREWAFINAAVARLIPADELGPGAKEAGVPEFIDRQLNTPYATGSIWYMQGPFNPDVPKEMGYQLPLVPKQIYNLGIADAEAWCQDKYHKTFAELSSEQQDEALGLWESGKAEFKQLPASLFFTYLLQNTREGFFSDPIHGGNKGMVGWTLINFPGARADFMDWVERGERYPFPPVSINGERA	PGPT0001305_121	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
BMS020_00704	372			hypothetical protein	ATGTTCGATCATGTGAAATTCGGCGTCAGCGACTATGCCGCCAGCAAAGCGTTCTTTTTACAGGCTCTGGCCTCGCTTGGCGTAACGCTGGTCGATGAAGGCGAGCCGACCTACGGCGCAGAGTTGGCCGGCAGCGGGGATGTCTCTTTGTGTCTCTATCAAAGTGCGGACAAACCGGCGCCGCTGCATATCGCCTTTCGCGCCGACAGCCGCGAGCAGGTGGATGCCTTCTGGCAGGCGGCGCTGGCCGCCGGAGGAAAGGACAACGGCGCGCCGGGGTTACGGCCCAACTACCACGCCGGGTACTACGCCGCCTTTGTGATTGCGCCAGACGGGCACAATATTGAAGCCGTGTGCCATCTGGCGGGGTAA	MFDHVKFGVSDYAASKAFFLQALASLGVTLVDEGEPTYGAELAGSGDVSLCLYQSADKPAPLHIAFRADSREQVDAFWQAALAAGGKDNGAPGLRPNYHAGYYAAFVIAPDGHNIEAVCHLAG	PGPT0013300_3192	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
BMS020_00705	240			hypothetical protein	ATGAAGCTATGGTTTGTCGAACCCCGGCCAAATGTTTTCGTCTCAGGCGTCAAAGATTCGGTCGCGCAAACCGTTGTTGATTATCTGATGCAGTACACGCCTGTGGAATCAGGCCTGATGCTGTTTCGCAATATTCCTCAGCCGCCTGGTTATGAAATTCGCTACAAGGGGGAGGTCAGAAAGCCGATTATTGAGCTCAGTGGGTTACAGCTGATTATTGAAACCCTAAAACTGTCGTAA	MKLWFVEPRPNVFVSGVKDSVAQTVVDYLMQYTPVESGLMLFRNIPQPPGYEIRYKGEVRKPIIELSGLQLIIETLKLS	PGPT0026890_1601	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM	CE-BACTERIAL_FITNESS-UNIVERSAL_CAS_PROTEINS,PGPT0026890-cas2-K09951	NA	NA
BMS020_00706	876	ygbT	COG1518	CRISPR-associated endonuclease Cas1	ATGGCCCAGGGGGAGAGACTGTTTGTCAAAGTCACCCGCGAACTTCTGCCTCAGGTAAAAGATAAATACCCTTTTCTATACCTTGAGCGCGGGCGGCTGGAGATTGATGACAGCAGTGTGAAATGGGTTGATGCGGATGGCAACGTGGTACCTCTCCCGGTGGCGACCGTCAACACGCTGCTGCTTGGCCCCGGGACCTCAGTGACTCATGAGGCGATCAAAACCGCGACCGCGGCTAACTGCGCGGTGTGCTGGGTGGGTGAGGATAGTCTGTTATTTTACGCCGCTGGTTTTTTGCCCACCGCTGATACCCGCAATCTTAAAACACAGATGGCACTGGCCTGCGATGCGTCGTCTGCGCTAAAGATTGCCAGAGCGATGTTTGCTAAACGCTTTCCGGATGCCGAACTGGAGGGCAAAAGTTTAACCAGCATGATGGGCATGGAGGGGAGCCGGGTTCGTGCGTTGTATCAGCAAAAAGCGCAGGAGTATGGCGTGGGCTGGAAAGGGAGGCAGTTCACGCCCGGTAAGTTTGAACTGAGCGACCTGACAAACCAGGTGTTGACCTCCACTAACGCCGCCCTGTACGGCATATTATGCTCAGTTGTTCATGCGATGGGCTACTCGCCGCATATTGGTTTTATTCATTCAGGTAGTCCTTTACCGTTTGTCTATGACCTGGCTGACCTTTACAAAGAGCGGCTCTGTATCGATCTGGCGTTTTCGCTGTCGAGGGAGATGGCGGGTCGATATGATAAACATAAAGTTTCTGAGGCATTCAGAAAACGAGTGATAGCCCTGGATTTGCTCAACCTGATTGCCGCCGATATCAATGAGCTGATGGGAGGGAAAGGTGCTCGTCGTACTGGCAAATGA	MAQGERLFVKVTRELLPQVKDKYPFLYLERGRLEIDDSSVKWVDADGNVVPLPVATVNTLLLGPGTSVTHEAIKTATAANCAVCWVGEDSLLFYAAGFLPTADTRNLKTQMALACDASSALKIARAMFAKRFPDAELEGKSLTSMMGMEGSRVRALYQQKAQEYGVGWKGRQFTPGKFELSDLTNQVLTSTNAALYGILCSVVHAMGYSPHIGFIHSGSPLPFVYDLADLYKERLCIDLAFSLSREMAGRYDKHKVSEAFRKRVIALDLLNLIAADINELMGGKGARRTGK	PGPT0026885_2625	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM	CE-BACTERIAL_FITNESS-UNIVERSAL_CAS_PROTEINS,PGPT0026885-cas1-K15342	NA	NA
BMS020_00707	717			hypothetical protein	ATGAGCCAATCAATACATCATATGCTGCTGTGGCTTGAAGGGCCGCTGCAGTCCTGGGGATTCGATTCAAAATTTGGCGTACGCGATACGCTGAATTTCCCGACCCGCTCGGGCATTTTGGGGCTGATTTGCTGTGCACGCGGCGCATCGGGACCAGAGGTCGAGTGGCTGGCGGAGATGAATAATCTGTCGATGGAGGTTCGCGCCTACGCCCGTACCGACAAGCAGGGCCAGCCGCTCATACGTGAGCCGGCATTGTGCGACTTCCAGATGGTGGGTAGCGGTTATGACGACAGCGATCCCTGGCAAAATCTGCTGATACCTAAGACATCTGATGGAAAGAAAGCCGTGGGTGGCGGAACGAAAATGACCTACCGTTACTACCTTCAGGATGCCGTATTCGCCGTGGTGATGGCGCTTGGCAGCCAACAGGCGGAGTCATTGCCAGAGGCTCTACAAAACCCGGTATGGGACTTATATCTCGGTCGTAAAAGCTGCGTGCCCAGCGAGCTGATCTACCAAGGTATCTATGACAGCGCAGAAGCTGCCTGGCAACAGGCGCAGCAGTTAGCCGATAGCAAACAGCGCACGTTGAGCTATGCGGTTATTGAAGGAGAAGGGGATGGAGATGTTATCACGCTAAATGATGTCCCGGTGCAGTTCGGCCGGCATAAGCGTTATCGGGATCGCCAGGTGACCGTGCTGGAGTTCGGCTAA	MSQSIHHMLLWLEGPLQSWGFDSKFGVRDTLNFPTRSGILGLICCARGASGPEVEWLAEMNNLSMEVRAYARTDKQGQPLIREPALCDFQMVGSGYDDSDPWQNLLIPKTSDGKKAVGGGTKMTYRYYLQDAVFAVVMALGSQQAESLPEALQNPVWDLYLGRKSCVPSELIYQGIYDSAEAAWQQAQQLADSKQRTLSYAVIEGEGDGDVITLNDVPVQFGRHKRYRDRQVTVLEFG	PGPT0027020_366	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_CRISPR-CAS_SYSTEM,PGPT0027020-casD|cse5-K19125	NA	NA
BMS020_00708	1035	casC		CRISPR system Cascade subunit CasC	ATGACTACCCGGTTCAAAAATACCCGTATTGAGTTTCATATTTTGCAGTCTTTTCCGGTGACCTGCCTTAACCGCGATGACGTGGGCGCCCCCAAATCCGCCATCGTTGGCGGCGTTTCGCGCGCCAGAGTGTCATCGCAGTGCTGGAAGCGCCAGGTCCGTCTGGCGCTGCCTGATTTTGGCATCCGTCTCGGGGTGCGTAGTAAAAAAATTGCCTCACTGCTGACCAACGCCTGTCGTGAATTGGGCGCAAGCGAAGAGCAGGCCACCGGATGCGGTGAGGCGATGGCCGCTTTTTTCTCCGATGACACCTTGCTGTTTCTCAGTGAGGCTGAGGCTGCTGCGTTTGCCGCCTACGCGCAGGAAAAAGATTTTGATGCCGCCAGCCTGAAAGACAAAGAACTGGTTAAAATCGCCAAAAAAGTAGTTAACAGCACCCTGGATGCCCTGGATATTGCGCTTTTCGGGCGCATGGTGGCCAAAGCGGCAGATATGAACGTTGAGGCGGCGGCCTCGTTCGCGCATGCCATTTCCACCCATAAAGTGAGCAATGAAGTCGAGTTCTTTACTGCCGTGGATGATTGTAAAACGGAGGATGAAAGCGGTTCGGCGCATATGGGGAGTCTGGAGTTTAATTCGGCGACCTACTATCGCTATGTCAGCCTGGATCTCGGGCAGCTGGCGCAAACGTTGGGGGAGGATGCCGATATGAAAACCGCCGTCGCCGCTTTTGTTAAGGCGCTGTACGTTGCCGTTCCCTCGGCCCGACAAACAACGCAATCCGGGGCCTGTCCGTGGGAATATGCCCGCGTGTTGCTGCGTAAAGGCCAGGGGCTGCAGGCTTCATTCGAACAGCCCGTTAAGAGTCAGGGCGAAGGCTACTTATCGCCCAGTAAAGCGGCGCTGAAAGACTGGCTGAATAAAAAAGAAAAACTCTCCGGCTCCCTGTTCGGCAAACAAGGCGATTACGAGTGGGGCGAGGATCTCGACTACAGCATTGACCGCCTGATCGCCGACTTACAGTCACATCTGTAA	MTTRFKNTRIEFHILQSFPVTCLNRDDVGAPKSAIVGGVSRARVSSQCWKRQVRLALPDFGIRLGVRSKKIASLLTNACRELGASEEQATGCGEAMAAFFSDDTLLFLSEAEAAAFAAYAQEKDFDAASLKDKELVKIAKKVVNSTLDALDIALFGRMVAKAADMNVEAAASFAHAISTHKVSNEVEFFTAVDDCKTEDESGSAHMGSLEFNSATYYRYVSLDLGQLAQTLGEDADMKTAVAAFVKALYVAVPSARQTTQSGACPWEYARVLLRKGQGLQASFEQPVKSQGEGYLSPSKAALKDWLNKKEKLSGSLFGKQGDYEWGEDLDYSIDRLIADLQSHL	PGPT0027015_566	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_CRISPR-CAS_SYSTEM,PGPT0027015-casC|cse4-K19124	NA	NA
BMS020_00709	648			hypothetical protein	ATGACTGAACTCTTTGCGAGTGCTTTACATCTCGATCGCGCTGCGGTGAAAGCGCTGAAAATCAGCGATGCCTACTCCCTACACCGGGTGGTGTACAGCCTGTTTGCTGACGCGCGTACAGACCGGGAGAAGTGCAGCCATATTTCGAGCGGGATCGCCTATGCCGACCAGGGAGGGGATTTTCATGGCCGCAAAATATTGATCGTCTCTGACAGACCTCCGGCTGCAAAGGTTGATGGGCTGTACGGTGAGGTCATCAGTAAATCGATTCCGGCCGCTTTTCTCTCCCATTCGCGTTATCGCTTTCAGGTACAGGTGAATCCGGTACGGAAAGATAAGCAAACGGGTAAGCGCGTCGCCGTGAAAGGCCGGGCTGATATTGCGCAGTGGTTTATTCAGCGAGCCGCCAGCCGATGGGGCTTTGAAGTAGATCTGCCGAGCCTGCAGGTCGAGGCAATGGAAGTTCTGCAGTTTAAAGATAAAGCCGGCCGCCAGGTAACGCTTGGCAAGGCGACGATGCAAGGGCTGCTCACCGTCACCGACCAACAGCAGTTCCAGCATAGTTTTCATCATGGCATTGGCAAAGGGCGAGCCTTTGGCTGCGGCCTGCTGCAGATTGTGCCCGTTGTTGATGCGCTTTTTTCCTGA	MTELFASALHLDRAAVKALKISDAYSLHRVVYSLFADARTDREKCSHISSGIAYADQGGDFHGRKILIVSDRPPAAKVDGLYGEVISKSIPAAFLSHSRYRFQVQVNPVRKDKQTGKRVAVKGRADIAQWFIQRAASRWGFEVDLPSLQVEAMEVLQFKDKAGRQVTLGKATMQGLLTVTDQQQFQHSFHHGIGKGRAFGCGLLQIVPVVDALFS	PGPT0027025_471	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_CRISPR-CAS_SYSTEM,PGPT0027025-casE|cse3-K19126	NA	NA
BMS020_00710	567			hypothetical protein	ATGGATCAGGTTCCTGCAGGCGTTACCGCCGAAAGCGCGGCTAACGAATCGTCAGCCAAACGATTTGTCGGTTACGTGATTGATCGTATCGCGAAAGACAATGGCTTTGCCGCCCGCCTTAAACGAGCGGATAACCCGACGACCGAGTATCAGAGCTGGGAAATCCTGGCGGGCTTTGGCATTGACCTTGAAAAGAAATGGCAACGCCTGCCGTACTGCGTCATTGGCGCCGCGCTGGCAAAGGCGAAACCGGCCAGCAATGGCACAATCACTCTGGGGGCTGCCATTGCCGGTTGTTATCCCGAGGGCAATCAGTCTGAACAGGCGAAAGCTCGCCTGCGACGGCTATTGGCCTGTACTTCGACCAGCGAAGCGTGCCGTATTTTGCGCCCGTTGTTGGCATTAATGGCCAGCCGCAGTGTGACGCCGGATTTCGCCGGGCTACTCTATGAACTGCAGTGGTTCTCCGGCAGCAGTCGCGAACGGATCCGCGCCCGCTGGGCGCAGGAATTCTATCGTCGTGCCGGTGAGGCTGCCGGGAGTGAGGCGAGGAATTCACATGACTGA	MDQVPAGVTAESAANESSAKRFVGYVIDRIAKDNGFAARLKRADNPTTEYQSWEILAGFGIDLEKKWQRLPYCVIGAALAKAKPASNGTITLGAAIAGCYPEGNQSEQAKARLRRLLACTSTSEACRILRPLLALMASRSVTPDFAGLLYELQWFSGSSRERIRARWAQEFYRRAGEAAGSEARNSHD	PGPT0027010_331	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_CRISPR-CAS_SYSTEM,PGPT0027010-casB|cse2-K19046	NA	NA
BMS020_00711	1524			hypothetical protein	ATGGAGAACCGCTTCAATTTAATTGATGAACCCTGGATTGCGGTCGTGGATGTGGGGTTGGTCAGTTTAACCGATATTTTCAGTCAGCCGGAATTACGCGCTTTAGGGGGCAACCCAGTACAAAAAATAGCGCTCACCAAATTACTCTTAGCCATCGCTCAGGCGGCCGCGACGCCTGCTGATGATAGCGACTGGCAACAGATGGGTTGGCAGGGAATGGCCGATCGCTGCCTGCAGTACCTCGCTAAATGGCACGACCGCTTTTATTTGTATGGTGAAAAGCCGTTCTTACAGATGCCCGCTATTCAGACCGCGGAATGTAAGTCATTTGGTGTTTTATCACCGGAGGTGAGTACCGGCAACACCACCGTTTTGACCGAAAGCCAGCAACAGCAACAATTAACCGATGCGGACAAAGCGCTAGCTATCATTGTTCAGATGGGGTTGGGACTCGGGGGCAAGAAAACCGATAACGCCGTGGTGTTAACACCAGGCTATTGTGGTAAACAAAACGAAAAAGGTAAACCGAGTAGTGGTAAACCCGGCGTTTCTGTCGGACATATGGGACTGTTGCATTCGTTCTGGATGGGGAATTCCATTGTACAGAGCATTTGGTTCAATCTGTTTACCGCTGAGGATATTGCGCAACTGATGATGTATCCCACGCTGGGGACCGCCCCATGGGAGCAAATGCCGACAGGGGAAGATGATGACATTGCGCGTTCGTTGAAAGCGTCTCTGCTTGGCCGCCTGATCCCAATGGGTAAATTTTGCCTTTTAGCCGAGGACGGCATTCACTATAGCGACGGAATAAGCCATGCAGGCTATCTTGAAGGTAAAACCGACCCCTCGGTTTCCGTCGACTTTTCAGGCAAGAAACCGAAGGCATTATGGGTTAACCCGGGTAAACGCCCCTGGCGCGAACTGACGTCGCTATTGCAGTTTATTGAGCAGGATAGCTCCCGGGGATTTGAAACCCGCCAGCTTAGCCTTCCTATGAAGCGGATAACCCATCATGCGGAGCAGTTTGCGCTATGGTCAGGCGGCTTAAGGGTGAGTAGTAATGCGGGTGAACAGTACGCGTCAGGGACAGATGATTATGTTCAGTCAGAAATATGGTTATCCTCCGGGTTAATTAATCACGCCTTTTTAGAATATTTAAAATATGAAATGACGCAGCTTGAGGCTGTGCAAAAACAGCTCTGGGGGGCGGTTGTGCGTTATTTCCGCCAGCTTTCCGATATCGATAAATCAGCAACCGGCAAGGCCCAACCTTTTGTGGCAAAGCAGGCTGAAAAAGCGACGTCTCTATTCTGGCAACTCTGTGAACGTCAGGCTCAGGCGCTAATTAATGCTTGCCTGAATTCCGGAGAACAGCATTTCGTACGTCATCAGTTACGAAAAATTTTTGCCAGCTACGCCGGGCAGGTTTTTGATCAGCTCTGTCCTGCCGACAGTGCACGTCAATTAGATGCCTGGGCGCAGGCCCGGCCTAATTTTTCCCAATATCTCACCCTCGATTAA	MENRFNLIDEPWIAVVDVGLVSLTDIFSQPELRALGGNPVQKIALTKLLLAIAQAAATPADDSDWQQMGWQGMADRCLQYLAKWHDRFYLYGEKPFLQMPAIQTAECKSFGVLSPEVSTGNTTVLTESQQQQQLTDADKALAIIVQMGLGLGGKKTDNAVVLTPGYCGKQNEKGKPSSGKPGVSVGHMGLLHSFWMGNSIVQSIWFNLFTAEDIAQLMMYPTLGTAPWEQMPTGEDDDIARSLKASLLGRLIPMGKFCLLAEDGIHYSDGISHAGYLEGKTDPSVSVDFSGKKPKALWVNPGKRPWRELTSLLQFIEQDSSRGFETRQLSLPMKRITHHAEQFALWSGGLRVSSNAGEQYASGTDDYVQSEIWLSSGLINHAFLEYLKYEMTQLEAVQKQLWGAVVRYFRQLSDIDKSATGKAQPFVAKQAEKATSLFWQLCERQAQALINACLNSGEQHFVRHQLRKIFASYAGQVFDQLCPADSARQLDAWAQARPNFSQYLTLD	PGPT0027005_501	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_CRISPR-CAS_SYSTEM,PGPT0027005-casA|cse1-K19123	NA	NA
BMS020_00712	2616			hypothetical protein	ATGAGGCGCTTAACCAGGGTTTCGCTTCAAAATCAACATGCCACCGCGGCGATAAGTTATGAAAACTGCCCAGCGAAAACCCGAAGGTTGAATGATGGCCGCGTGGTGCAGGGACGCTCGGTGTTGAGCCATTGTCAGATTGTCGGGGAGATAGCTCGTGCGCTAATAGCGCGCTATCCCGAGCCGATGCGAAGTCGGCTGTTTCCAGCGGGAAGTGAAATGGCGGCCGCCTGCCACGATATCGGAAAGGTCAGTCCAACCTTTGCTGCTAAACTTTTTGCTGCATGCGACGTTAATGACAAGCGTCTTTCTGCGTTATCGGCGGTGAATCCGGAGCTGGAGACACTTTGGGGAGGTCATGCAGGCGTCAGCCAGGCGACAGCGGAAAGTTTACAAGCCCCGCGCTATGTTCCCGAGATCCTCGGCCAACACCACGGTTTTAATCCAGCACTCAACGGCAGGCGTGGCGATGCTGATGTATTCGGCGGGTCGCTCTGGTTTGATGAGCGTAAAAAACTCGTGGATAAGCTAAAAGCGGATCTGGTCGCCGATTGGCCGGCATTTAATTCAGTCGCTCAGGCTCGCGTGGTTGCCGGGTTGACTTCGGTAGCGGACTGGATTGGCTCCGGTGAGTTTTTTGAAAATCCAGATCAAGCGTGGCAGCCCGTAATAGCGGCTGCCCTGAATAATGCAGGTTTTATTAAACCTGTTATCCGTCAAGGGCTATCCTTTGTGGACGTCTTTTTTCCTGACGATCCGTCGAAACGACCACGCGAAGCGCAATGGCGTTTTATTGATCACGTTTCGGGGCCTGGTCTCTATATTCTCGAAGCGCAAATGGGAATGGGGAAAACAGAAGCCGCGCTATATGCGGCTTATCAAATGCTGGCCCAGGAAAAAGCAACCGGCATTTATTTCGCCTTACCCACTCAGTTGACCTCGAACAAAATATACGATCGCTTCGATGCTTTTCTGCAACAAATTGTCAGTGCTGAAACCCCGCAGCGTGCCTTACTTTTGCATTCCGGCGCCTGGTTGATGGATACCGAGATGGGGGAGGAAGGAAGCCCAGGTGGTGCATGGTTTAATCACCGAAAACGCGGCTTATTAGCGCCATTTGCCGTCGGCACCATCGATCAGGCTTTGATGGCGGTGATGAATGTGAAGCATGGATTTGTCAGGGCGTATGGCCTCGCGGGCAAAGTGGTGATCCTTGACGAAGTCCATTCCTACGATCTCTACACTGGCACGATCCTCAACGCGCTAGTCGAATTTCTGCGTCAAATCGACTGCACGGTGATTATTCTCAGCGCCACGCTGAGCCGGGCCCGTCGTGACGCCTTGTTGCAGCAGACAACAACCAGTGAAGCATATCCGCTGATCACCGCTGCTCCCATCTGCGCTGGAGAGCCGGTGCTTTCCGAAATTGGCGTACCTGCCACTGAGCACGCCACCCTCACACTCTATTCCTGTAACAATGATGAATCCGCGCTGGAAGAGGCACTACGGCGCGCAGAACGTGGGCAACAGGTGTTGTGGATTGAAAATACCGTTGCTGAAGCGCAGCAACGGTATCTGGATATGGCCAGCCGGGCTGTTGAGGCGGGATGTGAAATAGGACTCTTACACTCCCGTTTTATACCTCAACATCGCAACCTGCATGAGCAACGCTGGGTCGCGCTCTACGGCCGTGCCGGCCGGTCGCAACGTAAGCAGTGCGGGCGAATTTTAGTCGGAACCCAGGTTCTGGAACAATCCCTTGATATTGATGCCGATTTCCTCGTGAGCCGTTTTGCGCCAACAGATATGCTGCTGCAACGTCTTGGCCGGCTGTGGCGGCATACCGATACCCCCCGCCACGCGAGTGCGAAAGCGGAATGCTGGCTATTGTCTCCATCGCTTGAGAGCGCTTTAGCTAACCCGGGTTCTGTGTTCGGCATGAGCGCGATGGTCTACTCGCCCTATGTGTTATGCCGCAGTCTGGAGGTCTGGCAAGCGATCCTCTCTCTATCATTGCCTGGGGATATTCGCCCCCTGATCGACCGGACCTATAGTGCACGTTCGGAAGAGGGGCCATGGGCCACGCTACTGCATGAACTGAAGAATGGCAGCCGCTTTCGTTCCGGTGAAGAGGCGTTGCAGTCTCTGGCGAAGCTCACGTTATCTGGCGGCGGGAAAACGCTGCCTGAGCATAAAGCGGAGACGCGCTATAGCGATAGTGACACCCATGACCTGTTGCTGCTACGTGGTCTGCGTACGCAAGACGGCGTCACGTATTTGCGCCTGCTCGATGATGCTGAATTAGCCCTTCCGCATGGGCGGCATTGTTTAAGCCGGACGCAGTGGCGACAGCTGGCGGTGGCGCTTAATCAGCAGCTGGTGCGAGTTAATCCGACGTATTGTCCGCCTAAAATAGCAAAAAATGAGCTGGAAAAATTACACCTGCAGCAGGTGTTCTATCTCGGTCGCCCCGAAGATGACGAGGCGTTACTGCGCGTTGCTATTGTCAGCCCTGCGGGTGAATTGAAGACGCTGGATGGCCGGCCCACAGGCGATAAATACACTCTCGAATATAGTGAATATCTTGGCTTCCGGGCCATTTCCAAAAAGGAATAA	MRRLTRVSLQNQHATAAISYENCPAKTRRLNDGRVVQGRSVLSHCQIVGEIARALIARYPEPMRSRLFPAGSEMAAACHDIGKVSPTFAAKLFAACDVNDKRLSALSAVNPELETLWGGHAGVSQATAESLQAPRYVPEILGQHHGFNPALNGRRGDADVFGGSLWFDERKKLVDKLKADLVADWPAFNSVAQARVVAGLTSVADWIGSGEFFENPDQAWQPVIAAALNNAGFIKPVIRQGLSFVDVFFPDDPSKRPREAQWRFIDHVSGPGLYILEAQMGMGKTEAALYAAYQMLAQEKATGIYFALPTQLTSNKIYDRFDAFLQQIVSAETPQRALLLHSGAWLMDTEMGEEGSPGGAWFNHRKRGLLAPFAVGTIDQALMAVMNVKHGFVRAYGLAGKVVILDEVHSYDLYTGTILNALVEFLRQIDCTVIILSATLSRARRDALLQQTTTSEAYPLITAAPICAGEPVLSEIGVPATEHATLTLYSCNNDESALEEALRRAERGQQVLWIENTVAEAQQRYLDMASRAVEAGCEIGLLHSRFIPQHRNLHEQRWVALYGRAGRSQRKQCGRILVGTQVLEQSLDIDADFLVSRFAPTDMLLQRLGRLWRHTDTPRHASAKAECWLLSPSLESALANPGSVFGMSAMVYSPYVLCRSLEVWQAILSLSLPGDIRPLIDRTYSARSEEGPWATLLHELKNGSRFRSGEEALQSLAKLTLSGGGKTLPEHKAETRYSDSDTHDLLLLRGLRTQDGVTYLRLLDDAELALPHGRHCLSRTQWRQLAVALNQQLVRVNPTYCPPKIAKNELEKLHLQQVFYLGRPEDDEALLRVAIVSPAGELKTLDGRPTGDKYTLEYSEYLGFRAISKKE	PGPT0026895_846	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_CRISPR-CAS_SYSTEM,PGPT0026895-cas3-K07012	NA	NA
BMS020_00713	1071	potA_2	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGATTGAGTTATCGGTAGAAAATCTGCATCTCACCTATGGCGACAACCCGGTGCTGAAGGGGGTGTCGATGACGCTCGGCCGGGGAGAGGTGGTGTCGCTGCTGGGGCCTTCGGGAAGCGGCAAAACCACGCTGCTGCGGGCGGTGGCCGGGCTGGAGAAGCCGACGAGCGGACGGATCGCCATCGGCAATCGCACGGTGTACGACGGCACGCCGCGCAGCGAAATCCCGGCCGAAGAGCGTAACCTCGGCCTGGTGTTCCAGTCCTATGCCCTGTGGCCGCACAAAACGGTGTTCGACAACGTGGCCTATCCGCTGAAGCTGCGTAAAGTCGCCGCCGGGGAGATAAAAGAGCGGGTGCAGCGCGTGCTGGATCAGCTGGGGCTGGGGCATCTTGGCAACCGCCATCCGCACCAGCTCTCCGGCGGCCAACAGCAGCGGGTGGCCATTGGTCGGGCGCTGGTCTACAACCCGCCGGTGATCCTGCTGGATGAGCCGCTCTCTAACCTCGACGCCAAGCTGCGCGAGGAGGCGCGGGTGTTTCTGCGCGAGCTGATCATCAAGCTGGGCCTCTCGGCGCTGATGGTCACTCACGATCAAAATGAAGCGATGGCCATCTCCGATCGTATTCTGCTGCTGAACAATGGCGTCATCGAGCAGCAGGGGACGCCGCAGGAGATGTACGGCAGCCCGGCGACGCTGTTCGCCGCCGAGTTTATGGGCAGCAATAATCGCCTGCACGGCAAGGTGATGGCGCTGGAGAACGGCAGGGCGCGCATCGAAGGCGCCAGCTGGAGCCTGTGGGGGAGAGCGGGCGAGGGGGTCAGCGTCGGCGAGCCGGCGACGGCGGTGATCCGCGTCGAGCGCCTGCGTCTTGACGGCGCGGCGCAGGATAACAGTCTCCAGCTACCGCTGCTGACCAGCATGTACCTCGGCGACCGCTGGGAGTACCTGTTCCGCACCGAGGGCGACGACTTTCCGCTACGCGCCTACGGAACCGCGCTGCGCGATGCCGAACACTGCCATCTGACGCTCCCGGCGGAGGATGTGTGGATTTTTCCGCAGCGGTAA	MIELSVENLHLTYGDNPVLKGVSMTLGRGEVVSLLGPSGSGKTTLLRAVAGLEKPTSGRIAIGNRTVYDGTPRSEIPAEERNLGLVFQSYALWPHKTVFDNVAYPLKLRKVAAGEIKERVQRVLDQLGLGHLGNRHPHQLSGGQQQRVAIGRALVYNPPVILLDEPLSNLDAKLREEARVFLRELIIKLGLSALMVTHDQNEAMAISDRILLLNNGVIEQQGTPQEMYGSPATLFAAEFMGSNNRLHGKVMALENGRARIEGASWSLWGRAGEGVSVGEPATAVIRVERLRLDGAAQDNSLQLPLLTSMYLGDRWEYLFRTEGDDFPLRAYGTALRDAEHCHLTLPAEDVWIFPQR	PGPT0003735_1915	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
BMS020_00714	1770			hypothetical protein	ATGAATGTATTACGCAGAAAGTGGCAGGGGCTGCCGCGCGGCGTGGTGGTGTGCATCACGGCGCTGGTGATTTACGTCCCGCTGTTATTTATTGTGGTGCAGAGTTTTCTCTCCGCGCCGTTCTTTTCCCGCTCCAAATCCTGGAGTCTGGAAGCCTTCGCCTTTATTTTTACCGACCCGGATTTTTATCTGGCGTTAAGGTCAGGGTTTATTCTGGCCTTTGGCCTGGTGATTATCGCCATTCCGCTGGGCGGTATTTTGGCCTTTCTGATGGTACGCACCGATTTACCCGGCCGGCGGTTCATTGAGCCGCTGATCCTGGTGCCGATCTTCGTCTCGCCGATGGTGCTGGGCTTTGGCTACGTGGTGGCCGCCGGGCCGGTAGGCTTCTTTTCCCAGTGGGCGCAGCAGCTGATCGGCTTTGTGCCGTGGAATATCTACTCGATGTTCAGCATTGTGGTCATCGCCGGCTTAACCCACGTGCCGCACGCCTATCTCTACATCTCCTCGGCGCTGCGCAGCGTCGGCTCGGACGTGGAAGAGGCGGCGCGCACCGTCGGCGCCACGCCGCTGCAGGTGATGACCTCGGTGAGTCTGCCCATGGTGCGGCCCTCCATTCTTTACGCCTGCGTGCTGCTCTTTTTCCTTGGTCTGGAAGTCTTCGGTCTGATGCTGGTGCTGGGCGACCCCGAGGGCAACATGGTGCTGGCGACCTATCTCTACAAGCTGACCAATAAGCTAGGCACCCCCTCCTACCATCTGATGGCGGCGGTGGCGGTGGTGCTGATCTGCATCACCATCCCGCTGGTCATGCTCCAGCGTCGGCTGATGCGCACCGCCAACCGCTTTGTCACCATGAAGGGCAAGGCGTCGCAGGCGCGGGCGCTGCCGCTGGGCAAATGGCGCTGGGTGGCCGGGGCGGTGGTGGTGGCCTGGCTGACGGTGACCATCGGCGTCCCGCTGCTCGGCGTGGCGCTGCGCGCCTTTATCTCCAACTGGGGCGTCGGCGTGTCGCTGTGGGATGAGCTGTCGCTGACGACGTTCCACAATATCTGGCAGCAGCCCAACCTGCTGCGGGCGATCGTCAACTCGATGGCTATCGGCATCGTCGGCGGCGCGCTGGCGGTGATCTGCTATCTGTTTGTCGGCATCGCCATGCACCGCAAAGCGGACAACGTCACCCGCTTTCTTGACTACAGCGTGCTGGTCCCGCGCGCGGTGCCGGGGCTGCTGGCCGGTCTGGCCTTCCTGTGGGTGTTCCTGTTTGTGCCGATGTGGCTCGATCAGTCGCTGAAGCATGGCTGGCTCTCGGCGCTGCCGGTAGCGGACTGGCTGCGGGAGCACCTTATCGTGCAGCTGCGCGCGCTGCGCAATACCATCTTCAGCGTCTGGCTGGCCTACACCGTGGTATGGATGGCCTATGGCCTGCGGCTCATCTCCTCGACGCTGCTGCAGGTGGGCCCGGAGCTGGAGGAGGCGGCGCGCAGCACCGGCGCCTCGCGGGGGCAGATCACCCGCCACGTCACTGTCCCGCTGTCGCGCTATGGGCTGATTGGCTCCTGGCTGCTGATGTTTCTGATCTTTGAGCGCGAATATTCCACCGGCGTCTATCTGCTGTCGCCGGGTACCGAAACCATCGGCTCGATGCTGGTGTCGCTGTGGGCGGCGGGGGCCATCGATATCGTCGCGGCGCTCTCCTTTATCAATATTCTGCTGGTGGTGATTGGCCTTGGCATCGCCCTGCGCTTTGGAGTGAAATTACATGATTGA	MNVLRRKWQGLPRGVVVCITALVIYVPLLFIVVQSFLSAPFFSRSKSWSLEAFAFIFTDPDFYLALRSGFILAFGLVIIAIPLGGILAFLMVRTDLPGRRFIEPLILVPIFVSPMVLGFGYVVAAGPVGFFSQWAQQLIGFVPWNIYSMFSIVVIAGLTHVPHAYLYISSALRSVGSDVEEAARTVGATPLQVMTSVSLPMVRPSILYACVLLFFLGLEVFGLMLVLGDPEGNMVLATYLYKLTNKLGTPSYHLMAAVAVVLICITIPLVMLQRRLMRTANRFVTMKGKASQARALPLGKWRWVAGAVVVAWLTVTIGVPLLGVALRAFISNWGVGVSLWDELSLTTFHNIWQQPNLLRAIVNSMAIGIVGGALAVICYLFVGIAMHRKADNVTRFLDYSVLVPRAVPGLLAGLAFLWVFLFVPMWLDQSLKHGWLSALPVADWLREHLIVQLRALRNTIFSVWLAYTVVWMAYGLRLISSTLLQVGPELEEAARSTGASRGQITRHVTVPLSRYGLIGSWLLMFLIFEREYSTGVYLLSPGTETIGSMLVSLWAAGAIDIVAALSFINILLVVIGLGIALRFGVKLHD	PGPT0003730_808	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
BMS020_00715	1089			hypothetical protein	ATGTATAAGAAAATAAGTGGTTTAGTGGTTTCACTGACGGCCGTTTTCGCCTGTGCCGCCTGGGCGGAGGTGCCTGCGGGCTATCCGGCGGATTATCAAAAAACGGTTGATGCCGCCGTCAAAGAGGGCAAGGTGGTGATCTATTCCACAACCGATACCAAAGCGGCCGGGCCGTTAATTAAAGGATTTGAAGCGCAATATCCGGGCGTAAAAGTCGAATATAACGACATGAACAGCACCGAGCTGTATAACCGCTATATCAGCGAGCAGGCCGCCGGGGGCGGCAGCGGGGACGTGGTGTGGAGCTCATCGATGGATACCGCGCTGAAATTAGCCACCGAGTACGCGGAACAATATGCCTCGCCGGAGGTGAAGCAATTACCCGACTGGGCGGTGTGGCAGCAGAAAGCCTATGGCACCACCTACGAGCCGGTGGTATTTATCTATAACAAACGGCTGATCCCGCAGAATGAGGTGCCGGACTCGCACACCGCGCTGGCCAAATTGATCGCCAGCCAGGCCGATAAATTTAAAGGCAAAGTCACCACCTACGATATCGAAAAATCGGGCCTCGGCTTTATGCTGGCGGTCCAGGACAGCCAGGCCGACGCGAACTATTTTACCGACCTGGCGAATATCGCTAAAGGCGGCCTGACGGTGCAGTCTTCCACCGGCACGATGATGGAGCGCGTCTCCTCTGGCGAAAACCTGATCGGCTATAACATTCTTGGCTCCTATGCCGAAGCGCGGGCGAAAAACGATCCCTCTTTAGGCATCGCCTATCCGAAAGATTACGTGCTGGTGCTCTCCCGCGTCTCGTTTATTAGCCAGGAGAGCGAACATCCCAATGCGGCGAAATTGTGGCTGGATTATGTCCTGTCGGAAAAAGGCCAACAGATCCTCGCCAGCCAGGCGGATATTCCCTCTCTTCGTCGCGATATTGAAGGCAAAAATGATATCGACGGCATGACCACGCTGCTGGGCAAAGCGTTAAAACCGATCCCGGTCAACGAAACGTTGCTGGATTATTTACAGCCGCAAAAACGTCTGCAGTTTATTAAACAATGGCGCAGCGCCGCCGCGAAATAA	MYKKISGLVVSLTAVFACAAWAEVPAGYPADYQKTVDAAVKEGKVVIYSTTDTKAAGPLIKGFEAQYPGVKVEYNDMNSTELYNRYISEQAAGGGSGDVVWSSSMDTALKLATEYAEQYASPEVKQLPDWAVWQQKAYGTTYEPVVFIYNKRLIPQNEVPDSHTALAKLIASQADKFKGKVTTYDIEKSGLGFMLAVQDSQADANYFTDLANIAKGGLTVQSSTGTMMERVSSGENLIGYNILGSYAEARAKNDPSLGIAYPKDYVLVLSRVSFISQESEHPNAAKLWLDYVLSEKGQQILASQADIPSLRRDIEGKNDIDGMTTLLGKALKPIPVNETLLDYLQPQKRLQFIKQWRSAAAK	PGPT0003725_949	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
BMS020_00716	1080	hcxB	COG2055	Hydroxycarboxylate dehydrogenase B	GTGCCAACAGGACACCGCTTTCTGGCGACGGATCTGCATCAGTTTGTCGTCTCACTGTTTACCCATCTCGGCAGCCGCTCAGAAGAAGCGACGCTGGTCGCCGACCATCTGATCGCCGCCAACCTGGCCGGGCATGACTCCCATGGCGTCGGGATGATCCCAAGCTATGTCAAATCCCACGCCGGCGGCTTTCTGCAGCTCAACCGCCACGCCACGGTCACCAAAGACGCCGGCGCCGTGGTCACCCTCGACGGCAACGCCGGCTTCGGCCAGGTGGTCGCCCACGAAGCGATGCAGTTAGGCATCGAAAAGGCGAAGCAGCACGGCATGGCGGCTATCGCCCTGCGCAATGCGCATCACGTCGGACGCATCGGCTACTGGGCGGAGCAGTGCGCCGCCGCCGGGCTGATCTCCATTCACTTCGTCAGCGTGATCGGCGACCCGATGGTCGCCCCGTTCCGCGGAAAAGACAGCCGCTTCGGCACTAACCCGCTGTGCGTGGTGTTTCCCCGCGCGGGCCATCCGCCGCTGCTGCTGGACTACGCCACCAGCGCCATCGCCTTTGGTAAAACCCGCGTCGCCTGGCACAAAGGAGAAGCCGTGGCGCCCGGCTGCCTGATCGACGCCCAGGGGCTGCCCACCACCGACCCGGCGGTGATGCAGACCTCGCCGCTGGGCGCCCTGCTCACCTTCGCCCAGCACAAAGGCTATGCCCTGGCGACACTGTGCGAAGTGCTCGGCGGCGCGCTCTCCGGGGGGCAAACCACCCATCAGGAAAGCCTGCAGACCAGCGTCGACGCCATCTTTAACTGCATGACCACCGTGATCCTGCGACCGGACGCGTTCGATGCCCCGGACAGCCAGGCGCAGACGGAGGCCTTTATCGCATGGTGTAAACAGTCGCCGCACGATCCCGATGCCCCGGTGCTGGCCCCCGGCGAATGGGAGGCCGCCAACCGCGAAGCGCGTCTGGCCGAGGGGATCCCGCTGGATGCAGGCAGCTGGCAGGCAATCTGCGCCGCCGCGCGCGACGTCGGCCTGAGCGAGTCGCATATCGCCCGCTGCCGCCCTCTCGCGTAG	MPTGHRFLATDLHQFVVSLFTHLGSRSEEATLVADHLIAANLAGHDSHGVGMIPSYVKSHAGGFLQLNRHATVTKDAGAVVTLDGNAGFGQVVAHEAMQLGIEKAKQHGMAAIALRNAHHVGRIGYWAEQCAAAGLISIHFVSVIGDPMVAPFRGKDSRFGTNPLCVVFPRAGHPPLLLDYATSAIAFGKTRVAWHKGEAVAPGCLIDAQGLPTTDPAVMQTSPLGALLTFAQHKGYALATLCEVLGGALSGGQTTHQESLQTSVDAIFNCMTTVILRPDAFDAPDSQAQTEAFIAWCKQSPHDPDAPVLAPGEWEAANREARLAEGIPLDAGSWQAICAAARDVGLSESHIARCRPLA	PGPT0013250_186	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013250-hcxB|ybiC-K13574	NA	NA
BMS020_00717	2151	fdhF_1	COG0243	Formate dehydrogenase H	ATGAAAAAAATCACGAGCGTGTGCCCCTACTGCGGGGCGGGTTGCAAACTTAAACTGGTTGTCGACAACAATAAAATCATTCGCGCGGAAGCCGCCGACGGCGTCACCAACCAGAACCAGCTGTGCCTGAAAGGCTATTACGGCTGGGATTTTCTTAACGACACGCAGCTCCTGACGCCCCGTCTTAAACAACCGATGATCCGCTACCAGAAAGGCGGCGCTTTCACGCCGGTCAGCTGGCAGGAGGCGATTCGCTATACCGCCAGCAAGCTCAGGGAGATCAAAGAGAAGCATGGCCCGCGCGCCATCATGACCACCGGCTCCTCGCGCGGCACCGGCAACGAAACCAACTATGTGATGCAAAAGTTCGCCCGCGCGGTGCTGAACACCAACAACGTCGACTGCTGCGCCCGCGTCTGCCATGGCCCTTCCGTCGCCGGGCTGCAGCAGGCGCTGGGCAACGGGGCGATGAGCAACTCGATAAGCGACATCGAAAACTCGAAGTGCCTGTTGGTCTTTGGCTACAACTGCGCCGACTCCCATCCCATCGTCGCCCGCCGGGTGATCAAAGCCCGGGAAAACGGCGCCAAAATCATCGTCTGCGATCCGCGACGCATTGAAACCGCACGCATAGCCGACCGTCATCTGCAGCTTAACAACGGCAGCAACATGGCGCTGGTGAACGCCTTCGGCTATGTATTGCTGGAAGAAGAGCTGTACAACAAAGCCTATGTCGAACGCTATACCGAAGGGCTGGATGCCTACCGCGAGGCGGTGAAAGATTACGCCCCGGAAGCAGTGGAAGGGATTGTCGGGGTCAGCGCGCAGGCGATCCGCGAGGCAATGCGCATGTTTGCCGCCGCCCCTTCCGCCACCATTATGTGGGGCATGGGGGTCACCCAGTTTGGCCAGGCGGTGGATGTGGTGCGCGGCCTGGCAAGCCTGGCGCTGCTCACCGGCAACCTGGGACGGGCGAACGTCGGCGTGGGCCCGGTCCGTGGGCAAAACAATGTACAGGGCGCCTGCGATATGGGCGTGCTGCCGAACCTGTTCCCCGGCTATCAGGAGGTCACCGACCCGGCCGTGCGGGCGAAATTCGCCGCCGCCTGGGGGATCGACCCGGCGCAGATGGATGACCAGGTCGGCACCCGCATCACCGAGGTGCCGCATAAGGCGCTGACGGGCGAGATCAAAGCCTACTACATCATGGGCGAAGATCCGCTGCAGACCGAAGCCGACCTCGGCCTGGTGCGCAAGGGCATCGAGGCGCTGGACTTCGTGGTGGTGCAGGATATCTTCATGACCAAAACGGCGGAGATTGCCGATGTCCTGCTGCCGGCCACCTCATGGGGCGAGCACGGCGGCGTCTTCACCTGCGCCGACCGCGGGTTTCAGCGGTTTGAACAGGCGATCCCGCCGGCGGGGAATGTGAAGCGCGACTGGGAGATCATCAGTCTGCTGGCCAGCGAAATGGGCTATCCGATGCACTATGAGAGCAACCAGCAGATCTGGGACGAGATGCGCGAGCTCTGCCCGCTGTTCTACGGCGTGACCTGGGAGAAAATGGGCGATATGGGCCATGTTCAGTGGCCATGCCCGACCCTTGACCACCCCGGCACGCCGTGGCTGTATAAAGACAACCGCTTCGACACCCCATCAGGTAAAGGGCAGCTGTTCGCCACCGCCTGGCGCGCGCCGGCGGAGCGTCCGGATGATGAATGGCCGCTGGTGCTCTGCACAGTGCGGGAGGTGGGGCACTACTCCTGCCGCTCGATGACCGGCAACTGCGCCGCGCTGCAGTCGCTGGCCGACGAGCCGGGACGGGTGCAGATGAATCCCGTGGATGCGCAACGGCTGGGGATCGCCGACAAACAGCTGGTGTGGGTAAGCTCCCGGCGCGGAAAGGTCATCACCCGCGCCGACCTCAGCGATCGCATCAACCCGGGCGCGGTCTATATGACCTATCAGTGGTGGGTGGGCGCCTGTAATGAACTGACCCAGGATAACCTGGACCCAATCTCCAAAACGCCGGAAACCAAATACTGTGCGGTGAAAGTGGAAGCGATTGCCGACCAGCAGTGGGCGGAGCGCTATGCCTGGACCGCCTACAGCGACATGAAGGCGCGACTGAAAGCCGCCGCCGACGTCTGA	MKKITSVCPYCGAGCKLKLVVDNNKIIRAEAADGVTNQNQLCLKGYYGWDFLNDTQLLTPRLKQPMIRYQKGGAFTPVSWQEAIRYTASKLREIKEKHGPRAIMTTGSSRGTGNETNYVMQKFARAVLNTNNVDCCARVCHGPSVAGLQQALGNGAMSNSISDIENSKCLLVFGYNCADSHPIVARRVIKARENGAKIIVCDPRRIETARIADRHLQLNNGSNMALVNAFGYVLLEEELYNKAYVERYTEGLDAYREAVKDYAPEAVEGIVGVSAQAIREAMRMFAAAPSATIMWGMGVTQFGQAVDVVRGLASLALLTGNLGRANVGVGPVRGQNNVQGACDMGVLPNLFPGYQEVTDPAVRAKFAAAWGIDPAQMDDQVGTRITEVPHKALTGEIKAYYIMGEDPLQTEADLGLVRKGIEALDFVVVQDIFMTKTAEIADVLLPATSWGEHGGVFTCADRGFQRFEQAIPPAGNVKRDWEIISLLASEMGYPMHYESNQQIWDEMRELCPLFYGVTWEKMGDMGHVQWPCPTLDHPGTPWLYKDNRFDTPSGKGQLFATAWRAPAERPDDEWPLVLCTVREVGHYSCRSMTGNCAALQSLADEPGRVQMNPVDAQRLGIADKQLVWVSSRRGKVITRADLSDRINPGAVYMTYQWWVGACNELTQDNLDPISKTPETKYCAVKVEAIADQQWAERYAWTAYSDMKARLKAAADV	PGPT0019640_95	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019640-fdhF-K22015	NA	NA
BMS020_00718	1158	hipO_1	COG1473	Hippurate hydrolase	ATGGCCGTATCGCCGTCACTGATCGCCGAAGCCACAGGCTGGCGACGTGAGTTTCACGCCGCGCCTGAGCTCGGATATCAGGAGCAGGAGACCTCGCGCCGCGTCGCCGAGCTGCTGGTCTCGTTTGGCCTGCAGGTTCATCGCGGGCTGGCCGGCACCGGCGTCGTGGCGACGCTGGAAAACGGCCCCGGGCCGGTCATCGGCCTGCGCGCCGATATGGACGCCCTGCCGATCACCGAGCTGGGGAGCGTCAGCTACCGTTCGCGACGCGCCGGGGTAATGCACGCCTGCGGCCACGATGGCCACACCGCGATGCTGCTGGCGGCCGCGGCTCATCTGGCGCAGACCCGCCAGTTCAGCGGTACCGTCCACTTTGTCTTCCAGCCGGCGGAAGAGAACCTTGGCGGCGCGCGCAAAATGGTGGAAGAGGGGTTATTCGAACGCTTCCCGATGGATGCGATTTACGCGCTGCATAACTGGCCGGGGATCCCCCTCGGCGAAGTGGCGCTCAGCGATGGCGCGATGATGGCTTCCCTCGACGCCTTCGAGATCACCCTGCGCGGCAAAAGTTGCCATGCGGCGATGCCGGAGAGCGGGGCCGATCCCATCGTCGCCGCGGCGCAGTTGATTATGGCGCTGCAGACCATCCCCTCCCGTCGCCTGTCGCCACAGGATTCCGCGGTGGTCAGCATCACCCAGATAAACGGCGGCGAGGCGATCAACGTCCTGCCGGACACCGTGGTGCTGCGCGGCACCTTCCGCTGCCTGAGCAACCGCGTTCGCGCCCGCGTGCGGGAGCTTATCGAAAGCTATGTGGCCACCCAGCCGCAGGTGTCCGATGTCCGGGGCGAGATTAGCTGGTTTCCCGGGTATCCGGTGACCAAAAACCATGCGCCGCAGGCGCAGCTGCTGCGCGAGGTGGCGGTCGCCACCCTCGGCGCGGAAGCGGTGCGCTGGAACCAGGCGCCGTCGATGGCCTCTGAGGATTTTGCCTGCATGCTGGAGGTCTGTCCGGGGGCCTATTTCTGGATCGGCACCGATGGTGAAACGCCGTCGAAGCCGTTGCATAACGCCAGCTATGACTTTAACGACGCGCTGATTAGCCACGGGGTGGCGATGTGGGTGGCGCTGGTGGAGAAACAGCTGCCGGCGGCGTAA	MAVSPSLIAEATGWRREFHAAPELGYQEQETSRRVAELLVSFGLQVHRGLAGTGVVATLENGPGPVIGLRADMDALPITELGSVSYRSRRAGVMHACGHDGHTAMLLAAAAHLAQTRQFSGTVHFVFQPAEENLGGARKMVEEGLFERFPMDAIYALHNWPGIPLGEVALSDGAMMASLDAFEITLRGKSCHAAMPESGADPIVAAAQLIMALQTIPSRRLSPQDSAVVSITQINGGEAINVLPDTVVLRGTFRCLSNRVRARVRELIESYVATQPQVSDVRGEISWFPGYPVTKNHAPQAQLLREVAVATLGAEAVRWNQAPSMASEDFACMLEVCPGAYFWIGTDGETPSKPLHNASYDFNDALISHGVAMWVALVEKQLPAA				NA	NA	NA	NA	NA
BMS020_00719	1200	ycaD_1		putative MFS-type transporter YcaD	ATGTTTAACCCAGACCAGAATCGTCTTGCCCCCACGCTGGCGATGATCATGGCCGCGTCGCTCGTGGGATTTATCACCGGCTATACGGTGCCGTTAATCAGTCTTGAGCTGGCGCAGCAGCAGGTTGCGCCGCTGTACGTCGGCCTGCTGGCCGCCCTGCCGCCCGCCGGCATGATGATCTCCTCTTTCCTCTCTCCTGCGCTGTGCCGGCGCGTTGAGATGGGCGTGCTGCTGAGCGGCAGTCTGATCCTGCTGGCGCTGGCGACCATCGCCTCATGCATGACCACCGATATGACGCTGCTTCTGCTGCCGCGCCTGCTGACCGGCCTGGCCTCCGGGGTCATTATCGTACTGGGCGAAAGCTGGATCACCGGCGGCGCGGCGGGCAGCCAGCGCGCCACCCTCACCGGCATCTACGCCTCGGCCTTTACCGGCTGTCAGCTGGCCGGACCGCTGCTGATCTCCGTCGGCCCCGCCTGGCAGGCCTCGGCGCTGATGGCGATCGTCGCGGTCACCGCCGTCTGCCTGCTGATGCTGCGCCATCTGCCCACCGGCACCCGCGAAAGCCTTGGGGAGCGCGCCAGCTGGCGCAGCCTCGGCGCCTTCCTGCCGGTACTGGCCTCCGGGGTGTTCTGCTTCGCCTTCTTCGACGCCAGCATCCTCGCCCTGCTGCCGCTGTATGGCATGGACAAGGGGCTTAATGAAGGAATGGCGGTGCTGCTGGTGACCGTGGTGCTTACCGGAGATGCGATGTTCCAGACCCCGCTCGGCTGGCTGGCCGACCGGGTCGGCATTCGCCGCGTGCATCTGGCCTGCGCGGTGGTCTTCAGCCTGTCGCTGCTGGCCCTGCCGCTGATGCTCGGCTCACGCATTCAGCTGATGGCCATTTGTCTGCTGCTGGGCGCCGCGGCGGGGGCGCTGTATACCCTGTCGCTGGTGCGGGCGGGGAAAACCTTTAGCGGACAGAAGCTAATTATGATTAACGCCCTGTTCGGCTTTTTCTGGTCCGCCGGCAGCGTCGCCGGACCGGTAGTCAGCGGCATGCTGATCGGCATCACCGGCTACGATGGCCTGATCGCCACCCTGGTAGCCAGCGGCGGGCTGTTCCTGCTGATCCAGTGTCTGTGTAAAAACGAGAAAACCCTGCTCGCCAGCGAGCAGGAAGAGGACATGGACGAAGCGACGGAGTCCGCGCAGTAG	MFNPDQNRLAPTLAMIMAASLVGFITGYTVPLISLELAQQQVAPLYVGLLAALPPAGMMISSFLSPALCRRVEMGVLLSGSLILLALATIASCMTTDMTLLLLPRLLTGLASGVIIVLGESWITGGAAGSQRATLTGIYASAFTGCQLAGPLLISVGPAWQASALMAIVAVTAVCLLMLRHLPTGTRESLGERASWRSLGAFLPVLASGVFCFAFFDASILALLPLYGMDKGLNEGMAVLLVTVVLTGDAMFQTPLGWLADRVGIRRVHLACAVVFSLSLLALPLMLGSRIQLMAICLLLGAAAGALYTLSLVRAGKTFSGQKLIMINALFGFFWSAGSVAGPVVSGMLIGITGYDGLIATLVASGGLFLLIQCLCKNEKTLLASEQEEDMDEATESAQ				NA	NA	NA	NA	NA
BMS020_00720	435			hypothetical protein	ATGGAAAGCAATACCTTACATCGTGGCAGATTGATCGATCATATTCTGCTGGTTGTCGAAGACTTTGAGGCAAGCAAAAACTTCTATACCGCCGTACTGTCGGCGCTGGAGATCCCGGCGATCGCCACCGCCAATGAATACTTGCTGGCTGACGAACTGGTGGTGGCCTCACGCCACAGCCCGGAGGCCGCCGGGAAACTGACTGGGCGCCACCATCTGGCGTTCCAGGCCAGAGATCGCCACATGGTGGACGCTTTTTACCATGCGGCGCTGACCCATGGCGGACGCGATAACGGCGCGCCTGGCGAACGACACTATCATCCTGGTTACTATGCCGCTTTTGTGCTGGATCCGCAGGGGAATAATATTGAGGCGGTGTACCATGGCGAGGCTGAGCGCAGCGCCGGGTCTGTTGCCATCCGCTTCAGGCAGTAA	MESNTLHRGRLIDHILLVVEDFEASKNFYTAVLSALEIPAIATANEYLLADELVVASRHSPEAAGKLTGRHHLAFQARDRHMVDAFYHAALTHGGRDNGAPGERHYHPGYYAAFVLDPQGNNIEAVYHGEAERSAGSVAIRFRQ	PGPT0013300_3192	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
BMS020_00721	387			hypothetical protein	ATGTTTTCATACATTATGCTGGGAACGAACGATCTACCACGCGCCATCGAGTTCTATGACCCGTTAATGGCATTGCTGGGGCACGCCAAAGCCGGCCGTAACGAACAAGGCGCCTCATGGGGCACCTTCAACGGCAACCAGACCTGCGGGCTGTGCGTGGGCGTCCCCTTTGATCAGCAGCCTGCCGGGGTGGGCAATGGAACGATGGTGGCGCTTAACGCCCGCTCCGTCGAACATATTGCGGAACTGCATGCCCTAGCCCTGCAACTCGGCGGACGTGACGAAGGCGCGCCCGGTCACCGTCCGCAGTACGGCGACGGCTTTCACAGCGCCTACGTCCGCGATCCCGACGGCAATAAGCTGGCGTTTGTTTATTATGCGCGGTGA	MFSYIMLGTNDLPRAIEFYDPLMALLGHAKAGRNEQGASWGTFNGNQTCGLCVGVPFDQQPAGVGNGTMVALNARSVEHIAELHALALQLGGRDEGAPGHRPQYGDGFHSAYVRDPDGNKLAFVYYAR				NA	NA	NA	NA	NA
BMS020_00722	327			hypothetical protein	ATGGAAAAGAATTTCACGCCTGAGCAAATTGACTTTATCAATCGCGTTGTCTTCAAGCATATCGATAAAATGACTGCGGAAGTCGCTAATATTGTTGAACAAACAGAAAAAGCCGCACACCAGGAACTTGCGGAGCATGGCATTGATATGACAGAGTTTTATCCTGCCAATCAGCCGTTTTTGATGATGACAATCGTCCAGACGTTGATAGACCGGGTGCACGGTGGGGACATGGCGCTTGCGCAAAAAATGATAACGATGGAAGCCAAAAGATTGAATGTCAGCGTAAATGTCGAGGCGGATAAATCAAGCGTATCGGGGCATTAA	MEKNFTPEQIDFINRVVFKHIDKMTAEVANIVEQTEKAAHQELAEHGIDMTEFYPANQPFLMMTIVQTLIDRVHGGDMALAQKMITMEAKRLNVSVNVEADKSSVSGH				NA	NA	NA	NA	NA
BMS020_00723	723	glnQ_3		Glutamine transport ATP-binding protein GlnQ	GTGATTCACATTAATAACTTACATAAGCGCTTCGGCGACAGCCACGTGCTGCGCGGCATCAGCTGCGACATTAAACCGCAGGAAGTGGTGTGCATCATCGGCCCCTCCGGATCGGGGAAAAGTACCTTTCTGCGCTGTATGAACGCCCTCGAGACGGTCAGCGAAGGCGAGGTGGTGGTCAACGGCTTTGCCGCCCACGACCGCACTACCGACCTCAACAAGATGCGCGAAAGCGTCGGCATGGTGTTCCAGCGCTTTAACCTGTTCCCGCACATGACGGTGCTGGAAAACCTGATTATGGCGCCGATGAATCTGCGCAATATGCCGCGCCAGCAGGCGGTCGACCTGGCGGAAGCCTTGCTGGCGAAGGTGGGCTTAAGCGATAAGCGCGACGCCTGGCCCTCGAGCCTGTCCGGCGGCCAGCAGCAGCGCGTCGCGATTGCCCGCGCGCTGGCGATGAAGCCGTCGATAATGCTGTTCGATGAGCCCACCTCGGCGCTGGATCCGGAGCTGGTGGGCGACGTGCTGGAGGTGATGAAAAACCTCGCCAGCGAGGGGATGACCATGGTGATCGTGACCCACGAAATGGGCTTTGCCCGCGAAGTGGCCGACCGGGTGATCTTCATCGACCAGGGCGTGATTCAGGAAGAGGGCAAGCCGGGGCAGATCTTTAGCGCGCCGACCAATCCGCGCACCGCCGCGTTCCTCAGCAAGGTGCTGTAA	MIHINNLHKRFGDSHVLRGISCDIKPQEVVCIIGPSGSGKSTFLRCMNALETVSEGEVVVNGFAAHDRTTDLNKMRESVGMVFQRFNLFPHMTVLENLIMAPMNLRNMPRQQAVDLAEALLAKVGLSDKRDAWPSSLSGGQQQRVAIARALAMKPSIMLFDEPTSALDPELVGDVLEVMKNLASEGMTMVIVTHEMGFAREVADRVIFIDQGVIQEEGKPGQIFSAPTNPRTAAFLSKVL	PGPT0020790_5276	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
BMS020_00724	765	artQ_1	COG0765	Arginine transport system permease protein ArtQ	ATGACGGGATTCCGTTGGGAGATCATCGAGGAGTACGGCCCGCTGTTTGTGGACGGCGCCCTGATGACGATTAAATGTACCATTATCTGCGTGATCCTCGGGACGCTGTGGGGGTTAACCCTCGGTCTCGGACGGATGGCGAAGGCCGAGCACGGGCCATGGAAATATATTCTCCGCTACCTGGTGCAGTTTCCGGTGCGCTTTTACGTTAGCGCCTTCCGCGGTACGCCGCTGTTCGTGCAGATCATGGTGGTGCACTTTGCGCTGGTGCCGCTGTTTATTAACCCGCGCGACGGCCTGCTGGTGACCAGCGGCCTGATGAGCGCCGACTTTGCCCGCGAGCTGCGCGCCAGCTACGGGGCGTTCCTCTCCTGCATTGTGGCGATCACCCTTAACGCTGGAGCCTATGTGTCGGAGATTTTCCGCGCCGGCATCCAGTCGATCGACAAAGGGCAGATGGAGGCCTCCCGCGCGCTGGGCATGCCGTGGTGGAAAACCATGCGCAAGGTGATCCTGCCCCAGGCGTTTCGTCGCATTCTGCCGCCGCTGGGCAACAACGCCATCGCCATAGTCAAAGACTCGTCGCTGGCCTCGGCGATAGGCCTGGCCGATCTGGCCTACGCCGCGCGCACCGTCTCCGGTGCCTACGCCACCTACTGGGAACCCTACCTGACCATCTCCCTGGTCTACTGGGTGATCACCTTCCTGCTGGCGCAGCTGGTTAACCGTCTGGAAAAGAGGTTTGGCAAAAGTGATTCACATTAA	MTGFRWEIIEEYGPLFVDGALMTIKCTIICVILGTLWGLTLGLGRMAKAEHGPWKYILRYLVQFPVRFYVSAFRGTPLFVQIMVVHFALVPLFINPRDGLLVTSGLMSADFARELRASYGAFLSCIVAITLNAGAYVSEIFRAGIQSIDKGQMEASRALGMPWWKTMRKVILPQAFRRILPPLGNNAIAIVKDSSLASAIGLADLAYAARTVSGAYATYWEPYLTISLVYWVITFLLAQLVNRLEKRFGKSDSH	PGPT0020795_3834	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
BMS020_00725	768	glnH_1	COG0834	Glutamine-binding periplasmic protein	ATGGTTAAGAATTTGCTCAAAGCGTGTTTCATGATGGCCGCGCTGACGGCAGCCGGACAGGCGGCTGCGGAAACCTACACCGTCGGCTCCGGCGGCACCTACCGGCCATTTGAATTTGAAAACAGCCAGAAACAGCTGGAAGGTTTTGATATCGACATCATCAAAGCCATCGCCAAAGCCGAAGGCTTTGACGTCAAACTGGTCAATACCCCATGGGAAGGTATCTTCGCCACGCTGAACACCGGCGACCGCGACATCATCATCTCCGGGATCACCATCACTGATAAACGCAAACAGATGGTCGATTTCTCCGCGCCGTACTTCCCGGCCGAGCAGTCTATCGTCGTCGCCCAGGATTCGCAGGTCGATTCCCTCGCGGCCCTGAAAAACGAGAAGGTCGGGGTGGTGAACTCCAGCACCGGCGATATCGTGGTCTCTGAGGTACTGGGCAAAAACAGCACGGCGATCAAGCGCTTCGACAATACCCCGCTGATGCTCCAGGAGCTGTTCGAGGACGGCGTCAGCGCCGCGGTGGGTGACGTCGGGGTGGTGAAGTACTACATCAAACAGCACCCGGAGAAGCAGTTCAAGCTGGTGCCGGATGCCAAATTTGAACGCCAGTATTTCGGTATCGCGGTGGCGAAAGGCAACAGCGAACTGCTGGGTAAAATCAACGCCGGTCTGCAGAAGATTGTTGCCGACGGAACTTACGCCAAAATCTATAAAACCTGGTTCGACGACAACGTGCCGACGCTGCCAGCGCAATAA	MVKNLLKACFMMAALTAAGQAAAETYTVGSGGTYRPFEFENSQKQLEGFDIDIIKAIAKAEGFDVKLVNTPWEGIFATLNTGDRDIIISGITITDKRKQMVDFSAPYFPAEQSIVVAQDSQVDSLAALKNEKVGVVNSSTGDIVVSEVLGKNSTAIKRFDNTPLMLQELFEDGVSAAVGDVGVVKYYIKQHPEKQFKLVPDAKFERQYFGIAVAKGNSELLGKINAGLQKIVADGTYAKIYKTWFDDNVPTLPAQ	PGPT0020800_13284	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
BMS020_00726	903			hypothetical protein	ATGAAAAGCGCGGTAAAAAAAGAGAAGGGGCGGGTCGACCTGTTCGGCGAACGCTATCGCGCCCGGGCGCATCAGCTCTCTCCCCGCCTGCGGGCCGTGGTCAGCTATATCAACGACAACCGCGAGGTGGTGCTGGAGCAGACGGCGATGGAGATCGCCACCGCGACCCAGACCTCTGACGCCACGGTGGTGCGCGCCATCCAGGCGCTGGGCTTCGCCGGGCTGCGCGAACTTAAGCAGACTATGGAGCGCTGGTTCGGTACCTCGGTCACCTCGGCGGAAAAGATGCGCTCGACGGTCACCGCACTCGCCAGCGACGTCAATTCCAGTATTGATTTTGTGCTTGAAGGGCACCAGCGGGTCTGCGAGGTCCTGTCGCGGGCCGACAACCGCGCGGCGGTGGCCCAGGCGGTGGCGTTGCTCAGCGACGCGCGCCAGGTGGGGATCTTCGGCATCGGCGCCTCGGGGATCCTCGCCGAGTACACCGCCCGGCTGTTCAGCCGCATTGGCCTGCCGGCTTACGTGATGAACCGCACGGGCTTTAGCCTCGCCGAACAGCTTATCGGCCTGCAGCGCGGCGATGTGCTGATCATGATGGGGCAAAAATCCCCCCATCGCGAAGGGATGACCACCCTGCGCGAGGCGAAGCGGCTGGGAATTCCGACCATCCTGCTGACCCAGGCGGTGGACTCGCGCTTCAGCCAGGAGGCGCAGGTGGTGATCGACGTCCCGCGCGGCGGGGACAGTAGCCGGATGCCGCTGCACGGCACGGTGCTGGTCTGTCTGGAGATGATTGTCCTGTCGGTGGCCTCGACCACGCCACAAAAAACGGTGAAATCCCTGAAGCGAATCAACGACCTGCACCGGGCCATCGGTAAATCCGGCGGTAAACGGGCCAGTTGA	MKSAVKKEKGRVDLFGERYRARAHQLSPRLRAVVSYINDNREVVLEQTAMEIATATQTSDATVVRAIQALGFAGLRELKQTMERWFGTSVTSAEKMRSTVTALASDVNSSIDFVLEGHQRVCEVLSRADNRAAVAQAVALLSDARQVGIFGIGASGILAEYTARLFSRIGLPAYVMNRTGFSLAEQLIGLQRGDVLIMMGQKSPHREGMTTLREAKRLGIPTILLTQAVDSRFSQEAQVVIDVPRGGDSSRMPLHGTVLVCLEMIVLSVASTTPQKTVKSLKRINDLHRAIGKSGGKRAS				NA	NA	NA	NA	NA
BMS020_00727	954	yfiY	COG0614	putative siderophore-binding lipoprotein YfiY	ATGCGTTGGTTCGTCTCATTGCTGCTGTTGCTGACGGGGGCCGTCAGCGCCGCCGACCCACAAACTCAGACTTTTACCGATGATTTAGGCCGCACGGTCACCGTCCCGCTCCATCCGCAGCGTATCGTTTCGATGCACGATCTCGACATTACCATTCCGCTGATTGAGCTCGGGGCGCCGCCCATCGCCAGCCACGGCCGGACGCGGCCGGACGGCAGCCACTATCTGCGCTCCAGCGCCCAGCTCACCGGCGTCGATTTCGACAATAGCGATATCCGCTTTATTGGCACCGCCGATATCGATCTGGAAGCGGTGGCCGCCGCCAGGCCGGATCTGATCATCACCGAGCCCAGCCGTCACGTGTCGGTGGAGCAGCTGGAGAAGATTGCCCCGACGGTGAGCATCGACCATCTGCAGGGCAGCGCCCCGGAAATTTACCGCAAGCTGGCGCAGCTGACCGGCACCCAGCCGCGGCTGGCGATCCTCGAGCGCCGCTATCAGGAGCAAATCAAGCAGCTGAAAGCGATGGTCAACCCGTCGCAGTACAGCGTCTCGGTGATCCAGGCGAACAACGGCAAGGTCACGGTGCATCATTCTTACCACGCGCTGGGCCGGGTGCTGCGCGACGCCGGGTTCCGCTTTCCGCCGTTGATTGAGCGGATCCCCGACGGCCAGCGAATTGACGTCAGCGCGGAACAGCTGCCGGAGCTGGACGCCGATTTTGTCTTCGCCACCTGGCGGTCGGATACCGGCGGTAAGCCGCAGGATGAGCTGCAGGCGATGGAAGGCGTGATGCCCGGCTGGTGCGACTTTATGCGCGCCTGCCGCACCGGGCGCTATATTTTGCTGCCGCGGGAGGAGGTGATCTCCAACTCCTACGCCGCGCTCTCCCTGATGGTGGCCCAGGTGCAGTCGCATATTGCCGGCAGGCCGATCCCGGCGGAGGCCAAATGA	MRWFVSLLLLLTGAVSAADPQTQTFTDDLGRTVTVPLHPQRIVSMHDLDITIPLIELGAPPIASHGRTRPDGSHYLRSSAQLTGVDFDNSDIRFIGTADIDLEAVAAARPDLIITEPSRHVSVEQLEKIAPTVSIDHLQGSAPEIYRKLAQLTGTQPRLAILERRYQEQIKQLKAMVNPSQYSVSVIQANNGKVTVHHSYHALGRVLRDAGFRFPPLIERIPDGQRIDVSAEQLPELDADFVFATWRSDTGGKPQDELQAMEGVMPGWCDFMRACRTGRYILLPREEVISNSYAALSLMVAQVQSHIAGRPIPAEAK	PGPT0003765_8276	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
BMS020_00728	1053	feuC_1	COG0609	Iron-uptake system permease protein FeuC	ATGATGCGCGCCGTCCATCGGGCCGGCTTTCGGCCGCTGGTTTTCGCTTCCCGCCAGCTGCTGCTGCGCCCGGCGGCGCTTAACATTGCCGCCTTAATGCTGCTGATGCTGCTGGCGCTGGGGCTGTACAGCCTCAGCCGCGGCAGCTATCCGCTGCCCGCGTCGACGCTGGCGCGGGCCCTGCTGGCGCCGCAGGAGATTGGCGAGCAGCCGCGCTTTATTCTGTTTGATATCCGCCTGCCGCGGATCCTGATGGCGCTGCTGTGCGGGGCTATGCTGGGGCTGGCCGGCGCGGCGATGCAGAGCATCACCCGCAACGGGCTGGCCGACCCGGGGCTGATCGGCGTCAAAGAGGGAGCCAGCATCGTGGTCCTGGCGCTGGTGCTGTTTTTCCCGGCGGTAGGCCTGGTCTGGCGGCCGCTGGCGGGAATGGTCGGCGGCGTGGCGGTGGCCCTGCTGGTCCTGACGCTGGCGCGCGATTGCTCGCGACCGCGCTTTATTTTAATTGGCGTCGGCGTCTCCTGGACCCTGGCGGCGGCGGTCGGCATCTTTATGACCACCGCCGACGTTCGCGACGTGCAGACGGCGATGATCTGGCTGGCGGGCAGCCTGCAGGCCGCCACCTGGCCGCTGCTGGCGGTGGCCTTTTGCTGGGCGCTGCCCGGAGCCATCATCCTGTTCTGTACCGCCCGGGCGGCGGACGCGGCGCTGCTGGGCGACCGGACCGCCATCGGCCTTGGGGTGCGTCTGCAGCAGCTCACGCTGCTGCGCTTTTTCGCCCCGGTGCTGCTGACCTCGGCCAGTGTCTCCTGCGTCGGCAGCCTGGGCTTTGTTGGCCTGATGGCGCCGCATATGGCGCGTTTTGTGCTGCGCGGCGGCCAGGTATCGCTGCTGAGCGGAAGCGCGCTGATTGGCGCCTTGCTGGTGCTGGTGACCGATACCCTTGGCCGGCTGGCGTTTGCGCCGCTGCAGATCCCGGCGGGGATTGTTATTGCCCTGGTGGGCTGCCCGTTTTTTGTTGTCTTACTCTGGCGTCGCCGCGATGCCCTTTAA	MMRAVHRAGFRPLVFASRQLLLRPAALNIAALMLLMLLALGLYSLSRGSYPLPASTLARALLAPQEIGEQPRFILFDIRLPRILMALLCGAMLGLAGAAMQSITRNGLADPGLIGVKEGASIVVLALVLFFPAVGLVWRPLAGMVGGVAVALLVLTLARDCSRPRFILIGVGVSWTLAAAVGIFMTTADVRDVQTAMIWLAGSLQAATWPLLAVAFCWALPGAIILFCTARAADAALLGDRTAIGLGVRLQQLTLLRFFAPVLLTSASVSCVGSLGFVGLMAPHMARFVLRGGQVSLLSGSALIGALLVLVTDTLGRLAFAPLQIPAGIVIALVGCPFFVVLLWRRRDAL	PGPT0003770_3076	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
BMS020_00729	1026	yfiZ	COG0609	putative siderophore transport system permease protein YfiZ	ATGAGCGTGGTTAGCCTGCATCCCGCGCGGCGGCGCGCCCGTCCCCGGCTGGCGCTGCTCCTGCTTACGCTGCTGCTTATTGCCGGCTCGCTGGTGCATCTTGGCCTGGGCGCCCGCTGGATCGCGCCGCAGACGGTGCTGCAGGCGTTGCTGGAGTACAACCCGCGTAACTTCGATCAGCGGATAATCGTCGAACTGCGCCTGGTGCGGCTGGCGGCGGCGCTGCTGACCGGCGCGGCGCTCGGCGTCGCCGGGCTGCTGCTGCAGACGGTGATCCGCAACCCGCTGGGCGAGCCGCATATCCTCGGCCTTAACGCCGGCGCGTCGCTGGCGGTGGTGGCGACCTCTGCGCTGGGGCTCTCCTTCGGCGCTTTCCCCGCCGCGCGGCCGCTGACCGCCGCCTGTGGCGCGGCGCTGCTGTTCGGCGGGGTGATGGCGCTGGCCTCTGCCGGTCGCGGCGGAGCGACGCCGCTGCGCATCACGCTGTGCGGGGTAGCGCTGTCGGCGTTTGCGTCGGCGGTGACGGCGGCGATATTAATTCTCGATGAACAAACGCTGCTGGCGATGCGCACCTGGCTGGCGGGCGATCTGGCCGGGCTGAACTGGAGCACGCTGCGGACGGCGCTGATCCCGGCGCTGATCGGCCTTGGCGTTGCGCTGTTCCTTGCCCCGCGCCTCAACGTGCTGGCGCTGGGGGATAAGGTAGCGCTGGGCCTCGGCGTGAACCTCGTCCAGACCCGGCTGCTGGGCCTGCTGGCGATTGCGCTGCTCTGCGGCGCGGCGGTGGCGGTGGCCGGGCCGATCGGCTTCGTCGGGCTGGTGGTGCCGCACGTGGTGCGCCGTCTGGTGACGGAAGATATCCGCCTGGCGCTGCCCCTGGCGGCGCCGGTGGGGGCGCTGGTGCTGCTCCTGGCGGATATCGCCGCCCGGACGCTGGTCGCCCCTCAGGAGCTGGCCACCGGGGCGATGACCGCCCTGGTGGGCGCGCCGCTGTTTATCTTTATCGCCGCGAGGTTTTTTAAATGA	MSVVSLHPARRRARPRLALLLLTLLLIAGSLVHLGLGARWIAPQTVLQALLEYNPRNFDQRIIVELRLVRLAAALLTGAALGVAGLLLQTVIRNPLGEPHILGLNAGASLAVVATSALGLSFGAFPAARPLTAACGAALLFGGVMALASAGRGGATPLRITLCGVALSAFASAVTAAILILDEQTLLAMRTWLAGDLAGLNWSTLRTALIPALIGLGVALFLAPRLNVLALGDKVALGLGVNLVQTRLLGLLAIALLCGAAVAVAGPIGFVGLVVPHVVRRLVTEDIRLALPLAAPVGALVLLLADIAARTLVAPQELATGAMTALVGAPLFIFIAARFFK	PGPT0003770_5771	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
BMS020_00730	822	yusV	COG1120	putative siderophore transport system ATP-binding protein YusV	ATGCCACAGCGGGTGACACCTGCAGAGCAGGGGATCGTACTGGATGCCCTGTCGGCCGGCTACGGCCAGACCCTGATCGTTGACGACATCAACCTGACCATCCCCACCGGCAAAATGACGGTGCTGGCCGGGGCGAACGGCTCCGGCAAATCCACGCTGCTGTCGACCATCGCCAGGATGCTGAAACCGCTCGGCGGCAGCGTGCGTCTGGACGGGCAAGCTATTCATCAGATGCCGACGAAGGCCGTCTCGCGCCAGCTCGGCATCCTGCCGCAATCGCCGCTGACGCCGGAAGGGTTAACGGTTTTCGAACTGGTCTCGCGCGGTCGCTTCCCGTGGCAGGGGCTGATGCGCCAGTGGTCCGACGCCGATGAGCTGGCGGTGGAAGAGGCGCTGCGCTTAACGGGCACCCGCGAGTTCGCTCATCTGCCGGTGGACAGCCTCTCCGGCGGCCAGCGTCAGCGCTGCTGGATCGCCATGGCGCTGGCTCAGCAAACAGCGACCATTCTGCTGGATGAACCGACCACCTGGCTCGACCTGCGCTATCAGGTCGATATTCTCGAACTGCTCCAGACCCTGACCCGCGAGCATGGCCGCACGGTGGTGACGGTGCTCCATGACCTTAACTTTGCCGTCAACTATGCCGATCTGCTGGTATTCCTTAAACAGGGGCGCATCGCCGGCACGATTAGCGACGGTGAAGTCTGTAGCCCTGAGCTGATTAAACGCGTGTTTGACGTTGACGTGCAGATGTCGATTAACCCGCAAACCGGCAAACCGTTCTTTATGCCGTTTCGCGCCCGCCAGGCGGCGGCACAATGA	MPQRVTPAEQGIVLDALSAGYGQTLIVDDINLTIPTGKMTVLAGANGSGKSTLLSTIARMLKPLGGSVRLDGQAIHQMPTKAVSRQLGILPQSPLTPEGLTVFELVSRGRFPWQGLMRQWSDADELAVEEALRLTGTREFAHLPVDSLSGGQRQRCWIAMALAQQTATILLDEPTTWLDLRYQVDILELLQTLTREHGRTVVTVLHDLNFAVNYADLLVFLKQGRIAGTISDGEVCSPELIKRVFDVDVQMSINPQTGKPFFMPFRARQAAAQ	PGPT0003760_1939	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
BMS020_00731	2073	cntO_2		Metal-pseudopaline receptor CntO	ATGGCCGCGGAAAATAACGCGGCGAAAGGTAACAACGACGCGGAAGAGACCATCACCGTGGTGGCCGATGGCGCCCAGCAGAGCGCCACCAGCGGCTATCAACCGCTCAGCTCCTCTACCGCGACGCTGACCGCGATGCCGCTGCTGGATATTCCGCAGGTGGTGAATACCGTCAGCGACCGGGTTCTCGAAGATCAGCACGCCACCTCGCTCGACGAGGCGCTGTATAACGTCGCCAACGTGGTGCAAACCAACACCCTCGGCGGCACCCAAGACGCCTTTACCCGCCGCGGCTTCGGCGCTAACCGCGACGGCTCGATCATGACCAACGGCCTGCGCACCGTTCTGCCGCGCAGCTTTAACGCCGCTACCGAACGGGTGGAAGTCCTGAAGGGACCCGCCTCGACGCTGTACGGTATTCTCGACCCCGGCGGGCTGATCAACGTCATCACCAAACGTCCGGAGCGGCAGTTCTCCGGTTCGGTTTCCGCGACGTCCACCAGCTTTGGCGGCGGTACCGGCAGCGTCGACGTCACCGGCCCCATCGAAGGCACGAATCTGGCGTACCGGCTGATTGGGGACTATCAGAATGAAGATTACTGGCGCAATTTCGGTAAAAACAAAAGCCGCTTTATCGCCCCTTCCCTGACCTGGTTTGGCGACCGGGCAACGGTGACCGCGTCCTATTCGCACCGCGACTACAGCGCGCCCTTTGACCGCGGCACTATTTTCGATCTGAATACCGGCCATGCGGTGAACGTCGATCGCAAAACCCGCTTCGATGAAGCGTTTAATATTACCGATGGCTATTCCGACCTCGCCCAGCTCAACGCCGAGTATCGCCTGAACGACGCCTGGACCGCGCGCTTCGATTACAGCTACAGCCAGGATCACTATAACGATAACCAGGCGCGAGTAATGGCTTATGATTCGGCGACCGGCAACCTGACCCGCCGGGTCGATGGTACTCATGGCTCCACGCAGAAGATGCACTCGACCCGCGCCGACCTGCAGGGCAACGTGGTGGTGGGCGGCTTTTATAACGAACTGCTGACCGGCGTCGCCTATGAGAATTACGATCTGCTGCGCACCGATATGCTGCGCTGCAAGAACGTGAAAGGCTTTAATATCTATCATCCGGTCTACGGCACCCTCGACACCTGCAATACCGTCTCCGCGTCCGACAGCGATCAGCGGATCCAGCAGGAGAGCTATGCCGCTTACGTGCAGGACGCGCTGTACCTGACCGACAACTGGATCGCCGTCGCCGGCGTGCGCTACCAGTATTACACCCAGTACGCCGGTAAAGGCCGACCGTTTAACGTCAATACCGACAGCCGCGATGAGAAATGGACGCCGAAAGCCGGCCTGGTCTACAAAGTGACGCCGAACGTGTCGCTGTTCGCCAACGTCGCCCAGTCGTTTATGCCGCAGTCGTCGATCGCCAGCTATATCGGCGAGCTGCCGCCGGAAGAGTCCACCTCCTACGAAGTGGGCGCCAAATTCGACCTGCTGGAGGGCATTACCGCCAATATCGCGCTGTTTGATATTCATAAGCGCAATGTGCTGTACACCGAGAGCATTGGCGATGAGACGGTGGCCAAAACCGCGGGCAAGGTGCGTTCCCAGGGCGTGGAAGTGGATCTGGCGGGGTCCATCACCGATAACCTCAGCGTGATCGCCAGCTACGGCTACACCGACGCCAAAGTGCTGGAAGATCCGGATTACGCCGGGAAACCGCTGCCGAACGTACCGAAACACACCGGTTCGCTGTTCCTGACCTATGACATTCATAACGTCTACAACAGCAACACCCTGACGGTGGGCGGCGGCGGCCATGCGCTCAGCAAGCGCTCCGGCACCAACGGCGCGGATTATTATCTACCGGGCTATGCGGTGGCGGACGTGTTCGCCGCCTATAAGATGAAGCTGCAGTATCCGGTGACGCTGCAGGTGAATGTGAAGAATCTGTTTGATAAGACCTATTACACCTCTTCCATCGGCACCAATAACCTCGGCAATCAGATTGGCGATCCGCGTGAGGTACAGTTCACGGTGAAGATGGATTTTTAA	MAAENNAAKGNNDAEETITVVADGAQQSATSGYQPLSSSTATLTAMPLLDIPQVVNTVSDRVLEDQHATSLDEALYNVANVVQTNTLGGTQDAFTRRGFGANRDGSIMTNGLRTVLPRSFNAATERVEVLKGPASTLYGILDPGGLINVITKRPERQFSGSVSATSTSFGGGTGSVDVTGPIEGTNLAYRLIGDYQNEDYWRNFGKNKSRFIAPSLTWFGDRATVTASYSHRDYSAPFDRGTIFDLNTGHAVNVDRKTRFDEAFNITDGYSDLAQLNAEYRLNDAWTARFDYSYSQDHYNDNQARVMAYDSATGNLTRRVDGTHGSTQKMHSTRADLQGNVVVGGFYNELLTGVAYENYDLLRTDMLRCKNVKGFNIYHPVYGTLDTCNTVSASDSDQRIQQESYAAYVQDALYLTDNWIAVAGVRYQYYTQYAGKGRPFNVNTDSRDEKWTPKAGLVYKVTPNVSLFANVAQSFMPQSSIASYIGELPPEESTSYEVGAKFDLLEGITANIALFDIHKRNVLYTESIGDETVAKTAGKVRSQGVEVDLAGSITDNLSVIASYGYTDAKVLEDPDYAGKPLPNVPKHTGSLFLTYDIHNVYNSNTLTVGGGGHALSKRSGTNGADYYLPGYAVADVFAAYKMKLQYPVTLQVNVKNLFDKTYYTSSIGTNNLGNQIGDPREVQFTVKMDF	PGPT0003790_20561	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_00732	789	ssuB_2	COG1116	Aliphatic sulfonates import ATP-binding protein SsuB	ATGGTAACCGCGACGTCAGGTTCGCAAACGATAGCGCGCGGCGCGGCGGTATCGATAAGCCATCTTCATCACGCGTTTACGCTCGGCAAACAGGCGGTGCCAGTGCTGGAGAATATCAGCCTGCAGCTGCGGCCAGGGGAAAGCGTGGCGCTGCTGGGCCCTTCCGGCTGCGGTAAATCCACCCTGCTGCGGCTGCTGGCCGGGCTGGAAGCGCCGCAGAGCGGACAGATGCAGTTTGACGGCGCGCCGCTCGGCGCTCCGGGGCCGGAGCGCATACTGGTGTTTCAGGACCCGACGCTCTATCCCTGGCTGACGGTGCGGCAGAACGTGCTGCTGGGCCCGCAGGCGCAGGGCAAAAGGGGGCTGGAAGCAAAGGCCGACGTGCTGATTGACCGCATCGGTCTGCAGGCCTTCAGCGAGGCGTGGCCGCCGCAGCTGTCAGGGGGGATGGCGCAGCGCGCCGCGCTGGCGCGCGCGCTGTTGAACGAGCCGCGCCTGCTGCTGCTCGACGAGCCGCTGGGCAAGCTTGACTCGCTGACCCGCATCAGCATGCAGCGGGAGCTGATCGCCCTCTGGCAGCAGCAGGGGTATACCAGCCTGCTGGTGACTCACGATATCGAAGAGGCGCTGCTGCTGTGCGAGCGGGTGCTGGTGATGTCGCCGCGTCCGGGACGGATTATCGCCGAGTTCGCGCTGCCGCTGGCCTTTCCCCGCCACCGCGATAACCCGCAGCTGCTGCAGCATCGTCAGGATATATTGCGTATCCTCGGCCAGGAGGAGGACTGGTAG	MVTATSGSQTIARGAAVSISHLHHAFTLGKQAVPVLENISLQLRPGESVALLGPSGCGKSTLLRLLAGLEAPQSGQMQFDGAPLGAPGPERILVFQDPTLYPWLTVRQNVLLGPQAQGKRGLEAKADVLIDRIGLQAFSEAWPPQLSGGMAQRAALARALLNEPRLLLLDEPLGKLDSLTRISMQRELIALWQQQGYTSLLVTHDIEEALLLCERVLVMSPRPGRIIAEFALPLAFPRHRDNPQLLQHRQDILRILGQEEDW	PGPT0001140_5192	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
BMS020_00733	996			hypothetical protein	ATGCCAACGTATTCGCCTGAGCAGGCGCTGGCGCGCCCAACCGGCCGCGCGCCGCTGTGGGGAGAAGGGCTGCTGGCCGCCGCGCTGTGGCTGCTGGGCGGTCTGTTCACCCTGGCCTGGCCCGATGCCGGGCGGCGCTGGCCGTTTAGCGAGGGCTGGGCGCTGGCGCAGTTCGCCTTCGGCGGCGGCTTGCTACTGCTGGCGCTGAGCTATCGCTACTGGCGAGCGCGCGGCGCGCGCGTGCTGCATGCCGGCAAGTGGTTGGCGCTGCTGCCGGTGCTGTTCGCTGCCTGGGAAGGGCTGACCGCCAAGAGCGGCGTGCTGCCGGTGCCGTTTTTCGCGCCGCCGCAGGCGCTGATCGAGGTGCTGCACGACGACTGGCCGCGTCTGCTCGACAGCCTGCTGCACTCCCTGGGGCTGCTGGGGCTTGGGGTGCTGCTCGGCACCAGCAGCGGGTTCGTCACCGGTCTGGCCATTGGCTGGTCGCAACGGATAGGCTATTGGGTCCATCCGGTGTTACGCCTGCTGGGGCCGGTGCCGTCCACCGCGCTGCTGCCGCTGTGCCTGTTTATCTTTCCGTCAAGCTTCGGCGCCAGCGTGTTTTTGATTGCGCTGAGCACCTGGTTCCCGGTCACGGTGCTGACCTGGTCCGGGGTCATCGGCATTGACAAGGCGTGGTACGACGTGGCGCGGACGCTCGGCGCCAGCCAGCGTTTCCTGATCCTGCGGGTAGCGATCCCCGCCGCGCTGCCGAACGTCTTTGTCGGCCTGTTTATGGGGCTTGGCGCGTCGTTTTCGGTGCTGATTGTGGCTGAAATGGTCGGGGTGAAGTCGGGGATCGGCTTCTACCTCCAGTGGGCCCAGGGCTGGGCGGCCTATCCCAATATGTACGCCGCGCTGCTGGTGATGGCCTTGCTGTGCTCCGGCCTGATCAGCGGATTATTTATGCTGCGCGATAAGCTGCTGAGCTGGCAGCGGGGAGGGATGCAATGGTAA	MPTYSPEQALARPTGRAPLWGEGLLAAALWLLGGLFTLAWPDAGRRWPFSEGWALAQFAFGGGLLLLALSYRYWRARGARVLHAGKWLALLPVLFAAWEGLTAKSGVLPVPFFAPPQALIEVLHDDWPRLLDSLLHSLGLLGLGVLLGTSSGFVTGLAIGWSQRIGYWVHPVLRLLGPVPSTALLPLCLFIFPSSFGASVFLIALSTWFPVTVLTWSGVIGIDKAWYDVARTLGASQRFLILRVAIPAALPNVFVGLFMGLGASFSVLIVAEMVGVKSGIGFYLQWAQGWAAYPNMYAALLVMALLCSGLISGLFMLRDKLLSWQRGGMQW	PGPT0001145_1105	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
BMS020_00734	1038			hypothetical protein	ATGACCCCGTCCGCTTTTTCCCGTCGTCGTTTTTTAAAGCTAAGCGGTGGCCTGGCGCTGGCCGGGGTTTCCCTGCCGCTGTGGGCTCACGATATGGCGGAGATGGCCAGCGGCGATGCTCATCCGGCGCTGCGCCTGCCGCAGCCGTACAAGATCAAGCTGGCGATCAACAAAAGCGCGGTTTGCCTCGCGCCGGTCGCCGTCGCCGAGCAGCAGAAGATTTTCAGTAAATATAACCTCGACGTTGAGTTTGTTAACTTCGGCAACTCCACCGATGTGCTGCTGGAGGCGATCGCCACCGGCAAGGCCGACGCCGGGGTGGGGATGGCGCTGCGCTGGCTGAAGGCGCTGGAGCAGGGCTTTGACGTCAAGCTCACCGCCGGGACCCATGGCGGCTGTCTCAACCTGCTGACGGCCAAAGCGTCGCCGTTCAATGGCCTTGAGAGCCTGAAAGGGCAAACCATCGGCGTCACCGACATGGCCGGGCCGGATAAAAACTTCTTCGCCATCCTGCTTAAGCGCCACGGTATCGATCCGATAAGCGACGTGCAGTGGAAAGTCTACCCGGCGGATCTGCTCAGCGTGGCGCTGGATAAGCGCGAGATCGCCGCCATCAGCGGCAGCGAGCCGTTCAGCTATCGGCTGCTGGAGACCGGCAAGTATCAGCTGATCGCCAGCAATATGACCGGGGACTATGCCAATCTGAGCTGCTGCGTGCTGGGGGTGAGCGGGAGCCTGGCGCGGGACCATAAACCGGCCGCCGCGGCGCTCACCCAGGCAATCCTTGAAGCGCACAGCTATGCCGCCGAACACCCGGAAAGCGTGGCGCAATCTTTCCTCGCCCATGCGCTCAACACCAGTGAAGCGGAGGTAAGCGGCATTCTGCACGGACAGGGGCACGGCCACCACGCGGTGGGGGAGGCGTTCGTGAAAGAGCTGACGCAGTATGCGGTCGACCTGCAGCGGGTGCAGGTGATCAAACCGGGTACCGATCCCCATCAGTTTGCGGAGAGTATCTATGCCAACGTATTCGCCTGA	MTPSAFSRRRFLKLSGGLALAGVSLPLWAHDMAEMASGDAHPALRLPQPYKIKLAINKSAVCLAPVAVAEQQKIFSKYNLDVEFVNFGNSTDVLLEAIATGKADAGVGMALRWLKALEQGFDVKLTAGTHGGCLNLLTAKASPFNGLESLKGQTIGVTDMAGPDKNFFAILLKRHGIDPISDVQWKVYPADLLSVALDKREIAAISGSEPFSYRLLETGKYQLIASNMTGDYANLSCCVLGVSGSLARDHKPAAAALTQAILEAHSYAAEHPESVAQSFLAHALNTSEAEVSGILHGQGHGHHAVGEAFVKELTQYAVDLQRVQVIKPGTDPHQFAESIYANVFA	PGPT0001135_3005	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
BMS020_00735	975	ssuA_1		Putative aliphatic sulfonates-binding protein	ATGCGTCTATCATTCTCAGGCCGGGTGGCGGCAGCGCTGATGCTGCTGGCGCTGGGCGGTTACGCGACGGCGCAGGAGCGGCTTACCCTGCGCATCGCCGATCAAAAAGGCGGCATGCGTTCGCAGCTGGAGGCGGCCAACGCCCTGCAAAACCTCCCCTACGACATTAAGTGGGCCGAATTTCCGGCCGCCGCGCCGCTGGCGGAAGCCCTTAACGCTGGCGCGGTGGACGCGGGGATCATCGGCGATGCGCCGCTGCTCTTCGCCCTGGCTAACGGCGCGCCGGTGAAAGCGATCGCCGTGGACAAAAGCAACCCGGCGGGGACCGCGGTGCTGGTTTCTCCCGGCAGCGCGATAAAAACCGCCGCCGGGTTAAAAGGCAAGCGCATTGCCACCGGCAAAGGGTCGATTGGCCATTTCGTGGCGCTGAAAGCGCTCGAGCAGGCGGGGATTTCACCGAAGGAGGTGCAGTGGGTGTTCCTCGGTCCGGTGGACGCCAAAGTGGCGCTGCTTAATGGTTCGGTGGACGCCTGGGCGACCTGGGAGCCCTACACCACCCAGATGGTGAAGACCAACGAGGGGCAGATCCTGGTGAGCGGCAAAGGGCTGCTGCCGGGGAATACCTTCCTTGCGGCAACGGATTCAGCGCTTAACGACCCGAAAAAGCGCGCCGCGCTGCAGGATTATCTCCAGCGCCTGGCCGGCGCCGAGCGCTGGGCCTACGCCAATCTCGACAGCTACGGCAAAACGCTGGGGGAGATCATCCGCTTCCCGGCGGAGATCGCCCGCGCGCAGTTTGCCAACCGCCAGTCGCAGTGGCAGCCGCTGGCGGAGGAAACGGTGACCCAGCAGCAGGCGACGGCCGACTTTTATCTCGCCAACGGTCTGATCCGCACCCGGCTGGACGTGAAGCCGACCTTTGACCCCAGCTTTAGCGTGCCCGCTGGGCCGACCCACGCGGAGGTAACGCCATGA	MRLSFSGRVAAALMLLALGGYATAQERLTLRIADQKGGMRSQLEAANALQNLPYDIKWAEFPAAAPLAEALNAGAVDAGIIGDAPLLFALANGAPVKAIAVDKSNPAGTAVLVSPGSAIKTAAGLKGKRIATGKGSIGHFVALKALEQAGISPKEVQWVFLGPVDAKVALLNGSVDAWATWEPYTTQMVKTNEGQILVSGKGLLPGNTFLAATDSALNDPKKRAALQDYLQRLAGAERWAYANLDSYGKTLGEIIRFPAEIARAQFANRQSQWQPLAEETVTQQQATADFYLANGLIRTRLDVKPTFDPSFSVPAGPTHAEVTP	PGPT0003025_2123	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003025-ssuA-K15553	NA	NA
BMS020_00736	1152	ydbM		Putative acyl-CoA dehydrogenase YdbM	GTGATCCATCCTGAGCGCGACGACTGGGCGCAGCAGCTGACGGCGGTACGCCAACAGATGGCGGAGCAGGCGGCCAGTCTTGACGCCAGCGGCGACTTTCCCTGGCGCAATATCGACCCTCTGCGCGCGGGGGGCTGGTTAAGCCTCGCCGTGCCGCGTGCTTACGGCGGGGCGGGCGCCAGCCTGGCCCAGCTGCAGCAGGCCATCGCCGCCATCGCCTGGGGTGAGCCGGCGACGGCGCTGATCGTCTGCATGCAGTATCTGCACCATTTGCGGCTGGCGGAAAACGACGCCTGGCACGCGCCGCTGCGCCAGCAGGTTTTTCATGATGCCGTCGAACACGGCGGCCTGATCAACAGTCTGCGCGTTGAGCCGGATCTGGGCTCCCCGGCGCGCGGCGGCCTGCCAGACACCGTGGCGAGCCGCCGCGCGGACGGCTGGGACATCAACGGCCATAAAATCTATACCACCGGCATTGAAGGGCTGCGCTGGCTGGCGGTATGGGCGAGAAGCGATGAGAACCCGACGCGGGTGGGCACCTGGCTGGTGCCTGGCGACAGCCCGGGGATTAGCGTGGTGAAAAGCTGGGATCACGCCGGGATGCGGGCTACCGGCAGCCATGAGGTGATTTTTCGCCACGTGCGGGTGGCGGCAGAGCATGCGGTGGATGTCTGGCCGGTCGATGCGCCACCCGCCGCCCAGGCGGAACCGTTGCGCCTGTTCGCCAACCGACAGACGGCATTGCTGGCGGCGATCTATGACAGCATCGCCCGTGCCGCTCACGACTGGCTGGTGAGGTGGCTGGCGGGGCGGGTGCCCGCGGGTCTCGGCCATCCGCTTTCCCGCCTGCCGCGGGTGCAGGAGAAGGTCGGGCAGATCGCCGAACTGCTGTTGGTTAACCGCAGCCTGCTGGAGCAGGCCGCCGCGCTGCGCTTTTCCGCCATCGAGGCCAACCTGGCGAAAGTCACCATCACCGACAACGCCATTCAGGCGGTGAATATCGCGCTCGAGCTGACCGGCAATCATGGCCTCAGCCGACAAAACCCGCTGGAACGCCACTACCGCAATGTGCTCTGCGGCCGGGTGCATACCCCGCAGAGCGACAGCGCCTGGCTGGCAGCCGGCCACTTCGTCTTTCAATCACAAGGATAA	MIHPERDDWAQQLTAVRQQMAEQAASLDASGDFPWRNIDPLRAGGWLSLAVPRAYGGAGASLAQLQQAIAAIAWGEPATALIVCMQYLHHLRLAENDAWHAPLRQQVFHDAVEHGGLINSLRVEPDLGSPARGGLPDTVASRRADGWDINGHKIYTTGIEGLRWLAVWARSDENPTRVGTWLVPGDSPGISVVKSWDHAGMRATGSHEVIFRHVRVAAEHAVDVWPVDAPPAAQAEPLRLFANRQTALLAAIYDSIARAAHDWLVRWLAGRVPAGLGHPLSRLPRVQEKVGQIAELLLVNRSLLEQAAALRFSAIEANLAKVTITDNAIQAVNIALELTGNHGLSRQNPLERHYRNVLCGRVHTPQSDSAWLAAGHFVFQSQG				NA	NA	NA	NA	NA
BMS020_00737	1086	msuD	COG2141	Methanesulfonate monooxygenase	ATGAGCATTCAGTTTCTCGGCATGATTGGCCATCGCCTCTCTTCCGAAACGATTGCCCCGGTGGGGCCGATCTTTGACCGCGACTATATCGTTCGCTTTGCGCAAACCCATGAAGCCGCCGGGTTCGATCGCCTGCTGGTGGGTCACTGGTCCGATCAACCCGACGGCTTTTTGGTGACCGCCCTGGCCGGACTGTCGACGCAGAAAATTCAGTACCTGCTGGCCCATCGCCCCGGTTTTGTCTCGCCGACCCTTGCCGCGCGCAAATTCGCCACCCTTGAGCATCTGCTGGGGGGCCGACTGGCGGTGCATATCATCAGCGGCGGCAATGACGCCGAGCAGCGCCGGGACGGCGATTACCTCGATCACGACCAGCGCTATGCCCGCACCGACGCCTTCCTTGACGTCGTACGCCGGGTGTGGACCAGTGAGCAGCCGGTAGATATTCACAACGATTTTTATCAGGCCGAACAGGCCTGGTCAGCCATTCGTCCGCTGCAAAAGCCGCACCTTCCCATCTACTTCGGCGGTTCGTCGGAAGCGGCCATCGCTGTCGCCGGCAAACACGCTGACGTCTTCGCCCTGTGGGGCGAGTCGCTGGCGCAAACCGGGGAGACCATCCAGCGCGTGCGCGCCGAAGCGGCGAAACACCAGCGTGATATTGGCTTCAGCGTCTCGTTCCGGCCGATTATCGCCGACAGCGAAGCCGAGGCCTGGGAGAAAGCCGAGCATATCCTGCACGTCGCCACCGAGCAGGCGGCGCAGCGCGGGGGCGGGTTCAAGGCCAAACCGGACAGCATCGGCGCCCAGCGGCTGCGGGCCACCGCCGCGCAGGGCAGAGTGGTGGACAAACGCCTGTGGACCGGCATCGCCCAGCTGGTGGGCGGCGGGCATAACTCCACCGCGCTGGTAGGCACCCCGGAGCAGGTGGCCGATGCGCTGCTCGACTACTACGACCTCGGGGTGCGCAACTTCCTGATCCGCGGATTCGACCCGCTGAACGATGCGGCAGACTACGGCCGGGCGCTGCTGCCGATCGCTCGTGAAAAAGCCGCGCGGCGTGTGGTGGCGGAGCGCGCATCGTGA	MSIQFLGMIGHRLSSETIAPVGPIFDRDYIVRFAQTHEAAGFDRLLVGHWSDQPDGFLVTALAGLSTQKIQYLLAHRPGFVSPTLAARKFATLEHLLGGRLAVHIISGGNDAEQRRDGDYLDHDQRYARTDAFLDVVRRVWTSEQPVDIHNDFYQAEQAWSAIRPLQKPHLPIYFGGSSEAAIAVAGKHADVFALWGESLAQTGETIQRVRAEAAKHQRDIGFSVSFRPIIADSEAEAWEKAEHILHVATEQAAQRGGGFKAKPDSIGAQRLRATAAQGRVVDKRLWTGIAQLVGGGHNSTALVGTPEQVADALLDYYDLGVRNFLIRGFDPLNDAADYGRALLPIAREKAARRVVAERAS	PGPT0003040_2033	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
BMS020_00738	894	gltC_1		HTH-type transcriptional regulator GltC	ATGCGCATCGACGATATTGACGCTCTGCTGGCCACGGTGCAGTTTTCTTCCCTCAATCAGGCGGCGGACTATCTGGGGATCACCCAGTCGGCTATCACCCGGCGCCTGCAGCGTCTGGAGCAGGAGCTGAACGTCACGCTGTTGGCGCGTCAGACCCGCCCGCTGACCCTGACCGCCGCCGGTCAGCGAGTGTACGAGCAGTGCCTGAGCATTAAGCGCGAGACGAAAAAGCTCTACAGCCTGTTGGATCCGCAAGGCGAGCCGCGCGGCGCGCTGCGTCTCGGCGTACCGCAGAGTATCAGCGAGATCGCGCTGCCAGCGGCGCTGGCGGCGCTGAGCCAGCAGTTTCCCGCACTGTCCCCGCAGGTCGCCTGCGGCTGGAGCGGAGAGCTGCAGCGCCGGCTGGAAAACGGCGAACTGGACGGCATGCTGGCGATGGGCCCCGCCCAGCAGACCCTCGCCGAGGGCTACAGCGGGCGCCTGCTGTGTCCCCTGGAGGTGGTGCCGATTGCCGCCCGGCGTCTGAATCTGCGGGCGTCGTCGCTGCGGGAGTGCGTCGAACAGGGCTGGATCCTTAACCCCGACGGCTGTGGACTACGCGCCGGGCTCATCCGCGAGCTGCAAAGCCAGGGTCTGGGCCTGAAGCTTAACGTCGAGAGCGCGGGCGCCCAGCTGCAGATGGCGCTGGTGGCGCAGGGACTGGGGCTGGGGCTGGTGCCGCGGGCGGCGCTGGCGGCCAGCCCGTGGCGTGACGAGCTCGAGGTCGTCAACCTCAGCGACTTTCAGCCTGCTGTGTCGCTGTGGCTGATCCACGCCCGGTATCTGGCAAACCTGCAGTCGCCGCTGACCTTTTTCGCCAGCAAAGTGGTGCAGCAGCTGACAGTATCCGACTGA	MRIDDIDALLATVQFSSLNQAADYLGITQSAITRRLQRLEQELNVTLLARQTRPLTLTAAGQRVYEQCLSIKRETKKLYSLLDPQGEPRGALRLGVPQSISEIALPAALAALSQQFPALSPQVACGWSGELQRRLENGELDGMLAMGPAQQTLAEGYSGRLLCPLEVVPIAARRLNLRASSLRECVEQGWILNPDGCGLRAGLIRELQSQGLGLKLNVESAGAQLQMALVAQGLGLGLVPRAALAASPWRDELEVVNLSDFQPAVSLWLIHARYLANLQSPLTFFASKVVQQLTVSD				NA	NA	NA	NA	NA
BMS020_00739	603		COG5553	3-mercaptopropionate dioxygenase	ATGACTGGACCACGACTGGAAAAATTACGCCATTTTATTCATGAGGTTGATCGCCTGCACCGTGAACACCACCAGACCGCGCCGCTGCTTGACGCCGTGGCCCAACGGCTGGCGGCGCTGGTACGTCACGACGACTGGCTGCCGGAAGAGTACACCCTGCCGCACCCGCACCATTACCAGCAGTATCTGCTGCATGCCGACTCCGGGGAGCGCTTCTCGATCGTCAGCTTCGTCTGGGGGCCGGGACAGGCGACGCCGATCCATGACCACCGGGTATGGGGGGCCATTGGTATGCTGCGCGGCGCGGAGGAGAATCAACGCTACCAGCTGGATGCAGACGGCATACCGCGGCCGCTGGGCGCCGCCACGCTCCTGCAGGCAGGCCAGGTGGAGAAAGTCTCCGTTGACGATGGCGATATTCATCGCGTCAGCAATGCGCTGGCGGATCGCGTCTCCATCAGCATTCATGTTTACGGCGGCAACATCGGCGCGGTGAAGCGCGCGGTGTATACCCCGGAAGGCCAGCAAAAACCGTTTATCTCCGGCTACGCCAACCGCCATGTGCCCAACATCTGGGATCCCTCCCGCGAACACCAAGGATAA	MTGPRLEKLRHFIHEVDRLHREHHQTAPLLDAVAQRLAALVRHDDWLPEEYTLPHPHHYQQYLLHADSGERFSIVSFVWGPGQATPIHDHRVWGAIGMLRGAEENQRYQLDADGIPRPLGAATLLQAGQVEKVSVDDGDIHRVSNALADRVSISIHVYGGNIGAVKRAVYTPEGQQKPFISGYANRHVPNIWDPSREHQG				NA	NA	NA	NA	NA
BMS020_00740	1581	glpE_1		Thiosulfate sulfurtransferase GlpE	ATGTCCACTTACGCTTACCGACAGGCCGCCGGGATCCGCCAGGCGCTGCTCGACCGTCGTGAACTGGCGCTCATCGACGTCCGTGAAGAGGCCGATTTCGCCACCGCTCATCCGCTGTTTGCCGTCAATCTGCCGCTCAGCAAACTGGAGCTGGAGGTGCGCCGGCGGATACCGCGCTTCACCACCCCGATCACCGTCTACGACAATGGCGAAGGGCTGGCGGAGATCGCCGTCGAACGACTGCGGACCTGGGGCTATCAGGATGTGGCCCTGCTGGCCGAGGGTCTCGCCGGCTGGCGCCGCAGCGGCGGCGAGCTGTTTCAGGACGTCAACTCCGCCAGTAAAGCCTTTGGCGAGCTGGTGGAAAGCGTGCGTCACACGCCGTCGCTCAGCGCCCGGGAGGTTCAGGCGCTCATCGACAGCCGGCAGGAGGTGGTGATCGTCGACGCCCGGCGCTTCGATGAGTACCAGACCATGAGCATCCCCGGCAGCATCAGCGTGCCCGGCGGCGAGCTGGCCCTGCGGGTGGAGAGCCTGACGCCCTCCCCGCAAACGCCGGTGATCGTCAACTGCGCCGGACGCACCCGCAGCATCATCGGCACCCAGTCGCTGATCAACGCCGGCCTGCCGAACCCGGTCCATGCCCTGCGCAATGGCACTATCGGCTGGACGCTGGCCGGCCAGACGCTGGCGCACCAGCAGCAGCGGCAATACGATCCCTCCGCCCGCGCCTCTGGCGCCCGGGCCGCCGAGGTGGCGCATCTCGCCGAACGGGCCGGGGTGGCGGTCATTGATGAGGCGACCCTGCAACGCTGGCTGCAGCAGAGCGACCGCACCACCTTCCTGTTTGATGTGCGCAGCCCTGAGGAGTACGCGGCGGGCCACTATCCTGGCTGCCTGAGCGCGCCAGGCGGCCAGCTGGTGCAGGAGACCGATCACTTCGCCAGCGTACGAGGGGCGCGAATCGTGCTGCTGGATGACGATGGCGTCCGGGCGGCGATAACCGGCTCGTGGCTGGCGCAGATGGGCTGGGAGACGGCGCGGCTGAACGCCCTGTCGGCCAGCCAGCTAAGCGAGCGCGGGGTACCAGCCGCCGAAGTGCCCCCCGCCCCGCAGGCGGCGGAGATAAGCCCGGCGCAGCTGGCGCAACAGCTGGACGACCCCGGTACGGTGGTGCTCGATTTCACCACCAGCGCCAACTTTGTCGCCCGCCATATCCCCGGCGCGTGGTGGCTGACGCGCTCGCAGCTGCGCCAGGCCCTGGAAGCGATCCCTCCCGCTCAACGTTACGTGGTGACCTGCGGCAGCAGCCTGCTGGCCCGCTACGCGGTGCCCGAGGTGGCAGCCTTAACCGGTAAGCCGGTACAGGTATTGCGCGGCGGGACGCTGGCGTGGATCGCCGCCGGTCTGCCGCTGGCCCATGGCGACGCCGGCCTCGCTGTCGAGCGCCGGGACCGCTATCGCCGTCCCTATGAAGGGACCGATAATTCCGCAGAGGCCATGCAGGCCTATCTGGAGTGGGAGTACGGCCTGGTGGATCAGCTGGCCCGCGACGGCACCCACGGTTTTCGGGTGATCTAA	MSTYAYRQAAGIRQALLDRRELALIDVREEADFATAHPLFAVNLPLSKLELEVRRRIPRFTTPITVYDNGEGLAEIAVERLRTWGYQDVALLAEGLAGWRRSGGELFQDVNSASKAFGELVESVRHTPSLSAREVQALIDSRQEVVIVDARRFDEYQTMSIPGSISVPGGELALRVESLTPSPQTPVIVNCAGRTRSIIGTQSLINAGLPNPVHALRNGTIGWTLAGQTLAHQQQRQYDPSARASGARAAEVAHLAERAGVAVIDEATLQRWLQQSDRTTFLFDVRSPEEYAAGHYPGCLSAPGGQLVQETDHFASVRGARIVLLDDDGVRAAITGSWLAQMGWETARLNALSASQLSERGVPAAEVPPAPQAAEISPAQLAQQLDDPGTVVLDFTTSANFVARHIPGAWWLTRSQLRQALEAIPPAQRYVVTCGSSLLARYAVPEVAALTGKPVQVLRGGTLAWIAAGLPLAHGDAGLAVERRDRYRRPYEGTDNSAEAMQAYLEWEYGLVDQLARDGTHGFRVI	PGPT0001995_1	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
BMS020_00741	726			hypothetical protein	ATGGCTTACCGCTCCCGCTTGCTCGACGCTATCCCTGGCATCCGCCACGCGTTTCTCGATGTCCACGAAACCGCCGCCTTTCCCTATGCCGAAATGGCGCCGGTGAAGCTGGTCCATGGCAATGAGGTTCATCATTATCAGCAGCCGCTGCCGACGCGCCCGCATGCCGACGCGGTGTTTACCGCCGTCGCCGGGCAAAAGGTGGGGGTGGTAACCGCCGACTGCCTGCCGATACTGATCGCCTCGCGCGACGGTCGCTTCATCTGCAGCGTGCATGCCGGCTGGCAGGGGCTGGCCAGCGGCATTGTCGACAACAGTCTGGCGACTTTTCGCCAGCAGGGGGCGGCGCTGGCCGATCTGGTCATCGCCGTGGGGCCGCATATTCACCCTTGCTGTTACGAAGTCTCCGCCGGATTTTATCAGCAACTGCTGGACCAGCCCGGCGGTGACCGGGTGGCCCGGCACCGCCAGCGGCTGTTCCATTCCCGTTCTGGCCCGGTCAGCGATCCGCTCAAAGCCGCGGCGCGCGGCAGCGATAATCTGTGGTTTGATCTGCGCGCTTTCGCTGAGGCGATCTTCGCAGAGGCGGGGGTGGCGTCAACGAGCGTTGAATGGCTGGGGAGCTGCACCTATTGCACGCCGCAGTCGCTGGGATCCTACCGGCGCCGGACCCATTTTCCGGCGCCGAAGAGCTTTCAGTACTCGTGGATCATGCGTGAGGCCTGA	MAYRSRLLDAIPGIRHAFLDVHETAAFPYAEMAPVKLVHGNEVHHYQQPLPTRPHADAVFTAVAGQKVGVVTADCLPILIASRDGRFICSVHAGWQGLASGIVDNSLATFRQQGAALADLVIAVGPHIHPCCYEVSAGFYQQLLDQPGGDRVARHRQRLFHSRSGPVSDPLKAAARGSDNLWFDLRAFAEAIFAEAGVASTSVEWLGSCTYCTPQSLGSYRRRTHFPAPKSFQYSWIMREA	PGPT0019965_3501	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
BMS020_00742	1197	mhpT		3-(3-hydroxy-phenyl)propionate transporter	ATGACCAAGATAACGACCGCAAACTCCTCGCGCCTGGTGGTCACCATCGGGCTCTGTTTTATGGTGGCCCTGATGGAGGGGCTGGATCTGCAGGCGGCGGGGATCGCCGCCGTCGGCATGGCGCAGGCCTTCGCGCTGGATAAAATGCAGATGGGCTGGATCTTCAGCGCTGGGATCCTCGGCCTGCTGCCCGGCGCGCTGGTGGGCGGCATGCTGGCGGACCGCCACGGGCGCAAACGCATCCTGCTGGGCTCGGTGCTGCTGTTTGGCCTGTTCTCGCTGGCCACCGCGGTGGCCTGGAGCTTCCCGACGCTGCTGCTGGCGCGCCTGCTCACCGGCGTTGGGCTGGGGGCGGCATTGCCGAACCTGATTGCCTTAACCTCGGAAGCCGCTGGCCCGCGTTTTCGCGGCCGGGCGGTGAGCCTGATGTACTGCGGGGTGCCCATTGGCGCCGCGCTGGCGGCGGCGCTGGGGTTCTTTGGCCTCGCCGCGGCCTGGCAGACCATCTTCTGGATTGGCGGCGTGGTTCCGCTGCTGCTGATCCCGCTGCTGATGCGCTGGCTGCCGGAATCGCAGGCGTTTCAACGCGTGGAGACCAGCGTGCCGCTGCGCACCCTGTTTGCCCCGGGGCATGCCGCCGCCACGCTGCTGCTGTGGCTGGGCTATTTCTTCACTCTGCTGGTGGTCTATATGCTGATCAACTGGCTGCCGATGCTGCTGGTAGGCCAGGGATTCAGCGCCAGCCAGGCGGCGGGGGTGATGTTCTCTCTGCAGATCGGCGCCGCCTGCGGCACCCTGCTGCTGGGGGCGCTGATGGATAAGCTTACTCCGTTGCGTATGTCGCTGCTGATATACAGTGGCATTCTGGCGTCGCTGCTGGCGCTGGGCAGCGCATCGTCGCTGAGCGGGATGCTGCTGGCGGGGTTTGTCGCCGGGCTGTTCGCCACCGGCGGCCAGAGCGTGCTCTACGCGCTGGCGCCGCTCTTCTATCCCGCGGCGATCCGCGCCACCGGGGTCGGCACCGCCGTGGCGGTGGGACGCCTGGGGGCGATGAGCGGTCCGCTGCTGGCCGGCAAGATGCTGGCCCTCGGCACCGGCACCGTCGGGGTGATGGCGGCCTCAGCGCCGGGCATTGTGCTGGCCGGCGTGGCGGTGTTCTGGCTGATGCATCGCCAGCAGCGCGCGGCCATTGTCTGA	MTKITTANSSRLVVTIGLCFMVALMEGLDLQAAGIAAVGMAQAFALDKMQMGWIFSAGILGLLPGALVGGMLADRHGRKRILLGSVLLFGLFSLATAVAWSFPTLLLARLLTGVGLGAALPNLIALTSEAAGPRFRGRAVSLMYCGVPIGAALAAALGFFGLAAAWQTIFWIGGVVPLLLIPLLMRWLPESQAFQRVETSVPLRTLFAPGHAAATLLLWLGYFFTLLVVYMLINWLPMLLVGQGFSASQAAGVMFSLQIGAACGTLLLGALMDKLTPLRMSLLIYSGILASLLALGSASSLSGMLLAGFVAGLFATGGQSVLYALAPLFYPAAIRATGVGTAVAVGRLGAMSGPLLAGKMLALGTGTVGVMAASAPGIVLAGVAVFWLMHRQQRAAIV				NA	NA	NA	NA	NA
BMS020_00743	1017	mhpE	COG0119	4-hydroxy-2-oxovalerate aldolase	ATGAACGGTAAAAAACTCTACATTTCGGATGTGACGCTGCGCGATGGTATGCATGCGATTCGTCACCAGTATTCCCTGGCGCAGGTGCAGCAGATTGCCGGCGCGCTGGATAAGGCGGGGGTGGACTCCATCGAAGTCGCCCACGGCGATGGGCTACAGGGATCGAGCTTCAACTACGGCTTTGGCGCCCACAGCGATATCGCCTGGATTGAAGCGGCGGCGGAGGCGGTCAGCCAGGCGAAAATCGCCACCTTGCTGCTGCCGGGCATCGGCACCCTGCACGACCTGAAAGCCGCATATCAGGCCGGGGCGCGGGTGGTGCGGGTCGCCACCCACTGCAGCGAAGCGGACGTCGCGGCGCAGCATATTGCCTTTGCCCGCGAGCTGGGGATGGACACCGTCGGTTTTCTGATGATGAGCCATATGATCTCCCCGCAGGCGCTGGCGCAGCAGGCGCTGAAGATGGAATCCTATGGGGCGACCTGCATCTACGTGGTGGATTCCGGCGGGGCGATGAACATGAATGACATTCGCGACCGCTTCCGCGCGCTGAAGGCGGTGCTGAAGCCGGAGACCGCCACCGGGATGCATGCCCACCATAACCTGAGCCTCGGGGTGGCTAACTCTATCGCCGCGGTGGAAGAGGGCTGCGACCGGATCGACGCCAGCCTGGCCGGGATGGGGGCGGGGGCGGGCAATGCGCCGCTGGAGGTATTTATTGCCGCCGCCGACAAGCTCGGCTGGCGGCATGGCACCGACCTCTACGCGCTGATGAATGCCGCCGACGAGCTGGTGCGGCCGCTGCAGGACCGCCCGGTGCGCGTCGACCGCGAAACGCTGGCGCTGGGCTACGCCGGGGTCTACTCCAGCTTCTTGCGCCACAGCGAAGCGGCGGCGGCGCGCTATGGCCTCAGCGCGGTGGATATTCTCGTCGAGCTGGGCAAACGGCGGATGGTCGGCGGCCAGGAGGATATGATCGTCGACGTCGCGCTGGATCTGCTTAACCGCCAAAAATAA	MNGKKLYISDVTLRDGMHAIRHQYSLAQVQQIAGALDKAGVDSIEVAHGDGLQGSSFNYGFGAHSDIAWIEAAAEAVSQAKIATLLLPGIGTLHDLKAAYQAGARVVRVATHCSEADVAAQHIAFARELGMDTVGFLMMSHMISPQALAQQALKMESYGATCIYVVDSGGAMNMNDIRDRFRALKAVLKPETATGMHAHHNLSLGVANSIAAVEEGCDRIDASLAGMGAGAGNAPLEVFIAAADKLGWRHGTDLYALMNAADELVRPLQDRPVRVDRETLALGYAGVYSSFLRHSEAAAARYGLSAVDILVELGKRRMVGGQEDMIVDVALDLLNRQK	PGPT0002050_764	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
BMS020_00744	951	mhpF	COG4569	Acetaldehyde dehydrogenase	ATGCGTAAACGTAAAGTCGCCATTATCGGATCCGGGAATATCGGCACCGATTTAATGATTAAAATTCTGCGCCACGGCCAGCATCTGGAGATGGCGGTGATGGTCGGCATCGACCCGCAGTCGGATGGCCTGGCCCGCGCCCGGCGCATGGGCGTCGCGACCACCCACGAAGGGGTGGGCGGCCTGATGCAGATGGCGGAGTTTGCCGATATCGACTTTGTCTTCGACGCCACCAGCGCCGGCGCGCACGTCAAAAACGATGCCGCGCTGCGCGAAGCGAAGCCAGGGATCCGCGTCATCGACCTGACGCCAGCGGCGATTGGCCCGTACTGCGTGCCGGTGGTCAACCTTGAGGCCAATCTCCACCAGGGCAACGTCAATATGGTGACCTGCGGCGGGCAGGCCACCATCCCGATGGTCGCCGCGGTCTCGCGGGTGGCGAAGGTGCATTACGCGGAGATCGTGGCCTCCATCGCCAGTCAATCCGCCGGGCCGGGGACGCGAGCGAATATTGACGAATTCACTGAAACCACCTCGCAGGCGATTGAAAAGGTCGGCGGCGCGGGCAAGGGCAAGGCGATTATCGTGCTGAACCCGGCGGAGCCGCCGCTGATGATGCGCGATACCGTGTATGTGCTGAGCGAGATGGCGTCCCAGGAGGCGATTGCCGCCTCGATCGCCGAGATGGCGGCGGCGGTGCAGGCTTACGTGCCTGGCTACCGGCTGAAGCAGCAGGTGCAGTTTGAGGTTATCCCCGAGGATAATCCGGTCAACCTGCCCGGCGTGGGCCGTTTTTCCGGACTGAAAACCGCGGTTTACCTCGAAGTGGAAGGGGCGGCGCACTATCTGCCGGCGTACGCCGGCAACCTCGATATTATGACCTCGGCGGCGCTGGCGACGGCGGAGAAAATGGCCGGGGCAATGAACAGCGCGGCGGGAGCGACAGCATGA	MRKRKVAIIGSGNIGTDLMIKILRHGQHLEMAVMVGIDPQSDGLARARRMGVATTHEGVGGLMQMAEFADIDFVFDATSAGAHVKNDAALREAKPGIRVIDLTPAAIGPYCVPVVNLEANLHQGNVNMVTCGGQATIPMVAAVSRVAKVHYAEIVASIASQSAGPGTRANIDEFTETTSQAIEKVGGAGKGKAIIVLNPAEPPLMMRDTVYVLSEMASQEAIAASIAEMAAAVQAYVPGYRLKQQVQFEVIPEDNPVNLPGVGRFSGLKTAVYLEVEGAAHYLPAYAGNLDIMTSAALATAEKMAGAMNSAAGATA	PGPT0006010_136	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,PGPT0006010-mhpF-K04073	NA	NA
BMS020_00745	807	mhpD	COG3971	2-keto-4-pentenoate hydratase	ATGACTATTTCTCTTGACGCGCTGGCGCAACAGTTGCGCGACGCCGAACGAACCGGCCAGGCGATCGCCCCGCTGCGCGATATCCTCGGCGTCGACAACGCCGACGCCGCCTACGCTATCCAGCGCCTGAACGTTCAGCACCACGTGGCCCATGGCCGACGGGTGGTGGGTCGCAAGGTGGGCCTGACCCATCCCAAAGTGCAGCAGCAGTTGGGGGTCAACCAGCCGGATTTCGGCACCCTGTTTGCCGACATGTGCTACGGCGACAACGCCGATGTGCCGTTTGGCCGCGTGCTGCAGCCCAAGGTGGAGGCCGAGATCGCCCTGGTGCTGAAACATGATCTGCCCCATGCCGATACCACTTTTGATGAGCTGTATAACGCCATCGAATGGGTGCTGCCGGCGCTGGAGGTGGTGGGCAGCCGCATTCGCGACTGGTCAATCGGCTTTGTCGACACCGTCGCCGATAACGCCTCCTGCGGCCTGTACGTCATCGGCGGCCCGGCGCAGCGACCGGCGGGTCTGGATCTGAAAGCGTGCGCCATGCAGATGACCCGCAACCAGGAGCTGGTCTCCAGCGGCCGGGGTAGCGAGTGCCTGGGGCATCCGCTGAACGCCGCGGTGTGGCTGGCGCGCAAGATGGCCAGCCTCGGCGAACCGCTGCGGGCGGGGGATATCGTGCTGACCGGGGCGTTAGGCCCAATGGTGGCGATTAACGAGGGGGACAGCTTTGTCGCCCATATTGAAGGTATTGGCTCAGTCGCGGCACGCTTCGTCGCCGCCGGAGAAGGACATCGTGATGCGTAA	MTISLDALAQQLRDAERTGQAIAPLRDILGVDNADAAYAIQRLNVQHHVAHGRRVVGRKVGLTHPKVQQQLGVNQPDFGTLFADMCYGDNADVPFGRVLQPKVEAEIALVLKHDLPHADTTFDELYNAIEWVLPALEVVGSRIRDWSIGFVDTVADNASCGLYVIGGPAQRPAGLDLKACAMQMTRNQELVSSGRGSECLGHPLNAAVWLARKMASLGEPLRAGDIVLTGALGPMVAINEGDSFVAHIEGIGSVAARFVAAGEGHRDA	PGPT0006005_396	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-3-PHENYLPROPIONIC_ACID|CINNAMIC_ACID_RESISTANCE,PGPT0006005-mhpD-K02554	NA	NA
BMS020_00746	867	mhpC	COG0596	2-hydroxy-6-oxononadienedioate/2-hydroxy-6-oxononatrienedioate hydrolase	ATGAGCTATCAACCGCAAACCGAAGACGCCACCAGCCGATTCCTCAACGTCGACGAGGGAGGCCGCACGCTGCGCATCCATATCAATGACTGCGGCGACGGGGAAGAGACCGTGGTGATGCTGCACGGCTCCGGGCCGGGGGCCACCGGCTGGGCCAACTTCAGCCGCAACATTGACCCGCTGGTCGAGGCGGGCTATCGCGTGCTGCTCCTGGACTGTCCGGGGTGGGGGAAGAGTGATTCGATCGTCAACAGCGGTTCGCGTTCGGATCTCAACGCCCGCATTTTGAAAAGCGTGGTCGATCAGCTGGGGATCGATAAAGTCCATCTGCTGGGCAACTCGATGGGCGGCCACAGCGCGGTGGCCTTCACCCTGAGCTGGCCGGAGCGGGTGGCGAAGCTGGTGCTGATGGGCGGGGGAACCGGCGGCATGAGCCTGTTCACGCCGATGCCGACGGAAGGCATCAAACTGCTGAACGCCCTGTACCGCGAGCCGACCATTGAAAACCTGAAGAAGATGATGAGCATTTTCGTCTTCGACACCCGTGACCTCACCGACGCGCTGTTCGAGGCGCGGCTGAACAATATGCTGTCGCGCCGCGACCATCTGGACAACTTCGTCAAGAGCCTCGAAGCCAACCCGAAACAATTCCCTGACTTTGGCCCGCGGCTCGGCGAGATCGCTGCGCAAACTCTCATCGTCTGGGGACGCAATGACCGCTTCGTGCCGATGGATGCCGGACTACGCCTGCTCGCCGGGATCGCCGGCTCTGAGCTGCACATTTACCGCGACTGCGGCCACTGGGCGCAGTGGGAACATGCCGACAGTTTTAATCAGCTGGTGCTCAATTTCCTCGCACGGGCTTAA	MSYQPQTEDATSRFLNVDEGGRTLRIHINDCGDGEETVVMLHGSGPGATGWANFSRNIDPLVEAGYRVLLLDCPGWGKSDSIVNSGSRSDLNARILKSVVDQLGIDKVHLLGNSMGGHSAVAFTLSWPERVAKLVLMGGGTGGMSLFTPMPTEGIKLLNALYREPTIENLKKMMSIFVFDTRDLTDALFEARLNNMLSRRDHLDNFVKSLEANPKQFPDFGPRLGEIAAQTLIVWGRNDRFVPMDAGLRLLAGIAGSELHIYRDCGHWAQWEHADSFNQLVLNFLARA	PGPT0019765_263	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
BMS020_00747	945	mhpB		2,3-dihydroxyphenylpropionate/2,3-dihydroxicinnamic acid 1,2-dioxygenase	ATGCATGCCTATTTACACTGCCTGTCGCACACCCCGCTGGTGGGATTCGTTGACCCGGAGCAGGCGGTCCTCGATGAGGTGAACGGGGTGATTGCCGACGCCCGGCGGCGGATCGCTGAATTCGATCCCGAGCTGGTGGTGCTCTTCGCCCCCGATCACTACAACGGTTTTTTCTATGACGTGATGCCGCCGTTCTGCCTGGGCGTCGGCGCCACCGCCATCGGCGACTTCGCCAGCGCCGCCGGCGACCTGCCGGTGCCCACCGAGCTGGCGGAAGCCTGCGCCCACGCCGTGATCAACAGCGGTATCGACCTGGCGGTGTCGTACAACATGCAGGTGGACCATGGCTTCGCCCAGCCGCTGGAGTTTTTGCTGGGTGGGCTGGATCGCCTGCCGGTGCTGCCGGTGTTTATTAACGGCGTCGCCGCGCCGCTGCCGGGTTTTCAACGCACCCGGCTGCTGGGCGAGGCGATGGGCCGCTTCCTCAACACCCTCAATAAGCGGGTGCTGATCCTCGGCTCTGGCGGGCTTTCGCACCAGCCGCCGGTGCCGGAGCTGGCGAAGGCGGACGCCCATCTGCGCGACCGCCTGCTCGGCAGCGGCAAACAGCTGCCGCCGGACGAACGCGAGCTGCGCCAGCAGCGGGTGATCAGCGCCGCCCGGCGGTTTACCGAAGACCAGCGCTCGCTCCATCCCCTCAACCCGGTCTGGGACAACCGCTTTTTGAGCCTGCTGGAGCAGGGGCGGCTGAGCGAACTGGACGCGATCGGCAACGACGAGCTGTCGGCGATGGCCGGCAAATCGACGCACGAAATTAAGACCTGGGTGGCCGCCTTTGCCGCGCTATCCGCTTTTGGCCGCTGGCGCAGCGAAGGCCGCTATTACCGGCCGATCCCCGAGTGGATCGCCGGATTCGGCTCGCTGAGCGCCACCACCGAGATTTGA	MHAYLHCLSHTPLVGFVDPEQAVLDEVNGVIADARRRIAEFDPELVVLFAPDHYNGFFYDVMPPFCLGVGATAIGDFASAAGDLPVPTELAEACAHAVINSGIDLAVSYNMQVDHGFAQPLEFLLGGLDRLPVLPVFINGVAAPLPGFQRTRLLGEAMGRFLNTLNKRVLILGSGGLSHQPPVPELAKADAHLRDRLLGSGKQLPPDERELRQQRVISAARRFTEDQRSLHPLNPVWDNRFLSLLEQGRLSELDAIGNDELSAMAGKSTHEIKTWVAAFAALSAFGRWRSEGRYYRPIPEWIAGFGSLSATTEI	PGPT0019760_180	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,PGPT0019760-mhpB-K05713	NA	NA
BMS020_00748	1665	mhpA	COG0654	3-(3-hydroxy-phenyl)propionate/3-hydroxycinnamic acid hydroxylase	ATGACAACATCTACACCCGATATTCAACCCGCCGTGCAGCATACCGCCCAGGTCGCCATTGCCGGCGCCGGTCCGGTAGGCCTGATGATGGCCAACTACCTTGGCCAGATGGGCATCAGCGTGCTGTTGGTGGAAAAGCTCGACAAACTGATCGATTACCCGCGGGCCATCGGTATTGACGATGAATCGCTGCGGGCGATGCAGGCGGTGGGGCTGGTGGATGACGTGCTGCCGCACACCACGCCGTGGCACGCCATGCGCTTTCTGACCCCGAAGGGCCGCTGCTTTGCCGACATCCAGCCGATGACCGATGAGTTTGGCTGGTCGCGGCGCAATGCCTTTATTCAGCCGCAGGTGGATGCGGTGATGTATCACGGCCTGCAGCGTTTCCCGCAGGTCCGTTGCCTCTTCTCCCGCGAGGTGGAAGCCTTTAGCCAGAGCAGTGACAGTGTCACGTTAAATATCAAAGGACCGGACGGCGAGCGGGAGACAGTGCGCGCTGACTGGCTGGTGGCCTGCGACGGCGGCGCCAGCTTTATTCGCCGCACGCTGAACGTCCCTTTCGAAGGCAAGACCGCGCCGAACCAGTGGATCGTCATTGATATCGCCAACGATCCGCTGGCCACCCCGCACGTCTACCTGTGCTGCGACCCGGTGCGGCCCTACGTTTCCGCCGCGCTGCCCCACGGCGTGCGCCGCTTTGAATTTATGGTGATGCCCGGGGAAACCGAAGCCCAGCTCAGCGAGCCGCACAATATGCGCCGTCTGCTGAGCAAAGTGCTGCCGGACCCGGATCGCGTCGAGCTGATCCGCCAGCGGGTCTACACCCATAACGCGCGCCTTGCCGAGCGCTTTCGCATTGACCGGGTGCTGCTGGCCGGCGACGCCGCGCATATCATGCCGGTCTGGCAGGGCCAGGGATACAACAGCGGCATGCGTGACGCCTTCAACCTGGCGTGGAAGCTGGCGCTGGTGGTCAACGGCAAAGCGGGAGAGGCGCTGCTTGACAGCTACCAGCAGGAGCGTCGCGACCACGCGAAGGCGATGATTGACCTGTCGGTCACCGCCGGTCACGTGCTGGCGCCGCCGAAGCGCTGGCAGGGCGCGGCGCGCGATGGCCTCTCCTGGCTGCTGAACTACCTGCCGCCGGTGAAACGTTACTTCCTCGAAATGCGCTTTAAGCCGATGCCGCAGTATCGCGAGGGGGCGCTGCTGACCGACGGCGCAGGCAAAGCCTCGCCGGTGGGCAAAATGTTTATTCAACCGCAGGTGACGCTGGAGAACGGCGAGAGTCTCCTGCTCGATGAGGTTATCGGAGCGAATTTCGCCATTATCGGCTGGGGCTGCAACCCGCAGTGGGGGCTCGACGCCGGGCAGATCGCCCGCTGGCGCGCGATAGGGGTGCGCTTTATCCAGGTCGTGCCGGAGGTGCAGATCCATCGCGAGCAGGATAACGCCCCGGGCACGCTGCGGGTGGGGGATAAGCAAAACCGTCTGAAGAGCTGGTTTGCGCAACATAACACCGCCATCGCCGTGGTCAGGCCGGACCGCTTTGTCGCCGCTCTCGCTATCCCGCAAACCCTCGGCGCGCAGCTGACCGCCCTGGCGGAAAAAATGACCCTTGCGGCCGGGAATACCGGCCACGCTGAAGAGAAGGTGGCCTGA	MTTSTPDIQPAVQHTAQVAIAGAGPVGLMMANYLGQMGISVLLVEKLDKLIDYPRAIGIDDESLRAMQAVGLVDDVLPHTTPWHAMRFLTPKGRCFADIQPMTDEFGWSRRNAFIQPQVDAVMYHGLQRFPQVRCLFSREVEAFSQSSDSVTLNIKGPDGERETVRADWLVACDGGASFIRRTLNVPFEGKTAPNQWIVIDIANDPLATPHVYLCCDPVRPYVSAALPHGVRRFEFMVMPGETEAQLSEPHNMRRLLSKVLPDPDRVELIRQRVYTHNARLAERFRIDRVLLAGDAAHIMPVWQGQGYNSGMRDAFNLAWKLALVVNGKAGEALLDSYQQERRDHAKAMIDLSVTAGHVLAPPKRWQGAARDGLSWLLNYLPPVKRYFLEMRFKPMPQYREGALLTDGAGKASPVGKMFIQPQVTLENGESLLLDEVIGANFAIIGWGCNPQWGLDAGQIARWRAIGVRFIQVVPEVQIHREQDNAPGTLRVGDKQNRLKSWFAQHNTAIAVVRPDRFVAALAIPQTLGAQLTALAEKMTLAAGNTGHAEEKVA	PGPT0019755_614	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-3-PHENYLPROPIONIC_ACID|CINNAMIC_ACID_RESISTANCE,PGPT0019755-mhpA-K05712	NA	NA
BMS020_00749	813			hypothetical protein	ATGCGTGATGATGGGGCCACTGAGTACAAAACGGTGCGCGGATTAAGCCGGGGTTTATTGTTATTAAAATTGTTAAATAAATTCGACGGCGGCGCGACGCCCGGCCTGCTGGCGGAGTTTAGCGGCCTGCATCGCACCACCGTGCGCCGGCTGCTGGAGACGCTGCAGGAGGAAGGTTTTGTCCGCCGCAGCCGCTCCGATGACAGCTTTCGTCTGACCATTAACGTCCGCCAGCTGAGCGACGGATTTCGTGACGAACATTGGATTTCTGCCCTCGCCACGCCGCTGCTCGGGGAGCTGCTGCGCGAGGTCCAGTGGCCGACGGATATCACCACCCTCGACGTCGACGCCATGGTGGTGCGCGAAACCACCCACCGCTTCAGTCGGCTGTCGTTTCACCGGGCGATGGTCGGACGGCGACTGCCGCTGCTGCTCACCGCCTCCGGTCTGACGTGGCTGGCCTTTGCCCCCGACGCGGAGCGCGACGCCATTCTCAGCATGCTGGCCGCCCGTCCGGAAGCGGAGTATCAGCTGGCTCGCGAACCGGAACGGCTGGCGGCGATCCTCGCCCGCACCCGCCAGAAGGGCTATGGCGAAAATTTCCGCGGCTGGCGGCAGGAGGAGAAAATCGCCTCTATCGCCGTGCCGGTCTGCAGCCAGCAGCGGGTCATCGGCTGCCTCAACCTGGTCTATATCGCCAGCGCCATGACCATTGAGCAGGCGGCGCAGAAGCATCTCTCCGCGCTGCAGAGGGTGGCGGGCCAGATAGAAGCCCGCATGGAGGATGAAGAAGTGTGGTACGAAATGCCCTGA	MRDDGATEYKTVRGLSRGLLLLKLLNKFDGGATPGLLAEFSGLHRTTVRRLLETLQEEGFVRRSRSDDSFRLTINVRQLSDGFRDEHWISALATPLLGELLREVQWPTDITTLDVDAMVVRETTHRFSRLSFHRAMVGRRLPLLLTASGLTWLAFAPDAERDAILSMLAARPEAEYQLAREPERLAAILARTRQKGYGENFRGWRQEEKIASIAVPVCSQQRVIGCLNLVYIASAMTIEQAAQKHLSALQRVAGQIEARMEDEEVWYEMP				NA	NA	NA	NA	NA
BMS020_00750	837	ydiB_1	COG0169	Quinate/shikimate dehydrogenase	ATGGTGATTAGTGGGAATACGCGGCTGATAGCGCATCTTGGCTATCCGACCGCCAGTTTTAAGGCGCCGATGATCTACAACCCGTGGTTTGTCGACCAGCAGGTGGACGTGAAGGTGGTGCCAATGGGCGTCAGGCCGGAGGACTATGCCGCGTTTATTCCGCCGCTGTTTACGATGACCAATATCATCGGCGCGCTGGTGACGATGCCGCATAAAATCGCCACCTGCGATCTGGTGCAACGCCTGAGCCCGACGGCGGCTATCGCCGGCGCCTGCAACGCCATCCGTCGCGAGGCGGACGGCAGCCTCTCCGGGGACATGTTCGATGGCGACGGCTTTGTGCTGGGCCTGCGCCGTAAGGGATTTCAGCCTGAGGGGACGCGGGCGCTGGTGGTCGGCAGCGGCGGGGTGGGGTCGGCTATCGCCGCCTCCCTTGCGGCTGCAGGGGTCAGCGCCCTGACCCTGTACGATACCCGTCCCGAGGTGGCGCACGCTCTCGCTGGACGGCTGCATCAGCACTATCCCCAGCTCGATATCACTCTGATGCAGCACGATCCTGCCGGACACGAGCTGGTGGTCAACGCCACGCCGCTGGGGATGAAGGTCAGCGATCCGCTGCCGCTGGACGTTGACCGTCTGGCGCCAGGCACCTGGGTGGGGGAGGTGGTGATGACCCAGGAGTATACTCCGCTGCTGAGAGCCGCCCAGGCGCGACAGTGCCACATCCAGCGCGGGACCGACATGCTGTTTGAAATGATCCCTGCCTATCTGCGCTTTTTCGACCTGCCGGTAGCCACCCCCGAACAGCTGCGGGCGCTGGCGGAAATTCGCTACTGA	MVISGNTRLIAHLGYPTASFKAPMIYNPWFVDQQVDVKVVPMGVRPEDYAAFIPPLFTMTNIIGALVTMPHKIATCDLVQRLSPTAAIAGACNAIRREADGSLSGDMFDGDGFVLGLRRKGFQPEGTRALVVGSGGVGSAIAASLAAAGVSALTLYDTRPEVAHALAGRLHQHYPQLDITLMQHDPAGHELVVNATPLGMKVSDPLPLDVDRLAPGTWVGEVVMTQEYTPLLRAAQARQCHIQRGTDMLFEMIPAYLRFFDLPVATPEQLRALAEIRY	PGPT0012890_2940	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
BMS020_00751	1323	dgoT_2		D-galactonate transporter	ATGAGCTCATATAGCCCTAACCCGACGGCCGCCGCCCAGCCAGCCGTCACCGCGCGCCGCTCCCGGCGGCGCATCGGCATTCTTGCGCTGCTGGCCATCGGCACCATGATCAACTACCTCGATCGCACCGTGCTGGGGATCGCCGCCCCAAAGCTGACCGGTGAGCTGGGGATCGACCCTGCGCTCATGGGGATCCTCTTCTCCGCTTTCGCCTGGACCTACGCTTTGGCGCAGATCCCCGGCGGGCTGTTTCTCGACCGTTTTGGCAACAAAGTGACCTATTTTCTGTCGCTGACCCTGTGGTCGCTGTTTACCCTGTTCCACGGCATGGCGGTGGGGCTGAAGACGCTGCTGCTGTGCCGTTTCGGGCTTGGCGTCAGCGAAGCGCCGTGCTTTCCGGTGAACAGTCGGGTGGTCAGCGCCTGGTTCCCGCAGCAGGAGCGCGCGAAGGCCACGGCGGTGTACACCGTGGGGGAATACCTTGGGCTGGCCTGCTTTGCCCCGCTGCTGTTCTGGATCATGGACGGCTTCGGCTGGCGGGTGCTGTTCGTCAGCGTCGGCGTGGTCGGCATTCTGTTCGCCCTGGTGTGGTGGCGCTGCTACCGCGAACCGCATGAAGACCCTCGTCTCAGCCAGCAGGAGCGCGAGCATATCGAAAACGGCGGCGGCCTGAGCGCCCCAGCCGACCAGCAGGTGGCGTTCAGCTGGCCGCTGGTCCGCCAGCTGCTGAGCAAACGTCAGATCATCGGCGCCAGTATCGGCCAGTTTGCCGGCAATACGGTGCTGGTGTTCTTTCTCACCTGGTTTCCCACCTGGCTGGCCACCGAACGCCATATGCCGTGGCTGAAGGTCGGTTTCTTTTCCATCCTGCCGTTTGTCGCCGCCGCCGGCGGGGTGATGTTTGGCGGCTGGATCTCTGACAAGCTGCTTAAAGCCACCGGGTCGGCCAACCTGGGGCGTAAGCTGCCGATCGTCGCCGGCCTGCTGATGGCCAGCTGCATCATCTCCGCCAACTGGCTGCAGAGCGACCTGGCGGTGATCCTGGTGATGTCGTTTGCCTTTTTTGGCCAGGGGATGGTGGGCCTCGGCTGGACGCTGATCTCCGACATCGCCCCGAAGGGGCTGGGCGGGCTCACCGGCGGCCTGTTCAACTTTTGCGCCAACCTCGCGGGGATCCTCACCCCATTGGTGATCGGCTTTATCGTCGCCGGGTTCGGCAATTTCTTCTACGCGTTGATCTACATCGGCGGCGCCGCGCTGCTGGGCGTGGCGGCCTATCTGTTTATCCTCGGCGACGTCAAACGTATCGAGTTATCGCAGTAA	MSSYSPNPTAAAQPAVTARRSRRRIGILALLAIGTMINYLDRTVLGIAAPKLTGELGIDPALMGILFSAFAWTYALAQIPGGLFLDRFGNKVTYFLSLTLWSLFTLFHGMAVGLKTLLLCRFGLGVSEAPCFPVNSRVVSAWFPQQERAKATAVYTVGEYLGLACFAPLLFWIMDGFGWRVLFVSVGVVGILFALVWWRCYREPHEDPRLSQQEREHIENGGGLSAPADQQVAFSWPLVRQLLSKRQIIGASIGQFAGNTVLVFFLTWFPTWLATERHMPWLKVGFFSILPFVAAAGGVMFGGWISDKLLKATGSANLGRKLPIVAGLLMASCIISANWLQSDLAVILVMSFAFFGQGMVGLGWTLISDIAPKGLGGLTGGLFNFCANLAGILTPLVIGFIVAGFGNFFYALIYIGGAALLGVAAYLFILGDVKRIELSQ	PGPT0002190_370	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_GALACTONATE_TRANSPORT,PGPT0002190-dgoT-K08194	NA	NA
BMS020_00752	1854			hypothetical protein	ATGCTGCGCTCTATCGCCACCGTTTCGATTTCCGGCACCCTGCCAGAGAAGCTGCACGCTATTGCGGCGGCGGGGTATCAGGGTGTGGAAATTTTCGAGAACGATCTGCTCTATTATACGGGGACGCCGGCGGAAATCCGCCAGCTGGCCGCCGATTTAGGGTTAAAAATCACGCTTTTTCAACCCTTTCGCGATTTTGAAGGCGCCAGCCGGGCGCAGTTTGCGGCCAATATGGCCCGCGCCAGACGCAAATTTGCGCTGATGCGCGAGCTGGGCTGCGACACGCTGCTGCTGTGCAGCAATGTGCAGCCGGACTGCTCGGCGGATAGCGAACTGCAGGTGGCGGACCTGCGGGCGCTGGCCACGCTGGCGGAAGAGGAGGGGATCGCTATCGGCTATGAGGCGTTGGCCTGGGGAACCCATGTGAACCGCTGGCAGCAGGCCTGGGAGCGGGTGCAGCGGGTGGACAGCCCGGCGCTGGGCCTGGTGCTCGACAGCTTCCATATCCTGGCCCGGGGCGACACCCTCGACGCGCTGCCATCGGTGCCGGTGGAGAAAATCACCTTCGTTCAGCTCGCCGATGCGCCGTATATGAAAATGGATCTCCTGGAGTGGAGTCGCCATTTCCGCTGCTTCCCCGGGCAGGGGGAGCTGCCGCTGGAGGCGTTTGCCGAGCAGATCACCCGCTGCGGCTATCGCGGCCCCTGGTCGCTGGAGATCTTTAATGACGGTTTTCGCGCCTCGCCGAACGGCGCGACGGCCAAAGATGGCTATCGTTCGCTGCTGTGGCTGGAGGAGCAGACTCGTCGCCGGCTCCCGGCGTGCGATGCCGATCTGTTTTCACCGCCGCCACCGCCGGTCTGTCACGGGCTGGAGTTTATCGAATTCGCCGCCAGCGTCGCCGAGGCGCAGCGCCTGGGGCAGCACCTGCAGGCGCTGGGTTTTCAGCACGAGGGAAGCCACCGCTCCAAACAGGTCACGCTGTGGCGCAACGGCGGAGCGCGGATCGTGATAAACCATCAGCCGCACAGCTGGGCCGATCACTTTTATCAACGCCACGGGGTATCGCTCTGCGCGATGGCGCTGCGGGTCGACAGCAGTGCGCCGATTGTCGCTCGCGCCCGCGCGCTGGGGTATGCCACCTGGCAGGGCGACGCCGGGCCGAACGAAACGCCGATCCCGGCGATCTGCGCCCCTGACGGCAGCCTGGTCTATCTCATCGATGCCGGGGAGGCGATCTACGAGCGCGACTTTCTCCTGCGCGATGGCGTGACGGTGCGCGAAGATTACCTCGGCATCGACCATCTGGCGCTGGGGATGGAAGCCGACAGCCGCGACAACTGGGTGATGTTCTTCCGCACGGTGTTTGGTTTTACGCTCGAACATGAGCAGACGCTGCCGGATCCCTATGGGCTGGTGCGTAGTCTGGTGGTGCGCAGCCCGCAGGGGGAGATCCGCCTGGCGCTGAATATCTCCCAGAGCCGGGCGACGCAGATCGCCCGCTCGGTCGCCTGCTACCAGGGGGCGGGGCTGCAGCATGCCGCCTTTGCCTGCCGCGATCTGCCGGCCACCTGCGACCAGCTCGCCGCGGTTGCCGATCATGCGCTGCCGATCCCGGCCAATTACTATGACGATCTGCTGGCGCGCTTTGGCGGCGAGCTGGACGTCGGGCAGCTCCAGCGGCGGCAGCTCCTCTACGACCGCGATCCGCAGGGCGGAGCGTTCCTGCATCTGTATACCCGGCCCTTCATCGCCGGGCGCTTCTTCTTTGAATTAACCGAACGACGGGCAGGCTACGCGCTCTATGGCGCGGCGAATGCGGCCGTTCGTCTGGCGGCGATGCAGTATTGTTAG	MLRSIATVSISGTLPEKLHAIAAAGYQGVEIFENDLLYYTGTPAEIRQLAADLGLKITLFQPFRDFEGASRAQFAANMARARRKFALMRELGCDTLLLCSNVQPDCSADSELQVADLRALATLAEEEGIAIGYEALAWGTHVNRWQQAWERVQRVDSPALGLVLDSFHILARGDTLDALPSVPVEKITFVQLADAPYMKMDLLEWSRHFRCFPGQGELPLEAFAEQITRCGYRGPWSLEIFNDGFRASPNGATAKDGYRSLLWLEEQTRRRLPACDADLFSPPPPPVCHGLEFIEFAASVAEAQRLGQHLQALGFQHEGSHRSKQVTLWRNGGARIVINHQPHSWADHFYQRHGVSLCAMALRVDSSAPIVARARALGYATWQGDAGPNETPIPAICAPDGSLVYLIDAGEAIYERDFLLRDGVTVREDYLGIDHLALGMEADSRDNWVMFFRTVFGFTLEHEQTLPDPYGLVRSLVVRSPQGEIRLALNISQSRATQIARSVACYQGAGLQHAAFACRDLPATCDQLAAVADHALPIPANYYDDLLARFGGELDVGQLQRRQLLYDRDPQGGAFLHLYTRPFIAGRFFFELTERRAGYALYGAANAAVRLAAMQYC	PGPT0009480_242	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0009480-hppD-K00457	NA	NA
BMS020_00753	639	nicS		HTH-type transcriptional repressor NicS	ATGACCGCCGTTGCTCATGATGAAGCACAATCGCTGAAGGAGCGGATCTTCAGCGCCGCTATCGCCGTCTTTGCCGAACACGGGCTTTCAGGCGCCCGCATGGAGCAGATCGCCACCGAGGCGCAGACCACCAAGCGCATGGTGGTCTACTACTTCAAAAGCAAAGAGCAGCTCTATCAGGAGGTGCTGCAGCATGTGTATGCGCGGATCCGCGAAACCGAGCAGCAGCTGGGGCTGGAGAATGTGCCGCCGGTAGAGGCGCTGGTGCGGCTGGTGCGCTGGAGCGTGCGCTATCACGCCACCCACGCGGACTATATGCGGGTGATTTGCATGGAGAACATGCAGCGCGGCAAGTGGCTGAAGACCTCGGGAGAGCTGAAGCCGCTGAATCGTACCGCCCTGTCGATTCTCGAAGACATTTTGCAGCGCGGCCAGCAGCAGGGGGTCTTTCAGGCGGGGCTGGAAGCGCGCGATGTGCACCGGTTAATCAGCAGCTTTAGCTTTTATCAGGTGTCGAATTTCTACACCTTCAGCAGTCTGTACCTTGACGATCCGCTGCCCGCCATTGACGATGAAGCGATGGTGGCCCACCACTGCGACATTGCCGTCCGGGCGGTGGTCCGCTTCGTGATTTCCTGA	MTAVAHDEAQSLKERIFSAAIAVFAEHGLSGARMEQIATEAQTTKRMVVYYFKSKEQLYQEVLQHVYARIRETEQQLGLENVPPVEALVRLVRWSVRYHATHADYMRVICMENMQRGKWLKTSGELKPLNRTALSILEDILQRGQQQGVFQAGLEARDVHRLISSFSFYQVSNFYTFSSLYLDDPLPAIDDEAMVAHHCDIAVRAVVRFVIS				NA	NA	NA	NA	NA
BMS020_00754	213	fumD		Fumarase D	ATGGGAAATAAAGCGAAAGACGACGAGCTGTACCAGGAAATGTGCCGCGTGGTGGGCAAAGTGGTGCTGGAGATGCGTGACCTTGGCCAGGAGCCGAAACACATTGTCATCGCCGGCGTGCTGCGCACCTCGCTGGCGAACAGCAAAATCCAGCGTTCACCGCTCACCGAGGAGGCAATGGCGAAGGTCATTCACGCCCTCTCCGGACACTGA	MGNKAKDDELYQEMCRVVGKVVLEMRDLGQEPKHIVIAGVLRTSLANSKIQRSPLTEEAMAKVIHALSGH	PGPT0001655_29	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001655-fumD-K01675	NA	NA
BMS020_00755	1413	pykF	COG0469	Pyruvate kinase I	ATGAAAAAGACCAAAATTGTTTGCACCATCGGTCCGAAAACCGAATCTGAAGAGATGCTGACCAAAATGCTGGAAGCCGGCATGAACGTGATGCGTCTGAACTTCTCCCACGGTGACTATGCGGAACACGGTCAGCGCATCCAGAACCTGCGCAATGTGATGAGCAAAACCGGTAAGAAAGCCGCTATTCTGCTGGACACCAAAGGACCGGAAATTCGTACCATCAAGCTGGAAGGCGGCAACGACGTCTCCCTGAAAGCGGGCCAGACTTTCACCTTCACCACCGATAAATCGGTCATCGGCAACAGCGAAATCGTTGCGGTAACCTATGAAGGCTTCACCTCCGACCTGAGCGTCGGCAACACCGTTCTGGTGGACGATGGCCTGATCGGCATGGAAGTGACCGCTATCGAAGGCAACAAAGTTATCTGTAAAGTGCTGAACAACGGCGACCTTGGCGAGAACAAAGGCGTGAACCTGCCGGGCGTCTCTATCGCCCTGCCGGCGCTGGCGGAAAAAGACAAACAGGACCTGATCTTCGGTTGCGAACAGGGCGTCGACTTCGTCGCGGCCTCCTTCATCCGTAAGCGTTCCGACGTCGTCGAGATCCGTGAGCACCTGAAAGCCCACGGTGGCGAAAACATCCAGATCATCTCCAAAATCGAAAACCAGGAAGGCCTGAACAACTTCGACGAAATCCTCGAAGCCTCTGACGGCATCATGGTTGCTCGTGGCGACATGGGCGTTGAGATCCCGGTTGAAGAAGTTATCTTCGCGCAGAAAATGATCATCGAAAAATGTATCCGCGCGCGCAAAGTGGTTATCACCGCGACCCAGATGCTGGACTCCATGATCAAAAACCCACGTCCGACCCGCGCTGAAGCCGGCGACGTGGCCAACGCCATCCTCGACGGCACCGATGCGGTAATGCTGTCCGGCGAATCGGCGAAAGGTAAATACCCGCTGGAAGCGGTCACCATCATGGCGACCATCTGCGAACGTACCGACCGCGTCATGACCAGCCGTCTGGATTTCAACAACGACAACCGTAAACTGCGCATCACCGAAGCGGTGTGCCGCGGCGCGGTAGAAACCGCTGAGAAACTGGAAGCGCCGCTGATCGTGGTCGCCACCCAGGGCGGTAAATCCGCACGCGCTGTGCGCAAATACTTCCCGGATGCCACCATCCTGGCGCTGACCACCAACGAAACCACTGCTCGCCAGCTGGTGCTGAGCAAGGGCGTTGTGCCGCAGCTGGTGGAAGAGATTGCCTCTACGGATGATTTCTATCACCTGGGTAAAGATCTGGCGCTGAAGAGCGGCCTCGCGCGCAAAGGCGACGTGGTGGTGATGGTCTCTGGCGCATTAGTCCCGAGCGGCACCACTAATACCGCTTCCGTGCACGTGCTGTAA	MKKTKIVCTIGPKTESEEMLTKMLEAGMNVMRLNFSHGDYAEHGQRIQNLRNVMSKTGKKAAILLDTKGPEIRTIKLEGGNDVSLKAGQTFTFTTDKSVIGNSEIVAVTYEGFTSDLSVGNTVLVDDGLIGMEVTAIEGNKVICKVLNNGDLGENKGVNLPGVSIALPALAEKDKQDLIFGCEQGVDFVAASFIRKRSDVVEIREHLKAHGGENIQIISKIENQEGLNNFDEILEASDGIMVARGDMGVEIPVEEVIFAQKMIIEKCIRARKVVITATQMLDSMIKNPRPTRAEAGDVANAILDGTDAVMLSGESAKGKYPLEAVTIMATICERTDRVMTSRLDFNNDNRKLRITEAVCRGAVETAEKLEAPLIVVATQGGKSARAVRKYFPDATILALTTNETTARQLVLSKGVVPQLVEEIASTDDFYHLGKDLALKSGLARKGDVVVMVSGALVPSGTTNTASVHVL	PGPT0002020_7253	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002020-pyk-K00873	NA	NA
BMS020_00756	237	lpp1		Major outer membrane lipoprotein Lpp 1	ATGAATCGTACTAAACTGGTACTGGGCGCGGTAATCCTGGGTTCTACTCTGCTGGCTGGTTGCTCCAGCAATGCTAAAATCGATCAGCTGTCTTCTGACGTTCAGACTCTGAACGCAAAAGTTGACCAGCTGAGCAACGACGTGAACGCAATGCGTTCCGACGTTCAGGCTGCTAAAGACGACGCAGCTCGCGCTAACCAGCGTCTGGACAACCAGGCTCACTCTTACCGTAAGTAA	MNRTKLVLGAVILGSTLLAGCSSNAKIDQLSSDVQTLNAKVDQLSNDVNAMRSDVQAAKDDAARANQRLDNQAHSYRK	PGPT0023840_200	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_LIPOPROTEIN,PGPT0023840-lpp-K06078	NA	NA
BMS020_00757	987	ynhG	COG1376	putative L,D-transpeptidase YnhG	ATGAAACGCAAAACGATGATCGCTTTAGCCCTTCTCGGCGCCCTTGGCGCCTCACCGGCCGCCTGGGCCGTCGATTACCCGCTGCCTCCGGCCAACAGCCGGCTGATTGGCCAGAACCAGTACTGGACGGTTCAGGAGAGCGATCGCAACCTGCAGGCGATTGCCCGCCATTTCGATACCGCGGCGATGCTGATCCTTGAAGCCAACGATACCATCGCGCCGGTGCAGCCGAAGCCCGGGACCCAGGTGCTGATCCCTTCTCAGATGCTGCTGCCCGACGTGCCGCGGGAGGGGATTGTCGTCAACCTCGCGGAGCTGCGGCTGTACTACTTCCCGCCGGGAGAGAATCAGGTCCAGGTTTATCCCCTGGGCATCGGCCAGTTAGGGCTGGAAACGCCGGAGATGACCACCCGCGTCGGGCAGAAGATCCCTAACCCGACCTGGACACCCACCGCCGGCATCCGCGCGCGCTCGCTGGAGAAAGGGGTGACGCTCCCGGCGGTGGTGCCGGCCGGGCCGAATAACCCGCTGGGCCGCTATGCGCTGCGTCTTGCCTACGGTAACGGCGAATATCTCATCCACGGGACTAACGCGCCGGACAGCGTTGGGCTGCGCGTCAGCTCGGGCTGTATGCGGATGAACGCCGATGACATCAAGGCGCTGTTCAGTCAGGTGAAAACCGGGACGCCGGTGCGGATCATCAATCAGCCGGTGAAGTTTGCCGTCGAGCCGGATGGTAAACGTTATGTAGAGGTCCACAGGCCGCTGTCGCAGACGGAAGGGGAAAACACCCGGACCATCGCTTACACGCTGCCAGCGGCGTTTCACGCCTTCGCAGAGGATAAAGCGGTGGATGACCTGCAGCTGAAAAAAGCGATGTCGAGAAGGGCGGGCTATCCGGTGGTGGTATCGACGGGGGCGGGTAGCGCGGCGACGTCGCTGTCGGCGCAGAACAGTTCGTCTGACAACGGCCTGCTCACCCAGTAG	MKRKTMIALALLGALGASPAAWAVDYPLPPANSRLIGQNQYWTVQESDRNLQAIARHFDTAAMLILEANDTIAPVQPKPGTQVLIPSQMLLPDVPREGIVVNLAELRLYYFPPGENQVQVYPLGIGQLGLETPEMTTRVGQKIPNPTWTPTAGIRARSLEKGVTLPAVVPAGPNNPLGRYALRLAYGNGEYLIHGTNAPDSVGLRVSSGCMRMNADDIKALFSQVKTGTPVRIINQPVKFAVEPDGKRYVEVHRPLSQTEGENTRTIAYTLPAAFHAFAEDKAVDDLQLKKAMSRRAGYPVVVSTGAGSAATSLSAQNSSSDNGLLTQ	PGPT0023765_183	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-L|D_TRANSPEPTIDASE_ACTIVITY,PGPT0023765-ynhG-K19234	NA	NA
BMS020_00758	417	sufE_1	COG2166	Cysteine desulfuration protein SufE	ATGGCGGCATTACCGGACAAAGACAAACTGTTGCGCAATTTTAGCCGTTGCGCCAACTGGGAAGAGAAGTATCTCTATATCATTGAGCTGGGCCAGCGGCTGCCGCCGCTGAGCGCCGAGGAGCACAGCCCGCAGAACATTATTCAGGGCTGTCAAAGCCAGGTGTGGATCGTGATGGCGCAGGATCCTTCCGGCGTTGTCACCCTGCGCGGCGACAGCGATGCGGCGATTGTCAAAGGGCTGATTGCGGTGGTGTTTATCCTTTATGACCGGATGACCGTCCAGGACATCACCGAGTTCGACGTCCGCCCGTGGTTTGAAAAAATGGCCCTCACCCAGCATCTTACCCCCTCCCGCTCGCAGGGCCTCGAAGCCATGATCCGCGCGATACGCGCGAAAGCCGCAAATATTAGCTAG	MAALPDKDKLLRNFSRCANWEEKYLYIIELGQRLPPLSAEEHSPQNIIQGCQSQVWIVMAQDPSGVVTLRGDSDAAIVKGLIAVVFILYDRMTVQDITEFDVRPWFEKMALTQHLTPSRSQGLEAMIRAIRAKAANIS	PGPT0020195_269	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0020195-sufS-K11717	NA	NA
BMS020_00759	1221	sufS_1	COG0520	Cysteine desulfurase	ATGACATTTTCAGTAGAACGGGTTCGCGCCGATTTTCCGGTACTGAGCCGGGAGGTCAACGGCCAGCCGCTGGTCTATCTTGACAGCGCCGCCAGCGCCCAGAAACCGGAGGCGGTGATTGGCGCCGAAGCGGAATTCTATCGCCACGGCTACGCGGCGGTGCATCGTGGGATCCATACCCTCAGCGCGGAAGCCACCGCGCGGATGGAGGCGGTGCGCCAGCAGGCGGCCATCTTCCTTAACGCCGGCTCGGCGGAGGAGCTGGTATTCGTGCGCGGCACCACCGAGGGCATTAACCTGGTGGCCAACAGCTGGGGAAACGCCAACGTCGGCGCCGGGGATAACATCATCATCAGCGAGATGGAGCACCACGCCAACATCGTACCGTGGCAGATGCTCTGCGCCAGGGTAGGGGCTGAGCTGCGGGTGATCCCCCTCAACCCGGACGGCACCCTGCAGCTGGACGTGGTTCCCGGGCTGTTTGACCAGCGTACCCGCCTGCTGGCGATAACCGAAGTCTCCAACGTGCTGGGGACGGAAAACCCGCTGTCGGCGCTGATTGCCCTTGCGCATCAGCATGGCGCGAAAGTGCTGGTGGACGGCGCCCAGGCGGTGATGCACCACCCGGTGGACGTTCAGGCGCTGGGCTGCGATTTTTATGTCTTCTCCGGCCATAAACTGTACGGCCCGACCGGGATCGGCGTGCTCTACGCCCGGGCCGAGCTGCTGCAGACAATGGCGCCATGGGAAGGGGGCGGGTCGATGATCGCCACCGTCAGCCTGACGGAGGGCACCACCTGGAACCTGGCGCCGTGGCGCTTTGAGGCCGGCACGCCGAATACCGGGGGGATCATTGGCCTCGGCGCGGCGCTGAGCTATGTCAGCCAGCTGGGACTGACCCAGATCGCCGAATACGAGCAGACGCTGATGCGCTACGCGCTGGAGGCCCTGCGCGCGGTGCCGGATCTGATCCTCTACGGTCCGGCGCAGCGTAAAGGGGTGATTGCCTTTAACCTCGGCCAGCATCACGCCTATGACGTCGGCAGCTTCCTCGATAACTACGGGATCGCCGTGCGGACCGGGCATCACTGCGCCATGCCGCTGATGGCCCGCTATCAGGTACCGGCCATGTGTCGGGCGTCGCTGGCGATGTACAATACCACGGAAGAGGTGGACCGCCTGGTGGCCGGCCTCCAGCGGATCCACAAACTATTAGGGTAA	MTFSVERVRADFPVLSREVNGQPLVYLDSAASAQKPEAVIGAEAEFYRHGYAAVHRGIHTLSAEATARMEAVRQQAAIFLNAGSAEELVFVRGTTEGINLVANSWGNANVGAGDNIIISEMEHHANIVPWQMLCARVGAELRVIPLNPDGTLQLDVVPGLFDQRTRLLAITEVSNVLGTENPLSALIALAHQHGAKVLVDGAQAVMHHPVDVQALGCDFYVFSGHKLYGPTGIGVLYARAELLQTMAPWEGGGSMIATVSLTEGTTWNLAPWRFEAGTPNTGGIIGLGAALSYVSQLGLTQIAEYEQTLMRYALEALRAVPDLILYGPAQRKGVIAFNLGQHHAYDVGSFLDNYGIAVRTGHHCAMPLMARYQVPAMCRASLAMYNTTEEVDRLVAGLQRIHKLLG	PGPT0020195_3476	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
BMS020_00760	1275	sufD_1	COG0719	FeS cluster assembly protein SufD	ATGGCTGGCTTACCGAACAGCAGTAATGCGCTGCAGCAGTGGCACCATCTGTTTGAAGCGCAGGGCGACCAGCGTACGCCGGAGGCCAGCCAGCATCTGCAGCAGCTGTTGCGCCTGGGTCTGCCGACGCGCAAGCAGGAGGACTGGAAATACACCCCGCTGGACGCGCTGATTAACGGCCGCTTCGTCGCCGATGAGGGAGCGTCGATCAGCGCCGAACAGCGTGACGCGCTGGCGCTGCCGCTGGACGCCTGGCGACTGGTGTTTATCGACGGTCGCTATCATCCTGAGCTGAGCGACGATCTCGCCGCCAGCGGCGTGGAGGTCAGTGTCGATAACCAGCGCCAGCATCTGCCGGATGCCCTCCAGCCGGAGGTGTTTCTCCATCTGACCGAAAGCCTGGCGCAGACGGTGACCCGCCTGCGCGTGCCGCGCAACCGCCGCCTGGATAAGCCGCTGCTGCTGATGCATATCACCCGCGGCCTGGCCGGCGATGCGCTGAATACCGCCCACTATCGTCACCATCTGGCGCTGGAGAGCGGGGCGGAGGCGACGATTATCGAGCACTATCTTAGCCTTGATGAGCAACCGCACTTCACCGGCGGGCGGCTGACCATGACGGTGGCGGACAACGCGCGCCTGCAGCACATCAAGCTGGCGTTCGAGAACGCGCACAGCTACCACTTCGCCCATAACGACCTGCTGCTGGGCCGCGACGCCTCGGCTTTCAGCAGCAGTTTCCTGCTCGGCGGTCAGGTGCTGCGTCATCACACAAGCACGCGTCTGGGCGGCGAAAACAGCGACCTGCGTCTTAACTCGCTGGCGATGCCGGTGAAAAATGAGGTCTGCGACAGCCGCACCTGGCTGGACCACCAGGTGGGGTACTGCACCAGCCGCCAGCTGCATAAAACCATTGTCAGCGATAAGGGCCGGGCGGTGTTTAACGGGCTGATCAACGTCGCGCCGCATGCGCTGAAAACCGACGGCCAGATGACCAACAACAATCTGCTGCTCGGGCGGCTGGCGGAGGTCGACACCAAACCGCAGCTGGAGATTTACGCCGATGACGTGAAATGCAGCCACGGGGCGACGGTAGGGCGCATTGACGAAGAACAGCTGTTCTATCTGCGCTCGCGCGGGATTGAACAGCAGGCGGCGCAGCAGATGATCCTCTACGCCTTCGCCGCCGAGCTTACCGAAGCTATCCACAGCGACGCGCTCAGAGAGCAGGTGCTGGCGCGGATTGGAGAGCGTTTGCCGGGAGGCACAGCATGA	MAGLPNSSNALQQWHHLFEAQGDQRTPEASQHLQQLLRLGLPTRKQEDWKYTPLDALINGRFVADEGASISAEQRDALALPLDAWRLVFIDGRYHPELSDDLAASGVEVSVDNQRQHLPDALQPEVFLHLTESLAQTVTRLRVPRNRRLDKPLLLMHITRGLAGDALNTAHYRHHLALESGAEATIIEHYLSLDEQPHFTGGRLTMTVADNARLQHIKLAFENAHSYHFAHNDLLLGRDASAFSSSFLLGGQVLRHHTSTRLGGENSDLRLNSLAMPVKNEVCDSRTWLDHQVGYCTSRQLHKTIVSDKGRAVFNGLINVAPHALKTDGQMTNNNLLLGRLAEVDTKPQLEIYADDVKCSHGATVGRIDEEQLFYLRSRGIEQQAAQQMILYAFAAELTEAIHSDALREQVLARIGERLPGGTA				NA	NA	NA	NA	NA
BMS020_00761	747	sufC_1	COG0396	putative ATP-dependent transporter SufC	ATGTTAAGTATTCAAGATTTACACGTCGCCGTCGAAGATAAAGCGATCCTGCGCGGGCTGAACCTTGAGGTGCGTCCGGGGGAGGTCCACGCCATTATGGGGCCGAACGGCTCGGGGAAAAGTACGCTTTCGGCCACCCTGGCCGGGCGCGAAGATTACGAGGTCACCGGCGGCAGCGTCGAATTTAAGGGCAAAAACCTGCTGGAGCTCGCCCCGGAAGATCGCGCCGGGGAAGGCATCTTTATGGCCTTCCAGTATCCGGTGGAGATCCCCGGCGTCAGCAACCAGTTCTTCCTGCAGACCGCGCTGAATGCCGTGCGCAGCTATCGCGGCCAGGAGCCGCTGGATCGCTTCGACTTTCAGGATTTAATGGAAGAGAAAATCAGGTTGCTGCAGATGCCGGAAGATCTGCTGACCCGTTCGGTGAACGTGGGTTTCTCCGGCGGCGAAAAAAAGCGCAACGACATTCTGCAGATGGCGGTGCTTGAGCCGGAGTTGTGCATTCTCGATGAATCGGATTCCGGGCTCGACATTGATGCCCTGAAAATCGTCTCCCAGGGCGTGAACGCGCTGCGCGACGGCAAACGCGCCTTCATCATCGTCACTCACTATCAGCGCATCCTTGACTATATCAAGCCGGACTATGTCCATGTGCTGTATCAGGGGCGAATTGTGAAGTCGGGGGATTTCACTCTCGTTAAACAGCTGGAGGAGCAGGGCTATGGCTGGCTTACCGAACAGCAGTAA	MLSIQDLHVAVEDKAILRGLNLEVRPGEVHAIMGPNGSGKSTLSATLAGREDYEVTGGSVEFKGKNLLELAPEDRAGEGIFMAFQYPVEIPGVSNQFFLQTALNAVRSYRGQEPLDRFDFQDLMEEKIRLLQMPEDLLTRSVNVGFSGGEKKRNDILQMAVLEPELCILDESDSGLDIDALKIVSQGVNALRDGKRAFIIVTHYQRILDYIKPDYVHVLYQGRIVKSGDFTLVKQLEEQGYGWLTEQQ				NA	NA	NA	NA	NA
BMS020_00762	1488	sufB_1	COG0719	FeS cluster assembly protein SufB	ATGTCGCGTAATACTGAAGCAACAGACGATGTCAAAACCTGGACCGGCGGCCCGCTCAATTATAAAGAGGGCTTTTTCACTCGCCTGCAGACCGATGAGCTGGCCAAAGGCATTAATGAAGAGGTGGTTCGCGCCATCTCCGCCCGCCGCAATGAGCCGCAGTGGATGCTGGAGTTCCGGCTCAATGCTTACCGGGCGTGGCTGGAGATGGAAGAGCCGCACTGGCTGAAGGCGCATTACGATAAGCTGAATTATCAGGATTACAGCTACTATTCCGCCCCCTCCTGCGGCAACTGCGATGAGACCTGCGCCTCCGAGCCCGGCGCGGTGCAGCAGACCGGGGCCAACACCTTCCTGACCAGCGAGGTGGAAGAAGCCTTTAACCAGCTGGGCGTGCCGGTGCGCGAAGGGCGCGAGGTGGCGGTGGACGCGATATTCGACTCGGTGTCGGTGGCGACCACCTACCGTGAAAAGCTGGCGGAGCAGGGGATCATCTTCTGCTCTTTCGGCGAGGCGATCCACGACCATCCAGAACTGGTGAAAAAGTATCTGGGGACCGTGGTGCCGGGCAATGACAACTTCTTTGCCGCGCTGAACGCCGCGGTGGCTTCGGATGGCACCTTTATCTATGTGCCGAAGGGCGTCCGCTGTCCGATGGAGCTGTCGACCTATTTCCGCATCAACGCCGAAAAGACCGGCCAGTTCGAACGCACCATTCTGGTGGCCGATGAAGGCAGCTACGTCAGCTACATTGAGGGCTGCTCGGCGCCGGTGCGCGACAGCTATCAGCTGCACGCCGCGGTGGTGGAAGTCATCATCCATAAAGACGCGGAAGTGAAATACTCCACGGTGCAGAACTGGTTCCCGGGGGATAACAACACCGGCGGGATCCTCAACTTTGTCACCAAACGCGCCCTGTGCGAAGGGGAGAACAGCAAAATGTCATGGACCCAGTCGGAAACCGGCTCGGCCATCACCTGGAAATACCCCAGCTGCATCCTGCGCGGCGATAACTCAATCGGCGAATTCTTTTCGGTGGCGCTGACCAGCGGTCATCAGCAGGCGGACACCGGCACCAAAATGATCCATATCGGCAAGAACACCCGCTCGACCATCATCTCGAAAGGGATCTCCGCCGGACACAGCCAGAACAGCTATCGCGGGCTGGTCAAAATCATGCCGACCGCGACCAACGCCCGCAACTTCACCCAGTGCGATTCGATGCTGATCGGCCCGGACTGCGGGGCGCATACCTTCCCGTATGTGGAATGTCGCAACAACAGCGCCCAGCTGGAGCACGAAGCGACCACCTCGCGGATCGGTGAGGACCAGCTGTTCTACTGCCTGCAGCGCGGGATCAGCGAAGATGATGCCATCTCGATGATCGTCAACGGCTTCTGTAAAGACGTCTTCTCCGAACTGCCGCTGGAGTTCGCCGTCGAAGCGCAAAAATTGCTGGCCATTAGCCTTGAGCATAGCGTCGGCTGA	MSRNTEATDDVKTWTGGPLNYKEGFFTRLQTDELAKGINEEVVRAISARRNEPQWMLEFRLNAYRAWLEMEEPHWLKAHYDKLNYQDYSYYSAPSCGNCDETCASEPGAVQQTGANTFLTSEVEEAFNQLGVPVREGREVAVDAIFDSVSVATTYREKLAEQGIIFCSFGEAIHDHPELVKKYLGTVVPGNDNFFAALNAAVASDGTFIYVPKGVRCPMELSTYFRINAEKTGQFERTILVADEGSYVSYIEGCSAPVRDSYQLHAAVVEVIIHKDAEVKYSTVQNWFPGDNNTGGILNFVTKRALCEGENSKMSWTQSETGSAITWKYPSCILRGDNSIGEFFSVALTSGHQQADTGTKMIHIGKNTRSTIISKGISAGHSQNSYRGLVKIMPTATNARNFTQCDSMLIGPDCGAHTFPYVECRNNSAQLEHEATTSRIGEDQLFYCLQRGISEDDAISMIVNGFCKDVFSELPLEFAVEAQKLLAISLEHSVG				NA	NA	NA	NA	NA
BMS020_00763	378	sufA_1	COG0316	Protein SufA	ATGGAAGTACAAGCAGGAACCTTTAATCCCGCCGATTTCAGCTGGCAGGGACTGACCATGACGCCGGCCGCTGCCGCGCATATTCGCGATCTGATGCGTAAGCAGCCGGATAAAAAGGGGCTACGGCTGGGTATCAAAACCAGCGGCTGCGCCGGTTTTGGCTATGTGCTCGAAATGATTGCCGAGCCGGCGCCCGACGATCTGCTCTTTGAATCTGACGGGGCGAAGCTGTTTGCGCCGCTGCAGGCGATGCCGTTCATTGACGGCACGGAGCTGGATTACGTCCGGGAAGGTTTAAATGAAATCTTTAAATTTCATAACCCGAAAGCGCAGCACGAGTGCGGCTGCGGCGAAAGTTTTGGGGTGCAGGCGGAGTAA	MEVQAGTFNPADFSWQGLTMTPAAAAHIRDLMRKQPDKKGLRLGIKTSGCAGFGYVLEMIAEPAPDDLLFESDGAKLFAPLQAMPFIDGTELDYVREGLNEIFKFHNPKAQHECGCGESFGVQAE				NA	NA	NA	NA	NA
BMS020_00764	198			hypothetical protein	ATGAAAGATAAAGATGAACAAACGGCATTGATTGGCATGGCTATCGGCGCGGCGGTCATTAGCTTAGTGGCGACCCAAAAGCAGATTAATCAGGGGAGTATCGTGGATGAGCTGGTGCGGCTGGGCAGACAGAAGGGGGATGGGGTGGAGGATGAGGTCTTTGTCCAGGCCGCCCGCCTGGTGAGAAAAGGGACCTAG	MKDKDEQTALIGMAIGAAVISLVATQKQINQGSIVDELVRLGRQKGDGVEDEVFVQAARLVRKGT				NA	NA	NA	NA	NA
BMS020_00765	120			hypothetical protein	ATGGCCTTACTATTAGTCATAAGCATTGCGCTATGCCTGGAAAAAGACGCCACCAAGTGTTTGAAGGGCTCAGGCGTAAATCTAATCCAGAAAAAATGGTGTTCATTATGGTATTTATAG	MALLLVISIALCLEKDATKCLKGSGVNLIQKKWCSLWYL				NA	NA	NA	NA	NA
BMS020_00766	507			hypothetical protein	ATGAATCGTAAAAGTCTTGTTGTCTTTGCGTTAGGCTCGGCAGGATTACTGTGCAGTGCTTTTGCTAATGCGGCCACCACCGCTACGGCAAACCTTGATGTCACCCTGACAGTAGAATCATCCTGTATTCTTGCCGTTGATCCCCTCGATTTTGGTACGCATGCTATCGGCGATACCAACATTGAAGGCCAGACCAATGCCTCCGTCACCTGTACCGCTGGCACCCCCTATATTTTGACCTCTGACAGCGCACATACCTATGAATTAACTAATGCTTCTGGCACCGCGGGTACCAATACTGCAGCGTATGTGCTCTACCTGGATAATGCCGGTTCACAACCTCTGGCCCAACAGCTCCCTTCAGATTCTGAGGTTAGCGCCTCTGCTTCAACCGGAACGGGTGCCGCTCAGGTCATTCCAATCTACGGGAAAATACGAAACGCGGCGCTAAGTAATGTAGCTGCAGGCACGTATACCGATACCGTTACTTTGCAAGTGACTTACTAA	MNRKSLVVFALGSAGLLCSAFANAATTATANLDVTLTVESSCILAVDPLDFGTHAIGDTNIEGQTNASVTCTAGTPYILTSDSAHTYELTNASGTAGTNTAAYVLYLDNAGSQPLAQQLPSDSEVSASASTGTGAAQVIPIYGKIRNAALSNVAAGTYTDTVTLQVTY				NA	NA	NA	NA	NA
BMS020_00767	714			hypothetical protein	ATGAAATTTGGTTTTTTATCTTCATTTTTCGTTTTTTTTGGTTGCTCGTTGAGTGTATTTTCATATGCCGCAAGTTTACAGATGTACCCCGTCACTGTGAACTTCTGCCAGGGTCAAGCGGTGCGGCCGATATATATCAAAAATACCGGTCCTGCGCCAATTGGTACCCAGATGCGCCTCTATCTCTGGCAGCAAAAAAACAATAATGATGTACTTATCCCTACCCAGGACATAATCAGCAGCCCCCCTATTGCCGCTATTCCTGCAGGTAAGCAACAACTTGTCAGACTCATTATACCTGGCAACAGCAAGGGGCATGAACAGGCTTATCGTTTAATTGTCGATGAATTACCTGACACTAAATCAAATACTTCAACCAGTCAGGTAAAATTTTTGCTGCGTTACTCCATACCGGTCTTTTTGTCATGCTCGGAGACAAAAACTGACATCAGCAAAATTCGTGCATCATTAGATACCAGTGGGGCGACACCGCGTCTGTTCATAAAAAACACCAATGCTCAGCATATCAAATTAAGTAATGTTTCCCTAATATCAGCAGGAAAAAAACTTGTCATTAATCCAGGACTGATGGGATATGTTCTCCCCGGAAGTGAAATGTCGTGGTTCCTGCCCAAAGGGATGAATAAAGGGACGTCTTTATCCGTGACTATAAATGATAATGAGACTAATAAAACAATTAACCTTACACGGTAA	MKFGFLSSFFVFFGCSLSVFSYAASLQMYPVTVNFCQGQAVRPIYIKNTGPAPIGTQMRLYLWQQKNNNDVLIPTQDIISSPPIAAIPAGKQQLVRLIIPGNSKGHEQAYRLIVDELPDTKSNTSTSQVKFLLRYSIPVFLSCSETKTDISKIRASLDTSGATPRLFIKNTNAQHIKLSNVSLISAGKKLVINPGLMGYVLPGSEMSWFLPKGMNKGTSLSVTINDNETNKTINLTR	PGPT0016035_1460	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016035-fimC-K07346	NA	NA
BMS020_00768	2349			hypothetical protein	ATGAGACTAATAAAACAATTAACCTTACACGGTAACCTCTATTTTTTCGCGCTGCTGTTTTCCCCCCTTGTCTGCGGAGCATCTACAGACGAGGGGTTGCTGTACCTCACGATCAGTGTGAATGGTTCACCTGTTACTGGCCTGATCCCGGTAAAAAAACAGGGAGAACGTCTAAGCATTATGGCATCCGATGCGCGAGGCATACCTATACGGACCGACGATCTTCCTGTTTCGGGAGAATATATTGAACTCCAGTCAAAAAAGGGGCTAAGTTACCGCTATGATGATTTAAACCAGGCCCTGCTCATCACTGCCGACAGCACTCGTTTGACAGGTTTTCAGCACCTCAGCGCGCGTCAGGATGCACAGTTTATCCATGAGGATCAGCTGTCCAGAGAGGTCAGCGGTGTGGCGCTTAATTATAATCTTTTCGCCAGCCATAATAGCGATAATCAATACCTGACGGCGTATTCAGAATTTCGTACGTTTGGTCTGAGCCCGGGCCACTTTTCCAGTTCATTCAACAGTCGCTTTGCCAGCCAAAGCTATTCCGGAGAGGACACTGGCACAACACGATTAATGACTAGCTGGACCTGGGAAAATATTGATAAATTACTCAGCCTGACCGTCGGGGATAATTACACGGCCAGCCAGGCCTGGTCTAACAGCGTGCGGTTCGGTGGCATTAGCCTGACTCGCAACTATACCCTGCAGCCCAGCGTCAATACTTCCACTCGAGATATTTTAACCGACTCCGTTACCATGCCGTCAACGGTGGATCTGTATATTCAGGGGATTAAAACATCCTCTCAGCAGGTTACGCCCGGTCAGTTTACGTTGAATACTGCGCCGGTTCTCTCCGGCAATGGAAGCGCACAGGTGGTTATTACCGATATCAACGGCCAGCAACGTGTAGTGGACCTTGCACTTTACGGAACCAACCGCCTGCTGACTCAGGGATTGCATACGTGGGGATTAAACGCCGGTTGGGTGAGAAAAGACTACAGCGTCCGTTCATTCAGTTATGACACTGAATTTGTTGGCGTCGGCGACTGGCGGTATGGCGCTACGAACCAGCTCACCTTCGAATCACATACTGAACAGGGCGCTAATCTGAATAATCTCGGCGCCGGCGCTAATTATTTGTTATCCCCGACGCTGGGTCTGGTTCATATCGACCTTTCCTGGGGACGCTATCGGAATGATGACGGATTGCAGTGGGGAGCAGGATGGCAATGGAACGATCGTTATTTCAATGTTTCACTCAATCATACCCAGCGGGAGAGAACTTTTCGCGATATCACTGCTCTGGCGGATACGACACTGGCCACGCGACAAGACAGCGCCTTTCTCAGCTGGGCATTTCCTTCTCTTGGCACGCTCGGCGCAAGCTGGATCAACCAGCAATATACCGATCAGCGCTCCCGCTATGTGGGCGTTTCATGGTCAAAGTCATTTTCAGAACGCGTGATCTTAGCCACAAGTTTTACCCAGTCACTGGAAGAAGAGCGTGATAAAACCTTTTACGTCAATCTCACCATTCCTTTGTTTACCAGTCGGGACTATCTGACGCTGCAGCATAACCATGATAATCACAGCAATAGCGAGCAGGTCAGCCTCAGCCGTAGCCTGGAGTCAAACCGTCCGGGATGGGGATGGAATGCTTCTGTGCGTAATGGGCAAAATGATAACCAGCATGCCAGCGTTCAGCGCAGGAATACCTGGAGCGATATGGAAGCAGGCATCAATAATTACGGTCAGGAGGCTGACTACTACGCATCAATGTCCGGTGCGGTAGGCCTGTTTATGGGTGGGCTTTATGCGACCCGCGATCTTGGCGAGGCTTTCCTGCTGGTTGATACCGAAGGGGTGGCTGATATTCCTGTCCGCCTGGAACACAGACTGGTGGGTAAAACAGACAGTAATGGACGGTTGTTCCTGACCAACCTGCTTGCGTATCAAAAGAACAATGTTGATATAGATGCTTTAAATCTGCCGCCGGATTACCGGGCCCCTTACACCAGTCAGATTGCCATCCCCCGCAGAAAAGGGGGGGCGTTGACGACCTTTGAGGTATATCAGACAAAGGCGGTGCTGCTGCTGGCCTATGATGCCCAGGGCAAACCGGTGCCCTTCTCGGCCATGGTGCAAATTAAGGATAGCGAGAGCCATACACCGCGCCGGGGAACGACCGAGACGATTGTCGGTTATGACGGCAATATCTATCTGGAAGATCCACCGCAAAAGGGGAAAGCCATTGTGAGCTGGGACAGCGGACAGTGCCAGATCCGTTTACCCGAGGCTGTCGGCAGTCAGACTATTATCAAAAGGAAAGTTCTATGCCAGTAG	MRLIKQLTLHGNLYFFALLFSPLVCGASTDEGLLYLTISVNGSPVTGLIPVKKQGERLSIMASDARGIPIRTDDLPVSGEYIELQSKKGLSYRYDDLNQALLITADSTRLTGFQHLSARQDAQFIHEDQLSREVSGVALNYNLFASHNSDNQYLTAYSEFRTFGLSPGHFSSSFNSRFASQSYSGEDTGTTRLMTSWTWENIDKLLSLTVGDNYTASQAWSNSVRFGGISLTRNYTLQPSVNTSTRDILTDSVTMPSTVDLYIQGIKTSSQQVTPGQFTLNTAPVLSGNGSAQVVITDINGQQRVVDLALYGTNRLLTQGLHTWGLNAGWVRKDYSVRSFSYDTEFVGVGDWRYGATNQLTFESHTEQGANLNNLGAGANYLLSPTLGLVHIDLSWGRYRNDDGLQWGAGWQWNDRYFNVSLNHTQRERTFRDITALADTTLATRQDSAFLSWAFPSLGTLGASWINQQYTDQRSRYVGVSWSKSFSERVILATSFTQSLEEERDKTFYVNLTIPLFTSRDYLTLQHNHDNHSNSEQVSLSRSLESNRPGWGWNASVRNGQNDNQHASVQRRNTWSDMEAGINNYGQEADYYASMSGAVGLFMGGLYATRDLGEAFLLVDTEGVADIPVRLEHRLVGKTDSNGRLFLTNLLAYQKNNVDIDALNLPPDYRAPYTSQIAIPRRKGGALTTFEVYQTKAVLLLAYDAQGKPVPFSAMVQIKDSESHTPRRGTTETIVGYDGNIYLEDPPQKGKAIVSWDSGQCQIRLPEAVGSQTIIKRKVLCQ	PGPT0016040_2886	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016040-fimD|fimC|mrkC|htrE|cssD-K07347	NA	NA
BMS020_00769	951			hypothetical protein	ATGCCAGTAGTGCGTGTCATTCTGTTTGCCTGTGCGGGATTTTTGCTGGTATCTCACTATTCCCCCCGCGCTTATGCCGCGGAGTGTCGGTCCATAAGCCCGGCGAAATTTAGTTTCGGTACGGTAACAGCGGGAGAGATGGCTCAGACCAACCAGGCGCTCGAATTCCAGTGTAATAATTACGATTCAACACCGAGATATGTGCGCCTGTGTATGAATCTGACGAATACCGCCCCCCCTCAGATGAATACGGTGCCATCAGGGGCCCCGCTGGCTTATCTCGTCTACTCAGCTGACGATCTGAGTACCGATATTAGCGCAAACAGTGGTGCGTTTGCTGAACGGAACATCTTTCTGGATGGCGGGCAAACCAACTACACGTTTTACATCAACCTGGTTGCAAAAATACCGTCTGGACAAAGCGGACTTCAGGCCGGCGACTATTACGACGCCGGCACACCTGCGACGGTGAAGTACATCGATAACGCCGATAACAATGCTCTGCCATCCTGCTCAACCATGAGCGGTACCATTCTGTCATCAAGCATTGAGGCCCAGGCGACCGTCAAAAATGGTTGTGAACTGGTCAGTGTGGATCCACTTGACTTTGGGAGCAAAAGCCCGGCTACCAGCAGTCAGTTACGTGGCGATGCCACCGCTAAAATCGCCATCCGATGCCCGGTGAATACTAATTTTACCGTCGCGCTTGGTGAAGGTATGCATAATAACGGTACAAGCAGACAGGTATGCCATGGTTCCAGTTGCGTCAGTTACAATCTCTTTCAGGATGCGGGCCATACGACGCCATGGAATGACAGCGACAGGGTACAAAACCAGACATCAACCACCGGTAACGATCAATTACTCACGGTTTACGGTAATATTCCTGCGCAAAACTGGCCTGCGGCAGGAACCTATACCGACACGGTGGTGGTTACTCTGAGCTATTAA	MPVVRVILFACAGFLLVSHYSPRAYAAECRSISPAKFSFGTVTAGEMAQTNQALEFQCNNYDSTPRYVRLCMNLTNTAPPQMNTVPSGAPLAYLVYSADDLSTDISANSGAFAERNIFLDGGQTNYTFYINLVAKIPSGQSGLQAGDYYDAGTPATVKYIDNADNNALPSCSTMSGTILSSSIEAQATVKNGCELVSVDPLDFGSKSPATSSQLRGDATAKIAIRCPVNTNFTVALGEGMHNNGTSRQVCHGSSCVSYNLFQDAGHTTPWNDSDRVQNQTSTTGNDQLLTVYGNIPAQNWPAAGTYTDTVVVTLSY				NA	NA	NA	NA	NA
BMS020_00770	1185	lldD_1	COG1304	L-lactate dehydrogenase	ATGATTGTTTCAGCCCCCAGCGATTATCGCGAAGCCGCTCGTCGCCGTCTGCCCCGTTTCCTTTTTGACTATATTGACGGTGGCGCGGTGGCGGAAAATACCATGAACGCCAATGCCGCCGAGCTTGCCTCGGTCGCCCTTCGCCAGCGCGTGCTGTCCGGGGCGGGTGAACCGACGCTGGCCACCACCATCCTTGATGCCCCATGGGCGATGCCCGTGGCGCTGGGGCCGGTCGGCGCCACCGGCATGTATGCCCGCCGCGGCGAAGTCCAGGCGGCCCGCGCCGCCTCCCGCGCCGGGATCCCTTACACGCTGTCCACCGTGTCGGTCTGCTCCATTGAGGAGGTGGCGAGCCACGCCAGCGGCGCGCTCTGGTCCCAGCTGTACGTCCTGAAAGATCGCGGCTACATGCGTAACGCGCTGGAGCGCGCCTGGGCCGCCGGCATGAAAACCCTGGTATTCACTGTCGATATGCCGATCCCCGGCTCACGGTATCGGGACAACCGCTCAGGAATGTCCGGGCCGCACGCCACCTTGCGACAGTATCTTCAGGCCTGCACCCACCCGCGCTGGGCAATGAACGTCGGCCTGGCGGGCAGGCCCCTGTCGTTCGGTAATATCGAAGCCTATACCGGCCACAAAATGACCATGGACGACTATATGGGGTTCATCAGCAACAACTTCGACCCGTCCATCGCCTGGCACGATCTGGAGTGGATCCGCGACAGCTGGCCAGGAAAGCTGATCATCAAAGGGATCCTTGATGCCGAGGATGCGCGCAATGCCGTGCGGCTGGGCGCCGACGGCATTGTGGTCTCCAATCACGGCGGCAGACAGCTCGATGGCGCCATCCCCACCGCCCGGGCGCTGCCGCGGGTGGCGGAGGCGGTCGGCGACGATCTGACGGTCCTTGCCGACTCCGGAGTGCGCTCCGGCGTGGACGTTATTCGCCTGCTCGCCCTCGGCGCGAAGGGGGTCCTGCTTGGTCGGGCCTATATTTATGCCCTGGCCGCCGCGGGCGAAGCGGGCGTGGCGCACCTGCTGCGCTTATTTGCCGAGGATATGAAGGTCACCATGACCCTCACCGGCGCCACCTCCCCCTCGGCCATCAGCCTCGATTGCCTCGACCGGCTGGAAAAAGATCAACAGCGCAGCCGTGCGGTCCCGGTATCCTTATCTGCCTGA	MIVSAPSDYREAARRRLPRFLFDYIDGGAVAENTMNANAAELASVALRQRVLSGAGEPTLATTILDAPWAMPVALGPVGATGMYARRGEVQAARAASRAGIPYTLSTVSVCSIEEVASHASGALWSQLYVLKDRGYMRNALERAWAAGMKTLVFTVDMPIPGSRYRDNRSGMSGPHATLRQYLQACTHPRWAMNVGLAGRPLSFGNIEAYTGHKMTMDDYMGFISNNFDPSIAWHDLEWIRDSWPGKLIIKGILDAEDARNAVRLGADGIVVSNHGGRQLDGAIPTARALPRVAEAVGDDLTVLADSGVRSGVDVIRLLALGAKGVLLGRAYIYALAAAGEAGVAHLLRLFAEDMKVTMTLTGATSPSAISLDCLDRLEKDQQRSRAVPVSLSA	PGPT0001765_1095	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0001765-lldD-K00101	NA	NA
BMS020_00771	3102	cnrA		Nickel and cobalt resistance protein CnrA	ATGAGCGACGGACGTTTTAATCTCTCCGCGCTGGCCGTCCGCGAGCGGTCGGTGACCCTGTTTTTGATTATCCTTATTTCGGTCGCCGGGCTGGTGGCCTTCTTCGGGCTCGGGCGGGCGGAAGATCCGCCCTTCACGGTCAAGCAAATGACGGTCATCACCGTCTGGCCGGGCGCCACCGCGCAGGAGATGCAGGATCAGGTCGCCGAGCCGCTGGAGAAACGGCTCCAGGAGCTGAAGTGGTACGATCGCACCGAGACCTATACCCGACCCGGGATGGCGCTAATCACCTTATCGCTGCAGGATCAGACCCCGCCTTCCGAGGTGCCGGAGCAGTTTTATCAGGCGCGCAAGAAGCTGGGCGATGAGGCGAAAAACCTGCCTGCCGGCGTCTCCGGTCCGATGATGAATGACGAATTCGCCGATGTCACCTTTGCCCTTTTTGCGCTGAAGGCGCGGGGAGAGCCGCCCCGGCAGCTGGTGCGTGACGCCGAAACCCTGCGCCAGCAGCTGCTGCATGTTCCCGGGGTGAAAAAAGTGAATATTCTCGGCGAACAGGCGGAGCGCATTTATCTCTCGTTTTCTCATGACCGTCTCGCCACCCTGGGGCTCTCGCCGGAGGCGATTTTTGCCGCGCTGAACAGTCAGAATGTGCTGACCGCGGCCGGGGCTATCGAGACCCGCGGCGGGCAGATCTTTATCCGCCTCGACGGGGCGTTCGACCGCCTGCAGCAGATCCGCGACACGCCGATAATTGCCGGGGGCAGAACGCTGAAGCTCGCCGATGTCGCCACGGTTGAGCGGGGGTATGAAGATCCCGCCACCTTCCTGATCCGCAATCAGGGCGAACCGGCGCTGCTGCTCGGCGTGGTGATGCGCGAGGGCTGGAATGGACTGGCGCTGGGGAAAGCGCTGGACGCCGAAACGGCCAGCATCAATCAGAGCCTGCCGCTCGGCATGTCGTTGACGAAAGTGACCGATCAGTCGGTGAATATCAGCGCCGCGGTCGATGAGTTCATGATCAAATTCTTTGTCGCCCTGCTGGTGGTGATGGCGGTGTGCTTTGTCAGCATGGGATGGCGCGTGGGGGTGGTGGTCGCGGCGGCGGTGCCGCTCACCCTGGCCGTAGTGTTTGTGGTGATGGCGGCCACCGGCAAAAACTTCGACCGCATCACCCTCGGGTCGCTGATCCTCGCCCTGGGGCTGCTGGTGGATGATGCCATTATCGCCATCGAAATGATGGTGGTCAAAATGGAGGAGGGGTACGACCGCCTCAAAGCCTCGGCTTATGCCTGGAGCCATACCGCGGCGCCGATGCTGGCCGGCACCCTGGTGACGGCGGTGGGCTTTATGCCCAACGGGTTTGCGCAATCCACCGCCGGGGAGTATGCCAGCAATGTGTTCTGGATCGTCGGTATCGCGCTGATTGCCTCCTGGATTGTGGCGGTGATTTTTACCCCCTGGCTGGGCGTGCACCTGCTGCCGGAGAGGAAGACCGCGGCGGCGGGCCACGCCGCGCTGTATGACACCCCACGCTATCAGGGCTTTCGCCGGCTGCTGACCCGGGTTATCGCCCGCAAATGGCGCGTGGCCGCCGGGGTGGTGGTGCTGTTTATGGTGGCGTTACTGGGAATGAGCCTGGTGAAAAAGCAGTTTTTCCCCACCTCCGATCGCCCGGAAGTGCTGGTTGAGGTGCAGATGCCTTACGGGTCGTCGATTATCCAGACCAGCGCCGCGACGGCGAATATTGAGCGCTGGCTGCAGCAGCAGCCGGAGGCGAAGATTGTCACCAGCTATATCGGCCAGGGCGCGCCGCGCTTTTACCTGGCGATGGCCCCGGAGTTGCCGGACCCCTCCTTTGCCAAACTGGTGGTATTGACCGACGGTCCGGCCTCTCGCGAGGCGCTTAAGCTGCGGCTGCGGGAGGCGGTGGCTAATGGCCTGGCGCCGCAGGCGCGGGTGCGCGTCACGCAGCTGGTTTTTGGTCCTTATTCGCCGTATCCAGTCGCCTGGCGGGTGATGGGGCCCGATCCGCATACCCTGCGCGACATCGCCGATCGGGTGAAATCGGTGCTGCAGGCCAGTCCGCTGATGCGCACCGTCAATAGCGACTGGGGTTCGCGCGTGCCGGTGATGCATTTCAGCCTCAATCAGGACCGGCTGCAGGCGAGTGGGCTCAGCTCCCAGGCCGTCGCCCGGCAGCTGCAGTTCCTGCTGTCAGGGATCCCCATCACCACCGTCCGGGAAGATATTCGCGCCGTGCAGGTCATCGGCCGCGCGGCGGGGGATATCCGTCTGGATCCGGCGAAAATCGCCGATTTCACCCTGGTGGGCAGCGACGGGCAGCGAGTTCCCTTGTCGCAGATCGGTGAAGTCGAGATCAGGATGGAAGAACCCCTGCTCCGTCGTCGCGACCGCACGCCGACCATTACCGTCCGGGGCGATGTCGCGGATAACCTGCAGCCGCCGGATGTCTCCACCGCGCTGATGACGTCGCTGCAGCCCATTATCGACTCCCTGCCGCCGGGGTATCGCATCGAGACGGCGGGGTCAATCGAGGAGTCCGGCAAAGCCACCCGGGCGATGGTGCCGTTATTTCCGATCATGATCGCCCTCACGCTGCTGATCATTATCCTGCAGGTGCGCTCCCTGTCGGCGATGGTCATGGTCTTCCTGACCGCCCCGCTGGGGCTGATTGGCGTGGTGCCGACGCTGCTGCTGTTCAATCAGCCGTTTGGCATCAATGCCCTTGTGGGCCTGATCGCCCTGTCGGGGATCCTGATGCGAAATACGCTGATCCTGATTGGTCAAATCCACCATAACCAGCAGGCGGGGCTCGATCCGTTCCACGCGGTGGTGGAGGCGACGGTGCAGCGAGCCCGTCCGGTTCTGCTGACCGCGCTGGCGGCGATCCTGGCGTTCATTCCGCTGACGCATTCGGTTTTCTGGGGGACGCTCGCCTATACGCTGATTGGCGGGACGCTGGGGGGAACCATCATGACCCTTATCTTCCTGCCGGCCATGTATGCGATCTGGTTCCGCATCCGCCCGGCGCGCCCGGCTGACGCAGCGCAACGGCCGGCGCTGGACCCGCAGGGGTAA	MSDGRFNLSALAVRERSVTLFLIILISVAGLVAFFGLGRAEDPPFTVKQMTVITVWPGATAQEMQDQVAEPLEKRLQELKWYDRTETYTRPGMALITLSLQDQTPPSEVPEQFYQARKKLGDEAKNLPAGVSGPMMNDEFADVTFALFALKARGEPPRQLVRDAETLRQQLLHVPGVKKVNILGEQAERIYLSFSHDRLATLGLSPEAIFAALNSQNVLTAAGAIETRGGQIFIRLDGAFDRLQQIRDTPIIAGGRTLKLADVATVERGYEDPATFLIRNQGEPALLLGVVMREGWNGLALGKALDAETASINQSLPLGMSLTKVTDQSVNISAAVDEFMIKFFVALLVVMAVCFVSMGWRVGVVVAAAVPLTLAVVFVVMAATGKNFDRITLGSLILALGLLVDDAIIAIEMMVVKMEEGYDRLKASAYAWSHTAAPMLAGTLVTAVGFMPNGFAQSTAGEYASNVFWIVGIALIASWIVAVIFTPWLGVHLLPERKTAAAGHAALYDTPRYQGFRRLLTRVIARKWRVAAGVVVLFMVALLGMSLVKKQFFPTSDRPEVLVEVQMPYGSSIIQTSAATANIERWLQQQPEAKIVTSYIGQGAPRFYLAMAPELPDPSFAKLVVLTDGPASREALKLRLREAVANGLAPQARVRVTQLVFGPYSPYPVAWRVMGPDPHTLRDIADRVKSVLQASPLMRTVNSDWGSRVPVMHFSLNQDRLQASGLSSQAVARQLQFLLSGIPITTVREDIRAVQVIGRAAGDIRLDPAKIADFTLVGSDGQRVPLSQIGEVEIRMEEPLLRRRDRTPTITVRGDVADNLQPPDVSTALMTSLQPIIDSLPPGYRIETAGSIEESGKATRAMVPLFPIMIALTLLIIILQVRSLSAMVMVFLTAPLGLIGVVPTLLLFNQPFGINALVGLIALSGILMRNTLILIGQIHHNQQAGLDPFHAVVEATVQRARPVLLTALAAILAFIPLTHSVFWGTLAYTLIGGTLGGTIMTLIFLPAMYAIWFRIRPARPADAAQRPALDPQG	PGPT0028890_426	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexJK-OprM,PGPT0028890-mexK-K18303	NA	NA
BMS020_00772	1110	mdtA_1		Multidrug resistance protein MdtA	ATGCTCAGGCTCAACGCCGTCCATTTTGCCGTCTGCCTCCTGCCGTTGGCCCTCACGGGCTGCGGCGAACCTGCCGACCATGACGATCCCCGCACGCGGCCGCCGCTGGTGCGGGTGGCCACCGTCGAGCGCGCGGAGGCGAGCTCGCGAGCCTTTACCGGCGTGGTGGTGGCTCGTACCCAAAGCGACCTCGGCTTCAGGGTGGCGGGAAAAGTCCTTGAACGGCTGGTAGAGACCGGGCAGAGCGTCCGGCGGGGTCAACTGCTGTTGCGCCTGGATCCGGCTGATCTTGCCCTGCAGGCGCAGTCCCAACAGCGGGCGGTCGACGCCGCGCGGGCACGAGCCAAAAAGGCGGCTAACGATCTGGCCCGCTATCGCGGCCTGGTGGCCAGCGGCGCCGTCTCGGCGGCGGAGTTCGATCAGTTCAACGCGGCGGCAGAGGCGGCGAGAGCCGACCTCAGCGCGGCCCAGGCGCAGGCAAACGTGGCGCAAAACGCCACCGGCTATGCCGGACTGCTGGCGGATGCTGACGGCGTGGTGGTGGAAACGCTGGCCGAGCCGGGGCAGGTGGTCAGCGCCGGGCAGGTGGTGATCCGCCTGGCGCGGGCGGGGCAGCGCGAAGCGCGGGTGCAGCTTCCGGAGACGCTGCGCCCGGCGGTCGGCAGCGAGGCGCTGGCGACACGCTATGGCAGCGAATCTCAGCCGGTCACCGCAACCCTGCGCCTGCTTTCGGACGCAGCTGACACTGCTACCCGCACCTTTGAAGCGCGTTATGTGCTGAACGGCGCGCTGGCGAACGCCCCGCTGGGGTCTACCGTAACCCTGCGCATCGGCAACGACCAGGGGCCAGGCGAGGTGCTGGAGGTGCCCCTGGCGTCGGTCTACGATCCGGGCAACGGCCCTGGCGTCTGGCGCGTTGCCTCCCGCCCGGCCACCGTCTCCTGGCAACCGGTGACGGTGATCGGCCTGAATGATGAAACGGCGCGGGTGACCGGTCCGCTGAAGCCCGGGGAGCCGATCGTCGCTCTGGGCGCCCATCTTCTGCACCAGGGTGAGACGGTGCGGCTGGCGGAACGACGCGAGCATACTGCCGCCGGGAGCCAGCCATGA	MLRLNAVHFAVCLLPLALTGCGEPADHDDPRTRPPLVRVATVERAEASSRAFTGVVVARTQSDLGFRVAGKVLERLVETGQSVRRGQLLLRLDPADLALQAQSQQRAVDAARARAKKAANDLARYRGLVASGAVSAAEFDQFNAAAEAARADLSAAQAQANVAQNATGYAGLLADADGVVVETLAEPGQVVSAGQVVIRLARAGQREARVQLPETLRPAVGSEALATRYGSESQPVTATLRLLSDAADTATRTFEARYVLNGALANAPLGSTVTLRIGNDQGPGEVLEVPLASVYDPGNGPGVWRVASRPATVSWQPVTVIGLNDETARVTGPLKPGEPIVALGAHLLHQGETVRLAERREHTAAGSQP				NA	NA	NA	NA	NA
BMS020_00773	615			hypothetical protein	ATGACGAAAAATACCTCCACCCTAGCAAGCCGTGGCCCCATTGACCACAGCGTTCGCGACCAGATACTTGACGCGGCCATGGCGCATTTTAGTCGCTATGGCTATGAAAAGACCACGGTCACCGATCTCGCCAAAGCAATAGGCTTTTCCAAAGCCTATATCTACAAGTTTTTCGACTCCAAGCAGGCGATTGGCGAAGCAATCTGCGCCAGCCGGCTGGAGAAGATCATGGTGGCCGTCAGCGAGGCCATCGCCGATGCGCCCTCCGCCAGTGAAAAGCTGCGCCGACTCTTCCGGGCGCTGACCGAGGCCGGCAGTGAACTGTTTTTCGAGGATCGCAAACTGTACGACATCGCCGCCGTCGCGGCGCGTGATAAATGGCCCTCAACGGAGCAGTATGCCGGTCATCTGCAGCAGCTGATTGGTCAAATTCTTGTCGAAGGCCGCCAGGCGGGCGAGTTCGAGCGCAAAACTCCGCTGGATGAGGCGACCCTGGCGGTCTATATGGTGATGTGTCCTTTCATCAACCCGGTGCAGCTGCAATACAATCTCGACACCGCGCCTACCGCGGCGGTGCTGCTTGCCTCCCTCATCCTGAGAAGTCTCTCCCCCTGA	MTKNTSTLASRGPIDHSVRDQILDAAMAHFSRYGYEKTTVTDLAKAIGFSKAYIYKFFDSKQAIGEAICASRLEKIMVAVSEAIADAPSASEKLRRLFRALTEAGSELFFEDRKLYDIAAVAARDKWPSTEQYAGHLQQLIGQILVEGRQAGEFERKTPLDEATLAVYMVMCPFINPVQLQYNLDTAPTAAVLLASLILRSLSP				NA	NA	NA	NA	NA
BMS020_00774	996			hypothetical protein	ATGAACAGCAGCGGCAAGGTCCTTATTCTGGGAGCAAGCGGGGGCATCGGCGGGGAAGTGGCCCGCCGGCTGGCGGCGGACAACTGGCAGGTTCGGGCGCTGAAGCGCGGCGCCCAGGTGTGCAGCCCCGAAGAGGGGATGCAGTGGATAGCCGGCGACGCGCTGGATGCCGGGCAGGTGGCGGCGGCGGCTGCCGGTTGCGACGTGATCGTCCATGCGGTCAATCCGCCGGGCTACAGGCACTGGCGGCAGCAGGTACTGCCTATGCTGCGCAACACCCTGCAGGCCGCCGAACAGCAGCGGGCGTTAGTTGTCCTGCCCGGCACGGTCTATAACTATGGACCGGATGCCTTTCCGCTGATTGCGGAAGAGGCCGCACAACAGCCGGTGACCCGCAAAGGCGCCATCCGGGTGGAGATGGAGCAGGCGCTGGAGGATTATGTGCAGCGCGGCGGCCGGGCGTTGATTGTCCGGGCGGGGGATTTTTTTGGTCCGCGCGCCGGGAATAGCTGGTTTTCCCAGGGGCTGATCAGGCCCGGTCAGCTTCCCGGCGTCATTCGCCGCCCGGGGGGGATCGGCGTGGGGCACCAGTGGGCCTGGCTGCCCGACGTCGCCGCCACCATCGCCGCGCTGCTGGCCCGCAGGCATGAGCTTGAGCCGTTTGCCCGCTTCCATATGCAGGGCCACTGGGACCCGGACGGCAGCGAAATGAGCCAGGCGATCCAGCGGGTGGTCGCCCGCTATGGCGGCAGGGCGGTAGTGAAGTCCTTTCCCTGGTGGCTGGTGAAGCTGGCGGCGCCCTTCAACGCCACCTTGCGCGAAATGGTCGAGATGCACTATCTCTGGCGTCTGCCGGTACGCCTGCGCAACGATAAGCTGGTGGCCTTTTTAGGCGCGGAGCCGCATACCCCACTCGATCGTGCCGTACATATGACGCTGCAAGGCCTGGGCTGTCTGCCTGCCGGCGCGATAAATAATGAGGCGCGTGAGGCGTAA	MNSSGKVLILGASGGIGGEVARRLAADNWQVRALKRGAQVCSPEEGMQWIAGDALDAGQVAAAAAGCDVIVHAVNPPGYRHWRQQVLPMLRNTLQAAEQQRALVVLPGTVYNYGPDAFPLIAEEAAQQPVTRKGAIRVEMEQALEDYVQRGGRALIVRAGDFFGPRAGNSWFSQGLIRPGQLPGVIRRPGGIGVGHQWAWLPDVAATIAALLARRHELEPFARFHMQGHWDPDGSEMSQAIQRVVARYGGRAVVKSFPWWLVKLAAPFNATLREMVEMHYLWRLPVRLRNDKLVAFLGAEPHTPLDRAVHMTLQGLGCLPAGAINNEAREA				NA	NA	NA	NA	NA
BMS020_00775	912	hdfR_3		HTH-type transcriptional regulator HdfR	ATGAATACCTCTATTCCCTGGGAGTGGTACCGAACCTTTCTCGCCGTCCTGCAGGAAGGCTCTTTATCGGGCGCATCGCGCACTTTGAACATCACCCAGCCGACGGCGGGGCGCCATATCGCCGGGCTGGAAGCCGCCCTCGGCCAGGCCTTATTTACCCGTTCGCAGACCGGCCTGCTGGCGACCGACGCGGCGCTGGCGCTGCGGGTGCACGCCGAGGCGATGGCCAACACCGCCCGGGCGCTGGCACGCACGGCGGCCAACTTTAGTCGCGACAGAACCGATCTGCGTGGCGTGGTGCGCGTGGCCGCCAGCGAGGTGGTCGGCGCCGAGGTGCTGCCGCCGCTGATTGCCCGGCTCAGGCAGGCGTGCCCGAATATCGTCATCGAACTGATGCTCTCCAATCGGTTTCAGGATCTGCTTCACCGGGAGGCGGATATCGCGGTGCGGATGGTCGCTCCGCAGCAGGAGCAGCTTATCGCGCGGCGTCTCGGCAGGATCGAGCTCGGGCTGCATGCCGCCGATGCCTATCTGACCCGCCGGGGTCGGCCCGCTACGCCTGAGGAGCTTGACGGCCACGCGCTGATTGGTTTCGACAGCGCCACGCCCCTCGTTCGCCGGGCGCTTGAGCGCTACCCCCGTTTCCAGCGCGAGGCGTTCGCGATGCGCACCGATAGCGACCTCGCCCAGCTGAGCCTGATCCGCGCCGGGGCGGGGATCGGCATCTGCCAGGCGCCCCTTGCCGACGGCATCATTCCCCTGCGGCGAGTGCTGGCGGCCGACTTTTCTCTGTATCTCGAGACCTGGCTGGTGATGCATGAGGACCTGCGCCATAGCCCCGCCTGTAAGCGAGTATTTGATTTCCTCGCCGAGGGGTTGCAGGCGTATATTCGCGGCCCACTGGCGCGCTGA	MNTSIPWEWYRTFLAVLQEGSLSGASRTLNITQPTAGRHIAGLEAALGQALFTRSQTGLLATDAALALRVHAEAMANTARALARTAANFSRDRTDLRGVVRVAASEVVGAEVLPPLIARLRQACPNIVIELMLSNRFQDLLHREADIAVRMVAPQQEQLIARRLGRIELGLHAADAYLTRRGRPATPEELDGHALIGFDSATPLVRRALERYPRFQREAFAMRTDSDLAQLSLIRAGAGIGICQAPLADGIIPLRRVLAADFSLYLETWLVMHEDLRHSPACKRVFDFLAEGLQAYIRGPLAR				NA	NA	NA	NA	NA
BMS020_00776	999			hypothetical protein	ATGAAGAAGGTCCTCTGCGCGTTAGGCTTGATGTTCACCGCCGTCAGTTCCGCGCTGGCAACAACCTACCCCCTGACGATTGAAAACTGTGGCTATCAGGAGACCTTCACCCGGCCGCCGGAGCGCGTGGTCGCGCTGGGGCAAAATACGGTCGAAATCCTGCTGCTGCTTGGGCTGCAAAAGCAGGTGGTGGCCAGCGCCTTCTGGCCGACCAGGGTATTACCGCAGCTGGCTGAGCAAAACGCGAAGATTAAAACCCTGACGGTGGAAATCCCGAGCCTGGAATCCGTACTGGCGCAAAATCCCGATTTCGTTCCCGCCCAGTTGCCGCTGCTGCTGGGGCCGGAAAGCAAAGTCGCCAAGCGTGAAGATCTCGCGACCGTCGGCGTGAACAGCTACGTGTCGCCGGGGATGTGCGCCACCAAAAAGGCTACCGGCGATATGTACGGCAGCCGGCAGAAGCTGTGGGACATGACCTGGCTGTATCAGGAAATTAGCGATTTTGCCCGCATTTTCAACGTGGAAGATCGTGGCCAGGCGCTGATCGCCGATTTCAAAAAACGTGAAGCCGACCTGCGTCAGGAGTTCGGTAAAAGCAAAAAAGATCTCTCCTTCGTCTTCTGGTTCTCCAGCGCCTCGCCGTCGGCCGATGCCTATGTCGGCGGCAAAAACAGCGCCTCCGGCTTTATCGCCAGCGTGCTGGGCGGACATAACGCCATTACCGCCGAAACCGAATGGCCCACGGTGAGCTGGGAGAGCATCATTGCCGCCAACCCGGACGTGATCGTGGTCTCAAGCCTGGATCGTAACCGCTGGGCGCTGGATAAGGCCGAGGAGAAGATCAAATTCCTCAAAAGCGATCCCGCCGTCAGCCAGCTGGAGGCAGTGAAAAAAGGCCATATCGTGGTGATGGACGGCCAGGCGATGAATCCGACCATCCGCACCCTCTACGGCGCGGAACAGGTGGGCGAACAGCTGAGAAAAATGGGGCTTAACTGA	MKKVLCALGLMFTAVSSALATTYPLTIENCGYQETFTRPPERVVALGQNTVEILLLLGLQKQVVASAFWPTRVLPQLAEQNAKIKTLTVEIPSLESVLAQNPDFVPAQLPLLLGPESKVAKREDLATVGVNSYVSPGMCATKKATGDMYGSRQKLWDMTWLYQEISDFARIFNVEDRGQALIADFKKREADLRQEFGKSKKDLSFVFWFSSASPSADAYVGGKNSASGFIASVLGGHNAITAETEWPTVSWESIIAANPDVIVVSSLDRNRWALDKAEEKIKFLKSDPAVSQLEAVKKGHIVVMDGQAMNPTIRTLYGAEQVGEQLRKMGLN	PGPT0003765_6080	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
BMS020_00777	1038	feuC_2	COG0609	Iron-uptake system permease protein FeuC	ATGAGCGTCGCCGTGCTTCAGACGCGCCGCAGCATGCTGCTCACCGGCTGGTGCGTCGTGGCAGTGTTCGCGCTGGCGCTGGTGATAGCGGTAGGCGTCAGCGTTGGCGAACTGCCCATCCCGCTGCACAACGTCTTTTACGCTATCAGCAATAAAACCGGCTTAACCGCGGTGCCTCTCAATCGTATCTACGAGAGCGTCATCTGGGATTTCCGCCTCAGCCGCGCCCTGGTCGCCGCCTGCTGCGGCGCCGGCCTGGCTATCTGCGGCGCCGTGCTGCAAAGCCTCCTGAAGAACGCCCTCGCGGAGCCCTACGTCCTCGGCGTCTCCGCCGGGGCCTCCACCGGCGCGGTATCAATCGTGGTGCTGGGCCTTGGCGCCGGGGCGATCTCCCTCTCCGCCGGGGCGTTTGCCGGAGCCTTCGCCGCCTTCGCCTTTGTCGCCTTTCTGACCAACGGCGCGCGCGGCGGCAATGAGCGCACCATCCTGGCGGGCGTCGCCGCCTCGCAGTTATTTAACGCCCTCACGGCCTACACCATCAGCACCTCCGCCAGCGCGCAGCAGGCGCGCGATGTGATGTTCTGGCTGCTGGGCAGCTTCAGCGGCGTCCGCTGGCCCGAATTCCAGCTGGTCCTGGTGGTGGTTCTCGCGGGCCTGGCGGTCTGCCTGTGGTATGCCCGGGCGCTGGACGCGTTCACCTTCGGCGACGATGCCGCCGCTTCGCTGGGCATTGCCGTGCCGCGCGTGCGCCTGATCCTCTTCACTACCGCGGCGGTGATCACCGCCACCATCGTCAGCATGGCCGGCTCGATCGGCTTTGTCGGCCTGGTGGTGCCCCACGTGATGCGCTTCTTCTTTGGCCCGTTGCACCGGACGTTGCTGATCGCCAGCGCGCTGGCGGGGGCGATCCTGATGGTGCTGGCGGACATTGCCTCGCGCCTGCTGATTGCCCCGCAAAGTCTGCCGGTCGGGGTGGTAACCGCTCTGGTTGGGGTGCCTTTCTTCGCCGTGATTATCTACCGCTCAAGGAATAAGTGA	MSVAVLQTRRSMLLTGWCVVAVFALALVIAVGVSVGELPIPLHNVFYAISNKTGLTAVPLNRIYESVIWDFRLSRALVAACCGAGLAICGAVLQSLLKNALAEPYVLGVSAGASTGAVSIVVLGLGAGAISLSAGAFAGAFAAFAFVAFLTNGARGGNERTILAGVAASQLFNALTAYTISTSASAQQARDVMFWLLGSFSGVRWPEFQLVLVVVLAGLAVCLWYARALDAFTFGDDAAASLGIAVPRVRLILFTTAAVITATIVSMAGSIGFVGLVVPHVMRFFFGPLHRTLLIASALAGAILMVLADIASRLLIAPQSLPVGVVTALVGVPFFAVIIYRSRNK	PGPT0003770_4581	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
BMS020_00778	762	fecE	COG1120	Fe(3+) dicitrate transport ATP-binding protein FecE	ATGAGTATTTGCGCTGAAAATATCACCTGGAAGGCAGGCAAAAAGGTCATCGTCAATACGGTCTCGCTGCGGGTGTCGCGCGGCGAAACGGTGGGACTGCTGGGGCCCAACGGCTGCGGCAAATCCTCTCTGCTGCGGGTTCTGGCGGGCCTGCGCCGCCCGGATGCGGGTCGCGTCACCCTCGACGGCCAGGACATCGCCAGGATGGCGAAAAAGCAGCTCGCCCGCCGGGTGGCGTTCGTCGAGCAACACGGCATGACCGAGGCCAATATGCGGGTGCGCGACGTCGTGCGCCTGGGGCGTATTCCGCATCACTCGCCGTTCTCAAACTGGAGCGCTCAGGATGACGAGGCGGTCACCGCCGCGCTGCAGCGGGTGGCGATGCTGGAGAAAAGCGACCAGGGATGGCTGAGCCTCTCCGGCGGCGAGCGGCAGCGGGTGCATATCGCCCGCGCCCTGGCGCAGAACCCAAGCGAGATCCTGCTGGATGAACCCACCAACCATCTGGATATTCACCATCAAATGCAGCTGATGCAGTTGATCAGCGAGCTGCCGGTGACCAGCATTGTGGCCATTCACGATCTTAATCATGCCGCGATGTTCTGCGATTCGCTGATCGTGATGCAGCAGGGGCAGATCCTCGCCAGCGGGACGCCGGAGGAGATTTTGTCCGAAGCGCTGCTGTGGGACGTTTTCCGGGTGAAAACCAAAATCGAGATCTCCCCGTACCACGGTAAAAAGCACATTCATTTCATCGTTTAG	MSICAENITWKAGKKVIVNTVSLRVSRGETVGLLGPNGCGKSSLLRVLAGLRRPDAGRVTLDGQDIARMAKKQLARRVAFVEQHGMTEANMRVRDVVRLGRIPHHSPFSNWSAQDDEAVTAALQRVAMLEKSDQGWLSLSGGERQRVHIARALAQNPSEILLDEPTNHLDIHHQMQLMQLISELPVTSIVAIHDLNHAAMFCDSLIVMQQGQILASGTPEEILSEALLWDVFRVKTKIEISPYHGKKHIHFIV	PGPT0003760_7268	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
BMS020_00779	1233	mdtH_1		Multidrug resistance protein MdtH	ATGCCTCTCTTCTCCCTGCGCCCTGCGGCGACCCTCTGGCCTCCCGTTTTACTGGGAAGCCAGTTCGTTTTTAATATTGGCTTTTATGCGGTCGTCCCTTTCCTTGCCCTCTTCCTGCGCGACGAGATGCTGCTCTCCGGCAGGCTTATCGGCCTGATCCTCGGGCTGCGCACCTTCTCCCAGCAGGGCATGTTTATCATCGGCGGGACGCTGGCCGACCGCTATGGCGCTAAGGCGATCATCCTCGCCGGCTGCGTGGTTCGCGTCGCCGGCTATCTGCTGCTGGCGTGCGGCACAACGCTGGAGCCTATTATCCTCGGCGCCTGCCTGACCGGCGTCGGCGGAGCGCTGTTTTCTCCGTCGATCGAGGCCCTGCTGGCGCGGACCGGTACCCACAGCCAGGCCAACGGAAACCGCAGCCGCGCCGAGTGGTTTGCGCTGTTTGCGGTGTGCGGTGAACTGGGGGCGGTTATCGGCCCTGTGGCCGGAGGGCTGCTGAGCGGGATCGGCTTTCGGCATATCGCCCTCGCCGGCGCGGGGCTATTTCTTCTGGCGCTGCTGGTGCTCTTTTTCTGTCTGCCCGCCGACGGGCAGCGGACACAAACGCGCAGCCGGGTGCCGTGGTGGACCCCTTTGCGTCAGCCGCGCTTTGTCGCGTTTATTATCGCCTACAGCTCATGGCTGTTGAGCTATAACCAGCTGTACCTCGCCCTGCCGGTGGAGATCCAACGCGCCGGCGGCCGTGAGCAGGATCTGGCGCCGCTTTTTATGCTGGCCTCGCTATTGATTATTACCCTGCAGCTTCCTCTCGCCCGTTTCGCCCGACGTATTGGCGCCGTGCGCATTCTGCCGGTGGGCTTTCTGCTGCTGTCGGCTTCTTTTGTCAGCGTGGCGTTATTCGCCGCCTCGTCGCCCGCCGAAGGCTGGCTGCGATTATTGCCGTCGGCCTGCTTTGTCACACTGCTCACCCTCGGCCAGATGCTGCTGGTGCCCTCAGCCAAGGATCTGATCCCGCTGTTCGCCGAGGAGTCGACGCTGGGCGCCCACTACGGGGCGCTCGCCACGGCGGGGGGTTGCGCGGTGTTAGCCGGGAATTTGCTGCTCGGCCATATGCTGGACCAGGCGCTCACCCCCTCGCCGCAGGCGGTCTATCCCTGGCTTCTGCTGGCGCTGTTTCCGTTGTGCAGCGCCGTGGCCCTGCGGGCGATCTGCCGCCCGCTGGCGGCAACCTGA	MPLFSLRPAATLWPPVLLGSQFVFNIGFYAVVPFLALFLRDEMLLSGRLIGLILGLRTFSQQGMFIIGGTLADRYGAKAIILAGCVVRVAGYLLLACGTTLEPIILGACLTGVGGALFSPSIEALLARTGTHSQANGNRSRAEWFALFAVCGELGAVIGPVAGGLLSGIGFRHIALAGAGLFLLALLVLFFCLPADGQRTQTRSRVPWWTPLRQPRFVAFIIAYSSWLLSYNQLYLALPVEIQRAGGREQDLAPLFMLASLLIITLQLPLARFARRIGAVRILPVGFLLLSASFVSVALFAASSPAEGWLRLLPSACFVTLLTLGQMLLVPSAKDLIPLFAEESTLGAHYGALATAGGCAVLAGNLLLGHMLDQALTPSPQAVYPWLLLALFPLCSAVALRAICRPLAAT				NA	NA	NA	NA	NA
BMS020_00780	1032	xecA1		2-hydroxypropyl-CoM lyase	ATGAAAACATGGCTTCCGACATCGACCGCCGGCAGTTTACCGAAACCTTCCTGGCTGGCGCAGCCAGAGACCCTGTGGTCGCCCTGGAAACTGTCCAGCGAAGAATTACTGGCCGGCAAGCGCGACGCCCTGCGTTTGTCCCTCGACGACCAGCTGCGGGCCGGGATCGATATTGTCAGCGACGGCGAGCAAACGCGGCAGCACTTTGTCACCACCTTTATTGAGCACCTCAGCGGCGTTGATTTTGCCAAACGCGAGATCGTGAAAATTCGTAACCGCTATGAGGCCAGTGTTCCAACCGTGGTGGGCGCCGTGGAGCGCCAGAAACCGGTCTTCGTTGAGGACGCGCGCTATCTGCGTCAGCTCACCAGTCAGCCGATTAAATGGGCGCTGCCGGGCCCAATGACCATGATCGACACGCTGTATGACAACCACTATAAAAGCCGCGAAAAGCTGGCCTGGGAGTTCGCCAAAATCCTCAATCAGGAAGCGAAAGAGTTAGAGGCCGCCGGGGTCGATATTATTCAGTTCGATGAGCCGGCCTTCAACGTCTTCTTCGATGAGGTGAACGACTGGGGGATCGCCGCGCTGGAACGAGCCACCGAAGGGCTGAAGTGCGAGACGGCGGTGCATATCTGCTACGGCTACGGCATCAAGGCCAATACCGACTGGAAAAAAACGTTGGGCTCTGAGTGGCGTCAGTATGAGGAGGCCTTCCCACAGCTGCAGAAATCGTCCCTCGATATTATCTCTCTCGAGTGCCACAACTCGCGGGTGCCGATGGATCTGCTGGAACTGATCCGCGGTAAAAAGGTGATGGTCGGAGCCATCGATGTGGCCAGCCATGCTATCGAAACCCCGGAAGAGGTGGCCGCTACCCTGCGCAAGGCGCTGGCGTTCGTCGATGCCGACAAGCTCTATCCGTCCACCAACTGCGGTATGGCGCCGCTGCCGCGCCAGGTTGCGACCGGCAAACTGCACGCCTTAAGCGCCGGCGCCGAGATCGTTCGCCGCGAGCTGGCGGCACAATAA	MKTWLPTSTAGSLPKPSWLAQPETLWSPWKLSSEELLAGKRDALRLSLDDQLRAGIDIVSDGEQTRQHFVTTFIEHLSGVDFAKREIVKIRNRYEASVPTVVGAVERQKPVFVEDARYLRQLTSQPIKWALPGPMTMIDTLYDNHYKSREKLAWEFAKILNQEAKELEAAGVDIIQFDEPAFNVFFDEVNDWGIAALERATEGLKCETAVHICYGYGIKANTDWKKTLGSEWRQYEEAFPQLQKSSLDIISLECHNSRVPMDLLELIRGKKVMVGAIDVASHAIETPEEVAATLRKALAFVDADKLYPSTNCGMAPLPRQVATGKLHALSAGAEIVRRELAAQ				NA	NA	NA	NA	NA
BMS020_00781	981			hypothetical protein	ATGAATAACGAATTTACCTATACGATTAAGCGCAGCCGGTTTGATGAAAATTATAACCCTGCGGAAAATACGCGTATTACCACCAACTTTGCCAATTTGGCCAGAGGGGAGAGCCGTCAGGACAATCTGCGCAATACGTTAATCATGATGAATAACCGGTTTAATACCCTGGCGCACTGGGATAATCCCTACAACGATCGCTATGCGGTGGAACTGGATATTATTTCTGTCGAGATGAATATTGCTCAGGATGCCGCCAGTTTTCCGGTGATAGAGATCCTGCAAACGCATATTGTCGATAAAAAAACCGGTGAGCGCCATGCCGGTATCGTCGGCAATAACTTCTCTTCGTATGTGCGGGATTATGATTTTAGCGTCCTGCTGCTGGAGCATAATAAAGACCAGAACCGCTTCAGCGTGCCCGAAAACTTTGGCGAGCTGCACGGCAACATCTTTAAGGATTTCGTGCAATCCAGCGCCTATAAGACCAGCTTCAGCAAGGCGCCGGTGATTTGTCTGAGCGTATCCAGCAAAGATGTTTACCGTCGCACTGGCAACGAACATCCGGTCCTCGGCATTGAATATGCCCAGGAAGGCGTCTCGCTGACCGAGCGCTATTTCAGCAAAATGGGGCTGCAGGTGCGCTATTTTATGCCAAAACATAGCGTCGCGCCGTTGGCCTTCTATTTTTCCGGCGATCTGCTCAGCGATTACACCAGCCTGGAGCTGATCGCGACCATCAGCACGATGGAGACGTTTCAGAAAATATACCGACCGGAGATCTACAACGCGAATTCTGCGGCGGGGCAATACTATCAGCCCAATCTCAATCACCTGGATCATTCCGTCACCAAAATTGTTTATGACCGGGAAGAGCGCAGCCTGTTGGCGATAGAGCAGGGTAAATTTACACAACAACATTTTATCAACCCGCACAAGACGTTGCTTGAGCAATGGTCTGCTAACTTCGCGCTTTGCTAA	MNNEFTYTIKRSRFDENYNPAENTRITTNFANLARGESRQDNLRNTLIMMNNRFNTLAHWDNPYNDRYAVELDIISVEMNIAQDAASFPVIEILQTHIVDKKTGERHAGIVGNNFSSYVRDYDFSVLLLEHNKDQNRFSVPENFGELHGNIFKDFVQSSAYKTSFSKAPVICLSVSSKDVYRRTGNEHPVLGIEYAQEGVSLTERYFSKMGLQVRYFMPKHSVAPLAFYFSGDLLSDYTSLELIATISTMETFQKIYRPEIYNANSAAGQYYQPNLNHLDHSVTKIVYDREERSLLAIEQGKFTQQHFINPHKTLLEQWSANFALC				NA	NA	NA	NA	NA
BMS020_00782	321			hypothetical protein	ATGAAAAAAGCTCTCCTTGCCCTGTTCGCTATCGCCGCCGTGGCCGCCGCCAGCGCGTTTGCCGCCGATAAAACCGACGCCCCGACGCCCATTGTCGACAACGGCGGTCGTCCTCCGCTGGAGATGGGTCATGGCCCCCAACCGCCGTTCCCGCCACCGTTTCCGCCGCGCAAGCCGGTGCTGTTTTCAGCAACGGTCGCGACCGATACGCCGGCGGAAACCATTAACAAACTGACCGCCCTGATCCCCACCGGTCAGGCGAAGCACTACGAAGTTCACGTTGAGGTGGTGCCGGTTGCGGAGGATGCCGACGGGAAATAG	MKKALLALFAIAAVAAASAFAADKTDAPTPIVDNGGRPPLEMGHGPQPPFPPPFPPRKPVLFSATVATDTPAETINKLTALIPTGQAKHYEVHVEVVPVAEDADGK				NA	NA	NA	NA	NA
BMS020_00783	249			hypothetical protein	ATGGGTATTCTTTCCTGGATCATTTTTGGACTTATTGCCGGTATTTTAGCCAAGTGGATTATGCCGGGGAAAGACGGCGGCGGGTTTATTGTAACCATTATTCTGGGGATCATCGGCGCCGTGGTCGGCGGCTGGATCAGTACCTTCTTTGGTTTTGGCAAAGTCGACGGGTTTAATTTCGGCAGCTTCGTGGTGGCGGTAATCGGTGCGCTGGTCGTGCTGTTTATCTACCGTAAAGTGCGCAGCTAA	MGILSWIIFGLIAGILAKWIMPGKDGGGFIVTIILGIIGAVVGGWISTFFGFGKVDGFNFGSFVVAVIGALVVLFIYRKVRS				NA	NA	NA	NA	NA
BMS020_00784	411	menI	COG2050	1,4-dihydroxy-2-naphthoyl-CoA hydrolase	ATGATTTGGAAACGTCAGGCCACGCTGGAGCAGCTCAACCGGCTCGGTGAGGGAAACATGGTAGGGCTGTTGGATATTCGCTTTGAGACCTTTAACGACGATACGCTGGAGGCCACCATGCCGGTGGATGGCCGTACACAGCAGCCGTTTGGCCTGCTGCACGGCGGGGCGTCGGTGGTGCTGGCGGAGACGCTGGGGTCGGTGGCGGGTTATCTGTGCAGCGAAGGCGAACAGAAGGTGGTGGGGCTGGAGGTTAACGCCAACCACATTCGTTCGGCGCGCGGGGGCCGGGTGCGGGGCGTGTGCAAAGCGCTGCACGTCGGGACTCGCCACCAGGTATGGCAAATTGAAATCTTCGACGAACAGTCGCGATTATGCTGTTCATCGCGGCTAACCACCGCGGTAATATAA	MIWKRQATLEQLNRLGEGNMVGLLDIRFETFNDDTLEATMPVDGRTQQPFGLLHGGASVVLAETLGSVAGYLCSEGEQKVVGLEVNANHIRSARGGRVRGVCKALHVGTRHQVWQIEIFDEQSRLCCSSRLTTAVI	PGPT0001845_1799	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0001845-menI|ydiI|ydiL|ydiI|ybdB-K19222	NA	NA
BMS020_00785	3057		COG0247	putative protein	ATGATCCCACAAATTTCTCAGGCGCCAGGGGTAGTTCAACTGGTGCTGAATTTTTTGCAGGTACTGGAGCAACAGGGTTTTACCGGCGATACCGCCACCAGCTATGCCGACAGGCTGACGATGGCCACCGACAACAGCGTCTATCAGCTGTTGCCGGATGCGGTCCTGTTTCCACGTTCCACGGCAGACGTAGCGTTACTGGCGCGGGTCGCCGCCGAACCACGCTTTAAATCGCTGATCTTCACCCCGCGCGGCGGCGGCACCGGCACCAACGGCCAGGCGCTGAATGGCGGAATTATCGTCGATATGTCCCGCTATATGAATCGCATTATCGAAATCAACCCCGAAGAGGGTTGGGTGCGCGTCGAAGCCGGAGTCATCAAAGATCAGCTGAACCAGTTTCTTAAACCCTATGGTTACTTCTTTGCACCTGAGCTCTCCACCAGCAACCGCGCCACCCTGGGCGGGATGATAAACACCGACGCCTCCGGTCAGGGATCGCTGGTGTATGGTAAAACGTCGGATCACGTGCTTGGCCTGCGGGCGGTGCTGATGGGCGGGGATATCCTCGATACCCAGGCGGTGCCGGTGGCGCTGGCGGAGACGCTTGGCAATACGCCCTCGACGATAGGGCGGATTTACAACACGGTCTACCAGCGCTGCAAGGCGCAGCGCGAGCTAATCATTGATAAGTTTCCCAAACTCAACCGCTTCCTCACCGGATACGATCTGCGCCACGTCTTTAACGATGAGATGAGCGAGTTCGACCTGACCCGTATTTTAACCGGTTCGGAAGGGACGTTGGCGTTTATCACCGAAGCGCGGCTGGATATTACCCGCCTGCCGAAGGTGCGCCGGCTGGTCAACGTCAAATATGACTCCTTTGACTCTGCGCTGCGAAATGCGCCCTTTATGGTGGAGGCCAAGGCCCTGTCGGTGGAGACCGTCGACTCTAAAGTCCTCAATCTGGCGCGCGAGGATATCGTCTGGCACTCGGTGAACGAACTGATCACCGACGTACCGGATAAAGAGATGCTCGGGCTCAATATCGTCGAATTCGCCGGGGATGACGCGGCGCTGATTGACCAGCAGGTCACCACGCTGTGCCAGCGTCTGGACGAGCTGATGGCCCGCAGCGAGGCGGGGGTCATCGGCTGGCAGGTCTGTCACGATCTTGATGGCGTGGAGCGCATCTACGCCATGCGCAAGAAGGCGGTAGGCCTGTTGGGCAATGCCAAAGGCGCCGCCAAGCCGATCCCCTTTGCCGAGGATACCTGCGTCCCGCCCGAACACCTGGCGGATTATATCGTCGAGTTTCGCGCGCTGCTCGACAGCCACGGCCTGAGCTACGGCATGTTTGGCCACGTCGACGCCGGGGTGCTGCACGTGCGCCCGGCGCTGGACATGTGCGATCCGCAGCAGGAGGTGCTGATGAAGCAGATCTCCGACGATGTGGTAGCGCTGACGGCGAAATATGGCGGTCTGCTGTGGGGGGAACATGGCAAAGGCTTCCGCGCCGAGTACAGCCCGGCATTCTTTGGCGAGGCGCTGTACGGCGAGCTGCGGAAGATCAAAGCGGTCTTCGATCCGGATAATCGCCTGAACCCGGGGAAAATTTGTCCGCCGGAAGGGATTGACGCGCCGATGATGAAAGTCGACGCGGTGAAGCGCGGCACCTGGGATCGGCAGATCCCTATCGCGGTGCGCAGCGCCTGGCGCGGGGCGATGGAGTGTAATGGCAACGGGCTGTGCTTCAACTTTGACGTAAAAAGCCCGATGTGTCCGTCGATGAAGGTGAGCAACCAGCGCATCCACTCGCCGAAAGGTCGGGCGACGCTGGTCCGCGAATGGCTGCGTCTGCTGGCGGATCGCGGCGTCGACCCCAATCAGCTGGAGAAGGCGCTGCCGGAGCAGGGCGTTAGCCTGCGCTCGCTGGTGGCGCGCACGCGCAACAGCTGGCATGCGCGCAAAGGGGAATATGATTTCTCGCACGAGGTCAAAGAGGCGATGTCCGGCTGTCTGGCCTGCAAAGCCTGTTCGACCCAGTGCCCGATCAAAATCGATGTCCCGGAGTTCCGCTCACGCTTCCTGCAGCTGTACCACAGCCGCTATCTGCGGCCGGTGCGCGATCATCTGGTGGCGTCGGTGGAATCCTATGCGCCGCTGATGGCCCAGGCGCCGAAGACGTTTAACTTCTTCATGAACCAACCGTGGCTGAAAAAGCTGTCGGAGAAGCATATCGGGATGGTCGATCTGCCGCTGCTCTCGGCGCCGTCGCTGAAGCAGCAGATGGCCGGCCACCGCTCCGCCAACATGACCCTTGAGCAGCTCGAAGCGCTGAGCGCCGAGCAGAAAGCGAAGATGGTGCTGGTGGTACAGGATCCCTTTACCAGCTATTACGACGCCCAGGTGGTGGCTGACTTTATCCGTCTGGTTGAGGCCTTAGGCTATCAGCCGGTGCTGCTGCCGTTCTCGCCGAACGGCAAGGCGCAGCATATTAAAGGATTCCTGACCCGCTTCGCGCGCACCGCGCAGAAAACGGCAGACTTCCTTAACCGCGTGGCGCAGCTGGGTATGCCGCTGGTCGGCGTCGATCCGGCGCTGGTGCTCTGCTACCGCGATGAATACAAGCAAACGCTTGGCGACAAGCGCGGCGATTTTCAGGTGCTGTTAGTCCATGAGTGGTTGCCGAAGGTCCTGACCGCCGACGCCCGTCCCGATCCGGGCGGCGAGCCCTGGTACCTGTTCGGTCACTGTACGGAAGTGACCGCGCTGCCGGCGGCGACGAAGCAGTGGGCAGAGATTTTTGCCCACTTCGGCGCGAAGCTGGAAAACGTCAGCGTCGGGTGCTGCGGGATGGCAGGCACCTATGGTCATGAAGTGAAAAACCATGCCAACTCGCTGGCCATTTACGCGCTCTCCTGGCAGCAGGCGATGCAGCGGCTGCCGCGTAACCGCTGTCTGGTGACGGGCTACTCCTGCCGCAGCCAGGTGAAGCGCATTGAAGGCAGCGGCGTTCGCCATCCGCTGCAGGCGTTACTGGAGATAATCGGATGA	MIPQISQAPGVVQLVLNFLQVLEQQGFTGDTATSYADRLTMATDNSVYQLLPDAVLFPRSTADVALLARVAAEPRFKSLIFTPRGGGTGTNGQALNGGIIVDMSRYMNRIIEINPEEGWVRVEAGVIKDQLNQFLKPYGYFFAPELSTSNRATLGGMINTDASGQGSLVYGKTSDHVLGLRAVLMGGDILDTQAVPVALAETLGNTPSTIGRIYNTVYQRCKAQRELIIDKFPKLNRFLTGYDLRHVFNDEMSEFDLTRILTGSEGTLAFITEARLDITRLPKVRRLVNVKYDSFDSALRNAPFMVEAKALSVETVDSKVLNLAREDIVWHSVNELITDVPDKEMLGLNIVEFAGDDAALIDQQVTTLCQRLDELMARSEAGVIGWQVCHDLDGVERIYAMRKKAVGLLGNAKGAAKPIPFAEDTCVPPEHLADYIVEFRALLDSHGLSYGMFGHVDAGVLHVRPALDMCDPQQEVLMKQISDDVVALTAKYGGLLWGEHGKGFRAEYSPAFFGEALYGELRKIKAVFDPDNRLNPGKICPPEGIDAPMMKVDAVKRGTWDRQIPIAVRSAWRGAMECNGNGLCFNFDVKSPMCPSMKVSNQRIHSPKGRATLVREWLRLLADRGVDPNQLEKALPEQGVSLRSLVARTRNSWHARKGEYDFSHEVKEAMSGCLACKACSTQCPIKIDVPEFRSRFLQLYHSRYLRPVRDHLVASVESYAPLMAQAPKTFNFFMNQPWLKKLSEKHIGMVDLPLLSAPSLKQQMAGHRSANMTLEQLEALSAEQKAKMVLVVQDPFTSYYDAQVVADFIRLVEALGYQPVLLPFSPNGKAQHIKGFLTRFARTAQKTADFLNRVAQLGMPLVGVDPALVLCYRDEYKQTLGDKRGDFQVLLVHEWLPKVLTADARPDPGGEPWYLFGHCTEVTALPAATKQWAEIFAHFGAKLENVSVGCCGMAGTYGHEVKNHANSLAIYALSWQQAMQRLPRNRCLVTGYSCRSQVKRIEGSGVRHPLQALLEIIG				NA	NA	NA	NA	NA
BMS020_00786	1113	ydiK_1	COG0628	Putative transport protein YdiK	ATGATTAACCCCCATCAGCCTCGGGACATACCGCAAATACTGCTGTCGGTGCTGTTCCTGGCCCTGATTATCATATCCTGCCTGTGGGTTGTGCAGCCGTTTATTCTGTCCTTCGCCTGGGCCGGCACCGTGGTGATCGCCACCTGGCCGGTGCTGCTGCGTCTGCAGCGCGTGCTGTTCGGCAAACGGATGCTGGCGGTGCTGGCGATGACCCTGCTGCTGTTTTTGCTATTCGTGATTCCTATCGCTCTGCTGGTCAACAGCCTGGTGGATAACAGCGTTCCGCTGATCAAACTCATCAGCAGCGGAAATGTGACGCTGCCGGATTTCGCCTGGCTCAACAGCGTGCCGCTGGTCGGCGATAAGCTCTACGCCGCCTGGCATGGCCTGCTGGATATGGGCGGCTCGGCGATTATGGCCAAGGTTCGCCCCTACATTGGCACCACCACGAGCTGGTTTGTCGGTCAGGCGGCGCACATCGGCAAGCTGCTGGTCTACTGCGGCCTGATGCTGTTATTCAGCGCGCTGCTTTACTGGCGCGGCGAGCAGGTAGCCTACGGTTTTCGCTATTTCGCCACGCGCCTGGCGGCTAAACGCGGTGACGCCGCCGTGCTGCTGGCCGGCCAGGCCGTGCGCGCCGTGGCGCTGGGCGTGGTGGTGACGGCCCTCACTCAGGCGGTGCTGGGCGGGATCGGCCTTGCCATCTCCGGCGTGCCCTACGCCGCCCTGCTGACCGTGGTGATGATCTTTACCTGTCTGGTCCAGCTCGGGCCTTTGCTGGTTCTGGTGCCGTCGATTATCTGGCTTTACTGGAGCGGGGACACCACCTGGGGCACTGTGCTGCTGGTGTGGAGCTGCGTGGTCGGCACCATGGACAACGTTATCCGTCCGGTGCTTATCCGTATGGGCGCCGACCTGCCGATGATCCTCATTCTTACCGGCGTCATTGGCGGCCTGATCGCCTTCGGCATGATCGGCCTGTTTATCGGTCCGGTGCTGCTGGCCGTCTCCTGGCGCCTGTATGACGCCTGGGTGCACGAAGTGCCGCCGCCGCCGAAAGACCCCGATGTCGTGCTCGAAGAGCTCAGCGAGCTGGAGGCCGGGCGCAAGTAA	MINPHQPRDIPQILLSVLFLALIIISCLWVVQPFILSFAWAGTVVIATWPVLLRLQRVLFGKRMLAVLAMTLLLFLLFVIPIALLVNSLVDNSVPLIKLISSGNVTLPDFAWLNSVPLVGDKLYAAWHGLLDMGGSAIMAKVRPYIGTTTSWFVGQAAHIGKLLVYCGLMLLFSALLYWRGEQVAYGFRYFATRLAAKRGDAAVLLAGQAVRAVALGVVVTALTQAVLGGIGLAISGVPYAALLTVVMIFTCLVQLGPLLVLVPSIIWLYWSGDTTWGTVLLVWSCVVGTMDNVIRPVLIRMGADLPMILILTGVIGGLIAFGMIGLFIGPVLLAVSWRLYDAWVHEVPPPPKDPDVVLEELSELEAGRK				NA	NA	NA	NA	NA
BMS020_00788	2379	ppsA_1	COG0574	Phosphoenolpyruvate synthase	ATGTCCAACAATGGCTCGTCACCGCTGGTGCTTTGGTATAACCAACTCGGCATGAATGATGTAGACAGAGTTGGGGGCAAAAATGCCTCCCTTGGTGAAATGATTACGAATCTGTCCGGTATGGGTGTGTCCGTACCTAACGGGTTTGCCACCACCGCTGATGCTTTCAATCAGTTCCTGGACCAAAGCGGTGTTAACCAGCGCATTTATGCGCTGCTGGATGAAACCGACATTGACGACGTTTCCGCATTAGCGAAAGCGGGCGCGCAGATCCGACAGTGGATCATCGATACCCCCTTCCAGAGCGAACTGGAAAACGCGATTCGCGATGCTTATGACCTGCTGTCCGCCGATGACGCCGAGGCCTCATTCGCCGTGCGCTCTTCCGCCACCGCGGAAGATATGCCGGACGCCTCCTTCGCCGGGCAGCAAGAGACATTCCTCAACGTGCAGGGCTTTGACGCCGTGCTCGTTGCCGTGAAGCACGTGTTTGCTTCACTGTTTAACGATCGCGCGATCTCCTATCGCGTGCATCAGGGTTACGATCACCGCGGCGTGGCGCTCTCCGCCGGGGTGCAGAGGATGGTCCGCTCCGATCTGGCCTCCTCCGGCGTCATGTTCTCCATCGATACCGAATCCGGCTTTGACCAGGTGGTGTTTATCACCTCGGCGTGGGGGTTGGGCGAGATGGTGGTGCAGGGCGCGGTGAACCCGGACGAATTCTACGTCCACAAACCGACGCTGGCCGCTGGCCGCCCGGCGATCGTGCGCCGCACCATGGGGTCGAAAAAGATCCGCATGGTTTACGCGCCGACTCAGGAGCACGGCAAGCAGGTACGTATCGAAGATGTGCCGCAGGCGCAGCGCGATATCTTCTCGTTAACCAACGAGGAGGTGCAGGAGCTGGCGAAGCAGGCGGTGCAGATCGAGAAGCACTACGGCCGTCCGATGGATATCGAGTGGGCGAAAGATGGCCACACCGGTAAGCTGTTTATCGTCCAGGCGCGTCCGGAAACCGTGCGTTCCCGCGGCCAGGTGATGGAGCGTTATACCCTCCACGCTCAGGGGCAGATCATCGCCGAAGGGCGCGCCATCGGCCACCGCATTGGCGCCGGTCCGGTGAAGGTGATCCACGATATCAGCGAGATGAACCGCATTGAGCCAGGCGATGTGCTGGTTACCGATATGACCGACCCGGACTGGGAACCGATCATGAAGAAAGCCTCGGCGATCGTCACCAACCGCGGCGGACGTACCTGCCACGCGGCGATCATCGCTCGTGAGCTGGGTATTCCGGCGGTGGTCGGCTGCGGCGATGCCACCGATCGCATTCAGGAAAACCAGAACGTGACCGTCTCCTGCGCCGAAGGCGACACCGGCTATGTCTACGCCGAGCTGCTGGATTTCAGCGTCAAGAGCTCCAGCGTCGGCGACATGCCGGATCTGCCGCTGAAGGTGATGATGAACGTCGGCAACCCGGATCGCGCCTTCGACTTCGCCTGCCTGCCGAACGAAGGCGTGGGTCTGGCGCGGCTGGAATTTATCATCAACCGCATGATTGGCGTTCACCCGCGCGCGCTGCTGGAGTTTGACGACCAGGAGCCGGGCCTGCAGAACGAAATCCGCGAGCTGATGAAAGGCTACGATTCGCCGAGAGAGTTCTACGTTGGCCGCCTGACCGAAGGGATCGCCACCCTTGGCGCCGCGTTCTATCCGAAACGGGTGATTGTGCGCCTCTCTGACTTCAAGTCGAACGAATACGCCAACCTGGTGGGCGGCGAGCGCTATGAGCCGGAAGAAGAGAACCCAATGCTCGGCTTCCGCGGCGCCGGACGCTACGTTTCCGAAAGCTTCCGCGACTGCTTCGCGCTGGAATGTGAAGCGATGAAGCGCGTGCGTAACGACATGGGGCTGACCAACGTCGAAGTGATGGTGCCGTTCGTCCGTACCGTCGCCCAGGCGAAAGCGGTGGTCGAAGAGCTGGAGCGTCAGGGGCTGAAGCGCGGCGAGAACGGGCTGAAGATCATCATGATGTGCGAGATCCCGTCGAACGCGTTGCTGGCCGAGCAGTTCCTCGAGTACTTCGACGGCTTCTCCATCGGCTCGAATGACATGACCCAGCTGGCGCTCGGTCTGGACCGCGACTCCGGCGTGGTCTCTGAGCTGTTTGATGAACGCAACGACGCGGTGAAAGCGCTGCTGTCGATGGCGATCCGCGCGGCGAAGCAGCAGGGTAAATACGTCGGCATCTGCGGCCAGGGGCCGTCTGACCATGAAGATTTCGCCGCCTGGCTGATGGAGGAGGGGATTGATAGCCTGTCCCTCAACCCGGATACCGTGGTGCAAACCTGGTTAGGTCTGGCGGAACTGAATAAATAG	MSNNGSSPLVLWYNQLGMNDVDRVGGKNASLGEMITNLSGMGVSVPNGFATTADAFNQFLDQSGVNQRIYALLDETDIDDVSALAKAGAQIRQWIIDTPFQSELENAIRDAYDLLSADDAEASFAVRSSATAEDMPDASFAGQQETFLNVQGFDAVLVAVKHVFASLFNDRAISYRVHQGYDHRGVALSAGVQRMVRSDLASSGVMFSIDTESGFDQVVFITSAWGLGEMVVQGAVNPDEFYVHKPTLAAGRPAIVRRTMGSKKIRMVYAPTQEHGKQVRIEDVPQAQRDIFSLTNEEVQELAKQAVQIEKHYGRPMDIEWAKDGHTGKLFIVQARPETVRSRGQVMERYTLHAQGQIIAEGRAIGHRIGAGPVKVIHDISEMNRIEPGDVLVTDMTDPDWEPIMKKASAIVTNRGGRTCHAAIIARELGIPAVVGCGDATDRIQENQNVTVSCAEGDTGYVYAELLDFSVKSSSVGDMPDLPLKVMMNVGNPDRAFDFACLPNEGVGLARLEFIINRMIGVHPRALLEFDDQEPGLQNEIRELMKGYDSPREFYVGRLTEGIATLGAAFYPKRVIVRLSDFKSNEYANLVGGERYEPEEENPMLGFRGAGRYVSESFRDCFALECEAMKRVRNDMGLTNVEVMVPFVRTVAQAKAVVEELERQGLKRGENGLKIIMMCEIPSNALLAEQFLEYFDGFSIGSNDMTQLALGLDRDSGVVSELFDERNDAVKALLSMAIRAAKQQGKYVGICGQGPSDHEDFAAWLMEEGIDSLSLNPDTVVQTWLGLAELNK	PGPT0002035_1606	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0002035-pps|ppsA-K01007	NA	NA
BMS020_00789	834	ppsR_1	COG1806	Phosphoenolpyruvate synthase regulatory protein	ATGGAAAGTGCTGTAGATCGCCACGTATTTTATATTTCTGACGGTACCGCCATTACGGCGGAGGTGCTGGGGCATGCCGTCATGTCGCAATTCCCGGTCGCCATCAGCAGCGTGACCCTGCCGTTTGTGGAAAATATCAGTCGCGCGCGGGCGGTGAAAGAGCAGATCGACGCCATTTATCAGCAAACGGGCATCCGCCCGCTGGTGTTCTATTCCATCGTTATTCCGGAGATCCGCGATATCATTCTGCAAAGCGAGGGCTTTTGTCAGGATATCGTTCAGGCGCTGGTGGCCCCGCTGCAGCAGGAGCTCAACCTCGACCCGACGCCAGTGGCCCACCGCACCCACGGCCTGAACCCCGGGAACCTGATCAAATACGATGCGCGCATCGCCGCCATCGATTACACCCTCGCCCATGACGATGGCATCTCGCTGCGCAACCTTGACCAGGCGCAGGTGATCCTCCTCGGCGTGTCGCGCTGCGGCAAGACGCCCACCAGTCTGTACCTCGCTATGCAGTACGGCATTCGCGCCGCCAACTATCCGTTTATCGCCGACGATATGGACAATCTGGTTCTGCCGGCGTCGCTGAAACCCCTGCAGCATAAGATGTTCGGCCTGACCATCAATCCGGAGCGTCTGGCGGCGATCCGCGAGGAGCGCCGGGAGAACAGCCGCTACGCTTCGCTGCGCCAGTGTCGGATGGAAGTGACCGAAGTGGAGGCGCTGTATCGCAAGAATAAAATTCCCTGCCTGAACAGCACCAACTATTCCGTTGAGGAAATAGCGACAAAAATCATGGACATCATGGGGCTGAATCGCAGGATGTACTAA	MESAVDRHVFYISDGTAITAEVLGHAVMSQFPVAISSVTLPFVENISRARAVKEQIDAIYQQTGIRPLVFYSIVIPEIRDIILQSEGFCQDIVQALVAPLQQELNLDPTPVAHRTHGLNPGNLIKYDARIAAIDYTLAHDDGISLRNLDQAQVILLGVSRCGKTPTSLYLAMQYGIRAANYPFIADDMDNLVLPASLKPLQHKMFGLTINPERLAAIREERRENSRYASLRQCRMEVTEVEALYRKNKIPCLNSTNYSVEEIATKIMDIMGLNRRMY				NA	NA	NA	NA	NA
BMS020_00790	1143	aroH_1	COG0722	Phospho-2-dehydro-3-deoxyheptonate aldolase, Trp-sensitive	ATGCCCTGCTCTTGCAATAAGCAGGGATTGGTTTATCGTGATGCGCATCACTTCCCGGCATTTTCGCTGGCGAAGAAACAGATTTTTGAGACCCCAATGAATAAAACAGACGAATTGCGTACCGCGCGCATTGAAAGCCTGGTAACGCCCGCGGAGCTGGCCCAGCGCCATCCCGTCACCGCCGACGTGGCCGCCCACGTCTCGGCCTCCCGTCGCCGCATTGAAAAAATCCTCAACGGCGAAGACCGCCGCCTGCTGGTGATTATCGGCCCCTGCTCCATTCACGACACCGACGCGGCGATGGAGTATGCCCGCCGCCTGCAGACCATGCGCGAGCGCTACCAGCCGCAGCTGGAGATCGTGATGCGCACCTACTTTGAAAAACCCCGTACCGTGGTGGGCTGGAAAGGCTTAATCTCCGACCCGGACCTCAACGGCAGCTATCGGGTCAACCACGGTATTGAACTGGCACGGCGCCTGCTGCTGCAGGTTAATGAGCTGGGGGTGCCGACGGCCACCGAGTTTCTCGATATGGTGACCGGTCAGTTTATCGCCGATCTCATCAGCTGGGGAGCCATCGGGGCGCGCACCACGGAAAGCCAGATCCACCGTGAAATGGCCTCGGCGCTCTCCTGCCCGGTCGGGTTTAAAAACGGTACCGACGGCAATACGCGCATCGCCGTAGACGCCATCCGCGCCTCCCGCGCCAGCCATATGTTCCTCTCTCCGGACAAGCAGGGGCAGATGACGATTTACCAGACCAGCGGCAACCCGTACGGGCATATCATTATGCGCGGCGGCAAACGGCCGAACTATCACGCCGAGGATATCGCCGCCGCCGGCGAAGCGCTGCGTGAATTCAATCTGCCGGAGCAGCTGGTGGTCGACTTCAGCCATGGCAACTGCCAGAAGCAGCATCGCCGTCAGCTGGAGGTGTGCGCCGATATCTGTCAGCAAATTCGCGCGGGCTCTACCGCCATCGCCGGCATTATGGCGGAGAGCTTCCTGCAGGAAGGGACCCAGAAAGTGGTTCCCGGCCAGCCGCTGGCCTGGGGCCAGTCGATCACCGATCCCTGCCTGAGCTGGGAAGACAGCGAACGTTTATTGAGCGAACTGGCGGCCGCCACGGCCACCCGTCTGTGA	MPCSCNKQGLVYRDAHHFPAFSLAKKQIFETPMNKTDELRTARIESLVTPAELAQRHPVTADVAAHVSASRRRIEKILNGEDRRLLVIIGPCSIHDTDAAMEYARRLQTMRERYQPQLEIVMRTYFEKPRTVVGWKGLISDPDLNGSYRVNHGIELARRLLLQVNELGVPTATEFLDMVTGQFIADLISWGAIGARTTESQIHREMASALSCPVGFKNGTDGNTRIAVDAIRASRASHMFLSPDKQGQMTIYQTSGNPYGHIIMRGGKRPNYHAEDIAAAGEALREFNLPEQLVVDFSHGNCQKQHRRQLEVCADICQQIRAGSTAIAGIMAESFLQEGTQKVVPGQPLAWGQSITDPCLSWEDSERLLSELAAATATRL	PGPT0012920_2560	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012920-3_deoxy_7_phosphoheptulonate_synthase|aroF|aroG|aroH-K01626	NA	NA
BMS020_00791	180	ydiE	COG4256	putative protein YdiE	ATGGATAACACTGCCACAGCTGAAAAACCAAAAGACAATGCCCCCTATCCCGTGGCGACGGACAGACAGATCAGCAGTCGGGTTCTGTTAGGCAGCGAAGGACGGGTAGTCATTGAGCATGGCGGCCAGCGCTATCTGCTGCGCCAGACCCACGCCGGGAAGTTGATCCTGACCAAATAA	MDNTATAEKPKDNAPYPVATDRQISSRVLLGSEGRVVIEHGGQRYLLRQTHAGKLILTK				NA	NA	NA	NA	NA
BMS020_00792	1443	selO_1	COG0397	Protein adenylyltransferase SelO	ATGACCCTTTCTTTTACCACCCACTGGCGGGATGAACTGCCGGACTTTTACACTTCCCTGTCGCCGACGCCGCTCGATAACGCCCGACTCATCTGGCGCAACGCTCCGCTGGCGCAACAGCTGGGCGTCCATGACGCGCTGTTTGCGCCGGAAAGCGGGGCCGGCGTCTGGGGCGGCGAAGCGCTGCTTCCGGGCATGTCGCCGCTGGCGCAGGTTTACAGTGGCCATCAGTTTGGCGCCTGGGCCGGCCAGCTGGGCGACGGACGCGGGATCCTTCTCGGTGAGCAGCAGCTGGCGGATGGCCGCCGTTACGACTGGCATCTGAAAGGCGCCGGCCTGACCCCCTATTCACGGATGGGGGACGGCCGCGCTGTGCTGCGCTCGACGATCCGGGAAAGCCTGGCGTCGGAGGCGATGCACGCCCTGGGGATCCCGACGACGCGCGCTCTGGCGATGGTCACCAGCGATACCCCGGTCTACCGCGAGCGCGTGGAGCCTGGCGCGATGCTGATGCGGGTGGCCGAGAGCCATGTCCGCTTTGGTCATTTCGAACATTTTTACTATCGTCGCGAGCCGCAGAAGGTTCAGCAGCTGGCCGATTATGTCATTCGTCACCACTGGCCGCAGCTGCAGGATGAAGCGGACAAGTACCTGTTATGGTTCCGTGACGTTGTCACGCGTACCGCGCAGACCATCGCCAGCTGGCAAACCGTGGGCTTTGCCCATGGGGTGATGAATACCGACAACATGTCAATTCTCGGTTTGACCATCGACTACGGGCCGTATGGCTTCCTTGACGATTTTCAGCCGGACTTTATCTGCAACCACTCCGATTACCAGGGGCGCTACAGTTTTGAAAACCAGCCGGCGGTGGGGCTGTGGAATCTGCAGCGTCTGGCCCAGTCGCTGTCGCCGTTTATCAGCGCCGAAGCGCTGAACGCGGCGCTGGATGAGTATCAGCACGCCTTGCTGACCGCCTATGGCCAGCGGATGCGCGACAAACTTGGCCTGTTCACTCAGCAGAAAGGGGATAACGATCTGCTCGACGGTCTGTTTGCCCTGATGATCCGCGAGAGAAGCGACTATACCCGAACGTTCCGCCTGCTGAGCCACAGCGAACAGCTCAGCGCGGCCTCGCCGCTCCGCGACGAGTTTATCGACCGAGCGACATTCGACAGCTGGTTCGCCGGATATCGCGCGCGGCTTCGTGATGAACAGGTGGAGGATGCCCAGCGCCAGCAGCGGATGCAGGGCGTCAACCCGGCGCTGGTGTTACGTAACTGGCTGGCGCAGCGGGCGATCGAGCAGGCTGAGGCTGGCGATATGGGGGAGCTGGAGCGTCTGCATGCCGCGCTGGCCGATCCCTTCACCGATCGCGAGGACGACTACGTCCGCCGGCCGCCGGACTGGGGGAAACGTCTGGAAGTCAGCTGCTCGAGCTAA	MTLSFTTHWRDELPDFYTSLSPTPLDNARLIWRNAPLAQQLGVHDALFAPESGAGVWGGEALLPGMSPLAQVYSGHQFGAWAGQLGDGRGILLGEQQLADGRRYDWHLKGAGLTPYSRMGDGRAVLRSTIRESLASEAMHALGIPTTRALAMVTSDTPVYRERVEPGAMLMRVAESHVRFGHFEHFYYRREPQKVQQLADYVIRHHWPQLQDEADKYLLWFRDVVTRTAQTIASWQTVGFAHGVMNTDNMSILGLTIDYGPYGFLDDFQPDFICNHSDYQGRYSFENQPAVGLWNLQRLAQSLSPFISAEALNAALDEYQHALLTAYGQRMRDKLGLFTQQKGDNDLLDGLFALMIRERSDYTRTFRLLSHSEQLSAASPLRDEFIDRATFDSWFAGYRARLRDEQVEDAQRQQRMQGVNPALVLRNWLAQRAIEQAEAGDMGELERLHAALADPFTDREDDYVRRPPDWGKRLEVSCSS				NA	NA	NA	NA	NA
BMS020_00793	465	mepS_1	COG0791	Murein DD-endopeptidase MepS/Murein LD-carboxypeptidase	ATGCGCTTCTGGTTCATGTTGGCGGCGGCGTTAATTTTAGCCGGCTGCAGCAGCCATCGGGCACCGCCGCCGAATCCTCGGCTGGCTGACTCCATCACGGTGGTGGCGAATCTGAACGAGCAGCTGCGTAGCTGGCGCGGCGCACCGTATCGCTACGGCGGCATGACGCCGCGCGGCGTCGACTGCTCCGGCTTTGTGGTGCGCACGTTTCGCGATAAATTTGCCCTCCAGCTGCCGCGCGAAACCCGCGAGCAGGCGGAAATCGGCACCCGAATTGATAAGCGCGATCTGCTGCCCGGCGATCTGGTGTTCTTCAAAACCGGCTCAGGCGAAAGCGGCCTGCACGTCGGCATCTACGATACCGATAACCAGTTTATTCATGCCTCCACCAGTCAGGGCGTCACCCGTTCCTCGCTGGATAACGTCTACTGGAACAAAAAATTCTGGCAGGCGCGGCGTATCTGA	MRFWFMLAAALILAGCSSHRAPPPNPRLADSITVVANLNEQLRSWRGAPYRYGGMTPRGVDCSGFVVRTFRDKFALQLPRETREQAEIGTRIDKRDLLPGDLVFFKTGSGESGLHVGIYDTDNQFIHASTSQGVTRSSLDNVYWNKKFWQARRI	PGPT0023820_684	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
BMS020_00794	750	btuD_3	COG4138	Vitamin B12 import ATP-binding protein BtuD	ATGTCGTTTCTGATGCAGCTACAGGATGTAGAAGCGGCGGGGCGTCTGGCCCCGTTTTCTGCGGCCTTTCGCGCCGGGGAGATCGTCCACCTGGTGGGGCCGAACGGCGCAGGGAAGAGCACGCTGCTGGCCCGCATGGCGGGGCTGTCCGACGGTCCCGGCACGATTCATTTTAACGGACGGTTGCTTGACGAGTGGCCGGCGACGGAGCTGGCGCGCCGCCGCGGATACCTGTGCCAACAGCAGACCCCGCCGTTCGCCATGCCGGTGTGGCACTATCTGGCGCTGCACAGGCAGCAGCAGGGCGACAGCGCCCGGGTGAACGATATCGCGGCCAGGCTTGGCCTTGACAATAAGCTGGGCCGTCAGGTCAATCAGCTGTCGGGCGGCGAGTGGCAGCGCGTGCGGCTGGCGGCAGTGATCCTGCAGATCGATCCCTTAAGCAATCCCGCGGGTCAGCTGCTGCTGCTGGATGAGCCGATGAACAGTCTGGATGTGGCCCAGCAGGCGGCGCTGGATCGGCTGTTACGCGAGCTGAGCGCGGCGGGAATCGCGGTGGTGATGAGCAGTCACGATCTCAACCACACTTTGCGCCATGCCGGACAGAGCTGGCTGCTCTGCCAGGGGGAAGCCATCGCCTGCGGGGAGACCGCCGAGGTGCTGAACGAGGAAAATTTAACCGCTGCCTATGCGATCCCGTTCCAGCGCGTGGAGGTGGCCGGTCATATTATGCTCATCGCGTCACAGTAG	MSFLMQLQDVEAAGRLAPFSAAFRAGEIVHLVGPNGAGKSTLLARMAGLSDGPGTIHFNGRLLDEWPATELARRRGYLCQQQTPPFAMPVWHYLALHRQQQGDSARVNDIAARLGLDNKLGRQVNQLSGGEWQRVRLAAVILQIDPLSNPAGQLLLLDEPMNSLDVAQQAALDRLLRELSAAGIAVVMSSHDLNHTLRHAGQSWLLCQGEAIACGETAEVLNEENLTAAYAIPFQRVEVAGHIMLIASQ	PGPT0004680_302	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0004680-btuD-K06074	NA	NA
BMS020_00795	552	btuE_1	COG0386	Thioredoxin/glutathione peroxidase BtuE	ATGCAACATGACATTCTGAATACCGAAGTGACGACCATTGATGGCGAGAAGACCACCCTGGCATCCTTTGCCGGCAAGGTACTGCTGATCGTCAATGTGGCCTCCAAATGCGGCCTGACGCCGCAGTATGAGCAACTGGAGGACCTGCAAAAGCAGTTTGCCGGCGAGGGCTTCAGCGTGCTGGGCTTCCCCTGCAACCAGTTCCTCGGCCAGGAGCCGGGGAGTGAAGAAGAGATTAAGACCTTCTGCAGCACCACCTACGGCGTCACCTTCCCGCTGTTCAGCAAGATTGACGTCAACGGCGAGCATCGCGCACCGCTCTATCAAAAGCTGGTTGCCGCCGCGCCGAAGGCGGTGGCCCCGGAAGGTAGCGGTTTTTATGAGCGGATGGCCAGCAAGGGCCGCGCGCCGCTGTACGTGGACGACATTCTGTGGAATTTCGAAAAATTCCTCATCGATCGCCAGGGCAACGTCATTCAGCGCTTCTCTCCGGATATGACGCCGGACGATCCGCAGCTGGTGGCGGCGATTAAAGGAGCGCTGGCGAAATAA	MQHDILNTEVTTIDGEKTTLASFAGKVLLIVNVASKCGLTPQYEQLEDLQKQFAGEGFSVLGFPCNQFLGQEPGSEEEIKTFCSTTYGVTFPLFSKIDVNGEHRAPLYQKLVAAAPKAVAPEGSGFYERMASKGRAPLYVDDILWNFEKFLIDRQGNVIQRFSPDMTPDDPQLVAAIKGALAK	PGPT0013115_1936	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013115-bsaA|gpx|btuE-K00432	NA	NA
BMS020_00796	801	metQ_3	COG1464	D-methionine-binding lipoprotein MetQ	ATGAAGAAGTTGTTTAGCCTGGCGTTAATCGCCGCCTCTGTCGCCCTGCTGAGCGCCTGCTCTCCGGATGAAGATAATAAAGTGAAAGTCGCTATCAATACCGGGCCGGACGAAGCCATCTGGAAAGTGGTGGAGCAAGTGGCGAAGGATAAATATCACCTCGACGTCGAAGTGGTCTCCTTCAATGATTATGTGCTGCCTAACGAAGCGCTGAACAACAAAGATGTGGATGCCAACGCCTTCCAGACCCTGCCGTACCTTGAGGCGCAGTCGAAAGAGCGCGGCTATAAATTCACAGTGGTCGGTAAAACCTTTGTCTTCCCTATCGCCGCCTATTCACATCGCATCAAAAATATCAGCGAGCTCCCCGAGGGAGCGACGGTGACCATCTCTAATGAAACCACCACCCTGGGCCGCAGCCTGCTGCTGCTTCAGGCGCAGGGGCTGCTCAAGCTGAAACCGGGCGTCGGCTATTTACCCACCACGCTGGATATCATCGACAACCCGAAACAGCTGAAGATTGTTGAGGTGGATACCCCGCAGCTGACCCGCACTCTGGATGACCCGAACGTCAGCCTGTCAATCATTAACACCAACTTCTCCGCCCAGGCGGGCCTGTCGGCCGCCCGCGACGGCCTGTTCATGGAGGGACCAGATTCCCCTTACGTGAATGCGATTGTCGCCCGCGAGGATAACAAGGACAGCAAGAAAATTCAGGAACTGAAAGCCGCCTTCCAGACCAGTGAAGTCGCGGAAAAAGCGAAGGAAGTCTACAAAGGCGACGCGATCAAAGGCTGGTAA	MKKLFSLALIAASVALLSACSPDEDNKVKVAINTGPDEAIWKVVEQVAKDKYHLDVEVVSFNDYVLPNEALNNKDVDANAFQTLPYLEAQSKERGYKFTVVGKTFVFPIAAYSHRIKNISELPEGATVTISNETTTLGRSLLLLQAQGLLKLKPGVGYLPTTLDIIDNPKQLKIVEVDTPQLTRTLDDPNVSLSIINTNFSAQAGLSAARDGLFMEGPDSPYVNAIVAREDNKDSKKIQELKAAFQTSEVAEKAKEVYKGDAIKGW	PGPT0020510_4644	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
BMS020_00797	978	btuC	COG4139	Vitamin B12 import system permease protein BtuC	ATGCTGACTCTCGCCCATCTTCAACAGCGCCGTAGCCGGCGTTGGCTCCTTGGTTTAACGCTGTTGCTGCTGGTCACCCTGCTGATCAGCCTGTGCGCGGGGGATCAATGGATCCCGCCCGGCGAGTGGCTCAGCGCCAAAGGTCAGCTGTTTATCTGGCAGATCCGCCTGCCGCGGACCCTGGCGGTGCTGCTGGTGGGGGCGGCGCTGGCGCTCTCCGGGGCGATAATGCAGGCGCTGTTTGAAAATCCGCTGGCGGAACCGGGTCTGCTGGGCGTCTCCAACGGCGCGGGCGTCGGGCTGATTGCCGCCGTCCTGCTGGGTAAAGGCCTGTTACCGGGCTGGGCGCTCGGGCTGTGCGCGATCCTGGGCGCGCTGCTGATCACCTTTATTCTGCTGCGTTTTGCCCGCCGCCATCTTTCCACCAGCCGCCTGCTGCTGGCGGGGGTGGCGCTGGGGATCATCTGCAGCGCCCTGATGACCTGGGCGGTCTACTTCTCCACCTCTTTTGATCTGCGTCAGCTGATGTACTGGATGATGGGTGGGTTTGGCGGCGTCGACTGGCAGCAGCTGTGGCTGATGATAGCCCTCCTGCCAGCGCTCTGCTGGGTCTGTCTGCAGTCGCAACCCCTGAATTTACTGGCGCTGGGCGAAGTCTCCGCCCGTCAGCTCGGGCTGCCGCTGTGGCTGTGGCGTAAGCTGCTGGTGGTGGCGACCGGCTGGATGGTCGGCGTGAGCGTGGCGCTGGCGGGGGCGATTGGCTTTATCGGCCTGGTAATTCCGCACATTCTGCGGCTATGCGGCTTGAGCGATCACCGGGTCTTGCTTCCGGCCTGCATGCTGGCAGGGGCAAGCGCCTTGCTGGGGGCGGATATTATCGCCCGGCTGGCGCTTTCCGCCGCTGAGCTGCCGATTGGCGTGGTGACGGCGACGCTGGGCGCGCCGGTCTTTATCTGGTTGCTGCTGCGCTCGCGGTGA	MLTLAHLQQRRSRRWLLGLTLLLLVTLLISLCAGDQWIPPGEWLSAKGQLFIWQIRLPRTLAVLLVGAALALSGAIMQALFENPLAEPGLLGVSNGAGVGLIAAVLLGKGLLPGWALGLCAILGALLITFILLRFARRHLSTSRLLLAGVALGIICSALMTWAVYFSTSFDLRQLMYWMMGGFGGVDWQQLWLMIALLPALCWVCLQSQPLNLLALGEVSARQLGLPLWLWRKLLVVATGWMVGVSVALAGAIGFIGLVIPHILRLCGLSDHRVLLPACMLAGASALLGADIIARLALSAAELPIGVVTATLGAPVFIWLLLRSR	PGPT0004675_163	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0004675-btuC-K06073	NA	NA
BMS020_00798	1434			hypothetical protein	ATGAGTGACTCAACGCTCGCAGGCAATACGCCTGTCAGACGAAATATCACGCGAAAAAACGTTATTACCGGTCTGTTATTGCTGCTGTTCGTGTTGATTGCGCTGTGGTGCCACGGTCGACCGGGCAGCGAGCTTGGCCTGCTGGGATTTACGCCGCTGGTGGCGTTAGCGATATTATCGCTGATCGGCGTCGATATTGTGCTGGCGATCATCTCCTCGATTATTATCGCCATGATCATGACCTCGACCGGTCTGCCGGAAATGGGCGCGATGCTGGCGAAGTCCACCGGGTCATTTATTGCCACCGTCGGGCTTATCATTATGCTCGGCGCCGGCGTGGGGGAAGTGGCCACCCGCACCGGCGCGGCGGTTGAACTGGTGAAATTCGTGGTCCACCGTATTGGGCTGTCGAGCCAGACGCGGGTCAAGTTCGGCATTGTGGTGTCATCGATTTTAATTTGCGGTTCGCTGGGCACCATGGCCGGCGGCAATGCGATTATTGTCGCAGTGATTATCCCCGTAGCGGCGGCGGTACGCTTAACGCCGCCGACGGTAGCCGCGCTGATGATGACCGCCGGTTCCGTTGGACTCTTTACCGGGCCCTTCACCCCCAGCACCGTGACGATCCTCAGCCTCGGCGGACTGAGCTATCCGGATTATCTGCTGTATGTCGGCCTGCCGATGAGCGCCGTCACCCTGTTAGCCGGCTGGATCATGGCCGGACGGATCCAGAAGATGACCGAAGGCAAACTGCGCTATGAGGTCGATCTCTCGGAAAAGCCGCAAGAGGACCTTAGCGCCGCGCAGCAGCGCCGGCGTAAATTAAGCGCGCTGGCTTTCGCCGCGACCATCATCGTGATGGCGGTGGTTGGGGTGGTGATTAAAGCCGGCTTCAGCTTTGCGATTATCGTCATGCTGCTGGTGGCGTTGATGACCGGGCTGGTGGGCGGCCTGCGGCCGACGCAGATCCTGCAGGCGCTGTATCACGGCTGCGGTCGTCTGGTGTGGATGTTTATTCTCTACTGGCTGTATAACCCGATCCTTGAGCTGATGGATGGCCTGCACGCCTATCAGGGGCTGCTGGAGTATACCCAGCCGCTGCTGGAGGGGATCTCCCCGGCCTGGCTGTGCTTTAGCATCTTCGCGTTCAATATAATCGGCCATGTGCCCGGCGCGGCGGTAGCCCAGATGACCTTTACGCATAAAATCTTTGGCCCGATGCTGATGGCCGCCGGCGTGCCGCCGCAGGGGACCACCGCGGTGCTGCTGGCTTCGTCTCAGGTGGACTGGTTCGGGCCGTTTCCCTCATCGGACATGTTCGGCCAGATGGGGCTGGCGCAGTCTACTCATCTGAAGTATATGCTCTATAACGGCTGGGCAATCGTGGTGGCGAACATCATTCTCTTCGCGCTGCTGTTTCAGATTCTGGTGTAA	MSDSTLAGNTPVRRNITRKNVITGLLLLLFVLIALWCHGRPGSELGLLGFTPLVALAILSLIGVDIVLAIISSIIIAMIMTSTGLPEMGAMLAKSTGSFIATVGLIIMLGAGVGEVATRTGAAVELVKFVVHRIGLSSQTRVKFGIVVSSILICGSLGTMAGGNAIIVAVIIPVAAAVRLTPPTVAALMMTAGSVGLFTGPFTPSTVTILSLGGLSYPDYLLYVGLPMSAVTLLAGWIMAGRIQKMTEGKLRYEVDLSEKPQEDLSAAQQRRRKLSALAFAATIIVMAVVGVVIKAGFSFAIIVMLLVALMTGLVGGLRPTQILQALYHGCGRLVWMFILYWLYNPILELMDGLHAYQGLLEYTQPLLEGISPAWLCFSIFAFNIIGHVPGAAVAQMTFTHKIFGPMLMAAGVPPQGTTAVLLASSQVDWFGPFPSSDMFGQMGLAQSTHLKYMLYNGWAIVVANIILFALLFQILV	PGPT0001340_304	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
BMS020_00799	915	hcaR_3		Hca operon transcriptional activator HcaR	ATGAAACTGCGTCATCTGGAAATCTTCTATGCCGTCATGACCTGCGGCTCTCTGTCACGGGCGGCGGAATCGCTCAATATCTCCCAGCCAGCGGCCAGCAAAGCGTTAAAAAGCGCCGAACTGAAGCTGGGCTTTACCCTGTTTCAGCGGGTGCGCGGCAAGCTGCTGCCGACCAGCGAGGCGATCACACTTTTCGAAAAAGCGCAGACTATTTATCAGGACCTTGATAACCTGCGCCTGCTGGCCGATAACCTGGCCCGCGATCCGCGCGCCAAAATCACCTTAGGCTGTCTGCCGAGCCTGGGGTTAAGCCTGGTGCCGGAGCTGGTGACCGATTTTTATCAGCAAAACAGTAACCTGGTGATGACGCTCACCACCGAGCACACCGAAACGCTGGTCAGAAAACTGGATTTACGCGAGATAGACTTAGCGCTGACGCTGCAGCCGGTGCAGCAGGGAGAGATCCTTACCACCCTGATTGCCGAAGTGCCACTGGTCTATATCGACCGTCATTATCGTCAGGGAGCGGTGGATATCAGCCAGATCGACCAGCAGCGCTGGATCTCGCCGGGGCCGCATTCGCTCTCCGCCGCCATCGCCACCCGTCGCGACTTTTCCACTACCCGGCTGAATGTCCAGACCTACTACATGGCCACCGAGTTCGTGAAGCGCGGCATGGGCTGCAGCATTACCGATATCTTTTCAGCCCAGCACAACCTGGCTCCCGAGATGATCCATCCCATTACGCCGCCGATGGCCATTAACCTCTGCCTGCTGCGCCGGGCCGACGTTTCCCTGAGCCCGATGGCGCAAAAATTCGTCGATTTTCTCTGCCAGCGCCTGCGCCAGCAGCTCAAGGAGATTAACCTGCGGTTATACCCTGACCATAAAAAGTCAATTGCGCCGCCAGGGTAA	MKLRHLEIFYAVMTCGSLSRAAESLNISQPAASKALKSAELKLGFTLFQRVRGKLLPTSEAITLFEKAQTIYQDLDNLRLLADNLARDPRAKITLGCLPSLGLSLVPELVTDFYQQNSNLVMTLTTEHTETLVRKLDLREIDLALTLQPVQQGEILTTLIAEVPLVYIDRHYRQGAVDISQIDQQRWISPGPHSLSAAIATRRDFSTTRLNVQTYYMATEFVKRGMGCSITDIFSAQHNLAPEMIHPITPPMAINLCLLRRADVSLSPMAQKFVDFLCQRLRQQLKEINLRLYPDHKKSIAPPG				NA	NA	NA	NA	NA
BMS020_00800	1254	dadA_1		D-amino acid dehydrogenase	ATGAACAAACGCATTGTCATTATCGGCGGCGGCGTGGTCGGTCTGGCCACGGCCTGGGAACTGATTAAGCGCGGCCATCAGGTGCAATTACTGGAGCGCAACGGCGAACCGGCCAGCGCCACCAGTTTTGCCAACGGCGGACAATTAAGTTACCGCTACGTCGCCCCCCTTGCCGACAGCGGCGTTCCCCTGCAGGGGATAAAATGGATGGGCAAAGCCGATTCGCCGCTCAATATGCGTCTCAATATCTCTTTACAGCAGTGGCGCTGGCTGCTGCAGTTCCTGCGCGCCTGTAATAGCCAGACCAATAAAATAAACGGCGCTCATATATTGCGTCTGTCGCTGCTCAGCCGGCAGGTCATGCAGTCGTGGCGGGAAGAGGATAATCTTGCCGATTTTCACTGGCGGCGCAGCGGAAAATTAATTATCCATCGCCGGGAATATGATTTTAATAAAGCGGCAAAAGGGATCGATCCTCAGTATCAGCAGGCGCTGAATGCTGAAGCCTGCCTGCAGCTGGAACCGGCGCTAAAACATATCAGCCCTTCGCTGCAGGGCGGAATTTATTCGCCGGGGGATGAAACGGCGGATTGCCATCAGTTTTGCCTTGCGCTGATCGACAAGCTCACCGCCAGCAGCCGCTTCAGCCTGCTGACCCACTGTGAGGTGCAGCGGCTCGCCAGGCGCGGCGGACGCGTCAGCGCCCTGGAGACCAGCCGCGGGACCATCACCGGCGATGAGTACGTCGTCGCCGCCGGCAACGGCAGCGGTCCGCTGCTGGGGCACATGGGCGTTCGCGTGCCGCTCTGCGCCCTGAAGGGGTACAGCCTGACCCTTCCCTATCCGCAGCAGGCGGGCATTGCGCCGGACATCAGCGTCACCGATTACGGGCATAAAATCGTTTATGCCCGCCTGGGCCAGCAGCTGCGCATCGCGGCGATGGTGGACATCGGCTACGACGGCGACAAACTGCGCGAGAGCCGCATTCAGGCGCTGAAAAAAATCGTCTCCCGCAGTTTTCCCGAACTCGAGGGGTTGGACCAGGCCGAAGCCTGGACCGGCATGCGCCCCTCAACGCCAGCCGGGCCACCGCTACTGGGACGCGCCGGCTACCCCAACCTGTGGATGAATCTCGGCCAGGGCAGCCTCGGTTTTACCCTCGCCGCCGGCAGCGCGGTGGTGCTGGGCGCGTTAATCGACAATCAGATGCCAGACATTTCTTTAGAAGGTCTCACATGGAAACAAACCGCATGA	MNKRIVIIGGGVVGLATAWELIKRGHQVQLLERNGEPASATSFANGGQLSYRYVAPLADSGVPLQGIKWMGKADSPLNMRLNISLQQWRWLLQFLRACNSQTNKINGAHILRLSLLSRQVMQSWREEDNLADFHWRRSGKLIIHRREYDFNKAAKGIDPQYQQALNAEACLQLEPALKHISPSLQGGIYSPGDETADCHQFCLALIDKLTASSRFSLLTHCEVQRLARRGGRVSALETSRGTITGDEYVVAAGNGSGPLLGHMGVRVPLCALKGYSLTLPYPQQAGIAPDISVTDYGHKIVYARLGQQLRIAAMVDIGYDGDKLRESRIQALKKIVSRSFPELEGLDQAEAWTGMRPSTPAGPPLLGRAGYPNLWMNLGQGSLGFTLAAGSAVVLGALIDNQMPDISLEGLTWKQTA	PGPT0020315_2222	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
BMS020_00801	369	rutC_2		Putative aminoacrylate peracid reductase RutC	ATGGAAACAAACCGCATGACAGTCATTCGCAATCATCCTCAACCTCGTCTTTCCGCCAGCGTTGCGTATGGCAATCTGCTGTTCCTCTCCGGACAGACGCCGAAAAGCAACGAGGAGGACATCGCCTTGCAGACCCGCGAAGTGCTGGAGAAAATCGACGCCCTGCTGGCGGCGGCCGGGAGCGATAAGCGGCACATTCTCTCCGCGCAGATCTGGCTGAAAAATATCAAGCGTGACTTTGCCGCGTTCAATGAGGCGTGGGTGGAGTGGATGCCGGAAGGCCATAGCCCGGCGCGCGCGGCCGTGCAGGCGGAGATGGCGCGACCAGACATCCTGGTGGAGATCATGCTCACCGCCGTTAAAGCGTAA	METNRMTVIRNHPQPRLSASVAYGNLLFLSGQTPKSNEEDIALQTREVLEKIDALLAAAGSDKRHILSAQIWLKNIKRDFAAFNEAWVEWMPEGHSPARAAVQAEMARPDILVEIMLTAVKA				NA	NA	NA	NA	NA
BMS020_00802	300	ihfA_1	COG0776	Integration host factor subunit alpha	ATGGCGCTTACAAAAGCTGAAATGTCAGAATATCTGTTTGATAAGCTTGGGCTTAGCAAGCGGGATGCCAAAGAACTGGTCGAGTTGTTTTTCGAAGAGATCCGTCGTGCTCTGGAAAACGGAGAACAGGTCAAACTCTCCGGGTTCGGCAACTTCGATTTGCGGGATAAAAACCAACGCCCGGGACGTAACCCGAAGACGGGGGAGGATATTCCCATTACAGCCCGGCGCGTGGTGACCTTCAGACCCGGTCAGAAGCTGAAAAGCCGTGTCGAAAACGCGTCGCCTAAAGACAAATAA	MALTKAEMSEYLFDKLGLSKRDAKELVELFFEEIRRALENGEQVKLSGFGNFDLRDKNQRPGRNPKTGEDIPITARRVVTFRPGQKLKSRVENASPKDK				NA	NA	NA	NA	NA
BMS020_00803	2388	pheT_1	COG0072	Phenylalanine--tRNA ligase beta subunit	ATGAAATTCAGTGAACTGTGGTTACGCGAGTGGGTTAACCCGGCGATCGACAGCGAAGCGCTTTCCGATCAGATCACCATGGCGGGCCTCGAAGTGGACGGCGTTGAGCCGGTTGCCGGCAGCTTCAACGGCGTCGTTGTCGGTGAAGTAGTGGAGTGCGGTCAGCACCCGAACGCCGACAAACTGCGCGTCACCAAAGTCAACGTCGGCGGCGAACGCCTGCTGGACATCGTCTGCGGCGCGCCAAACTGCCGTCAGGGGCTGAAAGTCGCCGTGGCGACCATCGGCGCGGTGCTGCCGGGCGATTTTAAAATCAAGGCCGCGAAACTGCGCGGCGAGCCGTCAGAGGGGATGCTGTGCTCCTTCTCCGAGCTGGGCATTTCCGATGATCATAGCGGAATTATCGAGCTGCCGGCGGATGCGCCGATCGGTACCGATATTCGCGAATATCTGAAGCTTGACGATAACACCATCGAAATCAGCGTCACCCCGAACCGTGCCGACTGCCTGGGCATCATCGGCGTCGCGCGCGATGTGGCCGTGCTGAACAAGGCGCCGCTGAACGCGCCGGAAATCACCCCGGTAGCCGCCACCATTGACGATGTGCTGCCGATTCAGGTTGACGCCCCGCAGGCGTGCCCGCGCTATCTGGGCCGCGTGGTGAAAGGCATCAACGTCAAAGCGCCGACGCCGCTGTGGATGAAAGAGAAACTGCGCCGCTGCGGGATCCGCTCCATCGACGCGGTGGTTGACGTGACCAACTATGTGCTGCTTGAGCTGGGCCAGCCGATGCACGCCTTTGACCGCGACCGTATCGAAGGCGGGATCGTGGTGCGCATGGCGAAAGAGGGCGAAACCCTGGTCCTGCTCGATGGCTCCGAAGCGAAGCTCGACAGCGATACCCTGGTCATTGCTGACCACAACAAAGCGCTGGCAATGGGCGGGATCTTCGGCGGGGAACACTCCGGCGTTAACGACGAAACCCAGAACGTACTGCTGGAGTGTGCCTTCTTCAGCCCGCTGTCCATTACCGGCCGCGCGCGCCGTCACGGCCTGCACACCGATGCCTCTCATCGCTATGAGCGCGGCGTCGATCCGGCCCTGCAGTATAAAGCGCTGGAGCGCGCCACGCGTCTGCTGATCGACCTCTGCGGCGGCGAAGCCGGCCCGGTGATTGACGTGACCAACGAAGCGACCCTGCCACAACGCGCCACCATCACTCTGCGTCGTAGCAAACTGGATCGCCTGATTGGCCACCATATCGACGACGCGCAGGTCACTGACATTCTTCAGCGCCTCGGCTGCGAAGTGACGGTGGGCGAGGGCGAATGGCAGGCGGTGGCCCCGAGCTGGCGTTTCGACATGGAGATCGAAGAGGATCTGGTCGAGGAAGTGGCTCGCGTTTATGGCTACAACAACATTCCTGATGAGCCGGTGCAGGCGGGTCTGATCATGGGTACCCACCGTGAAGCCGACCTGTCGCTGAAGCGCGTGAAAACGCTGCTGAATGACAAAGGCTATCAGGAAGTGATCACCTACAGCTTCGTCGACCCGAAAGTCCAGCAGCTGATCCACGCCGGTGAAGAGGCGCTGATCCTGCCAAGCCCGATCTCCAGCGAAATGTCGGCCATGCGCCTGTCGCTGTGGACTGGCCTGCTGGGGACCGTGGTCTACAACCAGAACCGTCAGCAGAGCCGGGTTCGCATCTTTGAGAGCGGTCTGCGCTTTGTGCCGGACACCAATGCGCCGCTGGGCATTCGTCAGGATGTGATGCTGGCCGGGGCGATCTGCGGCAACCGCTACGAAGAGCACTGGACACTGGCGAAAGAGACGGTCGATTTCTATGATCTGAAAGGCGATCTGGAAGCCGTTCTGGATTTAACCGGAAAATTAGCGGATATCGAATTCCGTGCTGAAGCGACCACCGCACTGCATCCGGGGCAATCCGCAGCGATTTATCTTAAAGGTGAACGCATTGGTTTCATTGGGGTTGTTCATCCTGAGCTGGAACGTAAACTGGATCTGAACGGTCGCACTCTGGTGTTTGAACTGGAGTGGAACAAGCTCGCAGACCGCGTGGTGCCTCAGGCGCGCGACATTTCCCGCTTCCCGGCGAACCGTCGCGACATCGCGGTGCTGGTCGCGGAAAACGTGGCTGCCGCCGATGTTTTAGCCGAATGTAAGAAAGTTGGCGTAAATCAGGTAGTTGGCGTAAACTTATTTGACGTGTACCGTGGTAAAGGTGTGGCGGAAGGGTATAAGAGCCTTGCGATTAGCCTGATCCTGCAGGATACCAGTCGTACACTCGAAGAAGAGGAGATTGCCGCTACCGTTGCCAGATGTGTAGAGGCATTAAAAGAGCGATTCCAGGCATCATTGAGGGATTGA	MKFSELWLREWVNPAIDSEALSDQITMAGLEVDGVEPVAGSFNGVVVGEVVECGQHPNADKLRVTKVNVGGERLLDIVCGAPNCRQGLKVAVATIGAVLPGDFKIKAAKLRGEPSEGMLCSFSELGISDDHSGIIELPADAPIGTDIREYLKLDDNTIEISVTPNRADCLGIIGVARDVAVLNKAPLNAPEITPVAATIDDVLPIQVDAPQACPRYLGRVVKGINVKAPTPLWMKEKLRRCGIRSIDAVVDVTNYVLLELGQPMHAFDRDRIEGGIVVRMAKEGETLVLLDGSEAKLDSDTLVIADHNKALAMGGIFGGEHSGVNDETQNVLLECAFFSPLSITGRARRHGLHTDASHRYERGVDPALQYKALERATRLLIDLCGGEAGPVIDVTNEATLPQRATITLRRSKLDRLIGHHIDDAQVTDILQRLGCEVTVGEGEWQAVAPSWRFDMEIEEDLVEEVARVYGYNNIPDEPVQAGLIMGTHREADLSLKRVKTLLNDKGYQEVITYSFVDPKVQQLIHAGEEALILPSPISSEMSAMRLSLWTGLLGTVVYNQNRQQSRVRIFESGLRFVPDTNAPLGIRQDVMLAGAICGNRYEEHWTLAKETVDFYDLKGDLEAVLDLTGKLADIEFRAEATTALHPGQSAAIYLKGERIGFIGVVHPELERKLDLNGRTLVFELEWNKLADRVVPQARDISRFPANRRDIAVLVAENVAAADVLAECKKVGVNQVVGVNLFDVYRGKGVAEGYKSLAISLILQDTSRTLEEEEIAATVARCVEALKERFQASLRD				NA	NA	NA	NA	NA
BMS020_00804	984	pheS_1	COG0016	Phenylalanine--tRNA ligase alpha subunit	ATGTCACATCTCGCAGAGCTGGTTGCCAGTGCCAAGGCAGCCATTAACGAGGCATCAGATGTTGCTGCGCTGGACAACGTCCGCGTGGAATACCTGGGTAAGAAAGGGCATCTGACCCTGCAAATGACCACCCTGCGTGAGTTGCCGCCGGAAGAGCGTCCGGCAGCCGGTGCGGTCATCAACGAAGCGAAAGAGCAGGTACAGCAGGCGCTGAACGCACGCAAAGCCGAACTGGAAGGCGCGGCGCTGAATGCTCGTCTGGCTGCAGAGACCATCGACGTTTCGCTGCCGGGCCGCCGCATTGAGAATGGCGGTCTGCATCCGGTCACCCGCACCATCGACCGTATTGAAAGTTTCTTCGGTGAGCTCGGCTTTACCGTGGCGACGGGCCCGGAAATCGAAGATGATTACCACAACTTCGATGCGCTGAATATCCCGGGCCACCATCCGGCGCGCGCTGACCACGACACTTTCTGGTTCGATGCCACTCGCCTGCTGCGCACCCAGACCTCCGGCGTGCAGATCCGCACCATGGAAAACCAGCAGCCGCCCATCCGTATTATCGCGCCGGGCCGCGTCTATCGTAACGACTACGATCAGACCCACACCCCGATGTTCCACCAGATGGAAGGTCTGATCGTTGATAAAAACATCAGCTTCACCAACCTGAAAGGAACCCTGCACGACTTCCTGAACAACTTCTTTGAAGAAGATCTGCAGGTACGCTTCCGTCCGTCCTACTTCCCGTTCACCGAGCCGTCCGCGGAAGTTGACGTGATGGGTAAAAACGGCAAATGGCTGGAAGTGCTGGGCTGCGGGATGGTGCACCCGAACGTGCTGCGCAACGTGGGTATCGATCCGGAAGTGTACTCCGGCTTCGCCTTCGGCATGGGCATGGAGCGTCTGACCATGCTGCGCTATGGCGTCACCGATCTGCGCGCGTTCTTCGAAAACGATCTGCGTTTCCTCAAACAGTTTAAATAA	MSHLAELVASAKAAINEASDVAALDNVRVEYLGKKGHLTLQMTTLRELPPEERPAAGAVINEAKEQVQQALNARKAELEGAALNARLAAETIDVSLPGRRIENGGLHPVTRTIDRIESFFGELGFTVATGPEIEDDYHNFDALNIPGHHPARADHDTFWFDATRLLRTQTSGVQIRTMENQQPPIRIIAPGRVYRNDYDQTHTPMFHQMEGLIVDKNISFTNLKGTLHDFLNNFFEEDLQVRFRPSYFPFTEPSAEVDVMGKNGKWLEVLGCGMVHPNVLRNVGIDPEVYSGFAFGMGMERLTMLRYGVTDLRAFFENDLRFLKQFK				NA	NA	NA	NA	NA
BMS020_00806	357	rplT_1	COG0292	50S ribosomal protein L20	ATGGCTCGCGTAAAACGTGGTGTAATTGCACGTGCACGTCACAAGAAAATTTTGAAACAAGCTAAAGGCTACTACGGTGCGCGTTCTCGCGTATACCGCGTTGCCTTCCAGGCTGTTATCAAAGCTGGTCAGTACGCTTACCGTGACCGTCGTCAACGTAAACGTCAGTTCCGTCAACTGTGGATTGCACGTATCAACGCAGCAGCACGTCAGAACGGTATTTCTTACAGCAAATTCATCAATGGCCTGAAAAAAGCCTCTGTTGAAATCGACCGTAAGATCCTGGCTGACATCGCCGTATTCGACAAAGTAGCGTTCACCGCTCTGGTCGAAAAAGCGAAAGCAGCTCTGGCATAA	MARVKRGVIARARHKKILKQAKGYYGARSRVYRVAFQAVIKAGQYAYRDRRQRKRQFRQLWIARINAAARQNGISYSKFINGLKKASVEIDRKILADIAVFDKVAFTALVEKAKAALA				NA	NA	NA	NA	NA
BMS020_00807	198	rpmI_1	COG0291	50S ribosomal protein L35	ATGCCAAAAATTAAGACCGTACGCGGTGCTGCTAAGCGCTTCAAAAAAACCGGTAAAGGTGGTTTTAAGCACAAGCACGCTAACCTGCGTCACATTCTGACTAAAAAAGCTACCAAGCGTAAACGTCACCTGCGTCCGAAAGCCATGGTTTCCAAAGGCGATCTGGGCCTGGTTATCGCGTGCCTGCCGTACGCATAA	MPKIKTVRGAAKRFKKTGKGGFKHKHANLRHILTKKATKRKRHLRPKAMVSKGDLGLVIACLPYA				NA	NA	NA	NA	NA
BMS020_00808	342	infC_1	COG0290	Translation initiation factor IF-3	ATGGACTACGGCAAGTTCCTTTATGAAAAGAGTAAGTCTTCTAAGGAACAGAAGAAGAAGCAGAAAGTTATCCAGGTTAAGGAAATTAAATTCCGCCCTGGTACTGATGAAGGTGACTATCAGGTAAAACTCCGCAGCCTGATTCGCTTTCTCGAAGATGGCGATAAGGCCAAAATCACGCTGCGTTTCCGCGGTCGTGAGATGGCCCACCAGCAGATCGGTATGGAAGTGCTTAACCGCGTGAAAGACGATCTGGTTGAACTGGCAGTAGTCGAATCCTTCCCAACGAAGATCGAAGGCCGCCAGATGATCATGGTGCTCGCTCCTAAGAAGAAACAGTAA	MDYGKFLYEKSKSSKEQKKKQKVIQVKEIKFRPGTDEGDYQVKLRSLIRFLEDGDKAKITLRFRGREMAHQQIGMEVLNRVKDDLVELAVVESFPTKIEGRQMIMVLAPKKKQ				NA	NA	NA	NA	NA
BMS020_00809	1929	thrS_1	COG0441	Threonine--tRNA ligase	ATGCCTGTAATTACGCTTCCTGATGGCAGCCAACGCCATTTTGATCACGCTGTCAGCCCGATGGACGTCGCGCTGGATATCGGCCCGGGCCTGGCGAAAGCCACCATCGCCGGGCGGGTAAACGGTGAACTGGTAGACGCCTGCGACCCGATTGAAACTGATTCCACCCTCTCTATTATCACGGCTAAAGATGAAGAAGGGCTGGAGATCATTCGTCACTCCTGCGCGCACCTGTTAGGTCATGCCATCAAGCAGCTGTGGCCCAACACCAAAATGGCTATCGGTCCGGTTGTTGATAATGGCTTCTACTATGACGTAGACCTCGACCATACCCTGACTCAGGAAGATATCGACGCGCTCGAAAAACGTATGCATGAGCTCGCCGAGAAAAACTACGATGTCATCAAGAAGAAAGTGAGCTGGCACGAAGCGCGTGAAACCTTCGTGAAGCGCGGCGAAAGCTATAAAGTTTCTATTCTTGACGAAAACATTGCCCATGATGACAAGCCTGGCCTGTATCATCATGAAGAATATATCGATATGTGCCGCGGTCCGCACGTGCCGAACATGCGCTTCTGCCATCACTTCAAGCTGATGAAAACCGCCGGTGCCTACTGGCGCGGCGACAGCAACAATAAAATGTTGCAGCGTATCTACGGCACCGCGTGGGCAGATAAAAAAGCGTTGAATGCTTATCTGCAGCGTCTGGAAGAAGCCGCCAAGCGCGACCACCGTAAAATCGGTAAGCAGCTCGACCTGTATCATATGCAGGAAGAGGCGCCTGGGATGGTGTTCTGGCACAACGACGGCTGGACTATCTTCCGTGAACTGGAAACCTTTGTCCGTTCGAAACTGAAAGAGTATCAGTACCAGGAAGTCAAAGGTCCGTTCATGATGGACCGTGTGCTGTGGGAAAAAACCGGCCACTGGGACAACTACAAAGATGCGATGTTCACCACCTCTTCTGAGAACCGTGAATACTGCATTAAGCCGATGAACTGCCCGGGCCACGTGCAGATCTTCAACCAGGGGCTGAAATCCTACCGCGATCTGCCGCTGCGTATGGCGGAGTTTGGTAGCTGCCACCGTAACGAACCATCAGGCGCGCTGCACGGTCTGATGCGCGTTCGCGGCTTTACCCAGGATGATGCGCATATCTTCTGTACTGAAGATCAGGTTCGCGATGAAGTGAACGCCTGTATTCGTATGGTTTATGATATGTACAGCACCTTTGGCTTCGAGAAGATCGTCGTCAAACTGTCGACTCGCCCGGAAAAACGTATCGGCAGCGACGAGACCTGGGATCGCGCGGAAGCGGATCTGGCGGTGGCGCTGGAAGAAAATAATATCCCATTTGAATATCAACTGGGTGAAGGGGCGTTCTACGGCCCGAAAATTGAATTTACCCTGTATGACTGCCTCGATCGTGCATGGCAGTGCGGTACGGTACAGCTGGACTTCTCTCTGCCGCAGCGTTTAAGCGCCTCCTATGTGGGCGAAAACAACGAGCGTCAGGTGCCGGTCATGATCCACCGTGCGATTCTCGGTTCTCTGGAGCGCTTCATTGGCATCCTGACCGAAGAGTTCGCTGGCTTCTTCCCAACCTGGATTGCACCAGTGCAGGTGGTGGTCATGAATATCACCGATTCTCAGGCTGAATACGTTAACGAATTGACGCGTAAACTACAAAATGCGGGCATTCGTGTAAAAGCAGACTTGAGAAATGAGAAGATTGGCTTTAAAATCCGCGAGCACACTTTACGTCGTGTCCCGTATATGTTGGTCTGTGGCGACAAAGAAGTCGAAGCCGGCAAAGTGGCCGTGCGCACCCGTCGCGGGAAAGACCTCGGCAGCATGGACGTAAATGAAGTGATCGAGAAGCTGCAACAAGAGATTCGCAGCCGCAGTCTTCAACAACTGGAGGAATAA	MPVITLPDGSQRHFDHAVSPMDVALDIGPGLAKATIAGRVNGELVDACDPIETDSTLSIITAKDEEGLEIIRHSCAHLLGHAIKQLWPNTKMAIGPVVDNGFYYDVDLDHTLTQEDIDALEKRMHELAEKNYDVIKKKVSWHEARETFVKRGESYKVSILDENIAHDDKPGLYHHEEYIDMCRGPHVPNMRFCHHFKLMKTAGAYWRGDSNNKMLQRIYGTAWADKKALNAYLQRLEEAAKRDHRKIGKQLDLYHMQEEAPGMVFWHNDGWTIFRELETFVRSKLKEYQYQEVKGPFMMDRVLWEKTGHWDNYKDAMFTTSSENREYCIKPMNCPGHVQIFNQGLKSYRDLPLRMAEFGSCHRNEPSGALHGLMRVRGFTQDDAHIFCTEDQVRDEVNACIRMVYDMYSTFGFEKIVVKLSTRPEKRIGSDETWDRAEADLAVALEENNIPFEYQLGEGAFYGPKIEFTLYDCLDRAWQCGTVQLDFSLPQRLSASYVGENNERQVPVMIHRAILGSLERFIGILTEEFAGFFPTWIAPVQVVVMNITDSQAEYVNELTRKLQNAGIRVKADLRNEKIGFKIREHTLRRVPYMLVCGDKEVEAGKVAVRTRRGKDLGSMDVNEVIEKLQQEIRSRSLQQLEE				NA	NA	NA	NA	NA
BMS020_00810	234			hypothetical protein	ATGAAAAACAGCCAATTTACCATCGCAGCCCTGGCGCTGTGCGTGCTTTCCTTTGGCGCATCAGCCGCCACGCCAGTTCCGCCGTCGGGTAACCAGGACCATACGCAGGTAGGTATCGCCAAAGCAACCGACGTTGAGGCCGGTTCGAATATTGCCCCCGGTTCCCGTAGTACCGGACAATCCATGAGCGATGCCTTTAATGTGCATACGCTGGTAGCAGGCGAGTGGTCTTAA	MKNSQFTIAALALCVLSFGASAATPVPPSGNQDHTQVGIAKATDVEAGSNIAPGSRSTGQSMSDAFNVHTLVAGEWS				NA	NA	NA	NA	NA
BMS020_00811	759			hypothetical protein	ATGAAGCTTTTAAAGACAGTACCCGCAGCGGTCATGCTGGCGGGGGGGCTTTTTGCGTCTGTTGGCGCAATGGCCGATGATTCTGTATTTACCGTCATGGATGACCCTTCCGCTGCCAAAAAACCGTTCGAAGGGGTGGTCAACGCAGGTTACCTGGCGCAGTCCGGCAACACCAAGAACTCCTCAATGACGGCCGATTCCACCCTGACCTGGTATGGCAATACCACCGCCTGGTCGCTGTGGGGCAATGCCAGCAACACCTCGTCCAACGATGAGCGCTCCTCAGAGAAATATGCTGTCGGTGGCCGTAGCCGCTATAACCTGACCGATATGAACTACGTCTTTGGGCAGGGCAGTTGGCTAACCGACCGCTACAACGGCTATCAGCAGCGCGATGTTCTGACGGCGGGCTATGGTCGTCAAATCCTCAACGGACCAGTGCATAGCCTGCGGTTTGAATTTGGTCCTGGCGTTCGCTATGACGAATACACCGACGGGGATACCGACACTCAGCCGCTGGGTTACGCCTCCGGAACCTGGGCCTGGCAGATGACCGACAACGCCAAATTTACTCAAGGGGTATCGGTGTTTGGCGCCGAGGACACCACGGTCAACTCAGAGAGCGCGTTAAACGTGGCGATTAACGCCCACTTTGCGCTGAAAGTGGCGTACAACGTCACCTGGAACTCGGAGCCGCCTGCGTCTGCGCCGGAGCATACCGATCGCCGGACCTCGCTCTCCCTCGGGTATAAGATGTAA	MKLLKTVPAAVMLAGGLFASVGAMADDSVFTVMDDPSAAKKPFEGVVNAGYLAQSGNTKNSSMTADSTLTWYGNTTAWSLWGNASNTSSNDERSSEKYAVGGRSRYNLTDMNYVFGQGSWLTDRYNGYQQRDVLTAGYGRQILNGPVHSLRFEFGPGVRYDEYTDGDTDTQPLGYASGTWAWQMTDNAKFTQGVSVFGAEDTTVNSESALNVAINAHFALKVAYNVTWNSEPPASAPEHTDRRTSLSLGYKM	PGPT0014375_490	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014375-ydiY-K07283	NA	NA
BMS020_00812	933	pfkB	COG1105	ATP-dependent 6-phosphofructokinase isozyme 2	ATGACCAAAATTTATACGCTCACGCTGGCCCCCTCGCTGGATAGCGCCACCCAGACCCCGCAGATCTACCCGGAAGGGAAACTCCGCTGCAGCGCGCCGGTATTTGAACCCGGCGGCGGCGGGATCAACGTCGCCCGCGCCGTGACCTTTCTCGGCGGGAAAGCCACCGCCATTTTCCCTATTGGCGGCGCCACCGGCGAGCACCTTGCCGCTCTGCTGGCCGATGAGCAGGTGCCGGTCGAGACCGTCGAAACCCGCGACTGGACGCGACAGAACCTGCACGTTCACGTAGCCGCCAGCGGCGAACAGTATCGCTTTGTGATGCCCGGCGCCGCGCTGACAGACGATGAATTCCGCCGTCTGGAAGAGAAAGTCCTGACCATCGATCCCGGCTCTCTGCTGGTGATCAGCGGCAGTCTGCCGCCAGGTATCAGCGTCGAAAATCTGATGCAGCTGGTTAAGCATGCGCAACAGCAGGGCCTGCGCTGCATTATCGACAGTTCCGGCGACGCGCTGGCCGCCGCGCTGGACGTCGGCAATATTGAATTAGTGAAGCCAAACCAGAAAGAGCTCAGCGCCCTCGTGCAGCGCGATCTGAGCCAGCCCGATGACGTTCGCCTTGCCGCTCAGTCGTTGATCCAGTCCGGTAAAGTTCGCCGGGTGGTGGTCTCCCTTGGTCCGCAGGGGGCGTTGGGGGTTGACGCCAGCGGCAGTGTTCAGGTGGTGCCGCCGCCAATGAAAAGCCAGAGCACCGTCGGCGCCGGCGACAGCATGGTGGGCGCCATGACCTTACGTCTGGCGGAGAACGCCAGCCTCGAAGACATGGTACGCTTTGGCGTTGCCGCCGGTAGCGCCGCGACCATCAACCAGGGCACCCGCCTCTGCTCGCAGGCCAATACGCAAAAAATCTACGATTATCTCTGCGGGCGTTGA	MTKIYTLTLAPSLDSATQTPQIYPEGKLRCSAPVFEPGGGGINVARAVTFLGGKATAIFPIGGATGEHLAALLADEQVPVETVETRDWTRQNLHVHVAASGEQYRFVMPGAALTDDEFRRLEEKVLTIDPGSLLVISGSLPPGISVENLMQLVKHAQQQGLRCIIDSSGDALAAALDVGNIELVKPNQKELSALVQRDLSQPDDVRLAAQSLIQSGKVRRVVVSLGPQGALGVDASGSVQVVPPPMKSQSTVGAGDSMVGAMTLRLAENASLEDMVRFGVAAGSAATINQGTRLCSQANTQKIYDYLCGR	PGPT0017600_483	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_GALACTITOL_DEGRADATION,PGPT0017600-pfkB-K16370	NA	NA
BMS020_00813	285			hypothetical protein	ATGAGCAATGATATTACCGCCTGGGTCGTCAGCGTGAACTTCCACGAACAGGCGCTAACGGAGATCAATGAGGTCAGCAACCATTTTACCCGGGCAGGGTTTGTACTGACGCTCAATGATGAAGAGGGCACTCCCCATGAGCTGGGCACCAATACCTTTGGCCTGCTGAGCGCCCAGGCAGCCGAGGAAGTGAAGGCCCTTAGCGCCGGACTGGCGGAAGCGGCCCTTGGCCGCCCTGCGGAGATCGCCGTCAGCACATTCGCTGAATGGTTAAAAGCTCAATAA	MSNDITAWVVSVNFHEQALTEINEVSNHFTRAGFVLTLNDEEGTPHELGTNTFGLLSAQAAEEVKALSAGLAEAALGRPAEIAVSTFAEWLKAQ				NA	NA	NA	NA	NA
BMS020_00814	873			putative ketoamine kinase	ATGTGGCAAGCAATCAGTACTCTTTTACGCGATTGGCATACCGAAGACGCTGAAATCGAACTGAAAACCGAGCTGCCCGGCGGAGAGATCCATTCCGCCTGGCATTTGCGTTTCGGCGGCAAAGATTACTTCGTGAAATGCGACGAACGGGAACTCCTGCCTATCTTCACCGCCGAGGCCGATCAGCTGGAGCTGCTGTCGCGAAGCAAAACTGTTCGCGTACCACAGGTCTTTGCCGTCGGCAGCGATCGCGACTACAGCTTCGTGGTCATGGAATACCTCCCTCCCCGTCCGCTGGATGCGCATAACGCTTTCCTGCTTGGCCAGCAGTTAGCCCACCTGCATCAGTGGAGCGATCAGCCGCAGTTCGGTCTGGATTTTGATAACGATCTTTCCACCACGCCGCAGCCTAACGCCTGGCAACGTCGCTGGTCGGTGTTCTTCGCCGAGCAGCGTATCGGCTGGCAGCTGGAGCTGGCGGCGGAGAAAGGGTTGCACTTTGGCGATATCGATACCTTAGTCGATGTGGTACAGCAGCGGCTGGCCAACCATCAGCCGCAACCTTCGCTGCTACACGGGGACCTGTGGTCCGGCAACTGCGCCTTAGGGCCGGATGGCCCCTACATCTTCGACCCGGCCTGCTACTGGGGCGACCGCGAGTGTGATTTAGCTATGCTGCCGATGCACCCGGAACAACCCCCGCAGATCTATGACGGCTATCAGTCCGTCTCACCGCTGCCGGCTGGTTTTCTCGAGCGTCAGCCGATCTACCAGCTTTATACCCTGCTGAACCGGGCAATATTGTTCGGTGGCCAGCACCTGGTGACGGTCCAGCAGGCGCTGGACGATGTCTTGATGGAAAAAACGCGTTAG	MWQAISTLLRDWHTEDAEIELKTELPGGEIHSAWHLRFGGKDYFVKCDERELLPIFTAEADQLELLSRSKTVRVPQVFAVGSDRDYSFVVMEYLPPRPLDAHNAFLLGQQLAHLHQWSDQPQFGLDFDNDLSTTPQPNAWQRRWSVFFAEQRIGWQLELAAEKGLHFGDIDTLVDVVQQRLANHQPQPSLLHGDLWSGNCALGPDGPYIFDPACYWGDRECDLAMLPMHPEQPPQIYDGYQSVSPLPAGFLERQPIYQLYTLLNRAILFGGQHLVTVQQALDDVLMEKTR				NA	NA	NA	NA	NA
BMS020_00815	594			hypothetical protein	ATGGTGGCGCCGGCCGATCTTGAGCCGCCCCCGGCGGCGCAACCCGTCGTGCAGCCCGTTGTTGAACCTGAACCGGAGCCGGAGCCTGAGGTGGTCCCTGAGCCGCCGAAAGAGGCGCCGGTGGTGATCCATAAACCAGAACCTAAGCCGAAGCCCAAACCTAAACCGAAGCCCAGGCCGGAGAAAAAGGTTGAGCAGCCGAAGCGGGACGTCAAACCGGCCGCGGAGCCGCGTCCGGCTTCACCGTTTGAAAACAACAATACGACGCCAGCGCGCACCGCGCCGAGCACCTCCACCGCAGCGGCCAAACCTACCGTCACTGCCCCGAGCGGCCCGCGGGCGATCAGCCGCGTTCAGCCGACCTATCCGGCGCGCGCTCAGGCGCTGCGCATTGAAGGAACGGTGCGGGTGAAGTTTGACGTCACGCCTGATGGCCGAATTGATAATCTGCAGATCCTCTCCGCCCAGCCGGCGAATATGTTTGAGCGCGAGGTGAAAAGCGCGATGCGCAGATGGCGTTACGAGCAGGCAAAACCGGGAACCGGCGTGACGATGACCATTAAATTCCGTCTCAACGGCGTCGAGATTAACTGA	MVAPADLEPPPAAQPVVQPVVEPEPEPEPEVVPEPPKEAPVVIHKPEPKPKPKPKPKPRPEKKVEQPKRDVKPAAEPRPASPFENNNTTPARTAPSTSTAAAKPTVTAPSGPRAISRVQPTYPARAQALRIEGTVRVKFDVTPDGRIDNLQILSAQPANMFEREVKSAMRRWRYEQAKPGTGVTMTIKFRLNGVEIN	PGPT0003745_3762	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003745-tonB-K03832	NA	NA
BMS020_00816	297	yciI_1	COG2350	Protein YciI	GTGCTTTACGTTATCTACGCTGAAGATATCGCCGATTCTCTGGAAAAGCGGCTCTCGGTTCGCCCCGCGCACCTTGCGCGTCTACAACTTTTACATGATGAAGGTCGGCTGCTTACCGCCGGGCCAATGCCGGCCGTTGACAGCAACGAACCGGGCGCAGCCGGATTCAGCGGCTCAACGGTGATCGCTGAGTTTGAATCGCTGGAAGCGGCTCAGGCCTGGGCTAATGACGATCCGTATATTGCCGCCGGCGTCTACCGCCAGGTCTCGGTGAAGCCGTACAAAAAAGTGTTTTGA	MLYVIYAEDIADSLEKRLSVRPAHLARLQLLHDEGRLLTAGPMPAVDSNEPGAAGFSGSTVIAEFESLEAAQAWANDDPYIAAGVYRQVSVKPYKKVF				NA	NA	NA	NA	NA
BMS020_00817	648	yceI_1	COG2353	Protein YceI	ATGTTTTCAATAAGTGCCGCATTTTTTTGGGCTACCATTTATGTACCTGACGCTTATGAGGATTTTTGTGTGAATACCCTGAAAAAAACCGCATTGCTTTCTCTGCTTGCCTTATATATTCCTGTGTCACAAGCCGCAGCGACAGAATATAGCCTGGATCCGCAGCATACTTCCGTTATTATTGCCTGGAACCATTTTGGCTTCTCTAACCCTACAGCGTATATCTCTGATGTTTCAGGGAAACTGTCTTTTGACAAAGACAACCCGGAAAAATCCTCTGTGCACGTCACGCTGCCAGTCAAAACCATTGACACTCATGTCAAAGCGTTAACGGATGAGTTTTTAGGCAAAGAGTACTTCGATGTCAACACGTATCCTGAGGCCACTTTTCAGAGCACCCGGGTGGAAAGTAAAGGCGACAATAAATATGATGTTGAAGGTAACCTGACCATTAAGGGCATCACCAAACCGGTTGTATTGCATGCCACTTTGAATAAACAGGATATGCATCCGATGGTGAAAAAACAGGCCATTGGTTTTGATGCCACAGGGGTAATAAAACGTTCAGACTTCAAGCTTGATAAATATGTTCCGGCGGTGAGTGATAACGTGACTATCACGTTATCCACGGAAGCCTATGCCAAATAA	MFSISAAFFWATIYVPDAYEDFCVNTLKKTALLSLLALYIPVSQAAATEYSLDPQHTSVIIAWNHFGFSNPTAYISDVSGKLSFDKDNPEKSSVHVTLPVKTIDTHVKALTDEFLGKEYFDVNTYPEATFQSTRVESKGDNKYDVEGNLTIKGITKPVVLHATLNKQDMHPMVKKQAIGFDATGVIKRSDFKLDKYVPAVSDNVTITLSTEAYAK				NA	NA	NA	NA	NA
BMS020_00818	138			hypothetical protein	ATGCTGAGACAGGTGAATCGCCGTAAAGCGCGCTGGCTGGAAGCCCAATCACGCCGCAATATGCGGATCCTCGCTATCAGGAAGGGACTGGTGAAACGGCAGCGTCATGCTCTGCTGTTTATCTTCCCCGACTGTTAA	MLRQVNRRKARWLEAQSRRNMRILAIRKGLVKRQRHALLFIFPDC				NA	NA	NA	NA	NA
BMS020_00819	1461	clsA_1	COG1502	Cardiolipin synthase A	ATGACAACCTTTTACACGGTGGTGAACTGGCTGGTCATTCTGGGGTACTGGCTGTTGATCGCCGGTGTAACATTACGAATTCTAATGAAACGCCGCGCTGTGCCGTCCGCCATGGCATGGTTATTGATCATTTATATCCTGCCGCTGGTGGGGATCATCGCCTATCTCTCCTTTGGCGAGCTGCATCTTGGCAAGCGGCGGGCAGAACGCGCGAGGGCGATGTGGCCTTCCACGGCCAAATGGTTAAACGACCTCAAAGCCTGCAAACATATCTTTGCCGAAGATAACAGCCCGGTGGCCGAGTCCCTGTTCAAGCTTTGCGAACGGCGCCAGGGCATTGGCGGCGTAAAAGGCAACCAGCTGCAGCTGCTGACGGAATCTGACGACGTCATGCAGGCCCTGATCCGCGATATTCAACTGGCTCGCCATAACATAGAGATGGTCTTCTATATCTGGCAGCCAGGCGGTATGGCCGACAGCGTCGCCGAATCGCTAATGGCCGCCGCCCGTCGCGGAGTTCACTGCCGGTTAATGCTCGACTCCGCGGGCAGTGTGGCCTTTTTCCGTAGCCCATGGGCGGCGATGATGCGTAACGCCGGCATTGAAGTGGTCGAGGCTCTCAAGGTCAATCTGATGCGTGTGTTTCTGCGCCGGATGGACCTGCGCCAACATCGTAAAATGGTAATGATCGATAACTATATCGCCTACACCGGCAGCATGAATCTGGTCGATCCCCGCTACTTTAAGCAGGACTCGGGGGTCGGGCAGTGGATTGATCTGATGGCGCGCATGGAAGGCCCGGTGGCGACCTCGATGGGCATCGTCTACTCCTGTGACTGGGAGATCGAGACCGGAAAGCGTATTCTGCCACCGCCGCCGGACGTCAATATCATGCCGTTTGAAGAGGCCAGTGGGCATACCATCCACACGATCGCCTCCGGTCCGGGCTTTCCGGAAGATCTGATCCATCAGGCGCTGCTCACCGCCGCCTACGCGGCGAAAGAGCATTTGATCATGACCACGCCCTACTTCGTACCCAGCGACGACCTGCTGCACGCTATCTGTACTGCCGCCCAGCGCGGCGTGGACGTGAGTATTATTTTACCGCGCAAGAACGATTCGCTGCTGGTGGGCTGGGCCAGCCGGGCCTTTTTCACCGAGCTGCTGGCGGCAGGGGTGAAGATTTACCAGTTTGAAGGCGGCCTGTTGCATACCAAAAGCGTGCTGGTCGATGGCGAACTGAGCCTGGTGGGAACCGTGAATCTGGATATGCGCAGCCTGTGGCTCAATTTTGAAATCACGCTGGTCATTGATGACGCCGGCTTCGGCAGCGATCTGGCGGCGGTTCAGGATGACTATATCTCGCGCTCGCGCCTGCTGGACGCCCGTCTCTGGTTAAAACGTCCGCTGTGGCAGCGGATCGCCGAGCGACTGTTTTACTTCTTCAGCCCGTTGCTGTAA	MTTFYTVVNWLVILGYWLLIAGVTLRILMKRRAVPSAMAWLLIIYILPLVGIIAYLSFGELHLGKRRAERARAMWPSTAKWLNDLKACKHIFAEDNSPVAESLFKLCERRQGIGGVKGNQLQLLTESDDVMQALIRDIQLARHNIEMVFYIWQPGGMADSVAESLMAAARRGVHCRLMLDSAGSVAFFRSPWAAMMRNAGIEVVEALKVNLMRVFLRRMDLRQHRKMVMIDNYIAYTGSMNLVDPRYFKQDSGVGQWIDLMARMEGPVATSMGIVYSCDWEIETGKRILPPPPDVNIMPFEEASGHTIHTIASGPGFPEDLIHQALLTAAYAAKEHLIMTTPYFVPSDDLLHAICTAAQRGVDVSIILPRKNDSLLVGWASRAFFTELLAAGVKIYQFEGGLLHTKSVLVDGELSLVGTVNLDMRSLWLNFEITLVIDDAGFGSDLAAVQDDYISRSRLLDARLWLKRPLWQRIAERLFYFFSPLL	PGPT0007725_1656	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
BMS020_00820	330			hypothetical protein	ATGGATATGGATTTAAACAACCGCCTGACCGAAGACGAAACGCTTGAGCAGGCATACGACATCTTCCTCGAACTGGCGGCCGATAACCTCGACCCGGCGGACATCATTCTGTTTAACCTGCAGTTTGAGGAGCGCGGCGGCGCCGAGCTGTTCGACCCATCCGCAGACTGGGAAGAGCATGTGGATTACGATCTGAACCCGGATTTCTTCGCCGAAGTGGTGATTGGCCTGGCGGATACCGACGGCGGGGAAATCAATGATATCTTCGCCCGCGTGCTGCTGTGCCGCGAGAAAGATCACAAGCTGTGTCATATTCTGTGGCGTGAATAA	MDMDLNNRLTEDETLEQAYDIFLELAADNLDPADIILFNLQFEERGGAELFDPSADWEEHVDYDLNPDFFAEVVIGLADTDGGEINDIFARVLLCREKDHKLCHILWRE				NA	NA	NA	NA	NA
BMS020_00821	834			hypothetical protein	GTGGGTATGCTTTCTGCCGCTCGCCTGCGGCTTTATCATTTGCTTTTCGATCAAAACCGACGTTCCGGCCGCCGCTTCGAAGGGCTGTGCGGACTTTTCGCCTTGCTCAGCGTGGTGGTGATATTTGTCGAATCGGGGCTGGGCACGCAATATCATCTGACATTAGATGAATGGCATTTATTCGTCTGGCTGGAGCTGATGGTGACCGCGGTCTTTACCCTGGAGTATCTGCTGCGTATTGCGACATGGCCCAATCCGCTCCACTACATTTTCAGCTTCTGGGGGTTTATTGACTTAGCGACCATCCTACCGCTATACGTGATGTGGCTGTGGCCGGAAATTAGCCTCAATTATGTTTTTGCCTGGCGGGCAATGCGGGCGATCCGCGCGTTGCGTATTCTCAAACTGTTGCGCTTTATGCCTTCGCTCAATGTGTTCTGGCGGGCGATTGTCAGCGCGCGCCATCAGCTGATCCTGTTCTATTCGTTTATCGCCATTGTGATGGTGATTTTCGGCTCGTTAATGTACCTGATAGAAGGGCCAGAGTATGGTTTTACCACGCTCAACGCTTCGGTCTATTGGGCCATTGTGACCATCACCACCGTCGGCTACGGGGATATTACGCCGCACACGCCGCTGGGCCGCATCCTGGCCTCCATTCTCATCCTGATCGGCTACTCCATTATTGCCATTCCGACCGGGCTTATCACCACCCATATGACCAGCGCCCTGAACCGGCGGCGCCAGCAGCGGGTATGCCCGCAGTGCCAGCAGGGCGACCATGACGATAACGCCCGGTTTTGCCACGCCTGCGGTCATGTCTTACCGAAGTAA	MGMLSAARLRLYHLLFDQNRRSGRRFEGLCGLFALLSVVVIFVESGLGTQYHLTLDEWHLFVWLELMVTAVFTLEYLLRIATWPNPLHYIFSFWGFIDLATILPLYVMWLWPEISLNYVFAWRAMRAIRALRILKLLRFMPSLNVFWRAIVSARHQLILFYSFIAIVMVIFGSLMYLIEGPEYGFTTLNASVYWAIVTITTVGYGDITPHTPLGRILASILILIGYSIIAIPTGLITTHMTSALNRRRQQRVCPQCQQGDHDDNARFCHACGHVLPK	PGPT0002715_3358	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
BMS020_00822	1005	btuD_4		Vitamin B12 import ATP-binding protein BtuD	ATGAACGCCGTAACTGAACAACGAAAAGTCCTGCTCGAAATTGCCGACCTGAAGGTGCATTTCGATATTAAAGATGGCAAACAGTGGTTCTGGCAGCCGTCGAAAACGCTGAAAGCGGTAGATGGCGTGACGCTGCGTCTCTATGAAGGTGAGACCCTCGGCGTGGTGGGGGAGTCCGGCTGCGGTAAATCGACTTTCGCCCGCGCCATTATTGGTCTGGTGAAGGCTACCGATGGCAAAGTGGCCTGGCTGGGTAAAGATCTGCTGGGCATGAAGCAGGAAGAGTGGCGCGACGTGCGCAGCGATATCCAGATGATCTTCCAGGATCCGCTGGCCTCGCTGAACCCGCGTATGACCATCGGAGAAATCATTGCTGAGCCGTTGCGTACCTATCATCCGAAGATGCCGCGTCAGGAAGTGCGCGATCGCGTGAAGGCGATGATGATGAAAGTCGGGCTGCTGCCTAACCTGATCAACCGCTATCCGCACGAATTCTCTGGCGGTCAGTGTCAGCGCATCGGCATTGCGCGGGCGCTGATCCTCGAGCCGAAGCTGATTATCTGCGATGAGCCGGTGTCCGCGCTTGACGTGTCCATCCAGGCTCAGGTGGTCAATTTGCTGCAGCAGCTGCAGCGTGAAATGGGACTGTCGCTGATATTTATCGCCCACGATCTGGCGGTGGTTAAGCACATCTCCGATCGCGTACTGGTGATGTATCTGGGCCATGCGGTGGAGCTGGGAACCTACGATGAGGTGTACCATAATCCGCTACACCCCTATACCAAAGCGCTGATGTCGGCGGTGCCGATCCCCGATCCGGACCTCGAAAAAACGAAAACCATCCAGCTGCTGGAGGGCGAATTACCCTCGCCGATTAATCCGCCGTCGGGCTGTGTCTTCCGCACCCGCTGTCCGCTCGCCGGACCGGAGTGCGCCAAAACCCGCCCGGTGCTGGAGGGCAGTTTCCGCCATGCGGTTTCCTGCCTTAAGGTAGACCCGTTATAA	MNAVTEQRKVLLEIADLKVHFDIKDGKQWFWQPSKTLKAVDGVTLRLYEGETLGVVGESGCGKSTFARAIIGLVKATDGKVAWLGKDLLGMKQEEWRDVRSDIQMIFQDPLASLNPRMTIGEIIAEPLRTYHPKMPRQEVRDRVKAMMMKVGLLPNLINRYPHEFSGGQCQRIGIARALILEPKLIICDEPVSALDVSIQAQVVNLLQQLQREMGLSLIFIAHDLAVVKHISDRVLVMYLGHAVELGTYDEVYHNPLHPYTKALMSAVPIPDPDLEKTKTIQLLEGELPSPINPPSGCVFRTRCPLAGPECAKTRPVLEGSFRHAVSCLKVDPL	PGPT0021035_1168	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
BMS020_00823	1014	oppD_1	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGACCATGATTGAAACGGCAAAAGCGCCGCAAGCGCAGAGCCACAGCGGCCTGCTGCTGGACGTGAAAGATCTTCGCGTCACCTTTAAAACGCCGGATGGCGATGTCACCGCCGTCAATGATCTGAACTTCACCCTGCAGGCGGGGGAGACGCTCGGTATTGTCGGGGAGTCCGGCTCCGGTAAATCGCAGACCGCCTTCGCCCTGATGGGACTGCTGGCGGCCAACGGCCGAATCGGGGGTTCCGCCACCTTTAACGGTCGGCAAATCCTCAATTTGCCCGAGCGTGAGCTGAACAAACTGCGCGCCGAGCAAATCTCGATGATTTTCCAGGATCCGATGACCTCTCTGAACCCGTATATGCGGGTGGGCGAGCAGTTAATGGAAGTCCTGATGCTGCATAAAGGGCTGAGCAAAGCCGAAGCGTTTGAAGAATCGGTGAAGATGCTCGACGCGGTAAAAATGCCGGAAGCGCGCAAGCGCATGAAGATGTTCCCACACGAGTTCTCCGGCGGGATGCGCCAGCGCGTGATGATTGCCATGGCGCTGCTCTGCCGGCCCCGGCTGCTGATTGCCGATGAGCCGACCACCGCCCTGGACGTCACCGTGCAGGCGCAGATCATGACGTTACTGAATGAGCTGAAACGCGAATTTAATACGGCCATCATTATGATCACCCATGACCTCGGAGTGGTGGCGGGGATCTGCGATAAAGTGCTGGTGATGTATGCGGGCCGCACCATGGAGTACGGTCAGGCGCGCGATGTCTTCTATCAGCCGTCTCACCCTTACTCTATTGGGCTGTTGAATGCGGTTCCTCGTCTGGATGCCGAAGGCGATGCGTTGTTGACCATTCCGGGCAACCCGCCAAACCTGCTGCGTTTGCCGAAGGGCTGCCCATTCCAGCCGCGCTGTCCGCACGCAATGGAACAGTGCAGCAGCGCGCCGCCGCTGGAGTCGTTCGCGCCAGGCCGCCTGCGCGCCTGCTTTAAACCGGTAGGGGAGCTGCTATGA	MTMIETAKAPQAQSHSGLLLDVKDLRVTFKTPDGDVTAVNDLNFTLQAGETLGIVGESGSGKSQTAFALMGLLAANGRIGGSATFNGRQILNLPERELNKLRAEQISMIFQDPMTSLNPYMRVGEQLMEVLMLHKGLSKAEAFEESVKMLDAVKMPEARKRMKMFPHEFSGGMRQRVMIAMALLCRPRLLIADEPTTALDVTVQAQIMTLLNELKREFNTAIIMITHDLGVVAGICDKVLVMYAGRTMEYGQARDVFYQPSHPYSIGLLNAVPRLDAEGDALLTIPGNPPNLLRLPKGCPFQPRCPHAMEQCSSAPPLESFAPGRLRACFKPVGELL	PGPT0021030_1508	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
BMS020_00824	909	oppC	COG1173	Oligopeptide transport system permease protein OppC	ATGATGTTAAGTAAGAAAAATAGCGAGGCGCTGGAAAACTTCAGTGAGAAGCTGGAAGTGGAGGGGCGTAGCCTCTGGCAGGATGCGCGTCGCCGCTTTATGCATAACCGCGCCGCGGTCACCAGCCTGATTATGCTGGTGCTTATTGCGCTGTTCGTGACCTTCGCGCCGATGGTGTCGTCATTCTCCTATTTCGACACCGACTGGGGCATGATGTCTAACGCCCCGGACATGGCCTCTGGCCACTACTTCGGGACCGACTCCTCCGGTCGCGATCTGCTGGTGCGCGTGGCGATCGGCGGGCGTATTTCGCTGATGGTCGGGGTGGCGGCGGCGCTGGTGGCGGTGATCCTCGGCACGCTGTACGGTTCGCTTTCCGGTTATCTCGGCGGCAAAGTGGATTCGGTGATGATGCGTCTGCTGGAGATCCTCAACTCCTTCCCGTTTATGTTCTTCGTTATCCTGCTGGTGACCTTTTTTGGCCAGAATATCCTGTTGATTTTTGTCGCTATCGGCATGGTCTCCTGGCTGGATATGGCGCGTATCGTACGCGGACAGACCTTGAGCCTGAAGCGCAAAGAGTTTATTGAGGCGGCGCAGGTCGGCGGGGTCTCCACAGCGAGCATCGTGCTGCGCCATATCGTTCCTAATGTGCTGGGCGTGGTGGTGGTGTACGCCTCGCTGCTGGTCCCCAGCATGATCCTCTTTGAATCCTTCCTCAGCTTCCTGGGGTTGGGGACGCAGGAGCCGCTCAGCAGCTGGGGGGCATTGCTCAGCGATGGCGCCAACTCAATGGAAGTCTCGCCCTGGCTGCTGCTGTTCCCGGCGGGTTTCCTGGTGGTGACCCTGTTCTGTTTCAACTTTATCGGCGATGGTCTGCGTGATGCCCTCGACCCGAAAGACCGCTAA	MMLSKKNSEALENFSEKLEVEGRSLWQDARRRFMHNRAAVTSLIMLVLIALFVTFAPMVSSFSYFDTDWGMMSNAPDMASGHYFGTDSSGRDLLVRVAIGGRISLMVGVAAALVAVILGTLYGSLSGYLGGKVDSVMMRLLEILNSFPFMFFVILLVTFFGQNILLIFVAIGMVSWLDMARIVRGQTLSLKRKEFIEAAQVGGVSTASIVLRHIVPNVLGVVVVYASLLVPSMILFESFLSFLGLGTQEPLSSWGALLSDGANSMEVSPWLLLFPAGFLVVTLFCFNFIGDGLRDALDPKDR	PGPT0021025_1987	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
BMS020_00825	921	oppB	COG0601	Oligopeptide transport system permease protein OppB	ATGTTAAAATTTATCTTACGTCGCTGTCTGGAAGCGATTCCGACGCTATTTATTCTTATCACCATCTCATTCTTCATGATGCGTTTGGCTCCGGGAAGTCCTTTTACCGGGGAACGCACGCTACCGCCGGAAGTCATGGCGAATATTGAAGCAAAATACCATTTAAACGACCCCATCATGACGCAGTACTTCAATTACCTGAAGCAGCTGGCGCATGGCGATTTTGGTCCCTCCTTTAAATACAAAGATTATTCGGTCAACGATCTGGTGGCGGCCAGCTTCCCGGTTTCGGCGAAACTGGGCTTCGCCGCCTTTTTGCTGGCGGTTGTGATCGGTGTCGCTGCGGGCGTTATTGCCGCTTTGAAGCAGAATACCCGCTGGGACTATGCGGTGATGGGGGTAGCCATGACCGGCGTGGTTATTCCGAGCTTTGTGGTGGCGCCTCTGTTGGTGATGATCTTTGCCATTACCCTGCACTGGTTGCCGGGCGGAGGCTGGAACGGCGGGGCGCTGAAATTTATGATCCTGCCGATGGTGGCGCTTTCCCTGGCCTATATCGCCAGTATCGCGCGTATTACCCGCGGCTCAATGATTGAAGTGCTGCACTCTAACTTTATCCGCACCGCGCGGGCGAAGGGGCTGCCGATGCGCCGCATTATTTTGCGCCATGCGCTGAAGCCGGCGCTGCTGCCGGTGCTCTCCTATATGGGGCCGGCTTTCGTGGGCATCATTACGGGCTCAATGGTCATTGAAACCATTTACGGCCTGCCGGGGATTGGTCAGCTGTTCGTTAACGGAGCGCTTAACCGCGACTACTCGCTGGTGCTCAGCCTGACGATCCTGGTTGGCGCCCTGACTATCCTGTTCAACGCCATCGTTGACGTGCTGTACGCCGTTATCGATCCGAAGATTCGCTACTGA	MLKFILRRCLEAIPTLFILITISFFMMRLAPGSPFTGERTLPPEVMANIEAKYHLNDPIMTQYFNYLKQLAHGDFGPSFKYKDYSVNDLVAASFPVSAKLGFAAFLLAVVIGVAAGVIAALKQNTRWDYAVMGVAMTGVVIPSFVVAPLLVMIFAITLHWLPGGGWNGGALKFMILPMVALSLAYIASIARITRGSMIEVLHSNFIRTARAKGLPMRRIILRHALKPALLPVLSYMGPAFVGIITGSMVIETIYGLPGIGQLFVNGALNRDYSLVLSLTILVGALTILFNAIVDVLYAVIDPKIRY	PGPT0021020_2054	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
BMS020_00826	1635	oppA_1	COG4166	Periplasmic oligopeptide-binding protein	ATGACCATCATCACTAAAAAACGTTTGATCGCCGCAGGAGTGCTATTCGCGCTCATGGCTGGCAATATGGCTATGGCAGCGGATGTCCCGGCCGGTGTGCAGCTTTCGGATAAGCAAACGCTGGTGCGAAATAGCGGCGCCGAGCCGCAATCGCTGGATCCGAATAAAATTGAAGGGGTGCCCGAGGCGAATATTAGCCGCGACCTGTTCGAAGGCTTGCTGAATACCTCGCCGAAAGATGGCCACCCGATCCCTGGCGTGGCAGAGCGCTGGGATAATAAAGATTTCAAAGTCTGGACCTTCCATCTGCGTAAAGATGCGAAATGGTCTAACGGCGAGCCGGTTACCGCCCAGGATTTCGTTTATAGCTGGCAGCGTCTGGTAGACCCGAAAACAGCGTCTCCTTATGCCAGCTACCCGCAGTATGGTCATATCCTCAACGTTGATGAAATCATTGACGGCAAGAAAGCCCCAGGCGAGCTGGGCGTAAAAGCCATTGACGACCATACGCTGGAAGTCACCCTCAGCGAGCCGGTACCCTATTTTTACAAACTGCTGGTTAACCCGGCGATGTCTCCTGTCTATAAACCAGCGATTGAAAAGTTTGGCGAGAAGTGGACGCAGCCTGGCAATATCGTCACCAACGGCGCCTACACCCTGAAAGACTGGGTGGTCAACGAACGTATCGTGATGGAGCGCAACCCGCATTACTGGGATAATGCCAAAACCGTTATCAACACCGTCACCTGGCTGCCGACCTCTTCTGAAGTGACCTATGTTAACCGTTATCGCAGCGGTGAACTGGATATGACCTATAACCAGCTGCCGATCGAGCTCTTCCAGAAACTGAAAAAAGAGATCCCGAACGAGCTGCACGTTGACCCGTATCTGTGTACTTATTACTACGAAATTAACAACCAGAAAGCGCCGTTCACCGACGTGCGCGTGCGTACCGCGCTGAAGCTGGGTCTGGATCGCGATATCATTGCCAATAAGGTGAAAGGACAGGGCGATCTGCCGGCCTACGGCTACACCCCGCCGTATACCGATGGCGCGAAGCTGACCGAGCCGGAATGGTTTACCTGGTCGCAGGAAAAACGGAATGAAGAAGCGAAAAAACTGCTGGCCGAAGCCGGCTATAGCGCCGATAAACCGTTGACCTTCAACCTGCTGTATAACACCTCTGATTTGCACAAGAAGCTGGCGATTGCCGCCGCCTCGCTGTGGCGTAAAAACCTGGGCATTGACGTGAAGCTGGTCAACCAGGAGTGGAAGACGTTCCTCGATACCCGTCATCAGGGCACCTATGACGTGGCGCGTGCGGGCTGGTGCGCTGACTATAACGAGCCAACCTCTTTCCTGAACACCATGCTTTCTGACAGCTCAATGAACACTGCGCACTATAAGAGCCCGGCGTTCGACAAAATTATGGCTGAATCCGTAAAAGCATCCGATGAAGCGCAGCGCACGGCGGCCTATGCGAAAGCAGAGCAGCAGCTGGATAAAGACAGCGCGATCGTACCGGTCTATTACTATGTTAACGCCCGCCTGGTGAAACCGTGGGTCGGTGGCTACACCGGTAAAGACCCGATGGATAACGTCTATACAAAAGACCTTTACGTTATCAAACATTAA	MTIITKKRLIAAGVLFALMAGNMAMAADVPAGVQLSDKQTLVRNSGAEPQSLDPNKIEGVPEANISRDLFEGLLNTSPKDGHPIPGVAERWDNKDFKVWTFHLRKDAKWSNGEPVTAQDFVYSWQRLVDPKTASPYASYPQYGHILNVDEIIDGKKAPGELGVKAIDDHTLEVTLSEPVPYFYKLLVNPAMSPVYKPAIEKFGEKWTQPGNIVTNGAYTLKDWVVNERIVMERNPHYWDNAKTVINTVTWLPTSSEVTYVNRYRSGELDMTYNQLPIELFQKLKKEIPNELHVDPYLCTYYYEINNQKAPFTDVRVRTALKLGLDRDIIANKVKGQGDLPAYGYTPPYTDGAKLTEPEWFTWSQEKRNEEAKKLLAEAGYSADKPLTFNLLYNTSDLHKKLAIAAASLWRKNLGIDVKLVNQEWKTFLDTRHQGTYDVARAGWCADYNEPTSFLNTMLSDSSMNTAHYKSPAFDKIMAESVKASDEAQRTAAYAKAEQQLDKDSAIVPVYYYVNARLVKPWVGGYTGKDPMDNVYTKDLYVIKH	PGPT0021015_2708	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
BMS020_00827	648			hypothetical protein	GTGACTCAATCACTGTTCGATTTTTCTGCATATTTCAAGTTTTTCATCGGCTTATTTGCCCTGGTTAACCCGGTGGGCATTATTCCGGTATTCATTAGTATGACCAGCTACCAGCCGGCAGCAGTGCGCAATAAGACCAACCTGACCGCCAACCTGTCGGTGGCGATCATCCTCCTGACGTCACTGTTTCTCGGCGATGGCATTCTGCAGATTTTTGGTATCTCCATTGATTCCTTCCGTATCGCCGGCGGCATCCTGGTGGTGACCATCGCGATGTCGATGATCAGCGGTAAGCTCGGCGAAGATAAGCAGAACAAGCAGGAGAAGTCGGAGACGGCGGTAAGGGAGAGCATCGGCGTCGTTCCTCTCGCGCTACCGTTAATGGCCGGACCGGGGGCAATCAGTTCCACTATCGTGTGGGGTACGCGGTATCACTCCTGGGTGCATCTCGTCGGTTTTTCACTGGCGATTGCGGTCTTTGCCCTCTGCTGCTGGGGGATTTTCCGCATGGCGCCATGGCTGGTGCGTCTGCTGGGGCAGACAGGGATTAACGTTATCACCCGTATTATGGGCCTGCTGCTGATGGCTCTCGGCATTGAGTTTATTGTGACGGGGATTAAAGCGCTCTTCCCGGGGCTGCTGAGTTAG	MTQSLFDFSAYFKFFIGLFALVNPVGIIPVFISMTSYQPAAVRNKTNLTANLSVAIILLTSLFLGDGILQIFGISIDSFRIAGGILVVTIAMSMISGKLGEDKQNKQEKSETAVRESIGVVPLALPLMAGPGAISSTIVWGTRYHSWVHLVGFSLAIAVFALCCWGIFRMAPWLVRLLGQTGINVITRIMGLLLMALGIEFIVTGIKALFPGLLS	PGPT0029250_884	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIPLE_ANTIBIOTIC_RESISTANCE,PGPT0029250-marC-K05595	NA	NA
BMS020_00828	2676	adhE_1	COG1012	Aldehyde-alcohol dehydrogenase	ATGGCTGTTACTAATATCGCTGAACTGAACGCGCTTGTTGAGCGTGTCAAGAAAGCCCAGCGTGAATATGCCAGTTTCACTCAAGAACAAGTCGACAAAATCTTCCGCGCCGCCGCGCTGGCCGCTGCAGATGCTCGAATCCCTCTCGCCAAAATGGCCGTTGCCGAATCCGGCATGGGCATCGTTGAAGACAAAGTGATCAAAAACCACTTCGCTTCCGAATACATTTACAACGCTTATAAAGACGAAAAAACCTGTGGCGTCCTGTCAGAAGACGACACCTTTGGTACCATCACTATCGCTGAACCAATCGGCATCATCTGCGGTATCGTACCGACCACTAACCCGACTTCAACAGCCATCTTCAAATCGCTCATCAGCCTGAAGACGCGTAACGCCATCATTTTCTCTCCGCACCCGCGTGCTAAAGAAGCCACCAACAAAGCGGCTGACATCGTCCTGCAGGCTGCCATCGCTGCCGGCGCGCCGAAAGACCTGATTGGCTGGATCGATCAGCCGTCTGTTGAGCTGTCTAACGCCCTGATGCACCACCCGGACATCAACCTGATCCTTGCGACCGGTGGTCCAGGCATGGTGAAAGCAGCATACAGCTCCGGTAAACCTGCTATCGGCGTAGGTGCCGGTAACACCCCGGTGGTGATTGATGAAACGGCTGACATCAAACGCGCCGTTGCTTCCGTTCTGATGTCTAAAACCTTCGATAACGGCGTTATCTGTGCTTCTGAGCAGTCCGTTGTGGTGGTTGATTCCGTTTATGACGCGGTTCGCGAACGTTTCGCCAGCCACGGCGGCTACCTGCTGCAGGGTAAAGAGCTGAAAGCCGTTCAGGACATTATCCTGAAAAATGGCGCGCTGAACGCCGCTATCGTTGGTCAGCCTGCGGCGAAAATCGCTGAACTGGCAGGCTTCACCGTACCGGCCACGACTAAAATTCTGATTGGCGAAGTCACCGACGTTGACGAAAGCGAGCCGTTTGCTCACGAAAAACTGTCTCCGACGCTGGCGATGTACCGTGCGAAAGATTTCGAAGACGCCGTGACCAAAGCTGAAAAACTGGTCGCCATGGGCGGTATCGGTCATACCTCTTGCCTGTACACCGACCAGGATAACCAGCCGGCTCGCGTGGCTTACTTCGGCCAGATGATGAAAACGGCGCGTATCCTGATCAACACCCCGGCTTCTCAGGGTGGTATCGGTGACCTGTACAACTTCAAACTCGCTCCTTCCCTGACTCTGGGTTGTGGTTCCTGGGGTGGTAACTCCATCTCTGAAAACGTTGGTCCGAAACACCTGATCAACAAGAAAACCGTTGCTAAGCGAGCTGAAAACATGTTGTGGCACAAACTTCCGAAATCTATCTACTTCCGTCGTGGCTCCCTGCCTATCGCACTGGATGAAGTGATTACTGATGGTCACAAACGCGCGCTGATCGTGACTGACCGCTTCCTGTTCAACAACGGCTATGCCGATCAGATCACCTCCGTACTGAAAGCAGCGGGTGTTGAAACTGAAGTCTTCTTCGAAGTTGAAGCTGACCCGACGCTGACCATCGTACGCAAAGGCGCCGACCTGGCGAACTCCTTTAAACCAGACGTGATCATCGCGCTGGGCGGCGGTTCCCCGATGGATGCGGCAAAAATCATGTGGGTCATGTACGAACATCCGGAAACCCACTTCGAAGAACTGGCGCTGCGCTTTATGGACATCCGTAAACGTATCTACAAGTTCCCGAAAATGGGCGTTAAAGCCAAGATGGTGGCGATCACTACCACCTCCGGTACCGGTTCTGAAGTTACGCCGTTCGCCGTTGTGACCGATGATGCGACAGGTCAGAAATATCCGCTGGCAGACTACGCGCTGACCCCGGATATGGCCATCGTCGATGCCAACCTGGTGATGGATATGCCGAAATCGCTGTGTGCGTTCGGTGGTCTGGATGCCGTGACCCACGCCCTGGAAGCTTACGTTTCCGTGCTGGCTTCTGAGTTCTCTGACGGCCAGGCTCTGCAGGCGCTGAAACTGCTGAAAGAGTACCTGCCGGCTTCCTACCACGAAGGTTCCAAGAACCCGGTTGCCCGCGAGCGCGTACACAGTGCCGCCACCATCGCCGGTATCGCGTTTGCTAACGCCTTCCTCGGCGTGTGTCACTCCATGGCGCACAAACTGGGTTCCCAGTTCCATATTCCGCACGGTCTGGCCAACGCCCTGCTGATCTGCAACGTTATCCGCTACAACGCGAATGACAACCCGACCAAGCAGACTGCGTTCAGCCAGTACGACCGTCCGCAGGCTCGCCGTCGCTACGCTGAAATCGCCGATCACCTGGGTCTCTCCGCACCGGGCGACCGTACCGCAGCGAAAATCGAGAAGCTGCTGGCATGGCTGGAAAGCGTGAAAGCTGAGCTGGGTATTCCGAAATCTATCCGCGAAGCTGGCGTTCAGGAAGCTGACTTCCTGGCCCACGTTGATAAGCTGTCTGAAGATGCATTCGATGACCAGTGCACCGGCGCTAACCCGCGCTACCCGCTGATCTCCGAGCTGAAACAGATCCTGCTGGATACCTACTACGGTCGCGAGTTCGTCGAAGGCGAAGCAGCCGCGAAAGCCGAAGCAGCTCCGGTGAAAGCTGAGAAAAAAGCGAAAAAATCCGCTTAA	MAVTNIAELNALVERVKKAQREYASFTQEQVDKIFRAAALAAADARIPLAKMAVAESGMGIVEDKVIKNHFASEYIYNAYKDEKTCGVLSEDDTFGTITIAEPIGIICGIVPTTNPTSTAIFKSLISLKTRNAIIFSPHPRAKEATNKAADIVLQAAIAAGAPKDLIGWIDQPSVELSNALMHHPDINLILATGGPGMVKAAYSSGKPAIGVGAGNTPVVIDETADIKRAVASVLMSKTFDNGVICASEQSVVVVDSVYDAVRERFASHGGYLLQGKELKAVQDIILKNGALNAAIVGQPAAKIAELAGFTVPATTKILIGEVTDVDESEPFAHEKLSPTLAMYRAKDFEDAVTKAEKLVAMGGIGHTSCLYTDQDNQPARVAYFGQMMKTARILINTPASQGGIGDLYNFKLAPSLTLGCGSWGGNSISENVGPKHLINKKTVAKRAENMLWHKLPKSIYFRRGSLPIALDEVITDGHKRALIVTDRFLFNNGYADQITSVLKAAGVETEVFFEVEADPTLTIVRKGADLANSFKPDVIIALGGGSPMDAAKIMWVMYEHPETHFEELALRFMDIRKRIYKFPKMGVKAKMVAITTTSGTGSEVTPFAVVTDDATGQKYPLADYALTPDMAIVDANLVMDMPKSLCAFGGLDAVTHALEAYVSVLASEFSDGQALQALKLLKEYLPASYHEGSKNPVARERVHSAATIAGIAFANAFLGVCHSMAHKLGSQFHIPHGLANALLICNVIRYNANDNPTKQTAFSQYDRPQARRRYAEIADHLGLSAPGDRTAAKIEKLLAWLESVKAELGIPKSIREAGVQEADFLAHVDKLSEDAFDDQCTGANPRYPLISELKQILLDTYYGREFVEGEAAAKAEAAPVKAEKKAKKSA	PGPT0006360_379	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006360-adhE-K04072	NA	NA
BMS020_00829	528	tdk_1	COG1435	Thymidine kinase	ATGCGTACCGTCGTTTATACCGCTGAGATTGATGACCGCTTTGGCGCCGGAAAAGTCAGCTCGCGTATCGGTCTCTCCTCGCCGGCCCGATTGTATAATCCACAGACGTCGCTATTTAACGATATTGCCGCAGAGCACAAGCTAAAGCCGATTCACTGCGTGCTGGTGGATGAAAGCCAGTTTCTGACGCGCGAGCAGGTTCATGAGCTGTCTGAAGTTGTCGATACGCTGGATATTCCTGTGCTTTGCTATGGCTTGCGGACAGACTTTCGCGGTGAGCTCTTTACCGGCAGCCAGTATTTACTGGCCTGGTCAGATAAGCTGGTGGAGCTGAAAACCATCTGTTTCTGCGGCCGGAAGGCCAGTATGGTGCTGCGCCTCGATCAGGAGGGGCGTCCTTACAACGAGGGCGAGCAGGTCGTCATCGGCGGCAATGAGCGGTACGTGTCAGTTTGTCGTAAGCATTATAAAGAGGCGCTGAGCGTCGGCTCGTTAACTCAGGTACAAAACCAGCACCGCCCCAGCTAA	MRTVVYTAEIDDRFGAGKVSSRIGLSSPARLYNPQTSLFNDIAAEHKLKPIHCVLVDESQFLTREQVHELSEVVDTLDIPVLCYGLRTDFRGELFTGSQYLLAWSDKLVELKTICFCGRKASMVLRLDQEGRPYNEGEQVVIGGNERYVSVCRKHYKEALSVGSLTQVQNQHRPS	PGPT0021390_1394	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021390-tdk-K00857	NA	NA
BMS020_00830	408	hns		DNA-binding protein H-NS	ATGAGCGAAGCACTTAAAATTTTGAACAACATCCGTACTCTTCGTGCGCAGGCAAGAGAATGCACCCTGGAAACGCTCGAAGAAATGCTGGAAAAATTAGAAGTCGTTGTTAACGAGCGCCGTGAAGAAGAAAACGCCGCCGCGGCAGAAATTGAAGAACGTACGCGTAAGCTGCAGCAATATCGTGAAATGCTGATCGCTGACGGTATTGATCCGAATGAACTGCTGAGCACCATGGCAGCCGTTAAAGCCGGTACCAAAACCAAGCGTGCTGCACGTCCGGCTAAATACAGCTATGTCGACGAAAACGGCGAAACCAAAACCTGGACCGGCCAGGGCCGTACCCCGGCGGTGATCAAAAAAGCAATGGATGAGCAAGGTAAATCACTGGACGATTTCCTGATCTAA	MSEALKILNNIRTLRAQARECTLETLEEMLEKLEVVVNERREEENAAAAEIEERTRKLQQYREMLIADGIDPNELLSTMAAVKAGTKTKRAARPAKYSYVDENGETKTWTGQGRTPAVIKKAMDEQGKSLDDFLI				NA	NA	NA	NA	NA
BMS020_00831	903	galU	COG1210	UTP--glucose-1-phosphate uridylyltransferase	ATGGCTGCCCTTAATTCTAAAGTCAGAAAAGCGGTTATCCCGGTTGCGGGATTAGGCACCAGGATGCTGCCGGCCACCAAAGCGATTCCAAAAGAAATGCTGCCGCTGGTAGATAAGCCGTTAATTCAGTACGTTGTTAATGAATGTATCGCTGCAGGAATTACTGAAATTGTTCTGGTAACGCACTCGTCCAAAAACTCTATCGAAAACCATTTCGATACCAGTTTTGAGCTGGAAGCGATGCTGGAAAAACGTGTGAAACGCCAGCTGCTGGAAGAAGTGCAGTCTATTTGTCCGCCGCACGTAACCATTATGCAAGTTCGTCAGGGCCTGGCAAAAGGTCTGGGACACGCGGTGCTTTGCGCCCATCCGGTGGTGGGTGATGAGCCGGTCGCAGTTATTCTGCCAGACGTTATTCTGGATGAATATGAATCCGATCTGAGCCGCGATAACCTCGCAGAGATGATCTCTCGTTTCGATGAGACCGGCGCCAGCCAGATTATGGTTGAGCCTGTCGACGACGTGACCGCTTACGGTGTCGTTGACTGCAAAGGTGAATCTCTCAAGCCGGGAGAAAGCGTGCCGATGGTAGGCGTGGTCGAGAAGCCAAAAGCTGACGTTGCGCCGTCCAACCTGGCGGTGGTGGGGCGCTATGTCCTCAGCGCCGATATCTGGCCGCTGCTGGCGAAGACTCCTCCGGGTGCCGGTGATGAAATTCAGCTGACTGACGCGATTGATATGCTGATCGAAAAAGAGACGGTCGAAGCTTATCATATGAAAGGCAAGAGCCATGACTGCGGTAATAAGCTTGGCTACATGCAGGCGTTCGTCGAATATGGTATTCGCCACAAAACGCTGGGTGACGATTTTAAAGCCTGGCTGGAAACCGCGGTTGCTAAGTAA	MAALNSKVRKAVIPVAGLGTRMLPATKAIPKEMLPLVDKPLIQYVVNECIAAGITEIVLVTHSSKNSIENHFDTSFELEAMLEKRVKRQLLEEVQSICPPHVTIMQVRQGLAKGLGHAVLCAHPVVGDEPVAVILPDVILDEYESDLSRDNLAEMISRFDETGASQIMVEPVDDVTAYGVVDCKGESLKPGESVPMVGVVEKPKADVAPSNLAVVGRYVLSADIWPLLAKTPPGAGDEIQLTDAIDMLIEKETVEAYHMKGKSHDCGNKLGYMQAFVEYGIRHKTLGDDFKAWLETAVAK	PGPT0014875_2107	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
BMS020_00832	1014	rssB_1	COG0784	Regulator of RpoS	ATGACGCAGCCATTGGCGGGAAAACAGATTCTGATAGTTGAAGACGAACCCGTTTTCCGCTCACTCTTGCATGGATGGCTGACCTCGCTGGGAGCAACAACCTTCCAGGCGGAAGATGGCAAGGATGCCCTGCATAAAATGACGGAGGTGCATCCGGACCTGATGATTTGCGACATTTCGATGCCGAGAATGAACGGTCTGGAGCTGGTGGAGACGTTGCGTAATCGCGGCGAGCAGCTACCGATCCTGATGATTTCCGCTACCGAAAACATGGCCGATATAGCCAAAGCGTTGCGGCTTGGCGTTCAGGACGTGTTGTTAAAGCCAGTAAAAGATTTCGATCGCCTGCGCGAAACCGTTTATGCCTGCCTCTATCCTGCGATGTTCAGTTCACGGGTGGAAGAGGAAGAGCGTTTATTTGAGGACTGGGACGCGCTGGTCAGTAATCCCACTGCGGCTTCACGATTACTGCAGGAATTACAGCCGCCGGTGCAACAGGAAATGTCGCACTGCCGCATTCATTATCGCCAGCTGGTGTCGGCGGATAAACCCGGTCTTGTACTCGATATCGCGCCGCTCTCGGACAATGATTTGGCCTTCTATTGTCTGGATGTCACACGGGCAGGAGATAATGGCGTCCTGGCCGCTTTATTATTGCGCGCGTTGTTCAATGGCTTGCTACAGGAGCAGCTGGCGCATCAGGGACAACGGCTACCAGAAATGGGGAGTCTGCTAAAACAGGTGAATCAACTCCTGCGTCAGGCAAACCTTCCCGGCCAGTTTCCTTTGTTAGTGGGGTATTACCACAGCGGACTGAAAAATTTAATTCTGGTGTCGGCGGGACTTAATGGCACGCTGAATACCGGTGAGCATCAAATTCAGATTAGCAATGGCGTTCCTTTGGGCACCCTGGGTGATGCTTACCTTAATCAAATTAGTCAACGCTGTACCTCATGGCAGTGCCAAATTTGGGGGGCGGGAGGCCGTTTACGCTTAATGTTGTCTGCGGAGTGA	MTQPLAGKQILIVEDEPVFRSLLHGWLTSLGATTFQAEDGKDALHKMTEVHPDLMICDISMPRMNGLELVETLRNRGEQLPILMISATENMADIAKALRLGVQDVLLKPVKDFDRLRETVYACLYPAMFSSRVEEEERLFEDWDALVSNPTAASRLLQELQPPVQQEMSHCRIHYRQLVSADKPGLVLDIAPLSDNDLAFYCLDVTRAGDNGVLAALLLRALFNGLLQEQLAHQGQRLPEMGSLLKQVNQLLRQANLPGQFPLLVGYYHSGLKNLILVSAGLNGTLNTGEHQIQISNGVPLGTLGDAYLNQISQRCTSWQCQIWGAGGRLRLMLSAE				NA	NA	NA	NA	NA
BMS020_00833	903		COG1752	putative NTE family protein	ATGAGAAAGCTTAAAATTGGTCTGGCGTTAGGTGCGGGCGCCGCCCGCGGATGGTCGCATATTGGCGTCATCAACGCCCTCCAGCAGGCCGGCATTGAGATTGATATCGTGGCCGGTTGCTCTATCGGTTCGCTGGTAGGGGCGGCGTATGCCTGTAACCGACTCCCGGCCCTTGAGTCCTGGGTCTGCTCTTTCAGTAACTGGGACGTTCTGAAACTGATGGATCTCTCCTGGCGCCGCGGTGGACTATTGCGGGGTGAAAAGGTGTTCAATCATTATCGCCGCATCATGCCCGTGACCGATATCGAACACTGCGAACGGCGATTTGCCGCCGTCGCGACAAATTTAAGCACTGGCCGGGAGCTGTGGTTTACCGAAGGCGATCTGCACTTAGCGATTCGAGCCTCCTGCAGTATGCCGGGGTTAATGTCGCCGGTCAGGCATAACGGTTACTGGCTGGTTGATGGCGCGGTGGTCAATCCGGTTCCCGTATCGCTTACGCGGGCAATGGGGGCGGATATCGTGATTGCCGTGGATTTGCAACATGATGCCCACCTTATGCAGCAGGATTTATTCTCCCTCGAAACGCCGCGGCGGGAAGCCGAAGCGAAGGAGGGGCCATGGCATACTCGTCTGCGCGCACGCTTGACGCAAATGAGTTCCCGCCGTACGGCCGTGACGCCGACGGCGATGGAGATCATGACCACCTCTATCCAGGTCCTGGAGAACCGTCTTAAACGCAATCGTATGGCGGGTGACCCGCCGGATATCCTGTTGCAACCGTACTGTCCGCAAGTCTCGACGCTTGATTTCCATCGCGCCGGCGAGGCGATTACCGCAGGGCAGTTGGCGGTAGAAAAGAAAATGGATGAATTATTACCCTTAGTGCGTACCGCGATTTGA	MRKLKIGLALGAGAARGWSHIGVINALQQAGIEIDIVAGCSIGSLVGAAYACNRLPALESWVCSFSNWDVLKLMDLSWRRGGLLRGEKVFNHYRRIMPVTDIEHCERRFAAVATNLSTGRELWFTEGDLHLAIRASCSMPGLMSPVRHNGYWLVDGAVVNPVPVSLTRAMGADIVIAVDLQHDAHLMQQDLFSLETPRREAEAKEGPWHTRLRARLTQMSSRRTAVTPTAMEIMTTSIQVLENRLKRNRMAGDPPDILLQPYCPQVSTLDFHRAGEAITAGQLAVEKKMDELLPLVRTAI				NA	NA	NA	NA	NA
BMS020_00834	360			hypothetical protein	ATGCGCTCCCGTTACAGCGCGTTCGTCATGAAAGATGCCGACTATCTGATCAAAACCTGGCATCCGTCCTGTCAGGCGCAGCAGTTTCGCGCCGAACTGGAGAAAGGCTTTGCCCACACCGAATGGCTGGGCTTAACCCTGTTCGCCAGCGATGATGGACGAGCCGCCAATGAAGGCTTTGTCAGCTTTATCGCCCGCTTTAATGACAATAACCGCCCGGGCGCCATTATTGAACGTTCCAGATTCTTAAAAGAAAATGGACAGTGGTACTATATCGACGGGACACGGCCGCTGATTGGCCGTAACGACCCCTGCCCTTGCGGTTCAGGTAAAAAATTTAAAAAATGCTGCGGCCAGTAA	MRSRYSAFVMKDADYLIKTWHPSCQAQQFRAELEKGFAHTEWLGLTLFASDDGRAANEGFVSFIARFNDNNRPGAIIERSRFLKENGQWYYIDGTRPLIGRNDPCPCGSGKKFKKCCGQ				NA	NA	NA	NA	NA
BMS020_00835	843	purU_1	COG0788	Formyltetrahydrofolate deformylase	ATGCATTCATTACAACGTAAAGTACTACGCACTATTTGCCCTGATCAGAAAGGCCTCATCGCGCGTATCACCAATATCTGCTACAAGCACGAACTTAACATTGTGCAGAACAATGAATTTGTTGACCACCGTACCGGTCGTTTCTTTATGCGCACCGAACTGGAAGGCATCTTCAACGACGCTATTCTGCTGGCCGATCTGGACAGCGCCCTGCCGGAAGGCTCGATTCGTGAACTCAATCCGGCAGGCCGCCGCCGGGTAGTGATTCTGGTGACGAAAGAGGCGCACTGCCTCGGCGATCTGCTGATGAAAGCCAACTATGGCGGGCTGGATGTCGACATTGCCGCGGTTATTGGCAACCATGACACCCTGCGCCCGCTGGTGGAACGTTTTGGCATCCCGTTTGAACTGGTCAGCCATGAAGGGCTGAGCCGCGAAGAGCACGACAAGCAGATGGGCGACGCGATTGCCGCCCACGAACCGGATTACGTGGTGCTGGCCAAGTATATGCGCGTTCTTACGCCGGAATTTGTCGCTCGTTTCCCGAACAAGATCATTAATATTCACCACTCGTTCCTGCCGGCGTTTATCGGCGCGCGTCCGTATCATCAGGCCTATGAGCGCGGTGTGAAGATCATCGGCGCCACCGCCCACTACGTGAATGATAACCTGGACGAAGGTCCCATCATTATGCAGGACGTCATTCACGTCGATCATACTTATACCGCAGAAGATATGATGCGTGCCGGGCGCGATGTCGAAAAAAACGTATTGAGCCGGGCGCTGTATCAGGTCCTGGCGCAGCGCGTCTTCGTCTACGGTAACCGGACGATTATTCTTTAA	MHSLQRKVLRTICPDQKGLIARITNICYKHELNIVQNNEFVDHRTGRFFMRTELEGIFNDAILLADLDSALPEGSIRELNPAGRRRVVILVTKEAHCLGDLLMKANYGGLDVDIAAVIGNHDTLRPLVERFGIPFELVSHEGLSREEHDKQMGDAIAAHEPDYVVLAKYMRVLTPEFVARFPNKIINIHHSFLPAFIGARPYHQAYERGVKIIGATAHYVNDNLDEGPIIMQDVIHVDHTYTAEDMMRAGRDVEKNVLSRALYQVLAQRVFVYGNRTIIL	PGPT0008155_3272	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433	NA	NA
BMS020_00843	444	lrpC	COG1522	HTH-type transcriptional regulator LrpC	ATGAATGACTTACTTGATGAAATAGACCGGGCGATCCTCGCTTGCCTGACTCAGGACGCCAGAGTCTCGTTGAAGGTATTGAGCGCGCGGGTGGGGCTGACTTCGCCGAGCACCGCCGAGCGTGTGAAGCGCCTGGAGGAGCGGGGGGTGATCCAGGGCTATGGGGCGCGGGTGAATCTCGCCGCGCTGGGCTACAGCCTGCAGGCGCTGGTGCGGGTCCGGCCGCTGCCTGGTCTGCTGCAGAAGGTGGATAAATATATCCAGGCGATGCCGGAGTGCATCGAAAGTGACAAAGTGACCGGAGAGGATTGTTTCGTGATGCGACTGGTGGTGCGTGATATTACCCAACTGGATACGCTGCTTGACGGCCTGGCTGAATTTGCTCAGTGCAATACCTCGGTGGTGAAAAGTTCGCCGGTGAAGAGACGACTGCCCCCGCTGTGA	MNDLLDEIDRAILACLTQDARVSLKVLSARVGLTSPSTAERVKRLEERGVIQGYGARVNLAALGYSLQALVRVRPLPGLLQKVDKYIQAMPECIESDKVTGEDCFVMRLVVRDITQLDTLLDGLAEFAQCNTSVVKSSPVKRRLPPL				NA	NA	NA	NA	NA
BMS020_00844	897			hypothetical protein	ATGCAACTTACCCGTGGCGTCTGGCAAATGAGCCTGGCGATGATCATTTCTGGCTCGATCGGCGCGTTCGTGCTGCTCTCGGGTTTGCCGGTAATTGATGTGGTGTTCTGGCGCTGCCTGATTGGCGCGCTCACCCTGCTGCTGTTTATCGTTCTCAGCCGCCAACCCTTCAGTCGTCTCACGCGCTTCACCCTCGCCCTCGCGGTGCTTGGCGGCATTGCGCTGGTCATCAACTGGCTGCTGCTTTTTGCCGCCTACTCGCGTATTTCAATTGGCATGGCCACGGTGGTCTACAACACCCAGCCGTTTATGCTGGTACTGATGGGTATGGTGCTGGGGGAACGGGTCAGCGCCGTAAAATGGGGATGGTTACTGCTGGCCTTCGGCGGCGTGGTGATCCTGCTGTCAAGCGAGCTTGCCCCGGCGCACGGCGATAGTCTCGCGACCGGCGTTTTGCTGGCATTAGGCGCAGCATTTTTCTATGCTCTGACCGCCATTATCGCCCGCAAACTGCATCCGCTCCCTGCTCAGCATATCGCCTTTATTCAGGTGCTGGTCGGCGTCGTGATGCTGCTGCCGCTGGTGCAAATGCCCGAGTTTTCAGCCAGCTTTCCCTGGCGCTATCTGCTGATCCTCGGCGTCGTCCATACCGGGATCATGTATCAGCTTTTATATAGCGCGATACAGAAGCTGCCAACGCCCATTACCGGTTCACTCTCCTTTATTTATCCACTGGTGGCGATGGGGGTCGACTATCTGGTCTTCCACCATGCGTTAACCCCTGTGCAGTGGTGCGGCGGGATGCTGATTCTGTTTGCCGCCGCGGGGAATAACCTCGGCTGGGGCGAAAAAAAACCCCGCCAGAGCGGGGTCAGTCAGCAGTCGCGGGCCAGTTAG	MQLTRGVWQMSLAMIISGSIGAFVLLSGLPVIDVVFWRCLIGALTLLLFIVLSRQPFSRLTRFTLALAVLGGIALVINWLLLFAAYSRISIGMATVVYNTQPFMLVLMGMVLGERVSAVKWGWLLLAFGGVVILLSSELAPAHGDSLATGVLLALGAAFFYALTAIIARKLHPLPAQHIAFIQVLVGVVMLLPLVQMPEFSASFPWRYLLILGVVHTGIMYQLLYSAIQKLPTPITGSLSFIYPLVAMGVDYLVFHHALTPVQWCGGMLILFAAAGNNLGWGEKKPRQSGVSQQSRAS				NA	NA	NA	NA	NA
BMS020_00845	678	narI_1	COG2181	Respiratory nitrate reductase 1 gamma chain	ATGCACTTCCTGAATATGTTCTTCTTTGACATTTATCCGTACATTGCGGGCTCGGTGTTTCTGATCGGCAGCTGGCTGCGCTATGACTACGGTCAGTACACCTGGCGCGCGGCCTCCAGCCAGATGCTGGACCGTAAAGGGATGAATCTGGCGTCGAACCTGTTTCATATCGGCATCCTCGGCATTTTCGCCGGCCACTTCCTCGGCATGCTGACGCCGCACTGGATGTATGAATCCTTCCTGCCGATCGACGTCAAGCAGAAGATGGCGATGATCGCCGGCGGCGCCTGCGGCGTGATGACCCTGGTGGGCGGTTTACTGCTGCTCAAGCGTCGTCTGCTCAGCCCGCGCGTTCGCGCCACCACCACCGGCGCGGATATTCTGATCCTCTCCCTGCTGATGGTGCAGTGTGCGTTGGGCCTGCTGACGATCCCGTTCTCAGCCCAGCATATGGACGGCAGCGAAATGATGAAGCTGGTCGGCTGGGCGCAGTCGGTGGTCACCTTCCACGGCGGTGCGTCGCAGCACCTGGATGGCGTGGCGTTTATCTTCCGCGTCCACCTGGTGCTGGGTATGACCCTGTTCCTGCTGTTCCCGTTCTCCCGTCTGGTTCATATCTGGAGCGCGCCGGTAGAGTACCTGACGCGCAAATACCAGATTGTTCGCGCCCGTCGCTAA	MHFLNMFFFDIYPYIAGSVFLIGSWLRYDYGQYTWRAASSQMLDRKGMNLASNLFHIGILGIFAGHFLGMLTPHWMYESFLPIDVKQKMAMIAGGACGVMTLVGGLLLLKRRLLSPRVRATTTGADILILSLLMVQCALGLLTIPFSAQHMDGSEMMKLVGWAQSVVTFHGGASQHLDGVAFIFRVHLVLGMTLFLLFPFSRLVHIWSAPVEYLTRKYQIVRARR	PGPT0000505_1335	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000505-narI|narV-K00374	NA	NA
BMS020_00846	711	narJ_1	COG2180	Nitrate reductase molybdenum cofactor assembly chaperone NarJ	ATGATTGAACTTGTGATTGTGTCGCGTTTGCTCGAATACCCTGACGCTGCCTTATGGCAGCATCAGCAGGAGATGTTCGAGGCGCTCGCGTCATCGGAGAAACTCAGCAAAGAAGATGCTCACGCGCTGGGCGTTTTTCTGCGCGATCTGCTGGCTCAGGATCCGCTGGATGCCCAGGCGGCCTACAGCGAACTGTTTGACCGCGGACGGGCCACCTCGCTGCTGCTGTTTGAACACGTGCACGGCGAATCCCGCGATCGCGGGCAGGCGATGGTTGACCTGATGGCGCAGTATGAGCGCCACGGTCTGCTGCTCGATAGCCATGAGCTGCCGGATCATCTGCCGCTGTATCTGGAGTATCTGGCGCAGCTGCCGGAAGAGGAAGCGCTTGGCGGCCTGCGGGACGTCGCGCCGATCCTCGGCCTGCTCAGCGCGCGCCTGCAGCAGCGCGAGAGCCGCTATGCGGTGCTGTTCGAGCTGCTGCTGAAGCTGGCCAACACTCAGGTCGACAGCCAGAAAGTGGCGGAGAAGATTGCCGACGAAGCCCGCGACGATACGCCGCAGGCGCTGGACGCAGTCTGGGAAGAAGAACAGGTTAAATTCTTTGCCGACCAGGGCTGCGGCGAGTCGGAGATTTCCGCTCACCAGCGTCGTTTTGCCGGAGCCGTGGCCCCGCAATATCTGAATATCTCTAACGGAGGACAGCAATAA	MIELVIVSRLLEYPDAALWQHQQEMFEALASSEKLSKEDAHALGVFLRDLLAQDPLDAQAAYSELFDRGRATSLLLFEHVHGESRDRGQAMVDLMAQYERHGLLLDSHELPDHLPLYLEYLAQLPEEEALGGLRDVAPILGLLSARLQQRESRYAVLFELLLKLANTQVDSQKVAEKIADEARDDTPQALDAVWEEEQVKFFADQGCGESEISAHQRRFAGAVAPQYLNISNGGQQ	PGPT0000510_407	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000510-narJ|narW-K00373	NA	NA
BMS020_00847	1536	narH_1	COG1140	Respiratory nitrate reductase 1 beta chain	ATGAAAATTCGTTCACAAGTCGGCATGGTGCTGAATCTCGATAAATGCATCGGCTGCCACACCTGCTCGGTAACCTGTAAAAACGTCTGGACCAGCCGGGAAGGAATGGAGTACGCCTGGTTCAATAACGTAGAGAGTAAGCCTGGCGTCGGTTTTCCGAACGACTGGGAAAACCAGGAGAAATGGAAGGGCGGCTGGATCCGCAAAATCAACGGCAAGCTGCAGCCGCGCATGGGCAACCGCGCGATGCTGTTAGGTAAAATATTCGCGAACCCGCATCTACCGGGCATCGATGATTACTACGAGCCGTTCGATTACGACTACCAGAACCTGCATAACGCCCCGGAGAGTAAACACCAGCCGATCGCCCGTCCGCGCTCGCTGATCACCGGCCAGCGGATGGACAAGATCACCAGCGGTCCGAACTGGGAAGAGATCCTCGGCGGCGAGTTTGAAAAGCGCGCCAAAGACCAGAACTTCGACAACATGCAGAAGGCGATGTACGGCCAGTTCGAGAACACCTTCATGATGTATCTGCCGCGCCTGTGCGAGCACTGCCTGAATCCGGCATGCGTCGCAACCTGCCCGAGCGGCGCCATCTATAAGCGTGAAGAAGACGGCATCGTGCTGATCGACCAGGACAAGTGCCGCGGCTGGCGGATGTGCATCACCGGCTGCCCGTACAAGAAGATCTACTTCAACTGGAAGAGCGGGAAATCTGAGAAGTGCATCTTCTGCTACCCGCGTATTGAATCCGGAATGCCGACGGTATGCTCCGAAACCTGCGTGGGCCGAATCCGCTACCTCGGCGTCCTGCTGTATGACGCGGACGCGATCGAAAATGCCGCCAGCACCGAGAACGAGAAAGATCTCTATCAGCGTCAACTGGACGTGTTCCTCGATCCGAACGACCCGAAAGTGATTGAGCAGGCGCTGAAAGATGGCGTGCCGCAGGGCGTGATTGAAGCCGCGCAGCAGTCGCCGGTCTGGAAAATGGCGATGGACTGGAAGCTGGCCCTGCCGCTGCACCCGGAATATCGCACCCTGCCGATGGTTTGGTACGTGCCGCCGCTGTCGCCGATTCAGTCCGCCGCCGATGCCGGCGAACTGGGCAGCAACGGGATCCTGCCGGACGTGGAAAGCCTGCGTATTCCGGTGCAGTATCTGGCGAACCTGCTGACCGCCGGCGATACCCAACCGGTCCTGTTGGCCCTGAAGCGGATGCTGGCGATGCGTCACTATAAGCGGGCGGAAACCGTTGACGGCGTTGTCGATACCCGCGCGCTGGAAGAGGTGGGCTTAAGCGAAGCGCAGGCTCAGGAGATGTACCGCTACCTGGCGATCGCCAACTACGAAGATCGTTTCGTGGTGCCGAGCAGCCATCGTGAACAGGCGCGGGAAGCGTTTCCGGAGAAAAATGGCTGCGGCTTTAGCTTTGGCGACGGCTGCCACGGCTCTGACAGCCAGTTCAACCTGTTCAACAGCCGTCGCATCGACGCCATCGACGTGACCAGCAAAACGGAGCCGCACGCATGA	MKIRSQVGMVLNLDKCIGCHTCSVTCKNVWTSREGMEYAWFNNVESKPGVGFPNDWENQEKWKGGWIRKINGKLQPRMGNRAMLLGKIFANPHLPGIDDYYEPFDYDYQNLHNAPESKHQPIARPRSLITGQRMDKITSGPNWEEILGGEFEKRAKDQNFDNMQKAMYGQFENTFMMYLPRLCEHCLNPACVATCPSGAIYKREEDGIVLIDQDKCRGWRMCITGCPYKKIYFNWKSGKSEKCIFCYPRIESGMPTVCSETCVGRIRYLGVLLYDADAIENAASTENEKDLYQRQLDVFLDPNDPKVIEQALKDGVPQGVIEAAQQSPVWKMAMDWKLALPLHPEYRTLPMVWYVPPLSPIQSAADAGELGSNGILPDVESLRIPVQYLANLLTAGDTQPVLLALKRMLAMRHYKRAETVDGVVDTRALEEVGLSEAQAQEMYRYLAIANYEDRFVVPSSHREQAREAFPEKNGCGFSFGDGCHGSDSQFNLFNSRRIDAIDVTSKTEPHA	PGPT0000500_989	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000500-narH|narY|nxrB-K00371	NA	NA
BMS020_00848	3744	narG_1	COG5013	Respiratory nitrate reductase 1 alpha chain	ATGAGTAAATTCCTGGACCGGTTTCGCTACTTCAAACAGAAGGGTGAAACCTTTGCCGATGGGCACGGCCAGCTTCTAAACACCAACCGGGACTGGGAGGATGGATACCGTCAACGTTGGCAGCATGACAAAATTGTGCGTTCCACTCACGGTGTCAACTGCACCGGTTCATGCAGCTGGAAGATTTATGTCAAAAACGGACTGGTGACCTGGGAAACCCAGCAAACGGACTATCCGCGCACTCGTCCGGACCTGCCAAACCACGAACCACGCGGCTGCCCGCGCGGCGCCAGCTACTCCTGGTATCTGTACAGCGCGAACCGCCTGAAATACCCGCTGATGCGCAAACGCCTGATGAAGATGTGGCGGGAAGCGAAGGTCCAGCATAGCGATCCGGTTGAGGCATGGGCATCGATCATCGAAGACGCCGACAAAGCGAAAAGCTTCAAGCAGGCTCGCGGTCGCGGCGGGTTTGTCCGCTCCTCCTGGCAGGAAGTGAATGAGCTGATTGCCGCCTCCAACGTCTATACCGTGAAAACTTACGGTCCGGATCGCGTGGCCGGCTTCTCGCCGATCCCGGCGATGTCGATGGTCTCCTACGCCTCCGGCGCCCGTTACCTGTCGCTGATCGGCGGTACCTGCCTGAGCTTCTACGACTGGTACTGCGACCTGCCGCCGGCCTCGCCGATGACCTGGGGCGAGCAGACCGACGTGCCGGAATCCGCCGACTGGTACAACTCCAGCTATATCATCGCCTGGGGCTCCAACGTGCCGCAGACCCGTACCCCGGATGCGCACTTCTTTACCGAAGTTCGCTATAAAGGGACCAAAACTGTCGCCATCACCCCGGACTACGCCGAAATCGCCAAGCTCTGCGATCTGTGGCTGGCGCCGAAGCAGGGTACCGATGCCGCGATGGCGCTGGCGATGGGCCACGTGATGCTGCGTGAGTTCCATCTTGATAAACCGAGCCAGTACTTCACCGATTACGTGCGTCGCTACACCGACATGCCGATGCTGGTGATGCTTGAGGAGCGCGACGGCTATTACGCCGCCGGCCGCACGCTGCGCGCGTCCGACCTCGTGGATTCCCTTGGTCAGGAGAAGAATCCGGAATGGAAAACCGTCGCCTTTGATGAGAAGGGCGATCTGACCGTGCCGAACGGTTCCCTCGGATTCCGCTGGGGCGACAAAGGCAAATGGAACCTCGAACAGCGCGACGGTAAAACCGGCGAAGAAATTGAGCTGCGTCTGAGCCTGCTGGGCAGCCATGACGAGGTCGCGGACGTCGGCTTCCCGTACTTCGGCGGCGAAGGTTCTGAACACTTCAACAAAGTCGCGCTGGAAAACATTCTGCTGCACAAACTGCCGGTTAAACGCCTGCAGCTGGCCGACGGCTCCACCGCCCTGGTGACCACCGTGTACGACCTGACCATGGCCAACTATGGCCTGGAGCGCGGTCTGAACGATGACAACTGCGCCGCCAGCTATGATGAAGTGAAAGCCTACACTCCGGCCTGGGCGGAGAAAATTACCGGCGTCTCCCGCGCGCATATTATCCGTACCGCCCGCGAGTTTGCCGATAACGCCGATAAAACCCATGGTCGGTCGATGATTATCGTCGGGGCGGGTCTCAACCACTGGTTCCACCTCGACATGAACTACCGCGGTCTGATCAACATGCTGATCTTCTGCGGTTGCGTCGGCCAGAGCGGCGGCGGTTGGGCGCACTATGTGGGCCAGGAAAAACTGCGTCCGCAGACCGGCTGGCAGCCGCTGGCGTTCGCCCTTGACTGGCAACGCCCGGCACGTCATATGAACAGCACCTCGTACTTCTATAACCACTCCAGCCAGTGGCGCTATGAAAGCGTGACCGCGCAGGAGCTGCTCTCGCCGATGGCGGATAAATCCCGCTACAGCGGCCATCTGATCGACTTCAACGTCCGCGCCGAGCGGATGGGCTGGCTGCCGTCGGCGCCGCAGCTGGGCGTAAACCCGCTGCGCATCGCCGATGAGGCGAAAAAAGCGGGCATGACGCCGGTGGATTACACCGTCAAATCTCTGAAGGAGGGATCGATTCGCTTTGCGGCAGAGCAGCCGGAAAACGGAAAAAACCATCCGCGTAACCTGTTTATCTGGCGTTCCAACCTGCTGGGCTCCTCCGGTAAAGGCCATGAGTACATGCTCAAGTACCTGTTGGGTACGGAGAACGGCATTCAGGGTAAAGACCTTGGCAAGCAGGGCGGCGTGAAGCCGGAAGAAGTCGAATGGCGCGATAACGGCCTCGACGGCAAACTGGACCTGGTGGTGACCCTCGACTTCCGTCTGTCGAGCACCTGTCTCTACTCCGACATCGTGCTGCCGACCGCCACCTGGTACGAAAAAGACGACATGAATACCTCGGATATGCATCCGTTTATTCATCCGCTGTCGGCGGCCGTTGACCCGGCCTGGGAATCGAAGAGCGACTGGGATATCTATAAAGGTATCGCGAAGAAATTCTCTGAAGTGTGCGTGGGCCACCTCGGTAAAGAAACCGACGTCGTTACGCTGCCGATCCAGCATGATTCCGCCGCGGAAATGGCGCAGCCGCTGGACGTCAAAGACTGGAAGAAGGGCGAATGTGACCTGATTCCGGGGAAAACCGCCCCGCATATTATTCCGGTCGAGCGTGATTATCCGGCGACCTATGAGCGCTTCACCTCCATTGGCCCGCTGCTGGAAACCATCGGCAACGGCGGGAAAGGCATCGCCTGGAATACCCAGAGCGAAATGGACCTGCTGCGTAAGCTCAACTACACCAAGGCCGAAGGCCCGGCGAAAGGTCAGCCGAAGCTGGAAACGGCCATCGACGCCGCGGAGATGATCCTCACCCTGGCGCCGGAAACGAACGGTCAGGTGGCGGTGAAGGCGTGGAAAGCGCTGAGCGAAATCACCGGCCGCGAGCATGCGCACCTGGCGCTGAACAAAGAAGACGAGAAGATCCGTTTCCGCGATATCCAGGCGCAGCCGCGGAAAATTATCTCCAGCCCGACCTGGTCCGGGCTGGAAGACGAACACGTCTCCTATAACGCCGGATACACCAACGTTCACGAGCTGATCCCATGGCGTACCCTGTCCGGTCGTCAGTCGCTGTATCAGGATCACCAGTGGATGCGCGACTTTGGCGAGAGCCTGCTGGTTTATCGTCCGCCGATTGACACCCGCTCGGTGAAAGCGGTGATGGGCGAGAAGTCCAACGGCAACCCGGAGAAGGCGCTGAACTTCCTGACGCCGCACCAGAAATGGGGTATCCACTCGACCTACAGCGATAACCTGCTGATGCTGACCCTGTCACGCGGCGGTCCGATCGTCTGGATGAGCGAGGCGGATGCGAAAGATCTGGGTATCGAAGATAACGACTGGATCGAAGTGTTCAACGCCAACGGCGCCCTGACGGCGCGCGCGGTGGTGAGCCAGCGCGTGCCGGCCGGGATGACCATGATGTACCACGCGCAGGAACGCATCGTGAACCTGCCTGGCTCTGAAGTCACCGGCCAGCGCGGCGGGATCCATAACTCGGTTACCCGTATTACGCCGAAACCGACCCATATGATCGGCGGCTATGGCCATCTGGCCTATGGCTTTAACTACTACGGCACCGTCGGCTCCAACCGCGATGAGTTTGTGGTGGTACGTAAGATGAAGAACATTAACTGGTTAGACGGCGAAGGCAATGACCAGGTACAGGAGAGCGTAAAATGA	MSKFLDRFRYFKQKGETFADGHGQLLNTNRDWEDGYRQRWQHDKIVRSTHGVNCTGSCSWKIYVKNGLVTWETQQTDYPRTRPDLPNHEPRGCPRGASYSWYLYSANRLKYPLMRKRLMKMWREAKVQHSDPVEAWASIIEDADKAKSFKQARGRGGFVRSSWQEVNELIAASNVYTVKTYGPDRVAGFSPIPAMSMVSYASGARYLSLIGGTCLSFYDWYCDLPPASPMTWGEQTDVPESADWYNSSYIIAWGSNVPQTRTPDAHFFTEVRYKGTKTVAITPDYAEIAKLCDLWLAPKQGTDAAMALAMGHVMLREFHLDKPSQYFTDYVRRYTDMPMLVMLEERDGYYAAGRTLRASDLVDSLGQEKNPEWKTVAFDEKGDLTVPNGSLGFRWGDKGKWNLEQRDGKTGEEIELRLSLLGSHDEVADVGFPYFGGEGSEHFNKVALENILLHKLPVKRLQLADGSTALVTTVYDLTMANYGLERGLNDDNCAASYDEVKAYTPAWAEKITGVSRAHIIRTAREFADNADKTHGRSMIIVGAGLNHWFHLDMNYRGLINMLIFCGCVGQSGGGWAHYVGQEKLRPQTGWQPLAFALDWQRPARHMNSTSYFYNHSSQWRYESVTAQELLSPMADKSRYSGHLIDFNVRAERMGWLPSAPQLGVNPLRIADEAKKAGMTPVDYTVKSLKEGSIRFAAEQPENGKNHPRNLFIWRSNLLGSSGKGHEYMLKYLLGTENGIQGKDLGKQGGVKPEEVEWRDNGLDGKLDLVVTLDFRLSSTCLYSDIVLPTATWYEKDDMNTSDMHPFIHPLSAAVDPAWESKSDWDIYKGIAKKFSEVCVGHLGKETDVVTLPIQHDSAAEMAQPLDVKDWKKGECDLIPGKTAPHIIPVERDYPATYERFTSIGPLLETIGNGGKGIAWNTQSEMDLLRKLNYTKAEGPAKGQPKLETAIDAAEMILTLAPETNGQVAVKAWKALSEITGREHAHLALNKEDEKIRFRDIQAQPRKIISSPTWSGLEDEHVSYNAGYTNVHELIPWRTLSGRQSLYQDHQWMRDFGESLLVYRPPIDTRSVKAVMGEKSNGNPEKALNFLTPHQKWGIHSTYSDNLLMLTLSRGGPIVWMSEADAKDLGIEDNDWIEVFNANGALTARAVVSQRVPAGMTMMYHAQERIVNLPGSEVTGQRGGIHNSVTRITPKPTHMIGGYGHLAYGFNYYGTVGSNRDEFVVVRKMKNINWLDGEGNDQVQESVK	PGPT0000285_584	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000285-narG|narZ|nxrA-K00370	NA	NA
BMS020_00849	1389	narK_1	COG2223	Nitrate/nitrite transporter NarK	ATGAGTCAATCTTCCCTCCCGGAGAAGGCTAACCGCTCGGTCATTACCGACTGGCGGCCTGAAGATCCTGAATTCTGGCAACAGCGCGGCCACCATGTGGCGAGCCGCAATTTATGGATCTCCGTTCCCTGTCTGTTACTGGCGTTCTGCGTGTGGATGTTGTTCAGCGCCGTTGCCGTTAACCTCAACAAAGTGGGCTTTCAGTTTACGACCGATCAGCTGTTTATGCTGACCGCGCTGCCGGCGCTGTCAGGCGCTTTGTTGCGCGTGCCTTACGCTTTCATGGTACCGCTGTTCGGCGGCCGCCGCTGGACGGCGTTCAGTACCGGGATCATGATTGTGCCGTGCGTGTGGCTGGGCTTTGCGGTCCAGGATACCTCCACGCCGTTTAGCGTCTTCGTGATCATCTCTCTGCTGTGCGGCTTCGCCGGGGCCAACTTCGCCTCCAGTATGGCCAATATCAGCTTCTTCTTCCCGAAAGCGAAGCAGGGCGGGGCGCTGGGCGTTAACGGCGGCCTTGGTAATATGGGCGTCAGCGTGATGCAGCTGGTCGCGCCGCTGGTGGTGTCGGTCTCGGTGTTTGCCATTTTTGGCGGGACCGGCAGCGAGCAGCCGGACGGCTCAATGCTGTATCTGGAAAACGCCGCGTGGATCTGGGTACCTTTCCTGATTATTTTCACCCTGGCGGCGTGGTTCTTTATGAACGACCTGTCCGCTTCTAAAGCCTCGCTGAGCGAACAGCTGCCGGTGCTCAAACGCCTGCACCTGTGGATCATGGCGCTGCTCTATCTGGCGACCTTCGGCTCCTTTATCGGTTTCTCCGCCGGTTTCGCCATGCTGTCAAAGACCCAGTTCCCGGACGTGCAGATCCTGCACTACGCCTTCTTCGGTCCGTTTATTGGCGCGCTGGCGCGTTCGATGGGCGGGGCGATCTCCGACCGTCTCGGCGGTACCCGCGTGACGCTGGTCAACTTTGTGGTGATGGCTGTCTTCTGTGCGCTGCTGTTCCTGACCCTGCCGACCAACGGCCAGGGCGGTAACTTCATCGCCTTCTTCGCGGTGTTTATGGTGCTGTTCCTGACCGCCGGGCTGGGGAGCGCTTCCACCTTCCAGATGATCTCCGTGATCTTCCGTAAGCAGACCATGGACCGGGTGAAGGCCCAGGGCGGCAGCGAAGCCCAGGCGATGCGCGAGGCGGCGACCGATACCGCGGCGGCGCTGGGCTTTATCTCCGCCATTGGCGCCATCGGCGGCTTCTTTATTCCGAAGGCGTTCGGTATCTCGCTGGATCTGACCGGCTCGCCGGCCGGCGCGATGAAAGTCTTCCTGATCTTCTATATCGCCTGCGTGATCATCACCTGGGCGGTATACGGCCGTAAGCGTCAGTAA	MSQSSLPEKANRSVITDWRPEDPEFWQQRGHHVASRNLWISVPCLLLAFCVWMLFSAVAVNLNKVGFQFTTDQLFMLTALPALSGALLRVPYAFMVPLFGGRRWTAFSTGIMIVPCVWLGFAVQDTSTPFSVFVIISLLCGFAGANFASSMANISFFFPKAKQGGALGVNGGLGNMGVSVMQLVAPLVVSVSVFAIFGGTGSEQPDGSMLYLENAAWIWVPFLIIFTLAAWFFMNDLSASKASLSEQLPVLKRLHLWIMALLYLATFGSFIGFSAGFAMLSKTQFPDVQILHYAFFGPFIGALARSMGGAISDRLGGTRVTLVNFVVMAVFCALLFLTLPTNGQGGNFIAFFAVFMVLFLTAGLGSASTFQMISVIFRKQTMDRVKAQGGSEAQAMREAATDTAAALGFISAIGAIGGFFIPKAFGISLDLTGSPAGAMKVFLIFYIACVIITWAVYGRKRQ	PGPT0000300_1949	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000300-narK|nrtP|nrt|narU-K02575	NA	NA
BMS020_00850	1779	narX		Nitrate/nitrite sensor protein NarX	ATGTTAAAACGTCTTTTTACCCCGCTGACGCTGGTCAATCAACTGGCGTTGATCGTCCTGCTTGCCACCCTTACTGGCGTCGCCGGTATGGCGATCTCCGCGCGCCTGGTCAACGGCGTGCAGGGCAGCGCGCACGCCATTAACAAAGCCGGGTCATTACGCATGCAGAGCTACCGGCTGCTGGCGGCGATCCCGCTGAATGAACACGACCAAAAGCTGGTCGATGATATGACCGCCACCGTCTTCAGTCCGGAGCTGCAAAACTCCGCCCGCCGCGACGGGCAGGAGCGCCAGCTGCAGGCCCTGCAGCAGTACTGGCAGCTGGCGCTGGCTCCCGGCATGCAGCGCGCGGTCAACCAGGCGGAGGTCGCCCAGGATGTCGCCGACTTTGTCGATCGTATCGACCAGCTGGTCACCGCATTCGACCATACCACCGAGCAGCGTATCGAACGGGTGGTCTGGATCCATCGCCTCCTCGCCATCGGCATGGCGCTGCTGCTGATCTTCACCATCATCTGGCTACGCGCCCGCCTGCTGCGGCCATGGAAACAGCTGCTGAGCATGGCGCGAGCGGTGAGCCAGCGTGATTTCACCCAGCGGGCGCACATCAGCGGACGCAACGAAATGGCGACCCTCGGCATGGCGCTAAATAACATGTCGGAAGAGCTGGCGGAAAGCTACGCCGTGCTCGAGCGCCGGGTGCAGGAGAAGACCGCCGGGCTGGAACAGAAGAACGAGATCCTCGCTTTCTTATGGCAGGCCAACCGCCGGCTGCACGCCAACGCCCCGCTCTGTGAACGCATTTCGCCGGTGCTGAACGGCCTGCAGGGTCTGACGCTGCTGCGCGATATCGAGGTGCGGGTCTACGATCTGGAAGATGAAGACAACCATCAGGAGTTTACCTGCCACTCGGATAATGAATGTGACGACATGGGCTGCTACCTCTGCCCCCGCAACCTGCCGCCTCTGCCGGATGGCGGAACGACGCTGAAGTGGCGGCTGTCGGATGCGCATAATCAGTACGGCATCCTGCTGGCGACGCTGCCGGTTGGCCGTCATCTCAGCCACGATCAGCAGCAACTGGTGGATACTGTGGTTGAACAACTGACCAGCACCCTGGCGCTGGACCGCCATCAGGAGAAACAGCAGCAGCTGATCGTTATGGAAGAGCGGGCCACTATCGCCCGCGAGCTGCATGATTCCATCGCCCAGTCGCTATCCTGTATGAAGATGCAGGTCAGCTGCCTGCAGATGCAGGGCGACGCCTTGCCGGCGGAGAGCCGTCAGCTGCTGGGGCAGATACGTAACGAGCTGAATACCTCCTGGGCCCAGCTGCGTGAGCTGTTGACCACCTTCCGCCTGCAGCTGACCGAGCCGGGCCTGCGCCCGGCGCTGGAGGCCAGCTGTCAGGAGTACAGCGCCCACTTCGGCTTCACGGTGCAGCTTGATTATCAGCTCCCGCCGCGCTTTGTGCCGTCGCATCAGGCCATTCACCTGCTGCAGATCGCCCGCGAAGCGTTAAGCAATGCCCTGAAGCATGCCTGCGCGACCCAAGTCACCGTGACGGTGTCACAACGCGATAATCAGGTCCGTCTGGTGGTGGCGGATAACGGCCGCGGCGTGCCGGACCACGCCGAGCGGAGTAACCATTACGGTTTAATCATTATGCGGGATCGCGCGCAAAGCCTGCGCGGCGACTGTCAGGTTCGGCGCCGGGAAACCGGCGGGACCGAAGTGATCGTCACGTTTATCCCGGAAAAAACGTTTTCCATCCAATAA	MLKRLFTPLTLVNQLALIVLLATLTGVAGMAISARLVNGVQGSAHAINKAGSLRMQSYRLLAAIPLNEHDQKLVDDMTATVFSPELQNSARRDGQERQLQALQQYWQLALAPGMQRAVNQAEVAQDVADFVDRIDQLVTAFDHTTEQRIERVVWIHRLLAIGMALLLIFTIIWLRARLLRPWKQLLSMARAVSQRDFTQRAHISGRNEMATLGMALNNMSEELAESYAVLERRVQEKTAGLEQKNEILAFLWQANRRLHANAPLCERISPVLNGLQGLTLLRDIEVRVYDLEDEDNHQEFTCHSDNECDDMGCYLCPRNLPPLPDGGTTLKWRLSDAHNQYGILLATLPVGRHLSHDQQQLVDTVVEQLTSTLALDRHQEKQQQLIVMEERATIARELHDSIAQSLSCMKMQVSCLQMQGDALPAESRQLLGQIRNELNTSWAQLRELLTTFRLQLTEPGLRPALEASCQEYSAHFGFTVQLDYQLPPRFVPSHQAIHLLQIAREALSNALKHACATQVTVTVSQRDNQVRLVVADNGRGVPDHAERSNHYGLIIMRDRAQSLRGDCQVRRRETGGTEVIVTFIPEKTFSIQ	PGPT0000305_533	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	N-AQUISITION-NITRATE|NITRITE_SENSING,PGPT0000305-narX-K07673	NA	NA
BMS020_00851	651	narL	COG2197	Nitrate/nitrite response regulator protein NarL	ATGAGTCAACAGGAACGGGCAACCATCCTTCTCATTGACGACCATCCGATGCTGCGCACCGGCGTGAAACAACTGATCAGCATGGCGCCGGACATCCAGGTGATTGGCGAAGCCAGCAATGGCGCGCAAGGTATCGAGCTGGCGGAGTCGCTGGATCCGGACCTGATCCTGCTGGACCTCAATATGCCGGGCATGAACGGTCTGGAAACGCTGGACAAACTGCGTGAGAAATCGCTGTCTGGCCGGGTGGTGGTCTTCAGCGTCTCTAACCATGAAGAGGACGTTGTTACCGCCCTCAAGCGCGGTGCCGATGGCTATCTGTTGAAAGACATGGAGCCGGAAGATCTGCTGAAAGCGCTGCAGCAGGCCGCCGCCGGCGAGATGGTATTAAGCGAAGCGTTAACCCCGGTGCTGGCCGCAAGCCTGCGCGCCAACCGCGCCACCTCCGATCGCGACATCAGCCAGCTGACCCCGCGCGAGCGCGACATCCTCAAGCTGATCGCCCAGGGGCTGCCGAACAAAATGATAGCCCGCCGGCTGGATATCACCGAAAGCACCGTCAAAGTGCACGTCAAGCACATGCTGAAGAAAATGAAGCTCAAATCCCGGGTGGAAGCCGCGGTATGGGTCCACCAGGAGCGAATTTTTTAA	MSQQERATILLIDDHPMLRTGVKQLISMAPDIQVIGEASNGAQGIELAESLDPDLILLDLNMPGMNGLETLDKLREKSLSGRVVVFSVSNHEEDVVTALKRGADGYLLKDMEPEDLLKALQQAAAGEMVLSEALTPVLAASLRANRATSDRDISQLTPRERDILKLIAQGLPNKMIARRLDITESTVKVHVKHMLKKMKLKSRVEAAVWVHQERIF	PGPT0000550_1048	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	N-AQUISITION-NITRATE|NITRITE_SENSING,PGPT0000550-narL-K07684	NA	NA
BMS020_00852	1383			Invasin	ATGCCTGTGTCGTACCGTTTGCTGCCATCCCTGATCTTTCTCCTGCTGCTGCCGGGCGCTCCCGTCTGGGCGCTGACCGCCAGCGACACGGCTCTTACGCCCCAGGGAGAAGATCCCTTGCCTGATTTGGGGATCGCCCCGCAGGTCGATGACGACGCCAGACACTTTGCCGAAGTGGCGAAGAAATTCGGCGAGGCCAGCATGAGCGATAACGGACTGACGGCGGGCGAGCAGGCGCAGATGTTCGCCATCAACAAACTCGGCAATGAAGTGAGCCACCAGCTGGAGAGCTGGCTCTCGCCGTGGGGCAACGCCAATGTCGACCTGCTGGTCGATAAAGAGGGGAAGTTCACCGGCAGTAAAGGGAGCTGGTTCGTGCCATTGCAGGATAACGATCGCTACCTGACGTGGAACCAGTATTCGGTAACCCGGCGCGAGAACGATCTGGTGGGCAATATTGGGCTTGGCCAGCGCTGGCGGGTCGGCGGCTGGCTGCTGGGCTATAACTCGTTTTATGACAAGGTGCTGAGCGAAAGCCTGGCCCGCGGCAGCGTCGGCGCCGAGGCGTGGGGGGAATATCTCCGCCTGTCGGCGAACTACTATCATCCGCTGGGCGACTGGCAGCTGCGGGAGAATCAAACTCAGGAGCAGCGGATGGCCGCGGGGTATGACGTTACCGCCCAGGCGCGGCTGCCGTTTTATGAGCACATCAACACCAGCGTCAGCGTCGAACAGTACTTCGGCGACAGCGTCGATCTGTTTCACACCGGCACAGGCTACCATAACCCGGTGGCCGTCTCCGTCGGGCTCAATTATACCCCGGTCCCGCTGGTCACCGTGACCGCCAAGCATAAGCAAGGGGAAAATGGCGTCAGCCAGAACAACGTTGGCCTGAAGCTCAACTACCGCTTTGGCGTGCCGCTCAAGCAGCAGCTGGCGGCGGACGAGGTGGCGTTCAGTAACTCGCTGCGCGGCAGCCGCTTCGACAGCCCGGAGCGGGATAATCTGCCGGTGGTGGAGTATCGGCAGCGCAAAAATCTGACGGTCTACCTGGCCACGCCGCCCTGGGATCTACAGTCCGGGGAGACGGTGCAGCTGAAGCTGCAGATCCATAGTCTGCACGGCATCAAGTCGCTGCACTGGCAGGGCGACACCCAGGCGCTCAGCCTGACGCCGCCGGTGGATGCCAGCAGCCCCGATGGCTGGAGCGTGATTATGCCGGTGTGGAACAGTGAACCGGGCGCCGCGAACCGCTGGCGCCTGTCGGTGGTGGTAGAGGATAAACAGGGGCAGCGCGTCTCCTCCAATGAGATCGTCCTGACGCTGACCGAGCCGCTGATCAAGTTCACCGCGCCTGGCGTCTCGTGGACGGACTCGCCTTAA	MPVSYRLLPSLIFLLLLPGAPVWALTASDTALTPQGEDPLPDLGIAPQVDDDARHFAEVAKKFGEASMSDNGLTAGEQAQMFAINKLGNEVSHQLESWLSPWGNANVDLLVDKEGKFTGSKGSWFVPLQDNDRYLTWNQYSVTRRENDLVGNIGLGQRWRVGGWLLGYNSFYDKVLSESLARGSVGAEAWGEYLRLSANYYHPLGDWQLRENQTQEQRMAAGYDVTAQARLPFYEHINTSVSVEQYFGDSVDLFHTGTGYHNPVAVSVGLNYTPVPLVTVTAKHKQGENGVSQNNVGLKLNYRFGVPLKQQLAADEVAFSNSLRGSRFDSPERDNLPVVEYRQRKNLTVYLATPPWDLQSGETVQLKLQIHSLHGIKSLHWQGDTQALSLTPPVDASSPDGWSVIMPVWNSEPGAANRWRLSVVVEDKQGQRVSSNEIVLTLTEPLIKFTAPGVSWTDSP				NA	NA	NA	NA	NA
BMS020_00853	2607	nasA		Nitrate reductase	ATGAAGACCATCCGAACGACCTGTCCCTACTGCGGCGTAGGCTGCGGCGTGCTGGCGAGCGTGGATGACGCGGGTCAGGTGAGCGTGCGCGGCGACGATCAGCACCCGGCCAACCTCGGCCGCCTGTGCGTCAAAGGGGCGGCACTAGGGGAGACCACGGGCCTGGCGGGGCGGCTGCTGGCGCCGGAGGTGGACGGCCAGCCGGTGGCCTGGTCTCAGGCGCTGGCGGAGACCGCTTCCCGCCTGCAACAGGTTATCGACCAGCACGGTCCGCAGGCGGTGGCCTTCTACGCCTCCGGCCAGCTGTTAACGGAGGATTACTATGCCGCTAACAAGCTGATGAAGGGATTTATCGGCGCGGCGAACATCGACACCAATTCGCGGCTGTGCATGTCGTCGGCGGTGACCGGCTACAAGCGGGCCTTTGGCGCCGATGTGGTGCCCTGTAGCTATGAGGATGTGGAAAACAGCGATCTGGTGGTGCTGGTCGGCTCGAACGCCGCCTGGGCGCACCCGGTGCTGTACCAGCGTCTGGCGCAGGCGAAGCGGGATAATCCCCGGCTGCAGATCGTGGCGATCGACCCCCGGCGCACTGCCACCTGCGAGATCGCCGATCGCCATCTGGCGCTGGCGCCGGGAAGCGACGGCGGGCTGTTCGTGGGGTTGCTTAACGCCCTGGCGCAGGCCGGGGGCTGCGTCGACGGTTTTCGCGACGGCCCGCAGGCGCTGGCCGCCGCCCGCGGCTGGGACGTGGCGAAAGTGGCGGCTTTTTGCGGCCTGCCCGCCGATGAGGTGGCGGGTTTCTATCGCGATTTTATCGCCGCCCCGCGGGCCATCACCCTCTACACCATGGGAATTAACCAGTCAGCCAGCGGCAGCGACAAATGTAATGCCATCATCAACGTTCATCTGGCCAGCGGAAAGTATGGCCGCCGCGGCTGCGGCCCCTTTTCGCTGACCGGTCAACCCAACGCCATGGGCGGGCGCGAAGTCGGCGGGTTGGCGACGATGCTGGCGGCGCACATGGATTTTGTGCCAGACGATCTGCAGCGTCTGGCCCGCTTTTGGGGAACCGAGCGACTGGCGCAGACCCCGGGGCTGACCGCCGTGGAGTTGTTTGCCGCCATCGGCCGCGGCGAGGTGAAAGCGGTGTGGATCATGGGCACCAACCCGGTGGTGTCGCTCCCCGACAGCCACGCGGTGAGCCAGGCGCTGGCCGGCTGTCCGCTGGTGATCGTCTCGGATGTCGCCGCTGAGACGGATACCGGACAATTCGCCCACATTCGCTTTCCGGCGCTGGCCTGGGGCGAGAAAAATGGCACGGTCACCAACTCGGAGCGGCGCATCTCCCGTCAGCGTAGCTTCCTGCCGCCGCCGGGGGAGGCGAAAGCGGACTGGTGGATCATCGCCAGAGTAGGGCAGGCGCTGGGGTATCGCGAGGCGTTTGCCTGGCAGCATCCGCATGACGTCTTCCGCGAGCATGCGGCGCTGTCCGGTTTCGAAAACGACGGCCAGCGGGCGTTTGATATCGGCGCGCTGGCGGATCTCAGCCGCGAGGCATGGGACGCCATGGCGCCGGTACGCTGGCCGGTCAGCCGCCGCCGCGCCGCCTGGGATGTCACGCGCGGCTGGCATAGCGATGGCAGGCTGCGGATGGTGCCAGTGACGCCTCAGCCGACCCGGGCGGCAACCGATGCCTTTTATCCGCTGATCCTCAACAGCGGGCGGATCCGCGATCAGTGGCACACCATGACCCGCACCGGCGCCGTGCCGCGGCTGATGCAGCATATCGCGGAGCCGGTGGTGGAGGTGGCGCCGCAGGACGCCGTTCGCTACCAGCTTGTCGCCGGCGGGCTGGCGCGGATCTGGTCGCGCCATGGGGTGATGGTGGCGAAAGTGGCGATCAGCGAAGGCCAGCGCCCCGGCTCGCTGTTTGTCCCAATGCACTGGAACAATCAGTTCGCCCGCCAGGGGCGGGTGAATAATCTGCTGGCCGCCGTCACGGACCCGCATTCCGCCCAGCCGGAAAGTAAACAGGCGGCGGTGGCCATCGCCCCCTGGCAGCCTGCCTGGCATAGCGAACTGTTTTGTCGCGAACCGCTGCCGTTTCCTGCGGCCTGGCACTGGCGGCGGCGGGCGGCGGCGGGCGTATTGCACTACTCGCTGGCCGGGGAGGCGTCAGCCCGGCAGTGGCTCAGCGTCTGGTGCGCGCAGCGCGGCTGGCAGCTGCAGATAGCAGACGGCGGCGCGGTGTGGAACCTGCTGGCGTGGCATCAGGGGAGGCTGATGCTGGGCTGGTGGAGCGATGCGCGCGAGCCGGCGGTGGATAGCGCAGGGATAAGCGCCGCCTTCGCCGCGCCGCCGTCCGATGCCGCCCGGCGCCATGTGTTGCTCAGCGGCCGACCGGACGCCGCCGCCGCGCCGCCGGGGCGGATCGTCTGCAGCTGTTTTGGGGTGGGGGAGCGGGCGATCGGCGAGGCCATCGCCAGCGGCTGCGCCAGCGTTGGGGCTTTGGGCGCCAGGCTTAAGTGCGGGACCAACTGCGGCTCCTGCGTGCCGGAGCTCAACGCGCTGCTGACGGCGCAACCGGCCCGCGCCGGGGCGTAA	MKTIRTTCPYCGVGCGVLASVDDAGQVSVRGDDQHPANLGRLCVKGAALGETTGLAGRLLAPEVDGQPVAWSQALAETASRLQQVIDQHGPQAVAFYASGQLLTEDYYAANKLMKGFIGAANIDTNSRLCMSSAVTGYKRAFGADVVPCSYEDVENSDLVVLVGSNAAWAHPVLYQRLAQAKRDNPRLQIVAIDPRRTATCEIADRHLALAPGSDGGLFVGLLNALAQAGGCVDGFRDGPQALAAARGWDVAKVAAFCGLPADEVAGFYRDFIAAPRAITLYTMGINQSASGSDKCNAIINVHLASGKYGRRGCGPFSLTGQPNAMGGREVGGLATMLAAHMDFVPDDLQRLARFWGTERLAQTPGLTAVELFAAIGRGEVKAVWIMGTNPVVSLPDSHAVSQALAGCPLVIVSDVAAETDTGQFAHIRFPALAWGEKNGTVTNSERRISRQRSFLPPPGEAKADWWIIARVGQALGYREAFAWQHPHDVFREHAALSGFENDGQRAFDIGALADLSREAWDAMAPVRWPVSRRRAAWDVTRGWHSDGRLRMVPVTPQPTRAATDAFYPLILNSGRIRDQWHTMTRTGAVPRLMQHIAEPVVEVAPQDAVRYQLVAGGLARIWSRHGVMVAKVAISEGQRPGSLFVPMHWNNQFARQGRVNNLLAAVTDPHSAQPESKQAAVAIAPWQPAWHSELFCREPLPFPAAWHWRRRAAAGVLHYSLAGEASARQWLSVWCAQRGWQLQIADGGAVWNLLAWHQGRLMLGWWSDAREPAVDSAGISAAFAAPPSDAARRHVLLSGRPDAAAAPPGRIVCSCFGVGERAIGEAIASGCASVGALGARLKCGTNCGSCVPELNALLTAQPARAGA	PGPT0000390_911	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000390-nasA|nasC|narB-K00372	NA	NA
BMS020_00854	4068	norW_1		Nitric oxide reductase FlRd-NAD(+) reductase	ATGACGCGGCGACTGGTGGTGATCGGTAACGGCATGGCGGCCACCCGGCTGGTGCAGCGGCTGGTTGAGCGCGACCCTGCGCGGTTTGCCATTACCGTCGTCGGCGACGAGCCGCACCCGGCCTATAACCGCATCCAGCTCTCGCCGCTGCTGGCTGGCGAAACAACGGCATCGCAGATCCCGTTGCTACCGGCGGAGTGGTACACCCGGCACGGGGTGTGTCTGCGGTCTGGCGAGGCGGTGGATGAAGTGGATGTTGCGCAACGGCGGCTGCGCATCGCTGACGCCTGGCTGCCGTGGGACGAGCTGGTTTTCGCCACCGGCTCGCGGCCCTTTATCCCGCCGCTGCCGGGCATTGATCGTCCGCAGGTTATGCCCTTCCGCACCCTGGCGGACGTGGAACGTATTCTGGCGATACCCGGCCCGGCGGTGGTGATTGGCGGTGGGGTTCTGGGCGTGGAAGCGGCGGCGGCGCTGCGTCGCCGCGGCGGGGAGGTCACACTCCTGCATCGCGGGAGCGGCTTAATGGCGCCGCTGATCGACGCCTTTGCCGCCGATGAGCTCAGGCAGCAGCTTGAAGCGCGCGGTATTCGCTGCGTGCTGGAGTGCCGGATCGCCGCCATCGACGCCGACGGCGTGCGGCTGGCGGACGGGCGCGTATTCCGCGCCGCCAGAGTGGTGCTGGCGACCGGCGTGCAGCCCAACAGCCGTCTGGCGGCGCAGTCCGGCGTGCTGTGCCAGCAGGGGATCGTGGTTGACCGCCAGATGGCCGCCTCGCTGCCGGGGATCAGCGCCATTGGCGAGTGTTGCGAAATTGACGGCCAGACCTGGGGGCTGGTGGCTCCCTGCCTGCGCCAGGCCGAGGTGCTGGCGGATCGCCTGTGCGGCGCCCCCGGCGAGGGCTTTGTCTGGCAGGACGCCGGGACCCGCCTGAAGGTCACCGGCATTGAACTCTTTAGCGTCGGCGAACAGCAGGCCAGCGAACAGGATGACATCTATACCAGCTGGGATCCCATCGACCGGCACTATCGTCGCCTGCTGCTGCGCGACGGCCGCCTGCGCGGCGTGCTGCTGATGGGCGACTGTACCACCGCCGCCGCGCTCACCGCGCGCCTGGAAAGCGACGAGCCCGCCACCGCGGACTGGCTTTTTGACCCTTCTTCAACGCAGCCGAAGGCTGCAGGAATAATGACGATGACGAAACCTGTATTAGTGCTGGTGGGACATGGCATGGTCGGCCACCATTTTCTCGAACAATGCGTGAGCCGCAACCTGCATCAGCAATATCGTATCGTGGTGTTTGGCGAAGAGCGTTACGCCGCCTACGACCGGGTGCATCTCTCCGAATATTTCGCCGGACGCAGCGCCGAATCGCTGTCGCTGGTGGCCGATGATTTCTTTCACCAGCACGGCATCGAACTCCGCCTCGGCAAGGCGGTGGCGACGATCGACCGCGACGCCCGGCTGGTGCGGGACGCCGAGGGGCATGAAACCCACTGGGATAAACTGGTGCTGGCGACCGGCTCCTATCCCTTTGTTCCGCCGATCCCTGGCAACGATCTCGACGGGTGCTTTGTCTATCGTACCCTTGACGATCTCGACCGTATCGCCGCCCATGCCGCCGCGGCGAAGACCGGGGTGGTGATCGGGGGCGGCCTGCTCGGACTGGAGGCCGCCAACGCCCTGAAACAGCTGGGGCTGGAGACGCACGTGGTGGAGTTTGCCCCGAACCTGATGGCCGTCCAGTTGGATAACGGCGGGGCGGCGATGCTGCGGGAGAAGATCGTCGCCCTCGGCGTGGGGGTGCATACCAGCAAAGCCACCACCGCCATCGTGCGCGAGGCCGACGGCCTGCGGCTGAACTTTGCCGACGGCGGCACGCTGGCGGCCGACATGGTGGTCTTCTCGGCAGGGATCCGCCCGCAGGACGCGCTGGCCCGCAGCTGCGCGCTGCAGGTTGGCGAGCGCGGGGGGATTGGCATCGACGGCCAGTGCCGCACCACTGACCCGGACGTGCTGGCGATAGGCGAATGCGCCCTGTGGGATAATAAAATTTACGGCCTGGTGGCGCCGGGTTATCAGATGGCGCGGATCGCCGCGGCCACCCTCGCAGGAGAGGACGCCTGCTTTAGCGGCGCCGACATGAGCACCAAACTGAAGCTGCTGGGGGTTGACGTAGCCTCGTTTGGCGATGCGCAGGGGCGCACGCCGGGCTGCCAGAGCTATCAATGGACCGACGGTCCGCAGCAGGTTTACAAAAAAATCGTCGTCAGTCAGGACGGCAAAGCCCTGCTTGGCGGCGTGCTGGTGGGGGACGCCAGCGACTACGCCACGCTGCTGCAGATGATGCTGAACGGCATGGCGCTGCCGCCGCGTCCGGAGAGCCTGATCCTGCCGGCGCTGGAGGGGGCCGCGCCGAAGGCGCTGGGGGTGGCGGCGCTGCCCGACAGCGCGCCGATCTGCTCCTGCCATAGCGTCAGCAAAGGCGATATCTGCCAGGCGGTGAACAATGGCGCGGGGGATATGGCGGCGATAAAAAGCTGCACCAGAGCGGCCACCGGCTGCGGCGGCTGCAGCGCGCTGGTGAAACAGGTGATGGAGCACCAGCTGGCGGCGCAGGGCGTCGAAGTGAAAAAAGACGTCTGCGAGCATTTCCCGTGGTCGCGTCAGGAGATCTACCATCTGGTGCGGGTCAACCATATCCATACCTTCGAGCAGCTGATTAGCCGCTACGGCCAGGGGCACGGCTGCGAGGTTTGTAAACCGCTGGTGGCCTCGGTGCTGGCCTCCTGCTGGAACGAATACCTGCTGAAGCCGGCGCACCTGCCGCTGCAGGATACCAACGACCGCTATTTCGCCAACATTCAGAAGGACGGCACCTATTCGGTGGTGCCGCGGATGGCGGCAGGGGAAGTGACCCCGGACGGGCTGATCGCCATCGGGCAGATCGCCAAACGTTACCAGCTCTACAGCAAAGTGACCGGCGGCCAGCGCATCGACCTGTTTGGCGCGCGGCTGGAACAGCTGCCGGCGATCTGGCGCGAGCTGGCCGACGCCGGGTTTGAAACCGGCCACGCCTATGGCAAGTCGCTGCGCACGGTGAAGTCCTGCGTCGGCGCAACCTGGTGTCGCTACGGCGTGCAGGACTCCACCGGGCTCGCGGTGCGGCTCGAGCATCGCTATAAAGGGCTGCGCGCCCCGCACAAAATCAAGATGGCGGTCTCCGGCTGCACCCGCGAGTGCGCCGAAGCCCAGGGCAAAGATATCGGGGTGATTGCCACCGACAAAGGCTGGAATCTCTACGTCTGCGGCAACGGCGGAATGAAGCCGCGTCACGCCGACCTGTTTGCCAGCGACCTCGACGAAGCGACGCTGATCCGCAGCATCGATCGTCTGCTGATGTTCTATATCCGCACCGCCGATCGCCTGCAGCGGACCAGCACCTGGATGGACAACCTGGAGGGCGGCGTGGCCTACCTGCGGCAGGTGGTGCTGGAGGACAGCCTCGGCATTGGCGAGGAGCTGGAACAGGAGATGGCCCGCATCGTCGACAGCTACCAGTGCGAGTGGCAGACCACCCTCAACGATCCCCAGCGCCTGGCGCTGTTCCGCTCCTTCGTGAACAGCGACCAGCCCGACGAGGCGGTGCAGCGCCACGATCTGCGCGGTCAGCCGCAGCCGTTGCCTGCTGAAGCGTTGTCTGAAGGCGAACTCCCATCCCGGCCGTGGCAGGCGATTTGCGACCTTGACGCCATCCCGGCGCAGGCGGGGATCGGCGCCCGGTTAGGGGAGCGGCAGATCGCCCTGTTCCGCTTTGGCGATCGGGTGTATGCCCTGGACAACCGCGAGCCGGGCAGCGCGGCCAACGTGTTGTCGCGGGGGCTGTTAGGGGACGTCGGCGGGGAACCGGTGGTGATCTCCCCGCTGTACAAACAGCGGATTCGCCTGCGCGACGGCTGGCCGTGCGACGGCGGTGAACAGGCAGTGCGCGCCTGGCCGGTGAAAGTGGAAAACGGCAAAGTGTGGGTGGGCAGCCAGCAGCTGCTGGCGCGAGCGGAGGCCTCCTGA	MTRRLVVIGNGMAATRLVQRLVERDPARFAITVVGDEPHPAYNRIQLSPLLAGETTASQIPLLPAEWYTRHGVCLRSGEAVDEVDVAQRRLRIADAWLPWDELVFATGSRPFIPPLPGIDRPQVMPFRTLADVERILAIPGPAVVIGGGVLGVEAAAALRRRGGEVTLLHRGSGLMAPLIDAFAADELRQQLEARGIRCVLECRIAAIDADGVRLADGRVFRAARVVLATGVQPNSRLAAQSGVLCQQGIVVDRQMAASLPGISAIGECCEIDGQTWGLVAPCLRQAEVLADRLCGAPGEGFVWQDAGTRLKVTGIELFSVGEQQASEQDDIYTSWDPIDRHYRRLLLRDGRLRGVLLMGDCTTAAALTARLESDEPATADWLFDPSSTQPKAAGIMTMTKPVLVLVGHGMVGHHFLEQCVSRNLHQQYRIVVFGEERYAAYDRVHLSEYFAGRSAESLSLVADDFFHQHGIELRLGKAVATIDRDARLVRDAEGHETHWDKLVLATGSYPFVPPIPGNDLDGCFVYRTLDDLDRIAAHAAAAKTGVVIGGGLLGLEAANALKQLGLETHVVEFAPNLMAVQLDNGGAAMLREKIVALGVGVHTSKATTAIVREADGLRLNFADGGTLAADMVVFSAGIRPQDALARSCALQVGERGGIGIDGQCRTTDPDVLAIGECALWDNKIYGLVAPGYQMARIAAATLAGEDACFSGADMSTKLKLLGVDVASFGDAQGRTPGCQSYQWTDGPQQVYKKIVVSQDGKALLGGVLVGDASDYATLLQMMLNGMALPPRPESLILPALEGAAPKALGVAALPDSAPICSCHSVSKGDICQAVNNGAGDMAAIKSCTRAATGCGGCSALVKQVMEHQLAAQGVEVKKDVCEHFPWSRQEIYHLVRVNHIHTFEQLISRYGQGHGCEVCKPLVASVLASCWNEYLLKPAHLPLQDTNDRYFANIQKDGTYSVVPRMAAGEVTPDGLIAIGQIAKRYQLYSKVTGGQRIDLFGARLEQLPAIWRELADAGFETGHAYGKSLRTVKSCVGATWCRYGVQDSTGLAVRLEHRYKGLRAPHKIKMAVSGCTRECAEAQGKDIGVIATDKGWNLYVCGNGGMKPRHADLFASDLDEATLIRSIDRLLMFYIRTADRLQRTSTWMDNLEGGVAYLRQVVLEDSLGIGEELEQEMARIVDSYQCEWQTTLNDPQRLALFRSFVNSDQPDEAVQRHDLRGQPQPLPAEALSEGELPSRPWQAICDLDAIPAQAGIGARLGERQIALFRFGDRVYALDNREPGSAANVLSRGLLGDVGGEPVVISPLYKQRIRLRDGWPCDGGEQAVRAWPVKVENGKVWVGSQQLLARAEAS	PGPT0000450_55	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362	NA	NA
BMS020_00855	789	nrtD_2	COG1116	Nitrate import ATP-binding protein NrtD	ATGAAACCATTAATTCAGGTGCAGGCCGTCAGCCAGCGCTTCAATACCGCCAGCGGCGAGTTTCTGGCGCTACAGAATGTCTCCTTCGATATCGTCGAAGGGGAGACCATTAGCCTGATCGGCCACTCGGGGTGCGGAAAATCGACCCTGCTGAATCTGATCGCCGGGATCACGACCCCTACCGAGGGCGGACTGCTGTGCGATAACCGGGAAATCGCCGGGCCCGGGCCGGAGCGGGCGGTGGTTTTCCAGAACCACTCGCTGCTGCCGTGGCTGAGCTGTTTCGACAATGTGGCGCTGGCGGTGGATCAGGTGTTCCGTCGCACCATGAGCAAGCATGAGCGTCGGGAGTGGATTGAACACAACCTCGCGCGCGTGCAGATGGGTCATGCGCTGCATAAACGGCCCGGGGAGATCTCCGGCGGCATGAAGCAGCGGGTGGGTATCGCCCGGGCGCTGGCAATGAAGCCGAAAGTGCTGCTGCTTGATGAGCCCTTCGGCGCCCTGGACGCGCTGACCCGCGCTCACCTCCAGGACACGGTGATGCATATCCAGCAGGAGCTCAATACCACCATCGTCATGATCACCCACGACGTTGATGAAGCGGTGCTGCTCTCCGACCGGGTGCTGATGATGACCAACGGCCCGGCGGCGACGGTCGGCGAGATCCTCGCGGTCGATCTGCCGCGTCCGCGCCATCGCGTTCAGCTGGCGGACGACAGCCGGTACCACCATCTGCGCCAGCAGATCCTCCATTTCCTGTATGAAAAACAGCCGAAAGCGGCATAA	MKPLIQVQAVSQRFNTASGEFLALQNVSFDIVEGETISLIGHSGCGKSTLLNLIAGITTPTEGGLLCDNREIAGPGPERAVVFQNHSLLPWLSCFDNVALAVDQVFRRTMSKHERREWIEHNLARVQMGHALHKRPGEISGGMKQRVGIARALAMKPKVLLLDEPFGALDALTRAHLQDTVMHIQQELNTTIVMITHDVDEAVLLSDRVLMMTNGPAATVGEILAVDLPRPRHRVQLADDSRYHHLRQQILHFLYEKQPKAA	PGPT0000575_956	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRTATE|NITRITE_TRANSPORT,PGPT0000575-nasD|nrtC-K15578	NA	NA
BMS020_00856	885	cmpB		Bicarbonate transport system permease protein CmpB	ATGAAGCAGGCACAACGTAAGCAACCGGTCGTCAGCGTGGAGAACGCGCCTGGCGAAGTCATTATCCTGCCGCCGGTGCAGGTCCGGCGCACCACGCCGACCGTCACGCTCTGGCTGCGTGAGCTCACCCAGCGCCTGCTGCCCCCGCTGCTGGGGCTGGGGGTGCTGCTGCTGGCCTGGCAGCTGGCGGCGATGCACAGCAAAGGCTTTCCCACCCCGCTGAGCACGCTGGACTCGGCGCTGACGCTGTTCGCCGATCCGTTCTATCAGGACGGGCCGAATGACATGGGGATCGGCTGGAACGTGCTGGCCTCCCTGCAGCGCGTGGCGGTGGGCTTCGGCCTGGCGGCGCTGGCGGGCATTCCGCTGGGGTTTTTGATCGGCCGCTCGCTGTTCTTCGCCCGCATGTTTAATCCGCTGATTGCTCTGCTGCGCCCGGTCAGCCCGCTGGCCTGGCTGCCGATTGGCCTGCTGCTGTTCCAGAAGGCGGAGCCAGCCTCCAGCTGGACCATTTTTATCTGCTCCATCTGGCCGATGGTGATCAACACCGCGGAAGGCGTGCGGCGGATCCCGCAGGACTATCTCAACGTCGCCCGCGTCCTCCAGCTCTCAGAGTGGACGGTGATGCGCAAAATTCTCTTTCCGGCGGTGCTGCCGGCGGTGCTCACCGGCGTGCGCCTCTCCATCGGCATCGCCTGGCTGGTGATCGTTGCGGCGGAAATGCTCACCGGCGGGCTGGGGATCGGCTTCTGGATCTGGAACGAGTGGAACAACCTCAATGTGGAAAACATCATCATCGCCATCGTCATTATCGGCGTCGTCGGCCTGCTGCTGGAGCAGGGCCTGATGCTGCTCGCCCGCCGCTTTAGCTGGCAGGACAAATAA	MKQAQRKQPVVSVENAPGEVIILPPVQVRRTTPTVTLWLRELTQRLLPPLLGLGVLLLAWQLAAMHSKGFPTPLSTLDSALTLFADPFYQDGPNDMGIGWNVLASLQRVAVGFGLAALAGIPLGFLIGRSLFFARMFNPLIALLRPVSPLAWLPIGLLLFQKAEPASSWTIFICSIWPMVINTAEGVRRIPQDYLNVARVLQLSEWTVMRKILFPAVLPAVLTGVRLSIGIAWLVIVAAEMLTGGLGIGFWIWNEWNNLNVENIIIAIVIIGVVGLLLEQGLMLLARRFSWQDK	PGPT0000580_569	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRTATE|NITRITE_TRANSPORT,PGPT0000580-nasE|nrtB|cynB-K15577	NA	NA
BMS020_00857	1257	nrtA		Nitrate/nitrite binding protein NrtA	ATGAGCGATAAGTTTTCAATTTCACGGCGGCGCTTGCTGCAGGCAGGGGCCGCGCTGGGCGGGGCGATGCTGCTGCCGGGCGTGATGCAGGCCGCATGGGCCGGCGGCTCGGACAGACCGGAGCAAACCACCGTGCGGGTAGGGTTTATTCCGCTGACCGACTGTGCGCCGCTGGCCATCGCCGCGGCGAAGGGGTTTGACAAAAAATATGGCATTACCCTGGCGCCGAGTAAGGAGGCCAGCTGGGCGGCGGTGCGCGACAAGCTGGTGGCCGGTGAACTGGACGCGGCGCATATTCTCTATGGCCTGCTGTACGGTCTTGAACTGGGGATCGCCAGCAAGCCGCAGGCGATGGCTAATCTGATGACCCTCAACCGCAATGGTCAGGCCATCACCCTCTCCAGCGAACTGCAGGAGAAAGGGGTGACCGACCTCGGCGGACTGAAACGGCTGATCGACCGCAGCGCGCCGGGCAGCTACACCTTCGCCCATACCTTTCCCACCGGCACCCATGCCATGTGGCTTTACTACTGGCTGGCGAGCGCCGGCATCGATCCCTTTAACGATGTGCGCACCGTCGTCGTGCCGCCGCCGCAGATGGTGATGAACATGCGCATCGGCAATATGAGCGGCTTTTGCGTCGGCGAGCCGTGGAACGCCCGCGCCATTAACGACCGTATCGGCTTCACCGCGGCCACTTCCCAGGATATCTGGCCTGAGCATCCGGAAAAGGTGCTGGGCGCCCGTCGCGACTGGGTGGAACGCCACCCGAACACCGCCCGCGCGCTGGTGGCAGCCCTGATGGAGGCGCAGCGCTGGATCGCCGCCTCGGCGGAGAACACCCGGGAGACGGCCCGCCTGCTCGCCAGACGCGGCTGGCTCAATACCAAAGAGCAGTACCTCACCGGCCGGATGCTTGGGGAGTATGACAACGGCCTCGGCCGCCGCTGGCAGGATGCCCATCCGATGCGTTTTTACGCCGAGGGAGAGGTGAGCTTTCCCTGGCTGTCGGACGGGATGTGGTTCCTCACCCAGTTTCGTCGCTGGGGGCTGCTGAAGCAGGCTCCGGATTACCTCGCGGTGGCGTCGCGTCTTAACCGCATCGACGTCTGGCAGGCGGCCGCCCAGGCGGTCGGCGGGATCAGCACACCGGCAGCCACGATGCGCAGCAGCACACTGATGGACGGTACGGTCTGGAACGGGTCTGACCCGGAAGGCTACGCCCGCCATTTCGCTATTCAACGTAAGGGGGCATGA	MSDKFSISRRRLLQAGAALGGAMLLPGVMQAAWAGGSDRPEQTTVRVGFIPLTDCAPLAIAAAKGFDKKYGITLAPSKEASWAAVRDKLVAGELDAAHILYGLLYGLELGIASKPQAMANLMTLNRNGQAITLSSELQEKGVTDLGGLKRLIDRSAPGSYTFAHTFPTGTHAMWLYYWLASAGIDPFNDVRTVVVPPPQMVMNMRIGNMSGFCVGEPWNARAINDRIGFTAATSQDIWPEHPEKVLGARRDWVERHPNTARALVAALMEAQRWIAASAENTRETARLLARRGWLNTKEQYLTGRMLGEYDNGLGRRWQDAHPMRFYAEGEVSFPWLSDGMWFLTQFRRWGLLKQAPDYLAVASRLNRIDVWQAAAQAVGGISTPAATMRSSTLMDGTVWNGSDPEGYARHFAIQRKGA	PGPT0000585_941	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRTATE|NITRITE_TRANSPORT,PGPT0000585-nasF|nrtA|cynA-K15576	NA	NA
BMS020_00858	1182	nasR		Nitrate regulatory protein	ATGAATAATACGACTGGTCACGCGGACGAGGCGACGGCCTGGCTGCAGCTGGCGCGCCGCCTGCAAAAACAACAGCTTCAGCAACTTTCCCGGCTGGGCGAGCTGGCAAGTCAGCTCAGCGCGCTGGTGCATATGCTGCAGTGCGAGCGCGGGGCGTCGAATATTTTTCTTTGCTCGGGCGGTCAGCTGTACGCGGCGGAGTGTCGGGCGGGTGGGGCGCTGGTTGATGAGCGGCTGGCCTTGTTCTATGCCGCCCTCGAACGGGCGCGCGCGGTCGCCGGCAGCGCGCTGTGCTGGCGCATCGCCCGGGCGGTGGGCGATCTGGCGCAGCTCCCGGCGCTGCGTGAGCAGGTCAGCCGCCGGCAGGTCGCCGCTGAAGCCGCGACGGAGCAGTTCAGCCGTATTATCCGCCATCTGCTGAATATCGTCCCGCAGCTCAATGACAGCATTGACGACCCGTCGGTAGCCGGGCGTATGGTCGCCCTGTACAGCTTTATGCAGGGAAAAGAGCTGGTGGGCCAGGAGCGCGCGCTGGGAGCATTGGGCTTTACCCGCGGCGAGTTCAGCGACAGCCTGCGCCAGCAGCTGGTGGACCGTATTGACGGTCAGCAGCCCTGCTTTGACAGCTTCCAGGCGCTGGGCAGTCCGGCGACGGTCCAGCTGTTTACGACCGAGTGCCAGGCCGGTCTGGACATCGAGCAACTGCGGCGGATCGCCTGCACCCGCCAGCCGGCGGCGGACGGCGGGGAAACGGCGCTGCGCTGGTTCGGCCTGCAAACCCAGCGGCTTGAGCAACTGCGCGAAGTGGAAGAGCAACTGATCGACGATCTGCTGGACGCCACCGACGCGCTGTTAGAAGACGACGCGCCTGGCTGGCTGGCCGGGGAGGAGAGCGACAGCGTGACGCCGCGGCTGGATAAACAGCTGCTGCCGCTGGTGCGCCAGCAGGCCTATGAGCTGCAGCAGCTCTCCAGCCAGCTGGCTTCGCTGAAAGACGCGCTCGAGGAACGCAAGCTGATCGAAAAAGCGAAAAGCCTGCTGATGACTCACCAGGGGATGCCGGAGGAGCAGGCCTGGCAGACGCTGCGCAAGATGGCCATGGACAAGAATCAGCGGATGGTTGAGATAGCCCGCGCGCTGCTGATGGTGAAGGCGATCTGGCCATTAACCCCAAAGGAGTAG	MNNTTGHADEATAWLQLARRLQKQQLQQLSRLGELASQLSALVHMLQCERGASNIFLCSGGQLYAAECRAGGALVDERLALFYAALERARAVAGSALCWRIARAVGDLAQLPALREQVSRRQVAAEAATEQFSRIIRHLLNIVPQLNDSIDDPSVAGRMVALYSFMQGKELVGQERALGALGFTRGEFSDSLRQQLVDRIDGQQPCFDSFQALGSPATVQLFTTECQAGLDIEQLRRIACTRQPAADGGETALRWFGLQTQRLEQLREVEEQLIDDLLDATDALLEDDAPGWLAGEESDSVTPRLDKQLLPLVRQQAYELQQLSSQLASLKDALEERKLIEKAKSLLMTHQGMPEEQAWQTLRKMAMDKNQRMVEIARALLMVKAIWPLTPKE				NA	NA	NA	NA	NA
BMS020_00859	354	ychN	COG1553	Protein YchN	ATGCAACGTATTGTGATTATCGCCAACGGCGCCGCCTACGGCAGTGAATCCCTGTTCAACAGCCTGCGCCTGGCCATTGCCCTGCGAGAACAGCAGTCCGACCTCGATCTCAAGCTGTTTTTGATGTCCGACGCCGTCACCGCCGGGCTGCGCGGGCAAAAGCCGGCGGAAGGGTATAATGTGCAGCAGATGCTGGAAATCCTCACCGCCCAGCAGGTTCCCGTGAAGCTGTGCAAGACCTGCGCGGACGGCCGCGGGGTCAGCGCACTGCCGCTGGTTGATGGGGTGGAGGTTGGCACTCTCGTTGAGCTGGCCCAGTGGACCCTGGCGGCAGATAAAGTGCTGACCTTCTAA	MQRIVIIANGAAYGSESLFNSLRLAIALREQQSDLDLKLFLMSDAVTAGLRGQKPAEGYNVQQMLEILTAQQVPVKLCKTCADGRGVSALPLVDGVEVGTLVELAQWTLAADKVLTF				NA	NA	NA	NA	NA
BMS020_00860	243			hypothetical protein	ATGGCGATGGTAAAAGCAAGTTTGACGTTGTTTGGCGGTGACACGCTGGTGGTGCGGTGCTCAGAGCGCTGCCATATTCATCTGATGAGCGCGAAGGTTCCTGGCGACAGCCATGCGGATATTCTGAGCGTGCAGGATCGGGACAGCGCCTATCTGACGGTGCCCTACAGCGGCACCTGGAACGTGCTTATCGACAGTCACAGCCAGTCACTGGAGCACTCCATCAGCTACGTTCCGGCCTGA	MAMVKASLTLFGGDTLVVRCSERCHIHLMSAKVPGDSHADILSVQDRDSAYLTVPYSGTWNVLIDSHSQSLEHSISYVPA				NA	NA	NA	NA	NA
BMS020_00861	681	chaC	COG3703	Glutathione-specific gamma-glutamylcyclotransferase	GTGTTAACTCGTGATTTCTTGATGAATGCGGATTGTAAGACAGCGTTTGGCGCTATTGAGGAATCGCTACTCTGGTCGGCAGAACAACGCGCAGCCTCGCTGGCGGCGACGCTGGCCTGCCGCCCGGATGATGGCTCAGTATGGATCTTTGGCTACGGTTCGCTTATCTGGAACCCGGCGCTCAATTATCGCGAGTCCTGCACTGGCACGCTGCCGGGCTGGCACCGCGCGTTTTGCCTGCGGTTGACCGCCGGGCGCGGGAGCGCCTGCCAGCCGGGACGCATGCTGGCCCTGAAAGAGGGCGGTCGAACCACCGGCGTCGCTTATCGTCTGCCGGACGACACGCTGGAAGAAGAGCTGACGCTGCTGTGGAAACGGGAGATGATTACCGGCTGCTATCTGCCCACCTGGTGCAAGCTGGAGCTGGACGACGGGCGGACGGTAAATGCGCTGGTGTTTATTATGGATCCGCGTCATCCGCTGTTTGAGCCGGATACCAGCGCCCAGGTCATTGCTCCGCTGATCGCCCGGGCCAGCGGGCCGCTCGGCACCAACGCCCAGTACCTGTTTTCGCTGGAGCAGGCGTTGAGTAAGCTCGGGATGCACGACGCCAGTCTTGATGATCTGGTGGCCAGCGTCCGCGCGCTGTTGGGCGACAGCCCGACGCCGGGCCTGGCCTGA	MLTRDFLMNADCKTAFGAIEESLLWSAEQRAASLAATLACRPDDGSVWIFGYGSLIWNPALNYRESCTGTLPGWHRAFCLRLTAGRGSACQPGRMLALKEGGRTTGVAYRLPDDTLEEELTLLWKREMITGCYLPTWCKLELDDGRTVNALVFIMDPRHPLFEPDTSAQVIAPLIARASGPLGTNAQYLFSLEQALSKLGMHDASLDDLVASVRALLGDSPTPGLA				NA	NA	NA	NA	NA
BMS020_00862	231	chaB	COG4572	Putative cation transport regulator ChaB	ATGCCCTATAACAGTAAACAAGAGCTCCCCGACAGCGTTCAGCATGTTCTGCCTGCCCATGCGCAGGAAATTTATAAAGAAGCGTTTAACAGCGCCTGGGATCAATATAAAGATAAAGACGAGCGGCGCGATGACGCCAGCCGTGAAGAGACGGCGCACAAAGTCGCCTGGGCGGCGGTGAAGAACAGCTACGAGAAAGGCGATGACGATAAGTGGCATAAGAAAAAATAA	MPYNSKQELPDSVQHVLPAHAQEIYKEAFNSAWDQYKDKDERRDDASREETAHKVAWAAVKNSYEKGDDDKWHKKK	PGPT0014390_24	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CATION_TRANSPORT,PGPT0014390-chaB-K06197	NA	NA
BMS020_00863	177			hypothetical protein	ATGACCTCCTGTTTGAGCATAAAATTTAAGTCTGGAACGCAGGCGGCAGGCTATCAAGCCGATGATGAGTTAAAAATAAATTTTAGTAATTATCTGAATAGTAAGTATAAAAATAGCGTAATCGCAAATTATAATAAACTAATCAAGATATCTCTCGATACCCGTAAACTTAAGTAA	MTSCLSIKFKSGTQAAGYQADDELKINFSNYLNSKYKNSVIANYNKLIKISLDTRKLK				NA	NA	NA	NA	NA
BMS020_00864	1101	chaA	COG0387	Sodium-potassium/proton antiporter ChaA	ATGACCCATGCACATGAGGCGGTAAAAACCCGCCATAAGGAGTCTTCCCTCGTCTTTCCGGTGCTGGCGCTGGCAGTGCTGTTTTTCTGGGGCAGCAGCCAGTCACTGCCAGTGGTTATCGCGATTAATATCCTCGCGCTGGTCGGTATTTTAAGCAGCGCCTTCAGCGTGGTCCGCCACGCCGACGTCCTCGCCCACCGCCTGGGCGAACCCTACGGCTCCCTGATTCTCAGCCTGTCGGTGGTTATCCTTGAGGTCAGTCTGATCTCCGCGTTGATGGCCACCGGCGACGCCGCGCCGACCCTGATGCGTGATACGCTCTACTCCATCATTATGATCGTCACCGGCGGTCTGGTCGGTTTCTCCCTGCTGCTGGGCGGGCGTAAATTCGCCACCCAATATATGAATCTGTTCGGCATTAAGCAGTATCTTATCGCCCTGTTTCCGCTGGCGATTATCGTGCTGGTGTTTCCCATGGCGCTGCCGGGCGCGAACTTCAGCACCGGGCAATCGCTGCTGGTGGCGGTGATTTCGGCGGCCATGTACGGCGTTTTCCTGCTTATTCAGACCAAAACCCATCAGAGTCTGTTTGTTTATGAGCATGAAGACGACGGCGATGATGACGACCCGCACCACGGTAAACCGTCCGCCCACAGCAGCGGGTGGCATACCGCCTGGCTGCTGGTGCACCTGGTGGCGGTGATCGCCGTCACTAAAATGAACGCCAACCCGTTGGAAACGCTGTTGACCAGCATGAATGCCCCGGTGGCCTTCACCGGCTTCCTCGTGGCCTTGCTGATCCTGTCGCCGGAAGGCCTTGGCGCGCTCAAAGCGGTGCTCAACAATCAGGTACAGCGGGCGATGAACCTGTTCTTCGGCTCCGTGCTGGCCACCATCTCGCTGACGGTCCCGGTGGTCACCCTCATCGCCTTCCTGACCGGCAATGAGCTGCGCTTTGGCCTTGGCGCGCCGGAGATGGTGGTGATGGTCGCCTCGCTGGTGCTGTGTCATATCTCCTTCTCCACCGGACGCACCAATGTGCTGAACGGCGCGGCCCATCTGGCGCTGTTCGCCGCCTACCTGATGACCATTTTCGCCTGA	MTHAHEAVKTRHKESSLVFPVLALAVLFFWGSSQSLPVVIAINILALVGILSSAFSVVRHADVLAHRLGEPYGSLILSLSVVILEVSLISALMATGDAAPTLMRDTLYSIIMIVTGGLVGFSLLLGGRKFATQYMNLFGIKQYLIALFPLAIIVLVFPMALPGANFSTGQSLLVAVISAAMYGVFLLIQTKTHQSLFVYEHEDDGDDDDPHHGKPSAHSSGWHTAWLLVHLVAVIAVTKMNANPLETLLTSMNAPVAFTGFLVALLILSPEGLGALKAVLNNQVQRAMNLFFGSVLATISLTVPVVTLIAFLTGNELRFGLGAPEMVVMVASLVLCHISFSTGRTNVLNGAAHLALFAAYLMTIFA	PGPT0013985_1768	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013985-chaA-K07300	NA	NA
BMS020_00865	855	kdsA_1	COG2877	2-dehydro-3-deoxyphosphooctonate aldolase	ATGAAACAAAAAGTGGTTAGCATTGGTGATATCAACGTAGCGAACGACCTGCCGTTCGTGCTGTTCGGCGGGATGAACGTGCTGGAGTCACGCGATCTGGCGATGCGCATCTGCGAACATTACGTCACCGTTACGCAGAAGCTTGGCATCCCCTACGTCTTCAAAGCCTCCTTTGATAAAGCCAACCGTTCCTCCATCCACTCCTATCGTGGGCCGGGTCTGGAAGAAGGGATGAAGATTTTCCAGGAGCTGAAGCAGACCTTTGGCGTGAAAATCATCACCGACGTTCATGAAGCCAGCCAGGCGCAGCCGGTGGCTGACGTCGTGGACGTGATCCAGCTTCCCGCCTTCCTCGCGCGCCAGACTGACCTGGTGGAAGCGATGGCCAAAACCGGAGCGGTGATCAACGTCAAGAAACCGCAGTTCGTCAGCCCGGGCCAGATGGGTAACATCGTCGATAAATTCATCGAAGGTGGTAACGACAAAGTGATCCTCTGCGACCGCGGCGCGAACTTCGGTTACGACAACCTGGTGGTGGATATGCTCGGCTTCGGCGTGATGAAGAAGGCCTCCAACAACTCGCCGGTTATCTTCGACGTCACCCACGCGCTGCAGTGCCGCGACCCGTTTGGCGCTGCCTCCGGCGGTCGCCGCGCGCAGGTGAGCGAGCTGGCCCGCGCTGGTATGGCGGTGGGTATCGCCGGTCTGTTTATCGAAGCGCATCCGGATCCGGACCACGCGAAATGCGACGGCCCGTCCGCGCTGCCGCTGGATAAACTGGAGCCGTTCCTCAAGCAGATGAAAGCGATTGACGATCTGGTGAAAAGCTTCGACGAGCTGGATACCAGCAAGTAA	MKQKVVSIGDINVANDLPFVLFGGMNVLESRDLAMRICEHYVTVTQKLGIPYVFKASFDKANRSSIHSYRGPGLEEGMKIFQELKQTFGVKIITDVHEASQAQPVADVVDVIQLPAFLARQTDLVEAMAKTGAVINVKKPQFVSPGQMGNIVDKFIEGGNDKVILCDRGANFGYDNLVVDMLGFGVMKKASNNSPVIFDVTHALQCRDPFGAASGGRRAQVSELARAGMAVGIAGLFIEAHPDPDHAKCDGPSALPLDKLEPFLKQMKAIDDLVKSFDELDTSK	PGPT0023060_474	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-8-AMINO-3|8-DIDEOXY_D_MANNO-OCTULOSONIC_ACID_MODIFICATION,PGPT0023060-kdsA-K01627	NA	NA
BMS020_00866	813			hypothetical protein	ATGGGGTCATTAGCGGATTTCGAATTTAACAAAGCGCCATTGTGTGATGGCATGGTCCTCATTTCTGAACAGGTCCGCGACGATTTTCCGACGCGTTTTGTCGAGGAAGAGCTGCAGCGGCTGCTGCGCCTCGCGCAGGAGGAGATTGCGCCTTCGTGGGACCAGGAACGCCAGATAGAACGCCTGCTGGCGCTGTTTTACGAGGAGTGGGGCTTTGGCGCCTCGCAGGGCGTTTATCGTCTATCCGACGCGCTATGGCTCGATAAAGTGCTGGTCAACCGCCAGGGGAGCGCGGTGTCATTAGGCGCGATCCTGCTGTGGATCGCCCAGCGCCTGGGGCTGCCGGTGGTGCCGGTGATCTTCCCGACCCAGATGCTGCTGCGCGCGGACCCGGAAACCAGCGAAGAGATGTGGCTGATTAATCCGTTCAACGGCGAAACCCTCGACGAACATACCCTGGAGGTATGGCTGAAGGGCAACATCGGGCCGGTGGCGGAACTGTTTAATGAAGATCTCGACGAAGCGGATAACGCCGAGGTGATCCGCAAGCTGCTGGACACCCTGAAGTCGGCGCTGATGGAAGAGCGGCAGATGGAGCTGGCCCTGCGCGCCAGCGAAGCGCTGCTGCAGTTTAACCCGGAAGATCCGTATGAGATCCGCGACCGCGGGCTGATATACGCCCAGCTGGATTGCGATCACGTGGCGCTGCTGGACCTGAGCTATTTTGTCGAGCAGTGTCCGGAGGATCCGATCAGCGAGATGATCCGCGCACAAATCAACACGATTTCGCACAAACAAATTACATTGCATTAG	MGSLADFEFNKAPLCDGMVLISEQVRDDFPTRFVEEELQRLLRLAQEEIAPSWDQERQIERLLALFYEEWGFGASQGVYRLSDALWLDKVLVNRQGSAVSLGAILLWIAQRLGLPVVPVIFPTQMLLRADPETSEEMWLINPFNGETLDEHTLEVWLKGNIGPVAELFNEDLDEADNAEVIRKLLDTLKSALMEERQMELALRASEALLQFNPEDPYEIRDRGLIYAQLDCDHVALLDLSYFVEQCPEDPISEMIRAQINTISHKQITLH				NA	NA	NA	NA	NA
BMS020_00867	393	ychQ	COG3094	Protein YchQ	ATGAACTTATTCACGGCTGTCCTCTACCTGCACATCGCCAGCGTGGTGGTGTCGGTAGGATTGTTCGTTTTACGTTACTGGTGGATGTATCACCAGAGCCCGCTGCTGAACCAGCGGTGGGTGCGAATTGCGCCGCACTGCAGCGATACGCTGCTGTTTCTCAGCGGTGCGGGATTAATGGCGATAACGCACTACCTGCCGTTCACAGAAGACGGCGCATGGCTGACTGAAAAGCTGTTTGGCGTTATCATTTACATCGCATTAGGTTTTATCGCGCTGGGCCGTCGTCGTCCGCGCAGCCAGCAGAGCCGCTTTATCGCGTTCCTGCTGGCGCTGGTGGTGTTGTTTATCATTATTCAACTCGCCATCACAAGAATACCGATACTGGGGTAG	MNLFTAVLYLHIASVVVSVGLFVLRYWWMYHQSPLLNQRWVRIAPHCSDTLLFLSGAGLMAITHYLPFTEDGAWLTEKLFGVIIYIALGFIALGRRRPRSQQSRFIAFLLALVVLFIIIQLAITRIPILG				NA	NA	NA	NA	NA
BMS020_00868	849	prmC_1	COG2890	Release factor glutamine methyltransferase	ATGACCTTTCAGGCCTGGCTGCAGCAGGCAATCGCCCGCCTGGCGGAGAGCGACAGTCCGCGACGCGACGCCGAGATCCTGCTAGGACACGTCACCGGTCGGGCGCGCACCTGGATCCTGGCCTTCGGCGAAACGACGCTGTCCGCCGACGAGGCGACGACGCTGGAGGCGCTCCTGCAGCGACGCCAGCGCGGGGAGCCCATCGCCCATCTGGTCGGGCAGCGGGAGTTCTGGTCGCTGCCGCTGTTTGTCTCCCCGGCGACGCTGATCCCCCGCCCGGATACCGAATGTCTGGTGGAGCAGGCGCTGGCGCGTCTGCCCGTCGCGGCGTGCCGTATTCTCGACCTCGGCACCGGGACCGGCGCCATTGCCCTGGCGCTGGCCAGCGAACGTCCTGACTGTGAAGTGATCGCGGTGGACGTGATGCCGGACGCCGTGGCGCTGGCGTTGCGTAATGCCGCTCATCTGGGCATTGCTAACGTGACGATACGGCAAAGCGACTGGTTCAGTGCGCTGGCCGGGCAGCGCTTCGCCATGATCGTCAGCAATCCCCCCTATATCGACGCCGCCGACCCGCATCTTGCCGAAGGCGATGTGCGTTTTGAACCGTTGACGGCGCTGGTGGCAGGCGACCAGGGGCTGGCCGATCTGGCGCAGATTATCCGCGAGGGGCGGCAGTATCTGCAGCCCGGCGGCTGGATGCTGCTGGAGCATGGCTGGACCCAGGGCGAAGCGGTACGCGCCTTGTTCCGCGAGGCGGGCTATCTGGATGTCGCGACCTGCCGCGACTATGGCGACAATGAGCGTCTGACCCTCGGACGTTTACCCGACATGGAGAACGTTGGCTGA	MTFQAWLQQAIARLAESDSPRRDAEILLGHVTGRARTWILAFGETTLSADEATTLEALLQRRQRGEPIAHLVGQREFWSLPLFVSPATLIPRPDTECLVEQALARLPVAACRILDLGTGTGAIALALASERPDCEVIAVDVMPDAVALALRNAAHLGIANVTIRQSDWFSALAGQRFAMIVSNPPYIDAADPHLAEGDVRFEPLTALVAGDQGLADLAQIIREGRQYLQPGGWMLLEHGWTQGEAVRALFREAGYLDVATCRDYGDNERLTLGRLPDMENVG				NA	NA	NA	NA	NA
BMS020_00869	1083	prfA_1	COG0216	Peptide chain release factor RF1	ATGAAGTCTTCTATTGTTGCCAAACTGGAAGCGTTGTACGAGCGCCACGAAGAAGTGCAGGCGCTGCTCGGCGATGCCGCGACGATTGCCGATCAGGATAAATTCCGCGCGCTGTCGCGGGAGTATGCTCAACTAAGCGATGTGGCGCGCTGCTATACCGACTGGCGTCAGGTGCAGGAGGATATTGAAACCGCGCAGATGATGCTCGACGATCCGGAAATGCGCGAAATGGCGCAGGAAGAGCTGCGCGACGCCAAAGATAAAGGCGAACAGCTGGAGCAACAGCTACAGGTCCTGCTCCTGCCGAAAGATCCTGATGACGAGCGTAACGCCTTCGTGGAAGTGCGCGCCGGGACCGGCGGCGACGAAGCGGCGCTGTTTGCCGGCGATCTGTTCCGCATGTACACCCGTTACGCGGAATCGCGCCGCTGGCAGGTGGAGATCCTCAGCGCCAACGAAGGTGAACACGGCGGCTTTAAAGAGGTGATCGCCAAGATCAGCGGCGACGGCGTCTATGGCCGGCTCAAATTTGAATCCGGCGGCCATCGCGTGCAGCGCGTGCCGGCCACCGAGTCGCAGGGGCGTATCCACACCTCCGCCTGTACGGTGGCGGTGATGCCGGAGCTGCCGGAGGCGGAAATGCCGGATATCAACCCGGCGGATCTGCGCATCGATACGTTCCGTTCCTCCGGCGCGGGCGGTCAGCACGTTAACACCACCGACTCGGCGATCCGTATTACCCACCTGCCCACCGGCATCGTGGTGGAGTGTCAGGACGAACGTTCCCAGCATAAAAACAAAGCCAAGGCGCTGTCGGTGCTGGGGGCGCGGATCCGCGCCGCCGAAGTGGCCAAGCGTCAGCAGGCGGAAGCCTCCACGCGCCGCAACCTGCTGGGCAGCGGCGACCGCAGCGATCGCAACCGTACCTACAACTTCCCGCAGGGCCGCGTGACCGACCACCGCATCAACCTGACCCTTTACCGTCTCGATGAGGCGATGGAGGGCAAACTCGACATGCTGATTGAGCCGATTGTCCAGGAACACCAGGCCGATCAGCTGGCGGCGCTGTCCGAGCAGGAATGA	MKSSIVAKLEALYERHEEVQALLGDAATIADQDKFRALSREYAQLSDVARCYTDWRQVQEDIETAQMMLDDPEMREMAQEELRDAKDKGEQLEQQLQVLLLPKDPDDERNAFVEVRAGTGGDEAALFAGDLFRMYTRYAESRRWQVEILSANEGEHGGFKEVIAKISGDGVYGRLKFESGGHRVQRVPATESQGRIHTSACTVAVMPELPEAEMPDINPADLRIDTFRSSGAGGQHVNTTDSAIRITHLPTGIVVECQDERSQHKNKAKALSVLGARIRAAEVAKRQQAEASTRRNLLGSGDRSDRNRTYNFPQGRVTDHRINLTLYRLDEAMEGKLDMLIEPIVQEHQADQLAALSEQE				NA	NA	NA	NA	NA
BMS020_00870	1257	hemA_1	COG0373	Glutamyl-tRNA reductase	ATGACCCTTTTAGCTCTTGGCATCAATCACAAAACAGCGCCGGTCGCCCTGCGAGAACGCGTTGCGTTTTCGCCGGAAACGCTCGATAAGGCGCTGGAGAGCTTGCTGGCTCAGCCGATGGTGCAGGGTGGGGTGGTGCTGTCGACCTGCAACCGCACGGAACTCTATCTCAGCGTAGAAGAGCAGGATAACCTGCAGGAAGCGCTGATCCGCTGGCTGTGCGATTACCACGGCCTCAATGAAGAAGACCTGCGTAAAAGCCTCTACTGGCACCAGGATAACGATGCCGTCAGCCATCTGATGCGCGTCGCCAGCGGCCTTGATTCGCTGGTGCTGGGCGAACCGCAGATCCTCGGTCAGGTGAAAAAAGCCTTCGCCGATTCCAGCCGCGGCCATCTTAACGTCAGCGAACTGGAGCGGATGTTCCAGAAATCGTTCTCGGTGGCCAAGCGCGTGCGTACCGAAACCGATATCGGCGCCAGCGCCGTTTCCGTCGCGTTCGCCGCCTGTACCCTGGCGCGGCAAATCTTTGAATCCCTGTCGAGCGTGACGGTGCTGCTGGTCGGCGCCGGTGAAACCATCGAACTGGTGGCGCGCCATCTTCGCGAACATCACGTGCGCAAAATGGTGATCGCCAACCGCACTCGTGAACGCGCCCAGGCGCTGGCGGAAGAAGTGGGCGCCGAGGTGATTGCCCTCAGCGATATCGACGAACGGCTGAAAGAGGCCGACATCATTATCAGCTCCACCGCCAGCCCGCTGCCGATCATCGGCAAAGGCATGGTGGAGCGTGCGCTCAAGGCGCGGCGCAACCAGCCGATGCTGCTGGTGGATATCGCCGTCCCGCGCGACGTCGAACCGGAGGTCGGCAAACTGGCTAACGCTTACCTCTACAGCGTCGACGATCTGCAAAACATCATTCAGCATAACCTGGCGCAGCGTAAGGCCGCGGCGGTGCAGGCGGAATCGATCGTCGAGCAGGAGACCAGCGAATTTATGGCCTGGCTGCGCGCGCAGAGCGCCAGCGAGACCATTCGCGAATACCGTTCTCAGTCCGAGCAGGTCCGTGAGGAGCTGACGGCGAAGGCGCTGGCCGCGCTGGAGCAGGGCGGTGATGCCCAGGAAATTATGCAGGATCTGGCGCGTAAGCTCACCAACCGCCTGATCCACGCGCCAACCAAATCACTTCAGCAGGCCGCCCGTGACGGGGACGACGAACGCCTGCATATTCTGCGCAACAGCCTCGGGCTGGAATAG	MTLLALGINHKTAPVALRERVAFSPETLDKALESLLAQPMVQGGVVLSTCNRTELYLSVEEQDNLQEALIRWLCDYHGLNEEDLRKSLYWHQDNDAVSHLMRVASGLDSLVLGEPQILGQVKKAFADSSRGHLNVSELERMFQKSFSVAKRVRTETDIGASAVSVAFAACTLARQIFESLSSVTVLLVGAGETIELVARHLREHHVRKMVIANRTRERAQALAEEVGAEVIALSDIDERLKEADIIISSTASPLPIIGKGMVERALKARRNQPMLLVDIAVPRDVEPEVGKLANAYLYSVDDLQNIIQHNLAQRKAAAVQAESIVEQETSEFMAWLRAQSASETIREYRSQSEQVREELTAKALAALEQGGDAQEIMQDLARKLTNRLIHAPTKSLQQAARDGDDERLHILRNSLGLE	PGPT0003650_3147	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003650-hemA-K02492	NA	NA
BMS020_00871	612	lolB_1	COG3017	Outer-membrane lipoprotein LolB	ATGAATCGACTGTTCCGCCTGCTGCCGCTGGCCAGCCTCGTCCTGACCGCTTGTTCTGTTCATACCCCCGAGGGGCCTGGCAAAAGCCCGGATTCGCCGCAGTGGCGCCAGCACCAGCAGGCTGTTCGCAGCCTCAACCAGTTCCAGACCCGCGGGGCGTTTGCCTATCTCTCCGATGAGCAAAAAGTCTATGCCCGCTTCTTCTGGCAGCAGACCGGCCAGGACCGCTATCGCCTGCTGCTGACCAACCCACTGGGCAGCACCGAGCTGTCGCTGACCGCGCAGCCTGGCAGCGTGCAGTTGATCGACAACAAAGGCCAGACCTACACCGCCACCGATGCCGAAGAGATGATTGGCCGCCTGACCGGGATGCCGATCCCGCTGAACAGCCTGCGCCAGTGGATCATCGGCCTGCCGGGCGACGCCACCGACTATTCGCTGGACGATCGGTACCGTCTGCGTGAACTGAACTACACGCAAAACGGCAAAACCTGGCACGTCACCTACGGCGGCTACACCAGCGATACCCAGCCCGCCCTGCCGTCTAATGTCGAGCTGAACAATGGCGCCCAGCGCATCAAGCTGAAGATGGATAACTGGATCGTGAAATGA	MNRLFRLLPLASLVLTACSVHTPEGPGKSPDSPQWRQHQQAVRSLNQFQTRGAFAYLSDEQKVYARFFWQQTGQDRYRLLLTNPLGSTELSLTAQPGSVQLIDNKGQTYTATDAEEMIGRLTGMPIPLNSLRQWIIGLPGDATDYSLDDRYRLRELNYTQNGKTWHVTYGGYTSDTQPALPSNVELNNGAQRIKLKMDNWIVK	PGPT0024480_859	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024480-lolB-K02494	NA	NA
BMS020_00872	852	ispE_1	COG1947	4-diphosphocytidyl-2-C-methyl-D-erythritol kinase	ATGATGAGCCGCTGGCCCTCACCTGCAAAACTGAATCTGTTTTTATATATCACCGGCCAGCGGGCTGATGGTTACCACACCCTGCAGACGCTGTTTCAGTTCCTCGACTACGGCGATACGCTGACCATCGAACCGCGCGCTGACGGCGAACTGCGCCTGCTGACGCCGGTGGCCGGGGTGCCGGACGAAGAGAATCTGATCGTTCGCGCCGCGCGTCTGCTGATGCGCGCCGCCGGCGAAAGCGGCCGCCTGCCGGCGGGCAGCGGCGCCGATATCAGTATCGATAAGCGCCTGCCGATGGGCGGCGGTCTGGGGGGCGGCTCGTCCAATGCCGCCACCGTGCTGGTGGCGCTCAACCATCTCTGGGGCTGCGGACTCTCGGAAGATGAGCTGGCGACCCTTGGCCTGCAGCTGGGGGCCGATGTGCCGGTCTTTGTGCGCGGCCATGCCGCCTTTGCCGAGGGGGTGGGTGAAATTCTGACGCCGGTGGAGCCTGAGGAAAAATGGTACCTGGTGGCCCATCCGGGCGTCAGTATTCCGACGCCGATCATTTTTCGCGACCCGGAGCTACCACGAAATACCCCGCGCCGGTCAATTAATACGTTATTAAATTGTGAATTCAGCAACGATTGCGAGCTTATCGCAAGAAAACGTTTTCGCGAGGTTGATGCCGCGCTTTCCTGGCTGTTAGAATATGCGCCGTCACGCCTGACCGGCACAGGGGCCTGTGTGTTTGCTGAATTTAACACCGAATCCGCTGCCCGTCAGGTGCTGGACACTGCCCCGGCATGGCTAAATGGCTTTGTGGCGCGCGGAGTAAACCTCTCGCCGCTCAAGCAGGCCCTGCTCTGA	MMSRWPSPAKLNLFLYITGQRADGYHTLQTLFQFLDYGDTLTIEPRADGELRLLTPVAGVPDEENLIVRAARLLMRAAGESGRLPAGSGADISIDKRLPMGGGLGGGSSNAATVLVALNHLWGCGLSEDELATLGLQLGADVPVFVRGHAAFAEGVGEILTPVEPEEKWYLVAHPGVSIPTPIIFRDPELPRNTPRRSINTLLNCEFSNDCELIARKRFREVDAALSWLLEYAPSRLTGTGACVFAEFNTESAARQVLDTAPAWLNGFVARGVNLSPLKQALL	PGPT0007605_3302	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007605-ispE-K00919	NA	NA
BMS020_00873	948	prs_1	COG0462	Ribose-phosphate pyrophosphokinase	GTGCCTGATATGAAGCTTTTTGCTGGTAACGCCACCCCGGAACTAGCACAACGTATTGCCAACCGCCTGTACACTTCTCTTGGCGACGCCGCTGTAGGTCGTTTTAGCGACGGCGAAGTCAGCGTACAAATCAATGAAAACGTACGCGGTGGTGATATTTTCATCATCCAGTCCACTTGTGCTCCCACCAATGACAACCTGATGGAACTGGTTGTTATGGTTGATGCTCTGCGTCGTGCTTCGGCAGGTCGTATCACCGCCGTTATCCCTTACTTCGGTTATGCTCGTCAGGACCGTCGTGTTCGTTCTGCTCGTGTGCCAATCACCGCGAAAGTGGTGGCAGATTTCCTGTCCAGCGTCGGCGTTGACCGCGTGCTGACCGTTGACCTGCACGCAGAACAGATCCAGGGCTTCTTCGATGTGCCAGTTGATAACGTGTTCGGCAGCCCAATCCTGCTGGAAGATATGCTGCAGCTGAACCTGGACAACCCGATCGTGGTTTCTCCGGACATCGGCGGCGTGGTTCGTGCTCGCGCTATCGCTAAACTGCTGAACGATACCGATATGGCTATCATCGACAAGCGCCGTCCGCGCGCCAACGTCTCCCAGGTGATGCATATCATCGGCGACGTCGCGGGTCGTGACTGCGTGATGGTCGACGATATGATCGACACCGGCGGCACCCTGTGTAAAGCGGCAGAAGCGCTGAAAGAGCGCGGCGCGAAACGCGTATTCGCCTACGCGACGCACCCGATCTTCTCCGGCAACGCTATCCAGAACATTAAAAACTCTGTGATCGATGAATTTGTCGTCTGCGATACCATTCCGCTGGCACCAGAAATTAAAGCGCTGGATAAAGTGCGTACTCTGACGCTCTCCGGTATGCTGGCTGAAGCTATTCGCCGTATCAGCAATGAAGAATCAATCTCTGCTATGTTCGAACATTAA	MPDMKLFAGNATPELAQRIANRLYTSLGDAAVGRFSDGEVSVQINENVRGGDIFIIQSTCAPTNDNLMELVVMVDALRRASAGRITAVIPYFGYARQDRRVRSARVPITAKVVADFLSSVGVDRVLTVDLHAEQIQGFFDVPVDNVFGSPILLEDMLQLNLDNPIVVSPDIGGVVRARAIAKLLNDTDMAIIDKRRPRANVSQVMHIIGDVAGRDCVMVDDMIDTGGTLCKAAEALKERGAKRVFAYATHPIFSGNAIQNIKNSVIDEFVVCDTIPLAPEIKALDKVRTLTLSGMLAEAIRRISNEESISAMFEH	PGPT0021480_4433	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021480-prsA-K00948	NA	NA
BMS020_00874	1653	dauA_1	COG0659	C4-dicarboxylic acid transporter DauA	ATGCCTTTCCGCGCCCTCATCGACGCTTGCTGGAAAGAAAAGTACACCACTGCCCGCTTTACCCGCGACCTGATCGCCGGGATCACCGTCGGGATCATTGCGATTCCGCTGGCGATGGCGCTGGCGATTGGCAGCGGTGTGCCGCCGCAGTACGGCCTCTATACCTCAGCGGTGGCAGGGATTGTGATCGCCTTAACCGGCGGGTCGCGCTTTAGCGTTTCCGGACCGACCGCCGCCTTTGTGGTGATCCTCTATCCGGTTTCCCAGCAGTTCGGCCTGGCGGGGCTGCTGGTGGCGACACTGATGTCGGGGATCTTTTTAATGCTTTTCGGCCTGGCGCGCTTTGGCCGCCTGATCGAATATATCCCGCTGTCGGTCACCCTCGGCTTCACCTCCGGGATCGGTATCACCATCGGTACCATGCAGATTAAAGATTTCCTCGGCCTGCAGATGCCCCATGTGCCGGAGCATTATCTGCAGAAAGTGGCGGCGCTGGCGATGGCCCTGCCGACCATTAACGTCGGGGACGCCGCCATCGGCGTCGTCACCCTCGGCACCCTGATCCTCTGGCCGCGGCTGGGTATCCGTCTGCCGGGCCACCTCCCGGCGCTGCTGGCCGGCTGTGGGGTGATGCTGGTCGTCAACTTGCTCGGCGGCGATGTGGCGACGATCGGCTCGCAGTTCCACTATCAGCTGGCGGACGGCACTCAGGGCAACGGCATTCCGCAGCTGCTGCCGCAGCTGGTACTGCCCTGGGATATGCCGGGTTCCAACTTTACCCTGAGCTGGGCTTCGCTGCAGGCGCTGCTGCCCGCGGCTTTCTCCATGGCGATGCTGGGCGCTATTGAATCTCTGCTGTGCGCGGTGGTGCTCGACGGCATGACCGGTACCAAACATAAAGCCAACAGCGAGCTGATTGGCCAGGGGCTGGGCAACATCGTTGCGCCGTTCTTCGGCGGGATCACTGCCACCGCGGCGATTGCCCGCTCGGCGGCGAACGTCCGCGCCGGCGCCACATCGCCGATCGCCGCCGTGATCCACGCCCTGCTGGTGATCATGGCGCTGCTGATCCTCGCCCCGCTGCTCTCCTGGCTGCCGCTGTCGGCGATGGCCGCCCTGCTGCTGATGGTGGCATGGAACATGAGCGAGGCGCATAAAGTCATCAATCTGCTGCGCCACGCGCCGAAGGACGACATCGTGGTGATGCTGATGTGCATGTCGCTGACGGTGCTGTTTGATATGGTGATCGCCATCAGCGTCGGGATTGTGCTGGCTTCGCTGTTATTTATGCGCCGTATCGCGCGCATGACCCATCTGGCGCCGGTCAACGTCGAAGTGCCAGACGACGTGCTGGTGCTGCGGGTGATCGGTCCGCTGTTCTTTGCCGCCGCCGAAGGTCTATTCAACGACCTGGAGACCCGGATCGCCGGCAAGCGCATCGTGGTGCTGAAGTGGGACGCGGTGCCGGTTCTCGACGCCGGCGGTCTGGATGCCTTCCAGCGCTTTGTGAACAAGCTGCCGGAAGGCTGCGAATTGCGCGTATCTAACCTCGAATTTCAGCCGCTACGCACGTTAGCGCGCGCCGGTGTCAAGCCGCTGCCCGGACGCCTGAGCTTCTACCCCGATCGTCAGGCCGCGCTGGCTGACCTGTGA	MPFRALIDACWKEKYTTARFTRDLIAGITVGIIAIPLAMALAIGSGVPPQYGLYTSAVAGIVIALTGGSRFSVSGPTAAFVVILYPVSQQFGLAGLLVATLMSGIFLMLFGLARFGRLIEYIPLSVTLGFTSGIGITIGTMQIKDFLGLQMPHVPEHYLQKVAALAMALPTINVGDAAIGVVTLGTLILWPRLGIRLPGHLPALLAGCGVMLVVNLLGGDVATIGSQFHYQLADGTQGNGIPQLLPQLVLPWDMPGSNFTLSWASLQALLPAAFSMAMLGAIESLLCAVVLDGMTGTKHKANSELIGQGLGNIVAPFFGGITATAAIARSAANVRAGATSPIAAVIHALLVIMALLILAPLLSWLPLSAMAALLLMVAWNMSEAHKVINLLRHAPKDDIVVMLMCMSLTVLFDMVIAISVGIVLASLLFMRRIARMTHLAPVNVEVPDDVLVLRVIGPLFFAAAEGLFNDLETRIAGKRIVVLKWDAVPVLDAGGLDAFQRFVNKLPEGCELRVSNLEFQPLRTLARAGVKPLPGRLSFYPDRQAALADL	PGPT0003020_2600	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
BMS020_00875	1047			hypothetical protein	ATGTTAATTCAGGTGGGAGAGCTGGCGAAGCGCGCCGGGCTGACGGTGCGTACGCTGCATCATTATGAACAGACGGGGCTGTTAACGCCTTCGGCCAGAAGCGAGGCGGGCTATCGGCTCTATAACCTGTCCGCGGTTCAGCGCCTGCATATGATCAAGGCGCTGGCGCAGACCGGGCTGACGCTCGCCACCATCAAGGACTATCTCGATCGGCGAACGCTGTCGCTACCCGAACTGCTGACGCAGCAGATAGAGACGCTTAATGACCAACTGCGCGATGTCGGCAGGCTGCGCGACCGGCTGTTGGCGCTGCGCGAGGCGCTGGCGAGCGGCAATGAACCCGATCTGGAGTCCTGGCTACAGACGCTGGAGTTAATGAAAATGTACGATCGTTGGTTTAGTCAACAGGAGTTAGCCGTGCTGCCGTTTGCGGCACAGGATGAACAGCGCGCGCAGGCGTGGCGCGAGCTAACAGAGGAGGTGCAGACGCTAATGGCGAGCGGCTGCCCGACGGACAGTCCGCAGGCGATGAGTCTGGCGACGCGCTGGATGGAGCGCCTGGAGCAGGATACGGCCGGGCGCCCGGAGTTTCTGACCCGCCTGAACGAGATGCATGCCGCCGAGCCGCAAATGGTTGAACAGACCGGCGTCACCCCGGCCATCATTGCCTTTATCACCGAAGCCTTTGCCGAAAGCAAACTGGCTATCTGGGCGCGGTATCTCGACGACGAGGAGATGGCGTTCACCCGCCGGCACTACTTCGACCGGCTACAGGAGTGGCCAGCGCTGGTGGCGAAGCTGCATCAGGCGTGCCGTGAGGGCGTAGCGCCGGACTCGGCGTCGGGTCAGGCGCTGGCCCGGGCGTGGCTTGAGCTGTTTCAGTCCTACGCCGGCACCCGGCCGCAGACGTTGCAGAAGTTTCGTCAGGCAATGGAGCAGGAGCCGCATTTGATGAAGGGCACCTGGATGACGCCGGCGGTGCTGAGCTGGCTGCAGCAGGCGACCGGAGCCTTGATGCGGCAGGCGCAGGGGCCTGCCGCCGGGTGA	MLIQVGELAKRAGLTVRTLHHYEQTGLLTPSARSEAGYRLYNLSAVQRLHMIKALAQTGLTLATIKDYLDRRTLSLPELLTQQIETLNDQLRDVGRLRDRLLALREALASGNEPDLESWLQTLELMKMYDRWFSQQELAVLPFAAQDEQRAQAWRELTEEVQTLMASGCPTDSPQAMSLATRWMERLEQDTAGRPEFLTRLNEMHAAEPQMVEQTGVTPAIIAFITEAFAESKLAIWARYLDDEEMAFTRRHYFDRLQEWPALVAKLHQACREGVAPDSASGQALARAWLELFQSYAGTRPQTLQKFRQAMEQEPHLMKGTWMTPAVLSWLQQATGALMRQAQGPAAG				NA	NA	NA	NA	NA
BMS020_00876	276			hypothetical protein	ATGAAACGCAAAAACGCTTCGTTACTCGGTAACGTACTCATGGGGTTAGGGTTGGTGGTGATGGTTGTGGGGGTGGGTTACTCCATTCTGAACCAGCTTCCGCAGCTTAACCTGCCACAATTCTTTGCGCATGGCGCAATCTTAAGCATCTTCGTTGGTGCGGTGCTCTGGCTGGCCGGTGCCCGTATTGGCGGCCACGAGCAGGTCAGCGACCGCTACTGGTGGGTGCGCCACTACGATAAACGCTGCCGTCGTAATCAGCATCGCCACAGCTAA	MKRKNASLLGNVLMGLGLVVMVVGVGYSILNQLPQLNLPQFFAHGAILSIFVGAVLWLAGARIGGHEQVSDRYWWVRHYDKRCRRNQHRHS				NA	NA	NA	NA	NA
BMS020_00877	585	pth_1	COG0193	Peptidyl-tRNA hydrolase	GTGACCATTAAACTGATTGTCGGCCTGGCCAACCCCGGTGCGGAATATGCCGCCACCCGGCACAACGCTGGCGCCTGGTATGTGGATTTACTGGCGGATCGCCATCGCGCGCCGCTGCGCGAAGAGAGCAAATTCTTCGGCTATACCTCGCGCATCAACCTGGCGGGCGAGGATGTTCGCCTGCTGGTGCCCACCACCTTTATGAACCTTAGCGGTAAAGCCGTGGCCGCGATGGCGACCTTTTATCGCATCAACCCGGACGAAATTCTGGTTGCCCATGATGAGCTGGATTTACCGCCGGGCGTGGCGAAATTTAAGCTTGGCGGCGGCCATGGCGGCCACAACGGCCTGAAAGACATCATCAGCAAGCTCGGCAATAACCCGAACTTTCACCGCTTACGCGTCGGGATCGGCCATCCGGGCGACAAAAACAAGGTTGTCGGCTTTGTCCTCGGCAAACCACCGGCCAGCGAGCAGAAACTGATTGATGATGCCGTCGACGAAGCGGCGCGCTGTACGGAAATCTGGTTAAAGGATGGTCTCACTAAAGCGACCAACCGTTTACACGCCTTTAAGGCGCAATAA	MTIKLIVGLANPGAEYAATRHNAGAWYVDLLADRHRAPLREESKFFGYTSRINLAGEDVRLLVPTTFMNLSGKAVAAMATFYRINPDEILVAHDELDLPPGVAKFKLGGGHGGHNGLKDIISKLGNNPNFHRLRVGIGHPGDKNKVVGFVLGKPPASEQKLIDDAVDEAARCTEIWLKDGLTKATNRLHAFKAQ				NA	NA	NA	NA	NA
BMS020_00878	1092	ychF_1	COG0012	Ribosome-binding ATPase YchF	ATGGGATTCAAATGCGGTATCGTCGGTTTGCCCAACGTCGGCAAATCCACCCTGTTCAATGCGCTCACCAAAGCGGGTATTGAAGCGGCCAACTTCCCCTTCTGTACCATTGAGCCGAACACCGGTGTCGTACCGATGCCCGATCCGCGTCTGGACAAGCTGGCTGAAATCGTCAAACCGCAGCGTATCCTGCCGACCACCATGGAGTTCGTTGATATCGCGGGCCTGGTGAAAGGCGCGTCCAAAGGCGAAGGTCTCGGCAACCAGTTCCTGACCAACATCCGCGAAACCGAAGCTATCGGCCATGTGGTTCGCTGCTTTGAAAACGACAATATCATTCACGTGGCAGGTAAAGTGAACCCGGCGGAAGATATCGACGTTATCAACACCGAGCTGGCGCTGTCTGACCTTGATACCTGCGAGCGCGCGATTCACCGCGTCTCCAAAAAAGCCAAAGGCGGCGATAAAGACGCGAAAGTTGAGCTGGCCGCGCTGGAGAAATGCCTGCCGCAGCTGGAAAACGCCGGTATGCTGCGCGCGCTGGATCTGACCAAAGAAGAGAAAGAGGCCATCCGCTATCTGAGCTTCCTGACCCTCAAGCCGACCATGTACATCGCGAACGTCAATGAAGACGGTTTCGAGAACAACCCATACCTCGATCAGGTTCGCGCTATCGCCGAGCAGGAAGGGTCTGTAGTGGTGCCGGTGTGCGCCGCGGTTGAAGCGGACATCGCCGAACTGGACGATGAAGAGCGTGATGAGTTTATGGCTGAGCTGGGTCTCGAAGAACCGGGCCTGAACCGCGTGATCCGCGCTGGCTACGCCCTGCTGAACCTGCAGACCTACTTCACCGCTGGGGTGAAAGAAGTTCGCGCCTGGACCATCCCGGTCGGGGCGACCGCGCCGCAGGCAGCCGGTAAGATCCACACCGACTTCGAAAAAGGCTTTATCCGCGCGCAGACCATCGCTTATGAAGACTTTATCGCCTACAAAGGCGAACAGGGCGCGAAAGAAGCCGGTAAAATGCGCGCTGAAGGTAAAGACTACATCGTGAAAGATGGCGATGTGATGAACTTCCTGTTCAACGTCTAA	MGFKCGIVGLPNVGKSTLFNALTKAGIEAANFPFCTIEPNTGVVPMPDPRLDKLAEIVKPQRILPTTMEFVDIAGLVKGASKGEGLGNQFLTNIRETEAIGHVVRCFENDNIIHVAGKVNPAEDIDVINTELALSDLDTCERAIHRVSKKAKGGDKDAKVELAALEKCLPQLENAGMLRALDLTKEEKEAIRYLSFLTLKPTMYIANVNEDGFENNPYLDQVRAIAEQEGSVVVPVCAAVEADIAELDDEERDEFMAELGLEEPGLNRVIRAGYALLNLQTYFTAGVKEVRAWTIPVGATAPQAAGKIHTDFEKGFIRAQTIAYEDFIAYKGEQGAKEAGKMRAEGKDYIVKDGDVMNFLFNV				NA	NA	NA	NA	NA
BMS020_00879	330			hypothetical protein	ATGGCAACGGCAAAAAGCGGCTACACGCTGCAGGTGATAAAGGCAGGGCAGCAGGGGCATGTTGAAATGAGGTGGGGGCATCTCGCGGAAGTTGATACGCGCGTGGCGGCGGCGACCATCGCGCAGCATATCGGGCGACCCTCGTCTGCGGCGGATCCGCAGGAGATCAGCCTGTCGCTGACCAATGCCGCCAGCGGCATCTCGGTGGAGCTTCATCACCCGGCCTCAGGGGAAAGCGCCACCCCGGCTTTTATTGAGGACGAGTTAAAAAAGATTGTGCAGATCGTTGATGGCTACGAGGCGGCAGAAGAGACCCATATCGTGGAGTAG	MATAKSGYTLQVIKAGQQGHVEMRWGHLAEVDTRVAAATIAQHIGRPSSAADPQEISLSLTNAASGISVELHHPASGESATPAFIEDELKKIVQIVDGYEAAEETHIVE				NA	NA	NA	NA	NA
BMS020_00880	915	thpA_1	COG1879	D-threitol-binding protein	ATGAAGCACTGTAACATCATCCTGTTAGTTGGCCTTCTGGCCAGTTCCGCTTCGGCATTGGCGGAAAAGATCGGCGTCTCGATGGCTTACTTCGATCAAAACTTTCTCACCATTATTCGTCAGTCCATTGAGAAAGAAGCTCATGCCCGCCAGGTCGAGGTGCAGTTCGAAGACGCCCGCGGCGACACCGGACGCCAGGCCGATCAGGTGCAGAGCTTCATTGCCTCCGGCGTGGACGCGATCATCGTTGACCCCGTGGACTCCGCCAGCACCCCGCAGCTGACGAAGATGGCGCAGCAGGCCAGGATGCCGCTGGTGTATGTGAACCGGACGCCGGGGGACAAAACGTTACCGCCTGGCGTGGTGTTTGTCGGTTCGGACGAGCGGGAGTCCGGCACATTGCAGATGGAAGCGCTGGCGAAGCTGGCGAACTACAAAGGCAACGTCGCCATCATGATTGGTAATCTCACCGATGCCGGCGCGCTGCAGCGCACCAGGGACGTAGAGCAGGTGGTGGCCAAATATCCGGCGATGAAAGTGGTGCAGAAACAGCCGGCCAACTATTCCCGCAGCGAGGGAATGGATCTGATGCAGAACTGGACAGGCAACGGGGAAGCGATTGATATTGTGGCGGCGAACAACGACGAGATGGCGATTGGCGCGGCGATGGCGCTGGAGAAGAGCCAGAAGAAGCTGCTGATCGGCGGCATCGACGCCACGCCGGATGGGCTGAAAGCGTTGGCCAGCGATAAGATCCAGGTAACGGTTTTCCAGGATGCCGTTGGTCAGGGCAAAACGGCCTTAGCGGTGGCATTGAAGCTGATTAAAGGAGAAAAAGTCGAGTCCCATGTCTGGATCCCGTTTGAGTTAGTGACCAAAGAAAACATGCAGACCTATGTGGAAAAGAGTCATTAA	MKHCNIILLVGLLASSASALAEKIGVSMAYFDQNFLTIIRQSIEKEAHARQVEVQFEDARGDTGRQADQVQSFIASGVDAIIVDPVDSASTPQLTKMAQQARMPLVYVNRTPGDKTLPPGVVFVGSDERESGTLQMEALAKLANYKGNVAIMIGNLTDAGALQRTRDVEQVVAKYPAMKVVQKQPANYSRSEGMDLMQNWTGNGEAIDIVAANNDEMAIGAAMALEKSQKKLLIGGIDATPDGLKALASDKIQVTVFQDAVGQGKTALAVALKLIKGEKVESHVWIPFELVTKENMQTYVEKSH	PGPT0016780_609	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_TRANSPORT,PGPT0016780-rbsB|mocB|mglB-K17213	NA	NA
BMS020_00881	1416			hypothetical protein	ATGATGACAACACATAAAGACCGCCGCTATAAAACCGGTGGCGACCCACGCACGCTGGATGATTTTATTGCCCTGCGTGCGGAAATGAACAAGCTCAGCCACCCGGCGCGGCCGGATATTAATTGGCCGTATGCCGAGCAGCTTGCCCGTGCGCTGCTGGAGCATCACGGCGCGGATCTGCAGACTGTCGCCTGGTATACGCTGGCCCGCGCCCGGCTGGACGGCCTGGCAGGGATCAACGAGGGGCTATCGCTGCTGGAAACGCTGCTGGCCCACCAGGGTAAAAACCTGTGGCCGCAGGCGCTCCCGGCCCGCACCGAAATCTTCCGCACCCTGAGCAAGCGGCTGCGGCAGGTGATCCGCACCCTGAACCTCACCCCGGACGATCTTGCGTCGCTTAGCCAGGCTGAGTGTTCGCTGCAAACCTTCGACGCGGTGCTCCAGCGCCTTGAGATCGCGCCTGAAAACCCGCTGAATGACCTGCGGGCGCTGCTGCGCAGCACGGCAACCCGCTTTGAGAACCTCGACCCTGCGCCAGCGCCTCCCGTCGCGCCGCCGGTGGCGATGTCTGAGGCGGCACTTCCCGACGCTCTGGTCAGCGAAGAGGATGCTGCGAAGGCTGAGCCAGCGCCAGAACGACAACGTAGACCAGAGGCTGAGCCGCCGGCTCCGTCTTCACCAGCAAAGCGGCCCGCGCCAGGGATAGCATCGACTCCGGTCGCCGCGTCGCGCTGGAAGCCATTTATCGCCGGAATGGTCACTATGCTGGCGGTGTCGGGCATCGCCGTCGGCGGATGGCTGGCGTTGCGCCAGACCGATTTGCCGCCGACTGTGATGACGCAACAGGCCGGGCCGCTAGCGGACCTTCCGGGGGCATCTCCCCACGCGCCGGTCGATCTGCGCCAGGCGCAGCGCCAGCTTGACGATCTCGCCCGCCTGGCGCCGGACTGGGCGATAAGCTACGGCGACCGGCTGGTCCAGCTTGCCCTGAGCCGCTGGCCAGAACAGGCAAAGCCCCTGGCGCAGCAGTGGCAGCGGCAGCTAAGCGCTGCGGCATTGCCCGCGGAAAACCTCACCGGCTGGGCGGAGGGCATGCGTCAGCTGCAACGGCTCGCCGGTCAGCTCAATGCCCTCGACGAGCAGAAGGGGAAGTACCTGACGGTGAGCGAACTGAAAACGGCGGTGTTTGCCATTATGCAGTCGCTTAACCGCGCCGTTCCGCTGGAAGAGCAGCTGCGTGAGCTGGCCGCGCTCCCCGCAGGTCAACCCTGGCCAGCCGCCCGCGGCAGTCTCGCCGAACTGCATCTGCAACAGCTGATCGTGGAGTATGCCCTGCTGAAGCGAAAACAGCCGGCGCCACCGCCCGCTGCGCGACCCGCAACCGGTGGGCCCTCGGTGAGTGAGGCGGTGAAATAA	MMTTHKDRRYKTGGDPRTLDDFIALRAEMNKLSHPARPDINWPYAEQLARALLEHHGADLQTVAWYTLARARLDGLAGINEGLSLLETLLAHQGKNLWPQALPARTEIFRTLSKRLRQVIRTLNLTPDDLASLSQAECSLQTFDAVLQRLEIAPENPLNDLRALLRSTATRFENLDPAPAPPVAPPVAMSEAALPDALVSEEDAAKAEPAPERQRRPEAEPPAPSSPAKRPAPGIASTPVAASRWKPFIAGMVTMLAVSGIAVGGWLALRQTDLPPTVMTQQAGPLADLPGASPHAPVDLRQAQRQLDDLARLAPDWAISYGDRLVQLALSRWPEQAKPLAQQWQRQLSAAALPAENLTGWAEGMRQLQRLAGQLNALDEQKGKYLTVSELKTAVFAIMQSLNRAVPLEEQLRELAALPAGQPWPAARGSLAELHLQQLIVEYALLKRKQPAPPPAARPATGGPSVSEAVK	PGPT0030435_9	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0030435-vasL-K11911	NA	NA
BMS020_00882	444			hypothetical protein	ATGCCTCGTCCCTCCCTGTACGACATCCTCTACGGCAATTTCGCCGGCGGGCTGGACCTGAACAACGTCAGCGAAACGGATCAGGTCATCCTGTCGGTGCTCGATAACATGCAGCGCATCCTCAACTGTCGGGCCGGAACGCTGGCGCATTTGCCGGACTACGGCCTGCCGGATATGACCGCTATCCTCCAGGGCATGCCGGCGTCGGCGCATCAGCTGATGAGTACGCTGTCGGCGGTGTTGCTGAAATACGAACCGCGCCTGCAGCGGATCGCGGTGGTGATGCTCGATCAGGATGCGCCCGGCGAACTGCGCTATGCCATTGATGCTGAGCTGAAGGATATCGGTCTGGTACGTTACGGCACAGAGTTTATGCCTGAAGGCAGGGTGTTGATCCGCCACCTTAAACGTCAGCAGTACCTTGACGCCCGCTCCGCCCTCTAA	MPRPSLYDILYGNFAGGLDLNNVSETDQVILSVLDNMQRILNCRAGTLAHLPDYGLPDMTAILQGMPASAHQLMSTLSAVLLKYEPRLQRIAVVMLDQDAPGELRYAIDAELKDIGLVRYGTEFMPEGRVLIRHLKRQQYLDARSAL	PGPT0030405_109	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030405-tssE-K11905	NA	NA
BMS020_00883	537			hypothetical protein	ATGGCGATTACCGCAGTTAAACCCTCTGCCACGTTACTGGCATTCATCATGGTCACCCTCTTAACCGGCTGCGGCCTGACGCAGACCGTGAAAGACGGCGCCGTTTCCGTGACCCAGTCCATTTTTTACCCCCAGGTGAAAACACTTCATCTGGATCTTCGCGCCCGGGAAGGCGTGAATAACAACGCCAAAGGCGCCTCCCTGGCGACGGTGGTGCGTATTTACCAGCTGAAGGACCGGCAGGCGTTTGACAATACTGACTACCCGTCGCTGTTTGCCGGCGATGGCCAGGCGCTGCAGGCGGACCGGGTGGCGGAAAAAGATATTCGCCTGCGTCCGGGCGAATCGGTGACCGTTGATATGCCCATGGAAACCAGCGCGCAGTTTGTGGCTGTGGCGGCCATGTTTATCGATCCAGACCTGACGCTAAATAGCTGGCGGCTGGTACTCACCCGGGACGATCTCGACCCGGCGAGACCGCGCATTATCGAAGCCAGCCAAAATCAACTGACGCTGCACCCGCTTAAGGAGAAGTGA	MAITAVKPSATLLAFIMVTLLTGCGLTQTVKDGAVSVTQSIFYPQVKTLHLDLRAREGVNNNAKGASLATVVRIYQLKDRQAFDNTDYPSLFAGDGQALQADRVAEKDIRLRPGESVTVDMPMETSAQFVAVAAMFIDPDLTLNSWRLVLTRDDLDPARPRIIEASQNQLTLHPLKEK	PGPT0030425_379	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0030425-vasD|lip-K11906	NA	NA
BMS020_00884	1047			hypothetical protein	ATGGCGCAGCTCCGGCCTCAGTTGCCGTACATGAATTTTTACCGCTTCTGCCAGTTGCTGGAGGAGAACCATCCGAAGGCGCCGATCATCGGCAGCGGCTGGCTGGTGGGTGATGAACCCATACGCTTTCGCCCGCATCCGGGGATGGGTTTCCCGGCCGGCGAAATCCGTGGAATGGACGATCCTGACCCGCCCCGGCCGCCGGCGGTTCGCGTTGCTTTTATGGGTCTCTACGGCGTGGAATCCCCGCTACCGACACACTATAGCGATGACATTGCGCAACGGCGGGAAGGCGTCGAGGCGACCGAGGATTTTCTCGATATCTTTAACCATCGGCTGATCGCCCAGTATTACCGTATCTGGCGCAAATATTCCTACCCGGCAACCTTTCGGGCGGGTGGCACGGACAACACCTCGCAGTATCTGCTGGGCCTGGCGGGGCTGGGTATACCGGGATGTGCCGCCGTTGCCGCAGCGCCGCTGTCGCGATTTCTGGCGTTGCTGCCGGTAATGATGCTGCCGGGGAGATCCGGGGAAGGCATGGAGGCGCTGGTGGCGCTACTGGCTCCGGGGACCCGGGCGACGGTGTACCACCACGATCCCTGCCGGATCCCCTTGTCGCAGCCGTTAGCGATGAGCGTCCGCCAGCCGGTTAGCCTGCAACATCGGCCAGTGATGGGAACTCACGCTACGGATGTGAACGGTCAGGTGTTGCTGCAGCTGGCGACGGAAAAGCCTGATGAGGTCCGCGGCTGGCTGCCCGGCGGCGAACTGTTCAGCGACCTGATGGCGCTCCTGCACGTCTGGCTCGGATCTCATCTCGACGTGCGGCTGCAGCTTTGCGTCGCCCGCCATTTACTGCCGGATGCGCAACTTTGCTGCCAGCAGGCGCATGCCGTCCAGCTCGGGAGAACGGCTGTGCTGCAACCGCTGGATGCGCAGAAGCAGGCTGACGACAAGATCACGATTTATCTGGGGCGCTATCAGCGCGTCCGGGAAAACCTCCACCGCAGGGAGAGCGATGAAGATGGCGATTACCGCAGTTAA	MAQLRPQLPYMNFYRFCQLLEENHPKAPIIGSGWLVGDEPIRFRPHPGMGFPAGEIRGMDDPDPPRPPAVRVAFMGLYGVESPLPTHYSDDIAQRREGVEATEDFLDIFNHRLIAQYYRIWRKYSYPATFRAGGTDNTSQYLLGLAGLGIPGCAAVAAAPLSRFLALLPVMMLPGRSGEGMEALVALLAPGTRATVYHHDPCRIPLSQPLAMSVRQPVSLQHRPVMGTHATDVNGQVLLQLATEKPDEVRGWLPGGELFSDLMALLHVWLGSHLDVRLQLCVARHLLPDAQLCCQQAHAVQLGRTAVLQPLDAQKQADDKITIYLGRYQRVRENLHRRESDEDGDYRS	PGPT0025940_810	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025940-impH|vasB-K11895	NA	NA
BMS020_00885	1764			hypothetical protein	ATGGACGATTTAACCCTGCGATATTTTGACGCTGAAATGCGCTACCTGCGCGAGGCGGCAAAAGCGTTCGCGCAGGCTCACCCCGACCGGGCGGCGATGCTGGATCTCGATAAAGCCGGTACGCCGGACCCTTACGTTGAGCGCCTGTTTGAAGGCTTTGCCTTTTCCGTAGGTCGCTTGCGCGAAAAAATTGATGATGATCTGCCGGAGCTGACCGAGGGGCTGGTCAGCATGCTGTGGCCGCACTATTTGCGCACCATTCCATCACTATCGATCGTGGCGCTGACCCCAACGCTGCCGGCGATGAAGATGGTGGAAACGGTGCCCGCCGGGTTTGAGATAAGCTCCCGCCCACTGGGGCCGAAAAATACCGTGTGCCGGTACCGAACCACCCGCGATCTGACGCTTAACCCGCTGGCGATAGAGGAGGCGGTGATGATGGCAGAGCCGGACGGACGTTCGGCCCTGCGGCTACGATTCGCCTGTAGCGAGCTGACAGACTGGTCGCAGACCGATCTCCGCCGCCTGCCGCTGTACCTGGGGGAAGACGCCGTTACCGGCAGCGCTCTTCATCTGTGGCTGACCCGACGCCAGGCCGCGCTGTACCTGCGCCTGCCAGGGCAGGCGGAGCGGGTAAGTCTTGACGGCTATTTTTCGCCGGGGGGATTTAGCGAGGAGGATCGTTTATGGCCGAAGGGGGAGAGCGCTTTCAGCGGCTATCAGCTGCTGCTCGAGTACTTCACCTTTCGCGAAAAATTTATGTTCGTGCAGCTAAATGGTCTGGAAAACATGACGCTACCGGCGGGGATAGCGCATTTCACGCTTGAGGTGGTGTTCAGCGAGGTCTGGCAAAGCGATTTGCCCGTCAGCGCAAGCAGCCTGCGCCTGCACTGTGTGCCGGTGATTAACCTGTTTAGCCTTGAGGCTGACCCGTTAACCATCAGCGGGCTGGAGAGCGAATACCTCCTGCGTCCGAAGCGCCTGCAGGACGGGCATACCGAAATCTATTCTGTTGACAGCGTGACCGGCTCCGGGCGCACCGGGGAGGCACGCTATGTGCCTTTCACCCGCTTTCGTCACCAGGGCGGGATGATGCGTCGCCATGCGCCGGAACGCTACTACCACACCCGCGTCAAGCGGGGCGTCACCGGCATGCACGATACCTGGCTTATCCTCGGCGGGCAACAATGGGAGGCCGACCGGGCGCTGGAGCGGGAAACGGTCTCCTTGCGCATCACCGGCACTAACGGCCAGCTGCCGCGCCGGGCGCTACAGAGCACGCTGCTGGATCGCTGTGAGTCGATATCAGCCACGCCGCTTACCGTCCGTAATCTCTGTAAACCCACGCTGCCGGCATATCCCCCGGCGGAAGACCGCTACCACTGGCGGGTCATGAGCCATCTGGGCACCCGTTTTCTCAACATGATGAGCAGCGCCGAGGTGCTGCGCGGCACGCTGTCGCTCTACAACTGGCGGGAAGATGAGCTCAATAACCGCCGTCTGGACGCCATTCTGGCGGTCAGTCATCACCGAATTCAGCGTTTCGAGCAGGGCTTCCTGCTGCGCGGGCTGGATATCGAAGTGACGCTCGACAGCAGCGCATTTACCGGGGCGGGCGATGTCCATTTGTTTGGCGACATGCTCAACCGCTTTTTCGCATTGTATGCCGATATGAATCAGTTCATCCAGCTGACGCTCATTGTTCAACCTGAAGGGAAATGTATCCGGTGGAAAGAGAATCACAGTCTGCGCCTGCCCGGCTGA	MDDLTLRYFDAEMRYLREAAKAFAQAHPDRAAMLDLDKAGTPDPYVERLFEGFAFSVGRLREKIDDDLPELTEGLVSMLWPHYLRTIPSLSIVALTPTLPAMKMVETVPAGFEISSRPLGPKNTVCRYRTTRDLTLNPLAIEEAVMMAEPDGRSALRLRFACSELTDWSQTDLRRLPLYLGEDAVTGSALHLWLTRRQAALYLRLPGQAERVSLDGYFSPGGFSEEDRLWPKGESAFSGYQLLLEYFTFREKFMFVQLNGLENMTLPAGIAHFTLEVVFSEVWQSDLPVSASSLRLHCVPVINLFSLEADPLTISGLESEYLLRPKRLQDGHTEIYSVDSVTGSGRTGEARYVPFTRFRHQGGMMRRHAPERYYHTRVKRGVTGMHDTWLILGGQQWEADRALERETVSLRITGTNGQLPRRALQSTLLDRCESISATPLTVRNLCKPTLPAYPPAEDRYHWRVMSHLGTRFLNMMSSAEVLRGTLSLYNWREDELNNRRLDAILAVSHHRIQRFEQGFLLRGLDIEVTLDSSAFTGAGDVHLFGDMLNRFFALYADMNQFIQLTLIVQPEGKCIRWKENHSLRLPG	PGPT0025935_1441	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025935-impG|vasA-K11896	NA	NA
BMS020_00886	3411			hypothetical protein	ATGAATATACCGGGTAATGGCCTGGGCCGGTTTGGCCTGGCCGGGCTTACGTTGGCCGGGATGGCTGCAATATGGGGGGGGATCACCCGCTATGGCGGCATGCTGAATATCAATACGCGGGGCGAGCAGGTACTGGCGTTTGTTCTGGTCTGTCTGGCGTTGGTATTTGTTTTTTACCTTCCTGCAATGTCCCGCCGTGTGAAGGAGAGTTTATATCGCCGGCAGTCGCAGCAGGCCAACGTCTTACCCGGCGAAGAAGGGCGCGTGGCACTGACACCTCCCCATCATATTACGGTGGGGGAAATTCGCCAGACTCTGCGCTATCAGTATGGACGCGCCTGGTCCCGCAAAGTCCGTATTCTGCTGATAATTGGCTCAGTCAGAGACGTAGAACAACTGACCCCAAAGCTCACGCAGGAACTCTGGCAGGAAGATCAGGGTACATTATTGCTGTGGGGTGGAGACCCTGGGGCAGCGGTAGATCCCGCCTGGTTCACAGCGCTGCGTAAACTGCGTTATCGCCCGGCTGATGGTATGGTGTGGGTAACATCGGGCTTTGACGGCGTTTTGACAACGATGAACAGAACGAAGCCCAGGCTCACGCCAGATGAAATGGACAATGTGTCTCACTCTCTAAAGCTACGCTACGAAGCTCTTGGATGGAAACTTCCCCTATACGTCTGGTCGCTGTATGAGGAGGGCAACGAAAAAAATGGACGTATCACTCAGCCTGTAGGCTGCCTGTTACCCGCAGGTTGTACGCCGCAAATAGTTGCCGAACAGTTCACTGCCCTGGCGCCGTTACTGATAGAGCAGGGCATCCAGCAGATATGCGGGCAACCACAGCACAATTTTTTACTCGCGCTGGCCGACCAGTTGACTCGGGAAGCGGAAGCGGTGGTGGAACCGTTATCGATACTGCTTAATCCATACCGACCATTGCCGCTGGCCGGGGTGGTATTTAGTGAGGCATCAGTAGAGGCTGGTCGCAGTGTCAGTCATCACTGGGGACGGGATAACCGCTGGGAAACGATACCAGACTCTGTGCTGTGGTTGCCAGCCGGTCTACGTCCGCGCAAACAGGGCGTCGACTGGATGCGTGGGATGAGCGTGGCCGCTGCTGCCCTGATGTTACTCTGGGCCGCCTCAATGACAGTCTCTTTTATCGCCAACCGCCACCTGGTGGCGACCGCACAGCAGCAGGTGCAGCAGGCCTCGGCGGGAAAACAGCCGCTGGCCGTACGCCTGCATGCGCTCTCCGCGTTACAGAAAACGCTTTCTCAACTGGAATACCGCTCGCAGCACGGCGCGCCGTGGTATGCCCGCGCTGGCCTCAGTCAGAACGATGACCTGCTGGCGGCGCTGTTTCCGCGCTACGGAGAGAGGGCGCAGCCGCTGCTGCGCGATGCGGCAGCAGCGCACCTTCAGCGGCAGCTGAACGCCTTCGCACAGCTGCCGCCGGACAGCCCGCTGCGTGAGAAGATGACGAAGACCGCTTACGACCAGTTGAAACTGTACCTGATGTTGACCCGCCCGGAGAGAATGGATGCTGCGTGGTTTGCGGGAGCGTTGATGCGCGAGTGGCCGCAGCGCTCAGGCATCGCCGACGCCGTCTGGCAGGGCAGCGGCCCTTCGCTACTGGCATTTTATGCCGCCAGCCTGGCGTCGCATCCGCAGTGGCGTCTGCCTGTCGATGACGGTCTGGTCAGCCAGGCGCGCACACGGTTAATTCGCCAACTGGGCCAGCGCAACAGTGAGTCCACGCTTTATCAGAAGATGCTCGCGCAGGTGGCGAACCAGTATGCGGACTTGCACCTGGCGGACATGACCGGCGACACCGACGCGTCGCGCCTGTTCACCACCGATGAGGTGGTGCCGGGGATGTTCAGCCGGAAAGCCTGGGAAGAGACGGTGCAGCCCGCCATTGAGAAAGTGGTCGCGGAACGCCGCGATGACATGGACTGGGTGCTGAGCGACGCGAAGCAGCCTGCCGCGCAGTCGGCGTCGCCGGAAGCCTTGCGAGTCCGGCTGGCGGAGCGTTATTTCGCTGATTTCAGCGGCGCCTGGCTGGATTTTCTCAACAGCTTACGCTGGCAGCGCGTGGAGACCCTCTCCGATGCCATCGACCAGCTGACCCTGATGGCCGATGTGCGCCAGTCGCCGCTGGTGGCGCTGATGAACACCCTGAGCATGCAGGGGCGAACCGGCCAGACCGGGGAAGCTATTGCCGATTCGCTTGTCAAATCAGCGAAAAATCTGTTTAACCGCGACGGGCAGCCCGCCATCGACCAGCAGGGTGGCGTGCGCGGTCCTCTGGATGCCACCTTCGGGCCCGTACTGGCGCTGCTGGACAATCGCGACGGCGGGGCGTCCACCAGCCGTCTTAGCCTGCAGACCTTCCTGACCCGCGTCACCCAGGTGCGTCTGCGCCTGCAGCAGGTCACCAACGCCACCGACCCGCAGGCGATGACCCGCCTGCTTGCGCAGACGGTGTTCCAGGGCAAGGCAGTGGATCTAACCGAAACGCGCGACTACGGCAGCCTGGTGGCGGCGGGACTGGGCCAGCAGTGGAGTGGTTTTGGACAGACGCTGTTTGTTCGCCCGATGGAGCAGGCCTGGCAGCAGGTGCTGACGCCGGCGGCGGAAAGTCTCAACGCCCAGTGGCGCAGCGCGGTGGTGGAGGACTGGAATCGCGCTTTTGGCGGCCGCTACCCCTTTAAAAATACCAGCAGTGAAGTCTCTCTCCCGCTGCTGGCAAAATATCTCAATAGCGAGACCGGGCGCATCGCTCGCTTTCTGCAGACCCGGCTGAATGGCGTGCTACATAAAGAGGGGAGCCGCTGGATGGCGGACAGTATCAATGCCCAGGGACTGACGTTTAACCCGGCCTTTCTGCAGGCGATGAATACCCTGAGCCATCTCTCCGACGTCGCGTTCGCCAATGGCGAAGCGGGATTGCATTTTTCGCTACGTCCGGGCACGGCGGACGGTGTGATGCAGACGGAGCTGGTGATTGACAGCCAGAAACTTGTCTACATGAACCAGATGCCGGTCTGGCGGCGGTTCAGCTGGCCCGCCGATACCGAAGCGCCGGGCGCCAGTCTGAGCTGGATCAGCACCCGGGCGGGCACCCGCCAGTATGCAGATCTTCCGGGGGCCTGGGGCTGGATCCGCCTGCTGGATAAGGCGGTGGTCAGCGCTTACCCCGGTACGAGCAGCAGTTGGAGCCTGAGCTGGAAAGCGCCGGATGGTCTGTTGCTGAACTACACCCTGCGTACCGAGGCGGGGGAAGGACCGCTGGCGCTGCTGGCTCTGCGAAACTTTACGCTACCGGAGACGATATTCAGCGTGCGCGCGCCTGCTGAGCGTGTTCCGCTGACCGACGATATACCCGGCGAAGAGGGATACTGA	MNIPGNGLGRFGLAGLTLAGMAAIWGGITRYGGMLNINTRGEQVLAFVLVCLALVFVFYLPAMSRRVKESLYRRQSQQANVLPGEEGRVALTPPHHITVGEIRQTLRYQYGRAWSRKVRILLIIGSVRDVEQLTPKLTQELWQEDQGTLLLWGGDPGAAVDPAWFTALRKLRYRPADGMVWVTSGFDGVLTTMNRTKPRLTPDEMDNVSHSLKLRYEALGWKLPLYVWSLYEEGNEKNGRITQPVGCLLPAGCTPQIVAEQFTALAPLLIEQGIQQICGQPQHNFLLALADQLTREAEAVVEPLSILLNPYRPLPLAGVVFSEASVEAGRSVSHHWGRDNRWETIPDSVLWLPAGLRPRKQGVDWMRGMSVAAAALMLLWAASMTVSFIANRHLVATAQQQVQQASAGKQPLAVRLHALSALQKTLSQLEYRSQHGAPWYARAGLSQNDDLLAALFPRYGERAQPLLRDAAAAHLQRQLNAFAQLPPDSPLREKMTKTAYDQLKLYLMLTRPERMDAAWFAGALMREWPQRSGIADAVWQGSGPSLLAFYAASLASHPQWRLPVDDGLVSQARTRLIRQLGQRNSESTLYQKMLAQVANQYADLHLADMTGDTDASRLFTTDEVVPGMFSRKAWEETVQPAIEKVVAERRDDMDWVLSDAKQPAAQSASPEALRVRLAERYFADFSGAWLDFLNSLRWQRVETLSDAIDQLTLMADVRQSPLVALMNTLSMQGRTGQTGEAIADSLVKSAKNLFNRDGQPAIDQQGGVRGPLDATFGPVLALLDNRDGGASTSRLSLQTFLTRVTQVRLRLQQVTNATDPQAMTRLLAQTVFQGKAVDLTETRDYGSLVAAGLGQQWSGFGQTLFVRPMEQAWQQVLTPAAESLNAQWRSAVVEDWNRAFGGRYPFKNTSSEVSLPLLAKYLNSETGRIARFLQTRLNGVLHKEGSRWMADSINAQGLTFNPAFLQAMNTLSHLSDVAFANGEAGLHFSLRPGTADGVMQTELVIDSQKLVYMNQMPVWRRFSWPADTEAPGASLSWISTRAGTRQYADLPGAWGWIRLLDKAVVSAYPGTSSSWSLSWKAPDGLLLNYTLRTEAGEGPLALLALRNFTLPETIFSVRAPAERVPLTDDIPGEEGY	PGPT0025960_1491	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025960-impL|vasK|icmF-K11891	NA	NA
BMS020_00887	1158			hypothetical protein	ATGGGCTGGGTACGAACAAAAGCATTGACCATGGAGCAGCCATCGGCTCCTTCACTGACCCGATGGCTGTTTGCCGGTGTACTGATGGCGATTATCGGTGTCCTGCTCTTTATCCTCCATGCTTCCGGCACCGTAAAAATTCTCTCAGTGATAAATATCTGGTGGGTATCCCTGATGCCAGCAGGATGCTGGTTGCTGATTTTTTGTCTGCGTTGCTACCTGTGGGACAGGGATCTGAAAGCGCATCAGTTCTTGCTGAAAGAGGCGGAATACGGACAGCAGAGGTGGGAAGACTGGGCCGGGCGCTGGCTGGCCGTTCTGGGCAGTGCAGTGCTGTTGCCGGATCATACTTCTGCGGCGCATTGTGGGAGTGAGCGGCCTCAGCAATACGGACTTACCCGCAGGATTAATTACCTTCCGGCAGAAGAGCCCATGCAGTTGAGAGCGATGCATGCGCTGCTTACCAGTATAGAAGAGCGCGTGCAGTGCCTACCGGAAGAGCTACCGCTGCATGTCACCCTGATCACGGATAATCCCTCGCCTGAGCTGACCAGCAGTTTCAGTAATCTCTGGAAAGAACACATTCCTGGCCGCGCCGTGTCCGATGATATTACCGTTACCGGCTCATTCTCACTGTCGGAAGTGGAGGAGCGCCTGAAGCAGCCTGTACTGACGGTCAATCTACTCCTGGTCATCCAGCTCAACGGTGGTACAGCATACTCCGACGGGCTGGCCGTGTTGCTGCTGACCAGCGATGATGTGGCGCAAAAATACCATCTGCCGCACTCATCACGGCTGTTACGTCCGATGCCCTTAGATATGACGAACTTTGAAGACGATATCACCCTGTTTCTGGAAACCCAGACTGTCGCCTGCCAGACGCTCTCCGTTATCGGGGACGCAAAAAAATGGACGGAAAGAAGCGCCGCGCTTATCACGCAGGGCGGCAAAATGCATACCCCATGGAAAGCTGAAGATATCGCGCTGCTGGAAAAATGGTGCGGTATTCCGGGACCCGCAGCGCCCTGGCTCCTGACCGCGCTGGCAGCCGATCTGGTCAGCCTCCGTAAACAGCCCCTGCTGGCGTTATTTTCCAGCGAACAGGAACATTTTATCAGTACCATCACCACAGGGAGTGAAGATGAATATACCGGGTAA	MGWVRTKALTMEQPSAPSLTRWLFAGVLMAIIGVLLFILHASGTVKILSVINIWWVSLMPAGCWLLIFCLRCYLWDRDLKAHQFLLKEAEYGQQRWEDWAGRWLAVLGSAVLLPDHTSAAHCGSERPQQYGLTRRINYLPAEEPMQLRAMHALLTSIEERVQCLPEELPLHVTLITDNPSPELTSSFSNLWKEHIPGRAVSDDITVTGSFSLSEVEERLKQPVLTVNLLLVIQLNGGTAYSDGLAVLLLTSDDVAQKYHLPHSSRLLRPMPLDMTNFEDDITLFLETQTVACQTLSVIGDAKKWTERSAALITQGGKMHTPWKAEDIALLEKWCGIPGPAAPWLLTALAADLVSLRKQPLLALFSSEQEHFISTITTGSEDEYTG				NA	NA	NA	NA	NA
BMS020_00888	267			hypothetical protein	ATGTCCAAAGGTTTTGTATTACTCGGCGATAAAACCACGCACGGCGGTGCTGTTATTTCCGCATCCTCCACCATGATTGTAAATGGAAAGCCCGTAGCGCTGGTGGGGGATAAAGTCAGCTGCCCGATTCCGGGACATGGCACTAATGCCATTATTGAGGGAGCGCCGGAATGGTCTTCCGATGGTAAAGCCATCGTGGTCGATGGCTGCAAATGTCAGTGCGGTTGCCAGGTGATTTCCGGCGCGCCGGAATGCGCGATAGGATAA	MSKGFVLLGDKTTHGGAVISASSTMIVNGKPVALVGDKVSCPIPGHGTNAIIEGAPEWSSDGKAIVVDGCKCQCGCQVISGAPECAIG				NA	NA	NA	NA	NA
BMS020_00889	894			hypothetical protein	ATGAGAAAATTAATCGTAGTTGCTTCTGTTGCCGCCAGTTTACTGCTCGGGTGTGACCAGAAGAGTACTGACAAGCGTGAAACCCTGTCTGAAGCGCTTGTTGCTAAGTCGCTTTCTGACATGGTTCCCGTTCAGGGCGGCGAGTTTTTAATGGGGGATTTTGGACCATTAGTCGGTCAAAAACTACCTTTCAGCATAAACCAGGATGATAAGGTATTACATAAGGTTGTATTAAGTGATTTTTCGATATCAAAGTTTAAAGTTACCAACGATGATTATAATAAATATCTGCAAATAAGAGGGGTAAAAAAACCACCCATCCATATTTTTTTAAAAAATTATCCATCCTTGCAAAAAGGAGATTATTCTGTTGGTGTTACCTGGCAACAGGCAAAAGACTATTGCCAGTGGTTAGGTAAGGGGGCTGGTAAAACGATTGATTTACCAACAGAGGCGCAATGGGAATATGCAGCAAGATCCAGAGGTCAATACTTTCAGTTTCCAACAAATAATGGTGAGTATTTACCTGGAAAAAATGTTCCGGGTAAAGATGAATTAGATAAATATACAGATGGTTTTGGTTTCCCATTTTACCCAGTAGGCAAATATCCCCCAATCCCCCTGGGTCTGTATGATATGGGGCTCAGTGGCTCTGAATGGACTAATGACTGGTATGCAGCAGATTATTACTCTCATTCTCCGGTAAACGATCCCCAGGGACCTGCGCAGGGTACTAAAAAAGTCCTGCGCGGATATATTGGCGGCGACAGACAGTACGCTTTAACCATGTTCAGGCAATCAAAATTGCCAGTTCCGAAGATCGATAAAGACGATGACTATGAAAAATATGGTGTTGGTCCGCAGTATGTATTTCGTTGTGTCGTTAATAAATAA	MRKLIVVASVAASLLLGCDQKSTDKRETLSEALVAKSLSDMVPVQGGEFLMGDFGPLVGQKLPFSINQDDKVLHKVVLSDFSISKFKVTNDDYNKYLQIRGVKKPPIHIFLKNYPSLQKGDYSVGVTWQQAKDYCQWLGKGAGKTIDLPTEAQWEYAARSRGQYFQFPTNNGEYLPGKNVPGKDELDKYTDGFGFPFYPVGKYPPIPLGLYDMGLSGSEWTNDWYAADYYSHSPVNDPQGPAQGTKKVLRGYIGGDRQYALTMFRQSKLPVPKIDKDDDYEKYGVGPQYVFRCVVNK				NA	NA	NA	NA	NA
BMS020_00890	891	egtB_1		Hercynine oxygenase	ATGAGAAAATTAATCGTAGTTGCTTCCGTTGCTGCCGGTTTACTGACAGGGTGCGATCAGGGAAATACCACCGGGAGTGAAAAAGCAGCTAAAGCACTTGTGGATAAATCGGTCTCTAATATGGTCCCCGTTCAGGGTGGTGAGTTTTTAATGGGTGATTTTGGTCCATTAGTTGGTGAAAAATTACCTTTCAGCATACAACAGGATGATAAAACTTTACATAAGGTTATTTTAAGTGATTTTTCGATATCAAAATATAAAGTCACTAACGATGATTTTAATGTTTATTTGAAAGTAACAGATAAAAAAAATCCACCTGTGGATATACTGGCACAACGTCATCCTTCTCTGCTAAAGGGGGATTATCCTGCAGGTGTTATCTGGCAACAGGCAAAAGATTATTGTCAGTGGTTAGGTAAAAAATCCGGTAAAAAAATTGATTTGCCGACAGAGGCACAATGGGAGTTTGCAGCAAGATCCAGAGGTCAGTATCTTCCGTTTGCTACTAACAATGGTGAGTTTACACCAGGAAAAAATGTCCCAAGCCAGGATGAACTGAATAAATACACTGACGGGATGGGGCTTCCCATTTATCCAGTAGGTAAATACCCATCAAATCCCTTAGGGCTGTATGATATGGGATTGAGTGGTTCAGAATGGACCAATGACTGGTATGCAGCAGATTATTACTCCAACTCTCCGGTAAAGAATCCTCAGGGACCAGAGCAAGGGACCGAGAAAGTGTTGCGTGGGAATGTTGGCGGCGACAGACAGTACGCATTGACTATGTTTAGACAATCTGCTTCACCACTCCCAGAAGAAGTTGATGGTGACTATGAAAAATATGGTGTTGGTCCGCAGTATGTTTTCCGTTGCGTCATCAATAAATAA	MRKLIVVASVAAGLLTGCDQGNTTGSEKAAKALVDKSVSNMVPVQGGEFLMGDFGPLVGEKLPFSIQQDDKTLHKVILSDFSISKYKVTNDDFNVYLKVTDKKNPPVDILAQRHPSLLKGDYPAGVIWQQAKDYCQWLGKKSGKKIDLPTEAQWEFAARSRGQYLPFATNNGEFTPGKNVPSQDELNKYTDGMGLPIYPVGKYPSNPLGLYDMGLSGSEWTNDWYAADYYSNSPVKNPQGPEQGTEKVLRGNVGGDRQYALTMFRQSASPLPEEVDGDYEKYGVGPQYVFRCVINK				NA	NA	NA	NA	NA
BMS020_00891	894	egtB_2		Hercynine oxygenase	ATGAGAAAATTAATTGTAGTTGCTTCCGTTGCTGCCAGTTTACTGCTCGGGTGTGACCAGAAGAGTACTGGCAAGCGTGAAACCTTGTCTGAAGCGCTTGTTGCTAAGTCGCTTTCTAACATGGTTCCCGTTCAGGGCGGCGAGTTCTTAATGGGGGATTTTGGCCCATTAGTTGGTGAAAAACTGCCTTTCAGCATAAACCAGGATGATAAGGTATTACATAAGGTTGTATTAAGTGATTTTTCGATATCAAAGTTTAAAGTTACCAACGATGATTATAATAAATATCTGCAGATAACAGGAATAAAAAAACCTCCCATTAATATTCTGGTCAAAGAGTACCCATCCTTGCAAAAAGGTGATTACTCTGTTGGTGTGACCTGGCAACAGGCAAAAGATTATTGTCAGTGGCTAGGTAAGGAGTCCGATAAAAATATTGATTTACCGACAGAAGCACAATGGGAATATGCGGCAAGGTCAAGAGGGCAGTATCTTCCTTTTGCGACAAATAATGGAAATTTCGAGCTTGGTTCTAATATACCTGAACAAAAGAAATTAGATGAATACACAGATGGTTATGGTTTTCCTATTTATCCAATTGGGAAATATCCTCCGAATCCGCTAGGTTTATACGATATGGGGCTAAGTGGAGCCGAATGGAGTAATGATTGGTATTCAACTGATTATTATTCCCACTCCCCTGTTTATGATCCTCAAGGTCCAGTTAAAGGTAATGAAAAAGTTTTAAGGGGGTATGTTGGCGGAGATCGTCAGTATGCCTTGACTATATTCAGGCAATCGTCACAACCTGTGCCAAAATTTGCTGGGCGTGATGATTATCAAAAGTTTGGAGTTAGTCCTCTTTTTGTATTTCGTTGCGTTATTAATAAATAA	MRKLIVVASVAASLLLGCDQKSTGKRETLSEALVAKSLSNMVPVQGGEFLMGDFGPLVGEKLPFSINQDDKVLHKVVLSDFSISKFKVTNDDYNKYLQITGIKKPPINILVKEYPSLQKGDYSVGVTWQQAKDYCQWLGKESDKNIDLPTEAQWEYAARSRGQYLPFATNNGNFELGSNIPEQKKLDEYTDGYGFPIYPIGKYPPNPLGLYDMGLSGAEWSNDWYSTDYYSHSPVYDPQGPVKGNEKVLRGYVGGDRQYALTIFRQSSQPVPKFAGRDDYQKFGVSPLFVFRCVINK				NA	NA	NA	NA	NA
BMS020_00892	2262			hypothetical protein	ATGGCTACCGGAGAAGAGAAAAGTAAAACATCGGTACAAGGGACGGGAACGGTTGTAAAAGGAAAATATGGCCCAGAATGTTATTTTCACCCAGGTAGCGCAACATTGCTTTTTCTGGCGGCTTCAGATACTAAAATTATCGAACAGGAGCATGATTTTCTGTCTGGCTTGCTTGAAACTCAGAAACAGGCGCAAAAAAATCTTGATGATATTAATTTTGAAGCAATCACTCAGGCAGGCAGAGTGCCAGCAAGAAAATTTGAAAGTGAAATCACTAAAGCCTATGAAGCCTTAAACAAAGCAAATCAGGCTTTGCGGAAAGAGCTTATGTCACTAACAGCGAATCCTCCGGAGGGGGAATTGCTTAATGATAAAATGAAAGATACTGCCATTGGTATAATGGAACTTATTCCGCTTAAAAATAACACAGTGAAAGGATTCAAGAAAACTTATGTGCGTTCCGATAAAATAAAACAACAGTGGCGAACATATAAGCTCAGCGAAGTTGATAAAGAAAGTGGTGAAGCCAGTTTCATAAAATATAAAAACAAAACTATTGTTTCTCAGGATGCGAATGGTAATCCGGTGAATAAAACCATACGTCAGGGAAAAATAGATACAGCGGAACTAAAAAAACAACTAAGTAACGTACCTGTTTCACTGAAATTCGATCTTGTTGACGATACGAATGTTATTGTCAGTCACTGGGCAGAGGAAATGAACAAATCTCTGACCTGGCCAAAGGGGGATGGTAAAGTCGACGAATCTGTTTATCACCAGTATGTTGATATCAGCGCGCAGGCTCAACTGATGCGCTACAGCCATGGAGCGGGTGCATCAGCGGAATATAATCCGTCAGAAAAAAAACTGGAGGGCAAAATAGAAGGTCATGCCAGTTTTGCACTGGGGGAGGCGAAGGCCGAAACGGCCCTGTACCTGCCGGACAGGTTAGGTGTCAGCCTTTTATTTCCGGCGAAAAAAGTGACTCCACAGACACCGGATGGTGTCTGTAATATGGGAGCGCTGCGTTTTGCCATGAAACTGGTATTGTCAGGTAGCGTAGGTGCCAGTGCTGCAATTGAATTAGGGGTGACAGTAGACTGGAGTGGAGAAATGGGAAAGGGCTATGGCATTAAAGGCCGTCCTGCAACCCTGACTGCCCCACCGTTACCAGGACAGCAGCATGTGAATTTAAAGACCTCAACAATACCTGAAGCACAGGGGGGAGGTGAAATTGGTGTTTTTGTTGGTGCTCAGGCGGGAGGTAATATCAGTGGTGCCATTGAGTGGTTTGACCCGCATCCTGATGATACGCCAGTAGCTATAGGTGTTGAGAAAGATAACAAACCCATTGTCAATAAAGAGAAGAAGTTTGCCGCGATAGCCAAACTGGAAGCGGGGATGACGGTGCAGGCAGGCGCAGGGGGAAGTGGGGTTTTTTATATCACCTATATTCAGGGACGTTTTCGTATTTACTGTAAAGCGGCTTTATGTTGGGGAGTGGGAGCCAAAGGGGAAGTCGGTTTTGAAGTTGATGGCAGCAGTTTTGCGGCTTTTATGAAGAGTTTTATGTTTATGTTAAGGAATGTGGATTATCAGAAGTTAGAAGATATGATGGGAGAGAATGCTTTTAGAGGATTATGTTCAATCCCAATAATTATAGCAGCAGAAGGAATACAAGCACTGGAGAAAAGATATAATCAAGTTGTGGATATATTGGACAGCTTAAGAGTAGATCTTCTGGAAGAAAATAAACGTGTGGATTTGATGAGCAGTATTTTATCTAATCCTGATCAGCTTAAGTATACCCCTCCGGAAACAAAAGGGGCAGTGATTGCCACATTAATTGATCAGAACTGGGTGGACTGGCTTGACCCTCGCAATCAGAATAATGATTTTTTTTCCGTTAACAGCTGGAAGCTCGGTCCTCTAAAGAGGCGAAAACAAGCGGTGTTTATGGCGCTGAAGTGGATACAAAGTCAGGCAGATTATAACAATGTCATGCAGCATTTGACGTTGTCGCCAGGGGAGAAGAAAGGTAATAAAGAACTGAATGAAAAAGATGTGATCAACTTTTTAGGTATCGGGGAACAAAAATTGTTTTTTTACACCAATTATGGCGAAAAGCTCACCTTACTGCATAATAACCTCCCGGTTTTTGTTGACCCGGATGAGCCATTTAAACCTATTCCAGACATCCTGATGTCAGAATACCTTGCCATGATTGATGATCAGCACCCGACTTTTACAATGACTGCCTGA	MATGEEKSKTSVQGTGTVVKGKYGPECYFHPGSATLLFLAASDTKIIEQEHDFLSGLLETQKQAQKNLDDINFEAITQAGRVPARKFESEITKAYEALNKANQALRKELMSLTANPPEGELLNDKMKDTAIGIMELIPLKNNTVKGFKKTYVRSDKIKQQWRTYKLSEVDKESGEASFIKYKNKTIVSQDANGNPVNKTIRQGKIDTAELKKQLSNVPVSLKFDLVDDTNVIVSHWAEEMNKSLTWPKGDGKVDESVYHQYVDISAQAQLMRYSHGAGASAEYNPSEKKLEGKIEGHASFALGEAKAETALYLPDRLGVSLLFPAKKVTPQTPDGVCNMGALRFAMKLVLSGSVGASAAIELGVTVDWSGEMGKGYGIKGRPATLTAPPLPGQQHVNLKTSTIPEAQGGGEIGVFVGAQAGGNISGAIEWFDPHPDDTPVAIGVEKDNKPIVNKEKKFAAIAKLEAGMTVQAGAGGSGVFYITYIQGRFRIYCKAALCWGVGAKGEVGFEVDGSSFAAFMKSFMFMLRNVDYQKLEDMMGENAFRGLCSIPIIIAAEGIQALEKRYNQVVDILDSLRVDLLEENKRVDLMSSILSNPDQLKYTPPETKGAVIATLIDQNWVDWLDPRNQNNDFFSVNSWKLGPLKRRKQAVFMALKWIQSQADYNNVMQHLTLSPGEKKGNKELNEKDVINFLGIGEQKLFFYTNYGEKLTLLHNNLPVFVDPDEPFKPIPDILMSEYLAMIDDQHPTFTMTA				NA	NA	NA	NA	NA
BMS020_00893	2487			hypothetical protein	ATGGATACCTCTTCAATAATTACCGGCACCACCCTTAACCGTTACCAGCTGGATATTCCTTCATGTACCGCATCGCTGGATGTGGAAGAATTCAGTGGGGCAGAAAAACTGAGTGAACTTTATTATTACACCATTACGTTTACCAGCGCAGAGAAAAACATTGATGCCGCACAGCTCCTGAGCAAACCCGCCATGCTGACGATGGGCGGCGGCGCACTGCAGCAGCTGGCGGACTGCAAACGCGTCCATGGTGTGATTACCACCTTCCGGCGCGTCAGTCGTTCTGAAGATCAGTCGACCTATCAGATAACCCTCCAGCCGTTTCTCTCCCTGCTGGATAAACAGTTTCGCAGCCACCGTTTTTTCGTCAACAAATCGGTGCCGGAGGTGGTGGAGCAGGTATTGCAGGAACATCACCTGCATGACTGGGAGTATGAGTTTAATCTCAAGCAACACTATCCGCGGCGCGAGCAAATTAATCAGTATCAGGAGAGCGACCTGGCATTTATCCAGCGCCTGCTGGCAGAGGTGGGGATATTTTATTTCTTCACCCTACAGGAAGAGGCGCAGAGCGAAGTGGTCCACTTCGCCGACGCGCAGCGGGCGCTGATGTTCGATAAAACACTTCCTGTAAACAGCCCGTCCGGGATGAGCGACAGCGGTACGGAATCGATATGGGGTCTGAGCATCACGCACAACGTCGTAGAGGCGAACGTCACTACCCGGGATTATAACCCCCGCGATGCGCAGAGCGTTCTCCAGTCGGCAACAGCGGATATGACCCGGGGAAATGGTGAAGGCATCACTTACGGAGAGGTATACCACTATAAGCTTCGCCACCGGGAGCGGGGCGATAAAATCGACCCGCAGGCGGAGACCGCCAACTTCTATGCCCGTCTCGACCATGAGCGTTTTCTCGCTCGCCAGACGCTGATTACCGCGAGCAGTACGGCAGCCTGGCTGGCGCCGGCCCAGGTGCTGACCCTCACCGACAGCCTGCCGTCGACCCTGCCTGCCCCCGTGCAGGATTCGCTGTTAATCACCGGCACCGGTTTTACCGCCAGCCGCCGGGAGGCGCTGCGGGTGACCCTGCTGGCGGTGCCCTACAGCGAAACATTGTGCTGGCGTCCGCCGCTGCTGCCTCGCCCGAAGGTGACTGGCACCATGACGGCGAGGGTGACCAGCGCGAAGGCGAATGATATCTACGCCTGGCAGGATGCGTCCGGCCTGTACCGGGTGAAATTTGACGCTGACAGAGATGATAAAGGGCAGGGTCAGGAGAGTATGCCGGTGCGGCTCGCTAAACCTTACGGCGGCGATGTGTACGGCTTTCACTTCCCGCTGGTCCAGGGCACGGAGGTGGCGATTGCTTTCCACGAAGGCGATCCTGACCGGCCGTATATCGCTCATGCACTGCACGACTCGCGGCATGTTGACCCTGTGACGGAAAAGAACAGCACCCGCAATGTGATTCGTACTCCGACCAACAATAAGCTGCGAATGGAGGATAAGCGCGGCGAGGAGCATATCAAGCTCAGCACCGAGTACGGCGGCAAGACGCAGCTGAACCTGGGGCATAATGTGGATGCGCAGAGGGAATTGCGGGGGGAGGGGGCGGAACTGCGTACGGATAAATGGGTGAGCATCCGGGGCGGTGCGGGAGTGTTTATCAGTGCGGATAAACAGCCTTCGGCAGGCGACAGGATGCTGGCAATGGAGGAGGCGATTGCGCAGCTTGAAAATGCCCTGGGTATTGCGAAAAGCCTGGCGTCGGCAGCGGAATCGGCTCAGGCCCTGCCATCGGATACCGGCAACCAGCAGACGCTGAACGATGCGCTGAAAGAGCTGGCGCAGCCGGGGATAGTGCTGAATGCGCCGCAGGGCGTGAGCATCAGCAGTCCGCAGGCGGTACGGTTGTCTTCGGGTAGCGCCAGCGTGGGGATTGTGTCACAGCAGAATACGGACATCAGTGCGCTGAAACGTTTTACGGTAGCGGCGGGAGAAGCCGTCAGCCTGCTGGCACGAAAGACGGGGATTAAGCTGTTTGCGGCGAAGGGAAAGATGGAAATCCAGGCGCAGGATGATGCGCTGGAGGCGACGGCGAAAAAGGATATCACCGTGACCAGCGTGGAAGGGCGAGTGGAAATCACGGCGGCGAAGGAACTGGTGGTGAACTGTGCGGGAGCGTATATCAGGCTAAGTGGTGGCAATATCGAGCTGGGCTGCCCGGGGAATATTCTGCTGAAATCGGCCAATGTGCAGAAAATGGGCGCAGCTGATTATGATGCAAACAAACCTGAGCTTCCCGTCGGTTTCAGTGAGTTTTTTACTGCAAAAGATGAAGAGTCCGGGGAGATTTTACCTTTTACCCGGTACAGGATAACAACCGGTGAAGGTAAAGTATTTGAAGGCAGGACCGATGCGGAAGGTAAAACTGTTGCAGTTTATACTGCCCTGCCTGATGCCCTGCATATAGAATTACTTTAA	MDTSSIITGTTLNRYQLDIPSCTASLDVEEFSGAEKLSELYYYTITFTSAEKNIDAAQLLSKPAMLTMGGGALQQLADCKRVHGVITTFRRVSRSEDQSTYQITLQPFLSLLDKQFRSHRFFVNKSVPEVVEQVLQEHHLHDWEYEFNLKQHYPRREQINQYQESDLAFIQRLLAEVGIFYFFTLQEEAQSEVVHFADAQRALMFDKTLPVNSPSGMSDSGTESIWGLSITHNVVEANVTTRDYNPRDAQSVLQSATADMTRGNGEGITYGEVYHYKLRHRERGDKIDPQAETANFYARLDHERFLARQTLITASSTAAWLAPAQVLTLTDSLPSTLPAPVQDSLLITGTGFTASRREALRVTLLAVPYSETLCWRPPLLPRPKVTGTMTARVTSAKANDIYAWQDASGLYRVKFDADRDDKGQGQESMPVRLAKPYGGDVYGFHFPLVQGTEVAIAFHEGDPDRPYIAHALHDSRHVDPVTEKNSTRNVIRTPTNNKLRMEDKRGEEHIKLSTEYGGKTQLNLGHNVDAQRELRGEGAELRTDKWVSIRGGAGVFISADKQPSAGDRMLAMEEAIAQLENALGIAKSLASAAESAQALPSDTGNQQTLNDALKELAQPGIVLNAPQGVSISSPQAVRLSSGSASVGIVSQQNTDISALKRFTVAAGEAVSLLARKTGIKLFAAKGKMEIQAQDDALEATAKKDITVTSVEGRVEITAAKELVVNCAGAYIRLSGGNIELGCPGNILLKSANVQKMGAADYDANKPELPVGFSEFFTAKDEESGEILPFTRYRITTGEGKVFEGRTDAEGKTVAVYTALPDALHIELL	PGPT0030410_1592	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
BMS020_00894	1698	ompA_2		Outer membrane protein A	ATGTGTGATAACGCCTGTCGTCTGCTTACGCTACTGACCGTCATCCTGGCCCTGTGGCTGGTGCTGGGCTTCTGGCCGCTGTCCATCGGCAACCAGGTGATCGTCAGTCTGTGCATCCTGCTGGTGGGCGGCGCGGCGCTCTGGCGTCAGCGTCGCCGGGCAGTCAGCCGTCAGCGACCGGAAATCGTCCTGCCGTCCGAGGATTTTCAGGGGGCGGTGGTTCTGGTCTGCGGGGATACCGACGGTCTGTTTCCCGGGCGTTCGGCGCACTGCGAAACCCGCCTCGGCTGGTATCTACGGGGGGAAAGCGCGGAGCAATTGCCGCTGCTGGCGCAGTACCTGGCGGCGGCGCGTCCAGCACTGGTATCGCAGGTTTCCGTGCTGCTGGCGGTGGTACCGGAGCACCACACCACCGGGGAGCACCTGGTGCAGTCGCTGTGCGACTGGCGGCGGAGTATTGTTCAGTGCCGAACCTGGTTAAACGGTCTGCCGCCGGTGTGGAGCGTGTTCTGGGTGACGCCGCCTGGCGGCCAGGTAGAGGAAAACCGCTGGTTTACCGTCACGCCGGAGAGGCCTGGTCTCCAGGTGCGGCAGAAAGGACAAGCGCCCCAGTCGGTTGCCGAGTGGCAGCGGGAGGGCAGACCTGATTCACGCCTGTATCAGACGCTGTGGCTGGAGAGCATTCTGGCGTTGGCAGAAAACGTTCTTTTCCGGCCATTCCGCGCCCGGCAGGCGGAACTTCCTCCGCTGAACCTGTGTGCCGTGGGCATCTGCCTGACACCGATGGTAGCGGCGGCAAATAACCTCTGGCAACAGCAAATCGCCGGGATCACCACGCTCTCCCCGGGCAACGCCGCGGCGCCAGGTCCTCACCCGCTGCCGGATCTTCTTCTGTCAACACTGCCTCACCGCCACGGGGTCAGCCGCCGGATGCGCGCTGCCGGTCTTGCCGCTGGCATGGGCTTCCTCTTTCTGGCGCTGGCGATGCTGGCTTCCTTTATCAACAACCAGCGCCTCGTGCGCAGCGTCGGCGATCATCTGGCGGTCTACCACCGCCTTAGCGGCGCGCCGCCGACGCCGAAGCTGCAGGCGCAGCAGCGTCTGCGTGCCGACAGCCGCCTGCTGGATGACTGGCAGCGCCGGGGAGAGCCGCTGCGTTACCGGCTGGGGTTGTATCAGGGATTGCGGCTGATCCCCTTCGTGGAAGCCGCGATCAATGACTGGGCGCCGCCCCCGCCGCCGCGTCCGGTCATTAAGCAGGTTGTGCAGGGGCCGCAGACGATCCGCCTCGATAGCATGGCGCTGTTCGATACCGGCAAATCGACGCTGAAACCGGGTTCGACAAAGCTGCTGGTGAACTCGCTGCTGGGCATTAAGGCGAAACCCGGCTGGCTGATCGTGGTGGCAGGCCATACCGACAGCATCGGCAATGATAGATCTAATCAACAACTCTCCCTGAAGCGTGCCGAGGCGGTCCGCGACTGGATGCGCGATACCGGCGATGTGCCGGAGAGCTGTTTTGCGGTGCAGGGCTACGGCGCAAGTCGTCCTGTCGCCAGCAACGAGACGCCAGACGGGCGGGCGCAAAATCGCCGGGTGGAGATCAGTCTGGTCCCGCAGAAGGACGCCTGTCTGACGCCGGGCACGGCTAATACCTCAGGAGCCGGGGCTGACGCCTTAAAAAACGAAACCGAGTAA	MCDNACRLLTLLTVILALWLVLGFWPLSIGNQVIVSLCILLVGGAALWRQRRRAVSRQRPEIVLPSEDFQGAVVLVCGDTDGLFPGRSAHCETRLGWYLRGESAEQLPLLAQYLAAARPALVSQVSVLLAVVPEHHTTGEHLVQSLCDWRRSIVQCRTWLNGLPPVWSVFWVTPPGGQVEENRWFTVTPERPGLQVRQKGQAPQSVAEWQREGRPDSRLYQTLWLESILALAENVLFRPFRARQAELPPLNLCAVGICLTPMVAAANNLWQQQIAGITTLSPGNAAAPGPHPLPDLLLSTLPHRHGVSRRMRAAGLAAGMGFLFLALAMLASFINNQRLVRSVGDHLAVYHRLSGAPPTPKLQAQQRLRADSRLLDDWQRRGEPLRYRLGLYQGLRLIPFVEAAINDWAPPPPPRPVIKQVVQGPQTIRLDSMALFDTGKSTLKPGSTKLLVNSLLGIKAKPGWLIVVAGHTDSIGNDRSNQQLSLKRAEAVRDWMRDTGDVPESCFAVQGYGASRPVASNETPDGRAQNRRVEISLVPQKDACLTPGTANTSGAGADALKNETE				NA	NA	NA	NA	NA
BMS020_00895	654			hypothetical protein	ATGAATATCTCTGAAAGCGATCTGATCAACAAAACCTTTTACCCGGGCTGGCTGATGGTCAGTCAGTTACGCTGCGGCCAGCCGGTGACCGATGGCGAGGCGCTCTATCGTCAGGCCTGTCGATGGGTGACCGAGGCGCGAGAGGCGCTGGCGGCGGCAGGCGTCAGTGAAGCCAGCGCTGAGCAGATGCTCTATGCCTACTGCGCGCTGCTTGATGAGAGCGTCCTTAACCGCGCCAGTCAGGATGATGGCTGGCGCAGGTGGCGCAAGGATCCGCTGCAGGCGCGCTTTTTCAGCACCCTCAACGCCGGGGAAGAGCTCTGGGAACGGATCCGCCAGCTGCTACGAGAGCCCGCGGCGGATGCGGCAGTGCTGACCTGCTTCTTTCGTACTTTGCAGCTGGGGTTTGTCGGAGAGTACCGCGCCCAGGATGACGAACGGCGTGAGGATGTAGCGCATGCGCTTGGCGCGCGGGTTCCGCCGTTCAGCATAACCCAGGAGGCGCCGGTGGTGGTTCGTGCCTCCCGGCTGCGCAGCGGACGGCGGATGTACTGGTGCGGCTGGGCGGCTGGCATTGTGGCGCTGGCGGCGCTGTGGTTGACCTTCTCCTCCATGCTGTCACAGATGGTGGCGCATATAGCAGGGCAGGGATAA	MNISESDLINKTFYPGWLMVSQLRCGQPVTDGEALYRQACRWVTEAREALAAAGVSEASAEQMLYAYCALLDESVLNRASQDDGWRRWRKDPLQARFFSTLNAGEELWERIRQLLREPAADAAVLTCFFRTLQLGFVGEYRAQDDERREDVAHALGARVPPFSITQEAPVVVRASRLRSGRRMYWCGWAAGIVALAALWLTFSSMLSQMVAHIAGQG	PGPT0025955_1588	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025955-impK|ompA|vasF|dotU-K11892	NA	NA
BMS020_00896	1341			hypothetical protein	ATGAAGATTTTCCGCCCATTATGGCGCGATGGGGCTTTTCTGGTTCCGCAGCAGTTTCAGCAACAGGCCCGCTGGGAGGCGCACGTCGCCGATACGGTCTCCCGCATGGCGCTCGCCCACCCCTGGGGGGTATTGCGCGCGGAGTTTGACGCCAGCGCGCTCACTCTTTCCCGGCTCAACGCCACCCGGCTGATCGTGCGTTTCGCCGACGGCGCGCTGATTGACACCGAGCTGGCGGATATTTTGCCACCGGTCCGCGATGTATCGGACGTGATGCAGGACAACGTGGAGGTTCTGCTCGCTCTGCCGCTGCTCAGCGCCAGCGGCGGCAATCTTGATGACGGCCAGGAAAGCGCCCGCCCGCGCCGCTGGCGCGCCGAGCAGGTGACCGTGCAGGAGCTGGCAGGCCATGAACGCAGCGAGCTGGCCGTCCTGCGGCACACGCTGACGCTGCGTCTCTCCATCGAAGAAAACGCAGCCTTCCTAACCTGCCCGGTAGCGCGTCTGGGACGCGACGCCCAGGGACAGTGGATCTTTGACCCGAAATTCATCCCGCCGCTGCTGTCGCTGGCCGCAAGCCCGACGCTGGTCAGCGAGCTGGGCGAGCTGCTACATCGCCTGCAGGCCCGACGCAGACGCCTCATGGCCATGCGCCGTGAAAGCAATGCGCGGATGGCTGATTTTGCCGTGGCGGATGTTTCCCTGTTCTGGCTGCTCAACGCACTGAACAGCGCCGAGCCGGTGCTCAGCGAGCTGCATCAGGACCCTTCGCGCCATCCGGAGCTGCTCTATCGTGAACTGGCCAGGCTGGCCGGCAGTCTGCTGACCTTCTCTCTTGAACATCATCTGGACGCGATCCCCCGCTACCGGCATGCCTCGCCGGAGCAGGTATTCCCACCGCTGTTTGCCCTGTTGGATACGCTGCTCGAAGTCAGCTTGCCCTCAAGGGTGATCGCCATCGCGCTGGAGCAGGGTGCTGACCGGGAGATCTGGCGGGGGAGGCTGCACGATGCACGGCTGCGCGAGGGGGCGGATTTTTATCTGTCGGTGCGTTCTTCACTTCCCCCTCACCAGCTTCAGAGCCGCTTTCCGCAGCTCTGTAAGGCGGGTAGCCATGATGATGTCGCCGAGGTCGTCAACATTGCCCTCAGCGGCATCGCGATCAAACCGCTGAGCCACGTGCCGGCGGCCATTCCGCTACGTCTGGAAAACCAATATTTCGCTCTGGATCTTTCCACCGATGCCGCCCGCGCGATGCTGGAGGCTGGCAACTGCACCTTCTATACCCCGGAATCGCTTGGCGACGTGAAACTTGAACTCTTTGCGGTACTGCGCTCATGA	MKIFRPLWRDGAFLVPQQFQQQARWEAHVADTVSRMALAHPWGVLRAEFDASALTLSRLNATRLIVRFADGALIDTELADILPPVRDVSDVMQDNVEVLLALPLLSASGGNLDDGQESARPRRWRAEQVTVQELAGHERSELAVLRHTLTLRLSIEENAAFLTCPVARLGRDAQGQWIFDPKFIPPLLSLAASPTLVSELGELLHRLQARRRRLMAMRRESNARMADFAVADVSLFWLLNALNSAEPVLSELHQDPSRHPELLYRELARLAGSLLTFSLEHHLDAIPRYRHASPEQVFPPLFALLDTLLEVSLPSRVIAIALEQGADREIWRGRLHDARLREGADFYLSVRSSLPPHQLQSRFPQLCKAGSHDDVAEVVNIALSGIAIKPLSHVPAAIPLRLENQYFALDLSTDAARAMLEAGNCTFYTPESLGDVKLELFAVLRS	PGPT0025950_884	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025950-impJ|vasE-K11893	NA	NA
BMS020_00897	330			hypothetical protein	ATGAAACCGCTATTTGTCTATGGGACGCTCTGTCCCGGTCGCAGCAATGCGCATATTCTGGAGGCGATCGGGGGCGAGTGGCGTCCGGGCTACGTTACCGGTACCTTTTACGCGCGCGGCTGGGGCGCAGCCGCTGATTTTCCGGGGATCGTCCTCGATGCCAACGGCCCGCGGGTCAACGGCTATCTGTTCCTGTCCGACCGGCTGGCGGCGCACTGGCCCATGCTGGACGACTTTGAGGAGGGGTACGATCGGGTGCCGGTGGAGGTGACCACCGACGATGGACAGCAGGTCAGCGCCTGGATTTATCAGCTCCAGCCCCGGGAGTAA	MKPLFVYGTLCPGRSNAHILEAIGGEWRPGYVTGTFYARGWGAAADFPGIVLDANGPRVNGYLFLSDRLAAHWPMLDDFEEGYDRVPVEVTTDDGQQVSAWIYQLQPRE				NA	NA	NA	NA	NA
BMS020_00898	540			hypothetical protein	ATGACAAAACTTACCTTACAAGAGCAGATGCTCAAAGCCGGCCTGGTCAGCAGCAAAAAAATGGCCAAAGTCCAGAGAACGGCGAAAAAATCCCGCGTGCAGGCCCGTGAGGCCCGGGAAGCGGTGGAAGAGAATAAAAAAGCCCAGCTGGAGCGCGATAAACAGCTCAGCGAGCAGCAAAAGCAGGCGGTGCTGGCGAAAGAGTATAAAGCTCAGGTCAAGCAGCTGATTGAGATGAACCGCATTACGGTCGCCCGGGGCGATATCGGCTTTAACTTTACCGATAATAATCTGATCAAAAAAATCATGGTCGACAAGACCACCCAAACCCAGCTGATTAACGGTCGCCTGGCGATTGCCCGCCTGGCGGTGGATAACAAACCTGAAGGGGAATATGCAATTATTCCGGCGATTGTGGCTGAGAAAATTGCCCAGCGCGATGCCAGCAGCATCGTGTTGCACAGCGCCTTGAGCCAGGATGAGCAGGATGAAGACGATCCGTACGCCGACTTTAAGGTGCCCGACGACCTGATGTGGTGA	MTKLTLQEQMLKAGLVSSKKMAKVQRTAKKSRVQAREAREAVEENKKAQLERDKQLSEQQKQAVLAKEYKAQVKQLIEMNRITVARGDIGFNFTDNNLIKKIMVDKTTQTQLINGRLAIARLAVDNKPEGEYAIIPAIVAEKIAQRDASSIVLHSALSQDEQDEDDPYADFKVPDDLMW				NA	NA	NA	NA	NA
BMS020_00899	699	rluA_1	COG0564	Dual-specificity RNA pseudouridine synthase RluA	ATGTCCACCATTATCGATACCTTTGTCGCTCCGCCGTGCCGCGAGCAGATAACCCTCCTGTATCAGGACGAACACCTGCTGCTGATCAATAAACCTGCCGGGCTGCTGAGCCTGTCAGGCAAAGATCCGCGTAACCTCGACTCCGTGCATCATCGACTGGTCCAGCGCTTTCCGGGCTGCACCCTGGTACACCGCCTTGATTTCGGCACTTCCGGTCTGATGGTGGTCGCCCGCAACAAGGTGATTAACGCCGCGCTGTGCCAGCAGTTCAGTCAGCGCACGGTAGGTAAGGTCTATACGGCGCTGCTGTGCGGCCATCTGCCGGAAGATGAAGGGATAGTGGAGGCGGCGATCGCCAAAGACCCGGCCCGTTTCCCGCGCATGTCGATCTGCGCCCGGCACGGCAAACCGGCGCGTTCGCGCTACCGGGTAATTGACCGTATGTACCAGACGCGGGAAGGGGAGAGGGCGCTGGCGCTGACGAGGGTAGCGCTCACCCCGGAGACCGGGCGCACCCATCAGCTGCGGATCCACTGTCAGCTGCTGGGCTATCCGATCCTTGGCTGCGATCTGTATGGCGGCCGGGAATTGCCGGGCACGGAGCAGGCTCCGCGGCTGATGCTGCACGCCAGCGAACTGCGTTTTCGCCACCCCGTCAGTCGCGAGCCGATGCATATCCAGCAGGCAAGCTCGTTCTGA	MSTIIDTFVAPPCREQITLLYQDEHLLLINKPAGLLSLSGKDPRNLDSVHHRLVQRFPGCTLVHRLDFGTSGLMVVARNKVINAALCQQFSQRTVGKVYTALLCGHLPEDEGIVEAAIAKDPARFPRMSICARHGKPARSRYRVIDRMYQTREGERALALTRVALTPETGRTHQLRIHCQLLGYPILGCDLYGGRELPGTEQAPRLMLHASELRFRHPVSREPMHIQQASSF				NA	NA	NA	NA	NA
BMS020_00900	483			hypothetical protein	ATGGCGATGAACGGAACAATCACAACGTGGTTTAAAGATAAAGGTTTTGGATTTATCAAAGATGAAAACGGCGAAAACCGGTATTTTCATGTGATTAAGGTCGCCAATCCCGATCTCATCAAGAAAGACGCGGCGGTGACTTTTGAACCTACCACTAACAATAAAGGGCTGTCGGCCTACGCGGTGAAGGTCATTCCGGAAAGCAAATATATCTATATCGCCGGCGAGCGGCTGAAGCTGACCTCCATCAAATCCTATGTGGTTTACCGGGAAGAAGAGCCGGTCGAGACCCGCGTGGATAAAGAAAACGCGGTGCTGTCGGTCGGGCTGCTGATGAACAGCATCCGGCCAAAATCCGCGGTGCAGCCGGGAGAGATGCGCTCGGTGAAAAAGCTGGCGATCACCACCTTTCAGGGGACAACCCTGATCTTCTCGGAAGACGAAATCGATATCGATGCCACGGTAAAACTGCTCAAGGTATGA	MAMNGTITTWFKDKGFGFIKDENGENRYFHVIKVANPDLIKKDAAVTFEPTTNNKGLSAYAVKVIPESKYIYIAGERLKLTSIKSYVVYREEEPVETRVDKENAVLSVGLLMNSIRPKSAVQPGEMRSVKKLAITTFQGTTLIFSEDEIDIDATVKLLKV				NA	NA	NA	NA	NA
BMS020_00901	900	oxyR_2		Hydrogen peroxide-inducible genes activator	ATGCCCGTAAATTTTGACTTCAACGATCTCTATGCCTTTCGCGCCCTGATGGAATATGGCAGCTTTCGGCTGGCCGCAGAATCCATTTGCCTGTCGCAGTCGGCCCTCAGCCGCCGCATCGAAAAGCTGGAGACCGCGTTAGGCAACCGGCTGTTCGAGCGCACCACCCGCCGCGTGACCCTTACGCTGTATGGACAGAATTTTGCCGAACGTTCGGAGCAGCTGCTGGCCCACGTCGAGACGGTGCTGGCGGATATCAGCCAGGTCAGCAAGGCGCGTACCGGGCTGGTGACAGTGGCGACGGTACCTTCCGCCGCCTACTACTTTATGCCGGAAATCATCCGCAGCTTTCAGGCGCGCTTTCCCCAGGTGCGTATCCGGCTGATCGACAGCAGCGCCGGGAATGTCATTGAGGCGGTGAGCAGCGGACAGGCTGACTTTGGCCTCTGCTTTGCCAAAAACCTGCCGGCCAGCATCGAATTCACCCCGCTGGCCGACGACCGCTATGTCGCCGCCTGTCGGCACGACCATCCGCTGGCGAGCAGGACGCACCTCAGCTGGCAGGCATACTTTGAACAGGATTATATTGGCCTCGATCGGGTCTCCGGCAACCGGACGCTGCTCGACAGGGAGCTGGCGCATCTGACGCCGGCGCGGCCAAGCATTTGCGAAACCCGCCACGTCACCACGATGCTGGGGATGGTGGAAGCGGGCATCGGCATTGCCGCCGTGCCCGCGATGTCGATGCCCGCCGGGGAGCATTCCGTTCTCCGCGCCGTACCGCTTACCGACCCGGTGGTCACCCGTACGGTAGGCCTGATCCGCCTCAGCGGCCGTATTCAGTCCTACGTGGCGGCAGAGCTGGAGAAGCTGATTATTGAACAGTATCCTTCTGGCTGA	MPVNFDFNDLYAFRALMEYGSFRLAAESICLSQSALSRRIEKLETALGNRLFERTTRRVTLTLYGQNFAERSEQLLAHVETVLADISQVSKARTGLVTVATVPSAAYYFMPEIIRSFQARFPQVRIRLIDSSAGNVIEAVSSGQADFGLCFAKNLPASIEFTPLADDRYVAACRHDHPLASRTHLSWQAYFEQDYIGLDRVSGNRTLLDRELAHLTPARPSICETRHVTTMLGMVEAGIGIAAVPAMSMPAGEHSVLRAVPLTDPVVTRTVGLIRLSGRIQSYVAAELEKLIIEQYPSG				NA	NA	NA	NA	NA
BMS020_00902	807	ais		Aconitate isomerase	ATGCGTAAAACGACAGGAACCCTGCTGGCCACGCTGCTGCTGGCCGCCACCGGCGGCAGCGCGCTGTCCGCTGAGGTCACCGTGATGATCTCCGGCGGCTTCAAAGCGGCGCTGGAAAAGCTGGCCCCGGCATGGGAAAAACAAAGCGGCAACCACCTCGTGGTGATCCCCGGCCCGTCGATGGGGAAAACGCCGCAGGCGATCCCTAACCGCCTGGCGCGAGGCGAACACGCGGACGTGGTGATTATGGTCGGCGACGCGCTGACCAGCCTCGAGAAAGCGGGCCGTACGCAACCGGATTCGCGCCGGGAGCTGGCCGACTCGCCCATCGGCGTGGTGGTGAAAGCGGGAGCGCCGCTGCCGGCTATCCGCAGCGCAGACCAGCTGCGGGCGGCGCTGCTGGCTGCGCCGTCGGTCGCGTACTCCGACAGCGCCAGCGGACGCTATGTCAGCTCGACGCTGTTCCACCGCCTGGGCATTGATGAGGCGATGCAGAGCAAAGCGCAGATGGTGGAGCGTATTCCGGTAGCCTCGGAAGTGGCGAAGGGACTGTATGCGATCGGTTTTCAGCAGGTAAGCGAACTGCTGCCGGTGCCCGGCGTGACCTTTGTCGGCGAACTGCCGGATAACCTGCAGTACATCACCCGCTTTGCCGGGGCGGTGACCGTCAGCGCCGACCACCCGCAGGAAGGAAAGGCGCTGCTGACGTATCTGGCCTCACCGGCGGCGCAGGAGACCATCCACGCCACCGGTATGCGAAGCGTAGCTGCCGCCGCGCCGGTCAGCCAGAAGGATACTGTTCAATAA	MRKTTGTLLATLLLAATGGSALSAEVTVMISGGFKAALEKLAPAWEKQSGNHLVVIPGPSMGKTPQAIPNRLARGEHADVVIMVGDALTSLEKAGRTQPDSRRELADSPIGVVVKAGAPLPAIRSADQLRAALLAAPSVAYSDSASGRYVSSTLFHRLGIDEAMQSKAQMVERIPVASEVAKGLYAIGFQQVSELLPVPGVTFVGELPDNLQYITRFAGAVTVSADHPQEGKALLTYLASPAAQETIHATGMRSVAAAAPVSQKDTVQ	PGPT0008435_1064	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008435-modA-K02020	NA	NA
BMS020_00903	1296	proP_1		Proline/betaine transporter	ATGCATTCGACAACCTCACTGATGAGCACCCGTGACCGGCTCGGCGCCATTCTGCGCGTCACGTCCGGTAACTTTCTCGAACAGTTCGACTTTTTCCTGTTCGGGTTTTATGCCACCTACATCGCACATACCTTTTTTCCGGCGAGCAGTGAATTCGCCTCGCTGATGATGACCTTCGCGGTCTTTGGCGCCGGCTTTCTGATGCGGCCCATCGGCGCCATCGTGCTTGGCGCCTATATCGACAAGGTAGGGCGGCGCAAAGGGCTGATTGTGACCCTGTCGATCATGGCCACCGGCACCTTCCTGATCGTGCTGATCCCCTCTTACCAGGCCATTGGCCTGTGGGCGCCGCTGCTGGTGCTGATCGGCCGCCTGCTGCAGGGCTTCTCCGCCGGCGCTGAGCTGGGCGGGGTATCCGTCTATCTGGCCGAGATCGCCACCCCGGGCCGCAAAGGGTTTTACACCAGCTGGCAGTCGGGCAGTCAGCAGGTCGCCATTATGGTGGCGGCCGCGATGGGCTTTGCCCTCAACGCCGTGCTGGAGCAGAGCGCCATCAGCGACTGGGGCTGGCGTATTCCGTTCCTTTTCGGCTGCCTGATCGTCCCGTTCATTTTTGTGCTGCGCCGTAAGCTGGAGGAGACCCAGGAGTTTACTGCCCGCCGCCATCATCTGGCGATGCGCCAGGTATTCGCCACCCTGCTGGCGAACTGGCAGGTGGTCATCGCCGGGATGATGATGGTGGCGATGACCACCACCGCGTTCTATCTGATCACCGTCTATGCGCCGACCTTTGGCAAAAAAGTGCTGATGCTCAGCGCCTCGGACAGCCTGCTGGTCACGCTGCTGGTGGCGATTTCCAACTTCTTCTGGCTGCCGGTGGGCGGGGCGCTGTCCGACCGCTTTGGCCGCCGGCCGGTGCTGATTGCCATGACCCTGCTGGCGCTGGCTACCGCGTGGCCTGCGCTGACCATGCTGGCGAACGCGCCGAGCTTTTTGATGATGCTGAGCGTGCTGCTGTGGTTGTCCTTTATCTACGGCATGTACAACGGGGCGATGATCCCGGCGCTGACCGAAATTATGCCCGCCGAAGTGCGCGTGGCAGGCTTCTCGCTGGCCTATAGCCTGGCGACCGCGGTGTTTGGTGGCTTCACGCCGGTGATTTCCACGGCGCTGATTGAATATACCGGTGATAAAGCTTCCCCAGGCTACTGGATGAGCTTTGCCGCCGTCTGCGGCCTGCTGGCCACTTGCTACCTCTATCGCCGCAGCGCCGTTACGCTGCAGACGGCACGTTAA	MHSTTSLMSTRDRLGAILRVTSGNFLEQFDFFLFGFYATYIAHTFFPASSEFASLMMTFAVFGAGFLMRPIGAIVLGAYIDKVGRRKGLIVTLSIMATGTFLIVLIPSYQAIGLWAPLLVLIGRLLQGFSAGAELGGVSVYLAEIATPGRKGFYTSWQSGSQQVAIMVAAAMGFALNAVLEQSAISDWGWRIPFLFGCLIVPFIFVLRRKLEETQEFTARRHHLAMRQVFATLLANWQVVIAGMMMVAMTTTAFYLITVYAPTFGKKVLMLSASDSLLVTLLVAISNFFWLPVGGALSDRFGRRPVLIAMTLLALATAWPALTMLANAPSFLMMLSVLLWLSFIYGMYNGAMIPALTEIMPAEVRVAGFSLAYSLATAVFGGFTPVISTALIEYTGDKASPGYWMSFAAVCGLLATCYLYRRSAVTLQTAR	PGPT0001505_305	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_CITRATE_TRANSPORT,PGPT0001505-citA|tcuC-K03288	NA	NA
BMS020_00904	933	pcpR		PCP degradation transcriptional activation protein	ATGAATATTATGCATCCTGTCCTGCGCCGTATCGACCTCAACCTGCTGCCGGTCTTTGACGCGGTCTATCGCTCCCGCTCGGTGCGCCTGGCGGCAGAAGAGCTGGCGATGAGCACCTCGGCGCTGAGCCATGCGCTCTCCCGGCTGCGCAGCGCCCTCAACGACCCGCTGTTCTATCGGGAAGGTCACCGGATGTGTCCCAGCGTCTATGCCAGCCAGCTGGCGCCCTCTATCGCTTCGGCGCTGAAATTTCTCAATCAGGAGCTGACGCCGCCGGCGGCGTTTGTGCCGGCCGCCAGCACCGACTGCATGCAGATTGCGATCACCGATTTCACCGCGTTCTGCGTCTTTCCGACGCTGATGCACCACCTGCAGCGTGAGGCGCCCGGGCTGCGGTTTGAGCTCCGTTATCTGCCCCACAGCCCGGCGCTGACCGAGCTGCTGGCGGGGGAGGTCGATCTGGCTCTCGGGTTCAATACCCCTGACGAGCCAGTTCATCCCGATCTCGAGGAGATTAACTGGCTGCGGGACGAATATGTGGTTATCAGCCAGGCCGACCGAACGGCGCTCACCCTGGACGCCTACCTTGCGGCCCGTCATCTGGTGGTGACCCCGTGGAATGAGCGGCAGGGGGTGCTGGACTGTGAGCTGGAGCGGCAGGGCTATTCGCGGCAGGTGGCGGTGAAAACGCCCTCGATGCTGAGCGCTCCCTTTATTATTGAGCAGAGCGATCTGCTGATGGCGCTGCCCCGGCGGGCGGCGGAGACGATGGCTCGCGCCGCCCGGCTGACCATTTTCCCGCTGCCGTTTCCGGTTCCCCCGTTTGACGTCAAGATTTACGCCCACAAACGCAGCGGGAAACGCGAGGCCACCCGCTGGCTGATCTCCCTGTTGCAGACGCTGGGGAACGCCGCCGCGGCGCCGGCGCCCTGA	MNIMHPVLRRIDLNLLPVFDAVYRSRSVRLAAEELAMSTSALSHALSRLRSALNDPLFYREGHRMCPSVYASQLAPSIASALKFLNQELTPPAAFVPAASTDCMQIAITDFTAFCVFPTLMHHLQREAPGLRFELRYLPHSPALTELLAGEVDLALGFNTPDEPVHPDLEEINWLRDEYVVISQADRTALTLDAYLAARHLVVTPWNERQGVLDCELERQGYSRQVAVKTPSMLSAPFIIEQSDLLMALPRRAAETMARAARLTIFPLPFPVPPFDVKIYAHKRSGKREATRWLISLLQTLGNAAAAPAP				NA	NA	NA	NA	NA
BMS020_00905	477			hypothetical protein	ATGAGCATCACGATCCGCCAGGCCACCCCGGACGACGCCACCGCTATTTATGACATGATTTATGAACTCGCGGTCTACGAGAAAGCCCCCGAAGAGGTGGTGACGACGGCAGAGGAGATCAGAGAGACGCTGTTTGCCAGCAGCAGCAAAACCGAGGCGCTGATCTGCGAGGTGGCGGGCAAAGCGGTGGGCTACGCCGTGTTCTTCACCAGCTACTCCACCTGGCTTGGCCGTAACGGCATCTATATGGAGGATCTGTACGTAACCCCCGACTATCGCGGGATCGGCGCCGGAAAAGCGCTGCTGAAAACCATCGCGCAATATGCTGTACAGCGTCAGTGCGGGCGTCTGGAGTGGAGCGTGCTCGACTGGAACCAGCCGGCGATTGATTTCTATCTGAGCATTGGCGCGCAGCCGCAAGATGAGTGGGTGCGTTATCGCCTCACTGGCGATGCGCTGCAGGCCTTTGCGGAGTAA	MSITIRQATPDDATAIYDMIYELAVYEKAPEEVVTTAEEIRETLFASSSKTEALICEVAGKAVGYAVFFTSYSTWLGRNGIYMEDLYVTPDYRGIGAGKALLKTIAQYAVQRQCGRLEWSVLDWNQPAIDFYLSIGAQPQDEWVRYRLTGDALQAFAE	PGPT0007790_868	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
BMS020_00906	1644	pckA_1	COG1866	Phosphoenolpyruvate carboxykinase (ATP)	ATGTCACAACAAATTGAATCAGTAAAAATGGCTCTGCAGGAGCTGGGGATTAATGCAAGCGGCGAATTGTTTTACAACCCTGATTACGATTTGCTTATTGCACATGAAACCGCTCCTGAGCTGACCGGCGCGGCCCGCGGCGTAATGACCGACTCTGGCGCTGTGGCAGTGGATACCGGCATCTTCACCGGCCGCTCGCCGCGCGATAAATATATCGTCAGAGACGAGCAGACGCGCGACACCGTATGGTGGGCTGACTCCGGCCTCGGCCGCAATGATAATAAGCCGTTATCGCCAGAAGTGTGGCGCAGCCTGAAAAGCCTGGTCGCAGGCCAGCTGAGCGGCAAAAAACTGTACATCATCGACGCCTGGTGCGGCGCCAGCCCGGACACCCGCCTTGGCGTGCGCTTCGTCACCGAGGTGGCGTGGCAGGCCCACTTTGTCAAAAACATGTTTATCGTGCCGAGCGCCGACGAGCTGGCCAGCTTTACCCCGGACTTCGTGGTGCTCAACGGCGCCGGCTGCACCAATGCCAACTGGCAGGCGCAGGGCATGAACTCCGAGAACTTCGTCGCCTTTAACCTGAGCGAGCGTATTCAGCTCATCGGCGGCACCTGGTACGGCGGCGAAATGAAAAAAGGGCTGTTCTCGGTCATGAACTACCTGCTGCCGCAGAAAGGCATCGCGTCGATGCACTGCTCGGCCAACCGCGGCGAAGCAGGGGACGTCGCGCTGTTCTTCGGCCTCTCCGGTACCGGCAAAACCACGCTGTCCACCGATCCGCATCGTCAACTGATTGGCGATGACGAGCACGGCTGGGACGATGATGGGGTGTTTAACTTCGAAGGCGGCTGCTACGCCAAGACCATCAATCTCGACCCGCAGGCGGAGCCGGAGATTTATGGCGCCATCCGCCGCAATGCGCTGCTGGAAAACGTGGTGGTGCGCGCCGACGGCAGCGTGGATTACGCCGACGGCAGCAAAACCGAGAACACCCGCGTCTCCTATCCGCTGTCGCATATCGACAATATCGTCAAGCCGGTGTCCCGGGCGGGCCATCCATCGAAGGTGATTTTCCTTGCCGCAGACGCGTTTGGTGTCCTGCCGCCGGTCTCCCGTCTGACCACCGAGCAGATGCAGTACCATTTCCTGTCGGGCTTCACCTCGAAGCTGGCGGGCACCGAGCGCGGCATTACCCAGCCGACGCCGACCTTCTCCGCCTGCTACGGCGCGGCGTTCCTGCTGCTTCACCCGACCCAGTACGCCAGCGTACTGGCGGCGAAGATGGCGGAATCCGGTGCGGAAGCCTGGCTGGTCAACACCGGCTGGAACGGCGAGGGCAAACGCCTGTCGCTGCGCGATACCCGCAGCATCATCAGCGCGATCCTCAATGGCACCACCGGCCCGCTGCGCGATGAAGCGATCCCGGTGTTCAATCTTGCGATCCCGCAGAGCATTTCGGGCGTCGACAGCGCGGTGCTGGATCCGCGTAATGGCTGGAGCTCAGCGGATAAGTGGCAGGAGAAGGCGGAGAGTCTGGCTCAGCTGTTTATGGATAACTTTAAGCAGTACAGCGATACCGAAGCGGGCGCGCGTCTGGCGCTGGCCGGTCCGCAGCTGCAGAATAGCGCGGTCGAAGCCTGA	MSQQIESVKMALQELGINASGELFYNPDYDLLIAHETAPELTGAARGVMTDSGAVAVDTGIFTGRSPRDKYIVRDEQTRDTVWWADSGLGRNDNKPLSPEVWRSLKSLVAGQLSGKKLYIIDAWCGASPDTRLGVRFVTEVAWQAHFVKNMFIVPSADELASFTPDFVVLNGAGCTNANWQAQGMNSENFVAFNLSERIQLIGGTWYGGEMKKGLFSVMNYLLPQKGIASMHCSANRGEAGDVALFFGLSGTGKTTLSTDPHRQLIGDDEHGWDDDGVFNFEGGCYAKTINLDPQAEPEIYGAIRRNALLENVVVRADGSVDYADGSKTENTRVSYPLSHIDNIVKPVSRAGHPSKVIFLAADAFGVLPPVSRLTTEQMQYHFLSGFTSKLAGTERGITQPTPTFSACYGAAFLLLHPTQYASVLAAKMAESGAEAWLVNTGWNGEGKRLSLRDTRSIISAILNGTTGPLRDEAIPVFNLAIPQSISGVDSAVLDPRNGWSSADKWQEKAESLAQLFMDNFKQYSDTEAGARLALAGPQLQNSAVEA	PGPT0001405_545	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001405-pckA-K01610	NA	NA
BMS020_00907	894	yjiE_1		HTH-type transcriptional regulator YjiE	GTGTTGGCAAATCTGGAAGTTAAATGGCTGTATGATGTGATTGCTCTCGAGGAGTCACGCAGCTTTACCCTGGCGGCCAAAGCCCGCAATATCTCGCAGTCCTCGTTCAGCCGACGCATCCAGTCGCTGGAGGCTTCCCTCGGATTCAGCATCTTCGACCGCAGCGCCAACCCCCTGCAGTTGACCAACCGCGGGAAAATTTTTGTCGGCTATGCGCGAAATATGCTCGACGACATGGATTTTCAGATCAGCCGAATTAAAGGTTTAAATAACACCACGCAGAAAATAAGAATCGACGCCGCCCCTTCGCTGTCGGTGTTATTGCTGCCGGAAATTATCGCCGGTTACACCGACCGTAAAAATAAGACTTTTCATGTTGAATCGATTAACGTCAACGACGCCGTATTTAACCTGAAAGAGGGTAAAAGCGATTTTATCCTCTCCTTCTATAATGAAGAATTAATGAACTATCCGTTTATTAATCATAAAATTTTTGATTCTTACCTGCACCTGGTCTCTCCCTGCGACGAACATGGCCGGCCGCTGTTTCATTTACATCGCGGCGTGCTGCCGCTGATGAAATACGCCAACGACAGCTATATGGGGCGTCAGGTGAACCAGGTCATCGACCGCACGCCGGAGATCACCTTCTCCCTCACCTTTGTCTCTTCCATGAGCGAACTGCTCAAGCGCATGATCCTCAATGGCGACGGCGTGGGCTGGCTGCCGCAGTACTCCATTCAGCGCGAGCTGGACGAAGGCCGACTGACGATCCTCGATGAGAGCCTGTCGCTGCCGATCGGCGCCTGGCTCTACCGCTCCGGCTCGCGGCTTAACCAGGCCGCCGAACGTTTCTGGCAGCACATTAAAACCCGTAACCAACCGCGGGATTAA	MLANLEVKWLYDVIALEESRSFTLAAKARNISQSSFSRRIQSLEASLGFSIFDRSANPLQLTNRGKIFVGYARNMLDDMDFQISRIKGLNNTTQKIRIDAAPSLSVLLLPEIIAGYTDRKNKTFHVESINVNDAVFNLKEGKSDFILSFYNEELMNYPFINHKIFDSYLHLVSPCDEHGRPLFHLHRGVLPLMKYANDSYMGRQVNQVIDRTPEITFSLTFVSSMSELLKRMILNGDGVGWLPQYSIQRELDEGRLTILDESLSLPIGAWLYRSGSRLNQAAERFWQHIKTRNQPRD				NA	NA	NA	NA	NA
BMS020_00908	720	livF_3	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGAGCCAGCCACTGCTTGCCTTTGATGAGGTGGATGTCTTCTACGGGCCGATCCAGGCCCTGAAGCAGGTCTCCCTGACCGTCAACGAGGGGGAGACGGTGGCGTTGATCGGCGCCAACGGCGCGGGTAAATCGACGCTGTTGATGTCGGTCTTCGGGCAGCCGCGTATTGCCGGCGGGGAGATTTTCTATCGCGGGGAGGCGATCAGCCGAAAATCGACCCACTTTATCGCCAGCAACGGCATCGCCCAGGCCCCGGAAGGGCGGCGCATCTTTCCCGATATGACCGTCGAGGAGAATCTGCTGATGGGGACCATTGCCATTGGCAACCGCTATCAGGCCGAGGACAAGGCCCGGATGTACCAGCTGTTCCCCCGGCTGGAAGAGCGGCGGGGACAGCGGGCGATGACCCTCTCCGGCGGCGAACAGCAGATGCTGGCCATCGCCAGGGCGCTGATGAGCCGGCCGCGCCTGCTGCTGCTGGATGAGCCGAGCCTGGGACTGGCGCCGCTGGTGGTGAAGCAGATATTTCAGATCCTGCGCGAGCTGACGGCCCAGGGGATGACGCTGTTTCTGGTGGAGCAGAACGCCCGCCATGCCCTCAACCTGTCGGACCGCGCCTACGTGATGGTGAACGGCCAGATCCGCCTGAGCGGTAGCGGCCAGGCGCTGCTCAACGACCCGGAGGTGCGTAAGGCGTATCTGGGGATCAGCGGCTGA	MSQPLLAFDEVDVFYGPIQALKQVSLTVNEGETVALIGANGAGKSTLLMSVFGQPRIAGGEIFYRGEAISRKSTHFIASNGIAQAPEGRRIFPDMTVEENLLMGTIAIGNRYQAEDKARMYQLFPRLEERRGQRAMTLSGGEQQMLAIARALMSRPRLLLLDEPSLGLAPLVVKQIFQILRELTAQGMTLFLVEQNARHALNLSDRAYVMVNGQIRLSGSGQALLNDPEVRKAYLGISG	PGPT0020785_4445	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020785-livF-K01996	NA	NA
BMS020_00909	876	glnQ_4	COG1126	Glutamine transport ATP-binding protein GlnQ	ATGAGCGACAGCATCTTACGCGTTGAGCATCTGATGATGCATTTCGGCGGCATCAAAGCGCTGAATGACGTCAATCTGGAGGTGGAGCGGGGATCGATCACCGCCCTGATCGGCCCCAACGGCGCGGGCAAAACCACGGTATTTAACTGCCTGACCGGCTTTTACCGGGCGACGGGGGGGAGTATCGTGCTACGGGCGCGGGAAAAGGTCACCGATGTCATTCAGGTGCTGGGGCAAAAGCTTCACCCGGACGATTTCCTCCACCCGGCGCAACTGGGGCGGCGGATCTATTACAAGATGTTCGGCGGCACCCATCTGGTGAACCGCGCCGGTCTGGCCCGCACCTTCCAGAATATTCGCCTGTTCCGCGAGATGTCGGTGATTGAGAACCTGCTGGTGGCCCAGCATACCCAGGTCAACCGCCATCTGCTGGCCGGGATCCTCAACACCCGCAGCTATCGGCAGGCGGAAAGTCAGGCGCTGGATCGCGCGTTTTACTGGCTGGAGGTAGTGGGGATGGTGGACTGCGCCAACCGTCTGGCGGGAACGCTTTCCTACGGACAGCAGCGGCGGCTGGAGATCGCCCGCGCCATGTGCACCCGTCCGGAGATGATCTGTCTGGACGAGCCGGCGGCCGGACTCAACCCGGTTGAAACCCAGGCGCTGAGCCGGATCATCCGCTTTCTGCGCCAGCAGCACGGCATCACGGTGCTATTGATCGAACATGATATGGGGATGGTGATGGAGATTTCAGATCATATCATCGTCCTCGATCACGGGGACGTCATCGCCCGCGGCGCGCCGCAGGCGATTCAGGCCAACGCCAGCGTGATTGCCGCCTATCTTGGCGCTGAGGAAGAGGAGACGCGCCGATGA	MSDSILRVEHLMMHFGGIKALNDVNLEVERGSITALIGPNGAGKTTVFNCLTGFYRATGGSIVLRAREKVTDVIQVLGQKLHPDDFLHPAQLGRRIYYKMFGGTHLVNRAGLARTFQNIRLFREMSVIENLLVAQHTQVNRHLLAGILNTRSYRQAESQALDRAFYWLEVVGMVDCANRLAGTLSYGQQRRLEIARAMCTRPEMICLDEPAAGLNPVETQALSRIIRFLRQQHGITVLLIEHDMGMVMEISDHIIVLDHGDVIARGAPQAIQANASVIAAYLGAEEEETRR	PGPT0020780_1788	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020780-livG-K01995	NA	NA
BMS020_00910	1287			hypothetical protein	ATGGGTGAACTGACGCGCCAGCCTGCGCGGGATATCAAAAGCGCGCTGATCGACAGCGTGCTGGCCGGTCTTTGCGCGTTAATTGTCTTTGGCCCGATCGTCGGCGTGGTGCTCAAAGGCTATGGCTTTACCCTCGCGCCCGCGCGGGTGGCGATCCTGGTGGCGGTGGTGATGGCCGGCAGACTGGCGCTCAGCCTGCTGCTGCAGAGCCGGCGGGGCAAGGCCTTGGTTGCCCGCTTTGAGGGGGCGGATGACGGGGTGTACGTCCGGCCCCCGGGCTACCGCTCGCGGCTGCGCTGGATAATGCCGCTGCTGGTGGGCCTGGCTATCGCCTTTCCGTTTCTCGCCAGCAAATACCTGCTGACCGTGGCGATCCTCGGGCTGATCTACGTCCTGCTCGGTTTGGGGCTGAATATCGTGGTGGGTCTCGCGGGGCTGCTCGATCTGGGCTATGTGGCGTTCTATGCTATCGGCGCCTACGGCCTGGCGCTGGGCTACCAGTACCTGGGCCTCGGCTTCTGGGCGATGCTGCCGCTGGGAGCGGTGATGGCGGCCCTCGCCGGGGCGTTGCTGGGCTTTCCGGTGCTGCGCATGCACGGCGACTATCTGGCCATCGTCACCCTCGGCTTTGGCGAAATCATTCGCCTGGTGCTTAACAACTGGGTGAGCTTCACCGGCGGCCCCAACGGCGTCCCGGTGCCGTCCCCGACGCTGTTTGGCCTCGAATTTACCCGCCGGGCAAAGGATGGCGGTATCCCTATCCATGAGTTCTTCCACGTCAGTTACAACCCCAACCTGAAATTCATCTTCCTCTACGCCGTGCTGTGCATGGTGGTGATACTGGTGCTGCTGGTGAAGCATCGCCTGACGCGGATGCCCATCGGCCGCGCCTGGGAGGCGCTGCGCGAGGATGAGATCGCCTGTCGGGCGATGGGGCTCAACCATGTGCTGGTCAAGCTCTCGGCGTTCATGCTCGGCGCGTCGACCGCCGGCATCGCCGGAGTGTTCTTCGCCAGCTATCAGGGATTTGTTAATCCGACGTCGTTCACCTTTTTTGAGTCGGCGCTGATCCTGGCGATTGTGGTGCTGGGGGGAATGGGCTCCACCCTTGGGGTGGTGCTGGCGGCGTTTGTCCTGACGGTCACCCCGGAACTGCTGCGCGGGTTTGACGAATATCGCGTGCTGCTGTTTGGCGTGCTGATGGTGCTGATGATGATCTGGCGGCCGCGCGGCCTGGTGCGCACCAGCCGCAGCGGGGTCGCGTTGCGAAAAGGAGTCGCGCCATGA	MGELTRQPARDIKSALIDSVLAGLCALIVFGPIVGVVLKGYGFTLAPARVAILVAVVMAGRLALSLLLQSRRGKALVARFEGADDGVYVRPPGYRSRLRWIMPLLVGLAIAFPFLASKYLLTVAILGLIYVLLGLGLNIVVGLAGLLDLGYVAFYAIGAYGLALGYQYLGLGFWAMLPLGAVMAALAGALLGFPVLRMHGDYLAIVTLGFGEIIRLVLNNWVSFTGGPNGVPVPSPTLFGLEFTRRAKDGGIPIHEFFHVSYNPNLKFIFLYAVLCMVVILVLLVKHRLTRMPIGRAWEALREDEIACRAMGLNHVLVKLSAFMLGASTAGIAGVFFASYQGFVNPTSFTFFESALILAIVVLGGMGSTLGVVLAAFVLTVTPELLRGFDEYRVLLFGVLMVLMMIWRPRGLVRTSRSGVALRKGVAP	PGPT0020775_2171	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020775-livM-K01998	NA	NA
BMS020_00911	915	livH_1	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	ATGACGGCGTTTTTTCTGCAACAATTGATCAATGGGCTGACGCTGGGCGCGGTGTACGGCTTAATCGCCATCGGCTACACCATGGTGTATGGGATCATCGGCATGATCAACTTCGCCCACGGCGAGGTGTATATGGTCTCCGCCTACCTGTGCGCCATCGGCCTGGCGCTGCTCTCCTTCTTTGGGATCCACTCGTTCCCGCTGCTGATTTTCGCCACCCTGGTATTCACCATTGTGGTCACCGGCGTGTACGGCTGGGCGATCGAGCGCATCGCCTACCGGCCGCTGCGCAACTCGACGCGTCTGGCGCCGTTGATCTCGGCTATTGGAATGTCGCTGATCCTGCAGAACTATGTTCAGCTGAGCCAGGGGCCAAACCAGCAGGGGATCCCGACGCTGCTCAGCGGCGCGCTGCGTATGACGGTGGGCGATGGGGTAGTGCAGATCACCTGGACCAAGGTGTTTATTCTCGTCGCCGCGCTGGTGGGGATGCTGATCCTGACCTGGATTATCCAGTACACCCGGCTGGGGCGCATCTGCCGCGCCACCCAGCAGGACCGGCGCATGGCGGCGATCCTCGGCATCAATACCGACCGGGTGATCTCCCTGGTGTTTGTCATCGGCGCGGCGATGGCCGGCCTGGCCGGGGTGCTGGTGACCATGAACTACGGCACCTTCGACTTCTACATCGGATTTATTATCGGCATCAAAGCCTTCACCGCCGCGGTATTGGGCGGGATTGGCTCGCTGCCTGGCGCGATGCTGGGCGGACTGCTGCTCGGGGTGGCCGAGGCGCAGTTCGCCGGAATGGTGAATTCGGATTACAAAGACGTTTTTTCCTTTGCGCTGCTGGTGGCGATCCTGATTTTTCGCCCGCAGGGGCTGCTGGGTCGACCGCTGGTGGCCAAGGTCTGA	MTAFFLQQLINGLTLGAVYGLIAIGYTMVYGIIGMINFAHGEVYMVSAYLCAIGLALLSFFGIHSFPLLIFATLVFTIVVTGVYGWAIERIAYRPLRNSTRLAPLISAIGMSLILQNYVQLSQGPNQQGIPTLLSGALRMTVGDGVVQITWTKVFILVAALVGMLILTWIIQYTRLGRICRATQQDRRMAAILGINTDRVISLVFVIGAAMAGLAGVLVTMNYGTFDFYIGFIIGIKAFTAAVLGGIGSLPGAMLGGLLLGVAEAQFAGMVNSDYKDVFSFALLVAILIFRPQGLLGRPLVAKV	PGPT0020770_1649	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020770-livH-K01997	NA	NA
BMS020_00912	1065	livJ_1	COG0683	Leu/Ile/Val/Thr-binding protein	ATGAGCATGGCCTTTTACGCCCAGGCTGACGTGAAGATCGGCGTCGCCGGGCCCTTCACCGGCCCCAACGCCACCTACGGCGCCCAGTACTGGAAGGGGGCCTCGCAGGCGGTGGCTGATATCAATGCCGCCGGCGGCATCAAAGGCGAAAAGATTGTGCTGGTGCAGGGGGATGACGCGTGCGAACCGAAACAGGCGGTAGCGGTGGCCAACCGGCTGGTGGACGAAGCGAAAGTCTCCGCCGTGGTGGGGCACTTTTGCTCTTCCTCAACGATGCCGGCCTCCGAGGTGTATGACGAAGCCGGGATTCTGACCATTACTCCCGGCTCCACCAACCCGCAGATCACCGAGCGCGGCATGAAGGATCTCTTCCGCATGTGCGGCCGCGACGATCAGCAGGGGGCGATTGCCGCCAACTATATGCTGGACGTGCTGAAGGCGAAGAAAATTGCCGTCATTCACGATAAAGACACCTATGGCCAGGGGCTGGCCGATGCCACCCGCGCGGCGCTGGCGAAGCGGGGCACCAAAGAAGTGTTGTACGAAGGCCTCTCCCGCGGTGAAAAAGACTTTAACGCCCTGGTGACCAAGATCGGCGCCCTCAAGCCGGACGTGGTCTATTTTGGCGGCTGCCACCCTGAGGCGGGCCCGCTGGTGCGCCAGATGCGCGAGCAGGGAGTGCAGGCGAAATTCTTCTCCGGCGACTGTATTGTCACCGAGGAGCTGGTGACGGCCGCCGGCGGGCCGCAGTTCACCAACGGCGTGCTGATGACCTTTGGTCAGGACCCGCGCACCCTCCCGGAAGGCAAAGCGGTGATCGAGAAGTTCCGCGCCAGCGGCTTTGAGCCGGAAGGCTATACCCTCTACGCCTATGCCTCTATTCAGGCTATCGCCGCCGCCTGGAACGCCGTCGGCACCGATAACGCCAAAGCCAGCGACTGGCTGAAGAGCCACGACGTCGAGACGGTGATGGGCAAAAAAGGCTGGGATGGCAAAGGCGACCTCAAGGTGTCGGACTATGTGGTCTATCAGTGGGACGACAAGGGCAAATATCACCAGCTCTGA	MSMAFYAQADVKIGVAGPFTGPNATYGAQYWKGASQAVADINAAGGIKGEKIVLVQGDDACEPKQAVAVANRLVDEAKVSAVVGHFCSSSTMPASEVYDEAGILTITPGSTNPQITERGMKDLFRMCGRDDQQGAIAANYMLDVLKAKKIAVIHDKDTYGQGLADATRAALAKRGTKEVLYEGLSRGEKDFNALVTKIGALKPDVVYFGGCHPEAGPLVRQMREQGVQAKFFSGDCIVTEELVTAAGGPQFTNGVLMTFGQDPRTLPEGKAVIEKFRASGFEPEGYTLYAYASIQAIAAAWNAVGTDNAKASDWLKSHDVETVMGKKGWDGKGDLKVSDYVVYQWDDKGKYHQL	PGPT0020765_13853	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020765-livK-K01999	NA	NA
BMS020_00913	2301	tdcE	COG1882	PFL-like enzyme TdcE	ATGTTCATGAAAGTAGATATCGACACCCACGACGCACGATACGCCGACGCCTGGCAGGGCTTTCGCGGTACGGCGTGGCAAACGCAGATTAACGTTCGCGACTTTATTCAGCATAACTACACCCCTTACGAGGGCGATGAGTCCTTCCTCGCCGACGCGACGCCGGCCACCACCGCCCTCTGGGAGCAGGTGATGGCCGGGATCCGCGTCGAGAACGCCACCCATGCGCCGGTGGATTTCGACACCAATGTCGCCACCAGCATCACCGCCCACGCGGCGGGCTATATCAACCAGCCGCTGGAAAAGATCGTCGGCCTGCAAACGGACCGGCCGCTGAAGCGCGCCCTGCATCCCTTTGGCGGCATCAATATGATCAAAAGCGCCTTCGAGGCCTATGGCCGCGAAATGGACCCCGATTTTGAGTATCAGTTTACGGCGCTGCGCAAGACCCACAATCAGGGCGTATTTGACGTCTATTCCCCGGATATGCTGCGCTGCCGTAAGTCCGGGGTGCTGACCGGGCTACCGGACGGCTACGGTCGCGGACGGATCATCGGCGATTACCGCCGCGTGGCGCTGTACGGCATTCGCTATCTGGTCCGCGAACGTGAGCTGCAGTTTGCCGACCTGCAGCCGGCCCTTGAACGCGGCGAGGCGCTGGAGTCCACCCTGCGCCTGCGCGAAGAACTGGCCGAACAGCGGCGCGCGCTGCAGCAGATGCAGGAGATGGCGGCCCGTTACGGCTGCGATATCTCCCACCCGGCGCGCACCGCCCGGGAGGCGGTGCAGTGGCTCTACTTCGCCTACCTGGCGGCGGTGAAGTCGCAGAACGGCGGCGCCATGTCGCTGGGACGGACGGCCACCTTCCTTGACATCTATATTGAACGCGATCTGCGCGCCGGTTTACTCAATGAGGAGCAGGCCCAGGAGCTGATTGACCACTTCATCATGAAGATCCGCATGGTGCGTTTCCTGCGTACCCCGGAATTTGACTCGCTGTTCTCCGGGGATCCCATCTGGGCGACGGAAGTCCTGGGCGGTATGGGGCTGGATGGCCGCACCCTGGTCAGTAAAACCACCTTCCGCTATCTGCATACCCTGCACACCATGGGTCCGGCGCCGGAGCCGAACCTGACCGTGCTCTGGTCGCAGGCGCTGCCGGTGGCGTTTAAAAAATACGCCGCCCGGGTCTCTATCGCCACCTCGTCGCTGCAGTATGAGAACGACGATCTGATGCGCAGCGATTTTCACAGCGACGACTACGCCATCGCCTGCTGCGTCAGCCCGATGGTGATCGGCAAGCAGATGCAGTTCTTCGGCGCCCGCGCCAATCTCGCCAAAACGCTGCTCTACGCGATTAACGGTGGGGTGGATGAGAAACTGAAGATCCAGGTGGGGCCGAAAACCGCGCCGCTGCGCGATGAGGTGCTGGACTACGACAGCGTGATGGCCAGCCTCGACCACTTTATGGACTGGCTGGCGGTGCAGTACATCAGCGCGCTGAACATCATCCACTGCATGCATGATAAGTACAGTTACGAAGCGGCGCTGATGGCCCTGCACGACCGCGACGTCTACCGTACGATGGCCTGCGGCATCGCCGGCCTGTCGGTGGCAGCGGATTCGCTGTCGGCGATAAAGTACGCCCGGGTGAAGCCGGTGCGCGACCATCACGGGCTGGCGGTGGACTTTGTCATTGAGGGGGATTATCCGCAATATGGCAACAACGACGATCGCGTCGATGCCATCGCCTGCGACCTGGTGGAGCGCTTTATGCGCAAAATCCAGGCGCTGCCCACCTGGCGCCAGGCGGTGCCGACCCAGTCGATCCTGACCATTACCTCCAACGTGGTGTACGGGCAGAAAACCGGCAACACGCCGGACGGACGTCGGGCGGGGACGCCGTTCGCCCCGGGGGCCAATCCGATGCATGGCCGCGACCGCAAAGGGGCGGTGGCGTCGCTGACCTCGGTGGCGAAACTGCCGTTTACCTACGCCAAAGATGGCATCTCGTACACCTTCTCCATCGTGCCGGCGGCCCTCGGCAAAGCGCCGTCGGCGCAGGAAAACAACCTGGTGGGGCTGCTGGACGGCTACTTCCATCACGAGGAGACGGTGGAGGGGGGACAGCACCTCAACGTCAATGTACTGAACCGGGAAAAGCTGCTCGATGCGATAGAACATCCGGAGCAGTATCCGAATCTGACGATCCGCGTCTCCGGCTATGCGGTCCGCTTTAACGCGCTAACCCGCGAGCAGCAGCAGGATGTGATCTCGCGAACGTTCACCAGCCAGCTCTGA	MFMKVDIDTHDARYADAWQGFRGTAWQTQINVRDFIQHNYTPYEGDESFLADATPATTALWEQVMAGIRVENATHAPVDFDTNVATSITAHAAGYINQPLEKIVGLQTDRPLKRALHPFGGINMIKSAFEAYGREMDPDFEYQFTALRKTHNQGVFDVYSPDMLRCRKSGVLTGLPDGYGRGRIIGDYRRVALYGIRYLVRERELQFADLQPALERGEALESTLRLREELAEQRRALQQMQEMAARYGCDISHPARTAREAVQWLYFAYLAAVKSQNGGAMSLGRTATFLDIYIERDLRAGLLNEEQAQELIDHFIMKIRMVRFLRTPEFDSLFSGDPIWATEVLGGMGLDGRTLVSKTTFRYLHTLHTMGPAPEPNLTVLWSQALPVAFKKYAARVSIATSSLQYENDDLMRSDFHSDDYAIACCVSPMVIGKQMQFFGARANLAKTLLYAINGGVDEKLKIQVGPKTAPLRDEVLDYDSVMASLDHFMDWLAVQYISALNIIHCMHDKYSYEAALMALHDRDVYRTMACGIAGLSVAADSLSAIKYARVKPVRDHHGLAVDFVIEGDYPQYGNNDDRVDAIACDLVERFMRKIQALPTWRQAVPTQSILTITSNVVYGQKTGNTPDGRRAGTPFAPGANPMHGRDRKGAVASLTSVAKLPFTYAKDGISYTFSIVPAALGKAPSAQENNLVGLLDGYFHHEETVEGGQHLNVNVLNREKLLDAIEHPEQYPNLTIRVSGYAVRFNALTREQQQDVISRTFTSQL	PGPT0001950_251	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0001950-pflD|ybiW|tdcE-K00656	NA	NA
BMS020_00914	1209	tdcD	COG0282	Propionate kinase	ATGACTGAATTTCCGGTAGTGCTGGTGATCAACTGCGGCTCGTCGTCGATCAAATTTTCCGTACTGGACGCCGCCAGCTGCGACTGCCTGCTCAACGGCGTAGCCGAGGGCATCAACGCGGACCAGGCGTCTCTCTCGCTCAACGGCGGCGAGCCGGTGGCGCTGGCGCCGCGCGGCTACGAAGGCGCCCTGCAGGCGATTGCCGGGGCATTAGCCCAACGCGATCTTATCGACAGCGTGGCCCTGATTGGCCACCGCGTCGCCCACGGCGGCGACCTCTTCACCGAGTCGGTCATTATCAGCGAGGAGGTTATCGACAATATTCGCCAGGTATCGTCCCTGGCCCCGCTGCATAACTACGCCAGCCTTAGCGGCATCGCCTCGGCGCAGCGGCTGTTCCCGGGGGTCATGCAGGTGGCGGTCTTTGATACCAGCTTTCACCAGACCCTGGCCCCGGAAGCCTTTCTCTATGGCCTGCCGTGGGAGTATTACCAGAACCTCGGGGTGCGCCGCTATGGCTTCCACGGCACCTCCCACCGCTATGTCTCCCGGCGCGCCCTGGCGCTGCTCGGGTTGCCGGAGCAGGAGAGCGGCCTGGTGATCGCCCACCTGGGCAATGGCGCCTCGATCTGCGCGGTGCGCAACGGCCGCAGCGTGGACACCTCGATGGGGATGACGCCCCTGGAGGGGCTGATGATGGGCACCCGCAGCGGCGATGTCGACTTCGGCGCCATGGCGTGGATTGCCGCGGAAACCCGGCAGACCCTCAGCGACCTGGAGCGGGTGGCCAACACCGCCTCCGGCCTGCTGGGGATCTCCGGCCTTTCCTCCGACCTGCGGGTACTGGAGCAGGCCTGGCATGAGGGCCATGCCCGCGCCCGCCTGGCGATCAAAACCTTCGTCCATCGCATCGCCCGCCATATCGCCGGCCACGCCGCCGCGCTGCAGCGTCTCGACGGCATTATTTTCACCGGCGGGATTGGCGAAAACTCGGTGCTGATCCGTCGGCTGGTGAGCGAGCGGCTGGCGGTCTTTGGCCTTGAGATGGACGCTGCCCGCAACCAGCAGCCTAATTCGGCCGGCGAGCGCCTGATCTCCGCCGACGGCAGCCGGGTGCGCTGCGCGGTTATCCCCACCAATGAAGAGCGCATGATTGCCCTCGATGCGATCCGCTTAGGCCGGATCCACACCGCGGCGGCGCTGGCCTGA	MTEFPVVLVINCGSSSIKFSVLDAASCDCLLNGVAEGINADQASLSLNGGEPVALAPRGYEGALQAIAGALAQRDLIDSVALIGHRVAHGGDLFTESVIISEEVIDNIRQVSSLAPLHNYASLSGIASAQRLFPGVMQVAVFDTSFHQTLAPEAFLYGLPWEYYQNLGVRRYGFHGTSHRYVSRRALALLGLPEQESGLVIAHLGNGASICAVRNGRSVDTSMGMTPLEGLMMGTRSGDVDFGAMAWIAAETRQTLSDLERVANTASGLLGISGLSSDLRVLEQAWHEGHARARLAIKTFVHRIARHIAGHAAALQRLDGIIFTGGIGENSVLIRRLVSERLAVFGLEMDAARNQQPNSAGERLISADGSRVRCAVIPTNEERMIALDAIRLGRIHTAAALA	PGPT0002230_88	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0002230-tdcD-K00932	NA	NA
BMS020_00915	1332	tdcC	COG0814	Threonine/serine transporter TdcC	ATGAGTACGACTGAGAGCATTGCATCCAGCCAGACAAGCCTTTCGTCCTGGCGTAAATCCGACACCACCTGGACCCTGGGCCTGTTTGGCACCGCCATCGGCGCCGGGGTGCTGTTTTTCCCTATCCGCGCCGGCTTCGGCGGGCTGATCCCTATCCTGGTGATGCTGGTGCTGGCCTATCCCATCGCCTTCTATTGCCACCGGGCGCTGGCGCGGCTGTGCCTGTCGGGAGCTAACCCCTCCGGCAATATCACCGAAACGGTGGAAGAGCATTTTGGCAAAACCGGCGGGGTGGTGATCACCTTTCTGTACTTCTTCGCCATCTGCCCGCTGCTGTGGATTTATGGCGTGACGATCACCAATACCTTCATGACCTTCTGGGAGAACCAGCTGCAGATGCCGGCCCTCAACCGCGGAGTGGTGGCGCTGCTCCTGCTGCTGCTGATGGCGTTTGTCATCTGGTTTGGCAAAGACCTGATGGTCAAGGTGATGAGCTATCTGGTGTGGCCGTTTATCGCCAGCCTGGTGGTGATCTCCCTGTCTCTGATCCCTTACTGGAATAGCGCGGTGATTGATCAGGTGAACCTCAGCGATATCGCCTTAACCGGTCACGACGGCATTCTGGTGACAGTGTGGCTGGGCATCTCCATTATGGTGTTCTCCTTTAACTTCTCGCCGATCGTCTCCTCGTTTGTGGTCTCCAAACGCGAAGAGTATGAAGCGCAGTTTGGCCGGGAGTATACCGAACACAAATGCTCGCAGATCATCTCCCGGGCCAGCATGCTGATGGTGGCGGTGGTGATGTTCTTCGCCTTCAGCTGCCTGTTTACCCTCTCGCCGCAGAACATGGCGGACGCCAAGGCGCAGAATATCCCGGTGCTCTCCTATCTGGCGAACCACTTTGCCTCGATGTCGGGCGCCAAATCCACCTTTGCCACCCTGCTGGAGTATGGCGCGTCGATCATCGCCCTGGTGGCCATCTTCAAATCGTTCTTCGGCCACTATCTCGGCACCCTCGAGGGGCTGAACGGTTTGATCCTGCGCTTCGGCTATAAAGGGGATAAAACCCGGGTCTCCAGCGGCAAGCTCAATACCCTGAGCATGGTGTTCATCATGGGCTCGACCTGGGTGGTGGCCTATGCCAACCCCAATATCCTCGACCTGATTGAGGCCATGGGCGCGCCGATTATCGCCTCGCTGCTGTGCCTGCTGCCGATGTACGCCATTCGTAAAGCGCCTTCGCTGGCCAAATACCGTGGCCGTCTCGATAACCTCTTTGTGACCGCCATTGGTCTGCTGACCATCCTCAATATCGTTTACAAACTGTTCTAA	MSTTESIASSQTSLSSWRKSDTTWTLGLFGTAIGAGVLFFPIRAGFGGLIPILVMLVLAYPIAFYCHRALARLCLSGANPSGNITETVEEHFGKTGGVVITFLYFFAICPLLWIYGVTITNTFMTFWENQLQMPALNRGVVALLLLLLMAFVIWFGKDLMVKVMSYLVWPFIASLVVISLSLIPYWNSAVIDQVNLSDIALTGHDGILVTVWLGISIMVFSFNFSPIVSSFVVSKREEYEAQFGREYTEHKCSQIISRASMLMVAVVMFFAFSCLFTLSPQNMADAKAQNIPVLSYLANHFASMSGAKSTFATLLEYGASIIALVAIFKSFFGHYLGTLEGLNGLILRFGYKGDKTRVSSGKLNTLSMVFIMGSTWVVAYANPNILDLIEAMGAPIIASLLCLLPMYAIRKAPSLAKYRGRLDNLFVTAIGLLTILNIVYKLF	PGPT0011650_136	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|COLICINS,PGPT0011650-sadC|dcrA-K03837	NA	NA
BMS020_00916	990	tdcB	COG1171	L-threonine dehydratase catabolic TdcB	ATGCATATTACCTACGATCTTCCGGTATCCATTGACGATATTCTCGAAGCGAAGCAACGCCTGGCAGGAAAAATATATAAAACGGGTATGCCGCGGTCGAATTATTTTAGCGAACGCTGTAAGGGTGAAATATTTCTTAAATTCGAAAATATGCAGCGCACGGGTTCATTTAAAATTCGCGGCGCCTTTAATAAGCTCTGCGGCTTAACCGCAGCGGAAAAACGCAAAGGGGTGGTGGCTTGCTCAGCGGGCAACCACGCCCAGGGCGTCTCGCTCTCATGCGCCATGCTCGGCATTGACGGGAAAGTGGTGATGCCGAAAGGGGCGCCGAAATCGAAAGTCGCCGCCACCTGCGATTATTCGGCGGAGGTGGTGCTGCATGGCGATAATTTTAACGATACCCTCGCCAAAGCCAGCGATATTGTTGAACTTGAAGGCCGTATCTTTATTCCCCCCTATGACGATCCCCAGGTTATTGCCGGGCAGGGCACCATCGGTCTCGAAATATTAGAAGATCTGTATGACGTGGATAATGTCATTGTGCCGATTGGCGGCGGGGGCTTAATTGCCGGCATCGCGATTGCGATTAAATCTATTAACCCGACGATCCGCATTATCGGCGTGCAGTCGGAGAATGTTCACGGCATGGCCGCCTCCTGGTACGCCGGAGAGATCACCAGCCATCGCCACGCCGGCACCTTAGCCGATGGCTGCGATGTCGCCCGCCCGGGAAAACTGACCTATGAAATCGCCCGCCAGCTGGTGGATGACATCGTCCTCGTCAGTGAGGACGACATTCGCCAGAGCATGGTCGCCTTAATTCAGCGCAATAAAGTGATCACCGAAGGGGCCGGAGCGTTGGCCTGCGCCGCGTTATTAAGCGGCAAATTAGACAGCTATATCCAGAACCGCAAAACGGTCAGCCTGATTTCCGGCGGCAATATCGATCTCTCGCGGGTATCGCAAATTACCGGTTTTGTTGACGCTTAA	MHITYDLPVSIDDILEAKQRLAGKIYKTGMPRSNYFSERCKGEIFLKFENMQRTGSFKIRGAFNKLCGLTAAEKRKGVVACSAGNHAQGVSLSCAMLGIDGKVVMPKGAPKSKVAATCDYSAEVVLHGDNFNDTLAKASDIVELEGRIFIPPYDDPQVIAGQGTIGLEILEDLYDVDNVIVPIGGGGLIAGIAIAIKSINPTIRIIGVQSENVHGMAASWYAGEITSHRHAGTLADGCDVARPGKLTYEIARQLVDDIVLVSEDDIRQSMVALIQRNKVITEGAGALACAALLSGKLDSYIQNRKTVSLISGGNIDLSRVSQITGFVDA	PGPT0001960_5635	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
BMS020_00917	939	tsaR_2		HTH-type transcriptional regulator TsaR	ATGAATACTTTTTCTCTGCCTAAAACTCAGCATCTGGTGGTTTTCCAGGAAGTGATCCGCAGCGGGTCTATCGGGGCCGGAGCAAAAGCGTTAGGACTCACACAGCCGGCGGTCAGTAAAATCATTGGCGACATGGAAAGCTATTTTGGCAGCGAATTAATCGTCCGGCGAAATACCGGCGTCTCGCTCACCGAGGCCGGGCAGGTATTTCTGAACTGGTCAGAAGCGATCACCCGGGAAATGAAAAATATGGTCAATGAAATGAATGCGTTGACCAACAGCACGGTGGTGGATGTCTCCTTTGGTTTTCCCTCGCTGGTGGGGTTTACCTTTATGTCGGAGATGGTGCATCAGTTCAAAATGACCTTCCCCAAGGCGCGGGTATCGATGTATGAGGCGCAGCTCTCTGCCTTCTTGCCGGCGATCCGCGACGGGCGCCTCGACTTCGCCATCGGGACGCTGAGCGATGAGATGAAGCTGCAGGACCTGCACGTCGAGCCGCTGTTTGAGTCTGAGTTTGTGCTGGTGGCGAACCGGGCGCGGATCGGCAACGGCACCGTCCGCCTGGCCTCGCTCCAGCACGAGCAGTGGGTGCTGCCGGAGACCAATATGGGCTACTACAGCGAACTGCTGACCACCCTGCAGCGCAGCGGCATCCGCCGTGAAAATATCGTCAATACCGATTCGGTGGTGACGATCTATAACCTGGTGCTCAATGCCGATTTTTTGACGGTCATTCCCTGCGACATGACCACGCCGTTCGGCTCGAGCCAGTTTGTCACCATCCCCATTAAAGAGGCCTTGCCGGTGGCGCGCTATGCGGCGGTGTGGTCGAAAAATTATCGGCTGAAAACCGCGGCGGCGTCGCTGGTGGAGATGGCGAAACAGTATTCATCGGGGCAGGGCAACCGCCACTGGCAGCCAATAGAAATTGCCTGA	MNTFSLPKTQHLVVFQEVIRSGSIGAGAKALGLTQPAVSKIIGDMESYFGSELIVRRNTGVSLTEAGQVFLNWSEAITREMKNMVNEMNALTNSTVVDVSFGFPSLVGFTFMSEMVHQFKMTFPKARVSMYEAQLSAFLPAIRDGRLDFAIGTLSDEMKLQDLHVEPLFESEFVLVANRARIGNGTVRLASLQHEQWVLPETNMGYYSELLTTLQRSGIRRENIVNTDSVVTIYNLVLNADFLTVIPCDMTTPFGSSQFVTIPIKEALPVARYAAVWSKNYRLKTAAASLVEMAKQYSSGQGNRHWQPIEIA				NA	NA	NA	NA	NA
BMS020_00918	801			hypothetical protein	ATGGCTGAACGTATGACCTTTCCCATGTATGCCATCCACCGACAACAGACCCAGGCCCTTTGGCTGGCGGTGCAGTCGCTGCTGGCTGAACGCGGCGTGAGGGTGGCGGGGCACCCTCCGGCGGCCGATCCCGAGGATCTGCTGGCCCACTGGCGCCAGCCGGGGCTGTTGCTGAGCCAGACCTGTGGCTATCCGCTGGTGACCCAGCTGCCGGAGGTGCAGACGGTGGGCTGCTTCCACTACGCCGCGCCCGGTTGCGAGGGGCGCCGCTACCGCAGCCTGCTGGTGGTTCGCGAAGCGGATAGTCACCGGATGCTGGCGGACTTTTTTGGCCGCCGCGCGGTGTGCAATGCCGAGCACTCGCAGTCTGGCTACAACGTGCTGCGCAAAATGGTCGCGCCGCTCTCCCGGCAGGGGCGATTTTTTTCGGCGGTGGTATTCAGCGGCAGCCATCGGCAGTCGCTGCGCGAGCTGCAGCAGGAAAACGCCGATATCGCCGCCATCGACTGCGTGACCTACGCTCTGCTGCAGCGCCATCAGCCGCAGGCCCTGGCAGGCCTGGCGGCGATCGGCTGGAGCCCGGCCGCGCCAGGGCTGCCGCTGATCACCGCCGGCGCCACCCCGGCGGCGACGCTGAACAGCCTGCGCGAGGCGCTCCAGCAGCTGGTGAGCGATGCGCGCTATCGTCCCCTGTGCGACGCCTTTCTGATCTGCGGCTATAGCGATATGTCGCGGGAGGCCTATGCTCCGCTGCTGGCGTGGCGGGATGAGGCCGTGGCGCTGGGGGTCAGTCAGTTATAA	MAERMTFPMYAIHRQQTQALWLAVQSLLAERGVRVAGHPPAADPEDLLAHWRQPGLLLSQTCGYPLVTQLPEVQTVGCFHYAAPGCEGRRYRSLLVVREADSHRMLADFFGRRAVCNAEHSQSGYNVLRKMVAPLSRQGRFFSAVVFSGSHRQSLRELQQENADIAAIDCVTYALLQRHQPQALAGLAAIGWSPAAPGLPLITAGATPAATLNSLREALQQLVSDARYRPLCDAFLICGYSDMSREAYAPLLAWRDEAVALGVSQL				NA	NA	NA	NA	NA
BMS020_00919	1014			hypothetical protein	ATGAGGCAACACGGCAAGGTATGGGAAGTGACGGAAAAGAAGACGGCTGTCTATGTGGATGACCAACAGCGCATCCTGATCCGCCAGCTGGCGCGCAGCTGGCTGTGGCGCAGCGAGCTGCCGACCTGGCTGCTGATTGTGACGGTTTACGGCGGCTGGTTTGCCTGTGTGACGAGCTGGCGGACGCTGGGACTGTTTCCGGCCACGCTGCTGCTAATCTGGTTTACCGCCTGGTATATGTCCTTACAGCATGAGCTGATCCATGGGCATCCCACCCGGCTGGCATGGTTCAACCAGCTGCTGGGGACGCTGCCGCTGGCGGTCTGGTATCCCTACGGCGTCTACCGCGACAGCCATCTGGCGCACCATCGCAACCATCTGCTGACGCACCCCGAGGACGACCCCGAATCGTACTATGTGACGGCGGAAAGCTGGCAGCGCTTCTCTGCCTGGCAGCGCCGTCTTATCCACCTGCGGAATACCTTCTGGGGGCGTCTGCTGCTGGCGCCGCTGATGGATATCGTTCACACCCTGCGTAGCGCGCTGCGGGCTTTCCGCGCGGGCGACCGCCGCGCCATCGCCATGTGGAGCCTGCATCTGTTTCTGTTGACGGGTCTGCTGGCCTGGATGGCGGCGCAGGGTTTTTCCCCGCTGTGGTTTGTGCTGGCGGTGAGCTACCCGGCGCTGGCCCTGACCAAAGTGCGCTCTTTTCTCGAACACCGGGCCGCGGATGACCCGCTGGCCCGCTCGGTGATCAACGAGGCCGGGCTCCCCTGGCGGGTGCTGTTCCTCAATCTCAACTACCATGCGGTACACCATGACCTGCCAGGGGTCCCCTGGTACGCTTTACGTCGGCTGTATCTGCATCGCCAGACGGCTTATCTGCAGCGTAATCAGGGGTTCCTGGTGCGCGGGTACGGTGAGTGGCGACGCCATTTTAGCCGCCGGGCGGTGGCGGTGAACGCCCATCCAGGCTTTGGCGAACAGGCGCAGGCGGGAGGAGAACATGGCTGA	MRQHGKVWEVTEKKTAVYVDDQQRILIRQLARSWLWRSELPTWLLIVTVYGGWFACVTSWRTLGLFPATLLLIWFTAWYMSLQHELIHGHPTRLAWFNQLLGTLPLAVWYPYGVYRDSHLAHHRNHLLTHPEDDPESYYVTAESWQRFSAWQRRLIHLRNTFWGRLLLAPLMDIVHTLRSALRAFRAGDRRAIAMWSLHLFLLTGLLAWMAAQGFSPLWFVLAVSYPALALTKVRSFLEHRAADDPLARSVINEAGLPWRVLFLNLNYHAVHHDLPGVPWYALRRLYLHRQTAYLQRNQGFLVRGYGEWRRHFSRRAVAVNAHPGFGEQAQAGGEHG				NA	NA	NA	NA	NA
BMS020_00920	747			hypothetical protein	ATGACCTACTGTGTGGCCATGTGCCTGGCGGATGGACTGGTGTTTGCTTCCGACTCCCGCACCAACGCGGGCGTCGACCATATTGCCACTTTTAAAAAGCTGCACGTTTTCCATCAGGAAGGGGAACGGGTGCTGGTGCTGCAATCCGCCGGCAACCTGGCCACCACCCAGAGCGTGATAAGCCTGCTCAGCGCGCGGATCCGTACCCAGCAGGAGCCGAACCTGATGCAGGTGACTTCCCTCTACGACGCCGCCATGCTGATCGGGAAAACGCTGCTGGAGGTGATCCAGCGCGACAGCAGCAACCAGCAAAACTGCAGTAACACCAACTTCAACTGCAACCTGCTGCTTGGCGGCCAGATCGCCGGCGAAACCCATCGTCTGTTCCATATTTATCCGGAGGGTAACTTTATTGAAGCCACCCGCGACACGCCTTATTTCCAGATTGGCGAAAGCAAGTACGGCAAGCCGATCATCGATCGGGTGCTGACCATCGATACGCCGCTGGAGCAGGCGATGTGCTGCGCGTTGATCTCCATTGACTCGACGCTGCGCAGTAATCTGTCCGTCGGTCTGCCGCTGGATACGCTGCTCTACCGCAGCGGCAGCCTGAGCAGCGCCGGGCAGCATCGCATCACCGACAGCGATCCCTACTTCAACCGCATCCGCAAGGCGTGGTCGGAAGGGCTGTTGCACACCTTCCGGACCCTGCCGACCTGGACCCCAGCGGAGCGGGAAGAGGAGTAG	MTYCVAMCLADGLVFASDSRTNAGVDHIATFKKLHVFHQEGERVLVLQSAGNLATTQSVISLLSARIRTQQEPNLMQVTSLYDAAMLIGKTLLEVIQRDSSNQQNCSNTNFNCNLLLGGQIAGETHRLFHIYPEGNFIEATRDTPYFQIGESKYGKPIIDRVLTIDTPLEQAMCCALISIDSTLRSNLSVGLPLDTLLYRSGSLSSAGQHRITDSDPYFNRIRKAWSEGLLHTFRTLPTWTPAEREEE				NA	NA	NA	NA	NA
BMS020_00921	816		COG1305	putative protein	ATGAAACTGGTCATCGATCATCTCACCCGCTACGGCTACGATGAAGAAGTGAAGTTTTCCACCCAGTATCTGCGCCTGACGCCGCGCAGCACCGGACGGCAGACCATCACCGCCTGGACGCTGACCCTGCCGGACGGCGCGGCGGTGACCACCACCGACGGCTGGGGCAATGTGCTGCATGTGCTGACGCTGGATAACCCGCACAAAGAGATCACCATCCGCGCCAGCGGGATTGTCGATATCGCCGACGAGGGGGAAGAGACGCGTGATGAAGAGGCCGAGCTGCTGTCGCCGCTGGTTTTTCTGCGCTCTACGCCGCTGACCCGCGCCGATACGGCGATCCGCGAGTTTGCCCAGCGCCTCTATCGTCCCGATGCGGCGGAAGAGAGTTTGAATCAACTGATGGCGGATCTGCTGTTAAGAATGCCATACTCCCCCGGCGCGACCCAGGTGCAGGACTCCGCTGCCGACGCCTTCGCCCGGGCGAAGGGAGTGTGCCAGGATCATACCCATGTTTTTCTCGCCTGCTGCCGGGCGCTGGATATCCCGGCGCGCTACGTCAGCGGCTATGTCTACAGCGATAACGCCCAGCATGTGGCGATGCATGCCTGGGCGGAAGTGTGGCTCGACGGCCGCTGGCTGTCGTTTGATATCACCAATAATACCCGTCGTCTGAATCAGCATCTGCGGCTGGCGACCGGGCTGGATTATCTCGACGCCTGCCCGGTACGGGGCACCCGGTTGGGCGGCGGCGGGGAGATTATGTTAACCAACGCTGAAGTGCGCGAACACAGCCAGCAGGCGCAGCAGCAATAA	MKLVIDHLTRYGYDEEVKFSTQYLRLTPRSTGRQTITAWTLTLPDGAAVTTTDGWGNVLHVLTLDNPHKEITIRASGIVDIADEGEETRDEEAELLSPLVFLRSTPLTRADTAIREFAQRLYRPDAAEESLNQLMADLLLRMPYSPGATQVQDSAADAFARAKGVCQDHTHVFLACCRALDIPARYVSGYVYSDNAQHVAMHAWAEVWLDGRWLSFDITNNTRRLNQHLRLATGLDYLDACPVRGTRLGGGGEIMLTNAEVREHSQQAQQQ				NA	NA	NA	NA	NA
BMS020_00922	930		COG2307	putative protein	ATGCTAAGTCGTACGGCGAGTGAACTGTTCTGGATGGCCCGCTATCTTGAGCGGGCGGAGAGCTACGCCCGGGTGCTGGACGTGACCTGGAAATTATCAATGATCCCACGCCACAGTCAGCAGTCGCGGGATCTGGCGCTGCCGCTGAATTTGTCGATGACCCACGAGCTGTTTCAGGCGCGCCACGCCCGCTTTACCATGAGCAATCTGCTCAACTTTTTTGCCCTCGATGGCAACAACCCCTGCAGTATTTACAGCTGCGTGGAGATGGCGTGGAACAACGCGCACGCGGTGCGCGGCAGTCTGTCGGCCGAAGTGTGGGAGAGCATCAATGCCACCCGCATCGAGCTGCGAACCCTCCGCCAGCAGGGGCTGGGCGAGCTGGGGAGCGACGGCTTTTTCGAGTGGGTGAAAGAGCGGGTGCATCTGTTTCGCGGGGCGGTGATTGGCACGCTGCTTCGCAACGACGCCCTGAGCTTTATCGGTATCGGCACGCTGATCGAGCGTGCGTTCGCCACCACCCAGCTGCTGCTGATTAAGGATCAACAGCTGACCAACGATCCGGACCCGGTGCGCGAATACTACCGGCTGGATACCCTGCTCAATGCGGTCAGCGCCCGCGAAGCTTACAACAGCCTCTACCGCCAGCCGGTCAGTCGCGAAACGGTGATGGAGCTGCTGATCCTGCGTAACGATATTCCACGTTCGCTGCGCGCCAGCATTGCCGACCTGGTGGGCGAACTGGAGAAGATCGCCAACGATCGCTCCTATCAGCCGCTGCGCCTCGCCCATCAGCTCAACGTTGACCTGCGCTTCAGCACCCGTGACGACCTGGCGCAGGCGGACCTGCAGACCACGCTTAACGGACTGCTGGCGAGAATTAACGCCCTGTCCGACAGCATCAGACAAACCTATCTGGAGGCCTTATGA	MLSRTASELFWMARYLERAESYARVLDVTWKLSMIPRHSQQSRDLALPLNLSMTHELFQARHARFTMSNLLNFFALDGNNPCSIYSCVEMAWNNAHAVRGSLSAEVWESINATRIELRTLRQQGLGELGSDGFFEWVKERVHLFRGAVIGTLLRNDALSFIGIGTLIERAFATTQLLLIKDQQLTNDPDPVREYYRLDTLLNAVSAREAYNSLYRQPVSRETVMELLILRNDIPRSLRASIADLVGELEKIANDRSYQPLRLAHQLNVDLRFSTRDDLAQADLQTTLNGLLARINALSDSIRQTYLEAL				NA	NA	NA	NA	NA
BMS020_00923	1440		COG2308	putative protein	ATGATAAAAATAACGCTTCCTGACGGGCATTATTATGACGAGATGCTGACCGCCCAGGGTGAACAGCGGCCGCACTATAATGCCTGGTGGCAATGGTTTCGCAACACCGATCAATTCTCTATCCGGCAGAAAAAAGCGCAAGCGGAACTGCTCTTTCACCGTATCGGCATCACTTTTAACGTTTACGGCGAGGATGAAGGGACCGAGCGGCTGATCCCGTTTGACAGCGTGCCGCGGATCATCCCCGCCGGGGAGTGGCAGCGCATTGACCGCGGTATACGCCAGCGGGTGAAAGCGCTGAACGCTTTCCTCTATGACATCTATCATGAGCAGAATATCCTGCGTGCGGGGCTGATCCCGGCCGAACAGGTGCTGGCCAACGAGCAGTATCAGCCGTGCATGCAGGGCATCAACCTGCCAAACAACACCTATGCCCATATCACCGGCGTCGATATGGTGCGCAATAATGACGGTCAGTACTACGTGCTGGAGGATAATCTGCGCACGCCGTCCGGTGTCTCCTACATGCTCGAAAACCGTAAGATGATGATGCGCCTCTATCCGGAGATGTTCGAGCAGCATCACATTGCGCCGGTGGAGCGCTACCCGAGCTACCTCCTGCAGACCCTGCGCGAAAGTTCGCTGGTGGATGATCCCTGCGTCGTGGTGATGACGCCGGGTCGCTTCAACAGCGCCTACTTCGAGCACAGCTTCCTGGCGCAGCAGATGGGGGTCGAGCTGGTGGAAAGCGCCGACCTGTTTATTAAAAACGGTGCGGTGTATATGCGCACCACCGAGGGGCCGCGGCGGGTGGATGTGATTTATCGCCGCATCGATGACGCCTGGCTCGACCCGCTGGCCTTCCGCGCCGATTCGATGCTCGGCGTACCGGGGCTGCTGTCCGTTTATCGCGCCGGCGGCGTGGTGCTGGCCAACGCCATCGGCACCGGGGTGGCCGACGACAAATCGATCTACCCGTACGTCCCGGAGATGATCCGCTTTTACCTCGGCGAACAGCCGATCCTCAGCAATATCCCCACCTGGCAGTGCCGGAAAGCGGAGGACCTGCGCTACGTGCTGAGCAATCTGGAGCTGATGGTGGTCAAGGAGGTCCATGGCGCCGGGGGCTACGGCATGCTGGTCGGCCCGCGTTCCACCAAAGAGGAGCGGGAGGCCTTCCGCCAGCGCCTGCTGGCCAATCCGGCCAACTATATCGCCCAGGACACCCTCGCGCTGTCGACCTGCCCGACCTTCGTTGATGAAGGGCTGTCGCCGCGGCATATCGATTTACGCCCCTACGTACTGTCCGGGCAGGAGATGCGGCTGGTGCCTGGCGGCCTGACCCGCGTGGCGCTGACCGAAGGGTCGCTGGTGGTCAACTCGTCGCAGGGCGGCGGAACCAAGGATACCTGGGTGATGGAGGATGACGCATCATGCTAA	MIKITLPDGHYYDEMLTAQGEQRPHYNAWWQWFRNTDQFSIRQKKAQAELLFHRIGITFNVYGEDEGTERLIPFDSVPRIIPAGEWQRIDRGIRQRVKALNAFLYDIYHEQNILRAGLIPAEQVLANEQYQPCMQGINLPNNTYAHITGVDMVRNNDGQYYVLEDNLRTPSGVSYMLENRKMMMRLYPEMFEQHHIAPVERYPSYLLQTLRESSLVDDPCVVVMTPGRFNSAYFEHSFLAQQMGVELVESADLFIKNGAVYMRTTEGPRRVDVIYRRIDDAWLDPLAFRADSMLGVPGLLSVYRAGGVVLANAIGTGVADDKSIYPYVPEMIRFYLGEQPILSNIPTWQCRKAEDLRYVLSNLELMVVKEVHGAGGYGMLVGPRSTKEEREAFRQRLLANPANYIAQDTLALSTCPTFVDEGLSPRHIDLRPYVLSGQEMRLVPGGLTRVALTEGSLVVNSSQGGGTKDTWVMEDDASC	PGPT0026300_25	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048	NA	NA
BMS020_00924	1734	treA_1	COG1626	Periplasmic trehalase	ATGACGAGTACTGATGCACATCGTCCCGCTGCTTTGCCCTGTTCCCTGCGCCTGGCGATCGGCGGCGCCCTGCTCGCCCTGATGAGCCTGAATGTCCAGGCGGAAGACGGCAAAACCGCGCCGCCACCCTCGCCGGATATTCTGCTGGGCCCGTTGTTTAATGATGTCCAGAGCGCAAAGCTCTTTGCCGATCAAAAAACCTTCGCCGACGCGATCCCTAACAGCGATCCGCTGATGATCCTTGCCGATTACCGGATGCAAAAAAACCAGGCCAGCTTCGACCTGCGCCACTTCGTCGAGCTGAACTTCACGCTGCCGAAAGAGAACGACACCTATGTGCCGCCCAAAGGGCAAACCCTGCGTCAGCATATCGACGGCCTGTGGCCGGTCCTGACCCGCAGCACCGTCGAGGTGGAAAAGTGGGACTCGCTGCTGCCGCTGCCTAAGCCCTACGTGGTCCCCGGAGGACGCTTTCGCGAAGTCTATTACTGGGACAGCTATTTCACCATGCTGGGTCTTGCCGAAAGCGGTCACTGGGATAAAGTCGAAGATATGGTCGCCAACTTCGCCGCGGAAATTGACACCTGGGGCCATATCCCCAACGGTAACCGCACCTATTACCTCAGCCGTTCACAGCCCCCCTTCTTCTCCTTTATGGTAAGCCTGCTGGCGACGCACGATGGCGACCAGGTGCTGAAAACCTACCAGCCGCAGCTGGAGAAAGAGTATCGCTACTGGATGGCCGGGGCGGACGCGCTGGCTCCCGGCAGCGCCGACAAACGGGCGGTGCGGATGGCCGATGGCGCGCTGCTCAACCGCTACTGGGACGATAACGACACCCCACGCCCCGAGTCCTGGCTTGACGACGTCAAAACCGCCAAAAGCAACCCGAATCGTCCGGCCACCGAGATCTATCGCGACCTGCGCTCCGCCGCCGCTTCCGGCTGGGATTTCAGCTCCCGCTGGATGGACAATCCGCAGCAGCTCGCCACCATTCGCACCACCTCAATTGTCCCGGTCGATCTCAATGCCCTGATGTTCCATCTGGAGAAAACCCTCGCCCGCGCCAGTAAAGCTGCGGGGGACAGCGCTGGCGCTACGCGGTACGATGCGCTGGCCAACACCCGCCAGCAGGCTATCGAGAAATACCTGTGGAATGAAAAAGAGGGGTGGTACGCCGATTACGATCTGAAAAGCCACAAGGTGCGCAATCAGCTGACCGCCGCGGCGCTGTTCCCGCTGTACGTCAATGCCGCGTCACGCGAGCGAGCGACGAAAGTGGCGGCCGCCGCCGAGTCGCGGCTGCTCAAACCCGGCGGGCTGACCACCACCACCGTCAACAGCGGCCAGCAGTGGGACGCCCCCAACGGCTGGGCGCCGCTGCAGTGGGTGGCCGTCGAGGGGCTGCAAAACTATGGCCAGCAGAAGATCGCCATGGAGGTCAGCTGGCGTTTCCTGACCAACGTGCAGCATACCTATGACAGCAAACAAAAGCTGGTGGAGAAGTATGATGTGAGTTCGACCGGCACCGGCGGCGGCGGTGGGGAATATCCACTGCAGGACGGTTTTGGCTGGACCAACGGCGTCACCCTTAAGATGCTGGACCTGATCTGCCCGCAGGAGAAACCCTGCGATGCGCTGCCCGCCACCCGTCCGGCGACAACGCCTTCACTACAGGACAAACCCGCCGCTAACGACCCCGCCCCTGCGGCACCGCAAAAGACCGGCTCCTGA	MTSTDAHRPAALPCSLRLAIGGALLALMSLNVQAEDGKTAPPPSPDILLGPLFNDVQSAKLFADQKTFADAIPNSDPLMILADYRMQKNQASFDLRHFVELNFTLPKENDTYVPPKGQTLRQHIDGLWPVLTRSTVEVEKWDSLLPLPKPYVVPGGRFREVYYWDSYFTMLGLAESGHWDKVEDMVANFAAEIDTWGHIPNGNRTYYLSRSQPPFFSFMVSLLATHDGDQVLKTYQPQLEKEYRYWMAGADALAPGSADKRAVRMADGALLNRYWDDNDTPRPESWLDDVKTAKSNPNRPATEIYRDLRSAAASGWDFSSRWMDNPQQLATIRTTSIVPVDLNALMFHLEKTLARASKAAGDSAGATRYDALANTRQQAIEKYLWNEKEGWYADYDLKSHKVRNQLTAAALFPLYVNAASRERATKVAAAAESRLLKPGGLTTTTVNSGQQWDAPNGWAPLQWVAVEGLQNYGQQKIAMEVSWRFLTNVQHTYDSKQKLVEKYDVSSTGTGGGGGEYPLQDGFGWTNGVTLKMLDLICPQEKPCDALPATRPATTPSLQDKPAANDPAPAAPQKTGS	PGPT0019170_790	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-TREHALASE,PGPT0019170-treA|treF-K01194	NA	NA
BMS020_00925	2121	fhuA_1	COG1629	Ferrichrome outer membrane transporter/phage receptor	ATGAACGTGGCTATTTCTCGAAAACGCCCGGGGCTACTGTACGCCCTCGCGGTCGCACTTCCCTTCACCGCGCAGGCCGAAGAGACGGTGGTGGTGACGGCCAGCCCGCCGGCGTCTGCCAGCGCGCCGACTGAAGGCTATAGCGCCAGCACCTCGCTCGGGGCGACGAAAACCGACCAGCCGTTAATCACCACCGCCCAGTCGGTGTCGGTTGTCACCCGCCAGCAGATGGCGGATCAGGGGGCGAATACCATCAGCCAGGCGCTGGAATATACCCCAGGGGTCTACTCCAGCTTCGGCGGCGGCGCCACCCGGTTTGACGCCATCTCCCTGCGCGGCTACCACGGCGGCGACGTCGATAACCTGTTCCTCGACGGCATGCGCCTGATGAGCGACGGCGGCAGCCATAACGTTGTGCAGATCGACCCATGGTTTATCGAACGCGTCGATGTGATCCGCGGCCCTTCCTCCGCGCTCTACGGGCAAAGCGTGCCGGGCGGCGTGGTCAACCTGACCTCCAAGCGCCCGCAGTTCAGTCAGCAGGGCCACGTCCGCCTGACTGGCGGAACGCAAAATACCAAAGGCGCGGCCTTCGATTACACCGACGCCATCAATGAGCAGTGGGCATGGCGGCTGATCGGTATGACCCGCAGCAGCGACACGCAGTATGACCATACCCGCGAAGAGCGCTACGCCATTTCGCCTTCCCTGCTGTGGCAGCCGGACAGCGACACCTCGCTGCTGCTGCGCGCCTATCTGCAAAAAGATCCTTCCGGCGGCTATCATGGCTCTTTGCCGCTGGACGGCACCCGCTACGCGCACAATGGCCGTAAGCTCTCCACCAGCACCAACGAGGGCGATCCGGGAGATGGCTATCAGCGCCGTCAGCAGATCTACAGCTATGAGTTTGACCACCAGTTCACCGACGTCTGGTCGGTCTATTCCGCCGGGAGCTACACCCACACCAACGTCTCCCTCGATCAGGTCTACCAGGTCGGCTGGATAGATGACAGCGATAGGCTGGCCCGCGGCTACAGCGGCTCGCGCGGTTCGCTGGACGGCTGGTCAACCGATAACCGCCTGCGCGCCGATTTCAACACTGGCGATCTGGCGCATACCCTGATCCTCGGCGCCGAATATCATCGCTTCCGCAACGATCTGTGGACCGGCGCCGGCGGCGCGGCGCCGCTTAACCCGTTTACCGGCTATACCGCCCAGACCGGGCATACCGTGACCTACAGCGATGACAATAATCGCCGCTATTACCAGACCGGGCTGTATCTGCAGGATGAGATGGTCTGGGACCGCTGGCATATGGATGTTTCCGCCCGCTATGACCGCATCGTTTCCCAGCAGGTCAGCGACACCCAGGGCACCTCGAACCGCCGTTCAGACGATCATATCAGCGGCCGCGCCTCGCTGTTGTACGCTCTGGACAACGGGCTTTCACCCTATCTGAGCTACAGTCAGGCGATTACCCCGGCGATGCTGCCCGGCGCGGATGGCAAACCATTGAAACCGACCACCGCCGAACAGTTTGAAGCCGGCCTGAAGTTCCAGCCGCCGGGCAGCAGCGACCTCTACAGCATCGCGATTTACGACCTGACGCAAAAGGATGTCGCCACCCGCGACCCGAACATCGCCACCGCCACCTATATTCCTGCGGGGAAAGTGCATTCCCAGGGCGTCGAACTGGAAGCGCACCATCAGATCACGCCGCAGCTGAGCACTATCGCCTCGTATACCTGGAATCGTCTGCGCTTCCAGGACACTAAGGACGGTACCGACAACAACACGCCGCAGCTGACCCCGGATCAGATGGCCTCCTTCTGGGCGCGCTATCAGTTCCCGGCGGGGATCTCGGTGGGCGCCGGCGTCCGCTACATCGGCAAACAGTGGGCGGATGATGCCAACACCGCGCGGCTGCCGTCGGTGACGTTGATGGATGCCATGATGCGGGCCGACCTCGGCGTCTGGTCGCCGGGGCTGAAAGGCGCTTATGTGCAGGTTAACGCCAACAATATCGGCAATCGTGAATACGTTTCCGGCTGCTACGGCACCGGCAACTGCTACTGGGGAGCAGAGCGCAGCGTGATGGCTACCGTCGGCTACGATTTCTGA	MNVAISRKRPGLLYALAVALPFTAQAEETVVVTASPPASASAPTEGYSASTSLGATKTDQPLITTAQSVSVVTRQQMADQGANTISQALEYTPGVYSSFGGGATRFDAISLRGYHGGDVDNLFLDGMRLMSDGGSHNVVQIDPWFIERVDVIRGPSSALYGQSVPGGVVNLTSKRPQFSQQGHVRLTGGTQNTKGAAFDYTDAINEQWAWRLIGMTRSSDTQYDHTREERYAISPSLLWQPDSDTSLLLRAYLQKDPSGGYHGSLPLDGTRYAHNGRKLSTSTNEGDPGDGYQRRQQIYSYEFDHQFTDVWSVYSAGSYTHTNVSLDQVYQVGWIDDSDRLARGYSGSRGSLDGWSTDNRLRADFNTGDLAHTLILGAEYHRFRNDLWTGAGGAAPLNPFTGYTAQTGHTVTYSDDNNRRYYQTGLYLQDEMVWDRWHMDVSARYDRIVSQQVSDTQGTSNRRSDDHISGRASLLYALDNGLSPYLSYSQAITPAMLPGADGKPLKPTTAEQFEAGLKFQPPGSSDLYSIAIYDLTQKDVATRDPNIATATYIPAGKVHSQGVELEAHHQITPQLSTIASYTWNRLRFQDTKDGTDNNTPQLTPDQMASFWARYQFPAGISVGAGVRYIGKQWADDANTARLPSVTLMDAMMRADLGVWSPGLKGAYVQVNANNIGNREYVSGCYGTGNCYWGAERSVMATVGYDF	PGPT0003790_22630	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_00926	612	emtA	COG0741	Endo-type membrane-bound lytic murein transglycosylase A	GTGAAATTGAGATGGTTGCTTATTTTAGTCGTTTTTCTGGCCGGTTGTAGTTCGAAACATGATTACACCAATCCGCCGTGGAACCCCGAGGTCCCGGTGAAGCGGGCGATGCAGTGGATGCCGATCAGTGAAAAAGCCGGCGCCGCCTGGGGCGTGGATCCGCAGCTGATCACGGCGATTATCGCCATCGAGTCGGGCGGTAACCCTGCGGTAGTGAGTAAATCCGGCGCCGTCGGGCTGATGCAGCTTAAGCCGTCGACCTCCGGACGCGATGTCTATCGGCGGATGGGCTGGCGCGGCGAGCCGTCGGTCAGTGAGCTGAAAAACCCGGAACGGAATATCTCGATGGGGGCCGCCTATCTGAGCATTCTGGAAAACGGCCCGCTGGCGGGGATCAAAGACCCGCAGGTGATGCGCTATGCGGTGGTGGTCTCCTACGCCAACGGCGCGGGCGCGCTGTTGCGCACCTTCTCGTCAAGCCGGCAGGACGCCATCGACGAGATTAACGATCTCGACGCCGATGAGTTCTTCGAGCATGTGGTGAAAAAACACCCGGCTCCGCAGGCGCCGCGCTATATCTGGAAGCTGCAGAAAGCGCTGGATGCCATGTAA	MKLRWLLILVVFLAGCSSKHDYTNPPWNPEVPVKRAMQWMPISEKAGAAWGVDPQLITAIIAIESGGNPAVVSKSGAVGLMQLKPSTSGRDVYRRMGWRGEPSVSELKNPERNISMGAAYLSILENGPLAGIKDPQVMRYAVVVSYANGAGALLRTFSSSRQDAIDEINDLDADEFFEHVVKKHPAPQAPRYIWKLQKALDAM	PGPT0023800_185	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023800-mltE|emtA-K08308	NA	NA
BMS020_00927	915	ldcA	COG1619	Murein tetrapeptide carboxypeptidase	ATGTCTCAGTTTTATCTGGTCGCGCCATCCGGTTATTGCATCAACCAGCAAGCGGCGGCCCGCGGCGTCGAGCGTCTGCAGCAGGCCGGACACGAGGTGGCCCACCAGCAGGTCATTCCCCGCCGGCTGCAGCGTTTCGCCGGGACTGAACATGAACGGCTGGCCGATATTAACCAGCTTGCCCAGCTGCCCGGGCGCAACCGGATCGTTCTCGCGGTGCGCGGCGGCTACGGCGCCAGTCGTCTGCTGCCGCATATCGACTGGCAGGGGCTGATTGCCCGCCAGCAGCGCGACCCGCTGCTGATTTGCGGCCACAGCGATTTCACCGCCATCCAGTCGGGCCTGCTGGCCCTGGGCAATGTCGTCACCTTCAGCGGGCCGATGCTCGCGGGCAACTTCGGCGCGGAGACCCTCGATCCGTTTACCGAACACCATTTCTGGCAGGCGCTGCGCCAGCCGGAATTCACCCTCGAATGGCCGGGCGAAGGGCCGAACTGCCGGGTGGAAGGCACCCTGTGGGGCGGGAATCTGGCGATGCTGACCTCGCTTATCGGCACCCCGTGGCTGCCGGCGATCCGCGACGGCATCCTGGTGGTGGAGGATATCAATGAGCACCCGTTCCGCGTCGAACGCATGCTGCTTCAGCTGTTGCACAGCGGCGTACTGGCGGCGCAGAAGGCGGTGATCTTCGGCAGCTTCACCGGCGGCACGCCGAACGACTATGACGCGGGATACGACCTGCCGCAGGTCTTTGATTACCTGCGCCAGCAGCTCTCTGTACCGATGATTAGCGGACTGGAGTTTGGTCACGAGCAGCGCACGGTGACCCTGCCGCTGGGGGCGCGCGCGCGGCTGGTGAATCAGGCGGCGGCCACCACCCTGACAATCAGCGGCCACCCGGTGCTGGCAGAATAA	MSQFYLVAPSGYCINQQAAARGVERLQQAGHEVAHQQVIPRRLQRFAGTEHERLADINQLAQLPGRNRIVLAVRGGYGASRLLPHIDWQGLIARQQRDPLLICGHSDFTAIQSGLLALGNVVTFSGPMLAGNFGAETLDPFTEHHFWQALRQPEFTLEWPGEGPNCRVEGTLWGGNLAMLTSLIGTPWLPAIRDGILVVEDINEHPFRVERMLLQLLHSGVLAAQKAVIFGSFTGGTPNDYDAGYDLPQVFDYLRQQLSVPMISGLEFGHEQRTVTLPLGARARLVNQAAATTLTISGHPVLAE	PGPT0023815_2116	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MURAMOYLTETRAPEPTIDE_CARBOXYPEPTIDASE_ACTIVITY,PGPT0023815-ldcA-K01297	NA	NA
BMS020_00928	1734	cvrA	COG3263	K(+)/H(+) antiporter NhaP2	TTGGACGCCGCTGCGGTCATTAGTCTGTTTATTCTGGGTTCTGTTTTAGTAACCTGCAGTATCTTATTGAGCTCCTTTTCTTCTCGCCTTGGCATCCCGATTCTGGTCATCTTTCTGGCTATCGGGATGCTGGCAGGCATTGACGGCATCGGCGGCATCCCCTTCGACAACTACCCCTTCGCCTACATGGTGAGTAACCTGGCGCTGGCGGTGATCCTGCTGGACGGCGGGATGCGCACCCAGGCCAGCTCCTTTCGCGTCGCGCTGTGGCCGGCGCTGTCGCTGGCGACGGTCGGGGTGCTGATCACTTCGGCGCTCACCGGGATGATGGCGGCCTGGCTGTTCAAACTGGATATGATCGAAGGCCTGCTGATCGGCGCCATTGTCGGCTCCACCGACGCCGCGGCGGTCTTCTCGCTGCTCGGCGGCAAGGGGCTCAACGAGCGCGTCGGCTCGACGCTGGAAATAGAGTCAGGCAGTAACGACCCGATGGCGGTATTCCTGACCATCACCCTGATCGAAATGATCCAGCAGCACCAGACCGGCCTCAGCTGGATGTTCGCCGTGCATATCATTCAACAGTTTGGCCTCGGGATCGTCATCGGCCTCGGCGGCGGCTACCTGCTGCTGCAGATGATCAACCGCATCGTGCTGCCCGCCGGGCTCTATCCGCTGCTGGCGCTGAGCGGCGGGATCATGATTTTCGCCGTCACCACCACCCTCGACGGCAGCGGTATCCTCGCCGTCTATCTCTGCGGCTTTTTGTTGGGCAACCGGCCGATCCGCAACCGGCACGGTATCCTGCAGAACTTCGACGGTCTGGCGTGGCTGGCGCAAATCGCCATGTTCCTGGTGCTGGGCCTGCTGGTGACGCCCTCCGACCTGCTGCCGATCGCTATCCCGGCGCTGCTGCTGTCGATGTGGATGATTTTCATTGCCCGTCCGCTGTCGGTGTTTGCCGGTCTGCTGCCGTTCCGCGGGTTTAACCTCCGTGAACGGGTGTTTATCAGCTGGGTTGGCCTGCGCGGCGCGGTGCCGATTATTCTCGCGGTGTTCCCGATGATGGCCGGCCTGGACAACGCCCGCCTGTTCTTCAATGTCGCCTTCTTCGTGGTGCTGGTGTCGCTGCTGCTGCAGGGCACCTCGCTATCGTGGGCGGCGAAAAAAGCCAAAGTGGTGGTGCCGCCCGTCAGCTGGCCCATCTCCCGCGTCGGGCTGGATATTCACCCGGAAAACCCGTGGGAGCAGTTTGTCTACCAGCTGGGGGCCGATAAATGGTGCATCGGCGCGGCGCTGCGCGACCTGCATATGCCGCCGGAGACGCGGATTGCCGCGCTGTTTCGCAACAATGTCCTGCTGCACCCCACCGGCAGCACCCGCCTGCGGGAAGGCGATATCCTGTGCGTCATTGGCCGGGAACACGACCTGCCTGCGCTGGGCAAAATGTTCAGCCAGTCGCCGCCGGTGGCGCTCGATCAGCGCTTTTTCGGCGACTTTATCCTTGATGCCGAGGCCCGCTTCGCCGATGTGGCGCAAATCTACGGCATCGACGGCGGAGAGGAGTTCCGCGAACATCAGCAGTCGCTGGGGGAAGTGGTTCAGCAGCTGCTGGGCGCCGCGCCGGTGGTGGGCGACCAGGTGGAGTTCGCCGGGATGGTGTGGACAGTAGCGGAAAAAGAGAACGATCACGTGCTGAAGGTAGGGGTCCGGGTCGCGGAAGACGAGGCGGAGTGA	MDAAAVISLFILGSVLVTCSILLSSFSSRLGIPILVIFLAIGMLAGIDGIGGIPFDNYPFAYMVSNLALAVILLDGGMRTQASSFRVALWPALSLATVGVLITSALTGMMAAWLFKLDMIEGLLIGAIVGSTDAAAVFSLLGGKGLNERVGSTLEIESGSNDPMAVFLTITLIEMIQQHQTGLSWMFAVHIIQQFGLGIVIGLGGGYLLLQMINRIVLPAGLYPLLALSGGIMIFAVTTTLDGSGILAVYLCGFLLGNRPIRNRHGILQNFDGLAWLAQIAMFLVLGLLVTPSDLLPIAIPALLLSMWMIFIARPLSVFAGLLPFRGFNLRERVFISWVGLRGAVPIILAVFPMMAGLDNARLFFNVAFFVVLVSLLLQGTSLSWAAKKAKVVVPPVSWPISRVGLDIHPENPWEQFVYQLGADKWCIGAALRDLHMPPETRIAALFRNNVLLHPTGSTRLREGDILCVIGREHDLPALGKMFSQSPPVALDQRFFGDFILDAEARFADVAQIYGIDGGEEFREHQQSLGEVVQQLLGAAPVVGDQVEFAGMVWTVAEKENDHVLKVGVRVAEDEAE	PGPT0013860_421	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013860-cvrA|nhaP2-K11105	NA	NA
BMS020_00929	1071	dadX	COG0787	Alanine racemase, catabolic	ATGACCCGTCCGGTAGTGGCCAGCATCGACCTGCTGGCCTTGCGGCAGAATTTACAGATAGTGCGTCGCGCGGCCCCCGGGTCGCGCCTGTGGGCGGTGGTCAAAGCTAATGCTTATGGCCATGGCGTGGCGCGGGTATGGAGTGCGTTGAGCGCGGCGGATGGTTTCGCCTTGCTCAACCTGGAAGAGGCGATCCTGCTGCGCGAGCAGGGCTGGAAAGGTCCGATCCTGCTGCTGGAGGGCTTCTTCCATGCCGATGAGCTGGCGGTGCTGGATCAATATCGCTTAACCACCAGCGTTCACAGCAACTGGCAGATTAAGGCGCTGCAGCAGGCGAAGCTGCGCGCGCCGCTGGATATCTATCTCAAGGTGAACAGCGGCATGAACCGGCTGGGCTTTATGCCGGAGCGGGTGCATACCGTCTGGCAGCAGCTGCGGGCGATAAGCAATGTCGGCGAGATGACGCTGATGTCGCACTTCGCGGAGGCGGAGAACCCGCAGGGGATTGTCGAGCCGATGCGCCGTATTGAACAAGCGGCGGAGGGACTGGATTGCCCGCGCTCGCTGGCCAACTCGGCGGCGACCCTCTGGCATCCGGAAGCGCATTTTGACTGGGTTCGACCGGGCATCGTGCTGTATGGCGCGTCGCCCTCAGGGCAGTGGCAGGACATCGCGAACACCGGCCTGAAGCCGGTGATGGCCCTGCGCAGCGAAATCATCGCCGTGCAGAACCTGCGCCCCGGCGAGGCGATCGGCTATGGCGGCCTGTATCGCACCACTCAGGAGCAGCGGATCGGCATTGTCGCCTGCGGCTATGCCGACGGCTATCCGCGGGTGGCGCCGAGCGGCACGCCGGTGCTGGTGGACGGCGTGCGGACTACCACCGTCGGGCGCGTGTCGATGGATATGCTGGCGGTCGATTTAACCCCCTGTCCGCAGGCCGGGATTGGCGCGCCGGTCGAACTGTGGGGCAAAGAGATTAAAATCGACGACGTGGCGGCCAGCTGCGGCACCGTCGGCTATGAGCTGATGTGCGCCCTGGCGCCGCGGGTGCCGGTTGTGACCCTGTAA	MTRPVVASIDLLALRQNLQIVRRAAPGSRLWAVVKANAYGHGVARVWSALSAADGFALLNLEEAILLREQGWKGPILLLEGFFHADELAVLDQYRLTTSVHSNWQIKALQQAKLRAPLDIYLKVNSGMNRLGFMPERVHTVWQQLRAISNVGEMTLMSHFAEAENPQGIVEPMRRIEQAAEGLDCPRSLANSAATLWHPEAHFDWVRPGIVLYGASPSGQWQDIANTGLKPVMALRSEIIAVQNLRPGEAIGYGGLYRTTQEQRIGIVACGYADGYPRVAPSGTPVLVDGVRTTTVGRVSMDMLAVDLTPCPQAGIGAPVELWGKEIKIDDVAASCGTVGYELMCALAPRVPVVTL	PGPT0020040_4892	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775	NA	NA
BMS020_00930	1299	dadA_2		D-amino acid dehydrogenase	ATGCGTGTCGTCATACTGGGAAGTGGGGTGGTTGGGGTAGCCAGCGCGTGGTATTTGAGTCAGGCGGGTCATGAGGTGACGGTTATCGACCGTCAGCCCGGTCCGGCAGAGGAGACCAGCGCGGCCAACGCCGGGCAGATTTCTCCCGGCTATGCGGCGCCCTGGGCGGCGCCGGGGGTGCCGCTGAAGGCGATAAAATGGATGTTCCAGCGCCATGCGCCGCTGGCGATCGGCCTTGACGGCACGTCGTTCCAGCTGAAGTGGATGTGGCAGATGCTGCGCAACTGCGACACCCGCCACTATATGGAGAACAAAGGCCGGATGGTGCGCCTGGCGGAGTACAGCCGTGACTGCCTGAAGGCGCTGCGCGACACCACCGGCATTCAGTATGAAGGGCGTCAGGGCGGGACGCTGCAGCTGTTCCGTACCGCCAAACAGTATGAAAACGCCACCCGCGACATCGCGGTGCTGGAGGACGCCGGCGTGCCGTATCAGCTGCTGGAGGCGAAGCGGCTGGCGGAAGTGGAGCCTGCGCTGGCGGAGGTCAGCCACAAACTGACCGGCGGCCTGCGTCTGCCAAACGATGAAACCGGCGACTGCCAGCTGTTTACCACCCGTCTGGCGGCGATGGCGGAACAGGCCGGGGTCACCTTCCGCTTCAATACCCCGGTGGACGCCCTGCTGCAGGAGGGCGATCGCATTGCCGGGGTGAAATGCGGCGATGAGATTATCAAAGGCGACGCCTATGTGATGGCCTTCGGCTCCTACTCGACGGCGATGCTCAAGGGGCTGGTGGATATTCCGGTCTACCCGCTGAAAGGCTATTCATTAACCATCCCGATTGCCCAGGAAGACGGCGCGCCGGTTTCCACTATCCTTGATGAGACGTATAAAATCGCCATCACCCGTTTCGATCAGCGTATTCGCGTCGGCGGTATGGCCGAGATCGTCGGTTTTAACAAAGCGCTGCTGCAGCCGCGTCGGGAAACTCTGGAGATGGTGGTGCGCGACCTGTTCCCCCGCGGCGGCCACGTTGAGCAGGCCACCTTCTGGACCGGCCTGCGGCCGATGACGCCGGACGGCACGCCGGTGGTCGGGCGCACGGCGTTTAAAAACCTGTGGCTCAACACCGGTCACGGTACCCTCGGCTGGACCATGGCCTGCGGCTCAGGGCAGCTGATCAGCGATTTGATCTCCGGCCGCACGCCGGCGATCCCTTACGACGATCTGGCGGTCGCCCGCTACAGCCCCGGGTTCACCCCGGCGCGTCCGCAGCATCTGCATGGCGCACACAACTAA	MRVVILGSGVVGVASAWYLSQAGHEVTVIDRQPGPAEETSAANAGQISPGYAAPWAAPGVPLKAIKWMFQRHAPLAIGLDGTSFQLKWMWQMLRNCDTRHYMENKGRMVRLAEYSRDCLKALRDTTGIQYEGRQGGTLQLFRTAKQYENATRDIAVLEDAGVPYQLLEAKRLAEVEPALAEVSHKLTGGLRLPNDETGDCQLFTTRLAAMAEQAGVTFRFNTPVDALLQEGDRIAGVKCGDEIIKGDAYVMAFGSYSTAMLKGLVDIPVYPLKGYSLTIPIAQEDGAPVSTILDETYKIAITRFDQRIRVGGMAEIVGFNKALLQPRRETLEMVVRDLFPRGGHVEQATFWTGLRPMTPDGTPVVGRTAFKNLWLNTGHGTLGWTMACGSGQLISDLISGRTPAIPYDDLAVARYSPGFTPARPQHLHGAHN	PGPT0020315_643	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
BMS020_00931	1533			hypothetical protein	ATGGCTACGATTGACTCCATGAACAGGGACACCACCCGTTTAAGCGATGGACCCGACTGGACGTTTGAGTTACTGGAGACCTACCTGGCCGAAGTGGACCGGGTCGCTAAGCTCTATCGTCTTGACACCTACCCGCACCAGATCGAAGTCATTACTTCCGAGCAGATGATGGACGCCTACTCCAGCGTCGGCATGCCCATCAACTATCCGCACTGGTCGTTCGGCAAAAAATTCATTGAGACCGAGCAGGCCTATAAGCACGGCCAGCAGGGCCTGGCGTATGAGATTGTCATCAACTCCAACCCCTGTATCGCCTACCTGATGGAAGAAAACACCATCACCATGCAGGCGCTGGTGATGGCGCACGCCTGCTACGGGCATAATTCGTTCTTTAAAAACAATTACCTGTTTCGCAGCTGGACCGACGCCAGCTCAATCATCGATTACCTGATCTTCGCCCGCAAATACATTACCGAGTGCGAAGAACGCTATGGCGTCGACGAAGTGGAGAAACTGCTCGACTCCTGCCATGCGCTGATGAACTACGGCGTCGACCGCTATAAACGTCCGCAAAAAATCTCTCTGCAGGAGGAGAAGGCGCGGCAGAAAAGCCGGGAAGAGTATCTGCAGAGCCAGGTGAATATGCTGTGGCGCACCCTGCCGAAGCGCGAAGAGGAGAAGGCGATTGAGTCCGCCCGCCGCTACCCTTCCGAACCGCAGGAGAACCTGCTGTACTTTATGGAGAAGAACGCCCCGCTGCTGGAATCGTGGCAGCGCGAGATCCTGCGCATCGTGCGCAAAGTCAGCCAGTATTTCTACCCGCAGAAACAGACCCAGGTGATGAACGAGGGGTGGGCCACCTTCTGGCACTACACCATCCTCAATCATCTCTATGACGAAGGGAAAGTGACCGAGCGCTTTATGCTGGAGTTTCTCCACAGCCACACGAACGTGGTGTTCCAGCCGCCATACAACAGTCCGTGGTACAGTGGGATTAACCCCTACGCGCTGGGCTTCGCCATGTTCCAGGACATCAAGCGCATCTGCCAGTCGCCCACCGAAGAGGACAAGTACTGGTTCCCGGATATCGCCGGTTCCGACTGGCTGGAAACGCTGCATTTCGCCATGCGCGACTTCAAGGATGAGAGCTTTATCAGCCAGTTCCTGTCGCCGAAGATCATGCGCGATTTCCGCTTCTTCACCGTGCTCGACGACGACCACAACAATTATCTCGAGATCTCGGCGATCCACAACGAAGAGGGCTATCGCGAGATCCGCAACAAGCTCTCAGCGCAATATAACCTCAGCAATCTTGAGCCGAATATCCAGGTGTGGAACGTTGACCTGCGCGGCGACCGCTCGCTGACGTTGCGCTATGTGCCGCACAACCGCGTCCCGCTGGACAAAGGGCGGCGCGAAGTGCTGAAACATGTGCATCGTCTGTGGGGGTTCGATGTGCTGCTGGAGCAGCAGAACGCCGACGGCAGCATTGAGCTACTGGACCGCTGCCCGGCGCGGCCGAACGCGCTATAG	MATIDSMNRDTTRLSDGPDWTFELLETYLAEVDRVAKLYRLDTYPHQIEVITSEQMMDAYSSVGMPINYPHWSFGKKFIETEQAYKHGQQGLAYEIVINSNPCIAYLMEENTITMQALVMAHACYGHNSFFKNNYLFRSWTDASSIIDYLIFARKYITECEERYGVDEVEKLLDSCHALMNYGVDRYKRPQKISLQEEKARQKSREEYLQSQVNMLWRTLPKREEEKAIESARRYPSEPQENLLYFMEKNAPLLESWQREILRIVRKVSQYFYPQKQTQVMNEGWATFWHYTILNHLYDEGKVTERFMLEFLHSHTNVVFQPPYNSPWYSGINPYALGFAMFQDIKRICQSPTEEDKYWFPDIAGSDWLETLHFAMRDFKDESFISQFLSPKIMRDFRFFTVLDDDHNNYLEISAIHNEEGYREIRNKLSAQYNLSNLEPNIQVWNVDLRGDRSLTLRYVPHNRVPLDKGRREVLKHVHRLWGFDVLLEQQNADGSIELLDRCPARPNAL	PGPT0024845_580	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024845-spoVR-K06415	NA	NA
BMS020_00932	720	fadR	COG2186	Fatty acid metabolism regulator protein	ATGGTCATTAAGGCGCAGAGCCCTGCGGGTTTCGCGGAAGAGTATATCATTGAGAGCATCTGGAATAACCGCTTCCCACCTGGATCGATTCTCCCCGCTGAACGCGAGCTTTCTGAGCTGATCGGTGTCACCCGCACCACTCTGCGCGAAGTGTTGCAGCGTCTGGCGCGTGACGGCTGGTTGACCATTCAGCACGGCAAACCCACCAAAGTGAACAACTTCTGGGAGACCTCCGGGCTGAATATCCTTGAAACGCTGGCGCGTCTGGATCACGACAGCGTCCCGCAGCTGATTGATAACCTGCTCTCCGTGCGCACCAATATTTCCACGATTTTTATTCGCACCGCGTTCCGTCAGCATCCGGATAAAGCGCTGGCGGTGCTGGACAGCGCCCGGGAAGTGGAAGATCACGCCGACGCCTTCGCCGACCTCGATTACAACATTTTCCGCGGTCTGGCGTTCGCCTCCGGCAATCCGATCTATGGTCTGATCCTCAACGGCATGAAGGGGCTGTATACCCGCATTGGCCGCCACTATTTCTCCAGCCCGGAAGCGCGCAGCCTGGCGCTGGGCTTTTATCATCAGCTGGCGAAGGTGTGCGAAGGCGGCCTGCACGATCAGGTGTATGAGCTGGTTCGTCGCTACGGCCATGACAGCGGCGAGATCTGGCACCGGATGCAGAAATCGCTGCCCGGCGATTTAGCCATGAATGTGCGTTAA	MVIKAQSPAGFAEEYIIESIWNNRFPPGSILPAERELSELIGVTRTTLREVLQRLARDGWLTIQHGKPTKVNNFWETSGLNILETLARLDHDSVPQLIDNLLSVRTNISTIFIRTAFRQHPDKALAVLDSAREVEDHADAFADLDYNIFRGLAFASGNPIYGLILNGMKGLYTRIGRHYFSSPEARSLALGFYHQLAKVCEGGLHDQVYELVRRYGHDSGEIWHRMQKSLPGDLAMNVR	PGPT0023500_270	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_MEMBRANE_LIPID_DEGRADATION	PLANT_PHOPSHO-|LIPID_DEGRADATION,PGPT0023500-fadR-K03603	NA	NA
BMS020_00933	1551	nhaB	COG3067	Na(+)/H(+) antiporter NhaB	GTGGAAATTTCTTATGGCCGCGCGCTGTGGCGCAATTTTCTTGGCCAGTCGCCTGACTGGTACAAGCTGGCATTAATTATTTTCTTAATCATCAATCCGCTGGTGTTCGCCTTAGCGCCGTTTGTCGCCGGCTGGCTGCTGGTGGTTGAGTTTATCTTTACCCTCGCCATGGCGCTGAAGTGCTATCCACTGCTGCCGGGGGGGCTGCTGGCATTTGAAGCGGTGCTGATCGGCATGACCAGCCCGGGTCATGTGCGGGAAGAGATCGCCAGCAACCTGGAAGTGCTGCTCCTGCTGATGTTCATGGTGGCGGGCATCTACTTTATGAAGCAGCTGCTGCTCTTCGTCTTTACGCGCCTGCTGCTCGGCATCCGCAGCAAAATGCTGCTGTCGCTGGCCTTCTGCCTGGCCGCCGCCTTCCTCTCCGCCTTTCTCGATGCGCTCACCGTGGTGGCGGTGGTGATTAGCGTCGCCGTCGGGTTTTACGGCATCTATCACCGCGTCGCCTCGGCGCGCCCCGACGATAGCGATGTGCAGGACGACAGCCATATCGATCAGCACTACCGCGAGGTGCTGGAGCAGTTCCGCGGTTTTCTGCGCAGCCTGATGATGCACGCCGGCGTCGGTACCGCGCTCGGCGGCGTCATGACCATGGTCGGCGAGCCGCAAAACTTGATTATCGCCAAAGCGGCGGGCTGGCATTTTGGCGAATTCTTCATTCGCATGTCGCCCATCACGCTGCCGGTGCTGGTCTGCGGGCTGCTGACCTGTCTGCTGGTGGAAAAGTATCGCCTGTTTGGCTACGGCGAACCGCTGCCGCCGACGGTCCGAAAGGTGCTGCAGGACTTTGACGATCGCAGCCGCGCGCAGCGCAGTCGTCAGGAACGGCTGCGGCTGATTGCCCAGGCGCTGATTGGCGTCTGGCTGATCGCAGCCCTCGCATTGCACCTTGCCGAAGTCGGCCTCATTGGCCTGTCGGTGATCATTCTCGCTACCACCTTTACCGGCGTGACCGATGAACATGCGATTGGCAAGGCGTTCACCGAGGCGTTGCCCTTCACCGCGCTGCTGACGGTATTCTTTGCCGTCGTGGCGGTGATCATCGACCAGCAGCTGTTCACGCCGGTCATCGAGTTTGTTCTGCAGGCCTCGCCGCACGCGCAGCTGTCGCTGTTTTATCTGTTTAACGGCCTGCTGTCGTCCATCTCGGATAACGTTTTTGTCGGTACGGTCTACATCAACGAAGCGAAAACCGCCCTCGAGCATGGCGCCATCAGCCTGAAGCAGTTTGAGATGCTGGCGGTGGCGATCAATACCGGCACCAACCTGCCGTCAGTGGCCACCCCGAACGGCCAGGCGGCATTCCTCTTCCTGCTGACTTCCGCGCTGGCGCCGCTTATCCGGCTCTCCTATGGCCGCATGGTGTGGATGGCTCTGCCCTACACCCTCGTGCTGACGCTGGTCGGCCTGCTGTGCGTCGAGTTCACCCTGATGCCGGTCACCGAATGGTTGCTGGCTCACGGCTGGCTGGATACCCCCACCCTGCCCTGA	MEISYGRALWRNFLGQSPDWYKLALIIFLIINPLVFALAPFVAGWLLVVEFIFTLAMALKCYPLLPGGLLAFEAVLIGMTSPGHVREEIASNLEVLLLLMFMVAGIYFMKQLLLFVFTRLLLGIRSKMLLSLAFCLAAAFLSAFLDALTVVAVVISVAVGFYGIYHRVASARPDDSDVQDDSHIDQHYREVLEQFRGFLRSLMMHAGVGTALGGVMTMVGEPQNLIIAKAAGWHFGEFFIRMSPITLPVLVCGLLTCLLVEKYRLFGYGEPLPPTVRKVLQDFDDRSRAQRSRQERLRLIAQALIGVWLIAALALHLAEVGLIGLSVIILATTFTGVTDEHAIGKAFTEALPFTALLTVFFAVVAVIIDQQLFTPVIEFVLQASPHAQLSLFYLFNGLLSSISDNVFVGTVYINEAKTALEHGAISLKQFEMLAVAINTGTNLPSVATPNGQAAFLFLLTSALAPLIRLSYGRMVWMALPYTLVLTLVGLLCVEFTLMPVTEWLLAHGWLDTPTLP	PGPT0013940_285	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013940-nhaB-K03314	NA	NA
BMS020_00934	531	dsbB_1	COG1495	Disulfide bond formation protein B	ATGTTGCAATATTTAAACCAGTGCTCGCGGGGACGCGGCGCCTGGCTCCTGATGGCATTGACCGCGTTCATTCTCGAACTCGTCGCGCTGTGGTTCCAGCACGTGATGCTGCTGCAGCCGTGTGTGATGTGCATTTATGAACGCTGCGCCCTGTTTGGCATCATGGGCGCGGGGCTGGTGGGCGCCATTGCCCCCAAAACGCCGCTGCGCTATGTCGCCATGCTGATTTGGCTGTACAGCGCGGTACGTGGGCTGCAGCTGGCGTGGGAACATACGATGATCCAGTTGCACCCATCGCCGTTCCAGACCTGTGATTTCGCCGCCCGCTTCCCGAGCTGGCTGCCGCTGGATAAATGGTTGCCGCAGGTGTTTGTCGCGTCCGGCGACTGTTCGGTACGCCAGTGGCAGTTCCTGTCGCTGGAGATGCCGCAATGGCTGGTGGGCATTTTCGCGGCCTATCTGGTGGTGGCTATCCTGGTGATCGTTGCTCAGCCTTTTAAAGCGAAAAAGCGCGATCTGTTTGGCCGCTAA	MLQYLNQCSRGRGAWLLMALTAFILELVALWFQHVMLLQPCVMCIYERCALFGIMGAGLVGAIAPKTPLRYVAMLIWLYSAVRGLQLAWEHTMIQLHPSPFQTCDFAARFPSWLPLDKWLPQVFVASGDCSVRQWQFLSLEMPQWLVGIFAAYLVVAILVIVAQPFKAKKRDLFGR				NA	NA	NA	NA	NA
BMS020_00935	345	yeaR_1	COG3615	putative protein YeaR	ATGTCATCTTTACTGATCCCCGCAGACTGGAAAGTTAAACGCTCCACCCCGTTCTTTACCAAAGAGAACGTCCCCGCCGCCCTGCTGAGCCACCACAACACCGCAGCCGGCGTCTTCGGTCAGCTGTGCGTCATGGAAGGTACGGTGACCTATTACGGTTTTGCCAATGAACAGGCGACGGAGCCGGAGAAAAAAGTCGTCATTCATGCCGGGCAGTTTGCCACCAGTCCGCCGCAGTACTGGCACCGCGTCGAACTCAGCGACGATGCCCGCTTCAATATTCACTTCTGGGTGGCGGATGAAACCGACGGTGAAAACGGGCTGTTCCACGCGAAAAAAGCGTGA	MSSLLIPADWKVKRSTPFFTKENVPAALLSHHNTAAGVFGQLCVMEGTVTYYGFANEQATEPEKKVVIHAGQFATSPPQYWHRVELSDDARFNIHFWVADETDGENGLFHAKKA				NA	NA	NA	NA	NA
BMS020_00936	447			hypothetical protein	ATGAGCGAACAACCTTTCTGGCAACAAAAAACCCTGGATGACATGACCGACGCGGAGTGGGAATCGCTGTGTGACGGTTGCGGCCAGTGCTGCCTGCATAAGCTGATGGATGAAGATACCGATGAGATCTACTTCACCAACGTCGCCTGCCGTCAGCTCAATATCAAAACCTGCCAGTGCCGTAACTACGAGCGTCGCTTCGAATATGAGCCGGACTGCATCAAGCTCACGCGCGAAAATCTGCCGACTTTCGAATGGCTGCCGCCAACCTGCGCCTATCGCCTGCTGGCGGAAGGCAAGCCTCTGCCGGCCTGGCACCCGCTGCTGACCGGCTCAAAAGCGGCGATGCACGGCGAACGCATCTCCGTCCGTCATATTGCGGTGCCCGAGTCCACCGTTGTCGACTGGCAGGACCACATCCTCAATCTGCCTGACAGGGCGCGGTAA	MSEQPFWQQKTLDDMTDAEWESLCDGCGQCCLHKLMDEDTDEIYFTNVACRQLNIKTCQCRNYERRFEYEPDCIKLTRENLPTFEWLPPTCAYRLLAEGKPLPAWHPLLTGSKAAMHGERISVRHIAVPESTVVDWQDHILNLPDRAR	PGPT0009760_954	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-1_ExpI|EsaI_PERCIPITATION|SIGNALLING|AHL|NAHL,PGPT0009760-ycgN-K09160	NA	NA
BMS020_00937	660	ycgM	COG0179	putative protein YcgM	ATGTACCAACATCATAACTGGCAGGGAGCGCTCCTGGATTATCCGGTGAGCAAAGTGGTTTGCGTCGGCAGTAATTATGCAAAGCACATCAAGGAAATGGGCAGTGCGACGCCGGAAGAGCCGGTGCTGTTTATTAAACCTGAGAGCGCGCTGTGCGATCTCCGTCAGCCGTTGGTGCTTCCTGAGGGGCTGGGCTCGGTGCATCACGAAGTCGAGCTGGCGGTGCTGATCGGCGGTACGCTGCGTCAGGCGACGGAAGAGCATGTGCAGAAAGGGATTGCCGGCTATGGCGTCGCATTGGATCTCACCCTGCGCGACCTGCAGGCGAAGATGAAAAAGGCCGGACAGCCGTGGGAAAAGGCCAAAGGCTTCGATAATGCCTGTCCGATCTCCGGCTTTATTCCGGCCGCCGAGTTCCACGGCGACCCGCAGAATACGCCGTTAAGCCTGAAGATTAACGGCGAGGTGCGCCAGCAGGGCACCACCGCCGACATGATCCATAAGATCGTGCCGCTGATCGCCTATATGTCGCGCTTCTTTACTCTCAAAGCCGGGGACGTGATCCTCACCGGCACCCCGGAAGGGGTAGGGCCGCTGCACAGCGGCGACGAGCTGGTGGTCGGCTTCAACGGCCTGTCGCTCACCACCCGGGTACTGTAA	MYQHHNWQGALLDYPVSKVVCVGSNYAKHIKEMGSATPEEPVLFIKPESALCDLRQPLVLPEGLGSVHHEVELAVLIGGTLRQATEEHVQKGIAGYGVALDLTLRDLQAKMKKAGQPWEKAKGFDNACPISGFIPAAEFHGDPQNTPLSLKINGEVRQQGTTADMIHKIVPLIAYMSRFFTLKAGDVILTGTPEGVGPLHSGDELVVGFNGLSLTTRVL	PGPT0001625_427	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001625-ycgM-K01557	NA	NA
BMS020_00938	282	ycgL_1	COG3100	Protein YcgL	ATGTTTTGTGTGATCTATCGAAGTACTAAACGTGAACAAACCTATTTATACGTCGAAAAAAAGGACGATTTCTCACGCGTTCCTGACGAGCTGATGCGCGGCTTCGGCACGCCGCAAATGGCGATGCTGCTGCCGCTGGATGGGCGCAAAAAACTGGTTAACGCCGACCTCGAAAAAGTGAAACAGGCGTTAAGCGAACAGGGCTATTACCTGCAACTTCCTCCGCCGTCTGAAAATCTACTAAAGAAACACCTGGCGGAACAGGGGAAACAATCCGATTAA	MFCVIYRSTKREQTYLYVEKKDDFSRVPDELMRGFGTPQMAMLLPLDGRKKLVNADLEKVKQALSEQGYYLQLPPPSENLLKKHLAEQGKQSD	PGPT0014205_254	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SUCROSE_METABOLSIM,PGPT0014205-SPP_like-K07024	NA	NA
BMS020_00939	699	minC_1	COG0850	Septum site-determining protein MinC	ATGTCAAATACGCCAATCGAACTTAAAGGCAGTAGCTTTACGTTATCTGTCGTTCATTTGCACGATGCAAATCCCGAGGTTATTCGTCAGGCGTTAGAAGACAAAATCGCCCAGGCTCCCGCCTTTTTACGCCATGCTCCGGTGGTGGTGAATATCGCCAGCGTCGAGGAGAGTGTCGAATGGCGCGCCGTCAACGAGGCTATCGCCGCGACCGGTTTACGTATTATGGGCGTCAGCGGATGCAAAATCCCGCGCCTGAAAACCGAAATCGACCGCGCCGGTATCCCGTTATTAACCGAAGGGAAAGAAAAAGCCCCTCGTCCGGCACCGTCCGAACCTGCCCCGCCGCCGCCAGTTGCTAACCAGATCACAAAAACGCGTTTGATTGACCAGCCGGTACGTTCCGGTCAGCGCATTTATGCGCCACACTGTGATCTTATTGTTACAAATCATGTGAGTGCCGGCGCGGAACTTATCGCTGACGGCAATATCCATGTATATGGCATGATGCGAGGACGCGCATTGGCAGGCGCCGGTGGCGACAGAGACGCCCAGATATTTTGTACCCACCTTGCGGCGGAGCTGGTCTCCATCGCCGGGGAATATTGGCTGAGCGATAACATCCCGGCCGAATTTTATGGCAAAGCGGCACGCCTGCGTTTAGGCGAAAGCGCTTTGACAATTCAACCGTTAAATTAA	MSNTPIELKGSSFTLSVVHLHDANPEVIRQALEDKIAQAPAFLRHAPVVVNIASVEESVEWRAVNEAIAATGLRIMGVSGCKIPRLKTEIDRAGIPLLTEGKEKAPRPAPSEPAPPPPVANQITKTRLIDQPVRSGQRIYAPHCDLIVTNHVSAGAELIADGNIHVYGMMRGRALAGAGGDRDAQIFCTHLAAELVSIAGEYWLSDNIPAEFYGKAARLRLGESALTIQPLN				NA	NA	NA	NA	NA
BMS020_00940	813	minD_1	COG2894	Septum site-determining protein MinD	ATGGCACGCATTATTGTTGTGACTTCGGGTAAAGGGGGCGTTGGCAAGACCACCTCCAGCGCGGCCATCGCTACAGGTTTGGCCCAGAAGGGAAAGAAAACCGTCGTTATCGACTTCGACATCGGCCTGCGTAACCTCGACCTGATTATGGGCTGCGAACGTCGCGTCGTTTATGATTTCGTCAACGTCATCCAGGGCGATGCCACATTGAACCAAGCGCTGATCAAAGATAAGCGCACGGAAAACCTCTACATTCTCCCGGCTTCCCAGACCCGGGATAAAGACGCCCTGACCCGCGAAGGCGTCGACAAAGTTCTCGAAGAACTGAAGAAGATGGAGTTCGATTTCATCGTCTGTGATTCCCCGGCAGGCATTGAAACCGGTGCGCTGATGGCGCTCTATTTCGCTGATGAAGCCATTATCACCACCAACCCGGAAGTCTCCTCCGTTCGCGACTCCGACCGTATCCTTGGCATTCTCGCCTCCAAATCCCGCCGCGCGGAAAATGGCGAAGAGCCGATCAAAGAGCACCTGCTGCTGACCCGCTACAATCCAGGCCGCGTCAATAAAGGCGATATGCTGAGCATGGAAGACGTGCTGGAGATTCTGCGCATCAACCTGGTGGGCGTGATCCCGGAAGACCAGTCAGTCCTGCGCGCATCCAACCAGGGTGAGCCCGTGATCCTCGATGCCGCGTCGGACGCAGGCAAAGCCTATGCCGATACCGTTGAACGTCTGCTCGGAGAAGAACGCCCTTTCCGCTTCATTGAAGAAGAGAAGAAAGGATTCCTCAAACGCCTGTTCGGAGGATAA	MARIIVVTSGKGGVGKTTSSAAIATGLAQKGKKTVVIDFDIGLRNLDLIMGCERRVVYDFVNVIQGDATLNQALIKDKRTENLYILPASQTRDKDALTREGVDKVLEELKKMEFDFIVCDSPAGIETGALMALYFADEAIITTNPEVSSVRDSDRILGILASKSRRAENGEEPIKEHLLLTRYNPGRVNKGDMLSMEDVLEILRINLVGVIPEDQSVLRASNQGEPVILDAASDAGKAYADTVERLLGEERPFRFIEEEKKGFLKRLFGG				NA	NA	NA	NA	NA
BMS020_00941	270	minE_1	COG0851	Cell division topological specificity factor	ATGGCTTTACTCGACTTTTTTCTCTCGCGAAAAAAGAACACGGCTAATATTGCGAAAGAACGCCTGCAAATCATCGTCGCCGAGCGCCGCCGCGGGGACGCGGAGCCGCATTACCTGCCGCAGTTGCGCAAAGATATCCTGGAAGTGATCTGCAAATACGTGCAGATCGACCCGGAGATGGTCAGCGTGCAGCTGGAGCAACGGGACGGTGATATTTCCATTCTTGAGCTGAACGTGACCCTACCCGAAACGGAAGAGTCGAAACCCTGA	MALLDFFLSRKKNTANIAKERLQIIVAERRRGDAEPHYLPQLRKDILEVICKYVQIDPEMVSVQLEQRDGDISILELNVTLPETEESKP				NA	NA	NA	NA	NA
BMS020_00942	1116	rnd_1	COG0349	Ribonuclease D	ATGATCACCACCGACGATGGCCTGCGCGCTGTCTGCGAAGCGGCAAGCGCGGCCTCCGCCGTCGCTCTGGATACGGAATTTGTCCGTACCCGCACCTATTACCCGCAGCTGGGCCTGCTGCAGCTGTTCGACGGCCACCAGGTCTCTCTGATCGATCCCTTGACGATTAACGACTGGGCGCCGATGCGCGACCTGCTGCTCAACCCGGATGTGACCAAATATCTGCATGCCGGCAGCGAAGATTTAGAAGTCTTCCTCAACGCGTTCAACCTGATGCCGCAGCCGCTGATCGACACCCAGATCCTGGCGGCCTTCTGCGGTCGGCCGATGTCCTGGGGCTTTGCCTCGATGGTGGAAGAGTATTCCGGGGTCGCGCTGGACAAAAGCGAATCCCGCACCGACTGGCTGGCGCGACCGCTGACCGAGCGTCAGTGTGAATACGCTGCGGCCGACGTCTGGTACCTGCTGCCGATCGCCAGCCAATTAATGGCGGAGACCGATCGCGTGGGCTGGCTATCGGCGGCACTGGACGAATGCCGCCTGATGCAGCAGCGCCGTCAGGAGGTGGTCGACCCGGCCGAGGCCTGGCGCGATATCGGCAACGCCTGGCAGCTGCGTACCCGCCAGCTGGGCTGCCTGCAGCTGCTGGCGGAGTGGCGTCTGCGCAAAGCGCGTGAGCGCGACCTGGCGGTGAACTTTGTGGTGCGGGAAGAGCATCTGTGGAGCGTGGCGCGCTATATGCCCACCAGCCTCGGCGAGCTCGACAGCCTCGGGTTGTCCGGTAGCGAAATTCGCTTCCATGGCAAAACGCTGATCGGCCTGGTCGAGAAAGCCCAGGCGCTGCCGGAGTCGTCGCTGCCGGCGCCGCTGCAGAATCTGATCGACATGCCGGGCTACCGCAAAGCCTTTAAAGAGATTAAAGCGCTGGTGCAGGAAGTGAGCGCGGAGAAGGGCGTAAGCGCGGAGCTGCTGGCGTCGCGTCGACAGATCAACCAGCTGCTGAACTGGCACTGGCAGCTGAAAACGCAGGCCGCTGAGCCTGAGCTGATTTCCGGTTGGCGTGGTGAGCTGATGGGCGAACGGCTGAAGACGCTGTTAAACGACTATCCGCGCTAG	MITTDDGLRAVCEAASAASAVALDTEFVRTRTYYPQLGLLQLFDGHQVSLIDPLTINDWAPMRDLLLNPDVTKYLHAGSEDLEVFLNAFNLMPQPLIDTQILAAFCGRPMSWGFASMVEEYSGVALDKSESRTDWLARPLTERQCEYAAADVWYLLPIASQLMAETDRVGWLSAALDECRLMQQRRQEVVDPAEAWRDIGNAWQLRTRQLGCLQLLAEWRLRKARERDLAVNFVVREEHLWSVARYMPTSLGELDSLGLSGSEIRFHGKTLIGLVEKAQALPESSLPAPLQNLIDMPGYRKAFKEIKALVQEVSAEKGVSAELLASRRQINQLLNWHWQLKTQAAEPELISGWRGELMGERLKTLLNDYPR				NA	NA	NA	NA	NA
BMS020_00944	1719	fadD_1	COG0318	Long-chain-fatty-acid--CoA ligase	ATGACGACGAATAACTATTTCAGAGGTGATGCAGTGAAAAAGGTTTGGCTAAACCGTTATCCCGCAGATGTTCCGGCGGAGATAAATCCTGACCGCTATCAATCCCTGGTTGAACTGTTTGAACATGCCACCACCCGCTACGCCGACCAACCGGCGTTTATCAATATGGGTGAAGTGATGACTTACCGTAAGCTGGAAGAGCGCAGTCGCGCCTTCGCCGCTTACCTTCAGGAGGGCTTAGGGTTACAGAAGGGCGATCGGGTGGCCCTGATGATGCCTAACCTGCTGCAGTATCCGGTGGCCCTGTTTGGCATCCTGCGCGCCGGGATGATCGTGGTCAACGTCAACCCCTTATATACCCCGCGTGAACTGGAGCATCAGCTCAACGACAGCGGCGCGGCGGCGATCGTCATCGTCTCCAACTTTGCCCATACCCTGGAAAAAGTGGTGGCGAAGACCCAGGTGAAACACGTGATCCTGACGCGCATGGGCGATCAGCTCTCCACCGCCAAAGGCACGCTGGTGAACTTTGTGGTCAAGTACATCAAGCGCCTGGTGCCGAAGTACCATCTGCCGGATGCCATCTCGTTTCGCAGCGCGCTGCAGCACGGCTATCGCATGCAGTACGTGAAGCCGGAGATCGTTGCGGAAGATCTGGCGTTTCTGCAGTACACCGGGGGCACTACCGGGGTGGCTAAAGGGGCGATGCTGACCCATCGCAACATGCTGGCCAACCTCGAGCAGGTCAATGCCACCTACGGCCCGCTGCTGCATCGCGGCAAAGAGTTCGTGGTGACCGCGCTGCCGCTGTATCACATTTTCGCCCTCACCATGAACTGCCTGCTGTTTATCGAGCTGGGCGGGCAGAATCTGCTGATCACCAACCCGCGCGACATACCCGGACTGGTGAAGGAGCTGGCGAAATATCCCTTTACCGCCATGACCGGGGTTAATACGCTGTTCAACGCCTTGCTGAACAACAAAGAGTTCCAGCAGCTTGATTTCTCCTCGCTGCACCTCTCCGCCGGCGGCGGCATGCCGGTGCAGCAGGCGGTGGCTGAGCGCTGGGTGAAACTGACCGGGCAATATCTGCTTGAGGGCTACGGACTGACCGAGTGTTCGCCTCTGGTCAGCGTCAACCCCCACGATATCGACTACCACAGCGGCAGCATTGGTCTGCCGGTGCCTTCCACCGAAGCCAAACTGGTGGATGATGACGATAACGAAGTGGCGCCGGGCCAGCCTGGCGAACTCTGTATCAAGGGGCCGCAGGTGATGCTGGGCTACTGGCAGCGACCTGACGCGACGGATGAGATCATCAAGAACGGCTGGCTGCACACCGGGGATATTGCGGTGATGGATGAAGAGGGGTTCCTGCGCATCGTCGATCGGAAAAAAGATATGATCCTGGTGTCGGGTTTTAACGTCTATCCGAATGAAATCGAAGATGTGGTCATGCAGCACAGCGGCGTGCTGGAGGTGGCGGCCATCGGCGTGCCGTCCGGCAGCAGCGGCGAAGCGGTGAAGATCTTCGTGGTGAAGAAAGATGCCGCGTTAACCGAAGAAGCGCTGATTACGTTCTGCCGACGCCATTTGACCGGCTATAAGGTGCCGAAACTGGTGGAATTCCGTGACGAACTGCCGAAATCCAACGTCGGGAAAATTTTGCGGCGAGAACTGCGTGACGAAGCGCGCGCTAAAGTGGACAATAAAGGCTGA	MTTNNYFRGDAVKKVWLNRYPADVPAEINPDRYQSLVELFEHATTRYADQPAFINMGEVMTYRKLEERSRAFAAYLQEGLGLQKGDRVALMMPNLLQYPVALFGILRAGMIVVNVNPLYTPRELEHQLNDSGAAAIVIVSNFAHTLEKVVAKTQVKHVILTRMGDQLSTAKGTLVNFVVKYIKRLVPKYHLPDAISFRSALQHGYRMQYVKPEIVAEDLAFLQYTGGTTGVAKGAMLTHRNMLANLEQVNATYGPLLHRGKEFVVTALPLYHIFALTMNCLLFIELGGQNLLITNPRDIPGLVKELAKYPFTAMTGVNTLFNALLNNKEFQQLDFSSLHLSAGGGMPVQQAVAERWVKLTGQYLLEGYGLTECSPLVSVNPHDIDYHSGSIGLPVPSTEAKLVDDDDNEVAPGQPGELCIKGPQVMLGYWQRPDATDEIIKNGWLHTGDIAVMDEEGFLRIVDRKKDMILVSGFNVYPNEIEDVVMQHSGVLEVAAIGVPSGSSGEAVKIFVVKKDAALTEEALITFCRRHLTGYKVPKLVEFRDELPKSNVGKILRRELRDEARAKVDNKG	PGPT0008380_7724	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
BMS020_00945	582	slp_1	COG3065	Outer membrane protein Slp	ATGGCGGGTCAAAAACAGGGCGTTCGCTGGCTGCTGGCCGCGGCGGTTGCCGTTGCGCTGAGCGGCTGCGTATCGGTGCCGGATGCCATCAAAGGCACCAGCCCCACGCCGCAGCAGGATTTGGTGCGGGTGATGAACGCCCCGCAGCTGTACGTTGGTCAGGAAGCGCGCTTTGGCGGCAAGGTGGTCAACGTGCAGAACCAGCAGGGTAAAACCCGCTTAGAAATCGCTACCGTGCCGCTGGACAGCGGTGCGCGACCGGAACTGGGCGAACCCTCGCGCGGGCGAATCTTTGCCGATGTTAACGGCTTCCTCGATCCGGTGGACTTCCGGGGGCAGCTGGTGACCGTGGTCGGGCCGATTGCCGGGGTGGTCGATGGCAAAGTGGGTAGCACACCCTACAAATTTATGCTGATGAACGCCACCGGCTACAAACGCTGGAACGTGGTGCAGCAGGTGGTGATGCCCCCGCAGCCCATCGACCCGTGGATGCTGGGTCCCCGCCCCTGGGGGTACGGCTATGGCGGATGGGGATGGTACAACCCCGGCCCTGCTGAGGTAAGAAACGTTGTAACTGAATGA	MAGQKQGVRWLLAAAVAVALSGCVSVPDAIKGTSPTPQQDLVRVMNAPQLYVGQEARFGGKVVNVQNQQGKTRLEIATVPLDSGARPELGEPSRGRIFADVNGFLDPVDFRGQLVTVVGPIAGVVDGKVGSTPYKFMLMNATGYKRWNVVQQVVMPPQPIDPWMLGPRPWGYGYGGWGWYNPGPAEVRNVVTE	PGPT0015050_28	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0015050-slp|yeaY-K07285	NA	NA
BMS020_00946	696	tsaB_1	COG1214	tRNA threonylcarbamoyladenosine biosynthesis protein TsaB	ATGCGAATTTTGGCTATCGATACCGCCACAGAGGCCTGCTCCGCGGCGCTGTGGAATGATGGCACCCTTAGTGCTCATTTCGAAATTTGTCCCCGCGAACACACCCAACGTATCCTGCCGCTGGTGCAGGAGGTTCTCACCGAGAGCGGCACCACCCTGACCGAGCTGGACGCGCTGGCCTTTGGCCGCGGCCCGGGCAGCTTTACCGGCGTGCGTATCGGCATCGGTATCGCCCAGGGGCTGGCGCTCGGCGCGGAGCTGCCGATGATCGGCGTTTCCACGCTGGCCACCATGGCGCAAGGCGCCTGGCGCAAAACCGGCGCCACCCGCGTGCTGGCGGCGATTGACGCCAGGATGGGTGAAGTCTACTGGGCTGAGTACCAGCGCGACGAGCAGGGCGTCTGGCACGGCGAAGAGACGGAAGCGGTGCTCAAACCGGACGCGGTGGCCGAACGGCTGGCGCAGCTTTCCGGCGAATGGGCCACCGTCGGCACCGGCTGGCAGGCGTGGCCGGATCTGGCGAAAGAGAGCGGACTGACCTTAAGCAGCGGCGAAATTGAACTGCCGGCGGCAGAGGATATGCTGCCGTTAGCCTGTTATCTGCTGGCGGCAGGGAAAACCGTGGCCGTGGAGAAAGCGGAGCCGGTTTATTTGCGTAACGAGGTGGCGTGGAAGAAACTTCCGGGCCGCGAGTGA	MRILAIDTATEACSAALWNDGTLSAHFEICPREHTQRILPLVQEVLTESGTTLTELDALAFGRGPGSFTGVRIGIGIAQGLALGAELPMIGVSTLATMAQGAWRKTGATRVLAAIDARMGEVYWAEYQRDEQGVWHGEETEAVLKPDAVAERLAQLSGEWATVGTGWQAWPDLAKESGLTLSSGEIELPAAEDMLPLACYLLAAGKTVAVEKAEPVYLRNEVAWKKLPGRE				NA	NA	NA	NA	NA
BMS020_00947	1911	yoaA_1	COG1199	putative ATP-dependent DNA helicase YoaA	GTGATCGACGATTTTGCAGCAGACGGCCAGCTAGCCAAAGCCATACCGGGATTTAAACCGCGCGAGCCGCAGCGCCAGATGGCGGTGGCGGTCAGCGAAGCGATTGAGGCCTCCCGGCCGCTGGTGGTGGAAGCGGGGACCGGAACCGGTAAAACCTACGCTTACCTGGCGCCGGCGCTGCGGGCGAAAAAAAAGGTGATTATCTCCACCGGGTCGAAAGCGCTTCAGGATCAGCTCTACAGCCGCGATCTGCCCACCGTCGCCAAAGCGCTCAAATTCACCGGCAAACTGGCGCTGCTAAAAGGGCGTTCCAACTACCTGTGCCTCGAACGCCTGGAACAGCAGGCGCTGGCGGGGGGCGATCTGCCGGTGCAAACCCTCAGCGACGTGATCCTCCTGCGCTCCTGGTCGAACCAAACCCAGGATGGCGATATCAGCACCTGCGCCAGCGTGGCGGAAGATTCCCAGGCCTGGCCGCTGGTCACCAGCACCAACGATAACTGCCTCGGCAGCGACTGCCCGCTGTATAAAGATTGCTTCGTGGTGAAGGCGCGTAAAAAAGCGATGGACGCCGACGTGGTGGTGGTCAACCATCATCTGTTTCTTGCCGATATGGTGGTCAAAGAGAGCGGCTTTGCCGAACTGATCCCCGAGGCTGAGGTGATGATCTTCGACGAAGCCCATCAGCTGCCGGATATCGCCAGCCAGTACTTTGGCCAGTCGCTCTCCAGCCGCCAGCTGCTGGATCTGGCGAAAGACATCACCATTGCCTACCGCACCGAACTGAAAGACACCCAGCAGCTGCAAAAATGCGCCGACCGCCTGGCGCAAAGCGCCCAGGATTTTCGCCTGCAGCTGGGGGACCCGGGCTACCGCGGCAACCTGCGCGAGCTGCTGGCGGACAGCCACATTCAGCGGGCGCTGCTGCTGCTCGATGATGCTCTTGAACTGTGTTACGACGTCGCCAAACTTTCGCTGGGGCGCTCGGCGCTGCTCGACGCCGCCTTTGAGCGCGCCACGCTTTATCGCGGGCGTCTGAAGCGGCTGAAAGAGATCAATCAGCCGGGCTACAGCTACTGGTATGAGTGCACCTCGCGCCACTTTACCCTTGCGCTGACGCCGTTGACCGTGGCCGAGAAGTTTAAAGAGGTGATGGCGCAGAAGTCGGGAAGCTGGATCTTTACCTCGGCGACGCTGTCGGTAAATGACGATCTCCACCACTTCACCGCCCGGCTGGGGATCGACGAGGCGCAGACTCTGCTGCTGCCTAGCCCCTTTGACTATCAGCATCAGGCGCTGCTCTGCGTACCGCGTAATCTACCGCTGCCGAACCAGCCCGGCGCGGCGCGCCATCTGGCGGCCATGCTTAAACCGCTGATCGAGGCTAACGACGGTCGCTGCTTTATGCTGTGTACTTCGCACGCCATGATGCGCGATCTGGCGGAGCAGTTCCGCGCCACCATGACCCTGCCGGTGCTGCTGCAGGGGGAGACCAGTAAAGGCCAGCTGCTGCAGCAGTTCGTCAACGCCGGCAACGCCCTGCTGGTGGCCACCAGCAGCTTCTGGGAAGGGGTCGATGTGCGCGGAGACGCGCTGTCGCTGGTGATCATCGATAAGCTGCCGTTTACCTCGCCGGACGACCCGCTGCTGAAAGCGCGGATGGAAGATTGCCGGCTACGCGGCGGCGATCCGTTCGATGAAGTGCAGCTCCCGGACGCGGTGATCACCCTCAAGCAGGGGGTGGGCCGGCTGATCCGCGATATCGACGACCGTGGGGTGCTGGTTATCTGTGACAACCGGCTGGTGATGCGCCCTTACGGCGCGGTGTTCCTGGCCAGCCTGCCGCCCGCGCCGCGGACCCGCGATATCCGCCGGGCGGTGCGCTTCCTCGCCGTGCCGCCGGCAAGGTAA	MIDDFAADGQLAKAIPGFKPREPQRQMAVAVSEAIEASRPLVVEAGTGTGKTYAYLAPALRAKKKVIISTGSKALQDQLYSRDLPTVAKALKFTGKLALLKGRSNYLCLERLEQQALAGGDLPVQTLSDVILLRSWSNQTQDGDISTCASVAEDSQAWPLVTSTNDNCLGSDCPLYKDCFVVKARKKAMDADVVVVNHHLFLADMVVKESGFAELIPEAEVMIFDEAHQLPDIASQYFGQSLSSRQLLDLAKDITIAYRTELKDTQQLQKCADRLAQSAQDFRLQLGDPGYRGNLRELLADSHIQRALLLLDDALELCYDVAKLSLGRSALLDAAFERATLYRGRLKRLKEINQPGYSYWYECTSRHFTLALTPLTVAEKFKEVMAQKSGSWIFTSATLSVNDDLHHFTARLGIDEAQTLLLPSPFDYQHQALLCVPRNLPLPNQPGAARHLAAMLKPLIEANDGRCFMLCTSHAMMRDLAEQFRATMTLPVLLQGETSKGQLLQQFVNAGNALLVATSSFWEGVDVRGDALSLVIIDKLPFTSPDDPLLKARMEDCRLRGGDPFDEVQLPDAVITLKQGVGRLIRDIDDRGVLVICDNRLVMRPYGAVFLASLPPAPRTRDIRRAVRFLAVPPAR				NA	NA	NA	NA	NA
BMS020_00948	345	yabJ	COG0251	2-iminobutanoate/2-iminopropanoate deaminase	ATGACAATTACGCGTATTGATGCCGAAGCCCGCTGGTCAGATGTGGTGATCCACAATCAGACCCTTTACTACACCGGCGTACCGGCGAATCTTGATGCCGATGCCTTCGAGCAGACCGCCAACACCCTGGCGCAGATTGACGCGGTGCTGGAAAAACAGGGCAGCGACAAGTCGCGTATTCTTGACGCCACTATTTTCCTTGCCGACAAAAGCGACTTTGCGGCGATGAATAAAGCCTGGGACGCCTGGGTGGTAGCCGGTCACGCCCCGGTGCGCTGCACGGTGGAAGCGACGCTGATGAACCCGCAGTATAAAGTTGAGATCAAAATCATCGCCGCGGTGTAA	MTITRIDAEARWSDVVIHNQTLYYTGVPANLDADAFEQTANTLAQIDAVLEKQGSDKSRILDATIFLADKSDFAAMNKAWDAWVVAGHAPVRCTVEATLMNPQYKVEIKIIAAV	PGPT0020030_24	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020030-ridA|tdcF-K09022	NA	NA
BMS020_00949	192			hypothetical protein	ATGTTTGCAGGTTTACCTTCGCTGAGCCACGAGCAACAGCAAAAAGCGGTCGAACGTATCCAGGAACTGATGGCCCAGGGGATGAGCAGCGGCCAGGCGATTGCCCTGGTGGCGGAAGAGCTACGCGCGACGCATACCGGCGAACGGATCGTCGCGCGCTTTGAAGATGAAGATGAAGACGAAGACGAGTAA	MFAGLPSLSHEQQQKAVERIQELMAQGMSSGQAIALVAEELRATHTGERIVARFEDEDEDEDE				NA	NA	NA	NA	NA
BMS020_00950	1356	pabB_1	COG0147	Aminodeoxychorismate synthase component 1	ATGTTGTCCCCCGCGATTATTACCCTGCCCTGGCGCCCGGATGCCGCCGAATACTATTTTACGCCGTTAAGCGCCACGCCCTGGGCGATGCTGCTGCATTCCGGCTTTGCCGACCATCCGCATAACCGTTTTGATATTCTGGTGGCGGCCCCGCACGCCACGTTGCTGACGCGCGGTGAACAGACCTGGATCGATGACGGCGAGACCGTTTGTGTCTCGGCTGACGATCCGCTGCAACTGCTTCAGCAGCAGCTGGATCGTCAGCCGTTCACGCCGAAGCCCCATGAGGATCTGCCGTTTCTTGGCGGCGCGCTGGGGCTTTTCGGTTACGATCTGGGCCGCCGTTTTGAGCGACTTCCCGCTGCCGCGCAGGCCGATATCGCGCTGCCGGATATGGCGGTGGGGATTTATGACTGGGCGCTGATCGTCGACCATCAGCGCCAGCAGGTTTCGCTGCTCAGCTATGACGACCCGCAGCAGCGTCTGCAGTGGCTGGAGGCGCAAACGCCGGCGCCGGGTGAAACCTTCGCCCTGACCTCGGCCTGGCAGTCAAATATGAGCCGCCAGCAGTACGGCGAGAAATTTCGTCAGGTGCAGGCCTATCTGCGCAGCGGTGACTGCTATCAGGTCAACCTCGCCCAGCGTTTTCAGGCCCGCTACGTCGGGGATGAATGGCAGGCCTTCCGCCGGCTGAACGCCGCCAACCGCGCCCCCTTTAGCGCCTTCATCCGCCTTGCGGAAGGGGCAATTTTAAGCCTGTCGCCGGAGCGATTTATTCAGCTCCGCCAGGGTGAGATCCAGACGCGCCCGATTAAGGGCACCCTGCCGCGGCTCGATTCGCCGCTGGCGGATGCGCAGCAGGCGGAGAAGCTGGCGAACTCGCCGAAAGACCGCGCTGAGAATTTAATGATTGTCGACCTGATGCGCAACGACATCGGCCGCGTCGCCGTCCCGGGCAGCGTGCGGGTCCCCGAGCTGTTCGTGGTGGAGCCGTTCCCGGCGGTCCATCATCTGGTCAGCACCATCACCGCCCGCCTGCCGGCGACGCTTCATGCCAGCGATCTGCTGCGCGCCGCCTTCCCCGGAGGGTCGATCACCGGCGCGCCAAAGGTACGGGCGATGGAGATTATTGATGAACTGGAACCCCAGCGACGTAACGCCTGGTGCGGGAGCGTCGGCTATCTGAGCTATTGCGGCAATATGGATACCAGCATCACCATTCGCACCCTGACGGCCTGGCAGGGGCAACTGTATTGCTCCGCCGGGGGCGGTATCGTCGCGGACAGCGAGGAAGATGCGGAATATCAGGAAACTTTTGATAAAGTTAATCGTATCCTGCACCAACTGGAGAACTAG	MLSPAIITLPWRPDAAEYYFTPLSATPWAMLLHSGFADHPHNRFDILVAAPHATLLTRGEQTWIDDGETVCVSADDPLQLLQQQLDRQPFTPKPHEDLPFLGGALGLFGYDLGRRFERLPAAAQADIALPDMAVGIYDWALIVDHQRQQVSLLSYDDPQQRLQWLEAQTPAPGETFALTSAWQSNMSRQQYGEKFRQVQAYLRSGDCYQVNLAQRFQARYVGDEWQAFRRLNAANRAPFSAFIRLAEGAILSLSPERFIQLRQGEIQTRPIKGTLPRLDSPLADAQQAEKLANSPKDRAENLMIVDLMRNDIGRVAVPGSVRVPELFVVEPFPAVHHLVSTITARLPATLHASDLLRAAFPGGSITGAPKVRAMEIIDELEPQRRNAWCGSVGYLSYCGNMDTSITIRTLTAWQGQLYCSAGGGIVADSEEDAEYQETFDKVNRILHQLEN	PGPT0008005_1181	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008005-pabB-K01665	NA	NA
BMS020_00951	579	nudL_1		putative Nudix hydrolase NudL	ATGGCGGACCACGCCCTCAATCTGGATGATTTTCTGTCCCGCTTCCAGCTGCTGCGCCCTCAGCCTTCGCGCCATGCGCTCAATCAGCGGCAGGCGGCGGTACTGGTGCCGATCGTGCGCCGGCCGCAGCCTGGCCTGCTGCTGACCCAGCGCTCGCCGCTGCTGCGCAAGCACGCCGGCCAGGTCGCCTTTCCCGGCGGGGCGGTAGATAATACCGATGCGACTCTTATCGCCGCCGCTCTGCGCGAAGCCCAGGAAGAGGTGGCGATCCCGCCGGAGACGGTTGAGGTGATTGGCGTTCTGCCGCCGGTGGACAGCGTCACCGGCTTCCAGGTGACGCCGGTGGTGGGTATTATTCCGCCGGATCTGCACTATCACGCCAGCCAGGACGAAGTCTCCGCGGTATTTGAAATGCCGCTCGCCGAGGCCCTGCGCCTCGGGCGCTATCATCCGCTCGATATCCACCGCCGGGGCAACGACCACCGCGTCTGGCTCTCCTGGTACCAGCATTATTTTGTCTGGGGGATGACCGCCGGGATCATTCGCGAGCTGGCGCTGCAGATAGGCGCGCGCCCTTAG	MADHALNLDDFLSRFQLLRPQPSRHALNQRQAAVLVPIVRRPQPGLLLTQRSPLLRKHAGQVAFPGGAVDNTDATLIAAALREAQEEVAIPPETVEVIGVLPPVDSVTGFQVTPVVGIIPPDLHYHASQDEVSAVFEMPLAEALRLGRYHPLDIHRRGNDHRVWLSWYQHYFVWGMTAGIIRELALQIGARP				NA	NA	NA	NA	NA
BMS020_00952	1365	sdaA_1	COG1760	L-serine dehydratase 1	GTGATTAGTCTATTCGACATGTTCAAGGTGGGGATTGGTCCCTCATCTTCCCACACTGTTGGCCCGATGAAGGCCGGTAAACAGTTCGTCGATGACCTGGTCGAAAAAGGATTGCTTAATGCAGTGACCCGCGTGGCGGTTGACGTCTACGGTTCGCTGTCATTAACCGGCAAAGGCCACCATACGGACATCGCCATTATCATGGGACTGGCGGGCAATCAGCCCGATACGGTCGATATAGACGCGATACCGGCATTTATCCGTGACGTCGAGACACGCGGCCGTCTGCTGCTGGCCAACGGTCAGCACGAAGTCGACTTCCCGGCGGATGACGGCATGCGTTTTCGCAGCGACAATCTGCCGCTGCACGAAAACGGCATGACCATTCATGCCTGGGCCGGCGAGAAAGAGATCTACTGCAAGACCTATTACTCGATTGGCGGCGGCTTTATCGTCGACGAAGAGCACTTCGGCAAAGAAAACGCCAACGAACTGCAGGTGCCCTACCCGTTTAAATCGGCGCAGGAAATGCTGGCCTACTGCAAAGAGACCGGCCTGTCGCTCTCCGGGATGGTGATGCAGAACGAGCTGGCGCTGCACAGCAAAAAAGAGATCGAGGACTATTTCGCTAATGTCTGGCAGACCATGCGCGCCTGTATCGACCGCGGCATGAACACCGAAGGCGTGCTGCCTGGCCCGCTGCGCGTGCCGCGTCGCGCCTCGGCGCTGCGTCGTCTGCTGGTGGCCAGCGATAAGCTCTCCAGCGATCCGATGAACGTCGTTGACTGGGTCAACATGTTCGCGCTGGCGGTCAATGAAGAGAACGCCGCCGGCGGTCGCGTGGTGACCGCGCCGACCAACGGCGCCTGCGGCATCGTTCCGGCGGTACTCGCCTATTACGATCACTTTATCGAATCCGTCAGCCCGGAGATCTATATCCGCTACTTTATGGCCTGCGGTGCGATCGGCGCGCTGTACAAGATGAATGCCTCTATTTCCGGCGCCGAAGTCGGCTGTCAGGGCGAAGTGGGCGTCGCCTGCTCGATGGCGGCGGCGGGTCTGGCTGAACTGCTCGGCGCCAGCCCGGAGCAGGTCTGCGTGGCGGCGGAGATCGGTATGGAACACAACCTCGGCCTGACCTGCGACCCGGTCGCCGGCCAGGTACAGGTGCCGTGCATTGAACGTAACGCCATCGCCTCCGTGAAAGCGATCAACGCCGCGCGGATGGCGATGCGCCGCACCAGCGAACCGCGCGTCTCGCTCGATAAAGTGATCGAGACCATGTACGAAACCGGCAAAGACATGAACGCCAAGTACCGCGAAACCTCGCGAGGCGGCCTGGCGATTAAAGTTCAGTGTGACTAA	MISLFDMFKVGIGPSSSHTVGPMKAGKQFVDDLVEKGLLNAVTRVAVDVYGSLSLTGKGHHTDIAIIMGLAGNQPDTVDIDAIPAFIRDVETRGRLLLANGQHEVDFPADDGMRFRSDNLPLHENGMTIHAWAGEKEIYCKTYYSIGGGFIVDEEHFGKENANELQVPYPFKSAQEMLAYCKETGLSLSGMVMQNELALHSKKEIEDYFANVWQTMRACIDRGMNTEGVLPGPLRVPRRASALRRLLVASDKLSSDPMNVVDWVNMFALAVNEENAAGGRVVTAPTNGACGIVPAVLAYYDHFIESVSPEIYIRYFMACGAIGALYKMNASISGAEVGCQGEVGVACSMAAAGLAELLGASPEQVCVAAEIGMEHNLGLTCDPVAGQVQVPCIERNAIASVKAINAARMAMRRTSEPRVSLDKVIETMYETGKDMNAKYRETSRGGLAIKVQCD	PGPT0001975_2921	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
BMS020_00953	1557	pdeD	COG2200	putative cyclic di-GMP phosphodiesterase PdeD	ATGCAGACTGCACAAAAAGTCATTACGGCCTATCGCCGCAAACGCATTATAGTCTGCCTGCTGGTCGCCCTGGTGACCCTGGGCGCCACCTTAGCCATTCGATTTATTTCGCAGCGTAGCGAAAATGAAGACTATATTCGCACGGCCGCCAGCCAGCGGGTGGCGGCGCTGAATAATATCCTGCGCCCGCTGAGCGCGGAGCGCACCACCCTGCTTCCTCTGGTGGGCAAACGCTGCCCGGATATCCATCTGACCCTGCGCAAAATGGCAGCTTCGTTGCAGACCGTTCGTTCCGTCGTCCTCGTGACGGACGGTATCGTTTACTGTTCGAGTATTTTCGGGCAACGGCAGGCGGATTTACACCAGCTGCAGCCCTCGCTGCCAGCCCCCCATCCCTTATTACTCTTTTCAACCGAAAAATCGCTGCTTAAAGGGACGCCGGTATTGATCCAGTGGTACCCCACCCCGGAAAGCGGCCAGGACGGCGTGATGTTGATTGTCAATATCGAGCTGCTGGGGACCTTAATTCTCAACGAAAAATCATCCCTGATAAGCGACGTCAGCCTGCAGGTTGGCGATCGTTATTTTAGCAGCCGCGATGGGCTTCTCGATAAAACGCATACCCCGCAGGGAACGGTGATTTATCGCCAACGCTCTAGCGAGTTTCCGTTTACCATCAACATCAACGGCCCTGGCGCCTCGACAATCGCCCTCGAAGAACTGCCCGGCGAGCTGCCGCTGGCGCTGATCTTCAGCCTGCTAATGACAGGCATCGCCTGGCTGGCCACCGCCGGAAGAATGAGCTTCTCGCGGGAGATAAGCCTCGGTATTTCCGCCCGGGAGTTTGCCCTCTGGTGCCAGCCGCTGCAGGATGCGCGCAGCGGCCGCTGCTGCGGGGTGGAGATCCTGCTGCGCTGGAACAACCCTCGCCGCGGAGCGATTTCGCCGGAGGTGTTTATTCCCATCGCCGAAGGGGACAATCTGATCATCCCCCTCACCCGCTACGTCATTGCCGAAACCGCCCGCCGTCTGGATGTTTTTCCCAGCGACCGCCAATTTCATATCGCCATTAACGTCGCTGCCCGCCACTTCGCCAACGGCTTACTGCTGCATGACCTGCATAATTACTGGTTCAGCATGAACCCGGTACAACAGCTGGTGGTCGAGCTGACCGAACGCGATGTCCTGCAGGATGGCGACCAGCATATGGCCGAAGATCTGCACCTGAAAGGCGTACAGCTGGCGATCGATGACTTTGGCACCGGCAACAGTTCGCTCTCATGGCTGGAAAAACTGCGCCCGGACGTGCTGAAGATTGACCGCTCGTTTACCAGCTCGGTGGGGATAGACAGCGTCAATGCCACGGTGACCGATATCATTATCTCCCTCGCCAACCGGCTGAATATTATTACCGTTGCCGAAGGGGTGGAGACGCTGGAGCAGGAAAACTACCTCAGAAACCACGGCGTCGATGTGCTGCAGGGGTTTTATTATGCGCGGCCGATGCCAGTGGAGGCGTTCCCGGCGTGGCTGGCCAGTCAAGAGGCAACAGAATAA	MQTAQKVITAYRRKRIIVCLLVALVTLGATLAIRFISQRSENEDYIRTAASQRVAALNNILRPLSAERTTLLPLVGKRCPDIHLTLRKMAASLQTVRSVVLVTDGIVYCSSIFGQRQADLHQLQPSLPAPHPLLLFSTEKSLLKGTPVLIQWYPTPESGQDGVMLIVNIELLGTLILNEKSSLISDVSLQVGDRYFSSRDGLLDKTHTPQGTVIYRQRSSEFPFTININGPGASTIALEELPGELPLALIFSLLMTGIAWLATAGRMSFSREISLGISAREFALWCQPLQDARSGRCCGVEILLRWNNPRRGAISPEVFIPIAEGDNLIIPLTRYVIAETARRLDVFPSDRQFHIAINVAARHFANGLLLHDLHNYWFSMNPVQQLVVELTERDVLQDGDQHMAEDLHLKGVQLAIDDFGTGNSSLSWLEKLRPDVLKIDRSFTSSVGIDSVNATVTDIIISLANRLNIITVAEGVETLEQENYLRNHGVDVLQGFYYARPMPVEAFPAWLASQEATE	PGPT0026215_348	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0026215-adrB-K21090	NA	NA
BMS020_00954	1560			hypothetical protein	ATGGAATTGTTAATGGATCCCTCAATCTGGGCCGGCCTGTTGACGCTTATCGTTCTGGAAATTGTGCTCGGTATCGATAACCTGGTGTTTATTGCCATCCTGGCGGACAAGCTGCCGCCGAAGCAGCGTGATAAAGCGCGACTGATCGGCCTGTCGCTGGCGCTGGTGATGCGCCTGGGGCTGCTGTCGGTGATCTCCTGGATGGTGACGCTGACTAAACCGCTGATTACTATCGCCGATTTCTCCTTTTCCGGGCGTGACCTCATCATGCTGCTCGGCGGGATCTTCTTGCTGTTCAAGGCGACAACCGAGCTGCATGAACGGCTGGAAAACCGCCAGCATGACGCCGGGCACGGGAAAGGCTATGCCAGTTTCTGGGTGGTGGTACTGCAGATCGTGGTGCTGGATGCTGTCTTCTCTCTGGATGCGGTGATCACCGCGGTCGGGATGGTGAACCATCTGCCGGTGATGATGGCGGCGGTCGTGATCGCGATGATTATGATGCTGCTGGCGTCGAAGCCGTTGACGCGCTTTGTCAACCAGCACCCGACGGTGGTGGTGCTCTGTCTGAGCTTCCTGTTGATGATCGGCCTGAGCCTGGTGGCGGAAGGGTTTGGCTTCCATATTCCGAAAGGGTACCTGTACGCGGCGATCGGTTTCTCGATCATCATTGAGTTCTTTAACCAGGTGGCGCGCCGCAACTTTGTTCGTCACCAGTCGACGCTGCCGCTGCGCGCCCGTACCGCGGATGCGATCCTGCGCCTGATGGGCGGCCGTAAACAGGCCTCCGTCAACCATGACGCCGACAGCCCGGCGTCGGTGCCGGTACCGGAGGGCGCCTTTGCGGAAGAAGAGCGCTACATGATTAACGGCGTGCTGACGCTGGCGCAGCGCTCTCTGCGCAGCATCATGACTCCGCGCGGGGAAATCAGCTGGGTGGACGCTGAGCAGAGTGAAGATGAAATTCGCCGTCAGCTGCTTTCGTCGCCGCACAGCCTGTTCCCGGTCTGCCGCGGAGAACTGGACGAAATCATTGGCATCGTGCGGGCGAAAGAGATGCTGGTGGCCCTGGAGTCGGGCGAAAACGTCGCGGCGCTGGCCTCCGCCTCTCCGGCGATTGTGGTGCCTGAAACGCTGGACCCGATCAATCTGCTCGGCGTCCTGCGTCGCGCGCGCGGCAGTTTCGTCATCGTGACCAATGAATTTGGCGTGGTGCAGGGGCTGGTGACGCCGCTGGACGTCCTGGAAGCGATCGCCGGTGAATTCCCGGACGCCGATGAGACGCCGGAGATCGTTATCGATGGCGACGGCTGGCTTATTAAGGGGTCGACCGACCTGCATGCGCTGCAGCAGGCGCTGGGGCTGGATCCGCTGATCAATGACGATGAGGATATTGCCACCGTTGCCGGTCTGGTGATCTCCGCCAATGGCCATATCCCGCGCATTGGCGACGTGGTGTCGCTGCCGCCGCTGCATTTCACCGTGGTGGAAGCGAATGACTACCGGGTCGATCTGGTACGCGCGGTGGTCACCCGTCCGCCGAGCGACGAAGAAGAATAA	MELLMDPSIWAGLLTLIVLEIVLGIDNLVFIAILADKLPPKQRDKARLIGLSLALVMRLGLLSVISWMVTLTKPLITIADFSFSGRDLIMLLGGIFLLFKATTELHERLENRQHDAGHGKGYASFWVVVLQIVVLDAVFSLDAVITAVGMVNHLPVMMAAVVIAMIMMLLASKPLTRFVNQHPTVVVLCLSFLLMIGLSLVAEGFGFHIPKGYLYAAIGFSIIIEFFNQVARRNFVRHQSTLPLRARTADAILRLMGGRKQASVNHDADSPASVPVPEGAFAEEERYMINGVLTLAQRSLRSIMTPRGEISWVDAEQSEDEIRRQLLSSPHSLFPVCRGELDEIIGIVRAKEMLVALESGENVAALASASPAIVVPETLDPINLLGVLRRARGSFVIVTNEFGVVQGLVTPLDVLEAIAGEFPDADETPEIVIDGDGWLIKGSTDLHALQQALGLDPLINDDEDIATVAGLVISANGHIPRIGDVVSLPPLHFTVVEANDYRVDLVRAVVTRPPSDEEE				NA	NA	NA	NA	NA
BMS020_00955	972	manX	COG2893	PTS system mannose-specific EIIAB component	GTGACGATTGCTATTGTAATAGGCACACATGGTTGGGCTGCAGAACAGCTGCTGAAAACAGCAGAGATGCTGTTGGGCGAGCAGGAAAACGTTGGCTGGATCGATTTCGTTCCGGGTGAAAACGCCGAAACGCTGATCGAGAAATACAATGCCCAGTTGGCAAAACTGGATACCAGTAAAGGCGTGCTGTTTCTCGTCGATACATGGGGAGGCAGCCCGTTCAACGCTGCGAGCCGCATTGTCGTCGATAAAGAGCATTACGAAGTCATCGCCGGCGTCAACATCCCGATGCTGGTGGAAACCTTCATGGCCCGCGATGACGATCCTTCCTTTGATGAGCTGGTCGCCTTAGCGGTAGAGACCGGCAGCGAAGGCGTGAAAGCGCTGAAGGCCAAACCGGTGGAAAAAGCGGCCCCTGCGCCCGCTCCTGCCGCGACGCCAAAAGCCGCCGCCCCGGCCAAACCGATGGGCCCGAATGACTACATGGTCATTGGCCTTGCGCGTATCGACGACCGCCTGATCCATGGTCAGGTCGCCACCCGCTGGACCAAAGAGACCAACGTCACCCGCATCATCGTCGTCAGCGACGAAGTCGCCGCGGATACCGTGCGCAAAACCCTGTTGACCCAGGTTGCGCCGCCGGGCGTCACCGCCCACGTGGTGGACGTCGCCAAAATGATCCGCGTCTACAACAACCCGATGTACGCCGGACAGCGCGTGATGCTGCTGTTTACTAACCCGACCGACGTTGAGCGCGTCGTCGAGGGCGGCGTGAAAATCACCAGCGTCAACATCGGCGGTATGGCGTTCCGCCAGGGCAAAACCCAGGTTAACAACGCGATTTCGGTCGATGCCAAAGATATTGAGGCGTTTAACAAGCTGAACGCACGCGGTATCGAGCTGGAGGCACGTAAAGTGTCCACCGATCCGAAACTGAAAATGATGGATCTGATCGCCAAGGTTGATAAATAA	MTIAIVIGTHGWAAEQLLKTAEMLLGEQENVGWIDFVPGENAETLIEKYNAQLAKLDTSKGVLFLVDTWGGSPFNAASRIVVDKEHYEVIAGVNIPMLVETFMARDDDPSFDELVALAVETGSEGVKALKAKPVEKAAPAPAPAATPKAAAPAKPMGPNDYMVIGLARIDDRLIHGQVATRWTKETNVTRIIVVSDEVAADTVRKTLLTQVAPPGVTAHVVDVAKMIRVYNNPMYAGQRVMLLFTNPTDVERVVEGGVKITSVNIGGMAFRQGKTQVNNAISVDAKDIEAFNKLNARGIELEARKVSTDPKLKMMDLIAKVDK	PGPT0017000_382	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNOSE_PTS_SYSTEM,PGPT0017000-manX-K02794	NA	NA
BMS020_00956	801	manY	COG3715	PTS system mannose-specific EIIC component	ATGGAGATTACCCTTCTTCAGATTGTGCTGGTGTTCATCGTCGCGTGTATTGCGGGTATGGAGTCGGTGCTTGATGAATTTCAGTTCCACCGTCCACTGGTCGCCTGTACGCTGATCGGCGCCGTTCTCGGCGATATGAAAACCGGTATTATCATCGGCGGTACGCTGGAAATGATCGCCCTGGGCTGGATGAACATCGGTGCGGCGGTTGCCCCTGATGCCGCGCTGGCGTCCATTATTTCCACCGTTCTGGTTATTGCCGGCCATCAGAGCATCGGCGCCGGCATCGCGCTGGCTATCCCGCTGGCGGCTGCAGGCCAGGTGCTGACCATCATCGTGCGTACCATCACCGTAGCCTTCCAGCACGCAGCGGATAAAGCGGCGGAGAATGGCAACCTGACCGCCCTGTCGTGGCTGCACGTCTCATCCCTGTTCCTGCAGGCGATGCGTATCGCTATCCCGGCCGTCATCGTGGCCATTTCCGTCGGTACCAGCGAAGTCCAGGGCCTGCTGAATGCGATCCCTGAAGTGGTTACCAGCGGCCTGAACATCGCCGGCGGCATGATCGTGGTTGTAGGTTACGCGATGGTCATCAATATGATGCGCGCGGGCTACCTGATGCCGTTCTTCTACCTCGGCTTCGTCACCGCCGCCTTCACCAACTTCAACCTGGTGGCCCTGGGCGTGATTGGCGCGGTCATGGCAATCCTCTACATCCAGCTGAGCCCGAAATATAACCGCGTCGCCGGTGCCCCGGCTCAGGCGGCTGGTAACAACGATCTCGATAACGAACTGGACTAA	MEITLLQIVLVFIVACIAGMESVLDEFQFHRPLVACTLIGAVLGDMKTGIIIGGTLEMIALGWMNIGAAVAPDAALASIISTVLVIAGHQSIGAGIALAIPLAAAGQVLTIIVRTITVAFQHAADKAAENGNLTALSWLHVSSLFLQAMRIAIPAVIVAISVGTSEVQGLLNAIPEVVTSGLNIAGGMIVVVGYAMVINMMRAGYLMPFFYLGFVTAAFTNFNLVALGVIGAVMAILYIQLSPKYNRVAGAPAQAAGNNDLDNELD	PGPT0016985_678	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNOSE_PTS_SYSTEM,PGPT0016985-manY-K02795	NA	NA
BMS020_00957	852	manZ_1	COG3716	PTS system mannose-specific EIID component	ATGGTTGATATGACTAAAAATACCACCGAGAAAAAACTCACTCAGAGTGATATTCGTGGCGTGTTCATTCGTTCTAACCTGTTCCAGGGTTCATGGAACTTCGAACGTATGCAGGCGCTGGGCTTCTGCTTCTCTATGGTTCCGGCGATTCGTCGTCTCTACCCGGAGAACAACGATGCGCGTAAGCAGGCGATTAAGCGTCACCTTGAGTTCTTCAATACCCATCCTTACGTTGCCGCGCCGGTACTGGGCGTAACGCTGGCGATGGAAGAGCAGCGCGCCAATGGCGCAGAGATTGACGATGGCGCCATCAACGGCATCAAAGTCGGTCTGATGGGGCCGCTGGCCGGCGTCGGCGACCCGATCTTCTGGGGTACGGTGCGTCCGGTGTTCGCGGCCTTAGGCGCCGGGATCGCGATGAGCGGAAGCCTGCTCGGACCACTGCTGTTCTTTATCCTGTTCAACGCGGTGCGACTACTGACCCGCTACTATGGCGTCGCCTACGGTTACCGCAAAGGCGTGGACATCGTGAAAGATATGGGCGGCGGCTTCCTGCAGAAACTAACTGAGGGGGCGTCAATCCTCGGCCTGTTTGTCATGGGGGCGCTGGTTAACAAGTGGACGCACGTGAACATTCCGATGGTGGTGTCAAAAATCACCGGCTCTGACGGACAGGTTCACGTCACCACGGTGCAGACGATCCTCGACCAGCTGATGCCGGGCCTGGTACCGCTGCTGTTGACCTTCGCCTGTATGTGGCTGCTGCGTAAGAAAGTTAACCCGCTGTGGATCATCGTTGGCTTCTTTGTCATCGGTATCGCGGGCTACGCTGTCGGTCTGCTGGGTCTGTAA	MVDMTKNTTEKKLTQSDIRGVFIRSNLFQGSWNFERMQALGFCFSMVPAIRRLYPENNDARKQAIKRHLEFFNTHPYVAAPVLGVTLAMEEQRANGAEIDDGAINGIKVGLMGPLAGVGDPIFWGTVRPVFAALGAGIAMSGSLLGPLLFFILFNAVRLLTRYYGVAYGYRKGVDIVKDMGGGFLQKLTEGASILGLFVMGALVNKWTHVNIPMVVSKITGSDGQVHVTTVQTILDQLMPGLVPLLLTFACMWLLRKKVNPLWIIVGFFVIGIAGYAVGLLGL	PGPT0016990_439	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNOSE_PTS_SYSTEM,PGPT0016990-manZ-K02796	NA	NA
BMS020_00958	459			hypothetical protein	ATGACATTCACGGACCTGGTGATCATCCTGTTTATCCTTGCGCTACTGGCCTACGCGGTGTATGACCAGTTTATTATGCCGAGGCGCAACGGCCCGGTGCTGCTGGCCATCCCCCTGCTTCGCCGCAGCCGCGTTGACGGCATGATCTTTGTCGGCCTTATCGCCATTCTGATCTATAACAACATCACCCAGCACGGCACCGCGATCACCACCTGGCTATTATCTGCGCTGGCGCTGATGGGACTCTATTTATTCTGGATCCGTACGCCGAAAATCATTTTTAAACCGCGCGGCTTTTTCTTCGCCAACGTGTGGATAGAATATCAGCGAATTAAAGAGATGAATTTATCCGAAGACGGCGTACTGGTGATGCAATTAGAGCAACGGCGGCTGCTGATTCGCGTACGAAATATCGACGATCTGGAAAAAATATACAAACTTCTCGTTTCAACTCAATGA	MTFTDLVIILFILALLAYAVYDQFIMPRRNGPVLLAIPLLRRSRVDGMIFVGLIAILIYNNITQHGTAITTWLLSALALMGLYLFWIRTPKIIFKPRGFFFANVWIEYQRIKEMNLSEDGVLVMQLEQRRLLIRVRNIDDLEKIYKLLVSTQ				NA	NA	NA	NA	NA
BMS020_00959	567	mntP_1	COG1971	putative manganese efflux pump MntP	ATGAATTTATCCGCAACCCTTCTTCTCGCTTTCGGCATGTCTATGGACGCCTTCGCGGCCTCTATCGGCAAAGGCGCCACCCTGCATAAACCCAAATTCTCAGAAGCTGTACGCACCGGGCTGATTTTTGGCGCCATTGAAACCCTGACGCCGCTGGTCGGCTGGGGACTGGGCATGCTGGCCAGCCAGTTTGTGCTCGAGTGGAATCACTGGATTGCTTTTATTCTGCTGGTGTTTCTCGGCGGGCGGATGATTGTCGAAGGGCTTCGCGGCGATAGCGACGAGGCGTGCGAGGCGCCTCGCCGGCATGGCTTCTGGCTGCTGGTCACCACCGCCTTCGCCACCAGCCTTGACGCGATGGCCGTCGGCGTCGGTCTGGCCTTCCTGCAGGTCAGCATTGTGACCACCGCGCTGGCGATCGGCTGCGCCACCTTTATCATGTCGACGCTGGGGATCATGGTGGGTCGCTTTATCGGCCCGCTGCTGGGCAAACGGGCCGAAATTCTCGGCGGTATTGTACTGATTGGCATCGGCAGCGAAATTCTCTGGAGCCATTTCGCCGGTTAA	MNLSATLLLAFGMSMDAFAASIGKGATLHKPKFSEAVRTGLIFGAIETLTPLVGWGLGMLASQFVLEWNHWIAFILLVFLGGRMIVEGLRGDSDEACEAPRRHGFWLLVTTAFATSLDAMAVGVGLAFLQVSIVTTALAIGCATFIMSTLGIMVGRFIGPLLGKRAEILGGIVLIGIGSEILWSHFAG	PGPT0004375_575	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT_TRANSPORT_SYSTEM,PGPT0004375-mntP-K23242	NA	NA
BMS020_00960	795	rlmA	COG0500	23S rRNA (guanine(745)-N(1))-methyltransferase	ATGTCATACAGTTGCCCCCTTTGCCACGCGCCGCTCAGCCGTAGCGACAATCACTATTCCTGCCCGCAGCGGCACCAGTTCGATCTGGCGAAAGAGGGGTACGTCAACCTGCTACCGGTGCAGTTCAAACGGTCGCGCGATCCCGGCGACAGCGCTGAGATGATGCAGGCCCGTCGGGCGTTCCTCGACGCCGGGCATTATCAGCCGCTGCGGGACGCTATCGCTGAGCGACTGCGGCACGCTGCCCCTCAGGCATTACTGGATATCGGCTGCGGCGAAGGCTATTACACCCACGCATTTGCCGCCATCGCCAGCCGCAGCTGGGGGCTGGACGTGTCGAAGCCGGCAATCCGCGCGGCGGCGAAACGCTATCCGCAGGTGAATTTTTGCGTCGCCTCCAGCCAGCGGCTGCCATTCTCCGATAACAGCTTCGATGCGGTGGTGCGCATTTACGCCCCCTGCAACGCCGGTGAGCTGGCGCGGGTGGTGCGGCCTGGCGGATGGGTGATCACTGCCACGCCGGGACCCCGCCATCTGCTGGAGCTGAAAGGGCTGATTTACGATGAGATCCGCCTGCATGAGCTGAAGACGGAAGCGATGCCGGGGTTCCGCCTGGATGCTCAGCAGCAGCTGGCTTATCCGATGACTCTGACGGGAAGTGAAGCGCAGGCCCTGCTGCAGATGACGCCGTTCGCGTGGCGGGCCAAAGCCGAAGTGCATGACGCGCTGCGTCAGCAGGCGACCTTTGGCTGCCAGACCGATTTTATGATCCATTGCTGGCAGCGTGAGGAGTAA	MSYSCPLCHAPLSRSDNHYSCPQRHQFDLAKEGYVNLLPVQFKRSRDPGDSAEMMQARRAFLDAGHYQPLRDAIAERLRHAAPQALLDIGCGEGYYTHAFAAIASRSWGLDVSKPAIRAAAKRYPQVNFCVASSQRLPFSDNSFDAVVRIYAPCNAGELARVVRPGGWVITATPGPRHLLELKGLIYDEIRLHELKTEAMPGFRLDAQQQLAYPMTLTGSEAQALLQMTPFAWRAKAEVHDALRQQATFGCQTDFMIHCWQREE				NA	NA	NA	NA	NA
BMS020_00961	1746	ftsI_1	COG0768	Peptidoglycan D,D-transpeptidase FtsI	GTGCTAAATAAAAAAATGAAGTCCGCCGCCAGCTTTACCCCGATTCGCTTCGGGTTACTCTGCGTGGCTATACTCGGTTGTCTGGGACTGCTATTGGCCCGCGTGGGCTGGCTGCAGATTATTTCCCCCGATAATCTGGTAAAACAAGAGGATATGCGTTCTCTGCGCGAAGAGCCCGTTGCGGTTGAGCGGGGGATGATCACCGACCGGGAAGGACGACCGCTGGCGGTGAGCGTTCCGGTCAGCGCAATCTGGATCGACCCGCAGACCACCATGGAGAAGGGCGGCGTCGGCTACGGACCCCGCTGGCAGGCGATGGCCGAAGCGCTGCATCTCAACCTCGGGGAACTGGCCCAGCGGGTACAGAGCCATCCCCACGCCCGCTTTCTCTATCTGGCGCGGCAGATCAATCCCGAGCAGGCGGCGTGGATTGATAAACTGCATCTGCCAGGCGTCTACCTGCGCGATGAATCGCGGCGTTTCTATCCGGCAGGCCATGTGGCTGCCAATCTGCTGGGCTTTACCAATGTCGATAATCAGGGCATCGAAGGGGTGGAGAAAAGCTTCAACGCCCAGCTGACCGGTAAACCCGGGCGACGTCTGGTGCGGAAAGATAAACATGGCAATGTGATTGAGAACATTACCGAAGTACCGCCTGTGCCGGCGCATAATCTGCAGCTGAGTATCGATGAGCGCCTGCAGACGGTGACGGAAGATGCCCTCGACAACGCTGTTCGCTGGAATAAAGCCGAGTCCGGGGCGGCGGTGCTGATTAAAATCGATACCGGCGAGATCCTGGCGATGGCCAGCTATCCGGACTTCAATCCCAACAATCGCGATGCCGCAACGCTGGATGATTTTCGCAACCGGGCCATCAGCGATACCTTCGAGCCGGGGTCGACCGTCAAACCGCTGGTGATCATGACCGCGCTGCAGCAGGGGATTGTCCAGCCGGACAGCGTCGTGGACACTCATCCGTTTGTCCTCGACGGCCACCGTATCCGCGATGTCGGCTATTATCCGGAGCTGAGCCTGACCGGCATCCTGCAGAAATCCAGCGATACCGGCGTATCGCATCTCTCGCTTGCCATGCCGGTGCAGCATCTGATTGACACCTATACGGCTTTCGGCTTCGGCGAGCCGACGGGGTTGGGGTTGACCGGCGAAAGCGCCGGGCTGATGCCGCATCGTCGTTACTGGGGGCAATTGGATCGTGCCACCTTCGCTTTCGGCTATGGTTTGATGGTTACCCCGCTCCAGCTGGCGCACGTTTACGCCACCATCGGCGGCTTCGGCATACAACGACCGTTGTCGATCACCCGCATCGACCCGCCGGTGATTGGCACGCGCGTAATGCCGGAGAATATTGTTCACAGCGTGGAGCATATGATGGAGAGCGTGGCGCTCCCGGGCGGGGGCGGTACCAAAGCGGCGGTGCGCGACTACCGGGTGGCGGTAAAAACGGGGACGGCGAAGAAAATCGGTCCGGACGGCAAATATATCGACAAATATGTCGCCTATACCGCCGGCGTGGCGCCCGCCAGCCGTCCGCAGTTCGCGCTGGTTGTAGTGATGAACGATCCGAGCAATGGCTCCTATTACGGCGGGGCCGTTTCCGCCCCGGTATTCAGCCAGATTATGGGCGATGTCCTGCGGCTGGAGAACGTCATGCCGGACGGCATGCCACAAGGCGCAGAGAATCTGATCGTTATGCACGACAGCCACCCGCTGGCGCCGGCGCTGTAA	MLNKKMKSAASFTPIRFGLLCVAILGCLGLLLARVGWLQIISPDNLVKQEDMRSLREEPVAVERGMITDREGRPLAVSVPVSAIWIDPQTTMEKGGVGYGPRWQAMAEALHLNLGELAQRVQSHPHARFLYLARQINPEQAAWIDKLHLPGVYLRDESRRFYPAGHVAANLLGFTNVDNQGIEGVEKSFNAQLTGKPGRRLVRKDKHGNVIENITEVPPVPAHNLQLSIDERLQTVTEDALDNAVRWNKAESGAAVLIKIDTGEILAMASYPDFNPNNRDAATLDDFRNRAISDTFEPGSTVKPLVIMTALQQGIVQPDSVVDTHPFVLDGHRIRDVGYYPELSLTGILQKSSDTGVSHLSLAMPVQHLIDTYTAFGFGEPTGLGLTGESAGLMPHRRYWGQLDRATFAFGYGLMVTPLQLAHVYATIGGFGIQRPLSITRIDPPVIGTRVMPENIVHSVEHMMESVALPGGGGTKAAVRDYRVAVKTGTAKKIGPDGKYIDKYVAYTAGVAPASRPQFALVVVMNDPSNGSYYGGAVSAPVFSQIMGDVLRLENVMPDGMPQGAENLIVMHDSHPLAPAL	PGPT0023865_2887	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023865-ftsI-K03587	NA	NA
BMS020_00963	210	cspC		Cold shock-like protein CspC	ATGGCAAAGATTAAAGGTCAAGTTAAGTGGTTCAACGAGTCTAAAGGTTTTGGTTTCATTACTCCGGCTGATGGCAGCAAAGACGTGTTCGTACACTTCTCCGCTATCCAGGGTAACGGCTTCAAAACTCTGGCTGAAGGCCAGAACGTTGAGTTCGAAATTCAGGACGGCCAGAAAGGTCCGGCTGCAGTTAACGTAACTGCTATCTGA	MAKIKGQVKWFNESKGFGFITPADGSKDVFVHFSAIQGNGFKTLAEGQNVEFEIQDGQKGPAAVNVTAI	PGPT0014675_2840	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
BMS020_00964	291			hypothetical protein	ATGAGTGAGTTACTAAATCCTGGGATCTTAAATCTGGCATCGCTGGCCGTGTCTGTGGCGCTGCTGCTTGTCGGTCTGTTGTTATGGTTCTTCGTCAACCGCGCCAGCTCGCGGGCGAATGAGCAGATAGAACTGCTGCAGGCGCTGTTGGATCAGCAAAAGCGGCAGAATGCGCTGCTACGTCGCCTGTGCGAAGCCAGTGCGCCGGAAAAAGAGGACGTGGCTGAGCCGACCGTCGCCGGTAAGGCGAAAGGGGAGGACGAGTTTATCCGCCTGGTGGCAGAGCGCTAA	MSELLNPGILNLASLAVSVALLLVGLLLWFFVNRASSRANEQIELLQALLDQQKRQNALLRRLCEASAPEKEDVAEPTVAGKAKGEDEFIRLVAER				NA	NA	NA	NA	NA
BMS020_00965	240			hypothetical protein	ATGCGATTAATCATTCGTACTATTGTCGTAGTGGCTATCTTATGGATTGGCGTATTATTAAGCGGCTACGGGGTATTATTCCACAGTGAAGAAAACGTCGGCGGTCTCGGCCTGAAGTGTCAATACCTCACCGCCCGTGGGGTCAGTACCGCACTTTATGTGCATTCCAATAGCGGCGTGATCGGCGTCAGCAGTTGCCCGCTGCTGCGTAAAAGCGCAACCGTCGTCGATAACGGCTAA	MRLIIRTIVVVAILWIGVLLSGYGVLFHSEENVGGLGLKCQYLTARGVSTALYVHSNSGVIGVSSCPLLRKSATVVDNG				NA	NA	NA	NA	NA
BMS020_00966	792	kdgR_1	COG1414	Transcriptional regulator KdgR	ATGGCAGGTGCAGATTTGGATAAACAGCCAGATTCTGTCTCTTCGGTATTGAAGGTTTTCGGCATCCTGCAGGCGCTGGGTGAAGAGCGTGAAATTGGCATTACCGAACTGTCCCAGCGCGTCATGATGTCGAAAAGCACCGTTTATCGCTTTTTACAGACCATGAAATCACTGGGCTATGTGGCGCAGGAGGGAGAGTCTGAGAAATACTCCCTCACGCTCAAACTGTTCGAGCTGGGCGCGCGCGCGCTGCAGAACGTCGATCTGGTGCGCAGCGCCGATATTCAGATGCGGGAACTCTCCCGCCTGACGAAAGAGACTATCCATCTCGGCGCGCTGGATGAAGACAGTATTGTTTACATTCACAAGATTGATTCAATGTATAACCTGCGGATGTACTCGCGTATCGGCCGTCGCAACCCGCTGTACAGCACCGCGATTGGCAAGGTTCTGCTGGCGTGGCGCGATCGCAGCGAAGTGGAGCAGATCCTTGACGGCGTGGAGTATAAACGCAGCACCGAGCGGACCATCACCAGTACCGCTGAGTTGCTGAAGGTGCTGGATGGCGTTCGCGAGCAGGGGTATGGCGAAGATAACGAAGAGCAGGAAGAGGGGCTGCGCTGCATCGGGGTACCGGTATTCGACCGTTTCGGCGTGGTCATCGCCGGGCTGAGTATCTCTTTCCCGACCTTACGTTTCTCTGAAGAACGTTTGCATGAATATGTGGCGATGCTGCACCAGGCGGCGCGCAAGATTTCTGAGCAGATGGGATATAACGACTACCCCTTCTGA	MAGADLDKQPDSVSSVLKVFGILQALGEEREIGITELSQRVMMSKSTVYRFLQTMKSLGYVAQEGESEKYSLTLKLFELGARALQNVDLVRSADIQMRELSRLTKETIHLGALDEDSIVYIHKIDSMYNLRMYSRIGRRNPLYSTAIGKVLLAWRDRSEVEQILDGVEYKRSTERTITSTAELLKVLDGVREQGYGEDNEEQEEGLRCIGVPVFDRFGVVIAGLSISFPTLRFSEERLHEYVAMLHQAARKISEQMGYNDYPF	PGPT0018213_372	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
BMS020_00967	1422	ribZ_1		Riboflavin transporter RibZ	ATGCTAAACTCATCATTCAAAAAACCGTTTCATTCAAGACTTATATTCACCATGGATAAAAATTCATCCGATGGCGTGCCGCTGCCGCAACGTTATGGCGCCATTCTGACCATTGTGCTTGGGCTGACCATGGCCGTGCTCGACGGGGCTATCGCCAACGTCGCGCTGCCAACCATCGCCAGCGATCTTAACGCCTCGCCGGCGGCTTCAATCTGGATCGTTAACGCCTACCAAATCGCCATTGTTATCGCCCTGCTGCCGCTCTCTTTCCTCGGCGACATGGTCGGCTATCGCCGTATCTATAAGATAGGCCTGGTGGTGTTTATCTTTACCTCGCTGGCCTGCGCCCTGTCGCGCAGCCTCGAAATGCTGACCTTCGCCCGCGTCGCCCAGGGACTGGGCGGCGCCGCGCTGATGAGCGTAAACACGGCGTTGATCCGCCTGATTTATCCGCAGCGCTTTCTCGGTCGCGGCATGGGTATCAACTCCTTTGTCGTCGCCGTCTCTTCGGCGGCAGGCCCGACGATCGCCGCCGCCATCCTCTCCCTCGCCTCATGGCAATGGCTGTTTTTAATTAACGTGCCTCTCGGCATCGTCGCCTTTGTCCTGGCCATGCGCTTTCTGCCGCCCAACAGCGCGCGCAGCAAAATCGTCCGCTTCGATTTGCCGAGCGCCATCATGAACGCGCTGACCTTCGGGCTGTTGATCACCGCCCTGAGCGGTTTCGCCCAGGGCCAGTCCACGCAGCTGGTGCTGGCGGAGGTCGCCGCTATGCTGGTGGTAGGCTTTTTCTTCGTTCGCCGTCAGCTCACGATGCCCGTCCCGCTGCTGCCGGTCGATCTGCTGCGCATCCCGCTCTTCTCCCTCTCAATCTGCACCTCCATCTGCTCCTTCTGTGCACAGATGCTGGCGATGGTCTCTCTGCCTTTCTTCCTGCAGACGATGATGGGGCGCAGCGAAGTGGAAACCGGCCTGCTGCTGACGCCGTGGCCGCTGGCGACGATGGTGATGGCGCCGCTGGCCGGCTATTTAATCGAGAAATGCCATGCGGGGCTGCTGGGGGCCATTGGGCTGCTGGTTATGGCCTGCGGCCTGTTCGGTCTGGCGCTGCTTCCGGCGTCGCCCACCGATCTGGATATTATCTGGCGTATGGCGCTGTGCGGCGCCGGCTTCGGGCTGTTCCAGTCGCCCAACAACCACACCATTGTCGCCTCGGCGCCGAGCCATCGCAGCGGCGGCGCCAGCGGCATGCTGGGCACCGCTCGCCTGCTCGGCCAGAGCACCGGCGCCGCGCTGGTGGCCCTGCTGTTCAACCTGCTCGGCAACAGCGGCACCCACACCGCCCTGCTGCTGGCCGGCATCCTGGCGACCGTCGCGGCGCTGATTAGCGGTCTGCGCGTCACCCAGCCGCGCGCAGCCTGA	MLNSSFKKPFHSRLIFTMDKNSSDGVPLPQRYGAILTIVLGLTMAVLDGAIANVALPTIASDLNASPAASIWIVNAYQIAIVIALLPLSFLGDMVGYRRIYKIGLVVFIFTSLACALSRSLEMLTFARVAQGLGGAALMSVNTALIRLIYPQRFLGRGMGINSFVVAVSSAAGPTIAAAILSLASWQWLFLINVPLGIVAFVLAMRFLPPNSARSKIVRFDLPSAIMNALTFGLLITALSGFAQGQSTQLVLAEVAAMLVVGFFFVRRQLTMPVPLLPVDLLRIPLFSLSICTSICSFCAQMLAMVSLPFFLQTMMGRSEVETGLLLTPWPLATMVMAPLAGYLIEKCHAGLLGAIGLLVMACGLFGLALLPASPTDLDIIWRMALCGAGFGLFQSPNNHTIVASAPSHRSGGASGMLGTARLLGQSTGAALVALLFNLLGNSGTHTALLLAGILATVAALISGLRVTQPRAA	PGPT0029160_172	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029160-yebQ-K08169	NA	NA
BMS020_00968	885	htpX_1	COG0501	Protease HtpX	ATGATGCGAATCGCGCTTTTCCTGCTGACGAACCTGGCAGTGATGGTCGTGTTCGGGCTGGTGTTAAGCCTCACGGGGATCCAATCCAGCAGCATGACCGGTCTGTTGATTATGGCCCTGCTGTTCGGCTTCGGTGGTTCTATCGTTTCGCTGATGATGTCGAAATGGATGGCGCTGAAGTCTGTGGGTGGGGAAGTGATCGAGCAGCCGCGCAACGAAACGGAACGCTGGCTGATGAACACCGTTGCACAGCAGGCGCAGCAGGCGGGCATTGCCATGCCGCAGGTGGCTATCTATCACGCCCCTGACATCAACGCCTTCGCTACCGGCGCGCGTCGCGACGCCTCGCTGGTCGCCGTCAGTACCGGGCTGTTGCAAAACATGAGCCGTGATGAAGCGGAAGCGGTCATCGCCCATGAAATCAGCCACATCGCCAATGGCGATATGGTCACCATGACGCTGATCCAGGGGGTGGTAAACACCTTCGTTATCTTTATCTCCCGCGTTATCGCGCAGATTGCGGCCGGCTTCCTCGGCGGCAACCGGGAAGATGAAGGCGAGAGCAGCAATGGCAACCCGCTGATCTACTTCGCCGTCGCCACGGTGCTGGAGCTGGTGTTCGGTATTCTGGCCAGCATTATCACCATGTGGTTCTCTCGTCATCGCGAGTTCCATGCTGATGCCGGCTCGGCGCGCCTGGTGGGCCGCGAGAAGATGATTGCCGCCCTGCAGCGTCTGAAAACCAGCTATGAGCCGCAGGAAGCCAGCAGCATGATGGCGTTCTGCATTAATGGTAAAGCGAAATCCATGAGCGAGCTGTTTATGACCCACCCGCCGCTGGACAAGCGTATTGAAGCCCTGCGTAGCGGTGAATATCTGAAATAG	MMRIALFLLTNLAVMVVFGLVLSLTGIQSSSMTGLLIMALLFGFGGSIVSLMMSKWMALKSVGGEVIEQPRNETERWLMNTVAQQAQQAGIAMPQVAIYHAPDINAFATGARRDASLVAVSTGLLQNMSRDEAEAVIAHEISHIANGDMVTMTLIQGVVNTFVIFISRVIAQIAAGFLGGNREDEGESSNGNPLIYFAVATVLELVFGILASIITMWFSRHREFHADAGSARLVGREKMIAALQRLKTSYEPQEASSMMAFCINGKAKSMSELFMTHPPLDKRIEALRSGEYLK	PGPT0014605_2117	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014605-htpX|ykrL-K03799	NA	NA
BMS020_00969	2049	prc_1	COG0793	Tail-specific protease	ATGAACACATTTTTTAAAATCACCGCGCTTGCGGGCCTGCTGGCAATAGCAGGCCATGCGTTCGCTGTTGATGAAATAACCCGTGCAGATCAAATTCCCGTGCTGAAAGAAGAGCCGCAGCACGCGACGGTGAGCGAGCGCGTGACATCGCGCTTTACCCGCTCTCACTACCGTCAGTTCGATCTCGACAACGCCTTCTCGGCAAAGATTTTTGACCGTTATCTGAACCTGCTGGATTACAGCCATAATGTGCTGCTGGCCAGCGATGTGGCGAAGTTCGCGGCGAAAAAAGACCAAATCGGCGACGAACTGCGCACCGGGAAACTGGACGTCTTCTATGACCTCTACAACCTGGCGCAGCAGCGCCGCTTCGAGCGCTATCAGTATGCGCTGAAGGTGCTGGAACGTCCGATGGACTTTACCGGCAACGATAATTTCAACCTTGACCGCTCCAAAGCGCCGTGGCCGAAAGACGAGGCCGAGCTGAACAAGCTGTGGGACGCCAAGGTGAAATTTGACCAGTTAAGCCTGAAGCTGGCGGGGAAAGACGATAAAGAGATCCGCGACACCTTAACCCGTCGCTATAAGTTCGCTATCCGTCGTCTGGCGCAAACCAACAGCGAAGATGTCTTCTCGCTGGCGATGACCGCCTTCGCCCGCGAAATCGACCCGCACACCAACTATCTGTCGCCGCGCAATACCGAGCAGTTCAACACCGAGATGAGTCTCTCACTCGAAGGGATCGGCGCTGTGCTGCAGATGGATGATGACTACACGGTCATTAATTCGCTGGTGGCGGGTGGTCCGGCTGCGAAGAGCAAAGCGATCAGCGTCGGCGACCGCATTGTCGGCGTCGGCCAGACCGGGAAGTCGATGGTCGATGTGATTGGCTGGCGTCTGGATGACGTCGTGGCGCTGATTAAAGGGCCGAAGGGCAGCAAGGTTCGCCTTGAGATCCTGCCGGCCGGCAAAGGGGCCAAGACGCGTATCGTCACCCTGACCCGCGAACGCATCCGTCTGGAAGACCGCGCGGTGAAGATGTCGGTGAAAACCGTCGGTAAAGAAAAAGTCGGCGTGCTGGATATCCCGGGCTTTTACGTCGGCCTGACCGATGACGTGAAAGTGCAGCTGCAGAAGCTGGAAAAACAGAACGTCAGCAGCGTGGTTATCGATCTGCGCAGCAACGGCGGCGGGGCGCTGACCGAAGCGGTATCGCTCTCGGGGCTGTTTATTCCGTCCGGCCCGGTGGTGCAGGTGCGGGATAACAATGGCAAGGTGCGCGAAGACAGCGATAACGATGGCGTAGTCTATTACAAAGGGCCGCTGGTGGTGCTGGTTGACCGCTTTAGCGCCTCAGCGTCTGAGATCTTTGCCGCCGCAATGCAGGATTATGGCCGCGCGCTGATCGTTGGCGAGCCGACCTTCGGTAAAGGTACCGTACAGCAGTATCGCTCGTTGAATCGTATCTACGATCAGATGCTGCGTCCGGACTGGCCGGCGTTAGGTTCCGTTCAGTACACCATCCAGAAGTTCTACCGCATTAACGGCGGCAGTACTCAGCGCAAAGGCGTAACGCCGGATATCATGATGCCAACCGGAAATGAAGATCGCGAAACCGGCGAGCAGTATGAAGACAACGCGCTGCCGTGGGATAGCATCAACGCGGCCACCTACGTGAAGTCCGGGGACCTCGCCCCGTTTGGACCGGAACTGCTCAAGCGCCACGACGAGCGTATTGCCCAGGATCCTGAGTTCCAGTACATCATGAAGGATATTGCCCGTTATAACGCGATGAAGGACAAACGTAACATCGTCTCTCTGAACTACGCGCAGCGTGAAAAAGAGAACGAAGAGGATGATGCGATTCGTCTGGCGCGGATTAACGATCGCCTGAAACGCGAAGGCAAACCGCCGCTGAAAAAACTGGACGATCTGCCGAAGGATTACCAGGAGCCGGATCCATATCTTGATGAAACGGTCCATATCGCGGTAGACCTGGCGCATCTCGAAAAAGCGCGCCCGGCGGTGGAACCGCCGGCCAGCCAATAA	MNTFFKITALAGLLAIAGHAFAVDEITRADQIPVLKEEPQHATVSERVTSRFTRSHYRQFDLDNAFSAKIFDRYLNLLDYSHNVLLASDVAKFAAKKDQIGDELRTGKLDVFYDLYNLAQQRRFERYQYALKVLERPMDFTGNDNFNLDRSKAPWPKDEAELNKLWDAKVKFDQLSLKLAGKDDKEIRDTLTRRYKFAIRRLAQTNSEDVFSLAMTAFAREIDPHTNYLSPRNTEQFNTEMSLSLEGIGAVLQMDDDYTVINSLVAGGPAAKSKAISVGDRIVGVGQTGKSMVDVIGWRLDDVVALIKGPKGSKVRLEILPAGKGAKTRIVTLTRERIRLEDRAVKMSVKTVGKEKVGVLDIPGFYVGLTDDVKVQLQKLEKQNVSSVVIDLRSNGGGALTEAVSLSGLFIPSGPVVQVRDNNGKVREDSDNDGVVYYKGPLVVLVDRFSASASEIFAAAMQDYGRALIVGEPTFGKGTVQQYRSLNRIYDQMLRPDWPALGSVQYTIQKFYRINGGSTQRKGVTPDIMMPTGNEDRETGEQYEDNALPWDSINAATYVKSGDLAPFGPELLKRHDERIAQDPEFQYIMKDIARYNAMKDKRNIVSLNYAQREKENEEDDAIRLARINDRLKREGKPPLKKLDDLPKDYQEPDPYLDETVHIAVDLAHLEKARPAVEPPASQ	PGPT0015095_1115	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015095-prc|ctpA-K03797	NA	NA
BMS020_00970	678	proQ	COG3109	RNA chaperone ProQ	ATGGAAAATCAACCTAAGTTGAATAGCAGTAAAGAAGTTATCGCCTTTCTGGCCGAACGTTTCCCTCAGTGCTTCAGCGCTGAAGGCGAAGCGCGCCCCCTGAAAATCGGAATTTTTCAGGATCTCGTTGAGCGAGTGGGTGGTGAGATGAATCTCAGCAAAACCCAGCTTCGCGCTGCATTACGTCTCTATACCTCGAGCTGGCGCTATCTCTACGGCGTAAAAGCCGGCGCTATCCGCGTTGACCTGGACGGCAACCCGTGCGGCGAACTGGAAGAGCAGCACATTGCCCATGCGCGTCAGCAGCTGGAAGAAGCGAAAGCTCGCGTTCAGGCGCAGCGCGCTGCCCAGCAGGCGAAAAAACGCGAAGCCGCTGCCGCTGCAGGCCAGCCGGATGAAGGCGTTCGCCGCGAGCGTAAACCGCGTCCTCAGCAGCCGCGTCGTAAAGAGGGTGCTGAACAGCGTAAACCGCGTCCTGTTGCAGCCAAAGCTCCGCGTGAAGAGCGTCTTACTCCGGTATCGGATGTTTCCGTTCTGACCGTCGGCCAGGCGCTGAAGGTAAAAGCAGGCAATAACGCAATGGACGCCACCGTTGTGGAAATCACCAAAGATGGCGTTCGTGTACAGCTGACTTCTGGTATGTCAATGATTGTACGCGCAGAACACCTGGTGTTCTGA	MENQPKLNSSKEVIAFLAERFPQCFSAEGEARPLKIGIFQDLVERVGGEMNLSKTQLRAALRLYTSSWRYLYGVKAGAIRVDLDGNPCGELEEQHIAHARQQLEEAKARVQAQRAAQQAKKREAAAAAGQPDEGVRRERKPRPQQPRRKEGAEQRKPRPVAAKAPREERLTPVSDVSVLTVGQALKVKAGNNAMDATVVEITKDGVRVQLTSGMSMIVRAEHLVF	PGPT0013650_408	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013650-proQ-K03607	NA	NA
BMS020_00971	498	msrC_1	COG1956	Free methionine-R-sulfoxide reductase	ATGAGCAAAACAGAATTTTACGCGGATTTGAACCGCGATTTCCAGGCATTAATGGCAGGTGAAACCAGTTTCCTGGCGATGATCGCCAATACCAGCGCGCTGCTGTTTGAACGACTGGGCGAGGTCAACTGGGCCGGTTTCTATCTTCTGGAAGGCGATACCCTGGTGCTGGGGCCGTTCCAGGGCAAACTGGCCTGCGTGCGGATCCCGGTCGGGCGCGGCGTATGCGGCGCGGCGGTGGCGCAAGCCCAGGTGCAGCGCGTCGAGGACGTCCACGCGTTTGACGGCCACATCGCCTGCGATGCCGCCAGTAATTCGGAAATTGTCTTCCCCCTGCGCGTGAACGACCAGATTATCGGCGTGCTGGATATCGACAGTCCGGCTTACGGCCGCTTCACTGCTGAAGATGAGCAGGGGTTGCGCACGCTGGTCGAGCATCTGGAAAAACTCATCGCGGCCACTGATTATCAAAAAATCTTTACCCGTGTCGTGGGATAA	MSKTEFYADLNRDFQALMAGETSFLAMIANTSALLFERLGEVNWAGFYLLEGDTLVLGPFQGKLACVRIPVGRGVCGAAVAQAQVQRVEDVHAFDGHIACDAASNSEIVFPLRVNDQIIGVLDIDSPAYGRFTAEDEQGLRTLVEHLEKLIAATDYQKIFTRVVG				NA	NA	NA	NA	NA
BMS020_00972	1245	yebS	COG2995	Intermembrane transport protein YebS	ATGGTCGTGCATGCCGTGAGCACACCGCTTCCCTATGCGCATTATCAGCGCTGTACGCAGTGTGACATGCTCTTTCGCTTACCGGTGCTTAAACGCAACCAAAGCGCCTGGTGTCCGCGCTGTAACGCGAAGGTGCGCGATGGCCGCGACTGGTCGTTGACCCGTCTGGGCAGCATGGCCCTGGCGATGCTGCTGTTAATGCCCTTTGCCTGGTCCGAACCCCTGCTGCGCCTTCACCTGCTGGGGGTACGCATTGACGCCAACGTCCTGCATGGCATTTGGCAGATGACCGCGCAGGGCGATCCGCTTACCGCCGCGATGGTGCTGTTTTGCGCGGTGGTCGCCCCGGTGCTGCTGGTGGTTTCGATTAGCTATCTGTGGCTGGGCAACGTGCTGGGGATGAACCTGCGTCCGGTGTTGCTAATGCTCGGTAAGCTCAAGGAGTGGGTCATGCTGGATATCTATCTGGTGGGCATCGGCGTCGCCTCCATCAAGGTGCAGGATTACGCCTTTCTGCAGCCCGGCATCGGCCTCGTGGCATTTATCTCCCTGACGCTGCTGAGCATCCTGACGCTTATCCATATGAACGTCGAAGAGCTGTGGGAGCGATTCTATCCCGAACGGCCGGCGACCCGCGCCGATAACAATCTGCAGGTTTGCACCGGCTGCCACTACACCGGCTACCGCGACGCCCGCGGCCGCTGCCGGCGCTGCCACACGCCGCTGCACCATCGCCGACCGCAGAGCCTGCAGCGCAGCTGGGCGGCGCTGATTGCCTCGCTGATTTTGCTCTTACCGGCCAACCTGCTGCCGATCTCCATCATTTACGTTAACGGCGCGCGCCAGGAAGACACCATCCTCTCCGGGATCATCTCCCTCGCCAGCAGCAATATCGCCATCGCCGGCGTGGTGTTTATCGCCAGTATTTTGGTGCCATTCACCAAAGTTATAGTGTTATTTACCCTGCTGCTCAGCATACAATTCAAATGCGAGCAGGGGCTGCGCACCCGCATCCTGCTGCTGCGGCTGATAACCTGGATTGGCCGCTGGTCGATGCTGGATCTGTTTGTTATCTCACTCACCATGTCGCTAATCAATCGCGATCAGCTCCTCGCCTTTACGATGGGGCCGGCCGCGGTTTACTTCGGTGGCGCGGTAATTTTAACTATTCTTGCAGTTGAATGGCTGGACAGCCGCTTACTTTGGGACGCACATGAGTCAGGAAACGCCCGCTTCGCAGACTGA	MVVHAVSTPLPYAHYQRCTQCDMLFRLPVLKRNQSAWCPRCNAKVRDGRDWSLTRLGSMALAMLLLMPFAWSEPLLRLHLLGVRIDANVLHGIWQMTAQGDPLTAAMVLFCAVVAPVLLVVSISYLWLGNVLGMNLRPVLLMLGKLKEWVMLDIYLVGIGVASIKVQDYAFLQPGIGLVAFISLTLLSILTLIHMNVEELWERFYPERPATRADNNLQVCTGCHYTGYRDARGRCRRCHTPLHHRRPQSLQRSWAALIASLILLLPANLLPISIIYVNGARQEDTILSGIISLASSNIAIAGVVFIASILVPFTKVIVLFTLLLSIQFKCEQGLRTRILLLRLITWIGRWSMLDLFVISLTMSLINRDQLLAFTMGPAAVYFGGAVILTILAVEWLDSRLLWDAHESGNARFAD				NA	NA	NA	NA	NA
BMS020_00973	2634	yebT	COG3008	Intermembrane transport protein YebT	ATGAGTCAGGAAACGCCCGCTTCGCAGACTGAAGCCAGAATAAAAACCAAACGTCGTATCTCGCCATTCTGGCTGCTGCCGGTCATCGCGCTGCTGATTGCCGCCTGGCTCATCTGGACCAGTTTTGACGACCGTGGATCGACGATTACTATCGATTTCCAGTCTGCTAACGGCATCGTGCCGGGGCGGACGCCTATCCGCTATCAGGGGGTGGAAGTCGGTACCGTCCAGGACATTAGTCTCAGTAAAGACCTGAGTAAAATTGAAGTTTCCGCCAGCATCAAACGCGATATGAAAGAGGCGCTGCGCAAAGATACGCAGTTCTGGCTGGTGACGCCGAAAGCCTCTCTGGCCGGCGTGTCAGGACTGGATGCCCTGGTGGGCGGGAACTATATCGGCATGATGCCGGGCAAGGGCGAACCCGAAGATCACTTCGTCGCCCTCGACACCCAGCCCAAATACCGCATCAACAACGGCGAGCTGATGATCCACCTGCAGGCGCCCGACCTTGGCTCTCTGAGCAGCGGCTCGCTGGTCTACTTCCGTAAGATCCCGGTCGGGCGGGTGTATGACTTCACGCTGAATGACAATAACCAGGGGGTCACCATTGATGTGCTGATCGAGCGCCGGTTTACCAACCTGGTGAAAAAAGGCAGCCGTTTCTGGAACGTCTCCGGGATCAAAGCCGACGTCGGCCTGAGCGGGGCCAAAGTGCAGCTGGAGAACCTTTCCGCGCTGGTGAACGGCGCCATCGCCTTTGACTCCCCTGCCGATTCGCAGGTCGCGTCGCAAAACGATGACTATCATCTGTACGAAGACCTGGCGCACAGTCAGCGCGGGGTGGTGGTGACCCTCGACCTGCCGGACGGCGACGGCCTGAAAGCGGGCTCGACGCCGCTGATGTATCAGGGGCTGGAAGTGGGCCAGTTAAGCAAACTGAATCTTAACCCTGGCGGCAAAGTCACGGGCGAGATGACCGTCGACCCGAGCGTGGTGACCCTGCTGCGGGAGAAAACGCTGATTCAGATGAAGAAGCCGAAGATCTCCCTTGATAACCCCAGCGTCAGCGCCCTGCTCACCGGCAATACCTTTGAGCTGGTGCCCGGCGAAGGCGAACCGCGTAATCACTTCTCCGTCATGCCAGCGGATAAAGCGCTGCTGGAGGAGCCCAATGTCGCTACCGTCACCCTTTCGGCGCCGGAGAGCTACGGGATCGACGGCGGCCAGCCGCTGGTGCTGCACGGGGTGAAAGTTGGCCAGGTGCTGGAGCGCAAGCTGACGGCCAAAGGGGTGACCTTCCAGGTGGCGATTGCCCCGGAATACCGCGATCTGATTCGCGGCGACAGCAAGTTTGTGGTGAACAGTCGTCTGGACGTCAAAGTGGGGCTCGATGGCGTGCAGGTGCTGGGCGCCAGCGCCAGCGAATGGGTGAACGGCGGGATCCGGGTGATCCCGGGTGAAAAAGGCGAAATGCAGAGCAGCTATCCGCTGTATGCCAACCTCGAAAAGGCGCAGGAAAACAGCCTGAGCGAAGTGCCGACCACCACCCTGAGCCTCTCCGCTGAGACGCTACCTGACGTTCAGGCTGGCTCGGTGGTGCTGTATCGTAAATTCGCCGTCGGCGAGATCATCGCCGTCAAACCGCGCAAAGACGCTTTCGATATCGATCTGCATATCAAGCCGGAGTACCGCTACCTGCTGACCAACAACAGCGTCTTCTGGGCGGAAGGGGGTGCGAAGGTCAAACTTGACGGCAACGGGCTCACCGTTCAGGCCTCGCCGCTGGCCCGCGCCATTAAAGGAGCGATCAGTTTCGATAACCTCAACGGCAGCAGCGCCAACGCGCGGCTGAATAATAAACGCATCCTTTACGCTTCTGAAACGGCGGCGCGCGCCGTGGGCGGCCAGATCACCCTGCACGCGTTTGACGCCGGGAAGATGGCGGCCGGGATGCCGATTCGCTATCTCGGCATTGATATCGGTCAGATCCAGTCCCTGGAGCTGATCACCGCCAAAAACGAGGTGCAGGCGAAAGCCGTGCTTTACCCGGAATACGTCGGCACGTTTGCCCGCGCCGGGACTCGCTTCTCGGTGATCACCCCGCAGATCTCCGCGGCAGGCGTGGAGCATCTCGACACCCTGTTCCAGTCCTATATTAACGTTGAGCCCGGACGCGGCCCGGCGCGTCGCGACTTTGAGATCCAGGATACGACGATCAGCGACTCGCGCTATATCGACGGTCTGAATATCGTGGTGGAAGCGCCGGAGGCCGGATCGCTTGGCATCGGTACGCCGGTGCTGTTCCGCGGTCTGGAAGTCGGGACGGTGACCGGTCTGTCGCTGGGATCGATGTCTGACCGGGTCATGGTTAAGATGCGCATCAGCAAGCGCTACCAGTACCTGGTGCGCAATAACTCGGTGTTCTGGCTGGCCTCAGGTTACAGCCTCGACTTCGGCCTGGTTGGCGGCGTGGTGAAAACCGGGACCTTCAATCAGTTTATCCGCGGCGGGATCGCCTTTGCCACGCCGCCGGGTACGCCGCTGGCGCCGAAGGCCCAGGACGGCAAGCACTTCCTGCTGCTGGAGAGCGAGCCGAAAGAGTGGCGGGAGTGGGGCACCGCCCTGCCGCAGTAA	MSQETPASQTEARIKTKRRISPFWLLPVIALLIAAWLIWTSFDDRGSTITIDFQSANGIVPGRTPIRYQGVEVGTVQDISLSKDLSKIEVSASIKRDMKEALRKDTQFWLVTPKASLAGVSGLDALVGGNYIGMMPGKGEPEDHFVALDTQPKYRINNGELMIHLQAPDLGSLSSGSLVYFRKIPVGRVYDFTLNDNNQGVTIDVLIERRFTNLVKKGSRFWNVSGIKADVGLSGAKVQLENLSALVNGAIAFDSPADSQVASQNDDYHLYEDLAHSQRGVVVTLDLPDGDGLKAGSTPLMYQGLEVGQLSKLNLNPGGKVTGEMTVDPSVVTLLREKTLIQMKKPKISLDNPSVSALLTGNTFELVPGEGEPRNHFSVMPADKALLEEPNVATVTLSAPESYGIDGGQPLVLHGVKVGQVLERKLTAKGVTFQVAIAPEYRDLIRGDSKFVVNSRLDVKVGLDGVQVLGASASEWVNGGIRVIPGEKGEMQSSYPLYANLEKAQENSLSEVPTTTLSLSAETLPDVQAGSVVLYRKFAVGEIIAVKPRKDAFDIDLHIKPEYRYLLTNNSVFWAEGGAKVKLDGNGLTVQASPLARAIKGAISFDNLNGSSANARLNNKRILYASETAARAVGGQITLHAFDAGKMAAGMPIRYLGIDIGQIQSLELITAKNEVQAKAVLYPEYVGTFARAGTRFSVITPQISAAGVEHLDTLFQSYINVEPGRGPARRDFEIQDTTISDSRYIDGLNIVVEAPEAGSLGIGTPVLFRGLEVGTVTGLSLGSMSDRVMVKMRISKRYQYLVRNNSVFWLASGYSLDFGLVGGVVKTGTFNQFIRGGIAFATPPGTPLAPKAQDGKHFLLLESEPKEWREWGTALPQ				NA	NA	NA	NA	NA
BMS020_00974	1386	rsmF	COG0144	Ribosomal RNA small subunit methyltransferase F	ATGCGCGCGGCAATGCCGGCGCACCTCTCTTTCGACGACTTTATCGCCGCCTGTCAGCGCCCGCTACGCCGTAGTATTCGCGTCAATACGCTGAAAATTAGCGTCGATGATTTCCTCTCTCTGGTCGCGCCCTATGGCTGGCAGCTGACGCCGGTCCCCTGGTGTGAGGAGGGATTCTGGATCGAGCGGGACGACGATGCGCTGCCGCTGGGCAGCACCGCCGAACACCTCAGCGGGCTGTTCTATATTCAGGAGGCAAGCTCAATGCTGCCGGTCGCCGCCCTGTTCGCCGACAACCCGCAGCCTGAACGGGTCATGGACGTTGCCGCCGCCCCGGGGTCGAAAACCACCCAGATCGCCGCCCGGATGGGCAATGCGGGCGGCATCCTGGCGAATGAGTTCTCCGCCAGCCGGGTGAAAGTACTGCATGCCAACATCAGCCGCTGCGGCATCAGCAACGTCGGCCTGACCCATTTCGACGGGCGGGTGTTCGGCGCGGCATTGCCCGAAGCCTTCGACGCCATTCTGCTTGATGCCCCCTGCTCCGGCGAAGGGGTGGTACGCAAAGATGCCGACGCGCTGAAAAACTGGTCGCCGGAGAGCAACCTCGACATCGCCGCCACCCAGCGCGAACTTATCGACAGCGCTTTCCATGCCCTGCGCCCTGGCGGGACGCTGGTCTATTCGACCTGCACCCTGAACCGCGAAGAAAATCAGTCAGTCATACACTGGCTGCTGTCCCGTTACCCGCAGGCGGTAGAGATCCAGCCGCTGGGAGCGCTGTTTCCCGGCGCGGCCGATGCCTTAACCGCGGAGGGATTTCTGCATGTCTTCCCGCAGATCTACGATTGTGAAGGCTTCTTTGTCGCTCGCCTGCGCAAGACTGCGGCGATCGATCCGCTCCCGGCGCCGGGCTATAAGGTCGGCAAGTTCCCGTTTGTGCCGCTGAAGGGCCGGGAAGCCGCAGCGGCGACCGCCGCCGCCCGCGCTGTCGGCCTGGAATGGGACGCGAGCCACACGCTGTGGCAACGAGATAAAGAGCTGTGGCTGTTTCCGCAGTCTATGGAGCCTCTGTTTGGTCGGGTGCGGTTTTCGCGCATTGGCGTGCGCCTGGCGGAGCTGCACAATAAGGGTTATCGCTGGCAGCATGAGGCGGTTATTGCCTTTGCCGCGCCGCAGCGCGCCTTCGAGCTGACGCTGGAGGAGGCGGAAGCGTGGTATCGCGGACGCGACGTCTATCCGCAAACCCCGCCAGCGCTGGACGAAGCCATTGTGACCTTCCAGGGCGTGCCGCTGGGCCTGGCCAAGCGCGTCGGCTCCCGTCTGAAGAACAGTTATCCGCGCGAGCTGGTACGCGATGGGAAACTTTTTGCCGGCAAGGTGTGA	MRAAMPAHLSFDDFIAACQRPLRRSIRVNTLKISVDDFLSLVAPYGWQLTPVPWCEEGFWIERDDDALPLGSTAEHLSGLFYIQEASSMLPVAALFADNPQPERVMDVAAAPGSKTTQIAARMGNAGGILANEFSASRVKVLHANISRCGISNVGLTHFDGRVFGAALPEAFDAILLDAPCSGEGVVRKDADALKNWSPESNLDIAATQRELIDSAFHALRPGGTLVYSTCTLNREENQSVIHWLLSRYPQAVEIQPLGALFPGAADALTAEGFLHVFPQIYDCEGFFVARLRKTAAIDPLPAPGYKVGKFPFVPLKGREAAAATAAARAVGLEWDASHTLWQRDKELWLFPQSMEPLFGRVRFSRIGVRLAELHNKGYRWQHEAVIAFAAPQRAFELTLEEAEAWYRGRDVYPQTPPALDEAIVTFQGVPLGLAKRVGSRLKNSYPRELVRDGKLFAGKV				NA	NA	NA	NA	NA
BMS020_00975	309			hypothetical protein	TTGACTACGCTGAAAAATGACGGCCGCAACTGGTCGTACCACAACTCAGCTGAAAAATGGGGTGAAGCGATGAGTAAAACCAATGTCCGCATCGGCGCGTTTGAGATAGACGATGCCGAACTGCATGGTGAACATCAGGGTGAGCGAACGTTAAGCATTCCCTGCAAATCCGATCCAGATTTATGTATGCAGCTTGACGCCTGGGATGCCGATACCAGCGTTCCCGCGATTCTCAATGGTGAACATTCCGTCCTCTACCGTAAACATTACGACCGCCAGTCCGATGCCTGGGTCATGCGCCTTGCCTGA	MTTLKNDGRNWSYHNSAEKWGEAMSKTNVRIGAFEIDDAELHGEHQGERTLSIPCKSDPDLCMQLDAWDADTSVPAILNGEHSVLYRKHYDRQSDAWVMRLA				NA	NA	NA	NA	NA
BMS020_00976	192			hypothetical protein	ATGTTTGCCTTAGTGTTGTTTATTTGCTATCTGGATGGCGGCTGCGAGGACATTGTGGTTGACGTCTACCGCGAGGAAACCCAGTGCCTGGTGGCGATGGAAGATCAGCGGATCCGCCACGGCGGCTGCTACCCGATAGAAGATTTTATTGACGGCTTCTGGCAACCAGCCAGCGAATACAGTGACTTTTAG	MFALVLFICYLDGGCEDIVVDVYREETQCLVAMEDQRIRHGGCYPIEDFIDGFWQPASEYSDF				NA	NA	NA	NA	NA
BMS020_00977	654	pphA	COG0639	Serine/threonine-protein phosphatase 1	ATGTATCAGCGTATTAATGGCAGCGACTGGCGTAATATCTGGCTGATGGGCGATCTGCATGGCTGCTTTGCGCTGCTGATGGAGCGCCTGCGCCGGCTGCGCTTTGATCCCTGGGCCGATCTGCTGATCTCGGTTGGGGATCTGATCGATCGCGGGCCGCAAAGCGCTGACTGTCTCGGCCTGTTGCGCAGCCGCTGGTTCAGGGCCGTGCGCGGGAATCATGAGCAGATGGCGCTGGAGGCGCTGGAGAGCGGAGATATGACGCTCTGGCAGATGAACGGCGGCGACTGGTACGCCCGGAGCAACGTGCGGCAGCGGGCTGACGTCGATCGGCTGCTGGCGCGCTGTCAGCGGCTGCCGTTGATTATTGAAGTGGAGTGCGCAAAGGCGCGGCATGTGATCGCCCATGCCGATTACCCGGCGCCGGTCTATCGCTGGCAGCAGCCGGTGGATCCCCAGCGGGTCCTGTGGAGCCGCCATCGTCTGAGTGAACATCTGGCGGGGCGTCATGGCGCTATCGCCGGGGCTGACCATTTCTGGTTTGGCCATACGCCGCTTCGCGCGCGTTGTGACTACGACAATCAACACTATATTGACACCGGCGCCGTGTTCGGCGGCACGCTGACCCTGGTGGCGCTGCAGTCGGCAGGCTAA	MYQRINGSDWRNIWLMGDLHGCFALLMERLRRLRFDPWADLLISVGDLIDRGPQSADCLGLLRSRWFRAVRGNHEQMALEALESGDMTLWQMNGGDWYARSNVRQRADVDRLLARCQRLPLIIEVECAKARHVIAHADYPAPVYRWQQPVDPQRVLWSRHRLSEHLAGRHGAIAGADHFWFGHTPLRARCDYDNQHYIDTGAVFGGTLTLVALQSAG				NA	NA	NA	NA	NA
BMS020_00978	960		COG2990	putative protein	GTGACAGACAATAGCCTGCATTCATCCAGCGTGCTTACGCCGCGCTCGCATCTCATTGCCGATCTGGTGATGGGCAGATTAACACCCGCACCTATCTGGCGGCAGAAAAATTACCGCTTTAAGTTTCTGCTGCGCACGGCGTTATTTTATAGCCCTACCAAAGCGATGCTGGAGGCGCTGAGCGCTCGTGACGATTTTAACCAGCTGCTGACGGCGCAGGCGACGCTGCCGGGGAAAGTGCACCGTCAATATCTGACGCGCGATCTCAACGCCTGGCAGCGGGCGATGGCGGTCATAAGCCATTATCGCTATGTCGATACCCTGCGCGGGTCGCGGCTGGCGCATGCCATGACCGCGGTGTGCGAGGTCCCGTTGCTGACGCTCAATGGAAAGGATGAACGCCAGTTTACCCTCGCGGCCTCTTCGGCCGGGAAGGCCGAGCGTGAGGGTGAAACCACCCTATGGCTGCGCGACAGCGACCATACCCTGCTGGCCAGCGCGACCTTCAGCGTGACCCGGGAGGGCGACGCCTGGCAGCTGGTCATCGGCGGTTTACAGGGACCGCGACGCCACGTTTCTCATGAGGTGATCAAGCAGGCGACTCGCGCCTGCTACGGCCTGTTCCCGAAGCGCCTGCTGCTGGAGTTTATCTGGCTGCTGGCCGCTCGCAGCCATATCGCGGCGATTTACGGCGTCAGCGATAACGGCCATGTGTTCCGCGCCCTGCGCTATCGCCTGAGCAAGGGGCGCCATTTCCACGCCAGCTATGACGAGTTCTGGCAATCCATCGACGGCAAGCCGGAAAGCCTCTGGCGCTGGCAGCTACCGCTGCGTCTGGAAAGAAAACCGCTGGAGAGCATCGCCAGTAAAAAACGGGCCGAATACCGGCGTCGATTCCAGCTGCTGGATCAGCTGGCGGAGCAGGTGGCAATATTGACGCAGCCGCTGCCGGGCATGTAA	MTDNSLHSSSVLTPRSHLIADLVMGRLTPAPIWRQKNYRFKFLLRTALFYSPTKAMLEALSARDDFNQLLTAQATLPGKVHRQYLTRDLNAWQRAMAVISHYRYVDTLRGSRLAHAMTAVCEVPLLTLNGKDERQFTLAASSAGKAEREGETTLWLRDSDHTLLASATFSVTREGDAWQLVIGGLQGPRRHVSHEVIKQATRACYGLFPKRLLLEFIWLLAARSHIAAIYGVSDNGHVFRALRYRLSKGRHFHASYDEFWQSIDGKPESLWRWQLPLRLERKPLESIASKKRAEYRRRFQLLDQLAEQVAILTQPLPGM				NA	NA	NA	NA	NA
BMS020_00979	147			hypothetical protein	ATGATGAGTAAAACCGAAATTTTTCTGCTGATTATTCTGGCGGTCATGCTGCTGGGCAGCATATGGTTTATTTTCAGCGATGAAATTTGGCTTTTACTCTGCTATCTGGAGAGTCAGATATTTCCCACCTTTAGCGTTCCGGAATAA	MMSKTEIFLLIILAVMLLGSIWFIFSDEIWLLLCYLESQIFPTFSVPE				NA	NA	NA	NA	NA
BMS020_00983	339			hypothetical protein	ATGAAAAAAATTGTTCTGACCATGTTGTTACTGGCAAGCTCCGGCGCTGCTCTGGCGGCGCCGCAAATTATCACCGTGAGCCGCTTTGAGGTAGGAAAGGAGAGCTGGGCGTTCAACCGTGAAGAGGTGATGTTGACCTGTCGTCCGGGCAATGCCCTCTACGCTATCAACCCGAGCACCCTGGTCCAGTATCCGCTCAATGAGGTGGCTGAGCAGCAGGTCAAAGCCGGCAAAACCACCGCCCAGCCGATCTCGGTGATCCAGATCGACGATCCGCAGCACCCGGGGCAAAAAATGAGCCTCGCGCCGTTTATCGAGCGCGCGCAGAAGCTCTGCTAG	MKKIVLTMLLLASSGAALAAPQIITVSRFEVGKESWAFNREEVMLTCRPGNALYAINPSTLVQYPLNEVAEQQVKAGKTTAQPISVIQIDDPQHPGQKMSLAPFIERAQKLC				NA	NA	NA	NA	NA
BMS020_00984	870	yebZ	COG1276	Inner membrane protein YebZ	ATGCTGACCGGGCTCTATATTACCCTGCGTTTTGGGCATTTTATCGCCCTGATGCTGGCTTTTGGCTGCGTGCTGTATGGCGCCTGGTGGGCGCCGGTGCCGCTGCGACGCGTACTGATGCTGCGCTTCTATCCGCTGTTGCGCCCGCTGCTGCTGATCGGCGCGCTCTCTACCCTGGCGCTGTATCTGCTGCAGGGGGGAATGATGGGCGAGGGCTGGGCGGATGTCTGGCAACCCGCCGTCTGGCAGGCGGTGGCGGGTACCCGCTTCGGCGGGGTGTGGATCTGGCAGATCCTGCTGGCGTGGATCGCCCTCGCCGTGGTGTGGATCCGTCCCCGCCACGGCGCTCGCCAGCTGGTGGCCCTGCTGGCGGCCCAGCTGCTGCTTTCCGCTGGGGTAGGGCATGCCGCCATGCATGATGGTTTACTCGGCGCCCTGCAGCGGACTAATCATGCTGTCCACCTCTTCTGCGTCGCCAGCTGGTTCGGCGGCCTGTTGCCCTTTATCTATTGCCTGCGCCTGGCGCAGGGGCGCTGGCGGCAGGCCGCGGTCTATACCATGGCGCGCTTTTCACGCTACGGGCATCTGGCCGTCGCCGGCACCCTTGCCAGCGGGGCGATCAATGCGCTGTTGATCCAGGGAGGATTGATTGGCGCATCGCCCTGGGGACGCCTGCTGTTGATCAAATGTGCGCTGGTGGCCGGGATGGTGGTAATTGCGTTAGTGAACAGGTATGTTCTGGTACCGCGCATGTCGGCAAGCGGTTCGCGGGCGGAAAGCCTGATCCTGCGAACCACGCAGGCCGAGATAGGGCTGGGCGCGCTGGCGCTGCTGGCCGTCAGCCTGTTTGCCACCTGGGAACCTTATTGA	MLTGLYITLRFGHFIALMLAFGCVLYGAWWAPVPLRRVLMLRFYPLLRPLLLIGALSTLALYLLQGGMMGEGWADVWQPAVWQAVAGTRFGGVWIWQILLAWIALAVVWIRPRHGARQLVALLAAQLLLSAGVGHAAMHDGLLGALQRTNHAVHLFCVASWFGGLLPFIYCLRLAQGRWRQAAVYTMARFSRYGHLAVAGTLASGAINALLIQGGLIGASPWGRLLLIKCALVAGMVVIALVNRYVLVPRMSASGSRAESLILRTTQAEIGLGALALLAVSLFATWEPY	PGPT0004120_911	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004120-pcoD|copD-K07245	NA	NA
BMS020_00985	351	yobA	COG2372	Protein YobA	ATGCGCCTCTCCGTTGCGTTTGCCGGGCTATTAACCGCGACGGGCGCGCTCGCCCACGCTCACCTGCAGCAGCAGAGCCCCGCCGCCGGCGCGCAGCTGGCGGCTTCTCCGCAGACGCTGACGCTCAGTTTCTCCGAAGGCATTGAACCCGCGTTCAGCGGGGTGTCCGTCACCGGTCCGCAGCAGCATGCGGTGGCCACCGGCAAACTGACCCGCAGCGCCGACAACCCCACCCAGGTCACCGTGCCTGTGGCGGAAACCCTGCGGCCGGGAGAATACACTGTGGCATGGCATGTAGTTTCAGTGGATGGCCATAAAACCAAAGGGCAATACACCTTTAGCGTGAAGTAA	MRLSVAFAGLLTATGALAHAHLQQQSPAAGAQLAASPQTLTLSFSEGIEPAFSGVSVTGPQQHAVATGKLTRSADNPTQVTVPVAETLRPGEYTVAWHVVSVDGHKTKGQYTFSVK	PGPT0004115_1413	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004115-pcoC|copC-K07156	NA	NA
BMS020_00986	231	holE		DNA polymerase III subunit theta	ATGGAAAGAAATCTGGCCAAAATTTCGCAAGATGAGATGGATAAAGTCAACGTCGATCTCGCCGCCGCCGGCGTCGCCTTCAAAGAGCGGTATAATATGCCGGTGGTCGCTGATTTGGTCGAGCGTGAACAGCCCGCCCATCTGCGCGACTGGTTCCGCGAAAGACTGATCGCCCATCGGCTGGCCTCCGTCTCGCTGTCCCGCCTGCCCTGGGAGCCGAAACAGAAATAA	MERNLAKISQDEMDKVNVDLAAAGVAFKERYNMPVVADLVEREQPAHLRDWFRERLIAHRLASVSLSRLPWEPKQK				NA	NA	NA	NA	NA
BMS020_00987	660	exoX	COG0847	Exodeoxyribonuclease 10	ATGCTGCGCGTCATTGATACCGAAACCTGCGGACTGCAGGGGGGCATCGTTGAAGTCGCCTCGGTCGACATTGTCGACGGGCAGATCACCAATCCCATGAGTCATCTGGTGCGTCCTGACCGCCCCATCAGCCCGCAGGCGATGGCTATCCACCGGATTACCGAAGAGATGGTCGCCGATAAGCCGTGGATTGAGGAGATTATTCCGCACTATCATGGCAGCCCGTGGTATGTCGCGCATAACGCCAGCTTCGATCGTCGGGTGTTACCGGAGATGCATGGCGAGTGGATCTGTACCATGAAGCTGGCCCGCCGGCTGTGGCCGGGGATCAAATACAGCAATATGGGGCTCTATAAATCACGTAAGCTGAACGTGGCCACGCCGCCGGGGCTGCATCACCACCGGGCGCTGTATGACTGCTATATCACCGCTGCGCTGCTGCTGGATATCATCAACGTTTCCGGCTGGACGCCTGACGAAATGGCCGATATCACCGGTCGGCCGGCGCTGCTCACCACCTTCACCTTCGGCAAATACCGCGGCAAAGCCGTCGCCGAGATTGCTGAAAACGATCCAGGCTATCTGCGCTGGTTATTCAACAATCTCGACCGCATGAGCCCCGAGCTGCGCCTCACGCTCAAGCATTACCTCGGGGAATAG	MLRVIDTETCGLQGGIVEVASVDIVDGQITNPMSHLVRPDRPISPQAMAIHRITEEMVADKPWIEEIIPHYHGSPWYVAHNASFDRRVLPEMHGEWICTMKLARRLWPGIKYSNMGLYKSRKLNVATPPGLHHHRALYDCYITAALLLDIINVSGWTPDEMADITGRPALLTTFTFGKYRGKAVAEIAENDPGYLRWLFNNLDRMSPELRLTLKHYLGE				NA	NA	NA	NA	NA
BMS020_00988	2028	ptrB	COG1770	Protease 2	ATGACCTTGCATGGCGATACACGCATCGATAACTATTACTGGCTGCGCGACGATGAACGCGCGCGGCCTGATGTGCTGGAATATCTGCACGCGGAAAACGCCTACGGCAAGCAAGTGATGGATTCGCAGCTCAGCCTGCAGGAGCGTCTGCTGAAAGAGATTATCGACCGCATTCCGCAGCGGGAAGTCTCGGCTCCCTACAGCAAAAACGGCTTTCGCTATCGTCAGGTGTACGAGCCGGGCTGCGAATACGCTATCTACCAGCGCCAGTCGGTGCTGAAAGAGGAGTGGGACGAGTGGGAGATCCTGCTTGATGCCAACCAGCGGGCGGCGAAAAGCGAGTTTTACACCCTGGGCGGGCTGGGCATTGCGCCCAACAACCAGCTGATGGCGGTGGCGGAAGATTATCTCTCCCGCCGCCAGTACGGGCTGCGCTTTTGCGACCTCAGCAACGGCGAGTGGTATCCGGAGACCCTGGAAAATGTCACCTCCGGCTTTGCCTGGAGCAACGATTCACGCTTTGTGTGGTATGTGCGTAAACATCCCACCACGCTGCTTCCTTATCAGGTCTGGCGCCACACCGTCGGGACGCCGGCGCAGAGCGACGCGCTGGTCTATGAGGAAAAAGATGAGACCTTCTACGTCAGCGTGCATAAAACCACATCCCAGCAGTTCGTGGTGATCTATCTCTCCAGCGCCACCACCAGCGAAGTGCTGCTGCTCAACGCCGAATTGCCAGACGCCGAGCCGGTCTGCTTCCTGCCGCGGCGTAAAGATCATGAATATAGCCTCGATCACTATCAGCACGCTTTTTATCTGCGATCCAACCGGGAGGGGAAGAATTTTGGCCTCTACCGTACCGTGCTGCGCGATGAAGGGCAGTGGACCACGCTGATCCCGCCGCGTCACGACGTGATGCTCGAAGGATTTACCCTGTTTACCGACTGGCTGGTCGTCGAGGAGCGTCAGCGCGGCCTGACCAGTTTGCGGCAGATTAACCGCAGGACCCGGGAGGTGGTAGGGATCGCCTTCGACGATCCGGCCTATGTCACCTGGCTTGCCTATAACCCGGAGCCTGAAACGTCGCGCCTGCGCTACGGCTACTCCTCGATGACCACGCCCGACACCCTGTTTGAGCTGGATATGGATACCGGCGAACGACGGGTGATCAAGCAGCAGGAGGTGAAGGGGCTGGACACCCGCTGCTATCAGAGCGAGCACCTGTGGGTAACCGCCCGCGATGGCGTCGAAGTCCCGGTCTCGCTGGTCTATCATCGCGACCATTTTCGTAAAGGGAGCAATCCGCTGCTGGTCTATGGCTATGGCTCGTATGGCGACAGTATCGATGCCGATTTCAGCGCCAGCCGGCTGAGCCTGCTCAACCGGGGCTTTGTCTACGCTATCGCCCACGTTCGCGGCGGCGGCGAGCTGGGCCAGCAATGGTATGAGGACGGTAAATTCCTGTGTAAGAAAAATACCTTCAACGACTATCTGGACGTCTGCGACGCGCTGCTGGCCCAGGGGTACGGCGACCCGCGGCTCTGCTATGGCATGGGCGGCAGCGCCGGCGGGATGCTGATGGGGGTGGCCGTTAACGAGCGTCCAGAGCTGTTCCACGGCGTAATAGCTCAGGTGCCGTTCGTCGACGTGGTGACCACCATGCTGGATGAGACCATTCCGCTGACGACCGGCGAATTTGAAGAGTGGGGGAACCCGCAGGATGAAACCTATTACCACTACATGAAAAGCTACAGCCCCTACGACGGCGTGAAGGCGCAGGCGTATCCGCATATGCTGGTGACCACCGGGCTGCACGATTCACAGGTGCAATACTGGGAGCCGGCGAAGTGGGTGGCGAAACTGCGTGAACTGAAAACCGACGATAACCTGCTGCTGCTCTGCACCGATATGGACTCCGGCCATGGCGGAAAATCCGGGCGCTTTAAAAGCTATGAGGGGGTGGCGCTGGAGTACGCCTTTTTCATCGCCCTGGCGCAGGGGACACTGCCGGGGAAAGCGGCAGTGTAG	MTLHGDTRIDNYYWLRDDERARPDVLEYLHAENAYGKQVMDSQLSLQERLLKEIIDRIPQREVSAPYSKNGFRYRQVYEPGCEYAIYQRQSVLKEEWDEWEILLDANQRAAKSEFYTLGGLGIAPNNQLMAVAEDYLSRRQYGLRFCDLSNGEWYPETLENVTSGFAWSNDSRFVWYVRKHPTTLLPYQVWRHTVGTPAQSDALVYEEKDETFYVSVHKTTSQQFVVIYLSSATTSEVLLLNAELPDAEPVCFLPRRKDHEYSLDHYQHAFYLRSNREGKNFGLYRTVLRDEGQWTTLIPPRHDVMLEGFTLFTDWLVVEERQRGLTSLRQINRRTREVVGIAFDDPAYVTWLAYNPEPETSRLRYGYSSMTTPDTLFELDMDTGERRVIKQQEVKGLDTRCYQSEHLWVTARDGVEVPVSLVYHRDHFRKGSNPLLVYGYGSYGDSIDADFSASRLSLLNRGFVYAIAHVRGGGELGQQWYEDGKFLCKKNTFNDYLDVCDALLAQGYGDPRLCYGMGGSAGGMLMGVAVNERPELFHGVIAQVPFVDVVTTMLDETIPLTTGEFEEWGNPQDETYYHYMKSYSPYDGVKAQAYPHMLVTTGLHDSQVQYWEPAKWVAKLRELKTDDNLLLLCTDMDSGHGGKSGRFKSYEGVALEYAFFIALAQGTLPGKAAV	PGPT0020980_1791	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020980-ptrB-K01354	NA	NA
BMS020_00989	660	yebE	COG2979	Inner membrane protein YebE	ATGGCTAACTGGCTAAATCAACTGCAGTCGCTGCTCGGACAGCAGGGCGCGTCGCCGTCCGGCGAATCGTCAAAAGGAAGCGCCCTGCTGCCCGGCGCCATCGGCGGGCTGGCAGGGCTGTTGGTGGCCAGCAAATCGTCACGCAAGCTGCTGGCGAAATATGGCACCAGCGCGCTGCTGGCTGGCGGTGGGGCAGTGGCGGGTACCGTGCTGTGGAACAAGTATCAGCAGAAAATGCGCGCTCAGAACGCGCCCGCCCCGACACCAGAGACGGCTGCGGCGCCGGCGGATGTCGATCCGCGCAGCGTGCGGCTGATCACCGCCCTGGTGTTTGCCGCCAAAAGCGATGGGCATATCGACGATCACGAGCGGGCGAAGATTGAAGCCCAGCTTCGGGAGGCCAATATTGACGTTCAGGCCAGGGTGCTGATTGACCAGGCGCTGGCTCAGCCGCTGGATCCGCAGCGTCTCGCCGAGGGCATCGTTGACCCGCAGGAGGCGCTGGAGATCTACTACGTCAGCTGCGCGGTGATCGATATCGACCACTTTATGGAGCGCAGCTATCTCAACGCCCTGGGTGAGGCCCTGGCGTTGCCAAAAGATGTCCGGGCCGACATCGAACAGGATATCCAGTCACAAAAACAGGCGCTAAGCGTTTAA	MANWLNQLQSLLGQQGASPSGESSKGSALLPGAIGGLAGLLVASKSSRKLLAKYGTSALLAGGGAVAGTVLWNKYQQKMRAQNAPAPTPETAAAPADVDPRSVRLITALVFAAKSDGHIDDHERAKIEAQLREANIDVQARVLIDQALAQPLDPQRLAEGIVDPQEALEIYYVSCAVIDIDHFMERSYLNALGEALALPKDVRADIEQDIQSQKQALSV				NA	NA	NA	NA	NA
BMS020_00990	348			hypothetical protein	ATGGCGGTTGAAATTAAATATGTGGTGATCCGCGAAGGTGAGGAAAAAATGTCTTTTGCCAGCAAAAAAGAGGCCGACGCTTACGACAAAATGCTTGATCTGGCAGAGGTGCTGAATGACTGGCTGGTAGCATCGCCGCTGGAAATGGACGATGCCCAGCGCGATACCATGGCGATGTGGCTGGCGGAGCGTAAAGAGGCGCTGCAGCATATCCTGCGCGCCGGCAAACTGCCGGAGCAGGATGCGACTGCGCATGATGCGCCCGCGCCGTCAACGGACGCAGAGGCTTCCCCGGCGGAAGATGCCGCCGCGCCGGCTGCCAAAACGCGGAAAGCCAAAGCGGCCTGA	MAVEIKYVVIREGEEKMSFASKKEADAYDKMLDLAEVLNDWLVASPLEMDDAQRDTMAMWLAERKEALQHILRAGKLPEQDATAHDAPAPSTDAEASPAEDAAAPAAKTRKAKAA				NA	NA	NA	NA	NA
BMS020_00991	1179	purT_1	COG0027	Formate-dependent phosphoribosylglycinamide formyltransferase	ATGACTGTATTAGGCACCGCGCTGCGCCCGGCAGCCACCAAAGTTATGCTGTTAGGCTCCGGCGAGCTGGGTAAAGAAGTCGCCATTGAATGTCAGCGTCTGGGCATTGAAACTATCGCCGTCGACCGCTACCCCGATGCCCCGGCGATGCAGGTCGCCCACCGCGCCCACGTCATCAATATGCTGCACGGCGAGAGCCTGCGCGCGCTGATCGAACAGGAAAAACCTGATTACATCGTGCCGGAGATCGAAGCTATCGCCACCGATACCCTGGTCGAACTGGAGCAGGCCGGGCAGAAAGTGGTCCCCACGGCGCGGGCAGCGAAGCTCACCATGAACCGCGAAGGCATTCGCCGTCTGGCGGCGGAAGAGCTGCAGCTCCCCACCTCCAGCTACCGTTTCGCCGACAGTGAAGACGCCTTCCGCGCGGCGGTCGCGGAGATCGGCTTGCCGTGCATCGTCAAACCGGTGATGAGCTCCTCCGGTAAAGGCCAGAGCTTTATCCGCTCGGCTGACCAGCTCAGCGAAGCCTGGCGCTACGCCCAGCAGGGCGGCCGCGCCGGCGCCGGGCGGGTGATCGTCGAAGGGGTGGTGAATTTCGACTTTGAAATCACCCTGCTCACCGTCAGCGCCGTCGATGGCGTGCATTTCTGCGCCCCGGTCGGCCATCGTCAGGAAGATGGCGATTATCGTGAATCCTGGCAGCCGCAGCAGATGAGCGACCTGGCCCTTGAACGTGCTCAGGATATCGCCCGTAAGGTGGTGCTGGCGCTGGGGGGGCATGGCCTGTTCGGCGTGGAGCTGTTCGTTTGCGGCGACGAGGTGATCTTCAGCGAAGTCTCCCCGCGCCCGCACGACACCGGAATGGTGACGCTTATTTCGCAGGATCTCTCGGAATTCGCCCTGCACGTTCGCGCCTTTCTTGGGCTGCCCGTCGGCGCCATCCGCCAGTATGGCCCAGCCGCTTCCGCGGTGATCCTTCCGCAGCTGACCAGCCAGAACGTCAGCTTCGGCCAGCTGCAGTCGGCCGTCGGAGCTGGCCTGCAGCTGCGTCTGTTCGGCAAGCCGGAGATTGACGGCACCCGTCGTCTGGGGGTGACCCTCGCCGTCGCCGATTCAGTGGAAGAGGCCGTGGCGCGGGCTAAAACCGCCGCCGCGGCGGTTATCGTCGAAGGGTAA	MTVLGTALRPAATKVMLLGSGELGKEVAIECQRLGIETIAVDRYPDAPAMQVAHRAHVINMLHGESLRALIEQEKPDYIVPEIEAIATDTLVELEQAGQKVVPTARAAKLTMNREGIRRLAAEELQLPTSSYRFADSEDAFRAAVAEIGLPCIVKPVMSSSGKGQSFIRSADQLSEAWRYAQQGGRAGAGRVIVEGVVNFDFEITLLTVSAVDGVHFCAPVGHRQEDGDYRESWQPQQMSDLALERAQDIARKVVLALGGHGLFGVELFVCGDEVIFSEVSPRPHDTGMVTLISQDLSEFALHVRAFLGLPVGAIRQYGPAASAVILPQLTSQNVSFGQLQSAVGAGLQLRLFGKPEIDGTRRLGVTLAVADSVEEAVARAKTAAAAVIVEG	PGPT0008100_1358	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008100-purT-K08289	NA	NA
BMS020_00992	642	eda_1	COG0800	KHG/KDPG aldolase	ATGAAAAACTGGAAAACAACAGCAGAAGCAATCCTCACCTCCGGTCCGGTTGTCCCGGTTATCGTAGTGAAAAAGCTGGAACACGCGGTACCGATGGCGAAAGCGCTGGTCGCGGGCGGCGTGCGCGTCCTGGAAGTGACTCTGCGCACCGAGTGCGCCCTGGAGGCGATCCGCGCGATTGCTAAAGAAGTGCCGGACGCGATTGTCGGCGCGGGCACCGTCACCAACGTCGAGCAGCTGAAAGCGGTAACAGAAGCCGGCGCGCAGTTCGCTATCAGCCCGGGGCTGACCGAATCTCTGCTGAAAGCGGCGACCGAAGACGGCACTATTCCGCTGATCCCGGGGATCAGCACCGTCTCCGAGCTGATGCTGGGCATGCAGTACGGTCTGAAAGAGTTTAAATTTTTCCCGGCGGAAGCCAACGGCGGCGTGAAAGCGCTGCAGGCGATTGCTGGTCCGTTCGGTCACATTCGTTTCTGCCCGACCGGCGGTATCTCCCCGGCCAACTACCGTGATTACCTGGCGCTGAACAGCGTGCTGTGCATCGGTGGTTCCTGGCTGGTGCCGGCCGACGCCCTGGAAGCTGGCGACTACGATCGCATCACCACCCTGGCGCGTGAAGCGGTGGAAGGCGCGAAGTAA	MKNWKTTAEAILTSGPVVPVIVVKKLEHAVPMAKALVAGGVRVLEVTLRTECALEAIRAIAKEVPDAIVGAGTVTNVEQLKAVTEAGAQFAISPGLTESLLKAATEDGTIPLIPGISTVSELMLGMQYGLKEFKFFPAEANGGVKALQAIAGPFGHIRFCPTGGISPANYRDYLALNSVLCIGGSWLVPADALEAGDYDRITTLAREAVEGAK	PGPT0002060_1895	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
BMS020_00993	1812	edd_1	COG0129	Phosphogluconate dehydratase	ATGAATTCGACAATGTTACGGGTAACAAATCGCATTATCGAACGGTCGCGTGATACCCGCGCGGCTTACCTCGCAAGGATTAACCAGGCCAAAACCGACACCGTGCATCGTGCGCAACTGGCCTGCGGCAATCTGGCTCACGGTTTCGCGGCCTGTCAGGCCGACGACAAAGCCTCCCTGAAAAGCATGTTGCGCAACAACATCGCCATCATCACCTCCTACAACGATATGTTGTCCGCGCATCAGCCCTACGAACACTACCCGGATATCATTCGCAAAGCGCTGCACAGCGCCAATGCGGTCGGCCAGGTGGCCGGCGGCGTGCCGGCGATGTGCGACGGCGTGACCCAGGGACAGGACGGCATGGAGCTCTCTCTCCTGAGTCGCGAAGTGATCGCCATGTCCGCGGCCATCGGCCTGTCGCATAACATGTTCGATGGCGCGCTGTATCTCGGCGTGTGCGATAAAATTGTGCCCGGACTGACCATGGCGGCGCTCTCATTCGGCCACCTGCCGTCGGTCTTTATTCCCTCCGGTCCGATGGCCAGCGGCCTGCCTAATAAAGAGAAGGTTCGCATTCGCCAGCTATACGCTGAGGGCAAAGTTGACCGCATGGCGCTGCTGGAGTCCGAAGCCGCTTCTTACCACGCTCCGGGGACCTGTACGTTCTACGGTACGGCAAACACCAACCAGATGGTGGTGGAGTTTATGGGCATGCAGCTGCCGGGATCGTCCTTCGTCCATCCGGATGCCCCGCTGCGGGAAGCGCTGACCGCCGCCGCTGCGCGCCAGGTCACCCGCATGACCGGCAATGGCAACGAGTGGATGCCGTTGGGCAAAATGTTTGACGAAAAAGTGGTGGTCAACGGCATTGTGGCGCTGCTGGCGACCGGCGGTTCCACCAACCACACCATGCACCTGGTGGCGATGGCCCGCGCGGCGGGCATCATCATTAACTGGGATGATTTCTCCGACCTGTCAGACGTGGTGCCGCTGCTGGCGCGCCTCTACCCCAACGGCCCGGCGGATATCAACCATTTCCAGGCGGCGGGCGGCGTTCCGGTTCTGGTGCGCGAGCTGCTGAAAGGCGGCCTGCTGCATGAGGACGTTCACACCGTCGCCGGCTTCGGCCTGTCGCGCTACACCCTCGAGCCGTGGCTCAACAACGGCGAGCTGGACTGGCGGGAAGGCGCGACGGCGCCGCTTGACGATCAGGTCATCGCGACTTTCGAGAAACCGTTCTCCCGTCACGGCGGCACCAAGGTGCTGAGCGGTAACCTCGGCCGTGCGGTCATGAAAACCTCGGCAGTCCCGGTAGAGAACCAGGTGATCGAAGCGCCGGCGGTGGTGTTCGAGAGCCAGCACGACGTGTTGCCGGCCTTTGAAGCGGGTCTGCTGGACAAAGACTGCGTGGTGGTGGTCCGTCATCAGGGGCCAAAAGCGAACGGGATGCCAGAATTACATAAACTTATGCCGCCACTTGGTGTATTATTGGACCGCCGTTTCAAAATAGCGCTGGTGACCGATGGCCGACTCTCTGGCGCCTCCGGTAAAGTCCCGTCAGCCATCCATGTCACGCCTGAAGCCTATGATGGTGGGTTGCTGGCGAAAGTGCGCGATGGCGATCTTATTCGCGTGAACGGGCAGACGGGGGAACTGACGCTGCTGGTGGACGATGCCGAACTGGCGGCGCGTCAGCCGCATATCCCTGACCTCAGCGCGTCGCGCGTAGGAACCGGTCGGGAGATGTTTGGGGCGCTGCGTGAGAAGCTCTCTGGCGCGGAGCAGGGCGCAACCTGCATCACTTTTTAA	MNSTMLRVTNRIIERSRDTRAAYLARINQAKTDTVHRAQLACGNLAHGFAACQADDKASLKSMLRNNIAIITSYNDMLSAHQPYEHYPDIIRKALHSANAVGQVAGGVPAMCDGVTQGQDGMELSLLSREVIAMSAAIGLSHNMFDGALYLGVCDKIVPGLTMAALSFGHLPSVFIPSGPMASGLPNKEKVRIRQLYAEGKVDRMALLESEAASYHAPGTCTFYGTANTNQMVVEFMGMQLPGSSFVHPDAPLREALTAAAARQVTRMTGNGNEWMPLGKMFDEKVVVNGIVALLATGGSTNHTMHLVAMARAAGIIINWDDFSDLSDVVPLLARLYPNGPADINHFQAAGGVPVLVRELLKGGLLHEDVHTVAGFGLSRYTLEPWLNNGELDWREGATAPLDDQVIATFEKPFSRHGGTKVLSGNLGRAVMKTSAVPVENQVIEAPAVVFESQHDVLPAFEAGLLDKDCVVVVRHQGPKANGMPELHKLMPPLGVLLDRRFKIALVTDGRLSGASGKVPSAIHVTPEAYDGGLLAKVRDGDLIRVNGQTGELTLLVDDAELAARQPHIPDLSASRVGTGREMFGALREKLSGAEQGATCITF				NA	NA	NA	NA	NA
BMS020_00994	1476	zwf_1	COG0364	Glucose-6-phosphate 1-dehydrogenase	ATGGCGGTAACGCAAACGGCCCAGGCATGCGACCTGGTCATTTTCGGCGCGAAGGGCGACCTGGCGCGGCGTAAATTGTTGCCTTCCCTGTATCAGCTTGAAAAGGCGGGCCAGATCCACGCCGACACCCGGATCATTGGCGTCGGCCGTGCCGACTGGGATAAAGCGGCTTACACCAAAGTGGTGCGCGAAGCGCTGGAAACCTTCATGAAGGAAAAAATTGATGAAGGTTTGTGGGATTCCCTGAGCGGACGCCTGGAGTTCTGTAATCTTGACGTCAATGACACCAGCGGCTTCACCCGCCTGGGCGACATGCTGGACCAAAAGAATCGCGTCACCATCAACTATTTCGCCATGCCGCCGAGCACCTTTGGCGCCATCTGTAAAGGTCTGGGCGAAGCGAAGCTCAATGCCAAGCCTGCGCGCGTGGTCATGGAAAAACCGCTGGGCACCTCGCTGGAAACCTCGCGGGAAATCAACGATCAGGTCGGCGAGTTTTTTGAAGAGTGCCAGGTCTACCGTATCGACCACTACCTCGGAAAAGAGACGGTCCTCAACCTGCTGGCGCTGCGCTTTGCCAACTCCCTGTTCGTCAATAACTGGGACTGCCGTACCATCGATCATGTGGAAATCACCGTCGCGGAAGAGGTAGGCATTGAAGGGCGCTGGGGGTACTTCGACCAGGCCGGACAGATGCGCGACATGATCCAGAACCACCTGCTGCAGATCCTGTGCATGATTGCCATGTCGCCGCCGTCCGATCTCAGCGCCGACAGCATCCGTGATGAAAAGGTTAAAGTGCTGAAATCCCTGCGCCGTATTGACCGCTCCAACGTGCGCGAGAAAACCGTTCGCGGCCAGTACACCGCCGGCTTTGCCCAGGGCAAAAAAGTGCCAGGCTACCTCGAAGAAGAGGGGGCGAACAAAACCAGCAACACCGAAACCTTCGTGGCGATCCGCGTTGATATCGATAACTGGCGCTGGGCTGGCGTACCGTTCTATCTGCGCACCGGCAAACGTCTGCCGACCAAATGTTCCGAAGTGGTGGTTTATTTCAAAACGCCGGAGCTGAACCTGTTTAAAGAGACCTGGCAGGAGCTGCCGCAGAACAAGCTGACCATTCGTCTGCAGCCGGACGAAGGGGTGGATATCCAGGTCCTGAACAAAGTGCCGGGCCTCGACCACAAGCATAACCTGCAGATCACCAAGCTGGATCTGAGCTACTCCGAAACCTTCAACCAGACGCATCTGGCCGATGCCTATGAACGTCTGCTGCTGGAGACCATGCGCGGTATCCAGGCGCTGTTCGTCCGCCGTGATGAAGTGGAAGAGGCGTGGAAGTGGGTGGACTCCATCACAGAAGCCTGGGCAGCCGACCGCGATGCGCCGAAACCGTATCAGGCCGGGACCTGGGGACCCGTGGCCTCGGTAGCCATGATCACCCGCGATGGTCGGTCGTGGAACGAGTTCGAGTAA	MAVTQTAQACDLVIFGAKGDLARRKLLPSLYQLEKAGQIHADTRIIGVGRADWDKAAYTKVVREALETFMKEKIDEGLWDSLSGRLEFCNLDVNDTSGFTRLGDMLDQKNRVTINYFAMPPSTFGAICKGLGEAKLNAKPARVVMEKPLGTSLETSREINDQVGEFFEECQVYRIDHYLGKETVLNLLALRFANSLFVNNWDCRTIDHVEITVAEEVGIEGRWGYFDQAGQMRDMIQNHLLQILCMIAMSPPSDLSADSIRDEKVKVLKSLRRIDRSNVREKTVRGQYTAGFAQGKKVPGYLEEEGANKTSNTETFVAIRVDIDNWRWAGVPFYLRTGKRLPTKCSEVVVYFKTPELNLFKETWQELPQNKLTIRLQPDEGVDIQVLNKVPGLDHKHNLQITKLDLSYSETFNQTHLADAYERLLLETMRGIQALFVRRDEVEEAWKWVDSITEAWAADRDAPKPYQAGTWGPVASVAMITRDGRSWNEFE	PGPT0017380_3648	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036	NA	NA
BMS020_00995	888	hexR_1	COG1737	HTH-type transcriptional regulator HexR	ATGAGCGCCCTGTTACTAATGAACATGCTGGAAAAAATCCAGTCCCGACTGGAACACCTTAGCAAATCTGAACGCAAAGTGGCGGAAGTGATCCTTGCCACCCCCGCGCAGGCCATTCATTCGAGCATCGCCGCCCTCGCTCTTGAGGCCGGGGTGAGCGAACCGACCGTCAATCGCTTTTGCCGCAGTCTCGAAACCCGCGGCTTTCCTGACTTCAAACTGCATCTCGCCCAGAGCCTTGCGCACGGCACACTCTATGTTAACCGCAATGTTGATGAAGACGACAGCGTTGAGTCATACACGGGAAAAATATTTGAATCGGCCATGGCGAGTTTAGATCAGGTCCATCATTCTCTCGACATGTCGGCAGTGAATCGCGCGGTGGATCTCCTGACTCAGGCCAAAAAAATCGCCTTTTTCGGCCTGGGCTCTTCGGCGGCGGTCGCTCATGACGCGATGAACAAATTTTTCCGCTTTAACGTGCCGGTCATCTATTCCGACGACATTGTCCTGCAACGCATGAGCTGTATGAATTGCGATGACGATGATGTGGTGGTGATTATCTCGCATACCGGCAGGACCAAGAGCCTGGTGGAGCTGGCGCAGCTGGCCCGTGAAAACGATGCCATGGTGATCGCCCTCACCTCCCCCGGCTCGCCGCTGGCCCGGGAAGCCACGCTGGCCATTACCCTGGATGTGCCGGAAGATACCGACATCTATATGCCAATGGTCTCGCGTCTGGCCCAGTTGACCGTCATTGACGTGCTGGCGACTGGCTTTACCCTGCGCCGGGGAGCAAAATTCAGAGATAACTTGAAGAGGGTCAAGGAAGCGCTGAAGGAATCGCGTTTTGATAAAGAACCGTTCGTACCCAGTGATAATCAATAA	MSALLLMNMLEKIQSRLEHLSKSERKVAEVILATPAQAIHSSIAALALEAGVSEPTVNRFCRSLETRGFPDFKLHLAQSLAHGTLYVNRNVDEDDSVESYTGKIFESAMASLDQVHHSLDMSAVNRAVDLLTQAKKIAFFGLGSSAAVAHDAMNKFFRFNVPVIYSDDIVLQRMSCMNCDDDDVVVIISHTGRTKSLVELAQLARENDAMVIALTSPGSPLAREATLAITLDVPEDTDIYMPMVSRLAQLTVIDVLATGFTLRRGAKFRDNLKRVKEALKESRFDKEPFVPSDNQ	PGPT0017985_150	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
BMS020_00996	1443	pykA_1	COG0469	Pyruvate kinase II	ATGTCCAGAAGGCTTCGCAGAACCAAAATCGTTACTACCTTAGGCCCGGCTACTGACCGCGATAACAACCTGGAAAAAGTTATCGCCGCGGGCGCAAACGTAGTGCGTATGAACTTCTCTCACGGCACCCCGGAAGATCATCAGCTCCGTGCCGATAAAGTGCGTGAGATTGCGGCAAAACTGGGCCGTCACGTAGCCATCCTCGGCGACCTCCAGGGACCAAAAATTCGCGTATCGACCTTTAAAGAAGGCAAAATTTTCCTCAACGTCGGCGACAAATTCCTGCTCGACGCCAACCTCGGCAAGGGCGAAGGCGACAAAGAGAAAGTCGGAATCGACTATAAAGGCCTGCCGGCAGACGTCGTGCCTGGCGATATCCTGCTGCTCGACGATGGTCGCGTGCAGCTGAAAGTCCTCGAAGTTCAGGGGATGAAAGTGTTCACCGAAGTGACCGTCGGCGGCCCGTTGTCCAACAACAAAGGGATTAACAAGCTGGGCGGCGGCCTGTCTGCCGAAGCGCTGACTGACAAAGACAAGGCCGATATCGTCACCGCCGCAAAAATTGGCGTCGATTATCTCGCCGTCTCCTTCCCGCGCTGCGGCGAAGACCTGAACTACGCCCGTCGCCTGGCGCGCGATGCCGGTTGCGATGCGAAAATCGTCGCCAAAGTCGAGCGTGCGGAAGCCGTCTGCGACCAGGACGCCATGGACGACGTGATCCTTGCCTCCGATGTGGTGATGGTTGCCCGCGGTGACCTCGGGGTCGAAATCGGCGATCCGGAGCTGGTGGGCATCCAGAAAGCGCTGATTCGTCGTGCGCGTCAGCTGAACCGTTCCGTCATCACCGCCACCCAGATGATGGAGTCGATGATCACCAACCCGATGCCGACCCGTGCGGAAGTCATGGACGTGGCCAACGCCGTGCTGGATGGTACCGATGCGGTGATGCTCTCCGCGGAAACCGCTGCCGGTCAGTACCCGTCGGAAACCGTGGCCGCGATGGCGCGCGTCTGTCTTGGCGCCGAAAAAATCCCGAGCCTTAATGTCTCCAAACACCGTCTGGACGTCCAGTTCGACAACGTGGAAGAAGCGATTGCCATGTCGGCGATGTATGCCGCCAACCACCTGAAAGGCATCACGGCCATCATCACCATGACCGAATCGGGCCGTACTGCGCTGATGACCTCGCGCATCAGCTCCGGTCTGCCGATTTTCGCCCTGTCCCGCCACGAGCGCACCCTGAACCTGACCGCCCTCTACCGCGGGGTGACGCCGGTGTTCTTCGACAGCCAGAATGACGGCGTGGCCGCTGCGCACGATGCCGTCAATCTGCTGCGGGACAAAGGCTACCTGGTCTCCGGCGATCTGGTGGTCGTTACCCAGGGTGACGTGATGAGCACCATCGGCAGCACCAACACCACGCGTATCCTCACCGTCGAGTAA	MSRRLRRTKIVTTLGPATDRDNNLEKVIAAGANVVRMNFSHGTPEDHQLRADKVREIAAKLGRHVAILGDLQGPKIRVSTFKEGKIFLNVGDKFLLDANLGKGEGDKEKVGIDYKGLPADVVPGDILLLDDGRVQLKVLEVQGMKVFTEVTVGGPLSNNKGINKLGGGLSAEALTDKDKADIVTAAKIGVDYLAVSFPRCGEDLNYARRLARDAGCDAKIVAKVERAEAVCDQDAMDDVILASDVVMVARGDLGVEIGDPELVGIQKALIRRARQLNRSVITATQMMESMITNPMPTRAEVMDVANAVLDGTDAVMLSAETAAGQYPSETVAAMARVCLGAEKIPSLNVSKHRLDVQFDNVEEAIAMSAMYAANHLKGITAIITMTESGRTALMTSRISSGLPIFALSRHERTLNLTALYRGVTPVFFDSQNDGVAAAHDAVNLLRDKGYLVSGDLVVVTQGDVMSTIGSTNTTRILTVE	PGPT0002020_3501	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002020-pyk-K00873	NA	NA
BMS020_00997	975	lpxM	COG1560	Lipid A biosynthesis myristoyltransferase	ATGGAAACGAAAAAAAATAATATTGAGTTTATCCCTAAGTTTGAAAAATCTTTTTTACTGCCGCGCTACTGGGGCGCCTGGCTGGGGGTCTTTGCCTTCGCCGGTATTGCGCTGACGCCGCCTTCCTTTCGCGATCCGCTCCTCGGCAAACTCGGTCGTCTAGTCGGGCGTCTGGCGAAAAGCTCGCGCCGCCGGGCGCAGATTAATTTGCTGTATTGCTTCCCGGATAAAAGCGAGCACGAGCGGGAAGCGATCATCGACGCCATGTACGCCTCGGCGCCGCAGGCGATGGTGATGATGGCCGAGCTGGGCCTGCGCGATCCGCAGAAAATTCTCGCCCGCGTCGACTGGCAGGGTAAAGCGATCATCGACGAGCTGCAGCGCAATAATGAAAAGGTGATTTTCCTCGTCCCGCACGCTTGGGGCGTGGATATCCCGGCGATGCTGATGGCCTCCGGCGGGCAGAAGATGGCGGCGATGTTCCACAACCAGGGTAACCCGGTCTTCGATTACGTGTGGAATACCGTACGTCGTCGTTTTGGCGGAAGGATGCACGCGCGCAACGACGGGATCAAACCGTTTATTCAGTCGGTGCGCCAGGGTTACTGGGGCTACTATCTCCCCGATCAGGATCACGGCGCCGAGCACAGCGAGTTTGTGGATTTCTTCGCGACCTATAAGGCCACGCTGCCGGCGATTGGCCGTTTAATGAAGGTATGCCGCGCCCGCGTCGTTCCGCTGTTCCCGGTCTACGATGGCAAAACGCATCGCCTGACGGTGCTGGTGCGCCCGCCGATGGACGATCTGCTGGACGCTGACGATACAACGATCGCCCGGCGGATGAACGAAGAGGTGGAGATATTTGTTACGCCGCACACCGAGCAGTACACCTGGATCCTGAAGCTGCTGAAGACGCGCAGGCCGGGTGAAATCGAGCCCTACAAACGCAAAGAGCTGTACCCGAAAAAGAAATAA	METKKNNIEFIPKFEKSFLLPRYWGAWLGVFAFAGIALTPPSFRDPLLGKLGRLVGRLAKSSRRRAQINLLYCFPDKSEHEREAIIDAMYASAPQAMVMMAELGLRDPQKILARVDWQGKAIIDELQRNNEKVIFLVPHAWGVDIPAMLMASGGQKMAAMFHNQGNPVFDYVWNTVRRRFGGRMHARNDGIKPFIQSVRQGYWGYYLPDQDHGAEHSEFVDFFATYKATLPAIGRLMKVCRARVVPLFPVYDGKTHRLTVLVRPPMDDLLDADDTTIARRMNEEVEIFVTPHTEQYTWILKLLKTRRPGEIEPYKRKELYPKKK	PGPT0022385_251	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022385-lpxM-K02560	NA	NA
BMS020_00998	1257	mepM_1	COG0739	Murein DD-endopeptidase MepM	ATGCTGGGGTCGCTTAGCGTTCTTACCTTAGCGGTCGCCGTCTGGCGACCCTACATTTACCACCCGGAATCCGCCCCCATCGTCAGAACCATTGAACTGGAAAAAAGCGAGATCCGATCCCTGCTGCCGGAAGCCTCCGAGCCGATCGACCAGGCCCCGCAGGAAGAAGAAGCCATTCCTCAGGATGAACTCGACGAAAAAGCCGATAGCGATGCCGGCGGGCACGAATACGTGGTGTCGACCGGCGATACCCTCAGCAGCATCCTGAACCAGTACGGTATCGATATGGGTGATATCGCCCAGCTCTCCTCCGCCGATAAAGAGTTGCGTAATCTGAAGATTGGCCAGCAGCTCTCCTGGACCCTGACCGCCGACGGCGATCTGCAGAGTCTGACCTGGGAGATGTCCCGCCGCGAAACCCGCACCTACACCCGTGTGGCTAACGGCTTTAAAATGAGCAGCGAGCTGCAGAAAGGCGACTGGGTCAACAGCGTGCTGAAAGGCACCGTCGGCGCCAGCTTTGTCTCCAGCGCGCGCGATGCCGGGCTGACCAGCACGGAAATCAGCGCGGTGATCAAGGCCATGCAGTGGCAGATGGATTTCCGTAAGCTGAAGAAAGGCGATGAGTTCTCGGTATTGATGTCGCGCGAAATGCTTGACGGCAAACGCGAGCAAAGCCAGCTGCTTGGCGTGCGTCTGCGTTCTGACGGGAAGGACTACTTTGCCATCCGTGCCGAAGACGGAAAATTCTACGACCGCAACGGGACGGGGCTGGCGAAAGGCTTTATGCGCTTCCCGACGGCGCGTCAGTTCCGCGTCTCCTCTAACTTTAACCCGCGTCGTCTGAACCCGGTCACCGGGCGCGTTGCGCCGCACCGTGGCGTCGATTTCGCGATGCCGCAGGGGACGCCGGTGCTGGCGGTGGGTGATGGCGAAGTGGTGGTGGCCAAGCGTAGCGGCGCCGCCGGGTATTACGTGGCCATCCGCCACGGCCGTACCTATACCACTCGCTACATGCACCTGCGTAAGCTGCTGGTGAAGCCGGGGCAGAAAGTGAAGCGCGGGGATCGTATTGCGCTGTCGGGGAATACCGGACGCTCTACCGGGCCGCACCTGCACTACGAAGTGTGGATCAACCAGCAGGCGGTCAACCCGCTGACGGCGAAACTGCCGCGTACTGAAGGGCTGAGCGGTTCCGACCGTACCGATTATCTGGCGCAGGTCAAAGAGGTCGTTCCGCAGCTGCGGTTTGACTAA	MLGSLSVLTLAVAVWRPYIYHPESAPIVRTIELEKSEIRSLLPEASEPIDQAPQEEEAIPQDELDEKADSDAGGHEYVVSTGDTLSSILNQYGIDMGDIAQLSSADKELRNLKIGQQLSWTLTADGDLQSLTWEMSRRETRTYTRVANGFKMSSELQKGDWVNSVLKGTVGASFVSSARDAGLTSTEISAVIKAMQWQMDFRKLKKGDEFSVLMSREMLDGKREQSQLLGVRLRSDGKDYFAIRAEDGKFYDRNGTGLAKGFMRFPTARQFRVSSNFNPRRLNPVTGRVAPHRGVDFAMPQGTPVLAVGDGEVVVAKRSGAAGYYVAIRHGRTYTTRYMHLRKLLVKPGQKVKRGDRIALSGNTGRSTGPHLHYEVWINQQAVNPLTAKLPRTEGLSGSDRTDYLAQVKEVVPQLRFD	PGPT0023835_374	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_DD-ENDOPEPTIDASE_ACTIVITY,PGPT0023835-mepM-K19304	NA	NA
BMS020_00999	852	znuA	COG4531	High-affinity zinc uptake system protein ZnuA	ATGAAACCGCTGGGCTTTATCGCGGCGGCTATCGCCGATGGGGTTACCGACACCCAGGTGCTGCTGCCCGATGGCGCCTCCGAGCATGATTATTCTCTCCGTCCTTCCGATGTAAAACGCTTACAGAACGCAGACTTAGTGGTGTGGATCGGTCCGGAAATGGAAGCCTTTATGGATAGGTCGACGCAAAGCATTGCGGCGAATAAAAAGGTGACTATCGCAGAGCTGGATGGGGTCAAACCGCTGCTGATGACCGGCGCTGACGACGATGACGATCATCATGGTCATGACCATGGCGCAGCGGAAAAAAGTGACGGCGATCACCATCACGGTATCTACAATATGCATCTGTGGTTATCCCCAGAGATAGCGCGGCTTTCGGCGGTTGCAATCCACGATAAATTATTGGAACTTATGCCGCAGAGTCGAGCCAAACTCGACAGCAACCTGCAGCAGTTCGAGGCCGCGCTGGCGGCGACCGACAAGCAGGTTAGCAATGAGCTGGCACCGCTGAAAGGAAAGGGCTATTTCGTTTTTCATGACGCCTACGGTTACTTTGAAAAACACTACGGTTTGACCTCGCTGGGGCATTTTACCGTCAACCCTGAAATACAGCCCGGTGCGCAGCGTTTACACGAAATCAGAACACAACTGGTTGAGCAGAAAGCCACTTGCGTTTTTGCTGAGCCACAGTTCAGGCCAGCGGTTATCGAAGCTGTTGCCCGGGGCACGTCTGTGCGCATGGGGACCCTGGATCCACTGGGTAGCGGAATTAAGCTGGGTAAAGCGAGTTACCCGCAATTCCTCACCCAGCTGGCGAATCAGTATTCGAGCTGCCTGAAAGGAGATTAA	MKPLGFIAAAIADGVTDTQVLLPDGASEHDYSLRPSDVKRLQNADLVVWIGPEMEAFMDRSTQSIAANKKVTIAELDGVKPLLMTGADDDDDHHGHDHGAAEKSDGDHHHGIYNMHLWLSPEIARLSAVAIHDKLLELMPQSRAKLDSNLQQFEAALAATDKQVSNELAPLKGKGYFVFHDAYGYFEKHYGLTSLGHFTVNPEIQPGAQRLHEIRTQLVEQKATCVFAEPQFRPAVIEAVARGTSVRMGTLDPLGSGIKLGKASYPQFLTQLANQYSSCLKGD	PGPT0004220_1922	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	ROOT_COLONIZATION-ZINK_TRANSPORT_LIPOPROTEIN,PGPT0004220-znuA-K09815	NA	NA
BMS020_01000	759	znuC	COG1121	Zinc import ATP-binding protein ZnuC	ATGATTATGACAAACCTTGTAACGCTGGAAAATGTCTCGGTGGCCTTTGGCCAACGCCGCGTGCTGTCTGACATCTCGCTGGCTCTCACGCCAGGCAAAATATTGACCCTGCTGGGCCCCAACGGCGCCGGCAAATCGACGCTTGTACGGGTGGTTCTGGGGCTGGTAGCACCGACAGAGGGTGTTATCAAGCGCGAAGAACGCCTGCGGATCGGCTATGTGCCGCAGAAACTGCATCTCGACGCCACGCTGCCGCTGACCGTCAGCCGCTTCCTGCGTTTGCGTCCAGGCACCCGCAAAGACGACATCCTGCCGGCGCTGAAGCGCGTGCAGGCAGGGCATCTGATCGACGCCCCGATGCAAAAACTTTCCGGCGGAGAAACCCAGCGCGTGCTGCTGGCTCGCGCCCTGCTCAATCGTCCGCAGCTGCTGGTGCTGGATGAACCGACCCAGGGCGTCGACGTCAATGGCCAGGTTGCGCTCTACGATCTTATCGACCAGCTGCGCCATGAGCTGGACTGCGCGGTGCTGATGGTCTCCCACGACCTGCATCTGGTCATGGCCAAAACCGACGAGGTATTGTGCCTGAACCAGCATATCTGCTGCTCCGGCGCACCAGAGGTCGTCTCAATGCATCCGGAGTTTATCTCCATGTTCGGCCCACGCGGCGCGGAACAGCTGGGGATCTACCGCCATCACCATAATCACCGCCACGATCTTCAGGGGCGAATTGTACTGCGTCGGGGAAACAGCCGCTAA	MIMTNLVTLENVSVAFGQRRVLSDISLALTPGKILTLLGPNGAGKSTLVRVVLGLVAPTEGVIKREERLRIGYVPQKLHLDATLPLTVSRFLRLRPGTRKDDILPALKRVQAGHLIDAPMQKLSGGETQRVLLARALLNRPQLLVLDEPTQGVDVNGQVALYDLIDQLRHELDCAVLMVSHDLHLVMAKTDEVLCLNQHICCSGAPEVVSMHPEFISMFGPRGAEQLGIYRHHHNHRHDLQGRIVLRRGNSR	PGPT0004230_1755	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004230-znuC-K09817	NA	NA
BMS020_01001	786	znuB	COG1108	High-affinity zinc uptake system membrane protein ZnuB	ATGATTGAACTTTTGTTACCTGGCTGGCTGGCCGGGATGATGCTGGCCTGCGCCGCCGGCCCGCTGGGCTCCTTTGTGGTCTGGCGCCGTATGTCCTATTTCGGCGACACGCTGGCGCATGCCTCGCTGCTCGGCGTCGCTTTCGGTTTACTGCTGAACGTCAATCCGTTTTATGCGGTGATCGCCGTCACCCTGCTACTGGCCGGCGGGCTGGTATGGCTGGAAAAACGGCCGCATCTGGCGATCGATACCCTGCTGGGCATCATGGCGCACAGCGCGCTCTCCCTGGGGCTGGTGGTGGTCAGTCTGATGTCTAACGTCCGCGTCGATCTGATGGCGTACCTGTTCGGCGATCTGCTGGCGGTCACCCCGCAGGACCTGATCGCCATTGCCATGGGCGTGGTGATCGTGATTGGCATTCTGCTCTGGCAGTGGCGGAATCTGCTGGCGATGACCATCAGTCCGGACCTGGCGTTTGTCGATGGCGTGAAGCTGCAGCGGGTCAAGCTGCTGTTGATGCTGGTCACCGCCCTGACTATCGGCGTGGCGATGAAGTTCGTCGGGGCGCTGATCATCACTTCCCTGCTGATTATCCCGGCCGCCACCGCCCGCCGTTTTGCCCGCACGCCGGAGCAGATGGCCGCCGTGGCGGTGGGCGTGGGCATGCTGGCCGTCACCGGCGGGTTAACCTTCTCGGCTTTCTACGACACGCCGGCCGGTCCATCGGTGGTGCTGTGCGCCGCGGCGCTGTTTATTCTCAGCATGACGAAAAAAGCCGCCAGCTAA	MIELLLPGWLAGMMLACAAGPLGSFVVWRRMSYFGDTLAHASLLGVAFGLLLNVNPFYAVIAVTLLLAGGLVWLEKRPHLAIDTLLGIMAHSALSLGLVVVSLMSNVRVDLMAYLFGDLLAVTPQDLIAIAMGVVIVIGILLWQWRNLLAMTISPDLAFVDGVKLQRVKLLLMLVTALTIGVAMKFVGALIITSLLIIPAATARRFARTPEQMAAVAVGVGMLAVTGGLTFSAFYDTPAGPSVVLCAAALFILSMTKKAAS	PGPT0004225_2405	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004225-znuB-K09816	NA	NA
BMS020_01002	1011	ruvB_1	COG2255	Holliday junction ATP-dependent DNA helicase RuvB	ATGATTGAAGCAGACCGGCTGGTATCGGCAGACAGCAGCGGCTTCGAAGAGGCCGCTGACCGCGCCATCCGCCCAAAATTGCTGGCAGAGTATGTCGGCCAGCCGCAGGTGCGTTCGCAGATGGAGATCTTTATCCAGGCGGCGAAGCTGCGCGGCGACGCCCTCGATCACCTGCTGATTTTTGGCCCGCCAGGGTTGGGGAAAACCACCCTGGCCAATATCGTCGCCAATGAAATGGGGGTGAATCTGCGTACCACCTCCGGCCCGGTGCTGGAGAAAGCGGGCGATCTCGCCGCGATGCTCACCAACCTTGAACCGCACGATGTGCTATTTATCGATGAGATCCATCGCCTCTCGCCGGTGGTGGAAGAGGTGCTCTATCCGGCAATGGAAGATTACCAGCTGGATATCATGATTGGCGAAGGTCCGGCGGCGCGCTCGATTAAAATCGACCTGCCGCCGTTTACCCTGATCGGCGCCACCACCCGGGCCGGCTCATTGACTTCGCCGCTGCGCGACCGCTTTGGCATCGTGCAGCGTCTGGAGTTCTATCAGATCCCCGATCTGCAGCATATTGTCAGCCGCAGCGCCCGCCATATGGGGCTGGAGATGAGCGACGAGGGCGCGCTGGAAGTGGCCCGCCGTTCACGCGGCACGCCGCGTATTGCCAACCGTCTGCTGCGTAGGGTGCGTGACTTCGCGGAAGTGCGCCACGACGGCACCATCTCCGCCGACATTGCCGCCCAGGCGCTGGATATGCTCAACGTCGATGCGGAAGGGTTCGACTATATGGACCGCAAGCTGCTGCTGGCGGTGATAGATAAGTTCTTCGGCGGACCGGTGGGGCTGGATAACCTCGCCGCCGCGATTGGCGAAGAGCGGGAAACCATTGAAGATGTGCTGGAGCCCTACTTAATTCAGCAGGGTTTTCTGCAGCGTACGCCGCGGGGAAGAATGGCGACGGTGCGCGCCTGGAATCATTTCGGGATTACGCCGCCGGAGATGCCGTAG	MIEADRLVSADSSGFEEAADRAIRPKLLAEYVGQPQVRSQMEIFIQAAKLRGDALDHLLIFGPPGLGKTTLANIVANEMGVNLRTTSGPVLEKAGDLAAMLTNLEPHDVLFIDEIHRLSPVVEEVLYPAMEDYQLDIMIGEGPAARSIKIDLPPFTLIGATTRAGSLTSPLRDRFGIVQRLEFYQIPDLQHIVSRSARHMGLEMSDEGALEVARRSRGTPRIANRLLRRVRDFAEVRHDGTISADIAAQALDMLNVDAEGFDYMDRKLLLAVIDKFFGGPVGLDNLAAAIGEERETIEDVLEPYLIQQGFLQRTPRGRMATVRAWNHFGITPPEMP				NA	NA	NA	NA	NA
BMS020_01003	612	ruvA_1	COG0632	Holliday junction ATP-dependent DNA helicase RuvA	GTGATAGGCAGACTCAGAGGCATCATTCTCGAAAAACAACCCCCGCTGGTGTTGCTGGAAACGGCGGGCGTCGGCTATGAAGTGCACATGCCAATGACCTGCTTCTATGAGCTGCCGGAGGCCGGGCAGGAGGCGATTGTCTTTACCCACTTTGTGGTGCGTGAAGATGCCCAGCTGCTGTATGGGTTTAACAACAAACAGGAGCGTACCCTGTTTAAAGAACTGATCAAAACCAACGGCGTAGGGCCAAAGCTGGCGCTGGCGATCCTCTCCGGCATGTCGGCGCAGCAGTTCGTCAACGCCGTTGAGCGGGAAGAGGTCGCCTCGCTGGTGAAGCTGCCGGGGATTGGCAAAAAAACCGCTGAACGCCTGATCGTTGAGATGAAAGACCGCTTCAAAGGGCTGCACGGCGATCTGTTCACCCCGGCCGCCGATCTGGTACTGACCTCACCGGCAGGCCCGACGGCGGACGATGCCGAGCAGGAAGCGGTTGCCGCGCTGGTCGCGCTGGGCTATAAACCGCAGGAGGCCAGCCGGATGGTCAGCAAGATCGCGCGTCCGGACGCCAACAGTGAAACGCTAATCCGCGAAGCGCTGCGCGCCGCGTTGTGA	MIGRLRGIILEKQPPLVLLETAGVGYEVHMPMTCFYELPEAGQEAIVFTHFVVREDAQLLYGFNNKQERTLFKELIKTNGVGPKLALAILSGMSAQQFVNAVEREEVASLVKLPGIGKKTAERLIVEMKDRFKGLHGDLFTPAADLVLTSPAGPTADDAEQEAVAALVALGYKPQEASRMVSKIARPDANSETLIREALRAAL				NA	NA	NA	NA	NA
BMS020_01004	522	ruvC_1	COG0817	Crossover junction endodeoxyribonuclease RuvC	ATGGCTATTATTCTCGGCATTGACCCGGGGTCGCGCGTTACCGGTTATGGCGTGATTCGTCAGGTTGGCCGGCAGCTGAGCTACCTTGGCAGCGGCTGTATCCGCACCAAAGTGGACGATTTGCCGTCGCGGCTGAAGCTGATCTACGCCGGAGTGACGGAGATCATCACCCAGTTCCAGCCTGACTTTTTCGCCATTGAGCAGGTCTTTATGGCCAAGAATGCCGACTCGGCGTTAAAGCTCGGGCAGGCGCGCGGGGTGGCGATCGTGGCGGCGACCAATCAGTCGTTACCGGTGTTTGAATATGCCGCCCGCCAGGTTAAGCAGACGGTTGTCGGCATCGGCAGCGCTGAAAAGAGTCAGGTCCAGCACATGGTGCGCACCCTGCTCAAGCTGCCTGCCAATCCGCAAGCGGATGCGGCGGATGCGCTGGCGATCGCCATCACCCATTGCCATGTCAGCCAGAATGCCGCGCAGATCAGCGAGACCCGGCTCAATCTGGCGCGAGGGCGCTTACGATAA	MAIILGIDPGSRVTGYGVIRQVGRQLSYLGSGCIRTKVDDLPSRLKLIYAGVTEIITQFQPDFFAIEQVFMAKNADSALKLGQARGVAIVAATNQSLPVFEYAARQVKQTVVGIGSAEKSQVQHMVRTLLKLPANPQADAADALAIAITHCHVSQNAAQISETRLNLARGRLR				NA	NA	NA	NA	NA
BMS020_01005	741	yebC	COG0217	putative transcriptional regulatory protein YebC	ATGGCAGGTCATAGTAAATGGGCCAACACCAAACACCGCAAAGCGGCACAGGATGCCAAGCGCGGTAAAATCTTTACGAAAATCATTCGCGAACTGGTTACCGCAGCGCGTCTGGGCGGCGGCGATCCGGCGTCCAACCCGCGTCTGCGTGCGGCGGTGGATAAAGCGCTGTCTAACAACATGACCCGCGACACGCTGAACCGCGCCATCGCGCGCGGCGTCGGCGGCGATGAAGACGCGAACATGGAAACCATCATTTATGAAGGCTATGGCCCTGGCGGCACCGCGGTGATGGTAGAATGTCTGTCCGACAACCGTAACCGTACCGTTGCGGAAGTGCGTCACGCCTTCACTAAAACCGGTGGTAACCTCGGCACCGACGGTTCCGTCTCCTACCTGTTCAGCAAAAAAGGCGTCATCTCCTTCGAGAAAGGCGATGAAGACACCATCATGGAAGCGGCGCTGGAAGCTGGCGCTGAAGACGTGGTGACCTATGACGACGGCGCGATCGACGTCTACACCGCCTGGGAAGAGATGGGCGCCGTGCGCGACGCGCTGGAAGCCGCTGGCCTGAAAGCCGACGCTGCCGAAGTCTCGATGATCCCGTCCACCAAAGCGGATATGGATGCCGAGACGGCGCCGAAGCTGCTGCGTCTGATCGATATGCTCGAAGACTGCGACGACGTGCAGGAAGTGTACCATAACGGCGAGATCTCCGACGAGGTCGCAGCCACCCTGTGA	MAGHSKWANTKHRKAAQDAKRGKIFTKIIRELVTAARLGGGDPASNPRLRAAVDKALSNNMTRDTLNRAIARGVGGDEDANMETIIYEGYGPGGTAVMVECLSDNRNRTVAEVRHAFTKTGGNLGTDGSVSYLFSKKGVISFEKGDEDTIMEAALEAGAEDVVTYDDGAIDVYTAWEEMGAVRDALEAAGLKADAAEVSMIPSTKADMDAETAPKLLRLIDMLEDCDDVQEVYHNGEISDEVAATL				NA	NA	NA	NA	NA
BMS020_01006	444	nudB	COG0494	Dihydroneopterin triphosphate diphosphatase	ATGTCATTTAAGCTGCCCGTTTCGGTGCTGGTGGTGATTTACGCCGAAGATACCAAACGGGTGCTGATGTTGCAGCGGCGCGACGATCCCGCGTTCTGGCAGTCGGTTACCGGCAGCCTGGAAGCAGGAGAGACCGCGCTGCAGGCCGCCGCGCGTGAAGTAAAGGAAGAGGTCGCCATTGACGTTGCCTGCGAGCAACTGACCTTAATCGACTGTCAGCGCACGGTGGAGTTCGAGATATTTTCTCATTTGCGTCATCGCTATGCGCCGGGAGTGGAGCGTAATACGGAATTTTGGTTCTGTCTTGCGCTGCCTCATGAGCGGGAAATTACCTTTACCGAACATCTGGCCTACCGCTGGGTCAGCGCGACGGAAGCCGCTGCGCTGACCAAGTCGTGGAGCAACCGGCAGGCGATTGAAGAATTTGTAATTAACGCCGCCTGA	MSFKLPVSVLVVIYAEDTKRVLMLQRRDDPAFWQSVTGSLEAGETALQAAAREVKEEVAIDVACEQLTLIDCQRTVEFEIFSHLRHRYAPGVERNTEFWFCLALPHEREITFTEHLAYRWVSATEAAALTKSWSNRQAIEEFVINAA	PGPT0007890_123	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007890-nudB|ntpA-K08310	NA	NA
BMS020_01007	1788	aspS_1	COG0173	Aspartate--tRNA ligase	ATGCGTACAGAATATTGCGGACAGCTTCGACAGTCCCACGTTGGGCAGCAGGTGACTCTGTGTGGTTGGGTCAACCGCCGTCGCGATCTCGGTAGCCTCATTTTTATCGATATGCGCGACCGCGAAGGCATCGTTCAGGTGTTTTTCGATCCGGATCGTGCGGATGCGTTGAAGTTAGCCTCTGAACTGCGTAATGAGTTCTGCATTCAGGTCACTGGCACCGTTCGCGCGCGTGAAGAGAAAAACATCAACGCGGACATGGCCACCGGCGCTATCGAAGTGCTGGCTTCCGATCTGACGATCATTAACCGCTCAGAATCGCTGCCGCTGGACTCCAATCACGTCAACACCGAAGAAGCGCGTCTGAAATACCGCTACCTCGACCTGCGTCGTCCGGAAATGGCGCAGCGTCTGAAAACCCGCGCGAAAATCACCAGCTTTGTGCGCCGCTTTATGGATGACCATGGCTTCCTCGACATCGAAACCCCGATGCTGACCAAAGCCACCCCGGAAGGCGCCCGCGATTACCTCGTGCCTTCCCGCGTGCATAAAGGCAAATTCTACGCGCTGCCGCAGTCGCCGCAGCTGTTCAAACAGCTGCTGATGATGTCCGGCTTCGACCGCTACTATCAGATCGTCAAATGCTTCCGCGATGAAGACCTGCGTGCCGACCGTCAGCCTGAATTTACCCAGATCGACGTGGAAACCTCCTTTATGACCGCGCCGCAGGTGCGTGAGATCATGGAAGCGATGGTGCGTCAGCTGTGGCTGGAGATTAAAGGCGTCGATCTGGGCGACTTCCCGATCATGACCTTCGCCGAAGCCGAACGTCGCTACGGCTCCGATAAACCGGACCTGCGTAACCCGATGGAGCTGGTGGACGTCGCTGACCTGCTGAAATCAGTGGAGTTCGCGGTCTTTGCCGGCCCGGCCAACGATCCGAAAGGGCGCGTGGCGGCGCTGCGCGTGCCGGGCGGGGCTTCTCTGACCCGCAAGCTGATTGACGAATACGGCAACTTTGTCAAGATCTACGGCGCGAAAGGGCTGGCCTATATTAAAGTGACCGAACGTGCCAAAGGCATGGACGGGATCAACAGCCCGGTGGCCAAATTCCTGACCGCTGAAATCGTGGAAGCGATCCTCGACCGCACCGGCGCGCAGGACGGAGACATGATCTTCTTCGGCGCCGACAACAAGAAAGTGGTGGCCGACGCGCTGGGCGCGCTGCGTCTGAAGCTGGGTAAAGATCTGAGCCTGACTGACGAGAGCAAATGGGCGCCGCTGTGGGTGATCGACTTCCCGATGTTCGAAGACGACGGCGAAGGCGGCCTGACGGCGATGCATCATCCGTTCACCTCGCCGAAGGATATGACGGCGGACGAGCTGAAAGCTGCGCCGGAAGAGGCCGTGGCCAACGCCTACGATATGGTCATTAACGGTTATGAAGTCGGCGGCGGTTCGGTGCGTATCCACCGCGGCGACATGCAGCAGACGGTATTTGGTATTCTGGGCATTAACGAACAGGAACAGCGTGAGAAATTCGGCTTCCTGCTCGATGCGCTGAAATACGGTACCCCGCCGCATGCGGGCCTGGCGTTCGGTCTTGACCGTCTGACCATGCTGCTGACCGGTACCGATAACATCCGCGACGTTATCGCTTTCCCGAAAACCACCGCGGCCGCCTGCCTGATGACCGAAGCGCCAAGCTTCGCCAATCCGGCGGCGCTCAGTGAACTGGGTATTCAGGTTGTGGAGAAAGAGGCAAAAGCGTCTCTGGAGAACAAGTAA	MRTEYCGQLRQSHVGQQVTLCGWVNRRRDLGSLIFIDMRDREGIVQVFFDPDRADALKLASELRNEFCIQVTGTVRAREEKNINADMATGAIEVLASDLTIINRSESLPLDSNHVNTEEARLKYRYLDLRRPEMAQRLKTRAKITSFVRRFMDDHGFLDIETPMLTKATPEGARDYLVPSRVHKGKFYALPQSPQLFKQLLMMSGFDRYYQIVKCFRDEDLRADRQPEFTQIDVETSFMTAPQVREIMEAMVRQLWLEIKGVDLGDFPIMTFAEAERRYGSDKPDLRNPMELVDVADLLKSVEFAVFAGPANDPKGRVAALRVPGGASLTRKLIDEYGNFVKIYGAKGLAYIKVTERAKGMDGINSPVAKFLTAEIVEAILDRTGAQDGDMIFFGADNKKVVADALGALRLKLGKDLSLTDESKWAPLWVIDFPMFEDDGEGGLTAMHHPFTSPKDMTADELKAAPEEAVANAYDMVINGYEVGGGSVRIHRGDMQQTVFGILGINEQEQREKFGFLLDALKYGTPPHAGLAFGLDRLTMLLTGTDNIRDVIAFPKTTAAACLMTEAPSFANPAALSELGIQVVEKEAKASLENK				NA	NA	NA	NA	NA
BMS020_01008	567	yecD	COG1335	Isochorismatase family protein YecD	ATGTTAGAACTCAATGCGAAAAACACGGCGCTGGTGGTGATCGATCTGCAGGAAGGCATTTTGCCTTTTGCCGGCGGCCCACATCGGGCTGACGAGGTGGTGGCGCGCGCCGCCCGCCTGGCAGACAAGTGCCGACAACAGGGTTCGCCGGTCATCATGGTCCGCGTCGGCTGGTCGGCCGATTTCGCCGAAGCGCTGAAACAGCCTGTCGACGCGCAGGCCGGGGCGCATACGCTGCCTGAGAACTGGTGGACCTATCCGGCCACGCTGGGTAAGCAGGAGAGCGATATCGAAGTGACCAAACGCCAGTGGGGCGCGTTCTATGGCACCGACCTTGAGCTTCAGCTGCGTCGCCGCGGTATCGACACCATTATTCTCTGCGGCATCGCCACCAACATCGGCGTCGAATCCACCGCCCGCAACGCCTGGGAGCTGGGTTTTAACCTGGTCATTGCCGAAGATGCCTGCAGCGCCGCCTCCGCCGAGCAGCATCAGGGCAGCATGACGCATATTTTCCCGCGCATCGGCCGCGTGCGCAGCACCGAGGAGATCCTCGCCGCGTTATGA	MLELNAKNTALVVIDLQEGILPFAGGPHRADEVVARAARLADKCRQQGSPVIMVRVGWSADFAEALKQPVDAQAGAHTLPENWWTYPATLGKQESDIEVTKRQWGAFYGTDLELQLRRRGIDTIILCGIATNIGVESTARNAWELGFNLVIAEDACSAASAEQHQGSMTHIFPRIGRVRSTEEILAAL				NA	NA	NA	NA	NA
BMS020_01009	819			hypothetical protein	ATGATTTATATTGGGCTTCCCCAGTGGTCGCACCCGAAATGGGTGCGCCTTGGCATCACCAGCCTTGAAGAGTACGCCCGCCACTTCAATTGCGTCGAGGGCAACACCACCCTGTATGCGCTACCGAAGCCGGAGATTGTCGCCCGCTGGTACGAGCAGACCCACGATAACTTCCGCTTCTGCTTTAAATTTCCGGCGACTATCTCGCACCAGGCCGCCCTGCGCCACTGCGACGATTTAAGCCGTGAATTCTTCACCCGCCTGGCGCCGCTGGCCTCGCGCATCGGCCAGTACTGGCTGCAGCTGCCGGCGACCTTCGGCCCTCGCGATCTCCCGGCGCTATGGCATTTTCTCGACGCACTGCCGAAGGATTTCACCTACGGCGTCGAAGTTCGTCACCCCGAGTTCTTCGCCAAAGGGGAAGCGGAACAGCAGCTCAACCGCGGGCTGCACCAGCGCAACGTCAACCGCGTGATCCTCGACAGCCGCCCGGTCCATAGCGCCGCGGCCACCAGTCCGGCGATGATCGACGCGCAACAAAAGAAACCGAAGGTGCCGGTGCATGCGGTGATGACCGCCCGGCAGCCAATGGTGCGCTTTATCGGCGGCGACGATATGGTCCATAACCGGGAACTGTTTCGCGTCTGGCTGCAGACGCTGCCGAAATGGCATCAGTCAGGGACGCCGTGGCTGTTTCTGCATACTCCCGATATTGCCTACGCGCCGACGCTGGTCGATACCCTGTGGGGCGATCTGCGCGCCGCCCTGCCGGCGGCAGGAAATGCGCCGTCGATTCCGCAGCAATCTTCTCTTTTCTGA	MIYIGLPQWSHPKWVRLGITSLEEYARHFNCVEGNTTLYALPKPEIVARWYEQTHDNFRFCFKFPATISHQAALRHCDDLSREFFTRLAPLASRIGQYWLQLPATFGPRDLPALWHFLDALPKDFTYGVEVRHPEFFAKGEAEQQLNRGLHQRNVNRVILDSRPVHSAAATSPAMIDAQQKKPKVPVHAVMTARQPMVRFIGGDDMVHNRELFRVWLQTLPKWHQSGTPWLFLHTPDIAYAPTLVDTLWGDLRAALPAAGNAPSIPQQSSLF				NA	NA	NA	NA	NA
BMS020_01010	396	yecN	COG3788	Inner membrane protein YecN	ATGGTCAGCGCGCTGTATGCCGTTTTAGGTGCGTTATTGTTAGTGAAGTTCTCATTTGACGTGGTGCGTTTGCGCACCCAATACCATGTAGGCTACGGCGACGGCGGCTTCAGCGAGCTGCAGGTCGCCATCCGCGTTCACGGCAATGCCGTCGAATATGTGCCGATTGGCCTCATTTTACTGTTATTTATGGAGATGAACGGCGCCCAGACCTGGATGGTGCACGTTTGCGGCATTTTATTGATCGTCGGACGACTGATGCACTCCTGGGGTTTTCATCACCGCGTCTACCACTGGCGCCGTTCCGGCATGAGCGCCACCTGGTGCGCGTTGTTGCTGATGGCGCTGGCCAATCTCTGGTATATGCCCTGGGAGTTGGTTTTCTCCCTCCGTTAG	MVSALYAVLGALLLVKFSFDVVRLRTQYHVGYGDGGFSELQVAIRVHGNAVEYVPIGLILLLFMEMNGAQTWMVHVCGILLIVGRLMHSWGFHHRVYHWRRSGMSATWCALLLMALANLWYMPWELVFSLR				NA	NA	NA	NA	NA
BMS020_01011	744	cmoA	COG0500	Carboxy-S-adenosyl-L-methionine synthase	ATGTCTCACCGCGATACGCTTTTTTCCGCGCCGATTGCCAGCCTCGGCGACTGGACCTTTGATGAACGGGTTGCTGAAGTCTTCCCCGATATGATCCAGCGTTCTGTGCCTGGCTACTCCAATATCATCTCGATGATCGGCATGCTGGCCGAGCGCTTCGTTCAGCCCCACACCCAGGTTTACGATCTTGGCTGTTCGCTGGGCGCCGCCACCCTCTCCGTGCGCCGCAATATTAGCCATCCGGGATGTCGCATTATCGCCATCGACAACTCCCCGGCGATGGTGGAGCGCTGCCGTCGCCATATTGACGCCTATAAAGCGCCGACGCCGGTCGAGGTGATTGAAGGGGATATCCGCGATGTGGCCATTGAAAACGCCTCGCTGGTGATCCTGAACTTTACCATTCAGTTCCTTGAGCCGGGCGATCGTCAGGCGATCCTGAATAAAGTCTATCAGGGGCTGAATCCCGGCGGCGCGCTGGTGCTATCGGAGAAATTCAGCTTCGAAGACGCCCACGTCGGTGAGCTGCTGTTCAATATGCATCATGACTTTAAGCGCGCGAACGGCTACAGCGAGCTGGAGATTAGCCAGAAACGCAGCATGCTGGAAAACGTGATGCTGACCGACTCTGTGGAAACCCATAAAAAACGCCTGCGTCAGGCGGGGTTCGAACATGCTGAACTGTGGTTCCAGTGCTTTAACTTTGGCTCGCTGGTGGCAGTAAAATCCGGGGAGCAGGCATGA	MSHRDTLFSAPIASLGDWTFDERVAEVFPDMIQRSVPGYSNIISMIGMLAERFVQPHTQVYDLGCSLGAATLSVRRNISHPGCRIIAIDNSPAMVERCRRHIDAYKAPTPVEVIEGDIRDVAIENASLVILNFTIQFLEPGDRQAILNKVYQGLNPGGALVLSEKFSFEDAHVGELLFNMHHDFKRANGYSELEISQKRSMLENVMLTDSVETHKKRLRQAGFEHAELWFQCFNFGSLVAVKSGEQA				NA	NA	NA	NA	NA
BMS020_01012	1005	cmoB	COG0500	tRNA U34 carboxymethyltransferase	ATGATCGATTTCAGTAACTTTTATCAGCTGATCGCCAAAAGCCCGCTGTCTCACTGGCTGGAGACGCTGCCTGCCCAGGTAGCCGCCTGGCAGCGCGAGGCCCTGCACGGCAAGTTTCGCGAATGGGAGCGCGCCGTTGAGTTTCTTCCGGAATTAACGCCCTGGCGTCTGGACCTCCTGCACAGCGTCACCGCCGAAAGCGAAACGCCGCTCAGCGAAGGCCATCGGCTGCGGGTAGAAAACCTGCTTAAAAACCTGATGCCATGGCGCAAAGGCCCTTATTCGCTGTACGGCATCAACATCGATACCGAATGGCGCTCCGACTGGAAATGGGAGCGCGTCCTGCCGCATCTGTCCGATCTTAGCGGACGGACCATCCTCGACGTGGGCTGCGGCAGCGGCTATCACATGTGGCGGATGATCGGCGCGGGCGCGCATCTGGCGGTCGGCATCGATCCCACCCAGCTGTTCCTGTGCCAGTTTGAAGCAGTGCGTAAGCTGCTTGGCAACGACCAGCGGGCGCATCTCCTGCCGCTGGGCATCGAGCAGCTCCCGGCGCTGGAGGCCTTTGACACCGTGTTCTCGATGGGCGTGCTCTACCATCGCCGCTCGCCGCTGGACCACCTGTGGCAGCTGAAAGATCAGCTGGCGCCGGGTGGCGAGCTGGTACTGGAGACGCTGGTGGTCGAAGGCGATGAAAATACGGTGCTGGTTCCGGGCGACCGCTATGCGCAGATGCGCAACGTCTATTTTATTCCCTCCGCGGCGGCCCTGAAAATGTGGCTGGAGAAGTGCGGGTTTATCGATGTGCGCATCGTCGACGCCTGCGTCACCTCGACGGAAGAGCAGCGGCGCACCGAATGGATGACCAGCGAATCGCTGGCCGATTTCCTCGACCCACAGGATCAGCGCAAAACCGTGGAAGGCTATCCGGCGCCGCTGCGCGCGGTGATTATCGCCACCAAACCGGAAACGCAGCAGTCGCTGGCGAAGAAAGCGAGATAA	MIDFSNFYQLIAKSPLSHWLETLPAQVAAWQREALHGKFREWERAVEFLPELTPWRLDLLHSVTAESETPLSEGHRLRVENLLKNLMPWRKGPYSLYGINIDTEWRSDWKWERVLPHLSDLSGRTILDVGCGSGYHMWRMIGAGAHLAVGIDPTQLFLCQFEAVRKLLGNDQRAHLLPLGIEQLPALEAFDTVFSMGVLYHRRSPLDHLWQLKDQLAPGGELVLETLVVEGDENTVLVPGDRYAQMRNVYFIPSAAALKMWLEKCGFIDVRIVDACVTSTEEQRRTEWMTSESLADFLDPQDQRKTVEGYPAPLRAVIIATKPETQQSLAKKAR				NA	NA	NA	NA	NA
BMS020_01014	744	cutC_1	COG3142	Copper homeostasis protein CutC	ATGGCGGTACTGGAAGTTTGTTGTTACAGCATGGCGTGCGCCCGGGAGGCTGAGCGCTGCGGCGCCGATCGTATTGAACTCTGCGCCGCGCCGCAGGAAGGGGGACTAACACCCTCTTACGGGGTGCTGGTCTCGGTCCGCGAGGCGATTACCCTCCCGGTGCATCCGATTATCCGCCCGCGCGGCGGCGATTTCTGCTACACCGAAGAGGAGTTCGCCGCGATGCTTGGCGATATCCGCAAGGTGCGGGAGCTCGGCTTTCCCGGGCTGGTGACCGGCGTGCTGAATGCCGATGGTCAGGTCGATATCCCGCGGATGAAAAAAATAATGGCCGCGGCCGGGCCGCTGGCGGTGACCTTTCATCGCGCGTTCGATCTGTGCTCCGACCCGCGTCAGGCCTGGGAGACGCTGGGTGAGCTGGGGGTTAAACGTATCCTGACTTCCGGTCAGCAATCCTCGGCGGAGAAAGGTATTTCATTAATTACGGAACTTATTGCCGCAGGGGATACTCCAATCATTATGGCCGGTGCGGGAGTGCGCGCCGCGAACCTGCCGCTGTTTCTGCAGGCGGGGGTGAAAGAGGTTCATAGCTCTGCAGGCCAGTGGTTGCCATCGGAAATGCGCTTTCGTCATCCAGGCGTTTCGATGTCAGCCGATCCCGATGCGGACGAATACAGACGCTACGCCGTCAATGGCGCAGCGGTGGCGGAGATGAAAAAGATAATTTCCGCTGACAGAAGTTAA	MAVLEVCCYSMACAREAERCGADRIELCAAPQEGGLTPSYGVLVSVREAITLPVHPIIRPRGGDFCYTEEEFAAMLGDIRKVRELGFPGLVTGVLNADGQVDIPRMKKIMAAAGPLAVTFHRAFDLCSDPRQAWETLGELGVKRILTSGQQSSAEKGISLITELIAAGDTPIIMAGAGVRAANLPLFLQAGVKEVHSSAGQWLPSEMRFRHPGVSMSADPDADEYRRYAVNGAAVAEMKKIISADRS	PGPT0004085_787	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004085-cutC-K06201	NA	NA
BMS020_01015	570	yecM	COG3102	Protein YecM	ATGGCGAACTGGCAGCAGATTGAACAACTGGCCGATATTACGGCGGATCTCCCGCGATTTTCCGATGCGCTACAGCGCTTCGCTGCGCGACTGGGACTGGAGATCGGCGGACTCGACGCCGACCATATCTCCCTGCGCTGTCATCAGAACGCCACCGCGGAGCGCTGGCGCAGTGGGCTGGCGCAGTGCGGAACCCTGCTGTCGGAGAATATGATCAACGGTCGGCCTATCTGCTTGTTTAAACTGGCGGAGCCGGTCTGCGTGGCGCACTGGCGCTTTCATATCGTTGAGCTGCCGTGGCCGGGTGAAAAGCGTTATCCCCATGAAGGCTGGGAGCATATTGAAATTGTCCTGCCCGGCGATCCGGCTACCTTAAATGCCCGCGCTCTGGCGCTGCTGGCCGATGACGGACTCAGCCAGCCGGGGATCGTCGTCAAAACCAGCTCGCCGAAAGGGGAACATGAGCGTCTGCCGAATCCCACCCTGGCGGTCACCGACGGCAGCGTGACGGTCAAATTTCACCCATGGTCTATTGAACAAATCGTCGCCAGCGAGCAAGCCGATACATAA	MANWQQIEQLADITADLPRFSDALQRFAARLGLEIGGLDADHISLRCHQNATAERWRSGLAQCGTLLSENMINGRPICLFKLAEPVCVAHWRFHIVELPWPGEKRYPHEGWEHIEIVLPGDPATLNARALALLADDGLSQPGIVVKTSSPKGEHERLPNPTLAVTDGSVTVKFHPWSIEQIVASEQADT				NA	NA	NA	NA	NA
BMS020_01016	1734	argS_1	COG0018	Arginine--tRNA ligase	GTGAATATTCAGGCTCTTCTCTCAGAAAAAGTCAGCCAGGCCCTGATCGCGGCAGGCGCGCCTGCCGATTGCGAACCTCAGGTCCGCCAGTCAGCAAAAGTTCAGTTCGGTGACTATCAGGCCAACGGCGTGATGGCTGTCGCCAAAAAACTGGGCATGGCGCCGCGACAACTTGCAGAGCAGGTACTGTCTCATCTTGACCTCAACGGCATTGCCAGCAAGGTTGAAATCGCCGGGCCGGGCTTTATCAATATTTTCCTCGACCCCGCGTTCCTGGCGGACAACGTCAACCGCGCGCTGCAGTCAGAACGCCTGGGCGTCGCCACGCCGCAGGTACAGACCATCGTCGTCGACTATTCGGCGCCAAACGTGGCGAAAGAGATGCACGTCGGCCATCTGCGTTCGACCATCATTGGCGATGCCTCGGTCCGTACCCTGGAGTTCCTGGGCCATAAGGTGATCCGCGCCAACCACGTTGGCGACTGGGGCACCCAGTTCGGCATGCTGATCGCGTATCTGGAAAAACAGCAGCAGGAAAACGCCGGCGAGATGGCCCTGGCCGACCTCGAAGGTTTTTATCGCGAAGCGAAAAAACACTACGACGAAGACGAAGCCTTCGCCGAGCGCGCGCGCAGCTACGTGGTTAAGCTGCAGGGCGGCGATGAGTACTTCCTGCAGATGTGGCGTAAGCTGGTGGACATCACCATGTCGCAGAACCAGATCACCTACGATCGCCTGAATGTGACGCTGACCCGCGATGACGTGATGGGCGAAAGCCTGTACAACCCGATGCTGCCGGGGATCGTCGCCGATCTGAAAGCCAAAGGGCTGGCCGTGGAGAGCGAAGGCGCCACCGTGGTGTTTCTTGATGAGTATAAAAACAAAGAAGGCGAACCGATGGGCGTCATCATCCAGAAAAAGGATGGCGGCTACCTCTATACCACTACCGATATCGCCTGTGCGAAGTATCGCTATGAAACACTGCACGCCGACCGCGTGCTCTACTACATCGACTCCCGTCAGCACCAGCACCTGATGCAGGCGTGGACCATCGTGCGTAAAGCAGGCTATGTGCCGGACTCCGTGCCGCTGGAACACCATATGTTCGGCATGATGCTGGGTAAAGACGGCAAGCCGTTTAAAACCCGCGCCGGCGGCACCGTGAAGCTGGCGGATCTGCTGGACGAAGCGCTGGAGCGCGCGCGTCGCCTGGTGGCCGAGAAGAACCCGGAGATGTCCGCTGATGAGCTGGAAAATCTGGCGAAAGTGGTGGGTATCGGCGCGGTGAAATACGCCGACCTGTCGAAAAACCGCACCACCGACTACGTTTTCGACTGGGATAATATGCTGGCGTTCGAAGGCAACACCGCGCCGTATATGCAGTATGCCTATACCCGCGTGCTCTCCGTGTTCCGCAAAGCCGGCATTGACGAAAACGCCCTCACCGACGCGCCGGTGGTGATTGCGGAAGATCGCGAAGCCCAGCTGGCCGCGCGCCTGTTGCAGTTTGAAGAGACCCTCTCCGTGGTCGCTCGCGAAGGGACGCCGCACGTGATGTGCGCCTACCTCTACGATCTGGCGGGCCTGTTCTCCGGTTTCTACGAGCACTGCCCGATCCTCAGCGCGGAAAGCGAAGCGACCCGCAACAGCCGCCTGAAGCTGGCGCTGCTGACGGCGAAAACCCTCAAGCTGGGTCTCGATACCCTCGGTATCGAAACCGTCGAACGTATGTAA	MNIQALLSEKVSQALIAAGAPADCEPQVRQSAKVQFGDYQANGVMAVAKKLGMAPRQLAEQVLSHLDLNGIASKVEIAGPGFINIFLDPAFLADNVNRALQSERLGVATPQVQTIVVDYSAPNVAKEMHVGHLRSTIIGDASVRTLEFLGHKVIRANHVGDWGTQFGMLIAYLEKQQQENAGEMALADLEGFYREAKKHYDEDEAFAERARSYVVKLQGGDEYFLQMWRKLVDITMSQNQITYDRLNVTLTRDDVMGESLYNPMLPGIVADLKAKGLAVESEGATVVFLDEYKNKEGEPMGVIIQKKDGGYLYTTTDIACAKYRYETLHADRVLYYIDSRQHQHLMQAWTIVRKAGYVPDSVPLEHHMFGMMLGKDGKPFKTRAGGTVKLADLLDEALERARRLVAEKNPEMSADELENLAKVVGIGAVKYADLSKNRTTDYVFDWDNMLAFEGNTAPYMQYAYTRVLSVFRKAGIDENALTDAPVVIAEDREAQLAARLLQFEETLSVVAREGTPHVMCAYLYDLAGLFSGFYEHCPILSAESEATRNSRLKLALLTAKTLKLGLDTLGIETVERM				NA	NA	NA	NA	NA
BMS020_01017	1140	yesR	COG4225	Unsaturated rhamnogalacturonyl hydrolase YesR	ATGAAAGTTTGGCCGGTCAAACATAGCCCATTACTCTGTCAGCCTGAGCGTTTTATCGCCCGTAGCGAACTGCAGGCGCTCATCCGCAACGTGACGCAAAACCTGGTGAATATTAAGGATGAGAGCGGGCAATTTTTACTGCGCCTGGATGACGGGCGCGTTATTGATACCAAAGGCTGGGCCGGCTGGGAGTGGACCCACGGCGTCGGGCTGTATGGCATCTATCAGTATTATCAGCAAACCGGCGATCTCGAGATGCGCGATATCATTGACCGCTGGTTTGCCGACCGCTTCGCCGAGGGGGCAACGACCAAAAACGTCAACACCATGGCGCCGTTCCTGACCCTGGCCTGTCGCTTTGAAGAGACCGGATGTAAGGCGTATCTGCCGTGGCTGGAGAGCTGGGCGGAGTGGGCAATGTATGAGATGCCGCGTACCGAGCAGGGCGGCATGCAGCACATCACCCTGGCGGAAGAAAACCACCAGCAAATGTGGGATGACACCCTGATGATGACCGTGTTGCCGTTAGCCAAAATTGGCAAGCTGCTTCACCGTCCGCAGTATGTGGAGGAGGCGACCTATCAGTTCTTGCTCCACGTGCAGAACCTGATGGACCGGGAAACCGGGCTGTGGTTTCACGGCTGGAGCTATGACGGTCGGCATAATTTTGCCCGGGCGCGCTGGGCGCGGGGCAACAGCTGGCTCACTATGGTGATCCCGGATTTTCTTGAGTTAGTGGGTCTCCCGGAAGGGAATGCGGTACGGCGCTATCTGACCGAGGTGCTGAACGCGCAAATTGCCGCCTTAGCGAAATGTCAGGACGACAGCGGCCTGTGGCATACCCTGCTGGACGACCCGCACTCTTATCCAGAGGCCTCTGCGACCGCCGGCTTTGCCTACGGCATACTCAAAGCGGTGCGCAAGCGATATGTCGGGCAGCACTATGCCGGGGTGGCTGAAAAAGCGATTCGCGGAATTGTGCAGAATATTTCGCCGCAGGGGGAGCTGCTGCAGACTTCCTTTGGCACCGGAATGGGGTCAGACCTTGATTTCTATCGCCAGATCCCGCTCACCTCGATGCCCTACGGCCAGGCGATGGCGATCCTCTGTCTGACCGAGTATCTGCGCAAGTATTTCTGA	MKVWPVKHSPLLCQPERFIARSELQALIRNVTQNLVNIKDESGQFLLRLDDGRVIDTKGWAGWEWTHGVGLYGIYQYYQQTGDLEMRDIIDRWFADRFAEGATTKNVNTMAPFLTLACRFEETGCKAYLPWLESWAEWAMYEMPRTEQGGMQHITLAEENHQQMWDDTLMMTVLPLAKIGKLLHRPQYVEEATYQFLLHVQNLMDRETGLWFHGWSYDGRHNFARARWARGNSWLTMVIPDFLELVGLPEGNAVRRYLTEVLNAQIAALAKCQDDSGLWHTLLDDPHSYPEASATAGFAYGILKAVRKRYVGQHYAGVAEKAIRGIVQNISPQGELLQTSFGTGMGSDLDFYRQIPLTSMPYGQAMAILCLTEYLRKYF	PGPT0018255_646	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0018255-yteR|yesR-K15532	NA	NA
BMS020_01018	1584	yagG_1	COG2211	Putative glycoside/cation symporter YagG	ATGAAAACACGAAAGATTGGACTGGCTAACTACCTGGCCTACGGCGCGGGCGATTTCCTCGGCGCCGGCACCACGGCGCTAACCGCCGCATGGCTGCTCTACTTTTACACCACCTTCTGCGGACTCTCTCCGATAGAAGCCACGCTGATATTCGCTTCCGCCCGCGTACTGGATGCGGTGGTGAGCCCGCTGATGGGCTTTCTCACCGATAACTTCGGCACCACCTGGCTCGGCAAGCGCTTCGGCCGCAGAAAATTCTTTATTCTGCTCGGCATCCCGTGCGTATTCAGCTACTCGGCGATGTGGGTTGGCGAGATGGGCTTCTGGTACTACCTGCTCACCTATCTGCTGTTTGATATGGTCTACACCATGATTCTGGTGCCCTACGAGACGCTGGTGCCGGAGATGACCGATGACTTTAAACAGAAAACCAAATTCTCCGGCGCGCGCATCTCAATGGCGCAAATGTCGGCGATTTTAGCCTCCTTTCTGCCGGGGATCCTTCTTACCTGGCTCGGCAAAGACAATGCCAGCTCGTTCTTTTATGCCAGTCTGGTGTTCTCGGTCCTGTGCGCGGTGATGCTGACCTTCGTCTGGTGTTTCACCTGGGAGCGGCCGCGTGAGGCCTGGTCAGAGGCGGCGCTGCGGGCGGAAGCGGAAAAACAGAACTTAACCCTCGCCCAGAGCCTCAATCGCCTGGTGATTGAGCTGAGCTCCACGCTGCGGATAAAAATCTTCCGCCAGCACCTCGGCATGTATCTGGGGGGCTATATCGCCCAGGACGTCTTCAATGCCGTGTTCACCTATTACGTGGTCTTTGTTCTGATGCAGGAGGCCTCTGTCGCCTCGAATCTGCTGGGAACGATGGCGATTTTCCAGTTTATCGCCGTGATAGCCATGATCCCGCTGTGCATTCGCTTTGGCCCCGCGCCGTCGTACCGCATGGTGGTGGTCCTCTTTGGCCTGAGCTCGCTCTCCTATGCGCTGCTCTACTACGCCGGACTGAGCGACGTCTATTCGTTATTGCTGCTCATCTCTGCTGTCGCCGGACTGGGACGCGGCGGGATTAACTACGTACCGTGGAATACCTACACCTATATTGCCGACGTCGACGAAGCGATCACCGGCCAGCGCCGGGAGGGGATTTTTGCCGGCATCATGACGCTGACCCGTAAAGCCTCGCAGGCGGGGGCGGTGATGCTGGTGGGCATCATCATGCAGTTGTCCGGGTTTGTCTCCGGGCAAAAAATACAGCCTGAAGGGGTCAGCCATACCATTTTGCTGATCCTCAGCGTCGGCACGCTGGTGGTCTTAGCCTGTGGCTTCCTCGTTTCGCTGCGCTTCAAACTCAATCTGCATACCCACAGCGTCCTGCGCAGCGAAACCCTAAGAATGCGCGAAAGCGGTCACGCCCAGCCGGAACTGATCAGTGCAGAACACCGCGCGGTCGTCGAGATGCTGGCGGGGATGCCCTACGACTGCCTGTGGGGAAATAACAACATTGGCTACCTGAATCGTCATAAACCTACTGCCCCGGCGCTCACCCAGGGCGGCGCTTTGAATTCGACATATACCCGAGGTTAA	MKTRKIGLANYLAYGAGDFLGAGTTALTAAWLLYFYTTFCGLSPIEATLIFASARVLDAVVSPLMGFLTDNFGTTWLGKRFGRRKFFILLGIPCVFSYSAMWVGEMGFWYYLLTYLLFDMVYTMILVPYETLVPEMTDDFKQKTKFSGARISMAQMSAILASFLPGILLTWLGKDNASSFFYASLVFSVLCAVMLTFVWCFTWERPREAWSEAALRAEAEKQNLTLAQSLNRLVIELSSTLRIKIFRQHLGMYLGGYIAQDVFNAVFTYYVVFVLMQEASVASNLLGTMAIFQFIAVIAMIPLCIRFGPAPSYRMVVVLFGLSSLSYALLYYAGLSDVYSLLLLISAVAGLGRGGINYVPWNTYTYIADVDEAITGQRREGIFAGIMTLTRKASQAGAVMLVGIIMQLSGFVSGQKIQPEGVSHTILLILSVGTLVVLACGFLVSLRFKLNLHTHSVLRSETLRMRESGHAQPELISAEHRAVVEMLAGMPYDCLWGNNNIGYLNRHKPTAPALTQGGALNSTYTRG	PGPT0017280_78	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OLIGOGALACTURONIDE_TRANSPORT_I,PGPT0017280-togT|rhiT-K16210	NA	NA
BMS020_01019	429	uspC	COG0589	Universal stress protein C	ATGCCTTATTCACATCTGCTGGTTGCCGTCGCGCCAACGCCGGAGAGTCAGGTATTAATTAAAAAAGCGGTGTCGATTGCCCGGCCCGTGAACGCGAAAGTGAGCTTTATCACCCTCGCCACGGATCCGGAGCTGTATAACCAGTTCGCTGCGCCGATGATGGAAAATCTGCGCGAGGTGATGCAGGAAGAGACGCGTGATTTTCTCAACGAGCTGGCGCGTCACGCGGACTACCCGATAGAAAAAATGACCATCGCCTGCGGCGAACTGGGCCATCATATTAAAGACTTCTGCCGGTCGCACCAGGTCGATCTGGTGATCTGCGGCAATCATAACCATTCCCTTTTTTCGCGCGCCACCTGCTCGGCGAAAAATATCGTCGGCAGCTGCGGCGTCGATGTCCTGCTGGTTTCCCTTGAAAAGGGCTAA	MPYSHLLVAVAPTPESQVLIKKAVSIARPVNAKVSFITLATDPELYNQFAAPMMENLREVMQEETRDFLNELARHADYPIEKMTIACGELGHHIKDFCRSHQVDLVICGNHNHSLFSRATCSAKNIVGSCGVDVLLVSLEKG	PGPT0014990_37	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014990-uspC-K14064	NA	NA
BMS020_01020	1425	otsA_1	COG0380	Trehalose-6-phosphate synthase	ATGAGTCGTTTAGTCGTAGTCTCTAACCGTATCGCCTTACCGGACGATAAAAAATCGAGCGCTGGCGGTCTGGCCGTCGGCATCCTGGGGGCACTGAAAGCGGCAGGGGGTCTGTGGTTTGGCTGGAGCGGCGAAATTGGCGATGACCAGCAACCGCTGAAGCAGGTCTCCCGCGGAAATATTTCATGGGCGTCGTTCAACCTTAATGAACGTGACCATGACGAATACTACAACCAGTTCTCTAATGCCGTGCTGTGGCCGGCCTTCCATTATCGTCTTGATCTGGTCAGCTTCCAGCGCGAAGCCTGGGAGGGATATCAGCGAGTTAACGCCATGCTGGCGGACAAGCTTCTGCCGCTGATCGAACCAGACGATACGCTGTGGATCCATGATTACCATCTGCTGCCCTTCGCCAGCGAACTGCGCAAGCGTGGGGTCAACAACCGGATCGGCTTCTTTTTGCATATTCCGTTCCCGACGCCGGAGATTTTTAACGCGCTACCGCCGCACGCTGAGCTGCTGGAACAACTGTGCGATTACGACCTGCTGGGCTTCCAGACTGAAAGCGACAGAACCGCGTTTCTTGACAGCATTGCCATGCAGACCCGACTCTCCGACCTCGGAGACAAACGCTATCAGGCGTGGGGTAAGGCGTTCAGCACTGAGGTTTATCCGATAGGGATCGATCCGGACGAGATTACGCGCAACGCCAAAGGTCCGCTGCCGCCGAAGCTGGTCCAGCTGAAAAACGAGCTCAAAAACGTGAAGAATATCTTCTCGGTGGAGCGGCTTGACTACTCGAAAGGGTTGCCGGAGCGGTTCCTCGCCTATGAGACGCTGCTCGAAAAGTATCCTCAGCATCACGGTAAGATCCGTTATACCCAGATCGCACCGACCTCCCGCGGCGATGTGCAGGCCTATCAGGATATCCGCCACCAGCTGGAAACCGCATCCGGGCGCATCAATGGCCAGTTTGGCCAGCTTGGCTGGACCCCGCTCTACTACCTGAACCAGCATTTTGATCGCAAGCTGCTGATGAAGGTCTTCCGCTACTCTGACGTCGGCCTGGTGACGCCCCTGCGCGATGGTATGAACCTGGTGGCGAAGGAATACGTGGCAGCGCAGGATCCGGATAACCCTGGCGTACTGGTCCTGTCGCAGTTTGCTGGTGCGGCGCAGGAGCTGACCAGCGCCCTGATCGTCAACCCCTACGATCGCGACGAGGTTGCCGCCGCGCTGGATCGCGCCCTTAGCATGCCGCTGGCGGAACGTATTGCCCGTCATTCTGCGATGCTGGACGTGATCAGAGAAAATGATATTCATAACTGGCAGGCGCGCTTTGTCGACGATCTGCAGCATATTTCACCGCGCAGTGAGGAGAGCCGCCTGCGGGGGAAGATAGCCACGTTCCCTAAACTGGCCTAG	MSRLVVVSNRIALPDDKKSSAGGLAVGILGALKAAGGLWFGWSGEIGDDQQPLKQVSRGNISWASFNLNERDHDEYYNQFSNAVLWPAFHYRLDLVSFQREAWEGYQRVNAMLADKLLPLIEPDDTLWIHDYHLLPFASELRKRGVNNRIGFFLHIPFPTPEIFNALPPHAELLEQLCDYDLLGFQTESDRTAFLDSIAMQTRLSDLGDKRYQAWGKAFSTEVYPIGIDPDEITRNAKGPLPPKLVQLKNELKNVKNIFSVERLDYSKGLPERFLAYETLLEKYPQHHGKIRYTQIAPTSRGDVQAYQDIRHQLETASGRINGQFGQLGWTPLYYLNQHFDRKLLMKVFRYSDVGLVTPLRDGMNLVAKEYVAAQDPDNPGVLVLSQFAGAAQELTSALIVNPYDRDEVAAALDRALSMPLAERIARHSAMLDVIRENDIHNWQARFVDDLQHISPRSEESRLRGKIATFPKLA	PGPT0014135_919	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014135-otsA-K00697	NA	NA
BMS020_01021	789	otsB_1	COG1877	Trehalose-6-phosphate phosphatase	GTGGATAACCAGATATCTGTACCGCCTGCGCTAACCGGAAACTACGCTTTTTTCTTTGACCTCGACGGTACTCTTGCCGATATCCAGCCGCACCCCGATCAGGTGGTGATACCCGACAACACGCTGCAGGCGCTCAACGCGCTGGCCCGGCAGCAGGGCGGGGCGGTGGCATTGATTTCAGGGCGCTCAATGTCTGAACTTGACGCGCTCACCCATCCCTGGCGGCTACCGCTGGCCGGTGTTCACGGGGCTGAACGCCGTGATATCAATGGTAAAACCTATATTGTCTCTCTGCCGTCGGCTCTGCGCGATGAAATCGCGGCTGAGCTGACCTCGGCGTTGCAGGAGCTCCCCGGGTGCGAGCTGGAGAGTAAAGAGATGGCCTTCGCGCTCCACTACCGCCAGGCGCCGCAGCAGCAGAGCGCGGTGCTGGAGCTGGCGCAGCGCATCGTTCAGCGCTACCCGCTGCTGGCGCTACAGCTTGGCAAGTGCGTAGTGGAGATTAAACCCCGCGGTGTCAACAAAGGGGAGGCGATCACCGCCTTCATGCAGGAAGCGCCGTTTGCCGGTCGCGAACCGGTTTTTGTCGGCGATGATTTGACCGACGAAGCGGGATTCAGCGTGGTTAATCAACTGCAGGGAATGTCGATAAAAGTGGGCGCCGGGGAAACCCAGGCGCACTGGCGGTTGGCGGATGCCGCCGCCGTAAGGACGTGGTTGCAACATCTGGCGTATGACGCGCAAACCGAAAGGAGGGATGACCATGAGTCGTTTAGTCGTAGTCTCTAA	MDNQISVPPALTGNYAFFFDLDGTLADIQPHPDQVVIPDNTLQALNALARQQGGAVALISGRSMSELDALTHPWRLPLAGVHGAERRDINGKTYIVSLPSALRDEIAAELTSALQELPGCELESKEMAFALHYRQAPQQQSAVLELAQRIVQRYPLLALQLGKCVVEIKPRGVNKGEAITAFMQEAPFAGREPVFVGDDLTDEAGFSVVNQLQGMSIKVGAGETQAHWRLADAAAVRTWLQHLAYDAQTERRDDHESFSRSL	PGPT0014140_1738	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014140-otsB-K01087	NA	NA
BMS020_01022	981	araH	COG1172	L-arabinose transport system permease protein AraH	ATGTCATCAGTGACTACGTCCGGCGCTACCCGCTCTGCCTTTAGCTTTGCCCGTATCTGGGATCAGTTTGGCATGCTGGTGGTGTTTGCGGTGCTGTTTATCGGCTGCGTAATTTTTGTGCCTAACTTTGCCTCATTCGTCAATATGAAGGGGCTGGGGCTGGCGATCTCGATGTCCGGGATGGTGGCCTGCGGTATGCTCTTCTGCCTGGCCTCCGGCGATTTCGACCTGTCGGTGGCGTCGGTTATCGCCTGTGCCGGGGTCACTACCGCGGTGGTGATTAACCTGAGCGAAAGCCTGTGGCTGGGGATTGCCGCCGGTCTGCTGCTGGGGGCGATCAGTGGCCTGGTCAACGGCTTTGTCATTGCCCGCCTGAAGATCAACGCCCTGATCACCACCCTGGCCACTATGCAGATTGTCCGCGGTCTGGCCTACATTATCTCCGACGGTAAAGCGGTGGGGATCGAAGATGAACGCTTCTTCACCCTCGGTTACGCCAACTGGTTTGGTCTGCCGGCGCCGATCTGGCTGACGGTCGCCTGCCTGGTGGTTTTCGGATTATTACTAAACAAAACCACCTTTGGCCGTAATACGCTGGCTATAGGCGGCAATGAAGAGGCGGCGCGTCTGGCCGGTGTTCCGGTGGTGCGCACCAAGATTATTATCTTTGTGCTTTCCGGTCTGGTATCGGCCGCGGCGGGGATCATTCTGGCGTCGCGGATGACCAGCGGCCAGCCGATGACCTCGATTGGCTATGAGCTGATTGTTATTTCGGCCTGTGTGCTGGGCGGGGTATCGCTGAAGGGCGGGATCGGCAAGATCTCCTACGTGGTGGCCGGGATCCTGATCCTCGGGACCGTGGAGAATGCGATGAACCTGCTGAACATCTCGCCGTTCTCACAATACGTCGTGCGCGGGGTCATCCTGCTGGCGGCGGTAATTTTTGACCGCTACAAACAAAAAGCCAAACGTGCGGCCTGA	MSSVTTSGATRSAFSFARIWDQFGMLVVFAVLFIGCVIFVPNFASFVNMKGLGLAISMSGMVACGMLFCLASGDFDLSVASVIACAGVTTAVVINLSESLWLGIAAGLLLGAISGLVNGFVIARLKINALITTLATMQIVRGLAYIISDGKAVGIEDERFFTLGYANWFGLPAPIWLTVACLVVFGLLLNKTTFGRNTLAIGGNEEAARLAGVPVVRTKIIIFVLSGLVSAAAGIILASRMTSGQPMTSIGYELIVISACVLGGVSLKGGIGKISYVVAGILILGTVENAMNLLNISPFSQYVVRGVILLAAVIFDRYKQKAKRAA	PGPT0016610_294	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOSE_TRANSPORT_I,PGPT0016610-araH-K10538	NA	NA
BMS020_01023	1515	araG_1	COG1129	Arabinose import ATP-binding protein AraG	ATGCAACAGTCTACCCCTTATCTCTCATTTCGCGGCATCACCATGACGTTCCCTGGCGTAAAGGCCTTGTCCGATATCAGTTTTGACTGCTACCCAGGACAGATCCACGCGCTGATGGGCGAAAATGGCGCAGGCAAATCGACGCTGCTGAAAATCCTCAGCGGTAACTACATCCCCACCGCGGGCCACCTGCAGATCGGCGGTCAGCAGATGGCGTTCACCAATACGATGGCGGCGCTCAACGCCGGCGTGGCGATTATCTATCAGGAGCTGCATCTGATCCCGGAGATGACCGTCGCCGAAAATATCTATCTTGGCCAGCTGCCGCACAGAGGCGGCATCGTCAACCGCTCGCTGCTCAACTACGAGGCCCGCCTGCAGCTTGAGCATCTGGGGCTGGATATCGACCCGGAGACGCCGCTGAAGTATCTCTCCATTGGCCAGTGGCAGATGGTGGAGATTGCCAAAGCGCTGGCGCGTAACGCCAAAATTATCGCCTTCGATGAACCGACCAGTTCGCTCTCTGCCCGGGAGATCGACAACCTGTTTCGCGTTATCCGCGAGCTACGGGAGGAGGGGCGCGTCATCATCTATGTTTCACACCGGATGGAAGAAATTTTTGCCCTCAGCGATGCCATCACCGTCTTTAAAGATGGCCGCTACGTCTGCACCTTTGATGATATGCCGAGCGTCAGCCACGACGCGCTGGTTCAGGCCATGGTGGGACGCAATCTGGGGGATATTTACGGCTGGAAACCTCGCCCCTACGGCGAAGAGCGGCTGCGTCTGGAGGAGGTGAAGGCCCCGGGCGTGCGCACGCCGGTCAGCCTCTCGGTGCGCAGTGGCGAAATCGTCGGCCTGTTTGGGCTGGTGGGCGCCGGGCGCAGCGAACTGATGAAAGGTCTGTTCGGCGGGACGCGGATCACCGGCGGTCAGGTGTATATCGATGGCCAGCCCGTCGACATTCGCAAACCGGCCCAGGCCATCCAGGCCGGGATGATGCTGTGCCCGGAAGATCGGAAAGCGGAGGGGATTATTCCGGTTCACTCCGTGCGCGACAACATCAATATCAGCGCCCGGCGCAAGCATATCCACGCCGGGTGCCTGATCAACAACGCCTGGGAGGCGGACAACGCCGATCAGCATATCCAGTCGCTGAACATTAAAACGCCGGGCCCGGAACAGCTGATCATGAACCTGTCTGGCGGCAACCAGCAGAAAGCGATCCTGGGCCGCTGGCTGTCGGAAGAGATGAAGGTGATCCTGCTCGATGAGCCCACCCGCGGTATCGATGTCGGTGCCAAACATGAAATTTACAACGTGATATATGGCCTCGCCGCCTCCGGTGTCGCCGTGGTATTTGCCTCCAGCGACCTGCCGGAAGTGCTGGGCGTCGCTGACCGCATCGTGGTGATGCGTGAAGGGCAAGTCGCCGGCGAACTGCTGCATGAAGAAGCCAATGAACAGCAGGCGTTAAGCCTTGCGATGCCAAAAGTGAGTCAGGCTGTCGCCTGA	MQQSTPYLSFRGITMTFPGVKALSDISFDCYPGQIHALMGENGAGKSTLLKILSGNYIPTAGHLQIGGQQMAFTNTMAALNAGVAIIYQELHLIPEMTVAENIYLGQLPHRGGIVNRSLLNYEARLQLEHLGLDIDPETPLKYLSIGQWQMVEIAKALARNAKIIAFDEPTSSLSAREIDNLFRVIRELREEGRVIIYVSHRMEEIFALSDAITVFKDGRYVCTFDDMPSVSHDALVQAMVGRNLGDIYGWKPRPYGEERLRLEEVKAPGVRTPVSLSVRSGEIVGLFGLVGAGRSELMKGLFGGTRITGGQVYIDGQPVDIRKPAQAIQAGMMLCPEDRKAEGIIPVHSVRDNINISARRKHIHAGCLINNAWEADNADQHIQSLNIKTPGPEQLIMNLSGGNQQKAILGRWLSEEMKVILLDEPTRGIDVGAKHEIYNVIYGLAASGVAVVFASSDLPEVLGVADRIVVMREGQVAGELLHEEANEQQALSLAMPKVSQAVA	PGPT0016615_287	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOSE_TRANSPORT_I,PGPT0016615-araG-K10539	NA	NA
BMS020_01024	981	araF	COG1879	L-arabinose-binding periplasmic protein	ATGCACAAATTTACTAAAGCGCTGGCGGCCATTGGTCTTGCTGCGGTTATGTCACAATCAGCTATGGCAGAAAACCTGAAATTGGGTTTTCTGGTGAAACAGCCGGAAGAGCCATGGTTCCAGACCGAGTGGAAATTTGCTGATAAAGCAGGAAAAGATTTAGGCTTTGACGTCATTAAAATTGCGGTGCCGGATGGTGAGAAAACCCTGAACGCCATCGATAGCCTGGCGGCCAGCGGCGCGAAGGGCTTTGTCATCTGTACCCCCGATCCTAAGCTCGGCTCGGCGATTGTCGCTAAGGCGCGCGGCTATGATATGAAGGTGATTACCGTCGATGACCAGTTCGTCAACGCCAAAGGTAAACCGATGGAGAGCGTGCCGCTGGTGATGATGGCGGCCAGCGAAATCGGCGCCCGCCAGGGGCAGGAGCTGTATAAAGAGATGCAGAAACGCGGCTGGGATGTCAAAGACACCGCGGTGATGGCCATCACCGCCGATGAGCTGGACACCGCCCGCCGTCGTACCACTGGCTCCATCGATGCCCTGAAGGCGGCCGGTTTCCCGGAAGCGCAAATCTACCGCGTTCCGACAAAATCTAACGATATCCCGGGGGCGTTTGACGCCGGTAACTCAATGCTGGTCCAGCACCCGCAGGTTAAACACTGGCTGATCGTTGGGATGAACGACAACACCGTGCTCGGCGGCGTGCGTGCCACTGAAGGCCAGGGCTTTAAAGCGCCGGATGTGATTGGCATTGGCATCAACGGCGTGGATGCCGTCAACGAACTGTCGAAGGCGCAGCCGACCGGTTTCTATGGCTCCCTGCTGCCAAGCCCGGATATTCATGGCTATAAAACCAGCGAAATGCTCTACAACTGGGTCACCAAGGGCGTTGAGCCGCCGAAGTTCACTGCGGTGACCGATGTGGTGCTGATTACCCGCGATAACTTCAAAGAAGAGCTGGCGAAAAAAGGGCTGTAA	MHKFTKALAAIGLAAVMSQSAMAENLKLGFLVKQPEEPWFQTEWKFADKAGKDLGFDVIKIAVPDGEKTLNAIDSLAASGAKGFVICTPDPKLGSAIVAKARGYDMKVITVDDQFVNAKGKPMESVPLVMMAASEIGARQGQELYKEMQKRGWDVKDTAVMAITADELDTARRRTTGSIDALKAAGFPEAQIYRVPTKSNDIPGAFDAGNSMLVQHPQVKHWLIVGMNDNTVLGGVRATEGQGFKAPDVIGIGINGVDAVNELSKAQPTGFYGSLLPSPDIHGYKTSEMLYNWVTKGVEPPKFTAVTDVVLITRDNFKEELAKKGL	PGPT0016605_448	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOSE_TRANSPORT_I,PGPT0016605-araF-K10537	NA	NA
BMS020_01025	510	ftnA_1	COG1528	Bacterial non-heme ferritin	ATGGCAGTTCCAGGAATGGCACAAAAGCTAAACACCCAGATGAACCTTGAGTTCCACGCCTCTAACGTTTACCTGAACTTAAGCGAGTGGTGCGCCCGACATCGCTTCGACGGCGCCGCGACATTTTTGCGCAACCGCGCGCAATGCAGCATCACCCTCACCATGCGCGTATTTGACTATCTGAAAAAAGCCGGCAACTGGCCGATAGTGAATCCCGACCGCGCCTGTAATCCCGAATGTACCTCGCTGGAAGATCTCTTTACCCAAACCCTGGTCGATTACCGCCAGCGTAGCAGTATGCTGAGCGGTCTCGCCGAGGAAGCCAAAGCGCAGAGCGATGACAACACCTGGCGTTTTCTGACCCGGCTGGCGGAAGAGCAGCAGCAGGATGGGCTGCTGCTGCAAAGCGTGCTCGAGGAAATTCGCAATGCCGACAAAGCCGGGATCGGTATGGAACAGACCGATCGCCGTCTGATGGCCCTCGTCGGAGCGTCACAGAAACCTCATTAA	MAVPGMAQKLNTQMNLEFHASNVYLNLSEWCARHRFDGAATFLRNRAQCSITLTMRVFDYLKKAGNWPIVNPDRACNPECTSLEDLFTQTLVDYRQRSSMLSGLAEEAKAQSDDNTWRFLTRLAEEQQQDGLLLQSVLEEIRNADKAGIGMEQTDRRLMALVGASQKPH	PGPT0003966_10	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003966-ftnB-K02255	NA	NA
BMS020_01026	1563	yagG_2	COG2211	Putative glycoside/cation symporter YagG	ATGGCTCGATACACGGCTTCAGCCTCTGAAGGGCTGCAGGGAAGACCGATCTTGTTACGCCATCAGTTAGCCTACGGCGGCGGTAATCTGTTAGGGAGTGGCGCACTGGCGATAAGCGGGGCATGGCTACTCTATTTTTATACGACCTTTTGCGGCCTGACGCTGATCGAGGCCTCATTTATCTTCTCCGTCGCCAGCATCATCGACGCCATCAGCAACCCGCTGATGGGCTATCTGACGGATAACTTTGGCAAAACACGGTTAGGCAAACGCTTTGGCCGTCGGCGCTTCTTTTTGCTGATCGGCATTCCGCTGATGCTGTTCTACCCGCTGCTGTGGGTAGAGGGCCTGAGTTTCTGGTACTACCTGTGCACCTACGTGGTGTTTGAGATCATCTACACCTCCATCATGGTGCCCTATGAAACGCTGGCGACAGAGATGACCGATGATTTCTCGCTACGCTCAAAGCTCACCGGCTATAAAGCCATCTTCGGCAAGCTGGCCAACTTCCTCGCCGCGTTTATTCCCGGACAGTTCATTCTGCTGTACGGCAAAGATTCCGCCACCCCTTTCTTCCTCACCGGGCTGACCTACGGCGCGATCCTGATCGTCGCGATTACCTGCCTGTGGCTGTGCAGCTGGGAGCGCGAGCGTGCGGAAGCCGTGGATACCAGCGCGAAAAAGGGGCTGCTGAGCACCCTGCTGTCGCTGGCGAAAGACATGCGTTCCACCTTTTATCTGCGCGTGTTCCGCAAACATCTCGGTATGTACCTGTGCGGGTTTGGCGCGGAATGGCTGTTTGCCTCCATCTTCACCTATTTCGTGATATTCGTTCTGCAGCACGATCCGGCAATGGTGGCCGGGCTGAACAGCCTGAACTCGATTCTGCAGCTGATCTCCACCGCGCTGTTTATCGGCCTGTGTGTGAAAAAGGGCTTCAGCAAACCCTATATCCTTGCGCTGGGGATCGTGATTTTCGCAGTCCTGCTGTATACCTCGCTGTGGTTCTTCCATCTGCCGTCAGGCCTGGCGACCGTGCTGATGTTCGGTATTACCGTGCTGTTCGGCCTGGGGACCGGCGGGGTTTACTATATTCCCTGGACCGTTTACACCTTCCTCGCCGATGTCGACGAGATCTACACCGGACGCCGCCGGGAAGGGATCTATGCCGGCGCCATGACCTTCTCAGGGAAAATTCTGCGCTCGATTGTGGTGTTTTCAATGGGGGCCATCCTGAGCTTTTACGGTTTCCAGTCAAAAGCGCACAGCCAACCGGAAAGCGCCGTGACCGCCATCGCGGTGGTATTCTGCGTCGGTGTCGTCGCCTTAGCCCTGGCCGCCATCGTCTTCAGTAAGCAGATGAAACTGGACCGTAAAGCCCATCTGGTGGTCCTGCAGGAAGTCGCGCGGATTAAAGCGGGCGGTAAAATCAGTGATATTGCGCCGGAGGTGCGGGCAATCGTTGAGGATCTGGTTGGCCATCGCTACGAAGAGTGCTGGGGCAACAGCAAATTGTTTAAAACCGCTGAGGCTGCGCCAACGCAGACCGTGGTTTCCCATTAA	MARYTASASEGLQGRPILLRHQLAYGGGNLLGSGALAISGAWLLYFYTTFCGLTLIEASFIFSVASIIDAISNPLMGYLTDNFGKTRLGKRFGRRRFFLLIGIPLMLFYPLLWVEGLSFWYYLCTYVVFEIIYTSIMVPYETLATEMTDDFSLRSKLTGYKAIFGKLANFLAAFIPGQFILLYGKDSATPFFLTGLTYGAILIVAITCLWLCSWERERAEAVDTSAKKGLLSTLLSLAKDMRSTFYLRVFRKHLGMYLCGFGAEWLFASIFTYFVIFVLQHDPAMVAGLNSLNSILQLISTALFIGLCVKKGFSKPYILALGIVIFAVLLYTSLWFFHLPSGLATVLMFGITVLFGLGTGGVYYIPWTVYTFLADVDEIYTGRRREGIYAGAMTFSGKILRSIVVFSMGAILSFYGFQSKAHSQPESAVTAIAVVFCVGVVALALAAIVFSKQMKLDRKAHLVVLQEVARIKAGGKISDIAPEVRAIVEDLVGHRYEECWGNSKLFKTAEAAPTQTVVSH	PGPT0017280_218	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OLIGOGALACTURONIDE_TRANSPORT_I,PGPT0017280-togT|rhiT-K16210	NA	NA
BMS020_01027	252			hypothetical protein	ATGTCTCAACATCTTACCGAACACGACGAGCTGGTTTCCGATGTGGTTGCCTGCCAGCTGGTTATCAAGCAGATCCTCGACGTGATTGACGTCATCGCGCCGGTGGAAGTGCGTGAAAAAATGACCAGCCAGCTGAAAGCCATTGACTTCGCCAGCCACCCGGCCTCTGCCGATCCGGTGACGCTTCGCGCGGTGCAAAAAGCGATTGCCCTGATTGAGCTGAAGTTTACCCCGCAGGAAGAAACGCATTAA	MSQHLTEHDELVSDVVACQLVIKQILDVIDVIAPVEVREKMTSQLKAIDFASHPASADPVTLRAVQKAIALIELKFTPQEETH				NA	NA	NA	NA	NA
BMS020_01028	1422	hsrA_1		putative transport protein HsrA	ATGAATACCGCGATCTCTTCCGGGAACGAACGTGCTTTTTCAGCCCCGGCGCTGCTGGTGGCTGGCGCCTTTTTTATGGAGTTTCTCGACGGGACGGTGATCGCTACCGCCCTGCCCGACATGGCGAGAGATTTTGGCGTTACCGCCGTCGAGCTGAATATCGGCATCAGCGCCTATCTGATTACCCTCGCGGTGCTGATCCCCGCCAGCGGCTGGATCGCCGATCGCTTCGGCGCCCGGGCTATCTTCACCCTCGCCCTGGCCATTTTTACCCTTGCCTCGATCTTTTGCGGCCTCTCCAGCGAGATGCATATCTTTGTCGCCATGCGTATCCTGCAGGGGATCGGCGGCGCGCTGATGGTCCCCGTCGGTCGTCTGGCGGTACTGCGCACCACGCCGAAACACCTGCTGATAAAGGCCATCGCCACCCTCACCTGGCCGGCGCTGGTGGCCCCTATTATCGGCCCGCCTTTGGGAGGCTTTATTACCCGCTACGCCAGCTGGCACTGGATCTTCTTTATCAATGTCCCGCTGGGCGTCGCGGCGATTATCCTGTCGCTGCGCATCATTCCTGATATCCGCGAAGCAGAGCGGCGCGCCTTTGATATGACAGGGTTTATCACGACCGCGGTGGCGATGGTCAGCCTGGTCACGGCGATGGAACGGCTCGGCGATCGTCAGCCGCAGATCTGGCCGACGCTGGCCCTCGCCGCGCTTGGCTTCGGCTGTCTGGCGTATGCTATCCGCCACTTCCGCCGGGCGACAGCGCCTATGGTTCGTCTGACGGCGTTGCAGGTGCCGACGTTCCGCGTGACGATGTACGGCGGCTCGCTGTTCCGGGCCTCCATCAGCGCGGTCCCCTTTCTCCTGCCGCTGCTGTTTCAGGTGGGGTTCGGCATGGATCCCTTTCACTCCGGTCTGCTGGTGCTGGCGGTATTTGTCGGCAATTTAACGATTAAACCCGCCACCACGCCGCTGATCCGCTGGCTGGGCTTTCGTCGCCTGCTGTTGATCAACGGCGCGCTGAACGTCTGTTCGCTGCTGGCCTGCGCGCTGCTCACGCCGGAAACTCCGGTCTGGGCGATCATGCTGATCCTTTATCTCGGCGGGGTGTTTCGCTCAGTTCAGTTCACGGGCGTGAGCACGCTGGCCTTTGCCGATGTACCCGCCGCGCAGATGAGCGATGCCAATACTCTGTTCAGTACCGCGTCGCAGCTGGCGGTGGGGCTGGGGATCACGCTTGGGGCAATCGGCATTCGCCTGGGTGAACAGGTCGGCGACTGGCTGCACCTTTCCGCCGTACCGGGGATCAGCTTTCGCCTGGCGTTTGTGTTTATCGCGGTGATCTGTCTGGTGGGGATGATCGACAGCCTGCATCTGGCCAAAACGGCAGGCAGCAGCGTGTCGGCGAAGAAATCGTAG	MNTAISSGNERAFSAPALLVAGAFFMEFLDGTVIATALPDMARDFGVTAVELNIGISAYLITLAVLIPASGWIADRFGARAIFTLALAIFTLASIFCGLSSEMHIFVAMRILQGIGGALMVPVGRLAVLRTTPKHLLIKAIATLTWPALVAPIIGPPLGGFITRYASWHWIFFINVPLGVAAIILSLRIIPDIREAERRAFDMTGFITTAVAMVSLVTAMERLGDRQPQIWPTLALAALGFGCLAYAIRHFRRATAPMVRLTALQVPTFRVTMYGGSLFRASISAVPFLLPLLFQVGFGMDPFHSGLLVLAVFVGNLTIKPATTPLIRWLGFRRLLLINGALNVCSLLACALLTPETPVWAIMLILYLGGVFRSVQFTGVSTLAFADVPAAQMSDANTLFSTASQLAVGLGITLGAIGIRLGEQVGDWLHLSAVPGISFRLAFVFIAVICLVGMIDSLHLAKTAGSSVSAKKS				NA	NA	NA	NA	NA
BMS020_01029	639			hypothetical protein	ATGAAGATTGCACTGATGATGGAGAACAGCCAGGCGAACAAAAACGCCATCATCCTCAAGGAGCTTAACGCGGTTGCCGACGAAAAAGGATTTCCGGTCTATAACGTCGGTATGAGCGATGAGAACGATCATCATCTGACCTATATTCACCTCGGGATCATGGCCAGCATCCTGCTGAATTCGAAGGCGGTCGACTTCGTGGTCACCGGATGCGGTACCGGCCAGGGAGCGCTGATGTCGCTGAACATCCATCCTGGCGTGGTCTGCGGCTACTGTATCGACCCGGCGGATGCGTTCCTGTTTGCCCAGATCAACAACGGTAACGCGCTGTCGCTGCCGTTTGCCAAAGGTTTCGGCTGGGGCGCCGAGCTGAACGTGCGGTTTATCTTTGAAAAAGCCTTTACCGGTCGTAACGGCGAAGGCTATCCGCCGGAGCGCAAAGAACCGCAGGTGCGTAATGCCGGGATCCTCAACCAGGTCAAAGCGGCGGTAGTCAAAGAAAATTATCTCGATACCCTGCGCGCCATCGATCCGGAACTGGTGAAAACCGCGGTCTCTGGCCCTCGCTTCCAGCAGTGCTTCTTCGAAAACTGCAAGGATAAAGCGATCGAAGCGTTTGTCCGCCAGATCGTCGGGTAA	MKIALMMENSQANKNAIILKELNAVADEKGFPVYNVGMSDENDHHLTYIHLGIMASILLNSKAVDFVVTGCGTGQGALMSLNIHPGVVCGYCIDPADAFLFAQINNGNALSLPFAKGFGWGAELNVRFIFEKAFTGRNGEGYPPERKEPQVRNAGILNQVKAAVVKENYLDTLRAIDPELVKTAVSGPRFQQCFFENCKDKAIEAFVRQIVG	PGPT0017395_42	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
BMS020_01030	498	ftnA_2	COG1528	Bacterial non-heme ferritin	ATGCTGAAAACGGAAATGATCGACAAACTGAATGAACAGATGAATCTTGAACTCTATTCTTCTCTTCTTTATCAGCAGATGAGCGCCTGGTGCAGTTACCATAGTTTTGAAGGGGCTGCGGCCTTCCTGCGTCGCCATGCCCAGGAAGAGATGACCCATATGCAGCGCCTGTTCGACTACCTGACCGACACCGGCAGCCTGCCGCGCATCAACGCTATCGCCTCCCCGTTTGCCGAGTATGCGTCACTGGATGAACTGTTCCGCCAGACCTATGAGCACGAGCAGCTGATCACGCAAAAAATTAATGAACTGGCGCACGCGGCTATGACCAGTCAGGATTACCCGACCTTTAATTTCCTGCAGTGGTATGTCGCCGAACAGCATGAAGAAGAGAAATTATTTAAATCGGTAATTGATAAACTGACCCTCGCCGGGAAAAGCGGTGAAGGTCTGTACTTTATCGACAAAGAGCTGGCCACCCTCGATACGCAGAATTAA	MLKTEMIDKLNEQMNLELYSSLLYQQMSAWCSYHSFEGAAAFLRRHAQEEMTHMQRLFDYLTDTGSLPRINAIASPFAEYASLDELFRQTYEHEQLITQKINELAHAAMTSQDYPTFNFLQWYVAEQHEEEKLFKSVIDKLTLAGKSGEGLYFIDKELATLDTQN	PGPT0003970_1272	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003970-ftnA|ftn-K02217	NA	NA
BMS020_01031	240			hypothetical protein	ATGTCTTCTATTCATGGTCATGAAGTGCTGCAGATGATGCTGGCGTCGAAGGAGTGCTGGACGGTGGCTTCGCTGGAGGCGGCCATTCACCGTCGCTTTGGCGCAGAGGCGCGCTTTCACACCTGTTCGGCGGAAAACCTGAGCGCTGCGGAGCTGGTGGCGTTTTTAGAGCAGAAAGGCAAATTTATTGCCAGAGAGGCAGGATTTACCACCGCAGAAAACAAGATTTGTCAGCATTGA	MSSIHGHEVLQMMLASKECWTVASLEAAIHRRFGAEARFHTCSAENLSAAELVAFLEQKGKFIAREAGFTTAENKICQH				NA	NA	NA	NA	NA
BMS020_01032	1143	tyrP	COG0814	Tyrosine-specific transport protein	ATGCCATTGGCCGCCGCAGGCGTCGGCTTTACCGTCACGCTGGGTTTACTTTTCACCCTGTGGGCATTGATGTGCTATACCGCCCTTTTGCTGCTGGAAGTCTACCAGCATGTCCCTGCCGATATGGGGCTCGGTTCCCTGGCGGCGCGCTATCTGGGCCGTTATGGACAATGGATCACCGGGTTCTGCATGCTGTTTCTGCTGTACGCCCTCACGGCGGCCTACATCAGTGGCGCCGGCGAATTACTCGCTTCCAGCCTCAACCAGTGGCTGGACTGGCAGCTGCCGCCGGCTGCCGGCGTACTGATCTTCACCCTGCTCGGCGGGGCGGTGGTGTGCATTGGCACCGCGCTGGTCGACCTGTTCAATCGCTTCCTGTTTAGCGCCAAAATCGTCTTCCTGGTGATTATGCTGGCTCTGCTGATGCCGCACATTCATCAGGTGAACCTGCTCACGCTGCCGGTTGAGCAAGGCCTGGCGCTGTCAGCCATTCCGGTGATCTTTACCTCTTTTGGCTTTCACGGCAGCGTGCCGAGCGTCGTCAGCTATCTGGGGGGCGATATCCGTAAGCTGCGCCGGGTGTTTATTATCGGCAGTTTTATTCCGCTGGTGGCCTATATTTTCTGGCAGCTGGCGACGCTGGGCAGTATCGACGCTCCGGCCTTTACCGCCCTGCTGTCGCAACATGCCGGTCTGAACGGTCTGCTGGAGGCGATCCGCGAAGTGGTAGCGTCACCGCACGTGGAGCTGGCCGTACACCTGTTTGCCGACCTTGCGCTGGCGACCTCCTTCCTCGGCGTCTCGCTCGGGCTGTTTGATTATCTGGCCGATATGTTTCAGCGCAAAAACAGCGTCAGCGGGCGTCTGCAGAGCGGGATGATCACCTTTCTGCCGCCGCTGGCGTTCGCCCTGTTCTATCCCCGCGGCTTCGTCATGGCCCTGGGCTACGCCGGGGTGGCGTTGGCCGTGCTGGCCCTGATGTTACCGGCCATGCTGGTCATGAAGAGCCGCCGACTGCATCCGCAGGCCGCCTGGCGGGTGGCCGGCGGCGCCCCGGCGCTGTGGCTGGTCCTGCTGTGCGGGATCGGCATCGTAGCGATCCAGTTCTGCATCGTCGCCGGGCTGTTACCGGCGGTGGGATAA	MPLAAAGVGFTVTLGLLFTLWALMCYTALLLLEVYQHVPADMGLGSLAARYLGRYGQWITGFCMLFLLYALTAAYISGAGELLASSLNQWLDWQLPPAAGVLIFTLLGGAVVCIGTALVDLFNRFLFSAKIVFLVIMLALLMPHIHQVNLLTLPVEQGLALSAIPVIFTSFGFHGSVPSVVSYLGGDIRKLRRVFIIGSFIPLVAYIFWQLATLGSIDAPAFTALLSQHAGLNGLLEAIREVVASPHVELAVHLFADLALATSFLGVSLGLFDYLADMFQRKNSVSGRLQSGMITFLPPLAFALFYPRGFVMALGYAGVALAVLALMLPAMLVMKSRRLHPQAAWRVAGGAPALWLVLLCGIGIVAIQFCIVAGLLPAVG				NA	NA	NA	NA	NA
BMS020_01033	669			hypothetical protein	ATGAATACCGGACCCTTAAACGAAAACGAACTGGAATGGCTGGACGAGACGCTGGCGAAATACGCCACCGAAGGCGCTATTCTGGATGTCTCTGAACTTGATGGCCTGCTGACGGCGATCCTCTCGGCGCCCACCGCTATCGAACCCGCCCAGTGGCTGCTGGCTATCTGGGGGGGGGCTGATAATGTGCCACGCTGGGCCAACGACCGCGAGCGCGATCGCTTTGTCAATCTGACGCTGCAGCATATGAGCGATATCGCCGAACGGCTGGAGTCTTATCCCGATCAGTTCGAACCGCTGTTCGGCACCCGTGAAGCGGAAGGTCAGGAGCTGACCATCGTTGAAGAGTGGTGTTTTGGCTATCTGCGCGGTGTGGCGCTGAGCGACTGGTCGACGCTGCCTGCTGAACTTCAGCCTGAGCTGGAGGCGATTGCGCTCCACGGTAGCGAAGAACAGTTTTCCGCGCTGGATAATCTGACGGCGGATGAATTTATCGCCAGCATCGAGCGCATCACCCCGGCGGCGCTGGCGCTTTACCAGTACTGGATGGCGAATCCGCAGCCGGAGGTGGTCCCGCAGCCGGTAAGAAATGAGACGAAAGTCGGACGTAACGATCCCTGTCCGTGCGGCAGCGGTAAAAAGTATAAGCAGTGTTGCTTAGCGAAATGA	MNTGPLNENELEWLDETLAKYATEGAILDVSELDGLLTAILSAPTAIEPAQWLLAIWGGADNVPRWANDRERDRFVNLTLQHMSDIAERLESYPDQFEPLFGTREAEGQELTIVEEWCFGYLRGVALSDWSTLPAELQPELEAIALHGSEEQFSALDNLTADEFIASIERITPAALALYQYWMANPQPEVVPQPVRNETKVGRNDPCPCGSGKKYKQCCLAK				NA	NA	NA	NA	NA
BMS020_01034	882	dapA_2	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGTTCACAGGGCTTTGCGCGTTTCCGCTGACGCCGCTGCATCAGCAAACTATCGATGAAAAAGCGTTTATTCGTCTTCTTGCTCGTCTTACCGATGCCGGAGTCGACTCCCTGGGCATCTTAGGCTCAACCGGCAGCTACGCCTATCTCAGTCGTGAACAGCGCAAGCGGGTGGTGCAGGTGGCGAAGGCGCATGCCGGGTCGACCCCGATAATGATCGGCGTCGGCGCCATCGCCACCAGCGAGGTGCTCCGGCTGGTGGAGGATGCCCAGCAGGCCGGGGCGGATGCATTGCTCCTGCCGATGATGTCCTATCAGCCGCTCTTTGCGGAGGAGATCTACGCTTTTTACGAGGAGGTCTGCCGGCATGCCTCGGTGCCGGTTTGCCTGTATGACAACCCCCGTACCACCCACGTGACGTTATCGGATGAGCTGCAGGGGCAGATTGCTGCCTTACCGGCCATCGCCTCGATAAAAATTCCCGGTCTGCCCGCGCCGCAGGCGAGCGAACGGGTGGCGGCGCTGCGTCGTCATCTGCCTGGCGGCGTGACGCTTGGCGTTAGCGGTGACGTTCGTGCGACAGCGGGCTTGCAGGCCGGCTGCGAGGTCTGGTACTCGGTCTGCGGCGGCCTCTTTCCACGTATCTCTCTGGCGCTGGTGAAAGCCATCCGTCACGGCGATGCGGCACAGGTGGCTGCGCTGAATAAGCAACTTGCGCCCCTCTGGCGGTGCTTTGACCGCTACGGCGGCAGCCTGCGGGTGGTCGCCGCCGCTGCGGCCATTCTGGAATTGTGTGATCCTGACTCGCTTCCCCGCCCCTTGCTGCCGTTAGGGGAGGAGGCCTGTCGCGACGTGGCGGCGGCGCTGCACGGGCTGGCCTGA	MFTGLCAFPLTPLHQQTIDEKAFIRLLARLTDAGVDSLGILGSTGSYAYLSREQRKRVVQVAKAHAGSTPIMIGVGAIATSEVLRLVEDAQQAGADALLLPMMSYQPLFAEEIYAFYEEVCRHASVPVCLYDNPRTTHVTLSDELQGQIAALPAIASIKIPGLPAPQASERVAALRRHLPGGVTLGVSGDVRATAGLQAGCEVWYSVCGGLFPRISLALVKAIRHGDAAQVAALNKQLAPLWRCFDRYGGSLRVVAAAAAILELCDPDSLPRPLLPLGEEACRDVAAALHGLA	PGPT0002080_7043	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
BMS020_01038	549	pgsA_1	COG0558	CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase	ATGCAATTTAATATCCCTACGTTGCTTACTCTGTTCCGCGTCATCCTGATCCCGTTCTTTGTGCTGGCGTTTTATCTGCCCTTTAGCTGGGCGCCGTTTGCCTGCGCGCTGATTTTCTTTGTTGCCGCCGTGACTGACTGGTTTGATGGATTCCTCGCCCGTCGCTGGAACCAGAGTACCCGGTTCGGCGCCTTCCTCGATCCGGTGGCCGATAAAGTCATGGTGGCTATCGCCATGGTGCTGGTCGCTGAGCACTATCACACCTGGTGGGTCACGCTGCCGGCGGCGACGATGATTGCCCGTGAAATTATTATCTCCGCGCTGCGCGAGTGGATGGCGGAGCTGGGAAAACGCAGCAGCGTGGCGGTCTCGTGGATTGGCAAAGTGAAAACCACCGCACAGATGACTGCCCTGGTGTGGATGCTGTGGCGTCCTTATCCGTGGGTGGAATGGGCCGGGATCGCGCTTTTCCTCGTGGCGGCGGTGCTGACGCTGTGGTCGATGCTGCAATATTTGAACGCGGCGCGCGGCGATTTGCTTGATCAGTGA	MQFNIPTLLTLFRVILIPFFVLAFYLPFSWAPFACALIFFVAAVTDWFDGFLARRWNQSTRFGAFLDPVADKVMVAIAMVLVAEHYHTWWVTLPAATMIAREIIISALREWMAELGKRSSVAVSWIGKVKTTAQMTALVWMLWRPYPWVEWAGIALFLVAAVLTLWSMLQYLNAARGDLLDQ	PGPT0007705_4195	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995	NA	NA
BMS020_01039	1833	uvrC_1	COG0322	UvrABC system protein C	GTGAGTGATGTTTTTGACGCAAAAGCTTTCCTGAAAACGGTAACCAGCCAGCCCGGTGTGTATCGGATGTATGATGCTGGCGGAACCGTCATCTATGTTGGCAAAGCCAAAGATTTGAAAAAGCGGCTCAGCAGCTACTTCCGCAGCAACCTCGCGTCGCGTAAAACGGAAGCGCTGGTGGCGCTGATCGCGCAAATCGACGTGACCGTCACCCATACCGAGACGGAAGCGCTGCTGCTTGAACACAACTATATCAAGCTGTACCAGCCGCGGTACAACGTGCTGTTGCGCGACGATAAGTCGTATCCTTTTATCTTCCTCAGCGGCGATACCCATCCGCGTCTGGCGATGCATCGTGGCGCCAAACATGCGAAGGGCGAGTATTTTGGTCCTTTTCCCAACGGCTATGCCGTGCGCGAGACCCTGGCGCTGCTGCAGAAAATCTTTCCCATCCGTCAGTGTGAAAACAGCGTCTACCGCAATCGCTCCCGTCCCTGTCTACAGTATCAGATTGGTCGCTGCCTGGGGCCGTGCGTGGCGGGGCTGGTCAGTGAAGACGAGTATGCTCAGCAGGTGGAGTATGTGCGGCTGTTTCTCGCCGGCAAAGATGATCAGGTGCTGACTCAGCTCATCGCGAGGATGGAGAAGGCGAGTCAGAACCTCGAGTTCGAAGAGGCGGCGCGCATTCGCGACCAGATTCAGGCCGTCCGCCGCGTGACGGAGAAACAGTTTGTCTCTAACACCGGCGACGATCTTGACGTGATCGGGGTTGCCTTCGATGCCGGAATGGCCTGCGTCCATGTGCTGTTTATCCGCCAGGGGAAAGTGCTGGGCAGCCGCAGCTACTTCCCGAAAGTGCCGGGCGGCACCGAGCTGGGCGAGGTCGTGGAGACCTTTGTCGGCCAGTTCTACCTGCAGGGCAGCCAGATGCGCACGCTGCCGGGAGAGATTTTGCTCGACTTCAACCTCGGGGATAAGACGCTGCTGGCCGAGTCGTTGTCGGAGCTGGCGGGGCGCCGAATTCATGTGCAGACTAAACCGCGCGGCGACCGGGCGCGTTACCTTAAGCTGGCGCGCACCAATGCCGCCACGGCGTTAACCACGAAATTGTCTCAGCAATCGACCATTCATCAGCGTCTGCAGGCGCTGGCCACCGTGCTGGAGCTGCCGGCCGTGAAGCGGATGGAGTGCTTTGATATCAGCCACACCATGGGCGAACAGACCGTCGCCTCCTGCGTGGTATTTGACAGTAATGGCCCCCTGCGCGCGGAGTACCGGCGCTACAATATCGCCGGCATCACCCCGGGCGATGACTATGCGGCGATGAATCAGGTCCTGCGCCGTCGCTATGGTAAAGCGATTGATGACAACAAGATTCCGGATGTGATCCTGATAGACGGCGGCAAGGGGCAGCTGGCGCAGGCGAAAGCGGTGTTTGCCGAGCTGGACGTCCCCTGGGATAAACATCATCCGCTGCTGCTGGGCGTGGCGAAAGGTAGCGATCGTAAAGCCGGCCTGGAAACGTTATTCTTTGAACCAGAGGGCGAGGGATTTAGCCTGCCGCCGGATTCGCCGGCCCTGCACGTGATCCAGCATATCCGCGATGAATCGCACGATCATGCGATCTCCGGACATCGCAAAAAACGGGCGAAAGTGAAGAGCACCAGCTCGCTTGAGACTATCGAGGGGGTGGGGCCGAAGCGTCGCCAGATGCTGCTGAAGTACATGGGGGGGCTGCAGGGGCTGCAGCAGGCCAGCGTCGAAGAAATTGCCAAAGTACCGGGCATCTCTCACGCTCTGGCAGAAAAGATCTTCTACTCGTTGAAACATTAG	MSDVFDAKAFLKTVTSQPGVYRMYDAGGTVIYVGKAKDLKKRLSSYFRSNLASRKTEALVALIAQIDVTVTHTETEALLLEHNYIKLYQPRYNVLLRDDKSYPFIFLSGDTHPRLAMHRGAKHAKGEYFGPFPNGYAVRETLALLQKIFPIRQCENSVYRNRSRPCLQYQIGRCLGPCVAGLVSEDEYAQQVEYVRLFLAGKDDQVLTQLIARMEKASQNLEFEEAARIRDQIQAVRRVTEKQFVSNTGDDLDVIGVAFDAGMACVHVLFIRQGKVLGSRSYFPKVPGGTELGEVVETFVGQFYLQGSQMRTLPGEILLDFNLGDKTLLAESLSELAGRRIHVQTKPRGDRARYLKLARTNAATALTTKLSQQSTIHQRLQALATVLELPAVKRMECFDISHTMGEQTVASCVVFDSNGPLRAEYRRYNIAGITPGDDYAAMNQVLRRRYGKAIDDNKIPDVILIDGGKGQLAQAKAVFAELDVPWDKHHPLLLGVAKGSDRKAGLETLFFEPEGEGFSLPPDSPALHVIQHIRDESHDHAISGHRKKRAKVKSTSSLETIEGVGPKRRQMLLKYMGGLQGLQQASVEEIAKVPGISHALAEKIFYSLKH	PGPT0014925_2838	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014925-uvrC-K03703	NA	NA
BMS020_01040	657	uvrY_1	COG2197	Response regulator UvrY	TTGATCAACGTTCTTCTTGTTGATGACCACGAACTGGTGCGCGCAGGGATACGACGCATTCTGGAAGATATAAAAGGGATTAAAGTCGCTGGCGAAGCCTGCTGCGGTGAAGACGCCGTCAAGTGGTGCCGGGCTAATTCCGCTGATGTCGTCCTGATGGACATGAACATGCCCGGGATCGGTGGTCTGGAAGCGACGCGCAAAATCGCGCGCTCGGTAGCGGGCACGAAAGTGATCATGTTGACCGTGCATACCGAGAATCCTTTACCTGCCAAGGTCATGCAGGCAGGGGCGGCAGGGTATCTCAGTAAGGGCGCTGCGCCACAGGAAGTGGTGAATGCGATTCGCTGCGTCGCGTCCGGGCAACGTTACATTGCCTCCGATATTGCTCAGCAAATGGCGTTAAGTCAGATTGAACCGGAAAAAACAGAATCGCCGTTTGCCAGTTTGTCTGAACGCGAATTGCAGATTATGCTGATGATCACCAAAGGTCAGAAGGTGAATGAGATCTCAGAGCAGCTGAATCTGAGTCCTAAAACGGTTAACAGCTATCGCTATCGGATGTTCAGCAAATTGAACATTCATGGCGATGTCGAGCTGACCCACCTGGCAATTCGCCATGGCCTGTGTAATGCGGAGTCGTTAGCAAGCCAGTGA	MINVLLVDDHELVRAGIRRILEDIKGIKVAGEACCGEDAVKWCRANSADVVLMDMNMPGIGGLEATRKIARSVAGTKVIMLTVHTENPLPAKVMQAGAAGYLSKGAAPQEVVNAIRCVASGQRYIASDIAQQMALSQIEPEKTESPFASLSERELQIMLMITKGQKVNEISEQLNLSPKTVNSYRYRMFSKLNIHGDVELTHLAIRHGLCNAESLASQ	PGPT0012935_306	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-VarA|VarS_SIGNALLING_SYSTEM,PGPT0012935-gacA|uvrY|varA-K07689	NA	NA
BMS020_01041	225			hypothetical protein	ATGAGCACACCAGATTTTTCCACTGCAGAAAATAATCAAGAACTGGCGCAGGAAGTCACCTGCCTGAAAGCGCTGATGACGCTAATGCTGCAGGCGATGGGTCAGGCAGACGCGGGTCGCGTGATTATTAAAATGGAAAAGCAGATCGCGCAGATGGAAGATGAGGCTCAGGCCGCCGTATTCTCCAGCACCGTTAAGCAAATTAAACAAGCATACCGGCAGTAA	MSTPDFSTAENNQELAQEVTCLKALMTLMLQAMGQADAGRVIIKMEKQIAQMEDEAQAAVFSSTVKQIKQAYRQ				NA	NA	NA	NA	NA
BMS020_01042	723	sdiA	COG2771	Regulatory protein SdiA	ATGAGGGACAATGATTTTTTCAGCTGGCGGCGGGATATGCTGCATCAATTTCAGTCCATGGCCGCCGGTGAGGAGGTTTATAATCTCCTGCAACGAGAAACAGAAACGCTGGAATATGATTACTACACGCTTTGTGTGCGTCACCCGGTGCCTTTCACTCGCCCCCGCGTCACGTTTCAGTCGACCTATCCCCGCGCATGGATGTCTCATTACCAGGCAGAGAATTATTTCACGATAGATCCCGTGTTACGCCCGGAGAATTTTATGCGTGGCCATCTGCCATGGGAAGATGGGCTGTTTCGCGATGCCCAGGCATTATGGGACGGGGCGCGCGACCATGGTTTGCAAAAAGGGGTGACACAGTGTCTGACGTTGCCGAATCATGCTCAGGGTTTTCTCTCCGTCTCCGCGAACAACCGTTTGCCGAACGCTTATCCTGATGATGAACTGGAGCTGCGCCTGCGAACGCTGACGGAGTTGAGCCTGTTGACGCTCTTGCGTCTGGAAGATGAGATGGTGATGCCGCCAGAGATGAAGTTCAGCCGGCGCGAACTGGAGATCCTCAAATGGACCGCGGAAGGAAAGACCTCGGCGGAGGTGGCGATGATTCTCTCGATTTCGGAAAATACGGTTAATTTCCATCAGAAGAATATGCAACGGAAATTTAACGCGCCGAATAAAACGCAAATTGCCTGTTACGCCGTGGCGACAGGGCTAATCTGA	MRDNDFFSWRRDMLHQFQSMAAGEEVYNLLQRETETLEYDYYTLCVRHPVPFTRPRVTFQSTYPRAWMSHYQAENYFTIDPVLRPENFMRGHLPWEDGLFRDAQALWDGARDHGLQKGVTQCLTLPNHAQGFLSVSANNRLPNAYPDDELELRLRTLTELSLLTLLRLEDEMVMPPEMKFSRRELEILKWTAEGKTSAEVAMILSISENTVNFHQKNMQRKFNAPNKTQIACYAVATGLI	PGPT0014495_286	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0014495-sidA-K07782	NA	NA
BMS020_01043	753	artM_1	COG1126	Arginine transport ATP-binding protein ArtM	ATGAGTGCGATTGAAGTAAAAAGCCTGGTGAAAAAATTCCATGGCCAGACGGTGCTCCACGGTATCGACCTGGAGGTGCAGGAAGGCGAAGTGGTGGCGATCATCGGTCCCAGCGGCTCGGGGAAGACTACCCTGCTGCGCAGCATTAATCTGCTGGAGCAACCGGAGAGCGGCACTATCCGCGTCGGCGATGTGACGATCGACGCCGGTCGCAGCCTCGGGCCGCAAAAAGGGCTTATTCGGCGGCTGCGCCAGCACGTGGGTTTTGTCTTCCAGAACTTTAATCTGTTTCCCCACCGGACGGTGCTGGAGAACATTATTGAAGGGCCGGTCATCGTAAAAGGCGAAGACAAGCAGGAGTCGATGACGCGGGCGCGCGATCTGCTGGCGAAGGTGGGCCTCAGCGGCAAGGAGAACAGCTATCCGCGCCGCCTCTCCGGCGGGCAGCAGCAGCGGGTCGCCATTGCTCGCGCGCTGGCCATGCGTCCGGACGTGATCCTGTTTGATGAACCGACCTCGGCCCTTGATCCTGAGCTGGTAGGGGAGGTGCTCAATACCATCCGCCAGCTGGCGCAGGAGAAACGCACCATGGTTATCGTGACCCATGAAATGAGCTTCGCTCGCGACGTTGCCGATCGGGCGATTTTTATGGATCAGGGACGCATCGTTGAACAAGGCGAGGCCAAAGCGCTGTTCGCCTCGCCTCAGCAGCCGCGTACCCGCCAGTTCCTCGAAAAATTCCTGATGCAGTAG	MSAIEVKSLVKKFHGQTVLHGIDLEVQEGEVVAIIGPSGSGKTTLLRSINLLEQPESGTIRVGDVTIDAGRSLGPQKGLIRRLRQHVGFVFQNFNLFPHRTVLENIIEGPVIVKGEDKQESMTRARDLLAKVGLSGKENSYPRRLSGGQQQRVAIARALAMRPDVILFDEPTSALDPELVGEVLNTIRQLAQEKRTMVIVTHEMSFARDVADRAIFMDQGRIVEQGEAKALFASPQQPRTRQFLEKFLMQ	PGPT0020720_533	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0020720-tcyC|yecC-K10010	NA	NA
BMS020_01044	669	yecS_2	COG0765	L-cystine transport system permease protein YecS	ATGCAAGAAAGTATCCAACTGGTCATCGATTCCGCGCCTTTTCTGCTGAAAGGCGCCGTCTTTACGCTGCAGCTGAGCATTGGCGGGATGTTTTTCGGCCTGGTGCTGGGCTTTATCCTGGCGCTGATGCGCATGTCGCCCCTCTGGCCGGTAAAATGGCTGGCGCGCATGTATATCTCCATTTTTCGCGGGACACCGCTTATCGCCCAGCTGTTCATGATCTACTACGGTTTGCCGCAGTTTGGCATTGAACTTGACCCGATCCCGGCGGCGATGATCGGCCTGTCGCTGAACACGGCGGCCTACGCGGCGGAAACCCTGCGCGCGGCCATCGCCTCGATTGACAAAGGGCAATGGGAAGCGGCGGCCAGTATCGGTATGACCCCGTGGCAGACAATGCGTCGGGCTATTTTACCCCAGGCGGCGCGGGTCGCTTTGCCGCCGCTCTCTAACAGTTTTATCAGCCTGGTAAAAGATACCTCGCTGGCGGCGACGATCCAGGTGCCGGAGCTGTTCCGTCAGGCGCAGCTTATCACCTCGCGTACGCTGGAGGTCTTCACCATGTATCTGGCAGCCTCTCTGATCTACTGGGTGATGGCGACGGTACTCTCCTCGCTGCAGAACTATTTTGAAAACCAGCTGAACCGCCAGGAGCGTGATCCGAAATGA	MQESIQLVIDSAPFLLKGAVFTLQLSIGGMFFGLVLGFILALMRMSPLWPVKWLARMYISIFRGTPLIAQLFMIYYGLPQFGIELDPIPAAMIGLSLNTAAYAAETLRAAIASIDKGQWEAAASIGMTPWQTMRRAILPQAARVALPPLSNSFISLVKDTSLAATIQVPELFRQAQLITSRTLEVFTMYLAASLIYWVMATVLSSLQNYFENQLNRQERDPK	PGPT0020715_977	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0020715-tcyB|yecS-K10009	NA	NA
BMS020_01045	987	dcyD	COG2515	D-cysteine desulfhydrase	ATGTCACTGCAAAATTTAACCCGCTTTCCGCGTCTGGAACTGATCGGCGCGCCGACGCCGCTGGAGTATCTGCCGCGTCTGTCCGATCACCTCGGGCGCGAAATTTTTATCAAACGTGATGACACGACGCCGCTGGCGATGGGGGGCAACAAACTGCGTAAGCTGGAGTTTCTCGCCGCCGATGCGCTGCGCGAAGGGGCGGATACGTTAATCACCGCCGGCGCGATCCAGTCTAACCATGTACGCCAGACGGCGGCGGTCGCCGCCAAACTGGGCCTGCACTGCGTAGCGCTGCTGGAAAATCCCATCGGCACCCGGGCGGAGAACTATCTGAGCAATGGCAACCGCCTGCTGCTGGATCTGTTTAATACCCAGATTGAGATGTGCGATGCCCTGACCGATCCCGCAGCCCAGCTCGACGAGCTGGCGACCCGTATCGAAGCGCAGGGGTACCGCCCGTATGTCATTCCGGTCGGCGGCTCTAACGCCCTTGGGGCGCTAGGCTATGTAGAAAGCGCGCTGGAAATCGCCCAGCAGTGCGAAGACGCAGTGGAGATTTCGTCGGTGGTGGTCGCCTCCGGGAGCGCCGGCACCCATGCCGGACTGGCGGTCGGCCTTGAACAGCTGATGCCGCAGGCGGAACTGATCGGGGTGACGGTGTCGCGCGCTGTTGCCGACCAGTTGCCGAAAGTGGTGGCGCTGCAGCAGGCCGTGGCCAACAGCCTTGAGCTGCAGGCGAAAGCCGACATCATCCTGTGGGATGATTACTTTGCACCGGGCTACGGGACGCCAAACGAGGAAGGGATGGCCGCCGTGAAGCTGCTGGCGCAACTGGAAGGTATTTTGCTTGACCCGGTCTATACCGGCAAAGCGATGGCCGGACTTATCGATGGCATTACGCAGAAGCGCTTTAAGGATGAAGGGCCGATTTTGTTCGTCCATACCGGCGGAGCGCCGGCGCTGTTTGCCTATCATCCTCACGTCTAA	MSLQNLTRFPRLELIGAPTPLEYLPRLSDHLGREIFIKRDDTTPLAMGGNKLRKLEFLAADALREGADTLITAGAIQSNHVRQTAAVAAKLGLHCVALLENPIGTRAENYLSNGNRLLLDLFNTQIEMCDALTDPAAQLDELATRIEAQGYRPYVIPVGGSNALGALGYVESALEIAQQCEDAVEISSVVVASGSAGTHAGLAVGLEQLMPQAELIGVTVSRAVADQLPKVVALQQAVANSLELQAKADIILWDDYFAPGYGTPNEEGMAAVKLLAQLEGILLDPVYTGKAMAGLIDGITQKRFKDEGPILFVHTGGAPALFAYHPHV	PGPT0002000_229	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0002000-cuyA-K17950	NA	NA
BMS020_01046	768	fliY_3	COG0834	L-cystine-binding protein FliY	ATGGGCGCAATGGCCGTTGTTTTGATGGCTGGCGTTAGCGTGAAAACTTTTGCGGCGGAAAACCTGCTCAATCAGATTAAAGAGCGCGGCACGCTGCGCGTGGGCCTCGAAGGCACCTATCCTCCCTTTAGCTTCCAGGGCGATGACGGCAAGCTGACCGGCTTTGAAGTGGAGTTCGCCAACGAGCTGGCGAAACATCTTGGCGTGAAGGCCGACCTCAAACCGACCAAGTGGGACGGTATGCTGGCCTCGCTGGACTCCAAACGCATTGACGTGGTGATTAACCAGGTCACTATCTCCGATGAGCGTAAGAAGAAATACGATTTCTCTACCCCGTACACGATCTCCGGTGTGCAGGCGCTGGTGAAGAAAGGCAACGAAGGCGCGATTAAAACCGCGGCGGATCTGAAAGGCAAGAAAGTGGGCGTCGGGCTGGGCACTAACTATGAAGAGTGGCTGCGTCAGAACGTCCAGGGCGTGGATGTCCGCACCTATGACGACGACCCGACCAAATACCAGGATCTGCGCGTAGGCCGTATTGACGCCATTCTGGTTGACCGTCTGGCGGCGCTGGATCTGGTGAAGAAAACCAACAATACGCTGGCGGTCACCGGCGAAGCGTTCTCCCGTCAGGAAGCTGGCGTTGCGCTGCGTAAAGGCAACGATGACCTGCTGAAAGCGGTAGATGGCGCGATTGCGGATATGCAAAAAGATGGCAGCCTGAAGGCGCTGTCCGAGAAATGGTTTGGCGCTGACGTGACAAAATAA	MGAMAVVLMAGVSVKTFAAENLLNQIKERGTLRVGLEGTYPPFSFQGDDGKLTGFEVEFANELAKHLGVKADLKPTKWDGMLASLDSKRIDVVINQVTISDERKKKYDFSTPYTISGVQALVKKGNEGAIKTAADLKGKKVGVGLGTNYEEWLRQNVQGVDVRTYDDDPTKYQDLRVGRIDAILVDRLAALDLVKKTNNTLAVTGEAFSRQEAGVALRKGNDDLLKAVDGAIADMQKDGSLKALSEKWFGADVTK	PGPT0015635_767	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
BMS020_01047	1488	amyA	COG0366	Cytoplasmic alpha-amylase	ATGAAAAACCCCACCTTGTTGCAATGTTTTCACTGGTACTACCCCGCCGGCGGCGAACTGTGGCGTGAAGTCGAAGCGCTGGCCCCCAGTCTTAACGAAATCGGCATCAATATGGTCTGGTTGCCACCCGCCTACAAAGGCGCCTCGGGCGGTTATTCCGTCGGCTATGACACCTACGATCTCTTCGACCTCGGCGAGTTTGATCAAAAGGGCTCTGTCGCCACCAAATATGGCGATAAAACCCAGCTGCTGGCGGCGATCAACGCCCTGAAGGAGCACGACATCGCCGTGCTGCTGGACGTGGTGGTGAACCATAAAATGGGCGCCGATGAAAAAGAGGCCTTGCGCGTGCAGCGCGTCGATGAGCAGGATCGCACGCAAATTGACGAGACGATCATAGAGTGCGAGGCATGGACTCGCTATACCTTCCCGGTGCGCGCCGGGCAGTATTCGCAGTTTGTCTGGGACTACAAGTGTTTTAGCGGCATTGACCACATCGAGAATCCGACGGAAGACGGTGTATTTAAAATCGTCAACGACTACACCGGCGAAGGCTGGAATGAGCAGGTCGATGATGAGCTTGGCAACTTCGACTACCTGATGGGCGCTAATATCGATTTTCGTAATCACGCCGTCACCGAAGAGATCAAATACTGGGCGCGCTGGGTGATGGAGCAGACCGGCTGCGACGGTTTTCGTCTTGACGCCGTGAAGCATATCCCCGCCTGGTTTTACAAAGCATGGATCGAACATGTTCAGGAGGTGGCCCCGCAGCCGCTGTTTATTGTCGCGGAATACTGGTCCCATGAAGTGGAAAAGCTCCAGCAGTATATCGACCTCGTCGAGGGCAAAACGATGCTTTTCGATGCCCCGCTGCAGATGAAATTTCATGAAGCGTCCCGCCAGGGGCGCGATTACGACATGAGCCAGATTTTCAGCGGGACGCTGGTGGAAGCCGACCCCTTCCATGCCGTCACCCTGGTCACCAACCATGATACCCAGCCGCTGCAGGCGCTCGAGGCGCCGGTTGAGCCATGGTTTAAACCGCTGGCCTACGCGCTGATCCTGTTGCGTGAAAATGGCGTGCCCTCGGTCTTCTATGCCGATCTCTTCGGCGCTTCCTATGAAGATACCGGCGGCGACGGACAAACCTACGCCATAGAAATGCCCGTCATCGAGCAGCTACACGAACTGATCGACGCCCGTCAGCGCTTTGCCCACGGCGTGCAGACTCTCTGGTTCGATCACCCCAACTGCATTGCCTTCAGCCGCAGCGGCACCGACGAGGATCCCGGCTGCGTGGTGGTGATGTCCAATGGTGATGAGGGAGAAAAGACCCTGACGCTGGGCGAGAACTATGGCAACAAGCGCTGGCGGGATTTCCTGGGCAACCGGGAAGAGATTGTCGAAACCGACGACGAAGGCTGCGCAACCTTTACCTGTAACGGGGGAAGCGTCAGCGTGTGGGTGCTGGAGGCGGTGCTGTAG	MKNPTLLQCFHWYYPAGGELWREVEALAPSLNEIGINMVWLPPAYKGASGGYSVGYDTYDLFDLGEFDQKGSVATKYGDKTQLLAAINALKEHDIAVLLDVVVNHKMGADEKEALRVQRVDEQDRTQIDETIIECEAWTRYTFPVRAGQYSQFVWDYKCFSGIDHIENPTEDGVFKIVNDYTGEGWNEQVDDELGNFDYLMGANIDFRNHAVTEEIKYWARWVMEQTGCDGFRLDAVKHIPAWFYKAWIEHVQEVAPQPLFIVAEYWSHEVEKLQQYIDLVEGKTMLFDAPLQMKFHEASRQGRDYDMSQIFSGTLVEADPFHAVTLVTNHDTQPLQALEAPVEPWFKPLAYALILLRENGVPSVFYADLFGASYEDTGGDGQTYAIEMPVIEQLHELIDARQRFAHGVQTLWFDHPNCIAFSRSGTDEDPGCVVVMSNGDEGEKTLTLGENYGNKRWRDFLGNREEIVETDDEGCATFTCNGGSVSVWVLEAVL	PGPT0018575_2219	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0018575-amyA|malS-K01176	NA	NA
BMS020_01048	432			hypothetical protein	ATGAAACAGTTAGTTTTTGCTGGCATGGTGCTGGCGCTGGCCGGATGCGTGCAGGTTGATCGTTACGAAGAGGTTGTTAAAGCGCCAGCGCCGGCAGGCCTGGAAGGCTACTGGCAGACGAAAGGGCCGCAGAGCGAGATGATGAGTCCGGACGCCATCGCCAGCCTGATCGTCACCAAAGAAGGGGACACCTTCGACTGCCGCCAGTGGCAGCGTGTGATCGCCCAGCCGGGGAAACTGATGAACCGCGATAGCGATATCTACAACGTGACCACTTCCCTGGATATCTACCCGATCGAGCGCGAGGGCAATACCCTTTCCTACGATCGTATGACGTTGACCCGCGTTGAACGTCTCACCCCGGAGTGCGAGAAGGCGTGGGCTAAAGCGCGTGCGGCCGCTCCAGTCAGCGCGCCGACCACCGCGCGCTAA	MKQLVFAGMVLALAGCVQVDRYEEVVKAPAPAGLEGYWQTKGPQSEMMSPDAIASLIVTKEGDTFDCRQWQRVIAQPGKLMNRDSDIYNVTTSLDIYPIEREGNTLSYDRMTLTRVERLTPECEKAWAKARAAAPVSAPTTAR				NA	NA	NA	NA	NA
BMS020_01049	624	rcsA	COG2771	Transcriptional regulatory protein RcsA	ATGTCAACGATGATTATGGATTTGTGCAGTTATACCCGGTTGGGGCTAACGGGATATCTGACCAGTCGGGGAATTAAAAAACAGGAAATCGTTGAGGTCAACTGCGCTGAGGATCTGCACAGGCACTGTGCGTCATGTTGCCCGGCGGTGGTGTTTCTGAATGAAGATTGCTTTGTGCATGATGATGAAAGTAATGGCATTATTCGCCAGATCATCACGCAAAACCCGGCGACGTTGTTTGTGATTTTTATGTCGCTGGCGAACATCCATTTTGACCGCTATCTACGGGTGCGTAAGAACCTGCTAATCAGCTCAAAATCGATCACTCCAAAAGACCTTGATGTCATTCTGGTTAATTATCTTAAATACAAGAACACGAGTCTGGGGCAGTTAAATTTACCGACGTTGTCGCTGAGCAAAACAGAATCAAATATGCTGCAAATGTGGATGGCCGGGCATGGTACTTCGCAAATTTCAACGCAAATGAACATCAAAGCGAAAACGGTATCATCGCATAAAGGCAATATTAAAAAGAAAATACAGACGCATAATAAGCAGGTGATTTACCACATCGTTCGGCTGACCGAAAACATTACCAGCGGTATTCAGGTGAATCTACGCTGA	MSTMIMDLCSYTRLGLTGYLTSRGIKKQEIVEVNCAEDLHRHCASCCPAVVFLNEDCFVHDDESNGIIRQIITQNPATLFVIFMSLANIHFDRYLRVRKNLLISSKSITPKDLDVILVNYLKYKNTSLGQLNLPTLSLSKTESNMLQMWMAGHGTSQISTQMNIKAKTVSSHKGNIKKKIQTHNKQVIYHIVRLTENITSGIQVNLR	PGPT0014840_70	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0014840-rcsA-K07781	NA	NA
BMS020_01050	192	dsrB		Protein DsrB	ATGCAGGTGAACGATCGTGTCACGGTGAAGACCGACGGTGGCCCACGTCGATCGGGCGTAGTGCTGGCAATTGAGTCGTTTAGTGAAGGGACGATGTATCTGGTTTCGCTGGAAGACTATCCCCTGGGGATCTGGTTTTTCAATGAAATAGGGCACCCGGATGGGATCTTCGTGGAAAAAGAAATCTCGTAA	MQVNDRVTVKTDGGPRRSGVVLAIESFSEGTMYLVSLEDYPLGIWFFNEIGHPDGIFVEKEIS				NA	NA	NA	NA	NA
BMS020_01051	225			hypothetical protein	ATGATGAAGAACCGATTGACAGACCAGACCGGGAACGACGTTGATGTCAACGTTGATGCTCTGCTGGCGGCGATTAATGAGATCAGCGAAAGCGAAGTCCATCGCATCCTCGATGACCCACAGCGCGCCAGTATCGATGGCCGCGGGGCGCATACCTGGCGTGAACTGGCGGAGGCATTTGAACTCGATATTCATGATTTCAGCGCCAGTGAAGCCAACCGCTAG	MMKNRLTDQTGNDVDVNVDALLAAINEISESEVHRILDDPQRASIDGRGAHTWRELAEAFELDIHDFSASEANR				NA	NA	NA	NA	NA
BMS020_01053	1680	dgcQ		putative diguanylate cyclase DgcQ	ATGGAAAAGCCACTACGGTTGAAGTTGAAAAAACTCTACCACCTGACTCGCCCGGCGCATGTGGTTAACATTTGTTTTATCGTGGTGCTGTTTTTCTCCACGCTGCTGATCTGGCGCGAAATCAATGTCCTGGAAGAGGCCTACGTGGCGAACCAGCGCAATAATCTGGCTAACGTCGCGCATGAAATGGATGGCCTGCTGCAGTTCAACATCGACAGGATGATGTTTTTTCGCCACGGTATGCAGTCCGCGCTTGAACGCCCGCTCGACGTCGATGTGTTGCACGAAGCCAGCCAGCGCTATCTGAGCCAACGCCACCAGGAGACCTGGCGGGTGGCGCTCCCCAACCGCCGGACGCTGCCGGTGTTTGGCGTCTCGGAGGGCGTCGTCAGGGATCACCCGCTGCTCTTGCCGGACGATCCGCTGGTGGTCAATGAACTGATGGCGACGCTGGAGCTGGGTTATCTGTTAAACCTGACGCAGCATGACCGCGATTTTGCCGAGCGGATGCAATATATCTCCCGCAGCGGTTTTTTCACCTCGACCCTGCCGCTGCGCGATGAATCGCAGGTGAAGACCTACTATTCGCGCGCCATCAGCGCCCTCTGGTTTACCCGGCAGACCCAGCGGAACAATCCGCACCGCGGCGTTATCTGGCAAACCTTTCCTGACGATGACCCGCAGCTGGAAGAGCAGGTGGTCACCGCCTCGATACCGCTGGATTTTGCCGGTTACTGGCGCGGCGTGCTGGCGATGGATTTCTCAGTCAGCGAAATAAAAGCATTTTTAATCAGCGCGATGCAGGGCGGGCAGGAGGGGGAATATCAGCTTTACGACAGCCATCTTAGCCTGCTGGCCTCTTCTGCGCCGGGGAATGTCCTGACGCTGCTGTCGCCGCGCGAACAGGAACTGCTCAGCCGCGCGTTTGCCCATGATAATCAGGGCGGTCTGCGTCTGCTGACGCGCTATATCAGCTGGGCCAAACTGCGCAATTTTGACGGCGTGCTGTTGCGGATCCATACCCTGCGGGAAGGCGTACGCGGCAACTTTGGCACCATCACCATCGCCCTTACCCTGATGTGGATCCTCTTCACCTTAATGCTGCTGCTCTCCTGGCTGGTGATCCGCCGTATGGTCCGCAACATGAGCGTTCTCCAGACCTCCCTGGAGTGGCAGGCCTGGCACGATGCCTTAACCCGCCTGCTCAATCGCGGGGCGCTGTTTGAGAAGGCGATGGCGGTAGCCAGCGACTGCCAGCGCAGCGGACGACCGCTGGCGGTCATCCAGCTCGATTTGGATCACTTTAAGGGCATTAACGATCGCTATGGCCATCAGGCGGGTGACAGAGTGCTGTCGATGGTGGCCAGTACGCTTGCCGGCACCGTCCGGGACGGTGATTTGCTGGGCCGCGTGGGCGGAGAGGAGTTTTGTGTCGTGCTGCCGAATACCACGCTGCAGGAAGCGGCGGCGGTAGCGGAGCGGCTACGCCTGCGTATTCATGGCCGGGAGGTCTTTTTGCATAACAACGTGACGCTGCGGGTCAGCGCGTCGTTAGGGGTGAGCGGCAGCGAAGAGCGGGGGGAGTATCACTTTGAAGCCCTGCAGTCGGTCGCCGATGGTCGACTGTATCTGGCCAAGCAAAATGGCCGCAACCAGGTCTGGTATCGCAGCGAAGCGTGA	MEKPLRLKLKKLYHLTRPAHVVNICFIVVLFFSTLLIWREINVLEEAYVANQRNNLANVAHEMDGLLQFNIDRMMFFRHGMQSALERPLDVDVLHEASQRYLSQRHQETWRVALPNRRTLPVFGVSEGVVRDHPLLLPDDPLVVNELMATLELGYLLNLTQHDRDFAERMQYISRSGFFTSTLPLRDESQVKTYYSRAISALWFTRQTQRNNPHRGVIWQTFPDDDPQLEEQVVTASIPLDFAGYWRGVLAMDFSVSEIKAFLISAMQGGQEGEYQLYDSHLSLLASSAPGNVLTLLSPREQELLSRAFAHDNQGGLRLLTRYISWAKLRNFDGVLLRIHTLREGVRGNFGTITIALTLMWILFTLMLLLSWLVIRRMVRNMSVLQTSLEWQAWHDALTRLLNRGALFEKAMAVASDCQRSGRPLAVIQLDLDHFKGINDRYGHQAGDRVLSMVASTLAGTVRDGDLLGRVGGEEFCVVLPNTTLQEAAAVAERLRLRIHGREVFLHNNVTLRVSASLGVSGSEERGEYHFEALQSVADGRLYLAKQNGRNQVWYRSEA	PGPT0026200_151	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|CRP_SIGNALLING_PATHWAY,PGPT0026200-yedQ-K21085	NA	NA
BMS020_01054	849	yedI_1	COG2354	Inner membrane protein YedI	ATGATGGGCAAGCTGGCGGCGAAAAAAACGGCCGGGGTGCTGGGCGACGATCTCTCCCTCAACGCCCAACAGGTGACCGGCGTGCGGGCAAATCGTGAGCTGCCTGTGGTCTGGGGCGTGGCGAAAGGGTCGTTCGTCAATAAAATCATCCTCGTGCCGCTGGCCCTGCTAATCAGCGCCTTCATTCCCTGGGCGATTACGCCGCTGCTGATGTTGGGCGGCGCGTTTCTCTGTTTTGAAGGGGTGGAAAAGGTGCTCCACAGCCTGGAAGCGCGTAAGCACAAAGAGGACCCAGCGCAACGGCAGCAGCGTCTTCAGGCGCTGGCGGATCGTGATCCGCTGGCCTTTGAGCGTGACAAAGTCAGAGGGGCGATCCGCACCGACTTTATTTTGTCCGCGGAAATTGTCGCCATCACCCTCGGCATTGTCGCGGAAGCGCCGCTGCTGAATCAGATCCTCATTCTGTCGGGGATCGCGATTCTGGTCACCGTCGGGGTCTATGGCCTGGTGGGGGTGATCGTCAAACTGGATGACATGGGCTACTGGCTGGCAGAGAAACGCAGTAACCTGGCGCAGTGGCTGGGCAAAGGGTTATTGACCGTGGCCCCCTGGCTGATGAAAGTGCTCTCTATCGTCGGGACGCTGGCCATGTTCCTCGTGGGCGGCGGGATTGTGGTTCACGGTATTGCGCCGCTACACCATGCCATTGAGCACTGGAGCGCGGGGCTGGGCGGCATGTTGGCCGCCTTGCTGCCGATGGTGGCTAATCTGGTGCTGGGTTTTATCATCGGCGCGGTGGTGCTGGCGGGCGTCAAGGCGGTCAGTCGCCTGCGTGGCGCGGTGAAGTAG	MMGKLAAKKTAGVLGDDLSLNAQQVTGVRANRELPVVWGVAKGSFVNKIILVPLALLISAFIPWAITPLLMLGGAFLCFEGVEKVLHSLEARKHKEDPAQRQQRLQALADRDPLAFERDKVRGAIRTDFILSAEIVAITLGIVAEAPLLNQILILSGIAILVTVGVYGLVGVIVKLDDMGYWLAEKRSNLAQWLGKGLLTVAPWLMKVLSIVGTLAMFLVGGGIVVHGIAPLHHAIEHWSAGLGGMLAALLPMVANLVLGFIIGAVVLAGVKAVSRLRGAVK				NA	NA	NA	NA	NA
BMS020_01055	912	yedA_1		putative inner membrane transporter YedA	ATGTCTACCCGTCAGCTGTTACCGCTTATCGGGGCGCTGTTTGCGCTGTATATCATTTGGGGCTCTACCTATTTCGCCATCGCCGTCGGCGTCGCCAGCTGGCCGCCGCTGATGATGGCCGGAATTCGCTTTCTCTCTGCCGGCGTGCTGCTGCTGGGATGGCTGTTGGCCACCGGCCATAAACTGCCGGCCCGCGGACCGTTGCTTAACGCCGCGCTGATCGGGGTTTTGCTGCTGGCCGTCGGCAACGGCTTTGTCACCCTGGCCGAACATCAGCACGTTCCCTCCGGGATCGCCGCGGTCATGGTCGCCACCGTTCCGCTGTTCACCCTGTGCTTCAGCCGCTTTTTCGGCATCGCCACTCGTAAACTGGAATGGCTGGGGATTGCCATTGGCCTCGCGGGTATTGTGATGCTTAACAGCGGAGGCAACCTGAACGGCAACCCCTGGGGCGCGCTGCTGATCCTGATTGGCTCCCTGAGCTGGGCCTTTGGCTCGGTTTACGGCTCGCGGATCGAGCTGCCGACCGGCATGATGGCGGGGGCAATCGAGATGCTCGCCGCCGGGATCGTCCTGCTGGCCGCGTCATGGCTGAGCGGCGAAACCTTAACCCGTGTTCCGTCGTGGTCCGGGATCGCCGCTGTGGCCTACCTGGCTATCTTTGGCTCGCTGATTGCCATCAACGCCTATATGTTTTTGATCCGCAATGTCACCCCGGCGGTAGCCACCAGCTACGCCTATGTCAACCCGGTGGTGGCGGTTCTGCTTGGTACCGGATTCGGTGGCGAAAGCCTGTCCCTGATCGAGTGGCTGGCGCTGGCGGTGATTATTTTTGCCGTCGTGCTGGTGACGCTGGGGAAATACCTTTTCCCGGTTCGCAGCGAAGCGACCCCTTGTAAGGCGTCGAAATAA	MSTRQLLPLIGALFALYIIWGSTYFAIAVGVASWPPLMMAGIRFLSAGVLLLGWLLATGHKLPARGPLLNAALIGVLLLAVGNGFVTLAEHQHVPSGIAAVMVATVPLFTLCFSRFFGIATRKLEWLGIAIGLAGIVMLNSGGNLNGNPWGALLILIGSLSWAFGSVYGSRIELPTGMMAGAIEMLAAGIVLLAASWLSGETLTRVPSWSGIAAVAYLAIFGSLIAINAYMFLIRNVTPAVATSYAYVNPVVAVLLGTGFGGESLSLIEWLALAVIIFAVVLVTLGKYLFPVRSEATPCKASK				NA	NA	NA	NA	NA
BMS020_01056	516	vsr	COG3727	Very short patch repair protein	ATGCGGGCTATCGCCACGCGCGATACGGCGATCGAGAAGCGGATAGCGGCGCTGTTGACTCAGGCGGGATTCACCTTTGTTGCCCAGGAGCGCGAGCTGCCGGGACGCCCTGATTTCGCTTTACCCGATTACCGTTGCGTCATCTTTACCCACGGCTGTTTCTGGCATCACCATGACTGTTACCTGTTTAAGGTGCCGGCCACCCGGACGGCGTTCTGGCTGGACAAGATCGCCGGCAACGTGGCGCGCGATGCCCGTGACCGGCAAAAGCTGGCCGAGCAGGGCTGGCGGGTGCTTATCGTCTGGGAATGCGCCCTGCGCGGTCGGCTGAAGCTGAATGACGAGGCGCTCACCGAGCGTCTGGAAGAGTGGATCTGCGGCGCCGGACACGACGCGCAGATCGACACCCAGGGGATCCGCGAACTGGCGCTTATTTCGACGCCTTACAAGGGGTCGCTTCGCTGCGAACCGGGAAAAGGTATTTCCCCAGCGTCACCAGCACGACGGCAAAAATAA	MRAIATRDTAIEKRIAALLTQAGFTFVAQERELPGRPDFALPDYRCVIFTHGCFWHHHDCYLFKVPATRTAFWLDKIAGNVARDARDRQKLAEQGWRVLIVWECALRGRLKLNDEALTERLEEWICGAGHDAQIDTQGIRELALISTPYKGSLRCEPGKGISPASPARRQK	PGPT0020015_1155	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
BMS020_01057	1401	dcm	COG0270	DNA-cytosine methyltransferase	TTGTCATTGACGGAACAGGCCGGTGAAGAGGCTCAGGCGCTGCTGCGCCAGCTGATGACGATCTACGATGTGAAAACGCTGGTCGCCGAACTGGTGAGCGTCGGGGAGCAGCACTGGAGCGCGGCGATCCTCAAGCGCGTGGCGGCCGTCAGCCGCGCGGCAGCGCGTTTGCGTCCGCAGGAGGTCGCTCATCTGGCGACGCTGCTGCCGTCGCCGCCGGCCCATCATCCGCACTATGGATTCCGCTTTGTCGATCTGTTTGCCGGTATCGGCGGGATCCGCAGCGGTTTTGAAGCTATCGGCGGGCAGTGCGTCTTTACCAGCGAGTGGAACAAGCATGCGGTGCGCACCTATAAGGCCAACTGGTATTGTGATCCGCAGCAACACCGTTTCAATGAAGATATTCGCGATATCACCCTCAGCCATCGCCCCGACGTTAGCGATGACGAGGCGGCGCAGCATATCCGCGAGACTATCCCGCAGCATGATGTGCTGCTGGCCGGCTTTCCCTGCCAGCCTTTCTCACTTGCCGGCGTGTCGAAAAAAAATGCCATGGGCCGCGCCCACGGCTTTGCCTGCGAAACCCAGGGGACGCTGTTTTTTGATGTAGTGAGAATTATCGCCGCCCGTCAGCCGGCGATCTTTGTGCTGGAGAATGTCAAAAATCTCAAAAGCCACGATCAGGGGCGGACCTTCCGCATCATCATGCAGACGCTGGATGAGCTGGGGTATGAGGTCGCTGACGCCGGGCATAGCGGGCCGGACGATCCGAAGGTGATCGACGGGCGCCATTTCTTACCGCAGCACCGGGAGCGCATCGTGCTGGTGGGCTTCCGTCGCGATCTGCAGCTGCACGAGGGGTTTACGCTGCGCGATATCGCGGCGCTGTACCCGGCGGTTCGGCCAACATTTGGCGAGCTGCTGGAGCCGACGGTGGATGCCAAATTTATCCTCACGCCGGTACTGTGGAAATATCTTTATCGATATGCCCGCAAGCATCAGGCGCGGGGCAATGGCTTTGGTTATGGCCTGGTGGACCCCGCCAATCCCCACAGCGTGGCCCGGACGCTCTCCGCCCGCTACTATAAAGATGGCGCCGAAATTCTCGTCGATCGCGGCTGGGATCGGCCGCTGGGCGAGACGCATTTTGACGATCCGCAGAATCAACAGCGGCGTCCTCGTCGGTTGACGCCGCGGGAGTGCGCCCGGTTGATGGGTTTCGAATCGCCTCAGGGGGCGCGTTTCCGCATCCCGGTGTCGGATACCCAGGCCTATCGTCAGTTCGGCAACTCGGTGGTGGTTCCGGTCTTCGCCGCGGTGGCGAAGCTCCTGGCCCCGCGCATCGCTCAGGCGGTGGCGCGTCGCGAAGCGGGTGATAACGATGGCGGATGTTCACGATAA	MSLTEQAGEEAQALLRQLMTIYDVKTLVAELVSVGEQHWSAAILKRVAAVSRAAARLRPQEVAHLATLLPSPPAHHPHYGFRFVDLFAGIGGIRSGFEAIGGQCVFTSEWNKHAVRTYKANWYCDPQQHRFNEDIRDITLSHRPDVSDDEAAQHIRETIPQHDVLLAGFPCQPFSLAGVSKKNAMGRAHGFACETQGTLFFDVVRIIAARQPAIFVLENVKNLKSHDQGRTFRIIMQTLDELGYEVADAGHSGPDDPKVIDGRHFLPQHRERIVLVGFRRDLQLHEGFTLRDIAALYPAVRPTFGELLEPTVDAKFILTPVLWKYLYRYARKHQARGNGFGYGLVDPANPHSVARTLSARYYKDGAEILVDRGWDRPLGETHFDDPQNQQRRPRRLTPRECARLMGFESPQGARFRIPVSDTQAYRQFGNSVVVPVFAAVAKLLAPRIAQAVARREAGDNDGGCSR	PGPT0020015_1918	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
BMS020_01058	711	yedJ	COG1418	putative protein YedJ	ATGAACCTGGTTGACTGGCAGCAGCGATTTGAGCACTGGATACTGACGCACCACGCCCGGGAGGATGCGGCGCACGATCTGTCCCATTTTCGTCGCGTCTGGGCCACCGCCACCCGGCTGGCCGCCGGGGAGGAGGAGGTCGACGGGCTGGTGCTTCTCACGGCCTGCTATTTTCATGACATTGTCAGTCTGCCTAAAAATCATCCGGAGCGAAGCCGCTCCTCAATGATGGCGGCCGAGAAAACCCTGGCTATTTTGCAGTCGTCGTTTGCCGATTTTCCCGCAGACCGGTATGCGGCGGTCAGCCACGCTATTGAGGCGCACAGCTTCAGCGCGGCGATCCCGCCGCGCACGCTGGAGGCGAAAATCGTCCAGGACGCCGACCGTCTCGAGTCGCTGGGGGCGATAGGCCTGGCGCGGGTCTTCGCCGTCGCCGGCGCCCTGAACACCATTCTGTTTGATGCCGACGATCCTTTCGCCGACCGGCGAGCGCTGGATGACAGAAAATATGCCCTCGACCATTTCCAGTGCAAGCTCCTGCGCCTGCCGGAAACCATGCAGACCGCCGGAGGAAGGGCTATGGCGCAGCATAATGCGCGCTTCCTCGTCGAGTTTATGGCCAAGATCAGCGCGGAGCTGAAGGGGGAACCCCTGGCACTGGATGAGGCGGTTTTACGCCGCTTTGCACCGCAGCCGTCAACCGACCAGTGA	MNLVDWQQRFEHWILTHHAREDAAHDLSHFRRVWATATRLAAGEEEVDGLVLLTACYFHDIVSLPKNHPERSRSSMMAAEKTLAILQSSFADFPADRYAAVSHAIEAHSFSAAIPPRTLEAKIVQDADRLESLGAIGLARVFAVAGALNTILFDADDPFADRRALDDRKYALDHFQCKLLRLPETMQTAGGRAMAQHNARFLVEFMAKISAELKGEPLALDEAVLRRFAPQPSTDQ				NA	NA	NA	NA	NA
BMS020_01059	282	yedR		Inner membrane protein YedR	ATGGAAGAGCAGGCAAAACGCAGCCCGGGCGGCAAACTTGCGCTATGGGCGTTGTATGCCTTTTGCGGATATTGTGTCTGGGTCATTGTGCGTTACTGGTGGGTGGTGGGAAAAATTCACAGTGTCCCCGGCGCCAGTGCGGAGGGCGATTTTGGCACCATGGCAGGGAAATGGCTTGGCGCCCTGCTGGGAATGCTGGTGCTCGCCGGCATTGGCGCGATCCTCGGCGCTGTCGTCTGGTATACACGGCCCTCCGGAAGCGGGCGGGATCATCGGTCGTAA	MEEQAKRSPGGKLALWALYAFCGYCVWVIVRYWWVVGKIHSVPGASAEGDFGTMAGKWLGALLGMLVLAGIGAILGAVVWYTRPSGSGRDHRS				NA	NA	NA	NA	NA
BMS020_01060	1137	ompN_2	COG3203	Outer membrane porin N	ATGAAAAGAAAAGTACTGGCACTCATGGTACCGGCATTACTCATGGTCAATGCCGTTAATGCTGCAGAAATTTATAACAACAACGCCAACAAACTGGACCTTTATGGGAAAGTCGCCGGCCTGCGTTACTTCTCTGACGACACCAGCGAGGACGGCGACCAGACCTATGCTCGCTTAGGCATCAAAGGCGAAACGCAGATCGCTTCCGAGTTAACCGGCTACGGTCAGTGGGAATACAATGTCAAGGCGAACACCAGCGAAGGGGAAGGCGCGAATTCATGGACTCGTCTGGCCTTCGCCGGTCTGAAGTTTGCTGACTATGGCTCACTGGACTATGGCCGTAACTACGGCGTGGTGTACGACATCGAATCCTGGACTGATATGCTGCCGGAATTCGGCGGCGATACCTACACCCAGACCGACGTTTACATGACCGGCCGCACCAACGGGGTGGCCACCTACCGTAACAGCGATTTCTTCGGCCTCGTCGACGGCCTGCATTTCGCCCTGCAGTATCAGGGGAATAATGAAAACGCCGGTTCTGGCGAAGGCACAAACAACGGCGGCGCTCGTAAACTGGCGCGGGAAAATGGCGACGGGTTTGGTATTTCCAGCTACTACGATCTCGATATGGGCATCAGCTTCGGGGCCGCCTACTCGGCTTCCGACCGTACCCATAACCAGCTGGCGGCAGCACGCAGCAGCCATATTTACGCTAACGGTGATAAAGCCGAGGCCTGGACCGTCGGCGCAAAATATGACGCCAACAACATCTATCTGGCCGCCATGTATGCGGAAACCCGCAACATGACCTTCTACGGCAACGGCGCTATTGCCAACAAGACGCAGAACTTTGAAGTCGTCGCCCAGTACCAGTTCGATGAGTATAATTTACCGCTGCGTCCATCCGTGGCCTATCTGCAATCGAAGGGGAAAGATCTTTACAACTATTCTCGCTATAGCGACAAGGATCTGGTCAAGTATGTCGACATCGGCATGACCTACTACTTCAATAAGAATATGTCCACCTATGTGGATTACAAAATCAACCTGCTGGATGAAGACGACCGCTTCTACCGCAACAACGGTATCTCGACCGATGATATCGTGGCCCTCGGTCTCGTTTACCAGTTCTGA	MKRKVLALMVPALLMVNAVNAAEIYNNNANKLDLYGKVAGLRYFSDDTSEDGDQTYARLGIKGETQIASELTGYGQWEYNVKANTSEGEGANSWTRLAFAGLKFADYGSLDYGRNYGVVYDIESWTDMLPEFGGDTYTQTDVYMTGRTNGVATYRNSDFFGLVDGLHFALQYQGNNENAGSGEGTNNGGARKLARENGDGFGISSYYDLDMGISFGAAYSASDRTHNQLAAARSSHIYANGDKAEAWTVGAKYDANNIYLAAMYAETRNMTFYGNGAIANKTQNFEVVAQYQFDEYNLPLRPSVAYLQSKGKDLYNYSRYSDKDLVKYVDIGMTYYFNKNMSTYVDYKINLLDEDDRFYRNNGISTDDIVALGLVYQF	PGPT0012995_121	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-PORIN_METABOLISM|TRANSPORT,PGPT0012995-ompF-K09476	NA	NA
BMS020_01062	798	mtfA_1	COG3228	Protein MtfA	ATGTTTAAATGGCCCTGGAAAGCAGATGATGAGTCCGGCAACGCAGAGATGCCCTGGGAGCAAGCGCTTGCCATTCCGGTTTTAGCCCACCTTTCGCCCGCTGAGCAGCACAAGCTGACGCAGATGGCTGCACGTTTCTTACAGCAAAAACGTCTGGTGGCGCTTCAGGGGCTGGAGCTGACTCCGTTGCACCAGGCGCGGATAGCTATGCTCTTTTGCCTGCCGGTACTTGAGCTGGGGATTGAGTGGCTGGACGGTTTTCATGAAGTGCTGATCTACCCTGCCCCCTTTGTTGTGGATGATGAATGGGAGGATGATATTGGTCTGGTCCACAACCAGCGGGTGGTGCAGTCGGGGCAAAGCTGGCAGCAGGGTCCCGTAGTGCTGAACTGGCTGGATATTCAGGACTCCTTTGATGCGTCAGGCTTTAACCTTGTGGTGCATGAGGTGGCGCATAAGCTTGATGCGCGGAATGGCGATCGGGCCAGCGGGGTGCCGCTGATCCCACTGCGCGAAGTCGCCGGCTGGGAGCACGATCTCCACGCGGCGATGAACAACATTCAGGATGAGATAGATCTGGTAGGGGAAAGCGCCGCCAGCATTGACGCCTATGCCGCCACCGATCCCGCGGAATGCTTCGCCGTCCTTTCGGAATATTTTTTCAGCGCGCCTGAACTGTTCGCGCCCCGCTTCCCGGCCCTGTGGCAGCGTTTTTGCCATTTTTACCGCCAGGATCCGCTGGCGCGCAGACGTGAAAATGGCCTGCAGGACGAAGACGATCGGCGCATTGTTCACTAA	MFKWPWKADDESGNAEMPWEQALAIPVLAHLSPAEQHKLTQMAARFLQQKRLVALQGLELTPLHQARIAMLFCLPVLELGIEWLDGFHEVLIYPAPFVVDDEWEDDIGLVHNQRVVQSGQSWQQGPVVLNWLDIQDSFDASGFNLVVHEVAHKLDARNGDRASGVPLIPLREVAGWEHDLHAAMNNIQDEIDLVGESAASIDAYAATDPAECFAVLSEYFFSAPELFAPRFPALWQRFCHFYRQDPLARRRENGLQDEDDRRIVH				NA	NA	NA	NA	NA
BMS020_01064	921	pgrR_3		HTH-type transcriptional regulator PgrR	ATGGATCGTTTCGATGCGATGCGCGCCTTTGCTCGGGTGGTGGAGGCAGGGAGCTTCACGAAGGCTGCCCAAACGCTTCATATGAGCAAAACCACGGTGACGCAACTCATTCAGCAACTGGAAGCGCGACTGCGCGTCAAATTGCTCCATCGCACCACCCGCAAGCTTGGGGTGACTCCCGATGGCGCGGTCTACTACGAGCGCGTCATCCGCCTGCTGGCGGACATGGAGGATGCTGAAAACAGCCTGTCCAGTGCGGCGATGACGCCCAGGGGAAGGCTACGGGTGGATGTGCCCAGTCCGCTAGCCCGCCTCATCCTGGTGCCGGCGCTACCGGCTTTCCACGCCCGCTACCCTGATATCCAGTTCGACATGGGCGTGAGCGACCGGAAGGTAGATCTGATCGGCGACAACGTGGATTGCGTCCTGCGCGGTGGCGAAATCACCGACCAGTCCCTAATCGCACGCCATGTCGGCGATTTGCCAATCGGCGTCTACGTCGCCCCCCGTTATGTGGAACGCCTTGGCGCTCCCGCACACCCGCGAGAGCTGCAAAATACTGACCATTGCATAGTGGGATTCTTGTCCTCACGCACCAGTAAGATTGATCCTTTGGTACTGCGCAGTGAGAATGAACGTATTGAAATCACGGGCAACTACGTCCTTGCCGTGGATGATGGCAATGCTTACCTCGAAGCTGGGTTAGCTGGCTTAGGCGTGATTGCGCTGCCCAACTATATGGCGGCAGCGCATCAGGCCGTTGGCGCTTTGATTCCATTATTTACACAATGGCGGATTAGCCCAATGCCTCTGTACCTGGCGTTTCCACCGAACCGCCATGTCAACGCCAAGCTGCGCGTTTTTATTGACTGGATCGTTGAAGTGATGCAGCAGCATGTCCCGATTGCCAACAATAAATAA	MDRFDAMRAFARVVEAGSFTKAAQTLHMSKTTVTQLIQQLEARLRVKLLHRTTRKLGVTPDGAVYYERVIRLLADMEDAENSLSSAAMTPRGRLRVDVPSPLARLILVPALPAFHARYPDIQFDMGVSDRKVDLIGDNVDCVLRGGEITDQSLIARHVGDLPIGVYVAPRYVERLGAPAHPRELQNTDHCIVGFLSSRTSKIDPLVLRSENERIEITGNYVLAVDDGNAYLEAGLAGLGVIALPNYMAAAHQAVGALIPLFTQWRISPMPLYLAFPPNRHVNAKLRVFIDWIVEVMQQHVPIANNK	PGPT0028940_480	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
BMS020_01065	942	erfK	COG1376	putative L,D-transpeptidase ErfK/SrfK	ATGACGATGCGGCGTGTGACATTACTCTGTTCGGCGCTGATGCTGTTCGCCAGCCACAGCGCGCTGGCCGTCAGCTATCCGCTGCCGCCGGAGGGGAGCCGTCTGGTGGGCAGCGCTTTTACCATTGCCGTGCCGGAGAACAACACTCAACCACTGGAAAGCTTTGCCGCCCAGTACGGCCAGGGGTTGAGCAATATGCTGGAGGCGAACCCCGGCGTCGATGTTTATTTGCCGCACTCCGGTTCGACGCTGACTATTCCGCAGCAGCTGATCCTGCCTGACACCGTGCGTGAGGGGATCGTTATCAACGTCGCCGAGATGCGCCTCTATTATTACCCGCCGCTGGGCAATAGCGTTGAAGTCCTGCCAATCGGCATTGGTCAGGCGGGACGCGAAACGCCGCGTAACTGGGTGACGGCGGTAGAGCGCAAGCAGGAGGGGCCCACCTGGGTACCGACCGCCAATACCCGCCGTGAATATGCGAAAGAGGGCAAAACCCTGCCGGCGATGGTGCCGCCCGGCCCCGATAATCCGATGGGGCTGTATGCGATCTATATCGGCAGGCTGTACGCCATCCACGGCACCAATGCCAACTTTGGCATCGGGCTGCGTGTCAGCCAGGGATGCATCCGCCTGCGCAATGACGACATTAAATTCCTGTTTGATAACGTACCGGTGGGGACGCGCGTCCAGCTGATCGATCAGCCGGTGAAGTACACCGTGGAACCGGATGGCAGCCACTGGCTGGAGGTGCACGAGCCGCTGTCGCGCAACCGGGCGGAATTTGAATCCGACAGAAAAGTCCCCTTGCCGATGACCTCGGCGCTGCGCGAATTTACTCAGGGACCGGGAGTGAGTCCTTCGCAGGCCGAGCAAACCCTGCAGCGCCGCTCCGGCATGCCGGTGAATATCAGCGCCACAGCGGCGCAGGGGAGTTTGTAG	MTMRRVTLLCSALMLFASHSALAVSYPLPPEGSRLVGSAFTIAVPENNTQPLESFAAQYGQGLSNMLEANPGVDVYLPHSGSTLTIPQQLILPDTVREGIVINVAEMRLYYYPPLGNSVEVLPIGIGQAGRETPRNWVTAVERKQEGPTWVPTANTRREYAKEGKTLPAMVPPGPDNPMGLYAIYIGRLYAIHGTNANFGIGLRVSQGCIRLRNDDIKFLFDNVPVGTRVQLIDQPVKYTVEPDGSHWLEVHEPLSRNRAEFESDRKVPLPMTSALREFTQGPGVSPSQAEQTLQRRSGMPVNISATAAQGSL	PGPT0023745_379	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-L|D_TRANSPEPTIDASE_ACTIVITY,PGPT0023745-erfK-K16291	NA	NA
BMS020_01066	951	cbl		HTH-type transcriptional regulator cbl	GTGAACTTCCAGCAACTGAAAATTATCCGTGAGGCGGCCCGTCAGGATTACAACCTGACGGAAGTCGCGAATATGCTCTATACCTCGCAGTCAGGCGTCAGCCGCCATATCCGGGAACTGGAAGAGGAGCTGGGGATTGAGATCTTTATCCGTCGCGGCAAACGCCTGTTAGGCATGACCGAGCCGGGTAAAGCGCTGTTATCCATTGCTGAGCGGATCCTCAATGAAGCCAGCAACGTCCGGCGGCTGGCGGATCTCTTCACTAACGATGCCTCCGGCGTCTTAACCATCGCCACCACCCATACCCAGGCGCGCTACAGCCTGCCCCCGGTGATTAAAGCTTTCCGCGAGCTGTTCTCCGACGTTCGCGTCGAGCTGGTGCAGGGCACACCGCAGGAAATCGAAGCGCTGCTGCATAACGGCGGAGCGGATATCGGCATCGCCAGCGAGCGTCTGAGCAACGACCCGACGCTGGCGGCTTTCCCCTGGTTCCGCTGGCATCACAGCCTGCTGGTACCCAAAGAGCATCCCCTGACCCAGGTGTCTCCTCTGACGCTGGAGGCGATTGCCCGCTGGCCGTTAATCACCTATCGCCAGGGGATCACCGGCCGTTCGCGGATCGATGAGGCCTTCAACCGCAAAGGGCTGATGCCGGATATTGTGCTGAGCGCCCAGGATTCCGATGTGATCAAGACCTACGTCGAGCTGGGGCTGGGCGTCGGGCTGGTTGCCGAGCAGTCCGGGGATGCCCGCGAAGCGGACACCTTTACGCGGCTCGATACCCGCCATCTGTTTGATGCCAATACCGTATGGCTGGGACTGAAGCGGGGTCAGCTGCAGCGTAATTACGTCTGGCGCTTTATCGAATTGTGCAATGCCGGACTGTCGCTGGATGAGATCAAGCGCCAGGCGATGGAGCCGGAAGAGGCCGCTATCGACTATCAGATTTAA	MNFQQLKIIREAARQDYNLTEVANMLYTSQSGVSRHIRELEEELGIEIFIRRGKRLLGMTEPGKALLSIAERILNEASNVRRLADLFTNDASGVLTIATTHTQARYSLPPVIKAFRELFSDVRVELVQGTPQEIEALLHNGGADIGIASERLSNDPTLAAFPWFRWHHSLLVPKEHPLTQVSPLTLEAIARWPLITYRQGITGRSRIDEAFNRKGLMPDIVLSAQDSDVIKTYVELGLGVGLVAEQSGDAREADTFTRLDTRHLFDANTVWLGLKRGQLQRNYVWRFIELCNAGLSLDEIKRQAMEPEEAAIDYQI	PGPT0002960_184	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002960-cbl-K13635	NA	NA
BMS020_01067	918	argP_2		HTH-type transcriptional regulator ArgP	ATGAACTTAAGACGACTGAAATATTTTGTGAAAATCGTCGATATCGGCAGTCTGACCCAGGCCGCTGAAGTCTTGCACATCGCCCAACCGGCCCTCAGCCAGCAGGTCGCGACCCTGGAAGGTGAAATGGACCAGCAGCTGCTGATACGTACCAAGCGAGGGGTCACGCCAACGGAAGCCGGTAAAATCCTTTATACCCATGCGCGGACCATTCTGCGCCAGTGTGAGCAGGCGCAGCTGGCGGTCAATAACGTCGGCCAGACGCTGCGTGGCCAGGTCTCGATCGGCCTGGCGCCGGGCACAGCGGCCTCCGCCATTACCATGCCGTTGCTGCAGACGGTGCGTAATGAGCTGCCCGAGGTGATGGTCTATCTGCAGGAAAGCAGCGGCACTGCGCTGAATGACAAGCTGCTGGCGGGCCAGCTCGATATGGCGGTGCTGTATGAGCGTTCGCCGGTGGCCGGCATCGTCAGTCAGCCGCTGCTGAAAGAAGACCTCTACCTGGTCGGCACCCGCGACTGCCCGGGGCAGAGCGTGGACCTTACGGCGGTGGCGGAGATGAACCTGTTCCTGCCGCGGGATTACAGCGCGGTACGGGCGCGGGTCACCGAGGCGTTCACCCTGCGTCGTCTGTCGGCGAAAATTATCGGCGAGATCGAATCCATTACCACCCTGACCGCGGCCATCGCCAGCGGCATGGGGGCGACGGTCCTGCCGGAATCCGCTGCCCGCTCCCTGTGCGGCGCGGCGAACGGCTGGATGGCGCGGATTAGCACGCCGTCAATGAGCCTGTCGCTGTCGCTGAACATGTCGGCGCGCGGCGGTTTGTCGCCGCAGGCGCAGGCGGTGAAGGAGATCCTGCTGTCTCTGGTGAGCCGTCCGTCGCTGGAGAACCGCGAACTGCAGCTGGTTAGTTAA	MNLRRLKYFVKIVDIGSLTQAAEVLHIAQPALSQQVATLEGEMDQQLLIRTKRGVTPTEAGKILYTHARTILRQCEQAQLAVNNVGQTLRGQVSIGLAPGTAASAITMPLLQTVRNELPEVMVYLQESSGTALNDKLLAGQLDMAVLYERSPVAGIVSQPLLKEDLYLVGTRDCPGQSVDLTAVAEMNLFLPRDYSAVRARVTEAFTLRRLSAKIIGEIESITTLTAAIASGMGATVLPESAARSLCGAANGWMARISTPSMSLSLSLNMSARGGLSPQAQAVKEILLSLVSRPSLENRELQLVS				NA	NA	NA	NA	NA
BMS020_01069	1635			hypothetical protein	ATGTCGCTAATCGCTATTGTGCTGGTCTTTATGATGGCCATCGTGGTGACGGTGTTCATTTCCCATCTTCTGCCCGTTAAAGTGCCGCTGCCGCTGATCCAGATCGCCGCGGGCGCCGCGCTGGCCGCCGGTGGTTTTCAGGTCGATTTCGATCCGCACATCTTTTTGCTGTTGTTTATCCCGCCGCTGCTTTTCCTTGATGGCTGGCGGATCCCGAAAGACGCGTTTTTCCGCGATATGAAGCCGATTCTGTCGCTGGCGATAGGCCTGGTGATGGTCACTATCCTCGGCATTGGCCTGTTTATTCACTGGCTTATTCCGGCGATCACCGTGGCGGCGGGGTTTGCCCTGGCGGCGATTCTGTCACCCACCGATCCGGTGGCGGTATCGGCAATGACCGCCAGCTCGCCGCTGCCTTCCCGGATGGCGCATATCCTCGAAGGGGAATCGCTGTTAAACGATGCTTCGGGCCTCGTCGCTTTTAATTTCGCCATCGCCGCGGTGCTGACCGGCAGCTTCTCCCCGGGAGAGGCGGTGATGAAGTTTTTCCTGATGGCGTTCGGGGGCATCCTCAGTGGGCTCGTGGTGGTGTGGGTCACCGGCAAATGTAATAACTTTCTGGTGCGGCGCACCCGCGAGGAGCCGGCCATCCAGATCCTGATCAGCCTGCTTATCCCCTTCGCCGCCTACCTGCTGGCCGAGGCGTTCCGTGTCTCCGGCATTCTTGCTGCCGTCGCCGCCGGCATTGCGATGCACTATGAACAGCTGTCGGGGCCCCGGCTACCCGCGACGCGCATGAAAAGCAGCGCGGTGTGGTCCATGCTGCAGACTACCCTCAACGGGATGATCTTCCTGATGCTGGGCGAGCAGTTGCCCCGCATGCTCAGGACGTTGCCGGCGGTAGCCAGCCAGGCCGGCGTCCCTTCGCCCTGGTATCTGCTGCTGTACGCCGTGGCCATCACTCTCGCGCTCGGTCTGATGCGTTTCGCCTGGGTATGGCTGTCGATGACGCTGACCATTTTTCGCCGCAAACGCCGGGGCAAAGCCATCACCGTCCGTCCGCGATTCAGCATCCTCGCCGTCATGGCGCTGGCGGGGGTCAAAGGCTCCGTGACGCTCGCCGGTATTCTGACGCTGCCGGCGGTGCTGGCGGATGGTTCACCATTCCCGGGCCGCGAACTGCTGATCTTTCTCTCAATGGCGGTGATCCTGATGTCGCTGGTGGTGGCGGCTATCGGCCTGCCGTTTATGACCCGCTATCTTGCCGATGATTTACCCCATGACACCGGCAAAGACGATATTGGCGCCGTCATGACCGAAGTGGCTATCAACCGGCTGAATGCGCTACTCGACGAGCCGGTGGAGGATCCGACTGAGCAGGCCCTGCGGGCTGATGCCGGCAATATGCTGCTGGAAACCTACCAGCGGCGGCTGCACTATAACGACAATGACGAAGGGCAGGACGTCGGGCTGGAGCTGGCTAAGCGCGCCAGGCTGGAGAAATATATGCAAAGAGAGGTCATTATCGCCCAGCGTCAGGAGCTGTTCCGGCTGCGTCGCGCCCACAACATTAGCGATATCACCTTTTATGAGGTGCTGCGAGAGATAGACCTGAAGGAAGAGAGCTTGCGCTAG	MSLIAIVLVFMMAIVVTVFISHLLPVKVPLPLIQIAAGAALAAGGFQVDFDPHIFLLLFIPPLLFLDGWRIPKDAFFRDMKPILSLAIGLVMVTILGIGLFIHWLIPAITVAAGFALAAILSPTDPVAVSAMTASSPLPSRMAHILEGESLLNDASGLVAFNFAIAAVLTGSFSPGEAVMKFFLMAFGGILSGLVVVWVTGKCNNFLVRRTREEPAIQILISLLIPFAAYLLAEAFRVSGILAAVAAGIAMHYEQLSGPRLPATRMKSSAVWSMLQTTLNGMIFLMLGEQLPRMLRTLPAVASQAGVPSPWYLLLYAVAITLALGLMRFAWVWLSMTLTIFRRKRRGKAITVRPRFSILAVMALAGVKGSVTLAGILTLPAVLADGSPFPGRELLIFLSMAVILMSLVVAAIGLPFMTRYLADDLPHDTGKDDIGAVMTEVAINRLNALLDEPVEDPTEQALRADAGNMLLETYQRRLHYNDNDEGQDVGLELAKRARLEKYMQREVIIAQRQELFRLRRAHNISDITFYEVLREIDLKEESLR				NA	NA	NA	NA	NA
BMS020_01070	123			hypothetical protein	ATGAATGGTAGCGATTATATTGCCGGGCTGGCGATGATTGGCAGACCCTGGCGGATTGACAACTCCGGCATGATAAAACACATTGTCCCCCCTGAAGGGGCGCCGGTTGCCACCTCAGTTTAA	MNGSDYIAGLAMIGRPWRIDNSGMIKHIVPPEGAPVATSV				NA	NA	NA	NA	NA
BMS020_01071	708	acuR_1		Transcriptional regulator AcuR	ATGATGAATCCCGCTACCTCCGCCAACCAGAAGCCCCGCCGCGGCCGACCGCCCAAGGCCGATCGCCAGTTTGTCGACACGCGACAGGCGCTGATCCGCTCGGGCCTGGAGGTGCTGACCGAAACGGGCTATCTCGCAGCGGGTATTGATGCGGTGATCAAGAACATCGCCGTGCCGAAGGGGTCGTTTTACCACTGTTTCAAAAGCAAGGAGGCCTTTGGCCTCGCCGTGCTTGCCGCCTATGGCGACTACTTTGCGCATAAATTAGATAAATTCCTGCTGGACGACGCCGTGCCGCCGCTGGAACGGATGGCGGCCTTCGTGCGTGATGCCGGTCAGGGAATGGAGAAATACCAGTTTCGTCGCGGCTGCCTGGTAGGCAACCTGCTGCAGGAAGCTCCCCTGTTGCCCGAGGCATTTCCCCAGCGGTTGCAGACCATCCTGGCGGCATGGGAGGCGCGCGTGGCCCGCTGCCTGCACGAGGCGCGGGCTGCCGGGACGATCGCCAGCGACACCTCGCCGGAGGCGCTGGCCCAGGTGTTCTGGATCGGCTGGGAAGGCGCGGTGATGCGCGCCAGGCTGGTCCAGTCCGCCGCTCCCCTTAACCAGTACTGGGATTTCTTTGCGCACACTATGATGACAATAACACCTGCACAGGACGGCGATAGCGCCGATAACTCCCTTCAGACGAGGAATACTCAGTCATGA	MMNPATSANQKPRRGRPPKADRQFVDTRQALIRSGLEVLTETGYLAAGIDAVIKNIAVPKGSFYHCFKSKEAFGLAVLAAYGDYFAHKLDKFLLDDAVPPLERMAAFVRDAGQGMEKYQFRRGCLVGNLLQEAPLLPEAFPQRLQTILAAWEARVARCLHEARAAGTIASDTSPEALAQVFWIGWEGAVMRARLVQSAAPLNQYWDFFAHTMMTITPAQDGDSADNSLQTRNTQS				NA	NA	NA	NA	NA
BMS020_01072	978	acuI_1	COG0604	putative acrylyl-CoA reductase AcuI	ATGAAAGCATTAGTTCTGGACCAGATTGACAACCGCACCGTGGCCGCCGTCAAAGCGATTGACCTGCCCGCCCTTACCGAAGGCGACGTGCGGGTCGCCATCGACTGGTCGAGTCTCAACTATAAAGATGCCCTGGCGATCACCGGCAAAGGCAAAATCATCCGCCAGTTCCCGATGGTGCCGGGGATTGATTTTGCCGGCCGGGTAAGTGAAAGCCGCGATCCGCGCTTTGTTCCCGGCCAGGACGTGATCCTCACCGGCTGGGGCGTGGGCGAAAACCACTGGGGCGGCCTGGCCACCGAGGCCTGTGTCAAAGGCGACTGGCTGGTAGCCCTGCCGGAGGCGCTCAGCGCGCGCCAGGCGATGATCATCGGCACCGCCGGCTTCACCGCGATGCTGTGCGTCGATGCCCTCGTCAGCGCGGGCATCACCCCGGAAAGCGGTGATATCCTGGTCACCGGCGCCAGCGGCGGGGTCGGCAGCACCGCCGTGGTACTGCTGAAAGCGCTCGGCTACCGGGTGACGGCCGTATCGGGCCGCGAGTCGACGCACGACTACCTTCGCCAGCTCGGGGCCGACGCCATCCTGCCGCGCAGCGACTTTGCAGAGACCCGCCCGCTGGAGAAACAGCTGTGGGCGGGCGCGGTGGATACCGTTGGCGGCACGATGCTGGCCAAAGTGCTGGCGCAAACGCACTATCGCGGCTGCGTCGCCGCCTGCGGTCTGGCCGGGGGCTTCGATCTGCCAACCACCGTGATGCCGTTTATTCTGCGCAATGTGCGTCTGCAGGGGGTGGATTCGGTGATGGTGCCCACCGCAGAACGCGACGCGGTGTGGCAGCGTCTGGCCCAGCTGTTGCCGGAAAGCTACTACCAACAGGCAGCCACCGAAATCACGCTGGAGCAGGCGCCAGCGTATGCCGCAGATTTCCTCAGCAACAATATTCATGGCCGCACGCTGGTCAACATCGGCCAGTAA	MKALVLDQIDNRTVAAVKAIDLPALTEGDVRVAIDWSSLNYKDALAITGKGKIIRQFPMVPGIDFAGRVSESRDPRFVPGQDVILTGWGVGENHWGGLATEACVKGDWLVALPEALSARQAMIIGTAGFTAMLCVDALVSAGITPESGDILVTGASGGVGSTAVVLLKALGYRVTAVSGRESTHDYLRQLGADAILPRSDFAETRPLEKQLWAGAVDTVGGTMLAKVLAQTHYRGCVAACGLAGGFDLPTTVMPFILRNVRLQGVDSVMVPTAERDAVWQRLAQLLPESYYQQAATEITLEQAPAYAADFLSNNIHGRTLVNIGQ	PGPT0002275_1830	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0002275-acuI|yhdH-K19745	NA	NA
BMS020_01073	933			hypothetical protein	ATGGATGTCATAAGCATCATTATGGCGGCGGGCAAATCGTCCGTTGACGTCGCGCTGTATACGCTGTTGCCGATCATGGTGATCATGCTGATTATCATGAAATATCTGGAGGTCCGCGGCATCCTCGATGTGATTGTGCGCTGGGTTGCGCCATTGCTGAAGCCCTTCGGCTTAACCGGGATGAGCGCCTTCGCCCTGATCCAGATTAACTTTGTCAGCTTCGCCGCCCCGCTGGCCACGCTGTCGATTATGGACAAACGCGGCGTTTCTGACCGGCAAATGGCCGCCACCCTGGCCATGGTCTTCGCCATGGGGCAAGGCAACGTCTTTTATCCCCTCACCCCTTTCGGCCTGCACTGGCTGGCCTCGATCGTTATCTCAGTGGTCGGCGGCCTGTGCGCGGCGGCGGTCGCCTGGCACGTCACCGGACGGCGCCTATCGGTCGCCGAGAACCCTCGCGCGGAAGCGCTGCCCAACGCCGAGCAGAACAGTCAGGGCATTCTGGCGGTGATCAACAGCGCCGGCTCTGACGCCATCCGCCTGGCGCTCGGCGCGGTGCCGATGCTGATCCTGTCGTTAACCATCGTCGGACTGCTGCAGGGCGCAGGCGTCATCGACCTGCTACAGCAGCTGCTGAAACCGGTGCTCGGCTGGCTGCATATTCCGCAGAACTTTGTCCTGCCGGCGCTGGTGAAGTGCGTCGCCGGGGGCACCGCTTATTTTGGCGTCATTTCCGAGCTGATCCAGCAGGGCAAAGTCACCGTCAGCCAGGTCAACGCCTCGGCAGGCCTGCTGATCCAGACCTTCGATCTGCCCGGAATCGGTATTTTCCTCGGCATCAGCTCACGGTTTGTCCGCCTGTTTCGCTTCGTGGCTCCCGCGGCGATCGTCGGCATTCTGCTGCGCACCGTCCTGCACCTGACCCTCTTTTAA	MDVISIIMAAGKSSVDVALYTLLPIMVIMLIIMKYLEVRGILDVIVRWVAPLLKPFGLTGMSAFALIQINFVSFAAPLATLSIMDKRGVSDRQMAATLAMVFAMGQGNVFYPLTPFGLHWLASIVISVVGGLCAAAVAWHVTGRRLSVAENPRAEALPNAEQNSQGILAVINSAGSDAIRLALGAVPMLILSLTIVGLLQGAGVIDLLQQLLKPVLGWLHIPQNFVLPALVKCVAGGTAYFGVISELIQQGKVTVSQVNASAGLLIQTFDLPGIGIFLGISSRFVRLFRFVAPAAIVGILLRTVLHLTLF				NA	NA	NA	NA	NA
BMS020_01074	1548	menH_3		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	GTGCTGGCGCTGCTGGTGGTGTTTCTCGCCGGACGGATCTATGAGTCGCAGCGCGGCCCGGCGCTGCATCGCTGGCATACCTGGCGCGGCAACGAGATGGCGGCCAAAGAGATCGACCAGGCGACCTTTGCCCAATATCTGGCGCGGGAGAAGACCATTTTCGCCGATCTCCAGCGCGAGGTGACGGATGCTTTACCGGAGGAAGATAAAACCCCCGTCAACCGTTTTTATCGCCACAGCCGGGTGTGGCCGGGACAGTTTACGCAGGACTGGAACCGTTCTTTTATACTGTTGCCGCAGGGCAAGCCGCGCGGCAGCGTGGTGCTGCTCCATGGCCTGACCGATTCGCCCTACAGCGTGCGCTATCTGGCGCAACTCTGGCGGCAGCGGGGCTATGTGGCGGTGGCGCCGCGTTTGCCGGGCCACGGCACCGCGCCGGGGGCGTTAACCGCCGTTGACTGGGAGACCTGGCTGGCGGCAACGCGTCTGGCGGTGCGGGAAGCGACGCGCCTGGCAGGGGCGGACGTGCCGCTGCATCTGGTCGGCTACTCTAACGGCGGCGCGCTGGCGCTCAAGTATGCCCTCGATAGCCTGGAGGACAGCCACTTGCGCCAGCCGCAGCAGATTATCCTGTTGTCGCCGATGATCGGCGTGACGGCGTTTGCCCGTTTCGCCGGTCTCGCCGGGCTGCCGTCCATCTTCCCGGCGTTTGCCCGCGCGGCCTGGCTGAACGTGGCGCCTGAGTTTAATCCGTTCAAGTACAACTCGTTTCCGGTAAAAGCGGCGAGACAGTCCTGGCTGTTGAGCCAGGCGCTGCAGCAGCAGATTATTCGCGCGTCCCGTCAGGGGGCGCTGAAAGCGCTGCCGCCGGTCCTCACCTTTCAGTCGGTAATGGATTCCACCGTCAGCACCCGGGCGGTGGTGGAGTCCCTGTATCGCTACCTGCCGGACAACGGCAGCGAGCTGGTGGTGTTCGACATAAATCAGGCGGCGGATCTCCGGGTCCTGTTCCGTCCCGCGCTCTATGCGGCGGTGAATACGCTGTTGCCGCCGGCGCCGCGGGCCTATACCACGACGGTGGTGACCAACGCGACGGCGCACACCCTGCAGACCATCGCCCGTACCACGCTGGCGCAGGAACGGGAAGAGCATCGTTATCCTTTACACCTTGCCTGGCCGGCGGATATGTACTCCCTGTCGCATGTGGCAGTGCCGTTTCCCCTGAGCGACTCGCTGTATGGTCGCGAGCCGGACGAGAAGAACCGCTACGGCATTAGCCTGGGCACCATTTCACTGCGCGGAGAGACCGGGACGCTGAGCGTGGGGCTGGAGACGTTAATGCGCGTCACCTCCAATCCTTTCTTTCCGTGGATGCTGGCCCGCGTCGATGAGCATATCGCCTGCGGCGAGCAGGCGGCGGTGGTGGCCTGCCTGAAGGCGCAGGCCACCGCGGAGGCGTTAAAAGAGGGTCAGGTGCAGGACGGTGCGCAGCAGAATGCCGACGATCGCCGCGGGAGCCACGAAGCGAAACAGGCGGACAAACCGTGA	MLALLVVFLAGRIYESQRGPALHRWHTWRGNEMAAKEIDQATFAQYLAREKTIFADLQREVTDALPEEDKTPVNRFYRHSRVWPGQFTQDWNRSFILLPQGKPRGSVVLLHGLTDSPYSVRYLAQLWRQRGYVAVAPRLPGHGTAPGALTAVDWETWLAATRLAVREATRLAGADVPLHLVGYSNGGALALKYALDSLEDSHLRQPQQIILLSPMIGVTAFARFAGLAGLPSIFPAFARAAWLNVAPEFNPFKYNSFPVKAARQSWLLSQALQQQIIRASRQGALKALPPVLTFQSVMDSTVSTRAVVESLYRYLPDNGSELVVFDINQAADLRVLFRPALYAAVNTLLPPAPRAYTTTVVTNATAHTLQTIARTTLAQEREEHRYPLHLAWPADMYSLSHVAVPFPLSDSLYGREPDEKNRYGISLGTISLRGETGTLSVGLETLMRVTSNPFFPWMLARVDEHIACGEQAAVVACLKAQATAEALKEGQVQDGAQQNADDRRGSHEAKQADKP				NA	NA	NA	NA	NA
BMS020_01075	246	pmrD		Signal transduction protein PmrD	ATGGAGTGGTGGGTAAAAAAAGTCCAGGATAATTCTCCGTCCAGCCCCTGCCGCGTCGTGCTCCAGAGCGGCGCACTGGAGATGATCGCTGAGATTGAAGCCTGTCGCCTCCGCCTGCGGGAAGGGGATAAACTCACACCGCTGGCCGATGCGCGCTATTGTCTGAATAATAATCCGACGCAGACATTGAAGATCCGCAACGCCAGCCATTATAGCAGCGCGCGCTGGGCAAACGCCGGCAAATAA	MEWWVKKVQDNSPSSPCRVVLQSGALEMIAEIEACRLRLREGDKLTPLADARYCLNNNPTQTLKIRNASHYSSARWANAGK	PGPT0022430_43	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS|LIPID|IVA_REGULATION,PGPT0022430-pmrB-K19238	NA	NA
BMS020_01076	1455	amn	COG0775	AMP nucleosidase	ATGAATAACAAGGCCGCCAGTCTGACCCCGGAACAAGCGCTTGCCGAGCTGGAAGCGCGCTATGAGGCCTCGGTCACGGCGTTGCGCAAAGCCATCGGCGACTATATTGACCATCATACGCTCCCTGATACCGAAGCCCGCGCGGAAGGCCTTTTTGTCTATCCGCAGCTGTCGGTCTCCTGGGACGGCGCCGATCATAAAGCCCTTAAAACGCGCGCCTGGGGACGTTTCACCCATGCCGGGTGCTATACCACTACCATCACCAACCCGAAACTGTTCCGCCACTATTTGCTCGAACAGCTGACCCTGCTGTATCAGGACTATGGCGCCCATATTAGCGTCGAGCTGTCGCAGCATGAAATCCCCTACCCTTACGTGATAGACGGTTCCACCCTGACCCTTGACCGTTCGATGAGCGCCGGTCTGACGCGCTATTTCCCCACCACCGAGCTGTCGCAGATTGGCGATGAGACCGCGGACGGCCTGTTCCATCCTACCGAGTTCTATCCGCTGTCGCACTTTGACGCCCGGCGCGTCGATTTTTCGCTGGCGCGTCTGCGGCACTATACCGGCACCCCGGCGGAACACTTCCAGCCCTACGTGCTGTTCACCAACTATACCCGCTACGTGGATGAGTTTGTCAGCTGGGGCTGCAGCCAGATCCTCGATCCTGACAGCCCCTATATCGCCCTCTCCTGCGCCGGCGGGATCTGGATCACCGCCGAAACCGAAGCGCCGGAGCAGGCCATTTCCGATCTGGCGTGGAAGAAGCACCAGATGCCGGCCTGGCATCTGATCACCCACGACGGCAAAGGGATCACCCTGATTAACATTGGCGTCGGCCCGGCCAACGCCAAAACCATCTGCGACCACCTGGCGGTGCTGCGCCCGGATGTCTGGCTGATGATCGGCCACTGCGGCGGCCTGCGTGAAAGCCAGGCCATCGGCGACTATGTGCTGGCCCACGCCTATCTGCGCGACGACCATGTACTGGATGCGGTGCTGCCGCCGGATATTCCCATCCCCAGCATTGCCGAAGTGCAGCGCGCCCTGTACGACGCCACCAAGCAGGTGAGCGGGATGCCGGGCGAGGAAGTGAAGCAGCGGCTGCGTACCGGGACGGTGGTCACCACCGACGACCGTAACTGGGAGCTGCGCTATTCCGCTTCCGCGCTGCGCTTTAATCTCAGCCGCGCGGTGGCTATCGATATGGAGAGCGCGACCATCGCCGCCCAGGGTTATCGCTTCCGCGTCCCCTACGGCACGCTGCTCTGCGTCTCGGACAAACCGCTGCACGGTGAGATCAAGCTCCCCGGTCAGGCCAACCGCTTCTATGAGGGGGCCATCTCTGAGCATCTGCAGATCGGCATTCGGGCCATCGACCTGCTGCGCGCCGAGGGGGATCACATGCACTCGCGTAAGCTACGCACCTTCAACGAACCGCCGTTCCGCTAA	MNNKAASLTPEQALAELEARYEASVTALRKAIGDYIDHHTLPDTEARAEGLFVYPQLSVSWDGADHKALKTRAWGRFTHAGCYTTTITNPKLFRHYLLEQLTLLYQDYGAHISVELSQHEIPYPYVIDGSTLTLDRSMSAGLTRYFPTTELSQIGDETADGLFHPTEFYPLSHFDARRVDFSLARLRHYTGTPAEHFQPYVLFTNYTRYVDEFVSWGCSQILDPDSPYIALSCAGGIWITAETEAPEQAISDLAWKKHQMPAWHLITHDGKGITLINIGVGPANAKTICDHLAVLRPDVWLMIGHCGGLRESQAIGDYVLAHAYLRDDHVLDAVLPPDIPIPSIAEVQRALYDATKQVSGMPGEEVKQRLRTGTVVTTDDRNWELRYSASALRFNLSRAVAIDMESATIAAQGYRFRVPYGTLLCVSDKPLHGEIKLPGQANRFYEGAISEHLQIGIRAIDLLRAEGDHMHSRKLRTFNEPPFR	PGPT0021500_854	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021500-amn-K01241	NA	NA
BMS020_01077	999			hypothetical protein	ATGATGGAAGGTCAACTAATTTTCTGTTCGGATTCGATCCTGCGCTTTCGCTCTGACTATGATGAAACAACAGCACTTCCGTTGCTATCAATCCAGAAAACTATTTCAGATACCGATCCCTTTTTTCTTCTCAGATTCTTTCGTCATACCGTGATGATTGAAGAAGGAACAACACTGGCGAATATCTTTTTTGCCATTGAGCCTTGGAAGGAACTGCTAACCGCTTATTTGGATCGGGATGTTGGGGCCTATATTGACGAAGTAAGAAAACCATCCAAACCCACCACATGGAATCTGGAGTGGATTGGCATTGATCGCCGAAGCTCTGTTTACCGCGCATATCAGCATCAGGATATGGGAGACGGTGAGGATTTTACAGCTTGGTTCAATCGTGAGCGGATCCCCACCGACGAGTTTGATATAGAAAGTAGCTGCGATGCTTCCGGTTTTATCAAAGGTAATAAAGAACGCTGGAGTCTTAGCGAAAATGTCCACGAAATTAAAAACCTACCTGTAATCCTTTACAACAAGCAAACGCTGATATCCTTGCAGAAGGATGAGTTGCTAAGAGAAAGTGTCTCTGGGGTGAATAGTACCGATCGTAGCCGTTTCGTTTATGGGGATACCTCTTTTTCCTTCTATGAAGTGATGGAAGCCATTTTCATTAGCGGTTTGTTCTTCTATACCCCAAGTGCTGCTACGAGCTGCTTTGACGGATTAAAAAATAGTCTCAATGGACTGGAAAGCGAGGTATCGAAGGAGACTGAAACTAATCTCACTGACGGTGGAGAAGATAAACAGCTAAAAATAGAAGTTGCCGATGGGGCCTTTGATTCCCTGATTACCCACATGGACTCTGAAACCGAAAACTGGCAACTTATCAAAAAACGATGCCAAAATGAGAGTTCTTTGCCACTCAGGATTGGGGTTATTACACCGGCAAAGCCGCCGGAGTTGCGCTTATGCGGAGAGATTTACCGGGATAGCAGTGAAGTTTAA	MMEGQLIFCSDSILRFRSDYDETTALPLLSIQKTISDTDPFFLLRFFRHTVMIEEGTTLANIFFAIEPWKELLTAYLDRDVGAYIDEVRKPSKPTTWNLEWIGIDRRSSVYRAYQHQDMGDGEDFTAWFNRERIPTDEFDIESSCDASGFIKGNKERWSLSENVHEIKNLPVILYNKQTLISLQKDELLRESVSGVNSTDRSRFVYGDTSFSFYEVMEAIFISGLFFYTPSAATSCFDGLKNSLNGLESEVSKETETNLTDGGEDKQLKIEVADGAFDSLITHMDSETENWQLIKKRCQNESSLPLRIGVITPAKPPELRLCGEIYRDSSEV				NA	NA	NA	NA	NA
BMS020_01078	1401			hypothetical protein	ATGGACAATGTCGCACCTATACCGCAGCAGTTTACTAGCCCACTAAACTACATACTGTTAAAAATCAGTAAATACCAGCCGAATTTGCATCTTACCCCTAATGAGTTTAGCTATCTGGCGGCGATGGCGATGTGGGGTATGGAGGAGTCAGGTGTCGAATCAAATAGTGAGCATTATTTTGTACAATCCGGCTACGATGAGGCCACATGTTACAGCATCATCCGTTACGTTGATGAAATAATAAATGAGGATCCTAATACCTCCGATGTTCGGGTTAATAACTTTCTGAAACGAGCACTGGAACAGGGATTGTTGTCACTAGCCGGAATGTCTGTCGCTGATGTGGGTGGAACATATCGTCTGACTCAGTTGGCACATGATTTGTTAAAACCTTTCCAACAATCTGATGAATTAGACGATAAAGAAACATTAAGTCAGCGTTATCTGAGAATTGATCAGGAACTGTCCAGTTTAAATGCTGACAGCGACGGAGAAAAAATTACAGATAGTGAATGGTTGGTGAAGGTAGACCTTTTTTTACCGAGCCTGAAGGATCTGCTGACGGGCGTTTTTAAAAATCAGGAATTCCTTATCTCTAAATATCATTCAATGCGCTCCGAGATACAAACCGAAATTAGTATTTCTCTGGAAATGGAAATTCAGCAACTTCTGGAAATAATACGTACGTTGGCTGGTCAGATCAACGATTTGAGAATGTTAGTAATGAACCGTGCCGATGCGGTATTAATGCAAATGGAAATTTTGCAAAATGCAGTCGTACAAAAAGGTGGAGCTCAGCGATTAAAAAATACATTATCCTCTTTGTTTGGTTCATTAATGGATGTTCGAGAATTCGCTAATCATTCCTTAAGGGATTTATCTGGATTCTTTAGCAGCGTACTGGATCGTATACGCATCCGTATCGCGTTAGATCCCAATGCTAATCTGGGGTATTTAATCGATCGTACTATCGAGTTGTTTGGTCGGTCATCATGGTCGTTAGCATTACCTTCGACCGTTAAACTAATGCAATTACGTGAATGGGACACACCGCCGCCTCCAGCGGATAATGCGTTGTTTCTCGATGATAATGATGATGAAGAATTGGTGCGGGAAATGCCTGCGTTTCAGTTAGAGAGTTTCGCAAGGGAGTTTGTTGAAAAGGCATTAAGTGATAATAAACCGGTGAGTAACGTTTCTGTTATCAGAAATATTTCAAGTAAATTCCCATTCAATGAAACGGATCGCTTTCGCCTGGTACAGTGTACAATAAAAGAACTGATGAAACAGAGTGACAATATTCAGGATGATATCTCCCCGGAATGGGTTTTAATGGATGAGACAGCAAATTACGAAATCGAAGAGCAATGGCTAATTTCACAAGGTGATCTCAATGACTGA	MDNVAPIPQQFTSPLNYILLKISKYQPNLHLTPNEFSYLAAMAMWGMEESGVESNSEHYFVQSGYDEATCYSIIRYVDEIINEDPNTSDVRVNNFLKRALEQGLLSLAGMSVADVGGTYRLTQLAHDLLKPFQQSDELDDKETLSQRYLRIDQELSSLNADSDGEKITDSEWLVKVDLFLPSLKDLLTGVFKNQEFLISKYHSMRSEIQTEISISLEMEIQQLLEIIRTLAGQINDLRMLVMNRADAVLMQMEILQNAVVQKGGAQRLKNTLSSLFGSLMDVREFANHSLRDLSGFFSSVLDRIRIRIALDPNANLGYLIDRTIELFGRSSWSLALPSTVKLMQLREWDTPPPPADNALFLDDNDDEELVREMPAFQLESFAREFVEKALSDNKPVSNVSVIRNISSKFPFNETDRFRLVQCTIKELMKQSDNIQDDISPEWVLMDETANYEIEEQWLISQGDLND				NA	NA	NA	NA	NA
BMS020_01079	774	mukE_1		Chromosome partition protein MukE	ATGACTGAGCTTGAATCTACACAGGGTGATCAATTTAATACATTTCTGGATGTGATGAAATCACCTCTATTCCCCATGATAGATTATAAATTACGTAAAGGGATTAATATATTACCTGCGGATTACATATTGTATTCATTTGTTAATCAGGCATTTAATCCGCTTTGTGAATATTACGACTGCTTGTCTTTATCTTTATGCTTTTCCAATGAATCTGTTTATTACCTACTGCCTCAGCGCCGAGGAAAAATACCCGTTGAGCGATTTAATGAGTTGCAGATGGTCACTGGTTTGATTATTGTTGCAATGGAACTCGAAAAACAGCTTAGTCAAAAAGAGTGGTTCACCACGAACCAACTGCTGGAGCGAATGAGCAATCAATTATCCGAAACCAGACTGCTGGAATTATTTCGCCGTCGTCCAGGCCAACAGACCCAATACGATTTATCTAAAATTCAGGATGAAATAAGAAAGTCGCTCATAGTGTTCGATCGCTATGCTTTTATTCAACTCTCTAAGGATCGACAATCCTTCCAGACAACACCCGCTATCTATCGTTTTATTGAACCGCTGCGAGGATTACAGCAAGAGTCAGAAATTCCACAACGGCTGGCTGAACTGATTCAGGAAGGTTACCTGGTCAATATTGATGAGGCAGCGCGGGATAGTGTAGACGAAGATTTGGCAGAGAGCGATCGTTTCTCTGCCGAAGAAGACATGGATACAACGGGCGATTTATTTGCTTCCGGGACTCATGAAGGGGAACAATTGTGA	MTELESTQGDQFNTFLDVMKSPLFPMIDYKLRKGINILPADYILYSFVNQAFNPLCEYYDCLSLSLCFSNESVYYLLPQRRGKIPVERFNELQMVTGLIIVAMELEKQLSQKEWFTTNQLLERMSNQLSETRLLELFRRRPGQQTQYDLSKIQDEIRKSLIVFDRYAFIQLSKDRQSFQTTPAIYRFIEPLRGLQQESEIPQRLAELIQEGYLVNIDEAARDSVDEDLAESDRFSAEEDMDTTGDLFASGTHEGEQL				NA	NA	NA	NA	NA
BMS020_01080	4530	mukB_1	COG3096	Chromosome partition protein MukB	ATGGCCCGAACGTTAAATCTGGTGAACCCTCACGCACTGCGTACATCGCGACAGTATGGCGGCACGGTTTCATTGTTGGGCAATAATGGTGCGGGAAAAACGTCTTTGTTGGGCGCGTTTATGTTCAGCCAGATCCCTGATATTCGCTATATTAGCTTAGGGACTAAGGATGATTTCAAAGTTTCAACATCAATAAAAGATAGCGAAATGTTTCCGCGCTTAGGGCAGCCCAGTATTGTTGCTCTGGAGATTGAGGCCCGGGGGACGGGCCACCGGCATCTGTACGTCGTTAGGGCTGAAAAAAAGACAGGAACAACATTAGAAACCCAGCTATTTTGTTTGAAACTTCCCGATAGCGTTAACCCACTGGATTGTTTACTTGATCGTAAAGGACAAGCAGCTCACCCGGTAACGACAGACCAGTTACGGGATAAAGCAGCACTTTTAGGATGCGCTATTCAGACATTTAAAGACCCAAATGCCTACATGTTGGCACTGTTTCAGCATGGTATTTTACCCCGAGCCTGTCAGTCACCCGATGATAAATATCGTCTGGCCCAGATCCTTCATTCAGCAATGGCCGGGCGTTTGGATAAATCGATAGAAAAACATCTCAGTGCTTATTTAATGGCCCATACTCGCGGGAATATACATTCCGTAGTGAATATGGTGCATGAGTCCATGATCAAAGTCAGACTTACGCAGCAAGACCTGCAAAATTATCAAAAGGATTATCAATTTTTTAATTCATTACTTACGTTGAGCTTATCATTTTCAGCCAATACGTGGTCAGTCATTGAGAAAGCTCTGGCGATGAATGATGAAGAGCGCACGACTATTCAGAAAGAAAAATATCGGATTGAACGTGAGCTGGAAAAAATTGAGGAAACTCTGGGTTCACTAAGGCGCAAGGAAGACGCCATAAAATCGGAACTGTCAATAACGCAACAACAGATAAGCGATATTGATCCCCGACAGCAATGCGCTAATGCCGGTAGGATTTACTTTAATCAAGAGCAAAAAGCAATTGGTGAACTGAATAAACTTGAACCACAGTTAGAGAGTGCGGAAGAAGCAAGCAAACTCCAGCAAGGTATTGTTGATGAGCTGGAAAGAAAAAAAAGTGAAAATGAAGAGAGCCAGCTACGCACAGCCAAACAGCTGTCTAATGTCGTTACGCGTTATGACATCGCTCAGAAAATGGCATCGCAATATTACCACGCAAAACAGCTCTATGATGAGATTAACCAATGGAATATGGTTTTTACGCTGTCTGGATTAAGCTCGTTTATTGAACAAATTGTGAAGCAGGAAAAAGAGGCAGTAAATGCCCTCAACCATGCAGAGCGCCAATTACGATCTCATCAGGATATCTTGGATGCTTATACTTTTGCCGCAAACAGCGCACGAAAATTGGGGGATGATATCTCTCCTCCAGACGCTCTGCGCTGGTTTAGGGAAAAATGTGGTCAACTGGAAAAATGGCGTATCGAAGACGCTCAACTGGGGGGGCGACAACAGCATCATAAGACGTTACAGGGAGATCATCAAAAACAGCGACGTCTTCAGCAACGGCTTCGTGATGCAGGCATGCTATCGTTGCCATTGAACGATGAGGACTTTGCGCAGCAACTGGCGATACAACAAGAGCAAGAATTGCACTTAAATGAACAAAAGGAACAATTAGCGCAACGTCAGACCGAAGTACAAGATCAAATTAAGCAGCTTGATATCGATATTGCACGCTATGAGCAACAGAGTCAGCAGTGGCACCAATATCAGCCATCGGTTAGCTATTTACGTACTATTTTTCCTGATGATGATTTGACACCGCAACGCTGCGAACAACTAATTCTTGACCATGCGTTACACGTTAAATCACTTCGGCAGGAAGTCATTGGCTACGAAACGGAAATCAAACAATGCCAGGGGCGCCGTGACAAACTGAGTGGAAGAGAAGCAGGAAGTCTTGAGTATTTGCGGACTCTTGCCGCTGACGTATCGGGAATATCGGTTGCTGAACTGTACGCAGATATCGAAGTACAGGACGCCGGATATTTTGAGGCGGCATTAGGGCCGTTAATGTTCGCCATACTTGTCAATGGTGATGTCGATGATGCCGCCAGACAATTGCTTACACAATACGATGAGCAATGGCTACTTCCCGATATTTTGTTGATCAGTGTCACCCAGCCTATAGACGTTTTGCGCAACGAACCGTTCGAGTCGGAATTGCTTTTTAAAGATATCACCGACCAATATAATACGGAGGAGAGTATCCTCCCGCCCTGGTGTGTTATAGATGAACCGCGATACCGCCGTATCAGCCAGATACGTTCAGAGCCCGTATTAGGTGATAAAGCCCGCGAGGCGCTTATCCTTCAATTGGACCAACAGATTCAACTGGCGGAAGAAAAGAGCGAGACACTGGAACGTGAGATTGAAGACGTTGAACGCCACAACGAACATCTCAAGGCCGTTAGCGCGGCCCCCTCATTTATCTGGGATGACGAACCGCCGCTGGAAGATACTCGCCGACAGCGAAGCCATCGTCATACCGCTCTGACAGATATTGAAGAAAAACACAGAAGCGTGTCCAGTCAGTGGAAAAAAAGCCGGAATCTCTTACTGGCGCTACAGGAATGTGAACCAGACAGTAAAATCCTGTTTCGGGATTTTCCTCAGGAGCTGGCCGAGATTGCTGATCAGATAAAACGGGCTGAAGTTGCAGGGCGTGATATTAAACGCTATCAGCCGTTAATTAATCAGATAGAAAAAGAGTATCCATTACTACGGGAAGAATACCCGGAAAATATAGCGCAAGTACACCAGCAGGTTGAGCAGAACGAGAAAACCTGGCAAACCTCTGCAATGCGAGTTCGACTGGTGAAAGAGTTAGACAGTGTGCGTGCTCACCTTAACCAGGAATATGCTAATGCTCAGAAAATACTGGAAGATGAAGCACAAGCACAAATCCTCTTATCTGGCGATCAAAAACGGCTGGAACAGGACGGTGACCGAATTAAACAAGAACTCACAACTGCAAAAAATGAGTTAGCTGAAAAAGATAAGTTTTACTCAGATCTGATATCCGCGATTACTCGCTACCGCCAGAATCGTGATGAGGCTAAAAATGATCTGGACAATTTGCCATTTCCCTACACATTCGGCCTGGAAACTAAACTTGCCTCACAGCTCGCGCATTTACAGGGCCAACTTGAAAAACTGAATAACAGTTTAAGAGAGTGCAATACAAAAGCAACTGAGATGCATCAGCAACGCTCAAGTGAAGAATTAAACCTGAAAAATTATAATGATAAGGTCACTGTCCTGACAGAAAAAATTGAACAGATAACTCAGCAGCGCAACGGAATTATAAGCGCAATAAAAGCCGATGGCTCTTATAGCGAGCTGGAACCTGCAATGCGCAAAATGCTGGTGAATTGCAAGGCACCATTACCGGGAGCGCCTTTGCTGGTCGATCAATCATTACTGACTCAACTAACCAGGCTAACTATTGAATATTCTATTTCTTCAGCCGATCCCTTCATGCAGCAATTAGCGTCCTGCGGTCAGAATACATCTGACATCGCTGAAGTCTGTGCCACGCTTTATAGCCGCGCAGTGGCGCTGTTTCGCCGCCGTGCCCGTCAGGATATCCAACGCACCACGCAACCTCGGGAAATGCTGCAGGCATTGTCTCAGGCGGCGAAAGATGCACAGATGATGCTGGCTGAAACCGAAGCCGCGTTTCAGATGCGCCGGGATGAACTGGCTGATGCGCTATCGCGCCGGATTAACGATGAAAAAAGAGCGATAAGTCGATTAAGCGCTGAACTTACCGGAATTGGCTTTGGGCAGGTTGCCAGCGTGCGTCTGGAAGCCAGAACGGTTAAACATTTCCAGGATACTCTGAACGCCCTGAAATCAGGCGGTTATGGCATGGACGATCTCTTTTCCACGGCAGGAACCGTTACCGAAGCGCTGGCTGGCCTGTATAAAAAAATCAATCAACATGAAATTGATGGTTCACATTTGCTGGATCACCGTAACTACCTGGACGTAAAAACGCTAATACAGCGTCGCGGTGCAGAGCAGTTTGAACCACTGAACGCTTCCAGCCTGTCAACCGGGGAACGAATCGGCTCCGGGCTGGCAGTGCTGATTGCCGTGCTCAGGCACTGGGGACGCAGCTCTCATGGCAATAAAGAGCCTTTCACTTTGCCGCTGGTGATGGATGAGGTTTCCCGTCTGGATGCCGCCTCTCAGGCGACAGTCCACGAGCTTGCGGTAAGAACCGGGTGCCAGATGTTGGTTGCGGCCCCGGAAACGTTAGGGAAAATTACCGGAACCGGCTACCAGTTGGTGCGCATAGTCAGGACAGAGAACACAGGGCCCAACGGGCAAACTGTTACTCGCCATCAGGTGAAAATTACCGGTGTCCGCGACGCCCAGCAGTTGCCATTTGACGTTGATAGCTATCTGGCTACAGCAGAGAATGCTGAAAGTGACGAGGTGAAAACAATTTAA	MARTLNLVNPHALRTSRQYGGTVSLLGNNGAGKTSLLGAFMFSQIPDIRYISLGTKDDFKVSTSIKDSEMFPRLGQPSIVALEIEARGTGHRHLYVVRAEKKTGTTLETQLFCLKLPDSVNPLDCLLDRKGQAAHPVTTDQLRDKAALLGCAIQTFKDPNAYMLALFQHGILPRACQSPDDKYRLAQILHSAMAGRLDKSIEKHLSAYLMAHTRGNIHSVVNMVHESMIKVRLTQQDLQNYQKDYQFFNSLLTLSLSFSANTWSVIEKALAMNDEERTTIQKEKYRIERELEKIEETLGSLRRKEDAIKSELSITQQQISDIDPRQQCANAGRIYFNQEQKAIGELNKLEPQLESAEEASKLQQGIVDELERKKSENEESQLRTAKQLSNVVTRYDIAQKMASQYYHAKQLYDEINQWNMVFTLSGLSSFIEQIVKQEKEAVNALNHAERQLRSHQDILDAYTFAANSARKLGDDISPPDALRWFREKCGQLEKWRIEDAQLGGRQQHHKTLQGDHQKQRRLQQRLRDAGMLSLPLNDEDFAQQLAIQQEQELHLNEQKEQLAQRQTEVQDQIKQLDIDIARYEQQSQQWHQYQPSVSYLRTIFPDDDLTPQRCEQLILDHALHVKSLRQEVIGYETEIKQCQGRRDKLSGREAGSLEYLRTLAADVSGISVAELYADIEVQDAGYFEAALGPLMFAILVNGDVDDAARQLLTQYDEQWLLPDILLISVTQPIDVLRNEPFESELLFKDITDQYNTEESILPPWCVIDEPRYRRISQIRSEPVLGDKAREALILQLDQQIQLAEEKSETLEREIEDVERHNEHLKAVSAAPSFIWDDEPPLEDTRRQRSHRHTALTDIEEKHRSVSSQWKKSRNLLLALQECEPDSKILFRDFPQELAEIADQIKRAEVAGRDIKRYQPLINQIEKEYPLLREEYPENIAQVHQQVEQNEKTWQTSAMRVRLVKELDSVRAHLNQEYANAQKILEDEAQAQILLSGDQKRLEQDGDRIKQELTTAKNELAEKDKFYSDLISAITRYRQNRDEAKNDLDNLPFPYTFGLETKLASQLAHLQGQLEKLNNSLRECNTKATEMHQQRSSEELNLKNYNDKVTVLTEKIEQITQQRNGIISAIKADGSYSELEPAMRKMLVNCKAPLPGAPLLVDQSLLTQLTRLTIEYSISSADPFMQQLASCGQNTSDIAEVCATLYSRAVALFRRRARQDIQRTTQPREMLQALSQAAKDAQMMLAETEAAFQMRRDELADALSRRINDEKRAISRLSAELTGIGFGQVASVRLEARTVKHFQDTLNALKSGGYGMDDLFSTAGTVTEALAGLYKKINQHEIDGSHLLDHRNYLDVKTLIQRRGAEQFEPLNASSLSTGERIGSGLAVLIAVLRHWGRSSHGNKEPFTLPLVMDEVSRLDAASQATVHELAVRTGCQMLVAAPETLGKITGTGYQLVRIVRTENTGPNGQTVTRHQVKITGVRDAQQLPFDVDSYLATAENAESDEVKTI				NA	NA	NA	NA	NA
BMS020_01081	975			hypothetical protein	ATGCATAATGAATTGTTTCAGTTAGGTTTCCCTGCCAGTGAACTTGGCGATATTCTTCAGCAACTGAAAGAACGGCAAATGATGTTCGAAAATGCTAAGGAAAAGTCGCTGCGAAATTATCTGGCCGAACTGGGTATTATCATCCCTTCCACGCGCAATCGCTGGCGGCTGGTGGAAAGTGAACGCCTGGAAATCCTGCTGGCACAGGTGCAGCAACAGATACAACAGCAGATCATTGGCAGAAAAGAGCATCGTCCGGCTATCCCTCGGCGAATGCAGAGGATCCATCATAAATCAGCGTCGGCATGGCGAGGTAACAGTAAAGCAAGGCTGAGCCAACCCTTAGTCAAAGGGCAGACCGTGACCTATGATGATATCTTACGACTTCGTAGCCAAGGGACGGCGCTGCGGCTAACGTTTACCGGCAATAATAGGGAAAACGTTTTGTTTGCCGATGATGAAAGTCGATGGCGTTCGGAGTGTTGTTTGCCAGAACGAATGCTACTTGATTTACTCTCTGTGGACATGTCATCGGCACAACTGATCATGACCGTTGAAAATTTAGGTGCTTATGTTGATATGCCGCTTGTTGATGGTTTGATACTGATTTTTGCTCCCGGTCTGAATTATCAACCCGCCTGCCGGTGGATTTCGCAATACGGGCAGGATATACCTTGGGTACATTTTCCCGATCTCGATCCGAATGGAATGACGATTGCCCGACAACTATCCCACTCATTGGCCCGAGCCTGCCGGATCTGGTTACCGGACTTTTGGCCGTCAGCACACCAGGTTAATGACATGATAGGAGCCGGAAAACATGCCTGGGATACCGCGCCGGATTTTCCTCAACTTACGCAATTAAGGCAGGAACAGCGCTGGATTGAACAGGAAGTACTGGTTGTGGACTATCGTTGTATTGCAGCGATACAGAAGTTGATGGGGAATCCGATGGAAGAAACGGTAACAATATAA	MHNELFQLGFPASELGDILQQLKERQMMFENAKEKSLRNYLAELGIIIPSTRNRWRLVESERLEILLAQVQQQIQQQIIGRKEHRPAIPRRMQRIHHKSASAWRGNSKARLSQPLVKGQTVTYDDILRLRSQGTALRLTFTGNNRENVLFADDESRWRSECCLPERMLLDLLSVDMSSAQLIMTVENLGAYVDMPLVDGLILIFAPGLNYQPACRWISQYGQDIPWVHFPDLDPNGMTIARQLSHSLARACRIWLPDFWPSAHQVNDMIGAGKHAWDTAPDFPQLTQLRQEQRWIEQEVLVVDYRCIAAIQKLMGNPMEETVTI				NA	NA	NA	NA	NA
BMS020_01082	777			hypothetical protein	ATGACTCGACCACTAAGAAAATTAACCAGAGAAGGTGTGGTTTATGCTCGGCGAGAAATCGTTGAGGCCGAGATCAATGAACTTGAAAAGCTCAGTGATGATGATGTTGCAAGCAGAGGCGTTGTTTGGCCTAAAAACTCCCCCGGTTTTATCTCGAGTGAAGCTTTACTTTATTTTGTACGAAACTCGGGTAACCCTTCGCTCCGTGAAACGTTGCTTAAAGCTTTGCTGGAAAGAATTCATCGGAACCTCCCTAAGCCCAATAGTCTGGATGGAAAAACAGCATCGATGAGCAGCATGGCGATCCGGGACAAAGTCCGTGATGATTTCATAGACCTGCTATTGATAGATCAAGCTGATTATGATGATCGACTTGACTATTTTGAAGTCAATTTTAATGGCGCGTTGGCTAGAGATCGAGTTGATGCGAAAAGACAAGTTCAGTCTAAAGAAAACCGAACTCAAGAGCTTGGTTGTGAAGACGAAGAGATTTCGCCAGAGATTGAAAGAGCGATAGAATCCTACGATCCCTTCGAAGCAAATGAACTTGACAAAGAAAATTACCGACGACGGTTGGACGCCGCGATTAATGCTCTACCACAACTTCAACGGTGCATCGTTGAGATGTGGCGTCAAGAAATACCCATTATCTCAAAAGATCCAAACGAAATGACAATCAGTAAGGCATTAAAGAAGTCGGACAAAACCATTCGTACTCACCGCGATTATGCATTTGCAACATTGCGTAAACGCCTTGAAGAAAAGGAGAAGGTATGA	MTRPLRKLTREGVVYARREIVEAEINELEKLSDDDVASRGVVWPKNSPGFISSEALLYFVRNSGNPSLRETLLKALLERIHRNLPKPNSLDGKTASMSSMAIRDKVRDDFIDLLLIDQADYDDRLDYFEVNFNGALARDRVDAKRQVQSKENRTQELGCEDEEISPEIERAIESYDPFEANELDKENYRRRLDAAINALPQLQRCIVEMWRQEIPIISKDPNEMTISKALKKSDKTIRTHRDYAFATLRKRLEEKEKV				NA	NA	NA	NA	NA
BMS020_01083	567			hypothetical protein	ATGAAAAATCAGACTATTTCTCGTGCAGATGTACTGAGAGATTTCTCAGTTGAACTCGACACCGGTAAAGATACTTTACTACGGTATCTGACTGAATTCCCTGAATATACGGAAGAATTGGTCGACCTTTCTCGCGAACTGGCTCGTGAAGTTGACGACGATATGCCGCTTACTGCGACAGATGTACTGAGTGTTGAATCGGCGATGGAGCGTTTTCGGACTGGTCTTACCCAACAGATTGTACAAGTGAATATATCTCCACAGCGGTTCTCAGCCGCAGCAAAGCTACTTAACCTTCCAAAACAGGTTTTAATTGCTTTTGGCGGAAGAAGAGTTGATTTAGCCTCTATTCCCTTACACTTTCTTAGTAGCCTTGCGGAATCGCTACAGGTGACAACCGTGCAACTAAGGAATTTTTTAACACAACCGCCACAAGCGCCTGCTAGCCGAAGTTATAAATCAGAAGTTAAGCCCACAGCACCAACCAGAACATCTTTCGAAAAAATTCTACGTGATGCACAAGTTTCTGAAGAGCGTATTCAAGAAATAATAAAGGGAGATGAATGA	MKNQTISRADVLRDFSVELDTGKDTLLRYLTEFPEYTEELVDLSRELAREVDDDMPLTATDVLSVESAMERFRTGLTQQIVQVNISPQRFSAAAKLLNLPKQVLIAFGGRRVDLASIPLHFLSSLAESLQVTTVQLRNFLTQPPQAPASRSYKSEVKPTAPTRTSFEKILRDAQVSEERIQEIIKGDE				NA	NA	NA	NA	NA
BMS020_01084	3384	rep_1		ATP-dependent DNA helicase Rep	GTGGATGCCATCGAGATTGCGCGCCAGCGTGCTGAGCGACTACATTATGCTGCTATCAGCAGAGGTTTAGATCCCTGGAAGCCTTATGCTTTTGTTGTTGGTGAAGCTAATTCTCGTAGTATCGACGTAGAGAAATGTTTACAAGGTTCTGATGAGCTAAATGGTAGCCGTGCATTTTTCGATAGTGCTTACAGGTTAATTACACATGAAGACTCTGGTTCATTGTTCGAGCAAGCATTTCTGGTTGCACACGAAATCGGGCATGTTGAGTTAGGCGACGATACGCAGGATGAATATGTAATCGATATCGACCCTGCGTGTACAGCAGAACCTGCGCCATCGGGAATAGACCGTGTTGTAGATTATAGCCATCGACAACGGCGCGAAGTTCAGATGGATCTTTTCGCCAGGGAGTTTCTGCTACCGCGTTCGGTTGTTAAAAAGTTACATCTTGAATGTGGTATGAGCTGTAGTGATATATCCAGCAAACTCGGTGCACCTTTCGATGTTGTCGCCCAACAGATGCTTGATGCAATGCTACTTCCATTGGTTGAGCATAAACTACGCCAGCCCGAACCAGATATGTCGCTTAATGACAAACAAATTGAAGCGGTTAGGCACAGAGGGAAAGCTTTCTTGCTCCAGGCGGGGCCGGGTACGGGCAAAACGCGAACCCTCGTAGCGAGAGTGGAAAGTCTGTTTAATGATGGAATTGATCCACGACGCATACTTCTGTTGACGTTCTCTAATAAAGCAGCAGCAGAGATGTCTGAGCGTATCGCCCGGAAACAACCACATGCGGCAGCGGCACTCTGGGTGGGAACTTTTCATGGCTTTGGTCTTGATTTGCTCCGGCGTTTCCATGATCTATGTGATTTACCTGCGGAGCCCCGCTTAATGGATCGGTCAGAAGCCGTAGAACTTCTGGAAGAAGAATTTTTACGTCTTAATCTCGTACATTACCGTAATTTATACGACCCTTCTCAAAATATTGTTGATATTCTGAACGCTATCTCTCGGGCAAAAGATGAAGTTACAGACGCATTGCAATACCGAGCCCTTGCCCAGGAAATGCTCAATAGTGCCAGGAGTGCTGAAGAGCGTGAAACTGCCGAGCGAGCACTGGAAGTTGCTGTTGTTTATGACACCTACGAGAAGATAAAGAAACAGAGGGGATGTCTGGATTTTGGTGATTTGGTTATGCGTCCAGTACAATTGCTTGAAACAAATGAGGAATTGCGCCAGCAATTGCAGCACAATTATCAACATGTAATGGTTGATGAATATCAAGACGTTAACAGAAGTAGCATTCGGCTATTAAAAGCTCTCAAACCTGATGGTGAAAATATTTGGGTAGTTGGTGATGCCAAGCAATCAATTTACCGTTTTCGTGGAGCATCATCATTTAATATATCGCGTTTTTGTGTGGATGACTTTCCTGGCGGAGAATCGCAGTCACTTGAGATTAATTACCGTTCTGTTTCAGAGATTGTTACAGCATTTTCTGAGTTTGCGTCAGAAATGAAAACGGGGGGAATCAAGAGCCACCTTGCGGCAAATCGCCTAGCGTCTGGATTACTGCCTGAAATACAAACAGTAGAAAGCGGAGATTTGGTAAGTTCCGCTTTAGCTGAGTCTATTTTGCGAATGCGAGAAATTGGATTTAGTTATCGTGATCAGGCGGTGTTTTGTCGTGGAAATGAAAAACTCTCTGCGTTAGGGCAGGATCTGGAACGATTAGGTATCCCGGTATTATTTCTGGGCAGCCTTTTTGAACGTCAGGAAGTTAAGGATCTTGTGGCTCTAGTTTCTCTTCTGACTGATAAACGAGCAATGGGATTAATTCGTATTGCATGTTGGCCGGAATTTCAGATGCCGATGGAAGATGTTACTCGGGTGCTGGAACACTTCCGTATAACAGATAATGAGCCCGTAAACTGGGACATATCGTCGCTGTCCTTATCGCCGGAGGGATTGTCCTCGTTTGAGAAAATAAAGAATGTACTACATGGCTTTAGTAGTGCTTCTCATCCATGGTCCGTGCTTGCTACGGTCTTGTTAGATCGTACGAGCGTAGTGGCTCAAATTGCAACGTCGGAAGCGGTTAATGGACAGGCTCGCGGTATTGCTATCTGGCAGTTTATGAATTTTGCCCGGCAGCAGTTCAGGGGCAGTGGTTTTCCGATAATGAAAATGATGACGCGGATACGTCGTTTACTCAAGCTCAACGACGATCGCGACCTCAGACAGCTTCCAGCAGCAACACAAAATATTGATGCAGTCAAATTAATGACAATTCATGGTGCAAAAGGTCTTGAGTTCCCCGTGGTTCATCTAAGTGGTGTGAATAAGGATACGATCCCGGGTTCATATAGAGGAGTAAAATGCCCTCCGCCTGAGGGTATGGTTGCTGGTGGGAACGGTTCGTCCGAAGATATAGCCAAAGAAGCCCATGAGGATGAACAAGAATGTCTTTTTTATGTGGCAATGTCCCGTGCAAAGGATCGACTGTTTTTTTACGGTGCAACGACTAAAGGTCAGAACAAATCCTTGCGTCGACTTTCCGACTTCTTGGACAGAATAGGGCCTGTTTCGCGCAATGCTACAACTCCCATATTAAAGCTGCCGATAGCACCAGAAAATAAGCGTCTACCTGTTGAATTTCAGGGGGACGTGAATTTCACAGCTAATGCTTTGGATTTATATAATAACTGCCCCAGACGTTTTCTTTATACACATCTTCTGTCAATCGGTGGTCGTCGACAAGAAACGGCATTTATGCAAATGCATGAAGCGGTACGCGATGTGCTTCAGACCATAACCAGACTGGGTAACGAGCACGTGCTTGACTGGCAACCTATTCTGGAAACTGCTTTTGTAAAGCAGGGGTTGCATGAACATGGTTACGTAGACGACTATCGCAATATTGCCGAAAAGATGCTCACCTTCTTTACCCAGTCCAGAAAGGGTGCATCTGTCGAAATGTTGGATGAGTTCGTGTTGAGCCTTACCGATGCGAAGGTAACGGTTCGTGCTGATGAAATGTTGATACGAGATGATTTGCGTACGTTACGTTGCATATTTACAGGGCATGCCCCCGGAGCAGGCCCGAAAGGTATCAGACATGAAGCGTTTTCACTTGCCACAAAGAACTTTTTTCCAGGTTCATCAGTAGAGTTGGTCTACTTAGCCGATAATACGGTTCATCCTCTCAACCTTAAGCCGCAAACACTGAACAAATGCGAAAATAAATTGCGAGAGATCCTCACTCGCATACGTAGTGGCGATTTTAAAATATCTGACTCTACGTTTAGCTGCCCCGGGTGTCCTGCGTTTTTTATCTGCGGTGGCGTCCCCGCAGGTCCACTCAAGAAAAAATTCTAA	MDAIEIARQRAERLHYAAISRGLDPWKPYAFVVGEANSRSIDVEKCLQGSDELNGSRAFFDSAYRLITHEDSGSLFEQAFLVAHEIGHVELGDDTQDEYVIDIDPACTAEPAPSGIDRVVDYSHRQRREVQMDLFAREFLLPRSVVKKLHLECGMSCSDISSKLGAPFDVVAQQMLDAMLLPLVEHKLRQPEPDMSLNDKQIEAVRHRGKAFLLQAGPGTGKTRTLVARVESLFNDGIDPRRILLLTFSNKAAAEMSERIARKQPHAAAALWVGTFHGFGLDLLRRFHDLCDLPAEPRLMDRSEAVELLEEEFLRLNLVHYRNLYDPSQNIVDILNAISRAKDEVTDALQYRALAQEMLNSARSAEERETAERALEVAVVYDTYEKIKKQRGCLDFGDLVMRPVQLLETNEELRQQLQHNYQHVMVDEYQDVNRSSIRLLKALKPDGENIWVVGDAKQSIYRFRGASSFNISRFCVDDFPGGESQSLEINYRSVSEIVTAFSEFASEMKTGGIKSHLAANRLASGLLPEIQTVESGDLVSSALAESILRMREIGFSYRDQAVFCRGNEKLSALGQDLERLGIPVLFLGSLFERQEVKDLVALVSLLTDKRAMGLIRIACWPEFQMPMEDVTRVLEHFRITDNEPVNWDISSLSLSPEGLSSFEKIKNVLHGFSSASHPWSVLATVLLDRTSVVAQIATSEAVNGQARGIAIWQFMNFARQQFRGSGFPIMKMMTRIRRLLKLNDDRDLRQLPAATQNIDAVKLMTIHGAKGLEFPVVHLSGVNKDTIPGSYRGVKCPPPEGMVAGGNGSSEDIAKEAHEDEQECLFYVAMSRAKDRLFFYGATTKGQNKSLRRLSDFLDRIGPVSRNATTPILKLPIAPENKRLPVEFQGDVNFTANALDLYNNCPRRFLYTHLLSIGGRRQETAFMQMHEAVRDVLQTITRLGNEHVLDWQPILETAFVKQGLHEHGYVDDYRNIAEKMLTFFTQSRKGASVEMLDEFVLSLTDAKVTVRADEMLIRDDLRTLRCIFTGHAPGAGPKGIRHEAFSLATKNFFPGSSVELVYLADNTVHPLNLKPQTLNKCENKLREILTRIRSGDFKISDSTFSCPGCPAFFICGGVPAGPLKKKF				NA	NA	NA	NA	NA
BMS020_01085	756			hypothetical protein	ATGAATTCTGTTCAAAATGATTTTGATGATGTTGGCGATGCCGTTCGTGAGAACCGTCCGTTAAGGGCTGCACGTAAATATCGCATCAGCGTAGCCATTGAAAGCGTGGATTTTCAGCCAGCTTTCGTTTCTGATCCGGTACCTACCGGTCGGCAGATTTTGTCTGCGGCAGGTCTTGACGACCGTGATGAAATTACTCTTTGTGCGATATTGCAGTCCGGTGATTTTGAAGATATCCGACTTGATGAAACCTTTGATTTACGTGGACGGGGTGCTGAACGGTTTATTGCTTTCCGTACCGATCGGGACTTCAAGTTAACACTTGATGATCGCCAGCTTGTATGGGGTATGCCTGCTATTGAAGGCCATGTTTTGTATGTATTGTCCGGCATTGGGCCTGAGCAGGCCGTCTTTCTGGAGGTTCGGGGAGGGACAGACCGTATTATTGAACCTGATGATTTATTGGATCTTACTGCACCGGGCATTGAGCATTTTATCACTGCTAAACGGCCGGGTCAGGGTTACACCATCATCGTTAACTCTCGCGAGGAATCGGTGTCCGATAAATGGGTAACGTTCGAGCAGATTGTGCAACTGGCATTTCCCGGTGCTCCCGTCGAGTCAAACGTTATCTATTCCATGACTTATCGCCATGCAGAATCCAGACCACATGCTGGTGAGCTGGCTGAGGGCGGTGTCGTCGAAATTAAACATCAGGGGACGATTTTCAATGTCACAAAAACTGTTCAGTCTTAA	MNSVQNDFDDVGDAVRENRPLRAARKYRISVAIESVDFQPAFVSDPVPTGRQILSAAGLDDRDEITLCAILQSGDFEDIRLDETFDLRGRGAERFIAFRTDRDFKLTLDDRQLVWGMPAIEGHVLYVLSGIGPEQAVFLEVRGGTDRIIEPDDLLDLTAPGIEHFITAKRPGQGYTIIVNSREESVSDKWVTFEQIVQLAFPGAPVESNVIYSMTYRHAESRPHAGELAEGGVVEIKHQGTIFNVTKTVQS				NA	NA	NA	NA	NA
BMS020_01086	1185			hypothetical protein	ATGTCACAAAAACTGTTCAGTCTTAATAGTGATTTACGCCAGCTTCGCGAAGCTGGCTATCATGTTCAGGTTATTGGTGCTTTCCTGGTGATGCGGGAAGTCCCCTATGTCAATGTACAAAAATGTGTACGAAAAGGGACCCTCGTGACATCTCTGGATCTAGCGGGTGATCACACCCGCAAACCTGAAAATCACGTAATACACTGGGATGGGGAATATCCGTGCAAAGCAAATGGAGTTCCTTTAAATGAAATCCGCCATGTATCTCAACACTTTGATTTTGGTCATGGCCTTACTGCCGAGCATGGTTTTTCAAGTAAGCCAGGGCCGCAAGGATATCCAGACTATTTTGCAAAGATGTCAACTTATGCAACCATCCTGTCAGGCCCGGCGGCAGTATTACAACCGGGGATTAGCCCTAAAATATTTCGGACTCCTGACGAAACTGAAATGGACAGTGTTTTTAATTATATTGATACCGCGTCCGATCGTGCGGGAATTGGAAAGCTATCTGAGAAATTAGAAGGTGAGATTGTTTCTATTATTGGTACTGGCGGAACGGGTAGTTACATTATTGATTTAGTATCAAAAACGCCGGTGCGCGAAATTCGCTTATTTGATGCTGATGAGTTTCTTCAACATAATGCTTTTCGTGCTCCTGGAGCTCCACTATTGGATGAGCTTCGCAATGCACCGTTGAAAGTGGACTACTTCAAGAGTATTTACGAAAGAATGCATCGCAATATTATTGTACATCCTGTCAGATTGAACGATTCTAACCTCAGCCTGATAAACGGTACTACGTTTGCATTTATTTGTATGGATGCCGGTGAAGAAAAAAAAGCGATAATTCAAAAGCTGGAGTCGCTTAGTGTTTCCTTCATTGATGTCGGGATGGGCCTTGAATTAGTGAATGGTAGTCTTGGTGGCATTCTTAGAGTAACTACCAGTACTACGGACAAACGCGAACATGTACATTCAGGACGGATCTCTTTTGCAGGCGGAGGGGAGAAAGATATTTATGCCTCAAATATACAGGTTGCTGATTTAAATGCGCTTAATGCAGCTCTGGCTGTCATAAAATGGAAGAAATTGAAAGGGTTTTACCGCGATTTGGAAAACGAACATCATTGCACCTATACCACTGATGGTAATATGTTGCTGAATGAGGATCTGAAATGCTGA	MSQKLFSLNSDLRQLREAGYHVQVIGAFLVMREVPYVNVQKCVRKGTLVTSLDLAGDHTRKPENHVIHWDGEYPCKANGVPLNEIRHVSQHFDFGHGLTAEHGFSSKPGPQGYPDYFAKMSTYATILSGPAAVLQPGISPKIFRTPDETEMDSVFNYIDTASDRAGIGKLSEKLEGEIVSIIGTGGTGSYIIDLVSKTPVREIRLFDADEFLQHNAFRAPGAPLLDELRNAPLKVDYFKSIYERMHRNIIVHPVRLNDSNLSLINGTTFAFICMDAGEEKKAIIQKLESLSVSFIDVGMGLELVNGSLGGILRVTTSTTDKREHVHSGRISFAGGGEKDIYASNIQVADLNALNAALAVIKWKKLKGFYRDLENEHHCTYTTDGNMLLNEDLKC				NA	NA	NA	NA	NA
BMS020_01088	462			hypothetical protein	ATGGCTACGATCCCCAATCAAACATATCCGCTACTTGCCATTCCCTTTGATGCCGCCACGGACTTCACCGTCCTTGCCGACCACTGCGAAAATTTCGCCGAAACCCTGATTGAAAGCAACGATCCCACACTCAAAATGGCGCTCTGCGGCAGACTCAATGCCTGTCTGACGCTGCTTCAGCCCACACTGTTGGAGCCCGTCCCGCGCCATCTTATTGAAAGCCTGACCGTTGACACTCCCCCTGCAAATTCCCCCCGTTTCGAGCCTGAATGCACAGAGCTTTGCCGCTACTGTCTCGCCCTGACGCAGATGCTGGCAGGGCAAGGTTTTTACTCTGAAATGGAGAAGCACCTTAGCTGCCTGCTGTATGAACTGATCAACTATTTCGCTGCGGAAATGAAAGCCCCGCGCTGGCTCCGCACATCTGAAGGCGTGAAATTTATTGACGAGGTAACGGCATGA	MATIPNQTYPLLAIPFDAATDFTVLADHCENFAETLIESNDPTLKMALCGRLNACLTLLQPTLLEPVPRHLIESLTVDTPPANSPRFEPECTELCRYCLALTQMLAGQGFYSEMEKHLSCLLYELINYFAAEMKAPRWLRTSEGVKFIDEVTA				NA	NA	NA	NA	NA
BMS020_01089	222			hypothetical protein	ATGATGCAGCAGGACTGGCATCCCGCCGACATTATTGCGGCGCTGAAAAAGCAGGGAACGTCGCTGGCGGCGGTTTCCCGTAACGCCGGGCTGGCGTCCTCCACGCTGGCTAATACGCTTACCCGCCGCTGGCCCAAAGGCGAAAGATTGATTGCTGAAGCGTTAGATGTTGCGCCTGAGGACATCTGGCCATCGCGCTACCGTAAATCAGAGTATCGATAA	MMQQDWHPADIIAALKKQGTSLAAVSRNAGLASSTLANTLTRRWPKGERLIAEALDVAPEDIWPSRYRKSEYR				NA	NA	NA	NA	NA
BMS020_01090	354	higB2	COG4683	Putative toxin HigB2	ATGTGGACAATTAAAACAACGGATACGTTTGATCGCTGGTTTGCCTCGCTCAGCGATACCGACAGGGTCAGCATGCTTGCAGCACTGCTGGTCCTGCGGGAAAAGGGACCAGGTTTGTCCAGACCTTATGCCGATACGGTCAGAGGTTCCCGCTACAGCAACATGAAAGAGCTACGTATTCAGAGTCGGGGCGCTCCGATACGGGCGTTTTTCGCTTTTGACCCGACCCGTACCGGCATTGTGCTTTGTGCCGGAAATAAGGTCGGCAATGAAAAACGTTTTTACGATGAGATGCTCCCTGTTGCTGACAGGGAATTCACGAACTGGCTGAACACATTAAAAGAGAAGGAGTAA	MWTIKTTDTFDRWFASLSDTDRVSMLAALLVLREKGPGLSRPYADTVRGSRYSNMKELRIQSRGAPIRAFFAFDPTRTGIVLCAGNKVGNEKRFYDEMLPVADREFTNWLNTLKEKE	PGPT0027571_5734	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HigB-HigA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027571-toxin_higB1-na	NA	NA
BMS020_01091	303			hypothetical protein	ATGGGCAGAACGCTGGAACAGCTTATTGCGGATGAAAAACCTGAAGTCGTGGCCGAAGCTCAGGCGATGGCAACGGACATACTACTCAACATTCACCTTGCCGAACTGCGTGAGAAAGTACAGAAAACGCAGGTGGAGATGGCACAGGCGCTGGGCATCAGGCAACCTACCGTTGCAGGAATGGAAAAACCAGGGCGCGATCTGAAGCTTTCCACTCTCAAACGCTACGTTGAAGCGACTGGCGGCAAGCTACGTCTTGATGTTGAACTGCCGGATGGTTCTCACTACGGATTTGTACTGTAA	MGRTLEQLIADEKPEVVAEAQAMATDILLNIHLAELREKVQKTQVEMAQALGIRQPTVAGMEKPGRDLKLSTLKRYVEATGGKLRLDVELPDGSHYGFVL				NA	NA	NA	NA	NA
BMS020_01092	1005	intA_1	COG0582	Prophage integrase IntA	ATGTCCCTTTCCGACGCGAAAATCCGCACTATCAAGCCTTCTGATAAACCCTTTAAACTGACCGACTCTCAAGGTCTGTATCTGCTTGTCAATCCGGGCGGTTCACGCCTCTGGTATCTCAAATATCGCTTCAACCGAAAAGAATCCCGTATAGCATTAGGTGCCTATCCGCAGGTCTCGCTTTCTGACCCCCGTCAACAGCGCGACGGTATCCGTAAACTACTGGCGCAGAATATCAACCCAGCGCAACAACGTGTTGCCGAAAAAGCCGCCGCTTCACCGGAAAAATGCTTTGAAGCCGTGGCACTCGAGTGGCATAAGATCAACAAAAAGCAGTCGGCTGACTATGCAGAGCGCATCCTTGCCAGCATGAAAAATCATATCTTTCCGGCGATTGGTCATCTGCCCGTCACGATGTTAAAAACACAGCATTTCACGGCGTTGCTGAAAGTTATCGAGGACAAAGGCTTTCTTGAAGTCGCAGCCCGAACCCGGCAGCAACTCTGCAACATTATGCGTTACGCCGTTCAGCAGGGACTGACTGAAAACAATCCGGCGCTGCATCTGGAAGGCGTTACTGCACCGCCGGTTAAAAATCACTATCCCGTCCTGCCGCTGGAGCGGTTGCCCGAACTGCTGGAACGTATCGGTGACTATCAACAGGGGCGGCAGTTAACAAGACTGGCTGTAGCGCTGACCCTGCATCTGTTTATCCGTTCCAGCGAACTGCGCTTCAACCGCTGGAACGAGATTGAATTCAGAAACAAAATCTGGACCATTCCCGCCACACGGGAAACGATTGAGAAAGTTCGTTTCTCTGGCCGTGGCGCAGAAATGCGTACTTCGCACATTGCGCCGCTTTCCCGACAGGCAATTGCTATTCTGAAGCAGATACAAGAGATTTTCGGCCATCTGGAACTGGTGTTCCCCGGCGCACAGGCCAATAGCCCTTGTTTTTTGTTGGGGCTGCGAACGATACCTGAGCGCCGGGGCGGCAGCCGTTGA	MSLSDAKIRTIKPSDKPFKLTDSQGLYLLVNPGGSRLWYLKYRFNRKESRIALGAYPQVSLSDPRQQRDGIRKLLAQNINPAQQRVAEKAAASPEKCFEAVALEWHKINKKQSADYAERILASMKNHIFPAIGHLPVTMLKTQHFTALLKVIEDKGFLEVAARTRQQLCNIMRYAVQQGLTENNPALHLEGVTAPPVKNHYPVLPLERLPELLERIGDYQQGRQLTRLAVALTLHLFIRSSELRFNRWNEIEFRNKIWTIPATRETIEKVRFSGRGAEMRTSHIAPLSRQAIAILKQIQEIFGHLELVFPGAQANSPCFLLGLRTIPERRGGSR				NA	NA	NA	NA	NA
BMS020_01094	1437	yeeO	COG0534	putative FMN/FAD exporter YeeO	TTGAACGTCACCTACGCCGTACGCCAGGCCGTCGAACGGACATCCTGGTTTAAAAAACGTCAGCGTTATCGTGTGCTGTACTGGCGCGAAATCAGCCCTCTCGCTGTGCCCATTCTGCTGGAAAATGCCTGTGTGCTGTTGATGGGGGTGTTGAGCACCTTCCTTGTCAGCTGGCTGGGCAAAGAGGCCATGGCCGGGGTGGGCCTGGCCGATAGCTTTAACATGGTGATCATGTCGTTTTTTGCCGCTATCGATCTGGGTACCACGGTGGTGGTGGCCTTTAGCCTCGGCAAGCGAGATCGGCGGCGGGCGAGAGCGGCCGCGCGCCAGTCGCTGGCCATTATGACCCTGTTTTCCATTGTGCTGGCGGGAGTGATCCACGCTTTTGGTCAGGAGATTATTAATTTTGTCGCCGGCGATGCCACCCCGCAGGTGAAGGACCTGGCGCTGACCTATCTCGAGCTGACGGTGCTGAGCTATCCGGCGGCGGCGATTGCGCTGATCGGCAGCGGGGCGCTGCGCGGCGCCGGGACCACCAAAATCCCGCTGTTGATCAACGGCGGGATGAACATCCTCAATATCCTAATCAGCAGCGTGCTCATCTATGGCCTCTTCTCCTGGCCGGGGCTGGGCTTTGTCGGCGCCGGTCTCGGGCTGACCATTGCCCGCTATATTGGCGCCATCGCCACTATATGGGTGCTGATGGTGGGCCTCAATCCCGCGCTGCGGCTGTCGCTGAAGGGCTACTTCAAACCCTTTAACTTCGCCATTATCTGGGAGGTGATGGGGATCGGCATCCCGGCCAGTATCGAATCGGTACTGTTCAATGGCGGTAAGCTGCTGACCCAGATGTTTGTCGCCGGGATGGGCACCAACGTTATCGCCGGCAATTTCATTGCTTTTTCGGTGGCCTCGCTGATTAACCTGCCGGGCAACGCCCTCGGCTCCGCCTCGACGATCATTACCGGCAAGCGGCTGGGGAAAGGGCAGATTGGCCAGGCGGAATTCCAGGCCTGGCATGTGTTCTGGCTGTCGACCATTATTCTGACGCTGATTGCCTGGGGCAGCGCCCCGTTCGCAGGCTTTATCGCCTCGTTCTATACCCATGAAGAAGACGTAAAAGAGGTAGTGAAGCAGCTGCTGTGGCTCAACGCCCTGTTTATGCCGATCTGGTCGCTGTCGTGGACTTTACCCTGCGCCTTCAAAGGCGCCCGTGACGTACGTTATACCATGTGGGTGTCGATGCTCGGCATGTGGGGCTGCCGGGTGGTGGCGGGCTATACGCTGGGTATCGTGCTGGGGATGGGGGTGATCGGCGTTTGGTTAGGGATGGTGCTCGACTGGGCAGTGCGCGGCGCGCTGTTTTACTTCCGCATGGTGAGCGGCCGCTGGCTATGGAAGTACCCGCGGGTGAAGGCCTCAACGCCGGATACCTGA	MNVTYAVRQAVERTSWFKKRQRYRVLYWREISPLAVPILLENACVLLMGVLSTFLVSWLGKEAMAGVGLADSFNMVIMSFFAAIDLGTTVVVAFSLGKRDRRRARAAARQSLAIMTLFSIVLAGVIHAFGQEIINFVAGDATPQVKDLALTYLELTVLSYPAAAIALIGSGALRGAGTTKIPLLINGGMNILNILISSVLIYGLFSWPGLGFVGAGLGLTIARYIGAIATIWVLMVGLNPALRLSLKGYFKPFNFAIIWEVMGIGIPASIESVLFNGGKLLTQMFVAGMGTNVIAGNFIAFSVASLINLPGNALGSASTIITGKRLGKGQIGQAEFQAWHVFWLSTIILTLIAWGSAPFAGFIASFYTHEEDVKEVVKQLLWLNALFMPIWSLSWTLPCAFKGARDVRYTMWVSMLGMWGCRVVAGYTLGIVLGMGVIGVWLGMVLDWAVRGALFYFRMVSGRWLWKYPRVKASTPDT				NA	NA	NA	NA	NA
BMS020_01096	1104			hypothetical protein	ATGAACCTCAGACAACAGCAGCAGCAGGCGTTCGATCGCAGCGGAGAACCTCTTATCGTCGGCGACGTCAATCACTGTCCACTGCCGCCGGAGACCCTCGCCGCGCTGGTTGCGGATTCACCCTATGTGGTGCAGGTATACGGTTCCGGGCTGACCGGCGAGGTTTACCGGCTGCGCATCGCCGGCAAGGAGTACAATTTAAAGAAAAGACGCGCCGTGGCCGGCGTTGCCAACCTTAACGGGCAGCTGTCGTTTTTAAACGAGGTACAGCGCCGGCAGGCGTTGCAACGGCTGAAGGATGACCCAAATACCGCGCCGCGCTTCACCCACATCGTCCCGACGCTGTATGCCGATTATCGCCTCGGCATCCTCCTCTCCCCCTGGATCGATGGCGAGCCGATTCACCAGCTGACCCCGCCGCTGATCGCTCAGCTGTTCACCACGCTGGAAGCCTGTGAGGAGCAGGGGCTGATGGAGTGGGATCTCTGTAGCGGGAACCTGCTGGTGGACCGGGAGGAGCAGCTGTGGCTGTTCGATTTTGGCTATATGTATCCCTTCGACCCGCTGAGAGAATTCAACAGCAACGGTCTGGCCGATCCCCTGTTTCACTTTGTCGAGCGCTTTGAGACCCGCTTCTTTTTTAGCTGGCTGATGACCCGGGTGCCCGATGCCGAACAGCAGCTGGCGCAGTATCGCGAGATGAAGCGGCTGGCGGTCGAAAGCTACCGGCGCAAGCTGGTGTGGCTTCGCGCCCGGCGGGCATCTCCGCAGGTGCAGGCTCATTTTCAGCAGATAACGGCGCGCTGGGAGACGGCGCTGGCGGACCCTGCCGCGCTGAGCCGGTTATTTGCCCTGGAGGCCTTCCGCTCACACGTGCTGGATATTGAAGACGACCTGCATGGCCAGTCCTGCACCTTGCTCACCCTGCAACGTATCGACTGGGTGATAGGCCAGCTGGAACAGCATTATGACTTTATCGCCGATCAGGGCGGCCTGTTTTATGACAACGCCGGGAAATCGCAGCAGGCGCTGCTCGGTGACTATGCGCAGAAGCGGCAGAAGGCGCAGGAGTACCTGCTGAATGCCGCCGCCGCAAAGGATTAA	MNLRQQQQQAFDRSGEPLIVGDVNHCPLPPETLAALVADSPYVVQVYGSGLTGEVYRLRIAGKEYNLKKRRAVAGVANLNGQLSFLNEVQRRQALQRLKDDPNTAPRFTHIVPTLYADYRLGILLSPWIDGEPIHQLTPPLIAQLFTTLEACEEQGLMEWDLCSGNLLVDREEQLWLFDFGYMYPFDPLREFNSNGLADPLFHFVERFETRFFFSWLMTRVPDAEQQLAQYREMKRLAVESYRRKLVWLRARRASPQVQAHFQQITARWETALADPAALSRLFALEAFRSHVLDIEDDLHGQSCTLLTLQRIDWVIGQLEQHYDFIADQGGLFYDNAGKSQQALLGDYAQKRQKAQEYLLNAAAAKD				NA	NA	NA	NA	NA
BMS020_01097	972			hypothetical protein	ATGAAATTAGCCGGACTTCATCCCGACGAGCAGCGTCGCCTGCAATCGCTTCGCTCTTCCGGGCTGTTGAATAGCGGAAAAGAAGAACGCTTTGATCGCCTGACCAGGCTTGCCCGTTCGCTGTATAACCTGCCGGTGGCGTCCATCAGCCTGGTAGGGGAAGATCTGCTGCATATCAAATCCTGTGCCGGTCTGGATGTGGACACGGTGCCGAGAGACATTTCATTTTGCGCCCATACCATTTTGCAAACCGACCCGCTTATCGTTAACGACATGCAGCAGGACGAGCGTTTTCACGACAACCCGCTGGTGATCCAGGCGCCGTTTATCCGCTTTTACGCCGGGTACCCGGTGCAGCTGCCGGATGGCGCGACGGTGGGGTCTTTTTGTCTGATGGACCATCAGCCGCGTTCGTTTTCCGCGCATGAAATGCAGATCTTAAGCGATCTGGCGGCGATCGTGGAGGATGAGTTCAAGGTGCTGGATGCGGCAACCTCTGATGAGCTGACGGGACTGTTTAACCGCCGGGGATTCCTCACCCTGGCCGAGTATGCCCTGCTGACGGCCCAGCGCCGTCATGAGCCGGTCAGCCTGGCGTTTGTCGACCTCGATCGCTTTAAGCACATCAACGATACCTGGGGGCATGAAGAGGGCGATCGCGCGCTGATCGCCATCGCCGATTTGATGAAAGCCGCCTTCCGTGAATCCGATATCCTCGCCAGGCAGGGGGGCGATGAGTTTATTATTCTGTTCGCCAATACCAGCCGCCACGATGCCGCGGCGGCGATGGAGACGCTCAGCCACAACGTGGCGCGTTTCAACCAGCAGGCGGCTCACCCCTGGCAGCTGGCGTTCTCCTGGGGCTGCGTGGAGTACGATCCCGCCAGCCACCCCAGTCTCAACGCGCTGGTGGCCACTGCCGACCGCCTGATGTATCAGGCGAAGCAGAAACAGGGGCGCGAGCGCCGTTAA	MKLAGLHPDEQRRLQSLRSSGLLNSGKEERFDRLTRLARSLYNLPVASISLVGEDLLHIKSCAGLDVDTVPRDISFCAHTILQTDPLIVNDMQQDERFHDNPLVIQAPFIRFYAGYPVQLPDGATVGSFCLMDHQPRSFSAHEMQILSDLAAIVEDEFKVLDAATSDELTGLFNRRGFLTLAEYALLTAQRRHEPVSLAFVDLDRFKHINDTWGHEEGDRALIAIADLMKAAFRESDILARQGGDEFIILFANTSRHDAAAAMETLSHNVARFNQQAAHPWQLAFSWGCVEYDPASHPSLNALVATADRLMYQAKQKQGRERR				NA	NA	NA	NA	NA
BMS020_01098	837	cpo_1		Non-heme chloroperoxidase	ATGGCATTTGTCACCACCCAAGACGGCGTCAATATTTACTTCAAAGACTGGGGTCCAAAGGAAGCTCAGCCGATTGTTTTTCATCACGGCTGGCCGTTAAGCGCCGACGACTGGGATAACCAGATGTTGTTTTTCCTTGCCGAAGGCTTTCGGGTCATCGCCATCGACCGCCGGGGCCATGGCCGCTCCGATCAGGTCAGCGAGGGGCATGATATGGACCATTATGCGGCAGACGTCTCGGCGGTAGTGGAGCATCTGGATCTGCACAATGCGGTCCACGTCGGGCACTCCACCGGCGGCGGCCAGGTCGCCCGCTACGTGGCCCGCTACGGCCAGCCGCAGGGGCGGGTGGCGAAGGCGGTGCTCATCAGCGCCGTTCCGCCGCTGATGGTCAAAACCGAACAGAATCCTGGCGGCACGCCGATCGAGGTGTTTGACGGTTTCCGCAAAGCGCTGGCGGCTAACCGCGCCCAGTTCTATCTCGACGTCGCCTCTGGCCCGTTCTATGGCTTTAATCGTGACGGAGCGGAGGTGTCGCAGGGGACGATCCAGAACTGGTGGCGACAGGGGATGATCGGCAGCGCCAAAGCCCATTATGAAGGTATTAAGGCGTTTTCAGAAACGGATCAGACCGAAGATCTTAAGTCGATTACGCTGCCGGTGCTGGTCATGCAGGGCGATGACGATCAGGTGGTTCCCTATAAAAATGCCGCTATCCTGCAGGACCAGCTGCTGCCCAACAGCCAGCTGATCGTTTACCCTGGCTTCCCGCACGGGATGCACACTTCCCACGCCGATACCATCAACGCCGATCTGTTGGCGTTTATCCGCGCCTGA	MAFVTTQDGVNIYFKDWGPKEAQPIVFHHGWPLSADDWDNQMLFFLAEGFRVIAIDRRGHGRSDQVSEGHDMDHYAADVSAVVEHLDLHNAVHVGHSTGGGQVARYVARYGQPQGRVAKAVLISAVPPLMVKTEQNPGGTPIEVFDGFRKALAANRAQFYLDVASGPFYGFNRDGAEVSQGTIQNWWRQGMIGSAKAHYEGIKAFSETDQTEDLKSITLPVLVMQGDDDQVVPYKNAAILQDQLLPNSQLIVYPGFPHGMHTSHADTINADLLAFIRA	PGPT0013125_1038	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433	NA	NA
BMS020_01099	576			hypothetical protein	ATGCACGTTTTACACCACCATGCCGCCGCGAACGCGGCGGGAACCATCGACCCGCGCGGTCGCGCCATCGCCCTCAGCGTAGTCTTCGCCGCCGGGGCCTTGCTGTTCATCATGGCCCCCGTTATCGGGGCGAGCGGCACGCTGGGTCTGCTGGCGCTCCTGATCGCGGCCTTCGGCGCCGGATGGGGATTCGCGCGCGCGCAGCCCTGGCTATATCGGGCGCCCCTGACGGCGACGCGCTGGGCCTTCCTGGTGTCGGCGGCCGGCTGGCTGCTGGCGCTGGTGGCCTGGTATGGCGGCCAGGCCTGGCCGGCGCTGCTCCCCGGTGTGACGTTCGGCAGCGCGGGGGCGGCTGTCGCCTGGCGCGTTGCCGCGGGAAGGGCGGCACTGTCGGGTCGCCGCGTCAGCGGCGCCACGGCGCTGAGCGTGGCTGTCGCTATCGCGGCGACGCTGCTGACCTGGCACACCGCCGGGGCAGGACGCGGCGGCGTGAACTTTGCCTTCGCCGTGCTGCTGGACTGGGCGCTGCTCGGCGCGCTGATTGTGCGCATCCGCCAGCAGGAGAGTGCGGCGTAG	MHVLHHHAAANAAGTIDPRGRAIALSVVFAAGALLFIMAPVIGASGTLGLLALLIAAFGAGWGFARAQPWLYRAPLTATRWAFLVSAAGWLLALVAWYGGQAWPALLPGVTFGSAGAAVAWRVAAGRAALSGRRVSGATALSVAVAIAATLLTWHTAGAGRGGVNFAFAVLLDWALLGALIVRIRQQESAA				NA	NA	NA	NA	NA
BMS020_01100	915	gcvA_3		Glycine cleavage system transcriptional activator	ATGAGACCCCCCCGCCTGCCGCCGCTGGGCGCCCTGCGCGCCTTTCACGCCGTCGCCCGCCAGCGTAGTTTTAAACTGGCCGCCGGGGCGCTCGGCGTCAGCGCGACGGCGGTCAGCCATCAGATTAAACTGCTGGAATCGGTCCTGGAGTGCCGGGTCTGCGAACGCAGCGCGCAGGGCGTCAGCCTGACCGCCGATGGCGAGATCCTCTACGCCGCTACCCAGCGCGCCTTCAGCGCCCTGGAGCAGGCCGTCGTCCAGATAGCCCAGGCCCGCCAGCCGCCATCCTTAACCGTCACCACCACCTCCAATTTTCTCACCCACTGGCTGGTGCCACGGCTGGCGGACTTCACCGCCCGCTTTCCGGCTATCGACCTGCGTCTGCACACCAGCGTCGAACGGGTGGATCTGCATCTGGGCACGGTGGACGCCGCGATTCGCTATCGCGAAACGCCCGAGCCGGATCTGTGCTGTACCCTGCTGCATAAGGATCGCTTTATCGTGGTCGCCAGCCCGACGCTGGCCCTCAGCCGGCCTGACGATCTGGCGCAGGTGACGCTGTTTCACGTCGCCAACCGGCACGTACCGGCCGATTCGCCGAGCTGGGAGAACTGGCGTCGCCGCTATGGACCGCCGACGCTGAATATTGACGCGGGGTTAACCTTTAGCGATGAAACCCATGCCCTGCAGGCGGCGGTGGCCGGCCAGGGGGCGGTGATCGCCAGCGAACTGCTGGCGCGGGATCTGCTGCAGCGCGGGGTATTATCCGCGCCATTCAGCGGCGCATTGCCGGGCGCCAGCTACTATCTGGTCACCACCGAAGCGGCAGCGCAGCGGGCGGATATTATCGCGCTGCGGGAGTGGCTGGTGGGTCAGATGGCCCTGGGCGACAGCGGCCAGCCGGCAGCGGGATAG	MRPPRLPPLGALRAFHAVARQRSFKLAAGALGVSATAVSHQIKLLESVLECRVCERSAQGVSLTADGEILYAATQRAFSALEQAVVQIAQARQPPSLTVTTTSNFLTHWLVPRLADFTARFPAIDLRLHTSVERVDLHLGTVDAAIRYRETPEPDLCCTLLHKDRFIVVASPTLALSRPDDLAQVTLFHVANRHVPADSPSWENWRRRYGPPTLNIDAGLTFSDETHALQAAVAGQGAVIASELLARDLLQRGVLSAPFSGALPGASYYLVTTEAAAQRADIIALREWLVGQMALGDSGQPAAG	PGPT0026360_3428	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS020_01101	336			hypothetical protein	ATGAACAGTGAAAATAAAGGTTATACCTTAGCGGTAGAGAATGGCCGGCTTCAGCGGAAACAAGAAAAAATATTCCTCAAACCGATGGTCTTGTATATTCCGCAGCAGGCGGTAGAGGCCGTTAATGGGCTGCTGAGCGCTCTGCCGGACGACAATTTAGAGGGGGAGTTTGTGCTGACGGTCACCAATAACAATAACGGTGTCTCGGTCGATAAAAGCTTTTCCTCGCTGGCGGCGCTGCGCGACCCGCTTACCGCGGCCGATGCGGTGAAGGAGCTGATCAATATCGTCCGCGGCTATGAGTCCGACGAAGAGACCAACGTTTGCGGCTGGTAA	MNSENKGYTLAVENGRLQRKQEKIFLKPMVLYIPQQAVEAVNGLLSALPDDNLEGEFVLTVTNNNNGVSVDKSFSSLAALRDPLTAADAVKELINIVRGYESDEETNVCGW				NA	NA	NA	NA	NA
BMS020_01102	333	yeaR_2	COG3615	putative protein YeaR	ATGCAGCGAATTATTATTCCCACCCATTACGTTCATACCCGCAGCACGCCGCTGTGGACTAAGGAGACCGCTCCGGCCTCTATCTGGCGCCGCCATCTGGACGCTGGCACCCGCCAGGGGGTCTATCCCCGGCTGTCGGTGATGCAGGGGGCGATCCGCTATCTCGGCTATGCCGATGAAACCAGCCCCGAACCGGTTGAAACGCTGACCATTGAAGCCGGCCAGTTTGGCGTTTTTCCGCCGGAAAAATGGCACTGCATTGAGGCCCTCTCGGAGGACACGGTATTTAATGTCGACTTCTATGTTGATCCGAAAATTCTCATCGAGGGATAA	MQRIIIPTHYVHTRSTPLWTKETAPASIWRRHLDAGTRQGVYPRLSVMQGAIRYLGYADETSPEPVETLTIEAGQFGVFPPEKWHCIEALSEDTVFNVDFYVDPKILIEG				NA	NA	NA	NA	NA
BMS020_01103	1788			hypothetical protein	ATGTCGCAGATGGTATCGGAATATATGCGACTGGAGTCTCGTCTGGCGGGAATGGCGATTGGGGCCGAAGGGGCGGACCACGATGAGGTGCGCCTGCGCCTCGAGATCATGATGAGCCAGATCGAACTCCTGCAGGAGGGCGATCTGGGTCGCTTTATTAATAAAAGCGAACAGCGGAAGGCGGTGGTCGCCACGCTGATCCGCAATCTCCATTTGCTTGATAAACAAGTTGATACCATGACACCGGCGCAGGTTAAAGCGATCCTGCCGGTGTTAAGCGAACTGGATGGCCCCCTGACCTCAATGGCGGCCGCCACGCTGACGCAAGATATTAATATCGTTAATATCACCCATGATAAAATTCAGCATCTCTATTATATCTACTCGGTGATCTCCATTCTGCTGATCGCCATGTGTATTTCCCTCGGTCTGCTGATGCTGCGGCAGAATAATAACCTGCGGCGCGCCCACGTTCGTATGAAAACCCTGGCCAACGATCTGCAGGCCTCGAAAGAGAAGCTGCAGGTGCAGAACCGTCGACTGCAGTACGATGCCTACCATGATTCGCTGACCGGTATGCCAAACCGTCTCTCTTTCTGGCAGCGTCTGCAGGAGATCGTCAATCAGGTGCGCCCCTATAATGGCTGCGCCGTGGTGATGCTTTTCGATCTCGACAGCTTTAAGGATGTAAACGATACCCTCGGGCATGACGCTGGCGATAAGCTGCTGCAGGATCTGGCCAGCCGCCTCTCTTTTTTCCGTAAAACCTCAGAGACGCTGTATCGTCTCGGCGGCGATGAGTTCGCGATGCTCTCTTACGATCTGACCGAAGAGATGGCGCTCGAGCGGGCCAATGTTATCCGGGAGAAGATCAGCCAGCCCTATCAGATCTACGATGCGCAGATTAATATCGACGCCTGCATCGGGATCGTGATCTCTGATGGCGAAAGCCGGACCGATTATCTGTACAAGTGCGCCGACCTCGCCCTGTATGAGGCGAAAAAAGAGGGCAGCGGCCATGTGCAAATCTTCCGGCCGGGAATGCTGCAGCGTCTGCAGGAGAATAAATCGTTTGAAGACGATCTGCTGCAGGCCCTGGCCCATGACGAATTCAAAGTCTACTACCAGCCGATCGCCGATACCGTTACGCGCGAAATCTACGGTTATGAAGCGCTGGTTCGCTGGTTCCATCCGGTGCGCGGCGCCGTGCCGCCGACGGTGTTTATCCCGGTGGCAGAGAAAATCGGCCTTATCAATGCCCTCGGCGAGTGGGTGCTGAAAACCGCCTGTGCCGAAGCGGCCAGTTGGGCGACGCCGCTCAAGGTCTCGGTCAACGTTTCACCGATTCAGCTGATGAACACCTCGCTGACCGACACCATTATCAGCGTATTGCAGCAGACTGGACTCGATCCACGACGGCTGGATCTGGAGATCACTGAGTCCGATGTGTTCAATGAGAACACCCGTTCGCTGGAAATTCTCAGCCAGCTGCGCGAGCAGGGCATTCAAATCTCCATCGATGACTTTGGTACCGGCTATTCTTCGTTGTCGCGTTTAAGCTACTTCCCGTTCGATAAAATCAAAATCGACCGCTCGTTTGTTATCAATATTCCGGAGCAAAAAGACGATCTGGATATCGTGCGCCTGATTATCAGCATGGGAAAGAGCCTGCATATGCGCATTGTGGCTGAAGGCGTGGAGACCGAAGAGCAGTTGGCCTCGCTGCAGGCGCTGGGCTGCGACCTGGTGCAGGGCTATTTAATCGGCAAACCGAGTCCGCTGCGCTAA	MSQMVSEYMRLESRLAGMAIGAEGADHDEVRLRLEIMMSQIELLQEGDLGRFINKSEQRKAVVATLIRNLHLLDKQVDTMTPAQVKAILPVLSELDGPLTSMAAATLTQDINIVNITHDKIQHLYYIYSVISILLIAMCISLGLLMLRQNNNLRRAHVRMKTLANDLQASKEKLQVQNRRLQYDAYHDSLTGMPNRLSFWQRLQEIVNQVRPYNGCAVVMLFDLDSFKDVNDTLGHDAGDKLLQDLASRLSFFRKTSETLYRLGGDEFAMLSYDLTEEMALERANVIREKISQPYQIYDAQINIDACIGIVISDGESRTDYLYKCADLALYEAKKEGSGHVQIFRPGMLQRLQENKSFEDDLLQALAHDEFKVYYQPIADTVTREIYGYEALVRWFHPVRGAVPPTVFIPVAEKIGLINALGEWVLKTACAEAASWATPLKVSVNVSPIQLMNTSLTDTIISVLQQTGLDPRRLDLEITESDVFNENTRSLEILSQLREQGIQISIDDFGTGYSSLSRLSYFPFDKIKIDRSFVINIPEQKDDLDIVRLIISMGKSLHMRIVAEGVETEEQLASLQALGCDLVQGYLIGKPSPLR				NA	NA	NA	NA	NA
BMS020_01104	345			hypothetical protein	ATGCTGGAAAAACTGGGCATGAAGACGGTGGAAACCACCACCCCCTGGTACACCGGCAAGGTCCGTTTTGACGGCATTCCCCTTAATAAACTCATGGATTTAGTCGGCGCTAAAGGTCAATCCGTCCGCGTGCTGGCGCTCAACGACTACACCACCATTATCCCGATGGACGATTTTTATAAATTCCCGGTCATTATGGCGTTAAAAATGAACGGCCAATATATGCGCGTTCGGGATAAAGGCCCGTTATTTATCGTCTACCCTTACGACAGCAGCGCTGAATTACAGAACCAGATCTATTATTCCCGATCGGCCTGGCAAGTTTCTAAGATTATAATAGAGTAA	MLEKLGMKTVETTTPWYTGKVRFDGIPLNKLMDLVGAKGQSVRVLALNDYTTIIPMDDFYKFPVIMALKMNGQYMRVRDKGPLFIVYPYDSSAELQNQIYYSRSAWQVSKIIIE				NA	NA	NA	NA	NA
BMS020_01105	1320	abaF_2		Fosfomycin resistance protein AbaF	ATGGATTCAACAATAAGCGTGCAGCCCGGCGAGGCGCCGGATTCGCTGCATCGGGCCCGGCGGGCGGCATGGGGCAGCTTTGCCGGCGCCGTGGTCGACTGGTACGATTTTCTTCTCTATGGCATTACCGCCGCGCTGGTGTTCAACCGCGAATTTTTCCCGCAAATCAGCCCGGCGATGGGCACCCTTGCCGCGTTTGCCACCTTCGGCGTCGGGTTTCTTTTTCGTCCGCTGGGCGGGATTATCTTTGGCCACTTCGGCGACCGTCTCGGGCGCAAGCGGATGCTGATGATGACCGTCTGGATGATGGGTATCGCCACCGCCTGCATCGGCCTGCTCCCCTCATTCAGTCAGATCGGCTGGTGGGCGCCGGTGCTGCTGGTGTTCCTGCGGGCGGTTCAGGGCTTTGCCGTCGGCGGTGAATGGGGCGGCGCGGCGCTGCTCTCGGTGGAGAACGCGCCGAAGGGAAAAAAAGCCTTTTACAGCAGCGGGGTGCAGGTGGGCTACGGCGTCGGCCTGCTGCTCTCCACCGGGCTGGTATCGCTGATCAGCAGCCTGACCACCGACGAGCAGTTCCTCAGCTGGGGCTGGCGCTTACCCTTCCTGTTCAGCGTGGCGCTGGTCCTGATTGCGCTGTGGATCCGTAACGGTATGGCCGAATCGCAGGAGTTTGAAGCCCAGCAGAGCCAGGCCAACGCGCCGCAGGTGAAAAAGCGGCTGCCGGTAGTGGAAGCCCTGCTTCGCCATCCCGGGGCGTTTTTACTGATTATTGCCCTGCGGTTGTGCGAACTGCTGACCATGTACATCGTCACCGCCTTCGCCCTCAACTACTCGACGCAAAACCTCGGCCTGCCGCGCGAGCTGTTCCTCAACATCGGCCTGCTGGTAGGCGGCCTCAGCTGTCTGACTATCCCCTGCTTCGCCTGGCTGGCAGACCGCTTTGGCCGTCGGCGGATCTATATTACCGGGGCGCTGATCGGCACGCTGAGCGGTTTTCCGTTCTTTATGGCGCTGGAGAGTCAGTCCGTTTTCTGGATCCTGTTCTTCGCCCTGATGCTGGCCAATATCGCCCATGATATGGTGGTCTGCGTCCAGCAGCCGATGTTTACCGAGCTGTTCGGCGCCAGCTATCGCTATAGCGGCGCCGGCGTCGGCTACCAGGTGGCGAGCGTGGTCGGCGGCGGCTTTACGCCCTTTATCGCCGCGGCGCTGGTCACCTTCTCCGGGGGCTCCTGGCACAGCGTGGCCCTCTATCTGACCGCGGGATGCCTGCTGTCAGCGCTCACCGCGCTGTTGATGAAAAAGCATACCGTCGACTGA	MDSTISVQPGEAPDSLHRARRAAWGSFAGAVVDWYDFLLYGITAALVFNREFFPQISPAMGTLAAFATFGVGFLFRPLGGIIFGHFGDRLGRKRMLMMTVWMMGIATACIGLLPSFSQIGWWAPVLLVFLRAVQGFAVGGEWGGAALLSVENAPKGKKAFYSSGVQVGYGVGLLLSTGLVSLISSLTTDEQFLSWGWRLPFLFSVALVLIALWIRNGMAESQEFEAQQSQANAPQVKKRLPVVEALLRHPGAFLLIIALRLCELLTMYIVTAFALNYSTQNLGLPRELFLNIGLLVGGLSCLTIPCFAWLADRFGRRRIYITGALIGTLSGFPFFMALESQSVFWILFFALMLANIAHDMVVCVQQPMFTELFGASYRYSGAGVGYQVASVVGGGFTPFIAAALVTFSGGSWHSVALYLTAGCLLSALTALLMKKHTVD	PGPT0002956_443	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_SHIKIMATE_TRANSPORT,PGPT0002956-shiA-K08172	NA	NA
BMS020_01106	741			hypothetical protein	ATGTCTCTGTTGCCCCTGGCCGACTGCTGGCCACGCCGCTTTACCCCCGCCTCGCTGGCGCTGCAGTTTTGCGAGGACCCCACCCAGGCGGAACAACCGCTGTTTGCCAAAGCCGGCGCCGGCGAGGCCGTCGCCCAGCTCTGGCAGGCGCCGCAGGGATTCGTGGTGCCGGGGAGCTATCGTCAGTTTGCGGACCTGCCGGCGGTCAGTGCGCGTTTTGCCGCGCGGGGCTGGCCGGTATGGCTCCGCCGCTCCGGGGGCGGTCTGGTGCCCCAGGGGCCGGGGATTATCAACCTCAGCCTCGCCTGGCCGGTGCAGCAGCCGCTCGGCGAGGCCGCCGAACCCATCTATCACTCGCTGTGCGCTGTGCTGCAGCGCACCCTCGCGCGCTTCGGCGTTGCCAGCCACGCCAGGGCGGTGAGCGGTTCCTTTTGCGATGGCCGGTATAACCTCGCCTGCGGAGAGGGAGAGGAGGCGCGCAAGATTGTCGGTACCGCCCAGTACTGGCGGCCGCAGACGGCGAGCGGCGGCCATGTGGTGCTGGCCCATGCGGTGATCCTTATTGACGCCGACCTTAGCGCGGCGCATCAGGCGGCGAACGCCTTCGAAGCGCAGCTCGGCAGCGGGCGGGTCTACCGCGCCGACAAAACCGTCACCCTGGCGCAGTTGCTTCCCGGCGAGCGCCATCTGCTCCCCCGCTTCAGCGAGGCGCTGGCCCGGGAGCTGGACGCGACTCGCTGA	MSLLPLADCWPRRFTPASLALQFCEDPTQAEQPLFAKAGAGEAVAQLWQAPQGFVVPGSYRQFADLPAVSARFAARGWPVWLRRSGGGLVPQGPGIINLSLAWPVQQPLGEAAEPIYHSLCAVLQRTLARFGVASHARAVSGSFCDGRYNLACGEGEEARKIVGTAQYWRPQTASGGHVVLAHAVILIDADLSAAHQAANAFEAQLGSGRVYRADKTVTLAQLLPGERHLLPRFSEALARELDATR				NA	NA	NA	NA	NA
BMS020_01107	957	dmlR_9		HTH-type transcriptional regulator DmlR	ATGAGCGAGAGTCGTCCGGAGAGTTACTGGGCCCATCTTTACTGGCTGACGGTGCTGGAAGAGCAGAAAAGCTATACCCGAGCCGCGGAAAAGCTGGGGATCAGCAAGTCGGCCATCAGCCAGAAAATCAGCGAGCTGGAGCGGGTGACCGGTAAAACGCTGGTCCATCGCACCACTCGCAGCGTCAGCCTCAGCGACGACGGGCTGCGGCTGGTGGCGGAGCTCAGTGAGCCGTTTGGCCAGCTGCGGGATATTTTCACCGGCGCCTGCGATGAGGGCGGACCGCTGCGGGGGACGTTGCGCCTGACCGCGCCGGTGGCCTTTTCCCGTCAGCAGCTGGTGCCGGCGATCGCGCCCTTTTTACATCAACATCCCCAGCTGCATCTGCAGCTGGAGGTGACCGACCGGCTGGTCTCTCTCGGCAGCGAAGGGTTCGACCTCGCCATCCGCCACTGTCGGCGCGAGGCGCTCCCGGACACCCACGTCGCCTGGCCGCTGTGCCACACGGCCACGCTGATCGTCGCATCCGCCGACTATATTCGCCGCCATGGCCGCCCGGAGACGCCCGACGATCTGCGTCAACACCAGTGCCTGACCTATCCCCGTGGGCCCCAGCGCCCGCACTGGACGTTCGCCTCCCGCCAGACGCCCGATGAGCGGGTGACCATCAACGTGCAGGGGCCGTTCGCCACCAACAACAGCGAGTCGCTGCGCGATGCGGTGCTGGCGGGGTTGGGGGTGGCGCTGCTGCCGGATTTTAGCGCCCGGGAGGCTATCGGCCGCGGGCTGGTGCAGGAGCTGCTGCCGGCGTGGCAGCCGGTGGAGGTGTTCGCCGATCGGCTGTACGTCATCCGGCCCTATACTCCGCGGGCGTCGCGCGCGGTGGAGACCTTTAGCCGCTACCTGAAAGCGACCTTCAGCGAGTCGCGTCCAGCTCCCGGGCCAGCGCCTCGCTGA	MSESRPESYWAHLYWLTVLEEQKSYTRAAEKLGISKSAISQKISELERVTGKTLVHRTTRSVSLSDDGLRLVAELSEPFGQLRDIFTGACDEGGPLRGTLRLTAPVAFSRQQLVPAIAPFLHQHPQLHLQLEVTDRLVSLGSEGFDLAIRHCRREALPDTHVAWPLCHTATLIVASADYIRRHGRPETPDDLRQHQCLTYPRGPQRPHWTFASRQTPDERVTINVQGPFATNNSESLRDAVLAGLGVALLPDFSAREAIGRGLVQELLPAWQPVEVFADRLYVIRPYTPRASRAVETFSRYLKATFSESRPAPGPAPR				NA	NA	NA	NA	NA
BMS020_01108	390			hypothetical protein	ATGCCATTACTGACATTTGACCTGATTGAAGGCCGTACGGAACAGGAGATCAGAACCCTGCTGGATGCCGCTCATCGCGCCGTGCTGCGCTCCTTCGAGGTACCGGAACGCGACCGCTACCAGATTGTTCACGAAAACAAAGCCCATCATATGGTGATTGAAGATACCGGCCTCGGACTGACCCGCACGCGGGATCAGGTGGTGGTGCGGGTCTATACCAGCCCGCGCAGCGACGAGCAGAAGCAGCGTTTCTTCGCCATTCTGCAGGAGGAGCTGGCGGAACACTGCGGCCTGAGCGGCGATGATGTGATGGTGTCGATTATCAGCAACCAGAAAGGCGACTGGAGTTTTGGCCGCGGGGTCGCGCAGTATCTTACCGGCGATCTCTAA	MPLLTFDLIEGRTEQEIRTLLDAAHRAVLRSFEVPERDRYQIVHENKAHHMVIEDTGLGLTRTRDQVVVRVYTSPRSDEQKQRFFAILQEELAEHCGLSGDDVMVSIISNQKGDWSFGRGVAQYLTGDL				NA	NA	NA	NA	NA
BMS020_01109	732			hypothetical protein	ATGTTGAGTGTTATTCCCGCAGGCCTGTTTTCACGGCTGCGGATTTTCCTTGGGCGGCTGAAGCCGCACGCGCTGCCGGTGGCTCGTCGGCATATTGTGCTGGGCTCCATCGGCGCCGGTACCGGGCTGGCGGTGACCAGCATGTTCAGCCACTGGCTGCTCGGCGAAGTCAACCTGTGGTTTATTGCCCCCATGGGCGCATCGGCGGTACTCCTGTTTGGCGTGCCGAGCAGTCCGCTGGCGCAGCCGTGGTCGATTGTCGGCGGCAATGTGCTGTCGGCGCTGATCGGCGTCACGGTGGGTATGCTGGTGCCCGACCCGGCGCTGGCCTGCGGGCTGGCGGCGGCGCTGGCCATCGCCGGGATGTATTTTCTGCGCTGCCTGCATCCTCCCGGCGGCGCGGTGGCCCTGACGGCGATCCTCGGCGGCGCCGGGGTGCACAGCGAAGGCTATCACTTTGTGCTGACGCCGGTGCTGCTCAACTCGCTGATGCTGGCGCTGCTGGCCATCGTGTTTAACAATCTGGTTGGCCGCCGCTACCCCCATCCGCTGGCGGCGGAGGAGGTCAAATCCCGTGCGGTGCCGCTGGGCATTTCGGTTACCCGGGAAGATATTCACGCCGCCCTGCTGGAAGGCCAGTTCCTCGACATTGACGAAGACGATGTCCAGGAACTGCTGGAAAATATCGAACAGCAGGCGCGCCAGCGCATCGCGGCGGCAGGCCGCCGCTGA	MLSVIPAGLFSRLRIFLGRLKPHALPVARRHIVLGSIGAGTGLAVTSMFSHWLLGEVNLWFIAPMGASAVLLFGVPSSPLAQPWSIVGGNVLSALIGVTVGMLVPDPALACGLAAALAIAGMYFLRCLHPPGGAVALTAILGGAGVHSEGYHFVLTPVLLNSLMLALLAIVFNNLVGRRYPHPLAAEEVKSRAVPLGISVTREDIHAALLEGQFLDIDEDDVQELLENIEQQARQRIAAAGRR				NA	NA	NA	NA	NA
BMS020_01110	1110	ahcY_1	COG0499	Adenosylhomocysteinase	GTGAATAATAAAATCTCTTTAGCGAAAGAAGTGGCATGGGCCAGCCAGAATATGCCGCGTACCCTGCGTCAGGTCGCCGCCCTGCCCGACCTCAGCGGCGTCCGCCTTGCCTGCTGTATGCACCTCGACATGAAAATGATCCCGCTGGTGCAGGGGATCCTCGACAAGGGCGCTCAGGTCTTTTTAACCACCTGTAACCCCACCACCGTGCAGGACGACGTGGTGGCCTGGCTGGTGGAGCGCGGCGCCGAGGCCTGCGCCTGGCGCAATATGAGCGATGCCGACTGGCAACAGTCATGGGAAAAAGCGATCGCCTGGCAGCCCACTCACCTGTGCGAAATGGGGGCCGATATCACCACCCTCCTTCACCAGCGCGGCGAGTTCGGCAACATCATGGCGGGTCTGGAAGCCACCGGCTCCGGCGTCAATCGACTGGGGGATATTCAGCCCGGCTATCCGATCTTTAACTGGGACGATCTGCCGGTCAAAGAGGGGCTGCATAACCGCCATATGGTCGGACTCACCGCCTGGCACACCTTCTTCCAGACCACTCATCTCACCCTGCATGAGAAAAAAGTGCTGGTGATCGGCTACGGCCTGGTTGGCCAGGGCGTCGCGGCGGCGGCAAAAGCCTTTGGCGGCCAGGTGATGGTGGCGGAGATCGATCCTGCCCGTCGGCTGCAGGCGGCCTATGACGGCTGGCACGTGGTCGATCTCCAGGAGGCTATCGCCTCGGCGGACGTGGTAGCCACCGCAACAGGCGGTAAAAACGTGGTTAATCGCCAGGCGCTGGACCGGGCGAAAGCGGGCGTGTTTATCCTTAACGTCGGCCACGTGGCGGAAGAGATCGACGGCGAGTACCTGCGCCAGTACCCTCAGGAAGAGGTGATGCCGTATATCAACGCCTACCGCATGGCTGACAAAACCGTCTACCTGATGGCCAATGGCTCGATGCTCAACCTGACCGCCGGCTTCGGCGACAGCCTTAACGCCTTTGACGTCACCCTGGCGGTGATGGCCAGCGGTATCGGCCATATTGTCAGCGACGGTATGCGCGCCCCGGCGCAGGTTTACCTGCTGCCGCAGGCGGTCTGGCAGCAGGCGCTGTAA	MNNKISLAKEVAWASQNMPRTLRQVAALPDLSGVRLACCMHLDMKMIPLVQGILDKGAQVFLTTCNPTTVQDDVVAWLVERGAEACAWRNMSDADWQQSWEKAIAWQPTHLCEMGADITTLLHQRGEFGNIMAGLEATGSGVNRLGDIQPGYPIFNWDDLPVKEGLHNRHMVGLTAWHTFFQTTHLTLHEKKVLVIGYGLVGQGVAAAAKAFGGQVMVAEIDPARRLQAAYDGWHVVDLQEAIASADVVATATGGKNVVNRQALDRAKAGVFILNVGHVAEEIDGEYLRQYPQEEVMPYINAYRMADKTVYLMANGSMLNLTAGFGDSLNAFDVTLAVMASGIGHIVSDGMRAPAQVYLLPQAVWQQAL				NA	NA	NA	NA	NA
BMS020_01111	1068	cobT_1	COG2038	Nicotinate-nucleotide--dimethylbenzimidazole phosphoribosyltransferase	ATGGAAACACTTTCGGCGTTACTGGCTGCCATTCCGCAGCCCGATGTGACGGGCATGGCGCGCGCGCAGCAGCATATTGATGGCCTGTTAAAGCCGCCCGGCAGCCTTGGCCGTCTGGAGAGCCTGGCGGTACAGCTGGCCGGTCTGCCGGGGCTGCAGGGGCAGCTGGCGCTGACTGAAAAAGCCATCGTGGTCATGTGTGCCGACCACGGCGTCTGGCATGAAGGCGTGACCCCTTCCCCGCAGGCGGTGACGGCCATTCATGCCGGCAATATGGTGCGGGGCAATACCGGCGTCTGCGTGCTGGCGGCGCAGGCTGGCGTGAGAGTGGAGGTGGTGGATGTCGGCATCGACGCCGAGCCGCTGCCGGGCCTGATCAACCTCAAGGTGGCCCGCGGTAGCGGGAATATCGCCCGGACGGAGGCGATGAGCCGTCAGCAGGCGGAGACGGTGCTGCTGGCCAGCATGCGTTTCGCCCGCCAGCTCGCCGCCGACGGGGTGAACGTCTTTGGCGTGGGGGAGCTGGGGATGGCCAATACCACCCCGGCCGCTGCGACGATCAGCGTCCTGACCGGCAGCGACCCCGACGCGGTGGTGGGCTGCGGGGCCAATCTGCCGCTGGCGCAGCGGGGCCATAAGGTGGCGGTGGTGCGCCAGGCGATCGCTCATAACCAGCCGAACCCGGCGGACGGGCTGGACGTGCTGGCTAAGGTGGGCGGTTTTGATCTGGTGGGTATGACCGGGGTGATCCTCGGGGCGGCCTCCTGCGGTCTGCCGGTGGTGGTGGATGGCTTCCTCTCCTACGCTTCGGCTCTGGCGGCCTGCCGCATGGCCCCGGCGGCGCACCCGTATCTTATCCCTTCGCACCTGTCGGCGGAGAAAGGGGCGCGGATCGCCCTCGACGCGCTGGGTCTGCGCCCGTATCTCGATATGGACATGCGCCTGGGGGAGGGCAGCGGCGCGGCGCTGGCCATGCACCTGCTGGATGCCGCCAGCGCGATGTACCACCAGATGGGGACCCTGGCGCAGAGCAACATTGTGCTGCCCGATAGCGCGCCAGCGTCCTGA	METLSALLAAIPQPDVTGMARAQQHIDGLLKPPGSLGRLESLAVQLAGLPGLQGQLALTEKAIVVMCADHGVWHEGVTPSPQAVTAIHAGNMVRGNTGVCVLAAQAGVRVEVVDVGIDAEPLPGLINLKVARGSGNIARTEAMSRQQAETVLLASMRFARQLAADGVNVFGVGELGMANTTPAAATISVLTGSDPDAVVGCGANLPLAQRGHKVAVVRQAIAHNQPNPADGLDVLAKVGGFDLVGMTGVILGAASCGLPVVVDGFLSYASALAACRMAPAAHPYLIPSHLSAEKGARIALDALGLRPYLDMDMRLGEGSGAALAMHLLDAASAMYHQMGTLAQSNIVLPDSAPAS	PGPT0004595_863	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
BMS020_01112	741	cobS_1	COG0368	Adenosylcobinamide-GDP ribazoletransferase	GTGATTAAGTCATTCTTTGCTGCACTCTCGTTTATCAGCCGTCTGCCGGTCCCGGCGCGGTTATCTCAGGGCCTGGAGATCGAACAGTACCAGCGCAGTATCGTCACCTTCCCGCTGGTCGGTTTACTGCTCGGCGCCATCGCCGGCGCGGTGGTGTACCTCCTGCAGCCGTGGTGCGGCGTCCCGCTGGCGGCGCTGTTCGGCGCGCTGGCGCTGGCGCTGCTCACCGGCGGATTTCACCTTGACGGGCTGGCCGATACCTGCGACGGCATCTTCTCCGCCCGCACCCGCGATCGAATGCTGGAGATCATGCGCGACAGCCGGCTGGGTACCCACGGCGGGCTGGCGCTGATTTTTGTGCTGGTGGCGAAGGTGCTGGTGGTCGGCGAACTGCTGCTGCGCGATGTCAACCCCATCGCGGCGCTGGCGGCGGCCTGCGCCGTCGGTCGCGGAATGGCGGTGCTGCTGATGTATCGCCATCGCTATGCGCGGGAAAAAGGGCTGGGCAATCTGTTTATTGGCAAAATTAGCCTGCAGCAGACGCTGGTGACGATGGCGCTGGCGATCGCGCTGGCCACCGCCCTGCTGGGGCTGCAGGGGCTGCGCGCCGCGCTGATCGCCCTGGTGCTGATCTGGGGTCTGGGGTGGGCGCTGAAGCGAACCCTCGGCGGGCAGACCGGGGATACCCTCGGAGCGGCGATCGAGCTGGGTGAATTACTCTTTTTACTGGCGCTACTGTAA	MIKSFFAALSFISRLPVPARLSQGLEIEQYQRSIVTFPLVGLLLGAIAGAVVYLLQPWCGVPLAALFGALALALLTGGFHLDGLADTCDGIFSARTRDRMLEIMRDSRLGTHGGLALIFVLVAKVLVVGELLLRDVNPIAALAAACAVGRGMAVLLMYRHRYAREKGLGNLFIGKISLQQTLVTMALAIALATALLGLQGLRAALIALVLIWGLGWALKRTLGGQTGDTLGAAIELGELLFLLALL	PGPT0004590_2230	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
BMS020_01113	324			hypothetical protein	ATGGAAACAACTAAGCCTTCTTTCCAGGACGTACTGGAGTTTGTTCGTCTGTACCGTCGTAAGAACAAACTGCAGCGTGAAATTCAGGACGTTGAGAAAAAGATCCGTGATAACCAGAAGCGCGTTCTGCTGCTGGACAACCTCAGCGACTACATCAAACCGGGCATGAGCGTGGAAGCCATCCAGGGCATCATCGCCAGCATGAAGAGCGATTACGAAGACCGCGTTGATGACTACATCATCAAGAATGCCGAGCTGTCCAAAGAGCGCCGCGACATCTCTAAAAAACTGAAAGTGATGGGTGAAGCCAAAGTCGAAGGCTAA	METTKPSFQDVLEFVRLYRRKNKLQREIQDVEKKIRDNQKRVLLLDNLSDYIKPGMSVEAIQGIIASMKSDYEDRVDDYIIKNAELSKERRDISKKLKVMGEAKVEG				NA	NA	NA	NA	NA
BMS020_01114	1059	yeeA	COG1289	Inner membrane protein YeeA	GTGCGCGCTGATAAATCACTCAAGCCATTTGAGATCCGCTTGTATCGCCATTATCGGGTGGTGCATGGTGTGCGGATTGCGCTGGCCTTTGTGCTCACCTTTTTGCTGGTGCGGCTGCTGAACGTGCCTGAGGGGACCTGGCCTCTCATCACCCTGGTGGTGGTAATGGGGCCGATCTCCTTCTGGGGCAACGTCGTGCCGCGGGCGTTTCAGCGCATCGGCGGCACGATCCTCGGCTCGGCGCTGGGGCTGGTGGCGCTCAAGCTTGAGCTTATCTCCCTGCCGCTGATGGTCCTCTGGTGCGCGGCGGCGATGTTCCTCTGCGGCTGGCTGGCGCTGGGCAAGAAACCCTATCAGGCGCTGCTGATCGGCATCACCCTGTCGGTGGTGGTCGGGGCGCCGCCGGGCGATATGCATACCGCGCTGTGGCGAAGCGGCGACGTGATCTTCGGCTCGCTGCTGGCGATGCTGTTTACCGGTATCTGGCCGCAGCGGGCGTTTATCCACTGGCGCATCCAGATGGCCAGCTATGTCACCAACTTCAACCGCCTCTACCAGGCCGGCTTCTCGCCAAATCTGGTGGATCGGCCGCGGCTGGAAAAGCATCTCCAACAGGCGCTCAACGACGTCGTCAAAATGCGCGGGCTGATCACCCCCGCCAGCAAAGAGACACACATCCAGAAGGCGATCTTCGAGGCTATCCAGACCGTCAGCCGCAACCTCGTGTGCATGCTGGAGCTGCAGATCAACGCCTGGTGGGCAACCCGTCCGGGCCACTTCGTCATGCTCAATGCGCACACCCTGCGGGAGACGCAGCAGATGACCCAGCAGACGCTGTTGGCCATCGCCCACGCCTTGTATGAAGGGAACCCTCAGCCTGTGCGCGCCAACAATGAAAAGCTGAATGAGATCGTCCTCGAACTGCGCCAGCTGATGAAAGAGCAGGGTGACGATAGCCTGGCGGAAACCCCGATCCATGGCTATGTTTGGCTCTCTATTGAACTGGCGCGCCAGCTGGAGCTGCTGTCGCATCTGATCTGCCGCGCGTTGCGCAAATAA	MRADKSLKPFEIRLYRHYRVVHGVRIALAFVLTFLLVRLLNVPEGTWPLITLVVVMGPISFWGNVVPRAFQRIGGTILGSALGLVALKLELISLPLMVLWCAAAMFLCGWLALGKKPYQALLIGITLSVVVGAPPGDMHTALWRSGDVIFGSLLAMLFTGIWPQRAFIHWRIQMASYVTNFNRLYQAGFSPNLVDRPRLEKHLQQALNDVVKMRGLITPASKETHIQKAIFEAIQTVSRNLVCMLELQINAWWATRPGHFVMLNAHTLRETQQMTQQTLLAIAHALYEGNPQPVRANNEKLNEIVLELRQLMKEQGDDSLAETPIHGYVWLSIELARQLELLSHLICRALRK				NA	NA	NA	NA	NA
BMS020_01115	474	sbmC	COG3449	DNA gyrase inhibitor	ATGAACTACAGCGTCACCCCCCTCGGCAAGAAAACCATTGCCGGTTTCCATCTGGTCGGGCCCTGGGATCAAACCGTCAGGCAGGGGTTTGAGCAACTGATGATGTGGGTTGAGGGCCGGCAGGTGCCCGCCCGCGAGTGGCTTGCCGTCTACTACGATAACCCGGAGGACGTGCCGGCGGAAAAACTGCGCTGTGCCACCGTGGTCGCCGTTGACGAGGATTACGTCATTCCCGCCAACAGCGAAGGGGTGATCATAACGGCGATTGCCGGCGGGGATTACGCCTGCGCCCGCGCGCGGGTGTTAGATCACGACTTCGCCACCCCGTGGAGGCAGTTTTTCGACAGCCTGCTGCAGAGCACGGCGTATCGCATCGCCCCCCAGCCCTGCTTTGAGGTCTATCTTAACGACGGCAACCACGACGGCTACTGGGATATCGACATGTATGTTCCTGTCGCCCGCGTCGCGTCGTAG	MNYSVTPLGKKTIAGFHLVGPWDQTVRQGFEQLMMWVEGRQVPAREWLAVYYDNPEDVPAEKLRCATVVAVDEDYVIPANSEGVIITAIAGGDYACARARVLDHDFATPWRQFFDSLLQSTAYRIAPQPCFEVYLNDGNHDGYWDIDMYVPVARVAS				NA	NA	NA	NA	NA
BMS020_01116	1044	dacD	COG1686	D-alanyl-D-alanine carboxypeptidase DacD	ATGGATTACACCACCGGTCAGGTACTGACCGCGGGTAACGAACATCAGCAGCGCAATCCTGCCAGCCTGACCAAATTAATGACCGGCTACGTGGTCGATCGCGCCATCGACAGCCATCGTATCACCTTTGACGATATCGTCACCGTGGGGAAAGACGCCTGGGCGAAGGGCAACCCGGTGTTCGACGGGTCATCCCTGATGTTCTTAAAGCCAGGGGATCGCGTCAGCGTCCGCGACCTCAGCCGCGGGCTGATTGTCGACTCCGGCAACGACGCCTGCGTCGCGCTGGCCGACTATGTCGCCGGCGGTCAGCCGCAGTTTGTCGCCCTGATGAATCAGTATGTCGAAAAACTGCATCTGCAGGATACCCATTTCGAAACCGTCCACGGCCTCGATGCCCCGGGCCAGCACAGTTCGGCCTATGACCTGGCGGTGCTGTCGCGGGCGATAATCCATGGCGAGCCTGACGTCTACCACATGTACAGCCAGAAAAGCCTGACGTGGAACGGCATTACCCAGCAAAACCGTAACGGTCTGCTGTGGGATAAAACCCTGAACGTCGATGGCCTGAAAACCGGACACACGTCGGGCGCCGGGTTCAACCTGATCGCCTCGGCGGTGGATGGCCAGCGTCGGCTGATCGCCGTGGTGATGGGGGCCGACAGCCCGAAAGGCCGCGAGCAGCAGGCCGCGAAACTGCTGCACTGGGGGCAGCAGAACTTCGACACCGTGCAGGTGCTGCAGAAGGGGCAGAAGGTCGGCAGCGAGCGCATCTGGTACGGCGATAAAGAGCAGATTAAGCTCGGCACCGATCAGGATTTCTGGTTAGCGCTGCCGAAGGCGGAAGTGTCGCGGATTAAGGCGAAATACGTGCTGGATAAAAAGGATCTGGAGGCGCCGATCGCCGCCAACCAGCGGGTCGGCGAGATTTCGCTGTATGACGGCGACAAGGTCGTGGGCCACTATCCGCTGGTCACCCTCGAAAGCATTAATAAAGGCGGGGTGTTCTCGCGAATGAGCGATTACCTGCACCACGAGCTGTAA	MDYTTGQVLTAGNEHQQRNPASLTKLMTGYVVDRAIDSHRITFDDIVTVGKDAWAKGNPVFDGSSLMFLKPGDRVSVRDLSRGLIVDSGNDACVALADYVAGGQPQFVALMNQYVEKLHLQDTHFETVHGLDAPGQHSSAYDLAVLSRAIIHGEPDVYHMYSQKSLTWNGITQQNRNGLLWDKTLNVDGLKTGHTSGAGFNLIASAVDGQRRLIAVVMGADSPKGREQQAAKLLHWGQQNFDTVQVLQKGQKVGSERIWYGDKEQIKLGTDQDFWLALPKAEVSRIKAKYVLDKKDLEAPIAANQRVGEISLYDGDKVVGHYPLVTLESINKGGVFSRMSDYLHHEL	PGPT0024040_5529	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
BMS020_01117	1425	sbcB_1	COG2925	Exodeoxyribonuclease I	ATGCAAGACAGCGTCAACCAGCCCGGATTTTTATTCCACGATTATGAAACCTTCGGCACCAGCCCTTCCCTTGACCGGCCGGCACAGTTCGCCGCCATCCGCACCGACGCGGAGTTAAACGTGCTGGGCGAGCCCGAGGTGTTTTACTGCAAGCCCGCTGACGACTACCTGCCGCAGCCGCAGGCGGTAATGATCACCGGGATCACCCCGCAGGAAGCGCTGGCCAAAGGGGATAACGAGGCCGCGTTTGCCCGCCGCATCCACGATCTGTTCACGGTGCCGCAAACCTGCATCGTCGGCTATAACAACGTGCGCTTTGATGACGAAGTGACGCGGAATATCTTCTATCGCAACTTCTATGACCCTTATGCCTGGAGCTGGCAGCACGATAACTCGCGCTGGGATCTGCTCGACGTGATGCGCGCCTGCTATGCCCTGCGTCCGGAAGGGATCGCCTGGCCGGAAAATGACGAGGGTCTGCCGAGCTTCCGCCTTGAACATCTGACCGTCGCCAACGGTATTGAACACCAGAACGCCCATGACGCGATGGCCGACGTCTACGCCACCATCGCCATGGCGAAGCTGGTGAAAACCCGGCAGCCGCGGCTGTTTGACTATCTCTACAGCCACCGCAATAAGCGCAAGCTGGCGACGCTCATCGACGTACCGCAGATGAAGCCGCTGGTGCATGTCTCCGGCATGTTCGGCGCCGCGCGCGGCAACACCAGCCTGGTGGCGCCCCTGGCCTGGCATCCGGAAAACCGCAATGCGGTGATTATGGTCGATCTGGCGGGGGATATGGCGCCGCTGCTGGAGCTGGATGCGGACGCCCTGCGCGAGCGGCTTTACACCCCGCGCGCCGAGCTTGGCGATCTGCCGGCGGCGCCGATTAAGCTGGTGCATTTGAACAAGTGTCCGGTGCTGGCCCAGGCCAATACCCTGCGCCCGCAGGATGCCGACCGGCTGGGGATCTCCATTCAGCGCTGTCTGGAGAATGCCCAGCTGCTGCGGGCGAATCCGCAGGTGCGGGAGAAAGTGGTGGCGGTGTATGCCGAAGCCGAGCCGTTCATGCCGTCCGAAAACGTCGACGCCCAGCTTTACAATGGGTTCTTTAGCGATGCCGACCGCGCGGCGATGAAAATCGTGCTGGAAACGGAACCGCGCAATCTGCCGGCGCTGGATATCACCTTCGCCGACAAGCGCATCGAACGCCTGCTGTTTAACTACCGGGCGCGCAACTTTCCCGGCACGCTCGATGAAGCCGAGCAGCAGCGCTGGTTAGAGCACCGTCGTCAGGTATTTACGCCTGAGTTTTTGCAGGCCTATGCCGATGAACTGCAGATGCTGTATCAGCAGTATGCGGATGATAAAGAGAAGCTGGCGCAGCTGAAGGCGCTGTGGCAGTACGCGCAGGATATTGTCTGA	MQDSVNQPGFLFHDYETFGTSPSLDRPAQFAAIRTDAELNVLGEPEVFYCKPADDYLPQPQAVMITGITPQEALAKGDNEAAFARRIHDLFTVPQTCIVGYNNVRFDDEVTRNIFYRNFYDPYAWSWQHDNSRWDLLDVMRACYALRPEGIAWPENDEGLPSFRLEHLTVANGIEHQNAHDAMADVYATIAMAKLVKTRQPRLFDYLYSHRNKRKLATLIDVPQMKPLVHVSGMFGAARGNTSLVAPLAWHPENRNAVIMVDLAGDMAPLLELDADALRERLYTPRAELGDLPAAPIKLVHLNKCPVLAQANTLRPQDADRLGISIQRCLENAQLLRANPQVREKVVAVYAEAEPFMPSENVDAQLYNGFFSDADRAAMKIVLETEPRNLPALDITFADKRIERLLFNYRARNFPGTLDEAEQQRWLEHRRQVFTPEFLQAYADELQMLYQQYADDKEKLAQLKALWQYAQDIV				NA	NA	NA	NA	NA
BMS020_01118	2103	fusA_1	COG0480	Elongation factor G	ATGCCCCGACCCATCCCCCTCGAACGTTATCGCAACATCGGTATCTCCGCGCATATCGATGCCGGTAAAACCACCACCACCGAGCGCATCCTGTTTTACACCGGGATGAGCCATAAGCTGGGTGAAGTACACGATGGCGCGGCAACCACCGACTGGATGGCCCAGGAGCAAGAGCGCGGGATCACCATTACCTCGGCGGCGGTGAGCTGCTTCTGGCCAGGTATGGACCGCAGCTTCGAGCCGCACCGGATCAATATCATCGACACCCCGGGGCACGTGGATTTCACCATTGAGGTGGAACGTTCCATGCGCGTGCTCGACGGCGCGGTGATGGTGTATGACTCCGTCGGCGGGGTGCAGCCCCAGTCGGAGACCGTCTGGCGCCAGGCGAATAAATACCATGTCCCGCGGCTGGCCTTCGTCAACAAGATGGACCGCCCCGGCGCGGACTTCTTCCGCGTGGTGCAGATGATGATCGACCGCCTGAAGGCCAACCCGGTGCCGATTGTTATCCCCGTTGGCGCCGAAGAGCATTTCACCGGCGTCGTCGACCTGGTGAAAATGCGCGCCATCCTGTGGGATGACGCCACCCAGGGCATGACCTTCAGCTACGGACCGGTCCCTGACGATCTGCTGGCGACTGCCCGCGAGTGGCGGGAGAAAATGGTCTCGGCGGCGGCGGAGGCCAGCGACGCGCTGATGGATAAATACCTCGAAACCGGCGAGCTGGACGAGGCGGAGATCGTCGCCGGTCTGCGCCAGCGCACGGTGAAGGGTGAAATCCAGGCGGTGCTCTGCGGTAGCGCCTTTAAAAACAAAGGTGTGCAGCGCATGCTCGACGCGGTGGTGGAGCTGATGCCGTCGCCGCTGGATATTCCGGCGATACAGGGCGTGGATGAGAAAGGCCAGCCGGCGGAGCGCCATCCGAGCGACGATGAGCCGCTGTCGGCGCTGGCGTTCAAACTGATGACCGACCCCTACGTCGGCCAGTTGACCTTTATCCGCGTCTACTCCGGGACGCTGAAGAAAGGCGATGCGGTGTGGAATCCGGTGAAGGGCAAGAAAGAGCGCATCGGGCGTATCGTCCTGATGCAGGCCAACGATCGCCACGAAGTGGACGAACTGCACGCCGGGGATATCGCGGCCTGCGTCGGCCTGAAGGATGTCACCACCGGCGACACGCTGTGCGACCCGGATGCGGTGATTACCCTTGAGCGGATGGAGTTTCCGGAGCCGGTGATTTCGCTGGCGATTGAGCCGAAGACCAAAGCGGACCAGGAGAAAATGGGCATCGCGCTGCAGCGGCTGGCGGCGGAAGATCCGTCGTTCCGTCTGCATACCGATGAAGAGTCCGGCCAGACGATTATCTCCGGCATGGGCGAGCTGCATCTGGAGATCATTGTCGACCGGATGAAGCGCGAGTTTAACGTCGAGGCCAACATTGGTCGTCCGCAGGTCACCTACCGCGAAACCCTGCGCAAGAAAGTGACGGACGTGGAGGGCAAATTTGTGCGCCAGTCCGGCGGTAAAGGACAGTACGGGCACGTCGTGCTGACCCTTGAGCCGCTGGAGCCGGGTAGCGGTTTCGTCTTCGAGGACGCCACCAAAGGCGGGGTAGTGCCGCGCGAGTACATCCCTTCCGTGGAGAAAGGGCTGCGCGAAGCGATGGGCACCGGCGTGCTGGCGGGCTATCCGGTGGTTGACGTGAAAGCGACCCTGACCTTCGGATCGTACCACGATGTGGACTCCTCGGAGATGGCGTTCCGCATGGCGGCGATCTTCGGCTTCCGGGAAGGGGCGCGCAAAGCGGACCCGGTGATCCTTGAGCCGGTGATGCACGTGGAGGTGGAAACGCCGGAAGAGTACGCCGGGAATATCATGGGCGATCTCTCTTCCCGTCGCGGGATGGTGCAGGGGATGGAAGAGCGCTTCGGCAGCCAGATCATCCGCGCCGATGTGCCGCTGGCGGAGATGTTTGGTTATTCCACCACGCTGCGCTCGATGTCTCAGGGACGAGCAACCTATAGCATGGAGTTCCACCACTACGCGGAAGCGCCGCGCAACGTAGCGGATGAAATCATCGCCAGCCGCGCGAAAAGTTAA	MPRPIPLERYRNIGISAHIDAGKTTTTERILFYTGMSHKLGEVHDGAATTDWMAQEQERGITITSAAVSCFWPGMDRSFEPHRINIIDTPGHVDFTIEVERSMRVLDGAVMVYDSVGGVQPQSETVWRQANKYHVPRLAFVNKMDRPGADFFRVVQMMIDRLKANPVPIVIPVGAEEHFTGVVDLVKMRAILWDDATQGMTFSYGPVPDDLLATAREWREKMVSAAAEASDALMDKYLETGELDEAEIVAGLRQRTVKGEIQAVLCGSAFKNKGVQRMLDAVVELMPSPLDIPAIQGVDEKGQPAERHPSDDEPLSALAFKLMTDPYVGQLTFIRVYSGTLKKGDAVWNPVKGKKERIGRIVLMQANDRHEVDELHAGDIAACVGLKDVTTGDTLCDPDAVITLERMEFPEPVISLAIEPKTKADQEKMGIALQRLAAEDPSFRLHTDEESGQTIISGMGELHLEIIVDRMKREFNVEANIGRPQVTYRETLRKKVTDVEGKFVRQSGGKGQYGHVVLTLEPLEPGSGFVFEDATKGGVVPREYIPSVEKGLREAMGTGVLAGYPVVDVKATLTFGSYHDVDSSEMAFRMAAIFGFREGARKADPVILEPVMHVEVETPEEYAGNIMGDLSSRRGMVQGMEERFGSQIIRADVPLAEMFGYSTTLRSMSQGRATYSMEFHHYAEAPRNVADEIIASRAKS				NA	NA	NA	NA	NA
BMS020_01119	309			hypothetical protein	ATGATCGCCAATCACCCTGAACGAGAACAAATTCGCCTGGAAAATGTCCTTTCCGCGCTCGGCAACCCGCTGCGACTGGAGATCATCCGCACGCTGGCCGACGGCAGCGAGCAGAGCTGTAACGCTCTGCGTCAGGAAGAGGTGGCCAAGTCCACCATGACCCACCACTGGCGCGTCCTGCGCGACAGCGGTGTGATCTGGCAGCGGCCTCAGGGACGGGAGAATATGATTTCGCTGCGCCGGGAAGATCTGGACGCCCGTTTTCCCGGCCTGCTGGATACGCTGCTGAACGTGATGCAGCAGTCGTGA	MIANHPEREQIRLENVLSALGNPLRLEIIRTLADGSEQSCNALRQEEVAKSTMTHHWRVLRDSGVIWQRPQGRENMISLRREDLDARFPGLLDTLLNVMQQS				NA	NA	NA	NA	NA
BMS020_01120	3513		COG0674	Pyruvate:ferredoxin oxidoreductase	ATGTCCGGAAACATGAAAACAATGGATGGCAACGCGGCGGCGGCCTGGATCTCCTACGCCTTTACCGACGTGGCGGCCATCTATCCCATTACCCCCTCCACGCCGATGGCGGAGAATGTCGATGAATGGGCCGCTAAGGGGAAAAAGAACCTCTTTGGTCGGCCGGTGCGCCTGATGGAGATGCAGTCTGAAGCCGGCGCCGCCGGGGCGGTGCACGGCGCGCTGCAGGCGGGGGCGCTCACCACCACCTACACCGCGTCGCAGGGGCTGCTGCTGATGATCCCCAATTTGTACAAAATTGCCGGGGAGCTGCTGCCGGGCGTCTTTCACGTTAGCGCCCGGGCGCTGGCGACCAATTCGCTGAATATTTTTGGCGACCATCAGGATGTGATGGCGGTGCGCCAGACCGGCTGCGCCATGCTGGTGGAGAATAACGTTCAGCAGGTGATGGACCTGTCGGCGGTGGCGCATCTGGCGGCGATCGCCGGGCGGATACCCTTTATCAACTTCTTCGACGGCTTTCGCACTTCGCACGAAATACAGAAGATCGAGGTGCTGGAGTATGAGCAACTGGCGGCGCTGCTGGACCGCCCGGCGCTGGAGCGCTTTCGTCGTCAGGCGCTGCATCCGGATCACCCGGTGATCCGCGGCACCGCGCAAAACCCGGATATCTACTTCCAGGAGCGGGAGGCCGGTAACCGCTTCTACCTCGCGCTGCCCGATCTGGTGGAAAGCTATATGGCGAAGATCACCGCGCTCACCGGGCGGGAATATCACCTGTTTAATTACCACGGCGCGCCGGACGCCGAGCGGGTGATTATCGCCATGGGCTCAGTGTGCGACACCGTCCAGGAGGTGGTGGATGCGCTGAATGCGGCGGGGGAGAAGGTGGGGCTGCTCAGCGTTCATCTCTATCGGCCGTTCTCGCTGGCGCACTTCTTCGCGCAATTGCCCGCCAGCGTGCAGCGCATTGCCGTCCTTGACCGCACCAAAGAGCCGGGGGCGCAGGCGGAACCGCTGTGCCTCGACGTCAAAAACGCTTTCTATCAACGCGACGATGCGCCGCTGATTGTCGGCGGCCGCTACGCCCTCGGCGGTAAGGATGTGCTGCCCAACGATATCGCCGCGGTGTTTGACAATCTTCGGCAGCCGCAGCCGAAGGACGGGTTTACCCTGGGCATTGTCGATGACGTCACCTTTACCTCGCTGCCCGCCCGGCAGGTGCCGCTGGCGGTCTCCCACGCCGGGATCACCGCCTGCAAATTCTGGGGCATGGGCTCGGATGGCACCGTCGGGGCGAACAAAAGCGCCATTAAGATCATCGGCGATAACACGCCGCTCTATGCTCAGGCCTACTTTTCCTACGACTCGAAAAAGTCCGGGGGGATCACCGTCTCGCACCTGCGCTTTGGCGACCGGCCAATCACCTCGCCCTACCTGATCCACCGGGCCGATTTTATCGCCTGCTCTCAGCAATCCTATGTCGACCGCTACGACCTGCTGGAGGGGCTGAAGCCGGGAGGCACCTTTTTGCTCAACTGCAGCTGGTCCGAGGCGGAGCTGGAGCAGCACCTGCCGGTCAGCGTCCGGCGCTATCTGGCGCAGGAAAAGATCGACTTTTATACCCTCAACGCCGTGGACATCGCCCGCGAGCTGGGCCTCGGCGGGCGCTTTAACATGCTGATGCAGGCGGCGTTCTTTAAGCTGACGGCGATTATCGATCCGCAAACCGCGGCGGACTATCTCAAGCAGGCGGTGGAGAAAAGCTATGGCAGCAAAGGGGCGAGCGTCATTGAGATGAACCAGCGGGCGATCGAGCTGGGGATGGCGGCGCTGCGTCGGGTGACGGTTCCCGCCCACTGGGCGACCCTCGAGGCGCCGGCGCCGCAGGCGACAACCCTGATGCCGGACTTCATCCGCGATATTCTGCAGCCCATGAACCGCCAGCGTGGCGACCTGCTGCCGGTGAGCGCCTTCGCCGGGATGGAAGACGGCACCTTTCCCTCCGGCACCGCCGCCTGGGAGAAGCGCGGCATTGCCCTGGAGGTGCCGGTCTGGCAGCCCGACGGCTGCACCCAGTGTAACCAGTGCGCCTTCGTCTGCCCGCATGCGGCGATCCGCCCGGCGTTGCTGAACGCTGAAGAACAGGATACGGCGCCCGCCGGGCTGCTGAGCAAACCGGCCCAGGGGGCCAAAGACTACCACTATCATCTGGCTATCTCGCCGCTGGACTGCTCCGGCTGCGGCAACTGCGTGGAGAGCTGCCCGTCGCGCGGCAAGGCGCTGCAGATGGCCTCCCTCGACAGCCAGCGCGCGATGGCCCCGGTCTGGGACTACGCGCTGGGGCTGGCGCCAAAAGACAACCCGTTTCGCAAAACCACGGTCAAAGGCAGCCAGTTCGAAACGCCGCTGCTGGAGTTTTCCGGCGCCTGCGCGGGCTGTGGCGAAACGCCCTATGCCCGGCTGATCACCCAGCTGTTTGGCGACCGGATGCTGATCGCCAACGCCACCGGCTGCTCTTCGATCTGGGGCGCCAGCGCGCCTTCGATGCCCTATACCACCAACCACCGCGGCCACGGGCCGGCCTGGGCAAACTCGCTGTTTGAGGACAACGCCGAGTTCGGGCTGGGCATGATGCTCGGCGGCCAGGCGATCCGCCAACAGATCGCCGGGGAGATGACTCGCGCCCTGGCGCTGCCGGTCAGCGACGCGCTTCACGCCGCGATGCGGCAATGGCTGGCGCAGCAGGACGAGGGGGAGGGGACCCGCGAACGTGCAGACCGCCTCAGTGCGTTGCTGGCGGCGGAAAAAGAGGGGGTTCCGCTGCTGGAGCAGCTCTGGCAGAACCGTGACTATTTCGTCCGGCGTTCGCAGTGGATCTTCGGCGGCGACGGCTGGGCCTACGATATTGGCTTCGGCGGTCTCGATCATGTGCTGGCCAGCGGGGAAGACGTCAATATTCTGGTGTTCGATACCGAGGTCTACTCCAACACCGGCGGCCAGTCGTCCAAATCGACCCCGGTGGCGGCGATCGCCAAGTTTGCCGCCCAGGGGAAACGCACGCGGAAAAAAGATCTCGGCATGATGGCGATGAGCTACGGTAATGTTTACGTTGCGCAGATCGCCATGGGCGCTGATAAAGATCAGACCCTGCGGGCCATCGCCGAGGCTGAAGCCTGGCCAGGACCGTCGCTGGTGATCGCCTACGCCGCCTGTATCAACCACGGCCTGAAAGCCGGGATGCGCTGCAGTCAGCGCGAGGCGAAGCGGGCGGTGGAGGCGGGATACTGGCACCTGTGGCGCTACCATCCACAGCGCGAAGCCGAGGGCAAAACGCCGTTTATACTGGACTCCGAAGAGCCGGAAGAGAGCTTCCGCGACTTTCTGCTTGGCGAGGTGCGCTATGCCGCGCTGCACAAAACCACCCCGGATCTGGCGGACGCGCTGTTCCGGCAAACGGAGGAGGATGCCCGGGCCCGTTTCAGGCAGTACCAGCGGCTGGCGGGGGAGTAG	MSGNMKTMDGNAAAAWISYAFTDVAAIYPITPSTPMAENVDEWAAKGKKNLFGRPVRLMEMQSEAGAAGAVHGALQAGALTTTYTASQGLLLMIPNLYKIAGELLPGVFHVSARALATNSLNIFGDHQDVMAVRQTGCAMLVENNVQQVMDLSAVAHLAAIAGRIPFINFFDGFRTSHEIQKIEVLEYEQLAALLDRPALERFRRQALHPDHPVIRGTAQNPDIYFQEREAGNRFYLALPDLVESYMAKITALTGREYHLFNYHGAPDAERVIIAMGSVCDTVQEVVDALNAAGEKVGLLSVHLYRPFSLAHFFAQLPASVQRIAVLDRTKEPGAQAEPLCLDVKNAFYQRDDAPLIVGGRYALGGKDVLPNDIAAVFDNLRQPQPKDGFTLGIVDDVTFTSLPARQVPLAVSHAGITACKFWGMGSDGTVGANKSAIKIIGDNTPLYAQAYFSYDSKKSGGITVSHLRFGDRPITSPYLIHRADFIACSQQSYVDRYDLLEGLKPGGTFLLNCSWSEAELEQHLPVSVRRYLAQEKIDFYTLNAVDIARELGLGGRFNMLMQAAFFKLTAIIDPQTAADYLKQAVEKSYGSKGASVIEMNQRAIELGMAALRRVTVPAHWATLEAPAPQATTLMPDFIRDILQPMNRQRGDLLPVSAFAGMEDGTFPSGTAAWEKRGIALEVPVWQPDGCTQCNQCAFVCPHAAIRPALLNAEEQDTAPAGLLSKPAQGAKDYHYHLAISPLDCSGCGNCVESCPSRGKALQMASLDSQRAMAPVWDYALGLAPKDNPFRKTTVKGSQFETPLLEFSGACAGCGETPYARLITQLFGDRMLIANATGCSSIWGASAPSMPYTTNHRGHGPAWANSLFEDNAEFGLGMMLGGQAIRQQIAGEMTRALALPVSDALHAAMRQWLAQQDEGEGTRERADRLSALLAAEKEGVPLLEQLWQNRDYFVRRSQWIFGGDGWAYDIGFGGLDHVLASGEDVNILVFDTEVYSNTGGQSSKSTPVAAIAKFAAQGKRTRKKDLGMMAMSYGNVYVAQIAMGADKDQTLRAIAEAEAWPGPSLVIAYAACINHGLKAGMRCSQREAKRAVEAGYWHLWRYHPQREAEGKTPFILDSEEPEESFRDFLLGEVRYAALHKTTPDLADALFRQTEEDARARFRQYQRLAGE	PGPT0000040_1382	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0000040-nifJ|por-K03737	NA	NA
BMS020_01121	882	nifH		Nitrogenase iron protein	ATGACCATGCGTCAATGCGCTATCTACGGTAAAGGCGGTATCGGTAAATCCACCACCACCCAGAATCTCGTCGCGGCCCTCGCCGAGATGGGTAAGAAAGTGATGATCGTCGGCTGCGATCCGAAGGCGGACTCCACCCGTCTGATCCTCCACGCGAAAGCCCAGAACACCATTATGGAGATGGCGGCGGAAGTGGGCTCGGTCGAGGATCTGGAGCTCGAAGACGTACTGCAAATCGGCTATGGCGATGTACGTTGCGCCGAATCCGGCGGCCCGGAGCCAGGCGTTGGCTGCGCCGGACGCGGGGTGATCACCGCCATCAACTTCCTCGAAGAAGAAGGCGCCTATGAAGAAGATCTGGATTTCGTCTTCTATGACGTCCTCGGCGACGTGGTCTGCGGCGGCTTCGCCATGCCGATCCGCGAAAACAAAGCCCAGGAGATCTACATCGTCTGCTCCGGGGAGATGATGGCGATGTATGCCGCCAACAATATCTCCAAGGGGATCGTGAAGTACGCCAAATCCGGCAAGGTACGCCTCGGCGGCCTGATCTGTAACTCGCGCAAAACCGACCGCGAAGACGAGCTGATCATCGCCCTGGCGGAGAAGCTCGGCACCCAGATGATCCACTTTGTTCCCCGCGACAATATTGTGCAGCGCGCAGAGATCCGCCGGATGACGGTGATCGAGTACGACCCGACCTGTCAGCAGGCCAACGAATATCGTCAGCTGGCGCAGAAGATCGTCAATAACACCAAAAAAGTGGTGCCGACCCCCTGCACCATGGACGAGCTGGAGTCGCTGCTGATGGAGTTCGGCATCATGGAAGAAGAAGACACCAGCATCATTGGTAAAACCGCCGCTGAAGAAAACGCGGCCTGA	MTMRQCAIYGKGGIGKSTTTQNLVAALAEMGKKVMIVGCDPKADSTRLILHAKAQNTIMEMAAEVGSVEDLELEDVLQIGYGDVRCAESGGPEPGVGCAGRGVITAINFLEEEGAYEEDLDFVFYDVLGDVVCGGFAMPIRENKAQEIYIVCSGEMMAMYAANNISKGIVKYAKSGKVRLGGLICNSRKTDREDELIIALAEKLGTQMIHFVPRDNIVQRAEIRRMTVIEYDPTCQQANEYRQLAQKIVNNTKKVVPTPCTMDELESLLMEFGIMEEEDTSIIGKTAAEENAA	PGPT0000025_274	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000025-nifH|anfH-K02588	NA	NA
BMS020_01122	1449	nifD_1		Nitrogenase molybdenum-iron protein alpha chain	ATGACCAACGCAACAGGCGAACGTAACCTTGCGCTCATCCAGGAAGTCCTGGAGGTGTTTCCCGAAACCGCGCGCAAAGAGCGCAGAAAGCACATGATGATCAGCGATCCGCAGATGGAGAGCGTCGGCAAGTGCATTATCTCGAACCGTAAATCGCAGCCCGGGGTGATGACCGTGCGCGGCTGCGCCTACGCCGGCTCGAAAGGGGTGGTGTTTGGGCCGATTAAAGACATGGCCCATATCTCGCACGGCCCCATCGGCTGCGGCCAGTACTCGCGCGCCGGACGGCGCAATTACTATACCGGCGTCAGCGGCGTCGACAGCTTCGGCACCCTGAACTTCACCTCTGATTTTCAGGAGCGCGATATTGTCTTCGGCGGCGATAAAAAGCTGAGCAAACTGATTGAAGAGATGGAGCTACTGTTCCCGCTGACCAAAGGGATCACTATTCAGTCGGAGTGCCCGGTGGGCCTGATCGGCGATGACATCAGCGCCGTGGCCAACGCCAGCAGCAAGGCGCTGGATAAACCGGTGATCCCGGTGCGCTGCGAAGGCTTTCGCGGCGTCTCGCAGTCGCTGGGCCACCATATCGCCAACGACGTGGTGCGCGACTGGGTGCTGAACAACCGCGAAGGGCAGCCGTTTGCCAGCACCCCGTATGATGTCGCCATCATTGGCGATTACAACATCGGCGGCGACGCCTGGGCCTCGCGCATTCTGCTGGAAGAGATGGGGCTGCGCGTAGTGGCGCAGTGGTCCGGCGACGGCACCCTGGTGGAGATGGAGAACACCCCGTTCGTTAAGCTAAACCTCGTCCACTGCTACCGTTCGATGAACTATATCGCCCGCCATATGGAGGAGAAACATCAGATCCCGTGGATGGAATATAACTTCTTCGGCCCGACCAAAATCGCCGAATCGCTGCGCAAGATCGCCGATCAATTTGATGACGCCATTCGCGCCAATGCGGAAGCGGTGATCGCCAAATATGAGGGGCAGATGGCGGCCATCATCGCCAAATATCGCCCGCGGCTGGAGGGGCGCAAAGTGCTGCTGTACATGGGGGGGCTGCGGCCGCGCCACGTCATCGGCGCCTATGAGGATCTCGGGATGGAGATCATCGCCGCCGGCTACGAGTTTGCCCATAACGATGATTACGACCGCACCCTGCCGGACCTGAAAGAGGGCACTCTGCTGTTTGACGATGCCAGCAGCTATGAGCTGGAGGCCTTCGTCAAAGCGCTGAAACCTGACCTCATCGGCTCCGGGATCAAAGAGAAATATATCTTCCAGAAAATGGGGGTGCCGTTCCGCCAGATGCACTCCTGGGACTATTCCGGCCCCTATCACGGCTATGACGGCTTCGCCATCTTTGCTCGCGATATGGATATGACCCTGAACAATCCGGCGTGGAACGAACTGACTGCCCCGTGGCTGAAGTCTGCGTGA	MTNATGERNLALIQEVLEVFPETARKERRKHMMISDPQMESVGKCIISNRKSQPGVMTVRGCAYAGSKGVVFGPIKDMAHISHGPIGCGQYSRAGRRNYYTGVSGVDSFGTLNFTSDFQERDIVFGGDKKLSKLIEEMELLFPLTKGITIQSECPVGLIGDDISAVANASSKALDKPVIPVRCEGFRGVSQSLGHHIANDVVRDWVLNNREGQPFASTPYDVAIIGDYNIGGDAWASRILLEEMGLRVVAQWSGDGTLVEMENTPFVKLNLVHCYRSMNYIARHMEEKHQIPWMEYNFFGPTKIAESLRKIADQFDDAIRANAEAVIAKYEGQMAAIIAKYRPRLEGRKVLLYMGGLRPRHVIGAYEDLGMEIIAAGYEFAHNDDYDRTLPDLKEGTLLFDDASSYELEAFVKALKPDLIGSGIKEKYIFQKMGVPFRQMHSWDYSGPYHGYDGFAIFARDMDMTLNNPAWNELTAPWLKSA	PGPT0000010_623	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000010-nifD|anfD-K02586	NA	NA
BMS020_01123	1563	nifK_1		Nitrogenase molybdenum-iron protein beta chain	ATGAGCCAAACGATCGATAAAATTCACAGCTGTTATCCGCTGTTTGAACAGGATGAATACCAGACCCTGTTCCAGAACAAAAAGAGCCTTGAAGAGGCGCACGACGCGCAGCGCGTCCAGGAGGTATTTGCCTGGACCACCACCGCCGAGTATGAAGCGCTGAACTTCCAGCGCGAGGCTTTGACCGTCGACCCGGCCAAAGCCTGCCAGCCGCTCGGGGCCGTACTCTGCGCGCTGGGGTTCGCCGGCACCCTGCCCTACGTCCACGGCTCTCAGGGCTGCGTCGCCTATTTCCGCACCTACTTTAACCGCCATTTTAAGGAGCCGGTGGCTTGCGTCTCCGACTCGATGACCGAGGACGCGGCGGTATTCGGCGGCAACAACAACATGAATCTGGGCCTGCAGAATGCCAGCGCGCTGTATAAACCCGAGATTATCGCCGTCTCCACCACCTGCATGGCCGAGGTGATCGGCGACGATCTGCAGGCGTTTATCGCCAACGCCAAAAAAGAGGGATTTGTTGACGACAGTATCGCCATTCCTTACGCCCATACCCCCAGCTTTATCGGCAGCCATATCACCGGCTGGGACAATATGTTCGAAGGGTTCGCGAAGACCTTTACCGCTGACTACGCCGGGCAGCCGGGCAAACTGCAAAAGCTCAATCTGGTGACCGGATTTGAGACCTATCTCGGCAACTTCCGCGTGCTGAAGCGGATGATGGCGCAGATGGATGTCCCCTGCAGCCTGCTCTCCGACCCTTCAGAGGTGCTCGACACCCCCGCCGACGGCCATTACCGGATGTACGCCGGCGGCACCAGCCAGCAGGAGATCAAAACCGCGCCGGACGCCATTGACACCCTGCTGCTGCAGCCATGGCAGCTGGTGAAAAGCAAAAAGGTGGTTCAGGAGATGTGGAATCAGCCCGCCACGGAGGTGGCCGTTCCGTTGGGTCTGGCCGCTACCGACGCGCTGCTGATGACCGTCAGTCAACTGACCGGCAAACCGATCGCCGACGCCCTGACCCTTGAGCGCGGCCGGCTGGTGGACATGATGCTGGACTCCCACACCTGGCTGCACGGCAAAAAATTCGGCCTCTACGGCGATCCGGATTTCGTGATGGGCCTGACGCGCTTCCTGCTGGAGCTGGGCTGCGAGCCGACGGTGATCCTCAGCCATAACGCCAATAAACGCTGGCAAAAGGCGATGAAGAAAATGCTCGACGCCTCGCCATACGGCCAGGACAGCGAAGTATTCATCAACTGCGACCTGTGGCACTTCCGGTCGCTGATGTTCACCCGTCAGCCGGACTTTATGATCGGTAACTCCTACGGCAAGTTTATCCAGCGCGATACCCTGGCGAAGGGCAAAGCCTTCGAAGTGCCGCTGATCCGTCTCGGCTTTCCGCTGTTCGACCGCCATCATCTGCACCGCCAGACCACCTGGGGCTATGAAGGCGCGATGAACATCGTCACGACGCTGGTGAACGCCGTGCTGGAAAAACTGGACCACGACACCAGCCAGCTGGGCAAAACCGATTACAGCTTCGACCTCGTTCGTTAA	MSQTIDKIHSCYPLFEQDEYQTLFQNKKSLEEAHDAQRVQEVFAWTTTAEYEALNFQREALTVDPAKACQPLGAVLCALGFAGTLPYVHGSQGCVAYFRTYFNRHFKEPVACVSDSMTEDAAVFGGNNNMNLGLQNASALYKPEIIAVSTTCMAEVIGDDLQAFIANAKKEGFVDDSIAIPYAHTPSFIGSHITGWDNMFEGFAKTFTADYAGQPGKLQKLNLVTGFETYLGNFRVLKRMMAQMDVPCSLLSDPSEVLDTPADGHYRMYAGGTSQQEIKTAPDAIDTLLLQPWQLVKSKKVVQEMWNQPATEVAVPLGLAATDALLMTVSQLTGKPIADALTLERGRLVDMMLDSHTWLHGKKFGLYGDPDFVMGLTRFLLELGCEPTVILSHNANKRWQKAMKKMLDASPYGQDSEVFINCDLWHFRSLMFTRQPDFMIGNSYGKFIQRDTLAKGKAFEVPLIRLGFPLFDRHHLHRQTTWGYEGAMNIVTTLVNAVLEKLDHDTSQLGKTDYSFDLVR	PGPT0000045_90	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000045-nifK|anfK-K02591	NA	NA
BMS020_01124	219			hypothetical protein	ATGCCCATCGTGATTTTCCGTGAGCGCGGCGAGGCGCTGTATGCCTATATCGCCAAACAGGATCTGGAGGCCCGGGTGCTTCAGGTCGAACATGACGAGACGGACCGCTGGGGCGGCGCGATTGCCCTTGAAGGGGGACGTCGCTACTACGTCAATCCGCAGCCGGGGCGGCCGGTCTTTCCGATAAGCCTGCGCGCCACCCGCAGCACGCTGCTATAA	MPIVIFRERGEALYAYIAKQDLEARVLQVEHDETDRWGGAIALEGGRRYYVNPQPGRPVFPISLRATRSTLL	PGPT0000070_49	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000070-nifT|fixU-K02593	NA	NA
BMS020_01125	663			hypothetical protein	ATGTCCGATAACGATACCCTTTTCTGGCGTCTGCTGGCGCTGTTCCAGACGCTGCCGGAGCTGCAGCCGGTGCAAGTCGTCGACTGGCTGGCGCAGGAGTGCGGCGAAACCTTGACCCCGGCACGGTTAACCACCCTGACGCAGCCTCAGCTGGCCGCCAGCTTTCCTTCGGCGACGGCGGTGATGTCCCCGGCCCGCTGGGCGCGGGTCATCGCCTGCCTGCAGGGGGCGCTGCCCGGCCATTTGCGCATCGCCCGGTCACCCCAGCGGACGCCGCAGCTGCGGGTCGCCTTCTGTTCGCAGGATGGCCTGGTCATCAATGGTCATTTTGGCCAGAACCGGCTGTTTTTTATCTATGCCTTCGATGACCAGGGCGGCTGGCTGGCGGATCTGCGCCGCTATGCCTCCCCTTCGGCGACGTCTGACGCCAGCGAGATGCGCGCCAGGCTGCTGGAGGATTGCCATTTGCTGTTTTGCCAGGAGATTGGCGGGCCTGCCGCCGCGAGGTTGATCCGCCATCAGATCCATCCGATGAAAGCGCCGCCGGGCACGACGATTCAGGCCCAGTGCGAGGCGATCAATACGCTGCTGGCCGGTCGGCTGCCGCCGTGGCTGGCGAAGCGCCTCAACCGGGATAACCCTCTGGAGGAACGTGTTTTTTAA	MSDNDTLFWRLLALFQTLPELQPVQVVDWLAQECGETLTPARLTTLTQPQLAASFPSATAVMSPARWARVIACLQGALPGHLRIARSPQRTPQLRVAFCSQDGLVINGHFGQNRLFFIYAFDDQGGWLADLRRYASPSATSDASEMRARLLEDCHLLFCQEIGGPAAARLIRHQIHPMKAPPGTTIQAQCEAINTLLAGRLPPWLAKRLNRDNPLEERVF				NA	NA	NA	NA	NA
BMS020_01127	1374	nifD_2	COG2710	Nitrogenase molybdenum-iron protein alpha chain	ATGAAGGGAAAGGAAATTCTGGCGCTGCTGGACGAACCCGCCTGCGAGCACAACCAGAAGCAAAAATCCGGCTGCAGCGCCCCTAAGCCCGGCGCCACCGCCGGCGGCTGCGCCTTCGACGGCGCGCAGATAACGCTCCTGCCCATCGCCGACGTCGCGCACCTGGTGCACGGCCCTATCGGCTGCGCGGGCAGTTCATGGGATAACCGCGGCAGCGTCAGCGCCGGCCCGGCCCTCAACCGGCTCGGCTTTACCACCGATCTCAACGAACAGGATGTGATTATGGGCCGCGGCGAACGCCGCCTGTTCCATGCCGTGCGTCACATCGTCGACCGCTATCGCCCGGCGGCGGTCTTTATCTACAACACCTGCGTACCGGCGATGGAAGGCGATGACATTGAGGCGGTGTGCCAGGCCGCGCAGACCGCCACCGGCGTCCCGGTCATCGCCATTGACGCCGCCGGCTTCTACGGCAGCAAAAATCTTGGCAACCGGATGGCGGGCGACGTAATGCTCAGGCAGGTGATTGGCCAGCGCGAACCCGCCCCATGGCCGGACAACACGCCCTTTGCCCCGGCCCAGCGCCACGATATCGGCCTGATTGGCGAATTCAATATCGCCGGCGAGTTCTGGCAGGTCCAGCCGCTGCTCGACGAGCTGGGGATCCGCGTCCTCGGCAGCCTCTCCGGCGACGGCCGCTTTGCCGAGATCCAGACCCTGCACCGGGCGCAGGCCAATATGCTGGTGTGCTCGCGAGCGCTGATCAACGTCGCCCGGGGGCTGGAGCTACGCTACGGCACGCCGTGGTTTGAGGGCAGCTTCTACGGGATCCGCGCCACCTCCGACGCCTTGCGCCAGCTGGCGGCGCTGCTGGGGGATGACGACCTGTGCCGCCGCACCGAGGCACTGATCGCCCGCGAGGAGCGAGCAGCGGAGCAGGCGCTAGCGCCGTGGCGCGAGCAGCTCCGCGGGCGCAAAGTGCTGCTCTACACCGGCGGCGTGAAATCCTGGTCGGTGGTCTCGGCCCTGCAGGATCTCGGCATGACCGTGGTGGCCACCGGCACGCGGAAATCCACCGAGGAGGACAAACAGCGGATCCGGGAGCTGATGGGCGACGAGGCGGTGATGCTTGAGGAGGGCAACGCCCGCACCCTGCTCGACGTGGTGTACCGCTATCAGGCGGATCTGATGATCGCCGGCGGACGCAATATGTACACCGCCTGGAAAGCCCGGCTGCCGTTCCTCGATATCAATCAGGAGCGGGAGCACGCCTACGCTGGCTACCAGGGCATCATCACCCTCGCCCGCCAGCTCTGTCTGACCCTCGCCAGCCCCGTCTGGCCGCAAACGCATGCCCGCGCCCCGTGGCGCTAG	MKGKEILALLDEPACEHNQKQKSGCSAPKPGATAGGCAFDGAQITLLPIADVAHLVHGPIGCAGSSWDNRGSVSAGPALNRLGFTTDLNEQDVIMGRGERRLFHAVRHIVDRYRPAAVFIYNTCVPAMEGDDIEAVCQAAQTATGVPVIAIDAAGFYGSKNLGNRMAGDVMLRQVIGQREPAPWPDNTPFAPAQRHDIGLIGEFNIAGEFWQVQPLLDELGIRVLGSLSGDGRFAEIQTLHRAQANMLVCSRALINVARGLELRYGTPWFEGSFYGIRATSDALRQLAALLGDDDLCRRTEALIAREERAAEQALAPWREQLRGRKVLLYTGGVKSWSVVSALQDLGMTVVATGTRKSTEEDKQRIRELMGDEAVMLEEGNARTLLDVVYRYQADLMIAGGRNMYTAWKARLPFLDINQEREHAYAGYQGIITLARQLCLTLASPVWPQTHARAPWR	PGPT0000015_410	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000015-nifE-K02587	NA	NA
BMS020_01128	1386	nifK_2		Nitrogenase molybdenum-iron protein beta chain	ATGGCAGACCTTATCCGTAGCGAAAAACCGCTGGCGGTGAGCCCGATTAAAACCGGGCAACCGCTCGGGGCGATCCTCGCCAGCCTTGGGCTGGCCCAGGCCATCCCGCTGGTCCACGGCGCCCAGGGCTGCAGCGCCTTCGCCAAAGTTTTCTTTATTCAGCATTTTCATGACCCGGTGCCCCTGCAGTCGACGGCCATGGATCCGACCGCCACGATCATGGGCGCCGACGGCAATATCTTCACCGCGCTCGACACCCTCTGCCAGCGCCACAGTCCGCAGGCCATTGTGCTGCTCAGCACCGGACTGGCGGAGGCGCAGGGCAGCGATATCGCCCGGGTGGTACGCCAGTTTCGCGAGGCGCATCCCCGCCATAACGGCGTGGCGATCCTCACCGTCAACACCCCGGATTTTTTTGGCTCCATGGAAAACGGCTACAGCGCGGTGATCGAGAGCATCATCGAGCAGTGGGTGGCGCCGACGCCGCGTCCGGGGCAGCGGCCCCGGCGGGTCAACCTGCTGGTCAGCCACCTCTGTTCGCCAGGGGATATCGAATGGCTGAGCCGCTGCGTGGAGGCCTTTGGCCTGCAGCCGGTGGTCCTGCCGGACCTCTCCCTGTCGATGGATGGCCACCTGGGTCAGGGGGATTTTACGCCCCTGACCCAGGGCGGCGCCTCGCTGCGCCAGATTGCGCAGATGGGCCAGAGTCTGGGCAGCTTCGCCATCGGCGTGTCGCTGCAGCGGGCGGCATCGCTGCTGAGCCAGCGCAGCCGCGGAGAGGTGATCGCCCTGCCGCACCTGATGACCCTCGACCACTGCGATACCTTTATCCATCAGCTGGCGAAGCTGTCCGGGCGCCGCGTACCGGCCTGGATTGAGCGCCAGCGCGGCCAGCTGCAGGATGCGATGATCGACTGCCATATGTGGCTGCAGGGCCAGCGCATGGCGATGGCCGCGGAGGGCGACCTGCTGGCGGCCTGGTGTGATTTCGCCCGCAGCCAGGGGATACAGCCCGGCCCGCTGGTCGCCCCCACCAGCCACCCCAGCCTGCGCCAGCTGCCGGTCGAGCGGGTGGTGCCGGGGGATCTGGAGGATCTCCAGCAGCTGCTGAGTCGCCAACCCGCCGATCTGCTGGTGGCTAACTCTCACGCCCGCGATCTGGCGGAGCAGTTTGCCCTGCCGCTGATCCGCGTCGGCTTTCCCCTTTTCGATCGGCTCGGCGAGTTTCGCCGGGTTCGCCAGGGGTACGCCGGCATGCGCGACACGCTGTTTGAGCTGGCCAATCTGCTGCGCGACCGCCATCACCACACCGCCCTCTACCGATCGCCGCTTCGCCAGGGCGCCGACCCGCAGCAAGCTTCAGGAGACGCTTATGCCGCCCATTAA	MADLIRSEKPLAVSPIKTGQPLGAILASLGLAQAIPLVHGAQGCSAFAKVFFIQHFHDPVPLQSTAMDPTATIMGADGNIFTALDTLCQRHSPQAIVLLSTGLAEAQGSDIARVVRQFREAHPRHNGVAILTVNTPDFFGSMENGYSAVIESIIEQWVAPTPRPGQRPRRVNLLVSHLCSPGDIEWLSRCVEAFGLQPVVLPDLSLSMDGHLGQGDFTPLTQGGASLRQIAQMGQSLGSFAIGVSLQRAASLLSQRSRGEVIALPHLMTLDHCDTFIHQLAKLSGRRVPAWIERQRGQLQDAMIDCHMWLQGQRMAMAAEGDLLAAWCDFARSQGIQPGPLVAPTSHPSLRQLPVERVVPGDLEDLQQLLSRQPADLLVANSHARDLAEQFALPLIRVGFPLFDRLGEFRRVRQGYAGMRDTLFELANLLRDRHHHTALYRSPLRQGADPQQASGDAYAAH	PGPT0000055_171	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000055-nifN|vnfN-K02592	NA	NA
BMS020_01129	471			hypothetical protein	ATGCCGCCCATTAACCGTCAGTTTGAGATGGTCCACGCCGACGAGTGGTCGATGAAAGTCGCCTTCGCCAGCTCCGATTACCGCCATGTCGATCAGCATTTTGGCGCCACGCCGCGGCTGGTGGTCTACGGCGTCAAGGCGGATCGGGTCACCCTGCTGCGGGTGGTGGAGTTCCCGGTCGTCAGCGGCCATCAGACCGAGAAAATTGCCGAGCGTATCCACGCCCTGGAGGATTGCGTCACCCTGTTCTGCGTGGCGATTGGCGAGGCGGTTTTTCGCCAGCTGCTGCAGGTGGGCGTCCGCGCCGAAAGGGTTCCCGATCAGACCACCATCCTCAGCTTACTGCAGGAGATCCAGCTCTCCTGGTATGAAAAAGCGCAGCGCCGCAGCGCGCGGCAACGCGATCCGCAGCGCTTTAACCGCCTGCTGGAGGAGCAGACGTGGCGGGAAGAGCCCGACCCGCAGCCCTGA	MPPINRQFEMVHADEWSMKVAFASSDYRHVDQHFGATPRLVVYGVKADRVTLLRVVEFPVVSGHQTEKIAERIHALEDCVTLFCVAIGEAVFRQLLQVGVRAERVPDQTTILSLLQEIQLSWYEKAQRRSARQRDPQRFNRLLEEQTWREEPDPQP				NA	NA	NA	NA	NA
BMS020_01130	840			hypothetical protein	ATGTGGAACTACTCCGAGAAAGTGAAAGACCATTTTTTTCATCCCCGCAACGCGCGCGTGGTCGACAACGCCAACGCGGTGGGCGATGTGGGTTCATTAAGCTGCGGCGATGCGCTGCGCCTGATGCTGCGGGTTGATCCGCACACCGAGATCATCGAGGAGGCCGGCTTCCAGACCTTCGGCTGCGGCAGCGCCATCGCCTCCTCTTCCGCGCTGACGGAGCTGATTATCGGCCACACCCTGACCGAAGCCGGGCAGATCACCAACCAGCAGATCGCCGACTACCTCGACGGCCTGCCGCCGGAGAAAATGCACTGCTCGGTGATGGGCCAGGAGGCGCTGCGTGCGGCTATCGCCCATTTTCGCGGCGAAAGCCTTGAGGAGGAGCATGAGGAGGGCAAGCTGATCTGTAAATGCTTCGGCGTCGACGAAGGACATATTCGCCGGGCCGTGGTGAACAACGGCCTGACCACCCTCGAGGAGGTGATCAACTACACCAAGGCCGGCGGGGGCTGTACCGCCTGCCATGAAAAAATAGAGCTGGCGCTGGCGGCGATCCTCGCCCAACAGCCGCCCGCCCCCCTGCCGGCGGAGACGGCCCACGATGCGCAGTGGCAAAGCGTGGTCGATACCATCAACGAGCTGCGCCCGCACATTCAGGCCGACGGCGGCGACATGACGCTGGTGAGCGTCACCCCGCGCCAGGTCACCGTCAGCCTCTCCGGCAGCTGCAGCGGCTGCATGATGACCGACATGACCCTCGCCTGGCTGCAGCAAAAGCTGATGGAGCGCACCGGAAGTTACATGGATGTGGTGGCGGCCCCGGCCGCGGTTAACTAA	MWNYSEKVKDHFFHPRNARVVDNANAVGDVGSLSCGDALRLMLRVDPHTEIIEEAGFQTFGCGSAIASSSALTELIIGHTLTEAGQITNQQIADYLDGLPPEKMHCSVMGQEALRAAIAHFRGESLEEEHEEGKLICKCFGVDEGHIRRAVVNNGLTTLEEVINYTKAGGGCTACHEKIELALAAILAQQPPAPLPAETAHDAQWQSVVDTINELRPHIQADGGDMTLVSVTPRQVTVSLSGSCSGCMMTDMTLAWLQQKLMERTGSYMDVVAAPAAVN				NA	NA	NA	NA	NA
BMS020_01131	1203	nifS	COG1104	Cysteine desulfurase NifS	ATGAAACCTGTTTATCTCGATAACAACGCCACCACCCGTCTCGACCCGATGGTTCTCGACGCGATGATGCCCTTTTTGACCGACTTTTACGGCAATCCCTCGTCGATTCACGATTTTGGTCTGCCAGCGCAGGCCGCCCTTGAACGGGCGCACCAGCAGGTGGCCGCTCTGCTCGGGGCCGACTACCCCAGCGAGATCATTTTTACCTCCTGCGCCACCGAGGCCACGACCACCGCCATCGCCTCAGCGGTGGCCCTGATGCCGGAGCGGCGCGAGATCATCACCAGCGCGGTCGAACATCCCGCCACCCTGGCGGTGTGCGAACAGCTGGAGCGCCAGGGATACCTGATCCACCGTATCGCCGTGGATCGGCAGGGCGCTCTGGATATGGCGCAGTTTCGGGCGGCGCTTAGCCCACGCGTGGCGCTGGTCAGCATCATGTGGGCCAATAACGAAACCGGCGTCATGTTCCCGGTGCCCGAGCTGGCGGAGCTGGCCCATGAGCAGGGCGCGCTGTTTCACTGCGACGCCGTGCAGGTGGTGGGCAAAATCCCGATGGCGCTCAGCCAGACGCGGATCGATATGCTCTCCTGCTCGGCGCATAAATTCCACGGCCCCAAAGGGGTGGGCTGCCTCTGGCTGCGGCGGGGAACGCGTTTTCGTCCGCTGCTGCGCGGCGGCCACCAGGCGCATGGCCGGCGGGCCGGTACGGAAAATATCAGCGGCATTGTCGGCATGGGCGCCGCCAGCGAGCTGGCGCAGGTCCACCTCCCGGGCATGGCGCAGATTAGCCAGCTGCGCGATCGCCTTGAACATCATCTCCTGAGCGCCATTCCGGCGGTAACGGTGATGGGCGGCAGCCAGCCGCGGGTGCCCGGCACGCTTAATCTGGCCTTCGAGTGCATTGAAGGCGAGGCGATCCTGCTGCTGATGAATCAGGCCGGGATCGCCGCCTCCAGCGGCAGCGCCTGCACCTCCGGCTCGCTGGAGCCGTCGCACGTCATGCGGGCGATGAATATTCCTTACACCGCGGCCCACGGCACCGTTCGCTTCTCCCTCTCGCGCTACACCCGGGAAAAAGAGATCGACTACGTCATCGCCGCCCTGCCTCCTGTTATCGACCGGCTGCGCGCCCTGTCGCCCTACTGGCGAAACGGCCAGCCGCTCCTGCAGGATGGCGCCTTCGCGCCGGTCTTCGGTTAA	MKPVYLDNNATTRLDPMVLDAMMPFLTDFYGNPSSIHDFGLPAQAALERAHQQVAALLGADYPSEIIFTSCATEATTTAIASAVALMPERREIITSAVEHPATLAVCEQLERQGYLIHRIAVDRQGALDMAQFRAALSPRVALVSIMWANNETGVMFPVPELAELAHEQGALFHCDAVQVVGKIPMALSQTRIDMLSCSAHKFHGPKGVGCLWLRRGTRFRPLLRGGHQAHGRRAGTENISGIVGMGAASELAQVHLPGMAQISQLRDRLEHHLLSAIPAVTVMGGSQPRVPGTLNLAFECIEGEAILLLMNQAGIAASSGSACTSGSLEPSHVMRAMNIPYTAAHGTVRFSLSRYTREKEIDYVIAALPPVIDRLRALSPYWRNGQPLLQDGAFAPVFG	PGPT0000065_2662	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
BMS020_01132	1143	frbC		2-phosphonomethylmalate synthase	ATGGGACGCGTACTGATCAATGACACCACCCTGCGCGATGGCGAACAGAGTCCCGGCGTGGCCTTCCAGGCCAGTGAAAAAATCGCCATCGCCGAGGCGCTGTACGCGGCGGGGATCGAGGCGCTGGAGGTCGGCACCCCGGCGATGGGCGAGGAGGAGTGCGCCCGTATCCGGCTGGTGCGCCGTCAGCTCCCGGGCGCCACGCTGATGACCTGGTGCCGGATGCAGGCCGGCGAAATTCGCCTGAGCGCCGAGCTGGGCATGGACTGGGTGGATATCTCCATCCCCGCCTCCGACAAGCTGCGGCAGTACAAACTGCGCGAGAGCTTACCGCTGCTGCTGGAGCGGCTGACGGGTCTGATCCACCTCGCCCATACCCTTGGCCTGAAGGTCTGCATTGGCTGTGAGGACGCCTCGCGGGCCAGCGACGCGACGCTACGGGATATTGCCCGGCAGGCCGGCGAGGCGGGGGCTGACCGTCTGCGCTATGCCGACACCGTCGGTATCCTCGACCCGTTTACCACCGCGGCGCAGATCGCCGCCCTGCGTAACGTCTGGCCCGGAGAACTCGAGATGCACGCCCATAACGATCTCGGGCTGGCCACCGCCAACACCCTCGCGGCGGTACGCGCCGGAGCCACCAGCGTAAACACCACCGTGCTGGGCCTGGGCGAACGGGCGGGCAACGCGGCGCTGGAAACGGTGGCGCTCGGGCTGGAGCGCTGCCTGGGCGTCGAGACCGGGGTGCGTTTCACCGCCCTGCCGGCGCTGTGCGAACAGGTGGCCCTCGCCACCCGCCGCCCTGTCGATCCCCAGCAGCCGCTGGTGGGCGAGCTGGTTTTTACCCATGAGTCCGGCGTGCACGTCGCGGCGCTGCTGCGCGACAGCGAGAGCTATCAGGCGATCGACCCCGCCCTGCTGGGCCGCGGCTATCGGCTGGTGCTGGGCAAACACTCCGGTCGCCAGGCGGTTAACGGCGTCTTCGACCGGATGGGCTATCACCTGACGTCAGCGCAAATTGACCAGCTGCTGCCGGCGCTCCGCCACTTTGCGGAATCCGGCAAACGCAGCCCGCGGGATGATGAGCTGGCGGCAATCTATCACGCGCTCTGCGGCGCCGAAACGCTGCAGGCCAGGGGGTAA	MGRVLINDTTLRDGEQSPGVAFQASEKIAIAEALYAAGIEALEVGTPAMGEEECARIRLVRRQLPGATLMTWCRMQAGEIRLSAELGMDWVDISIPASDKLRQYKLRESLPLLLERLTGLIHLAHTLGLKVCIGCEDASRASDATLRDIARQAGEAGADRLRYADTVGILDPFTTAAQIAALRNVWPGELEMHAHNDLGLATANTLAAVRAGATSVNTTVLGLGERAGNAALETVALGLERCLGVETGVRFTALPALCEQVALATRRPVDPQQPLVGELVFTHESGVHVAALLRDSESYQAIDPALLGRGYRLVLGKHSGRQAVNGVFDRMGYHLTSAQIDQLLPALRHFAESGKRSPRDDELAAIYHALCGAETLQARG	PGPT0000080_280	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000080-nifV-K02594	NA	NA
BMS020_01133	258	nifW		Nitrogenase-stabilizing/protective protein NifW	ATGGAGTGGTTTTATCAGATCCCCGGCGTAGACGACCTGCGCTCCGCCGACGCCTTCTTTCAGTTTTTCGCCGTTCCCTACCAGCCCGAGCGTCTGGCCCATTGCAGCCTGCCGGTGCTGGCCGCCTTTCACCGCAAGCTGCGGGCGGAAGTGCCCCTGCTCAACCAGCTGGAGGAGAACCCGCGCGCGCACTGGCTGCTGGCGCGCCGGCTGCTGGCGGAGAGTTATCAGCAGCAGTTCGAGGAGAACACGCCATGA	MEWFYQIPGVDDLRSADAFFQFFAVPYQPERLAHCSLPVLAAFHRKLRAEVPLLNQLEENPRAHWLLARRLLAESYQQQFEENTP	PGPT0000085_283	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000085-nifW-K02595	NA	NA
BMS020_01134	444			hypothetical protein	ATGAGACCCACATTTACCTTTAGCGAAGCGGTCCGCGTCGTGCGCGCCATCCGTAACGATGGCACCTATGCGGGCCTGCCGTCCGGCGCCCTGCTGGTGCGCCGGGGCAGCATCGGCTATGTCCGCGAGTGGGGGGTATTCTTGCAGGACCAGGTCATCTACCAGGTCCACTTCCCGGAGAGCGACCGGATCGTCGGCTGCCGCGAACAGGAGCTGATTGCCGGCGATCGTCCCTGGCTGGCGGGGAATCTGCAGTATGGCGATAACGTCACCTGCCAGACGGCGCTGACGTTGCAGGGCGAAGTGGTGGTCAACGTCGGTCAGCAGGGGCGTATTGAGGCCACCGATCGGGGCGAGCGCGGGGACGGCTATATCGTCGACTTCGGCGGCCGCTGGTTCCAGGTTCCTGTGACCGCGCTGGCCCTGGCAGAGGAGGAAGAATAA	MRPTFTFSEAVRVVRAIRNDGTYAGLPSGALLVRRGSIGYVREWGVFLQDQVIYQVHFPESDRIVGCREQELIAGDRPWLAGNLQYGDNVTCQTALTLQGEVVVNVGQQGRIEATDRGERGDGYIVDFGGRWFQVPVTALALAEEEE	PGPT0000095_81	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000095-nifZ-K02597	NA	NA
BMS020_01135	801	surA_1		Chaperone SurA	ATGCAGCCATGGCAACGATTTGGCCGGCGGCGGCTGGCGCAGAGCCGCTGGAACTGCGAACCGGCGGCCATCGCCGCGGCGGACCGGGAGGCCTTCGAGGCGGCCTGGCAGCGTCAGGCCCGCGTGGAGCAGGCGCTGGTCGCCGAAGTCGCGCCAGAGGCAATCCCCGCCGCGCTACGGGAAGGCCTCGCCGCTTCGCTGCGCCTCTGGCTGGATGAGGGCGGATTTACGCCGCCGGAGCGGGCGGCGATCGTCCTGCACCATGCCCGGCTGGAAACCGCCTTCGCCGGGATTGCCAGCCAGGCGCCGCAGCCGGATCCCGCCGCGGTGCAGGCCTGGTATCTGCGGCATCAGGCGCAGTTTATGCGCCCGGAACAGCGGTTGACCCGCCATCTGCTGCTCACCGTCGATGGCGATGAGCAGGCGGTTTACTCGCGCATCCAGGCGCTTCATGGGCAAATCGCGGCCTCCCGCGAGGCGTTTGCGCCGCTGGCCCAGCGACACTCCCACTGCCCGAGCGCGCTGGACGGCGGGCGACTAGGGTGGATCGGGCGGGGGTTGCTCTATCCGCAGCTGGAGGAGGCCCTGTTTGCGCTGACGGAAAATGCGCTGAGCGCGCCGGTGGCCAGCGAGCTGGGCTGGCATCTGGTATGGTGCGAAGCCATCCGCCCCGCCGCGCCGATGACGCCTGAACAGGCGCTGGAAAGCGCCCGTGAATACCTCATTCAACAGAGCCAGCGCCGCCACCAGCGCCAGTGGCTGGCTGAGATGTTAGCGCGCCAGCCGGGGCTGTGCGGGTAG	MQPWQRFGRRRLAQSRWNCEPAAIAAADREAFEAAWQRQARVEQALVAEVAPEAIPAALREGLAASLRLWLDEGGFTPPERAAIVLHHARLETAFAGIASQAPQPDPAAVQAWYLRHQAQFMRPEQRLTRHLLLTVDGDEQAVYSRIQALHGQIAASREAFAPLAQRHSHCPSALDGGRLGWIGRGLLYPQLEEALFALTENALSAPVASELGWHLVWCEAIRPAAPMTPEQALESAREYLIQQSQRRHQRQWLAEMLARQPGLCG	PGPT0000050_1418	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000050-nifM-K03769	NA	NA
BMS020_01136	531	nifF	COG0716	Flavodoxin 2	ATGGCGAACATTGGCATTTTCTTTGGCACCGATACCGGTAAAACCCGCAAGATCGCGAAACTGATCCACAAGCAGCTGGGGGAGGCCGCCGCTGCCCCGGTCAATATTAACCGCGCCACGCTGGCGGACCTGCTGGCCTACCCGGCCCTGCTGCTGGGCACGCCGACGCTGGGCGACGGCCAGCTGCCGGGCCTTGAGGCCGGGGGCGAGAGCGAGTCGTGGGCCGAGTTTATCCGCAACCTCGGCGACGTCAGCCTGCAGGGAAAAACGGTGGCGCTGTTTGGCCTCGGCGATCAGCGCGGCTATCCCGATAACTTCGCCAGTGGGCTGCGGCCGCTGTACGACGCCCTGCGCGCACGCGGGGCGACGATGATCGGCAGCTGGCCGAACGAGGGGTATGAGTTCAGCGCCTCATCGGCGCTGGAGGGGGAGCGGTTTGTCGGGCTGGTGCTGGACCAGGATAACCAGTTCGACGAGACCGAAACGCGTCTGGCGACCTGGCTTGAGGAGATCAAACCGCACCTGCTGTAG	MANIGIFFGTDTGKTRKIAKLIHKQLGEAAAAPVNINRATLADLLAYPALLLGTPTLGDGQLPGLEAGGESESWAEFIRNLGDVSLQGKTVALFGLGDQRGYPDNFASGLRPLYDALRARGATMIGSWPNEGYEFSASSALEGERFVGLVLDQDNQFDETETRLATWLEEIKPHLL	PGPT0000020_214	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000020-nifF|fldA|isiB-K03839	NA	NA
BMS020_01137	1485	nifL		Nitrogen fixation regulatory protein	ATGACCCTGAATATGATGCTCGATAACGCCGCGCCGGAAGCCATCGCCGGCGCGCTGACTCAACAACATCCGGGGCTGTTTTTTACCATGGTGGAACAGGCCTCAGTGGCGATTTCCCTCACCGACGCCAGCGCCAGGATCATCTACGCCAACCCGGCGTTTTGCCGCCAGACCGGCTATTCGCTGGCGCAATTGTTAAATCAGAACCCGCGCCTGCTGGCCAGCAGCCAGACGCCGCGCGAGATCTATCAGGAGATGTGGCATACCCTGCTCCAGCGTCAGCCGTGGCGCGGCCAGCTGATTAACCAGCGGCGGGACGGCGGCCTGTACCTGGTGGAGATTGACATCACTCCGGTGCTCAGTCCGCAAGGGGAACTGGAGCATTATCTGGCAATGCAGCGGGATATCAGCGTCAGCTATACCCTGGAGCAGCGGCTGCGCAACCATATGACCCTGATGGAGGCGGTGCTGAATAATATTCCCGCCGCCGTGGTGGTAGTGGACGAGCAGGATCGGGTGGTAATGGACAACCTTGCCTATAAAACCTTCTGCGCCGACTGCGGCGGCCGGGAGCTGCTCACCGAGCTGCAGGTCTCCCCAGGCCGGATGACGCCCGGCGTGGAGCAGATCCTGCCGGTGGCGATACGCGGGGCCGCGCGCTGGCTGTCGGTGACCTGCTGGCCGCTGCCCGGTGTCAGCGAAGAGGCCAGCCGCTACTTTATCGACAGCGCCCTGGCGCGAACCCTGGTGGTGATCGCCGACTGTACCCAGCAGCGCCAGCAGCAGGAGCAGGGCCGCCTCGACCGGCTGAAGCAGCAAATGACCGCCGGCAAGCTGCTGGCGGCGATCCGCGAGTCGCTGGACGCCGCGCTGATCCAGCTGAACTGCCCGATTAACATGCTGGCGGCGGCCCGTCGGCTGAACGGCGAGAGCAGCGGCAACGTGGCGCTGGAGGCCGCCTGGCGCGAAGGGGAAGAGGCGATGGCCCGGCTCCAGCGCTGTCGCCCGTCGCTGGATCTCGAAAACCCCGCCGTCTGGCCGCTGCAGCCCTTTTTCGACGATCTGTGCGCCCTCTACCGCACCCGCTTCGATGCCGAGGGGCTGCAGCTGGACATGGCCTCGCCGCATCTGATCGGCTTTGGCCAGCGCACTCAGCTGCTGGCGTGCTTAAGCCTGTGGTTCGACCGCACCCTGGCCCTCGCCGCCGAGCTGCCTTCCGTCCCGCTGGCGATGCAGCTCTATGCCGAGGAAAACGACGGCTGGCTGGCGCTGTACCTGACCGACAACGTGCCGCTGCTGCAGGTGCGCTACGCCCACTCCCCCGACGCGCTGAATTCGCCGGGCAAAGGCATGGAGCTGCGGCTGATCCAGACCCTGGTGGCGCACCATCGCGGGGCCATCGAGCTGACTTCCCGGCCGCAGGGCGGCACCTGCCTGACCCTGCGTTTCCCGCTGTTTAACACCCTGACCGGAGGTGAAGCATGA	MTLNMMLDNAAPEAIAGALTQQHPGLFFTMVEQASVAISLTDASARIIYANPAFCRQTGYSLAQLLNQNPRLLASSQTPREIYQEMWHTLLQRQPWRGQLINQRRDGGLYLVEIDITPVLSPQGELEHYLAMQRDISVSYTLEQRLRNHMTLMEAVLNNIPAAVVVVDEQDRVVMDNLAYKTFCADCGGRELLTELQVSPGRMTPGVEQILPVAIRGAARWLSVTCWPLPGVSEEASRYFIDSALARTLVVIADCTQQRQQQEQGRLDRLKQQMTAGKLLAAIRESLDAALIQLNCPINMLAAARRLNGESSGNVALEAAWREGEEAMARLQRCRPSLDLENPAVWPLQPFFDDLCALYRTRFDAEGLQLDMASPHLIGFGQRTQLLACLSLWFDRTLALAAELPSVPLAMQLYAEENDGWLALYLTDNVPLLQVRYAHSPDALNSPGKGMELRLIQTLVAHHRGAIELTSRPQGGTCLTLRFPLFNTLTGGEA	PGPT0000130_89	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-NITROGEN_STARVATION,PGPT0000130-nifL-K23916	NA	NA
BMS020_01138	1575	nifA		Nif-specific regulatory protein	ATGATCCCCGAATCCGACCCGGACACCACCGTCAGACGCTTCGACCTCTCTCAGCAGTTCACCGCCATGCAGCGGATAAGCGTGGTGCTGAGCCGCGCCACCGAGGCCAGCAAAACGCTGCAGGAGGTGCTCAGCGTATTGCACAACGATGCCTTTATGCAGCACGGGATGATCTGTCTGTACGACAGCGAGCAGGAGATCCTCAGTATCGAAGCGCTGCAGCAAACCGAGCAGCAGACTCTCCCCGGCAGCGCGCAGATCCGCTATCGTCCCGGCGAGGGGCTGGTGGGGACGGTGCTGGCCCAGGGGCAATCGCTGGTGCTGCCCCGGGTCGCCGACGATCAGCGTTTTCTCGACCGCCTGAGCCTCTACGATTACGATCTGCCGTTTATCGCCGTGCCGCTAATGGGGCCCAACGCCCGGCCCATGGGAGTGCTGGCGGCCCAGCCGATGGCGCGCCAGGAAGAGCGGCTGCCGGCCTGCACCCGCTTTCTCGAAACCGTCGCCAACCTCATCGCCCAGACCATCCGGCTGATGATCCTCCCGGCCTCCGCCACCCTGCCGGGCCGCCAGCCGCCGAAGGTGGAACGGCCGCCGGCCTGCTCGTCGTCGCGCGGGGTGGGCCTTGACAATATGGTCGGCAAGAGCCCGGCGATGCGCCAGATCGTGGAGGTGATCCGCCAGGTTTCGCGCTGGGACACCACTGTGCTGGTACGCGGCGAAAGCGGCACCGGGAAAGAGCTGATCGCCAATGCCATCCACCACCATTCCCCGCGGGCTGGCGCCGCCTTCGTCAAATTTAACTGCGCGGCGCTGCCGGACAACCTGCTGGAAAGCGAACTGTTCGGCCATGAAAAAGGCGCCTTTACCGGCGCGGTGCGCCAGCGTAAGGGGCGTTTTGAGCTGGCGGATGGCGGCACCCTGTTCCTCGACGAGATTGGCGAAAGCAGCGCCTCGTTCCAGGCTAAGCTGCTGCGCATCCTGCAGGAGGGAGAGATGGAGCGGGTCGGCGGCGATGAGACCCTGCGGGTGAATGTCCGCATCATCGCCGCCACCAACCGCCACCTGGAGGAGGAGGTCCGGTTGGGCCACTTCCGCGAGGATCTTTACTATCGCCTGAACGTGATGCCCATCGCCCTGCCTCCGCTGCGCGAGCGTCAGGAGGACATCGCCGAGCTGGCGCACTTTCTGGTGCGCAAAATTGGCCAGCATCAAGGGCGCACGCTGCGGATCAGCGAGGGGGCGATCCGTCTGTTGATGGAGTACAGCTGGCCGGGCAATGTTCGCGAACTGGAGAACTGCCTCGAACGATCGGCGGTGATGTCCGAGAGCGGCCTGATCGATCGCGACGTGATCCTCTTCACCCACCAGGAACGTCCGGCCAAAGCCCTGCCCGCCAGCGGGCCGGCGGAAGACAGCTGGCTGGACAACAGCCTGGACGAACGCCAGCGGCTGATCGCCGCGCTGGAAAAAGCCGGCTGGGTGCAGGCCAAGGCGGCGCGGCTGCTGGGGATGACGCCGCGCCAGGTCGCCTACCGGATCCAGATCATGGATATCACCCTGCCGCGTCTGTAA	MIPESDPDTTVRRFDLSQQFTAMQRISVVLSRATEASKTLQEVLSVLHNDAFMQHGMICLYDSEQEILSIEALQQTEQQTLPGSAQIRYRPGEGLVGTVLAQGQSLVLPRVADDQRFLDRLSLYDYDLPFIAVPLMGPNARPMGVLAAQPMARQEERLPACTRFLETVANLIAQTIRLMILPASATLPGRQPPKVERPPACSSSRGVGLDNMVGKSPAMRQIVEVIRQVSRWDTTVLVRGESGTGKELIANAIHHHSPRAGAAFVKFNCAALPDNLLESELFGHEKGAFTGAVRQRKGRFELADGGTLFLDEIGESSASFQAKLLRILQEGEMERVGGDETLRVNVRIIAATNRHLEEEVRLGHFREDLYYRLNVMPIALPPLRERQEDIAELAHFLVRKIGQHQGRTLRISEGAIRLLMEYSWPGNVRELENCLERSAVMSESGLIDRDVILFTHQERPAKALPASGPAEDSWLDNSLDERQRLIAALEKAGWVQAKAARLLGMTPRQVAYRIQIMDITLPRL	PGPT0000001_363	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000001-nifA|anfA|vnfA-K02584	NA	NA
BMS020_01139	1407	nifB	COG0535	FeMo cofactor biosynthesis protein NifB	ATGACTTCCTGCTCTTCTTTTTCCGGCGGCAACGCCTGTCAGTCGGCGGACGCCAGCGCGTTAGCGCCGCGGGTGGCCGATAAGGTCGCCGCGCACCCCTGCTATTCCCGCAGCGGGCACCACCGTTTCGCCCGGATGCATCTCCCGGTCGCTCCGGCCTGCAATCTGCAGTGCAACTACTGCAACCGTAAATTCGACTGCAGCAATGAATCCCGCCCCGGGGTGTCTTCGACGCTGCTGACCCCCGAGCAGGCGGTGCTGAAAGTGCGCCAGGTGGCCCAGGCCATCCCGCAGCTGTCGGTGGTCGGCATTGCCGGGCCCGGCGATCCGCTGGCCAATATGACCCGCACCTTCCGCACCCTGGAGCTGGTCCGCGATCAGCTTCCGGACCTGAAATTATGCCTGTCGACCAACGGGCTGATGCTGCCCGACGCGGTGGATCGCCTGCTGGAGGTCGGTGTGGATCACGTTACGGTGACCATCAATACGCTGGATGCCGGCATCGCCGGACAAATCTACGCCTGGCTGTGGCTCGACGGCGAACGCTACCGCGGGCGGGAAGCCGGGGAGATCCTGATAGCCCGCCAGCTGGAGGGGGTCCGCAGGCTGACCAACGCCGGGGTGCTGGTCAAGATAAACTCGGTGCTGATCCCGGGGATCAACGACAGTGGCATGGCCGAGGTCAGCCGTTGTTTGCGGGAAAGCGGCGCGTTTATTCACAATATTATGCCGCTGATTGCCAGACCGGAGCACGGCACGGTCTTTGGCCTCAACGGCCAGCCAGAGCCGGACGCCGGGATGCTCGCCGCGATCCGCAGCCAGTGCGGGGCCGCGATGCCGCAGATGACGCATTGCCACCAGTGCCGCGCCGACGCCATCGGCATGCTGGGCGAAGACCGCAGCCAGCAGTTTACCCAGCTGCCGGACCCGAACAGCCTCCCCGACTGGCTGCCCATCCTCCATCAGCGCGCCGAACTTCATGCCAGCCTCGCCACCCGGGGAGAGTCGGAGGCCGATGATGCCTGTCTGGTGGCCGTGGCCTCCAGCCGCGGCGAGGTAATTGATTGTCATTTTGGCCATGCCGACCGCTTCTCGATCTACAGCCTGTCTGCCGCCGGCATGGTGCTGGTGGGCGAGCGCTTTACGCCGAAATATTGCCGCGGCGCGGAGGAGTGCGAGCCGCAGGAGAACGAAGCCAGACTGGCGGCGCTCCTCGCGCTGCTCGCCGACGTGAAAGCGGTGTTCTGCGTGCGTATCGGCCATACGCCATGGCAACAGCTCGAGCGACAGGGCATTGAGCCGCAGGTGGACGGCGCGTGGCGGTCGGTCGCCGAGGTGCTGCCCGCCTGGTGGCAGCGGCGGCGACAGAGCCTGGCGGCATCGCGCCTGCGTCAGGGGGTCGCCTGA	MTSCSSFSGGNACQSADASALAPRVADKVAAHPCYSRSGHHRFARMHLPVAPACNLQCNYCNRKFDCSNESRPGVSSTLLTPEQAVLKVRQVAQAIPQLSVVGIAGPGDPLANMTRTFRTLELVRDQLPDLKLCLSTNGLMLPDAVDRLLEVGVDHVTVTINTLDAGIAGQIYAWLWLDGERYRGREAGEILIARQLEGVRRLTNAGVLVKINSVLIPGINDSGMAEVSRCLRESGAFIHNIMPLIARPEHGTVFGLNGQPEPDAGMLAAIRSQCGAAMPQMTHCHQCRADAIGMLGEDRSQQFTQLPDPNSLPDWLPILHQRAELHASLATRGESEADDACLVAVASSRGEVIDCHFGHADRFSIYSLSAAGMVLVGERFTPKYCRGAEECEPQENEARLAALLALLADVKAVFCVRIGHTPWQQLERQGIEPQVDGAWRSVAEVLPAWWQRRRQSLAASRLRQGVA	PGPT0000005_307	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000005-nifB-K02585	NA	NA
BMS020_01140	516			hypothetical protein	ATGGCGCCGGTCGACTGGTTGACCCGCCTGTGGCGACGGTATCACGCCGGAAAAGGCTGCTTTCCGCTGCGCATGGGGCTAAGCGTCGAGGCGTGGCTGGCCCTGCAGCAGCGGCTGGGCGAGGTGGCGACGCCGCTGGACAGCGAGGCGCTGAGCCGTCGCCGGCTGATGACGGAGCTGAATGCCACCCGCGACGAAGAGCGCCGCCAGCTGGCGCGATGGCTGGCGGAGTGGATCGCGCCGGGAGCCGAACCGATGGCGCCGATCGTCGCCGGGGCAGCGCTGGCGTTTAATCATCTATGGGAGGATCTGGGTCTGGATTCGCGGGCGGAACTGGGCCGGCTGATGAGCGACTGCTTTCCGCAGCTGGTGGCGCAGAATGTCCACCATATGCGCTGGAAGAAGTTCTTTTATCGCCAGCGCTGCCTGCAGTCGCAGGGGGAGATCGTCTGCCGCTCGCCGAGCTGCGACGAATGTCTGGAGCGTAGCCTCTGCTTCGAACCGCCGCCTCAATAA	MAPVDWLTRLWRRYHAGKGCFPLRMGLSVEAWLALQQRLGEVATPLDSEALSRRRLMTELNATRDEERRQLARWLAEWIAPGAEPMAPIVAGAALAFNHLWEDLGLDSRAELGRLMSDCFPQLVAQNVHHMRWKKFFYRQRCLQSQGEIVCRSPSCDECLERSLCFEPPPQ	PGPT0000060_273	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000060-nifQ-K15790	NA	NA
BMS020_01141	690			hypothetical protein	GTGACGCTTCGCTTACCCGGCCTACAACGCCATTTACCTATCAGAAGGTTACTCAACACCCCAGACCCGGCAAGCGCCGCCGGGCAAGGACAGCGGGCGCGGTGCCGCTTGTGTGCCGGGTGGCGCTTCGCTTACCCGGCCTACAACGCCATTTACCTATCAGAAGGTTACTCAACACCCCAGGCCCGGCAAGCGCCGCGCCTCCGGGCAAGGACAGCGGGCGCGGAGCCGCTTGTGTGCCGGGTGGCGCTTCGCTTACCCGGCCTACAACGCCATTTACCTATCAGAAGGCTGCTCAACACCCCAGACCCGGCAAGCGCCGCGCCGCCCGGCAAGCGCAGCAGGCGCGGAGCCGCTTGTGTGCCGGGTGGCGGCTACGCCTTACCCGGCCTGGAGTTCGTGCGACCTGTCGTTAATTTATTCACCAGCCTTGCTGAAACTGCCGGTGCTGGCGGCCTCAAAATCGCTGAGACGTTCCCGGAAGGCCGGGGCAGCCCGCATGGATGCGGGCTGAGGGCCGTGTTTTGCACGGACGCTGCCTCGGCCCGACCCGCAGCCTGCAGAGATAAGTCGAAGGGACCGCGTAGCGGCGATTTTGCTGGCCGGAGCCCGGGGGTACAGGGGGCGGCGGCGACTGGCCGCCCCCTGTGCGCTCCCTGCGCCACAAAAAACAGAGTGCAGAAAAATTAA	MTLRLPGLQRHLPIRRLLNTPDPASAAGQGQRARCRLCAGWRFAYPAYNAIYLSEGYSTPQARQAPRLRARTAGAEPLVCRVALRLPGLQRHLPIRRLLNTPDPASAAPPGKRSRRGAACVPGGGYALPGLEFVRPVVNLFTSLAETAGAGGLKIAETFPEGRGSPHGCGLRAVFCTDAASARPAACRDKSKGPRSGDFAGRSPGVQGAAATGRPLCAPCATKNRVQKN				NA	NA	NA	NA	NA
BMS020_01142	177			hypothetical protein	ATGTGCGCTGAAGCCACAGATAACATAAATGACCACACGGCGTTGCTTCCCCTCACCCTGGCCCTCTCCCCAAGGGAGACGGAACTGTCCGGCCATCGTTTCCGTGGCCAACATATTGCCGGGTGGCGGCTGCGCCTGACCCGGCCTACGGAGTCTGAAAACGTGGTAAACCGATAA	MCAEATDNINDHTALLPLTLALSPRETELSGHRFRGQHIAGWRLRLTRPTESENVVNR				NA	NA	NA	NA	NA
BMS020_01143	1359	plaP	COG0531	Low-affinity putrescine importer PlaP	ATGTCGCATAACGCTACTCCAAATACCTCTCGCGTGGAATTACGTAAAACACTTACGCTAGTTCCGGTTGTAATGATGGGCCTGGCCTATATGCAGCCGATGACGCTGTTCGATACGTTTGGTATCGTCTCTGGTATGACCGACGGTCACGTGCCGACGGCCTACGCCTTTGCGTTAATCGCTATCCTGTTTACTGCCCTGAGCTATGGCAAGCTGGTACGTCGTTACCCGTCCGCCGGCTCGGCGTATACCTATGCGCAGAAATCCATCAGCCCGACCGTTGGCTTTATGGTGGGTTGGTCCTCGCTGCTCGACTACCTGTTCGCGCCGATGATCAACATTCTGCTGGCGAAAATCTATTTTGAAGCGCTGGTGCCTTCGATTCCGTCGTGGGTGTTTGTTATCGCGCTGGTCGCCTTTATGACCGCCTTTAACCTGCGCAGCATTAAATCCGTAGCCAACTTCAACACCGTGATCGTGGTGCTGCAGGTGGTGCTGATTGCCGTTATCCTCGGCATGGTGATTTATGGCGTGTTTGGCGGCGAAGGCGCCGGTACGCTGGCCAGCAGCCGTCCGTTCTGGTCCGGTGACGCGCACGTGATCCCAATGATTACCGGGGCGACGATCCTGTGCTTCTCGTTTACCGGCTTCGACGGCATCAGCAACCTGTCTGAAGAGACCAAAGATGCAGAGCGCGTCATTCCGCGCGCGATCTTCCTGACCGCGCTGATCGGCGGCCTGATCTTCATCTTTGCCACCTACTTCCTGCAGCTGTACTTCCCGGATATCTCGCGCTTTAAAGATCCGGATGCGTCACAGCCGGAAATTATGCTCTACGTGGCAGGTAAAGCCTTCCAGGTTGGCGCGCTGATCTTCTCCACCATTACCGTACTGGCGTCCGGTATGGCGGCGCACGCTGGCGTGGCGCGTCTGATGTACGTGATGGGCCGTGACGGCGTGTTCCCGAAAAGCTTCTTCGGCTATGTGCACCCGACCTGGCGCACCCCGGCGATGAACATCATCCTGGTCGGCGCTATCGCCCTGCTGGCGATTAACTTCGACCTGGTGATGGCGACGGCGCTGATTAACTTTGGTGCGCTGGTGGCGTTTACCTTCGTTAACCTGTCGGTGATTTCGCAGTTCTGGATCCGTGAGAAACGCAACAAGACGCTGAAAGACCACTTCCAGTATCTGTTCCTGCCGATGTGCGGCGCCCTGACCGTCGGCGCGCTGTGGGTCAACCTGGAAGAGAGCTCGATGATTCTGGGCCTGATCTGGGCCGGTATCGGTCTGGTCTATCTGGCCTGCGTGACCAAAAGCTTCCGCAACCCGGTGCCGCAGTACGAAGACGTGGCGTAA	MSHNATPNTSRVELRKTLTLVPVVMMGLAYMQPMTLFDTFGIVSGMTDGHVPTAYAFALIAILFTALSYGKLVRRYPSAGSAYTYAQKSISPTVGFMVGWSSLLDYLFAPMINILLAKIYFEALVPSIPSWVFVIALVAFMTAFNLRSIKSVANFNTVIVVLQVVLIAVILGMVIYGVFGGEGAGTLASSRPFWSGDAHVIPMITGATILCFSFTGFDGISNLSEETKDAERVIPRAIFLTALIGGLIFIFATYFLQLYFPDISRFKDPDASQPEIMLYVAGKAFQVGALIFSTITVLASGMAAHAGVARLMYVMGRDGVFPKSFFGYVHPTWRTPAMNIILVGAIALLAINFDLVMATALINFGALVAFTFVNLSVISQFWIREKRNKTLKDHFQYLFLPMCGALTVGALWVNLEESSMILGLIWAGIGLVYLACVTKSFRNPVPQYEDVA	PGPT0007795_225	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007795-puuP-K14052	NA	NA
BMS020_01145	891	yhaJ_1		HTH-type transcriptional regulator YhaJ	ATGAAACCACTGCTGGATGTCCTCGTGATCCTCGACGCGCTGGAAAAAGAGGGGAGCTTTGCCGCGGCGTCGGCAAAGCTCTTTAAAACGCCCTCGGCGCTGAGTTACACCATTCACCGGCTGGAAAGCGATCTCAATATTCAGCTGCTCGACCGCAGCGGCCACCGCGCGCGCTTTACCCCCACCGGACAGATGCTGCTGGAGAAAGGGCGGGAAGTGTTGCACATCGCCCGCGAACTGGAGATCCGGGCGGTTAAGCTGCAGCAGGGGTGGGAACATACCCTCCGCCTGGCGGTGGACAGCACCTTTCCCGTGGCGCAACTCTCGCCGTTGATCGCCGCCTTTTATCAACAGCAGCCACTCACCCGGCTGCGCTTCACGCTGACCCCCTCGCTGCTGGACTGGCGGCCCTTGACGGAAGGGCAGGCCGATCTCCTGCTGGGGGCGCTCGGCGAGCCGCCGCCGCTGAGCGGCTATGATTATCTTCCGCTTGGCGAGCTGGAGCTGCTGCTGGTGGTCTCCCCGCAGCATCCTCTGGCGGCGCGCCGCGCCCCGTTGAGCTGGCGAACCCTGCGGCGTTACCGCGCGGTGGCCACCGGCGAGGGTGGGGCGCTGCTCGCCGATCAGGAGACCCTGACGGTGTGTGACGCCGCGGGGCAGCTGGCGCTGCTGCGCATGGGGCTGGGGTGGGGTTGCCTGCCGCGTTATCAGGTGCAGGGGCTGCTGGAGAGCGGCGAACTGGTCAGCCTGGCCGTGCGCGGGCTGTCGCCTTGTCAGCGCGCGTGGATCGCCTGGAATGACGCCGCCTGCGGTTTGGCCGGGAAATGGTGGCGCGAAGCGCTATTAGCAAATAGTGCTATTTTTACAATTTATCATACGGAAATCGTATAG	MKPLLDVLVILDALEKEGSFAAASAKLFKTPSALSYTIHRLESDLNIQLLDRSGHRARFTPTGQMLLEKGREVLHIARELEIRAVKLQQGWEHTLRLAVDSTFPVAQLSPLIAAFYQQQPLTRLRFTLTPSLLDWRPLTEGQADLLLGALGEPPPLSGYDYLPLGELELLLVVSPQHPLAARRAPLSWRTLRRYRAVATGEGGALLADQETLTVCDAAGQLALLRMGLGWGCLPRYQVQGLLESGELVSLAVRGLSPCQRAWIAWNDAACGLAGKWWREALLANSAIFTIYHTEIV				NA	NA	NA	NA	NA
BMS020_01146	825	yeeZ	COG0451	Protein YeeZ	ATGAAAAAGGTCGCGATAGTCGGTTTGGGATGGCTGGGGATGCCGCTGGCGCTGTCGTTGACGGCGCGAGGCTGGCAGGTCACCGGCAGTAAAACCACGCAGGATGGCGTGGAGGCGGCGCGGATGTGCGGGATCGACAGCTATCCGCTGCGCCTGGAGCCGCAACTGGTCTGTGATACCGAGGACCTCGACGCGCTGATGAACGTCGATGCGCTGGTGATCACGCTGCCGGCCCGGCGGACCGGGGCGGGGGAAGGGTTTTATCTGCAGGCGGTGCAAGAGATTGTCGATACCGCGCTGGCGTACCATATTCCGCGGATCGTCTTCACCAGCTCCACCTCGGTGTATGGCAACGTCAACGGTACGGTGAAAGAGAACTCCCCGCGCCTGCCGCAAACCGCCAGCGGGCAGGTGCTCAAGGGGCTGGAGGACTGGCTGCACAATCTGCCGGGGACCTCGGTGGATATTCTGCGCCTGGCCGGGCTGGTGGGGCCGTCCCGCCATCCGGGGCGTTTTTTCGCCGGCAAGTCGGCGCCGGATGGCCAGCACGTGGTCAACCTGGTGCATTTGCAGGATGTGGTGGCCGCCATCGAACTGCTGCTGCAGGCTCCGAAGGGCGGGCACATCTATAATCTATGTGCGCCCCGCCATCCGGCGCGCGGCCTCTTTTATCCGCAGATGGCCCGCGAGCTGGGGCTGCCGCCGCCGGTCTTCAGCGACAGCCCGGACGGCGGCCAGGGCAAGATTGTGGATGGCAATCGTATCTGCAATGAGCTGGGGTTTGAGTACCAGTACCCCGATCCGCTGGTGATGCCGATGGAGTGA	MKKVAIVGLGWLGMPLALSLTARGWQVTGSKTTQDGVEAARMCGIDSYPLRLEPQLVCDTEDLDALMNVDALVITLPARRTGAGEGFYLQAVQEIVDTALAYHIPRIVFTSSTSVYGNVNGTVKENSPRLPQTASGQVLKGLEDWLHNLPGTSVDILRLAGLVGPSRHPGRFFAGKSAPDGQHVVNLVHLQDVVAAIELLLQAPKGGHIYNLCAPRHPARGLFYPQMARELGLPPPVFSDSPDGGQGKIVDGNRICNELGFEYQYPDPLVMPME				NA	NA	NA	NA	NA
BMS020_01148	900	hisG_1	COG0040	ATP phosphoribosyltransferase	ATGTTAGACAACACCCGTTTACGCATAGCTATTCAGAAATCAGGCCGTTTAAGCGAAGATTCACGTGAATTACTCAGCCGCTGCGGCATTAAAGTCAATTTGCACACCCAGCGTCTGATTGCGCTGGCGGAAAATATGCCAATCGACATTCTGCGCGTGCGTGATGACGATATCCCGGGCCTGGTGATGGACGGTGTTGTCGACCTCGGCATTATCGGCGAAAACGTGCTGGAAGAAGAGCTGCTCAGCCGCCGCGCCCAGGGCGAAGACCCGCGCTATTTCACCCTGCGTCGTCTGGACTTCGGCGGCTGCCGCCTGTCGCTGGCGACCCCGGTGGATGAAGCCTGGAACGGCCCGGCGGCGCTGGATGGCAAACGTATCGCCACCTCTTACCCGCACCTGCTGAAGCGCTACCTCGATCAAAAAGGTATCTCCTTTAAATCCTGTCTGCTGAACGGCTCCGTGGAAGTGGCGCCGCGCGCCGGCCTCGCCGACGCCATCTGCGACCTCGTCTCCACCGGCGCCACCCTGGAAGCCAACGGCCTGCGCGAAGTGGAAGTGATCTACCGCTCCAAAGCCTGCCTGATCCAGCGCGACGGCGAAATGGACGACGCCAAACAGCAGCTGATTGACCGCCTGCTGACCCGTATTCAGGGCGTGATCCAGGCCCGCGAGTCGAAATACATCATGATGCACGCCCCGACCGAACGTCTGGAAGAAGTGGTTGCCCTGCTGCCGGGCGCCGAACGGCCGACCATTCTGCCGCTGGCGGGCGACAAGCAGCGCGTGGCGATGCACATGGTCAGCAGCGAAACCCTGTTCTGGGAGACCATGGAAAAACTGAAGGCGCTGGGCGCCAGCTCCATTCTGGTGCTGCCGATTGAGAAGATGATGGAGTAA	MLDNTRLRIAIQKSGRLSEDSRELLSRCGIKVNLHTQRLIALAENMPIDILRVRDDDIPGLVMDGVVDLGIIGENVLEEELLSRRAQGEDPRYFTLRRLDFGGCRLSLATPVDEAWNGPAALDGKRIATSYPHLLKRYLDQKGISFKSCLLNGSVEVAPRAGLADAICDLVSTGATLEANGLREVEVIYRSKACLIQRDGEMDDAKQQLIDRLLTRIQGVIQARESKYIMMHAPTERLEEVVALLPGAERPTILPLAGDKQRVAMHMVSSETLFWETMEKLKALGASSILVLPIEKMME	PGPT0017400_610	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
BMS020_01149	1305	hisD_1	COG0141	Histidinol dehydrogenase	ATGAGCTTCAACACAATCATCGACTGGAACGGCTGTAGCGCAGACCAACAGCAACAACTCTTAACGCGCCCGGCGATTTCCGCCTCCGACAGCATCAGTAAAACGGTGGCGGCGATCCTCGATAACGTCAAAGCCAACGGCGACGCGGCGCTGCGCGAATACAGCGCGAAGTTTGATAAAACCACCGTCGCCGCGCTGCAGGTGAGCGAGGCGGAGATCGCCGCCGCCGGCGAGCGCCTCAGCGACGAGCTGAAGCAGGCGATGGCGGTGGCGGTGCAAAACATCGAGACCTTCCACAACGCGCAACAGCTGCAGGCGGTGGATGTCGAAACGCTGCCGGGGGTGCGCTGCCAGCAGGTGACCCGCCCTATCGCCTCCGTCGGGCTGTATATTCCGGGCGGCTCGGCGCCGCTGTTCTCCACGGTGCTGATGCTGGCGACGCCGGCGCGCATCGCCGGCTGTCAGCAGGTGGTGCTCTGCTCGCCGCCGCCGATCGCCGATGAGATCCTCTACGCCGCGCAGCTGTGCGGCGTGAAAACCATCTTTAACGTCGGCGGCGCGCAGGCCATCGCCGCCCTCGCCCTCGGTACCGAGTCGGTGCCGAAGGTGGATAAAATCTTTGGCCCGGGTAACGCTTACGTCACGGAAGCCAAACGCCAGGTCAGCCAGCGTCTGGACGGCGCGGCCATCGATATGCCGGCCGGCCCGTCGGAAGTGCTGGTGATCGCCGACAGCGGCGCCAACCCGGACTTTGTCGCCTCCGACCTGCTGTCCCAGGCGGAACACGGCCCGGACTCGCAGGTGATCCTCCTGACCCCGGACGCCGGGGTGGGCAGCCGCGTCGCCGAGGCCGTGGAGCGCCAGCTGGCCGCCCTGCCGCGCGCCGAAACCGCCCGCGTGGCGCTCTCCGCCAGCCGGATCATCGTGGCCCGCGACCTGGCGCAGTGCGTGGCTATCTCCAACCAGTATGGCCCGGAACACCTGATCATTCAGACCCGTCAGGCCCGTGAGCTGGTGGACAGCATCACCAGCGCCGGTTCGGTTTTCCTTGGCGACTGGTCGCCGGAATCCGCGGGCGACTACGCCTCGGGCACCAACCACGTCCTGCCGACCTATGGCTATACCGCCACCTGTTCGAGCCTCGGCCTGGCCGACTTCCAGAAGCGGATGACCGTGCAGGAGCTGTCGCGCGAAGGCTTTGCCGCCCTCGCTTCGACGATTGAGATTCTGGCCGCCGCCGAGCGCCTTGACGCCCACAAAAACGCCGTAACGCTGCGCGTTGCCGCCCTGAAGGAGCAAGCATGA	MSFNTIIDWNGCSADQQQQLLTRPAISASDSISKTVAAILDNVKANGDAALREYSAKFDKTTVAALQVSEAEIAAAGERLSDELKQAMAVAVQNIETFHNAQQLQAVDVETLPGVRCQQVTRPIASVGLYIPGGSAPLFSTVLMLATPARIAGCQQVVLCSPPPIADEILYAAQLCGVKTIFNVGGAQAIAALALGTESVPKVDKIFGPGNAYVTEAKRQVSQRLDGAAIDMPAGPSEVLVIADSGANPDFVASDLLSQAEHGPDSQVILLTPDAGVGSRVAEAVERQLAALPRAETARVALSASRIIVARDLAQCVAISNQYGPEHLIIQTRQARELVDSITSAGSVFLGDWSPESAGDYASGTNHVLPTYGYTATCSSLGLADFQKRMTVQELSREGFAALASTIEILAAAERLDAHKNAVTLRVAALKEQA				NA	NA	NA	NA	NA
BMS020_01150	1062	hisC_1	COG0079	Histidinol-phosphate aminotransferase	ATGAGCATTGAAGATTTAGCCCGCGCCAACGTCCGCGCGCTGACCCCGTATCAATCCGCTCGCCGCCTGGGCGGGAAAGGCGACGTCTGGCTGAACGCTAACGAATTCCCCACCGCCGTGGCTTTCCAGCTTACCGCGCAAACGATGAACCGCTATCCGGAGCCGCAGCCGAAGGCAGTCATCGAGAGCTACGCCCGCTACGCCGACGTCAAACCGGAGCAGGTACTGGTCAGCCGCGGCGCCGACGAAGGCATTGAGCTGCTGATCCGCGCCTTCTGCGAGCCAGGCGAAGACGCGGTGCTCTACTGCCCGCCTACCTACGGCATGTACAGCGTCAGCGCCGAGACCATCGGCGTCGAATGCCGCACCGTGCCGACCCTCGCCGACTGGCAGCTCGACCTGCCGGGCATTGAGGAAAAGCTGGACGGGGTGAAAGTGGTCTTCGTCTGCAGCCCGAACAACCCGACCGGGCAGATTATCGACCCGCAGTCGATGCGCGACCTGCTGGAGATGACCCGCGGCAAAGCCATCGTGGTGGCCGACGAAGCCTATATTGAATTCTGCCCGCAGGCGACGCTCGCCGGCTGGCTCAGCGACTACCCGCACCTGGTGGTGCTGCGCACGCTGTCCAAAGCCTTTGCCCTCGCCGGCCTGCGCTGCGGCTTCACCCTCGCCAACGCCGAGGTGATTAACGTGCTGCTGAAAGTGATCGCGCCGTACCCGCTCTCCACGCCGGTGGCCGATATCGCCGCCCAGGCGCTGAGCGCGGAAGGGATCGCCGCGATGCGTCAGCGCGTGGCGCAGATCCTCGACGAGCGCCGCTACCTGGTGGAACAGCTGCGCGGCATCGCCTGCGTGGAGCAGGTCTTCGATTCCGAGACCAACTACGTCCTGGCGCGGATAACCGCCTCCAGCGCAGTGTTTAAATCTTTGTGGGATCAGGGCATTATCTTACGTGACCAGAATAAACAACCTTCATTGAGCGGCTGTTTGCGTATCACTATCGGTACCCGTGCCGAGAGCCAGCGCGTGATTGACGCCTTGACTGCGGAGAATGTATGA	MSIEDLARANVRALTPYQSARRLGGKGDVWLNANEFPTAVAFQLTAQTMNRYPEPQPKAVIESYARYADVKPEQVLVSRGADEGIELLIRAFCEPGEDAVLYCPPTYGMYSVSAETIGVECRTVPTLADWQLDLPGIEEKLDGVKVVFVCSPNNPTGQIIDPQSMRDLLEMTRGKAIVVADEAYIEFCPQATLAGWLSDYPHLVVLRTLSKAFALAGLRCGFTLANAEVINVLLKVIAPYPLSTPVADIAAQALSAEGIAAMRQRVAQILDERRYLVEQLRGIACVEQVFDSETNYVLARITASSAVFKSLWDQGIILRDQNKQPSLSGCLRITIGTRAESQRVIDALTAENV	PGPT0020305_6474	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
BMS020_01151	1068	hisB_1	COG0131	Histidine biosynthesis bifunctional protein HisB	ATGACCCAGAAGTATCTCTTTATTGACCGTGACGGCACCCTGATTTCCGAACCGCCGGTAGATTTCCAGGTGGACCGTTTCGACAAGCTGGCGTTTGAGCCGCAGGTGATCCCGGCGCTGCTGAAGCTGCAGCAGGAAGGCTATAAGCTGGTGATGATCACCAACCAGGACGGTCTGGGTACCGACAGCCTGCCGCAGGAGGCGTTTGATGGCCCACACAATCTGATGATGCAGATCTTCGCCTCGCAGGGCATTAACTTTGAGGAAGTGCTGATTTGTCCGCACTTCCCGGGCGACAACTGCGCCTGCCGCAAGCCGAAAACCCAGCTGGTACTGCCGTGGCTGGAAGAGGGCGTGCTGGATAAAGCCCACAGCTACGTGATTGGCGACCGGGCCACCGACCTTGAGCTGGCGGATAACATGGGGATTATCGGTCTGCGCTATGACCGCGAGACCCTGAACTGGCCGACCATCTGCGAGCAGCTGACCCGCCGCGACCGCTATGCCCACGTCGAGCGCATCACCAAAGAGACCCAGGTGGATGTGAAAGTGTGGCTGGACCGCGAAGGCGGCAGCAAGATCCACACCGGCGTCGGCTTTTTTGACCATATGCTCGACCAAATCGCCACCCATGGCGGCTTCCGCATGGAGGTCAACGTCGGCGGCGATCTGTACATCGACGATCACCACACGGTGGAAGATACCGGCCTGGCCCTCGGCGAAGCCCTGAAGCTGGCGCTCGGCGACAAGCGCGGCATCAACCGCTTCGGCTTCGTGCTGCCGATGGACGAGTGTCTCGCCCGCTGCGCGCTGGATATCTCCGGCCGTCCGCACCTGGAGTATAAGGCGGACTTCACCTACCAGCGCGTCGGCGATCTGAGCACCGAGATGGTGGAACACTTCTTCCGCTCGCTCTCTTACACCATGGCGGTGACGCTGCACCTGAAAACCAAGGGCAAGAACGATCACCACCGCGTGGAGAGCCTGTTCAAAGCCTTTGGCCGTACGCTGCGCCAGGCGATCCGCGTCCAGGGCGATGCCCTGCCGTCTTCCAAAGGGGTGCTGTAA	MTQKYLFIDRDGTLISEPPVDFQVDRFDKLAFEPQVIPALLKLQQEGYKLVMITNQDGLGTDSLPQEAFDGPHNLMMQIFASQGINFEEVLICPHFPGDNCACRKPKTQLVLPWLEEGVLDKAHSYVIGDRATDLELADNMGIIGLRYDRETLNWPTICEQLTRRDRYAHVERITKETQVDVKVWLDREGGSKIHTGVGFFDHMLDQIATHGGFRMEVNVGGDLYIDDHHTVEDTGLALGEALKLALGDKRGINRFGFVLPMDECLARCALDISGRPHLEYKADFTYQRVGDLSTEMVEHFFRSLSYTMAVTLHLKTKGKNDHHRVESLFKAFGRTLRQAIRVQGDALPSSKGVL				NA	NA	NA	NA	NA
BMS020_01152	591	hisH_1	COG0118	Imidazole glycerol phosphate synthase subunit HisH	ATGAATGTGGTGATCCTTGATACCGGGTGCGCCAACCTCAATTCGGTGAAATCGGCGATTGGCCGCCACGGCTATGAGCCGGTGGTCAGCCGCGATCCGGAGGTGGTATTGCGTGCCGATAAACTGTTTCTTCCCGGCGTCGGCACCGCCCAGGCGGCGATGGACCAGCTGCGCGACCGCGAGCTGATCGACCTGATCAAAGCCTGTACCCAGCCGGTGCTGGGTATCTGCCTGGGCATGCAGCTGCTCGGCAAGCGCAGCGAAGAGAACAACGGCGTCGATCTGCTGGGCATTATCGAGGAAGAGGTGCCGAAGATGACCGACCACGGCCTGCCGCTGCCGCACATGGGCTGGAACCGGGTGTATGCCAAAGCAGGCGATCGCCTGTTCCGCGGCATTGAAGAAGGCGCGTATTTCTACTTCGTGCACAGCTACGCCATGCCGGTCAACCCGTATACCATCGCCCAGTGCAATTACGGCGAGGCGTTCACCGCCGCGGTGCAGAAAGATAACTTCTTTGGCGTGCAGTTCCACCCGGAGCGCTCCGGGAGCGCCGGGGCGCAGCTGCTGAAAAACTTCCTGGAGATGTGA	MNVVILDTGCANLNSVKSAIGRHGYEPVVSRDPEVVLRADKLFLPGVGTAQAAMDQLRDRELIDLIKACTQPVLGICLGMQLLGKRSEENNGVDLLGIIEEEVPKMTDHGLPLPHMGWNRVYAKAGDRLFRGIEEGAYFYFVHSYAMPVNPYTIAQCNYGEAFTAAVQKDNFFGVQFHPERSGSAGAQLLKNFLEM				NA	NA	NA	NA	NA
BMS020_01153	738	hisA_1	COG0106	1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino] imidazole-4-carboxamide isomerase	ATGATTATTCCTGCGTTAGATTTAATCGACGGCACCGTCGTTCGTCTCCACCAGGGCGATTACGGCCAGCAGCGCGACTACGGCAGCGATCCGCTGCCGCGCCTGCAGTCCTATGCCGCTCAGGGGGCGGAAGTCCTGCACCTGGTCGACCTGACCGGGGCGAAGGATCCGGCAAAGCGCCAGATCCCGCTGCTGAAATCGCTGGTCGCCGGCGTTGACGTCCCGGTGCAGGTCGGCGGCGGCGTGCGGACCGAGGCGGATGTCGCGGCCCTGCTTGACGCCGGCGTCGCCCGCGTGGTGGTCGGCTCCACCGCGGTGAAATCCCCGGAGGAAGTAAAAGGCTGGTTTAAACGCTTTGGCCCTGAACGACTGGTGCTGGCGCTCGACGTGCGTATCGACGCCGACGGCAATAAGCAGGTGGCGGTCAGCGGCTGGCAGGAAAACTCCGGCGTGACGCTGGAGGAGCTGGTGGAGAGCTATCTGCCGGTCGGCCTGCAGCATGTGCTGTGCACCGATATCTCCCGTGACGGCACGCTGGCGGGCTCCAACGTCTCGCTGTATGAGGAAGTCTGCGCCCGCTACCCGCAGGTGGCGTTTCAGTCATCCGGCGGCATCGGCGATCTCAATGATATTGCCGCCCTGCGCGGCACCGGGGTGCGCGGCGTGATTGTCGGTCGCGCGCTGCTGGAAGGTAAATTCAACGTAACGGAGGCCATTCAATGCTGGCAAAACGGATAA	MIIPALDLIDGTVVRLHQGDYGQQRDYGSDPLPRLQSYAAQGAEVLHLVDLTGAKDPAKRQIPLLKSLVAGVDVPVQVGGGVRTEADVAALLDAGVARVVVGSTAVKSPEEVKGWFKRFGPERLVLALDVRIDADGNKQVAVSGWQENSGVTLEELVESYLPVGLQHVLCTDISRDGTLAGSNVSLYEEVCARYPQVAFQSSGGIGDLNDIAALRGTGVRGVIVGRALLEGKFNVTEAIQCWQNG				NA	NA	NA	NA	NA
BMS020_01154	777	hisF_1	COG0107	Imidazole glycerol phosphate synthase subunit HisF	ATGCTGGCAAAACGGATAATCCCCTGCCTCGACGTCCGCGACGGCCAGGTAGTGAAAGGCGTGCAGTTCCGTAATCACGAGATCATCGGCGACATCGTCCCGCTGGCCAAGCGCTATGCCGACGAAGGCGCCGACGAGCTGGTGTTCTATGATATCACCGCCTCCAGCGACGGCCGGGTGGTCGACAAGAGCTGGGTGTCGCGGGTGGCGGAAGTGATTGATATTCCTTTCTGCGTGGCGGGCGGGATCAAGTCGCTGGAAGACGCGGCGCAGATCCTCTCCTTCGGCGCCGATAAGATCTCGATTAACTCCCCTGCCCTCGCCGACCCGACGCTGATCACCCGCCTTGCCGACCGCTTTGGCGTGCAGTGCATTGTGGTGGGGATTGATACCTGGTTTGATGCAGAGACCGGTAAATATCACGTCAATCAGTACACCGGCGACGAGAGCCGCACCCGGGTGACGCAGTGGGAAACCCTCGACTGGGTGGAGGAAGTGCAGAAGCGCGGCGCGGGCGAGATCGTCCTCAATATGATGAACCAGGACGGGGTGCGCAACGGCTACGATCTTCAGCAGCTGGCGAAGGTTCGCGCGGTGTGCCATGTGCCGCTGATCGCCTCCGGCGGCGCGGGCACCATGGAACACTTCCTCGAAGCCTTCCGCGACGCCAACGTTGACGGCGCGCTGGCGGCCTCGGTATTCCACAAACAGATTATTAATATTGGCGAACTGAAAGCGTACCTGGCGGCACAGGGCGTGGAGATAAGGGTATGTTGA	MLAKRIIPCLDVRDGQVVKGVQFRNHEIIGDIVPLAKRYADEGADELVFYDITASSDGRVVDKSWVSRVAEVIDIPFCVAGGIKSLEDAAQILSFGADKISINSPALADPTLITRLADRFGVQCIVVGIDTWFDAETGKYHVNQYTGDESRTRVTQWETLDWVEEVQKRGAGEIVLNMMNQDGVRNGYDLQQLAKVRAVCHVPLIASGGAGTMEHFLEAFRDANVDGALAASVFHKQIINIGELKAYLAAQGVEIRVC	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
BMS020_01155	597	hisI_1		Histidine biosynthesis bifunctional protein HisIE	ATGTTGACTGAACAGCTGGACTGGGAAAAAACGGACGGCATGATGCCGGCCATCGTGCAGCACGCCGTATCCGGCGAAGTGCTGATGCTGGGCTACATGAACAAGGAGGCGCTGGAGAAAACCGAAGCCACCGGCAAGGTCACCTTTTACTCACGCACCAAACAGCGGCTGTGGACCAAGGGTGAAACCTCGGGCCATGTCCTCAACGTAGTGAGCATCACGCCGGATTGCGACGACGATACGCTGCTGGTGCTGGTGAACCCGATCGGGCCGACCTGCCACAAAGGCACCACCAGCTGCTTCGGCGACGCCGGCCACCAGTGGCTGTTCCTCTATCAGCTGGAGCAGCTGCTGGCCGAGCGTAAGCACGCCGACCCGGAGAGCTCCTACACGGCGAAGCTGTATGCCAGCGGCACCAAGCGCATTGCGCAGAAAGTGGGGGAAGAAGGCGTGGAGACCGCGCTGGCCGCCACGGTTAACGACCGCTTCGAGCTGAAGAATGAGGCGTCGGACCTGATGTACCACCTGCTGGTGCTGCTGCAGGACCAGGGGCTGGATCTCGGGGAAGTGATTGATAATCTGAAGAGTCGACACTAA	MLTEQLDWEKTDGMMPAIVQHAVSGEVLMLGYMNKEALEKTEATGKVTFYSRTKQRLWTKGETSGHVLNVVSITPDCDDDTLLVLVNPIGPTCHKGTTSCFGDAGHQWLFLYQLEQLLAERKHADPESSYTAKLYASGTKRIAQKVGEEGVETALAATVNDRFELKNEASDLMYHLLVLLQDQGLDLGEVIDNLKSRH				NA	NA	NA	NA	NA
BMS020_01156	1116	mshA_1		D-inositol-3-phosphate glycosyltransferase	TTGAGAGTTCTACACGTCTATAAGACCTACTATCCCGATACCTACGGCGGTATTGAGCAGGTCATTTATCAGCTCAGTCAGGGCTGCGCCCGCCGGGGAATCGCAGCCGATGTATTTACTTTTAGCCCGGACAAAGAGACAGGACCTGTCGCCTACGAAGACCATCGGGTCATTTATAATAAGCAGCTTTTTGAAATTGCCTCCACGCCGTTTTCGCTGAAAGCGTTAAAGCGTTTTAAGCAGATTAAAGATGATTACGACATCATCAACTACCATTTTCCGTTTCCATTCATGGATATGTTGCATCTCTCGGCGCGGCCTGACGCCAGAACAGTGGTGACCTATCACTCTGATATTGTGAAACAAAAACGGTTGATGAAGCTGTACCAGCCGCTGCAGGAGCGATTCCTCGCCAGCGTAGACTGCATTGTCGCCTCGTCGCCCAACTACGTGGCCTCCAGCCAGACCCTGAAAAAATATCAGGATAAAACCGTGGTGATCCCGTTTGGTCTGGAGCAGCACGACGTGCAGCACGATCCGCAGCGGGTGGCGCACTGGCGGGAAACCGTCGGCGATAACTTCTTCCTTTTCGTCGGCGCTTTCCGCTACTACAAAGGGCTGCACATTCTGCTGGATGCCGCCGAGCGTAGCCGGCTGCCGGTGGTGATTGTCGGGGGCGGGCCGCTGGAGGCGGAAGTGCGTCGTGAAGCGCAGCAGCGTGGGCTGAGCAATGTGGTATTTACCGGCATGCTCAACGACGAAGATAAATACATTCTCTTCCAGCTCTGCCGTGGCGTGGTCTTCCCCTCGCATCTGCGATCCGAGGCGTTTGGCATTACGTTACTGGAAGGCGCGCGCTTCGCCAGGCCGCTGATCTCCTGCGAGATCGGCACCGGGACCTCGTTCATTAACCAGGACAAAGTGAATGGCTGCGTGATCCCGCCGAATGACAGTCAGGCGCTGGTGGAGGCGATGAATGAGCTCTGGCAAAACGATGAAACCGCCAGCCGCTATGGCGAAAACTCGCGTCGTCGCTTTGAAGAGATGTTTACTGCCGACCATATGATTGACGCTTACGTCAATCTCTACACTACGCTGCTGGAAAGCAAATCCTGA	MRVLHVYKTYYPDTYGGIEQVIYQLSQGCARRGIAADVFTFSPDKETGPVAYEDHRVIYNKQLFEIASTPFSLKALKRFKQIKDDYDIINYHFPFPFMDMLHLSARPDARTVVTYHSDIVKQKRLMKLYQPLQERFLASVDCIVASSPNYVASSQTLKKYQDKTVVIPFGLEQHDVQHDPQRVAHWRETVGDNFFLFVGAFRYYKGLHILLDAAERSRLPVVIVGGGPLEAEVRREAQQRGLSNVVFTGMLNDEDKYILFQLCRGVVFPSHLRSEAFGITLLEGARFARPLISCEIGTGTSFINQDKVNGCVIPPNDSQALVEAMNELWQNDETASRYGENSRRRFEEMFTADHMIDAYVNLYTTLLESKS	PGPT0023160_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023160-wbdC|wbpZ|mtfC-K12995	NA	NA
BMS020_01157	1146	mshA_2		D-inositol-3-phosphate glycosyltransferase	ATGAAAATTATTTTTGCTACTGAGCCAATTAAATACCCATTAACGGGCATCGGTCGGTATTCCCTGGAGCTGGTTAAGCGGCTGGCGGTCGCTCGCGAAATCGAAGAGCTGAAGCTGTTTCACGGCGCGTCGTTTATCGATCAGATCCCCCAGGTTGAGAATAAAAGCGATACCAAAGCCAGCAATCATGGTCGTCTGTCAGCGTTTCTGCGCCGCCAGCCGCTGCTGATTGAGGCGTATCGCCTGCTGCACCCGCGGCGCCAGGCATGGGCATTGCGCGACTATAAAGATTACATCTACCATGGTCCCAATTTTTATCTGCCGCATCGCCTGGAACGCGCCGTGACCACGTTTCATGACATCTCTATATTTACCTGCCCGGAATATCATCCAAAAGATCGGGTTCGCTATATGGAGAAGTCCCTGCATGAGAGCCTCGATTCGGCAAAGCTGATCCTGACCGTCTCTGACTTCTCGCGCAGTGAAATCATCCGCCTGTTCAACTATCCGGCGGATCGGATCGTCACCACCAAGCTGGCCTGCAGCAGCGACTATATTCCGCGCAGCCCGGCGGAGTGCCTGCCGGTCCTGCAAAAATATCAGCTGGCGTGGCAGGGCTACGCGTTGTATATCGGCACCATGGAGCCGCGTAAAAATATCCGCGGCCTGCTGCAGGCCTATCAGCTGCTGCCGATGGAGACCCGCATGCGCTACCCGCTGATCCTCAGCGGTTATCGCGGCTGGGAAGACGATGTGCTGTGGCAGTTAGTCGAGCGCGGTACGCGGGAAGGGTGGATCCGTTACCTGGGCTATGTCCCGGATGAAGACCTGCCTTATCTGTACGCGGCGGCCAGAACCTTTGTTTATCCCTCCTTCTATGAGGGATTCGGTTTACCTATTCTTGAAGCGATGTCTTGCGGTGTGCCGGTAGTATGTTCCAATGTCACTTCTTTGCCTGAGGTGGTTGGCGATGCCGGCCTCGTTGCCGATCCTAATGATGTAGACGCGATTAGCGCGCATATTTTGCAGAGCCTGCAGGATGATAGCTGGCGGGAAATCGCCACCGCGCGCGGTCTTGCCCAGGCGAAACAGTTTTCGTGGGAGAACTGTACGACCCAGACCATTAACGCCTATAAATTACTCTAA	MKIIFATEPIKYPLTGIGRYSLELVKRLAVAREIEELKLFHGASFIDQIPQVENKSDTKASNHGRLSAFLRRQPLLIEAYRLLHPRRQAWALRDYKDYIYHGPNFYLPHRLERAVTTFHDISIFTCPEYHPKDRVRYMEKSLHESLDSAKLILTVSDFSRSEIIRLFNYPADRIVTTKLACSSDYIPRSPAECLPVLQKYQLAWQGYALYIGTMEPRKNIRGLLQAYQLLPMETRMRYPLILSGYRGWEDDVLWQLVERGTREGWIRYLGYVPDEDLPYLYAAARTFVYPSFYEGFGLPILEAMSCGVPVVCSNVTSLPEVVGDAGLVADPNDVDAISAHILQSLQDDSWREIATARGLAQAKQFSWENCTTQTINAYKLL	PGPT0023155_9	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023155-wbdB|wbpY|mtfA-K12994	NA	NA
BMS020_01158	2523	mshA_3		D-inositol-3-phosphate glycosyltransferase	TTGCATATTTTGATTGATGTCCAGGGTTACCAGTCGGAAAGTAAATTCCGCGGTATCGGTCGCAGTACCCTGGCCATGAGCCGCGCCATTATTGAAAATGCCGGCGAGCATCGCGTCAGTATTCTGATCAATGGTATGTATCCCATTGACAATATTAATGATGTAAAAATGGCCTATCGGGACCTGCTGGCGGACGAGGATATGTTCATCTTCTCCGCCGTTGCGCCAACGGCCTATTGCAATATTGATAACCACGGCCGTAGCAAAGCCGCCCAGGCGGCCCGCGATATCGCTATCGCCAATATCGCGCCTGATATTGTCTATGTTATTAGCTTCTTCGAAGGCCATGGGGATAGTTATACCGTGTCCATTCCGGCGGACAATGTGCCGTGGAAGACAGTGTGCGTATGCCACGATCTGATCCCGCTGTTAAATAAAGAGCGTTATCTCGGCGATCCGAATTTCCGCGAGTTTTATATGAACAAGCTGGCGGAGTTTGAGCGGGCGGACGCGATCTTCGCTATTTCGCAGTCGGCGGCCCAGGAAGTGATCGAATATACCGACATCGCCAGCGATCGAGTGCTGAACATCTCCTCGGCGGTGGGGGAAGAGTTTGCGGTTATCGACTATTCCGCCGAGCGTATTCAGTCTTTAAAAGACAAATACAGTCTGCCCGATGAGTTTATTCTGACGCTGGCGATGATCGAGCCGCGGAAAAACATCGAAGCGCTTATTCACGCCTACAGCATGCTGCCTGCCGAATTGCAGCAGCGCTATCCGATGGTGCTGGCGTATAAGGTGCACCCGGAGGATCTGGAGCGGATTCTGCGTCTGGCGGAAAGCTATGGCCTGTCACGCAGCCAGCTTATCTTTACCGGCTTCCTGACCGACGACGATCTGATTGCTCTGTACAACCTGTGCAAACTGTTTGTGTTCCCGTCGCTGCATGAAGGTTTCGGCCTGCCGCCGCTGGAAGCGATGCGCTGCGGGGCGGCGACCTTAGGTTCAAACATTACCAGCCTGCCGGAAGTCATTGGCTGGGAAGATGCCATGTTCAATCCGCATGACGTGCAGGATATTCGCCGGGTGATGGAGAAGGCGCTGACCGATGAGGCGTTTTACCGTGAGCTAAAGGCGCATGCTCTGACGCAGTCGGCCAAATTCTCCTGGGCCAACACCGCCCATCTGGCGATCGATGGTTTCACTCGCCTGCTGCAGTCGTCCAAAGAGGCGCATGCCGGGCAGGCGGAAGGCGTGACCGCCTCGCGCATTCAGACGATGCAGAAAATTGATGCGCTGAGCGAAGTCGACCGTCTGGGGCTGGCGTGGGCGGTTGCGCGCAACGGCTTTAAGCGCCATACCCGCAAGCTGCTGGTGGATATTTCGGTTCTGGCGAAGCATGACGCGAAGACCGGGATCCAGCGCGTCTCGCGCAGTATTCTTAGCGAATTACTGAAATCCGGCGTGCCGGGTTATGAGGTTTCCGCCGTCTACTACACCCCTGGCGAGTGTTATCGCTACGCTAACCAATATCTGTCCAGTAACTTCCCGGGCGAATATGGTGCCGACGAGCCGGTGCTGTTCAGCAAAGATGATATTCTGATCGCCACCGATCTGACCGCGCATCTCTTCCCGGAGGTGGTGACGCAAATTGACAGCATGCGCGCCGCCGGGGCGTTCGCCTGCTTCGTGGTGCATGATATTTTGCCATTACGTCGCCCGGAGTGGAGTATCGAAGGCATTCAGCGTGAATTCCCGATCTGGCTGTCCTGCCTCGCAGAGCATGCCGACCGGCTGATCTGCGTCTCTGCCAGCGTCGCCGAGGATGTGAAAGCGTGGATTGCGGAAAATAGCCATTGGGTGAAACCGAATCCGCTGCTGACCGTCAGCAACTTCCATCTGGGCGCCGACCTCGATGCCAGCGTACCTTCCACTGGTATGCCGGACAATGCACAGGCGCTGTTAGCCACGATGGCCGCAGCCCCGTCATTTATCATGGTTGGCACCATGGAGCCGCGCAAAGGCCACGCCCAGACGCTGGCCGCCTTCGAGGAGCTGTGGCGCGAGGGCAAAGAGTACAACTTGTTTATCGTCGGCAAACAGGGCTGGAACGTTGACAGCTTGTGCGAAAAATTACGCCATCATCCGCAGCTGAACAAAAAGCTGTTCTGGCTGCAGAATATCAGCGACGAGTTTTTGGCCGAGCTATACGCTCGTTCACGCGCGCTGATCTTTGCCTCGCAGGGAGAAGGCTTTGGCCTGCCGTTGATTGAAGCGGCGCAGAAAAAGCTGCCAGTGATTATTCGCGACATTCCAGTGTTTAAAGAGATTGCTCAGGAACATGCCTGGTATTTCTCCGGTGAAGCGCCGTCCGACATCGCGAAGGCGGTAGAAGAGTGGTTAGCCCTGTACGAGCAAAACGCGCATCCTCGTTCCGAAAATATCAACTGGTTAACCTGGAAACAGAGCGCGGAATTTCTCCTGAAAAACCTGCCGATTATCGCGCCAGCCGCGAAGCAATAA	MHILIDVQGYQSESKFRGIGRSTLAMSRAIIENAGEHRVSILINGMYPIDNINDVKMAYRDLLADEDMFIFSAVAPTAYCNIDNHGRSKAAQAARDIAIANIAPDIVYVISFFEGHGDSYTVSIPADNVPWKTVCVCHDLIPLLNKERYLGDPNFREFYMNKLAEFERADAIFAISQSAAQEVIEYTDIASDRVLNISSAVGEEFAVIDYSAERIQSLKDKYSLPDEFILTLAMIEPRKNIEALIHAYSMLPAELQQRYPMVLAYKVHPEDLERILRLAESYGLSRSQLIFTGFLTDDDLIALYNLCKLFVFPSLHEGFGLPPLEAMRCGAATLGSNITSLPEVIGWEDAMFNPHDVQDIRRVMEKALTDEAFYRELKAHALTQSAKFSWANTAHLAIDGFTRLLQSSKEAHAGQAEGVTASRIQTMQKIDALSEVDRLGLAWAVARNGFKRHTRKLLVDISVLAKHDAKTGIQRVSRSILSELLKSGVPGYEVSAVYYTPGECYRYANQYLSSNFPGEYGADEPVLFSKDDILIATDLTAHLFPEVVTQIDSMRAAGAFACFVVHDILPLRRPEWSIEGIQREFPIWLSCLAEHADRLICVSASVAEDVKAWIAENSHWVKPNPLLTVSNFHLGADLDASVPSTGMPDNAQALLATMAAAPSFIMVGTMEPRKGHAQTLAAFEELWREGKEYNLFIVGKQGWNVDSLCEKLRHHPQLNKKLFWLQNISDEFLAELYARSRALIFASQGEGFGLPLIEAAQKKLPVIIRDIPVFKEIAQEHAWYFSGEAPSDIAKAVEEWLALYEQNAHPRSENINWLTWKQSAEFLLKNLPIIAPAAKQ	PGPT0023150_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023150-wbdA|wbpX|mtfA-K12993	NA	NA
BMS020_01159	2127	wbdD		O-antigen chain terminator bifunctional methyltransferase/kinase WbdD	ATGACTAAAAACTTAAACACGCTGGTTAGCGAATTACCTGAGATTTATCAAACTATTTTTGGCCATCCCGAGTGGGATGGCGACGCCGCTCGCGATTGTAATCAACGTCTCGATTTGATTACCGAACAGTACGATAACTTATCCCGCGCGCTGGGCCGCCCGCTTAAAGTTCTCGATCTGGGCTGCGCTCAGGGCTTTTTCAGCCTGAGCCTGGCAAGCAAAGGCGCGACTATCGTTGGTATCGATTTCCAGCAGGAAAATATTAACGTGTGCCGCGCGCTGGCCGAAGAAAGCCCCGACTTTGCCGCCGAATTCCGGGTAGGCAGAATTGAAGAGGTGATCGCCGCGCTGGAAGAGGGCGAGTTTGATCTGGCCATTGGCTTAAGCGTGTTTCACCATATTGTTCATCTTCATGGTATCGATGAAGTTAAACGTCTGCTCTCGCGCCTGGCGGATGTCACCCAGGCGGTGATCCTTGAGCTGGCGGTGAAAGAAGAACCGCTCTACTGGGGCGTTTCTCAGCCGGACGATCCGCGCGAACTGATTGAGCAGTGCGCGTTTTATCGCCTGATTGGCGAGTTTGATACCCATTTATCCCCCGTTCCGCGCCCGATGTACCTGGTCAGCAACCACCGGGTGCTGCTCAACGATTTTAATCAGCCGTTCCAGCACTGGCAAAATCAGCCCTATGCCGGGGCCGGTCTGGCGCATAAGCGCAGCCGTCGCTACTTCTTTGGCGAAGATTATGTGTGCAAGTTTTTCTATTACGACATGCCCCACGGCATCCTGACGGCGGAAGAGAGCCAGCGTAATAAACATGAACTGCATAATGAAATAAAGTTCCTGGCGCAACCGCCAGCGGGCTTTGACGCGCCAGCATTACTGGCCCACGGCGAAAACGCCCAGTCTGGCTGGCTGGTGATGGAAAAGCTCCCGGGTAGCTTGCTGAGCGATATGCTGGCGGCTGGGGAAGAGATCGATCGTGAAAAAATCCTTGGCACCTTGCTCCGTTCCTTAGCGGCGCTGGAGAAGCAAGGGTTCTGGCATGACGATGTGCGTCCATGGAACGTGATGGTCGATGCCCGGCAGCATGCCCGTTTAATCGACTTCGGTTCTATCGTCACCACCCCACAGGACTGCAGCTGGCCGACAAACCTTGTCCAGTCGTTTTTCGTGTTTGTGAACGAGCTGTTTGCCGAAAACAAAAACATAAACGGTTTCTGGCGCTCGGCGCCCGTGCATCCGTTCAACCTGCCGCAGCCGTGGTCAAACTGGCTGTATGCGGTCTGGCAGGAGCCGGTTGACAGCTGGAACTTTGCCCTGCTGTTAGCGCTGTTTGACAAGAAAGCGAAACTGCCGTCAGCTGAACAGCAGCGTGGGGCGACGGAGCAGTGGATCATCGCTCAGGAGACGGTGCTGCTGGAGCTCCAGTCCCGGGTGCGCAATGAAAGCGCCGGCTCGGAGGCGATGCGTGGTGAAATCCATGCCCTGGAGCAACAGATCGTTCAGCTGCAGGCGGCACAGGATGCGTTAGTCGAGAAAGCGCAACAGCCAGTGGAAGTCAGCCATGAGCTGAGCTGGCTGACTGAGAATATGGCGCAGCTGACCGCGCTGCTGGAGTCGGCACAAGCGCACGCCCAGGCTGACATTCAGCCCGAGCTGCCGCCGGAAACCGCTGAGCTCCTCCAGCGACTGGAAGCCGCTAACCGGGAGATTCACCATTTACATAACGAAAACCAGCAGCTTCGCCAGGAAATTGAAAAAATCCATCGCAGCCGTTCCTGGAGAATGACCAAGGGTTATCGTTATCTTGGACTGCAGATCCATTTGCTGAGACAGTATGGTTTCGTGCAGCGTTGTAAACATTTTATTAAACGCGTCCTGCGGTTTGTTTTCTCGTTTATGAGAAAACATCCGAAGGTAAAACATACCGCGGTAAATGGGTTACATAAGCTGGGCCTTTATCAGTCGGCCTACCGTTTGTATCGTCGTATGAATCCGCTGCCGCACAGCCAGTATCAGGCTGATGCGCAAATTTTATCGCAGACTGAGCTGCAAGTGATGCATCCGGAGCTTTTACCTCCGGAGGTTTATGAAATTTATCTCAAACTAACGAAAAATAAATAA	MTKNLNTLVSELPEIYQTIFGHPEWDGDAARDCNQRLDLITEQYDNLSRALGRPLKVLDLGCAQGFFSLSLASKGATIVGIDFQQENINVCRALAEESPDFAAEFRVGRIEEVIAALEEGEFDLAIGLSVFHHIVHLHGIDEVKRLLSRLADVTQAVILELAVKEEPLYWGVSQPDDPRELIEQCAFYRLIGEFDTHLSPVPRPMYLVSNHRVLLNDFNQPFQHWQNQPYAGAGLAHKRSRRYFFGEDYVCKFFYYDMPHGILTAEESQRNKHELHNEIKFLAQPPAGFDAPALLAHGENAQSGWLVMEKLPGSLLSDMLAAGEEIDREKILGTLLRSLAALEKQGFWHDDVRPWNVMVDARQHARLIDFGSIVTTPQDCSWPTNLVQSFFVFVNELFAENKNINGFWRSAPVHPFNLPQPWSNWLYAVWQEPVDSWNFALLLALFDKKAKLPSAEQQRGATEQWIIAQETVLLELQSRVRNESAGSEAMRGEIHALEQQIVQLQAAQDALVEKAQQPVEVSHELSWLTENMAQLTALLESAQAHAQADIQPELPPETAELLQRLEAANREIHHLHNENQQLRQEIEKIHRSRSWRMTKGYRYLGLQIHLLRQYGFVQRCKHFIKRVLRFVFSFMRKHPKVKHTAVNGLHKLGLYQSAYRLYRRMNPLPHSQYQADAQILSQTELQVMHPELLPPEVYEIYLKLTKNK	PGPT0023165_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023165-wbdD|wbbD-K18827	NA	NA
BMS020_01160	1296	btuD_5		Vitamin B12 import ATP-binding protein BtuD	ATGAGTATCAAAGTTCAGCACGTCGGCAAGGCGTATAAATATTACCCATCCAAATGGAACCGGGTCATTGAGAAACTGCTGCCGGGCGATAAGCCGCGGCACAGCAAAAAATGGGTGTTAAAAGACATCAATTTCAGCATTGAACCCGGTGAAGCAGTCGGTATTGTCGGGGTGAACGGCGCAGGTAAAAGTACGTTGCTGAAGCTGCTGACCGGCACCACCCAGCCCACCAAAGGCAGCATTGAGATCCACGGGCGCGTCGCTGCGCTGCTGGAGCTGGGCATGGGGTTCCATCCCGACTTTACCGGCCGGCAGAACGTGTATATGTCCGGGCTGATGATGGGCCTGAGCCGCGAAGAGATCGAGCGCTTAATGCCTGAGATCGAAGCCTTTGCGGATATCGGCGACTACATTGAAGAGCCGGTGCGCATCTATTCCAGCGGCATGCAAATGCGCCTGGCGTTCGCCGTGGCCACCGCTTCTCGCCCGGATATTCTGATCGTCGATGAAGCGCTCTCCGTTGGCGACTCCCGCTTTCAGGCGAAGTGCTACGCCCGCATTGCGGACTTCAAAAAGCAGGGCACCACGCTGCTGCTGGTTTCCCACAGCGCCGGGGATATCGTCAAACACTGCGACCGCGCCATCTTCCTCAAAAATGGTGACATCTGCATGGACGGCACCGCCCGTGACGTGACCAACCGTTACCTGGATGAGCTGTTTGGCAAACCTGATAAAGACAGCGCCAAGAAAAGCGAAACGGCTACCTCGTCAGCCAGTGGCGAAAGCCAGATGTCGCTCGATGAGATTGAAGATGTGTACCACACGCGACCAGGCTACCGTCCGGAAGAGTACCGCTGGGGGCAGGGGGGCGCGAAAATCATCGATTACCATATTCAGAGCGCCGGGGTTGATTTTCCGCCCTCGCTGACGGGCAATCAGCAGACCGATTTTCTGATGAAGGTCGTGTTTGAATACGATTTTGATTGCGTGGTGCCAGGCATCCTGATTAAGACCCTCGATGGCTTATTCCTCTACGGAACCAACTCCTTCCTCGCCTCAGAAGGGCGCGAGAATATTTCGGTTTCCCGCGGCGATGTTCGGGTGTTTAAATTTAGCCTTCCGGTGGATTTAAACAGTGGCGATTACCTGCTGTCATTTGGTATCTCTGCCGGCAACCCGCAGACGGATATGACGCCGCTGGACAGACGTTACGACTCCATTATTTTACATGTGACCAAGAGCATGGATTTTTGGGGTGTCATCGATCTTAAGTCGTCCTTTACTAGCTACCAATGA	MSIKVQHVGKAYKYYPSKWNRVIEKLLPGDKPRHSKKWVLKDINFSIEPGEAVGIVGVNGAGKSTLLKLLTGTTQPTKGSIEIHGRVAALLELGMGFHPDFTGRQNVYMSGLMMGLSREEIERLMPEIEAFADIGDYIEEPVRIYSSGMQMRLAFAVATASRPDILIVDEALSVGDSRFQAKCYARIADFKKQGTTLLLVSHSAGDIVKHCDRAIFLKNGDICMDGTARDVTNRYLDELFGKPDKDSAKKSETATSSASGESQMSLDEIEDVYHTRPGYRPEEYRWGQGGAKIIDYHIQSAGVDFPPSLTGNQQTDFLMKVVFEYDFDCVVPGILIKTLDGLFLYGTNSFLASEGRENISVSRGDVRVFKFSLPVDLNSGDYLLSFGISAGNPQTDMTPLDRRYDSIILHVTKSMDFWGVIDLKSSFTSYQ	PGPT0023305_491	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
BMS020_01161	786			hypothetical protein	ATGTTTTCAGCGATCTATCGCTACCGTGGCTTTATTATTGACAGCGTTAAACGGGACTTTCAGTCCCGTTACCAGACCAGCTTTTTAGGCGCGGCATGGCTGATCTTGCAGCCGATCGCCATGATTTCCGTCTATACATTAATCTTTTCTGAATTAATGCGTGCCCGCCTGGCGGGCATGGACGGCCCTTTTGCCTATAGCATCTACCTCTGTTCCGGGGTGTTAACCTGGGGGCTGTTCACGGAAACGCTCAACAATCTGGTCAACGTTTTTTTGACCAACGCCAACATTCTTAAAAAGCTCAGCTTTCCGCGGATCTGTTTACCGATCATCGTCACCGCTTCGGCGTTCATTAACTTTCTGATCATTTTCGGTCTGTTTGTGCTGTTTCTGATCGTCACGGGGAATTTCCCGGGCATGATTTTCTTTGAAATCATTCCGGTGCTGATCGTCCAGATGCTGTTCACCCTGGGCCTGGGGATTATCCTCGGCGTGCTGAACGTTTTTGTCCGCGACATCGGCCAGTTCGTCAATATTCTGCTGCAGTTTTGGTTCTGGTTTACGCCTATTGTTTACGTGTCCAAAACGCTGCCGGAATGGGTATCAGGCCTGCTGGCCTATAACCCGATGGCGACCATTATCGGTTCCTACCAGAACGTGATGCTCTATCACCAGAGCCCAGACTGGATGGCGCTGCTTCCGGTCACGGTGGTGTCGGTCATTCTGTTTTTATTTGCCTGGCGTTTATTTAAAAAACATGCCGCTGATATTGTGGACGAGATTTAA	MFSAIYRYRGFIIDSVKRDFQSRYQTSFLGAAWLILQPIAMISVYTLIFSELMRARLAGMDGPFAYSIYLCSGVLTWGLFTETLNNLVNVFLTNANILKKLSFPRICLPIIVTASAFINFLIIFGLFVLFLIVTGNFPGMIFFEIIPVLIVQMLFTLGLGIILGVLNVFVRDIGQFVNILLQFWFWFTPIVYVSKTLPEWVSGLLAYNPMATIIGSYQNVMLYHQSPDWMALLPVTVVSVILFLFAWRLFKKHAADIVDEI	PGPT0023304_1730	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
BMS020_01162	1383	algC_1	COG1109	Phosphomannomutase/phosphoglucomutase	ATGACACAGTTAACATGCTTTAAGGCTTATGACATCCGTGGTGAACTGGGCGAGGAGCTGAACGAGGACATCGCCTACCGTATCGGCCGCGCCTACGGCGAATTTCTGAAACCCGGGAAGATAGTGGTGGGGGGCGATGTGCGCCTCACCAGCGAGTCGCTGAAGCTGGCGCTGGCCCGCGGGCTGATGGACGCCGGCACCGACGTGCTGGATATCGGCCTGAGCGGTACCGAGGAGATTTACTTCGCCACTTTCCACCTCGGGGTGGACGGCGGTATCGAGGTGACGGCGAGCCACAACCCGATGAACTACAACGGCATGAAGCTGGTACGCGAGAACGCGAAGCCCATCAGCGGCGACACCGGCCTGCGGGATATCCAGCGCCTGGCGGAGGAAAACCAGTTCCCGCCGGTGGACCCGGCGCGTCGCGGAACCCTGCGCCAGATTTCGGTGCTGAAGGAGTACGTCGACCACCTGATGGGCTACGTGGACCTGGCGAACTTCACCCGTCCGCTGAAGCTGGTGGTGAACTCCGGCAACGGGGCGGCGGGGCACGTGATTGATGAGGTGGAGAAACGCTTTGCGGCGGCCGGGGCGCCGGTGACCTTTATCAAGGTGCATCACCAGCCGGACGGCCATTTCCCGAACGGTATCCCGAACCCGCTGCTGCCGGAGTGCCGCCAGGACACCGCCGACGCGGTGCGTGCGCATCAGGCGGACATGGGGATCGCCTTTGACGGCGACTTCGACCGCTGCTTCCTGTTCGATGACGAGGCGTCGTTTATCGAGGGGTACTACATTGTCGGCCTGCTGGCGGAAGCGTTCCTGCAGAAGCAGCCGGGGGCGAAAATCATTCACGACCCGCGCCTGACGTGGAACACGGTGGACATCGTGACCCGCAGCGGCGGCCAGCCGGTGATGTCGAAGACCGGGCATGCGTTCATCAAGGAGCGGATGCGCCAGGAAGACGCCATCTACGGCGGGGAGATGAGCGCGCACCACTACTTCCGTGACTTCGCCTACTGCGACAGCGGGATGATCCCGTGGCTGCTGGTGGCGGAGCTGCTGTGCCTGAAGAACAGCTCGCTGAAATCGCTGGTGGAGGACCGCCAGGCGGCGTTCCCGGCGTCGGGGGAGATCAACCGCAAGCTGGGTAATGCGGCGGAGGCGATCGCGCGCATCCGGGCGCAGTATGAGCCGGCGGCCGCACACATCGACACAACGGACGGTATCAGTATTGAATACCCTGAGTGGCGCTTTAACCTGCGCACGTCCAACACGGAGCCGGTGGTGCGTCTGAACGTTGAGTCCAGAGCGGATACGGCGTTGATGAACGAGAAAACCGCCGAGCTGCTCAACCTGTTAAAAGAGGAATCGCTTTGA	MTQLTCFKAYDIRGELGEELNEDIAYRIGRAYGEFLKPGKIVVGGDVRLTSESLKLALARGLMDAGTDVLDIGLSGTEEIYFATFHLGVDGGIEVTASHNPMNYNGMKLVRENAKPISGDTGLRDIQRLAEENQFPPVDPARRGTLRQISVLKEYVDHLMGYVDLANFTRPLKLVVNSGNGAAGHVIDEVEKRFAAAGAPVTFIKVHHQPDGHFPNGIPNPLLPECRQDTADAVRAHQADMGIAFDGDFDRCFLFDDEASFIEGYYIVGLLAEAFLQKQPGAKIIHDPRLTWNTVDIVTRSGGQPVMSKTGHAFIKERMRQEDAIYGGEMSAHHYFRDFAYCDSGMIPWLLVAELLCLKNSSLKSLVEDRQAAFPASGEINRKLGNAAEAIARIRAQYEPAAAHIDTTDGISIEYPEWRFNLRTSNTEPVVRLNVESRADTALMNEKTAELLNLLKEESL	PGPT0017865_2353	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_RELATED_PROTEINS,PGPT0017865-manB|yhxB-K01840	NA	NA
BMS020_01163	1416	manC1_1	COG0662	Mannose-1-phosphate guanylyltransferase 1	ATGTTACTTCCTGTAATTATGGCTGGTGGTACCGGCAGTCGTCTCTGGCCGATGTCTCGCGAGCTTTACCCGAAACAGTTCCTCCGGCTGTACGGGCAGAACTCCATGCTGCAGGAAACCATCACCCGACTCTCGGGCCTTGAAATCCATGAACCGATGGTCATCTGTAACGAAGAGCACCGCTTCCTGGTGGCCGAACAGCTGCGCCAGCTCAACAAGCTGTCCAACAACATTATTCTCGAGCCGGTCGGGCGCAACACCGCCCCGGCCATTGCTCTGGCGGCCCTTCAGGCCACCCGCCACGGTGACGACCCGCTGATGCTGGTCCTCGCCGCCGACCATATCATCAATAACCAGCCGGTCTTCCACGACGCCATCCGCGTCGCCGAGCAGTATGCCGATGAAGGCCACCTGGTCACCTTCGGTATCGTGCCGAACGCCCCGGAAACCGGCTACGGCTACATCCAGCGCGGCGTGGCCCTCACCGACAGCGCCCACACCCCGTACCAGGTGGCCCGCTTCGTGGAGAAGCCGGACCGCGAGCGCGCTGAGGCCTACCTCGCCTCCGGGGAGTACTACTGGAACAGCGGCATGTTTATGTTCCGCGCCAAAAAATACCTCTCCGAGCTGGCCAAATTCCGCCCGGATATCCTCGAAGCCTGCCAGGCCGCGGTGAACGCCGCCGACAACGGCAGCGACTTCATCAGCATTCCGCATGACATTTTCTGCGAGTGCCCGGACGAGTCCGTGGACTACGCGGTGATGGAGAAAACCGCCGACGCGGTGGTGGTCGGTCTCGATGCCGACTGGAGCGACGTCGGCTCCTGGTCCGCCCTGTGGGAGGTCAGCCCGAAAGATGAGCAGGGCAACGTCCTCAGCGGCGACGCGTGGGTGCATAACAGCGAAAACTGCTACATCAACAGCGACGAGAAGCTGGTGGCGGCCATCGGCGTGGAGAACCTGGTGATTGTCAGCACCAAGGACGCCGTGCTGGTGATGAACCGCGAGCGTTCCCAGGACGTGAAGAAGGCGGTCGAGTTCCTCAAGCAGAACCAGCGCAGCGAGTACAAGCGCCACCGCGAGATTTACCGTCCCTGGGGCCGCTGCGACGTGGTGGTCCAGACCCCGCGTTTCAACGTCAACCGTATCACCGTGAAACCGGGCGGCGCCTTCTCGATGCAGATGCACCACCACCGCGCCGAGCACTGGGTCATTCTCGCCGGCACCGGTCAGGTGACGGTCAACGGCAAGCAGTTCCTGCTGACCGAGAACCAGTCCACCTTTATTCCGATTGGCGCCGAGCACAGCCTGGAAAACCCGGGCCGCATTCCGCTGGAAGTGCTGGAGATCCAGTCGGGCTCGTACCTCGGCGAGGACGACATTATTCGTATTAAAGACCAGTATGGTCGTTGCTAA	MLLPVIMAGGTGSRLWPMSRELYPKQFLRLYGQNSMLQETITRLSGLEIHEPMVICNEEHRFLVAEQLRQLNKLSNNIILEPVGRNTAPAIALAALQATRHGDDPLMLVLAADHIINNQPVFHDAIRVAEQYADEGHLVTFGIVPNAPETGYGYIQRGVALTDSAHTPYQVARFVEKPDRERAEAYLASGEYYWNSGMFMFRAKKYLSELAKFRPDILEACQAAVNAADNGSDFISIPHDIFCECPDESVDYAVMEKTADAVVVGLDADWSDVGSWSALWEVSPKDEQGNVLSGDAWVHNSENCYINSDEKLVAAIGVENLVIVSTKDAVLVMNRERSQDVKKAVEFLKQNQRSEYKRHREIYRPWGRCDVVVQTPRFNVNRITVKPGGAFSMQMHHHRAEHWVILAGTGQVTVNGKQFLLTENQSTFIPIGAEHSLENPGRIPLEVLEIQSGSYLGEDDIIRIKDQYGRC	PGPT0022660_384	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
BMS020_01164	1005	wbgU		UDP-N-acetylglucosamine 4-epimerase	ATGAAGTTTTTGGTCACTGGTGCCGCAGGTTTTATCGGCTTTCATATCGCGCAGCGCCTGCTGAATGAAGGGCATGACGTTGTCGGGATCGACAACATGAACGACTATTATGACGTCAGCCTGAAGCAGGCCCGTCTGGATCGCCTGTCCTCTCCGGCATTCCATTTCCAGCAGCTGGATCTTGCCGACCGTGAGGGTATGGCGACGCTGTTCGCCGCAGAACAGTTTGACCGCGTGATCCACCTGGCGGCCCAGGCCGGCGTGCGCTATTCGCTGGAAAACCCGTATGCCTACGCCGACGCAAACCTGATGGGGTACCTGAATATTCTGGAAGGCTGCCGCCATACCAAAGTGAAACACCTGGTATACGCCTCCTCCAGTTCTGTTTACGGCCTTAACCGCAAAATGCCGTTCTCCACGGAGGATTCCGTCGATCATCCGGTTTCCCTGTACGCCGCCACCAAGAAAGCCAATGAGCTGATGGCGCATACCTATTCCCATCTGTACGGCATCCCGACCACCGGGCTGCGCTTCTTTACGGTCTATGGTCCGTGGGGCCGCCCGGATATGGCGCTGTTCAAGTTCACGAAAGCGATGCTGGCAGGGAAAAGTATCGACGTTTACAACTACGGCAAGATGAAGCGCGATTTCACCTATATCGACGATATCGTCGAGGCGGTGGTGCGCGTTCAGGATGTGATCCCGCAGGCCAATGCCGACTGGACCGTTGAGAATGGTTCCCCGGCCACCAGCTCGGCGCCGTACCGGGTCTATAACATTGGCAACAGCTCGCCGGTGGAACTGATGGATTATATCACCGCCCTGGAAGAAGCCCTGGGGATGGAAGCGAAGAAGAATATGATGCCGATTCAGCCGGGCGATGTGCTGGACACCAGTGCAGACACCCAGCCGCTGTATGACCTGGTGGGCTTTAAGCCACAGACGTCAGTGAAGGAAGGCGTGAAGAACTTCGTGGAGTGGTATAAGGATTACTATCAGATCTAA	MKFLVTGAAGFIGFHIAQRLLNEGHDVVGIDNMNDYYDVSLKQARLDRLSSPAFHFQQLDLADREGMATLFAAEQFDRVIHLAAQAGVRYSLENPYAYADANLMGYLNILEGCRHTKVKHLVYASSSSVYGLNRKMPFSTEDSVDHPVSLYAATKKANELMAHTYSHLYGIPTTGLRFFTVYGPWGRPDMALFKFTKAMLAGKSIDVYNYGKMKRDFTYIDDIVEAVVRVQDVIPQANADWTVENGSPATSSAPYRVYNIGNSSPVELMDYITALEEALGMEAKKNMMPIQPGDVLDTSADTQPLYDLVGFKPQTSVKEGVKNFVEWYKDYYQI	PGPT0019020_2099	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-UDP-GALACTOSE-GLUCURONATE_POOL_MODIFICATION,PGPT0019020-cap1J|wbgU-K08679	NA	NA
BMS020_01165	1167	ugd_1	COG1004	UDP-glucose 6-dehydrogenase	ATGAAAATTACTATTTCCGGTACAGGTTATGTTGGTTTATCGAACGGTATCCTGATTGCGCAAAACCACGAAGTGGTGGCCCTGGATATCGTACAGGCCAAAGTGGATATGCTTAACCAGAAGATCTCTCCGATTGTCGATAAAGAGATTCAGGAATATCTGGCAGAAAAACCGTTAAACTTCCGTGCCACCACGGATAAGCACGACGCATACCGTAATGCCGACTACGTGATCATTGCGACGCCGACCGATTACGATCCCAAAACCAACTACTTCAACACCTCTACGGTGGAAGCGGTTATTCGCGATGTCACAGAGATCAACCCGAACGCGGTGATGATCATTAAATCGACCATCCCGGTGGGGTTCACCCGCGACATCAAAGAACGTTTAGGGATTGATAATGTTATTTTCTCTCCTGAGTTCCTGCGTGAAGGTCGTGCGCTGTACGACAACCTGCACCCGTCGCGTATTGTCATCGGTGAGCGCTCTGCGCGTGCCGAACGTTTCGCAGACCTGCTGAAAGAAGGTGCGATCAAGCAGGATATCCCGACCCTGTTTACCGACTCCACCGAAGCGGAAGCGATCAAACTGTTCGCTAACACCTATCTGGCGCTGCGCGTTGCCTATTTCAACGAACTCGACAGCTATGCTGAAAGCCAGGGGCTGAACAGCAAGCAGATTATCGAAGGGGTATGCCTGGATCCTCGTATCGGCAACCACTACAACAACCCGTCCTTTGGCTACGGCGGCTACTGTCTGCCGAAAGATACCAAGCAGCTGCTGGCGAACTACGAATCGGTCCCGAACAACATTATCGCGGCTATCGTCGATGCCAACCGTACCCGTAAAGACTTTATTGCGGATTCTATTCTCGCCCGTAAGCCAAAAGTGGTGGGTGTGTATCGCCTGATCATGAAGAGCGGGTCAGACAACTTCCGTGCCTCTTCTATTCAGGGCATTATGAAGCGCATCAAGGCAAAAGGTATCCCGGTTATTATTTATGAACCGGTGATGCAGGAAGATGAGTTCTTCAACTCCCGCGTCGTGCGCGACCTGGATGCCTTCAAACAAGAGGCGGATGTGATCATTTCTAACCGTATGGCGGAAGAGCTGGCGGATGTCGCGGATAAGGTTTATACCCGCGATCTGTTTGGTAACGATTAA	MKITISGTGYVGLSNGILIAQNHEVVALDIVQAKVDMLNQKISPIVDKEIQEYLAEKPLNFRATTDKHDAYRNADYVIIATPTDYDPKTNYFNTSTVEAVIRDVTEINPNAVMIIKSTIPVGFTRDIKERLGIDNVIFSPEFLREGRALYDNLHPSRIVIGERSARAERFADLLKEGAIKQDIPTLFTDSTEAEAIKLFANTYLALRVAYFNELDSYAESQGLNSKQIIEGVCLDPRIGNHYNNPSFGYGGYCLPKDTKQLLANYESVPNNIIAAIVDANRTRKDFIADSILARKPKVVGVYRLIMKSGSDNFRASSIQGIMKRIKAKGIPVIIYEPVMQEDEFFNSRVVRDLDAFKQEADVIISNRMAEELADVADKVYTRDLFGND	PGPT0017855_5404	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GLUCURONATE_MODIFICATION,PGPT0017855-ugd|tuaD-K00012	NA	NA
BMS020_01166	555	rfbC_1	COG1898	dTDP-4-dehydrorhamnose 3,5-epimerase	ATGAACATTATTAAAACAGATATTCCTGACGTGCTGATTTTTGAACCGCGCGTGTTTGGTGATGCGCGAGGCTTCTTCTTTGAGAGCTTCAGCAGCAAGGTGTTTAATGAAGCGGTGGGTCGCCAGGTGGATTTCGTTCAGGATAACCACTCCCAGTCCCAGAAAGGCGTATTACGCGGGCTGCACTATCAGCTGGATCCGCACGCTCAGGGCAAACTGGTCCGCTGTGTGGAAGGCGAGGTATTTGACGTGGCGGTGGATATCCGTCGTTCATCGCCAACCTTTGGCAAATGGGTGGGAGCGGTGCTCAGCGCAGAGAATAAACGTCAGCTGTGGATCCCGGAAGGGTTCGCCCACGGGTTTATGGCGCTGAGCGAAACGGTGCAGTTTGTCTACAAGGCGACGAATTACTACGCGCCGCAGTCAGAAAGGAGCATCATCTGGAACGATCCGGAGATAGGGATTGACTGGCCGGCGCTGAGCGACTGCGCACTGTCGCTGTCGGAGAAAGATCTACAGGCACATACTCTGGCCACCGCAGAAGTATATAAATAA	MNIIKTDIPDVLIFEPRVFGDARGFFFESFSSKVFNEAVGRQVDFVQDNHSQSQKGVLRGLHYQLDPHAQGKLVRCVEGEVFDVAVDIRRSSPTFGKWVGAVLSAENKRQLWIPEGFAHGFMALSETVQFVYKATNYYAPQSERSIIWNDPEIGIDWPALSDCALSLSEKDLQAHTLATAEVYK	PGPT0014300_2066	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
BMS020_01167	891	rfbD_1	COG1091	dTDP-4-dehydrorhamnose reductase	ATGAAGATTTTACTGATTGGCAAGAATGGCCAGGTGGGCTGGGAGCTCCAGCGTTCACTGTCCACCCTCGGCGACGTGGTCGCGGTGGACTACTTTGATAAAGAGCTGTGCGGCGATCTGACGAATCTGGAAGGCATCGCGCAGACCGTGCGTACCGTCCGCCCGGACGTGGTGGTGAATGCCGCCGCGCACACGGCGGTGGACAAGGCCGAAAGCGAGCGGGAGCTCTCCGACCTGCTGAACGACAAAGGGGTGGCGGTGCTGGCGGCAGAGTCGGCGAAGCTGGGTGCCCTGATGGTGCACTATTCCACGGACTATGTGTTCGACGGCGCCGGCAGCCATTATCGCCGGGAAGATGAAGCGACCGGCCCGCTGAACGTTTATGGCGAAACCAAGCGTGCCGGTGAACTGGCGCTGGAGCAGGGCAACCCGCGTCATCTGATTTTCCGTACCAGCTGGGTATATGCCACCCGCGGCGCCAACTTTGCCAAAACCATGCTCCGCCTGGCGGGTGAGAAAGAGACGCTCTCCATCATTGACGACCAGCACGGGGCGCCCACCGGCGCTGAGCTGCTGGCAGACTGCACGGCGACGGCAATCCGTGAAACGCTGCGTAATCCGGCCCTGGCCGGTACCTATCATCTGGTGGCCAGCGGCGAGACCAGCTGGTGCGACTACGCCCGCTATGTGTTTGAGGTGGCGAAAGCCCATGGTGCCGAGCTGGCGGTTCAGGAAGTGAAGGGCATTCCGACGACGGCCTATCCGACGCCGGCGAAGCGTCCGCTCAACTCACGCCTGTCGAATGAAAAATTCCAGCAGGCATTTGGGGTGACTCTCCCGGACTGGCGTCAGGGTGTGGCTCGCGTGGTAACGGAAGTCCTGGGCAAATAA	MKILLIGKNGQVGWELQRSLSTLGDVVAVDYFDKELCGDLTNLEGIAQTVRTVRPDVVVNAAAHTAVDKAESERELSDLLNDKGVAVLAAESAKLGALMVHYSTDYVFDGAGSHYRREDEATGPLNVYGETKRAGELALEQGNPRHLIFRTSWVYATRGANFAKTMLRLAGEKETLSIIDDQHGAPTGAELLADCTATAIRETLRNPALAGTYHLVASGETSWCDYARYVFEVAKAHGAELAVQEVKGIPTTAYPTPAKRPLNSRLSNEKFQQAFGVTLPDWRQGVARVVTEVLGK	PGPT0022630_1680	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
BMS020_01168	870	rffH_1	COG1209	Glucose-1-phosphate thymidylyltransferase 2	ATGAAAGGTATTGTTCTGGCCGGCGGCTCCGGCACGCGTTTATATCCCATCACTCAGGGCGTCTCCAAGCAGCTGCTGCCTATCTACGACAAGCCGATGATTTTCTACCCGGTGTCCGTCCTGATGCTGGCGGGGATTCGAGACATCCTGATCATCTCTACACCAGACGACATGCCTTCCTTCCAGCGCCTGCTGGGTGACGGGTCGCAGTTCGGGGTGAACTTCAGCTACGCCGTCCAGCCGTCGCCGGACGGCCTGGCACAGGCCTTTATCATTGGCGAGAAGTTTATCGGTAACGATGCCTGCGCCTTGGTGCTGGGGGATAATATCTACTTTGGCCAGAGCTTTGGTAAAAAACTGGAGGCGGCAGCGGCGAAGACTTCCGGTGCCACGGTGTTTGGTTATCAGGTGCTGGATCCGGAGCGCTTCGGGGTGGTGGAGTTCGACGAGAACTTTAAGGCACTGTCCATCGAGGAGAAACCGCTGAAGCCGAAATCGGACTGGGCGGTGACCGGGCTCTACTTCTACGACAACAACGTGGTGGAGATGGCGAAGGACGTGAAGCCTTCTGAGCGCGGCGAGCTGGAGATCACCACCCTGAACCAGATGTATCTGGAGCAAGGTGACCTGCATGTTGAACTGCTGGGGCGCGGTTTTGCCTGGCTGGACACGGGCACCCACGATAGCCTGATGGACGCATCACAGTTTATTCACACCATTGAGAAGCGCCAGGGGATGAAGGTTGCCTGCCTGGAAGAGATTGGTTACCGCAATCAGTGGCTGTCGGCGGAAGGGGTGGCGGCTCAGGCCGAACGCCTGAAGAAAACCGAGTACGGTGCTTATCTGAAGCGCCTGCTGAACGAGCGTTAA	MKGIVLAGGSGTRLYPITQGVSKQLLPIYDKPMIFYPVSVLMLAGIRDILIISTPDDMPSFQRLLGDGSQFGVNFSYAVQPSPDGLAQAFIIGEKFIGNDACALVLGDNIYFGQSFGKKLEAAAAKTSGATVFGYQVLDPERFGVVEFDENFKALSIEEKPLKPKSDWAVTGLYFYDNNVVEMAKDVKPSERGELEITTLNQMYLEQGDLHVELLGRGFAWLDTGTHDSLMDASQFIHTIEKRQGMKVACLEEIGYRNQWLSAEGVAAQAERLKKTEYGAYLKRLLNER	PGPT0022600_3750	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
BMS020_01169	1065	rffG_1	COG1088	dTDP-glucose 4,6-dehydratase 2	ATGAAGATTCTTGTTACTGGTGGTGCAGGCTTTATCGGTTCTGCTGTGGTTCGTCATATCATTGAAAATACCCGGGATGAAGTCCGCGTGGTGGACTGCCTGACCTATGCCGGCAACCTCGAATCCCTGGCGCCGGTGGTTGGGAGCGAACGCTACTCGTTTTCCCAGACTGATATCACGGATGCCGCTGCCGTGGCGGCCCAGTTTAGCGAGTTCCGCCCGGATATCGTGATGCACCTGGCGGCAGAAAGTCATGTGGATCGCTCCATTGATGGCCCGGCCGCCTTCATCCAGACCAACGTGATCGGTACCTTCACTCTGCTGGAGGCGGCCCGTCACTACTGGTCTGAGCTTGGGGAAGCGCAGAAGCAGGCCTTCCGCTTCCATCATATCTCCACTGATGAGGTGTACGGCGATCTCCATGGCACCGATGACCTGTTCACCGAAGAAACCCCGTACGCGCCGAGCAGCCCGTACTCCGCCTCCAAAGCGGGCAGCGACCATCTGGTTCGCGCCTGGAATCGCACCTACGGTCTGCCGGTGGTGGTGACTAACTGCTCCAACAACTATGGTCCGTATCACTTTCCCGAAAAATTGATCCCGCTGACCATCCTCAACGCCCTGGCGGGTAAACCGCTGCCGGTGTATGGCAACGGGGAGCAGATCCGTGACTGGCTGTATGTCGAGGACCATGCCCGTGCACTGTATAAAGTGGCGACCGAAGGCAAGAGCGGCGAGACCTACAATATCGGCGGTCATAACGAGCGTAAAAATATCGATGTGGTGCGCACCATCTGCGCCATTCTCGACAAGGTGGTGGCGCAGAAGCCGGGCAACATCACCCACTTTGCTGACCTGATCACTTTTGTCACCGACCGTCCGGGACACGACCTGCGTTATGCCATTGATGCCGCGAAAATTCAGCGCGATCTGGGCTGGGTACCACAGGAGACGTTCGAGAGCGGGATTGAGAAAACCGTGCACTGGTACCTGAACAACCAGACCTGGTGGCAACGCGTGCTGGACGGCTCCTATGCCGGCGAGCGTCTGGGCCTCAATAACTGA	MKILVTGGAGFIGSAVVRHIIENTRDEVRVVDCLTYAGNLESLAPVVGSERYSFSQTDITDAAAVAAQFSEFRPDIVMHLAAESHVDRSIDGPAAFIQTNVIGTFTLLEAARHYWSELGEAQKQAFRFHHISTDEVYGDLHGTDDLFTEETPYAPSSPYSASKAGSDHLVRAWNRTYGLPVVVTNCSNNYGPYHFPEKLIPLTILNALAGKPLPVYGNGEQIRDWLYVEDHARALYKVATEGKSGETYNIGGHNERKNIDVVRTICAILDKVVAQKPGNITHFADLITFVTDRPGHDLRYAIDAAKIQRDLGWVPQETFESGIEKTVHWYLNNQTWWQRVLDGSYAGERLGLNN	PGPT0022625_1717	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
BMS020_01170	1371	algC_2	COG1109	Phosphomannomutase/phosphoglucomutase	ATGACACAGTTAACATGCTTTAAGGCTTATGACATCCGTGGTGAACTGGGCGAGGAGCTGAACGAGGACATCGCCTACCGTATCGGCCGCGCCTACGGCGAATTTCTGAAACCCGGGAAGATAGTGGTGGGGGGCGATGTGCGCCTCACCAGCGAGTCGCTGAAGCTGGCGCTGGCCCGCGGGCTGATGGACGCCGGCACCGACGTGCTGGATATCGGCCTGAGCGGTACCGAGGAGATTTACTTCGCCACTTTCCACCTCGGGGTGGACGGCGGTATCGAGGTGACGGCGAGCCACAACCCGATGAACTACAACGGCATGAAGCTGGTACGCGAGAACGCGAAGCCCATCAGCGGCGACACCGGCCTGCGGGATATCCAGCGCCTGGCGGAGGAAAACCAGTTCCCGCCGGTGGACCCGGCGCGTCGCGGAACCCTGCGCCAGATTTCGGTGCTGAAGGAGTACGTCGACCACCTGATGGGCTACGTGGACCTGGCGAACTTCACCCGTCCGCTGAAGCTGGTGGTGAACTCCGGCAACGGGGCGGCGGGGCACGTGATTGATGAGGTGGAGAAACGCTTTGCGGCGGCCGGGGCGCCGGTGACCTTTATCAAGGTGCATCACCAGCCGGACGGCCATTTCCCGAACGGTATCCCGAACCCGCTGCTGCCGGAGTGCCGCCAGGACACCGCCGACGCGGTGCGTGCGCATCAGGCGGACATGGGGATCGCCTTTGACGGCGACTTCGACCGCTGCTTCCTGTTCGATGACGAGGCGTCGTTTATCGAGGGGTACTACATTGTCGGCCTGCTGGCGGAAGCGTTCCTGCAGAAGCAGCCGGGGGCGAAAATCATTCACGACCCGCGCCTGACGTGGAACACGGTGGACATCGTGACCCGCAGCGGCGGGCAGCCGGTGATGTCGAAGACCGGGCATGCGTTCATCAAGGAGCGGATGCGCCAGGAAGACGCCATCTACGGCGGGGAGATGAGCGCGCACCACTACTTCCGCGACTTCGCCTACTGCGACAGCGGGATGATCCCGTGGCTGCTGGTGGCGGAGCTGCTGTGCCTGAAGAACAGCTCGCTGAAATCGCTGGTGGCGGACCGCCAGGCGGCATTCCCGGCATCGGGGGAGATCAACCGCAAGCTGGGTAATGCGTCGGAGGCGATCGCGCGCATCCGGGCGCAGTATGAGCCGGCGGCCGCACACATCGACACAACGGACGGTATCAGTATTGAATACCCTGAGTGGCGCTTTAACCTGCGCACATCCAACACGGAGCCGGTGGTGCGCCTGAACGTTGAGTCCAGAGCGGATTTTAGTCTGATGGAGACTAAAACAAAAGAAATACTCAATCTCCTATCATAA	MTQLTCFKAYDIRGELGEELNEDIAYRIGRAYGEFLKPGKIVVGGDVRLTSESLKLALARGLMDAGTDVLDIGLSGTEEIYFATFHLGVDGGIEVTASHNPMNYNGMKLVRENAKPISGDTGLRDIQRLAEENQFPPVDPARRGTLRQISVLKEYVDHLMGYVDLANFTRPLKLVVNSGNGAAGHVIDEVEKRFAAAGAPVTFIKVHHQPDGHFPNGIPNPLLPECRQDTADAVRAHQADMGIAFDGDFDRCFLFDDEASFIEGYYIVGLLAEAFLQKQPGAKIIHDPRLTWNTVDIVTRSGGQPVMSKTGHAFIKERMRQEDAIYGGEMSAHHYFRDFAYCDSGMIPWLLVAELLCLKNSSLKSLVADRQAAFPASGEINRKLGNASEAIARIRAQYEPAAAHIDTTDGISIEYPEWRFNLRTSNTEPVVRLNVESRADFSLMETKTKEILNLLS	PGPT0017865_2886	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_RELATED_PROTEINS,PGPT0017865-manB|yhxB-K01840	NA	NA
BMS020_01171	1416	manC1_2	COG0662	Mannose-1-phosphate guanylyltransferase 1	ATGTTACTTCCTGTGATAATGGCTGGTGGTACCGGCAGTCGTCTCTGGCCGATGTCTCGCGAGCTTTACCCGAAACAGTTCCTCCGGCTGTACGGGCAGAACTCCATGCTGCAGGAAACCATCACCCGACTCTCGGGCCTTGAAATCCATGAACCGATGGTCATCTGTAACGAAGAGCACCGCTTCCTGGTGGCCGAACAGCTGCGCCAGCTCAACAAGCTGTCCAACAACATTATTCTCGAGCCGGTCGGGCGCAACACCGCCCCGGCCATTGCTCTGGCGGCCCTTCAGGCCACCCGCCACGGTGACGACCCGCTGATGCTGGTCCTCGCCGCCGACCATATCATCAATAACCAGCCGGTCTTCCACGACGCCATCCGCGTCGCCGAGCAGTATGCCGATGAAGGCCACCTGGTCACCTTCGGTATCGTGCCGAACGCCCCGGAAACCGGCTACGGCTACATCCAGCGCGGCGTGGCCCTCACCGACAGCGCCCACACCCCGTACCAGGTGGCCCGCTTCGTGGAGAAGCCGGACCGCGAGCGCGCTGAGGCCTACCTCGCCTCCGGGGAGTACTACTGGAACAGCGGCATGTTTATGTTCCGCGCCAAAAAATACCTCTCCGAGCTGGCCAAATTCCGCCCGGATATCCTCGAAGCCTGCCAGGCCGCGGTGAACGCCGCCGACAACGGCAGCGACTTCATCAGCATTCCGCATGACATTTTCTGCGAGTGCCCGGACGAGTCCGTGGACTACGCGGTGATGGAGAAAACCGCCGACGCGGTGGTGGTCGGTCTCGATGCCGACTGGAGCGACGTCGGCTCCTGGTCCGCCCTGTGGGAGGTCAGCCCGAAAGATGAGCAGGGCAACGTCCTCAGCGGCGACGCGTGGGTGCATAACAGCGAAAACTGCTACATCAACAGCGACGAGAAGCTGGTGGCGGCCATCGGCGTGGAGAACCTGGTGATTGTCAGCACCAAGGACGCCGTGCTGGTGATGAACCGCGAGCGTTCCCAGGACGTGAAGAAGGCGGTCGAGTTCCTCAAGCAGAACCAGCGCAGCGAGTACAAGCGCCACCGCGAGATTTACCGTCCCTGGGGCCGCTGCGACGTGGTGGTCCAGACCCCGCGTTTCAACGTCAACCGTATCACCGTGAAACCGGGCGGCGCCTTCTCGATGCAGATGCACCACCACCGCGCCGAGCACTGGGTCATTCTCGCCGGCACCGGTCAGGTGACGGTCAACGGCAAGCAGTTCCTGCTGACCGAGAACCAGTCCACCTTTATTCCGATTGGCGCCGAGCACAGCCTGGAAAACCCGGGCCGCATTCCGCTGGAAGTGCTGGAGATCCAGTCGGGCTCGTACCTCGGCGAGGACGACATTATTCGTATTAAAGACCAGTATGGTCGTTGCTAA	MLLPVIMAGGTGSRLWPMSRELYPKQFLRLYGQNSMLQETITRLSGLEIHEPMVICNEEHRFLVAEQLRQLNKLSNNIILEPVGRNTAPAIALAALQATRHGDDPLMLVLAADHIINNQPVFHDAIRVAEQYADEGHLVTFGIVPNAPETGYGYIQRGVALTDSAHTPYQVARFVEKPDRERAEAYLASGEYYWNSGMFMFRAKKYLSELAKFRPDILEACQAAVNAADNGSDFISIPHDIFCECPDESVDYAVMEKTADAVVVGLDADWSDVGSWSALWEVSPKDEQGNVLSGDAWVHNSENCYINSDEKLVAAIGVENLVIVSTKDAVLVMNRERSQDVKKAVEFLKQNQRSEYKRHREIYRPWGRCDVVVQTPRFNVNRITVKPGGAFSMQMHHHRAEHWVILAGTGQVTVNGKQFLLTENQSTFIPIGAEHSLENPGRIPLEVLEIQSGSYLGEDDIIRIKDQYGRC	PGPT0022660_384	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
BMS020_01172	1407	gnd	COG0362	6-phosphogluconate dehydrogenase, decarboxylating	ATGTCCAAGCAACAAATCGGTGTTGTCGGTATGGCCGTGATGGGGCGTAACCTCGCGCTGAACATCGAAAGCCGTGGTTACACCGTATCCGTTTTCAACCGCTCCCGTGAAAAGACCGAAGAAGTGATTGCCGAAAATCCAGGCAAGAAGCTGGTCCCTTACTATACAGTACAAGAGTTTGTTGAATCCCTCGAGACACCACGCCGTATCCTGTTGATGGTGAAGGCCGGGGCTGGCACCGACAGCGCCATCGATTCCCTGAAGCCTTACCTCGACAAAGGCGACATCATCATTGATGGCGGCAACACCTTCTTCCAGGACACCATCCGTCGTAACCGTGAGCTGTCTGCCGAAGGTTTTAACTTTATCGGTACCGGTGTTTCCGGTGGTGAAGAGGGGGCTCTGAAAGGGCCTTCCATCATGCCTGGTGGGCAGAAAGAAGCCTATGAGCTGGTTGCTCCGATTCTGAAGCAGATTGCTGCAGTTGCTGAAGATGGTGAGCCATGTGTGACCTATATCGGTGCTGACGGTGCTGGCCATTATGTGAAGATGGTTCATAACGGCATCGAGTATGGCGACATGCAGCTGATTGCTGAAGCTTATGCGCTGTTGAAAGGCGGTCTGACACTTTCCAACGAAGAGCTGGCGCAAACCTTCACTGAATGGAACGAAGGTGAACTGAGCAGCTACCTGATCGACATTACCAAAGATATCTTCACCAAGAAGGATGAAGAGGGTAAATACCTCGTCGATGTCATTCTTGATGAAGCAGCAAACAAAGGTACCGGTAAGTGGACCAGCCAGAGTTCACTTGATCTCGGCGAACCTCTGTCTCTGATTACCGAGTCCGTATTTGCTCGTTACATCTCTTCACTTAAAGACCAGCGTGTAGCTGCTTCTAAAGTGCTGAGTGGACCCCAGGCTCAGCCAGCTGGCGATAAAGCGGAATTTATCGAAAAAGTGCGTCGCGCTTTATACCTCGGTAAAATCGTTTCCTATGCTCAGGGCTTCTCTCAGCTGCGTGCTGCTTCTGATGAATACAACTGGGATCTGAACTACGGTGAGATCGCTAAGATTTTCCGCGCTGGCTGCATCATTCGTGCGCAGTTCCTGCAGAAGATCACTGATGCTTATGCGCAAAACGCTGGCATTGCTAACCTGTTGCTGGCCCCGTACTTCAAACAGATCGCTGATGACTATCAGCAGGCGCTGCGTGATGTCGTTGCTTATGCCGTGCAGAATGGTATTCCGGTACCGACGTTCTCTGCAGCAATTGCCTACTACGACAGCTACCGTTCCGCAGTTCTGCCAGCTAACCTGATTCAGGCTCAGCGTGATTACTTTGGTGCGCACACCTATAAGCGTACAGATAAAGACGGTGTGTTCCACACAGAGTGGTTGGAATAA	MSKQQIGVVGMAVMGRNLALNIESRGYTVSVFNRSREKTEEVIAENPGKKLVPYYTVQEFVESLETPRRILLMVKAGAGTDSAIDSLKPYLDKGDIIIDGGNTFFQDTIRRNRELSAEGFNFIGTGVSGGEEGALKGPSIMPGGQKEAYELVAPILKQIAAVAEDGEPCVTYIGADGAGHYVKMVHNGIEYGDMQLIAEAYALLKGGLTLSNEELAQTFTEWNEGELSSYLIDITKDIFTKKDEEGKYLVDVILDEAANKGTGKWTSQSSLDLGEPLSLITESVFARYISSLKDQRVAASKVLSGPQAQPAGDKAEFIEKVRRALYLGKIVSYAQGFSQLRAASDEYNWDLNYGEIAKIFRAGCIIRAQFLQKITDAYAQNAGIANLLLAPYFKQIADDYQQALRDVVAYAVQNGIPVPTFSAAIAYYDSYRSAVLPANLIQAQRDYFGAHTYKRTDKDGVFHTEWLE	PGPT0017385_2898	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
BMS020_01173	1440	tuaB	COG2244	Teichuronic acid biosynthesis protein TuaB	ATGTCACTTTTAAATAATGCTAAGTGGAATTTTTTTTCACAAGCATTTAAGATTTTAGCTCAGCTAATTAATGTCGTTTATTTGGCGAAAATAATTCCTCCAGCTGAGTATGGTATTATGGCAATGGCAATGGTAGTGATTAATCTAGGTACTCTATTACGGGACTTGGGAACTTCCGCTGCAATAATACAGAGAAAAGAGTTAACCTCAAATTTGGTTAACACCGTTTTTTGGCTTAATGTAATAATGGGTGTCGGATTATGTATTATAGTTCTTGGTTCATCATCATTTATTGCGAGTCTATATCACCAAGATAAACTATTTTATGTACTGGTAATTCTAAGCGTGGTTTTTCCTTTATCAAGTTGCGCAGCGGCTCATCTTGCACTTCTGGAAAGGGAGTCTCAATTCAAGAAAATCTCCATTATAGAAGTTTCATCATCTACAGTTTCTGTGATCGTCGCTATTGTATTGGCGAATCTTGGATTTGGTGTATATAGTTTAGTTTTTCAGGCAATTGTACTAAATTTAATGTCTGCAATTCAGTTTTGGGTTGCATCATCTTGGCGTCCATCGTTTAAAACCATCATAAATGGTGATGAATTAAAGAAAATATTTTCATTCAGCGCTAATTTATCTTTGTTCAATTTTATAAACTATTTTTCCAGAAATACAGATAGCTTCATGATTGGTAAATTCATGAATGCCACAATTCTTGGTAGTTATAATTTAGCCTACAGGATAATGCTTTTCCCACTTCAAAGTTTAACATTTGTTGCTGCACGCTCTTTATATCCTATTCTTAGTAAATCACAAGACGACAACCTTCAGATTTCTAAAATTTACATAAATTGCGTTTTCTTTATTTTATTGATAACTGCGCCGCTCATGAGTGGGTTGGCATTTTATAGTAAACCTTTTGTAAGTATTGTTTTTGGTGAGCAATGGCATATTACAGGTGATATTCTTAAATGGCTGGCACCCACTGCGATTATACAATCTGTTCTCAGTACTTCAGGATCTGTTTTCATGGCAAAAGGTCGAACTGATGTATTATTAAAGCTTGGCATTATAGGTGCTTTTTTACAAGTTTCATCATTTTTGATCGGTGTTCATTATGATATCAGTACTTTTGCTATGTGTTATATGATTGCAAATATACTAAATTTCTTTCCTGTTATGTATCTTTTAATGAAGATTATTAATGATACACTTTTTTCTTTGGTTAAAGCAATATTCCCTATTTTCATCGCTGTCGCTGTAATGATTTTTTTATTGTCAATGGTCCATTCGAATTATCCCTTGGAAAATATTGATAGTGCTTTCTTGCTTATAATGTTTTCCTTACTTGGGGCGGTGTTTTATTTTTTTGCAATCCTTACTTTCTCCGCGTATTTTAGAGGGATGTTCTTAGCTCGTATGAAACGGAAAACTGTGTAA	MSLLNNAKWNFFSQAFKILAQLINVVYLAKIIPPAEYGIMAMAMVVINLGTLLRDLGTSAAIIQRKELTSNLVNTVFWLNVIMGVGLCIIVLGSSSFIASLYHQDKLFYVLVILSVVFPLSSCAAAHLALLERESQFKKISIIEVSSSTVSVIVAIVLANLGFGVYSLVFQAIVLNLMSAIQFWVASSWRPSFKTIINGDELKKIFSFSANLSLFNFINYFSRNTDSFMIGKFMNATILGSYNLAYRIMLFPLQSLTFVAARSLYPILSKSQDDNLQISKIYINCVFFILLITAPLMSGLAFYSKPFVSIVFGEQWHITGDILKWLAPTAIIQSVLSTSGSVFMAKGRTDVLLKLGIIGAFLQVSSFLIGVHYDISTFAMCYMIANILNFFPVMYLLMKIINDTLFSLVKAIFPIFIAVAVMIFLLSMVHSNYPLENIDSAFLLIMFSLLGAVFYFFAILTFSAYFRGMFLARMKRKTV	PGPT0015230_184	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_TRANSPORT,PGPT0015230-tuaB-K16694	NA	NA
BMS020_01174	867			hypothetical protein	ATGTACAATACTTATAGAACGTTAGTTGTTGTTATTTTATATAATAAAAAAATTGTAGATTCTCTGACAATAGATTCTATAAATGATTCCTCTCTTGAAAACGCAACGTTATTTGTAGTCAATAATGGCCCTAGTATCGTAACATTGAATGATGAGTGTGCACCTTTTCTAAGTCGTCCTAATAACGATGTTAAACTTTTTAATTATACTGAAAATAGACCATTAAGTGTTATCTATAATGAATGTCTTTCAGTTAGTGATTACGATAAATATGTATTCTTTGATGATGATAGTAGTTTCGAACGTGACTATTTTGATGAGCCTCAAAACTTTGCAATGATTGATGAAAAAGTTGATTTGTTGCTCCCCCAGATAATTGATAAAACAACTGGTGGAGTTACATATCCTAGAGGTGTTAAGTTGGGGGATTATGAGGCAGGATTTATTTTTCCGCAAGATAATTACTTTTACTCTATCGGTTCAGGATTAATAATATACAAGTCATTGATAGATAAGTTTAATAAGTATAATTTGAGTTTGTTTGATGAGCGATTTGCTTTATACGGTGTTGATCTTAGTTTGTTTCGTAGGATTGAGAGGTTGAAGAAACAAAATGTAGTTATCAAGGCTATGGTGACTGGAAAAATATTCCATTTGCTATCGTCCACGTCGGAAAAGATGACGGAGTGGCGTTATCGTGAAAGGCTGTATGATAAAGTTCTCTCTATAAAATATTATTCAAAAAATCACTTTCGATTAATTGCTGGTTTGGCAAAGGCCATCTTAATTGAAATTTATAATGTAAATTTTAAAAATGTCTATCATATATTCTCTGTCTTTATAAGGGGTAAGCATCCTAGAACTTAA	MYNTYRTLVVVILYNKKIVDSLTIDSINDSSLENATLFVVNNGPSIVTLNDECAPFLSRPNNDVKLFNYTENRPLSVIYNECLSVSDYDKYVFFDDDSSFERDYFDEPQNFAMIDEKVDLLLPQIIDKTTGGVTYPRGVKLGDYEAGFIFPQDNYFYSIGSGLIIYKSLIDKFNKYNLSLFDERFALYGVDLSLFRRIERLKKQNVVIKAMVTGKIFHLLSSTSEKMTEWRYRERLYDKVLSIKYYSKNHFRLIAGLAKAILIEIYNVNFKNVYHIFSVFIRGKHPRT				NA	NA	NA	NA	NA
BMS020_01175	966			hypothetical protein	ATGGTTTATATAGTTGTTCTGAATTGGAATGGTCTTCTTGATACTTTGTCCTGTCTAAATTCTCTTTTAGAACTTCAAGAGGAGAAATTTAAGGTAGTAATTTGCGATAATGGTTCTTCTGATGGTTCAGTATTAAAAATAATGAATTGGCATAATGAATTAAAGGAAGGTTTAAAGGATCGTTTTCCAATCAATAAAATAGATTTACCTGTTAACTTTAGTTCTATTAAAACAACGAATAACAGTGGAATTTATTTGATTAATATTGGTAAAAACTTAGGGTATGCAGGTGGCAATAATGTTGGAATCAATTTTGCTCTTTCTCAAAATGACATGAGTTATGTATGGTTGCTTAACAATGATACAGAAGTTGATCCTCATAGTTTGTTAAAAATGAAAGAGGCGTTTTCTAAAGATAAAAAAATCGGTATATGTGGTTCCAGGTTGGTATATTTCTCTGAGAGGGATAAATTGCAAGGGTTAGGAGGAGTCTTTAATCCTCTTTTTTGTTCTTCATATCATTATAAAGCAAACGAGAACGCTACCATAGAGTTTGATGATGAGGTGATATCAAATTCCATAGATTATGTAATAGGGGCGTCAATGCTTATTAGTGCTGAAGCATTATATGATATTGGAGTTTTGTGTGAAGATTATTTCCTTTACTATGAAGAAATTGACTATTGTTTACGTGCGAAAAATCTGGGATATCGTATTTACTGTGCTACCGAAAGCATAGTTTATCATAAGGAAGGGGCCTCGACTCAAAAAGGTATTCTTTCTGATTATTTTTGGGTTCGAAATCGTATTCTGATTGCTAAAAAATACTATCCTGCATCTATTCTTCCTGTATATTTATCGCTATTTGTTACTTTTTTTAACAGAATTAGACGTATGGAATTGTCAAAGGCCAAAAATGTTTTGAAAATTATTTTTGGTAGTCGTGACTTATATAACTTAAAATAA	MVYIVVLNWNGLLDTLSCLNSLLELQEEKFKVVICDNGSSDGSVLKIMNWHNELKEGLKDRFPINKIDLPVNFSSIKTTNNSGIYLINIGKNLGYAGGNNVGINFALSQNDMSYVWLLNNDTEVDPHSLLKMKEAFSKDKKIGICGSRLVYFSERDKLQGLGGVFNPLFCSSYHYKANENATIEFDDEVISNSIDYVIGASMLISAEALYDIGVLCEDYFLYYEEIDYCLRAKNLGYRIYCATESIVYHKEGASTQKGILSDYFWVRNRILIAKKYYPASILPVYLSLFVTFFNRIRRMELSKAKNVLKIIFGSRDLYNLK				NA	NA	NA	NA	NA
BMS020_01176	1086			hypothetical protein	ATGATAATCATACATGAGTATGGAGAACCTTCGCACTATATTGGTGCTACAAAGGTTGCTGAATTATATAACACTCGTTTGAGTTATTATGAATTTTCAACGCTAAAGTTGATTTTTTCTGGGGTCAAGAAAAGAAATCAAAAATTCATTTTAAAAGCTATTAGGGATTTTTTTTTACTTTTTTCCTTTTTCTTGTTCCCTAGACTTCTTAAAGGCGAAACCGTAATTATAGGCATTGCCCCTATTGACTATAGGGTGTTTTTTTTTAATCGAATACTTAAATATTCTCATGTGATTTACCATACATCATGGACCAAATGGGATGGTTCAAAATACCCTAAACAGTATAGCTTTAATAAAAAGCTAATTCTTAAATGGTGGTCTTTCTTTCTAAAGCATAGAGTTAATTCATTTGCTGTAGTAACGGAGACAGTAAAACAACAATTGGTTGATAATTTTAATATAGATAAATCTAAGATTGTAGTAGTTTACCATAGTTATGAATCCTCGACTTTTAATGTCAAAACCAAAAATAAAAATGACAAGTTAAAAGCTATTTTTGTCGGTAGATTAGTAAAAGAAAAGGGCGTTGATGATTTACTAGCTATTGCAAAAATAAACTCTGAAGTCGAATTTATTATTGTAGGCGAAGGGCCTCTGAGCGAACATGTAAAAATTGAGGCTAGAGAAATTAGCAATGTTAATGTATATAATTTTATTAAAGATAAAAATAAGCTTGCTGATCTTTACCGTGAATCAACTTTTATATTGTTACCATCTAAGAGGACTCCTTTTTGGGAAGAGTTATTTGGGATGGTATTGATAGAAGCGATGGCATGTGGTTGCATACCATTATGTACAGATCATAATGGGCCAAGTATTATTCTCGGTCATAGTACTTTAAAGATTAATGTTTTTTCTGAAGATGAATATATACATAGCGTAAATGCTTCCTTTAAAAAGTATCAGAACCAGCCACATTTGCTGGTTGAAGATAGGATTAATGCAATCGCTATAGCTCAAAAATATAGTAAAGAGTCAATTGCCGATTTTTGGGCAGCGGTAATAAAACTCGCTAAGGAATAA	MIIIHEYGEPSHYIGATKVAELYNTRLSYYEFSTLKLIFSGVKKRNQKFILKAIRDFFLLFSFFLFPRLLKGETVIIGIAPIDYRVFFFNRILKYSHVIYHTSWTKWDGSKYPKQYSFNKKLILKWWSFFLKHRVNSFAVVTETVKQQLVDNFNIDKSKIVVVYHSYESSTFNVKTKNKNDKLKAIFVGRLVKEKGVDDLLAIAKINSEVEFIIVGEGPLSEHVKIEAREISNVNVYNFIKDKNKLADLYRESTFILLPSKRTPFWEELFGMVLIEAMACGCIPLCTDHNGPSIILGHSTLKINVFSEDEYIHSVNASFKKYQNQPHLLVEDRINAIAIAQKYSKESIADFWAAVIKLAKE				NA	NA	NA	NA	NA
BMS020_01177	1152	mshA_4		D-inositol-3-phosphate glycosyltransferase	ATGAAAAAAATTGATATCGGAATTGTCGCTGATTGGTTTATTACATATGCTGGTTCAGAAAAAGTTGTTGCAGAGTTTATAAAAGTTTTCCCTGAGGCAGATTTATACTCTGTGGTGGATTTTCTTTCCGATGAGCATAGACAGCAATTTAATAATAAAACTATTACGACGACATTTATTCAGAAACTACCTAAAGCAAAGAAAAAATATCAAACATATCTTCCATTTATGCCATTAGCCATTGAGCAACTTGATGTTTCGAAACATGATATAATTCTTTCAAGTAGTCATGCTGTAGCAAAAGGAGTTTTGACTGGGCCTGATCAATTGCATATTAGTTATGTTCATTCCCCGATACGATATGCATGGGATCTACAACATCAGTACCTAAGAGAAGCAGGTTTAAGTTCAGGAGCAAAGGCGTTACTCGCAAAATGGATCTTACATAAACTTAGAATTTGGGATGTAAGAACTGTTAATAGCGTAGATCATTTTATTGCTAATTCAAAATTTATTGCTCGAAGGATAAATAAAGTTTATGGACGAAAAGCTGATGTTATTTATCCACCGGTAGATATTAATAAATTTGAATTATATGATAATAAAGATGATTATTATTTAACGGCATCTAGGCTTGTGCCTTATAAAAGAATGGATTTAATAGTTGAAGCTTTCAGTCACATGCCTGATAAAAAATTAATAGTAATAGGTGATGGGCCTGAGATGGCAAAAATAAAATCCAAAGCAACACCAAATATACATATACTTGGCTACCAATCTAATAAAACCCTTGTTGAGCATATGAGTAAAGCGAAAGCGTTTGTTTTTGCTGCAGAGGAGGATTTTGGTATTACTCCTGTTGAAGCACAAGCCTGTGGTACTCCGGTTATTGCCTTTGGAAAAGGGGGGGTATTAGAGACTATTCGTCCATACGGTGTGCAGAATCCAACGGGGCTTTTCTTTGATAACCAAAAGGTTGCAGATATTATAAATGCAATACAAGAATTTGAAAAAATATCCCATAAAATTTTACCTATTGACTGTCGATCTAATGCAATAAGATTTTCTAATGAGCGTTTTCAGGCAGAGATAAATGATTATATTAATAAAAAATGGGATGGTTTTAATGAAGCAAAAAGAATTGAATATTAA	MKKIDIGIVADWFITYAGSEKVVAEFIKVFPEADLYSVVDFLSDEHRQQFNNKTITTTFIQKLPKAKKKYQTYLPFMPLAIEQLDVSKHDIILSSSHAVAKGVLTGPDQLHISYVHSPIRYAWDLQHQYLREAGLSSGAKALLAKWILHKLRIWDVRTVNSVDHFIANSKFIARRINKVYGRKADVIYPPVDINKFELYDNKDDYYLTASRLVPYKRMDLIVEAFSHMPDKKLIVIGDGPEMAKIKSKATPNIHILGYQSNKTLVEHMSKAKAFVFAAEEDFGITPVEAQACGTPVIAFGKGGVLETIRPYGVQNPTGLFFDNQKVADIINAIQEFEKISHKILPIDCRSNAIRFSNERFQAEINDYINKKWDGFNEAKRIEY				NA	NA	NA	NA	NA
BMS020_01178	1119			hypothetical protein	ATGTATTTTATTATTACATCGTTTATATTGATGGTTTTCTCTTTTATATCCAAAAAGAAATTGTTTTATGTGTCATTCCCCTTTGTCGCCTTATTCTTTTCTATGACGTTTGGTTATGGTTATGATTGGATAAATTATAATGATTTTTACTATGACAGTATATATACAACAACTTTGCCCTTCGAACCTGGTTTGTTTTATTTAATGAAGTTGTTCGTTTCATTTGACTTTCCTTTCAAGTACCTTGTTTTTATTATTTATCTGTTCATATATTATTGTTGTTATTCGTTTTGTAAAAAAATGAATAATCCAATGATTGCCTTTTATTGTATGTTTTCACTTTTAGGTTTTTATATGTTTTCAGAGCAATTTCGCCAAGGAATTGCTCTGGGAATTATTCTACTAGGCTTATCAAGAACAAACAAAGAATACCCTTGGAAAATCCTGCCTTATATAATTGTGGCATCATTTTTCCATGTGTCAGCTTTAACTGCACTACTTTATAATCTTATCTTTATTGATAATGAGAGACGATTAAAACTAAATGTCATATTCATTACTCTATTTATAGCATCACTTTTAATTGTACTATCTTCTCCTGGTATTATTAGCTTTATACCATATATAGGTGATAAAGTTTCAGACTATAGTAGTTTACTCGGCAATAATGGATTTTCATTTCTTCTATATATGCTTCAACAGAAACAAAGTTATGTATTCTTGGCGCTATTGATCATAAGTATTATTATATTTAAGCAGCAAAAAAGCAAAAAGATACTCTGGGCTGTACTTTCAACTTATTTTTTGTTGTTAACTAAAATGGCTCAGTTTTTAGTAAGATTTGGTTACTATTTTGTTCCATTCATCGTTATGGGACTTGATAATTATTTTGAGTCCAAGAGCAAGAAAGGATATCTGTATGCTTATAAGACTATTTTTTTGTTAATTATTTTCATAATGTCAACCATTCCTTTCTTTATAAGTAGCTACATGAAAATATCTACTTCACCGGCTACTATATTTGATAGTAAATCTGAAATTGAGAATAAAATAAGCATTCGATGTGAAATGGTACAATTAACGGGAGTTGGTGATGGCGTAATCAAGAGATGTTATTGA	MYFIITSFILMVFSFISKKKLFYVSFPFVALFFSMTFGYGYDWINYNDFYYDSIYTTTLPFEPGLFYLMKLFVSFDFPFKYLVFIIYLFIYYCCYSFCKKMNNPMIAFYCMFSLLGFYMFSEQFRQGIALGIILLGLSRTNKEYPWKILPYIIVASFFHVSALTALLYNLIFIDNERRLKLNVIFITLFIASLLIVLSSPGIISFIPYIGDKVSDYSSLLGNNGFSFLLYMLQQKQSYVFLALLIISIIIFKQQKSKKILWAVLSTYFLLLTKMAQFLVRFGYYFVPFIVMGLDNYFESKSKKGYLYAYKTIFLLIIFIMSTIPFFISSYMKISTSPATIFDSKSEIENKISIRCEMVQLTGVGDGVIKRCY				NA	NA	NA	NA	NA
BMS020_01179	1032			hypothetical protein	ATGAAGTCGAATGGTTTAAATGTATTCTTTTTCACTTTTTTAGTGACGGCAGCAATCAATTGCTATGCAGATGATTTTTTGCTAGGAGTAAATGCTCATATTCTCCATGACTCTGAAGAGAATATAACTAAAACGATTAATATGTCCGTTGACGTTGGTATTCAATCATTAAGATTAGATATGCCTTGGTCGGAGGTTGAGCAAAAAAAAGGACAGTACCAAATCCCTGCAAAATGGGACTATGCAGTTGACGAAATGATAAAAAATGATATGAAACCACTTGTAATTTTGGAATATGGCAATAAAAATTATAATAATGGTGATAAACCGACAGATAACGAGTCTAGAATTGCATTCAGTAATTATGTGAATTTTTTGACAGCTCATTTTAAAAATAAAGTAAATTACTATGAAGTTTGGAATGAATGGGATTCATCCTTAGGTGGTACGTCACCAGGTAATAATGCTGATTATCAGAAATTAGTAAGAAGTGTTTATCCAATAATTAAGAAAAACAATCCCAACTCAACTGTTATTACTTCTGCCTTCTCATCGGCTGCCTTCGATAAGCATTTGGGTATCGGTAATGATGACTCAATGAGAACATATCTTGATTCAGGCATTGAAGATTATACGGACGCTTTTGCAATACACCCTTATACAACCTATAAGCCAAAACCCCATAATAAATACGAAACATATGTAAATGATCTAAAATATTCGGTAAGTTTGGTTGCTCAAAACAAAAAACTTAATGGTAAACCATTATATATTACGGAGATTGGATGGAGTACAGTGGCAGGAGAGAAGGATGGCGTTACCCCTCAAGTACAATGCCAAAACATCATACAAGCAATAAGAGATGCAAAAGCTCACGGCATCAAAGCATTATATATTTATGATTTTAAAGATGACGGGATAGTTAGGTCAACTGGAGTCCATTTCGGATTATTAAACTATGATTGGTCACCAAAGCAGTCCTACTTGTGTCTCAAAAAGGAATTTGAAGTTAATCGTAATGAGCTGAAGTGA	MKSNGLNVFFFTFLVTAAINCYADDFLLGVNAHILHDSEENITKTINMSVDVGIQSLRLDMPWSEVEQKKGQYQIPAKWDYAVDEMIKNDMKPLVILEYGNKNYNNGDKPTDNESRIAFSNYVNFLTAHFKNKVNYYEVWNEWDSSLGGTSPGNNADYQKLVRSVYPIIKKNNPNSTVITSAFSSAAFDKHLGIGNDDSMRTYLDSGIEDYTDAFAIHPYTTYKPKPHNKYETYVNDLKYSVSLVAQNKKLNGKPLYITEIGWSTVAGEKDGVTPQVQCQNIIQAIRDAKAHGIKALYIYDFKDDGIVRSTGVHFGLLNYDWSPKQSYLCLKKEFEVNRNELK				NA	NA	NA	NA	NA
BMS020_01180	978	mshA_5		D-inositol-3-phosphate glycosyltransferase	ATGGATAAAGTGATTTTCGACTCGCGCTGGTTTGGCCAACATGGGATTGGCAGATTTGCTCAAGAAATTTTCAAAGCCAACGATAATTTTGTAAGAATAAATCTTAAAGGAAATCCTGCTGGAAAATTTGACTGTTTCAAATTAACATTATATTTGTTATTTAATAAGGAAGCTTATTTCACTCCTGGATATAATTCACCTCTTTTTTTTCTGTCAAGAACTTATATAACTGTACATGATTTAAATCATATTGATATTGCGGGTAACTCATCGCAACTGAAAAGGCTATATTATAATTTTATATTGAAAAGGGCATGTAGAAAAGCTAAATCAGTAATCACTGTATCTGAGTTTACAAAAAAAAGAATTGTTGAGTGGTCAGGAAGAAATGCAAATGATGTAATTGTAGTCAATAATGGTGTTTCGGAAGCATTTAATATTAATGCCACCCCTTATAAAAACGAAAGGCCATATATTTTCATGGTTGGTAATCGAAAACCTCATAAAAATGAAATTAATGGAATCGATGCATTTTTACGTGCTGATATAGATAAGAAAGTGCAACTAATTCTTACGGGAGAAAGTACTCAAGCGATTTCAGACCTTCTTATAAAAAATAATGCATTGGAACGGGTTAAATTCGTTGGTAAAGTTTCAGAAGAGACACTGGCTTCACTATATAAAGGAGCGATTTTTTTGTTTTTTCCTTCGTTATATGAAGGGTTTGGTTTGCCAATAATTGAAAGTATGGCTTGTGGGACACCTGTTTTGACATCAAATATTACATCGCTTCCAGAAGTAGCGGGTGAAGCAGCATGTTATATTGACCCAACCAGTTTGGACTCAATGAAATCTGGAATAGAAGCTTTAGTAGATAATAAACAGTTGCAAGATGAATTGAAAAAAAAAGGATTGTTACAGATCAGGAAGTATACATGGGATGGCGCGGTTAACAGAATAAATAACATTTTTAGGTGA	MDKVIFDSRWFGQHGIGRFAQEIFKANDNFVRINLKGNPAGKFDCFKLTLYLLFNKEAYFTPGYNSPLFFLSRTYITVHDLNHIDIAGNSSQLKRLYYNFILKRACRKAKSVITVSEFTKKRIVEWSGRNANDVIVVNNGVSEAFNINATPYKNERPYIFMVGNRKPHKNEINGIDAFLRADIDKKVQLILTGESTQAISDLLIKNNALERVKFVGKVSEETLASLYKGAIFLFFPSLYEGFGLPIIESMACGTPVLTSNITSLPEVAGEAACYIDPTSLDSMKSGIEALVDNKQLQDELKKKGLLQIRKYTWDGAVNRINNIFR				NA	NA	NA	NA	NA
BMS020_01181	1428			hypothetical protein	ATGACACGCTTTGCAAAAAATATTATTTGTAGTATGTCTTTGGCAGCTTCAGACTTCATCAGTTTTGTTTTTTCACTTTATCTTTCATTGGCCATACTTTCTGTTACTCTGATGGATTTTGAAAATAGAGTACCTGAAAATCAGATTGAAAGTTGGGCGACATTGCATTGGTTATTGGGATTATGTTGCGTAGCCTGGTATGGTATACGCCTCCGTCATTATTTCTACAGAAAAACCTTTTGGTATGAATTAAAAGAAATTTTGCGAACATTAGTAATTTTTGCTGTTATTGAAATGGCCGTAATGGCTTTTGCTAAATGGTATTTTTCACGATATGTGTGGTTATTAACGTGGGTTTTAGCTGCTACGTTTGTGCCATTGGCTCGCGTCGGTACAAAATGGATTTTGAACAAATGTGGTTATTGGTTACGTGATACATGGATTATCGGAAGTGGTAAAAATGCTAAGGATGCATTTATCGCAATAAACAGCGAACATAATTTAGGTCTTCGGGTTGTTGGTTTTGTTTTTGTAGAATCGGATGATGAGAACATTGAAGGAATTGAAGGCATACAAATCAGCGAAGTAGAAAAAGATTGGTTAGATAAGATGGACAAGCGAACCCAGTTTATTGTTGCAGTAGAATCTCATCAGAGTGATGCAAGGAACTTTTGGTTAAGAGAGTTTATGATAAAAGGGTATCGCTATGTTTCAGTTATACCTACGCTTAGAGGGGTTCCATTAGACAGTACTGATCTTTCTTTTATTTTTAGTCATGAAGTAATGATATTTCGAGTGCAGCAAAACTTAGCAAAATGGTCTTCAAGATTAATAAAACGCACTTTTGATATATTTGCATCATTAACAATTATAATTATTCTATCGCCTTTGCTTTTTTATATAAGTAGAAAAGTTAAAGAAGATGGTGGTCCAGCAATATATGGACATGAAAGGATTGGGAAAAATGGAGTTGCGTTTAAATGTCTAAAATTTCGCTCGATGGTTATAAACTCCAAAGAAGTTCTCGATAAATTATTAGAGTCTGATGAGTTAGCAAGAAATGAATGGAATGAAACTTTTAAATTAAAAAATGATCCACGAGTGACTAAAATTGGTAATTTTCTACGAAGAACAAGCTTGGATGAATTACCGCAGTTATTTAATGTTTTGAAGGGCGAAATGAGTTTAGTAGGTCCTCGTCCAATAATAAAAGCAGAATTGTCAAGATATAATGATGAGGTAGGCTATTACTTACTTAGCAAACCAGGTATGACTGGACTGTGGCAGGTAAGTGGGCGCAGTGATGTGGATTATGATACACGTGTATATCTGGATGCTTGGTATGTAAAGAACTGGTCTATGTGGAACGATATTGCAATACTATTTAAAACAATAAATGTTGTCCTGAAAAAAGATGGTGCCTATTAA	MTRFAKNIICSMSLAASDFISFVFSLYLSLAILSVTLMDFENRVPENQIESWATLHWLLGLCCVAWYGIRLRHYFYRKTFWYELKEILRTLVIFAVIEMAVMAFAKWYFSRYVWLLTWVLAATFVPLARVGTKWILNKCGYWLRDTWIIGSGKNAKDAFIAINSEHNLGLRVVGFVFVESDDENIEGIEGIQISEVEKDWLDKMDKRTQFIVAVESHQSDARNFWLREFMIKGYRYVSVIPTLRGVPLDSTDLSFIFSHEVMIFRVQQNLAKWSSRLIKRTFDIFASLTIIIILSPLLFYISRKVKEDGGPAIYGHERIGKNGVAFKCLKFRSMVINSKEVLDKLLESDELARNEWNETFKLKNDPRVTKIGNFLRRTSLDELPQLFNVLKGEMSLVGPRPIIKAELSRYNDEVGYYLLSKPGMTGLWQVSGRSDVDYDTRVYLDAWYVKNWSMWNDIAILFKTINVVLKKDGAY	PGPT0026515_8	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-AMYLOVORAN_METABOLISM	CE-EPS-AMYLOVORAN_BIOSYNTHESIS,PGPT0026515-amsG-K16707	NA	NA
BMS020_01182	2157			Putative tyrosine-protein kinase in cps region	ATGACTTCACTTATAAAAAATAACTCTCCTACCCCAGATTCTGATGCAATTGAAATAGGAAGATTAATCGGGGAGTTAATTGATCACCGCAAATTAATAATTGCTGTTACATCCGCATTTACAGTATTAGCTGTTTTGTATGCACTTTTGGCTACGCCAATTTATCAAGCTAACGCTTTGATTCAAGTAGAGCAAAAGCAAGGAAACGCCATTCTTAACAGCTTGACTCAGATGCTACCAGATGCGCAACCACAATCAGCTCCAGAAATTGCTTTATTACAATCAAGAATGATCCTTGGTAAGACGGTAACTGATCTTGATTTGCAAACTGTAGTAAAGCAAAAATATTTTCCAATCATCGGACGTGGCTTAGCCCGTGCACTAGGTGAAAGTAATGGGAAAATTAGTATAACAAGATTATATCTTCCTGGTTCAGATGATGCAGATACGCCAAAAGTTATTCTCACAGTTATAGATAATGAGAAATATGAAATAACAGGAGATGATTTTACAGTTCATGGTAAAGTTGGCGAATTACTTGAAGATAAAAATATCTCAATATTAGTCAATGAAATTAAGGCTGAACCAGGGACCAAATTTAATGTTATATACAGATCACGTTTAAAAGCGATTAATGATCTACAGGAAGTATTAAGCGTATCCGATCAAGGAAAAGATACAGGTATGCTAACGTTAATGCTTTCAGGAGATGACCCAGCTCTAATTTCTAATATACTAAATAGTATTAGTCAAAATTATTTAGCACAAAACGTCGCAAGACAGGCTGCACAAGATGCTAAGAGTTTGGAATTTCTAAATCAGCAGTTACCAAAAGTTCGCTCTGACTTAGATATTGCTGAAAATAAATTAAACGCTTATCGACAAATGAAGGATTCAGTCGATTTGTCTATGGAAGCCCGCTCGGTATTAAGTCAAATAGTTAACGTAGACAATCAATTGAATGAATTAACATTTAGAGAAGCCGAGATTTCGCAGTTATATAAAAAAGAACACCCCACTTATAAAGCGCTTATTGAAAAAAGACAAATATTACAAGAGGAAAAAAATAAGCTGAATAAAAAAGTAAGTGATATGCCAACCACTCAACAAGAAGTATTGAGATTGAGTAGAGATGTCGAATCTGGTAGAGCTGTTTATATGCAATTGCTCAATAGGCAGCAGGAATTAAGTATTGCAAAATCTAGCGCTATTGGTAACGTACGAATAATCGATAATGCAGTAACAGAACCAAAACCTATTAAACCTAAAAAACTAATGATTGTGGCAATAGGCGTATTCTTAGGCTTACTGGTATCTGTAGGTTTAGTTCTATTAAATGTATTTCTACGAAGAGGCATTGAATCTCCAGAGCAACTAGAAGATATGGGGGTTAACGTTTATGCAAGTGTCCCTGTATCAGAGTGGTTAACTAAAAATGTTGGTAAAAATAAACGGCGCAAAAATGAATCAGATGCACTTCTTGCTATAGAAAACCCAGCAGATCTTGCAGTTGAAGCTATACGGAGTTTACGGACAAGTCTTCATTTTGCAATGATGGAGGCCAAAAATAATGTATTAATGATTTCTGGAGCAAGTCCTAATGCTGGTAAGACATTCATTAGTACAAATTTAGCGGCAATCATTGCATCTACTGGTAAAAAAATATTATTTATAGATGCAGATCTCCGAAAAGGCTATGTCCATAAAATGTTAGGGTTTAGTGAAAGTGCTGGTTTATCCAACATCCTTTCAGGTCAGAAAAAAATTGAAGATGTTGTTACTACTGTTAAAAATGCAGGTTTTGATTATATAAGTCGTGGTAATATCCCACCTAATCCGGCCGAACTACTGATGCATCCAAGATTTGAAAATCTTCTAACTTGGGCTACAAATAATTATGAGTTGGTTATTATTGACACACCACCAATCCTTGCTGTTACAGATGCTGCAATAATAGGAAAGTATGCTGGAACAACATTACTGGTTGCAAGATTTGAGTCAAATACTGTAAAAGAAATTTCGGTCAGTATCAAACGATTTGAACAAAGTGGTATTGCAATTAAAGGATGTATTTTGAATGGTGTTGTGAGAAAAGCAAGTAGCTATTATAGTTATGGCTATAATCACTATGGCTATTCATATACTGATAAGAAATAA	MTSLIKNNSPTPDSDAIEIGRLIGELIDHRKLIIAVTSAFTVLAVLYALLATPIYQANALIQVEQKQGNAILNSLTQMLPDAQPQSAPEIALLQSRMILGKTVTDLDLQTVVKQKYFPIIGRGLARALGESNGKISITRLYLPGSDDADTPKVILTVIDNEKYEITGDDFTVHGKVGELLEDKNISILVNEIKAEPGTKFNVIYRSRLKAINDLQEVLSVSDQGKDTGMLTLMLSGDDPALISNILNSISQNYLAQNVARQAAQDAKSLEFLNQQLPKVRSDLDIAENKLNAYRQMKDSVDLSMEARSVLSQIVNVDNQLNELTFREAEISQLYKKEHPTYKALIEKRQILQEEKNKLNKKVSDMPTTQQEVLRLSRDVESGRAVYMQLLNRQQELSIAKSSAIGNVRIIDNAVTEPKPIKPKKLMIVAIGVFLGLLVSVGLVLLNVFLRRGIESPEQLEDMGVNVYASVPVSEWLTKNVGKNKRRKNESDALLAIENPADLAVEAIRSLRTSLHFAMMEAKNNVLMISGASPNAGKTFISTNLAAIIASTGKKILFIDADLRKGYVHKMLGFSESAGLSNILSGQKKIEDVVTTVKNAGFDYISRGNIPPNPAELLMHPRFENLLTWATNNYELVIIDTPPILAVTDAAIIGKYAGTTLLVARFESNTVKEISVSIKRFEQSGIAIKGCILNGVVRKASSYYSYGYNHYGYSYTDKK	PGPT0023285_1480	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-WZA-WZC-WZB-WEC_METABOLISM	CE-EPS-EPS-WZA-WZC-WZB-WEC_SYSTEM,PGPT0023285-etk_wzc|epsB-K16692	NA	NA
BMS020_01183	132	amsI	COG0394	putative low molecular weight protein-tyrosine-phosphatase AmsI	ATGCTTTTAGGGCACTGGTTAAACCAGAAAGAAATTCCTGACCCCTATAAGAAAAGTGACGAAGCATTCGAGTCAGTATATGAACTCATTGTCCAGAGCAGTAATAGTTGGGTTGATAAATTAGACAGATAA	MLLGHWLNQKEIPDPYKKSDEAFESVYELIVQSSNSWVDKLDR	PGPT0014530_7271	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
BMS020_01184	1134			hypothetical protein	ATGAAGAAAAAACTTGTTAGATTTTCGGCATTAGCGTTGGCAATTGGGTTTTTATCGGGTTGTACGATTATTCCTGGGCAGGGATTAAATAGCCTGCGTAAGAATGTGGTTGAACTACCAGACAGCGACTACGATCTTGATAAGCTGGTTAATGTTTACCCTATGACTCCCGGCCTAATCGATCAACTGCGTCCGGAGACCGTTCTTGCTCGTCCAAACCCGCAGCTGGATAATTTACTTCGTAGCTATGAATATCGCATTGGGGTAGGTGACGTACTGATGGTTACTGTATGGGATCACCCGGAATTGACTACTCCTGCTGGGCAATACCGCAGCGCCAGCGACACCGGTAACTGGGTAAACTCCGATGGCACCATTTTTTATCCATATATCGGTAAGGTGCAGGTGGCAGGCAAGACATTAAGCCAGGTACGCCAGGATATAGCCAGCCGTTTAACCACTTATATCGAAAGCCCACAGGTTGACGTCAGTATTGCTGCCTTTAGATCGCAGAAAACTTATGTTACTGGCGAAGTTATGAAGTCAGGCCAGCAGCCGATTACGAATATTCCATTAACTGTGATGGATGCGATCAATAATGCTGGTGGACTGGGCCCTGAGGCTGACTGGCGGAACGTTGTGCTAACGCATAATGGGAAAGATACAAAAATCTCACTTTATGCCTTAATGCAAAAAGGAGATTTGTCACAAAACCATCTTTTATACCCGGGCGACATTTTATTTGTTCCGCGTAATGATGATCTAAAAGTCTTTGTTATGGGTGAGGTTGGTAAACAAGCAACCATGAAGATGGACCGTAGTGGTATGACTTTAGCTGAAGCATTAGGTAATGCTGAAGGAATTTCACAAGAAATGAGTGATGCGACCGGTGTGTTCGTTATCCGGCAATTGAAAGGCGACAAACAAGGAAAGATTGCAAATATTTATCAGTTAAATGCACAAGATGCATCCGCTATGGTGTTAGGTACTGAATTCCATCTGCAACCTTATGATATTGTTTATGTTACCACCGCTCCATTGGTTCGTTGGAACCGTGTAATATCACAACTTGTACCAACAATTACAGGTGTTCATGATATGACAGAAACCGGGAAATTTATAAGGACGTGGTGA	MKKKLVRFSALALAIGFLSGCTIIPGQGLNSLRKNVVELPDSDYDLDKLVNVYPMTPGLIDQLRPETVLARPNPQLDNLLRSYEYRIGVGDVLMVTVWDHPELTTPAGQYRSASDTGNWVNSDGTIFYPYIGKVQVAGKTLSQVRQDIASRLTTYIESPQVDVSIAAFRSQKTYVTGEVMKSGQQPITNIPLTVMDAINNAGGLGPEADWRNVVLTHNGKDTKISLYALMQKGDLSQNHLLYPGDILFVPRNDDLKVFVMGEVGKQATMKMDRSGMTLAEALGNAEGISQEMSDATGVFVIRQLKGDKQGKIANIYQLNAQDASAMVLGTEFHLQPYDIVYVTTAPLVRWNRVISQLVPTITGVHDMTETGKFIRTW	PGPT0025530_1625	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0025530-wza|gfcE|epsA-K01991	NA	NA
BMS020_01185	1440			hypothetical protein	ATGATAAAAATTGCGCGCATTGCCGTGACGCTGGGCTTGCTTTCCTCACTGGGAGCCCAGGCTTACGCGGCCGGGTTAGTAGTAAATGATAACGATCTGCGTAACGACCTTGCCTGGCTTTCCGATCGCGGGGTCATCCATCTGAGCCTGTCGACCTGGCCGCTGAGTCAGGAAGAGATCGCCCGGGCGCTAAAAAAGGCCAAACCGTCCTATTCTTCTGAGCAAGTAGTTCTGGCCCGTATCAACCAGCGACTGTCTGCTTTAAAAGCCGATTTCCGGGCCACCGGCTATACCTCGACCGACCAGCCGGGCACCCCGCAGGGGTTTGGTCAGACGCAGCCGGCGGATAATTCGTTAGGTCTGGCGTTCAACAACAGCGGCGAGTGGTGGGATGTCCACCTCCAGGGCAACGTTGAAGGGGGAGAGCGGATCAGCAACGGATCGCGTTTCAACGCCAACGGCGCCTACGGCGCGGTGAAGTTCTGGAATCAGTGGCTCTCCTTTGGTCAGGTACCGCAGTGGTGGGGGCCTGGGTATGAAGGTAGCTTGATCCGCGGGGATGCGATGCGGCCGATGACCGGTTTCCTGATGCAGCGGGCAGAGCAGGCGGCGCCGGAAACATGGTGGCTGCGCTGGGTAGGCCCGTGGCAGTACCAGATCTCCGCCAGCCAGATGAATCAATATACCGCGGTACCTCATGCCAAAATTATCGGCGGACGCTTTACCTTCACGCCGTTCCAGTCATTAGAATTAGGTGCGTCGCGTATTATGCAGTGGGGCGGGGAAGGGCGCCCTGAATCACTCAGCAACTTCTGGGATGGTTTAACCGGTAAAGATAATACCGCCGCGAATGATCCTAATGAACCGGGCAATCAACTGGCCGGTTTTGACTTTAAGTTCAAACTGGAACCGACGCTTGGCTGGCCGGTAAGCTTCTACGGACAGATGATCGGTGAGGATGAGTCGGGTTTTCTTCCATCGTCTAATATGTTCCTGGGAGGGGTGGAAGGGCACCACGGCTGGGGTAAGGATGCTGTTAACTGGTACGTGGAAGCACATGACACGCGCACCAATATGAGCCGAACCAATTACAGCTATACCCATCATATCTATACCGATGGTTATTACCAGCAGGGCTATCCGCTGGGCGATGCGATGGGTGGGGATGGTCAACTCATCGCCGGTAAGGTTGAGCTTATTACGGAGGATAACCAGCGCTGGAGCACGCGCTTAGTATACGCGAAGGTTAACCCTGAGAATCAGTTGATCAACAAAGCGTTCCCTCATGCGGATACTTTAAAAGGTGTACAGCTGGGGTGGAGCGGAGATGTTTATCAGTCGGTTCGTCTGAATACCTCACTGTGGTACACCAACGCTAACAATAGCGACAGCGACGACGTTGGGGCCAGCGCAGGGATAGAAATACCGTTTAGTTTATAA	MIKIARIAVTLGLLSSLGAQAYAAGLVVNDNDLRNDLAWLSDRGVIHLSLSTWPLSQEEIARALKKAKPSYSSEQVVLARINQRLSALKADFRATGYTSTDQPGTPQGFGQTQPADNSLGLAFNNSGEWWDVHLQGNVEGGERISNGSRFNANGAYGAVKFWNQWLSFGQVPQWWGPGYEGSLIRGDAMRPMTGFLMQRAEQAAPETWWLRWVGPWQYQISASQMNQYTAVPHAKIIGGRFTFTPFQSLELGASRIMQWGGEGRPESLSNFWDGLTGKDNTAANDPNEPGNQLAGFDFKFKLEPTLGWPVSFYGQMIGEDESGFLPSSNMFLGGVEGHHGWGKDAVNWYVEAHDTRTNMSRTNYSYTHHIYTDGYYQQGYPLGDAMGGDGQLIAGKVELITEDNQRWSTRLVYAKVNPENQLINKAFPHADTLKGVQLGWSGDVYQSVRLNTSLWYTNANNSDSDDVGASAGIEIPFSL				NA	NA	NA	NA	NA
BMS020_01187	630			hypothetical protein	ATGAACTGGCAACTCATCTCATTTTTTGGCGATAGCACCGTTTTGCTGCCCAGCGCAGCGGCGTTGTTTATTGTCCTGATGCTGCGTAAAACGTCGCGGTTGCTGGCGTGGCAGTGGAGTTTGCTGTTCGGCATCACCGGCGCCATCGTCTGCGCCTCCAAACTGGCCTTTATGGGCTGGGGATTGGGTATTCGCGAGCTGGATTACACCGGCTTCAGCGGCCACTCAGCGCTCTCCGCGGCCTTCTGGCCTATCTTCTTATGGCTGCTCAGCGTTCGTTTTTCCGCAGGTGTGCAAAAAGTAGCCGTCGCCACCGGCTATGTTTTAGCCGCAGTGGTGGGGTATTCACGGCTGGTCATCCATGCGCATTCCGTCTCGGAAGTGATCGCTGGCCTGCTGCTGGGTGCTGCCGGCAGCGCTTTGTTCCTGTTGCTGCAAAAACGTACCGCTCGTGCGGATAGCGTGAATATTTCCTGGGGCGGCGCTGTGTGCCTGGTGATGGTCCCGCTTATCCTGTTGCATAGCGGCAATAAGGCGCCAACTCAGTCCCTGCTGGGGCAAATTGCTATTGCGGTAGGCCCGCTGGATAAACCCTTTACCCGCAACGACCTGCACAAGCAGGTCTGGTAA	MNWQLISFFGDSTVLLPSAAALFIVLMLRKTSRLLAWQWSLLFGITGAIVCASKLAFMGWGLGIRELDYTGFSGHSALSAAFWPIFLWLLSVRFSAGVQKVAVATGYVLAAVVGYSRLVIHAHSVSEVIAGLLLGAAGSALFLLLQKRTARADSVNISWGGAVCLVMVPLILLHSGNKAPTQSLLGQIAIAVGPLDKPFTRNDLHKQVW				NA	NA	NA	NA	NA
BMS020_01188	849	galF	COG1210	UTP--glucose-1-phosphate uridylyltransferase	ATGCATATGCTGCCGGCCACTAAGGCAATTCCAAAGGAGATGTTGCCGATCGTTGATAAGCCAATGATTCAGTACATTGTTGACGAAATCGTCGCCGCCGGGATCAAAGAGATTGTCCTGGTGACGCACTCCTCGAAGAACGCGGTGGAAAACCACTTTGATACCTCCTACGAGCTGGAAGCCCTGCTTGAGCAACGCGTGAAGCGCCAGCTGTTGGCGGAAGTCCAGGCCATTTGCCCGCCGGGCGTAACCATCATGAACGTGCGCCAGGCGCAGCCGCTGGGTCTGGGCCACTCCATCCTCTGCGCCCGCCCGGTCGTCGGGGATAACCCGTTTGTGGTGGTGCTGCCGGATATCATTCTCGATGGCGGCACCGCTGACCCGCTGCGCTATAACCTCGCCGCCATGGTCGCCCGCTTTAACGAGACCGGCCGCAGCCAGGTGCTGGCGAAACGCATGCCGGGGGATCTCTCCGAATACTCCGTGATCCAGACCAAAGAGCCGATGGTGGCGGAAGGGCAGGTAGCACGTATCGTCGAGTTTATTGAAAAACCGGACGAACCGCAGACTCTGGACTCCGACCTGATGGCGGTGGGCCGCTACGTGCTGTCGGCAGATATCTGGGCCGAACTGGAGTGCACCGAGCCGGGCGCCTGGGGGCGTATCCAGCTGACCGACGCCATTGCCGAGCTGGCGAAGAAGCAGTCCGTCGACGCGATGCTGATGACTGGCGAAAGCTATGACTGCGGTAAGAAAATGGGCTATATGCAGGCCTTCGTCACCTACGGAATGCGTAACCTGAAAGAGGGCGCCAAATTCCGCGAAAGCATCAAAAAACTGCTGGCCTGA	MHMLPATKAIPKEMLPIVDKPMIQYIVDEIVAAGIKEIVLVTHSSKNAVENHFDTSYELEALLEQRVKRQLLAEVQAICPPGVTIMNVRQAQPLGLGHSILCARPVVGDNPFVVVLPDIILDGGTADPLRYNLAAMVARFNETGRSQVLAKRMPGDLSEYSVIQTKEPMVAEGQVARIVEFIEKPDEPQTLDSDLMAVGRYVLSADIWAELECTEPGAWGRIQLTDAIAELAKKQSVDAMLMTGESYDCGKKMGYMQAFVTYGMRNLKEGAKFRESIKKLLA	PGPT0014875_2562	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
BMS020_01189	1584			hypothetical protein	ATGGAATGGATTGCCGATCCGTCAATCTGGGCAGGTCTCGTCACGCTGGTCGTTATCGAACTGGTGTTAGGTATCGATAACCTGGTCTTTATCGCTATCCTCGCTGAGAAGCTCCCGCCCGCCCAGCGCGACCGCGCGCGGATCACTGGCCTGATGCTGGCGATGGTGATGCGTCTCCTGCTGCTGGCCTCTATCTCCTGGCTCGTCACCCTGACCAAACCGCTGATTGTTTTTCACGACTTCAGCTTCAGCGCCCGCGATTTAATTATGCTGTTCGGCGGCTTGTTCCTGCTGTTTAAAGCAACCGTCGAGCTTAATGAGCGGCTGGAGGGAAAAGACAGCGATAATCCCACCCAACGCAGAGGGGCCAAATTCTGGGCCGTGGTGGCGCAGATCGTGGTGCTCGACGCTATCTTCTCGCTCGACTCGGTGATCACCGCGGTCGGCATGGTCGACCACCTGGCGGTGATGATGGCCGCCGTGATCATCGCTATTAGCCTGATGCTGATGGCCAGCAAGGCGCTGACGCGCTTCGTTAACAGCCACCCGACCATCGTGATCCTCTGTCTGAGCTTCCTGCTGATGATCGGCTTCAGTCTGATTGCTGAAGGCTTCAGCTTTATTATTCCGAAAGGCTATTTATATGCGGCAATTGGCTTCTCGGTGATGATTGAAGCCCTTAACCAGCTGGCGCTGTTTAACCGCCGTCGCTTTCTCTCCGCCAATATGACGCTGCGTCAGCGCACTACCGAGGCGGTAATGAATCTTTTGAGCGGGCAGAAAGAAAAAGCTGAACTGGATGCTGACACGGCGTCGCTGGTCGCCGATCAGGACCATCATCCGCTGTTTAATCCGCAGGAACGGCTGATGATTGAGCGGGTGCTGAACCTGAATCAGCGCAGCGTCAGCAGTATTATGACCTCCCGCCATGATATCGAGCGCATCGACCTCAGCGCGCCGGAGGAAGAGATCCGCAGCCTGGTGGAAAAAAATCAGCACACCCGCCTGGTGGTCACCGGCGGAAAGGATAATGAAGACCTGCTGGGGGTGGTGCATGTTATCGACCTGCTCCAGCAGTCCCTGCGCCAGGAGCCGCTGGATCTGCAGGCGCTGGTGCGCCAGCCGCTGGTCTTTCCGGAGGGGTTACCGCTCCTCTCCGCCCTTGAGCAGTTTCGTCAGGCCCGCACCCATTTTGCCTTTGTGGTGGATGAGTTTGGCTCCGTCGAGGGGATTGTGACCCTCAGCGACGTGATGGAGACCATTGCCGGCAATCTGCCCAACGAGGTGGAGGAGATCGACGCCCGGCACGATATTCAGCACCATCCGGACGGTTCGTGGACGGTCAACGGCCATATGCCGCTGGAGGACCTGGTGCAGTATGTTCCCCTGCCGCTGGATGATAAACGTGAGTACCACACTGTTGCCGGTCTGCTGATGGAGTATCTGCAGCATGTGCCGCAGGTGGGAGAAACCATTGAGATTGACGGTTATACCCTGCGTACGCTGCAGGTCGACAGCCATCGGGTGCAGAAGGTGCAGATCGTTCCGCCGGCAAAGCAGGATGAGCTGGATTATGAGGTGTAA	MEWIADPSIWAGLVTLVVIELVLGIDNLVFIAILAEKLPPAQRDRARITGLMLAMVMRLLLLASISWLVTLTKPLIVFHDFSFSARDLIMLFGGLFLLFKATVELNERLEGKDSDNPTQRRGAKFWAVVAQIVVLDAIFSLDSVITAVGMVDHLAVMMAAVIIAISLMLMASKALTRFVNSHPTIVILCLSFLLMIGFSLIAEGFSFIIPKGYLYAAIGFSVMIEALNQLALFNRRRFLSANMTLRQRTTEAVMNLLSGQKEKAELDADTASLVADQDHHPLFNPQERLMIERVLNLNQRSVSSIMTSRHDIERIDLSAPEEEIRSLVEKNQHTRLVVTGGKDNEDLLGVVHVIDLLQQSLRQEPLDLQALVRQPLVFPEGLPLLSALEQFRQARTHFAFVVDEFGSVEGIVTLSDVMETIAGNLPNEVEEIDARHDIQHHPDGSWTVNGHMPLEDLVQYVPLPLDDKREYHTVAGLLMEYLQHVPQVGETIEIDGYTLRTLQVDSHRVQKVQIVPPAKQDELDYEV				NA	NA	NA	NA	NA
BMS020_01190	1848			hypothetical protein	ATGAGACGAATACTGACAACGCTGATGATCCTGCTGGCGGTCATTGTCGCCGGGCTTACCTCGTTGGTATTGCTGGTCAATCCCAACGATTTTCGCGCCTATATGGTGCATGAGGTGGCAGAGCGCAGCGGTTATCAGCTTGAACTCGATGGCCCGCTGCGCTGGCACGTCTGGCCGCAGCTCAGCATTCTCAGCGGGCGCATGACGCTGACCGCCAGAGGCGCTGAAGAGCCGGTGATCCGCGCCGACAACATGCGCCTCGACGTGGCGCTGCTGCCGCTGCTTTCGCACCAGCTGCAGGTGAAGCAGGTGATGCTCAAGGGGGCGGTGATCCAGCTGACCCCGAAAACCGAGGCGGTTCGCGACAGCGCGGCGCCAGTGGTGCCGCATGACAATACTTTGCCGCTGGCCCCGGAGGACCGCGGATGGTCCTACGACGTGCGACAGCTGCAGGTGGCCGACAGCGTGCTCTTCTTCCAGCATGAAAACGGCGAGCAGGTGACCGTGCGCGATATCCGCCTGCAGATGGAGCAGGATGAGAACCACCGGGCCACCGTCGATTTCTCCGGCCGCGTCAACCGCGACCAGCGCGACCTGGCGCTGAACTTCTCCGCCACCGTGCAGGGCGGCGACTATCCGCATTCGTTAAAAGCCGACTTTAGCCAGCTCAGCTGGCAGCTGCGCGGCGCCGAGCTGCCCCCCGATGGCATCAATGGTCAGGGGAGTCTGCAGGCCAGCTGGCAGGAAGATAGCAAGACCCTGCGCTTTGATAATCTGAACCTGATGGCCAGCGGCAGCACCCTCACCGGCAACGGCAGCGTGGTGCTGGGAGAGCGCCCGGACTGGTCATTGGATCTGCACGCCACCACCCTGAATCTCGACAGTCTGCTGGCGTCCTCTTCGCCGGCGACCGACAGCAGCGCCAGCCAGCAGGGCCAGAGCCAGACGCGCCCGCTGCGTCCGGTGATCGCCGACAGTGATGAGCGCGAAGATTACCAGAGCCTGCGCGGCTTTACCGGCCGGATGGCCCTGAGCGCCGACCAGCTGCAGTGGCGCGGCCTGAACTTCACCCAGGTGCAGAGCGAGATCAGCAATAAGCAGGGGCTGCTGACGGTTAGCAAAATGCAGGGCAGCCTCGACGGCGGCCAGCTTTCCCTCCCCGGCACCCTTGATGCCCGCGGCGACACGCCGCGGGCGACGTTCCAGCCGGCGCTGCAGAACGTGGAGATCGGTTCGCTGATCAAAGCCTTCAACTATTCCTTAAGCCTGACCGGCAAGCTGTCGCTGACCGGCGAGTTTTCCGGAGCGCGCATTGACGCGGATGATTTCCGCCGTCGCTGGCAGGGCCAGGCGCAGATCCAGATGACTGATACCCGTACCGAAGGGCTTAACTTCCAGCAGCTGGTGCAGCAGGCCGTGGAGCGCAGCACCAACGTCCGGGCGCAGGAAAATTACGACAACGCCACCCGGCTGGATGCCGTGAGCAGCCAGCTGACGCTGGATAACGGGCTGGTGACGCTGAACCGCGTGCAGGGGCAGTCGGACGTGATGGCGATGACCGGCGAAGGACAGCTCGATCTGCAGAAAGAGAACTGCGATATGCGCTTTAACGTGCGCGTGCTCGGCGGCTGGAAAGGTGAGGGCAAGCTTATCGACCGCCTGAAGCAGACCGCCATCCCGCTGCGCATCTACGGCGACTGGCAGTCGCTGAGCTACAGCCTGCAGGTGGACCAGATCCTGCGTAAACAGCTGCAGGATGAAGCGAAGCAGCGCCTCAACGACTGGGTCGAACGTAATAAAGGCAGCAAAGAGAGCAAAGACGCTAAAAAGCTGCTCGATAAGCTGTAA	MRRILTTLMILLAVIVAGLTSLVLLVNPNDFRAYMVHEVAERSGYQLELDGPLRWHVWPQLSILSGRMTLTARGAEEPVIRADNMRLDVALLPLLSHQLQVKQVMLKGAVIQLTPKTEAVRDSAAPVVPHDNTLPLAPEDRGWSYDVRQLQVADSVLFFQHENGEQVTVRDIRLQMEQDENHRATVDFSGRVNRDQRDLALNFSATVQGGDYPHSLKADFSQLSWQLRGAELPPDGINGQGSLQASWQEDSKTLRFDNLNLMASGSTLTGNGSVVLGERPDWSLDLHATTLNLDSLLASSSPATDSSASQQGQSQTRPLRPVIADSDEREDYQSLRGFTGRMALSADQLQWRGLNFTQVQSEISNKQGLLTVSKMQGSLDGGQLSLPGTLDARGDTPRATFQPALQNVEIGSLIKAFNYSLSLTGKLSLTGEFSGARIDADDFRRRWQGQAQIQMTDTRTEGLNFQQLVQQAVERSTNVRAQENYDNATRLDAVSSQLTLDNGLVTLNRVQGQSDVMAMTGEGQLDLQKENCDMRFNVRVLGGWKGEGKLIDRLKQTAIPLRIYGDWQSLSYSLQVDQILRKQLQDEAKQRLNDWVERNKGSKESKDAKKLLDKL				NA	NA	NA	NA	NA
BMS020_01191	582	dcd_1	COG0717	dCTP deaminase	ATGCGTCTGTGTGACCGAGATATCGAAGCCTGGTTGGATGAAGGGCGACTGGCCATCAATCCGCGCCCGCCCGTTGAGCGTATTAATGGCGCGACGGTTGATGTACGGCTGGGTAATAAATTCCGCACCTTCCGCGGCCACACCGCGCCGTTTATCGATTTAAGCGGTCCGAAGGCGGAGGTGAGCGCCGCGCTGGACCGCGTGATGAGCGAAGAGATCGTTCTGCCGGAAGGGGAGGCCTTTTTCCTGCATCCGGGCGAACTGGCGCTGGCGGTGACCTATGAGTCGGTCACCCTGCCTGCCGACCTGGTGGGCTGGCTTGACGGGCGCTCCTCGCTGGCGCGCCTGGGGCTGATGGTGCACGTGACCGCGCACCGCATCGACCCGGGCTGGTCCGGCTGCATCGTGCTGGAATTCTACAACTCCGGTAAGCTGCCGCTGGCGCTGCGCCCGGGGATGCCCATCGGCGCGCTGAGCTTTGAACCATTATCGGGCCCGGCGGCCCGGCCATATAACCGCCGTGAAGACGCCAAATATCGCGACCAGCAGGGCGCGGTGGCGAGCCGAATCGACAAGGATTGA	MRLCDRDIEAWLDEGRLAINPRPPVERINGATVDVRLGNKFRTFRGHTAPFIDLSGPKAEVSAALDRVMSEEIVLPEGEAFFLHPGELALAVTYESVTLPADLVGWLDGRSSLARLGLMVHVTAHRIDPGWSGCIVLEFYNSGKLPLALRPGMPIGALSFEPLSGPAARPYNRREDAKYRDQQGAVASRIDKD	PGPT0021225_1073	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021225-dcd-K01494	NA	NA
BMS020_01192	642	udk	COG0572	Uridine kinase	ATGACTGATATGTCCCATCAGTGCGTCATTGTAGGCATCGCCGGCGCATCGGCTTCTGGCAAAAGTCTTATTGCCAGTACTCTCTATCGCGAATTGCGTGAACAAGTTGGCGACGAACATATTGGCGTCATTCCGGAAGACAGCTATTACAAAGATCAAAGTCATCTGTCGATGGAAGAGCGCGTCAAAACTAACTATGACCACCCGAGCTCAATGGACCACAGTCTGTTGTTCCAGCACCTGCAGATGCTGAAAAGCGGCCAGCCAATTGAACTGCCGGTCTACAGCTACGTCGAGCATACCCGCACGCCGAACACCATTCACGTCGAGCCGAAGAAGGTGATTATTCTCGAAGGGATCCTGCTGCTGACCGATGCGCGCCTGCGTAACGAGCTCAACTTCTCTATTTTCGTCGACACCCCGCTCGATATTTGCCTGATGCGCCGCATTAAGCGCGACGTTAACGAGCGCGGCCGCTCCATGGACTCGGTGATGGCCCAGTATCAGAAGACCGTACGCCCGATGTTCCTGCAGTTTATTGAGCCGTCGAAGCAGTATGCCGACATCATCGTGCCGCGCGGCGGCAAAAACCGCATCGCGATTGATATTCTGAAGGCCAAAATCAGTCAGTTCTTTGAATAA	MTDMSHQCVIVGIAGASASGKSLIASTLYRELREQVGDEHIGVIPEDSYYKDQSHLSMEERVKTNYDHPSSMDHSLLFQHLQMLKSGQPIELPVYSYVEHTRTPNTIHVEPKKVIILEGILLLTDARLRNELNFSIFVDTPLDICLMRRIKRDVNERGRSMDSVMAQYQKTVRPMFLQFIEPSKQYADIIVPRGGKNRIAIDILKAKISQFFE	PGPT0021230_2061	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021230-udk-K00876	NA	NA
BMS020_01193	849	alkA_1	COG0122	DNA-3-methyladenine glycosylase 2	ATGGTGCTGTTACCCTGGACCCCGCCCTACGACTGGGGGTGGATGGTTGGTTTTCTGCAGGCGCGCGCGGTCGCCGGCGTCGAGCGTTTTCATGACGGAGGCTACAGCCGCAGCTTTCGCGTAGCAGGCCACGGCGGGCTGATTCATCTGGCGCCGGACGAGGAGGCGCAGGGCCTGCGGGTGACGCTCTCCCCGGGGCTGCAGCCGGTGGCGGAGATCTGCTATGCGCGAATTGGCCAGCTGTTTGATCTGGCCTGCGACCCGCAGCAGGTCGCTCGCACGCTGGGCGACCTGGCGCAGGCGCGGCCGGGGCTGCGCCTGCCCGGGGCGCTGGACGCTTTCGAACAGGCGGTGCGTGCGGTGCTCGGCCAGCTGGTGAGCGTGGCGATGGCCGCCCGGCTCACCGCCAAAGTGGCGGCCGGCTGGGGCGAACCGCTGGCGGATGCCCCCGGCTATGTTCTATTCCCCACGCCGGAGGCGCTTTCCCGGGCCGATCCGCAGGCGCTGAAGGCGCTGGGGATGCCGCTTCGCCGCGCGGAGGCGCTGATCCACCTTGCCCGGGCGGCGCTCAGCGGCGAGCTGCCCCTGACCGCGCCGACGGATATCGACGCCGGGCTGCGTGAATTGCAGGCTTTGCCCGGGATTGGCCGCTGGACGGCCAGTTATTTTGCCCTGCGCGGCTGGCAGGTGAAGGATATCTTTTTGCCGGACGACTACCTGATTAAACAGCGCTTTCCGGGAATGACCCCGGCCGCCATCGCCCGCTATGCTCGCCGCTGGCAGCCGATGCGATCTTATGCGCTGTTGCATATCTGGTATACCGATGACTGGGCGCCGGCGGCGGAATAG	MVLLPWTPPYDWGWMVGFLQARAVAGVERFHDGGYSRSFRVAGHGGLIHLAPDEEAQGLRVTLSPGLQPVAEICYARIGQLFDLACDPQQVARTLGDLAQARPGLRLPGALDAFEQAVRAVLGQLVSVAMAARLTAKVAAGWGEPLADAPGYVLFPTPEALSRADPQALKALGMPLRRAEALIHLARAALSGELPLTAPTDIDAGLRELQALPGIGRWTASYFALRGWQVKDIFLPDDYLIKQRFPGMTPAAIARYARRWQPMRSYALLHIWYTDDWAPAAE				NA	NA	NA	NA	NA
BMS020_01194	1371	dnaK_1		Chaperone protein DnaK	ATGGGGATTTTGCAGACGATGTTTATTGGTTTTGACTACGGCACCGCCAACTGTTCGGTGGCCGTGATGCGGGAAAACAAGCCCCAGCTGTTGACGCTGGAAAACGGCAGCGCGCTGCTGCCCTCCATGCTCTGCGCACCGACGCGCGAAGCGGTCAGCGAGTGGCTCTATCGCCATCACGAGGTGCCGACCCACAGCGACGAAAACCAGGCGCTGCTGCGCCGGGCCATCGCCGCCAACCGCGACGAAGACATCGAGGTGCTGCGCAACAGCGTGCAGTTCGGCCTCGCCTCCCTGCATCAGTATGTTGAAGATCCGGAAGAGGTCTACTTCGTCAAATCGCCAAAGTCCTTCCTCGGCGCCAGCGGCCTCAAGCCGCAGCAGGTGGCCCTGTTTGAAGACCTGGTCTGCGCCATGATGTTGCACATCAAGCTGCAGGCGGAAAGCCAGCTGCCCGAGCAGATCGACCAGGCGGTGATAGGCCGGCCGATCAACTTCCAGGGCCTCGGCGGCGACGAAGCCAACGCCCAGGCGCAGGGGATCCTTGAGCGGGCCGCCCTCCGCGCCGGTTTCCGCGATGTGGTCTTCCAGTTTGAACCGGTGGCCGCCGGGCTGGATTTCGAAGCCACCCTCAGTGAAGAGAAGCGGGTGCTGGTCGTCGATATCGGCGGCGGGACCACCGACTGCTCCCTGCTGCTGATGGGCCCGCAGTGGCGGGAGCGCGCCGACCGCCAGCAGAGCCTGCTCGGCCACAGCGGCTGCCGCATCGGCGGTAACGACCTCGATATTGCCCTGGCCTTCAAATGCCTGATGCCCCTGCTCGGCATGGGCGGCGAAACGGAGAAAGGCACCGCGCTGCCGATCCTTCCGTGGTGGAACGCGGTGGCGATCAACGACGTCCCGGCGCAAAGCGACTTCTACAGCACCGCCAACGGCCGGCTGCTTAACGACCTGCTGCGCAGCGCCCGGGATGCCGATAAAGTGGCCCTGCTGCTGAAGGTCTGGCGTCAGCGCCTGAGCTATCGTCTGGTGCGCAGCGCCGAAGAGAGCAAAATCGCCCTCTCCAGCGCGGACAGCGTCGAGACCGCGCTGCCGTTTATTCAGGACGAGCTGGCCACCGCCATCGCCCGGCAGGGGCTGGAAGCGGCGCTGGATCAGCCGCTGAGCCGCATTATGGAACAGGTGCAGCTTGCCCTCGACAGCAGCCAGACCACCCCGGACGTGATCTATCTGACCGGCGGTAGCGCCCGCTCACCGCTGATCAAAAAGGCGCTGGCGGCCAAGCTCCCGGGTATTCCGCTGGCCGGTGGGGATGATTTTGGCTCAGTAACCGCCGGGCTGGCCCGCTGGGCGCAGGTGGTTTTCCGCTAG	MGILQTMFIGFDYGTANCSVAVMRENKPQLLTLENGSALLPSMLCAPTREAVSEWLYRHHEVPTHSDENQALLRRAIAANRDEDIEVLRNSVQFGLASLHQYVEDPEEVYFVKSPKSFLGASGLKPQQVALFEDLVCAMMLHIKLQAESQLPEQIDQAVIGRPINFQGLGGDEANAQAQGILERAALRAGFRDVVFQFEPVAAGLDFEATLSEEKRVLVVDIGGGTTDCSLLLMGPQWRERADRQQSLLGHSGCRIGGNDLDIALAFKCLMPLLGMGGETEKGTALPILPWWNAVAINDVPAQSDFYSTANGRLLNDLLRSARDADKVALLLKVWRQRLSYRLVRSAEESKIALSSADSVETALPFIQDELATAIARQGLEAALDQPLSRIMEQVQLALDSSQTTPDVIYLTGGSARSPLIKKALAAKLPGIPLAGGDDFGSVTAGLARWAQVVFR				NA	NA	NA	NA	NA
BMS020_01195	1857	sasA_1		Adaptive-response sensory-kinase SasA	TTGCTGCTGATCGCCCCGCAGGCGCAGTCGGCGCCCCGACAACTGGGAACAGATATCCCCGTCGAGTGGTACGCGGACGACAGCGGCCAGATGACTATCGATCGCTTTGCCGACCTGCCCGTGGACCAGCTCGCCACCACCCGGCAAATCCCCTCCTTCGGCTATTCACGCAAAACCCTGTGGCTGCGCAGCGAGCTGCCGGGTGATTGGTTTGCCGGCGAGTCGCGCTGGCTGCAGATTGGTCCCTCTTTCGTCGACCACCTGACTCTCTATTACCGGCCACTGGGCAGCGACGCGCCGTGGACCGCGCGGACCTTTGGCGACCGTGACCTGGCCCGGGAGAGCGATCTCCACTATCGGGAAAGCGTGCTGATCCTCCCTCCGCCGCCCACCGCCGCCGGCTATGAGATGGTCTTTCGCCTGCAGAGCACCAGCACCCTGATCCTGCTGGCCTCCCTCTCTTCTCCGCAGGCCTATCTGCAGCGGGCCACCGCCGATACCGCCTTCTGGAGCTTCTATTTTGGCCTCGCGGCGGTCGCCAGCGGCGTGGCGCTGTGGCTGGCCCTGGCCCTGCGCCGGCGTCTGCTGTGGGGCATCTGCTTCTTCTCGCTCAATTATCCGCTGGTGGGCGCCCTGCACGGCTTCCCGGAGTGGTTCTTCGGCCACGCCGCGCTGCCCTTCCAGGACTTTATGATCAGCAGCCTCTCCCTGTTCAGCTATGCCACCGCCCTGTGGCTGCACAGCGAGATATTTGATTTGAAGAAAAATATGCCGCGGCTTTACCGGCTGCTGATCGCCGCCGTGGCGCTCAACCTGCTGCTGCAGGTCAGCATTCCGCTGGGGTTTTACGGCCTCGCCATGCAGATTGAAGGGGTGATCTTTATCATTATCACTCCGGTGCTGCTGTTCACCTCCTGGTGGCTGTGGCGCAAAAAAGCTATCGACCGCAACACCCTCCTGCTGGGGCTCCTGCCGCCGTTCTATGTCGCCGCCGCGGTGCTGGTGCAGCTGTCGATCCACGGTATTATCCCGTTTCATATGGCGATCTATTCCCTCTGGCAGTATGCGCTGATCGTCCACATCATTACGGTGCTGATCATTGCCATCCTGCGGGTGCGGGCTGAAAACCGTCAGCTGGAGCAGAAGCAGCGCCTGGCGCGCGAGCTGCAGATCGAGCGCGAGGCCAGCTTCCACCAGCGGCAGTTTATGGGCATGGTGGCGCATGAATTCCGCACCCCGCTGGCGGTGATCCAGGCCGCGCTGGAGAATCTCCGCCTCTCGGCGGCGTCGGCCAGCCAGGAGGCGCGCTTCGATCGCATCGGCCGCGCCGCCACCCGTCTGGTGCAGCTCACCGATAACTGCCTCGCCGACGCCCGCCTCGCTTCCCACGATCTGCACGTTGACCGCCAGCAGACCGCCCTGCTGACGGTGATCACTATGGCGGCCTCGGTAGTGGCTATCTCCCACGACCATTACCTGAACATTCGCCATCACGGCGCGGTGGAAAGTCCGCAGCTACAGGCCGACGCCGGCCTGCTGTGCATCGCCATCGCCAACCTGCTGGATAACGCGGTCAAGTATTCGCCGCCGGGCGAAATCACCATCGATATTCACGCCGATGCCGGGCAAACAGAGCTGCGCATTCGCGACTACGGTCCTGGACTCCCCGCCGGGCAGGCGGAACTGATCTTTGAGCGCTACCGACGCGGAGAACATACGTCGCCAGTGCCGGGCGGCACCGGTCTCGGACTGTATGTTGCGCGCCAGATCGTGCAGGCTCATGATGGCAAACTGTGGCTGGCCGAGCATGGCCCGGACGGCTGCACCTTTATTCTCACCCTCCCCACGGTTGCTTAA	MLLIAPQAQSAPRQLGTDIPVEWYADDSGQMTIDRFADLPVDQLATTRQIPSFGYSRKTLWLRSELPGDWFAGESRWLQIGPSFVDHLTLYYRPLGSDAPWTARTFGDRDLARESDLHYRESVLILPPPPTAAGYEMVFRLQSTSTLILLASLSSPQAYLQRATADTAFWSFYFGLAAVASGVALWLALALRRRLLWGICFFSLNYPLVGALHGFPEWFFGHAALPFQDFMISSLSLFSYATALWLHSEIFDLKKNMPRLYRLLIAAVALNLLLQVSIPLGFYGLAMQIEGVIFIIITPVLLFTSWWLWRKKAIDRNTLLLGLLPPFYVAAAVLVQLSIHGIIPFHMAIYSLWQYALIVHIITVLIIAILRVRAENRQLEQKQRLARELQIEREASFHQRQFMGMVAHEFRTPLAVIQAALENLRLSAASASQEARFDRIGRAATRLVQLTDNCLADARLASHDLHVDRQQTALLTVITMAASVVAISHDHYLNIRHHGAVESPQLQADAGLLCIAIANLLDNAVKYSPPGEITIDIHADAGQTELRIRDYGPGLPAGQAELIFERYRRGEHTSPVPGGTGLGLYVARQIVQAHDGKLWLAEHGPDGCTFILTLPTVA				NA	NA	NA	NA	NA
BMS020_01196	705	torR	COG0745	TorCAD operon transcriptional regulatory protein TorR	ATGGCTTTACGGCTGGCGATAATTGAAGATAACCCCGATCTGCTGGATGAACTGCTGGCCTGGCTGGGCTATCGCGGCTTCGAGGTCTGGGGGACGTGCAGCGCCGAAGCCTTCTGGCGGCAGCTGCACAGCCATCCGGTGGACATCGTGCTGATAGATATCGGTCTGCCCGGCGAGGATGGCTTCAGCGTCCTGAGCTACCTGCATGAGCTGGGCCACTACGGTCTGGTGGTGGTCAGCGCCCGCGGCCAGCAGCAGGATAAACTGCAGGCGCTGAGCCTCGGGGCGGATGCTTACCTGATCAAGCCGGTTAACTTCGCCCACCTCGCGGAGACCCTGACCGCCCTCGGCGCCCGCCTGCAGCAGGATCGCCCGGCGGCCTCCCCGCCGCCGGAGACGGCCAGCGCCGTCTCTCCCCCCGCCACCGGGCTCTGGCGTCTGCACGAAGATAAACTGATCTCACCCGACGCCCGGACGCTGGAGTTAACCCAGCAGGAATATCGCCTGGTGGAACTCTTAATGCGCAATCGCAACGAAGTGTGCAGCAAGCTGGATCTCCATGCCTGCCTGTTCGCCCATGAAAGCGAGCCTGACCTGCACCGCATCGACGTGGTGGTTAGCCGCCTGCGCCACAAGGCTCGCCAGCAGGGGATCCACCTGCCCGTACGCGCCATCTTTGGTAAGGGGCTGGCCTTTATCTCCTGA	MALRLAIIEDNPDLLDELLAWLGYRGFEVWGTCSAEAFWRQLHSHPVDIVLIDIGLPGEDGFSVLSYLHELGHYGLVVVSARGQQQDKLQALSLGADAYLIKPVNFAHLAETLTALGARLQQDRPAASPPPETASAVSPPATGLWRLHEDKLISPDARTLELTQQEYRLVELLMRNRNEVCSKLDLHACLFAHESEPDLHRIDVVVSRLRHKARQQGIHLPVRAIFGKGLAFIS	PGPT0011060_60	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS|LIPID|IVA_REGULATION,PGPT0011060-phoP-K07660	NA	NA
BMS020_01197	141			hypothetical protein	ATGGCCATGCAAACGTGGTTAGTTTTATTGCTATGCATTTTTTTCTTCAGCATCTCTGTATACAGTTTTATTTCCTATCTGAAAGACAGGAAACGGGTAAAATTTACCTTTAACGATAAGCGTTCGACGCGTCGTAAATAA	MAMQTWLVLLLCIFFFSISVYSFISYLKDRKRVKFTFNDKRSTRRK				NA	NA	NA	NA	NA
BMS020_01198	612			hypothetical protein	ATGAGAAACATTAATGTCACCATCAATACCCGTAACACCTTTGTCCGTGAATCGCTGGTCGCCATGGTCAATGACCTCACCCGGGGCGATCAGCGGGCGCGCTTTTCCTGGCGGAATAATGACCTGTCAGGGGAAGACATCATCATTTGCGAAGTGATCCCCGGCGAAATCTACCTGTGCAATACGCTGATTAAAAACAGGAAAAAAGGCAGTTCGCTGATTATCCTCCACAGCTACGACCAGCTGCCGGAAGAGGATTTCATGATTAACTGCCTGAAAGGGGTCATTTTTGTCTCGCTCAAGACGGCCAGTATTCCGCAACTGCTGACGATCATTAAAAGCGAGCTCCAGCATTGTATGGCGCCTTCGGCCACCGACGACGCGGGCCGGGAGCTCAGCTGCGCCAGCTGCCCCCATCGCGTGCTGTCGCGATCCCAGACCGCCGTGGTGCACGGTATTCTCGAAGGTCTCGATATGAGTAAAATCGCCGCCCTGCAGCGCGTCAGCCCCCGCACCGCCGCTTATCATAAGAATAAGATAATGGAAAAATACAGCCTGAATAATAACCACGACTTTTTCCAGTTTATGAATCTGTTACGTGAGCGCTGGTAG	MRNINVTINTRNTFVRESLVAMVNDLTRGDQRARFSWRNNDLSGEDIIICEVIPGEIYLCNTLIKNRKKGSSLIILHSYDQLPEEDFMINCLKGVIFVSLKTASIPQLLTIIKSELQHCMAPSATDDAGRELSCASCPHRVLSRSQTAVVHGILEGLDMSKIAALQRVSPRTAAYHKNKIMEKYSLNNNHDFFQFMNLLRERW				NA	NA	NA	NA	NA
BMS020_01199	1275	dctA_1	COG1301	C4-dicarboxylate transport protein	GTGGCAAACGCAAACAAACTCACGCTCTTCATCGTCATTTTTATGCTGATGGGGATCCTCTCCGGCGCGGCTATCCATGCCTACGCGACGCCGACCACCATCTCCGCATGGGCAGACAACATCACGCTGCTGACCGATCTGTTTCTGCGCTTAATCAAAATGGTCATCGCGCCGTTGGTGTTCAGCACCCTGACGGTCGGTATTATGCGCCTCGGCGAGACGGCGACCATTGGCCGGGTGGGCGGTAAGGCGATGGTGTGGTTTATCACCTCTTCGGTATTGTCCATTCTCGTCGGGCTGGTGATCGTCACCTTCCAGCACCCGGGCGCCGGGCTAAACCTGACGGTACCGAAAGAGGCGGTGGATACCGGCCTGGCGGTCAGCGGCATGACCCTGAAAGGGTTCCTGTCGCATACCATTCCCACCAGCATCACCGAGGCGATGGCCAACAACGAGATCCTGCAGATCGTGGTGTTCTCGATGTTCTTTGGCATCGCCGGCGCGTCGCTGGGGGAGAAGTTTAATGCGCCGCTGGTGGCGGCCCTTAACGTGGTGTCGCACATTATGCTGAAGGTGACGGGCTATGTGATGTACGTTGCGCCGCTGGCCATCTTCGCCGCCATCTCGTCGGTGATTGCCTCGCAGGGGCTGGGAATTTTGCTCAACTACGCGTCGTTCATTGGCGGTTATTACCTGGCGGTGCTGCTGACCAGCGCGGTGCTGATTGCCGTCGGCTATATGGTGCTCAAGAAAGAGGTCTTCCGCCTGCTGAACATGCTGAAAGATCCGGTGCTGGTGGCTTTTACCACCAGCAGCTCGGAAGCGGCCTATCCGAAGACCCTCGAGCGGCTGGTGAAGTTTGGCTGTTCGCGAAATATCGTCTCGTTCGTCCTGCCGATTGGTTACTCATTTAACCTCGTCGGCTCGATGGTTTACTGCTCCTTCGCCGCGATGTTTATCGCTCAGGCCTATAACGTGTCGCTGAGCTTCAGCGAGATGACGGTCATGATGCTGACCCTGATGCTGGCCTCAAAAGGCATCGCCGGGGTGCCGCGCTCGGCGCTGGTGGTGCTGGCGGCCACCATTCCCAGCTTCCATATTCCGGTTGCCGGGATCCTGCTGCTGATGGGCATCGACCACTTCCTCGATATGGGGCGCTCCGCCATCAACGTGCTGGGCAATGGCATCGCCACCGCCATGCTGTCGAAAAATGAAGGTCTGCTCACCGACGAGGAAGCGCAGCCGGACTGGGAAGCGGAGAAAGTGGAAGCCTGA	MANANKLTLFIVIFMLMGILSGAAIHAYATPTTISAWADNITLLTDLFLRLIKMVIAPLVFSTLTVGIMRLGETATIGRVGGKAMVWFITSSVLSILVGLVIVTFQHPGAGLNLTVPKEAVDTGLAVSGMTLKGFLSHTIPTSITEAMANNEILQIVVFSMFFGIAGASLGEKFNAPLVAALNVVSHIMLKVTGYVMYVAPLAIFAAISSVIASQGLGILLNYASFIGGYYLAVLLTSAVLIAVGYMVLKKEVFRLLNMLKDPVLVAFTTSSSEAAYPKTLERLVKFGCSRNIVSFVLPIGYSFNLVGSMVYCSFAAMFIAQAYNVSLSFSEMTVMMLTLMLASKGIAGVPRSALVVLAATIPSFHIPVAGILLLMGIDHFLDMGRSAINVLGNGIATAMLSKNEGLLTDEEAQPDWEAEKVEA	PGPT0000805_659	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-GLUTAMATE_TRANSPORT,PGPT0000805-gltP|gltT-K11102	NA	NA
BMS020_01200	1239	mdtA_2		Multidrug resistance protein MdtA	ATGAAAGGCAGTAACATACGTCGTTGGGGCGCCGCGCTGGCGGTAGTGATTATCGCCGGGACCGCCTACTGGTTCTGGCACGATCGTGGAACGAGCGGCAGCGGGACGCCCGCCGCCGGGCAGGGTCCGCAGGGGCCGGGCGGCGCGCGCCATGGTCGCTTTGGCGGCGCGCTGGCGCCGGTGCAAGCCGCCACCGCGACCGAACAAGCGGTGCCGCGCTATCTTACCGGGCTGGGTACCGTGACGGCGGCCAATACCGTCACCGTCCGCAGCCGGGTCGACGGCCAGCTGCTGAGCCTTCACTTCCAGGAGGGGCAGCAAGTCAAAGCCGGCGATCTGCTGGCGCAGATCGACCCCAGCCAGTTTAAGGTGGCCCTTGCCCAGGCGCAGGGTCAGCTGGCGAAAGATAACGCCACCCTGGCCAACGCCCGCCGCGATCTGGCCCGTTACCAGCAGCTGGTGAAAACCAACCTCGTCTCCCGCCAGGAGCTCGACACCCAGCAGTCGCTGGTGGTGGAATCCGCCGGCACCGTGAAGGCCGATGAAGCGGCCGTCGCCAGCGCCCAGCTGCAGCTCGACTGGACGCGCATCACCGCGCCGATTGACGGCCGCGTCGGCTTAAAGCAGGTGGATATCGGCAACCAGATTTCCAGCGGGGATACCACCGGGATTGTGGTTCTCACCCAGACGCACCCGATCGACGTGGTCTTTACCCTGCCGGAAAGCACCATCGCCACGGTGGTGCAGGCGCAGAAAGCGGGCAAAGCGCTCAGCGTCGAAGCCTGGGACCGCACCAATAAGCAGCAAATCAGCGTCGGGGAGCTGCTGAGCCTCGACAACCAGATCGATGCGACCACCGGGACCATCAAGCTGAAGGCGCGGTTTAGCAATCTGGACGACGCCCTGTTCCCCAACCAGTTCGTTAACGCCCGCCTGCTGGTGGATACCCAGCAGAACGCGGTGGTGATCCCTGCCGCCGCCCTGCAGATGGGCAACGAAGGGCATTTCGTATGGGTGCTGAACGATGAGAATAAGGTCAGCAAACACAGCGTCACCCCGGGGATTCAGGACAGCCAGAAAGTGGTGATCAGCGCCGGGCTTTCCGCCGGGGATCGCGTGGTCACCGACGGGATTGACCGCCTGACCGAAGGGGCGAAAGTGGAAGTTGTCACCGCCAGCAGCGGCGAGCAGGCGCAGCCCGCCCCGCGCCAGAGCGGTAAACACGGAGCGCGTTCCTGA	MKGSNIRRWGAALAVVIIAGTAYWFWHDRGTSGSGTPAAGQGPQGPGGARHGRFGGALAPVQAATATEQAVPRYLTGLGTVTAANTVTVRSRVDGQLLSLHFQEGQQVKAGDLLAQIDPSQFKVALAQAQGQLAKDNATLANARRDLARYQQLVKTNLVSRQELDTQQSLVVESAGTVKADEAAVASAQLQLDWTRITAPIDGRVGLKQVDIGNQISSGDTTGIVVLTQTHPIDVVFTLPESTIATVVQAQKAGKALSVEAWDRTNKQQISVGELLSLDNQIDATTGTIKLKARFSNLDDALFPNQFVNARLLVDTQQNAVVIPAAALQMGNEGHFVWVLNDENKVSKHSVTPGIQDSQKVVISAGLSAGDRVVTDGIDRLTEGAKVEVVTASSGEQAQPAPRQSGKHGARS	PGPT0003585_938	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003585-mdtA-K07799	NA	NA
BMS020_01201	3123	mdtB_1		Multidrug resistance protein MdtB	ATGCAGGTGTTACCCCCAGGCCGCACCGGCGGCCCGTCCCGGCTTTTTATTATGCGTCCGGTGGCCACCACGCTGCTGATGGTGGCGATCCTGCTGGCCGGGATCATCGGCTACCGTTTTCTGCCGGTCTCCGCCCTGCCGGAGGTCGATTACCCGACCATCCAGGTGGTCACCCTCTATCCGGGCGCCAGCCCGGACGTGGTGACCTCCGCCATCACCGCCCCGCTGGAGCGCCAGTTCGGCCAGATGTCCGGCCTCAAGCAGATGTCGTCGCAAAGCTCCGGCGGCGCCTCGGTCGTTACGCTCCAGTTCCAGCTGACCCTGCCGCTGGACGTCGCCGAGCAGGAAGTGCAGGCGGCCATTAACGCCGCCACCAACCTGCTGCCGAGCGATCTGCCCAACCCGCCGGTCTACAGCAAGGTCAACCCGGCGGATCCGCCGATCATGACCCTCGCCGTCACCTCCTCGGCCATTCCGATGACCCAGGTGGAGGATATGGTGGAGACCCGGGTGGCGCAGAAGATTTCTCAGGTTTCCGGCGTCGGTCTGGTGACCCTCGCCGGCGGCCAGCGCCCGGCGGTGCGGGTCAAGCTGAACGCCCAGGCCATCGCCGCCCTCGGCCTGACCAGCGAAACCGTGCGCACCGCTATCACCAGCGCCAACGTCAACTCGGCCAAAGGCAGCCTCGACGGCCCGGCCCGCGCGGTGACGCTTTCCGCTAACGATCAGATGCAGTCGGCGGAAGATTACCGCCGGCTGATTATCGCTTATCAGAACGGGGCGCCGATCCGCCTTGGCGACGTCGCCAGCGTCGAACAAGGCGCTGAGAACAGCTGGCTGGGGGCGTGGGCCAACCAGCAGCGGGCCATCGTGATGAACGTCCAGCGTCAGCCGGGGGCCAACATTATCGACACCGCCGACAGCATTCGCCAGATGCTGCCGCAGCTCACCGAGAGCCTGCCAAAATCGGTGAAGGTGCAGGTTCTTTCCGACCGGACCACCAATATTCGCGCCTCGGTGCGCGACACGCAGTTTGAGCTGATGCTGGCCATCGCCCTGGTGGTGATGATCATCTATCTGTTCCTGCGCAACGTCCCGGCGACCATTATTCCCGGCGTCGCGGTGCCGCTGTCGCTGGTGGGCACTTTCGCGGTGATGGTGTTCCTCGACTTCTCCATCAACAACCTGACGCTGATGGCCCTCACCATCGCCACCGGCTTTGTGGTGGATGACGCCATCGTGGTGATCGAGAACATCTCGCGCTATATCGAAAAAGGCGAGAAACCGCTGGCCGCCGCGCTGAAAGGCGCAGGGGAAATTGGCTTCACCATTATCTCCCTCACCTTCTCGCTGATCGCGGTGCTGATCCCGCTGCTGTTTATGGGCGATATCGTCGGCCGCCTGTTCCGCGAATTCGCCGTCACCCTTGCCGTCGCTATTCTTATCTCGGCGGTGGTCTCCCTGACCCTGACGCCGATGATGTGCGCCCGCATGTTAAGCCACGAATCGCTGCGCAAGCAGAACCGCTTCTCGCGGGCCAGCGAGCGCTTCTTTGACCGGGTGATCGCCGTCTATGGCCGCTGGCTGAGCCGGGTGCTGAACCATCCGTGGCTGACGCTCGGCGTCGCCCTGAGCACCCTGGCGCTGTCGATCCTCCTGTGGATCTTTATTCCCAAAGGCTTCTTCCCGATTCAGGATAACGGCATTATCCAGGGCACCCTCCAGGCGCCGCAGTCGGTCTCCTTCGCCAGCATGGCCCAGCGCCAGCAGCAGGTTTCCGATATTATCCTCAAGGATCCGGCGGTGGAGAGCCTGACCTCGTTTGTCGGCGTCGACGGCACCAACCCGGCGCTGAACAGCGCCCGCCTGCAGATCAACCTCAAGCCGCTGGATGAACGCGACGACCGCGTTCAGACGGTGATTAGCCGTCTGCAGCAGGCGGTGGCCGGCGTCCCCGGCGTGGCGCTCTATCTGCAGCCGACCCAGGATCTGACCATCGACACCACGGTGAGCCGCACCCAGTACCAGTTCACTCTGCAGGCGAACTCCCTCGAGGCGCTGAGCACCTGGGTGCCGCCGCTGCTCAGCCGCCTGCAGGCTCAGCCGCAGCTGGCCGACGTCAGTAGCGACTGGCAGGACAAAGGCCTGGCCGCCTACATCAAGGTGGACCGGGACAGCGCCAGCCGCCTCGGCATCTCGATGGCGGACGTCGATAACGCGCTGTACAACGCCTTCGGCCAGCGGCTGATCTCCACCATTTACACCCAGGCGAATCAGTATCGCGTGGTGCTTGAGCAGGATACCGAAGCGACGCCGGGCCTGGCGGCGCTGGATAATATCCGCCTGACCAGCAGCGACGGCGGCATCGTGCCGCTGACCGCCATCGCCACGGTGGAGCAGCGTTTTACCCCGCTGTCGGTGAACCACCTCGATCAGTTCCCGGTGACCACCATCTCGTTTAACGTGCCGGACAACTATTCGCTCGGCGAAGCGGTGGAGGCGATCCTCGCCGCCGAACAGTCGCTGGATTTCCCGACCGATATCCGCACCCAGTTCCAGGGCAGCTCGCTGGCCTTCCAGTCGGCGCTGGGCAGCACCGTCTGGCTGGTCGTTGCCGCGGTAGTGGCGATGTATATCGTGCTGGGGGTGCTGTATGAGAGCTTTATCCATCCGATCACCATTCTCTCCACCCTGCCCACCGCCGGGGTCGGGGCGCTGCTGGCGCTGTGGCTGGCGGGCAGCGAGCTGGACGTGATCGCCATCATCGGCATCATTCTGCTGATCGGCATCGTGAAGAAGAACGCCATCATGATGATCGACTTCGCGCTGGCCGCCGAGCGCGAGCAGGGTATGCCGCCGCGGGAGGCGATCTATCAGGCCTGTCTGCTGCGTTTTCGCCCGATCCTGATGACCACCCTGGCCGCCCTGCTCGGCGCCCTGCCGCTGATGCTGAGCACCGGCGTCGGCGCCGAGCTGCGGCGTCCGCTGGGGATCGGCATGGTCGGCGGTCTGATGCTCAGCCAGGTGCTGACCCTGTTCACCACCCCGGTGATCTACCTGCTGTTCGACCGCCTGTCGCTGCATCTGAAGCGCCGCTTCCCGCGTCAGGAAGAGGAGGCGTAA	MQVLPPGRTGGPSRLFIMRPVATTLLMVAILLAGIIGYRFLPVSALPEVDYPTIQVVTLYPGASPDVVTSAITAPLERQFGQMSGLKQMSSQSSGGASVVTLQFQLTLPLDVAEQEVQAAINAATNLLPSDLPNPPVYSKVNPADPPIMTLAVTSSAIPMTQVEDMVETRVAQKISQVSGVGLVTLAGGQRPAVRVKLNAQAIAALGLTSETVRTAITSANVNSAKGSLDGPARAVTLSANDQMQSAEDYRRLIIAYQNGAPIRLGDVASVEQGAENSWLGAWANQQRAIVMNVQRQPGANIIDTADSIRQMLPQLTESLPKSVKVQVLSDRTTNIRASVRDTQFELMLAIALVVMIIYLFLRNVPATIIPGVAVPLSLVGTFAVMVFLDFSINNLTLMALTIATGFVVDDAIVVIENISRYIEKGEKPLAAALKGAGEIGFTIISLTFSLIAVLIPLLFMGDIVGRLFREFAVTLAVAILISAVVSLTLTPMMCARMLSHESLRKQNRFSRASERFFDRVIAVYGRWLSRVLNHPWLTLGVALSTLALSILLWIFIPKGFFPIQDNGIIQGTLQAPQSVSFASMAQRQQQVSDIILKDPAVESLTSFVGVDGTNPALNSARLQINLKPLDERDDRVQTVISRLQQAVAGVPGVALYLQPTQDLTIDTTVSRTQYQFTLQANSLEALSTWVPPLLSRLQAQPQLADVSSDWQDKGLAAYIKVDRDSASRLGISMADVDNALYNAFGQRLISTIYTQANQYRVVLEQDTEATPGLAALDNIRLTSSDGGIVPLTAIATVEQRFTPLSVNHLDQFPVTTISFNVPDNYSLGEAVEAILAAEQSLDFPTDIRTQFQGSSLAFQSALGSTVWLVVAAVVAMYIVLGVLYESFIHPITILSTLPTAGVGALLALWLAGSELDVIAIIGIILLIGIVKKNAIMMIDFALAAEREQGMPPREAIYQACLLRFRPILMTTLAALLGALPLMLSTGVGAELRRPLGIGMVGGLMLSQVLTLFTTPVIYLLFDRLSLHLKRRFPRQEEEA	PGPT0003590_688	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003590-mdtB-K07788	NA	NA
BMS020_01202	3078	mdtC_1		Multidrug resistance protein MdtC	GTGAAGTTTTTCGCCCTCTTCATTTACCGCCCGGTGGCGACGATCCTTATCTCGCTGGCCATCACCCTGTGCGGCATTCTCGGCTTCCGGCTGCTGCCGGTGGCCCCGCTGCCGCAGGTGGATTTCCCGGTGATCATGGTCAGCGCCTCGCTGCCGGGGGCCTCGCCGGAGACCATGGCCTCGTCGGTGGCCACCCCGCTGGAGCGCTCCCTGGGGCGGATTGCCGGGGTCAATGAGATGACCTCCTCCAGCTCGCTCGGCAGCACCCGCATCATTCTCGAGTTTAACTTCGACCGCGATATCAACGGCGCGGCGCGCGACGTGCAGGCGGCGATCAACGCCGCGCAAAGCCTGCTGCCGAGCGGGATGCCGAGCCGGCCGACCTACCGCAAAGCCAACCCGTCGGATGCGCCGATCATGATCCTGACGCTGACCTCGGACACCTACTCCCAGGGTGAGCTGTATGATTTCGCCTCCACCCAGCTGGCGCAGACCATCGCGCAGATCGACGGCGTCGGCGATGTCGACGTCGGCGGCAGCTCCCTGCCGGCGGTGCGCGTCGATCTCAATCCGCAGGCGCTGTTCAACCAGGGCGTGTCGCTGGACGCGGTGCGCACCGCCATCAGCGACGCTAACGTACGCAAACCGCAGGGGGCGCTGGAGGACAGCGCCCACCGCTGGCAGGTGCAGACCAACGATGAGCTGAAGACCGCCGCCGACTATCAGCCGCTGATCGTCCACTACCAGAACGGCGCCGCGGTGCGGCTGGGGGATGTCGCCACCGTCTCGGATTCGGTGCAGGACGTGCGCAACGCCGGGATGACCAACGCCAAACCGGCGATCCTGCTGATGATCCGCAAACTGCCGGAAGCCAATATCATCCAGACGGTGGACAGCATCCGCGCCCGCCTGCCGGAGCTGCAGCAGACCATTCCGGCGGCCATCGATCTGCAGATCGCCCAGGACCGCTCGCCGACTATTCGCGCCTCGCTGGAGGAGGTGGAGCAGACGCTGGTGATCTCGGTGGCGCTGGTGATCCTGGTGGTGTTCCTCTTCCTGCGATCCGGGCGCGCGACGCTGATCCCGGCGGTGGCGGTTCCGGTTTCGCTGATTGGTACCTTCGCCGCCATGTACCTGTGCGGCTTCAGCCTTAACAACCTGTCGCTGATGGCGCTGACCATCGCCACCGGCTTCGTGGTGGATGACGCCATCGTGGTGCTGGAGAATATCTCCCGCCATCTGGAGGCGGGGATGAAACCGCTGCAGGCGGCGCTGCAGGGGAGCCGCGAGGTCGGCTTTACCGTCCTGTCGATGAGCCTGTCGCTGGTGGCGGTGTTTTTGCCGCTGCTGCTGATGGGCGGCCTGCCCGGCCGCCTGCTGCGCGAGTTCGCCGTCACCCTGTCGGTGGCGATCGGCATCTCGCTGGCGGTCTCCCTCACCCTGACGCCGATGATGTGCGGCTGGCTGCTGAAAAGCGGCAAACCCCACCAGCCGACGCGCAACCGCGGCTTTGGCCGCCTGCTGGTGGCCATGCAGGGCGGCTATGGTAAGTCGTTAAAATGGGTGCTGAAGCACAGCCGCCTGACCGGCCTGGTGGTGCTGGGCACCATCGCCCTCAGCGTCTGGCTCTATATCTCTATCCCGAAAACCTTCTTCCCGGAGCAGGACACCGGGGTGCTGATGGGCGGCATTCAGGCCGACCAGAGCATCTCCTTCCAGGCGATGCGCGGCAAGCTGCAGGACTTTATGCAGATCATTCGCGAAGATCCGGCGGTGGATAACGTCACCGGGTTTACCGGCGGCTCGCGGGTCAACAGCGGGATGATGTTTATCACCCTCAAGCCGCGCGACCAGCGCCACGAGACGGCGCAGCAGGTGATCGACCGGCTGCGCAAAAAGCTGGCCAACGAGCCCGGGGCCAATCTGTTCCTGATGGCGGTGCAGGATATCCGCGTCGGCGGCCGGCAGTCGAACGCCAGCTATCAGTACACCCTGCTGTCCGATGACCTGTCGGCGCTGCGCGAATGGGAGCCGAAGATCCGCAAAGCGCTGGCGGCGTTGCCTGAGCTGGCGGACGTCAACTCGGATCAGCAGGATAATGGCGCCGAAATGGACCTGGTCTATGACCGGGATACCATGTCGCGCCTTGGCATCAGCGTTCAGGACGCCAACAACCTGCTGAACAACGCCTTCGGCCAGCGGCAAATCTCCACCATCTACCAGCCGCTGAACCAGTATAAAGTGGTGATGCAGGTCGACCCGGCCTATACCCAGGACGTCAGCGCCCTGGATAAGATGTTTGTCATCAACAGCGAGGGCAAGCCGATCCCGCTGGCCTACTTCGCCAAATGGCAGCCGGCCAACGCCCCGCTGTCGGTGAACCACCAGGGGCTGTCGGCGGCGTCCACTATCTCCTTTAACCTGCCCACCGGCCGCTCGCTGTCGGAAGCCAGCGAGGCGATTAACCGCGCGATGACCCAGCTCGGGGTGCCGTCCACCGTACGCGGCTCCTTTGCCGGTACCGCTCAGGTGTTCCAGCAGACCATGAACGCGCAGGTGATCCTGATCCTCGCGGCCATCGCCACGGTCTATATCGTGCTGGGGATGCTCTACGAGAGCTATGTGCATCCGTTGACCATCCTTTCGACGCTGCCCTCCGCCGGGGTGGGCGCGCTGCTGGCGCTGGAGATATTCGATGCCCCGTTCAGCCTCATCGCCCTTATCGGGATCATGTTATTAATTGGCATCGTGAAGAAAAACGCCATCATGATGGTTGATTTTGCCCTTGAGGCGCAGCGCACCGGCAACCTGACGCCGGAAGAGGCGATTTTCCAGGCCTGCCTGCTGCGTTTCCGGCCGATTATGATGACCACCCTCGCCGCGCTGTTCGGCGCCCTGCCGCTGGTGCTCTCCGGCGGCGACGGCTCCGAGCTGCGCCAGCCGCTGGGGATCACCATCGTCGGCGGTCTGGTGATGAGCCAGCTGTTAACGCTCTACACCACGCCAGTGGTCTATCTTTTCTTTGACCGTTTGCGGCTGCGTTTTTCGCGTCATTCCACTCAACCGGTAAGCGAATAA	MKFFALFIYRPVATILISLAITLCGILGFRLLPVAPLPQVDFPVIMVSASLPGASPETMASSVATPLERSLGRIAGVNEMTSSSSLGSTRIILEFNFDRDINGAARDVQAAINAAQSLLPSGMPSRPTYRKANPSDAPIMILTLTSDTYSQGELYDFASTQLAQTIAQIDGVGDVDVGGSSLPAVRVDLNPQALFNQGVSLDAVRTAISDANVRKPQGALEDSAHRWQVQTNDELKTAADYQPLIVHYQNGAAVRLGDVATVSDSVQDVRNAGMTNAKPAILLMIRKLPEANIIQTVDSIRARLPELQQTIPAAIDLQIAQDRSPTIRASLEEVEQTLVISVALVILVVFLFLRSGRATLIPAVAVPVSLIGTFAAMYLCGFSLNNLSLMALTIATGFVVDDAIVVLENISRHLEAGMKPLQAALQGSREVGFTVLSMSLSLVAVFLPLLLMGGLPGRLLREFAVTLSVAIGISLAVSLTLTPMMCGWLLKSGKPHQPTRNRGFGRLLVAMQGGYGKSLKWVLKHSRLTGLVVLGTIALSVWLYISIPKTFFPEQDTGVLMGGIQADQSISFQAMRGKLQDFMQIIREDPAVDNVTGFTGGSRVNSGMMFITLKPRDQRHETAQQVIDRLRKKLANEPGANLFLMAVQDIRVGGRQSNASYQYTLLSDDLSALREWEPKIRKALAALPELADVNSDQQDNGAEMDLVYDRDTMSRLGISVQDANNLLNNAFGQRQISTIYQPLNQYKVVMQVDPAYTQDVSALDKMFVINSEGKPIPLAYFAKWQPANAPLSVNHQGLSAASTISFNLPTGRSLSEASEAINRAMTQLGVPSTVRGSFAGTAQVFQQTMNAQVILILAAIATVYIVLGMLYESYVHPLTILSTLPSAGVGALLALEIFDAPFSLIALIGIMLLIGIVKKNAIMMVDFALEAQRTGNLTPEEAIFQACLLRFRPIMMTTLAALFGALPLVLSGGDGSELRQPLGITIVGGLVMSQLLTLYTTPVVYLFFDRLRLRFSRHSTQPVSE	PGPT0003595_1008	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003595-mdtC-K07789	NA	NA
BMS020_01203	1416	mdtD_2		Putative multidrug resistance protein MdtD	ATGACAGACCTCCCGGCCAGCGTGCGCTGGCAGCTATGGATAGTGGCGTTCGGCTTCTTTATGCAGTCGCTGGACACCACCATCGTCAACACCGCCCTCCCCTCGATGGCCAAAAGCCTCGGGGAGAGTCCGCTGCATATGCATATGATCATCGTCTCCTATGTCCTGACGGTGGCGGTGATGCTCCCGGCCAGCGGCTGGCTGGCCGACCGGGTCGGGGTGCGCAATATTTTCTTTACCGCCATCGTGCTGTTTACCGCCGGATCGCTGTTTTGCGCCCAGGCCAGCACCCTCGACCAGCTGGTGATGGCCCGGGTGCTGCAGGGGGTCGGCGGCGCAATGATGGTGCCGGTCGGCCGCCTGACGGTGATGAAGATCGTCCCGCGCGATCAGTACATGGCGGCGATGACCTTCGTTACCCTGCCGGGGCAGGTCGGCCCCCTGCTCGGTCCGGCGCTGGGCGGGGTGCTGGTGGAGTACGCCTCCTGGCACTGGATCTTCCTTATTAACATCCCGGTGGGGATCGTCGGGGCCATCGCCACCCTCTGCCTGATGCCCAACTACACCATGCAGACCCGGCGCTTCGATCTCGCCGGCTTTGTGCTGCTGGCGGCCGGGATGGCGACCCTGACCCTGGCCCTGGACGGCCAGAAAGGGCTCGGCATATCGACACGCTGGCTGGCGGGACTGGTGGCCATCGGCCTCGCCGCCCTGCTGCTGTACCTGTGGCATGCCCGCGGTAACGCCCGGGCGCTGTTCAGCCTCAACCTGTTTCGCAACCGCACCTTCTCCCTTGGCCTCGGCGGCAGCTTCGCCGGGCGCATCGGCAGCGGCATGCTGCCGTTTATGACCCCGGTGTTTCTGCAGATCGGCCTCGGCTTTAGCCCCTTCCACGCCGGGCTGATGATGATCCCGATGGTGCTCGGCAGCATGGGGATGAAGCGGATCGTGGTCCAGGTGGTCAACCGCTTCGGCTATCGTCGGGTGCTGGTCGCCAGCACTCTGGGCCTGGCGGCGGTCAGCCTGCTGTTTATGTTTAGCGCCCTGGCGGGCTGGTATTATGTGCTGCCGCTGATCCTGTTTCTGCAGGGGATGATCAACGCCAGCCGCTTCTCCTCGATGAATACCCTGACCCTGAAAGATCTCCCCGACGATCTGGCCAGCAGCGGCAATAGTCTGCTGTCGATGGTGATGCAGTTGTCGATGAGTATTGGCGTGACCATCGCCGGGCTGCTGCTGGGGCTGTACGGCCAGCAGCATCTGAGCCTCGACGCCGCCGGCACCCATCAGGTCTTTCTCTATACCTATCTGAGCATGGCGGCGATCATCGCCCTGCCAGCGCTCATCTTTTCCCGGGTACCGGATGACGTCGGAAGTAATACCGTCATTCGTCGACGCAACAGGAGTGGATCGTGA	MTDLPASVRWQLWIVAFGFFMQSLDTTIVNTALPSMAKSLGESPLHMHMIIVSYVLTVAVMLPASGWLADRVGVRNIFFTAIVLFTAGSLFCAQASTLDQLVMARVLQGVGGAMMVPVGRLTVMKIVPRDQYMAAMTFVTLPGQVGPLLGPALGGVLVEYASWHWIFLINIPVGIVGAIATLCLMPNYTMQTRRFDLAGFVLLAAGMATLTLALDGQKGLGISTRWLAGLVAIGLAALLLYLWHARGNARALFSLNLFRNRTFSLGLGGSFAGRIGSGMLPFMTPVFLQIGLGFSPFHAGLMMIPMVLGSMGMKRIVVQVVNRFGYRRVLVASTLGLAAVSLLFMFSALAGWYYVLPLILFLQGMINASRFSSMNTLTLKDLPDDLASSGNSLLSMVMQLSMSIGVTIAGLLLGLYGQQHLSLDAAGTHQVFLYTYLSMAAIIALPALIFSRVPDDVGSNTVIRRRNRSGS	PGPT0029180_116	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029180-mdtD-K18326	NA	NA
BMS020_01204	1497	baeS_1	COG0642	Signal transduction histidine-protein kinase BaeS	GTGAAATTTTGGCGCCCGGGCATTACCGGTAAGCTGTTCCTCGCTATTTTCGCCACCTGCATCGTGCTGCTGATCAGCATGCACTGGGCGGTGCGTATCAGTTTCGAACGCGGGTTTATCGATTACATCAAGCGCGGCAATGAGCAGCGGTTAACCATGCTCAGCGACGCGCTGAGCGAGCAGTATGCCCAGCACGGCAGCTGGGCGTTTCTGCGCAACAACGACCGCTTTATCTTCCAGCTGCTGCGCACCTTCGAACGGGATAATGACGACCGCTCGCCGCCGGGGCACGCCATGAAGCCGGGGGCGATGGACGCGCCGGACGCCGGTCCGGACGGGCCGCCGCCGGATGGCCCCCCTGACGGCCCGCGCCCGAGGCCGGAAATGCCGCCCCACGGCTGGCGCACCATGTTCTGGGTGGTCGATCAGTCTGGCCGCGTGCTGGTGGGCCCCCGCGAGCGCGTGCCGGAGGACGGCAGCCAGCGCAGCATTTTGGTCAACGGCGTGGAGGTAGGGAGAGTGATCGCCTCGCCGGTGGAAAGGCTAACCCGCAATACCGACATTAACTTCGACCGGCAGCAGAAGCGCACCAGCTGGCTGATCGTTGCCCTTGCCACCCTGCTTGCCGCGCTGGCCACCTTCCCGCTGGCCCGCGGCCTGCTGGCGCCGGTGAAGCGGCTGGTGGAAGGCACCCATAAGCTGGCGGCGGGCGACTTTTCCACCCGCGTGACGGTGACCGGCGGCGATGAGCTCGGCCGCCTGGCGCAGGATTTTAACCAGCTCGCCAGCACCCTGGAGCGCAACCAGCAGATGCGTCGCGATCTGATGGCCGACATCTCCCATGAACTGCGTACCCCGCTGGCGGTGCTGCGCGGCGAACTGGAGGCGATTCAGGACGGGGTCCGACGGTTTACCCCTGAGTCCATTCCCTCCCTGCAGGCCGAGGTCGCCACCCTCACCAAGCTGGTGGACGACCTTCACCAGCTGTCGATGTCCGATGAGGGCGCGCTGGCCTACCAGAAAACCTCGCTGGATATCATCACCCTGCTGGAGGTGGCCGCAGGCGCGTTTCGCGAGCGCTTCGCCGGCCGGCAGCTGAGCATTCAGGTGTCGCTCCCGGAGCAGGCGATGATCTTCGGCGACCGCGACCGCCTGATGCAGCTCTTCAACAATCTGCTGGAGAACAGCCTGCGCTATACCGACAGCGGCGGCAGCCTGCACATTACCGCCCGCCGCAGCGGACGGATGCTGGTGATCGACTTCGCCGACAGCGCCCCCGGGGTCAGCGATGAGCAGCTGGCCCGCCTGTGCGAACGCTTTTATCGGGCGGAAGGATCGCGCAACCGCGCCAGCGGCGGCTCTGGCCTCGGGCTGGCGATTTGCCTCAATATCGTAGCGGCCCACGGCGGCGCCCTGCGCGCCGACCATTCGCCTTTTGGCGGGGTTAGCATTAAAGTTGAGTTACCTCTGGAACATGATTTACCGAGAGACGTATGA	MKFWRPGITGKLFLAIFATCIVLLISMHWAVRISFERGFIDYIKRGNEQRLTMLSDALSEQYAQHGSWAFLRNNDRFIFQLLRTFERDNDDRSPPGHAMKPGAMDAPDAGPDGPPPDGPPDGPRPRPEMPPHGWRTMFWVVDQSGRVLVGPRERVPEDGSQRSILVNGVEVGRVIASPVERLTRNTDINFDRQQKRTSWLIVALATLLAALATFPLARGLLAPVKRLVEGTHKLAAGDFSTRVTVTGGDELGRLAQDFNQLASTLERNQQMRRDLMADISHELRTPLAVLRGELEAIQDGVRRFTPESIPSLQAEVATLTKLVDDLHQLSMSDEGALAYQKTSLDIITLLEVAAGAFRERFAGRQLSIQVSLPEQAMIFGDRDRLMQLFNNLLENSLRYTDSGGSLHITARRSGRMLVIDFADSAPGVSDEQLARLCERFYRAEGSRNRASGGSGLGLAICLNIVAAHGGALRADHSPFGGVSIKVELPLEHDLPRDV	PGPT0003985_325	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-ENVELOPE_STRESS_RESPONSE,PGPT0003985-baeS-K07642	NA	NA
BMS020_01205	723	baeR_1	COG0745	Transcriptional regulatory protein BaeR	ATGACTGAATTGCCTGTAGATGAAAACACCCCGCGCATTCTGATCGTGGAAGATGAACCCAAGCTCGGCCAGCTGCTGATTGATTATCTGCAGGCCGCCGGCTATGCGCCTACGCTGATTAACCATGGCGACAAGGTCCTGCCCTACGTTCGGCAGACCCCGCCGGATCTAATCCTGCTGGATCTGATGCTGCCCGGCACCGACGGCCTGACGCTGTGCCGGGAAATCCGCCGCTTCTCCGACGTTCCGGTGGTGATGGTGACGGCGAAAATCGAAGAGATCGACCGCCTGCTGGGGCTGGAGATCGGCGCCGACGACTATATCTGCAAGCCCTACAGCCCGCGGGAAGTGGTCGCCCGGGTGAAAACCATTCTCCGCCGCTGCAAGCCGCAGCGCGACCTGCAGGCGCTGGACGCCCAGAGCCCGCTGATTGTCGACGAGGGGCGTTTTCAGGCCTCATGGCGCGACAAGCTGCTGGACCTCACCCCCGCCGAGTTCCGACTGCTGAAAACCCTCTCCCAGGAGCCGGGGAAGGTCTTCTCCCGCGAACAGTTGCTCAACCATCTGTATGACGACTATCGGGTAGTGACCGACCGCACCATCGACAGCCACATCAAGAACCTGCGGCGCAAGCTGGAGGCGCTGGACGCCGAACAGTCGTTTATCCGCGCCGTATACGGGGTTGGCTACCGCTGGGAAGCCGACGCCTGCCGGCTGGCGTAG	MTELPVDENTPRILIVEDEPKLGQLLIDYLQAAGYAPTLINHGDKVLPYVRQTPPDLILLDLMLPGTDGLTLCREIRRFSDVPVVMVTAKIEEIDRLLGLEIGADDYICKPYSPREVVARVKTILRRCKPQRDLQALDAQSPLIVDEGRFQASWRDKLLDLTPAEFRLLKTLSQEPGKVFSREQLLNHLYDDYRVVTDRTIDSHIKNLRRKLEALDAEQSFIRAVYGVGYRWEADACRLA	PGPT0003990_142	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-ENVELOPE_STRESS_RESPONSE,PGPT0003990-baeR-K07664	NA	NA
BMS020_01206	1515	rlhA_2	COG0826	23S rRNA 5-hydroxycytidine synthase	ATGGCAAACAAATTAGCCATGCTGAAAGATACCCATCTGATATTTACTCCCCTTCGCCGCGGCGCTACAATGCCCGCCCTTAATGTGGGGACACTCCCCCAACTCGCCGCACCGGGTGCGGCGAATCTGACCTGTCATCAGAACGAGAACACCATGTTTAAACCAGAACTCCTTTCCCCGGCGGGAACGCTGAAGAATATGCGTTACGCATTCGCCTATGGCGCCGATGCCGTTTATGCCGGCCAGCCGCGCTACTCGCTGCGCGTGCGTAACAACGAATTCAATCACGAAAATCTGCAGCTCGGCATCAATGAAGCCCACGCGCTGGGTAAAAAATTCTATGTGGTGGTCAACATCGCCCCGCATAACGCCAAGCTGAAAACGTTTATTCGCGATCTGAAGCCGGTGGTGGAGATGGGTCCGGACGCGCTGATCATGTCCGACCCGGGTTTAATCATGCTGGTGCGGGAAAACTTTCCGGATATGCCGATCCATCTTTCGGTGCAGGCCAACGCCGTCAACTGGGCGACGGTTAAATTCTGGCAGCAGATGGGGCTGACCCGCGTGATCCTGTCGCGTGAACTGTCGCTGGATGAAATCGAAGAAATTCGCCGCCAGGTGCCGGAGATGGAAATTGAGATTTTCGTCCACGGCGCGCTGTGCATGGCCTACTCCGGCCGCTGCCTGCTCTCCGGGTATATCAACAAGCGCGACCCGAACCAGGGCACCTGCACCAACGCCTGCCGCTGGGAATATAACGTGGCGGAAGGCAAAGAGGACGACGTCGGCAACATCGTCCACAAATATGAGCCGATCCCGGTGCAGACCGTGGAGCCAACCCTCGGCATCGGCGCGCCGACCGATAAAGTCTTTATGATCGAGGAAGCCAAACGCCCGGGCGAGTACATGACCGCCTTCGAGGACGAGCACGGCACCTACATCATGAACTCGAAAGATCTGCGGGCTATCGCCCACGTTGAGCGTCTGACCCAGATGGGCGTTCACTCGCTGAAGATCGAAGGCCGCACCAAATCCTTCTATTACTGCGCGCGCACCGCTCAGGTTTACCGCAAGGCGATCGACGACGCTGCCGCCGGCAAACCTTTCGATACCAGCCTGCTGGAAACGCTGGAAGGACTGGCCCATCGCGGGTACACCGAAGGCTTCCTGCGCCGCCATACCCATGACGATTATCAGAACTACGAGTACGGCTACTCCCTCTCCGAGCGCCAGCAGTTTGTCGGCGAATTTACCGGGGAGCGTAACGGCCCGCTGGCGGCTGTGGCGGTCAAAAATAAGTTCAGCGTTGGCGACAGTCTCGAACTGATGACCCCGCAGGGTAACGTCAACTTCACCCTCGAGCAGATGGAAAATGGCAAAGGCGAAGCCATGCCGGTGGCCCCGGGCGACGGCTATACCGTATGGTTGCCTGTACCGGATGACCTGCCCCTGCAGTATGCGCTGCTGATGCGCAACTTTACTGGTCAGACAACCAGAAATCCGCCCGGTAACTAG	MANKLAMLKDTHLIFTPLRRGATMPALNVGTLPQLAAPGAANLTCHQNENTMFKPELLSPAGTLKNMRYAFAYGADAVYAGQPRYSLRVRNNEFNHENLQLGINEAHALGKKFYVVVNIAPHNAKLKTFIRDLKPVVEMGPDALIMSDPGLIMLVRENFPDMPIHLSVQANAVNWATVKFWQQMGLTRVILSRELSLDEIEEIRRQVPEMEIEIFVHGALCMAYSGRCLLSGYINKRDPNQGTCTNACRWEYNVAEGKEDDVGNIVHKYEPIPVQTVEPTLGIGAPTDKVFMIEEAKRPGEYMTAFEDEHGTYIMNSKDLRAIAHVERLTQMGVHSLKIEGRTKSFYYCARTAQVYRKAIDDAAAGKPFDTSLLETLEGLAHRGYTEGFLRRHTHDDYQNYEYGYSLSERQQFVGEFTGERNGPLAAVAVKNKFSVGDSLELMTPQGNVNFTLEQMENGKGEAMPVAPGDGYTVWLPVPDDLPLQYALLMRNFTGQTTRNPPGN	PGPT0021005_1466	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
BMS020_01208	897	yegS_1	COG1597	putative lipid kinase YegS	ATGATGTCTACGTTTACTGCCAGCTTACTGATCCTTAACGGCAAAGGTGCCAATGAACCGCAGCTACGCGAGGCGGTTAACCTGTTGCGCGACGAAGGGATCGATATCCACGTCCGCGTCACCTGGGAAAAGGGCGATGCCGTACGGTTTATCGATGAAGCCCTGCAGCTGAACGTTGAAACGGTGATCGCCGGCGGCGGCGACGGCACCATTAATGAAGTGGCGACGGCGCTGGTGGAGCGCGGCAGCAGGATAGCGCTGGGGATTTTACCGCTGGGCACGGCCAACGACTTCGCCACCAGCGTCGGTATTCCGCAGGATCTGGCCAGCGCCCTGAAGCTGGCGATCGTCGGCCGCGATGTGCCGATAGATATCGCCCGGGTTAATGATAAGACCGGCTTTATTAATATGGCGACCGGCGGGTTCGGCACCCGGATCACCACCGAAACGCCGGAAAAACTCAAAGCCGCGCTCGGCGGTGTCTCTTATTTAATCCACGGCCTGATGCGCATGGATACCCTGAAGCCGGACCGCTGCGAGATCCGCGGGGAGAACTTTCACTGGCAGGGCGATGCGCTGGTCATCGGCATCGGCAACGGCCGCCAGGCGGGCGGCGGCCAGCAGCTGTGTCCGGAGGCGTTGATTAACGACGGCCTGCTGCATCTGCGCATTTTCACCGGCGAAGAGCTGATCCCTGCCCTCTTCAGCACCCTGGCGAATCCGGAAAACTCGCCGAATATTGTCGACGGCGTCTCCTCGTGGTTTGAGATCACCGCCCCCCATGAGATGACGTTTAACCTCGACGGCGAACCGCTGACCGGCAAAACTTTCCGCATGGAGCTGTTACCGGCGGCCCTGCGCTGCCGGCTGCCGCCCGACTGCCCGCTGTTGCGCTGA	MMSTFTASLLILNGKGANEPQLREAVNLLRDEGIDIHVRVTWEKGDAVRFIDEALQLNVETVIAGGGDGTINEVATALVERGSRIALGILPLGTANDFATSVGIPQDLASALKLAIVGRDVPIDIARVNDKTGFINMATGGFGTRITTETPEKLKAALGGVSYLIHGLMRMDTLKPDRCEIRGENFHWQGDALVIGIGNGRQAGGGQQLCPEALINDGLLHLRIFTGEELIPALFSTLANPENSPNIVDGVSSWFEITAPHEMTFNLDGEPLTGKTFRMELLPAALRCRLPPDCPLLR				NA	NA	NA	NA	NA
BMS020_01209	663	hxpB_1	COG0637	Hexitol phosphatase B	ATGAGTATTCAGGCAGTGATTTTTGACATGGATGGCGTGATTATTGATTCCGAAAGCCTGTGGCGGCAGGCGCAAATCGCCGCCCTCGCGCAGTGGGGGGCAACGGCGAGCGTCGAGGAGTGCGAAGCCCTGACCAAAGGCAAGCGCCTCGATGAGATCGCCGGCACCTGGTGCCGCTATTTTCAGCTTAATGTTGCCCCGTCGCTGCTGGAAGACGCCATATTGCAGCGCATCACCGGCCTGATCGCCGCCGAAGGCGAGCCGATGCGCGGGGTGCATGAGGCGTTACGCTATTTTCGCCATGCCGGTTATAACATTGCGCTCGCGACCTCCTCGTCCCGGCAGGTTATCGCCGCCGTGCTGAACAAGCTCTCGCTGTGGCACTTTTTTGACGTGATCTCCAGCGCGGATGATGAAGCGCAGGGCAAACCGCATCCGGCGGTGTATCTGACGACGTTGGATAAGCTTAATCTCGACGCCAGCCGGTGCCTGGTGATCGAAGACAGCTTCAACGGCTTTCGCGCGGCTCAGGCCGCGGGTATTCCTACGGTGGTGATTGCCGAAGATAGCCAGCACGCGCGTTTTCAGGCCGCCGTGGGCCGCTACCGGGCGCTGCCTGAACTGCTGGAAGTCCTCACCGCCGAGCCAGAGGCGGCGGTTTAA	MSIQAVIFDMDGVIIDSESLWRQAQIAALAQWGATASVEECEALTKGKRLDEIAGTWCRYFQLNVAPSLLEDAILQRITGLIAAEGEPMRGVHEALRYFRHAGYNIALATSSSRQVIAAVLNKLSLWHFFDVISSADDEAQGKPHPAVYLTTLDKLNLDASRCLVIEDSFNGFRAAQAAGIPTVVIAEDSQHARFQAAVGRYRALPELLEVLTAEPEAAV	PGPT0018430_350	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_SORBITOL_DEGRADATION,PGPT0018430-hxpB-K24204	NA	NA
BMS020_01210	1278	csbX_1	COG0477	Alpha-ketoglutarate permease	ATGTCTATCAATAATAAACAGTGGCTCGGTTTACCCCTGAACCTGCTCTGGGGATACATCGCCATTGCCGTATTTATGACCGGCGACGGTTTTGAATTAGCCTTTCTCTCGCACTATATCAAAGCGCTCGGATTCTCCCCGGCGGAGGCCTCCTTTGCCTTTACCCTCTATGGCCTGGCCGCCGCGCTGTCGGCGTGGATCTCCGGCGTGGTGGCGGAAATTATTACGCCGCTGAAAACCATGATGATTGGCTTCGTGCTGTGGTGCGTATTCCACGTGCTGTTCCTCGTTTTCGGCCTCGGTCACGCCAACTATGCGCTGATCCTGGTTTTCTACGGCATTCGCGGCTTCGCGTATCCGCTATTCCTCTACTCGTTTATCGTGGCGATTGTCCATAACGTCAAAAGCGACAACGCCAGCTCGGCCATCGGCTGGTTCTGGGCGGTCTATTCCATCGGCATCGGCGTCTTCGGCAGCTATATTCCGAGTTTCACCATTCCGCACATTGGCGAAATGGGCACCCTGTGGCTGGCGCTGGCCTTCTGCGTTAGCGGGGGCGTGATTGCTCTGGCTTCCCTGCGCCATATTAAAACGCCGCAGCATATGCAGAACCTGACCACCCGCGAGAAGTTTGCCGAGCTGGGCCGCGCCGCGACGCTGCTCTATACCAACCGCAATATTCTGCTGTCGAGCATGGTCAGGATCATCAATACCCTCTCGCTGTTCGGCTTTGCGGTGATTATGCCGATGATGTTCGTCGATGAGCTGGGCTTTAGCACCTCGGAATGGCTCCAGGTGTGGGCGGTCTTCTTCTTCACCACCATTTTCTCTAACGTGCTGTGGGGCATTCTGGGCGAAAAACTGGGCTGGATGAAGGTGGTGCGCTGGTTTGGCTGCATCGGGATGGCGCTCTCCAGCCTGGCGTTTTACTACATCCCTCAGCACTTCGGCCACAGCTTTGCGATGGCGCTGATCCCGGCCATCGCCCTGGGGATCTTTGTCGCCGCCTTCGTGCCGCTGGCCGCCGTGTTCCCGGCGCTGGAGCCGAAGCACAAAGGCGCGGCGATTTCGGTGTATAACCTGTCGGCGGGGATGTCGAACTTTCTCGCCCCGGCAATCGCCGTGGTGCTGCTGCCGTTCTTCAGCACCATTGGGGTCGTCATCGCCTATACCGCATTGTACGTGGTGGCCTTTTTCCTCTGTGCGTTTATCCGCGTCGAGCAGCCGGGGTTTTCCCACAAGGCAGCGCCGGCCAGCGAGCAGGTGGAGTTCTCTTAA	MSINNKQWLGLPLNLLWGYIAIAVFMTGDGFELAFLSHYIKALGFSPAEASFAFTLYGLAAALSAWISGVVAEIITPLKTMMIGFVLWCVFHVLFLVFGLGHANYALILVFYGIRGFAYPLFLYSFIVAIVHNVKSDNASSAIGWFWAVYSIGIGVFGSYIPSFTIPHIGEMGTLWLALAFCVSGGVIALASLRHIKTPQHMQNLTTREKFAELGRAATLLYTNRNILLSSMVRIINTLSLFGFAVIMPMMFVDELGFSTSEWLQVWAVFFFTTIFSNVLWGILGEKLGWMKVVRWFGCIGMALSSLAFYYIPQHFGHSFAMALIPAIALGIFVAAFVPLAAVFPALEPKHKGAAISVYNLSAGMSNFLAPAIAVVLLPFFSTIGVVIAYTALYVVAFFLCAFIRVEQPGFSHKAAPASEQVEFS	PGPT0015024_33	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015024-csbX-NA	NA	NA
BMS020_01211	1464	xylB_1	COG1070	Xylulose kinase	ATGTATCTGGGTATCGATCTTGGCACATCGGAAGTCAAAGCGCTGGTCATTGATGAGAACAATCAGGTTATCGCCAGCCATAGCGCGCCGCTGAGCATTCAGCGGCCTCATCCGCACTGGTCAGAACAGTCGCCGGAGTTATGGTGGGAGGCGACGGAGTATCTGATGGCCACGCTGCGGGAAAAATGCGCCCAGCACTGGCCGGCCGTCAAGGCGATTGGCCTGTCCGGACAGATGCACGGCGCGGTGTTGCTGGATGAAAAGGGGGAGACGATCCGTCCGGCCATTCTGTGGAATGACACCCGCTGCGCCGCAGAGTGCGCGGAGCTGGAGGAGATGGCGCCGGAGCTGCATCAGGTGGCGGGCAACCTGGCGATGCCCGGCTTTACCGCGCCGAAGCTGCTGTGGGTGCGTCGTCACGAGCCGCAAAACTTTCAGCGCACCGCCACGGTGCTGCTGCCGAAGGATTATCTGCGCTACCGGATGACCGGGAAGAAAGTCTCCGATATGTCGGACGCCGCCGGGACGCTGTGGCTGGACGTGGCTAAGCGCGACTGGTCCGATGCGCTGCTGGACAAGTGCGGTCTGTCGCGCAGCCAGATGCCGACGCTGGTGGAAGGCTGCGAGGTTTCTGCCACCCTTGACCCGCAGGTGGCCGAACGCTGGGGGCTGAACGCCTCGGTGGTGGTGGCCGGGGGCGGCGGCGATAACGCGGTCAGCGCCATTGGCGTCGGCGCGGTCTCGCCGGGGGACGCGTTTATTTCGCTCGGTACCTCAGGGGTGCTGTTTGTGGTGACCGACGCCTATCGTCCGGCGCCGCAGTCGGCGGTCCATGCGTTTTGTCACGTTCTGCCGAACCTGTGGCATCAGATGAGCGTGATGCTCAGCGCCGCCAGCTGTTTGCAGTGGTTCTGCCGCCTGACCGGCACCACGGAGGTGGCGCTGCTGGCGGAGATTGCCGAGCTAAGCGAAGAGGAGAAGGCCAACGCGCCGTTCTTCCTGCCCTATCTCTCCGGGGAACGTACCCCGCATAACGATCCTGACGCTCGCGGCATCTTCTGGGGCATGACCCACTCCAGCCTGCGCGCCCAGCTCGGCTACGCGGTGCTGGAGGGGGTGAGCTTTGGCATCAACGACGGCCTGCAGGTATTGAAAGAGAGCGGGACGCCGATCGCGCAGTGCTCGCTGGTGGGCGGGGGCGCCCGCAGTCCGTTCTGGGCCCAGCTGCTGGCCGATATTCTCGCTATGCCGGTGGTGACCCACAAAGGCGGAGAGACCGGCGGCGCGCTGGGCGCGGCGCGGCTGGCCTGCCTGGCGGCGGGCAAACCGGTTGCCGCGGTATGTGAAAAACCGGAAGTGTGGCAGACCTGGCGTGCGGATCCCGTTCGCCATCACACCCTGATGCAACGCTACGCGCAGTTTAAGGCCCTGTATTTAAACGATCTGCACTATCGGCAGCATTAA	MYLGIDLGTSEVKALVIDENNQVIASHSAPLSIQRPHPHWSEQSPELWWEATEYLMATLREKCAQHWPAVKAIGLSGQMHGAVLLDEKGETIRPAILWNDTRCAAECAELEEMAPELHQVAGNLAMPGFTAPKLLWVRRHEPQNFQRTATVLLPKDYLRYRMTGKKVSDMSDAAGTLWLDVAKRDWSDALLDKCGLSRSQMPTLVEGCEVSATLDPQVAERWGLNASVVVAGGGGDNAVSAIGVGAVSPGDAFISLGTSGVLFVVTDAYRPAPQSAVHAFCHVLPNLWHQMSVMLSAASCLQWFCRLTGTTEVALLAEIAELSEEEKANAPFFLPYLSGERTPHNDPDARGIFWGMTHSSLRAQLGYAVLEGVSFGINDGLQVLKESGTPIAQCSLVGGGARSPFWAQLLADILAMPVVTHKGGETGGALGAARLACLAAGKPVAAVCEKPEVWQTWRADPVRHHTLMQRYAQFKALYLNDLHYRQH	PGPT0017535_2729	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
BMS020_01212	1368	mtlK_1	COG0246	Mannitol 2-dehydrogenase	ATGAACAATCAATTCACATGGCTTCATATCGGTCTGGGTTCTTTTCATCGCGCGCATCAGGCGTGGTATCTGCATCGTCTGATCGCTTCCGGCGATAAGCGCTGGCGCATCGCGGCGGGCAATATTCGCAATGACGCCGAGCAGGTGGTGCAGGCGCTGGCGGCGCAGGGCGGACGTTACGTCCTGGAGACCGTCAGCCCGGAAGGGGCGCGTGAATATGAAGAGATCACCTCAATTCAGAAACTGCTGCCGTGGCAGGCCGGGCTGCAGCCGCTGATTAACGAAGGGGCCAACCCGCAAACCAAAGTTATCGCCTTTACCGTGACGGAAGGGGGGTACTACCTGAATACCCGCCATCAGCTGGAAACCAGCAACCCCGATCTGCAGGCTGACCTGAAAGGCGAATGCAAAACTATTTACGGCACCCTCGCGCGAATTCTGGAAAAGCGCATGGCGGACAACGCCGGGCCGCTGACCCTGCTTAACTGCGACAACGTGCGTCATAACGGCGAGCGCTTCCACGACGGGATGGTGGAGTTCCTGCAACTCACCGGCAAACAGGCGGTGATTGACTGGATGGCGGCCAATACCACCTGTCCGAACACCATGGTGGACCGCATCACCCCGCGTCCGGCGGCCGATCTGCCGGCCCGTATCAAAGCGCAAACCGGCATTGACGATAAGGCGCCGGTCATGGGCGAGACCTTTATCCAGTGGGTGGTGGAGAACAACTTCCGCGATGCCCGCCCGAACCTGGAAGCGGTCGGCGTGGAGATGGTCGAGTCGGTTATCCCGTATGAAGAGGCGAAAATCCGCATCCTGAACGCGTCGCACAGCTGCATTGCGTGGGCGGGGACCTTAATCGGCCAGCAGTATATTCACGAAAGCACGCTCACCGATGTTATCTACGCCATTGCCGACCGCTACGTCACGGAAGATGTGATCCCATGCCTGGGCGATAACGGCATTGATTTGCCGACCTACCGCGATGTGGTACTCAAGCGCTTTACCAACCCGCATATCCAGGACACCAACCAGCGCGTCGCCGCCGACGGTTTCTCGAAAATTCCGGCGATGATCGCCCCAACCCTGCAGGAGTGCTATCAGCGCGGCGTCCGCCCGGAAGCGACCGCCATGCTGCCGGCGCTGTTCTTCGTCTTTATGGAGCAGTGGCATAAGGGAACCCTGCCGTATCAGTACCAGGACGGCATCCTGGATGAGCAGGCGGTGCATGAGATGTATGAGGCTCAGGATCCGCTGGCTGTCTTCGCCCGTGATAAAGCCCTGTTTGGTGACCTGGCCGACAACGCGGATTTCCTGGCGCTGATGCGCGAGAAAGTCGCCGCCGTTTACACGCTGATTAAATAA	MNNQFTWLHIGLGSFHRAHQAWYLHRLIASGDKRWRIAAGNIRNDAEQVVQALAAQGGRYVLETVSPEGAREYEEITSIQKLLPWQAGLQPLINEGANPQTKVIAFTVTEGGYYLNTRHQLETSNPDLQADLKGECKTIYGTLARILEKRMADNAGPLTLLNCDNVRHNGERFHDGMVEFLQLTGKQAVIDWMAANTTCPNTMVDRITPRPAADLPARIKAQTGIDDKAPVMGETFIQWVVENNFRDARPNLEAVGVEMVESVIPYEEAKIRILNASHSCIAWAGTLIGQQYIHESTLTDVIYAIADRYVTEDVIPCLGDNGIDLPTYRDVVLKRFTNPHIQDTNQRVAADGFSKIPAMIAPTLQECYQRGVRPEATAMLPALFFVFMEQWHKGTLPYQYQDGILDEQAVHEMYEAQDPLAVFARDKALFGDLADNADFLALMREKVAAVYTLIK	PGPT0017570_228	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017570-dalD-K00007	NA	NA
BMS020_01213	942	eryD	COG2390	Erythritol catabolism regulatory protein EryD	ATGAGTAAAGAAGATGATATCCGGTTGGATCAGAAGGTGCGTGCCGCATGGATGTACTACATCGCCGGCCAGAATCAGAGCGAGATCGCCAGCCAGTTGGGCACCTCCAGACCGGTGGTGCAACGGCTGATCGCCGCCGCGAAAGAAGAAGGGATTGTGTCGATTAATCTGCACCATCCGGTGGCGAACTGCCTCGATTATGCGCAGTTGTTGCAGGAAAAGTACCGGCTTATCGAGTGCAATGTGGTCCCCGCCTTTAGCGAAGAGAGTACTCTCGACAGCGTATCGTTTGGTTGCTATCAGCTGATGGCTCGCTATCTGCAGGATGATAAAGAGAAAATCATCGGCCTGGGCTCGGGCCTGACCCTGAAAAAAGCGCTGCAGCGCATCGATTTCGACAGCCTGAATACCCGCTGCGTGGCGCTGATCAGCGCCATGGACGCCGACGGGCAGTGCAACTATTACGATGACGTGCCCCTGCTGCTCACCCGCAAAATTAAGGCCAAGTACTATCAGTGGCCTGCGCCGCGCTACGCCCAGACCGCGGATGAGTATGAGATGTGGTGCACCAATCGCTTATTCCGCAGCGTCTCTGGCGTCGCCCGGGAGGCGGATGTGATTTTTGTCGGCATTGGTCCGCTGGGCACGCAAAGTCCCATCTTTAAAGACGGCTTTATCAATCAGGCGCAGATGGATGAGCTGACCGCCCGCGGCGGCATCGGGGAGATCCTCGGGCGGTTTATCGATGCAGAAGGCGAGGTGGTAGACAGCGAGATCAACCGCATGATCACCAGCTATGATATCCGCCAGAACCACTGCCCGCGGATTGCCGCGGCCTGTGGAGAATACAAACGACCGGCGATCCTGGCCGCCCTTAAAGGCGGCTGGATCAACGGTCTGGTGACCGATGAACATACCGCGCGCTGGCTGCTGACGCGCTAA	MSKEDDIRLDQKVRAAWMYYIAGQNQSEIASQLGTSRPVVQRLIAAAKEEGIVSINLHHPVANCLDYAQLLQEKYRLIECNVVPAFSEESTLDSVSFGCYQLMARYLQDDKEKIIGLGSGLTLKKALQRIDFDSLNTRCVALISAMDADGQCNYYDDVPLLLTRKIKAKYYQWPAPRYAQTADEYEMWCTNRLFRSVSGVAREADVIFVGIGPLGTQSPIFKDGFINQAQMDELTARGGIGEILGRFIDAEGEVVDSEINRMITSYDIRQNHCPRIAAACGEYKRPAILAALKGGWINGLVTDEHTARWLLTR				NA	NA	NA	NA	NA
BMS020_01214	1002	purR_2		HTH-type transcriptional repressor PurR	ATGAAGAAGATAACGATTTACGACCTGGCGGAGCTTTCCGGCGTTTCGGCGAGCGCGGTGAGCGCAATCCTCAACGGCAACTGGAAAAAACGCCGCATCAGCGCAAAGCTTGCCGAAAAGGTGACACGGATTGCTGAGGAGCAGGGCTATGCGATTAACCGCCAGGCCAGCATGCTGCGCAGTAAAAAATCACACGTCATTGGCATGATTATCCCCAAATACGATAACCGCTACTTCGGCTCCGTCGCCGAACGCTTTGAGGAGATGGCCCGCGAGCGTGGCCTGCTGCCGATTATCACCTGTACGCGCCGAAGCCCGGATCTGGAGCTCGAAGCGGTAAAAGCGATGCTCTCCTGGCAGGTTGACTGGGTGATCGCGACCGGGGCGACCAATCCGGATAAAATTTCCGCGCTGTGCCAGCAGGCGGGCGTGCCCACGATCAATCTCGACCTGCCGGGGTCTCTCTCTCCGTCGGTGATTTCAGATAACTACGGCGGCGCGAAAGCGCTGACCCACAAGATCCTCGCTAACAGCGCCCGCCGTCGGGGAGAGCTGGCGCCGCTGACCTTCATCGGCGGGCGCAGCAACGACCATAACACCAGCGAGCGCTTACGCGGCTTCCACGATGCGCATCACGAGCAGGGACTGCGCGTGCCGCAGGCGAATATTCTGGCTCCCGGCTATTCGAAAGGTCACGTTGAGGCCTGCCTGCAGGAGCGGTTTGGCAGCGCGAAGACGCTATTGCAGGGGATATTTGTTAACTCGACGATATCCCTCGAAGGGGTTGTGCGCTGGCTGTCGCAGGTGGGGCTGACCGGCAGCGAGCAGCCGCCGATGGGCTGCTTCGACTGGGATCCGTTTGTCTATCTGCTGGGGCACGATATCGACATGGTGCAGCAGGACGTACCGGCGATGCTGGACGCTGTTTTTTCGATTATTGACGCCGGCGAAGCCCCCCAGCAGCGGATTGAAATTCCGCCGCGATTGATGAGCAGTAGCTGA	MKKITIYDLAELSGVSASAVSAILNGNWKKRRISAKLAEKVTRIAEEQGYAINRQASMLRSKKSHVIGMIIPKYDNRYFGSVAERFEEMARERGLLPIITCTRRSPDLELEAVKAMLSWQVDWVIATGATNPDKISALCQQAGVPTINLDLPGSLSPSVISDNYGGAKALTHKILANSARRRGELAPLTFIGGRSNDHNTSERLRGFHDAHHEQGLRVPQANILAPGYSKGHVEACLQERFGSAKTLLQGIFVNSTISLEGVVRWLSQVGLTGSEQPPMGCFDWDPFVYLLGHDIDMVQQDVPAMLDAVFSIIDAGEAPQQRIEIPPRLMSSS	PGPT0017585_436	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017585-fruR1-K03435	NA	NA
BMS020_01215	750	rbtD		Ribitol 2-dehydrogenase	ATGAACCACTCTGTCTCCTCTATGAATACTTCCCTCAGCGGTAAAGTCGCCGCGATCACCGGCGCGGCGTCCGGTATCGGCCTCGAGTGCGCGAGGACCCTGCTGGGAGCTGGCGCAAAAGTGGTGCTTATCGACCGCGAAGGCGAAAAGCTCAACAAACTGGTCGCCGAACTTGGCGAAAACGCCTTCGCTCTGCAGGTGGATCTGATGCAGGCGGACCAGGTCGATAACCTTCTGCAGGGCATTTTGCAGCTCACCGGGCGTCTCGATATCTTCCACGCCAACGCCGGGGCCTATATCGGCGGGCCGGTGGCCGAGGGCGACCCGGACGTCTGGGACCGCGTGCTGCACCTCAACATCAACGCCGCCTTCCGCTGCGTGCGCAGCGTCCTGCCGCATCTGATCGCGCAAAAATCCGGGGATATTATTTTCACCAGCTCCATCGCGGGCGTGGTGCCGGTGATCTGGGAGCCTGTCTATACCGCATCGAAATTCGCCGTGCAGGCGTTTGTACATACGACTCGTCGCCAGGTGGCGCAGTATGGCGTGCGCGTCGGCGCCGTACTACCGGGCCCGGTGGTGACCGCTCTGCTGGACGACTGGCCAAAAGCCAAAATGGATGAAGCGCTGGCCAACGGCAGTTTGATGCAGCCGATTGAAGTGGCGGAGTCAGTGCTGTTTATGGTGACGCGTTCGAAAAACGTCACCGTACGCGACATTGTGATCCTGCCGAACAGCGTGGATCTCTGA	MNHSVSSMNTSLSGKVAAITGAASGIGLECARTLLGAGAKVVLIDREGEKLNKLVAELGENAFALQVDLMQADQVDNLLQGILQLTGRLDIFHANAGAYIGGPVAEGDPDVWDRVLHLNINAAFRCVRSVLPHLIAQKSGDIIFTSSIAGVVPVIWEPVYTASKFAVQAFVHTTRRQVAQYGVRVGAVLPGPVVTALLDDWPKAKMDEALANGSLMQPIEVAESVLFMVTRSKNVTVRDIVILPNSVDL	PGPT0018325_9	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_RIBITOL_METABOLISM|DEGRADATION,PGPT0018325-rbtD-K00039	NA	NA
BMS020_01216	1608	araB_1	COG1069	Ribulokinase	ATGCAAAACGATACGCAAAACATTATTGGTGTGGATGTCGGTTCGGGCAGTGTGCGCGCCGGGGTATTCAATCTGCGTGGCGAGCTTCTCGCCCACGCGACCCGGGAAATTACCCTCTTTCGCAGCGCCGGAAACAGGGTAGAGCAGTCGAGCCGTGAGATCTGGCAGGCGGTGTGCTACTGCATTAAAACCGCCGTGGCCAGCGCCGGCGTCCCGCCGTCATCGATCGCCGGGATCGGCTTCGATGCCACCTGTTCGCTGGTGGTGATTGGCGATAACGACGCGCCGCTGGCGGTCGGGCCTTCGGACGATCCGGACCGCAATATTATCGTCTGGATGGATCATCGCGCCACCGGGCAGGCGGAAAAGATCAACGCGACGGGCCACCCGGTGCTGCAGTACGTTGGCGGCAAAATTTCGCCGGAGATGGAAACGCCGAAAATTCTGTGGTTGAAGGAGAATCGCCCGCACATCTATCAGCAGGCGCGCCACTTCTTCGACCTCGCTGATTACCTTACCTGGCGCTCAACCGGCGATGAAGCCCGCTCGGTCTGCACTGTGACCTGTAAATGGACCTACCTGGCGCATGAACAACGCTGGGATGCCGGCTACTTCCGCCAGATTGGCCTCGAAGAGCTGGCGGATGAAGATTTTGTCCGCATCGGCCAACGGATTGTCGAACCTGGAACCCCCTGCGGCGACGGTCTTTGTGCCACGGCGGCGGAAGAGATGGGCCTGCCGATCGGTACGCCGGTGGCGGTGGGGATGATTGACGCCCACGCGGGCGGCATCGGCACCGTCGGGGTACTTAACGGCGCGGTCAACAATATGGCCTACGTCTTCGGCACCTCCTCCTGCACCATGACCACCACTGAGGAAGCGGTGTTCGTCCCCGGCGTCTGGGGCCCATACTATTCGGCGATGGTGCCTGGCTACTGGCTGATTGAAGGCGGCCAAAGCGCCGCCGGCGCGGCTATCGACCAGTTGCTGAGCTTCCATCCGGCGGCGGCGGAGGCTCGCGAGGAGGCGAAAGCGGCGGGCGTCCCTCTGCCGGTCTGGCTGGCGGATCGCGTACTGGCGCAGACGGCTTCGCCTTCTGAGGCGGTAACGCTGGCCGCCGGTCTGCACGTGGTGCCCGAATTTCTCGGTAACCGCGCGCCGCTTGCCGACCCACACGCGAAAGCGCTGATTGCCGGGCTGGGGATGGAGCGGGACCTGGATAACCTGACCGCGCTGTACGTTGCCGGATTATGCGGGATTGGCTATGGCCTGCGACAGATCCTCGACGCCCAGCGCGCCTGCGGGATTGAGAGTGAAAATATCGTCATCAGCGGCGGGGCCGGACAGCATCCGCTGGTGCGTCAGCTGCTGGCCGACGCCTGCGGCGTTAGCGTCGTGAGCACCGTCAGCAGCGAGCCGGTGCTGTTAGGCTCCGCCATCCTCGGCGCGGTGGCGGGCAGAGTCGCGGCTTCGCTGCCGGAGGCCATGAAGCAATTCACTCAGGTGGATGCCACCTATCACAGCGAGACTGCGTTTAGCTCGTTACATCAGCGCAGATATGAGGCCTATAAGGCGCTACAACAGGCCGGCAGGCTGATTCGCGAATAA	MQNDTQNIIGVDVGSGSVRAGVFNLRGELLAHATREITLFRSAGNRVEQSSREIWQAVCYCIKTAVASAGVPPSSIAGIGFDATCSLVVIGDNDAPLAVGPSDDPDRNIIVWMDHRATGQAEKINATGHPVLQYVGGKISPEMETPKILWLKENRPHIYQQARHFFDLADYLTWRSTGDEARSVCTVTCKWTYLAHEQRWDAGYFRQIGLEELADEDFVRIGQRIVEPGTPCGDGLCATAAEEMGLPIGTPVAVGMIDAHAGGIGTVGVLNGAVNNMAYVFGTSSCTMTTTEEAVFVPGVWGPYYSAMVPGYWLIEGGQSAAGAAIDQLLSFHPAAAEAREEAKAAGVPLPVWLADRVLAQTASPSEAVTLAAGLHVVPEFLGNRAPLADPHAKALIAGLGMERDLDNLTALYVAGLCGIGYGLRQILDAQRACGIESENIVISGGAGQHPLVRQLLADACGVSVVSTVSSEPVLLGSAILGAVAGRVAASLPEAMKQFTQVDATYHSETAFSSLHQRRYEAYKALQQAGRLIRE	PGPT0017415_187	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_RIBITOL_METABOLISM|DEGRADATION,PGPT0017415-rbtK-K00875	NA	NA
BMS020_01217	1284	csbX_2	COG0477	Alpha-ketoglutarate permease	ATGTCCGTTAATAACAAACAGTGGTATGGTCTACCGCTCAACCTCATCTGGGGATATGTCGCCATCGCCGTGTTTATGACCGGCGACGGCTTTGAGCTGGCTTTTCTGTCGCACTACATCAAAACACTCGGATTCACCCCGGCGCAGGCTTCCTTTGCCTTTACGCTTTACGGTCTGGCCGCCGCCCTGTCGGCGTGGATTTCCGGCGTGGTGGCGGAAATCATCACCCCGCGCAAGGCCATGATGATCGGCTTCGTGCTGTGGTGTGTATTCCACGTGCTGTTCCTCGTCTTCGGCCTCGGTCGCGCCAACTATGCGCTGATCCTGCTGTTTTATGGCATTCGCGGCCTGGCCTACCCGCTGTTCCTCTACTCATTTATCGTCGCCATTATCCACAACGTTCGCAGCGACAGTTCCAGCTCTGCGCTGGGCTGGTTCTGGGCGGTCTACTCCGTGGGTATCGGCGTGTTCGGCAGCTATATTCCGAGCTTCACCATTCCCCACATTGGCGAAATGGGCACCCTGTGGCTGGCGCTGGTCTTCTGTGCCACCGGCGGCATCATAGCGCTGGTGTCGATGCGTCATACCGAAACGCCGCGCCATATGCAGAACCTGACCACTCGCGAAAAACTCGCCGAACTGGGGCGCGCCGCGACGCTGCTCTATACCAACCGCAGCATCCTGTTCTCCAGCATCGTGCGCATTATTAACACCCTGTCGCTGTTTGGTTTTGCGGTGATTATGCCGATGATGTTCGTTGATGAGCTGGGCTTTACCACCTCGGAGTGGCTCCAGGTGTGGGCGGCCTTCTTCTTTACCACCATCTTTTCGAACGTTTTCTGGGGGATCGTGGCGGAGAAAATGGGCTGGATGAAGGTGATTCGCTGGTTCGGCTGCATCGGGATGGCGCTTTCCAGCCTGGCGTTTTACTACATCCCTCAGCACTTTGGCCACAGCTTTGCGATGGCGCTGGTGCCGGCTATTGCCCTGGGTATTTTCGTCGCCGCGTTCGTGCCGATGGCGGCGGTGTTCCCGGCGCTGGAGCCGAACCATAAAGGCGCGGCGATTTCGGTGTATAACCTGTCTGCCGGGCTGTCGAACTTTCTGGCGCCGGCGATCGCCGTGGTGCTGCTGCCCTATTTCAGCACCATCGGGGTGGTGATTGCCTATACCGCCTTATATATTCTGGCCTTCTTCCTGTGCCCGTTAATCCGCGTTGAACAGCCTGGCATTACCCGCGCTCAGAGTGCGAAACCGTTTACCGCCAACGCGGCGGAGTCTTAA	MSVNNKQWYGLPLNLIWGYVAIAVFMTGDGFELAFLSHYIKTLGFTPAQASFAFTLYGLAAALSAWISGVVAEIITPRKAMMIGFVLWCVFHVLFLVFGLGRANYALILLFYGIRGLAYPLFLYSFIVAIIHNVRSDSSSSALGWFWAVYSVGIGVFGSYIPSFTIPHIGEMGTLWLALVFCATGGIIALVSMRHTETPRHMQNLTTREKLAELGRAATLLYTNRSILFSSIVRIINTLSLFGFAVIMPMMFVDELGFTTSEWLQVWAAFFFTTIFSNVFWGIVAEKMGWMKVIRWFGCIGMALSSLAFYYIPQHFGHSFAMALVPAIALGIFVAAFVPMAAVFPALEPNHKGAAISVYNLSAGLSNFLAPAIAVVLLPYFSTIGVVIAYTALYILAFFLCPLIRVEQPGITRAQSAKPFTANAAES	PGPT0015024_20	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015024-csbX-NA	NA	NA
BMS020_01218	1053	fbaB	COG1830	Fructose-bisphosphate aldolase class 1	ATGACTGATATTACGCAGTTGCTGGGCAAAGATGCCGAGAGCCTTTTGCAGCACCGTTGTATAACCATTCCGGCCGACCAGCTGTATCTGCCTGGCGCAGATTATGTTGATCGGGTGATGGTGGATAACAACCGGCCGCCGGCGGTGCTACGCAATATGCAAACCCTGTACAACACCGGACGACTGGGGGGGACCGGCTACCTGTCCATTCTGCCGGTCGACCAGGGCGTGGAGCACTCGGCGGGGGCCTCCTTCGCCGCCAACCCGCTGTACTTTGATCCGAAAAATATCGTCGAGCTGGCGATCGAAGCCGGCTGTAACTGCGTGGCGTCGACCTACGGCGTGCTGGCCTCGGTGTCGCGCCGTTACGCGCATCGTATTCCTTTCCTGGTGAAGCTCAACCATAACGAAACGCTGAGCTACCCCACCGAATACGACCAGACCCTCTACGCCAGCGTTGAGCAGGCGTTCAATATGGGGGCGGTGGCCGTGGGCGCGACGATCTATTTCGGCTCGGAACAATCGCGTCGTCAGATAGAAGAGATCTCTGCGGCCTTTGAGCGGGCCCATGAGCTGGGCCTGGTCACCGTGCTATGGGCCTATCTGCGCAATTCGGCATTCAAGAAAGACGGTGTCGACTACCATGTTTCCGCTGACCTGACCGGTCAGGCCAACCACCTGGCGGCCACCATCGGCGCCGATATCGTCAAGCAAAAGATGGCGGAGAATAACGGCGGCTACAAAGCGGTTAACTTCGGCTATACCGACGACCGGGTGTACAGCAAACTGACCAGCGATAACCCCATCGATCTGGTGCGCTACCAGCTGGCCAACTGCTACATGGGCCGCGCCGGGCTGATTAACTCCGGCGGCGCGGCGGGCGGGGAGACCGACCTTGCCGACGCGGTGCGCACCGCGGTGATCAATAAACGCGCCGGCGGCATGGGGCTGATCCTTGGCCGCAAAGCGTTTAAGAAATCGATGGCCGACGGCGTGAAGCTGATCAATGCCGTGCAGGATGTCTACCTCGACGGGAAAGTCACCATCGCCTAA	MTDITQLLGKDAESLLQHRCITIPADQLYLPGADYVDRVMVDNNRPPAVLRNMQTLYNTGRLGGTGYLSILPVDQGVEHSAGASFAANPLYFDPKNIVELAIEAGCNCVASTYGVLASVSRRYAHRIPFLVKLNHNETLSYPTEYDQTLYASVEQAFNMGAVAVGATIYFGSEQSRRQIEEISAAFERAHELGLVTVLWAYLRNSAFKKDGVDYHVSADLTGQANHLAATIGADIVKQKMAENNGGYKAVNFGYTDDRVYSKLTSDNPIDLVRYQLANCYMGRAGLINSGGAAGGETDLADAVRTAVINKRAGGMGLILGRKAFKKSMADGVKLINAVQDVYLDGKVTIA	PGPT0017620_195	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017620-fbaB|dhnA-K11645	NA	NA
BMS020_01219	801	thiD_1	COG0351	Hydroxymethylpyrimidine/phosphomethylpyrimidine kinase	ATGAAACGCATCAATGCTCTGACCATCGCCGGCACCGATCCCAGCGGCGGGGCCGGTATCCAGGCCGATCTGAAAACCTTCTCCGCGCTGGGGGCCTACGGCTGCTCGGCGATCACCGCCCTGGTGGCGCAGAATACCCGCGGCGTGCAGTCGGTCTATCGTATTGAACCGGACTTTGTGGCGGCGCAGCTCGATTCGGTGTTCAGCGATGTGCGCATCGATACCACCAAAATCGGCATGCTGGCGGAAACCGATATTGTGGAAGCCGTGGCCGAGCGGCTGGCGCGCTACCGGGTGGCCAACGTGGTGCTGGATACCGTCATGCTGGCGAAAAGCGGCGATCCGCTGCTGTCGGCCTCGGCGGTGGAGACCCTGCGTCAACGATTGTTGCCGCAGGTGTCGCTGATCACCCCGAACCTGCCGGAAGCGGCCGCCCTGCTCGATGCTCCCCATGCGCGCAACGAGCGCGAAATGCTGGAGCAGGGGCGGGCGCTGCTGGCGCTGGGCTGCGGCGCGGTATTGATGAAGGGCGGCCATCTCGACGATGCCGAGAGCCCGGACTGGCTCTTCACCCGCGAAGGGGAACAGCGATTTACCGCGCCGCGAGTACAGACCAAAAACACGCACGGCACCGGCTGCACGCTCTCGGCGGCGCTGGCGGCGCTGCGTCCGCGTCACGCCGACTGGGCGGCCACCGTTACCGAGGCCAAGGCCTGGCTGTCGGCGGCCCTGGCGCAGGCCGACTCCCTGGAGGTGGGCCACGGCATCGGGCCGGTGCACCATTTCCATGCCTGGTGGTAA	MKRINALTIAGTDPSGGAGIQADLKTFSALGAYGCSAITALVAQNTRGVQSVYRIEPDFVAAQLDSVFSDVRIDTTKIGMLAETDIVEAVAERLARYRVANVVLDTVMLAKSGDPLLSASAVETLRQRLLPQVSLITPNLPEAAALLDAPHARNEREMLEQGRALLALGCGAVLMKGGHLDDAESPDWLFTREGEQRFTAPRVQTKNTHGTGCTLSAALAALRPRHADWAATVTEAKAWLSAALAQADSLEVGHGIGPVHHFHAWW	PGPT0008915_3126	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
BMS020_01220	774	thiM_1	COG2145	Hydroxyethylthiazole kinase	ATGCCTGAGCTGTTGAATCCCGCGCCTGTCGCGCACCTGCGCCATCTGCTGCGCGCCCATTCCCCCCTTGTGCACTGCATGACCAATGACGTGGTGCAGACCTTTACCGCCAATGTTCTGCTGGCCGTCGGCGCCTCGCCGGCGATGGTGATCGATCCCCGCGAAGCGGCGCAGTTCGCCGCCATCGCCGATGCGCTGTTAATCAACGTCGGCACCCTGACCGAAGATCGCGCAGTGGCCATGCGTGCCGCAGTGGAGCAGGCCCGCCAGGCCGGCAAGCCCTGGACGCTGGATCCGGTGGCGGTCGGCGCCCTGACCGTGCGCACGACCTTTTGTCACGCGCTGCTGGCCTTCCAGCCGGCGGCCATTCGCGGGAATGCCTCCGAAATTCTGGCGCTGGCCGGGATGAGCGCCGGCGGGCGCGGGGTGGATACCACCGATACGGCCGCCGCGGCGCTGCCGGCGGCCCAGGCGCTGGCTCGTCAGTTGACCACCGTCGTGGCGGTCACCGGTGAGGTGGATTACGTCACCGACGGCGAGCGGGTGCTCAGCGTGGCGGGCGGCAGTGCGCTGATGACCCGGGTGGTGGGCACCGGTTGCGCGCTGTCGGCGGTGGTGGCGGCGAGCGCGGCGCTGCCGGGAGACCGGCTGGAAAACGTGGCCGCCGCCTGCGGGCTCATGAAGCAGGCCGGGGAAATCGCTGCCCGTCACGGGGGGCCCGGGAGCTTTGTTCCGGCGTTTCTCGACGCGCTGTATCAGGAGGTGCGCGCATGA	MPELLNPAPVAHLRHLLRAHSPLVHCMTNDVVQTFTANVLLAVGASPAMVIDPREAAQFAAIADALLINVGTLTEDRAVAMRAAVEQARQAGKPWTLDPVAVGALTVRTTFCHALLAFQPAAIRGNASEILALAGMSAGGRGVDTTDTAAAALPAAQALARQLTTVVAVTGEVDYVTDGERVLSVAGGSALMTRVVGTGCALSAVVAASAALPGDRLENVAAACGLMKQAGEIAARHGGPGSFVPAFLDALYQEVRA	PGPT0008990_1943	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
BMS020_01222	1977	yjcS_1	COG2015	Putative alkyl/aryl-sulfatase YjcS	ATGAAATTAACCCCGATTGTGAAAGGGTTAGCGTTAGCGGGCATGTTAAGTAGTCTCGCTTTCGCCGCCTGGGCAGATACGTCAGCCAAAGAGGCAACCGAAGCGACCAAAAAAGCGAACGATGCCCTCTACAGCCAACTCCCCTTCTCCGATAACACCGATTTCACCAATGCGCATAAAGGCTTTATTGCCGCCCTGCCGCCAGAGGTCATCAAAGGCGAACAGGGCAATGTCATCTGGGATCCGGGCCAGTACGCCTTCATTAAAGAAGGGGAAAAAGCGCCAGAAACCGTAAACCCGAGCCTGTGGCGTCAGTCGCAGCTGATCAACATCAGCGGCCTGTTTGAAGTCACCGACGGGGTCTACCAGATCCGCAACCTCGATCTCTCCAATATGACAATCATTGAGGGTAAAGAGGGGATCACCGTCGTAGACCCGCTGGTCTCGGCTGAAACCGCCAAAGTCGGCATGGATCTCTACTATAAGAACCGGGGTAAAAAACCGGTCGTCGCGGTGATCTACACCCACAGCCACGTTGACCACTACGGCGGCGTGCGCGGCGTGGTGGATGAAGCCGACGTCAAAGCGGGTAAAGTAAAAATCTACGCGCCGTCCGGCTTTATGGAAGCGGCGGTGGCGGAAAATATCATGGCCGGGAACGTCATGAGCCGCCGCGCCAGCTATATGTACGGCAACCTGCTGAAGCCGGACGCTAAAGGCCAGGTGGGCGCGGGCCTGGGGACTACCACCTCGGCAGGCACCGTCACCCTGATTGCGCCAACCAACATCATTGATAAGGATGGCCAGAAAGAGGTGATCGACGGCCTGACCTATGACTTCATGCTGGCGCCAGGCTCCGAAGCGCCATCAGAAATGCTGTGGTATATCGAAGAGAAGAAATTGATCGAATCCGCAGAGGATGTCACCCACACCCTGCATAACACCTACTCGCTGCGCGGGGCGAAGATCCGTGAGCCGCTGCCGTGGTCGAAATATATCAACCAGGCGATCGTTCGCTGGGGCGATAAGGCTGAGATCATAATGGCCCAGCACCACTGGCCGACCTGGGGCAACGAGAACGTGGTTAACCTGCTGAAGAGTCAGCGTGACCTGTATCGTTACATCAACGACCAGACCCTGCGGATGGCTAACGAAGGCCTGACCCGCGATGAAATCGCCGCTAACTTTAAGCTGCCGGACGGCCTCGCCAATACCTGGGCTAACCGCGGCTACTACGGCTCGGTCAGCCACGATGTGAAGGCCACCTACGTGCTGTATCTCGGCTGGTTCGACGGCAACCCGGCCACCCTTGACGAACTGCCGCCGGAAGAAGCGGCGAAGAAGTTCGTCGAGTACATGGGCGGCGCGGATGCCATTCTGAAGAAAGCGAAAGAGGATTACGACCAGGGTAACTACCGCTGGGTTGCCCAGGTGGTGAGCAAAGTCGTTTTCGCCGACCCTAACAACCAGCAGGCGCGTCATCTGGAAGCCGATGCCCTGGAGCAATTAGGCTATCAGGCGGAGTCCGGCCCGTGGCGTAATTTCTACCTTACCGGCGCCCAGGAACTGCGCAACGGCGTGGTGAAAGGTCCGACCCCGAACACCGCCAGCCCGGACACCGTCCGCGCCATGACCCCGGAAATGTTCTTTGATTATCTGGCGGTCCATATTAATGGCGAAAAAGCGGGCAATGCGAAGTCGGTCTTCAATATCGATCTGGGCAATGACGGCGGTAAATATAAACTGGAACTGGAAAACGGTGTGCTGAACCACACCGCCAATGCGCAAGCCAAAGAGGCGGATGCCACCCTGACGCTGGATCGCGCTACCCTGAATAAAATCATTCTCAAAGAAGAGACCCTGAAGCAGGCGGAAGATAAGGGGGAAGTTAAAATCAGCGGTAACGGGGCTAAACTCGATGAAATGTTGGGCTATATGGACCCGTTTGACTTCTGGTTTAACATCGTGACGCCGTAA	MKLTPIVKGLALAGMLSSLAFAAWADTSAKEATEATKKANDALYSQLPFSDNTDFTNAHKGFIAALPPEVIKGEQGNVIWDPGQYAFIKEGEKAPETVNPSLWRQSQLINISGLFEVTDGVYQIRNLDLSNMTIIEGKEGITVVDPLVSAETAKVGMDLYYKNRGKKPVVAVIYTHSHVDHYGGVRGVVDEADVKAGKVKIYAPSGFMEAAVAENIMAGNVMSRRASYMYGNLLKPDAKGQVGAGLGTTTSAGTVTLIAPTNIIDKDGQKEVIDGLTYDFMLAPGSEAPSEMLWYIEEKKLIESAEDVTHTLHNTYSLRGAKIREPLPWSKYINQAIVRWGDKAEIIMAQHHWPTWGNENVVNLLKSQRDLYRYINDQTLRMANEGLTRDEIAANFKLPDGLANTWANRGYYGSVSHDVKATYVLYLGWFDGNPATLDELPPEEAAKKFVEYMGGADAILKKAKEDYDQGNYRWVAQVVSKVVFADPNNQQARHLEADALEQLGYQAESGPWRNFYLTGAQELRNGVVKGPTPNTASPDTVRAMTPEMFFDYLAVHINGEKAGNAKSVFNIDLGNDGGKYKLELENGVLNHTANAQAKEADATLTLDRATLNKIILKEETLKQAEDKGEVKISGNGAKLDEMLGYMDPFDFWFNIVTP				NA	NA	NA	NA	NA
BMS020_01223	636	iprA_3		Inhibitor of hydrogen peroxide resistance	ATGAATTTCCAGGAAATACATAGTTATTATAAGACGTTAGCCATAGCCGACTTTTTTGCCGATATCCTCGTGGAAGGTGAAGAGGTTATTCTCGCCGCCAATAAAAAATGGTGCCCGCAACCGGGGTATATTTATTTTTGCACCGAGGGTTCGCTATCCATATTAATGCCGGATGATGGGTTGAATATCGGTAATACTATTGAGCATATGCCGATTGGCCTGATGGAGCGGTATTGCCCGCTGGCGAAATTTGAATATACCGGAAGCGCAACCGTGACGCTGCGTAAAATTTCCTACGCCACTTTTGATCGCCTTTTTATTGCTACCCACCCGCAGCGCGTTGAGGCGCTGGCGAAGGTGTTGGTGTTCATGAGTATCTTTACCATCGACCTGCACAATGAACGTCGCCAGGTCACCAGCTACCAGACGATTCGTCCGATGCTGTATCGCTATTTGTATCGGCAGCATACGCATGAGGGTGAAAACGAGGGGCTGGCGTTATTTATCATCCGGCGTACGAATCTTTCGCGCACTCACGTGTTTCGCGTGCTGGCGGACTTAAAGGCGGGGGGATATATCACGATGAAACGGGGCAAACTGATCTCTATCGATCGACCGCTGCCTGCGGAGTACTGA	MNFQEIHSYYKTLAIADFFADILVEGEEVILAANKKWCPQPGYIYFCTEGSLSILMPDDGLNIGNTIEHMPIGLMERYCPLAKFEYTGSATVTLRKISYATFDRLFIATHPQRVEALAKVLVFMSIFTIDLHNERRQVTSYQTIRPMLYRYLYRQHTHEGENEGLALFIIRRTNLSRTHVFRVLADLKAGGYITMKRGKLISIDRPLPAEY				NA	NA	NA	NA	NA
BMS020_01224	1977	yjcS_2	COG2015	Putative alkyl/aryl-sulfatase YjcS	ATGAAATTAAATCAGATAGCCAAAAATCTGGCGCTGGCCGGAATGTTATCGTCTTTGTCGGTAACCGCCTTTGCCGCCGCACAACAACAGGATGCCACACCGGCCACGCGGGAGGCGAACCAGGCGCTATACCGTAAACTGCCGTTTGCGGATAAAACCGACTTTAACAACGCCCATCAGGGATTTATCGCGCCCCTGCCGCCGGCGATGCTCAAAGGTGACCAGGGAAATATTATCTGGGATCCGGCCAAATATAATTTCGTCAAAGAGGGCGAAAAGGCGCCGGACACCGTCAATCCCAGCCTGTGGCGACAGTCGCAGCTGCTGAATATCGGCGGTCTGTTCAAAGTCACCGACGGCGTTTACCAGATCCGTAATCTCGATCTTTCCAATATGACCATTATTGAAGGCAAAACCGGGATCACCATCATCGACCCGCTGCTAAGCGCCGAACCGGCTAAAGAGGCTCTGGCGCTCTATTTTGCCCACCGGCCGAAAAAACCGGTGGTGGCGGTGCTGTTTACCCACAGCCATGTGGACCACTACGGCGGTATCCGCGGGGTGGTGGATGAAGCCGATGTCGAAGCCGGAAAAGTGAAGATTTACGCCCCGGACGGCTTTATGAAAGAAGCGGTTTCCGAAAATATCATGGCCGGTACCGCGATGAGCCGCCGCGCCAGCTATATGTATGGCAACCTGCTGAAGCCGGACGCCAAAGGTCAGGTTGGCGCCGGTCTCGGCACCACCACCTCGGCGGGTACCGTCACGCTGATCCCGCCGACCAACTACATTACCCATACCGGTCAGCAGGAAGTGATCGACGGCCTGACCTATGACTTTATGATGGCGCCGGGCTCGGAAGCGCCGTCTGAGATGCTGTGGTATGTCAAAGAGAAGAAAATGATCGAGGCGGCAGAGGATGTCACCCATACCCTGCACAACACCTACTCGCTGCGCGGCGCCAAAATCCGCGATCCGCTGGCGTGGTCGAAATACATCAACGCCGCCATCGACCGCTGGGGCAACGATGCGGAAGTGATTATCGCGCAGCACCACTGGCCGACCTGGGGCAATGACAATATCGTTAAGCTGATGAAAGGTCAGCGCGATATGTATCGCTATATCAACGACCAGACTCTGCGGATGGCGAATTTGGGCATGACCCGCGATGAGATCGCCGCCAACTTCAAGCTGCCGGAGTCCCTTGAGAAACAGTGGTCCAGCCGCGGCTACTACGGTTCCGTCAGCCACGATGTGAAAGCGACCTACGTCTTCTACCTCGGCTGGTTCGACGGCAACCCGGCCACCCTCGACGAGCTGCCGCCAGAGCAGGCGGCGAAGAAGTTCGTGGAATATATGGGCGGTGCCGATGCCATCATGCAGAAAGCCAAAGCCGACTACCAGCAGGGGAACTACCGCTGGGTGGCGCAGGTGACCAGCAAAATCGTCTTCGCCGATCCGAACAATCAGCAGGCGCGTCATCTGGAAGCCGACGCCCTGGAGCAGCTCGGGTATCAGGCGGAAGCCGGGACCTGGCGCAACTTCTACCTCACCGGCGCTCAGGAGCTGCGTAACGGCGTGCAGAAACTGCCGACGCCGAACACCGCCAGCCCGGATACCGTGCGGGCGATGACGCCGGAAATGTTCTTCGATTATCTCGGGGTGCATATCAACGGCGAAAAAGCCGGGGCGGCTAAAGCGGTCTTTAACATCGACCTCGGTAAAGACGGCGGCAAGTACAAACTGGAGCTGGAAAACGGCGTGCTTAACCATACCGCCAATGCGGTAGCCGACAACGCAGACGCCAGCATCTCGCTCAGCCGCGACACCCTGAATAAGATCATCCTGAAACAGGAGACGCTGAAGCAGGCTCAGGCTAACGGCGAGGTTAACATTCGCGGCAATGGCGCTAAGCTCGACGAAATGCTGAGCTATATGGACACCTTTGCCTTCTGGTTCAACATCGTCACCCCGTAA	MKLNQIAKNLALAGMLSSLSVTAFAAAQQQDATPATREANQALYRKLPFADKTDFNNAHQGFIAPLPPAMLKGDQGNIIWDPAKYNFVKEGEKAPDTVNPSLWRQSQLLNIGGLFKVTDGVYQIRNLDLSNMTIIEGKTGITIIDPLLSAEPAKEALALYFAHRPKKPVVAVLFTHSHVDHYGGIRGVVDEADVEAGKVKIYAPDGFMKEAVSENIMAGTAMSRRASYMYGNLLKPDAKGQVGAGLGTTTSAGTVTLIPPTNYITHTGQQEVIDGLTYDFMMAPGSEAPSEMLWYVKEKKMIEAAEDVTHTLHNTYSLRGAKIRDPLAWSKYINAAIDRWGNDAEVIIAQHHWPTWGNDNIVKLMKGQRDMYRYINDQTLRMANLGMTRDEIAANFKLPESLEKQWSSRGYYGSVSHDVKATYVFYLGWFDGNPATLDELPPEQAAKKFVEYMGGADAIMQKAKADYQQGNYRWVAQVTSKIVFADPNNQQARHLEADALEQLGYQAEAGTWRNFYLTGAQELRNGVQKLPTPNTASPDTVRAMTPEMFFDYLGVHINGEKAGAAKAVFNIDLGKDGGKYKLELENGVLNHTANAVADNADASISLSRDTLNKIILKQETLKQAQANGEVNIRGNGAKLDEMLSYMDTFAFWFNIVTP				NA	NA	NA	NA	NA
BMS020_01225	423			hypothetical protein	ATGGCGCTTTATCACCATGCGCTGGTACTGATTAACAGCAGTCAGGACGGCGTCCCGCTGCTCGAGCATGCCGCCAGAATGGCGGAAGAGAACGGCATGCGCATCACTATCGCCCACATCAGCACCGACTACCGGGCGCTGAACTATGTTTCCGACAGCCTGCGCGACGATCAGGTCTCGCAGGAGGTGATCCAGGCCAAAGCCCTGCTCAACGAGCTGGCCTGCACCGTCTCCCTGCCGGTGGATACCCTCTCGCTGGTGACCACCCGCCGCTTTGAAGATGTCGAAACCTGCGTTCGACAGCGGCAGATCGATTTAATTATTGCCGGACACCATAACCGGCTGCTGGGCGTCCTCTCCTCACACTCGCTGGAGTACATCAACCACTTGACCATAGACGTGCTGATCAAGCACCTGCCCTAG	MALYHHALVLINSSQDGVPLLEHAARMAEENGMRITIAHISTDYRALNYVSDSLRDDQVSQEVIQAKALLNELACTVSLPVDTLSLVTTRRFEDVETCVRQRQIDLIIAGHHNRLLGVLSSHSLEYINHLTIDVLIKHLP				NA	NA	NA	NA	NA
BMS020_01226	915	oxyR_3		Hydrogen peroxide-inducible genes activator	ATGATGAACGAACCCTGGCAGCGGCTGCCCGCGCTCTCTCTTAAACAGCTTCAGTATTTCGTCACCCTGGCCCAGCTGCGCCATTTTACCGATACCGCCAGTCGGCTGGCGATTAGCCAGCCAGCGCTGAGCAGCGCTCTGCGGCAGATTGAAACGGTGCTCGGCGGCAAGCTGGTCAACCGCACCGCTTCGGCGGTCACCCTGACTGAACTGGGGGCGGCGATTTTACCCCACGCCCAGCGGATCCTCAGCGTGGCGCAGGCGGCCTTTTTCGATATGCAGCAGATCGTCGAGGCGGGCGGCGACGGGACGGTGCGCATCGGCCTGGTGCCGTCGGTCAGTTCGCTGCTGTTTCCGCTGCTGCCGCAGACCCTGGCCCAGGCCTTTCCCCGCCTGCGTATTGAATTTCACGATCAGACCAACGATGCGCTCATCCAGGCGCTGTTGCGCGGCGAGATTGATTTCGGCATCGGGGCGATCGACAGCTCACTGCCCGCAGAACTGCTGGTCTATCCGCTGCGCGACGATCCCTTCGTGGCGGTGCTGCACCGCGACGATCCGCTGGCCGCGCAGGCGCATCTGCCGTGGAAACAGCTGGTGGGGCGGGACATTGCCGTCTTCTCGAAGGGCAATATTCAGCGGCTGGTGGCGGCATTAGTGGAGAGCCATCGCCTGACGCTGACCACCCGCTACCAGGTGGACTATATCGAAACCCTGTATGGCCTGGTGCGCTCGCGCTTAGCGGTGGCGATACTGCCGGAGCTGTACACCACCCATCTGCAGGACCCGGCGCTCAAGGTCGCCCAGCTGCAGCAGCCGGCGTTGACCCGCACGGTGGCCCTGATGCGCGGGCCGCAGGCGCTGCCGCCGCTTATCGAAGACTGTTTTTCCCTGCTGCAGGCCGCCTTGCGCTAG	MMNEPWQRLPALSLKQLQYFVTLAQLRHFTDTASRLAISQPALSSALRQIETVLGGKLVNRTASAVTLTELGAAILPHAQRILSVAQAAFFDMQQIVEAGGDGTVRIGLVPSVSSLLFPLLPQTLAQAFPRLRIEFHDQTNDALIQALLRGEIDFGIGAIDSSLPAELLVYPLRDDPFVAVLHRDDPLAAQAHLPWKQLVGRDIAVFSKGNIQRLVAALVESHRLTLTTRYQVDYIETLYGLVRSRLAVAILPELYTTHLQDPALKVAQLQQPALTRTVALMRGPQALPPLIEDCFSLLQAALR	PGPT0021950_190	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021950-dhcR-K17737	NA	NA
BMS020_01227	1812	ade2	COG1001	Adenine deaminase 2	ATGTCCAGCAATGCTCAAGTCCGCCGTCGCGCCGTGCAGGCCGCGCGCGGCGAATCCCCGTTTGATCTGCTGCTGGTCGATGCGCAGATCGTCGATATGGCCACGGGCGAAATCCGCCCGGCTGACGTCGGCATCGTCGGCGAGATGATCGCCAGCGTCCACCCGCGCGGCAGCCGCGTCGACGCCCATGAAGTGCGTTCCCTGTCCGGCGGCTACCTGTCGCCCGGCCTGATGGACACCCACGTGCACCTCGAAAGCTCCCACCTGCCGCCCGAGCGCTACGCCGAAATCGTCCTCACCCAGGGCACCACCGCGGTGTTCTGGGATCCGCATGAGCTGGCCAACGTGCTCGGCGTCGAGGGCGTGCGTTACGCGGTAGACGCCAGCCGCCATCTGCCGCTGCAGGTGATGGTCGCCGCGCCGTCGAGCGTGCCCTCCACCCCCGGCCTCGAAATGTCCGGCGCCGATTTCGCCGGCGCGGAAATGGAGACCATGCTCGGCTGGCCGGAAGTGCGCGGCGTGGCGGAAGTGATGGATATGCATGGCGTGCTGCACGGCAGCGAGCGGATGCAGGAGATTGTCCAGGCCGGTCTCAACAGCGGAAAACTGATTGAAGGCCACGCCCGCGGGCTGAGCGGCGCCGACCTGCAGGCCTACCTCGCCGCCGGCGTCACCTCCGATCATGAACTGACCTCGGCGGACGACGCGCTGGAAAAACTGCGCGCCGGGCTGACGATCGAGATCCGCGGCTCGCACCCCTACCTGCTGCCGGATATCGTGGCGGCGTTGAAAACGCTGCCGCACCTCTCCTCGCAGATCACCGTCTGCACCGATGACGTGCCGCCGGATATGCTGCTGGAGAAAGGCGGGATCATCGCCCTGCTCAACCTGCTGATCGAGCATGGATTACCGGCGGTCGATGCGCTGCGTTTCGCCACCCTCAACGCTGCTATTCGCCTGCAGCGCCACGATCTCGGGCTGATTGCCGCCGGGCGTCGCGCCGACCTGGTGGTGTTTGATTCCCTGGAGAAACTGGCGGCCCGCGAAGTCTACGTTGGTGGGGAACGGCTGGCCCATGCCGGCCGCCTGCTGAAGCCGATCGCCCCGGCGCCGGGCGTGACGCCGCCGCGCGATACCTTGCAGATAGCCCCCCTCGCCGCCGATGACTTTATCCTGCGCATCAAGGGCATTCGCCACGGCGTCGCCCGCCTGCGCCATATCCGCGGCGCGCGCTTCACCCAGTGGGGTGAGGTCGAGGTGCAGATCCGCGACGGCCAGGTCCAGCTGCCCGCCGGCTTCAGCCTGATCTGGGTCAAGCACCGCCACGGCCGCCATCAGGCGACGCCGCAAATCGCCCTGCTTGAAGGCTGGGGCGAGCTGCGCGGCGCCATCGCCACCAGCTATTCCCACGATTCACACAATCTGGTGGTGCTCGGGCGCAATGCTGAGGATATGGCGCTGGCGGCTAACCAGCTTATCGCCTCCGGCGGCGGGATGGCGCTGGCGCAACGGGGCGAGATCCTCGCCCATGTGGCGATGCCGATTGCCGGCATGCTGTCGGATCTCCCGGCGGCCGAGCTGGCGCGTCAGTTCCGCGAGCTGCGCGATCTGAGCAGCAAAGTCGCCGACTGGGAGCCGCCGTACCGGGTCTTTAAGGCCATTGAAGGCACCTGTCTTGCCTGTAACGCCGGGCCGCATTTAACCGATTTGGGTCTGACCGACGGCGGCAGCCGCCAGATAGTCGACCCGTTGATAGCCTGCCGGGAAACCCCGGCGCCAACGCCTCACAACAATAATCCTCAGGGAGCCTGA	MSSNAQVRRRAVQAARGESPFDLLLVDAQIVDMATGEIRPADVGIVGEMIASVHPRGSRVDAHEVRSLSGGYLSPGLMDTHVHLESSHLPPERYAEIVLTQGTTAVFWDPHELANVLGVEGVRYAVDASRHLPLQVMVAAPSSVPSTPGLEMSGADFAGAEMETMLGWPEVRGVAEVMDMHGVLHGSERMQEIVQAGLNSGKLIEGHARGLSGADLQAYLAAGVTSDHELTSADDALEKLRAGLTIEIRGSHPYLLPDIVAALKTLPHLSSQITVCTDDVPPDMLLEKGGIIALLNLLIEHGLPAVDALRFATLNAAIRLQRHDLGLIAAGRRADLVVFDSLEKLAAREVYVGGERLAHAGRLLKPIAPAPGVTPPRDTLQIAPLAADDFILRIKGIRHGVARLRHIRGARFTQWGEVEVQIRDGQVQLPAGFSLIWVKHRHGRHQATPQIALLEGWGELRGAIATSYSHDSHNLVVLGRNAEDMALAANQLIASGGGMALAQRGEILAHVAMPIAGMLSDLPAAELARQFRELRDLSSKVADWEPPYRVFKAIEGTCLACNAGPHLTDLGLTDGGSRQIVDPLIACRETPAPTPHNNNPQGA	PGPT0021510_172	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021510-ade-K01486	NA	NA
BMS020_01228	1344	adeQ_1	COG2252	Adenine permease AdeQ	ATGGCCGATAACACACTTCACTCTTCCGCCCGCGATAACTGGCTGGAGCGCCGCTTTGCGCTGCGCTCGCGCGGCGGCACGCTGCGCAGCGAATGCCTGGCCGGGATCACCGGTTTTCTCGCCGCCGCCTATTTACTGGTGGTCATCCCGGGACTGCTGGCGATAGGCGGAATGGACAAAGGCGCCGCCACCACCGGCACCATTCTGGTCTTCGTCGTCGGCTCGCTGCTGATGGCGTTTTACGCTAACCTGCCGTTTATCGTCGGCCCGGGCATTGGCGGCTCGGTGCTGGTGGGGGTCACGCTGGCCGGTAGCGAGGGGATTGGCTGGCAGACGGGCCTCGGGATCGCCTGCTGGTCGGGGGTTCTCTTCTTCCTGCTGACCCGCTTTGGCCTGCGCGAAGTGGTCACCCGCTCGGTGCCGCAGTCGATCAAGCTGGGGCTGACGGCCTCCATCGGCCTGTTCGTCGCCGTCCTCGGCTTTCGCAACGCCGGGCTGGTGCTCGCCAATGCCAAAACCAACGCCCTGATGCTCGGCGACTTCCTCGCCCCCGGCGCGCTGGTGGCGCTGTGCGGCCTGTTCCTGGCCATAGCCCTGCAGGCGCGTAAGGTGCCGGGCGCCATTTTGTGGGCCATTCTGTGCGCTACCCTGGTGGGGATCCCGTTCGGCGTCACGAAACTGCCGACGCATTTTATCGATGCCCCCCACTCGCTGGCCCCGGTGCTGGGAGAGGTTGACCTGCTGGGGGCGTTAAACATCGCCTTCCTGCCGTTCCTGTTTGTCTTTTTCGCTTCTGAGTTTTTCTCCACCATGGGGACGACGCTGGCGGTGGGCGGCGAGGCGGGTCTGCTGGATGAAGAAGGCAACATGCCGCAGATTAATCGCCCGTTTATGGTCGATTCGATTGCCGCGGCGCTCGGCCCGTGGGTAGGTATTCCGGCGGCAACGGCGCTGATTGAGTCCTCGGCGGCGGCGGAAGCCGGCGGCAAAACCGGCCTCACCGCGCTGTCGGCGGCGGTGATGTTCCTGCTGATGCTGCTGTTCACGCCGGTGGCGCTGATGATCCCGAAGGAGGCCACCGCCCCGGCGCTGATCCTGATCGGCCTGAACATGTTCAGCGGCCTGCGCAAAGTGGAGCTTGGCAACTTCACCGACGGCCTGCCGGTGCTGATGATGGTGATGATCACACTCATCGCCAACAGCTTCGGCACCGGCATCGCCGGCGGGCTGCTGTTTTACATTGTGATCAAGGCCATCGCCGGCAAGTGGCGGGAAATCCCGATTGGCCTGTGGGTGCTGGCCGTCCCGCTGGTCTACTACTTCGCGACCTTAGTTAGACATTAA	MADNTLHSSARDNWLERRFALRSRGGTLRSECLAGITGFLAAAYLLVVIPGLLAIGGMDKGAATTGTILVFVVGSLLMAFYANLPFIVGPGIGGSVLVGVTLAGSEGIGWQTGLGIACWSGVLFFLLTRFGLREVVTRSVPQSIKLGLTASIGLFVAVLGFRNAGLVLANAKTNALMLGDFLAPGALVALCGLFLAIALQARKVPGAILWAILCATLVGIPFGVTKLPTHFIDAPHSLAPVLGEVDLLGALNIAFLPFLFVFFASEFFSTMGTTLAVGGEAGLLDEEGNMPQINRPFMVDSIAAALGPWVGIPAATALIESSAAAEAGGKTGLTALSAAVMFLLMLLFTPVALMIPKEATAPALILIGLNMFSGLRKVELGNFTDGLPVLMMVMITLIANSFGTGIAGGLLFYIVIKAIAGKWREIPIGLWVLAVPLVYYFATLVRH	PGPT0007325_3012	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
BMS020_01229	900	dmlR_10		HTH-type transcriptional regulator DmlR	ATGTTCAGGCTGGAAGATCTGACCTTATTTGTCCGCGCCGCGGCACTGGGCAGTTTTAGCGACGCCGCGCGCGAGGCGGGGCAGCAACCGGCGCAGGTAAGCGCGGCGATTAAGCGTCTGGAGACAATCCTCAATATTCGCCTGTTCGCCCGCTCGACCCGCAGCCTGCGCCTGACGCCGGAGGGGGAGACCTGGCTGCCGTATGCCACCCAGATGCTCGATACCCTCGAGGCCGGCCTGCAGAAGATCCAGACCCCGGACGATGAAATTCGCGGCATGCTGCAGATCGCCGTGCCGTCGGATCTCGGGCGTAACCTGCTCCTGACCCTGTTCCGCGACTTTCGGCAACGCCACCCGGCGCTGCGCCTGCGGCTGCTCTTTTCCGACCATCTGACCGACGTGTTTAAAGATCCGGTGGACGTCGCGTTTCGCTATGGCAATAACGATGACGCCTCGTTTATTTCGCTGCCGGTGGCGCCGGAAAATCGTCGGGTGCTGGTGGCCTCTCCTGAGTGGATCGCCCGCCACGGCGAGCCGCAGACCCTTGAGGAGCTCGGCCAGCACAATGCGTTGATCTACATATTGCGCGGCCGCCCGTTCGACCGCTGGTCGCTGAGCCTCGACGGCGAAGTCCTGCAGCAGAAGGTCTCCGGCACGGTGATGAGCGACGACGCGGAGGTGATCCGCCGGCTGGCGGTGGCCGGGGAGGGCATTGCCTATAAATCGATGCTCGACGTCAGCGACGATCTGCGGGCGGGCCGCCTGCGGCGCCTGCTGCCGCGTTACCAGGGGGATGTGGTGCCGTTGAACCTGATTTGTCCGCACCGCAAACAGCTCTCTGCCGCGGTGCGTTTGTTATATGAAGAGGTGAAATCACATTGTGAAGGGCTTAATGTCTAA	MFRLEDLTLFVRAAALGSFSDAAREAGQQPAQVSAAIKRLETILNIRLFARSTRSLRLTPEGETWLPYATQMLDTLEAGLQKIQTPDDEIRGMLQIAVPSDLGRNLLLTLFRDFRQRHPALRLRLLFSDHLTDVFKDPVDVAFRYGNNDDASFISLPVAPENRRVLVASPEWIARHGEPQTLEELGQHNALIYILRGRPFDRWSLSLDGEVLQQKVSGTVMSDDAEVIRRLAVAGEGIAYKSMLDVSDDLRAGRLRRLLPRYQGDVVPLNLICPHRKQLSAAVRLLYEEVKSHCEGLNV	PGPT0012355_5	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-FIT-SYSTEM,PGPT0012355-fitG-K19618	NA	NA
BMS020_01230	318	rcnB	COG5455	Nickel/cobalt homeostasis protein RcnB	ATGCGTAAAACAAAAATGATGCTTCTGGGCGTACTCCTTGCCACCGCCGGCGCCAGCTGGACGGCTTCTGCCGCGGGGATCGATCAGTATGCGCTGAAAGAGTTCACCGCCGACTTCACCCAGTTCCACATTGGCGACACCGTTCCGGCGATGTACCTCACCCCCGAATACAACATCAAAGGGTGGCAGCAGCGTAATCTGCCCGCGCCGGACGCCGGCAGCCACTGGACCTATATGGGCGGTAACTACGTGCTGATCACCGACACCGAAGGCAAAATCCTCAAGGTGTACGATGGCGAGATCTTCTATCATCGCTGA	MRKTKMMLLGVLLATAGASWTASAAGIDQYALKEFTADFTQFHIGDTVPAMYLTPEYNIKGWQQRNLPAPDAGSHWTYMGGNYVLITDTEGKILKVYDGEIFYHR	PGPT0004560_164	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_HOMEOSTASIS,PGPT0004560-rcnB-K23243	NA	NA
BMS020_01231	462			hypothetical protein	ATGGCGAGATCTTCTATCATCGCTGATCCGCTCAAACTCCGCATCCGCCCCGGCGAACCAGCGGACTCTCCGGCGCTGCGCCAGCTCTTTCTGCGGGCGCGCAGTATGTCGTGGACCTGGCTTCCCTCCACGACGTGGCGGCTGGAAGATTTCGATGCCGCCACCGCGGATGAACAGCTGTGGGTCGCGGAATACGACGGCCTGCTGGTGGGCTTTGCCGCCGTATGGACCGCCGATAACTTTCTTCACCATCTGTTCGTCGACCCGGACTGGCAGGGCAAACATATCGGCAGCGCGCTGCTGGCGCAGGTCGAACGGACCTTTACCGCCAGCGGGACGCTGAAGTGCCTGATGGAAAATAAAAACGCCCTGCGCTTCTACCAGCGTCACGGCTGGACCATCGAAGCACAGGGCGCCTCGCCCGAGGGCGGATACTGGCTGATGCGCTCGCCGCGGCCTTAA	MARSSIIADPLKLRIRPGEPADSPALRQLFLRARSMSWTWLPSTTWRLEDFDAATADEQLWVAEYDGLLVGFAAVWTADNFLHHLFVDPDWQGKHIGSALLAQVERTFTASGTLKCLMENKNALRFYQRHGWTIEAQGASPEGGYWLMRSPRP				NA	NA	NA	NA	NA
BMS020_01232	1110	apbC_1	COG0489	Iron-sulfur cluster carrier protein	ATGAATTCGCAATCCCAGGCCAAATCCCCCGAGCGCCTCCGCGCGATGGTCGCCGGGACGCTGGCCAATTTCCAGCACCCAACCCTGAAGCATAATCTCACCACCCTCAAGGCGCTGCACCATGTCGCCTGGCTGGACGATACCGTTCATATCGAGCTACAAATGCCGTTCGTCTGGAGCAGCGCCTTCGAAGCGCTCAAAGAGCAGTGCAGCGCTGAGCTGTTGCGCATCACTGGCGCGAAGGCCATCGACTGGAAGCTGACCCACAGCATCGCGACCCTCAAGCGCGTGAAAAACCAGCCCGGCATCAACGGCGTGAAGAACATTATCGCCATCAGCTCCGGGAAAGGCGGCGTCGGTAAATCTTCTACTGCCGTAAACCTGGCGCTGGCGCTCGCCGCGGAAGGGGCGAAGGTGGGCATTCTGGATGCCGATATCTACGGCCCGTCGATTCCGACCATGCTTGGCGCGGAAGACAGCCGCCCGACCTCGCCGGACGGTACCCATATGGCGCCGATCATGAAGTTCGGTCTGGCCACCAACTCCATCGGCTACCTGGTGACCGACGACAACGCCATGGTGTGGCGCGGGCCGATGGCCAGCAAGGCGCTGATGCAGATGCTGCAGGAGACCCTGTGGCCGGATCTCGACTACCTGGTGCTGGATATGCCGCCGGGCACTGGCGACATCCAGCTGACGCTGGCGCAGAACATTCCGGTCACCGGCGCGGTGGTAGTCACCACGCCGCAGGATATCGCGCTGATCGACGCCAAAAAAGGCATCGTGATGTTCGAAAAAGTGGAAGTGCCAGTGCTGGGGATCGTGGAAAACATGAGCATGCATATCTGCAGCAACTGCGGGCACCATGAGCCGATCTTCGGCACCGGCGGCGCGCAAAAACTGGCCGAGAAATACCATACCCAGCTGCTGGGCCAGCTGCCGCTGCATATTACGCTGCGGGAAGATCTGGATAACGGCACGCCGACGGTGGTGGCGCGTCCGGAAAGCGAATTTACCGACATCTACCGCCAGCTGGCGGGTCGGGTGGCGGCCCAGATGTACTGGCAGGGAGAAGTGATCCCGGGTGAGATTGCCTTCCGCGCCGTTTAA	MNSQSQAKSPERLRAMVAGTLANFQHPTLKHNLTTLKALHHVAWLDDTVHIELQMPFVWSSAFEALKEQCSAELLRITGAKAIDWKLTHSIATLKRVKNQPGINGVKNIIAISSGKGGVGKSSTAVNLALALAAEGAKVGILDADIYGPSIPTMLGAEDSRPTSPDGTHMAPIMKFGLATNSIGYLVTDDNAMVWRGPMASKALMQMLQETLWPDLDYLVLDMPPGTGDIQLTLAQNIPVTGAVVVTTPQDIALIDAKKGIVMFEKVEVPVLGIVENMSMHICSNCGHHEPIFGTGGAQKLAEKYHTQLLGQLPLHITLREDLDNGTPTVVARPESEFTDIYRQLAGRVAAQMYWQGEVIPGEIAFRAV				NA	NA	NA	NA	NA
BMS020_01233	2043	metG_1	COG0073	Methionine--tRNA ligase	ATGCTCACTATGACTCAAGTCGCGAAGAAAATTCTGGTAACGTGCGCCCTGCCGTACGCCAACGGCTCCATCCACCTCGGCCACATGCTGGAGCACATCCAGGCTGATGTCTGGGTCCGTTACCAGCGAATGCGCGGCCACGAGGTCAACTTCATCTGCGCCGACGACGCCCACGGCACGCCGATCATGCTCAAGGCGCAACAGCTCGGTATCACCCCGGAGCAGATGATTGGCGAGATGAGTCAGGAGCATCAGACCGATTTTGCCGGCTTCGACATCAGCTACGATAACTATCACTCGACGCACAGCGACGAGAACCGCGAGCTGTCGGAGCTTATCTACACCCGTCTGAAAGAGAACGGTTTTATCAAAAACCGCACCATCTCTCAGCTCTACGATCCGGAAAAAGGCATGTTCCTGCCGGACCGTTTTGTGAAAGGCACCTGTCCGAAGTGTAAATCTCCGGACCAGTACGGCGATAACTGCGAAGTGTGCGGCGCGACCTACAGCCCCACCGAACTGATCGACCCGAAATCGGTGGTCTCCGGCGCCACGCCGGTGATGCGTGACTCCGAACACTTCTTCTTCGACCTGCCGTCGTTCAGCGAAATGCTGCAGGCGTGGACCCGCAGCGGCGCGCTGCAGGAGCAGGTGGCGAACAAAATGCAGGAGTGGTTCGAATCCGGCCTGCAGCAGTGGGACATCTCCCGCGATGCGCCGTACTTCGGCTTCGAAATTCCGAACGCGCCGGGCAAATATTTCTACGTCTGGCTGGACGCGCCGATCGGCTACATGGGCTCTTTCAAGAACCTGTGCGACAAGCGCGGCGACACCACCAGCTTCGACGAATACTGGAAGAAAGACTCCACGGCCGAGCTGTATCACTTTATCGGCAAGGACATCGTCTACTTCCACAGCCTGTTCTGGCCGGCGATGCTGGAAGGCAGCCAGTTCCGTAAACCGACCAACCTGTTCGTGCATGGCTACGTGACGGTCAACGGCGCGAAGATGTCTAAGTCGCGCGGCACCTTCATTAAGGCCAGCACCTGGCTGAAGCACTTTGATGCCGACAGCCTGCGCTACTACTACACCGCCAAGCTCTCTTCGCGCATCGATGATATCGACCTCAACCTGGAAGACTTTATCCAGCGCGTTAACGCCGACATCGTCAACAAGGTGGTTAACCTCGCCTCGCGCAACGCCGGCTTTATCAGCAAGCGTTTTGACGGCATGCTGGCCGCTGAGCTGGCCGACCCGGCGCTGTACAAAACCTTCACCGACGCGGCGGAAAGCATCGGCGAAGCGTGGGACAGCCGCGAGTTCGGTAAGGCCATCCGCGAAATCATGGCCCTCGCCGACGTGGCCAACCGCTATGTCGATGAGCAGGCGCCGTGGGTGGTGGCGAAACAGGAAGGCCGCGACGCCGACCTGCAGGCCATCTGCACCATGGGCCTGAATATGTTCCGCGTGCTGATGACATGGCTGAAGCCGGTCCTGCCGCAGCTGGCCGCGCGCGCGGAAGCGTTCCTCAACAGCGAGCTGAGCTGGGACGCCATCCAGCAGCCGCTGCTGGCGCATAAGGTCAATCCGTTTAAGGCGCTGTACAACCGCATCGAGATGAAGCAGGTGGAAGCCCTGGTGGAAGCCTCTAAAGAAGAGGTGAAAGCCACCGCGGCGCCGGTCAGCGGCCCGCTGGCGGACGATCCGATTCAGGAAACCATCACCTTTGACGATTTCGCCAAAGTCGACCTGCGCGTGGCGCTGATTGAAAACGCGGAATTCGTCGAGGGCTCCGACAAGCTGCTGCGCCTGACGCTGGATCTTGGCGGCGAGAAGCGTAACGTCTTCTCCGGCATCCGCTCCGCTTATCCGGATCCGCAGCCGCTGATTGGCCGCCTGACGGTGATGGTCGCCAACCTGGCGCCGCGCAAAATGCGCTTCGGCATCTCGGAAGGGATGGTGATGGCCGCCGGCCCTGGCGGGAAGGATATCTTCCTGTTAAGCCCTGACGACGGCGCGAAGCCGGGTCAGCAGGTGAAATAA	MLTMTQVAKKILVTCALPYANGSIHLGHMLEHIQADVWVRYQRMRGHEVNFICADDAHGTPIMLKAQQLGITPEQMIGEMSQEHQTDFAGFDISYDNYHSTHSDENRELSELIYTRLKENGFIKNRTISQLYDPEKGMFLPDRFVKGTCPKCKSPDQYGDNCEVCGATYSPTELIDPKSVVSGATPVMRDSEHFFFDLPSFSEMLQAWTRSGALQEQVANKMQEWFESGLQQWDISRDAPYFGFEIPNAPGKYFYVWLDAPIGYMGSFKNLCDKRGDTTSFDEYWKKDSTAELYHFIGKDIVYFHSLFWPAMLEGSQFRKPTNLFVHGYVTVNGAKMSKSRGTFIKASTWLKHFDADSLRYYYTAKLSSRIDDIDLNLEDFIQRVNADIVNKVVNLASRNAGFISKRFDGMLAAELADPALYKTFTDAAESIGEAWDSREFGKAIREIMALADVANRYVDEQAPWVVAKQEGRDADLQAICTMGLNMFRVLMTWLKPVLPQLAARAEAFLNSELSWDAIQQPLLAHKVNPFKALYNRIEMKQVEALVEASKEEVKATAAPVSGPLADDPIQETITFDDFAKVDLRVALIENAEFVEGSDKLLRLTLDLGGEKRNVFSGIRSAYPDPQPLIGRLTVMVANLAPRKMRFGISEGMVMAAGPGGKDIFLLSPDDGAKPGQQVK				NA	NA	NA	NA	NA
BMS020_01234	471			hypothetical protein	ATGCTCAGTAATGATATTCTTCGTAGCCTGCGCTACACCCTGAAAGTCAATAATAACGATATGGTGCGCATTCTTGCGCTATCCGACATGGAATCCACCTCCGCCAGCTTTGACACCTGGACGACGAAAGAGGATGAAGAGGGTTTTGTCCGCTGCCCGGACATTATCCTGTCGGGTTTCCTCAACGGCCTTATCTATGACAAGCGCGGTAAAGACGATTCAGCGCCGGAGCTGGCGCTGGAGCGCCGGGTGAATAACAATACGGTGCTGAAAAAGCTGCGGATCGCCTTCTCGCTGAAAACGGATGATATTGTGGCGATCATGAGCGAGCAGAAATACCGCGTCTCGGTGCCGGAAGTGACCGCCATGATGCGGTCGCCTGACCACAAAAACTACCGCGAGTGCGGCGACCAGTTTCTGCGCAATTTCCTGCGCGGCCTGACCCAGCGGGTGCATAACCCGAAGGCGTGA	MLSNDILRSLRYTLKVNNNDMVRILALSDMESTSASFDTWTTKEDEEGFVRCPDIILSGFLNGLIYDKRGKDDSAPELALERRVNNNTVLKKLRIAFSLKTDDIVAIMSEQKYRVSVPEVTAMMRSPDHKNYRECGDQFLRNFLRGLTQRVHNPKA				NA	NA	NA	NA	NA
BMS020_01235	720	btsR_1	COG3279	Transcriptional regulatory protein BtsR	ATGCTGAGAGTATTGATCGTCGATGATGAGCCGCTGGCGCGGGAAAACCTGCGTATTTTGCTGGAGACTCAGCGCGATATCGAGATCGTCGGCGAATGCGGCAACGCGGTGGAGGCGATTGGCGCGGTCCATAAGCTGCGTCCCGACGTGTTGTTTCTCGACATCCAGATGCCGCGCATCAGCGGCCTGGAGATGGTCGGGATGCTCGACCCGGAGCACCGCCCCTATATCGTGTTTCTCACCGCCTTTGATGAATACGCGGTGAAAGCCTTTGAGGAGCACGCCTTTGACTATCTGCTCAAGCCGATTGAAGCTGCCCGGCTGGAGAAAACCCTCGCCCGTCTGCGCCAGGAGCGTAATCTGCAGGATGTGTCGCTGCTGGATGACGCCCGGCAGACGCTGAAATACATTCCCTGTACCGGCCACAGCCGTATCTGGCTGCTGCAGATGGAGGATGTGGCCTTTGTCAGCAGCCGGATGAGCGGGATCTACGTGACCGACCGCGAGGGCAAGGAGGGGTTTACCGAGCTGACCCTGCGCACCCTTGAGAGCCGCACGCCGCTGCTGCGCTGTCATCGCCAGTATCTGGTGAATATGGCGCACCTGAAGGAGATTCGCCTGGAGGAGAATGGTCAGGCGGAGCTGCTGATGCGCGCCGGGCAAACGGTGCCGGTGAGCCGGCGCTATTTAAAAAGCCTGAAAGAGGCGATTGGCCTGTAA	MLRVLIVDDEPLARENLRILLETQRDIEIVGECGNAVEAIGAVHKLRPDVLFLDIQMPRISGLEMVGMLDPEHRPYIVFLTAFDEYAVKAFEEHAFDYLLKPIEAARLEKTLARLRQERNLQDVSLLDDARQTLKYIPCTGHSRIWLLQMEDVAFVSSRMSGIYVTDREGKEGFTELTLRTLESRTPLLRCHRQYLVNMAHLKEIRLEENGQAELLMRAGQTVPVSRRYLKSLKEAIGL	PGPT0026304_2653	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
BMS020_01236	1725	btsS	COG3275	Sensor histidine kinase BtsS	ATGGTACGCGCTTTCAGGAATGTGTGGTTTGCGGGTATGTACGAGTTTGATCTGGTGTTGCTGCTGCTTCAGCAGATGTGCGTATTTTTGGTCATCGCGTGGTTGATGAGCAAAACCCGACTGTTTATCCCCCTGATGCAAGTCACCGTTCGCCTGCCGCACAAGCTGCTGTGCTACGTCACCTTCTCCATTTTCTGCATTATGGGGACCTATTTTGGTCTGCATATCGAAGACTCTATCGCCAACACCCGCGCCATCGGCGCCGTGATGGGCGGCCTGCTCGGCGGCCCGGTGGTCGGCGGGCTGGTGGGGCTGACCGGCGGCCTGCACCGCTACTCGCTGGGGGGGATGACCGCCTTAAGCTGCATGGTCTCCACTATCGTCGAGGGGCTGCTGGGCGGTCTGGTGCACAGCGTGCTGGTCAAGCGCGGCCGGCCGGACAAAGTCTTTAGCCCGCTGACCGCCGGGGCGATCACCTTCGTGGCCGAGCTGGTGCAGATGATGATTATTCTGCTGATCGCCCGCCCGTTCCAGGACGCCCTGCATCTGGTGCAGAGCATTGCCGCGCCGATGATGGTGACCAATACCGTCGGCGCGGCGCTGTTTATGCGCATTCTGCTGGACAAGCGGGCGATGTTCGAGAAGTACACCTCCGCCTTTTCCGCCACGGCGCTGAAGGTGGCGGCGTCCACCGAGGGGATCCTGCGTCAGGGGTTCAACGAAGAGAACAGCATGAAGGTGGCCCAGGTGCTGATCCAGGAGCTGGATATCGGCGCGGTGGCGATCACCGACCGCGACAAGCTGCTGGCGTTTACCGGCATCGGCGACGACCACCACCTGCCGGGCAAACCTATCTCCTCCTCGTATACGCAACGGGCGATTGAGACCGGGGAGGTGGTGTATGCCGACGGCAACGAGGTGCCTTACCGTTGCTCGATTCATCCGCACTGTAAGCTGGGGTCGACGCTGGTGATCCCCCTGCGCGGTGAGAACCAGCGGGTGATAGGCACCATTAAACTGTATGAGGCGAAAAATCGCCTGTTCAGTTCGATCAACCGCACCCTCGGGGAGGGGATTGCCCAGCTGCTGTCGGCGCAGATCCTCGCCGGACAGTACGAGCGGCAGAAGGCGCTGCTGACGCAATCTGAAATCAAGCTCCTGCACGCCCAGGTCAACCCGCACTTCCTGTTTAACGCGCTTAACACGCTGAAGGCGGTGATCCGCCGCGACAGCGATCAGGCCGGCCAACTGGTGCAGTATCTGTCGACCTTCTTTCGTAAGAACCTGAAACGGCCGACGGAAATTGTCACGCTTGCCGATGAGATCGAGCATGTTAACGCCTATCTGCAGATTGAGAAGGCTCGCTTCCAGGCTAACCTGCAGATCCAGATGGCGGTGCCGGAAGGGCTGGCGCATCACCAGCTGCCCGCTTTCACCCTGCAGCCGATCGTGGAGAACGCCATTAAGCATGGTACATCGCAACATCTTGGCGTCGGCGAAATTACCATCCGCGCCAGCCAGGACGATCGCTGGCTGCAGCTGGATATCGAAGATAACGCCGGGCTGTACCGGGCCAACCCCCAGGCCAGCGGGCTGGGGATGAATCTGGTGGACAGGCGTCTGCGGGCGCGTTTTGGCGCCGACTGCGGCATCAGCGTCACCTGCGAGCCGGAGCGCTTTACCCGTGTCACCCTACGTTTGCCCCTGGAGGAGAATGCATGCTGA	MVRAFRNVWFAGMYEFDLVLLLLQQMCVFLVIAWLMSKTRLFIPLMQVTVRLPHKLLCYVTFSIFCIMGTYFGLHIEDSIANTRAIGAVMGGLLGGPVVGGLVGLTGGLHRYSLGGMTALSCMVSTIVEGLLGGLVHSVLVKRGRPDKVFSPLTAGAITFVAELVQMMIILLIARPFQDALHLVQSIAAPMMVTNTVGAALFMRILLDKRAMFEKYTSAFSATALKVAASTEGILRQGFNEENSMKVAQVLIQELDIGAVAITDRDKLLAFTGIGDDHHLPGKPISSSYTQRAIETGEVVYADGNEVPYRCSIHPHCKLGSTLVIPLRGENQRVIGTIKLYEAKNRLFSSINRTLGEGIAQLLSAQILAGQYERQKALLTQSEIKLLHAQVNPHFLFNALNTLKAVIRRDSDQAGQLVQYLSTFFRKNLKRPTEIVTLADEIEHVNAYLQIEKARFQANLQIQMAVPEGLAHHQLPAFTLQPIVENAIKHGTSQHLGVGEITIRASQDDRWLQLDIEDNAGLYRANPQASGLGMNLVDRRLRARFGADCGISVTCEPERFTRVTLRLPLEENAC	PGPT0026305_125	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
BMS020_01237	114			hypothetical protein	ATGAAGCCAGCGAAAATCGCGGTCGTCACTCTCTTCTTACTTATGGCCATCGGCGGGATCAGCGGCGTGATGCTGGCCGGCTATTCCTTTATTGTACGTGGCGGTGTCGGCTGA	MKPAKIAVVTLFLLMAIGGISGVMLAGYSFIVRGGVG				NA	NA	NA	NA	NA
BMS020_01238	738	yehW	COG1174	Glycine betaine uptake system permease protein YehW	ATGAAGGCGCTTCGTGAGCCGCTGTGGTGGCTTAGCGCGATGTTTATCGGCCTGCTGGCGGGGCTGCCCTACAGCGCGCCATTGTTCAGCCGCCTGTTTCCGGAACTGCCGCGGCCGGTCTACCAGCAGGAGAGCTTCTGGGCGCTCACTGTCGATCACGGGTGGCTGGCGGCGGCGTCCAGCCTCGCGGCGACCGCTGTCGGGCTGGGGGCTGGGGTGGCGGTCACCCGGCCCGCGGGCAGCGCGTTTCGTCCGCTGGTGGAGACCATCGCCGCTATCGGACAGACCTTTCCGCCGGTGGCGGTGCTGGCGATGGCGGTGCCGGTGCTGGGCTTTGGCTGGCTGCCGGCGCTGATCGCCCTCGCGCTGTATGGCATACTGCCGGTGCTGCAAGGGACTCTGGCCGGTCTGGGGTCGATACCGTCGGGCGTGTCAGAAGTGGCAGAAGGGATGGGCATGACCGGCTGGCAGCGTCTGTGCAAGGTGGAGCTGCCGCTGGCGGCCCCGGTGATCCTGGCGGGGATCCGCACCTCGGTCATCGTCAATATTGGTACCGCGACGATAGCCTCGACGGTGGGGGCCAATACGCTTGGGACGCCGATCATCATCGGCCTGAGCGGGTTTAATACCGCCTATATCGTGCAGGGGGCGCTGCTGGTGGCGCTGGCGGCGATTATTGTCGACCGCGCATTTGAGCGCCTGGCCCGCTGGCTCAGCCGACACCGCCACGTACAATAA	MKALREPLWWLSAMFIGLLAGLPYSAPLFSRLFPELPRPVYQQESFWALTVDHGWLAAASSLAATAVGLGAGVAVTRPAGSAFRPLVETIAAIGQTFPPVAVLAMAVPVLGFGWLPALIALALYGILPVLQGTLAGLGSIPSGVSEVAEGMGMTGWQRLCKVELPLAAPVILAGIRTSVIVNIGTATIASTVGANTLGTPIIIGLSGFNTAYIVQGALLVALAAIIVDRAFERLARWLSRHRHVQ	PGPT0013590_2367	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013590-opuBD|yehW-K05846	NA	NA
BMS020_01239	948	yehX	COG1125	Glycine betaine uptake system ATP-binding protein YehX	ATGATTGAATTTGAAGGGGTCAGCAAAGCGTTTGCCGGTCACCCGGCGGTGAAGGATCTGACCCTGCAGCTGCGCGAAGGCGCTTTCTCGGTGCTGGTGGGAACCTCCGGCTCGGGCAAGTCGACGACGCTGAAAATGATCAACCGCCTGCTGGAGCCGGACCGGGGCATGATTCGCTTTGCCGGCGAAGACATCCGCCAGCAGCCGCTCCTGACCCTGCGGCGGCGGATGGGCTATGCCATCCAGTCCATCGGCCTGTTCCCCCACTGGACGGTGGCGCAGAATATCGCCACCGTGCCGCAGTTGCAAAAATGGCCGCGGGGGAGGATCGCCGACCGGGTCGACGAGCTGATGGCGCTGCTGGGGCTGGAGGCAACGCTGCGCGACCGCTATCCTCATCAGCTCTCCGGCGGCCAGCAGCAGCGGGTCGGGGTGGCGCGGGCGCTGGCGGCAGACCCGGAAGTGCTGCTGATGGATGAGCCCTTCGGCGCCCTCGACCCGGTGACCCGTGAGGCGCTGCAGCAGGAGATGCTGCGCATCCATCGCCTGCTGGGGCGGACGATTGTCCTGGTGACCCATGATATTGACGAAGCGCTGCGTCTCGCGGACCACCTGGTGCTGATGGACGGCGGCGAGGTGGTCCAGCAGGGGGCGCCGCTGGAGATGCTCCTGCGGCCAGAGAATCGCTTTGTGCAAACCTTTTTTGGCCGCAGCGAGCTGGGCGTGCGCCTGCTGTCGCTGCGCGAGGTGCGGGACTATCTGCGTCCCGACGAGCGGCTGGCGGGCGAGGGGCTGACCGTCACCATGACCCTGCGGGAAGCGCTGTCGCAGTTTGTCGCCCGGCGCTGCGAGGCGCTGCCGGTGGTGGATGCCGAGGGGCACCCCTGCGGCACGCTGCATTTTGCCGATCTGCTGCGCCAGGAGGCGAGTCATGAAGGCGCTTCGTGA	MIEFEGVSKAFAGHPAVKDLTLQLREGAFSVLVGTSGSGKSTTLKMINRLLEPDRGMIRFAGEDIRQQPLLTLRRRMGYAIQSIGLFPHWTVAQNIATVPQLQKWPRGRIADRVDELMALLGLEATLRDRYPHQLSGGQQQRVGVARALAADPEVLLMDEPFGALDPVTREALQQEMLRIHRLLGRTIVLVTHDIDEALRLADHLVLMDGGEVVQQGAPLEMLLRPENRFVQTFFGRSELGVRLLSLREVRDYLRPDERLAGEGLTVTMTLREALSQFVARRCEALPVVDAEGHPCGTLHFADLLRQEASHEGAS	PGPT0013585_2081	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013585-opuA|osmV|yehX-K05847	NA	NA
BMS020_01240	1158	yehY	COG1174	Glycine betaine uptake system permease protein YehY	GTGACCATTCGCTGTACTCACCGCGTCGGCCTGCTGCTGACAGGCCTGCTGCTGGTTACGCTGGCGCTGCCGTTTATCGCTTACGCGCCGAATCGCTTACTCTCCGGGGAAGGGCGCTGGCTGTGGCAGGTGATGCCCTGGCTCGCCGGCGTTCAGCTGGCGGCAGCCCTCGCCGGGATCCTGCTCTGCTGGCTGCCGGGCAGGGTTGCGCCGCTTCTCCATCTGCTGCTGGCCGAACTGCTCTTCCCGCTGCTTATCTGGGGCAGCGGCCAGGCGGCGATTGAGCTCTCCCGGCACGGCTCGCCGCTGGCGCGCACCTCGCCCGGCAGCGGTCTGTGGCTGTCGCTGGCGCTCTGCCTGCTGCTGGCCAGCGAGGCCATTCGTCATCTTACCGCCCGGCCGCTGTGGCGCTGGCTGCTCAATGCGCAAGTCTGGCTTCTGCCCATCATCCTGCTCGCCGCCGGGGCGCTCGATCAGCTCTCGCTGCTGAAGGAGTATGCCAACCGCCAGGAGGTGTTTGACGACGCCCTGCGCCAGCATCTGCTTCTGCTGTTTGGCACCCTGCTGCCGGGCCTGATCATTGGCCTGCCGCTGGGGGTATGGCTCTGGCGGCGTCCGCGCTGGCAGGCGCCGGCCTTCACCGTGCTCAATGTGATCCAGACTATCCCGTCGGTGGCGCTGTTCGGCCTGCTGATTGCCCCGCTTGCCGGTCTGGCGCGCTATTTCCCGGCGCTGGGCGAGCTGGGCGTCTCCGGGACCGGCGTGACGCCGGCCCTGATCGCCCTGACGTTGTATGCGCTGCTGCCGCTGGTGCGCGGGGTGGTGACCGGCCTGCAGCAGGTGCCGCGGGATGCGCTGGAGAGCGCGACGGCGATGGGCATGAGCGCCGGACAGCGTTTTCGTCAGGTGCAGCTCCCGCTGGCGATGCCGGTGCTGTTGCGCAGCCTGCGGGTGGTCAGCGTGCAAACCGTCGGCATGGCGGTGGTGGCGGCGCTGATCGGCGCCGGCGGCTTTGGCGCGCTGGTGTTCCAGGGCCTGCTGAGCAGCGCGCTGGATCTGGTGCTGCTCGGGGTCGTGCCGACCATTGCCCTGGCGGTGGTCGTGGATGCCCTGTTCGCCCTGTGGGGCGCTTGGCTGAAAGGAGAGGCCAATGATTGA	MTIRCTHRVGLLLTGLLLVTLALPFIAYAPNRLLSGEGRWLWQVMPWLAGVQLAAALAGILLCWLPGRVAPLLHLLLAELLFPLLIWGSGQAAIELSRHGSPLARTSPGSGLWLSLALCLLLASEAIRHLTARPLWRWLLNAQVWLLPIILLAAGALDQLSLLKEYANRQEVFDDALRQHLLLLFGTLLPGLIIGLPLGVWLWRRPRWQAPAFTVLNVIQTIPSVALFGLLIAPLAGLARYFPALGELGVSGTGVTPALIALTLYALLPLVRGVVTGLQQVPRDALESATAMGMSAGQRFRQVQLPLAMPVLLRSLRVVSVQTVGMAVVAALIGAGGFGALVFQGLLSSALDLVLLGVVPTIALAVVVDALFALWGAWLKGEAND	PGPT0013590_1310	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013590-opuBD|yehW-K05846	NA	NA
BMS020_01241	918	yehZ	COG1732	Glycine betaine-binding protein YehZ	ATGAAGATGGCGACGAAATGGTCCGGCGCGCTGGCGCTGGCCGCCCTGATAAGTGTGCCGCTGCAGGCGGCGGAGCCGGTGAAGGTCGGCTCGAAAATTGATACCGAAGGGGCGCTGCTGGGCAATATGATCCAGCAGGTGCTGGAAAACCACGGCGTCAAAACGATTAATAAAATCCAGCTCGGCACCACGCCGGTGGTGCGCGGGGCGATTGTCGCCGGCGAGCTGGATATCTATCCGGAGTATACCGGCAATGGCGCTTTCTTCTTTAAAGATGAAAACGACCCGGCATGGAAGAATGCCCGGCAGGGCTATGAGAAGGTGAAACGCCTGGATCAGGAGAAACATCAGCTGGTATGGCTCACCCCGGCGCCGGCTAACAACACCTGGACCATCGCCGTGCGCCAGGAGCTGGCGGAGAAAAATCATCTGACCTCGCTGGCCGACCTCAGCCGCTATCTGCAGCAGGGCGGCGAATTTAAGCTGGCGGCTTCGGCGGAGTTTATTGAACGCCCGGACGCGCTGCCGGCGTTTGAAAAAGCGTATGACTTCAAACTCAACCAGAACCAGCTGCTGTCGCTGGCCGGGGGCGATACGGCGGTGACCATCAAAGCGGCGGCGCAGCAGACCTCCGGCGTCAACGCGGCGATGGCCTACGGCACCGACGGCCCGGTGGCGGCTCTGGGGTTACAGACGCTGAGCGACCCGCAGGGCGTGCAGCCGATTTACGCCCCGACGCCGGTGGTGCGCGAGGCGGTGCTTAAAGCCTACCCGCAGATCGCCGACTGGCTGAAGCCGGTCTTCGCCAGCCTCGATGAAAAGACCCTGCAGCAGCTCAACGCCCGCATCGCGGTGGAAGGCCAGGATGCGAAGCGCGTGGCGGCAGATTATCTGCAGCAGAAAGGCCTGCTGAAGTAA	MKMATKWSGALALAALISVPLQAAEPVKVGSKIDTEGALLGNMIQQVLENHGVKTINKIQLGTTPVVRGAIVAGELDIYPEYTGNGAFFFKDENDPAWKNARQGYEKVKRLDQEKHQLVWLTPAPANNTWTIAVRQELAEKNHLTSLADLSRYLQQGGEFKLAASAEFIERPDALPAFEKAYDFKLNQNQLLSLAGGDTAVTIKAAAQQTSGVNAAMAYGTDGPVAALGLQTLSDPQGVQPIYAPTPVVREAVLKAYPQIADWLKPVFASLDEKTLQQLNARIAVEGQDAKRVAADYLQQKGLLK	PGPT0013595_2486	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013595-opuC|yehZ-K05845	NA	NA
BMS020_01242	2298			Beta-xylosidase	ATGAAATGGCTCTGCACTGTAGGCGTCGCCGTGAGTCTGGCGCTGCAACCCGCGCTGGCGGATGAACTGTTTGGTAACCACCCCCTGACCCCGCAGGCGCGGGATGCCTTTGTTACCGACCTGCTGAAAAAAATGACCGTGGACGAGAAAATCGGCCAGCTGCGTCTGATAAGCGTCGGCCCGGATAACCCGAAAGAAGCGATCCGCGAGATGATCAAAGCGGGCCAGGTGGGAGCGATTTTTAACACCGTCACCCGTCCGGATATCCGCGTCATGCAGGATCAGGTGATGCAGCTTAGTCGCCTGAAGATCCCGCTGTTCTTTGCCTACGATGTGCTGCACGGCCAGCGCACTGTCTTCCCAATAAGCCTCGGTCTGGCCTCGTCGTTTAACCTCGACGCGGTGAAAACCGTGGGCCGCGTGTCAGCTTATGAAGCCGCCGATGACGGGCTGAACATGACCTGGGCGCCGATGGTCGACGTCTCCCGCGACCCGCGCTGGGGACGCGCTTCCGAAGGCTTCGGGGAAGACACGTATCTGACCACGATGATGGGCCAGGCGATGGTGGCGTCGATGCAGGGCAAGAGCCCGGCTGACCGCTATTCGGTGATGACCAGCGTCAAGCACTTCGCCGCCTACGGCGCGGTGGAGGGCGGGAAAGAGTACAACACGGTCGACATGAGCCCGCAGCGTCTGTTCAACGACTATATGCCGCCGTATAAAGCCGGACTCGATGCCGGCAGCGGCGCGGTGATGGTGGCCCTGAATTCGCTGAACGGCACCCCGGCGACCGCCGATTCCTGGCTGCTGAAAGATGTCCTGCGCGACCAGTGGGGCTTTAAAGGCATCACGGTTTCCGACCACGGCGCCATCAAAGAGCTGATCAAGCACGGCGTGGCCTCCGACCCGGAAGACGCGGTGCGCGTGGCGCTGAAGTCCGGCATCAACATGAGCATGAGCGACGAGTATTACAGCAAATACCTGCCGGGGCTGGTGAAATCCGGCAAGGTGACCATGGCTGAACTGGATGACGCCACCCGTCACGTGCTCAACGTCAAATATGACATGGGGCTGTTCAACGATCCGTACAGCCACCTGGGACCAAAAGATTCTGACCCGCAGGACACCAACGCGGAAAGCCGTCTGCATCGTAAAGAGGCGCGCGAAGTGGCCCGCGAGAGCCTGGTGCTGCTGAAAAACCGTCTCGATACGCTGCCGCTGAAAAAATCCGGCACTATCGCGGTGGTGGGCGCGCTGGCGGACAGCAAACGCGACATGATGGGCAGCTGGTCGGCGGCGGGCGTGGCCGATCAGTCGGTGACCGTCCTGACCGGCATCAAAGAAGCGCTGGGCGATAACGGCAAAGTGATTTACGCCAAAGGGGCGAACGTTACCGACGACAAAGGCATTGTCGATTTCCTCAATCTGTATGAGAAAGCAGTGCAGGTTGACCCGCGCTCGCCGCAGGAAATGATCGACGAAGCCGTCGCGGCGGCGAAGCAAGCCGACGTGGTGGTCGCCGTAGTGGGCGAGGCGCAGGGGATGGCCCATGAGGCCTCCAGCCGGACCGACATCACCCTGCCGCAGAGCCAGCGCAATCTGATTGCCGCCCTCAAAGCCACCGGCAAACCGCTGGTGCTGGTGCTGATGAACGGCCGTCCGCTGGCGCTGGTGAAAGAGGATCAGCAAGCCGATGCGCTGCTGGAGACCTGGTTTGCCGGCACCGAAGGCGGGCATGCCATCGCCGACGTGCTGTTTGGCGACTATAACCCGTCGGGCAAGCTGCCGATGTCCTTCCCGCGCTCGGTGGGGCAGATCCCAACCTACTACAGCCATCTGAATACCGGTCGGCCGTATAATCCGGAGAAGCCGAACAAGTACACCTCGCGTTACTTCGATGAGGCCAACGGCCCGCTGTACCCGTTTGGCTACGGTCTGAGCTACACCACCTTTAGCGTCTCCGATGTCACCATGTCGTCGGCCACCCTGCCGCGCGACGGCAGCGTGACCGCCAGCGTGCAGGTGACCAACACCGGCAAACGCGAAGGGGCGACGGTCATTCAGCTGTATCTGCAGGACGTCACCGCCTCCATGAGCCGGCCGGTGAAAATGCTGCGCGGCTTTAAAAAGGTCACCCTCAAGCCGGGTGAAACGCAAACCGTCAGCTTCCCTATCGACGTCGACGCGCTGAAGTTCTGGAACCAGCAGATGAAATACGTCGCTGAGCCGGGCAAATTCAATGTCTTTATCGGCGTGGACTCCGCCCGCGTGCAGCAGAGCGAGTTTGAGCTGTTGTAA	MKWLCTVGVAVSLALQPALADELFGNHPLTPQARDAFVTDLLKKMTVDEKIGQLRLISVGPDNPKEAIREMIKAGQVGAIFNTVTRPDIRVMQDQVMQLSRLKIPLFFAYDVLHGQRTVFPISLGLASSFNLDAVKTVGRVSAYEAADDGLNMTWAPMVDVSRDPRWGRASEGFGEDTYLTTMMGQAMVASMQGKSPADRYSVMTSVKHFAAYGAVEGGKEYNTVDMSPQRLFNDYMPPYKAGLDAGSGAVMVALNSLNGTPATADSWLLKDVLRDQWGFKGITVSDHGAIKELIKHGVASDPEDAVRVALKSGINMSMSDEYYSKYLPGLVKSGKVTMAELDDATRHVLNVKYDMGLFNDPYSHLGPKDSDPQDTNAESRLHRKEAREVARESLVLLKNRLDTLPLKKSGTIAVVGALADSKRDMMGSWSAAGVADQSVTVLTGIKEALGDNGKVIYAKGANVTDDKGIVDFLNLYEKAVQVDPRSPQEMIDEAVAAAKQADVVVAVVGEAQGMAHEASSRTDITLPQSQRNLIAALKATGKPLVLVLMNGRPLALVKEDQQADALLETWFAGTEGGHAIADVLFGDYNPSGKLPMSFPRSVGQIPTYYSHLNTGRPYNPEKPNKYTSRYFDEANGPLYPFGYGLSYTTFSVSDVTMSSATLPRDGSVTASVQVTNTGKREGATVIQLYLQDVTASMSRPVKMLRGFKKVTLKPGETQTVSFPIDVDALKFWNQQMKYVAEPGKFNVFIGVDSARVQQSEFELL	PGPT0019110_3584	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
BMS020_01243	1746	dld_1	COG0277	Quinone-dependent D-lactate dehydrogenase	ATGTCATCTGCACCCACTAACACCCATAAAACGTTTCTGGCTGACCTGGCGCGCCTGGTTGGCCCTTCGCATCTGCTGACCGACCCGGCAAAAACCCAGCGCTACCGCAAAGGCTTCCGCTCCGGCCAGGGCGAAGCGCTGGCGGTTGTCTTTCCCGGCACCCTGCTGGAACTCTGGCGCGTGCTCAACGCCTGCGTCGACGCCGATAAAATCATTTTGATGCAGGCGGCCAACACCGGCCTGACCGAAGGCTCCACCCCCAACGGCAATGATTACGATCGCGAGATCGTGATTATCAGCACCCTGCGCCTGGATAAGCTGCATCTGCTGGACAAAGGCGAGCAGGTGCTGGCCTGGCCCGGCACCACTCTCTATTCACTGGAAAAAGCGCTGAAACCGCTGGGGCGCGAGCCGCACTCGGTGATCGGCTCATCGTGCATCGGCGCGTCGGTGATCGGCGGGATCTGCAACAATTCCGGCGGCTCCCTGGTGCAACGCGGGCCAGCCTATACCGAGATGTCGCTGTTCGCGCAGATTGACGCCGACGGTAAGCTGAAGCTGGTCAACCATCTGGGCATCGATCTCGGCAGTACGCCGGAGCAGATCCTCAGCCGACTCGACGACGAGCGGATCAGCGATAGCGATGTGCTGCACGATGGCCGTCACGCCCACGATCACGACTATGTTACCCGCGTGCGTGATGTCGATGCCGACACCCCGGCGCGCTACAACGCCGACCCGGACCGCCTGTTCGAATCCTCCGGCTGCGCCGGTAAACTGGCGGTTTTCGCCGCGCGTCTCGATACCTTCCCGGCGGAGAAGCGCCAGCAGGTGTTTTACATTGGCACCAATCAGCCGCAGGTATTGACCGAGATCCGCCGCCATATCCTCGCCGAGTTCCAGCATCTGCCGGTGGCCGGGGAATATATGCACCGCGATATTTACGATATCGCCGAGAAGTATGGCAAAGACACCTTCCTGATGATCGACAAGCTCGGCACCGACAAAATGCCGTTCTTCTTCACCATGAAGGGGCGCACCGACGCGATGCTGGAGAAAGTGTCGCTGTTTAAGCCGCACTTTACCGACCGCTTTATGCAGAAGCTCGGCCACGTCTTCCCGGCGCATTTACCGGAGCGGATGAAAACCTGGCGCGACAAATATGAACACCATCTGCTGCTGAAGATGGCCGGCGACGGCATCGAAGAAGCGCAGCGCTGGCTGACGGCGTACTTCCAACAGGCCGAGGGGGAGTTCTTCGCCTGCACGCCGGAGGAAGGCAGCAAAGCGTTCCTCCATCGCTTTGCCGCCGCGGGCGCGGCGATCCGCTATCAGGCGGTGCATGCTGACGAGGTGGAAGATATTCTGGCGCTGGATATCGCCCTGCGCCGTAACGATACCGAGTGGTTCGAACATCTGCCGCCGGAGATCGACAGCCAGCTGGTGCATAAGCTCTACTATGGTCACTTTATGTGCCATGTGTTCCATCAGGATTACATCGTCAAGAAAGGGGTCGACGCCCATGCGCTGAAGGAGCAGATGCTGGCGTTGCTGAAAGCGCGCGGCGCCCAGTACCCGGCGGAGCATAACGTGGGTCATCTGTATGAAGCGCCGGAGAGCCTGCAGCAGTTCTATCGCCAGAACGATCCGACCAACAGCATGAACCCGGGGATCGGCAAAACCAGCAAGCAGAAATACTGGGGTGAAGCGGCCCCGGCGCCGGTCTCCCCGACGGATCCGCAATAA	MSSAPTNTHKTFLADLARLVGPSHLLTDPAKTQRYRKGFRSGQGEALAVVFPGTLLELWRVLNACVDADKIILMQAANTGLTEGSTPNGNDYDREIVIISTLRLDKLHLLDKGEQVLAWPGTTLYSLEKALKPLGREPHSVIGSSCIGASVIGGICNNSGGSLVQRGPAYTEMSLFAQIDADGKLKLVNHLGIDLGSTPEQILSRLDDERISDSDVLHDGRHAHDHDYVTRVRDVDADTPARYNADPDRLFESSGCAGKLAVFAARLDTFPAEKRQQVFYIGTNQPQVLTEIRRHILAEFQHLPVAGEYMHRDIYDIAEKYGKDTFLMIDKLGTDKMPFFFTMKGRTDAMLEKVSLFKPHFTDRFMQKLGHVFPAHLPERMKTWRDKYEHHLLLKMAGDGIEEAQRWLTAYFQQAEGEFFACTPEEGSKAFLHRFAAAGAAIRYQAVHADEVEDILALDIALRRNDTEWFEHLPPEIDSQLVHKLYYGHFMCHVFHQDYIVKKGVDAHALKEQMLALLKARGAQYPAEHNVGHLYEAPESLQQFYRQNDPTNSMNPGIGKTSKQKYWGEAAPAPVSPTDPQ	PGPT0001900_141	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0001900-dld-K03777	NA	NA
BMS020_01244	555	pat_1	COG1247	Phosphinothricin N-acetyltransferase	ATGCCTGCAGAGGCCCCGTTACTCGACAGTGATTTAGAAATTCGTGAAGCGCTGCCCGACGATGCGCACGCCATCGCCGCGCTGTATGTCTGGCACGTGCTGAATGGCCGCGCCTCCTTCGAAGAGATCCCCCCCACCGTTGACGAAATGCGTAAACGGATCCAGACCGTGCGCGATAACGGGCTGCCCTGGCTGGTAGCGCTGTGGCGCGGGGCTATCGTCGGCTACTGCTACGCCACTTTCTATCGCCCGCGCCCGGCCTATCGCTACACCCTCGAAGAATCGATCTACGTGGAATCCGGAATGGGCGGGCGCGGCATCGGCAGCGCGCTGCTGTCGCGGCTGATCGCCGAATGCGAGAAAGGCCCATGGCGGCAGATGCTGGCGATCATCGGCGATGGCCATAATAATGCCGGCTCGCTGGCGATCCATAAAAAGTTCGGTTTTACCGTGGCAGGTCAGCTGCGCAGCGTCGGCTATAAGATGGGCGACTGGCGGGATACGTTGATTATGCAGCGCGCGCTGGGTGACGGCGACTGGACGCTGCCGGAGTAA	MPAEAPLLDSDLEIREALPDDAHAIAALYVWHVLNGRASFEEIPPTVDEMRKRIQTVRDNGLPWLVALWRGAIVGYCYATFYRPRPAYRYTLEESIYVESGMGGRGIGSALLSRLIAECEKGPWRQMLAIIGDGHNNAGSLAIHKKFGFTVAGQLRSVGYKMGDWRDTLIMQRALGDGDWTLPE				NA	NA	NA	NA	NA
BMS020_01245	951	pbpG	COG1686	D-alanyl-D-alanine endopeptidase	ATGATGCCGAAATTCCGAGTCTCTTTGCTCAGCCTGACCTTGCTGCTGGCTGTGCCTTTTGCGCCCCAGGCGTTAGCAAAAACCCCGACGGCGGTAGCCGCCTCGCAGCCGGACATCGCTTCCGGCAGCGCCATGATCGTCGATCTGGCCACCAAAAAAATCATCTACGCCAGCCAGCCGGATCTGGTGCGCCCGATGGCGTCGATCACCAAGGTGATGACCGCCATGGTGGTTCTCGATGCCCATCTGCCGCTGGACGAAATGCTGACGGTGGATATCAGCCATACTCCGGAAATGAAGGGGATTTACTCCCGCGTGCGTCTCAATAGCCAGATCAGCCGCCGCGATATGCTGCTGCTGGCGCTGATGTCTTCCGAGAACCGCGCGGCCGCCAGCCTGGCGCATCACTATCCGGGCGGCTACGACGCCTTTATTCGCGCGATGAACGCCAAAGCGCAGGCGCTGGGTATGACCCATACCCGCTATGTGGAGCCCACCGGTCTGTCGGTGCATAACGTCTCCACCGCCCGCGATCTGACCAAACTGCTGATCGCCAGCGAGCAGTACCCACTGATTGGCCAGCTGAGCACCACCAAAGAAGAGACCGCCACCTTTGCCCATCCGGCCTACAGCCTGCCGTTCCGCAACACTAACCATCTGGTGTATCGCGACAACTGGAACATCCAGCTGACCAAAACCGGCTTCACCAACGCTGCCGGCCACTGCCTGATTATGCGCACGGTGATTAACCAACGTCCGGTGGCGCTGGTGGTGATGGATGCCTTCGGCAAATATACCCACTTCGCCGACGCCAGCCGTTTGCGGACGTGGATCGAGACCGGGAAGGTAATGCCGGTCCCGGCTTCGGCGCTGAGCTATAAAAAGCAGCGCGAAGCGCAGATGGCGGAGGCGATGCTGAAAGGCGGCGCCCAGACCGCGCAGAACGATTAA	MMPKFRVSLLSLTLLLAVPFAPQALAKTPTAVAASQPDIASGSAMIVDLATKKIIYASQPDLVRPMASITKVMTAMVVLDAHLPLDEMLTVDISHTPEMKGIYSRVRLNSQISRRDMLLLALMSSENRAAASLAHHYPGGYDAFIRAMNAKAQALGMTHTRYVEPTGLSVHNVSTARDLTKLLIASEQYPLIGQLSTTKEETATFAHPAYSLPFRNTNHLVYRDNWNIQLTKTGFTNAAGHCLIMRTVINQRPVALVVMDAFGKYTHFADASRLRTWIETGKVMPVPASALSYKKQREAQMAEAMLKGGAQTAQND	PGPT0024065_595	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024065-pbpG-K07262	NA	NA
BMS020_01247	588	yohC		Inner membrane protein YohC	ATGAACCATGTCTGGGGGCTCTTCGCTCATCCCAACCGGGAGATGAGCGTGATAAAGAGCGAGAATGAAACCATTTCTCATCACTATACGCACCATGTGCTGCTGATGGCGGCGGTTCCGGTGGTTTGCGCCTTTATCGGCACCACGCAGCTGGGCTGGAACTTCGGTGACGGCACCATTATTAAACTGTCGATGTGGACCGGGCTGGCGCTGGCTGTCCTGTTTTATGCCGTGATGCTGGCCGGGGTGGCGATCATGGGGCGGGTTATCTGGTGGATGGCCAGGCAATATCCGCAGCAGCCTTCCCTGAAACGCTGCATGGTCTTTGCCGGCTATGTGGCCACGCCGCTGTTCCTGAGCGGGATTGTGGCGCTCTATCCGCTGGTCTGGCTGTGCGCGCTGATCGGTACCGTTGCCCTGTTCTATACCGGTTATCTGCTCTATCTCGGGATCCCGACCTTCCTGAGCATTAACCGGGAAGAGGGGCTCAGTTTCGCCAGCTCGACCCTGGCCATCGGGGTGCTGGTGCTGGAAGTACTGCTGGCGATCACCGTGGTGCTATGGGGGTATGGCTACCGACTGTTCTGA	MNHVWGLFAHPNREMSVIKSENETISHHYTHHVLLMAAVPVVCAFIGTTQLGWNFGDGTIIKLSMWTGLALAVLFYAVMLAGVAIMGRVIWWMARQYPQQPSLKRCMVFAGYVATPLFLSGIVALYPLVWLCALIGTVALFYTGYLLYLGIPTFLSINREEGLSFASSTLAIGVLVLEVLLAITVVLWGYGYRLF				NA	NA	NA	NA	NA
BMS020_01248	570	yohD	COG0586	Inner membrane protein YohD	ATGGATATCAATCACCTGATTTCCCAGTATGGCTACGCGGCGCTGATCGTCGGCAGCATGGCGGAAGGTGAGACCATTACCCTGCTGGGCGGCGTCGCGGCGCATCAGGGACTACTGAAGTTTCCCCTGGTGGTGATCGCTGTCGCCCTCGGCGGGATGATTGGCGATCAGTTGCTCTATCTGCTAGGTCGCCGCTTCGGCGGGCGCATTCTGCGCCGTTTCGCCAGCCAGAAGGCGCGGATCAGGAAAGCCCAGCGCATGATCCAGCACCGGCCGTGGCTGTTTGTCATCGGCACCCGCTTTATGTACGGCTTCCGGGTGATCGGCCCCCTGCTGATCGGCGCCAGCCGCCTGCCGCCGCGCATTTTCCTGCCGCTGAATATTGCCGGGGCGCTGGTGTGGGCTCTGCTGTTTACCACCATAGGCTATCTTGGCGGCGAGGTGGTTGGCCCGTGGCTGCACCACCTCGACGCCCATCTGAAGCACTGGATCTGGCTGATCCTCGCGGTGGTGTTGGTCGTGGCCGCCCACTGGTGGTTCAGGCGGCGCGAAGGGAAGAAGAAAGACTGA	MDINHLISQYGYAALIVGSMAEGETITLLGGVAAHQGLLKFPLVVIAVALGGMIGDQLLYLLGRRFGGRILRRFASQKARIRKAQRMIQHRPWLFVIGTRFMYGFRVIGPLLIGASRLPPRIFLPLNIAGALVWALLFTTIGYLGGEVVGPWLHHLDAHLKHWIWLILAVVLVVAAHWWFRRREGKKKD				NA	NA	NA	NA	NA
BMS020_01249	1440	cusC_1	COG1538	Cation efflux system protein CusC	ATGAAATTGAGATTAAATAATAGCGTGCTGGCGGCCTTGCCCCTGGCCATCGCGCTGGTAGGCTGCGCGCCTTCCCATGAGGTTGCTCGTCCGCCGCAGCAGCAAATTCCGGCTTCCCACGTTGCCATGGATCTCCCCGCCGCCGTCAAAAACGGCTGGCCGCAGACCGACTGGTGGAAAGACTACCACGATGCCCAACTGGATAATTTGATTCAGCGCGCGCTCGCCAACGCGCCGGATATGCAGATTGCCGAACAGCGCATCAGGCTTGCCGAAGCGCAGGCCAGAATGTCGCAGGCGAATCTTGGCCCGGAGATGGATTTCTCCGCTGACATCGAACGTCAACGCATGTCGGCCGAAGGTCTGATGGGGCCGTTCGCCACCGACACCGACGGCAATACCGGCCCGTGGTACACCAACGGTACCTTCGGCCTGACCGCCGGCTGGGATCTCGATCTGTGGGGCAAAAACCGTGCGCTGGTGAAAGCCCGCATCGGCGAGCTGAAAGCCCAGGTGGCCGAGCAGGCTCAGACCCGCGAGCTGCTCTCCGGCAGCGTGGCGCGCCTGTACTGGCAGTGGCAGACGGAAGCGGCGATCAAAGCGGTGCTGCAGCAGGTGAAAAACGAGCAAAATAATATCGTGACGGTCGACAAGGCCCTGTATCAGCGCGGGATCACCAACTCCGCCGAAGGGGCGGAAAACGATATTAACGTCAGCAAAACCGACCAGCAGCTGGCGGACGTGGCGGGCACGATGAAAGAGATTGAAGCGCGGCTGATGGCCCTGACCAACAGCCAGAGCCAGTCGCTAAACCTCAAACCCGCCAGCCTGCCGACGGTCAGCGCGCAGCTGCCGGACACCCTTGGCTATGAGCTGCTGGCGCGTCGCCCGGATCTGCAGGTCGCTCACTGGTATATCGAGGCGTCGCTGAGCGAAGTGGACGCGGCGAAGGCGGCGTTTTACCCGGACATCAATCTGATGGCGTTCCTGCAGCAGGATGCCCTGCACTTAAGCGATCTTTTCCGCCATTCGGCGCAGCAGATGGGCGTCACCGCCGGACTGACGCTGCCGATCTTCGACAGCGGTCGCCTCAATGCCAATCTGGATATCGCCAGCGCGCAGAACAGCCTTTCCATCGCCCAGTACAACAAAGCGGTGGTGGACGCCGTCAACCAGGTGGCGAAAACCGCCAGCCAGGTCGAGACGCTGATGGCCAAGAGCCAACAGCAGCAGCAGGTTGAAAAAGACGCCCAGCGGGTGGTGGACCTGGCGCAGGCCCGGATGGCGGCGGGGATCTTGCCCGGCTCCCGGGTCAGTATGGCGAAGCTCCCGGCGCTGCAGGAGCGTATCACCGCCTTGCGCCTGCACGGCCAGTGGATTGACGCCAGCATTCAGCTGACCTCGGCCCTCGGCGGCGGCTACCACCAGGCGGTGAAGTAA	MKLRLNNSVLAALPLAIALVGCAPSHEVARPPQQQIPASHVAMDLPAAVKNGWPQTDWWKDYHDAQLDNLIQRALANAPDMQIAEQRIRLAEAQARMSQANLGPEMDFSADIERQRMSAEGLMGPFATDTDGNTGPWYTNGTFGLTAGWDLDLWGKNRALVKARIGELKAQVAEQAQTRELLSGSVARLYWQWQTEAAIKAVLQQVKNEQNNIVTVDKALYQRGITNSAEGAENDINVSKTDQQLADVAGTMKEIEARLMALTNSQSQSLNLKPASLPTVSAQLPDTLGYELLARRPDLQVAHWYIEASLSEVDAAKAAFYPDINLMAFLQQDALHLSDLFRHSAQQMGVTAGLTLPIFDSGRLNANLDIASAQNSLSIAQYNKAVVDAVNQVAKTASQVETLMAKSQQQQQVEKDAQRVVDLAQARMAAGILPGSRVSMAKLPALQERITALRLHGQWIDASIQLTSALGGGYHQAVK	PGPT0029215_72	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029215-mdtP-K15550	NA	NA
BMS020_01250	735	tam_2		Trans-aconitate 2-methyltransferase	ATGAGCCAGAATATTTATGACGATCCGCACTTCTTCGCCGGCTATGCAACCCTCGATCGTTCGGTGAAAGGGCTGGATGGCGCACCGGAGTGGCCTGCCCTGCAGCAAATGCTGCCGCCGCTAGCCGGTTTGCGGGTGGTAGATCTCGGCTGCGGCTACGGCTGGTTTTGCCGCTGGGCGCAGCAGCAGGGAGCCAGCCAGATAATGGGTTTTGATATCTCCCGGCGTATGCTGGCGCAGGCACGGGAAATGACCCGCGGGGATGAGATTGACTACCGCTGCGCCGATCTGCAAACCTTGACGCTGCCCGCCAACAGCTGCGATCTGATCTACAGCTCGCTGGCCCTGCATTATTTACCCGACATCGCCCCGCTCTTCTCCACCCTGCAGCAGGCGCTGGTCCCTGGCGGTGTCCTGGTTTTTTCTGCCGAACATCCCATCTATACCGCGCCGCTGCAGCAGGGATGGCAGGTGAATGAACAGGGGCAAAAGAGCTGGCCGGTCAGCCACTATCAGCAGGAGGGGGAGCGCGTCAGCAACTGGTTTGCCGAGGGCGTCATAAAACAGCACCGCAAACTCTCGAGCTGGATAAACGCGCTTATCGCCGCCGGTTTTGTGCTGGAGCAGCTGGATGAGTGGGGGCCAGGCGCCGAACAGATTGCTCAACAGCCCGCCCTGGAGGAAGAGAAAGAGCGGCCGATGATCTTTTTACTGCGCGCGCGTAAACCGGCTTAA	MSQNIYDDPHFFAGYATLDRSVKGLDGAPEWPALQQMLPPLAGLRVVDLGCGYGWFCRWAQQQGASQIMGFDISRRMLAQAREMTRGDEIDYRCADLQTLTLPANSCDLIYSSLALHYLPDIAPLFSTLQQALVPGGVLVFSAEHPIYTAPLQQGWQVNEQGQKSWPVSHYQQEGERVSNWFAEGVIKQHRKLSSWINALIAAGFVLEQLDEWGPGAEQIAQQPALEEEKERPMIFLLRARKPA				NA	NA	NA	NA	NA
BMS020_01251	1395	bglB_1	COG2723	6-phospho-beta-glucosidase BglB	ATGAAAACATTCCCGGCAGATTTTTTATGGGGCGGCGCGACCGCGGCGAATCAGGTGGAAGGGGCGTACCTGGAAGATGGCAAAGGGTTATCCACCTCCGATGTGCAGCCGCACGGCGTCTTCGGCGAAGTGGTCGAGCGCGTACCCGGCGACAGCGGGATTAAGGATGTGGCGATCGATTTTTACCATCGTTACCCGGAAGATATCGCCCTGTTTGCCGAGATGGGCTTTAACTGCCTGCGGGTATCCATCGCCTGGACCCGTATCTACCCCAACGGCGATGACGCCGAGCCGAACGAAGCCGGACTCGTGTTCTACGACAAGTTGTTCGACGAGATGGCGAAGCACAACATCACCCCGCTGGTGACGCTGTCGCATTATGAAATGCCGTGGGCGCTGGTGAAAAACTACGGCGGCTGGGGTAGCCGGGAAGTGATTGGCTTCTTTGAGCGCTACGCCCGGACGGTGTTCAGCCGTTATAAAAACAGGGTCAAACTGTGGCTGACCTTTAACGAAATCAATATGTCGCTGCATGCCCCGATGACCGGCGTCGGCCTGCCGGCCGGCAGCAGCAAAGGCGAGGTGTATCAGGCCATTCACCACCAGCTGGTGGCCAGCGCCCTGGCGGTCAAAGCCTGTCACGAGCTGGTGCCCGAGGGCAAAATCGGCAATATGCTGCTCGGCGGGCTGATGTATCCCCTGAGCTGCAAACCGGAAGATGTGTTCGAGACGCTGCAGGAGAACCGCAGCTGGCAGTTCTTCGGCGACGTGCAGGCGCGCGGGGCGTACCCGGGCTATATGCAGCGCTTTTTCCGCGACAACGGCATCACGCTCGACATCACCGAGGCCGATCGCGACACGCTGAAAACCACCGTCGATTTTATCTCCTTCAGCTACTACATGACCGGGTGCGTCACCGCCGATGAGGCGCTGAACCAGCAGGCGCGCGGCAATATTCTCAGCATGGTGCCGAACCCGCACCTGGCGAGCTCGGAGTGGGGCTGGCAGATAGACCCCCTGGGCCTGCGTACGCTGCTGAACGTGCTGTGGGATCGCTATCAGAAGCCGCTGTTTATCGTGGAAAACGGTCTGGGCGCCAAAGATAAGGTGGAAGCCGACGGCAGCATTAACGATGACTACCGCATCAGCTACCTGAACGACCATCTGGTGCAGGCGCGGGAGGCCATTGACGATGGCGTTGAGCTGATGGGCTTTACCAGCTGGGGACCGATTGACCTGGTGAGCGCCTCGAAGGCGGAGCTGTCGAAGCGCTACGGCTTTATCTATGTCGACCGCCATGATGACGGCACCGGCACCCTGGCGCGCAGTAAGAAGAAGAGCTTTGACTGGTATAAAGAGGTGATTGCCAGCCGCGGCGCCAGCCTGAAAGCGTAA	MKTFPADFLWGGATAANQVEGAYLEDGKGLSTSDVQPHGVFGEVVERVPGDSGIKDVAIDFYHRYPEDIALFAEMGFNCLRVSIAWTRIYPNGDDAEPNEAGLVFYDKLFDEMAKHNITPLVTLSHYEMPWALVKNYGGWGSREVIGFFERYARTVFSRYKNRVKLWLTFNEINMSLHAPMTGVGLPAGSSKGEVYQAIHHQLVASALAVKACHELVPEGKIGNMLLGGLMYPLSCKPEDVFETLQENRSWQFFGDVQARGAYPGYMQRFFRDNGITLDITEADRDTLKTTVDFISFSYYMTGCVTADEALNQQARGNILSMVPNPHLASSEWGWQIDPLGLRTLLNVLWDRYQKPLFIVENGLGAKDKVEADGSINDDYRISYLNDHLVQAREAIDDGVELMGFTSWGPIDLVSASKAELSKRYGFIYVDRHDDGTGTLARSKKKSFDWYKEVIASRGASLKA	PGPT0019255_3631	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0019255-bglA-K01223	NA	NA
BMS020_01252	1860	bglF_1	COG1263	PTS system beta-glucoside-specific EIIBCA component	ATGGAATATAAAGCACTCGCGCAGGATATTCTCCGCCGCGTCGGCGGCAAAGAGAACATTGTGAGTCTGGTTCACTGTGCGACACGTCTGCGTTTTAAGCTGAAAGATAACGGCAAAGCCGATGCCGAAGGGCTGAAGGCCAACCCGGGCGTCATTATGGTGGTGGAGAGCGGCGGCCAGTTTCAGGTGGTGATTGGCAACCACGTTCACGACGTCTGGCTGGCGGTGCGTCAGGAGGCAGGGTTAAGCGACGACAGCGAACCGGTGGCGGAAAGCGTTGAAAAAGGGTCGCTGCTGGGGCAGATCATCGATGTCGTGTCGGGAATTTTCACGCCGTTTATCGGCGTGCTGGCGGCCTCCGGTATCCTGAAAGGGATGCTGGCGCTGGCGGTCGTCTGCGGTTGGCTGACCCCGCAACAGGGAACCTATAAAATCTGGTTTGCCGCCAGCGACGCGCTGTTCTTTTTCTTCCCGCTGTTTCTCGGCTACACCGCCGGTAAAAAATTTGGCGGTAACCCGTTTGTCTCGATGGTGATCGGTGGGGCGTTAACCCACCCGCTGATGATTCAGGCCTTTGAGGCCAGCCAGGCGCCGGGCGCGGCGGTGGAGCACTTTCTCGGCATCCCGGTGACCTTTATTAATTACAGCTCATCGGTGATCCCGATTATTCTCGCCTCATGGGTCTGCTGCTGGCTGGAGCGCAAGAGCAACGCGCTGCTGCCGTCATCGATGAAAAACTTTTTTACGCCGGCGATTTGTCTCGCCGTTGTGGTTCCGCTGACGTTTCTGCTGATTGGCCCTCTGGCGACCTGGCTCAGTCATCTGTTGGCCCAGGGGTATCAGATTATCTACGCGGTGGCGCCGTGGCTGGCGGGAGCGGCGATGGGCGCGCTGTGGCAGGTTTGTGTGATCTTCGGCCTGCATTGGGGACTGATTCCGCTGATGATTAACAATCTGACGGTGCTTGGCCATGATTCCATGCTGCCCATGCTGCTGCCGGCCGTTATGGGGCAGGTCGGCGCGGTGCTGGGTATTTTGCTGAAAACCCGCGATGCCCGTCAGAAAGTGCTGGCCGGTTCTGCGTTTTCAGCGGGCATCTTCGGCATTACCGAGCCCGCTATCTATGGCTTAACATTGCCGCTGCGCCGGCCGTTTATCTTCGGCTGCGTGGCGGGCGCCATCGGCGGCGCTATTGTGGGTTTCAGTAACGCTAACGTCTATTCATTCGGCTTCGGGAACATTTTTACCGTGGCGCAAATGATCCCGCCCCAAGGGCTTGATAGCACCGTTTGGGGCGGCGTAGTGGGCATCTTCGCGGCGTTGATTATCTCCTGTGGTTTAACTTTCTTCGCCGGCCTGCCGCGCGCCAGCGCCGCGCCGGGCGCCGTGGCGGTAGCGCCGGTCTCGGCAAACGACATTCTGGCGCCGATGAGCGGCAGCGTCATCGCCCTCGATCAGGTGCCGGACAGCACCTTCGCCAGCGGCCTGCTGGGGAATGGGGTCGCCATTATCCCGGCGGTAGGCAAAGTCATCGCCCCGTTCACCGGCGAAGTGGCCTCTCTGTTTCAGACCAAACACGCCATCGGCCTGCAGAGCGACAGCGGCATTGAGCTGCTGATCCACGTCGGCATCGACACGGTCAAACTCGACGGCGTGCCGTTTACCGCGCATGTGAAAGAGGGCGACAGAGTACAGGCCGGCGATCTGCTGATTGAGTTTGATCGTCAGGCAATTCTGGACGCCGGTTACGACCTGGCGACCCCGATTATTATCAGCAACAGCGATGACTATCGCGAGATCGACACGGTGGCGCCCAGCGCCGTCGAAGCCGGTCAGCCGCTGTTGTCAGTCAGCCATTAA	MEYKALAQDILRRVGGKENIVSLVHCATRLRFKLKDNGKADAEGLKANPGVIMVVESGGQFQVVIGNHVHDVWLAVRQEAGLSDDSEPVAESVEKGSLLGQIIDVVSGIFTPFIGVLAASGILKGMLALAVVCGWLTPQQGTYKIWFAASDALFFFFPLFLGYTAGKKFGGNPFVSMVIGGALTHPLMIQAFEASQAPGAAVEHFLGIPVTFINYSSSVIPIILASWVCCWLERKSNALLPSSMKNFFTPAICLAVVVPLTFLLIGPLATWLSHLLAQGYQIIYAVAPWLAGAAMGALWQVCVIFGLHWGLIPLMINNLTVLGHDSMLPMLLPAVMGQVGAVLGILLKTRDARQKVLAGSAFSAGIFGITEPAIYGLTLPLRRPFIFGCVAGAIGGAIVGFSNANVYSFGFGNIFTVAQMIPPQGLDSTVWGGVVGIFAALIISCGLTFFAGLPRASAAPGAVAVAPVSANDILAPMSGSVIALDQVPDSTFASGLLGNGVAIIPAVGKVIAPFTGEVASLFQTKHAIGLQSDSGIELLIHVGIDTVKLDGVPFTAHVKEGDRVQAGDLLIEFDRQAILDAGYDLATPIIISNSDDYREIDTVAPSAVEAGQPLLSVSH	PGPT0016920_1278	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_BETA-GLUCOSIDE_PTS_SYSTEM_I,PGPT0016920-bglF-K02757	NA	NA
BMS020_01253	834	bglG	COG3711	Cryptic beta-glucoside bgl operon antiterminator	ATGCAAATCGCCAAAGTACTCAATAACAATGTGGTGGTGGTTCTTGACGAACACCAGCGCGAACAGGTGGTGATGGGGCGAGGGCTGGCCTTTCAGAAACGCCCGGGCGACGCGCTGGACGACAGCAAAATTGAAAAAGTCTTCGCCTTACAAAGCGATGAACTGGTCGGCCGCTTAGGTGAACTGCTCAGTCAGATTCCGTTAGAAGTGATGACCACCTGCGATCGCATTATCGACCTGGCGCGCGGGCGGTTGGGCAAATTACAGGAAAGTTTGTACATCACGTTAACGGATCACTGTCACTTTGCTATCGAGCGGCAGAAAAAGGGCATCGCACTGCGTAACGTGCTGCTGTGGGAGATCAAGCGGCTCTATCCGAAGGAGTTCGCGCTGGGCCAGGAGGCAAGGGCCATTATTGGCAAACGGCTCGGCGTGGCGCTGGCGGAGGATGAAGCCGGATTTATCGCCCTCCATCTGGTGACGGCGCAGCTCAACAGCGAAATGCCGGAGGTCATGCACGTGACCCGGGTGATGCAGGAGATCCTGCAGCTGGTGAAGTATCAGCTGCAGCTGAATTACGACGAGGAGTCGCTGAGCTATCAGCGTTTCGTCACCCACCTGAAGTTTTTCGCCCAGCGGATGCTGACCCGCACGGTGGTGGAAGATGACGACGTCTCGCTGCACAGCGCGGTGAAAGACAACTACGCCAAAGCGTGGAAGTGCGCGGAAAAGGTGGCGACGCATCTGCAAAAGCAGTATCAGCGGGCGCTGACCACCGAAGAAATTATGTTTCTTGCCATTCATATTGAACGGGTAAGAAAAGAGGGACGCTAA	MQIAKVLNNNVVVVLDEHQREQVVMGRGLAFQKRPGDALDDSKIEKVFALQSDELVGRLGELLSQIPLEVMTTCDRIIDLARGRLGKLQESLYITLTDHCHFAIERQKKGIALRNVLLWEIKRLYPKEFALGQEARAIIGKRLGVALAEDEAGFIALHLVTAQLNSEMPEVMHVTRVMQEILQLVKYQLQLNYDEESLSYQRFVTHLKFFAQRMLTRTVVEDDDVSLHSAVKDNYAKAWKCAEKVATHLQKQYQRALTTEEIMFLAIHIERVRKEGR	PGPT0014761_993	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
BMS020_01254	1365	oprB_1	COG3659	Porin B	ATGGATAACAAAAAAATAAATCAGCTTTTTATCGGCGCGGCGCTGGCGGCGATGGCGCCCGTCGTGTACGCGGCGCAAACCCCGGCGTGGAACGGCAGCGTGCTGGGGTTTGAAGCCGGACAGCCAGGGCTGCTGGGCGATATGCTGGGTATTCGTCCAATCCTTGAAGAGAACGGCTTTCATTATAATCTCGGCTATCTTAACGAGATGGCCTACAACGCCGGCGGCGGTTATAACCACGATAAACATCTGGCCTATATTGACCAGGTGTCGTTGACCTTTACCCAGGATCTGGAGCGCTGGACCGGCATACCGGACGCCCGTCTCGAGGGCAACATCGTCAACCGCAACCACGATGATAACCTCACCACGAAACGGCTGCAGGATCCGCGGGTCAGCTTCAACGATCTGTCGCAGGAGAGCTGGGGCGGCGGGTCGATCACCCGTCTCGGCTGGCTGACCTTCGCCCGCAGCTTTGACGACCGTCGCCTGACCTGGCGCATCGGCATGATGAACAAGGTGCAAACCTTCGACCAGATCATTCCCTGCGATTTCCAGCTGTTGACCCAGTGCGGCGGCAAATCGGCCAACTCGCTGACCTGGAATAACTGGAACATCCACACCTGGGGCACCACCCTGGAGTACAAGCTGACGCCGACGGTGACCCTCAAAGGCGGGGTGATGGAGCAAAACCCGCAGGCCGCCTCGCGCAGCCATGCCTGGAGCTGGTCGACGAAGGGCAGCAAAGGCATTTTACTGCCGCTGGAGATCGAAACCCGTCCGCTGATGAATGGCTTGCCGGGAGCCTATAACCTCGGCGTGGTCTGGACTAACGCGCCGCAAAGCGACCTCTACAGCGGCAAATCCGGCGGCGCCGGGGCGACGGACCCGCAGGGCTACGCCGAGCACGACAGCACCTGGTTTATGTACGCCGGCCTGAACCAGCAGATTACCCGCCACGCCGACGATCCGCTGCGGGGAATGAGCGTCTCGCTGAGCGGTAGCCTCAGCGACCAGCGCAGCAACTATATCCACTCCGCCGTCGCCGCCTCGATGCGCTACCGCGGGCTGTTTGACGCCCGTCCGGAGGACTGGATCGGCTTCGGCCTGACGTGGATCGACATGAGCAGCCACTACGCGCGCAATCAGCGCTATATGAACCAGCTCAGCGGCGCCGCCGACTATAACGATCCGGCCTGGCAGCCGGTGGCCGGCCACTCGCTGAACGGCGAACTCTATTATCGCTTCCGCCCGGTCTCCTGGCTGGAGCTGCAGCCGGGCCTGCAGTACTGGCACCGTCCGGGCGGCGTTGCGCAGACCCAGGACGCGTGGGTGGTGGAGTGGAAAACCGTCGTGACCTTCTGA	MDNKKINQLFIGAALAAMAPVVYAAQTPAWNGSVLGFEAGQPGLLGDMLGIRPILEENGFHYNLGYLNEMAYNAGGGYNHDKHLAYIDQVSLTFTQDLERWTGIPDARLEGNIVNRNHDDNLTTKRLQDPRVSFNDLSQESWGGGSITRLGWLTFARSFDDRRLTWRIGMMNKVQTFDQIIPCDFQLLTQCGGKSANSLTWNNWNIHTWGTTLEYKLTPTVTLKGGVMEQNPQAASRSHAWSWSTKGSKGILLPLEIETRPLMNGLPGAYNLGVVWTNAPQSDLYSGKSGGAGATDPQGYAEHDSTWFMYAGLNQQITRHADDPLRGMSVSLSGSLSDQRSNYIHSAVAASMRYRGLFDARPEDWIGFGLTWIDMSSHYARNQRYMNQLSGAADYNDPAWQPVAGHSLNGELYYRFRPVSWLELQPGLQYWHRPGGVAQTQDAWVVEWKTVVTF				NA	NA	NA	NA	NA
BMS020_01255	933	dusC	COG0042	tRNA-dihydrouridine(16) synthase	ATGCGTGTACTACTGGCGCCGATGGAAGGCGTGCTCGATTCGCTGGTGCGCGAGCTGCTGACCGAAGTGAACGATTACGATCTGTGCATCACCGAGTTTCTGCGGGTGGTGGATCAACTGCTGCCGGTTAAATCGTTCTACAGGCTGTGCCCGGAGCTGCATTATCAAAGCCGCACCCCGTCCGGTACCCGCGTGCGCGTCCAGCTGCTGGGGCAATATCCCGAGTGGCTGGCGGAAAACGCTGCCCGCGCGGTGGCGCTTGGCTCGTGGGGCGTCGATTTAAACTGCGGCTGTCCGTCGAAGCTGGTGAACGGCAGCGGCGGCGGGGCGACGCTGCTGAAAGACCCGGAGCTTATCTATCGCGGCGCGAAGGCGATGCGCGAGGCGGTGCCCGGTCATTTGCCGGTGACGGTGAAAGTTCGTCTCGGCTGGGACAGCGGCGAACGGCGCTTTGAAATCGCCGACGCGGTGCAGCAGGCGGGGGCCAGCGAGCTGGTGGTCCACGGCCGCACTAAAGAAGATGGCTACAAAGCGGAGCGCATCAACTGGCAGGCCATCGGCGAGATCCGCCGGCGCCTGACCATTCCGGTAGTCGCCAACGGCGAGATCTGGGACTGGCAAAGCGCTCAGGACTGTATGGCCGTCACCGGCTGCGATTCGGTGATGATTGGCCGCGGGGCGCTCAACGTACCGAACCTCAGCCGGGTGATCAAATACAACGAACCGCGCATGCCGTGGCCGCAGGTGGTTCAGCTGTTGCAAAAATATACCCGTCTGGAAAAGCAGGGCGATACCGGCCTGTATCATGTGGCGAGAATTAAGCAGTGGCTGGGCTATTTACGCAAGGAATATACCGAGGCGCTGACGCTGTTTAATGAAATTCGCGCCCTGCAAACCTCTGCTGAAATAGCGGCGGCGATCGCCCGCTATTAA	MRVLLAPMEGVLDSLVRELLTEVNDYDLCITEFLRVVDQLLPVKSFYRLCPELHYQSRTPSGTRVRVQLLGQYPEWLAENAARAVALGSWGVDLNCGCPSKLVNGSGGGATLLKDPELIYRGAKAMREAVPGHLPVTVKVRLGWDSGERRFEIADAVQQAGASELVVHGRTKEDGYKAERINWQAIGEIRRRLTIPVVANGEIWDWQSAQDCMAVTGCDSVMIGRGALNVPNLSRVIKYNEPRMPWPQVVQLLQKYTRLEKQGDTGLYHVARIKQWLGYLRKEYTEALTLFNEIRALQTSAEIAAAIARY	PGPT0013740_4	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS020_01256	405			hypothetical protein	ATGAGTAAATCGCTGACTATTATCTGGCACTACCTGCGGGCTTTCGTCCTGATTTACGCCTGCTTATACGCCGGAATATTTATCGCCGGGCTGCTTCCCATCACCATCCCCGGCAGCATCATCGGCATGCTGATCCTCTTCGTGCTGCTGGCGCTGCAAATTATGCCGCCGCAGTGGGTCAACCCCGGCTGCAATATCCTGATCCGCTATATGGCGCTGCTGTTCGTGCCGATCGGCGTCGGCGTGATGCAGTACTGGGATCTGCTGCGCGCCCAGCTGGGGCCGGTCGTCATCTCCTGCGCCATCAGCACGCTGGTGGTGTTTGTGGTGGTGAGCTGGAGCTCTCACCTGGTGCATGGCGAACGCAAAGTGATTGGGCAAAAGGAAAAGAAAAATGATGCATGA	MSKSLTIIWHYLRAFVLIYACLYAGIFIAGLLPITIPGSIIGMLILFVLLALQIMPPQWVNPGCNILIRYMALLFVPIGVGVMQYWDLLRAQLGPVVISCAISTLVVFVVVSWSSHLVHGERKVIGQKEKKNDA				NA	NA	NA	NA	NA
BMS020_01257	696	yohK_1	COG1346	Inner membrane protein YohK	ATGATGCATGAAATCTGGTGGTCGCTGCCGCTAACCCTGATCGTCTTTTTCCTCGCCCGCAAACTGGCGGCCCGCTTTAAGTTCCCGCTACTCAACCCGCTGCTGGTGGCGATGGTAGTGATAATCCCGTTTCTGCTGCTGACCGGGATCTCCTATGAGCGTTACTTTGCCGGCAGCAAGATCCTGAACGATCTGCTGCAGCCGGCGGTGGTCGCGCTGGCTTTCCCGCTGTATGAACAGCTGCACCAGATCCGCGCGCGCTGGAAATCGATCATCACCATCTGCTTTATCGGCAGCTGCGTGGCGATGATCACCGGCACCACCGTGGCCCTGCTGATGGGCGCCACACCGCAGATCGCCGCCTCTGTTCTGCCCAAATCGGTGACCACGCCGATTGCCATGGCGGTGAGCGGCAGTATCGGCGGCATCCCGGCCATCAGCGCCGTGTGCGTGATTTTTGTCGGCATCCTTGGCGCGGTATTCGGCCATACCCTGCTCAACCTGATGCGTATTCGCACTAAAGCGTCGCGCGGCCTGTCGATGGGCACCGCCTCGCACGCCCTCGGTACCGCCCGCTGTGCGGAACTGGACTATCAGGAAGGGGCGTTCAGCTCGCTGGCGCTGGTGCTGTGCGGGATCATCACTTCGTTGATGGCGCCGTTTTTATTCCCGCTGATCCTTGCGGTAGTGGGATGA	MMHEIWWSLPLTLIVFFLARKLAARFKFPLLNPLLVAMVVIIPFLLLTGISYERYFAGSKILNDLLQPAVVALAFPLYEQLHQIRARWKSIITICFIGSCVAMITGTTVALLMGATPQIAASVLPKSVTTPIAMAVSGSIGGIPAISAVCVIFVGILGAVFGHTLLNLMRIRTKASRGLSMGTASHALGTARCAELDYQEGAFSSLALVLCGIITSLMAPFLFPLILAVVG				NA	NA	NA	NA	NA
BMS020_01258	885	cdd	COG0295	Cytidine deaminase	ATGCACTCACGTTTTCAAGCTGCTTTGACGACTCTGGCAGCAGACCTGCAGGCGGCCATCGCCCCGATGCTCGCCGACCCGCACTTCCCGGCGCTGCTCGAAGCCGATCAGGTGGCGACGCTGCAACAGGCGACAGGTCTGGACGAAGACGCGCTGGCCTTTGCGCTACTGCCGCTGGCCGCCGCCTGCGCGCGCGCCGACCTTTCCCACTTTAACGTCGGGGCTATCGCCCGCGGCGTCAGCGGCCGCTGGTACTTTGGCGGCAACATGGAGTTTCTCGGCGCCACCATGCAGCAGACCGTCCATGCGGAGCAGAGCGCCATCAGCCACGCCTGGCTGCGCGGTGAAACCTCCCTGCGCGCCATCACGGTGAACTACACGCCGTGCGGCCATTGCCGTCAGTTTATGAACGAACTGAACAGCGGACTGGCGCTGCGCATTCATCTGCCCGGTCGCGAAGCCCATGCGCTGCAGCACTATCTGCCGGATGCCTTCGGCCCGAAAGACCTGGAGATCAAAACCCTGCTGATGGACCACCAGAACCACGGCTTCCCGGTCAGCGGCGATGCCCTGTCCCAGGCGGCGATTGAGGCCGCTAACCGCTGCCACGCGCCGTACAGCCACTCGCCTTCCGGCGTAGCGCTGGAGCTGAAAGATGGCACCCTTTTCAGCGGCAGCTATGCGGAAAACGCGGCTTTCAACCCGACGCTGCCGCCGCTGCAGGGGGCGCTGAATCTCCTCAGCCTCAACGGCTATGATTATCCGGACATCCAGCGGGCGATCCTGGCGGAGAAAGCCGATGCGGCGCTGATTCAGTGGGACGCCACCGTCGCCACCCTGAAGGCGCTGGGCTGCCACAATATCGAGCGCGTGCTGTTAGGTTAA	MHSRFQAALTTLAADLQAAIAPMLADPHFPALLEADQVATLQQATGLDEDALAFALLPLAAACARADLSHFNVGAIARGVSGRWYFGGNMEFLGATMQQTVHAEQSAISHAWLRGETSLRAITVNYTPCGHCRQFMNELNSGLALRIHLPGREAHALQHYLPDAFGPKDLEIKTLLMDHQNHGFPVSGDALSQAAIEAANRCHAPYSHSPSGVALELKDGTLFSGSYAENAAFNPTLPPLQGALNLLSLNGYDYPDIQRAILAEKADAALIQWDATVATLKALGCHNIERVLLG	PGPT0021360_399	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021360-cdd-K01489	NA	NA
BMS020_01259	717			hypothetical protein	ATGTTAAAGCGTGTGTTCTACAGCCTGTTAGTCCTGCTCGGCCTGCTGCTGTTGACCGTGCTGGGTCTTGACCGCTGGATGAGCTGGAAAACCGCGCCCTATATCTATGACGAGCTGCAGGACCTCCCCTACCGCCAGGTCGGCGTGGTGCTGGGCACCGCTAAATACTACCGCACCGGGGTGATCAATCAGTATTACCGCTACCGCATCCAGGGCGCGCTCAACGCCTACAACAGCGGCAAGGTCAACTATCTGCTGCTGAGCGGGGATAACGCCCTGCAAAGCTACAATGAACCGATGACTATGCGCCGGGACCTGATTAAAGGCGGCGTCGATCCGGCGGATATCGTGCTGGACTATGCCGGTTTCCGCACGCTCGACTCGATCGTCCGCACCCGCAAAGTGTTCGACACCAACGACTTCATTATCATCACCCAACGCTTCCACTGCGAACGGGCGCTGTTTATCGCCCTGCATATGGGGATCCAGGCTCAGTGCTACGCGGTGCCGTCGCCGAAGGATATGTGGAGCGTGCGGCTGCGCGAATTCGGCGCCCGCTTCGGCGCGCTGGCGGACCTCTACATCTTCAAACGGGAACCGCGTTTCCTCGGTCCTTTAATTCCGATTCCGGCGCAGCAGCACGACGTGCCGGATGACGCCCAGTCCTACCCGGCGGTCACCCCGGAGCAGCTACTGGAGCTGCAGAAAGAAAAGTAG	MLKRVFYSLLVLLGLLLLTVLGLDRWMSWKTAPYIYDELQDLPYRQVGVVLGTAKYYRTGVINQYYRYRIQGALNAYNSGKVNYLLLSGDNALQSYNEPMTMRRDLIKGGVDPADIVLDYAGFRTLDSIVRTRKVFDTNDFIIITQRFHCERALFIALHMGIQAQCYAVPSPKDMWSVRLREFGARFGALADLYIFKREPRFLGPLIPIPAQQHDVPDDAQSYPAVTPEQLLELQKEK				NA	NA	NA	NA	NA
BMS020_01260	1011	mglC	COG4211	Galactoside transport system permease protein MglC	ATGAGTGCGTTAAATAAAAAGAGTTTTCTCACTTACCTGAAAGAGGGTGGGATATATGTCGTCCTTCTGGTCCTGTTGGCCATTATTATTTTCCAGGATCCGACATTTTTAAGTCTGCTCAACCTGAGTAATATTCTGACCCAGTCCTCGGTGCGTATTATTATTGCCCTCGGGGTGGCCGGACTGATCGTCACGCAGGGCACCGACCTCTCCGCCGGCCGTCAGGTGGGACTGGCGGCGGTGATTGCCGCGACCATGCTGCAGGCGGTGGATAATGCCAACAAGGTGTTCCCGGATATGGCGACCATGCCGATCCCGCTGGTCATCCTGCTGGTATGCGCCATCGGGGCGGTCATCGGCCTGATTAACGGGATCGTCATTGCCTATCTGAACGTGACGCCGTTTATTACCACCCTTGGGACCATGATCATCGTCTACGGCATTAACTCGCTGTACTACGACTTCGTGGGCGCGTCGCCGATCTCCGGCTTCGACAGCCATTTCTCCCATTTCGCGCAGGGGTTTGTGGCGCTGGGCTCGTTCCGCCTGTCCTACATCACCTTCTACGCGCTGATTGCCGTCTTCTTTGTCTGGATCCTGTGGAACAAGACGCGCTTTGGCAAAAACATCTTCGCTATCGGCGGTAACCCGGAAGCGGCGAAGGTCTCCGGGGTCAACGTAGCGTTGAACCTGCTGATGATTTACGCCCTCTCCGGCGTGTTCTACGCCTTCGGCGGCCTGCTGGAAGCCGGTCGTATCGGCTCGGCGACCAATAACCTCGGCTTTATGTACGAACTGGACGCCATCGCCGCCTGCGTGGTGGGCGGCGTATCGTTCAGCGGCGGGGTAGGGACCGTATTCGGCGTGGTGACCGGGGTGATTATCTTCACCGTGATCAACTACGGCCTGACCTATATCGGCGTTAACCCTTACTGGCAGTACATCATTAAGGGGGCGATCATTATCTTCGCCGTGGCGCTGGATTCCCTGAAATACGCCCGTAAGAAGTAA	MSALNKKSFLTYLKEGGIYVVLLVLLAIIIFQDPTFLSLLNLSNILTQSSVRIIIALGVAGLIVTQGTDLSAGRQVGLAAVIAATMLQAVDNANKVFPDMATMPIPLVILLVCAIGAVIGLINGIVIAYLNVTPFITTLGTMIIVYGINSLYYDFVGASPISGFDSHFSHFAQGFVALGSFRLSYITFYALIAVFFVWILWNKTRFGKNIFAIGGNPEAAKVSGVNVALNLLMIYALSGVFYAFGGLLEAGRIGSATNNLGFMYELDAIAACVVGGVSFSGGVGTVFGVVTGVIIFTVINYGLTYIGVNPYWQYIIKGAIIIFAVALDSLKYARKK	PGPT0016640_154	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_METHYL-GALACTOSIDE_TRANSPORT,PGPT0016640-mglC-K10541	NA	NA
BMS020_01261	1521	mglA_1	COG1129	Galactose/methyl galactoside import ATP-binding protein MglA	ATGGTCAGCAATAATAGCGAACGGTCAGGCGAATATTTGTTGGAGATGAGCAACATCAACAAATCGTTTCCTGGCGTCAAGGCTCTTGATAATGTCAACCTGAAGGTTCGTCCGCACTCCATTCATGCGTTAATGGGTGAGAACGGCGCCGGTAAATCGACATTATTAAAATGCCTTTTTGGGATCTATCAAAAAGATTCCGGCAGCATTCTTTTTCAGGGAAAAGAGATCGATTTCCATTCGGCGAAAGAAGCCCTGGAAAACGGTATTTCGATGGTACATCAGGAATTAAACCTGGTCTTACAGCGTTCGGTCATGGACAACATGTGGCTCGGGCGTTATCCCACTAAAGGTATGTTTGTCGATCAGGACAAAATGTACCGGGACACCAAGGCCATATTTGATGAGCTGGATATTGATATCGACCCGCGCGCCCGCGTCGGTACCTTATCGGTATCCCAGATGCAGATGATTGAGATCGCCAAGGCGTTTTCCTATGACGCCAAAATCGTCATCATGGACGAGCCGACGTCCTCGCTGACGGAAAAAGAGGTCAACCATCTGTTTAAGATCATCCGCAAGCTGAAAGATCGCGGCTGCGGTATCGTCTATATCTCGCACAAAATGGAAGAGATTTTCCAGCTGTGCGATGAAATTACCATCCTTCGCGACGGCCAGTGGATCGCCACCCAGCCGCTGGAAGGGCTGGATATGGACAAGATCATCGCCATGATGGTCGGGCGTTCGCTCAACCAGCGCTTTCCGGATCGCGAAAACACCCCGGGAGAAGTGATCCTCCAGGTGCGCAATCTCACCTCCCTGCGCCAGCCATCCATTCGCGATGTCTCCTTCGATCTGCATAAGGGCGAAATTCTCGGTATCGCCGGTCTGGTGGGCGCGAAGCGTACCGACATCGTGGAGACCCTGTTCGGGATCCGTGAGAAGGCCAGCGGCACCATCACCCTGCACGGGAAGAAGATCAACAACCACAGCGCCAATGAGGCGATTAACCACGGTTTTGCGCTGGTGACCGAGGAGCGGCGCTCCACCGGGATTTACGCCTATCTGGATATCGGTTTTAACTCGCTGATCTCCAATATTAAGAAATATAAAAACAGCGTCGGCTTGCTGGATAACTCGCGGATGAAGAGCGATACCCAATGGGTCATTGACTCTATGCGCGTTAAAACCCCCGGCCAGCATACGCAGATTGGTTCGCTTTCCGGTGGTAACCAGCAAAAGGTCATTATTGGCCGGTGGCTGCTGACCCAGCCGGAGATCCTGATGCTGGACGAGCCGACGCGCGGTATCGACGTCGGCGCCAAATTCGAGATCTATCAGCTGATTGCCGAGCTGGCTAAAAAAGATAAAGGGATCATTATTATTTCCTCCGAAATGCCGGAACTGCTGGGGATTACCGACCGCATTCTGGTGATGAGCAACGGCCTGGTCGCGGGCATTGTTGAGACTAAAACCACCACGCAAAACGAAATACTGCGTCTTGCGTCATTGCACCTTTAA	MVSNNSERSGEYLLEMSNINKSFPGVKALDNVNLKVRPHSIHALMGENGAGKSTLLKCLFGIYQKDSGSILFQGKEIDFHSAKEALENGISMVHQELNLVLQRSVMDNMWLGRYPTKGMFVDQDKMYRDTKAIFDELDIDIDPRARVGTLSVSQMQMIEIAKAFSYDAKIVIMDEPTSSLTEKEVNHLFKIIRKLKDRGCGIVYISHKMEEIFQLCDEITILRDGQWIATQPLEGLDMDKIIAMMVGRSLNQRFPDRENTPGEVILQVRNLTSLRQPSIRDVSFDLHKGEILGIAGLVGAKRTDIVETLFGIREKASGTITLHGKKINNHSANEAINHGFALVTEERRSTGIYAYLDIGFNSLISNIKKYKNSVGLLDNSRMKSDTQWVIDSMRVKTPGQHTQIGSLSGGNQQKVIIGRWLLTQPEILMLDEPTRGIDVGAKFEIYQLIAELAKKDKGIIIISSEMPELLGITDRILVMSNGLVAGIVETKTTTQNEILRLASLHL	PGPT0016645_61	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_METHYL-GALACTOSIDE_TRANSPORT,PGPT0016645-mglA-K10542	NA	NA
BMS020_01262	999	mglB	COG1879	D-galactose-binding periplasmic protein	ATGAATAAGAAGGTGTTTACCCTCTCTGCTGTAATGGCTGGTCTGTTATTTGGCGCCGCAGCACACGCAGCAGATACCCGTATCGGCGTGACGATTTATAAATATGACGACAACTTTATGTCGGTGGTGCGTAAGGCGATTGAAAAAGATGGCAAATCCGCGCCTGACGTCCAGCTGCTGATGAATGACTCGCAGAACGACCAGTCGAAACAAAACGATCAGATTGACGTGCTGCTGGCGAAAGGTGTGAAAGCCCTGGCGATCAACCTGGTTGACCCGGCTGCGGCGGGAACGGTCATCGAAAAAGCGCGCGGGCAGAACATTCCGGTGGTGTTCTTCAACAAAGAGCCTTCCCGTAAAGCGCTGGATAGCTATGACAAAGCTTATTACGTCGGTACCGACTCGAAAGAGTCCGGGATTATTCAGGGCGATCTGATCGCCAAGCACTGGAAAGCCAACCCGAACTGGGATCTGAATAAAGACGGCCAGATCCAGTACGTCCTGCTGAAAGGCGAGCCGGGCCATCCGGATGCGGAAGCGCGTACCACCTACGTTATCAAAGAGCTGAATGATAAAGGCCTGAAGACCCAGCAGCTGCAGATGGACACCGCCATGTGGGATACCGCCCAGGCGAAAGACAAAATGGACGCCTGGCTCTCCGGCCCGAATGCGAACAAGATTGAAGTGGTGATCGCTAACAACGACGCCATGGCGATGGGCGCGGTTGAAGCGCTGAAAGCGCACAACAAGAGCAGCATTCCGGTGTTCGGCGTGGATGCGCTGCCGGAAGCCCTGGCGCTGGTGAAATCCGGCGCGATGGCCGGTACCGTGCTGAACGATGCTAACAACCAGGCGAAAGCGACCTTCGATCTGGCGAAAAACCTGGCCGACGGAAAAGACGCTGCGGCAGGCACCAACTGGAAAATTGACAACAAGATTGTTCGCGTCCCCTATGTGGGCGTCGATAAAGACAACCTGAGCCAGTTTACCGGCAAATAA	MNKKVFTLSAVMAGLLFGAAAHAADTRIGVTIYKYDDNFMSVVRKAIEKDGKSAPDVQLLMNDSQNDQSKQNDQIDVLLAKGVKALAINLVDPAAAGTVIEKARGQNIPVVFFNKEPSRKALDSYDKAYYVGTDSKESGIIQGDLIAKHWKANPNWDLNKDGQIQYVLLKGEPGHPDAEARTTYVIKELNDKGLKTQQLQMDTAMWDTAQAKDKMDAWLSGPNANKIEVVIANNDAMAMGAVEALKAHNKSSIPVFGVDALPEALALVKSGAMAGTVLNDANNQAKATFDLAKNLADGKDAAAGTNWKIDNKIVRVPYVGVDKDNLSQFTGK	PGPT0015745_348	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_METHYL-GALACTOSIDE_TRANSPORT,PGPT0015745-mglB-K10540	NA	NA
BMS020_01263	1023	galS	COG1609	HTH-type transcriptional regulator GalS	ATGATCACCATTCGTGATGTCGCCCGCCAGGCGGGCGTATCCGTGGCCACCGTGTCGCGGGTACTGAACAATAGCGCGCTGGTGAGTCCGGATACGCGCGACGTGGTGATGAAAGCGGTGACCCAGCTGGGCTACCGGCCCAACGCCAACGCCCAGGCGCTGGCCACCCAGGTCAGTGATACCATTGGCGTGGTGGTGATGGACGTCTCCGATGCCTTCTTCGGCGCGCTGGTGAAAGCGGTGGATACCGTCGCCCAGCAGCATCATAAGTATGTGCTGATCGGCAACAGCTATCACGAAGCGGAAAAAGAGCGCCATGCCATCGAGGTGCTGATCCGCCAGCGCTGCTCGGCGCTGATCGTCCATTCTAAAGCGCTCAGCGATGCTGAACTGAGCGACTTTATGCAACATATCCCGGGGATGGTGCTGATCAACCGCATCGTGCCGGGCTTTGCCCATCGCTGCGTCGGCCTCGACAACGTTAGCGGCGCGCTGATGGCTACCCGCATGCTGCTCAATCACGGCCACCAGCGCATCGGTTATCTCTCCTCCAATCACGGCATTGAAGACGACGATATGCGCCGGGAAGGGTGGAGCAAAGCGCTGCAGGAGCAGGGCATCATCGCCCCGGACAGCTGGGTCGGCTCCGGCTCCCCGGACATGCAGGGCGGCGAAGCGGCGATGGTCGAACTGCTGGGGCGGAATCTCGGCCTCACTGCGGTGTTCGCCTATAACGACAGCATGGCGGCCGGCGCGCTGACCACGCTGAAGGACAACGGCATTGTCGTGCCGCAGCATCTGTCGCTGATTGGCTTTGATGATATTCCTATTTCCCGTTACACCGATCCTCAGCTGACCACCGTGCGCTATCCGGTAATGTCGATGGCGAAGCTGGCCACCGAGCTGGCGCTGCTGGGGGCGGCCGGCAAGTTGGATCGCGAGGCGACGCACTGCTTTATGCCCACCCTGGTGCGCCGTCACTCCGTTGCCCAGCGGCAAACTGTGGGGCCGATCACTAACTGA	MITIRDVARQAGVSVATVSRVLNNSALVSPDTRDVVMKAVTQLGYRPNANAQALATQVSDTIGVVVMDVSDAFFGALVKAVDTVAQQHHKYVLIGNSYHEAEKERHAIEVLIRQRCSALIVHSKALSDAELSDFMQHIPGMVLINRIVPGFAHRCVGLDNVSGALMATRMLLNHGHQRIGYLSSNHGIEDDDMRREGWSKALQEQGIIAPDSWVGSGSPDMQGGEAAMVELLGRNLGLTAVFAYNDSMAAGALTTLKDNGIVVPQHLSLIGFDDIPISRYTDPQLTTVRYPVMSMAKLATELALLGAAGKLDREATHCFMPTLVRRHSVAQRQTVGPITN	PGPT0017992_7902	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
BMS020_01264	1158			hypothetical protein	ATGGAGAGAAATGTCACGCTGGACTTTGTCCGCGGCGTCGCCATCCTCGGTATCCTGCTTCTCAATATCAGCGCCTTCGGCTTGCCGAAGGCCGCTTACCTCAATCCGGCCTGGTCAGGAAACGCGACCCTCAGCGATGCCTGGACCTGGGCGATCCTTGACCTGCTGGCGCAGGTGAAGTTTCTTACCCTGTTCGCGCTGCTGTTTGGCGCCGGTCTGCAGCTCCTGCTCCCCCGCGGTAAACGCTGGATCCAGTCGCGGCTGACCCTGCTGGCGCTGCTTGGTTTCATTCACGGTCTCTTCTTCTGGGATGGCGATATTCTGCTGGCCTACGCCCTGGTGGGGCTGGTGAGCTGGCGCATGGTGCGCGAGGCGCAGCATGTTAAATCGCTGTTTAACACCGGGGTGGTGCTCTACCTCACCGGTATTGCGGTGCTGGTCCTGCTGGGGATTATCTCGGGGACGGCCGCGAATCGCTCCTGGGTACCGGACGCGGCCAATCTGCAGTATGAGCAGTACTGGAAGCTGCACGGCGGCATGGAGGCGGTCAGCAACCGGGCGGATATGCTGTCGGACAATCTGTTGGCGCTCGGCGCGCAGTATGGCTGGCAGCTGGCGGGGATGATGCTGATAGGCGCGGCGCTGATGCGCAGCGGCTGGCTGAAAGGGCAGTTCAGCCAGCGTCACTATCGGCGCACCGGTGCGCTGCTGGTGCTAGCCGGGATGGCGGTGAATGTGCCGGCTATTGTCGCCCAGTGGTATCTGGCCTGGGATTATCGCTGGTGCGCGTTTTTACTGCAGGCGCCGCGTGAACTGAGCGCTCCGCTGCAGGCTATCGGCTATGCCTCGCTGGCCTGGGGCTACTGGCCGCAGCTCTGCCGTTTCCGCCTGGTGGGGGCTATCGCCTGCGTCGGACGCATGGCGCTGAGCAACTACCTGCTGCAGACCCTGATCTGCACCACCCTGTTTTATCATCTCGGGCTGTTTATGCGCTTCGATCGTCTACAGCTGCTGGCCTTTGTTCCCCCCATCTGGGCCGTCAACCTCCTCGTGTCATCACTCTGGCTGCGCCGCTTCCGCCAGGGGCCGGTGGAATGGCTGTGGCGTCAGTTAACCCTGCGTGCGTCAGGGACATCATTGAAAGACACATCCAGATAA	MERNVTLDFVRGVAILGILLLNISAFGLPKAAYLNPAWSGNATLSDAWTWAILDLLAQVKFLTLFALLFGAGLQLLLPRGKRWIQSRLTLLALLGFIHGLFFWDGDILLAYALVGLVSWRMVREAQHVKSLFNTGVVLYLTGIAVLVLLGIISGTAANRSWVPDAANLQYEQYWKLHGGMEAVSNRADMLSDNLLALGAQYGWQLAGMMLIGAALMRSGWLKGQFSQRHYRRTGALLVLAGMAVNVPAIVAQWYLAWDYRWCAFLLQAPRELSAPLQAIGYASLAWGYWPQLCRFRLVGAIACVGRMALSNYLLQTLICTTLFYHLGLFMRFDRLQLLAFVPPIWAVNLLVSSLWLRRFRQGPVEWLWRQLTLRASGTSLKDTSR				NA	NA	NA	NA	NA
BMS020_01265	669	folE_1	COG0302	GTP cyclohydrolase 1	ATGTCATCACTGAGTAAAGAAGCCGTCCTCGTTCATGAAGCGCTGGTCGCTCGTGGGCTGGAGACGCCGATGCGTGCGCCAGTACAAGAAATTGATAACGAAACACGCAAGCGTTTGATTACCGGTCATATGACCGAGATTATGCAACTGCTGAATCTGGATCTGAGTGATGACAGTCTGATGGAGACCCCGCATCGCATCGCCAAAATGTATGTCGATGAGATCTTCTCCGGACTGGATTACTCCCGTTTCCCGAAAATCACCGTCATTGAAAACAAAATGAAGGTCGATGAAATGGTCACCGTGCGCGATATCACCCTGACCAGCACCTGCGAACACCACTTTGTCACCATCGATGGTAAAGCGACGGTAGCCTATATCCCGAAAGATTCGGTGATCGGCCTGTCGAAAATCAACCGCATCGTGCAGTTCTTCGCCCAGCGCCCGCAGGTCCAGGAGCGTCTCACGCAGCAGATCCTGATCGCGCTGCAGACGCTGCTCGGCACCAGCAACGTGGCGGTATCCATTGACGCGGTGCATTACTGCGTGAAAGCGCGCGGCATCCGCGACGCGACCAGCGCCACTACCACCACCTCCCTCGGTGGCCTGTTCAAATCCAGCCAGAATACCCGCCAGGAATTCCTGCGCGCAGTACGTCACCACAACTAA	MSSLSKEAVLVHEALVARGLETPMRAPVQEIDNETRKRLITGHMTEIMQLLNLDLSDDSLMETPHRIAKMYVDEIFSGLDYSRFPKITVIENKMKVDEMVTVRDITLTSTCEHHFVTIDGKATVAYIPKDSVIGLSKINRIVQFFAQRPQVQERLTQQILIALQTLLGTSNVAVSIDAVHYCVKARGIRDATSATTTTSLGGLFKSSQNTRQEFLRAVRHHN	PGPT0007875_1371	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007875-folE-K01495	NA	NA
BMS020_01266	834	yeiG	COG0627	S-formylglutathione hydrolase YeiG	ATGGAACTGCTTGAAGAGCATCGCTGTTTTGACGGCCGGCAACAACGCTGGCGTCATCACTCCCCTGTCCTGAACTGCGCCATGACGTTCAGCATTTTTTTACCGCCTGAGCGCGAAACGCCGCCGCCGGTGCTGTACTGGCTGTCCGGGCTGACCTGTAACGATGAAAACTTTACCACCAAGGTGGGCGCTCAGCGCATTGCCGCCGCGCTGGGCATCGCGTTGGTGATGCCGGATACCAGCCCGCGCGGTGACGAGGTGGCCAACGATGACGGTTACGATCTGGGGCAAGGCGCTGGCTTCTACCTGAACGCCACCGAGGCGCCGTGGGCGGCGCACTACCGAATGTACGATTACCTGCGCGACGAACTGCCCGCGCTTATCCGCAGCGAGTTTACCGTCGGCGAACGCTGCGCCATCAGCGGCCACTCGATGGGCGGTCACGGCGCGCTTATCATGGCGCTCACCAATCCCGGCCGCTACGCCAGCGTCTCCGCCTTCGCGCCAATCGTCAATCCCTCCCAGGTGCCGTGGGGCAAGAAAGCGTTTACCGCCTATCTCGGCGCCGATGAATCGACATGGCGCGCCTGGGACAGCTGCGCCCTGATGCAGGCCAGCCAGCCAGCGGACGCGGTGCCGACGCTTATCGATCAGGGCGATAACGATCCGTTCCTCGCCGGACAGCTGCAGCCCGCGGTGCTGGCGGAGGTCGCGCGGCAGAAGGCCTGGCCGTTAACGCTGCGCATCCAGCCCGGTTACGATCATAGCTACTACTTTATTGCCTCGTTTATCGAAGACCATCTGCGTTTCCACGCGCAGCATCTCTTTAACTAA	MELLEEHRCFDGRQQRWRHHSPVLNCAMTFSIFLPPERETPPPVLYWLSGLTCNDENFTTKVGAQRIAAALGIALVMPDTSPRGDEVANDDGYDLGQGAGFYLNATEAPWAAHYRMYDYLRDELPALIRSEFTVGERCAISGHSMGGHGALIMALTNPGRYASVSAFAPIVNPSQVPWGKKAFTAYLGADESTWRAWDSCALMQASQPADAVPTLIDQGDNDPFLAGQLQPAVLAEVARQKAWPLTLRIQPGYDHSYYFIASFIEDHLRFHAQHLFN	PGPT0002120_2027	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0002120-frmB|fghA-K01070	NA	NA
BMS020_01267	1974	cirA	COG4771	Colicin I receptor	ATGTTCAGGTTAAACCCTTTTATCCGGGCGGGATTGTCTGCGTCCGTCGTATCGTTAGCGTTTCCGGCCCTGGCCGATGTGAATGAAGAAACGCTGGTGGTGACCGCCTCGGCCACTGAACAGAGCGTCAAAGACGCACCGGCGAGCATCAGCGTCATCACCCAGCAGGATTTGCAGCGCAAGCCGGTGCAGAACCTGAAAGACGTACTGCGCGATGTGCCCGGGGTCCAGCTCACCAACGAAGGGGATAACCGCAAGGGCGTCAGCATTCGCGGTCTGAGCAGCAGCTATACCCTGATCCTTGTCGACGGGAAACGCGTCAACTCCCGGAACGCCGTCTTCCGCCACAATGACTTCGACCTGAACTGGATCCCGGTGGATGCCATCGAACGTATCGAGGTGGTGCGCGGCCCGATGTCCTCCCTGTACGGCTCCGATGCGCTCGGTGGCGTGGTCAACATTATTACCAAAAAAATCGGCCAGAAATGGGCCGGGACGCTGAGCGCCGATACCACCATTCAGGAACACCGCGACCGCGGCGATACCTGGAACGGCCAGTTCTTCACCAGCGGCCCGCTGATCGACGGCGTGCTCGGGATGAAGGCCTACGGCAGCCTGGCGAAGCGCGCCAAGGACGATCCGCAGTCTTCCAGCAATGCCACCGGCGAAACGCCGCGCATCGAGGGCTTCACCAGCCGCGATGGCAATGTTGAATTCGCCTGGACGCCGAACGACAACCACGATTTCACCGCGGGCTATGGCTTTGACCGCCAGGATCGCGACTCCGATTCCCTTGACCGCAACCGCCTTGAGCGTGAGAACTACTCCCTGAGCCATAACGGCCGTTGGGAGATGGGCAACAGCGAGCTCAAGTTTTACGGCGAAAAGGTGGATAACAAAAATCCGGGGCAGAACGGCACCATCACCTCGGAAAGCAATGCCATCGACGGCAAGTATGTCCTGCCGCTGGACATGATTAACCAGCTGGTGACCTTCGGCGGCGAATGGCGCCACGACAAGCTGAAAGATCCGGTCAACCTGAGCAGCGGCGGCCAGTCGACCTCCGCCAGCCAGTACGCCCTGTTTATTGAAGACGAATGGCGCATCATCGAGCCGCTGGCGCTGACCACCGGCATTCGTATGGACGACCATCAGACCTATGGCGATCACTGGAGCCCGCGCGCCTATCTGGTGTATAACGCCACCGATACCGTCACTGTCAAAGGCGGCTGGGCGACGGCGTTTAAAGCCCCGTCGCTGCTGCAGCTTAACCCCGACTGGACCACCAACTCCTGCCGCGGCTCGTGCAGCATCATCGGTAACCCGGATCTGAAGCCGGAAACCAGCGAAAGCTTCGAGCTTGGTCTCTACTATCGTGGGGAAGAGGGCTGGCTGCAGGATGTTGAAGGCAGCATCACCACCTTCCAGAATAATGTCGACGATATGATTGATGTTCTGCGCACCTCCAGCGCCAGCGAAGCGCCGGGCTACCCGAACTTTGTCGGCTGGAAAACCGTCAACGGTAAGCGCGTGCCGATCTTCCGCTATTTCAACGTCAACAAAGCCCGCATCAAAGGGGTGGAGACCGAGGTGAAGATCCCGTTCGGCGATGAGTGGAAGCTGACGGTGAACTACACCTACAACGATGGTCGCGATCTGAGCAACGGCGGCGACAAACCGCTGCAGACGCTGCCGTTCCATACCGCCAACGGCACGCTTGACTGGAAACCGCTGGACGACTGGTCCTTCTACGTGACGGCCAACTATACCGGCCAGCAGCGCGCGGTGAGCGCCACCGGCAAAACGCCGGGCGGCTATACCCTGTTTGACGTCGGCGCGGCGTGGCAGGTCACCAAAAACGTGAAACTGCGCTCCGGGGTGCAGAACGTGGGCGATAAAGATCTCAACCGGGACGACTACAGCTATACCGAAGAGGGCCGTCGCTACTTTATGGCCGTGGATTATCGCTTCTGA	MFRLNPFIRAGLSASVVSLAFPALADVNEETLVVTASATEQSVKDAPASISVITQQDLQRKPVQNLKDVLRDVPGVQLTNEGDNRKGVSIRGLSSSYTLILVDGKRVNSRNAVFRHNDFDLNWIPVDAIERIEVVRGPMSSLYGSDALGGVVNIITKKIGQKWAGTLSADTTIQEHRDRGDTWNGQFFTSGPLIDGVLGMKAYGSLAKRAKDDPQSSSNATGETPRIEGFTSRDGNVEFAWTPNDNHDFTAGYGFDRQDRDSDSLDRNRLERENYSLSHNGRWEMGNSELKFYGEKVDNKNPGQNGTITSESNAIDGKYVLPLDMINQLVTFGGEWRHDKLKDPVNLSSGGQSTSASQYALFIEDEWRIIEPLALTTGIRMDDHQTYGDHWSPRAYLVYNATDTVTVKGGWATAFKAPSLLQLNPDWTTNSCRGSCSIIGNPDLKPETSESFELGLYYRGEEGWLQDVEGSITTFQNNVDDMIDVLRTSSASEAPGYPNFVGWKTVNGKRVPIFRYFNVNKARIKGVETEVKIPFGDEWKLTVNYTYNDGRDLSNGGDKPLQTLPFHTANGTLDWKPLDDWSFYVTANYTGQQRAVSATGKTPGGYTLFDVGAAWQVTKNVKLRSGVQNVGDKDLNRDDYSYTEEGRRYFMAVDYRF	PGPT0003780_2025	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|COLICINS,PGPT0003780-TC_FEV_OM2|cirA|cfrA|hmuR-K16089	NA	NA
BMS020_01268	1470	lysP	COG0833	Lysine-specific permease	ATGGTTTCGGAAACTAAAACCACAGAAGCGCCCACGCTACGTCGTGAACTAAAGGCGCGCCACTTGACCATGATCGCCATCGGCGGTTCCATCGGTACGGGTCTTTTTGTTGCCTCTGGCGCAACGATTTCGCAAGCAGGTCCCGGCGGGGCGCTGCTGTCTTATATTCTGGTCGGTCTGATGGTCTATTTCCTGATGACCAGCCTGGGCGAACTGGCGGCGTTTATGCCGGTGTCCGGTTCCTTCGCCACCTACGGGCAGAATTATGTTGAAGAGGGCTTCGGCTTCGCGCTGGGCTGGAACTACTGGTACAACTGGGCGGTAACGATCGCCGTTGACCTCGTGGCCTCGCAGCTGGTGATGAGCTACTGGTTCCCTGACACCCCAGGCTGGATCTGGAGCGCCTTGTTCCTCGGCATTATGTTCCTGCTGAACTGGATCTCGGTGCGCGGCTTTGGCGAGGCGGAATACTGGTTCTCGCTGATCAAAGTGGCCACCGTCATTATCTTTATCATCGTCGGCGTGATGATGATTGTCGGCATCTTCAAAGGGGCGCAGCCTGCCGGCTGGAGCAACTGGGGGATCGCGGATGCGCCGTTTGCCGGCGGCTTCTCGGCGATGATCGGCGTGGCGATGATTGTCGGCTTCTCCTTCCAGGGCACCGAGCTTATCGGTATTGCCGCCGGTGAGTCTGAGAACCCGGAAAAGAACATTCCGCGCGCGGTGCGCCAGGTCTTCTGGCGTATCCTGCTGTTCTACGTCTTCGCGATCCTGATTATCAGCCTGATCATTCCGTATACCGATCCGAGCCTGCTGCGCAACGATGTTAAAGATATCTCCGTCAGCCCGTTCACGCTGGTCTTCCAGCACGCCGGTCTGCTGTCGGCGGCGGCGATCATGAACGCCGTTATCCTGACGGCCGTTCTGTCGGCGGGTAACTCGGGGATGTACGCCTCTACGCGTATGCTGTATACCCTGGCCTGCGACGGCAAAGCGCCGCGCATTTTCTCGAAGCTGTCGCGTGGCGGCGTACCGCGCAACGCCCTGTATGCGACCACCGTTATCGCGGCGCTGTGCTTCCTGACTTCGATGTTCGGTAACCAGACAGTGTACCTGTGGCTGCTGAACACCTCGGGGATGACGGGCTTTATCGCCTGGCTGGGGATTGCCATCAGCCACTATCGTTTCCGTCGTGGCTTCGTCCTGCAGGGTAACGATATTAATAATCTGCCGTATCGTTCCGGGTTCTTCCCGCTGGGGCCGATCTTCGCCTTCGTGCTGTGCCTGATCATCACCCTCGGACAGAACTACGAAGCGTTCCTCAAGGACACCATTGACTGGGGCGGCGTGGCGGCGACCTACATCGGTATTCCGCTGTTCCTCGTCATCTGGTTTGGGTACAAACTGGCAAAAGGCACCCGCTTCGTTCGCTACAGCGAAATGACCTTCCCGGACCGCTTTAAGCGTTAA	MVSETKTTEAPTLRRELKARHLTMIAIGGSIGTGLFVASGATISQAGPGGALLSYILVGLMVYFLMTSLGELAAFMPVSGSFATYGQNYVEEGFGFALGWNYWYNWAVTIAVDLVASQLVMSYWFPDTPGWIWSALFLGIMFLLNWISVRGFGEAEYWFSLIKVATVIIFIIVGVMMIVGIFKGAQPAGWSNWGIADAPFAGGFSAMIGVAMIVGFSFQGTELIGIAAGESENPEKNIPRAVRQVFWRILLFYVFAILIISLIIPYTDPSLLRNDVKDISVSPFTLVFQHAGLLSAAAIMNAVILTAVLSAGNSGMYASTRMLYTLACDGKAPRIFSKLSRGGVPRNALYATTVIAALCFLTSMFGNQTVYLWLLNTSGMTGFIAWLGIAISHYRFRRGFVLQGNDINNLPYRSGFFPLGPIFAFVLCLIITLGQNYEAFLKDTIDWGGVAATYIGIPLFLVIWFGYKLAKGTRFVRYSEMTFPDRFKR	PGPT0020630_663	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_LYSINE_TRANSPORT,PGPT0020630-lysP-K11733	NA	NA
BMS020_01269	867	cmpR_1		HTH-type transcriptional activator CmpR	ATGCATATTACGCTGCGGCAGCTGGAAGTGTTCGCCGAAGTCCATAAGAGTGGGTCGACCACTCAGGCGTCACAGATGCTGGCGCTTTCGCAATCGGCGGTCAGCGCCGCGCTGACCGATCTGGAAGGGCAGCTTGGCGTACAGCTGTTCGACCGCGTCGGCAAGCGGCTGGTGGTCAATGAGCATGGACGGCTGCTCTATCCGCGCGCCCTGGCGTTGCTGGAGCGGGCCCTGGAGATCGAGCAGCTGTTTCGCGGCGACAACGGGGCGATTCGGGTCTACGCCAGCAGCACCATCGGCAACTATATTATGCCGGAGATCATTGCCCGCTATCGCCATGACTTCCCGGATCTGCCGGTTGAGCTGAGCGTGGGCAACAGCCTGGACGTGATCAACGCCGTTGCCGACCTGCGGGTGGATTTCGGGCTGATCGAGGGGCCGTGCCATGCCGCCGATATTATCGCCGAGCCGTGGCTGGAAGATGAGCTGGTGGTGTTTGCCGCGCCTGACTCGCCGCTGCTGGCGGGGGAGGTGACCCTGCAGCAGCTGGCCGAGGCGCCGTGGATCCTGCGCGAGCATGGGTCTGGCACCCGGGAGATTGTCGATTACGTTCTGCTGTCGCATCTGCCGGCGTTTCATCTGGGGATGGAGCTGGGCAACTCGGAGGCGATCAAACACGCTGTGCGCCATGGGCTGGGGATCAGCTGCTTATCGCGGCGGGTGATTGCCGAACAGCTGGCCTCCGGCACGCTGGCGGAGCTGAAAGTGCCGCTGCCCCGGCTGACGCGCACGCTGTGGCGGATCCACCACCGGCAGAAGCATATTTCCAAAGCATTACAACGTTTTCTACAGTATTGCCAGGTGTAG	MHITLRQLEVFAEVHKSGSTTQASQMLALSQSAVSAALTDLEGQLGVQLFDRVGKRLVVNEHGRLLYPRALALLERALEIEQLFRGDNGAIRVYASSTIGNYIMPEIIARYRHDFPDLPVELSVGNSLDVINAVADLRVDFGLIEGPCHAADIIAEPWLEDELVVFAAPDSPLLAGEVTLQQLAEAPWILREHGSGTREIVDYVLLSHLPAFHLGMELGNSEAIKHAVRHGLGISCLSRRVIAEQLASGTLAELKVPLPRLTRTLWRIHHRQKHISKALQRFLQYCQV				NA	NA	NA	NA	NA
BMS020_01270	1050			hypothetical protein	ATGACAGCACTCACTTTACCCACCAAACATCGTTCCCTGTGGCATTTTGTCCCAGGCCTGGCGCTGACCGCCGCCCTGACCGGCGCCGCCCTGTGGGCCGGTAGCTTCCCGGCCATCGCCGGGGCGGGCTTCAGCGCCCTGACCCTCGCTATTCTGTTCGGGATGGTCGTCGGTAACACGGTCTATCCGAAAATCTGGCAGCCCTGCGACGGCGGGGTGATCTTCGCCAAACAGTATCTGCTGCGCCTGGGGATCATCCTCTACGGCTTCCGCCTGACGTTCGCCCAGATTGCCGACGTCGGCGTGAGCGGTATTTTGATTGACGTTCTGACGCTCTCCAGCACCTTTTTCATCGCCTGCTTCCTGGGCCAGAAAGTGTTTGGGCTCGATAAGCACACCAGCTGGCTGATCGGCGCCGGCAGCAGCATCTGCGGCGCGGCGGCAGTGCTTGCCAGCGAGCCGGTGGTCAAAGCCGAAGCCAGTAAAGTGACCGTCGCCGTCGCCACGGTGGTGATCTTCGGTACCATCGCCATCTTCCTCTACCCGGCGATGTACCCGTTGCTGGCGCACTGGTTTACCCCGGAGACCTACGGGATCTATATGGGTTCCACCATGCATGAAGTGGCGCAGGTCGTCGCCGCCGGCCATGCGGTCAGCCCGGATGCGGAGAACGCCGCGGTTATCGCTAAAATGCTGCGCGTGATGATGCTGGCCCCGTTCCTGCTGTTCCTGGCGGCGCGTGTTAAACAACTGACCCCGGCAGGTAACGGCGAGAAAAGCAAAATCACCATTCCGTGGTTTGCCATTATGTTCATCCTGGTGGCGGTGTTTAACTCCTTCCATCTGCTGCCGAAAGCGGTCGTGGAGATGCTGGTGACGCTGGATACCGTCCTGCTGGCGATGGCGATGGCCGCTCTTGGGGTGACCACTCACGTCAGCGCCCTGAAAAAAGCCGGGGCGAAACCGCTGCTGATGGCGCTGATGCTGTTCGTCTGGTTGATTGTCGGCGGCGGGGCCATTAACGTCGCCATCCACAGCCTGATGGCATAA	MTALTLPTKHRSLWHFVPGLALTAALTGAALWAGSFPAIAGAGFSALTLAILFGMVVGNTVYPKIWQPCDGGVIFAKQYLLRLGIILYGFRLTFAQIADVGVSGILIDVLTLSSTFFIACFLGQKVFGLDKHTSWLIGAGSSICGAAAVLASEPVVKAEASKVTVAVATVVIFGTIAIFLYPAMYPLLAHWFTPETYGIYMGSTMHEVAQVVAAGHAVSPDAENAAVIAKMLRVMMLAPFLLFLAARVKQLTPAGNGEKSKITIPWFAIMFILVAVFNSFHLLPKAVVEMLVTLDTVLLAMAMAALGVTTHVSALKKAGAKPLLMALMLFVWLIVGGGAINVAIHSLMA	PGPT0027810_9	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0027810-sapZ-K19239	NA	NA
BMS020_01271	855	nfo	COG0648	Endonuclease 4	ATGAAATACGTAGGAGCGCACGTGAGCGCCTCAGGTGGACTGGCCAATGCCGCCATTCGCGCCGCCGAAATCGAAGCAACCGCCTTCGCCCTCTTCACCAAAAATCAGCGCCAGTGGCGCGCCGCGCCGCTCAGCGACCAGACCATCGCCGAATTCAAAGCCGCCTGTGAAAAGTATCACTTTGGCCCCGGACAGATCCTGCCGCACGACAGCTACCTGATTAACCTCGGCCACCCGGTGGAAGAGGCGCTGGAAAAATCCCGTGACGCCTTCATCGATGAGATGACCCGCTGTCAGCAGCTGGGGCTGACGCTGCTCAACTTCCACCCCGGCAGCCATCTGCAGCAGATCCCGGAGGAAGAGTGTCTGGCGCGCATCGCCGAATCGATCAATATCGCGCTGGCGAAGACCGAAGGCGTCACCGCGGTTATCGAAAATACCGCCGGCCAGGGCAGCAACCTGGGCTTTAAGTTCGAGCACCTCGCAGCCATCATCGACGGCGTGGAAGATAAAACCCGCGTCGGCGTCTGCATCGATACCTGCCACGCCTTCGCCGCCGGCTATGACCTGCGCAGCGCCGAAGCCTGCGAGAAGACCTTTGCCGACTTCGACCGTATCGTCGGCTTTCAGTATCTGCGCGGCATGCATCTCAACGATGCCAAGAGCGCCTTCGGCAGCCGGGTCGACCGTCACCATAGTCTGGGGGAAGGCAACATCGGCCACGATTGCTTCAGCTGGATCATGCAGGACAACCGCTTCGACGGCATTCCGCTGATTCTGGAAACCATCAACCCGGATATCTGGGCGGAAGAGATTGCCTGGCTGCGGGCGCAGCAGATCGCCGAAGTGGCGTAA	MKYVGAHVSASGGLANAAIRAAEIEATAFALFTKNQRQWRAAPLSDQTIAEFKAACEKYHFGPGQILPHDSYLINLGHPVEEALEKSRDAFIDEMTRCQQLGLTLLNFHPGSHLQQIPEEECLARIAESINIALAKTEGVTAVIENTAGQGSNLGFKFEHLAAIIDGVEDKTRVGVCIDTCHAFAAGYDLRSAEACEKTFADFDRIVGFQYLRGMHLNDAKSAFGSRVDRHHSLGEGNIGHDCFSWIMQDNRFDGIPLILETINPDIWAEEIAWLRAQQIAEVA				NA	NA	NA	NA	NA
BMS020_01272	1695	fruA_1	COG1299	PTS system fructose-specific EIIB'BC component	ATGAAAACGCTGCTGATTATTGATGCCGGACTCGGACAGGCGCGCGCCTATATGGCGAAAACCCTGCTGGGTGCCGCAGCGCCAAAAGCGCACCTTGAACTGATTGATAATCCGAACGACGCCGAACTGGTGATTGTTCTCGGGTCGGCGCTGCCTACTGACAGCGCGCTGAACGGCAAACAGGTCTACCTCGGCGATATTAATCGCGCCGTGGCGCACCCGGAGCTGTTCCTCAGCGAAGCCAAAGGCCACGCGACGCCGTACGCGGTGCCTGCCGCCGCGGCAGTCCCGGCGGCCACCGGCGGACCGAAACGTATTGTCGCGGTCACCGCCTGTCCGACCGGCGTTGCCCATACCTTTATGGCGGCTGAAGCCATTGAAACCGAAGCGAAAAAACGCGGCTGGTGGGTGAAAGTGGAAACCCGCGGCTCCGTCGGCGCGGGCAATGCTATCACCCCGGAAGAGGTGGCCGAGGCGGATCTGGTGATCGTCGCCGCCGATATCGAAGTCGACCTGGCGAAATTCGCCGGCAAGCCGATGTATCGCACCACCACCGGTCTGGCGCTGAAGAAAACCGCCCAGGAGCTGGACAAAGCGGTGGCTGAAGCCAAACCGTACCAGCCTTCCGGTAAACCTCAGGCTGCTGGCGAAGGTAAAAAAGAGTCGGCGGGCGCCTACCGCCACCTGCTGACCGGCGTCTCCTACATGCTGCCGATGGTGGTGGCGGGCGGCCTGTGTATCGCGCTCTCCTTTGCCTTCGGGATCAAAGCGTTTGAAGTGAAAGACACCCTCGCGGCGGCGCTGATGCAAATCGGCGGCGGCTCGGCCTTCGCGCTGATGGTGCCGGTGCTGGCGGGCTTTATTGCCTTCTCCATTGCCGACCGTCCGGGTCTGACCCCGGGTCTTATCGGCGGTATGCTGGCGGTCAGCGGCGGCTCCGGCTTTATCGGCGGGATCATTGCCGGTTTCCTTGCCGGTTACGTGGCGAAAGCCATCAGCACTAAGCTGAAACTGCCGCAGAGTATGGAAGCGCTGAAGCCGATACTGATCATTCCGCTGGTCTCCAGCCTGATCGTGGGCCTGGCGATGATCTACCTGATTGGTAAACCGGTCGCCGGTATCCTCGCCTGGCTGACCCACTGGCTGCAAACCATGGGCACCGCCAACGCGGTTCTGCTGGGCGCGATCCTCGGCGCGATGATGTGTACCGACATGGGCGGCCCGGTGAACAAAGCGGCCTATGCCTTCGGCGTTGGCCTGCTGAGTACCCAGACCTACGCGCCGATGGCGGCGATCATGGCGGCCGGTATGGTGCCTCCGCTGGCGATGGGTATCGCGACGCTGGTTGCCCGCAATAAGTTCGACAAAGGGCAGCGGGAAGGGGGTAAAGCCGCGCTGGTTCTCGGCCTGTGCTTTATCTCTGAAGGGGCGATTCCTTTTGCCGCCCGTGACCCGATGCGCGTGCTGCCTTGCTGTATCGTCGGCGGCGCGGTAACCGGCGCTATCTCGATGGCGATTGGCGCGAAACTGATGGCGCCGCACGGCGGGCTGTTTGTTCTGCTGATCCCGGGGGCGATTACGCCAGTGCTGGGCTACCTGCTGGCGATTATTGCCGGGACGCTGGTGGCGGGCCTCTCCTACGCGGTGCTGAAACGCCCGGAAGCGCAAGTAGCGGAAGTCGAAAAAGCGGCATAA	MKTLLIIDAGLGQARAYMAKTLLGAAAPKAHLELIDNPNDAELVIVLGSALPTDSALNGKQVYLGDINRAVAHPELFLSEAKGHATPYAVPAAAAVPAATGGPKRIVAVTACPTGVAHTFMAAEAIETEAKKRGWWVKVETRGSVGAGNAITPEEVAEADLVIVAADIEVDLAKFAGKPMYRTTTGLALKKTAQELDKAVAEAKPYQPSGKPQAAGEGKKESAGAYRHLLTGVSYMLPMVVAGGLCIALSFAFGIKAFEVKDTLAAALMQIGGGSAFALMVPVLAGFIAFSIADRPGLTPGLIGGMLAVSGGSGFIGGIIAGFLAGYVAKAISTKLKLPQSMEALKPILIIPLVSSLIVGLAMIYLIGKPVAGILAWLTHWLQTMGTANAVLLGAILGAMMCTDMGGPVNKAAYAFGVGLLSTQTYAPMAAIMAAGMVPPLAMGIATLVARNKFDKGQREGGKAALVLGLCFISEGAIPFAARDPMRVLPCCIVGGAVTGAISMAIGAKLMAPHGGLFVLLIPGAITPVLGYLLAIIAGTLVAGLSYAVLKRPEAQVAEVEKAA	PGPT0017120_1976	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
BMS020_01273	939	lacC_1		Tagatose-6-phosphate kinase	ATGAGCAGACGTGTAGCAACCATTACTTTAAACCCGGCGTACGATCTGGTGGGCTTCACCCCGGAGATCGAGCGCGGTGAAGTGAACCTGGTGCGTACCACCGGCCTGCACGCCGCCGGGAAAGGCATCAACGTGGCGAAAGTGCTGAAAGATCTTGGCATTGACGTCACCGTCGGCGGCTTCCTGGGGAAAGACAACCAGGATGGCTTTCAGCAGCTGTTCAGCGAGCTGGGGATCGCCAACCGTTTCCAGGTGGTGCAGGGTCGGACCCGCATCAACGTTAAGCTGACGGAAAAAGATGGCGAAGTGACCGATTTCAACTTCTCCGGCTTTGAAGTCACCCCAGGCGACTGGGAACGCTTCGTCAACGACTCCCTGAGCTGGCTGGGGCAGTTCGATATGGTCTGCGTCAGCGGCAGCCTGCCGTCCGGCGTCAGCCCGGAAGCCTTTACCGACTGGATGACCCGTTTGCGCAGCCAGTGCCCGTGCATCATTTTCGACAGCAGCCGCGAAGCGCTGGTTGCCGGACTGAAAGCGGCGCCGTGGCTGGTGAAACCGAACCGTCGCGAGCTGGAGATCTGGGCTGGCCGTAAGCTGCCGGAGATGAAAGACGTTATCGACGCCGCCCATGCGCTGCGCGAGCAGGGGATCGCCCACGTGGTGATTTCCCTAGGCGAAGAGGGCGCGCTGTGGGTGAACGCCTCCGGCGAGTGGATTGCCAAACCGCCTTCAGTCGAAGTGGTCAGCACCGTTGGCGCCGGCGATTCGATGGTCGGCGGCCTGATTTACGGCCTGCTGATGCGTGAATCCAGCGAGCATACCCTGCGCCTGGCGACCGCCGTCGCTGCCCTGGCCGTCAGCCAGAGCAACGTCGGGATCACCGACCGTACCCAGTTGGCCGCGATGATGGCGCGCGTCGACTTACAACCCTTTAATTGA	MSRRVATITLNPAYDLVGFTPEIERGEVNLVRTTGLHAAGKGINVAKVLKDLGIDVTVGGFLGKDNQDGFQQLFSELGIANRFQVVQGRTRINVKLTEKDGEVTDFNFSGFEVTPGDWERFVNDSLSWLGQFDMVCVSGSLPSGVSPEAFTDWMTRLRSQCPCIIFDSSREALVAGLKAAPWLVKPNRRELEIWAGRKLPEMKDVIDAAHALREQGIAHVVISLGEEGALWVNASGEWIAKPPSVEVVSTVGAGDSMVGGLIYGLLMRESSEHTLRLATAVAALAVSQSNVGITDRTQLAAMMARVDLQPFN	PGPT0017580_1113	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
BMS020_01274	1131	fruB_2	COG1925	Multiphosphoryl transfer protein	ATGTTCCAGTTATCTGTGCAGGATATTCATCCCGGCCAGCAGGCCGGTAATAAAGAAGAGGCCATCCGGCAGGTCGCCGCCGCGCTGGTCAGCGCCGGCAACGTGGCCGATGGCTACGTGAACGGCATGCTGGCGCGCGAGCAGCAGACCTCCACCTTCCTCGGCAACGGGATCGCGATCCCGCACGGCACGACGGATACGCGTGACCAGGTGCTGAAGACCGGCGTTCAGGTGTTTCAGTTCCCGCAGGGCGTCACCTGGGGCGAAGGGCAGACCGCCTATGTGGCGATCGGGATTGCCGCCAGCTCAGATGAACACCTCGGCCTGCTGCGTCAGCTGACCCATGTGCTGAGCGATGACGCGGTCGCCGCCCAGCTGCAGTCCGCCACCACCGCGGAAGAGCTGCGTGCGCTGCTGATGGGGGAGAAGCAGAGCGAAGCGCTGAAGCTGGACAACGAGACCCTGAGTCTCGACGTCGCGGCCAGCGATCTGCTGACCCTGCAGGCGCTGAACGCCGCGCGTCTGAAAGAAGCAGGCGCTGTGGATTCCGCCTTCGTTAGCCACGTCATTAACGATACGCCGCTGAACCTCGGTCAGGGCATCTGGCTGAACGACAGCGCCGAAGGCAATCTGCGCAGCGCCGTGGCGGTCAGCCGCGCCGCCACCGCCTTCACCCGCGACGACCAGCCGGTTTCCCTGTTGGTTACGGTGGCGATGACCGACGATCAGCCAACCGCGGTGCTGAACCGCCTGAGCAAGCTGCTGCTGGACAAGAAAGCTGACCATCTGCTGAAAGCCGACGCCGCCACCGTGCTGGCGCTGCTGACCAGCGACGACGCGATTGCCGAAGATGTGCTGAGCGCCGAATTCGTGGTGCGCAATGAGCACGGTCTGCATGCCCGTCCGGGCACCATGCTGGTCAACACCATTAAACAATTTTCCAGCGACGTCACCGTCACTAACCTCGACGGTTCCGGCAAGCCGGCCAACGGCCGCAGCCTGATGAAGGTCGTGGCGCTGGGTGTGAAAAAAGGTCACCGTCTGCGCTTTACCGCGCAGGGTGAGGATGCGCAACAAGCGCTGGATGCGATTGGCGAAGCGATCGCCGCAGGCCTTGGGGAGGGCGCATAA	MFQLSVQDIHPGQQAGNKEEAIRQVAAALVSAGNVADGYVNGMLAREQQTSTFLGNGIAIPHGTTDTRDQVLKTGVQVFQFPQGVTWGEGQTAYVAIGIAASSDEHLGLLRQLTHVLSDDAVAAQLQSATTAEELRALLMGEKQSEALKLDNETLSLDVAASDLLTLQALNAARLKEAGAVDSAFVSHVINDTPLNLGQGIWLNDSAEGNLRSAVAVSRAATAFTRDDQPVSLLVTVAMTDDQPTAVLNRLSKLLLDKKADHLLKADAATVLALLTSDDAIAEDVLSAEFVVRNEHGLHARPGTMLVNTIKQFSSDVTVTNLDGSGKPANGRSLMKVVALGVKKGHRLRFTAQGEDAQQALDAIGEAIAAGLGEGA				NA	NA	NA	NA	NA
BMS020_01275	1182	setB		Sugar efflux transporter B	ATGGAAAACCGAAGCGCCGCCCTTCCCCGACGCGGGTTCGATGTCACCTCTTCCGCCTTCCTGATCGTCGCCTTTCTGACGGGCATTGCCGGGGCGTTGCAGACGCCGACCCTGAGCCTGTTTCTGACCAATGAAGTGCATGTCCGCCCGGCGATGGTGGGTTTCTTTTTTACCGGCAGCGCCGTCATCGGCATTCTGGTCAGCCAGTTCCTCGCCGGACGTTCTGACCGTCAGGGCGATCGCAAGCAGCTGATTGTCGTCTGCTGCCTGCTGGGGGTGCTGGCCTGCGTGCTGTTTGCCTGGAACCGGAACTATTTCATTTTGCTGTTCATCGGCGTATTCCTTAGCAGCTTTGGTTCGACCGCCAACCCGCAGATGTTCGCCCTCGCGCGCGAGCATGCCGACAAAACCGGCCGCGAAGCGGTGATGTTCAGCTCCATTTTGCGCGCCCAGGTCTCCCTGGCATGGGTGATTGGTCCCCCGCTGGCCTATGCGCTGGCGATGGGATTTGGCTTTACCGCGATGTACCTCAGCGCCGCGGCGGCGTTTATCGTCTGCGGGATCATGGTCTGGCTGTTCTTGCCCAGCATGCGCAAAGCCAAGGCGGTGGCGACTGGCCGGCTGGAAGCCCCGCGCACGCACCGCCGCGATGCGCTGCTGCTGTTCAGCATCTGCACGCTGATGTGGGGCACCAACAGCCTGTACATCATTAATATGCCGCTGTTTATCATTGACGAGCTGCATCTGCCGGAGAAGCTGGCCGGCCTGATGATGGGGACCGCCGCCGGGCTGGAAATTCCCACCATGCTGATTGCCGGTTACTGCGCCCGGCGCTTCGGTAAACGCTTTCTGATGCGCCTTTCCGCGGTGGCTGGGGTGCTGTTTTATGTGGGCATGCTGACGGTGCATACGCCGGCGCTGCTGCTGGCGATGCAGGTGCTGAACGCCATCTATATCGGGATCCTCGCCGGGATTGGCATGCTTTATTTCCAGGATTTGATGCCCGGGCAGGCGGGCGCAGCCACCACCCTCTACACCAATACCACCCGCGTCGGCTGGATCATCGCCGGCTCACTGGCGGGCGTAGTGGCAGAGATCTGGAGCTATCATGCGGTGTTCTGGATAGCGCTGGTTATGGGGATCGCCACGCAGGCCTGCCTGTGGCGGATCAGAGACGTATAG	MENRSAALPRRGFDVTSSAFLIVAFLTGIAGALQTPTLSLFLTNEVHVRPAMVGFFFTGSAVIGILVSQFLAGRSDRQGDRKQLIVVCCLLGVLACVLFAWNRNYFILLFIGVFLSSFGSTANPQMFALAREHADKTGREAVMFSSILRAQVSLAWVIGPPLAYALAMGFGFTAMYLSAAAAFIVCGIMVWLFLPSMRKAKAVATGRLEAPRTHRRDALLLFSICTLMWGTNSLYIINMPLFIIDELHLPEKLAGLMMGTAAGLEIPTMLIAGYCARRFGKRFLMRLSAVAGVLFYVGMLTVHTPALLLAMQVLNAIYIGILAGIGMLYFQDLMPGQAGAATTLYTNTTRVGWIIAGSLAGVVAEIWSYHAVFWIALVMGIATQACLWRIRDV	PGPT0017195_451	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_OTHER_SUGAR_TRANSPORT_RELATED_PROTEINS,PGPT0017195-MFS_SET-K03291	NA	NA
BMS020_01276	1137	yiaV_1	COG1566	Inner membrane protein YiaV	ATGGATCTGTTAATTATCCTTTGCTATGTCGCCATTGCCTGGGGAGTGTTTAAGATATTTCGCATTCCAGTAAATAAATGGACAATCCCGACAGCGATATTAGGCGGAATAGTGGTCGTTGGCGCGTTAATATTAACGATGAACTATAACCACCCCTATACGATGCGAGCGCAAAAAATTGTCGTCTCCATTCCGATGGTGCCCCAGGTATCAGGCGAGGTGGTGGAGGTTACCAGTAAAACCAATGTGTTAATGAAGAAGGGCGAACTGCTGTTCCGCATCGACGATACCCGCTACCGCGCGCGGCTGAACAAGCTGAAAGCCGATCTGGCGGCCGAAGAGGCCACGCTGCGGGCGAAGCAGGCGACCATTGACGATGCCCGTGCCAGAGTACAGCAGGCGCAGGCGGAGTACGACCGGGTCACCCGTGACAACCAGCGCTATGCTCAGGGGGTGGCCATGCCGGTGAATCCTTTTTCGGAACAGGATGTGACGCACGCCAGGCAGCAGGTGCAGATCCAGGCGGCGGTCCTGCAGGCGGCGAAAGCGCAATTACAAAACGCCAGAGAGCAGGTGTCCGGCCGCTACCACGGGCTGGATGCCAATATTGCCAGCCTGAAATCGCAGATCCTTGAGGCGGAGTATAATCTGGCGCAAACCGTGGTTCGCGCGCCGAGCGACGGCTACGTCACCCAGCTTCTGGCGCGGCCGGGGATGACCGCGGTGCGTCTGCCCTTCAAGCCGGTGCTGGTGTTTATTCCCCAGCAAAAGCGCCAGGTGGTGGCGGTATTCCGTCAGAACTCGGTCCTGCGTCTGACGGCCGGGGACAGCGCGGAGGTGGTGTTTAATGGTCTGCCGGGCAGCGTCTACAGTGGTAAGGTATCGCGCGTGTTGCCGACCGTCCCGGACGGCAGTTACCAGGCCAGCGGCGCGCTGCAGGGGCTGAACGCCGGGGCGGGGAAAGAGGGCATTTACGTGCTGATCGACCTCGATCCCCATCCGGAAGTGGAACATTTACCGGACGGGGTCAGCGCCCAGGCGGCGGTATATACCGATTATTTTGCCCATGTGTCGATTATGCGCAAGGTGCTGCTGCGCATGACCAGCTGGCTGCATTATCTCTATTTGGATCACTAA	MDLLIILCYVAIAWGVFKIFRIPVNKWTIPTAILGGIVVVGALILTMNYNHPYTMRAQKIVVSIPMVPQVSGEVVEVTSKTNVLMKKGELLFRIDDTRYRARLNKLKADLAAEEATLRAKQATIDDARARVQQAQAEYDRVTRDNQRYAQGVAMPVNPFSEQDVTHARQQVQIQAAVLQAAKAQLQNAREQVSGRYHGLDANIASLKSQILEAEYNLAQTVVRAPSDGYVTQLLARPGMTAVRLPFKPVLVFIPQQKRQVVAVFRQNSVLRLTAGDSAEVVFNGLPGSVYSGKVSRVLPTVPDGSYQASGALQGLNAGAGKEGIYVLIDLDPHPEVEHLPDGVSAQAAVYTDYFAHVSIMRKVLLRMTSWLHYLYLDH				NA	NA	NA	NA	NA
BMS020_01277	345	yiaW_1		Inner membrane protein YiaW	ATGCTGCTTAATTATTTTGCTTTGTTTGTATTAATACTGGTTTTTCTCATACTGTTTTATGGAGTTATTATTATCCACGATATTCCCTATCACATCGCGCAAAAACGCCAGCACCCCCATCAGGACGCGATTCATGTGGCGGGCTGGATAAGCCTGTTTACCCTGCATGCTATCTGGCCTTTCCTGTGGATCTGGGCCACGCTGTACCGGCCCGATCGTGGCTGGGGGATGGCTTCGCAGTCCGAGGGACATCAGCAGCGAGCGGAGCTGGAGAAACGCATTGCGTTACTTGAAGCGGCGTTAAAAAACAGCCAGCAGGCGTCGGCGGAGAATAGCGAGAAATAA	MLLNYFALFVLILVFLILFYGVIIIHDIPYHIAQKRQHPHQDAIHVAGWISLFTLHAIWPFLWIWATLYRPDRGWGMASQSEGHQQRAELEKRIALLEAALKNSQQASAENSEK				NA	NA	NA	NA	NA
BMS020_01278	933	pgrR_4		HTH-type transcriptional regulator PgrR	ATGTTGAAAGACTTTAAAATGGATGAGCTAAGGATCCTCTGCGCCATCGCCGAAACCGCCAGCGTAAGCCGGGCAGCACAGCGCCTGAATATGCCCCAGTCTAACGTCTCACGGACGCTGACCAGCGTGGAGCGGAAAGTCGGCCTGGCCATTTTTCTGCGCACCGCCAGGGAACTGGTGCGTACCGAGTTCGGCGAGCAGTTTATTCACGCCAGCAGCGCCGTTCTTGAGCAGCATGAGCAGCTTATCAACCTCGCCGACCGTTATAAAAACACGCTGCAGGGCGTCGTCACCCTTGGGGCGCCCATCGGCATCCACCAGTTTCTCGGGCGCTATATTCTGCCGGCGCTAAGAAAAACGCTGCCGGAGCTGCAGATCAATCTGGTCACCCGCAACGCCAGCGAGCGGGAACAGAAATACGGCGCCATTTTCAATAGCGACTGCGATCTGCTGATAAGCCCCTTTAAGCCACAGAATGAAAACCTTATCGCTCGCCCCTTCACCCGCTTTCGCACCGGCGTCTTCGCCTCCCCGGATTACCTGGCGCAACACCCTATCGCCGAGCCGGAGGCGCTGGTGGATCATGAGTGCATCACCCTGCGCATGCTGGGCGGCAGCGACAATATCTGGACCTTCAAAAGCAAAAACGGCAAACCGCTCATTCTCACGGTAAAGGGGGGATTCGTGTGCGATAACACGCTGCCGGCGGTGGAGCTGGCGAAGCTGGGGATGGGGATCGTTTATGCGCCCTACTATTCACTCGCCACCGAGCTGGCGGCAGGACAGCTGGTTCCCTGTCTGAAGAAGGAGCGCTGTATCGATCTGCAGGCCTGGCTTATCTACCAGCGACGGGACATTCTTCCGCTACGCGTCCAGGCGCTGCTGGACGGCCTCAGCGTCCATATCAAAAACCTGTCTCATTTGCTGCTTTAA	MLKDFKMDELRILCAIAETASVSRAAQRLNMPQSNVSRTLTSVERKVGLAIFLRTARELVRTEFGEQFIHASSAVLEQHEQLINLADRYKNTLQGVVTLGAPIGIHQFLGRYILPALRKTLPELQINLVTRNASEREQKYGAIFNSDCDLLISPFKPQNENLIARPFTRFRTGVFASPDYLAQHPIAEPEALVDHECITLRMLGGSDNIWTFKSKNGKPLILTVKGGFVCDNTLPAVELAKLGMGIVYAPYYSLATELAAGQLVPCLKKERCIDLQAWLIYQRRDILPLRVQALLDGLSVHIKNLSHLLL				NA	NA	NA	NA	NA
BMS020_01279	189			hypothetical protein	ATGCCGCAGGGCAAGCCGGCCAATACCCGCTGTATTCAGCTCTCCGAGCACAATCTGTGCCTGATTTTCGGCTCCCCATTGCGTCCGAAGGTGTGCGCCAGCCTGCAGCCCTCGCCGGAGATGTGCTTCACTCATCGTGATGACGCCATCACCTGGCTGCTGGAGCTTGAGCTGGCCACCGCGCCCTGA	MPQGKPANTRCIQLSEHNLCLIFGSPLRPKVCASLQPSPEMCFTHRDDAITWLLELELATAP				NA	NA	NA	NA	NA
BMS020_01280	573	yeiP_1	COG0231	Elongation factor P-like protein	ATGCCAAGAGCGAATGAAATTAAAAAAGGTATGGTGCTGAATTACAACGGCAAGCTGCTGATTGTGAAAAATATCGATATTCAGTCACCCAGCGCCCGCGGTGCTGCGACACTGTATAAAATGCGCTTCTCCGATGTGCGTACCGGCCTGAAAGTAGAAGAGCGCTTCAAAGGCGACGATATCGTCGATACCGTGACCCTGACCCGCCGTTTCGTTGACTTCTCCTATGTCGATGGCAACGAATACGTGTTCATGGATAAAGAAGACTACACCCCTTACACCTTCACGAAAGAGCAGATCGAAGAAGAGCTGCAGTTTATTCCGGAAGGCGGCATGCCGGATATGCAGGTGTTGACCTGGGACGGCCAGCTGCTGGCGCTTGAGCTGCCGCAGACCGTGGACCTGGAAATTATCGAAACCGCGCCGGGTATTAAAGGGGCATCCGCCAGCTCCCGCACCAAGCCTGCCACCATGAGCACCGGCCTGGTGATTCAGGTGCCGGAATACCTGACCACAGGTGAGAAAATCCGCATTCATATCGAAGAGTGCCGCTATATGGGCCGCGCGGATTAA	MPRANEIKKGMVLNYNGKLLIVKNIDIQSPSARGAATLYKMRFSDVRTGLKVEERFKGDDIVDTVTLTRRFVDFSYVDGNEYVFMDKEDYTPYTFTKEQIEEELQFIPEGGMPDMQVLTWDGQLLALELPQTVDLEIIETAPGIKGASASSRTKPATMSTGLVIQVPEYLTTGEKIRIHIEECRYMGRAD	PGPT0016205_594	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016205-efp-K02356	NA	NA
BMS020_01281	1191	uxuA_1	COG1312	Mannonate dehydratase	ATGGAGCAAACCTGGCGGTGGTATGGGCCGAACGATCCGGTATCGCTTGATGATGTACGACAGGCGGGGGCGACCGGGGTCGTCACTGCGCTGCACCATATTGCAAACGGTCAGGTCTGGCCGGTCGACGAGATTAAAGAGCGTCAGGCGCTGTTAGCGGCGAAAGGGCTGACCTGGTCGGTGGTCGAAAGCATTCCGGTGCACGAGGATATTAAAACCCACAGCGGGCAGTATGCGACCTGGATTGCCAACTATCAGCAGAGCATCCGCAACCTCGCGGCCTGCGGCATCGATACCGTATGCTACAACTTTATGCCGATCCTCGACTGGACGCGCACCGATCTGGAATATGAGCTGCCGGACGGCTCCCGGGCGCTGCGTTTCGATCAGATCGCCTTCGCCGCCTTTGAACTGCATATCCTCAAACGCCCGGGGGCGGAAGCGGATTACAGCGAAGAAGAGCAGCGCCAGGCCGAGGCGTATTACAAGGCGATGAGCGAAGCGGACATTGAGAAACTGACCCGCAATATCATCGCCGGCCTGCCAGGGGCGGAAGAGGGCTACACCCTCGACCAGTTCCGCGCGCGCCTGGCGGAATATGACCACATCGATAAAGCGCAGCTGCGCGAAAATATGGCCTATTTCCTGCGGGCCATCGTACCGGTGTGCGAAGAGGTGGGGATCCGACTGGCAGTGCATCCGGACGATCCGCCGCGGCCGATCCTGGGCCTGCCGCGTATCGTATCGACCATCGAAGATATGCAGTGGCTGAAAGAGACAGTGGACAGCATCAATAACGGCTTTACCATGTGCACCGGATCCTATGGCGTCCGCGCCGATAACGATCTGGTGAAGATGGTGGAGACCTTTGGCGATCGCATCCACTTTACCCATCTGCGCGCCACCTGCCGCGAGGCGAACCCGAAAACCTTCCACGAGGCGGCGCACCTTAGCGGCGACGTCAATATGGTGGCGGTGGTGGATGCGATTCTGCGTGAAGAGCAGCGGCGTAAACAGGCCGGCGATCTGCGCCCGATCCCGTTCCGTCCGGATCATGGTCATCAGATGCTGGACGATCTGCGCAAGAAAACCAACCCAGGCTATTCGGCGATTGGCCGTCTCAAGGGGATGGCGGAAGTGCGCGGCGTGGAGCTGGCGCTGAAGATGACCAAATACCCTGAACTGCTGTAA	MEQTWRWYGPNDPVSLDDVRQAGATGVVTALHHIANGQVWPVDEIKERQALLAAKGLTWSVVESIPVHEDIKTHSGQYATWIANYQQSIRNLAACGIDTVCYNFMPILDWTRTDLEYELPDGSRALRFDQIAFAAFELHILKRPGAEADYSEEEQRQAEAYYKAMSEADIEKLTRNIIAGLPGAEEGYTLDQFRARLAEYDHIDKAQLRENMAYFLRAIVPVCEEVGIRLAVHPDDPPRPILGLPRIVSTIEDMQWLKETVDSINNGFTMCTGSYGVRADNDLVKMVETFGDRIHFTHLRATCREANPKTFHEAAHLSGDVNMVAVVDAILREEQRRKQAGDLRPIPFRPDHGHQMLDDLRKKTNPGYSAIGRLKGMAEVRGVELALKMTKYPELL	PGPT0018270_316	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
BMS020_01282	1467	por_2	COG0246	Polyol:NADP oxidoreductase	ATGACAACAATTGCAACCGCTACGCTACCGGAAAACGTGCAACGTCCTCAGTACGATCGCAGCCAGCTCCGCTCGCGTATTGTCCATTTCGGCTTTGGCGCGTTTCATCGCGCGCACCAGGCGCTGCTGACCGATCGCGTGCTGAATAACATCGGCGGCGACTGGGGGATCTGCGAAATCAGTCTGTTCAGCGGCGATACGCTGATGAGCCAGCTTCGCGAACAGGACCACCTGTTTACCGTACTGGAAAAAGGCGCCGACGGTAATCAGCCCATTGTTATCGGCGCGGTACACGAATGCCTGAACGCCAGGCTCGATTCGCTGGCGGCGATTATCGAGAAATTTTGCGAGCCGCAGGTAGCGATTGTCTCACTGACTATCACGGAAAAAGGCTATTGCATCGATCCGGCGACCGGCAAGCTGGATCCGACGCATCCGCGTATCGTTCACGATCTGGAAAATCCGACGCTGCCGCAGTCGGCTCCCGGTATTTTAGTTGAAGCGCTGGCCCGCCGCCGGGAACGGGGCCTGCCGCCCTTTACCGTGCTCTCCTGCGATAACATTCCCGACAACGGCCACGTGGTGAAAAATGCCGTCCTCGGCATGGCGGAAAAACGCGGTCCGGCGCTGGCGAGCTGGATCGCCGACAACGTTAGCTTCCCGGGCACCATGGTGGATCGCATTGTTCCCGCCGCCACCGCGGAGTCGCTGGCGGAAATCGCCGCCGTGCTGGGGGTGGAAGATCCCTGCGCCATCAGCTGCGAACCCTTCATTCAGTGGGTGGTCGAAGACCACTTTGTCGCCGGGCGCCCCGCCTGGGAGACGGCGGGCGTGCAGATGACCGACGACGTGCTGCCCTGGGAGCAGATGAAGCTGCGGATGCTCAACGGCAGCCACTCTTTCCTCGCCTGGCTTGGCTATCTGGCAGGTCATGCGCACGTCAGCGACTGCATGCAGGATGAGGTCTTCCGCCGCGCCGCCCGCCAGCTGATGCTTGACGAACAGGCCCCGACGCTGACCATTACCGGCGTCGATCTGGCGGCCTATGCCGACAGCCTGATCGCGCGCTTCAGCAACCCGGCGCTCAAACACCGTACCTGGCAAATCGCCATGGACGGCAGCCAGAAGCTGCCCCAGCGTATGCTCGACGGTATTCGCGTGCATCTTGAGCGCGGCAGCCGCTGGCCGCTGCTGGCCCTCGGCGTAGCCGGCTGGATGCGCTACGTCAGCGGTACGGACGATGCCGGTCAGGCCATCGACGTCCGCGATCCGCTGGTGGACAAGATCCAGCAGCGGGTGGCGCAGAGCGATGAGCAGCAGCGCGTTGACGCCCTGCTGGGTCTGGAGGAAATATTTGGCCGCGACCTGCCGCGCAACGCGCAGTTTGTCGCCGGGATCCGCGCCGCCTGGCAGCAGCTGGCGATGCACGGCGCCCGCGAGGCGGTTGCCCGCGCGCTCAATTCTTAA	MTTIATATLPENVQRPQYDRSQLRSRIVHFGFGAFHRAHQALLTDRVLNNIGGDWGICEISLFSGDTLMSQLREQDHLFTVLEKGADGNQPIVIGAVHECLNARLDSLAAIIEKFCEPQVAIVSLTITEKGYCIDPATGKLDPTHPRIVHDLENPTLPQSAPGILVEALARRRERGLPPFTVLSCDNIPDNGHVVKNAVLGMAEKRGPALASWIADNVSFPGTMVDRIVPAATAESLAEIAAVLGVEDPCAISCEPFIQWVVEDHFVAGRPAWETAGVQMTDDVLPWEQMKLRMLNGSHSFLAWLGYLAGHAHVSDCMQDEVFRRAARQLMLDEQAPTLTITGVDLAAYADSLIARFSNPALKHRTWQIAMDGSQKLPQRMLDGIRVHLERGSRWPLLALGVAGWMRYVSGTDDAGQAIDVRDPLVDKIQQRVAQSDEQQRVDALLGLEEIFGRDLPRNAQFVAGIRAAWQQLAMHGAREAVARALNS	PGPT0018275_794	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018275-uxuB-K00040	NA	NA
BMS020_01283	978	yeiR	COG0523	Zinc-binding GTPase YeiR	GTGACCAGAACCAATTTGATCACCGGCTTTCTCGGCAGCGGTAAGACGACCTCGATTCTTCATCTGCTGGCGCAGAAGCCTGCGGATGAAAAATGGGCCGTACTGGTTAACGAGTTTGGCGAAGTCGGGATAGACGGCGCCCTGCTGGCCGACAGCGGCGCCCTGCTCAAGGAGATCCCCGGCGGTTGCATGTGCTGTGTCAATGGCCTGCCGATGCAGGTCGGGCTGAATACCCTGCTGCGCCAGGGGAAACCCGATCGTCTGTTGATTGAGCCCACCGGACTTGGCCATCCAAAGCAGATCCTCGATATCCTCACCGCGGCGGTGTATGAACCCTGGATCGATCTGCGCGCGACCCTGTGCATTCTCGATCCGCGTCAGCTACTGGACGAGAAAGCGGTCAACAACGACAACTTTCGCGACCAGCTGGCGGCGGCGGATATCATCGTGGCCAATAAAAGCGATCGGGAAACGCCCGAAAGCGCTCAGGCGTTTGTCGACTGGTGGCAACGCTGGGGCGGCGATCGCCGCCAGGTGTCGGCGACCCAGGGTAATATCGACCTGGCCCTGCTTGATGAACCGCGGCGCAATACCGCCCCGCTGCCGGCGAGCGCGGAGCACGCCCACCGCCATCCCCCCACAGCCGGTCTCGCCGCCCTTAGTCTGGCGGAACACCAGCGCTGGCGCCGCCACCTTAACAGCGGCCAGGGCTATCAGGCCTGCGGCTGGATCTTCGACGCGGAAACGGTCTTTGACACCATCGCCCTGCTGGAGTGGGCCCGGCTGGCGCCGGTGGCGCGCGTCAAAGGTGTGCTGCGCATTGCCGAAGGGGCGGTGCGGATCAACCGCCAGGGCGAGGATCTGCATATCGAGACCCTTAGCGTCGCCCCGCCCGATAGCCGCATCGAGCTTATCTCCGCCCATGAAGCCGACTGGAACGCGCTCCAGACCTCATTGTTGAGGCTTCGTTTAAGTTAA	MTRTNLITGFLGSGKTTSILHLLAQKPADEKWAVLVNEFGEVGIDGALLADSGALLKEIPGGCMCCVNGLPMQVGLNTLLRQGKPDRLLIEPTGLGHPKQILDILTAAVYEPWIDLRATLCILDPRQLLDEKAVNNDNFRDQLAAADIIVANKSDRETPESAQAFVDWWQRWGGDRRQVSATQGNIDLALLDEPRRNTAPLPASAEHAHRHPPTAGLAALSLAEHQRWRRHLNSGQGYQACGWIFDAETVFDTIALLEWARLAPVARVKGVLRIAEGAVRINRQGEDLHIETLSVAPPDSRIELISAHEADWNALQTSLLRLRLS				NA	NA	NA	NA	NA
BMS020_01284	708	lpxT	COG0671	Lipid A 1-diphosphate synthase	ATGATGAAAAACCGAATTCCTTTAATCCTGCTGCTTAACATCGCGGGTGTGGCGCTATTTTGCTCCTGGTATCTGCCAGCCAACCACGGCGCGTGGGCGCCGGTAGACGCCGCGATCTTCCATTTCTTTAACCATGGCGTCAGCGTCAGCCGCGCTTACGCCTGGCTGCTGGCGATCATCAACAATCGCGCCTTCGACGCCTGCTCGCTGCTGGCGATGGGTTGCCTGATGCTCAGCTACTGGCTCAAGGCGCCGGCGGCAGGCCGTCGTCAGATCGCTATTATGGGCGTGGTAATGCTGCTGGCGGCGGTGATCATCAACCAGCTGGCGCAGCACCTGATGCCGGTTCAGCGCGCCAGTCCGTCGCTGTTTTTCAGCGATGTCACCCGCGTCAGCGACGTCGTTAACTTCCCCACTAAGGATGCTTCCAAGGACAGCTTCCCCGGCGATCATGGGATGATGCTGCTGATCTTCGCGAGCTTTATGTGGCGCTATTTTGGCCGCCGCGCGCTGACCGTGGCGCTGGTGATATTTGTGGTCTTTGCTTTCCCGCGGGTGATGATTGGCGCCCACTGGTTCAGCGATATTGCCGTCGGCTCTCTGACCGCCGTGCTGATTGGCGCGCCCTGGGTATTGATGACGCCGCTGAGCGATAAACTGATCGCCTTTTTCGATCGCTACTTACCCGGCGGAATATCGGCCAAATAA	MMKNRIPLILLLNIAGVALFCSWYLPANHGAWAPVDAAIFHFFNHGVSVSRAYAWLLAIINNRAFDACSLLAMGCLMLSYWLKAPAAGRRQIAIMGVVMLLAAVIINQLAQHLMPVQRASPSLFFSDVTRVSDVVNFPTKDASKDSFPGDHGMMLLIFASFMWRYFGRRALTVALVIFVVFAFPRVMIGAHWFSDIAVGSLTAVLIGAPWVLMTPLSDKLIAFFDRYLPGGISAK	PGPT0022390_171	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022390-lpxT-K19803	NA	NA
BMS020_01285	390	mepS_2	COG0791	Murein DD-endopeptidase MepS/Murein LD-carboxypeptidase	ATGGTCCGTAACCTGGACGTGAAGTCCCGTTTAATGGATCAGTATGCCAGCTGGAAAGGCGTGCGTTACCGCCTCGGCGGCAGCACTCGCAAAGGTATCGACTGCTCGGCGTTCGTGCAGCGCACCTTCCGCGAACAATTTGGTCTGGAACTGCCGCGTTCAACTTCTGAACAGCAGGAAACCGGAAAATCGATTTCCCGTACCCAGCTGCGTACTGGCGATCTGGTTCTGTTCCGCGCCGGCTCTACCGGCCGCCATGTCGGGATCTACCTCGGCAACAACCAGTTTGTTCACGCCTCTACCAGCAGCGGAGTGACCATCTCCAGCATGGATGAGCCATACTGGAAAAAGCGCTACAACGAAGCGCGTCGAGTCCTGAGCCGCTCGTAA	MVRNLDVKSRLMDQYASWKGVRYRLGGSTRKGIDCSAFVQRTFREQFGLELPRSTSEQQETGKSISRTQLRTGDLVLFRAGSTGRHVGIYLGNNQFVHASTSSGVTISSMDEPYWKKRYNEARRVLSRS	PGPT0023820_362	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
BMS020_01286	1563	pdeN	COG2200	putative cyclic di-GMP phosphodiesterase PdeN	ATGCTGACTCGCTACTTTTCGCCCCAGCGTAAAACCTGGCTAACCAGCCTGTGCGTGGGCATTATCGTCGCGCTATTGGCTGGCAGCATTCAATTTATGGTGATTTACCATAACCGGGCCGAGCGTTTCGACGCCATTATCAACAATGTTAATACCTATCTGAAAAGCTATTTTCACGACCTGCGCCAGACCATTGACGGCCTGCAGCCGCTGGTGGAGCAGCCCTGCGAGAATATTGACTCCGGGCTCACCTCCCACGCCGCGTTCAGCCCCAACGTCCGCGCTTTCCTGCTGGTCAAAAACGGCGTGGCCTTTTGCTCCTCGGCAACCGGCGCCATGAATACTCCCCTCACCCAGCTGATCCCGGCCATTGATATCCGCAAACCCCTTGATATGGCGATTTTGCCAGGCACGCCGATGATGCCGAAGAGCGCGGCGCTGGCGCTATGGGTAGGCAAACCCGGTGATGAAAACAGCGGCATTTTCGTGTCGATTAACGCCAATCTCACGCCGTATATCCTCTATTCCGCACGGCAGAATGATTTCAGCGGTATTGCGCTGGTCATCGGCCACACCGCTATCTCCACCTTCAGTAACCGGCTGGTGGATCCGCAAACGCTGCATAACGTGCCGATCCGCGAAGTGCAGATCGACGGTTTCCCCCTCAAGGTCTACCTGTATGCCAACAGCTGGCTGGCGGAAAATACGCAGTTTGCTCTGCTGCTCGGGGTGGTGTGCGGCCTGCTGGCGGGGCTGCTCTGCTATTACGTGCTGTCGATCAAATCCGATCCGCGAAAATCCATCCTGCTGGGGATCAAAAACAACCAGTTCTACGTCGTCTATCAGCCGGTGGTGAATGCCCAGACTCTGCGTATCAGCGGCGTGGAGGTCCTGATGCGCTGGCGCCATCCGGTGGTAGGCGAAATTCCGCCTGACGTCTTTATTCACCTCGCGGAAACCCAGCAGATGATCGTGCCGCTGACCGATCACCTGCTGGCGCTGATCGCCCGCGACGCGCCGGCGCTGAAGCGTATTCTGCCGCACGGCGTCAAGCTGGGGCTCAATATTTCCCCCGCCCATCTGCAGGCCGACAGCTTCCGCGACGATATGCTGCGCTTCGCCGCCGCGCTGCCCGCCGGCCATTTTCACGTGGTGCTGGAGGTCACAGAGCGGGCGATGATTGACAAAGAAAAATCGGTCGCTAACTTCGCCTGGCTGCACCAGCACGGTTTTGAAATCGCGATCGATGATTTTGGCACCGGGCATAGCGCGTTGATCTATCTCGAACGCTATAACTTCGATTATCTGAAGATCGATCGCGGCTTTGTGCAGGCGATCGGCACCGAAACCGTCACCTCGCCAGTGCTGGATGCGGTGCTGACCCTCAGCCGTCGGCTGAAATTGATGACCGTTGCCGAAGGGGTGGAGACCCAGGAGCAGGCGGAGTGGCTCCGCGCTCAGGGAGTGCATTTCCTGCAGGGGTACTGGATCAGCCGGCCGCTGTCGCTGGCGGCGCTGGTGGCCGCGCACGATGAACCCGCGAATTATTTCACAACGCGTTAA	MLTRYFSPQRKTWLTSLCVGIIVALLAGSIQFMVIYHNRAERFDAIINNVNTYLKSYFHDLRQTIDGLQPLVEQPCENIDSGLTSHAAFSPNVRAFLLVKNGVAFCSSATGAMNTPLTQLIPAIDIRKPLDMAILPGTPMMPKSAALALWVGKPGDENSGIFVSINANLTPYILYSARQNDFSGIALVIGHTAISTFSNRLVDPQTLHNVPIREVQIDGFPLKVYLYANSWLAENTQFALLLGVVCGLLAGLLCYYVLSIKSDPRKSILLGIKNNQFYVVYQPVVNAQTLRISGVEVLMRWRHPVVGEIPPDVFIHLAETQQMIVPLTDHLLALIARDAPALKRILPHGVKLGLNISPAHLQADSFRDDMLRFAAALPAGHFHVVLEVTERAMIDKEKSVANFAWLHQHGFEIAIDDFGTGHSALIYLERYNFDYLKIDRGFVQAIGTETVTSPVLDAVLTLSRRLKLMTVAEGVETQEQAEWLRAQGVHFLQGYWISRPLSLAALVAAHDEPANYFTTR				NA	NA	NA	NA	NA
BMS020_01287	1806			hypothetical protein	ATGTATGCGCGACTTTTTCTGCTTCTGCTTGCTCTGTTTAGCCTGAGCGCTAAAGCGCAATCCATTCAGGAAAGCGTCGCCTTCGCGATTATCGGCGAACCGAAATACGCCGCCGGTTTCAGCCATTTTGATTATGTTAATCCACAGGCGCCGAAAGGCGGCACCCTCACCCTGGCGGCGATTGGCACCTTTGACAACTTCAACCGCTACGCGCTGCGCGGCAATCCCGCGGTACGCACTGAAGCGCTCTACGATCCCCTGTTCACCACCTCGGATGATGAGCCCGGCAGCTACTATCCGCTGATTGCCGAGCGGGCGCGCTACGCCGGGGACTATTCATGGATGGAGATCGCCCTCAACCCGCGCGCCCGTTTTCACGACGGCACGCCAATCACCGCCCGCGATGTCGCTTTTACCTTCAATAAGTTTATGACCGAAGGGGTGCCGCAGTTCCGCCTCTTTTATAAAGGCACCACCGTGAAGGCCATCGCGCCGTTGACCGTGCGTATCGACCTCGGCCAGCCCGGTAAAGAGAACATGCTGAGCCTGCTGAGCCTGCCGGTGATGCCCGAGGCGTTCTGGCGTCATCACAAACTCAGCGACCCGCTGTCAAAGCCGCCGCTGGCCAGCGGGCCCTACCGCATCAGCGCCTGGCGGATGGGACAGTATATTACCTATTCCCGGGTCGCCGATTACTGGGCGGCCGACCTGCCGGTCAACCGCGGTCGCTGGAACTTCGATACGCTGCGCTATGACTATTATCTTGACGACAACGTCGCTTTCGAAGCCTTTAAAGCCGGGGCCGTCGACCGCCGGGAAGAGACGGTCGCCAAAAACTGGGCCACCCGCTACGTCGGCCGCAACTTCAGCCGCGGCTACATCATTAAAGAGGAGTATGCCAACACCTCGGCGCAGGATACCCAGTGGCTGGCGTTCAATATTCAGCGCCCGGTATTCGCCGATCGCCGGGTGCGGGAGGCCATTACCCTGGCGTTTGATTTTGAATGGATGAACAAGGCGCTGTTTTACAGCGCGTATCAGCGCGCCAACAGCTATTTCCAGAACACCGAATATGCCGCCCGCAGCCTGCCCGACGCGGCCGAGCTGGCCCTGCTGACGCCGATGAAAAACGAACTGCCCCCCGAGCTCTTCAGCCAGGTGTACCAGCCGCCGGTCTCCCGCGGCGATGGCTTCGACCGCGCCAACTTACTCCAAGCCGACGCCCTGCTTAACGCGGCGGGCTGGACGGTGAAGAACCAGCGCCGGGTTAACGCCGCCACCGGCAAGCCGCTGCGCTTTGAACTGCTGATGCCGGCCGGAAGCAATGACCGCTGGGTGCTGCCGTTTCAGCACAACCTGCAGCGCCTGGGGATCGTCATGGATATTCGTCAGGTGGATAACTCGCAGTACAGCAACCGCCGCCGCAGCCGCGATTACGACATGATGCCGAGCCTGTGGCGCGCCATGCCCTGGCCGGGGACTGACCTGCAAATCTCCTGGGCGTCGGACTATATTCACTCCAGCTACAACGCGCCGGGGGTGCAAAGTCCGGTGGTGGATAAACTGATTGCGCAGATCCTGCAGTGGCAGGGTAATAAGCAGAAGCTGATCCCGCTTGGCCGGGCGCTGGACCGCGTCCTCACCTGGAACCACTACATGTTGCCGATGTGGTATATGGCGCAGGACCGCACCGCGTGGTGGAATAAATTCTCGTTCCCCCAAACCCGCCCCATTTATTCGTCCGGCCTTGATACCTGGTGGTATGACGCGAACAAAGCGGCCACCCTCCCCGCGGACAGACGCTAA	MYARLFLLLLALFSLSAKAQSIQESVAFAIIGEPKYAAGFSHFDYVNPQAPKGGTLTLAAIGTFDNFNRYALRGNPAVRTEALYDPLFTTSDDEPGSYYPLIAERARYAGDYSWMEIALNPRARFHDGTPITARDVAFTFNKFMTEGVPQFRLFYKGTTVKAIAPLTVRIDLGQPGKENMLSLLSLPVMPEAFWRHHKLSDPLSKPPLASGPYRISAWRMGQYITYSRVADYWAADLPVNRGRWNFDTLRYDYYLDDNVAFEAFKAGAVDRREETVAKNWATRYVGRNFSRGYIIKEEYANTSAQDTQWLAFNIQRPVFADRRVREAITLAFDFEWMNKALFYSAYQRANSYFQNTEYAARSLPDAAELALLTPMKNELPPELFSQVYQPPVSRGDGFDRANLLQADALLNAAGWTVKNQRRVNAATGKPLRFELLMPAGSNDRWVLPFQHNLQRLGIVMDIRQVDNSQYSNRRRSRDYDMMPSLWRAMPWPGTDLQISWASDYIHSSYNAPGVQSPVVDKLIAQILQWQGNKQKLIPLGRALDRVLTWNHYMLPMWYMAQDRTAWWNKFSFPQTRPIYSSGLDTWWYDANKAATLPADRR	PGPT0011625_1603	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011625-yejA-K13893	NA	NA
BMS020_01288	1095	yejB	COG4174	Inner membrane ABC transporter permease protein YejB	ATGGGCAGCTACCTGATCCGCCGTTTGCTGTTAGTGATCCCCACCCTGTGGGCCATCATTACCATTAACTTTTTTATTGTACAGATCGCTCCCGGCGGCCCGGTCGACCAGGCCATCGCCGCCATCGAATTTGGTCAGCACGGTGGAATGCCAGGCGCCGGCGACGGCGGGATGGGCGCCAGCCATGCCCGTACCGGCGCCGGCAATATCAGCGAGGGTCACTATCGCGGGGGGCGCGGCCTCGATCCGGAAGTCATCGCCGAGATCACCCACCGCTACGGCTTCGACAAACCGCTGCACGAGCGCTACCTGAAGATGCTGGGCGATTATCTGCGCTTTGATTTTGGCGACAGCCTGTTTCGCAGCGCCTCCGTACTGCAGCTGATTAAAGACAGCCTGCCGGTCTCGGTGAGCCTCGGGCTGTGGAGCACGCTGATCATCTATCTGGTCTCCATTCCGCTGGGCATCCGCAAAGCCGTCAGCAACGGCAGCCGCTTTGACATCTGGAGCAGTACGCTGATTATCATTGGCTATGCGATCCCCGCCTTTCTGTTCGCCATCCTGCTGATCGTGATTTTCGCCGGCGGCAGCTATTTCGACCTCTTCCCGCTGCGCGGTCTGGTCTCGCCAAACTTCGACACCCTCCCGTGGTATGAAAAGATCCTCGACTATCTGTGGCACATCACCCTGCCGGTGCTGGCGACGGTGATCGGCGGCTTTGCCGCCCTGACCATGCTGACTAAAAACAGCTTCCTTGACGAGATCCGCAAACAGTATGTGGTCACCGCCCGCGCCAAAGGCGTCGGTGAGAAACAGATCCTTTGGGGACACGTGTTCCGCAACGCCATGCTGCTGGTGATCGCCGGTTTCCCGGCCACCTTTATCAGTATGTTCTTTACCGGCTCGCTGCTGATCGAAGTGATGTTCTCCCTGAATGGTCTGGGGCTGCTGGGCTATGAAGCGACGGTCTCCCGCGACTATCCGGTGATGTTCGGCACGCTCTATATTTTCACCCTGATCGGCCTGCTGCTGAATATCGTCAGCGATATCAGCTATACGCTGGTCGACCCGCGTATTGATTTTGAGGGCCGCTAA	MGSYLIRRLLLVIPTLWAIITINFFIVQIAPGGPVDQAIAAIEFGQHGGMPGAGDGGMGASHARTGAGNISEGHYRGGRGLDPEVIAEITHRYGFDKPLHERYLKMLGDYLRFDFGDSLFRSASVLQLIKDSLPVSVSLGLWSTLIIYLVSIPLGIRKAVSNGSRFDIWSSTLIIIGYAIPAFLFAILLIVIFAGGSYFDLFPLRGLVSPNFDTLPWYEKILDYLWHITLPVLATVIGGFAALTMLTKNSFLDEIRKQYVVTARAKGVGEKQILWGHVFRNAMLLVIAGFPATFISMFFTGSLLIEVMFSLNGLGLLGYEATVSRDYPVMFGTLYIFTLIGLLLNIVSDISYTLVDPRIDFEGR	PGPT0011630_303	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011630-yejB-K13894	NA	NA
BMS020_01289	1026	yejE	COG4239	Inner membrane ABC transporter permease protein YejE	ATGTCGTTCTTCAGTCCCGTTAATCAGGCCCGCTGGGCGCGCTTTCGCCACAACCGTCGCGGTTACTGGTCGCTGTGGCTGTTTTTAATCCTCTTCCTCTGCAGCCTGGGGGCTGAGCTGCTGGCCAACGATCGGCCGCTGCTGGTGCAGTACCGGGGCCAGCTGTACGTCCCGGTGTTAAAAAACTATACCGAGCAGACCTTCGGCGGCGCATTCGCCACCGCCGCCGACTATCAGGATCCCTGGCTGCAGCAGCAGCTGGCCAGCCACGGCTGGGCGCTTTGGCCGCCGGTGCGCTTCGGCGCGACGACGATCAATTTTGCCAGCACGGTTCCTTTTCCATCGCCGCCCTCGGCCAGCAACTGGCTCGGCACCGACGCCAACGGCGGCGATGTGCTGGCGCGGATCCTTTATGGGACGCGCATCTCGGTACTGTTTGGTCTGCTGCTGACGCTGTTCTCCAGCGTGCTGGGGGTGCTGGCGGGTGCGATACAAGGTTATTACGGCGGTAAAATCGACCTCTGGGGGCAGCGTTTTATCGAAGTCTGGTCCGGTATGCCGACGCTGTTTTTGATCATCCTGCTCTCCAGCGTCGTGCAGCCGGGCTTCTGGTGGCTGCTGGCGATCACCGTCCTGTTTGGCTGGATGACGCTGGTGGGCGTGGTGCGCGCTGAATTTCTCCGCACCCGCAACTACGACTACATCCGGGCGGCGCAGGCGTTAGGGGTCAGCGACCGGCAGATCATCCTGCGGCATATGCTGCCCAACGCGATGGTGGCGACCCTCACCTTCCTGCCTTTTATTCTCTGCAGCTCTATTACCACCCTGACGTCGCTGGATTTTCTCGGCTTCGGCCTGCCGCTCGGCTCGCCCTCCCTCGGCGAGCTGCTCCTGCAGGGCAAAAACAACCTGCAGGCGCCCTGGCTGGGCATTGCCGCGTTTCTCTCTGTCGCCGTGCTGCTGACGCTGCTGATTTTCATCGGTGAAGCGGTGCGCGACGCCTTTGACCCCAGTAAGGCGGTGTAA	MSFFSPVNQARWARFRHNRRGYWSLWLFLILFLCSLGAELLANDRPLLVQYRGQLYVPVLKNYTEQTFGGAFATAADYQDPWLQQQLASHGWALWPPVRFGATTINFASTVPFPSPPSASNWLGTDANGGDVLARILYGTRISVLFGLLLTLFSSVLGVLAGAIQGYYGGKIDLWGQRFIEVWSGMPTLFLIILLSSVVQPGFWWLLAITVLFGWMTLVGVVRAEFLRTRNYDYIRAAQALGVSDRQIILRHMLPNAMVATLTFLPFILCSSITTLTSLDFLGFGLPLGSPSLGELLLQGKNNLQAPWLGIAAFLSVAVLLTLLIFIGEAVRDAFDPSKAV	PGPT0011635_944	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011635-yejE-K13895	NA	NA
BMS020_01290	1590	yejF	COG4172	putative ABC transporter ATP-binding protein YejF	ATGACCCACCCGCTGTTAGCTATCGACAATCTCTCTATCGCCTTTCGCCAGCAGGGGGAGACGCAGACCGTCGTGCATAATCTGTCGCTCGAGGTGGCGGCCGGCGAAACGCTGGCCCTGGTGGGGGAATCCGGCTCCGGTAAGAGCATCTCCGCCCTGTCGGTGCTGCGGCTGCTCCCTACCCCGCCGGCCAGCTACCCCAGCGGCGATATCCGTTTTCATGGCCAGTCGCTGCTGCATGCGGATGAGGCGACCCTGCGCGGCGTGCGCGGCAACCGGATCGCGATGATCTTTCAGGAGCCGATGGTGTCGCTCAATCCCCTCCATACCCTGGAAAAACAGCTCTACGAGGTGCTGTCGTTACACCGGGGAATGCGCAAAGAGGCGGCGCGCGGGGAGATCCTCGACTGCCTGGAGCGCGTCGGGATCCGTCAGGCGCCGCGGCGGCTGGCGGACTATCCGCACCAGCTCTCGGGCGGCGAGCGCCAGCGGGTGATGATCGCCATGGCGCTGCTGACGCGCCCGGAGCTGTTGATCGCCGACGAGCCGACCACCGCCCTCGATGTGTCAGTGCAGGCGCAAATTCTGCAGCTGCTGCGCGAGCTAAAGCGGGAGCTGAACATGGGGGTGCTGTTTATCACCCATAACCTGAGCATCGTCCGCCAGCTTGCTGACCGGGTGGCGGTGATGCAGAACGGCCGCTGCGTGGAGCGCAATCACTGTCGGGCGCTGTTTAGCGCGCCGGCCCATCCTTATACCCAACGCCTGCTGGATAGCGAACCGGACGGCGAGCCGGTGCCGCTGGCCGCCGATGCCCCGGTGCTGCTGCAGGCGGAGGCGTTACAGGTGGCGTTCCCCATTCGCCGGGGGATCCTGCGTCGGGTGGTCGATCACCATCGGGTGGTCAATGATCTCCATTTCCAGCTACGGGCCGGCGAGACGCTGGGTCTGGTGGGAGAATCGGGTTCCGGCAAAAGCACGACCGGTCTGGCGCTGCTGCGCCTGATCCCCTCCGAGGGCAAGATAACCTTTGCCGGCCAGCCGATTCAGGGACGCGGTCGCCGACAGCTGCTGCCGCTGCGCCGACAGATGCAGGTGGTTTTTCAGGATCCGAACTCGTCGCTCAATCCGCGCCTGACGGCGCAGCAGATCATTGAGGAGGGCCTGCGCGTCCACCAGCCGACGCTGACGGCGGCTGAACGCGAACAGGCGGTGATCCTTGCCATGCAGGAGGTCGGCCTCGACCCGGCCAGCCGCCAGCGCTACCCGGCGGCTTTCTCCGGCGGCCAGCGCCAGCGTATCGCCATCGCCAGAGCGTTAATCGTCAAGCCGCAGCTTATCGTCCTCGACGAGCCGACTTCCTCGCTGGATAAAACCGTTCAGGCGCAGATCCTGAATCTGCTGAAAGCGTTACAGCTGAAGCATCAGCTGGCCTATATTTTTATCAGCCATGATTTAGGCGTGGTGCGCGCGCTGTGTCACCAGGTGATGGTGCTGCGGCAGGGAGTGGTGGTCGAACAGGGCGAGTGCCAGTCCGTCTTCAGCGCGCCCCGGCATGAGTATACCCGCCAGCTGCTGGCGCTAAGCTGA	MTHPLLAIDNLSIAFRQQGETQTVVHNLSLEVAAGETLALVGESGSGKSISALSVLRLLPTPPASYPSGDIRFHGQSLLHADEATLRGVRGNRIAMIFQEPMVSLNPLHTLEKQLYEVLSLHRGMRKEAARGEILDCLERVGIRQAPRRLADYPHQLSGGERQRVMIAMALLTRPELLIADEPTTALDVSVQAQILQLLRELKRELNMGVLFITHNLSIVRQLADRVAVMQNGRCVERNHCRALFSAPAHPYTQRLLDSEPDGEPVPLAADAPVLLQAEALQVAFPIRRGILRRVVDHHRVVNDLHFQLRAGETLGLVGESGSGKSTTGLALLRLIPSEGKITFAGQPIQGRGRRQLLPLRRQMQVVFQDPNSSLNPRLTAQQIIEEGLRVHQPTLTAAEREQAVILAMQEVGLDPASRQRYPAAFSGGQRQRIAIARALIVKPQLIVLDEPTSSLDKTVQAQILNLLKALQLKHQLAYIFISHDLGVVRALCHQVMVLRQGVVVEQGECQSVFSAPRHEYTRQLLALS	PGPT0011640_995	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011640-yejF-K13896	NA	NA
BMS020_01291	345	yejG		putative protein YejG	GTGAATACACAACAACTCTCTATCGTACACCGTCTGCCGCAGAGCTATCGCTGGCTGGCCGGTTTTGCGGGTTCCAGAGTTGAACCGATTCCGCAAAACGGCGCGCAGAACGAAAACAGTCTCGTCGCCCTGAAGTTGCTGAGTCCGGACGGTGAAAAAGCCTGGCCGGTGATGCATAAGCTCAGCCAGGCGTTAAGCGACATCGAAGTCGACTGTTCCGTTCTGGAGTGCGAAGGCGAGCCCTGCCTGTTCGTTAATCTGCAGGATGAGTTTGCCGCCACCTGTCGTCTGAAAAACTTTGGCGTGGCGATCGCCGAGCCCTTCTCCGGCAATAATCCTTTCTGA	MNTQQLSIVHRLPQSYRWLAGFAGSRVEPIPQNGAQNENSLVALKLLSPDGEKAWPVMHKLSQALSDIEVDCSVLECEGEPCLFVNLQDEFAATCRLKNFGVAIAEPFSGNNPF				NA	NA	NA	NA	NA
BMS020_01292	1197	bcr_1		Bicyclomycin resistance protein	GTGACGCTGAAGCAAAATTCGTCTCTGGGGATTGTCTTTATCCTTGGCCTGCTGGCCATGCTGATGCCGCTGTCGATCGATATGTATCTTCCGGCCCTGCCGGTGATCGCTGCCCAGTACCACGTGCCGGACGGCAGTGCGCAGATGACCCTCAGCACCTATATCCTCGGCTTTGCGCTGGGGCAGCTGCTGTACGGTCCGATGGCCGACAGCCTCGGCCGCAAGCCGGTGATCCTCGGCGGAACGCTGGTCTTCGCCGCGGCGGCGGTGGCCTGCGCCCTGTCGCAGACCATCGAGATGCTGATCGCCATGCGCTTCTTCCACGGTCTGGCGGCCGCGGCGGCCAGCGTGGTGATCAACGCCCTGATGCGCGATATCTATCCGAAAGATGAGTTTTCGCGGATGATGTCGTTTGTCATGCTGGTGACGACCATTGCGCCGCTGGTGGCGCCGATGGTCGGCGGGGCGGTGCTGGTCTGGTTCAGCTGGCATGCCATCTTCTGGATCCTCGCCCTGGCGGCCCTGCTGGCGTCGCTGATGATCGGCCTGTTTATCCGCGAAACGCTGCCGGCTGAAAGGCGTCAGCCGTTCCACCTGCGCACCACGATGGGTAACTTTGCCACCCTGTTCCGCCATAAGCGGGTCCTGAGCTATATGCTGGCGAGCGGCTTCAGCTTCGCGGGCATGTTCTCTTTCCTTAGCGCCGGGCCTTTCGTCTATATCAATATTAACCACGTCGCGCCTCAGCACTTTGGCTACTATTTTGCGCTGAACATTGTCTTTCTGTTCCTGATGACCATGTTCAACAGCCGGTTTGTGCGGCGGGTAGGGGCGTTGCGCATGTTCCGCGCCGGGCTGTGGATCCAGTTTGCCATGGCGGTGTGGATGGTGGTTTGCGCCCTGCTCGACGTCGGCTTCTGGTCGCTGGTCATCGGCGTGGCGGCCTTCGTTGGCTGCGTATCGATGGTGTCGTCGAACGCTATGGCAGTGATCCTCGATGAGTTTCCGCATATGGCGGGCACCGCTTCGTCGCTGGCGGGGACTTTCCGCTTTGGTATCGGGGCGATTATCGGCGCGCTGCTGTCGATGGCCACCTTTACCACCGCCTGGCCGATGCTGATCTCCATCGCCTTCTGCGCCACCAGCTCTATTTTCTTCTCCCTTTACGCTTCCCGCCGGCGAAAAATCGCACGCTAG	MTLKQNSSLGIVFILGLLAMLMPLSIDMYLPALPVIAAQYHVPDGSAQMTLSTYILGFALGQLLYGPMADSLGRKPVILGGTLVFAAAAVACALSQTIEMLIAMRFFHGLAAAAASVVINALMRDIYPKDEFSRMMSFVMLVTTIAPLVAPMVGGAVLVWFSWHAIFWILALAALLASLMIGLFIRETLPAERRQPFHLRTTMGNFATLFRHKRVLSYMLASGFSFAGMFSFLSAGPFVYININHVAPQHFGYYFALNIVFLFLMTMFNSRFVRRVGALRMFRAGLWIQFAMAVWMVVCALLDVGFWSLVIGVAAFVGCVSMVSSNAMAVILDEFPHMAGTASSLAGTFRFGIGAIIGALLSMATFTTAWPMLISIAFCATSSIFFSLYASRRRKIAR	PGPT0029005_3872	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
BMS020_01293	720	rsuA_1	COG1187	Ribosomal small subunit pseudouridine synthase A	ATGCGACTTGATAAGTTTATCGCTCAGCAGCTTGGCGTCAGCCGGGCTATTGCCGGGCGTGAAATCCGCGGCAGCCGCGTTACCGTGGACGGCGACATTGTAAAAGATGCTTCCTTTAAGCTTCAGCCGGAGCACGAGGTGGAGTATGACGGGAACACGCTGACCCAGCAGAACGGCCCGCGCTATTTTATGCTCAACAAGCCGCAGGGGTACGTCTGTTCCACCGACGATCCCGATCATCCGACTATCCTCTATTTCCTCGACGAGCCGGTGGCGCATAAGCTGCACGCCGCCGGTCGGCTGGATATCGACACCACCGGACTGGTGCTGATGACCGATGACGGCCAATGGTCGCACCGCATTACCTCGCCGCGACACCACTGTGAAAAAACCTATCTGGTGGCGCTGGAAAGCCCGCTGGCGGAAGGGACCGCGGAGCTGTTTGCCAAAGGCGTCCAGCTGCATAACGAAAAAGATCTCACCAAACCGGCGGTGCTGGAAGTTATCACTCCGACCGAAGTGCGCCTCACCATTAGCGAAGGCCGCTACCATCAGGTGAAACGCATGTTCGCCGCCGTGGGCAACCACGTGGTTGGCCTGCATCGGGAACGCATCGGCGACATCCTGCTGGATGAATCTCTGGCGCCGGGTGAATATCGTCCGCTGACGGAAGCGGAAATCGCCAGCGTGGGCGCCCCGCAGCCACGGAGCAAAACGTGA	MRLDKFIAQQLGVSRAIAGREIRGSRVTVDGDIVKDASFKLQPEHEVEYDGNTLTQQNGPRYFMLNKPQGYVCSTDDPDHPTILYFLDEPVAHKLHAAGRLDIDTTGLVLMTDDGQWSHRITSPRHHCEKTYLVALESPLAEGTAELFAKGVQLHNEKDLTKPAVLEVITPTEVRLTISEGRYHQVKRMFAAVGNHVVGLHRERIGDILLDESLAPGEYRPLTEAEIASVGAPQPRSKT				NA	NA	NA	NA	NA
BMS020_01294	1758	radD	COG1061	Putative DNA repair helicase RadD	ATGACTTTTACATTACGTCCCTACCAACAAGAAGCCGTCGATGCCACCCTCGCCTGGTTTCGTCGCCATACCGAGCCGGCGGCGATTGTCCTGCCCACCGGCGCGGGCAAAAGCCTGGTGATCGCCGAGCTTGCCCGACTGGCCCGCGGCCGCGTGCTGGTGCTGGCCCACGTCAAAGAGCTGGTGGCGCAGAATCATGCTAAATACTGCGCCCTTGGCCTCGAGGCGGATATCTTTGCCGCCGGACTGCAGCGTAAAGAGAGCCACGGCAAAGTGGTGTTCGGCAGCGTGCAGTCGGTGGCGCGCAATCTGGCGCAATTTCGCAGCGAGTTTTCGCTGCTGATCGTCGATGAATGCCACCGCATCAGCGATGATGACGACAGCCAGTATCAGCAGATCATCAGCCACCTGCGGCAGGTCAACCCGCAGCTCCGGCTGCTCGGCCTGACGGCGACCCCGTTCCGCCTCGGTAAGGGGTGGATCTATCAGTTCCACTACCACGGGATGGTGCGTGGCGATGAAAAAGCGCTGTTCCGCGACTGCATCTATGAGCTGCCGCTGCGCTATATGATTAAGCACGGCTACCTGACGCCGCCGGAACGCCTCGATATGCCGGTGGTACAGTACGATTTCAGCCGCCTGCAGGCGCAAAGCAACGGCCTGTTCAGCGAGGCCGATCTTAATCACGAACTGAAAAAACAGCAGCGCATTACACCGCATATCGTCAGCCAGATCGTGGAGTTCGCCGAAAGCCGCAAAGGGGTGATGATCTTCGCCGCCACCGTGGAGCACGCCCGGGAAGTGACCGGCCTGCTGCCGGCAGGCCAGGCGGCGCTGATCACCGGGGAAACCCCGGGTCCGGAGCGAGATCGCATCATCGAGGCGTTTAAAGCGCAGGCGTATCGCTATCTGGTGAACGTCGCGGTGCTGACCACCGGCTTCGACGCCCCGCACGTCGACCTGATCGCCATCCTCCGCCCCACCGAGTCGGTGAGTCTTTACCAACAGATCGTTGGCCGCGGCCTGCGCCTGGCGCCGGGAAAAACCGACTGCCTGATCCTCGACTACGCCGGCAACCCGCACGACCTGTACGCCCCGGAAGTGGGGACGCCGAAGGGCAAAAGCGACAACGTGCCGGTGCAGGTCTTCTGCCCGGCCTGCGGCTTCGCCAACACCTTCTGGGGCAAAACCACCGCCGACGGCACCTTGATTGAGCATTTTGGCCGCCGCTGCCAGGGGTGGTTCGAAGATGACGACGGCCACCGCGAACAGTGCGACTTCCGCTTTCGCTTCAAAAACTGCCCGCAGTGCAACGCGGAAAACGATATCGCCGCCCGTCGCTGCCGGGAGTGCGACACCATTCTGGTTGACCCGGACGACATGCTGAAGGCGGCGCTGAAGCTGAAGGACGCGCTGGTGCTGCGCTGCAGCGGCATGGCCCTGCAGCACGGTAGCGACGAGAAAGGCCCGTGGCTGAAAATCACCTACTACGATGAGGACGGCGCCGACGTCAGTGAGCGCTTCCGTCTGCAAACGCCCGCCCAGCGTACCGCCTTTGAGCAGTTGTTTATCCGCCCGCATACCCGCACGCCGGGAGTGCCGCTGCGCTGGATAACGCCGGCGGATATCGTGGCCCAGCAGGCGCTGCTGCGCCATCCGGACTTTGTCGTCGCCCGCATGAAAGGCCAGTACTGGCAGGTGCGGGAAAAAGTGTTCGATTATCAGGGGCGTTTTCGCCGCGCCAACGAGCTGCGTTAA	MTFTLRPYQQEAVDATLAWFRRHTEPAAIVLPTGAGKSLVIAELARLARGRVLVLAHVKELVAQNHAKYCALGLEADIFAAGLQRKESHGKVVFGSVQSVARNLAQFRSEFSLLIVDECHRISDDDDSQYQQIISHLRQVNPQLRLLGLTATPFRLGKGWIYQFHYHGMVRGDEKALFRDCIYELPLRYMIKHGYLTPPERLDMPVVQYDFSRLQAQSNGLFSEADLNHELKKQQRITPHIVSQIVEFAESRKGVMIFAATVEHAREVTGLLPAGQAALITGETPGPERDRIIEAFKAQAYRYLVNVAVLTTGFDAPHVDLIAILRPTESVSLYQQIVGRGLRLAPGKTDCLILDYAGNPHDLYAPEVGTPKGKSDNVPVQVFCPACGFANTFWGKTTADGTLIEHFGRRCQGWFEDDDGHREQCDFRFRFKNCPQCNAENDIAARRCRECDTILVDPDDMLKAALKLKDALVLRCSGMALQHGSDEKGPWLKITYYDEDGADVSERFRLQTPAQRTAFEQLFIRPHTRTPGVPLRWITPADIVAQQALLRHPDFVVARMKGQYWQVREKVFDYQGRFRRANELR				NA	NA	NA	NA	NA
BMS020_01295	285	rplY_1	COG1825	50S ribosomal protein L25	ATGTTTACTATCAACGCAGAAGTACGTAAAGAGCAGGGTAAGGGTGCGAGCCGCCGCCTGCGCGCAGCTAACAAGTTCCCGGCAATCATCTACGGTGGCGAAGCTGCTCCGGTTGCTATCGAACTGGACCACGACAAAGTATGGAACATGCAGAGCAAAGCTGAGTTTTACGGCGAAGTTCTGACCGTCGTTGTTGATGGCAAAGAAGAAAAAGTCAAAGTTCAGGCTGTTCAGCGCCACGCGTTCAAGCCGAAACTGACTCACATCGACTTCGTTCGCGCGTAA	MFTINAEVRKEQGKGASRRLRAANKFPAIIYGGEAAPVAIELDHDKVWNMQSKAEFYGEVLTVVVDGKEEKVKVQAVQRHAFKPKLTHIDFVRA				NA	NA	NA	NA	NA
BMS020_01296	888			hypothetical protein	ATGAAAACCCTGCAGTATTCTTTCGCGCAGATTGAAGCATTCGCCACTATCGCCGAGACCGGCAGCCTGTCGCGGGCGGCCATTCGGTTAGGTAAAGACCGAACCACGCTGCGCGATCTGCTGGACTATCTGGAAGATGCGCTGGGCTATCGGCTGTTCAGCCGGGAAGGGCGTACCCTGACCTTAACCGCCGAAGGGGAGCAGCTTTTTCGTCAGGCGCATCTGCTGTTGCGCCAGGCGCAGGCTTTCGAGTCTTTTGCGCAAACGCTGCCGCAAACCGCCGGGCAGGCGCTGCGTCTGGTGTACGATCCCTTTATCCCACGTGATTTTCTCTGCGCGCTGGCCGATACGCTGGCCCGGCGGCAGATCCGGTTAAGCTGCTGGAGCGCCTCGCGGCGCGAAGCCGAGCAGGCGCTGAGCGATGGCGTGGCGGATATGGCGATGTGCCAGGCCAACAACCGCTCGCTGGGCAGCGAAATGGAGTGGCGGGCGCTCGGCACGGTGGATCTGCGTTTCTACGCGGCGGACCGCCTGTTCCGGGATGCGGCGCGGCCGCTGACGCTGCTCAATCTGTCGTTGACGCCGCAGCTGGTGATGCACCGGCGCAGCGACGATCAGATTGCCCGCCGGCTGCAGATCTCCGGCCATACGCTGTATATGAACGAAATTACCCTGCTGCGCCATGCGATGGAGCAGGGGAGGGGCTGGGGGTTTTTACCGGACCATTTGCGGCCAGGCGAGTGGCGGGGAGTCGGTGAAATCGCGACAGAGGTCGGCAGTCAGGGGCTGAACGTCACCATGGTGATGCTCTGGCTGCCCGGAATGAATAAGCACCGGCTGCTGAGCGACATCGTGGACGAGGCGCCGGCGCTTTGGCGGCGCGGATAA	MKTLQYSFAQIEAFATIAETGSLSRAAIRLGKDRTTLRDLLDYLEDALGYRLFSREGRTLTLTAEGEQLFRQAHLLLRQAQAFESFAQTLPQTAGQALRLVYDPFIPRDFLCALADTLARRQIRLSCWSASRREAEQALSDGVADMAMCQANNRSLGSEMEWRALGTVDLRFYAADRLFRDAARPLTLLNLSLTPQLVMHRRSDDQIARRLQISGHTLYMNEITLLRHAMEQGRGWGFLPDHLRPGEWRGVGEIATEVGSQGLNVTMVMLWLPGMNKHRLLSDIVDEAPALWRRG				NA	NA	NA	NA	NA
BMS020_01297	1290			hypothetical protein	ATGATGATAAGAAAACCACTGGCCCTGGCGTTAATCCTGGCGGCGCTGCCGGCCGCGGCAATGGCACAACGCTGCGGCGACCTGACGCTGGATGTCTGCCCAACGCCTTACGACCAAACGCTACCCGCCGCCAAAGATATGCTCAGCTGGGATCAGACTTCACGCGTGATTGGCTTTCGAAATGACTATCGCAACTATGCCGGCGATGTTTTCCGCCACGGCGCCTCGGCGCTGCTGGAACGCGCTGAAAAACAATTGACCGATGCCCGCTATACCCTCAACGGCCACACCTGGACCCTGCAGGATTACCTGAAGCGCGAGAACGTCAGCGGTATGCTGGTGCTGAAAGACGGCAAAGTCGCCTGGAAATATCTTGGCGACGGCAACACCGATACCACCCTGTGGACCTCACGCTCGGTGGGAAAATCGGTGGTCTCGACGCTGGTGGGCATCGCCATTCAGCAGGGTAAGATCCACTCCCTCGATGATCTGATTACCGTTTATGAACCCGAACTGAAAGGCACCGCCTGGGACGGCGTGACGCTGAAGCAGTTGATGCAGCACACCAGCGGTGTGGAATGGAATGAAGACTACACCGACCCGCAGTCGCACTTCGCCCGCCTGACCCAGTGCGAGGCGCAGCCCGGGGCCTATGCCTGCGTGCGCAAGATCGTCACCGGCCTGGCACGCAAACATCCGGCGGGCGAGCAGTGGTCCTACTCTTCCGGCGGCGCCTGGCTGCTGGGCGATATCCTGGAGCGCGCCACCGGCATGTCGCTGGCCGCCTGGCTTGAGCAGTCGCTGTGGCGGCCCGCCGGGATGGCCCACGACGGCGTATGGCATGCTTATCAGCAAGGGAAGCACGATGTCGGCGCCCACGGCTTTAACGCCACCCTTGAAGACTGGGGCCGCTTCGGCGAATTCGTCGCCCGCGATGGTCGGTTAAGCAACGGCAAACAGCTGGTGCCGGCGGGCTGGTTCGATCAGGCCGCAAGCTGGACCACTGCGCTAAACTCGGTCTCGGCGGCACATCCGCAAGGTATCTACGGCTATCAGTGGTGGAATAACGCCATACCGGCGAATGCGCAAAACGTCCAGCCGACGCCGCAGGAAGGGCTGAAAGACTCGCTGTGGGCGCTGGGGATCTACGGCCAGGTGATCATGGTGAACCGCGCGGAACACCTGGTGATCGTCCAGTGGTCGACCTGGCCGCAGGCGGAACCCTCCTTTAACGCCCAGCCGTTGGAAGCGGCGCTGATGTACAGCGCCATTGCCCGCGAGCTGCGTTAA	MMIRKPLALALILAALPAAAMAQRCGDLTLDVCPTPYDQTLPAAKDMLSWDQTSRVIGFRNDYRNYAGDVFRHGASALLERAEKQLTDARYTLNGHTWTLQDYLKRENVSGMLVLKDGKVAWKYLGDGNTDTTLWTSRSVGKSVVSTLVGIAIQQGKIHSLDDLITVYEPELKGTAWDGVTLKQLMQHTSGVEWNEDYTDPQSHFARLTQCEAQPGAYACVRKIVTGLARKHPAGEQWSYSSGGAWLLGDILERATGMSLAAWLEQSLWRPAGMAHDGVWHAYQQGKHDVGAHGFNATLEDWGRFGEFVARDGRLSNGKQLVPAGWFDQAASWTTALNSVSAAHPQGIYGYQWWNNAIPANAQNVQPTPQEGLKDSLWALGIYGQVIMVNRAEHLVIVQWSTWPQAEPSFNAQPLEAALMYSAIARELR				NA	NA	NA	NA	NA
BMS020_01298	597	nudK_1		GDP-mannose pyrophosphatase NudK	ATGCAAACTCACGCACCGCACGTCCGACACGTTCGCGAGACGCTGTTCTCTGATAACTGGTATACGCTGAAAAAATATACCTTCGAACTGCAGCGCCGGGACGGACGCTGGCAGGAGCAGAGCCGCGAGGCCTACGATCGCGGCAACGGCGCGGTCATTTTACTCTACAACCGGGAAAAGCGGACGGTGGTCCTGACCCGTCAGTTCCGTTTTCCGGTGTTTACTCACGGTCACGACGGATATCTCATTGAAGCGGCGGCCGGGCTGTTGGATAACGCCTCGCCGGAGGCGCGGATCGTTGCCGAAGCGGAAGAGGAGACCGGCTTTCGGGTGACACGCATCGAGCCCCTCTTCACCGTCTTTATGAGCCCCGGATCTGTCACCGAAAAACTCTACTTTTTTATCGCCGAATATCAGGCCGATGACCGGCAGGGAGACGGCGGCGGGCTGGCGGCGGAAGGTGAGGACATTGAAGTGCTGGAGTGGCCGCTGGCGCGGGCGCTGCAGGCCATTCGCGATGGCGAGATCATGGATGCCAAAACCATTATCCTTCTGCAGCACCTGGCGCTGAATGCCGACACGCTCCTCGCCGGCTGA	MQTHAPHVRHVRETLFSDNWYTLKKYTFELQRRDGRWQEQSREAYDRGNGAVILLYNREKRTVVLTRQFRFPVFTHGHDGYLIEAAAGLLDNASPEARIVAEAEEETGFRVTRIEPLFTVFMSPGSVTEKLYFFIAEYQADDRQGDGGGLAAEGEDIEVLEWPLARALQAIRDGEIMDAKTIILLQHLALNADTLLAG	PGPT0017890_52	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017890-nudK-K12945	NA	NA
BMS020_01299	768	glcR_3	COG1349	HTH-type transcriptional repressor GlcR	ATGCTCGCCAGTCAACGAAAACAGCAAATCCTGCAGATCCTTGCGGAGGAAAAACAGGTGATGTCCGGGGAGCTGAGCCAACGGTTTAACGTCTCTGAGGACTCCATTCGCCGCGATCTGCGCGAGCTGGCGGCGGAAGGAAAACTGCAGCGGGTCCACGGTGGGGCGCTGCCGGTCTCTGCCGCCATCGCCCCTATTGAAACACGCAAAAGCGTGCAAATCGCCTCCAAACAGGCGGTGGCGCGCGCTGCCGCCGGCCTGATCCAGCCTGGACAGGTGGTGATTGTCGATGGCGGCACCACCACCGCGGCGATGATCGGCTTATTACCCGCCGACCTCAGCTGCACGGTGGTCACTCACAGCCCCGGCATCGCCGTGGCGCTGGTCGATCACCCGCGAATCGAGGTGATCCTGCTCGGCGGCAAAGTGTTTAAGCATTCGGTTGTCGCCGTCGGCCCCGAAACGCTGGAAGCAATGGCGCGGATCAACGCCGATGTGTTCTTTATGGGGGTGACCGGCGTCCACCCGCGAGCGGGTTTTACCACCGGTGATTATGAAGAGGCAGGCATCAAGCGCGCGCTGGCGGCCAGGGCCGCGGAAACCGTGGTGATGGCCTCCCGGGAAAAGCTCAACGCCGCGTCGGCCTTTGCCATCGGCGAGCTGAACCTCGCCAGTACGCTTATCGTCGATGGGGAGCCCGACGCCGCGCTGCGCCAGCGGCTGGTGCATAGCGGCGTGGAGATCGTCCCCGTTCAGCGGTCGCGCTGA	MLASQRKQQILQILAEEKQVMSGELSQRFNVSEDSIRRDLRELAAEGKLQRVHGGALPVSAAIAPIETRKSVQIASKQAVARAAAGLIQPGQVVIVDGGTTTAAMIGLLPADLSCTVVTHSPGIAVALVDHPRIEVILLGGKVFKHSVVAVGPETLEAMARINADVFFMGVTGVHPRAGFTTGDYEEAGIKRALAARAAETVVMASREKLNAASAFAIGELNLASTLIVDGEPDAALRQRLVHSGVEIVPVQRSR				NA	NA	NA	NA	NA
BMS020_01300	1008	yejK	COG3081	Nucleoid-associated protein YejK	ATGAGTCTGGATATCGACCAGATTGCCCTGCATCAGTTAATCAAACGTGATGAACAAAATCTGGAGCTGGTGCTGCGCGAGTCACTGCTGGAGCCGAACGCGACGGTCGTCGAGATGATGGCTGAACTGCACCGGGTTTATAGCGCCAAAAGCAAAGCCTATGGCTTGTTCAATGAAGAGAGCGAACTGGCGCAGGCGCTGCGCCTGCAGCGTCAGGGGGAAGAGGAGTTTCTGGCGTTCAGCCGCGCGGCGACCGGCCGTCTGCGCGATGAGCTGGCGAAATACCCGTTCGCCGAAGGGGGCATTGTCCTCTTCTGTCAGTATCGTTACCTGGCGGTCGAGTATCTGCTGGTGGCGGTGCTCAATAACCTCAGCAGCATGCGCGTCAACGAAGAGCTGGATATCCGCTCGACCCATTATCTGGATATTAACCATGCCGATATCGTCGCGCGCATCGATCTGACCGAGTGGGAAACCAACCCGGAGTCGACCCGCTACCTGACCTTCCTGAAAGGGCGGGTGGGGCGCAAAGTGGCCGATTTCTTCATGGATTTCCTCGGCGCCAGCGAAGGTCTCAACGCCAAAGCGCAGAACCGCGGCCTGCTGCAGGCGGTGGATGACTTTGCCGCCGACGCGCAGCTTGATAAATCCGAGCGACAGAATGTGCGTCAGCAGGTCTATGCTTACTGCAATGAACAGCTGCAGGCCGGGGAAGAGATTGAGCTGGAGTCGCTGTCCAAAGAGCTCGCCGGCGTCAGCGAAAAGAGCTTCCAGGAGTTCACCGCCGAGCAGGGCTACGAGCTGGAAGAGAGCTTCCCGGCGGATCGCAGCACCTTACGTCAGCTGACCAAGTTTGCCGGCAGCGGCGGCGGTTTGACCATTAACTTCGACGCGATGCTGCTGGGCGAACGCGTATTCTGGGATCCCGCCACCGATACCCTGACCATTAAGGGCACCCCGCCGAACCTGCGCGACCAGCTGCAGCGCCGGACGTCCGGCGGCAACTAA	MSLDIDQIALHQLIKRDEQNLELVLRESLLEPNATVVEMMAELHRVYSAKSKAYGLFNEESELAQALRLQRQGEEEFLAFSRAATGRLRDELAKYPFAEGGIVLFCQYRYLAVEYLLVAVLNNLSSMRVNEELDIRSTHYLDINHADIVARIDLTEWETNPESTRYLTFLKGRVGRKVADFFMDFLGASEGLNAKAQNRGLLQAVDDFAADAQLDKSERQNVRQQVYAYCNEQLQAGEEIELESLSKELAGVSEKSFQEFTAEQGYELEESFPADRSTLRQLTKFAGSGGGLTINFDAMLLGERVFWDPATDTLTIKGTPPNLRDQLQRRTSGGN				NA	NA	NA	NA	NA
BMS020_01301	228			hypothetical protein	ATGCCGCAAATTTCCCGCTATAGCGATCAACAGGTCGAACAGTTGCTCAGCGAGCTGACGAACGTCCTGGAATCACACAAAGCCCCGGTTGACCTTTCACTGATGGTGTTAGGCAATATGGTGACCAACCTGATCAACAGTAGCGTCGCGCCGGCGCAGCGTCAGGCCATCGCCCGTTCTTTCGCGCAGGCTTTGCAATCTTCGATTAACGACGATCCAGCGCATTAA	MPQISRYSDQQVEQLLSELTNVLESHKAPVDLSLMVLGNMVTNLINSSVAPAQRQAIARSFAQALQSSINDDPAH				NA	NA	NA	NA	NA
BMS020_01302	1761	yejM	COG3083	Inner membrane protein YejM	ATGGTGACTCTACGTCAGCCCTACCGAGAAAAAGTCTCCCAGATGGTTAGCTGGGGGCACTGGTTCGCCCTGTTCAACATGTTGTTGGCCATGGTGCTCGGCAGCCGCTACCTTTTTGTCGCCGACTGGCCGACGACGCTTGCCGGACGACTCTTTTCGTACGTCAGTCTCGTCGGGCACTTCAGCTTCCTGGTGTTTACCAGCTATGTGCTGATCCTCTTTCCGTTGACCTTTATCGTGGTCTCGCAGCGCCTGATGCGCTTCCTGTCGGTGATCCTTGCCACCGCCGGGATGACGCTGCTGCTGATAGACAGCGAGGTCTTTACCCGCTTTCATCTTCATTTAAACCCGGTGGTCTGGGAGCTGGTCATCAACCCTGACCAGAATGAGATGGCGCGCGACTGGCAGCTGATGTTTATCAGCGTCCCGGTCATCTTTTTGATTGAAATGCTCTTCGCCACCTGGAGCTGGCAAAAGCTGCGCAGCCTGACGCGTCGCCGCCATTATGCCCGCCCGGTCGCCTGGTTCTTCTTTTTGTCGTTCATCAGCAGCCACCTGGTCTATATCTGGGCGGATGCCAATTTTTATCGCCCGATCACCATGCAGCGAGCGAATCTACCGCTTTCTTATCCGATGACCGCCCGACGTTTCCTTGAGAAACATGGCCTGCTCGACGCCCAGGATTATCAGCGTCGCCTGGTGGAGCAAGGGGCGCCGGAGGCGGTATCGGTCCAGTATCCGCTCAGTAACCTGCGCTACCGCGACCTTGGCGCGGGCTATAACGTGCTACTGATCACCGTCGACAACCTGAACTACTCGCGGTTTGAAAAAACGATGCCGGCGCTGGCGGCGTTTGCCAAAGAAAACGTGAACTTTACCCAGCATATGAGCTCGGGCAATACCGCCGACAGCGGCCTGTTTGGCCTGTTCTACGGCATTTCGCCAGGCTATATGGACGGTGTCCTCTCGGCGCGTATTCCCGCGGCGCTGATCACCGCTCTCAACCAGCAGGGCTACCAGCTGGGCCTGTTCTCTTCCGATGGGTTTAGCAGCCCGCTGTATCGCCAGGCGCTGCTCTCCGACTTCTCGCTGCCGAGCGCGAAGACCCAGAGCGACGAGCAGACCGCCAATCAGTGGATCGGCTGGCTGGACCGTTACGCGCAGGATGAGAATCGCTGGTTCTCGTGGGTCTCGCTCAATGGCACCACCCTCGACGATACGCAGCAGCAGGGCTTTGTCCGCCGTTATAGCAAGGCGGCAGGCGACGTTGATGCCCAGATCGATCGGGTGCTGACCGCGCTGCGCGAAGCCGGCAAGCTCGATAATACGGTGGTCATTATCACCGGCGGCCACGGCAAGCCGCTTAACGTCAAACACGACCCGTTCGACTGGTCGCGCGAGCAGCTGCAGGTGCCGCTGGTTATTCACTGGCCGGGCACGCCGGCCCAGGAAATTGCCACCCTGACCGATAACAAAGATGTGATGACCACGCTGATGCAGCGCCTGCTTCACGTGTCGACGCCGGCCAATGAGTATTCGCAGGGGGAAGATCTGTTCAGCGCCGCGCGGCGTCGGAACTGGGTCACCGCGGCCAACGGCGATACGCTGGCCATTACCACCCCGGCTATCACCGTGGTCCTCAACCATAACGGCACCTATACCACCTGGAGCCGCGACGGTGAGAAAATCAAAGATCAGAAACCGCAGCTCAGCCTGTTGCTGCAGGTCCTGACCGACGAAAAACGCTTTATCGCTAACTGA	MVTLRQPYREKVSQMVSWGHWFALFNMLLAMVLGSRYLFVADWPTTLAGRLFSYVSLVGHFSFLVFTSYVLILFPLTFIVVSQRLMRFLSVILATAGMTLLLIDSEVFTRFHLHLNPVVWELVINPDQNEMARDWQLMFISVPVIFLIEMLFATWSWQKLRSLTRRRHYARPVAWFFFLSFISSHLVYIWADANFYRPITMQRANLPLSYPMTARRFLEKHGLLDAQDYQRRLVEQGAPEAVSVQYPLSNLRYRDLGAGYNVLLITVDNLNYSRFEKTMPALAAFAKENVNFTQHMSSGNTADSGLFGLFYGISPGYMDGVLSARIPAALITALNQQGYQLGLFSSDGFSSPLYRQALLSDFSLPSAKTQSDEQTANQWIGWLDRYAQDENRWFSWVSLNGTTLDDTQQQGFVRRYSKAAGDVDAQIDRVLTALREAGKLDNTVVIITGGHGKPLNVKHDPFDWSREQLQVPLVIHWPGTPAQEIATLTDNKDVMTTLMQRLLHVSTPANEYSQGEDLFSAARRRNWVTAANGDTLAITTPAITVVLNHNGTYTTWSRDGEKIKDQKPQLSLLLQVLTDEKRFIAN				NA	NA	NA	NA	NA
BMS020_01304	1110		COG0628	Putative transport protein	ATGAGAGTTAATGGACTTACCAAAGGATTTTTCATCCTTATCGTCTTCATTGTAACCCTGGCCTTTTTTGATGTTCTCTCACCCTATTATTCCGCCATCCTCTGGGCCGCCATCCTCGCGGTGATTTTCAATCCGGTCAAAAACAAGATGCGCACCCGCCTCGGCGAACGTAACGGCCTTGCGGCGCTGATGACCATCGTCATTATCTGCCTTATCGTGTTCACGCCGCTGGCGATTATCCTGTCGTCACTGGCCTACGAGCTGAACGTGGTGTACAGCAAACTGCAGCATAACGATACCCAGTTCCCGACGGTGGTCGCCAGCCTGATCGCCCACCTCCCCGGCTGGGCCAGAAGCTTCCTCGCCGAACATAACCTGGATAGCGCGCAGCAGATCCAGCAGCAGCTCTCCGATGTCGCCCTGAAAGGCGGCCAGTATCTGGCCGGCAGCGCGTTTCTGATTGGTAAAGGCACCTTTGGCTTCACCGTCAGCTTCGGCATTATGCTCTACCTGCTGTTCTTCCTGCTGAAGGATGGCCCTCACCTGGTGCTGTTGATCCTCGAATCTCTGCCGTTATCCAGCTACGTGAAGCAGCACCTGTTCGCTAAGTTCGCCGCGGTGGCTCGCGCCACGGTAAAAGGCACCGTCGCCGTGGCGCTGGCGCAGGGGGCGCTGGGCGGCTTTGCCTTCTGGATCGCCGGTCTGGACGGCAGCATTCTCTGGGGCGCGCTGATGGCGTTCCTGTCGCTTATCCCGGCGGTAGGCTCGGCCATTATCTGGGTGCCGGCGGCGATTTACCTGTTTGCCACCGGCCAGCTGTGGCAGGGCGCCTTTATCGTCGGCTTCTTTGTCATTGTGATTGGCCTGGTGGACAACATTCTGCGTCCGCTGCTGGTGGGCAAGGATACCAGGATGCCGGACTATCTGATCCTCATCGCCACCCTCGGCGGCATGGAGATCTACGGTATTAACGGCTTTGTTATCGGCCCGTTGATCGCCGCCTTGTTTATCGCCTGCTGGAATTTGCTGTCGGGGCGGGAACACGCTGGCAACACTGATGAAATCGATGAAGAATTTATTGAGGAAGCGAAAAATAGCCGTAATGAATAA	MRVNGLTKGFFILIVFIVTLAFFDVLSPYYSAILWAAILAVIFNPVKNKMRTRLGERNGLAALMTIVIICLIVFTPLAIILSSLAYELNVVYSKLQHNDTQFPTVVASLIAHLPGWARSFLAEHNLDSAQQIQQQLSDVALKGGQYLAGSAFLIGKGTFGFTVSFGIMLYLLFFLLKDGPHLVLLILESLPLSSYVKQHLFAKFAAVARATVKGTVAVALAQGALGGFAFWIAGLDGSILWGALMAFLSLIPAVGSAIIWVPAAIYLFATGQLWQGAFIVGFFVIVIGLVDNILRPLLVGKDTRMPDYLILIATLGGMEIYGINGFVIGPLIAALFIACWNLLSGREHAGNTDEIDEEFIEEAKNSRNE				NA	NA	NA	NA	NA
BMS020_01305	492	eco	COG4574	Ecotin	GTGAAAAAAATCACTACGCTAGCCGTTTCTCTGCTGACCGCCGCCTGCATGTCTGCCGGCGCCCTGGCCGCAGACCAGCCGCTGGAAAAAGTCGCGCCGTTCCCGAAAGCGGAAAAAGGCATGAAGCGTCAGGTTATTCAGCTGCCGCAGCAGCAGGATGAATCGGCGCTGAAGGTTGAGCTGATGATCGGCCAGACGCTGGAAGTTGACTGCAACCACCACCGTCTTGGCGGGGAGCTGGAAAGCAAAACCCTGGAAGGCTGGGGTTATGACTACTATGTTTTTGATAAGCTGAGCGGCCCGGTATCCACCATGATGGCCTGCCCGGACGGCAAGAAAACGAAGAAATTTGTGACTGCCGGCCTCGGCGATGACGCCATGCTGCGCTACAACAGCAAGCTGCCGATCGTCGTCTACACGCCGACCAATGTCGATGTGAAATATCGCATCTGGCGCGCGGAGGAGACTATCGGTAACGCCGAGGTCCGCTAA	MKKITTLAVSLLTAACMSAGALAADQPLEKVAPFPKAEKGMKRQVIQLPQQQDESALKVELMIGQTLEVDCNHHRLGGELESKTLEGWGYDYYVFDKLSGPVSTMMACPDGKKTKKFVTAGLGDDAMLRYNSKLPIVVYTPTNVDVKYRIWRAEETIGNAEVR				NA	NA	NA	NA	NA
BMS020_01306	1635	mqo_2	COG0579	Malate:quinone oxidoreductase	ATGAATAAAAAGATGGCCGTACCACGCTCACAGGCGGTTGGTCCCAACAGCACTCGGACCAACACCCGCCATGAGCAAGAGACGGATGTATTGTTGATTGGCGGCGGCATTATGAGCGCCACACTGGGAACCTGGCTGCAGGAGCTTGAGCCAGACTGGTCTATTACCATGGTTGAGCAGATGTCCAGCGTGGCGGAAGAGAGCTCAAACGGGTGGAACAATGCGGGGACCGGCCACGCGGCGCTGATGGAGCTGAACTACACGCCGCAGACCGCCAACGGCATCAATATCGACAAAGCGGTCGACATCAACGAAGCCTTCCACATCTCGCGTCAGTTCTGGGCGCATCAGGTGACGCGCGGCGTCCTGAACAAACCAAAATCATTCATTAACAGCGTGCCACACATGAGCTTTGTGTGGGGCGAAGATAACGTCAACTTCCTGCGCGCGCGCTATGCGGCGCTGCAGCAGAGCGAACTGTTCCGCGGCATTCGTTACTCTGAAGACCATCAGCAGATCAAAGCCTGGGCGCCGCTGGTGATGGAAGGCCGCGACCCGCTGCAAAAAGTGGCCGCCACCCGTACGGAAGTGGGAACCGACGTCAACTATGGCGAAATCACCCGCCAGCTGATCGCCAGCCTGCAAAAGCATGATAATTTCTCCCTCCAGTTGGGCACCGTGGTGCGTCGCTTCAAGCGCAACGCCGACAAGAGCTGGACGGTCACCCTGGCGGATGCCGACAACCGTCGTCAGAAGCGGGTTATTAAAGCCAAATTTATCTTTATCGGCGCCGGCGGCGCGGCGCTGACCCTGCTGCAGGAAACCGGCATTCCGCAGGCCAAAGAGTATGCGGGCTTCCCGGTCGGCGGCCAGTTCCTGGTCTGCGAAAATCCGGAGGTGGTAAACCACCATCTGGCGAAGGTATACGGCCAGGCCGAAGTGGGCGCGCCGCCGATGTCGGTGCCGCATATCGATACCCGTATTATCGACGGTAAACGCGTGGTGCTGTTCGGGCCGTTCGCGACCTTCTCGACCCGCTTCCTGAAGAACGGTTCGCTGTGGGATCTGCTGGCCTCGACCAATACCTCGAATATCCTGCCGATGCTCAACGTCGGCCTGGACAACTTCGATCTGGTGAAATATCTGATTAGCCAGGTGATGCAGAAAGATAAAGATCGTCTGGCCGCGCTGTGCGAATACTATCCGGAAGCGCGGAAAGAGGACTGGCGGTTGTGGCAGGCCGGTCAGCGCGTGCAGATCATCAAGCGCGATGCGAAGAAGGGCGGGGTACTCCGCCTGGGCACCGAAGTGGTCAGCGATGACGAAGGCACCGTCGCGGCGCTGCTCGGCGCATCGCCAGGCGCCTCCACCGCGGCGCCTATCATGCTGCAGCTGATGGAAAAAGTGTTTAAGGACAAAGTTAATTCGCCGGAATGGCAGGCCAGGCTGAAGGCGATCATCCCGACCTACGGTATTCGCCTTGATGGTAACCCGGCGGAGATTGAGAAAGCGCTGGCGTGGACCAGTGAAGTGCTGGAGCTGAAATATGAGCCAGCCGCGGCGATGGATAAAGCCCCGCAGGCGGAGCTGAAGCCGCTGAGCGGCGGCAAGCCGATAGCGGATATCGCGCTCTGA	MNKKMAVPRSQAVGPNSTRTNTRHEQETDVLLIGGGIMSATLGTWLQELEPDWSITMVEQMSSVAEESSNGWNNAGTGHAALMELNYTPQTANGINIDKAVDINEAFHISRQFWAHQVTRGVLNKPKSFINSVPHMSFVWGEDNVNFLRARYAALQQSELFRGIRYSEDHQQIKAWAPLVMEGRDPLQKVAATRTEVGTDVNYGEITRQLIASLQKHDNFSLQLGTVVRRFKRNADKSWTVTLADADNRRQKRVIKAKFIFIGAGGAALTLLQETGIPQAKEYAGFPVGGQFLVCENPEVVNHHLAKVYGQAEVGAPPMSVPHIDTRIIDGKRVVLFGPFATFSTRFLKNGSLWDLLASTNTSNILPMLNVGLDNFDLVKYLISQVMQKDKDRLAALCEYYPEARKEDWRLWQAGQRVQIIKRDAKKGGVLRLGTEVVSDDEGTVAALLGASPGASTAAPIMLQLMEKVFKDKVNSPEWQARLKAIIPTYGIRLDGNPAEIEKALAWTSEVLELKYEPAAAMDKAPQAELKPLSGGKPIADIAL	PGPT0001440_427	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
BMS020_01307	1239			hypothetical protein	ATGCCTCCAGTTTCTGACTCCGCCGCTTCCGGCAACCTGCGCCCGATCCTCCATTCTCCGTCGCTGCTGACGCGCGAAGCCCTGGCCGGCGTGCTCACCGCCCTGGCGTTAATCCCGGAAGTGATTTCGTTTTCTGTCATCGCCGGCGTTGACCCGCAGGTGAGCCTGATTGCTTCCGTGGTGCTCTGTCTGGCGATGTCGCTACTCGGCGGACGCCCGGCGATGGTCACCGCCGCCGCGGGCTCAGTAGCGCTGGTCATTGGCCCGATGGTGCATCAGCACGGCGTGGGTTACATTCTGCCAGCCGTCATTCTGGCGGGTATTATTCAAATTTTGTTTGGTCTGTGCGGCATGGCGCGCCTGATGCGCTTTATCCCCCCGGCGGTGATGACCGGGTTCGTCAACGCCCTCGGGATCCTGATTTTCTTTGCCCAGGTGCCGCACTTCTGGAGCCGCCAGCCGCTCATCGTCGGCCTGTTTGTCCTGACGCTGCTTATCGTCCTGTGGGCGCCGCGCTTTATTAAGGCTATCCCGGCGCCGCTGATCGCCATCGTCGCGCTCACTCTCTATACCGTCACCACCGGCCAGCTGCTGCCGACCGTCGGCGATGAAGGCTCGATGAGCGGCGGCCTGCCGGGATTCACCGCCCTGACCGTTCCCCTCAATCTTGCCACGCTGCAGATTATCTGGCCGTGCGCCCTCAGCATCGCCTTTGTCGGCCTGATGGAGTCTTTGCTGACGGCTAAGCTGGTGGATGACCTGACCCATACGCCGTCGAATAAATCGCGGGAGAGCGCCGGGCTGGGTATCGCCAACATCCTCGCCGGCTGTTATGGCGGTATCGCGGGCTGCGCGATGATCGGCCAGACCATCGTTAACGTGGAAATGGGCAAAGCCCGCAGCCGTCTCTCTACGGCGATCGCCGGTCTGGTGCTGCTCCTGCTGGTGACAGCGCTCAGCCAGGTGATGGCGAAGATCCCGATGGCGGTCCTGGCCGGGGTGATGGTGATCGTGGCGGTGAAGACCTTTAGCTGGCACAGCATTCGCCCGGGCGAGCTGGCGCGCAATCCGTGGCCGGAAACGCTGGTGATGCTGGTGACCGTCGGCGCGACGGTGGGAACCAGCAATCTGGCGATTGGCGTGCTGGCGGGGATCGTCGCGATGGCGATCATCCCCCGCCGCCTGCGGGCAAAAGCGCAGGCTACATCAGAAACAGCGTCGCCAGCCCCAGAAAAATAA	MPPVSDSAASGNLRPILHSPSLLTREALAGVLTALALIPEVISFSVIAGVDPQVSLIASVVLCLAMSLLGGRPAMVTAAAGSVALVIGPMVHQHGVGYILPAVILAGIIQILFGLCGMARLMRFIPPAVMTGFVNALGILIFFAQVPHFWSRQPLIVGLFVLTLLIVLWAPRFIKAIPAPLIAIVALTLYTVTTGQLLPTVGDEGSMSGGLPGFTALTVPLNLATLQIIWPCALSIAFVGLMESLLTAKLVDDLTHTPSNKSRESAGLGIANILAGCYGGIAGCAMIGQTIVNVEMGKARSRLSTAIAGLVLLLLVTALSQVMAKIPMAVLAGVMVIVAVKTFSWHSIRPGELARNPWPETLVMLVTVGATVGTSNLAIGVLAGIVAMAIIPRRLRAKAQATSETASPAPEK	PGPT0003020_6113	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
BMS020_01308	1437		COG2239	Magnesium transporter MgtE	ATGTCCGTTTTGCATAAAAAAAGCGCCCGCTTGCGTGACGAAGAGCGCGCCCGTCTGATTTGGCTCTTGAGCACCGATAAAGCGGTGACCTCTGCGCTGCTGGGCAAACTGACGCTGGCAGAACGTTACGATGAAGGTACGCTCGCCGATGACCTGGCCGAAGTGGAAATCCTGGTCTCGCATCTGCCGCCGCCGGATCTCGCCGATGCGCTGGAAGCGCTTCCCTATGACGCCCGCACCGCGCTGTGGTGCCAGGTGCCCGACGATAAACGCGGCGAAGTGCTGCTGGAAGCCTCAGAAAACGTCTGGGGCGACCTCATCGATAAGATGAGCGACCACGAGCTGCTGCAGGCGATGCAGCCGCTGGATATCGATGAACAGGTTTACCTGCTGCAGCATCTGCCGCGCAACCTGACCGGACGGTTGCTGGCGACCCTGCCGGCCGAGAAGCGCGCCCGTATTCGCCAGATCATGCGCTACGCCGACAACAGTGTCGGGTCGATCATGGAGTTTGAGGTCATTACGGTGCGGCCGGAGGCCACCCTGGCGGCGGTCCAGCGCTATTTGCGGCGTCTCGGTAAAATGCCGGAGAACACCGACAAACTGTTTGTCACCACCCGCAATAAGCTGTTGCTCGGCGAGCTGGAGCTGCAGACCATTCTGCTCAACGATGCGCAGAAGCGGGTGGGGGAGGTGATGGAGGGCGATCCGGTCACCTTTCAGCCGCACGAAGAGGCGGAGAAGGTGGCGCGCACCTTCGAACGTGATGACTTGCTCAGCGCCGCCGTTATCGATGCCGATGGTAAGCTGATCGGCCGTCTGACCATCGATGAGATCGTCGATGTGGTCTATGAAGAGACCGACAACGATCTGCGGCGGATGGGCGGTCTGAGCGATGAAGAAGATGTCTTCGCCCCGGTCAGCAAGGCGGTGAAAACGCGCTGGGCGTGGCTGGCGGTCAACCTGTGTACGGCGTTTATCGCTTCCAGGGTCATCGACGGCTTCGAACACACCATTTCTCAGCTGGTGGCGCTGGCCTCGCTGATGCCGATCGTCGCCGGGATCGGCGGCAATACCGGCAACCAGACGATCACCATGATCGTCCGGGCGATGGCGCTGCAGCAGATCCAGCCCGGCAGCTTTACCTTCCTGATCCTGCGTGAAATGGGCGTTGCGCTGATTAATGGCCTGGTGTGGGGCGGGATCATGGGGGGCATCACCTGGTGGCTGTATGACGATCCGCAGCTTGGCGGAGTGATGACGCTGGCCATGATGCTCAACCTGCTGATGGCGGCGATGATGGGCGTCATCATCCCGATGGTCATGGTGAAGCTGGGGCGCGACCCGGCGGTCGGCTCCAGCGTGATGATCACCGCTATCACCGACACCGGCGGCTTCTTTATTTTTCTGGGGCTGGCGACGCTGTTTCTGATGTAG	MSVLHKKSARLRDEERARLIWLLSTDKAVTSALLGKLTLAERYDEGTLADDLAEVEILVSHLPPPDLADALEALPYDARTALWCQVPDDKRGEVLLEASENVWGDLIDKMSDHELLQAMQPLDIDEQVYLLQHLPRNLTGRLLATLPAEKRARIRQIMRYADNSVGSIMEFEVITVRPEATLAAVQRYLRRLGKMPENTDKLFVTTRNKLLLGELELQTILLNDAQKRVGEVMEGDPVTFQPHEEAEKVARTFERDDLLSAAVIDADGKLIGRLTIDEIVDVVYEETDNDLRRMGGLSDEEDVFAPVSKAVKTRWAWLAVNLCTAFIASRVIDGFEHTISQLVALASLMPIVAGIGGNTGNQTITMIVRAMALQQIQPGSFTFLILREMGVALINGLVWGGIMGGITWWLYDDPQLGGVMTLAMMLNLLMAAMMGVIIPMVMVKLGRDPAVGSSVMITAITDTGGFFIFLGLATLFLM	PGPT0013995_566	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0013995-mgtE-K06213	NA	NA
BMS020_01309	1644	yojI	COG4615	ABC transporter ATP-binding/permease protein YojI	ATGGAACTTCTTTCTCTCGTCTGGCGCCAGTATCGCTGGCCGTTTCTGGGCGTTATTGCCCTCAGCCTGCTCAGCGCCGCGCTGGGTATCGGCTTAATCGCCTTTATTAACCTGCGCCTGATCGCCACTGTCGATACCTCGCTGCGGGTGCTGCCGGAATTTCTTGGCCTGCTGGGGCTGTTGATGGCGGTGACCCTGGGCTCGCAGCTGGCGTTGACCACCCTCGGCCATCATTTTGTTTATCGCCTGCGCGGCGAGTTTGTGAAACGCATCCTCGATACCCAGATTGAACAGGTGGAGAAGATCGGCAGCGCGTCGCTGCTTGCCGGGCTGACCAGCGATATCCGCAATATTACCATCGCCTTTGTACGCCTCCCTGAGCTGGTGCAGGGGATCATTCTCACCTTCGGCTCCGCCGCTTATCTGGCCTGGCTGTCAGGAAAAATGATGCTGGTGACGGCCCTGTGGATGGCGCTCACCATTTGGGGCGGTTTTGTGCTGGTGTCGCGGGTCTACAGACATATGGCCAGCCTGCGCGAAACGGAAGATAAGCTCTATCACGACTACCAGACGGTGCTGGAAGGGCGCAAAGAGCTGACCCTCAACCGCGAGCGCGCGGAGTATGTGTTTAATCAGCTCTACCTCCCGGACGCCCGTGAGTACCGGCATCACATCGTTCGCGCCGATACCTTCCACCTCAGCGCGGTCAACTGGTCGAATATTATGATGCTTGGCGCCATCGGGCTGGTGTTCTGGATGGCCAACAGCCTCGGCTGGGCCGATACCGCCGTGGCGGCGACCTACTCCCTGACGCTGCTGTTTTTGCGCACGCCGCTGCTCTCCGCCGTCGGCGCGCTGCCCACGCTGCTGAGCGCCCAGGTGGCGTTCAACAAGCTGCGCCAGTTCTCCCTCGCCCCTTACCGGGCCGATTTCCCCCGGCCGCAGCCGCAGGCTGACTGGCAGACGCTGGAGCTGCGCGATGTCACTTTCCATTATCCGGACCATCGCTTTGCGGTAGGGCCGCTTAATCTGACGCTAAACCGCGGCGAACTGGTGTTTCTGATCGGCGGCAACGGCAGCGGCAAGTCAACCCTGGCGATGCTCCTGACCGGCCTGTATCAGCCGGTTTCCGGTCATATTCTGGTGGACGGCCAGCCGCTGGCGGCGGATAAACCGGAGGCGTACCGCAAACTGTTCTCCGCCGTGTTTACCGACGTCTGGCTGTTCGACCGTCTGCTCGGGCCGCAGGGCGAGGAGGCCGATCCGGCGCTGGTGGCAACGTGGCTGGAGCGTCTGCAAATGGCCCACAAGTTGCAGCTGGAAAACGGTAAGATCGGCGACCTGCGGCTGTCGAAAGGGCAGAAGAAGCGCGTGGCGCTCCTGCTGGCGCTGGCCGAGTCCCGGGATATCATTCTGCTGGATGAATGGGCGGCGGATCAGGATCCGCATTTCCGCCGCGAGTTCTATCAGGTCCTGCTGCCGTTGATGAAGCAGATGGGGAAAACCGTGTTCGCCATCAGCCATGACGATCACTACTTCCAGCACGCCGATCGCCTGCTGGAGATGCGTGCCGGGCAGCTGTCAGAGCTCACCGGCGAAGAGCGGGCGCAGGCCTCCCGCGATGCGGTGGCCCGCACGGCCTGA	MELLSLVWRQYRWPFLGVIALSLLSAALGIGLIAFINLRLIATVDTSLRVLPEFLGLLGLLMAVTLGSQLALTTLGHHFVYRLRGEFVKRILDTQIEQVEKIGSASLLAGLTSDIRNITIAFVRLPELVQGIILTFGSAAYLAWLSGKMMLVTALWMALTIWGGFVLVSRVYRHMASLRETEDKLYHDYQTVLEGRKELTLNRERAEYVFNQLYLPDAREYRHHIVRADTFHLSAVNWSNIMMLGAIGLVFWMANSLGWADTAVAATYSLTLLFLRTPLLSAVGALPTLLSAQVAFNKLRQFSLAPYRADFPRPQPQADWQTLELRDVTFHYPDHRFAVGPLNLTLNRGELVFLIGGNGSGKSTLAMLLTGLYQPVSGHILVDGQPLAADKPEAYRKLFSAVFTDVWLFDRLLGPQGEEADPALVATWLERLQMAHKLQLENGKIGDLRLSKGQKKRVALLLALAESRDIILLDEWAADQDPHFRREFYQVLLPLMKQMGKTVFAISHDDHYFQHADRLLEMRAGQLSELTGEERAQASRDAVARTA	PGPT0029175_184	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029175-yojI-K06159	NA	NA
BMS020_01310	654	alkB	COG3145	Alpha-ketoglutarate-dependent dioxygenase AlkB	ATGCTCGATCTGTTTAGCGATACCCCACCGTGGGAGGAGCCGCTGGCCCCCGGCGCGGTGGTACTTCGGCGCTTTGCCCGTGAGCGCGCTCCGGGGCTGCTGCAGGCGATTGCCGACGTCGCCCGTCAGTCGCCGTTTCGCCAGATGGTCACGCCGGGCGGGTACACCATGTCGGTGGCGATGACCAACTGCGGCCGGCTGGGCTGGACCACCGATCGCCACGGCTACCTCTACGCCCCGGTCGACCCGGTAACTCATCATACCTGGCCGCCGATGCCGGCCGTATTTCGTGAACTGGCGCTGGCGGCAGCCGTGGCCGGCGGCTATCCGGGCTTTTCCCCCGACGCCTGTCTGATTAACCGCTACCAGCCCGGCGCAAAGCTGTCGTTGCATCAGGATAAAGATGAACAGGATCTGCGGGCGCCGATCGTCTCGGTCTCGCTGGGGGTGCCGGCCATCTTTCAGTTTGGCGGGTTGCAGCGCAGCGACCCGCTGCAGCGGCTGCTGCTGGAGCATGGCGATGTGGTGGTCTGGGGCGGGGAGTCGCGCCTGTTTTATCATGGCGTTCAGCCGCTGAAAGCGGGCCATCATCCCGAGACCGGAGACTGTCGATATAACCTCACCTTTCGGCAGGCGGGCCGTCCCGGCGATTAA	MLDLFSDTPPWEEPLAPGAVVLRRFARERAPGLLQAIADVARQSPFRQMVTPGGYTMSVAMTNCGRLGWTTDRHGYLYAPVDPVTHHTWPPMPAVFRELALAAAVAGGYPGFSPDACLINRYQPGAKLSLHQDKDEQDLRAPIVSVSLGVPAIFQFGGLQRSDPLQRLLLEHGDVVVWGGESRLFYHGVQPLKAGHHPETGDCRYNLTFRQAGRPGD				NA	NA	NA	NA	NA
BMS020_01311	1065	ada	COG0350	Bifunctional transcriptional activator/DNA repair enzyme Ada	ATGAAACCGATAGTTGCCGATACCGATGACCGCCGCTGGCAGGCGGTCTGCGAGCGTGATACCCGGGCCGATGGTCAGTTCGTCTTTGCGGTACTGACCACCGGCATCTGCTGCCGTCCCTCCTGCCGCTCGCGGCGCGCGCGGCGGGAAAACGTGCGCTTTTTTGCTGACGCAGCTGCTGCCGTGGCGGCGGGATTCCGCCCCTGCAAACGCTGCCAGCCGGATAAAGCCTGCCCGCAGCAGCAAAGGATCGATAAAGTGGCGCAGGCCTGTCGCTTGCTGGAGCAGGAGGCGCCCCTGACCCTCGAGGCGCTGGCGCGCGAGCTGGCGGTCAGCCCGTTTCATTTCCACCGTTTATTCAAATCCGTGACCGGTATGACCCCCAAAGCCTGGCAGCAGGCGTGGCGCGCGCGACGCCTGCGCGAGGCGCTGGAGCAGGGGAAACCGGTGACCCGCGCCGCGCTGGCGGCCGGCTTCCCCAACAGCAGCAGCTATTATCGCCAGGCCGATGCTGCCTTAGGGATGACCGCCAGCCAGTTTCGCCGCGGCGGCGCCGCCGCCGTGGTGACCTGGACGACGGGCGACTGCGCGCTGGGCCGCTGCCTGGTGGCGCAAAGCGAACGCGGCGTCTGCGCCGTGCTGCCGGGTGATAACGATGCTGCATTGCTCGACGATCTGCGCCAGCGCTTTCCCCGCGCCGAGCTGCGCCAGGGCGACCCTGAGTTTCGTCGTCAGATGGCGGAGATTTTTGCCCACCTCGACGACAGCCGGCGGCCGGTGTCGCTGCCGCTGGATCTGCAGGGCACCGCGTTCCAGCTGCAGGTCTGGCAGGCGCTGCGGCAGATCCCGGCGGGCGAGACCCGCAGCTACCGCCAGGTGGCGGAGCATATTGGCCAGCCGCGGGCGGTAAGAGCCGTGGCCGGCGCCTGCGCGGCGAATTCGCTGGCGGTGATCGTTCCCTGCCATCGGGTGGTGCGTGAGAATGGCGCGCTGTCCGGTTATCGCTGGGGAACCGCGCGAAAAGCGCAGCTGCTGGCGCGCGAGGCGCAACGAGAGGAGGAGTAA	MKPIVADTDDRRWQAVCERDTRADGQFVFAVLTTGICCRPSCRSRRARRENVRFFADAAAAVAAGFRPCKRCQPDKACPQQQRIDKVAQACRLLEQEAPLTLEALARELAVSPFHFHRLFKSVTGMTPKAWQQAWRARRLREALEQGKPVTRAALAAGFPNSSSYYRQADAALGMTASQFRRGGAAAVVTWTTGDCALGRCLVAQSERGVCAVLPGDNDAALLDDLRQRFPRAELRQGDPEFRRQMAEIFAHLDDSRRPVSLPLDLQGTAFQLQVWQALRQIPAGETRSYRQVAEHIGQPRAVRAVAGACAANSLAVIVPCHRVVRENGALSGYRWGTARKAQLLAREAQREEE				NA	NA	NA	NA	NA
BMS020_01312	1053	apbE_2	COG1477	FAD:protein FMN transferase	ATGGATATGACTTTCTTTCGCGCCGCGCTGTTGGGCGCCTGCGTACTGTTCTCTGGCTGCGATTCAGCCACCACTCCCGCGACACCCGCCTCAACGGCCACCGTACTGGATGGTAAAACGATGGGCACCTTCTGGCGGGTCAGCGTTATCGGCGTGGATGAGGCAAAGGCCCAGGCGCTGCGCGCCAAGGTTCAGGCCCAGCTGGACGCCGACGATCGCCTGCTGTCGACCTGGAAAAACGACTCGGCGCTGATGCGTTTCAACCACGCGGCGGATACCCGGCCCTGGCCGGTGAGCGAAGCGATGGCGGACATCGTGACCCTGTCGCTGCGGATTGGCGCCAAAACGGACGGCGCGATGGACATCACCGTGGGGCCGCTGGTCAATCTGTGGGGCTTTGGCCCGGATAAACAGCCGGTCGCCACCCCGGATGCGCAGGCGATCGCCGCGGCGAAAGCGCGCACCGGCCTGCAGCATCTGCAGGTTATCAATCAGAGCGGCAGGCAGTTCCTGCAAAAAGATATTCCCGATCTGTTTGTCGACCTCTCCACCGTCGGGGAAGGCTATGCCGCCGACCACCTTGCGCGCTTGATGGAGCAGGAGGGGATCTCCCGCTATCTGGTGTCGGTGGGCGGGGCGCTGATCAGCCGCGGGATGAATGGCGAAGGCAAGCCCTGGCGGGTGGCGATCCAGAAACCGACCGACCGGGAAAACGCCGTTCAGGCGATTGTCGACATCAATGGCCACGGCATCAGCACCTCCGGCAGCTATCGCAACTACTATGAACTCGACGGGAAACGTATCTCTCACGTCATCGACCCGCAGACCGGGCAGCCGATAACCCATAAGCTGGTCTCGGTGACCGTTATTGCGCCAACGGCGCTGGAGGCGGACGGCTGGGATACCGGACTGATGGTGCTGGGGCCGGAAAAAGCGCAGCAGGTGGTGCGCGAGCAGGGGCTGGCGGTCTACATGATCGTCAAAGAGGGGGAGGGCTTTAAAACCTGGATGTCGCCGCAGTTCCGTACCTTCCTCGTCGGCGAAAAAAATTAA	MDMTFFRAALLGACVLFSGCDSATTPATPASTATVLDGKTMGTFWRVSVIGVDEAKAQALRAKVQAQLDADDRLLSTWKNDSALMRFNHAADTRPWPVSEAMADIVTLSLRIGAKTDGAMDITVGPLVNLWGFGPDKQPVATPDAQAIAAAKARTGLQHLQVINQSGRQFLQKDIPDLFVDLSTVGEGYAADHLARLMEQEGISRYLVSVGGALISRGMNGEGKPWRVAIQKPTDRENAVQAIVDINGHGISTSGSYRNYYELDGKRISHVIDPQTGQPITHKLVSVTVIAPTALEADGWDTGLMVLGPEKAQQVVREQGLAVYMIVKEGEGFKTWMSPQFRTFLVGEKN	PGPT0000430_862	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
BMS020_01313	1092	ompC		Outer membrane porin C	ATGAAAGTTAAAGTACTGTCCCTCCTGGTACCGGCTCTGCTGGTAGCAGGCGCAGCAAATGCGGCTGAAATTTATAACAAAGACGGCAACAAATTAGACCTGTACGGTAAAATTGACGGTCTGCACTACTTCTCTGACGACAAGAGCGTCGACGGCGACCAGACCTACATGCGTGTAGGCGTGAAAGGCGAAACTCAGATCAACGACCAGCTGACCGGTTACGGCCAGTGGGAATACAACGTTCAGGCGAACAACACTGAAAGCTCCAGCGATCAGGCCTGGACTCGTCTGGCATTCGCCGGTCTGAAATTTGGCGACGCGGGCTCTTTCGACTACGGTCGTAACTACGGCGTAGTATACGACGTAACGTCCTGGACCGACGTTCTGCCGGAATTCGGCGGCGACACCTACGGTTCTGACAACTTCCTGCAGTCCCGTGCTAACGGCGTTGCAACCTACCGTAACTCTGACTTCTTCGGTCTGGTTGACGGCCTGAACTTTGCTCTGCAGTACCAGGGTAAAAACGGCAGCGTCAGCGGCGAAGGCGCGACCAACAACGGTCGTGGCGCTCAGAAACAGAACGGTGACGGCTTCGGTACCTCTGTAACTTATGACATCTTTGATGGCATCAGCGCTGGTTTCGCGTACTCTCACTCTAAACGTACCGACGATCAGAACAACCTGGTTCTGGGTAACGGCGACAACGCTGAAACCTACACCGGCGGTCTGAAATACGACGCGAACAACATCTACCTGGCCACTCAGTACACCCAGACCTACAACGCGACCCGCGCTGGTTCTCTGGGCTTTGCTAACAAAGCGCAGAACTTCGAAGTGGTTGCTCAGTACCAGTTCGACTTCGGTCTGCGTCCGTCCGTCGCTTACCTGCAGTCTAAAGGTAAGGATCTGGAAGGCTACGGCGACCAGGACATCCTGAAATATGTTGACGTTGGCGCGACCTACTACTTCAACAAAAACATGTCCACCTATGTTGACTACAAAATCAACCTGCTGGACGACAACAGCTTCACCCGCAACGCCGGTGTTTCTACCGACGACGTGGTTGCCCTGGGCCTGGTTTACCAGTTCTAA	MKVKVLSLLVPALLVAGAANAAEIYNKDGNKLDLYGKIDGLHYFSDDKSVDGDQTYMRVGVKGETQINDQLTGYGQWEYNVQANNTESSSDQAWTRLAFAGLKFGDAGSFDYGRNYGVVYDVTSWTDVLPEFGGDTYGSDNFLQSRANGVATYRNSDFFGLVDGLNFALQYQGKNGSVSGEGATNNGRGAQKQNGDGFGTSVTYDIFDGISAGFAYSHSKRTDDQNNLVLGNGDNAETYTGGLKYDANNIYLATQYTQTYNATRAGSLGFANKAQNFEVVAQYQFDFGLRPSVAYLQSKGKDLEGYGDQDILKYVDVGATYYFNKNMSTYVDYKINLLDDNSFTRNAGVSTDDVVALGLVYQF	PGPT0012990_245	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS_SIGNALLUING,PGPT0012990-ompC-K09475	NA	NA
BMS020_01315	2658	rcsD	COG2198	Phosphotransferase RcsD	ATGACCCCGAAAAAATTCTCTCTGATCCCCGGCAACATCAGCCGCTTCTTCATTTTGATGGTTATTGTCCTGCTGGCGACGATGGGGGTGATGATTCAAAGCGCCGTCAATGCCTGGCTGAAAGAGAAGAGCTATCAGGTAGTTGATGTCTCCCATGCCCTGCACCAGCGTATTGATACCTGGCGCTATGCCACCTGGCAAATCTACGACAATATCGCCGCCACCTCTTCCAACACCGCCAGCGGCGGCCTGCAGGAGACGCGTTTAAAGCAGGACGTGTACTATCTGGAGAAGCCCCGACGTAAAACCGAAGCCCTGATCTTTGGCTCCCACGACAGCTCGACCCTCGAGATGACGCAGAAAATGTCCGATTATCTGGATATTTTGTGGGGCGCGGAGACCATTCCGTGGTCGATGTACTATCTCAATGGTCTGGATAATAGCCTGATTCTCATCTCCACCCTGCCGTTGAAGGACCTCTCCTCAAGCTTTAAAGAGTCAACCATCAGCAGCGTGGTGGAATCCCGGCGCGCGGAAATGCTGCTGCAGGCCAACACCCTTGATGAGCGCGAGACCTTCTCGCCGCTGCGCCATCTTGCCTGGCAGAACGCGCACTACTTTACGTTACGTACTACCTTCAATCAGCCAGGACACCTGGCGACAGTGGTCGCCTTCGACCTGCCGATTAACGATCTGATCCCGCCGGGCATGGCGCTGGACAGCTTCCGTATCGAGCCTGATCCCTCGCAAAATGTTGCCGCCAGCCCCGAGAAAGAGGCTAGCGATCATATCGGGATCACCTTCAACGGCATGCAGATTGACATCGCCACCGACATCAGCACCACCGGTATGCAGGTGCTGTGGACGGTCCCGATGAGCACCATGCTGCTGGAGTCCCTGCAAAACATTCTTCTGCCGCTGCTGCTTAACATTGGCCTGCTGGCGCTGGCCCTGTTCGGTTTCACCACCTTTCGGCATTATAAAGGACGCAGCAGCGCCTCGGGCGCCGGGCTCCCCTCCGCCGCCAATAGCGAACTGCGTTTACTGCGCGCCATTAATGAAGAAATTGTGTCTTTGCTGCCGCTGGGGCTGCTCGTCCACGATCAGGAAGCCAACCGAACGGTGATCAGCAACCCGATTGCCGACCATCTGCTTCCGCACCTGAACCTGCAGAACATCACCAACATGGCGGACCAGCATCAGGGGGTGATCCAGGCCACCGTCAACAACGAACAGTATGAGATCCGCCAGTATCGCAGCCAGGTAGCGCCGCGCACGCAGATCCTGATCATCCGAGACCAGGACCGCGAAGTGCTGGTCAATAAAAAGCTCAAACAGGCCCAGCGCTTGTATGAGAAAAACCAGCAGGGCCGGGCGGCCTTTATGCAGCATATCGGCAGCGCCCTGAAGCAGCCCGCACTGAACCTGGCGGCCGAGGCAGCGGCGCTCGACGGCGCGGAGAACCGGACGCTGGCGCAGCATGCCGATGAGCTGGTCACACTGATCGATGACATTCAGCTGGCTAACCTGCTGGAAAGCGATGCCTGGAAAACCAGCCAGTCGCTGTTCTCGGTGCAGGAGCTGATCGACGACGTCGTACCGGAGGTGCTGCCGGCGATGAAGCGCAAGGGGCTGCAGTTGCTTATCAATAACGCGCTGCCTGCCGGCGAGCAACGCTATGGCGACCGTGAAGCGCTGCGGCGCACGCTGGTGCTGCTGATCCAGTATTCCGTCACCACCACGCCGATCGGCAAGATCACCCTCGACGTCTGCCAGGAAGAGTCGGCCAGCGATCGCCTGACCTTCCGCATTCTCGATACCGGCAACGGGGTCTCGGCTAACGAGATCGACAATATGCACTTCCCGTATCTCAATGAGACCCAGAGCGATCTGTACGGCAAAGCGAACGCCCTCACCTTCTGGTTATGTGACCGCATGACGCGCAAGCTGGGCGGGCAGTTGACCATCAAAGCGCGGGAGTCGCTGGGGACTCGCTATAGCCTGCATCTGAAAATGCCGGCCAGCGAAGAGGCGCCAGAGGCGGGAGAACATCTGCTGGATGACGTTATCGTCCTGCTGGATGTGACCTCCAGCGAAGTGCGGCGGATTGTCACCCGCCAGCTGGAGAGCTGGGGGGCGTCCTGCATCACGCCGGACGATCGGGCGACAAGTCAAGCGTTCGATCTGTATTTAACGGATAATCCGTCTAATCTTACTGCTTCGGGCTTGCTTTTAAGCGATGATGAGGTTGGGATACGCAAAATCGGCCCGGGCCAACTGCGGGTCAACTTTAATATTAGCACGGCGATGCAGGAGGCTATCCTGCAGCTTATTGAGCAGCAGCTGGCGGAGGAGGCGGTTCAGCCCGCCACCTCAGGAAACGAGAGTAACGCCGAACTCCATGCCAGCGGCTATTACGCACTGTTTGCCGATACGGTACCGGATGATGTTCAGAGATTGTATACTGAAATCGAAGCGGGCGATTTTGCTGCTCTGGCACAAACCGCCCACCGCCTCAAAGGGGCATTTGCTATGCTTAATCTGATACCCGGCAAGCAGTTATGTGAAACGCTTGAGCATCTGATTCGCGAAAAGGATGCGCAAGGCATAGAAAAATATATCAGCGACATTGACGCTTACGTCAAGAGCTTGCTGTAG	MTPKKFSLIPGNISRFFILMVIVLLATMGVMIQSAVNAWLKEKSYQVVDVSHALHQRIDTWRYATWQIYDNIAATSSNTASGGLQETRLKQDVYYLEKPRRKTEALIFGSHDSSTLEMTQKMSDYLDILWGAETIPWSMYYLNGLDNSLILISTLPLKDLSSSFKESTISSVVESRRAEMLLQANTLDERETFSPLRHLAWQNAHYFTLRTTFNQPGHLATVVAFDLPINDLIPPGMALDSFRIEPDPSQNVAASPEKEASDHIGITFNGMQIDIATDISTTGMQVLWTVPMSTMLLESLQNILLPLLLNIGLLALALFGFTTFRHYKGRSSASGAGLPSAANSELRLLRAINEEIVSLLPLGLLVHDQEANRTVISNPIADHLLPHLNLQNITNMADQHQGVIQATVNNEQYEIRQYRSQVAPRTQILIIRDQDREVLVNKKLKQAQRLYEKNQQGRAAFMQHIGSALKQPALNLAAEAAALDGAENRTLAQHADELVTLIDDIQLANLLESDAWKTSQSLFSVQELIDDVVPEVLPAMKRKGLQLLINNALPAGEQRYGDREALRRTLVLLIQYSVTTTPIGKITLDVCQEESASDRLTFRILDTGNGVSANEIDNMHFPYLNETQSDLYGKANALTFWLCDRMTRKLGGQLTIKARESLGTRYSLHLKMPASEEAPEAGEHLLDDVIVLLDVTSSEVRRIVTRQLESWGASCITPDDRATSQAFDLYLTDNPSNLTASGLLLSDDEVGIRKIGPGQLRVNFNISTAMQEAILQLIEQQLAEEAVQPATSGNESNAELHASGYYALFADTVPDDVQRLYTEIEAGDFAALAQTAHRLKGAFAMLNLIPGKQLCETLEHLIREKDAQGIEKYISDIDAYVKSLL	PGPT0014855_239	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0014855-rcsD-K07676	NA	NA
BMS020_01316	651	rcsB	COG2197	Transcriptional regulatory protein RcsB	ATGAACACTATGAACGTAATTATTGCCGATGACCATCCGATCGTACTGTTCGGTATTCGTAAGTCACTTGAGCAAATTGAGTGGGTGAACGTCGTTGGCGAGTTTGAAGACTCCACGGCCCTTATCAACAATCTTCCGAAGCTGGACGCCCATGTGCTGATCACCGATCTGTCCATGCCCGGTGATAAATACGGCGACGGGATCACGCTGATTAAATACATCAAGCGCCACTTCCCGGATCTGTCGATCATTGTTCTGACCATGAACAACAACCCGGCGATCCTCAGCGCGGTGCTGGATCTGGATATCGAAGGGATCGTCCTCAAGCAGGGGGCGCCGACCGATCTGCCAAAAGCGCTGGCCGCGCTGCAGAAAGGGAAGAAATTCACCCCGGAAAGCGTCTCTCGTCTGCTGGAAAAAATCAGCGCCAGCGGCTATGGCGATAAACGCCTGTCGCCGAAAGAGAGCGAAGTGCTGCGTCTGTTCGCCGAAGGCTTCCTGGTGACCGAGATCGCCAAAAAGCTTAACCGCAGCATCAAAACCATCAGTAGCCAGAAAAAGTCGGCGATGATGAAGCTGGGCGTCGAAAACGACATCGCCCTGCTGAACTACCTCTCCTCCGTCTCGCTGAGCGCGACGGACAAAGAGTAA	MNTMNVIIADDHPIVLFGIRKSLEQIEWVNVVGEFEDSTALINNLPKLDAHVLITDLSMPGDKYGDGITLIKYIKRHFPDLSIIVLTMNNNPAILSAVLDLDIEGIVLKQGAPTDLPKALAALQKGKKFTPESVSRLLEKISASGYGDKRLSPKESEVLRLFAEGFLVTEIAKKLNRSIKTISSQKKSAMMKLGVENDIALLNYLSSVSLSATDKE	PGPT0014845_618	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0014845-rcsB-K07687	NA	NA
BMS020_01317	2841	rcsC_2		Sensor histidine kinase RcsC	TTGAAATATCTTGCCTCGTTTCACACAACCCTGAAGGTTTCACGTTATCTGTTCAGAGCGCTGGCGGTATTGCTGTGGCTGCTGATTGCGTTTGTCTCTGTGTTTTATATCGTCAACGCGCTGCACGAGCGGGAAGCCGAGATCCATCAGGAGCTCAATCTCAACGCCGATCAGGCCCAGCGCTACATTCAGCGTACGGCGGATGTGATTAAAGAGCTGAAGTACGTCGCCGGTAACCGGCTGTCGGCAGGGGATGCGGTAGCGCAAGGGCAAAGCGGCGATATTGCTATCCCCAGCTTTGAACCCCTCTATCCTGACTCCGACTGCAGCGCGATGAGTAGCGCCTGGCGTAATTCGCTCCAATCGCTGGCGTGGTTTATGCGCTACTGGCGGGATAATTTTACCGCCGCCTACGACCTTAACCGCATCTTTCTCATCGGCAGCGATAATCTCTGTATGGCCAACTTTGGCCTGCGTGACGTGCCGATTGAGCGCGATCAGGCGCTGAAAGTCCTGCATCAACGCATTGAGCAATACCGCAATGCGCCGCAAAACGAGCGCGGCAACAACCTGTTCTGGATAAGCCAGGGCATGCGCCCCGGGGTGGGTTACTTTTACGCCCTGACGCCGATCTATATGGCCAATCGCCTGCAGGCGATGCTCGGCGTTGAGCAGACCATCCGCATGGAAAGCTTCTTTACGCCGGGCAGCCTGCCGATGAGCGTGACTATCTTCGACGATAACGGCCAGCCGCTGATCTCCCTGGCCGGCGCGGAAAGCAAAATCCAGAGCGAAGCGAAATGGATGCAGGAGCGAATGTGGTTTGGCTACAGCGCGGGTTTCCGCGAGCTGGTGCTGAAGAAAAGCCTCGCGCCGTCCTCCCTGAGCATCGTCTATTCCGTCTCGGTAGACCAGGTGCTGGAGCGGATCCGTATGCTGATCATCAACGCCATCGTTCTCAATATCCTCAGCGGCGCGATGCTGTTTGCGCTGGCGCGGATGTATGAGCGGCGCATTTTTATCCCTGCGGAAAATGACGCTCAGCGGCTGGAAGAGCATGAGCAGTTCAACCGCAAAATCGTGGCCTCCGCCCCGGTGGGGATCTGTATTCTGCGCACCCTCGACGGGACCAACATTCTCAGTAACGAGCTGGCGCACAACTATCTGAACATGTTGACCCATGAGGACCGCCAGCGGCTGACGCAGATCATCTGCGGCCAGCAGGTCAACTTTGTCGATGTGCTGACCAGCAACCATACCAACCTGCAGATTAGCTTTGTCCACTCGCGCTATCGCAACGAAAACGTGGCGATTTGCGTGCTGGTGGACGTTTCCGCCCGCGTGAAGATGGAAGAGTCGCTGCAGGAGATGGCCCAGGCGGCGGAGCAGGCCAGCCAGTCGAAATCGATGTTCCTTGCCACCGTCAGCCATGAGCTGCGTACTCCGCTGTATGGCATCATCGGCAACCTCGATCTGCTGCAGACCAAAGCGTTGCCGAAGGGCGTCGATCGCCTGGTGACGGCGATGAACAACTCCTCAAGCCTGCTGTTGAAAATCATCAGCGATATTCTCGATTTCTCCAAAATCGAGTCCGAGCAGTTGAAGATCGAGCCGCGAGAATTTTCCCCGCGCGAGGTCATGAACCATATCTCCGCCAACTATCTGCCGCTGGTGGTGCGCAAGCAGCTGGGTCTGTACTGCTTTATCGAACCGGACGTTCCGGAACAGATGTCCGGCGACCCGATGCGCCTGCAGCAGGTGATCTCCAACCTGCTGAGCAATGCGATCAAGTTCACCGACACCGGCTGCATTATCCTGCACGTCCAGTGCGCGGGGGATTATCTGCAGATTAGCGTCCGCGACACCGGGGAGGGGATCCCGGCGAAAGAGGTATTGCGCCTCTTCGACCCCTTCTTCCAGGTGGGGACCGGCGTGCAGCGCAACTTCCAGGGCACCGGCCTTGGCCTGGCGATCTGTGAAAAACTGATCAGCATGATGGATGGCGATATCGCCGTGGAAACGGAGCCGGGAATGGGCAGCCGCTTTACCATCCGCATCCCGCTGTATGGCGTGCAGAACACGCCGCAGATGACGGCGAACGGTTTCGCTGGCAAGACCTGCTGGCTGGCCATCCACAACACCTCGCTGGCGATGTTCGTCACCTCGCTGCTCAGCTATCACGGCCTTACGGTACGTCGTCATGCCGGAGAAACCCCGGAGGCCGAGGATGTCTTACTCACTGACGATGAAGCGCTGAGCGGCTGGCAGGGAAGGGCGATGGTCATCTTCTGCCGTCGTCATATCGGTATTCCACAAGAACGGGCCGCCGGCGAGTGGCTGCATAGCGTGACGACGCCGCATGAACTGCTGCCGCTGTTGGGGCGTATTTTCCACATCGCGCTGGCCAGTGCGGACAATAGCCGGGCGCTGATGGCGCCGGAGGCGCAGGCCGGCAATAACGACGACATGATGATCCTCGTGGTCGACGATCATCCGATCAACCGGCGCCTGCTGGCGGATCAGCTGGGATCGCTCGGCTACCAGTGCGTGACCGCGAACGACGGGGTCGACGCGCTCAACGTCCTCAGCAAGCAGCACATCGATATCGTGCTCAGCGACGTTAACATGCCTAATATGGATGGTTATCGCCTGACGCAGCGCATTCGTCAGCTTGGCCTGACGCTGCCGGTGATTGGCGTCACGGCCAATGCCCTGGCGGAAGAGAAGCAGCGCTGTCTGGAATCGGGGATGGACAGCTGTCTGTCCAAGCCGGTGACGCTTGACGTGCTGAAGCAAACGCTGACGGTATATGCGGCGCGGGTACGTAAAGGGCGGGAATAA	MKYLASFHTTLKVSRYLFRALAVLLWLLIAFVSVFYIVNALHEREAEIHQELNLNADQAQRYIQRTADVIKELKYVAGNRLSAGDAVAQGQSGDIAIPSFEPLYPDSDCSAMSSAWRNSLQSLAWFMRYWRDNFTAAYDLNRIFLIGSDNLCMANFGLRDVPIERDQALKVLHQRIEQYRNAPQNERGNNLFWISQGMRPGVGYFYALTPIYMANRLQAMLGVEQTIRMESFFTPGSLPMSVTIFDDNGQPLISLAGAESKIQSEAKWMQERMWFGYSAGFRELVLKKSLAPSSLSIVYSVSVDQVLERIRMLIINAIVLNILSGAMLFALARMYERRIFIPAENDAQRLEEHEQFNRKIVASAPVGICILRTLDGTNILSNELAHNYLNMLTHEDRQRLTQIICGQQVNFVDVLTSNHTNLQISFVHSRYRNENVAICVLVDVSARVKMEESLQEMAQAAEQASQSKSMFLATVSHELRTPLYGIIGNLDLLQTKALPKGVDRLVTAMNNSSSLLLKIISDILDFSKIESEQLKIEPREFSPREVMNHISANYLPLVVRKQLGLYCFIEPDVPEQMSGDPMRLQQVISNLLSNAIKFTDTGCIILHVQCAGDYLQISVRDTGEGIPAKEVLRLFDPFFQVGTGVQRNFQGTGLGLAICEKLISMMDGDIAVETEPGMGSRFTIRIPLYGVQNTPQMTANGFAGKTCWLAIHNTSLAMFVTSLLSYHGLTVRRHAGETPEAEDVLLTDDEALSGWQGRAMVIFCRRHIGIPQERAAGEWLHSVTTPHELLPLLGRIFHIALASADNSRALMAPEAQAGNNDDMMILVVDDHPINRRLLADQLGSLGYQCVTANDGVDALNVLSKQHIDIVLSDVNMPNMDGYRLTQRIRQLGLTLPVIGVTANALAEEKQRCLESGMDSCLSKPVTLDVLKQTLTVYAARVRKGRE	PGPT0014850_522	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0014850-rcsC-K07677	NA	NA
BMS020_01318	2634	gyrA_1	COG0188	DNA gyrase subunit A	ATGAGCGACCTTGCGAGAGAAATTACACCGGTCAACATTGAGGAAGAGCTTAAGAACTCTTATCTGGATTATGCGATGTCGGTCATTGTTGGCCGTGCGCTGCCGGATGTCCGAGATGGCCTGAAGCCGGTACACCGTCGCGTACTTTACGCCATGAACGTATTGGGCAATGACTGGAACAAAGCCTATAAAAAATCAGCCCGTGTCGTTGGTGACGTAATCGGTAAATACCACCCGCACGGCGACTCCGCGGTATACGACACCATCGTGCGTATGGCGCAGCCGTTCTCGCTGCGTTACATGCTGGTGGACGGCCAGGGTAACTTTGGTTCCATCGACGGCGACTCCGCCGCGGCGATGCGTTATACCGAAATTCGTCTGGCGAAAATCGCTCATGAGCTGATGGCCGATCTTGAAAAAGAGACGGTCGATTTCGTTGACAACTATGACGGCACGGAGCGTATTCCGGACGTCATGCCGACCAAAATTCCTAACTTGCTGGTAAACGGCGCCTCCGGGATCGCCGTCGGGATGGCCACCAACATACCGCCGCATAACCTGACGGAAGTGATCAACGGCTGTCTGGCCTATGTCGACGATGAAGACATCAGCATTGAAGGGCTGATGGCGCATATTCCTGGCCCTGATTTCCCGACCGCCGCCATTATCAACGGCCGTCGCGGCATTGAAGAGGCCTACCGCACCGGTCGCGGTAAAGTCTACATCCGCGCGCGCGCGGAAGTGGAAGTGGACGCGAAATCCGGCCGCGAAACCATCATCGTGCATGAAATTCCCTATCAGGTGAACAAAGCGCGCCTGATTGAGAAAATCGCCGAGCTGGTAAAAGAAAAACGCGTGGAAGGCATCAGCGCGCTGCGTGACGAGTCTGATAAAGACGGGATGCGCATCGTGATTGAAGTGAAGCGCGACGCGGTAGGGGAAGTGGTGCTCAACAACCTCTATTCCCAGACCCAGCTGCAGGTCTCCTTCGGCATCAACATGGTTGCGCTGCACCATGGCCAGCCGAAGATCATGAACCTGAAAGACATCATCGCCGCCTTCGTGCGCCACCGCCGCGAAGTGGTGACCCGTCGCACCATTTTCGAGCTGCGTAAAGCCCGTGACCGCGCGCATATCCTCGAAGCGCTGGCCGTGGCGCTGGCCAATATCGACCCGATTATCGAACTGATCCGTCGCGCGCCGACCCCGGCTGAAGCGAAAGCGGCGCTGGTTGCCCAGGCGTGGGATCTCGGTAACGTCGCGGCGATGCTGGAGCGTGCCGGTGATGACGCCGCGCGTCCGGAATGGCTGGAGCCAGAGTTCGGCGTGCGCGAGGGTAAATACTACCTGACCGAGCAGCAGGCCCAGGCGATTCTGGATCTGCGTCTGCAGAAACTGACCGGCCTTGAGCATGAAAAACTGCTCGACGAATATAAAGAGCTGCTGGAGCAGATCGCGGAACTGCTGCACATCCTCGGCAGCGCCGACCGTCTGATGGAAGTGATTCGCGAAGAGCTGGAGCTGATCCGCGACCAGTTCGGCGACGAACGTCGTACCGAAATCACCGCCAACAGCGCTGATATCAACATCGAAGATCTGATCAACCAGGAAGACGTGGTGGTCACCCTGTCGCATCAGGGCTATGTGAAGTATCAGCCGCTGACCGACTACGAAGCACAGCGTCGTGGCGGTAAAGGCAAATCGGCAGCGCGCATTAAAGAAGAAGACTTTATTGACCGCCTGCTGGTGGCCAACACCCATGACACCATCCTCTGCTTCTCAAGCCGCGGTCGTCTGTACTGGATGAAGGTCTATCAGCTGCCGGAGGCCAGCCGCGGCGCGCGCGGTCGTCCGATCGTCAACCTGCTGCCGCTGGAAGCCGATGAGCGTATCACCGCTATCCTGCCGGTCCGCGAGTATGAAGAGGGCGTCAACGTCTTTATGGCCACCGCCAGCGGTACCGTGAAGAAAACCGCGCTGACCGAGTTCAGTCGTCCGCGTTCCGCCGGCATTATCGCGGTGAACCTGAACGAAGGCGATGAGCTGATCGGCGTCGATCTGACCTCTGGTCAGGACGAAGTGATGCTGTTCTCCGCGGCCGGCAAGGTCGTGCGCTTCAAAGAAGATGCCGTTCGCGCCATGGGCCGTACCGCCACCGGCGTACGCGGCATTAAGCTGGCGGAAAACGACAGCGTCGTCTCGCTGATTATTCCGCGCGGCGAAGGCGCGATCCTGACGGTGACGCAAAACGGTTACGGTAAACGTACCGCCGCGGCTGAGTATCCGACCAAGTCGCGTGCCACCCAGGGCGTTATCTCGATCAAAGTCACCGAGCGTAACGGTTCCGTGGTCGGCGCCGTACAGGTGGATGATTGCGATCAGATCATGATGATCACCGACGCCGGGACGCTGGTGCGTACCCGCGTTTCCGAAGTGAGCATCGTGGGCCGTAACACCCAGGGCGTGATCCTCATCCGCACCGCGGAAGATGAAAACGTGGTGGGGCTGCAGCGCGTCGCTGAGCCGGTCGACGACGAAGAACTGGACGCCATCGACGGTAGCGCGGCGGAAGGCGATGACGATATCGCCCCGGAAGCGGATACCGATGACGACATCGCCGAAGACGAAGAGTAA	MSDLAREITPVNIEEELKNSYLDYAMSVIVGRALPDVRDGLKPVHRRVLYAMNVLGNDWNKAYKKSARVVGDVIGKYHPHGDSAVYDTIVRMAQPFSLRYMLVDGQGNFGSIDGDSAAAMRYTEIRLAKIAHELMADLEKETVDFVDNYDGTERIPDVMPTKIPNLLVNGASGIAVGMATNIPPHNLTEVINGCLAYVDDEDISIEGLMAHIPGPDFPTAAIINGRRGIEEAYRTGRGKVYIRARAEVEVDAKSGRETIIVHEIPYQVNKARLIEKIAELVKEKRVEGISALRDESDKDGMRIVIEVKRDAVGEVVLNNLYSQTQLQVSFGINMVALHHGQPKIMNLKDIIAAFVRHRREVVTRRTIFELRKARDRAHILEALAVALANIDPIIELIRRAPTPAEAKAALVAQAWDLGNVAAMLERAGDDAARPEWLEPEFGVREGKYYLTEQQAQAILDLRLQKLTGLEHEKLLDEYKELLEQIAELLHILGSADRLMEVIREELELIRDQFGDERRTEITANSADINIEDLINQEDVVVTLSHQGYVKYQPLTDYEAQRRGGKGKSAARIKEEDFIDRLLVANTHDTILCFSSRGRLYWMKVYQLPEASRGARGRPIVNLLPLEADERITAILPVREYEEGVNVFMATASGTVKKTALTEFSRPRSAGIIAVNLNEGDELIGVDLTSGQDEVMLFSAAGKVVRFKEDAVRAMGRTATGVRGIKLAENDSVVSLIIPRGEGAILTVTQNGYGKRTAAAEYPTKSRATQGVISIKVTERNGSVVGAVQVDDCDQIMMITDAGTLVRTRVSEVSIVGRNTQGVILIRTAEDENVVGLQRVAEPVDDEELDAIDGSAAEGDDDIAPEADTDDDIAEDEE	PGPT0027705_867	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
BMS020_01319	729	ubiG_1	COG2227	Ubiquinone biosynthesis O-methyltransferase	ATGAATGCCGAAAAAACGTCGGTAGCCCCTAACGTCGATCATGCTGAAATCGCCAAATTCGAAGCCGTCGCCTCGCGCTGGTGGGATCTGGAGGGCGAGTTCAAACCGCTCCACCGCATTAACCCCCTGCGGCTGGGCTATATCGCCGAACGCTCTGCCGGCCTGTTCGGTAAAAAAGTCCTCGATGTCGGCTGCGGCGGCGGCATCCTCGCCGAGAGCATGGCGCGCGAAGGCGCGACGGTCACCGGGCTGGACATGGGCGCCGAGCCGCTGCAGGTGGCGAAACTGCACGCCCTGGAGAGCGGAATTCAGGTGGAGTATGTTCAGGAAACGGTTGAAGAACATGCCGCGAAGCATCCGCAGCAGTATGACGTCGTCACCTGCATGGAGATGCTGGAGCACGTCCCTGACCCACAGTCGGTCGTCCACGCCTGCGCGCGGCTGGTGAAGCCTGGCGGCCAGGTCTTCTTCTCCACCATCAACCGTAACGGTAAAGCGTGGCTGATGGCGGTGGTCGGCGCGGAATATGTCATGAAGATGGTGCCCAAAGGCACTCATGATGTGAAAAAGTTTATCAAGCCGGCCGAACTGCTGGGCTGGGTAGATCAGACTTCTCTGAAAGAGCAGCATATCATCGGCCTGCATTACAATCCGTTGACCAACACCTTCAAGTTGGCGCCGGGGGTTGATGTTAACTATATGTTGCATACCAGCGCCAAAAAAGCGTGA	MNAEKTSVAPNVDHAEIAKFEAVASRWWDLEGEFKPLHRINPLRLGYIAERSAGLFGKKVLDVGCGGGILAESMAREGATVTGLDMGAEPLQVAKLHALESGIQVEYVQETVEEHAAKHPQQYDVVTCMEMLEHVPDPQSVVHACARLVKPGGQVFFSTINRNGKAWLMAVVGAEYVMKMVPKGTHDVKKFIKPAELLGWVDQTSLKEQHIIGLHYNPLTNTFKLAPGVDVNYMLHTSAKKA	PGPT0009545_1021	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009545-ubiG-K00568	NA	NA
BMS020_01320	2286	nrdA	COG0209	Ribonucleoside-diphosphate reductase 1 subunit alpha	ATGAATCAGAGTCTGCTGGTGACAAAGCGCGACGGAACCACCGAGCGCATCAATCTCGACAAAATCCATCGCGTACTGGATTGGGCGGCAGAAGGACTGAATAACGTTTCGATTTCCCAGGTAGAGCTGCGCTCGCATATCCAGTTCTATGACGGCATTAAAACCGCGGACATCCACGAAACCATTATCAAAGCCGCTGCGGATCTGATCTCCCGCGAGGCGCCGGATTACCAGTACCTCGCCGCGCGTCTGGCGATTTTCCATTTGCGTAAAAAAGCCTTCGGCCAGTTTGAGCCGCCGGCGCTTTACGATCACGTGGTGAAGATGGTCGAGAAGGGTAAATACGATCATCATCTGCTGGAAGACTACACGGAAGAAGAGTTCCAGCAGATGGACGGTTTCCTCGACCACTGGCGCGACATGAACTTCTCCTACGCTGCCGTTAAGCAGCTGGAAGGCAAGTATCTGGTACAAAACCGCGTCACCGGCGAAATTTATGAGAGCGCGCAGTTCCTCTATATTCTGGTGGCTGCCTGCCTGTTCTCTAACTACCCGCGCGAAACGCGTCTGGACTACATCAAGCGTTTCTACGACGCGGTGTCGACCTTTAAAATCTCGCTGCCGACGCCGATCATGTCCGGCGTGCGTACCCCAACCCGTCAGTTCAGCTCCTGCGTGCTGATCGAGTGCGGCGACAGCCTGGACTCCATCAACGCTACCTCCAGCGCGATTGTGAAATACGTTTCCCAGCGCGCCGGCATCGGCATCAACGCCGGCCGCATTCGCGCGCTGGGCAGCCCGATCCGCGGCGGCGAAGCCTTCCACACCGGCTGCATTCCGTTCTACAAACATTTCCAGACCGCGGTGAAGTCCTGCTCGCAGGGCGGCGTACGCGGCGGCGCGGCGACCCTCTTCTACCCAATGTGGCATCTGGAAGTGGAAAGCCTGCTGGTGCTGAAAAACAACCGCGGGACCGACGCCAACCGCGTTCGTCACATGGACTACGGGGTGCAGATCAACAAGCTGATGTACACCCGTCTGCTGAAGGGCGGCGACATTACCCTGTTCAGCCCTTCCGACGTCCCGGGCCTGTATGACGCTTTCTTCGCCGATCAGGACGAATTTGAGCGCCTGTACACCCAGTACGAGCAGGACGACAGCATTCGCAAGCAGCGCATTAAAGCGGTTGAGCTGTTCTCGCTGATGATGCAGGAGCGCGCCTCCACCGGCCGCATCTACATCCAGAACGTCGACCACTGCAACACCCACAGCCCGTTCGATCCAGTGGTCGCCCCGGTGCGCCAGTCTAACCTGTGCCTGGAGATCGCCCTGCCGACTAAACCGCTGGAAGACGTCAACGACGAAAACGGCGAAATCGCGCTGTGCACCCTGTCGGCCTTTAACCTCGGGGCTATCGACAGCCTCGACGAGCTGGAAGAGCTGGCGGTGCTGGCGGTGCGTGCCCTGGACGCGCTGCTCGACTATCAGGATTACCCCATCCCGGCCGCCAAACGCGGCGCAATGGGCCGCCGTACGCTGGGCATCGGCGTGATCAACTTCGCTTACTATCTGGCGAAGCATGGCAAACGCTACTCCGACGGCAGCGCCAACAACCTGACCCACAAAACGTTCGAAGCGATTCAGTACTACCTGCTGAAGGCCTCCAACGAACTGGCTATCGAACAGGGCGCTTGCCCGTGGTTCAACGAAACCACTTATGCGCAGGGTATCCTGCCGATCGATACCTATAAAAAAGACCTGGACGGCATCGTCAGCGAATCCCTGCACTACGACTGGGAAGCGCTTCGCGCGTCCATCAAAACCCACGGCCTGCGTAACTCCACGCTCTCCGCGCTGATGCCGTCCGAGACCTCGTCGCAGATCTCCAACGCCACCAACGGCATCGAGCCGCCGCGCGGCCACGTGAGTATTAAAGCGTCGAAGGATGGGATCCTGCGCCAGGTGGTGCCTGACTACGAAAACCTGCAGAACGCCTACGAACTGCTGTGGGAAATGCCGAACAACGACGGCTACCTGCAGCTGGTGGGTATCATGCAGAAGTTTATCGACCAGTCGATCTCTGCGAATACCAACTACGATCCGACGCGCTTCCCTTCCGGAAAAGTGCCGATGCAGCAGTTGCTGAAAGACCTGCTCAACGCCTATAAATTCGGCGTCAAAACGCTGTACTATCACAACACCCGTGATGGCGCTGAAGACGCTCAGGATGACCTGGCCCCGTCCATCCAGGACGACGGCTGCGAAAGCGGCGCTTGTAAGATCTAA	MNQSLLVTKRDGTTERINLDKIHRVLDWAAEGLNNVSISQVELRSHIQFYDGIKTADIHETIIKAAADLISREAPDYQYLAARLAIFHLRKKAFGQFEPPALYDHVVKMVEKGKYDHHLLEDYTEEEFQQMDGFLDHWRDMNFSYAAVKQLEGKYLVQNRVTGEIYESAQFLYILVAACLFSNYPRETRLDYIKRFYDAVSTFKISLPTPIMSGVRTPTRQFSSCVLIECGDSLDSINATSSAIVKYVSQRAGIGINAGRIRALGSPIRGGEAFHTGCIPFYKHFQTAVKSCSQGGVRGGAATLFYPMWHLEVESLLVLKNNRGTDANRVRHMDYGVQINKLMYTRLLKGGDITLFSPSDVPGLYDAFFADQDEFERLYTQYEQDDSIRKQRIKAVELFSLMMQERASTGRIYIQNVDHCNTHSPFDPVVAPVRQSNLCLEIALPTKPLEDVNDENGEIALCTLSAFNLGAIDSLDELEELAVLAVRALDALLDYQDYPIPAAKRGAMGRRTLGIGVINFAYYLAKHGKRYSDGSANNLTHKTFEAIQYYLLKASNELAIEQGACPWFNETTYAQGILPIDTYKKDLDGIVSESLHYDWEALRASIKTHGLRNSTLSALMPSETSSQISNATNGIEPPRGHVSIKASKDGILRQVVPDYENLQNAYELLWEMPNNDGYLQLVGIMQKFIDQSISANTNYDPTRFPSGKVPMQQLLKDLLNAYKFGVKTLYYHNTRDGAEDAQDDLAPSIQDDGCESGACKI	PGPT0021340_3818	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
BMS020_01321	1131	nrdB_1	COG0208	Ribonucleoside-diphosphate reductase 1 subunit beta	ATGGCATACACCACTTTTTCACAGACGAAAAACGATCAGCTGCTTGAGCCAATGTTTTTTGGCCAGCCGGTTAACGTGGCCCGCTACGATCAGCAAAAATACGATATCTTTGAAAAGCTGATTGAAAAACAGCTCTCCTTCTTCTGGCGCCCGGAAGAGGTTGACGTCTCCCGCGATCGCATTGACTACCAGGCGCTGCCGGAACATGAAAAACACATTTTCATCAGCAACCTGAAGTACCAGACGCTGCTCGACTCCATCCAGGGCCGCAGCCCGAACGTGGCGCTGCTGCCGCTGATCTCCATCCCGGAGCTGGAGACCTGGGTGGAAACCTGGGCCTTCTCCGAGACCATTCACTCGCGCTCGTACACCCATATCATCCGCAACATCGTCAACGACCCGGCGACCGTGTTCGACGATATCGTCACCAACGAACAGATCCAGAAGCGTGCCGAGGGGATCTCCCACTATTACGATTCGCTGATCGAGATGACCAGCTACTGGCACCTGCTGGGCGAAGGCACCCACACCGTCAACGGCAAGACCGTGACCGTCAATCTGCGCGAGCTGAAAAAGAAACTCTATCTGTGCCTGATGAGCGTCAACGCCCTGGAGGCGATCCGCTTCTACGTCAGCTTCGCCTGCTCCTTCGCCTTTGCCGAGCGCAAACTGATGGAAGGCAACGCCAAAATTATCCGCCTGATCGCCCGCGATGAAGCGCTGCACCTGACCGGCACTCAGCATATGCTGAACCTGCTGCGCTCCGGCAGCGACGATCCGGAAATGGCGGAAATCGCCGAAGAGTGCAAGCAGGAGTGCTATGACCTGTTCGTGCTGGCGGCGCAGCAGGAGAAAGAGTGGGCGGACTACCTGTTCCGCGACGGCTCGATGATTGGCCTGAACAAAGATATTCTCTGCCAGTACGTCGAGTACATCACCAATATCCGCATGCAGGCGGTGGGTCTCGATCTGCCGTTCCAGACCCGTTCCAACCCGATCCCGTGGATCAACACCTGGCTGGTCTCCGACAACGTCCAGGTGGCGCCGCAGGAAGTAGAGGTCAGCTCTTACCTGGTCGGCCAGATCGACTCTGAAGTCGATGCCGACGACCTGAGCAACTTCCAGCTGTAA	MAYTTFSQTKNDQLLEPMFFGQPVNVARYDQQKYDIFEKLIEKQLSFFWRPEEVDVSRDRIDYQALPEHEKHIFISNLKYQTLLDSIQGRSPNVALLPLISIPELETWVETWAFSETIHSRSYTHIIRNIVNDPATVFDDIVTNEQIQKRAEGISHYYDSLIEMTSYWHLLGEGTHTVNGKTVTVNLRELKKKLYLCLMSVNALEAIRFYVSFACSFAFAERKLMEGNAKIIRLIARDEALHLTGTQHMLNLLRSGSDDPEMAEIAEECKQECYDLFVLAAQQEKEWADYLFRDGSMIGLNKDILCQYVEYITNIRMQAVGLDLPFQTRSNPIPWINTWLVSDNVQVAPQEVEVSSYLVGQIDSEVDADDLSNFQL	PGPT0021345_418	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021345-nrdB|nrdF-K00526	NA	NA
BMS020_01322	255			hypothetical protein	ATGAAGCGGATCTTCTTGAAAATCTCTGACACTCGCCTTGAGTGTCAGGATGAACACCCTTCCCTGTTGGCTGCTCTTGAATCGCATAATATCGACGTCGAGTATCAGTGCCGCGCAGGCTATTGCGGCTCCTGTCGCACTCGTCTGGTCTCCGGCCAGGTTGACTGGCTGACCGAGCCGCTGGCCTTTATCCAGCCGGGAGAAATTTTGCCCTGCTGCTGCCGGGCGAAGGGCGATATCGAAATTGAGATGTAA	MKRIFLKISDTRLECQDEHPSLLAALESHNIDVEYQCRAGYCGSCRTRLVSGQVDWLTEPLAFIQPGEILPCCCRAKGDIEIEM	PGPT0013205_152	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013205-hcr-K11933	NA	NA
BMS020_01323	1071	glpQ_1	COG0584	Glycerophosphodiester phosphodiesterase, periplasmic	ATGAACATGAAACTCACCGCGCTAATGAGCGGCATGATGTTGGCTAGTTCTGCGCTGTGCTTCAGCGCGGCAGCGGCGGATAAAATGGTTATCGCCCACCGGGGCGCTAGCGGCTATCTGCCGGAACATACCCTGCCGGCGAAAGCGATGGCTTACGCTCAGGGGGCGGATTACCTTGAGCAAGATCTGGTGATGACCAAAGACGACCGACTGGTGGTGTTGCACGACCACTATCTGGATCGGGTGACCGACGTCGCTCAGCGCTTCCCGCAGCGGGCGCGTCAAGATGGCCGTTTTTACGCCATCGACTTTACCCTGGCCGAGATCAAGTCGCTGACGTTTACCGAAGGCTTTGAGCCGAAAGACGGCAAGAATGTGCAAACCTATCCCGGGCGTTTCCCGATGGGCAAATCCGATTTCCGCATTCATACCTTTGAAGAAGAGATTGAGTTTGTCCAGGGGCTGAATCATTCCACCGGCAAAAACATCGGTATTTACCCGGAAATCAAAGCGCCGTGGTTCCACCATCAGGAAGGCAAAGATATTGCCGCCAGCACGCTGAAAGTGCTGAAAGAATATGGCTACACCAGCAAGCAGGATAAGGTCTATCTGCAGTGCTTTGACGCCAACGAGCTCAAGCGTATTAAGCATGAGCTGGAGCCGAAGATGGGCATGGATCTCAAGCTGGTGCAGCTTATCGCCTATACCGACTGGAATGAAACCCAGCAGCGGCAGGCTGACGGCAAGTGGGTGAACTACAGCTATGACTGGATGTTCAAGCCGGGGGCCATGGCGCAGATTGCGCAGTACGCCGACGGCATTGGTCCGGATTATCATATGCTGGTGGCGGAAGGCTCAAAGCCGGGGGCGGTGAAGCTGACGGCGATGGTGAAGGAGGCGCACGCCAGCCATCTGCAGGTGCATCCGTATACCGTGCGCGCGGATCAGCTGCCGGAGTACGCCAGCAACGTCAATCAGCTCTATGACCTGCTGTATCGCCAGGCGGACGTCGATGGCTTGTTTACCGATTTCCCGGATAAAGCGGTGCAATTCCTGGACGCTAAGCAGTAA	MNMKLTALMSGMMLASSALCFSAAAADKMVIAHRGASGYLPEHTLPAKAMAYAQGADYLEQDLVMTKDDRLVVLHDHYLDRVTDVAQRFPQRARQDGRFYAIDFTLAEIKSLTFTEGFEPKDGKNVQTYPGRFPMGKSDFRIHTFEEEIEFVQGLNHSTGKNIGIYPEIKAPWFHHQEGKDIAASTLKVLKEYGYTSKQDKVYLQCFDANELKRIKHELEPKMGMDLKLVQLIAYTDWNETQQRQADGKWVNYSYDWMFKPGAMAQIAQYADGIGPDYHMLVAEGSKPGAVKLTAMVKEAHASHLQVHPYTVRADQLPEYASNVNQLYDLLYRQADVDGLFTDFPDKAVQFLDAKQ	PGPT0018470_2183	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
BMS020_01324	1347	glpT_1	COG2271	Glycerol-3-phosphate transporter	ATGTTAAGTATTTTTAAACCCGCCGCGCATAAAGCGCGTTTGCCAGCCGCGGAGATCGACCCGCTCTATCGTCGGTTACGCTGGCAGATTTTTATCGGCATCTTCTTTGGTTATGCCGCTTACTATCTGGTTCGTAAGAACTTTGCCCTGGCGATGCCCTATCTTATCGAGCAAGGTTTCTCCCGCGGCGATCTCGGTTTCGCCCTTTCCGGCATCTCCATTGCCTACGGATTTTCGAAATTCATCATGGGATCGGTCTCTGACCGTTCGAATCCGCGCATTTTCCTGCCGGCCGGGCTGATCCTCGCCGCGCTGGTGATGCTGGTGATGGGCTTCGTACCGTGGGCCACCTCGAGCATCATGATCATGTTCGTGCTGCTGTTCCTCTGCGGCTGGTTCCAGGGAATGGGCTGGCCGCCGTGCGGCCGTACCATGGTCCACTGGTGGTCGCAGAAAGAGCGCGGCGGAATTGTTTCAGTGTGGAACTGCGCGCATAACGTCGGCGGGGGGATTCCGCCGCTGCTGTTCCTGTTGGGTATGGCCTGGTTTAACGACTGGCATGCGGCGCTCTATATGCCGGCTTTCGGCGCTATTCTGCTGGCGATTTTCGCCTTCGCGATGATGCGCGATACGCCGCAATCCTGCGGCCTGCCGCCGATCGAAGAGTATAAAAACGACTACCCGGACGATTACAGCGAAGAGCATGAACAAGAGCTGACGGCGAAGCAGATCTTTATGCAGTACATTCTGCCGAACAAGCTGCTGTGGTACATCGCGGTCGCCAACGTCTTCGTTTATCTGCTGCGCTACGGCATTCTCGACTGGTCGCCGACCTACCTGAAAGAGGTGAAGCACTTCGCGCTGGATAAATCCTCCTGGGCCTACTTCCTGTACGAGTACGCGGGGATCCCGGGCACCCTGCTGTGCGGCTGGATGTCGGATAAAGTGTTTAAAGGCAACCGCGGCGCCACCGGCGTGTTCTTTATGACCCTGGTGACCATCGCCACCGTCGTGTACTGGCTGAACCCGCCGGGTAACCCGGGCGTCGATATGGCCTGTATGATTATTATCGGCTTCCTGATCTACGGCCCGGTGATGCTGATTGGCCTGCATGCGCTGGAGCTGGCGCCGAAGAAAGCCGCCGGCACCGCCGCAGGCTTCACCGGCCTGTTCGGTTACCTCGGCGGTTCCGTGGCCGCGAGCGCCATCGTCGGCTACACCGTCGATTTCTTCGGCTGGGACGGCGGCTTTATGGTGATGATCGGCGGTAGCGTGCTGGCGGTTGTCCTGCTGGTTATCGTGATGCTCGGTGAACGCCGCCATCATCAACAGCTGAAGCAAGCCTAA	MLSIFKPAAHKARLPAAEIDPLYRRLRWQIFIGIFFGYAAYYLVRKNFALAMPYLIEQGFSRGDLGFALSGISIAYGFSKFIMGSVSDRSNPRIFLPAGLILAALVMLVMGFVPWATSSIMIMFVLLFLCGWFQGMGWPPCGRTMVHWWSQKERGGIVSVWNCAHNVGGGIPPLLFLLGMAWFNDWHAALYMPAFGAILLAIFAFAMMRDTPQSCGLPPIEEYKNDYPDDYSEEHEQELTAKQIFMQYILPNKLLWYIAVANVFVYLLRYGILDWSPTYLKEVKHFALDKSSWAYFLYEYAGIPGTLLCGWMSDKVFKGNRGATGVFFMTLVTIATVVYWLNPPGNPGVDMACMIIIGFLIYGPVMLIGLHALELAPKKAAGTAAGFTGLFGYLGGSVAASAIVGYTVDFFGWDGGFMVMIGGSVLAVVLLVIVMLGERRHHQQLKQA	PGPT0016821_606	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016821-glpT-K02445	NA	NA
BMS020_01325	1623	glpA	COG0578	Anaerobic glycerol-3-phosphate dehydrogenase subunit A	ATGACGGGACGTCTTGATAGCGAGGTCATCATCATCGGCGGCGGAGCAACCGGCGCCGGCATCGCCCGCGACTGCGCCCGACGCGGATTACACACAGTGCTCATCGAGCGCCATGATATCGCCACCGGGGCCACCGGCCGTAATCATGGGCTGTTGCACAGCGGCGCCCGCTATGCGGTGACCGACAACGAATCCGCCCGCGAATGCATCAGTGAGAACCGCATCCTGCGCCGCATCGCCCGTCACTGTATCGAACCGGCCGGCGGTCTGTTCATTACCCTGCCTGAAGACGATCTGGCCTGGCAGCAGACCTTTATCGCCGCCTGCCAGCAGGCTGGCATAGAGGCCACGCCGCTTTCTGCGCAGGAGGCGCTGCGCCGCGAGCCCGCCGTCAACCCGACGCTGCTGGGGGCGGTGCAGGTCCCGGATGGCACCATTGACCCGTTTCGCCTCACCGCGGCCAATATGCTCGACGCCCGCGAACACGGCGCGCAGATCCTCACCGGTTGCGAAGTGACAGGCCTGCTGCGCCAGGGCGACCGCGTCTGTGGCGTCCAGGTATACGATCGTCAGCTTCACCAGACCCGCGCCCTGTACGCCGGGGTAGTGGTCAATGCCGCCGGGATCTGGGGGCAGCGCATTGCGGAATATGCCGACCTGCGCATCACCATGTTCCCGGCGAAGGGATCGCTGTTGATCCTTGACCACCGGATTAACAACCTGGTGATCAACCGCTGCCGTAAGCCGGCCGATGCCGATATTCTGGTGCCCGGGGATACCATCTCGCTGATCGGCACCACCTCGATGCATATTCCTTATGACGAAATTGACGACAACCGGGTAACGACCGCGGAAGTCGAAACCCTGCTGCGCGAAGGTGAAAAGCTGGCGCCGGTCATGGGCCGCACCCGGATCCTCCGCGCCTACTCCGGCGTCCGCCCGCTGGTGGCCAGCGACAACGATCCCAGCGGACGCAGCGTCAGCCGCGGCATCGTCCTGCTCGACCATGCTCAGCGCGACGGCATGGAAGGCTTCATTACCATCACCGGCGGCAAGCTGATGACCTATCGCCTGATGGCCGAGTGGGCCACCGACGCCGTCTGTCGTAAGCTGGGCAACACCACCCCCTGTTCCACGGCCGAGAGCCCGCTCCCCGGGTCGCAGGAGCCGACGGAAAGCACCCTGCGAAAAATTATCTCCCTGCCGGGCCCGCTGCGCGGCTCTGCTGTCTACCGCCATGGCGATCGCACGCCGGCCTGGCTTGGCGACTGCCGCCAGCACCGTAGTCTGGTCTGCGAATGCGAAGCCGTCACCGCTGGTGAAGTGAAATACGCGGTGGAAAATCTGGCGGTCCACACCCTGCTCGACCTGCGCCGCCGTACCCGGATTGGCATGGGGACCTGCCAGGGGGAACTCTGCGCCTGCCGCGCCGCCGGTCTGCTGCAGCGCTTTAACGTCACCACCCCCGCGCAGTCGTTGACCCAGCTGTCGGCGTTTCTCAATGAGCGCTGGAAGGGCGTGCAGCCCATCGCCTGGGGCGACGCGCTGCGCGAAAGCGAATTCACCCGCTGGGTCTACCTCGGCCAGTGCGGACTACCACAGGAGCATCAGGATGAAATTTGA	MTGRLDSEVIIIGGGATGAGIARDCARRGLHTVLIERHDIATGATGRNHGLLHSGARYAVTDNESARECISENRILRRIARHCIEPAGGLFITLPEDDLAWQQTFIAACQQAGIEATPLSAQEALRREPAVNPTLLGAVQVPDGTIDPFRLTAANMLDAREHGAQILTGCEVTGLLRQGDRVCGVQVYDRQLHQTRALYAGVVVNAAGIWGQRIAEYADLRITMFPAKGSLLILDHRINNLVINRCRKPADADILVPGDTISLIGTTSMHIPYDEIDDNRVTTAEVETLLREGEKLAPVMGRTRILRAYSGVRPLVASDNDPSGRSVSRGIVLLDHAQRDGMEGFITITGGKLMTYRLMAEWATDAVCRKLGNTTPCSTAESPLPGSQEPTESTLRKIISLPGPLRGSAVYRHGDRTPAWLGDCRQHRSLVCECEAVTAGEVKYAVENLAVHTLLDLRRRTRIGMGTCQGELCACRAAGLLQRFNVTTPAQSLTQLSAFLNERWKGVQPIAWGDALRESEFTRWVYLGQCGLPQEHQDEI	PGPT0006775_2671	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111	NA	NA
BMS020_01326	1260	glpB	COG3075	Anaerobic glycerol-3-phosphate dehydrogenase subunit B	ATGAAATTTGACTGCGCGATTATCGGCGGCGGACTGGCCGGCCTGCTGTGCGGCCTGACGCTGAATCAGTCCGGCCTGCGCAGCGTTATCATCAGCCGCGGGCAAAGCGCGTTGCATTTTTCCTCCGCGTCGTTAGATCTGCTCTCGGCGCTGCCGAACGGCGATAACGTCACTGACCTCGCGCAAGGTCTGCAGCAGCTCGCTGAACTGCTTCCTGAGCACCCTTATTCCCGGCTCGGCGCCGGGGCGGTGCTCGAATACGCAAAACAAACTGAAGCCCTGCTGGCCGCCTGCGGCGCGGTGATGCAGGGCGACGCGCACCGCCCGCACCGGCGGGTAACGCCGCTGGGGACGCTGCGCGCGGCGTGGCTATCGCCGCAGGAGGTTCCTGTCGCGCCACTCCCCCGACAGGGGGTCTGCCTGGTGGGGATCAGCGGCTTTGCCGATTTTCAGCCGCATCTCGCCGCCGCCGCGCTCGGGCAAACCGGCGTCACCGCCGTGGCGGTGGAAATCGAGTTACCGCTGCTGGATGTTTTACGTGATAACCCCACCGAGTTTCGCGCCGCCAATATCGCCCGCCTCCTCGACGATGAAAACCACTGGCCTGCCCTGCATGCGGCGCTGCTGCCGCTGGCGCAGCAGCATGAGCTGCTGATCATGCCCGCCTGCTTTGGCCTCGCCGACGATCGCCTGTACCATTGGCTGCAGACGCGCCTGCCCTGCCCGCTGCGTCTGCTGCCGACGCTGCCGCCTTCGGTTCCCGGGATGCGCCTGCACCGTTTGCTGCAGCGGCAGTTTATTCGCGGCGGCGGCACCTGGCTTGCCGGCGATGAAGTGGTGAACATCAGCCATCGACAGGGCGCCGTCGAGGCCGTCTGGACGCGAAATCACGGCGATATTGCGCTGCGTCCGCGTTTTACCGTGCTGGCCAGCGGCAGCTTTTTCAGTAACGGTCTTGTCGCCACGCGGGATAGCGTGCGCGAACCCATTCTCGGTCTCGATCTACAGCAGACCCTGCCGCGCGACGACTGGTACCAGCGCGACTTCTTTGCCTCCCAGCCGTGGCAGCGCTTCGGGGTGAAAACCGATGCCCTGCTGCGCCCCATGCTGGGCGGGCAGCCGTTCAGCAATCTTTTCGCCATCGGTTCACTGCTCGGCGGGTTCGATGCTATTCAGCTCGGCTGCGGCGGCGGGGTCTGCGCCGTCACCGCACTGCACGCCGCCAGACAGATCCACGCCCTCGCCGGAGGCCGACCATGA	MKFDCAIIGGGLAGLLCGLTLNQSGLRSVIISRGQSALHFSSASLDLLSALPNGDNVTDLAQGLQQLAELLPEHPYSRLGAGAVLEYAKQTEALLAACGAVMQGDAHRPHRRVTPLGTLRAAWLSPQEVPVAPLPRQGVCLVGISGFADFQPHLAAAALGQTGVTAVAVEIELPLLDVLRDNPTEFRAANIARLLDDENHWPALHAALLPLAQQHELLIMPACFGLADDRLYHWLQTRLPCPLRLLPTLPPSVPGMRLHRLLQRQFIRGGGTWLAGDEVVNISHRQGAVEAVWTRNHGDIALRPRFTVLASGSFFSNGLVATRDSVREPILGLDLQQTLPRDDWYQRDFFASQPWQRFGVKTDALLRPMLGGQPFSNLFAIGSLLGGFDAIQLGCGGGVCAVTALHAARQIHALAGGRP	PGPT0006780_424	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0006780-glpB-K00112	NA	NA
BMS020_01327	1179	glpC	COG0247	Anaerobic glycerol-3-phosphate dehydrogenase subunit C	ATGAACGATACCCGTTTTGAAAGCTGCATTAAGTGCACGGTCTGTACCACCACCTGTCCGGTCAGCCGGGTCAATCCGCGCTATCCCGGGCCGAAACAGGCGGGGCCGGACGGCGAACGCCTGCGCCTGAAGGATGGCGCGCTGTACGATGAGGCGCTCAAGTACTGCATTAACTGCAAGCGCTGTGAGGTCGCCTGCCCGTCGGATGTGAAAATTGGCGATATCATTCAGCGCGCCCGGGCACAGTATGGCCAGCAAAAACCGACCCTGCGCGACGCTATTCTCAGCCATACCGACCTGATGGGCACCCTTTCCACCCCCTTTGCCCCACTGGTAAACGCCACCACCGGCTTAAAACCGGTACGCCGCCTGCTCGACGCGGCGCTCAATATCGATCATCGCCGCACGCTGCCAAAATATGGCTTCGGCACCTTCCGCCGCGCTTACCGCCAGCTCGCGGCCAGACAGGCGCAGTACCCTGAGCAGGTGGCCTTCTTTCATGGTTGCTACGTCAACTATAACCACCCGCAGCTGGGCAAGGATCTGATTCGCGTCGTCAGTGCGCTGGGCACCGGCGTGCAGTTGTTATCACGGGAAAAATGCTGCGGCGTGCCGCTGATCGCCAACGGCTTTTTTGACAAAGCGCGTAAGCAGGCGCAGAGCAACGTCGCCGCGATGCGGGAAAACGCGCTGCCGATCATCGCCACCTCCTCGACCTGCACCTTTACGCTGCGCGATGAATACCCGCATCTCCTTGATGTCGACAACAGCGATCTCCGCGACCGGGTGGAGCTGGCCACTCGCTGGATCTGGAAACAACTGGATAGTGGCAAAACGCTGCCGCTGCGACCGCTGCCGCTGAAGGTGGTCTATCACACGCCGTGCCATATGGAGAAAATGGGCTGGTCGCTGTATACCCTCGAACTGCTGCGGCTGATCCCTGGCCTGCAGCTGGAAGTGCTGGATTCGCAGTGCTGCGGCATCGCCGGCACCTACGGGTTTAAGACTGAGAATTACGCGGTATCCCAGGCTATCGGCGCCCCGCTGTTCCGTCAGATTGAGGAGAGCGGCGCCGACATCGTCGTCACCGACTGCGAGACCTGTAAATGGCAGATAGAAATGTCCACCAGCAAACGCTGCGAACATCCGCTGACGGTGCTGGCGCAGGCGCTCGCCTGA	MNDTRFESCIKCTVCTTTCPVSRVNPRYPGPKQAGPDGERLRLKDGALYDEALKYCINCKRCEVACPSDVKIGDIIQRARAQYGQQKPTLRDAILSHTDLMGTLSTPFAPLVNATTGLKPVRRLLDAALNIDHRRTLPKYGFGTFRRAYRQLAARQAQYPEQVAFFHGCYVNYNHPQLGKDLIRVVSALGTGVQLLSREKCCGVPLIANGFFDKARKQAQSNVAAMRENALPIIATSSTCTFTLRDEYPHLLDVDNSDLRDRVELATRWIWKQLDSGKTLPLRPLPLKVVYHTPCHMEKMGWSLYTLELLRLIPGLQLEVLDSQCCGIAGTYGFKTENYAVSQAIGAPLFRQIEESGADIVVTDCETCKWQIEMSTSKRCEHPLTVLAQALA	PGPT0018440_690	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0018440-glpC-K00113	NA	NA
BMS020_01328	804	rhmA	COG3836	2-keto-3-deoxy-L-rhamnonate aldolase	ATGAACGCACTGTTATCTAACCCCTTCAAACGTGGATTATTACGCGGTGAGACGCAAATAGGCCTGTGGCTGAGCTCGACCTCCTCCTATCTGGCGGAGATTGCCGCCACTTCCGGATATGACTGGCTGCTGATCGACGGCGAGCATGCCCCGAACACTATTCAGGACCTTTATCATCAGCTCCAGGCTATCGCCCCTTACGCCAGTCAGCCGGTGATCCGTCCGGTGGAGGGCAGCCGCAGCCTGATAAAACAGGTGCTGGATATTGGCGCCAGAACGTTGCTGGTGCCGATGGTCGATACCGCCGAGCAGGCGCGGGAAGTCGTCTCGGCAACCCGTTATCCTCCCGTCGGTAGCCGCGGCGTTGGCGCCGGCGTGGCCCGGGCGGCGCGCTGGGGCAGAGTGGAGAATTATATGGCGGAGGCGAATGACGAACTCTGTCTGCTGATTCAGGTGGAGAGCCGAACCGCGCTGGAAAATCTGGACGCTATCCTCGAGGTGGAGGGCATTGACGGGGTGTTTATCGGGCCGGCGGATCTCTCCGCTTCGCTGGGACACCCGGACGATGCTGGCCATCCTGACGTGCAGCGGGTGATTGAGCAGAGCATCCGGCGCATTCGCGCGGCGGGAAAAGCGGCCGGATTTCTGGCGGTCGACCCGGCGATGGCGGAAAAATGTCTCGCCTGGGGGGCCAATTTCGTCGCCGTCGGGGTCGATACCATGCTGTACACCCAGGCGCTGGACCGCCGGCTGGCAATGTTTAAATCCGCCAGCGCTCAGCCGCAGGAGAAAGCGAGCTATTGA	MNALLSNPFKRGLLRGETQIGLWLSSTSSYLAEIAATSGYDWLLIDGEHAPNTIQDLYHQLQAIAPYASQPVIRPVEGSRSLIKQVLDIGARTLLVPMVDTAEQAREVVSATRYPPVGSRGVGAGVARAARWGRVENYMAEANDELCLLIQVESRTALENLDAILEVEGIDGVFIGPADLSASLGHPDDAGHPDVQRVIEQSIRRIRAAGKAAGFLAVDPAMAEKCLAWGANFVAVGVDTMLYTQALDRRLAMFKSASAQPQEKASY	PGPT0001575_491	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001575-hpaI|hpcH-K02510	NA	NA
BMS020_01329	1293	rhmT		Inner membrane transport protein RhmT	ATGATGAGCAACACTCTGCTGGAGAGCGTGGTGAAGAAAAACCGCGCCCGCTTAATCCCCTTTATGCTGGCGCTGTACGTGCTGGCGTTTCTTGACCGTTCGAATATCGGTTTCGCCAAAGAGACCTACCAGCTGGACACTGGCCTCAGCAACGAAGCCTATGCGCTGGGGGCGGGGATTTTCTTTGTGGTCTATGCCTTTCTTGGGGTGCCGGCCAACCTGCTGATGCGTAAATTTGGCGCCAGAAAATGGATCGGCTGCACCACGCTGCTGTGGGGCGTGCTGTCGGCGGCGATGGCGTGGGCGGATACGGAAGCGAAATTCCTGCTGGTACGTACCCTGCTGGGCGCGGCGGAGGCGGGCTTCTTCCCCGGCATGATCTACCTCACGTCTCAGTGGTTTCCCCAGCAAAACCGCGCCAGCATTATGGGGCTTTTTTATATGGGGGCGCCGCTGGCGCTGACCCTCGGTTCGCCTTTATCCGGCGCGCTGCTGGAGATGCATGGGTTTATGGGCCATCCCGGCTGGTTCTGGATGTTTGTGATTGAAGGCCTGCTCGCCGTCGCCGCAGGAGCGTTCACCTTCTTCTGGCTGGACGATTCGCCGCAGCATGCCCGCTTCCTGAGCGCGGCGGAGAAACAGGCCCTGATAAGCGAGCTGGCACGAGAGGAGGAGAAAAAGGTCACTTCGCGTCTGTCCGATGCGCTGCGTAACGGGCGGGTCTGGCAGCTGGCGCTGATCTACATGACCATTCAGGTGGCGGTCTATGGCCTGATTTTCTTCCTGCCCACTCAGGTCGCCGCGCTGTTGGGCACCAAAGTCGGCTTCATTGCCTCGGTGGTGACGGCTATTCCGTGGGTGGCGGCGCTGTTCGGCACCTGGCTTATCCCTCGCTACTCCGATCGTACCGGCGAGCGGCGCAATATTGCCGCGCTGACGCTGCTGGCGGCAGCGGTCGGGATTGCGGTTTCCGGGCTGGTGGCGCCGGTGCTGGCTATCATCGCGCTGTGCGTGGCGGCGGTTGGGGTGATTGCCGTGCAGCCGGTCTTCTGGACGATGCCGACGCAGCTGCTCTCCGGCACGGCGCTGGCCGCCGGGATTGGCTTCGTTAACCTGTTTGGCGCCATCGGCGGCTTTCTGGCGCCGATCGTTCGCGTGCAGGCCGAAACGCTGTTCGCCAGCAGCGCCGCTGGACTGTTAACCCTGGCCGGCGTGGCCATCATCGGGGTGATCATCATCTTCTCATTAAGCCTCACCCGCGCGGTTCCTCAGCGCGGCGGCGTACAGCATTGA	MMSNTLLESVVKKNRARLIPFMLALYVLAFLDRSNIGFAKETYQLDTGLSNEAYALGAGIFFVVYAFLGVPANLLMRKFGARKWIGCTTLLWGVLSAAMAWADTEAKFLLVRTLLGAAEAGFFPGMIYLTSQWFPQQNRASIMGLFYMGAPLALTLGSPLSGALLEMHGFMGHPGWFWMFVIEGLLAVAAGAFTFFWLDDSPQHARFLSAAEKQALISELAREEEKKVTSRLSDALRNGRVWQLALIYMTIQVAVYGLIFFLPTQVAALLGTKVGFIASVVTAIPWVAALFGTWLIPRYSDRTGERRNIAALTLLAAAVGIAVSGLVAPVLAIIALCVAAVGVIAVQPVFWTMPTQLLSGTALAAGIGFVNLFGAIGGFLAPIVRVQAETLFASSAAGLLTLAGVAIIGVIIIFSLSLTRAVPQRGGVQH	PGPT0002325_538	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-ORGANIC_ACID_METABOLISM	P-SOLUBILISATION-TARTARIC_ACID_TRANSPORT,PGPT0002325-ttuB-K13021	NA	NA
BMS020_01330	1206	rhmD	COG4948	L-rhamnonate dehydratase	ATGACCCTACCGAAAATTAAACACGTCCGCGCCTGGTTTACCGGCGGCGCCACCGCAGAGCAGGGCGCCGGCGGCGGCGATTACCACGATCAGGGGGCTAACCACTGGATTGACGATCATATCGCCACCCCGATGAGCAAATACAAACAGTATGAGCAGTCCCGCCAGTCGTTTGGCATCAACGTGCTGGGCACGCTGATTGTGGAAGTGGAAGCCGACAACGGGCAGACCGGCTTTGCCGTGTCGACGGCCGGAGAGATGGGCTGCTTTATCGTGGAAAAACATCTCAACCGCTTTATCGAAGGCAAATGCGTCAGCGATATCAAACTGATCCACGACCAGATGCTCAACGCCACCCTTTACTACGCAGGATCCGGCGGTCTGGTGATGAACACTATCTCCTGTGTCGACCTCGCGCTGTGGGATCTGTTCGGGAAAGTGGTTGGCCTGCCGGTCTACAAACTGCTGGGCGGAGCGGTGCGTGACGAAATCCAGTTCTATGCCACCGGCGCTCGTCCGGATCTGGCGCAAGAGATGGGCTTTATCGGCGGCAAAATGCCCACCCACTGGGGCCCGCACGATGGCGACGCCGGGATCCGCAAAGACGTCGCCATGGTGGCGGACATGCGCGAAAAATGCGGCCCGGATTTCTGGTTAATGCTGGACTGCTGGATGAGCCAGGACGTTAACTATGCCACCAAACTTGCCCATGCCTGCGCCCCTTACAACCTCAAGTGGATCGAGGAGTGCCTGCCGCCGCAGCAGTATGAAGGTTATCGCGAGCTGAAGCGCCAGGCGCCGGCCGGGATGATGGTGACCAGCGGCGAGCACCACGGCACCCTGCAGTCCTTCCGCACCCTGTCGGAGACCGGAATCGATATTATGCAGCCCGACGTCGGCTGGTGCGGCGGCTTAACCACGCTGGTGGAGATAGCGGCTATTGCTAAAGCGCGCGGGCAGCTAGTGGTGCCGCACGGCTCGTCGGTTTACTCACATCATGCGGTGATCACTTTCACCAACACGCCGTTCAGCGAGTTTCTGATGACCAGTCCTGACTGCGCCACGCTGCGTCCGCAGTTCGACCCGATCCTGCTCGGCGAGCCGGTGCCGGAGAGGGGGCGCATTCATAAATCGGTACTGGATAAACCCGGCTTTGGCGTCGAGCTCAATCGCGACTGCAACCTGAAACGTCCTTATCAACACTGA	MTLPKIKHVRAWFTGGATAEQGAGGGDYHDQGANHWIDDHIATPMSKYKQYEQSRQSFGINVLGTLIVEVEADNGQTGFAVSTAGEMGCFIVEKHLNRFIEGKCVSDIKLIHDQMLNATLYYAGSGGLVMNTISCVDLALWDLFGKVVGLPVYKLLGGAVRDEIQFYATGARPDLAQEMGFIGGKMPTHWGPHDGDAGIRKDVAMVADMREKCGPDFWLMLDCWMSQDVNYATKLAHACAPYNLKWIEECLPPQQYEGYRELKRQAPAGMMVTSGEHHGTLQSFRTLSETGIDIMQPDVGWCGGLTTLVEIAAIAKARGQLVVPHGSSVYSHHAVITFTNTPFSEFLMTSPDCATLRPQFDPILLGEPVPERGRIHKSVLDKPGFGVELNRDCNLKRPYQH	PGPT0017805_175	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
BMS020_01331	786	rhmR	COG1414	putative HTH-type transcriptional regulator RhmR	ATGTTGGAATCAACGAAAGTCCCGGCGCTGACCCGCGCGATTGAGATCCTCAATTTAATTGGCCGCATCGGACCCTGCAGCGCGGCGACGATAATAGCGGAGCTGGGGATCCCGAAAAGCACGGTTTATCTGCTGCTGGGCGAGCTGAAAAAGCAGCGCTTCATCAGTATGGATAATCAGGATAACTACTGCCTGTGGACCAAACTGGTGGAGCTGGCCGGGCAGGCGCTAAGCAAAATGGACCTGCGCGAGCTGGCGCGGCCGCGCCTGACCCGGCTGATGGATGAGTGCGGCCTGCTCTGCCATCTGGGCATTATCGATCACGGTAACGCCTACTACATTCTGAAAATTGAATCACCCGCCACCATTAGCGTGCGTTCGCACGAAGGAAAGAGCCTGTCGCTTTACCGCTCCGGGATCGGCAAATGTTTGCTGGCCTGGCAGCCCGCCGGGGTTCAGGCATCGATTATCGATGAACTGCAGTGGGAGAGGGCTACGCCAACGACCATCAGCAATGCTCAACAGCTGCGGGAGGAGCTGGGGCGGATCCGCGCCCGGGGCTGGAGCTTTGATAATGGCGAGGACTATCCGGACGTGCGCTGCGTGGCCGCCCCGGTTTTTAACGCCAATAACGACCTGACCGCCGCCATCTCGGTGGTGGGTACCCGTCTGCAAATCAATGAAGACAATCGCGATTACCTTGCCGGTAAGGCGATTGCCTGCGCGAAAGATATTTCACGACTGCTGGGGTGGAAAAGCCCCTTTGAACAACTCGCTTCATCATAA	MLESTKVPALTRAIEILNLIGRIGPCSAATIIAELGIPKSTVYLLLGELKKQRFISMDNQDNYCLWTKLVELAGQALSKMDLRELARPRLTRLMDECGLLCHLGIIDHGNAYYILKIESPATISVRSHEGKSLSLYRSGIGKCLLAWQPAGVQASIIDELQWERATPTTISNAQQLREELGRIRARGWSFDNGEDYPDVRCVAAPVFNANNDLTAAISVVGTRLQINEDNRDYLAGKAIACAKDISRLLGWKSPFEQLASS				NA	NA	NA	NA	NA
BMS020_01332	1197	pncC_2	COG1058	Nicotinamide-nucleotide amidohydrolase PncC	ATGTTGAATGTGGAAATGCTGTCCACTGGCGATGAAGTGTTGCATGGTCAAATCGTTGACACCAATGCAGCATGGCTGGCGGATTTCTTTTTTAATCAGGGTTTACCATTAACGCGCCGTAATACCGTCGGCGACGATCTCGATGCGCTGGTGGCGATGCTGCGCGAACGCAGCGAACAGGCGGATGTGCTGATCGTCAATGGCGGCCTCGGCCCAACCAGCGACGACCTGAGCGCGCTGGCCGCGGCCACCGCGAAAGGCGAAGGACTTATTTTGCATCCGGAGTGGCTGGAAACCATGACCCGCTTTTTTGCTGAACGCGGGCGGCCGATGGCGGAAAGCAACCGTAAGCAGGCGGAAATCCCCGCCAGCGCCGAGATGATCAATAACCCGGTGGGCACGGCCTGCGGCTTTGCCATCCAGCTCAATCGCTGCCTGATGTTTTTCACCCCCGGCGTTCCCTCTGAATTCAAAGTGATGGTCGAGCAGGAGATTTTACCGCGCCTGCGCCAGCGCTTTACGCTGCCGGAACCGCCGGTATGCCTGCGGCTGACCACTTTTGGCCGCTCGGAAAGCGAGCTGGCGCAAAACCTCAATCCGCTGACGTTACCGCCTGGCGTAGTGATGGGCTACCGCTCGTCGATGCCGATCATTGAGCTGAAGCTGACCGGACCGGCTGAGCAGCGTGACGCCATGCTGGCCCTGTGGCCGGAAGTGCGTAAAGTGGCTGGCGACAGCCTGATTTTCGAAGGCACTGAAGGGTTACCGGCGCAGATTGCACGCTGCCTGCAGGAGCGGCAGCTGAGCCTGACGCTCAGCGAGCAGTTTACCGGCGGTCTGCTGGCGCTCCAGCTGTCCCGCGCCGGCGCGCCGCTGCTGGCCAGCGAAGTGGTCCCGGCGCAGGAGGAGACGCTGGCGCAGGCGGCCCGCTGGGCGGCCGAGCGGCGCATTAACCATTTTGCCGGCCTGGCCCTGGCGGTGAGCGGCCAGGAAAACGATCATCTTAACGTGGCCCTGGCCACCCCCGACGGCACCTTCGCGCTGCGGGTGAAGTTTAGCGTCACCCGCCACAGCCTGGCGGTACGCCAGGAAGTCTGCGCCATGATGGCATTAAACCTGTTGCGTCGCTGGCTGAATGGCCAACCGCTGGCCAGTGAACATGGCTGGATTAACGTGGTGGATTCCCTCTCAATGTAA	MLNVEMLSTGDEVLHGQIVDTNAAWLADFFFNQGLPLTRRNTVGDDLDALVAMLRERSEQADVLIVNGGLGPTSDDLSALAAATAKGEGLILHPEWLETMTRFFAERGRPMAESNRKQAEIPASAEMINNPVGTACGFAIQLNRCLMFFTPGVPSEFKVMVEQEILPRLRQRFTLPEPPVCLRLTTFGRSESELAQNLNPLTLPPGVVMGYRSSMPIIELKLTGPAEQRDAMLALWPEVRKVAGDSLIFEGTEGLPAQIARCLQERQLSLTLSEQFTGGLLALQLSRAGAPLLASEVVPAQEETLAQAARWAAERRINHFAGLALAVSGQENDHLNVALATPDGTFALRVKFSVTRHSLAVRQEVCAMMALNLLRRWLNGQPLASEHGWINVVDSLSM	PGPT0013455_137	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013455-pncC-K03742	NA	NA
BMS020_01333	543			hypothetical protein	ATGAAAAAAAGCATTTTTATGGCGCTGGCTGGCGTCATGCTGGTCTCTTCGGCGGCCCATGCGATCAGCGTTACCGGCGAAGCAGGCGAGCATTACACCAACCTTGGGGTCGGCTTCGGCACCGAGTCCACCGGTCTGGCTGTTTCGGGTAACTGGCTGCACAGCGATAACGATGGCGACGCCGCGGGTTTAGGCCTGGGCCTGAATATTCCGCTGGGGCCGTTCCTGGCGACCGTGGGCGGTAAAGGGGTATACACCAACCCGAAACAGGGTGATGAAGGTTATGCGGCCGCGGTCGGCGGCGGCCTGCAGTGGAAAATCGGCGACAGCTTCCGTCTGTATGGCGACTACTACTACTCTCCAGATTCCCTCTCCAGCGGCATTGACAGCTATCAGGAAGCCAACGTCGGCGCCAGCTGGACCATTATGCGTCCGCTCAGCATCCAGGCAGGCTATCGCTATCTGAACCTGGCGGGCAAAGATGGCAACCGCGATAACACCATCGCCGACGGCCCGTACATCGGCGCCAGCGCCAGCTTCTAA	MKKSIFMALAGVMLVSSAAHAISVTGEAGEHYTNLGVGFGTESTGLAVSGNWLHSDNDGDAAGLGLGLNIPLGPFLATVGGKGVYTNPKQGDEGYAAAVGGGLQWKIGDSFRLYGDYYYSPDSLSSGIDSYQEANVGASWTIMRPLSIQAGYRYLNLAGKDGNRDNTIADGPYIGASASF				NA	NA	NA	NA	NA
BMS020_01334	918			ISNCY family transposase ISRor2	ATGGAAAGGACCACCCATTCCCCACATGACGCCGTGTTTAAACACCTACTGTCGCATCGGGCGACGGCGCGGGATTTTCTGGACATTCACCTTCCTGAACATTTGCGAGAATTATGCAATCTGCAAATGCTGCAGTTGGAGTCCGGAAGTTTTATCGATGAAGACCTGCGCGCCAGCCATTCCGATATTCTTTACTCGCTGCAAACCCAGGCGGGGGACGGATATATCTATCTGCTTATCGAACATCAAAGCTCTGCGGACCGTCATATGGCATTTCGCCTGATGCGTTATGCGATAGCAGCGATGCAGCGCCATCTGGATAAAGGACATACGCAACTGCCATTGGTGATCCCGCTGCTTTTTTATCATGGGCAAGTCTCGCCCTGGCCGTATCCCATGTGCTGGCTGGAAGGATTTGCTCATCCGCAAACCGCGCGGCAAGTATACAATCAGGATTTTCACTTAATCGATATCACGGTGCTTCCTGACGATACAATAATGCAGCACCGACGGGTCGCGATGCTTGAGTTACTGCAAAAGCATATCCGGCAGCGCGATATGATGGAACTGCAGGAGCAACTAGCCAGCCTGTTGGCGCTGGGATACACTAGCCGCAGACAGCTCAGGACGCTGCTTCACTATTTATTGCAGGCAGGAAATGCCGCCGATCCGGTCGCCTTTTTACGTAATCTTGCGCAAAATGTCCCCAGACGGCTGCATAAGGAGACGCTAATGAACATTGCCCAGTTTCTGGAACAACGCGGCCATCAGCAGGGCCTGCAGCAAGGTCTTGAACAGGGAGAACAATTGGCTGCGCAACGTATTGCCCAGGCGATGCTGGAAAACGGGCTTGATCTGGCGCTGGTGGCGAAGCTGACGGGGCTTGCGCCGGAGCGCCTGGCCCTGCTCGCCCATTAA	MERTTHSPHDAVFKHLLSHRATARDFLDIHLPEHLRELCNLQMLQLESGSFIDEDLRASHSDILYSLQTQAGDGYIYLLIEHQSSADRHMAFRLMRYAIAAMQRHLDKGHTQLPLVIPLLFYHGQVSPWPYPMCWLEGFAHPQTARQVYNQDFHLIDITVLPDDTIMQHRRVAMLELLQKHIRQRDMMELQEQLASLLALGYTSRRQLRTLLHYLLQAGNAADPVAFLRNLAQNVPRRLHKETLMNIAQFLEQRGHQQGLQQGLEQGEQLAAQRIAQAMLENGLDLALVAKLTGLAPERLALLAH				NA	NA	NA	NA	NA
BMS020_01335	426	nudI	COG0494	Nucleoside triphosphatase NudI	ATGCGTCAAAGGACGATTGTTTGCCCGCTAATCCAAAATGATGGCCATTACCTGTTGTGCAAGATGGCTGCCGACCGCGGGGTTTTTCCCGGACAGTGGGCGCTGGCCGGCGGCGGCGTGGAGTCGGGGGAAAGTATTGAAGAGGCGCTGCGACGCGAAGTCCGCGAGGAGCTTGGCGAAAAACTGCAGTTGACCTGTATCACGCCATGGAGCTTCCGCGACGATACCCGCGTGAAAACCTATCCCGACGGGCGCCAGGAAACGATCTATATGATCTATCTGATCTTCGACTGCGTTAGCGCCAATCGCGACGTAACGATCAACGAGGAGTTTGACGATTACGCCTGGGTGAAAGCGGATGAGCTTAAAAACTACGATCTCAATGCCGCCACCCGCCTCACCCTGAGCATGAAGGGGCTACTCTGA	MRQRTIVCPLIQNDGHYLLCKMAADRGVFPGQWALAGGGVESGESIEEALRREVREELGEKLQLTCITPWSFRDDTRVKTYPDGRQETIYMIYLIFDCVSANRDVTINEEFDDYAWVKADELKNYDLNAATRLTLSMKGLL				NA	NA	NA	NA	NA
BMS020_01336	1407	sasA_2		Adaptive-response sensory-kinase SasA	ATGAGATGGAGTAAGCCGCAATCGCTCTATGCCCAACTGTTGCTGTTTCTCGGCCTGCCGCTGGTCCTGCTGTGGGGACTCTCCGCGTTTAACAGCTACGTCAGCGCGCTGCAGGCGGCGACGCAAGCCTACGATCGTACCCTGCTGTCGTCGGCGCGGACGGTGGCCGAGCAGCTGGTGGTTCGCGGAGGGCAACTGGAGGTGAATGTGCCCTGGGTGGTGCTGGACAGCTTCGAGCTCAATATGAACGATCGTCTCTATTACAAGGTGCTCGACCCGCAGGGGAAGGTCATTTCCGGCTATGACGATCTGCCCGCGATGCCGCCCTCCACCTCGCGAACTCAGCTCTATCCGGCGCTGGCGTGGTTTTATCATACCGAATATCGCGGTCAGGCAATCCGCGTGGCGCGCCTGCTGCAGCCCATCAACGAAGGCGGCATCGTTGGCATGGCGGAGATATATATTGCCGAAACGCTGCAGTCCCGCCGCTGGCTGGCCGGACAATTACTTTTCTCATCCTGGGTGTCGCAGGGGTTACTGGTCCTGTTGACGCTGGTGCTGGCAGCCTGGCTGCTGCGCCGCGTGCTGCGGCCCATGCGTCAGCTCTCCGCGCTGATGGTGCGCCGTGAACCCGGTCTGCTGACGCCGCTGCCGGAGCTGCTGCCCTGGTCGGAAACGCGGCTGCTGATTGTCGCGTTCAACCGCTACATCGACCGCCTGCGGGTGATGATCTCCCGCCAGGAGCGCTTCAGCGCCGATGCGTCCCATCAGCTGAAAACACCGCTGGCGGTGCTGAAAACGCAGGCTTCGGTAGCCCTGGCCAGCGACGATCCGCAACTGTGGCGCGAAAGTCTGCAGGCGATGCGCGCCACGCTGGACGATACGGTCTTGTTAACGGAGCGGTTGCTGCAGCTGGCGACGGTAAAACAGCGGGAGCAGGCGTTTGCGGTGATTAACTTGCCGGAGATTGTGCGCAACAGCTGCTTTTCACGTATCGCGCAAGCGCGGAGCAAACATATCGATCTTGGCTACGAGGGCGAGCAGTCGGCGGTATATGTGGCAGGCGATAGCGTTCTGCTGGGGGAGCTGTGCGCTAACCTGCTCGACAATGCCATTCGCTATACCCCGGAATATGGAACGGTCACGCTTAGCCTGCATCGCGACGGCGACGCCGTGTTGCTCAGCGTGGAAGACAGCGGTCCGGGAATTGACGACCACCAGGTACACCAGGCGCTGATGCCGTTTCGCCGCCTCGATAACGCGGGCGCGATTCCCGGCGCCGGGCTGGGCCTGGCGCTGGTTAACGATATCGCACGTTTGCATCGTAGCCACCTGCAGCTTTCGCGCAGCGAAAGCCTGGGCGGACTGAAGGCGACGCTGCGCCTGCTGACCGTGGCGTCAGAGTAG	MRWSKPQSLYAQLLLFLGLPLVLLWGLSAFNSYVSALQAATQAYDRTLLSSARTVAEQLVVRGGQLEVNVPWVVLDSFELNMNDRLYYKVLDPQGKVISGYDDLPAMPPSTSRTQLYPALAWFYHTEYRGQAIRVARLLQPINEGGIVGMAEIYIAETLQSRRWLAGQLLFSSWVSQGLLVLLTLVLAAWLLRRVLRPMRQLSALMVRREPGLLTPLPELLPWSETRLLIVAFNRYIDRLRVMISRQERFSADASHQLKTPLAVLKTQASVALASDDPQLWRESLQAMRATLDDTVLLTERLLQLATVKQREQAFAVINLPEIVRNSCFSRIAQARSKHIDLGYEGEQSAVYVAGDSVLLGELCANLLDNAIRYTPEYGTVTLSLHRDGDAVLLSVEDSGPGIDDHQVHQALMPFRRLDNAGAIPGAGLGLALVNDIARLHRSHLQLSRSESLGGLKATLRLLTVASE	PGPT0017370_633	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-GENTAMICIN|TOBRAMYCIN|KANAMYCIN_RESISTENCE,PGPT0017370-tctE-K07649	NA	NA
BMS020_01337	678	tctD_1	COG0745	Transcriptional regulatory protein tctD	ATGCGTCTCTTATTAGCCGAGGATAATCGTGAGCTGGCTCACTGGCTGGAAAAAGCGCTGGTGCAGGGCGGTTTTGCCGTAGATTGCGTCGCTGACGGGCGTGCGGCCGACCATCTGCTGCAAAGCGAGCAATATGCGCTGGCGGTGCTGGATATCGGTATGCCGGGGTTCGATGGCCTTGAAGTGGTGCAGCGGCTGCGCAAGCGCGGGCAGACCCTGCCGGTGCTGTTGCTGACCGCCCGCAGCGCGGTAGCGGACCGGGTGAAGGGCTTAAATGCCGGCGCGGATGACTATTTACCCAAGCCCTTTGAGCTGGAAGAGCTCGACGCCCGCCTGCGGGCGCTGCTCCGGCGCAGCGAAGGGCAGGTGCATGAGGTGCAGCAGCTTGGCGAGCTGGCGTATTGTGACGAAGGCTATTTTTTACTCCGTGGCCAGATGTTGTCTCTGACGCCGCGCGAGCTGGCGCTATTGAAAGTGCTGATGTTTCGCCGCACCCGCCCGGTTTCCCGTCAGCAGCTGTTCGAACAGGTGTTCAGCCTCAGCGATGACGTCAGTCCGGAAAGCATCGAACTCTACATTCATCGTCTGCGCAAGAAACTTCAGGCGAGCAATGTGCGTATAACCACCCTGCGCGGTTTAGGCTATCTGCTTGAGTGCGAGCGCCATGAGATGGAGTAA	MRLLLAEDNRELAHWLEKALVQGGFAVDCVADGRAADHLLQSEQYALAVLDIGMPGFDGLEVVQRLRKRGQTLPVLLLTARSAVADRVKGLNAGADDYLPKPFELEELDARLRALLRRSEGQVHEVQQLGELAYCDEGYFLLRGQMLSLTPRELALLKVLMFRRTRPVSRQQLFEQVFSLSDDVSPESIELYIHRLRKKLQASNVRITTLRGLGYLLECERHEME	PGPT0017365_381	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-GENTAMICIN|TOBRAMYCIN|KANAMYCIN_RESISTENCE,PGPT0017365-tctD-K07774	NA	NA
BMS020_01338	981			hypothetical protein	ATGAAAACGCCATTTTTCCGCCATCTGAGCGCCATCGCGCTGTGCCTTTGCACCACATCCGCCTTCGCCGCAGAGGCCCCGTCCCGCACCGAATGTATCGCGCCCGCTAAACCCGGCGGCGGCTTTGACCTGACCTGTAAGCTGATTCAGGTGAGCCTGATGGAAACCGGCGCTATCGAGAAACCGATGCGCGTCACCTATATGCCCGGCGGCGTGGGCGCGGTAGCCTACAACGCCATTGTCGCCCAGCGCCCTGCAGAGCCGGGGACCGTCGTCGCCTTCTCCGGCGGCTCGCTGCTGAACCTGTCGCAGGGTAAATTCGGCCGTTACAGCGTCGATGACGTGCGCTGGCTGGCGAGCGTCGGCACCGACTACGGCATGATCGCCGTGCGCGCCGATTCGCCATGGAAAGATCTGAAGTCGTTTATGACCGCGATGGAGAAAAATCCCTCCAGTATCGTGATTGGCGCCGGGGCCTCCATCGGCAGCCAGGACTGGATGAAAGCGGCGCTGCTGGCGCAAAAAGCCAACGTCGACCCGCATAAAATGCGCTACGTCGCCTTTGAGGGCGGCGGCGAGCCGGTGACCGCGCTGCTCGGTAACCATGTGCAGGCGGTCTCCGGCGATCTCAGCGAGATGGTGCCCTATCTGCAGGGCAATAAAATCCGCGTGCTGGCGGTCTTCTCCAGTGAACGACTGCCGGGCGCGCTCGCCGATGTCCCCACCGCTAAAGAACAGGGCTACGACCTGGTCTGGCCGATTATTCGCGGCTTCTTTATGGGCCCGAAAGTCAGCGACGCCGAGTACCAGTGGTGGGTCGATGAATTCACTAAACTGCAGCAAACCGAAGCGTTCAAAAAGCAACGTGAACTGCGCGGCCTGTTTGAATTCAACATGAACGGCAAGGAGCTCGATACCTACGTTAAGCAGCAGGTCAACGACTATCGCGAACAGGCGAAAGCCTTTGGCCTGGCAAAATAA	MKTPFFRHLSAIALCLCTTSAFAAEAPSRTECIAPAKPGGGFDLTCKLIQVSLMETGAIEKPMRVTYMPGGVGAVAYNAIVAQRPAEPGTVVAFSGGSLLNLSQGKFGRYSVDDVRWLASVGTDYGMIAVRADSPWKDLKSFMTAMEKNPSSIVIGAGASIGSQDWMKAALLAQKANVDPHKMRYVAFEGGGEPVTALLGNHVQAVSGDLSEMVPYLQGNKIRVLAVFSSERLPGALADVPTAKEQGYDLVWPIIRGFFMGPKVSDAEYQWWVDEFTKLQQTEAFKKQRELRGLFEFNMNGKELDTYVKQQVNDYREQAKAFGLAK	PGPT0017360_1764	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017360-tctC-K07795	NA	NA
BMS020_01339	432			hypothetical protein	ATGAGCGATCGTATTTTTGCCGGAGTGTGGCTGTTGTTATGTATTGGCGGTCTGTTTATCGCCTGGCAGATCCACAGCGAATACGCCTATGAACCCGTCGGCCCGCGTCCCTTCCCGCTCGGGATCATCGGCCTGATGCTGCTGTGCTCGGCGTTAATGTTGCTACGTCGCCCGGACGCCGTCGAGTGGCCGGGACGGCATGTGCTGCAGCGTCTGCTGACCATGGTCGTGGTGCTGGTGGTCTACGCCTGGGGGTTTGAATGGCTCGGTTTTCCGCTGGCCACCGCGCTGCTGACGGCGATCATTGGTCTGCTGTTCGGCGCGACGCTGCCGGCGGCGGGCATTGCCGGCGTCGCGATGGGCGTGTCGTTATGGTACGCCTTCGACACCCTGCTCGATGTCACCCTGCCCCTTGGCATCTGGTTTAATTAA	MSDRIFAGVWLLLCIGGLFIAWQIHSEYAYEPVGPRPFPLGIIGLMLLCSALMLLRRPDAVEWPGRHVLQRLLTMVVVLVVYAWGFEWLGFPLATALLTAIIGLLFGATLPAAGIAGVAMGVSLWYAFDTLLDVTLPLGIWFN	PGPT0017355_2653	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017355-tctB-K07794	NA	NA
BMS020_01340	1518			hypothetical protein	ATGGATACCTGGATCTATCTCTCGCAGGGCTTCGCCGTCGCCATGACGCCGGAGAACCTGCTGATCGCCCTGATCGGCTGCTTTGTCGGGACTATCGTCGGCCTCCTGCCGGGGCTGGGGCCAATCAACGGCGTGGCGATTCTGCTGCCGCTGGCTTTCGCCCTGCATTTACCCGCGGAATCGGCGCTGATCCTGCTGGCGACGGTCTATATCGGTTGCGAATACGGCGGGCGTATTTCATCAATTCTGTTGAACGTGCCCGGCGATGCCGCCGCCATTATGACCGCCCTCGACGGTTATCCGATGGCCCAGCAGGGTCGCGGCGGCGTTGCGTTGTCGATTTCCGCCGTCAGTTCCTTCTTTGGCTCAATGATCGCCATCGGCGGTATTATTTTGTTCGCGCCGCTGCTCGCCCAGTGGTCGCTGGCGTTCGGTCCGGCGGAGTACTTCGCGCTGATGGTCTTCGCCATCGCCTGTCTTGGCAGCATGATGGCGCAGAACCCGCTGAAGTCGTTCCTCGCGGCGTTAATCGGCCTGGGTCTGGCGACGGTAGGGGTGGACGCCAATACCGGGGTTTACCGCTTCACCTTCGACAGCGTCCATCTCTCGGACGGCGTACAGTTTATTGTGGTGGTGATCGGCCTGTTCTCGGTTTCAGAGATCCTGTTGATGCTGGAGAGCACCAGCGGCGGACAAACGCTGGTGCGGAAAACCGGACGGATGCTGTTTAACACCAAAGAGGCCGCGCAGTGCGTCGGCGCGACCCTGCGCTCTTCGGTGGTGGGTTTCTTCGTCGGCATTCTGCCCGGCGCCGGGGCGACCATCGCCAGCGCCATTACCTACATGACGGAGAAAAAACTCAGCGGTAACAGCGATAACTTCGGCAAGGGCGATATTCGCGGCGTGGCGGCGCCGGAAGCGGCCAATAACGCCTCCGCCTGCGGTTCCTTTATTCCCATGCTGACGCTCGGCGTGCCGGGGTCCGGCACCACCGCGGTGATGATGGGCGCGCTGACGCTGTATAACATCACCCCCGGCCCGGCAATGTTCACCGAGCAGCCGGATATCGTCTGGGGGCTGATTGCCGCCCTGCTGATCGCCAACGTGATGCTGCTTATCATGAACATTCCGCTGATCGGCCTGTTCACCCGTATGCTGACCATTCCGCTGTGGTTTCTGGTCCCGGCCATCGCCGCGGTCTCCGCCGTCGGCGTCTACGCGGTACACAGCACTACTTTTGACCTGCTGCTGATGGTGGGGCTTGGGGTGCTCGGCTACATCATGCGCAAAATGCACTTCCCGATGTCGCCGCTGATCCTTGGCTTCGTGCTGGGGGAGATGCTGGAGCAGAACCTGCGTCGCGCGCTGTCGATCAGCAACGGCAATCTGGCGATCCTGTGGCAAAGCGGGGTGACCAAAACGCTGCTGGTGCTGGCTATCGCCGTGCTGGTGGTGCCGCCGCTGCTGCGTCTGCGGCGTAAACAGCGCCAGCGTCGCGCCGAAGCCAATATCGGCTAA	MDTWIYLSQGFAVAMTPENLLIALIGCFVGTIVGLLPGLGPINGVAILLPLAFALHLPAESALILLATVYIGCEYGGRISSILLNVPGDAAAIMTALDGYPMAQQGRGGVALSISAVSSFFGSMIAIGGIILFAPLLAQWSLAFGPAEYFALMVFAIACLGSMMAQNPLKSFLAALIGLGLATVGVDANTGVYRFTFDSVHLSDGVQFIVVVIGLFSVSEILLMLESTSGGQTLVRKTGRMLFNTKEAAQCVGATLRSSVVGFFVGILPGAGATIASAITYMTEKKLSGNSDNFGKGDIRGVAAPEAANNASACGSFIPMLTLGVPGSGTTAVMMGALTLYNITPGPAMFTEQPDIVWGLIAALLIANVMLLIMNIPLIGLFTRMLTIPLWFLVPAIAAVSAVGVYAVHSTTFDLLLMVGLGVLGYIMRKMHFPMSPLILGFVLGEMLEQNLRRALSISNGNLAILWQSGVTKTLLVLAIAVLVVPPLLRLRRKQRQRRAEANIG	PGPT0017350_1338	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017350-tctA-K07793	NA	NA
BMS020_01341	1362	menE	COG0318	2-succinylbenzoate--CoA ligase	GTGACCTTTCGCGACTGGCCCTGGCGGCACTGGCGCCAGCGGCGCGGAGAGGCGCAGGCGCTGCGCCTGAATGACCAGCCGCTGACCTGGCGCGACCTGTGCGCCCGCGTTGACGCGCTGGCGGCCGGGTTTGCCGCGCAGGGCGTAACCGAAGGTCACGGGGTGGCGCTGCAGGCTTTTAACCAGCCGTCGACGCTGCTGGCCTGGCTGGCGCTGCTGCAGTGCGGCGCGCGGGTGCTGCCGCTGAATCCGCAGCTGCCGACGGCGTTGCTGCAGGAACTGCTGCCAGCGTTGACCGTCCAGCATCAGCTGGTGCTTAACGGCGATGCGCTGCCGGGGGATTTACCGGCGTTAACCCTGCAGGCGACAATGGGAACCCATGCTGTGCCGTGGCGTGGGGATCGTTTCGCCTCAATGACGCTGACCTCGGGGTCGACCGGTTTGCCGAAGGCGGCAGTGCATCATGCCAGCGCCCATCTGGCCAGCGCCGCCGGCGTGCTGGCGCTGATGCCGTTTGCCGCAGAAGATGACTGGCTGCTGTCGCTGCCGCTGTTTCATGTCTCCGGCCAGGGGATTATGTGGCGCTGGCTGCTGGCCGGCGCGCGGCTGACGGTGCGCGATAAACAGCCGCTGGCGCAGATGCTGCAGGGCTGTACCCATGCTTCGCTGGTGCCGACTCAGCTGTGGCGCCTGCTGAATGACGATGCTGCGCTTTCCCTCAAGGCGGTGCTGCTCGGCGGCGCGGCGATCCCGGTCGAATTGACCGAGCGGGCGCGGGGGCAGGGGGTACGCACCTACTGCGGCTATGGCCTGACCGAATTCGCTTCCACCGTCTGCGCTAAAGAGGCCGACGGCGCGGCGGATGTGGGCGCGGCGTTGCCGGGGCGGGAGATGAAAATCGTTGCCGGCGAGGTCTGGCTGCGGGCGGCGAGCATGGCCGCGGGCTACTGGCGCGACGGTCAATTGTTGCCATTGACCAACGACGAAGGGTGGTTTGCCACCCGCGATAGCGGCGAGATCATCGATGGACGGCTTACTCTCCTCGGGCGCCTGGATAATCTCTTTTTCAGCGGTGGGGAAGGGATCCAGCCGGAGGAGGTGGAACGGATCATCGGGGCGCATCCGCAGATACAGCAGGCGTTTGTCGTGCCGCTGGACGATGCGGAATATGGCCAGCGTCCGGTAGCGGTGGTGGAATGCGATGACGGCTGCGAAATGAGCGTGCTGGCGGCATGGAGCGCGGAACGGCTGGCGCGTTTCCAGCAGCCGGTGCGTTGGCTGCGGCTGCCGGAAACGTTAAAGAACGGTGGGATTAAGATCTCGCGCCGGGCGCTGCGCGAATGGGTCAATTCGCCGGCTTAG	MTFRDWPWRHWRQRRGEAQALRLNDQPLTWRDLCARVDALAAGFAAQGVTEGHGVALQAFNQPSTLLAWLALLQCGARVLPLNPQLPTALLQELLPALTVQHQLVLNGDALPGDLPALTLQATMGTHAVPWRGDRFASMTLTSGSTGLPKAAVHHASAHLASAAGVLALMPFAAEDDWLLSLPLFHVSGQGIMWRWLLAGARLTVRDKQPLAQMLQGCTHASLVPTQLWRLLNDDAALSLKAVLLGGAAIPVELTERARGQGVRTYCGYGLTEFASTVCAKEADGAADVGAALPGREMKIVAGEVWLRAASMAAGYWRDGQLLPLTNDEGWFATRDSGEIIDGRLTLLGRLDNLFFSGGEGIQPEEVERIIGAHPQIQQAFVVPLDDAEYGQRPVAVVECDDGCEMSVLAAWSAERLARFQQPVRWLRLPETLKNGGIKISRRALREWVNSPA	PGPT0009380_1073	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009380-menE-K01911	NA	NA
BMS020_01342	966	menC	COG1441	o-succinylbenzoate synthase	ATGCGCGTTTCGCAGGTTTACCGCTGGCAGATACCGATGGACGCGGGCGTGGTGCTGCGAGAACGGCGGTTAAAAACCCGCGACGGGCTGTTCATCCACCTGCGGGAGGGGGAGCGGGAGGGCTGGGGGGAAATTTCTCCCCTGCCGGGATTCAGCGCAGAGACCCTGGCGGAGGCGGAGGCGGCGCTGCTGCCCTGGGCTCAGGCCTGGCGCGACGGCGCGGAGCCGGCGCTTCCTGCGCTGCCCTCTGTCGCCTTTGGCATCAGCTGCGCGCAGGCGGAGCTCAGCGGCGAGCTGCCGCAGGCCGCGGATTATCGCGCGGCGCCGCTCTGCTCCGGCGATCCGGATGAGCTGTTCGCCAGACTGGCGGCGATGCCCGGCGAGAAAGTCGCTAAGGTGAAAGTGGGGCTCTGGGAGGCGGTCCGCGACGGCATGGTGGTTAATCTGCTGCTGGAAGCCATCCCCGACCTGCAGTTGCGTCTGGATGCCAACCGGGCCTGGACGCCGCTGAAAGCGCAGCAGTTTGCGAAATATGTCGATCCGGCGTATCGCCAGCGCATTGCCTTTCTTGAGGAACCTTGTAAAACGCGGGAGGACTCGCGGGCCTTTAGTCGCGAAACCGGGATCGCTATCGCCTGGGATGAAAGCCTGCGCGAGGCGGATTTTCGCTTCGTCGCCGAGCCGGGCGTGCACGCGGTGGTGATCAAGCCGACGCTAACCGGCAGTTTACACCGGGTTCAGCAGCAGGTCGCCGCGGCCCATGCGCTGGGGCTGAGCGCGGTGATCAGCTCGTCGATCGAGTCCAGCCTCGGGTTAACCCAGCTGGCGCGGGTTGCCGCCTGGCTGACGCCGCAGACCATCCCCGGACTGGACACCCTGTCGCTGATGGGCGCCCAGCTGGTGCGGGCGTGGCCGGAAAGCACCCTGCCGATGCTCAGCATCGATACACTGGAGCCGCTGCTGTGA	MRVSQVYRWQIPMDAGVVLRERRLKTRDGLFIHLREGEREGWGEISPLPGFSAETLAEAEAALLPWAQAWRDGAEPALPALPSVAFGISCAQAELSGELPQAADYRAAPLCSGDPDELFARLAAMPGEKVAKVKVGLWEAVRDGMVVNLLLEAIPDLQLRLDANRAWTPLKAQQFAKYVDPAYRQRIAFLEEPCKTREDSRAFSRETGIAIAWDESLREADFRFVAEPGVHAVVIKPTLTGSLHRVQQQVAAAHALGLSAVISSSIESSLGLTQLARVAAWLTPQTIPGLDTLSLMGAQLVRAWPESTLPMLSIDTLEPLL	PGPT0009375_1734	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009375-menC-K02549	NA	NA
BMS020_01343	858	menB_1	COG0447	1,4-dihydroxy-2-naphthoyl-CoA synthase	ATGATCTCTCTTGATGAAGCAATGCTCTATGCCCCTGTTGAATGGCACGATTGTTCCGAAGGCTATACCGATATTCGCTATCACAAATCGGCCGACGGCATTGCCAAAATCACAATCAATCGCCCGCAGGTGCGCAACGCCTTCCGCCCGCTGACCGTCAAAGAGATGATCCAGGCGCTGGCGGATGCCCGTTATGACGACAATATCGGGGTGATTGTCCTGACCGGGGAAGGTGAGAAAGCCTTTTGCGCCGGCGGCGATCAGAAAGTCCGCGGCGATTACGGCGGCTATCAGGACGACTCCGGCGTGCATCATCTCAACGTACTCGACTTTCAGCGCCAGATCCGCACCTGCCCGAAACCGGTGGTAGCGATGGTGGCCGGCTACTCTATCGGCGGCGGCCACGTGCTGCACATGATGTGCGATCTGACCATCGCGGCGGAAAACGCCATCTTCGGTCAGACCGGGCCGAAAGTCGGCTCCTTCGACGGCGGCTGGGGCGCCTCCTATATGGCGCGCATCGTCGGGCAGAAAAAAGCGCGCGAAATCTGGTTCCTCTGCCGTCAGTATGACGCGCAGCAGGCGCTGGACATGGGGCTGGTGAACACCGTGGTGCCGCTGGCGGATCTGGAAAAAGAGACGGTACGCTGGTGTCGTGAAATGCTGCAGAACAGCCCAATGGCGCTGCGCTGCCTGAAAGCGGCGCTGAACGCCGACTGCGACGGCCAGGCCGGTCTGCAGGAGCTGGCGGGCAACGCCACCATGCTGTTCTACATGACGGAAGAGGGACAGGAAGGCCGCAATGCCTTCAACCAGAAACGTCAGCCGGACTTCAGCAAATTTAAACGGAATCCCTAA	MISLDEAMLYAPVEWHDCSEGYTDIRYHKSADGIAKITINRPQVRNAFRPLTVKEMIQALADARYDDNIGVIVLTGEGEKAFCAGGDQKVRGDYGGYQDDSGVHHLNVLDFQRQIRTCPKPVVAMVAGYSIGGGHVLHMMCDLTIAAENAIFGQTGPKVGSFDGGWGASYMARIVGQKKAREIWFLCRQYDAQQALDMGLVNTVVPLADLEKETVRWCREMLQNSPMALRCLKAALNADCDGQAGLQELAGNATMLFYMTEEGQEGRNAFNQKRQPDFSKFKRNP	PGPT0009385_1111	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009385-menB-K01661	NA	NA
BMS020_01344	759	menH_4	COG0596	2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	GTGACCCTCAGCGCTGCAGTCGAACATGGCCAGCCGGGTTATCCCTGGCTGGTCTTTCTGCACGGTTTTTCCGGCGACCGCCATGAGTGGCGGGAAGTAGGCGACGCGTTTCGCGCCTGGCCGCGGCTGTATCTCGATCTGCCGGGCCACGGCGGCTCGGCGGATATCGCGGTGCAGGACTTTGCCGGGGTCAATATTCTGCTGCAGGCTACGCTTAATAGTTACAACATACTTAACTACTGGCTGATCGGTTACTCGCTGGGGGGCCGGGTGGCGATGAACTTCGCCTGCCAGCCGCGCGCGGGCCTGCGCGGCCTGATCGTTGAGGGCGGCCATCCGGGGCTGCAGGATGCCGAAGCGCGGCAGGCGCGGCGCAGCAACGACAGCGCCTGGGCGGAACGTTTTCGCCATGAGCCGTTGGCGCAGGTCTTTGCCGACTGGTATCAGCAGCCGGTCTTCGCTTCACTGGATGCCGGGCAGCGCGCGGCGCTGGTCGCCTTACGCAGCCGGAACAACGGCGCGACGCTGGCCGGGATGCTGCAGGCGACCTCCCTTGCCGGGCAGGCCGATCTGCGCGCGTCCCTGCAGGCGCGCGATTTCCCCTTTCATTACCTGTGCGGCGAGCGCGACGCGAAGTTTCGCGCCATCGCGCAGGCGCTCGCGGCGGATCTCCATCTTATTCACCATGCCGGACACAACGCGCACCGGGACAACCCGGCGGCGGTGATTGCCTGTCTGGCGCAGATTCTGGCAAGTTAA	MTLSAAVEHGQPGYPWLVFLHGFSGDRHEWREVGDAFRAWPRLYLDLPGHGGSADIAVQDFAGVNILLQATLNSYNILNYWLIGYSLGGRVAMNFACQPRAGLRGLIVEGGHPGLQDAEARQARRSNDSAWAERFRHEPLAQVFADWYQQPVFASLDAGQRAALVALRSRNNGATLAGMLQATSLAGQADLRASLQARDFPFHYLCGERDAKFRAIAQALAADLHLIHHAGHNAHRDNPAAVIACLAQILAS	PGPT0009370_1004	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009370-menH-K08680	NA	NA
BMS020_01345	1671	menD	COG1165	2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate synthase	ATGTCAGTAAGCGCATTTAACCGACGCTGGGCGGCGGTGATCCTGGAAGCTTTAACGCGCCACGGCGTGCAGCATATCTGCATTGCGCCGGGCTCGCGCTCGACACCCTTAACCCTGGCGGCGGCGGAAAACCGCGCCTTTATCCATCATACCCATTTTGACGAACGCGGCCTCGGCCACCTGGCGCTCGGTCTGGCGAAAGCCAGTCGTCAGCCGGTGGCGGTTATTGTGACCTCCGGGACCGCCACCGCGAACCTATATCCGGCGCTGATTGAGGCGGGGCTTACCGGGGAAAAGCTGATTCTCCTGACCGCCGACCGTCCGCCGGAGCTGATCGACTGCGGCGCCAATCAGGCGATTCGTCAGCCGGGGATGTTCGCCTCCCATCCGTCGCAGACGATTTCTCTGCCGCGTCCCTCGCAGGATATTTCCGCCCGCTGGCTGGTCTCGACCCTCGACCAGGCCTTGGGCGAGCTGCACGCCGGCGGGGTGCATATCAACTGCCCGTTCGCCGAACCGCTGTATGGCGATATGGATGATACTGGCGTGGAGTGGCAGCAGCAGCTCGGCAACTGGTGGCAGAGCGATAAACCCTGGTTACGTCAGGCGCTGCAGATGGAAAGTGAGAAACAGCGCGACTGGTTCTTCTGGCGGCAAAAGCGCGGCGTGGTCGTGGCGGGCAGAATGAGCGCCGCCGAAGGGAAAAAAGTGGCCGAGTGGGCGCAAACCCTCGGCTGGCCGCTGATCGGCGATATCCTGTCACAGACCGGGCAGCCGCTGCCGTGCGCTGACCTGTGGCTGGGCAACGGCAAAGCGGTGAGCGAGCTGGCGCAGGCGCAGATCGTGGTTCAGCTCGGCAGCAGCCTGACCGGCAAGCGGGTCCTGCAGTGGCAGGCCACCTGCGAGCCTGATGAATACTGGCTGGTGGATAATCTGCCCGGCCGTCTCGATCCGGCGCAGCACCGCGGCCGTCGTCTGCTCGCCAGCATTGACCGCTGGCTTGAGCTTCACCCGGCGGAGAAACGCCAGCCGTGGGCGACGGCTATTCCTGAACTGGCCCGACAGGCGTGGGAGGCGGCGGTCGCCAGCAACGAACCCTTTGGCGAAGCGCAGCTGGCGCAGCGAATTCGGCGCTATCTGCCGGAACAGGGGCAACTGTTTGTCGGCAACAGCCTGGTGGTGCGCCTGATCGACGCCCTGGCGCAGCTGCCGGCTGGCTACCCGGTTTACAGCAACCGCGGCGCCAGCGGCATTGATGGCTTGATCGCCACCGCCGCCGGCGTCCAGCGCGCCAGCGCCCGGCCAACCCTGGCTATCGTCGGCGATCTTTCGGCGCTGTACGATCTCAACTCGCTGGCCCTGCTGCGCCAGGCGTCGGCGCCGCTGGTGCTGATCGTGGTGAACAACAACGGCGGGCAGATTTTCTCCATGCTGCCGACGCCGCAGGACGAGCGGCGCCAGTTCTACTTAATGCCGCAGGACGTTGATTTCAGCCACGCGGCGGCGATGTTCGGCCTGGTCTATCATCGCCCGGCTGACTGGCAGGCGCTGGATGAGGCGCTGGCCGGCGCCTGGCGCAGGGCAGGGGCGACGGTGATTGAGCTGGCGGTCAATGAGACCGACGGCACGCAGACCCTCCAGCAGCTGCTGGCGCAGGTAAGTCGCCTGTGA	MSVSAFNRRWAAVILEALTRHGVQHICIAPGSRSTPLTLAAAENRAFIHHTHFDERGLGHLALGLAKASRQPVAVIVTSGTATANLYPALIEAGLTGEKLILLTADRPPELIDCGANQAIRQPGMFASHPSQTISLPRPSQDISARWLVSTLDQALGELHAGGVHINCPFAEPLYGDMDDTGVEWQQQLGNWWQSDKPWLRQALQMESEKQRDWFFWRQKRGVVVAGRMSAAEGKKVAEWAQTLGWPLIGDILSQTGQPLPCADLWLGNGKAVSELAQAQIVVQLGSSLTGKRVLQWQATCEPDEYWLVDNLPGRLDPAQHRGRRLLASIDRWLELHPAEKRQPWATAIPELARQAWEAAVASNEPFGEAQLAQRIRRYLPEQGQLFVGNSLVVRLIDALAQLPAGYPVYSNRGASGIDGLIATAAGVQRASARPTLAIVGDLSALYDLNSLALLRQASAPLVLIVVNNNGGQIFSMLPTPQDERRQFYLMPQDVDFSHAAAMFGLVYHRPADWQALDEALAGAWRRAGATVIELAVNETDGTQTLQQLLAQVSRL	PGPT0009365_1520	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009365-menD-K02551	NA	NA
BMS020_01346	1290	menF	COG1169	Isochorismate synthase MenF	GTGCTGTCTGTTTCCACTGCGCTGGCCCGTTTACGTGACGGCCTGAGTGAGCCCTTTCCTGACTCACCCGGCACGCGAATTATCGATATTGCCTTTCCGCTGAATGATGCCTTCGATCCGCTGCTATGGTGCGGCCAGCAGCCGCAGTGGCCGCAGTTCTACTGGCAGCAGCGCAATGGCGACGAGGAGCTGGCGGCGCTGGGGGCGGTAAAAAGCTTTCCCTCGCTCGACGCCGCAAACCGCTTTTTACACCAGGCCGGGCGGCAGGATCTGCGCATCTGCGGCCTGAATGCGTTTGCCCCGCAGCAGGGCCGGCTGGTGCTGCCGCGTCTGGAGTGGCGTCGGTGCGGCGGCAGGGCCGTGATGCGGCTGGTGCTGCACAGCGACCTCTCCCTGCGCGACGATGCCGTGACGGCGCGTGATTTTCTCGCCAGTCTGACCACCGCCCAGGCGACCCCTGGCGGCGTGCCGCCGCTGCTGAGCGAGCGCCACTCCTCCGATTATCCCCAGTGGCAGGCAATGATAGACCAGGCGACGCAGGCCATCGCCGCCGGCGACATGGATAAAGTGGTGCTGGCGCGGGCAACCGACCTGCAGTTTGCCGCCCCGCTGGATGCCGTGAGCATCATGGCCGCCAGCCGCAGCCGCAATCTTAACTGTTTTCATTTCCTGATGGCGTTCAATGCCCGGCAGGCGTTTTTCGGCTCCACGCCGGAGCGGCTGTGGCGCCGGCGCGGCGCGCTGCTGCGCACCGAAGCGCTGGCGGGCACCGTCGCTAATCATCAGGATGACGCGAAGGCGCAGCAGCTGGCCGACTGGTTGATGAAAGACGACAAAAATCAGCGGGAAAACATGCTGGTGGTGGAGGATATCTGCCAGCGCCTGCAGAGTGAGGCCTCGACGCTGGACGTTCTGCCGCCGCAGGTGGTGAGGCTGCGCAAGGTGCAGCATCTCCGACGCTGCATCTGGACCGAGCTGGCGGAGCCTGACGACAGCCGCTGTCTGCTGCAGCTCCAGCCCACCGCCGCGGTGGCCGGCCTGCCGCGGCGGGCGGCGCTGGCATTCATTCAGCGCCATGAACCTTTTTCCCGTGAATGGTACGCCGGTTCCGCCGGGTATCTGTCGCTGGCGCAAAGCGAGTTTTGCGTGGCGCTGCGTTCGGCGAAAGTGGACAACGACACTCTGCGACTGTATGCCGGGGCGGGGATCGTCAGCGGCTCCGATGCGCAGCAGGAGTGGCAGGAGATTGACAACAAAGCGGCCGGGCTGCGCTCGCTGCTGTGTCCATAA	MLSVSTALARLRDGLSEPFPDSPGTRIIDIAFPLNDAFDPLLWCGQQPQWPQFYWQQRNGDEELAALGAVKSFPSLDAANRFLHQAGRQDLRICGLNAFAPQQGRLVLPRLEWRRCGGRAVMRLVLHSDLSLRDDAVTARDFLASLTTAQATPGGVPPLLSERHSSDYPQWQAMIDQATQAIAAGDMDKVVLARATDLQFAAPLDAVSIMAASRSRNLNCFHFLMAFNARQAFFGSTPERLWRRRGALLRTEALAGTVANHQDDAKAQQLADWLMKDDKNQRENMLVVEDICQRLQSEASTLDVLPPQVVRLRKVQHLRRCIWTELAEPDDSRCLLQLQPTAAVAGLPRRAALAFIQRHEPFSREWYAGSAGYLSLAQSEFCVALRSAKVDNDTLRLYAGAGIVSGSDAQQEWQEIDNKAAGLRSLLCP	PGPT0009360_1192	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009360-menF-K02552	NA	NA
BMS020_01347	462	elaA_1	COG2153	Protein ElaA	ATGATGACCTGGCAGGATCTCCATCATAGTGAACTTACCGTTGCCCAGCTGTATGCGCTGCTGAAGCTGCGCAGCGAAGTCTTTGTCGTGGAGCAGCAGTGCGCCTATCAGGATGTCGACGGCGATGATTTGGTCGGGGAAAATCGCCATCTGCTCGGCTGGCGCGATGGCGAACTGGTGGCCTATGCGCGGATCCTTAAAAGCGAAGAGACGTACGATCCGGTGGTGATTGGCCGGGTTATCGTCAGCCCCGCCGCGCGCGGCGAAAAGCTCGGCCATCAGCTGATGGCGCAGGCGCTGGCCAGCTGTCAGCGGCACTGGCCGCAAAAGGCGATTTACCTCGGGGCGCAGGCGCATCTGCAAACCTTTTACGCCCACTTCGGTTTTACGCCGGTGACTGAGGTCTATGATGAGGACGGCATTCCGCACATCGGCATGGCGCGGGAAAGCCGCGCTCTCTGA	MMTWQDLHHSELTVAQLYALLKLRSEVFVVEQQCAYQDVDGDDLVGENRHLLGWRDGELVAYARILKSEETYDPVVIGRVIVSPAARGEKLGHQLMAQALASCQRHWPQKAIYLGAQAHLQTFYAHFGFTPVTEVYDEDGIPHIGMARESRAL				NA	NA	NA	NA	NA
BMS020_01348	921	rbn	COG1234	Ribonuclease BN	ATGGAATTAACTTTTTTGGGGACATCCGCCGGGGTGCCGACCCGCACGCGTAATATGACGTCGATAATACTCAATTTGCAACAGCCAACCCGCGCCGAAATGTGGTTGTTTGACTGCGGCGAAGGGACCCAGCATCAATTTCTGCATACGCCCCATCATCCAGGCAAACTGAATAAGATCTTTATTACCCATCTGCACGGCGACCATCTGTTCGGCCTGCCCGGCCTGCTGTGCAGCCGCTCGATGCAGGGGAATTCGCTGCCGCTGACGGTCTACGGACCAAAAGGAATAAAGGAATTCATTGACACCGCGCTGCGCCTCAGCGGTTCGTGGACCGATTATCCCCTGACCATCGTCGAAGTCGGCCCCGGTCTGGTGTTCGACGAAGAGGGCTATCGGGTCACCGCGTTCCCGCTCAGCCATCCAGTGGAGTGCTACGGGTATCGCATTGAGCAGCATGACAAGCCCGGCGCCCTCGACGCCGCCCAGCTGATTGCCGACGGCGTGCCCCCCGGACCGCTGTTTCACCGGCTTAAGCGCGGTGAACAGGTCACGCTGGCGGATGGCCGGACGATCGACGGCAGCCGCTACCTGGGGCCCGCTACGCCGGGTAAAACGCTGGCCATCTTCGGCGATACCGCCCCCTGCCCGCAGGCGCTGGAAATGGCGCGCGGGGCGGATGTGATGGTGCACGAAACCACGCTGGAGCAGGCGATGGCGGAGAAAGCCAATAGCCGCGGCCACTCTTCCAGTCAGCAAACCGCAGTGCTTGCCAAAGAAGCGGGGGTCGGCACGCTAATCGCCACCCACTTTAGCTCTCGCTACGATGCCGAAGGCTGCCTGCGGATGCTGGCGGAATGCCGGGAGATTTTCCCGGACACCCTGCTGGCGGAAGACTTTATGGTCTACAGGGTGGCGTAA	MELTFLGTSAGVPTRTRNMTSIILNLQQPTRAEMWLFDCGEGTQHQFLHTPHHPGKLNKIFITHLHGDHLFGLPGLLCSRSMQGNSLPLTVYGPKGIKEFIDTALRLSGSWTDYPLTIVEVGPGLVFDEEGYRVTAFPLSHPVECYGYRIEQHDKPGALDAAQLIADGVPPGPLFHRLKRGEQVTLADGRTIDGSRYLGPATPGKTLAIFGDTAPCPQALEMARGADVMVHETTLEQAMAEKANSRGHSSSQQTAVLAKEAGVGTLIATHFSSRYDAEGCLRMLAECREIFPDTLLAEDFMVYRVA				NA	NA	NA	NA	NA
BMS020_01349	1458	nuoN_1	COG1007	NADH-quinone oxidoreductase subunit N	ATGACAATAACTCCACAACAACTGATCGCACTGCTACCGCTGCTGATCGTCGGCTTGACGGTGGTGGTTGTGATGCTCTCCATTGCGTGGCGACGCAATCATTTTCTCAATGCCACGCTGTCGGTTCTCGGACTTAACGCCGCGCTGGTCTCGCTCTGGTTCGTCGGCCAGAACGGGGCGATGGACGTCACGCCGCTGATCCGCGTTGACGGCTACGCTATGCTCTATACCGGGCTGGTGCTGCTGGCGAGCCTCGCGACCTGTACTTTCGCCTACCCGTGGCTTGAGGGTTACAAGGACAACAAAGAAGAGTTCTACCTGCTGGTGTTGATTGCCGCCCTGGGCGGCATTCTGCTGGCCGGTGCGAATCATCTGGCGGCGCTGTTCCTCGGCATCGAGTTGATCTCCTTGCCGCTGTTCGGCCTGGTCGGCTACGCCTTCCGCCAGAAGCGTTCGCTGGAAGCGAGCATCAAATACACCATCCTCTCCGCGGCAGCCTCCTCTTTCCTGCTGTTCGGTATGGCGCTGGTGTATGCGAACTCCGGCAACCTGTCCTTCCTTGCGCTGGGCAAGAGCCTGGCGGACAACACCCTGCACGAGCCGCTGCTGCTGGCGGGGCTCGGCCTGATGATCGTCGGTCTTGGCTTTAAGCTGTCGCTGGTGCCGTTCCACCTGTGGACGCCGGACGTTTACCAGGGGGCGCCTGCGCCGGTCTCCACCTTCCTGGCGACCGCCAGCAAGATTGCTATCTTCGGCGTGGTGATGCGTCTGTTCCTGTACATGCCGGTGGGCAACAGCGAAGCGGTGCGCGTGGTGCTGGGGCTGATCGCCTTCGCCTCTATCATCTTCGGTAACCTGATGGCGCTGAGCCAGACCAATATCAAACGTCTGCTCGGTTACTCTTCTATCTCCCACCTCGGCTATCTGCTGGTGGCGCTGATCGCCCTGCAAAGCGGCGAAATGTCGATGGAAGCCGTTGGCGTCTACCTGGCCGGCTACCTGTTCAGCAGCCTCGGCGCGTTCGGCGTGGTCAGCCTGATGTCCAGCCCATACCGTGGCCCGGACGCGGACTCGCTGTTCTCCTACCGCGGTCTGTTCTGGCACCGTCCGATCCTGTCGGCGGTGATGACGGTGATGATGCTCTCCCTGGCCGGTATCCCAATGACTCTCGGCTTTATCGGTAAGTTCTATGTGCTGGCCGTCGGTGTTCACGCCCATCTGTGGTGGCTGGTTGCCGCGGTGGTTGTCGGCTCGGCGATCGGTCTCTACTACTACCTGCGCGTGGCGGTGAGTTTGTACCTGAGCGCGCCGGAGCAGCTGAACCGTGATGCGCCGTCGAACTGGCAGTACAGCGCGGGCGGTATCGTGGTGCTGATCTCTGCCCTGCTGGTGCTGGTGCTCGGTATCTGGCCGCAGCCGCTGATTAGCATCGTGCAGCTGGCGACGCCGCTGATGTAA	MTITPQQLIALLPLLIVGLTVVVVMLSIAWRRNHFLNATLSVLGLNAALVSLWFVGQNGAMDVTPLIRVDGYAMLYTGLVLLASLATCTFAYPWLEGYKDNKEEFYLLVLIAALGGILLAGANHLAALFLGIELISLPLFGLVGYAFRQKRSLEASIKYTILSAAASSFLLFGMALVYANSGNLSFLALGKSLADNTLHEPLLLAGLGLMIVGLGFKLSLVPFHLWTPDVYQGAPAPVSTFLATASKIAIFGVVMRLFLYMPVGNSEAVRVVLGLIAFASIIFGNLMALSQTNIKRLLGYSSISHLGYLLVALIALQSGEMSMEAVGVYLAGYLFSSLGAFGVVSLMSSPYRGPDADSLFSYRGLFWHRPILSAVMTVMMLSLAGIPMTLGFIGKFYVLAVGVHAHLWWLVAAVVVGSAIGLYYYLRVAVSLYLSAPEQLNRDAPSNWQYSAGGIVVLISALLVLVLGIWPQPLISIVQLATPLM	PGPT0026860_2038	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026860-nuoN-K00343	NA	NA
BMS020_01350	1530	nuoM_1	COG1008	NADH-quinone oxidoreductase subunit M	ATGTTATTGCCTTGGTTGATATTAATCCCCTTTATCGGCGGCTTCCTGTGTTGGCAGACCGAACGCTTTGGCGTGAAAGTGCCGCGCTGGATCGCGCTGATTACTATGGGACTGACGCTGGCGCTTGGCCTGCAGCTGTGGATGCAGGGCGGCTATTCTCTGACGCAATCCGCGGGTATTCCGCAGTGGCAGTCTGAGTTCGTGCTGCCGTGGATCCCACGCTTCGGCATTAGCATTCATCTGGCGATCGACGGCCTGTCGCTGCTGATGGTGGTGCTGACCGGCCTGCTCGGCGTGCTGGCGGTGCTCTGTTCCTGGCGCGAAATCGAAAAATACCAGGGATTCTTCCACCTCAACCTGATGTGGATCCTGGGCGGCGTCATCGGCGTGTTCCTCGCCATCGACATGTTCCTGTTCTTCTTCTTCTGGGAAATGATGTTGGTGCCGATGTACTTCCTGATCGCGCTGTGGGGCCACAAAGCCTCTGACGGTAAAACGCGTATCACGGCGGCCACCAAGTTCTTCATCTACACCCAGGCGAGCGGCCTGGTGATGCTGATCGCCATTCTGGCGCTGGCATTCGTCCACTTCAACGCCACCGGCGTGTGGACTTTCAACTATGAAGAGCTGTTGAAAACCCCGATGTCCCACGGCGTGGAATACCTGCTGATGCTCGGCTTCTTCATCGCCTTCGCGGTGAAAATGCCAGTGGTGCCGCTGCACGGCTGGCTGCCGGACGCCCACTCCCAGGCGCCGACCGCCGGTTCCGTCGACCTCGCGGGGATCCTGCTGAAAACCGCGGCCTACGGTCTGCTGCGCTTTGCGCTGCCGCTGTTCCCGAACGCCTCCGCCGAGTTTGCGCCCATCGCGATGTGGCTGGGCGTGATCGGGATCTTCTACGGCGCGTGGATGGCCTTTGCGCAGACGGATATCAAACGTCTTATCGCCTACACCTCCGTGTCCCACATGGGCTTCGTGCTGATTGCTATCTACACCGGCAGCCAGCTGGCGTATCAGGGGGCGGTGATCCAGATGATTGCTCACGGTCTCTCCGCGGCGGGTCTGTTTATTCTCTGCGGCCAGCTGTACGAACGTCTGCATACCCGTGACATGCGTCAGATGGGCGGTCTGTGGAGCAAAATCAAATGGCTGCCGGCGATGTCGATGTTCTTCGCCGTCGCCACCCTGGGGATGCCGGGCACGGGTAACTTCGTCGGCGAATTTATGATCCTGTTCGGCAGCTATAAAGTGGTGCCGGTGATCACCGTGATCTCGACCTTTGGTCTGGTATTCGCGTCCGTTTACTCGCTGTCGATGCTGCATCGCGCTTATTTCGGTAAAGCGAAAAGCGAAATCGCGGCGAAAGCGCTGCCGGGGATGTCCCTGCGTGAACTGTCTATCATCCTGCTGCTGGTGGTGCTGCTGGTGCTGTTGGGCTTCTTCCCGCAGCCGATCCTCGACACCTCGCATGCTGCGATGAGCAACATTCAGCAGTGGTTTGTTAATTCTGTTTCTACTACAAGGCCGTAA	MLLPWLILIPFIGGFLCWQTERFGVKVPRWIALITMGLTLALGLQLWMQGGYSLTQSAGIPQWQSEFVLPWIPRFGISIHLAIDGLSLLMVVLTGLLGVLAVLCSWREIEKYQGFFHLNLMWILGGVIGVFLAIDMFLFFFFWEMMLVPMYFLIALWGHKASDGKTRITAATKFFIYTQASGLVMLIAILALAFVHFNATGVWTFNYEELLKTPMSHGVEYLLMLGFFIAFAVKMPVVPLHGWLPDAHSQAPTAGSVDLAGILLKTAAYGLLRFALPLFPNASAEFAPIAMWLGVIGIFYGAWMAFAQTDIKRLIAYTSVSHMGFVLIAIYTGSQLAYQGAVIQMIAHGLSAAGLFILCGQLYERLHTRDMRQMGGLWSKIKWLPAMSMFFAVATLGMPGTGNFVGEFMILFGSYKVVPVITVISTFGLVFASVYSLSMLHRAYFGKAKSEIAAKALPGMSLRELSIILLLVVLLVLLGFFPQPILDTSHAAMSNIQQWFVNSVSTTRP	PGPT0026850_1636	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026850-nuoM-K00342	NA	NA
BMS020_01351	1842	nuoL_1	COG1009	NADH-quinone oxidoreductase subunit L	ATGAACATGCTTGCCTTAACCATTCTTTTGCCATTGATTGGCTTTGTGCTGCTGGCCTTTTCCCGCGGGCGCTGGTCGGAAAACCTTTCCGCCACCGTTGGCATGGGCTCGGTAGGCCTGGCGGCGCTGGTCACCGCCTACGTCGGCGTTGACTTTTTCGCTAACGGCAAACAGGCGGTCAGCGTGCCGCTGTGGACCTGGATGTCGGTTGGGGATTTCAACATCGGCTTCAACCTGGTGCTGGACGGCCTGTCGCTGACCATGCTCTCCGTGGTGACCGGCGTCGGCTTCCTGATCCATATGTTCGCCTCCTGGTATATGCGCGGTGAAGAGGGCTATTCCCGCTTCTTCGCCTACACCAACCTGTTTATCGCCAGCATGGTGGTTCTGGTACTGGCCGATAACCTGCTGCTGATGTACCTGGGTTGGGAAGGGGTGGGTCTCTGCTCTTACCTGCTGATCGGTTTCTACTACACCGATCCGAAGAACGGCGCCGCAGCGATGAAAGCGTTTGTGGTGACCCGCGTCGGCGACGTGTTCCTCGCCTTCGCGCTGTTCATTCTTTATAACGAACTGGGTACCCTCAACTTCCGCGAAATGGTTGAGCTGGCGCCGCAGCACTTCGCTAACGGCAGCACCACGCTGCAGTGGGCGACGCTGATGCTGCTCGGCGGCGCGGTCGGTAAATCCGCCCAGCTGCCGCTGCAAACGTGGCTTGCCGATGCGATGGCGGGTCCGACGCCAGTCTCCGCGCTAATCCACGCCGCCACCATGGTTACCGCGGGCGTCTACCTGATCGCCCGTACCCACGGTCTGTTCCTGATGACGCCGGAAGTGCTGCATCTGGTCGGGATCGTCGGGGCGGTAACGCTGGTGCTGGCGGGCTTCGCCGCTCTGGTGCAGACCGACATCAAACGCGTTCTCGCTTACTCCACCATGAGCCAGATTGGCTACATGTTCCTCGCGCTGGGCGTGCAGGCATGGGATGCGGCGATTTTCCATCTGATGACCCACGCGTTCTTTAAAGCGCTGCTGTTCCTGTCGTCGGGTTCGGTGATCCTCGCCTGCCATCACGAACAGAACATCTTCAAGATGGGCGGCCTGCGCAAATCTATTCCGCTGGTGTACGTCTGCTTCCTGGTGGGGGGCGCGGCGCTGTCCGCTCTGCCGCTCATTACCGCAGGCTTCTTCAGTAAGGATGAGATTCTGGCGGGGGCGATGGCCAACGGCCATATCAACCTGATGGTGGCGGGCCTGGTCGGCGCCTTTATGACCTCGCTGTACACCTTCCGCATGATTTTCATCGTGTTCCACGGTAAAGAGCAAATTCACGCGCACGCAGGGAAGGGGATCACCCATCATCTGCCGCTGATTGTGCTGCTGGTGCTGTCCACCTTCGTTGGCGCGCTGATCGTGCCGCCGCTGGAAGGCGTTCTGCCGCAGACCACTGAACTGGCGCACGGCAACGTGATGACGCTGGAGATTGCCTCCGGGATCATCGCCATTGCCGGCATCCTGATCGCCGCATGGCTGTGGCTGGGCAAACGCACCCTGGTGACCTCTATCGCCAACAGCGCGCCTGGCCGCTTCTTCGGTACCTGGTGGTTCCATGCCTGGGGCTTCGACTGGTTATACGACAAAGTCTTCGTTAAGCCATTCCTCGGCATTGCCTGGCTGCTGAAGAGCGATCCGCTGAACGCATTGATGAACATCCCGGCGATCCTCTCCCGCTTCGCAGGTAAAGGCCTGCTGGTGAGCGAGAACGGCTATCTGCGCTGGTATGTGGCGTCAATGAGCATCGGCGCGGTGGTGGTGCTGGCGCTGCTGATGGTATTGCGTTGA	MNMLALTILLPLIGFVLLAFSRGRWSENLSATVGMGSVGLAALVTAYVGVDFFANGKQAVSVPLWTWMSVGDFNIGFNLVLDGLSLTMLSVVTGVGFLIHMFASWYMRGEEGYSRFFAYTNLFIASMVVLVLADNLLLMYLGWEGVGLCSYLLIGFYYTDPKNGAAAMKAFVVTRVGDVFLAFALFILYNELGTLNFREMVELAPQHFANGSTTLQWATLMLLGGAVGKSAQLPLQTWLADAMAGPTPVSALIHAATMVTAGVYLIARTHGLFLMTPEVLHLVGIVGAVTLVLAGFAALVQTDIKRVLAYSTMSQIGYMFLALGVQAWDAAIFHLMTHAFFKALLFLSSGSVILACHHEQNIFKMGGLRKSIPLVYVCFLVGGAALSALPLITAGFFSKDEILAGAMANGHINLMVAGLVGAFMTSLYTFRMIFIVFHGKEQIHAHAGKGITHHLPLIVLLVLSTFVGALIVPPLEGVLPQTTELAHGNVMTLEIASGIIAIAGILIAAWLWLGKRTLVTSIANSAPGRFFGTWWFHAWGFDWLYDKVFVKPFLGIAWLLKSDPLNALMNIPAILSRFAGKGLLVSENGYLRWYVASMSIGAVVVLALLMVLR	PGPT0026845_3378	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026845-nuoL-K00341	NA	NA
BMS020_01352	303	nuoK_1	COG0713	NADH-quinone oxidoreductase subunit K	ATGATCCCCTTAACACATGGACTGATCCTCGCGGCCATCCTGTTTGTGCTTGGTCTGACGGGGCTGGTGATCCGCCGCAATCTTCTGTTTATGTTGATCAGCCTGGAAATCATGATTAACGCCGCCGCGCTGGCCTTTGTGGTGGCGGGCAGCTACTGGGGCCAGACTGATGGTCAGATTATGTATATCCTCGCTATCAGCCTCGCGGCTGCGGAAGCGAGTATCGGTCTGGCGCTGCTGCTGCAGCTCCATCGTCGCCGCCAGAACCTGAACATCGATTCAGTAAGTGAGTTGCGTGGATGA	MIPLTHGLILAAILFVLGLTGLVIRRNLLFMLISLEIMINAAALAFVVAGSYWGQTDGQIMYILAISLAAAEASIGLALLLQLHRRRQNLNIDSVSELRG	PGPT0026840_1937	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026840-nuoK-K00340	NA	NA
BMS020_01353	555	nuoJ_1	COG0839	NADH-quinone oxidoreductase subunit J	ATGGAATTCGCTTTTTATATCTGTGGCCTGATCGCCATCCTCGCAACCTTGCGGGTCGTCACCCACACCAATCCGGTGCATGCGCTGCTGTACCTGATCATTTCGCTGTTAGCGATTGCCGGGGTGTTCTTCTCGCTGGGCGCTTACTTCGCCGGGGCGCTGGAGATTATCGTCTACGCCGGGGCCATTATGGTGCTGTTCGTCTTCGTGGTGATGATGCTCAACCTGGGCGGCAGCGAAATCGAACAGGAACGCAAATGGCTGCAGCCGGGGATCTGGATTGGCCCGGCCATCCTCTCCGCGGTGCTGCTGGTGGTTATCGTTTACGCCATCCTGGGGATTAACGACCAGGGTATCGACGGCGCGGCGATCAACGCCAAAGAAGTGGGTATTGCGCTGTTTGGGCCGTACGTCCTGGCGGTGGAGCTGGCCTCCATGCTGCTGCTGGCGGGCCTGGTGGTCGCCTTCCATATCGGCCGCGAAGAGCGCGCCGGCGAGGTGCTGAGCAACCGTGTGAACGACAGCGACAAAAGAAAAACGGAGGAACACGCATGA	MEFAFYICGLIAILATLRVVTHTNPVHALLYLIISLLAIAGVFFSLGAYFAGALEIIVYAGAIMVLFVFVVMMLNLGGSEIEQERKWLQPGIWIGPAILSAVLLVVIVYAILGINDQGIDGAAINAKEVGIALFGPYVLAVELASMLLLAGLVVAFHIGREERAGEVLSNRVNDSDKRKTEEHA	PGPT0026835_2055	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026835-nuoJ-K00339	NA	NA
BMS020_01354	543	nuoI_1	COG1143	NADH-quinone oxidoreductase subunit I	ATGACCTTAAAAGAATTATTGGTGGGGTTCGGCACCCAGGTCCGCAGTATCTGGATGATTGGCCTGCATGCCTTCGCCAAACGTGAAACCCGGATGTACCCGGAAGAGCCGGTCTATCTGCCGCCGCGCTATCGCGGTCGCATCGTGCTGACGCGCGATCCGGACGGTGCAGAGCGCTGCGTCGCCTGTAACCTGTGTGCGGTAGCCTGCCCGGTGGGCTGTATTTCGCTGCAGAAAGCAGAGACGGTAGACGGCCGCTGGTACCCGGAGTTTTTCCGCATCAACTTCTCACGCTGCATTTTCTGCGGCCTGTGCGAAGAAGCGTGCCCGACCACGGCGATTCAGTTGACCCCGGACTTTGAGCTGGGCGAATACAAACGTCAGGATCTGGTGTACGAAAAAGAGGATCTGCTGATTTCCGGTCCGGGCAAATACCCGGAATATAACTTCTACCGGATGGCGGGTATGGCAATCGACGGCAAAGATAAGGGCGAAGCGGAAAACGAAGCTAAGCCGATCGACGTCAAGAGCCTGTTACCGTAA	MTLKELLVGFGTQVRSIWMIGLHAFAKRETRMYPEEPVYLPPRYRGRIVLTRDPDGAERCVACNLCAVACPVGCISLQKAETVDGRWYPEFFRINFSRCIFCGLCEEACPTTAIQLTPDFELGEYKRQDLVYEKEDLLISGPGKYPEYNFYRMAGMAIDGKDKGEAENEAKPIDVKSLLP	PGPT0026830_1020	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026830-nuoI-K00338	NA	NA
BMS020_01355	978	nuoH_1	COG1005	NADH-quinone oxidoreductase subunit H	ATGAGCTGGTTAACGCCGGATCTTATCGACATTCTGTTAAGCATCCTGAAGGCCGTGGTCATTCTGCTGGTGGTGGTCACCTGCGGCGCGTTCATGAGCTTCGGCGAGCGTCGTCTGCTCGGTCTGTTCCAGAACCGCTACGGGCCAAACCGGGTAGGCTGGGGCGGTTCGCTGCAGCTGGTCGCCGACATGATCAAAATGTTCTTTAAAGAGGACTGGGTTCCGCGCTTCTCGGATCGCGTGATCTTTACTCTGGCGCCGGTGATCGCCTTTACTTCGCTGCTGCTGGCCTTCGCCATTGTGCCGGTCAGCCCGACGTGGGTGGTGGCCGATCTGAACATCGGGATCCTGTTCTTCCTGATGATGGCAGGCCTGGCGGTATACGCGGTGCTGTTCGCCGGTTGGTCGAGCAACAACAAATACTCCCTGCTGGGGGCGATGCGTGCTTCCGCGCAGACCCTGAGCTACGAAGTGTTCCTCGGCCTCTCCCTGATGGGCGTGGTGGCGCAGGCGGGGTCATTCAACATGACCGATATCGTCAACAACCAGGCGCATCTGTGGAATGTCATCCCGCAGTTCTTCGGCTTCGTGACGTTCGCCATCGCCGGCGTGGCGGTGTGTCACCGTCACCCGTTCGACCAGCCGGAAGCGGAGCAGGAGCTGGCCGATGGTTACCACATTGAATATTCCGGCATGAAGTTCGGTCTGTTCTTCGTCGGTGAATACATCGGTATCGTCACCGTTTCAGCGCTGATCGTCACGCTGTTCTTCGGCGGCTGGAATGGCCCGTGGTTACCTCCTTTCATCTGGTTCGCGCTGAAAACCGCGTTCTTCATGATGATGTTCATTTTGATCCGCGCATCATTACCGCGTCCGCGCTATGACCAGGTAATGTCCTTTGGCTGGAAGGTATGCCTGCCGTTAACGCTGGTCAACTTGTTGGTAACGGCGGCTGTCATTCTCTGGCAGGCGCAATAA	MSWLTPDLIDILLSILKAVVILLVVVTCGAFMSFGERRLLGLFQNRYGPNRVGWGGSLQLVADMIKMFFKEDWVPRFSDRVIFTLAPVIAFTSLLLAFAIVPVSPTWVVADLNIGILFFLMMAGLAVYAVLFAGWSSNNKYSLLGAMRASAQTLSYEVFLGLSLMGVVAQAGSFNMTDIVNNQAHLWNVIPQFFGFVTFAIAGVAVCHRHPFDQPEAEQELADGYHIEYSGMKFGLFFVGEYIGIVTVSALIVTLFFGGWNGPWLPPFIWFALKTAFFMMMFILIRASLPRPRYDQVMSFGWKVCLPLTLVNLLVTAAVILWQAQ	PGPT0026825_2892	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026825-nuoH-K00337	NA	NA
BMS020_01356	2727	nuoG	COG1034	NADH-quinone oxidoreductase subunit G	ATGGCTACGATTCATGTAGACGGCAAAGAATACGAGGTCAACGGAGCGGACAACCTGCTGGAGGCTTGTCTCTCTCTTGGGCTTGATATTCCCTACTTTTGCTGGCACCCGGCGCTAGGGAGCGTCGGTGCTTGCCGCCAGTGTGCGGTGAAGCAATATCAGAACGCGGAAGACACGCGTGGTCGCCTGGTGATGTCCTGTATGACTCCGGCATCCGACGGCACCTTTATTTCTATCGACGATGGCGAAGCGAAGCAGTTCCGCGAAAGCGTGGTGGAGTGGCTGATGACCAACCACCCGCACGACTGCCCGGTCTGCGAAGAGGGCGGCAACTGCCACCTGCAGGATATGACGGTGATGACCGGCCATAGCTTCCGCCGCTATCGTTTTACCAAGCGTACCCACCGCAATCAGGATCTGGGGCCGTTTATTTCTCACGAAATGAACCGCTGCATCGCCTGCTACCGCTGCGTGCGCTACTACAAAGATTATGCCGATGGCACCGATCTGGGCGTCTATGGTGCCCACGACAACGTCTACTTCGGCCGCCCGGAAGATGGCACCCTGGAGAGTGAATTCTCCGGCAACCTGGTGGAAGTCTGCCCGACCGGCGTCTTCACCGATAAAACCCACTCCGAGCGCTATAACCGTAAATGGGACATGCAGTTTGCGCCGAGCATCTGCCAGCAGTGTTCCATCGGCTGTAACATCAGTCCGGGCGAACGCTATGGCGAACTGCGTCGTATCGAAAACCGTTATAACGGGACCGTTAACCGCTACTTCCTCTGCGACCGCGGTCGTTTCGGCTATGGCTACGTGAACCTGAAAGACCGTCCGCGTCAGCCGGTTCAGCGCCGCGGCGACGATCTGATTACCCTCAACGCCGAGCAGGCGATGCAGGGCGCGGCGGATATTCTGCGCCAGTCGAAGAAAGTGATCGGCATCGGCTCCCCGCGCGCCAGCATTGAAAGCAACTTCGCGCTGCGCGAGCTGGTGGGCGCCGACAACTTCTATACCGGCATCGCCAAAGGCGAACAAGCGCGCCTGCAGATGATGCTGAAAGTGCTGCGCGAAGGTGGGATCCACACCCCAAGCCTGCGCGATATCGAATCCTACGACGCGGTACTGGTGCTGGGCGAAGACATTACCCAGACCGGCGCGCGCGTCGCGCTGGCGGTGCGTCAGGCGGTGAAAGGGAAAGCTCGCGAAATGGCGGCGGCGCAGAAAGTGGCCGACTGGCAGATTGCGGCGATCCTCAACATCGGCCAGCGTGCCAAACACCCGCTATTCGTCACCAACATTGATGACACCCGCCTGGATGACATCGCCGCGTGGACCTACCGCGCGCCGGTGGAAGATCAGGCGCGTCTCGGCTTTGCCATCGCCCATGCGCTGGACGATAGCGCGCCGGCGGTTGACGGCCTGAGCCGCGAACTGCAGGGGAAAGTCGATGTCATCGTCCAGGCGCTGGCCGGGGCGAAAAAACCACTGATTATTTCCGGAACCAACGCCGGCAGCATGGAGATCATCCAGGCCGCCGCTAACGTGGCGAAAGCCCTGAAAGGCCGCGGCGCCGACGTCGGCGTGACGATGGTTGCCCGCGCGGTGAACAGCGTCGGTCTGGGTATGATCGGCGGCGGCTCGCTTGAAGAGGCGCTGGACGAACTGGAAAGCGGCGCCGCAGACGCGGTTATCGTGCTGGAAAACGACCTTCACCGTCATGCTTCCGCCGCCCGCGTCGACGCAGCGCTCTCCAAAGCGCCGCTGGTGATGGTGGTTGACCATCAGCGCACGGCGATTATGGACAAAGCGCACCTGGTGCTCTCCGCGGCAAGCTTTGCGGAAAGCGACGGTACCGTGGTCAACAACGAAGGCCGCGCTCAGCGCTTCTTCCAGGTCTACGACCCGGCCTACTACGACGCGAAAACCGTCATGCTGGAAAGCTGGCGCTGGCTGCATTCCCTGCACAGCACCGTTAACAACCGTCAGGTTGACTGGACGCAGCTGGACCACGTCATCGATGCCGCGATTGCCGCCCTGCCGCAGCTGGCGGGCATTAAAGACGCCGCGCCGGATGCGACCTTCCGCATTCGCGGGCAGAAGCTGGCGCGTGAACCGCACCGCTACAGCGGCCGCACAGCGATGCGCGCCAACATCAGCGTCCACGAACCGCGTCAGCCGCAGGATAAAGACACCATGTTCGCCTTCTCCATGGAAGGGAACAACCAGCCGTCCGCCCCGCGTTCGCAGATCCCGTTCGCCTGGGCGCCGGGCTGGAACTCCCCGCAGGCATGGAACAAGTTCCAGGATGAAGTGGGCGGGAAACTGCGCCACGGCGATCCGGGCATCCGTCTGTTTGAAGCGTCCGCCAGCGGGCTGGAATACTTCACGGCGGTGCCGGCCAGCTTCCAGGCTGAAGACGGGAAATGGCGTATCGCGCCGTACTACCACCTGTTTGGCAGCGATGAGCTGTCACAGCGCGCGCCGGTGTTCCAGAGCCGGATGCCTGAGCCGTACATCAAGCTGAACCCGGCGGATGCCGCGAAGCTTGGCGTCAACGCCGGGGCGATGCTCTCCTTTAGCGTGGAAGGCCAGACCCTGCGTCTGCCGCTGGTTATCTCTGAAGGTCTGACCGCAGGACAGGTTGGCTTACCGATGGGCATGCCGGGCATTGCGCCGGTACTGACCGGATCGCGTATTGATTCACTGCAGGAGGCGAAAGCATGA	MATIHVDGKEYEVNGADNLLEACLSLGLDIPYFCWHPALGSVGACRQCAVKQYQNAEDTRGRLVMSCMTPASDGTFISIDDGEAKQFRESVVEWLMTNHPHDCPVCEEGGNCHLQDMTVMTGHSFRRYRFTKRTHRNQDLGPFISHEMNRCIACYRCVRYYKDYADGTDLGVYGAHDNVYFGRPEDGTLESEFSGNLVEVCPTGVFTDKTHSERYNRKWDMQFAPSICQQCSIGCNISPGERYGELRRIENRYNGTVNRYFLCDRGRFGYGYVNLKDRPRQPVQRRGDDLITLNAEQAMQGAADILRQSKKVIGIGSPRASIESNFALRELVGADNFYTGIAKGEQARLQMMLKVLREGGIHTPSLRDIESYDAVLVLGEDITQTGARVALAVRQAVKGKAREMAAAQKVADWQIAAILNIGQRAKHPLFVTNIDDTRLDDIAAWTYRAPVEDQARLGFAIAHALDDSAPAVDGLSRELQGKVDVIVQALAGAKKPLIISGTNAGSMEIIQAAANVAKALKGRGADVGVTMVARAVNSVGLGMIGGGSLEEALDELESGAADAVIVLENDLHRHASAARVDAALSKAPLVMVVDHQRTAIMDKAHLVLSAASFAESDGTVVNNEGRAQRFFQVYDPAYYDAKTVMLESWRWLHSLHSTVNNRQVDWTQLDHVIDAAIAALPQLAGIKDAAPDATFRIRGQKLAREPHRYSGRTAMRANISVHEPRQPQDKDTMFAFSMEGNNQPSAPRSQIPFAWAPGWNSPQAWNKFQDEVGGKLRHGDPGIRLFEASASGLEYFTAVPASFQAEDGKWRIAPYYHLFGSDELSQRAPVFQSRMPEPYIKLNPADAAKLGVNAGAMLSFSVEGQTLRLPLVISEGLTAGQVGLPMGMPGIAPVLTGSRIDSLQEAKA	PGPT0026820_351	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026820-nuoG-K00336	NA	NA
BMS020_01357	1338	nuoF_1	COG1894	NADH-quinone oxidoreductase subunit F	ATGAAAACCGTAATTCGTACTGCGGAAACGCATCCGCTCACCTGGCGCCTGCGCGACGACAAGCAGCCGGTCTGGCTGGACGAGTATCGCAGCAAAAATGGCTATGAAGGGGCGCGAAAAGCGCTGACCGGCATGGCACCGGACGAGATCGTCACGGCGGTAAAAGACGCTGGCCTGAAAGGGCGCGGCGGCGCGGGCTTCTCCACCGGTCTGAAGTGGAGCCTGATGCCGAAAGACGAGTCCATGAATATCCGTTACCTGCTGTGTAACGCCGATGAAATGGAGCCGGGCACCTATAAAGACCGCCTGCTGATGGAGCAGCTGCCGCACCTGCTGGTGGAAGGCATGCTGATCTCCGCGTTTGCGCTGAAGGCCTACCGCGGCTACATCTTCCTGCGCGGAGAGTATATCGAAGCGGCCCAGCATCTGCGCCGCGCGATTGCCGAAGCCACCGAGGCGGGCCTGCTGGGGAAAAACATCCTCGGCACCGGTTTTGACTTCGAGCTGTTTGTCCACACCGGGGCAGGGCGCTATATCTGCGGCGAAGAGACGGCGCTGATTAACTCCCTGGAAGGCCGCCGCGCTAACCCGCGCTCCAAGCCGCCGTTCCCGGCGAGCTCCGGCGTGTGGGGTAAGCCGACCTGCGTCAACAACGTGGAAACCCTGTGCAACGTGCCGGCGATTTTGGCCAACGGCGTTGAGTGGTACCAGAACATCTCCACCAGTAAAGATGCCGGCACCAAGCTGATGGGCTTCTCCGGCCGCGTGAAGAACCCGGGCGTCTGGGAGCTACCGTTCGGCACCACTGCCCGCGAGATCCTGGAAGATTACGCCGGCGGCATGCGCGATGGCCTGAAGTTTAAAGCCTGGCAGCCGGGTGGGGCAGGGACCGACTTCCTCACCGAAGCGCACCTCGATCTGCCGATGGAGTTCGAAAGCATTGGTAAAGCGGGCAGCCGTCTGGGCACCTCGCTGGCGATGGCCGTTGACCACGAGATCAACATGGTCTCGCTGGTGCGCAACCTCGAAGAGTTCTTCGCCCGCGAGTCCTGCGGCTGGTGTACGCCGTGCCGCGATGGGCTGCCGTGGAGCGTGAAGATCCTGCGCGCCCTGGAGCGCGGCGAAGGCCAGCCTGGCGATATCGAAACCCTTGAGCAACTGTGTCGATTCCTGGGCCCGGGTAAAACCTTCTGCGCGCACGCGCCGGGCGCGGTTGAGCCGCTGCAGAGCGCGATTAAATATTTCCGCGAAGAATTCGAGGCTGGCATTAAGCAGCAGTTCAGCAATACCCATGCAATCAACGGGATTCAGCCGAACCTGCTTAAGACGCGCTGGTAA	MKTVIRTAETHPLTWRLRDDKQPVWLDEYRSKNGYEGARKALTGMAPDEIVTAVKDAGLKGRGGAGFSTGLKWSLMPKDESMNIRYLLCNADEMEPGTYKDRLLMEQLPHLLVEGMLISAFALKAYRGYIFLRGEYIEAAQHLRRAIAEATEAGLLGKNILGTGFDFELFVHTGAGRYICGEETALINSLEGRRANPRSKPPFPASSGVWGKPTCVNNVETLCNVPAILANGVEWYQNISTSKDAGTKLMGFSGRVKNPGVWELPFGTTAREILEDYAGGMRDGLKFKAWQPGGAGTDFLTEAHLDLPMEFESIGKAGSRLGTSLAMAVDHEINMVSLVRNLEEFFARESCGWCTPCRDGLPWSVKILRALERGEGQPGDIETLEQLCRFLGPGKTFCAHAPGAVEPLQSAIKYFREEFEAGIKQQFSNTHAINGIQPNLLKTRW	PGPT0026815_1368	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026815-nuoF-K00335	NA	NA
BMS020_01358	501	nuoE	COG1905	NADH-quinone oxidoreductase subunit E	ATGCACGAGAATCAACAACCACAAACCGAGGCTTTTGAGCTGAGTGCGGCAGAGCGTGAGGCTATTGAGCACGAGAAGCACCACTACGAAGACCCGCGTGCGGCGTCCATCGAAGCGCTGAAAATCGTTCAGAAACAGCGCGGCTGGGTGCCGGATGGCGCGATCTACGCCATTGCCGATGTGCTGGGCATCCCGGCCAGCGACGTCGAAGGCGTGGCGACGTTCTACAGCCAGATTTTCCGCCAGCCGGTTGGCCGTCACGTGATCCGCTACTGCGACAGCGTGGTGTGCCACATTACCGGCTATCAGGGAATTCAGGCCGCCATCGAGAAGAAGCTGAACATCAAGCCAGGGCAGACCACCTTTGATGGCCGCTTTACCCTGCTGCCGACCTGCTGCCTGGGCAACTGCGACAAGGGACCGACCATGATGATTGATGAGGACACTCACAGCCATCTGACGCCGGAGGCAATTCCTGACCTGCTGGAGCAGTACAAATGA	MHENQQPQTEAFELSAAEREAIEHEKHHYEDPRAASIEALKIVQKQRGWVPDGAIYAIADVLGIPASDVEGVATFYSQIFRQPVGRHVIRYCDSVVCHITGYQGIQAAIEKKLNIKPGQTTFDGRFTLLPTCCLGNCDKGPTMMIDEDTHSHLTPEAIPDLLEQYK	PGPT0026810_1873	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026810-nuoE-K00334	NA	NA
BMS020_01359	1809	nuoC	COG0649	NADH-quinone oxidoreductase subunit C/D	ATGGTGAACAATATGACCGATTTAACCGCGCATGACGCCGCACCAGCCTGGCAAACCCGCGATCACCTTGATGACCCGGTGATCGGCGAACTGCGCAACCGCTTTGGGCCGGATGCCTTTACCGTTCAGCCAACCCGTACCGGCGTACCGGTGGTATGGGTCAAGCGCGAGCAGCTGCTTGAGGTGGGTGATTTCCTGAAGAAATTGCCGAAACCTTACGTGATGCTGTTTGACCTGCACGGCATGGACGAACGTCTGCGCACGCACCGCGATGGCCTGCCCGCCGCGGATTTTTCCGTTTTCTATCACCTGATTTCCATCGACCGCAACCGCGACATCATGCTCAAGGTGGCGCTGTCTGAAAACGATCTGCATCTGCCGACCTTCACCAAACTGTTCCCCAACGCCAACTGGTATGAGCGTGAAACCTGGGAAATGTTTGGTATTACCTTCGATGGCCACCCGAACCTGCGTCGCATCATGATGCCGCCGACCTGGGAAGGCCACCCGCTGCGTAAAGACTACCCGGCGCGCGCCACCGAATTCGATCCGTTTGAGCTGACCAAAGCCAAACAGGATCTGGAGATGGAAGCGCTGACTTTCAAACCGGAAGAGTGGGGCATGAAGCGCGGCACCGACAACGAGGACTTCATGTTCCTCAACCTCGGTCCGAACCACCCCTCCGCGCACGGTGCGTTCCGCATTATTCTGCAGCTGGATGGCGAAGAGATCGTCGACTGCGTGCCGGACATCGGTTACCACCACCGCGGCGCCGAGAAGATGGGCGAGCGCCAGTCCTGGCACAGCTACATCCCGTACACCGACCGTATCGAATACCTTGGCGGCTGCGTCAACGAGATGCCGTACGTGCTGGCCGTGGAAAAACTGGCCGGGATCACCGTGCCGGATCGCGTCAACGTGATCCGCGTGATGCTCTCCGAACTGTTCCGCATCAACAGCCACCTGCTGTATATCTCTACCTTTATTCAGGACGTCGGCGCGATGACCCCGGTCTTCTTCGCCTTTACCGATCGGCAGAAAATCTACGATCTGGTGGAAGCGATCACCGGTTTCCGTATGCACCCGGCGTGGTTCCGCATCGGCGGCGTCGCGCACGATCTGCCGCGCGGCTGGGATCGTCTGCTGCGTGAGTTCCTCGAGTGGATGCCGAAGCGTCTGGACTCCTATGAAAAAGCCGCCCTGCGCAACACCATTCTGAAGGGCCGTTCCGTCGGCGTGGCAGCCTATACCGCCAAAGAGGCGCTGGAGTGGGGCACCACCGGCGCAGGCCTGCGCGCCACCGGTATCGGCTTCGACGTGCGTAAATGGCGTCCTTATTCTGGCTATGAAAACTTCGACTTCGAAGTCCCGACCGGGGGCGGCGTCTCTGACTGCTACACCCGCGTGATGCTGAAAGTCGAAGAGCTGCGCCAGAGCCTGCGCATTCTTCAGCAGTGCCTCGACAATATGCCGGAAGGGCCGTTCAAAGCGGATCACCCGCTGACCACGCCGCCGCCGAAAGAGCGCACGCTGCAGCATATCGAAACCCTGATCACCCACTTCCTGCAGGTATCGTGGGGCCCGGTCATGCCGGCCAACGAATCCTTCCAGATGATTGAGGCGACCAAGGGGATTAACAGTTACTACCTGACCAGCGACGGCAGCACCATGAGCTACCGTACCCGCGTCCGCACGCCGAGCTTTGCGCACCTGCAGCAGATCCCGTCGGCGATCCGCGGCAGCCTGGTATCCGACCTGATCGTCTATCTGGGTAGTATCGATTTTGTTATGTCAGACGTGGACCGCTAA	MVNNMTDLTAHDAAPAWQTRDHLDDPVIGELRNRFGPDAFTVQPTRTGVPVVWVKREQLLEVGDFLKKLPKPYVMLFDLHGMDERLRTHRDGLPAADFSVFYHLISIDRNRDIMLKVALSENDLHLPTFTKLFPNANWYERETWEMFGITFDGHPNLRRIMMPPTWEGHPLRKDYPARATEFDPFELTKAKQDLEMEALTFKPEEWGMKRGTDNEDFMFLNLGPNHPSAHGAFRIILQLDGEEIVDCVPDIGYHHRGAEKMGERQSWHSYIPYTDRIEYLGGCVNEMPYVLAVEKLAGITVPDRVNVIRVMLSELFRINSHLLYISTFIQDVGAMTPVFFAFTDRQKIYDLVEAITGFRMHPAWFRIGGVAHDLPRGWDRLLREFLEWMPKRLDSYEKAALRNTILKGRSVGVAAYTAKEALEWGTTGAGLRATGIGFDVRKWRPYSGYENFDFEVPTGGGVSDCYTRVMLKVEELRQSLRILQQCLDNMPEGPFKADHPLTTPPPKERTLQHIETLITHFLQVSWGPVMPANESFQMIEATKGINSYYLTSDGSTMSYRTRVRTPSFAHLQQIPSAIRGSLVSDLIVYLGSIDFVMSDVDR	PGPT0026795_25	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026795-nuoCD-K13378	NA	NA
BMS020_01360	675	nuoB_1	COG0377	NADH-quinone oxidoreductase subunit B	ATGGATTATACGCTCACCCGCATAGATCCTAACGGTGAGAACGACCGTTACCCCCTGCAGAAACAGGAGATCGTTACCGACCCCCTGGAGCAGGAAGTCAACAAAAGCGTGTATATGGGGAAACTCGAACACGCGCTGCATGACATGGTGAACTGGGGCCGTAAGAACTCAATTTGGCCGTATAACTTCGGCCTTTCTTGCTGTTATGTGGAAATGGTGACGTCATTCACTGCGGTGCATGACGTTGCGCGCTTTGGGGCCGAAGTTCTGCGCGCCTCTCCGCGTCAGGCGGACCTGATGGTGGTCGCCGGAACCTGCTTCACCAAAATGGCGCCGGTTATTCAGCGTCTCTATGATCAGATGCTGGAGCCGAAGTGGGTGATCTCGATGGGCGCCTGCGCGAACTCCGGCGGCATGTACGACATCTATTCCGTCGTCCAGGGCGTGGATAAGTTTATTCCGGTCGATGTGTACATCCCGGGCTGCCCGCCGCGTCCGGAGGCCTATATGCAGGCGCTGATGCTGCTGCAGGAGTCCATTGGTAAAGAACGTCGTCCGCTCTCATGGGTGGTTGGCGATCAGGGCGTCTATCGCGCCAATATGCAGTCGGAACGCGAGCGTAAACGCGGCGAACGTATTGCAGTGACCAATCTGCGGACGCCGGACGAGATTTAA	MDYTLTRIDPNGENDRYPLQKQEIVTDPLEQEVNKSVYMGKLEHALHDMVNWGRKNSIWPYNFGLSCCYVEMVTSFTAVHDVARFGAEVLRASPRQADLMVVAGTCFTKMAPVIQRLYDQMLEPKWVISMGACANSGGMYDIYSVVQGVDKFIPVDVYIPGCPPRPEAYMQALMLLQESIGKERRPLSWVVGDQGVYRANMQSERERKRGERIAVTNLRTPDEI	PGPT0026785_277	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026785-nuoB-K00331	NA	NA
BMS020_01361	360	ndhC_1		NAD(P)H-quinone oxidoreductase subunit 3, chloroplastic	ATGCTCGTCGGCGGCTGGTACCTTGGCGGTCGCGCGCGCGCGCGTAGCAAAAACACGCCGTTTGAATCGGGGATCGACTCCGTTGGTTCGGCCCGCTTACGTCTTTCTGCGAAGTTTTATCTGGTTGCCATGTTCTTCGTGATCTTCGACGTGGAAGCCCTGTATCTCTACGCATGGTCGACCTCCATCCGCGAGAGCGGCTGGGTCGGCTTTGTGGAAGCCGCAATTTTCATTTTAGTGCTACTGGCTGGTCTGGTTTATCTCGTTCGCATCGGCGCACTGGACTGGACGCCTGCGCGTTCCCGTCGCACGCTGGTTAACCCGGAAACAGACAGTCCCACTAACCGTCATATGCAGTAA	MLVGGWYLGGRARARSKNTPFESGIDSVGSARLRLSAKFYLVAMFFVIFDVEALYLYAWSTSIRESGWVGFVEAAIFILVLLAGLVYLVRIGALDWTPARSRRTLVNPETDSPTNRHMQ	PGPT0026780_235	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026780-nuoA-K00330	NA	NA
BMS020_01362	927	cmpR_2	COG0583	HTH-type transcriptional activator CmpR	ATGATTAACACAACACGTCCGATACTCAACCTCGATCTCGATCTGCTGCGCACCTTTGTAGCCGTCGCTGATTTGAACACCTTCGCCGCCGCCGCCGCTGCAGTGTGCCGTACCCAGTCCGCGGTCAGCCAGCAAATGCAACGCCTGGAGCAGCTGGTTGGCAAGGAGCTTTTCGCTCGTCACGGACGCAATAAACTGCTGACCGAGCAGGGCATTCAGCTGCTGGGCTATGCCCGCAAAATCCTGCGCTTTAACGATGAAGCCTGCATGTCTCTGATGTATGGCAGTCTGCAGGGGGGACTGACTATCGGCGCGTCGGAAGAAACCGCTGATACTATCCTGCCGTTTCTGTTAAACCGCATCGGCTGCTTCTATCCCAGAATGACGCTGGAGATTAAAGTCCATCCCCACGCCGTCATCATGGCGATGCTGAGCGGGGGAGAGGTCGATCTGGCATTAACCACCCATCAGCTTCCCGGTTTTACCGCTTTTACGCTGAGAACGTCGCCTACCCTCTGGTACTGTGCGGCGGACTACGTGCTGGCGAAAGGGGAGTCGATCCCCCTGATCCTGCTCGAAGAGCCTGGCCCGTTCCGTGAGGACATCATCGCCGCGCTGGAGGCTGCCCGCGTCTCCTGGCATCTGGCCCACGGCGCCTCGTCGCTCTCTGGGGTGAAAGCGGCAGTGAAAGCCGGGCTGGGGGTCACCGCGCGTCCGGTCGAAATGATGAGCCCGGATTTGCGCGTGGCCGGCATTAGTGATGGCCTGCCGGTCCTGCCGGATACCCGGTACGTCGTCAGCTGCAATCCGCAGACGGTGAGCGAACTACCGCAGGCGATTTTTCAGTCTCTGAGCCAGGAGAGCGATCCCTGGCGCGCGGGGCCGGCACTTACTCCGGAAGAGGGAGGAAGCACCTTCATTTTGTGA	MINTTRPILNLDLDLLRTFVAVADLNTFAAAAAAVCRTQSAVSQQMQRLEQLVGKELFARHGRNKLLTEQGIQLLGYARKILRFNDEACMSLMYGSLQGGLTIGASEETADTILPFLLNRIGCFYPRMTLEIKVHPHAVIMAMLSGGEVDLALTTHQLPGFTAFTLRTSPTLWYCAADYVLAKGESIPLILLEEPGPFREDIIAALEAARVSWHLAHGASSLSGVKAAVKAGLGVTARPVEMMSPDLRVAGISDGLPVLPDTRYVVSCNPQTVSELPQAIFQSLSQESDPWRAGPALTPEEGGSTFIL				NA	NA	NA	NA	NA
BMS020_01363	1218	alaA_1	COG0436	Glutamate-pyruvate aminotransferase AlaA	ATGTCCCCCATCGAAAAATCCAGCAAGTTAGAGAACGTCTGTTATGACATCCGCGGCCCGGTTCTGAAAGAAGCGAAACGTCTTGAAGAAGAAGGCAATAAGGTTCTGAAACTGAACATCGGCAACCCGGCGCCCTTCGGCTTCGAAGCCCCTGACGAGATCCTCGTCGACGTCATCCGCAATCTGCCTACCGCCCAGGGTTACTGCGATTCGAAAGGATTGTACTCGGCGCGTAAAGCCATCATGCAGCATTACCAGGCGCGGGGAATGCGCGATGTCACCGTGGAAGATATTTACATCGGCAACGGCGTGTCCGAACTGATTGTCCAGGCGATGCAGGCGCTGTTAAACAGCGGCGATGAGATGCTGGTTCCCGCCCCGGACTACCCGCTGTGGACGGCGGCGGTGTCCCTTTCCAGCGGTAAAGCGGTGCACTATCTGTGTGACGAATCCTCTGACTGGTTCCCGGATCTTGACGATATCCGCGCTAAAATTACGCCTCGCACCCGCGGGATCGTGATCATCAACCCCAACAACCCCACCGGCGCGGTCTATTCCAAAGAGCTGCTGCAGGAGATCGTGGAGATCGCCCGCCAGCACAACCTGATTATTTTCGCCGATGAGATCTACGACAAGATCCTCTACGACGAAGCCCAGCATCACTCGATCGCCGCTCTGGCGCCCGATCTGCTGACGGTGACCTTCAACGGACTGTCGAAAACTTACCGCGTCGCCGGCTTCCGTCAGGGCTGGATGGTGCTGAATGGCCCGAAAAAACACGCGAAAGGCTATATCGAAGGACTGGAAATGCTGGCGTCGATGCGCCTGTGCGCCAACGTGCCGGCCCAGCATGCTATCCAGACGGCGCTGGGCGGCTACCAGAGTATCAGCGAATTCATCATTCCCGGCGGGCGTCTGTATGAACAACGCAACCGCGCCTGGGAGTTGATCAACGATATTCCGGGCGTCTCCTGCATGAAGCCAAAAGGCGCGCTGTACATGTTCCCGAAAATCGACGCCAAACGCTTCAATATTCACGATGACCAGAAAATGGTGCTCGATTTCCTGCTGCAGGAGAAAGTGCTGCTGGTGCAGGGTACTGCCTTTAACTGGCCGTGGCCGGATCACGTACGCATTGTGACCCTGCCTCGCGAAGACGACCTGGAGATGGCGATCTCCCGCTTTGGCCGCTTCCTCTCCGGCTACCATCAGCTGTAA	MSPIEKSSKLENVCYDIRGPVLKEAKRLEEEGNKVLKLNIGNPAPFGFEAPDEILVDVIRNLPTAQGYCDSKGLYSARKAIMQHYQARGMRDVTVEDIYIGNGVSELIVQAMQALLNSGDEMLVPAPDYPLWTAAVSLSSGKAVHYLCDESSDWFPDLDDIRAKITPRTRGIVIINPNNPTGAVYSKELLQEIVEIARQHNLIIFADEIYDKILYDEAQHHSIAALAPDLLTVTFNGLSKTYRVAGFRQGWMVLNGPKKHAKGYIEGLEMLASMRLCANVPAQHAIQTALGGYQSISEFIIPGGRLYEQRNRAWELINDIPGVSCMKPKGALYMFPKIDAKRFNIHDDQKMVLDFLLQEKVLLVQGTAFNWPWPDHVRIVTLPREDDLEMAISRFGRFLSGYHQL	PGPT0001880_1170	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0001880-alaA-K14260	NA	NA
BMS020_01364	600	yfbR	COG1896	5'-deoxynucleotidase YfbR	ATGAGTCAGAGTCATTTCTTTGCCCACCTCTCCCGTCTGAAACTGATTAACCGCTGGCCGCTGATGCGCAACGTGCGCACTGAAAATGTCTCCGAGCACAGCCTGCAGGTGGCGATGGTCGCCCACGCGCTGGCGGCGATCAAAAACCGCAAATTCGGCGGCCAGGTCAACGCCGAGCGTATCGCCTTGTTAGCGATGTACCATGACGCCTCGGAAGTCTTAACTGGCGATCTCCCTACTCCGGTGAAATATTTCAATTCGCAGATTGCCCAGGAATATAAGGCGATTGAGAAAATCGCCCAGCAGAAGCTAGTGGATATGGTGCCTGACGAGCTGCGCGATATTTTCGAACCGCTGATTGACGAGCATCACTACAGTGAGGAAGAGCAGTCGATCGTCAAACAGGCTGACGCCCTCTGCGCCTACCTGAAATGCCTCGAAGAGCTGTCGGCGGGCAACAACGAATTTCTGCTGGCCAAAGGCCGTCTGGAAAAAACGCTGGCGTCGCGGCGCAGCGCGGAGATGGATTACTTTATGCAGGTGTTTGTCCCGAGCTTCCAGCTGTCGCTGGATGAAATCAGCCAGGATTCGCCGCTGTAA	MSQSHFFAHLSRLKLINRWPLMRNVRTENVSEHSLQVAMVAHALAAIKNRKFGGQVNAERIALLAMYHDASEVLTGDLPTPVKYFNSQIAQEYKAIEKIAQQKLVDMVPDELRDIFEPLIDEHHYSEEEQSIVKQADALCAYLKCLEELSAGNNEFLLAKGRLEKTLASRRSAEMDYFMQVFVPSFQLSLDEISQDSPL	PGPT0021375_122	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021375-yfbR-K08722	NA	NA
BMS020_01365	1833			hypothetical protein	GTGAACGGTGAATTGATTTGGGTTTTATCCCTCCTGGCCATCGCGGTTGTGCTGTTTGCTACCGGCAAGGTGCGCATGGATGCTATCGCCCTGATGGTCATTGTCGCCTTTGTACTCAGCGGCACGCTGACGCTGACCGAAGCTTTTTCCGGGTTCAGCGATCCTAACGTGATCCTGATTGCCGCCCTGTTTATTATCGGCGACGGCCTCGTGCGTACCGGGGTAGCCACCAAGATGGGCGCCTGGCTGGTGAGCGTAGCAGGCAACAGCGAAACCAAAATGCTGATCTACCTGATGCTCACTGTCGCCGGGCTGGGCGCGTTTATGAGTTCCACCGGCGTGGTCGCCATTTTCATTCCGGTGGTCCTTAGCGTCTCGGCGCGGATGAATACCTCCCCCTCGCGGCTGATGATGCCGCTGAGCTTCGCCGGGCTTATCAGCGGGATGATGACCCTGGTGGCGACGCCGCCCAACCTGGTGGTCAACAGCGAACTGCTGCGCGAAGGGCTGCACGGCTTCAGTTTTTTCAGCGTCACCCCGATTGGCCTGGTGGTGCTGATCCTGGGCATCGTCTATATGCTGGCGGTGCGCTTTATGCTGAAGACGGATAATGGCGAATCCGCGCGCGATGGACGAAAAAGAAGCACCTTCCGCGATTTGATTCGCGAATATCACCTCACCGGCCGCGCCCGCCGGCTGGCGATCCGACCCGGTTCGCCGATGATCGGTCAGCGGCTGGATGATTTAAAGCTGCGTGAGCGCTACTGTGCCAACGTTATCGGCGTTGAGCGCTGGCGGCGGTTCCGTCGGGTGATTGTTAACGTCAACGGGGTATCGGAATTTCGCGCCCGCGACGTCCTGCTGATCGATATGTCCGCCTCCGATGTCGACCTGCGCCAGTTCTGCGGCGAGCAAATGCTCGAGCCGATGGTGCTGCGCGGCGAGTATTTTGCCGATCAGGCGCTGGATGTGGGGATGGCGGAGGTGGCGCTGATCCCGGATTCAGAGATGATAGGCAAAACGGTGCGTGAGATAGCCTTCCGCACCCGGTTTGGTCTCAATATCGTCGGCATGAAGCGCGATGGCAAAGCGATGGATGGTTCCGTGGTCGATGAGCCGCTGCAGCTCGGCGATATCCTGCTGGTGGTCGGCAACTGGCGGCAAATTGCCCTGCTGGCGAAGCGCGGTCGGGATTTCGTGGTGCTCAATATGCCGGTTGAGGTCGATGACGCTTCGCCGGCCCACAGCCAGGCTCCGCACGCGATTTTCTGTCTGGTGCTGATGGTGGCCCTGATGCTGACGGATGAAATCCCCAACCCTATCGCCGCGATCATCGCCTGTCTGCTGATGGGCAAATTCCGCTGCATCAACGCCGAAAGCGCCTACAAGGCGATCCACTGGCCGAGCATTATTTTGATTGTCGGGATGATGCCGTTTGCCCTGGCCTTGCAGAAAACCGGTGGGGTGGATCTGGTGGTCAAGGGACTGATGGACGTTGCCGGAGGCGAGGGGCCTTATCTGATGCTCGGCTGCCTGTTTGTGATGTGCGCGGCGATAGGCCTGTTTATCTCTAACACGGCCACCGCAGTGCTGATGGCGCCTATTGCCTTAGCGGCGGCGAAGTCGATGGGCGTGTCGCCCTATCCCTTTGCCATGGTGGTGGCGATGGCGGCTTCGGCGGCGTTTATGACCCCGGTCTCCTCGCCGGTCAACACCCTGGTGCTTGGCCCGGGTAAGTATTCCTTCAGCGACTTTGTAAAGATTGGCGTGCCCTTTACCGTGCTGGTAATGGTGGTCTGCGTCCTGCTGATCCCGGTGCTCTTCCCGTTTTAA	MNGELIWVLSLLAIAVVLFATGKVRMDAIALMVIVAFVLSGTLTLTEAFSGFSDPNVILIAALFIIGDGLVRTGVATKMGAWLVSVAGNSETKMLIYLMLTVAGLGAFMSSTGVVAIFIPVVLSVSARMNTSPSRLMMPLSFAGLISGMMTLVATPPNLVVNSELLREGLHGFSFFSVTPIGLVVLILGIVYMLAVRFMLKTDNGESARDGRKRSTFRDLIREYHLTGRARRLAIRPGSPMIGQRLDDLKLRERYCANVIGVERWRRFRRVIVNVNGVSEFRARDVLLIDMSASDVDLRQFCGEQMLEPMVLRGEYFADQALDVGMAEVALIPDSEMIGKTVREIAFRTRFGLNIVGMKRDGKAMDGSVVDEPLQLGDILLVVGNWRQIALLAKRGRDFVVLNMPVEVDDASPAHSQAPHAIFCLVLMVALMLTDEIPNPIAAIIACLLMGKFRCINAESAYKAIHWPSIILIVGMMPFALALQKTGGVDLVVKGLMDVAGGEGPYLMLGCLFVMCAAIGLFISNTATAVLMAPIALAAAKSMGVSPYPFAMVVAMAASAAFMTPVSSPVNTLVLGPGKYSFSDFVKIGVPFTVLVMVVCVLLIPVLFPF				NA	NA	NA	NA	NA
BMS020_01366	660	hxpA	COG0637	Hexitol phosphatase A	GTGCAGTGTAAAGGTTTCCTGTTCGATTTAGACGGGACGCTGGTGGATTCCTTACCGGTGGTGGAGCGTTCATGGTGCAAGTGGGGGGATCGTTTCGCCATCGACCATGATGAAATTCTCAGTTTTATTCACGGCAAGCAGGCCATTACCTCCATTCGCCATTTTATGCCGGGTCGCAGCGAGGAGGATATCCAGGCCGAATTCCGTTATCTCGAGCAGATGGAAGCCACTGATATCGAAGGCATCGTCGCCCTGCCGGGGGCGTTAGCCCTGCTGAATTCGCTCAATGAGGCTGGGATCCCGTGGGCGATTGTCACCTCCGGCTCGATTCCGGTTGCGCACGCGCGTCACCGCGCGGCGGGCCTGCCGATGCCGGAGGTGTTTGTCACCGCAGAGCAAGTGAAGCACGGCAAGCCGGCGCCGGACGCCTATCTGCTGGGCGCCGAGCGGTTGGGGCTGCCTGCCGGGGAGTGCGCGGTGGTGGAAGATGCGCCGGCGGGGCTGCTCTCCGGGCTGACGGCAGGCTGTCGCACCATCGCGGTCAAGGTGCCTGCCGATGCCCCCCGTCTGGATGAAGCCGACCTCGTGCTGAGCAGCCTGGAAGATCTGCTGGTTGAACGCCAGGCCGACGGCGTGGTGAATGTGCGTCTTAAAGCGTAA	MQCKGFLFDLDGTLVDSLPVVERSWCKWGDRFAIDHDEILSFIHGKQAITSIRHFMPGRSEEDIQAEFRYLEQMEATDIEGIVALPGALALLNSLNEAGIPWAIVTSGSIPVAHARHRAAGLPMPEVFVTAEQVKHGKPAPDAYLLGAERLGLPAGECAVVEDAPAGLLSGLTAGCRTIAVKVPADAPRLDEADLVLSSLEDLLVERQADGVVNVRLKA	PGPT0018405_636	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_SORBITOL_DEGRADATION,PGPT0018405-hxpB-K19270	NA	NA
BMS020_01367	495			hypothetical protein	ATGGAAATGACCAATGCGCAGCGTCTGATTTTATCCAATCAGTACAAAATGATGACGATGCTCGACCCGGACAATGCGGAGCGCTACCGTCGTCTGCAAACCATCATTGAGCGTGGGTATGGGCTGCAGATGCGTGAACTGGACCGCGAGTTCGGCCAGTTGACGGAAGAAACCTGCCGTACCGTTATCGACATCATGGAGATGTACCACGCGCTACACGTCTCCTGGACCAACCTGAAAGACGCGGAGGGTATCGACGAGCGTCGGGTCACCTTCCTCGGCTTTGATGCCGCCACCGAAGCGCGTTTTCTCGGCTACGTGCGCTTTATGGTCAATGTTGAAGGCCGTTACAGCCACTTTGACGCCGGCACCCATGGCTTTAACTCGCAGACCCCGATGTGGGAGAAATATCAGCGGATGCTGAGCGTCTGGCACGCCTGCCCGCGCCAATATCATCTGAGCAGTAACGAAATTAACCAAATCATCAATGCCTGA	MEMTNAQRLILSNQYKMMTMLDPDNAERYRRLQTIIERGYGLQMRELDREFGQLTEETCRTVIDIMEMYHALHVSWTNLKDAEGIDERRVTFLGFDAATEARFLGYVRFMVNVEGRYSHFDAGTHGFNSQTPMWEKYQRMLSVWHACPRQYHLSSNEINQIINA				NA	NA	NA	NA	NA
BMS020_01368	456			hypothetical protein	ATGTCGACCCCTGAGAAACGCCCCGTTAGCTTCTTTAGCTTGTTCAACCGCGGGCAGCACTACGCCAAGACCTGGCCTCTCGACAAGCGCCTCGCGCCGGTATTTATCGAAAACCGCATCATTCGTGCCACCCGCTACGCCATCCGCATCATGCCGCCGATCGCCATTTTCACCCTCTGCTGGCAGATAGCGCTGGGCGGCCAGCTGGGTCCCGCCGTGGCCACCGCGCTGTTTGCATTGAGCCTGCCGATGCAGGGATTATGGTGGTTGGGTAAACGTTCAGTGACGCCGCTGCCGCCTTCCATTCTTAACTGGTTCTACGAAGTACGCGGCAAACTGCAGGAGGCGGGGCAGGCGCTGGCGCCTGTCGAAGGCAAGCCCGATTATCAGGCGCTGGCTGACACGCTTAAGCGCGCCTTCAAACAACTCGATAAAACTTTCCTTGATGATTTGTAA	MSTPEKRPVSFFSLFNRGQHYAKTWPLDKRLAPVFIENRIIRATRYAIRIMPPIAIFTLCWQIALGGQLGPAVATALFALSLPMQGLWWLGKRSVTPLPPSILNWFYEVRGKLQEAGQALAPVEGKPDYQALADTLKRAFKQLDKTFLDDL				NA	NA	NA	NA	NA
BMS020_01369	1203	ackA	COG0282	Acetate kinase	ATGTCGAGTAAGTTAGTACTGGTTCTGAACTGCGGTAGCTCCTCTCTGAAATTTGCTATCCTTGACGCCGTGAACGGCGACGAATACCTGTCCGGTTTAGCGGAATGCTTCCACCTGCCGGAAGCCCGTATCAAATGGAAAATTGACGGCGGCAAACAAGAAGCCGAATTAGGCGCGGGCGCCGCGCACAGCGAAGCACTGAACTTTATCGTTAACACTATTCTGGCACAAAAACCAGAACTGTCTGCTCAGCTGACCGCAATCGGCCACCGTATCGTCCACGGCGGCGAAAAATACACCAGCTCCGTAGTCATCGACGAGTCCGTGATTCAGGGCATTAAAGACGCCGCGTCCTTCGCCCCGCTGCACAACCCGGCACACCTGATCGGCATCGCTGAAGCGCTGAAATCCTTCCCGCACCTGAAAGACAAAAACGTGGCAGTATTCGATACGGCGTTCCACCAGACCATGCCGGAAGAATCCTATCTCTACGCCCTGCCGTACAGCCTGTACAAAGAGCACGGCGTTCGTCGTTACGGCGCGCACGGCACCAGCCACTTCTACGTGACTCAGGAAGCCGCTAAGATCCTGAACAAGCCGGTTGAAGAGCTGAACATCATCACCTGCCACCTCGGCAACGGTGGTTCGGTTTCCGCTATTCGTAACGGCAAGTGCGTTGACACCTCCATGGGTCTGACCCCGCTGGAAGGCCTGGTGATGGGTACCCGCTCCGGCGATATCGATCCGGCCATCATCTTCCATCTGCACGACACCCTGGGCATGAGCGTTGACGCCATCAACAAAATGCTGACCAAAGAGTCCGGCCTGCTGGGCCTGACCGAAGTCACCAGCGACTGCCGCTACGTGGAAGACAACTACCAGGAAAAAGCCGACGCTAAACGCGCGATGGACGTCTACTGCCACCGCCTGGCGAAATACATCGGCTCCTACACCGCGCTGATGGACGGCCGTCTCGACGCCGTGATCTTCACCGGTGGCATCGGTGAAAACGCCGCGATGGTGCGTGAGCTGTCGCTGGGCAAACTGGGCGTACTGGGCTTTGAAGTTGACCATGAGCGTAACCTGGCTGCCCGCTTCGGCAAGTCTGGCTTCATCAACAAAGAAGGCACCCGTCCTGCCGTGGTTATCCCGACCAACGAAGAGCTGGTCATCGCGCAAGACGCCAGCCGTCTGACCGCATAA	MSSKLVLVLNCGSSSLKFAILDAVNGDEYLSGLAECFHLPEARIKWKIDGGKQEAELGAGAAHSEALNFIVNTILAQKPELSAQLTAIGHRIVHGGEKYTSSVVIDESVIQGIKDAASFAPLHNPAHLIGIAEALKSFPHLKDKNVAVFDTAFHQTMPEESYLYALPYSLYKEHGVRRYGAHGTSHFYVTQEAAKILNKPVEELNIITCHLGNGGSVSAIRNGKCVDTSMGLTPLEGLVMGTRSGDIDPAIIFHLHDTLGMSVDAINKMLTKESGLLGLTEVTSDCRYVEDNYQEKADAKRAMDVYCHRLAKYIGSYTALMDGRLDAVIFTGGIGENAAMVRELSLGKLGVLGFEVDHERNLAARFGKSGFINKEGTRPAVVIPTNEELVIAQDASRLTA	PGPT0001360_1559	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0001360-ackA-K00925	NA	NA
BMS020_01370	2148	pta	COG0280	Phosphate acetyltransferase	GTGTCCCGTACTATCATGTTAATTCCTACCGGTACCAGCGTAGGCCTGACCAGCGTCAGCCTCGGTGTGATCCGCGCTATGGAACGCAAAGGCGTTCGTCTGAGCGTCTTTAAACCTATCGCCCAGCCGCGCTCCGGCGGCGATGCCCCGGACCAGACCACCACCATCGTTCGCGCCAGCTCCTCCACCACCACCGCTGCTGAACCGCTGAAGATGAACCACGTTGAGTCTCTGCTCTCCAGCAATCAGAAAGATGTGCTGATGGAAGAGATCATCGCCAACTACCACGCGAACACTCAGGACGCGGAAGTGGTACTGGTGGAAGGCCTGGTGCCGACCCGTAAGCATCAGTTCGCCCAGGCGCTGAACTTTGAAATCGCCAAAACCCTGAACGCGGAAATCGTCTTCGTGATGTCGCAGGGCACCGATACGCCAGAACAGCTGAACGAGCGTATTGAACTGACCCGCAACAGCTTTGGCGGCGCGAAAAACACCAGCATCACCGGCGTTATCATCAACAAACTGAATGCGCCGGTCGACGAGCAGGGCCGTACCCGTCCTGACCTGTCAGAAATCTTCGACGACTCATCCAAAGCGAAAGTCGTGAAGATCGACCCGGCTCAGCTGCAAAACGGCAGCGCGCTGCCGGTGCTGGGCGCCGTACCGTGGAGCTTCGATCTGATCGCCACCCGCGCGATCGACATGGCCCATCACCTGAATGCGACCATCATCAACGAAGGCGACATCAACACCCGCCGCGTCAAATCCGTGACCTTCTGCGCGCGCAGCATCCCGCACATGCTGGAGCACTTCCGCGCGGGCTCGCTGCTGGTTACCTCCGCAGATCGTCCTGACGTGCTGGTTGCCGCCTGCCTGGCTGCGATGAACGGCGTGGAAATCGGCGCCATCCTGCTGACCGGCGGCTATGAAATGGACGCGCGCATCAGCAAGCTGTGCGAACGCGCCTTCGCCACCGGCCTGCCGGTATTCATGGTCAACACCAACACCTGGCAGACCTCCCTGAGCCTGCAGAGCTTCAACCTCGAAGTACCGGTTGACGATCACGAGCGCATTGAGAAAGTTCAGGAATACGTCGCCAACTACATCAACGCCGACTGGATCGAATCGCTGACCGCGACCTCCGAGCGCAGCCGTCGTCTCTCCCCGCCAGCCTTCCGCTACCAGCTGACCGAGCTGGCGCGCAAAGCCGGCAAACGCGTGGTTCTGCCGGAAGGCGACGAGCCGCGTACCGTGAAAGCCGCCGCTATCTGCGCCGAACGCGGGATCGCCACCTGTGTGCTGCTGGGTAACCCGGATGAGATCAACCGCGTTGCGGCAGCGCAGGGCGTTGAGCTGGGCGCCGGTATCGAAATCGTCGACCCGGAAGTGGTACGCGAAAGCTACGTGGCTCGCCTGGTCGAACTGCGTAAGAGCAAGGGCATGACCGAAGCGGTCGCCCGCGAGCAGCTGGAAGATAACGTGGTTCTCGGCACCCTGATGCTGGAACAAGACGAAGTCGACGGCCTGGTGTCCGGCGCGGTACACACCACCGCCAACACCATTCGTCCGCCGCTTCAGCTGATCAAAACCGCACCGGGCAGCTCGCTGGTCTCTTCGGTGTTCTTCATGCTGCTGCCGGAACAGGTTTACGTTTACGGCGACTGCGCGATCAACCCGGATCCGACCGCAGAGCAGCTGGCGGAAATCGCGATTCAGTCCGCTGACTCCGCGATTGCCTTCGGCATCGAACCGCGCGTGGCGATGCTCTCCTACTCCACCGGTACTTCCGGCGCGGGTAGCGATGTAGAAAAAGTCCGCGAAGCGACCCGCCTGGCGCAGGAAAAACGTCCTGACCTGATGATCGACGGTCCGCTGCAGTATGACGCCGCGGTGATGGCTGACGTCGCGAAATCCAAAGCGCCGAACTCGCCGGTAGCTGGCCGCGCGACCGTGTTCATCTTCCCGGATCTGAACACCGGTAACACCACTTACAAAGCGGTACAGCGCTCTGCCGACCTGATCTCCATCGGGCCGATGCTGCAGGGTATGCGCAAGCCGGTCAACGATCTGTCTCGTGGCGCGCTGGTAGACGATATCGTCTACACCATCGCACTGACCGCGATCCAGTCAGCTCAGCAGCAGAAGTAA	MSRTIMLIPTGTSVGLTSVSLGVIRAMERKGVRLSVFKPIAQPRSGGDAPDQTTTIVRASSSTTTAAEPLKMNHVESLLSSNQKDVLMEEIIANYHANTQDAEVVLVEGLVPTRKHQFAQALNFEIAKTLNAEIVFVMSQGTDTPEQLNERIELTRNSFGGAKNTSITGVIINKLNAPVDEQGRTRPDLSEIFDDSSKAKVVKIDPAQLQNGSALPVLGAVPWSFDLIATRAIDMAHHLNATIINEGDINTRRVKSVTFCARSIPHMLEHFRAGSLLVTSADRPDVLVAACLAAMNGVEIGAILLTGGYEMDARISKLCERAFATGLPVFMVNTNTWQTSLSLQSFNLEVPVDDHERIEKVQEYVANYINADWIESLTATSERSRRLSPPAFRYQLTELARKAGKRVVLPEGDEPRTVKAAAICAERGIATCVLLGNPDEINRVAAAQGVELGAGIEIVDPEVVRESYVARLVELRKSKGMTEAVAREQLEDNVVLGTLMLEQDEVDGLVSGAVHTTANTIRPPLQLIKTAPGSSLVSSVFFMLLPEQVYVYGDCAINPDPTAEQLAEIAIQSADSAIAFGIEPRVAMLSYSTGTSGAGSDVEKVREATRLAQEKRPDLMIDGPLQYDAAVMADVAKSKAPNSPVAGRATVFIFPDLNTGNTTYKAVQRSADLISIGPMLQGMRKPVNDLSRGALVDDIVYTIALTAIQSAQQQK	PGPT0001370_228	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0001370-pta-K13788	NA	NA
BMS020_01371	552	yfcD		putative Nudix hydrolase YfcD	ATGGCGGAACAGAATCATTTGGCAAGCACAGAATGGGTCGATATTGTTAATGAAAACAATGAGGTGATAGCACAGTCCAGCCGCGAGCAGATGCGCGCGCAGTGCCTGCGCCACCGGGCGACCTATATCGTCGTTCACGACGGAATGGGGAAAATTCTGGTGCAGCGACGCACCGAGACAAAAGACTTTCATCCGGGCATGCTGGATGCCACCGCCGGCGGCGTCGTGCAGGCTGATGAGCAATTGCTGGAGTCGGCCCGCCGCGAGGCGGAAGAGGAGTTAGGCATCGCCGGGGTGCCGTTCGCCGATCACGGCCAGTTCTACTACGAAGATAAATTCTGCCGCGTCTGGGGAAGCCTGTTCAGCTGCGTTTCCCACGGGCCGTTTGCCCTGCAGGAAGAAGAGGTAAGCGAGGTGTGCTGGTTAACGCCGGAAGAGATCACCGCCCGCTGCGATGAGTTCACGCCCGACTCCCTGAAAGCGCTGGCGCTGTGGATGACCCGCAACGCCGGTAACGAGTATGATGACGCGGAAGAGAGCGAGCGCGAATAA	MAEQNHLASTEWVDIVNENNEVIAQSSREQMRAQCLRHRATYIVVHDGMGKILVQRRTETKDFHPGMLDATAGGVVQADEQLLESARREAEEELGIAGVPFADHGQFYYEDKFCRVWGSLFSCVSHGPFALQEEEVSEVCWLTPEEITARCDEFTPDSLKALALWMTRNAGNEYDDAEESERE				NA	NA	NA	NA	NA
BMS020_01372	552	yfcE	COG0622	Phosphodiesterase YfcE	ATGAAGCTGATGTTTGCCTCCGATATTCATGGTTCGCTGCCCGCCACGGAACGCGTGCTTGAACGTTTCGCGCAAAGTGGCGCCAGGTGGCTGATCATCCTCGGCGATGTGCTTAATCACGGACCGCGCAACGCGTTGCCGGAAGGCTATGCGCCGGCGGAGGTGGCCGAGCGGCTGAACAGCGTGGCGGAGCGCATCATTGCCGTCCGCGGTAACTGCGACAGCGAAGTGGATCAAATGCTGCTTCGTTTTCCCATGACCGCACCCTGGCAGCAGGTGCTTGGCGAAGGCTATCGCCTGTTTCTGACCCACGGTCATCTGTATAGCCCGGACAATTTGCCGCCACTTGCCGCTGGCGATGTCCTGGCGTATGGCCATACTCATATTCCGGTTGCTGAAAAACGCGGGGCGATCTCTCTGTTTAATCCAGGCTCAGTGAGTATCCCGAAAGGGGGATATTCCGCCAGCTATGGGCTACTGGATGAGGGGCGTCTGCAGGTTTTAGCACTCAATGATAATCAGGTTATTGCAGAGGTCGCAATTTACCCGTAA	MKLMFASDIHGSLPATERVLERFAQSGARWLIILGDVLNHGPRNALPEGYAPAEVAERLNSVAERIIAVRGNCDSEVDQMLLRFPMTAPWQQVLGEGYRLFLTHGHLYSPDNLPPLAAGDVLAYGHTHIPVAEKRGAISLFNPGSVSIPKGGYSASYGLLDEGRLQVLALNDNQVIAEVAIYP				NA	NA	NA	NA	NA
BMS020_01373	645	yfcF	COG0625	Glutathione S-transferase YfcF	ATGAGCCAGCCTGTGATTACCCTGTGGTCCGATGCCGATTTTTTCTCACCGTACGTGATGTCTGTCTATGTCGCGCTGCAGGAAAAGAGCCTGCCTTTTAGCCTTAAAACCATCGACCTGAACCGCGGCGAACATCTGCAGGCCGGCTGGACGGGCTATGCCGCCACCCGTCGCGTACCGCTGCTGGAGGTTGACGATTTCGCGTTAAGCGAGTCTTCGGCGATTACCGAATATCTGGATGAACGTTTCGCGCCGCCTGAGTGGGAGCGCCTTTATCCACACGATCTGCAAAAGCGGGCCCGCGCCCGGCAGATCCAGGCCTGGCTGCGCAGCGATCTGGTGCCCATTCGTGAAGAGCGATCCACCTCCGTGGTGTTTGGCGGAGTGAAAATGCCGGCGCTCAGCGAGGCAGGCAAGCGGTCGGCGGAAAAACTGTTTGCCACCGCGACCACGCTGCTGGCCCACGGCGGGCAAAATTTATTCGGCGAATGGTCTATAGCCGACGCCGACCTGGCGCTGATGCTCAATCGTCTGGTTCTCAATGGCGATGAGGTGCCGGAGGCGCTGGCGGATTATGCGGCGTTCCAGTGGCAGCGGGCCTCAATCCAGCGTTACGTGGCGCTTTCCGCCAAACGCGGAGGCTGA	MSQPVITLWSDADFFSPYVMSVYVALQEKSLPFSLKTIDLNRGEHLQAGWTGYAATRRVPLLEVDDFALSESSAITEYLDERFAPPEWERLYPHDLQKRARARQIQAWLRSDLVPIREERSTSVVFGGVKMPALSEAGKRSAEKLFATATTLLAHGGQNLFGEWSIADADLALMLNRLVLNGDEVPEALADYAAFQWQRASIQRYVALSAKRGG	PGPT0013170_14565	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS020_01374	630	yfcG_1	COG0625	Disulfide-bond oxidoreductase YfcG	ATGATCGATCTCTACTATGCGCCCACCCCAAACGGCCACAAAATCACCCTCTTTCTCGAAGAGGCGCAGCTGGCCTATCGGCTAATCCGGGTCGATATCGGTAAAGGGGAGCAGTTTCATCCGCAGTTTCTGGCGATTTCGCCGAATAACAAAATTCCGGCTATCGTCGACCACATGCCTGCCGACGGCGGCGCGCCGTTGAGCGTCTTCGAGTCCGGCGCCATTCTGCTCTATCTGGCGGAAAAAAGCGGCAAGCTGCTGAGCGGCGAGCTGCGGGCGCGCTATACCACCCTGCAGTGGCTGTTCTGGCAGGTCGGCGGCCTGGGACCGATGCTGGGGCAAAATCAGCATTTTTCCCACTCAGCGCCGCAAACCGTGCCCTACGCGATTGAGCGTTTTCAGGTGGAAACCCAGCGACTCTACGGGGTACTGAATCACCGACTGGGATCCAGCCCGTGGCTGGGCGGGGACCACTACAGCATCGCCGACATCGCCGCCTGGCCCTGGGTGAACTGCCATGTCCGCCAGCGGATCGATCTGGCGAACTATCCGGCGGTGCATAACTGGTATGAGCGCATTAAGCAGCGGCCGGCGACGGTGGAAGCGATGCTAAAAATTCAGTCTTATTAA	MIDLYYAPTPNGHKITLFLEEAQLAYRLIRVDIGKGEQFHPQFLAISPNNKIPAIVDHMPADGGAPLSVFESGAILLYLAEKSGKLLSGELRARYTTLQWLFWQVGGLGPMLGQNQHFSHSAPQTVPYAIERFQVETQRLYGVLNHRLGSSPWLGGDHYSIADIAAWPWVNCHVRQRIDLANYPAVHNWYERIKQRPATVEAMLKIQSY	PGPT0013045_2922	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013045-yghU|yfcG-K11209	NA	NA
BMS020_01375	363	folX	COG1539	Dihydroneopterin triphosphate 2'-epimerase	ATGTCTCAACCAGACGCCATTATTCGTATTAAGAACCTGCGCCTGCGTACTTTTATTGGTATTAAAGAGGAAGAGATCGCCAACCGCCAGGACGTGGTGGTGAATGTGGCCATTCACTACCCTGCCGATAAAGCGCGCGACAGCGAGGACATTAATGATGCGTTGAACTACCGCACCATTACCAAACGCATCATCAGCCATCTTGAGAATGGTCGTTTTTCACTGCTGGAAAAATTAACTCAGGATGTGCTGAATATCGCATGCGAACATCACTGGGTCACATATGCTGAAGTGGAGATCGATAAACTTCACGCGCTGCGCTATGCCGACTCAGTATCCATGACCATGAGCTGGCGGCGCTAA	MSQPDAIIRIKNLRLRTFIGIKEEEIANRQDVVVNVAIHYPADKARDSEDINDALNYRTITKRIISHLENGRFSLLEKLTQDVLNIACEHHWVTYAEVEIDKLHALRYADSVSMTMSWRR	PGPT0008030_18	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008030-folX-K07589	NA	NA
BMS020_01376	894			Epimerase family protein	ATGAAGATCCTGCTTACTGGTGGTACCGGCCTGATTGGCCGACATCTGATACCCAGATTGCTGGAGCTCGGGCATAGCGTCACGGTCTCCACCCGGCATCCGGATACCGCCCGCGCCCGTCTCGATCCACGCGTCACGCTGTGGCGCGATTTCGAGGGCCATCACCACCTCAATGACATCGATGCCGTCATCAATCTGGCGGGCGAGCCCATCGCCGATAAACGCTGGACCGCCGAACAGAAACAGCGCTTATGCCATAGTCGCTGGGATCTCACTCAGCGGTTGGTGGGCCTGATCCACGCCAGCGACACCCCTCCCTCCGTGCTGATCAGCGGGTCAGCCACCGGCTATTACGGCGACCTCGGCGAAGTGGTGGTGACCGAAGAAGAGCCGCCGCACAATGAGTTTACCCATAAGCTCTGCGCCCGCTGGGAGCAAATTGCCTGCGAAGCGCAAAGCGAGCGCACTCGCGTCTGTCTGCTGCGCACCGGCGTGGTACTGGCGCCGCGGGGCGGTATTCTCGGCAAAATGACCCCAGCCTTTAAGCTCGGCCTCGGCGGGCCTATCGGCAGCGGCAGACAGTACCTGGCCTGGATCCATATCGACGATATGGTTAACGGCATTCTGTGGCTGCTGGATAACGATCTGCGCGGCCCGTTCAATATGGTTTCGCCCTATCCCGTGCATAACGAGCAGTTCGCCCACGCGCTGGGTCATGCGCTCAATCGACCGGCGATTTTCCGCGTCCCCGCCGCCGCCATCCGCCTGCTGATGGGCGAATCGGCCGTCCTGGTGCTCGGCGGTCAGCGCGCGCTGCCTAAGCGGCTGGAAGCCGCCGGCTTCGCCTTCCGCTGGTACGATCTCGACGAAGCGCTAAAGGATGTGCTGAGTTAA	MKILLTGGTGLIGRHLIPRLLELGHSVTVSTRHPDTARARLDPRVTLWRDFEGHHHLNDIDAVINLAGEPIADKRWTAEQKQRLCHSRWDLTQRLVGLIHASDTPPSVLISGSATGYYGDLGEVVVTEEEPPHNEFTHKLCARWEQIACEAQSERTRVCLLRTGVVLAPRGGILGKMTPAFKLGLGGPIGSGRQYLAWIHIDDMVNGILWLLDNDLRGPFNMVSPYPVHNEQFAHALGHALNRPAIFRVPAAAIRLLMGESAVLVLGGQRALPKRLEAAGFAFRWYDLDEALKDVLS	PGPT0014730_2845	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014730-yfhF-K07071	NA	NA
BMS020_01377	528			hypothetical protein	ATGACGACCATCACCACGCCTCGCCTTTCGCTTACCCGCTTTGTTACCGATGACTGGCCCTTTTTTCTGCGCCTGCGCCAGGATCCGCAGGTGATGCGTTTTATGGGCGAAATGTTAAGCGAGGAGGCATTGCGCAGCGTGTTCGCCAGTCGCTGCGCCGATCCCGGCGTGTATGTTCTGCGTAATCAGCGCGGCGATGCACTGGGCGATATTGGGGTTCGCATCAGCCCTAAAAATCCGCACGAGGCCGACGTCGGCTATGCGCTGCTGCCCGAGGCTCAGGGAAAAGGGTATGCCAGCGAAGCGCTGCGGGCGATCTGCGATTATGGTTTCAGCACGCTGGGGGTGCGGGCTATCAATGCCTGGGTTTTGGCAGAGAATCGTGGCTCATCGCGCCTGCTGGAGAAGCAGGGCTTTGTACGCACGCAGGTGCTGGAGAAAGCCTATCATCTGAACGGCGTCGATTACGATGACTGGATCTACCGGCTGGAGCGTGGATCCCACCCGGCGCCCGCGGACGCCGGGTGA	MTTITTPRLSLTRFVTDDWPFFLRLRQDPQVMRFMGEMLSEEALRSVFASRCADPGVYVLRNQRGDALGDIGVRISPKNPHEADVGYALLPEAQGKGYASEALRAICDYGFSTLGVRAINAWVLAENRGSSRLLEKQGFVRTQVLEKAYHLNGVDYDDWIYRLERGSHPAPADAG				NA	NA	NA	NA	NA
BMS020_01378	774	hisP	COG4598	Histidine transport ATP-binding protein HisP	ATGTCCGACAATAAATTAAACGTTATCGATCTGCATAAACGCTATGGGGAACACGAGGTGCTGAAGGGCGTCTCGCTGCAGGCGAAAGCCGGGGACGTTATCAGTATCATCGGTTCATCGGGATCCGGGAAAAGTACCTTTTTGCGTTGTATTAACTTCCTTGAAAAACCGAGCGAAGGCACGATCGTCGTCAGCGGCCAGAATATTGGCCTGGTACGGGATAAAGACGGCCAGCTGAAGGTAGCCGACAAGAACCAGCTGCGCCTGCTGCGCACCCGGTTGACCATGGTGTTTCAGCATTTCAATCTGTGGAGCCATATGACGGTGCTGGAGAACGTCATGGAGGCGCCGATTCAGGTGCTGGGCTTAAGCAAACAGGAAGCGCGCGAACGGGCGGTAAAATACCTGGCCAAGGTCGGGATAGACGAACGTCAGCAGGCGAAATACCCGGTGCATCTTTCCGGCGGCCAGCAGCAGCGTGTCTCTATTGCCCGCGCGCTGGCGATGGAGCCGGAGGTGCTGCTGTTTGATGAGCCGACCTCCGCGCTGGATCCGGAGCTGGTGGGCGAAGTGTTACGCATTATGCAGCAGCTGGCGGAAGAGGGGAAAACCATGGTGGTGGTGACCCACGAAATGGGCTTTGCCCGCCACGTCTCTTCGCATGTCATTTTCCTGCATCAGGGAAAAATTGAAGAAGAAGGGCATCCGGACGCGCTGTTCGGCGCGCCGAAAAGCCCGCGCCTGCAGCAGTTTCTGAAAGGGTCGCTGAAATAA	MSDNKLNVIDLHKRYGEHEVLKGVSLQAKAGDVISIIGSSGSGKSTFLRCINFLEKPSEGTIVVSGQNIGLVRDKDGQLKVADKNQLRLLRTRLTMVFQHFNLWSHMTVLENVMEAPIQVLGLSKQEARERAVKYLAKVGIDERQQAKYPVHLSGGQQQRVSIARALAMEPEVLLFDEPTSALDPELVGEVLRIMQQLAEEGKTMVVVTHEMGFARHVSSHVIFLHQGKIEEEGHPDALFGAPKSPRLQQFLKGSLK	PGPT0020610_192	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020610-hisP-K10017	NA	NA
BMS020_01379	717	hisM	COG4160	Histidine transport system permease protein HisM	GTGATTGAAATTATTCAGGAGTACTGGAAATCACTGCTGTGGACCGACGGGTATCGCTTTACCGGCGTGGCGATTACCTTATGGTTGCTGATCTCTTCGGTGGTCATGGGGGGCATCCTGGCGGTCTTTCTGGCAATCGGCCGCGTTTCGAGCAATAAGTTCATCCAGTTTCCCATCTGGCTGTTTACTTACATATTTCGCGGCACGCCGCTGTACGTGCAGCTATTGGTCTTTTACTCCGGCATGTACACCCTGGAAATCGTCAAAGGCACTGAACTGCTGAACGCCTTTTTCCGCAGCGGGTTAAACTGTACGGTGCTGGCGCTGACCCTGAACACCTGCGCCTATACCACCGAAATTTTCGCCGGCGCGATCCGCTCGGTACCGGCGGGCGAAATTGAAGCGGCGCGGGCCTACGGCTTCTCTTCGGTCAAACTGTACCGCTGCATCATCCTGCCTTCCGCGCTGCGGATTGCGCTGCCGGCCTACAGTAACGAAGTGATCCTGATGCTGCACTCAACGGCGCTGGCGTTTACCGCCACGGTGCCGGATCTGCTGAAAATCGCCCGCGATATCAACTCGGCCACCTATCAGCCGTTCACCGCCTTCGGTATCGCCGCGGTGCTCTATTTAATTATCTCGTATGTGCTGATTAGCTTGTTCCGCAAAGCGGAAAAGCGCTGGTTGCAGCATATCAAACCTTCTTCAACGCATTGA	MIEIIQEYWKSLLWTDGYRFTGVAITLWLLISSVVMGGILAVFLAIGRVSSNKFIQFPIWLFTYIFRGTPLYVQLLVFYSGMYTLEIVKGTELLNAFFRSGLNCTVLALTLNTCAYTTEIFAGAIRSVPAGEIEAARAYGFSSVKLYRCIILPSALRIALPAYSNEVILMLHSTALAFTATVPDLLKIARDINSATYQPFTAFGIAAVLYLIISYVLISLFRKAEKRWLQHIKPSSTH	PGPT0020600_87	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020600-hisM-K10015	NA	NA
BMS020_01380	687	hisQ_1	COG4215	Histidine transport system permease protein HisQ	ATGCTGTATGGGTTTTCACAGGTTATTTTGCAGGGTGCGCTCGTCACCCTGGAGCTTGCGCTCAGCTCGGTCGTTCTCGCCGTCCTGATCGGGCTGGCGGGCGCGGGCGCAAAGCTATCGAGCAACCGTCCTCTGGCGCTGGTGTTTGAAGGCTATACCACACTGATCCGCGGCGTCCCCGACCTGGTGCTGATGCTGTTGATTTTCTACGGCCTGCAGATTGCGCTCAACAGCGTCACCGACGCGTTGGGCATGTCGCAGTTTGATATTGACCCGATGATCGCCGGGATAATTACCCTTGGCTTTATCTATGGCGCCTATTTTACGGAAACCTTCCGCGGCGCCTACCTGGCGGTGCCGAAGGGGCATATCGAAGCGGCCACCGCCTTTGGCTTCAGCGGCGGGCAGACGTTCCGGCGCATCCTGTTCCCGGCGATGATGCGCTACGCGCTGCCGGGGATCGGCAACAACTGGCAGGTTATCCTCAAGGCGACGGCGCTGGTCTCGCTGCTGGGACTGGAGGATGTGGTCAAAGCCACGCAGCTGGCGGGCAAAAGCACCTGGCAGCCGTTCTACTTCGCCATCGTCTGCGGTCTGATTTATCTGGTGTTTACCACCCTGTCTAATGGCGTACTGCTGCTGCTCGAACGCCGCTATACCGTTGGCGTGAAGAGGGCTGACCTGTGA	MLYGFSQVILQGALVTLELALSSVVLAVLIGLAGAGAKLSSNRPLALVFEGYTTLIRGVPDLVLMLLIFYGLQIALNSVTDALGMSQFDIDPMIAGIITLGFIYGAYFTETFRGAYLAVPKGHIEAATAFGFSGGQTFRRILFPAMMRYALPGIGNNWQVILKATALVSLLGLEDVVKATQLAGKSTWQPFYFAIVCGLIYLVFTTLSNGVLLLLERRYTVGVKRADL	PGPT0020605_448	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020605-hisQ-K10016	NA	NA
BMS020_01381	783	hisJ_1	COG0834	Histidine-binding periplasmic protein	ATGAAAAAACTGGCGTTGTCTCTCTCTTTAGCGCTGGCCCTTTCCAGCGTTTCCACGGTCTTTGCCGCTATTCCGCAAAAAATTCGTATCGGTACCGATCCGACTTATGCTCCCTTCGAATCGAAGAATGCGCAGGGGGAATTGGTGGGTTTTGATATCGATCTGGCAAAAGAGCTGTGTAAGCGTATTAATACCCAATGTACCTTTGTGGAAAACCCGCTGGATGCGCTGATCCCCTCTTTAAAAGCGAAGAAAATCGACGCGATTATGTCTTCGCTGTCGATTACCGAAAAGCGTCAGCAGGAAATCGCTTTCACCGACAAACTGTATGCGGCTGATTCGCGTCTGGTGGTGAAAAAGGGCAGCCCCGTGACGCCGGACCTCGCCACCCTGAAAGGGAAGCGCGTGGGCGTGCTGCAGGGCACGACGCAGGAAACTTATGGTAATGAGCACTGGGCGCCGAAAGGTATCGAGATTGTCTCTTATCAGGGACAGGACAATATCTATTCCGACCTGACCGCCGGCCGTATTGATGCCGCTTTCCAGGATGAGGTCGCGGCCAGCGAAGGGTTCCTGAAACAGCCTATCGGTAAAGATTATCAGTTTGGCGGTCCGTCGATTAAAGACGAAAAGCTGTTCGGCGTCGGCACCGGTATGGGGCTGCGTAAGGAAGACAACGAACTGCGTGAAGCGCTGAATAAGGCGTTTGCAGAGATGCGTAAGGACGGCACCTACGACAAGCTGGCGAAAAAATATTTCGATTTTAACGTATACGGCGAATAA	MKKLALSLSLALALSSVSTVFAAIPQKIRIGTDPTYAPFESKNAQGELVGFDIDLAKELCKRINTQCTFVENPLDALIPSLKAKKIDAIMSSLSITEKRQQEIAFTDKLYAADSRLVVKKGSPVTPDLATLKGKRVGVLQGTTQETYGNEHWAPKGIEIVSYQGQDNIYSDLTAGRIDAAFQDEVAASEGFLKQPIGKDYQFGGPSIKDEKLFGVGTGMGLRKEDNELREALNKAFAEMRKDGTYDKLAKKYFDFNVYGE	PGPT0020595_149	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_HISTIDINE_TRANSPORT,PGPT0020595-hisJ-K10014	NA	NA
BMS020_01382	783	argT	COG0834	Lysine/arginine/ornithine-binding periplasmic protein	ATGAAGAAGACGATTCTGGCTCTCTCTTTACTCGTGGGAATGAGCAGCACGGCCAGCGTGTTCGCTGCTCTGCCGCAGAGCATTCGCATTGGCACTGACGCGACCTATGCGCCGTTTTCGTCGAAAGACGCGAAAGGGGACTTTGTTGGCTTTGATATCGATTTAGGCAATGAACTGTGCTCCCGTATTAAGGTGAAATGTACCTGGGTCGGCAGTGATTTTGACTCCCTGATCCCCTCCCTCAAGGCGAAGAAAATTGACGCCATCATCTCCTCGCTCTCCATCACCGAGAAGCGCCAGCAAGAGATCGCCTTCTCTGACAAGCTTTATGCCGCCGACTCCCGTCTGATCGCGGCCAAAGGCTCGCCGATCCAGCCGACGCTGGAGGCGCTGAAAGGTAAACACGTCGGCGTGCTGCAGGGCTCCACGCAGGAAGCCTATGCTAACGATCGCTGGCGCAGCCAGGGCGTTGACGTGGTGGCCTATCAAAACCAGGACCTGATCTATTCCGACCTCTCCGCGGGTCGTCTGGATGCGGCGCTGCAGGATGAAGTCGCCGCCAGCGAAGGCTTCCTCAAACAGCCCGCCGGGAAAGATTTCGCCTTCGCCGGCCCGTCGGTTAAAGACAAAAAGTACTTTGGCGACGGCACCGGTATCGGCCTGCGTAAGGACGACGCCGAGCTGAAAGCCGCGTTTGATAAAGCGCTGGGCGAGATGCGCAAAGACGGCACCTACGACAAAATGGCGAAGAAATACTTCGATTTTAACGTCTACGGCGACTAA	MKKTILALSLLVGMSSTASVFAALPQSIRIGTDATYAPFSSKDAKGDFVGFDIDLGNELCSRIKVKCTWVGSDFDSLIPSLKAKKIDAIISSLSITEKRQQEIAFSDKLYAADSRLIAAKGSPIQPTLEALKGKHVGVLQGSTQEAYANDRWRSQGVDVVAYQNQDLIYSDLSAGRLDAALQDEVAASEGFLKQPAGKDFAFAGPSVKDKKYFGDGTGIGLRKDDAELKAAFDKALGEMRKDGTYDKMAKKYFDFNVYGD	PGPT0020650_293	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020650-argT-K10013	NA	NA
BMS020_01383	585	ubiX	COG0163	Flavin prenyltransferase UbiX	GTGAAACGACTGATTATTGGCATTTCCGGCGCCAGCGGCGCCATCTATGGCGTGCGGATGCTGCAGGTGCTACGGGATGTGCCGGATATTGAAACCCATTTGATCCTCAGCCAGGCGGCGCGCCAGACGCTGGCGATGGAGACCGACTTTACCGTGCGTGAAGTACAGGCGCTGGCTGATGTGGTGCATGATGCCCGCGACATCGCCGCCAGCATCTCCTCCGGCTCGTTTAAAACCGCCGGGATGGTGATTTTACCCTGCTCAATGAAAACGCTCTCGGGTATTGTCCATAGCTACACGGATGGTCTGCTGACGCGGGCGGCGGATGTGGTGCTGAAGGAGCGTCGTCCGCTTGTGCTCTGCGTGCGGGAGACCCCGTTCCATCTTGGCCATCTGCGTCTGCTGGTGCAGGCCGCGGAGCTGGGGGCGGTGATTATGCCGCCGGTGCCGGCCTTCTACCATCGGCCGCAAAGCCTGGATGATGTTATCAACCAGACCGTCAACCGGGTGCTCGATCAGTTCGACATTAGCCTGGAACAAGACTTGTTTACTCGCTGGCAAGGGGCACAGGATTGCACCAAATAG	MKRLIIGISGASGAIYGVRMLQVLRDVPDIETHLILSQAARQTLAMETDFTVREVQALADVVHDARDIAASISSGSFKTAGMVILPCSMKTLSGIVHSYTDGLLTRAADVVLKERRPLVLCVRETPFHLGHLRLLVQAAELGAVIMPPVPAFYHRPQSLDDVINQTVNRVLDQFDISLEQDLFTRWQGAQDCTK	PGPT0009565_1679	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
BMS020_01384	1518	purF_1	COG0034	Amidophosphoribosyltransferase	ATGTGCGGTATTGTCGGTATCGCCGGTGTTATGCCGGTTAACCAGTCGATTTATGATGCGCTAACGGTGCTCCAGCACCGTGGACAGGATGCCGCTGGCATCATCACCATTGATGCCAACAACTGCTTCCGGTTGCGTAAGGCTAACGGGCTGGTAAGCGACGTATTCGAAGCCCGCCATATGCAGCGTATGCAGGGCAATATGGGGATTGGCCACGTGCGTTACCCCACGGCGGGCAGCTCCAGCGCCTCCGAAGCGCAGCCGTTTTACGTCAACTCGCCGTATGGCATCACATTGGCGCATAACGGCAACCTGACCAACGCCCATGAGCTGCGTAAAAAGCTGTTTGAAGAAAAACGCCGCCATATCAATACCACCTCAGATTCCGAAATCCTCCTCAATATTTTCGCCAGTGAGCTGGATAACTTCCGTCACTACCCACTGGAAGCGGACAACATCTTTGCCGCGATTGCGGCGACCAACCGCCTGATCCGCGGCGCGTACGCTTGCGTGGCGATGATCATCGGTCATGGCATGGTGGCCTTCCGCGACCCGAACGGCATTCGTCCGCTGGTGCTGGGCAAACGTGACGTAGGCGATGGCCGCACCGAGTATATGGTGGCCTCGGAAAGCGTGGCGCTTGACACCCTTGGCTTTGAATTCCTGCGCGATGTGGCGCCGGGCGAAGCGGTTTATATTACCGAGAAGGGCCAGCTGTTTACCCGTCAGTGCGCCGATAACCCGGTCAGCAACCCGTGCCTGTTCGAGTATGTCTATTTTGCCCGTCCGGACTCGTTTATCGACAAAATTTCCGTCTACAGCGCCCGCGTCAATATGGGAACCAAGCTGGGCGAAAAGATTGCCCGCGAGTGGGAAGATCTGGATATTGACGTCGTTATCCCGATCCCGGAGACCTCCTGCGATATCGCGCTGGAGATCGCCCGCATCCTTGACAAGCCTTATCGTCAGGGCTTCGTGAAGAACCGCTACGTCGGCCGCACATTTATCATGCCGGGTCAGCAGCTGCGTCGTAAGTCTGTGCGCCGCAAGCTCAACGCCAACCGTGCGGAGTTCCGCGATAAGAACGTGCTGCTGGTGGACGATTCCATCGTCCGCGGCACCACCTCGGAGCAGATCATCGAGATGGCGCGCGAAGCAGGGGCGAAAAAAGTGTATCTGGCCTCAGCCGCGCCGGAAATTCGTTTCCCGAACGTGTACGGTATCGATATGCCGACCGCCAACGAACTCATCGCCCATGGCCGCGAAGTGGATGAGATCCGCCAGATCATCGGCGCCGATGGTCTGATTTTCCAGGATCTCAACGATCTGATCGAAGCGGTGCGCGCGGAAAATCCGGATATTCAGCAGTTTGAATGCTCAGTGTTCAACGGCGTATACGTCACCCGGGATGTCGACCAGCAGTACCTCGACTACCTCGATTCCCTGCGTAACGATGATGCCAAAGCGGTCCAGCTGCAGAACGAAGTCGAAAACCTCGAGATGCACAACGAGGGTTAA	MCGIVGIAGVMPVNQSIYDALTVLQHRGQDAAGIITIDANNCFRLRKANGLVSDVFEARHMQRMQGNMGIGHVRYPTAGSSSASEAQPFYVNSPYGITLAHNGNLTNAHELRKKLFEEKRRHINTTSDSEILLNIFASELDNFRHYPLEADNIFAAIAATNRLIRGAYACVAMIIGHGMVAFRDPNGIRPLVLGKRDVGDGRTEYMVASESVALDTLGFEFLRDVAPGEAVYITEKGQLFTRQCADNPVSNPCLFEYVYFARPDSFIDKISVYSARVNMGTKLGEKIAREWEDLDIDVVIPIPETSCDIALEIARILDKPYRQGFVKNRYVGRTFIMPGQQLRRKSVRRKLNANRAEFRDKNVLLVDDSIVRGTTSEQIIEMAREAGAKKVYLASAAPEIRFPNVYGIDMPTANELIAHGREVDEIRQIIGADGLIFQDLNDLIEAVRAENPDIQQFECSVFNGVYVTRDVDQQYLDYLDSLRNDDAKAVQLQNEVENLEMHNEG	PGPT0020225_1990	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020225-purF-K00764	NA	NA
BMS020_01385	489	cvpA	COG1286	Colicin V production protein	ATGGTCTGGATTGATTACGCCATTATGGCGGTGCTGGGTCTTTCTTGCCTGGTCAGCCTGATCCGCGGCTTCGTTCGCGAAGCTTTATCGTTAGTCACGTGGGGTTGCGCGTTTTATGTCGCCAGCCACTACTACGCTGACCTGTCTGTCTGGTTTACGGGCTTTGAGGATGAACGGGTTCGAAATGGGATTGCTATTGCGGCGCTGTTTATCGTGACGCTCATCGTTGGCGCTATCGTGAACTATGTGATAGGCCAACTGGTGGAGAAGACCGGTTTGTCAGGTACCGACAGGGTATTGGGGATCTGCTTCGGCGCGCTACGTGGGGTGCTGATCATCGCCGCTATCCTGTTCTTCCTTGACACCTTTACCGGGATGGCGAAGAGCGATGACTGGCAGCAGTCGCAGTTTATTCCCTATTTTACCCCCGTCATCAGATGGTTTTTTGAATACCTGCAAAGCTCGTCAAGTTTCTTGCCTAAAGTATAG	MVWIDYAIMAVLGLSCLVSLIRGFVREALSLVTWGCAFYVASHYYADLSVWFTGFEDERVRNGIAIAALFIVTLIVGAIVNYVIGQLVEKTGLSGTDRVLGICFGALRGVLIIAAILFFLDTFTGMAKSDDWQQSQFIPYFTPVIRWFFEYLQSSSSFLPKV	PGPT0011655_2110	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|COLICINS,PGPT0011655-cvpA-K03558	NA	NA
BMS020_01386	696	dedD_1		Cell division protein DedD	GTGGCGAGTAAGTTTCAGAACCGTTTAGTCGGGACAATCGTGCTGGTGGCGCTGGGGGTGATTATCCTGCCAGGGCTGCTGGACGGGCAGAAAAAGCACTATCAGGATGAGTTTGCCGCGATCCCGCTGGTGCCGAAACCCGGCGATCGCGATGAACCGGATATGCTGCCGGCGGCGACTCAGGCGCTGCCTTCGCAGCCGCCGGAAGGGGCGGCGGAGGAGGTGCGGGCTGGCGATGCCGCTGCGCCATCGTTAGATCCGTCGCGTATCCCGGTGAACAGCAACAGCTTCGATGACGTTCAGGAGCCGGTGGTTGCCGCGAAACCGCAGCCTAAACCCCAGCCGAAGCCGCAGCCGAAGCCGCAACAGCAGGCTGCGACGCCTACCCCTCCGCCGGCTAAGCCTCAGCAGCAGCAACCACCGCAGCAGCAGGCGGCCCTGCCGGCGCCGACCGGCAAGGCCTATGTGGTCCAGTTGGGCGCGTTGAAGAACGCCGATAAGGTGAATGAGATCGTCGGTAAGCTACGAGCATCGGGCTTCAAAGTCTATACGTCGCCTTCGACGCCGGTACAGGGTAAAATTACCCGTATCCTCGTCGGCCCGGATGCGTCAAAAGACAAGCTCAAGGGCCAGTTGGGCGATCTGCAACAGATCTCCGGGCTCAGCGGGGTGGTGATGGGCTTCACCCCGAACTGA	MASKFQNRLVGTIVLVALGVIILPGLLDGQKKHYQDEFAAIPLVPKPGDRDEPDMLPAATQALPSQPPEGAAEEVRAGDAAAPSLDPSRIPVNSNSFDDVQEPVVAAKPQPKPQPKPQPKPQQQAATPTPPPAKPQQQQPPQQQAALPAPTGKAYVVQLGALKNADKVNEIVGKLRASGFKVYTSPSTPVQGKITRILVGPDASKDKLKGQLGDLQQISGLSGVVMGFTPN				NA	NA	NA	NA	NA
BMS020_01387	1269	folC_1	COG0285	Dihydrofolate synthase/folylpolyglutamate synthase	ATGGAAAAAGATCCTATTCCTCAGGCCACGTCGCCCCTGGCTACGTGGCTTTCTTATCTGGAACATCTGCACAGTAAAACCATCGACCTGGGGCTGGCGCGCGTCAGCGAGGTCGCGCGGCAGATGGATATCGTCAAACCGGCGCCGTTCGTCTTTACGGTCGCGGGCACCAATGGCAAAGGCACCACCTGCCGCACGCTGGAAACGGTCCTGATGGCGGCCGGCTATAAAGTGGGGGTCTACAGCTCTCCGCATCTGGTGCGCTACACCGAACGCGTGCGCATTCAGGGCGCGGAACTGCCGGAGGCAGCGCATACGGCCTCGTTTGCGGAGATTGAAGCGGCGCGGGGCGACATCTCGCTGACCTATTTTGAGTACGGCACGCTCTCTGCGCTATGGTTGTTTAAGCAGGCGCAGCTGGATGCGGTGATCCTGGAGGTGGGCCTCGGCGGCCGTCTCGACGCCACCAATATCGTGGATGCCGACGTCGCCGTGGTCACCAGCATCGCCCTCGATCATACCGACTGGCTGGGACCGGATCGCGACAGTATCGGCCGGGAGAAAGCCGGTATCTTCCGTGCCGGTAAACCGGCGGTGGTAGGGGAGCCGGATATGCCGCACACCATTGCTGAAGTGGCGCGCGAGAAGGGCGCGCTGCTCCAGCGCCGCGGCGTCGACTGGCGCTATGAGGTGGAAGGCGAGACATGGTCCTTCCGCGACGCGGGCGGGGCGTTAAGCCGCCTGCCTCTGCCTCAGGTGCCGTTGCCGAATGCCGCCACGGCCGTGGCGGCGCTGCTCGCCAGCGGCCTTGCCGTGGATGACGCTATCCTGCGCGCGGGGATCCGCGACGCGATGCTGCCGGGACGCTTTCAGATAATCAGCGACGCCCCGCGGGTGATCCTCGATGTGGCGCATAACCCGCACGCGGCGGCTTATCTCGCCGGGCGTCTCAAAACGTTAGCGAAAACGGGACGCGTGCTGGCGGTTATTGGTATGCTGCATGATAAGGACATCGCCGGTACGCTGGCCAATCTGACGCCGGAAGTTGACGTCTGGTACTGCGCGCCGCTGGAGGGTCCGCGCGGGGCGACGGCGGAGCAGCTGGTGGAACATTTGCGTGGCGGCACAGTCTATAGCAGCGTGGCGCAGGCGTGGCGCGCGGCCATGGCTGACGCTCAAGCGGAAGATACAGTGCTGGTGTGTGGTTCATTTCACACGGTAGCGCAGGTAATGGAAGAGATTGACGCGGGGAGAATCGGTGGCGAGTAA	MEKDPIPQATSPLATWLSYLEHLHSKTIDLGLARVSEVARQMDIVKPAPFVFTVAGTNGKGTTCRTLETVLMAAGYKVGVYSSPHLVRYTERVRIQGAELPEAAHTASFAEIEAARGDISLTYFEYGTLSALWLFKQAQLDAVILEVGLGGRLDATNIVDADVAVVTSIALDHTDWLGPDRDSIGREKAGIFRAGKPAVVGEPDMPHTIAEVAREKGALLQRRGVDWRYEVEGETWSFRDAGGALSRLPLPQVPLPNAATAVAALLASGLAVDDAILRAGIRDAMLPGRFQIISDAPRVILDVAHNPHAAAYLAGRLKTLAKTGRVLAVIGMLHDKDIAGTLANLTPEVDVWYCAPLEGPRGATAEQLVEHLRGGTVYSSVAQAWRAAMADAQAEDTVLVCGSFHTVAQVMEEIDAGRIGGE	PGPT0007975_3863	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007975-folC-K11754	NA	NA
BMS020_01388	984	accD_1	COG0777	Acetyl-coenzyme A carboxylase carboxyl transferase subunit beta	ATGGCATTATGCGCCCCTTACGACAAAACTGGCATCGACCAGGTTCAGGCAGAAAGGTTATCAATGAGCTGGATTGAACGAATTAAAAGCAACATCACTCCCACCCGCAAGGCGAGCATTCCTGAGGGTGTATGGACCAAGTGCGACAGCTGCGGTCAGGTACTCTACCGCGCCGAGCTGGAGCGCAACCTGGAGGTTTGTCCTAAGTGCGATCACCATATGCGCATGTCGGCGCGTAATCGCCTGCATAGCCTGTTGGATGAAGGTTCCCTGGTGGAACTGGGTAGCGAACTTGAGCCAAAAGATGTGCTGAAGTTCCGCGATTCAAAAAAATACAAAGACCGCCTGGCGTCCGCTCAAAAAGAGACGGGCGAAAAAGACGCGCTGGTGGTGATGAAAGGTACGCTCTACGCGATGCCGGTGGTGGCCGCGGCCTTTGAATTCTCCTTTATGGGGGGATCGATGGGTTCCGTCGTTGGCGCACGCTTTGTGCGCGCGGTGGAGCAGGCGCTGGAAGATAACTGCCCGCTGATCTGCTTCTCCGCCTCCGGTGGCGCCCGTATGCAGGAAGCGCTGATGTCGCTGATGCAGATGGCGAAAACCTCCGCGGCGCTGGCAAAAATGCAGGAGCGCGGATTACCGTACATCTCTGTGCTGACCGACCCGACCATGGGCGGCGTATCGGCGAGCTTTGCGATGCTGGGCGACCTGAACATTGCCGAGCCGAAAGCGCTGATCGGCTTTGCCGGTCCTCGCGTCATTGAGCAGACCGTACGTGAGAAGCTGCCGCCGGGATTCCAGCGCAGTGAGTTCCTGATTGAAAAAGGGGCGATCGATATGATCGTTCGCCGTCCGGAAATGCGTCTCAAGCTGGCCAGCATTCTGGCGAAGCTGATGAACCTGCCGGCGCCGGTTGCTGCTTCGGAAACGCCTCATGAAGGCGTGGTGGTGCCGCCGGCACCGGATCAGGAACCCGAGGCCTGA	MALCAPYDKTGIDQVQAERLSMSWIERIKSNITPTRKASIPEGVWTKCDSCGQVLYRAELERNLEVCPKCDHHMRMSARNRLHSLLDEGSLVELGSELEPKDVLKFRDSKKYKDRLASAQKETGEKDALVVMKGTLYAMPVVAAAFEFSFMGGSMGSVVGARFVRAVEQALEDNCPLICFSASGGARMQEALMSLMQMAKTSAALAKMQERGLPYISVLTDPTMGGVSASFAMLGDLNIAEPKALIGFAGPRVIEQTVREKLPPGFQRSEFLIEKGAIDMIVRRPEMRLKLASILAKLMNLPAPVAASETPHEGVVVPPAPDQEPEA	PGPT0001710_221	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
BMS020_01389	660	dedA	COG0586	Protein DedA	ATGGACTTGATTCACTTTTTAATTGATTTCATCCTGCATATTGATGTGCACCTGGCCGAGCTGGTCGCCCAGTATGGCGTCTGGGTTTATGCCATTCTGTTTTTGATTCTGTTCTGCGAAACCGGGCTGGTGGTGACGCCGTTCCTGCCGGGGGATTCCCTGCTGTTCGTCGCGGGCGCGCTCTCGGCCCTGCCCACCAACGATCTGAATGTCCACCTGATGGTATTGCTGATGGTCATCGCGGCTATCGTCGGCGATGCGGTCAACTACACCATTGGCCGGCTGTTCGGCGAAAAGCTGTTCAGCAACCCGAACTCGAAGATTTTCCGTCGCAGCTATCTGGATAAAACCCATAGCTTCTACGAACGTCACGGCGGAAAAACCATTATCCTGGCGCGCTTTGTGCCGATAGTCCGAACCTTCGCGCCGTTTGTGGCGGGAATGGGGCATATGTCCTATCGTCATTTTGCGGCTTATAACGTCGTCGGGGCGCTGCTGTGGGTGCTGCTGTTCACCTACGCCGGCTATCTGTTTGGCGATCTGCCGGTGGTGCAGGAGAACCTGAAGCTGCTGATCGTGGCGATCATCGTGCTTTCCGTCCTGCCGGGCGTGATTGAGATTATTCGCCATAAGCGGGCGGCGGCGAAGCAGGCGAAGTAG	MDLIHFLIDFILHIDVHLAELVAQYGVWVYAILFLILFCETGLVVTPFLPGDSLLFVAGALSALPTNDLNVHLMVLLMVIAAIVGDAVNYTIGRLFGEKLFSNPNSKIFRRSYLDKTHSFYERHGGKTIILARFVPIVRTFAPFVAGMGHMSYRHFAAYNVVGALLWVLLFTYAGYLFGDLPVVQENLKLLIVAIIVLSVLPGVIEIIRHKRAAAKQAK	PGPT0004890_1468	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_TRANSPORT,PGPT0004890-dedA-K03975	NA	NA
BMS020_01390	813	truA_1	COG0101	tRNA pseudouridine synthase A	ATGTCTGAGATGGAGCAACAGCCGGTCTGTAAAATCGCGCTGGGCATCGAGTACGACGGTAGCAAATATTACGGCTGGCAGCGGCAAAACGAAGTACGCAGCGTGCAGGAGAAGCTGGAAAAGGCGCTCTCGCAGGTGGCGAACGAACCTATTACCGTCTTTTGCGCTGGCCGCACCGACGCCGGTGTCCATGGCACCGGCCAGGTGGTGCATTTCGAAACCCGGGCGCAGCGTAAAGATGCCGCCTGGACGCTGGGGGTAAATGCGAATTTACCTGGTGACATCGCGGTGCGTTGGGTCAAACATGTCCCGGCGGATTTTCACGCCCGGTTCAGCGCCACGGCGCGCCGCTATCGTTACGTCATCTATAATCATCGCCTGCGTCCGGCGGTATTCAGTCAGGGCGTCACGCATTTTCACCAGCCGCTCGACGCCGCGCGCATGCAGCGTGCCGCACAGTGTCTGCTGGGGGAGAATGACTTTACCTCGTTTCGCGCGGTGCAGTGCCAGTCGCGTACCCCGTGGCGCAACGTGATGCACATTAACGTTACCCGCTACGGCGCTTATGTGGTGGTGGATATCAAAGCGAATGCCTTTGTACATCATATGGTCAGGAATATTGTGGGCAGCCTGATGGAAATCGGGGCCGGAAACCAGCCGGAGAGCTGGATGGCAGAACTGCTGGCAGCAAAAGACAGGACGCTCGCTGCGGCAACGGCAAAAGCGGAAGGGTTGTATCTGGTGTCGGTGGATTACCCGGCCCATTATGATTTACCGGTGCTGCCAATGGGCCCGCTGTTTCTGGCGGACTAA	MSEMEQQPVCKIALGIEYDGSKYYGWQRQNEVRSVQEKLEKALSQVANEPITVFCAGRTDAGVHGTGQVVHFETRAQRKDAAWTLGVNANLPGDIAVRWVKHVPADFHARFSATARRYRYVIYNHRLRPAVFSQGVTHFHQPLDAARMQRAAQCLLGENDFTSFRAVQCQSRTPWRNVMHINVTRYGAYVVVDIKANAFVHHMVRNIVGSLMEIGAGNQPESWMAELLAAKDRTLAAATAKAEGLYLVSVDYPAHYDLPVLPMGPLFLAD	PGPT0014045_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133	NA	NA
BMS020_01391	1014	usg	COG0136	USG-1 protein	ATGTCTGAAGGCTGGAATATTGCCGTACTGGGCGCAACGGGCGCCGTAGGCGAAGCCCTGCTCGAAACTCTCGCTGAACGCCAGTTCCCGGTGGGGGAGATTTTTGCTCTGGCGCGCAATGAAAGCGCGGGCGAACATCTGCGTTTTGGTGGCAAGTCGGTGATCGTCAAGGACGCCGCCGAGTTTGACTGGACCCAGACCCAGCTGGCTTTCTTTGCCGCAGGCGTCGAAGCCAGCGCAGCGTATGTCGAAGATGCGACAAACGCCGGATGTCTGGTTATCGATCTCAGCGGCCTGTTTGCGCTGGAGCCGGACGTACCGCTGGTGGTGCCGGACGTGAACCCGTTCGTGTTAGGCGATTACCGCAACCGCAATCTGATTGCGGTGCCCAATAGTCTGACCAGCCAGCTGCTGACGGCGCTGAAGCCGCTTATCGATCAGGGTGGACTGTCGCGCATTAGCGTCACTAACCTGCTCTCCGCCTCAGGGCAGGGGAAAAAAGCGGTGGATGCGCTGGCAGGGCAGAGCGCCAAGCTGCTGAACGGCATCCCCATCGATGAAGACGATTTCTTTGGCCGCCAGCTGGCCTTCAACATGCTGCCGCTGCTGCCGGATCGTGAAGGTAGCGTGCGCGAAGAGCGCCGTATCGTCGATGAAGCGCGCAAAATTCTTCAGGATGACGGGCTGATGATCTCCGCCAGCGTCGTCCAGTCGCCGGTCTTCTACGGCCATGCGCAGATGGTGAACTTTGAAGCGATGCGTCCGCTGGCGGCGGAAGAGGCGCGTGACGCCTTTACCCGCGGCGAGGAGATCGAACTTTCTGAAGAGGGCGAATTCCCCACTCAGGTTGGCGACGCCTCCGGCAACGCCCGTCTCTCCATCGGCTGCGTGCATAATGATTACGGCATGCCGGAGCAGGTCCAGTTCTGGTCGGTGGCGGATAACGTCCGCTTCGGCGGCGCGCTGATGGCGGTGAAGATCGCCGAGAAGCTGATTGAGGAGTACCTGTACTGA	MSEGWNIAVLGATGAVGEALLETLAERQFPVGEIFALARNESAGEHLRFGGKSVIVKDAAEFDWTQTQLAFFAAGVEASAAYVEDATNAGCLVIDLSGLFALEPDVPLVVPDVNPFVLGDYRNRNLIAVPNSLTSQLLTALKPLIDQGGLSRISVTNLLSASGQGKKAVDALAGQSAKLLNGIPIDEDDFFGRQLAFNMLPLLPDREGSVREERRIVDEARKILQDDGLMISASVVQSPVFYGHAQMVNFEAMRPLAAEEARDAFTRGEEIELSEEGEFPTQVGDASGNARLSIGCVHNDYGMPEQVQFWSVADNVRFGGALMAVKIAEKLIEEYLY	PGPT0014045_4849	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133	NA	NA
BMS020_01392	1137	pdxB	COG0111	Erythronate-4-phosphate dehydrogenase	GTGAAAATCCTCGTTGATGAAAATATGCCCTATGCCCGTGAGCTTTTTAGCCGTTTAGGCGACGTGCAGGCGATCCCGGGCCGCCCGGTCCCGGCCGATGCCCTGACCGATGCGGATGCCTTAATGGTGCGCTCGGTCACCCGGGTCAATGAAGCATTGCTTGCCGGCAAGGCCATCAGGTTCGTCGGCACCGCGACCGCAGGCACCGATCATGTCGATCAGGCGTGGCTGCAGCAGGCGGGGATTGGTTTCTCCGCGGCGCCAGGCTGTAACGCCATTGCGGTGGTGGAGTATGTCTTTTCATCGCTGCTGATGCTGGCCGAACGTGACGGCTTCGCACTGCGCGATCGCACCGTCGGGATTGTCGGCGTCGGTAACGTCGGCGGGCGGCTGCAAAAGCGTCTGGAGGCGCTGGGCATCAAAACTCTGCTCTGCGATCCGCCGCGCGCTGACCGCGGCGACGAAGGCGACTTCCGCTCCCTTGACGATCTGGTCCAGCAGGCCGATGTCCTCACCTTCCATACCCCGCTGTATAAAGAAGGACAATATAAAACGTTGCATCTGGCGGATGAGGCGCTGATTAGCCGCCTGAAGCCCGGAACGATTTTGATCAACGCCTGCCGCGGGCCGGTGGTGGATAACGCCGCGTTGCTGAAACGCCTGGAAGCCGGTCAGTCCCTGAGCGTGGTGCTGGACGTTTGGGAGCCGGAGCCGGATCTCAACATAGCGCTTCTCAAGCGGGTGGATATCGGCACGGCGCATATCGCCGGCTACACCCTTGAAGGGAAGGCGCGCGGGACGACGCAGGTATTCGAAGCCTATAGCGCCTTTATCGGTCATCCGCAGCAGGTGGCGCTGGATACCCTGCTGCCGGCCCCGGAGTTTGGCCGCATCACCCTGCATGGCCCGCTCGATCAGCCGACGCTGAAAAGACTGGTTCATTTGGTGTATGATGTGCGCCGCGATGATGCGCCGCTGCGGAAGGTGGCGGGCGTCGCCGGTGAATTCGACAAGCTGCGTAAAAATTATCAGGAACGTCGCGAATGGTCTTCGCTGTACGTGCAGTGCAGCGATGAGCAGGCGGCGACGCTGTTGCGCCAGCTCGGTTTTAACGCCGTGCATCATCCTGTTCGTTAA	MKILVDENMPYARELFSRLGDVQAIPGRPVPADALTDADALMVRSVTRVNEALLAGKAIRFVGTATAGTDHVDQAWLQQAGIGFSAAPGCNAIAVVEYVFSSLLMLAERDGFALRDRTVGIVGVGNVGGRLQKRLEALGIKTLLCDPPRADRGDEGDFRSLDDLVQQADVLTFHTPLYKEGQYKTLHLADEALISRLKPGTILINACRGPVVDNAALLKRLEAGQSLSVVLDVWEPEPDLNIALLKRVDIGTAHIAGYTLEGKARGTTQVFEAYSAFIGHPQQVALDTLLPAPEFGRITLHGPLDQPTLKRLVHLVYDVRRDDAPLRKVAGVAGEFDKLRKNYQERREWSSLYVQCSDEQAATLLRQLGFNAVHHPVR	PGPT0009150_454	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0009150-pdxB-K03473	NA	NA
BMS020_01393	978	flk		Flagellar regulator flk	ATGACGCACCCCCTTGCAGATATGCCAGACCGTCCTCCAGGGCGAGGCCCATCAGGCACTGCCGCCACCGGCGAACCTTCGCTTTCCATGCAGCAACGCACCGTCCTGGAGCGACTGATCACGCGCCTGGTGGCGCTGACCTCGCAGCAGAATGCGGAAGTGTGGGCCTGCGTCAAACATGACCTCGGACTGAAAGGCGACACGCCCCTGCTGGCCCGCCATTTCAGCGCCGCCGAGGCCAGTCTCAACCAGCGCCTGGCCGCCGCGCAGGACAATCATCATCATCGCCAGACCCTGGCGCAGCTCAGCGATCTGCTCGGCCAGGGCAATAACCGCCAGGCGGTGAGCGATTATATTCGTCAGCATTATGGGCAAACAGCGCTGCATGCCCTCAGCCAGTCGCAACTGGAGAACATTCTGCATCTGCTGCAGCGCGGTCAGCTGTCGATCCCGCAGCCGCAGCAGCGCCCGCCGACCCTTCGTCCACTGCTGCCGGCCGAGCACAACACGCTCAATCAGCTGGTGACTAAGCTGGCGGCCGCCACCGGCGAACCAAGCAAACTGATTTGGCAGTCCATGCTGGAACTTTGCGGCGTCAAGTCCGGGGAGCTGATCCCGGCGACGCACTTCACGCCGCTTTCGTACTGGCTGCAGGCGCGGCAGACGCTCAGCGCGCAAAGCGCGCCCACGCTTACCTCGCTGCAGGGGGCGCTCAAGCAGCCGCTGGAGGCCGCGGAGTGGCAGAAGATTGTCGACTTTGCCCGTCGCAACTGGCAGGTCACGCCGCAGACCACGCTGAGCCCGGCGCAGATCCTGGCGCTGCTGAATAAGGTGTTTGTGCTGCGGGTAGCCCGCGCCCAGGAGACGCTGGCGATCCCGCAGGAGGAGCCCGTGACCCGGCGGACATGGGCCGCTAAGCCTTGGCAGCTGGCGCTGGGCGCGGTTGTCCTGCTCCTGGTGCTGTGGCTCCTGCTGTAG	MTHPLADMPDRPPGRGPSGTAATGEPSLSMQQRTVLERLITRLVALTSQQNAEVWACVKHDLGLKGDTPLLARHFSAAEASLNQRLAAAQDNHHHRQTLAQLSDLLGQGNNRQAVSDYIRQHYGQTALHALSQSQLENILHLLQRGQLSIPQPQQRPPTLRPLLPAEHNTLNQLVTKLAAATGEPSKLIWQSMLELCGVKSGELIPATHFTPLSYWLQARQTLSAQSAPTLTSLQGALKQPLEAAEWQKIVDFARRNWQVTPQTTLSPAQILALLNKVFVLRVARAQETLAIPQEEPVTRRTWAAKPWQLALGAVVLLLVLWLLL				NA	NA	NA	NA	NA
BMS020_01394	1176	yfcJ_1		putative MFS-type transporter YfcJ	ATGTCCGCAGTCACTGAAACAACATCTCATTCATCCGCGAATTTGTCGCTTTTTCGCATTACGCTCGCCGTCTTTTTGACCTATATGACCGTCGGTTTGCCGCTGCCGGTGATCCCGCTGTTTGTCCATCAGGAGCTGGGATTGGGTAACACTATGGTCGGCGTAGCGGTAGGGATCCAGTTCCTCGCCACCGTTCTTACCCGCGGCTACGCCGGGCGCCTGGCAGACCAGTACGGCGCCAAACGCTCCGTCCTGCAAGGGATGCTGGCCTGCGCCCTGGCCGGCGCGGCCTGGCTGGCCGCTGCGCTGCTGCCGCTGCCGGTGTTCGCGAAGCTGGGCCTGTTGCTGCTGGGCCGCCTGATCCTCGGGTTTGGCGAAAGCCAGCTGCTGACCGGCAACCTGAGCTGGGGGATGGGGCTGGTGGGGCCGGCTCGCTCCGGCAAAGTGATGTCATGGAACGGCATGGCGATGTACGGCTCGCTGGCGGTGGGCGCCCCGCTGGGATTGTTAATTTACAGCCACTTTGGCGTGGCGGTCCTGGCCTGCGTCACCATGGGACTACCGCTTGTCGCCTTGCTCATCAACGGCACGGTGCGCAAAGTGGCGGCGCACGGCGGTGAGCGGCCTTCACTGTGGAGCGTCATCGGCATGATCTGGCGGCCGGGTATTGGCCTGGGCCTGCAGGGCGTCGGCTTTGCGGTGATCGGCACCTTCGTTTCTCTCTATTTTGCCAGTCAGAACTGGCCGATGGCCGGATTTACCCTGACAGCGTTTGGCGGCGCCTTTGTGCTGATGCGGGTGCTGTTTGGCTGGATGCCGGATCGGTTTGGCGGCGTTAAAGTGGCGATGGTCTCGCTGCTGATAGAGGCGGTCGGTCTGACGCTGCTGGGACTGGCGCCCGGCGTCTGGGTGGCGCTGGCCGGCGCTGCGCTGACCGGATGCGGCTGTTCGCTTATTTTCCCGTCGCTTGGCGTGGAGGTGGTGAAGCGCGTCCCGGCGCAGGTGCGCGGCACTGCGCTCGGCGGCTATGCGGCCTTTCAGGATATCTCTTATGGCCTGACCGGGCCGCTGACCGGTCTGCTGGCCACTTCGCTGGGCTACTCGTCGGTATTCCTTGCCGGCGCCCTCTGCGCGGCGCTGGGGATCCTCGTCACCCTCATCTCATTTCGCCGCTAG	MSAVTETTSHSSANLSLFRITLAVFLTYMTVGLPLPVIPLFVHQELGLGNTMVGVAVGIQFLATVLTRGYAGRLADQYGAKRSVLQGMLACALAGAAWLAAALLPLPVFAKLGLLLLGRLILGFGESQLLTGNLSWGMGLVGPARSGKVMSWNGMAMYGSLAVGAPLGLLIYSHFGVAVLACVTMGLPLVALLINGTVRKVAAHGGERPSLWSVIGMIWRPGIGLGLQGVGFAVIGTFVSLYFASQNWPMAGFTLTAFGGAFVLMRVLFGWMPDRFGGVKVAMVSLLIEAVGLTLLGLAPGVWVALAGAALTGCGCSLIFPSLGVEVVKRVPAQVRGTALGGYAAFQDISYGLTGPLTGLLATSLGYSSVFLAGALCAALGILVTLISFRR				NA	NA	NA	NA	NA
BMS020_01395	1221	fabB_1	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 1	ATGAAACGTGCAGTGATTACTGGCTTGGGCATCGTTTCCAGCATCGGTAATAACCAGCAGGAAGTCCTGGCATCTCTGCGTGAAGGACGTTCAGGGATCACTTTCTCTCAGGAGCTGAAAGATTCAGGGATGCGCAGCCACGTATGGGGCAACGTCAAACTGGATACCACTGGCCTCATTGACCGCAAAGTAGTGCGCTTCATGAGCGACGCCTCCATCTATGCTTACCTGTCCATGGAACAGGCCGTTGCCGACGCAGGTCTGGCGCCGGAAGCATACCAGAATAACCCGCGTGTCGGCCTGATCGCAGGCTCCGGCGGCGGCTCCCCGAAATTCCAGGTCTTCGGCGCCGATGCCATGCGCAGCCCGCGTGGTCTGAAAGCCGTGGGTCCGTATGTGGTCACCAAAGCGATGGCTTCCGGCGTTTCCGCCTGCCTCGCCACGCCGTTTAAAATCCACGGCGTTAACTACTCCATCAGCTCCGCCTGCGCCACTTCCGCACACTGCATCGGTAACGCGGTAGAGCAGATCCAGCTGGGCAAACAGGATATCGTCTTTGCCGGCGGCGGCGAAGAGCTGTGCTGGGAAATGGCCTGCGAGTTCGACGCCATGGGCGCGCTGTCCACCAAATACAACGACACGCCGGAAAAAGCCTCCCGCACCTATGACGCCAACCGTGACGGCTTCGTTATCGCCGGCGGCGGCGGTATGGTCGTGGTGGAAGAGCTGGAACACGCCCTGGCGCGCGGCGCGCACATCTATGCGGAAATCGTCGGCTACGGCGCAACCTCCGATGGCGCAGACATGGTAGCCCCATCCGGTGAAGGCGCAGTGCGCTGCATGCAGATGGCGATGCACGGCGTTGATACCCCGATCGACTACCTGAACTCCCACGGTACTTCCACGCCGGTCGGCGACGTAAAAGAGCTGGGCGCGATCCGCGAAGTGTTCGGCGACAACAGCCCGGCTATCTCGGCGACCAAAGCAATGACCGGTCACTCGCTGGGCGCTGCTGGCGTGCAGGAAGCTATCTACTCCCTGCTGATGCTGGAGCACGGCTTTATCGCGCCGAGCATCAACGTCGAAGAGCTGGACGAGCAGGCTGCCGGCCTGAACATCGTCACCAAACCGACTGACGCTAAGCTGACCACCGTGATGTCCAACAGCTTCGGCTTTGGCGGCACCAACGCCACGCTGGTGATGCGTAAATACAACGCCTAA	MKRAVITGLGIVSSIGNNQQEVLASLREGRSGITFSQELKDSGMRSHVWGNVKLDTTGLIDRKVVRFMSDASIYAYLSMEQAVADAGLAPEAYQNNPRVGLIAGSGGGSPKFQVFGADAMRSPRGLKAVGPYVVTKAMASGVSACLATPFKIHGVNYSISSACATSAHCIGNAVEQIQLGKQDIVFAGGGEELCWEMACEFDAMGALSTKYNDTPEKASRTYDANRDGFVIAGGGGMVVVEELEHALARGAHIYAEIVGYGATSDGADMVAPSGEGAVRCMQMAMHGVDTPIDYLNSHGTSTPVGDVKELGAIREVFGDNSPAISATKAMTGHSLGAAGVQEAIYSLLMLEHGFIAPSINVEELDEQAAGLNIVTKPTDAKLTTVMSNSFGFGGTNATLVMRKYNA	PGPT0013310_772	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0013310-fabB-K00647	NA	NA
BMS020_01396	1989	mnmC	COG0665	tRNA 5-methylaminomethyl-2-thiouridine biosynthesis bifunctional protein MnmC	GTGAAACAAAACGCTATACAACCCGCCAACCTGGAATTCAATGCTGAGGGTACACCTGTTTCCCGAGATTTTGACGATGTTTACTTTTCCAATGACAACGGTCTGGAAGAGACACGCTACGTCTTTCTCGGCGGAAATCGCCTGCCGGAGCGCTTCTCCAGCCACCCTCGCCCACTGTTGATCGTCGCGGAGAGCGGCTTCGGCACCGGGCTCAATTTCCTCACCCTCTGGCAGGCGTTTGACGTTTTTGTTCGCGATAACCCGGACGTTACCCTGCAAAGGTTACATTTCATCAGTTTTGAGAAATATCCGCTGAAGGCGGAAGATCTCCGCCTGGCGCACCAGCGCTGGCCAGAGCTGGCTCCATGGGCGGAACAGCTGCAGGCGCAATGGCCTTCGGCCTTCGCCGGATGCCATCGTCTGCTGCTCGACGGCGGACGGGTCACGCTCGATCTGTGGTTTGGCGATATCAACGAGCTGACCAGAGAGCTGGATGATTCGCTGAATCAGCAGGTGGACGCCTGGTTTCTCGACGGCTTTGCCCCGGCGAAAAATCCCGACATGTGGACCCAGGATCTGTTCAATGCCATGGCGCGCCTGGCGCGTCCCGGCGGGACGCTGGCCACTTTTACCTCCGCCGGTTTTGTCCGCCGCGGCCTCCAGGAAGCCGGGTTCACCCTGCGTAAAACCAAAGGCTTCGGCCGCAAACGGGAGATGCTGACCGGCGAGATGGCGCAAACGCTGACCTTTCCGGGGCGCGCGCCCTGGTTCGCCCGCCCCGGGAGCGAGGCCCGCGAGGCGGCCATCGTCGGCGGCGGTATCGCCAGCGCCCTGCTCTCCCTGGCGCTGCTGCGTCGCGGCTGGCAGGTGACCCTTTACTGTGCGGACGACGCCCCGGCGCAGGGCGCCTCCGGTAATCGCCAGGGCGCGCTCTATCCGCTGTTAAGCCAGCACGATCCGGCGCTGGCGCGCTTTTTCCCGGCCGCCTTTACCTTCGCCCGCCGCACCTACGACGCGCTGCCGGTGCTGTTCGATCATCAATGGTGCGGGGTCACCCAGCTTGGCTGGGATGAAAAAAGCGCACACAAAATCAATCAGATGCTGGCCCTGGAGCTGCCCCCTGATATCGCCTGCGCGGTGACGGCGGAGCAGGCTGCGGAGCTGACCGGCGTCGAGACCGGCTGCGGCGGCATAACCTATCCGGCCGGCGGTTGGCTGTGCCCGCAGCAGCTCACCGCAGAGCTGCTGGCGCTGGCGGCGACTCGCGGACTGTACGTGCATTATGGTTATCAGGTCGAGACGTTGAGCGCGGAGGGCGATGGCTGGCTGCTCAACCAGCAGCGCTATCATCAGGCGGTCGTGCTGGCCAACGGCCACCGCATATCGGATTTTGCGCAAACCGCGCCGTTGCCGGTCTACCCCGTTGGCGGCCAGGTCAGCCATATACCCACCACCCCGCGGCTTTCCGACCTGCGCCAGGTGCTGTGCTACGACGGCTACCTGACGCCGCAGAATCCGCAAAATCAGCAGCACTGCATTGGCGCCAGCTACCATCGCGGCAAAACCGACACCACCTTCAGCGAAGAAGATCAGCAGCACAACCGGCAACGGCTGATCGACTGCTTCCCGGGCGCGGAGTGGCCGCAGGACGTGGATATTAGCGCCAGTGACGCCCGCTGCGGCGTGCGCTGCGCCACCCGCGATCATCTGCCGATGGTCGGCAACGTGCCGGACTATGCGGCGACATTGACGCAATACGCCAGCCTCCACGAACGGCAGGATAACGCCGGTAGCGCGCCGGTCTTTCATAACCTGTTTATGCTTGGCGCCCTCGGATCGCGAGGCATTTGCACCGCGCCGTTAAGCGCTGAGCTGCTGGCGGCGCAGATGAGCGCAGAACCGCTGCCGCTGGATAGCGGCACCCTGGCGGCGCTGAATCCGAATCGGCTATGGGTGAGAAAACTGCTGAAGGGAAAAGCGGTGAAGTAA	MKQNAIQPANLEFNAEGTPVSRDFDDVYFSNDNGLEETRYVFLGGNRLPERFSSHPRPLLIVAESGFGTGLNFLTLWQAFDVFVRDNPDVTLQRLHFISFEKYPLKAEDLRLAHQRWPELAPWAEQLQAQWPSAFAGCHRLLLDGGRVTLDLWFGDINELTRELDDSLNQQVDAWFLDGFAPAKNPDMWTQDLFNAMARLARPGGTLATFTSAGFVRRGLQEAGFTLRKTKGFGRKREMLTGEMAQTLTFPGRAPWFARPGSEAREAAIVGGGIASALLSLALLRRGWQVTLYCADDAPAQGASGNRQGALYPLLSQHDPALARFFPAAFTFARRTYDALPVLFDHQWCGVTQLGWDEKSAHKINQMLALELPPDIACAVTAEQAAELTGVETGCGGITYPAGGWLCPQQLTAELLALAATRGLYVHYGYQVETLSAEGDGWLLNQQRYHQAVVLANGHRISDFAQTAPLPVYPVGGQVSHIPTTPRLSDLRQVLCYDGYLTPQNPQNQQHCIGASYHRGKTDTTFSEEDQQHNRQRLIDCFPGAEWPQDVDISASDARCGVRCATRDHLPMVGNVPDYAATLTQYASLHERQDNAGSAPVFHNLFMLGALGSRGICTAPLSAELLAAQMSAEPLPLDSGTLAALNPNRLWVRKLLKGKAVK				NA	NA	NA	NA	NA
BMS020_01397	282			hypothetical protein	ATGATCGCGGAGTTTGAATCACGCATTCTGGCGCTGATTGACAACATGGTAGACCACGCCAGTGATGATGAACTGTTTGCCGGCGGTTATCTGCGCGGCCACCTGACGCTGGCGGTGGCTGAGCTGGAAGGTGAGGGCGAACATTCAGCGGAAGCGGTACACAGCAAAGTCAGCCATAGCCTGGAGAAAGCCATCGGCGCTGGCGAACTGTCGCCGCCGGACCAAATTCTGGTGCAGGGCATGTGGGAAAACCTGTATCAGCAGGCGAAAAATCAGGCCTGA	MIAEFESRILALIDNMVDHASDDELFAGGYLRGHLTLAVAELEGEGEHSAEAVHSKVSHSLEKAIGAGELSPPDQILVQGMWENLYQQAKNQA				NA	NA	NA	NA	NA
BMS020_01398	549	epmC	COG3101	Elongation factor P hydroxylase	ATGCAACAGCAACACCATTATCAGCAGCTTATTGACCTCTTCGACAGCTGCTTTGCCGCAGATTTTAATACTCGCCTGGTGAAAGGCGACGATGAGCCGATTTACCTCCCGGCGGACGATGACACGCCATATCACCGTATCGTCTTCGCGCACGGTTTTTTTGCCAGCGCTCTGCACGAGATCTCCCACTGGTGCATCGCCGGCAAAGCCCGCCGCGAGCTGGTGGATTTTGGCTACTGGTACTGTCCGGACGGCCGCGATGCGATGACCCAAAGCCAGTTTGAGGACGTGGAGGTGAAACCTCAGGCCCTGGAGTGGCTGTTCTGCGTGGCGGCGGGATTTCCGTTTAACGTCAGCTGCGACAATCTGGAAGGTGACGTTGAACCCGATCGCATCGCCTTTCAGCGCCGGGTACATGCCCGGGTGATGACTCTGCTTGAGCAAGGGATCCCCGAACGTCCGGCGCGTCTTATTCGCGCATTACAACACTATTATCAAACGCCGCCATTGACGGCAGAACACTTTCCGTGGCCGGAAGACCTGCACTAA	MQQQHHYQQLIDLFDSCFAADFNTRLVKGDDEPIYLPADDDTPYHRIVFAHGFFASALHEISHWCIAGKARRELVDFGYWYCPDGRDAMTQSQFEDVEVKPQALEWLFCVAAGFPFNVSCDNLEGDVEPDRIAFQRRVHARVMTLLEQGIPERPARLIRALQHYYQTPPLTAEHFPWPEDLH				NA	NA	NA	NA	NA
BMS020_01399	810	yfcA_1	COG0730	putative membrane transporter protein YfcA	ATGGATAGTTTTATCGAGTTGTTTTCCGTATCGCCGCTGGTGCTGGTGGTGCTTTTCTTTGTCGCCATCCTGGCCGGTTTTATTGACTCACTGGCCGGGGGCGGGGGCTTACTGACCGTGCCGGCGCTAATGGCCGCCGGTATGCCGCCGGCCCAGGCGCTGGCGACCAATAAGCTGCAGGCCTGCGGCGGATCGCTGTCGGCGACCCTCTATTTTGTCCGCCGCAAGGTGGTCAATCTCGCCGATCAGAAGCTGAATATTCTGATGACCTTTATCGGTTCAACCGCCGGCGCGCTGCTGGTCCAGCACGTGCAGTCCGATATTCTTAAGCAGATCCTGCCGTTGCTGGTGATCGGCATCGGTCTCTATTTTCTGCTGATGCCGAAACTGGGCGAAGCGGACCGACAGCGTCGGCTCTACGGCCTGCCGTTTGCGCTGGTCGCCGGCGGCAGCGTCGGGTTTTACGATGGCTTTTTCGGCCCCGGCGCCGGTTCGTTTTATGCGCTGGCGTTTGTCACCCTGGCCGGGTTTAACCTGGCGAAGTCGACGGCCCACGCCAAACTGCTCAACGCCACCTCGAACGTCGGCGGCCTGCTGCTGTTTATTATCGGCGGAAAGGTTATCTGGGCTACCGGCTTTGTGATGATGGCCGGCCAGTTTATTGGCGCCCGCGCCGGCTCCCGGCTGGTGCTGAGCAAAGGGCAATCGCTGATCCGACCGATGATCGTTATCGTTTCGGCGGTGATGAGCGCGAAACTTCTCTACGACAGCCACGGGGCTGAGATTTTGCAGTGGTTGGGAATTCATTAA	MDSFIELFSVSPLVLVVLFFVAILAGFIDSLAGGGGLLTVPALMAAGMPPAQALATNKLQACGGSLSATLYFVRRKVVNLADQKLNILMTFIGSTAGALLVQHVQSDILKQILPLLVIGIGLYFLLMPKLGEADRQRRLYGLPFALVAGGSVGFYDGFFGPGAGSFYALAFVTLAGFNLAKSTAHAKLLNATSNVGGLLLFIIGGKVIWATGFVMMAGQFIGARAGSRLVLSKGQSLIRPMIVIVSAVMSAKLLYDSHGAEILQWLGIH				NA	NA	NA	NA	NA
BMS020_01400	825	mepA_1	COG3770	Penicillin-insensitive murein endopeptidase	ATGAAAAATACCGTTATCGCCCTGCTGGCGCTGCTGGCCAGCGCCGGCAGCCTGGCCGCCACGCCATGGCAGAAGATATCTCAGCCAATCGGCGGCAGTGCGCAGTCGATTGGCGCGTTCTCCAATGGCTGTATCGTTGGCGCCGAGGCGCTGCCGCTGAACGCCGCCGGCTATCAGGTGATGCGTACCGATCAGCGTCGCTACTTCGGTCATCCGGATCTGGTTCAGTTTATTCAGCGCCTGAGCAATCAGGTGCACAATAAAGGCATGGGGACCGTGCTGATTGGCGACATGGGGATGCCGGCAGGCGGCCGCTTTAACGGCGGCCACGCCAGCCATCAGACGGGCCTCGATGTCGATATCTTCCTCCAGCTGCCGCAGACACGCTGGACTTCGTCCCAGTTGCTGAAGCCGCAGGCCCTGGATCTGGTCGCCAGCGATGGCAAACGCGTGGTGCCGTCGCTGTGGAGTCCGCAAATCAGCCAGCTGATCAAGCTGGCGGCGGAAGATAGCGAAGTGACCCGCATCTTCGTCAACCCGGCGATTAAACAGCAGCTGTGTCTGGATGCGGGCAACGACCGCCAGTGGCTGCGCAAAGTTCGTCCCTGGTTCCAGCATCGCGCCCATATGCACGTCCGTCTGCGCTGCCCGGCGGGCAGCCTGGAGTGCGAAGATCAGGCGCCGCCGCCGGCCGGCGATGGCTGCGGTGCGGAGCTGCAGAGCTGGTTCGAGCCACCTAAACCCGGGTCTACCCCACCTGTGAAGAAGACGCCGCCGCCGTTGCCGCCTTCCTGCCAGGCGCTACTGGATGAGCATGTGCTGTAA	MKNTVIALLALLASAGSLAATPWQKISQPIGGSAQSIGAFSNGCIVGAEALPLNAAGYQVMRTDQRRYFGHPDLVQFIQRLSNQVHNKGMGTVLIGDMGMPAGGRFNGGHASHQTGLDVDIFLQLPQTRWTSSQLLKPQALDLVASDGKRVVPSLWSPQISQLIKLAAEDSEVTRIFVNPAIKQQLCLDAGNDRQWLRKVRPWFQHRAHMHVRLRCPAGSLECEDQAPPPAGDGCGAELQSWFEPPKPGSTPPVKKTPPPLPPSCQALLDEHVL	PGPT0023825_678	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_DD-ENDOPEPTIDASE_ACTIVITY,PGPT0023825-mepA-K07261	NA	NA
BMS020_01401	1086	aroC_1	COG0082	Chorismate synthase	ATGGCAGGAAATACAATTGGACAACTCTTTCGCGTCACCACTTTCGGCGAGTCGCACGGCCTGGCGCTGGGCTGCATCGTTGACGGCGTGCCGCCGGGCATTCCGCTGACCGAAGCCGATCTGCAGCACGACCTCGATCGTCGTCGCCCGGGTACCTCGCGTTACACCACGCAGCGTCGCGAGCCGGATCAGGTCAAAATCCTCTCCGGCGTTTTCGAAGGCGTCACCACCGGGACCAGTATCGGGCTGCTGATTGAGAACACCGATCAGCGCTCGCAGGATTACGGCGCGATCAAAGATCTGTTCCGTCCTGGCCATGCGGATTACACCTACGAACAAAAGTATGGTCTGCGCGACTATCGCGGCGGCGGTCGCTCCTCCGCCCGCGAAACCGCGATGCGCGTGGCGGCCGGGGCGATTGCCAAAAAATTCCTCGCCGCGAAGTTCGGCATCGTCATTCGCGGCTGCCTGACGCAGATGGGCGACATTCCGCTGGCTATTAAAGACTGGGATCAGGTTGAACAGAATCCTTTCTTCTGCCCGGACCCGGAGAAAATCGACGCTCTCGATGAACTGATGCGCGGTCTGAAAAAAGAGGGCGACTCCATTGGCGCCAAAGTGACCGTCGTCGCCGACGGCGTACCGCCGGGCCTTGGCGAGCCGGTCTTTGACCGCCTTGACGCCGATATCGCCCACGCGCTGATGAGCATCAACGCCGTGAAAGGCGTGGAGATTGGCGACGGTTTCGACGTGGTGAAGCTGCGCGGCAGCGAAAACCGCGATGAGATCACCAAAGCCGGATTCCAGAGCAACCACGCCGGCGGCATTCTTGGCGGCATCAGCAGCGGTCAGCAGATCGTTGCCAACATCGCGCTGAAGCCGACCTCCAGTATTACCGTTCCCGGTCATACCATTAACCGCTTTGGCGAAGAGGTTGAGATGATCACCAAAGGGCGTCACGATCCGTGCGTCGGCATACGCGCCGTACCGATCGCTGAGGCGATGCTGGCGATTGTCTTAATGGATCACTTTATGCGTCAGCGCGCGCAGAATGGCGACGTGACGACGACAATTCCACGCTGGTAA	MAGNTIGQLFRVTTFGESHGLALGCIVDGVPPGIPLTEADLQHDLDRRRPGTSRYTTQRREPDQVKILSGVFEGVTTGTSIGLLIENTDQRSQDYGAIKDLFRPGHADYTYEQKYGLRDYRGGGRSSARETAMRVAAGAIAKKFLAAKFGIVIRGCLTQMGDIPLAIKDWDQVEQNPFFCPDPEKIDALDELMRGLKKEGDSIGAKVTVVADGVPPGLGEPVFDRLDADIAHALMSINAVKGVEIGDGFDVVKLRGSENRDEITKAGFQSNHAGGILGGISSGQQIVANIALKPTSSITVPGHTINRFGEEVEMITKGRHDPCVGIRAVPIAEAMLAIVLMDHFMRQRAQNGDVTTTIPRW	PGPT0012875_3888	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012875-aroB-K01736	NA	NA
BMS020_01402	933	prmB_1	COG2890	50S ribosomal protein L3 glutamine methyltransferase	GTGGATAAAATTTTTGTTGATGAGGCAGTCAATGAGCTGCATACCATTCAGGACATGCTGCGCTGGGCGGTAAGCCGTTTCAGCGCTGCTAATATCTGGTACGGTCACGGGACTGACAACCCATGGGACGAGGCGGTACAGCTGGTGCTGCCTTCGCTGTATCTGCCGCTGGATATTCCGGAAGATATGCGCACTGCGCGCCTGACCTCCAGCGAGAAACACCGCATTGTAGAGCGGGTGATTCGCCGCGTGAACGAGCGTATTCCCGTCGCCTATCTGACCAACAAAGCGTGGTTCTGCGGCCATGAGTTTTACGTCGATGAGCGAGTGCTGGTGCCGCGCTCCCCGATCGGCGAACTGATCAATAACCAGTTTGCCGGGCTGATTACCCATAAGCCGCAGCATATCCTTGATATGTGCACCGGCAGCGGCTGCATCGCCATTGCCTGCGCCTATGCCTTCCCGGAAGCTGAAGTCGACGCCGTGGATATCTCCCCGGACGCGCTGGCCGTCGCCGAGCACAATGTGGAATCCCATGGCCTGATCCATCATGTGACGCCGATCCGTTCCGACCTGTTCCGCGACCTGCCGAAGCTACAGTACGATCTGATCGTCACTAATCCGCCGTATGTCGATGAAGAGGACATGGCCGATCTGCCGGAAGAGTATGAGCATGAGCCGGTTCTGGGTCTGGCCTCCGGAAGCGATGGCCTGAAGCTGACGCGCCGCATCCTCGGCAATGCGCCGGATTATCTCTGCGACGACGGGATTCTGATTTGTGAAGTCGGTAACAGCATGGTACATCTGATGGAGCAGTATCCGGACGTGCCGTTTACCTGGCTTGAGTTTGATAACGGCGGCGACGGCGTCTTTATGCTGACCAAACAGCAGCTGATTGACGCTCGCGCGCACTTCGGTATTTATAAAGACTAA	MDKIFVDEAVNELHTIQDMLRWAVSRFSAANIWYGHGTDNPWDEAVQLVLPSLYLPLDIPEDMRTARLTSSEKHRIVERVIRRVNERIPVAYLTNKAWFCGHEFYVDERVLVPRSPIGELINNQFAGLITHKPQHILDMCTGSGCIAIACAYAFPEAEVDAVDISPDALAVAEHNVESHGLIHHVTPIRSDLFRDLPKLQYDLIVTNPPYVDEEDMADLPEEYEHEPVLGLASGSDGLKLTRRILGNAPDYLCDDGILICEVGNSMVHLMEQYPDVPFTWLEFDNGGDGVFMLTKQQLIDARAHFGIYKD				NA	NA	NA	NA	NA
BMS020_01403	552	mutS2		Endonuclease MutS2	ATGAAAAAGAAGACATCGCTTAGCGAGGAGGATCAGGCGCTGTTCCGTCAGCTGATGACCGGCACGCGAAAGATCAAACAGGACACCATCGTTCACCGCCCGCAGCGCAAGAAAATCACCGAGGTTGCCCCTAAGCGTCTGCTGCAGGAACAGGCCGACAACAGCCACTATTTTTCCGATGAGTTTCAGCCGTTACTGAATACCGAAGGCTCGACAAAATATGTCCGCGCCGACGTCAGCCATTTTGAGCTGAAAAAGCTGCGCCGTGGGGATTATTCGCCGGAACTGTTTCTCGATCTGCATGGGCTCACCCAGCAGCAGGCCAAACAGGAACTGGGCGCGCTGATTGCCGCCTGCCGCCGCGAGCATGTGTTTTGCGCCTGCGTGATGCACGGGCACGGTAAGCACATTCTCAAACAGCAAACCCCGCTGTGGCTGGCGCAGCATCCACACATCATGGCTTTTCATCAGGCGCCAAAAGAGTACGGCGGTGACGCCGCACTGCTGATTCTGATTGAGGTCGAGGAGTGGCAACCGCCGGAGCTGCCTTGA	MKKKTSLSEEDQALFRQLMTGTRKIKQDTIVHRPQRKKITEVAPKRLLQEQADNSHYFSDEFQPLLNTEGSTKYVRADVSHFELKKLRRGDYSPELFLDLHGLTQQQAKQELGALIAACRREHVFCACVMHGHGKHILKQQTPLWLAQHPHIMAFHQAPKEYGGDAALLILIEVEEWQPPELP				NA	NA	NA	NA	NA
BMS020_01404	387	sixA	COG2062	Phosphohistidine phosphatase SixA	ATGGCAACCTGGCTGAAAGGTCAAAAAGTGGATATTGAGCGCGTTCTTGTCAGTCCCTATCTGCGTGCGGAACAAACGCTGGATATTGTTGGGGAGTGCATGAACCTGCCGAAACATGTCGACGTGATGCCGGAACTCACGCCGTGCGGCGATGTGGGAATGGTGAGCGCCTATCTGCAGGCGCTGGCAAATGAAGGCGTGGCGACGGCGCTGGTCGTCTCCCACCTGCCGCTGGTGGGGTACCTGGTCTCAGAGCTGTGCCCGGGGGAAACGCCCCCGATGTTCACCACCTCGGCTATCGCCTGCGTTAATCTGGACGCCGACGGCAAGGGTGAATACCTCTGGCAGAAAAGCCCCTGCAATCTCAAGATGGCCAACGCCATCTGA	MATWLKGQKVDIERVLVSPYLRAEQTLDIVGECMNLPKHVDVMPELTPCGDVGMVSAYLQALANEGVATALVVSHLPLVGYLVSELCPGETPPMFTTSAIACVNLDADGKGEYLWQKSPCNLKMANAI				NA	NA	NA	NA	NA
BMS020_01405	2145	fadJ_1	COG1024	Fatty acid oxidation complex subunit alpha	ATGGATACGGTTTCCGCTTTTAAGCTTGAGGTCCGTGCGGACAACATCGCGGTGATTACCATCGATGCCCCGGGTGAAAAAATGAATACCCTGAAGGCCGAGTTCGGCAATCAGGTGCGGGGACTGATACGCCAGATACGCGACGATAAGTCGGTGCGCGGCGTGGTATTTATCTCCGCCAAAGCCGATAACTTTATCGCCGGCGCAGATATCAACATGATTGCCCGCTGCCGCAGCGCGCAGGAGGCGGAAGCGCTGGCCCGCCAGGGGCAGCAGATTATGGCCGAGATCCATGGCTTGTCGATTCCGGTCATTGCCGCCATCCATGGCGCTTGTCTGGGCGGCGGACTGGAGCTGGCGCTGGCCTGCCATGGCCGCATTTGTAGCGATGACGAAAAAACCCGACTCGGGTTGCCGGAGGTACAGCTTGGCCTGCTGCCGGGTTCCGGCGGGACGCAGCGTTTACCGCGGCTGATCGGCGTCAGCACGGCGCTGGATATGATGCTCACCGGCAGGCAGTTACGGCCGCGCCAGGCGCTGAAGGCCGGTCTGGTGGACGAGGTGGTTCCGCAGACAATTTTACTGCAGGCGGCGGTGGAGCTGGCGCTGAAGGGGCGCCCGGCCAGCCGCGAGGTGCCTGTTCGCGAACGCGTGCTGGCGGGCCCCCTGGGTCGCCATCTGTTATTCCAGTACGTCGGCAAGCAAACGCAGCGCAAGACCCAGGGCAACTACCCGGCGGTGAAGCGAATTTTGCAGGTCGTCGAGAATGGTCTGGCCCATGGCTGCAGCAGCGGTTACGCCGAAGAGGCCCGCGCGTTTGGCGAACTGGCGATGACCCCGCAGTCGCAGGCGCTGCGATCGATCTTCTTTGCCAGTACCGATCTGAAAAAAGACCGTGGCGCCGAGGCGGAACCCGCTCCGCTGAGAAGCGTTGCCGTCCTGGGCGGCGGCCTGATGGGCGGGGGGATCGCCTATGTGACTGCCTGTAAAGGCGGACTGCCGGTGCGAATCAAAGATATTCAGCCGGGCGGGATCAACCACGCCTTAAAATACAGCTGGGATCTGCTGAACAAACAGGTTCGCCAGCGTCGACTGCGCCCCAGCGAGCGCGATCGTCAACTGGCGCTGATGACAGGCACTACCGACTATCAGGGCTTTACCCATCGCGACGTGGTGATTGAGGCGGTATTCGAGGACCTGGCGCTGAAACAGCGGATGGTCAGTGAAGTGGAGCAAAACGGCGGGCCGCAGACTATCTTTGCCTCGAATACCTCGTCGTTACCGATAGGCGAAATAGCCGCCCATGCCAGCCACCCTGAGCGGGTGATCGGCCTGCACTTTTTCAGTCCGGTGGAGAAAATGCCGCTGGTTGAGGTGATCCCGCATAAGGGAACCGATCCGCAGACCATCGCCACGGCGGTGCAACTGGCTAAACGTCAGGGGAAAACGCCGATCGTGGTGGCGGACAAAGCGGGCTTCTATGTAAACCGCATCCTCGCGCCGTATATAAATGAAGCGATGCGTCTGCTGGTGGAGGGTGAACCGGTTGAGGTGATTGATAAGGCGCTGGTGAAATTCGGCTTCCCGGTGGGACCGGTTCAACTGCTGGATGAAGTGGGTATCGATACCGGCACCAAAATTATTCCCGTGCTGGAGAATGCCTTTGGAGAGCGTTTCAGCCCGCCTGCAAACATCATTGACGCGATTTTGAAGGACGATCGCAAAGGTAGAAAAAATAATCGTGGTTTCTATCTTTATGAGACAAAAGGGCGTAAAAGCAAAAAACGGCCCGACCCGGCAGTCTATCCGCTGCTGGGCATCGACCGCCCCCAGTCGCGGTTGTCCGCGCAGCAGGTGGCGGAGCGCTGTGTGATGATGATGCTTAACGAGGCGGCGCGCTGCTTTGATGAGCAGATTATCCGTAGCGCGCGCGATGGTGATATCGGCGCCGTATTTGGTATAGGGTTTCCGCCATTTCTTGGCGGCCCGTTCCGGTATATGGATACTATCGGCGCGGGTGAAGTTGCCGCGATCCTGCAGCGCCTGGCCGCCCAGTACGGCCCACGTTTTACACCCTGTGACACTTTATTACGCATGGCCGAACAGGGGACCACCTTTTGGCCAGCGGATGAACGGATGACCTAA	MDTVSAFKLEVRADNIAVITIDAPGEKMNTLKAEFGNQVRGLIRQIRDDKSVRGVVFISAKADNFIAGADINMIARCRSAQEAEALARQGQQIMAEIHGLSIPVIAAIHGACLGGGLELALACHGRICSDDEKTRLGLPEVQLGLLPGSGGTQRLPRLIGVSTALDMMLTGRQLRPRQALKAGLVDEVVPQTILLQAAVELALKGRPASREVPVRERVLAGPLGRHLLFQYVGKQTQRKTQGNYPAVKRILQVVENGLAHGCSSGYAEEARAFGELAMTPQSQALRSIFFASTDLKKDRGAEAEPAPLRSVAVLGGGLMGGGIAYVTACKGGLPVRIKDIQPGGINHALKYSWDLLNKQVRQRRLRPSERDRQLALMTGTTDYQGFTHRDVVIEAVFEDLALKQRMVSEVEQNGGPQTIFASNTSSLPIGEIAAHASHPERVIGLHFFSPVEKMPLVEVIPHKGTDPQTIATAVQLAKRQGKTPIVVADKAGFYVNRILAPYINEAMRLLVEGEPVEVIDKALVKFGFPVGPVQLLDEVGIDTGTKIIPVLENAFGERFSPPANIIDAILKDDRKGRKNNRGFYLYETKGRKSKKRPDPAVYPLLGIDRPQSRLSAQQVAERCVMMMLNEAARCFDEQIIRSARDGDIGAVFGIGFPPFLGGPFRYMDTIGAGEVAAILQRLAAQYGPRFTPCDTLLRMAEQGTTFWPADERMT	PGPT0001870_1312	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0001870-fadJ-K01782	NA	NA
BMS020_01406	1311	fadI_1	COG0183	3-ketoacyl-CoA thiolase FadI	ATGAGTCAGGCATTACCGCTTATCACCCGTCAGGGCGATCGCATTGCCATTGTCACAGGGTTACGCACGCCGTTTGCGCGTCAGGCGACGGCATTTCATGGCGTTCCTGCCGTTGATTTAGGAAAAATGGTGGTTGGCGAAATGCTGGCGCGCAGCGACATTCCTGTGGAAGCCATTGAACAGCTGGTCTTCGGTCAGGTCGTGCAGATGCCGGAGGCGCCGAATATCGCCCGGGAAATTGTGCTCGGTACCGGAATGAGCGTGCACACCGACGCCTACAGCGTCAGTCGCGCCTGCGCCACCAGCTTCCAGGCCGTGGCGAATGTCGCTGAAAGCCTGATGGCTGGCACCATCCGCGCCGGTATCGCCGGCGGTGCCGATTCCTCCTCTGTGCTGCCTGTCGGCGTCAGCAAAACGCTGGCCCGCGCGCTGGTCGATGCGAACAAAGCCCGCACGCTGAGCCAGAAACTGAAGCTGTTTTCCCGCCTGCGGCCGCGCGACCTGCTACCGGTCCCCCCGGCGGTGGCGGAATATTCAACCGGCTTACGGATGGGCGATACCGCCGAACAGATGGCGAAAAGCTGGGGGATCAGCCGGGAACAACAGGATGCGCTGGCGCATCGTTCACATCAGCTGGCGGCTAAAGCCTGGGAAGAGGGAAAGTTGTCCGCGGAGGTGATGACCGCCTATGCGCCCCCCTTCCGCCAGCCGCTGGAGCAGGACAACAACATCCGTAAAAATTCAACCCTCCCAGATTACCAAAAGTTACGCCCGGCCTTCGACCGTAAACATGGCACCGTTACCGCCGCCAACAGCACGCCGCTGACGGATGGCGCGGCGGCGGTGATCCTGATGACCGAGTCGCGGGCCAAAGAGCTGGGTCTGACGCCGCTGGGTTATCTGCGCAGCTATGCCTTTACCGCCATCGACGTCTGGCAGGATATGCTGCTGGGGCCCGCATGGTCCACGCCGCTGGCGCTGGAGCGCGCTGGCCTGACGCTGGCGGATCTCACGCTTATCGATATGCATGAAGCTTTCGCCGCGCAGACGCTGGCTAATCTTCAGTGTCTGGCAAGCGACCGCTTTGCCCGCGAGGTGCTGGGCCGCGCGCAGGCCACCGGTGAGGTGGATGAGAGTAAATTTAACGTCCTCGGCGGCTCTATCGCCTACGGTCATCCCTTTGCCGCCACCGGCGCGCGGATGATCACCCAGACGCTGCATGAGCTACGGCGACGGGGAGGGGGATTTGGTCTGGTGACGGCCTGCGCGGCAGGCGGTCTGGGCGCGGCGATGATTGTGGAGGCTGAATAA	MSQALPLITRQGDRIAIVTGLRTPFARQATAFHGVPAVDLGKMVVGEMLARSDIPVEAIEQLVFGQVVQMPEAPNIAREIVLGTGMSVHTDAYSVSRACATSFQAVANVAESLMAGTIRAGIAGGADSSSVLPVGVSKTLARALVDANKARTLSQKLKLFSRLRPRDLLPVPPAVAEYSTGLRMGDTAEQMAKSWGISREQQDALAHRSHQLAAKAWEEGKLSAEVMTAYAPPFRQPLEQDNNIRKNSTLPDYQKLRPAFDRKHGTVTAANSTPLTDGAAAVILMTESRAKELGLTPLGYLRSYAFTAIDVWQDMLLGPAWSTPLALERAGLTLADLTLIDMHEAFAAQTLANLQCLASDRFAREVLGRAQATGEVDESKFNVLGGSIAYGHPFAATGARMITQTLHELRRRGGGFGLVTACAAGGLGAAMIVEAE	PGPT0001565_265	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
BMS020_01407	285			hypothetical protein	ATGAGTAAATGTAGCGCTGATGAAACCCCGGTTTGCTGCTGTATGGATGTTGGGACCATTGTCGACAACACCGACTGCACCGCCTCATACAGCCGCGTATTCGCCAACCGCGCGGAAGCAGAGCAAATGCTCGCCGCGCTGAGCGAAAAAGCCCGCAGTGTGGAATCTGAACCGTGCAAAATTAATCCCGTCTTCGCCGACGTTGACGGCGGCGTAAAGCTGGATATCGATTTTGTATTTAGCTGTGAAGCCGAATCCCTCATCTTCCAGCTGGGTCTGCGTTAA	MSKCSADETPVCCCMDVGTIVDNTDCTASYSRVFANRAEAEQMLAALSEKARSVESEPCKINPVFADVDGGVKLDIDFVFSCEAESLIFQLGLR				NA	NA	NA	NA	NA
BMS020_01408	1323	fadL_2	COG2067	Long-chain fatty acid transport protein	ATGAGCCAGAAAACCCGCTTTACCCAATCTGCCCTTGCAGTGGCTGTCGCACTTGTTTCCACCCAGGCCTGGTCAGCAGGCTTCCAGCTCAACGAATTCTCTTCATCAGGGCTGGGTCGGGCCTATTCCGGTGAAGGGGCTATCGCAGACGATGCAGGCAATGCCAGTCGTAACCCGGCATTAATTATGATGTTTGACCGTCCGACTATGTCGGCGGGCGCCGTTTTTGTCGACCCGGGCGTCAATGTCTCCGGGACTTCCCCCACCGGCAAAAGCCTGAATGCGGACAATATCGCCCCGACGGCGTGGGTACCCAACTTCCACTTTGTCGCGCCGATTAACGATCAGTTCGGCTGGGGGGCGTCCATCACCTCCAACTACGGCCTGGCAACAGAGTATAACGATGATTATGCGGCCGGCAGCATGGGCGGTAAAACCGACCTGACTACGGCTAACTTCAACCTGAGCGGCGCCTATCGCCTCGACAGCAACTGGAGCTTTGGCTTAGGTTTCGATGCGGTCTACGCTAAAGCGAAGATCGAGCGCTATGCTGGCGATCTGGGTCAGATTGTCGCTGGCTCTGGCGCGCTGCCGCCGGCGCTGGCAGGCCAGGTGGCGAAGATCCCAGCCGACACGCAGATCGCCCATCTTAACGGCAATGCGTGGGGCTTTGGCTGGAACGCCGGTATCCTCTATGAGCTGGATAAGAACAACCGCTACGGTTTAACCTACCGTTCCGAGGTCAAGATCGACTTCGACGGTAACTATCGCAGCAGTCTGCCAGCGGCCTATAACCAGATCCTTGGCAACTTCGGTCTGCCGGCGGGTACTAACGGCCAGACCACCGGCGGTTCACTGACCCTTAACCTGCCGGAAATGTGGGAACTGTCGGGCTATAACCGCGTGGCGCCGCAGTGGGCGGTCCACTACAGTCTGACCTACACCAGCTGGAGCCAGTTCCAGGAGCTGAAAGCCACCGGCAGCAACGGCCAGACGCTGTTCTATAAAGAGGAAGGCTTTAAGGACGCCTACCGCGTAGCGCTGGGGACGACCTATTATTACGACGATAACTGGACCTTCCGCACCGGTATCGCCTTCGATGACAGCCCGGTACCGGCCAACAATCGCTCCATTTCCATTCCGGACCAGGATCGCCTGTGGCTGAGCGCGGGTACCACCTACGCGTTCAACAAGGATGCGTCGGTTGACGTCGGGATTTCCTATATGCACGGGCAGCATGTGGAAATCAAGGAAGGCCCGTATACCTTCCGCTCCGAAGGGACCGCCTGGCTGTACGGCGCCAACTTCAACTACCGCTTCTGA	MSQKTRFTQSALAVAVALVSTQAWSAGFQLNEFSSSGLGRAYSGEGAIADDAGNASRNPALIMMFDRPTMSAGAVFVDPGVNVSGTSPTGKSLNADNIAPTAWVPNFHFVAPINDQFGWGASITSNYGLATEYNDDYAAGSMGGKTDLTTANFNLSGAYRLDSNWSFGLGFDAVYAKAKIERYAGDLGQIVAGSGALPPALAGQVAKIPADTQIAHLNGNAWGFGWNAGILYELDKNNRYGLTYRSEVKIDFDGNYRSSLPAAYNQILGNFGLPAGTNGQTTGGSLTLNLPEMWELSGYNRVAPQWAVHYSLTYTSWSQFQELKATGSNGQTLFYKEEGFKDAYRVALGTTYYYDDNWTFRTGIAFDDSPVPANNRSISIPDQDRLWLSAGTTYAFNKDASVDVGISYMHGQHVEIKEGPYTFRSEGTAWLYGANFNYRF				NA	NA	NA	NA	NA
BMS020_01409	762	mlaA	COG2853	Intermembrane phospholipid transport system lipoprotein MlaA	ATGAATTATCGCCTGTCGGCGCTTGCGCTTGGCGCCACATTGCTGGTGGGATGTGCCAGTTCCAGCTCTGGCGATCGGCCGCAGGGGCGCTCAGACCCGTTAGAAGGGTTTAACCGCACGATGTTTAACTTCAACTTTAACGTGGTTGATCCTTACGTGCTTCGTCCCGTGGCGGTGGCATGGCGTGACTATGTTCCGCAGCCGGCGCGCAATGGCTTAAGCAACTTCACCAGCAACCTGGAAGAGCCGGCGGTGATGGTGAACTCCTTCCTGCAGGGCGACCCGTATAAAGGTATGGTCCACTTTACCCGCTTCTTCCTGAACACCATCCTCGGGATGGGGGGGCTGATCGATGTCGCCGGGATGGCTAATCCGCAGCTGCAGCGCGTTGAACCGCATCGTTTCGGCAGTACGCTCGGCCACTATGGCGTCGGCTATGGCCCGTATGTGCAACTGCCATTCTACGGCAGCTTTACCCTGCGTGACGAAGGCGGCGATATGGCCGATGGCCTCTATCCGGTGCTCTCCTGGCTGACCTGGCCGATGTCGATCGGCAAATGGGCGGTAGAAGGGATTGAGACACGCGCTCAACTGCTGGATTCCGACGGCCTGCTGCGTCAGTCTTCCGATCCTTACATTCTGGTGCGTGAAGCTTACTTCCAGCGTCATGACTTTATCGCCAACGGCGGTAAGCTGACCCCGGCGGACAATCCGAACGCCCAGGCCATTCAGGATGAACTGAAAGATATCGATTCACAGTAA	MNYRLSALALGATLLVGCASSSSGDRPQGRSDPLEGFNRTMFNFNFNVVDPYVLRPVAVAWRDYVPQPARNGLSNFTSNLEEPAVMVNSFLQGDPYKGMVHFTRFFLNTILGMGGLIDVAGMANPQLQRVEPHRFGSTLGHYGVGYGPYVQLPFYGSFTLRDEGGDMADGLYPVLSWLTWPMSIGKWAVEGIETRAQLLDSDGLLRQSSDPYILVREAYFQRHDFIANGGKLTPADNPNAQAIQDELKDIDSQ	PGPT0024485_1395	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024485-mlaA|vacJ-K04754	NA	NA
BMS020_01410	930	yfdC	COG2116	Inner membrane protein YfdC	ATGGATGAACTTGATGATAACAAATTAAAGCCAGCGGACGACGAACGTGAGGTCGAAAGTGAAGAAAAGCAGCGCGGGGAGGAGATAGAAGTGGATGAAGACCGTCTTCCCTCGCGGGCGATGGCGATCCATGAACATATTCGTCAGGAAGGGGAAAAAGAGATGGAGCGCGATGCGCTGGCCCTGCTGTGGTCTGCGATTGCGGCCGGTCTGTCGATGGGCGCCTCGTTGCTGGCGAAAGGGATTTTTCACGTCAAGCTGGAGGGGATCCCGGGAGGGTTTTTACTCGAGAACCTCGGGTATACCTTCGGCTTTATTATCGTAATTATGGCCCGCCAGCAGCTGTTCACGGAAAATACGGTCACCGCCGTACTGCCGGTGATGCACAATCCCACCCCCGGAAACGTCGGTTTACTCATGCGGCTATGGTCTGTGGTGCTGGCGGGCAATCTCATCGGCACCGCGGTGGCCGCATGGGCCTTCAATTATATGCCTGTTTTTGATGAGCCGACCCGCCAGGCCTTCGTCAGCATCGCCGAAGATGTGATGAAAAACAGCCCGACGGAGATGTTCGCCAATGCGATTATTTCCGGCTGGCTGGTCGCCACCATGGTCTGGATGTTTCCCCTCGCCGGCGCCGCCAAGATCGTGGTGATCATTCTGATGACCTGGCTTATCGCCCTTGCGGATACCACCCATATCGTGGTGGGCTCGGTGGAGATCCTTTATCTGGTGTTTAACGGAAGCCTGCCCTGGAGCGACTTCATCTGGCCTTTCGCCCTGCCGACGCTGGCGGGTAATATCTGCGGCGGGACCTTCATCTTCGCACTGCTTAGCCATGCGCAGATCCGTAACGACATGAGCAACAAGCGAAAAGCGGAAGCCCGCGCGCAGGCCGCTGCAAAAGCCAAAAATGCCGACCGGGCATAA	MDELDDNKLKPADDEREVESEEKQRGEEIEVDEDRLPSRAMAIHEHIRQEGEKEMERDALALLWSAIAAGLSMGASLLAKGIFHVKLEGIPGGFLLENLGYTFGFIIVIMARQQLFTENTVTAVLPVMHNPTPGNVGLLMRLWSVVLAGNLIGTAVAAWAFNYMPVFDEPTRQAFVSIAEDVMKNSPTEMFANAIISGWLVATMVWMFPLAGAAKIVVIILMTWLIALADTTHIVVGSVEILYLVFNGSLPWSDFIWPFALPTLAGNICGGTFIFALLSHAQIRNDMSNKRKAEARAQAAAKAKNADRA	PGPT0000590_234	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_FORMATE_TRANSPORT,PGPT0000590-yfdC-K21990	NA	NA
BMS020_01412	144			hypothetical protein	ATGGAAGCCTCAGATATCAAAAAGATGAAAAACCTGGAGGAAGAAAATCGCCGTCTCAAACAAATGTTCGCCGATCTGAGTCTGGAAAATCGTGCGTTAAAAAACGTCATCGGAAAAAGCTTTAAAACCAGCGATAAAGCGTGA	MEASDIKKMKNLEEENRRLKQMFADLSLENRALKNVIGKSFKTSDKA				NA	NA	NA	NA	NA
BMS020_01414	369			IS3 family transposase IS1400	ATGAGTTTACGCCAGGCCTGCAGGACGTTATCGCTGAGCAGGACAGTGTATTTTTATCAGCCCGATACCCGGCGTGATGAGCCGGTGATCCATGTACTGGCTGAACGTTATCCGCGCTACGGCTTTAAGAAGCTGTTCCAGCTGCTGCACAGGCAGGGCCATACCTGGAACTATAAACGTGTTCACCGGATTTACTGCCTGCTGAAACTGAATTTTCGCCGTAAGGGAAAACAACGACTGCCAGTACGTAATCCAGCACCATTGACGACGCCGCAAGCGTTAAAACAGAGCTGGTCCATCGATTTTATGCACGACGCGCTGGTGTGCGGTAGACGCTTTCGGACCTTCAATGTGGTGGATAATTTTTAA	MSLRQACRTLSLSRTVYFYQPDTRRDEPVIHVLAERYPRYGFKKLFQLLHRQGHTWNYKRVHRIYCLLKLNFRRKGKQRLPVRNPAPLTTPQALKQSWSIDFMHDALVCGRRFRTFNVVDNF				NA	NA	NA	NA	NA
BMS020_01415	249			hypothetical protein	ATGGAATATAACAACCAGCGGCCTCATGAATCCCTGAGCAACCTGACGCCGGAAGAGTACCGGCTGATGGCAGAAAAAACCGGGAATCTCAAAAAGTGCGTGGAACTAAAACGGGTGTGCTTACACAATTGTGCGGGGTTTGTCCGGGTCGAGGTCGTCACGCTGCCTTTGGGCATCATCAGCAGCGATTTTGACGCCAGTACGTCGTCCTTAAGTACCGTATCTGCCTTGCACAGCAGCGTCTGGTAA	MEYNNQRPHESLSNLTPEEYRLMAEKTGNLKKCVELKRVCLHNCAGFVRVEVVTLPLGIISSDFDASTSSLSTVSALHSSVW				NA	NA	NA	NA	NA
BMS020_01416	345			hypothetical protein	ATGCCCGATAGAAAATCACCTTCTTTATATGAAATTCTTACTGGCAACTTTACAGGGGATCTTCCCCTTGAAGTTGTTAGCGAAGAAGACCAGGTCATTTTATCCGTACTGGATAACATCCAGTGTATTTTGAACGCCCGGGCCGGGACCCTATCCCATCTCCCTGATTATGGTTTGCCGGATATGACCAAAATTCTTCAAGGTATGCCCGCGACAGCCCACGAGCTGTACGATACGCTGGCAGGTGTTCTGCTCAAGTATGGACCCCGTTTGCAGTCCCTCAATGTAACCTTACTCGAACAGCAAGTGCCCGGGAGTTGCGCTACGCCATCGATGCGGAACTAA	MPDRKSPSLYEILTGNFTGDLPLEVVSEEDQVILSVLDNIQCILNARAGTLSHLPDYGLPDMTKILQGMPATAHELYDTLAGVLLKYGPRLQSLNVTLLEQQVPGSCATPSMRN	PGPT0030405_107	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030405-tssE-K11905	NA	NA
BMS020_01417	870			hypothetical protein	ATGGCAGTTTCATCAACAACCACCACAAAAGAGCAAGAGCAGCAGGAAAAGAAGGTCAGTGTTGATTTCTTCCACATTGACATGATTCCGGATGCCATGGAGAAAATGAAATGGCCTGTGGCTGCAAAGTTAATGAGACATTGGTTTGATACCAAACCTTCATTTTCATATACGGCGCAATCAAAAAAAAGTGCTCAAGATGCTGACCCGACAACATTACCCGAATCACAAATTAATTGTGACATAATTAAAATGTCTTGGGCAATTCAGTATGAACAGGTTAAAAATGGAATAAACGAACTCTCCCGTATATGGAAAAGTGAAAAAGGCATTAAGCGGTTGAAGTTTCAATTAGGTAAGAAAGGCTCACTTGATAAAGAGGATATTGCGCTGGGTTATTCTGAAAATATCCAAGAGCTTGATGCGAATGCCCAGGTAAACATCTTAGTAATTGGTAGCAAGTTCGATACTGTGAATGAATGGTATGGTGCTATGGGTAACTCTACTCTGAAAGTATGCATTCGTGGAAAAACAAGTAAAAGTGGAAGTGAGAATATATTTACCGTCGATAAATTAGGGTTTTACCTCAAAGACACATATGATTTTGTTGACGAAGGCAAGACTCCAGAACCACTTGGCATTTGGAGTAAAAACAGAATATTAGATAAAACAGAATCCGCATTATATATGTCAACTTATTTATCTGGCGTTTGGGGCGTATTGGCAAGAGATTTTACTGGTTTTGTTCCGGTTTTCAACGCGGACTTTAGAAAATGGCAGACTAAGCATAACACTGGAGGTGATTTTATTGTGCTTTCAGATGTTTTATGGCTGGAGCCCTTACCAAAGGATAAGGTGATTGTTTTATGA	MAVSSTTTTKEQEQQEKKVSVDFFHIDMIPDAMEKMKWPVAAKLMRHWFDTKPSFSYTAQSKKSAQDADPTTLPESQINCDIIKMSWAIQYEQVKNGINELSRIWKSEKGIKRLKFQLGKKGSLDKEDIALGYSENIQELDANAQVNILVIGSKFDTVNEWYGAMGNSTLKVCIRGKTSKSGSENIFTVDKLGFYLKDTYDFVDEGKTPEPLGIWSKNRILDKTESALYMSTYLSGVWGVLARDFTGFVPVFNADFRKWQTKHNTGGDFIVLSDVLWLEPLPKDKVIVL				NA	NA	NA	NA	NA
BMS020_01418	2472			hypothetical protein	ATGGATAACTGGTCAGCGCTTTTTGACGGACAGACCCGATATTTTCTGGATATCAATGACAGTTCAGTGAAGCCGGATGTTCTGCGTTTTTACGGCAGGGAAGCACTGAGCGAACCATTCAGATGGGACATCGAGTTCACCACGCTGCAGGCGAACATCCTCCCGGAAGAGGTGCTGATGAAATATGCCTCCTTCCGCATGCGTGGCGGCAAAAATATCCACGGCATGGTGACCCGCCTGGAATGGCTGTCCACATCAAAGGATCAATCTCACTACCGGCTTACGCTCAGTTCCCGCCTGGCGCTTCTGGGATACACCCGACAGTGCGCGGTATATCAGAATCAGTCCGTTCCTGAGGTGGTTGAGCAGGTGCTGCGTAAACACGGGCTGGAGGGACCTGATTTTGACTTCCGCCTGGAGCGCACCTACCCACCACGTGAAATTATCACCCAGTGGCGGGAAACGGATTTGCAGTTTATCCGGCGCATTCTGTCCGAGATGGGGATTTACTGGCGCACGATGATGGACGACGTGCGCGGTCTGGATACGTACATTTTTGCCGACAGCCAGCTTAACTACCAGTTTGATGTGCGCCTGCCGTACAGCGAGCCATCGGGGTTGTTCGACGGCGCGGCAGAATCAGTCTGGGATGTGCGGACCTGGCACAACATCGCCACCGGCACAGTCGTCACGCGGGATTACAACTACCGGACCGCCTTCACACCGATGGATGCGACGGTCAGCGTGCGGAATGATGCGGTGACCACCGGGGAGCATTACCGCTACGCGGCACCGTATCGTGACGCAGGCGATGACGCCAGCCCGGAGCCGGAGACCGAATCCGGCGCGTTCTACGCCCGGCTTCACCACGAGTGGGAGCTTAACAGGTCGGCACGCATTCACCTGTTCAGCAACGCTTCACATCTCGCGCCCGGGCAGGTGCTGGAGCCGCAGGGGAATGTCATTACGGCCCTGAAAAAAGGCGTGATCCTCACGCTGGTGACCTTCCGTGGCGCCCGTGATTCCCGCCTGCATGTGTCGGTATGGGGCATGCCCTACACCGAACGTTACTGTTTCCGCCCGGCGGAAATCCCGCGTCCGGAAATCCACGGCACACTTCCGGCCCGGGTTGAGAGCCGGGAGAAGAATGATATCTACGCACACCTGGACGAGCAGGGGCGCTACCGGGTGAAGCCGGACTTCGACCGGGAGGGTACGGAACCGGGTTACGGCTACCTGTGGCTGCGGATGGCCAAGCCTTATGCCGGTGAAACGCTGGGCTGGCACACCCCCCTCACCGACGGCACCGAAGTGGCGATTGCGTACAGCAATGGCGATATCGACCTGCCGTACATCGCGTATGCGCTGCACGACTCGGAGCACCCGGACCTTGTGAACCGGGACAATCACACCCGAAACATCCTCCGGACGCCTGCCAACTCAAAATTACGCATGGAAGACAAGCGCGGTCAGGAGCACATTAAACTCGCCACGGAATACGGCAGGACGCAACTCAACAGCGGGCACCTGGTGGATGCGCGGGGGCAACATCGCGGCACGGGCACCGAGCTGCGCACCGATGAGTGGGGAACCCTGAGAGCAGGAAAGGGACTCTTTGTCAGCGCGGATGCGCAGGCGAAAGCGCAGGGTGACGCACTGGATATGAGCGCTGCGCTGAAGGAAATCGACCAGCTTAACCAGCAACTGCAGCAGCTGGAAATCGCCGCGGAGCAGGCGCAGGCGCTGAAAGCGGACGTGGACAGCCAGATAGAGATGTTTGAGCAGCGGCTGAAACCACTCAATGAAGCCGTGCTGTTCTCGGCGCCGGAAGGCATGGCCCTGACCAGCGGGGAAGATATGCAACTGGCCGCCAGCAAAAACGTCGCCATTAATGCTGGCGGAGATATCAGCACAGGCGCGATGGGCAACCTGACGCTACTTACCGGGGAAAAGCTCGGGCTCTTTGCCCGCACCGGCCAGCTGAGCCTGAAATCCGGGGAAGGGCCAATCGATGTCCAGGCGCAAAACGCCAGCATGCGGTTGTTTGCTGAGAAGAAGCTGACGCTGAGCTCAGCGAGTGATATCTCCCTGGCCGGAAAAAAGCGTATCACCCTAATTGGTGGTGGCAGTTACCTGAAGCTTGAGCCCGGAAAGGTCGAGTATGGCACGACTGCGTCGTATATGCGCAAAGTGAAGCGGACAATGGCTGCGGGAAGTAGTGCCCTGGAACAGGGACCGGCTGAAATGCCCGCCCCATTACCAGATTTGTCATGTGGTCCAAATACCGCGTGTTTCAGGGTCTTGGATTCCTTAACCGGATCTGAAGATATGGAGTTTGCATATCAAGTACAGACATCTACCGGTACAGTGGTAGGAAGAACTGATTCAGCCCTGACGCATGCAGTAAATTCAGATACCGAAGAAAACGTAAACCTGGACTATGTTTTTCAGATCAGAGCGGGGACAAGGTAA	MDNWSALFDGQTRYFLDINDSSVKPDVLRFYGREALSEPFRWDIEFTTLQANILPEEVLMKYASFRMRGGKNIHGMVTRLEWLSTSKDQSHYRLTLSSRLALLGYTRQCAVYQNQSVPEVVEQVLRKHGLEGPDFDFRLERTYPPREIITQWRETDLQFIRRILSEMGIYWRTMMDDVRGLDTYIFADSQLNYQFDVRLPYSEPSGLFDGAAESVWDVRTWHNIATGTVVTRDYNYRTAFTPMDATVSVRNDAVTTGEHYRYAAPYRDAGDDASPEPETESGAFYARLHHEWELNRSARIHLFSNASHLAPGQVLEPQGNVITALKKGVILTLVTFRGARDSRLHVSVWGMPYTERYCFRPAEIPRPEIHGTLPARVESREKNDIYAHLDEQGRYRVKPDFDREGTEPGYGYLWLRMAKPYAGETLGWHTPLTDGTEVAIAYSNGDIDLPYIAYALHDSEHPDLVNRDNHTRNILRTPANSKLRMEDKRGQEHIKLATEYGRTQLNSGHLVDARGQHRGTGTELRTDEWGTLRAGKGLFVSADAQAKAQGDALDMSAALKEIDQLNQQLQQLEIAAEQAQALKADVDSQIEMFEQRLKPLNEAVLFSAPEGMALTSGEDMQLAASKNVAINAGGDISTGAMGNLTLLTGEKLGLFARTGQLSLKSGEGPIDVQAQNASMRLFAEKKLTLSSASDISLAGKKRITLIGGGSYLKLEPGKVEYGTTASYMRKVKRTMAAGSSALEQGPAEMPAPLPDLSCGPNTACFRVLDSLTGSEDMEFAYQVQTSTGTVVGRTDSALTHAVNSDTEENVNLDYVFQIRAGTR	PGPT0030410_67	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
BMS020_01419	525			hypothetical protein	ATGGCAACAATAACCCGCTGGTGGGCGCTGACGCTTATTGCCTGTGGTCTGCTCTCAGGCTGCGGTCTGACTCAGACCGTTAAGGACGGTACGGTCAGCATCACGAAATCCATCTTCTACAGGAAAATTAAAACGCTGCATCTGGATTTTACCCCGCGTACGGCCATTAACGCCGATGGCGCACAGACGCCGCTGGCGACCATGGTGAGAGTCTATCAGCTCAGGGATCGTAAAGCGGTTGATGCCGCCGATTACCAGACGCTACTGCGCAAGGCCGATACGGTACTTAAGGACGATATGCTGGCGTCAAAAGCGCTGCTGGTGATGCCCAACGGCAGCGTGACGCTCAATGTTCCCATGGATGAAGATGCTCAGTTCGTGGCGGTGGTGGGACTGTTTAACCGCCCGGATCAGAAGGATAACCGCTGGCGCCTGGTGCTGACCCGTGACGACCTCGACCCGGACAAACCCCGCACGATTGAGCTGGCTGATGGCTGGCTCAGCCTTGTGCCGGTGAAGGAGTGA	MATITRWWALTLIACGLLSGCGLTQTVKDGTVSITKSIFYRKIKTLHLDFTPRTAINADGAQTPLATMVRVYQLRDRKAVDAADYQTLLRKADTVLKDDMLASKALLVMPNGSVTLNVPMDEDAQFVAVVGLFNRPDQKDNRWRLVLTRDDLDPDKPRTIELADGWLSLVPVKE	PGPT0030425_586	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0030425-vasD|lip-K11906	NA	NA
BMS020_01420	1083			hypothetical protein	ATGGCGCGAGAATCACAGCCAGCACGTACCGGGCTGACGCTGGCCCTTAACAAAGATATCTGGCGGGCCAATTTTTATCGTTTCTGCCAGCTGTTGGAACAGGAAAATCCGGACGCGCCGAAACTGGGCACTACCAGCCATCCGGGCGACGACCCGGTACGATTCAGGCCCTGGCCAGGTATGGGGTTCCCGGTCAGTACCCTGAAAGCGGTGGAGACCGACGAAGACCATCCGACATTGCCCCCAACGGTCCGTACGACATTTCTTGGTGTGTATGGGGTGGACTCCCCTCTGCCGACGTCCTGGCTGGACGATATCGCGCAGCGCCGTGAAGGACACGAGGCGGTCACTTCATTCCTGGACATTTTCAGCCACCGGATCACTACGCAGTATTACCGGATCTGGCGAAAATACGCGTATCCGGCAACCTTCGAGGCCGGTGGGCGAGATGCCACATCACAGTGTCTGCTGGGGCTGGTGGGACTCGGTATACCGGGTACGTCTGAGCAGGTGGCAACGCCGGTGTCCCGCTTTCTGGCCCTGCTGGGCACCATGCGTTTGCCCACGCGTAACGCCGAAGGCATCCGGGCTGTGGTGAGCCTGCTGGCGCCAAATACCCGGGCAATAATCACCGAACCGGATCCGGTTAAGGTTCGTATCGATAACCCCAGTGGGCTGGGGGGCGGAAACCGTATCCGTCTTTCGCAGCGGGCCACGCTGGGTAAAACGGCCAGGGAAGCATGCAGCCGGGTACTGGTGACGCTGGAGACAGCGGATCCGGACGAGGCGGAAGGCTGGTTACCCGGTGGTGTCCTCCATACCGATTTGCTGGTCCTGCTGCGCGTCTATCTCGGCTACCGCAGTGACGCCCGACTGCGTCTCACCGTACCTGTACGATTGCTGCCTGAGCCCCGCCTTGGCAAAGGCAGGCGTATCCAGCTGGGCCGCACCGGCTTGCTGGGCCTGAAAGCTGGCAAGCTCAGCAATAGTCGGGAGAGTCTGACCGTCAGTCTGGGCTGCTATGAAGGGTTGCAATGTTCTGCGTTACCGTCCGCTGAAGACGGGCACTACCGCTTCGAATAA	MARESQPARTGLTLALNKDIWRANFYRFCQLLEQENPDAPKLGTTSHPGDDPVRFRPWPGMGFPVSTLKAVETDEDHPTLPPTVRTTFLGVYGVDSPLPTSWLDDIAQRREGHEAVTSFLDIFSHRITTQYYRIWRKYAYPATFEAGGRDATSQCLLGLVGLGIPGTSEQVATPVSRFLALLGTMRLPTRNAEGIRAVVSLLAPNTRAIITEPDPVKVRIDNPSGLGGGNRIRLSQRATLGKTAREACSRVLVTLETADPDEAEGWLPGGVLHTDLLVLLRVYLGYRSDARLRLTVPVRLLPEPRLGKGRRIQLGRTGLLGLKAGKLSNSRESLTVSLGCYEGLQCSALPSAEDGHYRFE	PGPT0025940_468	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025940-impH|vasB-K11895	NA	NA
BMS020_01421	1770			hypothetical protein	ATGGATGATTTAACCCTGCGCTATTACGAAGCAGAGATGCGCTACCTGCGAGAAGCCGGTAAAGAGTTTGCCCGGGCTCATCCGGACCGAGCAGCAATGCTTAATCTGGATAAACCTGGCGCCCGCGATCCCTATGTGGAACGTCTGTTTGAAGGTTTTGCCTTCCTGATGGGCCGTTTGCGTGAAAAGCTGGATGATGATCTGCCAGAGCTCACCGAAGGGCTGGTGAGTCTGCTGTGGCCGCACTATATGCGCACCATCCCGTCGCTGGCCATCGTTGAGTTCTCCCCTGACTGGCGTAGTCTGCGTCAGGCCGAAATGCTGGCGGAAGGCTTCTCCGTTCTGTCACGTCCTGTCGGGCCGCATAAAACAGCTTGTCAGTACCGGACAACCCGCGATGTGCCGCTACAACCGCTGCACCTTGCTGACGCCCGCCTGCATACGGAAACCGATGGCCGCTCTGCTATCCGTCTGCGCTTCGAATGCCCTGAAAAAGTGGACTGGCGTAAAGCCGGGATCGACAAGGTCGCCATATTCCTCAACGCAGAGAGTCCGGTTAGCTCTGCGCTGCATATGGCAATGACCCGTCGAGTCCACGCCATGTATGCCCGCCATGCAAGGACATACACCGAACGTCATCAGTTTGATGGCTGGTGCAAACCCATGGGCTTTGATGACAATGACGGCCTGTGGAAGAAAGCCGATACTGCCTTCAGCGGTTACCAGCTACTGCTGGAGTATTTCAGCTTCCGTCCGAAGTTTATGTTTGTGGAAATGCGCGGCCTCGAGGCCATCGGGCTCACTGCGGCCAGCACCTGGTTTGAAATCGACATCGTGCTCAGTGAAGCCTGGTCATCCGATCTGCCTTTTGAAACGGAAAACTTCCGGCTGCACTGTGCGCCGGTCATCAATCTCTTCACCCTGGAAGCCGACCCGCTGACGCTTAACCCGCTGGAGAACGAATACCTGCTCAGGCCGCTGCGTCTTCAGGATGGTCACACCGAGATTTACAGCGTCGATAACATCCGTGGCGCGGTGAAGAATGGCAAACATCCTTATGTGCCGTTCACCAGCTTTCGGCACCGGGGCGGTATGATGCGCCACGATGCTCCTGAGCGTTATTTCCACACTCGCGTGAAACGCGGCCCCTCTGGTCTGTACGACACCTGGTTAATTCTCGGGGGGCGCTCGTTCGAGCTGGAGCAGCTGTCCGATAAACCAGAATCCCTTTCGATGCGAATAACCGGTACCAACGGCCAGCTTCCGCGTAAGGCACTGGAAAGCACTCTGCTGGACAGGGTGGTCAAAACCGGCAAAGTGCCCGTCAGTGTACTGAACGTCACAGCACCGACAATGCCGTTATATCCCCCGGCAAACGATCGTTTTCACTGGCGGGTGATGAGTCACCTCGGATCAAACTTCCTCAGCATGATGGACAATCCGGAAGTGCTGCGGGGCACGCTGGCGCTCTATGACTGGACCGACGATGAAATGAATCGCCGTCGGCTTGAAGCCATCGTCGCTGTGAAGCACACCCTGATCCGCCGTTTTGAGAAGGGCTTTATGCTCAGGGGCGTTGACATTGAGGTCACGCTGAATACGGATAATTTTGCAGGCGAGGGCGATGTAAATCTCTTTGGCGAGATGCTGCACCGATTCTTCGCGCGCTATGCCGATATTCACCTCTTTAACCAGCTCACGCTGGTGCTGCAACCGACAGGGAAACGACTGAGATGGCGCGAGAATCACAGCCAGCACGTACCGGGCTGA	MDDLTLRYYEAEMRYLREAGKEFARAHPDRAAMLNLDKPGARDPYVERLFEGFAFLMGRLREKLDDDLPELTEGLVSLLWPHYMRTIPSLAIVEFSPDWRSLRQAEMLAEGFSVLSRPVGPHKTACQYRTTRDVPLQPLHLADARLHTETDGRSAIRLRFECPEKVDWRKAGIDKVAIFLNAESPVSSALHMAMTRRVHAMYARHARTYTERHQFDGWCKPMGFDDNDGLWKKADTAFSGYQLLLEYFSFRPKFMFVEMRGLEAIGLTAASTWFEIDIVLSEAWSSDLPFETENFRLHCAPVINLFTLEADPLTLNPLENEYLLRPLRLQDGHTEIYSVDNIRGAVKNGKHPYVPFTSFRHRGGMMRHDAPERYFHTRVKRGPSGLYDTWLILGGRSFELEQLSDKPESLSMRITGTNGQLPRKALESTLLDRVVKTGKVPVSVLNVTAPTMPLYPPANDRFHWRVMSHLGSNFLSMMDNPEVLRGTLALYDWTDDEMNRRRLEAIVAVKHTLIRRFEKGFMLRGVDIEVTLNTDNFAGEGDVNLFGEMLHRFFARYADIHLFNQLTLVLQPTGKRLRWRENHSQHVPG	PGPT0025935_1287	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025935-impG|vasA-K11896	NA	NA
BMS020_01422	1404			hypothetical protein	ATGAGTTCACCCCAGGCACTGTTATCGGCATGTACCACAAATCAGGAAGAGCAGCAGCATCTTATCGGAAAAGCCTCCAGCGCCCTATTATTATGGGATAACTGGCTGCACCCGTTCACCCCGGGGTCTGAAACCGGGGACGATCCCGCATACGATGATAATTTTCTGCTGATGCGTGAAGAGATCAATAAGATATCGGGTACCGATTCAGCGCGGTTGTGCGAGCTGGCCCGAAAGTGTCTTTACGAATGCGCAAAAGACATTCGTGTGGTGACCTGGTATGTGCAGGCCCGACTCAGCCGCGACGGTGAAAAAGGGTTGGCTGAAGGTTTATTGCTGCTTGTCGCAATGCTGACTCGCTACGGGCAGGCATGTCATCCTCAGCGTCCCGCAGCACGTAAAGCTGCGCTGCAGTGGCTGAACAGTGCAAAAGTGATTGATGCACTGCTGTTATGGCCTGAGGTAGACCGCAATGATGCCGGTCTTACGGCGGGCGCCATAAGCCTGCTTGAATCCACAGTGGCGGACTGGCCGGAAGCCGAGAAACCGTCTTTTGCAGGGCTTTGTACCACTCTTGAAAACCGCCTGGCACGTTCGGGGGGTATGGAAGCACTGGTCCCCCAGAACAGCAGTACTCAGGAGCACGGACGCGAACCGGCCCACTCGGATTCACCGCAACTGTCAGCGGTAAAATCGGGCCGCGATTTACTCGACCAGGCAAAGTTACTTTCCCGCTGGCTGAGCGAGCAGCCGCAGGGCTGGCTGGCCTCTTACCGGCTGATAAAGACCGTGCGTTGGGACACGGTCGATCAGATCCCTCCGCTGGACAGTCGCGGTCGCACCCGCCTGGTACCGCCGAAACCCGAGTATCGTGCTCAACTTAAGCGGCTGTATCTTCAGAAAAACTGGACCGAACTGGTTGAGCAGGCCAGCCAGATTTATTGCGAAGGGGTCAATCATTTCTGGCTCGATCTTCAGTGGTATCTCTGGCAGGGGCTCAGTCATGCCGGTCACCCGTGGGATACCTGGACAGAATCCGTTCTTCTTGATCTGCGACTGCTACTTCAGCGCCTTCCGGGACTTGAAGGCCTGGCATGGAATGACGGTACTCCCTTCGCTGATGAAGTCACCTCCGCCTGGATCGCTGGAAAAGTGAATGAAGAAGGCCTGCTGTATGGCGATGAACCCGCAACCGTCGTTAATGGCCAGGCTGATGATGTGCTGCTTCTTGAATCCGAAGCTATGGCAAAAGGCGACGCGGAAGGACCCGAGGCGGCGCTTGCCTGGCTCCAGTCCCGACCAGGAATGGACACACCACGCCATCGCTGGCTGATACGCCTGCTGATGGCCCGGGTGGCAGAGCAGTATGGTCGAAACGATATGGCGCTTCACCTGCTTGGCTAA	MSSPQALLSACTTNQEEQQHLIGKASSALLLWDNWLHPFTPGSETGDDPAYDDNFLLMREEINKISGTDSARLCELARKCLYECAKDIRVVTWYVQARLSRDGEKGLAEGLLLLVAMLTRYGQACHPQRPAARKAALQWLNSAKVIDALLLWPEVDRNDAGLTAGAISLLESTVADWPEAEKPSFAGLCTTLENRLARSGGMEALVPQNSSTQEHGREPAHSDSPQLSAVKSGRDLLDQAKLLSRWLSEQPQGWLASYRLIKTVRWDTVDQIPPLDSRGRTRLVPPKPEYRAQLKRLYLQKNWTELVEQASQIYCEGVNHFWLDLQWYLWQGLSHAGHPWDTWTESVLLDLRLLLQRLPGLEGLAWNDGTPFADEVTSAWIAGKVNEEGLLYGDEPATVVNGQADDVLLLESEAMAKGDAEGPEAALAWLQSRPGMDTPRHRWLIRLLMARVAEQYGRNDMALHLLG	PGPT0030430_71	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0030430-vasJ-K11910	NA	NA
BMS020_01423	3372			hypothetical protein	ATGTCTAAGGTAAAAGTAAAAACACTCATCGGCTCCGTTGTGACTGTCGCCTTTTTCCTGACAGCCATCGTGGCATTTTTGTTTTATGCCTTTCCGGAAAATGTGGCCTCAGCCACCGGCTTCGGGCCGTATGACAGTCAACAAATACTCACATTCTGCGCCATTATGGTTGCGGCGATGTTTTTACTCGGCTGGCTGACAGAGAAGGCTTTCGACTTCGCCGGTAAATCCGGGTTGTATTTCCAGTGGGGGCAGAAAAAGGCTGAGAGTATCACTCCGGTGGCAAACACCATTCTCAGTGAAGAAGATGACGATGAGCTGGTCTTCAGCGAAGACGCCGTGTCTGAACACCTGCGCTTTCGCTATGGACGCCGCTGGCAGCGTAAAGTGCGACTCCTGCTGGTGATGGGCAACCCGGACGACGTCGAGAAAGCGGCCCCGGGTCTGCGTCATGACCTCTGGCAGGAAGGCGACGGCAACGTACTGATTTATGGCGGTGATGCGCAGTCACTTCCGGATGAGAACTTCCTTTCAAAACTGAAGCGCCTGCGATCTCGCCAGCCGGTTGATGGCATTATTCAGGTGATGAGTACTTCAGCCCTCCCGACAGATAGCGAACGGGATGCTTTCTTGCGTTGCCGCCAAAAAGCCGATCATCAGCTGGGCTGGCAGGCGCCTGTCTGGCTGTGGCTGACTGACAAAGCCAAAGGTGCTCAGCAGGACGCGGACACGGCTGCGACAGGGGTGATATTCGGACCGGAAGGCACTGTAAAAGAGGCGGATAAGGCATTGACTACGCTGTGCCAGCGCCTGCAAAAAGCCGGTATGGCACAGATACTGAATAATCCGGCTCATAACGGCCTGCTCCAGTTATCTTTCCGCCTGCAACACGAACTGAAAGCCAGTCTGACCGTTTTGCTCAGTGGGTTGATGCAGGGATCTGCGGCCTGGCGTTTACGCGGAGTCATGTTCAGCCCTGAGATGGCCGTTGCCGGAACGGTGCCGAACACGCGCCTCGACACGCCGACATGGAAAGCCGTCATTGATGACTGTGATGCCGTCAGCGGCAGGAAGCTGGGCGTCGACTGGCTGAAGATGCTGAGGTTAATTCTGCTTTCCCTGATTGTCCTGTGGGGGGCCGGTACCTTGCTGTCCCTGATCGTTAACCGTACCCAGATTTATGAGGCACAGGAAACGGCGAGGCAGGCAGCGGATGCCGCAAAACCACTTGCTGAACGCCTGCACAACCAGCTCGTCCTCCAGCAAGCGATTGCCCGTCTGCAACATCGTGAGGCGACCGGCGCCCCATGGTACACGCGCTTTGGTCTTAATCAGGACAGTGAAACGCTGGCTGCTCTCTGGCCGCTGTATGCGATAAACAACGCACAGCTGATGAGGGATGCCACCGCAGATTATCTCAGGCAGTTGCTGAATGCTTTTGTGCAACTGCCTCCTGCCAGTGATGCCCGAACGCAGGGCACTCAGCACACCTATGACGTGCTCAAAAGTTATCTGATGCTGTCCCGTCCTGACAAAGCAGACACAGACTGGCTGGCAAAAAACGTCCTGAAAGCCTTCCCGAAACGTCAGAATGTGCCGGATGGCACATGGCAGGCCCTGGCACCGAAACTGCTGGGTTTCTACGCACAGAACCTCCCGGCTCATCCGGAATGGAAAATTAAGCCTGACGCGGAATTAATCAGCACGGTCCGTCAGATCCTGCTCAAGCAGATTGGCCAGCGGAACGCTGAGTCCGGGTTATATCAGGACATGCTGAAGCGCGTGGCCAGCAACTGGCCTGATTTAACGCTTGCAGATATGACCGGCGACACTGATGCCTCAACGGTATTCAGCACTGACGAAGTCGTCCCGGGAATGTTTACGCGTCAGGCCTGGGAAGAGCAGGTTCAGGATGCGATTAACGAGGTCGTCAAGACACGCCGCGATGAAATTGACTGGGTACTGACGGATAAGACGCACCAGACAAGGAGCGATATCTCCCCGGAGGCGCTAAAGGCCCGCCTGACTGAACGCTATTTTACCGATTTTGGTAACGCCTGGCTGAACATGGTCAACAGCATTCAGTGGCAGGAAGCTACGTCACTTTCCGAAGCGATTGCCCAGCTCAATCTGATAGGCGATGTCCGCCAGTCACCGCTGGTTGCCCTAATGAACACGCTGGCCTGGCAGGGGAAAACGGGGGGGAAGGGAGAACGACTTGCCGACTCGATAGTGGACTCAGCGAAAAAACTGATCGGTCAGAAAAAAAATGCCAGACAGTTTATTGAACAGGCACAGGGCCCTAAAGGTCCGCTCGATGGCGTGTTTGGACCGCTGATGGGGCTGATGGAAGGTAAAGATGGCACAGGTGCCAACGGTAACCTCAGTTTCCAGTCCTGGCTGGCTCGCGTAACCCAGGTGCGGCTCAAGCTTCAGCAGGTCACCAGCGCCCCGGATCCGCAGGCTATGTCGCAGATGCTGGCCCAGACAGTATTCCAGGGCAAAGCCATCGATCTGACCGATACCCGCGATTACGGCAGTCTGGTTGCGGCGAGTCTGGGTCAGGAGTGGAATGGATTTGGCCAGTCGTTATTTGTGCAACCGCTGGATCTGGCCTGGCGGCAGGTACTTGCCCCGGCTGCACGTAGCCTCAATGCCCGCTGGCAGACAACTATTGTCGAACAGTGGAATAAGGCCTTTGCGGGACGATACCCCTTTAAAGCCACCGGCAGCGATGCCTCGCTGCCGTTACTGGCTCAGTTCCTGCGTAGCGACTCGGGTCGAATCACTACTTTCCTGAAAACTAATCTTGGCGGGATCATCCACCTGGAGGGGAATCGCTGGATCGTTAACCCTTCCACAAGTCAGGGGATGGTTGTCAGTCCGGATTTCCTCCGGGCGATTAATCAGCTGGCGGAACTGTCAGATATCGTGTTCTCTCAGGGCGATGCGGGTGTTCACTTCGAACTGATGGCGCGACCTACACGGGATGTTGCCAGAGTGCAGTTAATCCTCGATGAGCAGAATCTGGACTTTTTCAACCAGATGGAAAGCTGGCAGAAATTCACCTGGCCGGGGAATACTTACTACCCCGGCGTATCGCTCAGCTGGCGAAGCGTCAACAGCGGTATGCAGCTCTATGCAAACAACCAGGGTAACTGGGGTTTCATTCGCCTGCTGGACAAAGCCCTAATCACGCCTCTTGATGCGAGCCGCATGCAGCTGATGTGGATCACGCCCGATGGGAATCCACTGAAGTTTGTGATGCGCAGCGAGCTGGGCGACGGTCCTCTGGCGTTACTGAAGCTTCAGGGTTTCACGCTGCCTGAAACCATATTTACGGTTGCAGCCAGCGCTGAAGAGGTCGAATAA	MSKVKVKTLIGSVVTVAFFLTAIVAFLFYAFPENVASATGFGPYDSQQILTFCAIMVAAMFLLGWLTEKAFDFAGKSGLYFQWGQKKAESITPVANTILSEEDDDELVFSEDAVSEHLRFRYGRRWQRKVRLLLVMGNPDDVEKAAPGLRHDLWQEGDGNVLIYGGDAQSLPDENFLSKLKRLRSRQPVDGIIQVMSTSALPTDSERDAFLRCRQKADHQLGWQAPVWLWLTDKAKGAQQDADTAATGVIFGPEGTVKEADKALTTLCQRLQKAGMAQILNNPAHNGLLQLSFRLQHELKASLTVLLSGLMQGSAAWRLRGVMFSPEMAVAGTVPNTRLDTPTWKAVIDDCDAVSGRKLGVDWLKMLRLILLSLIVLWGAGTLLSLIVNRTQIYEAQETARQAADAAKPLAERLHNQLVLQQAIARLQHREATGAPWYTRFGLNQDSETLAALWPLYAINNAQLMRDATADYLRQLLNAFVQLPPASDARTQGTQHTYDVLKSYLMLSRPDKADTDWLAKNVLKAFPKRQNVPDGTWQALAPKLLGFYAQNLPAHPEWKIKPDAELISTVRQILLKQIGQRNAESGLYQDMLKRVASNWPDLTLADMTGDTDASTVFSTDEVVPGMFTRQAWEEQVQDAINEVVKTRRDEIDWVLTDKTHQTRSDISPEALKARLTERYFTDFGNAWLNMVNSIQWQEATSLSEAIAQLNLIGDVRQSPLVALMNTLAWQGKTGGKGERLADSIVDSAKKLIGQKKNARQFIEQAQGPKGPLDGVFGPLMGLMEGKDGTGANGNLSFQSWLARVTQVRLKLQQVTSAPDPQAMSQMLAQTVFQGKAIDLTDTRDYGSLVAASLGQEWNGFGQSLFVQPLDLAWRQVLAPAARSLNARWQTTIVEQWNKAFAGRYPFKATGSDASLPLLAQFLRSDSGRITTFLKTNLGGIIHLEGNRWIVNPSTSQGMVVSPDFLRAINQLAELSDIVFSQGDAGVHFELMARPTRDVARVQLILDEQNLDFFNQMESWQKFTWPGNTYYPGVSLSWRSVNSGMQLYANNQGNWGFIRLLDKALITPLDASRMQLMWITPDGNPLKFVMRSELGDGPLALLKLQGFTLPETIFTVAASAEEVE	PGPT0025960_1589	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025960-impL|vasK|icmF-K11891	NA	NA
BMS020_01424	1209			hypothetical protein	ATGCCCGTCTGGCTGGATGCCATCCCTGAAAAGGCTCCTAAGGTAGCACGTCCCGGCACCGGTCGTTGGCTGCTATTCCTCGCGTTTGTCATGCTGGGGGGCATAGCGCTCACGCTATGGTGCTGGACGTCAGAGCGAACCGGATTTGTCTTCTGGTTCACCGCTCTGGGTCTTCCATTTTGCACCTGGGGGCTTATTTTCGGCTTACGCCGATTTGCCTATAAAGCAGAACAGGTCGGTGCGGAATCACGCAATGCCGAGCGGGAAGCACTCATCGACAGTGAAATTCTGCGCGGTCAGCGCTGCGCCTGGATCCTCGGTACTTATATTCAGAGTCCGGCCGGAAACAAAGTCGATGACCTGCTGAAGGCAATGAAAGTCGCAGCTCCTGTTATCGAATTCTCTCGCCCAAGAGGATGTGACAAACCGGTCAGATACGCGGCATTACCAGAATATCAGACTGATTTAACGAAGGCCCTGAAAGCAGCGGTTAATAAACTGACCACACGTGTAGAGGGGATAGTTAAGCCGCTTCCGCCCGAGCTGCCATGCTGGCTGGTGCTGGATTGTGATAACGATCTTTATCCCCTGTTTGAAGAGCAGCTTAAAGCCAAGCTCTCACACAAGACGGGCAGGATTTTTCGCCTGATGGCCGGAAAAGGGCTGGGGGCGTTTGATGCCTGGCTGGATAAGCGATGGGATACTCCGGGCATTTTGGTTGCCATCACGCTGTCGTTACCGGCGTCTCCCCGGGAAGAAGATGCTGATGCTGTCTCAATGGTGGTATTGAGCAACCGCAAAGCCCATGCCTGGGCGGATGCGCTTCGCCTTCATCGCCCCGAAAGGGGAACAGAAACAACGCTCACAAAGACACTTACCCGGGCGCTGATCTGGTCGAAGACCCTGCCCAATGAACTCAAAGGAGGCTGGATCTCCGGTCCCACATTGACGTCGGGCAGCGGCTGGAATAATGCCTGCGAAGAGAGCGGAGTGGAATTTAGCCTTTCAGAAGACAATTCCAGTATCGATCCCGTGCTGGGATATACCGGCCATGCTGCGCCATGGCTGGCCATCACGCTTGCCGATGCGGCTTTTGAACAACGAGGCCCCCAGGTTATCGCCGCCCAACCCGTCGCTGACAAGGACGACATCTGGGTCGCCGTCATCACCAAAGAAGAAGTTCGCAAGGAATCGCCTAAGAATGTCTAA	MPVWLDAIPEKAPKVARPGTGRWLLFLAFVMLGGIALTLWCWTSERTGFVFWFTALGLPFCTWGLIFGLRRFAYKAEQVGAESRNAEREALIDSEILRGQRCAWILGTYIQSPAGNKVDDLLKAMKVAAPVIEFSRPRGCDKPVRYAALPEYQTDLTKALKAAVNKLTTRVEGIVKPLPPELPCWLVLDCDNDLYPLFEEQLKAKLSHKTGRIFRLMAGKGLGAFDAWLDKRWDTPGILVAITLSLPASPREEDADAVSMVVLSNRKAHAWADALRLHRPERGTETTLTKTLTRALIWSKTLPNELKGGWISGPTLTSGSGWNNACEESGVEFSLSEDNSSIDPVLGYTGHAAPWLAITLADAAFEQRGPQVIAAQPVADKDDIWVAVITKEEVRKESPKNV				NA	NA	NA	NA	NA
BMS020_01425	264			hypothetical protein	ATGCTCCAGATTATCCGCAAAGGCGATAAAACTACCCACGGTGGTTCAGTACTGACCGCCTCAGAAACGATGAAATTCGGCGGTATTGGAGTTGCCCGTAAAGGCGACAAAGTGTCCTGCCCGGTTCAGGGACATGGCCCTACAACCATCGTAGAAGGCAACCCTGATTACCTTGATCATGGTATCCCGGTTGCCTTTCACGGTCACAAATGTGCCTGTGGTTGCACATTGATCAGTTCATTTGCCGCAGCAAAGGTTGCCTGA	MLQIIRKGDKTTHGGSVLTASETMKFGGIGVARKGDKVSCPVQGHGPTTIVEGNPDYLDHGIPVAFHGHKCACGCTLISSFAAAKVA				NA	NA	NA	NA	NA
BMS020_01426	357			hypothetical protein	ATGAAGATTAAATTACTTGCATTACTTGTTTTTTTGCCTGTTATTTCTTTTGCAAAGGAACCACAAACTTGCAATTCCTCGATGCAATCTCATCCGGATATGATCGACTGCATACAAACCAGCACAAAAAAAACAGAGGACTCCATTAAAGAGATTATTACCAAATTTGGTAAGGAGTATTCAATTGATATGGCGTTTTATAATAGTCAACGGAAGTCTATTTCTGAACGATGCAGCTTATATAACTCGATGGAAGGTCAACGAACAGATTTGATAGAAAACCAATGCGAATATGATGGTGTAGAGCAACTAAATGATTTTATTAAAACCTATATGAAGACAGTTGATAATTATTAA	MKIKLLALLVFLPVISFAKEPQTCNSSMQSHPDMIDCIQTSTKKTEDSIKEIITKFGKEYSIDMAFYNSQRKSISERCSLYNSMEGQRTDLIENQCEYDGVEQLNDFIKTYMKTVDNY				NA	NA	NA	NA	NA
BMS020_01427	2841			hypothetical protein	ATGCTGAACAAGAATGTCGCAGTTAGCGTTTTAAACACTCAGGCCCAAGCCAGAGCGAAAATTAACGCTGAAAATTTTAAAAATGGCATAGATAAAAAGCTTAAATATGGCGAGTCAAAATGTGCCCGCTATGTTAAAAAAGCATTAATCGCTGGAGGGGCATCTGCAAAAAATTCAGGAATTGAATCAGCTAAAAATTATGGTCCATGGCTGCTTGAAAATAACTTTAAAGTTGTGGATAACGCTACAACAGTGCGTACTGGCGGTGTATTCACAATTTCTGGTCAGCAAGTGGGGGATGTTGTCGTAATCCAGGCAGCACCACATCATGTGCATGGTCATATGGCGATGTTTAATGGTACACACTGGGTATCTGATTTTGTCCAGGAAAGGGGGTTCTATCCTGCCCAGATATATCGTGATCAAAACATACGCTATACACTTTATCGTTATGACGATAATACCACATCAGAGCAGAACGCCACGGCTACCCAAAAAGGAAAAATTAAGATTGTCTGGCCGATCCCTTCTAATAACCGGGGAAGTGAGTTCAATAATCAGGAAGAGATCCTCTCTCATGTCGGGGGGGAATCCACCGGGCAGTATATGATTGGCCGAAGTGGGATGTGGCATGGCGGGATCCATATCACGGAAGCAACGACCCCGTGGTGTGCTCTGAGTGGCAAGTCTCGTCTTGAAGCACTGGATTTCCCTGTCCCCTTTAAAGGCGAGCAGGCTGTGCGATGCATGGCTGACGGCGTAGTGGTTGCTTATCGTGTCTGCAAGGATTATCTGACGCTTGCATGGGAATCCGGCCCACTGAGCTTTTCCGGTTCGTTTGTTCTGGTTAAACACTTTATTCAACTAGGGGAGAAAGAATCCAGCGGGCTGCATTTCTATACCCTGTATATGCACCTTGCCCCCTATTCAGCCTATAGTGTCAATCCGGCGGAAACAAAGTGGACAGTCCAGGATACGCTTACTGCCTACGATCCAGAATGGGTCATGACCGCCAGTACCAACAATAAAAGTACCAGTGAAAGCTATCGCAAGGGCACGATCCCAAAAGGATCTATTGTTGAGTGGGATAAAACAGACAGCGGCCTCCATACTGTTGCATTTAATAAGCGAGAGTATGGCCTTGTTACCTTTGTTAGCCTCTCAGAACAGGCGTTGAAAAAGGGCAAGAAAACATCCCTGAAGCCAGGGCAGCAATACTGGATGCTTGTGGACAAAAACAACCTGTCTCCTGGCACTGATGGGGTGGTACAGCCTTCCTGGTGGCAGAAACTCATGCCGCCAGCAAAAGAAGCGATGAAATTTGACCAGGTAGTATGCCCGACTCCCTTTGCTATCAGTGCAGGTGATCCTGTTGGTCATATGGGATATTATCAGGCACCTAAGGATGGCGGATATGAAGCGCGATACCAGGTTCATATCGAATGCACGAGTATGGATGATAACCTGGAAACGTTCCTGACCAACCCTGAGCAGGTGGGAGAAAAGAATCCACTCTGGCTAAAGTACGCTCCGGGCCTTACGTTATACAAAAAAGATGTTGCAGCAGGAACATTCACAGTAGATACAAGGGCAACAACCAGGGCGGGGATCCTTCCACTGAGTCAGGTGCAAACGGAAGTCGATAAGTCGACCAAACAGGAATACTGGCAGCTGCGACCAGAAAATGCTTACGTCCCTAAAGGCCAGGCGGAACCTCAACTTTTGTCGCAGTATGATCTGGCAAAGCTGGGCTTCAGAACTGAAACCACAGAACCAGCCAGCTTTAATTACCTGGATGGAAAAAACCAGCCCACTGGATTCTTCCGTAACCTCATCGATTCGCTTTACCAGGCCGCGACCAATGATCCGCGAACCAGTCATGCTCTCGTGAAGCATAATTATCAGCGCCTGCTGGATAAAATTGACAGCGGAAGTGACCGATATTCGCCAATGGAGTACTGGAGAGCACTTCATAATCCCGACTATCGTGACACCATCCAGAAAACAATCGTAAAACATCCCAGCGATTGGTACTTCAAAAAAGGTGACGCTATTTGGCAACCTTTCCTCAATGCGCTGAAAAAAGAAGCCCCAGAATGGAAGAAATACAGTGAAGATTTTATCGATAAAATGGCATGGATGCAGGATGTTACATCCGAAAAACTAGGACCTTCACTGTGGCACATGCATCCGATTATGTTCTTAGGCTTTATGAAAAAATCATCAGGAACATGGCCGCTTGGGAAAACTTCAGAGCGATATGAATCTGGAGGAAGGGGGCCTGGGGTAATTTCATCTGGAAAAGGAGATCATGGTGGTGTGTCATATGGAATGTATCAATTATCTTCTAAAATGGGAACGGTTAATAAATATATTGCTGTGTCAAAATACCAAGATTTATTCGAAGGTAAAGTACCCGCCACACCTGAATTCAATAAAGTATGGAAAAAAATTGCGGTCGATCACAAAGAAGAATTTGCACAGGATCAGCATCTTTTCATTGAAAAAACACACTATCAAGTACAAATAGACTTGTTAACATCTAAAGGGCTAAATTTTTCACATTCTCGTGCCGCAATCAATGATATGATTTGGTCGACTTCCGTTCAATATGGCCCTACAACTGGTTTAATTTCGAGAGCGTTGAAAGGAAAGGATTTTGAAACATTAACAGATGCAGATGTGATAACTATTGTTCAGGACTATAAAATAAATCATGTTGAAGATCTTTTCCCATCATCCCCGACTTGGTGGGACGATCTAAAAACACGAGCTCTGACAGAGAAGAAAGATTTATTAAAGTTAAATGAGTTAAATCTGGAGTTAAAAAATGAAGATTAA	MLNKNVAVSVLNTQAQARAKINAENFKNGIDKKLKYGESKCARYVKKALIAGGASAKNSGIESAKNYGPWLLENNFKVVDNATTVRTGGVFTISGQQVGDVVVIQAAPHHVHGHMAMFNGTHWVSDFVQERGFYPAQIYRDQNIRYTLYRYDDNTTSEQNATATQKGKIKIVWPIPSNNRGSEFNNQEEILSHVGGESTGQYMIGRSGMWHGGIHITEATTPWCALSGKSRLEALDFPVPFKGEQAVRCMADGVVVAYRVCKDYLTLAWESGPLSFSGSFVLVKHFIQLGEKESSGLHFYTLYMHLAPYSAYSVNPAETKWTVQDTLTAYDPEWVMTASTNNKSTSESYRKGTIPKGSIVEWDKTDSGLHTVAFNKREYGLVTFVSLSEQALKKGKKTSLKPGQQYWMLVDKNNLSPGTDGVVQPSWWQKLMPPAKEAMKFDQVVCPTPFAISAGDPVGHMGYYQAPKDGGYEARYQVHIECTSMDDNLETFLTNPEQVGEKNPLWLKYAPGLTLYKKDVAAGTFTVDTRATTRAGILPLSQVQTEVDKSTKQEYWQLRPENAYVPKGQAEPQLLSQYDLAKLGFRTETTEPASFNYLDGKNQPTGFFRNLIDSLYQAATNDPRTSHALVKHNYQRLLDKIDSGSDRYSPMEYWRALHNPDYRDTIQKTIVKHPSDWYFKKGDAIWQPFLNALKKEAPEWKKYSEDFIDKMAWMQDVTSEKLGPSLWHMHPIMFLGFMKKSSGTWPLGKTSERYESGGRGPGVISSGKGDHGGVSYGMYQLSSKMGTVNKYIAVSKYQDLFEGKVPATPEFNKVWKKIAVDHKEEFAQDQHLFIEKTHYQVQIDLLTSKGLNFSHSRAAINDMIWSTSVQYGPTTGLISRALKGKDFETLTDADVITIVQDYKINHVEDLFPSSPTWWDDLKTRALTEKKDLLKLNELNLELKNED				NA	NA	NA	NA	NA
BMS020_01428	2358			hypothetical protein	ATGAGCGGAACACTTATCAGGAAGGTCACCGACGCGGTGCAACAGCTGTCAGGGCAGTCACGTTATCGGGTTGATGTACATGAATGCAGTGATTTCCTTGATGTTCTTCGTTACAGCGCGGTGGAATCACTTAGCCAGCCATGGCGCTATGACGTGGCGGTTACCTGCTCCTCTAAAGATATTGTCTGTGAGTCGTTATTGCTGAAACCAGCGTCATTTACTTTCCAGACCCCGATGTTTGACGGGACACCAGCTCTGCCGGTACGGACGGTTTTTGGCGTAGTGGAGTCCTTTCGCCGCGTGTCCACCTCGAATGATGAGACCCGTTATGCACTGACGATCGTTCCCCGTATTGCCCTTCTGAACTATACGAAAGGGAGCGCGATCTACCTCAACCAGTCGGTCACTGAAGTGGTTGAACAGGTGCTGCGTAAACACGGGCTGGAAGGGCCTGATTTTGAGTTCCGGCTCTCCCGGGAATACCCATCCCGGGAGCTCATCACCCAGTGGCGGGAAACCGATCTTGAGTTTATCCAGCGCCTGCTGGCGGAAGTGGGCATTTACTGGCGCTATGAAATGGACGGCCGTCTTGAACAGGACGTGGTGATTTTCCAGGACAGCCAGGAGCAGTATGAGTTTGGCATCACGCTGCCGTTACGCAACCAGGCCGGGATGAGTGGCAGCGGGCAGGAGAGCATCTGGGATATTCAGGCTGTATACAATGTTGTGAGCGGAAGGGTGGCCACCCGGGACTACAACTACCGGGAAGCGCTGACGCCGCAGGACAGTACGGAAAGTATCAGCAGTCAGGAAGGGATCACCGCCGGGGAAACGTACCATTACGCGGAACCCTTCCTGACGGCGGGTGATACGGAAAGTACAGAGTCCGGGGCATACTTCGCCCGCCTGCGTCACGAACGCATTCTGAACGCGCAGTATCGCGTCAGCGGGCACTCCTCCAGCCCTCATCTGGCTCCGGGTCAGGTACTGGAAACGGACGGCACGCTTCCCGATGCCGTCAGGGAAGGCATCGTCATCACCACGGTGCGCACCAGCGGTTCGCGCAAAAGTAGCTTTACGCTAACGTTTGAGGGTATCCCCTACAGTGAAACCGTCTGTTATCGTCCGGCACTGCTCAATCGCCCGGTGATATCCGGCTCGCTGCCTGCCCGGGTGGAAAGCACACAGAAAGGCGACACCTGTTCCTGGCTCGATCCGGATGGGCGTTACCGGGTAAAACTGGACTTTGACCGCAGCAGTTCTGAACAGGGCTATGCCTGTGTGTGGCTGCGACTGGCTAAACCCTATGCCGGTGATACCTACGGATTCCACTCCCCGCTTATCGACGGAACGGAAGTGGCCGTCGTTTTTGACGGCGGAGATCCGGATCGTCCCTACATCGCCTATGCCCTGCATGATTCAGAACATCCGGACCCTGTCACCAGTGACAATCATACGCGGAACGTCTGGCGTACCCCGGCGAACAATAAGCTGCGAATGGAAGACAAGCGGGGCGAGGAGCATATCAAGCTCGCGACGGAGTACGGCAAAACGCAGCTGAACATGGGGCACCTGGTCAATGGCCAGCGTGAAAAACGCGGGGCCGGTTTTGAACTGCGAACGGATGAGCATGGCGCGGTTCGTGCGGCAAAAGGGCTGTTCCTGACGGCGGATGCCCAGGCCAAAGCCCGGGGCCCGGTGCTGGAAATGGCCCCTGCCATCAACCAGATTAACCAGGCCAACAGCCAGATGCAGGCGCTGAACAGCGCAGCTGAAGCCGCCGGAGCCCTGGTCTGCGACATCAATACCCAGATTAATTTTGTGACCGACAAAATCAAAGACCTCCAGTCTTCGGTCCTGCTGGGTAGTGCTCCGCAGGGAGTGGCACTGACCTCAGGAGAACATCTTCAGCTCAGCAGCACCCGCAATACCATGATCAATGCCGGTCAACATCTTGATATCGGTGCGATGAAAAATCTGTCTGTAACGGTTGAAAAAGCCCTGGGTATGTTTGTGCATAAAGACGGGGCGAAGCTGGTTGCCAACCAGGGAGATATCGAGATTCAGGCTCAGCACAACACGATGGCCCTGTTTTCTGAAAAGCAGCTGACGGTGACCAGCAGTGAAGACGAAATTATTATCAGCACCCCGGAAACCCTGACACTGAACGGTGGCGGGTCTTACCTGAGACTGAGTAAGAACGGTATTGAGCATGGTTCATCTGGTGAGTTTATCATGAAGACGTCTGACTATCTGGTACCAGGATCGGGCGCAAATCTCCCCAACGAAACACCCAATTTCAGCCTGACGGATATCACTCAGGAAAATAAAATCAGCAGCAAATCTTTTAATGACTAA	MSGTLIRKVTDAVQQLSGQSRYRVDVHECSDFLDVLRYSAVESLSQPWRYDVAVTCSSKDIVCESLLLKPASFTFQTPMFDGTPALPVRTVFGVVESFRRVSTSNDETRYALTIVPRIALLNYTKGSAIYLNQSVTEVVEQVLRKHGLEGPDFEFRLSREYPSRELITQWRETDLEFIQRLLAEVGIYWRYEMDGRLEQDVVIFQDSQEQYEFGITLPLRNQAGMSGSGQESIWDIQAVYNVVSGRVATRDYNYREALTPQDSTESISSQEGITAGETYHYAEPFLTAGDTESTESGAYFARLRHERILNAQYRVSGHSSSPHLAPGQVLETDGTLPDAVREGIVITTVRTSGSRKSSFTLTFEGIPYSETVCYRPALLNRPVISGSLPARVESTQKGDTCSWLDPDGRYRVKLDFDRSSSEQGYACVWLRLAKPYAGDTYGFHSPLIDGTEVAVVFDGGDPDRPYIAYALHDSEHPDPVTSDNHTRNVWRTPANNKLRMEDKRGEEHIKLATEYGKTQLNMGHLVNGQREKRGAGFELRTDEHGAVRAAKGLFLTADAQAKARGPVLEMAPAINQINQANSQMQALNSAAEAAGALVCDINTQINFVTDKIKDLQSSVLLGSAPQGVALTSGEHLQLSSTRNTMINAGQHLDIGAMKNLSVTVEKALGMFVHKDGAKLVANQGDIEIQAQHNTMALFSEKQLTVTSSEDEIIISTPETLTLNGGGSYLRLSKNGIEHGSSGEFIMKTSDYLVPGSGANLPNETPNFSLTDITQENKISSKSFND	PGPT0030410_1949	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
BMS020_01429	186			hypothetical protein	ATGCTGACTCTACACCATATTCAGTATTGCTTATCACTAAATCAGGTTGTTCTAACCCTGATCTTTTACACAGTAGATATAAAATCACATACTATACTTAACGCGCAAAAAGTGTTTTATTTTCTCGGCATTACCCAATGGAAAATTTTTGATATTTCCGTTCCTTTTAATTTGATAACCAGATAA	MLTLHHIQYCLSLNQVVLTLIFYTVDIKSHTILNAQKVFYFLGITQWKIFDISVPFNLITR				NA	NA	NA	NA	NA
BMS020_01430	618			hypothetical protein	ATGGTATGGGGCCGCTCGACAGGGCGCTGGGAAGGGTTTTATAAGGATCTGGACTCGCTGGAAGTGAAATACTGTGAGAAATGGCAGGCGGACCTGGAGTGGATGAGTAAGGTACCGCCATTTGATAAGGATGAAGCGGTGTGGCATTTTCATCCGGTGGTGTTTTTGGATACTATTACTGATAAATTTACAGATGTGATTGAATTCCAAACAACTATGGGCGTTTATAGAATTTCAAAGAAATCAGCGGAATTCATATTATCCTGGGAGGCATATATGCCTAAACCATATGTCCCAGCAGGAGATCAATCAAGTGGTGTTACTGTCGGATATGGATATGATTTAGGGCAGCAAACTACTTCATCGGCAAGGGCATTGTTATCTGAGTATTACTCGGACTCACAGGTTGAAAGGTTACTTTCTACAATTGGTAAGAAAGGTAACGAGGCACGAGCAATTGTCCATGAGTTGTCTGATATTACAATTGAAAAAGATAAAGCATTAGACATGGCCATGGTATTAAAAGAGCGATATTGTCAGACCGTTGTTGATACTTATCCCCCAGGCAATAAGTCTTCCTCCAGACAGTGCCGGGGCCATATTATCATTAGTATATAA	MVWGRSTGRWEGFYKDLDSLEVKYCEKWQADLEWMSKVPPFDKDEAVWHFHPVVFLDTITDKFTDVIEFQTTMGVYRISKKSAEFILSWEAYMPKPYVPAGDQSSGVTVGYGYDLGQQTTSSARALLSEYYSDSQVERLLSTIGKKGNEARAIVHELSDITIEKDKALDMAMVLKERYCQTVVDTYPPGNKSSSRQCRGHIIISI				NA	NA	NA	NA	NA
BMS020_01431	489			hypothetical protein	ATGCGTGGCTTTATTTTTGGCTTATCTTTGTTGATTTCTTCTTTTTATGCACTAGCTAAAACCGACATAGTACAAGGGCCATTTAAGTTAGATGCTAATGATAGTGTTTATATTAAGAGGGAGGATGATGCTAATTATCCATTAGCTCTTTATTTCAAAGCTAATGGTAATAGTATCAAAGTGGAGGCTTATGAGGTCGATGGTGGTGAACCTCATGTGGAAACAATTTTTTTTACTAAAATAAACAATAAAAAAAATATAATTGTATTAATCTCATGGGAACAACGACACTCTGCGGAAAAAATAAATGGAACTGCGTATCAGGTTTATGGTTATAACTATAACCTTAATAGCCTTTCTATAAATCCTTCTATAAAAAAAGACCAGAATCTCAACGGCCTCAATGGAGAATTTAATGGTGAGGAGTTACATTTCAAATATAAAAATGCAACAGAAATCAAGACATATCTACAATCCCATTATAAATAA	MRGFIFGLSLLISSFYALAKTDIVQGPFKLDANDSVYIKREDDANYPLALYFKANGNSIKVEAYEVDGGEPHVETIFFTKINNKKNIIVLISWEQRHSAEKINGTAYQVYGYNYNLNSLSINPSIKKDQNLNGLNGEFNGEELHFKYKNATEIKTYLQSHYK				NA	NA	NA	NA	NA
BMS020_01432	2325			hypothetical protein	ATGCGGCTTATCGACGGAGAAGCGCACGGGACCTGGCTGCTGGGGGCGAACGGATTGTGGCATGGCGGGATCCATATTAGCGACATCTCTAATCCCTTTTCCGCCCTGAATCCGGATGCAGTCAATGCCGGCGACCCCGTTCCCCTCCAGTTTATGGCAGACGGTACGGTAGTGGCGTACCGGATAAACAATGAATACCTGACAGCGCCATACTGCGGACAACAACTGCGCTACAGCAGCAGCTTTGTGCTGGTGAAATCACAGTGCAAGCCTGACCCGCAAAAGGAAAAAAGCTGGCTGGCGTTTTACAGCCTGTATATGCATCTGGCCCCGGTGTCTGATTATCCTTCATCTCCCTGCTATAAAGTCAGGGACGGGCACAGCGGCATACTGTTACGTCAATATAAAGCCGGGCAAAACGGGTTGCCGGAGGGGGAGCCGGATAACGGTGAAGCCGGAACATATCCTGCCCCGGCGAAAACGAAAAAAAGCCTGAAGGCAGGCGATCGTTTTGTCTCCTCCCGGACGGGGTGTTTTTATGTCACGAAGAACGGAAACGCAACCCTGACAACCTTTGGCCTGGTTCGTTTACTGAAAGAAAATGTTCCGGGAAAAGAACAGTACTGGGTGACGCTGGATCCGGAGCTGATGGAGCCGGACGGCGAAATGCAGGGATTATTGCCGGAGTGGATGCAGAAGGCAAAACAAAAAGGGGGGTTCGACTCTGTGGAGCTAACGGGCGAAACAGAAGAATGGAAGGTCAGCGCCGGAACGCCCGTCGGATTTATGGGATGTATGGAATCGCCGGGTGAGGGAAATAATCTCCTGGATAAAGAGTGGTTTGTGCATCTGGAAGTGCTGAGTACAGATCCAAACATGCCAGGATTTTTAGCCAACCCTGAAAAAGTGAAAGGTGATAAACGGTCCGTTCTGGCAGCAAAGGGAAGCGCCCTGTTTACCCGGCAGGATGTTACGGGACAGCCCGTCTTTACAGCGACATCAGCGCGACTGAGCGCACAGTGCCGGCTCCTCCGTGAGTCAGCAATGCCTGTCGCGGATGAAGCACAAAAATGGTGGTATAAGGTCAGCGGAAGCGGCTGGCTGCCGCAAAGTGATGTTGAAGAAGTAAGTCAGTACGATCTGTTAAAACTCGGGTTTCAGGCGCTGGAGGAAGACGGTAATAGTGACGTGATGAACAGCCCGTATGAGAGCTGGGTACCGGAGGCGTTTGGGGCGATAAGCCGTTCAGCAGAGCAGGAGGTCTCCTGGCAGTACGGACAGGTGCCACAATTTTATCGTGATCTGATGGCGGAGATGGACAGCAACCGGGACGGGAAAGTGACGACAGAGGAGATCAGACAGGCGCTGGCAGTTCGTGATCCGCTGGTGAAAGATGTGGTCAACCGTCTGGTGGTAAAACATCACAGCGAGTGGTGCGGTGGCCGTTCGACGGGGCGCTGGGAAGGGTTTTATAAGGATCTGGACTCGCTGGAAGTGAAATACTGTGAGAAATGGCAGGCGGACCTGGAGTGGATGAGCAAGGTGCCGCCGTTTGATAAGGATGAGGCGGTGTGGCATTTTCATCCGGTGTTTTTTTTGAATGAATTATTATCTTCAAAATTAATTACACTGGAAATGGTTCTAGCTGCAAATCTAAATAAAAATAAAATTCAATGTGAAAGGGTACTACCTTATCTCAATAAATATGCAAAAGCCTATAAGATGGAAGATAAAAAAGAAATTGCACATTTCCTGTCTCAAATTGGACATGAAAGTGGTTTTAGTATAACAGAGGAAAATCTAAATTATAGTGCTAAAGGAATGCGAAGGATTTTTGGGTGCATTAAAGGTCCAGCTCAATATAATAAAAATACTGATGATTGCAACTTGGGACGTTTAAGAGATAAACTCTGGACTCAGGAATCTTTGTATGCGCATAACCCAAAAAATTTGGCTAATTATGTTTATGCCAGTCGAATGGGTAACGATGGAGAATCTTCTGGGGATGGTTATAGATACAGGGGCCGAGGGATGATTCAGTTGACTGGTAAAGATGGCTACAGATTTTTTACTAATAAACATAATGAAATGAATCCGGATGATAAGAGAAACTTTGTCGAACAACCTGATCTAGTGATAAGTAATACTGAATATGGTGTAGAGTCAGCTTTTTCCTTTTGGGTAAGTAAAGGACTAAACAAAACTGCCAGAGCATTGAGTGTGCAAGAAGTCACGCAAATAGTTAATGGTGGGCAGAATGGTTACCCTGATCGCCTACAAAGGTTTAATGCAGTGGCCCCATTATTAAGAGTCGATAAGGAGTGA	MRLIDGEAHGTWLLGANGLWHGGIHISDISNPFSALNPDAVNAGDPVPLQFMADGTVVAYRINNEYLTAPYCGQQLRYSSSFVLVKSQCKPDPQKEKSWLAFYSLYMHLAPVSDYPSSPCYKVRDGHSGILLRQYKAGQNGLPEGEPDNGEAGTYPAPAKTKKSLKAGDRFVSSRTGCFYVTKNGNATLTTFGLVRLLKENVPGKEQYWVTLDPELMEPDGEMQGLLPEWMQKAKQKGGFDSVELTGETEEWKVSAGTPVGFMGCMESPGEGNNLLDKEWFVHLEVLSTDPNMPGFLANPEKVKGDKRSVLAAKGSALFTRQDVTGQPVFTATSARLSAQCRLLRESAMPVADEAQKWWYKVSGSGWLPQSDVEEVSQYDLLKLGFQALEEDGNSDVMNSPYESWVPEAFGAISRSAEQEVSWQYGQVPQFYRDLMAEMDSNRDGKVTTEEIRQALAVRDPLVKDVVNRLVVKHHSEWCGGRSTGRWEGFYKDLDSLEVKYCEKWQADLEWMSKVPPFDKDEAVWHFHPVFFLNELLSSKLITLEMVLAANLNKNKIQCERVLPYLNKYAKAYKMEDKKEIAHFLSQIGHESGFSITEENLNYSAKGMRRIFGCIKGPAQYNKNTDDCNLGRLRDKLWTQESLYAHNPKNLANYVYASRMGNDGESSGDGYRYRGRGMIQLTGKDGYRFFTNKHNEMNPDDKRNFVEQPDLVISNTEYGVESAFSFWVSKGLNKTARALSVQEVTQIVNGGQNGYPDRLQRFNAVAPLLRVDKE				NA	NA	NA	NA	NA
BMS020_01433	2358			hypothetical protein	ATGAGCGGAACACTTATCAGGAAGGCCACCGACGCGGTGCAACAGCTGTCAGGGCAGTCACGTTATCGGGTTGATGTACATGAATGCAATGATTTCCTTGATGTTCTTCGTTACAGCGCGGTGGAATCACTTAGCCAGCCATGGCGTTATGATGTGGCGGTTACCTGCTCCTCTAAAGATATTGTCTGTGAGTCGTTATTGCTGAAACCAGCGTCATTTACTTTCCAGACCCCGATGTTTGACGGGACACCAGCTCTGTCGGTACGGACGGTTTTTGGCGTAGTGGAGTCCTTTCGCCGCGTGTCCACCTCGAATGATGAGACCTGTTATGCACTGACGATCGTTCCCCGTATTGCCCTTCTGGACTATACGAAAGGGAGCGCGATCTACCTCAACCAGTCGGTCACTGAAGTGGTTGAACAGGTGCTGCGTAAACACGGGCTGGAAGGGCCTGATTTCGAGTTCCGGCTCTCCCGGGAATATCCATCCCGGGAGCTCATCACCCAGTGGCGGGAAACCGATCTTGAGTTTATCCAGCGCCTGCTGGCGGAAGTGGGCATTTACTGGCGCTATGAAATGGACGGCCGTCTTGAACAGGACGTGGTGATTTTCCAGGACAGCCAGGAGCAGTATGAGTTTGGCATCACGCTGCCGTTACGCAACCAGGCCGGGATGAGTGGCAGCGGGCAGGAGAGCATCTGGGATATTCAGGCTGTATACAATGTTGTGAGCGGAAGGGTGGCCACCCGGGACTACAACTACCGGGAAGCGCTGACGCCGCAGGACAGTACGGAAAGTATCAGCAGTCAGGAAGGGATCACCGCCGGGGAAACGTACCATTACGCGGAACCCTTCCTGACGGCGGGTGATACGGAAAGTACAGAGTCCGGGGCATACTTCGCCCGCCTGCGTCACGAACGCATTCTGAACGCGCAGTATCGCGTCAGCGGGCACTCCTCCAGCCCTCATCTGGCTCCGGGTCAGGTACTGGAAACGGACGGCACGCTTCCCGATGCCGTCAGGGAAGGCATCGTCATCACCACGGTGCGCACCAGCGGTTCGCGCAAAAGTAGCTTTACGCTAACGTTTGAGGGTATCCCCTACAGTGAAACCGTCTGTTATCGTCCGGCACTGCTCAATCGCCCGGTGATATCCGGCTCGCTGCCTGCCCGGGTGGAAAGCACACAGAAAGGCGACACCTGTTCCTGGCTCGATCCGGATGGGCGTTACCGGGTAAAACTGGACTTTGACCGCAGCAGTTCTGAACAGGGCTATGCCTGTGTGTGGCTGCGACTGGCTAAACCCTATGCCGGTGATACCTACGGATTCCACTCCCCGCTTATCGACGGAACGGAAGTGGCCGTCGTTTTTGACGGCGGAGATCCGGATCGTCCCTACATCGCCTATGCCCTGCATGATTCAGAACATCCGGACCCTGTCACCAGTGACAATCATACGCGGAACGTCTGGCGTACCCCGGCGAACAATAAGCTGCGAATGGAAGACAAGCGGGGCGAGGAGCATATCAAGCTCGCGACGGAGTACGGCAAAACGCAGCTGAACATGGGGCACCTGGTCAATGGCCAGCGTGAAAAACGCGGGGCCGGTTTTGAACTGCGAACGGATGAGCATGGCGCGGTTCGTGCGGCAAAAGGGCTGTTCCTGACGGCGGATGCCCAGGCCAAAGCCCGGGGCCCGGTGCTGGAAATGGCCCCTGCCATCAACCAGATTAACCAGGCCAACAGCCAGATGCAGGCGCTGAACAGCGCAGCTGAAGCCGCCGGAGCCCTGGTCTGCGACATCAATACCCAGATTAATTTTGTGACCGACAAAATCAAAGACCTCCAGTCTTCGGTCCTGCTGGGTAGTGCTCCGCAGGGAGTGGCACTGACCTCAGGAGAACATCTTCAGCTCAGCAGCACCCGCAATACCATGATCAATGCCGGTCAACATCTTGATATCGGTGCGATGAAAAATCTTTCTGTAACGGTAGAAAAAGCCCTGGGTATGTTTGTGCATAAAGACGGGGCGAAGCTGGTTGCCAGCCAGGGAGATATCGAGATTCAGGCTCAGCATAACACGATGGGACTTCTGGCAAAGCAGCAGGTGGCGATAACCTGCAGTGAGGATGGGATTTCCATCAGCACGCCGGAGACGCTGACGCTGAATGGCGGCGGATCGTATCTGAAGCTGAGTAAAAACGGCATTGAGCATGGTTCTGAGGGGATGATGGTGATGAAAGTGGCGAATTATCTGGTTCCCCGTACCGGGGCATCATTGAAAGGTGTCACGGAGACCTTCAGGAAAACCACACTGGAACTGGTTCCTTCCCAGCGGCGCGGAAGGATTTCAAGGTAA	MSGTLIRKATDAVQQLSGQSRYRVDVHECNDFLDVLRYSAVESLSQPWRYDVAVTCSSKDIVCESLLLKPASFTFQTPMFDGTPALSVRTVFGVVESFRRVSTSNDETCYALTIVPRIALLDYTKGSAIYLNQSVTEVVEQVLRKHGLEGPDFEFRLSREYPSRELITQWRETDLEFIQRLLAEVGIYWRYEMDGRLEQDVVIFQDSQEQYEFGITLPLRNQAGMSGSGQESIWDIQAVYNVVSGRVATRDYNYREALTPQDSTESISSQEGITAGETYHYAEPFLTAGDTESTESGAYFARLRHERILNAQYRVSGHSSSPHLAPGQVLETDGTLPDAVREGIVITTVRTSGSRKSSFTLTFEGIPYSETVCYRPALLNRPVISGSLPARVESTQKGDTCSWLDPDGRYRVKLDFDRSSSEQGYACVWLRLAKPYAGDTYGFHSPLIDGTEVAVVFDGGDPDRPYIAYALHDSEHPDPVTSDNHTRNVWRTPANNKLRMEDKRGEEHIKLATEYGKTQLNMGHLVNGQREKRGAGFELRTDEHGAVRAAKGLFLTADAQAKARGPVLEMAPAINQINQANSQMQALNSAAEAAGALVCDINTQINFVTDKIKDLQSSVLLGSAPQGVALTSGEHLQLSSTRNTMINAGQHLDIGAMKNLSVTVEKALGMFVHKDGAKLVASQGDIEIQAQHNTMGLLAKQQVAITCSEDGISISTPETLTLNGGGSYLKLSKNGIEHGSEGMMVMKVANYLVPRTGASLKGVTETFRKTTLELVPSQRRGRISR	PGPT0030410_1939	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
BMS020_01434	1128			hypothetical protein	ATGGAACATCATTCAGCAGTCCTGCTACGACGACTTAACCCTTATTGCGCCAGAGCACAGGAGGGGGCGGCTTCTTTATGTCAGACCCGTGCGCATGCAGAAATCACGCCTGAGCACTGGCTGTTGAAACTGCTGGAGCAGGGGGAAGGTGACCTGACCGTTCTTACCCGGCGCTATACGGAATTACTGAGTCTTGAGCACAACCTGTCAAAACGCGTTGTTGGTCAGCATGCGGCGCTGAGCGCCATTGCCCAGCGCCTGAGGACGTCAAAAACCGGCCTGACGCCGGAAAACGGACCGCAGGGGGTTTTTTTACTGGTGGGTCCAGGCGGAGTGAGCAAAACAGAAACGGCGCTGGCACTTGCTGACGTTATGTATGGTGGTGAGAAATCGCTCATTACCATCAACCTGTCTGAATACCAGGAGCCGCATACGGTCTCGCAGTTGAAAGGCTCCCCTCCCGGGTATGTCGGATATGGTCAGGGCGGCATTCTCACCGAGGCAGTCCGTAAGCGTCCGTATAGCGTGGTGCTGCTCGATGAAGTGGAGAAGGCCCATCGGGATGTGATGAACCTGTTTTATCAGGTCTTTGACCGGGGCTTTATGCGGGACGGGGAAGGACGTGAAATTGATTTTCGCAATACCGTGATCCTGATGACGTCCAACCTGGGCAGTGACCCGCTGATGCAGTTACTGGAAGAGCAACCAGAAGCTACTGAGAGCGATCTTCATGAGCTGTTACGCCCGATCCTGCGCGATCATTTCCATCCAGCGCTGCTGGCCCGCTTCCAGACGGTGATATACCGCCCGCTGGCAATGGATGCCATGCGAACCATCGTCGGCATGAAGCTGGCGCAGGTGAGTACGCGCCTGCAACGCCACTACGGCATTTCCACTCACACTGGTGAAAGCCTCATCGACACCCTGACGACATCCTGTCTGTTGCCGGATACCGGTGCCCGTAACGTCGACAGCCTGCTTAACCAGCAGATCCTGCCGGTTCTGAGTCAGCAGTTATTGAGCCATATGGCGGCAAAACAAAAGCCGTCCTCGCTACAGCTGACCTGGGATCATGAACAGGGCATTATGCTGGAATTTGATGAACAGGCAGAAGGAGAGGCGTCATGA	MEHHSAVLLRRLNPYCARAQEGAASLCQTRAHAEITPEHWLLKLLEQGEGDLTVLTRRYTELLSLEHNLSKRVVGQHAALSAIAQRLRTSKTGLTPENGPQGVFLLVGPGGVSKTETALALADVMYGGEKSLITINLSEYQEPHTVSQLKGSPPGYVGYGQGGILTEAVRKRPYSVVLLDEVEKAHRDVMNLFYQVFDRGFMRDGEGREIDFRNTVILMTSNLGSDPLMQLLEEQPEATESDLHELLRPILRDHFHPALLARFQTVIYRPLAMDAMRTIVGMKLAQVSTRLQRHYGISTHTGESLIDTLTTSCLLPDTGARNVDSLLNQQILPVLSQQLLSHMAAKQKPSSLQLTWDHEQGIMLEFDEQAEGEAS	PGPT0025985_608	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025985-vasG|clpV-K11907	NA	NA
BMS020_01435	492	hcpA_2	COG3157	Major exported protein	ATGGCAATCCCGGTTTATCTGTGGCTGAAAGACGACGGTGGCGCGGACATTAAAGGTTCCGTGGACGTGAAGGACCGTGAGGGCAGCATTGAGGTGGTGGCGCAGGAGCATAACCTGTACATCCCGACCGATAATAACACCGGCAAGCTGACCGGAACCCGTATCCACACGCCGTTCCTGTTCACCAAAGAAATCGACGCTTCCAGCCCGTACCTGTACAAGGCGGTTACCACCGGCCAGACCCTGAAATCTGCTGAATTCAAGTGGTACAAAATCAACGACGCGGGTCAGGAAGTAGAGTACTTCAACACGAAGCTGGAAAACGTCAAACTGGTGAAAGTTGCACCGAAAATGCACGACATCAAGGATCCTTCTTTCGAGAAACATAACCACCTTGAGCAGATCGAACTGCGCTACGAAAAAATCACCTGGACCTACAAAGACGGCAACATCATTCATTCCGATTCCTGGAACGAACGCACCACAGCATAA	MAIPVYLWLKDDGGADIKGSVDVKDREGSIEVVAQEHNLYIPTDNNTGKLTGTRIHTPFLFTKEIDASSPYLYKAVTTGQTLKSAEFKWYKINDAGQEVEYFNTKLENVKLVKVAPKMHDIKDPSFEKHNHLEQIELRYEKITWTYKDGNIIHSDSWNERTTA	PGPT0025980_937	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0025980-hcp-K11903	NA	NA
BMS020_01436	1680	pal_1		Peptidoglycan-associated lipoprotein	ATGCGTAGAACAGTCATCATTTCGGTAGCCCTACACACCTTAGCAGCCGTAGCCGCGCTACTGTGGTTGCTGTGGTATTTCATTCCGACAGGCAACGTTTTCAACGGTCTGTCCACTCTGCTGATCCTCGTTCTGGCAGGCTGGTATGTGTTTAAAAACTGTTGGAGCGAAGAGCCCACATTCGACGTTACCCTCCCGGCCGCTGAACTGCCTTTAACCGACGCCCAGGGCCCTGTTGTACTGGTGTGTGGTGACATGCTGGAAGCGTTATTTCAGGGCGGTCCTCTGCGTAAAACAGCCCAGGGATGGTGGCTGCGGGCCGGTGACGTCAACCGGTTAACTGACGTTGTCCGCAGTATCCAGACGCAATTCCCGCGCCAGGTCGGTCAGCTCTCGGTGATGTACCGCTGCCTGCCAGATCATCATCAGGATGAAGCCGTTCTTCGTTCCACACTGAAAACGCTCCGCCAGCAGTGTAAGCAGATTAAATCCCTGACGGGTTTCACTCTGCCTGTTGTGTTGAGTGCAGAATTTTCCGGGCCTGAAACGCCGTGGATAATCGTGCGGGGTGATAAACCGATTGCCTGTCCGGTTAATGATTCGCCGCAGGCATTCATCGACTGGCAGCAGGCGGAAGACAATCTCCTGGCGCTGCCAGCCGTCAGTGAGGCATTTTCCTTTATCCGTAATACGCTGGCTGATGAGCTGGAAAAGCCTGATCGGTTAACGCCTCCTGAACGAGCATTCTCCGTGGCAATGCGCCTCGGTACCGTCCTTCCCGGGACAGAGTCAGTCTGGGCCGACTGGCTATATACCCGCACCTGTTTACATTTTCTCCGAAAAACAGGGCAGACAGCACCGGCAAGTTTGTTTCCGGATGCGGTTCTGCCGCTGCTGGCACCTTTTGCTTCAACGGTGCAGGGGGGCCAGCGTACCCGTCGCCTGATCCTGCTGATGTGGCTGTGTGCCCTGACCGCATTGGGTATGTCTGCGCTCAATAATCGTGACCTCATCCGTCAGGTGAGTACCGATTTACAGCGCTGGAATGCAATCCCGATGAACCACTATCGCCCTAAGGCAGAGTCACTGGCCGCCCTGAAGCAGGATGCGCTCCTGCTTGAACGCTGGCAGCGCCAGGGTGAGCCTTTGTGTTACAGCCTGGGCTATTACCCGGGCCAACGTCTGTGGCTGGCCTTGCAGCAGGCTATCGATACCTGGACGCCGCCACCCGCCCTTGAACTGAAACCGGTACCGAAAATTGTACGACTTGACAGCATGTCACTGTTTGACCCCGGCAAATCGGTACTCAAAGACGGCTCAACCAAAATACTCGTCAACGCACTGGTAGGGATTAAAGCCAGACCGGGCTGGCTGATCGTGGTCAGCGGTCATACAGACAATACCGGCAGCGTTCAGCTAAATCAGACCCTGTCTTTGCAAAGAGCTGAGGCCGTCCGTAACTGGATGCGTGATACCGGGGACGTACCGGAAAGTTGCTTTGCCGTGCAGGGTTACGGCGACAGTCGACCAATTGCATCAAACGACACGCCTGATGGCCGTTCGCATAACCGGCGTGTCGAGATCAGTCTGGTACCGCAGGCTGACGCCTGTCGTCTGCCTGGCGCAAAACACGCGTCACAGGATGTACGTGACGTTTCTACTCGGGAAATGGAGAAGTAA	MRRTVIISVALHTLAAVAALLWLLWYFIPTGNVFNGLSTLLILVLAGWYVFKNCWSEEPTFDVTLPAAELPLTDAQGPVVLVCGDMLEALFQGGPLRKTAQGWWLRAGDVNRLTDVVRSIQTQFPRQVGQLSVMYRCLPDHHQDEAVLRSTLKTLRQQCKQIKSLTGFTLPVVLSAEFSGPETPWIIVRGDKPIACPVNDSPQAFIDWQQAEDNLLALPAVSEAFSFIRNTLADELEKPDRLTPPERAFSVAMRLGTVLPGTESVWADWLYTRTCLHFLRKTGQTAPASLFPDAVLPLLAPFASTVQGGQRTRRLILLMWLCALTALGMSALNNRDLIRQVSTDLQRWNAIPMNHYRPKAESLAALKQDALLLERWQRQGEPLCYSLGYYPGQRLWLALQQAIDTWTPPPALELKPVPKIVRLDSMSLFDPGKSVLKDGSTKILVNALVGIKARPGWLIVVSGHTDNTGSVQLNQTLSLQRAEAVRNWMRDTGDVPESCFAVQGYGDSRPIASNDTPDGRSHNRRVEISLVPQADACRLPGAKHASQDVRDVSTREMEK				NA	NA	NA	NA	NA
BMS020_01437	690			hypothetical protein	ATGAGACAGGATATCGATATCGACCAGCTAATGACGGAGACCTGGCTTACCGTCACCATGCTTAAGAAAGGCGCCATCACGCTTAATGGCTCTGCGCTTTACAACAGATGCGTTAAACAGGTTGAAAGTGTGCGGGAAGCGCTGGAGCGTGCCGGTTATGACGACGCCAGTGTGGATCATATTTCCTACGCACAATGCGCCCTGCTGGACGAAACGGTGATGAGCCGTAAGCCCGGAGAAAACGAAGGAGGAGAGGAGCCGAAAGTAGACGAAGGCCAGATGGTCTGGCGTAAAGCGCCACTTCAGGCCCGTTTTTTTGGCTCGCTTCGGGCTGGTGAAGCACTATGGGATCGCATTGCAGAGGTTCTGCGTCAGCCCTCACCGAACCCGGCCGTTTTAACCTGCTATCACCGGGTGATAGCGCTGGGCTTTCAGGGGTTATACAGCCTGAAGACGGTCAGCCAGTCACAGCGGGATGAGGTAGTGAAAGCCCTTTCTGAACGGGTTTCTCCGCCTGATGCAGGCCTGTCTCTGGTTGTTCACCGGAGGGGGACACATCGCTGGAGTCTGATGCGCTCAGTCTGGTTCTGGATAGTGCTGGCCGTCATTCTTACCGGCGTTATCTGGTGGGGGGGGCACCTCTGGCTCCAGTCTCTTTTGTCAGCACAAATACCGGAGCTGCATGGCTAA	MRQDIDIDQLMTETWLTVTMLKKGAITLNGSALYNRCVKQVESVREALERAGYDDASVDHISYAQCALLDETVMSRKPGENEGGEEPKVDEGQMVWRKAPLQARFFGSLRAGEALWDRIAEVLRQPSPNPAVLTCYHRVIALGFQGLYSLKTVSQSQRDEVVKALSERVSPPDAGLSLVVHRRGTHRWSLMRSVWFWIVLAVILTGVIWWGGHLWLQSLLSAQIPELHG	PGPT0025955_1333	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025955-impK|ompA|vasF|dotU-K11892	NA	NA
BMS020_01438	1350			hypothetical protein	ATGAAAATTTATCGTCCACTGTGGAACGAGGGGGCTTTACTATCCCCTCAACAGTTCCAGCAACAGGCTGAATGGGAGTCTTTTCGCAGTGCCGGTGCATCAGCGCTGGCGTCCCCATTCCCCTGGGGCGTGGAAATGATTGAGTTTAATGACAGTCTTCTTTCGTCCGGTCTGATTCAGATTACGCAGTTACGTCTCTGGCTGGAAGATGGTTCATTAATTGATGCGCAAAGCAGCGATCTGCCTCCAGCGCCGCGTGAGTTAGATGCCAGCCAGCTGGCAGGTCGTGATGCGGTAACTGTCCTCATTGCATTGCCGCACATGCAGCCAGGTATGAGCAACGTTGAACAGGAGGGCGTCAGTTCAGAACGGCCGCTTCGCTATCGTGAAGAGTGGGTAACATTGCAGGATGCTTTTGGCTCTGAAGAAGAATCTATAGCAGTTGCCCGGTTTAATTTCATCATCCGGTTTGCCCATGAAAGTAATGATTCCTGGAAAGTGTGTCCGGTCGCAAGACTGATTCGGGATGGACATAATGCGTGGCGACAGGATCCATCTTTTATCCCTCCAGTGGCGTCATTTGGAGCAAGCCCGGTCCTTCACGAACGTCTGGTGCTGCTTAATCGCCAGTTACGCTCCCGACGCCAGCGTCTGATGACGATGCGCCGAGAAAGCAACGAAAGGCTCGCCGATTTTGCCGTCGCCGATGTTTCCCTTTTCTGGTTGCTGAATGCACTGAATTCTCACGCCACAGTGCTGACAGAATACGAACGTTTTCCTTCCCGTCCGCCTGAACAGGTGTGGGCTGAGCTCGCTCGTCTGGCTGGTAGCATGCTGACCTTTTCCCTGGACCATGATCTGGACGCCATACCGGGTTATGACCACGAGGAGCCAGCTAAGGCGTTTCCTCCGCTGTTTGACCTGATAACGGGTTTGCTGGAGGCAAGTCTGCCATCCCGGGTCATTGCTCTGGAAATGACCCGCCCGGACGGACAGACCTGGAAGGCCAACCTCCACGATATCCGACTGCGTGAAGAGGCCGATCTCTATCTCTCTGTACGCTCGGATATCCCGGCCTGGCAGGTTGCCGAGAAATTTCCGGCACTCTGTCAGGCAGGTTCACCTGATGATGTCCGCGAGATCTATGGTGCTGCGCTCAAGGGGATCCCGTTGATACCGGTGAGCAGGGTACCGGCAGCGTTGCCTGTACGCATGGAAAACCAGTACTTCGCACTTGATATAGAAAGCCCCGCTGCGCATGAAATGCTGGAGCAGGGGGTGTGTATGTTCTATGTGCCTGAGTTACTTGGCGATTTGGAGCTTGAACTGTTTGCGGTATTGCGCTCATGA	MKIYRPLWNEGALLSPQQFQQQAEWESFRSAGASALASPFPWGVEMIEFNDSLLSSGLIQITQLRLWLEDGSLIDAQSSDLPPAPRELDASQLAGRDAVTVLIALPHMQPGMSNVEQEGVSSERPLRYREEWVTLQDAFGSEEESIAVARFNFIIRFAHESNDSWKVCPVARLIRDGHNAWRQDPSFIPPVASFGASPVLHERLVLLNRQLRSRRQRLMTMRRESNERLADFAVADVSLFWLLNALNSHATVLTEYERFPSRPPEQVWAELARLAGSMLTFSLDHDLDAIPGYDHEEPAKAFPPLFDLITGLLEASLPSRVIALEMTRPDGQTWKANLHDIRLREEADLYLSVRSDIPAWQVAEKFPALCQAGSPDDVREIYGAALKGIPLIPVSRVPAALPVRMENQYFALDIESPAAHEMLEQGVCMFYVPELLGDLELELFAVLRS	PGPT0025950_405	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025950-impJ|vasE-K11893	NA	NA
BMS020_01439	186			hypothetical protein	ATGACCGATCCGGGCGACGAGCTGCAGGCCTCCCATCCGCTGCGCGATGCCAGCGTGGTGGTGGAAGATATCGAGGACAACCCGGGCTTCTTCCGCGTGAAGCTGTACGCCGTGCCGCATTTCCAGGTCGAGGGGCTGGACGTCAATCTGTCGCTGGTATCTCAGATGCCCAAAGCAAAAGCATAA	MTDPGDELQASHPLRDASVVVEDIEDNPGFFRVKLYAVPHFQVEGLDVNLSLVSQMPKAKA	PGPT0025920_1546	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025920-impC-K11900	NA	NA
BMS020_01440	2574	clpB_1	COG0542	Chaperone protein ClpB	ATGCGTCTGGATCGTCTTACCAATAAATTCCAGCTTGCTCTTGCCGATGCCCAGTCGCTCGCACTCGGGCACGACAACCAATTCATCGAACCTCTTCATTTAATGAGCGCCTTGCTGAATCAGGAAGGGGGATCGGTACGTCCTTTATTAACCTCGGCGGGCGTGAATGCCGGGAAACTGCGCACTGACATCGAACAGGCTCTGAGCCGTTTACCGCAGGTGGAAGGCACCGGCGGCGATGTACAACCTTCTCAGGATTTAGTGCGGATCCTGAACCTTTGCGACAAGCTGGCGCAAAAGAAAAAGGACAATTTTATTTCGTCAGAACTGTTTGTTCTGGCGGCGCTTGAATCACGCGGTACGCTGACCGACCTTTTAAAATCCGCCGGAGCAACAACCGCCAACGTGACCCAGGCGATTGAACAAATGCGCGGAGGTGAAAGCGTGAACGATCAGGGTGCCGAAGACCAACGTCAGGCATTGAAGAAATTTACCGTCGATCTCACCGAGCGTGCCGAGCAGGGCAAGCTGGACCCGGTTATCGGCCGTGATGAAGAGATCCGCCGTACCATTCAGGTACTGCAGCGCCGTACCAAAAACAATCCGGTGCTGATTGGTGAACCCGGGGTGGGGAAAACCGCTATCGTCGAAGGCCTGGCGCAACGTATCGTCAACGGCGAAGTGCCGGAAGGGCTGAAAGGCCGCCGGGTGCTGGCGCTGGATATGGGCGCGCTGGTGGCCGGGGCGAAATACCGCGGTGAGTTTGAAGAGCGTCTGAAAGGCGTGCTGACCGACCTGTCGAAACAGGAAGGCAACGTCATTCTGTTTATCGATGAACTGCATACCATGGTTGGCGCCGGTAAAGCCGATGGCGCGATGGATGCAGGCAACATGCTGAAGCCGGCGCTGGCGCGTGGTGAACTGCACTGCGTCGGGGCGACGACGCTTGACGAATACCGTCAGTACATTGAAAAAGACGCTGCGCTGGAGCGCCGCTTCCAGAAAGTGTTCGTCGCCGAGCCATCGGTAGAAGATACCATCGCTATTCTGCGCGGCCTGAAAGAACGTTATGAACTGCACCACCACGTGCAGATCACTGACCCGGCAATCGTGGCGGCGGCGACCTTGTCGCATCGTTACATTGCCGACCGTCAGCTGCCGGATAAAGCCATCGACCTTATTGATGAGGCGGCGTCCAGCATCCGTATGCAGATCGACTCGAAGCCGGAAGAGCTGGACCGTCTCGATCGCCGTATCATCCAGTTGAAACTGGAGCAGCAGGCGCTGAAGAAAGAGTCTGATGAGGCGAGTCTGAAGCGCCTTGATATGCTCAACGAGGAGCTGGCGGATAAAGAACGGCAGTACTCGGTGCTGGAAGAAGAGTGGAAAGCGGAAAAAGCGTCCCTCTCCGGCACTCAGACCATCAAAGCCGAGCTGGAGCAGGCGAAAATCGCCATCGAACAGGCGCGTCGCGTCGGTGACCTGGCGCGGATGTCTGAGCTGCAGTATGGCAAAATTCCGGAACTGGAGAAACAGCTGGCGGCAGCCACTCAGTCCGAAGGGAAAACCATGCGTCTGCTGCGTAATAAAGTGACGGATGCTGAAATCGCCGAAGTGCTGGCCCGCTGGACCGGTATCCCTGTCTCCCGCATGATGGAAAGCGAGCGTGACAAACTGCTGCGTATGGAGCAGGAACTGCATCACCGGGTAATTGGCCAGGATGAGGCGGTTGAAGCGGTATCTAACGCGATTCGCCGCAGCCGTGCCGGGCTATCCGATCCGAACCGACCGATTGGTTCATTCCTGTTCCTCGGTCCGACCGGGGTCGGTAAAACCGAGCTGTGTAAAACGCTGGCTAACTTTATGTTCGACAGCGACGACGCGATGGTGCGTATCGATATGTCCGAGTTTATGGAGAAACACTCCGTCTCGCGTCTGGTCGGTGCGCCTCCGGGATACGTCGGTTATGAAGAGGGCGGTTACCTGACCGAGGCGGTGCGCCGTCGTCCTTATTCCGTCATCCTGCTGGATGAAGTGGAAAAAGCGCACCCGGATGTGTTCAACATTCTGCTGCAGGTACTCGACGACGGGCGCCTCACCGATGGGCAGGGGAGAACGGTCGACTTCCGTAATACGGTGGTCATCATGACCTCGAACCTCGGTTCCGATCTGATTCAGGAACGGTTCGGCGAGCTGGATTACGGACATATGAAAGACCTGGTGCTGGGAGTGGTCAGCCAGAACTTCCGTCCGGAGTTCATCAACCGTATCGATGAAGTGGTGGTCTTCCATCCGCTGGGTGAGAAACACATTGCTTCTATTGCCCAGATCCAGCTGCAGCGTCTGTATAAACGTCTGGAAGAGCGCGGATATGAAGTGCGGATGTCTGATGAGGCGCTGAAGCTGCTAAGCGCCAACGGGTACGATCCGGTATACGGCGCGCGGCCACTGAAACGCGCTATTCAGCAGCAGATTGAGAACCCGTTAGCCCAGCAGATCCTTTCTGGTGAGCTGATTCCGGGTAAAACCGTCGAGCTGGTAGTGAAAGACGACCGTATCGTGGCAGTGCAGTAA	MRLDRLTNKFQLALADAQSLALGHDNQFIEPLHLMSALLNQEGGSVRPLLTSAGVNAGKLRTDIEQALSRLPQVEGTGGDVQPSQDLVRILNLCDKLAQKKKDNFISSELFVLAALESRGTLTDLLKSAGATTANVTQAIEQMRGGESVNDQGAEDQRQALKKFTVDLTERAEQGKLDPVIGRDEEIRRTIQVLQRRTKNNPVLIGEPGVGKTAIVEGLAQRIVNGEVPEGLKGRRVLALDMGALVAGAKYRGEFEERLKGVLTDLSKQEGNVILFIDELHTMVGAGKADGAMDAGNMLKPALARGELHCVGATTLDEYRQYIEKDAALERRFQKVFVAEPSVEDTIAILRGLKERYELHHHVQITDPAIVAAATLSHRYIADRQLPDKAIDLIDEAASSIRMQIDSKPEELDRLDRRIIQLKLEQQALKKESDEASLKRLDMLNEELADKERQYSVLEEEWKAEKASLSGTQTIKAELEQAKIAIEQARRVGDLARMSELQYGKIPELEKQLAAATQSEGKTMRLLRNKVTDAEIAEVLARWTGIPVSRMMESERDKLLRMEQELHHRVIGQDEAVEAVSNAIRRSRAGLSDPNRPIGSFLFLGPTGVGKTELCKTLANFMFDSDDAMVRIDMSEFMEKHSVSRLVGAPPGYVGYEEGGYLTEAVRRRPYSVILLDEVEKAHPDVFNILLQVLDDGRLTDGQGRTVDFRNTVVIMTSNLGSDLIQERFGELDYGHMKDLVLGVVSQNFRPEFINRIDEVVVFHPLGEKHIASIAQIQLQRLYKRLEERGYEVRMSDEALKLLSANGYDPVYGARPLKRAIQQQIENPLAQQILSGELIPGKTVELVVKDDRIVAVQ	PGPT0014580_4018	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014580-clpB-K03695	NA	NA
BMS020_01442	732	yfiH_1	COG1496	Polyphenol oxidase	ATGACTAAACTGATTGTACCGCAGTGGCCAATGCCCGGCAGCGTGGCGGCCTGTAGTTCTACCCGCATCGGCGGCGTGAGTCTGCCGCCCTATGACTCGCTCAATCTGGGCGCCCATTGCGGCGACAATCTGCAGCATGTCGAAGAAAACCGGCGGCGGATGTTTGCCGCCGGCGGCTTGCCGTCTTACCCGGTTTGGCTGGAGCAGGTTCATGGTACCGATGTGCTCACGCTGGACGGCGGACCCTATCCGTCGAAACGCGCGGATGCCTCTTATAGCCGTACGCCAGGGACTGTCTGCGCGGTGATGACCGCTGACTGCCTGCCGGTCCTCTTCTGTAACCGCGCCGGTACCGAAGTCGCCGCGGCGCATGCGGGATGGCGCGGCTTATGCGAAGGGGTTCTGGAAGAGACGGTCGCCCGTTTCGCCGATAAAGCCGAAAACATTATGGCGTGGCTGGGGCCCGCCATCGGTCCGCAGGCGTTTGAGGTGGGGCCAGAAGTTCGCGACGCTTTTATGGCGAAGGATGAGAATGCGCACCGTGCTTTTCGTCCGGCAGGCGAAAAATATTTTGCTGATATCTACCAACTGGCTCGGCAGCGTCTGGCAAACGTCGGCGTTGAGCAGATTTTCGGCGGCGATCGCTGCACGCTAAGCGAAAAGGATGATTTTTTCTCTTACCGGCGCGACAAGACCACCGGTCGTATGGCAAGTTTCATTTGGCTGATATAA	MTKLIVPQWPMPGSVAACSSTRIGGVSLPPYDSLNLGAHCGDNLQHVEENRRRMFAAGGLPSYPVWLEQVHGTDVLTLDGGPYPSKRADASYSRTPGTVCAVMTADCLPVLFCNRAGTEVAAAHAGWRGLCEGVLEETVARFADKAENIMAWLGPAIGPQAFEVGPEVRDAFMAKDENAHRAFRPAGEKYFADIYQLARQRLANVGVEQIFGGDRCTLSEKDDFFSYRRDKTTGRMASFIWLI	PGPT0019965_3186	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
BMS020_01443	981	rluD_1	COG0564	Ribosomal large subunit pseudouridine synthase D	ATGGCACAACGAGTACAACTCACCGCAACGGTGACCGAAAATCAACTCGGTCAACGCTTAGATCAGGCTTTGGCCGAATTGTTCCCTGATTATTCGCGATCGCGGATAAAAGAATGGATCCTCGACCAACGCGTATTAGTCAATGGCGCCATTGGCGATAAACCGAAAGAAAAAGTGCTGGGGGGAGAACGCATCGCTATCGATGTGGAAATCGAAGAAGAGGCGCGCTTCCAGCCGCAGGATATTCCGCTCAATATCGTTTACGAAGATGACGACATCCTCGTGATCAACAAACCGCGCGATCTGGTTGTACATCCTGGCGCGGGCAACCCCGACGGTACTGTGCTGAATGCGCTGCTGCACTACTATCCGCCTATTGCCGATGTGCCGCGTGCGGGTATCGTCCACCGTCTGGATAAAGACACCACCGGTCTGATGGTGGTGGCGAAAACCATTCCAGCGCAAACCCGGCTGGTGGAGTCGCTGCAGCTGCGCGAGATCACCCGTGAGTACGAAGCGGTGGCGATCGGTCATATGACCGCCGGCGGTACGGTGGAAGAGCCGATCAGCCGTCACCCGACCAAGCGAACCCATATGGCGGTGCACCCTATGGGCAAGCCGGCGGTGACCCACTACCGCATTATGGAACATTTCCGCATTCATACCCGTCTGCGCCTGCGTCTGGAAACCGGGCGTACGCATCAGATCCGCGTGCATATGTCGCATATTACCCATCCGCTGGTAGGCGACCAGGTGTATGGCGGCCGCCCGCGTCCGCCGAAGGGCGCGTCGGAGGAATTCATCACCGCGCTGCGTAAATTCGACCGCCAGGCGCTGCACGCCACCATGCTGCGTCTGTACCATCCGATTACCGGTATTGAAATGGAGTGGCATGCGCCCATCCCACAAGATATGGTCGAGCTCATCGAGGCGATGCGCGCCGATTTTGAAGCCCATAAGGACGATATTGACTGGTTATGA	MAQRVQLTATVTENQLGQRLDQALAELFPDYSRSRIKEWILDQRVLVNGAIGDKPKEKVLGGERIAIDVEIEEEARFQPQDIPLNIVYEDDDILVINKPRDLVVHPGAGNPDGTVLNALLHYYPPIADVPRAGIVHRLDKDTTGLMVVAKTIPAQTRLVESLQLREITREYEAVAIGHMTAGGTVEEPISRHPTKRTHMAVHPMGKPAVTHYRIMEHFRIHTRLRLRLETGRTHQIRVHMSHITHPLVGDQVYGGRPRPPKGASEEFITALRKFDRQALHATMLRLYHPITGIEMEWHAPIPQDMVELIEAMRADFEAHKDDIDWL				NA	NA	NA	NA	NA
BMS020_01444	738	bamD_1	COG4105	Outer membrane protein assembly factor BamD	ATGACGCGCATGAAATACCTGGTGGCAGCCGCCACACTGAGCCTGGCTTTGGTGGGTTGCTCCGGCTCTAAGGAAGAGGTGCCTGATAATCCGCCGAATGAAATCTACGCGACCGCCCAGCAAAAACTGCAGGACGGTAACTGGAAACAGGCGATAACGCAACTGGAAGCGTTGGATAACCGTTATCCATTCGGCCCTTATTCCCAACAGGTACAGCTGGATCTGATTTATGCGTATTACAAAAACGCCGATCTGCCGCTGGCTCAGGCCGCCATCGATCGCTTCATGCGCTTGAACCCCACCCATCCGAACATCGACTACGTCATCTATATGCGCGGCCTGACCAACATGGCTCTGGATGACAGCGCCCTGCAGGGCTTCTTCGGCGTCGATCGTTCCGACCGCGATCCGCAGCACGCGCGCGATGCCTTCAATGACTTCTCCAAACTGGTACGTGGTTACCCGAACAGCCAGTATGCCACTGACGCCTATAAGCGCATGGTGTTCCTGAAAGATCGCCTGGCGAAGTATGAGCTGTCGGTGGTGGATTACTACACCGACCGCGGCGCATGGGTTGCCGTCGTTAACCGCGTGGAAGGTATGATGCGTAACTATCCGGATACCCAGGCCACCCGCGATGCCCTGCCGAAGATGGAAAACGCCTATCGTCAAATGCAGATGAACGCTCAGGCGGACAAAGTCGCGAAGATTATCGCCGCGAACAGCAAGAATACCTGA	MTRMKYLVAAATLSLALVGCSGSKEEVPDNPPNEIYATAQQKLQDGNWKQAITQLEALDNRYPFGPYSQQVQLDLIYAYYKNADLPLAQAAIDRFMRLNPTHPNIDYVIYMRGLTNMALDDSALQGFFGVDRSDRDPQHARDAFNDFSKLVRGYPNSQYATDAYKRMVFLKDRLAKYELSVVDYYTDRGAWVAVVNRVEGMMRNYPDTQATRDALPKMENAYRQMQMNAQADKVAKIIAANSKNT				NA	NA	NA	NA	NA
BMS020_01445	336	raiA	COG1544	Ribosome-associated inhibitor A	ATGACAATGAACATTACCAGTAAACAAATGGAAATTACTCCGGCAATCCGCCAGCATGTCGCAGACCGTCTCGCCAAACTGGATAAGTGGCAAACTCATTTAATTAACCCGCACATCATTCTGTCTAAGGAGCCGCAGGGTTTTATCGCTGACGCAACCATCAACACGCCAAACGGCCATCTGGTTGCCAGTGCGCGTCATGAAGATATGTACGCCGCCATTAACGAATTGATCAACAAGCTGGAACGGCAGCTCAATAAAGTGCAACACAAAGGGGAAGCCCGCCGCGCCGCGACGTCGGTGAAAGAGGCAGGCTTTGTGGAAGAAGAAGAGTAA	MTMNITSKQMEITPAIRQHVADRLAKLDKWQTHLINPHIILSKEPQGFIADATINTPNGHLVASARHEDMYAAINELINKLERQLNKVQHKGEARRAATSVKEAGFVEEEE				NA	NA	NA	NA	NA
BMS020_01447	1161	pheA_1	COG0077	Bifunctional chorismate mutase/prephenate dehydratase	ATGACCGAGGAAAACCCATTACTGGCGCTGCGCGATAAGATAAGCGCGCTGGATGAGAAACTGCTTGCTCTGCTGGCGGAGCGTCGCGGGCTGGCTGTTGAGGTTGGTAAAGCCAAACTGGCCTCACATCGTCCGGTGCGTGATATTGACCGCGAACGCGATCTGCTGGAGCGTCTGATGACCCTCGGCAAGCGTCATAATCTGGATGCACACTACATCACCCGCCTGTTTCAGCTGATTATCGAAGACTCTGTTCTGACCCAGCAAACCCTGCTGCAGCAGCATTTGAATAAAATTAACCCGCATTCGGCTCGCGTGGCGTTCCTCGGTCCCAAAGGCTCTTATTCGCATCTGGCGGCGCGTCAGTACGCCGCTCGCCACTTTGAGCAGTTTATTGAAAGCGGCTGCGCGAAGTTCGCCGATATTTTTAATCAGGTGGAGACCGGTCAGGCCGATTACGCCGTAGTGCCGATTGAAAACACCAGCTCCGGCGGGATCAACGACGTCTACGATCTGCTGCAGCACACCAGCCTGTCGATCGTTGGCGAACTGACGATCCCTATCGATCATTGCGTACTGGTCAGCACCTCGACGGATGCCGATAAAATTCAGACCGTCTACAGCCATCCGCAGCCGTTCCAGCAGTGTAGCCAGTATCTGAGTCGCTACCCGCACTGGAAGATTGAATATACCGAGAGCACCTCAGCGGCGATGGAAAAAGTCGCGCAGGCGAACTCCCCGGCCGTCGCGGCACTGGGCAGCGAAGCGGGCGGCGCCCTGTACGGTCTGCAGGTGCTGGAGCACTGCCAGGCCAACCAGACGCAGAATATTACGCGCTTCCTCGTTCTGGCGCGCAAAGCGGTGAACGTCTCCGATCAGGTTCCGGCGAAGACCACGCTGTTAATGGCGACCGGTCAGCAGGCGGGCGCCCTGGTGGAGGCCTTACTGGTGCTGCGCAATCACAATCTGATCATGACCAAACTGGAGTCTCGCCCAATCCATGGCAATCCATGGGAAGAGATGTTTTATCTCGATATTCAGGCAAACCTGGACTCGCTGCCCATGCGCAAGGCGCTGAAAGAGCTGGCGGAGATCACCCGCTCCATGAAGGTTCTCGGTTGCTACCCCAGCGAAAACGTCGTGCCGGTGGATCCAGTTTAG	MTEENPLLALRDKISALDEKLLALLAERRGLAVEVGKAKLASHRPVRDIDRERDLLERLMTLGKRHNLDAHYITRLFQLIIEDSVLTQQTLLQQHLNKINPHSARVAFLGPKGSYSHLAARQYAARHFEQFIESGCAKFADIFNQVETGQADYAVVPIENTSSGGINDVYDLLQHTSLSIVGELTIPIDHCVLVSTSTDADKIQTVYSHPQPFQQCSQYLSRYPHWKIEYTESTSAAMEKVAQANSPAVAALGSEAGGALYGLQVLEHCQANQTQNITRFLVLARKAVNVSDQVPAKTTLLMATGQQAGALVEALLVLRNHNLIMTKLESRPIHGNPWEEMFYLDIQANLDSLPMRKALKELAEITRSMKVLGCYPSENVVPVDPV				NA	NA	NA	NA	NA
BMS020_01448	873			6-deoxy-6-sulfogluconolactonase	ATGGCTGAACCACAACCGCTGTTTGACTACACCGGATACCTGCCGGAATGCCCGACCTGGAGTGAGGCAGAGCAGGCCCTCTACTGGGCCGATATCATGGAATGTGAAATTCACCGCTACGATACCCGCAGCGGCGAACACCAGGTGCTGCAGTTTCCGGAGGAGGTCGGCTGTTTTTCCCTGCGCGAGAAGGGCGGTTTTATCGTTGCATTGCGCAGCGGTATCTGGCTGACCGACGCCCACGGTCTGCTGCGGCGGAAAGTCTGCGATAACCCGAGCAACCCGGAACTGGCGCGCTTTAACGACGGCGGGACCGATCGCGACGGGCGCTTTTATGCCGGCACCTTCTGGGGCCCGGGGGATTACAACGGCGCGCTGCTGATGCGGGTGGATAACGACCTGAAGCCGACGGTGATTCAGTGCGACATCCATGGCGCCAACGGTCTGGCGTTTAGCGCCGACCGGCGCTGGATGTATACCTCCGATACGCCGAACGCCGTGATTTACCGTACGCCGCTGGATGAGCAGGGTGAGCCTGGCCGGCGCGAAGTCTTTCGCCGTTTTCTGCCGGGCGAAGGGATCCCGGACGGGGCGGCGATTGACGTGGAGGGATGTTACTGGAGCGCAATGTTTGACGGCTGGCGGATCGCTCGTTTCTCTCCGCAGGGTGAGGAGCTGGAGTCCTACCCGATGCCGGTACGTTGCCCGACGATGGTCTGCTTTGGCGGGGCGGATATGAAAACGCTCTACATCACCACCACCCGGGAAAACATGGAGGACGATGAGCTGGCGCAGTATCCGCTGTCCGGCGCTATCTTCACCCTGCCGGTGGCGGTGGCAGGGATGAAGAAATTACCGTTCCGCGAATGCTAA	MAEPQPLFDYTGYLPECPTWSEAEQALYWADIMECEIHRYDTRSGEHQVLQFPEEVGCFSLREKGGFIVALRSGIWLTDAHGLLRRKVCDNPSNPELARFNDGGTDRDGRFYAGTFWGPGDYNGALLMRVDNDLKPTVIQCDIHGANGLAFSADRRWMYTSDTPNAVIYRTPLDEQGEPGRREVFRRFLPGEGIPDGAAIDVEGCYWSAMFDGWRIARFSPQGEELESYPMPVRCPTMVCFGGADMKTLYITTTRENMEDDELAQYPLSGAIFTLPVAVAGMKKLPFREC	PGPT0017460_171	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017460-araB|L_arabinonolactonase-K13874	NA	NA
BMS020_01449	1122	tyrA	COG0287	T-protein	ATGGTTGCTGAACTGACCGCGTTACGCGATCAAATTGATGAAGTGGATAAAGCGTTGCTTAGCCTGCTGGCTAAGCGCCTGGAACTGGTGGCCGAAGTCGGCGAGGTGAAGAGCCAGTATGGCCTGCCGATTTACGTCCCGGAACGCGAGGCGGCGATGCTCGCCTCCCGGCGTGAAGAGGCGGCTGCGCTTGGCGTTCCGCCGGATCTGATCGAGGACGTTCTGCGTCGCGTGATGCGGGAATCCTATTCCAGCGAAAACGACAAAGGCTTCAAAACCCTTTACCCGAATCTGCGGCCGGTGGTGATCGTCGGCGGCGGCGGGCAGATGGGGCGTCTGTTTGAGAAGATGTTAACGCTGTCCGGCTACCAGGTGCGCATTCTGGAAAAAGAGGACTGGGCGCGGGCGACGGATATCGTCGCCGATGCCGGTATGGTCATTGTCAGCGTGCCGATTCACACCACCGTGGAGACGATCGCCAGGCTGCCGCCGCTGCCGGCGGATTGCATTCTGGTCGACCTTGCCTCGGTTAAAGCAGAGCCGCTGCAGGCGATGCTGGCGGCGCATCAGGGCCCGGTACTCGGCCTGCACCCGATGTTCGGTCCGGACAGCGGCAGCCTTGCCAAGCAGGTGGTGGTCTATTGCGATGGCCGCCAGCCGGAGGCCTATCAGTGGTTCCTCGAGCAAATTCAGGTCTGGGGCGCGCGCCTGCATCGCATCAGCGCGGTGGAGCACGATCAGAACATGGCCTTTATTCAGGCGCTGCGCCACTTTGCCACCTTCGCCTATGGTCTGCATCTGGCGGAAGAGAATGTGCGCCTTGAGCAGTTGCTGGCGCTCTCGTCACCCATTTACCGGCTGGAGCTGGCGATGGTGGGCCGTCTGTTTGCCCAGGATCCGCAGCTCTACGCCGACATTATTATGTCCTCGGAAAACAACCTGGCGCTGATTAAGCGCTACTACCAGCGGTTTGGCGAGGCGATCGGTCTGCTGGAGCAGGGCGATAAGCAGGCGTTTATCGATAGCTTCCGTAAAGTCGAACACTGGTTTGGCGATTACGCCCAGCGTTTCCAGAGCGAGAGCCGCACGCTGCTGCGTCAGGCGAACGATAATCGGCAGTAA	MVAELTALRDQIDEVDKALLSLLAKRLELVAEVGEVKSQYGLPIYVPEREAAMLASRREEAAALGVPPDLIEDVLRRVMRESYSSENDKGFKTLYPNLRPVVIVGGGGQMGRLFEKMLTLSGYQVRILEKEDWARATDIVADAGMVIVSVPIHTTVETIARLPPLPADCILVDLASVKAEPLQAMLAAHQGPVLGLHPMFGPDSGSLAKQVVVYCDGRQPEAYQWFLEQIQVWGARLHRISAVEHDQNMAFIQALRHFATFAYGLHLAEENVRLEQLLALSSPIYRLELAMVGRLFAQDPQLYADIIMSSENNLALIKRYYQRFGEAIGLLEQGDKQAFIDSFRKVEHWFGDYAQRFQSESRTLLRQANDNRQ				NA	NA	NA	NA	NA
BMS020_01450	1071	aroF	COG0722	Phospho-2-dehydro-3-deoxyheptonate aldolase, Tyr-sensitive	ATGCAAAAAGACGCGCTGAACAACGTACATATTACCGACGAACATGTATTAATGACCCCGGAGCAACTGAAGGCGGAATTCCCCCTGAGCGTTGAACAGGAAGCGCAGATCGCGCACGCCCGTGAAACCATCTCCAATATCATCGCCGGTCGCGATCCGCGCCTGCTGGTGGTCTGCGGTCCTTGCTCCATTCACGATCCGGAAGCGGCGATCGAATATGCTCGTCGGTTTAAAGCCCTTGCCGCAGAGGTCAGCGATAGCCTCTACCTGGTGATGCGCGTCTATTTTGAAAAACCCCGTACTACCGTCGGCTGGAAGGGGCTGATTAACGATCCGCATATGGATGGTTCGTTTGATGTTGAAGGCGGCCTGAAGATTGCGCGTCGTCTGCTGGTCGAGCTTGTGAATATGGGACTGCCGCTGGCGACGGAAGCGCTGGATCCCAACAGCCCGCAGTACCTTGGGGATCTGTTCAGCTGGTCCGCCATCGGCGCGCGAACCACGGAATCTCAGACGCACCGCGAAATGGCCTCTGGTCTTTCCATGCCGGTAGGCTTTAAAAATGGCACCGACGGTAGCCTGGCCACGGCTATCAACGCTATGCGCGCCGCGGCGATGCCGCACCGCTTCGTCGGTATCAACCAGGCCGGGCAGGTCTGCCTGCTGCAAACGCAGGGTAACCCGAACGGCCATGTGATCCTCCGCGGCGGTAAGGCGCCGAACTACGGTCCGGAAGATGTGGAGAAATGTGAAAAAGAGATGGCGCAGGCGGGACTGAAGCCGTCGCTGATGGTAGATTGCAGTCATGGGAACTCCAATAAAGATTTCCGCCGCCAGCCGGCCGTGGCTGAATCCGTTGTCGCGCAGATCAAAGATGGCAATCGCTCCATTATCGGCCTGATGATCGAGAGTAATATCCACGAGGGCAATCAGTCCTCTGAACAGCCGCGTGAGTCGATGAAATATGGCGTTTCGGTAACGGATGCCTGCATCAGCTGGGAAACCACCGATGCGCTGCTGCGTGAACTGGATAAGGATCTCCGCGGCCACCTGGCGGCCCGTTTGGTGTAA	MQKDALNNVHITDEHVLMTPEQLKAEFPLSVEQEAQIAHARETISNIIAGRDPRLLVVCGPCSIHDPEAAIEYARRFKALAAEVSDSLYLVMRVYFEKPRTTVGWKGLINDPHMDGSFDVEGGLKIARRLLVELVNMGLPLATEALDPNSPQYLGDLFSWSAIGARTTESQTHREMASGLSMPVGFKNGTDGSLATAINAMRAAAMPHRFVGINQAGQVCLLQTQGNPNGHVILRGGKAPNYGPEDVEKCEKEMAQAGLKPSLMVDCSHGNSNKDFRRQPAVAESVVAQIKDGNRSIIGLMIESNIHEGNQSSEQPRESMKYGVSVTDACISWETTDALLRELDKDLRGHLAARLV	PGPT0012920_4387	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012920-3_deoxy_7_phosphoheptulonate_synthase|aroF|aroG|aroH-K01626	NA	NA
BMS020_01451	1224	dgcN	COG2199	Diguanylate cyclase DgcN	ATGAATAAGGACTTTTCACAGACATCGCGCCCGACGTTCAAACGCGCGCTGCGTCGCATTAGCGTGATAAGCGTGGTGATCTCCATGACGCTGGTCTGGCTGCTGCTGAGCACGGCCTCTATTTTCACGCTCAAGCAGTACGCGCAGAAAAATCTTGAGCTCACTGCCGCGACCATGGGCCGCAGCCTCGAAGCCGCCCTGGTGTTTGGCGACAGCGCGGCAGCAGAGGAGACCCTCGCTTCGCTGGGGAAGCAAGGGCAGATTTCCCAGGCGATCGTGCTCAACGGCCAGAAGCAGCACTTCGCCGCCTGGCGCCACGAACCGCTGGCCAACAAAGAACAAGTGAGCGGCCTTATCAGTAAATGGCTGTTTCCGGAGCCCACGGTGCAGCCCATCTGGCACCAGGGGAAACAAATCGGCGAGCTGCGACTGACCGCGCTTGACGAACTGATTAGCCACTTTCTCGGCATCTCGATTCTGGTACTGACCGGCAGCATTCTGCTCGCCTCATTCATCGGCCTGCTGCTGACCCACTCCCTGCACCGGGGGATCGTCGCCGCCCTGCAGAGCATCACCGAGGTCGTGCATGATATTCGCGAAAACCGCCACTTCTCCCGGCGTGTGCCGGAGGAGCGTATCGAGGAGTTCCATCTGTTTGCCCAGGACTTTAACAGTCTGCTGGGGGAGATGGAGGACTGGCAGCGCCAGTTGCAGGCCAAAAATGCTCAGCTGTTGCGCAGCTCGCTACACGATCCGTTGACCGGCCTGGCTAACCGCGCCGCCTTTCGCAACGCGCTCGCCGAGCTGATGAAAAATGAAGTGGATCACCAGACCTCAGCGTTACTGTTTCTCGATGGCGATAACTTCAAATTGATCAATGACAACTGGGGACATGCGGCGGGCGATAAAGTGCTGATGGAAGTCGCCAGCCGCCTGATGACTTTCGCCGGTAAACGCCATCTGGCGTGGCGTCTTGGCGGCGACGAGTTTGCCGTTCTGCTGCGCGAGGTGCGCTCGGAAGCAGAAGTCCAGGCCCTGTGCCAGGCGCTGTCAGAACAATTTCTTCCGCCATTCAACCTGCACAATGGCCATAGCGCCACGCTCTCGCTGAGCGTCGGTTATGCCCTGGCGTGGGAACACGCCACGGCGGAATCACTGCAAGAACTTGCCGATCAGAATATGTATCGGATGAAAAACCAACGTATCCAGCAGATGCTGAAATAA	MNKDFSQTSRPTFKRALRRISVISVVISMTLVWLLLSTASIFTLKQYAQKNLELTAATMGRSLEAALVFGDSAAAEETLASLGKQGQISQAIVLNGQKQHFAAWRHEPLANKEQVSGLISKWLFPEPTVQPIWHQGKQIGELRLTALDELISHFLGISILVLTGSILLASFIGLLLTHSLHRGIVAALQSITEVVHDIRENRHFSRRVPEERIEEFHLFAQDFNSLLGEMEDWQRQLQAKNAQLLRSSLHDPLTGLANRAAFRNALAELMKNEVDHQTSALLFLDGDNFKLINDNWGHAAGDKVLMEVASRLMTFAGKRHLAWRLGGDEFAVLLREVRSEAEVQALCQALSEQFLPPFNLHNGHSATLSLSVGYALAWEHATAESLQELADQNMYRMKNQRIQQMLK	PGPT0026000_427	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
BMS020_01452	483	pal_2		Peptidoglycan-associated lipoprotein	ATGATCAGGAAATATTTCGCCCCCGCCCTGATGGCGGCGGCGCTTTTGACAGGTTGCCAGGCTCCTCAGGGAAAATTTACCCCTGAGCAGGTGGCGGCGATGAAATCTTTTGGCTTCACTGAAAGCAATGGCGATTGGTCCCTGGGCTTATCCGATAGCATCCTGTTTGACAAGAATGACTACCGACTACGTCCCGACAGCCGCCAGCAGATCACCCAAATGGCCTCGCGGCTGGCGACAACCGGGATTACACATAGCCGCCTTGAAGGCCACACCGATAATTATGGTGAGGATAGTTATAACGAAGCCCTGTCGCTTAAGCGGGCCAACAGCGTAGCCGATGCCTGGGCGGAAGGCGCCCATATCCCGCGCAGTAATTTAGTCACCCGCGGCCTTGGCAAAAAATACCCGATCGCCAGCAACGATACCGCGGCCGGGCGCGCTGAAAACCGCCGGGTCACGGTGGTCATCAGCACGCCGTAG	MIRKYFAPALMAAALLTGCQAPQGKFTPEQVAAMKSFGFTESNGDWSLGLSDSILFDKNDYRLRPDSRQQITQMASRLATTGITHSRLEGHTDNYGEDSYNEALSLKRANSVADAWAEGAHIPRSNLVTRGLGKKYPIASNDTAAGRAENRRVTVVISTP				NA	NA	NA	NA	NA
BMS020_01453	1359			hypothetical protein	ATGACAACCTGCACCTCGCGCGCGGCATGGCTGAACCTGCTGCGTCGCCTCCATTTCTATATCGGGCTGTTTATCGGACCGTTTATCTTTGTCGCTGCCCTGACCGGCACGCTGTACGTGGCGACGCCGCAGCTGGAAAACTGGCTCTATCACGATGCGCTGTATGGCCTTCCCGAAGGCACCCCGCAGCCGCTCAGCGCACAGATTGCGGTGGCAGAAGAAGCGACCCAGGGTAATCTGCGGCTGCTGGCGGTACGTCCGGCCCCCGCGGTGGGCGAGACCACCCGCATTATGTTTGCCGATCCGAGTCTCGGGGAGTCGGAATCCCGGGCCATTTTTGTCGATCCGATCGCGCTGCGGGTGAAGGGCGATATGACGGTCTACGGCACCAGCGGCATCCTGCCGCTGCGGCAGTGGATTGACTATGCGCATCGTTCGCTGCTGCTGGGCGACAGCGGGCGGCTCTACAGCGAACTGGCTGCCTCATGGATGTGGGTGGCCGCGCTGGGGGGCATTGCCCTGTGGGCGATGACGCGTCCAAAACGGCGGCTAAATAACGCCCTGCAGAATCATCGTCGGCTGCACGTGACGCTGGGCTGGTGCTTACTGCTGGGCATGCTGCTTTTCTCCGCCACCGGCCTGACCTGGTCGCAATGGGCCGGCGGCAACGTGGATAAAATGCGGGCGGCTTTCGGCTGGTGGACGCCGCAGGTCAATACCCTGCTGCACGGTGAGGCGCCGATGGCGCACGATCCCCATGCCGGGCATCATAGGGAGGCGATGGCCATGACCCAGCATCAGCCAGCGCAGTTTGACCAGGCGCTGGCGGTGGCCCGTCAGGCGGGGCTGAACGCCAGCCGGCTGGAGATCCGTCCGCCGGTGTCAGACGAACGCGCCTGGACGGTGAATGAGATCGACCGCCGCTGGCCGACGCAGGTGGACGCGGTGGCGATCGATGGCGCCTCGATGCAGGTGGTGGATCGCACCCATTTTGCCGACTTTCCGCTGATGGCGAAGCTTACCCGCTGGGGCGTCGATTTCCATATGGGGATCCTCTTTGGTCTGGCGAATCAGCTGCTGCTGGTGGGGTTTGGCTGCGCGCTGTGCGTAACCATCGGCGTGGGGTACCGGCTGTGGTGGATACGCCGTCCGCCACAGGCCGTCTGGGATCCGGCGCTTTCCCTGCTGCAGGCATGGCTGTCGCTCGCCTGGCCTGCCCGTGGGCTGGTGCTGGGGATAGCGTTAGCCCTGGGGCTGGCCATGCCGTTGATGGGGATCAGCCTGGTGCTGTTCATTGCCGTTGACTACCTGCGCTGGCGCGCGGCAACGGCAATGAGGATAGCGAAGTCTAGCGATTAA	MTTCTSRAAWLNLLRRLHFYIGLFIGPFIFVAALTGTLYVATPQLENWLYHDALYGLPEGTPQPLSAQIAVAEEATQGNLRLLAVRPAPAVGETTRIMFADPSLGESESRAIFVDPIALRVKGDMTVYGTSGILPLRQWIDYAHRSLLLGDSGRLYSELAASWMWVAALGGIALWAMTRPKRRLNNALQNHRRLHVTLGWCLLLGMLLFSATGLTWSQWAGGNVDKMRAAFGWWTPQVNTLLHGEAPMAHDPHAGHHREAMAMTQHQPAQFDQALAVARQAGLNASRLEIRPPVSDERAWTVNEIDRRWPTQVDAVAIDGASMQVVDRTHFADFPLMAKLTRWGVDFHMGILFGLANQLLLVGFGCALCVTIGVGYRLWWIRRPPQAVWDPALSLLQAWLSLAWPARGLVLGIALALGLAMPLMGISLVLFIAVDYLRWRAATAMRIAKSSD				NA	NA	NA	NA	NA
BMS020_01454	459			hypothetical protein	GTGGTCAGCAACAGTTTTCAGCAAACGACACCTAAACGGCGAGCCGCCTGGCTGGCGCTGTTGGCGATCCTGCTGATCGTCGTGGCTCCCCTGATCTCCGTCTCCCTGCAAAAAGACCCCATGAGCGCCATGCCCGGCATGCACCACGCCATGATGATGGACAGCTCGCCAGCGAGTATGGCGCAGATGCCTGGCCACGAGATGGCGATGACGCATAGCGCAGACGGCGCTACGCATACCGGACACGAACTGCCGCTGGATCATGCCGAAGCGTGTGGCTATTGCGTGCTGTTAGCCCACGTCCCGGGGCTGCTTTTCGCGCTGGCGCTGTTCGTCGCCATGCTCCTGCGGCGCATTCGCCTGCCGGCTTCTCGGCCGGTATTAAAACACTGGCGTTACTTTCCCTGGCTTTACCCCGAAACCCGCGCCCCGCCGCGGCTGTCTGCTTTTTCCCTTTAA	MVSNSFQQTTPKRRAAWLALLAILLIVVAPLISVSLQKDPMSAMPGMHHAMMMDSSPASMAQMPGHEMAMTHSADGATHTGHELPLDHAEACGYCVLLAHVPGLLFALALFVAMLLRRIRLPASRPVLKHWRYFPWLYPETRAPPRLSAFSL				NA	NA	NA	NA	NA
BMS020_01455	348	rplS_1	COG0335	50S ribosomal protein L19	ATGAGCAACATTATTAAGCAACTTGAACAAGAACAGATGAAGCAGGACGTACCTTCCTTCCGTCCGGGTGATACCGTGGAAGTGAAAGTATGGGTTGTTGAAGGTTCCAAAAAACGTCTGCAGGCATTCGAGGGCGTGGTTATCGCTATTCGTAACCGCGGTCTGCACTCTGCATTCACTGTTCGCAAAATTTCCAACGGCGAAGGCGTTGAGCGTGTCTTCCAGACTCACTCTCCGGTAGTTGACAGCATTGCTGTTAAACGTCGTGGTGCTGTACGTAAAGCTAAACTGTACTACCTGCGTGAGCGCACTGGTAAGTCTGCTCGTATCAAAGAGCGTCTTAACTAA	MSNIIKQLEQEQMKQDVPSFRPGDTVEVKVWVVEGSKKRLQAFEGVVIAIRNRGLHSAFTVRKISNGEGVERVFQTHSPVVDSIAVKRRGAVRKAKLYYLRERTGKSARIKERLN				NA	NA	NA	NA	NA
BMS020_01456	768	trmD_1	COG0336	tRNA (guanine-N(1)-)-methyltransferase	ATGTGGATTGGCATAATTAGCCTGTTTCCTGAAATGTTCCGCGCAATTACCGATTACGGGGTAACTGGCCGGGCAGTAAAAAATGGCCTGCTGAGCATCGAAAGCTGGAGTCCTCGCGACTTCACGCATGACCGGCACCGTACCGTGGACGATCGTCCTTACGGCGGCGGACCGGGGATGCTAATGATGGTGCAACCCTTACGGGATGCCATTCATGCAGCAAAAGCCGCGGCAGGTGAAGGCGCGAAGGTGATTTATCTGTCACCTCAGGGACGCAAGCTTGATCAAGCGGGCGTCAGCGAACTGGCAACGAATCAGAAACTGATTCTGGTGTGCGGTCGCTACGAAGGGATAGACGAGCGCGTAATCCAAACCGAAATTGACGAAGAATGGTCAATCGGCGATTACGTTCTCAGCGGTGGTGAGTTACCGGCAATGACGCTGATTGACTCCGTTTCCCGGTTCATTCCGGGGGTACTGGGCCATGAAGCATCAGCAACGGAAGATTCCTTTGCTGATGGGTTGCTGGATTGTCCCCACTATACCCGTCCTGAAGTGTTAGAAGAGATGGAAGTACCGCCAGTATTGCTGTCGGGAAACCATGCTGAGATACGTCGCTGGCGTCTGAAGCAGTCGCTGGGCCGAACCTGGCTTAGAAGACCTGAACTTCTGGAAAACCTGGCTCTGACTGAAGAGCAAGCAAAGCTGCTGGCGGAGTTCAAAACTGAACACGCGCAACAGCAGCATAAACATGATGGGCAGGCGTGA	MWIGIISLFPEMFRAITDYGVTGRAVKNGLLSIESWSPRDFTHDRHRTVDDRPYGGGPGMLMMVQPLRDAIHAAKAAAGEGAKVIYLSPQGRKLDQAGVSELATNQKLILVCGRYEGIDERVIQTEIDEEWSIGDYVLSGGELPAMTLIDSVSRFIPGVLGHEASATEDSFADGLLDCPHYTRPEVLEEMEVPPVLLSGNHAEIRRWRLKQSLGRTWLRRPELLENLALTEEQAKLLAEFKTEHAQQQHKHDGQA	PGPT0007595_7	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
BMS020_01457	549	rimM_1	COG0806	Ribosome maturation factor RimM	ATGAGCAAGCAACACACCGCACAAGCACCTGTTGATCCGATCGTATTGGGGAAAATGGGTTCTTCCTACGGTATCCGTGGTTGGCTCAGAGTGTTTTCCTCCACCGAAGACGCCGAAAGCATTTTTGACTATCAGCCCTGGTTAATCCAGAAGGCGGGTCAGTGGCAGGTCGTTGAGCTGGAAAGCTGGCGCCACCACAATCAGGACATCATCATCAAGCTGAAAGGCGTTGACGATCGTGATGCCGCGAATCTACTGACTAATTGCGAAATTATCGTGGATTCATCGCAGTTGCCGGAGCTGGAAGAGGGTGACTACTACTGGAAAGACCTGATGGGCTGCCAGGTAGTGACAACGGAAGGCTATAGCCTCGGTAAAGTCATCGATATGATGGAAACCGGGTCTAATGACGTGCTCGTCATCAAGGCAAACCTGAAAGATGCATTTGGTATCAAGGAGCGGTTGGTTCCGTTCCTCGATGGGCAGGTTATCAAGAAAGTCGATCTCACTACGCGTACTATCGAAGTAGATTGGGATCCTGGTTTTTAA	MSKQHTAQAPVDPIVLGKMGSSYGIRGWLRVFSSTEDAESIFDYQPWLIQKAGQWQVVELESWRHHNQDIIIKLKGVDDRDAANLLTNCEIIVDSSQLPELEEGDYYWKDLMGCQVVTTEGYSLGKVIDMMETGSNDVLVIKANLKDAFGIKERLVPFLDGQVIKKVDLTTRTIEVDWDPGF				NA	NA	NA	NA	NA
BMS020_01458	249	rpsP_1	COG0228	30S ribosomal protein S16	ATGGTAACTATTCGTTTAGCACGTCACGGCGCTAAAAAGCGTCCGTTCTACCAGGTTGTTGTCACCGACAGCCGTAATGCACGCAACGGTCGCTTCATCGAGCGCGTTGGTTTCTTCAACCCGATCGCTAACGGTGCGGAAGAAGAGACTCGCCTGGATCTGGATCGTATCGCTCACTGGGTTGGCCAGGGCGCTACTGTTTCCGATCGCGTTGCCGCGCTGATCAAAGCCGCTAACAAAGCAGCTTAA	MVTIRLARHGAKKRPFYQVVVTDSRNARNGRFIERVGFFNPIANGAEEETRLDLDRIAHWVGQGATVSDRVAALIKAANKAA				NA	NA	NA	NA	NA
BMS020_01459	1365	ffh_1	COG0541	Signal recognition particle protein	ATGTTTGATAATTTAACCGATCGTTTGTCGCGTACGCTGCGCAACATTAGCGGCCGCGGACGCCTTACAGAAGACAATATTAAAGACACCCTGCGCGAAGTGCGCATGGCGCTGCTGGAAGCGGACGTTGCGCTTCCGGTGGTACGTGATTTCATCAGCCGCGTCAAAGAGAGCGCGGTCGGCCATGAAGTCAATAAAAGCCTGACTCCGGGTCAGGAGTTCGTCAAAATCGTCCGCAACGAGCTGGTGGCGGCGATGGGCGAAGAGAACCAGACCCTCGACCTGGCGGCGCAGCCGCCGGCGGTGGTGCTGATGGCGGGCCTGCAGGGCGCCGGTAAAACCACCAGCGTCGGTAAGCTGGGGAAATTCCTGCGCGAGAAGCACAAGAAGAAAGTGCTGGTGGTTTCCGCGGACGTTTACCGCCCGGCGGCGATCAAACAGCTGGAGACCCTGGCCGAGCAGGTCGGCGTCGACTTCTTCCCGTCCGACGTCGGCCAGAAGCCGGTTGATATCGTCAACGCGGCGCTGAAAGAAGCGAAGCTCAAATTCTACGACGTGCTGCTGGTGGATACCGCCGGTCGTCTGCACGTTGACGAAGCGATGATGGACGAAATTAAGTACGTCCACGCCGCCATTAATCCGGTTGAAACCCTGTTCGTCGTCGATGCGATGACCGGCCAGGATGCGGCGAATACCGCCAAAGCCTTTAACGAAGCGCTGCCGCTGACCGGCGTGGTGCTGACCAAAGTGGACGGCGACGCCCGCGGCGGCGCGGCGCTGTCGATTCGCCATATTACCGGCAAGCCGATTAAATTCCTCGGCGTCGGCGAGAAAACCGAAGCGCTGGAGCCGTTCCATCCGGACCGCGTCGCCTCTCGCATCCTCGGCATGGGCGACGTGCTGTCGCTGATCGAAGATATCGAGAGCAAAGTCGACCGCGCGCAGGCCGAGAAGCTGGCCTCCAAGCTGAAGAAAGGCGACGGTTTCGATCTCACCGACTTCCTTGAGCAGTTGCGCCAGATGAAAAACATGGGCGGCATGGCCAGCCTGATGGGCAAGCTGCCGGGTATGGGCCAGATCCCGGACAACGTGAAAGCGCAGATGGATGACAAAGTGCTGGTACGTATGGAGGCGATCATCAACTCGATGACCCTGAAAGAGCGCGCCAAGCCGGAAATCATCAAAGGTTCACGTAAGCGCCGTATCGCCGCCGGCTGCGGGATGCAGGTGCAGGATGTGAACCGTCTGCTCAAGCAGTTCGACGACATGCAGCGCATGATGAAGAAGATGAAGTCGAAAGGCGGCATGATGAAGATGATGCGTGGCATGAAAGGGATGATGCCGCCAGGCTTCCCGGGCCGCTAA	MFDNLTDRLSRTLRNISGRGRLTEDNIKDTLREVRMALLEADVALPVVRDFISRVKESAVGHEVNKSLTPGQEFVKIVRNELVAAMGEENQTLDLAAQPPAVVLMAGLQGAGKTTSVGKLGKFLREKHKKKVLVVSADVYRPAAIKQLETLAEQVGVDFFPSDVGQKPVDIVNAALKEAKLKFYDVLLVDTAGRLHVDEAMMDEIKYVHAAINPVETLFVVDAMTGQDAANTAKAFNEALPLTGVVLTKVDGDARGGAALSIRHITGKPIKFLGVGEKTEALEPFHPDRVASRILGMGDVLSLIEDIESKVDRAQAEKLASKLKKGDGFDLTDFLEQLRQMKNMGGMASLMGKLPGMGQIPDNVKAQMDDKVLVRMEAIINSMTLKERAKPEIIKGSRKRRIAAGCGMQVQDVNRLLKQFDDMQRMMKKMKSKGGMMKMMRGMKGMMPPGFPGR	PGPT0025750_2059	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025750-ffh-K03106	NA	NA
BMS020_01460	792	ypjD_1	COG4137	Inner membrane protein YpjD	ATGCCTGTTTTTGCTCTACTCGCCCTTGTCGCCTACTCTGTCAGCCTCGCGCTGATTATCCCCGGCTTGCTGCAAAAAAACAGCAGCTGGCGGCGAATGGCGATTTTATCAGCGACTATCGCGTTGATCTGCCATGCTTTTGCGCTGGAAGCACGGATATTCCCCGGCGGCGAGAGCGGGCAAAACCTCAGCTTACTGAACGTCGGGTCGCTGGTGAGCCTGATGATCTGTACGGTCATGACTATCGTGGCCTCGCGCAATCGCGGCTGGCTGCTGCTGCCTATCGTCTATGCCTTCGCGCTGATCAATCTGGCCTTCGCCACCTTCGTGCCTAACGAATATATCACCCACCTGGAAACCACCCCGGGGATGCTGGTGCATATCGGCCTGTCGCTCTTCTCCTACGCCACGCTGATCATTGCCGCGCTGTATGCGCTACAGCTGGCGTGGATCGACTACCAGTTAAAGAACAAAAAGCTGGCCTTCAGTAGCGAAATGCCGCCGCTGATGAGCATTGAGCGCAAAATGTTCCACATCACCCAGGTCGGCGTGGTGCTGCTGACCCTGACGCTGTGTAGCGGTCTGTTCTATATGCACAATCTGTTCAGCAGCGAAAACATTGATAAAGCGGTGCTGTCGATTATTGCGTGGTTCGTCTATATCGTCCTGCTGTGGGGCCACTATCATGAAGGGTGGCGCGGACGTCGTGTGGTCTGGTTCAGCGTCGCTGGCGCCGGTCTGCTGACGCTGGCCTATTTTGGTAGCCGCGTGCTGCAACAGTTCGTGAGCTAA	MPVFALLALVAYSVSLALIIPGLLQKNSSWRRMAILSATIALICHAFALEARIFPGGESGQNLSLLNVGSLVSLMICTVMTIVASRNRGWLLLPIVYAFALINLAFATFVPNEYITHLETTPGMLVHIGLSLFSYATLIIAALYALQLAWIDYQLKNKKLAFSSEMPPLMSIERKMFHITQVGVVLLTLTLCSGLFYMHNLFSSENIDKAVLSIIAWFVYIVLLWGHYHEGWRGRRVVWFSVAGAGLLTLAYFGSRVLQQFVS				NA	NA	NA	NA	NA
BMS020_01461	1287			hypothetical protein	GTGGAACATATCTCCACCACCACGCTGATCATAACGCTGATCGTCATGGTGATTATCTCTGCCTATTTCTCCGGTTCCGAAACCGGCATGATGACGCTGAACCGCTATCGGCTGCGTCATATGGCGAAACAAGGCAACCGCCCCGCCAAGCGCGTGGAGAAGCTGCTGCGCAAGCCGGACCGCCTGATTAGCCTTGTGCTTATCGGCAATAACCTCGTCAACATTCTCGCCTCGGCGCTGGGCACCATCGTCGGCATGCGCCTCTACGGCGATGCCGGCGTCGCGATCGCCACCGGCGTGCTCACCTTTGTGGTGCTGGTATTTGCCGAAGTCCTGCCGAAAACCATCGCCGCCCTCTATCCGGAAAAGGTCGCCTACCCCAGCAGCTTCCTGTTGGCGCCCCTGCAGGTGCTGATGATGCCCCTGGTGTGGCTGCTGAATACCATCACCCGCATGCTGATGCGCATGATGGGCATCCGCACCGATACCGTCATCAGCAGCGCCCTGAGTAAAGATGAACTGCGCACGATTGTGAATGAATCCCGTTCACAAATCTCACGACGCAATCAGGATATGCTGCTGTCGGTGCTGGACCTGGAGAAAGTCAGCGTTAACGACATCATGGTGCCGCGCAATGAGATTGTCGGCATCGACATCAATGACGACTGGAAATCTATCGTCCGCCAGCTGACCCACTCCCCACACGGCCGCATTGTGCTCTACCGCGATTCGCTGGACGATGCCATCAGCATGCTGCGCGTCCGTGAAGCCTACCGCCTGATGACGGAGAAGAAAGAGTTCACAAAAGAGATCATGCTGCGGGCGGCAGATGAGATCTACTTTGTTCCGGAAGGGACGCCGCTCAGCACCCAGCTGGTGAAATTTCAGCGCAATAAAAAGAAAGTCGGCCTGGTGGTTAATGAATACGGCGATATTCAGGGGCTGGTTACTGTAGAAGATATTCTTGAAGAGATTGTCGGCGACTTCACCACCTCCATGTCACCCACCCTGGCGGAGGAAGTGACCCCGCTCAACGACGGTACGGTGATAATCGACGGCAGCGCCAACGTTCGCGAGATCAACAAAGCGTTCAACTGGAACCTGCCGGAAGATGAAGCGCGCACCATCAACGGTATCATCCTTGAAGCGCTGGAAGAGATCCCGGTCCCGGGCACCCGCGTGCGCATTGAGCAGTATGATATTGATATCCTCGACGTGCAGGACAACATGATCAAACAGGTGAAAGTGATGCCGGTGAAATCATTACGCGAGAGCGTCGCGGAGTAG	MEHISTTTLIITLIVMVIISAYFSGSETGMMTLNRYRLRHMAKQGNRPAKRVEKLLRKPDRLISLVLIGNNLVNILASALGTIVGMRLYGDAGVAIATGVLTFVVLVFAEVLPKTIAALYPEKVAYPSSFLLAPLQVLMMPLVWLLNTITRMLMRMMGIRTDTVISSALSKDELRTIVNESRSQISRRNQDMLLSVLDLEKVSVNDIMVPRNEIVGIDINDDWKSIVRQLTHSPHGRIVLYRDSLDDAISMLRVREAYRLMTEKKEFTKEIMLRAADEIYFVPEGTPLSTQLVKFQRNKKKVGLVVNEYGDIQGLVTVEDILEEIVGDFTTSMSPTLAEEVTPLNDGTVIIDGSANVREINKAFNWNLPEDEARTINGIILEALEEIPVPGTRVRIEQYDIDILDVQDNMIKQVKVMPVKSLRESVAE				NA	NA	NA	NA	NA
BMS020_01462	591	grpE_1	COG0576	Protein GrpE	ATGAGTAGTAAAGAACAGAAAACGCCTGAGGGGCAAGCCCCGGAAGAAATTATCACGGAGCAGCACGACGACGTTGAGGCGGTAGAGCCTGAAGTTTCGGCTGAGCAGGTGGATCCGCGCGATGAAAAAATTGCGAATCTGGAAGCCCAGCTGGCTGAAGCGCAGAAACGTGAACGTGAAGTGATGCTGCGTGCCAAAGCCGACGAAGATAACCTGCGTCGTCGTACCGAGCAGGATATCGAGAAAGCGCACAAATTCGCGCTGGAAAAATTCGTCAATGAACTGCTGCCGGTGATCGACAGCCTGGACCGCGCGCTGGAAGTGGCCGACAAGGCTAACCCGGAGCTGGCGCCGATGGTGGAAGGGATCGAACTGACCCTCAAATCTATGCTGGACGTAGTGCGTAAGTTTGGCGTGGAAGTGATCGCCGACACCAACGTTCCGCTGGATCCGAACGTCCACCAGGCCATTGCGATGGTCGAGTCTGAAGACGTGGCGGCGGGCAACGTGCTGGCCGTGATGCAGAAAGGTTACACCCTGAACGGCCGCACCATTCGCGCCGCGATGGTGACGGTAGCAAAAGCGAAATAA	MSSKEQKTPEGQAPEEIITEQHDDVEAVEPEVSAEQVDPRDEKIANLEAQLAEAQKREREVMLRAKADEDNLRRRTEQDIEKAHKFALEKFVNELLPVIDSLDRALEVADKANPELAPMVEGIELTLKSMLDVVRKFGVEVIADTNVPLDPNVHQAIAMVESEDVAAGNVLAVMQKGYTLNGRTIRAAMVTVAKAK	PGPT0014650_3660	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0014650-grpE-K03687	NA	NA
BMS020_01463	879	nadK	COG0061	NAD kinase	ATGAAGAACCATTTCAAGTGTATCGGCATTGTGGGACATCCTCGTCACCCCACCGCCCTGACCACACATGAAATGCTCTGGCGCTGGCTGTGCAGCAAAGGGTATGAAGTGCTGGTTGAACAGCAGATCGCCCATGAACTCCAGCTCAGCAACGTGAAAACCGGCACGCTGGCGGAGATTGGCCAACAGGCCGACCTCGCGGTGGTGGTAGGCGGCGACGGCAATATGCTCGGCGCGGCGCGGACTCTGGCCCGTTATGACATTAACGTCATCGGCATTAACCGCGGTAACCTCGGCTTTCTCACCGATCTGGACCCGGACAACGCCCTACAGCAGCTCGCCGACGTGCTGGAAGGCCACTACATCGCGGAGAAACGCTTTCTGCTGGAGGCCCAGGTGTGCCAGCAGGATTGCCAGAAACGCATCAGCACCGCCATCAACGAAGTGGTGCTGCACCCCGGCAAAGTGGCGCATATGATTGAGTTCGAAGTCTATATCGATGAAGTCTTTGCCTTCTCCCAGCGCTCGGACGGCCTGATTATCTCCACTCCGACCGGCTCCACGGCCTATTCGCTGTCGGCCGGCGGCCCGATCCTCACCCCGTCGCTGGACGCCATCACCCTGGTGCCGATGTTCCCGCACACCCTCTCGGCGCGACCGCTGGTGATCAACGGCGACAGTACCATCCGCCTGCGCTTCTCCCACCGCTGCAGCGATCTGGAGATCAGCTGCGACAGCCAGATTGCCCTGCCGATCCAGGATGGCGAAGACGTTCTCATTCGCCGCTGTGATTATCACCTCAATCTGATTCACCCTAAAGATTACAGCTATTTCAATACATTAAGCACCAAGCTCGGCTGGTCGAAAAAATTGTTCTGA	MKNHFKCIGIVGHPRHPTALTTHEMLWRWLCSKGYEVLVEQQIAHELQLSNVKTGTLAEIGQQADLAVVVGGDGNMLGAARTLARYDINVIGINRGNLGFLTDLDPDNALQQLADVLEGHYIAEKRFLLEAQVCQQDCQKRISTAINEVVLHPGKVAHMIEFEVYIDEVFAFSQRSDGLIISTPTGSTAYSLSAGGPILTPSLDAITLVPMFPHTLSARPLVINGDSTIRLRFSHRCSDLEISCDSQIALPIQDGEDVLIRRCDYHLNLIHPKDYSYFNTLSTKLGWSKKLF	PGPT0013490_3418	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858	NA	NA
BMS020_01464	1662	recN_1	COG0497	DNA repair protein RecN	ATGTTGGCGCAACTCACCATCAGTAATTTTGCTATCGTTCGTGAACTGGAAATTGATTTCCACAGCGGCATGACCGCCATCACCGGGGAAACCGGCGCCGGGAAATCCATTGCCATCGACGCGCTGGGGCTGTGCCTCGGCGGCAGAGCGGAAGCCGACATGGTGCGTCGCGGCGCCACCCGTGCCGACCTGTGCGCGCGCTTCGCGCTGAAAGATACCCCGGCCGCCCAGCGCTGGCTGGAAGAGAACCAGCTGGAGAGCGGGCGTGAGTGTTTACTTCGCCGGGTGATCAGCGCCGACGGCCGCTCACGCGGCTTCATCAACGGCACCGCCGTCCCGCTCTCGCAGCTGCGCGAGCTGGGCCAGCTGCTGATCCAGATCCACGGCCAGCATGCGCACCAGCTGTTGACCAAACCCGAACACCAGAAAACGCTGCTCGACGGCTATACCGGTGAGTATGCGCTCACTCAGCGCATGGCAGAGCACTATCGCCAGTGGCACCAGAGCTGCCGCGAGCTGGCCCAGCATCAGCAGCAGAGCCAGGAGCGCGCCGCCCGCGCCGATCTGCTGCAGTACCAACTTAAAGAGCTGAACGAATTTAACCCGCTGGCGGGAGAGTTTGAGCAGATTGACGAAGAGTACAAACGCCTGGCCAACAGCGGTCAGCTGCTCAGCACCTGTCAGCACGCCCTGACGGTACTGGCGGACGGCGAAGAGGCCAACCTGCAGAGCCAGCTTTATACCGCGAAGCAGCTGGTCAGCGAGCTGGTGGGTATGGACAGCAAGCTTTCCGGCGTGCTGGATATGCTGGAAGAGGCGGCCATTCAGCTCAGCGAGGCCAGCGATGAGCTGCGCCACTATCACGACCGTCTGGACCTCGATCCTAATCGTCTGTTCGAACTTGAGCAGCGGATTTCCCGGCAAATCGCGCTGGCGCGTAAACACCAGGTGATGCCGGAAGAGCTGCCGGCAGTTTATCAGGCGATGCTCGAAGAGCAGCGCCTGCTGGACGACAGCGCCGGCTCGCTGGAATCCCTCAGCCAGCAGGTGGTCGAACATCATCAGCAGGCGCTGGAGACCGCGCGCCAGCTGCACGCCCTGCGCCAGGCCAGCGCCGACGAGCTAACCCAGCTTATCACCGAGAGTATGCACTCACTTTCTATGCCGCACGGGGTCTTCGCGATTGAGGTCGCTTTTGATGAACGCCATCTCACCGCCGACGGCGCCGATCATATTGAGTTCCGCGTCACCACTAACCCGGGTCAGCCGCTGCAGCCGATCGCGAAAGTAGCCTCTGGCGGCGAATTGTCGCGTATTGCGCTGGCGATTCAGGTGATCACCGCACGTAAAATGGAAACCCCGGCGCTGATCTTCGACGAAGTGGACGTCGGCATCAGCGGCCCGACCGCAGCGGTGGTCGGCAAGCTGCTGCGCCAGCTGGGCGAGTCCACGCAGGTGATGTGCGTTACCCACCTGCCGCAGGTCGCAGGCTGCGGCCACCATCATTTCTTTGTCTGCAAAGAGACCGATGGCGAGATGACCGAAACCCATATGCAGGCGCTGGATAAGCGTGCTCGTCTGCAGGAGCTGGCTCGCCTGCTGGGCGGCAGCGAGGTCACGCGCAACACCCTGGCGAACGCGAAAGAGTTGCTTGCGGCGTAA	MLAQLTISNFAIVRELEIDFHSGMTAITGETGAGKSIAIDALGLCLGGRAEADMVRRGATRADLCARFALKDTPAAQRWLEENQLESGRECLLRRVISADGRSRGFINGTAVPLSQLRELGQLLIQIHGQHAHQLLTKPEHQKTLLDGYTGEYALTQRMAEHYRQWHQSCRELAQHQQQSQERAARADLLQYQLKELNEFNPLAGEFEQIDEEYKRLANSGQLLSTCQHALTVLADGEEANLQSQLYTAKQLVSELVGMDSKLSGVLDMLEEAAIQLSEASDELRHYHDRLDLDPNRLFELEQRISRQIALARKHQVMPEELPAVYQAMLEEQRLLDDSAGSLESLSQQVVEHHQQALETARQLHALRQASADELTQLITESMHSLSMPHGVFAIEVAFDERHLTADGADHIEFRVTTNPGQPLQPIAKVASGGELSRIALAIQVITARKMETPALIFDEVDVGISGPTAAVVGKLLRQLGESTQVMCVTHLPQVAGCGHHHFFVCKETDGEMTETHMQALDKRARLQELARLLGGSEVTRNTLANAKELLAA				NA	NA	NA	NA	NA
BMS020_01465	156	bamE_1	COG2913	Outer membrane protein assembly factor BamE	ATGATGTCGGATCCGTTCGGCACCAACACCTGGTTCTATGTATTCCGTCAGGAGCCGGGCCACGAGAAAGTGACTCAGCAGACCCTGACCCTGACCTTCAACAATGGCGGCGTGTTAACCAACATTGATAACAAGCCCGCGCTGATCAGTCAGTAA	MMSDPFGTNTWFYVFRQEPGHEKVTQQTLTLTFNNGGVLTNIDNKPALISQ				NA	NA	NA	NA	NA
BMS020_01466	291			hypothetical protein	GTGCCAGCTAATATTCGTGTTGAGGTCGCTTACGCGCTGCCTGAAAAGCAGTACCTGCAGCGGGTCACCCTGGACGAGGGGGCGACGGTCGAGCAGGCGATTGTCGCCAGCGGCCTGCTGGCGCTGCGTGATGACATCGATCTGGCGAAAAACAAGCTGGGTATTTACAGTCGTCCGGTTAAGCTGCACGACGAAGTCCATGACGGCGACCGGGTGGAAATCTATCGCCCGCTGATCGCAGATCCGAAAGAGCTGCGTCGCCAGCGGGCGGAGAAAAACGCCGCGAAGTAA	MPANIRVEVAYALPEKQYLQRVTLDEGATVEQAIVASGLLALRDDIDLAKNKLGIYSRPVKLHDEVHDGDRVEIYRPLIADPKELRRQRAEKNAAK	PGPT0027445_1026	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-RatA-RatB|YfjG-YfjF|RatAB-SsrAS_SYSTEM,PGPT0027445-antitoxin_ratB|yfjF|pasI-K09801	NA	NA
BMS020_01467	438	ratA	COG2867	Ribosome association toxin RatA	ATGCCTCAGATTAGCCGTACTGCGCTGGTGCCTTTCAGCGCGGAACAGATGTATCAACTGGTAAACGATGTGAAGTCTTATCCTGATTTTCTGCCAGGCTGCACCGGTAGCCGCGTGCTGGAATTCGGGCCGACGCAAATGACGGCGGCGGTTGATGTGTCCAAAGCCGGCATCAGTAAGACCTTCACGACCCGGAATACACTGACCAGCAACCAGAGTATTTTGATGAGCCTGGTGGATGGCCCGTTCAAGAAGCTGATTGGCGGCTGGAAGTTTATTCCGCTGAGCCCGGAGGCGTGCAAAATCGAGTTCCATCTCGATTTTGAGTTTACCAATAAGCTGATTGAGATGGCCTTTGGCCGGGTCTTTAAGGAACTGGCCGCCAACATGGTGCAGGCGTTCACCTCGCGCGCCAAAGAGGTCTACAGTGCCAGCTAA	MPQISRTALVPFSAEQMYQLVNDVKSYPDFLPGCTGSRVLEFGPTQMTAAVDVSKAGISKTFTTRNTLTSNQSILMSLVDGPFKKLIGGWKFIPLSPEACKIEFHLDFEFTNKLIEMAFGRVFKELAANMVQAFTSRAKEVYSAS	PGPT0027444_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-RatA-RatB|YfjG-YfjF|RatAB-SsrAS_SYSTEM,PGPT0027444-toxin_ratA|yfjG-na	NA	NA
BMS020_01468	483	smpB_1	COG0691	SsrA-binding protein	ATGACTAAGAAAAAAGCCCACAAACCTGGATCAGCCACCATTGCGCTGAATAAACGCGCCCGTCACGAATACTTTATCGAAGATGAATACGAGGCTGGTCTCGCCCTGCAGGGCTGGGAAGTCAAATCCCTGCGTGCAGGCAAAGCCAACATCGGCGATAGCTATGTCATCCTGAAGGATGGCGAAGCCTTCCTGTTCGGCGCCAACTTTACGCCCATGGCCGTGGCTTCCACCCACTATGTCTGCGACCCGACGCGCACCCGTAAGCTGCTGCTCAACCAGCGCGAACTCGACACGCTGTACGGCCGCATTAACCGCGAAGGTTACACCGTTGTCGCCCTGTCGCTGTACTGGAAGAACGCCTGGTGCAAAGTGAAAATCGGCGTCGCCAAAGGTAAGAAACAGCATGACAAGCGTACCGATCTGAAAGATCGTGAATGGGCGCTGGATAAGGCGCGTATTATGAAGCACGCCGGACGCTAA	MTKKKAHKPGSATIALNKRARHEYFIEDEYEAGLALQGWEVKSLRAGKANIGDSYVILKDGEAFLFGANFTPMAVASTHYVCDPTRTRKLLLNQRELDTLYGRINREGYTVVALSLYWKNAWCKVKIGVAKGKKQHDKRTDLKDREWALDKARIMKHAGR	PGPT0014355_900	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
BMS020_01470	741		COG1028	Glucose 1-dehydrogenase	ATGGGCAGATTTCAAGGTAAACGCATCCTTATCACTGGCGGTACCAGCGGTATGGGATTTGCAGGCGCACTGCGCATTGTTAGTGAGGGCGGCAATGTTGCCATTACGGGCCTCAATGATGAAAGGCTGAAGCGCGCCCGTAGTCTACTGCCTGAATCATCTCTCATTCTGAAAAACGATGCAGCCAGCGAAGCAGATATAAGCGTTCTTCAGGCAGCGATAAGCGACTGGGGTTCACTCGACGGACTATGGCTTAATGCTGGCTTCGCAGAAGTAGGTGCTCCGGAATCGGTGACAGCGGATGCTTTTAACCGCATGATGAATGCTAACGTCCGCGGCCCGATGCTGCAGCTTGCCGCTCTTTCTGGATCCCTCAATTCAGGCGCGTCTGTTCTTGTCACCTCATCTTCATCTGTATATGAAGGTGCGGCAATGACCAGCCTCTATGCAGCAACGAAAGGCGCAGTTGTCGCAATGGTTAAAAGCTGGGCCTCTGCGCTGGCTGTGCGGGGTATTCGCGCCAATACGCTGGTACCGGGTCCGATCGAAACGAACTTTAGACATTTCATGCCGGAAGAGTCGCGTCAGCAGTTTGAAGATTTTGTTGTCAGCCAGGTCCCCCTCGGCCGGGCAGGAACCGCGGAAGAAGCATCTGCTGTCGCACTTTTCCTGCTTTCTGATGATGCATCCTATGTCACCGGCAGTCAGTACGCGGTAGATGGCGGGCTGGTGCATTACTAG	MGRFQGKRILITGGTSGMGFAGALRIVSEGGNVAITGLNDERLKRARSLLPESSLILKNDAASEADISVLQAAISDWGSLDGLWLNAGFAEVGAPESVTADAFNRMMNANVRGPMLQLAALSGSLNSGASVLVTSSSSVYEGAAMTSLYAATKGAVVAMVKSWASALAVRGIRANTLVPGPIETNFRHFMPEESRQQFEDFVVSQVPLGRAGTAEEASAVALFLLSDDASYVTGSQYAVDGGLVHY				NA	NA	NA	NA	NA
BMS020_01471	279			hypothetical protein	ATGATGAAATTCCGCATCGGCCCCGGCAATACCTCCGAGATATGGTTGCTGCAAATGGAACCGCTGGTCACCATCCACAGCCCCGGACATTCAGAGGGGGCGCATGAACATATTCTGGTACACAGCGGAACTCTGCGCCTGCGCTTGAGCCAGTATGAAGTCATCACCCTGGAGCCCGGGGATTTTTATGCCTTCTCTGCAGAGATTGCGCACACGTACAGCGCAACGGAAACGGCGGTTAGCGCGACGGTGGTGATGACTCACCTCGAGCCCGGTTAA	MMKFRIGPGNTSEIWLLQMEPLVTIHSPGHSEGAHEHILVHSGTLRLRLSQYEVITLEPGDFYAFSAEIAHTYSATETAVSATVVMTHLEPG				NA	NA	NA	NA	NA
BMS020_01472	363			hypothetical protein	ATGCGTAAAGTTAATTTAAAAGACAGTTTTGCTCTGTTCAGCGATTACTGGAGCCCGAAAATTGTCGGCGAAATGAATAACGAATATGTCAAACTGGCTAAATTATCCGGAAAATTTGACTGGCATCATCATGAAGAGGAGGACGAGCTTTTTCTTGTGATCAGCGGCCGCTTGCGAATGGGCTTAAGAACAGGCGATATCATTCTTGATGCCGGTGAGTTTATTATTGTGCCGAAAGGAACTGAGCATTGTCCTGAAGCGTTAACCGAAGAGTGCTGCGTCGTTTTACTGGAGCCAAAATCGACCCTGAATACGGGTAATATCGTCAATGAACGTACGGTGCGTGAACTGGATAAACTCTAA	MRKVNLKDSFALFSDYWSPKIVGEMNNEYVKLAKLSGKFDWHHHEEEDELFLVISGRLRMGLRTGDIILDAGEFIIVPKGTEHCPEALTEECCVVLLEPKSTLNTGNIVNERTVRELDKL				NA	NA	NA	NA	NA
BMS020_01473	801			hypothetical protein	ATGTTTAATACGCTCCCCGATTTACACAGAAGTTTTGCAGAGCAACTGAAGCTTAAATTACAGTCTGACCCGCGGATCCTCGCCCTTCTCGCCGGCGGCTCGTTTATCCATGGCGGGTTTGATCAATACTCCGATCTCGATTTCGTGGTGGTGGTCGACCCTCTCTATTATGACGAAATCATGGCTCAGCGTATGGCGTTCGCCGGAACCCTCGGCCATCTGCTACATGCTTTCACCGGGGAACACGTCGGCGAGCCTCGCCTGCTGATCTGTCTGTTTGGCCCGCAACTTCTGCATGTCGATCTCAAATTTATCACCCTGGACATGCTCACTCAGCGCGTTGAGGAGCCTGCCGTGCTATTTACCCGTGATAGCGATGCTCTCGAGCGCCAGCTGGCAAAATTTAGCGCTTACTGGCCGAACATGACGCCGGAGTGGTTTGAGTCCCGAGTCTGGATCTGGCTGCATTATGCCGGGGTTAAACTGGGCAGGGGCGAACTCTTCGAAGCGCTGGGGATGCTGTCCTTCTTCCGCGAACAAGTGCTGGGACCGATGCTGTTCCGTCGCGCCAATCTACCGCAACGCGGGGTTCGCCGAATAGAAGCCCTCGGCATTGATCCCGATGGCCTGCTGACTTCCACTCTGGCAACGCACGATCGTCACTCTGTCGGGATTGCCATCCGAAGGGCTGCTGACGCTTATGTCAATCTGCGGGCTGATGCGCTGCCTGACAATATTGCAGACGATGCGGCGCGGTGGGCGGTCCTTGCCATGCTGGACGCCTATTCTGACAGGGAGTAA	MFNTLPDLHRSFAEQLKLKLQSDPRILALLAGGSFIHGGFDQYSDLDFVVVVDPLYYDEIMAQRMAFAGTLGHLLHAFTGEHVGEPRLLICLFGPQLLHVDLKFITLDMLTQRVEEPAVLFTRDSDALERQLAKFSAYWPNMTPEWFESRVWIWLHYAGVKLGRGELFEALGMLSFFREQVLGPMLFRRANLPQRGVRRIEALGIDPDGLLTSTLATHDRHSVGIAIRRAADAYVNLRADALPDNIADDAARWAVLAMLDAYSDRE				NA	NA	NA	NA	NA
BMS020_01474	861	pgrR_5		HTH-type transcriptional regulator PgrR	ATGTTTATGCGCGTCGCGGAGGCAGGGAGCTTCGTGCGTGCCGCGGAAACCCTTTCCCTGCCGGCCTCCACTGTCACCAGTACCATTAAAAACCTTGAGAAATACCTGAAGGTGCGACTGCTGAACCGGACCACAAGGCGGGTGAGCCTGACTCCGGAAGGGATGCAGTATCTGGCGCAGTGCCGGGAAATTCTCGCCCTCATCGAACATAGCGAATCCAGCCTGAGCGAGTCTGTGGCGCGGCCTCAGGGGCGCCTGCGGGTTGATATGCCCGCGGGCATCGCGCATTTCATCGTCATGCCCCATCTGCAAGACTTTTACCGACGTTACCCTGATATCTACCTGATGATCGGGGTCAGCGATCGGCAGGTCGATCTCATTCAGGAAGGCGTCGACTGCGTGATACGCACGGGAGAGCTGAACAACTCCAGCCTGGTGGCCCGGCCTCTGGGCCGCTTTCGCTGGGTCACCTGCGGGTCACCGGACTATCTCAGGGAATATGGCGTGCCGCCATCACCGGAGGCACTCTCTCAGCACCGGGCCGTGCATTATTTCTCCGGCCAGGCGAGGCGGGCCGATGAGTTCCGCTTCCTTCGCCACGGCGAGACTTTTTCTGTACCCGTCAGCGGCACCGCCGCGGTGAATGAAACGGGGCTTTATATAAAAATGTGCCTGGCAGGATTTGGGCTGGCGCAGCTGGCGGAGAATATCGTTGCTGACCACCTGCGGGAGGGGAGGCTGGTGGAAGTGCTGGCGGACTGGCAGCCGCCCCCGGTACCCGTCACGTTGCTCTATCCGCACCAGCGCTTTCTCTCTCCCGCCGTGCGGGCGTTTGCTGAGTGGATGAGCGAGGTGGTTTGA	MFMRVAEAGSFVRAAETLSLPASTVTSTIKNLEKYLKVRLLNRTTRRVSLTPEGMQYLAQCREILALIEHSESSLSESVARPQGRLRVDMPAGIAHFIVMPHLQDFYRRYPDIYLMIGVSDRQVDLIQEGVDCVIRTGELNNSSLVARPLGRFRWVTCGSPDYLREYGVPPSPEALSQHRAVHYFSGQARRADEFRFLRHGETFSVPVSGTAAVNETGLYIKMCLAGFGLAQLAENIVADHLREGRLVEVLADWQPPPVPVTLLYPHQRFLSPAVRAFAEWMSEVV	PGPT0028940_1081	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
BMS020_01475	573			hypothetical protein	ATGTCCGTTCAGCCTGTCGAATTACATAAGGCGTATCGTTTATTGCAGGTCGGGTCCACCACCATGATTTCCGCAAAATATGATGGCGTCGAAAATGTCATGTCAGCCGCCTGGGTTGGGCTGGCAGGCGAGCGAAAAGTGGTGGCCTATATCGGACCCCAGGCCTTCACTCGTCAGCTGGTGGAAAAGAGCGGCTATTTCGTCGTGCAGATCCCCGTAGTCAGCCAGATGGCAACCGTCCTCTACGCTGGCGGGCGCAGCTATGCCGACGCGCCGGATAAAAATGACACTATCCCCTTCTTTTATCAGCCGGGGTTCGATCTCCCCCTTGTCGCCGGCTGCGCGGGCTGGCTGGTGTGCAAAGTGATGCCTTACCCGGACATCCAGCAACAGCACAATCTGTTTATGGGCGACATCGTCGCCGCCTGGAGCGATGACCGGGTATTCCGCAACGGACACTGGATCTTTGATGATGCGCCGGACGAGCTGCGCACCGTTCACTATGTCGCAGGCGGGCAGTTCTATGCCATCGGCAAAGGCAGCAAATTCGATCATGGACCGGGTAAGGACTGA	MSVQPVELHKAYRLLQVGSTTMISAKYDGVENVMSAAWVGLAGERKVVAYIGPQAFTRQLVEKSGYFVVQIPVVSQMATVLYAGGRSYADAPDKNDTIPFFYQPGFDLPLVAGCAGWLVCKVMPYPDIQQQHNLFMGDIVAAWSDDRVFRNGHWIFDDAPDELRTVHYVAGGQFYAIGKGSKFDHGPGKD				NA	NA	NA	NA	NA
BMS020_01476	357	rob_2	COG2207	Right origin-binding protein	ATGATGAACACTGGCGCCATCATTCAGGATCTGATCGACTGGATCGACAACCATCTTGATAGCCGTCTGGATATTGATACCGTTGCCCGGCGAGCCGGCTATTCGAAGTGGCACCTGCAGCGGATCTTCAAAGAACATACCGGGCACCCCCTCGGGGAGTATATCCGGGCGCAAAAGCTGCAAAAATCGGTCGAACGCTTAGCCCACAGCAACGAGCCGATCCTCAACGTGGCGATCGCCCTCGGCTTTGACTCCCAGCAGTCCTTCAACCGCAGCTTCAAGCGCCAGTTTGGCCAGGCGCCCGGCGTCTGGCGCCGGAGTATCAGCCGCTCTGCCGCGCAGACATCTCGTCAGTGA	MMNTGAIIQDLIDWIDNHLDSRLDIDTVARRAGYSKWHLQRIFKEHTGHPLGEYIRAQKLQKSVERLAHSNEPILNVAIALGFDSQQSFNRSFKRQFGQAPGVWRRSISRSAAQTSRQ	PGPT0027835_17	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-PORIN_METABOLISM|TRANSPORT,PGPT0027835-marA-K13632	NA	NA
BMS020_01477	1176	bepF_1		Efflux pump periplasmic linker BepF	ATGAGCCTGCAAAAAACCTGGGGAAACATTCACCTGACCGCGCTCGGCGCGATGATGCTCTCCTTTCTGCTCGTCGGCTGCGACGACAGCGTCGCGCAAAACGCCGCGCCGCCCGCGCCTGCCGTCAGCGCCGCTAAGGTGTTGGTGAAGTCGATCAGTCAGTGGGATAGTTTCAACGGTCGCATTGAAGCGGTGGAGAGCGTTCAGCTCCGCCCCCGCGTCTCGGGATATATTGATAAAGTGAATTACACCGACGGCCAGGAGGTGAAAAAGGGCCAGGTGCTGTTCACGATAGACGACAGAACCTATCGCGCCGCGCTGGAGCAGGCGCAGGCGACGCTGGCGAGAGCCAAAACGCAGGCCAGCCTGGCGCAAAGCGAGGCGAACCGCACCGATAAATTAGTCCATACCAACCTCGTCTCCCGTGAAGAGTGGGAGCAGCGCCGGTCAGCCGCGGTACAGGCGCAGGCCGATATTCGCGCCGCGCAGGCGGCGGTGGATGCCGCGCAGCTTAACCTCGACTTCACCAAAGTGACCGCCCCTATCGACGGCCGCGCCAGCCGCGCGCTGATCACCAGCGGCAACCTGGTCACGGCGGGCGACACCGCCAGCGTGCTCACCACCCTGGTCTCGCAGAAGACGGTGTACGTCTACTTTGACGTCGACGAGTCAACCTACCTTCACTACCAAAATCTCGCCCGCCGCGGGCAAGGCGCGTCCAGCGATAATCAGGCGCTCCCGGTGGAGATTGGCCTGGTTGGCGAAGAGGGCTACCCCCATCAGGGCAAAGTGGATTTTCTCGATAATCAGTTAACGCCGAGCACCGGCACCATCCGCATGCGCGCCCTGCTGGATAACTCGCAGCGGCTGTTCACGCCGGGTCTGTTTGCCCGCGTGCGTCTGCCGGGCAGCGCGGCGTTCCAGGCTACGCTTATCGACGACAAAGCGGTGCTCACCGATCAGGATCGTAAATATGTCTATATCGTTGATAAAGATGGCAAAGCGCAGCGACGTGATATCACGCCGGGGCGGCTGGCCGACGGTTTACGCGTCGTGAAGCAGGGTCTGAAGCCTGGGGATAGCGTCATCGTCGACGGCTTACAAAAAGTGTTTATGCCGGGTATGCCGGTTAACGCCAAAACCGTTGCCATGACCCCCAGCGCCGCCCTCAACTGA	MSLQKTWGNIHLTALGAMMLSFLLVGCDDSVAQNAAPPAPAVSAAKVLVKSISQWDSFNGRIEAVESVQLRPRVSGYIDKVNYTDGQEVKKGQVLFTIDDRTYRAALEQAQATLARAKTQASLAQSEANRTDKLVHTNLVSREEWEQRRSAAVQAQADIRAAQAAVDAAQLNLDFTKVTAPIDGRASRALITSGNLVTAGDTASVLTTLVSQKTVYVYFDVDESTYLHYQNLARRGQGASSDNQALPVEIGLVGEEGYPHQGKVDFLDNQLTPSTGTIRMRALLDNSQRLFTPGLFARVRLPGSAAFQATLIDDKAVLTDQDRKYVYIVDKDGKAQRRDITPGRLADGLRVVKQGLKPGDSVIVDGLQKVFMPGMPVNAKTVAMTPSAALN	PGPT0029070_275	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029070-oqxA-K19586	NA	NA
BMS020_01478	3153	oqxB9		multidrug efflux RND transporter permease subunit OqxB9	ATGGACTTTTCCCGCTTTTTTATCGACAGGCCAATTTTCGCCGCGGTGCTGTCGATTTTAATATTTATCACCGGGTTAATCGCCATCCCGCTGCTGCCGGTGAGCGAATATCCTGACGTCGTGCCCCCCAGCGTGCAGGTGCGCGCGGAGTATCCCGGCGCCAACCCGAAAGTGATTGCCGAGACCGTGGCGACGCCGCTGGAGGAAGCGATCAACGGCGTTGAAAACATGATGTACATGAAATCGGTCGCCGGCTCCGACGGCGTGCTGGTGACCACCGTGACCTTCCGCCCGGGTACCGACCCGGATCAGGCGCAGGTTCAGGTGCAGAACCGGGTCGCGCAGGCGGAGGCGCGTCTGCCGGAGGATGTGCGCCGTCTGGGGATCACCACCCAGAAACAGTCCCCGACGCTGACCCTGGTGGTGCATCTGTTTTCGCCAAACGGTAAGTACGACTCGCTGTATATGCGCAACTACGCCACGCTGAAGGTGAAGGATGAGCTGGCGCGCCTGCCCGGCGTCGGCCAGATCCAGATATTTGGTTCCGGCGAATATGCGATGCGCGTCTGGTTGGATCCCAATAAGGTGGCGGCGCGCGGGCTGACCGCCTCGGACGTGGTCACGGCGATGCAGGAGCAAAACGTCCAGGTCTCCGCCGGACAGCTTGGCGCCGAGCCGCTGCCGCAGGAGAGCGACTTCCTGATCTCGATTAACGCCCAGGGCCGTCTGCATACCGAAGAAGAGTTTGGCAATATCATTCTGAAAACAGCGCAGGACGGCTCGCTGGTCCGCCTGCGCGACGTGGCGCGCATCGAGATGGGTTCCGGTAGCTATGCGCTGCGCTCCCAGCTCAACAACAAGGACGCGGTCGGGATCGGTATCTTCCAGTCCCCGGGGGCTAACGCCATCGATTTGTCGAACGCCGTGCGCGCCAAAATGGCCGAGCTGGCCACCCGCTTCCCGGAAGATATGAAATGGGCGGCGCCGTACGACCCGACGGTTTTCGTGCGCGACTCCATCCGCGCGGTGGTGCAGACGCTGCTGGAGGCGGTGGTGCTGGTGGTGCTGGTGGTGATCCTGTTCCTGCAGACCTGGCGCGCGTCGATTATCCCGCTGATCGCGGTGCCGGTATCGGTGGTCGGTACCTTCAGCATTCTCTATCTGCTGGGCTTCTCGCTGAATACCCTGAGCCTGTTCGGGCTGGTACTGGCGATTGGTATCGTGGTGGATGACGCCATCGTGGTGGTGGAAAACGTCGAGCGCAATATCGAAGAGGGGCTTGCGCCGCTCGCCGCGGCGCATCAGGCGATGCGAGAGGTCTCCGGGCCGATTATCGCTATTGCGCTGGTGCTGTGCGCGGTGTTCGTGCCGATGGCGTTTCTCTCGGGCGTGACCGGTCAGTTCTACAAGCAGTTTGCGGTGACCATCGCCATCTCCACGGTGATCTCGGCCATCAACTCGCTGACGCTCTCCCCGGCGCTGGCGGCCCTGCTGTTAAAGCCGCACGGCGCGAAAAAAGACCTCCCTACCCGGCTGATCGATCGTCTGTTCGGCTGGATTTTCCGTCCGTTTAACCGCTTTTTCCTGCGCAGCTCGAACGGCTATCAGGGGCTGGTGAGCAAAACCCTCGGCCGCCGTGGCGCGGTGTTTGTGGTGTACCTGCTGCTGCTCTGCGCCGCAGGGGTGATGTTTAAAGTCGTCCCCGGCGGGTTTATTCCCACCCAGGACAAGCTGTACCTGATTGGCGGCGTGAAGATGCCGGAAGGTTCGTCGCTGGCGCGCACCGATGCGGTGATCCGCAAAATGAGCGAGATCGGGATGAATACCGAAGGGGTCGATTATGCGGTAGCCTTCCCCGGTCTTAACGCGCTGCAGTTCACCAACACGCCGAATACCGGGACGGTCTTTTTTGGCCTGAAACCGTTCGACCAGCGCAAACACTCGGCGGCGGAAATCAACGCGGAGATCAACGCCAAAATCGCGCAAATCCAGCAGGGATTTGGCTTCTCCATCCTGCCGCCGCCGATTTTAGGACTGGGTCAGGGCTCCGGCTACTCCCTTTACATCCAGGATCGCGGCGGGCTGGGCTATGGCGCGCTGCAAAGCGCGGTAAATGCCATGTCCGGGACGATTATGCAGACGCCGGGGATGCACTTCCCGATCTCGACCTACCAGGCTAACGTGCCGCAGCTGGATGTCCAGGTCGATCGCGATAAGGCGAAAGCGCAGGGGGTATCGCTGACCGATCTGTTCGGCACGCTGCAGACCTATCTCGGCTCGTCTTATGTCAATGACTTTAACCAGTTCGGGCGTACCTGGCGCGTGATGGCCCAGGCTGACGGGCCGTACCGCGAGAGCGTGGAAGATATCGCCAATCTGCGCACCCGCAATAATCAGGGCGAAATGGTGCCGATCGGCAGTATGGTGAATATCAGTACCACCTACGGGCCGGATCCAGTGATCCGCTACAACGGTTATCCGGCGGCGGACCTGATTGGCGATGCCGATCCGCGCGTCCTCTCCTCCTCGCAGGCGATGACGCTGCTGGATGCCATGTCTAAACAGGTGCTGCCGAATGGAATGAATATTGAATGGACGGATCTCAGCTTCCAGCAGGCCACCCAGGGCAATACGGCGCTGATCGTCTTCCCGGTGGCGGTGCTGCTGGCGTTCCTCGTGCTGGCGGCGCTGTATGAAAGCTGGACCCTGCCGCTGGCGGTGATCCTTATCGTGCCGATGACGATGCTCTCCGCGCTGTTTGGCGTCTGGCTGACCGGGGGCGATAACAACGTCTTCGTGCAGGTGGGGCTGGTGGTCCTGATGGGCCTGGCCTGTAAAAACGCCATTCTGATCGTCGAGTTTGCCCGCGAGCTGGAGATTCAGGGCAAAGGCATCATGGAAGCCGCGCTGGAGGCGTGCCGCCTGCGACTGCGCCCGATTGTCATGACCTCCATCGCCTTTATCGCCGGGACCATTCCGCTGATCCTCGGCCACGGCGCAGGGGCGGAAGTCCGCGGCGTCACCGGGATCACGGTGTTCTCCGGGATGCTGGGGGTGACGCTGTTCGGTCTGTTCCTGACGCCGGTGTTTTACGTGACGCTACGGAAACTGGTGACCCGCAGTAAGCCGGTCCAGGAGGATCTGCCCGCCTAG	MDFSRFFIDRPIFAAVLSILIFITGLIAIPLLPVSEYPDVVPPSVQVRAEYPGANPKVIAETVATPLEEAINGVENMMYMKSVAGSDGVLVTTVTFRPGTDPDQAQVQVQNRVAQAEARLPEDVRRLGITTQKQSPTLTLVVHLFSPNGKYDSLYMRNYATLKVKDELARLPGVGQIQIFGSGEYAMRVWLDPNKVAARGLTASDVVTAMQEQNVQVSAGQLGAEPLPQESDFLISINAQGRLHTEEEFGNIILKTAQDGSLVRLRDVARIEMGSGSYALRSQLNNKDAVGIGIFQSPGANAIDLSNAVRAKMAELATRFPEDMKWAAPYDPTVFVRDSIRAVVQTLLEAVVLVVLVVILFLQTWRASIIPLIAVPVSVVGTFSILYLLGFSLNTLSLFGLVLAIGIVVDDAIVVVENVERNIEEGLAPLAAAHQAMREVSGPIIAIALVLCAVFVPMAFLSGVTGQFYKQFAVTIAISTVISAINSLTLSPALAALLLKPHGAKKDLPTRLIDRLFGWIFRPFNRFFLRSSNGYQGLVSKTLGRRGAVFVVYLLLLCAAGVMFKVVPGGFIPTQDKLYLIGGVKMPEGSSLARTDAVIRKMSEIGMNTEGVDYAVAFPGLNALQFTNTPNTGTVFFGLKPFDQRKHSAAEINAEINAKIAQIQQGFGFSILPPPILGLGQGSGYSLYIQDRGGLGYGALQSAVNAMSGTIMQTPGMHFPISTYQANVPQLDVQVDRDKAKAQGVSLTDLFGTLQTYLGSSYVNDFNQFGRTWRVMAQADGPYRESVEDIANLRTRNNQGEMVPIGSMVNISTTYGPDPVIRYNGYPAADLIGDADPRVLSSSQAMTLLDAMSKQVLPNGMNIEWTDLSFQQATQGNTALIVFPVAVLLAFLVLAALYESWTLPLAVILIVPMTMLSALFGVWLTGGDNNVFVQVGLVVLMGLACKNAILIVEFARELEIQGKGIMEAALEACRLRLRPIVMTSIAFIAGTIPLILGHGAGAEVRGVTGITVFSGMLGVTLFGLFLTPVFYVTLRKLVTRSKPVQEDLPA	PGPT0029075_181	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029075-oqxB-K19585	NA	NA
BMS020_01479	480			hypothetical protein	ATGTTAGATTACCGCTTCCCGACAGCTTTGCAGATGGTTCTCAGCGTAGCAATGGCGGAGCAGATGGGTGAACGTTCGACGAGTGCGATTCTGGCCTACGGCCTGGAAGCCAACCCGAGCTTTATCCGCAAATTAATGGTTCCGCTCACCCGTGACGGCATCATTGTCTCCACGCTTGGCCGCAACGGCTCTATTCATCTTGGCCGCCCGGCGGACAAAATCACTCTGCGTGATATCTATCTTTCCGTTATCGAAGATAAAAAACTGTGGGCGTCGCGCCCTGACGTCCCGGCCCGCTGCGTGGTCAGCGCCAACGCCTGCTGGTACTTCAAATCGGTCGCTGACGAAGCGGAGCAGGCTTCGCTAAACGTCCTCGCTCGCCATACCGTGGCCAGCGCGCTGGAGGCGCTTAAAAACGCCGATACCAGCGGCTGCGACCCGGTACCGGAAATGATCGCCCGCTTTAAAAAAGCGCATTAA	MLDYRFPTALQMVLSVAMAEQMGERSTSAILAYGLEANPSFIRKLMVPLTRDGIIVSTLGRNGSIHLGRPADKITLRDIYLSVIEDKKLWASRPDVPARCVVSANACWYFKSVADEAEQASLNVLARHTVASALEALKNADTSGCDPVPEMIARFKKAH				NA	NA	NA	NA	NA
BMS020_01480	393			hypothetical protein	ATGTTTGATCAGCATATTATCTGCCGCGAAGGTTTCGGCAACGTCACCCGCGACGGGGAAATTATCGGCGTGCGCTTTTTGGCCCGTCTGCCTTACTACCGCGGTCTGGGTTTGTCGATGGTGGAAGATATTGCCGTGACCCTCAACGGCGAAGCCATCCCGCGGCAGGCGATCCGCCTGGCGCTGCGCGGCCGGGAGTGGACGCTCGACGAGCTGGAGAGCGTCTACGACGACCGGTGGAACTTCGGTGAAAAGGCGACCATCACGGTGCTCAAACCTGGCGGCCTGCCGGCCGGCTGGCATCGCCTGAAGGTGGCCGAGAGGCTGCGGATCTCCTATCTGCCGTTTGTGCCGGTGACCACCTTTGAAACCGAGCTGGAGTTAACGGCGTAA	MFDQHIICREGFGNVTRDGEIIGVRFLARLPYYRGLGLSMVEDIAVTLNGEAIPRQAIRLALRGREWTLDELESVYDDRWNFGEKATITVLKPGGLPAGWHRLKVAERLRISYLPFVPVTTFETELELTA				NA	NA	NA	NA	NA
BMS020_01481	1014			hypothetical protein	ATGACTCAGAAAATAAAACGCGGCGTCAGTCTGTACAGCTTTCAGAATGAGACCTATCTCGGCAAGATGTCCCTCGATCAGGCGATCGGTCACTGCGCGGCGTTCGGCGCCCGCGGCATTGAAGTCGTCGGCGAACAGACCTTCGCCGGCTGGCCGGAGTGCGGCATGCCGGAGGCGGCGATCGCCGACTGGCACCGTCTGATGCAGCGCCATGACTCGGTGCCGGTGTGCCATGACTTTATGCTCGACTATAAACGCTATAAAGACCGGCCGATGCCGTTTGACGAGCAGGTGCGCAGCGTGCAAAACGACATCGATTTTGCCGCCCGGCTGGGCATGCGCTTTATCCGCTCTCTGGTTTCCGTGGCGCCGGAGGTGCTGGTGGCGGCGGCGCCTTATGCGGAAGACAAAGGGATCACCATTCTGCTGGAGGTGCACGCCCCGCTGCATTTCGACCATCCGTGGATTATTCGCCATGCCGAAGCCTATGAAAAAGCCAACACCCGGGCGCTGGGCTTCCTGCCGGATATGGGGATGTTTTTAGCCCGCTTCCCGCGGGTGTGGAAAGAGCGCTTTATTCGTAACGGTTGCCCGCAGGCGGCGGCGGATTTTATCGAGAAAGCCTATGAGGAGCGGACGCTCAGCGAATACGTGATCCTGGATGTGATGCAAAAATGGGGGCCGGGCCCGCAGCTGGCGATGGCGGAAACGCTGCGCCACAACGCGGCGTTCGAGCCGAAGCGGATGCTCGATTTTATGCCGCGGATCCACAACATTCATGCCAAATTCTATGAAATGACCGACGAGATAAGCGAGTGGTCAATTCCCTACGATGAGATCTTCCGCGTGCTGCAGAAGGGCGGCTATGAGGGGTATGTGTGCTCCGAGTATGAAGGCAACCGCTGGGTGGAAGATGCGCAGGAGGTGGACAGCCTGGAGCAGGTCCGCCGCCAGCAGCTGATGTTCTGTCGCCTGTTAGATGAAACCCCACCCCCGGCGCTGCTGGGTCAGTAA	MTQKIKRGVSLYSFQNETYLGKMSLDQAIGHCAAFGARGIEVVGEQTFAGWPECGMPEAAIADWHRLMQRHDSVPVCHDFMLDYKRYKDRPMPFDEQVRSVQNDIDFAARLGMRFIRSLVSVAPEVLVAAAPYAEDKGITILLEVHAPLHFDHPWIIRHAEAYEKANTRALGFLPDMGMFLARFPRVWKERFIRNGCPQAAADFIEKAYEERTLSEYVILDVMQKWGPGPQLAMAETLRHNAAFEPKRMLDFMPRIHNIHAKFYEMTDEISEWSIPYDEIFRVLQKGGYEGYVCSEYEGNRWVEDAQEVDSLEQVRRQQLMFCRLLDETPPPALLGQ				NA	NA	NA	NA	NA
BMS020_01482	774	hyi_1	COG3622	Hydroxypyruvate isomerase	ATGTATTTGTCCGCATGTATTGAATGGCTGTTTCGTGAAGAGTATCCCGATTTCAGCGATCGGGTCCGGGCGGCGAAAGCGCAGGGATTCAGCCACGTTGAGTTTCATCTCTGGCGTGATAAACCGCTGGCGGCGCTGGCGCAGGCGCTGGAGGAGACCGGCGTGAGGCTGTCGAGCTTCGTGGTGGAGCCCCGGCGCAGCCTGGTGGATCCGGCGGAGCATGAGCAGTTTCTGGCGGCGGTGAGCGACAGCCTGGCGGCCTCGCGCCAGCTGGGGTCGCCGCCGCTGGTGGTGGCCTCCGGCTTCAGCCGCGAAGGGGTGGCGATCGCCGAACAGCAGGCGCAGGCGATCCACATCCTGCGCCAGGCGGCGACGCTGGCGGAAGCCGCCGGGGTCACTCTGCTGCTGGAGCCGCTCAACACCCGCATCGATCATCCGGGGATGTTCTTAAACGACACCCGGCTGGCGCTGGACATTATCGAGGCGGTCGACAGCCCGCGGCTGCAGCTGCTGTTTGACGTCTATCACTCGCTGGTGATGGAAGAGGAGATGGAGGAGGTGCTCGGCGGCAGAATGCACCGGGTGGGACACGTGCAGATAGCGCAGGCGCCGGAACGTAACGAACCGGATCCGCGCAGCGGCGAGTGGCCAGAAGTGATCGCCCGGCTGCAACGCCTGGGCTACAACGGGGCCATTGGCCTGGAGTATAAACCGTCGCTGCCCGCAGCGGCCTCGGTGGCCCGCGCCCGCGAAGCGACCGGCTTATCCTGTTAA	MYLSACIEWLFREEYPDFSDRVRAAKAQGFSHVEFHLWRDKPLAALAQALEETGVRLSSFVVEPRRSLVDPAEHEQFLAAVSDSLAASRQLGSPPLVVASGFSREGVAIAEQQAQAIHILRQAATLAEAAGVTLLLEPLNTRIDHPGMFLNDTRLALDIIEAVDSPRLQLLFDVYHSLVMEEEMEEVLGGRMHRVGHVQIAQAPERNEPDPRSGEWPEVIARLQRLGYNGAIGLEYKPSLPAAASVARAREATGLSC				NA	NA	NA	NA	NA
BMS020_01483	1458	stp_1		Multidrug resistance protein Stp	ATGCTCAATAACGCTTCGGCGGCCGCGGTTCAGGCGCCTCCCTATACCAGCGAGCGGCAGCGCACGCTGGCCACGCTGGTGGTTTCGATAGCGCTGGTGCTGGAGATCATCGACGTCTCGATCATTAATGTCGCCATCCCGGTGGTACAGCGGGATCTGCTCGCCAGCCCGCGGCAAATTGAATGGGTGGTCACCGGCTACCTGTTCTTTTTCTCCATTCTGCTGCTCACCGGCGGTCGGCTCGGCGATCTGTATGGCTACCGGCGGCTGTTTATCAGCGGACTGCTGGCGTTTGGCGCTGCGTCGGCCGGCTGCGGGCTGGCCGCCAGCCCGGAGATGCTGGTGGCGATGCGTATTGCGCAGGGGGCCAGCGGGGCGATGATGGGCCCGCAAATCCTCTCCCTGATGCAGGTTCTGTATCGCCCGCACGAACGTTTCCGGGTGATGAGTATTTTCGGCCTGCTCGGCGGCGCCGCCGGGATCCTCGGCCCGGTGCTCGGCGGGATCATCATCGAAAGCAATCTGTTCGGCCTCAGCTGGCGGCCGATCTTTTTGATCAACGTGCCGGTGATCGTCGTCGCCGTGATACTGGCCTGGCGGGCGCTGCCGGCGGTGCGCAGCCCAGCGGCCAAAGGTATCGATCCGCTGGGTACCCTGCTGGCGGTGGTGGGCGGCGGCGCGCTGCTGCTCACCCTGATCGAAGGCCCCGCCCTGCGCTGGCCGCTATGGATGGCGCTGCCGCCGCTGCTGTCGCTCATCACGGTGGCCCTCCTCTGGCGACATCTGCTGGGCCGTGAACGCCGGGGCGGCACGCTGTTGTTACCCCCCGCGGTGCTGCGCGACCGCTTCTTTCGCGCCGGGATCGTCATCACCCTGCTCTATCAACTGACCACCGCCTCGCTGCTGCTGGCCACCGCGCTGGTGCTGCAGAGCGGGCTGGGCTTCAGCCCGTTCCATACCGCCCTGCTGCACATCCCCTTCGCCCTCGGGGCGATGTTTTCCATCGCCGTCGCCGGCCGCCGGCTATCGCCTCGTCTTGGGCGTAACGTGACGCTGGTCGGGGTGGCCGTGCAGATGAGCGGCCTGCTGCTGATGGGCTACGGGATCGCCGCGGCGCCGGGGACGCTGCCGCTGACCGCGCTGGGTCTCGGGTTCGGCCTGTGCGGCTGTGGGATGGGGCTTATCTCCGCCCCGCTGCCGGCCTTTGCCATGGCGGCGATCCCGGTGGCCCACGCCGGCGCGGCGTCGGGATTATTTCGCACCGGCCAGCAGTTTGGCGCCGCCCTCGGCATGGCGACCCTTGGCGGTTTCTATCTGGCGCAAAGCGCCTCCGCGCCGGACGCCTGGCGCGGGGCGTTTATCACCCTGCTGACCCTTGGCGCCCTGATCCTGCTGGCGATTGCCGCCCTCAGCCGCCTGCTGCCCGTCTCGGTGCTTCCCCCGCCCGGGAAGCCATGA	MLNNASAAAVQAPPYTSERQRTLATLVVSIALVLEIIDVSIINVAIPVVQRDLLASPRQIEWVVTGYLFFFSILLLTGGRLGDLYGYRRLFISGLLAFGAASAGCGLAASPEMLVAMRIAQGASGAMMGPQILSLMQVLYRPHERFRVMSIFGLLGGAAGILGPVLGGIIIESNLFGLSWRPIFLINVPVIVVAVILAWRALPAVRSPAAKGIDPLGTLLAVVGGGALLLTLIEGPALRWPLWMALPPLLSLITVALLWRHLLGRERRGGTLLLPPAVLRDRFFRAGIVITLLYQLTTASLLLATALVLQSGLGFSPFHTALLHIPFALGAMFSIAVAGRRLSPRLGRNVTLVGVAVQMSGLLLMGYGIAAAPGTLPLTALGLGFGLCGCGMGLISAPLPAFAMAAIPVAHAGAASGLFRTGQQFGAALGMATLGGFYLAQSASAPDAWRGAFITLLTLGALILLAIAALSRLLPVSVLPPPGKP				NA	NA	NA	NA	NA
BMS020_01484	1500	betA_1		Oxygen-dependent choline dehydrogenase	ATGGATGAGAACATCGATGTACTGATTATTGGCAGCGGCCCGGTAGGCGCCGCTTTCGCGCGGCGGATTGCCGACCGCCGCGCCGCGCGGATCCTGGTGGTGGAAGCCGGCGAAGCGCTGACGCCCGCCACCGGGGTTAATATCCGCAACCTGGCGCCAGCGCAGCGGGAAACGGCCTACGACCGCGCCCGGGCGTTTCCGCTGGCCGCCCTGCCGGAAAACCTGCCGGCAGACGCCCTGCAGGCGCGGCCCGGCACCCATCTTCTCGACCCGACGGCGCCCCACAGCGGCATGCCGGCCGCCGCGCTCTCCACTAACCTCGGCGGCATGGGCGTCCACTGGACCTGCGCCTGTCCGCGACCGGGCGGCAGCGAAGTCATTCCCTTTCTCGATCCCCGGGAGATGGCCGACGCCTGGGAGTCGGCAGAGCATTATCTTCAGGTGACCCGCGAAGGATTTCCGGCCACCGCCATCGGCCGGCAAATCGTCGATGCCCTTAATCAGCACTTCGCCAGCGACCGTCCGCCGGCGCGGCTGGCGCAGCCTATGCCGCTGGCCTGCGCCGCGACGCCGGAGGGCAAGCCGCGCTGGTCCGGCGTCGACGCGGTGCTCGGCGAGCTGGCGGAGGAAGAGACCCGCCGCCAGCGCGGGGTGGAGATCCGCACCGCCACCCTGTGCACGCGGATCCTCAGCGAGGACGGCGTCGCCCGCGGGGCGGAGCTGCGCGATCTGCGTACCGGCGAACAGTATGTGGTGACGGCCAAAGCGGTAGTGGTCGCCGCCGATGCGCTGCGTACGCCGCAGCTGCTGTACGCCTCGGGCATCCGTCCGCGGGCGCTGGGGCGCTGGCTCAACGATCAGCCGCAGGTGATCGCCCTGATTGAAGTGGACGCCCCGCCGGCCGCCGTCGCGCCGACCTCCCCGGTGCGCGACGGACGGGACAATGTCTCCGGCGTCACCTGGCTGCCGTTCCATGAGCCCGATTTTCCGTTCCACGGTCAACTGATGCAGATGGATACTTCGCCGATCGCCTTTGCCCAGCCGTCGGGTACCCCGGCGAAGCCGGTGGTGGGCCTGGGGCTGTTCCTCGCCAAGGAGCTGCGCGAGGAGGATCGGATCGTCTTCAGTGATGAAACCGACGCCGTAGGGCTGCCGAAAATGCAGCTGAACTATCAGTTAACCGACGGCGATCGCCGCCGTTTACAGCAGGCGGTGGCAGTGACTGAACGCGTCGGCGCCGCGCTGGGCCGCGTGGCGCCCGGCGGGGAGGCCATGATCCTGCCGGCGGGCACCTCGCTGCATTACCAGGGAACCTGTCGCCTGGGAGAAGCGAACGACGGCAACAGCGTGGCCGACCGCCGCTCGCGGGTCTGGGGTTTTCACAATCTGTACGTCGGCGGCAACGGCGCGATCCCCACCTCAACCGCCTGCAACCCGACGCTGACCAGCGTCGCGCTGGCGATCCTCGCCGCTGACGATATGGTGACGCGGCTGCTGTAG	MDENIDVLIIGSGPVGAAFARRIADRRAARILVVEAGEALTPATGVNIRNLAPAQRETAYDRARAFPLAALPENLPADALQARPGTHLLDPTAPHSGMPAAALSTNLGGMGVHWTCACPRPGGSEVIPFLDPREMADAWESAEHYLQVTREGFPATAIGRQIVDALNQHFASDRPPARLAQPMPLACAATPEGKPRWSGVDAVLGELAEEETRRQRGVEIRTATLCTRILSEDGVARGAELRDLRTGEQYVVTAKAVVVAADALRTPQLLYASGIRPRALGRWLNDQPQVIALIEVDAPPAAVAPTSPVRDGRDNVSGVTWLPFHEPDFPFHGQLMQMDTSPIAFAQPSGTPAKPVVGLGLFLAKELREEDRIVFSDETDAVGLPKMQLNYQLTDGDRRRLQQAVAVTERVGAALGRVAPGGEAMILPAGTSLHYQGTCRLGEANDGNSVADRRSRVWGFHNLYVGGNGAIPTSTACNPTLTSVALAILAADDMVTRLL				NA	NA	NA	NA	NA
BMS020_01485	1248			hypothetical protein	GTGAGCCATAGTCTGAATCCGCCCCACGCGCCGCAAGCCGGCGCGATCCAGGGCATCATCATCGCCCTGACCGCCTTTCTGCCCATCCTGGCGATCGTTTCCCTGGCGCCGGCGGTCCCGACGCTGATCCAGCACTTCGCCGGCGTGCCTTATGTCGAAACCCTGGTGCCGCTGATGCTCACCGCGCCCGGTCTGGTGATCGCCATCGCCGGGCCCTGCACCGGCTGGCTGGCGGATAAATTTGGCCGCCGCAAACTGCTGCTCAGCGCCACGCTGCTGTATGGCATCTGCGGCACAATGCCGCTGTACATCACCTCCCTGACCGGCATCTTTTGCAGCCGCCTCGGCGTCGGGCTGGCGGAGGCGGTGGTATTGACCATCGCTAACACCATGCTGATCGATTACTTTGACGACAAACAGCGCCGCTTCTGGCTGACGGTGCAGGGGGTGATTGGCCCGGCGCTGGCGGTGCTGGTGCTGGCCAGCTCCGGCTATCTGACCGCCCTGCGCTGGAACGGCGCCTTTATGATCTACTTTGTCGCCATCCTGCTGTTTCTGGCGATGTACTTCTGGATGTTCGAACCCGCTCAGGCGGCCCGTCCGCAGCACGCCGCCCAGGCGGCGCAGCATAATCCGTTTCCGTGGCCGCGAGTGATCGCCCTCAGCGTGCTTACCTTTGTCTGCGCCATCATTTATTACGTGTACACCATCAACGGCGCCAACGCCTTTCATACCCTGCAAAACGCCAGCCCACAGCGTATCGGCCTGATTATGTCGCTGGTCAGCCTCGCCGTGCCGGTCGGTTCGTTGCTGTTCGGTCTGGTCTCCCGCCGCTATACGCCGGAGCGCGTGCTCGCCATCATGCTCTGCCTGATGGGGATCGGAATGCTGGTGGTGGGCGAATCGCGGACGCTGATCGCCATGGGGATCGGCTCCGCCATTCAGCAGCTGGGTGCCGGCATGGCGATTAATGCGATGATTTACTGGGTAGGATCGTTGATTCCGCCCGCCTACTGCGGCCGGGCGATGGGCGCCTGGTCCGGGGCCTTCTTCGCGGGCATGTTCGTCAGCCCGATTATCGTCGGCGCGATCCGCCTGCGGGCCGGGAACGATGTGCTGAGCGCCTTCCTGACGCTCGGCATCGCGGCGCTGGTGCTGGCCGCCGCGATATTTCTTTATACCTTCTCCCGCCATAGCCAGCGCCTGCGTCAGCACAAGCAGGCCAGCGCCTGGCAGTTAGCGAAGTAA	MSHSLNPPHAPQAGAIQGIIIALTAFLPILAIVSLAPAVPTLIQHFAGVPYVETLVPLMLTAPGLVIAIAGPCTGWLADKFGRRKLLLSATLLYGICGTMPLYITSLTGIFCSRLGVGLAEAVVLTIANTMLIDYFDDKQRRFWLTVQGVIGPALAVLVLASSGYLTALRWNGAFMIYFVAILLFLAMYFWMFEPAQAARPQHAAQAAQHNPFPWPRVIALSVLTFVCAIIYYVYTINGANAFHTLQNASPQRIGLIMSLVSLAVPVGSLLFGLVSRRYTPERVLAIMLCLMGIGMLVVGESRTLIAMGIGSAIQQLGAGMAINAMIYWVGSLIPPAYCGRAMGAWSGAFFAGMFVSPIIVGAIRLRAGNDVLSAFLTLGIAALVLAAAIFLYTFSRHSQRLRQHKQASAWQLAK				NA	NA	NA	NA	NA
BMS020_01486	645	betI_2		HTH-type transcriptional regulator BetI	ATGACCGATCTTCCCGCGATGCGCCAGCCGAAACAGGACCGGAGCCGGGTGGCGCTGGAGCGGCTGATGGCCGCCAGCCGTGAAATCCTGCATGAAGGCACCTTTGAGCTGCTGACCATTGCTGAAATCAGTAAACGCTCGGGCGTTTCTGTCGGCTCGATCTATGCCCGCTTCGGCGGCAAAGAAGATCTGTTTATCGCCGTCATGATGGAGGTGATGCAGGAGCTGGACGCCGAATGGCAGCAGCTGATCCAGCAGCTGCACGCGCGCAATCTGCCGCTGCGCCAGCGGCTTCCGGCGCTGATGGATGTCCAGGCTGAGTATCTGCGTCGCCATGCCGGGATCCTGCGGCCGTTTATGGCGCGGGCGGATGATGAGCGCGTGGCGGGGATTGGTAAAGCCGCTTACCAGAAAAATGAGCAGACCTTCATCGACCAGCTGCTCGACGCCGCGGCGGAGATCCGCCACCCGGAGCCAGAGCAGGCCGCCCGCTTCTGCTTTACGGTTTCGTATGCCGCGCTGGCGCGCTTCCTCGGCCTGGGGTCGGCGGCAGAAGCCGCCGGCGAGGGCGACTGGGAACAGCTCAAACGCCATCTGGGCATGATGTGTCTGAGCTATCTGGTTACCCCCGTCGAGGCCGGCTAA	MTDLPAMRQPKQDRSRVALERLMAASREILHEGTFELLTIAEISKRSGVSVGSIYARFGGKEDLFIAVMMEVMQELDAEWQQLIQQLHARNLPLRQRLPALMDVQAEYLRRHAGILRPFMARADDERVAGIGKAAYQKNEQTFIDQLLDAAAEIRHPEPEQAARFCFTVSYAALARFLGLGSAAEAAGEGDWEQLKRHLGMMCLSYLVTPVEAG				NA	NA	NA	NA	NA
BMS020_01487	1095	luxA_2	COG2141	Alkanal monooxygenase alpha chain	ATGCGTTTCTCTGTTTTCCTCGTCGGCCGTTCCACCGCCCCCGAGCAGGATCGTTTTGTCATGCAGTCGCTGATCGATCATGCGCGCCAGGCCGAAGATCGCGGCTTCGATGCGGTCTTTATGCCAGACCATCACTTCACCGGCTATGCGCCGATGTCCAGCGATCCGTTTGTCTTCGCCGCCTACCTGGCCGGCCAGCTGAAAAAGATCCACTTCGGCATGTCGGTGACCACCGTCCCGCTGCACCACCCGGTGCGCTTCGCCGAGCGCGTTAACCTGCTGGATCAACTCACCGAAGGCCGCCTGCTGGTGGGCATCGGCAGCGGCACCACGCCGGAAGAGATGATCGGCTTTGGCGTGAACTACAAGGACGCCTCCAGCCTGCTGCAGGAGAACCTCGATCTGGTCCAGCGGCTGTGGGAGAAAAATATTGAAGACGATCCGATCATTTTCGAAACCGGCCACTATAAGGGCGCGGTAGTCCAGCGCATCGTTCCTGCCCCCTGGCAAAAGCCGTTCAACCGCATTATGCCGGTGGCGCTGCGTGAAACCAGCATGCAGCGCGCCGCCGATAACGGCTGGCCGGCCTTTATTCCCGCGTTTACTCCGCCGATCCCGGCCAGCAACGATCCGTTTGGCCAGCTGACCCACTATTTCACCCGCTACCGCGATGCCCTGCTCAACGCCGGCCATAGCGACGAGGTGGTGAACCACTGCCTCTCGTGGACCACCCACACCTGGCAGTGCGTCCATATCGCCCCCACCGACGAGCAGGCCCGCGAAGAGATGCTGCAGATCATGGGCTGGTACCAGCAGGCCATCGACCGGGAATATGAGTACAACAAGCGGGCGGAAGAGTTCAGCGGCGTTACGCTGCACCGCCATCCGGACTGTTTCAGCGAAGAGTGGATCAAAACCTGGTGCCTGTACGGCAGCCCGGAGACCGTCGCCGAGGAGCTGGAACGCCATCAGCAGCTGGGCATCGGCAACGTGCTGCTCGGCTTCACCAACGGCCCGCTGACCGAGGAACGCCTGCGCCTGAGCCAGCAGTCGATCTCGTTGTTTGCGGACCAGATCCTGCCGCGCTTTCGCTAA	MRFSVFLVGRSTAPEQDRFVMQSLIDHARQAEDRGFDAVFMPDHHFTGYAPMSSDPFVFAAYLAGQLKKIHFGMSVTTVPLHHPVRFAERVNLLDQLTEGRLLVGIGSGTTPEEMIGFGVNYKDASSLLQENLDLVQRLWEKNIEDDPIIFETGHYKGAVVQRIVPAPWQKPFNRIMPVALRETSMQRAADNGWPAFIPAFTPPIPASNDPFGQLTHYFTRYRDALLNAGHSDEVVNHCLSWTTHTWQCVHIAPTDEQAREEMLQIMGWYQQAIDREYEYNKRAEEFSGVTLHRHPDCFSEEWIKTWCLYGSPETVAEELERHQQLGIGNVLLGFTNGPLTEERLRLSQQSISLFADQILPRFR				NA	NA	NA	NA	NA
BMS020_01488	624			hypothetical protein	ATGAATAAACCTGCTTTCTCACGCCCGCCGCTGCTGATCGGCATCGGCGGCACCACCCGCCCTGGCTCCAGCACCGAGCGCGCCCTCGCCGCCGCGCTGGCCCACGCCCGCACGCTCGGCGCGCAGACCCAACTGTTCGGCGGCGCTGAACTGGCGGCCCTGCCGCCGTTTAACCCGGAAGTCACCACCCGCACGTCGCAGGAAACGGCGTTTGTCGACGCCGTGCGCCAGGCCGACGGCATTCTGCTGGCCTCGCCGGGCTACCACGGCGGGGTGTCTGGCCTGGTGAAGAACGCCATCGACCTGCTGGAAGATTTGCGCGGCGACAGCCGGGTCTATCTTGATGGCCGCGCGGTGGGCTGCATCGTCACCGCCGCCGGCTGGCAGGGTTGCAACACCACCCTCGGCGCCATGCGCGGGATCGTTCACGCCCTGCGCGGCTGGCCGACTCCGCTGGGGGTGACCCTCAACACCGCCGGCGTGTCGCTGTTCGACAGCGAGGGCCGCTGCACCGACGACGCGGTCCAGCGCGCGCTGGCCATCGTAGCCGAACAAGCGCTGGCCTTCGCCCCCGCCGCCCCCTTACGGAGACATGCCGATGCCTGCGCTCAGTCTGTCGCTTAG	MNKPAFSRPPLLIGIGGTTRPGSSTERALAAALAHARTLGAQTQLFGGAELAALPPFNPEVTTRTSQETAFVDAVRQADGILLASPGYHGGVSGLVKNAIDLLEDLRGDSRVYLDGRAVGCIVTAAGWQGCNTTLGAMRGIVHALRGWPTPLGVTLNTAGVSLFDSEGRCTDDAVQRALAIVAEQALAFAPAAPLRRHADACAQSVA	PGPT0003045_470	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
BMS020_01489	2445			hypothetical protein	ATGCCTGCGCTCAGTCTGTCGCTTAGCGTTGCCGAAAAAGCGCGGCTCACCGCCGGGATGGGGATGTGGTCCACCCACCCTATCCCCCACTCCACGCTGGGTTCAGTCACCCTGTCCGACGGCCCGATGGGGATCACCGGCGGCCGGGTTGACGAGCGGGATATTGCCCTGCTCAGCCCCTGCGGACTGGCGCTTGGCGCCAGCTGGGACCGCCAGCTGGTCAGCCGGGTTGGCGGCGTCATCGGCGAGGAGGCGCTGCGCACCGGAACGCAGGCGCTGCTGGCGCCTAACCTGAACCTGTTGCGCAGCCCCCTTGCCGGCCGCGCGTTTGAGCTTTTCGGCGAAGACCCGCGGCATATCGCCGAGCTCGGCGCGGCGTGGATCGACGGCGTCCAGCGCCAGGGGGTGGGCTGCATCGTCAAGCATATGGTCTGCAATGATTCGGAAACCGATCGGCGGACCATGAACGTGGTCGTCGATGAAGCCACCCTGCGCGAAGTCTATTTCTGGCCGTTCGAAGTGGCGGCCAGCCGCGGCGTCTGGGGCATGCTGACCGCCTATAACCGGGTGAACGGGATCTATTGCGCCGAGCAGCATCAGGCCATCAGCCAGTGGCTGAAGCGCGATCTCGGCTGGGACGGGCTGGTGATGTCCGACTGGTTCGGCACCCAGAACGGCCCGGCCAGCTTCCGCGCCGGGCTGGATCTGGAGATGCCGGGCCCGGCCCGCCATATGGGCGAGCGCCTGCTGCCCGCGCTGATGGACACCGACAGCGACGCCCGGCGGCTGGACGATGCCGCCGTCCGGCTGGCGCGGCTGGCCGAACGGGTCAGCCATCCCCTGCCCTGGGATGGCTCTGCCGCCGCCGAGGCGCAGCGGCGTCACACCCTCGAAGAGGCGGCGGCGGCGGGGTTTGTCCTGCTGCACAATCGCCAGCGGCTGCTGCCCCTCGCCGCGCAGGCGGGACAGCGGCTGGCGGTGATTGGCCCCAACGCCACGACGCCCTGCTTCCAGGGCGGGACCTTTGCCAGAGTGGCGCTGATGCCGGGGCTGATCTCTCCTCTGGAGGCCATTCGCCAGCGCTTTTCCGCCGCCGGGGTCGAAATAAGCTATGCCCAGGGGGTGGAGAGCGATTACCGCATCCCGCCTCTGCATCATCTGCCGCTGCGCACCGCCGCCGGCGAGCGCGGCCTGGACGTTACCTACGCCACCGCCGACGGGGGCGTGGTTCATCAGGAGGTGCGCGACGCCTCCTCGCTGATCTGGTTCCGCGATATGCCGGGCGTCGGCGACATGCTGCGCCTGACCGAACGCGCCACCGTGACGGTAAGCTGCCAGTTCACCGCGCCGGTGAGCGGCCGCTACGGCTTCTGGATCGGCGGCACCGGGGAGATCGCCCTGCAGCTGAACGGCGAGCGTATGGCGACCTTTAACGGCGAGGCGCTGGAGGGGGATATCATGGGCAAGCTGATGCAAGCCCCGCATACCCGTCTCGACTTCCCGCTGCAGGCGGGGGAAACCCTGATCTTCCGGGCCGAGATGGCGCTGGGCAGCAGTATCGCCCACGGCATCTGGTTCGGCTGCCAGCCCCCGCAAACCATCGATCTGCTGCAGCAGGCGGTCGACCATGCCCGGGCGGCCGACAGCGTGGTGCTGGTGATCGGCGAAACGGCCGATGCCGGTCTGGAGAGCATCGACCGGGACGCTACCGCGCTGCCGGCGGATCAGGTCGCCCTGATCCGCGCCGTCTGCGCGGCGAATCCGCGGACGGTGGTGGTGCTGAACGTCGCCCATCCGGTGGATACCGGGTGTCTCGCCGACGCGGCGGCGGTCATGGTCGTCTGGTATCCGGGCCAGGAGTTTGGCCCGGCGCTGGCCTCAGTGCTGGCCGGGGATCGTGAGCCTGGCGGTCGCCTGCCGGTGACCTTCGCCCAGCGTCTGGACGACTATCCGGTGCGCAGCCTGACGCCGGACGCCGCAGGGGACCTCTGGTACCACGAGCGCCAGCAGGTGGGCTATCGCTGGTTTAACGCCCGCGAACGCCCCGCCGCCTGGGCCTTTGGTCACGGTCTGGGGTATGCCGATATCACCCTGAGCGCCGCCGCGCTGACAGGCGACGAGGTGGACGCTCTGCAGCTGCGCTGCCGGCTGGAAAACCGCGCCGCCCGCGCCGGAAAAGCAGTGGTCCAGCTCTACCTGCGGGGGCCGGAGACGGCCTGGTCGGCGCTGGCGGAGTTTGCGGCGGTCAGCGTCCCGGCGCACGAGGAAGCCTCTCTGACCCTTGCCCTGCCGCGTCACGCGCTGCAGCGCTGGCAGGTGCCCGCCCAGGAATGGCGCCTGGCCAGCGGCCCCTGGCAGCTGGCGGTGGGTTTCGCCAGCGACGATATCCGGGCAACCTTCGATTTCGTGCTGACTCCCGACGGGAAAATCAGCCACCGGGGCTAA	MPALSLSLSVAEKARLTAGMGMWSTHPIPHSTLGSVTLSDGPMGITGGRVDERDIALLSPCGLALGASWDRQLVSRVGGVIGEEALRTGTQALLAPNLNLLRSPLAGRAFELFGEDPRHIAELGAAWIDGVQRQGVGCIVKHMVCNDSETDRRTMNVVVDEATLREVYFWPFEVAASRGVWGMLTAYNRVNGIYCAEQHQAISQWLKRDLGWDGLVMSDWFGTQNGPASFRAGLDLEMPGPARHMGERLLPALMDTDSDARRLDDAAVRLARLAERVSHPLPWDGSAAAEAQRRHTLEEAAAAGFVLLHNRQRLLPLAAQAGQRLAVIGPNATTPCFQGGTFARVALMPGLISPLEAIRQRFSAAGVEISYAQGVESDYRIPPLHHLPLRTAAGERGLDVTYATADGGVVHQEVRDASSLIWFRDMPGVGDMLRLTERATVTVSCQFTAPVSGRYGFWIGGTGEIALQLNGERMATFNGEALEGDIMGKLMQAPHTRLDFPLQAGETLIFRAEMALGSSIAHGIWFGCQPPQTIDLLQQAVDHARAADSVVLVIGETADAGLESIDRDATALPADQVALIRAVCAANPRTVVVLNVAHPVDTGCLADAAAVMVVWYPGQEFGPALASVLAGDREPGGRLPVTFAQRLDDYPVRSLTPDAAGDLWYHERQQVGYRWFNARERPAAWAFGHGLGYADITLSAAALTGDEVDALQLRCRLENRAARAGKAVVQLYLRGPETAWSALAEFAAVSVPAHEEASLTLALPRHALQRWQVPAQEWRLASGPWQLAVGFASDDIRATFDFVLTPDGKISHRG	PGPT0019110_2228	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
BMS020_01490	1311			hypothetical protein	ATGAGTCTCTGCTGTACCGACGTAAGTAAGAAAATAGTGTTTCCACTTTCGGCGCTGACGCTGGCGATATTCTCCAGCACCGCGCTGGCCGATACCTGGACCTGTGAGCAACTGGATAAACTGAATACCCGCTCCGCGCAGGTCGTCAGCCCTCCGTCGACCTGCGAATCGCTCATCGGCAATATTGGCGGCTTTCGCAGCGCGCTGGCCGACCGCGGGTGGGGCGTCCAGTTAAGCTGGAACCCGATGGTGATGTACGATCTGAAAGGCCAGTCCGCTGACCCGCAACAATATGCCGGGCAGAATTTTACCTGGTCGCAAAATATGTCGCTGAACGTCACCTACGATTTAAGCCGAATTGGTTTTAGCAAAGACGCGCAATTTACTTTTTCTCCCCAGTGGGCGACCTCGAATTATCATGATAGCTATCCGGAACTGCATAATATTGCGGTGCTGGCGGTGAACCAGCCCTTATTAAACGGCCAGCTGGAACTGCAGTATGGTTTTTATCCGTTAATTCGTCAGTTTTACGGCATGGTGCTGGGGGGTAACTCCTCCTCAGCCGCGCTGGGGCCGACCAGCGTGATCCCGGTGCAGGTGGGGATCAGCCTCAACGCGCCGACGCCGACCTTCACCGCCATCGTCCGCGACAGCGATAAGAAGTTCTATAACAACTTTGCCGTCAGCCGCAGTATGTCGCCTGCCGGACATCTCGACGACGTGGAGCAGAACCCCTCGGGGCTGAAATGGCACGTCGATGGCGCCAACCCGATCCTGGTGAATGAGTTTGGCTTTAAGCAGGCGGCGGGCGAGTCGCAGCGATCGCTGTGGTTCCGCGCCGGGGCTATCTATAACACCTCGCACTACCAGTATTTTGACCAGCCCGGCGACAGCAGCAGTAACTATGCGTTCTACGTCGCCAACACCATGCAGCTGACCCAGCCGAAAAAAGGGCTTCCGCTGGGGCTGTATCTCGATGTGAAAGCGGACTACGCGCCGGACGATCGCAATGCTTACACCAGCGACTTCCAGGTGACCTTCTTTGACATCGGCCTGTTTCCCGGCCGCGAGCAGGATATGACCTCGCTGGGCTACACCCGCTCCTTTATCAGTAAAAAGTTCCGCGATTATGTCGGCGAGGCGGGAATGGAGGCGCCGCAGAGCATCAACGCCATCTCCCTGTCGCACGCCCTGCGCGTGACGAAAGGGATTTACTGGATCAACGGTATCACCTGGCAGGATAACCCGACGCTGGTGCCGAAGCATGAGTCGGCGGTCCTCTGGCAGTCCTCGATGTACTGGAACTTCTGA	MSLCCTDVSKKIVFPLSALTLAIFSSTALADTWTCEQLDKLNTRSAQVVSPPSTCESLIGNIGGFRSALADRGWGVQLSWNPMVMYDLKGQSADPQQYAGQNFTWSQNMSLNVTYDLSRIGFSKDAQFTFSPQWATSNYHDSYPELHNIAVLAVNQPLLNGQLELQYGFYPLIRQFYGMVLGGNSSSAALGPTSVIPVQVGISLNAPTPTFTAIVRDSDKKFYNNFAVSRSMSPAGHLDDVEQNPSGLKWHVDGANPILVNEFGFKQAAGESQRSLWFRAGAIYNTSHYQYFDQPGDSSSNYAFYVANTMQLTQPKKGLPLGLYLDVKADYAPDDRNAYTSDFQVTFFDIGLFPGREQDMTSLGYTRSFISKKFRDYVGEAGMEAPQSINAISLSHALRVTKGIYWINGITWQDNPTLVPKHESAVLWQSSMYWNF				NA	NA	NA	NA	NA
BMS020_01491	1209			hypothetical protein	ATGGTGATGCACAAGGTTTCAGCAACCCCGCGCGAGGCGGGGGCCGTACAGGCGATTTTACTGATGTTGGCGGCCCTGTTGCCGATCATGGGGACCTTGACCATGCTGCCGGTGATGCCGCTCCTGTTCGGCCATTTTGCCGCGCAGCCGCACGCCCAGCTGCTGGTGCCGATGATCATCACCATTCCGGCGGTGAGCATGGCGCTGCTGGCTCCGCTGGCGGGGAGGGTGGGCGATCGCCTGAGCCGTCGTCGCCTGCTGATTGCCGCCACTGCTCTGTACGCGGGGTTTGGCCTGCTGCCGGTGATGCTCGACGATCTGTATGCCATTCTGCTGGCGCGGCTGGTGATGGGCATCGCCGACGCCTTTATTCTTACCACCGCCAATGCGCTGATTGGCGACTACTTTGCCGGCGAGGCGCGCAGCAAATGGCTGGCGGTGCAGAGCGGCATCGGTTCGATACTGTCGACGCTGATCGTGCTGGGCGCTGGCCTGCTGGGCACCCTGGGCTGGTATGGCCCGATCTACCTGTATGCGCTGGCGATCCCGGTCTTTATCGGCCTGTGCCTGTTCACCGCTGAGCCGGCGACCCGCCGTCGCGCGGACAGCGTCGCTGACGAGGAGCCTGTCGCTTTTCCACGGCGCAAAATGGCGACGATCGGCCTGATTACCCTCGCCAGCGCAATCCTCTACTTTCTCGAGCCGCTGCAGATAAGCCAGGTGTTCAGTCAGCTCGGGCTGACCTCCAGCAGCCAGATCGGCATCGCCACCGCCGTTGCGGGCATTGGCGTGCCGCTGGGCGCCTGGCTGTATGGCCGCAGCGCCAGGCAGCGTGTCGCCAGGCAGTTTTTCCTTTTTTACGCCATTTTTGGCCTCGGTCTGCTGTTTATCGCCGTGGCCCACAATCCGCTGGCCGGCGTGGCGGCAGCATTCGTCGCGCAGGTTGGTAACGGAATGCTGATCCCTCTGATGCTGGCCTGGATGTTAGAAGCCCTGCCGGCGCCGCACCGGGCGACGGGGATCGGCATTTGGCACACCTTCTTTTTCCTCGGCATGTTCATCAGCCCGGTTCTGATGACCTTGCTGAACGGCATGACCGGCAGCATGCAGGACAGCCTGCTGCTGTTTGCGCTGCTGACGCTGGCTATCGCCGGCGCGACGGGTATCGCCAGCGCCCGGATGGGGGGCCGCCGCGCGCTGGCTCGTTAA	MVMHKVSATPREAGAVQAILLMLAALLPIMGTLTMLPVMPLLFGHFAAQPHAQLLVPMIITIPAVSMALLAPLAGRVGDRLSRRRLLIAATALYAGFGLLPVMLDDLYAILLARLVMGIADAFILTTANALIGDYFAGEARSKWLAVQSGIGSILSTLIVLGAGLLGTLGWYGPIYLYALAIPVFIGLCLFTAEPATRRRADSVADEEPVAFPRRKMATIGLITLASAILYFLEPLQISQVFSQLGLTSSSQIGIATAVAGIGVPLGAWLYGRSARQRVARQFFLFYAIFGLGLLFIAVAHNPLAGVAAAFVAQVGNGMLIPLMLAWMLEALPAPHRATGIGIWHTFFFLGMFISPVLMTLLNGMTGSMQDSLLLFALLTLAIAGATGIASARMGGRRALAR				NA	NA	NA	NA	NA
BMS020_01492	792	kynB		Kynurenine formamidase	ATGATCAATCTTTTACAGGGGCGTCGGCTGATCGACCTCTCCGTCACCCTGGACAACAATCCCTGGACCGACCCGCCGCCGCTGCTGCCGAATATTGAATATCAGGATCATCAGCAGGGATGGCCGGAAATGGCGGCGATGTTTCCGGGACTGGAAAAAGCGCAGATGCCGGGAGAGGAGGCCTGGGCCTCGGAGCGCCTGACCGTGACGCCGCACAATGGCACCCATATGGATGCTCCATGGCACTACAGCTCAACCACCAACGGCGGCGAACCGGCGTTTGGCATCGATGAGCTGCCGCTGGAGTGGTGCCTGCGCCCCGGCATCCGGCTGGATTTTCGCCATGTCGCCGACGGGGCGATCCTGCAGCCGGAGGATCTGCAGCGCGAGCTGGCGCGGATCGATTATCGCCTGTCGCCGCTGGATATCGTGTTAATCAATACCGCCGCCGGCGCCCGCTACGGCCAGCCGGATTATCTGCAGCGCGGCTGCGGCATTGGCCGGGCGGCAACGCTGTGGCTGCTGGAGCAGGGGGTACGGGTGGTCGGCACCGACGCCTGGAGCTGGGATGCGCCCTTCCACTTTACCCGCGAACGCTTTCAGGCCAGCGGCGACGCCGGGCTGATCTGGGAAGGACATAAAGCCGGCAGGGAGATCGCCTATGGGCAAATGGAGAAGTTGAGCAATCTGGAGCTGCTTCCCGACCACGGCTTCTGGGTGAGCTGTTTTCCCTACAAGATCCGCCGCGGCTCGGCCGGTTTTATCCGCGCGGTGGCGATTGTCGACGCCTGA	MINLLQGRRLIDLSVTLDNNPWTDPPPLLPNIEYQDHQQGWPEMAAMFPGLEKAQMPGEEAWASERLTVTPHNGTHMDAPWHYSSTTNGGEPAFGIDELPLEWCLRPGIRLDFRHVADGAILQPEDLQRELARIDYRLSPLDIVLINTAAGARYGQPDYLQRGCGIGRAATLWLLEQGVRVVGTDAWSWDAPFHFTRERFQASGDAGLIWEGHKAGREIAYGQMEKLSNLELLPDHGFWVSCFPYKIRRGSAGFIRAVAIVDA	PGPT0010315_22	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	TUMORICIDAL_COMPOUNDS	TUMORICIDAL-TYPE_II_POLYKETIDE-MITHRAMYCIN_METABOLISM,PGPT0010315-oxyN|snoaM|dpsY|aknW|mtmY-K14250	NA	NA
BMS020_01493	984			hypothetical protein	ATGAAACTGGCAACACGAGAGAACGGTGAACGCGACGGCTGCCTGGTGGTGGTCTCGGGGGATTTGACGCTGATGGCCGATGCGGCGGATATCGCACCGACGCTTCAGCAGGCGCTGGAGCAGGCCGCGCGGGTCTGGCCTGCGCTGCAGGCGCGCTATCAGGCGCTCAATGCGCGCCGCTACCCGGCGGCGCAGCCCTATGATCCCCGGCGCCTGCTGGCGCCGCTGCCCCGCGCCTGGCAGTGGCTGGACGGTTCGGCCTTCCTCAGCCATGGCGAGCGCATGCAGCGGGCCTTTCATCTGCCGCCGATTGCCGGCGCCGACCAGACACCGCTGATGTATCAGGGCAGCGGGGACGACTTTCTTGCCCCCCACGCCGGGATAGTCTGCCGCCGGGTCGAGGACGGTCTCGACTTTGAGGGCGAGTTCGCGGTGGTGGTGGACGAGGTGCCTCAGGGTTGCTCGCCGCAGCAGGCGCTGAGCTGTATCCGCCTGATCGTCTTGCTCAACGATATCAGTCTGCGGGCGCTGGCGCCGCGCGAGATGCAGACCGGGTTTGGTTTTATTCACGCCAAACCCGCCTCGGCCTTTGCGCCGGTGGCCCTTACCCCGGATGAACTGGGAGAGGCCTGGCAGCACGGGCGGGCGGCGCTGACGCTGCAGGTGACCCGCAATGGCGAGCCGTTTGGCTGCCAGTCGGGCAGCGAGATGCATTTCCATTTTGGCGAACTGATTGCCCATGCGGCGCAGACCCGCCGCCTGCGCGCCGGGACGGTGGTGGGTTCCGGTACGGTGTCCGGGCCGGACGCCAGCCGCGGCGCCAGCTGTATCGCCGAGGTGCGGGCCATAGAGATGCTGGCCTTCGGCGAGCCGCGCACGCCGTTTTTGTCCCCGGGGGAGCGGGTGACGATGGAAGCCCACGCCCCCGATGGCCGGCCGCTGTTTGGCGTGCTGGATCAACATGTTGTGATGTTAACGGAGTAA	MKLATRENGERDGCLVVVSGDLTLMADAADIAPTLQQALEQAARVWPALQARYQALNARRYPAAQPYDPRRLLAPLPRAWQWLDGSAFLSHGERMQRAFHLPPIAGADQTPLMYQGSGDDFLAPHAGIVCRRVEDGLDFEGEFAVVVDEVPQGCSPQQALSCIRLIVLLNDISLRALAPREMQTGFGFIHAKPASAFAPVALTPDELGEAWQHGRAALTLQVTRNGEPFGCQSGSEMHFHFGELIAHAAQTRRLRAGTVVGSGTVSGPDASRGASCIAEVRAIEMLAFGEPRTPFLSPGERVTMEAHAPDGRPLFGVLDQHVVMLTE	PGPT0001615_812	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_STYRENE_OXIDE_DEGRADATION,PGPT0001615-faaH-K16171	NA	NA
BMS020_01494	366			hypothetical protein	ATGGTTCGCCTGTGCCGTGCCGACAGCCTGGCCGAGGGCCAGGCGCGGGGATTTGACCCTACGGGCAGCGGGCAGGCGACGGTGATTGCCTGCCGCTATCAGGGAATGCTCTATCTGTGGCGTAACCGCTGTCCGCATCTGGATACCCCGATGAACTGGCGGCAGGACGCTTTTTTCAACGCCCGGGGCGACCGGCTGGTCTGCTTCGCCCACGGGGCGATTTTTATGCCGGACAGCGGCCTCTGCGTGCAGGGCGCCTGCGTAGGCCAACGTCTGAGTCCGCTGGCTGGCGAGGTGGACGCCGACGGCTGGCTCTGTCTGCTGGAGGAGGCAGGTCATGAAACTGGCAACACGAGAGAACGGTGA	MVRLCRADSLAEGQARGFDPTGSGQATVIACRYQGMLYLWRNRCPHLDTPMNWRQDAFFNARGDRLVCFAHGAIFMPDSGLCVQGACVGQRLSPLAGEVDADGWLCLLEEAGHETGNTRER				NA	NA	NA	NA	NA
BMS020_01495	921			hypothetical protein	ATGAATATTCTTGGTCCGGATTATCTGGTATTTGGCGTCGATGACCTGGCGGGCTGCCGACAGTTTCTTCTCGACTACGGTTTACGCGAGCAGGAGAACGGTTTCTTTAGCGCGCTGGATGGCACCGGGGTGCTGCTGCGGGAGCGTGACGATCCGTCGCTGCCCGCGGCGCTGCCCAGCGGCAGCCAGCTGCGGGAAACCGTCTATGGCGTGGCGGATAGCGCCACCCTTGAGGCGATCGCCGAGACGCTGCGCCGCGATCGCGAGGTGAAGCTCGGCGCCGACGGCGTGCTGCGCTGCGTCGATGATGCCGGCTTTGCCCTCGGGTTTCGCGTCAGCCAGCGTCAGCCGCTGCAGCGGGAAGGGGAGAAAATCAACGCCCCGGGGGATCGCGCCGGGAGGCCGGTCAACCAGACCGGGGCCAGCGCTGACATGGCGGCAGAGCCGCGCTCGCTCTCCCATGTGGTCTATTTTGTGCCGGACGCCGCGCGCGCGGAAGCCTTCTATCAACGGCTGGGCTTTGTCTGTACCGATCGCTTCACCCACGTTGGCCCCTTCCTGCGGCCCGCCGGCACCCAGGATCACCATACCCTGTTTCTGATCCAGGCCCCGCCGTTTATGACCGGTATTGAACACTTTACCTTTCATCTCGGCGGCCCCACCGAGCTGATGATGGCCGGCAGCCGCTTTCAGCAGAAGGGGTATCAGACCTTCTGGGGGCCGGGGCGCCATCAGCTGGGATCGAACTGGTTCTGGTACTTCAACAGCCCGCTCGGGTGTCACATCGAATACGACGCCGATATGGATCAGCACGATGACCACTGGCAGCCGCGCGAAGCGCTGCCGGGAGCCGATAACTCGCAATATTTCCTGCTGGGGTATCGCGAGAAGTGGGCCCCCGGTCCGGATAACGCCCGCTGA	MNILGPDYLVFGVDDLAGCRQFLLDYGLREQENGFFSALDGTGVLLRERDDPSLPAALPSGSQLRETVYGVADSATLEAIAETLRRDREVKLGADGVLRCVDDAGFALGFRVSQRQPLQREGEKINAPGDRAGRPVNQTGASADMAAEPRSLSHVVYFVPDAARAEAFYQRLGFVCTDRFTHVGPFLRPAGTQDHHTLFLIQAPPFMTGIEHFTFHLGGPTELMMAGSRFQQKGYQTFWGPGRHQLGSNWFWYFNSPLGCHIEYDADMDQHDDHWQPREALPGADNSQYFLLGYREKWAPGPDNAR				NA	NA	NA	NA	NA
BMS020_01496	1158			2,6-dihydropseudooxynicotine hydrolase	ATGTTTCGCTATTTCCCTAAAAACTATGTCTGGAACCTGTCGGTGGATCTCTCCATCGAGATGGGCGCCCGCATCGGTGAGATCGAAGAGATGTGCGCGCCGCTATTGGCCGCGTCCGAGCATCCCGACGCCGAAGGCACCCGCGCGTTCCGGGAAACCTGGTCCCGCATGGCCGATAAATTATGCGCGCTGGCCGGCGAAGATGAGGCGCGGGGGCGGCGGCTGTCGGCAGGAGAGAAATATCTTCGGGCGGCCAACTATTACCTGACCTGCGAACGCCTGCAGGCGCATGGCGCGCCGGACCGCGATGCGCTGTACTGCCGCTTTCTCGATGTCTTTGCCGCCGGGCTGCACCATACCCATGCCAACTGTCAGCGGGTGACTATCCCCTACGAGGGCAAAACCCTGTCGGCGCTTTACGTCCGCGCCGAAGGGGCGACCGGCCGCGCGCCGCTGCTGGTGCAGGTCAACGGTCTCGACTCCACCAAAGAGATGAAATATCTGGTGGGGCTGCCGCAGTGGCTGGCGCGGCGCGGGGTCTCCTCGCTGGTGGTCGACCAGCCGGGAACCGGCGAAGCGCTGCGTCTTCACGGCATGCAGGCCCGCTATGACAGCGAGCACTGGGCCAGCCGGATCGTTGACTGGCTGGAACAGCACCCGGAGGTGGATGCCGGGCGCATCGGCATGGAAGGGGTCTCGCTGGGCGGCTATTACTGCCCGCGGGCGGTGGCGTTTGAGCCGCGCTTCGCCTGCGGCGTGGTGTGGGGCGCCAATCACGACTGGCGGGAGGTACAGCAGCGCCGCCGCGAACGCGAAGGCGATTTTCCGGTACCGCACTACTGGCAGCATGTGCGCTGGGTGTGGGGGGGCGAGGATATCGACGCTTTTATGCGCATCGCGGAGAACGTCCATCTCGACGGCATTCTCGACCGCATACGGGTGCCTTTCCTCGTCACCCATGGTGAAAAGGACTCGCAGATCCCGGTGAAATGGGCGCAGCGCACCTACGACCAGCTGGTGAACAGTCCACGCCGCGAGCTGAAAATTTTTACTGACCGCGAGGGCGGTGTGCAGCACTCCAGCTTCGACAACTCGATTAACGCCGGGCACTACATCGCTGACTGGGTGGCGGAAGCCCTCGGCGGCCGGGTGGCCTGA	MFRYFPKNYVWNLSVDLSIEMGARIGEIEEMCAPLLAASEHPDAEGTRAFRETWSRMADKLCALAGEDEARGRRLSAGEKYLRAANYYLTCERLQAHGAPDRDALYCRFLDVFAAGLHHTHANCQRVTIPYEGKTLSALYVRAEGATGRAPLLVQVNGLDSTKEMKYLVGLPQWLARRGVSSLVVDQPGTGEALRLHGMQARYDSEHWASRIVDWLEQHPEVDAGRIGMEGVSLGGYYCPRAVAFEPRFACGVVWGANHDWREVQQRRREREGDFPVPHYWQHVRWVWGGEDIDAFMRIAENVHLDGILDRIRVPFLVTHGEKDSQIPVKWAQRTYDQLVNSPRRELKIFTDREGGVQHSSFDNSINAGHYIADWVAEALGGRVA				NA	NA	NA	NA	NA
BMS020_01497	900	nodD2_2		Nodulation protein D 2	ATGCGTTACCAACATCTTGATCTGAACTTACTGGTGGCACTGGATGTGTTACTCGATGAACAGAACATCACCCGCGCCGCGGGCCGGTTGCATATGACCCAGTCTGCCACCAGCGGGGTGCTCAACCGGCTACGCACCTACTTTGAGGACGATCTGCTCACCCAGGTGGGCAGAAAGATGCGGCCCACGCCGCTGGCGGAAGAGCTGCGGGAGCCGGTCCGCGACGTGCTGATGAAAATTCAGACCTCCATTGCCCGCCGGCCGGTGGATGAGCCGGCAACCAGTAAGCGCCATTTCCGCATTATGGCCTCGGATTACGTTATCAACGTGATGCTGAAGGATGCGCTGCAGGCGGTACACCTGCAGGCGCCGAATATGACCTTTGAGTTTTTCTCGCCGGACGCCCAGTCCACCGGCATGCTCAACCGCGGCGAGCTGGATATCATCGTGGCGCCGGAGCGTTTTATGGCCGCCGACCATCCCGCCGAAGCGCTGTTTGACGAAGAGTTTGTCTGCCTGGCCTGGGCGGACAATCCCCACACCGGCGAGGCGCTGACTCTTGAAGCCTGGCAACAGCTGGGGCACGTGTCGGTGGTCTTTGGCCGCGAGCGGCAGCCGGGGCTGGAGGGCAATCTGTTTGCCGAGTCGGGGCTGAGCCGCCGTATCGAGGTGGTGACCCACAGCTACCACTGCGTTCCGCAGCTGCTGATCGGCACCTCGCGGATCGCCACGCTGCACCGGCGGCTGGCGGAGCAGTACGCGGCGATGCTGCCGCTGCGTCTTTTCCCGGTCCCGGTGACGCTGCCGGTCATGCGCGAATTTATCGGCTGGCACCGCTCGCTGGATAACGATCCTATCTTCGGCTGGCTGAAAGCGAAAATCGTCGCCAGCGCACGCTAA	MRYQHLDLNLLVALDVLLDEQNITRAAGRLHMTQSATSGVLNRLRTYFEDDLLTQVGRKMRPTPLAEELREPVRDVLMKIQTSIARRPVDEPATSKRHFRIMASDYVINVMLKDALQAVHLQAPNMTFEFFSPDAQSTGMLNRGELDIIVAPERFMAADHPAEALFDEEFVCLAWADNPHTGEALTLEAWQQLGHVSVVFGRERQPGLEGNLFAESGLSRRIEVVTHSYHCVPQLLIGTSRIATLHRRLAEQYAAMLPLRLFPVPVTLPVMREFIGWHRSLDNDPIFGWLKAKIVASAR	PGPT0015290_259	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-INHIBITION_OF_SALICYLIC_ACID|JASMONIC_ACID	ADAPTION_TO_PIS_REGULATION_BY_Nod_FACTORS,PGPT0015290-nodD-K14657	NA	NA
BMS020_01498	1122	hpxO_2	COG0654	FAD-dependent urate hydroxylase	ATGAACATCAATAACGTATTAATCGTTGGCGGCGGCATCGGCGGTCTGTGCACCGCCATCGCCCTCCGCCAGGCCGGCGTCGCCGTCGACGTGGTGGAGATCCAGCCGCAGTGGCGGGTCTACGGCGTCGGTATCATTCAGCAGAACAATGTCGTGCGGGAAATGCAGCGGCTTGGGGTGCTGGAACGCTATCTGGACGCCGCCTGGCCGTTTGACAGCGTCTCAGTGCACACCCTGAGCGGCCACCAGCTGGCCAGCTTTCCCGGCCAGCGGCTGGCGGGTGAACAGTTCCCGGCTAACGTCGGCATCTCCCGCCTGGCCCTGCACAACGTCCTCTGTTCCACCGCCCGGGAGCTGGGGGTCCGACTGACCACTGGCGAGAGTATTGACGCCTTTCGTCAGGTTGACGATGCCGTGGAGGTGAGCTTCAGCCGCGGCGGCCAGGGGCGCTACGATCTGCTGGTAGGCGCCGACGGGATCTACTCCCGGGTGCGCGGCATGCTGTATGGCGAGCGCTATCGTCCCCGCTTTACCGGTCAGGGCGTTTGGCGCTACAACTTTCCGCGTCCGCCGGAGGTGGACCATCTGATGTGCTTTATGGGGGAGAGCTGCAACTGCGGGCTGGTGCCGCTGGGGGAAGATCTGATGTATCTGTTTATCACCTCCCACGAAGCGGATAACCCCCGCTACGCCCGCGACCAGCTGGCGGCAGAGATGCGCCGCCGTCTGCCGCCCGGCGCGGGGTTACCGGGGAGCCTGCGCGAGCATATCGTTAACAACGACGAGGTCGTCTATAAGCCGCTGGAGGAGCTGTTCGTCGACGATCCCTGGTATCAGGGACGTGTCGTACTGGTGGGCGACGCGGTTCACGCTACCACCCCGCACCTCGGTCAGGGGGCGGGCATGGCGATTGAGGATGCCATCGTGCTGCGCGAAGCGCTGCAGCAGACCGACAGCGTCGCAGCCGCGCTGGCGCATTTTGACGCCCGCCGCCGGCCGCGCTGTCAGCAGATCTGGGCCGCCTCGCTGCAGGTGGGCGAGAGCGAGATCCACCGCGATCGCCATTTTGACCGCCAGCGGGCGATCGGCGATATGATGACCCTGACGGCGAGACCGATATAA	MNINNVLIVGGGIGGLCTAIALRQAGVAVDVVEIQPQWRVYGVGIIQQNNVVREMQRLGVLERYLDAAWPFDSVSVHTLSGHQLASFPGQRLAGEQFPANVGISRLALHNVLCSTARELGVRLTTGESIDAFRQVDDAVEVSFSRGGQGRYDLLVGADGIYSRVRGMLYGERYRPRFTGQGVWRYNFPRPPEVDHLMCFMGESCNCGLVPLGEDLMYLFITSHEADNPRYARDQLAAEMRRRLPPGAGLPGSLREHIVNNDEVVYKPLEELFVDDPWYQGRVVLVGDAVHATTPHLGQGAGMAIEDAIVLREALQQTDSVAAALAHFDARRRPRCQQIWAASLQVGESEIHRDRHFDRQRAIGDMMTLTARPI				NA	NA	NA	NA	NA
BMS020_01499	624			hypothetical protein	ATGAATATTATTCCGACTGAGATCTTAAAATATGCTATCGCTATTATCCCGCTGATTATTCAAATTTTTGCCGTGCGTTCTGGCTGGGTATTCCCTAAAGATAAAATATTCACCTCGCGCAAAAACATCAGTGAGTTCGCCGCTGCGCTGCATAAAAACAGCGACGACCCCGATCTGCAACGGATCGCGTACGAATATGGTATCGCCGCGCTGACCAAAGATAAAAACCTGACCATGGAACAAAGAAAAATACTGTTGAAATGCAAAAATCCGGTCAGCGATATTGATAATTACAGCAAGTGCCAGCATTTAATTTCCGTCAATAATGAAAAGCGGATATTCAAATGGAAAAAGCCGGGCTATCGCTTCTGGCTCTATCGCAAATGCGTCGAAGTCATCAGTCTGGCGCTCTATTTTATTGGCGGCTTCTTAACGGCTCTGCCTTTCCTGTATGAAGGCCTGGCCAGCCCGGCGGTGATTGAGCGGATTAATCATTTATCCCGTCTGCAAAAATTCTGTATGGCAAGTTATCTGTTCGCCTGCGGGGTTTGTCTGGCGCTGATCTGCCTGCATAAACTCTCCACCCTCTCGATCGCGGAAAAAACCATCAAAGCGAATCGCTAA	MNIIPTEILKYAIAIIPLIIQIFAVRSGWVFPKDKIFTSRKNISEFAAALHKNSDDPDLQRIAYEYGIAALTKDKNLTMEQRKILLKCKNPVSDIDNYSKCQHLISVNNEKRIFKWKKPGYRFWLYRKCVEVISLALYFIGGFLTALPFLYEGLASPAVIERINHLSRLQKFCMASYLFACGVCLALICLHKLSTLSIAEKTIKANR				NA	NA	NA	NA	NA
BMS020_01500	912			hypothetical protein	ATGCATCACGACGCCAGCCTCAATATTCGTCAGCTGCAGGTTTTCGAGGCGGTGGCCCGCCTGGAGAGCTACAGCCGGGCCCAGCAGGAGCTGGGCATTTCGGTCTCCGCCATTAGCAATGCGATGTCGCAACTGGAGGGGCAGCTCGGCTTCACCCTCTGTCAGCGCGGGCGCGGCGGCTTTTCCTTAACGGAAAAAGGACAGCAGTTTTTACAGCAGGCGATCCGCGTGCTGAGCGAACTCAATGAGCTGGAGCGGCAGTCGGCCCTGCTCAAAGGGGAGCACAGCGGCACCCTGTGCATTTCGACGCTCGACTCCATCGAGACCGAAACGGCGCTCTCGCTGCCGGTGGTCTTGCGCAGCTTCAGCGACAAATTTCCCCATGTGCATATCAAACTGATTATTCGCACCCCGGCGGAGCAACTGAACGGGGTGCTGAACAACCATATCGACCTGGCCATCGGCAGCTACAACTCGCAGGTGCATAACATCATCAGCGAGCCGCTGTATCGCGAGCAGCACTGGCTCTATTGCAGCGATCTGCACCCGATGTTCTTCAGCCGCCAGCTCGATAAAGAGCAGATCAGCCAGTGTCCGCTGGTGACCCGCAGCTACTGGAACACCAGCGATCTCCGCCGTCGGGGCTTCAGCAAAGGCAGCGCCACCGTTGAGACCGTCGACGCCCAGCTGCTGCTGATTCTTTCGGGGAAATATATTGGCTATCTGCCGGAGCATTACGCCTGGCCGTGGATCAAAGAGAACCGCCTGCGGGTGCTGTTGCCCAACGAGTTTGGCTTTCAGTCGCCGTTCTCGGCCATCTGTAAGCGCGGGCGCAGTAATGAACCCTATCTGAAAGCGTTCCGCGATCTGCTGAAGAAAAACACGGTGGCTCGGCCGAAGTGGAATTATTAA	MHHDASLNIRQLQVFEAVARLESYSRAQQELGISVSAISNAMSQLEGQLGFTLCQRGRGGFSLTEKGQQFLQQAIRVLSELNELERQSALLKGEHSGTLCISTLDSIETETALSLPVVLRSFSDKFPHVHIKLIIRTPAEQLNGVLNNHIDLAIGSYNSQVHNIISEPLYREQHWLYCSDLHPMFFSRQLDKEQISQCPLVTRSYWNTSDLRRRGFSKGSATVETVDAQLLLILSGKYIGYLPEHYAWPWIKENRLRVLLPNEFGFQSPFSAICKRGRSNEPYLKAFRDLLKKNTVARPKWNY	PGPT0003120_642	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ACINETOBACTIN_METABOLISM,PGPT0003120-bauR-K21699	NA	NA
BMS020_01501	951	gbuA	COG0010	Guanidinobutyrase	ATGGATAACCTCTTTCACCAACCGCAGGGTGGCAATGAGATGCCACGCTTCGCCGGCCGCGCCACGATGATGCGCCTGCCGTTTATCGAAGATTTACAGGGACTTGATGCGGCATTTGTCGGCATTCCGCTGGATATCGGCACCTCGCAGCGCTCAGGCACGCGCTACGGACCGCGCTATATTCGCGCCGAATCGGTGATGATCCGTCCGTACAATATGGCGACCGGCGCCGCGCCGTTCGACTCGCTGTCGGTAGCCGACATCGGCGATGTGCCGATCAATACCTACAGTTTGCTCAAATCGGTGCAAATTATTGAAGATTACTACACCGGTTTGAATAGTTATCCGCTGATCCCCCTCACCCTCGGCGGGGACCACACCATTACCCTGCCCATCCTGCGGGCGCTGACCAAAAAACATGGGCCGGTGGGGCTCATCCACGTCGACGCCCATACCGACACCAATGATGAGATGTTCGGTGAGAAAATCGCCCACGGCACCACCTTCCGCCGCGCCGTTGAGGAGGGACTACTCGACCTCAAGCGGGTGGTGCAGATTGGCCAGCGCGCCCAGGGCTATGCCGCCGGGGACTTCCAGTGGGGCGTCGACCAGGGCTTTCGCCTGGTGCAGGCGGAGCAGTGCTGGCATACCTCGCTGGCGCCGCTGATGGCCGAAGTCCGCCAGCAGATGGGCGACGGGCCGGTGTATCTCAGCTTTGATATCGACAGCCTCGATCCTATCTGGGCCCCGGGAACCGGGACGCCGGAGGTCGGCGGCCTGACCTCCATTCAGGCACTGGAGATCGTCCGCGGCTGCCGCGGCCTGAACCTGATTGGCGCCGATCTGGTTGAAGTCTCGCCCCCCTATGACGTGAGCGGTAATACCTCCCAGCTGGCGGCCAACCTGCTGTACGAGATGCTCTGCGTCCTGCCCGGCGTGAAGTACGCCTGA	MDNLFHQPQGGNEMPRFAGRATMMRLPFIEDLQGLDAAFVGIPLDIGTSQRSGTRYGPRYIRAESVMIRPYNMATGAAPFDSLSVADIGDVPINTYSLLKSVQIIEDYYTGLNSYPLIPLTLGGDHTITLPILRALTKKHGPVGLIHVDAHTDTNDEMFGEKIAHGTTFRRAVEEGLLDLKRVVQIGQRAQGYAAGDFQWGVDQGFRLVQAEQCWHTSLAPLMAEVRQQMGDGPVYLSFDIDSLDPIWAPGTGTPEVGGLTSIQALEIVRGCRGLNLIGADLVEVSPPYDVSGNTSQLAANLLYEMLCVLPGVKYA	PGPT0007635_270	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007635-gbuA-K12255	NA	NA
BMS020_01502	864			hypothetical protein	ATGGAGCTGAAATGCTTTCGCACCCTCTGGGGAGTGACGACCCCCTGGCCGCAAACGCTGGATGAACTGCAGCGCGTCGGCTGCTGCGGTATCGAAGCCCGCGTCCCGTTAACGGCGGAGGAGCGGCGGCAGCTCGCCGACCGCCTGCAGGCGTCGGGGCTGGAGTATATCGCCATTCTCTTCAGCGGCGGCGGGGTGCTCCCCGCTCAGCATGAAACGCCGGAGCAGCATCTGGCGCGCCTGCGGATCCGCTTCGCCGAGGCCAGCGGCCTCAACCCGCGCTTTGTCAATCTGCTGGCGGGCAACGATCGCTGGCCGCTGGCGCAGCAGGTCGATTTTCTCGGCAAGGCGCACGAGCTGGCCGCCGGGTTTGGGTTGACCTGCAGCTTTGAAACCCATCGCGCCACCTCGCTGTACAGCCCGTGGCTCACCCTGGAGATCATTCAGCAGCTCCCCCAGCTGCGCTTTACCGCCGACATCAGCCACTGGGTGGTGGTCAGCGAGCGCCTGCTGGATGACCCCTGCGATGACTTCAGCGCCTTTATCGACCGCGTGCATCACGTGCAGGCCCGGGTGGGCTACGACCAGGGGCCGCAGGTGCCGCACCCGGCGGCGCCGGAGTATCAGCCGGCGCTGGCCTTTGCCGAGCGCTTCTGGGAGCAAATCTGGCATTCGCAGCGCCGGCGCGGCTACCCGCAGACCACCCTGACGCCGGAGTTTGGCGCCGACGGCTATCTGCACCATCTGCCGTTCACCAACGTTCCGGTGGCCGACCTCTGGTCGCTCAACGCCTGGATGGCCGCGCGCCAGCAGGCCCACTTTCAGCAGTTTTTAACGCTCACTGAACAGGAACCGCAGCCATGA	MELKCFRTLWGVTTPWPQTLDELQRVGCCGIEARVPLTAEERRQLADRLQASGLEYIAILFSGGGVLPAQHETPEQHLARLRIRFAEASGLNPRFVNLLAGNDRWPLAQQVDFLGKAHELAAGFGLTCSFETHRATSLYSPWLTLEIIQQLPQLRFTADISHWVVVSERLLDDPCDDFSAFIDRVHHVQARVGYDQGPQVPHPAAPEYQPALAFAERFWEQIWHSQRRRGYPQTTLTPEFGADGYLHHLPFTNVPVADLWSLNAWMAARQQAHFQQFLTLTEQEPQP				NA	NA	NA	NA	NA
BMS020_01503	1068	vldW_3		Validamycin A dioxygenase	ATGACCGCCGTGAAGCACGCTTTTACTGAACTCCCGACCATCGATATCCGCGATCTGGCCGGCGACGATCTCGCCAGGCGCCAGGCGGTGGCCGACGCCATCGGCCGCGCGGCGCGCGAGGTGGGCTTTTTCTACATCACCGGCCACGGCATCGACCCGGCGCTGATCGCCGGCGTCCGCGAGGCGGCGAAGCAGATCTTCGCTCTGCCGATGGCGGAGAAGATGAACTATTACATCGGCCGCTCCAAAAGCCATAAGGGCTACGTCCCGGAAGGAGAAGAGATCTACGGCGCCGGCAAGCCGGACCATAAAGAGGCCTTCGATATTGGCTTCCAGGCGGCGGACGACCATCCGCTGGTGCTCGCCGGTACGCCGCTGATCGGCGCCAACGAGTGGCCCGACCTGCCGGATTTCCGCGCGCGGGTGCTGGCCTACTACGACGCGGTCTTCGCCCTCGGCCACCGCCTGTTCGACGCTTTCGCCCTCGCGCTCGGTCTGCCGGAAGGGTATTTCAAACCGATGGTGACCTGCCCGCCGGCCAAACTGCGGCTCATCCATTACCCGTTCGACGCCAGCGTCGAAGATGTTCCCGGAATTGGTGCACACACCGACTATGAGTGCTTCACCCTGCTGCTCGCCGACCAGCCCGGGCTTGAAGTCCTCAATGAAGAAAGCGTGTGGATCGACGCGCCTCCCGTCACGAACGCCGCCGGAGAAGAGGCGTTCGTGATCAATATCGGCGACATGCTGGAAGTGCTCAGCGCTGGCACATTTGTTGCTACAGCCCACCGGGTGCGCAAAGTGCCGCAGGAGCGGTACTCCTTCCCGCTGTTTTTCGCCTGCGATTACCACACGCTGATCCGCCCGCTGCCGACCTTTCTCGCCGCCGGCGAAGCCAGCGAATATCAGGAGCTGAGCATCGGCGAGCATATGTGGAGCCAGGCGCTGCAAACCTATCGCTATCTGCGCGAGAAGGTCAATCGCGGCGAGCTCCAGCTGCCGGCGCGCGCGCGCGGCACCCATACCTTTGGCCATCTGAAAAAACAGGCACAGCAAAAAAAACCCTAA	MTAVKHAFTELPTIDIRDLAGDDLARRQAVADAIGRAAREVGFFYITGHGIDPALIAGVREAAKQIFALPMAEKMNYYIGRSKSHKGYVPEGEEIYGAGKPDHKEAFDIGFQAADDHPLVLAGTPLIGANEWPDLPDFRARVLAYYDAVFALGHRLFDAFALALGLPEGYFKPMVTCPPAKLRLIHYPFDASVEDVPGIGAHTDYECFTLLLADQPGLEVLNEESVWIDAPPVTNAAGEEAFVINIGDMLEVLSAGTFVATAHRVRKVPQERYSFPLFFACDYHTLIRPLPTFLAAGEASEYQELSIGEHMWSQALQTYRYLREKVNRGELQLPARARGTHTFGHLKKQAQQKKP				NA	NA	NA	NA	NA
BMS020_01504	804	fliY_4	COG0834	L-cystine-binding protein FliY	ATGACTAGCACCCTGAAAAAAATCTCGCGCCGCGTCGCGCTTACCCTCGCCGTCAGCGCCTGTTTCTCCTCTGTCACCCAGGCGGCGGAACTGCTGACCGAGGGCGTCTTTAAGGTGGGGATGGAGGTCACCTACCCGCCGTTTGAGTCCTATGACAGCAATAACAATATCGTCGGTCTCGACCCGGAGTTCGCGACGCTGATTGCCGAGCATCTGCAGGCCAAACCGCAGCTGATCGACACCAAGTTCACCAGCCTGATCCTCGGCATCGGCAAGAAATATGATGCGGTGATCTCTGGGATGTACGTGACGCCGGAGCGCCAGAAACAGGCCGACGCCATCCCTTACGCCCTTTCCGGCGCGTCGATCATTGCCCTCAAGGGCGGCGCGGTGCAGCCGAAAACCGAAGATGAGCTGTGCGGCGTGAAGGTCGGCCTGCAGGCAGGCACCACCTGGGTGACCAGCCTGAAAAAACACTCCGATGAGTGGTGCCTGAAAAACGGCAAACCGGCCATCACTATTCAGGAGTTCCCGACGGCGCCGGAAGCCTCCCAGGCGCTGCTGTCGAAGAACATCGACGCCCAGCTTGAGATAGCCCCGGCGGCGCAGATTATCGTCGATAAGAGTCGCGGCCGCCTGGGGATAAGCTCGACGCGCCTCGTCTACCCGCTGCCGTTGGGGATCTATGTCGCCAAAGGCAACACCGAGCTGGCGGAGGCGATCAAGGCCACCCTCGCCACGCTCAAAGCCAACGGCAAATATGCCGCGCTGATCAAAAAATACAACTTAGAAAGCATCGATTAA	MTSTLKKISRRVALTLAVSACFSSVTQAAELLTEGVFKVGMEVTYPPFESYDSNNNIVGLDPEFATLIAEHLQAKPQLIDTKFTSLILGIGKKYDAVISGMYVTPERQKQADAIPYALSGASIIALKGGAVQPKTEDELCGVKVGLQAGTTWVTSLKKHSDEWCLKNGKPAITIQEFPTAPEASQALLSKNIDAQLEIAPAAQIIVDKSRGRLGISSTRLVYPLPLGIYVAKGNTELAEAIKATLATLKANGKYAALIKKYNLESID	PGPT0020800_9977	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
BMS020_01505	1521	btuD_6		Vitamin B12 import ATP-binding protein BtuD	ATGGCGTTCGATTGGGGATACTTTTTTTCATTATTTAGCATTGGGGCATTCTGGCAGGCGTGCGTGACGGTTATCGTGATCAGCACCTTGTCCTGGGGGATCGGCCTGGTGGTCGGTTTTCTGCTAGCCTGCGCGAAGCTCTCGGCGCCGCGCTGGATCAAGATCCCCGTCGAACTCTATATCTGGTTTTTCCGCAGCGTGCCGCTGATGGTGCTGCTGGTGTTTGTCTACAACCTGCCGCAGCTGTTTCCGCTGACCCAGCCGCTGCTCGGGGTGCCGTTTATCGCCGGGCTGGTGTCGATGACCGTCACCGAAGCGGCCTATATGGCGGAGATCCACCGCGGCGGGCTGTTGTCGGTGGCCAAAGGGCAAAGCGAGGCGGGCCATGCGCTGAGCTTCAGCTTTATCGGCATCCAGCGGCTGATTATTATTCCTCAGGCGTTTCGCATCTCGTTGCCGACGCTGATCAATGAATACATCACCATCATTAAGCTGAGCTCGATTTTATCGGTGGTCTCCTTACCCGAGTTGCTGCTCACCGGCCAGCGCTTGTATGCGCAAAATTTCCTCGTGATGGAGACGCTGCTGGCGGTGGCGGTGTACTACGTCATGGTGGTTACCGTCTTCACCTGGCTGTTCCGGGCGCTGGAGAATAGCCTCGATATTCAGCGCAAGCGTCCGCAAACGCTCAGCGAGGCGGAATGCCAGGCGCTGCGCCAGAGCCTGCCGGCGATGACGGAAGCGATCAACACCGCGGCCGTCAACGGCGCGCCGCCGGCGCTGGATCTGCGGGGCATCCGCAAATCCTGGGGCCAGCATGAGGTGCTGAAAGGCATCGACCTGCAGGTAGATAACGGGGAGGTGATCAGCATCATCGGCCCGTCCGGCTCCGGCAAAACAACCCTGATCCGCACCATCAACGCCCTCGAAAGCATTGATGGCGGGGAGATCATTCTCTACGGCGAGGACTATCTGAAAGGCGGAGCCATCGTCGATAAGCGCCAGATGCGCGCCGGGGTGCGGCGCATCGGCATGGTCTTCCAGAGCTTCAACCTGTTCCCCCACCGCACGGTGCTCGACAACGTGATGCTGGCCCCGCGCTACCACCAGCTGCTGGATCAGCCGGTCGCCCGCGAGCAGGCCCTGGCGCTGCTCGACCGCGTCGGTCTGCTGGCCCATGCCCACAAGTACCCCGGACAGCTCTCCGGCGGCCAGCAGCAGCGCGTGGCGATCGCCCGGGCGCTGGCGCTGAAGCCAGACATCATGCTGTTTGACGAACCGACCTCGGCGTTGGATCCCGAGCTGGTGGGCGAGGTGCTGAAGGTTATTCAGTCGCTGGCCCGCGAAGGTATGACCATGCTGATTGTCACCCACGAGATGGACTTCGCCCTGTCGATTTCCGACCGCGTGGTGCTGATGGAGAACGGCGTGGTGCAGGCCGACATCGCCCCGCAGGTGATCCGCAGCCCGCTGGAGGCCCCTTCTCTGCAACGAATCCGTGAATTTATGGGAGTGCACTAA	MAFDWGYFFSLFSIGAFWQACVTVIVISTLSWGIGLVVGFLLACAKLSAPRWIKIPVELYIWFFRSVPLMVLLVFVYNLPQLFPLTQPLLGVPFIAGLVSMTVTEAAYMAEIHRGGLLSVAKGQSEAGHALSFSFIGIQRLIIIPQAFRISLPTLINEYITIIKLSSILSVVSLPELLLTGQRLYAQNFLVMETLLAVAVYYVMVVTVFTWLFRALENSLDIQRKRPQTLSEAECQALRQSLPAMTEAINTAAVNGAPPALDLRGIRKSWGQHEVLKGIDLQVDNGEVISIIGPSGSGKTTLIRTINALESIDGGEIILYGEDYLKGGAIVDKRQMRAGVRRIGMVFQSFNLFPHRTVLDNVMLAPRYHQLLDQPVAREQALALLDRVGLLAHAHKYPGQLSGGQQQRVAIARALALKPDIMLFDEPTSALDPELVGEVLKVIQSLAREGMTMLIVTHEMDFALSISDRVVLMENGVVQADIAPQVIRSPLEAPSLQRIREFMGVH	PGPT0020790_299	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
BMS020_01506	729	cloR		4-hydroxy-3-prenylphenylpyruvate oxygenase/4-hydroxy-3-prenylbenzoate synthase	ATGGCAACTGAGCAACACCTGCGCCAGCAGCTGGCCGCCGCCTACCGTCTGGCGGCGCTGTTCGGCTGGGAGGATACCCTCTACACCCACTTCTCCGTGCGCCTGCCCGGCGACGGCGAGCCGCGCTTTTTAATTAATCCCTTCGGCATGATGTTTGATGAGGTCACCGCCAGCAATCTGATCGTGGTGGATATGCAGGGCAAGGTCGTAGAGGGCGAGGCGCCGGCTAACTCGGCGGGCTTCACCATCCACAGCGCGGTGCATATGGCCCGGGAAGACGCCCACTGCGTGATCCACACTCACACCCTGCCGGGGATGGCGGTGGCCGCCTGCGAGGACGGCCTGCTGCAGCTCAACCAGATCAGCACCGAGTTTTACCAGCGCGTCGGCTACCACCCCTATGAAGGGGTGGCCTTTGACCTCGACGAACGGGCGCGCATTCAGCGCTCGCTGGGGAATAATATCGCCATGATCCTGCAGAGCCACGGCCTGCTGTCGGTGGGCCGTACCGTGGCTGACGCCTTTTACATCATGTTCTACCTCAATCGTGCCTGCGAGATCCAGATGGCCGCCGCCCAGCTGGCGGCCCTCAGCCCGATCCACACCATCGCCCCGCACCTCAGCCAGCACGCCTGCGAGCAGCTGATGGGCGTGGAGCATGAACGTCAACAGGTCTGGCAGGCGTGGTTGCGCCGTCTTGACCGTCTCGATACTTCTTACAAAGACTAA	MATEQHLRQQLAAAYRLAALFGWEDTLYTHFSVRLPGDGEPRFLINPFGMMFDEVTASNLIVVDMQGKVVEGEAPANSAGFTIHSAVHMAREDAHCVIHTHTLPGMAVAACEDGLLQLNQISTEFYQRVGYHPYEGVAFDLDERARIQRSLGNNIAMILQSHGLLSVGRTVADAFYIMFYLNRACEIQMAAAQLAALSPIHTIAPHLSQHACEQLMGVEHERQQVWQAWLRRLDRLDTSYKD				NA	NA	NA	NA	NA
BMS020_01507	933	ghrA_1	COG0111	Glyoxylate/hydroxypyruvate reductase A	ATGTCCGATATCACTATCGTGGTGGATTGTAACGACGCGGATTTCGCCCGCGATATCTGCGCCGCCCTGCAGCAGTTTCCCGACGTCACCGCGCTCCTGCCCCATCACCAGGCGGCGCGCGACGCGCAGTACGCCAGCTGCTGGTTCCCGAACCCGCAGCTGTTGACCCGCTCGCCGGGGCTGAAGCTGATCCAGGCCGCGTCCGCCGGGGTCGATCATCTGCCGCCCGCGCTGTTCGCCAGCGATATCCCGCTGTGCCGGGTGATCGATGAGGACTTTCGTCACGGCATGTTCGAATATGCCCTGTGGGGCGTGCTGTGGTTCCAGCGTTATTTTGACCGGGCGCTGGCCCACCAGCGGACCCAAACCTGGAAGCTCTATCCCCAGCGCGCCGCCGCCGACTTCCATATCGGCATTATGGGCCTCGGCGAAATTGGCGGCTATATCGCCGACCAGCTGGCCCGCCTTGGCTATCGGGTCTCCGGCTGGTCGCGCAGTGAGAAGCAGCTGGCTGGCGTCACCTGCTACCGCGGCGAGGAGGCGCTCGACAGCTTCCTCGGGTCGCTTGACGGGCTGATTAACCTCCTGCCGCTCACCGCGCAGACCCGGGGTATTCTCGCCGCGCCGCTCTTCAGCCGGCTTCCCGCCGGGGCGGTGTTAATCAACTGCGGGCGTGGAGAGCATATGGTCAATGAGGATGTGCTGGCGGCGCTGGAGAGCGGCCAGCTCGCCGGAGCGGTGCTCGACGTCTTCCCGCAGGAGCCATTGCCGGCGGACGATCCGCTGTGGCGCCATCCGCAGGTGGTGATCACCCCGCATATGGCCTCTGCGGCCCCCGCCGAGGTGATCGCCCGCCAGCTGCTGGAGAACATTCAGCGCCAGCGTCGCGGGCTGCCGCTCAAAAACCTGGTCAATAAGCACGCCGGTTACTGA	MSDITIVVDCNDADFARDICAALQQFPDVTALLPHHQAARDAQYASCWFPNPQLLTRSPGLKLIQAASAGVDHLPPALFASDIPLCRVIDEDFRHGMFEYALWGVLWFQRYFDRALAHQRTQTWKLYPQRAAADFHIGIMGLGEIGGYIADQLARLGYRVSGWSRSEKQLAGVTCYRGEEALDSFLGSLDGLINLLPLTAQTRGILAAPLFSRLPAGAVLINCGRGEHMVNEDVLAALESGQLAGAVLDVFPQEPLPADDPLWRHPQVVITPHMASAAPAEVIARQLLENIQRQRRGLPLKNLVNKHAGY	PGPT0019465_913	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0019465-ghrA-K12972	NA	NA
BMS020_01508	795	fabG_2		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAAGATTGATTTATCGGGGAAAGTCGCGCTGGTCACCGCCTCCACGGCGGGTATTGGCTTTGCTATCGCCAAAGGCCTGGCGGAGAGCGGCGCAGAGATCATCCTTAACGGGCGCAGCGAGCAGAGTGTGAACGCCGCGATCGCCCGCTTGCAAAATGAGGTGCCGGGGGCGAAAGCGCGCCCCGCCGTCGCCGACCTCAGCGGCGCCGACGGCGCGGCACAGCTGCTGCATGCCGTGACCGGCGTCGATATTCTGGTCAATAACGCCGGGATCTACGGCCCGCAGGATTTTTACGCCACCGATGACGCGACCTGGGAAAACTACTGGCAGACCAACGTCATGTCCGGCGTGCGCCTGTCGCGAGGGCTGCTGCCGGCGATGGTCAGTAAAGGCTGGGGGCGGGTGGTGTTTATCTCCTCGGAATCGGCGCGCAATATCCCGGCGGACATGATCCACTATGGCGTCACCAAGACCGCCCAGCTGTCGCTGGCCCGCGGCCTGGCGAAATATGTCGCCGGCAGCGGAGTGACCGTTAACAGCGTTCTGCCGGGGCCGACGATTTCCGACGGCTTTGCCGAAATGCTGAAAGACGAAGTGGCGAAAACCGGCCAGTCGCTGGAGGAACTGGCGAAAGCGTTTGTCATGACCCATCGTCCGAGTTCGGTGATCCAGCGGGCGGCCTCGGTGGAAGAGGTCGCCAATATGGTGGTTTACGTCTGCTCGCCGCAGGCGTCGGCCACCTCCGGCGCCGCGCTGCGCGTTGACGGCGGCGTGGTGGATGATATTCTCTGA	MKIDLSGKVALVTASTAGIGFAIAKGLAESGAEIILNGRSEQSVNAAIARLQNEVPGAKARPAVADLSGADGAAQLLHAVTGVDILVNNAGIYGPQDFYATDDATWENYWQTNVMSGVRLSRGLLPAMVSKGWGRVVFISSESARNIPADMIHYGVTKTAQLSLARGLAKYVAGSGVTVNSVLPGPTISDGFAEMLKDEVAKTGQSLEELAKAFVMTHRPSSVIQRAASVEEVANMVVYVCSPQASATSGAALRVDGGVVDDIL	PGPT0003180_3403	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
BMS020_01509	621			hypothetical protein	ATGTCTCTGTTACGAAGCTTGCTTTTCTTTCTCGGCGCGGCGGTCGCGGCTGCCATCGCGGTACTCTGCCTGTGGGTGGATATTCGGGTATTTGGCAACGACATCCCGGAGGTGTCGCTCACCGAAGTGGTTCAGGAGAGCGTGCTGGCAGTCATCGTGCTGGTTCATCTTCTGCTGGCGCGCAAATATGCCCACCTGCGCTATAGCAATATCCTCATCGGCGGCTTCTTCCTCGCCATGCTGATCCGCGAACTGGATGGCCTGTTTGATTTACTCTCCCATGGCAGCTGGGTGTGGTTTGCCCTGCTGGCTACCGCAGGGTCCCTGCTGATGCCGCTGCGACATTTGCGCCAGACCCTGTCGCAGCTGGCGGATTATACCCGCACCCCGTATTACGGGATGATGATCAGCGGCCTGCTGGCGATTCTGGTCTTCTCGCGGCTGTTCGGTATGCACGGCCTGTGGTACGCCGTGCTGGATGAGAACTACGCTCGGGTGGTGAAAAATACGGTGGAGGAAGGCAGCGAGTCGTTTGGCTATATGCTGTGCCTGACCGCCACCCTCGGCTACGCCTGCTACTTCCGCGACCTGGCGCGACAGACGCTGTCGCCGCAGCGCTAA	MSLLRSLLFFLGAAVAAAIAVLCLWVDIRVFGNDIPEVSLTEVVQESVLAVIVLVHLLLARKYAHLRYSNILIGGFFLAMLIRELDGLFDLLSHGSWVWFALLATAGSLLMPLRHLRQTLSQLADYTRTPYYGMMISGLLAILVFSRLFGMHGLWYAVLDENYARVVKNTVEEGSESFGYMLCLTATLGYACYFRDLARQTLSPQR				NA	NA	NA	NA	NA
BMS020_01510	762	pheC		Cyclohexadienyl dehydratase	ATGAAACTGACGGTGGGGCTGGCGCTGACGCTGGCGATAATGACCTGTGGCGCCCAGGCGCGCGATATGCAAACCATCGAGCGCAGCGGTGAACTGAAGGTCGGCGTGCCGGGCGACTACGCCCCGCTGGCGTTTCGCAATGCCGCCGGCGAGCTGCAGGGCTATGACGTGGACATGGCCCGCGATCTCGGGCGCACGTTGGGGCTGAAGGTGAGCTTCGTTTACACCAGCTGGCCGGCGCTCGCCGCCGATCTGCAGGCGGACAAGTTTGATATTGCGATGGGCGGCGTGACGCAGACCCCGGCGCGGGCGAAGGACTTCGCCCTCAGCCACCCGGTGGTGGCGAACGGTAAAATCGCCTTAGCCAACTGTCAGGCCGCCCCCCGGCTTGGATCGCTGGCGAAGATAGACCGTCCGGAGGTGAAGGTAGTCGTCAACCCTGGCGGCACCAACCAGAGCTTTGTCGATGAGCATATTAAGCAGGCGCAGATCATTCGCGTGAAGAACAACGTCGATAACCTGGAGGCGCTGCGGCAGAAAACGGCCGATATGATGGTGACCGATCTGATCGAAGGCGACTATTACCAGAGCAAAGAGCCCGGCGTGTTCTGCGTCGCCAACGAGACGCCGTTCGCCGGCACCGCCAGCGACAAGGTGTATATGATGAGTAAAGATAATCCGGCGCTGCTGGAGAAAGTGAACCAGTGGCTGGATAGCCAGGATAAAGAGGTTCTCAAACGGAAGTGGAAAATTCGTGGTTAA	MKLTVGLALTLAIMTCGAQARDMQTIERSGELKVGVPGDYAPLAFRNAAGELQGYDVDMARDLGRTLGLKVSFVYTSWPALAADLQADKFDIAMGGVTQTPARAKDFALSHPVVANGKIALANCQAAPRLGSLAKIDRPEVKVVVNPGGTNQSFVDEHIKQAQIIRVKNNVDNLEALRQKTADMMVTDLIEGDYYQSKEPGVFCVANETPFAGTASDKVYMMSKDNPALLEKVNQWLDSQDKEVLKRKWKIRG				NA	NA	NA	NA	NA
BMS020_01511	552	fimA_1		Type-1 fimbrial protein, A chain	ATGAAGATAACCACCCTGGGTCTGGCGATGCTCTTCGTCGGACTGGCCGCCGGCCCGGTTTGCGCGGCAGACGGCACGCTAAATTTCATCGGCAGGGTCGTGAACGGCGCCTGCAAACTCGAAGGGGCGGGCAATAACGGGGTCATCGACATCAGCATGGGCGATATTCCGCTGTCGAGACTGAAAAACAGCCAGTCGGGTACCGGGCCAGCGGTCGGCGTCGATATTCGCGTCAAAGATTGCGAGAAAGGCACCTACTACATTGTGGTGGATGGCCCCTCTCCCACCGCCACGCCTGAAAATCATGTGCTGGCCCTCAACGATAGCGGTAAGCCGGCCGGTAGCGTGGGTATTCTGCTCACCGACCGTACGGGGACGCCGCTGGGCCTTGATGCACACCTCGATCCGCAGCACGATCCCCGCATCGAGATCCCGGTGGACGGCGGCTCCGGCACCTTCAGGCTGAAAGCCTTCTATTACACCTGGGATAAAGCCCACGTACTCCCCGGCGACGGCAACGCAACGGCCCGGTTCACCATTATGCAGGAATAG	MKITTLGLAMLFVGLAAGPVCAADGTLNFIGRVVNGACKLEGAGNNGVIDISMGDIPLSRLKNSQSGTGPAVGVDIRVKDCEKGTYYIVVDGPSPTATPENHVLALNDSGKPAGSVGILLTDRTGTPLGLDAHLDPQHDPRIEIPVDGGSGTFRLKAFYYTWDKAHVLPGDGNATARFTIMQE	PGPT0016030_1099	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016030-fimA-K07345	NA	NA
BMS020_01512	690			hypothetical protein	ATGAAAATACAGCTGGCTGTTCTGTTTAGCGCCATGACCTTTCAGGCCTGCGCCGGGATCTCCATCGATGCCACGCGGGTGGTCTACTCAGGAAAAGACAAAGCCGCCACCCTGAACATTCATAACCGCAGCCGCACACCTTATAAAGTGCAGATCTGGCTGGACGCCGGGCTCAACAAGTCGCGCGTCGACCTGCCGATGGTGGCGACCCCGCCGCTGGTCTATTTATCCCCCCAGCAAAGCGCCCAGCTGCGCTTTATCTATCACGGCGGCGGGCTCCCCGCCGATCGGGAAAGCCTGTACTGGGTCAATATTCAGGAGAATCCGCCGCCGTCAGACGGTAACCATACGCTGCAGTTTATCGTCCGCACCCGCCTGAAGCTCTTTTATCGTCCTCCTGCCATCGCCACCACCCTCGCCAGAGAGGTGCAAAAGCTGCAGTGGCAGCAGAGCGGCAATAACCTGCGCTTGACTAACTCAGGCCCACTGCATATCACCCTGGTCAACGGGGCGCTGATCGATAATAAAGGCCACATTTCGCCGATGAGAAACGTGATGCTCCGGCCGTACAGCAGCTATACCGTGTCAACGACCGACAGCGCTCGCCTGTACAAGCTAAACTATATCGACGATGACGGCGCGGTGGTGGCGATCCCCCTTCAGGCGGCCTATGCTCCGGCCCCACGCTAG	MKIQLAVLFSAMTFQACAGISIDATRVVYSGKDKAATLNIHNRSRTPYKVQIWLDAGLNKSRVDLPMVATPPLVYLSPQQSAQLRFIYHGGGLPADRESLYWVNIQENPPPSDGNHTLQFIVRTRLKLFYRPPAIATTLAREVQKLQWQQSGNNLRLTNSGPLHITLVNGALIDNKGHISPMRNVMLRPYSSYTVSTTDSARLYKLNYIDDDGAVVAIPLQAAYAPAPR	PGPT0016035_1348	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016035-fimC-K07346	NA	NA
BMS020_01513	1095			hypothetical protein	ATGAAATCTGTTTTTCGTCTACTTCCTTTTCTCTTTTTGCTGGCGTTGAGCGGCTATCTTCCCGGCGCGCGGGCTGAAAACTGCCGCGCGAATATCGGCCAGACCACCGTCAATATTCCCAATATCAAGTATTTGCCCACGCTGCCGGTCAATACTCAGATGACCAGCGCGATGGCGGATAACGGCAGCGGGATCCCCTTTTCCTGCGACCTGCAGCTGCCGACGGCGATCGCCAAACGCATTGTCTACAAACAGCTGAAAACCGGCGGCTCGCCGGTGGTGATTAACGGACAGCACGTCTACCCCAGCGCCATCGACGGCATCGGCTACTCGCTTAGCTTCCAGTGCGCCGGCGGCCCGATGCGCGCTATCGACGGCAGCCACTCCGCTGGCGGCGAGTCGGTGGTGGTCTGCGACAGCACGATGCTCCCGGCGCTCATGACGCAGCAGCAGACGACGGTCAGGATCGCGGTAACCTTCTATAAGACCGGTACGGTACAGCTGGCGGACGGGACGCATACCAACTCGTCGCCGCTGCCGCAGGTAGGGGAGGTGACCATTGAACAGCAGGCCAACGGAAACGCCGGCTTTGTCGCCAGTGCGCCGGTCAGCATTGATATCGCCGCCCTGAACGTGGACATTGGCAGCAGCGGCAGCTGCCAGGTGGCGACCTCAACGATCCAGGTCAGTCTGGGCACGGTAAACCGGGCGGAGTTTCACGGTAAAGGGAGCACCGGCGGCCAGGCGAAGCGCTTTTCGATCCCGGTGTTCTGTCCGACGCCGACCGATGTGCGCATCGGCTTTTTCGGCGTCAGCGTGGAGAGTGATACCCTGGCGCTAAGCAAGGCCAGCAACAGCGCCAGCGGCGTCGGCGTGAAGCTGACCTACGGCAATAACCCCGGCGCGGCAGTGTCTGATGGCACCAGCGTTAAAATCAATGAGGCCAGCAATTTGCCGATCCTGAAAAGGGTAACCGGCAGTAACGCTGGCACGGCTGAGGCCATCAATTTTAACGCCCAGTATGTGCAAACTGACGCCACGGTGACGGCGGGCACAGCCGACAGCATGGTGACCTTCGCCCTCGAGTATAACTAG	MKSVFRLLPFLFLLALSGYLPGARAENCRANIGQTTVNIPNIKYLPTLPVNTQMTSAMADNGSGIPFSCDLQLPTAIAKRIVYKQLKTGGSPVVINGQHVYPSAIDGIGYSLSFQCAGGPMRAIDGSHSAGGESVVVCDSTMLPALMTQQQTTVRIAVTFYKTGTVQLADGTHTNSSPLPQVGEVTIEQQANGNAGFVASAPVSIDIAALNVDIGSSGSCQVATSTIQVSLGTVNRAEFHGKGSTGGQAKRFSIPVFCPTPTDVRIGFFGVSVESDTLALSKASNSASGVGVKLTYGNNPGAAVSDGTSVKINEASNLPILKRVTGSNAGTAEAINFNAQYVQTDATVTAGTADSMVTFALEYN				NA	NA	NA	NA	NA
BMS020_01514	2556	fimD_1	COG3188	Outer membrane usher protein FimD	ATGAAAAGAATAACAACAGCCAGGGTGCGGGAGTATGCCGCGTTGCCCGTCACCGCCGGACGGGCGCTGGCGCTGGCGACGCTGCCGACGATGATGTGCTGTCTCAGCCCGCTGAGCCGGGCGCTGGCCGACGACTATTTTGATCCGGCGGCGCTGGAGTTTGCCGACCCGCAGCAGCAAACCTCCGATCTGCACTACTTCGCCAAACCCGGCGGGCAGCAGCCGGGGACTTATCCTGTCACCGTGGTGGTTAACGACCAGGAGCTGGGCCAGGCCAATATCACCTTTGTTGACGATGGCGGGCAGCTGCAGCCGGTGCTGACGCCCGGGCAGCTGGCGGATTATGGGGTCAACGTCAGCGCGTTTCCGACTTTTCAAACGCTGCATGAAGGTGAGACCTTCACCCGGATCGAGAAGTTTATTCCCGACGCCAGCAGCCGCTTCACCTTCGCTAACCAGCGCCTGACGCTGAGCATTCCCCAGGCGGCGATGAACGTGCAAAGCCGCGGCTATGTCGATCCCTCGCGCTGGGACGATGGCGTGCCGGCCGCGTTTGTCGATTACTATTTTTCCGGCGCGCAGATAAAGAATGCCGATGAAGGGGAGAGCAGCCGCTCAAACTATCTCAATTTACGCAGCGGCGTGAACCTGGGCGCCTGGCGGCTGCGCAATATCTCCTCAATGCAGTACGACCAGCAGCGCCGGCACTGGGATTCACAGAGCACCTGGCTGCAGCGCGACGTCCGCTCGCTGAAGAGTCTGCTGCGGATCGGCGATACTTACACCACCGGCGATGTGTTTGACAGCATCCCGTTTCGCGGCGTCCAGCTGATGTCTGACGATGAGATGCTCCCGGACAGCCAGCGCGGCTTTGCCCCTACCATCCGCGGCGTGGCGCACAGCAATGCCAAAGTGACCGTCTCCCAGCACGGGTATGTGATCTACGAAACCTTCGTGTCGCCGGGGGCGTTCGCCATCAGCGATCTTTATCCCACCTCGCAGAGCGGCGATCTGGAGGTGAAGGTGACCGAGAGCAATGGTTCGGTGCGCACCTTTACCCAGCCCTATTCCGCCGTGCCCTATATGCTGCGCGAAGGGCGCGGCAAATTCAGCCTCAGCGCTGGTCGCTACCACTCCGGGGCGGATTCGGTGCGCTCGCCGGAATTCCTGCAGGGCACCCTGTTCTATGGTCTGTCGGCGGGATTTACCCTCTACGGCGGCACGCAGCTGGCCCAGGACTATCAGTCGTGGGCGCTGGGCCTGGGTCGCGGCTTTGGCGAGTTCGGTTCGCTGGGAGGCGACGTCACCCAGGCCGTCACCCGTACGCCGTCGGGCAAGCGCTATGCGGGCCATTCGCTGCGCGCTCAGTATCAGAAAGATTTCGTCAGCTCGGGCACCACGTTCAGCCTCGCCAGCTATCGCTACTCCTCCAGCGGCTATTACGATTTTGCCGAAGCCAGCGCCCTCGAAAGCGCGCAGGGGCAGGTGGACAACCGGCGCCGCCGGGAGGAAGTGTCGGTGTCACAACGCCTCGGCGGTCTGGGCAGTCTGGCGGTTTCCGCCTGGTCGCAGGAATACTGGCACCGGCAGAGTCGGGATGAGACGGTGCATCTTGGATTCTACAGCGCCTGGAAAGGGATCTCCTGGGGCGTGGGCTATTACTACACCCGCGCCAGCGGCCAGCAAAAAAATGACCGCTCCTGGTCTTTCAATATCAATATTCCGCTGGGCGGTCCGCTGTCCGACAGCGCGGTGAGCTACAACACCACCTCGGACAGCAATGGCTATACCTCGCAGCAGGTGTCGCTGTATGGCGCGGTGCCGACGCGGCCGAATCTGTTCTACTCGGTTCAGCAGGGCTACGGCAACCAGGGGCGGGGCACCAACAGCAGCGTCGCCCTGGACTACCACGGCGGCTTCGGCAACGCGCAGCTCGGCTATCGCCATGACGCCGCCAGTAATCAGCTGACCTGGGGAGGCGCCGGCTCGGTGGTCGCGCATCCGCACGGCGTGACCTTCGGTCAGACGGTGGGCGAGAGCTTCGCCATCGTCCGCGCGCCGGGGGCTGCCGGCGTGGCGGTGCAAAACGGCAACAATGTGCACACCGACTGGCGCGGCTATGCCGTGGTGCCGTCTCTGACCACCTACCGGAAAAATGTCATTACCCTCGACACGGAGTCGATGGCGGATGATACCGACGTCGACCAGCAGGGTCAGACGGTGATCCCCGGCGGCGGCGCGGTGGTGATGGCCAACTACCGGACCCGCATAGGCAACCGGGTGCTATTTACCCTGCGCAACGCGCAGGGGCCGTTACCCTTTGGCGCCAGCGCACGGTTGGTCGGGACGGAGGAGAGCGGCAATGCGCCTGGCGGCATGGTAGCCGACGGCGGTCAGGTGTACCTCAGCGGCGTGCCGCAGGAGGGAACCCTGGCGGTGAGCTGGGTCGTCAATAACCAGTCGCAGAGTTGCACGATGCATTTTCATCTTGCGGATAACCCACAGCAGAGTCTGAATACGGTGAAAACCGTCTCCGGGCTGTGCCAGTCACGCTGA	MKRITTARVREYAALPVTAGRALALATLPTMMCCLSPLSRALADDYFDPAALEFADPQQQTSDLHYFAKPGGQQPGTYPVTVVVNDQELGQANITFVDDGGQLQPVLTPGQLADYGVNVSAFPTFQTLHEGETFTRIEKFIPDASSRFTFANQRLTLSIPQAAMNVQSRGYVDPSRWDDGVPAAFVDYYFSGAQIKNADEGESSRSNYLNLRSGVNLGAWRLRNISSMQYDQQRRHWDSQSTWLQRDVRSLKSLLRIGDTYTTGDVFDSIPFRGVQLMSDDEMLPDSQRGFAPTIRGVAHSNAKVTVSQHGYVIYETFVSPGAFAISDLYPTSQSGDLEVKVTESNGSVRTFTQPYSAVPYMLREGRGKFSLSAGRYHSGADSVRSPEFLQGTLFYGLSAGFTLYGGTQLAQDYQSWALGLGRGFGEFGSLGGDVTQAVTRTPSGKRYAGHSLRAQYQKDFVSSGTTFSLASYRYSSSGYYDFAEASALESAQGQVDNRRRREEVSVSQRLGGLGSLAVSAWSQEYWHRQSRDETVHLGFYSAWKGISWGVGYYYTRASGQQKNDRSWSFNINIPLGGPLSDSAVSYNTTSDSNGYTSQQVSLYGAVPTRPNLFYSVQQGYGNQGRGTNSSVALDYHGGFGNAQLGYRHDAASNQLTWGGAGSVVAHPHGVTFGQTVGESFAIVRAPGAAGVAVQNGNNVHTDWRGYAVVPSLTTYRKNVITLDTESMADDTDVDQQGQTVIPGGGAVVMANYRTRIGNRVLFTLRNAQGPLPFGASARLVGTEESGNAPGGMVADGGQVYLSGVPQEGTLAVSWVVNNQSQSCTMHFHLADNPQQSLNTVKTVSGLCQSR	PGPT0016040_1116	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016040-fimD|fimC|mrkC|htrE|cssD-K07347	NA	NA
BMS020_01515	663	lpfB_2		putative fimbrial chaperone LpfB	ATGATGAAGAAAATAATTGCCGTTGCGGCCTTTCTGCTGTGCTCCACGGCAGCACAGGCCGGTATTGTCATGGGTGGAACCCGTGTGATTTATCAGGAAGGGAAGCGTGAAGCCGCTATTTCAGTCACTAATGCCGATACCCATACGCCCTATCTGGTGCAGTCGTGGGTGGAAAATTACGCGGAAAACGATAAGGCCAAGGTGCCCTTTATTGTTACGCCGCCCTTATTCCGTCTCGATCCGGAGCAAAATAACGTCCTGCGCATTAACTTTATTGGCGCCTCGCTGCCCAGCGACCGTGAATCGGTCTACTGGCTGAACGTCAAAAGTATCGCCCCGACGCCCAAGGGCGAGGTGAACAAGCTGCAGGTCAATATTAAGTCGAAATTCAAAATCTTTTATCGCCCCAACGGCCTGGCGGGCGACCCGGCTAAAGCCTGGCAGCAGCTGAAGTTTAGCCAGTCCGGCGGTCATCTGACGGTGGCAAACCCCACTCCCTATTTTGTCTCTTTTTACGCCGTCGAGGTGGGCGGGCAGGCAATCGACGAGCCTGGCATGGTGGCCCCCTTTGGCGAGAAAACGTGGCCGGTGAGCGGGCACGGCACCGTCAAATGGCGGGCGATTAACGACTACGGCGGCGTCAGCGATTACGCCCAGCAGTAA	MMKKIIAVAAFLLCSTAAQAGIVMGGTRVIYQEGKREAAISVTNADTHTPYLVQSWVENYAENDKAKVPFIVTPPLFRLDPEQNNVLRINFIGASLPSDRESVYWLNVKSIAPTPKGEVNKLQVNIKSKFKIFYRPNGLAGDPAKAWQQLKFSQSGGHLTVANPTPYFVSFYAVEVGGQAIDEPGMVAPFGEKTWPVSGHGTVKWRAINDYGGVSDYAQQ	PGPT0016035_1410	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016035-fimC-K07346	NA	NA
BMS020_01516	582	fimA_2		Type-1 fimbrial protein, A chain	ATGAAAACGCAACTTCGTATTATGGCAATTCTCATGGGAGCGCTGGTTTCTGGCGCTGCAATTTCTGTTACTACGCCAACCATTAACGTTAACCCTGGCTCCAACGCGGGTACCCAGGGTACCGGCGGACAGGTTATCTTCAATGGATCAATCACCGACAGCTCCTGCAATATCGACAGCGCATCCACCAGCCAGACGGTGGATCTGGGCAAATGGGCCAGCACCTATTTTACCAGCACAGGTTTTGAAACCACCAAAACGCCTTTCCATATCAAAGTAAAAGATTGCCCTGCCAGCGTGACAAATGTTGCGGTGCTGTTTGACGGCGCGCGCGATCAGTCTGATAACACGCTGTTGGCGACCACCGGCGGCGCCGCTGGCGTGGCGATCAAGCTGTATGAAGATGACAAGTCTACGGCGGTCAGCCTCGGCAAAGTGTCGAAAGCCAAAAATGTCGTTGCGGGCGCGACTGCCGGCACCGGCACTGCCGACCTCGAGTTTTTCGCCGACTATATCTCCACCGGTGCGGTGACGGCTGGCGATGCCAACGGTACGGCTAATTTCAATATGATTTATAACTAA	MKTQLRIMAILMGALVSGAAISVTTPTINVNPGSNAGTQGTGGQVIFNGSITDSSCNIDSASTSQTVDLGKWASTYFTSTGFETTKTPFHIKVKDCPASVTNVAVLFDGARDQSDNTLLATTGGAAGVAIKLYEDDKSTAVSLGKVSKAKNVVAGATAGTGTADLEFFADYISTGAVTAGDANGTANFNMIYN	PGPT0016030_453	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016030-fimA-K07345	NA	NA
BMS020_01517	1521	ald1		Long-chain-aldehyde dehydrogenase	ATGCGTTATGCACACCCTGGCCAGCCCGGCGCCCTGGTTTCATTGAAATCCGCTTACGGCAACTTTATTGACGGAAAATTTGTCGAGCCGCTGAGCGGTGAATTCTTTATGAATACCTCCCCGGTAGACGGCAGCAACATTGCGCAGTTTCCCCGGTCGGACGCCAGAGACATTGACTTCGCCCTCGACGCCGCCCACCGTGCGGCGCCGGCGTGGGGCAAAACCTCAGTGCAACAGCGCTCCAGGCTGCTGCTGCAGGTCGCCGACCGTATTGAACAGCATCTGGAATATCTGGCGGTGGCGGAGAGCTGGGACAACGGCAAACCGATCCGCGAAACGCTGAATGCCGACCTGCCGCTGGCGGTGGATCACTTTCGCTACTTCGCCGGCTGCCTGCGCGCCCAGGAGGGAAGCACTGCCGAAATTGACGAAACCACGGTGGCCTACCATTTCCATGAACCGCTGGGGGTGGTCGGTCAGATTATCCCGTGGAACTTCCCGCTGCTGATGGCCGCGTGGAAGCTGGCCCCGGCCCTGGCGGCGGGGAACTGCGTGGTGCTCAAGCCGGCGGAACAGACGCCGCTAAGTATTACCCTGCTGCTGGAGCTGATCGGCGATCTGTTCCCGGCGGGGGTGCTGAACGTGGTGCAGGGCTTCGGCAAAGAGGCGGGCGAGGCGCTGGCCACCAGCAAGCGTATCGCCAAGCTGGCGTTTACCGGCTCCACGCCGGTCGGGCGACATATTCTCGCCTGCGCGGCGGAGAATATTATCCCCTGCACCGTCGAGCTGGGGGGCAAATCGCCCAATATTTACTTCGCCGACGTGATGGAGGGTGAAGAGGAGTTTATTGAGAAGGCGGTGGAGGGGCTGGTGCTCGGTTTCTTCAACCAGGGTGAGGTCTGTACTTGCCCGTCGCGGGCGCTGATCCATGAATCCATCTATGAGCCCTTTATGGCGCGGGTCATGGAGAAGGTGGCGCAGATCCGTCGCGGCGATCCGTTAGATACCGACACCATGATCGGCGCCCAGGCTTCCCGCCAGCAGTTCGACAAGATCCTCTCTTATATTCAGATTGCCCGGGAAGAGGGCGGACAAATCCTCACCGGCGGCGAGCGGGCGGCGATCGCGCCGGCGCTGGATAATGGTTTTTATATTCAGCCCACGCTGATTAAAGGTCGCAACGATATGCGCTCCTTCCAGGAGGAGATCTTTGGGCCGGTGATCGGGGTGACCACCTTTAAGGACGAAGCGGAAGCGCTGGCTATCGCCAATGAGACCCAGTTTGGCCTCGGCGCTGGGGTGTGGACGCGCGATACCAATCTCGCCTATCGCATGGGGCGCGGTATTCAGGCCGGTCGCGTATGGACCAACTGTTATCATGTCTACCCGGCACATGCGGCGTTCGGCGGCTATAAACAGTCCGGCGTCGGGCGGGAAACGCATAAGATGGCGCTGGATGCCTATCAGCAAACCAAAAACCTGCTGGTGAGCTACGGCACCGCGCCGCTGGGCCTGTTCTGA	MRYAHPGQPGALVSLKSAYGNFIDGKFVEPLSGEFFMNTSPVDGSNIAQFPRSDARDIDFALDAAHRAAPAWGKTSVQQRSRLLLQVADRIEQHLEYLAVAESWDNGKPIRETLNADLPLAVDHFRYFAGCLRAQEGSTAEIDETTVAYHFHEPLGVVGQIIPWNFPLLMAAWKLAPALAAGNCVVLKPAEQTPLSITLLLELIGDLFPAGVLNVVQGFGKEAGEALATSKRIAKLAFTGSTPVGRHILACAAENIIPCTVELGGKSPNIYFADVMEGEEEFIEKAVEGLVLGFFNQGEVCTCPSRALIHESIYEPFMARVMEKVAQIRRGDPLDTDTMIGAQASRQQFDKILSYIQIAREEGGQILTGGERAAIAPALDNGFYIQPTLIKGRNDMRSFQEEIFGPVIGVTTFKDEAEALAIANETQFGLGAGVWTRDTNLAYRMGRGIQAGRVWTNCYHVYPAHAAFGGYKQSGVGRETHKMALDAYQQTKNLLVSYGTAPLGLF	PGPT0007176_1421	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007176-aldB-K00138	NA	NA
BMS020_01518	1788	acoR_1	COG3284	Acetoin catabolism regulatory protein	GTGCCAGGCAATCCCTTTCTTCTCGCCCCAGAGGTTAACGCCAATCCCCTGCTGAGCGATTCATGGTCTCGCTGCCAGCGCTACGGTCTGGATCCCGCCACCGAGGATTTTCCCCGCCTCGACGCCGGCGAGCTGGCGGACCGGCTCGCCAGCCACCGCAGCCTGCAGCAGCTGGCGCAGCCGGTGGTGGAAGCCCTGTCGCGCCAGGTGGCGGACCTGCAGTCGGTGGTGATCCTCTCCGACCCCGGCGGTCTGGTGCTCCATACCGTCGGCGATACCCAGGCGATGCAGAAGGCTCAGCGCGTCGCGCTGGCGCCGGGCAATCTGTGGAGCGAAAGCGGACGCGGGACCAACGCCATCGGCACCGCGCTGGCGATTGACGACGGCTGCGAAATCGATGGGCGTCAGCACTTTCTCACCCGCAACCAGAATTTGTACTGCGCGGCGATGCCGCTCCAGCGGCCGGACGGAAGCATCGCCGGCGTGCTGGATATCTCCGGCCCAGCGGATTTTCCCCACCAGCACACCTTTGGCTGGGTGAAAGCGGCGGCAAAGCAGATTGAGTATCTGTGGGTGAAGCAGAGTCTGCATCCTGAGCAGTGGCTGATGAGCCTCCACCGGCAGGTGGACAAACTCGACAGCGTGGAGGAACTGCTGCTGGTCTTTTCCGACAACGTCCTTACCGCCGGCAACCGGCTGGCGATGCGCGAGTTCGGCCTGAGCGCGGCGCAGTTTGGCCAGCTCACCTTTGCGTCGCTTTTTCCGACGCTGACGCAAACGGCGGTCAGCGTTCCCCTGCCCCTGACCACCCCGCAGGGTCGCTATCACTATCGCCTGCGCGAGCCCACCCGCCGCCGGGTGGCGGTGAGCGCCCCGCCGGCCATGCAGCTCCCCTTCACCAGCCCGCGGGAAGGCGAAAAGCTGCTCCGGCTGCTTAACGCCGGCATCGCGCTCTGTATTGAGGGGGAAACCGGCAGCGGCAAAGAGTATGTCAGCCGCACGCTGCACCAGCACAGCCGCTGGCGCAGCGGTAAATTCGTCGCCATTAACTGCGCCGCCATTCCGGAATCGCTGATCGAGTCCGAGCTTTTCGGCTACCAGCCAGGGGCGTTTACCGGCGCCAGCAAAAACGGCTATATCGGCAAAATCCGCGAGGCCGAGGGCGGGGTGCTGTTTCTTGATGAGATCGGCGATATGCCGCTGGCGCTGCAGACCCGCCTTCTGCGAGTACTGCAGGAGAAAGAGGTCGCCCCGCTCGGCGCCAGCCGCAGCGTGCCGGTGAACTTCGCCCTGATCTGCGCCACGCACCGCAACCTGACCCAGCGGGTCAGCGCCGGCGAATTTCGCGAAGATCTGCTGTGGCGCCTGCGGGAGTACGCCCTGGCGCTGCCTCCGCTACGCGAGTGGCCGGCGCTGGAAACCTTTATCGCCACCCTGTGGCGCGACCTGGGCGGCGCTTCGCGCCGGGTGACGCTGTCCACCGCGCTGCTGACCCACCTCAGCCAGCTGCCGTGGCCGGGAAACGTGCGCCAGCTGCAGAGCGTCCTGAAGGTGATGCTGGCTCTGGCCGATGAGGGCGACACGCTGACGCCCGATGCGCTACCGGACGCATACCGCGCTGCGCCTGCGCCGCTGCCGCGCGGGGGGTTACAGGCCCATGACGAGCAGTTGATTGTCGATACCCTCGCCAGGGTCAACGGCAACGTCAGCCGGGCGGCGCAGATGCTGGGCATCGCCCGCAGCACGCTATACCGCCGCGCCGCCCGTGCCGGACGGCCACGCCGCTGA	MPGNPFLLAPEVNANPLLSDSWSRCQRYGLDPATEDFPRLDAGELADRLASHRSLQQLAQPVVEALSRQVADLQSVVILSDPGGLVLHTVGDTQAMQKAQRVALAPGNLWSESGRGTNAIGTALAIDDGCEIDGRQHFLTRNQNLYCAAMPLQRPDGSIAGVLDISGPADFPHQHTFGWVKAAAKQIEYLWVKQSLHPEQWLMSLHRQVDKLDSVEELLLVFSDNVLTAGNRLAMREFGLSAAQFGQLTFASLFPTLTQTAVSVPLPLTTPQGRYHYRLREPTRRRVAVSAPPAMQLPFTSPREGEKLLRLLNAGIALCIEGETGSGKEYVSRTLHQHSRWRSGKFVAINCAAIPESLIESELFGYQPGAFTGASKNGYIGKIREAEGGVLFLDEIGDMPLALQTRLLRVLQEKEVAPLGASRSVPVNFALICATHRNLTQRVSAGEFREDLLWRLREYALALPPLREWPALETFIATLWRDLGGASRRVTLSTALLTHLSQLPWPGNVRQLQSVLKVMLALADEGDTLTPDALPDAYRAAPAPLPRGGLQAHDEQLIVDTLARVNGNVSRAAQMLGIARSTLYRRAARAGRPRR	PGPT0001030_1896	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001030-acoR-K21405	NA	NA
BMS020_01519	897	dmlR_11		HTH-type transcriptional regulator DmlR	GTGCGCGACGATCTGAACGCGATCCCAGTGTTTGTCACTGTGGTCGAGAGCGGTAACTTTGCCAGCGCGGCGACGATCCTCCACGTGACGCGATCGGCGGTGGGAAAAACCATTGCCCGGCTGGAAGCGCGTCTCGGCGTGGCGTTATTCCAGCGCACCACCCGCAGGCAACTGCTGACGGAAGAGGGAGAGCAATTTTATCACCAGTGTCGGGAGGCGCTGGGACGCATTCGCGAGGCCGAAGAAGCGCTGCAGCGCGGCAAAGGCGAGGTGCAGGGACGGCTGCGGATTTCGCTGCCGGTGCTGTTTGGCCAGCGCTGCGTGGCGCCGCTGCTGTTCCGCCTGAGCCAGCGCTATCCATTGCTGAAGCTCGAGCTCCACTACAGCGACCGGCAGGTCAATCTGCTGGAAGAGGGGTTTGATCTCGCGGTGCGTATCGGGAGCCTGGCCGATACCGGGTCGCTACGGGCGCGGGCGCTGGGGGGGCATGGCATGGTGCTGTGCGCGGCGGCGGAGTACCTGCGTCGCCAGCCGGCGCCGCAGACCATCGCCGGGCTGAGCGAGCATCGCACCCTCGGCTATCTGCATAACGGTCAGCTGCAAAAATGGCAACTTTACGACCCGCAGCAGGGCGAAGTGCGCTTCACCCCGGAGGCGTGGCTGGTGCAGGATGACTTTGCCGCCATCGCCGCGGCGGCGCAGCAGGGAATGGGCATCGCCTGGCTGCCGGACTGGCTGGTGGCGCAGGCGCTCGCCGACGGGACGCTGCAGCAGGTTCTGGCGCCCAGCGACCGTGTGCGTTTCGCCATTCACGCGGTGTGGCCGGAAGGGCCGTGGCTGCCGCAAAAAACGCGGGTGACGATCGATGCCCTGCGGGCGGGGCTGGGTCTGGCGTAG	MRDDLNAIPVFVTVVESGNFASAATILHVTRSAVGKTIARLEARLGVALFQRTTRRQLLTEEGEQFYHQCREALGRIREAEEALQRGKGEVQGRLRISLPVLFGQRCVAPLLFRLSQRYPLLKLELHYSDRQVNLLEEGFDLAVRIGSLADTGSLRARALGGHGMVLCAAAEYLRRQPAPQTIAGLSEHRTLGYLHNGQLQKWQLYDPQQGEVRFTPEAWLVQDDFAAIAAAAQQGMGIAWLPDWLVAQALADGTLQQVLAPSDRVRFAIHAVWPEGPWLPQKTRVTIDALRAGLGLA	PGPT0031690_2	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-MALLEOBACTIN_METABOLISM,PGPT0031690-mbaP-NA	NA	NA
BMS020_01520	651	azoR_2	COG1182	FMN-dependent NADH-azoreductase	ATGGCTAACGTTCTGGTATTAAAGTCCAGCATTAATGGCGAAACTTCCCTGACCAATCAGCTGATTAACGAATTTATCGCAGCGCGCCAGGCGGCGGGCCGCCACGATCGGATCCGCGAACACGATCTCAGCGCTATGGCGCTGCCGACGCTGGATGGCGCGCTGTTTGCCGCCCTGCGCGGGGCGGCGGATCCGCGGCCGGCCATCCGCGCGGCGGTAGCGCTCTCCGACCAGTTTATCGCCGAGTTAAAAGCCAGCGACCTGCTGGTGATCGGTGCCCCGATGTATAACCTCAACGTCCCGACCGATCTGAAGAAATGGTTCGACCTCGTGGCGCGGGCGCGGGAAACCTTTCGCTACACCGACAGCTGGCCGCAGGGGCTGGTCGAGGGCGTCCGGGCGGTGGTCGTCAGCAGCCGCGGCGGTGTTCACCAGGGAGAAACCACCGACGCCGTCACCCCCTATCTGCGCGCGGTGCTGGGGCTGATGGGGATCCATGAGGTGGAATTTATCTATGCCGAAGGGCTGGATAACCGCCCGCACGGTCGCGACGCCGGGATCGCCAGCGCCCGGGCGCAGATAGCCGATCTCGCCGTTCCGGCCGGAGTCGCGGGGAAAAAGGGGCTGGCGCTGGCGGCTTTTTTATTTTAG	MANVLVLKSSINGETSLTNQLINEFIAARQAAGRHDRIREHDLSAMALPTLDGALFAALRGAADPRPAIRAAVALSDQFIAELKASDLLVIGAPMYNLNVPTDLKKWFDLVARARETFRYTDSWPQGLVEGVRAVVVSSRGGVHQGETTDAVTPYLRAVLGLMGIHEVEFIYAEGLDNRPHGRDAGIASARAQIADLAVPAGVAGKKGLALAAFLF	PGPT0006790_2384	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
BMS020_01521	300	ygaV_1	COG0640	putative HTH-type transcriptional regulator YgaV	ATGACCACACCCGAAGACCTGCAGGCCCGCGCCGGCGAAGCCGCCGCGCTGATGAAAGCGATGAGCAATCCTCACCGTTTGCTGATCCTGTGCATGCTGTGCGACGCGCCGCGGGCCAGCGCCGGTGAACTGGCCCGCGCTACCGGCCTGAGCCCTTCCGCCACCTCGCAGCACCTCGCGCGGATGCGTGACGAGGGGCTGATCGACAGCGAACGCGACGCTCAGCGCATCCACTATTTCATCACCCATCCTGCGGTACAGCAGGTGATCAACACGCTGAAAACGCTCTATTGCCCGTGA	MTTPEDLQARAGEAAALMKAMSNPHRLLILCMLCDAPRASAGELARATGLSPSATSQHLARMRDEGLIDSERDAQRIHYFITHPAVQQVINTLKTLYCP	PGPT0004735_4776	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
BMS020_01522	531	ygaP_1	COG0607	Inner membrane protein YgaP	ATGACCATCGCCACCTTAACCCCTGCCGAAGCCCGGGTGCAGATTGCCCAGGGCGCCAGACTGATAGATATCCGCGATGCGGATGAATACGCGCGCGAACATATTCCCGATGCCGAGCTGGTGCCGCTCGCCACCCTGAACGGCGGCGCGACCCTAAACGCCCGGGCCGGCGAGCGCGTGATCTTCCACTGCCAGGCCGGCTCCCGGACGCAGAACAACGCCATTCGTCTGGCCGCCGCCGCCGCGCCGGCGCAGGTCAGCCTGCTGGCGGGGGGGATTCAGGCATGGAAAGCCGCGGGGCTCCCGGTTGAGGAAGATAAATCGCAACCGCTGCCGCTGATGCGCCAGGTGCAAATCGCCGCTGGCGCTCTGATCTTACTGGGGGTGCTGCTGGGCTATACCGTGAACGGCGGCTTTTTCCTGCTCAGCGGCGCGGTCGGCGCCGGGCTCACTTTCGCCGGGATAACCGGCTTTTGCGGCATGGCGCGCCTGCTGGCGATCATGCCGTGGAACCGGCGCCAGGGGAATTAA	MTIATLTPAEARVQIAQGARLIDIRDADEYAREHIPDAELVPLATLNGGATLNARAGERVIFHCQAGSRTQNNAIRLAAAAAPAQVSLLAGGIQAWKAAGLPVEEDKSQPLPLMRQVQIAAGALILLGVLLGYTVNGGFFLLSGAVGAGLTFAGITGFCGMARLLAIMPWNRRQGN				NA	NA	NA	NA	NA
BMS020_01523	903			hypothetical protein	ATGAAGTATATCATTCTGTTGATCATTGTTATTGCTGTGCTGTATGTCCATTACCGCGGACGGGTGCGCTATCGTTTCTGGCGACAGCTCTCCGACCATTCCACATTTACCGCGCCGTTGAATGGATTTATGTATTTATTTTCCCGTGTGCCGAATACGCCTTATCTGCGCCCGGAGATGTTTCCCGAGCTGGCGATATTGCAACAAAACTGGCTGGTTATTCGCGAAGAAGGCATCCGCCTCCAGCAGCTGGAGCAGATTAAAGCGGCCGATAAATATAACGATGCCGGATTTAACTCATTTTTTAAAACCGGCTGGAAACGCTTTTATCTGAAATGGTATGAGGATGCCCATCCCTCCGCCAGCCAGCTTTGCCCACAAACTACCGCGCTGCTGCGGGATATTCCGTCGGTGAAAGCGGCCATGTTCGCCACCCTACCGGACGGCAGCCGTCTGCCGCGCCATCGCGACCCCTACGCCGGTTCCCTGCGCTTTCATCTTGGCCTGGCGACGCCGAACGATGACCGCTGCTTTATCGAGGTGGATGGTCAGCGCTACAGCTGGCGCGACGGGGAAGGGGTGCTGTTTGACGAGACCTATATCCACTATGCGGAAAATACCAGCGGTGAGAATCGGCTGATTCTGTTCTGTGATATTGAACGGCCGATGCGCTACCGCTGGGCGCAGAAGGTCAACCACTGGCTGGGGCGCAATCTGATGAGCGCCGCCTCGGCGCCCAACGACGCCAGCGATCGCACTGGCGGAATTAACCGGGCGTTTCGCTATATCTACCAGATCCGCATTGTCGGCAAGCGGCTGAAAAAATGGAATAAGACGGTCTATTACGTCGTCAAATGGCTGCTTTTCGGCGGCATTGCCTGGCTTATCTGGAGTGCGTTTTAA	MKYIILLIIVIAVLYVHYRGRVRYRFWRQLSDHSTFTAPLNGFMYLFSRVPNTPYLRPEMFPELAILQQNWLVIREEGIRLQQLEQIKAADKYNDAGFNSFFKTGWKRFYLKWYEDAHPSASQLCPQTTALLRDIPSVKAAMFATLPDGSRLPRHRDPYAGSLRFHLGLATPNDDRCFIEVDGQRYSWRDGEGVLFDETYIHYAENTSGENRLILFCDIERPMRYRWAQKVNHWLGRNLMSAASAPNDASDRTGGINRAFRYIYQIRIVGKRLKKWNKTVYYVVKWLLFGGIAWLIWSAF	PGPT0022350_330	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022350-lpxO-K12979	NA	NA
BMS020_01524	180			hypothetical protein	ATGTTTTCTGTCGGCGATCTGGTACAACCGCGTGCGGGCGGGCCAAAACTGAAAGTGGTCGAAGTGCAGGGCGAGGATCTGGTGGTGGTTCAGGCCGCGCAAGAGCAGGGAGAACGCTATACGCTGAAGTCAGACGAGGTGACGTCCTATCAGGAAGAGGGGGACTTCGGCGTCTGCTGA	MFSVGDLVQPRAGGPKLKVVEVQGEDLVVVQAAQEQGERYTLKSDEVTSYQEEGDFGVC				NA	NA	NA	NA	NA
BMS020_01525	393	stpA_1	COG2916	DNA-binding protein StpA	ATGTTACACAAACTGAATAATATCCGTTCACTGCGCGCGCTGTCCCGTGAATTCTCCATTGACGTGCTTGAAGAGATGCTGGAAAAGCTCAGGATCGTCACTGAAGAAATACGTACGCAACAGCAGCAGGCGGCGCAGCAGCAGGCGGAATATCAGGAAAAAGTGAATACCTGGCTTGAGCTGATGCGCGCCGACGGTATTTCTCCTGACGAGCTGGTGGCCGATATTCAGCCGCCGATGGTGGGCGGTAAAAAGCGCAAACCGCGCCCGGCGAAATATCGTTATACCGATCATACCGGCGCCGAGAAAACCTGGACCGGCCAGGGAAGAATGCCGAAGCCGATTGCCCAGGCGGTCGCCGAGGGGAAATCGCTGGACAGCTTTTTAATTTAA	MLHKLNNIRSLRALSREFSIDVLEEMLEKLRIVTEEIRTQQQQAAQQQAEYQEKVNTWLELMRADGISPDELVADIQPPMVGGKKRKPRPAKYRYTDHTGAEKTWTGQGRMPKPIAQAVAEGKSLDSFLI				NA	NA	NA	NA	NA
BMS020_01526	450	alaE		L-alanine exporter AlaE	ATGTTCTCTGCGCACTCCCGCTTGCGGCATGCGGTTGCAGACACCTTTGCGATGGTGGTTTACTGCACCGTCGTCAACATGATGATCGAAATTTTTCTCTCTGGTATGACGTTTGAGCAGTCGTTATCGTCGCGCCTGGTGGCGATCCCGGTCAACATTATTATTGCTGTCCCTTACGGGATATATCGCGACTTCGCGATGCGTCAGGCCCGGCGCATCACTCCGGCCGGCTGGATGAAAAATATGGCCGACGTGCTGGCCTACGTGACCTTTCAGTCGCCGGTTTATGTCGCCATTCTGTGGAGCGTGGGTGCGGACTGGCACCAGATTGTCGCTGCGGTGAGCTCGAACCTGGCGGTTTCAATGATGATGGGCGCCGCTTACGGCTACTTCCTCGACTATTGCCGCCGCCTGTTCCGCGTGGCGCCCTACCAGCAGGCAAAAGCCTGA	MFSAHSRLRHAVADTFAMVVYCTVVNMMIEIFLSGMTFEQSLSSRLVAIPVNIIIAVPYGIYRDFAMRQARRITPAGWMKNMADVLAYVTFQSPVYVAILWSVGADWHQIVAAVSSNLAVSMMMGAAYGYFLDYCRRLFRVAPYQQAKA				NA	NA	NA	NA	NA
BMS020_01527	363			hypothetical protein	ATGTATTTAAGACCCGATGAGGTGGCGCGTGTTCTTGAAAAAGCCGGCTTCACCATGGATGTTGTGACGCAAAAAGCGTACGGCTATCGCCGCGGCGATAATTATGTTTATGTGAACCGCGAAGCGCGCATGGGGCGAACAGCGTTAGTTATTCATCCAGCGTTAAAAGAGCGCAGCAATATGCTGGCTGAACCGGCTTCAGATATCAAAACCTGCGACCATTATGAACAGTTTCCGCTGTATTTAGCCGGGGATGCGCAGCAGCATTATGGTATTCCGCACGGCTTTAGCTCACGCATGGCGCTTGAGCGTTTTCTTAATGGACTGTTTGGCGAAGCCCAGCCGGCCATGTCGACGAATTAA	MYLRPDEVARVLEKAGFTMDVVTQKAYGYRRGDNYVYVNREARMGRTALVIHPALKERSNMLAEPASDIKTCDHYEQFPLYLAGDAQQHYGIPHGFSSRMALERFLNGLFGEAQPAMSTN				NA	NA	NA	NA	NA
BMS020_01528	348	ygaM	COG4575	putative protein YgaM	ATGGCTAACCATGTGAACCGCAACAATTTTGACGAGAACGCCGAAGATATTCATAACGATGTCAGCCAATTAGCGGACACGCTGGAAGAGGTGCTGAAATCGTGGGGCAGTGACGCGAAAGAGGAAGCGGAAGCGGCGCGTGCCAAAGCGCAGTCGCTGTTAAAAGAGACCCGCGCCCGCCTTAATGGCCACAACCGGGTGCAGCAGGCGGCGCTGGATGCGCGCCAGGCAGCGTGCGATGCGCTGGGCTGCGCCGACACCTACGTGCGCAATAAACCGTGGCACAGCGTGGGCGCCGCCGCCGCCGTCGGGGTATTTATTGGCGTATTGCTCAATTTACGTCGATAA	MANHVNRNNFDENAEDIHNDVSQLADTLEEVLKSWGSDAKEEAEAARAKAQSLLKETRARLNGHNRVQQAALDARQAACDALGCADTYVRNKPWHSVGAAAAVGVFIGVLLNLRR				NA	NA	NA	NA	NA
BMS020_01529	1377	gabR_1	COG1167	HTH-type transcriptional regulatory protein GabR	ATGGAAGCCAGCCACCTCCCTCTCTATCAACGCATCGCCCGCCAGCTGAAATCCGCCATTGAACGTGGCGAACTGGCTCCGGGCAGCCGTCTGCCCGCCAGCCGGGTGTTTGCCCAGGAGCAGGGCGTGTCCCGGGCGACCATCGAAAACGCCTGGGGCGAACTGGTCGCCCAGGGCTGGCTCGAGCGACGCGGGCAGGCGGGAACCTTTGTCAGCGAGCGGCTCAGTCCGCGCCAGCTGGCGCCAGTGCCGCCCGCGCAACCTGCCGCGCCGGCGGAGCCGTTGCCGTTTCAGATGGGGCTCCCGGCGCTGGATCTCTTTCCGCGCGGGCTGTGGGCGCGGGTGATGGGGCGCCGGCTGCGGACGCAGTCGCGGTTCGATCTGGCGCCCGGCGATCCTGGCGGCGACCCGCTTCTGCGTCAGGCGATCGTCGACTATCTGCGCCTGTCGCGCAGTATCGACTGCCAGCCGGAGCAGGTCCTGATCGCCGGCAACTATGCCACCGCCATGAACCTGATCCTGCGTACCCTGGCGCAGCCGGGGCAGCATATGTGGATGGAGGATCCGGGATATCCCTTTATCCGCCCGGTGGTCGAGGCCGGGCAACTGGTGGTGGATGCGATCCCGGTGGACGACGAAGGGATGGATATCGCCTGGGGCCAACGCCATCACCCGCAGGCGCGGTTTGCCCTGCTCACCCCGGCGCATCAGAGTCCGCTGGGAGTGGCGCTCTCGCTGCCCCGGCGTCGCCAGCTGTTGGCATGGGCCGCGGAGCGTGACGCCTGGATCATTGAGGATGATTACGATAGCGAGTTTCGCTATCGCGGCAAACCGCTGCCGCCGCTGAAAAGCCTTGATGCGCCACAGCGGGTCATCTACGCGGGCACCTTCAGTAAGTCGATGTTTCCGGCGCTGCGCACCGCCTGGCTGGTGGTGCCGACCGCGCTGGCGGCGCGTTTTCACCAGACCGTGGAGTGCCTGCCCTGCACCGTTCCCACCCTGTGGCAGCAGACGCTGGCGGATTTTATCCAGCAGGGCCATTTCTGGCGTCATCTGAAAAAAATGCGCGCCAGCTACAGCCAGCGCAGGGAGTGGCTGGAGTCGGCTCTGCAGGCGCAGGGCTTTCAGGTCACGCCGCAGCAAGGGGGGATTCAGCTGGTCATGCCGGTCAACGGCGACGATCGCCTGCTGGCCCAACGGGCGGTGGCGGACGGGCTGGCGGTACAGGCGTTGAGCGACTGGCGGATGCGCCATACCGGCGAGGGGGGATTACTGATGAGTTTTACCAATATTCGCTCGCCGGCAATGGCTGGCGCGCTGGCCCGGCGGCTGAGGGAGGCGATCGGCGTCGGCGGCGTCACGCCCGCTGGCGTATAA	MEASHLPLYQRIARQLKSAIERGELAPGSRLPASRVFAQEQGVSRATIENAWGELVAQGWLERRGQAGTFVSERLSPRQLAPVPPAQPAAPAEPLPFQMGLPALDLFPRGLWARVMGRRLRTQSRFDLAPGDPGGDPLLRQAIVDYLRLSRSIDCQPEQVLIAGNYATAMNLILRTLAQPGQHMWMEDPGYPFIRPVVEAGQLVVDAIPVDDEGMDIAWGQRHHPQARFALLTPAHQSPLGVALSLPRRRQLLAWAAERDAWIIEDDYDSEFRYRGKPLPPLKSLDAPQRVIYAGTFSKSMFPALRTAWLVVPTALAARFHQTVECLPCTVPTLWQQTLADFIQQGHFWRHLKKMRASYSQRREWLESALQAQGFQVTPQQGGIQLVMPVNGDDRLLAQRAVADGLAVQALSDWRMRHTGEGGLLMSFTNIRSPAMAGALARRLREAIGVGGVTPAGV	PGPT0016790_4778	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
BMS020_01530	432			hypothetical protein	ATGAGCCAATTACGTCAGCCATTCAGTGAACTGAGCCCGGAAGTCTATAAAGGGCTGGTGCAGGCCAGCCTCGCGCTGGAGAAAAGCGAGCTGGGCAGCGCCCTGGTGGAGCTGGTCTATTTACGCGTGTCGCAGATCAACGGCTGCGCCTTCTGCCTTGAGAAGCACAGCCAGGCGCTGCGCAAAGGCGGCATGGCGCAGAGCAAGCTGGATGCCCTGGCCGGCTGGCGGGTGAGCGACCATTTTACCCCTGGCGAACGCGCGGCGCTTGCCTGGGCCGAGTCGGTCACCGACATCGCCGCCAGCCATGCGGAAGATGAGGTTTACCTGCCGCTGCGCGAACATTTTACCCCACGTCAGATAAGCGATCTCACCTTCGCCATCAGCCTGATGAACGCCTTTAACCGCCTCGCCGTCGCCATGCGTCTGTAG	MSQLRQPFSELSPEVYKGLVQASLALEKSELGSALVELVYLRVSQINGCAFCLEKHSQALRKGGMAQSKLDALAGWRVSDHFTPGERAALAWAESVTDIAASHAEDEVYLPLREHFTPRQISDLTFAISLMNAFNRLAVAMRL				NA	NA	NA	NA	NA
BMS020_01531	246	nrdH	COG0695	Glutaredoxin-like protein NrdH	ATGCGCATTACTATTTACACTCGAAATGACTGCGTGCAGTGCCATGCCACCCGACGAGCCATGGAGAGCCGGGGGCTGGCCTTTGAAATGGTCAACGTCGACCAGCAACCGGATGCCGCCGACACCCTGCGCGAGCAGGGGTTTCGCCAGCTGCCGGTGGTGATCGCCGGCGACCTGCGCTGGAGCGGCTTCCGCCCGGATATGATCAATCGCCTGCGCCCCTCCGTCGCGGCGGCCAGCGCATGA	MRITIYTRNDCVQCHATRRAMESRGLAFEMVNVDQQPDAADTLREQGFRQLPVVIAGDLRWSGFRPDMINRLRPSVAAASA				NA	NA	NA	NA	NA
BMS020_01532	411	nrdI	COG1780	Protein NrdI	ATGAGCCTCATCGTCTACTTCTCCAGCCGTTCGGAGAACACCCATCGCTTTGTGCAGCGCCTGGGGCTGCCGGCGGTGCGCATCCCGCTGAACGAGCGTGAACCTCTGCAGGTAGACGAGCCCTATATTCTCATCGTTCCCAGCTATGGCGGCGGCGGTACCGCCGGCGCCGTGCCGCGTCAGGCGATCCGCTTTTTAAACGACGTACATAACCGTCGGCTGATCCGCGGGGTGATTGCCGCCGGCAATCGCAACTTTGGCGACGCCTGGGGGCGCGCCGGGGATGTCATCGCGCAGAAATGCGCCGTGCCCTATCTCTACCGCTTCGAGCTGATGGGAACCCCCGACGATATCGATAACGTGCGTAAAGGAGTCAGCGAATTTTGGCAACGACAACCGCAGAACGTATAA	MSLIVYFSSRSENTHRFVQRLGLPAVRIPLNEREPLQVDEPYILIVPSYGGGGTAGAVPRQAIRFLNDVHNRRLIRGVIAAGNRNFGDAWGRAGDVIAQKCAVPYLYRFELMGTPDDIDNVRKGVSEFWQRQPQNV	PGPT0021340_1491	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
BMS020_01533	2142	nrdE	COG0209	Ribonucleoside-diphosphate reductase 2 subunit alpha	TTGGCAACGACAACCGCAGAACGTATAACCGCCGCCGTGGATTTTCACGCCCTCAATGCGATGCTGAATTTGTACGACAGCGAGGGCCGCATCCCGTTTGAGAAAGATCGCCAGGCGGTTGAGGCTTTTATGGCGACCCAGGTTCAGCCCAACACCCTCGCCTTTGCCAGCCAGGAGGATAAACTCAGCTGGCTCGTCCGCGAGGGCTATTACGATCCCCAGCTGCTGGCCGGCTATGATCGCGGGTTTGTGCTGGCGCTGTTCGCCCATGCCAGGCGCGCCGCGTTTCGCTTCCAGACCTTCCTCGGCGCCTGGAAGTTCTATACCAGCTACGCGCTGAAGAGCTTTGACGGCAAGCACTACCTCGAGGATTTCGCGGAACGCAGCGTAATGGTGGCCCTGACGCTGGCCCGGGGCGATGAACAGCAGGCGCGGCAGCTGACGGAGGAGATACTCAGCGGCCGCTTCCAGCCGGCCACGCCCACCTTCCTTAACGCCGGCAAACAGCAGCGCGGAGAATTGATCTCCTGCTTCCTGCTGCGCATTGAAGATAATATGGAGTCCATCGGCCGGGCGGTGAACTCGGCGCTGCAGCTGTCGAAGCGCGGCGGCGGCGTGGCCTTTTTACTCTCCAATCTGCGCGAGGCCGGGGCGCCGATCAAGCGCATCGAAAATCAGTCCTCCGGCGTGGTGCCGGTGATGAAGATGCTGGAGGACGCCTTCTCCTATGCCAACCAGCTCGGCGCCCGCCAGGGGGCGGGGGCGGTCTGGCTGCACGCTCACCATCCCGATATTTTGCGCTTCCTTGATACCCGGCGTGAAAATGCCGATGAGAAAATCCGCATCAAAACCCTGTCGCTGGGGGTGGTGATCCCTGACATCACCTTCCAGCTGGCGAAAGAAGACGCGCAGATGGCGCTCTTCTCGCCGTATGATGTCGAACGGCTGTACGGCAAACCCTTCGCCGACTGCGCCATCGGCGACCTCTATCCACAGCTGGTAGCCGACGATCGGGTTCGCAAACGCTGGATCCGCGCCCGCGACCTGTTCCAGCGCATGGCGGAGATCCAGTTTGAATCCGGCTACCCGTACATCATGTTTGAAGACACGGTGAACCGCGCCAGTCCGGTGGCCGGGCGGGTCACCATGAGCAATCTGTGTTCCGAGATCCTGCAGGTCAGTACGCCGTCCGCCTATAATGAAGATCTCAGCTATGCCCATATCGGGGAAGATATCTCCTGCAACCTCGGCTCGCTGAACATCGCCCACACCATGGACTCGCCGGATTTCGGCCTCACTATCGCCACCGCAGTGCGCGCCCTGACCGCCGTGTCCGACATGAGCCACATTCAGTCGGTCCCCTCCGTGGCGGCTGGCAACGCCGCCTCCCACGCCATCGGCCTGGGGCAGATGAATCTTCACGGCTACCTGGCGCGGGAAGGCATTGCCTACGGCAGCCCGGAGGGGCTGGACTTCACCAATATCTACTTCTACACCGTGACCTGGCACGCGCTGCACACCTCGATGCTGTTGGCCCGCGAGCGCGGCCAGCGCTTCGCCGGCTTCGGGCAGTCGCGCTACGCCAGCGGGGAATACTTCGACAAATATCTGCAGGAGTCGTGGCAGCCGAAAACCGAACGGGTCCGCGCGCTGTTCGCCCGCGCCGGCATCTCCCTGCCCGACCGGGAAAGCTGGCGCCAGCTGCGCGACGACGTCATGCGCTATGGCATTTACAACCGCTATCTGCAGGCGGTGCCGCCCACCGGCTCGATCTCGTACATCAACCATGCTACCTCCAGCATTCACCCGATCGTCTCGAAGATTGAGATCCGCAAAGAGGGGAAAACCGGACGGGTGTACTACCCCGCGCCGTTTATGAATAACGATAATCTGGCCCTCTACCAGGATGCGTACGAGATAGGCCCCCGGAAGATCATCGACACCTACGCCGAGGCGACGCGCCACGTCGATCAGGGGCTGTCGCTGACCCTGTTCTTCCCGGATACCGCCACCACCCGCGATATCAACAAGGCGCAAATCTACGCCTGGAAGAAAGGCATTAAGACGCTGTACTACATCCGACTGCGCCAGCTGGCGCTGGAAGGCACTGAAATTGAAGGCTGCGTGTCCTGCGCGCTGTAA	MATTTAERITAAVDFHALNAMLNLYDSEGRIPFEKDRQAVEAFMATQVQPNTLAFASQEDKLSWLVREGYYDPQLLAGYDRGFVLALFAHARRAAFRFQTFLGAWKFYTSYALKSFDGKHYLEDFAERSVMVALTLARGDEQQARQLTEEILSGRFQPATPTFLNAGKQQRGELISCFLLRIEDNMESIGRAVNSALQLSKRGGGVAFLLSNLREAGAPIKRIENQSSGVVPVMKMLEDAFSYANQLGARQGAGAVWLHAHHPDILRFLDTRRENADEKIRIKTLSLGVVIPDITFQLAKEDAQMALFSPYDVERLYGKPFADCAIGDLYPQLVADDRVRKRWIRARDLFQRMAEIQFESGYPYIMFEDTVNRASPVAGRVTMSNLCSEILQVSTPSAYNEDLSYAHIGEDISCNLGSLNIAHTMDSPDFGLTIATAVRALTAVSDMSHIQSVPSVAAGNAASHAIGLGQMNLHGYLAREGIAYGSPEGLDFTNIYFYTVTWHALHTSMLLARERGQRFAGFGQSRYASGEYFDKYLQESWQPKTERVRALFARAGISLPDRESWRQLRDDVMRYGIYNRYLQAVPPTGSISYINHATSSIHPIVSKIEIRKEGKTGRVYYPAPFMNNDNLALYQDAYEIGPRKIIDTYAEATRHVDQGLSLTLFFPDTATTRDINKAQIYAWKKGIKTLYYIRLRQLALEGTEIEGCVSCAL	PGPT0021340_5596	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
BMS020_01534	963	nrdF	COG0208	Ribonucleoside-diphosphate reductase 2 subunit beta	ATGACCCATTTAACGCGCGTCAGCGCGATCAACTGGAACCGCATCGATGACGATAAAGATCTGGAGGTGTGGAATCGTCTCACCAGCAACTTCTGGCTGCCGGAGAAAGTGCCGCTGTCGAACGACATTCCCGCCTGGCAAACCCTCAGCGCGGCGGAGCAGCAGTTGACCATTCGCGTTTTTACCGGGCTGACCCTGCTCGACACCATTCAGAACACCATCGGCGCGCCGGCGCTGATGGCGGACGCTCTGACCCCGCATGAGGAGGCGGTGCTGTCGAACATCAGCTTTATGGAAGCGGTTCATGCCCGCTCTTACAGCTCCATCTTTTCCACGCTGTGCCACAGCAAAGAGGTGGATGCCGCCTTCGCCTGGAGCGAAAGCTGCGAACCCCTGCAGCGCAAAGCGCAGCTGATGCTGGGCTACTATCAGGCCGACGAGCCGCTGAAGAAAAAAATCGCCAGCGTGTTCCTCGAATCCTTTCTCTTCTATTCCGGCTTCTGGCTGCCGATGCACTTCTCCAGTCGGGGAAAACTGACCAATACCGCGGATCTGATCCGCCTGATCATTCGCGATGAAGCGGTGCATGGCTATTACATCGGCTACAAGTATCAGAAAGGACTGGAGATCGTCAGCCCCGGTAAGCGCGAAGAATTGAAAAACTTCGCCCTCGATCTGCTGATGGATCTGTACGACAACGAGCTGGCCTACAGCCGGGAACTGTACGGCGAGAGCGGCTGGTTCGACGACGTCAGCGCCTTCCTGTGCTACAACGCCAACAAAGCGCTGATGAACCTCGGCTACGAGGCGCTGTTCCCGGCGGAGATGGCGGCGGTTAACCCGGCGATCCTCGCGGCGCTGTCACCCAACGCCGATGAAAACCACGACTTTTTCTCCGGCTCCGGCTCCTCCTACGTGATAGGAAAAATGGAAGAGACCGCCGACGACGACTGGGACTTTTAA	MTHLTRVSAINWNRIDDDKDLEVWNRLTSNFWLPEKVPLSNDIPAWQTLSAAEQQLTIRVFTGLTLLDTIQNTIGAPALMADALTPHEEAVLSNISFMEAVHARSYSSIFSTLCHSKEVDAAFAWSESCEPLQRKAQLMLGYYQADEPLKKKIASVFLESFLFYSGFWLPMHFSSRGKLTNTADLIRLIIRDEAVHGYYIGYKYQKGLEIVSPGKREELKNFALDLLMDLYDNELAYSRELYGESGWFDDVSAFLCYNANKALMNLGYEALFPAEMAAVNPAILAALSPNADENHDFFSGSGSSYVIGKMEETADDDWDF	PGPT0021345_3850	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021345-nrdB|nrdF-K00526	NA	NA
BMS020_01535	1203	proV	COG4175	Glycine betaine/proline betaine transport system ATP-binding protein ProV	ATGGCAATTAAATTAGAAATTAAAAATCTTTATAAGATATTTGGCGAGCACCCTCATCGTGCTTTCAAATATATTGAGAAAGGACTCAACAAAGCGCAAATACTGGAAAAAACGGGGCTGTCGCTTGGCGTCAAAGACGCCAGTCTGGCCATTGAAGAAGGCGAGATATTCGTCATCATGGGGCTCTCCGGTTCGGGGAAATCCACCATGGTTCGCCTTCTCAATCGCCTGATTGAACCCACCCGCGGCCAGGTGCTGATTGACGGGGTCGATATCGCCAAAATGTCGGACGCCGAGCTGCGCGAGGTGCGTCGTAAAAAAATTGCGATGGTTTTTCAGTCCTTTGCGCTAATGCCGCACATGAGCGTGCTCGACAATACGGCGTTTGGCATGGCGCTTGCCGGCGTCCCGGCCGCTGAGCGAGAGCAAAAAGCGCGGGAAGCGCTGCGTCAGGTGGGGCTGGAGAATTATGCCCACGCCTGGCCGGATGAACTCTCCGGCGGGATGCGTCAGCGCGTCGGTTTAGCCCGCGCCCTGGCGATTAATCCCGATATTCTGTTAATGGATGAAGCCTTCTCCGCGCTCGATCCGCTCATTCGTACCGAAATGCAGGATGAGCTGATCAAATTACAGGCTAAGCATCAGCGTACCATTGTCTTTATTTCCCATGACCTTGATGAAGCCATGCGAATTGGCGATCGTATCGCCATTATGCAAAATGGCGAAGTGGTTCAGGTCGGCACTCCGGATGAAATATTGAATAATCCGGCCAATGATTATGTCCGCACCTTCTTCCGCGGCGTTGATATTAGCCAGGTCTTCAGCGCGAAAGATATTGCCCGTCGTAGCCCGGTCGGCCTGATTCGTAAAACGCCAGGTTTTGGCCCCCGCTCTGCGCTGAAATTATTACAGGATGAAGACCGGGAATATGGCTATGTCATTGAGCGCGGTAATCGCTTTGTCGGGATTGTCTCGATCGATTCTCTGAAAACCGCGCTCAGCGCCGGCCAGGGGATCGAGGCGGCGCTGATTGACGCCCCGCTGGCGGTGGAGGCGCAAACGCCGCTCAGCGATCTGCTCTCCCACGTCGGCCACGCCCCGTGCGCCGTCCCGGTGGTGGATGAAGAACAACAATATATTGGCATCATTTCCAAACGAATGTTGCTCCAGGCTTTAGATCGCGAGGGGGTGAATCATGGCTGA	MAIKLEIKNLYKIFGEHPHRAFKYIEKGLNKAQILEKTGLSLGVKDASLAIEEGEIFVIMGLSGSGKSTMVRLLNRLIEPTRGQVLIDGVDIAKMSDAELREVRRKKIAMVFQSFALMPHMSVLDNTAFGMALAGVPAAEREQKAREALRQVGLENYAHAWPDELSGGMRQRVGLARALAINPDILLMDEAFSALDPLIRTEMQDELIKLQAKHQRTIVFISHDLDEAMRIGDRIAIMQNGEVVQVGTPDEILNNPANDYVRTFFRGVDISQVFSAKDIARRSPVGLIRKTPGFGPRSALKLLQDEDREYGYVIERGNRFVGIVSIDSLKTALSAGQGIEAALIDAPLAVEAQTPLSDLLSHVGHAPCAVPVVDEEQQYIGIISKRMLLQALDREGVNHG	PGPT0013630_755	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
BMS020_01536	1068	proW	COG4176	Glycine betaine/proline betaine transport system permease protein ProW	ATGGCTGATCAAACCAATCCGTGGGACAGCGCCCCGGCAACCGACAGCGCCGCTCAGGCTGCAGACGCCTGGGGTGGCGCCTCAACTGCCGCGCCGACTAATGGCGGCGGCGCCGACTGGCTGCACAGCGCCCCGGCGCCGCAGCCGGAACAGTTCAATATCATGGATCCGTTCCATAAGACCCTGATCCCGCTCGACAGCTGGGTGACCCACGCCATCGACTGGATCGTGCTGCACTTCCGCCCGCTGTTCCAGGGGATCCGCGTGCCGATCGACTACATCCTCAGCGCCTTCCAGCAGCTGCTGTTGGGGATGCCGGCGCCGGTGGCGATTATCGTCTTCGCGCTGATCGCCTGGCAGATCTCCAGCCTCGGCATGGGGGTCGCCACCCTGGTCTCGCTGATTGCCATCGGCGCCATCGGCGCGTGGTCGCAGGCGATGGTCACCCTGGCGCTGGTCCTCACCGCCCTGCTGTTCTGCATGATCATCGGCCTGCCGCTGGGGATCTGGCTGGCGCGCAGTCCGCGAGCGGCGAAAATTATCCGCCCGCTGCTGGATGCCATGCAGACCACGCCAGCCTTCGTCTACCTGGTGCCGATCGTGATGCTGTTCGGCATCGGCAACGTGCCCGGCGTGGTGGTGACGATTATCTTCGCCCTGCCGCCGATCGTCCGTCTGACCATCCTCGGGATAAACCAGGTGCCTGCGGATCTGATCGAAGCGTCGCGCTCGTTTGGCGCCAGCCCTCGCCAGCTGCTGTTTAAAGTTCAGCTGCCGCTGGCGATGCCCACCATTATGGCCGGGGTTAACCAGACGCTAATGCTGGCCCTGTCGATGGTGGTGATCGCCTCAATGATCGCCGTCGGCGGTCTTGGCCAGATGGTGCTGCGCGGCATTGGCCGCCTGGATATGGGCCTGGCCACCGTCGGCGGCGTGGGGATCGTGATCCTGGCGATTATTCTTGACCGCCTCACCCAGGCCGTCGGCCGCGACGCCCGCAGTCGCGGCAACCGCCGCTGGTACACCACCGGCCCGCTGGGGCTTCTCACTCGCCCTTTCTGTCGATAA	MADQTNPWDSAPATDSAAQAADAWGGASTAAPTNGGGADWLHSAPAPQPEQFNIMDPFHKTLIPLDSWVTHAIDWIVLHFRPLFQGIRVPIDYILSAFQQLLLGMPAPVAIIVFALIAWQISSLGMGVATLVSLIAIGAIGAWSQAMVTLALVLTALLFCMIIGLPLGIWLARSPRAAKIIRPLLDAMQTTPAFVYLVPIVMLFGIGNVPGVVVTIIFALPPIVRLTILGINQVPADLIEASRSFGASPRQLLFKVQLPLAMPTIMAGVNQTLMLALSMVVIASMIAVGGLGQMVLRGIGRLDMGLATVGGVGIVILAIILDRLTQAVGRDARSRGNRRWYTTGPLGLLTRPFCR	PGPT0013635_855	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
BMS020_01537	999	proX	COG2113	Glycine betaine/proline betaine-binding periplasmic protein	ATGCGACATAGCACGATGATGGCCACCGCCGCCTTTGCCACCCTGATCGCCACCAGCGCCTTCGCCGCCGACCTGCCGGGCAAAGGAATTACCGTCAAGCCGGCCCAAAGCACTATCTCCGAAGAGAGCTTCCAGACCCTGCTGGTCAGCCGCGCGCTGGAGAAGCTTGGCTACACCGTCGAAAAACCGAGCGAAGTGGACTATAACGTTGCCTATACCTCGATTGCCGCCGGGGATACTACCTTTATCGCCACCAACTGGCAGCCGCTGCACGATGACATGTACGCCGCGGCGGGCGGTGATAACAAATTTTACCGCAAGGGGGTGTACGTCTCAGGCGCCGCCCAGGGCTATCTGATCGATAAAAAAACCGCCGAGCAGTACCACATCACCTCTATCGATCAGCTCAAAGATCCGCAGATCGCCAAACTGTTTGATACTAACAACGACGGTAAAGCGGACCTCACCGGCTGCACCCCGGGCTGGGGCTGCGAAGCGGTGATTAACCACCAGATTGACGCCTATGGCCTGAGCAAAACCGTTACCCATAACCAGGGCAACTACGCGGCGATGATGGCCGACACCATCGCCCGCTATAAAGAGGGTAAACCGGTGCTCTACTACACCTGGACGCCGTACTGGGTTAGCGACGTGCTGAAGCCTGGCAAAGACGTCGTCTGGCTGCAGGTGCCGTTCTCCTCCCTGCCGGGCGAGCAGAAAAACATCGATACCAAACTGGCCAACGGCGCCAACTATGGCTTCCCGGTCAACACCATGCACATTGTCGCCAACAAAGCCTGGGCGGAGAAAAATCCGGCCGCCGCCACTCTGTTTAGCGTCATGAAGCTGCCGATCGCCGACATCAACGCCGAGAATGCGATGATGCACGAAGGCCATGCTTCCGAAGCCGACATTAACGGTCATGTTGATGGTTGGATCAAAGCCCACCAGCCGCTGTTCGACAGCTGGGTGAAAGCCGCGCTCGCCGCGCAGCAGTAA	MRHSTMMATAAFATLIATSAFAADLPGKGITVKPAQSTISEESFQTLLVSRALEKLGYTVEKPSEVDYNVAYTSIAAGDTTFIATNWQPLHDDMYAAAGGDNKFYRKGVYVSGAAQGYLIDKKTAEQYHITSIDQLKDPQIAKLFDTNNDGKADLTGCTPGWGCEAVINHQIDAYGLSKTVTHNQGNYAAMMADTIARYKEGKPVLYYTWTPYWVSDVLKPGKDVVWLQVPFSSLPGEQKNIDTKLANGANYGFPVNTMHIVANKAWAEKNPAAATLFSVMKLPIADINAENAMMHEGHASEADINGHVDGWIKAHQPLFDSWVKAALAAQQ	PGPT0013640_1067	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
BMS020_01538	747	ygaZ_1	COG1296	Inner membrane protein YgaZ	ATGGAAAACCCCGCGCCCTTAACCTGTGCCTTATCTAAACGTGTCGCTACCGTCGGCGAAGGCATTAAAGACAGTCTCCCCATCGTCATTAGCTACCTTCCGGTGGCATTCGCCTTCGGACTGAACGCCACCCGGCTGGGTTTCACCCCGCTGGAAAGCCTGTTTTTCTCCTGCATTATTTACGCCGGCGCCAGCCAGTTTGTGATCACCGCCATGCTGGCCGCCGGCAGTTCGCTGTGGGTCGCCGCCCTGACGGTGATGGCGATGGACGTCCGCCACGTGCTGTATGGCCCCTCGCTGCGCAGCCGCATTCATACCGCGCTGGACAAAAAGAAGACCGCCCTCTGGGCCTTCGGCCTGACCGATGAGGTTTTCGCCGCCGCCACCGCCAGGCTGGTTCGCGACAACCGACGCTGGAGCGAAAACTGGATGCTCGGTCTCGCATTTACCTCATGGGCATCGTGGGTGTGCGGCACGCTGGCCGGCGCCTGGTCCGGCAACGGCCTGCTGGTGGATTATCCGGCGGTGGAAGCCGCGCTCGGCTTTATGCTGCCGGCGCTGTTTATGAGCTTCCTGCTGGCCTCTTTCCAGCGCCAGCAATCGCTGTGCGTCACGGCGGCGCTGGCGGGCGCGCTGGGCGGCATTCTGTTATTTTCCATTCCGGCGGCGATCCTCGCCGGGATTGTCTGCGGGTGTCTGACGGCGCTGGTCCAGGCCATGCTGAAGGGGATGCCGGATGAACAGTGA	MENPAPLTCALSKRVATVGEGIKDSLPIVISYLPVAFAFGLNATRLGFTPLESLFFSCIIYAGASQFVITAMLAAGSSLWVAALTVMAMDVRHVLYGPSLRSRIHTALDKKKTALWAFGLTDEVFAAATARLVRDNRRWSENWMLGLAFTSWASWVCGTLAGAWSGNGLLVDYPAVEAALGFMLPALFMSFLLASFQRQQSLCVTAALAGALGGILLFSIPAAILAGIVCGCLTALVQAMLKGMPDEQ				NA	NA	NA	NA	NA
BMS020_01539	336			hypothetical protein	ATGAACAGTGAGGTCCTTCTGCTCGGAGTGATTGTCGGCGGCGTGAACTATCTGTTTCGTTATCTTCCCCTGCGTCTGCGCGCGGGTCATGCCCGGCCTGCCCGTCGTGGCCCGGTCAGCGTGCTGCTGGATACCATCGGCATCGCCTCGATTTGCGCGCTGCTGGTGGTCTCCAGCGTGCCGGAGATCCTCGCCGATGCCCATCGCCTGGCGCCGACGCTGATCGGCTTCCTGGTGCTGGGGGGCGCCTTCTGGAAAACCCGCAGCATTATTATCCCGACCCTGCTGTCGGCGTTGGCCTACGGTCTGGCCTGGAAAATCGCCAGCGGGCTCTAA	MNSEVLLLGVIVGGVNYLFRYLPLRLRAGHARPARRGPVSVLLDTIGIASICALLVVSSVPEILADAHRLAPTLIGFLVLGGAFWKTRSIIIPTLLSALAYGLAWKIASGL				NA	NA	NA	NA	NA
BMS020_01540	531	mprA_1	COG1846	Transcriptional repressor MprA	ATGGATAGTTCGTTTACTCCCATTGAGCAAATGCTCAAGTTCCGCGCCAGCCGCCATGAAGATTTCCCGTTCCAGGAGATTCTGTTAACTCGTCTTTGCATGCATATGCAAGGTAAGCTGCTGGAAAATCGCAATAAAATGCTCAAAGCGCAGGGAATTAACGAGACATTATTTATGGCGCTGATTACGCTGGAGTCGCAGGAAAACCACAGCATTCAGCCGTCCGAGCTGAGCTGTGCGCTGGGCTCGTCGCGTACCAACGCCACCCGTATCGCTGATGAACTGGAAAAACGCGGCTGGATTGAACGCCGCGAGAGCGATAACGATCGTCGCTGTCTGCATCTGCAGCTGACCGAAAAGGGCCATCAGTTTTTGCGTGAAGTCCTGCCGCCGCAGCATAACTGCCTGCACCAGCTGTGGTCTTCACTCAGCACCAGCGAAAAAGATCAGCTCGAACACATTACCCGCAAACTCCTGAGCCGCCTTGACCAAATGGAAGAAGAAGGCGTGCTGGCGGACTCTCTACGCTAA	MDSSFTPIEQMLKFRASRHEDFPFQEILLTRLCMHMQGKLLENRNKMLKAQGINETLFMALITLESQENHSIQPSELSCALGSSRTNATRIADELEKRGWIERRESDNDRRCLHLQLTEKGHQFLREVLPPQHNCLHQLWSSLSTSEKDQLEHITRKLLSRLDQMEEEGVLADSLR	PGPT0029235_130	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029235-emrR|mprA-K15974	NA	NA
BMS020_01541	1173	emrA_2	COG1566	Multidrug export protein EmrA	ATGAGCGCAAATGCGGAGAGCCAAACCCCGCAGCAACCAGGCAGCAAAAAAGGGAAGCGTAAAGGCGCCCTTCTGTTGCTGACATTGCTCTTCATTATTATTGCCGTGGCATATGGGATTTACTGGTTTCTGGTACTGCGTCACTACGAAGAGACCGACGATGCCTACGTGGCAGGGAACCAGGTGCAAATTATGGCCCAGGTCTCGGGCAGCGTGACCAAAGTCTGGGCAGACAACACGGACTATGTGCAGAAAGGCGATCCGCTGGTCACTCTCGATCAGACCGATGCCCAACAGGCGTTTGAGAAAGCCAAAACGCAGCTGGCCGCCAGCGTGCGTCAAACCCGTCAGCAGATGATCAACAGCAAGCAGCTGCAGGCGAATATTGACGTCAAAAAGACCGCCCTCGCCCAGGCGCAGGCTGACCTGAACCGCCGCATCCCGCTGGGCGCCGCGAACCTCATCGGCCGCGAAGAGCTGCAGCACGCCCGCGACACCGTCGCCAGCGCGCAGGCCGAGCTTGACGTGGCAATCCAGCAGTACAACGCCAACCAGGCGATCGTGCTGGGAACCAAACTGGAACAGCAGCCGGCGGTGCTGCAGGCGGCGACCGAAGTGCGTAACGCCTGGCTGGCCCTGCAGCGTACGCAGATCGTCAGCCCGATTAGCGGCTACGTTTCCCGCCGCTCGGTACAGCCTGGGGCGCAGATCGGCACCACCACGCCGCTGATGGCGGTGGTTCCGGCGACCAACCTGTGGATCGACGCTAACTTTAAAGAGACCCAGCTGGCGCATATGCGCATCGGCCAGCCGGCCACCGTAATCAGCGACATCTATGGCGATGACGTGAAATACACCGGCAAGGTGGTTGGTCTGGATATGGGAACCGGGAGCGCCTTCTCCCTGCTGCCGGCGCAGAACGCCACCGGCAACTGGATCAAAGTGGTACAGCGCTTGCCGGTCCGCATCGAACTGGATGAAAAACAGCTGGCGGAACATCCGCTGCGCATCGGCCTCTCGACGCTGGTGGAAGTTAACACCACCGATCGCGATGGCGAAATGCTGGCAAGCCAGGTGCGGAGCTCCCCGGTCTACGAGAGCAATGCCCGCGAAATCGCTCTCGATCCGGTCAATAAACTGATAGACGAGATCATTCAGGCCAACGCCGGATAA	MSANAESQTPQQPGSKKGKRKGALLLLTLLFIIIAVAYGIYWFLVLRHYEETDDAYVAGNQVQIMAQVSGSVTKVWADNTDYVQKGDPLVTLDQTDAQQAFEKAKTQLAASVRQTRQQMINSKQLQANIDVKKTALAQAQADLNRRIPLGAANLIGREELQHARDTVASAQAELDVAIQQYNANQAIVLGTKLEQQPAVLQAATEVRNAWLALQRTQIVSPISGYVSRRSVQPGAQIGTTTPLMAVVPATNLWIDANFKETQLAHMRIGQPATVISDIYGDDVKYTGKVVGLDMGTGSAFSLLPAQNATGNWIKVVQRLPVRIELDEKQLAEHPLRIGLSTLVEVNTTDRDGEMLASQVRSSPVYESNAREIALDPVNKLIDEIIQANAG	PGPT0013750_1374	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0013750-emrB-K03543	NA	NA
BMS020_01542	1539	emrB_1		Multidrug export protein EmrB	ATGCAACAGCAAAAACCGCTGGAAGGCGCGCAGCTGGTCATCATGACCATTGCGCTGTCGCTCGCGACGTTCATGCAGGTGCTGGATTCCACTATCGCCAACGTGGCGATCCCGACCATCGCCGGTAACCTTGGCTCATCGCTGAGCCAGGGGACCTGGGTCATCACCTCGTTCGGGGTCGCTAACGCCATCTCCATTCCGATCACCGGGTGGCTGGCCAAGCGCGTGGGCGAGGTGAAGCTGTTCCTGTGGTCCACCACCGCTTTCGCCATCGCCTCCTGGGCCTGCGGCGTCTCCAACAGCCTGACGATGCTGATCTTCTTCCGCGTCATTCAGGGGATTGTTGCCGGGCCGCTGATCCCGCTGTCGCAAAGTCTGTTGCTCAGCAACTATCCGCCGGCGAAACGCTCTATCGCCCTGGCGCTGTGGTCGATGACGGTGATCGTCGCCCCCATCTGCGGCCCAATCCTCGGCGGCTATATCAGCGATAACTACCACTGGGGATGGATCTTCTTTATCAACGTGCCCATTGGCGTGGCGGTGGTGCTGATGACCCTGCAGACCCTGCGCAACCGGGAAACCAAAACCGAACAGCGGCGTATCGACGGCGTCGGCCTGGCGCTGCTGATCATCGGTATCGGTAGCCTGCAGGTGATGCTGGACCGGGGTAAAGAGCTGGACTGGTTCTCCTCCAATGAAATTATCATTCTGACCATCGTGGCGGTGGTGGCGATAAGCTTCCTGATCGTCTGGGAGCTGACCGACGATAACCCGATTGTCGATCTGTCGCTGTTTAAGTCGCGCAACTTCACCATCGGCTGCCTCTGTATCAGCCTGGCCTACATGCTCTACTTCGGGGCCATCGTGCTGCTGCCGCAGCTGTTGCAGGAGGTCTACGGCTACACCGCTACCTGGGCCGGCCTGGCGTCAGCGCCGGTGGGGGTGATCCCGGTCATTCTGTCGCCGATTATCGGCCGCTTTGCGCATAAGCTCGATATGCGACGGCTGGTCACCTTCAGCTTTATCATGTACGCCGTCTGCTTCTACTGGCGCGCCTGGACCTTCGAACCGGGGATGGATTTTGGCGCCTCGGCGTGGCCGCAGTTTATCCAGGGCTTCGCGGTAGCCTGCTTCTTCATGCCGTTGACCACTATCACCCTCTCCGGCCTGCCGCCGGAACGGCTGGCGGCGGCGTCGAGCTTGTCGAACTTCACCCGTACCCTTGCCGGCTCCATTGGGACCTCGATCACCACCACCCTGTGGACCAACCGCGAGGCGCTGCACCATGCGCAGCTCACCGAATCGGTGACGCCGTTCAACCCCAACGCGCAGCAGATCTACGATCAGCTGCAGGGGATGGGAATGACGCAGCAGCAGGCGTCCGGCTGGATAGCGCAGCAGATAACCAACCAGGGGCTGATTATCTCCGCCAACGAAATCTTCTGGATCTCAGCGGCCATTTTCATCCTGCTGTTGGGACTGGTGTGGTTCGCCAGACCCCCGTTCAGCGCCGGCGGCGGCGGCGGCGGCGCGCACTAA	MQQQKPLEGAQLVIMTIALSLATFMQVLDSTIANVAIPTIAGNLGSSLSQGTWVITSFGVANAISIPITGWLAKRVGEVKLFLWSTTAFAIASWACGVSNSLTMLIFFRVIQGIVAGPLIPLSQSLLLSNYPPAKRSIALALWSMTVIVAPICGPILGGYISDNYHWGWIFFINVPIGVAVVLMTLQTLRNRETKTEQRRIDGVGLALLIIGIGSLQVMLDRGKELDWFSSNEIIILTIVAVVAISFLIVWELTDDNPIVDLSLFKSRNFTIGCLCISLAYMLYFGAIVLLPQLLQEVYGYTATWAGLASAPVGVIPVILSPIIGRFAHKLDMRRLVTFSFIMYAVCFYWRAWTFEPGMDFGASAWPQFIQGFAVACFFMPLTTITLSGLPPERLAAASSLSNFTRTLAGSIGTSITTTLWTNREALHHAQLTESVTPFNPNAQQIYDQLQGMGMTQQQASGWIAQQITNQGLIISANEIFWISAAIFILLLGLVWFARPPFSAGGGGGGAH	PGPT0029220_2582	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029220-emrB-K03446	NA	NA
BMS020_01543	1677	leuA_1	COG0119	2-isopropylmalate synthase	ATGCTGAGCCATCCTGCTGAAAAGTACCGTCCCTATCCGCCGATTACCCTGCCCGACCGCCGCTGGCCGGACCGGCAAATCAGCCACGCCCCGCGCTGGCTGTCGACCGACCTGCGCGACGGCAACCAAGCGCTGGCGGAGCCCATGGACAGCGCCCGCAAACTGCAGTTCTGGGATCTGCTGCTGGAGTGCGGCTTTAAAGAGATTGAGGTCGCCTTCCCTTCCGCCTCGCAAACCGATTTCAACTTTGTCCGCCAGCTGATTGACGAACAGCGCATCCCGGAGGAGGTCACCATCCAGGTGCTGACCCAGGCGCGGGACCCGCTGATCCTGCGCACCTTTGAAGCGCTGCGCGGCGCCCGCCGGGCCACCGTCCACCTCTACAACGCCACCGCGCCGCTGTTCCGCGAACTGGTTTTCGGCATGGACAAGGCCGAGGTGATCGCCCTCGCGACCCGCGCCACCCGGCTTATCCGCCAGCAGTGCGAACAACAGCCGGAGACCCGCTGGCAATATGAATATTCGCCTGAAACCTTCTGCTTCACCGAACCGGAGTTTGCGCTCGAGATTTGCGAAGCGGTGGCGGACGTCTGGCAGCCCTGCGCCGAGCGACCGATGATCGTCAATCTGCCGGCGACGGTGGAGGTCAACACCCCCAACGTCTATGCCGATCAGATCGAGTACTTTTGCCGCCACTTCTCCCGCCGCGGCGAGGTCTGCATCAGCGTGCATCCTCACAATGACCGCGGTACCGGCGTCGCCAGCGCCGAGCTGGCGGTGATGGCCGGCGCCGACCGGGTGGAAGGCTGCCTGTTCGGCAACGGCGAACGCACCGGCAACGTCTGCCTGGTGACGCTGGCGATGAACCTCTACAGCCAGGGCGTCGACCCTGAGCTTCGCTTCGAGCAGATGAACCGGGTGGTGGAAGTGGTGGAAAACTGCAATCAGATCCCCGTGCACCCGCGCCACCCGTGGGCGGGAAGTCTGGCCTACACCGCCTTCTCCGGTTCCCATCAGGATGCGATCAAAAAAGGGTTTGATGCCCGTCAGCCTGGCGACCCATGGCGGATGCCCTACCTGCCCATTGACCCGCAGGATATTGGCTGCAGCTATGAGGCGGTGATCCGCGTCAACAGCCAGTCGGGGAAAAGCGGCAGCGCCTGGCTTATCGAACAAAATCATGGTCTGAAGCTGCCCCGCGGGCTGCAGCAGGACTTCAGCCAGCACGTTCAGCAGGCCACCGATAGCGACGGCAAAGAGATGACCCACCATGCGCTGTGGCAGCTGTTCCGCACGCGCTACGGGCTGCAGGCGCAGCCTGCGCTGACGCTGGTCGATTATCAGAGCGCCAGCCAGCAGGATGGCCAGCTGTCACTGCAGGCGACGCTGCGTCACCACGGCGAAACCCGACGCCTGCAGGGCCAGGGCAACGGCCTGCTCTCCGCCGCCGCCAGCGGCCTCAGCGCGCTGTTTCGGCAGCCGTTTATGATCAAGGACTATCATGAGCATACCCTCGGCGCGCGCAGCGACAGCCGGTCGGTGGCCTATATCCGCTGCGTTTTTCCGCAAGGAGAAAGCTACTGGGGCGTGGGTATCGATAATGACGTGGCGCGCGCCTCGCTGCAGGCGCTGTGCAATGCTCTCAGCGCCGCCGATCAGGCCGGCGGACGAAAATAG	MLSHPAEKYRPYPPITLPDRRWPDRQISHAPRWLSTDLRDGNQALAEPMDSARKLQFWDLLLECGFKEIEVAFPSASQTDFNFVRQLIDEQRIPEEVTIQVLTQARDPLILRTFEALRGARRATVHLYNATAPLFRELVFGMDKAEVIALATRATRLIRQQCEQQPETRWQYEYSPETFCFTEPEFALEICEAVADVWQPCAERPMIVNLPATVEVNTPNVYADQIEYFCRHFSRRGEVCISVHPHNDRGTGVASAELAVMAGADRVEGCLFGNGERTGNVCLVTLAMNLYSQGVDPELRFEQMNRVVEVVENCNQIPVHPRHPWAGSLAYTAFSGSHQDAIKKGFDARQPGDPWRMPYLPIDPQDIGCSYEAVIRVNSQSGKSGSAWLIEQNHGLKLPRGLQQDFSQHVQQATDSDGKEMTHHALWQLFRTRYGLQAQPALTLVDYQSASQQDGQLSLQATLRHHGETRRLQGQGNGLLSAAASGLSALFRQPFMIKDYHEHTLGARSDSRSVAYIRCVFPQGESYWGVGIDNDVARASLQALCNALSAADQAGGRK				NA	NA	NA	NA	NA
BMS020_01544	768	nimR_2		HTH-type transcriptional regulator NimR	ATGACGACCACCACCACCTTCTCCTTTCAGCACCGCCCGCTGGTGCCCTTTGCCCATGATTACGCTCACGGTGACCAGGAAGACTGGCATCAGCATGACTGCGCCCAGCTGCTGCATATTTTAAGCGGCGTGGTGCGGGTGGCGACGCCGGCAGGCTACTGGGTGGTGCCGCCCGGGCGCGGCGTCTGGCTGCCGGCGGGAACGCCCCACGCGCTGCGCATGACCGGCAACGTCGCGGCGCGCACGTTGTTTATCGATCCGCTGGCGCGCGCCGATCTTCCGGCGGGCTGCCAGATCGTACAGATCACGCCGCTGCTGCGGGAACTGATCGTCTCTTCCCTGGCGCTGGCCGAGCGCTATGCCCCCGCCAGCCGCGACGAACGGATTTATGAGCTGATCCTCGATGAGATCCGCGGGATGGCGATCCTGCCGTTTGGCCTGCCGGAGCCGCAAAGCGAAACGCTGCGCCGGCTGTGCCAGCAGGTGCGCGAGGCGCCGGGCGACGTCTGGAGCAGCAGCCAGGCGGCGAAGGCGTGCAGTATGAGCGAGCGAACCCTGAACCGCCATTTTCAGCAGCAGACTAGCCTGACGTGGCGCGAGTGGGTGCGCCGGGCGAAGCTAATGGAAGCGCTGATTCGCCTGGCGCAGGGCCACTCCGTCCTGCGGGTGGCGCTGGAGCTGGGCTACGGCAGCCACAGCGCCTTCAGCGCCATGTTTCGTCGGGTGATGGGCGTCGCCCCCAGCGACTATTTTCGTCCGCCGGCCTGA	MTTTTTFSFQHRPLVPFAHDYAHGDQEDWHQHDCAQLLHILSGVVRVATPAGYWVVPPGRGVWLPAGTPHALRMTGNVAARTLFIDPLARADLPAGCQIVQITPLLRELIVSSLALAERYAPASRDERIYELILDEIRGMAILPFGLPEPQSETLRRLCQQVREAPGDVWSSSQAAKACSMSERTLNRHFQQQTSLTWREWVRRAKLMEALIRLAQGHSVLRVALELGYGSHSAFSAMFRRVMGVAPSDYFRPPA	PGPT0014658_41	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA	NA	NA
BMS020_01545	516	luxS	COG1854	S-ribosylhomocysteine lyase	ATGCCGTTGTTAGATAGTTTCACAGTCGACCATACCCGAATGGAAGCCCCAGCGGTGCGTGTCGCGAAGAAAATGAACACGCCGCATGGCGATGAAATCACCGTATTCGATCTGCGCTTCTGCGTGCCGAACCAGGAAGTGATGCCGGAGCGCGGTATCCACACCCTGGAGCACCTGTTCGCCGGCTTTATGCGCGATCACCTGAACGGGAATGGCGTGGAAATTATCGACATTTCGCCGATGGGCTGCCGCACCGGGTTCTATATGAGCCTGATTGGTACGCCGGACGAGCAGCGCGTCGCCGACGCCTGGAAAGCGGCGATGGCCGACGTGCTGAAGGTGCAAGATCAGAACCAGATCCCGGAGCTGAACGTCTACCAGTGCGGGACCTATACCATGCACTCGCTGGAAGAGGCGCAGGAGATCGCTCGTCATATCATTGAGCGCGATGTGCGCATCAACAGCAACGACGAACTGGCGTTGCCGAAAGAAAAACTGCAGGAACTGCACATCTAG	MPLLDSFTVDHTRMEAPAVRVAKKMNTPHGDEITVFDLRFCVPNQEVMPERGIHTLEHLFAGFMRDHLNGNGVEIIDISPMGCRTGFYMSLIGTPDEQRVADAWKAAMADVLKVQDQNQIPELNVYQCGTYTMHSLEEAQEIARHIIERDVRINSNDELALPKEKLQELHI	PGPT0016265_161	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016265-luxS-K07173	NA	NA
BMS020_01547	1557	gshA	COG2918	Glutamate--cysteine ligase	TTGATCCCGGACGTATCACAGGCGCTGGCCTGGCTGGAAAAACATCCGCAGGCCCTGCAGGGTATTCAACGTGGTCTGGAGCGGGAGACGCTGCGCGTGAACGCAGACGGTACGCTGGCGACGACCGGTCACCCTCTGGCGTTAGGCTCAGCGCTGACGCATAAATGGATTACCACCGATTTTGCCGAAGCTTTACTCGAGTTTATTACGCCGGTGGACGGCGATATTGAGCATATGCTGACCTTTATGCGCGATGTCCATCGCTATACCGCGCGTCAGCTTGGTGACGAGCGGATGTGGCCGCTGAGTATGCCCTGCTATATCGCCCCCGGTCAGGATATTGAGCTGGCGCAGTACGGCACCTCTAACGTGGGACGCCTGAAAACGCTGTATCGCGAGGGGCTGAAGAACCGCTACGGCGCGCTGATGCAGACTATCTCCGGCGTGCACTATAACTTCTCGCTGCCGATGACGTTCTGGCAGGCGAAGTGCGGTGTGGAAGACGCTGAAAGCGGGAAAGAGGCCATTTCGGCAGGCTATTTCCGCACGATTCGTAACTACTATCGCTTTGGCTGGGTGATTCCGTATCTGTTCGGCGCCTCGCCGGCGATTTGCTCTTCATTCCTGCAAGGAAAGCCGACGTCGCTGCCCTTTGAGGAGACGGGCAACGGCATGTACTACCTGCCGTACGCCACCTCGCTGCGCCTCAGCGACCTCGGTTATACCAATAAGTCGCAAAGCAATCTCGGAATTACGTTTAACGATCTGCACGAGTATGTGGCAGGATTGAAGCGCGCGATTAAAACGCCGTCGGAAGAGTACGCCAAAATCGGGCTGGAAAAAGACGGTAAGTATCTGCAGATCAATAGCAATATCCTGCAGATTGAAAACGAACTCTATGCGCCGATCCGCCCGAAACGCGTCACCCGTCGGGGCGAAACCCCGTCCGATGCGCTGCTGCGCGGCGGCATTGAGTACATTGAAGTGCGTTCGCTGGATATCAACCCGTTCTCGCCGATCGGCGTTGACGCCCAGCAGGTGCGTTTCCTCGATCTGTTTATGGTTTGGTGCGCGCTGGCCGACGCGCCGGAGATGAGCAGCGATGAGCTGCTGTGCACCCGCACTAACTGGAATCGGGTGATTCTGGAAGGCCGTAAGCCGGGCTTAACGTTGGGCATCGGCTGCGAAAGCGCGCAGTTCCCGCTGGCGCAGGTAGGTAAAGATCTGTTCCGCGATTTACGCCGCGTGGCGCAGACGCTGGATAGCATTCACGGCGGCGAGGCCTATCAACAGGTCTGCGATGAGCTGCTGGCCTGTTTTGACGATCCGGAATTAACCTTCTCAGCCCGCATTCTGCGTTCTATGATTGAAGAAGGGATTGGCGGAACCGGCCGTGCGCTGGCCGATCGTTACCGGACCCAGCTGCGTGAAGAGCCGCTGGAGATCCTGAGCGAAGAAGATTTCATCGCCGAGCGCGACGCGTCGGTGGCGCGACAGAAGAAAGTAGAAGCGGAAGACAGCGAGCCGTTTGAGGCGCTGTTGGCGCGGCACGCGTAG	MIPDVSQALAWLEKHPQALQGIQRGLERETLRVNADGTLATTGHPLALGSALTHKWITTDFAEALLEFITPVDGDIEHMLTFMRDVHRYTARQLGDERMWPLSMPCYIAPGQDIELAQYGTSNVGRLKTLYREGLKNRYGALMQTISGVHYNFSLPMTFWQAKCGVEDAESGKEAISAGYFRTIRNYYRFGWVIPYLFGASPAICSSFLQGKPTSLPFEETGNGMYYLPYATSLRLSDLGYTNKSQSNLGITFNDLHEYVAGLKRAIKTPSEEYAKIGLEKDGKYLQINSNILQIENELYAPIRPKRVTRRGETPSDALLRGGIEYIEVRSLDINPFSPIGVDAQQVRFLDLFMVWCALADAPEMSSDELLCTRTNWNRVILEGRKPGLTLGIGCESAQFPLAQVGKDLFRDLRRVAQTLDSIHGGEAYQQVCDELLACFDDPELTFSARILRSMIEEGIGGTGRALADRYRTQLREEPLEILSEEDFIAERDASVARQKKVEAEDSEPFEALLARHA	PGPT0013035_1249	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013035-gshA|ybdK-K01919	NA	NA
BMS020_01548	429	yqaA	COG1238	Inner membrane protein YqaA	GTGAGCGACGCGCTGTCACTCCTCTCGCTGTTTGCCAGTAGCTTTTTAAGCGCCACGCTGCTTCCCGGCAATTCGGAGGTTGTGCTGGTTGCGATGCTTCTTACGGGGGTTAGTCATCCGTGGTGGTTAGTATTAATAGCAACAATCGGCAATAGCCTTGGAGGGGTAACTAACGTTATTCTGGGGCGCCTGTTTCCGCTGCGTAAAACCTCGCGCTGGCAGGAGCGGGCGGCCGGCTGGCTTAAGCGCTACGGCGCGGTGACGCTGTTGCTAAGCTGGGCGCCGGTTGTCGGCGATTTACTGTGTTTGCTGGCGGGATGGATGCGCATTTCCTGGGGACCGGTACTCTTTTTCTTATGCCTTGGAAAGGCGCTGCGCTATATCGTCATTGCGGCAGCGACGCTTCAGGGCATGACGTGGTGGCACTAA	MSDALSLLSLFASSFLSATLLPGNSEVVLVAMLLTGVSHPWWLVLIATIGNSLGGVTNVILGRLFPLRKTSRWQERAAGWLKRYGAVTLLLSWAPVVGDLLCLLAGWMRISWGPVLFFLCLGKALRYIVIAAATLQGMTWWH				NA	NA	NA	NA	NA
BMS020_01549	567	yqaB	COG0637	Fructose-1-phosphate phosphatase YqaB	ATGTACGAAGGTTACGCAGGACTGATCTTTGATATGGATGGCACCATCCTCGATACGGAGCCGACCCACCGTCAGGCATGGAACGAGGTGCTGGGCCGCTACGGTATGCGTTTCGACGAACAGGCGATGGTCGCCCTCAATGGCTCACCGACCTGGCGGATTGCCCAGGCGATTATTGAACTCAACCAGGCGGATCTCGATCCACATCGCCTGGCGCAGGAAAAAACCCTGGCCGTTAAGGCGATGCTGCTGGATAGCGTACGCCCATTGCCGCTGATCGAGGTGGTCAAAGCGTGGCACGGCCGTCGCCCGATGTCGGTCGGCACCGGTAGTGAAAGCGCCGTCGCCGAAGCGCTGCTGGCGCACCTGGGCCTGCGTCATTACTTCTCCGCGGTGGTGGCGGCCGATGATGTGGTCAACCATAAACCCGCGCCCGATACCTTCCTGCTGTGCGCCGAGCGCATGGGCGTCGCGCCGGAAAAATGCGTGGTCTTCGAAGATGCCGACTTTGGTCTGCAGGCGGCGAAGCGCGCGGGAATGGACGCTGTAGACGTGCGTTTGCTGTGA	MYEGYAGLIFDMDGTILDTEPTHRQAWNEVLGRYGMRFDEQAMVALNGSPTWRIAQAIIELNQADLDPHRLAQEKTLAVKAMLLDSVRPLPLIEVVKAWHGRRPMSVGTGSESAVAEALLAHLGLRHYFSAVVAADDVVNHKPAPDTFLLCAERMGVAPEKCVVFEDADFGLQAAKRAGMDAVDVRLL				NA	NA	NA	NA	NA
BMS020_01550	315	osmY_1	COG2823	Osmotically-inducible protein Y	ATGAAATGGTTCAAAGCAATACCTGCTTTTTGCGCGACGCTGCTGGTGGCGACGGTCCTCGCTGGCTGTGCCGGTTCGTCCACCAAAGAAAGTACCGGCGGTTACATTGACGATACCGTGGTGACCACTAAGGTGAAAACGGCGCTCTTTAACGATAAAGACATCAAGTCCTCTGAAATCAGCGTCCAGACCTTTAAAGGCCGCGTCCAGCTGAGCGGATTTGTCTCCTCCGCGGAAAGCGCTAAACGGGCGGTGGAAGTCACCCGTCGGGTGCAGGGTGTGCGAATGGTCGAAAACGATCTGCGTATTAAATAA	MKWFKAIPAFCATLLVATVLAGCAGSSTKESTGGYIDDTVVTTKVKTALFNDKDIKSSEISVQTFKGRVQLSGFVSSAESAKRAVEVTRRVQGVRMVENDLRIK	PGPT0013305_1644	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013305-osmY-K04065	NA	NA
BMS020_01555	186	csrA_1	COG1551	Carbon storage regulator	ATGCTGATTCTGACTCGTCGAGTTGGTGAGACCCTCATGATTGGAGATGAGGTCACTGTGACAGTTTTAGGGGTGAAGGGTAACCAGGTTCGTATTGGCGTAAACGCCCCTAAAGAAGTATCTGTTCACCGTGAAGAGATCTACCAGCGTATTCAGGCTGAAAAATCCCAGCAGTCCAGTTACTAA	MLILTRRVGETLMIGDEVTVTVLGVKGNQVRIGVNAPKEVSVHREEIYQRIQAEKSQQSSY	PGPT0015065_1649	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
BMS020_01556	2628	alaS_1	COG0013	Alanine--tRNA ligase	ATGAGCAAGAGCACCGCTGAGATCCGTCAGGCGTTTCTCGACTTTTTCCATAGCAAGGGACATCAGGTAGTTGCCAGCAGCTCCCTGGTGCCGCACAACGATCCGACCCTGCTGTTTACCAACGCAGGGATGAACCAGTTCAAGGATGTCTTCCTTGGTCTCGACAAACGTAATTATTCGCGTGCGACCACCGCGCAGCGTTGCGTGCGTGCGGGTGGTAAACACAACGATCTGGAAAACGTCGGTTACACCGCGCGTCACCACACCTTCTTTGAAATGCTGGGCAACTTTAGCTTCGGCGACTACTTCAAGCAGGATGCCATCAAATACGCGTGGGAACTGCTGACCGGTGAGAACTGGTTCGCGCTGCCGAAAGAGAAGCTGTGGGTCACCGTTTACGAGACCGATGACGAAGCATTCGACATCTGGGCCAATGAAGTAGGCGTCCCGCGCGAGCGAATCATCCGCATCGGCGACAACAAAGGCGCGCCGTTTGCTTCAGACAACTTCTGGCAGATGGGCGACACCGGTCCGTGCGGCCCGTGCACCGAAATCTTCTTTGACCACGGCGATCACATCTGGGGCGGCCCTCCGGGAAGCCCGGAAGAAGACGGCGACCGCTACATTGAGATCTGGAACATCGTCTTCATGCAGTTCAACCGTCAGGCTGACGGCACCATGGAGCCGCTGCCGAAGCCGTCCGTCGACACCGGTATGGGCCTGGAGCGTATTGCCGCGGTGCTGCAGCACGTTAACTCCAACTATGACATCGACCTGTTCCGCGATCTGATCGCCAGCGTGGCGAAAGTCACCGGCGCCACCGATCTGACGAACAAGTCGCTGCGCGTAATCGCCGACCACATTCGCTCCTGCGCCTTCCTGATCGCTGACGGCGTTATCCCGTCGAATGAAAACCGCGGCTACGTGCTGCGTCGCATCATTCGCCGCGCGATCCGTCACGGCAACATGCTGGGCGCGAAGGACACCTTCTTCTGGAAACTGGTTGCCCCGCTGATTGCCGTGATGGGCTCCGCCGGCGAAGAGCTGAAGCAGCAGCAGGCTCAGGTTGAGCAGGTGCTGAAAACCGAAGAAGAGCAGTTCGCCCGCACTCTGGAGCGCGGACTGGCGCTGCTGGATGAAGAGCTGTCGAAGCTGAAAGGCGACACCCTGGATGGCGAAACCGCCTTCCGTCTGTACGACACCTACGGCTTCCCGGTCGACCTGACCGCGGACGTCTGCCGCGAGCGCAACATCAAGGTTGACGAAGCCGGCTTTGAGGCCGCCATGGAAGAGCAGCGCCGCCGCGCGCGCGAGTCCAGCGGTTTCGGCGCGGACTACAACGCGATGATCCGCGTTGACGGCGCCTCTGAATTTAAAGGTTACGATCGTCTGGAGCTGAACGGCAAAGTGACGGCGCTGTTTATCGACGGCAAAGCGGCGGATAGCGTCAGCGCGGGTCAGGAAGCCGTGGTGATCCTCGACCAGACCCCATTCTATGCGGAGTCCGGCGGCCAGGTGGGCGATAAAGGCGAACTGAAAGGCGCGGGCTTCTCCTTCGCGGTCAGCGACACGCAGAAGTACGGCCAGGCCATTGGTCATATCGGTAAAGTCGCCAGCGGCTCCCTGAAAGTGGGCGACGCGGTGCAGGCCGATGTGGACGAGGCTCGCCGTCAGCGTATCCGTCTGAACCACTCCGCGACGCACCTGATGCACGCGGCGCTGCGCCAGGTGCTCGGCACCCATGTGGCGCAGAAAGGCTCGCTGGTCAACGATAAAGCGCTGCGCTTTGACTTCTCGCATTTCGAAGCGATGAAGCCGGAAGAGATTCGTGCAGTGGAAGATCTGGTCAACGCGCAGATCCGTCGTAACCTGGCTATCGAAACCAACATTATGGATATCGATGCCGCGCGCGCATCCGGCGCCATGGCGCTGTTCGGCGAGAAATACGATGACCGCGTCCGCGTGCTGCAGATGGGCGACTTCTCCACCGAACTGTGCGGCGGGACTCACGCGGCGCGTACCGGTGATATCGGCCTGTTCCGCATCACGTCTGAGTCCGGTACCGCCGCTGGCGTGCGCCGTATCGAAGCGGTGACCGGTGAGGGCGCGATAGCCATGCTGCACGCGCAGAGCGATCAGCTCAGCGATATCGCACAGCTGCTGAAGGGCGACAGCCACAATCTCGGCGAGAAAGTTCGCGCCGCGCTGGAGCGTACCCGTCAGCTGGAAAAAGAGCTGCAGCAGCTGAAAGAGCAGGCTGCGGCGCAGGAGAGCGCAAACCTCTCCAGCAAAGCGGAAGAGATTAACGGCGTTAAGCTGCTGGTCAGCGAACTGGCCGGCGTGGAGCCGAAGATGCTGCGTACCATGGTTGACGACCTGAAGAACCAGCTGGGTTCGACGGTTGTGGTGTTGGCTACGGTCGCAGACGGTAAAGTTTCCCTGATTGCCGGTGTGTCTAAGGATGTGACAGATCGCGTGAAGGCTGGGGAGCTGGTTGGTATGGTCGCTCAGCAGGTGGGCGGTAAAGGGGGCGGTCGTCCGGATATGGCGCAGGCCGGTGGTACCGATGCGTCTGCTCTCCCTGCAGCGTTAGCCAGTGTGAAAGGCTGGGTCAGCGCAAAACTGTAA	MSKSTAEIRQAFLDFFHSKGHQVVASSSLVPHNDPTLLFTNAGMNQFKDVFLGLDKRNYSRATTAQRCVRAGGKHNDLENVGYTARHHTFFEMLGNFSFGDYFKQDAIKYAWELLTGENWFALPKEKLWVTVYETDDEAFDIWANEVGVPRERIIRIGDNKGAPFASDNFWQMGDTGPCGPCTEIFFDHGDHIWGGPPGSPEEDGDRYIEIWNIVFMQFNRQADGTMEPLPKPSVDTGMGLERIAAVLQHVNSNYDIDLFRDLIASVAKVTGATDLTNKSLRVIADHIRSCAFLIADGVIPSNENRGYVLRRIIRRAIRHGNMLGAKDTFFWKLVAPLIAVMGSAGEELKQQQAQVEQVLKTEEEQFARTLERGLALLDEELSKLKGDTLDGETAFRLYDTYGFPVDLTADVCRERNIKVDEAGFEAAMEEQRRRARESSGFGADYNAMIRVDGASEFKGYDRLELNGKVTALFIDGKAADSVSAGQEAVVILDQTPFYAESGGQVGDKGELKGAGFSFAVSDTQKYGQAIGHIGKVASGSLKVGDAVQADVDEARRQRIRLNHSATHLMHAALRQVLGTHVAQKGSLVNDKALRFDFSHFEAMKPEEIRAVEDLVNAQIRRNLAIETNIMDIDAARASGAMALFGEKYDDRVRVLQMGDFSTELCGGTHAARTGDIGLFRITSESGTAAGVRRIEAVTGEGAIAMLHAQSDQLSDIAQLLKGDSHNLGEKVRAALERTRQLEKELQQLKEQAAAQESANLSSKAEEINGVKLLVSELAGVEPKMLRTMVDDLKNQLGSTVVVLATVADGKVSLIAGVSKDVTDRVKAGELVGMVAQQVGGKGGGRPDMAQAGGTDASALPAALASVKGWVSAKL				NA	NA	NA	NA	NA
BMS020_01557	501	recX_1	COG2137	Regulatory protein RecX	GTGACTGAACCTTCATCACGCCGATCCGGCTATGCTCGTCTGCTGGACCGCGCTATCCGTATCCTGGCGATGCGCGACCACAGCGAACAGGAGCTGCGGCGCAAACTGGCCGCTCCGGTGATGAGCAAAAACGGCCCCGAGGCGCTGGACGTCACCCCTGAAGAGCTGGAGCAGGTGGTGGCCTGGTGTATCGAAAACCGCTATCTCGACGATAATCGTTTTGTCGGCCAGTTCATCGCCAGCCGGAGCCGCAAAGGCTATGGCCCCGCGCGCATTCGTCAGGAGCTCAGCCAGAAAGGCATTGCGCGCCAGGCCGTTGAACAGGCGATGCGCGAATGCGATATCGACTGGGTGAGCCTTGCCAGGGCGCAGACGCAGCGTAAATACGGTGAACCGTTACCATCCGCCTTTACTGAAAAAGTGAAAATCCAGCGATTCCTGCTGTACCGTGGCTACCTGATGGAAGATATCCAGGAAATCTGGCGAAATTTTGCAGATTGA	MTEPSSRRSGYARLLDRAIRILAMRDHSEQELRRKLAAPVMSKNGPEALDVTPEELEQVVAWCIENRYLDDNRFVGQFIASRSRKGYGPARIRQELSQKGIARQAVEQAMRECDIDWVSLARAQTQRKYGEPLPSAFTEKVKIQRFLLYRGYLMEDIQEIWRNFAD	PGPT0007240_2379	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007240-recX-K03565	NA	NA
BMS020_01558	1059	recA_1	COG0468	Protein RecA	ATGGCGATCGACGAAAACAAACAGAAAGCGTTGGCGGCTGCACTGGGCCAGATCGAAAAGCAATTCGGTAAAGGCTCCATCATGCGCCTGGGTGAAGACCGTTCTATGGACGTAGAAACCATCTCCACCGGCTCGCTTTCTCTGGATATCGCGCTGGGCGCCGGCGGTCTGCCAATGGGCCGTATCGTCGAGATCTACGGGCCGGAATCCTCCGGTAAAACCACCCTGACGCTGCAGGTTATCGCCGCAGCGCAGCGCGAAGGTAAAACCTGTGCGTTCATCGATGCGGAACACGCGCTGGATCCGGTCTATGCGCGCAAACTGGGCGTGGATATCGACAACCTGCTGTGTTCTCAGCCGGATACCGGCGAGCAGGCGCTGGAAATCTGTGACGCGCTGGCGCGCTCCGGCGCGGTTGACGTTATCGTCGTCGACTCCGTCGCGGCGCTGACGCCGAAAGCGGAAATCGAAGGCGAAATCGGCGACTCTCACATGGGCCTCGCGGCGCGTATGATGAGCCAGGCGATGCGTAAACTGGCGGGTAACCTGAAGCAGTCCAACACGCTGCTGATCTTTATCAACCAGATCCGTATGAAAATCGGCGTGATGTTCGGTAACCCGGAAACCACCACCGGCGGTAACGCGCTGAAGTTCTACGCCTCCGTGCGTCTGGATATCCGTCGCATCGGCGCGGTGAAAGAGGGCGATAACGTCGTCGGCAGCGAAACCCGCGTCAAAGTAGTGAAGAACAAGATTGCGGCGCCGTTCAAACAGGCTGAATTCCAGATCCTCTACGGCGAAGGCATCAACTTCTTCGGCGAGCTGGTTGACCTCGGCGTGAAAGAGAAGCTGATTGAGAAAGCGGGCGCCTGGTACAGCTACAACGGCGACAAAATTGGTCAGGGTAAAGCGAACGCTATCACCTGGCTGAAAGAGAACCCGGCGGCGGCGAAAGAGATTGAGAAGAAAGTGCGAGAACTGCTGCTCAACAACCAGGACTCTACGCCGGACTTCGCCGTTGACGGCAACGACGCAGAAGAAACGGAACAAGATTTCTGA	MAIDENKQKALAAALGQIEKQFGKGSIMRLGEDRSMDVETISTGSLSLDIALGAGGLPMGRIVEIYGPESSGKTTLTLQVIAAAQREGKTCAFIDAEHALDPVYARKLGVDIDNLLCSQPDTGEQALEICDALARSGAVDVIVVDSVAALTPKAEIEGEIGDSHMGLAARMMSQAMRKLAGNLKQSNTLLIFINQIRMKIGVMFGNPETTTGGNALKFYASVRLDIRRIGAVKEGDNVVGSETRVKVVKNKIAAPFKQAEFQILYGEGINFFGELVDLGVKEKLIEKAGAWYSYNGDKIGQGKANAITWLKENPAAAKEIEKKVRELLLNNQDSTPDFAVDGNDAEETEQDF	PGPT0007235_2726	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0007235-recA-K03553	NA	NA
BMS020_01559	498	pncC_3	COG1546	Nicotinamide-nucleotide amidohydrolase PncC	ATGACCGATTCAGAATTAATGCAGCTAAGCGAGAAGGTCGGCCGGGCGCTGAAGGCGCAGGGCGCGACGGTGACCACGGCGGAATCCTGCACCGGCGGCTGGATAGCGAAAGCCATCACCGATATTGCCGGCAGCTCAGCGTGGTTTGAACGCGGTTTTGTGACCTACAGCAATGAGGCCAAATCGCAAATGATCGGCGTCAGCGAAGCGACGCTGCGGGACAACGGCGCGGTGAGCGAACCGGTGGTGGTGGAGATGGCGATCGGCGCGTTGCGCGCCGCGCGCGCGGACTATGCCATCTCGGTAAGCGGCGTCGCCGGGCCGGATGGCGGCAGCGACGAAAAGCCGGTCGGGACGGTGTGGTTTGGCGTCGCCAGCGTCAGCGGGCAAGGGGTGACGCGGCGGGAATGCTTTGCCGGAGACCGCGAAGCGGTGCGTCGTCAGGCGACGGCCTACGCGCTCAATCTGCTCTGGCAACAATTTCTACAAAAGACTTGA	MTDSELMQLSEKVGRALKAQGATVTTAESCTGGWIAKAITDIAGSSAWFERGFVTYSNEAKSQMIGVSEATLRDNGAVSEPVVVEMAIGALRAARADYAISVSGVAGPDGGSDEKPVGTVWFGVASVSGQGVTRRECFAGDREAVRRQATAYALNLLWQQFLQKT	PGPT0013460_1838	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013460-pncC2-K03743	NA	NA
BMS020_01560	879	mntA	COG0803	Manganese-binding lipoprotein MntA	ATGAAACGTAGTGCAATAGTGGTCGCGCTGGCCTTCGGCCTGATGGCGCAGGGGGCGATGGCGAAAACGCTGAATGTGGTAAGCAGTTTTTCGGTGCTGGGTGATATGGTGCAGCAGGTCGGCGGGGAGCATGTTCATGTGGACACCCTGGTCGGCCCGGATGGCGATCCGCACACCTTCGAGCCGTCGCCGAAGGACAGCGCGCTGCTCAGCAAGGCCGACGTGGTGGTGGTTAACGGTCTGGGACTGGAAGGGTGGCTGGATCGCCTGATTAAGGCCTCTGGTTTTAAGGGCGAGCTGGTGGTGGCGTCGAAGGGCGTCAAGACCCATACCCTCGATGAAGATGGCAAAACGGTGACCGATCCCCACGCCTGGAACAGCGCGGCGAACGGCGCGTTGTATGCGCAGAATATCCTCGATGGACTGGTGAAAGCCGACCCGGAAGATCAAGCGGCGCTGACGAACAGCGGCAAGCGTTATATCGAGCAACTGACGGCCCTCGACGGCTGGGCGAAAGGGCAGTTCAGCGCCATTCCGCAGGCAAAGCGCAAAGTTCTCACCAGCCATGACGCCTTCGGCTATTTTGGCCGCGCTTATCACGTGACCTTCCTCGCGCCGCAGGGGCTCTCTTCAGAGAGCGAGGCCAGCGCGGCGCAGGTGGCGGCGCTGATTAAGCAAATCAACGCGGACGGCGTCCATACCTGGTTTATGGAGAACCAGCTTGACCCGCGACTGGTGAAGCAGATCGCCAGCGGCACCGGCGCGCAGCCCGGCGGAGAACTCTATCCTGAGGCGCTCTCCGCCCCGGGTGGCGTCGCGGATAGCTATGTCAAAATGATGCGTCATAATGTGGCGCTGATCGCCGCCAGCATGAAGTAA	MKRSAIVVALAFGLMAQGAMAKTLNVVSSFSVLGDMVQQVGGEHVHVDTLVGPDGDPHTFEPSPKDSALLSKADVVVVNGLGLEGWLDRLIKASGFKGELVVASKGVKTHTLDEDGKTVTDPHAWNSAANGALYAQNILDGLVKADPEDQAALTNSGKRYIEQLTALDGWAKGQFSAIPQAKRKVLTSHDAFGYFGRAYHVTFLAPQGLSSESEASAAQVAALIKQINADGVHTWFMENQLDPRLVKQIASGTGAQPGGELYPEALSAPGGVADSYVKMMRHNVALIAASMK	PGPT0004275_1845	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MANGANESE_TRANSPORT,PGPT0004275-ABC_ZM_S-K02077	NA	NA
BMS020_01561	864	mntB_1		Manganese transport system membrane protein MntB	ATGATCTGGCACACCTTCTTTCAGCCTTTTATTGAATTCGGCTTTATGCGCCGGGCGCTGGTGGTCTGTCTGGCGCTGTCGCTAAGCACCACCATGCTGGGCGTCTTCCTGCTGCTGCGGCGCATGAGCCTGATGGGCGACGCGCTGTCGCACGCCATTCTCCCCGGCGTGGCGGTGGGCTATCTGCTGAGCGGCATGTCGCTGCTGGCCATGACCCTGGGCGGCTTTGTCGCCGGCATCGCGGTCGCGCTGGTGGCGGGATGGGTGAGCCGGCGGACGCCGTTAAAAGAGGACGCCAGCTTTGCCGGATTTTATCTGGGATCGCTGGCGCTGGGCGTCACCCTGGTGTCGCTGCGCGGCTCCAGCGTCGACCTGCTGCATCTGCTGTTTGGCTCCATTCTGGCGGTGGACCGTGACGCGGCGCTGTTTGTCAGCGGCGTCGCCAGCCTGACGCTGCTGTGCATCGCGCTGTGCTACCGCGGTCTGGTCAGCGAGGCGTTCGACAGCGCCTGGCTGCAGGTGAACCACCGCCGGCTGCCCGCGCTGCTGCATGGGCTTTTTCTGGCGCTGCTGGTGCTTAACCTGGTGGCGGGGTTTCAGGTGCTCGGCACGCTGATGGCGGTAGGGGTGATGATGCTGCCGGCGGTCGCCGCGCGCTGCTGGGCGCGAACGCTGCCGGGCATCCTGCTGCTGGCGGCGCTCTCCGGCGCGCTCTGCGCCTGGCTGGGTTTGAGTCTCTCCTGGGCGGCCAGTCTTCCCGCCGGGCCCGCCATCGTGCTGACCGCCAGCGCGCTGTTTTTTATTTCGCTGTTTTTTGGCACGCGCAGCCGACTGCTGGTCGGCTGGCGCAAATTGATGGGGTAA	MIWHTFFQPFIEFGFMRRALVVCLALSLSTTMLGVFLLLRRMSLMGDALSHAILPGVAVGYLLSGMSLLAMTLGGFVAGIAVALVAGWVSRRTPLKEDASFAGFYLGSLALGVTLVSLRGSSVDLLHLLFGSILAVDRDAALFVSGVASLTLLCIALCYRGLVSEAFDSAWLQVNHRRLPALLHGLFLALLVLNLVAGFQVLGTLMAVGVMMLPAVAARCWARTLPGILLLAALSGALCAWLGLSLSWAASLPAGPAIVLTASALFFISLFFGTRSRLLVGWRKLMG	PGPT0004270_794	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MANGANESE_TRANSPORT,PGPT0004270-ABC_ZM_P-K02075	NA	NA
BMS020_01562	678	mntB_2	COG1121	Manganese transport system ATP-binding protein MntB	ATGATTGAACTGGAACAACTGGTAACCGGCTATGGCGGGGTGGCGATCACCCCGCCGCTGAGCGGGATGATATGCCCCGGCAGCCTGACGGCAATCGTTGGCCTCAATGGCTGCGGAAAATCGACCCTGCTGAAAACCCTCGCCGGGTTTCTTCCGCCGGTCAGTGGCTGTCTGCGCTGGCAGGGAAAGCGGCCGGTGATTGGCTGGCTGGCGCAGCGCCATGCCCTCGAGTCGCAGTTTCCTCTCAACGTGCAGGATGTGGTGAGTCAGGGCGCATGGCCCGGCGTGTCGCTGCTGCGCGGTCTGGGCGGCGATACCCGGCGACGCATCGGCGCGGCGCTGGCGCGGGTCGGGCTGGCGAGCCTGGCGAAAACCCCGATCGAAGCGCTCTCCGGCGGCCAGTTTCAGCGCATGCTGTTTGCCCGGGTGCTGGTGCAGCAGGCGCCGCTGGTGATGCTCGACGAGCCCTTCACCGGCATTGATGAAGCGACCAGTCGCGAACTGATGGATTTGATCCTCGACATGCACCGGCAGGGGCAGACCATCCTGGCGGTGCTGCATGATAACCAGCGGGTAGCCGACTTTTTCCCGGAGACGCTGCTGCTGACCCCCCGGCGCGCCTGCTGGGGCGCCACCCGGGCGGTTCTCCCGGCCTTCAGCCAGGCGAGGTCGGCATGA	MIELEQLVTGYGGVAITPPLSGMICPGSLTAIVGLNGCGKSTLLKTLAGFLPPVSGCLRWQGKRPVIGWLAQRHALESQFPLNVQDVVSQGAWPGVSLLRGLGGDTRRRIGAALARVGLASLAKTPIEALSGGQFQRMLFARVLVQQAPLVMLDEPFTGIDEATSRELMDLILDMHRQGQTILAVLHDNQRVADFFPETLLLTPRRACWGATRAVLPAFSQARSA	PGPT0004265_1381	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MANGANESE_TRANSPORT,PGPT0004265-ABC_ZM_A-K02074	NA	NA
BMS020_01563	108			hypothetical protein	ATGTTCACATCGGTTTTTATGGCATCCGGCGTGGCGCGCCTGGCCATCGCGGGAACGCTGCTGGCGGCGCTATGGCTGGCGACCTGGTGGGCGGTGACGCTGCCATGA	MFTSVFMASGVARLAIAGTLLAALWLATWWAVTLP				NA	NA	NA	NA	NA
BMS020_01564	990	mltB	COG2951	Membrane-bound lytic murein transglycosylase B	ATGGCGAGTGGAACCGGCGGCTTTTTGCTGGAACCGCAGCATAACGTGATGCAGATGGGCGGCGACTTCGCCAACAACCCGGCAGCGGCGCAGTTCATCGATAAGATGGTGGCGAAGCACGGCTTCGACAGGCAGCAGCTGCAGGAGATCCTGTCGCAGGCGAAGCGTCTGGACTACGTTCTGCGGCTGATGGATCGTCAGGCGCCGACCGGCCTGCCGCCGACCGGGCCGACCGGCGCCTGGCTGCGCTACAAGAAACAGTTTATTACCCCCGATAACGTGCAGAACGGCGTGGTGTTCTGGAATCAGTATCAGGACGCGCTCAACCGCGCTTATCAGGTCTACGGCGTACCGCCGGAAATCATTGTCGGCATTATCGGCGTGGAGACCCGTTGGGGCCGGGTGATGGGCAAAACCCGCATCCTCGACGCGCTGGCGACTCTGTCGTTTAACTATCCGCGCCGTGCAGAATACTTCTCCTCCGAGCTGGAAACCTTCCTGCTGATGGCGCGCAGCGAAAGCGACGACCCGCTGGATCTGAAAGGCTCTTTCGCCGGGGCGATGGGTTACGGCCAGTTTATGCCGTCCTCCTATAAGCAATACGCGGTGGACTTTAACGGCGACGGCCATATCAACCTGTGGGACCCGGTGGATGCGATCGGCAGCGTGGCCAACTACTTCAAACAGCACGGCTGGGTGAGCGGCGATCTGGTGGCGGTGCAGGCGCTGGGCCAGGCGCCGGGGCTGGAGAATGGTTTCAAAACCAAATACAGCGTTTCGCAGCTGTCGGCGGCGGGATTAACCCCGACCCAGCCGCTGGGCAACCATCAGCAGGCCAGCCTGCTGCGCCTCGACGTCGGCACCGGCTATGAGTACTGGTACGGGTTGCCGAACTTCTACACCATCACCCGCTACAACCACAGCACCCACTACGCCATGGCCGTCTGGCAGCTTGGCCTGGCGGTTTCTCAGGCCCGCGGCGGTTATTAA	MASGTGGFLLEPQHNVMQMGGDFANNPAAAQFIDKMVAKHGFDRQQLQEILSQAKRLDYVLRLMDRQAPTGLPPTGPTGAWLRYKKQFITPDNVQNGVVFWNQYQDALNRAYQVYGVPPEIIVGIIGVETRWGRVMGKTRILDALATLSFNYPRRAEYFSSELETFLLMARSESDDPLDLKGSFAGAMGYGQFMPSSYKQYAVDFNGDGHINLWDPVDAIGSVANYFKQHGWVSGDLVAVQALGQAPGLENGFKTKYSVSQLSAAGLTPTQPLGNHQQASLLRLDVGTGYEYWYGLPNFYTITRYNHSTHYAMAVWQLGLAVSQARGGY	PGPT0023785_1546	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023785-mltB-K08305	NA	NA
BMS020_01565	564	srlA	COG3730	PTS system glucitol/sorbitol-specific EIIC component	ATGATTGACGTCGTGACCCACGGCGCAGAGTGGTTTATCGGCCTGTTTCAGAAAGGCGGCGAGGTATTTACCGGAATGGTGACCGGGATCCTCCCCTTGCTGATCAGTCTGCTGGTGATCATGAACGCGCTGATCAACTTTATCGGCCAGCAGCGGATCGAAAAACTGGCGCAGCGCTGCGCCGGGAACCCGATCTCCCGCTACCTGCTGTTGCCCTGCATCGGCACCTTTGTGTTTTGTAACCCGATGACCCTGAGCCTGGGCCGCTTTATGCCAGAGAAGTACAAGCCCAGCTATTACGCGGCGGCGTCCTACAGCTGCCACTCGATGAACGGCCTGTTTCCGCATATCAACCCCGGCGAGCTGTTCGTCTATCTCGGCATCGCCAACGGCCTCACCACCCTCGGCCTGCCGCTTGGGCCGCTGGCGGTGAGCTATCTGCTGGTCGGGCTGGTGACCAACTTCTTCCGCGGCTGGGTCACCGACCTGACCACCTCGATTTTCGAACGAAAAATGGCGATTCAGCTGGCTCAGAAAGTGCATCTGTCAGGAGCGACATCATGA	MIDVVTHGAEWFIGLFQKGGEVFTGMVTGILPLLISLLVIMNALINFIGQQRIEKLAQRCAGNPISRYLLLPCIGTFVFCNPMTLSLGRFMPEKYKPSYYAAASYSCHSMNGLFPHINPGELFVYLGIANGLTTLGLPLGPLAVSYLLVGLVTNFFRGWVTDLTTSIFERKMAIQLAQKVHLSGATS	PGPT0017075_84	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_SORBITOL_PTS_SYSTEM,PGPT0017075-srlA-K02783	NA	NA
BMS020_01566	981	srlE	COG3732	PTS system glucitol/sorbitol-specific EIIB component	ATGACCCGGATTCGTATTGAGAAAGGTACCGGCGGCTGGGGCGGCCCCCTTGAGCTCGACGTCGTCGAGGGCAAAAAGATCGTCTATATCACCGCCGGCACCCGCCCGGCGATCGTTGACCGCATCGCCAGCCTGACCGGCTGGCAGGCGGTGGACGGTTTTAAAGAGGGCGAACCGGCGGAAAGCGACATCGGCGTGGCGATTATCGACTGCGGAGGCACCCTGCGCTGCGGGCTCTACCCCAAGCGTCGCATCCCGACGGTGAATATCCATGCCACCGGCAAATCGGGGCCGCTGGCCCAGTACATCACAGAAGATATCTACGTCTCCGGCGTCAAAGAGGAGAACATTCAGCGCATCGCGACCGACAGCGCGGTAGCTCCCGAGCCGCCGGCGGAGAACAACCGCGCGGGTCGCGATTACGACGCCAGCAAAAAGATCACTGAACAGAGCGATGGCCTGCTGGCGAAGGTCGGGATGGGGATGGGCTCGGTGGTGGCGGTGCTGTTCCAGGCCGGGCGCGACACCATCGATACGGTGCTGAAGACCATCCTGCCGTTTATGGCCTTCGTCTCGGCGCTGATCGGCATCATCATGGCCTCCGGCATCGGCGACTGGATCGCCCATGGCCTGGCGCCGCTGGCCAGCCATCCGCTGGGTCTGGTGACCCTGGCGCTGATCTGCTCCTTCCCGCTACTGTCGCCGTTTCTCGGCCCCGGCGCGGTTATCGCCCAGGTGATTGGCGTACTGATCGGCGTTCAGATCGGCCTCGGCAATATTCCCCCGCACCTCGCCCTGCCGGCGCTGTTCGCCATTAACGCCCAGGCCGCCTGCGATTTTATCCCGGTAGGCCTGTCGCTGGCTGAAGCCCGCCAGGATACCGTGCGCGTCGGCGTGCCGTCGGTGCTGGTCAGCCGCTTCCTGACCGGCGCGCCAACGGTGCTGATCGCGTGGTTCGTTTCCGGATTTATTTACCAGTAA	MTRIRIEKGTGGWGGPLELDVVEGKKIVYITAGTRPAIVDRIASLTGWQAVDGFKEGEPAESDIGVAIIDCGGTLRCGLYPKRRIPTVNIHATGKSGPLAQYITEDIYVSGVKEENIQRIATDSAVAPEPPAENNRAGRDYDASKKITEQSDGLLAKVGMGMGSVVAVLFQAGRDTIDTVLKTILPFMAFVSALIGIIMASGIGDWIAHGLAPLASHPLGLVTLALICSFPLLSPFLGPGAVIAQVIGVLIGVQIGLGNIPPHLALPALFAINAQAACDFIPVGLSLAEARQDTVRVGVPSVLVSRFLTGAPTVLIAWFVSGFIYQ	PGPT0017085_336	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_SORBITOL_PTS_SYSTEM,PGPT0017085-srlE-K02782	NA	NA
BMS020_01567	363	srlB	COG3731	PTS system glucitol/sorbitol-specific EIIA component	ATGACCGTGATTTACCAGACCACCATTACGCACATCGGCGCCTGCGCGACGATGGCGCTGGAAGAGCAGATGCTGATCACCTTCCGCGAGGGCGCCCCGGCGGATATCGAAGCGTACTGCTTTATTCACAACCACGGCGAGCTTGCCGGCGCGCTGCAGCCGGGCGCAGAGCTGCAGCTTGGCGAGCTGCGCTACCCGGTGACCGCCGTCGGCGAGGTCGCCGAACAGAACCTGCGCGAGCTGGGCCATATCACGCTGCGCTTTGATGGTCACCGCGAAGCGGAATTCCCCGGAACCGTGCACGTCGCGGGCCCGGTGCCGGAAGGCATCGCCACCGGCTGCGTACTGAAATTTGTTGCTTAA	MTVIYQTTITHIGACATMALEEQMLITFREGAPADIEAYCFIHNHGELAGALQPGAELQLGELRYPVTAVGEVAEQNLRELGHITLRFDGHREAEFPGTVHVAGPVPEGIATGCVLKFVA	PGPT0017080_413	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_SORBITOL_PTS_SYSTEM,PGPT0017080-srlB-K02781	NA	NA
BMS020_01568	780	srlD	COG1028	Sorbitol-6-phosphate 2-dehydrogenase	ATGAATCAGGTTGCTGTTGTCATTGGCGGTGGACAAACCTTAGGAGAGTTTCTGTGCCGCGGGCTGGCCGCCGAGGGCTACCGCGTGGCGGTGGTCGATATTCAGAGCGAAAAAGCCAGCCGCGTCGCCCAGGAGATTAACGCTGAATATGGCGAAGGCATGGCGTATGGCTTCGGCGCCGACGCCACCAGCGAGGCCAGCGTCACCGCGCTGGCCCACGGAGTGGATGAGATTTTCTCGCGTGTCGATCTGCTGGTGTACAGCGCCGGCATCGCTAAAGCGGCGTTTATTAGCGAATTTGCGCTGGGGGATTTCGACCGCTCGCTGCAGGTCAATCTGGTGGGCTACTTCCTCTGCGCCCGCGAGTTTTCCCGGCTGATGATCCGCGACGGCATTAAGGGACGCATCATTCAGATCAACTCGAAATCCGGCAAAGTGGGCAGCAAGCACAACTCCGGCTACAGCGCGGCGAAGTTCGGCGGCGTCGGCCTGACCCAGTCGCTGGCGCTGGATCTGGCGGAGTACGGCATTACCGTACACTCACTGATGCTCGGCAATCTGCTGAAGTCGCCGATGTTCCAGTCGCTGCTGCCGCAGTACGCCACCAAGCTCGGTATCGATGAGAGCGAGGTCGAGCAGTACTACATCGACAAGGTGCCCCTGAAGCGCGGTTGCGAATATCAGGATGTGCTGAACGTCCTGATGTTTTACGCCAGCCCGCAGGCGTCGTACTGCACCGGTCAGTCGATCAACGTTACCGGCGGCCAGGTGATGTTTTAA	MNQVAVVIGGGQTLGEFLCRGLAAEGYRVAVVDIQSEKASRVAQEINAEYGEGMAYGFGADATSEASVTALAHGVDEIFSRVDLLVYSAGIAKAAFISEFALGDFDRSLQVNLVGYFLCAREFSRLMIRDGIKGRIIQINSKSGKVGSKHNSGYSAAKFGGVGLTQSLALDLAEYGITVHSLMLGNLLKSPMFQSLLPQYATKLGIDESEVEQYYIDKVPLKRGCEYQDVLNVLMFYASPQASYCTGQSINVTGGQVMF	PGPT0018425_346	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_SORBITOL_DEGRADATION,PGPT0018425-slrD-K00068	NA	NA
BMS020_01569	360			hypothetical protein	ATGGTTACCGCACTCATCACCATCGCCGCCATCGCCTGGCTTACCCAACTGGCCTTCGGCGGCTGGCAGATCCGCCGCTTCAATCGCGCCTTCGACAGCCTGTGCCAGCAGGGTCGGGTGGGGGTCGGCCGCTCCGCCGGGCGCTTTCAACCGCGCGCCATCGTCGCTATCGCCGTTGATGATGACAACCGCATTTGCGACACGCTGCTGATGAAAGGCTTCACCATTTTCGCCCGACCGCAAAAAATCCCCGCGCTAGATGGCAAACATATCGGGGAATTGCAGCCTGATGTGATCTTTCCCCATGATCCGCGCTGTCAGAATGCACTATCATTAGCGCTTAATCCGAAACATGGATAA	MVTALITIAAIAWLTQLAFGGWQIRRFNRAFDSLCQQGRVGVGRSAGRFQPRAIVAIAVDDDNRICDTLLMKGFTIFARPQKIPALDGKHIGELQPDVIFPHDPRCQNALSLALNPKHG				NA	NA	NA	NA	NA
BMS020_01570	774	srlR_1	COG1349	Glucitol operon repressor	ATGAAACCACGTCAGCGCCAGGCAGCCATTCTCGAGTTCCTGCAGTCGCAGGGAAAATGCTCGGTCGAAGAGCTGGCGCAACACTTCGATACTACCGGCACCACCATCCGCAAGGATCTGGTCACGCTGGAAAACGCCGGCACCGTCATTCGCACCTACGGTGGCGTGGTACTCAACAAAGATGAAGCCGATCCGCCGATCGATCATAAAACGCTGATCAACACCCATAAGAAAGCGCGCATCGCCGAAGCGGCGGTGCGCTTTATTCATGATGGCGACTCCCTCATCCTTGATGCCGGCAGCACGGTGCTGCAGATGGTCCCACTGCTCAGCCGCTTCAATAACATCACGGTGATGACCAACAGCCTGCATATCGTCAACGCCCTTGCCGAACTGGATAATGAACAGACTATCCTGATGCCCGGCGGCACCTTCCGCAAAAAATCGGCCTCCTTTCACGGCCAGCTGGCGGAAAACGCCTTCGAACAGTTCAGTTTCGACAAGCTGTTTATGGGCACCGACGGCATCGATCTGAACGCCGGCGTCACCACCTTCAATGAGGTGTATACCGTCAGCAAGGCGATGTGCAACGCCGCCCGCGAAGTGATCCTGATGGCCGACTCGTCAAAGTTTGGCCGTAAAAGCCCCAATATCGTCTGCGGCCTGGAGCGCGTGGATAAATTGATTACCGATGCCGATATTGACCCTGCATTCCAGCGGGCGCTGGAAGCCAAAGGCATAGAAGTCATCATTACTGGAGAACATCATGAGTAA	MKPRQRQAAILEFLQSQGKCSVEELAQHFDTTGTTIRKDLVTLENAGTVIRTYGGVVLNKDEADPPIDHKTLINTHKKARIAEAAVRFIHDGDSLILDAGSTVLQMVPLLSRFNNITVMTNSLHIVNALAELDNEQTILMPGGTFRKKSASFHGQLAENAFEQFSFDKLFMGTDGIDLNAGVTTFNEVYTVSKAMCNAAREVILMADSSKFGRKSPNIVCGLERVDKLITDADIDPAFQRALEAKGIEVIITGEHHE	PGPT0017955_691	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TAGATOSE_DEGRADATION,PGPT0017955-agaR-K02081	NA	NA
BMS020_01571	966	gutQ	COG0517	Arabinose 5-phosphate isomerase GutQ	ATGAGTAACTTTTTGTTAGAGGCCGGACGCCAGACCCTGATGCTGGAGCTACAGGAGGCGAGCCGCCTGCCGGAACGCCTGGGCGACGACTTCATCCGCGCGGCGGAAACCATCATCCACTGCGAGGGCAAACTGATTGTCTCCGGTATCGGTAAATCCGGTCATATCGGCAAAAAGCTGGCGGCGACTTTCGCCAGCACCGGCACTCCGGCCTTTTTTGTCCATCCGGCGGAAGCGCTGCACGGCGATCTTGGCATGCTCGACGGCCGCGACGTGATGCTGTTTATCTCCTACTCCGGCAGCGCGAAAGAGCTGGATCTGATCGTGCCGCGGCTGGAGGAAAAAGGTATCCCGCTGCTGGCGATGACCGGCAAATCCACCTCGCCGCTGGCGCTGGCGGCGAAAGCGGTGCTGGATATCGCCGTCGAGCGAGAGGCCTGTCCGATGCACCTGGCGCCGACCTCCAGCACCGTCAACACCCTGATGCTTGGCGATGCGCTGGCGATGGCGGTCATGCAGGCCCGCGGCTTCAATGAAGAGGATTTTGCCCGCTCCCACCCGGCAGGGGCGCTCGGCGCGCGTCTGCTGAACAAAGTGCATCACCTGATGCGCCGCGACGACGAAGTGCCGCGCGTCGGCACGGACGCCAACGTCATGAACGCGATGCTCGAGCTAAGCCGCACCGGGCTCGGCCTGGTGGCGGTCTGCGATGAGGCCAACCGCGTGCAGGGGGTCTTCACCGACGGCGACCTGCGCCGCTGGCTGGTGGGCGGCGGCACCTTAAACGACGGCGTCGCGCAGGCGATGACCCGCAACGGCGTGACGCTACAGGCGGAGAGCCGCGCGGTGGAAGCCAAAGAGCGGCTGATGAAGCACAAAATCAGCGCCGCGCCGGTAGTCGATGAAAACGGCCAACTGGTCGGCGCCATCAACCTGCAGAACTTTTACCAGGCCGGGATCCTTTAA	MSNFLLEAGRQTLMLELQEASRLPERLGDDFIRAAETIIHCEGKLIVSGIGKSGHIGKKLAATFASTGTPAFFVHPAEALHGDLGMLDGRDVMLFISYSGSAKELDLIVPRLEEKGIPLLAMTGKSTSPLALAAKAVLDIAVEREACPMHLAPTSSTVNTLMLGDALAMAVMQARGFNEEDFARSHPAGALGARLLNKVHHLMRRDDEVPRVGTDANVMNAMLELSRTGLGLVAVCDEANRVQGVFTDGDLRRWLVGGGTLNDGVAQAMTRNGVTLQAESRAVEAKERLMKHKISAAPVVDENGQLVGAINLQNFYQAGIL	PGPT0017500_62	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017500-gutQ-K02467	NA	NA
BMS020_01572	1551	norR_1	COG3604	Anaerobic nitric oxide reductase transcription regulator NorR	ATGAGTTTTTCCGTCGAGGCGCTGGCGAGAATCGCCATTGATTTACAAAGCGATATCGGCCACGTCGACCGCTTTTCGCGCCTGATCGCCACCCTGCGGCAGATCCTTGGCTGCGACGCCTCGGCGCTGCTGCGCTATGAGGCCCATCAGTTTGTGCCGCTGGCGATCGATGGTCTGGCGCAGGATGTGCTTGGCCGGCGCTTTGCACTGGATGGGCATCCGCGGCTGGAGGCGATCGCCCGCGCCGGCGATGTGGTGCGCTTCCCGGCGGACAGCGACCTGCCGGACCCCTATGACGGCCTGATCCCCGGCCAGGAGAGCCTCAAGGTTCACGCCTGCGTGGGGTTGCCGCTGTTTGCCGGGCAAACGCTGATCGGCGCGCTAACTCTTGACGGCATGGATGCCGACCGCTTCGACAGCTTCAGCGATGAAGAGCTGCGACTGATTGCCGCGCTGGTGGCCGGGGCGCTGAATAACGCGCTGCTTATCGCCCGCCTTGAAGCGCAAAACGTCCTGCCCGCGCAGGTGGTGAATTACCCGCAGCCGGAGCGTCAGGAGATCATCGGCCTGTCGGCGCCGATGCTGCAGCTGAAAAAAGAGATCGAGATTGTCGCCGCCTCGGATTTGAACGTGCTGATCAGCGGCGAAACGGGGACCGGTAAGGAGCTGGTGGCGAAGGCGGTGCATCAGGGATCGCCGCGTGCGGCTAACCCGCTGGTGTACCTCAACTGCGCGGCGCTGCCGGAGAGCGTGGCGGAGAGCGAGCTGTTCGGTCACGTGAAAGGGGCGTTTACCGGGGCTATCAGCAATCGCAGCGGCAAATTTGAGATGGCCGATAACGGCACGCTGTTCCTCGACGAAATCGGCGAGCTGTCGCTGGCGCTGCAGGCGAAGCTGCTGCGCGTCCTGCAGTATGGCGATATTCAGCGTGTCGGCGATGACCGCAGCCTGCGGGTCGATGTGCGGGTGCTGGCGGCCACCAACCGCGACCTGCGCCAGGAGGTGGTGGAAGGGCGCTTTCGCGCCGACCTCTATCACCGGCTGAGCGTCTTCCCGCTGTCGGTTCCGGCGCTGCGCGAGCGGGAAAATGACGTGGTGCTGCTGGCTGGCTATTTTTGCGAGCAGTGCCGCCTGCGGATGGGGCTGGCGCGGGTAATTTTAAGTGAGGCAACGCGAAACAGGCTGCAGCAGTGGTCGTGGCCGGGCAACGTGCGCGAACTGGAGCATGCCATTCACCGCGCGGTGGTGCTGGCGCGGGCTACTCAGGCTGGCGATGACATAGTACTGGAGCCGCAGCATTTCGAGTTTACGGCGACTGCGCCGACGTTGCCGACCGAGGCGGCGGCAGCGGCGCCGGCAATGGGCAACGTGAATCTGCGCGAAGCCACGGATAATTTCCAGCGCGAGGCGATTGCCCGCGCGCTGGCGGCACATCAGGGCAACTGGGCGGCGACCGCCCGCGCGCTGGAACTCGACGTCGCCAACCTGCACCGGCTGGCGAAACGTCTGGGGCTTAAAGGATCCCGGCCTGGTAAAAGTTCTGCAGGTTGA	MSFSVEALARIAIDLQSDIGHVDRFSRLIATLRQILGCDASALLRYEAHQFVPLAIDGLAQDVLGRRFALDGHPRLEAIARAGDVVRFPADSDLPDPYDGLIPGQESLKVHACVGLPLFAGQTLIGALTLDGMDADRFDSFSDEELRLIAALVAGALNNALLIARLEAQNVLPAQVVNYPQPERQEIIGLSAPMLQLKKEIEIVAASDLNVLISGETGTGKELVAKAVHQGSPRAANPLVYLNCAALPESVAESELFGHVKGAFTGAISNRSGKFEMADNGTLFLDEIGELSLALQAKLLRVLQYGDIQRVGDDRSLRVDVRVLAATNRDLRQEVVEGRFRADLYHRLSVFPLSVPALRERENDVVLLAGYFCEQCRLRMGLARVILSEATRNRLQQWSWPGNVRELEHAIHRAVVLARATQAGDDIVLEPQHFEFTATAPTLPTEAAAAAPAMGNVNLREATDNFQREAIARALAAHQGNWAATARALELDVANLHRLAKRLGLKGSRPGKSSAG	PGPT0000375_320	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000375-norR-K12266	NA	NA
BMS020_01573	1449	norV	COG0426	Anaerobic nitric oxide reductase flavorubredoxin	ATGTCTATTGTGGTGAAAAATAACATTCTTTGGGTTGGCCAACGTGACTGGGAAGTGCGTGATTTCCACGGCACCGAATATAAAACGCTGCGCGGCAGCAGCTATAACAGCTATCTCATCCGCGAAGAGAAAAACGTGCTGATCGATACCGTCGATCATAAATTCAGCCGCGAGTTCGTGCAGAATCTGCGCCGCGAAATCGACCTCGCCGACCTCGACTACATCGTTATTAACCACGCCGAAGAGGACCACGCCGGCGCGTTGACTGAGCTGATGATGCAGATCCCGGATACGCCGATCTACTGCACCGCCAACGCCATCGACTCCATCAACGGCCACCACCACCACCCGGAGTGGAACTTCCACGTGGTGAAAACGGGCGACACCCTCGATATCGGCAATGGTAAGCAGCTGATCTTCGTGGAAACGCCAATGCTGCACTGGCCGGACAGCATGATGACTTACCTGACCGGCGACGCGGTGCTGTTCAGCAATGACGCCTTCGGCCAGCACTACTGCGACGAACATCTGTTCAACGATGAAGTGGACCAGACTGAACTGTACGAACAGTGCCAGCGCTACTACGCCAACATCCTGACGCCCTTCAGCCGCCTGGTGACGCCGAAAATTAACGAAATTCTCGGCTTCAACCTGCCGGTAGCGATGATTGCCACCTCCCACGGCGTGGTCTGGCGCGATAACCCGACGCAAATCGTCGAGAAATACCTCGAATGGGCGGCGGATTATCAGGAAGATCGCATCACGATTTTCTACGACACCATGTCCAACAACACCCGCATGATGGCGGACGCCATTGCCCAGGGGATCACCGAGGTCGACCCACGGGTGGCGGTGAAAATCTTTAACGTCGCCCGCAGCGACAAAAACGACATTCTGACCAACGTTTTCCGCTCAAAAGGCGTGCTGGTGGGCACCTCCACCATGAACAACGTCATGATGCCGAAAATTGCCGGGCTGGTGGAAGAGATGACCGGGCTGCGTTTTCGCAACAAACGCGCCAGCGCCTTTGGCTCCCACGGCTGGAGCGGCGGCGCGGTAGACCGCCTGTCCACCCGCCTGCAGGATGCCGGGTTTGAAATGTCCCTGAGTCTGAAGGCCAAATGGCGCCCGGATATCGACGCGCTCGAACTGTGCCGCCAACATGGGCGCGACATCGCCCGCCAGTGGGCGCTCGCTCCACTGCCGGTTGCTGAAGCGACAGTCACGCCGGAACAACAGGAGTGCGCCTGTGCCGCCGCCGCGGCCGCCGATCTCGGTCCCATGATGCAGTGCAGCGTCTGCCAGTGGGTGTATGACCCGGCGAAAGGCGAACCTAACCAGGATGTGCAGCCGGGTACGCCGTGGAGCGACGTGCCGGATAACTTCCTCTGCCCTGAATGTTCGCTGGGTAAAGATGTGTTTGATGTTCTGGCAACGGAGGCAAAATGA	MSIVVKNNILWVGQRDWEVRDFHGTEYKTLRGSSYNSYLIREEKNVLIDTVDHKFSREFVQNLRREIDLADLDYIVINHAEEDHAGALTELMMQIPDTPIYCTANAIDSINGHHHHPEWNFHVVKTGDTLDIGNGKQLIFVETPMLHWPDSMMTYLTGDAVLFSNDAFGQHYCDEHLFNDEVDQTELYEQCQRYYANILTPFSRLVTPKINEILGFNLPVAMIATSHGVVWRDNPTQIVEKYLEWAADYQEDRITIFYDTMSNNTRMMADAIAQGITEVDPRVAVKIFNVARSDKNDILTNVFRSKGVLVGTSTMNNVMMPKIAGLVEEMTGLRFRNKRASAFGSHGWSGGAVDRLSTRLQDAGFEMSLSLKAKWRPDIDALELCRQHGRDIARQWALAPLPVAEATVTPEQQECACAAAAAADLGPMMQCSVCQWVYDPAKGEPNQDVQPGTPWSDVPDNFLCPECSLGKDVFDVLATEAK	PGPT0000380_162	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000380-norV-K12264	NA	NA
BMS020_01574	1137	norW_2	COG1251	Nitric oxide reductase FlRd-NAD(+) reductase	ATGAGTGATGGCATCGTCATCATCGGCTCGGGCTTCGCGGCCCGCCAGCTGGTGAAAAATATTCGTAAGCAGGATGCCGAGATCCCGCTGACCCTCATCGCCGCCGACAGCATGGATGAGTATAACAAGCCCGATCTCAGCCACGTCATCAGCCGCGGACAGCACGCCGACGATCTGACTCTGCAAAGCGCCGGCGAGTTCGCCGAACAGTACCACCTGCGCTTGTTTCCCCATACCTGGGTGAGCGATATCGACGCTGAAAACCATCGGGTGAAAAGCCTGGATAAGCAGTGGCGCTACGACAAACTGGTGCTGGCCACCGGCGCCACGCCGTTTATCCCCCCGGTGCCGGGCCGCGAGCTGATGCTAACGCTGAACAGCCAGCGCGAATATGGCGCGGCGCAGAGCCAGCTCCGCGACGCCAGGCGGGTGCTGATCGTCGGCGGCGGCCTGATTGGCTGCGAGCTGGCGATGGATTTCTGTCGCGCCGGTAAAGCGGTAACGGTGGTCGATAATGCCGCCAGCGTGCTGGCGGCGCTGATGCCGCCGGAGGTCAGCAGCCGTCTGCAGCATCGCCTCACCGGGATGGGCGTCCATCTGATGTTAAAAACGCAGCTGGAAGGGCTTGAACACACCGCCGACGGCATCCGCGTCAGTCTCGACCGCCAGCGCGCGATAACCGTCGATGCGGTGGTGGCCGCCGCCGGCCTGCGCCCGGAAACCTCGCTGGCGCGCCACGCCGGACTGCAGATTAACCGCGGCGTGGTGGTCAATAGCCAGCTGCAAACCAGCGACCCGGCGATTTACGCCCTCGGCGACTGTGCGGAAATCAACGGTACGGTACTGCCGTTCCTGCAGCCGATTTTGCTCAGCGCCATGTGCCTGAGTAAAAACCTGCTGGCGCAGGCGGGCGAACTCAAGCTGCCGCCAATGCTGGTGAAGGTGAAGACCCCGGATCTGCCGCTGCATCTGGCCGGCGACACCCGCCGCGAGGATCTGACGTGGAACATCGTGGCCGCCAAAGAGGGGCTGGTGGCGAAAGGGCTGGATGAGGCGAATCAACTGCGCGCCTTTGTGGTCAGCGAAGACAAGATGAAAGACGCCTTCGCGCTGCTCAAACAGCTGGTGAGTGAATGA	MSDGIVIIGSGFAARQLVKNIRKQDAEIPLTLIAADSMDEYNKPDLSHVISRGQHADDLTLQSAGEFAEQYHLRLFPHTWVSDIDAENHRVKSLDKQWRYDKLVLATGATPFIPPVPGRELMLTLNSQREYGAAQSQLRDARRVLIVGGGLIGCELAMDFCRAGKAVTVVDNAASVLAALMPPEVSSRLQHRLTGMGVHLMLKTQLEGLEHTADGIRVSLDRQRAITVDAVVAAAGLRPETSLARHAGLQINRGVVVNSQLQTSDPAIYALGDCAEINGTVLPFLQPILLSAMCLSKNLLAQAGELKLPPMLVKVKTPDLPLHLAGDTRREDLTWNIVAAKEGLVAKGLDEANQLRAFVVSEDKMKDAFALLKQLVSE	PGPT0000385_141	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITRIC_OXIDE_REDUCTION,PGPT0000385-norW-K12265	NA	NA
BMS020_01575	930		COG0111	Hydroxypyruvate reductase	ATGAGTGCTAAAAACGTGGTACTGATTACCGGCAGCGATTTGGCTGACGCGGCGCTGGGGATGCTGGAAGATTACGAACTTGTCTTTGCCGGCCGCCAGCCTACAGAGGCCCAGTTGATCGCTCTGTGCCAGCAGCACAATCCCGTCGCGATCCTGGTGCGCTATGGCCACATCACTGCCGCCGTTATGGATGCCGCCCCGGCATTGAAGGTGATTGCCAAACATGGCAGCGGCATTGATGTCATTGACGCCGAGGCGGCTGCCGCGCGCGGCATTCTGGTTCGCGCAGCGATCGGGGCGAATGCCGCCGCGGTGTCCGAACATACCTGGGCGTTAATTTTGGCCTGTGCTAAGTCGGTCATTCCGCTCGACCGCCGCCTGCGTGAAGGGCACTGGGATAAATCCACGCATAAATCGCTTGAGCTTGAGGGCAGAACGCTGGGACTCATCGGCCTGGGCGCCATTGGCAGCCGGGTGGCGAAGATTGCCTGTGCCTTTGGTATGAAGGTTCTGGCTTACGATCCCTATGCGAAAGCGGTCCCGCCGGGATGTGAACGTGTTGCTGAACTTAACGATCTGCTCAGGCAGGCCGATGTGCTGTCCCTTCATTGCCCCTTGACGCAACAAAACAGGGGAATGATCAATGCCGCCACGCTGGCGCAGTGTAAGCCGGGCGCCATCCTGGTCAATACCGCGCGCGGCGGGTTGATTGACGATGCGGCGCTGGCCGCGGCATTAAAAGCGGGGACCTTGCGCTGGGCGGCGCTCGACAGCTTTAACAGTGAACCATTAACCACGCCCCACATCTGGCAGGCGATCGATAATGTGATTCTGTCTCCGCATGTGGGCGGCGTAAGCGATGCCTCTTACGTGAAAATGGGGACCGCTGCCGCGGCCAATATTCTGCAGGCGCTGCAGGAGTCGGCTTAG	MSAKNVVLITGSDLADAALGMLEDYELVFAGRQPTEAQLIALCQQHNPVAILVRYGHITAAVMDAAPALKVIAKHGSGIDVIDAEAAAARGILVRAAIGANAAAVSEHTWALILACAKSVIPLDRRLREGHWDKSTHKSLELEGRTLGLIGLGAIGSRVAKIACAFGMKVLAYDPYAKAVPPGCERVAELNDLLRQADVLSLHCPLTQQNRGMINAATLAQCKPGAILVNTARGGLIDDAALAAALKAGTLRWAALDSFNSEPLTTPHIWQAIDNVILSPHVGGVSDASYVKMGTAAAANILQALQESA	PGPT0009155_7028	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
BMS020_01576	696	ligK_1	COG0684	4-carboxy-4-hydroxy-2-oxoadipate aldolase	ATGCCTGCTTCGCAACAGAAACTCATCAATTTTGCTATTGCGCGTGTTACCGCGGAAGAAGTCCGTCAGGCCGCCGAATTTCAGGCCGCCATTCTGGCTGACGTGGCCGGACGCCGTGGCACATTACATGGCCGCATCAAGCCGCTGGCGCCGCATATGGCGGTCGCCGGGCCGGCGATTACCGTCGAGGTTCGCCCGGGGGATAACCTGGCTATTCACGCCGCAATGGCCGTCGCTAAACCTGGCGATGTATTAGTGATCGACGGGAAAGGCGATCTCTCCTGCGCGCTGCTGGGGGAGATCATGGCCACGCAGGCGCAGGCCAGCGGTATCGCCGGGATCGTTATCGATGGCGCCGTTCGCGATGCGGAGACCTTAAGCAAACAACGCTTTCCGGTGTTCGCTGCCGGCCTGAACCCGTGCGGCCCGACCAAGTTCATTCCAGGCCGGGTCAATCATGCCATTTCGGTCGGCGGCGCCGCGGTGCAGGCGGGGGACTTAGTGGTCGGGGATATTGACGGCGTGGTCGTTATCCCACGCGAGGAAGTCCGCACCATCATCGAACTGGCGAAAGGCAAACTGGAGATGGAAGCAAAACGTCTGGTTGCTATCCGCGATGGCGATCTACGTCCGCACTGGCTGGAGGGCGCCCTGCGTCAGGCGGGGATGCTGAGCGAAGGGGAGACGCTGCCATGA	MPASQQKLINFAIARVTAEEVRQAAEFQAAILADVAGRRGTLHGRIKPLAPHMAVAGPAITVEVRPGDNLAIHAAMAVAKPGDVLVIDGKGDLSCALLGEIMATQAQASGIAGIVIDGAVRDAETLSKQRFPVFAAGLNPCGPTKFIPGRVNHAISVGGAAVQAGDLVVGDIDGVVVIPREEVRTIIELAKGKLEMEAKRLVAIRDGDLRPHWLEGALRQAGMLSEGETLP	PGPT0002085_284	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0002085-ligK|galC-K10218	NA	NA
BMS020_01577	717	kipR	COG1414	HTH-type transcriptional regulator KipR	ATGGGGAATGAAGGCGTAATTGCCGTTGAAAAGGCGCTGGCTTTACTTGATTGCTTCCGTCCCGGTAATGACAGTCTGACGTTAACGGAGCTGGCCCAGCTTTCGGGATATCACAAAACAACCGTTTATCGCCTGATGAATTCGCTTGAGCGAATGAACTACATCATCCGGCACGACGATGGCACCTATACGCTCGGCCACCGTCTGCTCTATCTTGGCAAGCTCTATGAGCAATCATTTGAACTTGCCAGAGTGGTACAACCGGAATTGCAGGCGCTGTCACAGGCCTCCAGCGAAAGCGCAAGCTGGTATGTGATTGAGGGGGGGCAACGCCTGTGTCTGTTCCGCGCCGAAGCCTCCCAGGGATTGCGCCACAGCAACCTGCCTGGCAGCCAGTTCCCGCTGGATGGTTCCGCTATCAGTAAGGTTTTACGCCGCTGGGGATTGGGTGAATCGTTGCCGGAAGACGAACCGACGCTGCCGTTCTATACCTCCGGCGCGCGCGACCCGCACACCGCGGCCTTCGCCATGCCAGTGTTTGGCGTCCACGATAAACTGATCGCGGCGCTGGCCCTGACCGGGCCGGCATCGCGTCTGACGGAAGATCGTAAAGCGAGCGGCATCAGCCAGCTCATGCAGGAGACGGCCAACCGCCTGTCGCTCAAGCTAGGCGCCAGCAAGACATTCTGCGAAACGTTTTACGGTGTGAAAGAGTAA	MGNEGVIAVEKALALLDCFRPGNDSLTLTELAQLSGYHKTTVYRLMNSLERMNYIIRHDDGTYTLGHRLLYLGKLYEQSFELARVVQPELQALSQASSESASWYVIEGGQRLCLFRAEASQGLRHSNLPGSQFPLDGSAISKVLRRWGLGESLPEDEPTLPFYTSGARDPHTAAFAMPVFGVHDKLIAALALTGPASRLTEDRKASGISQLMQETANRLSLKLGASKTFCETFYGVKE				NA	NA	NA	NA	NA
BMS020_01578	1335	ttuB_1		Putative tartrate transporter	ATGACCGATCAATTACCGCACCGCGCGAGCGATAACGACGCGCTGGAAAAAGAAACCATGCGACGGGTTATCTGGCGCATCCTGCCTTTCCTGGTGGTGAGCTACCTGGTATCGATTATTGACCGCGGCAACATAGGCATGGCGGCGCTGCAGATGAATCAGGATCTCGGCCTGAGTAAGGCAGCTTTCGGCTTCGCCAGCAGCTTGTATTTTGTGGCCTACTTTATCTTTGAAGTACCCAGCAACCTGGCGATGCAGAAGGTGGGGGCACGATTGTGGATCCCGCGCATTATGATCAGCTGGGGAGTGGTATCGATGTGTATGGCGCTGGTGCAAAATACCACCTCCCTTTACATCGTACGCTTTTTGCTGGGGGCTGCCGAAGCGGGCTTTTTCCCGGGCGTGGTGCTCTATCTTACCTGGTGGATCCCGTCGCGCTACCGGGCGCGGATCATCGCCTCGTTTATGGTGGCCATTCCGCTGGCTAACTTTATCGGCTCCCCGCTTTCCGGGTTGATACTGATGATGGATGGGTGGTTAGGCCTGCGCGGCTGGCATCTGTTATTCATTATTGAAGGGCTGCCGGCGGTCCTGCTGGGGATAGCCGCGTTTTTCATCTTGCGGGACCGTCCACATCAGGCTGGCTGGTTAAACGATCGTCAGAAAGCATGGCTGGAAAACACGCTTCAGGCGGAGCGCCAACAGCAGAAACAGATCGGCCACACCTCCACCTGGCAACTGTTGAAGCATCGTCAAATCTGGCTCATGGCGCTGATTTACGCCGGCGCCTCCTCTGCCGGCACGACCCTTAGCGTCTGGTCTCCCCAGCTGCTGAAGTCGTTCCATCTGGATAACCTGACCACCGGGCTGCTTAATGCCATCCCCTATGGTCTGGCCTCGGTGCTGATGATTGTCTGGGGGCGCAGTTCGGATCGAAGTAATGAACGCCGCTGGCACACGGCGCTCACCCTCTTTATGATCGCGGGCGGCGTGTTTGCGGCGTTTATCAATCTGTCGCTGCCGGCCACCATTGCGATCCTCAGCACCATTCTGATTGGCGCTTATGCGATGAAGGGGCCCTTCTGGGCGCTGGCGTCGGGCTGGATGAGCAGCACCTCAGCCGCCGCCGGGCTGGCGGCCATCGGGGCGATCGCCAACCTGATTGGCGGCGCGGTGATGGTGAATGCCTACGGCATGATTAGCGAACGGACAGGAAGCCATACGCTGGCGATGCTCCCGCTGGCAGGCTTGTGTCTGGCAGGCGGCATTGCGGTGCTGGCCATGGGGCGTCGTTACTCGCAGACGGCCAGGCAGGAAAAACAGATGACCCATTAA	MTDQLPHRASDNDALEKETMRRVIWRILPFLVVSYLVSIIDRGNIGMAALQMNQDLGLSKAAFGFASSLYFVAYFIFEVPSNLAMQKVGARLWIPRIMISWGVVSMCMALVQNTTSLYIVRFLLGAAEAGFFPGVVLYLTWWIPSRYRARIIASFMVAIPLANFIGSPLSGLILMMDGWLGLRGWHLLFIIEGLPAVLLGIAAFFILRDRPHQAGWLNDRQKAWLENTLQAERQQQKQIGHTSTWQLLKHRQIWLMALIYAGASSAGTTLSVWSPQLLKSFHLDNLTTGLLNAIPYGLASVLMIVWGRSSDRSNERRWHTALTLFMIAGGVFAAFINLSLPATIAILSTILIGAYAMKGPFWALASGWMSSTSAAAGLAAIGAIANLIGGAVMVNAYGMISERTGSHTLAMLPLAGLCLAGGIAVLAMGRRYSQTARQEKQMTH	PGPT0002325_244	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-ORGANIC_ACID_METABOLISM	P-SOLUBILISATION-TARTARIC_ACID_TRANSPORT,PGPT0002325-ttuB-K13021	NA	NA
BMS020_01579	1269	naiP		Putative niacin/nicotinamide transporter NaiP	ATGACCAGTAAAAGCGAGCTAAATCAATTTACTGCGACTAAAGCGACGCCTGACGCATTGCCACAACGCGTCGCTGAGAGGCGGACGCTGGCGCTGGGCGGCCTTGGCTGGACATTTGAAAGCTACGACTCCTTTCTCCTTTCATTGCTGTTGCCAGTGCTGGGCGTGGTGTTCGGTATTAATAAAACCGAGCTTGGGCTGTTTATCAGCGTCACGGCCGGGGGGCAGATTATTGGCGGGATCCTGTTTGGTTTTATCGCCGACAAAATTGGGCGTGTGAAAACGGCGCTGATCTGTATCGCCATCTATTCACTCTTTTCCGGCCTGTTAGCCTTTACGCACGATCAACAACATTTCGCGCTTTTACGTTTTTGCGGCGCGCTGGGTATGGGCGGAATGTGGACCTCGGGCGCGGCGCTGATTGCTGAAACCTGGCGACCTGAACGGCGCGCGCGCGGCGGCGCGTTGATGCAAATGGGCTTACCTGTTGGCGCGATTCTGGCTATCAGCCTGACGGCAATCGTCAGCTCGGTCAACGGCGGCCTGGAGCAGGGTGCATGGCGCTATCTGTTTATGATCGGCGCGCTGCCGGTATTCATTATGAGTGTGGTCGCCTGGTTCACACCGGAATCGCAGGTTTGGCTTGCTCGTCAACAGGCGAAGGCGACGAGTCGTCAACCTGCCGTCAAGCTGGGTAAACAGAATCTGCGAGGTCTGTTATTGGCCTTTGTCTTTATCTTTTTTATTCAGTATCTGTTCTGGGGCGTATTTACCTGGACACCCACCTATCTGCGGGAAGTCAAACATCTGGATTTTTTGCACAGCCTGAAGTTTGTACTTGCGCTGCAGGCTGGGGCCATCGCGGGTTTTCTGGTGTTTTCGGTGCTGGCGGATAAGTGGGGACGCCGTCCGATGTTCCTGATTTATCTGTTAACCGGCGCCATTGCCGTCGCGCTGTACCTTGTGACCACGCAACCCTTCATTCTGATGGTGGCGATTTTCATGGCCGGTTTCGGGGTTAACGGTATTTTTGCGGGCTCGGGACCCTTCCTGGCGGAAATCATCGGGGACACCTCATCCCGGGGCTTCCTGATGGGGCTCGCCTATAACGGAGGCCGTCTGGGCGGATTTATTGCGCCGCTACTGATTGGCGCTGTCGCCAACGCTGGCGGTTTCACCGCGGGACTGGCGACAACCGTGGTTGCTTTCCTTGCGGCGATGCTGGTGGTGTGGCGAGCGCCGGAAACCAGAGGCATCAAGCTGAAGTAA	MTSKSELNQFTATKATPDALPQRVAERRTLALGGLGWTFESYDSFLLSLLLPVLGVVFGINKTELGLFISVTAGGQIIGGILFGFIADKIGRVKTALICIAIYSLFSGLLAFTHDQQHFALLRFCGALGMGGMWTSGAALIAETWRPERRARGGALMQMGLPVGAILAISLTAIVSSVNGGLEQGAWRYLFMIGALPVFIMSVVAWFTPESQVWLARQQAKATSRQPAVKLGKQNLRGLLLAFVFIFFIQYLFWGVFTWTPTYLREVKHLDFLHSLKFVLALQAGAIAGFLVFSVLADKWGRRPMFLIYLLTGAIAVALYLVTTQPFILMVAIFMAGFGVNGIFAGSGPFLAEIIGDTSSRGFLMGLAYNGGRLGGFIAPLLIGAVANAGGFTAGLATTVVAFLAAMLVVWRAPETRGIKLK				NA	NA	NA	NA	NA
BMS020_01580	1056			hypothetical protein	ATGGAGATCGTTACCGCGCCGCACCTTGCGGTCAGAAACGAGTGGCTTGCGTTACATCGTGAAGCGCCATTACAACCCGAGCTGCCCATCATTGATGCGCATCATCATCTTTGGGATCGGCAAACCGGCCGCTATCTCACCCATGAGTTCAGCGACGATATCCAGACCTCAGGGCATCGCGTTGTCTCATCGGTCTATGTGCAATGCCGCTCTATGTTGCGTCGCGACGGGCCGGAGACGCTTAAACCGCTTGGTGAAATCGAGTTTGCCAGCGGTATCGCCGCGATGTTCGCCAGCGGACATTATGCAAACGCGCTCGGATGCGAAGCCATCATCGGCGGGCTCAGTTTACTGGCGGGGGACGCGATGCAGCCTGCCATTGAGCGCGCGATAGCGTTATCCGGCGGACGGCTGCGTGGGATGCGCAATCCGTTGGCCTGGCATCCCGATCCGCGGGTTACCTCCAGCCCGGTTACGCCACCGGCAGGCCTGGCGCAGAGCGCTCCGTTCCGCCGGGGCGCTGCCTGTCTCGCGAGGCATGCATTGTCGCTCGATGTATGGGTTTACCACACGCAGCTGGAGGAGATTGCCGATCTGGCGCGGGAAATACCAACGTTACAGATTGTGATCGATCACTGCGGCGGGCCGGTCGGCGTTGGACCCTTTTCAGAACGGGATCCGGACATGTTTCAGCAGTGGCGAAACGGTATGCGACGTCTGGCGGAACTGCCGAACGTATGCGTAAAAATTAGCGGCTTTGGGATGACGGTCAGAGGGTTTCACTTCGCAGCGGCAGAGACGCCGCCGGATTCGCAAATGCTGGCACAGGCATGGATGCCGTGGTTTGAGACCATCGTTTCTCTTTTCGGTGCCGAACGCTGCATGTTCGCCAGCAACTTTCCCGTCGATAAAGGCATGTTCAGCTACGGCGTTTTCTGGAACGCCTGCAAACGCCTGGCGCAACAGGCGTCCCCTGACGAACAGGCGCAGTTGTTCTGGCGTACCGCCGCAACCTGTTATCGGTTAACCTCTGTGGAGAATATCAATGACCAGTAA	MEIVTAPHLAVRNEWLALHREAPLQPELPIIDAHHHLWDRQTGRYLTHEFSDDIQTSGHRVVSSVYVQCRSMLRRDGPETLKPLGEIEFASGIAAMFASGHYANALGCEAIIGGLSLLAGDAMQPAIERAIALSGGRLRGMRNPLAWHPDPRVTSSPVTPPAGLAQSAPFRRGAACLARHALSLDVWVYHTQLEEIADLAREIPTLQIVIDHCGGPVGVGPFSERDPDMFQQWRNGMRRLAELPNVCVKISGFGMTVRGFHFAAAETPPDSQMLAQAWMPWFETIVSLFGAERCMFASNFPVDKGMFSYGVFWNACKRLAQQASPDEQAQLFWRTAATCYRLTSVENINDQ				NA	NA	NA	NA	NA
BMS020_01581	1014	hoxN		High-affinity nickel transport protein	ATGATAATGACAGTTTTACGCCAGCAGCCGCGCGCTGCGGGACTGGTGCTGGGGTTGATCGCGGCGAACCTATTGGCCTGGAGCTGGGCGCTGCAGGCCTTTGGCGACAGCGGCGCGCTGATGGCCGCCAGCCTGCTGGCCTGGGGCTACGGTCTGCGCCACGCGGTGGACGCCGACCATATCGCGGCGATTGATAACGTCACCCGCAAGATGATGCAGCAGGGACGGCGGCCTTTCGCCGTCGGGGCCTGGTTCTCGCTGGGCCACTCGTCGATTGTGGTGCTGGCCTCGGCGGCGATTGCCGCGACCGCCACGGCATTCAGCGCGCAGATGAGCTGGCTGCACGACACCGGCAGCGTCATCGGCACCGCGGTGTCGGCGCTGTTTCTGCTGGCGATGGCCTTTATCAACCTGGTGATATTGCGCAGCGTCTGGCGCAGCTTTCGGGCGTGGAAGCGCGGTGAGCCGGTGAGCGACGAGATCGTCAGCGGCGGCGGGGTGATGAGCTGGCTGTTTGGCAAAACCTTTCGTCTGGTCAGCCGCAGCTGGCAGATGTACCTGGTCGGTTTCCTGTTCGGCCTCGGGTTTGATACCGCCACTGAAATCGGCGTGCTGGGCATCTCCGCCGCCGGCGCGTCGAGCGGGATTTCCGTCTGGTCGATTATGGTCTTCCCGGCGCTGTTCGCCAGCGGCATGGCGCTGGTGGACACCCTCGATAACGTGCTGATGGTCGGCGCCTACGGCTGGGCGTTCAGCAAGCCGCAGCGCAAGCTTTACTACAACATGACCATCACCGGCACTTCGGTGGTGGTGGCGCTGTTTATCGGCGGCCTGGAAGCGCTGGGTCTGCTGAGGGATAAGTTTGCGCTCAGCGGCGGAATATGGCGCTGGGTCGGGGTGTTAAACGACAACCTCGGCGACGCCGGGTTTGTGGTGGTCGGGCTGTTTGTCGCCTGTTGGGCGCTGTCGGTGCTCAACTATCGCTGGCGCGGCTACGATAATCTGGCGCGTTAG	MIMTVLRQQPRAAGLVLGLIAANLLAWSWALQAFGDSGALMAASLLAWGYGLRHAVDADHIAAIDNVTRKMMQQGRRPFAVGAWFSLGHSSIVVLASAAIAATATAFSAQMSWLHDTGSVIGTAVSALFLLAMAFINLVILRSVWRSFRAWKRGEPVSDEIVSGGGVMSWLFGKTFRLVSRSWQMYLVGFLFGLGFDTATEIGVLGISAAGASSGISVWSIMVFPALFASGMALVDTLDNVLMVGAYGWAFSKPQRKLYYNMTITGTSVVVALFIGGLEALGLLRDKFALSGGIWRWVGVLNDNLGDAGFVVVGLFVACWALSVLNYRWRGYDNLAR	PGPT0004545_744	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_NICKEL_RESISTANCE	NICKEL_RESISTANCE-NICKEL_TRANSPORT,PGPT0004545-hoxN|nixA-K07241	NA	NA
BMS020_01582	2235	hypF	COG0068	Carbamoyltransferase HypF	ATGAACGGGGTGCAAATCCGCATTCGCGGTAAAGTGCAGGGGGTGGGGTTCCGCCCCTTTGTCTGGCAGCTGGCTCAGGGGCAGGCGCGCTGCGGCGATGTCTGTAACGACGGCGACGGCGTGCTGGTGCGGCTGGCCGGGGACGATGATGGTTTTACTGCCGCCCTCGCTGCCCACTGCCCGCCGCTGGCGCGGATCGACAGCCTCGTCTGCGCCCCTTATCGCTGGGCGGCTCCGCCGCAGGATTTCACCATCCGCGAGAGCGGGGCGGGACGGATGCGCACCCAGATCGTGCCCGATGCCGCGACCTGCCCGGCGTGCCTCGCGGAGATGAATGATCCCCGGGCGCGCCGCTACCGCTACCCCTTTATCAACTGCACCCACTGCGGGCCGCGGTTAACCATTATTCGCGCGATGCCTTACGACCGGCCATTTACCGCGATGGCGCCGTTTCCGCTCTGTCCGCCCTGCGAGGCGGAATACCGCGATCCTGCCGATCGCCGGTTTCACGCCCAGCCGGTGGCCTGCCCCGACTGCGGGCCGCGACTGGAATGGCGGGCGCAAGGGGAAACGCTGGACGGCGAGGCGGCGCTGCAGTCGGCTATCGCCCGGCTGGCGGCGGGCGACATCGTGGCGATAAAAGGCGTCGGCGGCTTTCATCTGGCCTGCGACGCCGGCAACCCCGCTGCCGTTGCCACACTGCGGGCGAGGAAACACCGTCCGGCGAAACCGCTGGCGGTGATGCTGCCCTCTGCGGCGGGGTTACCTGCCGACGCCGCGGCGCTGATGGGCTCCCCGGCGGCGCCCATCGTACTGATTAGCAAAGCGCAGGTCTCCGGCCTGTGCGACGAGATTGCGCCAGGGCTTGCGGAAGTTGGGGTGATGCTGCCGTCTAATCCGCTGCAGCATTTGCTTCTGCAGGCGCTGGCGCGCCCTATCGTGATGACCTCCGGCAACCTTAGCGGCCGCCCGCCGGCGTTAAGTAATACTCAGGCGCTCAACGACTTAGCCGACATCGCCGACGGTTTTTTGCTCCATAACCGCGACATCGTGCAGCGGATGGATGATTCGCTGGTGCGCTCGAGCGGAGAAATGCTGCGCCGCGCCCGGGGCTATGTCCCGGATGCGCTGCCGCTGCCGCCGGGTCTGGAGAAGGTTCCGCCGCTGCTGGCGCTGGGCGCGGACATGAAAAACACCTTCTGCCTGGCGCGCGGGGGCGAAGCGGTTCTCAGCCAGCACTTTGGCGATCTTGGCGAGGAGGGCGTCGAGCAGCAGTGGCGCAGCGCGCTACAGCTGATGCAGAACATCTACGCCTTTATGCCGCAGCGGGTGGTGGTTGACGCCCATCCCGGCTATCGCTCGACGCAGTGGGCGGCGACTCTGCCGCTGCCGGTAGAGACAGTGCTACATCACCATGCTCACGCCGCGGCGTGCCTGGCGGAGCACCGCTGGCCGCTCGACGGCGGAGACGTCATCGCCCTGATCCTCGACGGAATCGGCATGGGGGAGAACGGCGCGCTATGGGGCGGGGAGTGCCTGCGGGTTAACTATCGCCAGTGCGAACATCTCGGCGGGCTGCCGGCCGTCGCGCTGCCGGGCGGCGACCTGGCGGCGCGTCAGCCGTGGCGTAATCTGCTGGCTCAGTGCCTGGCCTTTATCCCTGACTGGCAGGATTACCCGCAGACCGGTACGCTGCGCCAGCGCAACTGGCCGCTGCTGGCGCAGGCCATCGATCGCGGCATTAACGCGCCGCGCGCCTCGTCCTGCGGACGGCTGTTTGATGCCGTCGCCTGCGCGCTGGACTGCGCCCCGGAGAGCCTGAGCTATGAGGGCGAGGCGGCCTGTCGGCTGGAGGCGCTGGCCGCCAGCTGCTCCGGCGTCTGCCATCCGGTCACGCTGCCGTGGCGCGGCAATGCGCTGGACTTAGCCACCTTCTGGCGACAGTGGCTGCGCTGGCAGGCGACCCCGGCGCAAAAAGCCTGGGCATTCCATGACGCCCTGGCCAGCGGACTGGCGGCGATGGCCCGCGACTGCGCCACCGCCCGCGGCATCGACACGATGGTCTGCAGCGGCGGAGTGCTGCATAACCGCCTGCTGGCGGCGCGATTGACCTTTTATCTGGCGGATTTTACTCTGCTGTTTGCGCAGCAGTTGCCGGCCGGCGACGGCGCAATCGCCTATGGTCAGGCGGTGATCGCCGCCGCCCGCGGACAGGCTCAAGGAACACAACAATGA	MNGVQIRIRGKVQGVGFRPFVWQLAQGQARCGDVCNDGDGVLVRLAGDDDGFTAALAAHCPPLARIDSLVCAPYRWAAPPQDFTIRESGAGRMRTQIVPDAATCPACLAEMNDPRARRYRYPFINCTHCGPRLTIIRAMPYDRPFTAMAPFPLCPPCEAEYRDPADRRFHAQPVACPDCGPRLEWRAQGETLDGEAALQSAIARLAAGDIVAIKGVGGFHLACDAGNPAAVATLRARKHRPAKPLAVMLPSAAGLPADAAALMGSPAAPIVLISKAQVSGLCDEIAPGLAEVGVMLPSNPLQHLLLQALARPIVMTSGNLSGRPPALSNTQALNDLADIADGFLLHNRDIVQRMDDSLVRSSGEMLRRARGYVPDALPLPPGLEKVPPLLALGADMKNTFCLARGGEAVLSQHFGDLGEEGVEQQWRSALQLMQNIYAFMPQRVVVDAHPGYRSTQWAATLPLPVETVLHHHAHAAACLAEHRWPLDGGDVIALILDGIGMGENGALWGGECLRVNYRQCEHLGGLPAVALPGGDLAARQPWRNLLAQCLAFIPDWQDYPQTGTLRQRNWPLLAQAIDRGINAPRASSCGRLFDAVACALDCAPESLSYEGEAACRLEALAASCSGVCHPVTLPWRGNALDLATFWRQWLRWQATPAQKAWAFHDALASGLAAMARDCATARGIDTMVCSGGVLHNRLLAARLTFYLADFTLLFAQQLPAGDGAIAYGQAVIAAARGQAQGTQQ	PGPT0000265_1369	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-HYDROGENASE_BIOSYNTHESIS,PGPT0000265-hypF-K04656	NA	NA
BMS020_01583	528	cooF	COG1142	Iron-sulfur protein	ATGAACCGTTTCATTATTGCCGATGCGAGCAAATGCATCGGCTGTCGCACTTGCGAAGTAGCCTGCGTGGTCTCCCATCAGGAACATCAGGACTGCGCCTCCCTGACGCCGCACACCTTTCAGCCGCGTATTCACGTCATCAAAGGGGTCAATGTCTCCACGGCCACCGCCTGCCGTCAGTGTGAAGACGCCCCGTGCGCCAACGTCTGCCCGAACGGCGCCATCAGCCGCGATAAAGGCTTTGTTCATGTGATGCAGGAGCGCTGCATCGGCTGCAAAACCTGCGTCGTCGCCTGCCCGTACGGGGCGATGGAGGTAGTGGTGCGGCCGGTGATCCGCCATAGCGGCGCCGGACTGAACGTCGTGGCGGAAAAAGCCGAAGCCAACAAGTGCGATCTCTGCTTCCACCGCGACAGCGGCCCGGCCTGCATGGAGGTCTGCCCGACGCACGCCCTGGTCTGCGTAGACCGCAACAAGCTGGAGCAGATGAACCAGGAAAAACGTCGCCGCACGGCGCTGGCCTGGTAA	MNRFIIADASKCIGCRTCEVACVVSHQEHQDCASLTPHTFQPRIHVIKGVNVSTATACRQCEDAPCANVCPNGAISRDKGFVHVMQERCIGCKTCVVACPYGAMEVVVRPVIRHSGAGLNVVAEKAEANKCDLCFHRDSGPACMEVCPTHALVCVDRNKLEQMNQEKRRRTALAW	PGPT0001225_74	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-ALTERNATIVE_PAHTWAYS	CO2_FIXATION-WOOD-LJUNGDAHL_PATHWAY,PGPT0001225-cooF|porE|porF-K00196	NA	NA
BMS020_01584	1014	ascG_1	COG1609	HTH-type transcriptional regulator AscG	ATGGCAACGATGCTGGAGGTCGCAAAGCGCGCGGGGGTATCGAAGGCGACCGTGTCGCGGGTGCTGTCGGGCAACGGCTATGTCAGCCAGGAGACCAAAGACCGGGTGTTTAAGGCGGTGGCGGAGAGCGGCTACCGACCGAATCTGCTGGCGCGCAACCTGGCGACCAAAACCACGCAAACCCTTGGCCTGGTGGTGACCAACACCCTCTACCACGGCGTCTATTTCAGCGAGCTGCTGTACCACGTGGCGCGGATGACGGAGGATAAAGGGCGGCAGCTGATCCTCGCCGATGGCAAGCACAGCGCGCAAGAGGAGCGGGAAGCGATCCAGTATCTGCTGGATCTGCGCTGCGATGCGATCATCATCTACCCGCGCTTTCTCACCGTCGACGAGATGGACGAGATCGTTGAGAACCACTCGCAGCCGATCATGGTGCTGAACCGCCGGCTGCGCCGCCACGCCAGCCACTGTGTCTGGTCCGATCAAAAAGCGTCGGCGATGCGGGTGGTGGAGCGGCTGATTGCCCTGGGTCACCGCGATATCGCCTTTATTACCGGCTCCCTTGACTCGCCCACCGGCGTCGAGCGCCTTGCCGGCTATAAAGACGCGCTGGCTGGCCACGGCATTACCCTCAACGAGGCGCTCATCGCCGAAGGGCACTGGACGCCGGAAACCGGCGCGGCGGCGGTGGAGAGCCTGCGTCAGCGCGGGGTGACCTACAGCGCGCTGGTGGCGAGCAATGACGATATGGCCATCGGGGCGATGAAGCAGCTTCACCAGCTGGGCGTTAAGGTGCCGGAGCAGGTCTCGGTGGTGGGGTTTGACGATATTGTGCTGGCGCCGTACATGGTGCCGTCGCTCGCCAGCGTCCGGGTGCCGGTGACGGAGATGATTAAAGAGAGCATTAATCGCCTGATATTTATGCTCGATGGCGGGGAATTCAATGTTCAGCAGAGTTTCCCCGGGGCGCTGATCGAGCGTGAGTCGCTGGTGTCAGGTCCCTGCGCCTGA	MATMLEVAKRAGVSKATVSRVLSGNGYVSQETKDRVFKAVAESGYRPNLLARNLATKTTQTLGLVVTNTLYHGVYFSELLYHVARMTEDKGRQLILADGKHSAQEEREAIQYLLDLRCDAIIIYPRFLTVDEMDEIVENHSQPIMVLNRRLRRHASHCVWSDQKASAMRVVERLIALGHRDIAFITGSLDSPTGVERLAGYKDALAGHGITLNEALIAEGHWTPETGAAAVESLRQRGVTYSALVASNDDMAIGAMKQLHQLGVKVPEQVSVVGFDDIVLAPYMVPSLASVRVPVTEMIKESINRLIFMLDGGEFNVQQSFPGALIERESLVSGPCA	PGPT0014762_128	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE_USAGE_REGULATION,PGPT0014762-ascG-K03487	NA	NA
BMS020_01585	1443	bglF_2	COG1263	PTS system beta-glucoside-specific EIIBCA component	ATGTCGAAAAATTATGCAGCCCTGGCGCAACAGATAGTCGCGGCATTAGGCGGAGTCGATAACGTCGTCGCCGTGACCCACTGCATGACGCGTCTGCGCTTCGTGGTCAAAGACAACGAACAGGTCGATAGCCCTACCCTGAAAGGCCTGACCGGGGTGCTCGGCGTCGTGCGCAGCGATAACCAGTGCCAGGTGATCATCGGCAACACGGTCTCTCAGGCCTATCGCGAGGTGGTGAATCTGCTGCCTGGCGACCTGCGCCCGGTCGAGCCGCAGGGCAAAGCGCCGGTCACCCTGAAACGCATCGGCGCCGGGATCCTCGACGCGCTGATCGGCACCATGTCGCCGCTGATCCCGGCGATTATCGGCGGATCGATGGTCAAGCTGCTGGCGATGATCCTTGAGATGAGCGGCGCGTTGCCGAAAGGCTCGCCGACGCTGACCCTCCTGACGCTTATCGGCGACGGCGCGTTTTTCTTCCTGCCGCTGATGGTGGCCGCCTCCGCGGCGGTGAAATTCAAAACCAATATGTCGCTGGCCATCGCTATCGCCGGGGTGCTGGTGCATCCCGGGTTTATCGAATTAATGGCCAAAGCCGCCCAGGGCGAACACGTCGAATTTGCCCTTATTCCGGTGACCGCGGTGAAATACACCTACACGGTGATCCCGGCGCTGGTGATGACCTGGTGCCTGTCGTATATCGAACGCTGGGTGGATCGCATTACCCCGGCGGTGACGAAAAACTTCCTTAAGCCGATGCTGATCGTGCTGATCGCCGCCCCGCTGGCGATCCTGCTGATTGGCCCGCTCGGCATCTGGATCGGCAGCGCCATTTCCGCGCTGGTCTATACGATCCACAGCTATCTCGGCTGGCTGTCGGTGGCGATCATGGGCGGGCTGTGGCCGCTGCTGGTGATGACCGGCATGCACCGGGTCTTTACGCCGACCATCATTCAGACCATCGCCGAAACCGGCAAAGAGGGCATGGTAATGCCGTCGGAGATCGGCGCCAACCTGTCGCTCGGCGGCTCGTCGCTGGCGGTGGCGTGGAAAACGAAAAACCCGGAATTGCGCCAGACGGCGCTGGCCGCCGCGGCATCGGCGATTCTGGCCGGTATTTCCGAACCGGCGCTGTACGGCGTGGCGGTGCGCCTGAAACGCCCGCTGATCGCCAGCTTAATCAGCGGCTTTATCTGCGGCGCGGTGGCGGGCATCGCCGGACTGGCCAGCCACTCGATGGCGGCGCCGGGGCTGTTCACCAGCGTGCAGTTTTTCGATCCAGCCAATCCAATGACCATCGTCTGGGTGTTTGGCGTGATGGCGCTGTCGGTAGTGCTGTCGTTTGCCCTGACGCTGATCCTCGGCTTTGAAGATATTCCCGTTGAACAGGCCGCCGCCGACGCCCGAGCGCGCCAGGCCCAGGCCCAGGCAACCCACGCCTGA	MSKNYAALAQQIVAALGGVDNVVAVTHCMTRLRFVVKDNEQVDSPTLKGLTGVLGVVRSDNQCQVIIGNTVSQAYREVVNLLPGDLRPVEPQGKAPVTLKRIGAGILDALIGTMSPLIPAIIGGSMVKLLAMILEMSGALPKGSPTLTLLTLIGDGAFFFLPLMVAASAAVKFKTNMSLAIAIAGVLVHPGFIELMAKAAQGEHVEFALIPVTAVKYTYTVIPALVMTWCLSYIERWVDRITPAVTKNFLKPMLIVLIAAPLAILLIGPLGIWIGSAISALVYTIHSYLGWLSVAIMGGLWPLLVMTGMHRVFTPTIIQTIAETGKEGMVMPSEIGANLSLGGSSLAVAWKTKNPELRQTALAAAASAILAGISEPALYGVAVRLKRPLIASLISGFICGAVAGIAGLASHSMAAPGLFTSVQFFDPANPMTIVWVFGVMALSVVLSFALTLILGFEDIPVEQAAADARARQAQAQATHA	PGPT0016925_182	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_BETA-GLYCOSIDE_DEGRADATION,PGPT0016925-ascF-K02753	NA	NA
BMS020_01586	1425	bglH_1	COG2723	Aryl-phospho-beta-D-glucosidase BglH	ATGGCGAGTTTCCCACAGGGATTTTTATGGGGCGGCGCACTGGCCGCCAACCAGTCAGAAGGCGCATGGCGCGAAGGGGGGAAAGGGATGGCCACCGTGGATACCCTCCCCCACGGCGCCCACCGTCTGCCGGTAAAATTAGGCCTGGAGAAGCGCTTCACGCTTCGCGAAGACGAATTCTACCCCAGCCACGAGGCGATCGATTTCTACCACCGCTACAAGGAAGATATCGCCCTGATGGCGGAGATGGGGTTCAGCGTCTTTCGCACCTCCATCGCCTGGAGCCGCCTGTTCCCGCGCGGCGACGAGCAGCAGCCGAATCCGCAGGGCATCGCCTTCTATCGTTCGCTGTTCGAGGAGTGCAAAAAGCACGGTATCGAGCCGCTGGTGACGTTGTGCCATTTTGACGTGCCGATGCATCTGGTGATGGAGTACGGCTCCTGGCGCAACCGCAAAATGGTCGATTTCTTCAGCCACTACGCCCGCACCTGCTTTGAAGCTTTTGACGGTCTGGTGAAATACTGGCTCACCTTCAATGAAATCAACATTATGCTGCACAGCCCCTACTCCGGCGCCGGGCTGGTGTTTGAAGAGGGAGAAAATCAGGAGCAGGTGAAGTACCAGGCGGCGCATCACGAGCTGGTGGCCAGCGCGCTGGCGACAAAAATCGCCCACGAGATAAACCCGCAGAATCAGGTCGGCTGCATGCTGGCGGGCGGTAATTTCTACCCTTACTCCTGCAAGCCGGAAGATGTATGGATGGCGCTGGAGAAGGACCGCGAAAACCTGTTCTTTATTGACGTCCAGGCGCGCGGCGCCTACCCGGTATGGGCCGCGCGGGTATTCCGGGAAAAGGGGGTCACCATTGCGAAGCTGCCGGGCGATGATGAGATCCTCAAAAACACCGTCGATTTCGTCTCCTTTAGCTACTACGCCTCGCGCTGCGCCTCGGCGGAGATGAACGCCAGCAACACCAATGCCGCCAACATCGTCAAGTCGCTGAAGAACCCGCACATTCCGGCCAGCGAATGGGGCTGGGGCATCGACCCGCTGGGCCTGCGCATCACCATGAACATGATGTACGACCGCTATCAGAAACCGCTGTTCCTGGTGGAAAACGGGCTCGGCGCCCGGGACGAGATTGACGCCAGGGGGGAGATCAATGACGACTATCGCATCAGCTACCTGCGCGAGCACATCAAGGCGATGCGCGATGCCATCGGCGACGGTATTCCGGTGCTGGGCTACACCAGCTGGGGCTGCATCGATCTGGTCTCGGCGTCAACCGGCGAGATGAGCAAGCGCTACGGCTTTGTCTATGTCGATCGCGACGACGCCGGCAACGGCACGCTGGCGCGCAAGCGTAAAAAGTCGTTCTTCTGGTACCAGAAGGTGATAGCCAGCAACGGCGCCGACCTCGACTAA	MASFPQGFLWGGALAANQSEGAWREGGKGMATVDTLPHGAHRLPVKLGLEKRFTLREDEFYPSHEAIDFYHRYKEDIALMAEMGFSVFRTSIAWSRLFPRGDEQQPNPQGIAFYRSLFEECKKHGIEPLVTLCHFDVPMHLVMEYGSWRNRKMVDFFSHYARTCFEAFDGLVKYWLTFNEINIMLHSPYSGAGLVFEEGENQEQVKYQAAHHELVASALATKIAHEINPQNQVGCMLAGGNFYPYSCKPEDVWMALEKDRENLFFIDVQARGAYPVWAARVFREKGVTIAKLPGDDEILKNTVDFVSFSYYASRCASAEMNASNTNAANIVKSLKNPHIPASEWGWGIDPLGLRITMNMMYDRYQKPLFLVENGLGARDEIDARGEINDDYRISYLREHIKAMRDAIGDGIPVLGYTSWGCIDLVSASTGEMSKRYGFVYVDRDDAGNGTLARKRKKSFFWYQKVIASNGADLD	PGPT0019255_2649	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0019255-bglA-K01223	NA	NA
BMS020_01587	294	symE		Endoribonuclease SymE	ATGAACGCACAGCACACCACCGCAGCCGGAGGGATCGCCAGGGCCATTCGCCAGTTAACCGTGGGATATGTCAGAAAACGCCATGAGAACCGCAAAACGCGGGAGACGCGGCGCTACACCCGCCATGCGGCGCTGAGCCTGAACGGCGACTGGCTGGAGCAGGCGGGATTCCCGGTCGGCACGCAGGTCAGAGTCTCGGTGTCGCCCGGTAAATTAGTGATAGAAAATCTTGAGCTGGCGCCGCCGGTAACGGGGCTCCCGGCCGGTCAGTCGCGCGCCGTCGGGGAGCCCTGA	MNAQHTTAAGGIARAIRQLTVGYVRKRHENRKTRETRRYTRHAALSLNGDWLEQAGFPVGTQVRVSVSPGKLVIENLELAPPVTGLPAGQSRAVGEP	PGPT0027290_329	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-SymR-SymE_TOXIN-ANTITOXIN_SYSTEM,PGPT0027290-toxin_symE-K19048	NA	NA
BMS020_01588	471	hycI	COG0680	Hydrogenase 3 maturation protease	GTGACTGACGTTTTACTCTGTGTCGGCAACAGTATGATGGGCGACGACGGCGCCGGCCCGCTGCTGGCGGAGATGTGCGCGGCGAACCCGGCCGGCCAGTGGGTGGTCATCGACGGCGGCAGCGCGCCGGAAAACGACATCGTGGCGATCCGCGAATTACGCCCCGAACGCCTGCTGATCGTCGATGCCACCGATATGGGCCTAAACCCCGGCGACATTCGCGTCATCGACCCCGACGACATCGCCGAGATGTTTATGATGACCACCCATAACATGCCGCTCAACTATCTGGTCGATCAGCTGAAAGAGGACGTCGGCGAAGTGATCTTCCTCGGCATTCAGCCGGATATTGTCGGTTTTTATTATCCGATGACCCAGCCGGTGAAAGAGGCCGTTGCCCGGGTGTACCAGCAGCTGGCAGGCTGGCAGGGCCACGGCGGCTTTGCCCGGCTGGAAGCCGCAGACGATTAA	MTDVLLCVGNSMMGDDGAGPLLAEMCAANPAGQWVVIDGGSAPENDIVAIRELRPERLLIVDATDMGLNPGDIRVIDPDDIAEMFMMTTHNMPLNYLVDQLKEDVGEVIFLGIQPDIVGFYYPMTQPVKEAVARVYQQLAGWQGHGGFARLEAADD				NA	NA	NA	NA	NA
BMS020_01589	411			hypothetical protein	ATGAGCGAGACGGTGGTGTTCAGTCAGCTGAGCCGTAAATTTATTGATGAGAACGACGCCACGCCGGATCAGGCGCAGCAGGTGGTCTATTACAGCCTGGCGATTGGCCACCACCTCGGCGTTATCGACTGTCTCGAGGCGGCGCTGAGCTGCCCGTGGGACGCGTATCTGGCATGGATCGCCACCCTTGAGGCCGGCAGCGTCGCGCGGCGCAAAATGGAGGGGGTGCCGAAGTATGGCGAAATCGTCATCGACAGCAGCCATGTGGCAATGCTGGCCAACGCCTTTGATAAAGCGCAGTCCGCGCAGACCCCGCAGCAGCAGGCGTGGAGCAAAACAATGCTCAGCATGCTGCATGATATTCACCAGGAAAGCGCCATCTACCTGATGGTGAGGAGATTACGTGACTGA	MSETVVFSQLSRKFIDENDATPDQAQQVVYYSLAIGHHLGVIDCLEAALSCPWDAYLAWIATLEAGSVARRKMEGVPKYGEIVIDSSHVAMLANAFDKAQSAQTPQQQAWSKTMLSMLHDIHQESAIYLMVRRLRD	PGPT0000200_51	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-HYDROGENASE_BIOSYNTHESIS,PGPT0000200-hyfJ-K12145	NA	NA
BMS020_01590	768	hycG	COG3260	Formate hydrogenlyase subunit 7	ATGAGCACTTTACTTGGCCCACGCGATGAAAACGGCATTCCGGTGCCGATGACGGTGGATGAATCCATCGCCAGCATGAAGGCCTCGCTGCTGAAGAAAATCAAACGTTCCGCCTACGTTTATCGCGTCGACTGCGGCGGCTGTAACGGCTGTGAAATCGAAATTTTCGCTACCCTTTCACCGCTGTTCGACGCGGAACGCTTCGGGATTAAGGTGGTGCCTTCGCCGCGCCATGCCGATATCCTGCTGTTTACCGGGGCGGTGACCCGCGCGATGCGCTCCCCGGCGCTGCGCGCCTGGCAATCGGCGCCGGATCCAAAGATTTGCATCTCCTACGGCGCCTGCGGCAACAGCGGCGGCATCTTCCACGACTTGTACTGCGTCTGGGGCGGAACCGATAAAATCGTACCGGTCGATGTCTATATCCCGGGCTGCCCGCCGACGCCCGCCGCCACCCTGTACGGCTTCGCCATGGCCCTCGGCCTGCTGGAGCAGAAAATTCACGCCCGCCTGCCGGGCGAGCTTGACGAACAGCCGACCGAGCTGCTGCACGCCGATATGGTGCAACCCCTGCGGGTGCGCATCGATCGCGAAGCGCGCCGTCTGGCGGGCTATCGCTATGGTCGGCAGATTGCCGACGACTATATGCGTCTGCTCGGCCAGGGCGACAGCCAGGTGCTGCGCTGGCTGGAGGCGGAGAAAGATCCGCGTCTGACCGAGATCGTCACCCATCTCAACCAGGTGGTCGAGGGGGCGCGTATCCGATGA	MSTLLGPRDENGIPVPMTVDESIASMKASLLKKIKRSAYVYRVDCGGCNGCEIEIFATLSPLFDAERFGIKVVPSPRHADILLFTGAVTRAMRSPALRAWQSAPDPKICISYGACGNSGGIFHDLYCVWGGTDKIVPVDVYIPGCPPTPAATLYGFAMALGLLEQKIHARLPGELDEQPTELLHADMVQPLRVRIDREARRLAGYRYGRQIADDYMRLLGQGDSQVLRWLEAEKDPRLTEIVTHLNQVVEGARIR	PGPT0000195_23	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-HYDROGENASE_BIOSYNTHESIS,PGPT0000195-hyfI-K12144	NA	NA
BMS020_01591	543	ndhI		NAD(P)H-quinone oxidoreductase subunit I, chloroplastic	ATGTTTACCTTTATTAAAAAAGTCATCAAGACCGGCACCGCGACGCACGCCTATCCGCTGGAGCCGATGCCGGTAGATAAAAACTTCCGCGGCAAGCCGGAGCATAACCCGCAGCAGTGTATCGGCTGCGCGGCCTGCGTGAACGCCTGCCCGTCGAACGCCCTGACGGTAGAGACCGATCTGGCCACAAACCAGCTGGCGTGGCAGTTCAACCTCGGGCGCTGCATCTTCTGCGGCCGCTGTGAAGAGGTCTGCCCGACGGCGGCGATTAAGCTGTCGCCGGAGTATGAGCTGGCGGTGTGGAAGAAAGAGGATTTCCTCCAGCAGTCGTGCTTCGCTATCTGCCACTGCCGGGAGTGCCAGCGGCCGTTCGCGGTGCAGAAGGAGATCGACTACGCCATCGCGCTGCTCAAGCATAACGGCGACACCCGCGCCGAGCTGCACCGCGAAAGCTTCGAAACCTGCCCGGAATGCAAGCGCCAGAAATGCCTGGTGCCGTCCGATCGTATTGAACTGACCCGCCACATGAGGGAGGCCAGCTGA	MFTFIKKVIKTGTATHAYPLEPMPVDKNFRGKPEHNPQQCIGCAACVNACPSNALTVETDLATNQLAWQFNLGRCIFCGRCEEVCPTAAIKLSPEYELAVWKKEDFLQQSCFAICHCRECQRPFAVQKEIDYAIALLKHNGDTRAELHRESFETCPECKRQKCLVPSDRIELTRHMREAS	PGPT0000190_113	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-HYDROGENASE_BIOSYNTHESIS,PGPT0000190-hyfH-K12143	NA	NA
BMS020_01592	1710	hycE	COG3261	Formate hydrogenlyase subunit 5	ATGTCTGAAGAAAAAATCGGTCAACACTATCTTGCGGCTCTGCACCAGGCCTTTCCGGGCGTGGTGCTGGACGAAGCCTGGCAGACCAAAGATCAGTTAACCATCACCGTGAAGGTCAATTACCTGCCGGAAGTCGTGGAGTTTCTCTACTACCAGCAGGGCGGCTGGCTGTCGGTGCTGTTCGGTAACGATGAACGTAAGCTGAACGGCCACTACGCGGTCTATTACGTGCTGTCGATGGAGCAGGGCACCAAATGCTGGATCACCGTGCGTGTGGAGGTGGATGCCAACAAACCGGAATATCCATCGGTGACGCCGCGCGTGCCGGCGGCGGTGTGGGGCGAGCGCGAAGTGCGCGATATGTACGGCCTCGTGCCGGTTGGCCTGCCGGACGAACGCCGGCTGGTGCTGCCGGACGACTGGCCGGACGAACTCTATCCGCTGCGTAAAGACAGCATGGACTATCGCCAGCGTCCGGCGCCGACCACCGACGCCGAAACCTACGAGTTCATCAACGAGCTGGGCAGCAAGAAAAACAACGTGGTGCCGATCGGCCCGCTGCACGTCACTTCCGATGAGCCCGGCCACTTCCGCCTGTTCGTTGACGGCGAGAACATTATCGATGCCGATTACCGTCTGTTCTATGTCCATCGCGGGATGGAGAAGCTGGCGGAAACCCGCATGGGTTATAACGAAGTCACCTTCCTGTCGGACCGGGTGTGCGGCATCTGCGGCTTCGCCCACAGCACCGCTTATACCACTTCGGTGGAGAATGCGATGGGCATCGTGGTGCCGGAGCGGGCGCAGATGATCCGCGCCATTCTGCTGGAGGTGGAACGCCTGCACTCGCACCTCCTGAACCTCGGTCTGGCCTGCCACTTCACCGGCTTCGACTCCGGCTTTATGCAGTTCTTCCGCGTGCGCGAAACCTCGATGAAGATGGCGGAAATTCTTACCGGGGCGCGGAAAACCTACGGTCTGAACCTGATCGGCGGGATCCGCCGCGACCTGCTGAAAGAGGACATGATCCAGACCCGCCAGCTGGCGCAGCAGATGCGTCGCGACGTGCAGGAGCTGGTGGATATGCTGCTCAGCACCCCGAACATGGAGCAGCGTACTGTCGGCATTGGCCGTCTGGACCCGGAAATCGCCCGCGACTTCAGCAACGTTGGCCCGATGGTGCGCGCCAGCGGCCACGCTCGCGATACCCGCGCCGACCATCCGTTCGTCGGCTACGGCCTGCTGCCGATGGAAGTCCACAGCGAACAGGGCTGCGACGTCATCTCCCGCCTCAAGGTGCGGATCAACGAGGTTTATACCGCGCTGAACATGATTGATTACGGTCTCGATAACCTGCCGGGCGGTCCGCTGATGGTGGAGGGCTTCACCTATATTCCGCACCGCTTCGCGCTGGGCTTCTCAGAAGCGCCGCGCGGGGATGATATCCACTGGAGCATGACCGGCGACAACCAGAAGCTGTACCGCTGGCGCTGCCGGGCGGCGACCTACGCCAACTGGCCGACTCTGCGCTATATGCTGCGCGGCAATACCGTTTCCGATGCGCCGCTGATCATCGGCAGCCTCGACCCGTGCTACTCCTGTACCGACCGCATGACCGTGGTCGATGTCCGCAAGAAGAAGAGCAAAGTGGTGCCGTACAAAGAGCTGGAGCGCTATAGCATCGAGCGTAAAAACTCGCCGCTGAAATAA	MSEEKIGQHYLAALHQAFPGVVLDEAWQTKDQLTITVKVNYLPEVVEFLYYQQGGWLSVLFGNDERKLNGHYAVYYVLSMEQGTKCWITVRVEVDANKPEYPSVTPRVPAAVWGEREVRDMYGLVPVGLPDERRLVLPDDWPDELYPLRKDSMDYRQRPAPTTDAETYEFINELGSKKNNVVPIGPLHVTSDEPGHFRLFVDGENIIDADYRLFYVHRGMEKLAETRMGYNEVTFLSDRVCGICGFAHSTAYTTSVENAMGIVVPERAQMIRAILLEVERLHSHLLNLGLACHFTGFDSGFMQFFRVRETSMKMAEILTGARKTYGLNLIGGIRRDLLKEDMIQTRQLAQQMRRDVQELVDMLLSTPNMEQRTVGIGRLDPEIARDFSNVGPMVRASGHARDTRADHPFVGYGLLPMEVHSEQGCDVISRLKVRINEVYTALNMIDYGLDNLPGGPLMVEGFTYIPHRFALGFSEAPRGDDIHWSMTGDNQKLYRWRCRAATYANWPTLRYMLRGNTVSDAPLIIGSLDPCYSCTDRMTVVDVRKKKSKVVPYKELERYSIERKNSPLK	PGPT0000185_24	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-HYDROGENASE_BIOSYNTHESIS,PGPT0000185-hyfG-K12142	NA	NA
BMS020_01593	924	hycD	COG0650	Formate hydrogenlyase subunit 4	ATGAGTCTGTTAATTGCATTGCTACAGGCGCTGGCGTTGTTTGCCGTCGCGCCGCTGTTATCCGGGATCGTCCGCGTCGCCCGCGCGCGGCTGCATAACCGCCGCGGACCGGGCGTGCTGCAGGAGTATCGGGATATCCTGAAATTGCTGGGCCGCCAGAGCGTTGGTCCCGACGCCTCGGGCTGGGTGTTCCGCCTGACGCCGTACGTCATGGTGGGCGTGATGCTGACCATCGCCACCGCCTTGCCGGTGGTGACGGTGGACTCTCCGCTGCCGGTGCTTGGGGATCTCATCACCCTGATCTACCTGTTCGCCATCGCCCGTTTCTTCTTCGCGATTTCCGGTCTGGACACCGGCAGCCCGTTTACCGCGCTGGGCAGCAGCCGCGAAGCGATGCTCGGCGTGCTGGTGGAGCCGATCCTGCTGCTGGGCCTGTGGGTCGCCGCGCAGGTGGCGGGCTCCACCCATATCAGCAGTATCACCGACACCCTTTATCACTGGCCGGCAGCGCGCAGCATTCCACTGATTCTGGCGCTGTGCGCCTGCGCCTTCGCCACCTTTATCGAGATGGGCAAACTGCCGTTCGATCTGGCGGAAGCGGAGCAGGAGTTGCAGGAGGGGCCGCTTTCCGAGTACAGCGGCAGCGGCTTTGGCATCCTGAAGTGGGGCATCAGCCTCAAACAGCTGGTGGTGCTGCAGATGTTTGTCGGGGTCTTTTTCCCGTGGGGCCAGATGACCAGCTTCAGCGTCGGCGGCCTGCTGCTGGCGCTGGTGGTGGCCGTCGTCAAGCTGGTGGTGGGCGTGCTGATCATCGCGCTGTTTGAAAACAGCATGGCGCGTCTGCGCTTCTGTGCCACCTCCCGCGTCACCTGGGCCGGGTTTGGTTTCGCCTTTTTAGCTTTCGTCTCCTTGCTGGTGGCGTGA	MSLLIALLQALALFAVAPLLSGIVRVARARLHNRRGPGVLQEYRDILKLLGRQSVGPDASGWVFRLTPYVMVGVMLTIATALPVVTVDSPLPVLGDLITLIYLFAIARFFFAISGLDTGSPFTALGSSREAMLGVLVEPILLLGLWVAAQVAGSTHISSITDTLYHWPAARSIPLILALCACAFATFIEMGKLPFDLAEAEQELQEGPLSEYSGSGFGILKWGISLKQLVVLQMFVGVFFPWGQMTSFSVGGLLLALVVAVVKLVVGVLIIALFENSMARLRFCATSRVTWAGFGFAFLAFVSLLVA	PGPT0000165_45	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-HYDROGENASE_BIOSYNTHESIS,PGPT0000165-hyfC-K12138	NA	NA
BMS020_01594	1827	hyfB	COG0651	Hydrogenase-4 component B	ATGAGTGTAATTGGATTAATCAATCAGGCGGTGACGTGGTACGCCGCCAGCGCCGTGCTGGCCTTTGTGTTTGCCATGCGTAAACCGCTCAGCGGCGCCATTGCCGGGATTGGCGGCGCGGTGGCCAGCGCTATGCTGGTGGTTGCCGGCGGCGCCGCGCTGCTGATGCCGGATCGGATCCACGGCGGCATGCTGCAGTTTCTCCATCTGACAATGCGGGTGGGCGGCGTCAATGCCCTGTGGCTGCTGGCCATCGGCCTGTCGGCGCTGCCGGTGTCGCTGTTTAACATTAGCTGGCATCGCCACCCGCAGGTGAAGGCCAACGGCCTGCTGGTCAACCTGCTACTGGCCGCCGCCACCTGCGCGGTGGTGGTGACCAATATCGGTTCGCTGGTGGTGATGGCGGAGATCATGGCGCTCTGCGCGGCGTTTCTCACCGGCTGCGCCGCCTCCGGTAAGCTGTGGTTTGCGCTGGGTCGTCTCGGCACGCTGCTGATGGCATGGACCTGCTGGCTGGTGTGGTCGACCTACGGCACCCTCGAGCTGGCGCAGATCAATCTCCAGGCGGTGGATATGATGCAGAACCCGCTGCTGTGGCTGCCGGGGCTGGCGGGATTCGCCCTGCTGGCGGGGGCGATCCCGCTGCACGGCTGGGCGCCGCAGGCTCACGCCGGGGCCAGCGCGCCGGCCGCCGCGCTGTTTTCCACTGTGGTCATGAAGGTCGGTCTGTACGGCATGTTAACCGTTTCGCTGGCCGGCGGCGTGCCGCCGCTGTGGTGGGGCGTGATGCTGCTGGTGCTGGGGATGATCACCGCCTTCATCGGCGGGCTGTATGCGTTGATGGAGCATAACATTCAGCGCCTGCTGGCCTATCACACCCTGGAGAATATCGGCATCATCCTGCTGGGGCTGGGCGCCTTCGTCACCGGCGTGGCCACCCGCAACAGCACGCTGATGGTGCTGGGCTTCATCGGCGGCATGTATCACCTGATTAACCACAGCCTGTTCAAAACTACGCTGTTCCTCGGCGCCGGGGCGGTGTGGTTCCGCACCGGCCATCGCGATATCGAGAAGCTGGGCGGCATCGGTAAAAAAATGCCGCTGATCTCCCTCGCCATGCTGGTGGGGCTGATGGCGATGGCGGCCTTGCCGCCGCTGAACGGCTTCGCCGGCGAGTGGGTCATCTACCAGTCCTTCTTCAAAATGAGCACCAGCGACCTGTTTATTGGCCGTCTGCTGGGGCCGCTGCTGGCGGTGGGCCTGGCGATCACCGGCGCGCTGGCGGTGATGTGTATGGCCAAAGTCTATGGTGTCACCTTCCTCGGCGCGCCGCGGAGCAAAGAGGCGGAAAACGCCACCTGCGCCCCCTGGCTGATGACCCTGAGCGTGGTCATGGCGGCGGTCTTCTGCCTCGTTGGCGGCATTGCCGCGCCGTGGCTGCTGCCGCTGGTGAGCGGCGCCTTCCCGCTGCAGGCCCAGGTGTCGAGCGTGGTGTCGCAGCCGATGATTGCGCTGCTGCTTATCGCCTGCCCGCTGCTGCCGTTCCTGCTGATGATCTTCTTTAAAGGCGATCGCCTGGCGGCGCGCTCGCGCGGCGCGGCCTGGGTCTGCGGCTACGATCACGAACAGTCGATGGTGGTCACCGCCCACGGTTTCGCCATGCCGGTGAAAGAGGCCTTTGCGCCGCTGCTGAAGCTGCGTCACTGGCTGAACCCGGTGCGTCTGGTGCCGGGCTGGCAATCGGCCTCGGCGCCGGCGCTGCTGCGCGGAATGGCGCTGGTTGAGCTGGCGGTGCTGGTGGTGATTGTCATTTCCCGAGGAGCCTGA	MSVIGLINQAVTWYAASAVLAFVFAMRKPLSGAIAGIGGAVASAMLVVAGGAALLMPDRIHGGMLQFLHLTMRVGGVNALWLLAIGLSALPVSLFNISWHRHPQVKANGLLVNLLLAAATCAVVVTNIGSLVVMAEIMALCAAFLTGCAASGKLWFALGRLGTLLMAWTCWLVWSTYGTLELAQINLQAVDMMQNPLLWLPGLAGFALLAGAIPLHGWAPQAHAGASAPAAALFSTVVMKVGLYGMLTVSLAGGVPPLWWGVMLLVLGMITAFIGGLYALMEHNIQRLLAYHTLENIGIILLGLGAFVTGVATRNSTLMVLGFIGGMYHLINHSLFKTTLFLGAGAVWFRTGHRDIEKLGGIGKKMPLISLAMLVGLMAMAALPPLNGFAGEWVIYQSFFKMSTSDLFIGRLLGPLLAVGLAITGALAVMCMAKVYGVTFLGAPRSKEAENATCAPWLMTLSVVMAAVFCLVGGIAAPWLLPLVSGAFPLQAQVSSVVSQPMIALLLIACPLLPFLLMIFFKGDRLAARSRGAAWVCGYDHEQSMVVTAHGFAMPVKEAFAPLLKLRHWLNPVRLVPGWQSASAPALLRGMALVELAVLVVIVISRGA	PGPT0000160_478	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-HYDROGENASE_BIOSYNTHESIS,PGPT0000160-hyfB-K12137	NA	NA
BMS020_01595	609	hyfA_1	COG1142	Hydrogenase-4 component A	GTGAACCGTTTTGTAATTGCTGACTCCACTGTCTGTATCGGCTGCCGCACCTGCGAAGCCGCCTGCTCTGAGACGCATCGCCAGCACGGCCTGCAGGCTATGCCGCGGCTGCAGGTGATGCGTAATGAAAAAGAATCGGCACCGCAGATGTGCCACCACTGCGAAGACGCCCCCTGCGCCGCTGTCTGCCCGGTAAACGCCATCCAGCGCGTCGATGGCGCCGTCCAGCTCAACGAGAGCCTGTGCGTAAGCTGCAAACTGTGCGGCATCGCCTGCCCGTTTGGCGCGATCGAATTTTCCGGCAGCCGTCCGCTGGATATTCCGGCCAATGCCAATACCCGGCTGGCGCCCCCCGCGCCGCCGGCGCCGGCCCGCGTCAGCTCGCTGCTCGACTGGGTGCCGGGCGTGCGCGCCATTGCCGTGAAATGCGACCTCTGCCACTTCGATGACCAGGGCCCGGCCTGCGTGCGGACCTGTCCGACCAAAGCGCTGATGCTGGTGGATAGCCGTGATATCGCCCAGGCCAGCAAGCGTAAACGCCAGCTGACCTTTAATACCGACCTTGGCGACTTGTCGTTGTTCCAGGCGCAACAGGGGGAGAGGGAATGA	MNRFVIADSTVCIGCRTCEAACSETHRQHGLQAMPRLQVMRNEKESAPQMCHHCEDAPCAAVCPVNAIQRVDGAVQLNESLCVSCKLCGIACPFGAIEFSGSRPLDIPANANTRLAPPAPPAPARVSSLLDWVPGVRAIAVKCDLCHFDDQGPACVRTCPTKALMLVDSRDIAQASKRKRQLTFNTDLGDLSLFQAQQGERE	PGPT0000155_56	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-HYDROGENASE_BIOSYNTHESIS,PGPT0000155-hyfA-K12136	NA	NA
BMS020_01596	450	hycA		Formate hydrogenlyase regulatory protein HycA	ATGACTATTTGGGAAATAAGTGAAAAGGCGGATTACATCGCCGACCGTCACCGGCAGCAGCAGGAGCAGTGGCATATCTACTGTAACTCGCTGGTTCAGGGGATCACCCTGTCGAAAGCCCGCCTGCATCACGCGATGAGCTGCGCGCCGGACAAAGAGCTGTGCTTCGTGCTGTTCGGCCATTTTCAGGTGTTCGTCGCCCTGGCGGAAGGCTTCAACAGCCACACCATCGAATACTACGTCGAAAACAAAGGCGGCGGCGATAAGTATCTGATTGCTCAGGCCACGCTCGCCGCGGATGGCACGGTGGACGGGCGGATCAGCAACCGCTCCCGCGACCAGGTGCTGGAGCATTATCTGGCGATTATCGCCACCGTCTATGACCGTCTGTACGACGCCATGGAGCAAGACCAACCGGTGGACTTAAGCCATCTGGCCCTGACCCACTGA	MTIWEISEKADYIADRHRQQQEQWHIYCNSLVQGITLSKARLHHAMSCAPDKELCFVLFGHFQVFVALAEGFNSHTIEYYVENKGGGDKYLIAQATLAADGTVDGRISNRSRDQVLEHYLAIIATVYDRLYDAMEQDQPVDLSHLALTH				NA	NA	NA	NA	NA
BMS020_01597	345	hypA	COG0375	Hydrogenase maturation factor HypA	ATGCACGAAATCACCCTCAGCCAGCGGGCGCTGGAAATTATTGAACAACAGGCGCAGCAGGCCGGCGCGCGGCGGGTGACCGGCGTGTGGCTTAAGGTGGGAGCATTTTCCTGCGTGGAAGCCAGCGCCCTGACCTTCTGCTTTGAGCTGGTCTGCCGCGGCACGCTGGCGGAGGGGTGCGAACTGCATATCGCCGAACAACAGGCTGAATGCTGGTGCGAACGCTGTCAGCAGTACGTCCATCTTGTCTCGCAGCACGTCCGCCGCTGCCCGCACTGCAACAACGACCAGCTACAGATCGTGGCGGATGACGGCTTACAGATTCAGCGTTTAGAATTGGAGTAA	MHEITLSQRALEIIEQQAQQAGARRVTGVWLKVGAFSCVEASALTFCFELVCRGTLAEGCELHIAEQQAECWCERCQQYVHLVSQHVRRCPHCNNDQLQIVADDGLQIQRLELE	PGPT0000240_822	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-HYDROGENASE_BIOSYNTHESIS,PGPT0000240-hypA|hybF-K04651	NA	NA
BMS020_01598	873	hypB	COG0378	Hydrogenase maturation factor HypB	ATGTGTACAACATGCGGCTGTGGAGAAGGCAACCTCTATATTGAAGGAGACGAACGAAACCCGCATTCCGCGTTCCGCAGCGCCCCCTTCGCGCCCGCCCCACGCCAGACGATGACCATCACCGGCGTAAAAACCGACCACTTCGCCCCCACCCGCACGACAGAGGGCGATCTGCATTACGGCCATGGTGAAGCGGGGACTCACGCCCCGGGCCAGAGCCAGCGGCGCATGCTGGAAGTGGAAATCGACGTGCTGGATAAAAACAACCGTCTGGCGGCGCGCAACCGCGCGCGCTTTGCGGCGAAGCAGCAGCTGGTGCTGAATCTGGTTTCCAGCCCCGGCTCCGGCAAAACCACCCTGCTCACCGAAACCCTCACCCGGCTGAAAGGGCGTGCCGACTGCGCAGTGATTGAAGGCGACCAGCAAACGGTCAATGACGCCGCCCGCATTCGCGCCACCGGCACCCCGGCGATTCAGGTCAACACCGGGAAAGGCTGCCATCTCGACGCCCAGATGATCGCCGACGCCGCTCCGCGCCTGCCGCTGGCTGACCACGGCATTCTGTTTATTGAAAACGTCGGCAACCTGGTCTGCCCGGCGAGCTTTGATCTCGGCGAACGCCATAAGGTGGCGGTGCTGTCGGTCACGGAAGGCGAAGACAAGCCGCTGAAGTATCCGCATATGTTCGCCGCCGCCAGCCTGATGCTGCTCAACAAGGTCGACCTGCTGCCGTATCTCAATTTCGACGTCGAGAAGTGCCTGGCCTGCGCCCGCGAGGTCAATCCGCATATTGACATTATCCTCCTCTCCGCCACCAGCGGCGAAGGCATGGATCAGTGGCTCACCTGGCTGGAGACGCAGCGATGTGCATAG	MCTTCGCGEGNLYIEGDERNPHSAFRSAPFAPAPRQTMTITGVKTDHFAPTRTTEGDLHYGHGEAGTHAPGQSQRRMLEVEIDVLDKNNRLAARNRARFAAKQQLVLNLVSSPGSGKTTLLTETLTRLKGRADCAVIEGDQQTVNDAARIRATGTPAIQVNTGKGCHLDAQMIADAAPRLPLADHGILFIENVGNLVCPASFDLGERHKVAVLSVTEGEDKPLKYPHMFAAASLMLLNKVDLLPYLNFDVEKCLACAREVNPHIDIILLSATSGEGMDQWLTWLETQRCA	PGPT0000245_333	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-HYDROGENASE_BIOSYNTHESIS,PGPT0000245-hypB|hupJ-K04652	NA	NA
BMS020_01599	273	hypC	COG0298	Hydrogenase maturation factor HypC	ATGTGCATAGGCATTCCGGGACAAATTTGCGCCATCGACGGCGTGCTGGCGAAGGTGGAAGTCTGCGGCATTCAGCGCGACGTCGACCTGACGCTGGTGGGCGCCGTTGACGAGCAGGGCCAGCCGCGTCTCGGCCAGTGGGTGCTGGTGCACGTCGGCTTCGCCATGAGCGTGATTAATGAAGCCGAAGCCCGCGACACTCTCGAAGCGCTGCAAAATATGTTTGACGTAGAGCCGGACGTCGGCGCCCTGCTGTACGGCGAGGAGCGATAA	MCIGIPGQICAIDGVLAKVEVCGIQRDVDLTLVGAVDEQGQPRLGQWVLVHVGFAMSVINEAEARDTLEALQNMFDVEPDVGALLYGEER	PGPT0000250_701	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-HYDROGENASE_BIOSYNTHESIS,PGPT0000250-hypC|hupF-K04653	NA	NA
BMS020_01600	1122	hypD	COG0409	Hydrogenase maturation factor HypD	ATGCGTTACGTTGACGAATACCGCGCCCCTGAGCAGGTCATGCAGTTGGTGGCCCATCTTCAGCAGCGTGCCCATCTGCTGCCGCACACCGCCGCGCGACCGCTGCGCATCATGGAGGTCTGCGGCGGTCATACCCATGCCATTTTTAAGTTCGGTCTCGACCAGCTGTTGCCGGAGAATATCGAATTTATTCATGGGCCCGGCTGCCCGGTGTGCGTCCTGCCGATGGGGCGCATCGACGCCTGCATTGAGATTGCCAGTCGTCCGGGGGTTATCTTCTGTACCTTCGGCGACGCCATGCGCGTTCCGGGCAAAAACGGCTCACTGCTGCAGGCGAAAGCCCGCGGCGCCGATGTCCGCATCGTTTATTCGCCGATGGACGCCCTGCGGCTGGCGCAGCAAAACCCGCAGCGTGAAGTGGTCTTTTTCGGTCTCGGTTTCGAAACCACCATGCCCGCCACCGCCCTCACCCTGCGTCAGGCGCGGGAGCGCAACGTCGATAACTTCTTCTTTTTCTGCCAGCACATCACCCTGCTGCCGACCCTGCGCAGTCTGCTGGACCAGCCTGACAACGGTATCGACGCCTTTCTCGCCCCCGGCCACGTCAGTATGGTGATCGGCACCGAAGCCTACGGCTTTATCGCCAGCGATTATCATCGCCCGTTAGTGGTCGCCGGTTTCGAACCTCTTGATCTACTGCAAGGCGCGGTGATGCTGGTTGAGCAGACAATAGCGCAGCGTAGCGAGGTGGAAAATCAGTACCGCCGCGTAGTGCCGGATGCCGGCAACCCGCTGGCGCAGGCGGCGATGGCCGACGTGTTTTGCCTTGATGGCGACAGCGAATGGCGCGGTCTGGGGGTCATCAGCGACTCCGGCGTGCACCTCACGCCGGCCTATCAGCGCTTCGATGCCGAGGCCCATTTCCGCCCGGCGCCGCAGCGCGTGTGCGACGACCCGCGCGCCCGCTGCGGCGAGGTGTTGACCGGCCGCTGTAAACCGCACCAGTGCCCGCTCTTCGCCAGCACCTGCAATCCGCAAAGCGCCTTTGGCGCGCTGATGGTCTCCTCGGAAGGGGCCTGCGCCGCCTGGTATCAATATCGCAGTCAGGAATATGAAGCATGA	MRYVDEYRAPEQVMQLVAHLQQRAHLLPHTAARPLRIMEVCGGHTHAIFKFGLDQLLPENIEFIHGPGCPVCVLPMGRIDACIEIASRPGVIFCTFGDAMRVPGKNGSLLQAKARGADVRIVYSPMDALRLAQQNPQREVVFFGLGFETTMPATALTLRQARERNVDNFFFFCQHITLLPTLRSLLDQPDNGIDAFLAPGHVSMVIGTEAYGFIASDYHRPLVVAGFEPLDLLQGAVMLVEQTIAQRSEVENQYRRVVPDAGNPLAQAAMADVFCLDGDSEWRGLGVISDSGVHLTPAYQRFDAEAHFRPAPQRVCDDPRARCGEVLTGRCKPHQCPLFASTCNPQSAFGALMVSSEGACAAWYQYRSQEYEA	PGPT0000255_664	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-HYDROGENASE_BIOSYNTHESIS,PGPT0000255-hypD-K04654	NA	NA
BMS020_01601	1011	hypE	COG0309	Carbamoyl dehydratase HypE	ATGAAAAGCGTCCAGTTAGCCCACGGTAGCGGCGGTCAGGCAATGCAGCAGCTGATCGGCGACCTGTTTATGCAGGCTTTCGCCAACCCCTGGCTGGCGGAGCAGGAAGATCAGGCGCGTCTCGATCTGGCGGCGCTTGCCGCCCAGGGGGATCGTCTCGCCTTCTCCACCGACAGCTATGTGATTGACCCGCTGTTCTTTCCCGGCGGCAATATCGGCAAGCTGGCCGTCTGCGGTACCGCCAACGATGTGGCGGTCAGCGGCGCCATCCCCCGCTATCTTTCCTGCGGGTTTATTCTCGAAGAGGGGCTGGAGATGGCTACCCTGGAAGCGGTGGTCGCCAGCATGGCCGATACCGCCCGGGCGGCAGGGATCGCCATCGTTACCGGCGACACCAAAGTGGTGCCGCGCGGCGCGGCGGATAAGCTGTTTATTAACACCGCCGGCATCGGCGCCATCCCGGCAGACGTTCGCTGGGGGACGCAGCAGATCAGCGCCGGCGATGTGCTGCTGGTCAGCGGCACGCTGGGGGATCATGGCGCCACCATCCTTAATCTGCGCGAGCAGATGGGGCTCGACGGCGCGCTGTCCAGCGACTGCGCGGTGCTGACGCCGCTGATCCAAACCCTGCGGCCGCTGCGCGGCGTCAAAGCCCTGCGCGACGCCACCCGCGGCGGCGTCAACGCCGTCGCCCATGAGTTCGCCGCCGCCAGCGGCTGCGGCATTGAACTGCACGAGGCGAAGCTGCCGGTCAACGACACCGTGCGCGGAGTCTGCGAGCTGCTCGGGCTGGACGCCCTGAACTTCGCCAATGAAGGCAAGCTGGTGATCGCCGTCGCCCGCGAAGAAGCGGAAAACGTGCTGGCGCATATACGGTCTCACGCCCTGGGACGCGAGGCGGCGATAATCGGCGAGGTGGTCGCCCGCCCGGGCGTGCGTTCCGTCGGGCTGTACGGCGTGAAGCGGACGCTCGATCTTCCCCACGCCGAGCCGCTGCCGAGAATTTGTTAA	MKSVQLAHGSGGQAMQQLIGDLFMQAFANPWLAEQEDQARLDLAALAAQGDRLAFSTDSYVIDPLFFPGGNIGKLAVCGTANDVAVSGAIPRYLSCGFILEEGLEMATLEAVVASMADTARAAGIAIVTGDTKVVPRGAADKLFINTAGIGAIPADVRWGTQQISAGDVLLVSGTLGDHGATILNLREQMGLDGALSSDCAVLTPLIQTLRPLRGVKALRDATRGGVNAVAHEFAAASGCGIELHEAKLPVNDTVRGVCELLGLDALNFANEGKLVIAVAREEAENVLAHIRSHALGREAAIIGEVVARPGVRSVGLYGVKRTLDLPHAEPLPRIC	PGPT0000260_1157	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-HYDROGENASE_BIOSYNTHESIS,PGPT0000260-hypE-K04655	NA	NA
BMS020_01602	2073	fhlA	COG3604	Formate hydrogenlyase transcriptional activator	ATGTCGTATACACCGATGAGCGATCTCGGCCAGCAGGGTCTGTTTGATATCACCCGGCTTTTATTACAGCAGCCCGATCTGGCTGCGCTGAGCGAAACCCTGACCCGCCTGGTGCAACAGTCCGCACTGGCCGACGAAGCGGCCATTATCCTGTGGAACGCAGGCAACCACCGCGCGGCCAGATACGCCTGCGATGAGGCAGGCCAGCCGGTGAGCTATGAAGATGAAACCGTGCTCGCCCACGGACCGGTGCGCCGCTTACTCTCCCGGCCGGATGCTCTGCATTGCGATCATGAGACCTTTGCCGACACCTGGCCGCAGCTTATCCGCAGCGGGATCTATCGCCCGTTCGGGTACTACTCACTGCTGCCGCTGGCGGCCGACGGGCGGATCTTCGGCGGTTGCGAATTTCTGCGCCGTGACAACCGGCCATGGAGCGAGAAAGAGTTCCAGCGGCTGCATACCTTCGCGCAGATCGTCGCCGTCGTCAGCGAGCAGATTCAGAACCGGGTCAGCAATAACGTCGATTACGATCTGCTGTGCCACGAGCGCGACAACTTCCGCATCCTGGTGGCGATCACCAACGCGGTCCTCTCACGTCTGGATATCGACGAGCTGGTCAGCGAGGTGGCGAAAGAGATCCATCGCTACTTCCGGATCGACGCCATCAGCGTGGTGCTGCGCAGCAACCGCAAAGGGAAGCTCAACATCTATTCCACACACTATCTCGATGCCAGCCATCCCGTTCACGACCAGAGCGAGGTAGATGAAGCGGGCACCCTCACCGAGCGCGTGTTCAAAAGCAAAGAGATGCTGCTGCTTAATCTGCACGAGCATGACACCCTCGCGCCGTACGAGAAAATGCTCTTCGAAATGTGGGGCAACAAGATCCAGACCCTGTGCCTGCTGCCGCTGATGTCCGGCAACACCCTCCTCGGGGTGCTGAAGCTGGCGCAATGCGACGAACAGGTGTTTACCACCACCAATCTCAAGCTGCTGCGCCAGATCGCCGAGCGGGTGTCGATCGCTATCGATAACGCCCTCGCCTACCGCGAAATTCAGCGCCTGAAAGAGCGGCTGGTGGATGAGAACCTCGCCCTCACCGAGCAGCTCAACAATGTCGAGAGCGAATTCGGGGAGATCATCGGCCGCAGCGAGGCGATGAACAATGTGCTCAAGCAGGTCGAGATGGTGGCCCACAGCGACAGCACCGTGCTGATCCTCGGCGAAACCGGCACCGGCAAAGAGCTTATCGCCCGCGCCATTCATAACCTCAGCGGACGAAACAGTCGGCGGATGGTGAAGATGAACTGCGCCGCGATGCCCGCCGGACTGCTGGAGAGCGATCTGTTCGGCCACGAACGCGGAGCGTTCACCGGGGCCAGCGCCCAGCGTATCGGCCGCTTCGAACTGGCGGACAAAAGCTCCCTGTTCCTTGATGAAGTGGGCGATATGCCGCTGGAGCTGCAGCCCAAACTGCTGCGCGTTCTCCAGGAGCAGGAGTTCGAGCGCCTGGGGAGCAACAAGCTGATCCAGACCGACGTCCGACTGATCGCCGCCACCAACCGCGATCTCAAGCAGATGGTTATCGACAGGGAATTTCGCAGCGACCTCTACTACCGGCTCAACGTGTTCCCGATCCACCTGCCGCCGCTGCGCGAGCGCCCCGACGATATCCCGCTGCTGGTGAAGGCCTTTACCTTCAAAATCGCCCGCCGCATGGGACGCAATATCGACAGCATTCCGGCGGAGACCCTGCGTACCCTGACGCGCATGGAGTGGCCGGGCAACGTGCGCGAGCTGGAAAACGTCATCGAACGGGCGGTGCTGCTGACCCGCGGCAACGTGCTGCAGCTCTCCCTGCCGGAGCGGGATATCGTCGAGCCTCCGCGGTCGCCAGAGGTCCTGCCTGAGGAAGGCGAAGATGAATATCAGCTGATCGTCCGGGTGCTGAAGGAGAGCAACGGCGTGGTGGCCGGGCCGAAAGGCGCCGCCCAGCGGCTGGGGCTGAAGCGCACCACGCTCCTGTCGCGCATGAAGCGGCTGGGTATTAATAAAGACGAGCTGGTGTAG	MSYTPMSDLGQQGLFDITRLLLQQPDLAALSETLTRLVQQSALADEAAIILWNAGNHRAARYACDEAGQPVSYEDETVLAHGPVRRLLSRPDALHCDHETFADTWPQLIRSGIYRPFGYYSLLPLAADGRIFGGCEFLRRDNRPWSEKEFQRLHTFAQIVAVVSEQIQNRVSNNVDYDLLCHERDNFRILVAITNAVLSRLDIDELVSEVAKEIHRYFRIDAISVVLRSNRKGKLNIYSTHYLDASHPVHDQSEVDEAGTLTERVFKSKEMLLLNLHEHDTLAPYEKMLFEMWGNKIQTLCLLPLMSGNTLLGVLKLAQCDEQVFTTTNLKLLRQIAERVSIAIDNALAYREIQRLKERLVDENLALTEQLNNVESEFGEIIGRSEAMNNVLKQVEMVAHSDSTVLILGETGTGKELIARAIHNLSGRNSRRMVKMNCAAMPAGLLESDLFGHERGAFTGASAQRIGRFELADKSSLFLDEVGDMPLELQPKLLRVLQEQEFERLGSNKLIQTDVRLIAATNRDLKQMVIDREFRSDLYYRLNVFPIHLPPLRERPDDIPLLVKAFTFKIARRMGRNIDSIPAETLRTLTRMEWPGNVRELENVIERAVLLTRGNVLQLSLPERDIVEPPRSPEVLPEEGEDEYQLIVRVLKESNGVVAGPKGAAQRLGLKRTTLLSRMKRLGINKDELV	PGPT0000205_145	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-HYDROGENASE_BIOSYNTHESIS,PGPT0000205-hyfR-K12146	NA	NA
BMS020_01603	918		COG0803	putative periplasmic iron-binding protein	ATGCTGCACCTGACACCGCTGAAATCATTACTGCTGGCCAGCGCGCTGGCCCTGCTGGCCGCGGCGCCGGCCTCGGCGCAGGAGAAATTCAGGGTTATCACCACCTTCACGGTTATCGCCGATATGGCGCAGAACGTGGCCGGCGATGCCGCCGTCGTCAGCTCCATCACCAAACCGGGCGCGGAGATCCACGACTACCAGCCTACCCCCGGCGATATCAAACGCGCGCAGGGGGCGCAGCTGATCCTCAGCAACGGTCTCAATCTCGAACGGTGGTTTGCCCGCTTTTATCAGCACCTGCAGGGCGTCCCGGAGGTGGTGGTCAGCGAGGGGATCCAGCCGATGGGCATCAGCGCAGGCCCCTATAGCGGAAAGCCCAATCCCCATGCCTGGATGTCGGCAGATAACGCCCTGATCTATGTCGATAATATTTGCGATGCGCTGGTGAAATACGATCCGCCTCACGCCGACACCTATCGCCGCAACGCCGAGGCCTATAAAGAGAAGATCCGCCAGACGATGGCGCCGCTGCAGGCCAGACTGGCGCAGCTGCCGACGGATAAGCGCTGGCTGGTCACCAGCGAGGGAGCCTTCTCCTATCTGGCCCGCGACTATGGCCTGCGCGAACTGTATCTGTGGCCGATTAACGCCGACCAGCAGGGCACTCCGCAACAGGTGCGCAAGGTTATCGACACCATGAAGAAAGAACAGATCCCGACCATCTTCAGCGAAAGCACCATCTCCGATAAACCGGCGCGTCAGGTGGCGCGCGAAGCCGGCGCCCACTACGGCGGCGTGCTGTATGTCGATTCGCTGAGCGCCGCCGACGGCCCGGTGCCGACCTGGCTCGACCTGCTGCGCGTCACCACCGAAACCATCGTCAACGGTATCCAGGACGGGATGAGGAAACAGCCATGA	MLHLTPLKSLLLASALALLAAAPASAQEKFRVITTFTVIADMAQNVAGDAAVVSSITKPGAEIHDYQPTPGDIKRAQGAQLILSNGLNLERWFARFYQHLQGVPEVVVSEGIQPMGISAGPYSGKPNPHAWMSADNALIYVDNICDALVKYDPPHADTYRRNAEAYKEKIRQTMAPLQARLAQLPTDKRWLVTSEGAFSYLARDYGLRELYLWPINADQQGTPQQVRKVIDTMKKEQIPTIFSESTISDKPARQVAREAGAHYGGVLYVDSLSAADGPVPTWLDLLRVTTETIVNGIQDGMRKQP	PGPT0004320_121	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-YFE-ABC_TRANSPORT_SYSTEM,PGPT0004320-sitA-K11604	NA	NA
BMS020_01604	822	mntB_3	COG1121	Manganese transport system ATP-binding protein MntB	ATGAATACTGCGCAAGCGGGTCTGTATGTCGACCAGCTCACCGTCACCTGGCGCAACGGCCACACCGCCCTGCGCGACGCCTCGTTCAGCGTACCGCGCGGCGCCATTGCCGCGCTGGTGGGGGTTAACGGCTCGGGTAAATCCACACTGTTTAAAGCGCTGATGGGCTTTGTGCGCGTCGCTCACGGCGAGATCGCCATCCTCGGCCAGCCGGTCAACCGCGCGCTGCGCCAGAACCTGGTCGCCTATGTCCCGCAGTCGGAAGAGGTGGACTGGTCCTTCCCGGTGCTGGTGGAGGATGTGGTGATGATGGGCCGCTACGGCCATATGGGCTGGCTGCGGCGGGCAAAGCCGCGCGATCGCGAGATTGTCGATGCCGCGCTGGCCCGCGTGGGCATGAGCGAGTACCGCCATCGGCAAATTGGCGAGCTCTCCGGCGGGCAGAAAAAGCGCGTCTTCCTTGCCCGCGCCATCGCTCAGCAGGGCCAGGTGATCCTGCTGGATGAGCCTTTTACCGGCGTCGATGTGCAGACCGAAGCGCGGATCATCAGCCTGCTGCGCGAGCTCCGCGATGAGGGCTGTACCATGCTGGTCTCCACCCATAATCTCGGGTCCGTAAGTGAATTTTGCGATTACACGGTGATGGTAAAAGGCACCGTGCTGGCCAGCGGCCCGACAGAAACCACCTTCACCGCCGAGAATCTGGAGCGGGCTTTCAGCGGCGTACTGCGCCACGTCGCGCTCACCGGTGCGGAAGCGCAGATTATCACCGATGACGAGCGGCCGTTTATCAGCCGGCGCGCGGCGGGAGGCCCACGATGA	MNTAQAGLYVDQLTVTWRNGHTALRDASFSVPRGAIAALVGVNGSGKSTLFKALMGFVRVAHGEIAILGQPVNRALRQNLVAYVPQSEEVDWSFPVLVEDVVMMGRYGHMGWLRRAKPRDREIVDAALARVGMSEYRHRQIGELSGGQKKRVFLARAIAQQGQVILLDEPFTGVDVQTEARIISLLRELRDEGCTMLVSTHNLGSVSEFCDYTVMVKGTVLASGPTETTFTAENLERAFSGVLRHVALTGAEAQIITDDERPFISRRAAGGPR	PGPT0004325_388	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-YFE-ABC_TRANSPORT_SYSTEM,PGPT0004325-sitB-K11607	NA	NA
BMS020_01605	849	mntB_4		Manganese transport system membrane protein MntB	ATGAGCTGGCTGCTGGAGCCGTTTGGCTATCACTATATGCTCAATGCGATGTGGGTGGCGGCGCTGGTGGGCGGCGTCTGCGCCTTTCTCTCCTGCTACCTGATGCTGAAGGGCTGGTCGCTGATTGGCGACGCCCTTTCCCACTCGATTGTGCCCGGCGTCGCCGGGGCCTATATGCTCGGCCTGCCGTTTGCCCTCGGCGCGTTTCTCTCCGGCGGCCTGGCGGCGGGCAGTATGCTGTTTTTGCAGCAGCGGTCGCAGCTGAAAGAGGATGCGATTATCGGCCTGATATTCTCCTCCTTCTTCGGGATCGGGCTGTTTATGGTGTCGCTGAACCCGACGTCGGTGAATATCCAGACTATTATCCTCGGCAATATTCTGGCCATCGCCCCGGAGGATATTATCCAGCTGGCGGCGATCGGCTTTATCTCGATGGCGATCCTGCTGTTGAAGTGGAAAGATCTGATGGTGACCTTCTTCGATGAGCACCACGCCCGCTCGATTGGTCTGAACACCCGCGGCCTGAAGCTGCTGTTCTTTACCCTGCTGGCGGCCTGCACCGTAGCGGCGCTGCAGACCGTCGGCGCCTTTCTGGTTATCTGCCTGGTGGTCACCCCCGGCGCCACCGCCTGGCTGTTAACCGACCGCTTCCCGCGCCTGCTGGCCATCGCCGTCGCCATCGGCAGCCTGACCAGCTTCTTCGGCGCCTGGCTCAGTTACTACCTCGACGGCGCCACCGGCGGCATTATCGTGGTGGCGCAAACGCTGCTGTTCCTCATCACCTTTATCTTCGCGCCGAAGCATGGCCTGCTGGCCAACCGCCGCCGCGCCGGGGAGGCCGCATGCTGA	MSWLLEPFGYHYMLNAMWVAALVGGVCAFLSCYLMLKGWSLIGDALSHSIVPGVAGAYMLGLPFALGAFLSGGLAAGSMLFLQQRSQLKEDAIIGLIFSSFFGIGLFMVSLNPTSVNIQTIILGNILAIAPEDIIQLAAIGFISMAILLLKWKDLMVTFFDEHHARSIGLNTRGLKLLFFTLLAACTVAALQTVGAFLVICLVVTPGATAWLLTDRFPRLLAIAVAIGSLTSFFGAWLSYYLDGATGGIIVVAQTLLFLITFIFAPKHGLLANRRRAGEAAC	PGPT0004330_407	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-YFE-ABC_TRANSPORT_SYSTEM,PGPT0004330-sitC-K11605	NA	NA
BMS020_01606	855	mntB_5		Manganese transport system membrane protein MntB	ATGCTGAATCTGATCCTGGCCCCGTTCCAGTTTCCTTTTATGGTCAACGCGATAACAGTATCGATGGTCGTTGCCGTGCCCTGCGCGCTGCTGTCGGTCTTTCTGGTACTCAAAGGCTGGGCGCTGATGGGCGACGCCATGAGCCACGCGGTCTTTCCCGGCGTGGTGCTGGCCTACATTATCGGCATCCCCTTCGCCATCGGCGCGTTTATCGCCGGGCTGCTCTGCGCCGTGACGACCGGTTTTCTCGACGATAACAGCCGCCTCAAACGCGATACCATCATGGGAATTGTCTTCTCCGGCATGTTTGGCGCCGGGCTGGTGCTGTACGTAGCGATCCAGTCCGACGTCCATCTCGACCATATTCTGTTCGGCGATATGCTCGGGATCTCCCTCAGCGATATTGGACAAACGGCGGCTATCGCGCTGGTGATCGCGCTGATTATCGGGCTGAAATGGCGGGATTTTTTGCTGCACGCCTTCGATCCGACGCAGGCCAAAGCCAGCGGCCTGCGCGGCGGACTGCTGCATTACGGCATGCTGTGCATGATCGCCCTGACCATCGTCGCGACGCTGCAGTCGGTAGGGATTATTCTGTCGATTTCGCTGCTGATTGCCCCCGGGGCGATCGCGCTCCTGCTGGTACGGCGCTTTATCCACGCCCTGCTGCTGGCGGTGGCGGTAGCGGTCTGCTGCTCGGCGGGAGGGGTGTGGCTGGCGTTTTATCTCGATAGCGCGCCGGCGCCGACTATCGTGGTGCTGTTCAGCGCGCTGTTTGTGGTCGCCTTTGTGACAAGCACGATCCGGGATAGTCAGAAACAGAAGGCTTCATCACCCATCCCCGGTGGCGGCTAA	MLNLILAPFQFPFMVNAITVSMVVAVPCALLSVFLVLKGWALMGDAMSHAVFPGVVLAYIIGIPFAIGAFIAGLLCAVTTGFLDDNSRLKRDTIMGIVFSGMFGAGLVLYVAIQSDVHLDHILFGDMLGISLSDIGQTAAIALVIALIIGLKWRDFLLHAFDPTQAKASGLRGGLLHYGMLCMIALTIVATLQSVGIILSISLLIAPGAIALLLVRRFIHALLLAVAVAVCCSAGGVWLAFYLDSAPAPTIVVLFSALFVVAFVTSTIRDSQKQKASSPIPGGG	PGPT0004335_186	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-YFE-ABC_TRANSPORT_SYSTEM,PGPT0004335-sitD-K11606	NA	NA
BMS020_01607	342			hypothetical protein	ATGGGAAAGCGTATCGAACGGGAAAAGATGACGATTCAGCGGATGATTGCCCTCTACCAGCGGCGCTGTCCTAAGGCGCTGGCCAATAATGAGCACTATCAGGCGCTGAACGCCTACGCCGACAAGCGGCTTGATAAGTGCGTGTTTGGCGACAATAAACCGGCCTGCAAGCAGTGTCCGGTACACTGCTATCAGCCGGCGAAGCGCGAAGAGATGAAGCAGATTATGCGCTGGGCCGGGCCACGAATGCTCTGGCGCCACCCGATCCTGACCCTTCGCCATCTGCTGGATGACAGGCGGCCGGTGCCGCCGCTGCCGGAAAAATATCGACCGAAAAAATAG	MGKRIEREKMTIQRMIALYQRRCPKALANNEHYQALNAYADKRLDKCVFGDNKPACKQCPVHCYQPAKREEMKQIMRWAGPRMLWRHPILTLRHLLDDRRPVPPLPEKYRPKK				NA	NA	NA	NA	NA
BMS020_01608	888	tsaR_3		HTH-type transcriptional regulator TsaR	ATGCCAATGAAATTTAAACAGATTCAGGCATTTATTACCGTCGCTCACGAAGGCAATATGACCCTGGCCGCGGAGAAGATGGGGATCACCCAGTCAGGGTTAAGCCGGCTGCTATTGAGTCTGGAAGCGGACCTGAGCGCGACCTTATTCGAAAGACACAAACACGGTATGGCGTTGAGCGAATATGGCAGCGCCTTTTTACCCTATGCGCTGACGATGCTGAATACCGAACAAAAGGCTCGCGAGGAGATTGCGCTCATCCGCGGCGCCGGGAAAGGCATTCTGCGGATTGGCTGCGTTTCCAGCCTGCTGACCAGCCATTTCATCGATAAGCTGGCGGCTTTCCATCAGCGCCATCCCCAGATCCATCTGCGGATCGTCGACCGCATTGACTCCGATCTCTTTAAACTCCTGCTGATGCACGACATCGATATCGCCCTCTGCGGCCCCTTACCGCATGATGAGAAAATCGTGGTGCGCGGTAAAATTAACTGGCAGGACCGGATCTGCATCGTCGCCAGGCAGCGCCACCCGCTGCATCAGGCGGCGAACGTCTCCCTCGAGGCGATGCTGGACTATCCGTGGATCATGCCGCCGCCGTTAAGTACCCCGATGAACATCCTTGAGGACATCTTTCGTGCCCATCAGCTACCCTGTCCGCAGCCGATGATTGAGTGCGCGTCCTCCTCGGCCATTAAGGCCTTTCTGTGCGAGAGCGATCTGTTAACGTCGATGCCAGCCCCGGTTTACCGGCACGAGGAAGCGCTGGGCCTGCTGCGTCCGTTCGAGCTTGAGGGCAGCGTTTTTATCCGCGATTTCTACGCCTACAGCCACTTCGGGGTCATGTCCGGGGCAGCCCTGCAGTTGATTCAGCATCTGAAGCAGTGA	MPMKFKQIQAFITVAHEGNMTLAAEKMGITQSGLSRLLLSLEADLSATLFERHKHGMALSEYGSAFLPYALTMLNTEQKAREEIALIRGAGKGILRIGCVSSLLTSHFIDKLAAFHQRHPQIHLRIVDRIDSDLFKLLLMHDIDIALCGPLPHDEKIVVRGKINWQDRICIVARQRHPLHQAANVSLEAMLDYPWIMPPPLSTPMNILEDIFRAHQLPCPQPMIECASSSAIKAFLCESDLLTSMPAPVYRHEEALGLLRPFELEGSVFIRDFYAYSHFGVMSGAALQLIQHLKQ				NA	NA	NA	NA	NA
BMS020_01609	942			hypothetical protein	ATGACACAGAACAATATTCTATTAATTTCAGGCGCCATATTACCGGTCATCATTACCGTCATCATCGGCTATATTAGCGGTAAACGAAAAGACTTTAACTGGCAGCAGGCGGGAGACATCAATAAAATTGTGATGCTCTATGCATTACCGCTAAGTATTTTCAGCAATATGGTGATGACGCCGCGACACATCGTCATGACCATGGGCCCGGTTGCTGTGGCCATTATCCTCGCGCTGATTCTGAGCTTCGTCATTCCCTTACTGGTCGCCCGCTATCTGTTTCGACGCGACCTCGCCCTCAGTACGCTGCAGGCGCTGGCCATCGGCTCGCCGGCAGTCCCGTTTATCGGCACCTCAGTGCTGGCCTTTTTATTTGGCACCGTCAGCGCGTCGCTGATCACCGTGTCCAGCATCACGCAAAACGTCTTCCAGCTGCCGCTGGTAATGATTCTGATGTCGGTCGCCACTGGCGATAAGAGCCAGCATATCTCCTTTGGAACACGGGTGATAAACGCCATTAAACAACCTGTGGTCTGGTCACCGGTGATCGCCCTGATCATCGTGCTGGCGGATATCCATATTCCGCAGACTATCTCGATGTCGCTGGGTTTGCTGGGCAAAGCCTCTGGCGGGCTGGCGCTGTTTGCCGCCGGGATCGTGCTCTATACACGCAGCATTGTTATCACCACCGCTACCATTATCACCGTTATCGCCCGCAATATTCTGGTCCCCGGCGCCTGCTATCTCCTTTTATTAAAAATGGGCTTCAGCATGGAGCAAATAAAGGAAGTCGTTTTGACGATGGCTATCCCGGTAGGCTCCATCGCGATAATTATTGCTATGCAGTATAAAACCGGCGAGCAGGAAATGGCCTCGACGATGGCGCTGAGTATTATTGCCTCCATCATTACGATGGGCGGATTTATTTTCTTAACCTTTTAA	MTQNNILLISGAILPVIITVIIGYISGKRKDFNWQQAGDINKIVMLYALPLSIFSNMVMTPRHIVMTMGPVAVAIILALILSFVIPLLVARYLFRRDLALSTLQALAIGSPAVPFIGTSVLAFLFGTVSASLITVSSITQNVFQLPLVMILMSVATGDKSQHISFGTRVINAIKQPVVWSPVIALIIVLADIHIPQTISMSLGLLGKASGGLALFAAGIVLYTRSIVITTATIITVIARNILVPGACYLLLLKMGFSMEQIKEVVLTMAIPVGSIAIIIAMQYKTGEQEMASTMALSIIASIITMGGFIFLTF	PGPT0001720_1394	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0001720-mdcF-K13936	NA	NA
BMS020_01610	1710	ilvI_1	COG0028	Acetolactate synthase isozyme 3 large subunit	ATGGCATCTATCACATTATCGGCTGCTGAACTGTTACTGCATCGGCTACAGGCGCTGGACGTGGCATATATTTTTATTAACTCGGGCACCGATTATCCGCCGGTTATTGAAGCCTGGGCAAAGGCCCGGGCGACCGGACAAAAGGTACCCGAGCTGGTGATCTGCCCGCATGAAAACGCCGCCATCGGCATGGCGCACGGCTACTACCTCGGCACCGGCAAGGTGCAGGCGGTGATGGTTCACACCAACGTCGGGTTAGCCAACGCCGCCTGCGGCGTCATCAATCTGGCGAACAGCAATATTCCGGTACTGATTTTTGGCGGCCGCACGCCGATTAGCGAACATTCCCACTTCGGCTGCCGCAATACGCCGATTGGCTACGGCCAGGAGATGCGCGACCAGGCGGCGCTCATTCGTGAATCCGTAAAGTGGGATGTTGAACTGCGGCTGGCCGATCAGATCGGCGAACATGTTGACCGGGCCTGGGCGATTGCCAGCTCCCTGCCGAAAGGGCCAGTCTACTTGAGCTTACCGCGTGAGCCACTGTGCGAAACCTTTGCCGTTGATGAAGCCGCGCTGCAGGCTGGCCCTTCGCAGCAGCCGTTCCGCTATGCGCCAGTCCGGAAAGATATCGCCCGGGCCGCCGAGGCAATCGCCTGCGCCAGGCATCCCGTCATTTTCGCCCAACGCGGCGCCCGAACGGCGGGTGGCTTTGCGCGACTTAATAGCCTGGTGCGCGAATGGGCGATCCCATTGGTGGAATACTGGGGTACCGAGGTGACCCTCAGCGCCGATAATCCACTGCTCGCCGGGGCCGACCCCAGCGCCTGGCTCGCCGACGCCGATGTGATTCTGGTGGTCGACTCGCAGGCGCCGTGGATGATCGCCGAGGGCGACTGTCGCCGGGACTGCACCGTGATCCAGATCGGCCCCGATCCGCTCTTCTCCCGCTACCCGGTGCGTGGCTATCGCGCGGACATCAATCTGGCAGGTGAAACCGATGAAGTCTTCAGCCTGCTGGAAGAGGCGCTGCGCCCGCTGCAGGCCGCCCGCCAGCGGCATGTGACGGAGCGGGCGGCGCATACACAGAACCGCATCCAGCAACAGAAAAATCAGCGCGACGCGCTTCTTCATGCCAGCCAGACCGGAGCCATTACCAAACCCTGGCTCAGCTACTGCCTCGGTCATCTGGCCAATCAGCATCGCGGCCGGATCGTCTCTGAGCTCACTACCCTCCCACACTATGCCGGACTGACCCATGCCGAGAGCTATTACCAGGAAGCGCTGGCCGGCGGCCTGGGCGAAGCCCTGCCCATTGCGCTGGGGCTGCAGCTTGCGCGCCAGGAAGAGCTGATTATTGCCGCCGTCGGCGACGGCTCGTACCTCTTCGCCAACCCTGCGGTATGCCACCATATTGCGGAGGTATTGAAGCTCCCTGTCCTCGTCGTGGTCGGAAACAACGGCGGATGGGGCGCCGTCGCGGGCGGCACCAAAGCGCTCTACCCGGACGGCTACGCGGCCCGCGCGGAGATCATCCCGGCCACCGCCTTTACCACCTCGCCGGATTTCGCCGCGATCGCTGCCTCCAGCCGCGCGGCGGCCCTGTCGGTTTCCCGGGCCGAAGATCTCCCCGGCGTGCTGGAAGAGGCTGTATCCCTCATACACACCCGCCGACAAAGCGTGCTGGTTGACGTGCAGTTAGCCCGCTAA	MASITLSAAELLLHRLQALDVAYIFINSGTDYPPVIEAWAKARATGQKVPELVICPHENAAIGMAHGYYLGTGKVQAVMVHTNVGLANAACGVINLANSNIPVLIFGGRTPISEHSHFGCRNTPIGYGQEMRDQAALIRESVKWDVELRLADQIGEHVDRAWAIASSLPKGPVYLSLPREPLCETFAVDEAALQAGPSQQPFRYAPVRKDIARAAEAIACARHPVIFAQRGARTAGGFARLNSLVREWAIPLVEYWGTEVTLSADNPLLAGADPSAWLADADVILVVDSQAPWMIAEGDCRRDCTVIQIGPDPLFSRYPVRGYRADINLAGETDEVFSLLEEALRPLQAARQRHVTERAAHTQNRIQQQKNQRDALLHASQTGAITKPWLSYCLGHLANQHRGRIVSELTTLPHYAGLTHAESYYQEALAGGLGEALPIALGLQLARQEELIIAAVGDGSYLFANPAVCHHIAEVLKLPVLVVVGNNGGWGAVAGGTKALYPDGYAARAEIIPATAFTTSPDFAAIAASSRAAALSVSRAEDLPGVLEEAVSLIHTRRQSVLVDVQLAR	PGPT0008185_5349	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
BMS020_01611	294			hypothetical protein	ATGAATTCAAAAGCGGCTATCACCATAACCTATTGTTCCCAGTGCAACTGGATGCTGCGCGCCAGCTGGATGGCGCAGGAGCTGTTACACACCTTCAGCACCGATATCGCCTCGGTGACGCTGGTGCCGGGCACCGGCGGGATCTTTACTATCGATATCGACGGCCAGCAGATCTGGGAGCGCAAGCAGGATGGCGGCTTTCCGGATGCGGCAGAGCTGAAACGCCGGGTGCGCGATGTCTGCTTCCCGGAGAAGCCGCTGGGCCATGTGGATAAAGGTGACCAGAAGGAGTGA	MNSKAAITITYCSQCNWMLRASWMAQELLHTFSTDIASVTLVPGTGGIFTIDIDGQQIWERKQDGGFPDAAELKRRVRDVCFPEKPLGHVDKGDQKE				NA	NA	NA	NA	NA
BMS020_01612	2364			hypothetical protein	ATGTACAAATCGACTCCGTCAGCAGCAGGGTGTAAAAAACGCCTGCTGGTGACCTCTTTGCTTGCAGCAATTTATCAAACTTCTGCCGTCGCAGCAGGCACTTCCGCCATCGGCGGCGAGGCGGTGGATGACACCTCGGAACAAATGACCGTCACCGCTCCCGCGCCGGCGCAAAAAGCCGGTAACGAGCACAGCATCAGCGCCCGGGAGCTGGAGGACAAAGGCGCTAACGATTTCGGCTCGATCATGCGCTATGAACCGCTCATCAGCGCCACCGGGGCCAGCGGCGGCTCCGGCAACGGCAAAAGCGGCTTCGACCGCGGGGGCTACACCGGCTACAACATTCGCGGCATGGAGAGCAACCGCGTCGGTATCGACGTGGACGGTATCGCCCAGCCCAACGCCACCGGCCGCGGCTACGTCGGCCGCTCGGGGCTCAATACCTTCGGCATCGGCCGCGATTATATCGACCCGTATATGTACGGCAGCGTGGATATCCAGTCCGGCGCCACCTCGACGGAAACGGTCAACAGCGCCATCGGAGGGAATGTCTCCTTCCGCCCGAAATCGGCGGATGATTACCTGCGCCCGGGCAAAACCAGCGCCTTCGGCTATCGCAGCGGCTACGACTCCGCGGATCGCAGCTGGCACAACGGGGTGACCGTCGCCGCCGGCGATGAGTTCCTGCGCGGCATTTTGGTCTACAGCCGCCGCGACGGCCAGGAAACCGAAAATAACAGCGGCACCGTCGACGCCTACCCGGCGAACTGGCACTCCGATGCCTTTCTGGCCTCCGGGATCTGGCAGCCCAACGACGAGCACAAGCTAACCAGCACCTTCGACTATTACCACAAAACCAACCACACCCACTACGATACCTGGGATTCCAGCGGCAACAGCACCATCGGCACCGCCAACCAGACCAGCCAGACCCGACGCTGGGGCCTGAGCCTGAAGGATGACTGGACGCCGATGAATGACTACCTCGACAGCGTCTCCAGTAAAATCTATTACCAGCATACCGAAGCCCATGACTGGACGTATATGCCGGACAGCGTCACCCGCAGGATGCAGACGGTGAACTCCAACTACGACACCGACACTTGGGGCCTGCAGACCGCGCTGGCGAAAACCCTGGGCCGCCACGATCTGAGCGCCGGCTTCAACGCCAGCACCAGCAAAACCCAGCGGCCCTTCAGCCAGTCGCCGATCCCCAGCGTTTACAGCGAGATCATGCAGCCGGAGGCGGACAGCCGCAGCTACACTCTCGGCGGCTTTGTCCAGGATAAGATCAACTTCGACCTTGATAGCCACAACTTCGCCATTATTCCCGGCGTGCGCGTGGTGCATCAATCGACGAAGCCGGAAAATCTGTCCGACCTTGCCGCCAACAGCAGCGCGCTGACCGAATCGTCAGTAGCGAATCTGTACGGTAAAAACAGCGATACCCAGGTTCTGCCGTCGTTGACCTTCCAGTACGACCTCACCCCGCGCCTGATGACCTACCTGCAGTACCAGCGCGGCGCGCAGTTCCCCAACGCCAGCCAGCTGTATGGATCCTGGAACCTTGGGTCCAGCTACGCCGGTAGCCAGCAGTATGCCCTGATCGGCAATACCGATCTGAAGACTGAAACCAGCGATAATCTCGAGTGGGGGCTGAAGGGGGAAGTTACCGAAGGCATCACCCTGCGCACAGCGCTGTTCTACAACAGCTATAAGAACTTTATCGCCTATACCCGCTATACCCGGGCGAATAATCCGGGCCAGTTCACGAATGTGCCGTCGAATATCTACACCATTTATCAGGCGGAAAACCGCGATAAAGCCTATATCTACGGCGGTGAAATTAGCACTAAATTTAACTTTGGCACCTGGTATGAGCAGGTGGACGGCCTGAGCGCCACCCTCGCCTTCGGCTATAGCGAAGGGAAATCGAAATCCAGCTACAGCGGCGATAAATACGTCGACCTCGACAGCGTAGCGCCGATGAAAGCTATCGTCGGCGTGGCGTGGGACGATCCGGCGAAACGCTACGGCACCGCCCTGACGGCGACCTTCGTCAAGGGGAAACAGGCGACCGCCACCAACCGCGAAAGCTACAGCAATAGCGGGTCCGCCATCGCCGATGCCAGCAGCGACTATATGCGCGTGCCGGGCTACGGCATGCTGGACTGGACCGCGTACTGGCAGGTGGCGAAAAACGTGCGCCTCAATGGCGGGGTCTACAACCTCACCGATCGTAAATACTGGGATTACCTGAGCAGCCGCAATATCGAGACCGGCACCAACCAGGACGCCAATGATAAAGCGCTGGCGGTCATGCCGGGCCGCACCTGGCAGCTTGGGGTCAACGTCGACTTCTGA	MYKSTPSAAGCKKRLLVTSLLAAIYQTSAVAAGTSAIGGEAVDDTSEQMTVTAPAPAQKAGNEHSISARELEDKGANDFGSIMRYEPLISATGASGGSGNGKSGFDRGGYTGYNIRGMESNRVGIDVDGIAQPNATGRGYVGRSGLNTFGIGRDYIDPYMYGSVDIQSGATSTETVNSAIGGNVSFRPKSADDYLRPGKTSAFGYRSGYDSADRSWHNGVTVAAGDEFLRGILVYSRRDGQETENNSGTVDAYPANWHSDAFLASGIWQPNDEHKLTSTFDYYHKTNHTHYDTWDSSGNSTIGTANQTSQTRRWGLSLKDDWTPMNDYLDSVSSKIYYQHTEAHDWTYMPDSVTRRMQTVNSNYDTDTWGLQTALAKTLGRHDLSAGFNASTSKTQRPFSQSPIPSVYSEIMQPEADSRSYTLGGFVQDKINFDLDSHNFAIIPGVRVVHQSTKPENLSDLAANSSALTESSVANLYGKNSDTQVLPSLTFQYDLTPRLMTYLQYQRGAQFPNASQLYGSWNLGSSYAGSQQYALIGNTDLKTETSDNLEWGLKGEVTEGITLRTALFYNSYKNFIAYTRYTRANNPGQFTNVPSNIYTIYQAENRDKAYIYGGEISTKFNFGTWYEQVDGLSATLAFGYSEGKSKSSYSGDKYVDLDSVAPMKAIVGVAWDDPAKRYGTALTATFVKGKQATATNRESYSNSGSAIADASSDYMRVPGYGMLDWTAYWQVAKNVRLNGGVYNLTDRKYWDYLSSRNIETGTNQDANDKALAVMPGRTWQLGVNVDF	PGPT0003785_625	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_COMPLEX_RECEPTOR,PGPT0003785-TC_FEV_OM3|tbpA|hemR|lbpA|hpuB|bhuR|hugA|hmbR-K16087	NA	NA
BMS020_01613	1032	hemS	COG3720	Hemin transport protein HemS	ATGCCCAATGCCCACCCCGATCTGTGGCAGCGCTACCAGGCCACCAAAGCGTCCAGCACCGCGAAATATGCCCGCGATATCGCCGCGGAAATGGGGATCAGCGAAGCCGAGCTGACCGCCGCCCGCCTCGGTCACGATGCCGTGCGCCTGATCGATGACGCCCGGGCGCTGATTGCCGCCCTTGAGCGCGTCGGTGAAACCAAATGCATCTGTCGCAACGAGTATGCCGTGCATGAGCAGGTCGGCCAGTTCACGCACCAGCACCTCAGCGGCCACGCCGGGCTGGTGCTCAACCCGCGCGCGCTCGACCTGCGTCTGTTCCTCAGCCAGTGGGCCAGCGCCTTCCATCTGAACGATAACGGTCGCCAGAGCATTCAGTTTTTCGACCACCACGGCGATGCGCTGCTGAAAGTCTATGCGACCACGCAGACCGACATGGCGGCCTGGGACACCCTGATCGCGGAACATCGGGTGGCGGCCCCGGCGCCGCTGGCCCTGCGCCCGCTGGAGCCGGTGAAATATGCCGAGAGCGCCGACGGCGCCGCCCTGGAGAACGACTGGCGCGCGATGACCGACGTACACCAGTTCTTCGGTCTGCTGCGTAAATATCAGCTTTCCCGCCAGCAGGCCTTCCGCCTGGTGAGCGACGACCTCGCCTGCCGCGTTGATCGCCATGCGCTGCCAGCGTTACTGGAGACGGTGCGCCAGGAGGGCAATGAAATCATGATCTTCGTCGGCAATCGCGGCTGCGTGCAGATCTTCACCGGCGCCCTGGAAAAGCTGGCTCCCATGCGCGGCTGGCTGAATATCTTCAATACCAGCTTTACCCTGCATCTGCGCGAAGAGAGCCTCGATGAAGTGTGGGTGACCCGTAAGCCGACCTCAGACGGACACGTCACCAGCGTCGAGCTGTTCGCCAAAGACGGCACCCAGATCGCCCAGCTCTATGGCCAGCGCAGCGAGGGCCACCCCGAGCAGGCGCAATGGCGCCAGCAGGTGGATCGTCTGACCCGCGAAGGACTGCCCGCATGA	MPNAHPDLWQRYQATKASSTAKYARDIAAEMGISEAELTAARLGHDAVRLIDDARALIAALERVGETKCICRNEYAVHEQVGQFTHQHLSGHAGLVLNPRALDLRLFLSQWASAFHLNDNGRQSIQFFDHHGDALLKVYATTQTDMAAWDTLIAEHRVAAPAPLALRPLEPVKYAESADGAALENDWRAMTDVHQFFGLLRKYQLSRQQAFRLVSDDLACRVDRHALPALLETVRQEGNEIMIFVGNRGCVQIFTGALEKLAPMRGWLNIFNTSFTLHLREESLDEVWVTRKPTSDGHVTSVELFAKDGTQIAQLYGQRSEGHPEQAQWRQQVDRLTREGLPA	PGPT0003646_751	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_TRANSPORT,PGPT0003646-hemS-NA	NA	NA
BMS020_01614	819	hmuT	COG4558	Hemin-binding periplasmic protein HmuT	ATGATGCGCTGGTTACTGCTTCTCATCGCCTTCCCGTTGCTGAGCCACGCCGCTGTGGAGCGGCTCGTCACCCTCGGCGGCGATGTCACTGAGATCGTCTATGCCCTTGGCGCGCAACAGAGCCTGGTCGCCCGGGACAGCACCAGCAGCTGGCCCCCGGCGGCGCAAAAGCTGCCGGATGTCGGCTACCTGCGGCAGCTGAACGCCGAGGGGATCCTCGCATTACGTCCGCAGCTGGTGCTAGCGAGCGCCCAGGCGCAGCCCTCGCTGGTTTTACACAAGGTGCAGGCGAGCGGGGTGAAGGTGGTAAACGTGCCGGGCGGCGAAAGCCTGGCCGCGATCGATAACAAAGTGGCCGTCATTGCCGAAGCGTTAGGCAAAACCCCGGCAGGCGACGCGCTGCGCCAGCAGCTTCAGCAACAGATCGCCGCCATTCCAACGCAGCCGGTTACTAAGCGGGTGCTGTTTATTCTCAGCCACGGCGGAATGAATACCCTGGTGGCCGGGCAACGCACCGCGGCCGATGGCGCCATTCGCGCCGCCGGGCTGCAGAACGCGATGCAGGGCTTCGACCACTATCGGGCGATGTCGCAGGAGGGGGTGGCCGCCAGCCAGGCGGATCTGGTGGTGATCTCCGCCGATGGTCTCAAAGGGATGGGCGGCGAAGCCGGGCTGTGGAAACTGCCCGGCCTGGCGCAGACCCCGGCGGGGCGTCATAAGCAGCTGCTGACGATCGACGATATGGCCCTGCTCGGCTTTGGGCCGCGCACCCCGCAGGCGATTATCGCGCTGCGTGAAAAAGCGGAGCATCTGCCCTGA	MMRWLLLLIAFPLLSHAAVERLVTLGGDVTEIVYALGAQQSLVARDSTSSWPPAAQKLPDVGYLRQLNAEGILALRPQLVLASAQAQPSLVLHKVQASGVKVVNVPGGESLAAIDNKVAVIAEALGKTPAGDALRQQLQQQIAAIPTQPVTKRVLFILSHGGMNTLVAGQRTAADGAIRAAGLQNAMQGFDHYRAMSQEGVAASQADLVVISADGLKGMGGEAGLWKLPGLAQTPAGRHKQLLTIDDMALLGFGPRTPQAIIALREKAEHLP				NA	NA	NA	NA	NA
BMS020_01615	996	hmuU_1	COG0609	Hemin transport system permease protein HmuU	ATGCGCCCTGCCCTCGCCCGCCGTTTGCTGTTGATGACGCTGCTGCTGGTCCTGCTGACGCTGTTCGCCACCACCCTTGGCGCGATGCGTTTGCCGCTGGCCAGCCTGCTGCCCACCGGGGATGAGATGCTGCGCCACATCTGGCTGACCATCCGTCTGCCGCGGGTGCTGCTGGCCCTGCTGGTAGGCGCGGCGCTGGCCCTCTCCGGCTGCGTGATGCAGGGGCTGTTTCGCAACCCGCTTGCCGACCCGGGCCTGCTGGGCATCAGCAGCGGCGCCGCGCTGGCGGTGGCCAGCTGGCTGGTGCTCCCACTCTCCGCAACGGGGCTGATCGCCCTGTATATGCCGATGCTGGCGGCGTTTATCGGCAGCCTGGCGGTGATGGTGGTGATTTTTATCCTCAGCCGGGCGGAGGAGGGGTCGCTGTCGCGCCTGCTGCTGGTGGGGATCGCCATCAACGCGCTGTGCGGGGCGCTGGTCGGCGTGCTGGCCTGGCTGAGTAACGACGCCCAGCTGCGCCAGCTGTCGCTGTGGGGCATGGGCAGTCTGGGCCAGGCCGAGTGGCCGACCCTGTTGGTAGCTGCGACCCTGATCATCCCGGCGGCGCTGGCGGTGTGGTGGATGGCCTCCCGCCTGAATTTGCTGCAGCTCGGCGATGAAGAAGCGCACTATCTCGGGGTCAACGTGCGGGCGCTGCAGCGCTGGCTGCTGCTGTGCAGCGCGGTGCTGGTGGCCGCGGCGGTGGCCATCAGCGGCGTCATCGGCTTTATTGGCCTGGTGGTGCCGCACCTGATGCGCCTGTGGCTGGGGCCGGACCATCGCGGGCTGATCCCCGGCTCGCTGCTGGCCGGCGCGATCCTGCTTCTGCTGGCCGACACCCTGGCCCGCACCGTGGCGGCGCCGGCGGAGATGCCGGTCGGTCTGCTCACCAGCCTGCTGGGCGCCCCCTGGTTTCTGTGGCTGGTCTTTCGTCGGGAGAACCCCAAACATGTCTAA	MRPALARRLLLMTLLLVLLTLFATTLGAMRLPLASLLPTGDEMLRHIWLTIRLPRVLLALLVGAALALSGCVMQGLFRNPLADPGLLGISSGAALAVASWLVLPLSATGLIALYMPMLAAFIGSLAVMVVIFILSRAEEGSLSRLLLVGIAINALCGALVGVLAWLSNDAQLRQLSLWGMGSLGQAEWPTLLVAATLIIPAALAVWWMASRLNLLQLGDEEAHYLGVNVRALQRWLLLCSAVLVAAAVAISGVIGFIGLVVPHLMRLWLGPDHRGLIPGSLLAGAILLLLADTLARTVAAPAEMPVGLLTSLLGAPWFLWLVFRRENPKHV	PGPT0004675_221	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0004675-btuC-K06073	NA	NA
BMS020_01616	780	hmuV	COG4559	Hemin import ATP-binding protein HmuV	ATGTCTAATGAATATTGCGCGCAGGGGCTGGCGCTTCGCCTCGGCCAGCGGCAGATTATCGACAACATCTCCGTCGCGCTGCGCGGCGGCGAGATGACGGCGCTTATCGGGCCGAACGGCGCGGGCAAATCCACCCTGCTGCGGCTGCTGACCGGGTACCTGACCCCGGATAGCGGTACCCGCCGTCTGGCGGGCACGCCGCTGGAGGCGTGGTCACCCGAGGCGCTGGCGCGCCGGCGGGCGGTCATGCTACAGCGTACGGCCCTGCAGGCCGACTGGACGGTGGAAACGGTCATCGCCATGGGGCGCTCGCCGTGGGGCCCGACCGCGGACCCGGCGGAGCTGGCGGCGGTAATGGCCGTCACCGGCTGCGATGACCTTGCCGGCCGCCGCTATCCCGGCCTCTCCGGCGGCGAGCAGCAACGGGTGCAGCTCGCCCGCTGTCTGGCGCAGCTGTGGCGCGACGGCGCGCCGCAGGGCTGGCTGTTTCTCGATGAGCCCACCTCGGCGCTGGACCTTTACTATCAACAGCATCTGCTGCGCTTGCTCAAACGGCTCACCGCCGGCGGGCAACTGCACGTGTGCGTGGTGCTGCATGACCTTAACCTCGCCGCCCTGTGGGCCGACCGCATCCTGCTGCTTCACCAGGGCCGCCTGGTCGCCCAGGGGACGCCGCAGGAGGTGATCCAGCAGTCGGTTATCCATCGCTGGTACGGGGCGGATGTCCGTCTCGGCCAGCATCCGGACAACGCGGCCCCCCAGGTCTATCTGGCGCCGTAA	MSNEYCAQGLALRLGQRQIIDNISVALRGGEMTALIGPNGAGKSTLLRLLTGYLTPDSGTRRLAGTPLEAWSPEALARRRAVMLQRTALQADWTVETVIAMGRSPWGPTADPAELAAVMAVTGCDDLAGRRYPGLSGGEQQRVQLARCLAQLWRDGAPQGWLFLDEPTSALDLYYQQHLLRLLKRLTAGGQLHVCVVLHDLNLAALWADRILLLHQGRLVAQGTPQEVIQQSVIHRWYGADVRLGQHPDNAAPQVYLAP	PGPT0003325_579	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|ALBOMYCINS,PGPT0003325-fhuC-K10829	NA	NA
BMS020_01617	618			hypothetical protein	ATGAGCCGATACACAGTTGCTGGCAGCGAAGGCCAGTATGAGAAAAATTCAGGTGAACGGGTTTTGGCTAATAAACTCGGGATTGCTGACGCAAATGAGATGGATAGCGTAGAACTGGTACTGCTGGAACAACTTTATCGCTCGGTTTTTGAGGAACACTTTCCAACCGGATTGCTCAGCGTCAATATCCTGAAAAAGTGGCATTATCGCTGGTTAGGCAATATCTATGCATGGGCAGGCCAGGAAAGAACGGTCAATATCAGCAAAGGCGATTTTATGTTCGCCCCTTCAACACAGCTGGCTAAACTGCTAAACGATTTTGATAAGAAATACCTTGCTCATTATACGCCTTGTTCAGGCATGAGTGAATTGCAGCTCACAGAAGCTATCGCAGTCACACATGTTGAATTGATCCTCATCCATCCATTCAGAGAGGGTAACGGGCGTTTATCACGATTATTAGCTGATGTGATGGCGGTGCAGGCTGGCTATAAACCGCTGAATTATCAAAGCTGGGAACAAAACAAAACCCAGTATATATCGGCTATCCATGCAGGTTTGACTCTGGACTATCGACCGATGAAACACTGGGTCAGTATGGCCTTAAGAAGGGATTAG	MSRYTVAGSEGQYEKNSGERVLANKLGIADANEMDSVELVLLEQLYRSVFEEHFPTGLLSVNILKKWHYRWLGNIYAWAGQERTVNISKGDFMFAPSTQLAKLLNDFDKKYLAHYTPCSGMSELQLTEAIAVTHVELILIHPFREGNGRLSRLLADVMAVQAGYKPLNYQSWEQNKTQYISAIHAGLTLDYRPMKHWVSMALRRD				NA	NA	NA	NA	NA
BMS020_01618	2562	mutS_1	COG0249	DNA mismatch repair protein MutS	ATGAGCACAATTGACAATCTCGACGCCCACACGCCGATGATGCAGCAGTATCTCAAGCTGAAGGCGCAACATCCTGACATTCTGCTGTTTTACCGGATGGGGGATTTTTACGAGCTGTTTTATGACGATGCGAAACGCGCGTCGCAGCTGCTCGATATCTCGCTGACCAAACGCGGCGCCTCCGCGGGCGAACCCATTCCCATGGCCGGCATCCCCCACCACGCGGTGGAAAACTATCTTGCGAAACTGGTTAATCAGGGCGAGTCGGTAGCTATTTGCGAGCAGATAGGCGACCCGGCCACCACCAAAGGGCCGGTCGAGCGTAAAGTGGTGCGTATCGTCACGCCGGGCACCATCAGCGATGAAGCGCTGCTGCAGGAGCGTCAGGACAACCTGCTGGCCGCCATCTGGCAGGACAGCAAAGGCTTTGGCTACGCGACGCTGGACATCAGCTCCGGCCGCTTCCGCCTGAGCGAACCGGCCGACCGCGAAACCATGGCGGCAGAACTGCAGCGCACTAATCCGGCGGAGCTGCTGTATGCGGAAGATTTTGCCGAATCGTCGCTGATCGAAGGCCGCCGCGGCCTGCGCCGTCGCCCGCTGTGGGAATTTGAAATCGACACCGCGCGCCAGCAGCTTAACCTGCAGTTCGGCACCCGCGATCTGGTCGGCTTCGGCGTGGAAAACGCCCCCCGCGGCCTGTGCGCCGCCGGCTGCCTGCTGCAGTATGTCAAAGACACCCAGCGCACCTCGCTGCCGCATATTCGCTCCATCACCATGGAGCGCCAGCAGGACAGCATCATTATGGATGCCGCCACCCGCCGTAACCTCGAGATCACCCAGAATCTCGCCGGCGGCACCGATAACACTCTGGCCTCGGTACTCGACTGTACGGTGACGCCGATGGGCAGCCGGATGCTCAAGCGCTGGCTGCATATGCCGGTCCGCGATACCGCCGTGCTGGTGGAGCGCCAGCAGACCATCGGCGCGCTGCAGGAGCGCTATACCGAGCTGCAGCCGGTGCTGCGCCAGGTTGGCGATCTGGAACGTATTCTGGCGCGTCTGGCGCTGCGTACCGCCCGTCCACGCGATTTAGCCCGCATGCGTCATGCCATGCAGCAGTTGCCCCTGCTGCGCGAGCAGCTGGCTGACGTTGACTGTCAGCCGGTGCAAAAATTGCGCGAAAAAATGGGCGAGTTTAGCGAACTGCGCGAACTTCTGGAGCGCGCGGTGATCGACGCCCCGCCGGTGCTGGTCCGCGACGGCGGGGTCATCGCTCCAGGCTACAGCGAAGAGCTGGACGAGTGGCGGGCGCTGGCCGATGGCGCCACCGATTATCTCGATAAGCTGGAGATCCGCGAGCGCGAGCGGCTGGGCCTCGACACCCTGAAGGTCGGCTACAACGCCGTCCACGGCTACTACATCCAGATCAGCCGCGGCCAGAGCCACCTCGCGCCGATCCACTACGTGCGACGCCAGACGCTGAAAAACGCCGAACGCTATATTATTCCTGAGCTGAAGGAATACGAAGATAAGGTGCTGACCTCCAAGGGCAAAGCGCTGGCGCTGGAAAAGCAGCTTTATGACGAACTGTTCGACCTGCTGCTGCCGCACCTTGCCGACCTGCAGGCCAGCGCCAGCGCGCTGGCCGAGCTGGACGTGCTGGTCAACCTGGCGGAACGCGCTGAAACCCTCAACTACTGCTGCCCGACCTTTAGCGATAAGCCGGGCATTCGCATCAGCGAAGGCCGCCATCCGGTGGTCGAGCAGGTGCTGAAAGAGCCGTTTATCGCCAACCCGCTGCAGCTGGCGCCGCAGCGGCGGATGCTGATCATCACCGGGCCGAACATGGGCGGTAAAAGTACCTATATGCGCCAGACCGCGCTGATTGCGCTGCTGGCCTATATCGGCAGCTACGTCCCGGCGCAGAAGGTGGAGATAGGCCCCATCGATCGCATCTTTACCCGCGTCGGCGCGGCGGATGACCTGGCCAGCGGCCGCTCGACCTTTATGGTGGAGATGACTGAAACCGCCAATATCCTGCACAACGCCACCGAACACAGCCTGGTGCTGATGGATGAGATTGGCCGCGGTACGTCCACCTACGACGGTCTGTCGCTGGCATGGGCCTGTGCGGAAAATCTCGCCAACAAAATCAAGGCGCTGACGCTGTTCGCCACCCACTACTTCGAGCTCACTCAGCTGCCGGAGAAAATGGAAGGCGTCGCCAACGTCCATCTCGACGCGCTGGAGCATGGCGACACCATCGCCTTTATGCACAGCGTGCAGGATGGCGCGGCCAGCAAGAGCTACGGCCTGGCGGTCGCCGCGCTGGCCGGGGTGCCGAAAGAGGTGATCAAGCGCGCGCGGCAGAAACTGCGCGAGCTGGAGAGTATCTCGCCCAACGCGGCGGCGACCCAGGTCGACGGCACGCAGATGTCGCTGCTCGCCGCTCCGGAAGAGACCTCGCCTGCGGTTGAGGCGCTGGAGAATCTTGATCCGGACTCCCTGACCCCGCGTCAGGCGCTGGAGTGGATCTACCGTCTGAAAAGTCTGGTCTAG	MSTIDNLDAHTPMMQQYLKLKAQHPDILLFYRMGDFYELFYDDAKRASQLLDISLTKRGASAGEPIPMAGIPHHAVENYLAKLVNQGESVAICEQIGDPATTKGPVERKVVRIVTPGTISDEALLQERQDNLLAAIWQDSKGFGYATLDISSGRFRLSEPADRETMAAELQRTNPAELLYAEDFAESSLIEGRRGLRRRPLWEFEIDTARQQLNLQFGTRDLVGFGVENAPRGLCAAGCLLQYVKDTQRTSLPHIRSITMERQQDSIIMDAATRRNLEITQNLAGGTDNTLASVLDCTVTPMGSRMLKRWLHMPVRDTAVLVERQQTIGALQERYTELQPVLRQVGDLERILARLALRTARPRDLARMRHAMQQLPLLREQLADVDCQPVQKLREKMGEFSELRELLERAVIDAPPVLVRDGGVIAPGYSEELDEWRALADGATDYLDKLEIRERERLGLDTLKVGYNAVHGYYIQISRGQSHLAPIHYVRRQTLKNAERYIIPELKEYEDKVLTSKGKALALEKQLYDELFDLLLPHLADLQASASALAELDVLVNLAERAETLNYCCPTFSDKPGIRISEGRHPVVEQVLKEPFIANPLQLAPQRRMLIITGPNMGGKSTYMRQTALIALLAYIGSYVPAQKVEIGPIDRIFTRVGAADDLASGRSTFMVEMTETANILHNATEHSLVLMDEIGRGTSTYDGLSLAWACAENLANKIKALTLFATHYFELTQLPEKMEGVANVHLDALEHGDTIAFMHSVQDGAASKSYGLAVAALAGVPKEVIKRARQKLRELESISPNAAATQVDGTQMSLLAAPEETSPAVEALENLDPDSLTPRQALEWIYRLKSLV				NA	NA	NA	NA	NA
BMS020_01619	153	hokE		Toxic protein HokE	ATGCTAACAAAATATGCCCTTGGGGCAATCGTCGTACTGTGTATTACGGTACTGGGATTTACGCTTTTGGTGCGCAGCTCGCTGTGCGAACTCAGTATTAAAGAGCGTAGTATGGAGTTTAAAGCTGTTCTCGCTTACGAATCGAAGAAGTAG	MLTKYALGAIVVLCITVLGFTLLVRSSLCELSIKERSMEFKAVLAYESKK	PGPT0027270_26	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-Hok-Sok_TOXIN-ANTITOXIN_SYSTEM,PGPT0027270-toxin_hokE-K18922	NA	NA
BMS020_01621	237	vdcD		Protein VdcD	ATGATTTGTCCACGTTGCGCCGATGAAAAGATTGACGTCATGGCGAAATCGCCGGTGAAAGGGGTCTGGACGGTGTATCAGTGCCAGCACTGTCTGTATACCTGGCGGGATACCGAGCCGCTGCGCCGCACCAGCCGTGAGCACTATCCTGAAGCGTTCCGGATGACGCAGAAAGATATTGATGAGGCGCCGCAGGTGCCGCACGTCCCGCCGCTATTGTCGGAAGATAAGCGTTAA	MICPRCADEKIDVMAKSPVKGVWTVYQCQHCLYTWRDTEPLRRTSREHYPEAFRMTQKDIDEAPQVPHVPPLLSEDKR	PGPT0005445_56	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
BMS020_01622	1428	edcC	COG0043	Phenolic acid decarboxylase	ATGGCTTTTGATGATTTGCGCAGCTTTTTGCAGGCGCTGGATGACCAGGGACAACTGCTGAAAATCAGTGAGGAGGTGAACGCTGAGCCAGACCTGGCGGCGGCAGCCAATGCCACCGGACGCATCGGCGACGGCGCCCCGGCGCTGTGGTTCGATAATATTCGCGGCTTTACCGACGCCCGGGTGACGATGAACACCATCGGCTCGTGGCAGAACCATGCCATCTCGCTGGGCCTGCCGCCCAACACGCCGGTGAAAAAGCAGATTGATGAATTCATCCGCCGTTGGGATAACTTCCCGGTGACGCCAGAGCGCCGCGCCAACCCGGCTTGGGCGGAAAACACCGTGGATGGCGATGATATCAACCTGTTCGATATTCTGCCGCTGTTCCGCCTCAACGATGGCGACGGCGGGTTCTACCTCGACAAAGCCTGTGTCGTTTCGCGCGATCCGCTTGACCCTGACAACTTCGGTAAGCAAAACGTCGGTATCTACCGTATGGAAGTGAAAGGCAAGCGTAAGCTCGGCCTGCAGCCGGTGCCGATGCACGATATCGCCCTGCATCTGCATAAAGCGGAAGAGCGCGGGGAAGACCTGCCGATCGCCATTACCCTCGGTAACGACCCGATTATCACCCTGATGGGCGCCACGCCGCTGAAATACGATCAGTCAGAATATGAAATGGCCGGCGCGCTGCGCGAGAGCCCGTATCCCATCGCCACCGCGCCGCTGACCGGCTTTGACGTGCCCTGGGGTTCGGAAGTGATCCTCGAAGGGGTGATTGAAGGCCGTAAGCGTGAGATAGAGGGGCCGTTCGGTGAGTTTACCGGCCACTACTCCGGCGGTCGTAACATGACGGTAGTGCGCATCGACAAAGTCTCGTATCGCAGCAAACCGATTTTTGAATCGCTCTATCTCGGTATGCCGTGGACCGAAATCGACTATCTGATGGGCCCGGCCACCTGCGTGCCGCTGTATCAGCAGCTGAAGGCAGAGTTCCCGGAAGTGCAGGCGGTCAACGCTATGTACACCCACGGTCTGCTGGCGATTATCTCCACCAAAAAACGCTACGGCGGTTTTGCCCGCGCGGTGGGTTTGCGGGCGATGACCACTCCCCACGGCCTCGGCTATGTGAAGATGGTGATCATGGTTGATGAAGACGTTGACCCGTTCAACCTGCCGCAGGTGATGTGGGCGCTCTCCTCGAAGGTTAACCCGGCGGGAGACCTGGTGCAGTTGCCGAACATGTCGGTCCTTGAACTTGACCCAGGCTCCAGCCCGGCGGGCATCACCGACAAGTTAATTATCGACGCCACCACCCCGGTTGCGCCGGACCTTCGCGGCCACTACAGCCAGCCGGTGCAGGATCTGCCGGAAACCAAAGCCTGGGCTGAAAAACTGACCGCTATGCTGGCCAACCGTAAATAA	MAFDDLRSFLQALDDQGQLLKISEEVNAEPDLAAAANATGRIGDGAPALWFDNIRGFTDARVTMNTIGSWQNHAISLGLPPNTPVKKQIDEFIRRWDNFPVTPERRANPAWAENTVDGDDINLFDILPLFRLNDGDGGFYLDKACVVSRDPLDPDNFGKQNVGIYRMEVKGKRKLGLQPVPMHDIALHLHKAEERGEDLPIAITLGNDPIITLMGATPLKYDQSEYEMAGALRESPYPIATAPLTGFDVPWGSEVILEGVIEGRKREIEGPFGEFTGHYSGGRNMTVVRIDKVSYRSKPIFESLYLGMPWTEIDYLMGPATCVPLYQQLKAEFPEVQAVNAMYTHGLLAIISTKKRYGGFARAVGLRAMTTPHGLGYVKMVIMVDEDVDPFNLPQVMWALSSKVNPAGDLVQLPNMSVLELDPGSSPAGITDKLIIDATTPVAPDLRGHYSQPVQDLPETKAWAEKLTAMLANRK	PGPT0005435_49	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-SALICYLIC_ACID_RESISTANCE,PGPT0005435-bsdC-K01612	NA	NA
BMS020_01623	594	ecdB	COG0163	putative UbiX-like flavin prenyltransferase	ATGAAACTGATTGTTGGGATGACGGGGGCCACCGGGGCTCCGCTTGGGGTGGCATTACTGCAGGCGCTGCGCGATATGCCGGAGGTGGAAACCCATCTGGTGATGTCGAAGTGGGCCAAAACCACCATCGAGCTGGAAACGCCCTGGACGGCACGGGAAGTGGCCGCGCTGGCGGACTTTTCCCACAGCCCGGCCGACCAGGCCGCCACCATCTCATCAGGTTCATTTCGTACCGACGGCATGATCGTGATTCCCTGCAGTATGAAAACGCTGGCAGGCATTCGCGCAGGCTATGCCGAGGGGCTGGTGGGACGCGCGGCGGACGTGGTGCTTAAAGAGGGGCGCAAGCTGGTGCTGGTCCCGCGGGAAATGCCGCTCAGCACGATCCATCTGGAGAACATGCTGGCGCTGTCCCGTATGGGCGTGGCGATGGTGCCGCCGATGCCGGCTTACTATAACCACCCGGAGACGGTTGACGATATCACCAACCACATTGTGACCCGGGTGCTGGATCAGTTTGGCCTCGACTATCACAAAGCGCGCCGCTGGAACGGCTTGCGCACGGCAGAACAATTAGCACAGGAGATCGAATAA	MKLIVGMTGATGAPLGVALLQALRDMPEVETHLVMSKWAKTTIELETPWTAREVAALADFSHSPADQAATISSGSFRTDGMIVIPCSMKTLAGIRAGYAEGLVGRAADVVLKEGRKLVLVPREMPLSTIHLENMLALSRMGVAMVPPMPAYYNHPETVDDITNHIVTRVLDQFGLDYHKARRWNGLRTAEQLAQEIE	PGPT0009565_1070	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
BMS020_01624	408	hosA		Transcriptional regulator HosA	ATGGAGTTACGAAACGAAGCATTCCACCTGCTGCGCCAGCTTTTTCAACAACATACCGCCCGCTGGCAGCAGGCATTACCGGACCTGACTAAGCCTCAGTATGCGGTGATGCGCTCGGTTGCGGAGCAGCCGGGGATCGAACAGGTGGTGCTGATTGAAGCGGCGGTCAGTACGAAGGCCACGCTGGCGGAGATGCTCAGCCGGATGGAAGCGCGCGGCCTGGTGCGCCGGGAGCACGATCCGGCCGATAAACGCCGCCGTTTTGTCTATCTGACCGACGAAGGCGAGGCGCTGCTTAACCGTTCCATTCCGCAAGGCAATGAGGTCGATGACGAGTTTCTTGGCCGCCTGAGCGATGATGAACGCAAACAGTTCTCCCGGCTGGTGCGTAAAATGATGGTTCCCTGA	MELRNEAFHLLRQLFQQHTARWQQALPDLTKPQYAVMRSVAEQPGIEQVVLIEAAVSTKATLAEMLSRMEARGLVRREHDPADKRRRFVYLTDEGEALLNRSIPQGNEVDDEFLGRLSDDERKQFSRLVRKMMVP	PGPT0016185_399	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-TEMPERATURE_DEPENDENT_REGULATION,PGPT0016185-hosA-K22489	NA	NA
BMS020_01625	888	dmlR_12		HTH-type transcriptional regulator DmlR	ATGCTAAACCTTCAGCGCGTGACCATGTTTATCGCCGTGGTGGACGCCGGCAGCTTTACCCAGGCCGCCGCGGCGCTGGGGCAGACCAAGGCGGTGGTCAGCTTTAACGTACGGCAACTGGAAAATGAGCTGGGGGTGACGCTGCTGCTGCGCTCGACGCGCCGTCTGCGGCTCACTGACGCCGGGGCGCTGTTCTATCAGCGTGGGGTGGCGCTGCTCAAAGCGGCGGAAAATCTGCAGGATGAGGTCCGGGCCAGCCATAGCGGTTTAAGCGGAGAGCTGCGGATCACCACCACGCCGGAGTATGGCGCGCAGGTCATCATCCCGGCGCTGGCGGCGTTTTCCCGTCATCATCCGGCGCTACGGGTGCGGCACGTCTCGTCCTCCCATCATGCGGATCTTATCTCCGAACGATTTGACGTGGCGATACGCCTCGGTACGCTGGCCGATTCCCGCTATCGGGCGACGCGGATAGCCAGTTTCGCGATCCTGCCCGTCGCCTCCCCGGCCTGGCTGGCGAGCCATCCGGTGCTGACGCTGTCCGATCTGGCGCAAGCTGACTGGATTATTCACGAGCGTCTGCCGGCCCCGCTGCGCTGGCAGCTGCGAACGGATGAACAGGCAGAGGTGGATTTTACGATAGTCAACGCGCCACGGTTTTCAGCCGACAGCGCCACGGCGCTGATGAGCTTTGCTCTGGCCGGATGCGGCATCGCTTTGCTGCCAGCCTGGCTGGTGGCCGGTAAACTGGCGCAGCGGGAGCTGGTGGCTGTCCTGCCGGAATACCATTTCCCGCCGCAGGGAGTGTATGCCCTTTATCCCGATGCGCAGCATATGCCGACCCGGGTGCGGACGTTTATCGACTTCCTGCGCGAGCAGCTCGGCTAG	MLNLQRVTMFIAVVDAGSFTQAAAALGQTKAVVSFNVRQLENELGVTLLLRSTRRLRLTDAGALFYQRGVALLKAAENLQDEVRASHSGLSGELRITTTPEYGAQVIIPALAAFSRHHPALRVRHVSSSHHADLISERFDVAIRLGTLADSRYRATRIASFAILPVASPAWLASHPVLTLSDLAQADWIIHERLPAPLRWQLRTDEQAEVDFTIVNAPRFSADSATALMSFALAGCGIALLPAWLVAGKLAQRELVAVLPEYHFPPQGVYALYPDAQHMPTRVRTFIDFLREQLG				NA	NA	NA	NA	NA
BMS020_01626	1203	mdtD_3		Putative multidrug resistance protein MdtD	ATGACCTATCGCCACCGCGTTGCCACCGTTTTTCTGTTCGGCTTTTTTCTCGACCTAATCAATATGTTTATCGCCAGCATTGCCTTCCCGGCTATCAGCCACGAGCTGGCGGTGTCCGTCTCGCAGCTGGCGTGGGTCAGCAATGCCTATATTCTTGGCCTGACGGCCGTCGTACCGTTCAGCGCCTGGCTCAGCCAGCGCTGTGGGCCAAAACGGCTGTTTTTACTCTCGCTGGGGCTGTTCAGCCTCGGCGCGTTGGCATCGGGGCTGGCCCATAGCCTGGGTGAGCTGATTTTCTGGCGTACGCTGCAGGGGATGGGCGGCGGGCTGTTAATCCCCCTCGGCCAGGCGCTGACGTGGCCGCTGTTTCAGCCGCAGGAGCGGGCGAAGCTGTCGGCGGCGGTGATGCTGGTCGGCCTGCTGGCGCCCGCCTGCTCGCCGGCGATCGGAGGTCTGCTCGTCCAGGCGTTCAGCTGGCGCTGGGTCTTTTTCGCCAGCCTGCCTGTCGCCCTGCTTACCTTTATGCTGGCGGCGCGATGGCTAAACAACAGCCCCGCTCCCGTCCGGCCGACCCGCTTTCTCCCGCTGTCATTGCTGGCCGATCCTCTCCTGCGCTTCGCCATGCTGATCTATCTCTGCGTACCGGGGATGTTTATTGCCGTCAACGTGGTGGGAATGTTCTACCTGCAACGCGTCACCGGGATGGCGCCGGGGGCCACTGGCGCCCTGATGGTGCCGTGGTCGCTGGCCTCGTTTGCCGCCATCACCTTTACCGGCAGGTATTTCAACCGCTTCGGGCCGCGGCCGCTGGTGATGGTCGGCTGCCTGCTACAGGCGGCGGGGATCCTGCTGCTGCTGCAGGTCGATGCGCACAGCCCGCTGGCGCTGTTGATTCTGGCCTTTACGCTGATGGGCGGCGGAGGCAGCTTATGCAGCAGCACCGCGCAAAGCAGCGCTTTCCTGCATACGCCTGGCGAAGAGATGCCTGACGCCAGCGCGCTGTGGAATCTTAACCGCCAGCTCAGCTTCTTTGCCGGCAGCGCGCTGCTCGCCCTGCTGTTGAGAGTCTTCCCGCCGGCCTACGCCTGGCAGGGCGCGTTTAGCTGCGCCGCCGCCATAACCCTGTTGCCGCTGCTGTTTTGCCTGCGGCTGAATAATCGGGCGATTATCCATCGCCTGCACACTACTCTGGAGAAGTCATGA	MTYRHRVATVFLFGFFLDLINMFIASIAFPAISHELAVSVSQLAWVSNAYILGLTAVVPFSAWLSQRCGPKRLFLLSLGLFSLGALASGLAHSLGELIFWRTLQGMGGGLLIPLGQALTWPLFQPQERAKLSAAVMLVGLLAPACSPAIGGLLVQAFSWRWVFFASLPVALLTFMLAARWLNNSPAPVRPTRFLPLSLLADPLLRFAMLIYLCVPGMFIAVNVVGMFYLQRVTGMAPGATGALMVPWSLASFAAITFTGRYFNRFGPRPLVMVGCLLQAAGILLLLQVDAHSPLALLILAFTLMGGGGSLCSSTAQSSAFLHTPGEEMPDASALWNLNRQLSFFAGSALLALLLRVFPPAYAWQGAFSCAAAITLLPLLFCLRLNNRAIIHRLHTTLEKS				NA	NA	NA	NA	NA
BMS020_01627	378			hypothetical protein	ATGAACCCTTATCTGCAGGAAGTCGTCGACGCCCATGTCCTTATCGAACGCTGGTTAAGCCACGGGGAAGGAAGCGCTGAGGCGCTGATGAGCCGCTTTGCCGCCGAATTCACCATGATCCCTTTGAGCGGCGAGAAGATGGACTACCCGACGGTGAGCCGTTTTTTCCACCAGGCGGGCGCAAGCCGTCCGGAATTACACATTGTGGTGGATCAGGCGAAAATCATCAGCGAGTGGCACGACGGCGCCGCCGTGCTGTACCGTGAACGCCAAACGCTGGCGGATGGCAGTGAGAACGTACGCTGGTCGACGGCGATTTTTCAGCAAGCGGAAGGGAAAATTGTCTGGCGCCATCTGCAGGAAACCCGCCTCGGCTAG	MNPYLQEVVDAHVLIERWLSHGEGSAEALMSRFAAEFTMIPLSGEKMDYPTVSRFFHQAGASRPELHIVVDQAKIISEWHDGAAVLYRERQTLADGSENVRWSTAIFQQAEGKIVWRHLQETRLG				NA	NA	NA	NA	NA
BMS020_01628	993	rpoS	COG0568	RNA polymerase sigma factor RpoS	ATGAGTCAGAATACGCTGAAAGTTCATGATTTAAATGAAGACGCGGAATTTGATGAGAACGGAATTGAGGTTTTCGACGAGAAGGCCTTAGTAGAAGAGGAACCCAGTGATAGCGATCTGGCTGAGGAAGAGCTGCTGTCGCAAGGCGCAACGCAACGCGTGCTTGACGCCACTCAGCTTTATCTTGGAGAGATTGGTTATTCCCCACTGCTGACCGCGGAAGAGGAAGTCTATTTCGCGCGTCGCGCACTGCGTGGTGATGTCGCTTCACGCCGTCGCATGATTGAAAGCAACCTGCGTCTGGTGGTGAAGATTGCACGTCGTTACAGCAATCGTGGTTTGGCGCTGCTGGATCTGATTGAAGAAGGTAACCTCGGCCTGATCCGCGCCGTTGAGAAGTTTGACCCGGAACGTGGGTTCCGTTTTTCGACCTATGCGACCTGGTGGATCCGCCAGACCATTGAACGGGCGATCATGAACCAAACCCGTACGATCCGTTTGCCGATCCACATTGTCAAAGAGCTGAACGTCTATCTGCGTACCGCGCGCGAGTTGTCCCACAAGCTGGACCACGAGCCGAGCGCGGAAGAGATTGCCGAACAGCTGGACAAACCGGTCGATGACGTCAGCCGTATGCTGCGTCTGAACGAGCGCATCACCTCGGTGGATACCCCGCTGGGTGGCGATTCAGAAAAAGCGCTGCTGGATATTCTGGCCGATGAGAAAGAGAACGGCCCGGAAGACACCACGCAGGACGATGATATGAAACAAAGCATCGTTAAATGGCTGTTCGAACTGAACGCCAAGCAGCGTGAGGTTCTGGCGCGTCGTTTCGGTCTGCTGGGTTATGAAGCCGCCACCCTGGAAGATGTGGGCCGTGAAATTGGCCTCACTCGCGAGCGTGTGCGTCAGATACAGGTGGAAGGTCTGCGTCGCCTGCGGGAAATTCTGCAGGGGCAAGGACTGAATATCGAAGCGCTCTTCCGCGAATAA	MSQNTLKVHDLNEDAEFDENGIEVFDEKALVEEEPSDSDLAEEELLSQGATQRVLDATQLYLGEIGYSPLLTAEEEVYFARRALRGDVASRRRMIESNLRLVVKIARRYSNRGLALLDLIEEGNLGLIRAVEKFDPERGFRFSTYATWWIRQTIERAIMNQTRTIRLPIHIVKELNVYLRTARELSHKLDHEPSAEEIAEQLDKPVDDVSRMLRLNERITSVDTPLGGDSEKALLDILADEKENGPEDTTQDDDMKQSIVKWLFELNAKQREVLARRFGLLGYEAATLEDVGREIGLTRERVRQIQVEGLRRLREILQGQGLNIEALFRE	PGPT0014685_132	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-OXYGEN_AVAILABILITY_SIGNALLING,PGPT0014685-rpoS-K03087	NA	NA
BMS020_01629	1131	nlpD_1		Murein hydrolase activator NlpD	ATGAGCGCGGGAAGCACCAAATTTACCGTCAGCCGTATTGCGGCTCTTTCACTGGTTTCACTCTGGCTGGCCGGATGTACCAACACCAATAATCCGCCTGCGCCGGTGAGCTCTGCCGGCGGTGCCGCTTCTTCCAGCACCAATTCCGGCATGTTGATTACGCCGCCATCCTCCGGCGTCCAGTCTGCTCCTCAGGCGCAGCCGATCCAGCCGGTGCAGACCCAGACCATTCAGCCGCAGCCAATGGCGCAGGAGCCGGTGCAGACGGTGAATGGCAAGATCGTATACAACCGCAAATATGGCGATATTCCGAAAGGTAGCTATACCGGCGGCAGTACCTATACGGTCAAACGCGGCGACACCCTGTTCTATATCGCCTGGGTCACCGGCAACGATTTCCGTGACCTGGCGCAACGCAACAATGTCCCGGCCCCGTACGCCCTGAACGTCGGTCAGGTGCTGCAGGTCGGCAACGCTTCAGGCCAGCCGATCACCGGCGAAAACGCCGTTTCTCAGGCCAGCGCAAGGGCGAGCGGCGGTGCGACGGCCACCACAACTTCTGCACAAAAATCGACCGCGGTGGTTGCTTCACAACCGACTATTACGTATTCTGAATCCTCAGGTGAACAAAGTGCTACCAAGATGTTGCCTAATAATAAACCAGCGACCACGACCTCGACGGTTGTCGCGCCGGTGACGGCACCTACAACGGTGAGCACAACCCAGCCGACTGCAAGCAGTACGTCAACCAGTTCGCCGATCTCATCATGGCGCTGGCCGACTGATGGCAAAGTTATCGAGAACTTTAGTGGCGCGGAAGGCGGCAATAAAGGTATCGACATTGCAGGCAGTAAGGGACAGGCTATTGTCGCGACCGCCGATGGGCGCGTCGTCTATGCCGGTAACGCACTGCGCGGCTACGGTAATCTTATTATCATCAAACACAACGATGATTACCTGAGTGCCTACGCTCATAACGATACCATGCTGGTTCGGGAGCAACAGGAAGTCAAAGCGGGGCAGAAAATCGCTACCATGGGTAGCACCGGAACCAGCTCAACAAGATTACATTTTGAAATTCGTTACAAGGGGAAATCCGTCAACCCGCTGCAGTACTTACCGCAGCGATAA	MSAGSTKFTVSRIAALSLVSLWLAGCTNTNNPPAPVSSAGGAASSSTNSGMLITPPSSGVQSAPQAQPIQPVQTQTIQPQPMAQEPVQTVNGKIVYNRKYGDIPKGSYTGGSTYTVKRGDTLFYIAWVTGNDFRDLAQRNNVPAPYALNVGQVLQVGNASGQPITGENAVSQASARASGGATATTTSAQKSTAVVASQPTITYSESSGEQSATKMLPNNKPATTTSTVVAPVTAPTTVSTTQPTASSTSTSSPISSWRWPTDGKVIENFSGAEGGNKGIDIAGSKGQAIVATADGRVVYAGNALRGYGNLIIIKHNDDYLSAYAHNDTMLVREQQEVKAGQKIATMGSTGTSSTRLHFEIRYKGKSVNPLQYLPQR	PGPT0023860_176	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0023860-nlpD-K06194	NA	NA
BMS020_01630	627	pcm_1	COG2518	Protein-L-isoaspartate O-methyltransferase	ATGGTAAGTAAACGTGTTGAAAGTTTGTTGAATCAACTGCGCACGCAGGGCATCGTCGATGAACGTGTCCTCGAGGCGATCGCGCGCGTCCCGCGCGAAAAATTTGTTGATGAAGCCTTTGAACATAAAGCGTGGGAAAACACCGCACTGCCGATTGGCCAGGGGCAAACCATCTCCCAGCCGTACATGGTGGCGCGGATGACCGAGCTGCTGGCGCTGACGCCGGAGTCGCGGGTGCTGGAGATCGGCACCGGTTCCGGTTACCAGACGGCCATCCTGGCGCACCTGGTGCATCACGTTTGCTCGGTAGAGCGAATTAAGAGTTTACAGTGGCAGGCGCGTCGTCGCCTGAAACAACTTGATTTACATAATGTTTCAACCCGTCATGGCGATGGGTGGCAAGGTTGGCAGGCGCGGGCGCCGTTTGATGCCATTATTGTGACGGCGGCGCCGCCGGAAATACCGACCGCGCTGCTGGCGCAGCTGGATGACGACGGCGTGCTGGTACTGCCGGTCGGCGAGGAGCATCAGTTTCTCAAACGGATCCGTCGCCGGGGCAACGAATTTATCATTGATACCGTCGAGGCCGTTCGCTTTGTTCCCCTGGTGAAAGGGGAGCTGGCCTGA	MVSKRVESLLNQLRTQGIVDERVLEAIARVPREKFVDEAFEHKAWENTALPIGQGQTISQPYMVARMTELLALTPESRVLEIGTGSGYQTAILAHLVHHVCSVERIKSLQWQARRRLKQLDLHNVSTRHGDGWQGWQARAPFDAIIVTAAPPEIPTALLAQLDDDGVLVLPVGEEHQFLKRIRRRGNEFIIDTVEAVRFVPLVKGELA				NA	NA	NA	NA	NA
BMS020_01631	762	surE_1	COG0496	5'/3'-nucleotidase SurE	ATGCGAATATTGCTGAGTAACGATGACGGGATCCATGCGCCGGGGATACAGACCCTGGCGAAGGCCTTAAGGGAGTTTGCCGAGGTCCAGGTGGTTGCACCCGATCGTAACCGCAGCGGGGCTTCGAATTCGCTGACGCTGGAATCGTCACTGCGCACCTTTATCTATGAAAATGGCGATATCGCCGTCCAGATGGGGACGCCGACGGACTGCGTCTACCTCGGCGTAAACGCGCTGATGCGCCCGCGTCCGGACATCGTCGTTTCCGGAATCAACGCCGGGCCCAATCTGGGCGATGACGTCATTTACTCCGGCACCGTGGCGGCGGCGATGGAAGGCCGCCATCTGGGATTCCCCGCGCTTGCCGTGTCGCTCAATGGCTATCAACACTACGACACCGCCGCGGCGGTGACCTGCACTCTCCTGCGCGGACTCAGCCGTGAACCGCTGCGCACCGGGCGGATCCTCAACGTCAATGTCCCGGACCTGCCCCTTGACCAGATCAAAGGTATCCGCGTGACCCGCTGCGGCAACCGCCATCCTGCCGACCAGGTGATCCCGCAAAAGGATCCGCGCGGCAATACCCTTTACTGGATTGGCCCGCCAGGCGATAAGCGCGACGCCGGGCCGGGCACCGATTTTGCGGCAGTGGATGAAGGCTATGTTTCCGTTACGCCATTGCACGTCGATTTAACCGCCCATCAGGCGCATGAGGTGGTCACCGATTGGCTGGAACGTGTCGGGGTTGACAGGCAATGGTAA	MRILLSNDDGIHAPGIQTLAKALREFAEVQVVAPDRNRSGASNSLTLESSLRTFIYENGDIAVQMGTPTDCVYLGVNALMRPRPDIVVSGINAGPNLGDDVIYSGTVAAAMEGRHLGFPALAVSLNGYQHYDTAAAVTCTLLRGLSREPLRTGRILNVNVPDLPLDQIKGIRVTRCGNRHPADQVIPQKDPRGNTLYWIGPPGDKRDAGPGTDFAAVDEGYVSVTPLHVDLTAHQAHEVVTDWLERVGVDRQW	PGPT0013405_2726	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013405-surE-K03787	NA	NA
BMS020_01632	1050	truD_1	COG0585	tRNA pseudouridine synthase D	ATGATCGCCTTTGACCAACTGACCTGGCTGCACGGCAAGCCGCAGAGCAGCGGGCTGCTGAAAGCCAATCCGGAAGATTTCCTGGTGGTTGAAGACCTGGGCTTCGCCCCGGACGGCGAAGGCGAGCACGTGCTGGTGCGGATCCTCAAAAACGGCTGCAATACACGCTTTGTCGCCGATGCGCTGGCGAAATTCCTCAAAATCCATGCCCGTGAAGTGAGCTTCGCCGGGCAAAAAGATAAGCACGCCGTCACCGAGCAGTGGCTGTGCGCCCGGGTGCCCGGCAAAGAGATGCCGGATCTGAGCAAATTTCAGCTCGAGGGCTGCCAGGTACTGGAATATGCCCGCCATAAGCGTAAGCTGCGATTAGGCGCGCTGAAGGGCAACCAGTTTACCCTGATCCTGCGCGAGGTAAGCGATCGCCAGGAGGTGGAGACGCGTCTGCAGGCCATCGCTGAACGGGGCGTGCCGAACTATTTCGGCGCTCAGCGCTTTGGCATCGGCGGCAGCAATCTGCAGGGAGCGCTGCGCTGGGCGGAGAGCGGCGCGCCGGTGCGCGATCGCAATAAGCGCAGTTTTTGGTTGTCGGCGGCACGCAGCGCGTTGTTTAATCAGCAAGTCAGTATTAGATTAAAAAAAACGGAATTTAATCAGGTTGTTGATGGCGATGCGCTACAATTAGCGGGGCGTGGGAGCTGGTTTGTCGTCACACCGGAAGAACTCGAGGTTTCGCAGGCGCGGGTGCATAACCGCGAACTGATGATCACGGCTGCGCTGCCGGGCAGCGGCGACTGGGGAAGCCAGCGCGACGCTCTGGCCGCCGAGCAGGCCGCCATCGCCGAGGAAACCTTGCTGCAGACACTGCTGGTGCGGGAGAAAGTCGAGGCAGCGCGCCGGGCGATGCTCCTCTATCCGCAGCAGCTGAGCTGGAACTGGTGGGATGATGTAACCGTTGAACTGCGTTTCTGGCTGCCGGCGGGCAGCTTCGCCACCAGCGTGGTCAGGGAGCTTATCAATACAACGGGTGACTATGCGAATATTGCTGAGTAA	MIAFDQLTWLHGKPQSSGLLKANPEDFLVVEDLGFAPDGEGEHVLVRILKNGCNTRFVADALAKFLKIHAREVSFAGQKDKHAVTEQWLCARVPGKEMPDLSKFQLEGCQVLEYARHKRKLRLGALKGNQFTLILREVSDRQEVETRLQAIAERGVPNYFGAQRFGIGGSNLQGALRWAESGAPVRDRNKRSFWLSAARSALFNQQVSIRLKKTEFNQVVDGDALQLAGRGSWFVVTPEELEVSQARVHNRELMITAALPGSGDWGSQRDALAAEQAAIAEETLLQTLLVREKVEAARRAMLLYPQQLSWNWWDDVTVELRFWLPAGSFATSVVRELINTTGDYANIAE				NA	NA	NA	NA	NA
BMS020_01633	480	ispF_1	COG0245	2-C-methyl-D-erythritol 2,4-cyclodiphosphate synthase	ATGCGAATTGGACATGGTTTTGACGTACACGCTTTTGGCGGTGAAGGCCCAATCATCATTGGCGGGGTACGCATTCCTTATGAAAAAGGGCTGCTGGCCCACTCCGACGGCGACGTCGCGCTGCATGCGCTGACCGATGCGCTGCTGGGCGCCGCGGCGCTCGGCGATATTGGCAAGCTGTTCCCGGATACCGATCCGGCGTTTAAAGGCGCCGACAGCCGCGAACTGCTGCGCGAAGCGTGGCGCCGCATCCATGCCAAAGGCTATACGCTCGGCAACGTCGACGTCACCATTATCGCCCAGGCGCCGAAAATGCTGCCGCATATCCCGCAGATGCGCGTTTTTATCGCTGAAGATCTCGGCTGCCATATGGACGACGTCAACGTGAAAGCGACCACCACCGAGAAGCTGGGCTTCACCGGCCGCGGGGAAGGGATCGCCTGCGAAGCGGTCGCGCTGCTGCGTAAGGCCGACAAATGA	MRIGHGFDVHAFGGEGPIIIGGVRIPYEKGLLAHSDGDVALHALTDALLGAAALGDIGKLFPDTDPAFKGADSRELLREAWRRIHAKGYTLGNVDVTIIAQAPKMLPHIPQMRVFIAEDLGCHMDDVNVKATTTEKLGFTGRGEGIACEAVALLRKADK	PGPT0007595_2048	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
BMS020_01634	711	ispD_1	COG1211	2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase	ATGGCAGCCACTTTTCCGGGCATTTGCGCCGTGGTGCCGGCAGCCGGTTTCGGCCGCCGCATGCAAACGGAATGCCCGAAACAATATCTCTCAATCGGTAACAAAACGATTCTCGAACATGCGGTCGCCGCGCTGCTGGCGGATCCGCGCGTCCAGCGCGTGGTGATTGCCGTCAGCCCCGGCGATCGGCGCTTCAGCCAGCTGCCGCTGGCCCAGCACCCGCAAATTACCGTCGTGGATGGCGGCGCCGAGCGCGCCGATTCGGTGCTCGCCGGCCTGCAGGCTTTGCCGGAGGCGCAGTGGGTGCTGGTGCATGACGCCGCGCGCCCCTGCCTGCATCAGGATGACCTCAGCCGCCTGCTGGCACTCTGTGAAACCAGCCGCGTCGGCGGGATCCTCGCAGCGCCGGTGCGCGACACCATGAAGCGCGCCGAGCCGGGCAAAACCGCCGTCGCCCATACCGTCGATCGTAATGACCTGTGGCACGCGCTCACCCCGCAATTTTTCCCTCGCGAGCTGCTGGTGGATTGCCTCACCCGGGCGCTGAACGAGGGGGCCACCATCACCGATGAAGCCTCAGCGCTGGAGTACTGCGGCTTCCATCCGCAGCTGGTCGCCGGACGCGCTGATAATATTAAAGTGACGCGCCCGGAAGATCTGGCGCTGGCGGAATTTTACCTCACCCGTTCCCGACACCAGGAGAAAGCTTAA	MAATFPGICAVVPAAGFGRRMQTECPKQYLSIGNKTILEHAVAALLADPRVQRVVIAVSPGDRRFSQLPLAQHPQITVVDGGAERADSVLAGLQALPEAQWVLVHDAARPCLHQDDLSRLLALCETSRVGGILAAPVRDTMKRAEPGKTAVAHTVDRNDLWHALTPQFFPRELLVDCLTRALNEGATITDEASALEYCGFHPQLVAGRADNIKVTRPEDLALAEFYLTRSRHQEKA	PGPT0007590_1517	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007590-ispD-K00991	NA	NA
BMS020_01635	318	ftsB_1	COG2919	Cell division protein FtsB	ATGGGTAAACTAACGCTGCTATTATTAGCTTTGCTGGTCTGGCTACAGTATTCGCTGTGGTTCGGTAAAAACGGCCTGCATGACTACACGCGGGTTAACGACGACGTCACCGCCCAGCAGGCGACTAACGCCAAATTAAAAGCACGCAACGATCAGCTGTTTGCCGAAATTGACGACCTCAACGGCGGTCAGGAAGCGATCGAGGAGCGTGCGCGCAATGAACTCAGCATGACCCGCCCGGGCGAAACCTTCTATCGTCTGGTACCGGATGCGTCTAAACGCAACCAGGCATCGGGGCAACAGCAGAACAATCGATAA	MGKLTLLLLALLVWLQYSLWFGKNGLHDYTRVNDDVTAQQATNAKLKARNDQLFAEIDDLNGGQEAIEERARNELSMTRPGETFYRLVPDASKRNQASGQQQNNR				NA	NA	NA	NA	NA
BMS020_01636	327	ygbE		Inner membrane protein YgbE	ATGCGCAATACCCAGAACCTCAGTATTATTCGTTCAGAACCGCCTCCGGCGACCGGCGACGAGACCACCTGGTCTTTGTCGGGCGCTGCCGTGGGCTTTATTTCATGGCTGCTGGCGCTGGGTATTCCCTTCCTTCTCTATGGCAGTAATACACTTTTCTTCCTCCTCTACACCTGGCCATTCTTCCTTGCGTTGATGCCGGTGGCGGTGGTGGTCGGTATTGCGCTGCACTCTCTGCTCAATGGCAAACTGCTCTATAGCGCCAGCGCGACCATCCTGACCGTCGGGCTGATGTTTGCGCTCCTCTTCCTCTGGCTGTTGGGATAA	MRNTQNLSIIRSEPPPATGDETTWSLSGAAVGFISWLLALGIPFLLYGSNTLFFLLYTWPFFLALMPVAVVVGIALHSLLNGKLLYSASATILTVGLMFALLFLWLLG				NA	NA	NA	NA	NA
BMS020_01637	606	cysC	COG0529	Adenylyl-sulfate kinase	ATGGCCCAGCATGACGAAAACGTCGTCTGGCATGCCCATCCTGTGACCCAGCAGCAGCGGGAACAGCATCACGGCCATCGCGGCGTGGTGCTGTGGTTTACCGGCCTTTCGGGGTCGGGTAAATCCACCGTCGCCGGGGCGCTGGAAGAGGCCTTGCATGAGCGCGGCGTCAGCACCTATCTGCTGGACGGCGATAACGTACGTCATGGCTTGTGCAGCGACCTGGGATTCAGTGATGAGGATCGCAAAGAGAACATTCGCCGCGTCGGTGAAGTGGCCAGGCTGATGGTCGATGCCGGGCTGGTTGTATTGACGGCATTTATATCTCCGCACCGTGCGGAGCGACAGATGGTGCGCGAGCGCCTGGGGGAGGGACGCTTTATCGAAGTGTTCGTCGATACCCCGCTGGCCATCTGCGAGGCGCGGGATCCGAAAGGATTGTATAAGAAGGCGCGGGCAGGGGAATTACGCAATTTCACTGGTATAGACTCGGTCTATGAGGCACCGGAAAAGGCGGAAATTCATCTGGATGGTGAACAATTGGTAACAAATTTGGTGCACCAACTATTAGACCTGCTGCAACAGAGCGATATTATCAGATCCTGA	MAQHDENVVWHAHPVTQQQREQHHGHRGVVLWFTGLSGSGKSTVAGALEEALHERGVSTYLLDGDNVRHGLCSDLGFSDEDRKENIRRVGEVARLMVDAGLVVLTAFISPHRAERQMVRERLGEGRFIEVFVDTPLAICEARDPKGLYKKARAGELRNFTGIDSVYEAPEKAEIHLDGEQLVTNLVHQLLDLLQQSDIIRS	PGPT0002780_1223	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002780-cysC-K00860	NA	NA
BMS020_01638	1428	cysN	COG2895	Sulfate adenylyltransferase subunit 1	ATGAACACGACCATTGCCCAACAAATTGCCAATGAAGGCGGCGTAGAAGCTTATCTGCACGCGCAACAGCACAAGAGCCTGCTGCGTTTTCTGACCTGCGGCAGCGTCGATGACGGTAAAAGCACCCTGATTGGCCGTCTGCTGCACGATACCCGCCAGATCTATGAAGATCAGCTCTCTTCGCTGCACAACGACAGCAAGCGTCACGGCACCCAGGGCGAAAAACTGGACCTGGCGCTGCTGGTGGATGGCCTGCAGGCCGAGCGCGAGCAGGGCATCACCATCGACGTGGCCTATCGCTACTTCTCGACGGAAAAACGCAAATTTATCATCGCCGACACCCCGGGGCACGAGCAGTACACCCGCAATATGGCCACCGGCGCGTCCACCTGCGATCTGGCGATCCTGCTGATCGACGCGCGTAAAGGCGTGCTCGACCAGACCCGCCGTCACAGCTTTATCTCCACCCTGCTGGGCATTAAACACCTGGTGGTGGCGGTCAACAAAATGGATCTCGTCGAGTTTAGCGAAGCGCGCTTCAACGAGATCCGTGAAGCTTACCTGACTTTTGCCGAGCAGCTGCCGGGCAACCTCGATATTCGCTTTGTGCCGCTGTCGGCGCTGGAGGGCGATAATGTCGCCAGCCAGAGCGCGAACATGCCGTGGTACAGCGGCCCGACTCTGCTGGAAGTCCTCGAAACGGTGGAGATCCAACGGGTAGTGGAGAGCCAACCGCTGCGCTTCCCGGTGCAGTATGTTAACCGTCCGAACCTCGATTTCCGCGGCTTCTCCGGTACGGTCGCCTCCGGTACCGTGCAGGTCGGCCAGCGTCTGAAGGTGCTGCCGTCGGGCGTCGAGTCGAGCGTGGCGCGTATCGTCACCTTCGACGGCGATCTGCAGGAAGCCGCCGCCGGGGAAGCCATTACCATTGTGCTGAAAGATGAAATCGACATCAGCCGCGGCGACCTGCTGGTTGACGCGCAAGCCACGCTGCCGGCGGTGCAAAGCGCCAGCATCGACGTGGTGTGGATGGCCGAGCAGGCGTTGACCCCGGGGCAGAGCTACGACATCAAAATCGCCGGTAAGAAGACCCGCGCCCGCGTGGACGCGATCCGTTACCAGGTAGATATTAACAACCTGACCCAGCGTGAAGTCGAGTCTCTGCCGCTGAACGGCATCGGGCTGGTGGAGCTGACCTTTGACGAACCTTTAGTGCTGGATCCCTATCAGCAAAACCCAGTGACCGGTGGGCTTATCTTTATCGATCGTCTGACCAACGTCACCGTCGGCGCCGGGATGGTCAACGAGCCGCACCTGCAGGCGCCGACGTCGGCATCGCAGTACAGCGCTTTCGAGCTGGAACTGAACCAGCTGATCCGCAAACACTTCCCGCACTGGGACGCCCGCGACCTGCTGGGAGGCAAATAA	MNTTIAQQIANEGGVEAYLHAQQHKSLLRFLTCGSVDDGKSTLIGRLLHDTRQIYEDQLSSLHNDSKRHGTQGEKLDLALLVDGLQAEREQGITIDVAYRYFSTEKRKFIIADTPGHEQYTRNMATGASTCDLAILLIDARKGVLDQTRRHSFISTLLGIKHLVVAVNKMDLVEFSEARFNEIREAYLTFAEQLPGNLDIRFVPLSALEGDNVASQSANMPWYSGPTLLEVLETVEIQRVVESQPLRFPVQYVNRPNLDFRGFSGTVASGTVQVGQRLKVLPSGVESSVARIVTFDGDLQEAAAGEAITIVLKDEIDISRGDLLVDAQATLPAVQSASIDVVWMAEQALTPGQSYDIKIAGKKTRARVDAIRYQVDINNLTQREVESLPLNGIGLVELTFDEPLVLDPYQQNPVTGGLIFIDRLTNVTVGAGMVNEPHLQAPTSASQYSAFELELNQLIRKHFPHWDARDLLGGK	PGPT0002400_555	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002400-cysN-K00956	NA	NA
BMS020_01639	909	cysD_1	COG0175	Sulfate adenylyltransferase subunit 2	ATGGACCAAAAACGACTCACTCACCTGCGGCAACTGGAGGCGGAAAGCATCCATATTATTCGTGAGGTGGCCGCCGAATTTTCTAACCCGGTGATGATGTACTCCATCGGGAAAGATTCCAGCGTAATGCTGCATCTGGCGCGCAAAGCGTTTTATCCGGGAACCCTGCCGTTCCCGCTGCTGCACGTCGATACCGGCTGGAAATTCCGTGAGATGTATGAGTTCCGCGACCGTACCGCCAAAGCCTATGGCTGCGAGCTGCTGGTGCATAAAAACCCGGAAGGGGTGGCGATGGGCATCAACCCGTTTGTCCACGGCAGCGCCAAGCATACCGATATCATGAAAACCGAAGGGCTGAAGCAGGCGCTGAACAAATACGGCTTTGACGCCGCATTCGGCGGCGCGCGGCGTGATGAGGAGAAATCCCGCGCTAAAGAGCGCATCTACTCCTTCCGCGACCGCTTCCACCGCTGGGACCCGAAAAACCAGCGTCCGGAGCTGTGGCACAACTACAACGGCCAGATTAACAAAGGCGAAAGCATCCGCGTCTTCCCGCTCTCCAACTGGACCGAGCTGGATATCTGGCAGTACATCTATCTGGAAAACATCGAAATCGTGCCGCTGTATCTGGCCGCTGAGCGCCCGGTGCTGGAGCGCGACGGCATGCTGATGATGATCGACGACGACCGTATCGATCTGCAGCCGGGCGAAGTGATTGAAAAACGGATGGTGCGTTTCCGTACCCTCGGCTGCTGGCCGCTGACCGGCGCGGTGGAGTCTGAAGCGCAGACGCTGCCGGAAATTATTGAAGAGATGCTGGTATCCACCACCAGCGAACGTCAGGGGCGCGTCATCGATCGCGACCAGGCCGGCTCGATGGAGCTGAAGAAACGTCAGGGTTATTTCTAA	MDQKRLTHLRQLEAESIHIIREVAAEFSNPVMMYSIGKDSSVMLHLARKAFYPGTLPFPLLHVDTGWKFREMYEFRDRTAKAYGCELLVHKNPEGVAMGINPFVHGSAKHTDIMKTEGLKQALNKYGFDAAFGGARRDEEKSRAKERIYSFRDRFHRWDPKNQRPELWHNYNGQINKGESIRVFPLSNWTELDIWQYIYLENIEIVPLYLAAERPVLERDGMLMMIDDDRIDLQPGEVIEKRMVRFRTLGCWPLTGAVESEAQTLPEIIEEMLVSTTSERQGRVIDRDQAGSMELKKRQGYF	PGPT0002405_2019	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002405-cysD-K00957	NA	NA
BMS020_01640	1416	cysG_1	COG0007	Siroheme synthase	GTGGATTACTTGCCCCTTTTTGCCGAACTGAAACAAAGGCCCGTGCTGGTGATCGGCGGCGGTGAGATTGCCGAACGCAAGATCAAGTTTCTGCTGCGCGCCCAGGCGCAGGTGCAGGTGGTCGCCGGGACGCTGTCTCCGGCGCTGGCCGATCTGGCGGCGCGCCAGGCGCTTAGCTGGCGGGCGACGGAATTTAGCGACGCTCTGGTGGATGATGTCTTTCTGGTGATTGCCGCCACGGAGGACGAGGCGCTTAACCAGCGGGTGTTTGCGGCGGCTAACGCGCGCTACCGGCTGGTCAACGTAGTGGATAACCAGGCGCTCTGCTCGTTTGTCTTCCCTTCTATCGTCGACCGTTCGCCGCTGCTGGTGGCGATCTCCTCCAGCGGGAAAGCGCCGGTGCTGTCGCGTATTCTGCGCGAAAAAATCGAAGCGCTGCTGCCGACGAACCTCGGGCGTCTGGCGGAATCGGCGAGCTACTGGCGCAATCATCTGAAAACCCGTCTGACGACCACCGAAGCGCGTCGCCGCTTTTGGGAACGGGTCTTTACCGGTCGCTTCGCCAGCCTGATGGTGGCGGGCAACGCTGCGGAGGCGGAAAAAGCGCTGCAGGATGAGCTGGATAAGCCTGAACGCGAAACAGGTGAAATTATTCTGGTGGGGGCCGGACCGGGCGATGCCGGGCTGCTGACCCTGCGTGGCCTGCAGGCGATCCAGCAGGCGGACGTGGTTTTCCACGACCATCTGGTGACCCAGCCGGTTCTCGAGCTGGTGCGCCGCGATGCCGAGCTGATTTGCGTCGGTAAGCGCGCCGGCGAGCACTCGGTGCCGCAGCATGAAACCAATCAGCTGCTGGTGGAGGCGGCGAAGGCGGGGAAAACCGTCGTGCGTCTGAAGGGCGGGGATCCGTTTATTTTTGGCCGCGGCGCAGAAGAGCTGCAGGCTGCCGCCGCCGCGGGCATCCCGTTCCAGGTGGTGCCTGGCGTCACTGCCGCCGCCGGCGCGACGGCCTACGCCGGTATTCCACTGACCCATCGCGATTATGCGCAAAGCGCCGTCTTTGTCACCGGGCACTATAAGCCGGACAGCGCTCCCTTCGACTGGGCGCTGCTGGCGAAGAGCCAACAGACGTTGGCCATTTACATGGGCACCATGAAGGCGGCGGAAATCAGCGCCCAGCTGATCGCCCACGGTCGCGACAGCAATACGCCGGTAGCGGTGATTTCCCGCGGTACCCGTGACGATCAGCAGACGATAACCGGCACATTGCAACAACTCGAACACCTGGCGAAAGACGCCCCGATGCCCGCCCTGCTGGTGGTCGGCGAAGTGGTGCAGCTGCATCAGCAGCTCGCCTGGTTTCAACATACATCATCCGCCGAGGGGTTTAACTCTTCGGTGGTCAATCTGGCTTAA	MDYLPLFAELKQRPVLVIGGGEIAERKIKFLLRAQAQVQVVAGTLSPALADLAARQALSWRATEFSDALVDDVFLVIAATEDEALNQRVFAAANARYRLVNVVDNQALCSFVFPSIVDRSPLLVAISSSGKAPVLSRILREKIEALLPTNLGRLAESASYWRNHLKTRLTTTEARRRFWERVFTGRFASLMVAGNAAEAEKALQDELDKPERETGEIILVGAGPGDAGLLTLRGLQAIQQADVVFHDHLVTQPVLELVRRDAELICVGKRAGEHSVPQHETNQLLVEAAKAGKTVVRLKGGDPFIFGRGAEELQAAAAAGIPFQVVPGVTAAAGATAYAGIPLTHRDYAQSAVFVTGHYKPDSAPFDWALLAKSQQTLAIYMGTMKAAEISAQLIAHGRDSNTPVAVISRGTRDDQQTITGTLQQLEHLAKDAPMPALLVVGEVVQLHQQLAWFQHTSSAEGFNSSVVNLA	PGPT0003690_704	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003690-cysG-K02302	NA	NA
BMS020_01641	1047			hypothetical protein	ATGTTTTCCGCGTTGTGCCGCCGTCTGCTTCCGCTGGCGCTCGGCACCGGTTTTGTTTTCGCCGCCGCCCCCGCATTCAGCGCGCTGGGCGACACCGCCAGTAGTCAGGCTCGCCATATCGCCACCGTCTTCCCGGGACGAATGACCGGAACGCCCCCGGAAATGCTCTCAGCTGACTATCTGCGCCAGCAGTTCGCCCGGATGGGCTATCAGAGCGACGTGCGGAGCTTCAATACCCGCTACATCTATACCGACAGCAACCAGCGTAAAAACTGGCATAACGTCACCGGCAGTACGGTGATCGCCGCCCATGAAGGCCAGTCTCGCCAGCAAATCATCATCATGGCGCACCTCGATACCTACGCGCCGCAGAGCGATAAAGACGTCGAAAACAACCTCGGCGGCCTGACGCTGCAGGGAATTGACGACAACGCGATGGGGCTCGGGGTGATGCTGGAGCTGGCGGAGCATTTAAAGAACGTCCCCACCCGCTATGGCATTCGCTTTATCGCCACCAGCGGCGAAGAGGAAGGTCGTCTCGGCGCGCAAAACCTGCTGCAGCGGATGAGCGAGGCGGAAAAGAAAAATACCCTGCTGGTGATCAATCTCGATAACCTGGTGGTGGGCGATAAGCTTTACTTCAACAGCGGCCGCCGCACGCCGGCCTCGGTGCGCAAGCTGACCCGCGATCGCGCGCTGGCTATCGCCCGCAGCAAAGGCATCGCCGCCTACACCAATCCGGGACTCAATCCGGCTTACCCGAAAGGCACCAGCTGCTGTAATGACGCCAGCGTCTTCGACAACGCGGGGATCCCGGTGCTGTCGGTCGAAGCGACCAACTGGTCATTAGGCAAGAAAGATGGCTATCAGCAGCGGAGCAAATCGCGCAGCTTCCCGCAGGGAATCAGCTGGCATGACGTTCAGCTGGATAATCAGCAATATATCGACAACGCGCTGCCGGGACGGATCGAGCATCGCGGGCGCGATGTCGTGAAAGTGATGCTGCCGCTGGTGAAAGAGCTGGCGAAGGTGGAGAAGAAAAGCTGA	MFSALCRRLLPLALGTGFVFAAAPAFSALGDTASSQARHIATVFPGRMTGTPPEMLSADYLRQQFARMGYQSDVRSFNTRYIYTDSNQRKNWHNVTGSTVIAAHEGQSRQQIIIMAHLDTYAPQSDKDVENNLGGLTLQGIDDNAMGLGVMLELAEHLKNVPTRYGIRFIATSGEEEGRLGAQNLLQRMSEAEKKNTLLVINLDNLVVGDKLYFNSGRRTPASVRKLTRDRALAIARSKGIAAYTNPGLNPAYPKGTSCCNDASVFDNAGIPVLSVEATNWSLGKKDGYQQRSKSRSFPQGISWHDVQLDNQQYIDNALPGRIEHRGRDVVKVMLPLVKELAKVEKKS				NA	NA	NA	NA	NA
BMS020_01642	735	cysH_1	COG0175	Phosphoadenosine phosphosulfate reductase	ATGTCCGTACTCGATCTAAACGCGCTTAATGCATTGCCGAAAGTGGAACGCATTCTGGCACTCGCGGAAACCAACGCCCAACTGGAAAAGCTCGACGCCGAAGGGCGTGTGGCCTGGGCGCTGGAAAACCTGCCGGGAGACTATGTGCTGTCGTCAAGCTTTGGTATTCAGGCGGCGGTGAGTTTGCACCTGGTGAATCAAATCCGCCCGGACATTCCGGTGATCCTCACCGATACCGGTTACCTGTTCCCGGAAACCTACCAGTTTATTGACGAGCTGACGGACAAGCTCAAGCTGAACCTGAAGGTCTACCGCGCGGCCGAAAGCGCGGCCTGGCAGGAGGCGCGCTACGGCAAGCTGTGGGAGCAGGGCGTTGAGGGCATTGAGAAATACAATGAGATCAACAAGGTTGAACCGATGAACCGGGCGCTGAAAGAGCTAAACGCGCAGACGTGGTTTGCCGGTCTGCGCCGCGAGCAGTCGGGCAGTCGGGCGACGCTTCCGGTGCTGGCGGTCCAGCGCGGGGTGTTCAAGGTATTGCCGATTATCGACTGGGATAACCGGACGGTGTATCAGTATCTGCAAAAGCATGGGCTGAAATACCATCCGCTGTGGGATCAGGGGTATCTGTCGGTAGGCGATACCCACACCACCCGCAAATGGGAGCCGGGCATGGCAGAAGAAGAGACCCGGTTCTTCGGGCTTAAACGCGAGTGCGGATTGCACGAGGGTTGA	MSVLDLNALNALPKVERILALAETNAQLEKLDAEGRVAWALENLPGDYVLSSSFGIQAAVSLHLVNQIRPDIPVILTDTGYLFPETYQFIDELTDKLKLNLKVYRAAESAAWQEARYGKLWEQGVEGIEKYNEINKVEPMNRALKELNAQTWFAGLRREQSGSRATLPVLAVQRGVFKVLPIIDWDNRTVYQYLQKHGLKYHPLWDQGYLSVGDTHTTRKWEPGMAEEETRFFGLKRECGLHEG	PGPT0002785_2007	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002785-cysH-K00390	NA	NA
BMS020_01643	1713	cysI_1	COG0155	Sulfite reductase [NADPH] hemoprotein beta-component	ATGAGCGAAAAACATCCGGGGCCTTTAGTGGTCGAAGGTAAACTGACCGATGCCGAGCGTATGAAGCTCGAGAGCAACTACCTGCGCGGCACCATTGCGGAAGATTTAAACGACGGTCTGACCGGCGGTTTTAAAGGCGATAACTTCCTGCTGATCCGTTTCCACGGTATGTACCAGCAGGACGATCGCGATATCCGCGCGGAGCGCGCCGCTCAGAAGCTGGAGCCGCGTCATGCGATGCTCCTGCGCTGCCGTTTGCCGGGCGGGGTGATCACCACCACCCAGTGGAAGGCGATCGATAAGTTTGCCGCCGAGAACACCATTTACGGCAGTATTCGCCTGACCAACCGGCAGACTTTCCAGTTTCACGGCATTCTGAAAAAGAACGTCAAGCCGGTGCATCAGATGCTGCACTCGGTGGGGCTGGACGCGCTGGCCACCGCCAACGATATGAACCGTAACGTGCTGTGCACCTCCAACCCGTACGAATCGCAGTTGCACGCTGAGGCCTATGAGTGGGCGAAAAAGATCTCCGAGCATTTGCTGCCGCGCACCCGCGCCTATGCCGAGATCTGGCTGGATCAGAAAAAGGTCGCCACCACTGACGAAGAGCCGATCCTCGGTCAGACCTATCTGCCGCGTAAGTTTAAAACCACGGTGGTGATCCCGCCGCAGAACGATATCGATCTGCACGCCAACGACATGAACTTTGTGGCGATCGCCGAAAACGGCAAGCTGGTGGGCTTTAACCTGCTGGTGGGCGGCGGTCTTTCTATCGAACACGGTAACAAAAAAACCTACGCCCGCACGGCGAGCGAATTCGGTTATCTGCCGCTGGAGCATACTCTGGCGGTGGCGGAAGCGGTCGTGACTACCCAGCGCGACTGGGGGAACCGTACCGACCGTAAGAATGCGAAAACCAAGTACACCCTTGAGCGCGTTGGCGTTGAAACCTTTAAGGCGGAAGTGGAGCGCCGGGCAGGCATTAAGTTTGAGCCGATCCGCCCGTACGAATTCACCGGCCGCGGCGACCGCATCGGCTGGGTGAAGGGGATTGATGATAAATGGCACCTGACGCTGTTTATTGAAAACGGCCGCATTCTGGATTATCCGGGGCGCCCGCTGAAAACCGGTCTGCTGGAGATTGCTAAGATCCATCAGGGCGAATTCCGCATCACCGCCAATCAGAACCTGATCGTCGCCAGCGTACCGGAAGATCAGAAGGCGCGGATCGAGAAGCTGGCGCGGGATCATGGTCTGATGAATGCCGTCACCCCGCAGCGCGAAAACTCAATGGCCTGCGTCTCCTTCCCGACCTGCCCGCTGGCGATGGCAGAAGCCGAGCGTTTCCTGCCGTCGTTTATCGACAAGGTGGAAGGGGTGATGAGCAAGCATGGCGTGAGCGATGAGCATATCGTCACCCGCGTCACCGGCTGTCCGAACGGCTGCGGCCGCGCGATGCTGGCGGAAGTGGGGCTGGTGGGGAAAGCGCCAGGCCGCTATAACCTGCACATCGGCGGTAACCGCAGCGGCACCCGCATCCCGCGGATGTACCGTGAGAACATTACCGAGTCGGAAATTCTCGACTCGCTAGACCAACTGGTAGGGCGCTGGGCGAAAGAGCGCGAAGCGGGTGAAGGCTTCGGCGACTTTACGGTGCGTGCGGGCATCATTCGCCCGGTGCTCGATCCAGCCCGCGATTTCTGGGAGTAA	MSEKHPGPLVVEGKLTDAERMKLESNYLRGTIAEDLNDGLTGGFKGDNFLLIRFHGMYQQDDRDIRAERAAQKLEPRHAMLLRCRLPGGVITTTQWKAIDKFAAENTIYGSIRLTNRQTFQFHGILKKNVKPVHQMLHSVGLDALATANDMNRNVLCTSNPYESQLHAEAYEWAKKISEHLLPRTRAYAEIWLDQKKVATTDEEPILGQTYLPRKFKTTVVIPPQNDIDLHANDMNFVAIAENGKLVGFNLLVGGGLSIEHGNKKTYARTASEFGYLPLEHTLAVAEAVVTTQRDWGNRTDRKNAKTKYTLERVGVETFKAEVERRAGIKFEPIRPYEFTGRGDRIGWVKGIDDKWHLTLFIENGRILDYPGRPLKTGLLEIAKIHQGEFRITANQNLIVASVPEDQKARIEKLARDHGLMNAVTPQRENSMACVSFPTCPLAMAEAERFLPSFIDKVEGVMSKHGVSDEHIVTRVTGCPNGCGRAMLAEVGLVGKAPGRYNLHIGGNRSGTRIPRMYRENITESEILDSLDQLVGRWAKEREAGEGFGDFTVRAGIIRPVLDPARDFWE	PGPT0002790_913	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002790-cysI-K00381	NA	NA
BMS020_01644	1800	cysJ_1	COG0369	Sulfite reductase [NADPH] flavoprotein alpha-component	ATGACGACACAGGCCCCACCTTCCAACTTGCTGCCGCTCAACCCGGAGCAACTGGCGCGCCTTCAGGCGGCCACCACTGACTTTACGCCCACTCAGCTCGCCTGGGTGTCTGGCTATTTCTGGGGCGTGCTGAATCAGCAGTCCGGCGCGGCAGCCGCCGTTCCCGCCCCGGACGCCGAGGTCCCGACGATCACGCTGATTTCCGCCTCGCAAACCGGCAACGCTCGCCGCGTCGCCGAAGCGCTGCGCGACGATCTGCTGGCGGCGAAGCTGAACGTGAAGCTGGTGAATGCAGGCGATTATAAATTCAAACAAATTGCTGCTGAAAAACTGCTGGTGGTCGTGACCTCCACCCAGGGGGAAGGTGAGCCGCCGGAAGAAGCGGTCGCATTGCATAAGTTCCTGTTCTCGAAGAAAGCGCCGAAGCTGGACGGGACCGCATTCGCCGTCTTTGGCCTCGGCGATACCTCTTATGAATTCTTCTGCCAGTCCGGCAAAGATTTCGACAGCAAGCTGGCTGAACTTGGCGCGGAACGCCTGCTCGATCGCGTCGACGCCGACGTTGAATATCAGGCCGCGGCCGCTGAATGGCGCGCGCGCGTCGTTGAGGTGCTGAAGGCCCGTGCGCCGGTCGCCGCGCCCGCTCAGCTGTCCGCCAGCGGCGCAGTGAACGATATTCACACCAGTCCATACACCAAAGAGGCTCCGCTGACGGCGACCCTGTCGGTCAACCAGAAAATCACCGGCCGCGATTCAGAAAAAGATGTACGCCATATCGAAATTGACCTCGGTGATTCCGGTCTGCGCTATCAGCCGGGCGACGCCCTGGGCGTCTGGTATCAAAACGATCCTCAGCTGGTGAAAGAGCTGGTGGAGCTGCTGTGGCTGAAAGGCGACGAGCCGGTGACCGTCGAGGGCAAAACCCTGCCGCTGGCGGAAGCCCTGCAGTGGCATTTTGAGCTGACGGTTAACACCGCGACTATCGTCGAAAACTACGCCACCCTGACCCGCAGCGAATCGCTGCTGCCGCTGGTGGGCGATAAAGCTCAACTGCAGCAGTATGCCGCCGCGACGCCGATCGTCGATATGGTCCGTTTCTCCCCCGCGCAGCTGGACGCCGAGGCGTTAATCGGTCTGCTGCGCCCGCTGACGCCGCGTCTGTACTCTATTGCCTCCTCGCAGGCGGAAGTGGAGAGCGAAGTGCATGTCACCGTGGGCGTGGTGCGCTATGACATCGAAGGCCGCGCCCGGGCTGGCGGCGCCTCCAGCTTCCTCGCCGACCGCGTGGAAGAGGATGGCGAAGTCCGCGTCTTTATCGAACACAACGACAACTTCCGTCTGCCGGCTAACCCGGAGACGCCGGTGATCATGATTGGCCCTGGCACCGGTATTGCGCCGTTCCGCGCCTTCATGCAGCAGCGCGCAGCGGACGGGGCGCCAGGTAAGAACTGGCTGTTCTTCGGCAACCCGCACTTCACCGAAGATTTCCTCTATCAGGTGGAGTGGCAGAGCTATGTGAAAGAGGGGCTGCTGACCCGTATCGATCTGGCCTGGTCCCGCGATCAACAACAAAAAATCTATGTGCAGGACAAACTGCGTGAGCAGGGGGCTGAGCTGTGGCGCTGGATCAATGATGGCGCCCACATTTATGTCTGCGGCGACGCCAATCGTATGGCGAAAGACGTGGAACAGACTTTACTGGAAGTGATTGCCGAATACGGCGCGATGGACGCCGAAGCGGCGGACGAATTTTTAAGTGAGCTGCGCGTTGAGCGCCGTTATCAGCGAGATGTCTACTAA	MTTQAPPSNLLPLNPEQLARLQAATTDFTPTQLAWVSGYFWGVLNQQSGAAAAVPAPDAEVPTITLISASQTGNARRVAEALRDDLLAAKLNVKLVNAGDYKFKQIAAEKLLVVVTSTQGEGEPPEEAVALHKFLFSKKAPKLDGTAFAVFGLGDTSYEFFCQSGKDFDSKLAELGAERLLDRVDADVEYQAAAAEWRARVVEVLKARAPVAAPAQLSASGAVNDIHTSPYTKEAPLTATLSVNQKITGRDSEKDVRHIEIDLGDSGLRYQPGDALGVWYQNDPQLVKELVELLWLKGDEPVTVEGKTLPLAEALQWHFELTVNTATIVENYATLTRSESLLPLVGDKAQLQQYAAATPIVDMVRFSPAQLDAEALIGLLRPLTPRLYSIASSQAEVESEVHVTVGVVRYDIEGRARAGGASSFLADRVEEDGEVRVFIEHNDNFRLPANPETPVIMIGPGTGIAPFRAFMQQRAADGAPGKNWLFFGNPHFTEDFLYQVEWQSYVKEGLLTRIDLAWSRDQQQKIYVQDKLREQGAELWRWINDGAHIYVCGDANRMAKDVEQTLLEVIAEYGAMDAEAADEFLSELRVERRYQRDVY	PGPT0002795_1773	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002795-cysJ-K00380	NA	NA
BMS020_01645	366	queD_1	COG0720	6-carboxy-5,6,7,8-tetrahydropterin synthase	ATGATGTCCACCACGCTGTTTAAAGATTTCACCTTCGAAGCCGCCCACCACCTGCCGCACGTCCCGGAAGGACACAAATGCGGTCGCCTGCATGGCCACTCCTTTATGGTGCGTCTGGAGATAATCGGTGAAGTCGATCCCCATACCGGGTGGATCATGGATTTTGCCGAGCTGAAGGCCGCCTTCAAGCCAACCTACGATCGCCTGGACCACTATTATCTGAACGATATCCCCGGTCTGGAAAACCCTACCAGCGAAGTGCTGGCCAAATGGATCTGGGATGAGATGAAACCGCGGGTACCGCTGCTGAGCGCGGTGATGGTGAAAGAGACCTGCACCGCCGGCTGCGTCTATCGCGGCGAGTAA	MMSTTLFKDFTFEAAHHLPHVPEGHKCGRLHGHSFMVRLEIIGEVDPHTGWIMDFAELKAAFKPTYDRLDHYYLNDIPGLENPTSEVLAKWIWDEMKPRVPLLSAVMVKETCTAGCVYRGE	PGPT0007880_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007880-folE2-K09007	NA	NA
BMS020_01646	672	queE_1		7-carboxy-7-deazaguanine synthase	ATGCAGTACCCGATTAACGAGATGTTCCAGACCCTGCAAGGCGAGGGTTACTTCACCGGCGTGCCTGCCATTTTTATTCGTCTGCAGGGATGCCCGGTAGGATGCGCGTGGTGTGACACCAAGCATACCTGGGACAAACTGGCCGATCGGGAAGTGTCGTTGTTCAGCATCCTGGCGAAAACCAAAGAGAGCGATAAGTGGGGGCCGGCAAGCAGTGAAGATCTGCTGGCGATTATCGGTCGTCAGGGTTGGACTGCCCGCCACGTGGTCATTACCGGCGGTGAGCCCTGCATTCATGATTTAACGCCGTTAACCTCGCTGCTGGAGCAAAACGGCTTTAGCTGCCAGATTGAAACCAGCGGCACTCACGAAGTTCGCTGTACGCCTCATACCTGGGTGACGGTATCGCCGAAGGTGAATATGCGCGGCGGGTATGACGTGCTGTCTCAGGCCCTGCAGCGGGCGGATGAGATCAAACATCCGGTAGGGCGCGTCCGCGACATCGAAGCACTGGACGAACTGCTGGAAACGCTGAGCGATGACAAACCGCGGATCATCGCCCTGCAGCCAATCAGCCAGAAAGAAGACGCGACGCGCCTGTGTATCGACACCTGCATCGCCCGTAACTGGCGCCTGTCCATGCAGACGCATAAATATCTGAATATCGCCTGA	MQYPINEMFQTLQGEGYFTGVPAIFIRLQGCPVGCAWCDTKHTWDKLADREVSLFSILAKTKESDKWGPASSEDLLAIIGRQGWTARHVVITGGEPCIHDLTPLTSLLEQNGFSCQIETSGTHEVRCTPHTWVTVSPKVNMRGGYDVLSQALQRADEIKHPVGRVRDIEALDELLETLSDDKPRIIALQPISQKEDATRLCIDTCIARNWRLSMQTHKYLNIA				NA	NA	NA	NA	NA
BMS020_01647	1110			hypothetical protein	ATGACCACATTATTCATTACCGGCGTCACCGGTTTTCTGGGCGGCGCGGCGTTAGAGAAAATACTCCATCAGGATAGCCAGTTAGATCTGCTGCTGCTGGTGCGTGCCGACAGTCCCGACGCAGGCCTGGAGCGGGTCAAGGAGAACATGCGTAAGTTCAACATCGCCGAGGAGAAACTGGCGATGCTGCGCCCGCAGCAGATCCTGCTGGGCGATCTCGCCTCTCCGGAGCATTTTCTTAACGACCCGCGGCTTGAGCAAGTTACCCATGTCCTCAACTGCGCCGCTGTCGCCTCATTTGGCAGCAACCCGCTCATCTGGAAGGTTAACGTTGCGGGTACGCTGCGTCTGGCGCAACGGATGGCGCAGGTGGCGGGTCTGCAGCGTTTTCTGCACGTCGGTACCGCTATGTCCTGCTCACCGGAGCCGGATTCGCTGGTCGCCGAGAGCGCGGAGTTTCGGCAGCGCGCCGAGCATCTGGTGGAATATACCCACTCGAAATCGGCCATCGAGCAACTGATGCAGCAGCACTGCCCTACGCTACCGCTGGTCATTGCCCGCCCTTCTATTGTGGTGGGCCATACCCATCATGGCTGCCGGCCTTCCAGCAGTATTTTCTGGGTGTTCAGCATGGGGCTGATGCTGCAGAAATTTATGTGCGCGATGGAGGATCGGATCGATGTTATTCCGGTGGACTACTGCGCCGATGCCCTGCTGATGCTGCTTAACCAGCCGCTGGCCCGCGGCGAGGTGGTGCATATCTCTGCCGGCGAGGAGAACAGCGTGAAGTTTGCCGAAATCGACCGGGCGATGGCCCTGGCGCTGGAGCAGGCGCCGGTGGGAGACAAGTACGCCCAGGTGAGCTATGAAACGCTGGTCAAAATGCGTCGCGAACTGAAAGGAATTTTTGGGCCGTGCAATGAGCGACTGATGCTGAAAGCGATGCGCTTATATGGCGCGTTCGCCACGCTGAACGTGCGCTTTAGCAACGACAAGCTGCTGAGCATGGGGATGCCAAAACCGCCGCGCTTTACCGATTACATCGACCGCTGCGTGGAAACCACTCGCGGGCTGTCGATCCCTCAGCAAATGGCCGTCGACTTTAAATAA	MTTLFITGVTGFLGGAALEKILHQDSQLDLLLLVRADSPDAGLERVKENMRKFNIAEEKLAMLRPQQILLGDLASPEHFLNDPRLEQVTHVLNCAAVASFGSNPLIWKVNVAGTLRLAQRMAQVAGLQRFLHVGTAMSCSPEPDSLVAESAEFRQRAEHLVEYTHSKSAIEQLMQQHCPTLPLVIARPSIVVGHTHHGCRPSSSIFWVFSMGLMLQKFMCAMEDRIDVIPVDYCADALLMLLNQPLARGEVVHISAGEENSVKFAEIDRAMALALEQAPVGDKYAQVSYETLVKMRRELKGIFGPCNERLMLKAMRLYGAFATLNVRFSNDKLLSMGMPKPPRFTDYIDRCVETTRGLSIPQQMAVDFK				NA	NA	NA	NA	NA
BMS020_01648	1299	eno_1	COG0148	Enolase	ATGTCCAAAATCGTTAAAGTCATCGGTCGTGAAATCATCGACTCCCGTGGTAACCCGACTGTTGAAGCCGAAGTACACCTGGAAGGTGGTTTCGTCGGTATGGCAGCTGCTCCGTCAGGTGCTTCTACTGGTTCCCGCGAAGCGCTGGAACTGCGCGATGGCGACAAATCCCGTTTCCTGGGTAAAGGCGTAACCAAAGCTGTTGCTGCGGTAAACGGCCCGATCGCTCAGGCAATCCTGGGCAAAGATGCCAAAGATCAGGCTGGCATCGACAAGATCATGATCGACCTGGACGGTACTGAAAACAAATCTAACTTCGGTGCGAACGCAATCCTGGCCGTTTCTCTGGCGAACGCCAAAGCAGCAGCTGCCTCCAAAGGCCTGCCGCTGTACGCCCACATCGCTGAACTGAACGGCACTCCGGGCAAATACTCCATGCCGGTTCCGATGATGAACATCATCAACGGCGGTGAGCACGCTGACAACAACGTCGACATCCAGGAATTCATGATTCAGCCGGTTGGCGCGCCGACCCTGAAAGAAGCTGTACGCATGGGTTCTGAAGTGTTCCATCACCTGGCGAAAGTGCTGAAGTCCAAAGGCATGAACACTGCCGTTGGTGACGAAGGCGGCTACGCGCCGAACCTGGGTTCCAACGCCGAAGCGCTGGCTGTTATCGCTGAAGCGGTTAAAGCTGCAGGCTACGAGCTGGGCAAAGACATCACCCTGGCGATGGACTGCGCAGCGTCTGAATTCTACAAAGACGGTAAATACGTTCTGGCCGGCGAAGGCAACAAAGCGTTCACCTCTGAAGAGTTCACTCACTTCCTGGAAGAGCTGACCAAACAGTACCCGATCGTCTCCATCGAAGATGGCCTGGACGAATCTGACTGGGAAGGTTTCGCTTACCAGACCAAAGTACTGGGCGACAAAATCCAGCTGGTTGGTGACGACCTGTTCGTAACCAACACCAAGATCCTGAAAGAAGGCATCGAAAAAGGCATCGCTAACTCCATCCTGATCAAATTCAACCAGATCGGTTCTCTGACCGAAACTCTGGCGGCTATCAAGATGGCGAAAGACGCTGGCTACACCGCTGTCATCTCTCACCGTTCTGGCGAAACTGAAGACGCGACCATTGCCGACCTGGCTGTGGGTACCGCTGCAGGCCAGATCAAAACTGGTTCTATGAGCCGTTCTGACCGCGTTGCTAAATACAACCAGCTGATTCGTATCGAAGAAGCGCTGGGTGAGCAAGCGCCGTTCAACGGTCGTAAAGAGATCAAAGGCCAGGCTTAA	MSKIVKVIGREIIDSRGNPTVEAEVHLEGGFVGMAAAPSGASTGSREALELRDGDKSRFLGKGVTKAVAAVNGPIAQAILGKDAKDQAGIDKIMIDLDGTENKSNFGANAILAVSLANAKAAAASKGLPLYAHIAELNGTPGKYSMPVPMMNIINGGEHADNNVDIQEFMIQPVGAPTLKEAVRMGSEVFHHLAKVLKSKGMNTAVGDEGGYAPNLGSNAEALAVIAEAVKAAGYELGKDITLAMDCAASEFYKDGKYVLAGEGNKAFTSEEFTHFLEELTKQYPIVSIEDGLDESDWEGFAYQTKVLGDKIQLVGDDLFVTNTKILKEGIEKGIANSILIKFNQIGSLTETLAAIKMAKDAGYTAVISHRSGETEDATIADLAVGTAAGQIKTGSMSRSDRVAKYNQLIRIEEALGEQAPFNGRKEIKGQA	PGPT0018050_740	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
BMS020_01649	1638	pyrG_1	COG0504	CTP synthase	ATGACAACGAACTATATTTTTGTGACCGGCGGGGTCGTATCCTCTCTGGGTAAAGGCATTGCCGCAGCCTCCCTGGCAGCCATTCTTGAAGCCCGTGGTCTCAACGTGACCATCATGAAACTGGATCCGTATATCAACGTCGATCCGGGCACCATGAGCCCAATCCAGCATGGGGAAGTGTTCGTTACTGAAGACGGCGCAGAAACCGATCTGGACCTGGGCCACTACGAGCGTTTCATCCGTACCAAGATGACTCGCCGCAACAACTTCACCACCGGCCGTATTTACTCTGACGTGCTGCGCAAAGAGCGCCGTGGCGACTACCTGGGCGCGACCGTTCAGGTTATTCCGCACATCACCAACGCTATCAAAGAGCGTGTGCTGGCGGGCGGCGAAGGCCATGACGTGGTGCTGGTGGAGATTGGCGGTACCGTCGGCGATATCGAATCCCTGCCGTTCCTCGAAGCCATTCGTCAGATGGCGGTAGAGATTGGCCGCGAACATACCCTGTTTATGCACCTGACTCTGGTGCCGTACATGGCCGCCGCGGGCGAAGTCAAAACCAAACCGACTCAGCACTCCGTGAAAGAGCTGCTCTCCATCGGTATCCAGCCTGACATCCTAATCTGCCGCTCCGATCGCGCTGTTCCGGCCAACGAACGGGCGAAAATTGCTTTGTTCTGTAACGTTCCGGAAAAGGCTGTTATTTCTCTGAAAGACGTCGATTCCATTTATAAAATTCCAGGCCTGTTGAAATCTCAGGGGCTGGACGATTATATTTGTAAACGATTCAGCTTAACTTGTCCGGAAGCAAACCTGGCCGAATGGGAACAGGTAATCTATGAAGAAGCCAATCCGGCAGGCGAAGTCACCATCGGTATGGTCGGTAAGTACATTGAACTGCCGGACGCCTACAAGTCGGTGATTGAAGCGCTGAAACACGGTGGTCTGAAAAACCGCGTTACCGTCAACATCAAGCTGATCGATTCGCAGGATGTGGAAACGCGCGGCGTCGAAATCCTCAAGGATTTAGATGCTATCCTTATCCCGGGCGGCTTCGGCTACCGCGGTGTGGAAGGTAAGATCGCCACCGCGCGCTATGCGCGTGAGAACAATATTCCTTATCTGGGCATTTGCCTGGGTATGCAGGTTGCGCTGATTGAGTTCGCGCGCAACGTAGCGGGTATGGAAAACGCCAACTCGACGGAATTTGTGCCAGACTGTAAATACCCGGTTGTGGCCCTGATTACCGAATGGCGTGACGAAGATGGCAACGTCGAAGTCCGCTCCGAGAAGAGCGATCTGGGCGGCACCATGCGCCTGGGCGCGCAGCAGTGCCAGCTGGATGATGATTCTCTGGTACGCCAGCTGTACGGCGAGCCGACCATCACCGAGCGCCATCGTCACCGCTACGAAGTCAACAACATGTTGTTGAAACCGATTGAAGCTGCCGGTCTGCGCGTTGCGGGCCGTTCCGGGGATGATCAGTTGGTCGAGATCATCGAAGTGCCGAACCATCCGTGGTTTGTGGCCTGCCAGTTCCACCCGGAGTTTACTTCGACGCCGCGTGATGGACACCCGCTGTTTGCCGGCTTTGTGAAAGCCGCCAGCGAGTACCAGAAACGCCAGGCGAAGTAA	MTTNYIFVTGGVVSSLGKGIAAASLAAILEARGLNVTIMKLDPYINVDPGTMSPIQHGEVFVTEDGAETDLDLGHYERFIRTKMTRRNNFTTGRIYSDVLRKERRGDYLGATVQVIPHITNAIKERVLAGGEGHDVVLVEIGGTVGDIESLPFLEAIRQMAVEIGREHTLFMHLTLVPYMAAAGEVKTKPTQHSVKELLSIGIQPDILICRSDRAVPANERAKIALFCNVPEKAVISLKDVDSIYKIPGLLKSQGLDDYICKRFSLTCPEANLAEWEQVIYEEANPAGEVTIGMVGKYIELPDAYKSVIEALKHGGLKNRVTVNIKLIDSQDVETRGVEILKDLDAILIPGGFGYRGVEGKIATARYARENNIPYLGICLGMQVALIEFARNVAGMENANSTEFVPDCKYPVVALITEWRDEDGNVEVRSEKSDLGGTMRLGAQQCQLDDDSLVRQLYGEPTITERHRHRYEVNNMLLKPIEAAGLRVAGRSGDDQLVEIIEVPNHPWFVACQFHPEFTSTPRDGHPLFAGFVKAASEYQKRQAK	PGPT0021215_3206	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021215-pyrG-K01937	NA	NA
BMS020_01650	792	mazG_1	COG1694	Nucleoside triphosphate pyrophosphohydrolase	ATGACCCAAATCGACCGCTTGCTCGGCATCATGCGCCGCCTGCGCGACCCGGAAAACGGCTGCCCGTGGGATAAAGAGCAGACCTTTGCCACCATCGCCCCCTATACCCTCGAAGAAACCTATGAAGTGCTGGACGCCATTTCGCGAGAGGATTTTGACGACCTGCGCGGTGAGCTGGGCGATCTGCTGTTCCAGGTGGTGTTCTATGCGCAGATGGCGCAGGAAGAGGGACGTTTTAACTTTGACGATATCTGCGCCGCCATCAGCGACAAGCTGGAGCGCCGCCATCCCCATATCTTCGCTGATGCCACCGCGGGAAACAGCAGCGAAGTCCTGGCCCGCTGGGAGCAGATCAAAAGCGCGGAGCGGGCGGAAAAAGCCCAGCACTCAGCGCTGGACGACATTCCGCATAGCCTGCCGGCGCTGATGCGCGCGCATAAAATCCAGCGTCGCTGCTCGGCGGTCGGTTTTGACTGGATCTCGCTGGGCCCGGTGCTCGACAAGGTGCATGAAGAAATTGATGAAGTGATGCATGAAGCGCAGCAGGCGGTGGTGGATGAAGCGAAACTGGAAGAGGAAGTGGGCGATCTGCTGTTCGCCACGGTGAATTTATCCCGCCATTTAGGGGTCAAAGCCGAGGTGGCGCTGCAGAAGGCGAACCTCAAATTCGAGCGCCGCTTCCGCGAAGTCGAGCGCATTGTCGCTGCCCGCGGCCTGGAAATGACCGGCGTCGACCTCGATACCATGGAAGAAGTATGGCAACAGGTAAAACGCCAGGAAACTGATCTCTAA	MTQIDRLLGIMRRLRDPENGCPWDKEQTFATIAPYTLEETYEVLDAISREDFDDLRGELGDLLFQVVFYAQMAQEEGRFNFDDICAAISDKLERRHPHIFADATAGNSSEVLARWEQIKSAERAEKAQHSALDDIPHSLPALMRAHKIQRRCSAVGFDWISLGPVLDKVHEEIDEVMHEAQQAVVDEAKLEEEVGDLLFATVNLSRHLGVKAEVALQKANLKFERRFREVERIVAARGLEMTGVDLDTMEEVWQQVKRQETDL	PGPT0008820_1144	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0008820-mazG-K04765	NA	NA
BMS020_01651	2238	relA_1	COG0317	GTP pyrophosphokinase	ATGGTTGCGGTAAGAAGTGCACATCTTAATAAAGCTGGTGAATTTGACCCGAAGAAATGGATCGCGAGTCTGGGGATTTCCAGCCAGCAGTCGTGTGAGCGCTTAGCCGAAACCTGGGATTATTGTCGCGAAAAAACGCAAGGACACCCGCTGGCGGACCTGCTGCTGTGGCGGGGCGTCGAAATGGTGGAGATCCTCTCCACCCTGAGTATGGATATCGATACCCTGCGCGCGGCGCTGTTGTTCCCGCTGGCCGACGGCGAAGTCGTCAGCGAAGAGGTCATGCAGGAGAGCGTGGGTAAATCGGTCGTGACCCTGATTCACGGGGTACGGGACATGGCCGCCATCCGTCAGCTGAAAGCCACTCATACCGACTCGGTATCTTCCGAGCAGGTGGATAACATTCGCCGCATGCTGCTGGCGATGGTTGACGATTTTCGCTGCGTGGTTATCAAGCTTGCCGAACGTATCGCGCATCTGCGCGAGGTCAAGGACGCGCCGGAAGATGAGCGGGTGCTGGCGGCGAAAGAGTGCACCAATATCTATGCTCCCCTGGCTAACCGCTTAGGTATCGGCCAGCTGAAGTGGGAGCTGGAAGATTACTGCTTCCGCTACCTGCACCCGGCAGAGTACAAGCGCATTGCCAAACTGCTCCACGAACGCCGTATCGACCGCGAGCATTATATCGACGAGTTCGTCGGCCACCTGCGGGCAGAAATGAAAGCCGAAGGGGTCAAGGCCGAGGTCTATGGTCGGCCGAAGCATATCTACAGCATCTGGCGCAAAATGCAGAAAAAACACCTCGCCTTTGACGAGCTGTTTGACGTACGCGCGGTGCGCATCGTGGCCGAGCGGTTGCAGGATTGTTATGCCGCGCTGGGGATCGTTCATACCCACTACCGTCACCTGCCGGATGAGTTCGATGACTATGTGGCCAACCCGAAACCCAACGGCTACCAGTCTATCCATACCGTGGTGCTGGGGCCGAGCGGCAAGACCGTGGAGATTCAAATCCGCACCCGGCAGATGCATGAAGACGCCGAGCTGGGCGTGGCCGCGCACTGGAAGTACAAAGAGGGCGCGGGAGCGGGGACCAGCGGCGGCCGCGGCTATGAGGACCGTATCGCCTGGCTGCGCAAGCTGATTGCCTGGCAGGAAGAGATGGCCGACTCCGGCGAAATGCTCGACGAAGTGCGCAGCCAGGTCTTTGACGACCGGGTGTATGTCTTTACGCCGAAAGGCGACGTGGTGGACCTGCCGGCGGGGTCGACGCCGCTCGATTTTGCCTACCATATCCACAGCGACGTCGGTCATCGCTGCATCGGCGCCAAAATTGGCGGCCGCATCGTGCCGTTCACCTATCAGCTGCAGATGGGCGATCAGATCGAAATCATTACCCAGAAGCAGCCGAACCCGAGCCGCGACTGGCTCAACCCTAACCTCGGCTATGTCACCACCAGCCGCGGACGCTCCAAAATTCACGCCTGGTTCCGTAAGCAGGACCGCGACAAGAACATTCTTGCCGGCCGACAGATCCTCGACGACGAGCTGGAGCATCTGGGCATCAGCCTGAAGGATGCGGAAAAGCATCTGCTGCCGCGCTACAACTTCAACGAGCTCGATGAACTGCTGGCGGCCATCGGCGGCGGCGATATCCGCCTCAACCAGATGGTTAACTTCCTGCAGGCGCAGTTCAATAAACCAAGCGCCGCCGAGCAGGATGCGGCAGCGCTGAAGCAGTTGCAGCAGAAAACCTATGCTCCGCAGAACCGCACCAAGGACAATGGCCGGGTGGTGGTGGAAGGGGTTGGCAATCTGATGCACCATATTGCCCGCTGCTGCCAGCCGATCCCGGGCGATGAGATCGTCGGCTTTATCACCCAGGGACGCGGGATTTCCGTGCATCGCGCCGACTGCGATCAGCTCGCTGAACTGCAGTCGCATGCCCCGGAGCGCATCGTCGATGCGGTATGGGGCGAAAGCTACTCGGCCGGATATTCGCTGGTGGTCAGGGTGGAGGCGAACGATCGCAGCGGGTTACTGCGCGATATCACCACCATCCTCGCCAATGAGAAGGTGAACGTGCTGGGCGTTGCCAGCCGCAGCGATACCCGTCAGCAGCTGGCCACCATCGATATGACCATTGAGATTTACAACCTGCAGGTGCTGGGCCGGGTGCTCGGTAAGCTGAACCAGGTGCCCGATGTCATTGACGCGCGCCGTCTGCACGGCGGTTAA	MVAVRSAHLNKAGEFDPKKWIASLGISSQQSCERLAETWDYCREKTQGHPLADLLLWRGVEMVEILSTLSMDIDTLRAALLFPLADGEVVSEEVMQESVGKSVVTLIHGVRDMAAIRQLKATHTDSVSSEQVDNIRRMLLAMVDDFRCVVIKLAERIAHLREVKDAPEDERVLAAKECTNIYAPLANRLGIGQLKWELEDYCFRYLHPAEYKRIAKLLHERRIDREHYIDEFVGHLRAEMKAEGVKAEVYGRPKHIYSIWRKMQKKHLAFDELFDVRAVRIVAERLQDCYAALGIVHTHYRHLPDEFDDYVANPKPNGYQSIHTVVLGPSGKTVEIQIRTRQMHEDAELGVAAHWKYKEGAGAGTSGGRGYEDRIAWLRKLIAWQEEMADSGEMLDEVRSQVFDDRVYVFTPKGDVVDLPAGSTPLDFAYHIHSDVGHRCIGAKIGGRIVPFTYQLQMGDQIEIITQKQPNPSRDWLNPNLGYVTTSRGRSKIHAWFRKQDRDKNILAGRQILDDELEHLGISLKDAEKHLLPRYNFNELDELLAAIGGGDIRLNQMVNFLQAQFNKPSAAEQDAAALKQLQQKTYAPQNRTKDNGRVVVEGVGNLMHHIARCCQPIPGDEIVGFITQGRGISVHRADCDQLAELQSHAPERIVDAVWGESYSAGYSLVVRVEANDRSGLLRDITTILANEKVNVLGVASRSDTRQQLATIDMTIEIYNLQVLGRVLGKLNQVPDVIDARRLHGG	PGPT0014820_589	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0014820-relA-K00951	NA	NA
BMS020_01652	1305	rlmD_1	COG2265	23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD	ATGGCGCAATTCTACTCTGCAAAACGGCGTGTGACGACGCGCCAGATCATAACCGTTACAGTCAACGACCTCGATCCCTTTGGCCAGGGCGTGGCCCGCCACCAGGGGAAAGCGCTGTTCGTCGGCGGCGTGCTGCCGCAGGAGCAGGCAGAGGTGGTGCTGGTGGAAGACAAAAAGCAGTACGCCCGCGCCCAGGTGAAACGCCGTCTGACCGACAGCCCGCAGCGCCAGGCGCCGCGCTGCCCCCATTTTGGCGTTTGCGGCGGCTGCCAACAGCAGCATGCCAGCATCACGCTTCAGCAGCAAAGTAAACGCGCCGCGCTGGCGCGCCTGATGAAGCGCGAGGTGGATGAGATCATCGCCGGCGAGCCGTGGGGCTATCGCCGGCGCGCGCGCTTAAGCTTGAATTATCAGCCAAAGACCCAACAATTGCAGATGGGTTTTCGTCAGGCCAGCGATAAAGCGATCGTCGATGTGGTGCAGTGCCCTGTTTTGGTGCCCCAACTTGAGGCGCTGCTGCCCGCCGTGCGCGAGTGCTTAAGCGCGCTGAGCGCATTACGCCATCTTGGCCACGTCGAGCTGGTGCTGGCGGACAACGGCCCACTGATGGTGCTGCGCCATACCGCTGCGCTGCCGGCGGCTGACCGGGAAAAACTGGAACGTTTTTCGCAAACTCACGGTCTTTCCCTGTACCTCGCGCCGCAAAGCGAGATACTGGAACATATTCACGGCGAAGCGCCATGGTATACCTCAGACGGACTACGCTTAGTGTTCAGTCCGCGGGATTTTATCCAGGTCAACGACGGCGTGAATCAGCAGATGGTGCGTACCGCGCTGGCGTGGCTGGATCTGCAGCCGGAGGACCGGGTGCTGGATCTGTTCTGCGGGATGGGCAATTTTACCCTGCCGCTGGCGACTCGCGCCGCCCACGTGGTTGGGGTGGAAGGGGTGCCGGCGCTGGTTGAGAAGGGGCGGGAAAACGCCGCCCTCAATGGTTTATCAAATGTCACCTTCTTCCATGAAAATCTGGAAGAGGATGTCACCCGCCAGGCCTGGGCGAAGCATGGCTTTGATAAAGTGCTGCTGGACCCGGCCCGCGCCGGCGCGCCGGGCGTGATGCCGCATATTATAAAACTGGCGCCGCGGCGGGTGGTGTATGTTTCCTGCAACCCGGCGACGCTGGCGCGAGACAGCGAAACCCTGTTGCAGGCTGGATATCAGATTCAACGCCTGGCGATGCTGGATATGTTCCCGCATACCGGTCATCTGGAATCAATGGTGTTGTTTGAGCGCAGGCTTACATAA	MAQFYSAKRRVTTRQIITVTVNDLDPFGQGVARHQGKALFVGGVLPQEQAEVVLVEDKKQYARAQVKRRLTDSPQRQAPRCPHFGVCGGCQQQHASITLQQQSKRAALARLMKREVDEIIAGEPWGYRRRARLSLNYQPKTQQLQMGFRQASDKAIVDVVQCPVLVPQLEALLPAVRECLSALSALRHLGHVELVLADNGPLMVLRHTAALPAADREKLERFSQTHGLSLYLAPQSEILEHIHGEAPWYTSDGLRLVFSPRDFIQVNDGVNQQMVRTALAWLDLQPEDRVLDLFCGMGNFTLPLATRAAHVVGVEGVPALVEKGRENAALNGLSNVTFFHENLEEDVTRQAWAKHGFDKVLLDPARAGAPGVMPHIIKLAPRRVVYVSCNPATLARDSETLLQAGYQIQRLAMLDMFPHTGHLESMVLFERRLT				NA	NA	NA	NA	NA
BMS020_01653	2751	barA_1	COG0784	Signal transduction histidine-protein kinase BarA	ATGACCAACTACAGCCTGCGTGCTCGCATGATGATTCTGATTCTGGCGCCAACCGTCCTGATAGGGCTGTTGCTCAGTGTTTTCTTTGTCGCTCACCGTTATAACGACCTGCAACGTCAGCTGGAGGACGCCGGCACCAGCATTATTGAGCCGCTGGCGGTCTCCAGCGAATATGGCATGAATCTGCAAAACCGCGAATCTATCGGCCAGTTGATCAGCGTTCTGCATCGTCGCCACTCGGAGATCGTGCGGGCCATCTCGGTGTACGATTCGCATAACCGCTTGTTTGTCACCTCCAATTACCAGCTCAACCCCAGCGACCTGCAGATCCCGAAAGGCGAAGCTTTTCCCCGTCGTCTCAGCGTCATCCGCGACGGCGACATGATGATCCTGCGCACGCCGATCGTCTCGGAAAGTTATTCGCCGGATGAATCCCCTGAATCCGATGCCAAAATGCCGGGCAATATGCTGGGCTACGTCGCGCTGGAGCTGGACCTGAAATCGGTGCGCCTCCAGCAGTACAAAGAGATTTTTATCTCCAGCGTGATGATGCTGTTCTGCATCGGCATCGCGCTGATCTTCGGCTGGCGCCTGATGCGCGACGTCACCGGCCCTATCCGCAATATGGTCAACACCGTCGACCGCATCCGCCGCGGACAGCTGGACAGCCGCGTCGAGGGCTTTATGCTCGGCGAACTGGATATGCTGAAAAACGGCATCAACTCGATGGCCATGTCGCTGGCGGCGTACCATGAGGAGATGCAGCACAACGTCGACCAGGCGACCTCCGATCTGCGGGAAACCCTTGAGCAGATGGAGATTCAGAACGTCGAACTGGACCTGGCGAAAAAGCGCGCCCAGGAGGCGGCGCGCATTAAGTCTGAATTCCTGGCCAATATGTCCCACGAACTGCGCACCCCGCTCAATGGGGTGATCGGCTTTACCCGTCTGACGTTGAAAACCGATCTCAACGCCACGCAGCGCGACCACCTGACCACCATCGAACGCTCGGCCAATAATCTGTTGGCGATCATCAACGACGTGCTCGACTTTTCCAAGCTGGAAGCCGGGAAGCTGATCCTGGAGAGCATTCCGTTCCTGCTGCGCACCTCGCTTGATGAGGTGGTCACCCTGCTGGCGCATTCCGCGCACGATAAAGGGCTGGAGCTGACGCTGAACATTAAGAACAACGTGCCGGATAACGTCATCGGCGACCCGCTGCGTCTGCAGCAGATTGTGACCAACCTCGTAGGCAACGCCATCAAATTTACCGAGCACGGTAATATCGATGTGCTGGTGGAGCAGCGAGCCATCAGTAATTCGCGGGTGCAGATCGAAATTCAGATCCACGATACCGGCATCGGCATCCCCGAGCGCGACCAGTCCCGGCTGTTCCAGGCCTTCCGTCAGGCCGATGCCAGTATTTCACGCCGCCACGGCGGCACCGGGCTCGGGCTGGTGATCACCCAGCGTCTGGTTAAGGAGATGGGCGGCGATATCTCGTTCCACAGTCAGCCAAACCGCGGCTCTACCTTCTGGTTCCATATCAGCCTCGATCTCAACCCGAACGCCATTCCGGATACGCTGAATACCGACGGGCTGGCGGGCAAGCGTCTGGCCTATGTGGAAGCCAACGCGACGGCCGCGCAGTGCACGCTGGAGATGCTGGCCGCCACGCCGCTGGAGGTGATTTACAGCCCCACCTTCTCTGCGCTGGCGGAAGCCCAGTACGACATTCTGCTGGTCGGTATTCCGGTCTCAATGCGCGATTTGTCGCCGCACCGGGAAAAATTAGCCAAAGCCTGCGCGATGTCAGACAACGTACTGCTGGCTCTGCCATGTCATGCCCAGGTCAGCGCCGAAGCCCTGAAGCGCGATGGCATCGCCGCCTGCCTGTTGAAACCGCTCACCACCACCCGTCTGCTGCCGGCGCTGGTGGCCACCCATCATGCGACGGCCTCCGCGCCGTTGACCCAGGCCGACAGCCATAAGCTGCCGATGACCGTGATGGCCGTCGACGACAATCCGGCAAACCTGAAGCTCATTGGCGCCCTGCTGGATGACCTTGTGCAGCAGGTGATCCTCTGCGACAGCGGCCAGCAGGCGGTGGACAAGGCCAAGCAACTGCAGATGGATCTGATCCTGATGGATATTCAGATGCCGGATATGGACGGCATCCGCGCCTGTGAGCTTATCCATCATTTGCCGCATCACCAGCAAACGCCGGTTATCGCCGTCACCGCGCACGCCCTGGAGGGCCAGCGCGAGAAGCTACTGAGCGCCGGCATGAACGACTATCTGGCGAAGCCGATCGAAGAAGAGAAACTGCACGCCCTGCTGCTGCGCTATCAGCCTGGAGTACACAGCATCGCCCCGGCGGCGATACCGCCCGCAGAGCCAGTCATCGACCATAACCAGACGCTCGACTGGCAGCTGGCGCTGCGTCAGGCGGCGATGAAGCCGGACCTGGCGAGGGAGATGCTGCAGATGCTGATCGCTTTTATGCCGGAGGTGCGTAACAAAGTGGAAGAGCAACTGGTCGGCGAGCAGCCGGAAGGGCTGGTGGATCTGATCCACAAACTGCACGGCAGCTGCAGCTACAGCGGCGTGCCGCGGCTGAAAAAGCTCTGCCACACTCTGGAGAGCCAGCTGCGCGCAGGCACCGCCGCCGAGGATCTGGAGCCGGAGCTGCTTGAGCTGTTGGATGAGATGGATAACGTGGCGCGCGAAGCCTGCCGGATGGGGGGCTAA	MTNYSLRARMMILILAPTVLIGLLLSVFFVAHRYNDLQRQLEDAGTSIIEPLAVSSEYGMNLQNRESIGQLISVLHRRHSEIVRAISVYDSHNRLFVTSNYQLNPSDLQIPKGEAFPRRLSVIRDGDMMILRTPIVSESYSPDESPESDAKMPGNMLGYVALELDLKSVRLQQYKEIFISSVMMLFCIGIALIFGWRLMRDVTGPIRNMVNTVDRIRRGQLDSRVEGFMLGELDMLKNGINSMAMSLAAYHEEMQHNVDQATSDLRETLEQMEIQNVELDLAKKRAQEAARIKSEFLANMSHELRTPLNGVIGFTRLTLKTDLNATQRDHLTTIERSANNLLAIINDVLDFSKLEAGKLILESIPFLLRTSLDEVVTLLAHSAHDKGLELTLNIKNNVPDNVIGDPLRLQQIVTNLVGNAIKFTEHGNIDVLVEQRAISNSRVQIEIQIHDTGIGIPERDQSRLFQAFRQADASISRRHGGTGLGLVITQRLVKEMGGDISFHSQPNRGSTFWFHISLDLNPNAIPDTLNTDGLAGKRLAYVEANATAAQCTLEMLAATPLEVIYSPTFSALAEAQYDILLVGIPVSMRDLSPHREKLAKACAMSDNVLLALPCHAQVSAEALKRDGIAACLLKPLTTTRLLPALVATHHATASAPLTQADSHKLPMTVMAVDDNPANLKLIGALLDDLVQQVILCDSGQQAVDKAKQLQMDLILMDIQMPDMDGIRACELIHHLPHHQQTPVIAVTAHALEGQREKLLSAGMNDYLAKPIEEEKLHALLLRYQPGVHSIAPAAIPPAEPVIDHNQTLDWQLALRQAAMKPDLAREMLQMLIAFMPEVRNKVEEQLVGEQPEGLVDLIHKLHGSCSYSGVPRLKKLCHTLESQLRAGTAAEDLEPELLELLDEMDNVAREACRMGG	PGPT0012930_583	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-VarA|VarS_SIGNALLING_SYSTEM,PGPT0012930-gacS|barA|varS-K07678	NA	NA
BMS020_01654	1140	garK	COG1929	Glycerate 2-kinase	ATGAAAATAGTGATCGCACCGGATTCCTGGAAGGAGAGCCTGACCGCGCTGGAAGTAGCCAGTGCGATAGAGCAAGGCTTTCGCGAGATTTATCCTGACGCGGAATATGTCAGGCTGCCGGTTGCCGACGGTGGGGAAGGGACGGTGGAAGCCATGGTGGCGGCGACCGGCGGGCATCAGGTGCCGCTGACGGTGACCGGGCCGCTGGGGGAGCCGGTAGAGGCATTTTATGGGCTGTCCGGCGATCGCCAGTGCGCCTTTATCGAAATGGCGGCGGCCAGCGGGCTGGAAAGCGTTCCCCCGGCGCAGCGTAACCCGCTGCTGACCACCTCCTGGGGCACCGGGGAGCTGATTCGCCATGCGCTGGACGCTGGCGTGCGGCAGATCATTATTGGCATTGGCGGCAGCGCGACCAATGACGGCGGCGCCGGCATGGCGCAGGCGCTGGGGGCGAAATTGCTGACCGTCGACGGTCAGCAAATCGCGCCAGGGGGCGGTGCGCTGGAGACGCTGGCGCGCATCGATCTTAGCGAGCTTGATCCACGGCTGGCAGATTGTCGGATTGAAGTGGCCTGCGATGTCACCAACCCGTTGACCGGCCCGCAGGGCGCCAGCGCGGTATTCGGCCCGCAAAAAGGAGCGACGGCGCAGATGATCGACCGGCTTGACAGCGGCCTGCGGCACTATGCCCGGATCATCGCCCGTGATTTAGATTGCGACGTGCTGAGCCTGGAAGGCGGCGGCGCGGCGGGCGGGATGGGCGCGGCGCTGTATGCGTTTTGTGGCGCTCAACTGCGCCCGGGCATTGAGATTGTCACCGATGCGCTGCAGCTGGCGGAGCGGGTGGCGGATGCTGATTTAGTGATCACCGGCGAAGGACGTATCGACAGTCAGACTATCCACGGCAAGGTGCCGGTGGGAGTGGCCAGGGTGGCGAAGCGATTTAACATACCGGTGATCGGGATTGCCGGCAGCCTTACCGCCGATGTCGGCGTCGTGCATCAGCACGGGCTGGATGCGGTATTCAGCGTGTTGTACACCATCTGCACGCTGGATGAAGCGCTGGCCAATGCCGCCGCCAACCTGCGGATGACGGCGCGAAACGTCGCCGCGGTTTTGCAGATGGGCGGTAAGCTGTAA	MKIVIAPDSWKESLTALEVASAIEQGFREIYPDAEYVRLPVADGGEGTVEAMVAATGGHQVPLTVTGPLGEPVEAFYGLSGDRQCAFIEMAAASGLESVPPAQRNPLLTTSWGTGELIRHALDAGVRQIIIGIGGSATNDGGAGMAQALGAKLLTVDGQQIAPGGGALETLARIDLSELDPRLADCRIEVACDVTNPLTGPQGASAVFGPQKGATAQMIDRLDSGLRHYARIIARDLDCDVLSLEGGGAAGGMGAALYAFCGAQLRPGIEIVTDALQLAERVADADLVITGEGRIDSQTIHGKVPVGVARVAKRFNIPVIGIAGSLTADVGVVHQHGLDAVFSVLYTICTLDEALANAAANLRMTARNVAAVLQMGGKL	PGPT0018175_1850	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018175-garK|glxK-K00865	NA	NA
BMS020_01655	1341	gudD	COG4948	Glucarate dehydratase	ATGACGACTTTCTCTTCCACGCCCGTTGTCACCACCATGCAGGTGATCCCGGTTGCCGGCCATGACAGTATGCTGATGAATCTGAGCGGGGCCCACGCCCCGTACTTCACCCGCAATATCGTGATTATTAAAGATAACGCCGGCCATACCGGCGTCGGTGAAATTCCGGGGGGCGAAAAAATTCGCCAGACTCTGGAGGATGCCATTCCGCTGGTGGTGGGCAAAACGCTGGGCGAGTATAAAAACGTGCTCGGCGCGGTGCGCAATCAGTTCGCCGACCGTGACGCCGGCGGCCGCGGCCTGCAGACCTTTGACCTGCGCACCACCATCCACGTGGTGACCGGGATCGAAGCGGCGCTGCTGGACCTGCTGGGCCAGCACCTTGGGGTCAACGTCGCCTCGCTGCTCGGCGATGGGCAACAGCGCAGCGAAGTTGAAATGCTGGGCTATCTGTTCTTTATCGGTGACCGCCACGCCACGCCGCTGGCCTATCAGAGCCAGCTGGATGAACAGTGCGAGTGGTATCGCCTGCGCCATGAAGAGGCAATGACGCCGGATGCGGTGGTCCGCCTTGCGGAAGCGGCCTATGAAAAATATGGTTTCAATGACTTTAAGCTGAAGGGCGGCGTGCTGGCCGGTTTTGAAGAAGCCGAAGCGATCAGCGCCCTGGCGAAGCGCTTCCCGAATGCCCGCGTGACCCTCGATCCGAACGGCGCCTGGCTGCTTGAAGAAGCCATTCAGATTGGCAAGCAGCTGAAGGGCGTGCTGGCCTATGCTGAGGATCCGTGCGGCGCTGAGCAGGGCTTCTCCGGCCGCGAAGTGATGGCGGAGTTCCGTCGCGCGACGGGCCTGCCGACCGCCACCAATATGATCGCCACCGACTGGCGGCAGATGGGCCATACGCTCTCCCTGCAGTCGGTGGATATCCCGCTGGCGGACCCGCACTTCTGGACCATGCAGGGGTCGGTTCGCGTGGCGCAGATGTGTCATGAGTTCGGCCTGACCTGGGGTTCGCACTCCAATAACCACTTCGACGTGTCGCTGGCGATGTTCACCCACGTCGCGGCTGCGGCGCCGGGCAAGATCACCGCTATCGATACCCACTGGATCTGGCAGGAGGGCAACCAGCGTCTGACCAAACAACCGTTTGAAATTAAAGGCGGAATGGTGCAGGTGCCGAGCACGCCGGGTCTGGGGGTTGAGCTGGATATGGACCGCGTAATGCAGGCAAATGAGCTATATAAGAAACATGGCCTTGGCGCCCGCGACGATGCGATGGCGATGCAGTACCTGATCCCGGGCTGGACCTTTGACAACAAGCGTCCATGCATGGTGCGCTAA	MTTFSSTPVVTTMQVIPVAGHDSMLMNLSGAHAPYFTRNIVIIKDNAGHTGVGEIPGGEKIRQTLEDAIPLVVGKTLGEYKNVLGAVRNQFADRDAGGRGLQTFDLRTTIHVVTGIEAALLDLLGQHLGVNVASLLGDGQQRSEVEMLGYLFFIGDRHATPLAYQSQLDEQCEWYRLRHEEAMTPDAVVRLAEAAYEKYGFNDFKLKGGVLAGFEEAEAISALAKRFPNARVTLDPNGAWLLEEAIQIGKQLKGVLAYAEDPCGAEQGFSGREVMAEFRRATGLPTATNMIATDWRQMGHTLSLQSVDIPLADPHFWTMQGSVRVAQMCHEFGLTWGSHSNNHFDVSLAMFTHVAAAAPGKITAIDTHWIWQEGNQRLTKQPFEIKGGMVQVPSTPGLGVELDMDRVMQANELYKKHGLGARDDAMAMQYLIPGWTFDNKRPCMVR	PGPT0018180_400	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018180-gudD-K01706	NA	NA
BMS020_01656	1341	gudX	COG4948	Glucarate dehydratase-related protein	ATGACTACCCAATCCAGCCCGATTATTACAGAGATGAAGGTCATTCCGGTGGCCGGGCACGACAGCATGCTGCTGAACATCGGCGGGGCGCACAACGCCTGGTTTACCCGCAATATCGTGGTATTGACCGATAACGCCGGCAACACCGGCGTGGGAGAAGCCCCTGGCGGAGAGGTCATCTACCAGACGCTGCTGGCGGCGATCCCGCAGGTGGTAGGTCAGGAGGTCGCCCGTCTCAATCGCGTGGTGCAGCAGGTGCACAAAGGCAATCAGGCGGCGGATTTCGACACCTTTGGCAAAGGGGCATGGACCTTCGAACTGAAAGTCAACGCGGTAGCGGCGCTGGAGGCCGCGCTGCTCGACCTGCTCGGCAAGGTGCTCAATGTGCCGGTCTGCGAGCTGCTGGGCCCGGGTAAGCAGCGTGATGCCGTCACCGTGCTGGGCTACCTGTTCTATATCGGCGATCGGCAGAAAACCGACCTGGGTTATCTGGACCATACGCCGGGCGATCACGAATGGTATCGCCTGCGCCACCAGCAGGCGCTGAGCAGCGAAGCGGTGGTGCGCCTGGCGGAAGCCGCTCAGGATCGCTACGGTTTCAAAGACTTTAAGCTGAAGGGCGGCGTGCTGCCCGGCGAGCAGGAAATTGACACCGCCCGGGCGCTGAAAAAGCGCTTTCCGGACGCGCGCATCACCGTCGATCCTAACGGCGCCTGGCTGCTGGATGAGGCGATCGCCCTGTGCAAAGGGCTGCAGGATGTTCTGACCTACGCCGAAGATCCGTGCGGCGCCGAGCAGGGCTTCTCCGGCCGGGAGGTGATGGCCGAGTTTCGCCGCGCCACCGGGCTGCCGGTCGCCACCAATATGATCGCCACCAACTGGCGCGAGATGGGTCATGCGGTGATGCTCAACGCCGTCGATATTCCGCTGGCGGACCCGCACTTCTGGACGCTCTCCGGCGCGGTACGAGTGGCGCAGCTGTGCGACGACTGGGGGCTTACCTGGGGCTGCCATTCCAACAACCATTTTGATATTTCCCTGGCGATGTTTACCCACGTCGGCGCCGCCGCGCCGGGTCATCCCACCGCCATCGACACCCACTGGATCTGGCAGGAAGGCGACGCGCGCCTGACCAAAAATCCGCTGCAGATTATTAACGGCAAGATTGCCGTGCCAGACGCGCCGGGACTCGGCGTGGAACTTGACTGGGAGCAGGTGCGCAGAGCCCATGAGGCCTATAAAGCGCTGCCGGGCGGCGCGCGCAACGACGCGGGCCCGATGCAGTACCTGATCCCCGGCTGGACATTTGACCGCAAACGTCCTGTTTTCGGCCGCCACTAA	MTTQSSPIITEMKVIPVAGHDSMLLNIGGAHNAWFTRNIVVLTDNAGNTGVGEAPGGEVIYQTLLAAIPQVVGQEVARLNRVVQQVHKGNQAADFDTFGKGAWTFELKVNAVAALEAALLDLLGKVLNVPVCELLGPGKQRDAVTVLGYLFYIGDRQKTDLGYLDHTPGDHEWYRLRHQQALSSEAVVRLAEAAQDRYGFKDFKLKGGVLPGEQEIDTARALKKRFPDARITVDPNGAWLLDEAIALCKGLQDVLTYAEDPCGAEQGFSGREVMAEFRRATGLPVATNMIATNWREMGHAVMLNAVDIPLADPHFWTLSGAVRVAQLCDDWGLTWGCHSNNHFDISLAMFTHVGAAAPGHPTAIDTHWIWQEGDARLTKNPLQIINGKIAVPDAPGLGVELDWEQVRRAHEAYKALPGGARNDAGPMQYLIPGWTFDRKRPVFGRH	PGPT0018180_109	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018180-gudD-K01706	NA	NA
BMS020_01657	1353	gudP_1		putative glucarate transporter	ATGAGTTCATTAAGTCAGGCGGCGACGGCGGCTGAAAAGCGCACCAACGCCCGCTACTGGATAGTGGTGATGCTGTTTATCGTCACCTCTTTTAACTATGGCGACCGGGCGACGCTGTCGATCGCCGGTTCGGAAATGGCCAAAGATATCGGCCTGGATCCGGTGGGAATGGGGTATGTCTTCTCCGCGTTCTCATGGGCTTATGTCATCGGCCAGATCCCGGGCGGCTGGTTGCTCGATCGCTTCGGTTCGAAGCGCGTCTATTTCTGGTCGATTTTCATCTGGTCGATGTTTACCCTGCTGCAGGGCTTCGTCGACATCTTCAGCGGTTTTGGCATTATCGTCGCGCTGTTTACCCTGCGCTTCCTCGTTGGCCTGGCCGAATCGCCGTCATTCCCGGGTAACAGCCGTATCGTGGCCGCCTGGTTCCCGGCGCAGGAGCGCGGCACGGCCGTGGCGATCTTTAACTCCGCCCAGTACTTTGCCACCGTTATCTTCGCGCCGATCATGGGCTGGCTGACGCATGAGGTGGGCTGGTCGCACGTCTTCTTCTTTATGGGCGGCCTGGGGATTGTGATTAGCTTTGTCTGGCTGAAAGTGATCCACGATCCGAACAACCATCCGGGGGTAAACAAGAAGGAACTGGAATATATCGCCGAAGGCGGCGCCCTGATCAACATGGATCAAAAGAGCAGCGCGCAGAAGGTGCCGTTCAGCGTCAAAATGGGGCAGATCAAGCAGCTGATCGGATCGCGGATGATGATCGGCATCTATATCGGTCAGTACTGCATTAACGCCCTGACCTACTTCTTTATCACCTGGTTCCCGGTTTACCTGGTGCAGGCGCGCGGCATGTCGATCCTTAAAGCGGGGTTTGTCGCCTCCATTCCGGCGGTGTGCGGCTTCGTCGGCGGGGTGCTGGGCGGGGTGATCTCTGACTGGTTAATGCGCCGCACCGGCTCGCTGAACATTGCCCGCAAAACGCCGATTGTGCTGGGGATGCTGCTCTCCATGACCATGCTGATGTGTAACTATGTCAACGTGGAGTGGATGGTGATTGGCTTTATGGCGATGGCCTTCTTCGGCAAAGGGATCGGCGCGCTTGGCTGGGCGGTGATGGCGGATACCGCGCCGAAAGAGATTAGCGGTCTTTCCGGCGGTCTGTTCAACATGTTTGGCAATATCTCCGGTATCGTTACCCCGATCGCTATCGGCTATATCGTCGGCACCACCGGCTCGTTCAACGGGGCGCTGGTTTACGTCGGCATTCATGCCCTGGTGGCGGTGCTGAGCTACCTGGTGCTGGTGGGCGATATCAAACGCATCGAACTGAAACCTGTCGCGGGGCGTTAA	MSSLSQAATAAEKRTNARYWIVVMLFIVTSFNYGDRATLSIAGSEMAKDIGLDPVGMGYVFSAFSWAYVIGQIPGGWLLDRFGSKRVYFWSIFIWSMFTLLQGFVDIFSGFGIIVALFTLRFLVGLAESPSFPGNSRIVAAWFPAQERGTAVAIFNSAQYFATVIFAPIMGWLTHEVGWSHVFFFMGGLGIVISFVWLKVIHDPNNHPGVNKKELEYIAEGGALINMDQKSSAQKVPFSVKMGQIKQLIGSRMMIGIYIGQYCINALTYFFITWFPVYLVQARGMSILKAGFVASIPAVCGFVGGVLGGVISDWLMRRTGSLNIARKTPIVLGMLLSMTMLMCNYVNVEWMVIGFMAMAFFGKGIGALGWAVMADTAPKEISGLSGGLFNMFGNISGIVTPIAIGYIVGTTGSFNGALVYVGIHALVAVLSYLVLVGDIKRIELKPVAGR	PGPT0016475_381	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCARATE_TRANSPORT,PGPT0016475-gudP-K03535	NA	NA
BMS020_01658	444		COG0716	putative protein	ATGGCGGAAGTCGGAATTTTTGTCGGCACCATGTACGGCAACTCGCTGCTGGTCGCGGAAGAAGCGGAAGCGATCCTCAGCGGACTGGGACACAAGGCTACCGTGTATGAGGATCCGCAGGTCAACGACTGGGAATCCTACACGGGTAAGTATGTGCTGGTGGTCACCTCCACCACCGGGCAGGGCGATCTGCCGGACAGCATCGTCCCGCTGTATGAGGGCATTAAAGATATGTATCAGCCTCACCTGCGCTACGGCATTATCGCGCTGGGCGACAGCACCTACGCCAACTTTTGCGGCGGAGGCCTGAAGTTCGATCAACTGCTGCAGGAGCAGGGTGCGAAGCGCATCGGCGAAATGCTGAAGATTGACGCCAGCGAAGATCCGGAGCCGGAGAGCGTCTCTAATCCATGGGTTGAGCAGTGGGCTACCCTGCTGGAATAA	MAEVGIFVGTMYGNSLLVAEEAEAILSGLGHKATVYEDPQVNDWESYTGKYVLVVTSTTGQGDLPDSIVPLYEGIKDMYQPHLRYGIIALGDSTYANFCGGGLKFDQLLQEQGAKRIGEMLKIDASEDPEPESVSNPWVEQWATLLE				NA	NA	NA	NA	NA
BMS020_01659	795	truC_1	COG0564	tRNA pseudouridine synthase C	ATGCTGGAGATAATCTACCAGGACGACTGGCTGGTGGCGGTCAACAAACCGTCGGGCTGGCTGGTGCATCGCAGCTGGCTCGATCGCGATGAGAAAGTGGTGGTGATGCAGACCGTGCGCGACCAGATCGGCCAGCACGTTTTTACCGCCCATCGCCTCGACCGGCCCACCTCCGGCGTCCTGCTCATGGGGCTGTCAAGCGAGGCGGGTCGCCTGCTGGCGCAGCAGTTCGAGCAGCATCAGATCCAGAAGCGCTACCATGCGATCGTCCGCGGCTGGCTGATGGAAGAGGCGCTGCTCGATTATCCGCTGGTGGAAGAGCTGGATAAAATCGCCGATAAGTTCGCCCGCGAAGACAAAGGGCCGCAGCCGGCGGTGACCCATTACCGTGGTCTGGCGACGGTGGAGATGCCGGTGGCGACCGGGCGTTATCCCACCACCCGCTACGGGCTGGTGGAACTGGAGCCGAAAACCGGCCGCAAGCACCAGCTGCGCCGCCATCTGGCCCACCTGCGTCATCCGATCCTCGGCGACAGCAAGCACGGCGATCTGCGGCAAAACCGCAGCGCCGCGGAGCATTTCGGCTGTCACCGCCTGATGCTGCACGCCAGCGAACTGTCGTTAACCCATCCCTTTACCGGTGAGCCGCTGACCCTGCGCGCCGGTTTTGACGACGTCTGGATGCGTGCGCTGTCGCAGTTTGGCTGGCGCGGGCTTCTCCCGCTAAATGAAAGGGTTGAGTTTGCCGACGACTGCGGTCAGGATGAAGAGAATAAGGTCAATCCAGGGAGATAA	MLEIIYQDDWLVAVNKPSGWLVHRSWLDRDEKVVVMQTVRDQIGQHVFTAHRLDRPTSGVLLMGLSSEAGRLLAQQFEQHQIQKRYHAIVRGWLMEEALLDYPLVEELDKIADKFAREDKGPQPAVTHYRGLATVEMPVATGRYPTTRYGLVELEPKTGRKHQLRRHLAHLRHPILGDSKHGDLRQNRSAAEHFGCHRLMLHASELSLTHPFTGEPLTLRAGFDDVWMRALSQFGWRGLLPLNERVEFADDCGQDEENKVNPGR				NA	NA	NA	NA	NA
BMS020_01660	330	yqcC	COG3098	putative protein YqcC	ATGACTCTTGACGATAGCGTGCGCGATCGCCTGCGCGCCATTGAAGCCCTGCTGCGCGAAACAGAGCACTGGCAGGAGACGGCGCCGGACAGCAGCGCCTTCGCCAGCGATAAGCCGTTTTGCCTGGATACCCTGGAGCCGCTGGAGTGGCTGCAGTGGGTCCTGATCCCGCGTATGTATCAGCTGCTGGAGAGCGGCCAGCCGCTGCCGCAAAATTTCGCCGTTACGCCGTATTACGAAATGGCGCTGGATCAAGCCCACCCGGTTCGCGAATCCATGCTGGCGGAGCTGCTGCTGCTGGACGCGCTGTTTGCCGGTGAGCAGGCCTGA	MTLDDSVRDRLRAIEALLRETEHWQETAPDSSAFASDKPFCLDTLEPLEWLQWVLIPRMYQLLESGQPLPQNFAVTPYYEMALDQAHPVRESMLAELLLLDALFAGEQA				NA	NA	NA	NA	NA
BMS020_01662	546	syd		Protein Syd	GTGGACCATCAGACCGCAGAAGCGCTGCATGCTTTTACCCAACGTTATTGCGCCGCCTGGCAGCAGCAGCGCCACAGCCTGCCGCGCAGTGAAGAGCTTTATGGCGTCCCGTCGCCTTGCGTCGTCGACACCCAGGGCGAGGCCGTGTTCTGGCAGCCGCAGCCGTTTTCGCTGGCGCAAAATATCAGCGCGGTTGAACGCGCCCTGGATATTGTGGTACAACAGCCGCTTCATTCATATTATACCACTCAGTTTGCCGGCGATATGACCGGCCGGTTTGCCGGCGAAACGCTAACGCTGCTGCAGACCTGGAGTGAAGAGGATTTCCAGCGGGTGCAGGAAAACCTCATCGGGCATCTGGTGGTGCAGAAGCGGCTGAAGCTGGCGCCGACGCTGTTTATCGCCACCCTCGAGAGTGAACTGGATGTCATTTCCGTCTGTAATCTCAGCGGTGAAGTCGTCAAAGAGACCCTCGGCACCGCCAAACGCATCACCCTTTCCCCCTCGCTTGCGGGTTTCCTCAACCAGCTTGAGCCGGTTCTGTAA	MDHQTAEALHAFTQRYCAAWQQQRHSLPRSEELYGVPSPCVVDTQGEAVFWQPQPFSLAQNISAVERALDIVVQQPLHSYYTTQFAGDMTGRFAGETLTLLQTWSEEDFQRVQENLIGHLVVQKRLKLAPTLFIATLESELDVISVCNLSGEVVKETLGTAKRITLSPSLAGFLNQLEPVL	PGPT0029274_379	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SECRETION_RELATED_PROTEINS,PGPT0029274-syd-K15723	NA	NA
BMS020_01663	846	queF_1	COG0780	NADPH-dependent 7-cyano-7-deazaguanine reductase	ATGTCTTCTTACGATAATCATCAGGCGCTGGCCGGCCTGACGCTCGGTAAATCAACCGATTACCGCGATACCTATGACGCCTCGCTGCTGCAGGGCGTTCCGCGCAGCCTTAACCGCGACCCGCTTGGCCTGCATGCCGACAACCTGCCGTTTCACGGCGCCGATATCTGGACGCTGTACGAACTCTCCTGGCTGAACAGCAAAGGCCTGCCGCAGGTGGCCGTCGGCCACGTCGAACTGCCCGACACCAGCGTCAATCTGGTGGAGTCAAAAAGCTTTAAGCTTTATCTCAACAGCTTTAACCAGACGCGTTTCGCCAGCTGGCAGGAGGTTGAAGAGACGCTGACCCGCGATCTGAGCGCCTGCGCCCAGGGCGAGGTCAAGGTCTCGCTGTATCGGCTGGATGAACTGGAAGGCCAGCCGATTGCCCACCTCCATGGCGCCTGCATCGACGATCAGGATATCGAGATCGATAACTATCAGTTCAGCGCCGACTACCTGCAGGGCGCCGCCAGCGGCAAAATCGTGGAAGAGACGCTGGTCAGCCATCTGCTGAAGTCCAACTGCCTGATTACCCACCAGCCGGACTGGGGCTCGGTGCAGATCCAGTATCGTGGGGCGAAAATCGACCGCGAGCAGCTCCTGCGCTATCTGGTCTCGTTCCGCCACCATAACGAATTCCATGAGCAGTGCGTCGAGCGCATCTTTAACGATATTCTCCGTTTCTGCCAGCCGGAATCGCTTTCCGTTTACGCCCGCTATACGCGACGCGGCGGTCTGGATATCAACCCCTGGCGCAGCAACGGCGACTTTTCCCCTGCCACCGGCCGCCTCGCCCGACAATAA	MSSYDNHQALAGLTLGKSTDYRDTYDASLLQGVPRSLNRDPLGLHADNLPFHGADIWTLYELSWLNSKGLPQVAVGHVELPDTSVNLVESKSFKLYLNSFNQTRFASWQEVEETLTRDLSACAQGEVKVSLYRLDELEGQPIAHLHGACIDDQDIEIDNYQFSADYLQGAASGKIVEETLVSHLLKSNCLITHQPDWGSVQIQYRGAKIDREQLLRYLVSFRHHNEFHEQCVERIFNDILRFCQPESLSVYARYTRRGGLDINPWRSNGDFSPATGRLARQ				NA	NA	NA	NA	NA
BMS020_01664	1338	ppnN_1	COG1611	Pyrimidine/purine nucleotide 5'-monophosphate nucleosidase	ATGGATATGCTGTCGCAGCTGGAAGTGGATATGCTTAAGCGCACCGCCAGCAGCGATCTGTATCAACTCTTTCGCAACTGCTCGCTTGCTGTGCTCAACTCGGGGAGCCTGACCGATAACAGCAAGGAGCTTCTGTCCCGTTTTGAAAATTTCGATATTAACGTGCTGCGTCGCGAACGCGGCGTGAAGCTGGAACTGATCAACCCGCCGGAAGAGGCCTTCGTTGACGGGCGCATTATTCGTTCCCTGCAGGCCAACCTGTTCGCCGTGCTGCGCGATATCCTGTTCGTGTACGGCCAGATCCACAATACCGTTCGCTTCCCGAACCTCGATCTCGAAAGTTCAGTCCATATCACCAACCTGGTGTTCTCGATCCTCCGCAACGCCCGCGCGCTGCACGTCGGCGAAGCGCCGAACATGATCGTCTGTTGGGGCGGCCACTCGATCAACGAAAACGAATACCTCTACGCCCGCCGCGTCGGTACGCAGCTGGGACTGCGGGAACTCAACATCTGCACCGGCTGCGGGCCTGGCGCAATGGAAGCGCCGATGAAAGGCGCCGCCGTCGGCCACGCGCAGCAGCGCTACAAAGACAGCCGCTTTATCGGCATGACCGAACCGTCCATTATCGCCGCGGAACCGCCAAACCCGCTGGTCAATGAACTGATCATCATGCCGGACATCGAAAAGCGTCTGGAGGCCTTCGTGCGCATCGCCCACGGGATCATCATCTTCCCGGGCGGCGTCGGCACCGCCGAAGAGCTGCTTTACCTGCTGGGTATTCTGATGCATCCGGATAACAAAGCGCAGGTGCTGCCGCTGATCCTCACCGGCCCGAAAGAGAGCGCTGACTACTTCCGCGTGCTGGATGAATTTATCACCCATACTCTGGGCGAATCCGCCCGTCGCCACTACCGGATCATCATCGACGACCCGGCGGAAGTGGCGCGGCAGATGAAAAAAGCGATGCCGCTGGTGAAAGAGAGCCGTCGCGAGACCGACGACGCCTACAGCTTCAACTGGTCGATTCGTATCTCGCCGGACCTGCAGATGCCGTTTGATCCGACCCATGAAAACATGGCCAACCTCAAACTCTCCCCGGACCAGCCGGTGGAAGTGCTGGCCGCCGACCTGCGCCGCGCCTTCTCCGGCATTGTCGCGGGTAACGTCAAAGAGGTGGGCATCCAGGCCATCGAGCAGTACGGTCCTTATAAGCTGCACGGCGACCCGGAGATGATGCGCCGCATGGACGATCTGCTGCAGGGCTTCGTCGCCCAGCACCGCATGAAGCTCCCGGGCGGCACCGCCTATATTCCCTGCTACGAAATCATCGCCTGA	MDMLSQLEVDMLKRTASSDLYQLFRNCSLAVLNSGSLTDNSKELLSRFENFDINVLRRERGVKLELINPPEEAFVDGRIIRSLQANLFAVLRDILFVYGQIHNTVRFPNLDLESSVHITNLVFSILRNARALHVGEAPNMIVCWGGHSINENEYLYARRVGTQLGLRELNICTGCGPGAMEAPMKGAAVGHAQQRYKDSRFIGMTEPSIIAAEPPNPLVNELIIMPDIEKRLEAFVRIAHGIIIFPGGVGTAEELLYLLGILMHPDNKAQVLPLILTGPKESADYFRVLDEFITHTLGESARRHYRIIIDDPAEVARQMKKAMPLVKESRRETDDAYSFNWSIRISPDLQMPFDPTHENMANLKLSPDQPVEVLAADLRRAFSGIVAGNVKEVGIQAIEQYGPYKLHGDPEMMRRMDDLLQGFVAQHRMKLPGGTAYIPCYEIIA	PGPT0021310_349	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021310-ppnN|ygdH-K06966	NA	NA
BMS020_01665	1290	sdaC	COG0814	Serine transporter	ATGGAAACCACTCAAACCAGCACCATCGTTTCGGGCGAAACCCGCAGCGGATGGCGTAAAACCGACACCATGTGGATGCTGGGCCTGTACGGTACAGCGATCGGCGCGGGCGTCTTGTTCCTGCCGATCAACGCCGGCGTCGGCGGCATGATCCCCCTGATTATCATGGCGATTCTGGCCTTCCCGATGACCTTCTTCGCCCACCGCGGTATGACCCGCTTCGTGCTCTCCGGCAAAAACCCGGGCGAAGACATCACTGAAGTGGTTGAAGAACACTTCGGCGTAGGCGCAGGTAAGCTGATTACCCTGCTCTACTTCTTCGCTATCTACCCAATCCTGTTGGTCTACAGCGTGGCGATCACCAATACCGTCGAAAGCTTCATGGCGCACCAGCTGCACATGACGCCGCCGCCGCGCGCGATTCTGTCGCTGATCCTGATCGTCGGCATGATGACCATCGTGCGTTTCGGCGAGCAGATGATCGTGAAAGCGATGAGCATTCTGGTGTTTCCGTTCGTAATCGCCCTGATGATTCTGGCGCTGTACCTGATCCCGCAGTGGAACGGCGCGGCGCTGGAGACCCTCTCCCTGAGCGGCGCCTCCGTCACCGGCAACGGCCTGCTGATGACCCTGTGGCTGGCGATCCCGGTCATGGTCTTCTCTTTCAACCACTCGCCGATCATCTCCTCCTTCGCGGTTGCCAAGCGTGAAGAGTACGGCGAAGGCGCCGAGAAAAAATGCTCCAGCATCCTGGCTCGCGCCCATATCATGATGGTGCTGACCGTGATGTTCTTCGTCTTCAGCTGCGTCCTGAGCCTCTCTCCGGCAGACCTGGCGGCGGCGAAAGAGCAGAACATCTCGATTCTGTCTTACCTGGCGAACCACTTTAACGCGCCAATCATTGCCTGGATGGCGCCGATCATCGCGATGATCGCCATCACCAAATCCTTCCTCGGCCACTACCTGGGCGCCCGCGAAGGCTTTAACGGCATGGTGATTAAGTCCCTGCGCGGTAAAGGCAAATCTATCGAAATCAACAAACTGAACAAGCTGACCGCGCTGTTCATGCTGGTGACCACCTGGATTGTCGCGACGCTGAACCCGAGCATCCTCGGCATGATCGAGACCCTTGGCGGCCCGATTATCGCGATGATCCTGTTCCTGATGCCGATGTACGCGATTCAGAAAGTGCCGGCGATGCGTAAATACAGCGGCCACGTCAGCAACGTCTTCGTGGTGATTATGGGTCTGATTGCCATCTCCGCGATCTTCTACTCGCTGTTCAGCTAA	METTQTSTIVSGETRSGWRKTDTMWMLGLYGTAIGAGVLFLPINAGVGGMIPLIIMAILAFPMTFFAHRGMTRFVLSGKNPGEDITEVVEEHFGVGAGKLITLLYFFAIYPILLVYSVAITNTVESFMAHQLHMTPPPRAILSLILIVGMMTIVRFGEQMIVKAMSILVFPFVIALMILALYLIPQWNGAALETLSLSGASVTGNGLLMTLWLAIPVMVFSFNHSPIISSFAVAKREEYGEGAEKKCSSILARAHIMMVLTVMFFVFSCVLSLSPADLAAAKEQNISILSYLANHFNAPIIAWMAPIIAMIAITKSFLGHYLGAREGFNGMVIKSLRGKGKSIEINKLNKLTALFMLVTTWIVATLNPSILGMIETLGGPIIAMILFLMPMYAIQKVPAMRKYSGHVSNVFVVIMGLIAISAIFYSLFS	PGPT0011650_409	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|COLICINS,PGPT0011650-sadC|dcrA-K03837	NA	NA
BMS020_01666	1368	sdaB	COG1760	L-serine dehydratase 2	ATGATCAGCGTATTCGATATCTTTAAAATCGGCATTGGCCCTTCCAGCTCCCATACCGTTGGACCGATGAAAGCGGGCAAACAATTCACTGACGACCTGATCGCGCGCGGCCTGCTGGCCGAGGTGACCAAAGTGGTCGTCGACGTCTACGGCTCCCTCTCCCTGACCGGTAAAGGCCACCATACCGATATCGCGATTATCATGGGGCTCGCCGGCAACCTGCCGGACACCGTCGACATCGACGCTATCCCTGGCTTTATTCAGGACGTTAACACCCATGGTCGCCTGATGCTGGCCAACGGCCAGCACGAAGTGGACTTCCCGGTCGATCAGTGCATGAATTTCCATGCCGACAACCTGTCGCTGCATGAGAACGGCATGCGCATCACCGCCCTGGCCGGCGACCAGGCGCTCTACAGCCAGACGTACTACTCCATCGGCGGCGGCTTTATCGTCGATGAAGCGCACTTCGGCCAGACTACCGACGCGCCGGTGGCCATCCCTTATCCTTATAAAAACGCCGCCGACCTGCAGCGTCACTGCCGCGAAACCGGGCTGTCGCTCTCCGGCCTGATGATGCAGAACGAACTGGCGCTGCACAGTAAAGAGGCGCTGGAGCAACACTTCGCCGCGGTGTGGGAAGTGATGAGCGCCGGTATTGAGCGCGGCATCACCACCGAAGGCGTCCTGCCGGGCAAACTGCGCGTTCCGCGCCGGGCTGCCGCGCTGCGCCGCATGCTGGTGAGCCAGGACACCACCAACAGCGACCCGATGGCGGTGGTCGACTGGATCAATATGTTCGCCCTCGCGGTGAACGAAGAGAACGCCGCCGGCGGCCGGGTGGTGACTGCGCCGACCAACGGCGCCTGCGGTATCGTGCCGGCAGTACTGGCCTATTACGACAAGTTTATCCGCAAGGTGAACAGCAACTCCCTGGCGCGCTATATGCTGGTGGCCAGCGCGATTGGTTCGCTCTATAAGATGAACGCCTCGATCTCCGGCGCCGAAGTGGGCTGCCAGGGTGAAGTGGGCGTCGCCTGCTCGATGGCGGCGGCCGGTCTGGCTGAACTGCTGGGCGGCAGCCCGGGCCAGGTGTGCATCGCGGCAGAGATCGCCATGGAGCATAACCTCGGTCTGACCTGCGACCCTGTCGCCGGCCAGGTGCAGGTGCCGTGCATCGAACGCAACGCTATCGCCGCCGTGAAAGCGGTCAACGCCGCGCGAATGGCGCTGCGCCGGACCAGCGAGCCGCGCGTCTGCCTCGATAAAGTCATTGAGACCATGTACGAAACCGGCAAAGACATGAACGCCAAGTACCGGGAAACCTCTCGCGGGGGGCTGGCGATGAAGATTGTCGCCTGCGATTAA	MISVFDIFKIGIGPSSSHTVGPMKAGKQFTDDLIARGLLAEVTKVVVDVYGSLSLTGKGHHTDIAIIMGLAGNLPDTVDIDAIPGFIQDVNTHGRLMLANGQHEVDFPVDQCMNFHADNLSLHENGMRITALAGDQALYSQTYYSIGGGFIVDEAHFGQTTDAPVAIPYPYKNAADLQRHCRETGLSLSGLMMQNELALHSKEALEQHFAAVWEVMSAGIERGITTEGVLPGKLRVPRRAAALRRMLVSQDTTNSDPMAVVDWINMFALAVNEENAAGGRVVTAPTNGACGIVPAVLAYYDKFIRKVNSNSLARYMLVASAIGSLYKMNASISGAEVGCQGEVGVACSMAAAGLAELLGGSPGQVCIAAEIAMEHNLGLTCDPVAGQVQVPCIERNAIAAVKAVNAARMALRRTSEPRVCLDKVIETMYETGKDMNAKYRETSRGGLAMKIVACD	PGPT0001975_2317	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
BMS020_01667	756	ygdG	COG0258	Flap endonuclease Xni	GTGGCTGTTCATCTGTTAATCGTCGACGCGTTAAATCTGATCCGCCGCATCCACGCGGTACAGGGCTCGCCCTGCGTCGATACCTGCCTGCATGCGCTGGAGCAGCTGATCGTCCATAGTCAGCCCACCCACGCGGTGGCGGTGTTTGATGATGAGGATCGCGCCCACGGCTGGCGCCACCAGCGCCTGCCGGAGTACAAAGCCGGCCGCGCGCCGATGCCGGAGACCCTGGTCGCCGAGATGCCGGCGCTGCGGGCCGCCTTCGAGCAGCGGGGGATCCGCTGCTGGGCCTCGCCGGGCAGCGAAGCGGACGACCTCGCCGCCACCCTGGCGGTGAAGGTGGCCCAGGCGGGCCATCAGGCCACCATTGTCTCCACTGACAAAGGCTACTGCCAGCTGCTGTCGCCCACCATCCGCATCCGCGACTACTTTCAGAAGCGCTGGCTGGACGCCCCCTTCATCGCCAGCGAGTTCGGCGTCACCCCGGAGCAGCTGGCGGATTACTGGGGGCTAGCGGGGATCAGCAGCTCGAAGGTGCCGGGCGTAGCGGGCATTGGCCCTAAAAGCGCCGCCCAGCTGCTGAACGAGTTCCAGGACCTGGAGGGGCTGTATGCCCGCCTGGCCGAGGTCCCGGAAAAGTGGCGCAAAAAGCTGGCAACGCATCAGGAAATGGCCTTCACCTGCCGGGAAGTCGCCCGCCTGCAGACCGACCTACAGCTGGACGGCAATCTGCAGCAGCTGCGGCTGACGCGCTGA	MAVHLLIVDALNLIRRIHAVQGSPCVDTCLHALEQLIVHSQPTHAVAVFDDEDRAHGWRHQRLPEYKAGRAPMPETLVAEMPALRAAFEQRGIRCWASPGSEADDLAATLAVKVAQAGHQATIVSTDKGYCQLLSPTIRIRDYFQKRWLDAPFIASEFGVTPEQLADYWGLAGISSSKVPGVAGIGPKSAAQLLNEFQDLEGLYARLAEVPEKWRKKLATHQEMAFTCREVARLQTDLQLDGNLQQLRLTR				NA	NA	NA	NA	NA
BMS020_01668	1149	fucO	COG1454	Lactaldehyde reductase	ATGGCAAACCGAATGATCCTCAACGAAACGGCGTGGTTTGGCCGGGGGGCGATAAACGCATTAACCGATGAAGTGCTGCGGCGCGGTTATCGCAAGGCATTGATCGTGACCGACAGCACCCTCGCGCAGTGCGGCGTAGCGGCAAAAGTCACTGACAAACTGGACGCCGCCGGGCTGGCATGGGACATGTTCAGCGACGTGATCCCCAATCCCACCATCGCCGTGGTCCAGCAGGGGCTGCAGGCCTTTCAGCGCAGCGGGGCGGATTACCTGATCGCCATCGGCGGCGGTTCGCCGCAGGATACCTGTAAAGCGATCGGTATTATTCAGCGTAACCCGGCGTTCGCCGATGTCCGCAGCCTGGAGGGGCTGTCGCCCACCCGTCAGCCCAGCGTGCCGATCTTCGCGGTGCCGACCACCGCGGGTACCGCGGCGGAGGTGACGATTAACTATGTCATCACCGATGAAGAACAGCGGCGTAAGTTTGTCTGCGTCGACCCGCACGATATTCCGCAGGTGGCCTTTATCGATGCCGATATGATGGACGCCATGCCGCCGGCGCTGAAGGCGGCGACCGGCGTCGACGCCCTGACGCACGCTATCGAAGGGTACCTCACCCGCGGCGCCTGGGCTTTGACCGATGCGCTGCACCTCAAAGCCATCGAGATCATCGCCGGCGCGCTGCGCGGCTCGGTTGCCGGAGACGCCGGAGCGGGGGAAGCCATGGCGCTCGGCCAGTATGTGGCGGGGATGGGATTTTCCAACGTCGGGCTTGGCCTGGTGCACGGCATGGCGCATCCGCTCGGCGCTTTTTACAACACGCCGCACGGTGTGGCGAATGCCATCCTGCTGCCGCACGTGATGCGCTTTAATGCTGAGGCGACCGGGGAAAAATATCGCGATATCGCCAGGGCGATGGGCGTCAGGGTGGAAGCGTTAAGCCTGACCGCCGCGCGCCTGGCGGCGGTGGAGGCGGTCTGCCAGCTCAACCGCGATGTCGGTATTCCCGGCCATCTGCGCGAGGTGGGCGTCAGGAAAGAGGATATTCCGGCGCTGGCCCAGGCGGCGCTGGCGGATGTGTGTACCGGCGGCAACCCGCGCGAGGCGAGCCTGGCCGATATCGTCGGGTTATATCAGGCGGCCTGGTGA	MANRMILNETAWFGRGAINALTDEVLRRGYRKALIVTDSTLAQCGVAAKVTDKLDAAGLAWDMFSDVIPNPTIAVVQQGLQAFQRSGADYLIAIGGGSPQDTCKAIGIIQRNPAFADVRSLEGLSPTRQPSVPIFAVPTTAGTAAEVTINYVITDEEQRRKFVCVDPHDIPQVAFIDADMMDAMPPALKAATGVDALTHAIEGYLTRGAWALTDALHLKAIEIIAGALRGSVAGDAGAGEAMALGQYVAGMGFSNVGLGLVHGMAHPLGAFYNTPHGVANAILLPHVMRFNAEATGEKYRDIARAMGVRVEALSLTAARLAAVEAVCQLNRDVGIPGHLREVGVRKEDIPALAQAALADVCTGGNPREASLADIVGLYQAAW	PGPT0008265_263	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0008265-fucO-K00048	NA	NA
BMS020_01669	648	fucA	COG0235	L-fuculose phosphate aldolase	ATGGAAAGAAACAGACTGGCCCGGCAGATTATCGATACCTGCCTGGAAATGACCCGCCTGGGGTTAAATCAGGGGACCGCCGGCAATGTCAGCGTGCGCTATCAGGGGGGGATGCTGATCACGCCCACCGGCATCCCGTATGAAAAACTGACGGAAGAGAAGATCGTCTTTATTGATGCCGACGGCCAGCATGAGCAGGGAAAACTGCCCTCCAGCGAATGGCGTTTCCATCAGGCGGCCTACCAGACGCGGCCCGATGCCCAGGCGGTGGTCCACAATCACGCTGTGCATTGTACGGCGGTGTCGATCCTCAACCGGCCCATTCCGGCCATCCACTATATGATCGCCGCGGCGGGCGGGAATTCGATCCCCTGCGCGCCCTATGCCACTTTCGGCACCCGCGAACTGTCTGAGCATGTCGCGGTGGCGCTGAAGCACCGCAAAGCCACGCTGCTGCAGCATCATGGCCTGATCGCCTGCGAGGCCAGCCTGGAGAAAGCGCTCTGGCTGGCGCATGAAGTGGAAGTCCTGGCCCAGCTCTATCTCAGCACGCTGGCGATTACCGACCCGGTACCGGTGCTGGATGACGAGGCGATCGCCATCGTGCTGGAGAAGTTCAAAACCTACGGATTACGCATTGAAGAGTGA	MERNRLARQIIDTCLEMTRLGLNQGTAGNVSVRYQGGMLITPTGIPYEKLTEEKIVFIDADGQHEQGKLPSSEWRFHQAAYQTRPDAQAVVHNHAVHCTAVSILNRPIPAIHYMIAAAGGNSIPCAPYATFGTRELSEHVAVALKHRKATLLQHHGLIACEASLEKALWLAHEVEVLAQLYLSTLAITDPVPVLDDEAIAIVLEKFKTYGLRIEE	PGPT0017430_771	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017430-fucA-K01628	NA	NA
BMS020_01670	1311	fucP_1	COG0738	L-fucose-proton symporter	ATGGGAAACACAACGATACCAACGCAAAGTTACCGCGCCATGGAGAGCGGGCAGAGTAAGAGCTATATTATTCCTTTTGCTCTGCTGTGCTCCCTCTTTTTTCTGTGGGCCGTGGCCAATAATCTTAATGATATTTTATTACCGCAATTTCAACAGGCCTTTACGCTGACTAACTTTCAGGCCGGATTAATCCAGTCAGCTTTTTATTTTGGCTATTTTGTTATTCCCATCCCCGCTGGGATGCTGATGAAAAAATTCAGCTATAAAGCAGGCATTCTTACTGGTCTGTTTTTATATGCCTGCGGCGCCGCGCTGTTCTGGCCTGCCGCGGAAGTGATGAATTACACCCTATTTCTGATTGGATTATTTATTATCGCCGCCGGGCTTGGCTGTCTGGAAACCGCGGCCAACCCGTTTGTCACCGTTCTCGGTCCGGAAAGCGGCGGTCACTTCCGTCTTAATCTGGCCCAGACCTTTAACTCATTTGGCGCCATTATCGCCGTGGTATTTGGTCAGAGCCTTATTTTGTCCAACGTCCCGCATCAGCCGCAGGAGGTGCTGGATAGCATGACCCCAGAACAGCTCGGCGCCTGGAAGCACAGCCTGGTTTTGTCGGTACAAACCCCCTATATGATTATCGTGGCCATCGTGCTGCTGGTCGCCCTGCTGATCGTCTGCACCCGCTTCCCGTCACTGCAAAGCGATGACCACGGCGACAGCGCGCAGAGCACTTTTCTCGCCTCGCTGTCGCGCCTGATGCGCATCCGCCACTGGCGCTGGGCGGTTCTGGCCCAGTTCTGCTATGTCGGCGCGCAGACCGCCTGCTGGAGCTATCTGATTCGCTACGCTGTCGAAGAGATCCCGGGCATGACGGCCGGTTTCGCCGCCAACTACCTCACCGGCACCATGGTCTGTTTCTTCATTGGCCGTTTCACCGGCACCTGGCTTATCCGCCGCTTCGCGCCGCATAACGTGCTGGCTGTCTATGCGCTTATCGCCATGCTGCTCTGTTTGCTCTCCGCCTTCAGCGGCGGCCACGTCGGCCTGCTGGCCCTGACCCTGTGCAGCGCCTTTATGTCCATTCAGTACCCGACCATCTTCTCGTTGGGGATTAAGCATCTGGGTCAGGACACCAAATATGGCTCGTCCTTTATCGTCATGACCATCATCGGCGGCGGGATCGTCACCCCGGTGATGGGCTTTGTCAGCGATGCCGCCGGCAATATCCCGACCGCTGAGCTGGTCCCGGCGCTGTGCTTCGCCATCATCTTTATTTTTGCCCGTTTCCGCTCGCAAGCGGCGACGAACTAA	MGNTTIPTQSYRAMESGQSKSYIIPFALLCSLFFLWAVANNLNDILLPQFQQAFTLTNFQAGLIQSAFYFGYFVIPIPAGMLMKKFSYKAGILTGLFLYACGAALFWPAAEVMNYTLFLIGLFIIAAGLGCLETAANPFVTVLGPESGGHFRLNLAQTFNSFGAIIAVVFGQSLILSNVPHQPQEVLDSMTPEQLGAWKHSLVLSVQTPYMIIVAIVLLVALLIVCTRFPSLQSDDHGDSAQSTFLASLSRLMRIRHWRWAVLAQFCYVGAQTACWSYLIRYAVEEIPGMTAGFAANYLTGTMVCFFIGRFTGTWLIRRFAPHNVLAVYALIAMLLCLLSAFSGGHVGLLALTLCSAFMSIQYPTIFSLGIKHLGQDTKYGSSFIVMTIIGGGIVTPVMGFVSDAAGNIPTAELVPALCFAIIFIFARFRSQAATN	PGPT0016725_978	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_FUCOSE_TRANSPORRT,PGPT0016725-fucP|MFS_transporter|FHS_family|L_fucose_permease-K02429	NA	NA
BMS020_01671	1776	fucI	COG2407	L-fucose isomerase	ATGAAAAAAATCAGCTTACCGAAGATCGGTATCCGCCCGGTAATCGATGGTCGTCGCATGGGGGTCCGCGAATCGCTGGAAGCGCAAACCATGAACATGGCGAAAGCCACCGCCGCGCTTATCAGCGAGAAGCTGCGCCATGCCTGCGGCGCCCGGGTGGAGTGCGTGATCGCCGATACCTGCATCGCCGGCATGGCCGAGTCGGCCGCCTGTGAAGAGAAATTCAGCAGCCAGAACGTTGGCGTCACCATCACCGTCACCCCCTGCTGGTGCTACGGCAGTGAAACCATCGACATGGATCCGCTGCGCCCGAAGGCCATCTGGGGCTTTAACGGCACCGAACGTCCGGGGGCGGTCTATCTGGCCGCCGCGCTGGCGGCCCACAGCCAGAAAGGGATCCCGGCGTTCTCCATCTACGGGCATGACGTGCAGGATGCCGATGACACCTCCATCCCGGCGGACGTCGAAGAAAAACTGTTGCGCTTCGCTCGCGCCGGCCTGGCCGTCGCCAGTATGAAGGGGAAAAGCTATCTGTCGCTGGGCGGCGTCTCAATGGGCATCGCCGGCTCCATTGTCGACCACAACTTCTTTGAATCCTGGCTCGGGATGAAGGTTCAGGCAGTCGACATGACGGAGCTGCGCCGGCGAATCGATCAGAAAATCTATGATGAAACCGAGCTGGAGATGGCGCTGGCGTGGGCGGATAAACATTTCCGCTACGGCGAAGATCAGAACGCCGAGCAGTATAAGCGCAATGAAACGCAGAGCCGCGCGGTGCTAAAAGAGAGCCTGCTGATGGCGATGTGCATCCGCGATATGATGCAGGGCAACGCGAAGCTCGCGGAAAAAGGGCTGGTGGAGGAGTCGCTGGGCTACAACGCCATCGCCGCCGGTTTCCAGGGCCAGCGCCACTGGACCGATCAATACCCCAATGGCGATACCGCCGAAGCGCTGCTCAACAGCTCTTTTGACTGGAACGGCGTGCGCGAGCCGTTCGTCGTCGCCACCGAAAACGACAGCCTCAACGGCGTGGCCATGCTGATGGGCCACCAGCTCACCGGCACCGCCCAGGTGTTTGCCGACGTGCGCACCTACTGGTCGCCGGACGCCGTTGAGCGCGTCACCGGGCAGCCGCTCACCGGCCGGGCGGAGCACGGCATTATTCACCTGATTAACTCCGGCTCCGCGGCGCTGGACGGCTCCTGCCAGCAGCGCGACGCGCAGGGCAACCCGACGATGAAACCTCACTGGGAGATTGAACAGAACGAGGCGGATGCCTGCCTCGCGGCCACCGAATGGTGCCCGGCGATCCATGAATACTTCCGCGGCGGCGGCTTCTCTTCCCGCTTCCTGACCGAAGGCGGCGTGCCGTTCACCATGACCCGGGTGAACATCATCAAAGGTCTGGGACCGGTGCTGCAAATTGCCGAAGGCTGGAGCGTGGCGCTGCCCAAAGCGATGCACGACCAGCTCGACGCCCGCACCAACTCCACCTGGCCCACCACCTGGTTTGCCCCGCGCCTCACCGGCAAGGGCCCGTTCAGCGATGTGTACTCGGTCATGGCCAACTGGGGCGCCAACCACGGCGTGCTGACCATCGGCCATGTCGGCGCGGATTTCATTACTCTCGCCGCCATGCTGCGCATTCCGGTCTGCATGCACAACGTGGAAGCGGCGAAAATCTACCGCCCCTCCGCCTGGGCCGCGCACGGCATGGACATCGAAGGCCAGGACTATCGCGCCTGCCAGAACTACGGGCCGCTGTATAAGCGTTAA	MKKISLPKIGIRPVIDGRRMGVRESLEAQTMNMAKATAALISEKLRHACGARVECVIADTCIAGMAESAACEEKFSSQNVGVTITVTPCWCYGSETIDMDPLRPKAIWGFNGTERPGAVYLAAALAAHSQKGIPAFSIYGHDVQDADDTSIPADVEEKLLRFARAGLAVASMKGKSYLSLGGVSMGIAGSIVDHNFFESWLGMKVQAVDMTELRRRIDQKIYDETELEMALAWADKHFRYGEDQNAEQYKRNETQSRAVLKESLLMAMCIRDMMQGNAKLAEKGLVEESLGYNAIAAGFQGQRHWTDQYPNGDTAEALLNSSFDWNGVREPFVVATENDSLNGVAMLMGHQLTGTAQVFADVRTYWSPDAVERVTGQPLTGRAEHGIIHLINSGSAALDGSCQQRDAQGNPTMKPHWEIEQNEADACLAATEWCPAIHEYFRGGGFSSRFLTEGGVPFTMTRVNIIKGLGPVLQIAEGWSVALPKAMHDQLDARTNSTWPTTWFAPRLTGKGPFSDVYSVMANWGANHGVLTIGHVGADFITLAAMLRIPVCMHNVEAAKIYRPSAWAAHGMDIEGQDYRACQNYGPLYKR	PGPT0017505_177	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017505-fucI-K01818	NA	NA
BMS020_01672	1419	fucK	COG1070	L-fuculokinase	ATGAAGCAAGACGTTATCCTGGTCCTCGACTGCGGCGCCACGAACGTGCGGGTGATGGCCGTTGACCGACAGGGGAACATTGTCGCCCGCGCCGCCACGGCAAACGCCAGCGACATCGCCGCCGAGCGCAGCGACTGGCACCAGTGGTCGCTGGAGGCCATTATGCAGCGCTTTGCCGATTGCTGTCGGCAGATCCACGACCCGCTGGCCTCCTGCACGGTACGCGGCATCGCCGTCACGACCTTTGGCGTCGATGGCGCGCTGGTGGATGAGCAGGGTGCGCTGCTGTATCCGATCATCAGCTGGAAATGCCCGCGCACCGCGGCGGTGATGGACACCATCAGCCGGTATATGCCCGCACGCCAGCTGCAGCAAATCGCCGGCGTCGGCGCCTTTGCGTTCAACACCCTGTATAAGCTGATCTGGCTGAAAGAGAACCACCCGCAGCTGCTGGCGCAGGCCCATGCCTGGCTGTTCATTTCGTCGCTGATCAACCATCGGCTGACCGGGGAGTTCACCACCGACCTCACCATGGCGGGCACCAGCCAGATGCTCGATCTCCGGCAGCGCGATTTCAGCGCGCCGATCCTGCAGGCGACCGGCCTGCCGCGCCGCCTGTTCCCACGGCTGGTTGAAGCGGGCCAGCCGATCGGCGGCCTGCTGCCGGAGGCCGCTGCGCTGTTGGGCCTTCCCGTCGGGATCCCGGTTATCTCGGCCGGGCACGACACCCAGTTCGCCCTGTTTGGCGCCGGCGCCGGGCAGGATGAGCCGGCGCTCTCCTCCGGGACCTGGGAGATCCTGATGGTGCGCAGCGCGCAGGTCGACACCTCGCTGCTCGGCGACTACAGCGGCTCCACCTGCGAACTGGACAGCCAGCCGGGGCGCTATAACCCGGGGATGCAGTGGCTGGCCTCCGGCGTGCTCGAATGGGTGCGTAAGCTGCTGTGGAGCGCCGACACGCCGTGGCAAACTCTGATTGACGAAGCCCAGGCGATCCCGCCCGGCGCCGAGGGCGTCAGGATGCAGTGCGACCTGCTCGCCAGCCAGCACGCCGGCTGGCAGGGCGTCACGCTCAACACCACCCGCGGCCATTTTTACCGTGCCGCGCTGGAGGGGTTAAGCGACCAGCTGGCGCAGCATCTGCAAACCCTGGAAAACATCGGCCGCTTCCGGGCGAAAGAGCTGCTGCTGGTCGGCGGCGGCAGCCGCAACGCGCTGTGGAACCAGATCAAGGCCGACCGGCTGGGAATACCGATCAAAGTGCTCGACGATGCCGAAACCACGGTGGCCGGCGCGGCGATGTTTGGCTGGTATGGCGTGGGCGAGTTCTCTTCGCCGGAGCAGGCCAGGGCGCAGGTCGCGTACCGCTACCGCTATTTTTGGCCGCAAACTGAACCTGAATTCACAGAGGAAGCCTGA	MKQDVILVLDCGATNVRVMAVDRQGNIVARAATANASDIAAERSDWHQWSLEAIMQRFADCCRQIHDPLASCTVRGIAVTTFGVDGALVDEQGALLYPIISWKCPRTAAVMDTISRYMPARQLQQIAGVGAFAFNTLYKLIWLKENHPQLLAQAHAWLFISSLINHRLTGEFTTDLTMAGTSQMLDLRQRDFSAPILQATGLPRRLFPRLVEAGQPIGGLLPEAAALLGLPVGIPVISAGHDTQFALFGAGAGQDEPALSSGTWEILMVRSAQVDTSLLGDYSGSTCELDSQPGRYNPGMQWLASGVLEWVRKLLWSADTPWQTLIDEAQAIPPGAEGVRMQCDLLASQHAGWQGVTLNTTRGHFYRAALEGLSDQLAQHLQTLENIGRFRAKELLLVGGGSRNALWNQIKADRLGIPIKVLDDAETTVAGAAMFGWYGVGEFSSPEQARAQVAYRYRYFWPQTEPEFTEEA	PGPT0017435_116	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017435-fucK-K00879	NA	NA
BMS020_01673	423	fucU	COG4154	L-fucose mutarotase	ATGCTCAAAACCATTTCCCCGCTGATATCGCCGGAACTGCTGAAAGTGCTGGCCGAAATGGGCCATGGGGATGAAATTATTTTTTCCGATGCCCACTTCCCGGCGCACAGCATGGGTCCGCAGGTGATCCGCGCCGACGGCCTGCGGGTCAGCGACCTGCTGCAGGCGATTATCCCGCTGTTCGAGTTAGACTGCTACGCGCCGCCGCTGGTGATGATGGCCGCCGTCGAAGGCGATGCCCTCGACCCGACGGTGGAACAGCGCTATCGGCAGGCGCTCTCGGCGCAGGCCCCCTGCCCGGACATCGTGCGGATTGACCGCTTTGCCTTCTACGAGCGGGCGCAAAAAGCCTTTGCGATCGTTATCACAGGAGAGTGCGCTAAGTACGGAAATATCCTTTTAAAAAAAGGAGTCACGCCGTAA	MLKTISPLISPELLKVLAEMGHGDEIIFSDAHFPAHSMGPQVIRADGLRVSDLLQAIIPLFELDCYAPPLVMMAAVEGDALDPTVEQRYRQALSAQAPCPDIVRIDRFAFYERAQKAFAIVITGECAKYGNILLKKGVTP	PGPT0017496_828	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017496-fucU-K02431	NA	NA
BMS020_01674	711	ydjF	COG1349	putative HTH-type transcriptional regulator YdjF	ATGAAAGCGGCCCGCCAGCAGGCGATCGTCGATCTCCTGATCAACCACAGCAGCCTGACCACCGAAACGTTGTCAAAACAGCTCAACGTCAGCAGGGAAACCATTCGCCGCGATCTCAGCGAGCTGCAGGCGCAGGGCAAAGTGCTGCGCAACCACGGCCGGGCCAAAGTGATCCACCAGCGCAGCCAGGACAGCGGCGACCCTTTCCACATGCGCCTGAAAAGCCATTACGCGCATAAAGCCGACATCGCCCGCGAAGCGCTGGCCTGGATTGACGAAGGCATGGTCATCGCCCTCGATGCCAGCTCCACCTGCTGGTACCTCGCCCGCCAGCTGCCGGACCGCCCGCTGCACGTTTTTACCAACAGCCAGCCCATCTGCCAGGAGCTGGCCAAACGCGACCAGATCGCCCTCACCTGCTCCGGCGGCACCCTGCAGCGGAAATATGGCTGCTACGTTAACCCGGCGCTGATTTCCCAGCTGAAATCGCTGGAGATCGATCTGTTTATTTTTTCCTGCGAAGGCATCGACCCGCAGGGCGCGCTGTGGGACTCCAATGCGTTCAATGCCGACTTCAAATCGATCCTGCTTAAGCGGGCGGCGCAGTCGCTGCTGCTGATCGACAAAAGTAAGTTCAACCGTTCCGGCGAGGCGAGAATTGGTCATCTGGATGACGTGACGCATATTGTGTCGGATGCGCCGCAGCCTTAA	MKAARQQAIVDLLINHSSLTTETLSKQLNVSRETIRRDLSELQAQGKVLRNHGRAKVIHQRSQDSGDPFHMRLKSHYAHKADIAREALAWIDEGMVIALDASSTCWYLARQLPDRPLHVFTNSQPICQELAKRDQIALTCSGGTLQRKYGCYVNPALISQLKSLEIDLFIFSCEGIDPQGALWDSNAFNADFKSILLKRAAQSLLLIDKSKFNRSGEARIGHLDDVTHIVSDAPQP				NA	NA	NA	NA	NA
BMS020_01675	1101	rlmM_1	COG2933	Ribosomal RNA large subunit methyltransferase M	ATGAATAAGGTTGTCCTCTATTGTCGCCCTGGGTTTGAGAAAGAGTGCGCAGCAGAAATTACCGATAAGGCAGCCCGCCTTGAGGTGTTTGGTTTTGCCCGGGTCAAAGAAGACTCTGGCTATGTGATTTTTGAAGGCTATCAGCAGGATGATGGCGAGAAGCTGGTGCGCGATCTGCCGTTCAGCTCGCTGATCTTCGCCCGCCAGATGTTTGTGGTTGGCGAACTGCTGCGCGACCTGCCGCCGGAGGATCGCATCACGCCGATCGTCGGCATGCTGCAGGGCGTGGTGGAGAAGGGCGGCGATCTGCGCGTCGAGGTGGCGGACACTAACGAAAGCAAAGAGCTGATGAAGTTCTGCCGCAAGTTTACCGTGCCGCTGCGCGCGGCGCTGCGCGAAGCGGGCGTCCTGACCCGCTATGAAACGCCGAAGCGTCCGGTGGTGCATGTGTTCTTTATCGCCCCGGGCTGCTGCTATACCGGCTACTCGTACAGCAACAACAACTCGCCGTTCTATATGGGCATTCCGCGGCTGAAGTTTCCATCCGACGCCCCGAGCCGCTCCACCCTCAAGCTGGAAGAGGCGTTCCACGTCTTTATTCCGGCAGACGAGTGGGACGAGCGCCTGGCGAACGGCATGTATGCCGTCGACCTTGGCGCCTGCCCGGGCGGCTGGACCTATCAGCTGGTGAAGCGCAACATGTGGGTCTCTTCGGTCGATAACGGTCCGATGGCCCAGAGCCTGATGGATACCGGCCAGGTGACCTGGCTGCGCGAAGACGGTTTCCGCTATCGTCCGAACCGCAACAACATCTCGTGGATGGTCTGCGATATGGTGGAGAAGCCGGCGAAAGTGGCGGCGCTGATGGCGCAGTGGCTGGTCAACGGCTGGTGCCGGGAGACCATCTTCAACCTCAAGCTGCCGATGAAAAAGCGCTATGAAGAGGTGTCGCAGAATCTGGCCTACATTCAGGCCCAGCTGGACGAGCACGGCATTAACGCCCAGATCCAGGCGCGTCAGCTGTATCACGATCGTGAAGAGGTGACCGTTCACGTGCGTCGCCTGTGGGCCGCCGTCGGCGGACGTCGCGACGAGCGTTAA	MNKVVLYCRPGFEKECAAEITDKAARLEVFGFARVKEDSGYVIFEGYQQDDGEKLVRDLPFSSLIFARQMFVVGELLRDLPPEDRITPIVGMLQGVVEKGGDLRVEVADTNESKELMKFCRKFTVPLRAALREAGVLTRYETPKRPVVHVFFIAPGCCYTGYSYSNNNSPFYMGIPRLKFPSDAPSRSTLKLEEAFHVFIPADEWDERLANGMYAVDLGACPGGWTYQLVKRNMWVSSVDNGPMAQSLMDTGQVTWLREDGFRYRPNRNNISWMVCDMVEKPAKVAALMAQWLVNGWCRETIFNLKLPMKKRYEEVSQNLAYIQAQLDEHGINAQIQARQLYHDREEVTVHVRRLWAAVGGRRDER				NA	NA	NA	NA	NA
BMS020_01676	396			hypothetical protein	ATGACCAGCCGTTTTATGCTGATATTCGCCGCGATTAGCGGCTTTATCTTTGTGGCTCTGGGTGCCTTCGGCGCGCATGTCTTAAGTCAATCGCTCGGCGCGGCGGAGATGGCCTGGATCCATACCGGCCTGGAGTATCAGGCCTTCCATACCCTGGCGATTTTTGGTCTGGCGGTGGCGATGCAGCGTCGGATCAGTATCTGGTTCTACTGGAGCAGCGTGTTTCTGGCGTTAGGGACCGTGCTGTTCAGCGGCAGCCTCTACTGCCTGGCGCTCTCTCATTTACGCCTGTGGGCGTTCGTGACCCCGGTGGGCGGCGTGAGCTTCCTCGCCGGCTGGGTTTTAATGTTAATTGGTGCAATTCGTCTGAAACGTAAGGGCGTTGTTCATGAATAA	MTSRFMLIFAAISGFIFVALGAFGAHVLSQSLGAAEMAWIHTGLEYQAFHTLAIFGLAVAMQRRISIWFYWSSVFLALGTVLFSGSLYCLALSHLRLWAFVTPVGGVSFLAGWVLMLIGAIRLKRKGVVHE				NA	NA	NA	NA	NA
BMS020_01677	918	gcvA_4		Glycine cleavage system transcriptional activator	ATGTCGAAGCGATTACCTCCTCTGAATGCATTACGTGTTTTTGATGCAGCCGCACGCCATCTCAGCTTCACTCGGGCAGCCGATGAGCTTTTTGTGACGCAGGCCGCAGTCAGCCACCAAATCAAGTCTCTCGAGGATTTTCTGGGCCTTAAGCTGTTCCGTCGGCGCAATCGTTCGCTGCTGTTAACGGAAGAAGGGCAAAGCTATTTTCAGGATATTAAAGAGATTTTTTCGCAACTGACGGAAGCGACGCGTAAACTGCAGGCGCGCAGCGCCAAAGGGGCCTTAACGGTCAGTTTATTGCCAAGTTTCGCCATCCAGTGGCTGGTGCCGAGACTCACAAGCTTTAACTCAGCTTATCCGGGAATCGACGTCAGGATCCAGGCGGTGGACCGTCAGGAGGATAAGCTGGCGGACGATGTCGACGTGGCGATTTTTTACGGTCGCGGCAACTGGCCGGGCCTGCGTGTGGAAAAACTGTACGCCGAGTATCTGCTGCCGGTCTGTTCCCCGCTGCTGCTCACCGGCGACAAGGCATTGAAAACGCCTGCCGATCTGGCGCAACATACGCTGCTTCACGATGCGTCCCGCCGCGACTGGCAAACTTATACCCGCCAGCTGGGTCTAAGCCATATTAATGTGCAGCAGGGGCCGATTTTCAGCCACAGCGCGATGGTGCTGCAGGCGGCCATTCATGGGCAGGGCGTGGCGCTGGCCAATAACGTCATGGCGCAGTCCGAAATTGAGGCCGGTCGCCTGGTGTGTCCGTTTAATGATGTTCTGGTCAGTAAGAATGCGTTTTACCTTGTTTGCCATGACAGTCAGGCAGAACTGGGTAAAATAGCCGCTTTCCGGCAGTGGATTCTGGCGAAAGCGGCAAGTGAACAAGAAAAATTCCGCTTTCGTTATGAACAATAA	MSKRLPPLNALRVFDAAARHLSFTRAADELFVTQAAVSHQIKSLEDFLGLKLFRRRNRSLLLTEEGQSYFQDIKEIFSQLTEATRKLQARSAKGALTVSLLPSFAIQWLVPRLTSFNSAYPGIDVRIQAVDRQEDKLADDVDVAIFYGRGNWPGLRVEKLYAEYLLPVCSPLLLTGDKALKTPADLAQHTLLHDASRRDWQTYTRQLGLSHINVQQGPIFSHSAMVLQAAIHGQGVALANNVMAQSEIEAGRLVCPFNDVLVSKNAFYLVCHDSQAELGKIAAFRQWILAKAASEQEKFRFRYEQ	PGPT0026360_2817	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS020_01679	231	ygdR_2		putative lipoprotein YgdR	ATGAAAATGACTAAGGCCGCTGCGATTATCTCTGCCTGTATGCTGACTCTGGGCCTGAGCGCCTGTTCCTCTAACTATGTGATGCATACCAATGATGGGCGGACCATCGTCACCGACGGGAAACCGCAAACCGATAATGATACTGGCATGATCTCGTATAAGGACGCGTGGGGCAACAAACAGCAGATCAATCGCTCTGACGTGAAACAGCTGGGTGAGCTGGACGAGTAA	MKMTKAAAIISACMLTLGLSACSSNYVMHTNDGRTIVTDGKPQTDNDTGMISYKDAWGNKQQINRSDVKQLGELDE				NA	NA	NA	NA	NA
BMS020_01680	1206	csdA	COG0520	Cysteine desulfurase CsdA	ATGAACGCATTCAACCCTGCGCACTTTCGCGCGCAGTTTCCGGCTCTGGCCGACGCCGGCGTCTATCTCGACAGCGCGGCGACGGCGCTCAAACCGCTGGCGGTGATCGACGCCAGCGACCAGTTTTATCGCCTGAGCGCCGGCAACGTCCACCGCAGTCAATTCGCCGCCGCCCAGCGGCTGACCGAGCGCTATGAGGCGGCCCGCGAGCGCGTGGCGGCGTGGCTGAACGCCCCCTCCGGCAAAGATATCGTCTGGACGCGGGGGACCACGGAGGCCATCAATATGGTGGCGCAGAGCTACGTCCGGCCGCGGCTGCAGCCTGGCGATGAAATTATCGTCAGCGAAGCCGAGCATCATGCCAACCTCGTGCCCTGGCTGATGGTGGCCGGGCAGACCGGCGCCAGAGTGGTCAAGCTGCCGCTTGGCGCCGACCGCCTGCCGGATATCGCCAGCCTCGGCGCGCTCATCACCCCGCGCAGCCGGGTGCTGGCCATCGGGCAGATGTCCAACGTCACCGGCGGCTGCCCGGACCTGGCGCAGGCCATCCGCCTTGCTCACGCCGCCGGAATGGTGGTGATGGTCGATGGCGCCCAGGGGGCGGTGCATTTCCCCGCGGACGTGCAGGCGCTGGATATCGATTTTTACGCCTTTTCCGGTCATAAGCTGTATGGCCCGACCGGGATCGGCGCCCTGTACGGTAAAAGCGAACTGCTGGCGGCGATGTCGCCCTGGCTCGGCGGCGGGAAGATGATCGCCGAGGTCAGCTTTGACGGCTTTACGCCGCAGCCGGCGCCCTATGGCCTTGAGGCCGGTACGCCCAATGTCGCCGGGGTGATTGGCCTGAGCGCCGCGCTGGAGTGGCTGGCGCAGAGCGATATCGGACAGGCGGAAAACTGGAGCCGCAGTCTGGCGAGCCTGGCGGAAGAGGCGCTGGCGAAACGGCCGGGCTTCCGCTCTTTCCGCTGCCAGCAATCAAGCCTGCTCGCCTTTGAGTTCGACGGTATTCATCACAGCGATCTGGTGACGCTGCTGGCGGAGTCCGGCATTGCCCTGCGCGCCGGGCAACACTGCGCCCAGCCGCTGCTGGCGGCCTTAGGGGTCAGCGGCACGCTGCGGGCCTCTTTCGCCCCCTACAATACCCAAGACGATGTTGCGGCGCTGGTCCACGCAGTGGATCGCGCTCTGGAAATTCTGGTGGATTAA	MNAFNPAHFRAQFPALADAGVYLDSAATALKPLAVIDASDQFYRLSAGNVHRSQFAAAQRLTERYEAARERVAAWLNAPSGKDIVWTRGTTEAINMVAQSYVRPRLQPGDEIIVSEAEHHANLVPWLMVAGQTGARVVKLPLGADRLPDIASLGALITPRSRVLAIGQMSNVTGGCPDLAQAIRLAHAAGMVVMVDGAQGAVHFPADVQALDIDFYAFSGHKLYGPTGIGALYGKSELLAAMSPWLGGGKMIAEVSFDGFTPQPAPYGLEAGTPNVAGVIGLSAALEWLAQSDIGQAENWSRSLASLAEEALAKRPGFRSFRCQQSSLLAFEFDGIHHSDLVTLLAESGIALRAGQHCAQPLLAALGVSGTLRASFAPYNTQDDVAALVHAVDRALEILVD	PGPT0020195_2476	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
BMS020_01681	438	csdE	COG2166	Sulfur acceptor protein CsdE	ATGACAACTCTGCATCCCTTCGGCACGACCATTACCGACGCCACGCTGCGCCAGACCTTTGCCCCGCTGAACCAGTGGGAGGATAAATATCGGCAGCTGATTTTATTGGGCAAAAAGCTGCCGACGCTGACCGATGAGCGCAAAGCGCAGGCCCGGGAGATTGCCGGGTGTGAAAACCGCGTCTGGCTGGGCTATGAGGAGGATGCCGAAGGCAGGCTGCACTTCTTTGGCGACAGCGAAGGACGGATTGTGCGCGGTCTTTTGGCCGTACTCTTAACCGCCGTGGAAGGAAAAACCCGCGCCGGGATCCTGGCCGAGGATCCGCTGGCGCTGTTCGACGAGCTGGGGCTGCGCGGCCAGCTGAGCGCCTCGCGCAGCCAGGGGCTCAGCGCCCTGAGCGAAGCGGTGCTCGCCGCCGCCCGCGAGGTTGAGGTTTAA	MTTLHPFGTTITDATLRQTFAPLNQWEDKYRQLILLGKKLPTLTDERKAQAREIAGCENRVWLGYEEDAEGRLHFFGDSEGRIVRGLLAVLLTAVEGKTRAGILAEDPLALFDELGLRGQLSASRSQGLSALSEAVLAAAREVEV	PGPT0020195_297	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
BMS020_01682	810	tcdA_1	COG1179	tRNA threonylcarbamoyladenosine dehydratase	ATGTCTGTTGTAATCAGCGATGCCTGGCGCCAGCGTTTTGGCGGTACGGCACGTTTATATGGTGAAAAAGCGCTGCAATGTTTTGCCGACGCCCACGTCTGCGTGGTCGGCATCGGCGGGGTCGGCTCGTGGGCGGCGGAAGCGCTGGCGCGAACCGGCATCGGGGCGATCACCCTTATCGATATGGACGATGTCTGCGTCACCAATACCAACCGCCAGATCCACGCCCTCAGCGGCAACGTCGGGCTGGCGAAAGCCGAAGTGATGGCGGAGCGTATTCGCCTGATCAACCCGGAGTGTCGGGTGACGGTAGTGGATGATTTCGTGACCCCGGAAAACGTGGCGGAATACCTGGGCGCCGGCTTCAGCTACGTCATCGACGCCATCGATAGCGTCCGGCCGAAAGCGGCGTTAATCGCTTACTGTCGTCGCCATAAGGTGCCGCTGGTCACCACCGGCGGCGCGGGCGGACAAATCGATCCGACGCAAATCCAGGTCGCCGATCTGGCGAAAACCATCCAGGATCCGCTGGCGGCCAAACTGCGCGAGCGGCTGAAAAGCCAGTTTGGGGTGGTGAAAAACAGCAAAGGCAAGCTCGGCGTGGACTGCGTCTTCTCTACCGAAGCGCTGGTCTACCCGCAGGCGGACGGCAGCGTCTGCGCGATGAAAAGCACCGCTGAGGGGCCGAAGCGAATGGATTGCGCATCCGGGTTTGGCGCGGCGACGATGGTGACCGCGACCTTTGGCTTTGTCGCGGTATCCCATGCGCTGAAGAAAATGCTGGCGAAGGCGGAGCGGCAGACGGCGTAA	MSVVISDAWRQRFGGTARLYGEKALQCFADAHVCVVGIGGVGSWAAEALARTGIGAITLIDMDDVCVTNTNRQIHALSGNVGLAKAEVMAERIRLINPECRVTVVDDFVTPENVAEYLGAGFSYVIDAIDSVRPKAALIAYCRRHKVPLVTTGGAGGQIDPTQIQVADLAKTIQDPLAAKLRERLKSQFGVVKNSKGKLGVDCVFSTEALVYPQADGSVCAMKSTAEGPKRMDCASGFGAATMVTATFGFVAVSHALKKMLAKAERQTA				NA	NA	NA	NA	NA
BMS020_01683	1098	mltA	COG2821	Membrane-bound lytic murein transglycosylase A	ATGAAAGGACGTTGGGCAAAATATGTAGCGACGGGGGCAATGCTGGCCATGCTCGCCGCCTGTTCCTCAAAACCGACCGACCGCGGTCAGCAATATAGCGATGGCAAGTTCACCCAGCCGTTTTCACTGGTAAACCAGCCTGATGCCGTCGGGGCGCCGATCAATGCCGGCGACTTCTCCGAGCAGGTTAATCAAATTCGTAACGCCTCGCCGCGCCTCTATAACAGCCAAAGCAACGTCTATAACGCGCTGCAGGAGTGGCTGCGCGCCGGCGGCGACACCCGTACGCTGCGCCAGTTTGGCATCGACGCCTGGCAGATGCAGGGCACCGACAACTATGGCAACGTCCAGTTTACCGGCTACTACACGCCGGTGGTGCAGGCGCGCCACACCCGCCAGGGCGAATTCCAGTACCCCATTTACCGGATGCCGCCGAAGCGCGGCAAGCTGCCGTCCCGCGCCAGCATTTATGCCGGCGCGCTGAGCGATAACTATGTGCTGGCGTACAGCAACTCGCTGATGGATAACTTCATCATGGACGTGCAGGGCAGCGGTTATATCGACTTTGGCGATGGTTCGCCGCTCAACTTCTTTAGCTATGCCGGGAAAAACGGCTGGCCCTATCGCAGCATCGGCAAAGTGCTGATCGACCGTGGGGAAGTGAAGAAAGAAGATATGTCGATGCAGGCGATCCGCGAGTGGGGTGAAAAGCACAGCGAAGCGGAAGTGCGTGAGCTGCTGGAGCAGAACCCGTCGTTCGTGTTCTTTAAACCGCAGTCTTTCGCGCCGGTGAAAGGGGCCAGCGCCGTGCCGCTGATTGGCCGCGCCTCGGTGGCCTCCGACCGGTCGATTATTCCGCCGGGAACCACCTTGCTGGCCGAGGTGCCTCTGCTGGATAATAACGGCAAGTTTAACGGCCAATACGAACTGCGACTGATGGTCGCCCTCGATGTCGGCGGGGCCATCAAAGGCCAGCATTTCGATATTTACCAGGGCATTGGCCCGGATGCCGGGCATCGTGCCGGCTGGTATAACCACTACGGCCGCGTATGGGTGCTGAAAAACGCCCCGGGCGCGGGCAACGTCTTTAGCGGCTAG	MKGRWAKYVATGAMLAMLAACSSKPTDRGQQYSDGKFTQPFSLVNQPDAVGAPINAGDFSEQVNQIRNASPRLYNSQSNVYNALQEWLRAGGDTRTLRQFGIDAWQMQGTDNYGNVQFTGYYTPVVQARHTRQGEFQYPIYRMPPKRGKLPSRASIYAGALSDNYVLAYSNSLMDNFIMDVQGSGYIDFGDGSPLNFFSYAGKNGWPYRSIGKVLIDRGEVKKEDMSMQAIREWGEKHSEAEVRELLEQNPSFVFFKPQSFAPVKGASAVPLIGRASVASDRSIIPPGTTLLAEVPLLDNNGKFNGQYELRLMVALDVGGAIKGQHFDIYQGIGPDAGHRAGWYNHYGRVWVLKNAPGAGNVFSG	PGPT0023780_1438	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023780-mltA-K08304	NA	NA
BMS020_01687	1056	cobT_2	COG2038	Nicotinate-nucleotide--dimethylbenzimidazole phosphoribosyltransferase	ATGCAAAGCTTAACCTCTCTACTGGGCGCGATCCCGGCGCCTGATGAAAGCGCGATGGCGCGCGCCCGGCTTCATATTGATGGTCTGCTGAAACCGCCCGGAAGCCTTGGACGCCTTGAAGATCTTGCCGTGCAGCTGGCGGGCATGCCCGGTCTTGACGGCGTGCCGCAGGTGAAAAAAAAGGCGCTGCTGGTGATGTGCGCCGACCACGGCGTGTGGGACGAAGGGGTCGCTATTTCGCCAAAAGCGGTGACCGCAATTCAGGCGGCGAATATGACGCTGGGCAAAACCGGCGTTTGCGTACTGGCGGCGCAGGCGGGCGCGAAGATGCACGTGATTGATGTTGGAATCGATGCCGAGCTGATACCGGGCGTCATCAACATGCGCGTGGCGCGCGGCTGCGGCAATATCGCCGTTGGTCCGGCAATGCGCCGCAGCCAGGCGGAAGAGCTGCTGCTGGAGGTGATGCGCTATACCCGGGGGCTGGCGGAGGATGGCGTCACGCTGTTTGGCGTCGGGGAGCTCGGAATGGCCAATACCACCCCGGCGGCGGCAATCGTCAGCGTCCTGACCGGCAGCGATGCCCAGGAGGTGGTAGGCATTGGCGCTAATCTGCCGTTGGCGAAGATCGGCAATAAAGTTGAGGTGGTACGACGAGCCATCGCCGTTAACCGCCCCGATCCGCATGATGGTCTGGACGTGCTGGCGAAAGTGGGCGGTTTTGATTTATTGGGGATGACGGGGGTAATGCTGGGCGCGGCCTCCTGCGGTCTGCCGGTGGTGCTCGATGGCTTCCTCTCCTACGCCGCGGCGCTGGCGGCGTGCCGAATGGCGCCGCAGGTGAAACCCTATCTTATCCCGTCGCACTATTCGGCGGAGAAGGGGGCGCGTATCGCGCTGGCGCACCTGGAGCTGGAGCCGTATCTCAACATGGGGATGCGCCTGGGCGAAGGCAGCGGCGCGGCGCTGGCGATGCCGATCGTGGAAGCGGCCTGCGCGATGTATCACGAAATGGGGATGCTGGCGGCGAGCAATATTGTGTTGCCGAAGGGCTGA	MQSLTSLLGAIPAPDESAMARARLHIDGLLKPPGSLGRLEDLAVQLAGMPGLDGVPQVKKKALLVMCADHGVWDEGVAISPKAVTAIQAANMTLGKTGVCVLAAQAGAKMHVIDVGIDAELIPGVINMRVARGCGNIAVGPAMRRSQAEELLLEVMRYTRGLAEDGVTLFGVGELGMANTTPAAAIVSVLTGSDAQEVVGIGANLPLAKIGNKVEVVRRAIAVNRPDPHDGLDVLAKVGGFDLLGMTGVMLGAASCGLPVVLDGFLSYAAALAACRMAPQVKPYLIPSHYSAEKGARIALAHLELEPYLNMGMRLGEGSGAALAMPIVEAACAMYHEMGMLAASNIVLPKG	PGPT0004595_1431	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
BMS020_01688	546	cobU	COG2087	Bifunctional adenosylcobalamin biosynthesis protein CobU	ATGCTGACTTTAGTGACCGGCGGGGCGCGCAGCGGTAAAAGCCGCCATGCCGAAGCGCTGATCGCCCATGCGCCGCAGGTACTGTATATCGCCACCTCGCAGGTCTTTGATGACGAGATGGCGGCGAGGATCCAGCACCACCGCGACGGCAGGCCCGCGCACTGGCGCACCGCCGAGCGCTGGCGGCAGCTTGATGAACTGATCACCCCGGATATCGCCCCGGAGGAGGCGATTTTGCTGGAATGCATCACCACCCTGGTGACCAACCTGTTGTTTGCGCTGGGGGGCGACAGCTCGCCGGACGGCTGGGATTATGCGGCGATGGAGCGGGCGATCGACGCCGAAATCGCGGTACTGATTGCCGCCTGCCAGCGCTGCCCGGCCCGCGTGGTGCTGGTGACCAACGAGGTAGGGATGGGGATTGTGCCGGAAAACCGTCTTGCCCGCCATTTCCGCGATATCGCCGGACGCGTCAACCAGCGCCTTGCGGCGGCGGCAGACGAGGTGTGGCTGGTGGTGTCGGGCATTGGCGTAAAAATCAAATAG	MLTLVTGGARSGKSRHAEALIAHAPQVLYIATSQVFDDEMAARIQHHRDGRPAHWRTAERWRQLDELITPDIAPEEAILLECITTLVTNLLFALGGDSSPDGWDYAAMERAIDAEIAVLIAACQRCPARVVLVTNEVGMGIVPENRLARHFRDIAGRVNQRLAAAADEVWLVVSGIGVKIK	PGPT0004585_1315	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
BMS020_01689	1524	cobQ_1		Cobyric acid synthase	ATGACGCTGGCAATTATGTTACAGGGCACCGCTTCTGACGTCGGCAAAAGCGTGCTGGTCGCGGGGCTGTGCCGCATCTTTTATCAGGACGGGCAGCGCACCGCGCCGTTTAAATCGCAGAATATGGCGCTCAATTCCGGTATTACGCCGGATGGTAAAGAGATGGGCCGCGCGCAGATTTTCCAGGCCGAAGCGGCGGGGATCGCGCCGGACGTGCGCATGAACCCGGTGCTGCTTAAGCCGACCAGCGACCGCAAAGCGCAGGTGGTGCTGATGGGCAAGGTGGCGACCGATATGGACGCGGTGAGCTATCACGAATATAAACCGCGCCTGCGCGAACAGATCCTCGCGGTTTATAACAGCCTGGCCGCCGAACATGATGTGCTGGTGCTGGAAGGGGCGGGCAGTCCGGCGGAGATCAATCTGCGCGATCGCGATATCGTCAATATGGGCATGGCCGAGATGGCCCAGTGCCCGGTGATCCTCGTGGCGGATATCGATCGCGGCGGCGTCTTCGCCTCTATCTACGGCACGCTCGCGCTACTGCACGATCGCGAGCGCGCGCGGGTCAAGGGCGTGATTATCAATAAATTTCGCGGCGACGTGGCGCTGCTGTATTCCGGGATCGAGCAGATAGAAGCGCTCACCGGCGTCCCGGTGCTCGGCGTCATGCCGTGGCTGGACGTCGATCTTGAAGATGAGGACGGCGTCGCGCTGCAAAAAGGGAAATATCTGCGCACCGACAGCCGCGATATTGAGATTGCCGTGATTCAGGTGCCGCACATCTCTAATTTTACCGATTTCAACGCGCTGGCGGCGCAGCCGGACGTCCGCGTCCGCTATGTTCGCCAGCCGCAGGAGCTGGCGGGCGTGGATATGATTATCCTGCCGGGCAGTAAAAATACGCTCGGCGACCTCGGCTGGCTGCGCGAGAGCGGCATGGCGCATGCGGTACTGCAGGCCCGGCGTCAGGGCGTACCGGTGCTGGGGATCTGCGGCGGCTATCAGATGCTCGGCGAAACCATAATCGATGAGGTGGAGTCGGGGCTTGGCACCCAGCCGGGGCTGGGGTTGCTCAATACCGTCACCCACTTTGCGCACAGCAAAACGACGATCCAGGTCACGGCGACTCTGGCTCCGGTGCTGCCGGCGTGGCTGGCGGCAACAGCGGGGCTGGCGATAAGCGGCTACGAAATTCATATGGGCGAAACCGAGCTGCGCGACGGCTGCCGTTCGCTGATGCAATTACATAAAGGCAGCCTGAGCGTGGCGGACGGCGCGGTCAGCGATGACGGCCTGGCGTTTGGCACCTATCTGCACGGCCTGTTCGATAGCGATGCATTTACCCGCGCGCTGGTTAACGGCCTGCGCCAGCGTAAAGGGCTGGCGGCGCTGGATAGCGATTTCGAGTATGCGCAGTATAAATCGCGCCAGTTCGATCTGCTGGCGGACGCGATGCGTCAGCATATTGATATTGAAAAAATCTACGCCATCATGCGCCAACATCAGGAGCCCGTATGCTGA	MTLAIMLQGTASDVGKSVLVAGLCRIFYQDGQRTAPFKSQNMALNSGITPDGKEMGRAQIFQAEAAGIAPDVRMNPVLLKPTSDRKAQVVLMGKVATDMDAVSYHEYKPRLREQILAVYNSLAAEHDVLVLEGAGSPAEINLRDRDIVNMGMAEMAQCPVILVADIDRGGVFASIYGTLALLHDRERARVKGVIINKFRGDVALLYSGIEQIEALTGVPVLGVMPWLDVDLEDEDGVALQKGKYLRTDSRDIEIAVIQVPHISNFTDFNALAAQPDVRVRYVRQPQELAGVDMIILPGSKNTLGDLGWLRESGMAHAVLQARRQGVPVLGICGGYQMLGETIIDEVESGLGTQPGLGLLNTVTHFAHSKTTIQVTATLAPVLPAWLAATAGLAISGYEIHMGETELRDGCRSLMQLHKGSLSVADGAVSDDGLAFGTYLHGLFDSDAFTRALVNGLRQRKGLAALDSDFEYAQYKSRQFDLLADAMRQHIDIEKIYAIMRQHQEPVC	PGPT0004580_711	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
BMS020_01690	816	cbiO	COG1122	Cobalt import ATP-binding protein CbiO	ATGCTTGCCACGACCGATCTCTGGTTTCGCTATCAGGACGAGCCGGTGCTGAAGGGGCTGACGCTGGATTTTTCCCATCACGCCGTGACCGGACTGGTAGGGGCGAACGGCTGCGGAAAATCCACGCTGTTTATGAACCTGAGCGGTCTGCTGCGCCCGCAGAGCGGGGCGGTGCTATGGCAGGGAAAACCGCTGGACTACAGCAAGCGCGGCCTGCTGGCGCTGCGTCAGCAAGTGGCGACCGTTTTCCAGGACCCGGACCAGCAGATTTTCTATACCGATATCGACAGCGATATCGCCTTTAGCCTGCGGAACCTGGGCGTAGCGGAAGAGGAAATTGCCCGCCGGGTGGACGATGCCCTGACTCTCGTCGATGCCCAGGGGTTTCGTCACCAGCCGATTCAGTGCCTGAGCCACGGGCAGAAAAAGCGCGTGGCGATAGCCGGCGCGCTGGTGCTGCAGGCGCGCTATTTACTGCTCGACGAGCCGACGGCGGGTCTCGATCCTTCGGGACGCGCGCAGATGATCGACATCATTAAGCGTATTGCCGATCGGGGCAACCACGTGGCGATCTCCAGCCACGATATCGATCTGATCTATGAAATCAGCGATGCGGTTTACGTGTTACGCCGCGGCGAAGTGCTGGCGCACGGCGAACCCGGGGAGGTGTTTGCCCGCAGCGAACTGATGGCCCAGGCCGGGCTCACCCAGCCGTGGCTGGTGAAACTGCACGCGCAGCTCGGGCTGCCGCTGTGTAAAACCGAAGAAGAATTTTTTACGCGGATGCGAAGCAACGCGATGAAGGAGGCGTCATGA	MLATTDLWFRYQDEPVLKGLTLDFSHHAVTGLVGANGCGKSTLFMNLSGLLRPQSGAVLWQGKPLDYSKRGLLALRQQVATVFQDPDQQIFYTDIDSDIAFSLRNLGVAEEEIARRVDDALTLVDAQGFRHQPIQCLSHGQKKRVAIAGALVLQARYLLLDEPTAGLDPSGRAQMIDIIKRIADRGNHVAISSHDIDLIYEISDAVYVLRRGEVLAHGEPGEVFARSELMAQAGLTQPWLVKLHAQLGLPLCKTEEEFFTRMRSNAMKEAS	PGPT0004455_605	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-CBI_TRANSPORT_SYSTEM,PGPT0004455-cbiO-K02006	NA	NA
BMS020_01691	678	cbiQ	COG0619	Cobalt transport protein CbiQ	ATGACCGGGTTTGACCGACTCAGCTATCAGAGCCGCTGGTTTCACGTCGCGCCGGAGCGCAAGTTCCTGTTCTGGCTGCTGCTGATGGTGCTGGCTTTTACCCTGCCTCCGCTGGGGCAGGGTATCGAAATGGCGCTGATTGCCGCCTTAACCTGCTGGCTGCTGCGGGTCTCGCCGTGGCGCTGGTGCCGTTGGATGGCGCTGCCGTTTGGCTTCCTGCTGATCGGTGTGCTGACCATTCTGTTCAGCGTTAGCCGCAATCCGCAGGATCTGCTGGTGAGCCTGCCGCTGGGCAGCGTCTGGCTGGGCATCACATCGGAGGGGCTGACGACCGCCAATCAGACCTTCTGGCGCAGCCTGGCGGCGCTGGCGTCCACCTTCTGGCTGGTGCTGAATCTGCCGTTCCCGCAGCTTATTGTGCTGCTCAAGCGCGGACGGGTACCGCGGCTGCTGACCGAGCAAATCCTGCTGACCTGGCGTTTTATTTTTATTCTGTTAGACGAAGCGCTGGCGATTCACCGTGCGCAAACATTACGTTTTGGCTACCGTAGCGTGCCGAAGGGCTATCGTTCGCTGGCGATGCTGGTAGGACTGCTGTTTACCCGGGTGATGATTCGCTACCAGCAGATGAGCACCACGCTGGATATCAAACTGTATCAGGGTGATTTTCACCTTTAA	MTGFDRLSYQSRWFHVAPERKFLFWLLLMVLAFTLPPLGQGIEMALIAALTCWLLRVSPWRWCRWMALPFGFLLIGVLTILFSVSRNPQDLLVSLPLGSVWLGITSEGLTTANQTFWRSLAALASTFWLVLNLPFPQLIVLLKRGRVPRLLTEQILLTWRFIFILLDEALAIHRAQTLRFGYRSVPKGYRSLAMLVGLLFTRVMIRYQQMSTTLDIKLYQGDFHL	PGPT0004470_1321	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-CBI_TRANSPORT_SYSTEM,PGPT0004470-cbiQ-K02008	NA	NA
BMS020_01692	282	cbiN	COG1930	Cobalt transport protein CbiN	ATGAAAAAGACGCTGATATTGTTCGCCATGGTGGTGGCGCTGGTGATCCTGCCGTTCTTTGTCGATCACGGCGGCGAATTCGGCGGTTCGGACGGCGAGGCGGAGAGCCAGATTCAGGTGGTCGCGCCGCATTATGAGCCGTGGTTCCAGCCGCTGTATGAACCGGCGAGCGGAGAAATTGAGAGCCTGCTGTTTACGCTTCAGGGCTCCCTCGGCGCGGCGGTCATTTTCTATATTCTGGGCTACAGCAAAGGCAGACAGCGCCGTGATGACCGGGTTTGA	MKKTLILFAMVVALVILPFFVDHGGEFGGSDGEAESQIQVVAPHYEPWFQPLYEPASGEIESLLFTLQGSLGAAVIFYILGYSKGRQRRDDRV	PGPT0004465_1078	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-CBI_TRANSPORT_SYSTEM,PGPT0004465-cbiN-K02009	NA	NA
BMS020_01693	738	cbiM	COG0310	Cobalt transport protein CbiM	ATGAAACTTGAACAACAGCTAAAACAGCTGTCTTTCAGCGGGTTAGCTGCGGCGCTATTGCTGATAGTGGTTCCCGAAAAGGCTTTCGCGATGCACATCATGGAGGGGTTTTTACCGCCGATGTGGGCCCTGGCATGGTGGCTGCTGTTTTTACCCTGCCTGTGGTACGGGCTGGTGCGCCTGCGCCGCATTGTGCAGGAAGATAACAATCAGAAGGTGCTGCTGGCGCTGTGCGGGGCGTTTATTTTTGTCCTCTCGGCGCTGAAAATTCCTTCCGTAACCGGCAGCTGTTCCCACCCGACCGGCGTCGGCCTGGCGGTGATTCTCTTCGGGCCTGGCGTGGTGGCGATCCTTGGCGCCATCGTACTGCTGTTCCAGGCGCTGCTGCTGGCGCACGGCGGGCTGACGACGCTCGGCGCGAACGGGATGTCGATGGCGGTCATCGGGCCGGTGGTCGGCTATATGGTGTGGAAAATGGCCTGCCGCGCGGGCATTCGCCGCGACGTCGGGGTGTTTCTCTGCGCGATGCTGGCGGATCTGGTGACCTACTTTGTCACCTCCGTACAGCTCGGCGTGGCCTTCCCGGATCCCGCCGCCGGCGCGAGCGGATCGATCGTCAAGTTCATGGGGATCTTCTGCCTGACGCAGATCCCGATCGCCATTGCTGAAGGGCTGTTAACCGTCATGATCTACGACCAGTTGACCAAACGTCAGCTGATTACCGCACAGGGGCATTAA	MKLEQQLKQLSFSGLAAALLLIVVPEKAFAMHIMEGFLPPMWALAWWLLFLPCLWYGLVRLRRIVQEDNNQKVLLALCGAFIFVLSALKIPSVTGSCSHPTGVGLAVILFGPGVVAILGAIVLLFQALLLAHGGLTTLGANGMSMAVIGPVVGYMVWKMACRAGIRRDVGVFLCAMLADLVTYFVTSVQLGVAFPDPAAGASGSIVKFMGIFCLTQIPIAIAEGLLTVMIYDQLTKRQLITAQGH	PGPT0004460_576	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-CBI_TRANSPORT_SYSTEM,PGPT0004460-cbiM-K02007	NA	NA
BMS020_01694	714	cbiL	COG2243	Cobalt-precorrin-2 C(20)-methyltransferase	ATGAGCGGCAAACTATATGCCTTAAGTACCGGCCCTGGCGCCGCCGACCTGATCACCGTGCGCGCGGCGCGGGTGCTGGGCACGCTGGACATTCTCTACGCGCCCGCCGGACGTAAAGGCGGCGACAGCCTCGCGCTCTCCATCGTGCGCGAGTATATCGGCGAACGGACCGAAGTACGCTGCTGCCATTTCCCGATGAGCGCCGACAGCGCGGAAAAAGAGGCGGTGTGGGATGAGGTTGCCGCCGCGCTGGGTCAGGAAGTGGAAGCGGGCAAGCAGGTCGGCTTTATTACCCTCGGCGACGCCATGCTGTTCAGCACCTGGGTGTTCTTACTCCAGCGTATCGGCTGCCCGGAGTGGCTGGAGATTGTTCCCGGCGTCACCTCTTTTGCCGCCATTGCCGCGCGTTCAAAAACGCCGCTGGCCATGGAGCAGCAATCGCTGGCGGTGATCTCCTGCACCGCGCCGGAAACGGAAATCGAGCAGGCGCTGCGCCAGCATGAAAGCCTGGTGCTGATGAAAGTGTACGGGCGGTTTCCCCGCATCAAAGCGCTGCTGGCGAAAAACGGTCTGCTGGATGCCGCGCTGATGATGTCTGAAGCCACGCTGCCGGGCGAGCAGTGCTGGCGCCATCTCAATGACGTCAGCGACGACCAGCCGCTGCCCTATTTCTCGACCATTCTGGTCAATAAACAGTGGGAGTATGCAGAATGA	MSGKLYALSTGPGAADLITVRAARVLGTLDILYAPAGRKGGDSLALSIVREYIGERTEVRCCHFPMSADSAEKEAVWDEVAAALGQEVEAGKQVGFITLGDAMLFSTWVFLLQRIGCPEWLEIVPGVTSFAAIAARSKTPLAMEQQSLAVISCTAPETEIEQALRQHESLVLMKVYGRFPRIKALLAKNGLLDAALMMSEATLPGEQCWRHLNDVSDDQPLPYFSTILVNKQWEYAE	PGPT0004690_1103	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004690-cbiL-K03394	NA	NA
BMS020_01695	795	cbiK	COG4822	Sirohydrochlorin cobaltochelatase	ATGAAAAAAGCGCTTCTGGTGGTCAGTTTTGGCACCAGCTATCCCGACACCTGTGAAAAGAACATCGTCGCCTGCGAGCGCGAGCTGGCGGCCAGCTGTCCGGACCGCGACACGTTTCGCGCCTTCACCTCCGGGATGATTATCCGCAAGCTCAAACAGCGCGACGGTATCGAGATTGATACGCCACTGCAGGCATTGCAGAAGCTGGCCGAGCAGGGCTACCAGGATGTGGCGATTCAGTCGCTGCACATTATCAACGGCGATGAGTATGAAAAGATCGTCCGCGAAGTGCAAAGCCTGCGCCCGCTGTTCCTCCGCCTGACGCTGGGGGCGCCGCTGCTGAGCAGCCATAACGATTATGTCCAGCTGATGCAGGCGCTGCGCCAGCAGATGCCGCCGCTTGCCGTCGATGAAACGGTGGTCTTTATGGGCCACGGCGCCAGCCATCACGCTTTCGCCGCCTACGCCTGTCTGGATCATATGATGACGGCGAAGGGGTTTCCGGCGCGGGTCGGCGCGGTCGAGAGCTATCCGGAAGTCGATATTCTTATCGATAGCCTGCGCCAGCAGGGGGTGAAGGGCGTGCACCTGATGCCGCTGATGCTGGTGGCCGGCGATCACGCCATTAACGATATGGCCTCGGACGAAGAGGACTCCTGGAAAACGCTGTTCAACGCCGCCGGTATCACGGCGACGCCCTGGCTGAACGGGCTGGGAGAGAATCCGGCGGTGCGCGCAATGTTCGTCGCTCACCTGCAGCAGGCGCTGAGCCTGGCAATCGAGGAGGCGGCATGA	MKKALLVVSFGTSYPDTCEKNIVACERELAASCPDRDTFRAFTSGMIIRKLKQRDGIEIDTPLQALQKLAEQGYQDVAIQSLHIINGDEYEKIVREVQSLRPLFLRLTLGAPLLSSHNDYVQLMQALRQQMPPLAVDETVVFMGHGASHHAFAAYACLDHMMTAKGFPARVGAVESYPEVDILIDSLRQQGVKGVHLMPLMLVAGDHAINDMASDEEDSWKTLFNAAGITATPWLNGLGENPAVRAMFVAHLQQALSLAIEEAA	PGPT0004670_380	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004670-cbiK-K02190	NA	NA
BMS020_01696	786	cbiJ	COG2099	Cobalt-precorrin-6A reductase	GTGAGCCACGGCGAGGTGCTGGTGATGGGCGGAACCAGCGACGCGAGGGCGCTGTGTCAGCAGCTTGACGCGGCGCAGGTCCCCTACACCCTGTCGGTGGCGACGCCCACCGGTCAGCAGCTGGCGGGGGATATTCGCGGCCAGGTGCGCTGCGGGCGCCTCGAGCTGGAGGAGATGATCGCCTGGCTGAAGGCTAACCGGACCCGCTGGGTGATTGATGCTTCGCACCCCTACGCCGAAGCGGTAAGCCGCAATATCGTCCGGGCCTGTGAAACCGCCGGCGTGCTGCTGAGCCGCTATCAGCGCCCGGAGCAGCTGAGCGGCCTGACGCATCCGCTGCTCTATACCGTGGAGAGCATTGAACAAGCCTGCGAGGTGGCGCGGCGTTTCGGCCAGCGCGTGCTGCTCACCACGGGAAGTAAAGATCTGGCGCGCTGGCGGGCGGGATTAGGTGACAAAACGCTGCTGGCCCGGGTGTTGCCGGTCGCCGATGTCATCGCGCAATGCGCCGCGCTGGGGTTTGGCGTAGGCGAGATTTTCGCCCTGTGCGGGCCGTTCAGCGCCGCGTTCAACGCCGCTTTTTACCGCCAGTGCCGGGCCGACGTGGTGATCACCAAAGCCTCCGGCGCCGAAGGCGGCTATCAGGAAAAAGTACAACCCTGTCTGGATGCCGGTATCCCCTGCATCGTGATTACGCGCCCGGCGCCGCTGGTGACGGGTGAAGAGTTACTGGAAAGTCAGGCTGCCTTTGCCCGGCGCTTATCGCGCTGGCTGGCCGCTGCTTAA	MSHGEVLVMGGTSDARALCQQLDAAQVPYTLSVATPTGQQLAGDIRGQVRCGRLELEEMIAWLKANRTRWVIDASHPYAEAVSRNIVRACETAGVLLSRYQRPEQLSGLTHPLLYTVESIEQACEVARRFGQRVLLTTGSKDLARWRAGLGDKTLLARVLPVADVIAQCAALGFGVGEIFALCGPFSAAFNAAFYRQCRADVVITKASGAEGGYQEKVQPCLDAGIPCIVITRPAPLVTGEELLESQAAFARRLSRWLAAA	PGPT0004640_323	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004640-cbiJ-K05895	NA	NA
BMS020_01697	726	cbiH	COG1010	putative cobalt-factor III C(17)-methyltransferase	ATGTTAAGCGTAATCGGAATCGGCCCTGGCTCGCAGTCCATGATGACCATGGAGGCCATTGAAGCGCTGCAGGCGGCGGAAATCGTCGTTGGCTATAAGACCTACACGCACCTGGTGAAAGCCTTTACCGGCGATAAGCAGGTGATTAAAACCGGAATGTGCAAAGAGATTGAGCGCTGCCAGGCGGCGATTGAGCTGGCGCAGGCCGGACATAACGTGGCGCTGATCAGCAGCGGCGATGCCGGTATTTACGGCATGGCCGGACTGGTGCTCGAACTGGTCAGCAAGCAGAAGCTGGATGTGGAAGTCCGCCTGATCCCGGGGATGACCGCCAGCATTGCCGCCGCCTCGCTGCTGGGCGCGCCGCTGATGCACGACTTCTGCCATATCAGCCTCAGCGACCTGCTGACCCCGTGGCCGGTGATTGAAAAACGCATTGTCGCCGCCGGGGAAGCCGACTTCGTCATCTGTTTTTACAATCCGCGCAGCCGCGGCCGCGAGGGCCATCTGGCGCGCGCCTTTGAGCTGCTGTCGGCCAGTAAAAGCGCGCAGACCCCGGTGGGAGTCGTGAAATCCGCCGGACGTAAAAAACAGGAGAAATGGCTGACTACCCTGGGGGAGATGGATTTTGCACCGGTCGATATGACCAGCCTGGTGATCGTCGGCAACAAAGCGACGTATATCCAGGATGGCCTGATGATCACGCCGCGAGGCTACGTGCTGTGA	MLSVIGIGPGSQSMMTMEAIEALQAAEIVVGYKTYTHLVKAFTGDKQVIKTGMCKEIERCQAAIELAQAGHNVALISSGDAGIYGMAGLVLELVSKQKLDVEVRLIPGMTASIAAASLLGAPLMHDFCHISLSDLLTPWPVIEKRIVAAGEADFVICFYNPRSRGREGHLARAFELLSASKSAQTPVGVVKSAGRKKQEKWLTTLGEMDFAPVDMTSLVIVGNKATYIQDGLMITPRGYVL	PGPT0004635_956	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004635-cbiH-K05934	NA	NA
BMS020_01698	1056	cbiG	COG2073	Cobalt-precorrin-5A hydrolase	ATGAATACCGTAAAGCCTGAATCAATCGCGCTCTTCTGCCTGACCCCTGGCGGCGTTCGGCTGGCGAAACGGCTGGCGGCGATGCTGCCGTTAACCTGCTTTACCAGCGAGAAGCTGCTGGAAGAGGGTTTTCTTCCCTTTGAAAACGGTTTTGCCAGCGCCGCGCGCGAGGCCTTCAGCAGTTATTCGGCGCTGATTTTCATCGGCGCCACCGGGATCGCGGTACGCGTGCTGGCCCCGCTGGTCAATGATAAGTTCAGCGATCCGGCGGTGGTGGTGATCGACGAACGCGGCCAGCACGTCATTAGCCTGCTTTCCGGCCATGCGGGGGGCGCGAATGCCCTCAGCCGCTATCTGGCCGGGATGCTCGGCGCCGACCCGGTGATCACCACCGCCACCGACGTCAACGAGTTGGCGGCTCTGGATACGCTGGCATTCCAGCTTAATGCCCGGATGAGCGACTTCCGCGCGGCGGCGAAAACCGTCAACCAGATGCTGGTCAGCCATCAGCGCGTCGGTCTGTGGTGGGACGACGAGCTGGATGAAGACGTCCGCCACTGCGACCGGCGGGGGTTTATCACCGTGGCCGATCTGCACCAGCTTCCCGAGCTGGATGCGCTGGTCTGCGTCACGCTGCGCAACGAACTGCCGCCGATCGCCGTGCCGCACTGGAAACTGGTGCCGCAGCGGGTGGTCGCCGGAATTGGCTGCCGCCGCGATACGCCATTCCCGCTATTAGCGGCGCTGCTGGCGCGCCAGCTTGAGGCGCAGCGCCTGGATCCGCTGGCGCTGAAAGCTATCGGCAGCGTCACGTTGAAGCAGCACGAGCAGGGGCTGATTCAGCTGGCTTCCTGCTGTCGCGTACCGTTCGAAACCTTTCCCGCTGATGCCCTGCGCGAGCATGAGCATCACTTTCCCGCTTCATCGTTCGTCAGAAAAACCGTCGGCGTGGGGAGCGTATCCGGTCCGACGGCCTGGCTGCTGAGCCATGGGCAACTGTTAGGCGAAACCCTGCGCGAACAGGGCGTCACTATTACTTTGGGAGTTTCACACTGA	MNTVKPESIALFCLTPGGVRLAKRLAAMLPLTCFTSEKLLEEGFLPFENGFASAAREAFSSYSALIFIGATGIAVRVLAPLVNDKFSDPAVVVIDERGQHVISLLSGHAGGANALSRYLAGMLGADPVITTATDVNELAALDTLAFQLNARMSDFRAAAKTVNQMLVSHQRVGLWWDDELDEDVRHCDRRGFITVADLHQLPELDALVCVTLRNELPPIAVPHWKLVPQRVVAGIGCRRDTPFPLLAALLARQLEAQRLDPLALKAIGSVTLKQHEQGLIQLASCCRVPFETFPADALREHEHHFPASSFVRKTVGVGSVSGPTAWLLSHGQLLGETLREQGVTITLGVSH	PGPT0004630_321	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004630-cbiG-K02189	NA	NA
BMS020_01699	774	cbiF	COG2875	Cobalt-precorrin-4 C(11)-methyltransferase	ATGGCTGAGACATTTGACCCCCGTAGTGTGTGGTTCGTTGGCGCAGGGCCGGGCGACCGTGAGCTGATTACCCTCAAGGGCTACCGCTTGCTGCAGCAGGCCCAGGTGGTGATCTACGCCGGGTCGCTGATAAACACCGCGCTGCTGGAGTATTGTCCGCCCGGCGCCGAGTGTCACGACAGCGCCGAACTGCATCTGGAGCAAATTCTCGACCTGATGGAAGCCGGCGTTAAAGCCGGGAAAACGGTGGTGCGTTTACAGACCGGGGACGTGTCGCTGTACGGCTCGGTCCGCGAGCAGGGCGAAGAGCTGACCAAACGCGGTATCGACTGGCAGGTGGTGCCGGGCGTCAGCGCGTTTCTGGGCGCGGCGGCGGAGCTGGGCGTCGAGTACACCGTGCCGGAAGTCTCCCAGAGCCTGATCATCACCCGCCTTGAAGGGCGCACGCCGGTGCCGGCGCGCGAGCAGCTTGAATCATTTGCCAGCCACCAGACTTCAATGGCGATTTACCTTTCCGTGCAGCGCATTCACCGGGTAGCGGAGCGCCTGATGGAAGGCGGCTATCCGGCAACCACGCCGGTGGCGGTGATCTATAAAGCGACCTGGCCGGAAAGCCAGACCGTACGCGGTACGCTGGCGGATATCGGCGACAAGGTACGCGAGGCGGGGATCCGTAAAACGGCGCTCATTCTGGTCGGGAATTTCCTGGGCGCTGAGTATCACTACTCAAAACTCTACGCGGCGGACTTTAGCCATGAATACCGTAAAGCCTGA	MAETFDPRSVWFVGAGPGDRELITLKGYRLLQQAQVVIYAGSLINTALLEYCPPGAECHDSAELHLEQILDLMEAGVKAGKTVVRLQTGDVSLYGSVREQGEELTKRGIDWQVVPGVSAFLGAAAELGVEYTVPEVSQSLIITRLEGRTPVPAREQLESFASHQTSMAIYLSVQRIHRVAERLMEGGYPATTPVAVIYKATWPESQTVRGTLADIGDKVREAGIRKTALILVGNFLGAEYHYSKLYAADFSHEYRKA	PGPT0004625_917	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004625-cbiF-K05936	NA	NA
BMS020_01700	570	cbiT	COG2242	Cobalt-precorrin-6B C(15)-methyltransferase (decarboxylating)	ATGAAAGATGAGCTTTTTCTGCGCGGCGAGAAGGTGCCGATGACCAAAGAGGCGGTTCGCGCGCTGGCGCTGGCCAAACTTGAACTGCACCGGGCAAGCCACCTGATTGATATCGGCGCCGGTACCGGCAGCGTGTCGATTGAGGCGGCGCTGCAGTATCCCTCTTTGCAGGTAACCGCCATCGAACGCAATCCCGCAGCCCTGCAGCTGCTGGACGAAAACCGCCAGCATTTCACCTGCGGCAATATTGAGATCCTGCCCGGCGAAGCGCCGATGGTGATGACCGAGCGGGCCGACGCCATTTTTATGGGCGGCAGCGGCGGCCGTCTCGACGAACTGATTGACTGGTCGTGGCAGCAGCTCTATCCCGGCGGTCGCCTGGTGATGACCTTTATCCTGCAGGAGAACCTGAACGCCGCTCTCGACTATCTGCGGCTGAAGGGAATCGAACAGGTTGATTGCCTGCAGCTGAACGTCTCATCGCTGACCGCGCTGGGCAGCGGCCACTATTTCAAACCGAATAATCCCGTTTTTGTTATCGCCTGTCAGAAGGAAGAAAACCATGGCTGA	MKDELFLRGEKVPMTKEAVRALALAKLELHRASHLIDIGAGTGSVSIEAALQYPSLQVTAIERNPAALQLLDENRQHFTCGNIEILPGEAPMVMTERADAIFMGGSGGRLDELIDWSWQQLYPGGRLVMTFILQENLNAALDYLRLKGIEQVDCLQLNVSSLTALGSGHYFKPNNPVFVIACQKEENHG	PGPT0009275_381	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009275-cbiT-K02191	NA	NA
BMS020_01701	606	cbiE	COG2241	Cobalt-precorrin-7 C(5)-methyltransferase	ATGTTAACGGTTGTCGGCATGGGCCCGTCAGGCCTGCATCTGATGACGCCGGCGGCGCGGGACGCAGTCGCCAGCGCGGACGCGCTGGTGGGCGGCAAGCGGCATTTGCAGCAGTTCCCTGAGTTTGACGGCGAACGGTTTGCGCTGGGCGCCAATATCGCCGAACTGCTGGAATGGCTCGGCGAGCGTGACGTGCAGAAGGTGGTGGTGCTGGCCTCCGGCGACCCGCTGTTTTACGGCATCGGTACGCGGCTGATCGCCCACTTTGGCATCGAGCGCGTGCGCATTATCCCCGGCATCAGCGCGGTGCAGTATCTCTGCGCGAAGGCCGGTATCGATATGAACGATATCTGGCTGACCAGCAGCCACGGGCGGGACGTCTGTTTTGATGAGCTGGCGCGCCAGCGCAAGGTGGCGATGGTGACCGACGGGCGCTGCGGGCCGCGGGAAATCGCCGCCCAGCTGGCGGCGCGGGGTAAAGGGTATCGCTGGATGGTGATTGGCGAAAATCTGGCGATGGATAACGAGCGGATCCGCTGGCTACCGGTCAGTGAGGTCGACGGCGAATATGAGATGAACGCGGTGGTGATCCTCGATGAAAGATGA	MLTVVGMGPSGLHLMTPAARDAVASADALVGGKRHLQQFPEFDGERFALGANIAELLEWLGERDVQKVVVLASGDPLFYGIGTRLIAHFGIERVRIIPGISAVQYLCAKAGIDMNDIWLTSSHGRDVCFDELARQRKVAMVTDGRCGPREIAAQLAARGKGYRWMVIGENLAMDNERIRWLPVSEVDGEYEMNAVVILDER	PGPT0004620_360	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004620-cbiE-K03399	NA	NA
BMS020_01702	1140	cbiD	COG1903	Cobalt-precorrin-5B C(1)-methyltransferase	ATGAGCGAGCAATCCTTCGACGCCCCGGTGTGGCACAACGGCAAGGCGCTGCGTAAAGGCTATACCACCGGATCCTGCGCCACGGCGGCGGCAAAGGTCGCGGCGCTGATGGTGATGCGCCAGCATCTGATTCATCAGGTCTCCATTGTCACCCCTTCCGGCGTCACCCTGTGCCTTAACGTCGAATCACCGCACGTCGAAGGGCAGCAGGCGATCGCCGCGATTCGTAAAGACGGCGGCGATGACGTTGACGCCACCCACGGGATGCTGATTTTCGCCCGCGTGACGCTCGATGATTCCGGCGAGATTACCCTGCGCGGCGGCGAAGGCGTCGGCACGGTCACCCGCAAAGGGATCGGCCTGCCCATCGGCAGCCCGGCGATTAACCGCACCCCGCGCCACACCATTGAGTCGGCGGTGCGCGAAGCGATAGGCCCGTCGCGCGGGGCGACGGTAGAGATTTTCGCCCCGGAAGGCGAGGCGCGGGCGCAGAAAACCTATAACTCGCGGCTCGGGATCCTGGGCGGCATCTCGATTATCGGCACCACCGGTATCGTGACGCCGATGTCAGAGGAGAGCTGGAAGCGTTCGCTGTCGCTGGAGCTGGAAATTAAGCGCGCGGCGGGGCTGGAGCGGGTGGTGCTGGTGCCGGGCAACCACGGCGAGCGCTTCGTACGCGAGCAGATGGGCATCGACTCGCAGGTGGTGGTCACCATGAGCAACTTCGTCGGCTACATGATTGAAGAGGCCGTGCGCCTCGGGTTCCGTCAGATTGTGCTGATTGGCCATCCCGGCAAGCTGATTAAAGTCGCCGCCGGGATCTTCCACACCCACAGCCATATCGCCGATGCGCGGATGGAAACCCTGGTCGCGCATCTGGCGCTGCTGGGCGCGCCGCTGGCGCTGCTGCAGCTGGTAAGCGAATGCGATACCACCGAAGCGGCGATGGAGCACATCGACGCGTACGGTTTTCAGCATATCTATCACCATCTTGCCGAACGCATCTGCCTGCGGGTGATGCAGATGCTGCGCTTTACCAAAACGCCGCCCGTCTGCGACGCCATCATGTTCTCCTTTGATAACAAGGTCCTCGGCAGTAATCGCCCGATCGCCGAGATTGCGCGGGAGATGTCATGTTAA	MSEQSFDAPVWHNGKALRKGYTTGSCATAAAKVAALMVMRQHLIHQVSIVTPSGVTLCLNVESPHVEGQQAIAAIRKDGGDDVDATHGMLIFARVTLDDSGEITLRGGEGVGTVTRKGIGLPIGSPAINRTPRHTIESAVREAIGPSRGATVEIFAPEGEARAQKTYNSRLGILGGISIIGTTGIVTPMSEESWKRSLSLELEIKRAAGLERVVLVPGNHGERFVREQMGIDSQVVVTMSNFVGYMIEEAVRLGFRQIVLIGHPGKLIKVAAGIFHTHSHIADARMETLVAHLALLGAPLALLQLVSECDTTEAAMEHIDAYGFQHIYHHLAERICLRVMQMLRFTKTPPVCDAIMFSFDNKVLGSNRPIAEIAREMSC	PGPT0004615_398	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004615-cbiD-K02188	NA	NA
BMS020_01703	633	cbiC	COG2082	Cobalt-precorrin-8 methylmutase	ATGCACTATATCCAGCAACCGCAGGCGATTGAGGCGAAAAGCTTCGACATGATTGGCGACATTATTGCGCAGACCCGCCCGGACTACCGCTTTGCCAGCCCGCTACACGAAGCCATTATCAAGCGGGTGATCCACACCACCGCTGATTTTGACTGGCTGGATATTCTGTGGTTTTCGCCCGACGTGCTTCCTCGCTTAAGCGCCGCCCTGAGCCAGCCCTGCACGCTTTATACCGATACCACCATGGCCCTGTCCGGGATCAATAAAACTCTGCTGGCGAAATTCGGCGGCGAGTGCCGCTGCTATATCAGCGATCCGCGCGTGGTGGCGGAGGCCAAAGCGCAGGGGATGACCCGCTCGATGGCGGCGGTCGATATTGCGGTTGCCGAAGAGGGCGAGAAGGTGTTTGTTTTCGGCAATGCGCCCACCGCGCTGTTTCGTCTGCTGGAGCATGATGTCGCGGTCAACGGCGTGATTGGCGTGCCGGTCGGCTTCGTCGGCGCGGCGGAGTCGAAAGACGCCCTGACGCAGAGCGGCCTGCCGGGCATTGCCGCGCTGGGTCGTAAAGGCGGCAGCAACGTCGCCGCCGCTATCGTCAACGCCATTCTGTACCACTTACAGGGGGCGAGATGA	MHYIQQPQAIEAKSFDMIGDIIAQTRPDYRFASPLHEAIIKRVIHTTADFDWLDILWFSPDVLPRLSAALSQPCTLYTDTTMALSGINKTLLAKFGGECRCYISDPRVVAEAKAQGMTRSMAAVDIAVAEEGEKVFVFGNAPTALFRLLEHDVAVNGVIGVPVGFVGAAESKDALTQSGLPGIAALGRKGGSNVAAAIVNAILYHLQGAR	PGPT0004610_923	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004610-cbiC-K06042	NA	NA
BMS020_01704	960	cobD_1	COG1270	Cobalamin biosynthesis protein CobD	ATGACGCTGCTGGCATGGGGCGTTGCCTGGCTCCTCGATTTTATCATCGGCGATCCGCAGAGCTGGCCGCATCCGGTGCGCTGGATTGGCAGCCTGATCGCCGCCGTTCAGCGCGGCGTGCGCCGCTATTGCCGCAGCGATGTCGCCCTGCGCGTCGGCGGCGGGGTGATGTGGCTGGTGGTGGTCGGGCTAACGTGGAGCATCTGCTGGGGCGTGCTGACGCTGGCGCAGAGGATTCATCCGTGGCTTGGCTGGCTGGCTGAGGTCTGGATGATTTTCACCGTGCTGGCCGGACGCTGCCTGGCGCAGTCGGCGCGGGACGTCGAGCGACCGCTGCGCGCGGGGGATCTGGCGGAAAGCCGCGTCAAACTCTCATGGATTGTCGGCCGCGACACGACGCAGCTTGCGCCGCAGCAGATTAATCGCGCGGTTGTTGAGACGGTGGCGGAAAACACCGTTGACGGGATTATCGCGCCGCTCTTCTTCCTGCTGCTCGGCGGCGCGCCGCTGGCGATGGCCTATAAAGCGGTCAACACCCTGGATTCGATGGTCGGCTATAAGCACGAAAAATACCGGGCCATCGGCATGGTCAGCGCCCGCCTCGATGATGTCGCCAACTTTATCCCCGCTCGCCTGAGCTGGCTGCTTATCAGCCTCGCCGCTTTCCTCTGCGGTGAAGCGGGCGGCCGCGCGCTGCGCATCGGCTGGCGCGACCGCTACAACCACAGCAGCCCGAACTGCGGATGGTCGGAGGCCGCCGTCGCCGGGGCGCTCGGCATCCGGCTTGGCGGCCCTAACGATTACTTTGGTCAGCGCGTGGAGAAGCCGTGGCTTGGCGAGGCGACGCGCGACGTTTCCGTAGACGATATTTCCCGAACGATTCGACTGATGTGGGTGTCTTCGACCCTGGCGCTGGCGCTGTTTATGGCGATCCGGTTCTGGCTGGTCGGCGCAGCCTGA	MTLLAWGVAWLLDFIIGDPQSWPHPVRWIGSLIAAVQRGVRRYCRSDVALRVGGGVMWLVVVGLTWSICWGVLTLAQRIHPWLGWLAEVWMIFTVLAGRCLAQSARDVERPLRAGDLAESRVKLSWIVGRDTTQLAPQQINRAVVETVAENTVDGIIAPLFFLLLGGAPLAMAYKAVNTLDSMVGYKHEKYRAIGMVSARLDDVANFIPARLSWLLISLAAFLCGEAGGRALRIGWRDRYNHSSPNCGWSEAAVAGALGIRLGGPNDYFGQRVEKPWLGEATRDVSVDDISRTIRLMWVSSTLALALFMAIRFWLVGAA	PGPT0004660_1490	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
BMS020_01705	1380	cbiA	COG1797	Cobyrinate a,c-diamide synthase	ATGGCAGCCAGGCAGCACGCATTTATTCTCGCAGGAACCGGCAGCGGTTGTGGTAAAACTACGGTCACGCTTGGCCTGCTCAGCCTGTTGAAGCAGCGCGGCATGCGGGTTCAGCCCTGCAAAGTCGGCCCGGACTACCTCGACACCGGCTGGCACACCGCCGTCAGCGGCGTCGCTTCCCGCAACCTCGACAGCTTTATGCTCCCGGAGCCGGTGCTTAACGCGCTGTTTTGCGAACGGATGCAGCAGGCGGATATCGCGGTCATTGAGGGCGTGATGGGGCTGTATGACGGCTTCGGTACCGACCCTGGCTACTGCAGCACCGCCGCGATGGCTAAACAGCTCGGCTGTCCGGTCATTTTGCTGGTAGATGGCAAAGCGGTTTCCACCTCCATCGCCGCCACGGTGATGGGATTTCAACACTTCGACCCCAGCCTCAACATTGCCGGCGTTATCGTCAACCGCGTCAACAGCGAATCCCATTATCAGCTTCTCAAAGGCGCCATTGAACGCTATTGCGGGCTGCCGGTGCTCGGCTACGTACCGCGAATGGAAGGGGTGGCGTTACCCGAACGCCATCTGGGGCTGGTTACCGCTCGCGAGTCGCTGGTTAACCAGCAGCCGTGGCGCGATTTTGCCCACACGCTGGCGCGAACCCTGGATATTGAACGGCTTCTTACCCTCAGCCAGCTCTCCATTCTGCCCACCGGGGAGTGGCCGGCGCTGCCGTCGCCCGACGCCGGCGCGGGCCTGACGCTGGCGCTGGCCGACGACGAGGCCTTCAACTTTTACTACCCGGATAACCTCTCGCTGCTTGAACGCTGCGGAGTGAATATCGTGCGCTTCAGCCCGCTGCGCGATAGCGAGCTGCCACCGTGCCAGATGATTTGGCTCGGCGGCGGCTATCCGGAAATTCATGCTGCCGCGCTGGCGGCCAATACGCCGATGCTGGCGCAGCTGCGGGAGGCGCACCGGCGCGGGGTGGCGATTTACGCTGAATGCGGCGGTCTGATGTATCTCGGCAGCTCCCTGGAAGACGCCAGCGGTGACATCTATTCGATGGCCAATCTGATTCCCGGCCACAGCAAGATGGGCAAACGGCTTACCCGCTTTGGCTACTGCGAGGCGCGGGCGATGCGGCAAACGCTGCTGGCGGCGCCCGGCGAAACCCTGCGCGGGCATGAATTTCACTACTCGGATTTTACTCCCGAGTCCCCGGCGGTTCTGGCCTGCCGCAAGGTCCGCGACGGTATGACCCTTCAGCAGTGGTCCGGCGGCTGGCAGGTGGGCAACACGTTCGCCAGCTATCTGCACCTGCACTTTGCGCAGCGCCCCACCATGCTCAACCACTGGCTGGCTGCGGCAAGGAGCGCGCTATGA	MAARQHAFILAGTGSGCGKTTVTLGLLSLLKQRGMRVQPCKVGPDYLDTGWHTAVSGVASRNLDSFMLPEPVLNALFCERMQQADIAVIEGVMGLYDGFGTDPGYCSTAAMAKQLGCPVILLVDGKAVSTSIAATVMGFQHFDPSLNIAGVIVNRVNSESHYQLLKGAIERYCGLPVLGYVPRMEGVALPERHLGLVTARESLVNQQPWRDFAHTLARTLDIERLLTLSQLSILPTGEWPALPSPDAGAGLTLALADDEAFNFYYPDNLSLLERCGVNIVRFSPLRDSELPPCQMIWLGGGYPEIHAAALAANTPMLAQLREAHRRGVAIYAECGGLMYLGSSLEDASGDIYSMANLIPGHSKMGKRLTRFGYCEARAMRQTLLAAPGETLRGHEFHYSDFTPESPAVLACRKVRDGMTLQQWSGGWQVGNTFASYLHLHFAQRPTMLNHWLAAARSAL	PGPT0004605_945	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004605-cbiA-K02224	NA	NA
BMS020_01707	912	rhaS_5		HTH-type transcriptional activator RhaS	ATGATTTCTGCGAGCACACTGAACTCAGAACTCATTAATAAAATCGCACAGGATTTTGCGCAGGCCACCAGTCTGGCGGTGGTGGTCGTCAATATTCATGGTGATGAAATATCTGAACTGTTTAACTTCACCCCTTTTTGCCAGCTGATGCGCCAGCATCCCCAGCACAGCACCCGCTGTCGAATGAGCGACCGCTGCGGCGGGCTTGAGGCGTCTAAAACCGATCAGCTCTGTATCTACCGCTGCCACGCCGGGTTAACCGATTTTTCCATTCCTCTGGTCATTGCCGGGCACCTTGTGGGCTTTGTGCTTTGCGGCCAGGTGCGCTTAAGCAACGATGTTGAACTGGTCGATATCCTCAACGTGGATGACCGCTGGCAGGCCGACCCTGAGCTGCTTAAAGCGTTTCGCGACGTGCCGGAAATGGACTACGCCAGAGTGATTGCTTCTGCTGATTTACTGAAGCTGATCGTCGAAAACTGCCTGAAAAAACAGCTCAACTTTGTGGTGATTAAAGATAATCCCCAGCAGCCGGAACCTGCGCGCGCCAGCCGGGTCGCCAGCCCTCATGACAGCAAAATGAAGAAGGCGCTGCGCTACATTGACGCCCATTTATCCGACGAGCTTCGCCTGGAAGACGTCGCCGCTCACGTTTATCTCAGCCCCTATTACTTCAGTAAGCTGTTCAAAAAATATCAGGGTATCGGCTTTAATGCCTGGGTGAACCATCAGCGGATGGTGAGCGCCAAAGAGCTGCTATGCCACAGCGACTGGAGCATCGCCAGCATTGCGCGGAATTTAGGATTTTCGCAAACCAGCTATTTTTGCAAAGTTTTTCGCCAGGCCTATCAGGTGACTCCGCAGGCCTATCGTCAGCAAATTAACGCCAGATCACAAACTGAGTCAGTTTAA	MISASTLNSELINKIAQDFAQATSLAVVVVNIHGDEISELFNFTPFCQLMRQHPQHSTRCRMSDRCGGLEASKTDQLCIYRCHAGLTDFSIPLVIAGHLVGFVLCGQVRLSNDVELVDILNVDDRWQADPELLKAFRDVPEMDYARVIASADLLKLIVENCLKKQLNFVVIKDNPQQPEPARASRVASPHDSKMKKALRYIDAHLSDELRLEDVAAHVYLSPYYFSKLFKKYQGIGFNAWVNHQRMVSAKELLCHSDWSIASIARNLGFSQTSYFCKVFRQAYQVTPQAYRQQINARSQTESV	PGPT0001373_230	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0001373-pocR-NA	NA	NA
BMS020_01709	801	pduF	COG0580	Propanediol diffusion facilitator	ATGAATGATTCGTTAAAAGCGCAATGTACCGCCGAGTTTCTGGGCACCGGGCTGTTTTTGTTTTTCGGCATCGGCTGCCTGAGCGCGTTAAAGGTGGCGGGCGCCAGCCTCGGACTGTGGGAGATATGCATTATCTGGGGTCTGGGGATCTCGCTTGCCGTCTATCTGACGTCGGGAATATCCGGCGGGCATCTCAACCCGGCGGTGACCGTCGCGTTATGGCTGTTTGCCTGCTTTCCCGGCCGAAAAGTTTTCCCCTATATCGTTTCACAGGTTGCCGGCGCCTTTGGCGGCGCGGTGCTGGCCTATGTGCTGTACAGCACGATGTTTACCGAGTTTGAATCCGCTCATCATATCGCGCGCGGCAGCGTAGAGAGCCTGCAGCTGGCGAGTATTTTCAGCACCTACCCGGCGGCATCGCTGAGCATCTGGCATGCGGCGCTGGTCGAAGTGGTGATCACCTCCATGCTGATGGGGATGATTATGGCGCTGACCGACGACGGCAACGGCGTACCGAAAGGGCCGCTGGCTCCGCTGCTGATCGGCCTGCTGGTGGCGGTCATTGGCGCGTCAACCGGGCCGCTGACCGGCTTTGCGATGAATCCGGCGCGTGATTTTGGGCCGAAGCTGTTTACGTGGATGGCGGGTTGGGGCGATATCGCGATGACCGGCGGAAGGGATATTCCGTACTTTATTGTGCCGATTATTGCGCCACTGATCGGCGCCTGTCTCGGCGCGGCCATCTATCGTTATCTGATTGGTAATAACTTACCGTGTAATACCTGTAAATTAGAGGATTAA	MNDSLKAQCTAEFLGTGLFLFFGIGCLSALKVAGASLGLWEICIIWGLGISLAVYLTSGISGGHLNPAVTVALWLFACFPGRKVFPYIVSQVAGAFGGAVLAYVLYSTMFTEFESAHHIARGSVESLQLASIFSTYPAASLSIWHAALVEVVITSMLMGMIMALTDDGNGVPKGPLAPLLIGLLVAVIGASTGPLTGFAMNPARDFGPKLFTWMAGWGDIAMTGGRDIPYFIVPIIAPLIGACLGAAIYRYLIGNNLPCNTCKLED	PGPT0004760_1067	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLYCEROL_UPTAKE,PGPT0004760-glpF|pduF-K02440	NA	NA
BMS020_01710	285	pduA_1	COG4577	Propanediol utilization protein PduA	ATGCAACAAGAAGCACTAGGAATGGTAGAAACCAAAGGCTTAACCGCAGCCATAGAGGCCGCTGATGCAATGGTTAAGTCAGCCAATGTGATGTTAGTGGGCTATGAAAAGATTGGCTCCGGGCTGGTAACCGTCATCGTGCGCGGCGACGTTGGCGCAGTAAAAGCGGCCACCGATGCGGGCGCCGCCGCCGCACGTAACGTGGGTGAAGTGAAAGCCGTACACGTCATCCCACGCCCTCACACCGATGTAGAAAAAATCTTACCGAAGGGAATTAGCCAATGA	MQQEALGMVETKGLTAAIEAADAMVKSANVMLVGYEKIGSGLVTVIVRGDVGAVKAATDAGAAAARNVGEVKAVHVIPRPHTDVEKILPKGISQ	PGPT0019434_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019434-pduA-NA	NA	NA
BMS020_01711	813	pduB	COG4816	Propanediol utilization protein PduB	ATGAGCAGCAATGAGCTGGTTGAACAGATCATGGCTCAGGTGATTGCCCGCGTGGCAACGCCGGAACAGCAGGCCATCCCTACTGAAAACCATCCAATACGAGAGACGGCTATGGCAGAAAAAAGCTGCAGTTTAACGGAATTTGTCGGGACCGCTATTGGCGACACCCTGGGTCTGGTTATCGCCAACGTCGATACCGCCCTGCTGGACGCGATGAAGCTTGAAAAGCGATATCGCTCCATCGGCATTCTCGGCGCCCGTACCGGCGCTGGCCCGCACATTATGGCGGCGGACGAAGCGGTGAAAGCCACCAACACCGAAGTGGTCAGCATTGAGCTGCCGCGCGATACCAAAGGCGGCGCGGGCCACGGTTCGCTGATTATTTTAGGCGGCAACGACGTGTCCGACGTTAAGCGCGGGATTGAAGTGGCGCTGAAAGAGCTCGACCGCACCTTCGGCGATGTTTACGGCAATGAAGCCGGACATATCGAGCTGCAGTACACCGCCCGCGCCAGCTACGCCCTGGAAAAAGCCTTCGGCGCGCCGATTGGCCGCGCCTGCGGCATTATCGTCGGCGCACCGGCCTCCGTGGGCGTGCTGATGGCCGATACCGCCCTGAAGTCAGCCAACGTGGAAGTCGTGGCGTATAGCTCTCCGGCGCACGGCACCAGCTTCAGTAACGAAGCCATCCTGGTGATTTCCGGCGACTCCGGCGCGGTCCGCCAGGCAGTCACCTCCGCGCGCGAAATTGGTAAAACCGTCCTTGCGACCCTCGGTTCTGAACCGAAAAACGATCGCCCGTCCTACATCTGA	MSSNELVEQIMAQVIARVATPEQQAIPTENHPIRETAMAEKSCSLTEFVGTAIGDTLGLVIANVDTALLDAMKLEKRYRSIGILGARTGAGPHIMAADEAVKATNTEVVSIELPRDTKGGAGHGSLIILGGNDVSDVKRGIEVALKELDRTFGDVYGNEAGHIELQYTARASYALEKAFGAPIGRACGIIVGAPASVGVLMADTALKSANVEVVAYSSPAHGTSFSNEAILVISGDSGAVRQAVTSAREIGKTVLATLGSEPKNDRPSYI	PGPT0019436_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019436-pduB-NA	NA	NA
BMS020_01712	1665	pduC	COG4909	Propanediol dehydratase large subunit	ATGAGATCGAAAAGATTTGAAGCACTGGCGAAACGCCCTGTGAATCAGGACGGCTTCGTTAAGGAGTGGATCGAAGAAGGCTTTATCGCGATGGAAAGCCCGAACGATCCGAAACCGTCGATAAAAATCGTTAACGGCGCGGTGACCGAGCTGGACGGGAAACCGGTGAGCGATTTTGACCTGATCGACCACTTTATCGCCCGCTACGGTATCAACCTGAATCGCGCCGAAGAAGTGATGGCGATGGATTCGGTTAAGCTGGCCAACATGCTGTGCGATCCGAACGTTAAACGCAGTGAAATCGTCCCGCTGACCACCGCGATGACGCCGGCAAAAATTGTCGAAGTGGTTTCGCATATGAACGTCGTTGAGATGATGATGGCGATGCAGAAAATGCGCGCCCGCCGCACCCCATCCCAGCAGGCGCACGTCACCAACGTCAAAGATAACCCGGTACAGATTGCCGCCGACGCCGCCGAAGGCGCATGGCGCGGATTTGACGAACAGGAAACCACCGTTGCGGTAGCGCGCTACGCGCCGTTCAACGCCATCGCGCTGCTGGTCGGCTCGCAGGTAGGCCGTCCGGGCGTACTGACGCAGTGCTCGCTGGAAGAAGCCACCGAGCTGAAGCTCGGCATGCTGGGCCACACCTGCTACGCCGAAACCATCTCCGTCTACGGTACCGAACCGGTCTTTACCGACGGCGACGACACGCCGTGGTCGAAGGGTTTCTTAGCCTCCTCCTACGCCTCTCGCGGTCTGAAAATGCGCTTCACCTCCGGCTCCGGCTCCGAAGTGCAGATGGGCTACGCCGAAGGCAAATCCATGCTTTACCTGGAAGCGCGCTGCATCTACATCACCAAAGCCGCGGGCGTACAGGGGCTGCAAAACGGTTCCGTTAGCTGCATCGGCGTGCCGTCTGCGGTGCCTTCCGGCATTCGCGCGGTACTGGCGGAAAACCTGATCTGTTCGTCGCTGGATCTGGAGTGCGCCTCCAGTAACGACCAGACCTTCACCCACTCCGATATGCGTCGTACCGCGCGCCTGCTGATGCAGTTTCTGCCGGGGACCGACTTTATCTCTTCCGGTTATTCCGCGGTGCCGAACTACGACAACATGTTCGCCGGTTCCAACGAAGATGCCGAAGACTTTGACGACTACAACGTCATCCAGCGCGACCTGAAGGTGGACGGCGGTCTGCGTCCGGTTCGCGAAGAAGATGTTATTGCCATCCGTAATAAGGCTGCCCGCGCGCTGCAGGCCGTTTTTGCCGGAATGGGGCTGCCGCCGATTACCGATGAAGAAGTGGAAGCCGCGACCTACGCCCACGGTTCGAAAGATATGCCGGAGCGCAACATCGTCGAAGACATCAAGTTCGCCCAGGAAATCATCAATAAAAACCGCAACGGCCTGGAAGTAGTGAAAGCGCTGGCGCAGGGCGGGTTCACCGACGTGGCCCAGGACATGCTCAACATCCAGAAAGCCAAGCTGACCGGAGACTATCTGCATACCTCCGCAATTATCGTCGGCGATGGGCAGGTGCTGTCCGCCGTCAACGATGTTAACGACTATGCCGGTCCGGCAACGGGCTATCGCCTGCAGGGCGAACGCTGGGAAGAGATTAAAAACATCCCTGGCGCTCTTGATCCCAACGAGATTGATTAA	MRSKRFEALAKRPVNQDGFVKEWIEEGFIAMESPNDPKPSIKIVNGAVTELDGKPVSDFDLIDHFIARYGINLNRAEEVMAMDSVKLANMLCDPNVKRSEIVPLTTAMTPAKIVEVVSHMNVVEMMMAMQKMRARRTPSQQAHVTNVKDNPVQIAADAAEGAWRGFDEQETTVAVARYAPFNAIALLVGSQVGRPGVLTQCSLEEATELKLGMLGHTCYAETISVYGTEPVFTDGDDTPWSKGFLASSYASRGLKMRFTSGSGSEVQMGYAEGKSMLYLEARCIYITKAAGVQGLQNGSVSCIGVPSAVPSGIRAVLAENLICSSLDLECASSNDQTFTHSDMRRTARLLMQFLPGTDFISSGYSAVPNYDNMFAGSNEDAEDFDDYNVIQRDLKVDGGLRPVREEDVIAIRNKAARALQAVFAGMGLPPITDEEVEAATYAHGSKDMPERNIVEDIKFAQEIINKNRNGLEVVKALAQGGFTDVAQDMLNIQKAKLTGDYLHTSAIIVGDGQVLSAVNDVNDYAGPATGYRLQGERWEEIKNIPGALDPNEID	PGPT0019435_104	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019435-pduC-K01699	NA	NA
BMS020_01713	675	pduD_1		Propanediol dehydratase medium subunit	ATGGAAATTAATGAAAAATTGCTGCGCCAGATAATTGAAGACGTGCTCAGCGAGATGAAGGGCAGCGATAAACCCGTCTCGTTTACTGCGCCAGCGTCCTCTGCGGCGCCCCAGGCCACGCCCCCCGCCGGCGACGGCTTCCTGACGGAAGTGGGCGAAGCGCGTCAGGGAACCCAGCAGGACGAAGTGATTATCGCCGTCGGCCCGGCTTTCGGCCTGGCGCAGACCGTCAATATCGTCGGCATACCGCATAAGAGCATTTTGCGCGAAGTCATTGCCGGTATTGAAGAAGAAGGCATTAAGGCGCGCGTGATTCGCTGCTTTAAATCCTCCGACGTGGCCTTCGTCGCCGTTGAAGGCAATCGCCTGAGCGGTTCCGGCATCTCTATCGGCATCCAGTCAAAAGGCACCACGGTGATCCACCAGCAGGGGCTGCCGCCGCTCTCTAACCTGGAGCTGTTCCCCCAGGCGCCGCTGCTGACCCTGGAAACCTATCGCCAGATTGGTAAAAACGCCGCCCGCTATGCGAAACGCGAATCGCCGCAGCCGGTCCCGACGCTGAACGACCAGATGGCGCGCCCGAAGTACCAGGCGAAATCGGCCATTTTGCACATTAAAGAGACCAAGTACGTGGTGACGGGCAAAAACCCGCAGGAACTGCGCGTGGCGCTTTGA	MEINEKLLRQIIEDVLSEMKGSDKPVSFTAPASSAAPQATPPAGDGFLTEVGEARQGTQQDEVIIAVGPAFGLAQTVNIVGIPHKSILREVIAGIEEEGIKARVIRCFKSSDVAFVAVEGNRLSGSGISIGIQSKGTTVIHQQGLPPLSNLELFPQAPLLTLETYRQIGKNAARYAKRESPQPVPTLNDQMARPKYQAKSAILHIKETKYVVTGKNPQELRVAL	PGPT0019440_64	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019440-pduD-K13919	NA	NA
BMS020_01714	522	pduE_1	COG4910	Propanediol dehydratase small subunit	ATGAATACCGACGCAATTGAATCGATGGTTCGCGACGTATTGAGCCGCATGAACAGCCTGCAGGGCGAGGCGCCGACGGCGGCTCCGGCGGCAGGCGGCGCGTCCCGTAGCGCAAAGGTCAGCGACTACCCGTTGGCGAACAAGCACCCGGAATGGGTGAAAACCGCCACCAATAAAACGCTGGACGACTTTACGCTGGAAAACGTGCTGAGCAATAAAGTCACCGCCCAGGATATGCGTATCACCCCGGAAACCCTGCGCTTACAGGCCTCTATTGCCAAAGACGCGGGCCGCGACCGGCTGGCGATGAACTTCGAGCGCGCCGCCGAGCTGACCGCGGTACCGGACGATCGCATTCTTGAAATCTACAACGCCCTCCGCCCCTATCGCTCGACGAAAGAGGAGCTGCTGGCGATCGCCGACGATCTCGAAAGCCGCTATCAGGCGAAGATTTGCGCCGCTTTCGTTCGCGAAGCGGCCACGCTGTACGTCGAGCGTAAAAAACTCAAAGGCGACGATTAA	MNTDAIESMVRDVLSRMNSLQGEAPTAAPAAGGASRSAKVSDYPLANKHPEWVKTATNKTLDDFTLENVLSNKVTAQDMRITPETLRLQASIAKDAGRDRLAMNFERAAELTAVPDDRILEIYNALRPYRSTKEELLAIADDLESRYQAKICAAFVREAATLYVERKKLKGDD	PGPT0019445_62	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019445-pduE-K13920	NA	NA
BMS020_01715	1833	ddrA_1		Diol dehydratase-reactivating factor alpha subunit	ATGCGATATATAGCTGGCATTGATATCGGCAACTCATCGACGGAAGTCGCCCTGGCGACCCTGGATGAGGCTGGCGCGCTGACAATCACCCACAGCGCGCTGGCGGAAACCACCGGGATCAAAGGCACGTTGCGTAACGTGTTCGGTATTCAGGAGGCGCTCGCCCTCGTCGCTAAACGCGCGGGGATCAATGTCAGCGATATTTCGCTCATCCGCATTAATGAAGCGACGCCGGTGATTGGCGATGTGGCGATGGAAACCATTACCGAGACCATCATCACCGAATCGACCATGATCGGCCATAACCCGAAAACGCCCGGTGGCGCGGGGCTTGGCGTGGGCATCACCATTACGCCGCAGGAGCTGTTAACCCGCCCGGCGGACGCGCCCTATATCCTGGTGGTGTCGTCGGCGTTCGATTTTGCCGATATCGCCAGCGTGATTAACGCTTCCCTGCGCGCCGGGTATCAGATTACCGGCGTCATTTTGCAACGCGACGATGGCGTGCTGGTCAGCAACCGGCTGGAAAAACCGCTGCCGATTGTTGACGAAGTGCTGTACATCGACCGCATTCCGCTGGGAATGCTGGCGGCAATTGAAGTTGCCGTCCCGGGGAAGGTTATCGAAACGCTCTCTAACCCCTACGGCATCGCCACCGTATTCCACCTCAACGCCGAGGAGACGAAAAACATCGTCCCGATGGCTCGCGCGCTGATTGGCAACCGTTCCGCCGTGGTGGTCAAAACGCCATCCGGTGACGTCAAAGCGCGCGCGATACCCGCCGGTAACCTTGAGCTGCTGGCCCAGGGCCGGAGCGTACGCGTAGACGTTGCCGCTGGCGCCGAAGCCATCATGAAAGCGGTCGACGGCTGCGGCAAGCTCGATAACGTCACCGGCGAGTCGGGGACCAATATCGGCGGCATGCTGGAACACGTGCGCCAGACCATGGCCGAGCTGACCAACAAGCCCAGCAGCGAAATATTCATTCAGGACCTGCTGGCCGTCGATACCTCGGTGCCGGTGAGCGTCACCGGCGGTCTTGCCGGGGAGTTCTCGCTGGAGCAGGCCGTGGGCATCGCCTCAATGGTGAAATCGGATCGTTTGCAGATGGCGATGATTGCCCGCGAAATCGAGCAGAAGCTCAATATCGACGTGCAGATCGGCGGCGCCGAGGCCGAAGCCGCCATTCTGGGCGCGCTGACCACGCCGGGTACCACCCGACCGCTGGCGATCCTCGACCTCGGCGCAGGCTCCACCGATGCCTCCATCATCAACCCCAAAGGCGAAATCATCGCCACTCACCTCGCCGGAGCAGGCGATATGGTGACGATGATTATTGCCCGCGAGCTGGGGCTGGAAGACCGCTATCTGGCGGAAGAGATCAAGAAGTACCCGCTGGCCAAGGTGGAAAGCCTGTTCCATTTACGCCACGAGGACGGCAGCGTGCAGTTCTTCTCCACGCCGCTGCCGCCCGCCGTGTTCGCCCGCGTCTGCGTGGTGAAAGCGGACGAACTGGTGCCGCTGCCCGGCTATTTAGCGCTGGAAAAAGTGCGCGCCATTCGCCGCAGCGCCAAAGAGCGGGTCTTTGTCACCAACGCCCTGCGCGCGCTGCGTCAGGTCAGCCCCACCGGCAACATTCGCGATATTCCGTTCGTGGTGCTGGTCGGCGGTTCGTCGCTGGATTTCGAAGTCCCGCAGCTGGTCACCGATGCGCTGGCGCATTACCGCCTGGTTGCCGGACGGGGAAATATTCGCGGCATCGAGGGTCCCAGAAACGCGGTGGCCACCGGCCTGATTCTCTCCTGGCATAAGGAGTTCGCGCATGGACAGTAA	MRYIAGIDIGNSSTEVALATLDEAGALTITHSALAETTGIKGTLRNVFGIQEALALVAKRAGINVSDISLIRINEATPVIGDVAMETITETIITESTMIGHNPKTPGGAGLGVGITITPQELLTRPADAPYILVVSSAFDFADIASVINASLRAGYQITGVILQRDDGVLVSNRLEKPLPIVDEVLYIDRIPLGMLAAIEVAVPGKVIETLSNPYGIATVFHLNAEETKNIVPMARALIGNRSAVVVKTPSGDVKARAIPAGNLELLAQGRSVRVDVAAGAEAIMKAVDGCGKLDNVTGESGTNIGGMLEHVRQTMAELTNKPSSEIFIQDLLAVDTSVPVSVTGGLAGEFSLEQAVGIASMVKSDRLQMAMIAREIEQKLNIDVQIGGAEAEAAILGALTTPGTTRPLAILDLGAGSTDASIINPKGEIIATHLAGAGDMVTMIIARELGLEDRYLAEEIKKYPLAKVESLFHLRHEDGSVQFFSTPLPPAVFARVCVVKADELVPLPGYLALEKVRAIRRSAKERVFVTNALRALRQVSPTGNIRDIPFVVLVGGSSLDFEVPQLVTDALAHYRLVAGRGNIRGIEGPRNAVATGLILSWHKEFAHGQ	PGPT0019446_106	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019446-pduG|ddrA-NA	NA	NA
BMS020_01716	351			hypothetical protein	ATGGACAGTAATCACAGCGCCCCGGCTATTGTGATCGCCGCCATCGACGGCTGCGACGGCCTGTGGCGCGACGTGCTGCTGGGTATCGAAGAGGAAGGCATTCCTTTCCTGCTCCAGCATCACCCGGCCGGGGATGTCGTGGACAGCGCCTGGCAGGCGGCGCGCAGCTCGCCGCTACTGGTGGGCATCGCCTGCGATCGCCATACGCTGGTCGTGCACTACAAGAATTTACCCGCATCGGCGCCGCTTTTTACGCTGATGCATCATCAGGACAGTCAGGCCCAACGTAACACCGGTAATAACGCGGCACGGCTGGTCAAAGGGATCCCGTTCCGGGATCTGAATAGCTAA	MDSNHSAPAIVIAAIDGCDGLWRDVLLGIEEEGIPFLLQHHPAGDVVDSAWQAARSSPLLVGIACDRHTLVVHYKNLPASAPLFTLMHHQDSQAQRNTGNNAARLVKGIPFRDLNS	PGPT0019447_5	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019447-pduH-NA	NA	NA
BMS020_01717	276	pduA_2	COG4577	Propanediol utilization protein PduA	ATGAATAACGCACTGGGACTGGTTGAAACAAAAGGGTTAGTAGGCGCCATTGAGGCCGCCGATGCGATGGTGAAATCGGCCAACGTGCAGCTGGTCGGCTACGAAAAAATTGGCTCGGGTCTGGTGACCGTCATGGTTCGCGGCGATGTCGGCGCGGTCAAAGCGGCGGTGGATGCGGGCAGCGCGGCGGCAAGCGTCGTAGGCGAAGTGAAATCCTGCCACGTGATCCCGCGTCCGCACAGCGACGTTGAGGCCATTTTACCGAAATCAGCCTGA	MNNALGLVETKGLVGAIEAADAMVKSANVQLVGYEKIGSGLVTVMVRGDVGAVKAAVDAGSAAASVVGEVKSCHVIPRPHSDVEAILPKSA	PGPT0019448_18	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019448-pduJ-NA	NA	NA
BMS020_01718	462			hypothetical protein	GTGAAGCAATCACTGGGATTACTGGAAGTTTGTGGTCTGGCACTGGCTATTAGCTGCGCCGATATCATGGCGAAATCCGCTTCTATCACGCTGGTCGCCCTCGAAAAGACCAATGGTTCAGGCTGGACGGTCATTAAAATTACCGGTGATGTGGCCTCAGTACAGGCGGCCATCACCACCGGCGCACAGTTTGCCGAACAGCGAAACGGTTTGGTGGCTCATAAAGTCATCGCCAGACCCGGAGAAGGGATCCTGCCCGCAGAGGCTCCCCCACCCTCCGTCATGGAACCTGAGCCTGAAGAGTCAGAGACGGCTAATGTTGTTTCTGAAGCGCCAGCAGAAGAGCCCCTCCAGCAACAAGGCGTGGTCAGCTGCAACCTGTGCCTGGATCCAAAATGTCCGCGCCAGAAGGGCGAGCCGCGCACCCTTTGCATTCATCCCGGCAAGCGAGGTGAAGCGTAA	MKQSLGLLEVCGLALAISCADIMAKSASITLVALEKTNGSGWTVIKITGDVASVQAAITTGAQFAEQRNGLVAHKVIARPGEGILPAEAPPPSVMEPEPEESETANVVSEAPAEEPLQQQGVVSCNLCLDPKCPRQKGEPRTLCIHPGKRGEA	PGPT0019449_21	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019449-pduK-NA	NA	NA
BMS020_01719	633	pduL_1	COG4869	Phosphate propanoyltransferase	ATGGATAAACAGCTTCTCGAATCAACGGTCAGTAAAGTCCTCGACGAGATGCGTCTGCGGCCCATTCCGCTGGGGGTTTCAAATCGTCATATCCACCTGTCGGCGTCGGATTATGAACGCCTGTTTCCTGGCCATCCCATCAGCGAGAAAAAAGCGCTGCTGCAGCCGGGACAGTACGCTGCGGAGCAAACCGTCACCCTGGTAGGGCCGAAGGGGCAGCTTAAAAATGTGCGCCTGCTCGGCCCACTGCGTTCGGTAAGCCAGGTGGAAATATCGCGTACCGATGCCAGAACCCTGGGGGTTGCGGCGCCGCTGAGAATGTCCGGCGATCTGAAAGGGACGCCGGGCATCCGTCTGGTCAGCCCCTATGGCGAACTGACGCTCTCCTCAGGGGTTATCGTCGCGCAGCGGCATATTCATATGTCGCCGCTCGATGCGCTGATCCTGCGGGTTTCCCACGGCGATAGGGTCTCCGTGGCCATTGAAGGCGACGCGCGCGGGCTGATTTTCAACAACGTGGCGATTCGCGTTTCACCGGATATGCGTCTCGAAATGCACATTGATACCGATGAAGCCAACGCCGCCGGCGCCGATAATCCGCAGGCCTTTGCCCGGCTGGTAGGCCCGCGATGA	MDKQLLESTVSKVLDEMRLRPIPLGVSNRHIHLSASDYERLFPGHPISEKKALLQPGQYAAEQTVTLVGPKGQLKNVRLLGPLRSVSQVEISRTDARTLGVAAPLRMSGDLKGTPGIRLVSPYGELTLSSGVIVAQRHIHMSPLDALILRVSHGDRVSVAIEGDARGLIFNNVAIRVSPDMRLEMHIDTDEANAAGADNPQAFARLVGPR	PGPT0002260_77	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0002260-pduL-K13923	NA	NA
BMS020_01720	492			hypothetical protein	ATGAACGGCGAAGTTCTGCAGCGCATCGTGGAGGAAATCGTCTCCAGGCTGCAGCGTCGCGCCCATAGAACGGCGACGCTGAGCGTGGCGCAGCTGCGCGATGCCGACTGCCCCGGGCTGTTCAGCCAGCACGCCTCGCTGCGCATCCTGCTTGTCGACCTGCCGCTGCTGGGCCAGCTGACGGAGGCGGAAACCGACGATCCTGCGGCCCGGAAAATTCACGACGCGCTGGCTTTCGGCATCCGCGTGCAGCTCACCTTGCACAGCCAGCTGCTGCCGGTTATCCCGGTCAAAAAACTGGCGCGCCTGCCGACGATCTTCACCGACGAGCGCGGACTGCCGCTGATCCTGCACGCAGGATCGGTGCTGAGCTATCGCGACGTCGCGCAGCTGGGCCAGGGTCGCCTGGTTATCCACCGCAAATGCATCGTGACCGCGCTGGCGCGCGAAGCGGCACAGGCGCGGCATATTCAATTAATTAAGCAGGAGTAA	MNGEVLQRIVEEIVSRLQRRAHRTATLSVAQLRDADCPGLFSQHASLRILLVDLPLLGQLTEAETDDPAARKIHDALAFGIRVQLTLHSQLLPVIPVKKLARLPTIFTDERGLPLILHAGSVLSYRDVAQLGQGRLVIHRKCIVTALAREAAQARHIQLIKQE				NA	NA	NA	NA	NA
BMS020_01721	276	ccmL		Carbon dioxide concentrating mechanism protein CcmL	ATGCATCTGGCACGAGTCACGGGCGCGGTTGTCTCCACGCAAAAATCGCCTTCCCTGATCGGCAAAAAGCTGCTGCTGGTGCGGCGGGTCAGCGCCGATGGCGAGCTTCCCGCCTCGCCGACCGCCGGCGATGAAGTCGCCGTGGATTCCGTTGGCGCGGGGATCGGCGAGCTGGTTCTGCTCAGCGGCGGCTCCAGCGCCAGGCACGTTTTTTCCGGGCCAAACGAGGCCATCGACCTCGCCGTTGTCGGCATTGTCGATACGCTTTCACGTTAA	MHLARVTGAVVSTQKSPSLIGKKLLLVRRVSADGELPASPTAGDEVAVDSVGAGIGELVLLSGGSSARHVFSGPNEAIDLAVVGIVDTLSR	PGPT0019437_6	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019437-pduN-NA	NA	NA
BMS020_01722	1011			hypothetical protein	ATGGCGATTTATACCCGAACGGGCGACGCTGGCACCACCTCACTCTTTACCGGCCAGCGGGTGAGTAAAACCCACCCGCGGGTTGAAGCCTACGGCACGCTGGATGAGCTGAACGCCGCGCTGAGCCTGTGCGCCTGCGCCGCCGCGGATGAAAATCACCGCGCCTTACTTGAGGCCATCCAGCAGCAGCTTTTTTGGTTTAGCGCAGAACTGGCCAGCGACAGCGAACGGCCATCGCCGAAACAGCGCTACATCAGCAGCGAAGAGATTTCCGCTCTGGAAGCCGCCATCGATCGGGCCATGGCCCGCGTCGAGCCGCTGCACAGTTTTATTTTACCCGGCCGCTGCGAAGCCACGAGCCGCCTGCATTTTGCCCGCACGCTGGCCCGCCGGGCCGAACGGCGACTGGTTGAGCTGGCGGCGGAAGTCAACGTGCGCCAGGTGCTGATGCGCTACATCAATCGCTTGTCAGACTGCCTGTACGCCCTGGCGCGCGCGGAAGATAGCGATGCGCACCAGAACAACATCATTCGTGAAGTGAGCCGGCGCTATCTGGCCGCCACTCTACCGAGCCGCAGCAAGGAGAAGACGCCCCTGGACCTTTCATTCCACGATCTGCACCAGCTCACCCGCGCCGCCGTTGAGCGCGCGCAGCAGCTTCAGGTGCCGGTGGTGATCAGCATCGTTGACGCACACGGCACCGAAACCGTGACCTGGCGGATGCCGGACGCCCTGCTGGTCAGCAGCGAACTGGCGCCGAAAAAAGCCTGGACCGCGGTGGCGATGAAAACGGCGACCCATGAGCTGAGCGAGGCCGTTCAGCCGGGCGCCGCGCTTTATGGCCTCGAAACGCATTTGCAGGGAAAAGTGGTGACCTTTGGCGGCGGTTACGCCCTGTGGCGCGACGGCTCATTAATTGGGGGTCTTGGCATCAGCGGCGGCAGCGTTGAACAGGACATGGATATCGCACAGACCGCCATCGCGGCCATTAACGTGGGAACTCATCAATGA	MAIYTRTGDAGTTSLFTGQRVSKTHPRVEAYGTLDELNAALSLCACAAADENHRALLEAIQQQLFWFSAELASDSERPSPKQRYISSEEISALEAAIDRAMARVEPLHSFILPGRCEATSRLHFARTLARRAERRLVELAAEVNVRQVLMRYINRLSDCLYALARAEDSDAHQNNIIREVSRRYLAATLPSRSKEKTPLDLSFHDLHQLTRAAVERAQQLQVPVVISIVDAHGTETVTWRMPDALLVSSELAPKKAWTAVAMKTATHELSEAVQPGAALYGLETHLQGKVVTFGGGYALWRDGSLIGGLGISGGSVEQDMDIAQTAIAAINVGTHQ				NA	NA	NA	NA	NA
BMS020_01723	1392	adhE_2		Aldehyde-alcohol dehydrogenase	ATGAATACTTCTGAACTCGAAACGCTTATTCGCACCATTCTTAGCGAACAGTTAACCCCAGCCCAAACGCCAAACCCGGCGCAGGGCAAAGGGATTTTTCAGTCCGTGAGCGAGGCCATTGATGCCGCGCATCAGGCGTTCTTACGTTATCAGCAGTGCCCGCTAAAAACCCGCAGCGCCATCATTAGCGCAATGCGTCAGGAGCTGACGCCGCATCTGGCCGCCCTGGCGGAAGAGAGCGCCAATGAAACGGGGATGGGCAACAAAGAAGATAAATTTTTGAAAAACAAAGCTGCGCTGGACAACACGCCGGGCGTGGAAGATCTCACCACCACGGCACTGACCGGCGACGGCGGCATGGTGCTGTTTGAGTATTCGCCATTTGGCGTTATCGGGTCGGTCGCACCGAGCACCAACCCGACGGAAACCATCATTAATAACAGCATCAGCATGCTGGCGGCGGGCAATAGCGTCTACTTCAGCCCGCATCCGGGAGCAAAAAAGGTCTCACTGAAGCTGATTAGCATGATTGAAGAGATTGTTTTCCGCTGCTGCGGCATCCGCAATCTGGTGGTTACCGTAGCAGAACCCACTTTCGAAGCCACCCAGCAGATGATGGCCCATCCGCGCATTGCGGTTCTGGCCATTACCGGCGGCCCGGGTATTGTGGCGATGGGCATGAAGAGTGGTAAGAAAGTGATCGGCGCCGGCGCGGGTAACCCACCCTGCATCGTTGATGAAACGGCGGATCTGGTTAAAGCGGCGGAAGATATCATCAACGGCGCCTCGTTCGATTACAACCTGCCCTGCATTGCCGAGAAGAGCCTGATTGTGGTGGAGAGCATCGCTGAACGTCTGGTACAGCAAATGCAAACCTTCGGCGCGCTGCTGCTGAGCCCGGCTGATACCGACAAGCTCCGCGCCGCCTGCCTGCCGGAAGGCCAGGCCAATAAGAAGCTGGTCGGAAAAAGCCCATCGGCGATGCTCGAAGCGGCCGGCATCGCCGTTCCGGCGAAAGCGCCGCGTCTACTGATAGCGCTGGTTAACGCCGACGATCCGTGGGTTACCAGCGAGCAGCTGATGCCGATGCTGCCGATAGTGAAAGTTAGCGATTTCGATAGCGCGCTGGCCCTGGCGCTGAAGGTTGAAGAGGGACTACATCATACCGCCATTATGCACTCGCAGAACGTGTCGCGCCTGAACCTCGCGGCCCGCACCCTGCAAACCTCGATATTCGTCAAGAACGGCCCCTCTTATGCCGGGATCGGCGTCGGCGGCGAAGGCTTTACCACCTTTACTATCGCCACGCCGACCGGTGAAGGGACAACCTCGGCGCGCACGTTTGCCCGCTCCCGTCGCTGCGTGCTGACCAACGGCTTTTCCATTCGCTAA	MNTSELETLIRTILSEQLTPAQTPNPAQGKGIFQSVSEAIDAAHQAFLRYQQCPLKTRSAIISAMRQELTPHLAALAEESANETGMGNKEDKFLKNKAALDNTPGVEDLTTTALTGDGGMVLFEYSPFGVIGSVAPSTNPTETIINNSISMLAAGNSVYFSPHPGAKKVSLKLISMIEEIVFRCCGIRNLVVTVAEPTFEATQQMMAHPRIAVLAITGGPGIVAMGMKSGKKVIGAGAGNPPCIVDETADLVKAAEDIINGASFDYNLPCIAEKSLIVVESIAERLVQQMQTFGALLLSPADTDKLRAACLPEGQANKKLVGKSPSAMLEAAGIAVPAKAPRLLIALVNADDPWVTSEQLMPMLPIVKVSDFDSALALALKVEEGLHHTAIMHSQNVSRLNLAARTLQTSIFVKNGPSYAGIGVGGEGFTTFTIATPTGEGTTSARTFARSRRCVLTNGFSIR	PGPT0002240_154	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0002240-pduP-K13922	NA	NA
BMS020_01724	1113	adhE_3	COG1012	Aldehyde-alcohol dehydrogenase	ATGAAGACTTTCTCACTACAAACGCGGTTGTACAGCGGTCAGGGTAGCCTGGCGGTGCTCAAGCGCTTTACCAACAAGCACATCTGGATTATCTGCGATGGCTTTCTGGCGCGCTCGCCGCTGCTGGAAACCCTGCGTAATGCATTGCCCGCAGATAACCACATTAGCGTCTTTAGCGAGATAACCCCGGACCCCACTATCCATACCGTGGTGCAGGGCATTGCGCAAATGCAGGCCCTGCAGCCGCAGGTGGTCATCGGCTTCGGCGGCGGATCGGCGATGGACGCGGCGAAAGCCATCGTCTGGTTTAGCCAGCAGAGCGGCATCAATATCGAAACCTGCGTGGCCATACCAACCACCAGCGGTACCGGTTCGGAAGTGACCAGCGCCTGCGTGATTAGCGACCCGGATAAAGGCATCAAGTATCCGCTGTTCGACAATGCGCTCTATCCCGATATGGCGATCCTTGACCCGGATCTGGTGGTCAGCGTGCCGCCGCAGATTACGGCCAACACCGGCATGGACGTGCTGACCCACGCGCTGGAGGCGTGGGTCTCTCCGCACGCCAGCGACTTTACCGACGCGCTGGCGGAAAAAGCCGCCAGGCTGGTGTTCCAGTATCTGCCCACGGCGGTGGAAAAAGGCGACTGCGTGGCGACGCGCGGGAAAATGCACAATGCCTCAACGCTTGCCGGGATGGCGTTCAGCCAGGCGGGGCTGGGGCTTAACCATGCTATCGCCCACCAGCTTGGCGGGCAGTTTCATCTCCCGCACGGACTGGCCAACGCGCTGCTGTTAACCGCGGTTATCCGCTTTAACGCCGGTCATCCGCGCGCCGGAAAACGCTACGCGCGGCTGGCCAAAGCCTGCGGATTTTGTCCGGCAGACGCCAGCGATAGTACGGCGATCAATGCGCTGATCCAGCAAATCGAACGGCTCAAGCAGCGCTGTGCGCTGCCGTCACTGGCGGTCGCGCTGAAAGAGGGACGTGCCGCGTACTCAGCGCGCATTCCGGCCATGGTGCAGGCCGCACTGGCTGACGTGACCTTGCGCACGAATCCTCGCCCGGCCAGCGCCGGGGAAATTCAGGAACTGCTGGAGGAACTGCGATGA	MKTFSLQTRLYSGQGSLAVLKRFTNKHIWIICDGFLARSPLLETLRNALPADNHISVFSEITPDPTIHTVVQGIAQMQALQPQVVIGFGGGSAMDAAKAIVWFSQQSGINIETCVAIPTTSGTGSEVTSACVISDPDKGIKYPLFDNALYPDMAILDPDLVVSVPPQITANTGMDVLTHALEAWVSPHASDFTDALAEKAARLVFQYLPTAVEKGDCVATRGKMHNASTLAGMAFSQAGLGLNHAIAHQLGGQFHLPHGLANALLLTAVIRFNAGHPRAGKRYARLAKACGFCPADASDSTAINALIQQIERLKQRCALPSLAVALKEGRAAYSARIPAMVQAALADVTLRTNPRPASAGEIQELLEELR	PGPT0019450_277	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019450-pduQ-K13921	NA	NA
BMS020_01725	1356	rsxC_2		Ion-translocating oxidoreductase complex subunit C	ATGAGTACCGCCGTCAACGCTGTTGAAATGCCCTGGAGCGCCGATGAAATCCGCGAGCGCGTTCGCGCAGCGGGCGTCGTCGGCGCGGGCGGCGCGGGTTTTCCCGCCCACGTGAAGCTGCAGGCGCAGGTGGAGATCTTTCTGGTTAACGCCGCCGAGTGCGAACCGATGCTCAAGGTCGATCAGCAGCTAATGTGGCAGCAGGCTGCACGTCTGGTCCGCGGCGTGCAGTACGCGATGACGGCAACCGGCGCGCGCGAAGGGGTGATTGCCCTGAAAGAGAAGTACCGCCGGGCTATCGACGCCCTTACCCCGCTGCTGCCTGCCGGTATTCGCCTGCATATTCTGCCGGATGTCTATCCCGCAGGCGATGAGGTGCTGACTATCTGGTTGGCTACCGGTCGCCGGGTCGCACCCGCCGCGCTGCCGGCCAGCGTCGGGGTCGTGGTGAATAATGTACAAACGGTGCTCAACATGGCCCGTGCGGTTGAGCAGCAGTTTCCGGTGACCCGCCGCACGCTGACCGTTAACGGCGCGGTCGCCCGACCGCTGACCGTCACCGTCCCCATCGGCATGTCGCTGCGCGAAGTGCTGGCGCTGGCGGGCGGCGCGACGGTCGACGACCCCGGTTTTATTAACGGCGGCCCGATGATGGGCGGCCTGATTACCTCGCTGGATAACCCGGTGACCAAAACTACCGGCGGCCTGCTGGTGCTGCCGAAAAGCCATCCGCTTATCCAGCGGCGGATGCAGGACGAGCGCACGGTGCTTTCCGTGGCCCGTACCGTCTGCGAACAGTGCCGCCTGTGTACCGATCTCTGCCCACGGCATCTGATCGGCTACGAACTCTCCCCGCACCTGCTGGTGCGGGCGGTGAACTTTCATCAGGCCGCCACGCCCCAGCTGCTGCTGAGCGCCCTCACCTGTTCGGAATGCAACGTCTGCGAAAGCGTGGCCTGCCCGGTAGGGATCTCGCCGATGCGCATCAACCGCATGCTGAAACGCGAGCTGCGCGCGCAAAACCAGCGCTATGAAGGGCCGCTCTATCCGGCCGACGAAATGGCGAAATATCGCCTCGTGCCGGTGAAGCGACTGATCGCCAAACTGGGGCTGAGCCCCTGGTATCAGGAGGCGCCGCTGGTGGAAGACGAACCGGCAGTAGAAACAGTGACTTTACAGTTGCGCCAGCATATCGGCGCCAGCGCGGTAGCGAACGTTGCAGTGGGAGAACGCGTTACCCGCGGGCAATGCGTTGCCGATATCCCGGCAGGCGCATTAGGCGCGCCGGTTCACGCCAGCATCGACGGCGTGGTTGCGGCCATCAGCGAACAGGCCATCACGGTGGTAAGAGGTTAA	MSTAVNAVEMPWSADEIRERVRAAGVVGAGGAGFPAHVKLQAQVEIFLVNAAECEPMLKVDQQLMWQQAARLVRGVQYAMTATGAREGVIALKEKYRRAIDALTPLLPAGIRLHILPDVYPAGDEVLTIWLATGRRVAPAALPASVGVVVNNVQTVLNMARAVEQQFPVTRRTLTVNGAVARPLTVTVPIGMSLREVLALAGGATVDDPGFINGGPMMGGLITSLDNPVTKTTGGLLVLPKSHPLIQRRMQDERTVLSVARTVCEQCRLCTDLCPRHLIGYELSPHLLVRAVNFHQAATPQLLLSALTCSECNVCESVACPVGISPMRINRMLKRELRAQNQRYEGPLYPADEMAKYRLVPVKRLIAKLGLSPWYQEAPLVEDEPAVETVTLQLRQHIGASAVANVAVGERVTRGQCVADIPAGALGAPVHASIDGVVAAISEQAITVVRG				NA	NA	NA	NA	NA
BMS020_01726	555			hypothetical protein	ATGTCTCAGGCTATAGGAATTTTAGAACTCACCAGCATTGCCAAAGGAATGGAACTCGGCGATGCGATGCTGAAAAGCGCCAACGTCAATCTGCTGGTCAGCAAGACTATCTGCCCGGGTAAGTTTCTGTTGATGCTCGGCGGGGATATCGGCGCCATCCAGCAGGCCATTGAAACCGGCACTTCGCAGGCCGGCGAAATGCTCGTCGACAGCCTGGTGCTGGCGAATATCCATCCCAGCGTACTCCCGGCCATCAGCGGCCTGAACAGCGTAGACAAACGCCAGGCGGTCGGCATCGTTGAAACCTGGAGCGTTGCGGCCTGCATCAGCGCCGCGGACCGGGCGGTGAAAGGCTCCAACGTCACCCTGGTACGGGTGCATATGGCCTTCGGCATCGGCGGTAAATGCTACATGGTGGTGGCGGGCGACGTTTCCGACGTCAACAACGCGGTTACGGTAGCCAGCGAAAGCGCGGGTGAAAAAGGGCTGCTGGTTTATCGTTCGGTGATCCCGCGACCGCATGAAGCCATGTGGCGACAGATGGTGGAGGGATAA	MSQAIGILELTSIAKGMELGDAMLKSANVNLLVSKTICPGKFLLMLGGDIGAIQQAIETGTSQAGEMLVDSLVLANIHPSVLPAISGLNSVDKRQAVGIVETWSVAACISAADRAVKGSNVTLVRVHMAFGIGGKCYMVVAGDVSDVNNAVTVASESAGEKGLLVYRSVIPRPHEAMWRQMVEG				NA	NA	NA	NA	NA
BMS020_01727	351	pduU	COG4810	Propanediol utilization protein PduU	ATGGAAAGACAGCCAACAACGGATCGCATGATTCAGGAATACGTTCCCGGGAAACAGGTAACCCTCGCGCACCTGATTGCCAATCCCGGGAAAGATCTCTTTAAGAAACTCGGCCTGCAGGATGCGGTGTCCGCCATCGGCATCCTCACCATTACGCCCAGCGAAGCGTCGATTATCGCCTGCGATATCGCCACCAAATCCGGCGCGGTGGAGATCGGTTTTCTTGACCGCTTTACCGGCGCCGTGGTGCTGACCGGCGACGTTTCCGCCGTCGAGTACGCCCTCAGGCAGGTGACGCGCACCCTGGGCGAGATGATGCAGTTTACTACCTGCTCAATAACCCGGACGTAG	MERQPTTDRMIQEYVPGKQVTLAHLIANPGKDLFKKLGLQDAVSAIGILTITPSEASIIACDIATKSGAVEIGFLDRFTGAVVLTGDVSAVEYALRQVTRTLGEMMQFTTCSITRT	PGPT0000622_112	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ETHANOLAMINE_USAGE	N-AQUISITION-ETHANOLAMINE_DEGRADATION,PGPT0000622-eutS|ypfE-K04031	NA	NA
BMS020_01728	453	pduV	COG4917	Propanediol utilization protein PduV	ATGAAACGTCTGATGTTGATCGGCCCCAGCCAGTGCGGCAAAACCTCGCTGACCCAGGGCCTGCGCGGCGAAGCGCTCCATTACAAGAAAACCCAGGCGATTGAATGGTCGCCGATGGCCATCGACACGCCGGGCGAATATCTGGAGAACCGCTGCCTTTATAGCGCTCTGTTGACCAGCGCCTGCGAGGCCGACGTTATCGCTCTGGTGCTGAACGCCGACGCCCAGTGGTCGCCGTTTTCTCCGGGTTTTACCGCCCCGATGAACCGCCCGACGATTGGTCTGGTCACTAAAGCCGACCTGGCCGATGCGCAGCGGATATCGCTGATCGGCGAGTGGCTCAGGCAGGCTGGCGCCCAGCAGATTTTTATCACCAGCGCGCTGAATAATCTGGGTCTTGCTGCCGTGCTGGATTTTCTGAATTCGAAGGAACCTTTATGTCTTACAAAATAA	MKRLMLIGPSQCGKTSLTQGLRGEALHYKKTQAIEWSPMAIDTPGEYLENRCLYSALLTSACEADVIALVLNADAQWSPFSPGFTAPMNRPTIGLVTKADLADAQRISLIGEWLRQAGAQQIFITSALNNLGLAAVLDFLNSKEPLCLTK	PGPT0000619_169	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ETHANOLAMINE_USAGE	N-AQUISITION-ETHANOLAMINE_DEGRADATION,PGPT0000619-eutP-K04029	NA	NA
BMS020_01729	1215	pduW	COG0282	putative propionate kinase	ATGTCTTACAAAATAATGGCCATTAATGCCGGCAGTTCATCGTTAAAATTCCAGCTGCTGGAGATGCCTCAGGGCGATATGCTCTGCCAGGGATTGATCGAGCGTATCGGCATGGCAAACGCCCAGGTGACCCTCAAAACGCCGGCGCAAAAATGGCAGGAAACGGCGCCCGTAGCCGATCACCGTGAAGCCGTCACCCTGCTGCTGGAAAAGCTCCTCGACCATCGGATTATCCAGAGTTTGCAGGATATCGATGGCGTCGGCCACCGCGTGGCGCACGGCGGGGAGCGCTTTAAAGATTCGACGCCGGTGACCGATGAGACCTTAGCGGAAATCGAGCGCCTGGCGGAGCTGGCCCCGCTGCATAATCCGGTCAACGCGCTGGGCATTAACGTTTTCCGCCAGCTGCTGCCCGACGCGCCGTCAGTGGCGGTGTTTGATACCGCTTTTCACCAGACGCTGGACGAGCGCGCGTTTATCTATCCGCTGCCCTGGCGCTACTACAGCGAGTTGGGCATTCGCCGTTACGGCTTCCACGGCACCAGCCACAAGTACGTTAGCGCGACGCTGGCGGAAAAGCTGGGCGTACCGTTGAGCGCTCTGCGCGTGGTGTGCTGCCATCTCGGCAACGGCAGCAGCGTTTGCGCAATCAAAGGCGGGCGCTCGGTTAACACCTCAATGGGCTTTACGCCGCAGTCCGGCGTGATGATGGGCACCCGCAGCGGCGATATCGATCCGTCGATTCTACCGTGGCTGGCGCTGCATGAGGGAAAAACGCCAGAGCAGCTTAATCAGCTGCTGAATAACGAGTCCGGCCTGCTGGGGGTTTCCGGCATCTCGCACGATTATCGCGATGTCGAGCAGGCGGCGGACAGCGGTAATCGTCAGGCAGCCCTGGCGCTCTCGCTGTTTGCCGAGCGCATTCGCGCCACCATCGGCAGCTATATTATGCAGATGGGCGGCCTGGACGCGCTGATCTTTACCGGCGGCATCGGCGAAAACTCCGCCCGCGCCAGGAGCGCCATCTGCCATAACCTGAATTTCCTCGGGCTGTCGGTCGATGAAGAGAAAAACCAGCACAACGCTACCTTTATTCAGGCCGAAAATGCGATGGTCAAAGTAGCGGTCATCAATACCAATGAAGAGCTGATGATTGCCCGCGATGTGATGCGCCTGGCGCTGCCGCAGGCGCGCGAGCTGGCGGTGTCGGTATAA	MSYKIMAINAGSSSLKFQLLEMPQGDMLCQGLIERIGMANAQVTLKTPAQKWQETAPVADHREAVTLLLEKLLDHRIIQSLQDIDGVGHRVAHGGERFKDSTPVTDETLAEIERLAELAPLHNPVNALGINVFRQLLPDAPSVAVFDTAFHQTLDERAFIYPLPWRYYSELGIRRYGFHGTSHKYVSATLAEKLGVPLSALRVVCCHLGNGSSVCAIKGGRSVNTSMGFTPQSGVMMGTRSGDIDPSILPWLALHEGKTPEQLNQLLNNESGLLGVSGISHDYRDVEQAADSGNRQAALALSLFAERIRATIGSYIMQMGGLDALIFTGGIGENSARARSAICHNLNFLGLSVDEEKNQHNATFIQAENAMVKVAVINTNEELMIARDVMRLALPQARELAVSV	PGPT0002235_57	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0002235-pduW-K19697	NA	NA
BMS020_01730	903	pduX	COG4542	L-threonine kinase	ATGCGCCCTGGCGAAGGTAAGCGGAAAGGTGAAAACGTGGCCGTTGCACAATGTCCCGCCTCGTGCGGAGAACTTATCCAGGGCTGGATCCTCGGCAGCGAGAAGCTGGTCTCCTGCCCGGTGGACTGGTACAGCACCGTCGAGGTCGAGACCGGCACGCCGCGAAACGATGAGCGGCCACTGTCGCGGGCGATGGTCGACCAGCTGCTGGCCCACTGGGGCTACCCGGCGGCGCTGAGTCAGCAGATCCGCATCACCCTGCACTCGACGATCCCGGTCGCCAAAGGGATGGCCAGCAGCACCGCCGATATCGCCGCCACCGCGGCGGCTACCGCCCATCATCTGGGCCACGCGCTGGATGAGCCGACGCTGGCGCGCCTGTGCGTCGCGCTGGAGCCCACCGACAGCACCCTGTTCCGCCAGCTGACGTTGTTCGACCATAATACCGCCGCCACGCAAATCGCCTGCCCTGCGCCGCCGGCGCTCGACCTGTTAGTGCTGGAGAGCCCGCTGACGCTGCGCACCACTGACTACCACCAGCTGCCGCGCGAGCCGGGTCTGCTGGCTAACGCCTCCCGGCTGCAGCTGGCGTGGGAGAAAGTGCAGCAGGCCTGCCAGCGCGGTAGCCCGCAGCTGCTGGGCGAAGCGGCGACCATCAGCGCCATCGCCAGCCAGCGGCTGTTGCCCAAGCCGGGGTTTGACGCGCTGCTGGACCTGGTGGAAAGCGCAGGGCTCTATGGCCTTAACGTGGCGCACAGCGGCAGCGTCGTCGGCCTGCTGCTGGACCGCCGTCGTCATGACGTCGACTTTTTAAAATGGCGGCTGGCAGACAGCGACATCGCCGCCCACTGGCCGCTGCAGCACTTGCTGGCGATGGTCCCGGGGGGCGTCACCCTGCAATAG	MRPGEGKRKGENVAVAQCPASCGELIQGWILGSEKLVSCPVDWYSTVEVETGTPRNDERPLSRAMVDQLLAHWGYPAALSQQIRITLHSTIPVAKGMASSTADIAATAAATAHHLGHALDEPTLARLCVALEPTDSTLFRQLTLFDHNTAATQIACPAPPALDLLVLESPLTLRTTDYHQLPREPGLLANASRLQLAWEKVQQACQRGSPQLLGEAATISAIASQRLLPKPGFDALLDLVESAGLYGLNVAHSGSVVGLLLDRRRHDVDFLKWRLADSDIAAHWPLQHLLAMVPGGVTLQ	PGPT0009310_28	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009310-pduX-K16651	NA	NA
BMS020_01731	1077	cobD_2	COG0079	Threonine-phosphate decarboxylase	ATGGCCTTACTGAAAAGCGCCCATGGCGGCAATATCCGCGAGGCCGCCGCCCTGCTGGGCATTGCCCCCAACGAGCTGCTGGATTTTAGCGCCAACATCAATCCGCTGGGAATGCCTGCCTCGCTCAGGCAGGCGATCGTCGATAACCTCGGCTGCGCCGAGCGCTATCCTGACGTCGAATATCAACAGCTGCACCAGGCGCTGGCGGCCCACCATCAGCTGCCGGCGGGGCATATCCTCGCCGGCAATGGCGAAACCGAATCGATCTTCACCCTCGCCCACGGCCTTAAGCCGAGGCGGGCAATGATCGTCATTCCTGGCTTCGCGGAGTACCGGCGGGCGCTGCAAACCGTGGATTGCGCGGTCGTGGAGTATGCCCTTCGGGAGTGCGATGGCTGGCAGCTGACCGACGCCATCCTCGATGCCCTCACCCCGGCGCTGGACTGCCTGTTTCTCTGCACGCCGAACAACCCCACCGGCCTGCTGCCAGAGCGGGGCCTGCTGGAAGCCATTGCCCGGCGTTGCCAGGCGCTGAACATCAGCCTGATCCTCGATGAGGCCTTCCTTGACTTTATCCCCGACCAGCCGGGGTTTATTCCCCTGCTGGCGCAGTATCCGCACGTCTGGGTTTTGCGCTCGCTCACTAAGTTTTATGCCATTCCGGGACTGCGTCTTGGCTACCTGCTCAATGCTGACGCGCAGGCGGTAGCCCGACTGCGCGAGCGACAAATGCCGTGGTCCATCAATGCGTATGCCGCGCTGGCCGGCGAGATCATCCTCCAGGACCGGGCGTATCAGCGGGCCACCTGGCAGTGGCTGCAGGAGGAGGGGGCGCGTTTCTACGCGCAGCTGCAGGAGATAGCCGGGCTGACCGTGTGGCCCGGGCGCGCCAACTACCTGTTCTTGCGCTGCGACAGACCAGAGCTTGACCTGCAATATGCCCTGTTGCGCCAGCATGTGCTGATCCGCAGCTGCGCGAATTACCCGGGGCTTGATAGCCGCTATTTCCGGGTGGCGATCCGCAGCGCCGGCGAAAACGACCAGCTGCTGGCGGCGCTGCGCCGGGCGCTGGCCTGA	MALLKSAHGGNIREAAALLGIAPNELLDFSANINPLGMPASLRQAIVDNLGCAERYPDVEYQQLHQALAAHHQLPAGHILAGNGETESIFTLAHGLKPRRAMIVIPGFAEYRRALQTVDCAVVEYALRECDGWQLTDAILDALTPALDCLFLCTPNNPTGLLPERGLLEAIARRCQALNISLILDEAFLDFIPDQPGFIPLLAQYPHVWVLRSLTKFYAIPGLRLGYLLNADAQAVARLRERQMPWSINAYAALAGEIILQDRAYQRATWQWLQEEGARFYAQLQEIAGLTVWPGRANYLFLRCDRPELDLQYALLRQHVLIRSCANYPGLDSRYFRVAIRSAGENDQLLAALRRALA	PGPT0009315_528	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009315-cobD-K04720	NA	NA
BMS020_01732	1254	amiC_2	COG0860	N-acetylmuramoyl-L-alanine amidase AmiC	ATGTCGGGAAACAACTCTGGATTAAGCCGTCGCCGTCTGCTGCAGGGCGCGGGCGCCATGTGGTTAATGAGCGTGAGCCCCGTTGGGCTGGCCGCCGCCGCGCGGGTGGTTGCCGTTCGCGTCTGGCCTGCATCGACCTACACGCGCGTCACGGTGGAATCGAATCATGTGCTGAAATACCGGCAGTTTGCCCTCAGTAATCCGGAACGGGTGGTGGTGGATCTGGAAGGGGTTAATCTGAACTCGGTGCTGAAAGGCATGGGAGGGCAGATCCGCGATGACGATCCCTTTATTAAGTCCGCCCGCGTGGGCCAGTTTGATCCGCAAACCGTGCGCATGGTCTTCGAGCTCAAGCAGAACGTTAAGCCGCAGCTGTTTGCCCTTGCGCCGGTGGCCGGCTTTAAAGAGCGTCTGGTGATGGATCTTTACCCCGCCAACGCCACCGATGTGCAGGATCCGCTGCTGGCGCTGCTCGAGGATTACAACAAAGGCGATCTGCAGCGTCAGGTACCGCCGGCGCAAAGCGGGCCGCAGCCGGGCAAAGCCGGGCGCGATCGGCCGATTGTCATTATGCTCGATCCCGGCCACGGCGGCGAAGATTCGGGCGCTGTGGGCAAGTATCGCACCCGCGAGAAAGACGTGGTGCTGCAGATTGCCCGTCGCCTGCGGGCGCTGATCGACAAAGAAGGCAATATGAAGGCCTATATGACCCGCAACGAAGACGTGTTTATCCCGTTGAAGGTGCGTGTCGCCAAGGCGCAGAAGCAGCGCGCCGATCTGTTCGTATCGATTCACGCCGACGCCTTTACCAGCCGCCAGCCCAGCGGCTCCTCGGTGTTTGCGCTCTCCACCAAGGGAGCCACCAGTACCGCGGCAAAATATCTCGCCCAGACGCAGAACGCCTCGGATCTGATCGGTGGGGTCAGCAAGAGCGGCGATCGCTATGTCGACCACACCATGTTCGATATGGTGCAGTCCCTCACCATCGCCGACAGCCTCAAATTTGGTAAGGCGGTGCTGGAGAAAATGGGTAACATCAATAATCTGCACAAAAATCGGGTAGAGCAGGCGGGCTTTGCGGTGCTCAAGGCGCCCGATATCCCCTCCATTCTGGTGGAGACGGCGTTTATCAGTAACGTGGAAGAGGAGCGGAAGCTGAAAACGGCCAAATTCCAGCAGGAGGTGGCCGAGTCGATCCTTGCCGGGATTAAAGCGTACTTCGCCGACGGCGCGACGCTGGCCCGGCGTGGATAA	MSGNNSGLSRRRLLQGAGAMWLMSVSPVGLAAAARVVAVRVWPASTYTRVTVESNHVLKYRQFALSNPERVVVDLEGVNLNSVLKGMGGQIRDDDPFIKSARVGQFDPQTVRMVFELKQNVKPQLFALAPVAGFKERLVMDLYPANATDVQDPLLALLEDYNKGDLQRQVPPAQSGPQPGKAGRDRPIVIMLDPGHGGEDSGAVGKYRTREKDVVLQIARRLRALIDKEGNMKAYMTRNEDVFIPLKVRVAKAQKQRADLFVSIHADAFTSRQPSGSSVFALSTKGATSTAAKYLAQTQNASDLIGGVSKSGDRYVDHTMFDMVQSLTIADSLKFGKAVLEKMGNINNLHKNRVEQAGFAVLKAPDIPSILVETAFISNVEEERKLKTAKFQQEVAESILAGIKAYFADGATLARRG	PGPT0024160_3120	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
BMS020_01733	1332	argA	COG0548	Amino-acid acetyltransferase	ATGGTGAAGGAACGTCGCACTGAACTGGTAGAAGGATTCCGCCATTCTGTTCCCTATATTAATGCCCATCGGGGAAAAACGTTTGTCATCATGCTGGGCGGCGAAGCCATTGAGCATGAAAATTTCTCAAATATTGTCAATGACATAGGGTTATTGCATAGCCTGGGCATTCGCCTGGTGGTGGTCTATGGCGCCCGCCCGCAGATTGACGCTAACCTCGCCGAGCACCATCACGAGCCGGTCTATCACAAGCAGACGCGAGTGACTGACGCCAAAACGCTGGAGCTGGTTAAGCAGGCGGCGGGGATGCTGCAGCTGGAGATCACCGCCCGCCTGTCGATGAGCCTCAACAACACCCCGCTGCAGGGAGCCCATATCAACGTCGTCAGCGGCAACTTTATCATTGCCCAGCCGCTGGGCGTTGATGACGGCGTTGATTATTGCCACAGCGGCCGCATTCGCCGCATTGACGAAGAGGCGATTCATCGCCAGCTCGACAGCGGCGCCATTGTGCTGATGGGGCCGGTCGCGGTGTCGGTCACCGGCGAAAGCTTTAACCTGACTTCGGAAGAGATCGCCACCCAGTTGGCCATCAAGCTGAAAGCAGAGAAAATGATCGGCTTCTGTTCTTCGCAAGGGGTTTACAACCAGGCCGGGGAAATTGTCTCCGAACTGTTCCCCAATGAAGCGCAGGCCCGCGTCGAAGAGCTGGAAGCGGACGAAGATTATAACTCCGGTACCGTGCGCTTCCTGCGCGGGGCCGTGAAAGCCTGCCGCAGCGGCGTGCGGCGCTGCCACCTGATCAGCTATCAGGAGAATGGCGCGCTGCTGCAGGAGCTATTCTCACGCGACGGCATCGGCACCCAGATCGTCATGGAGAGCGCAGAGCAAATCCGTCGGGCGACCATCAACGATATCGGCGGTATTCTCGAGCTGATAAGCCCGCTGGAACAGCAGGGCATCCTGGTGCGCCGCTCCCGCGAGCAGCTGGAGATGGAGATCGACAAATTCACTATTATTCAGCGCGATAACACCACTATCGCCTGCGCCGCCCTCTATCCTTTCCCGGAAGAGAAGATCGGCGAAATGGCCTGCGTGGCGGTGCATCCGGATTACCGGAGCTCGTCGCGGGGAGAGGTGCTGCTGGAGCGTATTGCCGCCCAGGCCAGACAGATGGGGCTGAGCAAGCTGTTTGTGTTAACCACCCGCAGCATCCACTGGTTCCAGGAGCGCGGCTTCACGCCGGTGGATATCGACCTGCTGCCGGAGAGTAAAAAGCAGATGTATAACTATCAGCGCCGGTCGAAGGTGCTGATGGCCGACCTCGCTTAA	MVKERRTELVEGFRHSVPYINAHRGKTFVIMLGGEAIEHENFSNIVNDIGLLHSLGIRLVVVYGARPQIDANLAEHHHEPVYHKQTRVTDAKTLELVKQAAGMLQLEITARLSMSLNNTPLQGAHINVVSGNFIIAQPLGVDDGVDYCHSGRIRRIDEEAIHRQLDSGAIVLMGPVAVSVTGESFNLTSEEIATQLAIKLKAEKMIGFCSSQGVYNQAGEIVSELFPNEAQARVEELEADEDYNSGTVRFLRGAVKACRSGVRRCHLISYQENGALLQELFSRDGIGTQIVMESAEQIRRATINDIGGILELISPLEQQGILVRRSREQLEMEIDKFTIIQRDNTTIACAALYPFPEEKIGEMACVAVHPDYRSSSRGEVLLERIAAQARQMGLSKLFVLTTRSIHWFQERGFTPVDIDLLPESKKQMYNYQRRSKVLMADLA	PGPT0014243_709	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014243-argAB-K14682	NA	NA
BMS020_01734	1845	recD_1	COG0507	RecBCD enzyme subunit RecD	ATGACTTTCGAACAACTACTGCTGGCGGCGGTGGAGCAGCGTCTGCTGCGGCCGCTGGACGTCCAGTTTGCCCTGATGGTGGCGCAAAACGACCCGCCGGCGGTCAAGCTGGCGGCGGCCTTGCTGAGCCGGGACGCCGGCGAGGGGCACGTATGCCTGCCGCTCTCGCGGCTGAGCGGCGACGAGGCGCTCGGCGGGAAAGCGGGGGAGATCCGCGATCGGCTGCTGGCCGAAGCCGGCGCGCCTGAAGACTGGCCCGCGCTGCTGCTCGCTTCGTCGGCGGTGAGCTGCGGCGATGCCCCGGCGCCGATGATCTTATGCGGCGACCGGCTCTATCTGAACCGGATGTGGCGCAACGAGCTGACCGTCGCCCGCTTCTTCAACGAAGCCAACCGGGTGCTGGAGATGGATGAGGCCCGGCTGGCGTCAACCCTGAACGCTCTGTTCCCTGCCACCGGCGAAACCGACTGGCAAAAAGTGGCCGCAGCGGTGGCGCTGACCCGCCGCATCTCGGTGATCTCCGGCGGTCCCGGGACCGGGAAGACCACCACCGTGGCCAAACTTCTGGCGGCGCTAATCCAGATTGAAGACAGTCCGCGCTGTCGTATTCGCCTGGCGGCGCCGACGGGGAAAGCGGCGGCGCGTCTGACCGAATCGCTGGGCGCGGCGTTGAGAAAACTGCCGCTGACCGACGCGCAGAAAGCGTTGATTCCCACCGAGGCCAGCACGCTGCATCGTCTGCTGGGCGCCCAGCCCGGCAGCCAGCGCATGCGCTATCACGCCGGCAACCCGCTGCATCTGGACGTGCTGGTGGTGGATGAAGCCTCGATGATCGACCTGCCGATGATGTCGCGGCTCATCGACGCGCTGCCGGCTCACGGGCGGGTGATCTTCCTCGGCGATCGCGACCAGCTGGCCTCCGTGGAAGCGGGGGCGGTGCTGGGGGATATCTGCGCCTGGGCGAGTTCGGGCTATACCGCCGCGCGGGCGCAGGAGCTGACCCGGCTGACCGGTTCACCGGTACCGGCGGGCGAGGGGGCTATCGCTGGCGCGCTGAGAGATAGCTTGTGTCTGCTGCAAAAGAGCTATCGCTTCGGCAGTCACTCCGGCATTGGGAGCCTGGCGCGGGCGGTGAACGCTGGCGCGCGCGCGGAGGTGAAGGCCACGCTGCGCCAGCCGTTTGACGATATCGCGCTTCATCCCCTCAGCACGACCGAAGAGTACGAAGCCATGCTCGGCGCGGCACAGCAGGGCTATGAGCGCTACCTGCAGCTGCGCCGCGAGCGGGCGGAACCGCAGGCGATGCTGGCCGCCTTCAGCGAATTTCAGCTGCTGTGCGCGCTGCGGGAAGGGCCGTACGGCGTGAGCGGCGTCAATGAGCGGCTGGAGCAGCGGCTCAACCGTCAGCGGGCGATCGCCCTGCCGCGCCACTCCCGCTGGTATGACGGCCGGCCGATTATGATCGCGCGCAACGACAGCGCGCTGGGACTGTTTAATGGCGATATCGGGATAGCGCTGGAGCGCAACGGCGAGCTGAGGGTGTGGTTCCTGATGCCCGACGGCGCCATCAAGTCGGTGCAGCCGAGCCGCCTGCCGGAGCATGATACCGCCTGGGCGATGACCGTGCATAAATCGCAGGGATCGGAGTTCGACCATGCGGCGCTGATCCTGCCGGCGCGCAGCGTCCCGCTGGTGACGCGCGAACTGGTCTACACCGCGATCACCCGCGCGAAACAGCGGTTGTCGCTCTATGCCGACGAGCAGGTGCTCTCCCAGGCCATTGTGACGCGAACCGAGCGGCGAAGCGGCCTGACGGAGATCTTCGCCGGGCACAAAGCCCCCTGA	MTFEQLLLAAVEQRLLRPLDVQFALMVAQNDPPAVKLAAALLSRDAGEGHVCLPLSRLSGDEALGGKAGEIRDRLLAEAGAPEDWPALLLASSAVSCGDAPAPMILCGDRLYLNRMWRNELTVARFFNEANRVLEMDEARLASTLNALFPATGETDWQKVAAAVALTRRISVISGGPGTGKTTTVAKLLAALIQIEDSPRCRIRLAAPTGKAAARLTESLGAALRKLPLTDAQKALIPTEASTLHRLLGAQPGSQRMRYHAGNPLHLDVLVVDEASMIDLPMMSRLIDALPAHGRVIFLGDRDQLASVEAGAVLGDICAWASSGYTAARAQELTRLTGSPVPAGEGAIAGALRDSLCLLQKSYRFGSHSGIGSLARAVNAGARAEVKATLRQPFDDIALHPLSTTEEYEAMLGAAQQGYERYLQLRRERAEPQAMLAAFSEFQLLCALREGPYGVSGVNERLEQRLNRQRAIALPRHSRWYDGRPIMIARNDSALGLFNGDIGIALERNGELRVWFLMPDGAIKSVQPSRLPEHDTAWAMTVHKSQGSEFDHAALILPARSVPLVTRELVYTAITRAKQRLSLYADEQVLSQAIVTRTERRSGLTEIFAGHKAP				NA	NA	NA	NA	NA
BMS020_01735	3537	recB_1	COG1074	RecBCD enzyme subunit RecB	ATGACCGACACCGCTGAGTCTTTGGATCCCCTGCGCTTGCCCTTGAGGGGCGAGCGCCTGATAGAAGCCTCTGCGGGCACCGGAAAAACCTTTACCATCGCCGCGCTGTATCTGCGGCTGCTGCTGGGGCTGGGCGGCGAGGCCGCCTATCCCCGCGCCATCAGCGTTGAAGAGCTGCTGGTGGTGACCTTTACCGAGGCGGCGACCGAAGAGCTGCGCGGACGTATCCGCAGCAACATCCATGAACTGCGCATCGCCTGTATGCGCGGTGAATCCGACAACCCGCTCTACAGCGCGCTGCTGGCGGAGATCGCCGATAAAGACGATGCCGCGAAGACCCTGCTGTTGGCCGAACGGCAGATGGACGAGGCGGCGGTGTTCACCATCCACGGTTTTTGCCAGCGGATGCTGAGCCTTAACGCCTTCGAGTCAGGCATGCTGTTCGAGCAGCAGCTGATCGAGGATGAATCCCGCCTGCGCTATCAGGCCTGCGCCGACTTCTGGCGCCGTCACTGTTATCCACTGACCCGCGATATCGCGGCGGTGATCCATGACGTCTGGAAAGGGCCGCGCGACCTGCTGAAGTCCCTTGACCGCTGGCTGCAGGGCGAAGCGCCGCAGCTCAAGTCGCCGCCAGCCGCCGACGAGACGCTGGCCGAGCGCCATCAGCAAATCATCGGCCGCATTGACTCGCTCAAGCAGCAGTGGCGCGAGCAGGTGGGGGAGATCGAAGGCGTGCTTGAAGATTCCGGCCTTGACCGGCGGAAGTTCAATCGCGGCAACCAGGGCAAATGGCTTGAGAAAGTGACCGCCTGGGCGCAGGAAGAGACGCTGAGCTATCAGTTGCCCGACGCGCTGGAGAAATTTGCCCAGTCGTTTCTGCTTGAGCGTACCAAAGCCGGTGGCGAACCGCCCGTGCATCCTCTGTTTAGCGCCGTCGAATCGCTGCTGGCCTCGTCGCTGACGCTCACCGATCTGGTGCTGGCGAGAGCGATGGTCGAGATCCGTGATGCGGTCGCGCGCGAAAAGCGCCGCCGCGGCGAGCTGGGGTTTGACGACATGCTCAGCCGGCTTGACGAGGCGCTGCGCGGCGACAGCGGCGAGGCGCTGGCCAGCGCCATTCGCCAGCGTTTTCCGGTGGCGATGATCGATGAGTTTCAGGATACCGACCCCCAGCAGTACCGGATTTTCCGCCGTATCTGGCGCCAGCGTCCGGAAACGGCGCTGTTGCTGATCGGCGATCCGAAGCAGGCCATCTACGCTTTTCGCGGCGCCGATATCTTTACCTATATGAAAGCGCGCGGCGACGTTGCCGCGCACTACACGCTTGACACCAACTGGCGCTCCTCCCCTGGCATGGTGGGCAGCGTTAACCGGCTGTTCAGCCTCAGCGATAACCCCTTCATGTTTCGCGAGATACCGTTCCTGCCGGTGAAGTCGGCGGCGAAGAACCAGGGGCTGCGCTTTACCGTTGACGCAGCGGATGTCCCGGCGATGAACGTCTGGCTGATGCCCGGCGACACCGTTGGCGCCGGCGATTATCAGACGTTTATGGCCCAGCTCTGCGCCACGCAGATCCGCGACTGGCTGAGCGCCGGTCAGCAGGGGCGCGCACGGCTGTGGCGTGGGGAAACTTCGCGCCCGGTGCAGGCTTCGGATATTACCGTGCTGGTGCGCAACCGGCTGGAGGCGGCGCAGGTGCGTGAAGCGCTCCAGACGCTGGGCATCCCCTCGGTCTACCTCTCCAACCGCGACAGCGTTTTTGAGACGCTGGAGGCCCAGGAGCTGCTCTGGCTATTGCAGGCGGTGTTGTCCCCGGAGCGGGAAAATACCCTGCGCAGCGCGTTGGCGACCTCAATGTTTGGCCTGACCGCGCTGGATATTGAAAACCTCAACCAGGATGAGCAGGCGTGGGACGCGCTGGTGGAGGAGTTCAGCGAATACCGCCAGATCTGGCGTCAGCGCGGGGTGATGCCGATGCTGCGGGCGCTGATGACGGCCCGGCACATCGCCGAGAACCTGCTGGCGACCCGGGGCGGCGAGCGGCGCTTAACCGACATACTGCACATCAGCGAATTGCTGCAGGAGGCGGCCAGCCAGCTGGAAAGCGAGCATGCCCTGGTGCGCTGGCTGACGCAGCATATCGCCGAGCCGGACAGCAACGCCGCCAGCCAGCAGATGCGTCTCGAAAGCGATAAGCACCTCGTGCAAATCGTCACTATTCACAAGTCAAAAGGACTGGAATATCCCCTGGTCTGGCTGCCGTTTATCGCCCGGTTTCGCAAACAGGACCAGGCGTTCTATCACGATCGCGAGACGTTCGCGGCGGTACTGGATCTGGGCCAGGATGAGGCCAGCCTCGAGCTGGCAGAGGCGGAACGGCTGGCGGAAGATCTGCGCCTGCTGTACGTCGCTCTCACCCGCGCGGTCTGGCACTGCAGCCTTGGCGTGGCGCCCCTCAGCAGTCGAAAGTCCGGCAACAGCGATTTTCATCTGAGCGCCCTCGGGCGGCTGCTGCAGGCGGGCGAAGCCATGGATGCCGCCGGGCTGGCCGCGCGTTTAGCGGACTTCTGCCATGGCGATATTGCATTACAGAGACCTGGCGAGCTGGATCTGACCCCGTGGCAGGCGCCGGCGGCGAGCATTCCCCCGCTGTCGGCGCGCGAGCTGCAGCGCCGCATCGCCGACGACTGGCGGGTGACCAGCTACTCCGGGCTGCAGCAGCATGGTTTCAGCGGCGGACAGGATCTGCTGCCGCGTCTGGATGTCGATGCCGCCGGCGTCGGCGAAGTCGTGGAAGATCCGCAGCTGACCCCGCACCAGTTTCCGCGCGGCGCCGCGCCGGGAACCTTCCTGCACAGTCTGTTTGAGGAGCTGGACTTTACCCAGCCGGTGCCGGACGGGTGGATGGCGGAGAAACTGCAGCTGAGCGGGTTTGACGCGCAGTGGGCGCCGGTGCTGACCGACTGGCTGGGGGGCGTGCTGAAGACCCGTCTGCCGGGGCCGGATATCGCGCTCAATCAGCTTGCGGCGCGGGATAAACAGGTGGAGATGGCATTTTATCTGCCCATCGCCCAGCTGCTGACGGCGGAGCGCCTTGACGCGCTTATCCGCCAGTACGATCCCCTTTCCGCCGACACGCCGCCGCTGGATTTCCGCCAGGTGCGCGGCATGCTGAAGGGCTTTATCGATCTGGTCTTCCGCCACGAAGGCCGCTATTACCTGCTGGATTACAAATCGAACTGGCTGGGGGAAGATCGCGAGGCCTATACCCGGCCCGCGATGGAGCAGGCGATGCGGGCTCACCGCTACGATCTGCAGTATCAGCTGTACAGCCTGGCGCTCCACCGCTATCTGCGCCACCGGCTGGCCGATTACGACTATGACCGCCACTTCGGCGGCGTGATTTATCTCTTCCTGCGCGGCATGGACGGGCAGGAGGGGGGGCAAGGGATCTTCACCACCCGGCCGGTGCGACCGCTGATTGACGGTCTGGATCAGCTTTTTGCCGGAGAAACTCAGGAGGAGGCCTCATGA	MTDTAESLDPLRLPLRGERLIEASAGTGKTFTIAALYLRLLLGLGGEAAYPRAISVEELLVVTFTEAATEELRGRIRSNIHELRIACMRGESDNPLYSALLAEIADKDDAAKTLLLAERQMDEAAVFTIHGFCQRMLSLNAFESGMLFEQQLIEDESRLRYQACADFWRRHCYPLTRDIAAVIHDVWKGPRDLLKSLDRWLQGEAPQLKSPPAADETLAERHQQIIGRIDSLKQQWREQVGEIEGVLEDSGLDRRKFNRGNQGKWLEKVTAWAQEETLSYQLPDALEKFAQSFLLERTKAGGEPPVHPLFSAVESLLASSLTLTDLVLARAMVEIRDAVAREKRRRGELGFDDMLSRLDEALRGDSGEALASAIRQRFPVAMIDEFQDTDPQQYRIFRRIWRQRPETALLLIGDPKQAIYAFRGADIFTYMKARGDVAAHYTLDTNWRSSPGMVGSVNRLFSLSDNPFMFREIPFLPVKSAAKNQGLRFTVDAADVPAMNVWLMPGDTVGAGDYQTFMAQLCATQIRDWLSAGQQGRARLWRGETSRPVQASDITVLVRNRLEAAQVREALQTLGIPSVYLSNRDSVFETLEAQELLWLLQAVLSPERENTLRSALATSMFGLTALDIENLNQDEQAWDALVEEFSEYRQIWRQRGVMPMLRALMTARHIAENLLATRGGERRLTDILHISELLQEAASQLESEHALVRWLTQHIAEPDSNAASQQMRLESDKHLVQIVTIHKSKGLEYPLVWLPFIARFRKQDQAFYHDRETFAAVLDLGQDEASLELAEAERLAEDLRLLYVALTRAVWHCSLGVAPLSSRKSGNSDFHLSALGRLLQAGEAMDAAGLAARLADFCHGDIALQRPGELDLTPWQAPAASIPPLSARELQRRIADDWRVTSYSGLQQHGFSGGQDLLPRLDVDAAGVGEVVEDPQLTPHQFPRGAAPGTFLHSLFEELDFTQPVPDGWMAEKLQLSGFDAQWAPVLTDWLGGVLKTRLPGPDIALNQLAARDKQVEMAFYLPIAQLLTAERLDALIRQYDPLSADTPPLDFRQVRGMLKGFIDLVFRHEGRYYLLDYKSNWLGEDREAYTRPAMEQAMRAHRYDLQYQLYSLALHRYLRHRLADYDYDRHFGGVIYLFLRGMDGQEGGQGIFTTRPVRPLIDGLDQLFAGETQEEAS				NA	NA	NA	NA	NA
BMS020_01736	2886	ptrA	COG1025	Protease 3	ATGCCCCGCAGTTTATGGTTCAAGGTTTTTGTAGTGCTGGCCGCCCTCTGGGCGCCGTTGAGTCAAGCCGACACCGGATGGCAGCCTGTTCAGGAGACGATCCGCATAAGCGAAAAAGATACGCGTCAGTATCAGGCGATCCGTCTTGATAACGACATGGTCGTGCTGCTGGTTTCCGATCCGCAGGCGGTGAAATCGCTGTCGGCGCTGGTGGTGCCGGTGGGATCCCTGCAGGATCCGGCCGATCATCAGGGGCTGGCGCATTTTCTGGAACATATGACGCTGATGGGGTCGCAAAAATATCCCCAGCCTGACAGCCTTGCAGAGTTTCTTAAGCTGCATGGCGGCAGCCATAACGCCAGCACCGCGCCCTACCGCACCGCGTTCTATCTCGAAGTGGAGAATGATGCGCTGGACGGGGCCGTAGACCGGCTGGCCGACGCCATCGCTGCGCCGCTGCTGGATAAAAAATATGCCGACCGCGAACGTAACGCGGTCAACGCCGAGCTGACGATGGCCCGGACGCGAGACGGGATGCGCATGGCCCAGGTCAGCGCAGAAACCATTAACCCGGCTCACCCGGCGGCCCACTTCTCTGGCGGCAACCTCGAGACGCTCAGCGATAAGCCCGGCAACCCGGTTCTTGATGCGCTGCACACCTTCCGCGATAGCTGGTACTCCGCCAACCTGATGAAAGCGGTGATCTACAGCAACAAGCCGTTGCCGGAGCTGGCGCGCATGGCCGCTGACACCTTTGGCCGCGTGCCGAATCGTCACATCAGCAGGCCGGAAATAAGCGTCCCGGTGGTAACCGATGCGCAAAAAGGCATCATTATTCACTACGTGCCGGCGATGCCGCGTAAAGTGCTGCGCGTCGAGTTTCGCATCGACAACAACAGCGATCGTTTCCGCAGCAAAACGGATGAACTGGTCACTTACCTGATCGGCAACCGCAGCCCGGGGACGCTCTCCGACTGGCTGCAAAAGCAGGGACTGGCGGAAGGTATCCGCGCGGATTCTGATCCGGTGGTGAACGGCAACAGCGGCGTGCTGGCGATCTCGGCCACCCTCACCGATAAAGGCCTGGCGCACCGCGACGAAGTGACGGCGGCCATATTCAGCTACCTCAACCTCCTGCGTACTCAGGGTGTCGACAAACGTTACTTTGACGAGTTGGCGCATGTGCTGGCGCTGGATTTCCGCTATCCGTCGATCAACCGCGACATGGATTACGTGGAATGGCTGGCGGATACCATGATCCGGGTGCCGGTCGAGCATGCGCTGGACGTGGTCAACATTGCCGATCGCTACGACCCGCAGGCGATCAAAGACCGGCTGGCGATGATGACTCCGCAGAACGCGCGCATCTGGTATATCAGCCCGCAGGAACCGCATAACAAGACCGCTTATTTTGTCGATGCGCCGTATCAGGTGGATAAGATCGGCGAGCAGACGTTCGCTGACTGGCAGCAAAAAGCGCAGGCGATCAAGCTGCAGCTGCCGGCGCTCAACCCCTATATTCCGGATGATTTCACCCTCATCAAAAGCGATAAAGCCTGGCCGCACCCTCAGCTGATTCTCGATGAGCCGACCCTGCGGGTGGTTTATGCCCCGAGCCAGTATTTCGCCAGCGAGCCGAAGGCGGATATCTCCCTGGTGCTGCGTAATCCCCAGGCGATGGACAGCGCTCGCCGGCAGGTGATGTTTGCCCTCAACGATTATCTCGCCGGCATCGCCCTCGATCAGCTCAGTAACCAGGCGGCGGTCGGCGGCATTTCGTTCTCCACCGGCGCCAATAACGGGTTAATGGTCAATGCCAACGGCTACACCCAGCACCTGCCGGCGCTGTTCAGCGACCTGCTGCAGGGATACTTCAGCTATACGCCGACCGAGGAGCAGCTGGAGCAGGCCAAATCATGGTATGCGCAAATGATGGACTCCGCTGAGAAGGGCAAAGCCTACGATCAGGCGATAATGCCGATCCAGATGGTCTCCCAGGTACCGTATTTCCAGCGCGAAGTACGCCGGGCGCTGTTGCCTTCCATCACCTTGCAGGAAGTGCTCGACTACCGCGCCAACCTGAAAACCAAGGGGCGCCCTGAACTGATGGTGATCGGCAATATGTCCGCCGATGCCGCCACGACGCTGGCTCGCCAGATCCAGCAGCAGCTGGGCGCTGACGGCAACGAATGGTGCCGCAATAAAGACGTGGTGGTGAACCGGCAGCAGCTGGCGATCTTCAACAAAGCGGGCAACAGCACCGACTCCGCGCTGGCCGCGGTGTTTGCGCCGCCCAACGTGGATGAGTTCAGCAGCACCGCCGCCAGCACCCTGCTGGGACAGATTATTCAGCCGTGGTTCTACAACCAGCTGCGCACCGAAGAGCAGCTCGGCTACGCGGTCTTTGCCTTCCCGATGAACGTGGGGCGCCAGTGGGGCATGGGCTTCCTGCTGCAGAGTAGCGATAAGCAGCCGGCTTTCCTCTGGCAGCGGTTCCAGGCCTTCTTCCCCACCGCGGAGGCGAAGCTGCGGGCGATGAAGCCGGAAGAGTTTGCCCAACTCCAGCAGGCGGTGATAAGCCAGATGCTGCAGGCGCCGCAGACGCTGGGCGAAGAGGCATCGAAACTGAGCAAAGATTTCGATCGCGGTAATATGCGTTTTGATTCACGTGATAAAGTAGTGGCTCAGATTAAACTGCTGACGCCGCAAAAACTTGCCGATTTCTTCCATCAGACGGTGGTGGATCCGCAGGGCATGACGATATTGTCCCAGATTTCCGGTAGCCAGAATGGCAAAGCGGACTACGCCCAGCCGGCAGGCGGCAAAGTGTGGGAAAACGTCAGCGCATTGCAGCAATCCTTACCCCTGATGCGAGAGAATGAATGA	MPRSLWFKVFVVLAALWAPLSQADTGWQPVQETIRISEKDTRQYQAIRLDNDMVVLLVSDPQAVKSLSALVVPVGSLQDPADHQGLAHFLEHMTLMGSQKYPQPDSLAEFLKLHGGSHNASTAPYRTAFYLEVENDALDGAVDRLADAIAAPLLDKKYADRERNAVNAELTMARTRDGMRMAQVSAETINPAHPAAHFSGGNLETLSDKPGNPVLDALHTFRDSWYSANLMKAVIYSNKPLPELARMAADTFGRVPNRHISRPEISVPVVTDAQKGIIIHYVPAMPRKVLRVEFRIDNNSDRFRSKTDELVTYLIGNRSPGTLSDWLQKQGLAEGIRADSDPVVNGNSGVLAISATLTDKGLAHRDEVTAAIFSYLNLLRTQGVDKRYFDELAHVLALDFRYPSINRDMDYVEWLADTMIRVPVEHALDVVNIADRYDPQAIKDRLAMMTPQNARIWYISPQEPHNKTAYFVDAPYQVDKIGEQTFADWQQKAQAIKLQLPALNPYIPDDFTLIKSDKAWPHPQLILDEPTLRVVYAPSQYFASEPKADISLVLRNPQAMDSARRQVMFALNDYLAGIALDQLSNQAAVGGISFSTGANNGLMVNANGYTQHLPALFSDLLQGYFSYTPTEEQLEQAKSWYAQMMDSAEKGKAYDQAIMPIQMVSQVPYFQREVRRALLPSITLQEVLDYRANLKTKGRPELMVIGNMSADAATTLARQIQQQLGADGNEWCRNKDVVVNRQQLAIFNKAGNSTDSALAAVFAPPNVDEFSSTAASTLLGQIIQPWFYNQLRTEEQLGYAVFAFPMNVGRQWGMGFLLQSSDKQPAFLWQRFQAFFPTAEAKLRAMKPEEFAQLQQAVISQMLQAPQTLGEEASKLSKDFDRGNMRFDSRDKVVAQIKLLTPQKLADFFHQTVVDPQGMTILSQISGSQNGKADYAQPAGGKVWENVSALQQSLPLMRENE	PGPT0001270_319	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001270-pqqF-K01407	NA	NA
BMS020_01737	3378	recC_1	COG1330	RecBCD enzyme subunit RecC	ATGTTAAGGGTATACCACTCAAACCGGCTGGATGTTCTCGAGGCGTTGATGGAGTTTATCGTCGAGCGCCAGCGGCTGGATGACCCTTTTCAGGCTGAAATGGTGCTGGTGCAGAGTACCGGTATGGCGCAGTGGCTGCAGATGACCCTGGCCTCGCGCTTCGGAATTGCCGCCAACATCGAGTTTCCGCTGCCGGCGAGCTTTATCTGGGATATGTTCGTGCGCGTCCTGAAAGATATCCCTGGCGAAAGCGCCTTCAGCAAGCAGAGCATGAGCTGGAAGCTGATGACTCTCCTGCCGCAGCACCTGGAAGAAGACGATTTTATCCTGCTGCGCCAGTATCTGAGCGATGACGGCGACAAACGCAAGCTGTTTCAGCTGGCCGCCCGGGTAGCGGACCTCTATGACCAGTATCTGGTCTATCGCCCGGAATGGCTGATGCGCTGGGAGGCCGACCAGCAGGTTGACGGCCTCGGCGACGCCCAGCAGTGGCAGGCGCCGCTGTGGAAAGCGCTGGTGCGCTATACCGCCGAGCTCGGTCAGCCGCAGTGGCACCGCGCCAATCTCTATCAGCGCTTTATCAGCGCCCTGGAAAAGGCGGATGAACCGCCCGCCGGGCTGCCGTCGCGCGTCTTTATTTGTGGAATTTCCGCGCTGCCGCCGGTCTACCTGCAGGCGCTGCAGGCGCTGGGTAAGCATGTCGATGTCTATGTGCTGTTCACCAACCCCTGCCGCTACTACTGGGGAGATATTAAAGATCCGGCGTTTCTGGCGAAGCTACTGTCGCGTCAGCGACGCCATCACCGCGAGGCGCGCGCGCTGCCCCTGTTCCGCGACGCCGGGCAGGCGCCAGGGCTGTTTAATGACGCCGGGGAGCAGGATGTCGGCAACCCGCTGCTCGCCTCCTGGGGCAAGCTGGGACGCGACTATATCTACCTGCTGGCGGGGCTGGAGCGCTATGAGGAGCTGGACGCCTTTGTCGATATCGTTCCTGATAACCTGTTGCATAACCTGCAGTCGGATATCCTCGAACTGCGCAACGCGGCGGTGGCCGGGCAGAGCGCAGAGGCGTTCGCTCACAGTCACGACAAACGTCCGCTGGCGCAGGATGACCGCAGCCTGAGCATTCACGTCTGCCACAGTCCGCAGCGTGAGGTGGAGGTTCTGCACGATCGGCTGCTGGCGATGCTGGAGGCGGATCCGACGCTCACGCCGCGGGATATCATCGTCATGGTGGCGGATATCGATAGCTACAGCCCCTATATACAGGCGGTGTTTGGCGCCGCCAGCGGCGACCGCTGGCTGCCGTGGGCGATCTCCGACCGCCGCGCCCGGGAGTCGCACCCTGTGCTGCAGGCGTTTATCACGCTGCTCTCGCTGCCCGACAGCCGCTTCGCCAGCGAAGATGTGCTGGCGCTGCTGGACGTGCCGGTGCTGGCGGCGCGCTTTAACATCAACGAAGAGGGGCTGCGCTACCTGCGCCAGTGGGTCAACGAGTCCGGGGTCCGCTGGGGAATGGATGACGACAACGTCCGTGAGCTTGACCTGCCGGCGACCGGCCAGCACACCTGGCGGTTCGGTCTTACCCGCATGCTGCTGGGCTACGCGATGGACAGCCGGGAGGGCGAATGGCAGTCGGTGCTGCCCTATGACGAATCCAGTGGTTTGATCGCCGAACTGGTGGGTAACCTCGCATCGCTGCTGATGCAGCTTAACCTGTGGCGACGCGGTCTCGCCCAGCAGCGGCCGCTGGCGGAGTGGCTGCCGGTCTGTCGCGATCTGCTGAATGACTTTTTCCTGCCGGACAGCGAGACCGAAGCGGCGCTGGCGCTGATTGAGCAGCAGTGGCTGGCGGTGATTGATAGCGGTCTGGAAGCGCAGTATGGCGACCAGGTGCCGTTGACGCTGCTGCGCGATGAGCTGGCCCAGCGCCTCGATCAACAACGGATCAGCCAGCGCTTTCTCGCCGGCCCGGTCAACATCTGCACCCTGATGCCGATGCGCTCTATTCCTTTCAAAGTGGTTTGCCTGCTGGGGATGAACGATGGGGTTTATCCGCGAACGCTGCCGCCGCTGGGCTTTGATTTAATGAGCCAGAAGCCGCAGCGCGGCGACCGCAGCCGGCGCGATGATGACCGCTACCTGTTCCTTGAGGCGCTGATGTCCGCCGAACAGACGCTGTATATCAGCTACATCGGCCGTTCTATCCAGGACAACAGCGAGCGCTTTCCCTCGGTGCTGGTGCAGGAGCTGGTGGATTACATCGGCCAGAGCCACTGTCTCGCCGGCGACGAGGAGCTTGATTGCGACACCAGCGAGGCGCGGGTTAAAGCCCACATCACTCACCTGCATACCCGCATGCCGTTCGACATCGCCAATTTCCAGGAGGACGAGAACAAGAGCTACGCCCGGGAATGGCTGGCTGCCGCCGGCCAGCAGGGTGAGGCGCATAGCGACTTCATTCAACCACTTACCCCGCCGCCGATAGACAGCCTGCCGTTCGAGCAGCTCCTGCGCTTCTGGCAGCACCCGGTTCGCGCGTTCTTTCAGCAGCGTCTGCGGGTCAATTTCCGTGCGGAAGAGGATGATATTCCCGATGACGAGCCCTTCACCCTGGAAGGGCTGAGCCGTTATCAACTGAACCAGCAACTGCTCAATACCCTTATCGAGGAACAGGACGCCTCGGCCATGTTCCGCCGCTTCCGCGCCGCCGGCGAGCTGCCGTATGGCGCCTTTGGCGAGCTGGTGTGGGAGACGCAGCGTCTGGAGATGCAGGCCCTGGCCGAGCGGGTGAAAGCCGAGCGCCAGCAGGCGCAGAGCATGGAGATCGATCTCCAGTGCAGCGGCGTCAATCTGACCGGCTGGCTGCAGCAGGTGCAGCCGGACGGGCTGCTGCGCTGGCGGCCTTCGCTGCTGAGCGTCTCCCAGGGGATGCAACTTTGGCTGGAACACCTTGTCTACTGTGCCAGCGGCGGCACCGGCGAGAGCCGACTGTTTGTGCGTAAAGAGGGAGAGTGGCGTTTTCCGCCGCTGGCGCCCGCCGAGGCGCAGGCGTACCTTAATGAGCTGGTGGATGGCTATTTGCTGGGGATGTCGCAGCCGCTGCTGCTGCTGCCGGAAAGCGGTGGCGCCTGGCTGAAAGCCTGTTATGACGCCGAAAAGGATGTCATCGTAATGGACGAAGAGACGCAGCAGAAAGCGCGGAGCAAATTCCTGCAGACCTACGAAGGTAACATGGTGGTCAGCGGGGAGGGCGCCGATATCTGGTATCAACGCCTGTGGCGTTCGCTGGAGCCGGCGCATTACGAAGAAATCATTGCCCAGACGCAGCGTTATCTGTTACCGCTATATCGTTACCATCAGTCCACACAAATTTAA	MLRVYHSNRLDVLEALMEFIVERQRLDDPFQAEMVLVQSTGMAQWLQMTLASRFGIAANIEFPLPASFIWDMFVRVLKDIPGESAFSKQSMSWKLMTLLPQHLEEDDFILLRQYLSDDGDKRKLFQLAARVADLYDQYLVYRPEWLMRWEADQQVDGLGDAQQWQAPLWKALVRYTAELGQPQWHRANLYQRFISALEKADEPPAGLPSRVFICGISALPPVYLQALQALGKHVDVYVLFTNPCRYYWGDIKDPAFLAKLLSRQRRHHREARALPLFRDAGQAPGLFNDAGEQDVGNPLLASWGKLGRDYIYLLAGLERYEELDAFVDIVPDNLLHNLQSDILELRNAAVAGQSAEAFAHSHDKRPLAQDDRSLSIHVCHSPQREVEVLHDRLLAMLEADPTLTPRDIIVMVADIDSYSPYIQAVFGAASGDRWLPWAISDRRARESHPVLQAFITLLSLPDSRFASEDVLALLDVPVLAARFNINEEGLRYLRQWVNESGVRWGMDDDNVRELDLPATGQHTWRFGLTRMLLGYAMDSREGEWQSVLPYDESSGLIAELVGNLASLLMQLNLWRRGLAQQRPLAEWLPVCRDLLNDFFLPDSETEAALALIEQQWLAVIDSGLEAQYGDQVPLTLLRDELAQRLDQQRISQRFLAGPVNICTLMPMRSIPFKVVCLLGMNDGVYPRTLPPLGFDLMSQKPQRGDRSRRDDDRYLFLEALMSAEQTLYISYIGRSIQDNSERFPSVLVQELVDYIGQSHCLAGDEELDCDTSEARVKAHITHLHTRMPFDIANFQEDENKSYAREWLAAAGQQGEAHSDFIQPLTPPPIDSLPFEQLLRFWQHPVRAFFQQRLRVNFRAEEDDIPDDEPFTLEGLSRYQLNQQLLNTLIEEQDASAMFRRFRAAGELPYGAFGELVWETQRLEMQALAERVKAERQQAQSMEIDLQCSGVNLTGWLQQVQPDGLLRWRPSLLSVSQGMQLWLEHLVYCASGGTGESRLFVRKEGEWRFPPLAPAEAQAYLNELVDGYLLGMSQPLLLLPESGGAWLKACYDAEKDVIVMDEETQQKARSKFLQTYEGNMVVSGEGADIWYQRLWRSLEPAHYEEIIAQTQRYLLPLYRYHQSTQI				NA	NA	NA	NA	NA
BMS020_01738	324			hypothetical protein	ATGTCAAATGCCATGAAGCGCCAGCGGGGTTTTAGCCTGCCGGAGACCGTGCTGGCGATGGCGCTGATGGTGCTGACGGTCGCCGCGCTGGGCGGCTATCAGCGCGGAATGGCGCAAGGGGTCCACCAGCTGAACCAGACGCGTCAGCTATGGCGCGACGCCTGGCGCTATAGCCAGCTCTCCGCGCCGCCTCCGCCGGCAGGCGAGCAGGTAAGCCGTATGCAGACATCGACGCAAAGATGTGTCAGCATCACGGTAACGATCAGTATGCCCGTTGCAAAGCGGGCGCAGATGACCCGGCTGCATTGCCCGGTCAGCCAGTAG	MSNAMKRQRGFSLPETVLAMALMVLTVAALGGYQRGMAQGVHQLNQTRQLWRDAWRYSQLSAPPPPAGEQVSRMQTSTQRCVSITVTISMPVAKRAQMTRLHCPVSQ	PGPT0016140_187	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IVa_PILUS_HOMOLOG_PROTEIN,PGPT0016140-ppdC-K02681	NA	NA
BMS020_01739	390			hypothetical protein	ATGTCGTCGCTGCTGATGGTGCTCCTGTTGCTGACTCTCGGTAGCCTGCTGCTTGAGGGGCTTAACCTGCAGCAGCGGGCGCTGCTGGCGCAAACCGCCAGCGAAACGCAGGCGATCCGCGATACGGCTGTGGCCCATTCGGCGCTACAGTGGGGAAAACAGCAGGCCTGGTCGACACAGGCGCCGCTGGCCTGCCGCGAGCAGGCGCAGCAGGGCTGGCGCGCCTGTCTGCGCATCTTCGACGACGGTTCGCTGCTGCTCAGCAGCGCCAGCGGCGAGGTGCAGGTCTGGCAGTCCGGCGAGGTGCGCGGCGGGCAGGTGCGTTTCTCCGCCCATGGCTGGAGCGATTTTTGCCCGCTCAGGGAGGTGAGCTTATGTCAAATGCCATGA	MSSLLMVLLLLTLGSLLLEGLNLQQRALLAQTASETQAIRDTAVAHSALQWGKQQAWSTQAPLACREQAQQGWRACLRIFDDGSLLLSSASGEVQVWQSGEVRGGQVRFSAHGWSDFCPLREVSLCQMP				NA	NA	NA	NA	NA
BMS020_01740	558			hypothetical protein	GTGAGCCGCCGCGGGTTTTCCCTTGCGGAGGCGCTTATCGCCATGGCGATAGGCTCGCTGCTGCTGATTGGCGCCTGCCGCTTTCTACCCGCCCTGCAGCGCCATATTCTGCGCCAGGGCGAACAGCTGGCCCTGGAGAACGAACTGTGGCAGCGGGTGCATGCCGTGGGTAAACATCTGCAGCGCGCCGGATACTGCCGGGGAGCGTGCGGCGGAGCCGGACTGGAGCTTGCCGCCGACGGCGAGTGCCTGATTGTGCGCTGGGACGCGAACAGCAATGGGACATGGGAAACCTCCCCTGCGGCAGCGGCGGAGAGCACCGGCTTTCGCCTGCGCGATGGCGCGCTGGAGACTTTGCGCGGAGCCAGCGACTGCCGCGGCAGCGGATGGGAGAAAATCACCAATCCGGCCGCTATGGTGGTGACGCGCTTTGCGGCGCAGCGTCTGCTGACCGAGGGCTTCGCGCCGGAGCTGATCGTGACGCTGGCGGCGCGCTCTGCCCGGCAGGCGGGTCTGGCGGCCGAGGTGGAGCAGCGGGTGACGGGGTATAACCTGTGA	MSRRGFSLAEALIAMAIGSLLLIGACRFLPALQRHILRQGEQLALENELWQRVHAVGKHLQRAGYCRGACGGAGLELAADGECLIVRWDANSNGTWETSPAAAAESTGFRLRDGALETLRGASDCRGSGWEKITNPAAMVVTRFAAQRLLTEGFAPELIVTLAARSARQAGLAAEVEQRVTGYNL	PGPT0016135_363	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IVa_PILUS_HOMOLOG_PROTEIN,PGPT0016135-ppdB-K02680	NA	NA
BMS020_01741	594			hypothetical protein	ATGTTGGAAAGAGGCTCGCAAAAAAATGTTCTGCTGTTGATCATACAAACCTTTTTTGCGTGTCTGGCCGGGAAAGCTATTTTCCGTCGTCGCGCCAGGGCTAACCGCCGCGGCATACTCTGCGCCATGAACAGAGAACATGGCTATACCCTGATGGAAACCCTGGTGACGCTGACGTTAATGATGATCCTCAGCGTCGGCGGCCTGTACGGCTGGCAGCGCTGGCAGCAGCAGCAACGACTGTGGCAAACCGCCGTCCAGGTGCGGGATTTCCTGGTCTTCCTGCGCGATGACGCCAACGCCTACAACCGGGACCGCGTGCTTCGCGTCGGCCAGGATGAAGAGGGCTGGTGCCTGAGTGCGCAGGCGGAGGCGTCGGCGTGCGCCTCCGGGTCAACCTTAACGCTGCGCCCGCGCTGGCCGGGGATCTCGCTGGCTGGCGTCACGCCTGGCCTGGGATTCTACGGACTGCGCAGCACCGCCTGGGCGGGCAATCTGCGGCTGCAGAGCGAGGCCGGCAGCTGGAGCATTGTGATTTCACACTGGGGGCGGATTCGTTTATGCCGTAGCGACAGCGCGGGAGGGTGCCAGTGA	MLERGSQKNVLLLIIQTFFACLAGKAIFRRRARANRRGILCAMNREHGYTLMETLVTLTLMMILSVGGLYGWQRWQQQQRLWQTAVQVRDFLVFLRDDANAYNRDRVLRVGQDEEGWCLSAQAEASACASGSTLTLRPRWPGISLAGVTPGLGFYGLRSTAWAGNLRLQSEAGSWSIVISHWGRIRLCRSDSAGGCQ	PGPT0016130_10	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IVa_PILUS_HOMOLOG_PROTEIN,PGPT0016130-ppdA-K02679	NA	NA
BMS020_01742	795	thyA_1	COG0207	Thymidylate synthase	ATGAAACAGTATCTTGATTTGATGCAGAAAGTGCTCGCCGAGGGCACGCCAAAAAATGACCGCACCGGCACTGGCACGATCTCTATTTTCGGCCATCAGATGCGTTTTAACCTGCAGGAAGGCTTCCCGCTGGTGACCACCAAGCGCTGTCATTTACGCTCCATCATCCATGAACTGCTGTGGTTCCTGCAGGGTGACACCAACATCGCCTATCTGCACGACAACAACGTCACCATCTGGGACGAGTGGGCAGATGAAAATGGCGACCTGGGACCGGTTTACGGCAAACAGTGGCGTTCCTGGCCTGCGCCGGACGGTCGTCATATCGACCAGATCAGCACGGTGATGGACCAGCTGAAAAACGACCCGGACTCCCGCCGGATCATCGTTTCGGCGTGGAACGTCGGCGAGCTGGATAAGATGGCCCTGGCGCCGTGCCACGCCTTCTTCCAGTTCTATGTCGCCGACGGCAAGCTCTCCTGCCAGCTGTATCAGCGCTCCTGCGACGTCTTCCTCGGCCTGCCGTTCAACATCGCCAGCTACGCGCTACTGGTGCATATGGTGGCGCAGCAGTGCGATCTGCAGGTCGGCGATTTCGTCTGGACCGGTGGCGATACCCATCTGTACAGCAACCATCTCGAGCAGACTCATCTGCAGCTGAGCCGCGAACCGCGTCCGCTGCCGAAGCTGGTCATCAAACGCAAGCCCGCGTCGATCTTCGACTACCGCTTTGAAGACTTCGAGATTGAAGGTTACGATCCGCACCCGGGAATCAAAGCGCCAGTGGCGATTTAA	MKQYLDLMQKVLAEGTPKNDRTGTGTISIFGHQMRFNLQEGFPLVTTKRCHLRSIIHELLWFLQGDTNIAYLHDNNVTIWDEWADENGDLGPVYGKQWRSWPAPDGRHIDQISTVMDQLKNDPDSRRIIVSAWNVGELDKMALAPCHAFFQFYVADGKLSCQLYQRSCDVFLGLPFNIASYALLVHMVAQQCDLQVGDFVWTGGDTHLYSNHLEQTHLQLSREPRPLPKLVIKRKPASIFDYRFEDFEIEGYDPHPGIKAPVAI	PGPT0008145_3832	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560	NA	NA
BMS020_01743	876	lgt_1	COG0682	Phosphatidylglycerol--prolipoprotein diacylglyceryl transferase	ATGAATAGTGGCTACCTGCATTTTCCGGAGTTCGATCCGGTCATTTTTTCTCTAGGCCCGGTCTCCCTCCACTGGTACGGTTTAATGTACCTGGTGGGCTTTGTCTTTGCGATGTGGCTGGCCACCCGTCGGGCGAATCGTCCGGGCAGCGGCTGGACGAAAAATGAAGTGGAAAACCTGCTTTACGCGGGATTCCTCGGCGTCTTCCTGGGCGGCCGTATCGGCTACGTGCTGTTCTACAACCTGCCGGTCTTTCTTGCCGATCCGTTGTATCTGTTCCGCGTCTGGGACGGCGGCATGTCGTTCCACGGCGGCCTGATCGGCGTGATCCTGGTGATGATTATCTTCGCCAGACGCACCAAACGGACCTTCTTCCAGGTCTCCGATTTTATCGCGCCGCTGATCCCGTTTGGCCTTGGCGCCGGGCGTCTGGGCAACTTTATCAACGGCGAGCTGTGGGGCCGCGTGGACCCAAGCTTCCACTACACGATGATTTTCCCGGGCTCCCGTGCTGAAGACCTGGCGCTGCTGCCGACCCACCCGGAATGGCAATCGCTGTTTGATACCTATGGCGCGCTGCCGCGCCACGCGTCGCAGCTGTACGAGCTGGCGCTGGAAGGCGTGGTGCTGTTCCTGATCCTGAACCTGTTTATCCGTAAACCGCGCCCGACCGGTTCCGTTTCCGGCCTGTTCCTGATTGGCTACGGCCTGTTCCGCATTATCGTGGAATTCTTCCGCCAGCCCGACGCCCAGTTCACCGGCGGCTGGGTGCAGTACATCAGCATGGGGCAGATTCTTTCGATCCCGATGGTGCTTGCGGGTATCATCATGATGGTTTGGGCTTACCGCCACCGTCCGCAGCAACTGAATTCTTGA	MNSGYLHFPEFDPVIFSLGPVSLHWYGLMYLVGFVFAMWLATRRANRPGSGWTKNEVENLLYAGFLGVFLGGRIGYVLFYNLPVFLADPLYLFRVWDGGMSFHGGLIGVILVMIIFARRTKRTFFQVSDFIAPLIPFGLGAGRLGNFINGELWGRVDPSFHYTMIFPGSRAEDLALLPTHPEWQSLFDTYGALPRHASQLYELALEGVVLFLILNLFIRKPRPTGSVSGLFLIGYGLFRIIVEFFRQPDAQFTGGWVQYISMGQILSIPMVLAGIIMMVWAYRHRPQQLNS				NA	NA	NA	NA	NA
BMS020_01744	2247	ptsP	COG3605	Phosphoenolpyruvate-dependent phosphotransferase system	ATGCTCACTCGGTTGCGAGAAATAGTCGAGAAGGTCGCGAGTGCGCCGCGTTTAAACGAGGCGCTGGATATTCTGGTGACGGATGTCTGCCAGGCGATGGAGACGGAAGTCTGCTCGGTTTACCTGGCTGACAATGATCGACGCTGCTATTACCTGATGGCTACCCGCGGGTTAAAAAAACCTCGCGGGCGCACCGTTGCGCTGGCGTTCGATGAAGGCCTGGTGGGGCTGGTTGGCCGCCTGGCGGAGCCCATCAACCTCGCCGATGCGCAAAAACACCCCAGCTTCAAGTATATTCCCGCCGTCAAAGAGGACCGCTTCCGCGCCTTCCTTGGCGTGCCGATCATCCAGCGCCGCCAGCTGTTGGGCGTGCTGGTGGTCCAGCAGCGTGAGCTGCGCCAGTTTGATGAAAGCGAAGAGTCTTTCCTCGTCACTCTCGCCACCCAGATGGCGGCGATCCTCTCCCAGTCCCAGCTGAACGCCCTGTTCGGTCAGTATCGTCAGACGCGCATTCGCGCTCTGCCGGCTTCTTCCGGGGTGGCGATCGCCGAGGGCTGGATGGACGTCAGCCTGCCGCTGATGGAGCAGGTGTATGAAGCCTCGACGCTGGACACCGCCTCGGAACGTGAACGCCTGACCGGCGCGCTGGAAGAAGCGGCCAACGAGTTTCGTCGCTACAGCAAACGCTACGCCGCCGGCGCGCAAAAAGAGACGGCGGCGATCTTCGATCTCTACTCGCACCTGCTCTCCGACGCCCGCCTGCGTCGCGAGCTCTTTGCCGAAGTCGACAAAGGCGCCGTCGCCGAGTGGGCGGTCAAAAAGATCATCGAGAAGTTCGCCGAACAGTTTGCCGCGCTGAGCGACGGCTATCTGAAAGAGCGGGCCGGCGACCTGCGCACGCTGGGTCAGCGTCTGCTGTTCCATCTCGACGACAGTATTCAGGGACCTAACACCTGGCCGGCGCGCATTATCCTCGTGGCGGACGAGCTGTCGGCCACCACCCTCGCCGAGGTGCCGCAGGATCGTCTGGCCGGCGTGGTGGTGCGCGATGGCGCTGCCAACTCCCATGCCGCCATTATGGTGCGGGCCCTTGGCATCCCAACGGTGATGGGCGCCGATATTCAGCCCTCGCTGCTGCATGGCCATACGCTGATTGTCGATGGCTATCGCGGCGAGCTGCTGGTGGATCCTGAACCTGTTCTGTTGCAGGAATATCAGCGGCTTATCAGCGAAGAGAACGAGCTCAGCCGCCTGGCGGAGGACGATCTCCAGCGCGCATCGGAGCTGAAAAGCGGCGAACGGGTGAAAGTCATGCTCAACGCCGGCTTAAGCCCGGAGCACGAAGAGAAGCTCGGCAGCTTTGTTGACGGTATTGGTCTGTACCGTACCGAAATTCCTTTTATGCTGCAGAGCGGCTTCCCCTCAGAAGAGGAGCAGGTCGCCCAGTATCAGGGCATGCTGCAGATGTTTAACAGCAAACCGGTGACCCTGCGTACTCTGGACATCGGCGCGGATAAACAGCTGCCGTACATGCCGATCAGTGAAGAAAACCCGTGCCTTGGCTGGCGCGGGATCCGCATCACCCTCGATCAGCCGGAGATCTTTTTGATCCAGGTGCGAGCGATGCTGCGCGCCAACGCCGCCACCGGCAACCTCAGCATTTTGCTGCCGATGGTGACCAGTCTGGAAGAGGTCGATGAGGCCCGTCGGCTGATCGACCGCGCCAGCCGGGAAGTGGAAGAGATGATCGGCTACGCCATCCCGCGTCCGCGTCTGGGGGTGATGCTGGAGGTGCCGTCGATGGTCTTTATGCTGCCGCAGCTGGCCAGCCGGATCGATTTTATCTCGGTAGGCACGAACGACCTGACCCAGTACCTGCTGGCCGTCGACCGTAACAATACCCGGGTCGCCAGCATGTATGACAGCCTGCATCCTGCGGTATTGCGGGCGCTGGCGATGATCGCCCATGACGCGGAGCGCTTTGGCATCGATCTGCGACTGTGCGGCGAGATGGCAGGCGACCCGATGTGCGTGACGATCCTCATCGGTCTCGGTTATCGCCATCTGTCGATGAACGGCCGCTCGGTGGCGAGGGTGAAATATCTGCTGCGCCGCATCGATATCGAAGAGGCGCAGGAGCTGTCGCGTCGCAGCCTCGAAGCCCAGATGACCGCCGAGGTGCGCCATCAGGTGGCGGCCTTTATGGAGCGGCGCGGTCTCGGCGGCCTGATCCGCGGCGGGCGGTAG	MLTRLREIVEKVASAPRLNEALDILVTDVCQAMETEVCSVYLADNDRRCYYLMATRGLKKPRGRTVALAFDEGLVGLVGRLAEPINLADAQKHPSFKYIPAVKEDRFRAFLGVPIIQRRQLLGVLVVQQRELRQFDESEESFLVTLATQMAAILSQSQLNALFGQYRQTRIRALPASSGVAIAEGWMDVSLPLMEQVYEASTLDTASERERLTGALEEAANEFRRYSKRYAAGAQKETAAIFDLYSHLLSDARLRRELFAEVDKGAVAEWAVKKIIEKFAEQFAALSDGYLKERAGDLRTLGQRLLFHLDDSIQGPNTWPARIILVADELSATTLAEVPQDRLAGVVVRDGAANSHAAIMVRALGIPTVMGADIQPSLLHGHTLIVDGYRGELLVDPEPVLLQEYQRLISEENELSRLAEDDLQRASELKSGERVKVMLNAGLSPEHEEKLGSFVDGIGLYRTEIPFMLQSGFPSEEEQVAQYQGMLQMFNSKPVTLRTLDIGADKQLPYMPISEENPCLGWRGIRITLDQPEIFLIQVRAMLRANAATGNLSILLPMVTSLEEVDEARRLIDRASREVEEMIGYAIPRPRLGVMLEVPSMVFMLPQLASRIDFISVGTNDLTQYLLAVDRNNTRVASMYDSLHPAVLRALAMIAHDAERFGIDLRLCGEMAGDPMCVTILIGLGYRHLSMNGRSVARVKYLLRRIDIEEAQELSRRSLEAQMTAEVRHQVAAFMERRGLGGLIRGGR	PGPT0002030_971	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0002030-ptsP-K08484	NA	NA
BMS020_01745	531	rppH_1	COG0494	RNA pyrophosphohydrolase	GTGATTGATGACGATGGCTACCGCCCAAATGTCGGTATTGTAATCTGTAATCGTCAGGGCCAGGTCATGTGGGCCCGACGCTATGGTCAGCACTCGTGGCAGTTCCCGCAAGGGGGCATAAATCCAGGAGAATCCGCAGAGCAGGCGATGTATCGGGAATTGTTTGAAGAGGTCGGGTTAAGCCGTAAAGATGTGCGGATCCTTGCCTCAACCCGTAACTGGCTGCGTTACAAGTTGCCTAAACGTTTGGTGCGTTGGGACACAAAGCCGGTTTGTATCGGCCAGAAACAAAAGTGGTTTCTTTTGCAGTTGATCGGTAACGACGCGGACATCAATATGCAAACCAGCAGCACACCTGAATTTGATGGCTGGCGCTGGGTGAGTTACTGGTACCCGGTGCGTCAGGTGGTGTCGTTCAAACGCGACGTCTACCGCCGGGTGATGAAAGAGTTCGCCAGCGTCACTATGTCGCTGGCGGAGAGCGCACCTAAGCCGCAAAGCGCGCCTGCTTATCGACGTAAAAGAGGTTAA	MIDDDGYRPNVGIVICNRQGQVMWARRYGQHSWQFPQGGINPGESAEQAMYRELFEEVGLSRKDVRILASTRNWLRYKLPKRLVRWDTKPVCIGQKQKWFLLQLIGNDADINMQTSSTPEFDGWRWVSYWYPVRQVVSFKRDVYRRVMKEFASVTMSLAESAPKPQSAPAYRRKRG				NA	NA	NA	NA	NA
BMS020_01746	696	mutH	COG3066	DNA mismatch repair protein MutH	ATGCCCGCTATCGCTCCGCTCTCCTCTCCGCCGCAAAGTCAGGAACAGCTGTTGGCCCAGGCCCGCCAGCTGGCCGGCTATACGCTGGGTGAGCTGGCGGCGCTGGCCGGGATCCCCATTCCCCGCGATCTGAAACGTGATAAAGGCTGGACGGGCATCCTGCTGGAGCTGTGGCTGGGGGCCAGCGCGGGCAGTAAACCCGAGCAGGATTTCGCCGCGCTGGGGGTGGAGCTCAAAACGATCCCTATCGACAGCCGGGGCCGTCCGCTGGAGACGACTTTTGTCTGCGTCGCACCGTTAACTGGCAATAGCGGCGTCACCTGGGAGAGCAGCCATGTGCGGCATAAGCTGCAGCGAGTCCTGTGGATCCCTGTGGAGGGAGAGCGCGCCATTCCTCTGGCGGCGCGGCGCGTCGGCGCACCGCTGCTGTGGAGTCCGGACGAAGAAGAGGAGCGCCAGCTGCGCATGGACTGGGAAGAGCTGATGGATCTTATTGTCCTCGGTGAGGTGGAGCGCATTACCGCCCGCCACGGCGAGGTGCTACAGCTAAGACCGAAAGCGGCCAACAGCAAGGCGTTGACCGAAGCCATCGGCGCCCGCGGGGAGACGATCCTCACGCTGCCGCGCGGCTTCTACCTGAAAAAGAATTTTACCGCCGCCCTGCTCGCCCGCCATTTTTTGTTACAACACGATTAA	MPAIAPLSSPPQSQEQLLAQARQLAGYTLGELAALAGIPIPRDLKRDKGWTGILLELWLGASAGSKPEQDFAALGVELKTIPIDSRGRPLETTFVCVAPLTGNSGVTWESSHVRHKLQRVLWIPVEGERAIPLAARRVGAPLLWSPDEEEERQLRMDWEELMDLIVLGEVERITARHGEVLQLRPKAANSKALTEAIGARGETILTLPRGFYLKKNFTAALLARHFLLQHD				NA	NA	NA	NA	NA
BMS020_01747	714			hypothetical protein	ATGTTATTTGCATGGATAACCGATCCTAACGCCTGGCTGGCGCTGGGCACCTTGACGCTGCTGGAGATCGTGCTCGGGATCGATAATATTATTTTTCTCTCTCTGGTCGTGGCCAAGCTCCCCACCGCCCAGCGCGCCCACGCGCGACGGATCGGTTTAATGGGGGCGATGGTCATGCGCCTGGCGCTGCTGGCCTCTATCGCCTGGGTCGTTAAGCTGACCAACCCGCTCTTTACCGTCCTCGGTCAGGAGATTTCGTTTCGCGATCTGATCTTGCTGTTTGGCGGACTGTTCCTTATCTGGAAAGCCAGTAAAGAGATCCATGAATCTATCGAAGGCGAAGAGGAGGGGCTGAAAACTAACGTTCACTCCTTCCTCGGCGCCATCGTGCAGATCATGCTGCTGGACATCATCTTTAGCCTCGACTCGGTGATCACCGCCGTCGGCCTGTCGGATCATCTGTTTATTATGATGGCGGCGGTTGTGATTGCGGTGGGGGTCATGATGTTCGCCGCGCGACCTATCGGCGATTTTGTTGACCGTCATCCGTCGGTAAAAATGCTGGCGCTGTCGTTTCTGATCCTCGTCGGCTTTACCCTGATGCTGGAAAGTTTCGACGTCCATGTGCCGAAGGGATACATCTACTTCGCGATGTTCTTCTCTATTGCGGTGGAGAGTCTTAACCTGCTGCGCAATAAGAAAAACCCGCTGTAA	MLFAWITDPNAWLALGTLTLLEIVLGIDNIIFLSLVVAKLPTAQRAHARRIGLMGAMVMRLALLASIAWVVKLTNPLFTVLGQEISFRDLILLFGGLFLIWKASKEIHESIEGEEEGLKTNVHSFLGAIVQIMLLDIIFSLDSVITAVGLSDHLFIMMAAVVIAVGVMMFAARPIGDFVDRHPSVKMLALSFLILVGFTLMLESFDVHVPKGYIYFAMFFSIAVESLNLLRNKKNPL				NA	NA	NA	NA	NA
BMS020_01748	219	ygdR_3		putative lipoprotein YgdR	ATGAAAAAATGGGCAGTATTGATTTCCGCCGTAGGACTGGCGTTCTCGGTTTCCGGTTGCAGCAGCGATTACGTCATGGCGACCAAAGATGGGCGAATGATCCTGACCGACGGTAAACCCACCGTGGATGACGATACCGGTCTTATCAGCTACGAAGATCAGCAGGGTAATAAAATGCAGATCAATCGTGACGACGTTTCACAAATCATTAAGCGTTAA	MKKWAVLISAVGLAFSVSGCSSDYVMATKDGRMILTDGKPTVDDDTGLISYEDQQGNKMQINRDDVSQIIKR				NA	NA	NA	NA	NA
BMS020_01749	1041	tas	COG0667	Protein tas	ATGCAGTATCACCGTATCCCACACAGTTCACTTGAAATCAGCACCCTCGGGCTGGGAACCATGACCTTTGGCGAGCAGAACAGCGAGGCCGATGCCCATCAGCAGCTCGACTATGCGGTCGCCAACGGCATCAATCTGATCGATGTCGCTGAAATGTACCCTGTCCCGCCGCGCCCGGAAACTCAGGGGCTGACCGAAACCTACGTCGGCAACTGGCTGGCGAAACGCGGCAATCGCGAAAAGCTGGTGCTCGCCTCGAAGGTCAGCGGGCCCGCGCGTAATAACGACAGCAGTATTCGACCAAACCACGTCCTGGACCGGAAAAATATCCGCGAGGCGCTGCACGCCAGTCTGAAGCGTCTGCAGACCGATTATCTCGACCTGTACCAGGTACACTGGCCGCAGCGCCCCACTAACTGCTTTGGCAAGCTGGGCTACACCTGGGCCGACGCCGCCCCCGCGGTGACCCTGCTGGATACCCTCGAGGCGCTGACCGAGTTCCAGCGCGCCGGCAAGATCCGCTACATCGGCGTGTCGAACGAAACCGCCTTTGGCGTGATGCGTTATCTGCACCTGGCGGATAAGCACGACCTGCCGCGGATCGTGACCATTCAGAACCCCTACAGCCTGCTGAACCGCAGCTTTGAAGTCGGCCTGGCGGAAGTGAGCCAGTTCGAAGGCGTGGAGCTGCTGGCCTACTCCTGCCTGGCTTTCGGCACCCTGACCGGGAAGTACCTCAACGGCGCGAAGCCGGCGGGGGCGCGCAATACGCTGTTCAGCCGCTTTACGCGCTACAGCAGCGAGCAGTCGCAGAAAGCGGTGGCGGCGTATGTGGATATCGCCAAACGCCACGGCCTCGATCCGGCGCAAATGGCGCTGGCCTTTGTGCGTCGGCAGCCGTTTGTCGCCAGCACCCTGCTGGGGGCGACGACCATGGCGCAGCTGCAGGCCAACGTGGAAAGTTTACAGCTTGAGCTGAGCGAAGAGGTATTAGCGGAGATTGAAGCGGTGCATCAGGTTTATACCTACCCGGCTCCGTAG	MQYHRIPHSSLEISTLGLGTMTFGEQNSEADAHQQLDYAVANGINLIDVAEMYPVPPRPETQGLTETYVGNWLAKRGNREKLVLASKVSGPARNNDSSIRPNHVLDRKNIREALHASLKRLQTDYLDLYQVHWPQRPTNCFGKLGYTWADAAPAVTLLDTLEALTEFQRAGKIRYIGVSNETAFGVMRYLHLADKHDLPRIVTIQNPYSLLNRSFEVGLAEVSQFEGVELLAYSCLAFGTLTGKYLNGAKPAGARNTLFSRFTRYSSEQSQKAVAAYVDIAKRHGLDPAQMALAFVRRQPFVASTLLGATTMAQLQANVESLQLELSEEVLAEIEAVHQVYTYPAP				NA	NA	NA	NA	NA
BMS020_01750	1194	lplT		Lysophospholipid transporter LplT	ATGAGTGAGTCAGTGCATACTAACCCTTCGCTGTATTCGAAAGGGATGATGGCGGTGATCTGCGCCCAGTTCCTGTCGGCCTTCGGCGACAATGCGCTTCTCTTCGCCACCCTGGCGCTGATGAAGCAGCTTTATTATCCGGAGTGGAGCCAGCCGGTCCTGCAGATGTTGTTTGTGGGCGCTTACATCCTGTTTGCCCCCTTTGTCGGCCAGTTCGCCGACAGCTTTGCCAAAGGCCGGGTGATGATGGTGGCCAACGGCCTGAAGCTGCTCGGCGCCGGCTGTATCTGCTTCGGCGTTAATCCGTTTATCGGCTATACGCTGGTGGGGATTGGCGCCGCCGCCTATTCGCCGGCCAAGTATGGCATTCTCGGCGAACTGACCACCGGCGATAAGTTAGTGAAGGCTAACGGACTGATGGAGTCCTCGACCATAGCGGCGATCCTGCTGGGCTCCATGGCCGGCGGGATCCTCGCCGACTGGCACGTGCTGGCGGCGCTGATCGTCTGCGCGCTGGTCTACGGCGGGGCGGTGGTGGCTAACCTGTGGATACCCAGGCTGCCGGCGGCGCGTCCGGGGCAGTCATGGCGTTTTAAGCCGATGACGCACAGCTTCTTCAGCGCCTGCCGCACGCTGTGGCGCAACGGCGAAACCCGCTTTTCGCTGATGGGCACCAGCCTGTTCTGGGGCGCTGGCGTGACCCTGCGCTTCCTGCTGGTGATCTGGGTGCCGGTAGCGCTGGGCATTACCAGCAACGCCATGCCCACCTATCTTAATGCGATGGTGGCGGTGGGGATTGTGCTGGGGGCCGGGGCGGCGGCGAAGCTGGTGACTCTGGAGACGGTGTCGCGCTGTATGCCGGCCGGGATATTGATCGGTATTGCGGTAATGGCGTTTGCGGTGCAGCAGTCGCTGCTGCCGGCGTTCGGACTGCTACTGCTGCTCGGGGTGTTCGGCGGCTTCTTTATCGTGCCGCTGAATGCGCTGCTGCAGGAGCGCGGGAAACACTCGGTCGGGGCGGGTAACGCGATTGCGGTACAGAACCTGGGCGAAAACGTGGCGATGCTGCTGATGCTGGGGCTCTATTCCCTGGCGGTGAGCGTGGGCGTTCCGCCGGTCGCCGTGGGGATAGGTTTTGGCGCGGTGTTTGCCGTGGCCATCGCCGCGCTGTGGGTCTGGGGGCGGCGTAAATAA	MSESVHTNPSLYSKGMMAVICAQFLSAFGDNALLFATLALMKQLYYPEWSQPVLQMLFVGAYILFAPFVGQFADSFAKGRVMMVANGLKLLGAGCICFGVNPFIGYTLVGIGAAAYSPAKYGILGELTTGDKLVKANGLMESSTIAAILLGSMAGGILADWHVLAALIVCALVYGGAVVANLWIPRLPAARPGQSWRFKPMTHSFFSACRTLWRNGETRFSLMGTSLFWGAGVTLRFLLVIWVPVALGITSNAMPTYLNAMVAVGIVLGAGAAAKLVTLETVSRCMPAGILIGIAVMAFAVQQSLLPAFGLLLLLGVFGGFFIVPLNALLQERGKHSVGAGNAIAVQNLGENVAMLLMLGLYSLAVSVGVPPVAVGIGFGAVFAVAIAALWVWGRRK				NA	NA	NA	NA	NA
BMS020_01751	2160	aas_1	COG0204	Bifunctional protein Aas	ATGCTATTGGGATTTTTCAGACTGCTGTTCAAGGGGTTATACCGGGTCAGACTGACCGGCGACACGCAGGCTTTGCACCAGCAAAAAGTCTTAATTACCCCGAACCACGTCTCGTTCCTCGACGGCATTCTGCTGGCGCTGTTTTTGCCGGTCCGACCGGTTTTTGCCGTCTATACCTCAATCAGCCAGCGCTGGTTTATGCGCGCGCTGACGCCGATTATCGATTTTGTGCCGCTGGACCCGACCAAACCGATGTCGATCAAACATCTGGTGCGCCTGATTGAACAGGGGCGGCCGGTGGTCATCTTCCCGGAAGGGCGAATTTCGGTCAGCGGCTCGCTGATGAAAATTTATGACGGCGCCGCCTTTGTCGCCGCCAAATCGCAGGCGACCATCGTGCCGCTGCGCATTGAAGGCGCTGAATTGACGCCCTTCAGCCGGCTGAAGGGGCTGGTGAAACGTCGCCTGTTCCCGCGTATTCAGCTGCATCTGCTGCCGCCCACCCATCTGCCGATGCCTGAGGCGCCGCGCGCCCGCGACCGGCGCAAAATCGCCGGAGAAATGCTGCATCAGATCATGATGGAAGCCCGGATGGCGGTGCGTCCGCGGGAAACCCTGTATGAGTCGCTGCTGGCGGCGCAGGACCGCTTCGGCGCGCGCAAACCCTGCGTGGAGGATATCAACTTCCAGCCGGATACCTATCGCAAGCTGCTGACCAAAACCCTGTTTGTCGCCCGCATTCTGGAAAAATACAGCCAGCAGGGCGAGAAGATCGGTCTGATGCTGCCCAACGCCGGCATCAGCGCGGCGGTGATTTTCGGCGCGATCGCCCGCGGGCGCATTCCGGCGATGATGAACTATACCGCCGGGGTGAAAGGGCTCAGCAGCGCCATCGCCGCCGCGGAACTCAACACCATTTTTACCTCGCGCACCTTTCTCGATAAAGGCAAGCTCTGGCACCTGCCGGAGCAGCTGACCCAGGTGCGCTGGGTGTTCCTGGAAGATCTCAAAGGCGATATCACCCCTGCGGACAAACTGTGGATTTTCGGCCATCTGCTGGCGCCGCGTCTGGCGCAGGTTAAGCAGCAGCCGGAAGACGCGGCGATGATCCTCTTCACCTCCGGCTCGGAGGGCAATCCGAAAGGGGTGGTGCACAGCCATAAAAGTCTGCTGGCCAACGTCGAGCAGATCAAAACCATTGCCGACTTTACCGCTAATGACCGCTTTATGTCGGCGCTGCCGCTGTTCCACTCCTTTGGCCTCACCGTCGGTCTGCTGACGCCGCTGCTTACCGGTGCGGAGGTGTTTCTCTATCCCAGCCCGCTGCACTATCGCGTGGTGCCGGAGCTGGTCTACGATCGCAACTGCACAGTGCTGTTCGGCACCTCGACCTTCCTCGCCAACTATGCCCGCTTCGCTAACCCCTATGATTTCTATCGTCTGCGCTATGTGGTCGCCGGGGCGGAGAAGCTGCAGGAGAGCACCAAACAGCTGTGGCAGGATAAATTCGGCCTGCGCATTCTCGAAGGCTATGGCGTGACCGAGTGCGCCCCGGTGGTCTCGATCAACGTGCCCATGGCGGCGAAGGTCGGCACCGTGGGGCGTATCCTGCCGGGGATGGACGCCCGCCTGCTGGCGATGCCTGGCATTGAGCAAGGGGGGCGGCTGCAGCTGAAAGGGCCGAACATTATGAAAGGCTACCTGCGGGTGGAAAATCCCGGGGTGCTGGAAGCGCCGACGGCGGAAAATCAGCACGGCGAAAAGGAAGCGGGTTGGTATGACACCGGCGATATCGTCACCTTCGACGAGCAGGGCTATGTCCGCATCCAGGGCCGCGCGAAGCGCTTCGCCAAAATCGCTGGCGAAATGATCTCTCTTGAGATGGTGGAGCAGGTGGCCCTCGGCGCGTCGCCGGACAAAATGCACGCCACGGCGATTAAACAGGACGCCAGCAAAGGCGAGGCGCTGGTGCTGTTTACCACCGATAATGAACTGACTCGCGAAGCCCTGCTGCGCTACGCTCGCCAGCACGGCGTACCGGAGCTGGCGGTGCCGCGCGATATACGCTGGCTGAAACAGCTGCCGGTGCTCGGCAGCGGCAAGCCAGACTATGTCACCCTGAAAAACATGGTCGACGAGGCGGAAACAACCCATGAGTGA	MLLGFFRLLFKGLYRVRLTGDTQALHQQKVLITPNHVSFLDGILLALFLPVRPVFAVYTSISQRWFMRALTPIIDFVPLDPTKPMSIKHLVRLIEQGRPVVIFPEGRISVSGSLMKIYDGAAFVAAKSQATIVPLRIEGAELTPFSRLKGLVKRRLFPRIQLHLLPPTHLPMPEAPRARDRRKIAGEMLHQIMMEARMAVRPRETLYESLLAAQDRFGARKPCVEDINFQPDTYRKLLTKTLFVARILEKYSQQGEKIGLMLPNAGISAAVIFGAIARGRIPAMMNYTAGVKGLSSAIAAAELNTIFTSRTFLDKGKLWHLPEQLTQVRWVFLEDLKGDITPADKLWIFGHLLAPRLAQVKQQPEDAAMILFTSGSEGNPKGVVHSHKSLLANVEQIKTIADFTANDRFMSALPLFHSFGLTVGLLTPLLTGAEVFLYPSPLHYRVVPELVYDRNCTVLFGTSTFLANYARFANPYDFYRLRYVVAGAEKLQESTKQLWQDKFGLRILEGYGVTECAPVVSINVPMAAKVGTVGRILPGMDARLLAMPGIEQGGRLQLKGPNIMKGYLRVENPGVLEAPTAENQHGEKEAGWYDTGDIVTFDEQGYVRIQGRAKRFAKIAGEMISLEMVEQVALGASPDKMHATAIKQDASKGEALVLFTTDNELTREALLRYARQHGVPELAVPRDIRWLKQLPVLGSGKPDYVTLKNMVDEAETTHE	PGPT0021850_619	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_ACYLTRANSFERASE_ACTIVITY,PGPT0021850-aas-K05939	NA	NA
BMS020_01754	1017	galR	COG1609	HTH-type transcriptional regulator GalR	ATGGCGACAATTAAGGATGTAGCCCGACTCGCAGGAGTCTCCGTCGCTACCGTCTCCCGCGTCATCAACAACTCTCCCAAAGCCAGCGAAGCCTCGCGTCAGTCCGTGGGCGCGGCGATGGAAACCCTCAACTATCACCCCAACGCGAACGCCCGGGCGCTGGCCCAGCAGTCCACGGAAACCGTCGGCCTGGTGGTAGGCGATGTCTCCGACCCCTTCTTCGGCGCGATGGTCAAAGCCGTCGAACAGGTGGCCTATCGCACCGGCAACTTTTTGCTGATTGGCAATGGCTACCACAACGTGCAGAAGGAGCGCCAGGCGATAGAGCAGCTGATCCGTCACCGCTGCGCGGCGCTGGTGGTGCATGCCAAAATGATCCCCGATGAGGAACTCGCCGGGCTGATGAAGCAGATCCCCGGCATGGTGCTGATCAACCGCATCCTGCCCGGATATGAAACGCGCTGCGTGGCGCTGGACGATCGCTACGGCGCCTGGCTGGCGACCCGCCATCTGATCCAGCAGGGGCACACGCGTATCGGCTACCTGTGCTCAAACCACGATATCTCTGATGCGGAAGATCGCCTGCAGGGGTACTACGCGGCGCTGGAGGAGAGCGGCCTGCCGTGCAACGACCGGCTGGTCACGTTCGCCGAGCCGGATGAAAGCGGCGGCGAACAGGCGATGACCGAACTGCTTGGCCGCGGCCGCCACTTTAGCGCCGTCGCCTGCTATAACGACTCGATGGCCGCCGGCGCGATGGGGGTGCTGAACGACAACGGCATCGACGTCCCGCGGGAAATTTCGCTGATCGGCTTCGACGATGTCCTGATTTCGCGCTATGTTCGCCCGCGGCTGACCACCGTCCGCTACCCGATCGTCACGATGGCGACCCAGGCGGCCGAGCTGGCCTTAGCCCTGGCGGAGCAGCGCCCGGCGCCGGAGATCACCCACCTGTTCAGCCCGACGCTGGTACGCCGTCATTCGGTGGTGGCCCCGCAGGAAGGCGATAAGTCGTAG	MATIKDVARLAGVSVATVSRVINNSPKASEASRQSVGAAMETLNYHPNANARALAQQSTETVGLVVGDVSDPFFGAMVKAVEQVAYRTGNFLLIGNGYHNVQKERQAIEQLIRHRCAALVVHAKMIPDEELAGLMKQIPGMVLINRILPGYETRCVALDDRYGAWLATRHLIQQGHTRIGYLCSNHDISDAEDRLQGYYAALEESGLPCNDRLVTFAEPDESGGEQAMTELLGRGRHFSAVACYNDSMAAGAMGVLNDNGIDVPREISLIGFDDVLISRYVRPRLTTVRYPIVTMATQAAELALALAEQRPAPEITHLFSPTLVRRHSVVAPQEGDKS	PGPT0017992_9423	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
BMS020_01755	480			hypothetical protein	ATGACGATCCTGCCGCTGTACGCCGCGCCGCAGTTCGCCCGGGAGGTGACCGACCGGCTGTGGCAGGCCTTTGGCGGCGAGGCGCTGCCGCGGGAGTTTTTCGCCAGCATTGTGCAGCATAGCCAGACGGCGGAGGCGCTGCCGCTGACCTTTATTGCCGTGGAAGGGGAGCAACTGCTGGGAACGATTGGCCTCTGGCGCTGCGATTTGATCAGCCGCCAGGATCTGTTTCCCTGGCTGGCGGCGCTGTACGTCGCGCCCGCCGCTCGCGGTCAGGGGCTGGCCGGACAGCTGCAGCGGCATGTGATCGATTATGCCCGCCGCGCGGGCTATCGGGAGCTTTATCTCTACTCCGCCTGCCGCGATTTTTATGAACGCTTCGGCTGGCGCTACATCGGCGAGGGGCTGGATTACCCGGCCACCGCCGTGCATCTCTATCACTACGACTTATCGCCTTCCTGCGGGGCCACCACCGAATGA	MTILPLYAAPQFAREVTDRLWQAFGGEALPREFFASIVQHSQTAEALPLTFIAVEGEQLLGTIGLWRCDLISRQDLFPWLAALYVAPAARGQGLAGQLQRHVIDYARRAGYRELYLYSACRDFYERFGWRYIGEGLDYPATAVHLYHYDLSPSCGATTE				NA	NA	NA	NA	NA
BMS020_01756	774	lldR_1	COG2186	Putative L-lactate dehydrogenase operon regulatory protein	GTGGAAAAAGCGATAATTCCGCCGGAAAAGAAGCCCTATCAGGAGATTGGTGATGACCTGCGCGCCCAGATCGCGCAGGGGCGCTACCCGGTCGGGTCGCGCTTGCCGCCGGAACGCCATATTGCCGAAACCTATGGCGTCAGCCGGACCATCGTGCGCGAAGCGCTGCTGATGCTGGAGCTGCAGGGGACGGTGGATATCCGTCAGGGATCCGGGGTGTACGTCATGCGTATCCCGCACGAAAACGACAGCGAAGAAGAGCAGCTGCTCAGCAGCGACGTTGGTCCGTTTGAAATTCTCCAGGCGCGCCAGCTGCTGGAGAGCAATATCGCCGCCTTTGCCGCGAAAATGGCCACCCGCGCCGATATCGATAATCTGAAGCGGATTATCGAGCAGGAGCAGCGGGCAATCGCCCTCAACGACACCGCCCAGGATAACGCTCGTCTGTTCCATCTGGTGCTGGCCGGGGCGACGCAGAACCAGATGCTGTTAGCGACGGTGGAGCGGATCTGGCTGCAGATGGACAGCAGCCCGCTGTGGCAGCAGTTCAATGTGCATATTGCCAGCCGCGCCTGGCGGCTGAAGTGGCTCGGCGACCGGCAGACCCTGCTTGCCGCGCTGCGGCGTCGCGATGTGATGGGCGCCTGGCAGGCGATGTGGCAGCATCTGGAAAACGTTAAAAACAGTCTGCTGGAGCTGTCCGATGAAGACGCCCCGGACTTTGACGGCTATCTGTTCGACTCGGTGCCGATTTTTCAGGGGAAGCTGGTATGA	MEKAIIPPEKKPYQEIGDDLRAQIAQGRYPVGSRLPPERHIAETYGVSRTIVREALLMLELQGTVDIRQGSGVYVMRIPHENDSEEEQLLSSDVGPFEILQARQLLESNIAAFAAKMATRADIDNLKRIIEQEQRAIALNDTAQDNARLFHLVLAGATQNQMLLATVERIWLQMDSSPLWQQFNVHIASRAWRLKWLGDRQTLLAALRRRDVMGAWQAMWQHLENVKNSLLELSDEDAPDFDGYLFDSVPIFQGKLV	PGPT0018214_199	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_HEXONATE|HEXURONATE|HEXURONIDE_UTILIZATION,PGPT0018214-exuR-K19775	NA	NA
BMS020_01757	1428	gmuD	COG2723	6-phospho-beta-glucosidase GmuD	ATGACTACCGTACGGATGACTATTCCCGATGATTTTATCCTTGGCGCGGCGGCTTCCGCCTGGCAGACCGAGGGCTGGAGCGGGAAAAAACCGGGGCAGGACTCCTGGCCCGATCTCTGGTACAAAAACGACCGTCACGTCTGGCATAACGGCTATGGCCCGGCGGTGGCTACCGATTTTATCAACCGCTTTCAGGAAGATGTGCAGCTGATGAAGCTGGCCGGGCTGACCCACTACCGCACTTCGATCAACTGGTCGCGCTTTCTGACCGACTATGAAAACGTCACGGTGGATGAGGAGTATGCGGCCTATTACGACCAGCTGTTCGATGCGCTGCTGGCCAACGGCATCACGCCGATGATCTGCCTTGAGCATTACGAATTACCGGGCTATCTGCTGGAAAAGTATGGCGGCTGGGGGTCGAAAACGGTGGTCGAGCTGTTTGTGCGCTACGCGGAGCAGGTTTTTGCCCGCTACCACCCGAAGGTGACCCGCTGGTTTACCTTTAATGAGCCGATCGTGGTGCAGACCCGGGTCTATCTTGATGCCCTGCGCTGGCCCTATGAGCAGAACACCAGCACCTGGATGCAGTGGAACTACCATAAGGTGCTGGCGACCGCTTGCGTCGTGAAGCGATTTCGCGAGCTAGGCTATCCCGGGACCGTCGGCTGCATCCTCAATCCGGAGGTGACCTACCCGCGCTCCCACGCCCCGCATGACCTGCGCGCGGCGGAGATCTACGATCTGTTCTACAACCGTATGTTTCTCGACCCGCTGGTGCACGGGGTCTGGCCGCCGGCGCTTCTCGCGCTGCTTGAGCAGCATCAGGTGACGTGGGAGGCCAGCGCGGAGGATCTGGCGATTATCCGCGAGCACACCGTCGATGAGCTGGGGATTAACCTTTACTATCCGCACCGGGTCAAAGCCCCGTCGCGGGCCTGGCATCCGCATACTCCGTTTCATCCGGCCCGGTATTATGAGCCGTTTGAGCTGCCCGGCCGGCGGATGAACGCCTCCCGCGGCTGGGAAATCTACCCGCAAATCATCTTTGATATGGCGATGCGGATAAAAAATGACTATCGCAACATTCCCTGGTTCGTGGCGGAGAGCGGGATGGGGGTGGAAAACGAAGGCCAGTTCCGTAACCGCGAAGGCGCCATTGACGACAGCTACCGCATTCGTTTTATCAGCGAACATCTGTGGCACACCCTGCGCGCCCGCGAGGCAGGGGCCAACTGCCAGGGCTATATGCTGTGGGCGTTTACCGACAACGTGTCGCCGATGAACGCCTTTAAAAACCGCTACGGGCTTATCGAAATCGATCTGCAAAACCATCGCGCCCGGCGACCCAAAGCCTCGGCGCACTGGTTTCGTCAGCTCGGCGAACGGCGTGAACTGGTGCTGGATATCGATGATGAATACCGCTAG	MTTVRMTIPDDFILGAAASAWQTEGWSGKKPGQDSWPDLWYKNDRHVWHNGYGPAVATDFINRFQEDVQLMKLAGLTHYRTSINWSRFLTDYENVTVDEEYAAYYDQLFDALLANGITPMICLEHYELPGYLLEKYGGWGSKTVVELFVRYAEQVFARYHPKVTRWFTFNEPIVVQTRVYLDALRWPYEQNTSTWMQWNYHKVLATACVVKRFRELGYPGTVGCILNPEVTYPRSHAPHDLRAAEIYDLFYNRMFLDPLVHGVWPPALLALLEQHQVTWEASAEDLAIIREHTVDELGINLYYPHRVKAPSRAWHPHTPFHPARYYEPFELPGRRMNASRGWEIYPQIIFDMAMRIKNDYRNIPWFVAESGMGVENEGQFRNREGAIDDSYRIRFISEHLWHTLRAREAGANCQGYMLWAFTDNVSPMNAFKNRYGLIEIDLQNHRARRPKASAHWFRQLGERRELVLDIDDEYR	PGPT0019255_2513	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0019255-bglA-K01223	NA	NA
BMS020_01758	1338	licC_1	COG1455	Lichenan permease IIC component	ATGGCATTACAGGACAAACTGATCGACGCGCTGGGGCGTTTCGCGACGACATTCAACAGCTATCGCTACATTATGGCGATCAAATCGGCGTTTATTACCCTGATGCCGGTGATCATCGTCGGGGCCTTTTCGGTACTGATCTCCAATATGGTGCTGGATCCAAAGAATGGGCTCGCCAGCTTTTCCTCGCTCTCCTTTCTCGCCGCGCTGAAGCCGATCACCAGCGCGCTGAACTACGCCACGCTCAACTTCCTCAATATCGGCGCCGTGTTTCTGATCGGCATTGAGCTGGGGCGGATCAACGGCATCAAAAGCCTGTTTCCCGGCCTGCTGGCGGTGATCTGCTTTATCTGCGTCACGCCGACCACGGTAGAGATGATGGTCGATGGCCAGATGCACGTGGTGAAAGATGTCCTGCTGCGTCAGTTCTCCGACACCCGCAGCCTGTTCCTCGGGATGTTCATCGCTATTCTGTCGGTCGAGATTTACTGCTGGCTGGAGGGGCGCAAGGGACTGAAGATCAAGATGCCGGATACCGTGCCGCCGAACGTCTCTGCCTCTTTTTCGGCGCTGATCCCGGCGATCATCACCACCACCGCGATCGCCACCTTTGGTTTTCTCTTCCACCAGCTGACGGGAATGTATCTCTACGATGCGGTCTACCAGGTGGTGCAGCAGCCGCTGGAGCGGGTGGTGCAGAGCCTGCCGGGGATCCTGCTGCTGATGTTCGTCGCCCAGCTGTTCTGGGTGATCGGTATTCACGGCAACCAGATGATCAAGCCGATCCGCGAGCCGCTGCTGCTGGGGGCGATCACCGTCAATATGAGCGCCTTTGAGCAGGGGAAAGAGGTACCGAACATCATCACCATGCCCTTCTGGGATGTTTACATGAGCATCGGCGGCTCGGGGCTGACCATCGGCCTGCTGATTGCGGTGATGATCGCCACCAGGCGCAAAGAGATGAAAGAGATCGCCAAGCTGTCGATAGGCCCGGGGCTGTTCAATATTAACGAGCCGGTGATCTTCGGGATGCCGATCATGCTCAACCCGATCCTCGCCATCCCGTTTATCATCACCCCGCTGGTGACCGGCAGCATCGGCTATTTCGCCACCCTGACCGGCTTCGCCGGCAAGGCGGTGGTGATGGTGCCCTGGACCACGCCGCCGCTGATCAACGCCTGGCTCTCCACCGCCGGCTCGATGGGGGCGGTGGTCACCCAGCTGATCTGCATCGTGGCCGCGGTGCTTATCTATCTGCCTTTCGTCAAAATCGCCTCCCGCCGTGCCGATGCCGCGCAGCGTCAGGCAGACAATCAACAGACCGCCAACCCTGTCTGA	MALQDKLIDALGRFATTFNSYRYIMAIKSAFITLMPVIIVGAFSVLISNMVLDPKNGLASFSSLSFLAALKPITSALNYATLNFLNIGAVFLIGIELGRINGIKSLFPGLLAVICFICVTPTTVEMMVDGQMHVVKDVLLRQFSDTRSLFLGMFIAILSVEIYCWLEGRKGLKIKMPDTVPPNVSASFSALIPAIITTTAIATFGFLFHQLTGMYLYDAVYQVVQQPLERVVQSLPGILLLMFVAQLFWVIGIHGNQMIKPIREPLLLGAITVNMSAFEQGKEVPNIITMPFWDVYMSIGGSGLTIGLLIAVMIATRRKEMKEIAKLSIGPGLFNINEPVIFGMPIMLNPILAIPFIITPLVTGSIGYFATLTGFAGKAVVMVPWTTPPLINAWLSTAGSMGAVVTQLICIVAAVLIYLPFVKIASRRADAAQRQADNQQTANPV	PGPT0016970_1078	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_BETA-GLYCOSIDE_DEGRADATION,PGPT0016970-celB|chbC-K02761	NA	NA
BMS020_01759	1011	ascG_2	COG1609	HTH-type transcriptional regulator AscG	ATGGCTACAATGCTGGATGTCTCAATTCGCGCAGGCGTCTCGAAAGCGACGGTTTCCCGCGTGTTGAACGGCACAGGTCAGGTGAAAGAGAGCACCCGCCAACAGGTATTTAAAGCGATGGAAGAGCTGGGCTATCGGCCGAATTTCCTTGCCCGCTCGCTGGCCAATCAGACCAGCAACAGTATCGGGCTGGTCGTCTCCACCTTTGACGGCTTCTACTTTGGCCGTCTGCTGCAGCAGGCGTCACGCCAGACCGAAGCCTGGGGAAAACAGCTTATCGTCACCGACGGCCATGATACGCCGGAGCGCGAAGAGGAAGCAGTGCAGATGCTCGCCGACCGGCAGTGCGATGCGATCATCCTCTATACCCGGCATATGAGCGAGAAGGCGATCATGTCGCTGATTAACTCGATCGCCATGCCGCTGGTGGTGATTAACCGTGATGTGGCGCAGGCCCGCGAACGCTGCGTGTTCTTCGAACAGCAGGAAGCTGCCTTCCAGGCCGTGGAGTATCTGATTACCCAGGGCCACCGCGATATCGCCTGCATCACTGTCCCGATGCACACCCCCACCGGCCAGGCGCGCCTGCAGGGCTATCGCAACGCGCTGATAAAACATGGTATTGAGTGGGATCCGAGCCGGGTGAAATACGGGGACTCGACGATGACCCGCGGCTACGAGCTGTGCCGGGAACTGCTGGACGAGAAAGCCCGCTTCAGCGCGCTGTTTTCCTGTAACGATGATATGGCGCTGGGGGCGTCTAAGGCGCTGCATCAGGCGGGGCTGCGTATTCCGCAGGATGTGTCGCTGTTTGGCTTCGACGATGCGCCAAGCGCGAAATGGCTGGAGCCGGGGCTGTCGACGGTCTATCTGCCGATCGACAACATGATCACCACGGCTATCGATCAGGCGATCAAGCTTGCTAACCAGCAGCCGATCGAAACGATCCCGCCGTTCACCGGCACGCTGGTGTTGCGTGAGTCGGTGACGACGGGACCTTTTTTTAAATAA	MATMLDVSIRAGVSKATVSRVLNGTGQVKESTRQQVFKAMEELGYRPNFLARSLANQTSNSIGLVVSTFDGFYFGRLLQQASRQTEAWGKQLIVTDGHDTPEREEEAVQMLADRQCDAIILYTRHMSEKAIMSLINSIAMPLVVINRDVAQARERCVFFEQQEAAFQAVEYLITQGHRDIACITVPMHTPTGQARLQGYRNALIKHGIEWDPSRVKYGDSTMTRGYELCRELLDEKARFSALFSCNDDMALGASKALHQAGLRIPQDVSLFGFDDAPSAKWLEPGLSTVYLPIDNMITTAIDQAIKLANQQPIETIPPFTGTLVLRESVTTGPFFK	PGPT0014762_31	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE_USAGE_REGULATION,PGPT0014762-ascG-K03487	NA	NA
BMS020_01760	1263	lysA_1		Diaminopimelate decarboxylase	ATGCCACACTCGCTTTACGCCACCGATACCGATCTGACCGCGGACAACCTGCTGCGCCTGCCGGCGGAATTTGGCTGCCCGGTCTGGGTCTATGATGCGCAGATTATTCGCCGCCAGATTGCCCAGCTCAGCCAGTTTGACGTGGTGCGTTTTGCGCAAAAAGCCTGCTCTAACATCCATATTCTGCGTCTGATGCGCGAGCAGGGGGTGAAGGTGGACTCGGTGTCGCTGGGGGAGATCGAGCGTGCGCTGGCGGCGGGCTACGATCCGCAGCAGAATCCAGAGGATATTGTCTTCACCGCCGATCTGATCGACGAGGCGACCCTCGATCGCGTCAAGGCGTTACAGATCCCGGTGAACGCCGGCTCGATCGACATGCTGAGCCAGCTGGGTGAAGTGTCGCCGGGCCATCGCGTCTGGCTGCGCGTCAACCCGGGCTTTGGCCACGGCCACAGCCAGAAAACCAATACCGGCGGTGAGAACAGCAAGCATGGCATCTGGTACAGCCACCTGCCGGCGGCGCTGGAAGTGATGCGTCGCTATCAGCTGCAGCTGGTGGGGATCCATATGCATATCGGCTCTGGCGTCGACTATGGTCACCTGGAGCAGGTGTGCGGCGCGATGGTGCGCCAGGTTGTCGACTTTGGTCAGGATCTGCAGGCCATCTCCGCCGGCGGCGGCCTGTCTATTCCTTACCGCGAGGGCGAAGAGGCCATCGACACCGCTCACTATTATGGTCTGTGGAACCGCGCCCGGGAGCAGATCGCCACCCATCTGGGTCACCCGGTGAAACTGGAGATTGAACCCGGACGCTTCCTGGTGGCCGAGTCCGGCGTGCTGGTGTCGCAGGTGCGCAGCGTGAAAGAGATGGGCAGCCGCCACTTCGTGCTGATTGACGCCGGCTTTAACGACCTGATGCGCCCGGCAATGTACGGCAGCTATCATCATATCACCGCTCTGGCGGCGGATGGCCGCGATCTCAGCGCCGCGCCGCAGGTGGAGACCGTGGTGGCCGGGCCGCTGTGCGAGTCCGGGGACGTCTTTACCCAGCAGGAAGGGGGGAAAGTCGAGACCCGTCTGCTGCCGGCGGTGGCCCCAGGGGATTATCTGGTGCTCCATGACACTGGCGCCTACGGGGCTTCGATGTCATCCAACTATAACAGCCGTCCGCTGCTGCCGGAGGTGCTGTTTGATGGCGGCAAGGCGCGGCTGATCCGCCGTCGCCAGACCATCCAGGAGCTGCTGGCCTTAGAGCTTATTTAA	MPHSLYATDTDLTADNLLRLPAEFGCPVWVYDAQIIRRQIAQLSQFDVVRFAQKACSNIHILRLMREQGVKVDSVSLGEIERALAAGYDPQQNPEDIVFTADLIDEATLDRVKALQIPVNAGSIDMLSQLGEVSPGHRVWLRVNPGFGHGHSQKTNTGGENSKHGIWYSHLPAALEVMRRYQLQLVGIHMHIGSGVDYGHLEQVCGAMVRQVVDFGQDLQAISAGGGLSIPYREGEEAIDTAHYYGLWNRAREQIATHLGHPVKLEIEPGRFLVAESGVLVSQVRSVKEMGSRHFVLIDAGFNDLMRPAMYGSYHHITALAADGRDLSAAPQVETVVAGPLCESGDVFTQQEGGKVETRLLPAVAPGDYLVLHDTGAYGASMSSNYNSRPLLPEVLFDGGKARLIRRRQTIQELLALELI				NA	NA	NA	NA	NA
BMS020_01761	927	occR		Octopine catabolism/uptake operon regulatory protein OccR	ATGCCAGCCGTCAATTTGCGTCATATCGAAATCTTTCATGCGGTGATGACCACCGGCAACCTGACCGAGGCCGCGCGGATGCTGCATACCTCCCAGCCCACCGTCAGCCGCGAGCTGGCGCGCTTTGAGAAGGTGCTCGGCCTGCGGCTGTTTGAACGGACCCGCGGTCGCCTGCAGCCAACCGTGCAGGGCCTGCGCCTGTTTGAGGAGGTTCAGCGTTCCTGGTACGGCCTGGACCGCATCGTCAGCGCCGCCGAGAGCCTGCGCGAGTTCCGCCAGGGCGAGCTGTCGATAGCCTGTCTGCCGGTCTTTTCCCAGTCCTTTCTGCCGCTGCTGTTGCCGCCGTTCCTCGCCCGCTACCCGGAGGTCAGCCTGCAGATCGTCCCCCAGGAGTCGCCGCTGCTGGAGGAGTGGCTCTCCGCCCAGCGCCATGACCTTGGCCTGACGGAGACCCTGCATACCCCCGCGGGCACTGAACGCACCCCGCTGCTGACGTTGAATGAAGTCTGCGTCCTGCCCGCCGGCCATCCGCTGGCGGCGCAGACGACGCTGACCCCCGCCGATTTTCAGGGCGAGAACTACATCAGCCTGTCGCGCACCGACAGCTATCGCCAGCTGCTCGACGCCCTGTTCCTTGAGCATCAGGTCAAGCGGCGGATGGTGGTCGAAACCCACAGCGCGGCCTCGATCTGCGCCATGGTGCGCGCCGGCGCCGGGATCTCGGTGGTTAACCCGCTGACCGCCCTGGACTATGCCGATAGCGGCGTGGTGGTGCGCCGCTTCAGCGTCGAGGTGCCGTTTACCGTCAGCCTGATCCGCCCGCTCCATCGCCCGCGATCGGCGCTGGTCGACGCCTTCGTGACGCACCTGCAGCAGAGTCTGCCGCAGATCCTCACGCCGCTGGCGTCGGTTCTGCAGAGAGCATAA	MPAVNLRHIEIFHAVMTTGNLTEAARMLHTSQPTVSRELARFEKVLGLRLFERTRGRLQPTVQGLRLFEEVQRSWYGLDRIVSAAESLREFRQGELSIACLPVFSQSFLPLLLPPFLARYPEVSLQIVPQESPLLEEWLSAQRHDLGLTETLHTPAGTERTPLLTLNEVCVLPAGHPLAAQTTLTPADFQGENYISLSRTDSYRQLLDALFLEHQVKRRMVVETHSAASICAMVRAGAGISVVNPLTALDYADSGVVVRRFSVEVPFTVSLIRPLHRPRSALVDAFVTHLQQSLPQILTPLASVLQRA				NA	NA	NA	NA	NA
BMS020_01762	714	ygeA_1		L-aspartate/glutamate-specific racemase	ATGAAAACCATTGGCCTGTTAGGCGGCATGAGCTGGGAGTCAACGATCCCTTACTATCGCCTGATTAATGAAGGCGTGAAGGCGCGACTGGGCGGGCTGCACTCCGCCAGACTGGTGTTGCATAGCGTCGATTTTCACGAGATTGAAGCCTGTCAGTCCACCGGCGACTGGGATCGCGCCGGCGCGATCCTCGCCGACGCCGCGGTTGGGCTGCAGCAGGCGGGCGCCGAGGGCATTGTCCTGTGCACTAACACCATGCACAAGGTGGCGGATGCCATCGCCGCCCGCTGCCAGGTTCCCTTTCTGCATATCGCCGACGCTACCGGAAGGGCGATTGCCGCCAAGGGCCAGCGGCGGGTCGCGCTGCTGGGCACCCGCTATACCATGGAGCAGACCTTTTACCGGGGTCGTCTGCAGGCGCAGTTTGCCATCGAGACGCTGATCCCCGAGGCCGACGATCGGGCGCGGATCAATCAGATCATTTTCGACGAACTCTGTCTCGGCACCTTCAGCGAGGCGTCGCGGGATTATTATCTGCAGGTGATTGCCGCCCTGGCGGAGCAGGGGGCGGAAGGGGTTATTTTCGGCTGCACGGAAATTGGCCTGCTGGTGCCTGCCGAGCTCAGCCTGCTGCCGGTCTTTGACACCGCGGCGATCCACGCTGAGGACGCGGTCAACTTTATGCTCTCTGCAGAACCGACGCCAGCGGCGTGA	MKTIGLLGGMSWESTIPYYRLINEGVKARLGGLHSARLVLHSVDFHEIEACQSTGDWDRAGAILADAAVGLQQAGAEGIVLCTNTMHKVADAIAARCQVPFLHIADATGRAIAAKGQRRVALLGTRYTMEQTFYRGRLQAQFAIETLIPEADDRARINQIIFDELCLGTFSEASRDYYLQVIAALAEQGAEGVIFGCTEIGLLVPAELSLLPVFDTAAIHAEDAVNFMLSAEPTPAA				NA	NA	NA	NA	NA
BMS020_01763	327			hypothetical protein	ATGTTTATTTTCCATAAAGACACCACCCTTGAAGACCTTGGCAATGGCGTAACCCGCCGCATTCTGGCCCATGATGGCAAAATGATGGCCGTGGAGGTGAATTTTGCCGCCGGCGCCGTCGGCCCGATGCATAACCACCCTCACGAACAGCTCACCTACGTGCTCTCCGGCGAGTTCGAATTCACCATCGGCGAGGAGACGCGCGTCGTCAGCGCTGGCGATACGCTGTACAAGCAGCCGGGGATCATGCACGGCTGCGTCTGCCTGCAGCCCGGCACGCTGCTCGATACCTTTACCCCCATCCGCGAAGATTTTCTCCAGGGTTAA	MFIFHKDTTLEDLGNGVTRRILAHDGKMMAVEVNFAAGAVGPMHNHPHEQLTYVLSGEFEFTIGEETRVVSAGDTLYKQPGIMHGCVCLQPGTLLDTFTPIREDFLQG				NA	NA	NA	NA	NA
BMS020_01764	891	lacF_1		Lactose transport system permease protein LacF	ATGAATGAAAACAAGCTGCTGGGATTGGCATGGATATCGCCCTATATCATCGGGCTGATTGTCTTTACCGCTTTTCCTTTTGTTTCATCTTTCTTTCTCAGTTTTACTGAGTACGACTTGATGAGTCCGCCGGTATTTAACGGCATTGAAAACTATCGCTATATGTTGACCGAGGATAGCCTGTTCTGGAAATCGATGGGGGTGACCTTTGCCTACGTCTTTTTAACCATCCCCTTAAAACTGGCTTTCGCCCTCGGCATTGCCTTTGTGCTCAATTTCAAACTGCGCGGTATCGGCTTTTTCCGCACCGCCTACTATATCCCGTCGATCCTTGGCAGCTCGGTGGCGATTGCCGTGCTGTGGCGCGCCCTGTTCGCCATTGACGGCCTGCTGAACAGTTTTCTCGCCGTCTTTGGCATCGATGCCATCAACTGGCTGGGGGAACCCTCGCTGGCGCTGATGTCGGTCACCCTGCTGCGCGTCTGGCAGTTTGGTTCCGCGATGGTCATCTTCCTCGCCGCGCTGCAGAACGTCCCGCAGTCGCAGTATGAGGCGGCGATGATCGACGGCGCCTCGAAGTGGCAGATGTTTATGAAGGTCACCGTGCCGCTGATCACCCCGGTGATTTTCTTCAACTTTATTATGCAGACCACCCAGGCGTTCCAGGAGTTTACCGGCCCGTACGTGATAACCGGCGGCGGCCCGACCTATTACACCTACCTGTTCTCGCTCTACATCTACGATACCGCCTTTAAGTACTTCGACATGGGCTATGGCGCCGCGCTGGCGTGGGTGCTGTTCCTCGTCGTGGCGGTCTTTGCGTCGATAGCCTTTAAGTCATCGAAATACTGGGTCTTCTATTCCGCCGATAAGGGAGGCAAAAATGGCTGA	MNENKLLGLAWISPYIIGLIVFTAFPFVSSFFLSFTEYDLMSPPVFNGIENYRYMLTEDSLFWKSMGVTFAYVFLTIPLKLAFALGIAFVLNFKLRGIGFFRTAYYIPSILGSSVAIAVLWRALFAIDGLLNSFLAVFGIDAINWLGEPSLALMSVTLLRVWQFGSAMVIFLAALQNVPQSQYEAAMIDGASKWQMFMKVTVPLITPVIFFNFIMQTTQAFQEFTGPYVITGGGPTYYTYLFSLYIYDTAFKYFDMGYGAALAWVLFLVVAVFASIAFKSSKYWVFYSADKGGKNG	PGPT0017290_40	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OLIGOGALACTURONIDE_TRANSPORT_II,PGPT0017290-togM-K10193	NA	NA
BMS020_01765	903	dasC	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGGCTGATATTCAACAGATGGCGCCGGTGATGAGCGACGCCGATCGTGAGGTGGCCCGTACGCTGCGCCGGGAAAAGGTGAGCCGGGTGGTGCGCTACGTCGTGCTGGTGTTCGTCGGCCTGCTGATGCTATACCCGCTGGCGTGGATGTTCTCCGCCTCGTTCAAGCCGAACCATGAGATCTTCACCACCCTCGGGCTGTGGCCGACTCACGCCACCTGGGACGGATTCATCAACGGCTGGAAGACCGGCACCGAATACCATTTCGGCCACTATATGCTGAACACCTTTAAGTATGTGATCCCGAAGGTCGTGTTAACGATCATCTCCTCCACCATTGTGGCGTACGGCTTCGCACGCTTTGAGATCCCGTGGAAGAAGTTCTGGTTCGCGACGCTCATCACCACCATGCTGCTGCCGAGCACCGTCCTGCTGATCCCGCAGTACCTGATGTTCCGTGAAATGGGGATGCTGAACAGCTATCTGCCGCTGTATCTGCCGCTGGCCTTCGCCACCCAGGGATTCTTTGTCTTCATGCTGATCCAGTTTCTGCGCGGCGTCCCGCGCGATATGGAAGAGGCGGCGCAGATCGACGGCTGCAACTCCATCCAGGTGCTGTGGTATGTGGTAGTGCCGATCCTCAAGCCGGCCATTATCTCGGTGGCGCTGTTCCAGTTCATGTGGTCGATGAACGACTTTATCGGTCCGCTGATCTACGTCTACAGCGTCGATAAGTATCCCATCGCGCTGGCGCTAAAAATGTCTATCGACGTCACGGAAGGCGCGCCGTGGAACGAAATTCTGGCAATGGCGAGCATCTCCATTCTGCCGTCCATCATCGTCTTCTTCCTGGCTCAACGCTACTTCGTGCAGGGCGTGACCAGCAGCGGAATCAAAGGTTAA	MADIQQMAPVMSDADREVARTLRREKVSRVVRYVVLVFVGLLMLYPLAWMFSASFKPNHEIFTTLGLWPTHATWDGFINGWKTGTEYHFGHYMLNTFKYVIPKVVLTIISSTIVAYGFARFEIPWKKFWFATLITTMLLPSTVLLIPQYLMFREMGMLNSYLPLYLPLAFATQGFFVFMLIQFLRGVPRDMEEAAQIDGCNSIQVLWYVVVPILKPAIISVALFQFMWSMNDFIGPLIYVYSVDKYPIALALKMSIDVTEGAPWNEILAMASISILPSIIVFFLAQRYFVQGVTSSGIKG	PGPT0017295_78	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OLIGOGALACTURONIDE_TRANSPORT_II,PGPT0017295-togN-K10194	NA	NA
BMS020_01766	1128	msmX	COG3839	Oligosaccharides import ATP-binding protein MsmX	ATGGCTGAAGTGATTTTCAACAAACTGGAAAAAGTTTACTCAAACGGGTTTAAAGCGGTGCATGGTATCGACCTGAAGATTGCCGATGGCGAATTTATGGTGATCGTCGGCCCTTCCGGCTGCGCCAAATCGACCACCCTGCGCATGCTGGCGGGTCTGGAGACCATCAGCGGCGGCGAGGTGCGGATCGGCGATAAGATCGTCAACAACCTGGCGCCTAAATCCCGTGGTATCGCGATGGTGTTCCAGAACTACGCCCTCTATCCGCATATGACGGTAAGGGAAAACCTCGCCTTCGGCCTGAAGCTGAGCAAGCTGCCCAAGGCGCAGATTGATCGGCAGGTGGAGGAAGCGGCGAAAATTCTTGAACTGGAGGAGTTGCTGGAACGTCTGCCGCGCCAGCTCTCCGGCGGCCAGGCGCAGCGCGTGGCGGTGGGCCGGGCGATCGTCAAAAAACCGGACGTCTTCCTGTTCGACGAACCGCTCTCCAACCTGGACGCCAAGCTGCGCGCCTCGATGCGCATCCGCATTTCCGATCTGCATAAGCAGTTGAAAAAATCCGGTAAACCGGCGACCACCGTCTACGTTACCCACGATCAGACGGAAGCGATGACCATGGGCGACCGCATCTGCGTGATGAAGCTCGGCCACATTATGCAGGTCGATACCCCTGACAACCTCTACCACCAGCCGAAAAATATGTTTGTCGCCGGCTTCATCGGCGCGCCGGAGATGAATATTCGCCCCAGCCAGCTGGTTGAACACGACGGCCGCCTGTGCCTGACCCTGGGCGACCAGCGCCTGCCGTTGAACGACCGTCTGGCGGAGAAAGTCGGCGCGTATCAGCATCAGGAGGTGTTCTACGGGGTCCGCCCGGAATTCGTGTCGCTCTCCGACGCGCCGTTCGCCGAAGGCGGCTGCATGGGCGAGATGGTGCGGGTGGAAAACATGGGCCATGAGTTCTTTGTCTATCTGCAGGTCGCGGGCTACGAGCTGACCGCTCGCGTGCCGTCGGACGATGCGAAGCCGATGATAGCTAAGGGACTGAATCGAAAAGTCTATTTCACCTTTGATCTTAACAAGTGTCACATCTTTGACGCCAAAACCGAACAGAACCTCTCTCTGTGA	MAEVIFNKLEKVYSNGFKAVHGIDLKIADGEFMVIVGPSGCAKSTTLRMLAGLETISGGEVRIGDKIVNNLAPKSRGIAMVFQNYALYPHMTVRENLAFGLKLSKLPKAQIDRQVEEAAKILELEELLERLPRQLSGGQAQRVAVGRAIVKKPDVFLFDEPLSNLDAKLRASMRIRISDLHKQLKKSGKPATTVYVTHDQTEAMTMGDRICVMKLGHIMQVDTPDNLYHQPKNMFVAGFIGAPEMNIRPSQLVEHDGRLCLTLGDQRLPLNDRLAEKVGAYQHQEVFYGVRPEFVSLSDAPFAEGGCMGEMVRVENMGHEFFVYLQVAGYELTARVPSDDAKPMIAKGLNRKVYFTFDLNKCHIFDAKTEQNLSL	PGPT0017300_34	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OLIGOGALACTURONIDE_TRANSPORT_II,PGPT0017300-togA-K10195	NA	NA
BMS020_01767	1287	yesO	COG1653	Putative ABC transporter substrate-binding protein YesO	ATGAAAAACGTGCTGATAAGCGCCACCCTCTCCGCCACCCTCGGCCTTAGCGCCTTCTCCTCGCTGGCGCAGGATGTCGACCTGCGTATGTCCTGGTGGGGGGGCAATGGCCGCCATCAGGTGACTCTCAAGGCGCTGGAGGCTTTTCACCAGCAATATCCCGATATCAATGTCAAAGCGGAATATACCGGCTGGGACGGCCATCTTTCGCGCCTGACCACCCAGATAGCCGGCGGCACCGAGCCTGACGTGATGCAGACCAACTGGAACTGGCTGCCGATTTTTTCGAAAAATGGCGAGGGTTTTTACGATCTCAACACTCTGAAAGACGAGATCGATCTCAGCCAGTTCGACGCCAAAGAGCTGCAGTCCACCACGGTCAATGGCAAGCTCAACGGCATCCCGGTGTCGGTCACCGCCCGGGTCTTCTACTTTAACGACGAAGCGTGGAAAAAGGCGGGCATCCCCTTCCCGAAAACCTGGGATGAACTGCTGGCGGCGGGGAAAACTTTCGAAAGCAAACTCGGGAAACAGTACTACCCGGTGGTGCTTGAGCACCAGGACGTGCTGGCCCTGCTCAACTCTTACATGGTGCAAAAATACAACCAGCCGGCCATCGATGAGAAAGGACGCAAATTCTCCTACAGCAAAGCGCAGTGGGCGGACTTCTTCGGCATGTATAAGAAGCTTATCGACAGCCATGTCATGCCGGACACCCGCTACTATGCCTCCTTCGGCAAGAGCAACATGTACGAGATGAAGCCGTGGATCCAGGGTGAATGGGGCGGGACCTACATGTGGAACTCCACCATCAACAAATATTCCGACAACCTGAAGCCGCCGGCGAAGCTGGTGCTGGGGGAATACCCGATGCTCCCCGGAGCCACCGATGCCGGACTGTTCTTCAAGCCTGCGCAAATGCTGTCGATTGGCAAATCGACGAAAAACCCGCAGGCGGCGGCGAAAGTGATTAACTTCCTGCTGAACAGTAAAGAAGGGGTGGATATTCTCGGACTGGAGCGCGGCGTGCCGCTAAGTAAAGCGGCGGTCACCTACCTGACCGAAGACGGGATCATCAAAGCCGACGATCCGGCGGTGTCCGGTCTGAAGCTGGCGCAATCCCTGCCCACCACTCTGCCGGTCTCGCCGTACTTCGACGACCCGCAGATCGTCGCCCAGTTCGGCACCACCCTGCAGTACATCGACTACGGTAAAAAGTCGGTGGAAGAAGCGGCCGAGGACTTCCAGCGCCAGACCGACCGCATTCTGCGCCGCGCGATGCGCTAA	MKNVLISATLSATLGLSAFSSLAQDVDLRMSWWGGNGRHQVTLKALEAFHQQYPDINVKAEYTGWDGHLSRLTTQIAGGTEPDVMQTNWNWLPIFSKNGEGFYDLNTLKDEIDLSQFDAKELQSTTVNGKLNGIPVSVTARVFYFNDEAWKKAGIPFPKTWDELLAAGKTFESKLGKQYYPVVLEHQDVLALLNSYMVQKYNQPAIDEKGRKFSYSKAQWADFFGMYKKLIDSHVMPDTRYYASFGKSNMYEMKPWIQGEWGGTYMWNSTINKYSDNLKPPAKLVLGEYPMLPGATDAGLFFKPAQMLSIGKSTKNPQAAAKVINFLLNSKEGVDILGLERGVPLSKAAVTYLTEDGIIKADDPAVSGLKLAQSLPTTLPVSPYFDDPQIVAQFGTTLQYIDYGKKSVEEAAEDFQRQTDRILRRAMR	PGPT0017285_181	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OLIGOGALACTURONIDE_TRANSPORT_II,PGPT0017285-togB-K10192	NA	NA
BMS020_01768	1344			hypothetical protein	ATGAATAAAATCTGGGTCGGGTGTTTTCTCACGTCTCTCTCTCTGCCACAGGCGATGGCGCAGGCGCCGTTATCGCTGGAGGATCGGCTGGCGCAAATGGAGCAGCGGCTGAAGGCGACGGAGGCGCGCGCCGCCAGCGCAGAGGCGGAGATTAAGACGCTGAAAGGCCAGCAGCAGGCCACGACGGTCGCCCGCGCGGCGCCGGCTACGCCGCGCCTGCAGCTAAACGACAATGGCGAATTAAAATTTTATGGCGATGTCGAATTTAATCTTGATGGCGCCAGCCGCACCGGCAGCCTGACGTCGGTCAAAACCAGCGCGAATAAAAGCTGGGCGCCCGGTGATAAAGAGCGTTGGGATATTAATGGCCGTATTCTGCTGGGTTTCGATGGCAGACGTAATGGCGCCGACGGGAAATATGCCGGATTCAGCGTGCAGCCCCTGGCGGATATGGATGGCAAAATGAATCTCGATGATGCGGTATTTTTCTTTGGTCAGCAGGATGACTGGAAAATAAAAATAGGCCGCTTTGAAGCCTGGGATATGTTCCCCCTGAATCAGGATACCTTTATTGAATATTCAGGAAATACCGCCAACGACCTCTATTCCGACGGCTATGGCTATATTTACATGATGAAAGAGGGGCGCGGGCGCAGCAGCAGCGGCGGCAACCTCCTGTTCAGCAAAACGGTGGATAACTGGTATTTCGAGGTTAACACCCTGGTGGAGGATGGCAGTTCGCTGTTTGTCGATCAGAACTATCACGGTAATGCGCTGGAAAACCGCAAAAACGTGGTGTACGTGCGGCCGGTGGCGATGTGGCAGTCCGGCGCGTGGTCGGCGGCGGCGGCGATAGAGAGCAACCTCGTCAACAACGCCTACGGCTATCAGAACCAGGGCGGGCGCTGGGTCGACCAGTCAAACCGTACCGGCTACGGGATGACCATGAGCTGGAACACCCTGAAAAGCGATCCGCAGGACGGGGCGGTGGTCAATCTGAGTACCGCCCTGCTGGACGCGGCGGACGAAACCGACTTCAGCGCCGGGATCAACGCCCTGTGGCATCGCGTGGAGCTGGGCTATATCTACGCGCATAACAAAATCGACCAGTTCAACATGGCCGGGGTGAGCAGCGAGTGCGATGACGACTGCGCAATCCTCGCGCCGGGGCGCTATGACATCCACACCGTGCATACTTCCTGGCAGTTGCCGAATATTATGGCGATGCCGAACTTCAATATTTACCTTGGCGCCTACGCCTCGTGGCTCGATTCCACGGCAGCGAAGAGTGGGAATCCCGATGAACGCTACGGCGCCCGGGTGCGCTTTAAATATTTCTTCTGA	MNKIWVGCFLTSLSLPQAMAQAPLSLEDRLAQMEQRLKATEARAASAEAEIKTLKGQQQATTVARAAPATPRLQLNDNGELKFYGDVEFNLDGASRTGSLTSVKTSANKSWAPGDKERWDINGRILLGFDGRRNGADGKYAGFSVQPLADMDGKMNLDDAVFFFGQQDDWKIKIGRFEAWDMFPLNQDTFIEYSGNTANDLYSDGYGYIYMMKEGRGRSSSGGNLLFSKTVDNWYFEVNTLVEDGSSLFVDQNYHGNALENRKNVVYVRPVAMWQSGAWSAAAAIESNLVNNAYGYQNQGGRWVDQSNRTGYGMTMSWNTLKSDPQDGAVVNLSTALLDAADETDFSAGINALWHRVELGYIYAHNKIDQFNMAGVSSECDDDCAILAPGRYDIHTVHTSWQLPNIMAMPNFNIYLGAYASWLDSTAAKSGNPDERYGARVRFKYFF				NA	NA	NA	NA	NA
BMS020_01769	1437	sacA		Sucrose-6-phosphate hydrolase	ATGATGACTTACACAATCTCCAGGGCTGAACAGGTACTCCAGACACAACGCCAGGCGCTCAATCTGCGCTGGTATCCGCACTATCACCTGGCGGCCCGCGCCGGGTGGATCAACGACCCAAACGGTCTGGTGTGGTTCGACGGCTGGTACCATGCCTTTTATCAACATCACCCGTACTCCACTCAGTGGGGGCCGATGCACTGGGGGCATGCGCGGAGTAAGGATCTGGTGCACTGGGAGCATCTGCCGGTGGCCCTGGCGCCGGAGGGGCCGGAGGATAAAGACGGCTGCTTCTCCGGCTCGGCGGTGGTCGATGGCGATACCCTGGCGCTGATTTACACCGGGCATAAATTCCACGGCGATCCGGGCGACGAAGCCAATCTGTATCAGGTTCAGTGTCTGGCCACCAGCCGGGACGGGATCCACTTCGAGCGCCAGGGGATGGTGGTCGACACCCCGCCGGGCATGCACCACTTCCGCGACCCGAAGGTCTGGCGGGAAGGAGACAGCTGGTACATGATCGTCGGCGCGCGCGAAGGCGATACCGGCCAGGTGCGGCTGTACCGCTCAGCCGATCTGCGCCAGTGGCAGGATGTGGGGGTGCTGGATGAAGCGGAAAGCGCCATGGGCTATATGTGGGAGTGCCCGGACTTCTTCACCCTCAACGGCAAACGCGTTCTGATGTTTTCCCCGCAGGGGATGCAGGCCGAGGGGTTCCGCAACCGCAACCTGTTCCAGAGCGGCTATCTGATCGGCGAGTGGCAGCCGGGGCAGCGATTCGTCCGCCACGGCGAGTTCAGAGAGATGGATCACGGCCACGATTTCTATGCGCCGCAAAGCTTCGCCACCCCCGATGGCCGGCGGATCGTGATTGGCTGGCTGGATATGTGGGAATCACCGCTGCCGGAGCAGCAGGACGGCTGGGCGGGCATGCTCTCCCTGCCGCGCGAGCTGAGCCTGAGCGCGGATAACCGCCTGCAGATGCGCCCGGCGAAAGAAGTGGAGAGTCTGCGCGGCGCCTGGTTCCCGTGGCCGGTAAGCACCCTGAACAATCAGCAGACCACGATGGTCGACAACTGCGAGGCGATGGAGGTGAACCTGCGCTGGAACTGCGCCCGCAGCAGCGCCGAGCAGTATGGTCTGCGCTTTGGCGATGGCCTGCGCCTCTACGTGGATGCCCAGCAGCAGCGTCTGGTGCTGGAGCGGCATTATCCGCAGCATGGCCTGTGCGGGACGCGCAGCGTGCCGTTGACCGCCGGGGCGGATCTCAATCTGCGGATATTTTTCGATAGCTCTTCGGTGGAGGTGTTTGTCAATGACGGCGAAGCCTGCCTGAGCAGCCGTATCTATCCGCAGGCTCCCCGCCGTGAATTAGCGTTATTTGCCTGGAGCGGCTCAGCGGCATTAACTGAAGCCGGAGCCTGGCAGCTCGAATAA	MMTYTISRAEQVLQTQRQALNLRWYPHYHLAARAGWINDPNGLVWFDGWYHAFYQHHPYSTQWGPMHWGHARSKDLVHWEHLPVALAPEGPEDKDGCFSGSAVVDGDTLALIYTGHKFHGDPGDEANLYQVQCLATSRDGIHFERQGMVVDTPPGMHHFRDPKVWREGDSWYMIVGAREGDTGQVRLYRSADLRQWQDVGVLDEAESAMGYMWECPDFFTLNGKRVLMFSPQGMQAEGFRNRNLFQSGYLIGEWQPGQRFVRHGEFREMDHGHDFYAPQSFATPDGRRIVIGWLDMWESPLPEQQDGWAGMLSLPRELSLSADNRLQMRPAKEVESLRGAWFPWPVSTLNNQQTTMVDNCEAMEVNLRWNCARSSAEQYGLRFGDGLRLYVDAQQQRLVLERHYPQHGLCGTRSVPLTAGADLNLRIFFDSSSVEVFVNDGEACLSSRIYPQAPRRELALFAWSGSAALTEAGAWQLE	PGPT0018815_2330	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOFURANOSIDASE,PGPT0018815-sacA-K01193	NA	NA
BMS020_01770	1242	cscB_1		Sucrose permease	ATGATGAAAGCGCATCACTCACACAGCTACCCGTTGCTCAGTGCCTTACTGTTTTTCTTTTTCGTGACCTGGTCGTCATCCGGCTCCTTGCTCTCCATCTGGCTGCACCAGGAGGTCGGGCTGAAGGCCGGCGATACCGGTATCATCTACGCCGTTCTGTCGGTTTCCGCGCTGTTTGCGCAAGTTTGCTATGGCTTTATCCAGGATAAGCTGGGGCTGCGCAAACATCTGCTCTGGTATATCACCGCGCTGCTGATACTCTCCGGTCCGGCGTATCTGCTGTTCGGCCATCTGCTGAAAATTAACGTCCTGCTGGGCAGCATCTTCGGCGGGATCTACATCGGCTTGACCTTTAACGGCGGCATTGGCGTGCTGGAATCCTATACCGAGCGCGTGGCGCGCCAGAGCCAGTTTGAATTCGGCAGGGCGCGGATGTGGGGCTCGCTGGGCTGGGCGGTGGCCACCTTCTTCGCCGGTCTGCTGTTTAACATCAATCCGCAGCTTAACTTCCTCGTCGCCAGCTGTTCCGGACTGGTGTTTTTTATCCTGCTGGCGCGGCTGCGCGTCTCCTCGGCGCCGCATGCGATGCAGGAGGCGGTTTCGGGCGGCAAGGTGACCCTGGAAGATGCGCTGCGCCTGCTGACGCTGCCGCGCTTCTGGGCGCTGGTCTTCTTCGTCATCGGCACCTGCATCTACGGCGTCTATGACCAGCAGTTCCCGGTCTATTTCTCATCGCAGTTCGCGACCCTGCAGGAAGGCAATGAGATGTATGGCTACCTCAACTCCTTCCAGGTGTTCCTCGAGGCGGCCGGCATGTTCTGCGCGCCGTGGCTGGTGAACCGCATCGGCGCCAAAAATGGTCTGATTTTCGCCGGCATGGTGATGGCGATGCGCATGGTGGCCTCCGGCCTGGTGGAGGGGCCGCTGCTGATCTCCATCACTAAACTGCTGCACGCGGTGGAGCTGCCGATACTGCTGGTGGCTATCTTTAAGTACAACAGCATCAACTTCGATAAACGCCTCTCCTCCACCCTCTATCTGGTGGGCTTCGCCTGCACCAGCTCGATTATCGCCAGCGTTTTGTCGCCGCTGGCGGGCTACAGCTATGAAAAATATGGCTTCGCTCAGTCCTATCTGATCATGGGCCTGCTGGTGTTCTGCACCACCTTTATTTCCATCTTCTTGTTGCGCTCCGGCAAATCCTCCGCCGATCCGCTGGTGTCGCAACCTACCGCTGTCTGA	MMKAHHSHSYPLLSALLFFFFVTWSSSGSLLSIWLHQEVGLKAGDTGIIYAVLSVSALFAQVCYGFIQDKLGLRKHLLWYITALLILSGPAYLLFGHLLKINVLLGSIFGGIYIGLTFNGGIGVLESYTERVARQSQFEFGRARMWGSLGWAVATFFAGLLFNINPQLNFLVASCSGLVFFILLARLRVSSAPHAMQEAVSGGKVTLEDALRLLTLPRFWALVFFVIGTCIYGVYDQQFPVYFSSQFATLQEGNEMYGYLNSFQVFLEAAGMFCAPWLVNRIGAKNGLIFAGMVMAMRMVASGLVEGPLLISITKLLHAVELPILLVAIFKYNSINFDKRLSSTLYLVGFACTSSIIASVLSPLAGYSYEKYGFAQSYLIMGLLVFCTTFISIFLLRSGKSSADPLVSQPTAV	PGPT0016855_528	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_LACTOSE_TRANSPORT,PGPT0016855-lacY|MFS_transporter|OHS_family|lactose_permease-K02532	NA	NA
BMS020_01771	174			hypothetical protein	ATGGTAACGTTAACAAAAAACAAAGCGCAGGGGGATTCGCTGCGATACATGATGTTAATCACAAAAGTTAACGTTAACATAATGAAGATGCGATCGCGATCAAATATTAACCGCGGCAGCGTGGAGGACGAGGCTAGCATAAAATCGTTTCACGCTTTTACATCAGCGACTTAG	MVTLTKNKAQGDSLRYMMLITKVNVNIMKMRSRSNINRGSVEDEASIKSFHAFTSAT				NA	NA	NA	NA	NA
BMS020_01772	996	cytR_1	COG1609	HTH-type transcriptional repressor CytR	ATGGCGTCCCTGAAAGATGTAGCAAAACTGGCGAATGTATCTCTGATGACCGTCTCTCGGGCGCTGAACACCCCGGAGCGGCTCAAGCCGGAGACGCTGGCGCGCGTGCAGGCCGCCATCGCCGAAACCAACTATGTCCCCGACCTGTCGGCGAAAAAGATCCGCGGGGCGCGGGCCACCCCCAGCACCATCGGCGTGCTGGCGCTGGATACCGTCACCACCCCCTTTTCGGTGGAGATCACCCTCTCGATCGAAGAGACCGCCCGCGCCCACGGCTGGAACAGCTTTGTGGTCAACATGTTTTCCGACGATCGGCCGGAAGCGGTGGTCGACCTGCTCCTCTCCCACCGTCCGGACGGCATTATCTTTACCACCATGGGCCTGCGCCAGGTGCCGCTGCCGGACAAACTGCTGACCCTGCCCTGCGTGCTGGCCAACTGCGAAAGCCTCAGCCAGCCGGTGGCCAGCTATATCCCGGACGATGAGCAGGGTCAGTACGACGCGGTAAAAGCCCTGCTTGCCGCGGGCTATCGTCGTCCGCTGTGCCTGCACTTACCCGCCAGCCAGCTGGCGACAATCCGCCGCCGTCAGGGGCTGGAGCGCGCCTGCCGGGAGGCGGGCATCGAACCGGACAGCCTGACCCACTCGTATATGGCCCAGGGCGATGAGCATTACCACGATATTCCGGGGGTGGTGATGGCGCATATCCGCGAGGGTAAACCCGGCTTTGACTCGGTGATTTGCGGCAACGACCGCATCGCCTTTATGGTCTATCAGACGCTGCTGGGCCAGGGGCTACGCATTCCACAGGACGTGGCGGTGGTGGGATACGACAATATGGTGGGCATTGGCGATCTGTTTCTGCCGCCGCTCTCCACGGTGCAGCTGCCGCACTACGACATCGGGCGCCTGAGCGCCCTGCATATCATTCACGGCGACAACCATCGGGAGACGCGCAAGGTCGCCAGCCCGTGGCTGCCGCGCGCCTCACATTAA	MASLKDVAKLANVSLMTVSRALNTPERLKPETLARVQAAIAETNYVPDLSAKKIRGARATPSTIGVLALDTVTTPFSVEITLSIEETARAHGWNSFVVNMFSDDRPEAVVDLLLSHRPDGIIFTTMGLRQVPLPDKLLTLPCVLANCESLSQPVASYIPDDEQGQYDAVKALLAAGYRRPLCLHLPASQLATIRRRQGLERACREAGIEPDSLTHSYMAQGDEHYHDIPGVVMAHIREGKPGFDSVICGNDRIAFMVYQTLLGQGLRIPQDVAVVGYDNMVGIGDLFLPPLSTVQLPHYDIGRLSALHIIHGDNHRETRKVASPWLPRASH				NA	NA	NA	NA	NA
BMS020_01773	1422	araE		Arabinose-proton symporter	ATGACTTCAATCAGTAACGACTCTGCATTAACGCCGCGGGCGCAACGTGACACCCGGCGGATGAACTGGTTTGTTTCTATCGCCGCGGCGGTGGCGGGGTTGCTCTTTGGCCTGGATATCGGCGTGATATCCGGGGCGCTGCCCTTTATAACCGACCACTTCACCTTATCCAGCCAGCTTCAGGAGTGGGTGGTCAGCAGCATGATGCTGGGGGCGGCGATAGGCGCGCTGTTTAACGGCTGGCTGTCGTTCCGCCTTGGCCGCAAATACAGCCTGATGGCGGGGGCCGTGCTTTTTGTCGCCGGCTCTATCGGCTCCGCTTTTGCCGCCAGCGTGGAAGTGCTGCTGGTGGCCCGCGTGGTGTTGGGGGTGGCCGTTGGGATCGCCTCTTATACCGCGCCGCTGTACCTCTCCGAAATGGCCAGCGAGAACGTGCGCGGAAAAATGATCAGTATGTATCAGCTGATGGTGACCCTCGGCATTGTGCTGGCGTTTCTTTCCGATACCGCCTTTAGCTACAGCGGTAACTGGCGCGCCATGCTGGGCGTGCTGGCGCTGCCGGCGGTGATCCTGATCGTTCTGGTCGTCTTTCTGCCGAACAGCCCTCGCTGGCTGGCGGAGAAAGGGCGCCATATCGAAGCGGAAGAGGTGCTGCGGATGCTGCGCGATACCTCGGAGAAGGCGCGCGATGAGCTTAACGAGATCCGCGAAAGCCTGAAGCTGAAGCAGGGCGGTTGGGCGTTGTTCAAGGTCAATCGTAACGTGCGCCGGGCGGTGTTCCTTGGCATGCTGCTGCAGGCGATGCAGCAGTTCACCGGCATGAACATCATCATGTACTACGCCCCGCGTATTTTCAAAATGGCGGGTTTTACCACTACCGAACAGCAGATGATCGCCACCCTGGTGGTGGGCCTGACCTTTATGTTTGCCACCTTTATCGCGGTGTTCACGGTGGATAAAGCGGGCCGCAAGCCGGCGCTGAAAATCGGTTTCAGCGTGATGGCGCTGGGCACCCTGGTGCTCGGCTACTGCCTGATGCAGTTCGACAATGGCACCGCCTCCAGCGGCCTCTCCTGGCTTTCCGTCGGCATGACCATGATGTGTATTGCCGGGTATGCGATGAGCGCGGCGCCGGTGGTGTGGATCCTCTGCTCTGAGATCCAGCCGCTGAAATGCCGCGACTTCGGCATCACCTGCTCCACCACCACCAACTGGGTGTCGAACATGATCATCGGCGCCACCTTCCTGACGCTGCTTGACGCGATCGGCGCCGCCGGGACCTTCTGGCTCTACACGGTGCTCAACGTGGCCTTTATCGGCGTCACCTTCTGGCTGATCCCGGAAACCAAAAATGTCACCCTCGAGCACATTGAGCGCAACCTGATGGCGGGCGAGAAGCTGCGCAACATCGGTAACCGTTAA	MTSISNDSALTPRAQRDTRRMNWFVSIAAAVAGLLFGLDIGVISGALPFITDHFTLSSQLQEWVVSSMMLGAAIGALFNGWLSFRLGRKYSLMAGAVLFVAGSIGSAFAASVEVLLVARVVLGVAVGIASYTAPLYLSEMASENVRGKMISMYQLMVTLGIVLAFLSDTAFSYSGNWRAMLGVLALPAVILIVLVVFLPNSPRWLAEKGRHIEAEEVLRMLRDTSEKARDELNEIRESLKLKQGGWALFKVNRNVRRAVFLGMLLQAMQQFTGMNIIMYYAPRIFKMAGFTTTEQQMIATLVVGLTFMFATFIAVFTVDKAGRKPALKIGFSVMALGTLVLGYCLMQFDNGTASSGLSWLSVGMTMMCIAGYAMSAAPVVWILCSEIQPLKCRDFGITCSTTTNWVSNMIIGATFLTLLDAIGAAGTFWLYTVLNVAFIGVTFWLIPETKNVTLEHIERNLMAGEKLRNIGNR	PGPT0014420_108	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0014420-araE-K02100	NA	NA
BMS020_01774	762	kduD_1		2-dehydro-3-deoxy-D-gluconate 5-dehydrogenase	ATGATTCTTGATGCATTCTACCTGCAGGGAAAAGTGGCCGTCGTGAGCGGATGCGATACCGGTTTAGGTCAGGGGATGGCCCTCGGTCTGGCGGAAGCGGGCTGCGATATTGTCGGTATCAATATTGTCGAGCCGGTGGAAACCATCGAGCGGGTGACGGCGCTGGGACGCCGCTTTCTCAGCCTGACCGCCGACCTGCGCCAGATCGACGGTATCCCTCAGCTGCTGGAGCGGGCGGTGGCGGAGTTTGGCCATATTGATATTCTGGTCAACAATGCCGGCCTCATCCGCCGCGAGGACGCGCTGGCGTTCAGCGAAAAGGACTGGGACGACGTCATGAACCTCAATATCAAGAGCGTATTTTTCATGTCTCAGGCGGCGGCGAAGCACTTTATCGCCCAGGGCAGCGGCGGGAAGATCATTAACATCGCCTCGATGCTGTCGTTCCAGGGCGGGATCCGTGTGCCGTCGTATACCGCGTCCAAAAGCGCGGTGATGGGCGTCACCCGCCTGCTGGCCAACGAGTGGGCTAAACACCATATCAATGTCAACGCCATCGCCCCGGGGTATATGGCGACCAATAACACCCAGCAGCTGCGCGCTGACGAGCAGCGCAGTAGCGAAATCCTCGACCGCATTCCCGCCGGGCGCTGGGGCCTGCCGTCCGACCTGATGGGGCCGGTGGTCTTCCTCGCTTCCCCAGCCTCCGATTACATCAATGGCTACACGGTAGCGGTGGACGGCGGCTGGCTGGCGCGCTAA	MILDAFYLQGKVAVVSGCDTGLGQGMALGLAEAGCDIVGINIVEPVETIERVTALGRRFLSLTADLRQIDGIPQLLERAVAEFGHIDILVNNAGLIRREDALAFSEKDWDDVMNLNIKSVFFMSQAAAKHFIAQGSGGKIINIASMLSFQGGIRVPSYTASKSAVMGVTRLLANEWAKHHINVNAIAPGYMATNNTQQLRADEQRSSEILDRIPAGRWGLPSDLMGPVVFLASPASDYINGYTVAVDGGWLAR	PGPT0018065_911	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018065-kduD-K00065	NA	NA
BMS020_01775	1176	ogl	COG0823	Oligogalacturonate lyase	ATGGCTAAAGGCATGCGGGTCAAACTGAACTATCACGTCAGCCGCGATCCGGATACCGGGGCGGAAGTCACCCGCTTAACCCCCCCGGAGGTCACCTGTCATCGCAACTACTTCTATCAGAAGTGCTTTTTTAACGATGGCAGCCATTTACTGTTCGCCGGCGAGTTTGACGGCCACTGGAACTACTATCTGCTGAATATCGCCAGCGCCGAAGCCGTCCAGCTGACGGAAGGCGCCGGGGATAACACCTTCGGCGGCTTCCTCTCCCCGGACGATAAGTCGCTCTATTACGTGAAAAATGACCGTACCCTGCTGGAGGTGAACCTCACCACCCTCGCCGAGCGTGAAGTTTACCGCGTCAGCGAGGAGTGGGTCGGCTATGGCACCTGGGTGGCGAACAGCGATTGCAGCAAACTGGTAGGCATTGAGATTGCGAAAAGCGACTGGACGCCGCTCAACGACTGGCAGATTTTTCATGACTTCTTCCACAAAGGACCGCACTGCCGCCTGCTGCGCGTCGACCTGCGCAGCGGAGAGAGCCAGGTGATCCATGAGGAAAAAATCTGGCTGGGACATCCGATCTATCGTCCCTTCGACGACCATACCGTCGCCTTCTGCCATGAAGGGCCGCACGATCTGGTTGACGCCCGCATGTGGCTGGTCAATGAAGATGGCAGCAACGTGCGTAAAGTCAAAGCGCATGCCCCGGGCGAAAGCTGCACCCATGAATTCTGGGTACCGGACGGTTCAGCGCTGATCTACGTCTCCTATCTGAAAGGCCAGCAAGGGCGGACGATCTATCGCTTTGATCCGGAAAGCGGCGTCAACGAGCCCCTGATGACGATGCCCGCCTGCTCGCATCTGATGAGCAATTTCGACGGCACGCTGCTGGTGGGCGATGGATCGGGCACGCCGGTCGATGTCAAAGATACCGGCGGCTACTCCATTGATAACGATCCTTATCTGTACGTCTTTAACGTGGCGGAGAAGCGCTACTTCCGCGTCGCGCGCCATGATACCTCGTGGGCGACGGTAGCCAACAGCCGCCAGGTGACTCACCCGCACCCCTCGTTTACGCCGGATGACAGCGCCATTCTGTTCAGCTCCGATAAAGACGGCAAGCCGGCCATCTATATCGCGAAATTACCTGACCATCCGCCGATGCTGAGCGCCTGA	MAKGMRVKLNYHVSRDPDTGAEVTRLTPPEVTCHRNYFYQKCFFNDGSHLLFAGEFDGHWNYYLLNIASAEAVQLTEGAGDNTFGGFLSPDDKSLYYVKNDRTLLEVNLTTLAEREVYRVSEEWVGYGTWVANSDCSKLVGIEIAKSDWTPLNDWQIFHDFFHKGPHCRLLRVDLRSGESQVIHEEKIWLGHPIYRPFDDHTVAFCHEGPHDLVDARMWLVNEDGSNVRKVKAHAPGESCTHEFWVPDGSALIYVSYLKGQQGRTIYRFDPESGVNEPLMTMPACSHLMSNFDGTLLVGDGSGTPVDVKDTGGYSIDNDPYLYVFNVAEKRYFRVARHDTSWATVANSRQVTHPHPSFTPDDSAILFSSDKDGKPAIYIAKLPDHPPMLSA	PGPT0018250_128	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
BMS020_01776	696	kdgM		Oligogalacturonate-specific porin KdgM	ATGTTAAAACGATCTCTGGTTCTGGCCGCCCTCTGCGGTATGTCTTTTGCGGCAACTGCGGTCACGATAGATTTACGTCATGAATTTATTGATGGCGGCAAGAGCGATAAAAGCAATGCCGACCGCGTCTCGGTATCCCACCGCTTCGCCAACGGGCTAGGCTTTACCGTGGAGGCCAAATGGCGTTCAGGCGGCGACAACGGTTCGCAACCCTATTCGGACGTGGTGGGCAACGGCCATGAAGACACCATCAGCTGGCGCTGGAAAGCGACGTCGAACCTTTTCCTCACCCCCGGGTTTACCATAGAGAGCAACGACAGCCGCTCCATTTACAAGCCGCATCTGCACGTACAGTACAGTTTCGACAATGGCTTCTATGTCGCCGCTCGCTATCGCTATGAGTACACCCGCTATCCGAACGATGCCGGTAAAGATGATGACAAGGTGAATCGCGGCGACGCGTGGGCCGGGTTTGCCCTCGGCGACTGGCGCACCGAGCTGAACTATGTCTATGCCCGAAGTTCGGAAGGGGTGAACCGCAACGACAACAAACCCTACTCACAGGAATATAACGTGAAGGTAGCCTATAAGCTGGATAACAACTGGTCGCCGTATGGTGAAATCGGCAACGTCGGCGTGAATGACCGCAGCGATCGCCAGACCCGTTTCCGCGTCGGGGTGGCCTACTCGTTCTGA	MLKRSLVLAALCGMSFAATAVTIDLRHEFIDGGKSDKSNADRVSVSHRFANGLGFTVEAKWRSGGDNGSQPYSDVVGNGHEDTISWRWKATSNLFLTPGFTIESNDSRSIYKPHLHVQYSFDNGFYVAARYRYEYTRYPNDAGKDDDKVNRGDAWAGFALGDWRTELNYVYARSSEGVNRNDNKPYSQEYNVKVAYKLDNNWSPYGEIGNVGVNDRSDRQTRFRVGVAYSF	PGPT0017275_273	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OLIGOGALACTURONATE_TRANSPORT,PGPT0017275-kdgM|kdgN|nanC|ompL-K22110	NA	NA
BMS020_01777	1179	thlA_3	COG0183	Acetyl-CoA acetyltransferase	ATGAAGGATGTCGTGATCGTCGGGGCGCTGCGAACGCCGATTGGCTGCTTTCAGGGCGCGCTATCGCGCCATTCAGCCGTTGAGCTGGGTAGCGTGGTGGTGAAGGCGCTGGTGGAGAAGACGGGAATCGATCCGCAGAGCGTGGATGAGGTGATCCTCGGCCAGGTGCTGACCGCGGGAACCGGGCAAAACCCGGCCCGTCAGTCCGCTATTCGCGGCGGGTTGCCCAACACTGTATCGGCTATCACCATTAACGACGTCTGCGGTTCCGGTCTGAAAGCCCTGCACCTCGCCACCCAGGCCATCCAGTGCGGGGAGGCGGACGTGGTGATCGCCGGCGGCCAGGAGAACATGAGCCGCGCTCCGCATGTCCTCACCGACAGCCGCACCGGCGCCCAGCTGGGCAACAGCCAGCTGATTGACAGTCTGGTCCATGACGGCCTGTGGGACGCCTTCAACGATTACCATATGGGCGTCACGGCGGAAAACCTCGCCCGGGAATACGGCATCAGCCGCGAACTGCAGGACGCCTGGGCGCTCAGCTCGCAGCATAAGGCGCGCAAGGCGATTGATTCCGGACGCTTTCGCGATGAGATTGTCCCGGTTGTTACCGAGCATAACGGCGCGGCGCGCACCGTAGATACCGATGAACAACCGCGGGTGGATGCCAGCGCGGAAGGGCTGGCCAGCCTGCAGCCTGCCTTCGATCGTCTCGGATCGGTGACCGCCGGCAACGCATCCAGCATCAATGACGGCGCGGCGGCGGTGATGATGATGAGTGAGGCGAAAGCCGAGGAGCTGGGGCTGCCGATCCTCGCGCGGATCCGCGCCTTCGCCAGCGTCGGCGTCGATCCGGCGCTGATGGGCATCGCCCCGGTGCACGCCACCCGCCGCTGTCTGGAACGGGCCGGCTGGCGGCTGGACGACGTCGATTTGATCGAAGCCAATGAGGCCTTTGCCGCTCAGGCTATCTCCGTTGGCCGGGTACTGGAGTGGGATGAGCGACGGGTCAACGTCAACGGCGGCGCGATCGCCCTCGGCCACCCGATCGGCGCCTCCGGCTGCCGGATTCTGGTGTCGCTGGTGCATGAAATGATCAAGCGCGATGCGCGTAAAGGGCTGGCGACGCTGTGCATCGGCGGCGGTCAGGGCGTGGCGCTGGCGGTAGAGCGCGCGTAG	MKDVVIVGALRTPIGCFQGALSRHSAVELGSVVVKALVEKTGIDPQSVDEVILGQVLTAGTGQNPARQSAIRGGLPNTVSAITINDVCGSGLKALHLATQAIQCGEADVVIAGGQENMSRAPHVLTDSRTGAQLGNSQLIDSLVHDGLWDAFNDYHMGVTAENLAREYGISRELQDAWALSSQHKARKAIDSGRFRDEIVPVVTEHNGAARTVDTDEQPRVDASAEGLASLQPAFDRLGSVTAGNASSINDGAAAVMMMSEAKAEELGLPILARIRAFASVGVDPALMGIAPVHATRRCLERAGWRLDDVDLIEANEAFAAQAISVGRVLEWDERRVNVNGGAIALGHPIGASGCRILVSLVHEMIKRDARKGLATLCIGGGQGVALAVERA	PGPT0008320_9671	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
BMS020_01778	870	gltC_2		HTH-type transcriptional regulator GltC	ATGCGTTATTCACCGGAAGCGTTAACCGCCTTTGTCGAGGCCGTTGACAGCGGGTCGTTCTCCGCGGCCGCCCGTCGCCTGCGGAAAAGCCAGTCGACGATCAGTACCGCTATCGCCAACCTGGAGGCAGACCTCGGGGTGACCCTCTTCGATCGGGCAACGCGGCAGCCGACGCTGACGCCGCAGGGGGAGCAGGTGCTGAGCTATGTCAAAGCGATCCTCGCCGCCAGCGAGCGGCTGGATGAGCTGGCGGTGTCGCTGTCCGGCGAGACGGAGCCGCGACTGACCTTTGTGCTCTCGGACACCCTGCACCCGGACGTGCTGGAAGATCTGCTGGTGCAGTTTGACCGCCGCTTCCCTCATACCGAGTTTGAGTGTTTGATTGGGGAAGATGAGGACGTGATCGATCTCCTGCAAAAATCCCGCGCCCAGGTGGGATTGATTGAGGCGAGAGAGCGCTACCCGACCGATATCGGCAGCACCCGCCTGCCGCTGCAGACGGCGATGGGCATTTACGTGGCGCCTGACCATCCGCTGGCGGCGCAGGGCAAGGTTGTCTGGGATGAGCTGCGCAGCTGGCGCGAGCTGCGTTTGAGCACCTTTCTGGCCAGCGCCACTGAGCCTGCCGCCGGGCAGGTCTGGTCGGCGCCAAACTACCTGCTGCTGCTCAGCATGGCGGTGCAGGGCTTCGGCTGGTGCATTCTGCCCTGCGCCCTGGTGGCGGAGTTTGCGCCGCAGGGCGGGCTGGTGGCGCTCGATATCCCCGGCTGGCCGCGGGCGATTTCGGTGGATCTGCTGTGGAATAAGAAAGCGCCGCCCGGGGCGGCGGGCAGCTGGCTGCGTCAGCATCTGCAGCGGCGTGAACGTTAA	MRYSPEALTAFVEAVDSGSFSAAARRLRKSQSTISTAIANLEADLGVTLFDRATRQPTLTPQGEQVLSYVKAILAASERLDELAVSLSGETEPRLTFVLSDTLHPDVLEDLLVQFDRRFPHTEFECLIGEDEDVIDLLQKSRAQVGLIEARERYPTDIGSTRLPLQTAMGIYVAPDHPLAAQGKVVWDELRSWRELRLSTFLASATEPAAGQVWSAPNYLLLLSMAVQGFGWCILPCALVAEFAPQGGLVALDIPGWPRAISVDLLWNKKAPPGAAGSWLRQHLQRRER				NA	NA	NA	NA	NA
BMS020_01779	462			hypothetical protein	ATGCAACAGACCCCGCATCAGCGCAAGACGCTCGCCGAACGCGTTATCCACGCCATCACCTTCGAAGGACTGGCGACGCTGATCCTCGCCCCCACCGCCGCCTGGCTGATGCAGCGTTCGGTGGTGGAGATGGGCGGGCTGAGCATTCTGCTCGCCACCCTGGCGATGGTATGGAACATCATTTATAACGCGGCTTTCGATCGCCTGTGGCCGGTCTCCCGCGTCCTCCGCCGGCTGAAAGTGCGGGCGCTGCACGCGATCGGCTTCGAGACCGGCTTTGTTATCATCGGCGTCACCATGGTGGCTATCGTGCTGGGGGTATCGCTGCTGCAGGCGTTTATGCTGGAGATCGGCTTCATGCTCTTCTTCCTGCCCTACACCATGGCGTTTAACTGGGTCTGGGACACCCTGCGCGAGCGCGTGATCCGTCACCGCCGCCCGCGCCAGGCGGCACGCGGCTAG	MQQTPHQRKTLAERVIHAITFEGLATLILAPTAAWLMQRSVVEMGGLSILLATLAMVWNIIYNAAFDRLWPVSRVLRRLKVRALHAIGFETGFVIIGVTMVAIVLGVSLLQAFMLEIGFMLFFLPYTMAFNWVWDTLRERVIRHRRPRQAARG				NA	NA	NA	NA	NA
BMS020_01780	1230	yqeG	COG0814	Inner membrane transport protein YqeG	ATGTCTAAAATTTGGTCTAAAGAAGAAACTCTATGGAGTTTTGCCTTATATGGCACTGCAGTAGGCGCTGGGACGCTATTTCTACCGATCCAGCTGGGTTCGGCTGGCGCCATCGTCCTTTTCATCACCGCGCTGGTCGCCTGGCCGCTCACCTACTGGCCTCACAAAGCGCTGAGCCAGTTTATTCTCTCGGCCAATATCGCGCCGGGAACCGGGATCACCGGCGCAGTCAATCACTACTATGGTAAGAAAATTGGCAACCTGATCACCGGCCTCTATTTCCTCGCCTTCTTTGTGGTCGTGCTGATCTACGCCGTGGCCATCACCAACTCGCTGGCCGAGCAGGTGGCGCATCACACGCCGATGACGCCTGCGCTACGCGCGCTGCTGAGTCTTGGCGTGGTGCTGGTCCTTAATCTGATCTTTCTCATGGGCCGGCAGATCACCATCAAGGTGATGGGCTTTCTGGTCTTTCCGCTTATCGCCTGCTTTCTGTTTCTCTCCCTCTATTTAATTCGCGACTGGCATCCGGAACATCTCACCAGCCAGATGCAGTTCAGCTCGCAGACGCTCCACCAGGTCTGGATCTCCATACCCGTGATGGTTTTCGCTTTTAGCCATACGCCGATCATCTCGACTTTTGCTATCGACCAGCAGGAGAAACACGGCGACCTGGCCATGGGTAAATGCAAAAAAATCATGAAGGTGGCCTACACCATCATCTGCGCCAGCGTGCTGTTTTTCGTCTTCAGCTGCCTGCTGGCTATCCCGGCGACCTATATTGAGACCGCCCGCGATCAGGGGGTGACTATCCTCTCCGCCCTGTCGATGATGCCCGGCGCGCCGGGCTGGCTGGCGGTGACCGGCATTATCGTCGCCGTGGTCGCCATGTCGAAATCCTTTCTCGGCACCTACTTCGGGGTCATTGAAGGCGCCAGCGAAATCGTCAAAAGCTCGCTGGGCCTGATGGGCGTGCGCAAGAGCCGCGCCTTCAACCGCGCGATGTCGATCATGCTCGTCTCCGCCTTCACCTTTGCGGTGTGCTTTATCAACCCGAATGCGATCTCGATGATCTACGCCATCAGCGGACCGCTTATCGCCATGATCCTGTTTATCATGCCCACGCTGTCAACCTGGCTTATCCCGGCGCTGAAGCCGTATCGCTCGGTGGGGAATGCCATCACTCTGGTGGTCGGCCTGCTCTGCGTCTCCGTGATGTTCTTCGGCTAA	MSKIWSKEETLWSFALYGTAVGAGTLFLPIQLGSAGAIVLFITALVAWPLTYWPHKALSQFILSANIAPGTGITGAVNHYYGKKIGNLITGLYFLAFFVVVLIYAVAITNSLAEQVAHHTPMTPALRALLSLGVVLVLNLIFLMGRQITIKVMGFLVFPLIACFLFLSLYLIRDWHPEHLTSQMQFSSQTLHQVWISIPVMVFAFSHTPIISTFAIDQQEKHGDLAMGKCKKIMKVAYTIICASVLFFVFSCLLAIPATYIETARDQGVTILSALSMMPGAPGWLAVTGIIVAVVAMSKSFLGTYFGVIEGASEIVKSSLGLMGVRKSRAFNRAMSIMLVSAFTFAVCFINPNAISMIYAISGPLIAMILFIMPTLSTWLIPALKPYRSVGNAITLVVGLLCVSVMFFG	PGPT0011650_522	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|COLICINS,PGPT0011650-sadC|dcrA-K03837	NA	NA
BMS020_01781	879	pdxI		Pyridoxine 4-dehydrogenase	ATGTCCAGTGTCACCTTATCCGGTCGCGGCACGCTCGGCGATCGCCAGGTCTATCGGTTGGGTTACGGGGCCATGCAGCTGGCCGGCCCCGGCGTCTTCGGCCCGCCGAAAGATCCTGAAGAAGCGGTGCGCGTGCTGCAGGCCGCCGTCGAAGCTGGGGTAAACCATATCGATACTTCGGATTTCTATGGCCCCCATGTGACCAATCAGCTGATCCGCAAAGCGCTTCACCCCTACCCCGACGATCTGTGCATTGTCACCAAGGTCAGCGCCCGCCGTGACGAGAAAGGCAACTGGCTGCCGGCCATGTCGCCCGCTGAACTGACCCAGGCCGTCGAGGACAATTTGCGTCACCTGGGGCTCGACGTGCTGGAGGTGGTGAACCTGCGCAGTATGCTGAGCCCCCACGGCCCGGTGGAGGGGTCGCTGGAGGCGCCGCTCGCCACCCTGCTGGAGCTGAAGGAGCGAGGGTTGATCCGCCATATTGGCCTTAGCAACGTGACGGCAAAGCAGGTGGCGGATGCGCAGAAAATGACGCCTATCGTCTGCGTGCAAAACCTCTATAACATTGCCCATCGCGCCGACGACGCGCTGGTGGATGCGCTGGCCGCCCAGCACATCGCCTGGGTCCCCTTCTTCCCGCTGGGCGGTTTTACCCCGCTGCAGGCGCAGGAGCTGAACGAGGTCGCAGCCTCGCTTGAGGCGACGCCGATGCAGGTCGCCCTCGCCTGGCTACTCCAGCGCGCGCCCAATATTCTGCTGATCCCCGGCACCTCATCCCGCACGCACTTGGCGGAAAATATTGCCGCCGCCGGACTGGTTCTGCCAGCGGATGCGCTACGCATCCTGGATAATATCGCCAATCGCACGCATCCCTGA	MSSVTLSGRGTLGDRQVYRLGYGAMQLAGPGVFGPPKDPEEAVRVLQAAVEAGVNHIDTSDFYGPHVTNQLIRKALHPYPDDLCIVTKVSARRDEKGNWLPAMSPAELTQAVEDNLRHLGLDVLEVVNLRSMLSPHGPVEGSLEAPLATLLELKERGLIRHIGLSNVTAKQVADAQKMTPIVCVQNLYNIAHRADDALVDALAAQHIAWVPFFPLGGFTPLQAQELNEVAASLEATPMQVALAWLLQRAPNILLIPGTSSRTHLAENIAAAGLVLPADALRILDNIANRTHP	PGPT0009140_1040	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009140-ydbC-K05275	NA	NA
BMS020_01782	705	ycgR_1		Flagellar brake protein YcgR	ATGACAGAGGGAACGATAAAGACCAGTAAGTATGAAATTATTGCTATTTTCAGAGAGGAGTTGCGCAAACGTACTGAAATTGAAATATTTTTTAACAGCACCAGTATCATAACCCAACTGACGCGCGTGGACTTTGCCGAGTTCCATATTCAGACCCATCGCAAAATCCCACCGGGTCATAAAATTCGTTTTCTACTGCATAGCGATTCAGGGAAAATAGAGTTTAATGCAGCCCTGACAAAACATGACAATAGCGGTGTCGATAAAGGTATCCGCTACGCCTTTTCCTTGCCTGAATGCCTGCAGGTCGTGCAGCGTCGCCGCGATCCCCGCTTTCGTTTACGCCACGAGCATGACTTTTATTGCCGCGGGCGCCATAAAAATGGCGAAAACTATCTTTTCGACATCAAAGACATTTCGGACGGCGGTTGCGCGCTGATGACCAAAACGCCGAACCTGAAATTTCTCAGTCATAACGCATTGCTGAAAAATGCCGTACTGATGCTGGCGGAATATGGCGAGATCACCATCGACCTGGTGGTAAAAAATGTCATTATTATCACCCTCGACAATCCCAATGAAGAGAGCGAAAGCTACTATCAGATATCCTGCCAGTTTAAGTTCCGTCATCTCGACGACCAGCGCAGAATAGAGAAGATTCTGCTGGACCTGATCTTAGAAGCCAAGCGCAAAAAGAGAATCTGA	MTEGTIKTSKYEIIAIFREELRKRTEIEIFFNSTSIITQLTRVDFAEFHIQTHRKIPPGHKIRFLLHSDSGKIEFNAALTKHDNSGVDKGIRYAFSLPECLQVVQRRRDPRFRLRHEHDFYCRGRHKNGENYLFDIKDISDGGCALMTKTPNLKFLSHNALLKNAVLMLAEYGEITIDLVVKNVIIITLDNPNEESESYYQISCQFKFRHLDDQRRIEKILLDLILEAKRKKRI	PGPT0016210_538	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|CRP_SIGNALLING_PATHWAY,PGPT0016210-ycgR-K21087	NA	NA
BMS020_01783	573			hypothetical protein	TTGCTGTACACCAATGATAATCTCATTGGTCACTCAATCTATCACTACCTTATTGATAGTCATGAAAATGCCACCCGTTTTGGCTATGACGATGTTATCCAGAGAAAACATCTGCCTGTGGCCCAAACGGTTATTTTCAATTTAATTAATAAGGATATTTCTGCCATCAGAATCCTTGATCTGCTGAATGCGCTCCGCCTTTCCCTGCAGCGCTGCCAGCAGCCGGTGCTGATGGTAAAAAGCGACATTGCCGGGCTATGCCGAGAGTTGATAACTGTCGATAATGCCATGATTATTAGCGAAAACTCACCGCTATCTATGTTTACTTCCATTATCCAGCGCGCGAAGGGCGCCAGCGAACAGCCGCCGCGACGATTGCGCAAACAGCTGTCGCCGCGGGAGTGCCAGATCCTCGAACTGCTGATTGCCAACAATAATAATAAGCGTATTGCCGCCCTGCTCGGCATTGCCCATAAAACGGTCCACAGCCATCGTATCCATATCATGCAAAAGCTGGGCATTGATAATTCCCGCACGATGAACCAGCGTATTGCCGCCCTTCATCAATGTTAA	MLYTNDNLIGHSIYHYLIDSHENATRFGYDDVIQRKHLPVAQTVIFNLINKDISAIRILDLLNALRLSLQRCQQPVLMVKSDIAGLCRELITVDNAMIISENSPLSMFTSIIQRAKGASEQPPRRLRKQLSPRECQILELLIANNNNKRIAALLGIAHKTVHSHRIHIMQKLGIDNSRTMNQRIAALHQC	PGPT0017180_206	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_HEXOSE_PHOSPHATE_UPTAKE_SENSING,PGPT0017180-uhpA-K07686	NA	NA
BMS020_01784	717	pdeH_1		Cyclic di-GMP phosphodiesterase PdeH	ATGAACACTAAAATATTCGAAGACAACATTTTATCTCGTAATGATATCGCTGTACGCTACGTCTTTCAGAAAATGTTTTCCCCACAAGGTACCTTAGTCGCGGTTGAATGCTTAAGCCGCTTCGATAATCTTCCCGTTTCGCCAGAATATTTTTTCCGCCATGCCACCGCGGCGGTTCGTGAACGTATTTTTCTCGAGCAACTGGCGTTGATTGAACAGCATAAAGCATGGTTTTTACGTAACCATATTTCCGCCACCATTAACGTCGATGACCATATCCTGAATCTTCTACGCCAGAAGGAAATAAAAGAGAAAATTGCCGCCCTGACCTGCGTCCATTTTGAAGTGACCGAGAACGCCGAGAAGCTTCTGAATAATTCCCTCGCCGCCTGGCAAAGCCCGCAGGATACCTCGCTGTGGCTCGACGACTTCGGCTCTGGCTACGCGGGGATAAACGCCATCAGCGGTTATCATTTTGACTATGTCAAAATTGATAAAGATTTTTTCTGGCATCTGATGCGCAAAGAGTCCGGCCGTCAGCTGATGGATGCGCTGGTCACCTTTTTATCCCGCAATCATCACAACGTGATTATTGAAGGCGTGGAAAGCGAAGCCCATAAAAAATGGCTGCAGGGTATGGAATGGTTTGCTATTCAGGGGCATTACTGGCAGGAAGTCAGCATTGAACAACTGGTTGCCGACGATATTGTCATATAA	MNTKIFEDNILSRNDIAVRYVFQKMFSPQGTLVAVECLSRFDNLPVSPEYFFRHATAAVRERIFLEQLALIEQHKAWFLRNHISATINVDDHILNLLRQKEIKEKIAALTCVHFEVTENAEKLLNNSLAAWQSPQDTSLWLDDFGSGYAGINAISGYHFDYVKIDKDFFWHLMRKESGRQLMDALVTFLSRNHHNVIIEGVESEAHKKWLQGMEWFAIQGHYWQEVSIEQLVADDIVI	PGPT0016215_242	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|CRP_SIGNALLING_PATHWAY,PGPT0016215-yhjH-K21086	NA	NA
BMS020_01785	636			hypothetical protein	ATGAAGGGATTGCCGAAACATACTATCGCGTGGCTGCTGCTCTGCGGCAGCCTCGCCGCCCCCTCGGCGTGGGGTTTCGAGACCAATTATGACCGCGGACGGGTCGATTTTGCCGGGCGGGTGACGGATATTTCCTGCAGCGTCGCGCTCAATGGCGGCCAGCATGCCGGCAGCGGCAACGTCTGGCTGGCGCCGGTCAGCCTGGCGGAAGTGCACGATCGCGGGGCCGGCGCGTTTATGAAGCCGCAGCCTTTTACCCTGGCGCTGTCAAACTGTCAGCTGCGTCATGACGGCGGCGCCGCCTCGCAGGACGAGGTGCGGCGGGTCAGCGTTCGCTGGGTCGACGGTTTTTTACTGACGGCGGTCGGCAATGAGAACGCGGGCTATCTCGCCAATACCTTGCCAGACGGAGCGCAGAATATTTATCTGGCGCTGTCGACCAATGATAATAATACGCTGGATAAGAGTAATAAAATTGTCCCTGCGGACCCGCAGCAAAATCAGGTGCATTTGCAGGAAAGCGCGGTCAGCGGCGGCCTGTTCACCTATTATGTGGGCTACGTTTCGCCGACGCCGAAAAGCGCCACCAGCGGGCCAATTACCAGCTGGGCAACGTGGGAATTAGTTTATAATTAA	MKGLPKHTIAWLLLCGSLAAPSAWGFETNYDRGRVDFAGRVTDISCSVALNGGQHAGSGNVWLAPVSLAEVHDRGAGAFMKPQPFTLALSNCQLRHDGGAASQDEVRRVSVRWVDGFLLTAVGNENAGYLANTLPDGAQNIYLALSTNDNNTLDKSNKIVPADPQQNQVHLQESAVSGGLFTYYVGYVSPTPKSATSGPITSWATWELVYN	PGPT0016030_358	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016030-fimA-K07345	NA	NA
BMS020_01786	996	mrkD_2		Fimbria adhesin protein	ATGTCGCTGAGGAAATTACTGACGCTTTTTATCGTCTTAATGGCGCTGGGCACCACCTCGTCCTGGGCCGTCTGTACGCGTCTCTCTTCGCCAACGGTGATGCTGGACATGGTGGTGGGCAGGGTGGTGGTGCCCCCGGATCTGCCGGTGGGCTCGGTGATCCTCACCCGTGACTGGACGATGAGCGCCCCGGGCGGGGCGAGCTATCGCTGTACCTCCGGCACCAACCGCTTCGCGGCGAAGATCGTCTCGCCAGGGGCCACCGATCTTGGGAATAAAATTTATTCCACCAACGTGCCGGGGATTGGTATGCGTTTCAGCCGCGGCGGCGCGACGGTGAATATCGTCTATCCCGACGTCTATTCGTCCCGGGTGTATAACACCACCAACTATTCCCTTGAAGGGTCACGTTTTACGCTGGAGATTATCAAAACCGCGGCAACCACCGGCAGCGGCACCCTCGCGGCGGGAAAATACACCTCCTATGACTGGGAGAGCGGCGGCAACCCGATCCTCGAAACCTATCTGAGCGCCAATGCGATCACCGTGGTCTCGCCCTCCTGTTCGGTACTGAGCGGGAAAAATATGAATGTTGATGTGGGCGCCATCAGACGCACTGACCTGAAAGGGGTGGGCACCACCGCGGGCGGGAAGGATTTTAATATCGATCTGCAGTGCAGCGGCGGCCTGAGTGAAACGGGATATGCCAACATCAGCACCTCTTTTTCCGGCACCCTGGCGACCAGCACCACCGCCACCATGGGCGCCTTGCTGAATGAAAAGGCCGGCAGCGGGATGGCGAAAGGCGTCGGCATCCAGGTGCTGAAGGATGGATCCCCGCTGCAGTTTAATAAGAAATATACCGTTGGCCGCTTGAATAATCAGGAGACCCGCTACATCACCATCCCGCTGCACGCGCGCTTTTATCAGTATGGCCCGACGACCAGCACCGGCGAGGTGGAGTCGCATATGATCTTTAACCTGACGTACGATTAA	MSLRKLLTLFIVLMALGTTSSWAVCTRLSSPTVMLDMVVGRVVVPPDLPVGSVILTRDWTMSAPGGASYRCTSGTNRFAAKIVSPGATDLGNKIYSTNVPGIGMRFSRGGATVNIVYPDVYSSRVYNTTNYSLEGSRFTLEIIKTAATTGSGTLAAGKYTSYDWESGGNPILETYLSANAITVVSPSCSVLSGKNMNVDVGAIRRTDLKGVGTTAGGKDFNIDLQCSGGLSETGYANISTSFSGTLATSTTATMGALLNEKAGSGMAKGVGIQVLKDGSPLQFNKKYTVGRLNNQETRYITIPLHARFYQYGPTTSTGEVESHMIFNLTYD				NA	NA	NA	NA	NA
BMS020_01787	2487	htrE_1	COG3188	Outer membrane usher protein HtrE	ATGAAGCAGAGGTCATTCTGCCCGGGAAGATTAAGCACCGCGATCGCCATCGCGCTGTGCTGCTTTCCGCCATTTTCCAGCGGACAGGAAAACCCGGGAACGGTATATCAATTTAACGACGGCTTTATTGTCGGCAGTCGCGAAAAGGTCGACCTGTCACGCTTCTCGACCAGCGCGATTACCGAAGGCACTTACTCCCTTGACGTCTACACCAACGACGAATGGAAAGGGCGCTACGATCTGCGCATCGCGCGCGACACAGACGGTAACCTTGGGGTCTGCTACACCAAAGCGATGCTGACGCAGTACGGCATCGCGGCGGAAAAGCTCAATCCGCAGCTGAGCGAACAGGAAGGCTATTGCGGTAGCCTCAAATCCTGGCGCAACGAAGACAACGTCAAAGACAACCTGGTCCAGTCCTCCCTGCGGTTGAACATTTCAGTGCCGCAGATCTATGAAGATCAACGCCTGAAAAACTATGTCAGCCCGGAGTTCTGGGACAAAGGCATTACCGCGCTTAATCTTGGCTGGATGGCCAACGCCTGGAACAGCCACACCTCTTCGGTCGGCGGGTCGGATAACAGCAGCGCCTACCTTGGCGTCAACGCCGGTCTGTCGTGGGACGGCTGGCTGCTGAAGCATATCGGTAACCTGAACTGGCAGCAGCAGCAGGGTAAAGCGCACTGGAACAGCAACCAGACCTATCTCCAGCGGCCGATCCCGCAGATCAACTCCATCGTCAGCGGGGGGCAGATTTTTACCAATGGCGAATTTTTCGACACCATCGGTCTGCGTGGGGTCAACCTCGCCACTGATGACAATATGTTCCCGGACGGCATGCGCTCCTATGCCCCGGAAATTCGCGGCGTGGCGCAGAGCAACGCCCTCGTCACCGTGCGTCAGGGCAGCAACATTATCTATCAGACCACCGTTCCGCCGGGGCCGTTTACCCTGCAGGATGTCTATCCATCCGGCTATGGCAGCGATCTTGAAGTCTCGGTAAAAGAGGCGGATGGCTCGGTGGAAGTGTTCAGCGTGCCTTACGCCTCCGTTGCTCAGCTGCTGCGTCCGGGCATGACCCGCTACGCGCTCTCCGCTGGTAAAGTGGACGACAGCGGGCTACGCAACAAGCCGATGCTCTATCAGGCGACCTGGCAGCACGGGATCAATAACCTGCTGACCGGCTACACCGGGGTCACCGGCTTTGACGACTATCAGGCCTTCCTGGTGGGCACCGGGATGAACACCGGGATCGGCGCGCTCTCTTTTGACGTCACCCATTCGCGGCTGAAGAGCGATACCCATGATGACTCGGGGCAGAGCTATCGCGCCACCTTTAACCGCATGTTCACCGATACCCAGACCAGCATCGTGCTGGCGGCGTATCGCTACTCGACGAAAGGTTATTACAACCTCAACGATGCGCTGTACGCCGTCGATCAGGAAAAAAACAGCCGCAGCAACTATACGCTGTGGCGGCAAAAAAACGGCATGACCTTCACGGTGAACCAGAACCTGCCGGAAGGCTGGGGCGGGTTTTATCTCAGCGGTCGTATTTCCGATTACTGGAACCGCTCCGGGACCGAGAAGCAGTATCAGGTCAGCTACAACAATTCGTTTGGTCGTCTCTCCTGGTCGGCGAGCGCCCAGCGCGTCTATACCCCGGACAGCTCCGGCCATCGCCGCGACGATCGCATTTCACTCAACTTCAGCTACCCGCTGTGGTTTGGCGATAACCGCACCGCCAACCTGACGTCGAACACCTCGTTCAACAACTCGCGCTTTGCCAGCTCGCAGATTGGTATCAACGGCTCGCTGGACAGTGAAAACAACCTTAACTACGGCGTGTCGACCACCACCGCCACCGGCGGTCAGCACGATGTGGCGCTCAACGGCAGCTACCGTACGCCATGGACCACCCTCAACGGCAGCTACAGCCAGGGCGAAGGGTATCGTCAGAGCGGCATTGGCGCCAGCGGGACGATGATCGCCCACAGCGGCGGCGTGGTGCTCTCGCCGGAAAGCGGCTCGACGATGGCGCTGATTGAAGCCAAAGACGCGGCCGGCGCCATGCTCCCGGGATCGCCGGGCACCCGCGTGGACAGCAACGGTTACGCCATCCTGCCGTATCTGCGCCCGTACCGGATCAACGCCGTCGAGATCGACCCGAAAGGCAGCCATGACGACGTGGCCTTCGATCGCACCGTGGCGCAGGTTGTGCCGTGGGAAGGCAGCGTGGTTAAGGTGGCGTTCGGCACCACGGTGCAGAACAACCTCACCCTGCAGGCGCGCCAGGCGAACCATGAGCCGCTGCCGTTCGCGGCGAGTATTTTCTCCCCCGACGGCAAGGAGATCGGCGTCGTCGGTCAGGGCAGCATGATGTTCATCAGCGATGCGAACGCCAAACGTGCGATTGTGAAGTGGAGCGGCGGTCAGTGTTCGGTGGATCTGGGACAGCAAACAACAAAGGATAGCGTATGTCGCTGA	MKQRSFCPGRLSTAIAIALCCFPPFSSGQENPGTVYQFNDGFIVGSREKVDLSRFSTSAITEGTYSLDVYTNDEWKGRYDLRIARDTDGNLGVCYTKAMLTQYGIAAEKLNPQLSEQEGYCGSLKSWRNEDNVKDNLVQSSLRLNISVPQIYEDQRLKNYVSPEFWDKGITALNLGWMANAWNSHTSSVGGSDNSSAYLGVNAGLSWDGWLLKHIGNLNWQQQQGKAHWNSNQTYLQRPIPQINSIVSGGQIFTNGEFFDTIGLRGVNLATDDNMFPDGMRSYAPEIRGVAQSNALVTVRQGSNIIYQTTVPPGPFTLQDVYPSGYGSDLEVSVKEADGSVEVFSVPYASVAQLLRPGMTRYALSAGKVDDSGLRNKPMLYQATWQHGINNLLTGYTGVTGFDDYQAFLVGTGMNTGIGALSFDVTHSRLKSDTHDDSGQSYRATFNRMFTDTQTSIVLAAYRYSTKGYYNLNDALYAVDQEKNSRSNYTLWRQKNGMTFTVNQNLPEGWGGFYLSGRISDYWNRSGTEKQYQVSYNNSFGRLSWSASAQRVYTPDSSGHRRDDRISLNFSYPLWFGDNRTANLTSNTSFNNSRFASSQIGINGSLDSENNLNYGVSTTTATGGQHDVALNGSYRTPWTTLNGSYSQGEGYRQSGIGASGTMIAHSGGVVLSPESGSTMALIEAKDAAGAMLPGSPGTRVDSNGYAILPYLRPYRINAVEIDPKGSHDDVAFDRTVAQVVPWEGSVVKVAFGTTVQNNLTLQARQANHEPLPFAASIFSPDGKEIGVVGQGSMMFISDANAKRAIVKWSGGQCSVDLGQQTTKDSVCR	PGPT0016040_2002	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016040-fimD|fimC|mrkC|htrE|cssD-K07347	NA	NA
BMS020_01788	702	yadV_1		putative fimbrial chaperone YadV	ATGAAGCGTATTGCCCTTTTTTTCTGTTTCATTTTTAGTTTTGCGGCCCATGCCAACAATATTATTGTTAACGGTACCCGCTTTATTTATCCAGGAAATGAAAAAGAAATAACGGTACAGCTTTCAAATAACGCCGACCGTCCGGCGCTGGCGCAGGCCTGGCTGGATAACGGCGATGCCGATGCCACACCGGATACCATTACCACCCCGTTTATTATCACCCCGCCGATTTCGCGCGTTGACGCCAAGAGCGGCCAGACGCTGCGTATTAAGCTCGGCAGCAGCGCCGGTCTGGCGAAAGATAAAGAGTCGCTGTGGTGGCTGAATCTGCTGGAAATTCCGCCGGTGGTGGCTGATCAGAAAAATGAAGGCCAGAACGTGCTGCAGCTGGCGATCCGTTCCCGCTTTAAATTTATTTATCGTCCTGCCGGGCTGGGCAACCGCGATGCGGCGGCCGAGAAGCTGACCCTGACCGCCAGCGGCAGCAGTCTCGCCATCAACAACCCGACGCCGTTCTACATTACCGTCAGCCGTATTTCCCGCGACGGCGGTAAAGCCCTGAACAGCAAAACCGTGATGCTGGCGCCGCAGTCCAGCCAGACGGTGGCGCTCTCCTCCGCCGTCAACCGCGGCGAAACCCTGACCGTTAACAACATTAATGACTATGGCGCCGATGTCGCAGTGAAAGTGGCCGTTAAATAA	MKRIALFFCFIFSFAAHANNIIVNGTRFIYPGNEKEITVQLSNNADRPALAQAWLDNGDADATPDTITTPFIITPPISRVDAKSGQTLRIKLGSSAGLAKDKESLWWLNLLEIPPVVADQKNEGQNVLQLAIRSRFKFIYRPAGLGNRDAAAEKLTLTASGSSLAINNPTPFYITVSRISRDGGKALNSKTVMLAPQSSQTVALSSAVNRGETLTVNNINDYGADVAVKVAVK				NA	NA	NA	NA	NA
BMS020_01789	609			hypothetical protein	ATGAAAAAGGTTCTTCTCTCTGCAGCAATGGCAACCGCGTTTTTTGGCATGACTGCTGCCCATGCAGCTGATACCAATGTTGGCGGCGGCCAGGTTAATTTCTTCGGTAAAGTTACCGATGTATCCTGTACTGTTTCTGTTAACGGCCAGGGCAGCGATGCGAACGTTTACCTGTCTCCGGTAACCCTGACTGAAGTTAAAGCGGCAGCAGCGGATACTTACCTGAAACCGAAATCTTTCACCATTGACGTCTCTAACTGCCAGGCGGCTGACGGCACCAAACAGGATGACGTAAGCAAACTGGGCGTAAACTGGACCGGCGGTAACCTGCTGGCTGGCGCAACCAGCAAACAACAGGGCTACCTGGCGAACACCGAAGCTTCCGGTGCTCAGAACATCCAGCTGGTGCTGTCTACTGACAACGCTACCGCGCTGACCAACAAAATCATCCCGGGTGACAGCACTCAGCCGAAAGCGAAAGGCGATGCTTCCGCTGTAGCCGATGGCGCGCGTTTCACCTACTACGTAGGCTACGCCACCAGCGCGCCGACCACTGTGACCACCGGTGTGGTAAACAGCTACGCGACTTACGAAATTACTTACCAGTAA	MKKVLLSAAMATAFFGMTAAHAADTNVGGGQVNFFGKVTDVSCTVSVNGQGSDANVYLSPVTLTEVKAAAADTYLKPKSFTIDVSNCQAADGTKQDDVSKLGVNWTGGNLLAGATSKQQGYLANTEASGAQNIQLVLSTDNATALTNKIIPGDSTQPKAKGDASAVADGARFTYYVGYATSAPTTVTTGVVNSYATYEITYQ	PGPT0016030_319	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016030-fimA-K07345	NA	NA
BMS020_01790	210			hypothetical protein	ATGAAAAACGTAAAATTACTCGCCGCTGCCGGTATGCTCTCCCTGGTCTCTTTCGCTAGCTTCGCTCATCCGGTGAGCGTAACAGCAGATACCCTGGACAGCGCAGAAGCGAAAATCGCGACCATTGCGAAAGAACAAGGCGCTTCCTACCACATCACCGAAGCGTACACCGGCAACCAGGTCCATATGACCGCCGAGCTCTCTAAATAA	MKNVKLLAAAGMLSLVSFASFAHPVSVTADTLDSAEAKIATIAKEQGASYHITEAYTGNQVHMTAELSK	PGPT0015005_275	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0015005-comC|ycfR|bhsA-K12151	NA	NA
BMS020_01791	897			hypothetical protein	ATGGCTTTTCTCTCGCGTAGTCTGATGCTCGACCTGCTGCTCACGGCGCTGGCGCCCGCTATCTGGGGGACGACCTACATCGTCACCTCCCAGTTTCTTCCCCCTGACCGGCCGTTTATTGCCGCACTGCTGAGGGTGTTGCCGGCAGGTATCGCCCTGCTGATCTGGAGCCGCCGCTTTCCGCAGCGCGGCGAATGGCTAAAGCTTATCGTTACCGGCATCTTAAATATTGGCGCGTTTCAGGCGCTGTTGTTTATCGCCGCCTATCGCTTACCCGGCGGGCTGGCGGCAGTGATTGGCGCGATCCAGCCGCTGCTGGTGATGCTTCTCGCCTGGTGCGTAGACCGGCAGCGCTCGCCCTGGCTGGCGGTATTCTCAGCCCTTGCCGGCATACTCGGTATGGCCATGCTGCTGCTGTCGCCGCGCACCGTCCTCGACCCGCTGGGCATCGGCGCGGCGTTTCTCGGGGCGATCAGTATGGCGCTGGGCACCTGGCTCTCCCGCCGCTGGGCGCTCTCCCTGCCGATCGTCGCGTTAACCGGCTGGCAGCTGGCGATCGGCGGGGTGGTGCTGGCGCCAGTGGCGCTGATCGTTGACCCCCCTTTGCATCAGGTGACTGCGCTGCAGGCGGCCGGCTATCTGTGGCTGTGCGTGGCGGGCGCCATGCTGGCCTATGGCCTGTGGTTCCGGGGGATTGGCCGCCTCTCGCCGGTGGCGGTGTCGGCAATGAGCCTGCTGAGCCCGGTGACCGCCGTGGTGCTGGGGTGGATTTTCCTTGGACAAACGATCCAGGGGATGGCGCTGGTCGGGCTGATCGTGGTGCTGGCGAGCGTATTGTCTATTCAGCGCGCGCTGGCGCGCCAGGCGGCGGGGGCAAAAACGAAAAAAGCCCCATAA	MAFLSRSLMLDLLLTALAPAIWGTTYIVTSQFLPPDRPFIAALLRVLPAGIALLIWSRRFPQRGEWLKLIVTGILNIGAFQALLFIAAYRLPGGLAAVIGAIQPLLVMLLAWCVDRQRSPWLAVFSALAGILGMAMLLLSPRTVLDPLGIGAAFLGAISMALGTWLSRRWALSLPIVALTGWQLAIGGVVLAPVALIVDPPLHQVTALQAAGYLWLCVAGAMLAYGLWFRGIGRLSPVAVSAMSLLSPVTAVVLGWIFLGQTIQGMALVGLIVVLASVLSIQRALARQAAGAKTKKAP				NA	NA	NA	NA	NA
BMS020_01792	507			hypothetical protein	ATGGACAAATCACCGCCGATCGACGCCGTTGATCGGATTCTCGCCCAGTGGCAACGGGAGCGACCGGACCTCGACTGCAGCCCAATGGGACCGATTGGCCGTCTGAAACGGTGCGCCATGCTGCTGGAGCCGCAGGTGGAAGTGGCTTTTACGCGCCACGAACTGGTGCGCTGGGAGTTTGACATGCTGGCGACGCTGCGCCGCGCCGGGGCGCCGTTCATTCTTTCGCCGACCCAGCTCTTCTCCACGCTGATGATCACTTCCGGCACCATGACCCATCGCCTGAAGGCGCTGGAAAAACGCGGGTTTATTACCCGCCTGCCCAATCCGGAAGACGCCCGCAGTATGCTGGTCGCCCTGACGCCCGCCGGACGTGAGCGCATCGATGAGGCGGTGGAGACCCATGTCGATAATGAACGGCAGCTGCTGGCGGAGCTCAGCGATGGCGAGCGCCAGCAGCTGGATCAGGCGCTGCGGATATTGATGCGCCTGCTGGAAAGCCGTTAA	MDKSPPIDAVDRILAQWQRERPDLDCSPMGPIGRLKRCAMLLEPQVEVAFTRHELVRWEFDMLATLRRAGAPFILSPTQLFSTLMITSGTMTHRLKALEKRGFITRLPNPEDARSMLVALTPAGRERIDEAVETHVDNERQLLAELSDGERQQLDQALRILMRLLESR				NA	NA	NA	NA	NA
BMS020_01793	1017			hypothetical protein	TTGTTCGCCGGGCATGAGATTGTCGTCCGGTGGTTCATCTCTTTTCACCATGGCATAACGATGATGATTCCGATTGCGCAGCGCGACTGGCGCCTGCTGGTCGCCGGGAGCGGCGGCCTTCTTCTGCTGGCCGCCGGCGTCACCTTGCACAGCCACTGGAGCGACTTTCTCCAGTGGTGCCTCGCCACGCAAATTACCCTGCATCGCTATCTGGTGATGTACCTTTTGCTGCTGAACAACCATCAGTACAGCGGCGGCGTCTGGCTGCTGGTGGGCGCATTTCTTTACGGCGTGCTGCACGCTATCGGACCGGGCCACGGTAAGTTTATCGTCACCACTTACCTGAGCACCAACCAGGAGAGCCTGACCGCGGCGCGGGTGGTGCCTTTTCTCGGCAGCCTGCTGCAGGGCGTGAGCGCCATCCTGTTTGTCTATATTCTCGCGGTGGGGCTGAATCTGGCCGCCGGCGATCTCAGCGCCAGCCGCTGGTACGTCGAGAAGATCAGCGCCCTGACCATCGCCGCCTTTGGGGTTTACGTTATCTGTCGCGCGCTGCAAAGCCTGCGGCCGGGTAAAACAAGGATACGCGCCCTGAGGCCGGCGCATCAGCATGATGCCGCGTGCGGCTGCGGGCACCACGGCGTGGGGCAGGACCTGCAGGGCGCCGACTGGAAGACACGTCTGGGCGTGGTGCTGGCTATCGGCGCCCGGCCCTGCAGCGGAGCGATTATGATCCTGCTGTTCGCCAACGCGCTGGGGATCGTCAGCTGGGGCATCGCCGCGGTGATGACCATGGCGCTGGGCACCGCGCTCTCGATCCTCGGTCTATCGCTGGCGGTGCACTATGCTCGTCACCGTACCGTCAACCGGCTGACGGCGACCAGCCGTCCGCGGCCCTGGCTGGTGCCGCTGGTGAAGATCCTCGGCGGGCTGGCACTGATCCTCTTTGCCGCCGGGTTGTTTTTCACCGTGGTGCCGATCAGCGCTAACGGCGACTTTATCGCCGCGGGCTGTTAA	MFAGHEIVVRWFISFHHGITMMIPIAQRDWRLLVAGSGGLLLLAAGVTLHSHWSDFLQWCLATQITLHRYLVMYLLLLNNHQYSGGVWLLVGAFLYGVLHAIGPGHGKFIVTTYLSTNQESLTAARVVPFLGSLLQGVSAILFVYILAVGLNLAAGDLSASRWYVEKISALTIAAFGVYVICRALQSLRPGKTRIRALRPAHQHDAACGCGHHGVGQDLQGADWKTRLGVVLAIGARPCSGAIMILLFANALGIVSWGIAAVMTMALGTALSILGLSLAVHYARHRTVNRLTATSRPRPWLVPLVKILGGLALILFAAGLFFTVVPISANGDFIAAGC	PGPT0004550_970	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004550-rcnA-K08970	NA	NA
BMS020_01794	246			hypothetical protein	ATGAAAAGATGTTTACTCGCCCTGGCGTGCGTCGCGCTGCTGACGCCCTCGCTTTCGGCGCAGGCGACCTGGCGCAGCGACCAGCGCCAGGACGCCCGCGATATCCGCCAGGATAGCCGCGAGCAGGGCCGTGAAACCAAGCAAGAGTGCGTCAGCAACAACAATCAAAGCAACGCCAGCTGCCGTCACGATAAGCGGGAAAACCGCCGCGAAGGTCGTCAGGAAGCCCGCGACGAAAAATGGTAA	MKRCLLALACVALLTPSLSAQATWRSDQRQDARDIRQDSREQGRETKQECVSNNNQSNASCRHDKRENRREGRQEARDEKW				NA	NA	NA	NA	NA
BMS020_01795	606			ISKra4 family transposase ISCep1	ATGACGAATAACGCCGATATTAAAAAAAGGAACTTCCTGACTCAGAATGAAATCGAGTCGCTACTAAAAGCCGCCGATAGCGGTCCCTACGCCGCACGTAATTATTGCCTGACGCTGCTGTGCTTCATCCATGGTCTGCGCGCCAGCGAGATCTGTCGCCTGCGAATATCCGATATCGACCTTGCTTCCCGCTGCGTTTATATCCATCGGCTAAAAAAGGGGTTCTCGACCACCCACCCTTTGCTGAATAAAGAGATCCACGCCCTAAAGCGCTGGCTGGCCATTCGCAACACCTGGCCGCAGGCCGCCAGCGAGTGGCTGTTTCTCTCCCGCAAAGGCAATCCCCTTTCCCGCCAGCAGTTCTATCAGATTATCGCCTCTTCTGGCGACCAGGCGGGATTGCCGCTGGAGATCCACCCGCACATGCTGCGTCACTCGTGTGGCTTTGCGTTGGCCAATATGGGTATCGATACCCGCCTGATCCAGGACTATCTCGGACACCGCAATATTCGCCATACCGTCTGGTATACCGCCAGCAACGCGGGACGCTTCTATGGTATCTGGGACAATACGCGCGACAAACAGCGCCTGTCGCTGCTTCAGTAA	MTNNADIKKRNFLTQNEIESLLKAADSGPYAARNYCLTLLCFIHGLRASEICRLRISDIDLASRCVYIHRLKKGFSTTHPLLNKEIHALKRWLAIRNTWPQAASEWLFLSRKGNPLSRQQFYQIIASSGDQAGLPLEIHPHMLRHSCGFALANMGIDTRLIQDYLGHRNIRHTVWYTASNAGRFYGIWDNTRDKQRLSLLQ	PGPT0016040_1536	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016040-fimD|fimC|mrkC|htrE|cssD-K07347	NA	NA
BMS020_01796	609			ISKra4 family transposase ISCep1	GTGAACCGACGTCGTTTTCTTACCGCCAAAGAAGTTCAGGCTATGATGCAGGCCGCGCGTCAGGGCGCCACCGGCGAGCGGGACTACTGCCTCATCCTGCTCGCCTTTCGCCACGGGATGCGCATCAGCGAACTGCTGGATCTGCACTATCACGATCTGGATCTACGGGAAGGCCGGGTCAATGTGCGGCGGTTGAAGAACGGTTTTTCGACTATTCACCCGCTGCGCTTTGATGAACGTGAGGCCATTGAGCGCTGGAGTCAGGTCCGCGCCGGCTGGAAAGCGGCGGCCAAAACCGACGCGCTGTTTATCTCCCGTCGCGGTACCCCGCTCTCACGCCAGCAGGCATATCGTATTATTCGCGCCGCCGGGGAAAAGGCAGGTACCGTAACGCAGACCCACCCCCATATGCTGCGTCACGCCTGCGGCTACGAACTGGCGGAAAGAGGGACAGATACCCGTTTGATCCAGGATTATCTCGGTCATCGTAATATTCGACACACGGTGCGCTACACCGCCAGCAATGCGGCGCGTTTTGCCGGAATATGGGAAAGAAATAATCTTATTGGAGAAAACAATGCGGAAGCGGGAATTGATACAACCGATTGA	MNRRRFLTAKEVQAMMQAARQGATGERDYCLILLAFRHGMRISELLDLHYHDLDLREGRVNVRRLKNGFSTIHPLRFDEREAIERWSQVRAGWKAAAKTDALFISRRGTPLSRQQAYRIIRAAGEKAGTVTQTHPHMLRHACGYELAERGTDTRLIQDYLGHRNIRHTVRYTASNAARFAGIWERNNLIGENNAEAGIDTTD	PGPT0016040_1536	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016040-fimD|fimC|mrkC|htrE|cssD-K07347	NA	NA
BMS020_01797	549	fim		Fimbrial subunit type 1	ATGAAAATCAAAACACTGGCAATGATTGTTGTGTCAGCCCTGTCTCTGAGCTCCGCGGCGGCCCTGGCCGATACCACCACGGTTAACGGCGGGACCGTCCATTTTAAAGGGGAAGTCGTTAACGCGGCCTGTGCGGTGGATGCCGGCTCTATCGATCAAACCGTTCAGTTGGGCCAGGTGCGTTCCGCGAAGCTGGCCACGGCGGGGAGCACCAGTTCGTCCGTCGGTTTCAACATTCAGCTGGATGATTGCGACACCACGGTAGCAACCAAAGCGTCCGTCGCCTTCGCCGGTACGGCTATCGACAGCAGCAATACCACCGTTCTGGCGCTGCAAAACTCTGCCGCCGGCAGCGCGACCAACGTCGGCGTACAGATCCTCGACAACACCGGCACGCCGCTGGCGCTGGACGGCGCCACCTTCAGCGCAGCCACCACCCTGAATGACGGCACCAACATCATTCCGTTCCAGGCGCGTTACTACGCCACTGGCGCCGCGACCGCCGGTATCGCGAACGCGGACGCCACCTTCAAAGTGCAGTACGAGTAA	MKIKTLAMIVVSALSLSSAAALADTTTVNGGTVHFKGEVVNAACAVDAGSIDQTVQLGQVRSAKLATAGSTSSSVGFNIQLDDCDTTVATKASVAFAGTAIDSSNTTVLALQNSAAGSATNVGVQILDNTGTPLALDGATFSAATTLNDGTNIIPFQARYYATGAATAGIANADATFKVQYE	PGPT0016030_1133	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016030-fimA-K07345	NA	NA
BMS020_01798	537	lpfA		putative major fimbrial subunit LpfA	ATGCAGGGAATGAAATCGGGTCTGCTACTGCTGCTGCCTCCGCTGGCGCTGGCCGGTAATCAGTGGAACGTCACGCTGCCGGGAGGGAGCATGCGCTTTCAGGGCCTGATCATGGCCAGTTCCTGCCGCGTTGAAGCCGGCGATCGGCAGATGACGGTCAATCTGGGACAGATCAGCAGTAACCGATTTCACGACGTGGGCGAAGACAGCAACCCGATCCCTTTCGCGATTCATTTACAGGATTGCAGTACGGCGGTCAGCCAGCATGTCGGGGTGGCATTTCACGGCGTGGCTGACGGCAAAAACCCCGATGTGCTGTCGGTGGGCGAAGGCCCGGGGATCGCCAGCGGGATAGGCATTGCGCTGTTCGACAGTCAGGGCCAGCAGCTGCCCCTCAATCGTCCGCCGGATCGCTGGGTGCCGCTCTACCGCGGACCGACGACGCTAAATTTCGTCGCCAAATATCGGGCGACCGGACGCCAGGTCACCGGCGGGGCGGCCAACGCCCAGGCCTGGTTCTCATTAACCTACCAGTAA	MQGMKSGLLLLLPPLALAGNQWNVTLPGGSMRFQGLIMASSCRVEAGDRQMTVNLGQISSNRFHDVGEDSNPIPFAIHLQDCSTAVSQHVGVAFHGVADGKNPDVLSVGEGPGIASGIGIALFDSQGQQLPLNRPPDRWVPLYRGPTTLNFVAKYRATGRQVTGGAANAQAWFSLTYQ	PGPT0016060_136	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-FIMBRIAE_SYSTEM,PGPT0016060-fimI-K07351	NA	NA
BMS020_01799	726	fimC		Chaperone protein FimC	GTGAGCAGACAAGAAGATAATGTGAGAAAAACGGCAACGACGATACGCGGCATACTGACGGGATGTGCGCTTTTCGCCGCCGGCGCGTTGAGCGCCAGCGCGCACGCGGGCGTCGCGCTGGGCGCGACCCGGGTCATCTACCCGGCGGGTCAGAAACAGGTCCAGCTGGCGGTCACCAATAACGACGACAACAGCACCTGGCTTATTCAGTCATGGGTGGAAAATGCCGATGGGCAGCGAGACGGCCGGTTTGTTATCACTCCCCCCCTGTTTGCCATGCAGGGCAAAAAAGAGAACACCCTGCGCATTATCGACGCGACCAATAACCAGCTGCCGCAGGATCGGGAAAGCCTGTTCTGGATGAACGTGAAGGCCATTCCTTCAATGGATAAATCGAAGCTCAGCGACAACACCCTCCAGTTGGCGATTATCAGCCGCATCAAGCTCTACTACCGACCGGCAAAACTGGCCCTGCCCCCGGATCAGGCGCCGGACAAGCTGACCTTTAGCCGCAACGGATCGTCGCTAACGCTGACTAATCCCACCCCCTATTACCTGACGGTGACCGAACTGAACGCCGGAACGCGCATTCTGGAAAACGCCCTGGTGCCGCCGATGGGCAAAACCAGCGTCAAGCTGCCCGCGGATGCCGGCAGCACCATCACCTATCGCACCATTAACGATTACGGCGCGCTGACGCCGAAAATGAATGGCGTACTGCGTTAA	MSRQEDNVRKTATTIRGILTGCALFAAGALSASAHAGVALGATRVIYPAGQKQVQLAVTNNDDNSTWLIQSWVENADGQRDGRFVITPPLFAMQGKKENTLRIIDATNNQLPQDRESLFWMNVKAIPSMDKSKLSDNTLQLAIISRIKLYYRPAKLALPPDQAPDKLTFSRNGSSLTLTNPTPYYLTVTELNAGTRILENALVPPMGKTSVKLPADAGSTITYRTINDYGALTPKMNGVLR	PGPT0016035_757	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016035-fimC-K07346	NA	NA
BMS020_01800	2613	fimD_2	COG3188	Outer membrane usher protein FimD	ATGTCACATCGAAAATATGGACTGGACCATGGGGGTCGCCCAAGCGCCCGGCGCCTGATTACGCCGGCGCTGACGCTGTGGCTCTGCTCGCAGCCGTTTGCCGCACAGGCGGACCTCTATTTTAACCCCCGCTTTTTAGCTGACGATCCGGCGGCGGTGGCAGACCTGTCGGGATTTGAAAAAGGCCAGGAGGTCCCGCCGGGCACCTATCGCGTCGATATTTACCTCAATAACGGCTATATGACTACCCGGGACGTTACTTTCCAGGCCGACGCGCAGGGCCATGGCCTGTCGCCCTGCCTGACCCGCGGCCAGCTGGCGAGCATGGGGGTGGATACCGGACGGGTGACGGGCATGGCGGCCCTGGACAGTAAGGCCTGCGTGCCGCTAACGACGCTCATCAGCGAAGCCACCACCCGCTTCGATGTCGGCCAGCAGCGCCTGTATCTCACCGTACCCCAGGCGTTTATGGGCAGCCACGCCCGCGGCTATATTCCGCCGGAGCTATGGGATAACGGCATCACCGCCGGGCTGATTAACTATAACTTCACCGGCAATAACGTTCATAACGCCACCGGGGGGAACAGCCGTTACGCCTATCTAAATCTGCAGAGCGGGCTGAACCTCGGCGCCTGGCGCCTGCGCGATAACAGCACCTGGAGTTACAGCAGCGGCGGCAGCGCCTCATCCAATGAGAACCGCTGGCAGCACGTCAACAGCTGGCTTGAGCGGGACATCATTCCCCTGCGGTCGCGGCTTACCCTCGGGGATAGCTACACCAACGGCGATGTCTTCGACGGGATCAACTTCCGCGGCGCGCAGCTGGCCTCCGATGACAATATGCTGCCGGACAGCCAGAAAGGCTTCGCGCCGGTGATCCACGGGATCGCCCGCGGCACCGCGCAGGTGTCAGTCAAACAAAACGGCTACGAAATCTACCAGAGCACGGTGCCGCCGGGGCCGTTTACCATCGACGATCTCTACGCCGCGGGCAACGGTGGCGATCTGCAGGTCACCATTAAAGAAGCGGATGGCACCCGCCAGGTCTTCAGCGTGCCCTGGTCAACGGTGCCGGTGCTGCAGCGCGAAGGCCATACCCGCTTCGCCCTCTCCGCCGGGGAGTACCGCAGCGGCAACAGCCAGCAGGAAACGCCCGATTTTTTCCAGAGCACGGCCATGCATGGCCTGCCGGCCGGCTGGACCCTGTACGGCGGCGCCCAGATGGCGGACCGCTATCGCGCCTTTAACCTCGGGGTGGGGAAAAACATGGGCTATTTCGGCGCCTTGTCGCTGGATATCACCCAGGCCAACGCCACCCTGCCTGACGACAGCGAGCATCAGGGACAGTCGGTGCGCTTTCTCTATAACAAGTCACTGGATGAGACCGGCACCAACCTGCAGCTGGTGGGCTACCGCTACTCCACCCGCGGCTACTATAACTTTGCCGATACCACCTACCGCCGGATGAGCGGCTACAGCGTGGAAACTCAGGACGGGGTTATCCAGGTGAAACCCAAATTTACCGACTACTACAATCTGGCTTACAGCAAACGCGGCAAGGTGCAGCTGAGCGTGACCCAACAGCTGGGGCGCACCGCCACCCTCTATCTGAGCGGCAGCCACCAGACTTACTGGGGCACCGACGATGCCGATGAGCAACTGCAGGCCGGCCTCAACGCCGCCGTAGACGATATCAACTGGTCGCTAAGCTACAGCCTGACGAAAAACGCCTGGCAGCAGGGACGCGATCAGATGCTGGCGGTTAACGTCAATATCCCCTTCAGCCACTGGCTGCGCTCCGATAGCCGTTCGGTCTGGCGGCACGCCAGCGCCAGCTACAGCCTGTCGCACGATCTCAATGGCCGCATGACCAATCTGGCGGGCCTGTACGGCACCCTGCTGGATGACAACAACCTCAGCTATAGCGTGCAAACCGGCTATGCCGGCGGCGGCAACGGCGACAACGGGAGCACCGGCTATACCGCGCTCAACTACCGCGGCGGCTACGGCAACGCCAACGTCGGCTACAGCCGCAGCGATGGCTTTAAACAGCTTTACTACGGGGTCAGCGGCGGCGTGCTGGCGCACGCCAACGGCATCACCTTGAGCCAGCCGCTGAACGATACCGTGGTGCTGGTGAAAGCCCCCGGTGCCGGCGGCGTGAAGGTGGAAAACCAGACCGGGGTACGCACCGACTGGCGCGGATATGCCGTCCTGCCGTATGCCACCGAGTATCGCGAAAACCGGGTCGCGCTGGACACCAATACCCTGGCGGACAATGTCGACCTTGACGATGCGGTGGTCAGCGTGGTGCCTACTCATGGGGCGATCGTCCGCGCCAGCTTTAACGCCCAGGTGGGGATGAAGATCCTGATGACGCTGACCCATCGCGGCAAACCGGTGCCGTTTGGCGCCCTCGCCACCAGCGACAGCAACCGGAGCGGCAGCATCGTCGCGGATAACGGTCAGGTCTACCTCAGCGGGATGCCGCTGGCGGGTAAGGTGCGGGTGAAATGGGGCGATGGCCCCGACGCCCAGTGCGTGGCCGATTATCGTCTGCCGCCGGAGAGCCGGCAGCAGGCGCTCAGCCAGCTGTCCGTCGCGTGTCGCTAA	MSHRKYGLDHGGRPSARRLITPALTLWLCSQPFAAQADLYFNPRFLADDPAAVADLSGFEKGQEVPPGTYRVDIYLNNGYMTTRDVTFQADAQGHGLSPCLTRGQLASMGVDTGRVTGMAALDSKACVPLTTLISEATTRFDVGQQRLYLTVPQAFMGSHARGYIPPELWDNGITAGLINYNFTGNNVHNATGGNSRYAYLNLQSGLNLGAWRLRDNSTWSYSSGGSASSNENRWQHVNSWLERDIIPLRSRLTLGDSYTNGDVFDGINFRGAQLASDDNMLPDSQKGFAPVIHGIARGTAQVSVKQNGYEIYQSTVPPGPFTIDDLYAAGNGGDLQVTIKEADGTRQVFSVPWSTVPVLQREGHTRFALSAGEYRSGNSQQETPDFFQSTAMHGLPAGWTLYGGAQMADRYRAFNLGVGKNMGYFGALSLDITQANATLPDDSEHQGQSVRFLYNKSLDETGTNLQLVGYRYSTRGYYNFADTTYRRMSGYSVETQDGVIQVKPKFTDYYNLAYSKRGKVQLSVTQQLGRTATLYLSGSHQTYWGTDDADEQLQAGLNAAVDDINWSLSYSLTKNAWQQGRDQMLAVNVNIPFSHWLRSDSRSVWRHASASYSLSHDLNGRMTNLAGLYGTLLDDNNLSYSVQTGYAGGGNGDNGSTGYTALNYRGGYGNANVGYSRSDGFKQLYYGVSGGVLAHANGITLSQPLNDTVVLVKAPGAGGVKVENQTGVRTDWRGYAVLPYATEYRENRVALDTNTLADNVDLDDAVVSVVPTHGAIVRASFNAQVGMKILMTLTHRGKPVPFGALATSDSNRSGSIVADNGQVYLSGMPLAGKVRVKWGDGPDAQCVADYRLPPESRQQALSQLSVACR	PGPT0016040_494	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016040-fimD|fimC|mrkC|htrE|cssD-K07347	NA	NA
BMS020_01801	528	fimF_2		Protein FimF	ATGAGAACACCGCAGTATCTGCTGGGCGCCCTGCTCACGCTGGCCGCGCCGCTGGCCTTCGCTGCCGACAGCACGATCGCCATCAGCGGCTATGTGCGCGACAACGCCTGCGCGGTGGCCGGAGAGTCGAAGGAGTTCACCGTCGATTTGCAGGACAACGCCGCGAAGCAGTTTTACGCCGTCGGGGCGACGACCCCGCCGGTGCCGTTCCGTATCGTGCTGTCGCCCTGCGGCACTTCCGTCACCGCGGTGAAGGTCGGCTTCACCGGCGTGGCGGACAGCGTCAATACCAGCCTGTTAAAACTCGACGCCGGCGCCTCGGCGGCGGCGGGAATGGGGGTGGAGATTCTCGACCAGCAGCAGTCCCGGCTGCCCGTCAATGCCCCGTCGTCAGCCATCGCCTGGACCACGCTGACGCCGGGCCAGACCAACATCCTGAACTTTTACGCCCGTCTGATGGCCACCCAGGCGCCCGTCACCGCCGGGCATGTCAATGCGACGGCGACATTCACCCTGGAATTTCAGTAA	MRTPQYLLGALLTLAAPLAFAADSTIAISGYVRDNACAVAGESKEFTVDLQDNAAKQFYAVGATTPPVPFRIVLSPCGTSVTAVKVGFTGVADSVNTSLLKLDAGASAAAGMGVEILDQQQSRLPVNAPSSAIAWTTLTPGQTNILNFYARLMATQAPVTAGHVNATATFTLEFQ	PGPT0016045_74	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016045-fimF-K07348	NA	NA
BMS020_01802	501	fimG		Protein FimG	ATGAAATGGACCCACGTGGGCTGGCTGCTGGCCGGCCTGTTAACCGCGAGCCCTTCCCTGCGGGCGGCCGATGTCACCCTCACCGTCAACGGGAAGGTGGTGGCCAGACCCTGCACGGTCTCCACCGTCAATGCCACCGTCGAGCTGGGCGATCTTTACACCTTCAGCCTGATCGGCGCGGGCTCGGCATCGGCCTGGCACAGCGTGGCGCTGGATCTCAGCAACTGCCCCGTCGGTACCTCACGGGTGAAGGCCACCTTCAGCGGGACCGCGGACAGCACTGGCTATTACAAAAACCAGGGGACGGCAGGCAATATTCAGCTCGAACTGCAGAGCGAGGACGGCGCCACGCTGAACAACGGCAGCAGCCAGTCGGTACAGGTGGATGAGGCCAGCCAGTCCGCCCGCTTCCCGCTGCAGGTCAGGGCCCTGTCGGTCAACGGCGGCGCCACGCAAGGCACCATTCAGGCGGTGATTAACGTCACCTATACCTACGCCTGA	MKWTHVGWLLAGLLTASPSLRAADVTLTVNGKVVARPCTVSTVNATVELGDLYTFSLIGAGSASAWHSVALDLSNCPVGTSRVKATFSGTADSTGYYKNQGTAGNIQLELQSEDGATLNNGSSQSVQVDEASQSARFPLQVRALSVNGGATQGTIQAVINVTYTYA	PGPT0016050_244	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016050-fimG-K07349	NA	NA
BMS020_01803	909	fimH		Type 1 fimbrin D-mannose specific adhesin	ATGATGAAAAAAATTATTCCCCTGTTCACCACCCTGCTGCTGCTGGGCTGGTCGATAAACGCCTGGTCCTTCGCCTGCAAAACGGCCACCGGCGCGACGATCCCCATCGGCGGCGGTTCAGCCAACGTCTACGTTAACCTGACCCCGGCGGTCAACGTCGGGCAAAACCTGGTGGTCGACCTCTCCACGCAGATTTTTTGCCATAACGATTATCCGGAAACGATCACTGACTACGTGACCCTGCAGCGCGGATCCGCCTATGGCGGCGTGCTGTCGAGTTTCTCTGGCACCGTGAAATATAACGGCACCTCTTACCCCTTCCCGACCACCACGGAAACGGCGCGGGTGATTTACGATTCACGAACCGATAAGCCCTGGCCCGCCGTCCTGTATCTGACGCCGGTCAGCACCGCCGGCGGGGTGGCGATCGCCGCAGGATCGTTGATCGCGGTGCTGATCCTGCATCAGACCAACAACTACAATAGCGACTCCTTCCAGTTCATCTGGAACATCTACGCCAATAACGACGTGGTGGTCCCCACCGGCGGCTGCGATGTCTCTGCCCGCGATGTCACCGTCACCCTCCCCGACTACCCGGGCTCCATGGCCGTGCCGCTCACCGTGCACTGCGCGCAGAGCCAGCAGCTGGGGTATTACCTCTCCGGCGCCACCGCGGACAGCGCCCACGCGATCTTCACGAACACCGCCTCCGCCTCGCCGGCGCAGGGGATAGGCGTCCAGCTTACCCGCAACGGCAGCGCCGTGCCGGCGAACAGCACGGTCTCGCTGGGCACCGTCGGAACCTCGCCGGTCAATCTCGGCCTGACGGCGACCTACGCCCGGACCACAGGCCAGGTCACCGCCGGTAATGTGCAGTCGATCATCGGCATTACCTTTGTCTATCAATGA	MMKKIIPLFTTLLLLGWSINAWSFACKTATGATIPIGGGSANVYVNLTPAVNVGQNLVVDLSTQIFCHNDYPETITDYVTLQRGSAYGGVLSSFSGTVKYNGTSYPFPTTTETARVIYDSRTDKPWPAVLYLTPVSTAGGVAIAAGSLIAVLILHQTNNYNSDSFQFIWNIYANNDVVVPTGGCDVSARDVTVTLPDYPGSMAVPLTVHCAQSQQLGYYLSGATADSAHAIFTNTASASPAQGIGVQLTRNGSAVPANSTVSLGTVGTSPVNLGLTATYARTTGQVTAGNVQSIIGITFVYQ	PGPT0016055_150	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016055-fimH-K07350	NA	NA
BMS020_01804	216			hypothetical protein	ATGATGACCGATGACATCCTCTCTTCCTGCTCGCTGGCCGCCCGGGGGTTGAACCAGCGGATGCTGAACGCGGCGAAGCGGCTGGCGGGGGTAAAAAAGCGGATGGAATATCACCCGCATATGGCCCCTCGCTTTCCGCACAGGCAGCCGCCTCGTTCATCAGCAAACTCACGGTCGGCGTTTGAACAGGCATGGGGGGAAGCGATGAGTGACTAA	MMTDDILSSCSLAARGLNQRMLNAAKRLAGVKKRMEYHPHMAPRFPHRQPPRSSANSRSAFEQAWGEAMSD				NA	NA	NA	NA	NA
BMS020_01805	273	yjdJ	COG2388	putative protein YjdJ	ATGGAAATACTGGAAGGGCACAACAAATTTTATGTTAACGACGCGCAGGGTAACCAGGTCGCGGAGATTGTTTTTGTTCCCACCGGCGAACACCTCAGCATTATCGAACATACCGATGTCGATCCCAGCCTGAAAGGCCAGGGCGTGGGGAAACAGCTGGTGGCGAAGGTGGTGGAAAAAATGCGCCAGGAGCAGCGGAAGATTATTCCACTCTGCCCGTTTGCCAAACATGAATTCGATAACACCCGCGAATACGACGATATTCGCGCCTGA	MEILEGHNKFYVNDAQGNQVAEIVFVPTGEHLSIIEHTDVDPSLKGQGVGKQLVAKVVEKMRQEQRKIIPLCPFAKHEFDNTREYDDIRA				NA	NA	NA	NA	NA
BMS020_01806	231			hypothetical protein	ATGGATAAGGAATTACTGGAAGCCGGCTACCGGGCCTACACCGGGGAGAAAATCGACGTCTACTTTAATACGGCGATCTGTCAGCATTCAGGGAACTGCGTGCGCGGCAGCGCGAAGCTGTTCAATCTCAAGCGTAAGCCGTGGATCATCCCGGATGAAGTGGATGTCGCGACGGTGGTGAAGGTGATCGATACCTGCCCGAGCGGCGCCCTGCAATATCGTCATAAATAA	MDKELLEAGYRAYTGEKIDVYFNTAICQHSGNCVRGSAKLFNLKRKPWIIPDEVDVATVVKVIDTCPSGALQYRHK				NA	NA	NA	NA	NA
BMS020_01807	273			hypothetical protein	TTGAATCATATTGCCACCATAGCCCGCCCGGCGCGGCTACTGCTCGTCTTGCCGCTCACCGGCTGCTCACTCTCACCAGCGATCCCGGTATTGGGCGCCGCGTTCCCCGGCTGGTTTTTCTGCTTGTTGGGCGGCGCGTTTTTACTCATCCCCTGCCATATCCTGATTACCCGTAACGGCTGGCAGCCGCGCTTTTCTCCCCTGGTCTTCAGCTATGTCGCGCTGATGTTCCTGTTCGCCACGCTGCTGTGGTTTCTGTTTTTTGTTCACTGA	MNHIATIARPARLLLVLPLTGCSLSPAIPVLGAAFPGWFFCLLGGAFLLIPCHILITRNGWQPRFSPLVFSYVALMFLFATLLWFLFFVH				NA	NA	NA	NA	NA
BMS020_01808	1026	mdtN	COG1566	Multidrug resistance protein MdtN	ATGACTACTTCCCGCACTCCCCTGTTACGCAAGAAATGGCCTCTGCTGGCGCTGGTCCTCGCCGCCATCCTGGCGCTGATCCTGGTTATCTGGCAGTTGCAAACGTCGCCGGAGACCAATGACGCCTATGTCTATGCCGATACCATCGATGTGGTGCCCGAGGTCAGCGGACGCATCGTGGAGATGCCCATCCGCGATAACCAGCGGGTGAAAAAAGGCGATCTGCTGTTCCGCATCGACCCCCGTCCCTATCAGGCGATGCTCGATGACGCGAAAGCCAGGCTGACGACCCTCGACGCGCAGATTATGCTGACCCAGCGCACCATCAAAGCGCAGGAGTATAACGCCCAGTCGGTAGCGGCCGCCGTCGAGCGCGCCAGAGCGCTGGTCAAGCAGACCACCTCCACGCGCATCCGCCTTGAACCGCTGGTGCCGCAGGGGTTTGCCTCGCAGGAAGATCTCGATCAGGCGCGCACCGCCGAGAAAGCGGCGCGGGCGGAGCTGGAAGCCACGCTGCTGCAGGCCAGACAGGCCTCGGCGGCCGTGACCGGCGTGGATGCCATGGTGGCGCAACGCGCCGGGATCCTGGCGCAAATCGCCCTCGCCGAACTGCATCTGGAATTTACCGAAGTGCGCGCGCCGTTCAACGGCGTGGTAGTGGCGCTGAAAACCACCGTCGGCCAGTACGCCTCGGCGCTGAAGCCGGTCTTCACCCTGCTGGATGACGACCGCTGGTATGTGATCGCGAACTTCCGCGAGACCGATCTGAACAACGTGCGCCCCGGCGTGGCGGCGCGGATCACCGTGATGACCAACCACAACCGGACCTTTAACGGGGTGGTCGATTCGGTCGGCTCCGGGGTCCTGCCCGAAGGCGGGAGCGTCATCGAAGGCCTGCCGCTGATCCAGAAAAGCATTAACTGGGTCCACGTCTCGCAGCGCTTCCCGGTGAAAATCGCCGTCAGCGATCCCGATCCGGCTCTGTTCCGCATGGGCGCCTCGGCCAGCGCCGTGCTGCAGCCGTAG	MTTSRTPLLRKKWPLLALVLAAILALILVIWQLQTSPETNDAYVYADTIDVVPEVSGRIVEMPIRDNQRVKKGDLLFRIDPRPYQAMLDDAKARLTTLDAQIMLTQRTIKAQEYNAQSVAAAVERARALVKQTTSTRIRLEPLVPQGFASQEDLDQARTAEKAARAELEATLLQARQASAAVTGVDAMVAQRAGILAQIALAELHLEFTEVRAPFNGVVVALKTTVGQYASALKPVFTLLDDDRWYVIANFRETDLNNVRPGVAARITVMTNHNRTFNGVVDSVGSGVLPEGGSVIEGLPLIQKSINWVHVSQRFPVKIAVSDPDPALFRMGASASAVLQP	PGPT0029205_214	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029205-mdtN-K15549	NA	NA
BMS020_01809	1938	mdtO	COG1289	Multidrug resistance protein MdtO	ATGTTTCCTCTCGCCCATTTTTTACGCCAGGAACTGCGCGACGCGCCGGGACGCGCCAGCTACACGCTGCGCCTGACGCTGAGCTGTGCGGTGCTCATCACCCTGTTCATGACCCTGCAGATCCCCTTCCTGGCCGTCGCGCTGATCGTCGTGTTCTACGTCAGCCAGCCTAACGTGTTGATGATTAAGTTAGTCAGCGTGGTCTTTTTTGTCACCGTCAGCGTGGCGCTCGGCGGCGTGCTGCTGATCATCAAGTGGACCTATGACTACCCGCTGATCCGCCTGGCGGCCTCCGTGGCGCTCTTTTTCTGCGCCATCTATCTGATGCGGGTGCTGGGCAAGCTGGGACTGGCCTTTTTCGTGGTGGCGCTGGCGGTGATTTACGCCCAAACCTTCCCGTCGATGACCAGCCAGAGCGAGATCCTGGTGCGGCTGCTGCTCTGGCTGTGGGTGGCGATTAACACCGCGATCCTTGTCACCCTGCTGGTCAACGCCTGTTTTCAGCAGGCCTTTCCCGGCAACCAGTTTAAGGCGCGTCTGGCGGAGATGCTGCAGTCGGTCGCCAGCCGACTGGCGACCCCGGGCGGAGAAACGCCACCGACCTTCGGCGAGACCGCCGCGCAGTTCAACCAGCTGCAGTCGCTGTTCGCCCAGGCCTGCCGGGCGACGCCGGAGATCGCCGCCGATCCGCAGGCCTGGCGCTCGCGGCTGGCCGCCACCCTGCGCTGCTACCAGCTGGCGGCGCTGCTGCAAGCGGACGAGGCCGATAGCGGAGATCGCCTGCTGCTGTCGCAGGTGGTACTCCAGCTGAAGAGCGCCCTTAGCGAGGGGCCGTTTGACGGCGCCATTCCCCCCCTGGCGCTCAGCGGCCGCGGCGCCAATCGCGCCGTTCTGCAGGAGATGGCTGCCCTTCTGCAGCAGCTGGCCCAGGGTGAGCCGGTGGCCCTGCCGCAGGGCGAGGTGGAAAAACCGCCTCTGCTGGCGCCGGACGCCTGGCGCAACCCGGCGTATCTCCATTTTGCGCTCAAGACCCTGCTGGCGACGCTAATCTGCTATGTCTTCTATACCGCTGCCGACTGGCAGGGGCTGCACACCATTATGCTGAGCTGCGTGATCGTCGCCCAGCCCGGGCTGGGCGCCACGATGCAGAAGACGTGGCTGCGCATCGGCGGCGCGCTGCTCGCCACTCTGCTGGCGCTGCTGTTAATCGTCTTTGTCCAGCCCTGGACCGACTCGCTGTCGGGGCTGCTGGCGATGTCCCTGCCGGTGCTGGCGCTGGCGGCCTGGATTGCCGCCGGCTCGGAGCGTATCGCCTACGCCGGGATCCAGATTGGTTTCACTTTTGCGCTGGCCTTCCTCAGCTGGTTTGGTCCGCTGACAAACCTCACCGAGCTGCGGGACCGGGTGCTGGGCATTCTGCTCGGGGTGCTGGTCTCCTCCATTGTCCATTTGTATCTCTGGCCGGACAGCGAAGCGCCGCAGCTGAAATCGCGCCTCGCCGGACTCTATCGCCGGCTGGCGGACTGCCTCGCCGCCCCGCACGATGCGGTGCCGCTGGCCCCTCTGTTTGTCGCCTTCACCGACAGCGAAGCGCTGATCCATCGGGTTCGCGCCGAACCGCTGGGTACGTATGCCCACCCCTGGCCCCAGGCGAAAGACTGGCCGATGCGCGCCACCCTCGCCCGGGCCGAGGAGATCGCCCGCCTCAGCGAAGGGTACCGGCTCAACGCCGCGCCGGGAGACCCGACCCTGACCCGCTGCGCCGAACAGCTGCGGCGCTACGCCGAACGTATCGAACAGGAGGCGACAGCGCCTGCCGAGCAGCTGGCCGCCGACCTGACTAACCCCTTTGGCCCGGCGCTGGCCGCCGCGCTGGCCGCCCTGCCCGACTGGGGCCCGACACCGATAGCGACTGAGCAACAGGCTAAAACGTCATGA	MFPLAHFLRQELRDAPGRASYTLRLTLSCAVLITLFMTLQIPFLAVALIVVFYVSQPNVLMIKLVSVVFFVTVSVALGGVLLIIKWTYDYPLIRLAASVALFFCAIYLMRVLGKLGLAFFVVALAVIYAQTFPSMTSQSEILVRLLLWLWVAINTAILVTLLVNACFQQAFPGNQFKARLAEMLQSVASRLATPGGETPPTFGETAAQFNQLQSLFAQACRATPEIAADPQAWRSRLAATLRCYQLAALLQADEADSGDRLLLSQVVLQLKSALSEGPFDGAIPPLALSGRGANRAVLQEMAALLQQLAQGEPVALPQGEVEKPPLLAPDAWRNPAYLHFALKTLLATLICYVFYTAADWQGLHTIMLSCVIVAQPGLGATMQKTWLRIGGALLATLLALLLIVFVQPWTDSLSGLLAMSLPVLALAAWIAAGSERIAYAGIQIGFTFALAFLSWFGPLTNLTELRDRVLGILLGVLVSSIVHLYLWPDSEAPQLKSRLAGLYRRLADCLAAPHDAVPLAPLFVAFTDSEALIHRVRAEPLGTYAHPWPQAKDWPMRATLARAEEIARLSEGYRLNAAPGDPTLTRCAEQLRRYAERIEQEATAPAEQLAADLTNPFGPALAAALAALPDWGPTPIATEQQAKTS	PGPT0029210_156	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029210-mdtO-K15547	NA	NA
BMS020_01810	1455	cusC_2	COG1538	Cation efflux system protein CusC	ATGATGATCCTTCCTTTCTCCGCGCGGCTGCGCGGCACTCTCCTTACCCTGACGCTGACGCTGACGCTGCTCAGCGGCTGCGCGCTGATCCAGGACGAGCCAGCCCAGGTCGCCATCGTCAATCCGCAGCAGGCCCAGCTGGCGCAGGTGATCCACCTGGCGAATAGCGACTGGCCGGCAGCCCGCTGGTGGGAGGCCTATGAGGATCCTCAGCTCAATATGCTGATCAACCGGGCGCTGCAGAACTCGCCGACCATGCAGGCCGCCCGGCTGCGCATCTCTCAGTCGCAGTCCACGGTGGAACTCGCCCAGTCGGCGATGGGCCTGCAGGCCACCGCCGTCGCGGCGCAAAACCGCCTGCGGATCACCGACAAATCCTTTAGCTGGCCCTACTCCTACTCCCTGCCGGTGGATAAGAACGGTCCCTGGTATACGCTGAACACCGTTGGCGTCGGGGCGCAGCTGAATATCGATCTCTGGGGAGCCGATCGCGCCCGGGTTGCCGCCGCCATTGGCGAGAAAAACGCCCGGCTGGCGGAGACCGCCGGCATTGAGCTCGACATCGCCAGCAGCGTGGCGCAGCTCTATTTCGCCATGCAGGCGACGTTCCAGAAAATCGCGCTGCTGCAGGACCTGGAAGGCATTGCCCAGTTCTCGGTGGCGGCCCACGAGCACCGGACCCAACGCGGCGTGGAAGACAGTGTGGATGTGGCCAACGCCCAGGCCGAACAGCTCGCCGCCCGCCAGCAGATCATCAGCGCCGAGGGGACGCTGACCCAGTATCGTGAAACCCTGCGGGCGCTGATCGGCGCCGATGCGCAGAGCATGCCGGCGATCCATCCGGTGGCGCTGCCTGCGCTCCAGGAGACGCTGCCGCCGTCGCTCTCTTTCGAGCTGCTGGCCCGCCGCCCGGACCTGCAGGCGCTGCGCGGGTATGTGACCGCCTCCCTGAGCCAGGTCGACGCGGCGAAAGCGGCGTTTTATCCTCATTTTGATATCAAAGCGTTCTGGGGCTATAACGCCCTGAGCGTCGGGGATCTGTTTAAGTCTTCTTTCCAGCAGATCAACCTGCTGCCTGGGCTCTATCTGCCGATCTTCGACGGCGGTCGTCTGAACGCCAATCTGCAGTCGGTGCGCACCGCCAGCAATATTCTGATCAAACAGTACAACCAGGCGGTACTGGACGCGGTTCGCGATGTCGCCATCAGCTCCAGCCAGCTTAACGACCTGAATCAGCAGCGCGCGCTGCAGCAGCTGAAGGTCACCGCGGCGCAGACCACCACCGACAGCGCTCGCGCCCATTATCAGCGCGGCCTGCTCAGCCGCTACGCCGCCGAAGAGGCCCGGCGGGCGGTCCTTGCCCAGCAGCTGTTGCTGCTGGATATTGAGGCCCAGCGGTTGAGCACCGACATTACCCTGATCAAAGCCCTGGGCGGCGGCTACCGCGGCCAGTAA	MMILPFSARLRGTLLTLTLTLTLLSGCALIQDEPAQVAIVNPQQAQLAQVIHLANSDWPAARWWEAYEDPQLNMLINRALQNSPTMQAARLRISQSQSTVELAQSAMGLQATAVAAQNRLRITDKSFSWPYSYSLPVDKNGPWYTLNTVGVGAQLNIDLWGADRARVAAAIGEKNARLAETAGIELDIASSVAQLYFAMQATFQKIALLQDLEGIAQFSVAAHEHRTQRGVEDSVDVANAQAEQLAARQQIISAEGTLTQYRETLRALIGADAQSMPAIHPVALPALQETLPPSLSFELLARRPDLQALRGYVTASLSQVDAAKAAFYPHFDIKAFWGYNALSVGDLFKSSFQQINLLPGLYLPIFDGGRLNANLQSVRTASNILIKQYNQAVLDAVRDVAISSSQLNDLNQQRALQQLKVTAAQTTTDSARAHYQRGLLSRYAAEEARRAVLAQQLLLLDIEAQRLSTDITLIKALGGGYRGQ	PGPT0029215_81	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029215-mdtP-K15550	NA	NA
BMS020_01811	300			hypothetical protein	ATGCCAGCAGTCATTGATAAAGCATTGGATTTCATTGGTGGTATGAATACGTCTGAGCCAGTACCACAGTCTATGGATGAAAGTACCGCGAAGGGAATTCTCAAATATTTGAAAGAGCTGGGCGTGCCAGCCAGCCCGGCCGACGTCGCTGAGCGCGGTCAGCAGCAAGGCTGGAGCGCCGGGTTTACCGACAAAGTGGCGGAGTGGGCTGAACGGGTCGCCGCCGGCGAACGGCTGGTGATTAAGCATCCGGAATTCTTTTCCACCTACATGCGGGAAGAGCTGCGCGCCCTGGTGTAA	MPAVIDKALDFIGGMNTSEPVPQSMDESTAKGILKYLKELGVPASPADVAERGQQQGWSAGFTDKVAEWAERVAAGERLVIKHPEFFSTYMREELRALV				NA	NA	NA	NA	NA
BMS020_01812	1554	dtpT_1	COG3104	Di-/tripeptide transporter	ATGCATTCCTCTGTTAATAAAAACGAAAGCCGTACCTTTTTCGGCCATCCTTATCCGCTGGGCTCCCTGTTCTTCACCGAAATGTGGGAGCGCTTCTCGTTTTACGGCATCCGCCCCTTACTGATCCTGTTTATGGCGGCGACGGTTTACGACGGCGGAATGGGGTTGGCGCGGGAGAACGCCTCGGCGATCGTCGGGATTTTTGCCGGCAGTATGTATCTGGCCGCGCTGCCGGGCGGCTGGCTGGCGGATAACTGGCTTGGCCAGCAGCGCGCCGTCTGGTACGGCTCGATTCTGATCGCCCTCGGGCACCTGTCGATCGCCCTGTCGGCATGGCTGGGCAACGACCTGTTCTTTATCGGTCTGATGTTTATCGTCCTCGGTTCCGGGTTGTTTAAAACCTGTATCTCGGTGATGGTCGGTACTCTGTATAAAAAAGGCGACGCGCGCCGCGACGGCGGTTTCTCGCTGTTCTACATGGGGATCAATATCGGCTCGTTTATCGCGCCATTGATCTCCGGCTGGCTGATTAAATCCCATGGCTGGCACTGGGGCTTCGGCATCGGGGGGATCGGGATGCTGGTGGCGCTGATCATTTTCCGTGTCTTTGCCGTGCCGTCGATGAAGCGCTATGACGCAGAGGTCGGCCTCGATTCCACCTGGAACAGCCCGGTGGCGAAAAAGAATGGCGTTGGGGCGTGGCTGCTGGCGCTGGCGCTGGGAGTGGCTGTGCTGGTCACGCTCATTAGCCTGGGCACGATCGTGATTAACCCGGTGGCGGTGGCCAGCGTGCTGGTCTATGTGATTGCCGCTTCCGTAGCGCTCTATTTCATCTGGCTGTTCGTCTTCGCCGGCCTGAGCCGTAAAGAGCGGGCGCGCCTGCTGGTGTGCTTTATTTTGCTGGTTTCGGCGGCCTTTTTCTGGTCGGCATTTGAACAGAAACCGACCTCATTTAACCTGTTTGCTAACGACTATACCAACCGGATGATCGGCGATTTTGAGATCCCCGCGGTCTGGTTCCAGTCGATTAACGCCTTATTTATCATTCTCCTCGCACCGGTATTCAGCTGGGCGTGGCCAGCGCTGGCGCGTAAAAACGTTCGTCCGGGCAGCATGACCAAATTCGTCATTGGCATCCTGTGCGCGGCGGCGGGCTTTGGCCTGATGATGCTGGCGGCGCAGAACGTCCTGAACAACGGCGGGGCCGGTGTGTCGCCGCTGTGGCTGGTGGGCAGCATCCTGATGCTGACGCTCGGCGAACTGTGCCTGAGCCCGATTGGTCTGGCGACCATGACCCTGCTGGCACCGGAGAGAATGCGCGGCCAGATGATGGGGCTGTGGTTCTGCGCCAGCGCGCTGGGTAACCTGGCGGCGGGCCTGATTGGCGGTCACGTGAAGGCCGATCAGCTGTCGCTGCTGCCGGACCTCTTCGCCCGCTGCTCCATCGCGCTGCTGATCTGCGCCGCCGTGCTGGCCGTGCTGATTGTCCCGGTCCGCCGGATGCTGGAGAACAGTCAGTCCAGCGGTGCGCAAAAATCCGTCAGCAACGCCTGA	MHSSVNKNESRTFFGHPYPLGSLFFTEMWERFSFYGIRPLLILFMAATVYDGGMGLARENASAIVGIFAGSMYLAALPGGWLADNWLGQQRAVWYGSILIALGHLSIALSAWLGNDLFFIGLMFIVLGSGLFKTCISVMVGTLYKKGDARRDGGFSLFYMGINIGSFIAPLISGWLIKSHGWHWGFGIGGIGMLVALIIFRVFAVPSMKRYDAEVGLDSTWNSPVAKKNGVGAWLLALALGVAVLVTLISLGTIVINPVAVASVLVYVIAASVALYFIWLFVFAGLSRKERARLLVCFILLVSAAFFWSAFEQKPTSFNLFANDYTNRMIGDFEIPAVWFQSINALFIILLAPVFSWAWPALARKNVRPGSMTKFVIGILCAAAGFGLMMLAAQNVLNNGGAGVSPLWLVGSILMLTLGELCLSPIGLATMTLLAPERMRGQMMGLWFCASALGNLAAGLIGGHVKADQLSLLPDLFARCSIALLICAAVLAVLIVPVRRMLENSQSSGAQKSVSNA	PGPT0021010_1120	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021010-TC_POT-K03305	NA	NA
BMS020_01813	423	arsC_1		Arsenate reductase	ATGAGCATCACCATTTACCATAACCCTGAATGCGGCACCTCGCGTAATACCCTGGCGCTGATCCGCAACAGCGGCGCTGAGCCCACCATTATCTATTATCTGGAGACGCCGCCGTCGCGTGATGAACTACGCCAGCTGATCGCCGCGATGGCGATCCCGGTGCGGGCGCTGCTGCGGCAAAACGTCGAACCCTACGATGCGCTGGGCCTGGCGGAAGACCGGTTTACAGATGACCAGTTAATCGACTTTATGCTCCAGCATCCGATCCTGATCAACCGTCCGATCGTGGTGACGCCGCGGGGCACCCGGCTCTGCCGCCCGTCAGAGGTGGTGCTGGAGATCCTGACGGCGCCGCAAAAAGGCGCCTTCGTGAAGGAAGACGGTGAGCGCGTCATTGATCGGACGGGGCAGCGTGTGAAATAG	MSITIYHNPECGTSRNTLALIRNSGAEPTIIYYLETPPSRDELRQLIAAMAIPVRALLRQNVEPYDALGLAEDRFTDDQLIDFMLQHPILINRPIVVTPRGTRLCRPSEVVLEILTAPQKGAFVKEDGERVIDRTGQRVK	PGPT0004720_736	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004720-arsC1-K00537	NA	NA
BMS020_01814	1293	arsB	COG1055	Arsenical pump membrane protein	ATGTTGCTGGCAGGTGCGATTTTTGTCCTGACCCTAGTGCTGGTGATCTGGCAGCCGCGGGGTTTAGGGATCGGCTGGAGCGCGGCCTTTGGCGCGGCGCTGGCGCTGGCCACCGGTGGAGTACAACTAGCCGATATCCCGGTGGTGTGGCATATCGTCTGGAATGCGACCGCCACGTTTATCGCCGTTATCATTATCAGCCTGCTGCTCGACGAATCCGGCTTTTTTGAATGGGCCGCGCTACACGTTTCCCGCTGGGGAAGAGGGCGGGGTCGTCTGCTGTTTACCTGGATTATCCTGCTCGGTGCGGCGGTGGCGGCGCTGTTTGCCAACGACGGCGCGGCGCTGATCCTCACGCCCATCGTAATTGCCATGCTGCGGGCGCTGGGGTTCAGTAAGGGAACGATGCTGGCCTTTGTCATGGCAGCCGGGTTTATTGCCGATACCGCCAGCCTGCCGCTGGTGGTGTCGAATCTGGTGAATATCGTTTCGGCAGATTTCTTTGCCATTGGCTTCAGGGAGTACGCTTCGGTGATGGTACCGGTCGATCTCGCGGCGATCCTCTCCACCCTGGCGATGCTGCACCTGTTCTTTCGCAAGGATATCCCGCCGGCCTGGGATATGGCGTTACTCAAAGCGCCGGCCACGGCGATAAAAGATACGGCAACGTTCCGCACCGGCTGGGGCGTGCTGCTGCTGTTGCTGGTCGGCTTTTTCGTTCTTGACCCGCTGGGGATCCCGGTCAGCGCCATCGCGGCGCCGGGAGCGGGGATCCTGTTTGCTGTCGCGAAGCGCGGGCGGGTGATAAACACCGGCAAGGTGCTGCGCGGCGCCCCATGGCAGATTGTGATCTTCTCGCTGGGGATGTATCTGGTGGTGTATGGTCTGCGAAACGCCGGATTAACGGATTATCTGACCACGGTGCTGAACATGCTGGCGGAGCGCGGGCTCTGGGCCGCGACGCTGGGCACCGGTATCTTGTCGGCCTTCCTCTCTTCGATCATGAATAATATGCCCAGCGTGCTGGTCGGCGCCTTGTCGATCGATGGCAGCGCGGCAACAGGGACGATCAAAGAGGCCATGATATATGCCAACGTTATCGGCTGCGATCTGGGGCCCAAAATCACGCCGATTGGTAGCCTGGCCACGCTGCTCTGGCTGCATGTGCTGACGCAGAAGCACATTACCATCGGTTGGGGGTATTATTTCCGCTGCGGCATCATCATGACCCTGCCGGTGCTGCTGGTAACGCTGGCCGCGCTGGCGCTGCGTCTCTCCTTCAATCAGCCATGA	MLLAGAIFVLTLVLVIWQPRGLGIGWSAAFGAALALATGGVQLADIPVVWHIVWNATATFIAVIIISLLLDESGFFEWAALHVSRWGRGRGRLLFTWIILLGAAVAALFANDGAALILTPIVIAMLRALGFSKGTMLAFVMAAGFIADTASLPLVVSNLVNIVSADFFAIGFREYASVMVPVDLAAILSTLAMLHLFFRKDIPPAWDMALLKAPATAIKDTATFRTGWGVLLLLLVGFFVLDPLGIPVSAIAAPGAGILFAVAKRGRVINTGKVLRGAPWQIVIFSLGMYLVVYGLRNAGLTDYLTTVLNMLAERGLWAATLGTGILSAFLSSIMNNMPSVLVGALSIDGSAATGTIKEAMIYANVIGCDLGPKITPIGSLATLLWLHVLTQKHITIGWGYYFRCGIIMTLPVLLVTLAALALRLSFNQP	PGPT0004710_575	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004710-arsB|arsenical_pump_membrane_protein-K03893	NA	NA
BMS020_01815	330			hypothetical protein	ATGTCTTTATTGCCCCTGCAACTGTTCAAAAACCTCGCCGATGAAACCCGGCTGGGGATCGTGCTGTTGCTCAAGGCGCGGGGAGAGCTGTGCGTGTGCGATCTCTGTAAGGCGCTCGCCCAGTCCCAGCCCAAGATCTCCCGCCATCTGGCAATGCTGCGGGAGAGTGGGCTGCTGCGGGATCGAAAACAGGGTAAGTGGGTCCATTATCGCCTCTCTCCGCAGATGCCGGCCTGGGCGGCGCAGGTGATTGAGCAGGCCTGGCTAAGTCAGCAGGACGAGGTGCGGCTGATGGTCAGCAGACTGACTGACGGGCCGGGTTGTCAGTAA	MSLLPLQLFKNLADETRLGIVLLLKARGELCVCDLCKALAQSQPKISRHLAMLRESGLLRDRKQGKWVHYRLSPQMPAWAAQVIEQAWLSQQDEVRLMVSRLTDGPGCQ	PGPT0004735_3352	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
BMS020_01816	294			hypothetical protein	ATGAGTACGATTTATGTGGTTGTTTTAACGTATATAAAACCGCTCGAAGAGATTGACAGCGCGATCCCCGCCCACGTCGAATGGCTCAAAAAAAGCTATGCTGACGGCCTCTTTCTCACCTCCGGCCGCCGTATTCCCCGCACCGGCGGGGTGATTCTGGCGAAATGCGACAGCCGGGAAATTCTGGAAGCGCGTCTGAGCCAGGATCCCTTCCAGCAGCTGGGTCTCGCCCATACGGAGATAATCCCCTTTGAGGCCAGCATGGCGTCCCCCGCGCTGCAGTCGCTGTTATAA	MSTIYVVVLTYIKPLEEIDSAIPAHVEWLKKSYADGLFLTSGRRIPRTGGVILAKCDSREILEARLSQDPFQQLGLAHTEIIPFEASMASPALQSLL				NA	NA	NA	NA	NA
BMS020_01817	573			hypothetical protein	ATGCAGCCATCCTTTCACTGGATTAATGAACCAGCCGAGTGGCGCCGCGATGCCGACAGCCTGACGGTGGTCACCGATAAGCATACCGATTTCTGGCGTCATACCTGGTATGGCTTCGAGCGCTTCTCCGGCCATCTTTATGCCGCTGAGGTGGAGGGCGATTTTACCCTGCAGGCAAAAATCTGTGCGGATTTCACCACGCTTTACGACCAGGCCGGGCTGATGATGATGGCGGACGAGCAGACCTGGCTGAAGGCGGGGATTGAGTTTAATGACGATGCCCCGGCCATCGGCAGCGTGCTGACGCTAACCCACTCCGACTGGGCCACCGGGCTTTTCCCCGGCGACCCGCGCACCTTCTGGCTGCGGCTGACCCGCAAGGGCGATGCGTTAAGGCTGCAGTATTCGACCGACGGCGAGCGCTGGCCGCTGCTGCGGCTCGGCTACTTTCCGCCAGGCCCGGTGAAAGCCGGCGTCATGTGCTGCTCACCGGAGCGCGGCGGACTGGCGGTTGCGTTTCTGGATATTCAGCTTTCCCCACCGCTGGACAAAGCGCTGCACGATCTGAGCTGA	MQPSFHWINEPAEWRRDADSLTVVTDKHTDFWRHTWYGFERFSGHLYAAEVEGDFTLQAKICADFTTLYDQAGLMMMADEQTWLKAGIEFNDDAPAIGSVLTLTHSDWATGLFPGDPRTFWLRLTRKGDALRLQYSTDGERWPLLRLGYFPPGPVKAGVMCCSPERGGLAVAFLDIQLSPPLDKALHDLS				NA	NA	NA	NA	NA
BMS020_01818	264			hypothetical protein	ATGGGCAGACGCTTAATGGTCTGTGTGTTCGCGCTGGTGGCGTTTTCAGCCACTGCAGCGCATGGTCATCACGGCCAGTCGGTAATATCGGGCGCCGACGGCGGCAACGGTTCGGACGGCGGCAGTAGCGATAACTCCTCGGGTCGGGCAGGGTGCCCGGGCGGCACCGATCCCGATAAGCACGGCCATTTTTACCTGCCCGGCACCCGCGAACCCTGCAATCCTGGCCCTCAGGATGCAGAGAAAGTCGGGTCTTCCCACTAG	MGRRLMVCVFALVAFSATAAHGHHGQSVISGADGGNGSDGGSSDNSSGRAGCPGGTDPDKHGHFYLPGTREPCNPGPQDAEKVGSSH				NA	NA	NA	NA	NA
BMS020_01819	573			hypothetical protein	ATGCTGATTGCCCGCAACCAGCCAGGCGAGCTTAAGCACTATATTGAAGTCGCTCTCGATAGCGGCGTGACGCCAGCGGAAGTATCAGAGATCATTACCCATCTGGCGTTCTACTCAGGTTGGCCCAATGCGATGTCAGCCGTCAGGGTGACCAAAGCGATCTTTGCAGCCCGCGGCATCACGACAGAGGCCCTGCCCGCCGCCTCGCCAACGCTGCTGCCTCTCAATGAACAGGTAGAGAAACAGCGTGCAGAGACCGTGGAGAAAAATGTCGGTCCCATTTCGCCTGGCCTGGTTAAATTTACCGCCGACCCGCTGTTTCTCGACCTCTGGCAACGGCCCGCGCTTACGCCCCGCGACAGAAGTCTGGTGACGGTCAGCGCGTTAATCGCCGCCGGACAGAGCGCGCAGATTGGCTATCACCTAAACAGGGCCATGGATAATGGGCTTTCGGCTGAAGAGGCCGGAGAAGTGGTCGCCCAGGCAGCGTTCTACGCGGGATGGCCAAATGCGTTTACCGCCGCCCCGGTGGTCGGTGAAGTGTTGCGATCGCGCGAGAGCAAAGCTGAATAA	MLIARNQPGELKHYIEVALDSGVTPAEVSEIITHLAFYSGWPNAMSAVRVTKAIFAARGITTEALPAASPTLLPLNEQVEKQRAETVEKNVGPISPGLVKFTADPLFLDLWQRPALTPRDRSLVTVSALIAAGQSAQIGYHLNRAMDNGLSAEEAGEVVAQAAFYAGWPNAFTAAPVVGEVLRSRESKAE	PGPT0005005_249	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005005-pcaC-K01607	NA	NA
BMS020_01820	930	nodD2_3		Nodulation protein D 2	ATGTCTGATCCCGATTTTAATTTGCTGGTAGCACTCGACATATTGCTGAGTGAAGCGAGTGTCGCAGGTGCGGCACGTCGTCTGAACCTCAGCACCTCAGCCATGAGCCGGACATTAAGCAGGTTACGCGATGTCACAGGAGACCCGATCCTGGTGCGCGCCGGGCGTAACATGGTACTGACCCCGTGGGCCGAAGCGACCCGGGATCGCGCCAGGCGTGCAGTGCACGATGCCAGGGCAGTATTGCAGCCCTCAACTGAAACGTTCTGCGCGCGAAGTCTGGCGCGTCTTTTTACCATCAGGGCAAACGATGGTTTTGTGGTGGCGTTTGGGCCTGCGCTCATCGCAGCGGTTGCCGACGCCGCGCCGGACGTCTGTATACGCTTCGCGCCTAAGCCGGAAAAAACGTCGCGCTATCTTCGGGAAGGGCTGGTTGATCTGGAGATTGGCGTTCAGAGTAATATGGGGCCAGAAATACGGCTGCAACGACTGTTTGAGGATCGGTTTGTTGGCGTCGTGCGTAAAGGGCACCCGCTGGCTAAGCAGGCAGAAATAGGCGTGGGTGATTATGTCGCCTGGGGCCATGTGGTAGCGTCACCCGAGGGCGCGTTGCACGGATCCGTTGACGATGCGCTGGCCGAACTGGGGACAAAACGTAAAATTGCGAGCGTCGTACCGGGATTTCCGACAGCACTGTCCGTGGCGCTGGAATCGGATCTTATCGCCATGATACCCGCACTCTATTTACGCAATCAGCAGGTAACGGACCAGGTACACGTTTTCGAGCTGCCGTTCAAAAGCCGTCGTATTACGGTATCGCAGATGTGGCACCCCAGAATGGAACGAGACCCCGGTCACCGCTGGCTGAGAGAGCAAATTCTTGCGATATGCGGTGTGGCCAGGTCAGTCATGGCTAAGGAGCATGTATAG	MSDPDFNLLVALDILLSEASVAGAARRLNLSTSAMSRTLSRLRDVTGDPILVRAGRNMVLTPWAEATRDRARRAVHDARAVLQPSTETFCARSLARLFTIRANDGFVVAFGPALIAAVADAAPDVCIRFAPKPEKTSRYLREGLVDLEIGVQSNMGPEIRLQRLFEDRFVGVVRKGHPLAKQAEIGVGDYVAWGHVVASPEGALHGSVDDALAELGTKRKIASVVPGFPTALSVALESDLIAMIPALYLRNQQVTDQVHVFELPFKSRRITVSQMWHPRMERDPGHRWLREQILAICGVARSVMAKEHV				NA	NA	NA	NA	NA
BMS020_01821	1389	ribZ_2		Riboflavin transporter RibZ	ATGACGCTCTTTTCCAGCCAACCCGGCGACGAAGGACTGCCTGGCCCGGCGCGCGCACGGGTGATGGCCGCAATAATGACCACCACCTTAATGGGCGTGTTTGATGGCACCATGATCAACATTGCCCTGCCCTCAATGGCTCAGGATTTGCAGGTACCTGCCGGTATTGCCGTCTGGTTCGCCAGCGGGTATCTGCTGGCGGCTGCGATGACGCTGGCGATATTCGCGGCGCTTGCGGCCCGTCTGGGTTATCGCCCCGTATTTCTGGCGGGCCTGACGACCTTTACCCTGACATCACTGGGTTGCGCGCTGGCGAATAAGCCCGAAGTGCTTATCGGTATGCGCGTGCTTCAGGGGATCGGCGGCGCGGCGACGCTGAGTATTGCCCCCGCAATACTCAGATCCGTATTTCCCGGACGATTACTTGGCCGCATTCTGGGGTTCCATGCCCTGCTCATTGCCTCCAGCTCCGCTATCGGCCCGGTATTGGGCGGTACGATCCTTCACACCCTGAGCTGGCAATGGCTGTTTGCGATAAACGTTCTTCCCGGCACCCTCGCCTTACTGCTGGCGGTCAGAGCGCTGCCGCGGGATACGATTCGTATGCAGGCGCCCTTCGACACCCTGGGCGCCATTTTGTCGGCGCTGCTGTTGGGTTCGACGATCATGGCGGCGAACAGCCTACAGAACGCTACTTCTCAATTCGGCAGCCTTTGCTGGATGGCTCTCGCTGCGCTGAGCGGCATGGCTTTTATCTGGCAAATCCGCCGCACGGGTCATCCCTTACTGCCGCCGAGCATGTTTAAAAATGAACGTTTTACCCTCGCGGCCTTCACGTCGATGATTGCTTTTGTCAGCCAGGGGATCACCTTTATTGCGCTACCCTTCCTGTTTCAGAGCGAATACGGCTACAGTCCGGTAGTGTCTGCCCTGCTGTTTACGCCGTGGCCGTTAGGGATCGTGCTGATTGCGCCGCATGCAGGCCGTTGGGCGGACACGATATCAGCCCCGGCGATATCCACCCTGGGGCTGGTGATTTTTGTCGTCGGTTTGATCCTGCTGGCGACGTTACCCGCCTGCCCTTCAATGTGGGATATCTGCCTGCGAAGTCTGGTGTGCGGAATAGGGTTTGGCTGCTTTCAGAGTCCCAATAACCGGGAAATGCTCTCAAACGTTATTCGTGAGCACGCGAGTTATGCGTCCGGTGTTTTATCCATTATGCGCACTTTCGGGCAGTGCCTGGGAGCCGCCGCCGTAGGCGTTCTGCTGGCAGCAGATGAAAGGTCAATTCATGTTGCGCTGTGGGGCGCCGCCGCGGCCTCTGCGGTATCGGTCGTCGTCAGCGCGAGCCGGTTGCGTAAAATCACTCATCCTGCGGAAACAGGATAA	MTLFSSQPGDEGLPGPARARVMAAIMTTTLMGVFDGTMINIALPSMAQDLQVPAGIAVWFASGYLLAAAMTLAIFAALAARLGYRPVFLAGLTTFTLTSLGCALANKPEVLIGMRVLQGIGGAATLSIAPAILRSVFPGRLLGRILGFHALLIASSSAIGPVLGGTILHTLSWQWLFAINVLPGTLALLLAVRALPRDTIRMQAPFDTLGAILSALLLGSTIMAANSLQNATSQFGSLCWMALAALSGMAFIWQIRRTGHPLLPPSMFKNERFTLAAFTSMIAFVSQGITFIALPFLFQSEYGYSPVVSALLFTPWPLGIVLIAPHAGRWADTISAPAISTLGLVIFVVGLILLATLPACPSMWDICLRSLVCGIGFGCFQSPNNREMLSNVIREHASYASGVLSIMRTFGQCLGAAAVGVLLAADERSIHVALWGAAAASAVSVVVSASRLRKITHPAETG	PGPT0029160_488	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029160-yebQ-K08169	NA	NA
BMS020_01823	714	nlpD_2	COG0739	Murein hydrolase activator NlpD	ATGATGAAACGCGTTTTTATGACACTGATGCTGGTGGTAAGCCTGGCGCTGGCCGGCTGCTCCAGCAACTCCGATTCCGGTACGACCTACACCGTCAAACGCGGTGATACCCTGTATGGCATCTCCCGCACCACCGGCACCAGCGTTCGCGATCTGGCCCGCCTGAATAACATCTCCCCGCCTTACACCATTGAGGTGGGGCAGAAGCTGAAGCTTAACGGCAGCAGTTCAACGAAGACAACGAAGAAAAAATCTTCCTCCACGCGCACGGCGGCGGTCACGCCTTCGTCCGCGGTACCTCAGTCCTCCTGGCCGCCGGTGGGACAGCGCTGCTGGCGCTGGCCGACCAGCGGCAAAGTGGTCCTGCCTTATTCCACCGCCGATGGCGGCAATAAAGGCATTGATATCGCCGGGACTCGCGGCCAGCCCGTGTACGCCGCCGGGGCGGGCAAGGTGGTCTACGTCGGCAACCAGCTGCGCGGCTACGGCAACCTGATCATGATTAAGCACAGCGAGGATTACATCACCGCCTATGCCCACAACGATAAGCTGATGGTGAATAACGGCCAGAGCGTGAAGGCCGGCCAGCAAATCGCCACCATGGGCAGTACGGATGCCGACTCAGTGCGTCTGCATTTCCAGATCCGCTATCGGGCGACGGCCATCGATCCGCTGCGCTACCTGCCGCCGCAGGGCAGTAAGCCTAAGTGCTAA	MMKRVFMTLMLVVSLALAGCSSNSDSGTTYTVKRGDTLYGISRTTGTSVRDLARLNNISPPYTIEVGQKLKLNGSSSTKTTKKKSSSTRTAAVTPSSAVPQSSWPPVGQRCWRWPTSGKVVLPYSTADGGNKGIDIAGTRGQPVYAAGAGKVVYVGNQLRGYGNLIMIKHSEDYITAYAHNDKLMVNNGQSVKAGQQIATMGSTDADSVRLHFQIRYRATAIDPLRYLPPQGSKPKC	PGPT0023850_194	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0023850-ygeR-K12943	NA	NA
BMS020_01825	555	idi_1	COG1443	Isopentenyl-diphosphate Delta-isomerase	ATGGCCGGGGAACACGTCATTTTACTGGATGAGCAGGATCAACCTGCCGGTATGCTGGAGAAGTATGCCGCCCACACGCTTGATACCCCTTTACATCTCGCGTTTTCCTGCTGGTTGTTTAATCAGCAGGGGCAGTTGCTGGTCACCCGCCGTTCGCTGGGCAAAAAAGCCTGGCCCGGGGTGTGGACCAACTCCGTCTGCGGACACCCCCAGCAGGGCGAGACCTTCGAGCAGGCCGTCACGCGCCGCTGTCGCTTCGAACTCGGCGTGGAGATCGCCGACATCGTGCCGGTTCACCCGGCCTTCCGCTACCGGGCGGTCGCCCCGAACGGCATCGTTGAGAACGAAGTATGCCCGGTGTATGCCGCGCGCGTGGTGAGCGAAGTGCTGCCTAACGACGATGAAGTCATGGATTATCAGTGGGTTGACCTGGCAACGATGTTAAGCGCGCTGGCCGCCACGCCGTGGGCGTTTAGCCCGTGGATGGTGCTGGAAGCGGAAAATCGGGACGCTCGCCAGGCGCTGACCGACTTTGTTGCGCGTGTGCGCGGGTAA	MAGEHVILLDEQDQPAGMLEKYAAHTLDTPLHLAFSCWLFNQQGQLLVTRRSLGKKAWPGVWTNSVCGHPQQGETFEQAVTRRCRFELGVEIADIVPVHPAFRYRAVAPNGIVENEVCPVYAARVVSEVLPNDDEVMDYQWVDLATMLSALAATPWAFSPWMVLEAENRDARQALTDFVARVRG	PGPT0007530_2531	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007530-idi-K01823	NA	NA
BMS020_01826	1518	lysS_1	COG1190	Lysine--tRNA ligase	ATGTCTGAACAACAAGCACAGGGCGCTGACGCGGCAATTGACCTTAATAATGAACTGAAAACCCGTCGCGAGAAGCTGGCTGCGCTGCGTGAGCAGGGCGTCGCTTTCCCGAACGATTTCCGTCGTGACCATACCTCTGACCAACTGCACGCTGACTTCGATGCCAAAGAAAACGAAGAGCTGGAAGCGCTGAACGTTGAAGTGGCCGTGGCTGGCCGCATGATGACCCGCCGTATCATGGGTAAAGCGTCCTTCGTCACTCTGCAGGACGTTGGCGGCCGCATCCAGCTGTACGTAGCGCGCGATGACCTGGCGGAAGGCGTTTACAACGACCAGTTCAAAAAATGGGATCTCGGCGACATCATCGCCGCCCGCGGTAAGCTGTTCAAGACCAAAACCGGTGAGCTGTCTATCCACTGCACCGAGCTGCGTCTGCTGACCAAAGCCCTGCGCCCGTTACCGGACAAGTTCCATGGCCTGCAGGATCAGGAAGCGCGCTATCGTCAGCGTTACCTCGACCTGATCTCCAACGATGAATCGCGCAACACCTTTAAAGTGCGTTCGCAGATCCTGGCGGGTATCCGTCAGTTCATGGTTGGCCGCGGCTTTATGGAAGTGGAAACCCCGATGATGCAGGTGATCCCGGGCGGCGCCTCCGCGCGTCCGTTCATCACCCATCATAACGCGCTGGATCTGGACATGTACCTGCGTATCGCGCCGGAACTGTACCTCAAGCGCCTGGTCGTGGGCGGTTTCGAACGCGTCTTCGAGATCAACCGTAACTTCCGTAACGAAGGGATCTCCGTTCGTCATAACCCAGAGTTCACCATGATGGAACTCTACATGGCCTATGCGGATTATAAAGATCTGATCGAGCTGACCGAATCCCTGTTCCGCACCCTGGCGCAGGACATTCTCGGTAACACCGAAGTGCCTTACGGCGACCAGGTGTTCGACTTCGGCAAGCCGTTTGAAAAACTGACCATGCGCGAAGCGATCAAGAAATACCGTCCGGAAACCGAGATGGCGGATCTGGATAACTTCGATTCCGCGAAAGCGATCGCTGAGTCTATCGGCATCAAAGTGGAGAAGAGCTGGGGTCTGGGCCGTATCGTGACCGAGATCTTCGAAGAAGTGGCGGAAGCGCACCTGATCCAGCCGACCTTCATCACCGAATACCCGGCGGAAGTTTCTCCGCTGGCGCGCCGTAACGACGTCAACCCGGAAATCACCGACCGCTTTGAATTCTTCATTGGCGGCCGTGAGATCGGTAACGGCTTTAGCGAGCTGAACGACGCCGAAGATCAGGCGCAGCGCTTCCAGGACCAGGTTGATGCGAAAGCCGCAGGCGACGACGAAGCGATGTTCTACGATGAAGACTATGTCACCGCGCTGGAGCACGGCCTGCCGCCGACCGCCGGTCTGGGTATTGGTATCGACCGCATGGTGATGCTGTTCACCAACAGCCACACCATCCGCGACGTGATCCTGTTCCCGGCAATGCGTCCGCAGAAATAA	MSEQQAQGADAAIDLNNELKTRREKLAALREQGVAFPNDFRRDHTSDQLHADFDAKENEELEALNVEVAVAGRMMTRRIMGKASFVTLQDVGGRIQLYVARDDLAEGVYNDQFKKWDLGDIIAARGKLFKTKTGELSIHCTELRLLTKALRPLPDKFHGLQDQEARYRQRYLDLISNDESRNTFKVRSQILAGIRQFMVGRGFMEVETPMMQVIPGGASARPFITHHNALDLDMYLRIAPELYLKRLVVGGFERVFEINRNFRNEGISVRHNPEFTMMELYMAYADYKDLIELTESLFRTLAQDILGNTEVPYGDQVFDFGKPFEKLTMREAIKKYRPETEMADLDNFDSAKAIAESIGIKVEKSWGLGRIVTEIFEEVAEAHLIQPTFITEYPAEVSPLARRNDVNPEITDRFEFFIGGREIGNGFSELNDAEDQAQRFQDQVDAKAAGDDEAMFYDEDYVTALEHGLPPTAGLGIGIDRMVMLFTNSHTIRDVILFPAMRPQK	PGPT0012225_3348	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
BMS020_01827	882	prfB_1	COG1186	Peptide chain release factor RF2	ATGTCCCAGGGGCTGGAAGACGTTGCCGGCCTGCTGGATCTGGCCGTGGAAGCGGACGACGAAGAGACCTTCAACGAAGCCGTCGCCGAGCTGGATACGCTGGAAGAGAAGCTGGCGCAGCTTGAGTTCCGCCGCATGTTCTCCGGCGAATACGACAACGCCGATTGCTACCTCGATATTCAGGCAGGCTCCGGCGGCACCGAAGCCCAGGACTGGGCCAGCATGCTGATGCGCATGTACCTGCGCTGGGCGGAAGCGCGCGGCTTTAAGACCGAGATCATCGAAGAGTCCGAAGGTGAAGTCGCGGGCATTAAATCCGTGACCATCAAGATCATTGGCGATTACGCTTACGGCTGGCTGCGTACCGAAACCGGCGTTCATCGTCTGGTGCGTAAGAGCCCGTTCGATTCCGGCGGCCGCCGTCATACCTCCTTTAGCTCTGCGTTCGTTTACCCGGAAGTTGAAGACGATATCGATATCGAAATTAACCCGGCCGACCTGCGCATCGACGTTTACCGCGCCTCCGGCGCCGGTGGGCAGCACGTTAACCGTACAGAATCCGCGGTGCGTATTACCCACATCCCGACCGGGTTGGTGACGCAGTGCCAGAACGACCGTTCGCAGCACAAGAACAAAGACCAGGCCATGAAGCAGATGAAAGCGAAGCTTTATGAGCTGGAGATGCAGAAGAAAAATGCCGAGAAGCAGGCGATGGAAGACAACAAGTCCGATATCGGCTGGGGCAGCCAGATCCGCTCTTACGTGCTGGATGACTCGCGTATTAAAGATCTGCGTACCGGGGTGGAAACCCGCAACACTCAGGCGGTGCTGGACGGCAGCCTGGACCAATTTATCGAAGCAAGTTTGAAAGCAGGGTTATGA	MSQGLEDVAGLLDLAVEADDEETFNEAVAELDTLEEKLAQLEFRRMFSGEYDNADCYLDIQAGSGGTEAQDWASMLMRMYLRWAEARGFKTEIIEESEGEVAGIKSVTIKIIGDYAYGWLRTETGVHRLVRKSPFDSGGRRHTSFSSAFVYPEVEDDIDIEINPADLRIDVYRASGAGGQHVNRTESAVRITHIPTGLVTQCQNDRSQHKNKDQAMKQMKAKLYELEMQKKNAEKQAMEDNKSDIGWGSQIRSYVLDDSRIKDLRTGVETRNTQAVLDGSLDQFIEASLKAGL				NA	NA	NA	NA	NA
BMS020_01828	1734	recJ_1	COG0608	Single-stranded-DNA-specific exonuclease RecJ	GTGAAACAACAGATACAACTACGCCGCCGCGAGGCGGTTGACGGCGTCGATTTACCCGCCGATCTGCCGCCGCTGCTGCAGCGGCTGTATGCCAGCCGCGGGGTGCGCAGCGCTCAGGAGCTGGAGCGCAGCGTCAAAGGCATGCTGCCGTGGACGCAGCTCACCGGCGTTGAAAAAGCGGTCGGGATGCTGCACGACGCTTTCCAGAAAGGGTTGCACATTGTCGTAGTCGGCGATTTTGACGCCGACGGCGCCACCAGCACCGCGCTCAGCGTGCTGGCCCTGCGCGCGCTGGGCTACGGCAACGTCTCCTACCTGGTGCCGAACCGTTTTGAAGACGGCTACGGCTTGAGCCCGGAAGTGGTCGATCAGGCCCACGCCCGCGGCGCGCAGATGATCATGACCGTCGACAACGGGATCTCGTCCCATGCCGGCGTCGATCATGCCCATGCGCTGGGGATCCCGGTGCTGGTAACCGATCACCACCTGCCGGGGGAGACGCTACCGGCGGCGGAGGCCATCGTTAACCCTAACCTGCGCGATTGCGACTTTCCGTCGAAATCGCTGGCCGGGGTCGGGGTGGCGTTCTATCTGATGCTGGCGCTGCGCACCTTTCTGCGTGATAACGGCTGGTTCGATGCCCGCGGCATCGCCGCGCCGAACCTTGCCGAGCTGCTGGATCTGGTGGCGCTTGGCACCGTTGCCGACGTCGTGCCGCTGGATGCTAACAATCGTATTCTCACCTGGCAGGGGTTAAGCCGCATTCGCGCCGGCAAATGTCGGCCCGGCATTAAGGCGCTGCTGGAGATTGCCAACCGCGATCCGCAAAAGCTGGCGGCCAGCGACCTCGGTTTTGCTCTCGGGCCGCGCCTGAACGCGGCGGGGCGGCTGGACGACATGTCGGTCGGCGTCGCGCTGCTGCTGTGCGATAACATTGGCGAAGCGCGCGTGTTAGCCAATGAGCTTGACGCGCTCAACCAGACGCGCAAAGAGATCGAGCAGGGGATGCAGGCGGAAGCGCTAACGCTCTGTCAGCAGCTGGAACGCAGTAGCGACACCCTGCCCGGCGGGCTGGCGATGTACCATCCGCAGTGGCACCAGGGGGTGGTCGGCATCCTCGCCTCGCGAATTAAAGAACGTTTCCACCGGCCGGTGATCGCCTTTGCGCCCACCGGCGACGGTACGCTGAAAGGCTCCGGCCGCTCCATACAGGGGCTGCATATGCGCGATGCGCTGGAGCGTCTCGATACGCTCTATCCGGGGCTGATCCTGAAGTTCGGCGGCCACGCGATGGCGGCAGGATTATCGCTGGAAGAGGCGCGCTTTGAGGAGTTTCAGCAGCGCTTTGGCGAGCTGGTGACCGAGTGGCTGGATCCCGCGCTGTTACAGGGCGAGGTCGTTTCCGACGGGCCGCTGGCGGCGGCTGAGATGAGCATGGAAGTGGCGCAGATGCTGCGCGACGCCGGGCCGTGGGGACAGATGTTCCCGGAACCGCTGTTTGACGGCCGTTTCCGCCTGCTGCAGCAGCGGCTGGTGGGCGAGCGTCACCTGAAGGTGATGGTCGAACCGGTTGACGGCGGCCCGCTGCTGGACGGTATCGCCTTCAACGTGGATACTTCCATCTGGCCCGACAACGGCGTGCGTGAAGTCCAGTTAGCCTACAAGCTCGACATCAATGAGTTCCGCGGCAACCGCAGCCTGCAGCTGATCATCGATCACCTCTGGCCAAATTGA	MKQQIQLRRREAVDGVDLPADLPPLLQRLYASRGVRSAQELERSVKGMLPWTQLTGVEKAVGMLHDAFQKGLHIVVVGDFDADGATSTALSVLALRALGYGNVSYLVPNRFEDGYGLSPEVVDQAHARGAQMIMTVDNGISSHAGVDHAHALGIPVLVTDHHLPGETLPAAEAIVNPNLRDCDFPSKSLAGVGVAFYLMLALRTFLRDNGWFDARGIAAPNLAELLDLVALGTVADVVPLDANNRILTWQGLSRIRAGKCRPGIKALLEIANRDPQKLAASDLGFALGPRLNAAGRLDDMSVGVALLLCDNIGEARVLANELDALNQTRKEIEQGMQAEALTLCQQLERSSDTLPGGLAMYHPQWHQGVVGILASRIKERFHRPVIAFAPTGDGTLKGSGRSIQGLHMRDALERLDTLYPGLILKFGGHAMAAGLSLEEARFEEFQQRFGELVTEWLDPALLQGEVVSDGPLAAAEMSMEVAQMLRDAGPWGQMFPEPLFDGRFRLLQQRLVGERHLKVMVEPVDGGPLLDGIAFNVDTSIWPDNGVREVQLAYKLDINEFRGNRSLQLIIDHLWPN				NA	NA	NA	NA	NA
BMS020_01829	714	dsbC_1	COG1651	Thiol:disulfide interchange protein DsbC	ATGAAAAAAGGTTTATTGATGTTCACCCTGCTGGCGGCTTCCCTTTCCGGGGCGGCGCATGCCGATAGCGCGGCAATTAAACAGTCGCTGGCGAAGCTGGGTGTGCAGAGCACCGATATTCAACCGTCGCCGGTTTCCGGGATGAGCACGGTGCTGACCGACAGCGGCGTACTGTATGTCACCGACGACGGCAAGCACATCATCCAGGGGCCGATGTACGACGTGAGCGGCGCGCAGCCGGTCAATGTCACTAACCAGCTGCTGCTGGGTAAACTGAACGCGCTGAGCAACGAAATGATTGTCTACAAAGCGCCGAAGGAGCAGCACGTCATTACCGTCTTCACCGACATCACCTGCGGTTATTGCCACAAGCTGCATGAGCAGATGAGCGACTACAACGCGCTGGGGATCACCGTGCGCTATCTCGCCTTCCCGCGCCAGGGACTGCAGAGCCAGGCGGAGCAGGATATGAAGGCCATCTGGTGCGCGAAAGATCGCAACAAAGCGCTGGATGACGCTATGAACGGCAAGGGCGTACAGCCGGCGAGCTGCAGCGTGGATATCGCTAAACACTACACCCTTGGCGTGCAGATGGGCGTCAACGGTACCCCGGCGATGGTCCTCAGTAACGGCATGGTGCTGCCGGGCTATCAGGGGCCGAAAGAGCTGAAGGCGTTCCTCGACGAGCATAAAAAACAGACAAGCGGTAACTGA	MKKGLLMFTLLAASLSGAAHADSAAIKQSLAKLGVQSTDIQPSPVSGMSTVLTDSGVLYVTDDGKHIIQGPMYDVSGAQPVNVTNQLLLGKLNALSNEMIVYKAPKEQHVITVFTDITCGYCHKLHEQMSDYNALGITVRYLAFPRQGLQSQAEQDMKAIWCAKDRNKALDDAMNGKGVQPASCSVDIAKHYTLGVQMGVNGTPAMVLSNGMVLPGYQGPKELKAFLDEHKKQTSGN	PGPT0030050_1443	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_TRANSFER_PILUS_ASSEMBLY_PROTEIN,PGPT0030050-dsbC-K03981	NA	NA
BMS020_01830	897	xerD_1	COG4974	Tyrosine recombinase XerD	GTGAAACAGGATCTGGCACTAATCGAACAGTTTCTCGATGCCCTTTGGCTGGAGCGCAATCTGGCGGAGAATACGCTCAGCGCCTACCGTCGCGATTTGACGATGCTGGTGGAGTGGCTGCACCATCGCGGCCTGTCGCTGGCAAGCGTCGGCAGCGACGACCTGCAGGCGCTGCTGGCCGAGCGGCAGTCCGGCGGCTATAAAGCCACCAGCACCGCGCGCCTGCTGAGCGCCGTGCGTCGTTTCTTCCAGCATCTGTACCGGGAAAAAATTCGCCCGGACGACCCCAGCGCGCTGCTGGCCTCGCCGAAGCTGCCGCAGCGGCTGCCGAAGGATCTCAGTGAGGCGCAGGTTGAGCGTCTGCTGCAGGCCCCGCTGGTGGAGCAGCCGCTGGAGTTGCGCGACAAAGCGATGCTGGAGGTGCTGTATGCCACCGGCCTGCGCGTCTCGGAGCTGGTGGGGCTGACGATGAGCGACATCAGCCTGCGACAGGGCGTGCTGCGGGTGGTGGGCAAAGGCAACAAAGAGCGGCTGGTGCCGCTGGGGGAAGAGGCGGTACTGTGGGTGGAAAATTACCTCGAGTATGGTCGCCCCTGGCTGCTGAACGGCGTGGCGTCGGATGTCTTATTTCCCAGCCAGCGCGCCCAGCAGATGACGCGTCAGACCTTCTGGCACCGGATTAAACACTATGCCGTGCTGGCGGGGATCGACAGCGAAAAGCTCTCCCCGCACGTGTTGCGCCATGCGTTCGCCACGCATTTGCTCAATCATGGCGCCGACCTGCGCGTGGTGCAGATGCTGTTAGGACACAGCGATCTCTCCACCACGCAGATCTACACCCACGTGGCGACCGAGCGTCTGCGACAACTTCATCAACAGCACCACCCGCGGGCGTGA	MKQDLALIEQFLDALWLERNLAENTLSAYRRDLTMLVEWLHHRGLSLASVGSDDLQALLAERQSGGYKATSTARLLSAVRRFFQHLYREKIRPDDPSALLASPKLPQRLPKDLSEAQVERLLQAPLVEQPLELRDKAMLEVLYATGLRVSELVGLTMSDISLRQGVLRVVGKGNKERLVPLGEEAVLWVENYLEYGRPWLLNGVASDVLFPSQRAQQMTRQTFWHRIKHYAVLAGIDSEKLSPHVLRHAFATHLLNHGADLRVVQMLLGHSDLSTTQIYTHVATERLRQLHQQHHPRA	PGPT0022000_6189	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
BMS020_01831	522	fldB	COG0716	Flavodoxin 2	ATGAATATAGGTCTGTTTTACGGCTCCAGTACCTGCTACACCGAAATGGCCGCGGAGAAAATCCGCGATATCATCGGCCCTGAGCTGGTGACGTTGCACAATCTGAAAGATGACTCCCCCGCCCTGATGAGCCAGTACGATGTACTGATCCTCGGCATCCCGACCTGGGATTTCGGCGAAATTCAGGAAGACTGGGAAGCGGTTTGGGACCAGCTGGACACCCTGGACCTGGAGGGCAAAATCGTCGCGCTGTACGGCATGGGCGATCAGCTGGGCTATGGCGAATGGTTCCTTGACGCGCTGGGCATGCTGCATGACAAGCTGGCGACCAAAGGCGTGAAGTTTGTCGGCTACTGGCCAACCGAAGGCTATGAGTTCACCAGCCCGAAACCGGTGATCGCTGATGGCCAACTGTTCGTTGGCCTGGCGCTGGATGAAACCAACCAGTACGACCTGAGCGACGAGCGCATCCAGAGCTGGTGCGAGCAGATCCTCGGCGAAATGGCCGAACACTTCTCCTGA	MNIGLFYGSSTCYTEMAAEKIRDIIGPELVTLHNLKDDSPALMSQYDVLILGIPTWDFGEIQEDWEAVWDQLDTLDLEGKIVALYGMGDQLGYGEWFLDALGMLHDKLATKGVKFVGYWPTEGYEFTSPKPVIADGQLFVGLALDETNQYDLSDERIQSWCEQILGEMAEHFS	PGPT0000020_73	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000020-nifF|fldA|isiB-K03839	NA	NA
BMS020_01832	411	ygfX		Inner membrane protein YgfX	GTGGTCCTGTGGCAATCTGATCTCCGTATCTCCTGGCGCGCGCAGTGGTTTTCCCTGCTGCTCCACGGCGTTGTGGCGGCGCTGGTGCTGCTGGTTCCCTGGCCGTTAAGCTACACCCCGATCTGGCTGCTGCTGCTGTCGCTGGTGGTCTTTGACTGTGTGCGCAGCCAGCGACGGATCCATGCCCGTCGCGGGGAGATAAAACTGCTCACCGATTCCCGGCTGCGCTGGCAAAACGCCGAATGGGAGATCCTCGGGACGCCGTGGGTCATCAACAGCGGTATGCTGCTGCGTTTGCGCCATGTCGATACCCGACGCGGTCAGCATCTGTGGCTGGCGGCGGACAGCATGGATCCCGGAGAGTGGCGGGATCTGCGCCGGCTGGTGCTGCAAAAACCGGCGCAGGAGTAA	MVLWQSDLRISWRAQWFSLLLHGVVAALVLLVPWPLSYTPIWLLLLSLVVFDCVRSQRRIHARRGEIKLLTDSRLRWQNAEWEILGTPWVINSGMLLRLRHVDTRRGQHLWLAADSMDPGEWRDLRRLVLQKPAQE	PGPT0027745_515	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
BMS020_01833	267	sdhE_1	COG2938	FAD assembly factor SdhE	ATGGACATTAACAATAAAGCACGTATCCACTGGGCATGCCGCCGCGGGATGCGCGAACTCGACATCTCCATCATGCCGTTCTTTGAGTATGAGTACGATACCCTCAGCGACGCTGACAAACAGCTGTTCATTCGCCTGCTGGAAAATGACGATCCGGATCTGTTTAACTGGCTGATGAACCACGGCAAACCGGCCGATGCGGAGCTGCAGCGGATGGTAACCTTAATTCAAACACGGAATCGGGAACGTGGTCCTGTGGCAATCTGA	MDINNKARIHWACRRGMRELDISIMPFFEYEYDTLSDADKQLFIRLLENDDPDLFNWLMNHGKPADAELQRMVTLIQTRNRERGPVAI	PGPT0027750_823	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-CptA-CptB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027750-antitoxin_cptB|ygfY|sdhE-K09159	NA	NA
BMS020_01834	984	ygfZ_1	COG0354	tRNA-modifying protein YgfZ	ATGGCTTTTACACCTTTTCCTCCGCGTCAGCCTTCCTCTTCCGCTCGTCTGCCGTTAACGCTGATGACCCTGGATGACTGGGCGCTGGCGACAATTAGCGGACCGGACAGCGAAAAATATCTGCAGGGGCAGATTACCGCCGATGTGAGCAGTCTCACCGATGCCCAGCATCTGCTTGCCGCCCACTGTGACGCCAAAGGCAAGATGTGGAGCAACCTGCGCGTATTCCGCCGCGACGGCGGCTTCGCGTGGATTGAGCGCCGCAGCCTGCGCGACGCGCAGCTGACCGAGCTGAAAAAATATGCCGTCTTCTCCAAAGTCACCATCGCCGCCAACGACGATCTGGTTCTGCTGGGGGTGGCCGGCTTCCAGGCGCGCGCCGCGCTGGCGCCGCTGTTCGCCGCCCTGCCCGACGCCGCGACGCCGGTGATTAGCGAAGGCGCCACCAGCCTGCTGTGGTTTGAACACCCGGGCGAACGCTTCGTGCTGGTGACCGATGTCGACACCGCCAATCGCGTCACCGACGCGCTGCGCGGCGAAGCGCAGCTCAACAACAGCCAGCAGTGGCTGGCGCTGAATATTGAAGCCGGTCTGCCGGTTATCGACAGCGCCAACAGCGGGCAGTTCATTCCGCAGGCCACCAACCTGCAGGCGCTGGGCGGTATCAGCTTCAAAAAAGGGTGCTATACCGGCCAGGAAATGGTCGCCAGGGCGAAATTCCGCGGCGCCAATAAGCGCGCGCTGTGGACGCTGTCAGGTACCGCCAGCCGGGTGCCGGAGGCCGGAGAAGATCTGGAGCTGAAGATGGGCGAAAACTGGCGCCGCACCGGTACGGTGCTTGCGGCGGTTCAGCTGGATGATGGCCAGCTGCTGGTGCAGGTGGTGATGAATAACGATATGGAGCCGGACAGCGTGTTCCGCGTGCGCGACGACGCCGGCAGCCTGCGCATCGAACCGCTGCCCTATTCACTGGAAGACGCGTAA	MAFTPFPPRQPSSSARLPLTLMTLDDWALATISGPDSEKYLQGQITADVSSLTDAQHLLAAHCDAKGKMWSNLRVFRRDGGFAWIERRSLRDAQLTELKKYAVFSKVTIAANDDLVLLGVAGFQARAALAPLFAALPDAATPVISEGATSLLWFEHPGERFVLVTDVDTANRVTDALRGEAQLNNSQQWLALNIEAGLPVIDSANSGQFIPQATNLQALGGISFKKGCYTGQEMVARAKFRGANKRALWTLSGTASRVPEAGEDLELKMGENWRRTGTVLAAVQLDDGQLLVQVVMNNDMEPDSVFRVRDDAGSLRIEPLPYSLEDA				NA	NA	NA	NA	NA
BMS020_01835	660			hypothetical protein	ATGGTGCGCAAACCATTAATCACTCAGGGATATTCTCTGGCAGAGGAAGTTGCCAACAGCATCAGTCACGGGATCGGGCTGGTGTTCGGTATCGTCGGCCTCGTGCTCTTGCTGGTGCAGGCGGTGGACACTAACGCCAGCGCGACGGCGATCACCAGCTACAGTCTGTACGGCGGCAGCATGATTATGCTGTTTCTCGCCTCCACGCTCTATCACGCGATCCCGCATCAGCGGGCGAAACAGTGGCTGAAAAAGTTCGACCACTGCGCCATCTACTTGTTAATCGCCGGGACCTATACGCCGTTTTTGCTGGTAGGGCTGAACTCGCCGCTGGCGAAGGGGTTGATGATCGTCATCTGGAGCCTGGCGCTGCTGGGGATCCTGTTTAAGCTGACCATCGCGCACCGCTTTAAAATCCTGTCGCTGGTCACCTATCTGACCATGGGCTGGCTGTCGCTTATCGTGGTCTATCAGCTGGCGGTAAAGCTGGCGGTGGGCGGCGTGACGCTGCTGGCGGTCGGCGGGGTGGTGTACTCGCTCGGGGTCATCTTCTACGTCTGCAAACGCATTCCCTATAACCACGCTATCTGGCATGGCTTCGTGCTCGGCGGCAGCGTGTGTCACTTCCTGGCGATCTATCTGTACGTCGGCCAGTCCTGA	MVRKPLITQGYSLAEEVANSISHGIGLVFGIVGLVLLLVQAVDTNASATAITSYSLYGGSMIMLFLASTLYHAIPHQRAKQWLKKFDHCAIYLLIAGTYTPFLLVGLNSPLAKGLMIVIWSLALLGILFKLTIAHRFKILSLVTYLTMGWLSLIVVYQLAVKLAVGGVTLLAVGGVVYSLGVIFYVCKRIPYNHAIWHGFVLGGSVCHFLAIYLYVGQS				NA	NA	NA	NA	NA
BMS020_01836	312			hypothetical protein	ATGCAGGCCAATGACATTACCTTTTTTCAGCGCTTTCAGGAGGACATCCTCGCCGGGCGCAAAACGATCACCATTCGCGATGCGGCGGAGTCGCACTTTAAGCCCGGCGATGTGCTGCGCGTCGGGCGCTATGAAGACGACGGCTATTTTTGCACCATCGCCGTGACAGCGACCTCGACGGTGACTCTCGACACGCTGACCGACCAGCATGCTCAACAGGAGAATATGACCCTCGGGCAGCTGCGTCAGGTCATCAGCGACATCTATCCTGGCGAGAACCAGTTTTATGTCATTGAATTCAAAACACTTTAA	MQANDITFFQRFQEDILAGRKTITIRDAAESHFKPGDVLRVGRYEDDGYFCTIAVTATSTVTLDTLTDQHAQQENMTLGQLRQVISDIYPGENQFYVIEFKTL				NA	NA	NA	NA	NA
BMS020_01837	756	glvR	COG1737	HTH-type transcriptional regulator GlvR	ATGAATTGTGAGTTCGCCACTGTGAGTATGTTCTCCCACGCCGCTGTCGCCAGTCTCAATAATCTTGAGATGATGGTCTACCACTACGTCATTAAGAATCGTGACAAAGTGATGTACATGACCATCCGCGAGCTGGCCGAAGCCGCCGGCGTCTCCACCACCACCGTGTTGCGCTTCTGCCGCAAACTGCAGTGCGAGGGCTACTCTGAATTTCGCGTGCGCTTTAAATTATATCTTGAGCAGAACGAGCCTCAACAGGCAAATATCGGCGCCAGCGAAATCATGAGCTTTTTTAAAAGCGTTAATAATGACGAGTTCGATGAATTACTCGAGCAGGCCGTCGATATTATTCTCGCCTCCGAACGTATTATTTTCGTCGGCGCAGGCACCTCGGGCGCGCTGGCGAAATATGGCGCCCGCTTCTTCTCCAACGTCGGGAAATTTAGTAATCATATTGATGACCCCTATTTTCCGGTGACTAACGATATGGCCCGTAACGCGCTGGCGATCGTGCTTTCCGTCTCCGGCGAGACGGAAGAGATCCTGCGCTTCGCCAGCCAGTTCAGCCTGCACCGCTGCAAGGTGATGTCCATTACCAGTCACGAACACTCGCGGCTGGCCAAACTGGCCGATTTCAATCTCTCCTGGCACGTGCCGCAGACGCGCATTGGCGGTGTCTACGATATTACGACGCAAATTCCAGTGATCTATATTCTCGAAACGCTCGGACGTAAATTAGCGCGCAAAATCAGCTAA	MNCEFATVSMFSHAAVASLNNLEMMVYHYVIKNRDKVMYMTIRELAEAAGVSTTTVLRFCRKLQCEGYSEFRVRFKLYLEQNEPQQANIGASEIMSFFKSVNNDEFDELLEQAVDIILASERIIFVGAGTSGALAKYGARFFSNVGKFSNHIDDPYFPVTNDMARNALAIVLSVSGETEEILRFASQFSLHRCKVMSITSHEHSRLAKLADFNLSWHVPQTRIGGVYDITTQIPVIYILETLGRKLARKIS				NA	NA	NA	NA	NA
BMS020_01838	1434	bglA_1	COG2723	6-phospho-beta-glucosidase BglA	ATGAAAAAATTAACCCTTCCGAAAGATTTTTTATGGGGCGGCGCGGTTGCCGCGCATCAGGTTGAAGGCGGCTGGGATCAGGGCGGCAAAGGCCCGAGCATCTGCGACGTGCTGACCGGCGGGGCGCACGGCGTGCCGCGTGAAATCACCCACCAGGCTGAAGCCGGCAAATATTACCCCAACCACGAAGCGGTGGATTTCTACGGCCGCTACAAAGAAGATATCAAACTGTTCGCCGAGATGGGCTTCAAATGCTTCCGTACCTCCATCGCCTGGACCCGCATCTTCCCGCAGGGCGACGAGACCCAGCCGAATGAAGAGGGGCTGAAGTTCTACGACGACATGTTCGACGAGCTGCTGAAGTACAACATCGAGCCGGTGATCACCCTCTCCCACTTCGAGATGCCCCTGCACCTGGTGCAGCAGTACGGCGGCTGGACCAACCGTAAAGTGGTCGATTTCTTTGTGCGCTTCGCCGAAGCGGTCTTCGAGCGCTATAAGCACAAAGTGAAATACTGGATGACCTTCAACGAGATCAATAACCAGCGTAACTGGCGCGCGCCGCTGTTCGGCTACTGCTGCTCCGGGGTGGTTTATACCGAGCATGACAACCCGGAAGAGACCATGTACCAGGTGCTGCACCATCAGTTCGTCGCCAGCGCGCTGGCGGTGAAAGCGGCGCGTGGTATTAACCCGGACATGCAGGTCGGCTGCATGCTGGCGATGGTCGCCCTCTACCCTTACTCCTGCAAACCGGAAGATGTGATGTTTGCTCAGGAGTCGATGCGCGAGCGCTACGTCTTTACCGACGTTCAGCTGCGCGGTTACTATCCGAGCTATGTGCTGAATGAGTGGGAGCGCCGCGGCTTCAACATCAAGATGGAGGATAGCGACGCGCAGATCCTGCGCGAAGGCACCTGCGCTTATCTTGGTTTCAGCTACTACATGACCAACGCGGTGAAAGCCGAAGGCGGCACCGGCGACGCCATTTCCGGCTTCGAAGGCAGCGTGCCGAATCCGCACGTCAAAGCCTCCGACTGGGGCTGGCAGATTGACCCGGTCGGTCTGCGCTATTCCCTGTGTGAATTGTATGAGCGCTACCAGAAGCCGCTGTTTATCGTCGAGAACGGCTTTGGCGCCTACGACAAAGTCGAAGCCGACGGCAGCATCAACGATGACTACCGTATTGACTACCTGCGCGCCCACGTCGAAGAGATGATGAAAGCCGTCACCTACGACGGCGTCGATCTGATGGGCTATACCCCATGGGGCTGCATCGACTGCGTCTCCTTCACCACCGGCCAGTACAGCAAACGCTACGGCTTCATCTACGTCAACAAACACGACGACGGCACCGGCGATATGTCCCGCTCGCGCAAGAAGAGCTTCAACTGGTACAAAGAGGTCATCGCCAGCAACGGTGAGAATCTGTAA	MKKLTLPKDFLWGGAVAAHQVEGGWDQGGKGPSICDVLTGGAHGVPREITHQAEAGKYYPNHEAVDFYGRYKEDIKLFAEMGFKCFRTSIAWTRIFPQGDETQPNEEGLKFYDDMFDELLKYNIEPVITLSHFEMPLHLVQQYGGWTNRKVVDFFVRFAEAVFERYKHKVKYWMTFNEINNQRNWRAPLFGYCCSGVVYTEHDNPEETMYQVLHHQFVASALAVKAARGINPDMQVGCMLAMVALYPYSCKPEDVMFAQESMRERYVFTDVQLRGYYPSYVLNEWERRGFNIKMEDSDAQILREGTCAYLGFSYYMTNAVKAEGGTGDAISGFEGSVPNPHVKASDWGWQIDPVGLRYSLCELYERYQKPLFIVENGFGAYDKVEADGSINDDYRIDYLRAHVEEMMKAVTYDGVDLMGYTPWGCIDCVSFTTGQYSKRYGFIYVNKHDDGTGDMSRSRKKSFNWYKEVIASNGENL	PGPT0019255_1789	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0019255-bglA-K01223	NA	NA
BMS020_01839	360			hypothetical protein	ATGATTAAGCGACAACGCAAAGCCATTCTTTTTGTCCTCCTGGCCTGTCTGGTGGTGCTGGTCTGCACCGCCCAGCGAATGGCCGGGATGCACGCGCTGGTCATGAACCTCGCTGCCGACAGCCCGTCGCTACAGCAAACCCAGGATAAGGCCGACGCGCCGGTCACGCCGTGCGAGCTCAGCGCCAAGTCGCTGATGGCCGTCCCGCCGATGCTGTTCGAAGGGGCGCTGTTGGCTATCACCCTGCTGCTGGCGGTGCTGGCGGCGATCCCGCCGCGTATCGAACGCCAATGGCCTCCCCGCGTTATCTCCCCGCCCCGATTGCGGGTGCATCTGCGATTATGCGTCTTCCGTGAGTGA	MIKRQRKAILFVLLACLVVLVCTAQRMAGMHALVMNLAADSPSLQQTQDKADAPVTPCELSAKSLMAVPPMLFEGALLAITLLLAVLAAIPPRIERQWPPRVISPPRLRVHLRLCVFRE				NA	NA	NA	NA	NA
BMS020_01840	2010	dsbD_1		Thiol:disulfide interchange protein DsbD	ATGTCTATGTTATTCAGGCGACTACTGGTCTGCCTGCTTTGGCTATGGCTGCCCGTCAGCCAGGCCGCCGACAGCGGCTGGCTACGCGCCGCCGATAATCAACACGCCAGCGTGCGCCTGCGGGCGCAAACCGAGAGCAATGGCGATACCCGCCTGCTTTTAGACGTGGCGCTGGAAAAGGGCTGGAAAACCTACTGGCGCTCGCCAGGGGAAGGCGGCGTCGCGCCGGCTATCGCCTGGGGCACGCCGCTGGCGGTTGACTGGCGCTGGCCGACGCCGCAGCGTTTCGACGTTGCGGGCATTTCCACTCAGGGGTATCACGGCGACGTCAGCTTCCCGATGACCCTGCGCGGGAAGATACCGCCGACGCTCAGCGGCGTACTGACATTATCCACCTGCAGCAATGTCTGCATTCTCACTGACTATCCCTTTTCGCTGGATATGACGGCCCCGCCAGGGGAGGGTTTTGCCTACGATTACACCCGTGCGATGGGCACGCTGCCGCTGCGCGATGGCCTGACTTCGCAGCTGAGCGCCAGCTACGTCAGCGGCAAACTGACGGTGACCGCCCGCCGTGATGCCGGCTGGCAGCAGCCAGCGCTGTTTATCGACAGCATGGAGGATGTCGATTTCGGCAAGCCGAGCTTTACCACCCGCGGCGATACGCTGACCGCCAGCGTGCCGGTCACCGACAGCTGGGGCGAAGCGGCGCCGGATCTACGCGGTAAAACGTTGTCGCTGGTGCTGGCGGATAGCGGCCAGGCGCAGGAAAGCCATCTCGCTATCAGCGCAGGCAGCGCCGCGCCGGGAGCGGCGTTAGGCTGGGTGCTGCTGATGGCGCTGGCCGGGGGGCTTATCCTCAATGTAATGCCCTGCGTCCTGCCGGTGCTGGCGATGAAGCTCGGCTCGCTGGTGCAAACCGAACATCGCGAACGCGGCGCGGTGCGCCGACAGTTCCTCGCCTCGGCGTGCGGGATCGTCGTCTCGTTCCTGGCGCTGGCGCTGATGATGACCGCGCTACGCCTGGGTAATCAGGCGCTCGGCTGGGGGATCCAGTTCCAGAACCCGTGGTTTATCGGCGCCATGGCGCTGGTGATGGTCCTGTTCAGCGCCAGTCTGCTGGGGCTGTTCGAAATCCGCCTCTCCTCCACCGCCAGCACCTTCCTCGCCACCCGAGGCGGCAACGGCTTAATGGGCCATTTCTGGCAGGGCGCCTTCGCCACTCTGCTGGCGACGCCCTGCACCGCGCCGTTCCTCGGCACCGCCGTGTCGGTGGCGCTGGTGGCGCCGCTGCCGCTGCTGTGGGGGATTTTCTTCGCCATGGGGGTCGGCATGAGCCTGCCGTGGCTGCTGATCGTCGCCTGGCCGGGGCTGGCGCAACGCCTTCCGCGCCCAGGCCGCTGGATGAATCATCTGCGGGTGGCGCTGGGGGTGATGATGCTTGGCTCGGCGCTATGGCTGGTCAGCCTGCTGACGATCCACATCGGCCGTACCCCGGTGCTTACCCTGCTGGTGATACTGACCGTAGCCCTGCTGCTGGCCACCGCCTGGCGCTACCGCTGGCGGACCGCGCTGCGCGCAGGGGCTCTGGCCATCGTGGTGGCCGGCGCCGTCGCCTTTGTCTCCCGGCCTGACGGCGAGGGCCCGCGCCGCGACCGGGTTAACTGGCAGCCGCTCAGCGAGCAGGCTATCGCCAGCGCCCTGGCGGAACATAAGCGGGTGTTTATTGATGTCACCGCCGACTGGTGCGTGACCTGTAAAGCCAATAAATACAATGTGCTGCTGCGCGATGACGTCCAGCAGGCGCTGTTAGCGCCGGACGTGGTCGCCCTGCGCGGCGACTGGAGCCGCCCCTCCGCCACGATTAGTCAGTTTTTAACCGACCGCGGCAGCGCCGCGGTGCCGTTTAACCAGATTTACGGACCGGGATTGCCGCAGGGAGAGATCCTGCCTGCGCTGTTAGATCGCGAACACCTCCTCGCCACCCTGTCTGCCGCCAAAGGAAACTAA	MSMLFRRLLVCLLWLWLPVSQAADSGWLRAADNQHASVRLRAQTESNGDTRLLLDVALEKGWKTYWRSPGEGGVAPAIAWGTPLAVDWRWPTPQRFDVAGISTQGYHGDVSFPMTLRGKIPPTLSGVLTLSTCSNVCILTDYPFSLDMTAPPGEGFAYDYTRAMGTLPLRDGLTSQLSASYVSGKLTVTARRDAGWQQPALFIDSMEDVDFGKPSFTTRGDTLTASVPVTDSWGEAAPDLRGKTLSLVLADSGQAQESHLAISAGSAAPGAALGWVLLMALAGGLILNVMPCVLPVLAMKLGSLVQTEHRERGAVRRQFLASACGIVVSFLALALMMTALRLGNQALGWGIQFQNPWFIGAMALVMVLFSASLLGLFEIRLSSTASTFLATRGGNGLMGHFWQGAFATLLATPCTAPFLGTAVSVALVAPLPLLWGIFFAMGVGMSLPWLLIVAWPGLAQRLPRPGRWMNHLRVALGVMMLGSALWLVSLLTIHIGRTPVLTLLVILTVALLLATAWRYRWRTALRAGALAIVVAGAVAFVSRPDGEGPRRDRVNWQPLSEQAIASALAEHKRVFIDVTADWCVTCKANKYNVLLRDDVQQALLAPDVVALRGDWSRPSATISQFLTDRGSAAVPFNQIYGPGLPQGEILPALLDREHLLATLSAAKGN				NA	NA	NA	NA	NA
BMS020_01841	612			hypothetical protein	ATGAGAGCTATCACCGCCTTATTACTGCTGTGCGTATCCGCCTTCAGCTTCGCCGCCCCGGCGGAAGAACCACCAGCAAACGCTAATGACCAGCTGGCGCAGCTGCTGTTTAACGATCCGAACAGCCCGCGCACCGGCGCCAAAGCGCCGAAGCTGACGATCGTCTCGTTTACCGATTACAACTGTCCTTACTGTAAACAGTTTGATCCGATGCTGGAAAAAATCGTCCACGATAACCCGGACATCCAGCTGATCGTGAAGCTGCTGCCGTTCAAGGGGCAAAGTTCGGTCAATGCCGCCAAAGCGGCGCTCTCTACCTGGCGCCAGCAGCCCGATAAGTTCTGGGCGCTGCATCAGCGGCTGATGGCGAAAAAAGGCTATCACGATGACGCCAGCATCGCCGCGGCGCAGAAGAAAACCGCCACCGACAGCGTCAGTCTCGATGACAAGACCATGGATTCGCTGAAGATGAACCTGATTTTGTCGCAGGTGCTGAATATTCAGGGCACGCCGGCGACCATCATCGGCGATCAGATGGTGGCCGGGGCGATCCCTGCTGACGAACTGGAGGGGCTGGTGAAAGAGCAGCTGGCGAAAGCCCGTGGCCAGTAA	MRAITALLLLCVSAFSFAAPAEEPPANANDQLAQLLFNDPNSPRTGAKAPKLTIVSFTDYNCPYCKQFDPMLEKIVHDNPDIQLIVKLLPFKGQSSVNAAKAALSTWRQQPDKFWALHQRLMAKKGYHDDASIAAAQKKTATDSVSLDDKTMDSLKMNLILSQVLNIQGTPATIIGDQMVAGAIPADELEGLVKEQLAKARGQ				NA	NA	NA	NA	NA
BMS020_01842	504	resA_1		Thiol-disulfide oxidoreductase ResA	GTGGCCAGTAAGCTCAGGCGCTGGCTGCGTGAGCTGGCGGTGTGGCTGCTGATTGGCGCGGCGGTGGGCCTGGCGGTGGATTATTTTCGCCAGCCCGCGCTGCCGCAAAACGTCAGCGCCACATCGCTGCACACCCTCGACGGCAGGGCGGTGGATCTGAACGCCATGAGCCAGCAAAAGCCGCTGCTGCTGTACGTCTGGGCCACCTGGTGCGGGGTCTGTCGCTACACCACGCCGTCGGTGGCATCGCTTGCCGCCGATGGCGGCAATGTGCTGACCGTGGCCCTGCGATCCGGCGATAACGCCGCGCTGGAGACGTGGCTTGCCAGAAAGAAACTGGCGCTGCCGACGGTGAATGACCCGAGCGGCCAGCTGGCGCGGCAGTGGGACATTCGGGTGACGCCAACGCTGGTGGTGATTTATCGAGGCGAGGTGAAGTCGGTCACCACCGGCTGGACCAGCGGCTGGGGAATGCGTCTGCGGCTGTGGCTGGCCACCTGGTAG	MASKLRRWLRELAVWLLIGAAVGLAVDYFRQPALPQNVSATSLHTLDGRAVDLNAMSQQKPLLLYVWATWCGVCRYTTPSVASLAADGGNVLTVALRSGDNAALETWLARKKLALPTVNDPSGQLARQWDIRVTPTLVVIYRGEVKSVTTGWTSGWGMRLRLWLATW				NA	NA	NA	NA	NA
BMS020_01843	744	ygfF		putative oxidoreductase YgfF	ATGGGGATAGCACTGATTAGCGGCGCGAGCCGCGGAATAGGCCGGGCGACGGCGCTGCTGCTGGCGCAGGAAGGGTATACTGTCGCGGTCAATTATCATCACAATATTAACGCTGCCACCGAGGTGGTGAATACCATTGTTGCCGCCGGCGGCAAAGCCACGGCGCTGCGGGCGGATATCAGTGATGAAGCGCAGGTGATGGCGATGTTTGAGGCGATTGACCGCATGGGCGAGCCGCTGACGGCGCTGGTCAACAACGCCGGGATCCTCTTTACCCAGTGTACGGTGGAGAGCCTGAGCGCCGAGCGCATTAACCGCGTGCTGGCGACCAACGTGACCGGCTATTTCCTCTGCTGCCGCGAGGCGGTCAAGCGCATGGCGCATCAGCATGGCGGCAAGGGCGGGGCGATAGTTAACGTGTCGTCGGCGGCGTCGCGCCTTGGTTCGCCGGGAGAATATGTAGATTACGCCGCGTCGAAAGGGGCGGTGGATACCCTGACCACCGGGCTGGCGCTGGAGGTGGCGGCGCAGGGGATCCGGGTAAATGGCGTGCGCCCTGGGCTGATTTATACCGAGATGCACGCCTCCGGCGGCGAACCGGGGCGCGTGGATCGGGTGAAGCATTCGCTGCCGATGCGGCGCGGCGGTCAGCCGGAAGAGGTCGCTCAGGCCATTGCCTGGCTGCTGAGCGACAAAGCGTCCTATGTGACGGGCAGTTTCCTCGAACTGGCGGGCGGGAAATAA	MGIALISGASRGIGRATALLLAQEGYTVAVNYHHNINAATEVVNTIVAAGGKATALRADISDEAQVMAMFEAIDRMGEPLTALVNNAGILFTQCTVESLSAERINRVLATNVTGYFLCCREAVKRMAHQHGGKGGAIVNVSSAASRLGSPGEYVDYAASKGAVDTLTTGLALEVAAQGIRVNGVRPGLIYTEMHASGGEPGRVDRVKHSLPMRRGGQPEEVAQAIAWLLSDKASYVTGSFLELAGGK	PGPT0003180_11779	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
BMS020_01844	2874	gcvP_1	COG0403	Glycine dehydrogenase (decarboxylating)	ATGACTCAGACTTTAAGTCAGCTTGAAAACCGCGACGCCTTTATCGAACGTCACATTGGCCCGGACGCTCAGCAGCAGCAAGAGATGCTGAAGACCGTCGGCGCGGATTCGCTTAACGCCCTGATCGGCCAGATTGTGCCGCAGGATATCCAGCTGGCGACCCCACCGCAGGTGGGCGACGCGACAACCGAATTCGCCGCGCTGGCAGAGCTGAAGGCGATCGCCGGTCGCAACAAGCGCTTCAAGTCTTACATCGGCATGGGCTACACCGCCGTGCAGCTGCCGCCGGTTATTCAGCGCAACATGCTGGAAAATCCGGGCTGGTATACCGCCTATACCCCTTACCAGCCGGAAGTCTCCCAGGGCCGTCTGGAATCGCTGCTCAACTTCCAGCAGGTTACGCTGGATCTCACCGGGCTGGATATCGCTTCCGCTTCGCTGCTCGATGAAGCGACCGCCGCCGCCGAAGCGATGGCGATGGCCAAACGCGTCAGCAAACTGAAAAACGCCAACCGTTTCTTCGTCGCCGCCGACGTCCATCCGCAAACCCTGGACGTGGTGCGCACTCGTGCGGAAACCTTCGGTTTCGACGTGATCGTCGATGACGCCGACAAAGTACTCGATCACCAGGATGTCTTCGGCGTGCTGCTGCAGCAGGTGGGCACCACCGGCGAAATCCACGATTACAGCAAACTGATCGCCGAGCTGAAAGCGCGCAAAGTGATTGTCAGCGTCGCTGCCGACTTTATGGCGCTGGTGCTGCTGACGGCGCCGGGCAAGCAGGGCGCGGATATCGTCTTCGGCTCCGCCCAACGCTTCGGCGTGCCGATGGGCTATGGCGGCCCGCACGCGGCCTTCTTCGCGGCGAAAGATGAATTCAAACGCTCCATGCCGGGCCGGATTATCGGCGTATCGAAAGATGCGGCGGGGAATACCGCGCTGCGCATGGCGATGCAGACTCGCGAACAGCATATCCGCCGCGAGAAAGCGAACTCCAACATTTGTACCTCGCAGGTGCTGCTGGCCAACATCGCCAGCCTGTACGCGGTATTCCACGGCCCGGCGGGTCTAAAACGTATCGCAGGCCGCATTCATCGCCTGACCGACATTCTGGCCGATGGCCTGCAGAAGAAAGGGCTGAAGCTGCGTCATGCCCACTACTTCGACACCCTGTGCGTGGAAGTGGCGGATAAAGCCGCGGTGCTGGCGCGTGCCGAAGCCCTGCAGATTAACCTGCGCAGCGATATTCACGGCGCGGTGGGCATTACGCTCGATGAAGCGACCACACGCGAAGACGTGCTCAACCTGTTCCGCGCCATCGTCGGCGACGATCATGGTCTGGACATCGATACCCTGGATAAAGACGTGGCGCTGGACAGCCGCTCCATCCCGGCGGCGATGCTGCGCGACGATGCGATCCTCACCCATCCGGTGTTCAACCGCTACCATAGCGAGACCGAGATGATGCGCTACATGCACGCCCTGGAGCGTAAAGATCTGGCGCTGAACCAGGCGATGATCCCGCTGGGCTCCTGCACCATGAAGCTGAACGCCGCGGCGGAGATGATCCCCATCACCTGGCCGGAGTTCGCTGAGCTGCACCCGTTCTGCCCGGTAGAGCAGGCGGAAGGGTATCATCAGATGATCGCTCAGCTCTCCGACTGGCTGGTGAAACTGACCGGCTATGACGCCGTCTGCATGCAGCCGAACTCCGGCGCGCAGGGCGAATATGCTGGCCTGCTGGCGATTCGCCACTACCACGAGAGCCGCAACGAAGGCCATCGCGATATCTGCCTGATCCCAAGCTCCGCGCACGGCACCAACCCGGCTTCCGCGCAGATGGCGGGTATGCAGGTGGTGGTGGTCGCGTGCGACAAAAACGGCAACATCGATCTCGCCGACCTGCGTGAAAAAGCAGAGCAGGCGGGGGCGAATCTCTCGTGCATCATGGTCACCTATCCGTCGACCCACGGCGTATATGAAGAGACCATTCGCGAAGTGTGCGAGATCGTGCACCAGTTCGGCGGCCAGGTTTACCTTGACGGCGCCAACATGAACGCCCAGGTCGGGATCACCTCTCCGGGCTTTATCGGCGCTGACGTTTCGCACCTCAACCTGCATAAAACGTTCTGCATTCCGCACGGCGGCGGCGGCCCGGGTATGGGCCCAATCGGCGTGAAAGCGCACCTGGCGCCGTTCGTGCCGGGTCACAGCGTGGTGCAGATTGAAGGGATGCTGACCCGTCAGGGCGCGGTTTCCGCTGCGCCGTTCGGCAGCGCGTCCATCCTGCCGATCAGCTGGATGTATATCCGTATGATGGGCGCGGAAGGGCTGAAGCAGGCGAGCCAGAACGCGATCCTTAACGCCAACTATATCGCTACCCGTCTGAAAGACGCCTACCCGGTGCTCTACACCGGTCGCGATGGTCGCGTGGCGCACGAATGTATTCTCGATATTCGTCCGCTGAAAGAAGAGACCGGCATTAGCGAGCTGGATATCGCCAAGCGCCTGATCGACTTTGGCTTCCATGCGCCGACCATGTCCTTCCCGGTAGCGGGTACGCTGATGGTTGAGCCGACGGAATCGGAAAGCAAGGTGGAGCTGGACCGCTTTATCGACGCGATGCTGGCGATCCGCGCGGAAATCGACCGCGTCAAAGCCGGTGAATGGCCGCTGGAAGACAACCCGCTGGTGAACGCGCCGCATACCCAGGGTGAGATCGTTGGGGAATGGAACCATCCGTACAGCCGCGAGCTGGCGGTATTCCCGGCGGGCCTGCACAACAAATACTGGCCGACGGTGAAACGCCTGGACGACGTGTACGGCGACCGTAATCTGTTCTGCTCCTGCGTGCCGATGAGCGAATATCAGTAA	MTQTLSQLENRDAFIERHIGPDAQQQQEMLKTVGADSLNALIGQIVPQDIQLATPPQVGDATTEFAALAELKAIAGRNKRFKSYIGMGYTAVQLPPVIQRNMLENPGWYTAYTPYQPEVSQGRLESLLNFQQVTLDLTGLDIASASLLDEATAAAEAMAMAKRVSKLKNANRFFVAADVHPQTLDVVRTRAETFGFDVIVDDADKVLDHQDVFGVLLQQVGTTGEIHDYSKLIAELKARKVIVSVAADFMALVLLTAPGKQGADIVFGSAQRFGVPMGYGGPHAAFFAAKDEFKRSMPGRIIGVSKDAAGNTALRMAMQTREQHIRREKANSNICTSQVLLANIASLYAVFHGPAGLKRIAGRIHRLTDILADGLQKKGLKLRHAHYFDTLCVEVADKAAVLARAEALQINLRSDIHGAVGITLDEATTREDVLNLFRAIVGDDHGLDIDTLDKDVALDSRSIPAAMLRDDAILTHPVFNRYHSETEMMRYMHALERKDLALNQAMIPLGSCTMKLNAAAEMIPITWPEFAELHPFCPVEQAEGYHQMIAQLSDWLVKLTGYDAVCMQPNSGAQGEYAGLLAIRHYHESRNEGHRDICLIPSSAHGTNPASAQMAGMQVVVVACDKNGNIDLADLREKAEQAGANLSCIMVTYPSTHGVYEETIREVCEIVHQFGGQVYLDGANMNAQVGITSPGFIGADVSHLNLHKTFCIPHGGGGPGMGPIGVKAHLAPFVPGHSVVQIEGMLTRQGAVSAAPFGSASILPISWMYIRMMGAEGLKQASQNAILNANYIATRLKDAYPVLYTGRDGRVAHECILDIRPLKEETGISELDIAKRLIDFGFHAPTMSFPVAGTLMVEPTESESKVELDRFIDAMLAIRAEIDRVKAGEWPLEDNPLVNAPHTQGEIVGEWNHPYSRELAVFPAGLHNKYWPTVKRLDDVYGDRNLFCSCVPMSEYQ	PGPT0020480_2174	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020480-gcvP-K00281	NA	NA
BMS020_01845	390	gcvH_1	COG0509	Glycine cleavage system H protein	ATGAGCAACGTACCAGCAGAACTGAAATACAGCAAAGAACACGAGTGGCTGCGTAAAGAAGCGGACGGCACCTATACCGTCGGGATCACCGAGCATGCGCAGGAGCTGCTGGGCGATATGGTATTCGTTGATCTGCCGGAAGTGGGCGCCACCGTTGAAGCGGGCGCCGATTGCGCGGTTGCCGAATCCGTGAAGGCGGCTTCCGATATTTATGCCCCGATCAGCGGTGAAATCGTTGCCGTTAACGAAGAGCTGAACGACTCGCCGGAACTGGTCAACAGCGACCCGTACACCGACGGCTGGATCTTCAAAATCAAAGCCAGCGATGAAGCGCAGGTTGCCGCGCTGCTGGATGCGACCGCCTATGAAGCTCTGTTAGAAGACGAATAA	MSNVPAELKYSKEHEWLRKEADGTYTVGITEHAQELLGDMVFVDLPEVGATVEAGADCAVAESVKAASDIYAPISGEIVAVNEELNDSPELVNSDPYTDGWIFKIKASDEAQVAALLDATAYEALLEDE				NA	NA	NA	NA	NA
BMS020_01846	1095	gcvT_1	COG0404	Aminomethyltransferase	ATGGCTCAACAGACTCCGTTGTATGAACAACACACGCTGTGCGGCGCGCGCATGGTGGATTTCCATGGCTGGATGATGCCGCTGCATTACGGATCCCAGATTGATGAGCACCATGCGGTGCGCGGCGACGCAGGCATGTTCGATGTGTCGCATATGACCATCGTTGATTTCCACGGCAGTCGGACCAGAGAGTTCTTGCGCTATTTGCTGGCCAACGACGTGGCGAAGCTCACCACCCCGGGCAAAGCGCTCTACACCGGCATGCTGACCGCCTCCGCCGGCGTCATCGACGACCTGATTGTCTATTTCCTCTCTGAAGATTATTTCCGCCTCGTTGTTAACTCCGCCACCCGCGAAAAAGACCTCGCCTGGATTTCCGAACAAGCTGAACCTTACGGCCTTGAAATCATCGTTCGCGACGATCTGTCGCTGATCGCGGTTCAGGGTCCGCAGGCGAAAGCGAAGGCGGCGACGCTGTTCACCGACGCGCAGCGTCAGGCCGTGGAAGGTATGAAGCCGTTCTTCGGCGTGCAGGCCGGCGAGCTGTTTATCGCCACCACCGGCTATACCGGCGAAGCGGGTTATGAAATCGCCATGCCGAACGAGCAGGCGGCGGATTTCTGGCGCGGTCTGCTGGACGCTGGCGTTAAGCCGTGCGGTCTCGGCGCGCGCGATACCCTGCGCCTGGAGGCCGGGATGAACCTGTATGGCCAGGAGATGGACGAAGGCGTCTCTCCGCTGGCGGCGAATATGGGCTGGACTATTGCCTGGGAACCGGCGGATCGTAATTTTATCGGTCGCGAAGCGCTGGAAATGCAGCGTGAAAAGGGCACCGAACAGCTGGTTGGCCTGGTGATGACCGAGAAAGGCGTCCTGCGCGGCGGCCTGCCGGTACGTTTTACCGATAGCGACGGTACTCAAAAAGAAGGCATTATCACCAGCGGCACCTTCTCGCCGACCCTGGGCTACAGTATCGCGCTGGCTCGCGTGCCGGCCGGGATTGGCGACACCGCGGTGGTGCAAATTCGTAACCGTGAAATGCCGGTAAAAGTGACTAAACCTGGTTTTGTACGCAATGGCAAAGCCATTGTGTGA	MAQQTPLYEQHTLCGARMVDFHGWMMPLHYGSQIDEHHAVRGDAGMFDVSHMTIVDFHGSRTREFLRYLLANDVAKLTTPGKALYTGMLTASAGVIDDLIVYFLSEDYFRLVVNSATREKDLAWISEQAEPYGLEIIVRDDLSLIAVQGPQAKAKAATLFTDAQRQAVEGMKPFFGVQAGELFIATTGYTGEAGYEIAMPNEQAADFWRGLLDAGVKPCGLGARDTLRLEAGMNLYGQEMDEGVSPLAANMGWTIAWEPADRNFIGREALEMQREKGTEQLVGLVMTEKGVLRGGLPVRFTDSDGTQKEGIITSGTFSPTLGYSIALARVPAGIGDTAVVQIRNREMPVKVTKPGFVRNGKAIV	PGPT0008130_3554	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008130-gcvT-K00605	NA	NA
BMS020_01847	1203	ubiI_1	COG0654	2-octaprenylphenol hydroxylase	GTGCAAAGTGTTGATGTTGCCATTGTTGGCGGTGGAATGGTGGGGCTGGCGGTAGCCTGCGGTTTACAGGGCAGCGGCCTGCGCGTCGCGGTGCTGGAGAAAGCGGAGCCACAGCCGCTGGCTGCCGATGCGCCGCCGGCGCTGCGCGTGTCGGCAATAAACGCCGCCAGCGAAAAGCTGCTGACGAAGCTGGACGTCTGGCGCGAGATCGTTGCCCGACGCGCCAGCTGCTATCACGGAATGGAAGTGTGGGACAAAGACAGCTTCGGCCGCATTAGCTTTGATGACCAGAGCATGGGCTTCAGCCATCTGGGCCATATTATTGAAAACGCCGTGGTGCATTATGCGCTGTGGCAGAAGGCGCAGCGCTGCGCCGACGTTACCCTGCTGGCGCCTGCGCAACTGCAGCAGGTGGCGTGGGGCGAAAATGAGGCCTTTCTCAGCCTGCAGGACGGCAGCATGCTCACCGCGCGTCTGGTGATCGGCGCCGATGGGGCGAATTCGTGGCTGCGCAATAAAGCCGATATTCCGCTGACCTTCTGGGATTACCATCATCACGCGCTGGTGGCGACTATCCGTACCGCTGAGCCGCATCAGGCGGTGGCGCGCCAGGTATTTCATGGCGACGGGATCCTCGCCTTCCTGCCGCTCTGCGATCCGCACCTGTGCTCTATCGTCTGGTCGCTGTCGCCGGCGGAGGCGCAGCGGATGCAGGAGGCTGATGAAGCCACCTTTAACCAGGCGTTGAATATCGCCTTCGATAATGGCCTTGGCCTCTGCCAGCTGGAAAGCGCACGTGAAGTCTTCCCGCTGACCGGCCGCTATGCTCGCCAGTTCGCCGCCCACCGCCTGGCGCTGGTCGGCGATGCCGCGCATACCATCCACCCGCTGGCCGGGCAGGGCGTCAACCTCGGCTTTATGGATGCGGCCGAGCTTATCGACGAACTGAAGCGTCTGCACGCCCAGGGCAAAGATATCGGCCAGCATCTTTATCTGCGCCGCTACGAGCGCAGCCGCAAGCACAGCGCCGCGCTGATGCTGGCGGGTATGCAGGGCTTCCGCGACATGTTTTCCGGTAGCCATCCGGCGAAGAAGTTCCTCCGCGACATGGGGCTGAAACTGGCCGATACGCTGCCGGGCGTGAAACCGCAGCTGATTCGCCAGGCGATGGGCCTCAACGATCTGCCTGCCTGGTTACGTTAA	MQSVDVAIVGGGMVGLAVACGLQGSGLRVAVLEKAEPQPLAADAPPALRVSAINAASEKLLTKLDVWREIVARRASCYHGMEVWDKDSFGRISFDDQSMGFSHLGHIIENAVVHYALWQKAQRCADVTLLAPAQLQQVAWGENEAFLSLQDGSMLTARLVIGADGANSWLRNKADIPLTFWDYHHHALVATIRTAEPHQAVARQVFHGDGILAFLPLCDPHLCSIVWSLSPAEAQRMQEADEATFNQALNIAFDNGLGLCQLESAREVFPLTGRYARQFAAHRLALVGDAAHTIHPLAGQGVNLGFMDAAELIDELKRLHAQGKDIGQHLYLRRYERSRKHSAALMLAGMQGFRDMFSGSHPAKKFLRDMGLKLADTLPGVKPQLIRQAMGLNDLPAWLR	PGPT0009555_731	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009555-ubiI-K18800	NA	NA
BMS020_01848	1179	ubiH_1	COG0654	2-octaprenyl-6-methoxyphenol hydroxylase	ATGAGCGTGCTGATCGTCGGCGGCGGGATGACCGGGGCGACGCTCGCCCTGGCCATCTCCCGTTTGACCGGCGGCGCGCTGCCGGTCCATCTGATTGAGGCGCAGGATCCCCAGTCGGCTCGCCATCCCGGCTTCGACGACCGGGCGATCGCCCTGGCCGCCGGCACCTGCCAGCAGCTGGCGCGCATCGGTGTCTGGCAACGTCTCGCCGAGCGGGCGACGGCTATCCAGCGGGTACACGTCAGCGACCGCGGCCATGCCGGTTTTGTGAATCTGGCGGCGGCGGATTATCGCCTGCCGGCGCTGGGTCAGGTGGTTGAACTCCACGATGTCGGCCAGCGACTGTTTAGCCTGCTGCGCGAGGCGCCGGGCGTGACGCTGCATTGCCCGGCGAAGGTGGCAGCGGTCAGCCGTAGTCAGGAGAGCGTCAGCCTTACCCTTGACGGGGGCGAAACGATCAGCGGCAAGCTGCTGGTGGCGGCGGACGGTTCGCGTTCGTCGCTGGGCGCCCGCTGCGGCATCAGCTGGCAACAACAGCCCTATGAGCAACTGGCGATTATCGCCAACGTAAGCACCGCGCTGCCCCACGAAGGCCGCGCTTTCGAACGTTTTACCGAGCATGGCCCGCTGGCGATGCTGCCGATGTCGCAAGGGCGCTGCTCGCTGGTGTGGTGTCATCCGCAGTCGCGCCGCGACGAGGTGCTGAGCTGGTCTGACGAACGCTTTTGTCAGGAGCTGCAGCAGGCGTTCGGCTGGCGTTTGGGGCGCATTACCCACGCCGGGAAGCGCAGCGTCTATCCGCTGGCCCTCACCACCGCCAGCCGCGCGGTGTCGCACCGCCTGGCGCTGGTCGGTAACGCGGCGCAGACGCTGCACCCGATTGCCGGGCAGGGCTTTAATCTCGGCCTGCGCGATGTGATGAGTCTGGCGGAGCTGCTCGCTGACGCCCATCTCAGCGGCGAAGATGTCGGCCATTATCCGCTGCTGTGTCGCTATCAGGCGCGCAGAACAGGGGATAAAGCCGCCACCATCGGCGTGACCGATGGGCTGGTGCATCTGTTTGCCAACCGTTGGGCGCCGCTGGTGGCGGGGCGCAATGTCGGTCTGATGGCCATGGAATTATTTACCCCGGCGCGCGATGCGCTGGCGCAGCGTACCCTCGGTTGGGTTCCCCGTTAA	MSVLIVGGGMTGATLALAISRLTGGALPVHLIEAQDPQSARHPGFDDRAIALAAGTCQQLARIGVWQRLAERATAIQRVHVSDRGHAGFVNLAAADYRLPALGQVVELHDVGQRLFSLLREAPGVTLHCPAKVAAVSRSQESVSLTLDGGETISGKLLVAADGSRSSLGARCGISWQQQPYEQLAIIANVSTALPHEGRAFERFTEHGPLAMLPMSQGRCSLVWCHPQSRRDEVLSWSDERFCQELQQAFGWRLGRITHAGKRSVYPLALTTASRAVSHRLALVGNAAQTLHPIAGQGFNLGLRDVMSLAELLADAHLSGEDVGHYPLLCRYQARRTGDKAATIGVTDGLVHLFANRWAPLVAGRNVGLMAMELFTPARDALAQRTLGWVPR	PGPT0009550_1987	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009550-ubiH-K03185	NA	NA
BMS020_01849	1317	pepP_1	COG0006	Xaa-Pro aminopeptidase	ATGACTCAGCAGGAATTTCTCTCGCGTCGCCAGGCGCTGTTGGCGCAGATGCAGCCAGGCAGCGCGGCGCTGATTTTCGCCGCACCGGAAGCGGTGCGCAGTGCAGATTCGGAATATCCCTACCGGCAGAACAGCGATTTCTGGTACTTCACCGGCTTCAACGAACCGGAAGCGCTGCTGGTGTTGATTAAAAGCGATGAAACCCACAACCATAGCGTGCTGTTCAACCGGGTTCGCGATCTGACCGCTGAGATCTGGTTCGGTCGCCGTCTGGGCCAGGAGGCCGCGCCGGCGAAGCTGGGCGTTGACCGGGCGCTGGCGTTCAGCGAAATCAACCAGCAGCTGTATCAGCTGCTCAACGGTCTGGACGCTATCTATTTTGCCCAGGGCGAATATGCCTATGCCGATGAGATTGTGTTCAACGCCCTCGAAAAACTCCGCAAAGGCTCGCGGCAGAACCTGCAGGCGCCGAACTCGGTGATCGACTGGCGGCCCATTGTGCATGAGATGCGCCTGTTCAAATCCGCGGAAGAGCTGGCCGTGATGCGCCGCGCCGGGGAGATCAGCGCCCTGGCCCATACCCGGGCGATGGAAAAATGCCGCCCTGGCATGTTCGAGTATCAGCTGGAGGGCGAAATTCTCCATGAATTCAATCGCCACGGCGCGCGCTTCCCCTCCTATAACACCATCGTTGGCGGCGGCGAAAACGGCTGCATTCTGCACTACACCGAAAACGAATCTGAACTGCGCGACGGCGATTTAGTGCTGATTGACGCCGGCTGCGAGTATCGCGGCTATGCCGGCGACATTACCCGCACCTTCCCGGTGAACGGCAAATTCAGCCAGCCGCAGCGCGAAATCTACGATATCGTGCTGGAATCGCTGGAGACCGCGCTGGAACTCTATCGCCCGGGCACCTCAATCTGCCAGGTGAACCAGGAAGTTGTGCGCATTATGATCACCGGCCTGGTGCGGCTGGGGATCCTCAAAGGCGAGGTTGACGAGCTGATCGCCAACAATGCCCACCGCCCGTACTTTATGCACGGTCTGAGCCACTGGCTGGGGCTGGATGTACACGATGTCGGTCACTACGACACCGACCGTTCTCGCGTCCTGGAGCCGGGGATGGTGCTGACCGTCGAACCGGGGCTGTATATCGCCGCCGACGCCGACGTGCCGGCGCAGTACCGCGGCATCGGCATCCGTATTGAAGATGACATCGTGATTACCGAAGACGGCAACGAAAATCTCACCGCCGGCGTGGTGAAGAAGGCGGATGAGATCGAAGCGCTGATGGTGGCGGCGCGCCAGTCATGA	MTQQEFLSRRQALLAQMQPGSAALIFAAPEAVRSADSEYPYRQNSDFWYFTGFNEPEALLVLIKSDETHNHSVLFNRVRDLTAEIWFGRRLGQEAAPAKLGVDRALAFSEINQQLYQLLNGLDAIYFAQGEYAYADEIVFNALEKLRKGSRQNLQAPNSVIDWRPIVHEMRLFKSAEELAVMRRAGEISALAHTRAMEKCRPGMFEYQLEGEILHEFNRHGARFPSYNTIVGGGENGCILHYTENESELRDGDLVLIDAGCEYRGYAGDITRTFPVNGKFSQPQREIYDIVLESLETALELYRPGTSICQVNQEVVRIMITGLVRLGILKGEVDELIANNAHRPYFMHGLSHWLGLDVHDVGHYDTDRSRVLEPGMVLTVEPGLYIAADADVPAQYRGIGIRIEDDIVITEDGNENLTAGVVKKADEIEALMVAARQS	PGPT0006770_4685	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
BMS020_01850	585			hypothetical protein	ATGCGCATGTCTATACAGAACGAAATGCCTGGTTACAACGATGTAGACCAGTTACTGAACCAACAAGGGGTAGGGCTTACCCCGGCCGAGATGCACGGTTTGATCAGCGGATTACTGTGCGGCGGCAACACGGACAGCAGCTGGCAGCCGCTGGTGCACGACCTGACCAACGAAGGTCTCGCCTTCGGCCATGAGCTGGCCCAGGCGCTGCGTAACATGCATTCCGCCATCAGCGACTCACTGGATGACGATGGCTTCCTCTTTCAACTGTATCTGCCGGAAGGCGATGCGGTGAGCGTCTTTGACCGCGCCGACGCCCTCGCCGGCTGGGTCAACCACTTCCTTCTCGGCCTTGGCGTTAGCCAGCCGAAGCTGGATAAAGTGAAAGACGAAACCGGGGAAGCGATTGACGATCTGCGTAATATTGCCCAACTGGGCTACGATGAAGACGAAGATCAGGAAGAGCTGGAGATGTCTCTGGAGGAGATTATCGAGTATGTCCGCGTTGCCGCACTGCTGTGCCACGACACCTTTGCGCGTCAGCAGCCAACCGCACCGGAAGTCCGCAAACCGACATTACACTAA	MRMSIQNEMPGYNDVDQLLNQQGVGLTPAEMHGLISGLLCGGNTDSSWQPLVHDLTNEGLAFGHELAQALRNMHSAISDSLDDDGFLFQLYLPEGDAVSVFDRADALAGWVNHFLLGLGVSQPKLDKVKDETGEAIDDLRNIAQLGYDEDEDQEELEMSLEEIIEYVRVAALLCHDTFARQQPTAPEVRKPTLH				NA	NA	NA	NA	NA
BMS020_01851	330	zapA_1	COG3027	Cell division protein ZapA	ATGTCTGCACAACCCGTAGATCTCCAAATTTTCGGCCGTTCACTGCGAGTGAATTGCCCGCCTGAACAAAGGGATGCCCTGAATCAGGCAGCTGAAGACCTTAATCAGCGGTTGCAAGATTTAAAAGAACGCACTAGAGTCACAAATACTGAGCAGCTGGTCTTCATCGCCGCGTTGAACATCAGCTATGAGTTGACTCAGGAAAAAGCGAAGACCCGCGACTACGCTTCCAGTATGGAGCAGCGCATTCGCATGCTTCAGCAGACCATCGAGCAAGCATTGCTTGAGCAAGGTCGCATAAGCGAAAGACCAGGGTCGAAGTTTGAATAA	MSAQPVDLQIFGRSLRVNCPPEQRDALNQAAEDLNQRLQDLKERTRVTNTEQLVFIAALNISYELTQEKAKTRDYASSMEQRIRMLQQTIEQALLEQGRISERPGSKFE				NA	NA	NA	NA	NA
BMS020_01853	597	ygfA	COG0212	5-formyltetrahydrofolate cyclo-ligase	ATGACTCTACAGCCCGATACCCTGCTCTCCCGCCAGCACATTCGCCAGCAGATCCGCGAGCGTCGACGCGCGCTCAGCCCTGAGCAACAGCGGCAGTTTGCCCTGCAGGCCGCAGAGCGGATGATGGCCTGGCCGCCGGTGGTTCTCGCCCACACCGTGGCGCTGTTTCTCTCCTTTGACGGCGAGCTGGACACCCAACCGCTGATCGACCAGCTCTGGCGGGCCGGTAAGCGAGTCTATCTCCCGGTGCTGCATCCGTTTAGCCCCGGTAACCTGCTGTTTTTACATTACCATCCGCAGAGCGAACTGATAGTGAATCGCCTGAAGATCCGCGAACCGAAGCTTGACGTGCGCGACGTGCTGCCGCTCGCTGAACTCGATGTGCTGGTCACCCCGCTGGTGGCCTTCGATGCCGGCGGCCAACGGCTGGGGATGGGTGGCGGTTTTTACGACCGGACGCTGCAAAACTGGCAGCAGTATCGCCTGCAGCCGGTGGGCTACGCGCACGACTGCCAGCAGGTGGACACCCTGCCGAGCGAAGAGTGGGATATCCCGCTGCCGGCGGTGATCACCCCGGGCAAAACCTGGTGTTGGTAG	MTLQPDTLLSRQHIRQQIRERRRALSPEQQRQFALQAAERMMAWPPVVLAHTVALFLSFDGELDTQPLIDQLWRAGKRVYLPVLHPFSPGNLLFLHYHPQSELIVNRLKIREPKLDVRDVLPLAELDVLVTPLVAFDAGGQRLGMGGGFYDRTLQNWQQYRLQPVGYAHDCQQVDTLPSEEWDIPLPAVITPGKTWCW	PGPT0008170_2595	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
BMS020_01854	1233	serA_1	COG0111	D-3-phosphoglycerate dehydrogenase	ATGGCTAAGGTATCACTGGAAAAAGACAAGATTAAATTTCTGCTGGTTGAAGGTGTGCATCAAAAGGCAATCGATAGCCTTCGCGCGGCAGGTTACACCAACATTGAATTTCATAAAGGCGCGCTGGATTCCGAACAGCTGAAAGCGTCGATCCGTGATGCCCATTTCATCGGCCTGCGTTCCCGTACCCATCTGACTGAAGAGATTTTCGCCGCGGCGGAAAAACTGGTTGCCGTCGGCTGCTTCTGCATCGGTACCAACCAGGTGGATCTGAACGCCGCCGCGAAGCGCGGTATTCCGGTGTTTAACGCGCCATTCTCTAATACCCGTTCGGTGGCCGAGCTGGTGATCGGTGAGCTGCTGCTGCTGCTGCGCGGCGTGCCGGAAGCCAACGCCAAGGCGCATCGCGGCGTATGGAATAAGCTGGCGGTGGGGAGCTTTGAAGCGCGCGGCAAGAAACTGGGGATTATCGGTTACGGCCACATCGGCACCCAGCTCGGCATTCTGGCGGAATCGCTGGGGATGCATGTCTTCTTCTATGATATTGAAAACAAACTGCCGCTCGGCAACGCCACTCAGGTACAGCATCTCTCCGACCTGCTGAACATGAGCGACGTGGTCAGCCTGCACGTGCCGGAAAACGCCTCCACCAAAAATATGATGGGCGCGGAAGAGCTGGCGCTGATGAAGCCGGGCGCGCTGCTGATCAACGCCTCCCGCGGTACCGTGGTGGATATTCCGGCGCTATGCGATGCGCTGGCGAGTAAGCATCTGGCCGGGGCGGCAATCGACGTCTTCCCGACCGAACCCGCGACCAACAGCGACCCCTTCACTTCGCCGCTGTGCGAATTTGATAACGTGATCCTGACTCCGCATATCGGTGGCTCCACTCAGGAAGCGCAGGAGAACATCGGTCTGGAAGTGGCCGGCAAGCTGGCGAAATACTCTGACAACGGGTCAACCCTGTCGGCGGTTAACTTCCCGGAAGTTTCTCTGCCGCTGCACGGCGGACGCCGTCTGCTGCACATCCATGAGAACCGGCCGGGCGTCCTGACCGCCATCAACCAGATCTTCGCCGCGCAGAGCATCAACATTGCCGCCCAGTATCTGCAAACGTCGCCGCAGATGGGCTACGTGGTTATTGATATCGAAGCGGAAGAAGACGTTGCCCAGCAGGCGCTGCAGGCAATGAAAGCGATCCCGGGAACTATCCGCGCCCGTCTGCTGTTCTAA	MAKVSLEKDKIKFLLVEGVHQKAIDSLRAAGYTNIEFHKGALDSEQLKASIRDAHFIGLRSRTHLTEEIFAAAEKLVAVGCFCIGTNQVDLNAAAKRGIPVFNAPFSNTRSVAELVIGELLLLLRGVPEANAKAHRGVWNKLAVGSFEARGKKLGIIGYGHIGTQLGILAESLGMHVFFYDIENKLPLGNATQVQHLSDLLNMSDVVSLHVPENASTKNMMGAEELALMKPGALLINASRGTVVDIPALCDALASKHLAGAAIDVFPTEPATNSDPFTSPLCEFDNVILTPHIGGSTQEAQENIGLEVAGKLAKYSDNGSTLSAVNFPEVSLPLHGGRRLLHIHENRPGVLTAINQIFAAQSINIAAQYLQTSPQMGYVVIDIEAEEDVAQQALQAMKAIPGTIRARLLF	PGPT0009155_3491	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
BMS020_01855	660	rpiA_1	COG0120	Ribose-5-phosphate isomerase A	ATGACGCAGGATGAACTGAAAAAAGCGGTAGGTTGGGCAGCGCTGCAATACGTACAGCCAGGGACCATTGTGGGCGTTGGCACCGGCTCGACGGCGGCCCATTTTATTGACGCGCTGGGCACCATGAAAGGGCAGATCGAAGGGGCGGTCTCCAGCTCCGATGCCTCCACCGAGAAGCTGAAAAGCCTCGGGATCACCGTCTTCGATCTCAACAGCGTCGATCGCCTGGGGATCTACGTTGACGGCGCGGATGAGATCAACGGTCACATGCAGATGATCAAAGGCGGCGGCGCGGCGCTGACCCGTGAGAAGATCATCGCTTCGGTGGCCGATAAATTTATCTGCATCGCCGATGCTTCCAAGCAGGTCGATATTCTGGGCAAATTCCCGCTGCCGGTTGAAGTCATTCCGATGGCGCGCAGCGCCGTTGCACGCCAGCTGGTCAAGCTGGGCGGTCGTCCGGAATACCGTCAGGGCGTGGTGACCGATAACGGCAACGTGATCCTTGACGTGCACGGCCTGGAAATTCTCGATGCTATCGCGCTGGAAAACGCGATTAACGGCATTCCTGGCGTCGTGACCGTAGGGCTGTTCGCCAATCGCGGCGCCGACGTGGCGCTGATCGGCACCGCTGACGGTGTGAAAACCATCGTAAAATAG	MTQDELKKAVGWAALQYVQPGTIVGVGTGSTAAHFIDALGTMKGQIEGAVSSSDASTEKLKSLGITVFDLNSVDRLGIYVDGADEINGHMQMIKGGGAALTREKIIASVADKFICIADASKQVDILGKFPLPVEVIPMARSAVARQLVKLGGRPEYRQGVVTDNGNVILDVHGLEILDAIALENAINGIPGVVTVGLFANRGADVALIGTADGVKTIVK	PGPT0017390_916	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
BMS020_01856	894	argP_3	COG0583	HTH-type transcriptional regulator ArgP	ATGAAACGACCGGACTACAGGACACTACAAGCGCTGGACGCGGTGATTAGAGAACGAGGATTTGAGCGCGCCGCGCAGAAGCTATGTATTACCCAGTCCGCCGTCTCACAGCGAATTAAGCAGCTGGAAAATATGTTCGGCCAGCCGCTGCTGGTACGTACCGTGCCGCCGCGCCCAACCGAGCAAGGACAAAAATTGCTGGCTCTGTTGCGCCAGGTTGAACTGCTGGAAGAGGAGTGGCTGGGCGACGAGCAGACTGGCTCCACGCCGCTGTTGCTGTCGCTGGCGGTGAACGCCGACAGTCTGGCGACCTGGCTGCTGCCGGCGCTGGCTAATGTGCTGTCGGACTCCCCTATTCGTCTCAACCTGCAGGTGGAAGATGAAACCCGCACCCAGGAGCGCCTGCGCCGTGGCGAAGTGGTCGGCGCGGTAAGTATCCAGCCGCAGGCGCTGCCAAGCTGCCTGGTGGATCAGCTCGGCGCGCTCGATTACCTGTTTGTCGCCTCAAAAGAGTTTGCGCAACGCTACTTCCCGAACGGCGTAACGCGTTCGGCGCTGCTGAAAGCCCCGGTCGTCGCCTTCGACCATCTGGACGATATGCATCAGGCCTTTCTGCAGCAAAACTTCGACCTGCCGCCGGGCAGCGTCCCCTGCCATATCGTCAACTCGTCGGAAGCCTTCGTCCAGCTGGCGCGCCAGGGCACTACCTGCTGTATGATCCCGCATCTGCAGATCGAAAAAGAGCTCAACAGCGGCGAGCTTATCGATCTCACTCCCGGCCTGTTTCAGCGCCGTATGCTCTACTGGCACCGCTTTGCCCCGGAAAGCCGCATGATGCGGCGGGTGACCGATGCGCTCATCGACTACGGTCACAAAGTGCTGCGTCAGGATTAA	MKRPDYRTLQALDAVIRERGFERAAQKLCITQSAVSQRIKQLENMFGQPLLVRTVPPRPTEQGQKLLALLRQVELLEEEWLGDEQTGSTPLLLSLAVNADSLATWLLPALANVLSDSPIRLNLQVEDETRTQERLRRGEVVGAVSIQPQALPSCLVDQLGALDYLFVASKEFAQRYFPNGVTRSALLKAPVVAFDHLDDMHQAFLQQNFDLPPGSVPCHIVNSSEAFVQLARQGTTCCMIPHLQIEKELNSGELIDLTPGLFQRRMLYWHRFAPESRMMRRVTDALIDYGHKVLRQD				NA	NA	NA	NA	NA
BMS020_01857	759		COG2968	26 kDa periplasmic immunogenic protein	GTGAAGTTAAAAGTCTTAGCCCTGGCGGCAACACTCGGATTTAGCACGATGGCGGCACAGGCAAGCGAATTGCCGGACGGTCCGCACATTGTGACTTCAGGCACAGCAAGCGTTGCTGCGGTTCCGGATATCGCTACCCTGGCGATCGAAGTGAACGTGGCGGCAAAAGATGCCGCATCGGCAAAAAAACAGGCTGACGATCGCGTTGCGCAATACCTCTCTTTCCTCGAAAAGAGCGGCATTGCGAAAAAAGACATCAACTCGGCGAATCTGCGTACCCAACCTGATTACGACTATCAGAACGGGAAAAGCATTCTGAAAGGCTATCGCGCGGTGCGCACCGTCGAAGTGACCTTGCGCCAGCTGGATAAACTCAACGGTCTGCTGGATGGCGCCCTGAAAGCCGGTCTGAACGAAATTCGCTCCGTCTCGCTGGGCGTTGCGCAACCGGACGCCTACAAAGATAAAGCGCGTAAAGCGGCGATCGACGACGCCGTGCACCAGGCGCAGGAGCTGGCCGCAGGTTTCCACAGCAAGCTGGGGCCGGTGTACAGCGTGCGCTACCATGTCTCTAATTATCAGCCGAGCCCGATGGTTCGCATGATGAAGGCCGCTGACGCTGCGCCGGTTTCCGCCCAGGAAACCTACGAGCAGGCGACTATCCAGTTTGACGACCAGGTCGACGTCGTGTTTGAACTGCAGCCGGCGCAGGCCGCAGCACCGGCGAAACCGGCTGAAGCGCCGAAACCGGCCCAGTAA	MKLKVLALAATLGFSTMAAQASELPDGPHIVTSGTASVAAVPDIATLAIEVNVAAKDAASAKKQADDRVAQYLSFLEKSGIAKKDINSANLRTQPDYDYQNGKSILKGYRAVRTVEVTLRQLDKLNGLLDGALKAGLNEIRSVSLGVAQPDAYKDKARKAAIDDAVHQAQELAAGFHSKLGPVYSVRYHVSNYQPSPMVRMMKAADAAPVSAQETYEQATIQFDDQVDVVFELQPAQAAAPAKPAEAPKPAQ	PGPT0012980_404	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012980-yggE-K09807	NA	NA
BMS020_01858	636	argO	COG1279	Arginine exporter protein ArgO	ATGTTTACCTATTACTTTCAGGGCCTTGCCCTGGGAGCGGCAATGATTTTGCCGCTTGGCCCACAAAATGCTTTCGTGATGAACCAGGGCATCCGTCGTCAGTATCACCTGATGATTGCCTTGCTGTGCGCCGTCAGCGACTTGCTGCTGATCTGCGCCGGCATTTTTGGCGGCAGCGCGCTGCTGATGCAGTCCCCCTGGCTACTGGCGCTCGTGACCTGGGGCGGCGTGGCCTTTTTACTGTGGTACGGCTTTGGCGCGCTGAAGACGGCGTTCAGTCTGAATCTTGAGCTCGCCAGCGCCGAGGCGATGCAGCAGGGGCGCTGGAAAATCATTATCACTATGCTGGCGGTCACCTGGCTGAATCCGCACGTTTATCTGGATACGTTTGTGGTGCTGGGCAGCCTGGGAGGCCAGCTGGCGATGGAGCCGAAGCGCTGGTTTGCGCTGGGAACCATTAGCGCCTCTTTCCTGTGGTTCTTTGGTCTGGCGCTGTTGGCCGCCTGGCTGGCGCCGCGGCTGCGTACCGCCAGAGCCCAGCGGATCATCAACATTGTGGTCGGCGCCGTCATGTGGTTTATTGCGTTTCAGCTGGCAAAAGAGGGCGTCGTCCATATCCAGGCGTTGCTCAACTAA	MFTYYFQGLALGAAMILPLGPQNAFVMNQGIRRQYHLMIALLCAVSDLLLICAGIFGGSALLMQSPWLLALVTWGGVAFLLWYGFGALKTAFSLNLELASAEAMQQGRWKIIITMLAVTWLNPHVYLDTFVVLGSLGGQLAMEPKRWFALGTISASFLWFFGLALLAAWLAPRLRTARAQRIINIVVGAVMWFIAFQLAKEGVVHIQALLN	PGPT0020651_558	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
BMS020_01859	858	mscS_1	COG0668	Small-conductance mechanosensitive channel	ATGGAAGATTTGAACGTTGTCGATAGCATCAACCACGCCGGGACGTGGCTGGCACGCAACCAGGAGCTGCTGCTGAGCTATGCCGTCAACATCGTCGCGGCTATCGCTATCCTGATCGTCGGGATGATCGTGGCGCGCGTCGTCTCTAACACCGTCAACCGCCTGATGCTGGCGCGTAAAATTGACGCCACCGTTGCCGATTTCCTCTCCGCGCTGGTGCGCTATGCGGTTATCGCCTTTACGCTGATTGCCGCCCTGGGCCGCGTGGGCGTGCAGACCGCCTCGGTCATTGCGGTGCTGGGCGCCGCGGGTTTAGCCGTCGGTCTGGCGCTGCAGGGGTCACTGTCTAACCTCGCGGCTGGCGTACTGCTGGTGATGTTCCGCCCGTTCCGCGCCGGTGAATATGTCGATCTCGGCGGCATTGCGGGTACCGTACAGAATGTGCAGATTTTCTCCACGACCCTGCGCACCGTCGATGGCAAAATCGTGGTGGTGCCGAACGGCAAAATTATCGCCGGCAACATCATTAACTTCTCCCGCGAACCGGCGCGCCGCAATGAGTTTATTATCGGCGTCTCTTACGATGCCGATATCGACAAGGTGAAGCAGCTCCTGACCTCGATTATCGAATCTGACGATCGTATTCTGCGCGATCGGGAAATGACGGTGCGCCTGAACGAACTCGGCGCCTCGTCGGTGAACTTCGTGGTGCGTGTGTGGAGCAAAAGCAGCGATCTGCAAAACGTCTACTGGGATATCCTCGAGCGCATCAAGCGTGAATTTGACGCCAATGGCATCAGCTTCCCTTATCCGCAGATGGATGTTCATGTGGTGCGCCTGCCGGAAAAAGCCGAGTAA	MEDLNVVDSINHAGTWLARNQELLLSYAVNIVAAIAILIVGMIVARVVSNTVNRLMLARKIDATVADFLSALVRYAVIAFTLIAALGRVGVQTASVIAVLGAAGLAVGLALQGSLSNLAAGVLLVMFRPFRAGEYVDLGGIAGTVQNVQIFSTTLRTVDGKIVVVPNGKIIAGNIINFSREPARRNEFIIGVSYDADIDKVKQLLTSIIESDDRILRDREMTVRLNELGASSVNFVVRVWSKSSDLQNVYWDILERIKREFDANGISFPYPQMDVHVVRLPEKAE	PGPT0013773_1923	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013773-mscS|yggB-K03442	NA	NA
BMS020_01860	1080	fbaA_1	COG0191	Fructose-bisphosphate aldolase class 2	ATGTCTAAAATTTTTGATTTCGTAAAACCGGGCGTCATCACTGGCGACGACGTTCAGAAAGTGTTCCAGGTAGCGAAAGAAAACAACTTTGCACTGCCGGCGGTAAACTGCGTAGGTACTGACTCCATCAACGCCGTTCTGGAAGCTGCTGCGAAAGTTCGCTCTCCGGTTATCGTTCAGTTCTCTAACGGCGGCGCGGCGTTCATCGCAGGTAAAGGCGTGAAAACTGACGTTCCTCAGGGTGCTGCTATCCTCGGCGCTATCTCTGGCGCGCACCACGTGCACCAGATGGCTGAGCACTACGGCGTGCCGGTTATCCTGCACACTGACCACTGCGCGAAGAAACTGCTGCCGTGGATCGACGGCCTGCTGGACGCGGGTGAAAAACACTTCGCCGCTACCGGCAAACCGCTGTTCTCTTCTCACATGATCGACCTGTCTGAAGAGTCTCTGCACGAAAACATCGAAATCTGCTCTAAATACCTGGCGCGCATGGCCAAAATGGACATGACCCTGGAAATCGAACTGGGTTGCACCGGTGGCGAAGAAGACGGCGTGGACAACAGCCACATGGACGCTTCCGCCCTGTACACCCAGCCGGAAGACGTGGATTACGCGTACACCGAGCTGAGCAAAATCAGCCCGCGCTTCACCATCGCCGCTTCCTTCGGTAACGTACACGGCGTGTACAAACCGGGTAACGTCGTTCTGACCCCGACTATCCTGCGCGACTCTCAGGAATATGTTTCCAAGAAACACAACCTGCCGCACAACAGCCTGAACTTCGTCTTCCACGGCGGTTCCGGTTCTTCCGCTCAGGAAATCAAAGACTCCGTTAGCTACGGCGTAGTGAAAATGAACATCGATACCGACACCCAATGGGCAACCTGGGACGGTATCCTGCAGTACTACAAAACTAACGAAGCTTACCTGCAGGGCCAGCTGGGCAACCCGAAAGGCGAAGACCAGCCGAACAAGAAATACTACGATCCGCGCGTATGGCTGCGTGCTGCACAGACTTCCATGGTGACTCGTCTGGAGCAGGCATTTAAAGAGCTGAACGCGATCGACGTTCTGTAA	MSKIFDFVKPGVITGDDVQKVFQVAKENNFALPAVNCVGTDSINAVLEAAAKVRSPVIVQFSNGGAAFIAGKGVKTDVPQGAAILGAISGAHHVHQMAEHYGVPVILHTDHCAKKLLPWIDGLLDAGEKHFAATGKPLFSSHMIDLSEESLHENIEICSKYLARMAKMDMTLEIELGCTGGEEDGVDNSHMDASALYTQPEDVDYAYTELSKISPRFTIAASFGNVHGVYKPGNVVLTPTILRDSQEYVSKKHNLPHNSLNFVFHGGSGSSAQEIKDSVSYGVVKMNIDTDTQWATWDGILQYYKTNEAYLQGQLGNPKGEDQPNKKYYDPRVWLRAAQTSMVTRLEQAFKELNAIDVL	PGPT0017615_426	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
BMS020_01861	1164	pgk_1	COG0126	Phosphoglycerate kinase	ATGTCTGTAATTAAGATGACCGATCTGGATCTGGCTGGTAAACGCGTTTTTATCCGTGCGGATCTGAACGTACCAGTTAAAGACGGGAAAGTAACCAGCGACGCACGTATCCGTGCCTCTCTGCCGACCATTGAACTGGCGCTGAAGCAGGGCTCGAAAGTCATGGTTACTTCTCACCTGGGTCGTCCGACCGAAGGCGAGTACAACGAAGAATTCTCTCTGCTGCCGGTTGTTAATTACCTGAAAGACAAACTGTCCAGCCCGGTACGTCTGGTTAAAGACTACCTGGACGGCGTGGAAGTCGCTGCCGGCGAGCTGGTGGTGCTGGAAAACGTTCGCTTCAACAAAGGCGAGAAAAAAGACGACGAAGCGCTGTCCAAAAAATACGCCGCGCTGTGCGACGTGTTCGTGATGGACGCTTTCGGTACCGCGCACCGCGCGCAGGCTTCCACCCACGGTATCGGCAAATTTGCTGACGTGGCGTGCGCAGGCCCGCTGCTGGCCGCTGAACTGGACGCGCTGGGTAAAGCGCTGAAAGAGCCGGCTCGTCCGATGGTCGCTATCGTCGGTGGTTCTAAAGTATCCACCAAACTGACCGTGCTGGATTCCCTGTCTAAAATCGCTGACCAGCTGATCGTCGGCGGCGGTATCGCCAACACCTTCGTTGCCGCTCAGGGCCACAACGTCGGTAAATCCCTGTACGAAGCGGATCTGGTTGATGAAGCCAAGCGCCTGCTGAGCACCTGCGATATCCCGGTTCCGACTGACGTTCGCGTCGCGACCGAGTTCTCCGAAACCGCAACGGCGACTCTGAAATCTGTTAACGACATTAAAGATGACGAGCAGATTCTGGACCTCGGCGACGTTTCCGCACAGAAACTGGCTGACATCCTGAAAAACGCCAAAACCATCCTGTGGAACGGCCCGGTTGGCGTATTCGAATTCCCGAACTTCCGTAAAGGGACTGAAATCGTGGCTAACGCTATCGCGGACAGCGAAGGTTTCTCCATCGCCGGCGGCGGCGACACCCTGGCAGCGATCGACCTGTTCGGCATCGCTGACAAAATTTCCTACATCTCCACTGGCGGCGGCGCGTTCCTTGAATTCGTCGAAGGCAAAGTCCTGCCGGCAGTAGCGATGCTCGAAGAGCGCGCTAAGCAGTAA	MSVIKMTDLDLAGKRVFIRADLNVPVKDGKVTSDARIRASLPTIELALKQGSKVMVTSHLGRPTEGEYNEEFSLLPVVNYLKDKLSSPVRLVKDYLDGVEVAAGELVVLENVRFNKGEKKDDEALSKKYAALCDVFVMDAFGTAHRAQASTHGIGKFADVACAGPLLAAELDALGKALKEPARPMVAIVGGSKVSTKLTVLDSLSKIADQLIVGGGIANTFVAAQGHNVGKSLYEADLVDEAKRLLSTCDIPVPTDVRVATEFSETATATLKSVNDIKDDEQILDLGDVSAQKLADILKNAKTILWNGPVGVFEFPNFRKGTEIVANAIADSEGFSIAGGGDTLAAIDLFGIADKISYISTGGGAFLEFVEGKVLPAVAMLEERAKQ	PGPT0018015_5544	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
BMS020_01862	1029	epd	COG0057	D-erythrose-4-phosphate dehydrogenase	ATGACCATTCGCATCGCGATTAATGGCTTCGGTCGTATTGGACGCAACGTGGTTCGTGCGCTATATGAATCCGGGCGCCGTGCGGAAATCACCGTGGTGGCTATCAATGAGCTGGCGGATGCTGCGGGCATCGCGCATTTGTTGAAATATGACACCAGCCATGGCCGTTTCGCCTGGGATGTTCGTCAGGAGCGCGAGCAGCTGTTTGTTGGCGATGATGCCATCCGTCTGCTGCACGAGCCGACCATTGCGGCGCTGCCCTGGCGCGAGCTGGCGGTAGACGTGGTGCTCGACTGTACCGGCGTTTACGGGAGCCGTGAACACGGTGAGGCGCACCTGCAGGCTGGGGCGAAGAAAGTGCTCTTCTCGCATCCCGGCGGCAACGACCTCGACGCGACGGTGGTGTACGGCGTCAATCAGGATGAACTCCGCGCCGAGCATCGCATTGTCTCCAACGCCTCCTGCACCACCAACTGCATTATTCCGATCATTAAACTGTTAGATGATGCCTATGGCATCGAGTCCGGCACCGTCACCACCATTCACTCGGCGATGCATGACCAGCAGGTGATTGACGCCTACCATCCGGATCTCCGGCGTACCCGCGCGGCCAGCCAGTCGATCATTCCGGTGGATACCAAACTGGCGGCAGGGATCACCCGTATTTTCCCGCAGTTTAATGACCGTTTTGAAGCGATTGCCGTGCGGGTGCCGACGATAAACGTGACGGCAATTGACCTGAGCGTGACGGTCAAAAAACCGGTAAAAGCATGTGAAGTCAACCAGTTGCTGCAAAAAGCAGCACAAGGTGCATTTCATGGTATAGTTGACTATACGGAATTACCGTTGGTCTCAACAGATTTTAACCACGATCCGCACAGCGCCATCGTCGATGGCACGCAAACCCGGGTCAGTGGCGCGCATCTGATCAAAACGCTGGTCTGGTGCGATAACGAATGGGGCTTTGCTAACCGAATGCTCGACACGACGTTAGCGATGGCGGCTATTGGTTTCAGGTTCGACGCGTAA	MTIRIAINGFGRIGRNVVRALYESGRRAEITVVAINELADAAGIAHLLKYDTSHGRFAWDVRQEREQLFVGDDAIRLLHEPTIAALPWRELAVDVVLDCTGVYGSREHGEAHLQAGAKKVLFSHPGGNDLDATVVYGVNQDELRAEHRIVSNASCTTNCIIPIIKLLDDAYGIESGTVTTIHSAMHDQQVIDAYHPDLRRTRAASQSIIPVDTKLAAGITRIFPQFNDRFEAIAVRVPTINVTAIDLSVTVKKPVKACEVNQLLQKAAQGAFHGIVDYTELPLVSTDFNHDPHSAIVDGTQTRVSGAHLIKTLVWCDNEWGFANRMLDTTLAMAAIGFRFDA	PGPT0009145_251	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009145-epd-K03472	NA	NA
BMS020_01863	1992	tktA_1	COG0021	Transketolase 1	ATGTCCTCACGTAAAGAGCTTGCTAACGCTATTCGTGCGCTGAGCATGGACGCTGTACAGAAAGCCAAATCCGGCCACCCGGGTGCCCCGATGGGTATGGCTGACATTGCCGAAGTGCTGTGGCGTGATTTCCTGAACCATAACCCGAACAATCCGGCCTGGGCTGACCGTGACCGTTTTGTACTGTCCAATGGCCATGGTTCGATGCTGATTTACAGCCTGCTGCACCTCACTGGCTACGATCTGCCGATTGAAGAGCTGAAAAACTTCCGCCAGCTGCACTCCAAAACGCCGGGCCACCCGGAAGTCGGCTACACCGCGGGCGTGGAAACCACCACCGGTCCGCTGGGCCAGGGTATCGCTAACGCGGTCGGGATGGCTATCGCCGAGAAAACCCTGGCGGCGCAGTTCAACCGTCCGGGCCACGACATCGTCGACCACTACACCTACGCCTTCATGGGCGACGGCTGCATGATGGAAGGCATTTCTCACGAAGTGTGCTCCCTGGCCGGTACCCTGAAGCTGGGCAAACTGGTGGCCTTCTATGATGACAACGGCATCTCCATCGACGGCCACGTTGAAGGCTGGTTCACCGACGATACCGCCAAACGCTTTGAAGCCTACGGCTGGCACGTGGTGCGCGGCGTTGACGGTCACGACGCTGACGCCATCAAACGCGCAGTAGAAGAAGCGCGCGCGGTCACCGACAAACCGTCCCTGCTGATGTGCAAAACCATCATCGGCTTCGGTTCGCCGAACAAAGCCGGTACCCACGACTCCCACGGCGCGCCGCTGGGCGACGCCGAAATCGCCCTGACCCGCGAAGCGCTGGGCTGGAACCACGCGCCGTTTGACATCCCGTCTGACATCTATGCGCAGTGGGATGCCAAAGAAGCCGGTCAGGCGAAAGAAGCGGCATGGAATGAGAAGTTCGCTGCTTACGCCAAAGCCTTCCCGCAGGAAGCAGCCGAATTCACCCGTCGTATGAAAGGCGAGATGCCGTCTGACTTCGACGCGAAAGCCAACGAGTTCATCGCGAAGCTGCAGGCCAACCCGGCGAAAATCGCCAGCCGTAAAGCCTCTCAGAACGCCATCGAAGCTTTCGGTCCGCTGCTGCCGGAATTCCTCGGCGGTTCCGCTGACCTGGCGCCGTCCAACCTGACCCTGTGGTCTGGTTCTAAGCCGATCAACGAAGACACCGCGGGTAACTACATTCACTACGGCGTGCGTGAGTTCGGTATGACCGCTATCGCCAATGGTATCGCGCTGCACGGCGGCTTCCTGCCGTACACCTCCACCTTCCTGATGTTCGTGGAATACGCGCGTAATGCGGTACGTATGGCCGCGCTGATGAAACAGCGTCAGGTGATGGTCTACACCCACGACTCCATCGGTCTGGGCGAAGATGGCCCGACTCACCAGCCGGTAGAGCAGGTGGCTTCTCTGCGCGTAACGCCGAACATGTCCACCTGGCGTCCGTGTGACCAGGTTGAATCCGCGATTGCGTGGAAATATGGCGTCGAGCGTCAGGACGGCCCGACCGCGCTGATCCTCTCCCGTCAGAACCTGGCGCAGCAGGAGCGTACCGAAGAGCAGCTGGCGAACGTGGCCCGCGGCGGTTACGTGCTGAAAGATTGCGCCGGCCAGCCGGAGCTGATCTTCATCGCCACCGGTTCCGAAGTGGAGCTGGCGGTGGCCGCGTGGGACAAACTGACCGCCGAAGGCGTGAAGGCGCGCGTGGTCTCCATGCCGTCCACCGACGCGTTCGACAAGCAGGATGCGGCCTACCGTGAATCCGTACTGCCGAAAGCCGTGACCGCGCGCGTTGCCGTGGAAGCGGGTATTGCTGATTACTGGTTCAAATACGTTGGCCTGAACGGGGCGATCGTTGGCATGACCACCTTCGGTGAGTCTGCGCCAGCTGAGCAGCTGTTCGAAGAGTTCGGCTTCACCGTCGACAACGTGGTCGCTAAAGCGAAAGCGCTGCTGTAA	MSSRKELANAIRALSMDAVQKAKSGHPGAPMGMADIAEVLWRDFLNHNPNNPAWADRDRFVLSNGHGSMLIYSLLHLTGYDLPIEELKNFRQLHSKTPGHPEVGYTAGVETTTGPLGQGIANAVGMAIAEKTLAAQFNRPGHDIVDHYTYAFMGDGCMMEGISHEVCSLAGTLKLGKLVAFYDDNGISIDGHVEGWFTDDTAKRFEAYGWHVVRGVDGHDADAIKRAVEEARAVTDKPSLLMCKTIIGFGSPNKAGTHDSHGAPLGDAEIALTREALGWNHAPFDIPSDIYAQWDAKEAGQAKEAAWNEKFAAYAKAFPQEAAEFTRRMKGEMPSDFDAKANEFIAKLQANPAKIASRKASQNAIEAFGPLLPEFLGGSADLAPSNLTLWSGSKPINEDTAGNYIHYGVREFGMTAIANGIALHGGFLPYTSTFLMFVEYARNAVRMAALMKQRQVMVYTHDSIGLGEDGPTHQPVEQVASLRVTPNMSTWRPCDQVESAIAWKYGVERQDGPTALILSRQNLAQQERTEEQLANVARGGYVLKDCAGQPELIFIATGSEVELAVAAWDKLTAEGVKARVVSMPSTDAFDKQDAAYRESVLPKAVTARVAVEAGIADYWFKYVGLNGAIVGMTTFGESAPAEQLFEEFGFTVDNVVAKAKALL	PGPT0011200_4359	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
BMS020_01864	696	loiP	COG0501	Metalloprotease LoiP	ATGGACTCCAACGGTCTGCTCAGCTCAGGGGCCGAAGCCTTCCAGGCATACTCCCTCAGCGACGCGCAGGTGAAAACCTTAAGCGACCAGGCCTGTAAAGAGATGGACGCCAAAGCGAAAATCGCCCCGGCCAGCAGTGAATACAGCCAGCGGCTGAACAAAATCGCGGCCGCGCTGGGCGATAACATCAATGGTCAGCCCGTGAACTACAAGGTCTATGAGACCAAGGATGTCAACGCCTTCGCCATGGCCAACGGCTGCATCCGCGTCTACAGCGGGCTGATGGATCTGATGAACGATAATGAAGTCGAGGCGGTGATCGGCCATGAAATGGGCCACGTCGCGCTGGGCCATGTGAAGAAAGGCATGCAGGTCGCCCTGGGCACCAACGCCGTGCGCGCGGCAGCGGCCTCCGCCGGCGGCATCGTCGGCAGCTTGTCCCAGTCGCAGCTCGGCGATCTGGGTGAAAAACTGGTGAACTCGCAGTTCTCCCAGCGCCAGGAATCAGAAGCGGATGACTACTCTTATGACCTGCTGCGTAAGCGCGGCATCAATCCGTCGGGACTGGCCACCAGCTTCGAGAAACTGGCCAAGCTGGAAGCCGGCCGTCAGAGCTCGATGTTTGACGATCACCCGGCCTCAGAAGCGCGCGCCCAGCATATTCGCGATCGCATGAAGGCCGACGGGATTAAATAA	MDSNGLLSSGAEAFQAYSLSDAQVKTLSDQACKEMDAKAKIAPASSEYSQRLNKIAAALGDNINGQPVNYKVYETKDVNAFAMANGCIRVYSGLMDLMNDNEVEAVIGHEMGHVALGHVKKGMQVALGTNAVRAAAASAGGIVGSLSQSQLGDLGEKLVNSQFSQRQESEADDYSYDLLRKRGINPSGLATSFEKLAKLEAGRQSSMFDDHPASEARAQHIRDRMKADGIK				NA	NA	NA	NA	NA
BMS020_01865	1269	oprD		Porin D	GTGAAAAAAGAATTATCATTCATCGCACTTGGCATTATTGCCGCCGCGCCGGCTTTCGCCAGCCAACAATCTACCAGCCAGGGCTTTATTGAAGACAGCCATCTGGATCTCTTTTTACGTAACGCGTATATCAAACGCGATTATCGCGATGGGCTGCCGGATAAAGCCGAATGGGGCCAGGGAATTATCGCCACCTTCGAATCCGGCTTTACCGAGGGACCGGTCGGCTTCGGCGTGGACGGCATCGCCCAGTACGCCGTGCGCCTCGACGGCGGCCGCGGCCGCAGCGGCGCGGGCGGGATCGACTTTTTCGCCCAGGATGACGACGGCCGGGCAAAATCCGACCTCGCGAAATTCGGCGCCACCGGCAAAATGCGCTTTTCGAATACCGTGCTCAGCTACGGCAGTCAGCGCCCGATGTTGCCTATTGTCTACGCCGACGACTCGCGCCTGCTCTACGAGAGCTATACCGGCACCATGCTGACCTCACGCGAAATCGACGGTCTGGAAATTAACGCCGGCTACCTGACCGATCAGCAGCGTAAAAGCGACGACAGCCATAACAGCGGTCTGAAAAGCCTGTCCTTCGGCGGCGCCAGCTACCGGTTCAACGACCAGCTCAGCGGCGCGCTGTACGCGTCGCATGTCGAAGATGTGCTGAACAAACAGTATCTCGGCCTGAACTATCAGCAGCCGTTCGCCGCCAACCAACAACTGGTTCTCGACTTCAACGGCTATCACTCACGCCTGGATCAGCAATATGCCGATGCCAATGACACCGGACGCAGCAACAGTATCTGGAGCCTGGCCGCCAGCTACATCTGGGATATCCATACCTTTAAGGTCGCTTACCAGCAAAGCAGCGGCAGCACCGGCTACCACTACGGCGGCTACCAGAACCAGGGCGGCGTCGGCGATGGCGGGAACACCATCTGGCTGGCCAACTCCTACTGGTCTGATTTTAACGGCGAAGATGAACGCTCCTGGCAGGCATCGTATGGACTGGATTTTGCCGGGCTGGGGCTACCGGGGCTGACCTGGACCACCGCCTACGTGCGCGGGGATAACATTAAAACGTCAGAGACCAGCAACGGCAAAGAACATGAATGGTTCAACCAGGTTCAATACCAGGTGCAAAACGGGGCGGCGAAAGATTTGAAATTCAGGCTCCGCTATTCGGTACTGCGGGTGTCCAGCAACGCCAGCGACTATAACGTCAGCGGTAATGAAGTGCGGTTCTACGTCGAATATCCATTTAACGTGTTTTAA	MKKELSFIALGIIAAAPAFASQQSTSQGFIEDSHLDLFLRNAYIKRDYRDGLPDKAEWGQGIIATFESGFTEGPVGFGVDGIAQYAVRLDGGRGRSGAGGIDFFAQDDDGRAKSDLAKFGATGKMRFSNTVLSYGSQRPMLPIVYADDSRLLYESYTGTMLTSREIDGLEINAGYLTDQQRKSDDSHNSGLKSLSFGGASYRFNDQLSGALYASHVEDVLNKQYLGLNYQQPFAANQQLVLDFNGYHSRLDQQYADANDTGRSNSIWSLAASYIWDIHTFKVAYQQSSGSTGYHYGGYQNQGGVGDGGNTIWLANSYWSDFNGEDERSWQASYGLDFAGLGLPGLTWTTAYVRGDNIKTSETSNGKEHEWFNQVQYQVQNGAAKDLKFRLRYSVLRVSSNASDYNVSGNEVRFYVEYPFNVF	PGPT0028135_243	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028135-oprD-K18093	NA	NA
BMS020_01866	921	speB	COG0010	Agmatinase	ATGAGCACTTTAGGTCATCAATACGATAACTCCCTGGTATCCAATGCCTTTGGCTTCCTGCGTCTACCGATGAATTTCATGCCCTACGACAGCGATGCTGACTGGGTGATCACCGGCGTCCCGTTCGATATGGCGACCTCCGGGCGCGCGGGCGGCCGTCATGGCCCGGCGGCGATCCGTCAGGTTTCCACCAATCTCGCCTGGGAGCACAACCGTTTTCCGTGGAACTTCGACATGCGCGAACGCCTGAACGTGGTTGACTGCGGGGATCTGGTGTACGCCTTCGGCGACGCGCGCGAAATGAGCGAGAAGCTGCAGGCCCACGCCGAGAAGCTGCTGGCGGCCGGCAAGCGCATGCTCTCCTTTGGCGGCGACCACTTCGTTACGCTGCCGCTGCTGCGCGCCCACGCCAAGCACTTCGGTAAAATGGCGCTGGTGCACTTCGATGCCCACACCGACACTTACGCCAACGGCTGCGAGTTCGACCACGGCACCATGTTCTACACCGCGCCGAACGAAGGGCTCATCGATCCGAACCACTCCGTACAGATCGGTATTCGCACCGAATTCGATAAAGATAACGGTTTCACCGTGCTTGATGCGGGCCAGGTTAACGACCGCAGCGTCGATGACGTGATTGCCCAGGTGAAGCAGATCGTTGGCGATATGCCGGTGTACCTGACCTTTGATATCGACTGCCTGGATCCGGCGTTTGCGCCAGGAACCGGTACCCCGGTTATCGGTGGGCTCACCTCTGACCGCGCGATCAAGCTGGTGCGCGGTCTGAAGGATCTGAACATCGTCGGGATGGACGTGGTGGAGGTCGCCCCGGCCTACGATCAGTCCGAAATCACCGCCCTGGCGGCGGCGACCCTCGCGCTGGAGATGCTGTACATCCAGGCGGCGAAGAAGGGCGAATAA	MSTLGHQYDNSLVSNAFGFLRLPMNFMPYDSDADWVITGVPFDMATSGRAGGRHGPAAIRQVSTNLAWEHNRFPWNFDMRERLNVVDCGDLVYAFGDAREMSEKLQAHAEKLLAAGKRMLSFGGDHFVTLPLLRAHAKHFGKMALVHFDAHTDTYANGCEFDHGTMFYTAPNEGLIDPNHSVQIGIRTEFDKDNGFTVLDAGQVNDRSVDDVIAQVKQIVGDMPVYLTFDIDCLDPAFAPGTGTPVIGGLTSDRAIKLVRGLKDLNIVGMDVVEVAPAYDQSEITALAAATLALEMLYIQAAKKGE	PGPT0007775_2186	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
BMS020_01867	1899	speA_1	COG1166	Biosynthetic arginine decarboxylase	ATGAGCTCCCAGGAAGCCAGCAAGATGCTGCGTACTTATAATATTGCCTGGTGGGGCAATAACTATTATGACGTCAACGAACTGGGCCACATCAGCGTTTGCCCGGATCCGGACGTCCCGGAAGCGCGCGTTGACCTCGCTGAATTAGTCAAAGCGCGCGAAGCGCAAGGGCAACGCTTGCCGGCGCTGTTCTGCTTCCCGCAGATCCTGCAGCACCGCCTGCGCTCAATCAACGCCGCATTCAAGCGCGCGCGCGAATCCTACGGCTATAACGGCGATTACTTCCTGGTCTACCCGATCAAGGTGAACCAGCATCGTCGCGTCATCGAATCGTTGATCCATTCCGGCGAGCCGCTGGGTCTGGAAGCCGGTTCGAAAGCGGAACTGATGGCCGTGCTGGCGCACGCCGGGATGACCCGCAGCGTCATCGTCTGTAACGGCTATAAAGACCGCGAATACATCCGCCTGGCGCTGGTGGGCGAGAAGATGGGCCACAAGGTCTATCTGGTCATCGAGAAGATGTCGGAGATCGCCATCGTGCTGGAAGAGGCCGAGCGCCTGAACGTGGTGCCGCGCCTTGGCGTGCGCGCGCGTCTGGCCTCGCAGGGGTCCGGTAAATGGCAGTCTTCCGGCGGCGAGAAGTCCAAGTTCGGCCTCGCGGCGACCCAGGTTCTGCAGCTGGTGGAGATCCTGCGTGCCGCAGGACACCTCGACAGCCTGCAGCTGCTGCACTTCCACCTCGGCTCGCAAATGGCTAACATTCGCGATATCGCCACCGGCGTGCGTGAATCGGCGCGTTTCTACGTCGAGTTGCATAAGCTGGGCGTCAATATCCAGTGCTTCGACGTCGGCGGCGGCCTGGGCGTGGATTACGAAGGCACCCGCTCGCAGTCTGACTGCTCGGTGAACTACGGCCTGAACGAATACGCTAACAATATCATTTGGGCCATCGGCGACGCCTGCGAAGAGAACGGCCTGCCGCACCCGACGGTGATCACCGAGTCCGGCCGCGCGGTGACCGCGCACCACACCGTGCTGGTTTCCAACATCATCGGCGTGGAGCGCAACGAATACACCGAGGCGACCCCGCCGGCGGAAGACGCCGCGCGCCCGCTGCAGAGCATGTGGGAAACCTGGCTGGAGATGCACGAAACCGGCAATCGCCGCTCGCTGCGCGAATGGCTGCACGACAGCCAGATGGACCTGCACGATATCCATATCGGCTACTCCTCCGGCACTTTCAACCTGCAGGAGCGCGCCTGGGCAGAACAGCTGTATCTGAACATGTGTCATGAAGTGCAGAAGCAACTCGACCCGAGCAACCGCGCCCATCGCCCGATTATTGATGAGCTGCAGGAGCGCATGGCGGATAAAATCTACGTCAACTTCTCGCTGTTCCAGTCGATGCCGGATGCGTGGGGGATCGATCAGCTGTTCCCGGTGATGCCGCTGGAAGGGCTGAACAAGTCGCCGGAGCGCCGCGCGGTGCTGCTGGACATCACCTGCGACTCGGATGGCGCCATCGATCACTACGTGGACGGCGACGGGATCGCCACCACCATGCCGATGCCGGAATATGACCCGGAGAACCCGCCGATGCTGGGCTTCTTTATGGTCGGCGCCTATCAGGAAATCCTTGGCAACATGCACAACCTGTTCGGCGATACCGAGGCGGTAGACGTGTTCGTCTTCCCTGACGGTAGCGTTGAGGTTGAGCTGTCCGACGAGGGCGATACCGTGGCGGATATGCTGCAGTACGTGCAGCTGGATCCCAACACGCTGCTGACCCAGTTCCGCGATCAGGTGAAAAACACCGGCCTCGACGACGCGCTGCAGCAGCAGTTCCTCGAAGAGTTCGAGGCGGGTCTGTACGGGTACACTTATCTGGAAGACGAGTAA	MSSQEASKMLRTYNIAWWGNNYYDVNELGHISVCPDPDVPEARVDLAELVKAREAQGQRLPALFCFPQILQHRLRSINAAFKRARESYGYNGDYFLVYPIKVNQHRRVIESLIHSGEPLGLEAGSKAELMAVLAHAGMTRSVIVCNGYKDREYIRLALVGEKMGHKVYLVIEKMSEIAIVLEEAERLNVVPRLGVRARLASQGSGKWQSSGGEKSKFGLAATQVLQLVEILRAAGHLDSLQLLHFHLGSQMANIRDIATGVRESARFYVELHKLGVNIQCFDVGGGLGVDYEGTRSQSDCSVNYGLNEYANNIIWAIGDACEENGLPHPTVITESGRAVTAHHTVLVSNIIGVERNEYTEATPPAEDAARPLQSMWETWLEMHETGNRRSLREWLHDSQMDLHDIHIGYSSGTFNLQERAWAEQLYLNMCHEVQKQLDPSNRAHRPIIDELQERMADKIYVNFSLFQSMPDAWGIDQLFPVMPLEGLNKSPERRAVLLDITCDSDGAIDHYVDGDGIATTMPMPEYDPENPPMLGFFMVGAYQEILGNMHNLFGDTEAVDVFVFPDGSVEVELSDEGDTVADMLQYVQLDPNTLLTQFRDQVKNTGLDDALQQQFLEEFEAGLYGYTYLEDE	PGPT0007770_264	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
BMS020_01868	1155	metK_1	COG0192	S-adenosylmethionine synthase	ATGGCAAAACACCTTTTTACGTCTGAGTCCGTATCAGAAGGGCATCCTGACAAAATTGCTGACCAAATCTCCGATGCCGTGCTGGATGCGATCCTCGAGCAGGATCCGAAAGCGCGTGTCGCATGTGAAACCTATGTCAAAACTGGCATGGTGCTGGTAGGCGGCGAAATCACCACCAGCGCATGGGTTGACATCGAAGAGATCACCCGCAACACCGTCCGCGAAATTGGCTACGTGCATTCCGATATGGGCTTTGACGCCAACTCGTGTGCCGTACTGAGCGCCATTGGTAAACAGTCTCCGGACATCAACCAGGGCGTTGACCGTGCCGATCCGCTGGAACAGGGCGCAGGCGACCAGGGGCTGATGTTTGGCTACGCCACCAACGAAACCGACGTGCTGATGCCGGCGCCGGTGACCTACGCTCACCGTCTGGTGCAGCGCCAGGCTGAAGTACGTAAAAACGGCACCCTGCCGTGGCTGCGTCCGGATGCGAAAAGCCAGGTGACCTTCCAGTATGACGACGGCAAAATCGTCGGCATCGACGCGGTGGTGCTGTCCACGCAGCACGCGGAAGATATCGACCAGAAATCGCTGCAGGAAGCGGTGATGGAAGAGATCATCAAACCGATACTGCCAACCGAATGGCTGAGCGCCTCCACTAAATTCTTCATCAACCCAACCGGCCGTTTCGTTATCGGCGGCCCGATGGGCGACTGCGGTCTGACCGGTCGTAAGATCATCGTCGATACCTACGGCGGCATGGCTCGTCACGGCGGCGGCGCCTTCTCCGGTAAGGATCCATCTAAAGTTGACCGTTCCGCAGCCTATGCGGCGCGCTATGTGGCGAAAAACATCGTTGCCGCAGGCCTGGCTGACCGTTGCGAAATTCAGGTTTCCTACGCCATCGGCGTTGCAGAGCCGACTTCCATCATGGTGGAAACCTTTGGTACAGAAAAAGTGCCTTCTGAACAGCTGACCCTGCTGGTGCGCGAGTTCTTCGACCTGCGTCCGTACGGCCTGATTCAGATGCTGGATCTGCTGCACCCGATCTACAAAGAAACCGCTGCCTACGGTCACTTTGGTCGCGAACATTTCCCATGGGAAAAAACCGACAAAGCGGCCCTGCTGCGCGAAGCGGCTGGTCTGAAATAA	MAKHLFTSESVSEGHPDKIADQISDAVLDAILEQDPKARVACETYVKTGMVLVGGEITTSAWVDIEEITRNTVREIGYVHSDMGFDANSCAVLSAIGKQSPDINQGVDRADPLEQGAGDQGLMFGYATNETDVLMPAPVTYAHRLVQRQAEVRKNGTLPWLRPDAKSQVTFQYDDGKIVGIDAVVLSTQHAEDIDQKSLQEAVMEEIIKPILPTEWLSASTKFFINPTGRFVIGGPMGDCGLTGRKIIVDTYGGMARHGGGAFSGKDPSKVDRSAAYAARYVAKNIVAAGLADRCEIQVSYAIGVAEPTSIMVETFGTEKVPSEQLTLLVREFFDLRPYGLIQMLDLLHPIYKETAAYGHFGREHFPWEKTDKAALLREAAGLK	PGPT0020000_5980	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
BMS020_01869	1395	galP_1		Galactose-proton symporter	ATGCCTGACAACAAAAAACAAGGGCGTTCAAACAAGACCATGACGTTCTTCGTCTGTTTCCTCGCCGCGCTGGCTGGCCTGCTGTTCGGCCTTGATATCGGTGTTATTGCGGGTGCGTTACCCTTTATTGCCAATGAGTTCCAGATTTCCGCTCACACTCAGGAGTGGGTGGTCAGCTCCATGATGTTCGGCGCCGCCGTCGGTGCGGTCGGCAGCGGCTGGCTCTCCTTCAAACTGGGCCGTAAAAAGAGCCTGATGATCGGCGCCATCCTCTTCGTCGCCGGCTCTCTGTTCTCCGCCGCTGCGCCAAACGTCGAGATCCTGCTGGTTTCCCGCGTGCTGCTGGGCCTGGCGGTGGGCGTCGCCTCCTACACCGCGCCGCTGTATCTGTCGGAAATCGCTCCGGAGAAAATTCGCGGCAGTATGATTTCCATGTACCAGCTGATGATCACCATCGGTATTCTTGGCGCCTACCTCTCCGACACCGCTTTCAGCTACAGCGGCGCATGGCGCTGGATGCTCGGCGTAATCATTATTCCGGCGGTATTGCTGCTGTTCGGCGTTATCTTCCTGCCGGACAGCCCGCGCTGGTTCGCCGCTAAACGTCGCTTTGTCGATGCCGAGCGCGTGCTGCTGCGCCTGCGCGATACCAGCGCCGAAGCGAAACGCGAACTCGACGAGATCCGCGAAAGCCTGAAGGTAAAACAGTCCGGCTGGTCGCTGTTTAAAGACAACAGCAACTTCCGCCGCGCGGTGTTCCTCGGCATTCTGCTGCAGGTGATGCAGCAGTTCACCGGGATGAACGTCATCATGTACTACGCGCCGAAGATCTTTGAGCTGGCGGGCTATGCCAACACCACCGAGCAGATGTGGGGGACGGTGATCGTCGGCCTGACTAACGTGCTGGCTACCTTTATCGCCATCGGTCTGGTCGACCGCTGGGGCCGTAAACCGACGCTGATCCTTGGCTTTATCGTCATGGCCGCGGGGATGGGCGTGCTGGGCAGCATGATGCACATCGGCATTCACTCCTCAACCGCCCAGTACATCGCCGTCCTGATGCTGCTGATGTTTATCGTCGGTTTCGCCATGAGCGCCGGCCCGCTGATTTGGGTACTGTGTTCCGAAATCCAGCCGCTGAAAGGCCGCGACTTCGGTATCACCTGCTCCACAGCGACCAACTGGATTGCCAACATGATTGTCGGGGCTACCTTCCTGACCATGCTCAATTCGCTGGGCAGCGCCAACACCTTCTGGGTGTACGGCGGTCTGAACGTGCTGTTTATCCTGCTGACGCTGTGGCTGATCCCGGAAACCAAAAACGTCTCGCTGGAACATATCGAACGCAACCTGATGCAGGGTCGTCCGCTGCGCGAGATCGGCGCCCGCGATTAA	MPDNKKQGRSNKTMTFFVCFLAALAGLLFGLDIGVIAGALPFIANEFQISAHTQEWVVSSMMFGAAVGAVGSGWLSFKLGRKKSLMIGAILFVAGSLFSAAAPNVEILLVSRVLLGLAVGVASYTAPLYLSEIAPEKIRGSMISMYQLMITIGILGAYLSDTAFSYSGAWRWMLGVIIIPAVLLLFGVIFLPDSPRWFAAKRRFVDAERVLLRLRDTSAEAKRELDEIRESLKVKQSGWSLFKDNSNFRRAVFLGILLQVMQQFTGMNVIMYYAPKIFELAGYANTTEQMWGTVIVGLTNVLATFIAIGLVDRWGRKPTLILGFIVMAAGMGVLGSMMHIGIHSSTAQYIAVLMLLMFIVGFAMSAGPLIWVLCSEIQPLKGRDFGITCSTATNWIANMIVGATFLTMLNSLGSANTFWVYGGLNVLFILLTLWLIPETKNVSLEHIERNLMQGRPLREIGARD	PGPT0014445_364	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALATOSE_TRANSPORT,PGPT0014445-galP-K08137	NA	NA
BMS020_01870	459	sprT		Protein SprT	ATGCGCAGCCTACGGGAGCATCTCGCCAAAGCGAACCTCAAGCTGGAACGCCGCTACGCGGAGCCGACGCTGGTCTACCAGCAGCGCGGTACCTCCGCCGGCACCGCCTGGCTGGAGAAAAACGAAATTCGTTTAAACCCGGTGCTGCTGCTGGAGAATCAGCAGGAGTTTATCGATGAAGTGGTGCCCCATGAGCTGGCGCACCTGCTGGTGTGGCAACACTTTGGCCGGGTAGCCCCGCATGGCAAAGAGTGGAAATGGATGATGGAGAGCGTCCTGGGCGTTCCCGCGCGTCGCACCCACCGTTTTGAACTTGATTCGGTCCGCCAGAATACCTTCCCCTACCGCTGCCGCTGCCAGCAGCACCAGCTCACCGTTCGTCGCCATAACCGGGTGGTGCGCGGCGATGCCACTTACCGCTGCGTGCGCTGCGGCGATCTGCTGGTGGCTGAAAAATAA	MRSLREHLAKANLKLERRYAEPTLVYQQRGTSAGTAWLEKNEIRLNPVLLLENQQEFIDEVVPHELAHLLVWQHFGRVAPHGKEWKWMMESVLGVPARRTHRFELDSVRQNTFPYRCRCQQHQLTVRRHNRVVRGDATYRCVRCGDLLVAEK				NA	NA	NA	NA	NA
BMS020_01871	708	endA	COG2356	Endonuclease-1	ATGTCCCGTATGCATGTTTTAGCCGTTGCAGTATTGTGCACGGCAGTGAGTGGCCCGCTTGCGGCCGCCGAAATTACCAGCTTTTCCCAGGCCAAGGCCGCTGGCGTCAAAGTAAACGCCGACGTTCCCGGCGACTTTTACTGCGGCTGTAAAATTGACTGGCAGGGTAAAAAAGGCGTTATCGATCTGGAATCTTGCGGCTATAAAGTGCGTAAAAATGAGAACCGCGCCAGCCGGGTTGAGTGGGAACACGTGGTGCCGGCGTGGCAGTTCGGCCATCAGCGCCAGTGCTGGCAGGAGGGTGGACGTAAAAACTGCGCCAAAGATCCGGAGTACCGCAAGATGGAAAGCGACATGCACAATCTGCAGCCGGCGGTGGGAGAAGTGAATGGCGATCGCGGCAACTTTATGTACAGCCAGTGGAACGGCGGTGAAGGCCAGTACGGCCAGTGCACCATGAAGGTCGATTTTAAAGATAAAATCGCCGAGCCCCCTGCCCGCGCACGCGGCGCCATCGCCCGCACCTACTTCTATATGCGCGACCGCTACCAGCTGAATCTTTCCCGCCAGCAAACTCAGCTGTTTACCGCCTGGAATAAACAGTACCCGGTCACCGCCTGGGAGTGTGAACGCGATGAACGCATCGCGAAAGTACAGGGCAACCATAATCCGTATGTCCTGCAGGCTTGCCAGGCGCAAAAGAGCTAA	MSRMHVLAVAVLCTAVSGPLAAAEITSFSQAKAAGVKVNADVPGDFYCGCKIDWQGKKGVIDLESCGYKVRKNENRASRVEWEHVVPAWQFGHQRQCWQEGGRKNCAKDPEYRKMESDMHNLQPAVGEVNGDRGNFMYSQWNGGEGQYGQCTMKVDFKDKIAEPPARARGAIARTYFYMRDRYQLNLSRQQTQLFTAWNKQYPVTAWECERDERIAKVQGNHNPYVLQACQAQKS				NA	NA	NA	NA	NA
BMS020_01872	732	rsmE_1	COG1385	Ribosomal RNA small subunit methyltransferase E	ATGCGCATTCCTCGCATCCATCATCCAGAACGCCTCATTGTCGGCAGCCTGATCGCGTTGAGCGATGACGCGGCCAACCACGTCGGCCGCGTCCTGCGCATGACCGCTGGTCAGCACCTTCAGCTCTTCGACGGCAGTAACCAGGTGTTTGACGCCGTCATCACCGAGGCCGGTAAGAAAAACGTCGCGGTTGAAGTCCTCAGTGGCGAACCCGACGATCGGGAATCGCCGCTGCATATCCATTTAGGCCAGGTGATGTCCCGCGGCGAAAAAATGGAATTCACCATCCAGAAATCGATCGAACTCGGGGTAAGCCTCATAACGCCACTGTTTTCCGAGCGCTGCGGCGTTAAACTGGACGCCGAACGTTTGCAGAAAAAGATCCAGCAGTGGCAGAAAATCGCTATTGCCGCCTGCGAACAGAGCGGTCGTAATGTGGTACCGGAAATTCGTCCGGCGATGCAGCTGGAGGAGTGGTGCGCCGAGCAGGACAGCGGGCTGAAGCTCAACCTGCACCCGCGCGCCAGCGCCAGCATTAACACGCTGCCGCTGCCGGTTGAACGCGTCCGTCTGCTGATTGGCCCGGAAGGCGGGCTGTCGGCTGAAGAGATAGCGATGACCGCGAAATACCAGTTTACTGATATCCTGTTGGGACCGCGCGTTCTGCGTACAGAGACTACTGCGCTCACCGCCATCACCGCCCTGCAGGTGCGTTTTGGCGACTTAGGTTGA	MRIPRIHHPERLIVGSLIALSDDAANHVGRVLRMTAGQHLQLFDGSNQVFDAVITEAGKKNVAVEVLSGEPDDRESPLHIHLGQVMSRGEKMEFTIQKSIELGVSLITPLFSERCGVKLDAERLQKKIQQWQKIAIAACEQSGRNVVPEIRPAMQLEEWCAEQDSGLKLNLHPRASASINTLPLPVERVRLLIGPEGGLSAEEIAMTAKYQFTDILLGPRVLRTETTALTAITALQVRFGDLG				NA	NA	NA	NA	NA
BMS020_01873	951	gshB_1	COG0189	Glutathione synthetase	ATGATCAAGCTCGGCATCGTGATGGATCCCATCGCAACCATCAACATCAAGAAAGACACCAGCTTCGCTATGTTGCTGGAGGCGCAGCGTCGCGGCTATGAACTCCATTATATGGAGATGAACGATCTCTATTTGATCAACGGCGAAGCCCGCGCCCGGACGCGCACGCTGAGCGTCGAACAGAACTACGACAAATGGTATGACTTCACCGGCGAACAGGACCTGCCGCTGGCGGATCTTGACGTCATTCTGATGCGTAAGGATCCGCCGTTTGATACCGAATTTATTTATGCGACCTATATTCTGGAGCGAGCGGAAGAGAAAGGCACGCTTATCGTCAACAAGCCGCAGAGCCTGCGCGACTGTAACGAGAAGCTGTTCACCGCCTGGTTCTCCGAGCTGACCCCGGAAACGCTGGTCACCCGCAATAAAGCCCAGCTGAAAGCCTTCTGGGAAAAGCACGGCGATATCATCATGAAGCCGCTCGACGGCATGGGCGGCGCCTCTATTTTCCGCGTCAAAGCCGGCGATCCGAACCTTGGGGTGATCGCCGAGACGCTGACCGAGCTGGGCAGCCGCTACTGCATGGCGCAGAACTATCTGCCAGCCATTAAAGATGGCGACAAGCGCGTGCTGGTGGTGGATGGCGAGCCGGTGCCTTACTGCCTGGCGCGCATTCCGCAGGGCGGCGAGACCCGCGGCAATCTGGCCGCCGGCGGCCGCGGCGAAGCTCGCCCGCTAACCGAAAGCGACTGGGACATCGCCCGCCGCGTCGGCCCGACGCTGAAGGCCAAAGGTCTTATCTTCGTCGGCCTGGATATCATCGGCGACCGTCTGACGGAGATTAACGTCACCAGCCCCACCTGCGTACGTGAGATCGAAGCCGCCTTCCCGGATATTTCGATCACCGGCATGCTGATGGACGCTATCGAAAGACGTCTCGCCCGATAA	MIKLGIVMDPIATINIKKDTSFAMLLEAQRRGYELHYMEMNDLYLINGEARARTRTLSVEQNYDKWYDFTGEQDLPLADLDVILMRKDPPFDTEFIYATYILERAEEKGTLIVNKPQSLRDCNEKLFTAWFSELTPETLVTRNKAQLKAFWEKHGDIIMKPLDGMGGASIFRVKAGDPNLGVIAETLTELGSRYCMAQNYLPAIKDGDKRVLVVDGEPVPYCLARIPQGGETRGNLAAGGRGEARPLTESDWDIARRVGPTLKAKGLIFVGLDIIGDRLTEINVTSPTCVREIEAAFPDISITGMLMDAIERRLAR	PGPT0013040_1436	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013040-gshB-K01920	NA	NA
BMS020_01874	564			hypothetical protein	ATGAATTTACAGCATCACTTTCTGATTGCCATGCCTGCGCTTCAGGACCCCATTTTCCGCCGCTCCGTGGTCTATATCTGCGAGTATAACGACGAGGGTGCCATGGGCATTATTATCAATAAGCCGCTGGAAAATCTGCAGGTGGAAGGGATCCTTGAGAAGCTCAAAATTGTCCCGGAGCCGCGTAATCCGGAGATCCGCCTGGATAAACCGGTGATGCTGGGCGGCCCGCTGGCGGAAGACCGCGGCTTTATTTTACATACCCCGCCCTCTGACTTTTCCTCAAGCATCCGTATCTCGGATAACACGGTGATCACCACCTCGCGGGATGTCCTCGAAACCTTAGGCACCGACCGGCAGCCGGGCAACGTGCTGGTTGCGCTGGGCTACTCCTCGTGGGAGAAAGGGCAGCTGGAGCAGGAGATTTTAGATAATGCCTGGCTCACCGCCCCGGCGGACCAGAATATTCTTTTCCGTACGCCCATCGCCGATCGCTGGCGCGAGGCGGCTAAACTGATTGGCATCGACATCGTGACGATGCCAGGCGTCGCGGGGCATGCATGA	MNLQHHFLIAMPALQDPIFRRSVVYICEYNDEGAMGIIINKPLENLQVEGILEKLKIVPEPRNPEIRLDKPVMLGGPLAEDRGFILHTPPSDFSSSIRISDNTVITTSRDVLETLGTDRQPGNVLVALGYSSWEKGQLEQEILDNAWLTAPADQNILFRTPIADRWREAAKLIGIDIVTMPGVAGHA	PGPT0026120_1715	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026120-algH-K07735	NA	NA
BMS020_01875	420	yqgF_1	COG0816	Putative pre-16S rRNA nuclease	ATGATGAGCGGAACCTTTCTCGGCTTTGATTTCGGGACGAAAAGCATCGGTGTGGCGGTGGGGCAACGCATCACCGCCACCGCCCGGCCACTGCCGGCGCTGAAGGCGCAGGACGGTAAACCGGACTGGAATATCATCGAAAAACTGCTTAAGGAGTGGCAGCCTGAGGCGGTGATCGTCGGCCTGCCGCTGAATATGGACGGCACCGAGCAACCGCTGACGGCGCGCGCACGTAATTTCGCCAATAAAATTCATGGCCGCTTTGGCGTCGCGATCCTTCTCCACGATGAACGTCTGAGTACGGTTGAGGCCCGGGCGGGCCTGTTCGAACACGGCGGCTATCGGGCGCTGAATAAAGGCAGCGTCGATTCGGCCTCTGCGGTGGTCATTCTGGAAAGCTACTTCGAGCAGAGCTTTTAA	MMSGTFLGFDFGTKSIGVAVGQRITATARPLPALKAQDGKPDWNIIEKLLKEWQPEAVIVGLPLNMDGTEQPLTARARNFANKIHGRFGVAILLHDERLSTVEARAGLFEHGGYRALNKGSVDSASAVVILESYFEQSF				NA	NA	NA	NA	NA
BMS020_01876	654	csgD	COG2771	CsgBAC operon transcriptional regulatory protein	GTGATTAATTTAAATGGAAATTCATCATCTTCTCGTCAGGTTACATTTATTACCCACCCGTCAATCCAGAGTAAAGCCTTTGCCAGCTATCTCAGCGAAACCCTGATGGCACCGGTAGTTTTACAAAATATTAATAAACCGCTGGCGCAGCGACTGGTGAAAGACTCTGTAATATTATTTGATATCGCCGTTTCAAATAAGAAATTAAACGGGGTGTGGCGAGATATTATTCGGCTGCAGTCAGATAATCCCCGCTTGCTGATTATCAACAGCGCGCAAAAGTATGAGTTATACGAAATGGCGCAGTGGCCGGCTTTATATGGCGTGTTCCGCCATGACGATGATGAATCGCGCTTAATTGAGGGCGTCAAGGCCGTGCTGAACGGCGAACAGACGGCTGAATTGAGCGTGATGCACCCGGCGATGTACGCTGCGGACCATACATCGGCGCCGGTTGAAAACTCGCCGCTGACCGAACGAGAATGCGAGATCCTCAACGAACTGCGCTGCGGCGCGACCAACCTGGATATTGCCCGCGCGCTGTTTATCAGCGAGAACACGGTGCGGACGCACCTGTATAACGTGTTCCGTAAGCTGAGCGTTAAGAATCGCACCCAGGCGGTGAGCTGGGCTAACGAACATCTGCGCCACTAG	MINLNGNSSSSRQVTFITHPSIQSKAFASYLSETLMAPVVLQNINKPLAQRLVKDSVILFDIAVSNKKLNGVWRDIIRLQSDNPRLLIINSAQKYELYEMAQWPALYGVFRHDDDESRLIEGVKAVLNGEQTAELSVMHPAMYAADHTSAPVENSPLTERECEILNELRCGATNLDIARALFISENTVRTHLYNVFRKLSVKNRTQAVSWANEHLRH	PGPT0014695_24	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-OXYGEN_AVAILABILITY_SIGNALLING,PGPT0014695-csgD-K04333	NA	NA
BMS020_01877	981	yggR	COG2805	putative protein YggR	ATGAAGCTGGAAGAAATCGTAGCCCTTAGTGTAAAGCATAATGTCTCCGATCTACACCTGTGCAATTCCGCCGCACCGCGCTGGCGGCGGCAGGGCAAGCTGGAGGCCGCTCCCTTTCCCGCGCCGGATATCGCGGATTTACTCAACGACTGGCTCGATGCCGCACAGTTCCAGCACTGGCAGGAGCACGGCCAGATTGACTTTGCGCTGACTCTGGCCTGCGGTTCGCGGCTACGCGCCAGCGCTTTCGCCCATACGCGCGGAATATCGCTGGTGCTGCGTCTGCTGCCCGTTCAGTGCCCGCGTTTGGAGACGCTGGGCGCGCCGCCTGCGCTAAGCGAGCTGCTGGCGGAAGAGAGTGGCTTGCTGCTGGTCACCGGGGCGACGGGCAGCGGCAAGTCGACTACCCTGGCGGCGATGGTCGGGCATCTCAACCAGCATCTTAATGGCCATATTCTGACGCTGGAGGATCCGGTGGAGTTTATTCATCACAGCGAGCGCTGCCTGATCCAGCAGCGGGAGATTGGCCGTCACTGTCCTTCGTTCTCCGCGGCGCTTCGGGTGGCGCTGCGCCAGGATCCGGATGTGATCCTGCTTGGGGAGTTACGCGACAGCGAAACCATCCGTCTGGCGTTGACGGCTGCGGAAACCGGGCATCTGGTGATGGCGACATTACACACCCGCGGCGCGGCGCCGGCGGTGGAGAGATTGATCGATGTCTTTCCGGCAGAGGAGAAAGATCAGGTTCGGAGTCAGCTGGCCGGAAGCCTGTGCGCGGTGCTGGCGCAAAAATTATTACCCGCACGTCAGGGCGGCAGAGTTGCGCTATACGAGCTTCTGGTCAATACGCCGGCGGTGGCGAATTTGATCCGCGAAGGAAAAGTGCACCAGCTGCCCGGTGTAATGCAGACCGGGATGCAGGCCGGAATGCTGACATTTACCCAGAGTTTTCAGCAACGTGTGGCCACAGGCCAGCTGTAA	MKLEEIVALSVKHNVSDLHLCNSAAPRWRRQGKLEAAPFPAPDIADLLNDWLDAAQFQHWQEHGQIDFALTLACGSRLRASAFAHTRGISLVLRLLPVQCPRLETLGAPPALSELLAEESGLLLVTGATGSGKSTTLAAMVGHLNQHLNGHILTLEDPVEFIHHSERCLIQQREIGRHCPSFSAALRVALRQDPDVILLGELRDSETIRLALTAAETGHLVMATLHTRGAAPAVERLIDVFPAEEKDQVRSQLAGSLCAVLAQKLLPARQGGRVALYELLVNTPAVANLIREGKVHQLPGVMQTGMQAGMLTFTQSFQQRVATGQL	PGPT0015875_2650	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015875-pilT-K02669	NA	NA
BMS020_01878	702	yggS_1	COG0325	Pyridoxal phosphate homeostasis protein	ATGAACGATATTGCGCATAACCTGGCACAGGTCCGGGACAAAATCTCCGGTGCCGCCGCCCGTTGCGGGCGTGCGCCAGAAGAAGTGACATTGCTTGCAGTGAGTAAAACGAAACCTGCGAGCGCGATCGAAGAAGCCATCGCGGCAGGCCAGCGGGCATTTGGTGAAAACTACGTCCAGGAGGGCGTGGAGAAGATTAACCATTTCCAGCAGGCAGGCGTCAGCGGTCTGCAGTGGCACTTTATTGGCCCCCTGCAGTCCAACAAAAGCCGGCTGGTGGCCGAACATTTTGACTGGTGCCACACCGTCGATCGGTTGAAAATCGCCACCCGCCTGAACGAGCAGCGCCCGGCGCATTTGCCGCCGCTGAAGGTACTGATTCAAATCAACATTAGCGATGAGCAGAGTAAATCCGGCATCCCGCTGGAAGCGCTCGATGCTTTAGCGGCGGAGATCGCTGAGTTACCTCATCTGGAGCTGCGCGGCCTGATGGCGATCCCCGCGCCTGAGTCAGAATATGTAAGGCAGTTTGCCGTCGCCCAGCAAATGGCGGTAGCATTTGCGCGGTTAAAAACGCGGTACCCCACGGTCGATACGTTGTCTCTGGGAATGTCGGACGATATGGAAGCCGCTATCGCGGCGGGAAGCACAATGGTGCGCATCGGCACGGCCATTTTTGGTGCGCGCGACTACAGCAAATAA	MNDIAHNLAQVRDKISGAAARCGRAPEEVTLLAVSKTKPASAIEEAIAAGQRAFGENYVQEGVEKINHFQQAGVSGLQWHFIGPLQSNKSRLVAEHFDWCHTVDRLKIATRLNEQRPAHLPPLKVLIQINISDEQSKSGIPLEALDALAAEIAELPHLELRGLMAIPAPESEYVRQFAVAQQMAVAFARLKTRYPTVDTLSLGMSDDMEAAIAAGSTMVRIGTAIFGARDYSK				NA	NA	NA	NA	NA
BMS020_01879	567			hypothetical protein	ATGAAGACGTTGACTTTCCTGCTTTCAACGGTCATTGAGCTTTACACGATGGTCGTGTTGTTACGCGTCTGGATGCAGTGGGCGCGCTGCGACTTTTACAACCCGTTTTCGCAGTTTGTGGTAAAAGCCACGCAGCCGATTGTCGGGCCGCTGCGCCGGATTATCCCGGCAATGGGGCCGATTGACAGCGCCTCGCTGCTGGTGGCATTCATCCTCTGCGTCATCAAAGCGATCGTACTGTTTATGGTGATCACCTTCCAGCCGATCATCTGGATCTCCGCTCTGCTTATTCTGCTGAAAACCATCGGCTCGCTGATCTTCTGGGTGCTCCTGCTGATGGCGATCATGAGCTGGGTCAGCCAGGGACGCAGCCCGGTGGAATATGTGCTGATGCAGCTGGCGGACCCGCTGCTGCGCCCTATCCGCAACCTGCTGCCGTCGATGGGCGGTATCGATTTCTCACCGATGGTGCTGGTGCTGCTGCTGTACGTGATCAATATGGGTATCGCCGAGGTGCTGCAGGCCACCGGTAACGTACTGCTGCCGGGGCTGTGGATGGCGCTATGA	MKTLTFLLSTVIELYTMVVLLRVWMQWARCDFYNPFSQFVVKATQPIVGPLRRIIPAMGPIDSASLLVAFILCVIKAIVLFMVITFQPIIWISALLILLKTIGSLIFWVLLLMAIMSWVSQGRSPVEYVLMQLADPLLRPIRNLLPSMGGIDFSPMVLVLLLYVINMGIAEVLQATGNVLLPGLWMAL	PGPT0013730_594	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
BMS020_01880	291			hypothetical protein	ATGAGTGCCGTTGAAAGCTGCGCTGACGGGCTGGTGCTGAGGCTGTATATTCAGCCGAAAGCCAGCCGCGACAGCATCGTGGGCGAGCATGGCGACGAGCTCAAAGTCGCCATTACCGCCCCGCCCGTTGATGGCCAGGCCAATGCCCATCTGGTGAAATTTCTCGCCAAACAGTTCCGCGTCGCCAAAAGCCAGGTACTGATTGAAAAAGGCGAGCTGGGCCGCCATAAGCAAGTTAAAATCATCGCCCCACAACAGATCCCGACTGCGGTCGCGGCGCTAACTGAATAA	MSAVESCADGLVLRLYIQPKASRDSIVGEHGDELKVAITAPPVDGQANAHLVKFLAKQFRVAKSQVLIEKGELGRHKQVKIIAPQQIPTAVAALTE				NA	NA	NA	NA	NA
BMS020_01881	594	rdgB_1	COG0127	dITP/XTP pyrophosphatase	ATGCAAAAAGTCGTCCTCGCTACTGGCAACGCCGGTAAAGTGCGCGAACTGGCCTCGCTGCTGGAAGATTTTGGTCTCGATATCGTCGCTCAGACCGAGCTGGGCGTCGAGTCTGCGGAAGAGACCGGCCTGACCTTTATTGAAAACGCGATTCTGAAGGCGCGTCATGCGGCGCAGATCACCGGCCTGCCGGCTATCGCCGACGATTCCGGTCTGGCCGTCGATGCCCTGGGCGGCGCGCCGGGCATCTACTCCGCCCGCTATGCCGGCGTCGACGCCAGCGACCAGCAGAACCTTGAGAAACTGCTCGACGCCCTGCAGGACGTGCCGGACGACCAGCGCCAGGCGCAATTCCACTGCGTACTGGTCTATCTGCGCCATGCCGAGGATCCCACGCCGCTGGTGTGCCACGGCAGCTGGCCTGGGGTGATCGCCCGGAAAGCCGCGGGTCAGGGCGGTTTCGGCTACGATCCGATCTTCTTCGTCCCGTCAGAAGGAAAAACTGCGGCCGAACTGAGCCGTGAAGAAAAGAGCGCTATTTCCCATCGCGGGCAGGCGCTGAAATTGTTACTGGAAGCATTACGTAATGGCTAA	MQKVVLATGNAGKVRELASLLEDFGLDIVAQTELGVESAEETGLTFIENAILKARHAAQITGLPAIADDSGLAVDALGGAPGIYSARYAGVDASDQQNLEKLLDALQDVPDDQRQAQFHCVLVYLRHAEDPTPLVCHGSWPGVIARKAAGQGGFGYDPIFFVPSEGKTAAELSREEKSAISHRGQALKLLLEALRNG	PGPT0021590_4507	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
BMS020_01882	1137	hemW_1	COG0635	Heme chaperone HemW	ATGGCTAATTTGCCGCCGCTGAGTCTCTATATCCATATTCCCTGGTGCGTGCAGAAATGCCCGTACTGCGACTTTAATTCGCATGCGCTGAAAGGCGAAGTGCCGCACGATGACTACGTCCAGCATCTGCTGAACGATCTGCGGGCCGATGCGCAGTATGCCCAGGGACGGGAAATAGGCACCATTTTTATCGGCGGCGGTACGCCGAGCCTGCTGTCCGGCCCGGCCATGCAAACCCTGCTCGATGGCGTCCGCGCCTGCCTGCCGCTGGCCGCCCGGGCGGAAATCACCATGGAAGCCAACCCGGGCACCGTGGAGGCCGATCGCTTCGTTGATTACCAGCGCGCCGGGGTGAATCGCATCTCCATCGGCGTACAAAGCTTTAGCGAACCGAAGCTGCAGCGGCTGGGGCGGATCCACGGCCCGGAAGAGGCCAAACGCGCGGCACGCCTCGCCAGCGGCCTGGGCCTGCGCAGTTTCAATCTCGACCTGATGCACGGTTTGCCGGACCAGTCTCTGGAGGAGGCGCTGGACGATCTGCGTCAGGCCATTGCTCTCAACCCGCCGCATCTCTCGTGGTACCAGCTGACCATTGAGCCGAACACCTTGTTCGGCTCCCGGCCGCCGGTGCTGCCGGATGACGACGCGCTATGGGATATTTTCGAGCAGGGGCATCAGCTGCTGAACGCCGCCGGCTACCAGCAGTACGAGACTTCCGCTTACGCCAAACCGGGCTATCAGTGTCAGCATAATCTCAATTACTGGCGCTTTGGCGACTACCTTGGCATCGGCTGCGGCGCGCACGGCAAGATAACCTTCCCGGACGGGCGCATTCTGCGTACCGCCAAAACTCGCCACCCGCGCGGCTATATGGAAGGCCGCTACCTCGAACGTCAGCATGATGTGGAAGAGGCGGATAAACCGTTTGAGTTCTTTATGAACCGTTTTCGCCTGCTGGAGGCCGCGCCGCGCGCGGAATTCCGCCGTTATACCGGTCTTGATGAAGCGGCGATCCGTCCGCAGCTGGACGCGGCGATAGCTCAGGGCTATCTGCAGGAAGACGAGCAGAACTGGCAGATCACCGAGCATGGAAAGCTGTTTTTAAATTCTCTTCTCGAACTATTCCTTAGCGAATAA	MANLPPLSLYIHIPWCVQKCPYCDFNSHALKGEVPHDDYVQHLLNDLRADAQYAQGREIGTIFIGGGTPSLLSGPAMQTLLDGVRACLPLAARAEITMEANPGTVEADRFVDYQRAGVNRISIGVQSFSEPKLQRLGRIHGPEEAKRAARLASGLGLRSFNLDLMHGLPDQSLEEALDDLRQAIALNPPHLSWYQLTIEPNTLFGSRPPVLPDDDALWDIFEQGHQLLNAAGYQQYETSAYAKPGYQCQHNLNYWRFGDYLGIGCGAHGKITFPDGRILRTAKTRHPRGYMEGRYLERQHDVEEADKPFEFFMNRFRLLEAAPRAEFRRYTGLDEAAIRPQLDAAIAQGYLQEDEQNWQITEHGKLFLNSLLELFLSE				NA	NA	NA	NA	NA
BMS020_01883	987		COG1638	Solute-binding protein	ATGAAAAAATACCCTTTTTCTCGTTCTCTGGTAGGTATAGCTTTACTGGCCCTACTCTCCGCAGGGGCCGTCGCGGCTGAAAAAGTCACGTTAAAACTGGCACATAACCTTGAGCGCAGCCATGTGGTGCATCAGGCGCTGGAGGAGATGTCCAGAGAGGTAAACCAGCTTTCTGACGGTAAGATGAAGATTCGTATTTACCCCAGTAGTCAGATGGGCAGCGCGCGCGAGACCATGGAGTTATTACAAAACGGCGCGCTGGATATGACCAAAGGTTCCGCCAGCGATCTGGAGTCCTTCGATAATATTTACGCCATTTATAATTTACCCTTCCTGTTTAACGACCAGAATCACTTCAATAAAGTCGTCTTCGGCGAGGTGGGCAAGGAAATAATGAACTCGACGAAAGAGAAAGGATTCTTTGCCCTTTCCGCTTATGTCGCCGGGACGCGAAGCTTTTATGCCAAAAAGCCCATTACTAAACCGGAAGATTTAAAAGGACTGAAGATCCGCGTCCAGGCCAGTCCGACAACGTTAAAAATGGTCGAATTAATGGGCGGTTCCCCGACCCCCATCTCCTTTGGTGAAGTTTATACCGCCATGCAGCAGGGGGTGGTTGACGGCGCGGAAAATAACGTTCCCTCCTGGGTGCAGACGCGCCATATCGAAATCGCTAAGGTTTTCTCAGAAGATGAACATGCCTCCATCCCGGACTTCCTCGTTATCTCCAGCAAAACCTGGGACAAGCTGACGCCGGATCAGCAGCACATTCTGATCAAAGCGGCGAAAGCCTCAGAGATTTATCAGCAACAGCTGTGGCGGAAGATCGATGCCGATACCCGCGCGCAGGCCAAAGCCCTGGGCGGAGAAATAGTCAAAGTAGATAAAGCGCCGTTCCGCGCCGCCGTGCAGCCGCTATACGATGACTTTAAAAAAGATCCCAGCCAGGCCGCCCTGCTGGCCAAATTTGAAGCTGCCGCGGAATAA	MKKYPFSRSLVGIALLALLSAGAVAAEKVTLKLAHNLERSHVVHQALEEMSREVNQLSDGKMKIRIYPSSQMGSARETMELLQNGALDMTKGSASDLESFDNIYAIYNLPFLFNDQNHFNKVVFGEVGKEIMNSTKEKGFFALSAYVAGTRSFYAKKPITKPEDLKGLKIRVQASPTTLKMVELMGGSPTPISFGEVYTAMQQGVVDGAENNVPSWVQTRHIEIAKVFSEDEHASIPDFLVISSKTWDKLTPDQQHILIKAAKASEIYQQQLWRKIDADTRAQAKALGGEIVKVDKAPFRAAVQPLYDDFKKDPSQAALLAKFEAAAE				NA	NA	NA	NA	NA
BMS020_01884	492	siaQ	COG3090	Sialic acid TRAP transporter small permease protein SiaQ	ATGATACTTAACCGCATTAAGCTGGCGGTGGACCGCACCATCGCCGCCTTCTCTGTCGCTGTAATGATTGCGCTGGTTGTCTGCGTCGTCTGGCAGGTATTCAGCCGCTACGTGCTCAACCAGCCAAGCACCCTGACCGACGAGCTGGCGCGCTTCTTAATGATCTGGGTCGGGCTACTGGGCGCGGCCTATACGGTCGGCACCCAGCGTCACCTGGCGATTGATTTACTCACCATGACGCTCTCTCCCCGCAGGCAGGCGCTTTTCAGCGTCATCATTAACCTGCTGATCCTGCTGTTTGCCGGCGCAGTGATTGTGACCGGCGGCGTAAAACTGATTGCAAAAACGCTGTCGACCGCCCAGGTCTCAGCCGCGATGCAGATCCCTATGGGCTACGTGTATCTGATCCTGCCGCTCACCGGCATCATGATGATGTTTTACGCATTGTGTTTTATCAGTAACGGCCTGAAAAACATCAAACATGCAGAATAA	MILNRIKLAVDRTIAAFSVAVMIALVVCVVWQVFSRYVLNQPSTLTDELARFLMIWVGLLGAAYTVGTQRHLAIDLLTMTLSPRRQALFSVIINLLILLFAGAVIVTGGVKLIAKTLSTAQVSAAMQIPMGYVYLILPLTGIMMMFYALCFISNGLKNIKHAE				NA	NA	NA	NA	NA
BMS020_01885	1302	dctM_1	COG1593	C4-dicarboxylate TRAP transporter large permease protein DctM	ATGGATAGCTATATTGCACTGACGCTGTTTGGCGCTTTCTTTATTCTGGTTTTTATTGGCGTTCCCATCTCCTTCGCCATCGGTATCGCTACCGTTGGTTCGATGCTGCTGATGTTTCCCTGGGATATCGCGGTGATTACCGTGTCTCAACGCCTGGCGAACGGGCTTGATAACTTCGCGCTGCTGGCCATCCCCTTTTTTATCTTTGCCGGAACCCTGATGAACAGCGGCGGGATTGCCATGCGTTTAATCAATCTGGCGCAGGTGATGGTCGGACGCGTGCCGGGCTCTCTGGGCCACGTCAACGTGCTGGCCAATATGATGTTCGGCTCGATTTCCGGTTCAGCCGTCGCCGCCGCCGCGGCGGTAGGCGGCACGCTGAATCCCATTCAGACGCAGAAAGGCTACGATCCGACCTTTTCCACAGCGGTAAACGTCTCATCCTGCATCACGGGTCTGCTTATTCCGCCGTCAAACGTCCTGATCGTCTTTTCCCTGACAGCCGGCGGCGTCTCGGTGGCCTCGCTGTTTATGGCCGGCTATTTGCCGGGCATCCTGATGGGCCTGGCTATTATGCTGGTCTGCGGCTGCATCGCTAAACGCCGCGGCTATCCGGTTTCCGAACGGCCGACCTGCGCCCAGGCGGCAAAGGCCTTTTTCGATGCTCTGCCCAGCCTGCTGCTGGTCATCATTGTGATGGGCGGGATCCTTGGCGGCATTTTTACCGCGACGGAAGCCTCTGCCATCGCCGTGGTCTACACCTTTATCCTGTCGGTACTGATCTATCGGGAAGTGAAGTGGCGCGATCTGCCGAAGCTGATTCTGGAATCGGTAGTCATGACCTCTATTGTGCTGCTGCTGATTGGCTTTTCGGTGGGCATGTCGTGGGCGATGACCAACGCCGACATTCCCTACATGATAAGCGATGCGCTAATGGGGGTGTCGGAAAACCCGGTGGTGATCCTGATGTTGATAAATATCGTGCTGCTAATCGTTGGCATTTTTATGGATATGACCCCAGCTGTGCTGATTTTCACGCCGATATTTCTGCCCATTGCTGAGGATTTAGGCATGAATCCGGTTCATTTCGGCATCATGATGGTCGCTAACCTGTGCATCGGCCTGCTGACCCCGCCGGTAGGCAGCGCGCTGTTTGTCGGCTGCTCCATTTCAGGAGTGAAAATTCAGCAGCTCATCAAACCGTTGCTGCCGTTCTACGCCGCCCTGCTGATCGCGCTGATGATGATTGTTTATATCCCGCCGATCTCGCTGTTTATTCCACAGCTGCTGGGGCTGATGTAG	MDSYIALTLFGAFFILVFIGVPISFAIGIATVGSMLLMFPWDIAVITVSQRLANGLDNFALLAIPFFIFAGTLMNSGGIAMRLINLAQVMVGRVPGSLGHVNVLANMMFGSISGSAVAAAAAVGGTLNPIQTQKGYDPTFSTAVNVSSCITGLLIPPSNVLIVFSLTAGGVSVASLFMAGYLPGILMGLAIMLVCGCIAKRRGYPVSERPTCAQAAKAFFDALPSLLLVIIVMGGILGGIFTATEASAIAVVYTFILSVLIYREVKWRDLPKLILESVVMTSIVLLLIGFSVGMSWAMTNADIPYMISDALMGVSENPVVILMLINIVLLIVGIFMDMTPAVLIFTPIFLPIAEDLGMNPVHFGIMMVANLCIGLLTPPVGSALFVGCSISGVKIQQLIKPLLPFYAALLIALMMIVYIPPISLFIPQLLGLM	PGPT0017335_2575	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017335-dctM-K11690	NA	NA
BMS020_01886	1008			hypothetical protein	ATGAAAGAGGCATGGAAAACGCTCACCGTCCTGATGATCGCTTCCCCTTGTTACGTGCTGGCGGATGCCAACACGCCAACAGACGACGTGGTGAAAAAGCAGTTTGCTGAACAGACTGGCGGGATTATGCGCTTGCAAAGTGTGACGCTAAAGCAGCTCGACGCCCGGGGAAATCAGGCGACCTATATGCTGGAAGGCGATATGGCCGCCGCGGAAGATCTCTATATTTGCGTCGGCGTCGCAGGAGATTACTTTTTTTATGAGCGAGTCTGGACCAGGGGGCGGCCGGTAAAATTCTCCGCCATGATGACCTCGGTAGGGACCAAAGACTCCGGCTGGCAGACCGAATTCTTTTCGCTGCAAATGGCGGCGAAGAGGGGCGGGAGAACCTTGAAGGAAATCGGAGGGGATGAAAGTAAAAACCTGATCGTTAATGACCACAAATTTATGGCGCAATTTGCCAAAATTAACGCCAGCTTTGCCGCCAGCAAAGCCACGATGAAGACGTTGCAAGGGCAACAGGATGCGCTGAAAACCGAGATCGCCGCGTTAGAGGAGCAGATTAACCGTTCATGGGGTACGGATGCGAACGGCAAGCCGCTCGATCGCAGCGACGTGCAGCAGGCGATGCTGGAAAAAATGTATGAAGTAGATCGGCAAAACGATCCGCTGAAATTCGAGAATCATTACTACAAAACTATCTATGAACCCGCCCTGACCGCCTGTCAGAAAAAAGCGGTTTGCGATGCCGGGCCGCTGCGCGCCGAGCGCGATGCTGTGCTGAATGAGCAGAAGCGTAACTATTATCGCCAGCATAAAGAGATGAGTGAAAATATCAAAGCGGAGATGGCCGCGCGCGATAAAAAGATAGCGCCGCTGCAGAAGCAAAAAGGCGAACTGAGCGCTCAGCTGATGGCGCTGGAGATACGCTATCGGGATTTGGCTCGCGACGAAAAATACTGGCAGGAGGGGCTGGAGAAGATGCGCCGCGACGGGGTCCTTAAGTAG	MKEAWKTLTVLMIASPCYVLADANTPTDDVVKKQFAEQTGGIMRLQSVTLKQLDARGNQATYMLEGDMAAAEDLYICVGVAGDYFFYERVWTRGRPVKFSAMMTSVGTKDSGWQTEFFSLQMAAKRGGRTLKEIGGDESKNLIVNDHKFMAQFAKINASFAASKATMKTLQGQQDALKTEIAALEEQINRSWGTDANGKPLDRSDVQQAMLEKMYEVDRQNDPLKFENHYYKTIYEPALTACQKKAVCDAGPLRAERDAVLNEQKRNYYRQHKEMSENIKAEMAARDKKIAPLQKQKGELSAQLMALEIRYRDLARDEKYWQEGLEKMRRDGVLK				NA	NA	NA	NA	NA
BMS020_01887	717			hypothetical protein	ATGCGTAAAACGCTGCTGGCGGTGGCGCTCTCCGTCACCGCTTTGTCTGCCCATGCAGACTACCAGTGTAGCGTCACGCCGCGTGACGATGTGATCCTCACCCCGCAGCAGGTCCAGGTGAAAGGGGAAAATGGCAATCTGGTGATCAAACCGGACGGTAACCTGACCTTTAACGGCAAGGCCTATGCCCTCAGCGCCGCCCAGCGCGAGCAGGCCCAGGATTATCAGGCCGGTCTGCGCAGCAGCCTGCCGTGGATTGACGAAGGCGCGCGTTCGCGAGTCGAAAAAGGCCGCAAGGCGCTGGATAAAATCATTACCGAACAGGTCGGCGCCGACAGCAGTATGCACGGTCGTCTGACTAAGCTGGACGCGCAGCTGAAAGAACAGATGAACCGCATCATTGAGCGCCGCAGCGATGGCCTGACCTTCCACTATAAAGCCATCGACCAGGTGCGCGCCGACGGCCAGCAGCTGGTGAATCAGGCGATGGGCGGCATTCTGCAGGACAGCATTAACGAGATGGGGGCGAAAGCGGTGCTCAAAGGCGGCGGCAACCCGCTGCAGGGCATTCTCGGCAGCCTCGGCGGTCTGCAAACCGCGATTCAGGACGAGTGGAAAAACCAGGAGGCCGATTTCCAGCAGTTTGGTAAAGACGTCTGCAGCCGAGTGGTCTCCCTTGAGGACAGCCGCAAAGCGCTGGTGGGCTCGTTAAAGTAA	MRKTLLAVALSVTALSAHADYQCSVTPRDDVILTPQQVQVKGENGNLVIKPDGNLTFNGKAYALSAAQREQAQDYQAGLRSSLPWIDEGARSRVEKGRKALDKIITEQVGADSSMHGRLTKLDAQLKEQMNRIIERRSDGLTFHYKAIDQVRADGQQLVNQAMGGILQDSINEMGAKAVLKGGGNPLQGILGSLGGLQTAIQDEWKNQEADFQQFGKDVCSRVVSLEDSRKALVGSLK				NA	NA	NA	NA	NA
BMS020_01888	327		COG3171	putative protein	ATGGCCAAGAATCGTAGCCGTCGTCTGCGGAAAAAAATGCATATCGACGAGTTTCAGGAGTTAGGCTTCTCCGTCGCCTGGCGTTTCCCGGAAGGGACCAGCGAAGAGCAGATCGACCAGACGGTCAACGATCTGATCGAAGAGGTGATTGAGCCGAACAAGCTGGCCTTTGACGGCAGCGGCTATCTCTCCTGGGAGGGGCTGATCTGCATGCAGGAGATCGGTAAATGCACCGAAGAGCATCAGGCCATCGTGCGCCAATGGCTGGAAGCGCGTAAGTTAGAGGATGTGCGCACCAGCGAACTTTTTGACGTCTGGTGGGACTAA	MAKNRSRRLRKKMHIDEFQELGFSVAWRFPEGTSEEQIDQTVNDLIEEVIEPNKLAFDGSGYLSWEGLICMQEIGKCTEEHQAIVRQWLEARKLEDVRTSELFDVWWD				NA	NA	NA	NA	NA
BMS020_01889	720	trmB_1	COG0220	tRNA (guanine-N(7)-)-methyltransferase	ATGAAAAACGACGTCATCTCTCCGGAATTTGATGAAAACGGCCGTCCGCTGCGCCGTATTCGTAGCTTCGTCCGTCGCCAGGGCCGCCTGACGAAAGGGCAGCAGCATGCGCTGGATAACATTTGGCCGGTGATGGGCGTTGAATTCAACGATGCGCCGCTCGATTTCGCCGCCCTGTTTGGCCGCGAAGCGCCGGTCACCCTCGAAATTGGCTTCGGGATGGGCGCCTCGCTGGTGGCGATGGCAAAAGCCAAACCGGAACAGAATTTCCTCGGCATCGAAGTGCACTCCCCGGGCGTCGGCGCCTGTCTGGCCTCGGCCGAAGAAGAAGGTGTGCAAAACCTGCGCGTGATGTGTCACGATGCGGTGGAAGTGCTGCACACTATGATTCCGGATAACTCGCTGAATATGGTGCAGCTGTTTTTCCCTGACCCGTGGCACAAAGCGCGCCATAATAAACGTCGTATCGTGCAGCCGCCTTTCGCCGAGCTGGTGAAAAGTAAACTGAAGCTCGGCGGCGTCTTCCATATGGCGACCGACTGGGAAGCCTATGCCGTCCATATGCTGGAAGTGATGTCCTCGCTGGAAGGGTACCGTAACCAGTCGGCAAGCAACGATTACGTACCGCGCCCGGAATCGCGCCCGGTAACCAAATTTGAACAGCGTGGCCATCGTCTCGGCCACGGCGTATGGGACTTAATGTTCGAGAGGGTGAAATAA	MKNDVISPEFDENGRPLRRIRSFVRRQGRLTKGQQHALDNIWPVMGVEFNDAPLDFAALFGREAPVTLEIGFGMGASLVAMAKAKPEQNFLGIEVHSPGVGACLASAEEEGVQNLRVMCHDAVEVLHTMIPDNSLNMVQLFFPDPWHKARHNKRRIVQPPFAELVKSKLKLGGVFHMATDWEAYAVHMLEVMSSLEGYRNQSASNDYVPRPESRPVTKFEQRGHRLGHGVWDLMFERVK				NA	NA	NA	NA	NA
BMS020_01890	1059	mutY_1	COG1194	Adenine DNA glycosylase	TTGACTTTTCTCGCCACGCAATTCTCAGCCCAGGTCCTGGACTGGTACGACAAATACGGGCGTAAAACCCTGCCCTGGCAAATCGCCAAGACGCCCTACAAAGTATGGCTCTCCGAAGTGATGTTGCAACAAACCCAGGTGACCACGGTTATCCCGTATTTTGAACGCTTTATGGCGCGTTTCCCCACGGTGGTCGATCTCGCCAACGCGCCGCTGGATGAGGTGCTGCATCTGTGGACCGGACTGGGTTACTACGCGCGGGCGCGCAACTTACACAAAGCGGCGCAGCAGGTGACGACGCAGTACGGCGGCGAATTCCCGCAGACCTTTGACGAAGTGGCGGCGCTTCCCGGCGTCGGGCGCTCAACGGCGGGGGCCATTTTATCCCTTTCGCTCGGTCAGCATTATCCGATTCTCGACGGCAACGTGAAGCGCGTGCTCGCCCGCTGCTATGCTGTCAGCGGCTGGCCGGGGAAAAAAGAGGTGGAAAAACGGCTGTGGGAGATCAGCGAAGCGGTCACGCCGGCGAAGGGCGTGGAGCGCTTTAACCAGGCGATGATGGATCTCGGGGCGATGGTCTGCACCCGATCGAAGCCGAAGTGCGAACTGTGCCCGCTGAGCAACGGCTGCGTGGCCTACGCCAATCATTCATGGGCAGAATATCCGGGCAAAAAACCGAAGCAGACCATTCCGGAACGCACCGGCTATTTCCTGCTGATGCAGCACGGCGACGAGGTGTTTCTCGCCCAGCGTCCGCCGGTGGGCCTGTGGGGCGGATTGTTCTGTTTTCCGCAGTTTGCCGACGAAGCGGGCCTGCGCGAGTGGCTGGCACAGCGCCAGATTAAGGCCGATAATCTGACGCAGCTCACCGCTTTTCGCCACACTTTCAGCCATTTCCATCTGGATATTGTGCCGATGTGGCTTACAGTGCACTCATCTGGCGCATGCATGGATGAAGGCAACGCACTCTGGTATAACTTAGCGCAGCCGCCGTCGGTCGGTCTGGCGGCCCCCGTGGAGCGTTTGTTGCAACAGTTAAAAGCCGGAACGCCGGTATAA	MTFLATQFSAQVLDWYDKYGRKTLPWQIAKTPYKVWLSEVMLQQTQVTTVIPYFERFMARFPTVVDLANAPLDEVLHLWTGLGYYARARNLHKAAQQVTTQYGGEFPQTFDEVAALPGVGRSTAGAILSLSLGQHYPILDGNVKRVLARCYAVSGWPGKKEVEKRLWEISEAVTPAKGVERFNQAMMDLGAMVCTRSKPKCELCPLSNGCVAYANHSWAEYPGKKPKQTIPERTGYFLLMQHGDEVFLAQRPPVGLWGGLFCFPQFADEAGLREWLAQRQIKADNLTQLTAFRHTFSHFHLDIVPMWLTVHSSGACMDEGNALWYNLAQPPSVGLAAPVERLLQQLKAGTPV				NA	NA	NA	NA	NA
BMS020_01891	276	yggX	COG2924	putative Fe(2+)-trafficking protein	ATGAGCAGAACCATTTTTTGTACCTTCCTGCAGCGTGAAGCGGACGGCCAGGATTTTCAGCTGTATCCGGGCGAACTCGGGAAGCGCATTTACAACGAAATCTCCAAAGAAGCCTGGGCACAGTGGCAGCACAAGCAGACCATGCTGATCAACGAGAAAAAGCTCAGCATGATGAACCCGGAGCACCGCAAGCTGCTGGAGCAGGAGATGGTGCAGTTCCTGTTTGAAGGGAAAGACGTGCACATCGAAGGCTATACGCCGCCGGAAAAACAGTAA	MSRTIFCTFLQREADGQDFQLYPGELGKRIYNEISKEAWAQWQHKQTMLINEKKLSMMNPEHRKLLEQEMVQFLFEGKDVHIEGYTPPEKQ				NA	NA	NA	NA	NA
BMS020_01892	1086	mltC	COG0741	Membrane-bound lytic murein transglycosylase C	ATGATGAAAAAATACTTAGCGCTCGCGCTGATTGCGCCGTTGCTCGTTTCGTGTTCCAGCTCCAATAAAAAAGGCGCCGAATACAACGAGGCCTGGGTCAAGGATACCAACGGTTTTGATATCCTGATGGGCCAGTTTGCCCACAACATCGAGAACATTTGGGGGTACAACGAAGTCCTGCTCGCCGGGCCGAAGGACTACGTCAAATACACCGACCAGTATCAAACCCGCAGCCACATCAACTTCGATGAAGGGACGATCACCGTCGAGACCATCGCCGGCACCGATCCGCGCGGACGACTGCGCCAGGCGATCGTCAAAACCCTGCTGATGGGCGATGACCCCAACTCCATCGACCTCTATTCCGATGTCGATGACATTCAGATCTCCAAAGAGCCGTTCCTCTATGGCCAGGTGGTGGATAACACCGGGGCATCGATTCGCTGGGAGTGGCGCGCCGCGCGCTTTGCCGACTATCTGCTGCAAACCCGCCTGAAGAGCCGCAACAACGGCCTGCGCGTGGTCTACAGCATCACCATCAACCTGGTGCCGAACCACCTCGACAAACGTGCGCATAAATACCTCGGCATGGTGCGTCAGGCCTCGCGTAAGTATGGGGTTGATGAGTCGCTGATCCTCGCGATTATGCAGACCGAATCCTCCTTTAACCCTTATGCGGTCAGCCATGCCGACGCCATGGGGCTGATGCAGGTGGTCCAGCACAGCGCCGGCAGAGACGTCTTCCGTTCCCAGGGTAAATCGGGCCTGCCAAGCCGCAGCTATCTGTTCGACCCGGCGAATAACATTGACACCGGTACCGCCTACCTGGCGATGCTGAACAATGTCTACCTCGCCGGCATCGATAACCCCACCTCGCGTCGCTACGCGGTGATCACCGCCTATAACGGCGGCGCCGGCAGCGTGCTGCGGGTCTTCTCCAGCGATAAAGTCCAGGCGGCCAATATCATCAACAGCATGGCGCCAGGGGACGTCTACCAGACCCTGACCACCCGCCATCCGTCGGCGGAATCGCGCCGCTATCTGTATAAAGTTAACACAGCGCAGAAAAGCTACCGCCGTAAATAA	MMKKYLALALIAPLLVSCSSSNKKGAEYNEAWVKDTNGFDILMGQFAHNIENIWGYNEVLLAGPKDYVKYTDQYQTRSHINFDEGTITVETIAGTDPRGRLRQAIVKTLLMGDDPNSIDLYSDVDDIQISKEPFLYGQVVDNTGASIRWEWRAARFADYLLQTRLKSRNNGLRVVYSITINLVPNHLDKRAHKYLGMVRQASRKYGVDESLILAIMQTESSFNPYAVSHADAMGLMQVVQHSAGRDVFRSQGKSGLPSRSYLFDPANNIDTGTAYLAMLNNVYLAGIDNPTSRRYAVITAYNGGAGSVLRVFSSDKVQAANIINSMAPGDVYQTLTTRHPSAESRRYLYKVNTAQKSYRRK	PGPT0023790_50	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023790-mltC-K08306	NA	NA
BMS020_01893	1254	nupG		Nucleoside permease NupG	ATGAATCTTAAGCTGCAGCTCAAAATACTGTCGTTCCTGCAGTTCTGTCTTTGGGGGAGCTGGCTTACCACGCTTGGCTCATACATGTTTGTCACCCTGAAGTTTGACGGCGCAGCAATCGGCGCGGTTTATAGCTCGCTCGGTATCGCCGCGGTGCTAATGCCGACGCTGCTCGGCATCGTCGCCGACAAGTGGATTAGCGCCAAATGGGTGTATGCCGTTTGTCACCTGGTGGGTGCGCTGACGCTGTATCTGGCGGCGCAGGTCACCACGCCGGGCGAAATGTTCCTCGTGATCCTGCTTAACTCGCTGGCCTATATGCCGACGCTGGGGCTGATTAACACCATCTCTTACTATCGCCTGCAGTCGGCGGGGCTGGATATCGTTACCGATTTTCCGCCGATCCGTATCTGGGGCACTATCGGCTTTATCTTCGCCATGTGGGGTGTCAGCTTCTCCGGCTTTGAGCTGAGCCATATGCAGTTGTACATCGGTGCGACGCTGTCGGTATTGCTGGCGCTGTTCACCCTGACGCTGCCGACGATCCCGGTGGCTAACGCCCAGCGTAATCAAAGCTGGACGGAGATGCTGGGGCTTAACGCTTTCGCGCTGTTTAAAAACAAGCGCATGGCCATCTTCTTTATCTTCTCAATGATGCTCGGCGCCGAGCTGCAAATCACCAACATGTTCGGTAATACCTTCCTGCACAGCTTCGATAAAGATCCGCTGTTTGCCGGCAGCTTTATCGTCGAACACGCCTCGGTGCTGATGTCGATCTCGCAGATCTCCGAGACCCTGTTTATCCTGACCATCCCGTTCTTCCTCAGCCGCTACGGCATTAAGAACGTCATGTTGATGAGTATCGTGGCGTGGATGCTGCGCTTCGGCCTGTTCGCCTTTGGCGACCCGACGCCGTTCGGCACCGTGCTGCTGGTACTGTCGATGATCGTCTACGGTTGCGCCTTCGACTTCTTCAACATCTCCGGTTCAGTGTTCGTTGAGAAAGAGGTGCGCCCGGAAATCCGCGCCAGCGCCCAGGGGATGTTCCTGATGATGACCAACGGCTTCGGCTGTATTCTCGGTGGCATGGTGAGCGGCAAAGTGGTGGAGCACTTTACCGTCGAAGGGATCACTAACTGGCAGAGCGTGTGGCTGATTTTCGCCGGCTATTCGCTGGCGCTGGCTTTTGCCTTCGTGGCGCTGTTCAAATACAAACACGTCAGACAGCCGACCGCCGCGCAGCAGAGCGCGTGA	MNLKLQLKILSFLQFCLWGSWLTTLGSYMFVTLKFDGAAIGAVYSSLGIAAVLMPTLLGIVADKWISAKWVYAVCHLVGALTLYLAAQVTTPGEMFLVILLNSLAYMPTLGLINTISYYRLQSAGLDIVTDFPPIRIWGTIGFIFAMWGVSFSGFELSHMQLYIGATLSVLLALFTLTLPTIPVANAQRNQSWTEMLGLNAFALFKNKRMAIFFIFSMMLGAELQITNMFGNTFLHSFDKDPLFAGSFIVEHASVLMSISQISETLFILTIPFFLSRYGIKNVMLMSIVAWMLRFGLFAFGDPTPFGTVLLVLSMIVYGCAFDFFNISGSVFVEKEVRPEIRASAQGMFLMMTNGFGCILGGMVSGKVVEHFTVEGITNWQSVWLIFAGYSLALAFAFVALFKYKHVRQPTAAQQSA	PGPT0021060_97	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021060-nupG-K03289	NA	NA
BMS020_01894	2139	speC	COG1982	Constitutive ornithine decarboxylase	ATGAAATCCATGCACATTGCCGCCAGCTGCGAGCTGGTCACCCGCTTGTCCACCCACCGTCGCGTTGTGGCGCTGGACAGTACCGATTTTACCGATGTGGCGGCAGTCGTCATCACCGCGGCGGACAGTCGCAGCGGTATCCTTGCCCTCCTCAGGCGTAGCGGATTTAACCTGCCGGTCTACCTGTTGAGCGAGACGGCGGTCGATAAGCCGGAGGGGGTACAGGCGGTGATCGCCGGTAAAGATCAGGAGTGGCTCGAGCTGGAAGCGGCGGCCTGCGATTATGAAGCGCGTCTGCTGCCGCCGTTTTTCAATACGCTGACCCAGTACGTCGAAATGGATAACAGCACTTTTGCCTGTCCGGGACACCAGCACGGGGCCTTTTTCAAAAAGCACCCCGCAGGCCGTCAGTTCTATGACTTTTTTGGCGAAAACGTCTTTCGCGCCGATATGTGTAACGCCGATGTAAAATTAGGCGATCTGCTGATCCACGAAGGGTCGGCCAAGCATGCGCAGAAGTTCGCCGCGAAGGTCTTTAATGCGGATAAAACCTACTTCGTCCTTAACGGCACCTCGGCGGCCAACAAAGTTGTGACCAACGCGCTGTTGACCCGCGGCGATCTGGTGCTGTTCGATCGCAACAACCACAAGTCAAACCATCACGGGGCGCTGATTCAGGCAGGGGCGACGCCTGTCTATCTTGAAGCCGCGCGCAATCCGTTCGGCTTTATCGGCGGCATTGACGAGCGTTGCTTTGATGAGCGCTACCTGCGGGATCTCATCCGCGAAGCGGCGCCAGAGAAAGCCACGGCCGCTCGCCCGTTTCGCCTGGCGGTGATCCAGCTCGGGACCTATGATGGCACGGTCTATAACGCCCGCCAGGTGGTCGATAAAATCGGCCACCTCTGCGATTACATCCTGTTCGACTCGGCGTGGGTGGGCTATGAGCAGTTTATCCCGATGATGGCCGACTGTTCGCCGCTGCTGCTGGAGCTGACGCCGGACGATCCGGGCATTTTTGTCACCCAGTCCGTACACAAGCAGCAGGCCGGTTTCTCGCAGACGTCGCAGATCCATAAAAAGGATAACCATCTGCGCGGCCAGGCGCGCTTCTGTCCGCACAAACGGCTGAATAACGCCTTTATGCTGCATGCCTCCACCAGCCCGTTTTATCCGCTGTTCGCCGCGCTGGACGTCAACGCCAAAATTCACGAAGGCGAGAGCGGCCGCCGCCTGTGGGCTGAGTGCGTGGCGCTGGGCATCGAGGCGCGCAAAGCGATCATCGCCAACTGTAAGATGATTCAGCCCTTTATTCCGCCGATGGTGGCGGGGCGCCCGTGGCAGGATCACCCGACCGAAGCGATCGCCCGGGAGCGTCGTTTCTTCAGCTTCGAACCGGGCGCGCGCTGGCATGGTTTCGAGGGCTATGCCGACGACCAGTATTTTGTCGACCCGTGCAAGCTGTTGTTGACCACCCCTGGCATCGACGCGGAGAGCGGGGAGTACAGTGAGTTCGGCATCCCGGCGACCATTCTGGCGCATTACCTGCGGGAAAACGGCATCGTGCCGGAGAAGTGCGATCTCAACTCGATTCTGTTCCTGCTGACGCCGGCGGAAAGCGCCGAAAAAATGGCGCAGCTGGTGGCGATGCTGGGGCAGTTTGAACAGCATATTGAAGCGGATACGCCGCTGGCCGATGTGTTGCCGACCATCTACAACAAATATCCGGTGCGCTATCGCGACTATACCCTGCGCGAGTTGTGCCAGGAGATGCATGATCTGTACGTCAGCTTTGACGTGAAGAGCCTGCAAAAAGAGATGTTCCGTAAACGGAGCTTCCCGCGGGTGGTGATGAATCCCCAGGATGCCAACCGCGAATTTATCCGCGGCGACGTGGAGCTGGTGCGTCTGAGCGAGGCGGAGGGCCGCGTCGCGGCGGAAGGGGCGCTGCCGTATCCGCCGGGGGTATTATGCGTGGTGCCCGGTGAGGTCTGGGGGGGCGCTGTGCTGCGCTATTTCCTCGCGCTGGAGGAGGGGGTCAATATGCTGCCGGGCTTCTCGCCGGAGCTGCAGGGAGTATATAGCGAGACGGATCCGGACGGCATTAAGCGGCTGTATGGCTACGTGTTGAAGGGATAA	MKSMHIAASCELVTRLSTHRRVVALDSTDFTDVAAVVITAADSRSGILALLRRSGFNLPVYLLSETAVDKPEGVQAVIAGKDQEWLELEAAACDYEARLLPPFFNTLTQYVEMDNSTFACPGHQHGAFFKKHPAGRQFYDFFGENVFRADMCNADVKLGDLLIHEGSAKHAQKFAAKVFNADKTYFVLNGTSAANKVVTNALLTRGDLVLFDRNNHKSNHHGALIQAGATPVYLEAARNPFGFIGGIDERCFDERYLRDLIREAAPEKATAARPFRLAVIQLGTYDGTVYNARQVVDKIGHLCDYILFDSAWVGYEQFIPMMADCSPLLLELTPDDPGIFVTQSVHKQQAGFSQTSQIHKKDNHLRGQARFCPHKRLNNAFMLHASTSPFYPLFAALDVNAKIHEGESGRRLWAECVALGIEARKAIIANCKMIQPFIPPMVAGRPWQDHPTEAIARERRFFSFEPGARWHGFEGYADDQYFVDPCKLLLTTPGIDAESGEYSEFGIPATILAHYLRENGIVPEKCDLNSILFLLTPAESAEKMAQLVAMLGQFEQHIEADTPLADVLPTIYNKYPVRYRDYTLRELCQEMHDLYVSFDVKSLQKEMFRKRSFPRVVMNPQDANREFIRGDVELVRLSEAEGRVAAEGALPYPPGVLCVVPGEVWGGAVLRYFLALEEGVNMLPGFSPELQGVYSETDPDGIKRLYGYVLKG	PGPT0007765_510	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007765-speC|speF|ODC1-K01581	NA	NA
BMS020_01895	714	ydfK_1	COG1811	putative membrane protein YdfK	GTGGTTACAGGACCTTTTATTAATGCCAGCGCGGTGCTGGTCGGCGGCGTGTTAGGCGCCTTACTCAGCCAGCGGTTGCCGGAACGGATCCGCACATCCATGACCTCAATTTTTGGCCTGGCGTCATTAGGCATCGGTATTTTACTGGTGATTAAATGCGCCAATCTGCCGGTGATGGTGCTGTCGACCCTGGTGGGAACGCTGCTCGGCGAAATATGCAATATGGAAAAAGGCATAAATACGCTGGTCAGTCAGCTTCAGCAGTTGCTGTCATCGAAGGGTAAGAAAAAGGCCTCGGCGCATGACTCCTATATTCAGAGCTATGTGGCGATTATCGTCCTGTTCTGCGCCAGCGGCACCGGCGTCTTCGGCGCCATGCGCGAAGGGATGACCGGCGACGCCAGCATTCTGATTGCCAAAGCGTTTCTTGATTTTTTCACCGCCACCATTTTCGCTTGTACCCTGGGCATTGCCGTCGCCGCCATCAGCGTACCGATGCTACTTATCCAGCTGTCTCTCGCGGCCTGCGCGGCGATCATTATGCCGCTCACCACGCCGATGATGCTGGCGGATTTCAGCGCCGTCGGCGGTATGCTGCTGGTGGCCACCGGGCTGCGCATCTGCGGAATAAAAATGTTTGCCGTGGTGAATATGCTGCCTGCGCTGGTGCTGGCGATGCCGATTTCAGCGGCCTGGACGCTGTTTTTTGCCTGA	MVTGPFINASAVLVGGVLGALLSQRLPERIRTSMTSIFGLASLGIGILLVIKCANLPVMVLSTLVGTLLGEICNMEKGINTLVSQLQQLLSSKGKKKASAHDSYIQSYVAIIVLFCASGTGVFGAMREGMTGDASILIAKAFLDFFTATIFACTLGIAVAAISVPMLLIQLSLAACAAIIMPLTTPMMLADFSAVGGMLLVATGLRICGIKMFAVVNMLPALVLAMPISAAWTLFFA	PGPT0003195_478	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_TRANSPORT,PGPT0003195-ydfK|yqgA-K07150	NA	NA
BMS020_01897	831			hypothetical protein	GTGGGCGTTGTCGCCTTGCTTCTACCTGTAGCGAAGGATGGTAACGTGCATACTGCTTCGTTCTTTATGCGTATTGCCAGAGGTCTTCAGGCCAGCCTTAAAGACAGTGGTATTGATCCTGTTATTCATGTCACTACCGATCGGCAAGGTGAACATCAGTTGTTACGTAAGATTGTTGAACAAAACCGCGCAGATGCCGTAATTCTCACTGATACGCGAATTGTCGATGAACGTATTCTGCTACTAAATGACCTCCAGTTCCCGTTTGTTACAATGGGGCAGAGTCGAGCAATGAACGGGCTGTTCAACTGGGTCGATTTTTATCATGAAGATATGGGGCGTCAGTGCGTTCGTTTTGCTCTATGTCAGGGCGCGAAGCGTATCGCTATTGCCACGCTGGGTCCTGATAGTATGCACGGCCAACAGTTTCTGGATGGCTGTTTACATGAAATGCGCGAATGTGGACTAACACCGGGTAAAGGATTAGTTTTCTTTGGAACAGTCGATGAATTGTCCGGGGAGAAAGCTGTGCAGCAATTCATGCTGCAAGAAATAAAGCCGGACTTTATCATTTTCATCAATGACTTTTTATTGATGGGGGCTAGCCATTATCTGCGATCGCTTAATGTGGGTAGCCTTGATGACCAGTCCATGATATGTGCCACTGCGAGCAGTGATTTTTCTTCGCGGATAATGTCTTCAACCTGTCTTTTTACTGTAGATCATGAAGAGGTTGGAAGATGCCTTGGAGAAGCCGTGCTTAGGGTAGTAGCTGGCGACAGGGAGCACCGTTCGGTCCTCATAAATCTCCCTGCTAATTTGGTGAATTAA	MGVVALLLPVAKDGNVHTASFFMRIARGLQASLKDSGIDPVIHVTTDRQGEHQLLRKIVEQNRADAVILTDTRIVDERILLLNDLQFPFVTMGQSRAMNGLFNWVDFYHEDMGRQCVRFALCQGAKRIAIATLGPDSMHGQQFLDGCLHEMRECGLTPGKGLVFFGTVDELSGEKAVQQFMLQEIKPDFIIFINDFLLMGASHYLRSLNVGSLDDQSMICATASSDFSSRIMSSTCLFTVDHEEVGRCLGEAVLRVVAGDREHRSVLINLPANLVN				NA	NA	NA	NA	NA
BMS020_01898	1404	galP_2		Galactose-proton symporter	ATGCAATTAGATAGAGTCATGCCTGCCTCTGTATCAAGAGGTAAAAAAAGGCCACAAATAATCTGGATATGTCTTCTGGCAGCACTTGCAGGTTTACTATTTGGGTTAGATATCGGTGTCATCTCAGGCGCATTACCCCTTATCGCCAAAGAATACAATCTTATCGATAGTCAGCAGGAATGGATTGTCAGTTCAATGATGGTAGGTGCTGCTGCAGCCACATTGTGCAGCGGCGTTCTGGCATATCGTCTGGGCCGCAAATATGCGTTACTGATTGCCGCAGCCTCCTTTAGCCTGGGAGCAATATTTTGCACGTTTGCTACTAACGTCGAGATGTTGATTATTGGTCGGCTTATTCTCGGTGTCGGACTCGGCGTCGCTTCCTACGCCACACCGCTTTATCTCTCTGAAATTACGCCCAAGAGTATTCGGGGTGCAATGATTTCTGCCTATCAGTTGATGATTGCCCTGGGAATTTTAATCGTATTCCTCACCAATACTGCTTTCAGCTATAGCGGCAACTGGCGAGGAATGCTGCTCGTCGTGGCAATACCTTCCCTGATTTTTCTGTTTGGCGCATTGTTTTTGCCTCGCAGCCCACGCTGGCTCATGATGCATGGTCGGGAAGAAGCAGCTTATGAAGTGCTCATGCGATTACGCAGTAGTCATGCAGAGGTAGAAAGTGAATTACGGGAAATAAAAGAACAACTCAGGATAAAGCAACAGGGATGGCATTTATTCCTGGAAAACAAAAATTTTCGCCGCACTGTTGGTTTAGGCATTGTTTTGCAAATCATGCAACAATTCTCTGGCGTCAACGTTATGATGTATTACGCCCCACGTATTTTCCATGAAATAGGTTTTACTTCCACATCAGACCAAATGTGGGGCACTGTCATCGTAGGTGTTGTTATGACCATTGCGACATTTATTGCCGTTGGTTTCGTGGACAGATGGGGTCGCAAGCCCATGCTGTATATAGGTTTTCTTACCATGAGTCTCGCAATGGGGGTGGTCGGGGCACTACTCGGTGGCGAAGTATTATCCGTGCCAGGAAAAATTGTCACTGTTGCCATGCTGCTGATATTTATCGTTGGTTTTTCAATGTCCGCCGGTCCGCTCATCTGGCTGTTGTGTTCTGAAATTCAACCACTTAAAGGGCGTGAGTTTGGTATCACCTGCTCGACTTTTACCTGCCATATAGCCGGAATGATTGTCAGTGCGACGTTCCTGTCACTTCTGAACTCATTAGGAAGCGCTCATACATTTTATTTATATGCGTTACTGAACGTCGTAGCCATTGTTATTATTAATCGCTTCGTTCCTGAAACGAAAAACATATCTCTGGAACAGATTGAACAGAATCTGATGGCTGGTAATAAATTACGCAATATTGGACGATGA	MQLDRVMPASVSRGKKRPQIIWICLLAALAGLLFGLDIGVISGALPLIAKEYNLIDSQQEWIVSSMMVGAAAATLCSGVLAYRLGRKYALLIAAASFSLGAIFCTFATNVEMLIIGRLILGVGLGVASYATPLYLSEITPKSIRGAMISAYQLMIALGILIVFLTNTAFSYSGNWRGMLLVVAIPSLIFLFGALFLPRSPRWLMMHGREEAAYEVLMRLRSSHAEVESELREIKEQLRIKQQGWHLFLENKNFRRTVGLGIVLQIMQQFSGVNVMMYYAPRIFHEIGFTSTSDQMWGTVIVGVVMTIATFIAVGFVDRWGRKPMLYIGFLTMSLAMGVVGALLGGEVLSVPGKIVTVAMLLIFIVGFSMSAGPLIWLLCSEIQPLKGREFGITCSTFTCHIAGMIVSATFLSLLNSLGSAHTFYLYALLNVVAIVIINRFVPETKNISLEQIEQNLMAGNKLRNIGR	PGPT0014445_164	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALATOSE_TRANSPORT,PGPT0014445-galP-K08137	NA	NA
BMS020_01899	2058			hypothetical protein	ATGGGTTTTTTAGAGTTTAAAGAAGAAGGTTTTTATATTTCCTTTTCGCTGAATGAAGAAGGAGTTATCTATATTGACCAATTTTCCACTACGGATCATGGTGAGTCACACGGTGAGTTTCCATTGATTCAGGTTCATGCCAGCGGATATAATCAAAATGATCATCATGCACGTAAACATACTGGCTGCGAACCAGGGTCATCTTTACGCTATAAGACGCACCGGTGTTACGATAATGACCTTGGAAAGAAACTTGAAGTCGCGCTAACCGGGGACGTCATATCTGCATATTGGCATCTCCAGCATTTTCAACACCTGAAAACAGCCAGAATATGGTGTGAAATTCATAATCACAGCCAGGAGTCTATTGGGCTTGAATATGTCAGTTCCCTGACACTGTTTGCCATTAGTAGCCTTCCGTGGGAAAAGAACAGCGTTCTTCATCTTCCACATAATAACTGGTATGGCGAAGCGCAATGGAAGAGGGCGACACTTCCTGAGCTTGGGCTTGATAAGGTAAACCGCTTCTCTTTGGATAGATTTTCCATAGAAAATACCGGGACCTGGTCAAGCATCGGCTACCTGCCTTGCGCTGCTTTTGAAGATTTAGCCGCAGGTACCACTTTGTTATGGCAGATTGAGCATAATGGCTCATGGCAGTGGGAGATTGGCGACTTCCGTGAGCATCTTTACTTACAAATCAGCGGTCCTACTGAAAACGAAAATCACTGGTGGAAACAGCTCATGCCTGGTGAAACGTTCACCTCTGTCCCGGTAGCCGTATCGCTGGTTCAGGGTGGACTGCAAGAAGCGCTACAGGAAATCACCCGTTACCGCCGCCGGATCCTCCGGCCTTCTCAGGATAATATTGTTTTACCGGTCATTTTTAATGATTATATGAACTGTCTCTTTGGTGATCCTACGACAGAAAAACTGTTGCCGCTCATCGATATTGCAGCAGTTGCAGGTTGCGAATACTTCTGTATCGACTGCGGCTGGTATTCAGACGGTGAATGGTGGGATGGTGTCGGAGAATGGCAACCTTCAGTTACGCGCTTTCCACGCGGGATAAGAGAGCCCATCGATTATATTGCTGCAAAAGGCATGAAACCAGGCCTGTGGCTGGAGCTTGAGGTCATAGGTATTACGTGCACTCTGGCACAGAAACTTCCTGATGAATGCTTTTTCCAGCGCCATGGTAAACGAGTTATTGACCATCAGCGTTATCAGCTTGATTTCCGCCATCCCCTGGTTCAGGAACACGCCGATCGGGTTATTGCCCGGTTGGTTGATGAATACGGTATTAGTTATATTAAAATGGATTACAACATTAATGCCGGTAGTGGTACCGACTATCAGGCCGACAGCACAGGTGACGGACTGTTGCAGCATAACCGCGCCTACCTTTCCTGGCTGATTAAAACAATGAATCGTTATCCACACCTGGTGATAGAAAACTGCGGAAGCGGTGGACTCAGGATGGATTATGCTTTGCTGCAACATCACAGCATCCAGTCTGTTACCGATCAAACAGACTATCGTTTAATGGCTGTTATCGCATCGTCTGCTGCTTCTGCTGTTACGCCGGAACAGGCTGCTATCTGGTCTTATCCGCTGCGTGAGGGTGACCGGGAAGAAGTAGTGATGAATATGATTAATTCGATGTTATTACGCATACACCAAAGTGGCCATCTTGCGGAGCTTAGCGAGGAACGCTTTTTACTGGTTAAAGAAGGTATCGCACTATATAAAACCTTCCGCGAAAAGATCCCCCACATGACACCTTTCTGGCCGTTGGGAATGCCATCAATGTCATCGCCATGGCTTGCCTTCGGGCTTTACGATGATAATGATATATGGCTTGCGGTTTGGCGAATGGACAGCACTGAAGATACTATTTCACTCCCTCTCCCCATTCCTGAAGCAGAATACTTAAAAGTGAATTACGCTTACCCTCATTTTGATAAAAGTGAATACGCTTCCATTCGGGAAAATAACAGAGTGGAAATAACACTTCATAAAAAGTTCATGGCGAGGCTATTACACTGCCACCATTAA	MGFLEFKEEGFYISFSLNEEGVIYIDQFSTTDHGESHGEFPLIQVHASGYNQNDHHARKHTGCEPGSSLRYKTHRCYDNDLGKKLEVALTGDVISAYWHLQHFQHLKTARIWCEIHNHSQESIGLEYVSSLTLFAISSLPWEKNSVLHLPHNNWYGEAQWKRATLPELGLDKVNRFSLDRFSIENTGTWSSIGYLPCAAFEDLAAGTTLLWQIEHNGSWQWEIGDFREHLYLQISGPTENENHWWKQLMPGETFTSVPVAVSLVQGGLQEALQEITRYRRRILRPSQDNIVLPVIFNDYMNCLFGDPTTEKLLPLIDIAAVAGCEYFCIDCGWYSDGEWWDGVGEWQPSVTRFPRGIREPIDYIAAKGMKPGLWLELEVIGITCTLAQKLPDECFFQRHGKRVIDHQRYQLDFRHPLVQEHADRVIARLVDEYGISYIKMDYNINAGSGTDYQADSTGDGLLQHNRAYLSWLIKTMNRYPHLVIENCGSGGLRMDYALLQHHSIQSVTDQTDYRLMAVIASSAASAVTPEQAAIWSYPLREGDREEVVMNMINSMLLRIHQSGHLAELSEERFLLVKEGIALYKTFREKIPHMTPFWPLGMPSMSSPWLAFGLYDDNDIWLAVWRMDSTEDTISLPLPIPEAEYLKVNYAYPHFDKSEYASIRENNRVEITLHKKFMARLLHCHH	PGPT0018835_2248	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407	NA	NA
BMS020_01900	702	ompL		Porin OmpL	ATGAATTTCCTAAAAAAAACGTTCTACATTGCAGCATTGTTTTGTATGGCATTCTCCATTCCGGCATTGAGTGCCGGCCCCTGGATCGAAGCGCGTGATGGATACGAAACAGCCTATAATCGTCATGAACTAGCCTTTCGGGGAGGATATGATTTCAATAATGGTGCAGGTGTCATGTTAACCAATGCCTATAATTTAGAGGCATATGAACAACTCAAACATAGCTGGAATGAACTTGAAGGTTGGTATCCATTTTTATCTCTTTCTGAATTGACAATTTTTGTTGGTGCTATTGTCAATGAAAATACAGAGGGTTCAGGTGGGGCAGGATATTTTGACTTCAGATATACAGTTGCCCCTTCTCTAAGCTTTACGCTACGAACTCGTTATAATTATCGTAATTATGATTCTGTAAATTACCTTGGGAAAAAAGATTCCGATAATAACATGGAAACTCATATAGGAATGAATTATGTAATTAACAATGAATGGAATTATTACCTGGAGCCTGCTTATTATAGTCATTTTAATGACTTTCATGCCAGCAATGATAAAAACTATCACTGGGAAGTTGATAATGTTTTTACGTACACGGGGTTCAAGCATGCACAGCCATATTTTTCGGCAGCCTATATGGATCGCGTAACGGCGAAGCATGACGATAACTATCGAATTCGAATTGGTTTACGCTATAATTTCTGA	MNFLKKTFYIAALFCMAFSIPALSAGPWIEARDGYETAYNRHELAFRGGYDFNNGAGVMLTNAYNLEAYEQLKHSWNELEGWYPFLSLSELTIFVGAIVNENTEGSGGAGYFDFRYTVAPSLSFTLRTRYNYRNYDSVNYLGKKDSDNNMETHIGMNYVINNEWNYYLEPAYYSHFNDFHASNDKNYHWEVDNVFTYTGFKHAQPYFSAAYMDRVTAKHDDNYRIRIGLRYNF	PGPT0017275_272	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OLIGOGALACTURONATE_TRANSPORT,PGPT0017275-kdgM|kdgN|nanC|ompL-K22110	NA	NA
BMS020_01901	1377	cbs_1	COG0031	Putative cystathionine beta-synthase	ATGGTTATGTCACTGTTTCATTCCGTGATCGACCTGATCGGTCATACTCCCCTGCTCCAGTTGCACAAACTGGATACCGGCCCCTGCAGTCTGTTTTTAAAACTGGAAAATCAGAACCCGGGCGGCTCAATTAAAGATCGGGTTGCGCTGTCGATGATTAACGAAGCCGAGCGCCAGGGAAAACTGGCGCCCGGCGGGACAATTATCGAAGCCACCGCCGGCAATACCGGCCTCGGCCTGGCGCTGATTGCGGCGCAGAAAAATTACCGCCTGATCCTGGTGGTGCCGGACAAAATGAGCCGCGAGAAAATCTTTCACCTGCGGGCGCTGGGCGCGACGGTGCTGCTCACCCGCTCCGACGTCAATAAAGGCCACCCGGCCTACTACCAGGATTATGCCCGCCGCCTTGCCGATGAAACGCCGGGGGCTTTTTACATCGACCAGTTTAACAACGACGCTAATCCGCTGGCGCACGCTACCTCCACCGCGCCGGAACTTTTCCAGCAGCTGGAGGGCGACATAGACGCCATCGTCGTCGGCGTTGGCTCCGGCGGCACGCTGGGCGGGCTTCAGGCCTGGTTTGCAGAACATTCGCCGAAAACGGAATTTATCCTCGCCGATCCGGCGGGCTCGATCCTTGCCGATCAGGTTGATACCGGACGCTACGGCGAAACGGGATCCTGGCTGGTCGAAGGGATTGGAGAAGATTTCATCCCGCCGCTGGCCAGGCTGGAAGGGGTGCATACCGCCTATCGCGTCAGCGACCGCGAAGCGTTCCACACCGCGCGCCAGCTGCTGCAGGTCGAAGGCGTGCTGGCCGGCTCCTCCACCGGCACCCTGCTCAGCGCCGCGCTGCGCTACTGCCGGGCGCAAAGCCGTCCGAAGCGGGTGGTGACCTTCGCCTGCGACAGCGGCAATAAATACCTGTCAAAAATGTTCAACGACGACTGGATGCGCCAGCAGGGGCTGATCGCCCGCCCCGAACAGGGCGATCTCAGTGATTTTATCGCCCTGCGCCATGACGAAGGCGCCACCGTCACGGCCGCGCCGGACGACACCCTGGCCGCAGTCTTTACCCGCATGCGGCTGTATGACATCTCCCAGCTGCCGGTGCTGGAGGATGGCCGCGTGGTCGGCATCGTCGATGAGTGGGATTTGATCCGCCACGTAAGGGGCGATCGCCAACGCTTCTCGCTGCCGGTCAGCGAAGCGATGAGCCGCCATGTTGAAACTCTCGATAAGCGTGCGCCAGAGAGCGAACTGCAGGCCATTCTCGATCGCGGTCTGGTGGCGGTGATCGCTGACAACGCGCGTTTTCTTGGCCTGGTCACCCGCAGCGATGTACTGACCGCCTGGCGTAACCGAGTCGCACAATAA	MVMSLFHSVIDLIGHTPLLQLHKLDTGPCSLFLKLENQNPGGSIKDRVALSMINEAERQGKLAPGGTIIEATAGNTGLGLALIAAQKNYRLILVVPDKMSREKIFHLRALGATVLLTRSDVNKGHPAYYQDYARRLADETPGAFYIDQFNNDANPLAHATSTAPELFQQLEGDIDAIVVGVGSGGTLGGLQAWFAEHSPKTEFILADPAGSILADQVDTGRYGETGSWLVEGIGEDFIPPLARLEGVHTAYRVSDREAFHTARQLLQVEGVLAGSSTGTLLSAALRYCRAQSRPKRVVTFACDSGNKYLSKMFNDDWMRQQGLIARPEQGDLSDFIALRHDEGATVTAAPDDTLAAVFTRMRLYDISQLPVLEDGRVVGIVDEWDLIRHVRGDRQRFSLPVSEAMSRHVETLDKRAPESELQAILDRGLVAVIADNARFLGLVTRSDVLTAWRNRVAQ	PGPT0020005_893	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020005-cbs-K01697	NA	NA
BMS020_01902	1149	metC_2	COG0626	Cystathionine beta-lyase	ATGTCATCTATCCACACCCTGAGCGTACATAGCGGAACCTTCACCGACAGCCACGGCGCAGTGATGCCGCCGATTTACGCCACCTCCACTTTTGCTCAGCCGGCGCCGGGGCAGCATACCGGCTATGAATATTCCCGTAGCGGGAACCCTACCCGCCACGCGCTGGAGACGGCGATCGCCGACCTGGAAAACGGCACGCGCGGCTACGCGTTCGCCTCCGGGCTGGCCGCCATCTCCACCGTGCTGGAGCTGCTGGATAAGGACAGCCACCTGGTGGCGGTCGATGATGTGTATGGCGGCACTTACCGCCTGCTGGAAAACGTTCGCCGCCGTAGCGCTGGTCTGCAGGTGAGCTGGGTGAAACCCGACGACCTGGCGGGGATTGAAGCGGCGATCCGCCCCGATACGCGCATGATATGGGTGGAGACGCCCACCAACCCGCTGCTGAAGCTGGCGGATCTCAGCGCCATCGCCGCCATCGCGCGCCGCCATAACCTGATCAGCGTCGCCGATAACACTTTCGCCTCGCCGGCGATCCATCGCCCGCTGGAGCATGGGTTTGATATAGTGATCCACTCCGCGACCAAGTACCTCAACGGCCATTCCGATGTCGTCGCCGGCCTGGCGGTGGTTGGCGATAACGCTGAGCTCGCGGAAAAGCTTGGCTACCTGCAGAATGCGGTAGGCGGTGTACTCGACCCGTTCAGCAGCTTCCTGACGCTACGCGGCATCCGCACCCTGGCGCTGCGGATGGAGCGACACAGCGCGAACGCGCTGCAGCTCGCCGAATGGCTGGAACAGCAGCCGGAGGTGGAGCGAGTCTGGTTCCCCTGGCTGGCCTCGCACCCGCACCATCAGCTGGCGCGCCAGCAAATGGCCCTGCCCGGCGGCATGATTTCCGTCGTGGTGAAGGGCGATGACGGTTACGCCAAACGCATTATCAACAAGTTGCGCTGGTTCACCCTTGCGGAGAGTCTGGGCGGCGTGGAGAGCCTGGTAAGCCAGCCCTTCAGCATGACCCACGCCTCGATCCCGCTGGAGAAGCGCCTGGCGAACGGCATCACGCCGCAGCTGATCCGCCTGTCGGTCGGGATCGAAGATCCTCACGATCTGATTGCCGACTGGCAGCAGGCGCTACGGGAGGAGTGA	MSSIHTLSVHSGTFTDSHGAVMPPIYATSTFAQPAPGQHTGYEYSRSGNPTRHALETAIADLENGTRGYAFASGLAAISTVLELLDKDSHLVAVDDVYGGTYRLLENVRRRSAGLQVSWVKPDDLAGIEAAIRPDTRMIWVETPTNPLLKLADLSAIAAIARRHNLISVADNTFASPAIHRPLEHGFDIVIHSATKYLNGHSDVVAGLAVVGDNAELAEKLGYLQNAVGGVLDPFSSFLTLRGIRTLALRMERHSANALQLAEWLEQQPEVERVWFPWLASHPHHQLARQQMALPGGMISVVVKGDDGYAKRIINKLRWFTLAESLGGVESLVSQPFSMTHASIPLEKRLANGITPQLIRLSVGIEDPHDLIADWQQALREE	PGPT0001980_962	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001980-metB|met|cysA-K01758	NA	NA
BMS020_01903	912	dmlR_13		HTH-type transcriptional regulator DmlR	ATGGATAAGCTGCGAGGGATGGAGACGTTTATTGCCGTGGTGGAGTGCGGCAGCTTTACCGGGGCGGCGTCGCGCCTGGGGCTGTCGGCGGTAATGGTCGGGAAATACATCGCCCAGCTGGAAACCCAGCTGGCGACGCGTCTGCTGGAGCGTAACACCCGACGCCAGAGCCTTACCGACGCCGGGCGGGTCTATTTTGACGAAGCGAAACGGGTGATGGAGCAGGTCTCCATCGCCGAAAGCGCCGTTGAGCGGCTGCGGCTGGCGCCCGCCGGCACCCTGCGGGTGAGCGCGCCCACCTCGTTCGGCGCCAGCGTGATCGCGCCTCTGACCGCCACCTTTCTGCAGGCCTGGCCAGCGGTTCGGGTTGAACTGGATCTGACCAACCGGATGGTCGATCTGGTGGATGAAGGTTTCGATCTGGCGATCCGCATTGGCGAGATCCATCAGGAGGATCTGGTGGCCCGCTATCTGGCGCCCTATCGGATGGTGATCTGCGCCGCGCCGGCTTATCTGGCGCGTTACGGAACGCCAGGGACGCCGGAAGATCTCGCCGATCATCTCTGCCTGTCCCATACGGTCTGGACCGCGCGCAACGAGTGGCGGCTGCCGGGCATGGAGGGGGAAGTGCGCTGGAAGCGCGATGCGGTTTTGCGCTGCAACGATGGCTATGCGCTGCGCCAGGCGGCGATCGCCGGGGCCGGGCTGCTGATGCAGCCGGAGGTGCTGCTGGCCGATGCGCTGGCCAGCGGCAGCCTGATGCGGGTGCTGGACGCGTGGACCCCACAGCCGAGGCCCGTGCATCTGCTCTGGCGCCAGGATCGCCGGCCCCTGCCGAAGCTGACGCAGTTTATCGCCCACCTTCAGCAGGGAATGGCCGACGCGCTGGCGATGACCCGCGCGTCGGAATAA	MDKLRGMETFIAVVECGSFTGAASRLGLSAVMVGKYIAQLETQLATRLLERNTRRQSLTDAGRVYFDEAKRVMEQVSIAESAVERLRLAPAGTLRVSAPTSFGASVIAPLTATFLQAWPAVRVELDLTNRMVDLVDEGFDLAIRIGEIHQEDLVARYLAPYRMVICAAPAYLARYGTPGTPEDLADHLCLSHTVWTARNEWRLPGMEGEVRWKRDAVLRCNDGYALRQAAIAGAGLLMQPEVLLADALASGSLMRVLDAWTPQPRPVHLLWRQDRRPLPKLTQFIAHLQQGMADALAMTRASE				NA	NA	NA	NA	NA
BMS020_01904	603			hypothetical protein	ATGAAAATTATCGTTATCGGTGCCAGCGGCACCATTGGTCGCGCGGTCAGCGAAGAACTGGGCCAGAGACATGACGTTATCCGCGTCGGCCGCACCCGGGGGGATTATCAAGTGGATATTACCTCCCAGGGGAGCGTCGAGGCGCTGTTTGCGCAGACCGGCGAAGTAGACGCCATCGTCTCCACTACCGGCAATCTGCACTTTGGGCCGTTAAGCACCATGACCGATAGCCAGTTCAACCTCGGTCTGCAGGACAAGCTGCTGGGGCAAATTCGCCTGGCGCTGATCGGCCAGCATTTCCTGCGCGACGGCGGGTCGATTACTCTGGTCAGCGGCATTGTCGCGCAGGAGCCGATTGCTCAGGGCGTCAATGCCACGACGGTTAACGCCGGTCTGGAAGGCTTTGTGCGCGCCGCCGCCTGCGAACTACCGCGCGGGATCCGCATTAATCTCATCAGCCCCACCGTGCTCAGCGAGTCGCTGGCGGCCTACGGCGACTTTTTCCCGGGCTTTGCCAGCGTCCCCGCCGCCGCCGTGGCGCAGGCCTATCGCCGCAGCATTGAAGGGGTGCAGACCGGCCGCATCTACCCGGTCGGCTACTAG	MKIIVIGASGTIGRAVSEELGQRHDVIRVGRTRGDYQVDITSQGSVEALFAQTGEVDAIVSTTGNLHFGPLSTMTDSQFNLGLQDKLLGQIRLALIGQHFLRDGGSITLVSGIVAQEPIAQGVNATTVNAGLEGFVRAAACELPRGIRINLISPTVLSESLAAYGDFFPGFASVPAAAVAQAYRRSIEGVQTGRIYPVGY				NA	NA	NA	NA	NA
BMS020_01905	339			hypothetical protein	ATGTTGAAAAAATTACCTTTTATTATCCCGCTGCTGGCGCTTATCGCGCTGCTGGTCTGGTGGTTCACCCCGCATTACACCGAGGAAGACGAAGCTTACTACCGGGCGGTATTTTGCGTGATCGATCATGACGACAGCCGCCAGTTCCTCGACGATATGCAAAACATCGTCGAGGGGGGGAATTCAGACTACGCGCTGCATAAAGCGCATTACCTGCCGGCGCTGGGGCAGCGGATGCTGGACACCTGGCATCAGCTCAGCCCGCAGGAACAGCAGACGCTGCGTCAGGATCGGCAGCGCTGCGGCGAGATATTACGGGCAAAACAGCAGGGTGAATAA	MLKKLPFIIPLLALIALLVWWFTPHYTEEDEAYYRAVFCVIDHDDSRQFLDDMQNIVEGGNSDYALHKAHYLPALGQRMLDTWHQLSPQEQQTLRQDRQRCGEILRAKQQGE				NA	NA	NA	NA	NA
BMS020_01906	189			hypothetical protein	ATGCCTGTCATTATTGCCAGTAGTGTTAAAGAAGCCAAAGCGTTAATTAACGGTGGGGAATACAGGGAAATTATTCTTAACTTCGATATTGATGCCGATGACTTTTTCTCTCTCGCCAGCCATTCGGCTGGGACAAAAATCTCCATCTCCGACCGAAACGATCGCTCTCCGGTAAAATCAGCAAAATAA	MPVIIASSVKEAKALINGGEYREIILNFDIDADDFFSLASHSAGTKISISDRNDRSPVKSAK				NA	NA	NA	NA	NA
BMS020_01907	90			hypothetical protein	ATGTGGTTGTTTATTGGTACCTTTGCGGTGGCTTTTCTCGCAGCGCTGATGTTGGTCTGGCTGGATGATCGCATCGCCGATACGGAGTGA	MWLFIGTFAVAFLAALMLVWLDDRIADTE				NA	NA	NA	NA	NA
BMS020_01908	1182	lysN_3	COG1167	2-aminoadipate transaminase	ATGCACGATCGGCGTCTCGCCGCCCGCGCGGGTGAACTCAAGCCCTCCGCCGTCCGCGAACTTCTCAAGCACAGTAAACTGCCGGGCGTGATCTCGCTTGGCGGCGGCATTCCGGCCCCGGAACTGTTTGATACCGAAGGCCTGGAGCTGGCGGTGCAGAAGGTGATGAGCGAGCGTTTTCATGACGCATTTCAGTACGGTCTGACCGAGGGCTACCCGCCGCTGCGTCAGGCGGTGAGTGAAATCTGCCACGCCCGTGGCGTGACCTGTTCAGCCGCTCAGGTCTATATCACCTCCGGCTCCCAGCAATCGCTGGATATCGTTGCCCGCACGCTGCTCGATCCAGGCGATACTATCGTCGTTGAGCGACCCACCTATCTGGCGGCGCTGCAGGTGTTTCAGCTGGCGCAGGCCAATATCCTCAGCGTCGATACCGATGATGACGGGATGCTGGTGGAGCAACTGGCCGACCTGCTGGAGACCACCCGCGTCAAAGCCGTCTACCTGGTGCCGACGTTCGGCAACCCCGGCGGTAAAACGCTGAGCGAGGCGCGTCGTCGCCGGCTGGTCGAGCTGGCGAAAAAATATGACTTCGTCATTCTGGAAGACGATCCCTACGGTGAAATTAGCTTTACTGACGCCGTGCGACGTCCGCTCTATCAGCACGCCGTTGAGCTGGGCTGTGAAGATCAGGTGGTTTACACCTCGACGTTTTCAAAGATCCTCGCGCCGGGGATGCGTATCGGCTGGATCGTCATGCCGGACTGGCTGGCGCAGCAGACGGTGATCGTTAAGCAGGCGGCGGATCTGCATACCAATATGCTGTCGCAGGTGATCACCGCGGAATACCTCAGCCTGAACCGGCTGCAAAATCAGATTGCGTTGATTCGCGAAGACTATCGCAAGAAGTGCGTGGCGCTGGCCGACGCGCTGGAGAGTCGCCTTGGCGAGCATCTGGAATTCAGCCGCCCACAGGGTGGGATGTTCCTGTGGGCGCGTTTCCGCTATCCATTCGATACCATGGCATGGATGAAGAAAACGCTGGAAAACGGCGTTGTGTACGTCCCGGGGGAAGCGTTCTATCACGATAATCCGGATACCCGTACCCTGCGCCTTTCCTACTCCACGGTGTCGGAAGCGGGGCTGCTGACCGCCGTTGAGCGGCTGGCGGCCTCCCTGTAA	MHDRRLAARAGELKPSAVRELLKHSKLPGVISLGGGIPAPELFDTEGLELAVQKVMSERFHDAFQYGLTEGYPPLRQAVSEICHARGVTCSAAQVYITSGSQQSLDIVARTLLDPGDTIVVERPTYLAALQVFQLAQANILSVDTDDDGMLVEQLADLLETTRVKAVYLVPTFGNPGGKTLSEARRRRLVELAKKYDFVILEDDPYGEISFTDAVRRPLYQHAVELGCEDQVVYTSTFSKILAPGMRIGWIVMPDWLAQQTVIVKQAADLHTNMLSQVITAEYLSLNRLQNQIALIREDYRKKCVALADALESRLGEHLEFSRPQGGMFLWARFRYPFDTMAWMKKTLENGVVYVPGEAFYHDNPDTRTLRLSYSTVSEAGLLTAVERLAASL	PGPT0007135_1670	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
BMS020_01909	1866	gss	COG0754	Bifunctional glutathionylspermidine synthetase/amidase	ATGAGCAAAGGATCGACAAGCAGTGACGCCCCGTTTGGGACATTGTTAGGCTACGCGCCCGGCGGCGTGGCAATTTATTCATCGAATTACAGTAGCTTAAATCCGCAGGACTATCCGGATGACGCGACGTTTCGCAGCTACATCGGCAATGAGTATATGGGGCATAAATGGCAGTGCGTTGAATTTGCGCGCCGCTTTCTGTTCCTGACCTACGGGTTTGTCTTTACCGATGTGGGGATGGCCTATGAAATCTTCTCCCTGCGCTTTCTGCGCGAAGTGGTCAATGACAATATTCTCCCGCTGCAGGCCTTCGCCAACGGCGCCCGTCGTCCGCCGATCGCCGGTTCGCTGCTGATCTGGCAGAAGGGCGGCGAGTTCAAGCACACCGGCCACGTCGCGGTGATCACCCAGCTTGTCGGCAATAAGGTGCGTATCGCCGAGCAGAACGTCATTCACTCGCCGCTGCCGCAGGGCCAGCAGTGGACCCGCGAGCTGACCCTCGAGGTCAACGCCGGTCGGTACACTATCAAAGATACCTTTGCCGATACCGAAATTTTAGGCTGGATGATCCAGACCGCCGATACCGAACACAGCCTGCCGCAGCCGGTGCTGCCGGGCGAGGCGATGGCGATCAAGGGCGCGCGGCTGCCGAACAACGGCCAGTTCCGCGGCAAATGGCTGAACGAGAAAGATCCGCTGCAGAAAGCCTACGTGGCGGCCAACGGCCATTTTATCAATCAGGATCCCTATCAGTATTTCACCATCAGCGAAAGCGCCGAACAGGAGCTGATTAAAGCCACCAACGAGCTGCACCTGATGTATCTGCACGCCACCGATAAGGTAATGAAGGATGATAACCTGCTGGCGCTGTTTGATATCCCGAAAATCCTCTGGCCGCGTCTGCGTCTCTCGTGGCAGCGCCGGCGTCATCATATGATCACCGGGCGCATGGATTTTTGCATGGACGAGCGCGGGCTGAAGGTGTACGAGTACAATGCCGACTCCGCCTCCTGCCATACCGAAGGCGGGCTGATCCTCGAGCAGTGGCTGAAGCAGGGCTACTACGGCACGGGTCACAATCCGGCCGAAGGTCTGCTCGATGAGCTGGCGGGGGCGTGGAAACACAGCCGGGCGCGGCCTTTCGTGCACATCATGCAGGACAAGGATCTGGAAGAGAATTACCACGCGAAGTTTATCCAGCGTTCGCTGACCCAGGCCGGTTTTGAGAGCAAAATTCTCTTTGGCCTCGATGAACTGCGCTGGGATGCCGCCGGCCAGCTGATCGACGCCGACGGGCGGCTGGTCAACTGCGTCTGGAAAACCTGGGCATGGGAAACCGCCATTGAGCAGGTGCGCGAAGTCAGTGCCGATGAGTACGCGGCGGTGCCGATTCGTACCGGACATCCGCAGAATGAGGTGCGACTGATTGACGTCCTGCTGCGTCCTGAAGTATTGGTATTCGAACCCCTGTGGACGGTGATCCCGGGCAACAAAGCGATCCTGCCGGTGCTGTGGTCGCTGTTCCCGCATCATCGCTATCTGCTGGATACCGATTTCGTGGTTAACGACGAGCTGGCGAAAACCGGTTATGCCGTGAAGCCCATTTCCGGACGCTGCGGGAACAATATCGACCTGATCGGGCCTCAGGATGAGGTTCTGGATCAGACCAGCGGCCAGTTTGTCGATCGTAAGAATATCTACCAGCAGCTGTGGTGCCTGCCGAAAGTGGATGGCAAGTATATCCAGGTGTGCACCTTTACCGTCGGCGGTAACTACGGCGGTACCTGCCTGCGCGGCGATTCGTCGCTGGTGGTGAAAAAAGAGAGCGACATAGAGCCGCTGATCGTATTGAAAGATAAAGCGTGA	MSKGSTSSDAPFGTLLGYAPGGVAIYSSNYSSLNPQDYPDDATFRSYIGNEYMGHKWQCVEFARRFLFLTYGFVFTDVGMAYEIFSLRFLREVVNDNILPLQAFANGARRPPIAGSLLIWQKGGEFKHTGHVAVITQLVGNKVRIAEQNVIHSPLPQGQQWTRELTLEVNAGRYTIKDTFADTEILGWMIQTADTEHSLPQPVLPGEAMAIKGARLPNNGQFRGKWLNEKDPLQKAYVAANGHFINQDPYQYFTISESAEQELIKATNELHLMYLHATDKVMKDDNLLALFDIPKILWPRLRLSWQRRRHHMITGRMDFCMDERGLKVYEYNADSASCHTEGGLILEQWLKQGYYGTGHNPAEGLLDELAGAWKHSRARPFVHIMQDKDLEENYHAKFIQRSLTQAGFESKILFGLDELRWDAAGQLIDADGRLVNCVWKTWAWETAIEQVREVSADEYAAVPIRTGHPQNEVRLIDVLLRPEVLVFEPLWTVIPGNKAILPVLWSLFPHHRYLLDTDFVVNDELAKTGYAVKPISGRCGNNIDLIGPQDEVLDQTSGQFVDRKNIYQQLWCLPKVDGKYIQVCTFTVGGNYGGTCLRGDSSLVVKKESDIEPLIVLKDKA	PGPT0007755_89	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007755-gsp-K01460	NA	NA
BMS020_01910	561			hypothetical protein	ATGAGCACACCCTCGCATCTGAATGCCCAACCGCTGGTCTGGGGACACGGCCCGCGGACGTTTGAGGTGTTCCTTGAGCCCACCTGCCCCTACTCTGTCCGCGCGTTTAATAAACTCGACGATCTGCTCGATGAGGTCGGCGCCGATAACGTAACCATCAAGATACGGCTGCAGTCGCAGCCGTGGCATCTGTTCTCCGGGGTGATTGTCCGCTGCATCCTCGCCGCGTCCACCCTGCCGCATGGCAGAGAGCAGGCGCATAAGGTGATGCAGGCCGTGGCAGACCATCGGGAAGAGTTTGAATTTACCGATCACTGCAGCGGGCCGAACATGAACGCCACGCCGCAGCAAATCATTGAACGCATTGAGCGCTACAGTCACGTCCTGCTGGGGGCCGCCTTTGCCCGCCCGGAGCTGCAGGACGTGATCAAGTGGCACAGCAAATATGCCCGCCAGAACGGCATCCATGTCTCGCCGACCTTTATGGTCAATGGTCTGGTGCAGCCGGATCTGGGCAGCGGCGATGATGTCAGCGTGTGGGCCGCGCGGATTATGGCCTGA	MSTPSHLNAQPLVWGHGPRTFEVFLEPTCPYSVRAFNKLDDLLDEVGADNVTIKIRLQSQPWHLFSGVIVRCILAASTLPHGREQAHKVMQAVADHREEFEFTDHCSGPNMNATPQQIIERIERYSHVLLGAAFARPELQDVIKWHSKYARQNGIHVSPTFMVNGLVQPDLGSGDDVSVWAARIMA	PGPT0013062_94	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013062-thioredoxine_like-NA	NA	NA
BMS020_01911	867	yghU	COG0625	Disulfide-bond oxidoreductase YghU	ATGTCAGAGCAAAACTACCAGCCACCAAAAGTGTGGGAATGGAAGCAAAACAGCGGCGGCGCGTTCGCCAACATCAACCGTCCCGTTTCCGGCGCGACTCATGAACGCGTCCTGCCGGTGGGAACCCATCCGCTCCAGCTATACTCACTTGGCACGCCCAACGGCCAGAAGGTGACGATCATGCTGGAGGAGCTGCTGGCGCTGGGCGTCAGCGGCGCGGAGTACGACGCCTGGCTGATACGCATTGGCGAAGGCGATCAGTTTTCCAGCGGCTTTGTCGACATCAACCCGAACTCGAAGATCCCGGCGCTGAGCGATCACTCCACCACACCGCCTACCCGAGTATTCGAATCCGGCAACATTCTTCTCTATCTGGCGGAAAAATTTGGCTTCTTCCTGCCGAAGGATCCCGCTGGCCGCACTGAAACCCTTAACTGGCTGTTCTGGCTGCAGGGCGCCGCACCCTTCCTCGGCGGCGGCTTCGGCCACTTCTATAACTATGCGCCGGTGAAGATCGAGTACGCGATCGATCGCTTTACCATGGAAGCCAAACGCCAGCTCGACGTGCTGGACAAACAGCTCGCCCGCGGTCGCTATGTGGCCGGCGAGGAGTATACCATCGCCGATATGGCGGTCTGGCCATGGTATGGCAACGTGGTGCTGGGCAATGTCTATAACGCGGCGGAGTTCCTCGACGCCGGGAGCTACACCAACGTGCTGCGCTGGGCGCAGGATGTCGGCAACCGTCCCGCCGTCAAGCGTGGACGCATCGTTAACCGCACCAACGGCCCGCTCAATGAGCAGCTGCATGAGCGCCACGACGCCCGCGACTTTGACACCCAAACGGAAGATAAGCGCCAGGCGTAG	MSEQNYQPPKVWEWKQNSGGAFANINRPVSGATHERVLPVGTHPLQLYSLGTPNGQKVTIMLEELLALGVSGAEYDAWLIRIGEGDQFSSGFVDINPNSKIPALSDHSTTPPTRVFESGNILLYLAEKFGFFLPKDPAGRTETLNWLFWLQGAAPFLGGGFGHFYNYAPVKIEYAIDRFTMEAKRQLDVLDKQLARGRYVAGEEYTIADMAVWPWYGNVVLGNVYNAAEFLDAGSYTNVLRWAQDVGNRPAVKRGRIVNRTNGPLNEQLHERHDARDFDTQTEDKRQA	PGPT0013045_378	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013045-yghU|yfcG-K11209	NA	NA
BMS020_01912	888			hypothetical protein	ATGACGCGATTAACGGCCAAAGATTTCCCGCAGCAGCTGCTCGAGTATTATGACTACTATGCCCACGGTAAAATCAGCAAACGCGAGTTTCTCCAGCTGGCGGGGAAATATACCGTCGGCGGGATGACCGCGCTGGCGCTATTTAATCTGCTGAAGCCCGACTATGCCCTGGCAGAGCAGGTACCGTTCACCGACCCGGATATCCGCCCGGAGTATATTCATTATCCCTCTCCTGACGGCCACGGCGAAGTGCGGGCTTACCTGGTGACGCCGACGAAAATAGCCGACAAAGCGCCCGCCGTGGTGGTGGTGCATGAGAACCGCGGCCTGAATCCCTATATTGAAGACGTCGCCCGGCGGGTAGCGAAAGCGGGGTATATCGCGCTGGCGCCGGATGGCCTGAGCTCCGTCGGCGGCTATCCGGGGAATGATGATGAAGGCCGTGCGCTGCAGCAGAAAGTCGATCCCGTGAAGCTGATGAATGACTTTTTTGCCGCGGTCGCGTTTATGGCGAAGCATCCGCAGGCGACGGGGAAGGTTGGTATCACCGGTTTTTGTTACGGCGGCGGCGTCAGCAACGCGGCGGCGGTCGCCATTCCGGAGCTGGCCTGCGCGGTGCCGTTTTACGGCCGCCAGCCGCCGCTGAAGGAGGTCGATAAAATTAAAGCGCCGCTGCTGCTGCACTATGCCGGCCTCGATAGCGGCATTAATGAAGGCTGGCCCGCCTATGAACAGGCGTTGAAGGAATACCATAAAGTCTATGAGGCCTATCTTTATCAGGGCGTGAATCACGGCTTTCATAATGATTCCACGCCGCGCTACGATCGGGCTGCGGCGGACCTGGCCTGGCAACGCACGCTGGCATGGTTTGAGAAGTATTTACGCTAG	MTRLTAKDFPQQLLEYYDYYAHGKISKREFLQLAGKYTVGGMTALALFNLLKPDYALAEQVPFTDPDIRPEYIHYPSPDGHGEVRAYLVTPTKIADKAPAVVVVHENRGLNPYIEDVARRVAKAGYIALAPDGLSSVGGYPGNDDEGRALQQKVDPVKLMNDFFAAVAFMAKHPQATGKVGITGFCYGGGVSNAAAVAIPELACAVPFYGRQPPLKEVDKIKAPLLLHYAGLDSGINEGWPAYEQALKEYHKVYEAYLYQGVNHGFHNDSTPRYDRAAADLAWQRTLAWFEKYLR	PGPT0005685_972	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_CHLOROBENZENE_DEGRADATION,PGPT0005685-catA-K01061	NA	NA
BMS020_01913	495			hypothetical protein	ATGGAACGCTTTCTGGAAAATGCTATGTACGCCTCGCGCTGGCTGCTGGCGCCGGTTTATTTTGGCCTCTCGCTCGGTCTGATTGCGCTGACCATCAAATTTTTTCAGGAGATCTTCCACATACTGCCGCATATTTTTAGCGTCAGTGAGTCGGATATGATTCTGACCCTGCTGTCGCTGGTGGATATGACCCTGGTGGGCGGTTTGCTGGTGATGGTGATGTTCTCCGGGTATGAAAATTTTGTCTCGCAGCTGGATATTAACGAGGGTAAAGAAAAACTCAGCTGGCTGGGCAAAATGGACGCGACGTCGCTGAAAAATAAGGTTGCCGCCTCCATCGTGGCGATCTCCTCTATTCACCTGCTGCGGGTGTTTATGGATGCGAAAAACGTCCCGGACAATAAGCTGATGTGGTATGTCATCATCCATCTGACCTTTGTGCTGTCGGCCTTTGTGATGGGCTACCTCGATCGTCTGACCAAAGTGAAACACTGA	MERFLENAMYASRWLLAPVYFGLSLGLIALTIKFFQEIFHILPHIFSVSESDMILTLLSLVDMTLVGGLLVMVMFSGYENFVSQLDINEGKEKLSWLGKMDATSLKNKVAASIVAISSIHLLRVFMDAKNVPDNKLMWYVIIHLTFVLSAFVMGYLDRLTKVKH				NA	NA	NA	NA	NA
BMS020_01914	426	exbD_1	COG0848	Biopolymer transport protein ExbD	ATGGCGATGCGTCTTAATGAAAATCTGGACGATAACGGCGAAATGCATGAGATCAACGTGACGCCGTTTATCGACGTCATGCTGGTTCTGCTGATTATCTTCATGGTAGCCGCGCCGCTGGCGACGGTCGACGTGAAGGTGAATCTGCCGGCCTCCTCCAGCCAGCCGCAACCGCGACCGGAAAAACCTATCTACCTGTCGGTGAAGGCGGATAAGAGCATGTTCCTCGGCAACGACCCGGTGACCGAAGCGAATATGATTAACGCCCTGGATAGCCTGACCGCCGGCAAAAAAGATACCACCGTCTTCTTCCGCGCGGATAAAACCGTCGATTACGAGACGATGATGAAAGTGATGGATACCCTGCATCAGGCGGGCTATCTCAAGATCGGGCTGGTGGGCGAAGAGACCGTCAAAGTCAAATAA	MAMRLNENLDDNGEMHEINVTPFIDVMLVLLIIFMVAAPLATVDVKVNLPASSSQPQPRPEKPIYLSVKADKSMFLGNDPVTEANMINALDSLTAGKKDTTVFFRADKTVDYETMMKVMDTLHQAGYLKIGLVGEETVKVK	PGPT0003755_1747	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003755-exbD-K03559	NA	NA
BMS020_01915	732	exbB	COG0811	Biopolymer transport protein ExbB	GTGGGTAATAATTTGATGCAGGCGGATCTCTCCGTTTGGGGTATGTATCATCATGCCGATATTGTCGTTAAGGTGGTGATGATAGGCCTGATTCTGGCGTCGGTCGTCACCTGGGCCATCTTCTTCGGTAAAGGGGCGGAAATCCTCGCCAGCAAGCGTCGCCTCAAACGTGAACAGCAGCAGCTGGCGGAAGCCCGCTCTCTCGATCAGGCCAGCGATATTGCCAGCGCCTTTGAGGCGAAAAGCCTCACCACCCAGCTTATCAATGAAGCGCAGAACGAACTCGAACTCTCCGCCGGTGCCGAAGACAATGAAGGCATCAAGGAGCGAACCGGTTTCCGCCTTGAGCGCCGCGTCGCGGCCGTCGGTCGCCATATGGGGCGCGGCAACGGCTATCTGGCCACCATCGGCGCCATTTCGCCGTTCGTGGGCCTGTTCGGGACCGTCTGGGGCATCATGAACAGCTTTATCGGCATCGCCCAGACCCAGACCACCAACCTTGCGGTGGTGGCGCCGGGCATCGCGGAAGCGCTGCTGGCGACAGCTATCGGTCTGTTCGCCGCCATCCCGGCGGTGGTCATCTATAACATCTTCGCCCGCATGATAGGCAGCTATAAGGCCTCGCTTGGCGACGTCGCCGCTCAGGTCCTCCTGCTGCAAAGCCGCGACCTGGACCTCAGCGCCAGCGGCGTGAAGCCGGTGCGCAGCGCGCAGAAATTACGGGTAGGTTGA	MGNNLMQADLSVWGMYHHADIVVKVVMIGLILASVVTWAIFFGKGAEILASKRRLKREQQQLAEARSLDQASDIASAFEAKSLTTQLINEAQNELELSAGAEDNEGIKERTGFRLERRVAAVGRHMGRGNGYLATIGAISPFVGLFGTVWGIMNSFIGIAQTQTTNLAVVAPGIAEALLATAIGLFAAIPAVVIYNIFARMIGSYKASLGDVAAQVLLLQSRDLDLSASGVKPVRSAQKLRVG	PGPT0003750_2550	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003750-exbB-K03561	NA	NA
BMS020_01916	1188	metC_3	COG0626	Cystathionine beta-lyase MetC	ATGGCTGATAAACATCTTGATACCGCGCTGGTCAACGCCGGGCGGAGCAAAAAATATACCCAGGGCTCAGTGAACAGCGTGATCCAGCGCGCGTCATCGCTGGTTTTCGACACCGTAGAGGCCAAAAAGCACGCCACCCGCAATCGGGCCAACGGCGAGCTGTTCTACGGGCGTCGCGGCACCCTGACCCACTTCTCGCTGCAGGAAGCGATGTGCGAGCTGGAGGGCGGCGCCGGCTGCGCCCTCTTCCCCTGCGGCGCCGCCGCGGTGGCCAACACTATCCTGGCGTTTGTCGAGCAGGGCGACCATGTGCTGATGACCAATACCGCCTATGAGCCAAGCCAGGATTTTTGTACCAAAATTCTCGCCAAACTCGGCGTGACCACCAGCTGGTTCGATCCCTTAATCGGCGCCGATATTGCCCGTCTGGTTCGCCCTGAGACCCGCGTGGTGTTCCTGGAATCGCCCGGCTCCATCACCATGGAAGTGCACGATGTGCCGGCGATTGTCGCCGCCGTGCGTCAGGTCGCCCCGGAAGCGATTATCATGATCGATAACACCTGGGCGGCGGGGATCCTGTTCAAAGCGCTGGATTTTGGCATTGATATTTCTATTCAGGCAGGCACCAAATACCTGATCGGCCACTCCGACGCCATGGTCGGCACCGCGGTGGCGAACGCGCGCTGCTGGCCGCAGTTGCGTGAGAATGCCTATCTGATGGGGCAAATGCTGGACGCCGATACCGCCTATATGACCAGCCGCGGCCTGCGCACGCTGGGCGTCCGCCTGCGTCAGCATCATGAAAGCAGCCTGCGCATCGCCGAGTGGCTGGCGCAGCATCCGCAGGTGGCGCGGGTCAACCACCCCGCTCTGCCCGGCAGTAAAGGCCATGAGTTCTGGAAGCGCGATTTTACCGGCAGCAGCGGGCTGTTCTCTTTTGTGCTCAACAAGCGTCTCAACGACGCTGAGCTGGCAGCGTATCTCGACAACTTCAGCCTGTTCAGCATGGCCTACTCGTGGGGCGGCTTTGAGTCGCTGATTCTGGCCAATCAGCCGGAGCAAATCGCTCACATCCGACCGGATGCGGAAGTCGACTTCAGCGGTACGCTGATCCGTTTGCACATTGGACTCGAAAATGTTGACGATCTGCAGGCGGATTTAGCAGCGGGCTTCGCGCGTATCGTGTAA	MADKHLDTALVNAGRSKKYTQGSVNSVIQRASSLVFDTVEAKKHATRNRANGELFYGRRGTLTHFSLQEAMCELEGGAGCALFPCGAAAVANTILAFVEQGDHVLMTNTAYEPSQDFCTKILAKLGVTTSWFDPLIGADIARLVRPETRVVFLESPGSITMEVHDVPAIVAAVRQVAPEAIIMIDNTWAAGILFKALDFGIDISIQAGTKYLIGHSDAMVGTAVANARCWPQLRENAYLMGQMLDADTAYMTSRGLRTLGVRLRQHHESSLRIAEWLAQHPQVARVNHPALPGSKGHEFWKRDFTGSSGLFSFVLNKRLNDAELAAYLDNFSLFSMAYSWGGFESLILANQPEQIAHIRPDAEVDFSGTLIRLHIGLENVDDLQADLAAGFARIV	PGPT0001995_1221	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
BMS020_01917	660	yghB	COG0586	Inner membrane protein YghB	ATGGTTGTCATTCAAGAGATTGTCGCCGCGCTGTGGCAACATGATTTTGCCGCACTGGCGAACCCTCATGTTGTGGGCGTTGTATATCTGGTTATGTTCGCGACCCTGTTTCTGGAAAACGGGCTGCTGCCTGCCTCCTTTTTACCTGGAGACAGCCTGCTGCTGCTCGCCGGCGCGCTGATTGCTAAAGGCGTCATGGACTTTGTGCCCACTATCGCCATTCTGACCGCCGCCGCCAGCCTCGGCTGCTGGTTGAGCTATGTACAGGGGCGCTGGCTGGGCAATACGCAAACGGTGAAAGGCTGGCTGGCGCACCTGCCGCATAAATACCATCAGCGCGCTACCTGCATGTTTGACCGCCACGGTCTGCTGGCGCTGCTCGCGGGCCGCTTTCTGGCATTTGTCCGTACCCTGCTGCCAACCATGGCGGGGATTTCCGGTCTGCCGAACCGCCGCTTCCAGTTCTTCAACTGGCTGAGCGCCCTGCTGTGGGTCGGCGTGGTCACGGGCCTCGGCTATGCGCTGAGCATGATCCCATTCGTGAAGCGTCATGAAGATCAGGTGATGACCTGCCTGATGATCCTGCCGATTGCCCTGCTGCTGGCTGGCCTGCTCGGCACGCTGTTCGTGGTGATCAAAAAGAAATACTGCAGCGCCTGA	MVVIQEIVAALWQHDFAALANPHVVGVVYLVMFATLFLENGLLPASFLPGDSLLLLAGALIAKGVMDFVPTIAILTAAASLGCWLSYVQGRWLGNTQTVKGWLAHLPHKYHQRATCMFDRHGLLALLAGRFLAFVRTLLPTMAGISGLPNRRFQFFNWLSALLWVGVVTGLGYALSMIPFVKRHEDQVMTCLMILPIALLLAGLLGTLFVVIKKKYCSA				NA	NA	NA	NA	NA
BMS020_01918	900	rhaS_6		HTH-type transcriptional activator RhaS	ATGCAACACGCAGAGATATGTCAGATTCTGACAGAAAAGGTTAACCAGCTGAAAGATAAGCACGAAATGTTAAGTTCGCTACTACCCGACGTCCGCCTGCTGTACGGGACGCAGCCGGGACCGCGGATGCCGGTGATGTACCAGCCGGGGATCGTTTTTCTCTTTTCTGGCCATAAAATTGGTTATATCAATGAGCGGACGTTTCGCTACGATACAAACGAATATCTGCTGCTGACCGTACCGCTGCCTTTCGAATGCGAAACCTTTGCCACCCCGGAGGTGCCCCTGGCCGGCATGCGCCTGAACGTCGATATCCTGCAGCTGCAGGAGCTGCTGATGGATATTGGCGAGGATCCGCTGTTTCAGCCCGCCGTCGCCTCCAGCGGGATAAACTCCGCAGTGCTCTCGGAGGATATCTTGTGCGCTGCTGAACGGCTGCTCGACGTGATGGAGCGGCCGCTGGACGCGCGGATCCTTGGCAAGCAGATCGTCCGCGAAATCCTCTACTATGTGCTGACGGGACCCTGCGGCGGCGCGCTGCTGGCGCTGGTCAGCCGGCAGACCCACTTCAGCCTGATTAGCCGCGTACTCAAGCATATCGAGAGTCAATACACCGAAAACCTCAGCGTCGATCGGCTGGCGGCGGAAGCGAATATGAGCGTATCGGCGTTTCACCATAATTTTAAATCGGTGACCAGTACTTCGCCGCTGCAGTATCTGAAAACCTACCGTCTGCACAAGGCGCGCATGCTGATGATCCATGACGGGATGAAGGCCAGCGCGGCGGCGATACAGGTGGGCTATGAAAGCCCTTCCCAGTTCAGTCGTGAGTTTAAGCGCTACTTCGGGATGACGCCCGGGGAAGACGCCGCGCGTATTCGTACGATGCAGGGAATGTAA	MQHAEICQILTEKVNQLKDKHEMLSSLLPDVRLLYGTQPGPRMPVMYQPGIVFLFSGHKIGYINERTFRYDTNEYLLLTVPLPFECETFATPEVPLAGMRLNVDILQLQELLMDIGEDPLFQPAVASSGINSAVLSEDILCAAERLLDVMERPLDARILGKQIVREILYYVLTGPCGGALLALVSRQTHFSLISRVLKHIESQYTENLSVDRLAAEANMSVSAFHHNFKSVTSTSPLQYLKTYRLHKARMLMIHDGMKASAAAIQVGYESPSQFSREFKRYFGMTPGEDAARIRTMQGM	PGPT0014658_9	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA	NA	NA
BMS020_01919	1164	yqhD	COG1979	Alcohol dehydrogenase YqhD	ATGAATAATTTTGACCTGCATACCCCAACCCGCATTCTGTTTGGCAAAGGCGCGATTGAAAAACTGCGTGAACAGATCCCGGCGGAAGCTCGCGTACTGATCACCTACGGCGGCGGCAGCGTGAAAAAAACGGGCGTCCTGGATCAGGTACTGACCGCCCTGAATGGCCTGGACGTCCTTGAATTTGGCGGCATCGAGCCGAACCCGTCTTACGAAACCCTGATGAACGCGGTGAAGCTCGCCCGCGAAGAGAAGGTCACCTTCCTGCTGGCGGTCGGCGGCGGTTCGGTGCTGGATGGCACCAAATTTATCGCGGCAGCAGCCCACTATGACGCCAACATCGATCCGTGGGAAATTCTGGAAACCTATGGCAGTAAGATCGCCAGCGCCATTCCAATGGGCTCGGTTCTCACCCTGCCGGCGACCGGTTCTGAATCAAACAAAGGGGCGGTGATTTCGCGGAAAACTACCGGCGACAAACGCGCGTTTATGTCTTCCCATGTTCAGCCGCAGTTCGCGATCCTCGATCCGGTCTACACCTATACCCTGCCGCCGCGCCAGGTCGCCAACGGCGTGGTTGACGCCTTCGTCCATACCGTCGAACAGTACGTCACCTACCCGGTTGACGGTAAAATTCAGGACCGCTTCGCCGAAGGCATTCTCCTGACCCTGATCGAGGATGGCCCGAAAGCGCTGCAGGAGCCGGAAAACTATAACGTGCGCGCCAACATTATGTGGGCCGCGACCCAGGCGCTGAACGGCCTGATCGGCGCAGGCGTGCCGCAGGACTGGGCAACGCATATGCTTGGTCACGAACTGACGGCGATGCATGGTCTCGATCACGCCCAGACGCTGGCTATCGTTCTGCCGGCGCTGTGGAATGAGAAGCGTGATACCAAGCGCGAGAAGCTGCTGCAATATGCGGAGCGCGTGTGGCATATCACCGAGGGCTCAGACGACCAGCGCATCGATGCCGCCATCGCCGCGACGCGCCAGTTCTTCGAGCAGATGGGCGTGCCGACCCGCCTCTCCGATTACGGTCTCGACGGTAGCTCCATCCCGGCGCTGCTGGCGAAACTGGAAGAGCACGGCATGACCAAGCTGGGCGAGCACCAGGATATCACCCTGGACGTCAGCCGTCGTATCTACGAGGCTGCCCGCTAA	MNNFDLHTPTRILFGKGAIEKLREQIPAEARVLITYGGGSVKKTGVLDQVLTALNGLDVLEFGGIEPNPSYETLMNAVKLAREEKVTFLLAVGGGSVLDGTKFIAAAAHYDANIDPWEILETYGSKIASAIPMGSVLTLPATGSESNKGAVISRKTTGDKRAFMSSHVQPQFAILDPVYTYTLPPRQVANGVVDAFVHTVEQYVTYPVDGKIQDRFAEGILLTLIEDGPKALQEPENYNVRANIMWAATQALNGLIGAGVPQDWATHMLGHELTAMHGLDHAQTLAIVLPALWNEKRDTKREKLLQYAERVWHITEGSDDQRIDAAIAATRQFFEQMGVPTRLSDYGLDGSSIPALLAKLEEHGMTKLGEHQDITLDVSRRIYEAAR	PGPT0008275_149	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0008275-yqhD-K08325	NA	NA
BMS020_01920	828	dkgA	COG0656	2,5-diketo-D-gluconic acid reductase A	ATGACACATCCAACCGTTATAAAACTACACGACGGCAACCTGATGCCGCAGCTGGGTCTCGGCGTGTGGAAAGCTGGCAACGAGGAAGTCGTCTCCGCCATTCATAAGGCGCTGGAAGTCGGTTATCGCTCTTTTGACACCGCCGCCGCGTACCAAAATGAGGCTGGCGTCGGCAACGCCCTGCAAAGCGCTGGCGTCAATCGCGATGAGCTATTCATCACCACCAAGCTGTGGAACGACGATCAAAAACGGCCGCACGAGGCGCTGAAAGAGAGTCTCAGCAAGCTGAAGCTGGACTATGTGGATCTCTATTTAATCCACTGGCCGGTGCCGGCGATCGGCCATTATGTCGAGGCCTGGCAGGCGCTGATTGAGCTGCAGCAGCAGGGGCTGGCGAAGAGCATCGGCGTGTGTAATTTCCAGGTGCCGCATCTGCAGAAGCTGATTGATGAAACCGGCGTCGCGCCGGTGATCAACCAGATAGAGCTGCATCCGCTGCTGCAGCAGCGGCAGCTGCACGCCTGGAACGCCACCCACAAGATCCAGACCGAATCCTGGAGCCCGCTGGCCCAGGGCGGTAAGGGCGTCTTCGATCAGAAAGTTATCCATCAGCTGGCTGATAAATATGGCAAAACGCCGGCGCAGATTGTCATCCGCTGGCATCTCGACAGCGGTCTGGTGGTGATCCCCAAATCCGTCACGCCGTCGCGCATCGCCGAAAACTTTAACGTCTGGGATTTCCGCCTGGATAAAGAAGAATTGGGGGAGATTGCCAGGCTGGATCAGGGCAAGCGTCTGGGGCCCGACCCGGATCAGTTCGGCGGATAA	MTHPTVIKLHDGNLMPQLGLGVWKAGNEEVVSAIHKALEVGYRSFDTAAAYQNEAGVGNALQSAGVNRDELFITTKLWNDDQKRPHEALKESLSKLKLDYVDLYLIHWPVPAIGHYVEAWQALIELQQQGLAKSIGVCNFQVPHLQKLIDETGVAPVINQIELHPLLQQRQLHAWNATHKIQTESWSPLAQGGKGVFDQKVIHQLADKYGKTPAQIVIRWHLDSGLVVIPKSVTPSRIAENFNVWDFRLDKEELGEIARLDQGKRLGPDPDQFGG	PGPT0001320_1850	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
BMS020_01921	2184			hypothetical protein	ATGAGCGCAATATCCCTGATCCAACCGGATCGTGACCTTTTTTCCTGGCCGCAATACTGGGCTGCCTGTTTTGGCCCTGCGCCATTTTTACCGATGTCGCGTGAAGAGATGGATCAACTTGGCTGGGATAGCTGCGACATTATTCTGGTAACCGGCGACGCCTACGTCGACCACCCGAGCTTCGGGATGGCTATCTGCGGCCGCATGCTGGAAGCGCAGGGGTTCCGCGTGGGGATCATCTCCCAGCCGGACTGGAACACCAAAGACGACTTCATGCGTCTGGGCAAACCGAACCTGTTCTTCGGGGTGACCGCCGGCAACATGGACTCGATGATCAACCGCTACACCGCCGACCGTAAGCTGCGCCATGACGACGCTTACACCGCCGGCAACGTGGCGGGCAAGCGCCCGGACCGCGCCACCCTGGTGTATACCCAGCGCTGTAAAGAGGCGTGGAAAGATGTGCCCGTGATCCTCGGCGGTATCGAAGCCAGCCTGCGCCGTACCGCGCATTATGATTATTGGTCCGATACCGTGCGCCGCTCGGTGCTGGTGGACTCCAAGGCCGATATGCTGATGTTCGGCAACGGCGAGCGTCCGCTGGTGGAAGTGGCTCATCGCCTGGCGATGGGCGAAACCATCGACCAGATCCGCGATGTGCGTAATACCGCCATCATGGTGAAAGAGGCTCTCCCGGGCTGGAGCGGCGTAGACTCCACCCGTCTGGATACCCCGGGCAAAATCGACCCCATCCCGCACCCGTATGGTGAAGATCTGCCGTGCGCCGATAACAAACCGGTCGCGCCGAAGAAACAGGAAGCGAAAAGCATCACTGTGCAGCCGCCGCGGCCAAAACCGTGGGAAAAAACCTATGTGCTGCTGCCTTCTTTCGAGAAGGTGAAAGGCGATAAGGTCCTGTACGCACACGCCTCGCGCATTCTGCACCATGAAACCAACCCCGGCTGCGCCCGGGCGCTGATGCAAAAGCACGGCGAGCGCTACATCTGGATCAACCCGCCGGCAATCCCGCTCTCCACTGAAGAAATGGACAGCGTCTTCGCCCTGCCTTACAAGCGCGTGCCGCATCCTTCCTATGGCGATGCGCGCATCCCGGCGTATGAGATGATCCGTTTCTCGATCAACATCATGCGCGGCTGCTTCGGCGGGTGTTCGTTCTGCTCGATCACCGAGCACGAAGGACGCATTATCCAGAGCCGTTCAGAGGATTCGATCATCAATGAGATCGAAGCCATTCGCGACACGGTGCCGGGCTTTACCGGCGTGATCTCCGATCTCGGCGGACCCACCGCCAACATGTATATGCTGCGCTGCAAATCGCCACGCGCCGAGCAGACCTGCCGCCGACTCTCCTGCGTCTACCCGGATATCTGCCCGCACATGGATACCAACCATGAGCCGACGATCAACCTTTACCGTCGCGCCCGCGAGCTGAAGGGCATCAAGAAGATCCTTATCGCCTCCGGGGTACGCTATGACATCGCGGTAGAAGATCCGCGCTATATCAAAGAGCTGGCGACCCACCACGTCGGCGGCTATCTGAAGATCGCGCCGGAGCATACCGAAGAGGGCCCGCTGTCGAAGATGATGAAGCCGGGAATGGGCAGCTACGACCGCTTTAAAGAGCTGTTCGACACCTATTCGAAGCAGGCGGGTAAAGAGCAGTATCTGATCCCGTACTTTATCTCCGCCCACCCGGGGACCCGTGATGAAGACATGGTGAACCTGGCGCTGTGGCTGAAGAAGCACCGCTTCCGTCTCGACCAGGTGCAGAACTTCTATCCGTCGCCGCTGGCGAACTCGACCACCATGTATTACACCGGCAAAAACCCGCTGGGCAAGATCGGCTATAAGAGTGAAGAGGTGGTGGTGCCGAAGGGCGATAAACAGCGCCGTCTGCACAAAGCGCTGCTGCGCTATCACGATCCGGCCAACTGGCCGCTGATCCGTCAGGCGCTGGAGGCGATGGGCAAGAAACACCTGATTGGCTCACGTCGCGACTGCCTGGTGCCGGCGCCGACTCTCGATGAGATGCGCGAAGCGCGTCGCCAGAACCGTCATACCCGCCCGGCGCTGACCAAGCACACGCCGATTGTGCATCAGCGTTCTAACGGTGGCGCAACGGCGAAAAAGCCCGTTAAACGGGGTAAAGTCGCCGGGCGTTAA	MSAISLIQPDRDLFSWPQYWAACFGPAPFLPMSREEMDQLGWDSCDIILVTGDAYVDHPSFGMAICGRMLEAQGFRVGIISQPDWNTKDDFMRLGKPNLFFGVTAGNMDSMINRYTADRKLRHDDAYTAGNVAGKRPDRATLVYTQRCKEAWKDVPVILGGIEASLRRTAHYDYWSDTVRRSVLVDSKADMLMFGNGERPLVEVAHRLAMGETIDQIRDVRNTAIMVKEALPGWSGVDSTRLDTPGKIDPIPHPYGEDLPCADNKPVAPKKQEAKSITVQPPRPKPWEKTYVLLPSFEKVKGDKVLYAHASRILHHETNPGCARALMQKHGERYIWINPPAIPLSTEEMDSVFALPYKRVPHPSYGDARIPAYEMIRFSINIMRGCFGGCSFCSITEHEGRIIQSRSEDSIINEIEAIRDTVPGFTGVISDLGGPTANMYMLRCKSPRAEQTCRRLSCVYPDICPHMDTNHEPTINLYRRARELKGIKKILIASGVRYDIAVEDPRYIKELATHHVGGYLKIAPEHTEEGPLSKMMKPGMGSYDRFKELFDTYSKQAGKEQYLIPYFISAHPGTRDEDMVNLALWLKKHRFRLDQVQNFYPSPLANSTTMYYTGKNPLGKIGYKSEEVVVPKGDKQRRLHKALLRYHDPANWPLIRQALEAMGKKHLIGSRRDCLVPAPTLDEMREARRQNRHTRPALTKHTPIVHQRSNGGATAKKPVKRGKVAGR				NA	NA	NA	NA	NA
BMS020_01922	1413	ftsP	COG2132	Cell division protein FtsP	ATGTCACTCAGTCGGCGTCAGTTTATTAAGGCTTCCGGCGTAGCGCTGTGCGCTGGCGCCGCGCCGCTGAAGGCCCATGCCGCCGGCCAGCAGCCTGCGCTGCCGGTTCCGCCGCTGCTGGAGTCCCGTCGCGGTCAGCCGCTGTTTCTGACGCTGCAGCGTTCGCACTGGTCGTTTACGCCAGGCACCCGCGCCCCCGTCTGGGGGATCAATGGCCGCTATATGGGGCCGACGATCCGCGTCTGGAGCGGGGACGACGTCAAGCTTATTTACAGCAACCGTCTGACGGAGAACGTCGCGATGACCATCCGCGGCCTGCAGGTGCCTGGCCCGCTGATCGGCGGCGCGGCGCGCATGATGTCGCCGAACGCCGACTGGGCGCCGGTGCTGCCGATCCGTCAGAGTGCGGCGACGCTGTGGTACCAGGCCAATACGCCGAACCGGATGGCGAAGCAGGTCTATAACGGTCTGGCCGGCATGTGGCTGGTGGAGGATGAGGTGAGCAAGAACCTGCCGATCCCTAACCACTATGGCGTCGATGACTTCCCGGTGATAATTCAGGACAAACGGCTGGATAACTTCGGCACGCCGGAATATAGCGAACCGGGCAGCGGCGGCTTCGTCGGCGATACGCTGCTGGTCAATGGCGTGCAGAGCCCCTATGTCGAAGTGTCCCGCGGCTGGGTGCGTCTGCGCCTGCTGAACGCTTCCAACTCCCGGCGCTATCAGCTACAGATGAGCGATGGCCGACTGCTGCATGTCATTTCCGGCGACCAGGGGTTCCTGCCGGCGCCGGTTTCGCTCAAGCAGCTGTCGCTGGCGCCGGGGGAACGGCGTGAAATTCTGGTCGATATGACCAACGGCGATGAAGTGTCCATTACCTGCGGTGAAGCGGCGAGCATCGTCGACCGTATCCGCGGCTTTTTTGAACCGTCCAGCATTCTGGTCTCCACGCTGGTGCTGACCCTGCGCCCGACCGGGCTGCTGCCGCTGGTCACCGACAGCCTGCCGGCGCGTCTGCTGCCGACTGAGCTGCTCTCCGGCACGCCGATCCGCAGCCGGGATATCACGCTCGGCGACGATCCGGGGATTAACGGCCAGCTGTGGGATCCGCAGCGTATCGATATCACGGCGCAGCAGGGGACCTGGGAGCGCTGGACGGTGCGCGCCGACCGCCCGCAGTCGTTCCATATTGAAGGGGTGATGTTCCAGATCCGTAACGTCAACGGCTCGACCCCTTTCCCGGAAGACCGCGGCTGGAAGGACACCGTGTGGGTCGACGGGCAGGTCGAACTGCTGGTCTACTACGCCCAGCCGTCGTGGCCGCACTTCCCGTTCCAGTATCTGAGCCAGACGCTGGAGCTGGCCGACCGCGGTTCGATTGGCCAGATGCTGGTGAATCCCGCACCGTAA	MSLSRRQFIKASGVALCAGAAPLKAHAAGQQPALPVPPLLESRRGQPLFLTLQRSHWSFTPGTRAPVWGINGRYMGPTIRVWSGDDVKLIYSNRLTENVAMTIRGLQVPGPLIGGAARMMSPNADWAPVLPIRQSAATLWYQANTPNRMAKQVYNGLAGMWLVEDEVSKNLPIPNHYGVDDFPVIIQDKRLDNFGTPEYSEPGSGGFVGDTLLVNGVQSPYVEVSRGWVRLRLLNASNSRRYQLQMSDGRLLHVISGDQGFLPAPVSLKQLSLAPGERREILVDMTNGDEVSITCGEAASIVDRIRGFFEPSSILVSTLVLTLRPTGLLPLVTDSLPARLLPTELLSGTPIRSRDITLGDDPGINGQLWDPQRIDITAQQGTWERWTVRADRPQSFHIEGVMFQIRNVNGSTPFPEDRGWKDTVWVDGQVELLVYYAQPSWPHFPFQYLSQTLELADRGSIGQMLVNPAP				NA	NA	NA	NA	NA
BMS020_01923	738	plsC	COG0204	1-acyl-sn-glycerol-3-phosphate acyltransferase	ATGCTATTCATTTTTCGAGTAATTTTCGTGGTCATTTATTGCATCGTAGTGTGCATACTTGGCTGTCTGTACTGCTTGTTCAGCCCGCGTAATCCAAAACACGTTGCCACTTTCGGCCATCTGTTTGGCCGCTTATCCCCGGTGTTTGGTCTGAAGGTGGAGCTGCGCAAACCTGCCGATGCGGAAAGCTATGGCAATGCGATCTACATCGCTAACCACCAGAACAACTATGATATGGTGACGGCATCTAACATCGTGCAGGCCCCGACGGTCACCGTGGGGAAAAAGAGCCTGTTGTGGATCCCGTTCTTTGGCCAGCTGTACTGGCTGACCGGTAATCTGCTGATTGACCGCAATAACCGAACCAAAGCGCACGGCACCATTGCCGAGGTCGTCAACGCCTTTAAAAAGCGTAAAATTTCGTTCTGGATGTTCCCGGAAGGGACCCGCAGCCGCGGTCGCGGTCTGCTGCCGTTTAAAACCGGCGCCTTCCACGCGGCTATTGCCGCCGGCGTGCCGATTATTCCGGTGTGTGTCTCGAATACATCGAATAAAATAAAGCTCAATCGCTGGAACAACGGTCTGGTGATTGTGGAAATGCTGCCGCCGGTGGATACCAGCCAGTTCGGTAAAGACAACGTGCGCGCGCTGGCGACGCATTGCCGCGAGCTGATGGCCGCCAAAATCGCTGAGCTGGACAACGAAGTGGCCGAGCGCGAAGCGGCCGGTAAGCAATAA	MLFIFRVIFVVIYCIVVCILGCLYCLFSPRNPKHVATFGHLFGRLSPVFGLKVELRKPADAESYGNAIYIANHQNNYDMVTASNIVQAPTVTVGKKSLLWIPFFGQLYWLTGNLLIDRNNRTKAHGTIAEVVNAFKKRKISFWMFPEGTRSRGRGLLPFKTGAFHAAIAAGVPIIPVCVSNTSNKIKLNRWNNGLVIVEMLPPVDTSQFGKDNVRALATHCRELMAAKIAELDNEVAEREAAGKQ	PGPT0024380_3231	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655	NA	NA
BMS020_01924	2259	parC_1	COG0188	DNA topoisomerase 4 subunit A	ATGAGCGATATGGCAGAGCGCCTTGCGCTGCATGAATTTACGGAAAATGCTTACCTGAACTACTCCATGTACGTGATCATGGACAGGGCATTACCGTTTATTGGCGATGGCTTAAAACCGGTCCAGCGTCGCATCGTCTATGCGATGTCCGAACTGGGGCTGAACGCCAGCGCCAAATTCAAAAAGTCCGCCCGCACCGTCGGCGACGTGCTGGGTAAATATCACCCACACGGCGACAGCGCCTGCTATGAAGCGATGGTGCTGATGGCGCAACCCTTCTCCTATCGCTATCCGCTGGTGGATGGCCAGGGGAACTGGGGGGCGCCGGACGATCCGAAATCCTTCGCCGCCATGCGTTACACCGAATCCCGCCTGTCGAAGTATGCCGAGCTGCTGCTCAGCGAGCTGGGGCAGGGGACGGTCGACTGGGTGCCAAACTTTGACGGTACGCTGCAGGAGCCGAAAATGCTGCCGGCGCGCCTGCCAAACATCCTGCTCAACGGCACCACCGGCATCGCGGTGGGCATGGCGACCGATATTCCGCCTCACAACCTGCGTGAAGTGGCGAAAGCGGCGATTACGCTGATTGAGCAGCCGAAAACGACCCTCGACGAACTGCTGGATATCGTGCAGGGACCGGATTTCCCGACCGAGGCGGAGATCATCACTTCGCGGGCGGAAATTCGCAAAATCTACCAGAACGGACGCGGCTCAGTGCGCATGCGCGCGGTATGGAGCAAAGAGGACGGCGCGGTAGTGATCAGCGCGCTGCCGCACCAGGTCTCCGGCGCCAAAGTACTGGAGCAGATTGCCGCGCAGATGCGCAATAAAAAGCTGCCGATGGTGGACGACCTGCGCGACGAATCGGACCACGAAAATCCGACCCGCCTGGTGATCGTCCCGCGCTCCAACCGGGTGGATATGGAGCAGGTGATGAACCACCTGTTCGCCACCACCGATCTGGAGAAGAGCTACCGCATCAACCTCAATATGATCGGTCTCGACGGCCGCCCGGCGGTAAAAAACCTGCTGGAGATCCTCAGCGAATGGCTGGTGTTCCGTCGCGATACCGTACGTCGCCGTCTGAACCACCGGTTAGAGAAGGTCCTTAAGCGCCTGCATATCCTTGAAGGTTTGCTGGTGGCGTTCCTCAATATTGATGAAGTCATCGAGATCATCCGCACGGAAGATGAGCCGAAGCCAGCCCTGATGTCGCGCTTTGCCATCAGCGAAACCCAGGCGGAAGCGATTCTGGAACTGAAACTGCGCCATCTCGCCAAACTGGAAGAGATGAAGATCCGCGGCGAGCAGAACGAGCTGGAAAAAGAGCGCGATCAGCTGCAGGCGATTCTGGCCTCAGAACGTAAGATGAACAACCTGCTGAAGAAAGAGCTGCAGGCCGATGCCGATGCTTTCGGCGACGATCGCCGCTCGCCGCTTCACGAGCGTGAAGAAGCGAAAGCGATGAGCGAGCATGATATGCTGCCGTCTGAGCCGGTCACCATCGTTCTGTCGCAGATGGGCTGGGTGCGCAGCGCCAAAGGGCACGACATCGACGCCCAGGGGCTGAGCTATAAAGCGGGCGACAGCTGGAAAGCCTCGGCGAAGGGCAAGAGCAACCAGCCGGTGGTGTTTATCGATACCACCGGGCGCAGCTATGCCATCGATCCGATTACCCTGCCCTCGGCGCGTGGCCAGGGTGAGCCGCTGACTGGCAAGCTGACGCTGCCGCCGGGCGCGACCGTAGAACATATGCTGATGGAAGGAGACGATCAGAAACTGCTGATGGCCTCCGACGCCGGCTACGGTTTTGTCTGCACCTTCAACGATCTGGTGGCGCGCAACCGCGCCGGCAAAGCGTTGATCACCCTGCCTGACAACGCGCATGTGATGCCGCCGCTGGTCATTGAGGACGAGTCCGATATGCTGCTGGCCATCACCGCCGCCGGGCGAATGCTGATGTTCCCGGTCAGCGATCTGCCGCAGCTGTCGAAAGGCAAGGGCAACAAAATCATCAACATTCCTGCGGCGGAAGCCGCCGCCGGCCAGGACGGTCTCGCACATCTGTTTGTCCTGCCGCCGCAGAGTACGCTGACCATTCATGTCGGCAAACGGAAGATCAAACTGCGTCCGGAAGAGCTGCAAAAAGTCACCGGCGAGCGCGGCCGCCGCGGTTCGCTGATGCGCGGTCTGCAGAAGATTGACCGTGTTGAAATTGACTCGCCGCGCCGCGCCGCGGCAGGCGATAGCGAAGAGTAA	MSDMAERLALHEFTENAYLNYSMYVIMDRALPFIGDGLKPVQRRIVYAMSELGLNASAKFKKSARTVGDVLGKYHPHGDSACYEAMVLMAQPFSYRYPLVDGQGNWGAPDDPKSFAAMRYTESRLSKYAELLLSELGQGTVDWVPNFDGTLQEPKMLPARLPNILLNGTTGIAVGMATDIPPHNLREVAKAAITLIEQPKTTLDELLDIVQGPDFPTEAEIITSRAEIRKIYQNGRGSVRMRAVWSKEDGAVVISALPHQVSGAKVLEQIAAQMRNKKLPMVDDLRDESDHENPTRLVIVPRSNRVDMEQVMNHLFATTDLEKSYRINLNMIGLDGRPAVKNLLEILSEWLVFRRDTVRRRLNHRLEKVLKRLHILEGLLVAFLNIDEVIEIIRTEDEPKPALMSRFAISETQAEAILELKLRHLAKLEEMKIRGEQNELEKERDQLQAILASERKMNNLLKKELQADADAFGDDRRSPLHEREEAKAMSEHDMLPSEPVTIVLSQMGWVRSAKGHDIDAQGLSYKAGDSWKASAKGKSNQPVVFIDTTGRSYAIDPITLPSARGQGEPLTGKLTLPPGATVEHMLMEGDDQKLLMASDAGYGFVCTFNDLVARNRAGKALITLPDNAHVMPPLVIEDESDMLLAITAAGRMLMFPVSDLPQLSKGKGNKIINIPAAEAAAGQDGLAHLFVLPPQSTLTIHVGKRKIKLRPEELQKVTGERGRRGSLMRGLQKIDRVEIDSPRRAAAGDSEE	PGPT0027705_2358	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
BMS020_01925	870	rhaS_7		HTH-type transcriptional activator RhaS	ATGAACGATATTAAGGCCAGCCCGGCGTATGCCGGGCGCTTCCAGCGCGTCTGTAGATACATTGCGCGTCATCTTGATGAGCCGCTGTCGCTGGAGGCGCTGAGCGCGATAGCGCACAGTTCGCCTTACCATTTTCACCGGCAATTTAGCGCGTATACCGGCATTCCCTTGTACCGGTATATTCAGTGGTTACGTCTGCGACGCGCCTGTTGGCGCCTGGCGTTCAACCCCCGCGATAAAATCATCGACATTGCCCTTGATGCCGGATTTCAGAATGCGGAGTCGTTCAGCCGTGCCTTCCGTACCGCGTTTGACCAAAGCCCGACCCAGTTCCGTCAGCAACCGGACTGGGCCGAGTGGCATCGACGCGTACCGAAACATACGCTACAGGAGCAAACGTCGATGGACGTCAATATCATTTCGTTCCCCACCACCCGGGTAGCCGTCCTGCAACATCGTGGCAGCCCGGAAATTGTCAACGCCACCGCCGCGCGTTTTATCGCCTGGCGTAAGACGAGCGGATTATCGCCCGTTGCCACCAGCGAAACCTGGGGGATCGCCTGGGACGATCCGCAGACTACCCCGCAGGAGGCATTTCGTTTTGATCTCTGCGGTACGGTCGAACGGCCGGTTGGTGAAAACGCCTTTGGCGTGATTAACGGCGAAATCCCCGGCGGACGCTGCGCCGTCGTGCGCCATCACGGCTCGCTGGACACCCTGGCGAACAGCGTTTGGTATCTCTATCGCGACTGGTTACCCGCTTCAGGCGAGAGGTTACGGGATTTTCCGGTCTACTTCCGTTACAACAATTTTGTCCACCAGGTGGCTGAGCATGAGCTGCAAACCGATATTTATCTGCCGCTGGCCTGA	MNDIKASPAYAGRFQRVCRYIARHLDEPLSLEALSAIAHSSPYHFHRQFSAYTGIPLYRYIQWLRLRRACWRLAFNPRDKIIDIALDAGFQNAESFSRAFRTAFDQSPTQFRQQPDWAEWHRRVPKHTLQEQTSMDVNIISFPTTRVAVLQHRGSPEIVNATAARFIAWRKTSGLSPVATSETWGIAWDDPQTTPQEAFRFDLCGTVERPVGENAFGVINGEIPGGRCAVVRHHGSLDTLANSVWYLYRDWLPASGERLRDFPVYFRYNNFVHQVAEHELQTDIYLPLA				NA	NA	NA	NA	NA
BMS020_01926	408	ygiW_2	COG3111	Protein YgiW	ATGAAGAAAATTGCTGCGATGACCGCGATCGTTGCCCTGGTTTCCATGCCGGTGCTGGCTGCCGGACAGGGCGGGTATACCGGTCCTTCTGCGACCACGCCGGCAAGTTCGACCACCCAGGGCGGCGGATTTACCGGCCCGAGCGGCGCGGTCACCACCGTCACCAATGTCAAATCGCTGCGGGACGATACCTGGGTGACCCTGCGGGGCAAAATTACCGAGCGCGTGTCCGATGATCTGTATAAGTTCCAGGATGCTACCGGGGTGATCAATGTCGATATCGACCACAAACGCTGGAACGGCGTCACCGTCGGCCCGCAGGACACGGTAGAAATTCAGGGGGAAGTCGATAAGGACTGGAACTCGGTGGAGATCGACGTTAAACAGATCCGTAAAATCACGCCATAA	MKKIAAMTAIVALVSMPVLAAGQGGYTGPSATTPASSTTQGGGFTGPSGAVTTVTNVKSLRDDTWVTLRGKITERVSDDLYKFQDATGVINVDIDHKRWNGVTVGPQDTVEIQGEVDKDWNSVEIDVKQIRKITP				NA	NA	NA	NA	NA
BMS020_01927	660	qseB_1		Transcriptional regulatory protein QseB	ATGCGCATATTATTGGTGGAAGATGACAAGTTAATCGGCGATGGCATCAAGGCCGGGCTGAGCAAAATGGGCTTCAGCATCGACTGGTTTACCGCCGGGCTGGAGGGCAAAAACGCCTTATACAGCGCCCCCTACGACGCGGCAATTCTTGATCTCACCCTTCCCGGCATCGATGGCCTCGATATTCTGCGCGAGTGGCGCGACAAAGGCCGCCATGAGCCGGTGCTGATCCTCACCGCCCGCGATGCGCTCAGCCAGCGGGTGGAGGGGCTGCGCCTGGGCGCCGATGATTATCTGTGCAAACCTTTCGCCCTGATTGAGGTAGCGGCCCGCCTCGAAGCATTGATCCGCCGCGCCCACGGCCAGAGCAGCAGCGAGCTGCGCCACGGCAAGGTGAGCCTTGACCCGAACCGCTTAACCGCCAGCCTCGACGGCGAAAGCCTGACGCTGAAGCCGAAGGAGTTCGCCCTGCTGGAACTGCTGCTGCGTAACGCCGGGCGCGTACTGCCGCGTAAGCTTATTGAAGAAAAGCTCTACACCTGGGACGACGAGGTCTCCAGCAACGCCGTGGAAGTTCACGTCCATCATCTGCGCCGCAAACTCGGCAGTGAATTTATCCGCACCGTCCACGGCATCGGCTATACCCTGGGTGACGCATGA	MRILLVEDDKLIGDGIKAGLSKMGFSIDWFTAGLEGKNALYSAPYDAAILDLTLPGIDGLDILREWRDKGRHEPVLILTARDALSQRVEGLRLGADDYLCKPFALIEVAARLEALIRRAHGQSSSELRHGKVSLDPNRLTASLDGESLTLKPKEFALLELLLRNAGRVLPRKLIEEKLYTWDDEVSSNAVEVHVHHLRRKLGSEFIRTVHGIGYTLGDA	PGPT0003915_1478	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
BMS020_01928	1350	qseC_1		Sensor protein QseC	ATGAAACGACTTGCCCGCCTGAGCCTGCGCCTGCGTCTGACGCTGCTGTTTGCCGTGCTGACCGCCGCCGCCTGGGGGGTGGCCAGCGTGATCGCCTGGCAGCAGACCAGTAAAAAGCTGGATAAGCTGTTTGATACCCAGCAGCTGCTGTTCGCCCGCCGCCTGAGCGTCATGAATTTCGAAGAGCTCCGCGCCCCGCCGACATCGCTCGGGGAAAAGAAAAAGGTGCGCCACGGGCATATCGACGACGATGCGCTGGCGTTCGCCATCTTCACCCGCGACGGCAAAATGGTGCTTAACGACGGCGAAAACGGGGAGGATATTCAATGGCACTCGCAGCGCGAGGGCTTCAGCGATGGCTACCTGCGCGGCGATGATGACGAGTGGCGCTTCCTGTGGTTAACCACCGCCGATGGCCGCCACCGTATCGCCGTCGGCCAGGAGTGGGATTATCGCCGCGAAATGGCGATGGACATTGTTACCTCGCAGCTAACGCCGTGGATGATCGCCCTGCCGCTGATGTTCGTGCTGCTCATCGTGCTGTTAAGCCGCGAACTGGCGCCATTGAAACATCTGGCGCGCACGCTGCGCCTGCGCGCGCCGGACTCGGCGGAATCGCTCAGCGTGGAGAAGATCCCCACTGAAGTCCGCCCGCTGGTCGAGTCGCTGAATCAGCTGTTCCAGCGCACCCACGACGTCATGCTGCGCGAGCGTCGGTTTACCTCTGATGCCGCCCACGAGCTGCGCAGCCCGCTGGCGGCGCTGAAGGTGCAGACTGAAGTCGCCCAGCTCTCTCTGGACGATCCACAAGGGCGTGAGAAAGCCCTGGCTCAGCTCCATCAGGGGATCGATCGCGCCACCCGTCTGGTGGATCAGCTGCTGACGCTGTCGCGGCTGGACTCGCTCGCCCAGCTGGACGACGTGCAGCCGGTCGCCATCGACGATCTGCTGCAGTCGGCGGTAATGGAGATGTACCACCCGGCGCAGCAGGCCGGGATTGAGCTGCGCCTGCATCTTAATGTCTCTGGCATCTCCCGCACCGGCCAGCCGCTGCTCCTTAGCCTGCTGGTGCGCAATCTGCTGGATAACGCGGTGCGCTACAGCCCGCGCGGCAGTCAGGTCGATATCACCCTCAACGCCCGCGAGTTTCGGGTACGCGATAACGGCCCCGGCATCAGCCCGCAGGCGCTGGCGCGCATCGGCGAGCGTTTCTACCGCCCGCCGGGTCAGGATGCTACGGGCAGCGGCCTGGGCTTGTCGATCGTCCGGCGCATCGCCTCGCTGCACGGCATGCGCGTCGAGTTTGCCAATGCCCGCGACGGCGGCTTCGAAGCCCGCGTTGACTGGTAG	MKRLARLSLRLRLTLLFAVLTAAAWGVASVIAWQQTSKKLDKLFDTQQLLFARRLSVMNFEELRAPPTSLGEKKKVRHGHIDDDALAFAIFTRDGKMVLNDGENGEDIQWHSQREGFSDGYLRGDDDEWRFLWLTTADGRHRIAVGQEWDYRREMAMDIVTSQLTPWMIALPLMFVLLIVLLSRELAPLKHLARTLRLRAPDSAESLSVEKIPTEVRPLVESLNQLFQRTHDVMLRERRFTSDAAHELRSPLAALKVQTEVAQLSLDDPQGREKALAQLHQGIDRATRLVDQLLTLSRLDSLAQLDDVQPVAIDDLLQSAVMEMYHPAQQAGIELRLHLNVSGISRTGQPLLLSLLVRNLLDNAVRYSPRGSQVDITLNAREFRVRDNGPGISPQALARIGERFYRPPGQDATGSGLGLSIVRRIASLHGMRVEFANARDGGFEARVDW	PGPT0003920_928	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
BMS020_01929	582	mdaB	COG2249	NADPH:quinone oxidoreductase MdaB	ATGAGCAACATCCTGATTATCAATGGCGCAAAAAAATTCGCGCACTCGAATGGCCAGCTGAACGACACCCTGACCGAGGTCGCGGAGAGTTATCTGCGCGACGCCGGACACGATGTTAAAAGCGTTCGCGCCGACAGCGAGTACGACGTAAAAGCCGAAGTGCAGAATTTCCTCTGGGCCGATGTGGTGATCTGGCAAATGCCGGGCTGGTGGATGGGCGCCCCGTGGACGGTGAAAAAATATATGGATGACGTCTTTACCGAAGGCCACGGCTCACTGTACGCCAGCGACGGCCGTACCCGCTCCGACGCCAGCAAAAAATATGGCTCCGGCGGCCTGGTGCAAGGGAAAAAATATATGCTCTCCCTGACCTGGAACGCGCCGATGGAAGCCTTCACCGACGAAGAACAGTTCTTCCACGGCGTCGGCGTTGACGGCGTTTACCTGCCGTTCCATAAAGCCAACCAGTTCCTGGGTATGGAGGCGCTGCCAACCTTTATCGCCAACGACGTGATTAAAATGCCTGATGTCCCACGGTATATCGCAGAATATCGCAAGCATCTGGCGGAAATTTTTGGTTAA	MSNILIINGAKKFAHSNGQLNDTLTEVAESYLRDAGHDVKSVRADSEYDVKAEVQNFLWADVVIWQMPGWWMGAPWTVKKYMDDVFTEGHGSLYASDGRTRSDASKKYGSGGLVQGKKYMLSLTWNAPMEAFTDEEQFFHGVGVDGVYLPFHKANQFLGMEALPTFIANDVIKMPDVPRYIAEYRKHLAEIFG	PGPT0023600_634	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_2-METHYLENE-4-BUTYROLACTONE_RESISTANCE	ADAPTION_TO_PIS-2-METHYLENE-4-BUTYROLACTONE_DEGRADATION,PGPT0023600-mdaB-K03923	NA	NA
BMS020_01930	315	ygiN	COG1359	putative quinol monooxygenase YgiN	ATGTTAACAGTGATTGCAGAAATCCGTACCCGCCCGGGCCAGCACCACCGCCAGGCGGTTCTCGATCAGTTCGCGAAAATTATTCCGACCGTTTTGCAGGAAGCCGGCTGCCACGGCTATGCGCCCATGGTGGATCATGCCGCTGGCGTCAGCTTCCAGACCACCGCTCCTGACTCTATCGTCATGGTGGAGCAGTGGGAAAGCGTCGCGCATCTTGAAGCGCACCTGCAGACCCCGCACATGAAAGCCTGGTCGGAAGCGGTCAAAGGCGATGTGCTGGAGACCAACATCCGTATCCTGCAGGCCGGCGTCTAA	MLTVIAEIRTRPGQHHRQAVLDQFAKIIPTVLQEAGCHGYAPMVDHAAGVSFQTTAPDSIVMVEQWESVAHLEAHLQTPHMKAWSEAVKGDVLETNIRILQAGV				NA	NA	NA	NA	NA
BMS020_01931	1896	parE_1	COG0187	DNA topoisomerase 4 subunit B	ATGACGCAATCTTCATATAACGCTGATGCCATTGAGGTACTCACCGGGCTAGAGCCGGTGCGCCGCCGTCCGGGCATGTATACCGACACCACCCGTCCTAACCATCTTGGTCAGGAAGTGATTGATAACAGTGTGGACGAAGCGCTGGCAGGCCATGCCAAACGCGTGGAAGTGATCCTGCACGCCGACCAGTCCCTTGAGGTGATTGACGACGGGCGCGGGATGCCGGTCGACATTCACCCGGAAGAGGGGGTGCCGGCGGTTGAACTGATCCTCTGCCGGCTGCACGCGGGCGGTAAGTTTTCCAACAAAAATTACCAGTTTTCCGGCGGTCTGCACGGGGTGGGGATTTCGGTGGTCAACGCCCTGTCAAAACGCGTGGAGGTCAACGTGCGTCGCGACGGTCAGGTCTACAGCATCGCCTTTGAGAATGGTGAGAAAGTAGAGGACCTGCACGTCACCGGCACCTGCGGTAAACGCAACACCGGGACCAGCGTCCATTTCTGGCCGGACGAAAGCTTCTTCGATAGCCCGCGCTTCTCCGTTTCGCGTTTGACCCACTTGTTAAAAGCGAAAGCGGTGCTGTGCCCGGGCGTGGAAATTGTTTTCCGCGACCAGGTCAACAACAGCGAGCAGAGCTGGTGCTATGCCGATGGCCTTAACGACTACCTGAGCGAAGCGGTGAACGGCCTGCCGCTGCTGCCGGAAAAACCCTTCGTCGGCACCTTCTCCGGCGAGACGGAGGCGGTGGACTGGGCGCTGCTGTGGCTGCCGGAAGGCGGCGAGCTGCTGACCGAGAGCTACGTCAACCTGATCCCGACCATGCAGGGCGGGACGCACGTCAACGGCCTGCGTCAGGGGCTGCTGGACGCGATGCGTGAGTTCTGCGAGTACCGTAATATCCTGCCGCGCGGGGTGAAACTGTCGGCGGAAGATATCTGGGATCGCTGCGCCTACGTGCTGTCGGTGAAGATGCAGGATCCGCAGTTCGCCGGGCAAACCAAAGAGCGCCTGTCGTCGCGCCAGTGCGCGGCGTTCGTCTCCGGCGTGGTGAAAGACGCCTTCAGCCTGTGGCTGAACCAGAACGTGCAGGCCGCGGAGCTGCTGGCGGAGATGGCCATTTCCAGCGCCCAGCGCCGTCTGCGCGCCGCCAAGAAAGTGGTGCGCAAAAAGCTGACCAGCGGTCCGGCGCTGCCGGGTAAGCTGGCCGACTGCACCGCCCAGGATCTGAACCGTACCGAGCTGTTCCTCGTCGAAGGGGATTCGGCGGGCGGTTCAGCCAAGCAGGCGCGCGATCGTGAATATCAGGCGATCATGCCGCTGAAAGGCAAGATCCTGAATACCTGGGAAGTCTCTTCCGATGAAGTGTTAGCTTCGCAAGAAGTACACGACATTTCGGTGGCGATTGGGATTGACCCGGATAGCGATGATTTAAGCCAGCTGCGCTACGGAAAAATTTGTATTCTGGCGGATGCGGACTCCGATGGCCTGCACATCGCCACGCTGCTGTGCGCGCTGTTTGTGAGACATTTCCGTACCCTGGTGAAAGAGGGGCACGTCTACGTGGCGCTGCCGCCGCTGTACCGTATCGACCTCGGCAAAGAGGTCTACTACGCGCTGACGGAAGAAGAAAAAACCGGCGTGCTGGAGCAGCTGAAGCGTAAGAAGGGCAAGCCAAACGTCCAGCGCTTTAAGGGTCTCGGCGAGATGAACCCGATGCAGCTGCGGGAAACCACCCTCGACCCGAATACCCGCCGCCTGGTGCAGCTGGTGATCAGCGATGAGGATGAGCAGCAGACCACGGCGATGATGGATATGCTGCTGGCCAAGAAGCGTTCCGAAGATCGTCGCAACTGGCTGCAGGAGAAGGGCGATATGGCGGACCTGGAAGTGTAA	MTQSSYNADAIEVLTGLEPVRRRPGMYTDTTRPNHLGQEVIDNSVDEALAGHAKRVEVILHADQSLEVIDDGRGMPVDIHPEEGVPAVELILCRLHAGGKFSNKNYQFSGGLHGVGISVVNALSKRVEVNVRRDGQVYSIAFENGEKVEDLHVTGTCGKRNTGTSVHFWPDESFFDSPRFSVSRLTHLLKAKAVLCPGVEIVFRDQVNNSEQSWCYADGLNDYLSEAVNGLPLLPEKPFVGTFSGETEAVDWALLWLPEGGELLTESYVNLIPTMQGGTHVNGLRQGLLDAMREFCEYRNILPRGVKLSAEDIWDRCAYVLSVKMQDPQFAGQTKERLSSRQCAAFVSGVVKDAFSLWLNQNVQAAELLAEMAISSAQRRLRAAKKVVRKKLTSGPALPGKLADCTAQDLNRTELFLVEGDSAGGSAKQARDREYQAIMPLKGKILNTWEVSSDEVLASQEVHDISVAIGIDPDSDDLSQLRYGKICILADADSDGLHIATLLCALFVRHFRTLVKEGHVYVALPPLYRIDLGKEVYYALTEEEKTGVLEQLKRKKGKPNVQRFKGLGEMNPMQLRETTLDPNTRRLVQLVISDEDEQQTTAMMDMLLAKKRSEDRRNWLQEKGDMADLEV	PGPT0027710_2205	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
BMS020_01932	576			hypothetical protein	ATGGCGACGCTCCTTTATCTGCACGGCTTTAACAGTTCTCCGCGCTCGGCGAAGGCGACGGCGTTAAAGACCTGGCTGGCGCAGCACTATCCTGAGATCGCCATGGTGGTGCCGGAGCTGCCGCCTTACCCGGCGGAAACGGCGGAGCTGCTGGAGTCCATCGTGCTGGAGCACGGCGGCGAGCCGCTGGGTGTCGTAGGGTCGTCGCTGGGCGGCTACTACGCGACCTGGCTGTCGCAGTGCTTTATGCTGCCAGCGGTAGTGGTTAACCCGGCGGTGCGGCCGTTTGAGCTGCTGAACAATTTTCTCGGCCACAATGAGAATCCGTACACCGGGCAGCAATATGTGCTAGAGTCTCGCCATATTTACGATCTCAAAGTCATGCAAATCGACCCGCTCGAAGCGCCGGATTTACTCTGGCTGCTGCAGCAGACCGGGGATGAAGTGCTTGATTACCGCCAGGCCGTTCATTACTACGCCTCCTGCCGGCAGACGGTGGAGGAGGGCGGTAATCACGCATTTGTCGGCTTTGACGATCATTTCACTCAGATTATCGAATTTCTCGGCCTGCGCTAA	MATLLYLHGFNSSPRSAKATALKTWLAQHYPEIAMVVPELPPYPAETAELLESIVLEHGGEPLGVVGSSLGGYYATWLSQCFMLPAVVVNPAVRPFELLNNFLGHNENPYTGQQYVLESRHIYDLKVMQIDPLEAPDLLWLLQQTGDEVLDYRQAVHYYASCRQTVEEGGNHAFVGFDDHFTQIIEFLGLR				NA	NA	NA	NA	NA
BMS020_01933	828	cpdA_1	COG1409	3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	TTGGAAAGCCTGTTAAACCTACCTCTGGCTGGTGAGGCCAGAGTCAGGATCTTACAAATTACTGATACTCACCTGTTTGCTGAAAAACATGAAACGTTGTTAGGCATCAATACCTGGGAAAGCTATCAGGCCGTACTGTCGGCCATTCATGCCTCACAGCGTCCATGCGATTTGATTGTCGCAACAGGCGATTTGGCGCAGGATCACTCCTCCGCGGCCTACCAGCATTTTGCTGAGGGCATCGCGAGTTTCGCTGCACCCTGCGTCTGGCTACCGGGCAACCATGATTTCCAGCCGGCGATGTACAGCACCCTGCAGGAGTCGGGCATTTCCCCCGCCAAGCGCGTGTTTCTCGGCGACCACTGGCAGATCCTGCTGCTGGACAGCCAGGTGTTTGGCGTTCCCCATGGCGAGCTGAGCGACTTCCAGCTGGAATGGCTCGAACATAAGCTGGCGGAGGCGCCGGAGCGTTATACCTTACTCCTGCTGCATCATCATCCGCTGCCGGCCGGCTGCAGCTGGCTGGATCAACACAGTCTGCGCAACGCCGGCGCGCTGGACAGCGCGCTGAGCGCCTGGCCGCGGGTGAAGCATCTGCTGTGCGGCCATATTCATCAGGAGCTGGATCTCGACTGGAATGGCCGACGTATGATGGCGACGCCGTCGACCTGCGTTCAGTTCAAACCGCACTGCGCCAATTTCACCCTCGATACGGTGTCGCCGGGCTGGCGCTGGCTGGAGCTTCACCCTGACGGAACGCTGACCACCGAAGTGTGCCGCCTGGAAGGCGCGGCCTTTCATCCGGATATTGCTTCAGAAGGCTACTGA	MESLLNLPLAGEARVRILQITDTHLFAEKHETLLGINTWESYQAVLSAIHASQRPCDLIVATGDLAQDHSSAAYQHFAEGIASFAAPCVWLPGNHDFQPAMYSTLQESGISPAKRVFLGDHWQILLLDSQVFGVPHGELSDFQLEWLEHKLAEAPERYTLLLLHHHPLPAGCSWLDQHSLRNAGALDSALSAWPRVKHLLCGHIHQELDLDWNGRRMMATPSTCVQFKPHCANFTLDTVSPGWRWLELHPDGTLTTEVCRLEGAAFHPDIASEGY	PGPT0021595_1459	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
BMS020_01934	423			hypothetical protein	ATGAAGCGTTATACACCTGACTTCCCTGAGATGATGCGCCTGTGCGAGACCAATTTCGCCCAGTTGCGCCGCCTGTTGCCGCGAACGGATGCAGCGGGTGAGAAGGTGAGCTATCAGGTGGGAAGCGCGCAATATCGGTTAACGATAACGGAATCAACCCGCTACACTACTCTGGTGGCGATAGAGCAGACTCTGCCAGCGGTGAGCTACTGGAGTCTACCGTCGATGACCGTTCGCCTCTACCATGACGCCATGGTGGCCGAAGTGTGTTCGAGTCAGCAGATCTTTCGCTTCAAAGCGCGATATGATTATCCTAATAAAAAGTTGCATCAACGCGACGAAAAGCATCAAATTAACCAGTTTCTGGCCGACTGGCTGCGTTACTGTTTAGCACATGGAGCGATGGCGATTCCGGTTTGTTAG	MKRYTPDFPEMMRLCETNFAQLRRLLPRTDAAGEKVSYQVGSAQYRLTITESTRYTTLVAIEQTLPAVSYWSLPSMTVRLYHDAMVAEVCSSQQIFRFKARYDYPNKKLHQRDEKHQINQFLADWLRYCLAHGAMAIPVC				NA	NA	NA	NA	NA
BMS020_01935	633	nudF		ADP-ribose pyrophosphatase	ATGAGCAAACCCATTCACCAGGGAATTACCTTCTCCAAAAATGATGTAGAAATTATTGCACGCGAAACGCTGTATCGTGGTTTTTTTTCGCTCGATTTATACCGTTTTCGCCACCGTCTGTTTAACGGCGGCATGAGCGGCGAAGTCACCCGTGAAATTTTTGAGCGCGGGCATGCCGCCGTCTTGCTACCCTTTGACCCGGTGCGGGACGAAGTGGTGCTGGTCGAACAAATCCGTATCGCCGCCTATGATACCAGCGAGAGCCCTTGGCTGCTGGAAATGGTCGCCGGCATGATCGAGGCGGGTGAGACGGTAGAAGATGTCGCCCGTCGGGAAGCGCTGGAGGAGGCCGGCCTTGAAGTTGGGCGGACGAAACCAATATTAAGCTATCTGGCCAGTCCTGGCGGCACCAGCGAACGGTTATCGATCCTGGTGGGCGAAGTTGATGCATCGACGGCAAAAGGCATTCACGGCCTGGCCGAGGAAAATGAGGATATTCGGGTGCATGTGGTGAGCCGGGAGCAGGCTTACCAGTGGGTAGAAGAGGGGAAAATCGACAACGCAGCCTCTGTCATCGCCTTGCAATGGCTGCAATTGCATTATCACAATTTACGAAACGAGTGGACAAAATGA	MSKPIHQGITFSKNDVEIIARETLYRGFFSLDLYRFRHRLFNGGMSGEVTREIFERGHAAVLLPFDPVRDEVVLVEQIRIAAYDTSESPWLLEMVAGMIEAGETVEDVARREALEEAGLEVGRTKPILSYLASPGGTSERLSILVGEVDASTAKGIHGLAEENEDIRVHVVSREQAYQWVEEGKIDNAASVIALQWLQLHYHNLRNEWTK	PGPT0021525_538	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021525-nudF-K01515	NA	NA
BMS020_01936	1461	tolC_1		Outer membrane protein TolC	ATGAAGAAATTGCTCCCCATTCTTATCGGCCTGAGCCTGACCGGGTTCAGCGCCATGAGCCAGGCGGAAAACCTGCTTCAGGTTTACCAGCAGGCGCGCATCAGCAACCCCGATCTGCGTAAATCGGCAGCCGATCGTGACGCCGCGTTCGAAAAGATCAACGAAGCGCGCAGTCCATTACTGCCTCAGCTCGGGCTGGGAGCGGATTATACCTATACCAGCGGCTTCCGTGATTATAAAGACCAGAATTCTAACGTCACCAGCGGCTCGCTGCAGTTAACGCAGGTTCTGTTTGATATGTCGAAATGGCGCGCCCTGACGCTGCAGGAAAAAACGGCAGGCATTCAGGATGTCACGTATCAGACCGATCAGCAAACGCTGATTCTGAATACCGCGACGGCCTATTTCAAAGTGCTGGCCGCCATCGACACGCTCTCTTATACCGAAGCGCAGAAACAGGCTATTTACCGCCAGTTGGATCAAACCACCCAGCGCTTTAACGTCGGTCTGGTGGCGATCACCGACGTGCAGAACGCCCGTTCACAATACGACGCCGTGCTGGCGAACGAAGTGACCGCGCGTAACGATCTCGACAACGCCGTGGAAGAGCTGCGCCAGGTTACCGGCAACTACTACCCGGAGCTGGCCTCCCTGAACGTAGACGGCTTCAAAACCAGCAAACCGCAGGCGGTGAACGCCCTGCTGAAGGAAGCGGAGAACCGCAACCTGTCGCTGCTGCAGGCGCGTCTGAGCCAGGATCTGGCCCGCGAGCAGATTCGCCAGGCGCAGGACGGCCATTTGCCGACCCTGGATTTGAACGCCTCGTCGGGCGTTTCCAACAACCGCTACAGCGGCTCAAACAGCATCGCGCAAGATGCTGATATCGGTCAGAACAAAATCGGCCTGAGCTTCTCCATGCCGCTGTATCAGGGCGGGATGGTTAACTCGCAGGTTAAACAGGCGCAGTACAACTTCGTCGGCGCCAGCGAGCAGCTGGAAAGCGCTCACCGCAGCGTGGTCCAGACCGTGCGTTCTTCGTTTAACAACGTGAATGCCTCTATCAGCAGCATCAACGCCTACAAACAGGCGGTGGTCTCTGCGCAAAGTTCCCTGGATGCGATGGAAGCTGGCTACTCGGTGGGTACCCGTACTATCGTTGACGTCCTCGACGCCACCACCACGCTGTACAACGCCAAACAGCAGCTCTCGAATGCGCGCTACAACTACCTGATCAACGAGCTGAACATCAAGTCGGCGTTAGGTACGCTGAACGAGCAGGATCTGGTCGCCCTGAACAACACCCTGGGCAAACCGATCTCCACCTCCGCGGACAGCGTCGCGCCGGAAAATCCGCAGCAGGATGCCACTGCCGACGGTTACGGCAACACGACCGCGGCCGTGAAGCCGGCGTCTGCACGGACGACGACCCAAAGCAGCGGCAGCAATCCGTTCCGTCAGTAA	MKKLLPILIGLSLTGFSAMSQAENLLQVYQQARISNPDLRKSAADRDAAFEKINEARSPLLPQLGLGADYTYTSGFRDYKDQNSNVTSGSLQLTQVLFDMSKWRALTLQEKTAGIQDVTYQTDQQTLILNTATAYFKVLAAIDTLSYTEAQKQAIYRQLDQTTQRFNVGLVAITDVQNARSQYDAVLANEVTARNDLDNAVEELRQVTGNYYPELASLNVDGFKTSKPQAVNALLKEAENRNLSLLQARLSQDLAREQIRQAQDGHLPTLDLNASSGVSNNRYSGSNSIAQDADIGQNKIGLSFSMPLYQGGMVNSQVKQAQYNFVGASEQLESAHRSVVQTVRSSFNNVNASISSINAYKQAVVSAQSSLDAMEAGYSVGTRTIVDVLDATTTLYNAKQQLSNARYNYLINELNIKSALGTLNEQDLVALNNTLGKPISTSADSVAPENPQQDATADGYGNTTAAVKPASARTTTQSSGSNPFRQ	PGPT0003600_1076	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-AlgE-TYPE_MANNURONAN_C-5-EPIMERASE_TRANSPORT,PGPT0003600-tolC-K12340	NA	NA
BMS020_01937	672			hypothetical protein	ATGAAACGGACAAAAAATATTAATCATTCGTCGTTCCGCAAAAGCTGGAGCGCACGCCACCTGACGCCGGTCGCCCTGGCCGTCACCGCGGTCTTTATGCTTGCCGGTTGTGAAAAAAGCGACGAAACGGTCTCGCTGTACCAGAACGCCGATGACTGCTCCGCCGCCAACCCGGGCAAAGCAGCCGAATGCACCACGGCCTACACCAACGCGGTGAAAGAGGCAGAGCGCACCGCGCCGAAATATGCCACCCGCGAAGACTGCGTCGCCGAGTTTGGCGAAGGCCAGTGCCAGCAAACGCCTGCCCAGGCGGGCGTCGCCCCGGAAAACCAGGCGCAGGCGCAAAGCAGCGGCAGCTTCTGGATGCCGCTGATGGCCGGCTACATGATGGGCCGCCTGATGGGCGGCGGCATGGCGCAACAGCAGCCGCTGTTCAGCTCCAAAAACCCGGCCAGCCCGGCCTACGGTCAGTACACTGACGCCAGCGGCAAGAGCTATGGCGCCGCCCAGCCGGGCCGCACCATGAACGTGCCGAAAACCGCGATGGCGCCGAAGCCAGCGACCACCACCACCGTCACCCGCGGGGGCTTCGGCGAGTCGGTGGCGAAGCAGTCGACCATGCAGCGTAGCGCCGCAGGCTCCACCTCCTCTTCTCGCTCAATGGGCGGCTAA	MKRTKNINHSSFRKSWSARHLTPVALAVTAVFMLAGCEKSDETVSLYQNADDCSAANPGKAAECTTAYTNAVKEAERTAPKYATREDCVAEFGEGQCQQTPAQAGVAPENQAQAQSSGSFWMPLMAGYMMGRLMGGGMAQQQPLFSSKNPASPAYGQYTDASGKSYGAAQPGRTMNVPKTAMAPKPATTTTVTRGGFGESVAKQSTMQRSAAGSTSSSRSMGG				NA	NA	NA	NA	NA
BMS020_01938	1161	ygiC_1	COG0754	Putative acid--amine ligase YgiC	ATGGAAAGAGTCAGCATTACCGAGCGCCCGGACTGGCGCGAGAAAGCGACCGAATACGGCTTCAACTTCCACACCATGTACGGCGAGCCCTACTGGAGCGAAGAGGCTTATTACAAGCTGACCCTCGCCCAGGTGGAAAAGCTGGAGGAGGTCACCGCCGAGCTGCATCAGATGTGTCTTCAGGTGGTGGAAAAAGTGATCGCCAGCGATGAGCTGATGGCCAAATTCCGCATCCCTAAACACACCTGGGGCTTTGTGCGCCAGTCGTGGAAAACCAACCAGCCGTCGCTCTACTCGCGTCTCGACCTGGCCTGGGATGGCGTCGGCGAGCCGAAGCTGCTGGAGAACAATGCCGACACGCCGACCTCGCTGTATGAAGCGGCATTTTTCCAGTGGATCTGGCTGGAAGACCAGCTCAACGCCGGCAAGCTGCCGGCGGGCAGCGATCAGTTCAACAGCCTGCAGGAAAAGCTAATCGATCGCTTCGGTGAGCTGCGCGAGCAGTTTGGCTTCCAGCTGCTGCATATGGCCTGCTGCCGCGATACCGTTGAAGATCGCGGCACCGTGCAATATCTGCAGGACTGCGCCGCCGAGGCGGGGCTGGCGACGGAATTCCTCTACATCGAAGATATTGGTCTGGGTGAAAAAGGCCAGTTTACCGATCTCCAGGATCAGGTGATTGGCAACCTGTTCAAGCTCTATCCGTGGGAGTTTATGCTGCGGGAGATGTTTTCCACCAAGCTGGAAGACGCCGGCGTCCGCTGGCTGGAGCCTGCGTGGAAGAGCATCATCTCCAACAAAGCGCTGCTGCCGATGCTGTGGGAAATGTTCCCTAATCATCCGAATCTGCTGGCGGCTTACTTCAGCGAAGATGCCCATCCGGAGATGGAGAAGTACGTCATTAAGCCAATCTTCTCCCGCGAAGGCGCCAACGTGTCGATCGTTGAGAATGGCAAAGTTTTGGAAGCCGTGGAAGGCCCGTACGGAGAAGAAGGCACAATCGTGCAGGAATTTTACCCGCTGCCGAAGTTTGGTGACAGCTACACGCTGATTGGCAGCTGGCTCATCAACGATCAGCCCGCCGGGATCGGCATTCGTGAAGACCGGGCGCTGATTACCCAGGATCTGTCGCGCTTCTATCCGCACATTTTCGTCGAATAA	MERVSITERPDWREKATEYGFNFHTMYGEPYWSEEAYYKLTLAQVEKLEEVTAELHQMCLQVVEKVIASDELMAKFRIPKHTWGFVRQSWKTNQPSLYSRLDLAWDGVGEPKLLENNADTPTSLYEAAFFQWIWLEDQLNAGKLPAGSDQFNSLQEKLIDRFGELREQFGFQLLHMACCRDTVEDRGTVQYLQDCAAEAGLATEFLYIEDIGLGEKGQFTDLQDQVIGNLFKLYPWEFMLREMFSTKLEDAGVRWLEPAWKSIISNKALLPMLWEMFPNHPNLLAAYFSEDAHPEMEKYVIKPIFSREGANVSIVENGKVLEAVEGPYGEEGTIVQEFYPLPKFGDSYTLIGSWLINDQPAGIGIREDRALITQDLSRFYPHIFVE				NA	NA	NA	NA	NA
BMS020_01939	792	ygiD_1	COG3384	4,5-DOPA dioxygenase extradiol	ATGTCCCGTACCCGAATGCCCGCGTTGTTCCTCGGCCATGGCAGCCCAATGAACGTGCTGGAAGACAATCGCTATACCCGCGCCTGGGCTCACCTGGGCGAAACCCTGCCGCGTCCGAAAGCGATCGTGGTGGTCTCTGCGCACTGGTTCACGCGCGGTACGGGCGTGACGGCGATGGAGGCCCCGAAGACCATTCACGACTTCGGCGGCTTCCCGCAGGCGCTGTATGACACTCATTACCCGGCTCCGGGTTCCCCGGCGCTGGCGCAACGACTGGTGGAGTTGCTCTCGCCGGTGCCGGTTACCCTCGATAAAGAAGCCTGGGGATTTGACCATGGTTCATGGGGCGTGCTGATTAAGATGTATCCGCAGGCGGATATCCCGATGGTTCAGCTGAGCATCGACAGCACCAAACCGCCGGCCTGGCATCTCGAAATGGGGCGGAAGCTGGCCTCGCTGCGTGATGAAGGCATTATGCTGGTGGCCAGCGGCAACGTGGTGCATAACCTGCGTACCGCCCGCTGGCATGGCGAGAACACGCCGTATCCGTGGGCGGAGTCCTTCAACAACTACGTGAAGGCGAATCTGCAGTGGCAGGGCCCGGACGATCAGCACCCGCTGGTTAACTACCTGGCACATGAAGGGGGTTCGCTCTCCAACCCAACGGCGGAGCATTTCCTGCCGCTGTTATACGTCCTGGGGGCGTGGGATGGCGTTGAGGCGATTTCGACCCCGGTCGATGGCATCGAGATGGGCTCGTTGAGTATGCTGTCGGTGGTGGTTGGCGCCTGA	MSRTRMPALFLGHGSPMNVLEDNRYTRAWAHLGETLPRPKAIVVVSAHWFTRGTGVTAMEAPKTIHDFGGFPQALYDTHYPAPGSPALAQRLVELLSPVPVTLDKEAWGFDHGSWGVLIKMYPQADIPMVQLSIDSTKPPAWHLEMGRKLASLRDEGIMLVASGNVVHNLRTARWHGENTPYPWAESFNNYVKANLQWQGPDDQHPLVNYLAHEGGSLSNPTAEHFLPLLYVLGAWDGVEAISTPVDGIEMGSLSMLSVVVGA				NA	NA	NA	NA	NA
BMS020_01940	771	zupT_1	COG0428	Zinc transporter ZupT	ATGTCATCACCCTTAATATTGACGCTGTTAGCCGGTAGCGCAACATTTATTGGCGCCATATTCGGCGTGATTGGCCAGAAACCCTCTAACCGCCTGCTTGGCTTCTCCCTCGGCTTTGCCGCCGGGATCATGCTGTTGATTTCGTTGATGGAAATGCTGCCTGCCGCGCTGGCCGCCGAGGGCATGTCGCCGCTGCTCGGCTACGGAATGTTTGTTGTCGGCCTGCTGGGCTACTTTGGTCTCGATCGCCTGCTGCCGCACGCCCACCCGCAGGATCTGATGCCGCCCGCCGCGCCGCGGCCGCGCAATTTACGCCGCACCGCCATTTTGCTGACGCTGGGTATCAGCCTGCATAATTTTCCGGAAGGCATCGCCACCTATGTCACGGCCAGCAACAACCTCGAGCTTGGCATGGGAGTGGCGCTTGCCGTCGCCCTGCACAATATTCCTGAAGGTTTGGCGGTTGCCGGGCCGGTATATGCCGCTACCGGATCGCGCAGCAAGGCGGTGCTCTGGGCCGGTCTTTCCGGTATGGCGGAGATTTTAGGCGGCGTGCTGGCGTGGCTGATTCTGGGCAGCCTGGTCTCGCCGCTGGTCATGGGCGCGATCATGGCCGCCGTCGCCGGGATTATGGTGGCGCTGTCGGTCGATGAACTGATGCCGCTGGCAAAAGAGATCGATCCGCAAAGCAACCCGAGCTATGGCGTCCTGTGCGGGATGTCGGTGATGGGGCTGAGCCTGGTGGTGCTCCAGACGATGGGCATCGGTTAA	MSSPLILTLLAGSATFIGAIFGVIGQKPSNRLLGFSLGFAAGIMLLISLMEMLPAALAAEGMSPLLGYGMFVVGLLGYFGLDRLLPHAHPQDLMPPAAPRPRNLRRTAILLTLGISLHNFPEGIATYVTASNNLELGMGVALAVALHNIPEGLAVAGPVYAATGSRSKAVLWAGLSGMAEILGGVLAWLILGSLVSPLVMGAIMAAVAGIMVALSVDELMPLAKEIDPQSNPSYGVLCGMSVMGLSLVVLQTMGIG	PGPT0004250_2072	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
BMS020_01941	654	ribB	COG0108	3,4-dihydroxy-2-butanone 4-phosphate synthase	ATGAATCAGACGCTCCTTTCTTCTTTTGGTACCGCTTTTGAACGTGTGGAACACGCTTTAAACGCCCTGCGCGAAGGCCGCGGCGTGATGGTGCTTGACGATGAAGACCGTGAAAACGAAGGCGATATGATTTTCGCCGCCGAAACCATGACCGTAGAGCAGATGGCGCTGACCATTCGTCACGGCAGCGGCATTGTGTGCCTGTGCCTGACCGAAGATCGCCGTAAACAGCTGGATCTGCCGATGATGGTGGAGAACAACACCAGCGCCTACGGCACCGGCTTTACCGTCACCATCGAAGCGGCCGAAGGCGTGACCACCGGCGTTTCCGCTGCCGACCGCGTGACCACCGTCCGCGCGGCGATTGCCGACGGCGCGAAACCTTCCGATCTCAACCGTCCTGGCCACGTTTTCCCGCTGCGGGCGCAGCCGGGCGGCGTACTGACCCGCGGCGGCCACACCGAAGCCACTATCGACCTCGTGACCCTCGCCGGCTTCAAACCGGCAGGCGTGCTGTGCGAGCTGACCAATGACGATGGCACTATGGCCCGCGCGCCGGAGTGCATCAAGTTCGCTCAGCAGCACAATATGGCAGTGGTCACGATTGAAGATCTGGTGGCCTATCGTCGCGAACATGAGCGTAAAGCCAGCTAA	MNQTLLSSFGTAFERVEHALNALREGRGVMVLDDEDRENEGDMIFAAETMTVEQMALTIRHGSGIVCLCLTEDRRKQLDLPMMVENNTSAYGTGFTVTIEAAEGVTTGVSAADRVTTVRAAIADGAKPSDLNRPGHVFPLRAQPGGVLTRGGHTEATIDLVTLAGFKPAGVLCELTNDDGTMARAPECIKFAQQHNMAVVTIEDLVAYRREHERKAS	PGPT0008600_847	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008600-ribB|RIB3-K02858	NA	NA
BMS020_01943	273	ubiK_1	COG2960	Ubiquinone biosynthesis accessory factor UbiK	ATGATTGACCCGAAAAAAATTGAACAAATCGCCCGCCAGGTCCATGAGTCGATGCCAAAAGGACTTCGCGATCTGGGTGAGGATGTTGAGAAGAAAATCCGCCAGGCGCTGCAGTCGCAGCTGACCCGCCTGGATCTGGTTAGCCGCGAAGAGTTTGACGTGCAGACTCAGGTTCTGCTGCGGACCCGCGAAAAACTGGCGCTGCTGGAACAGCGCCTGAATGACCTTGAAAACCGCCCGGCGACGACGCCTGGCAGCGAAGAGCAGCAGTAA	MIDPKKIEQIARQVHESMPKGLRDLGEDVEKKIRQALQSQLTRLDLVSREEFDVQTQVLLRTREKLALLEQRLNDLENRPATTPGSEEQQ				NA	NA	NA	NA	NA
BMS020_01944	198	glgS_1		Surface composition regulator	ATGAACCATAACGATATGTATTCAATGAAGAATTTTGATTTTTTGGCGCGGAGTTTCGCCAGAATGCACGCCCAGGGCCAGCCAGTTGATCTTCAGGCCATCGTCGGCAATATGGATGAAGAACATCGTGAATGGTTTTGCCAGCGCTATGAACTGTACTGTCGTCAGGTGAACAGCCCGGCGGAAGCCGCACACTAA	MNHNDMYSMKNFDFLARSFARMHAQGQPVDLQAIVGNMDEEHREWFCQRYELYCRQVNSPAEAAH	PGPT0018546_48	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENVIROMENTAL_SURRIVAL	CE-BACTERIAL_FITNESS-ENVIRONMENTAL_SURRIVAL-GLYCOGEN_BIOSYNTHESIS,PGPT0018546-glgS-K22720	NA	NA
BMS020_01945	1434	hldE	COG2870	Bifunctional protein HldE	ATGAAAGTAACGCTGCCGGAGTTTGAACGTGCAGGAGTGTTGGTGGTGGGCGATGTGATGCTGGACCGCTACTGGTACGGCCCCACCAGTCGTATTTCCCCGGAAGCCCCGGTGCCGGTGGTGAAGGTGGAAAATATCGAAGAACGTCCCGGCGGCGCGGCAAACGTAGCGATGAACATCGCCTCCCTGGGGGCGACGTCGCGCCTGGTGGGATTGACCGGGATTGATGACGCCGCCCGCGCGCTGAGCCAGGCGCTGGCCAACGTCAATGTGAAGTGCGACTTTGTCTCCGTCCCGACACACCCGACCATCACCAAGCTGCGGGTGCTGTCGCGCAATCAGCAGCTGATCCGCCTCGACTTTGAAGAGGGCTTTTCCGGCGTTGATCCGCAGCCGATGCACGAGCGCATTCAACAGGCGCTGGGCTCGATTGGCGCGCTGGTTCTCTCGGACTACGCTAAAGGGGCGCTGACCAGCGTCCAGACGATGATCAAGCTCGCCCGAGAAGCAGGCGTGCCGGTGCTGATCGATCCGAAAGGTACCGATTTCGAACGCTATCGCGGCGCAACGCTGCTCACGCCGAACCTCTCTGAGTTTGAAGCGGTGGTGGGCAAGTGCCAGAATGAAGCGGAGATCGTTGAGCGCGGCATGAAGCTCATCGCCGAATTCGAACTGTCAGCGCTGCTGGTGACGCGCTCTGAGCAGGGGATGACGCTGCTACAGCCGGGGCGTCCGCCGCTGCATATGCCGACCCAGGCCCAGGAAGTGTACGATGTCACCGGCGCCGGCGACACGGTGATTGGCGTGCTGGCGGCGACCCTGGCCTCCGGCAATACCCTGGAAGAGGCCTGCTATTTCGCCAACGCCGCGGCGGGCGTGGTGGTTGGCAAGCTGGGGACCTCCACCGTTTCTCCTGTCGAGCTGGAAAATGCGGTTCGCGGACGGGCTGAGACTGGCTTCGGCGTGATGAGCGAAGAGGAACTCAAACAGGCGGTTGCGGCAGCGCGCAAGCGCGGCGAGAAAGTGGTTATGACCAACGGCGTCTTCGACATTCTGCACGCCGGCCATGTCTCCTATCTGGCGAATGCGCGCAAACTGGGCGACCGTCTGATCGTGGCGGTCAACAGCGATGCCTCCACCAAACGTCTGAAAGGCGAAACCCGCCCGGTGAACCCGCTGGAGCAGCGGATGATCGTGCTGGGGGCGCTGGAGGCGGTCGACTGGGTGGTCTCCTTCGAAGAAGATACACCGCAGCGCCTGATTGCCGGGATCCTGCCGGATCTGCTGGTCAAAGGCGGCGACTACAAACCGGAACAGATCGCCGGCAGTGAAGAGGTCTGGGCGAACGGTGGCGAAGTGCTGGTGCTCAACTTTGAAGATGGGTGCTCAACCACCAACATTATTAAGAAAATACAAAAAGATAGCGAAAAATAA	MKVTLPEFERAGVLVVGDVMLDRYWYGPTSRISPEAPVPVVKVENIEERPGGAANVAMNIASLGATSRLVGLTGIDDAARALSQALANVNVKCDFVSVPTHPTITKLRVLSRNQQLIRLDFEEGFSGVDPQPMHERIQQALGSIGALVLSDYAKGALTSVQTMIKLAREAGVPVLIDPKGTDFERYRGATLLTPNLSEFEAVVGKCQNEAEIVERGMKLIAEFELSALLVTRSEQGMTLLQPGRPPLHMPTQAQEVYDVTGAGDTVIGVLAATLASGNTLEEACYFANAAAGVVVGKLGTSTVSPVELENAVRGRAETGFGVMSEEELKQAVAAARKRGEKVVMTNGVFDILHAGHVSYLANARKLGDRLIVAVNSDASTKRLKGETRPVNPLEQRMIVLGALEAVDWVVSFEEDTPQRLIAGILPDLLVKGGDYKPEQIAGSEEVWANGGEVLVLNFEDGCSTTNIIKKIQKDSEK	PGPT0023040_512	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-MANNO-HEPTOSE|-PHOSPHATE_MODIFICATION,PGPT0023040-gmhC|hldE|waaE|rfaE-K03272	NA	NA
BMS020_01946	2838	glnE_1	COG1391	Bifunctional glutamine synthetase adenylyltransferase/adenylyl-removing enzyme	ATGATGCCGCTTTCTTCGCAGTTACAGCAGCACTGGCAGACGGTCGCTGACCGCCTGCCAGCGGATTTCCCCGTCGCCGAACTGAGCCCGCAGGCCAGGTCGGTGATGGCGTTCAGTGATTTTGTCGAACAGAGTGTGATCGCCCAGCCAGGCTGGCTAAACGAGCTTGCCCAGTCTTCACCGGAGGCGGAAGAGTGGCGGCATTATGAGACCTGGCTGCAGGAACGCCTGCAGGCGGTGGCTGACGAAGCGGGGTTGATGCGAGAGCTGCGTCTTTTCCGCCGTCATATGATGGTCCGCATCGCCTGGGCGCAGGCGCTGTCGCTGGTAAGCGAAGAAGAGACGCTGCAGCAGTTGAGCGTCCTGGCGGAGACCCTGATTGTCGCCGCCCGCGACTGGCTGTACGCCGCCTGCTGTAAAGAGTGGGGAACGCCCTGCAATGCCGAGGGCCAGCCGCAGCCGCTGCTGATCCTCGGGATGGGAAAGCTGGGCGGCGGCGAGCTGAACTTCTCTTCCGATATCGATCTGATTTTTGCCTGGCCTGAGCATGGCGCCACCCGCGGCGGCCGCCGCGAGCTGGATAACGCCCAGTTCTTTACCCGCCTGGGGCAGCGGCTTATCAAGGCGCTCGACCAGCCGACGCAGGACGGCTTTGTTTATCGGGTGGACATGCGCCTGCGGCCGTTTGGCGACAGCGGGCCGCTGGTGCTCAGCTTTGCGGCGCTGGAGGATTATTACCAGGAGCAGGGCCGGGACTGGGAACGCTACGCGATGGTGAAAGCGCGGATCATGGGCGATAACGACGACGTCTACGCCAGCGAGCTGCGCGCGATGCTTCGCCCCTTCGTCTTCCGCCGCTATATCGACTTCAGCGTGATCCAGTCGCTGCGTAACATGAAAGGCATGATCGCTCGCGAAGTGCGGCGTCGCGGGCTGAAAGACAACATCAAGCTCGGCGCCGGCGGGATCCGTGAAATTGAGTTTATCGTGCAGGTCTTTCAGCTGATCCGCGGCGGTCGCGAACCTGCGCTGCAGCAGCGGGCGCTGCTGCCGACGCTGGCGGCGATTGATGAGCTGCATCTGCTGCCGGAAGGCGACGCGACGCTGCTGCGCGCGGCCTATCTGTTCCTGCGCCGGCTGGAAAATCTGCTGCAGAGCATCAACGATGAGCAGACTCAGACTCTGCCGCAGGATGAACTGAACCGCGCCAGGCTGGCGTGGGGGATGCATACCGACGACTGGGAGACGCTGAGCGCGCAGCTGGCGAGCCATATGGCCAGCGTGCGGCGGGTGTTTAATGAGCTGATCGGTGATGATGAGGCCCAGTCGCCGGATGAGCAGCTGGCGGAGTACTGGCGCGAACTGTGGCAGGATGCGCTGGAAGAAGATGACGCCAGCCCGGCGCTGGCGCATTTAAACGACGCCGACCGCCGCAGCGTGCTGGCGCTGATTGCTGATTTCCGTAAAGAGCTGGATCGGCGCACCATCGGCCCGCGAGGCCGCCAGGTGCTGGATCAACTGATGCCGCATCTGCTGAGCGAAATCTGCTCGCGCGCCGATGCGCCTCTGCCTCTGGCGCGGATCACGCCGCTGTTGACCGGGATCGTCACTCGCACCACCTATCTTGAGCTACTGAGCGAATTCCCCGGCGCGCTGAAGCACCTGATTAGGCTCTGCGCGGCGTCGCCGATGGTCGCCAGCCAGCTGGCGCGCCACCCGCTGCTGCTTGATGAACTGCTGGATCCCAACACCCTCTATCAGCCGACGGCGACCGATGCCTATCGCGACGAGCTGCGCCAGTATCTGCTGCGCGTGCCGGAAGAGGATGAAGAGCAGCAGCTGGAGGCATTGCGCCAGTTCAAGCAGGCGCAGCAGCTGCATATCGCCGCGGCGGATATCGCCGGCACGCTGCCGGTGATGAAGGTCAGCGATCACTTAACCTGGCTTGCCGAAGCGATCCTCGACGCGGTGGTGCAGCAGGCATGGGGACAGATGGTGGCCCGCTACGGCCAGCCGACCCACCTGCACGATCGCCAGGGGCGCGGCTTCGCCGTCGTCGGCTACGGCAAGCTCGGCGGCTGGGAGCTGGGCTACAGTTCCGATCTCGACCTGGTGTTCCTCCATGATTGCCCGGCGGAGGTGATGACCGACGGCGAGCGGGAGATCGACGGCCGTCAGTTCTACCTGCGGCTGGCTCAGCGGATCATGCATCTGTTCAGCACCCGCACCTCGTCCGGTATTCTCTACGAAGTTGACGCCCGGCTGCGCCCTTCCGGCGCGGCGGGGATGCTGGTCACCACCGCCGACGCGTTTGCCGACTATCAGCAGAACGAAGCCTGGACATGGGAGCATCAGGCGCTGGTGCGCGCTCGCGTGGTCTATGGCGACCCGGCGCTGCAGGCGCGATTTGACGCCATTCGTCGCGATATCCTGACCACCGAGCGGGATGGCGCGACCCTGCAGACCGAAGTTCGCGAGATGCGTGAGAAGATGCGCGCCCACCTCGGCAACAAACATGCCGATCGTTTTGATATCAAAGCCGATGCCGGTGGGATCACGGATATTGAATTTATTACCCAGTATCTGGTCCTACGCTATGCCAGCGACAAGCCGAAGTTGACCCGCTGGTCTGATAACGTGCGTATTCTCGAGCTGCTGGCGCAGAACGACATCATGGACGAGGAGGAAGCGCGAGCTTTAACGCACGCGTACACCACCTTGCGTGATGCGCTCCATCACCTGGCCCTGCAGGAGCTGCCGGGACACGTGGCGCCGGAGGCATTCAGCCGGGAGCGTGAGCAGGTCAGCGCCAGCTGGCAGAAGTGGCTGATGGCTTAA	MMPLSSQLQQHWQTVADRLPADFPVAELSPQARSVMAFSDFVEQSVIAQPGWLNELAQSSPEAEEWRHYETWLQERLQAVADEAGLMRELRLFRRHMMVRIAWAQALSLVSEEETLQQLSVLAETLIVAARDWLYAACCKEWGTPCNAEGQPQPLLILGMGKLGGGELNFSSDIDLIFAWPEHGATRGGRRELDNAQFFTRLGQRLIKALDQPTQDGFVYRVDMRLRPFGDSGPLVLSFAALEDYYQEQGRDWERYAMVKARIMGDNDDVYASELRAMLRPFVFRRYIDFSVIQSLRNMKGMIAREVRRRGLKDNIKLGAGGIREIEFIVQVFQLIRGGREPALQQRALLPTLAAIDELHLLPEGDATLLRAAYLFLRRLENLLQSINDEQTQTLPQDELNRARLAWGMHTDDWETLSAQLASHMASVRRVFNELIGDDEAQSPDEQLAEYWRELWQDALEEDDASPALAHLNDADRRSVLALIADFRKELDRRTIGPRGRQVLDQLMPHLLSEICSRADAPLPLARITPLLTGIVTRTTYLELLSEFPGALKHLIRLCAASPMVASQLARHPLLLDELLDPNTLYQPTATDAYRDELRQYLLRVPEEDEEQQLEALRQFKQAQQLHIAAADIAGTLPVMKVSDHLTWLAEAILDAVVQQAWGQMVARYGQPTHLHDRQGRGFAVVGYGKLGGWELGYSSDLDLVFLHDCPAEVMTDGEREIDGRQFYLRLAQRIMHLFSTRTSSGILYEVDARLRPSGAAGMLVTTADAFADYQQNEAWTWEHQALVRARVVYGDPALQARFDAIRRDILTTERDGATLQTEVREMREKMRAHLGNKHADRFDIKADAGGITDIEFITQYLVLRYASDKPKLTRWSDNVRILELLAQNDIMDEEEARALTHAYTTLRDALHHLALQELPGHVAPEAFSREREQVSASWQKWLMA	PGPT0000655_2069	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000655-glnE-K00982	NA	NA
BMS020_01947	1299	ygiF	COG3025	Inorganic triphosphatase	ATGGCTCAAGAAATCGAACTTAAGTTTATCGTCGCTCAGGATGGGGTAGAGACGCTGCGCGAGCAGCTCAATGCGCTCGAGGCGAAACATACGCCCGCGGGCCAGTTGCTGAACATTTACTATGAAACCGCCGATAACTGGCTGCGTCGTCACGACATGGGGCTGCGCATCCGCGGCGACCAGGGGCGTTATGAGATGACGCTGAAAATCGCCGGTCGGGTGGTGGGCGGCCTGCACCAGCGCCCGGAATACAATATTCCACTGGATAAACCGGAGCTGGCGCTTGAGCGCCTGCCGGCGGAGGTCTGGCCGCAAGGGGAACTTCCAGCCGCGCTGGCGGAGCATGTGCTACCGCTGTTCAGCACCGACTTTGCCCGTGAACGCTGGGTGATCCAGGAAGGAAAGAGTGAAATTGAGATTGCCCTCGATCGCGGCGAAGTGAAGGCGGGCGAGCATCAGGAGCCGATCTGCGAGCTGGAGCTGGAGCTGCTCGCCGGGGAGACCGCCGATCTGCTGCGCCTCGCGCAGCGTTTGCTGGAGAGCGGCGTCCTGCGTCAGGGGAGCCTGAGCAAAGCCGCGCGCGGGTATCATCTGGCGCAAGGCAACGACGAGCGCCCGGTAACCCGGCTGGCGGTGCTGCCGGTGGCGGCGAAGGCCAGCGTGGAGCAGGGGCTGGAGGCGGCGCTGGAGAGCGCCCTGGCGCACTGGCTGTATCACGATGAGGTCTGGCTGCGCGGCAACGCGAAAGCCAAAGCGGAAATCCTGCTGGCGATAGCCCGCGTGCGCCATGCGCTGGTGCTGTTCGGCGGCATCGTGCCGCGGAAGGCGACCACCCACCTCCGCGCGTTGCTGAACGACGCCGAAGCGGCGCTGCTGGCCGCGGACACCGCCGATGAGGCGTTATTCCGCACCGAGGTCGTCGCCGCCAAACTGGCGCTGACCGAATGGCTGGTCCAGCGCGGCTGGCGTCCGTTCCTCAACGAGGCGGGAGAGAAAAAAATAGCCGGATCGTTCAAACGGTTTGCCGATATTCACCTTTCCCGGGCGGCGGCTGAGCTGCGCGGCGCCGTGCAGCACCTGGCGGTGGAGGATGCCGCCGACCAGCTGCCGAAGCTGGCGCGCGACATCGACAGCGTCCAGTTGCTGGCGGGCGCCTATGGCGACGCCGTCGCGCCGTGGCTGGAGAACTGGCAGGAACTACAGCGTGCGATAGAGCATGACGACCGCAGCGTCTTTGAATATTTCCGTCGCCAGGCGCTGGCTGCCGAGCCGTTCTGGCTGCATAGTGGAAAACGATAA	MAQEIELKFIVAQDGVETLREQLNALEAKHTPAGQLLNIYYETADNWLRRHDMGLRIRGDQGRYEMTLKIAGRVVGGLHQRPEYNIPLDKPELALERLPAEVWPQGELPAALAEHVLPLFSTDFARERWVIQEGKSEIEIALDRGEVKAGEHQEPICELELELLAGETADLLRLAQRLLESGVLRQGSLSKAARGYHLAQGNDERPVTRLAVLPVAAKASVEQGLEAALESALAHWLYHDEVWLRGNAKAKAEILLAIARVRHALVLFGGIVPRKATTHLRALLNDAEAALLAADTADEALFRTEVVAAKLALTEWLVQRGWRPFLNEAGEKKIAGSFKRFADIHLSRAAAELRGAVQHLAVEDAADQLPKLARDIDSVQLLAGAYGDAVAPWLENWQELQRAIEHDDRSVFEYFRRQALAAEPFWLHSGKR				NA	NA	NA	NA	NA
BMS020_01948	621			hypothetical protein	ATGCCAAAATTACGCCTGATTACTTTTACTTTGCTCGCGCTTAGCGCCGCCACGGCGGTTCACGCAGAAGAAAAGCGCTACGTTTCCGATGAGCTGAACACCTGGGTTCGCAGCGGCCCGGGCGATAATTATCGTCTGGTCGGCACCATCAACGCCGGGGAAGAAGTGTCGGTGCTGCAAACCAACGACAGCACCAGTTACGCGCAGATCCGCGACGCGAATGGGCGTACCGCCTGGATCCCGCTGAAAGAGCTGAGCAACGAGCCCAGCCTGCGCACCCGCGTCCCGGATCTGGAAAACCAGGTCAAAACGCTGACCGATAAGCTGAATAATATCGACGCCACCTGGAACCAGCGCACGGCGGATATGCAGAAGAAAGTCGCCGGCAGCGACAGCGTGATCAACGCGTTGAAAGACGAGAACCAAAAGTTGAAAAACGAGCTGGTTGTCGCGCAGAAGAAGGTGAATGCGGCGAATCTGCAGCTTGATGATAAACAGCGCACCATTATCATGCAGTGGTTTATGTACGGCGGCGGCGTGCTGGGCGTCGGTTTGCTGCTGGGTCTGGTGCTGCCGCATCTGGTGCCAAGCCGCAAACGTAAAGACCGGTGGATGAACTAA	MPKLRLITFTLLALSAATAVHAEEKRYVSDELNTWVRSGPGDNYRLVGTINAGEEVSVLQTNDSTSYAQIRDANGRTAWIPLKELSNEPSLRTRVPDLENQVKTLTDKLNNIDATWNQRTADMQKKVAGSDSVINALKDENQKLKNELVVAQKKVNAANLQLDDKQRTIIMQWFMYGGGVLGVGLLLGLVLPHLVPSRKRKDRWMN	PGPT0023725_310	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023725-ygiM|htrG-K07184	NA	NA
BMS020_01949	1242	cca_1	COG0617	Multifunctional CCA protein	GTGAAGAGTTATCTGGTCGGTGGTGCGGTGCGCGACGCGCTGTTAGGACTGCCGGTCAAAGACCGAGACTGGGTGGTGGTGGGCGCCACCCCGCAACAGATGCTTGACGCGGGCTATCAGCAGGTAGGCCGCGACTTTCCCGTGTTCCTTCATCCGCAAAGCCGGGAAGAGTATGCCCTGGCCCGCACCGAGCGCAAATCCGGCGCAGGCTATACCGGTTTTACCTGCTATGCCGCCCCGGACGTCACTCTTGAGGCGGATCTGCTGCGCCGCGACCTGACGGTCAACGCCCTCGCCCAGGATGCCGACGGCACGATTATCGACCCCTACGGCGGACAAAACGATCTCCGCCAGCGCCTGCTGCGCCATGTCTCTCCCGCCTTTAGCGAAGACCCGCTGCGCGTGCTGCGCGTGGCGCGCTTTGCCGCCCGCTATGCCCATCTCGGTTTTCGCATCGCCGAAGAGACCCAGACCCTGATGGCCGCCATGGTTGAGGCTGGCGAACTGGCCCATTTAACGCCGGAGCGGGTGTGGAAAGAGACGGAAAGCGCGTTGACCACCCGCAACCCGCAGGTCTTTTTCCAGACGCTGCGCGACTGCCAGGCCCTCAAGGTGCTGTTCCCGGAGATTGACGCCCTGTACGGCGTGCCGGCCCCGGCCAAATGGCACCCGGAAATCGATACCGGCCTGCACACCCTGATGACCGTCACGATGGCCGCGATGCTATCGCCGGACGTCGAGGTGCGCTTCGCCACCCTGTGCCATGACCTCGGCAAAGGGCTGACGCCGAAAGCGCTCTGGCCGCGTCACCACGGCCATGGCCCGGCGGGAGTCAAGCTGGTGGAGCAGCTCTGCGCGCGTCTGCGGGTGCCGAACGATATCCGCGATCTCGCGAAACTGGTGGCGGAGTACCATGATCTGATCCACACCCTGCCGATCCTGCAGCCAAAAACCCTCGTCAAACTTTTCGACAGCATTGACGCCTGGCGTAAACCGCAGCGCGTGCAACAGATCGCCCTCACCAGCGAAGCCGACGTCCGCGGGCGCACCGGCTTTGAGGCCAGCGATTATCCGCAGGGGCGCCTGCTGCTGGAAGCCTGGGAAGTGGCGCAGTCGGTCTCCACCAAAGAGGTGGTAGCGGCGGGCTTTAAAGGGGCGGAAATTCGCGAGGAGCTGACGCGGCGGAGAATTGCGGCGGTGGCGCAGTGGAAGGAACAGCGTTGCCCCCAGCCGCAAGGCTGA	MKSYLVGGAVRDALLGLPVKDRDWVVVGATPQQMLDAGYQQVGRDFPVFLHPQSREEYALARTERKSGAGYTGFTCYAAPDVTLEADLLRRDLTVNALAQDADGTIIDPYGGQNDLRQRLLRHVSPAFSEDPLRVLRVARFAARYAHLGFRIAEETQTLMAAMVEAGELAHLTPERVWKETESALTTRNPQVFFQTLRDCQALKVLFPEIDALYGVPAPAKWHPEIDTGLHTLMTVTMAAMLSPDVEVRFATLCHDLGKGLTPKALWPRHHGHGPAGVKLVEQLCARLRVPNDIRDLAKLVAEYHDLIHTLPILQPKTLVKLFDSIDAWRKPQRVQQIALTSEADVRGRTGFEASDYPQGRLLLEAWEVAQSVSTKEVVAAGFKGAEIREELTRRRIAAVAQWKEQRCPQPQG				NA	NA	NA	NA	NA
BMS020_01950	822	uppP_1	COG1968	Undecaprenyl-diphosphatase	ATGAGCGATATACACTCGCTGCTGGTGGCGGCAATATTGGGTGTGGTTGAGGGGTTAACAGAATTTTTACCTGTTTCCAGTACCGGTCATATGATTATTGTTGGTCACCTGCTGGGGTTTGAAGGTGATACGGCAAATACCTTTGAAGTGGTTATTCAGCTAGGCTCGATACTCGCCGTGGTGGTGATGTTCTGGCGTCGCCTGTTCGGCCTGATCGGCATCCATTTCGGCAAGCCGCCGGCGCATGAAGGCAAGGGCAGCGGTCGCTTATCGCTTATCCATATCCTTCTCGGTATGATCCCCGCGGTGGTGATGGGGCTTATTTTCCACGACACCATTAAGTCCTTGTTTAACCCGGTAAATGTGATGTATGCCCTGATTGTCGGCGGTGTGCTGTTAATTGCGGCGGAAGTGCTGAAGCCGAAACAGCCGCGCGCGGTCGGGATTGACGATATGACCTATCGTCAGGCATTCGTTATCGGCTGCTTCCAGTGCCTGGCGCTGTGGCCGGGCTTCTCCCGCTCAGGGGCGACCATCTCCGGCGGCATGCTGATGGGCGTCAGCCGCTACGCGGCGTCGGAGTTCTCATTCCTGCTGGCGGTACCGATGATGATGGGCGCCACGGTGCTGGACGTCTACAAGAGCATCGGCTTCCTCAACATGGGCGATGTTCCGATGTTTGCCGTCGGCTTCGTGATGGCGTTTATCGTGGCGCTGATTGCGATTAAAACCTTCCTGCAGCTGATCAAACGGATCTCGTTCATTCCGTTCGCTATCTACCGCTTTATCGTCGCGGCAGCGGTGTACGTGGTCTTTTTCTAA	MSDIHSLLVAAILGVVEGLTEFLPVSSTGHMIIVGHLLGFEGDTANTFEVVIQLGSILAVVVMFWRRLFGLIGIHFGKPPAHEGKGSGRLSLIHILLGMIPAVVMGLIFHDTIKSLFNPVNVMYALIVGGVLLIAAEVLKPKQPRAVGIDDMTYRQAFVIGCFQCLALWPGFSRSGATISGGMLMGVSRYAASEFSFLLAVPMMMGATVLDVYKSIGFLNMGDVPMFAVGFVMAFIVALIAIKTFLQLIKRISFIPFAIYRFIVAAAVYVVFF	PGPT0024165_2916	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153	NA	NA
BMS020_01951	384	folB_1	COG1539	Dihydroneopterin aldolase	ATGGATATTGTATTTATAGAGCAACTTTCGGTAATCACCACCATTGGTGTTTATGACTGGGAACAAACCATTGAACAGAAGCTGGTGTTCGATATCGAAATTGCATGGGATAACCGCAAGGCGGCCGCCAGCGATGATGTCAGCGATTGCCTTAGCTATGCTGATATCAGCGAGCGCGTCATCGCGCATGTTGAGGGGGGAAAATTCGCGTTAGTGGAGCGGGTGGCGGAAGAGGTGGCCGACCTGCTGCTGGAGACATTCCAGTCGCCATGGGTGCGCATTAAAGTCAGCAAACCTGGCGCCGTGGCTCGCGCGGCAAACGTCGGGGTGATTATTGAACGTGGCCTTAATCTGAAACAAAACTTTTCAGGTCATACTTGTTAA	MDIVFIEQLSVITTIGVYDWEQTIEQKLVFDIEIAWDNRKAAASDDVSDCLSYADISERVIAHVEGGKFALVERVAEEVADLLLETFQSPWVRIKVSKPGAVARAANVGVIIERGLNLKQNFSGHTC	PGPT0007905_992	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007905-folB-K01633	NA	NA
BMS020_01952	618	plsY	COG0344	putative glycerol-3-phosphate acyltransferase	ATGAGTGCAATCGCGCCTGGACTGGTACTCCTCGCCTACCTCTGCGGCTCCATTTCCAGCGCCATTCTGGTATGTCGCCTTGCTGGCCTGCCCGACCCACGCGACAGCGGCTCAGGCAACCCCGGGGCCACTAACGTACTACGAATCGGCGGAAAAGGGGCGGCCGTAGCGGTACTTATTTTTGATGTGCTGAAGGGCATGTTGCCGGTATGGGGCGCCTGGGCGCTGGGCCTGACGCCGTTCTGGCTGGGTTTAGTGGCGATTGCCGCCTGCGTGGGCCACATCTGGCCAGTCTTCTTTCATTTCCGCGGCGGTAAAGGTGTCGCCACGGCCTTCGGGGCTATCGCCCCCATCGGCCTCGACCTGACCGGCGTGATGGCCGGGACCTGGCTGCTGACCATCCTGCTCAGCGGTTACTCTTCCCTTGGCGCTATCGTCAGCGCGCTGATCGCTCCGTTCTACGTCTGGTGGTTCAAACCGCAGTACACCTTCCCGGTATCGATGCTCTCCTGCCTGATCCTGCTGCGCCATCACGACAACATTCAGCGTCTGTGGCGCCGCCAGGAGAGCAAAATCTGGACGCGGGTGAAGAAGAAAAAAACGCCAGAAGAGAAGTAA	MSAIAPGLVLLAYLCGSISSAILVCRLAGLPDPRDSGSGNPGATNVLRIGGKGAAVAVLIFDVLKGMLPVWGAWALGLTPFWLGLVAIAACVGHIWPVFFHFRGGKGVATAFGAIAPIGLDLTGVMAGTWLLTILLSGYSSLGAIVSALIAPFYVWWFKPQYTFPVSMLSCLILLRHHDNIQRLWRRQESKIWTRVKKKKTPEEK	PGPT0024375_1827	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024375-plsY-K08591	NA	NA
BMS020_01953	825	ureD		Urease accessory protein UreD	TTGCACGGCACCGTGTTACCACCACTCAAAAAAGGCTGGCAGGCCACGCTGGATCTGCGCTTTCAGCAGGCCGGCGGCAAGACCGTTCTCGCCAGCGCCCAACACGTCGGCCCGCTGACCGTCCAGCGCCCGTTTTACCCGGAAGAAGAGACCTGTCATCTCTATCTGCTTCATCCCCCCGGCGGCATCGTCGGCGGTGATGAGCTGGCGATTAGCGCCCACCTTGATCCCGGCTGCCATACCCTGATAACCATGCCTGGCGCCAGCAAGTTTTACCGCAGCAGCGGCGCGCAAGCGCTTTTGCGCCAGCGGTTGACCCTCGCCCCGCAGGCGACCCTGGAGTGGCTCCCGCAGGATGCCATCTTCTTTCCCGGGGCGAACGCCCGGCTGTCCACCACTTTTCACCTTTGTGCCTCCAGCACGCTGCTGGCCTGGGATCTGCTCTGCCTTGGCCGCCCGGTGATCGGCGAAACCTTCAGCCACGGCACCCTCAGCAACCGGCTGGAGGTATGGGTGGACGATGAGCCGCTGCTGGTCGAGCGCCTGCGCCTGCAGGAGGGAGAGCTGTCCAGCGTCGCCGGACGCCCCTGGGTCGGCACGCTGCTGTGCTATCCGGCAACCGATGCCCTGCTCGACGGGGTGCGCGACGCGCTGGCGCCGCTCGGCCTCTACGCCGGCGCCAGCCTGACCGACCGCCTGCTGACGGTGCGCTTCCTCAGTGACGATAATCTGGTTTGCCAGCAGGTGATGCGCGACGTCTGGCAGTTTCTGCGCCCTCATCTCACCGGCAAATCCCCCGTACTTCCCCGAATCTGGCTGACTTAA	MHGTVLPPLKKGWQATLDLRFQQAGGKTVLASAQHVGPLTVQRPFYPEEETCHLYLLHPPGGIVGGDELAISAHLDPGCHTLITMPGASKFYRSSGAQALLRQRLTLAPQATLEWLPQDAIFFPGANARLSTTFHLCASSTLLAWDLLCLGRPVIGETFSHGTLSNRLEVWVDDEPLLVERLRLQEGELSSVAGRPWVGTLLCYPATDALLDGVRDALAPLGLYAGASLTDRLLTVRFLSDDNLVCQQVMRDVWQFLRPHLTGKSPVLPRIWLT	PGPT0000970_1525	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000970-ureD-K03190	NA	NA
BMS020_01954	303	ureA		Urease subunit gamma	ATGGAACTGACCCCCCGAGAAAAAGACAAGCTGTTGCTGTTTACCGCCGCGCTGGTGGCGGAACGCCGCCTGGCCCGCGGACTGAAGCTCAACTATCCGGAGTCCGTGGCCCTGATCAGCGCCTTTATTATGGAAGGCGCCCGCGACGGCAAAAGCGTGGCCTCGCTGATGGAGGAAGGCCGTCACGTCCTGAACCGCGAGCAGGTGATGGAGGGCGTCCCGGAAATGATCCCGGATATCCAGGTCGAAGCCACCTTCCCGGACGGCTCGAAGCTGGTCACCGTTCACAACCCGATTATCTGA	MELTPREKDKLLLFTAALVAERRLARGLKLNYPESVALISAFIMEGARDGKSVASLMEEGRHVLNREQVMEGVPEMIPDIQVEATFPDGSKLVTVHNPII	PGPT0000955_1147	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000955-ureA-K01430	NA	NA
BMS020_01955	321	ureB		Urease subunit beta	ATGATCCCCGGTGAATATCACGTTAAGCCCGGCCAGATAGCCCTCAACACCGGCCGGGCGACCTGTCGCGTGGTCGTTGAAAACCACGGCGATCGGCCGATTCAGGTCGGTTCGCACTACCATTTCGCCGAGGTCAACCCGGCGCTGAAGTTCAACCGTCAGCAGGCCACCGGCTATCGCCTGAATATCCCGGCCGGCACGGCGGTACGCTTTGAACCTGGCCAGAAACGCGAGGTTGAGCTGGTGGCCTTCGCCGGTCACCGCGCCGTTTTCGGCTTCCGCGGCGAGGTCATGGGCCCTCTGGAGGCAAACGATGAGTAA	MIPGEYHVKPGQIALNTGRATCRVVVENHGDRPIQVGSHYHFAEVNPALKFNRQQATGYRLNIPAGTAVRFEPGQKREVELVAFAGHRAVFGFRGEVMGPLEANDE	PGPT0000960_713	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000960-ureB-K01429	NA	NA
BMS020_01956	1704	ureC		Urease subunit alpha	ATGAGTAATATTTCACGCCAGGCCTATGCCGACATGTTCGGCCCCACCATCGGCGACAAGGTGCGCCTGGCCGATACCGAGCTGTGGATAGAGGTGGAGGACGATTTGACCACCTATGGGGAAGAGGTCAAATTCGGCGGCGGCAAAGTGATCCGCGACGGGATGGGTCAGGGACAGATGCTGGCCGCCGACTGTGTCGACCTGGTGCTCACCAATGCGCTGATCGTCGATCACTGGGGGATCGTTAAGGCCGATATCGGCGTGAAGGACGGTCGGATCTTCGCCATCGGCAAAGCCGGCAACCCCGACATCCAGCCCAACGTCACCATTCCCATCGGCGCCGCGACGGAAGTGATTGCCGCCGAAGGAAAAATCGTCACCGCCGGCGGGATCGATACCCATATTCACTGGATCTGTCCGCAGCAGGCGGAAGAGGCGCTGGTCTCCGGCGTGACCACCATGGTCGGCGGCGGCACCGGCCCGGCGGCGGGTACCCATGCCACCACCTGCACCCCGGGGCCATGGTATATCTCACGCATGCTGCAGGCGGCCGACAGTCTGCCGGTCAATATCGGCCTGCTGGGCAAGGGCAACGTTTCTCAGCCGGACGCTCTGCGCGAGCAGGTGGCGGCGGGCGTTATTGGCCTGAAGATCCATGAGGACTGGGGCGCCACCCCGGCGGCGATCGACTGCGCGTTAACCGTCGCCGATGAGATGGATATTCAGGTCGCGCTGCACAGCGACACGCTCAATGAGTCCGGTTTTGTGGAAGATACCCTCGCCGCCATCGGCGGGCGCACCATTCACACCTTCCATACCGAAGGGGCCGGCGGCGGCCATGCGCCGGATATCATCACCGCCTGCGCCCACCCGAACATTTTGCCGTCCTCCACCAACCCAACGCTGCCCTACACCCTTAACACCATCGATGAACATCTCGATATGCTGATGGTCTGCCACCATCTGGACCCGGACATCGCCGAGGACGTGGCCTTTGCCGAGTCGCGCATTCGCCGGGAAACCATCGCTGCGGAAGACGTGCTGCACGACCTTGGCGCCTTCTCGCTCACCTCCTCGGATTCGCAGGCCATGGGCCGCGTCGGGGAAGTGGTTCTCCGCACCTGGCAGGTGGCGCACCGCATGAAGGTGCAGCGCGGAGCGCTGGCGGAGGAGACCGGGGATAACGACAACTTCCGCGTGAAGCGCTACATCGCCAAATACACCATCAACCCGGCGCTGACCCACGGCATCGCACACGAAGTCGGCTCCATTGAGGTGGGTAAGCTGGCGGACCTTGTGGTCTGGTCGCCTGCCTTCTTCGGCGTGAAACCGGCCACCGTGATCAAAGGCGGCATGATCGCCATCGCGCCGATGGGCGATATCAATGCCTCTATTCCAACCCCGCAGCCGGTGCACTACCGTCCGATGTTTGGCGCGCTGGGCAGCGCCCGCCATCACTGCCGCCTCACCTTCCTGTCGCAGGCGGCGGCGGACAACGGCGTTGCCGAGCGGCTGAACCTGCGCAGCGCGATCGCCGTGGTGAAAGGCTGCCGTACGGTGCAGAAAGCCGACATGGTGCACAACAGCCTGCAGCCTAACATCACCGTCGACGCGCAGACTTATGAGGTGCGGGTGGATGGCGAACTCATCACCAGCGAGCCGGCAGAGGTTCTGCCGATGGCGCAACGTTATTTTCTGTTTTAA	MSNISRQAYADMFGPTIGDKVRLADTELWIEVEDDLTTYGEEVKFGGGKVIRDGMGQGQMLAADCVDLVLTNALIVDHWGIVKADIGVKDGRIFAIGKAGNPDIQPNVTIPIGAATEVIAAEGKIVTAGGIDTHIHWICPQQAEEALVSGVTTMVGGGTGPAAGTHATTCTPGPWYISRMLQAADSLPVNIGLLGKGNVSQPDALREQVAAGVIGLKIHEDWGATPAAIDCALTVADEMDIQVALHSDTLNESGFVEDTLAAIGGRTIHTFHTEGAGGGHAPDIITACAHPNILPSSTNPTLPYTLNTIDEHLDMLMVCHHLDPDIAEDVAFAESRIRRETIAAEDVLHDLGAFSLTSSDSQAMGRVGEVVLRTWQVAHRMKVQRGALAEETGDNDNFRVKRYIAKYTINPALTHGIAHEVGSIEVGKLADLVVWSPAFFGVKPATVIKGGMIAIAPMGDINASIPTPQPVHYRPMFGALGSARHHCRLTFLSQAAADNGVAERLNLRSAIAVVKGCRTVQKADMVHNSLQPNITVDAQTYEVRVDGELITSEPAEVLPMAQRYFLF	PGPT0000965_1725	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000965-ureC-K01428	NA	NA
BMS020_01958	477	ureE		Urease accessory protein UreE	ATGCTTTATTTAACTCAACGTCTGGAGACCCCCGCCGCCGCGACCGCCAGCGTTACGCTGCCGATTGATGTTCGCGTCAAAAGCCGGGTAAAAGTCACCCTCAACGATGGCCGGGAAGCCGGCCTGCTGCTGCCCCGCGGGCTGCTGCTGCGCGGCGGCGATGTGCTCAGCAACGAAGACGGCACCGAATTTGTGCAGGTGATTGCCGCTGATGAAGGGGTGTCGGTGGTGCGCTGCGACGATCCGTTTATGCTGGCGAAGGCCTGCTACCACCTCGGCAATCGTCACGTACCGCTGCAGATCATGCCGGGCGAGCTGCGCTACCATCACGATCATGTGCTGGACGATATGCTGCGCCAGTTCGGCCTGACGGTGACCTTTGGCCAGCTGCCGTTCGAGCCGGAAGCCGGCGCTTACGCCAGCGAAAGCCACGGTCATCATCATGCTCATCATGACCACCACGCTCACAGCCACTAG	MLYLTQRLETPAAATASVTLPIDVRVKSRVKVTLNDGREAGLLLPRGLLLRGGDVLSNEDGTEFVQVIAADEGVSVVRCDDPFMLAKACYHLGNRHVPLQIMPGELRYHHDHVLDDMLRQFGLTVTFGQLPFEPEAGAYASESHGHHHAHHDHHAHSH	PGPT0000975_1138	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000975-ureE-K03187	NA	NA
BMS020_01959	711	ureF		Urease accessory protein UreF	ATGCTCATCATGACCACCACGCTCACAGCCACTAGCATGTCGACAGCGGAACAACGCCTGCGGCTGATGCAGCTGGCCAGCAGCAACCTGCCGGTAGGGGGTTACAGCTGGTCCCAGGGGCTGGAGTGGGCTGTGGAAGCCGGATGGGTGCCGGACGTCGCGGCCTTCGAGCGCTGGCAGCGACGGCAGATGACGGAAGGCTTTTTTACCGTCGACCTGCCGCTGTTCGCCCGCCTGTACCGCGCCTGCGAACAAGGCGATATCGCCGCGGCCCGGCGCTGGACGGCTTATCTGCTGGCCTGCCGGGAGACCCGTGAACTGCGGGAGGAAGAGCGCAACCGCGGCGCGGCGTTTGCCCGCCTGCTTGGCGACTGGCAGCCGGACTGTCCACCGCCGTGGCGCACGCTGTGCCAGCAAAGCCAGCTCGCCGGGATGGCCTGGCTCGGCGTGCGCTGGCGCATCGCGCTGCCCGAGATGGCCCTTAGCCTGGGCTACAGCTGGATTGAGAGCGCCGTGATGGCCGGCGTTAAGCTGGTGCCCTTCGGCCAGCAGGCCGCTCAACAGCTGATTTTACGTCTTTGCGACCACTACGCGGCGGCGATGCCCCGCGCGCTGGCCGCGCCGGACGGCGATATCGGATCGGCCACGCCGCTCGCCGCCATCGCCTCTGCCCGGCATGAAACCCAATACTCCCGATTATTCCGTTCCTAG	MLIMTTTLTATSMSTAEQRLRLMQLASSNLPVGGYSWSQGLEWAVEAGWVPDVAAFERWQRRQMTEGFFTVDLPLFARLYRACEQGDIAAARRWTAYLLACRETRELREEERNRGAAFARLLGDWQPDCPPPWRTLCQQSQLAGMAWLGVRWRIALPEMALSLGYSWIESAVMAGVKLVPFGQQAAQQLILRLCDHYAAAMPRALAAPDGDIGSATPLAAIASARHETQYSRLFRS	PGPT0000980_651	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000980-ureF-K03188	NA	NA
BMS020_01960	618	ureG		Urease accessory protein UreG	ATGAATTCTTATAAACACCCGCTGCGCGTCGGCGTTGGCGGCCCGGTCGGCTCCGGTAAAACCGCCCTGCTGGAAGCGCTGTGCAAAGCGATGCGCGATACCTGGCAGCTGGCGGTGGTCACCAACGACATCTACACCAAAGAAGATCAGCGCATCCTCACTGAAGCGGGCGCGCTGGCGCCTGAACGCATTGTCGGGGTGGAAACCGGCGGCTGCCCGCACACGGCGATCCGTGAAGATGCCTCGATGAACCTCGCCGCGGTGGAAGCGCTGAGTGAAAAGTTCGGTAACCTCGACCTTATCTTCGTGGAAAGCGGCGGCGATAACCTGAGCGCCACCTTCAGCCCGGAGCTGGCGGATCTGACCATCTATGTTATCGACGTGGCCGAAGGGGAGAAGATCCCGCGCAAAGGCGGACCGGGGATCACCAAATCCGATTTTCTGGTGATCAATAAAACCGACCTTGCCCCCTATGTGGGCGCTTCACTGGAGGTGATGGCGAGCGATACCCAGCGTATGCGCGGCGATCGCCCATGGACCTTCACCAACCTGAAGCGTGGCGACGGCCTGAGCACCATTATTGCCTTCCTCGAAGACAAAGGCATGCTCGGCAAATAG	MNSYKHPLRVGVGGPVGSGKTALLEALCKAMRDTWQLAVVTNDIYTKEDQRILTEAGALAPERIVGVETGGCPHTAIREDASMNLAAVEALSEKFGNLDLIFVESGGDNLSATFSPELADLTIYVIDVAEGEKIPRKGGPGITKSDFLVINKTDLAPYVGASLEVMASDTQRMRGDRPWTFTNLKRGDGLSTIIAFLEDKGMLGK	PGPT0000985_1471	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000985-ureG-K03189	NA	NA
BMS020_01961	1608			hypothetical protein	ATGTCATCACTGGATCTCAACCCTGAATTACCCGCGACCGCGCGGACTTCCGGCTCCCGGGAAACTTTAGAAGATTACACCTTACGTTACGCCCCGCTGAGCTTCCGCCGCTGGGGACCGGGCGTCGTCGCGGTCACGGCGCTGGGCGGCATCGCCTATCTGGCGGACTTTTCCATCGGCGCCAGCATCGGTATGGCCTGGGGCACCAGCAACGCCATCTATTCGATCCTGGTGGCGGCGCTGGTGATCTTCCTCACCGGCATTCCGTTGGCGATCACCGCCGCGCGCTACAACATTGACCTTGACCTGATCACCCGCAGCGCCGGCTTCGGCTATTTCGGCTCGGTGATCACCAGCATTATTTTTGCCGGCTTCACCTTTATCTTCTTCGCCCTCGAAGGCTCGATCATGGCCCAGGGGCTGCTGGTGGGCCTCGGGATCCCGCTGTGGATGGGGTATCTGATCGCCACCCTGATGGTGCTCCCGCTGGTGGTCTATGGCATGAAAGCCCTGACCCGCCTGCAGGTGTGGACCACTCCGCTGTGGCTGGTGCTGATGGTGGTGCCGGTGGTGTGGCTGATTGTCAAAGATCCGCAGCTGGTGGACGGCTTCCTGCATTTCGCCGGTAAAAACAGCGCGTCGACGGTGGATATCACCGCCATCATGCTCGGCGCCGGGGTATGCCTGTCGCTGATCATGCAGATTGGCGAGCAAATTGATTACCTGCGTTTTATGCCGCCTAAAACCGCTGAGAACCGTAAAGCCTGGTGGCTGGCGGTCTTTTCCGCCGGCCCGGGCTGGGTGGTGCTAGGCGCGATCAAACAGATTATCGGCGCTTTCCTCGGCTTCTATCTGTTGACCCGTTTCCCGGCGGTACACAATACCGAACCGGTGCAGCAGTTCGTCAGCGTCTTCGATAACCTGGTGCCCGGCTGGCTGGCCCTGACGCTGGCGGTGGTGCTGGTGGTGATCTCGCAGATCAAAATTAACGTCACCAATGCCTATTCCGGCTCGCTGGCGTGGACCAGCGCCTGGACCCGCACCACCAAACGCTATCCGGGGCGGATTATTTTTGTGGTGGTCAACCTGGCGATTGCCCTGGCGCTGATGGAAGGCGATATGTTCAGCGCCCTGTCGTGGATCCTCGGCTTTTACTCCAACTTCGCCATCGCCTGGGTCGTGGTGGTGGCGACCGACATCACCTTTAATAAAGGCTTACTCAAGCTGGCGCCGGCGCAGCCGGAGTATCGTCGCGGCATGATCTACAATGTGAACCCGGTGGGCGTAGTCTCCTTTGGCCTGGCCGCCGGGCTGTCGATCTGCGCCTTCTTCGGCCTGCTGGGGACGACGCTGGCGCCGTTCTCGCCGCTGATTGCGCTGGTCGTCGCCTTTGTCATGACCCCGCTGATGGGGATCCTCACCCGCGGGCGCTACTACATTAAGCAGAGAGATGACGGGATCGCCGAACCGCGCTATGACGCGGCGGGGAACGCCTCGACCACCGTATATCAATGCGTTAGCTGTGAGGAAGAGTACGAGCGCCCGGACGTGATGCACTCGCATAAGCATCAGGGCGCCATCTGCTCGCTGTGTAAAAGTATGGAGTAG	MSSLDLNPELPATARTSGSRETLEDYTLRYAPLSFRRWGPGVVAVTALGGIAYLADFSIGASIGMAWGTSNAIYSILVAALVIFLTGIPLAITAARYNIDLDLITRSAGFGYFGSVITSIIFAGFTFIFFALEGSIMAQGLLVGLGIPLWMGYLIATLMVLPLVVYGMKALTRLQVWTTPLWLVLMVVPVVWLIVKDPQLVDGFLHFAGKNSASTVDITAIMLGAGVCLSLIMQIGEQIDYLRFMPPKTAENRKAWWLAVFSAGPGWVVLGAIKQIIGAFLGFYLLTRFPAVHNTEPVQQFVSVFDNLVPGWLALTLAVVLVVISQIKINVTNAYSGSLAWTSAWTRTTKRYPGRIIFVVVNLAIALALMEGDMFSALSWILGFYSNFAIAWVVVVATDITFNKGLLKLAPAQPEYRRGMIYNVNPVGVVSFGLAAGLSICAFFGLLGTTLAPFSPLIALVVAFVMTPLMGILTRGRYYIKQRDDGIAEPRYDAAGNASTTVYQCVSCEEEYERPDVMHSHKHQGAICSLCKSME				NA	NA	NA	NA	NA
BMS020_01962	1014	tsaD_1	COG0533	tRNA N6-adenosine threonylcarbamoyltransferase	ATGCGTGTACTGGGCATTGAAACATCCTGCGATGAAACCGGCATCGCGATTTATGACGACCAGCAAGGTCTGTTAGCCAACCAACTGTATAGTCAGGTGAAACTGCATGCGGACTACGGCGGCGTGGTGCCGGAGCTGGCATCGCGCGACCACGTGCGCAAAACGGTGCCGCTTATCCAGGCGGCGCTGAAAGAGGCCGGTCTGACGGCGAAAGATATCGATGCCGTCGCCTATACGGCGGGTCCTGGCCTGGTGGGGGCGCTGCTGGTCGGCGCCACCGTGGGCCGGTCGCTGGCCTTCGCCTGGAACGTGCCGGCGATTCCGGTACACCATATGGAAGGGCACCTGCTGGCGCCGATGCTGGAAGATAACCCGCCAGCGTTCCCGTTCGTCGCGCTGCTGGTCTCCGGCGGTCATACTCAGCTGATCAGCGTCACCGGCATCGGCCAGTACGAGCTGCTGGGCGAGTCGATTGACGATGCGGCGGGCGAAGCCTTTGATAAAACCGCGAAACTGCTGGGGCTGGATTATCCCGGCGGGCCGATGCTGTCGAAAATGGCGTCCCAGGGTACTGAAGGCCGCTTCGTCTTCCCGCGTCCGATGACCGACCGTCCGGGGCTGGACTTCAGCTTCTCCGGTCTGAAAACCTTCGCCGCCAATACCATTCGCAGCAACGGCGACGATGAGCAAACCCGCGCCGACATCGCCCGCGCGTTTGAGGATGCGGTCGTCGATACGCTAATGATTAAATGTCGCCGCGCGCTGGAGCAAACCGGCTTTAAGCGTCTGGTGATGGCGGGAGGCGTGAGCGCCAACCGCACCCTGCGGGCGAAGCTGGCGGAGATGATGCAAAAACGCGGCGGCGAGGTGTTCTACGCCCGCCCTGAGTTCTGTACCGATAACGGCGCGATGATCGCCTACGCCGGCATGGTGCGTCTGCAAACCGGCGCCAAAGCCGAGCTCGGCGTGACGGTCCGCCCGCGCTGGCCGCTGGCCGAGCTGCCTGCCGCCTAA	MRVLGIETSCDETGIAIYDDQQGLLANQLYSQVKLHADYGGVVPELASRDHVRKTVPLIQAALKEAGLTAKDIDAVAYTAGPGLVGALLVGATVGRSLAFAWNVPAIPVHHMEGHLLAPMLEDNPPAFPFVALLVSGGHTQLISVTGIGQYELLGESIDDAAGEAFDKTAKLLGLDYPGGPMLSKMASQGTEGRFVFPRPMTDRPGLDFSFSGLKTFAANTIRSNGDDEQTRADIARAFEDAVVDTLMIKCRRALEQTGFKRLVMAGGVSANRTLRAKLAEMMQKRGGEVFYARPEFCTDNGAMIAYAGMVRLQTGAKAELGVTVRPRWPLAELPAA				NA	NA	NA	NA	NA
BMS020_01963	216	rpsU_1	COG0828	30S ribosomal protein S21	ATGCCGGTAATTAAAGTACGTGAAAACGAGCCGTTCGACGTAGCTCTGCGTCGCTTCAAGCGTTCCTGCGAAAAAGCAGGTGTTCTGGCGGAAGTTCGTCGTCGTGAGTTCTATGAAAAACCGACTACCGAACGTAAGCGCGCTAAAGCTTCTGCAGTGAAACGTCACGCGAAGAAACTGGCTCGCGAAAACGCACGCCGTACTCGTCTGTACTAA	MPVIKVRENEPFDVALRRFKRSCEKAGVLAEVRRREFYEKPTTERKRAKASAVKRHAKKLARENARRTRLY				NA	NA	NA	NA	NA
BMS020_01964	1746	dnaG_1	COG0358	DNA primase	ATGGCTGGACGAATTCCACGTGTATTTATTAGCGATCTGCTTGCCAGAACCGACATCGTCGATCTGATCGATGCGCGGGTAAAGCTGAAAAAGCAGGGCAAAAATTTTCACGCGTGCTGTCCGTTCCATAACGAAAAAACCCCCTCTTTCACCGTCAACGGTGAAAAACAGTTTTACCACTGCTTCGGCTGCGGGGCGCACGGCAATGCTATCGATTTCCTGATGAACTACGACAAGCTCGAGTTCGTGGAAACGGTCGAAGAGCTGGCCGCCATGCACAACCTCGAAGTGCCTTATGAAGCAGGCAACGGACCCAGCCAGATAGAGCGCCATCAACGGCAGAACCTCTACCAGTTACTGGATGGTCTGAATACGTTTTATCAACAGTCTCTGATGCAGCCCGCCGCCGACCCTGCGCGCCAGTACCTGGCAAAACGGGGGTTAAGCAGCGAGGTGATTACGCGCTTTGCCATCGGCTATGCTCCCCCAGGTTGGGATAACGTTTTAAAACGTTTTGGCGGCAATCAGGAAAACCGCCAGTCGCTTATTGATGCCGGCATGCTGGTCACCAACGATCAGGGACGCAGTTACGACCGCTTCCGCGAACGGGTAATGTTTCCCATCCGCGATAAGCGAGGCCGGGTGATTGGGTTTGGCGGACGGGTGCTGGGCGATGCCCTGCCGAAGTATCTCAACTCCCCGGAAACCGACATATTCCATAAAGGCCGTCAGCTGTATGGCCTGTATGAAGCGCAGCAGGACAACCCCGAACCACCGCGGTTGCTGGTTGTCGAAGGCTATATGGACGTCGTGGCGCTGGCGCAGTACGACATCAACTATGCTGTCGCCTCGCTGGGTACCTCGACCACGGCCGACCATATCCAGCTGCTGTTCCGGGTGACCAATAACGTCATCTGCTGCTACGACGGCGACCGGGCCGGCCGCGATGCCGCCTGGCGCGCGCTGGAGACGGCGCTGCCGTACATGACCGATGGTCGCCAGCTGCGCTTTATGTTTCTGCCTGACGGCGAAGACCCGGATACGCTGGTGCGTAAAGAGGGCAAAGCAGCGTTCGAGGCGCGGATGGAGCAGGCTCAGCCGCTCTCCACGTTCTTGTTTAACAGCCTGCTGCCGCAGGTCGACCTCAGCACGCCGGACGGGCGCGCGCAGCTGAGCACGCTGGCGCTGCCGCTGATAACCCAGGTGCCGGGCGAAACCCTGCGCATCTATTTGCGTCAGGAGCTGGGCAACAAGCTGGGCATTTTAGATGACGCCCAGCTTGAACGTTTAATGCCAAAACAGGCGGAAAATGGCGCGCCGCGCCCCGCACCACAGCTAAAACGCACGACCATGCGTATACTGATAGGACTGCTGGTGCAAAACCCGGATCTGGCGCCGTTAGTCCCACCGCTGGAGGGGCTGGACTCGCGCAAAATGCCGGGGCTGAGCCTGTTCGGCGAGCTGGTGAAAAGCTGTCTGGCGCAGCCTGGTCTGACAACCGGGCAACTTTTAGAGCAATATCGCGGCACAAAAGAGGCCGCAACCCTTGAAAAACTGTCGATGTGGGACGATATAGCAGATAAAGATATCGCTGAACAAACCTTCACCGACTCGCTCAACCATATGTTTGATTCACTGCTGGAACTGCGACAGGAAGAGTTGATAGCTCGCGATCGCACACACGGTTTAAGCAGTGAGGAACGCCGGGAGCTCTGGACCATCAGCCAGGAGCTGGCGAAGAAATAA	MAGRIPRVFISDLLARTDIVDLIDARVKLKKQGKNFHACCPFHNEKTPSFTVNGEKQFYHCFGCGAHGNAIDFLMNYDKLEFVETVEELAAMHNLEVPYEAGNGPSQIERHQRQNLYQLLDGLNTFYQQSLMQPAADPARQYLAKRGLSSEVITRFAIGYAPPGWDNVLKRFGGNQENRQSLIDAGMLVTNDQGRSYDRFRERVMFPIRDKRGRVIGFGGRVLGDALPKYLNSPETDIFHKGRQLYGLYEAQQDNPEPPRLLVVEGYMDVVALAQYDINYAVASLGTSTTADHIQLLFRVTNNVICCYDGDRAGRDAAWRALETALPYMTDGRQLRFMFLPDGEDPDTLVRKEGKAAFEARMEQAQPLSTFLFNSLLPQVDLSTPDGRAQLSTLALPLITQVPGETLRIYLRQELGNKLGILDDAQLERLMPKQAENGAPRPAPQLKRTTMRILIGLLVQNPDLAPLVPPLEGLDSRKMPGLSLFGELVKSCLAQPGLTTGQLLEQYRGTKEAATLEKLSMWDDIADKDIAEQTFTDSLNHMFDSLLELRQEELIARDRTHGLSSEERRELWTISQELAKK				NA	NA	NA	NA	NA
BMS020_01965	1842	rpoD_1	COG0568	RNA polymerase sigma factor RpoD	ATGGAGCAAAACCCGCAGTCACAGCTGAAGCTTCTTGTCCAACGTGGTAAGGAGCAAGGCTATCTGACCTATGCCGAGGTCAATGACCATCTGCCGGAAGATATCGTCGATTCCGATCAGATCGAAGACATCATCCAAATGATCAACGACATGGGCATTCAGGTGATGGAAGAAGCACCGGATGCCGATGATCTGATGCTTGCCGAAAACACCGCGGATGAAGATGCTGCCGAAGCCGCCGCGCAGGTGCTCTCCAGCGTGGAATCCGAAATCGGGCGCACGACCGACCCGGTGCGCATGTACATGCGTGAAATGGGTACCGTAGAGCTGCTGACCCGTGAAGGCGAAATCGACATCGCCAAACGCATCGAAGACGGCATCAACCAGGTGCAGTGCTCCGTTGCCGAATATCCGGAAGCGATCACCTACCTGCTTGAGCAGTACGACCGCGTTGAAGCGGAAGAAGCCCGTCTGTCCGATCTGATCACCGGTTTCGTCGATCCGAACGCCGAAGAAGATATGGCGCCGACCGCCACCCACGTTGGCTCCGAGCTGTCTCAGGAAGAGATGGATGACGACGAAGACGAAGACGAAGATGAAGACGCCGACGACAACAGCGATGACGACAACAGCATCGACCCTGAGCTGGCCCGTGAGAAGTTCGCCGAGCTGCGTACCCAGTACGAGCTGACGCGCGACACCATCAAAGCCAAAGGTCGTAGCCATGCCGCCGCCCAGGAAGAGATCCTGAAGCTGTCCGAAGTCTTCAAGCAGTTCCGCCTGGTGCCGAAGCAGTTCGATTACCTGGTCAACAGCATGCGCAGCATGATGGATCGCGTTCGTACTCAGGAACGTATCATCATGAAGCTGTGCGTTGAGCAGTGCAAAATGCCGAAGAAAAACTTCATCACGCTGTTCACCGGCAACGAAACCAGCGAAACCTGGTTCAACGCCGCGGTGGCAATGAACAAGCCGTGGTCCGAGAAGCTGCTGGAAGTGAAAGAAGACGTGCAGCGCGGCCTGCAGAAGCTGCAGCAGATCGAAGAAGAGACCGGCCTGACCATCGAGCAGGTGAAGGATATCAACCGTCGCATGTCCATCGGTGAAGCGAAAGCCCGCCGGGCGAAGAAAGAGATGGTGGAAGCGAACCTGCGTCTGGTTATCTCGATCGCCAAGAAATACACCAACCGCGGTCTGCAGTTCCTCGACCTGATTCAGGAAGGCAACATCGGTCTGATGAAAGCGGTTGATAAGTTCGAATACCGTCGCGGCTATAAGTTCTCGACCTACGCCACCTGGTGGATCCGTCAGGCCATTACCCGCTCTATCGCGGATCAGGCGCGCACTATCCGTATTCCGGTGCATATGATTGAGACCATCAACAAGCTCAACCGTATCTCCCGCCAGATGCTGCAGGAGATGGGCCGTGAACCGACCCCGGAAGAGCTGGCTGAGCGCATGCTGATGCCGGAAGACAAGATCCGTAAAGTGCTGAAGATCGCCAAAGAGCCTATCTCCATGGAAACGCCGATCGGCGACGATGAAGATTCGCATCTGGGGGATTTCATCGAGGATACCACCCTCGAGCTGCCGCTGGATTCCGCGACCACCGAGAGCCTGCGCGCGGCAACGCACGACGTGCTGGCCGGCCTCACCGCTCGTGAAGCGAAAGTCCTACGTATGCGTTTCGGTATCGACATGAATACCGACCACACGCTGGAAGAAGTGGGTAAACAGTTCGACGTTACTCGCGAACGTATCCGTCAGATCGAAGCGAAGGCGCTGCGTAAACTGCGCCACCCGAGCCGTTCTGAAGTGCTGCGTAGCTTCCTCGACGATTAA	MEQNPQSQLKLLVQRGKEQGYLTYAEVNDHLPEDIVDSDQIEDIIQMINDMGIQVMEEAPDADDLMLAENTADEDAAEAAAQVLSSVESEIGRTTDPVRMYMREMGTVELLTREGEIDIAKRIEDGINQVQCSVAEYPEAITYLLEQYDRVEAEEARLSDLITGFVDPNAEEDMAPTATHVGSELSQEEMDDDEDEDEDEDADDNSDDDNSIDPELAREKFAELRTQYELTRDTIKAKGRSHAAAQEEILKLSEVFKQFRLVPKQFDYLVNSMRSMMDRVRTQERIIMKLCVEQCKMPKKNFITLFTGNETSETWFNAAVAMNKPWSEKLLEVKEDVQRGLQKLQQIEEETGLTIEQVKDINRRMSIGEAKARRAKKEMVEANLRLVISIAKKYTNRGLQFLDLIQEGNIGLMKAVDKFEYRRGYKFSTYATWWIRQAITRSIADQARTIRIPVHMIETINKLNRISRQMLQEMGREPTPEELAERMLMPEDKIRKVLKIAKEPISMETPIGDDEDSHLGDFIEDTTLELPLDSATTESLRAATHDVLAGLTAREAKVLRMRFGIDMNTDHTLEEVGKQFDVTRERIRQIEAKALRKLRHPSRSEVLRSFLDD				NA	NA	NA	NA	NA
BMS020_01966	507	mug	COG3663	G/U mismatch-specific DNA glycosylase	ATGATTAGCGATATCCTTGCGCCGGGCCTGCGCGTTGTCTTTTGCGGTATCAACCCGGGGAAGTCCTCCGCCCATACCGGCTTTCATTTTGCCCATCCTGGCAATCGCTTCTGGAAGGTTATCCATCAGGCCGGGTTTACCGACCGACAGCTCAGGCCGGAAGAGGAGCTGCAGCTGCTGGATACGCGCTGCGGCATCACCATGCTGGTTGAGCGTCCGACGGTGCAGGCCAGCGAGGTCGCCCTGCAGGAGCTGCGCAGCGGCGGCCGTGAGCTGGTGAGGAAGATTGAGGAGTATCAGCCGCAGGCGCTGGCGGTGCTCGGCAAGCAGGCCTTCGAGCTGGCCTTTAACCAGCGCGGCGCGAAGTGGGGGAAACAGGCCATGACCATCGGCACGACCCAGGTGTGGGTGCTGCCCAATCCCAGCGGCTTAAACCGGGCGACGCTCGATAAGCTGGTGGCGGCCTATCGTGAACTGGATGATGCCCTGGCGACCCGCGGCCAGTAG	MISDILAPGLRVVFCGINPGKSSAHTGFHFAHPGNRFWKVIHQAGFTDRQLRPEEELQLLDTRCGITMLVERPTVQASEVALQELRSGGRELVRKIEEYQPQALAVLGKQAFELAFNQRGAKWGKQAMTIGTTQVWVLPNPSGLNRATLDKLVAAYRELDDALATRGQ	PGPT0008170_7	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
BMS020_01968	105			hypothetical protein	ATGCCGGCAGGCGCCGAAGGCGCCCGCCGGGATGCCGCACTGTTTCAGCCCACCTCTCAGGAGGTCGGTAACGCCATCATGTGGTACTTATTGCCATTGAAGTGA	MPAGAEGARRDAALFQPTSQEVGNAIMWYLLPLK				NA	NA	NA	NA	NA
BMS020_01969	573			hypothetical protein	ATGGCAATGGGCAATGAAAATATCGTCGTGCGGCTGGCGCAAGACTCAGATATTCCAGAGGTGAAACAACTGCTGGAGCGCTATCACGCAAAAAATCTTGCGGGAGAGCAACGGGCGAATGGATTTGTCACCACCGATATGACGGAGCAGCAGTTAAATGAACTGCGTTCAGCCGAAAGTGGTGTGGTGATTGCGGTTGATAGTACATGCGACAAGGTCATTGGCCTGTTGCTTGGTGGATCGTGGGAATTTCTCAGCCCCTGGCCCATGTTTAAATACATGGCAAGTATTCTCAATGAATATCACTACCAGGGAAAAAATCTGGATGCGGTTAGCTCATACCAGTATGGCCCCATCTGTGTCGCAGAAGAGTATCGTGGCCAGGGCGTAGGCGAGATGCTGCTTGAGTATCAACGCAAGGTGTTTGCACCGCGTTATCCCGTCATCGTTACCTTTGTCAATGTGCTGAACCCGCGCTCGTATGCATTTCATACCCGCAACCAGTTTGAGGACGTCGGTTTCTTTCACTTCAATGGCAATAAGTACCACATGATGGCGTTACCGACCTCCTGA	MAMGNENIVVRLAQDSDIPEVKQLLERYHAKNLAGEQRANGFVTTDMTEQQLNELRSAESGVVIAVDSTCDKVIGLLLGGSWEFLSPWPMFKYMASILNEYHYQGKNLDAVSSYQYGPICVAEEYRGQGVGEMLLEYQRKVFAPRYPVIVTFVNVLNPRSYAFHTRNQFEDVGFFHFNGNKYHMMALPTS				NA	NA	NA	NA	NA
BMS020_01970	813	yfcA_2	COG0730	putative membrane transporter protein YfcA	ATGTCAGATTTAGTTAATCACTCAATGTTCATTGAGGGAAGCGTTATTGCTCATTACCTTGTTCTCGGGGTGATCCTGCTGGTTATTGCATCATTTATCGCGGGCTATATTGATGCGATTGCTGGCGGTGCTGGACTCGTGTTAATTCCAGCCTTTATCCTGACAGGGCTACCACCTCAGCTTGCGCTGGGACAGGAAAAACTGGTCAGTACTATAGGTACCATCGCTGCCATTAAGAATTTTGTTAAAAATAAGTCTGTTATCTGGCGCGTTATCCCTGCGGGATTAATTTCTGCCCTGGCGGGAGCCTATGTGGGCGCGAAGGTGATATTACTTTTGCCTGTGGAGACCTTATCGATCGTCATTGTGGTGCTATTACCCGTTGGTTTACTCGCAGCAACGATTAAGGGAAAAATTAAAGAGTCCGTAGACGACTCTGCCAGGACTAACTTTCTGGCAATCTTTGTAGTGTGTTTTATCGTGGGTTTTTATGATGGTTTTTTTGGCCCTGGGACCGGTAGCCTTTTCATCATTGCCTTAACGGTTATTAATAAGTTTGGACTGCTGCAGGCATCCGCGACCAGCAAAATCTTTAATTTTGCATCCAATATAGGGGCGTTTGTTGCCTTTGCGATTGCCGGTAAGATGGCCTATTTAATCGGCATTCCGATGATTATTGCCAGCCTGGCTGGTAATCACATTGGCAGTCTGCATGCCATTAAAACCAATGGTGAAATTATCCGTAAAGTTCTCTTTGTCACCGTGGGTGCGATGATGGTGACGCTTTCAGTAAAATATTTTACAGGAGTATGA	MSDLVNHSMFIEGSVIAHYLVLGVILLVIASFIAGYIDAIAGGAGLVLIPAFILTGLPPQLALGQEKLVSTIGTIAAIKNFVKNKSVIWRVIPAGLISALAGAYVGAKVILLLPVETLSIVIVVLLPVGLLAATIKGKIKESVDDSARTNFLAIFVVCFIVGFYDGFFGPGTGSLFIIALTVINKFGLLQASATSKIFNFASNIGAFVAFAIAGKMAYLIGIPMIIASLAGNHIGSLHAIKTNGEIIRKVLFVTVGAMMVTLSVKYFTGV				NA	NA	NA	NA	NA
BMS020_01971	921	asnO		L-asparagine oxygenase	ATGTTTATGAAGAATGGAATTATTCTATCAATCGCCGACCGTATCAAAGATGCGCTTCCCATACCAACAGACGAATTCAGGAAAAGGCTTGAAGAGGACTGTTATGTAATATGGAAATTGCCACACTTTGATGCACAAGAAATCACTCAAACTCCCGTTGTTCCCTCTTATGCTGATTATGTCGAGTCAAAAAATGCAGCGTTACATGGCGCTTATCTTTCTGCACATTTTCAGGCCGGCCTATGGCCTGTCGTCTATCAGGGCGAAAATAACGGACATCTTATAAGGCATGTCTGCCCGATGCTCCAGGCAGAAGAGAAAATAAGTTCTCAGGGGGCTAAGTATGACTTTTACCCGCATGTCGATAATCCCGATCTGTACATTACCGGCGAGACGCCGTCTAACCGACTTGGCGGCTGTCCTGACACTCTGAGTTTGTTGTGTCTCAGGAAAGAGGAAGGCGTTCACACCAGTCTGTTAAAACTGGATCAGATTCTGAAGAGGCTTTCTGATAAGGATATCGCTATTCTTGCCAGCCCCGCCTTCAGGATTAAACGGCCAGCCAGCTTTACAGAGGGATCCAGTATTGAGAAGGTGCCGATTATTGTGAGCGACAACGGTGTCTGGTATTCACGATTTGACTGGCACAATACACAAGGTATGACTCTCGAAGCCGAAGCCGCGCTGGAAAAAATGCGATTTATCACCCTGGAACATGACCTGTGGTTCAATGTTCCGCTGGAGCCAGGGTATGCAGTGACTTTTTTAAACCAAAGAACAATGCATACCAGAAATGCTTTTGAACCTCGTTTTGATGGCACGGACAGGTGGTTATTGCGGGTTTTTGCTATGAAACACAGACCAACTGATACGCAGCTTGTCGATTCTTCACTTTGTCTCCACCACCTGCGCACACTATAA	MFMKNGIILSIADRIKDALPIPTDEFRKRLEEDCYVIWKLPHFDAQEITQTPVVPSYADYVESKNAALHGAYLSAHFQAGLWPVVYQGENNGHLIRHVCPMLQAEEKISSQGAKYDFYPHVDNPDLYITGETPSNRLGGCPDTLSLLCLRKEEGVHTSLLKLDQILKRLSDKDIAILASPAFRIKRPASFTEGSSIEKVPIIVSDNGVWYSRFDWHNTQGMTLEAEAALEKMRFITLEHDLWFNVPLEPGYAVTFLNQRTMHTRNAFEPRFDGTDRWLLRVFAMKHRPTDTQLVDSSLCLHHLRTL				NA	NA	NA	NA	NA
BMS020_01972	846			hypothetical protein	ATGCAATTAACGGTTCTGGTTGATAATAATACATTCATTGACAGGTACCTTATCGGTGAACCTGGTGTGTCTTATCTGATTGAGTATGATGGTCAAAAAATTCTTTTCGATACGGGATATTCAGATGTTTTCCTGCAAAATGCGCAAACGTTGAAAATAGATTTGACCAGTATCGATAGTATCGTGTTATCCCATGGCCATAACGATCATACCTGGGGACTCAATCATTTAACCCAATATTATGATCGACTCAACTTCACTCCCGAGAAAAAGATAAACTTAATCTGCCATCCAGATGCATTAAGCCCAAAGTATTTTGATGAAAAATCTATAGGGATAAACTACAGATTCGATAAAAATGATCTCTTCTTCAACAAAATTTGCAGCCAAAAACCTTATCCACTCACTGAAAACATCATCTTCCTTGGTCAAATACCAAGGGACAATAAATTCGAGATGCTGACACCGGTAGGCCAAACGGTGGATGAGACAGGCGAAATCACTGATGATTACGTTATGGATGATTCTGCGCTGGCAATAAAGACAGAAGATGGACTGGTGGTAGTCACAGGCTGTTCTCACGCGGGAATAGCTAACATTATTGAATATGCGAAACAGGTTACCGGAGAACATCACATTGTTTCGGTCATTGGCGGGTTCCATTTGCAAAATGCTGATGAAGATCGCCTCACACAGACAGGGGATTACCTTAAAGCATTGTCCCCGGGCTCCGTCTATCCATGCCATTGTACCGATCTTGCGGCGAAGGTTAGCCTGGCGCGTTTTATCAAAATTAACGAGGTCGGCGTTGGATTAACGCTGAATTTTTCTGCCGCCGGGAAATAA	MQLTVLVDNNTFIDRYLIGEPGVSYLIEYDGQKILFDTGYSDVFLQNAQTLKIDLTSIDSIVLSHGHNDHTWGLNHLTQYYDRLNFTPEKKINLICHPDALSPKYFDEKSIGINYRFDKNDLFFNKICSQKPYPLTENIIFLGQIPRDNKFEMLTPVGQTVDETGEITDDYVMDDSALAIKTEDGLVVVTGCSHAGIANIIEYAKQVTGEHHIVSVIGGFHLQNADEDRLTQTGDYLKALSPGSVYPCHCTDLAAKVSLARFIKINEVGVGLTLNFSAAGK				NA	NA	NA	NA	NA
BMS020_01973	297	hdeB_1		Acid stress chaperone HdeB	GTGGCAATGAGTAGCGCCGCGGTGGGTAAGGGCGCCTCGCCCGCTGAGGCGCGGACGCGCGATATGATGCGCTGTCAGGATTATCTGCAGCTGGATCCGCGCACCTGGACGCCGATGGTGATCTGGCTGATGAACGATCCTTTTTCCCTGCAGCCGCCGGAGTGGACCGACTTCCATGAAGCCGAGCTGGTGCTGACGCCGATCCTCACCGAAATCTGCCGTCAGGAGCCAGATGCCTGGCTGACTTCGCTGCGTGAACGGCTCAATTCCTACCAGCAGGTGCGGTCGCTAAATTAA	MAMSSAAVGKGASPAEARTRDMMRCQDYLQLDPRTWTPMVIWLMNDPFSLQPPEWTDFHEAELVLTPILTEICRQEPDAWLTSLRERLNSYQQVRSLN	PGPT0014510_86	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_ACIDIC_STRESS	ACID_STRESS_CHAPERONE,PGPT0014510-hdeB-K19778	NA	NA
BMS020_01974	615	evgA		DNA-binding transcriptional activator EvgA	ATGAATGCGATAATCATTGACGATCATCCATTGGCACGTATCGCCATTCGCAACCTACTCGATACCAACGGTATTACCGTCGCGGCAGAGCTCGACAGCGGCGCTCATGCGGTGCAGGCCGCCGAAACGATGCAGCCTGACCTGCTGATCGTTGACGTCGATATTCCGGAGCTCAGCGGCATCGACGTTCTTGAGCAGCTGCGCAAACGCCGCTACCAGGGAAAAATTATCGTCATTTCCGCCAAAAATGAACGGTTCTACGGCAAACGCAGCGCCGACTGCGGGGCCAATGGTTTTGTGAGTAAAAAAGAGGGAATGAATAATATCCTCGCCGCGATCGAGGCGGCCAATAATGGCTACAGCTATTTCCCCTTTTCACTGGAGCGCTTCTGCACCCACGGCATCACCGATCAGGACCGGCTGGATACGCTGTCAACGCAGGAGATGAAAGTCTTCCGCTATATCCTCAGCGGCGTCGACTACACCACCATCGGCAGCAAAATGAATATCAGCAATAAGACGGTCAGCACCTATAAGGTCCGTCTGATGGATAAATTAGGCTGCAGCTCCCTGCTCGAGCTTTATGACTTTGCGCAACGCAATAAAATAGGGTGA	MNAIIIDDHPLARIAIRNLLDTNGITVAAELDSGAHAVQAAETMQPDLLIVDVDIPELSGIDVLEQLRKRRYQGKIIVISAKNERFYGKRSADCGANGFVSKKEGMNNILAAIEAANNGYSYFPFSLERFCTHGITDQDRLDTLSTQEMKVFRYILSGVDYTTIGSKMNISNKTVSTYKVRLMDKLGCSSLLELYDFAQRNKIG	PGPT0014490_375	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MdtEF-TolC,PGPT0014490-evgA|bvgA-K07690	NA	NA
BMS020_01975	3243	rcsC_3		Sensor histidine kinase RcsC	ATGGTCGTTCGTCTTATTTTATCCCTGATTGTCGGACTGGCGCTAAGCCACTCCCCCGCCGCGTTTGCCATGAAGCAACTGGAGCTGAAAAGCCATGCCCACATTGCGGCAATCGACATTCCGCTTAACGATACGGAAAAGGTCTGGCTGGCCGCCCGGCCGACGCTGACCGTCGGCACCTGGCTGCCTGAGATGACGCCTATCGTCTACGACAGCGACGAGGAGAGCTATCAGGGGATTAACGCCGACTATCTGGCGCTAATGGCGCACAGCCTCGGGTTGAAGGTGGTTATCCGCCAATATGACACCGAGCAGCAGGCGCTGGCCGCCCTGGCCGACCGCCAGGTGGATACCCTGCTCACTCAGGTGGCGCACCGGGATGCGCTCGCGCCGGGACTGACGCACACCGCACCGCTGATCAAAACCTGGCCGACGCTGGTCACCTCGCTAAAATCCCCCCTGCCGCCGCTGACCACCGACCGCCGCGTCACGCTGGCCTGCACCCGCGATTGCGCCTTTTTCGATATCATTCAGCAGGCGTTTCCCAACGCCAAAATCACCCTTTACGATAGCGACTATCAGGCTCTCGCCTCGGTGGTCAGCGGCGAGAATCAGTATTTCATCGGCAATAACATCACCACCGGCCACTGCATCTCGAAATATTTCTCGCAATCGCTGGTCATCGCACACTATTTTCGTCAGCAGGAGCAGCACAACCGCTTTGTCACCCGCGAGGATCGACCGGCGCTGCACCAGCTCCTTGACCGTTTTATCCACGCTATCGACAGCGATACCGCGATGCGGATCATGCAAAACTGGCTCAACCGCGGCGATCTGTCATTTCTCAATACGCCGCTGTCCTTTAGCGCCGAAGAGCAGCGCTGGCTACAGAAGCATCGTCGCGTCCGCCTGCTGGTCAACCCCTACTTTCCGCCTTTTACTCTGGTGGATGACGAGGACGAGCTGCGCGGCATTATGGCCGATATGCTGAATATTTTCTCGCTACAGACCGGGCTGCAGTTTGACCCCATCCTGGTGCGCAACCGTCAGGATCTGGCAAAGCGGATGGAAAAAGAGGACTGGGCGATCATGCCCGCCGCGACCCTGACCCCACAGCCGCAGGCCTACGTCACCCTCAGCGACCCGCTGATTAACGTGGCTTTTGTGCTGGTCGCCCGCGGCAGCGCCCCCGACCCACATCTGCTGGCCCGCCCGGCGCGGATCGCCCTGCCAGTGGGGCCAATCGCCGCCCACGACCTGAAAGCGCGCTTTCCACAGGTTGACTGGGTGGAGACGGATAACGTTGGCGTCGCGATGAAGATGGTGGAGGAAGGCGAGGTGGATGCCGCGGTAGCGTCGGAGCTTTCCGCCCGCTATATGATCGACCACTATTATCCACAGGGTCTGCACTACGCCCGCATCGACGGACTCCCGGTCGCCGCCATTCGGCTGGCGATCCCGCGCGATGAGCCGGTGCTGGCCGCCATCCTCAGCAAAGCGCTGCAGGCCATTCCGCCGCGGGATATTCTGCAGATGACCGAGAAGTGGTCGAAAATTTCCAGCCAGCAAATAGAGAACTGGAGCCAGTACAGCCGCCAGTTTTACCAGCTGATCGCCTTCGCGCTGGTGCTGATCGCCATCAGCCTCGGGTGGGGACTCTCCCTGTGCCGGGAAGTGCGCAAACGTAAAGACTCTCAGCAGCGGCTGGAGGAGGAGCTGGCGCAGAAGGAGGCCCTCTCCTGCGCGCTGGAGCGGGAAAAAGACAAAGCGATTCAGGCGACAAAAGCCAAGAGTCGCTTTCTGGCCAGCATGAGCCACGAGCTGCGCACGCCGGTGAGCGCCATCGTCGGCTTTCTGGAACTGCTGGCGAAACCGGAGCTGAACGTCGGTCAGCGTAAAGAGGCGATCGAGCTGGCGGGGTCGACGGCGCAAACCCTGCTGGGGCTGATCGGTAATATTCTCGATATCGACAAGATTGAGTCGGGGAAATACCAGATCACCCCGCAGTGGAGCGATGTCGCACAGGTCGTGTCGCAGCAGTGTCACACCTTCGGCGCGCTGGCGCAGCAAAAGGGGATCGCGCTCCACGACCATAACGCGCTACAGGAGGGGACCATGCTGTGGATCGACCCGCAGGCGCTGCGGCAAATCCTCAATAATCTCATCGGCAATGCGCTGAAGTTTACCACCGAGGGCGCGATTCAGGTCGACTGCCGGCTGACGCAAGCGGATGAGACGCAGGGGGAGCTGACCCTCATCATTAGCGACAGCGGCTGCGGGATCGGCGAAGAAGAGCAGACCACTCTCTTTCACCGTTATGCGCAGGCGCGCCAGGGGCGCAAACAGACCGGTTCCGGCCTGGGTCTGGTCATTTGCCAGGAGCTGGTCGCACTCATGCAGGGCCGACTGGAGATGGTTAGCCATCCTGGCGTGGGGACCACCTTCACCATCACCCTGCCAGTCAAGGTGAGTCGCTGCGCCGTTCGCGCGCCGAAGGCGTTACCGGCCAGGCAGCAGGCCTTGCCCGGGCTGTCGATATTGATAGCCGACGACCATCCCACCAACCGGCTGCTGCTCAAGCGCCAGCTCAGCACTATCGGCTATAGCGTCGATGAAGCCTGCGACGGTGAAGAGGCGGAGAATAAGCTCGCTGGCAAACATTACGATCTGCTGATCACGGACCTCAATATGCCGAAGAAAGATGGCCTGGCGCTGGCGGCGTCGCTACGTCGGCGCTACCCGGACCTGATGATTTGGGGGGTGACCGCCAGCGCGCTGCCGCAGTCGCGGGAGGCCTGTCTGGCCAGCGGCATGAATATGTGTCTGTTTAAGCCGGTGTCGGTCCAGACGCTGAGCCACGAGCTGAGCCGTTTAGCGGTGGGCCACGCATCGCCAAACGTCGCCCGACACCTGCGGCTCAGCGTGCTGACCGAAAATACCGGGGGAGACCAGGCGCTGATGACTGAGATGCTGGAGACGTTCCGCGATGCGTCGGCCGCGGATTTACAGGCTGCCGGACAGGCAATCGCCCGGCATGAGCCGCAGATCTTTCTGCGAGCGCTGCACCGTCTGCACGGTTCAGCGCAAATTCTGGGGATTACTGCGCTGCAAGCGCTGTGCGCCCCTTTTGAGGCGAAGCGGCCTGACTCGCTAACGCCGGCAAGCTGTCTGGAGGTGGTACAGCGCATCACCGGCGTCATGCGCGAGATCGATGGCGAAATCGACGCCCTGATCGGCCGCTAG	MVVRLILSLIVGLALSHSPAAFAMKQLELKSHAHIAAIDIPLNDTEKVWLAARPTLTVGTWLPEMTPIVYDSDEESYQGINADYLALMAHSLGLKVVIRQYDTEQQALAALADRQVDTLLTQVAHRDALAPGLTHTAPLIKTWPTLVTSLKSPLPPLTTDRRVTLACTRDCAFFDIIQQAFPNAKITLYDSDYQALASVVSGENQYFIGNNITTGHCISKYFSQSLVIAHYFRQQEQHNRFVTREDRPALHQLLDRFIHAIDSDTAMRIMQNWLNRGDLSFLNTPLSFSAEEQRWLQKHRRVRLLVNPYFPPFTLVDDEDELRGIMADMLNIFSLQTGLQFDPILVRNRQDLAKRMEKEDWAIMPAATLTPQPQAYVTLSDPLINVAFVLVARGSAPDPHLLARPARIALPVGPIAAHDLKARFPQVDWVETDNVGVAMKMVEEGEVDAAVASELSARYMIDHYYPQGLHYARIDGLPVAAIRLAIPRDEPVLAAILSKALQAIPPRDILQMTEKWSKISSQQIENWSQYSRQFYQLIAFALVLIAISLGWGLSLCREVRKRKDSQQRLEEELAQKEALSCALEREKDKAIQATKAKSRFLASMSHELRTPVSAIVGFLELLAKPELNVGQRKEAIELAGSTAQTLLGLIGNILDIDKIESGKYQITPQWSDVAQVVSQQCHTFGALAQQKGIALHDHNALQEGTMLWIDPQALRQILNNLIGNALKFTTEGAIQVDCRLTQADETQGELTLIISDSGCGIGEEEQTTLFHRYAQARQGRKQTGSGLGLVICQELVALMQGRLEMVSHPGVGTTFTITLPVKVSRCAVRAPKALPARQQALPGLSILIADDHPTNRLLLKRQLSTIGYSVDEACDGEEAENKLAGKHYDLLITDLNMPKKDGLALAASLRRRYPDLMIWGVTASALPQSREACLASGMNMCLFKPVSVQTLSHELSRLAVGHASPNVARHLRLSVLTENTGGDQALMTEMLETFRDASAADLQAAGQAIARHEPQIFLRALHRLHGSAQILGITALQALCAPFEAKRPDSLTPASCLEVVQRITGVMREIDGEIDALIGR	PGPT0014485_544	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE_EVG-EMR_SYSTEM,PGPT0014485-evgS|bvgS-K07679	NA	NA
BMS020_01976	633	yfdX		Protein YfdX	ATGAAAAAAGTCATTCTGGCGAGCCTGCTGGCAACTATGATGGGTACCTCTCCGGTGTGGGCAGCAGATAGCGCGACGGCAGCGCCAGCCGCGGCAGCCACAGCGCAGGTGCAGAAAGAAGCCGCCGATGTGCTGCAGGTGGCAGTGCAGGGCGCGAACGCGATGCGCGATGTCCAGTTCGCCCGTCTGGCGCTGTTCCATGGCCAGCCGGATAGCGCTAAAAAACTGACTGACGACGCCGCCGCGCTGCTGGCCGCCGATGACGCCAGCTGGGCGAAGTTTGTGAAAACCGATGCTAAAGCCAAAATGATCGCCGATCGCTATGTGGTCATTAACGCCTCTATCGCTCTGTCTGAAGACTATGTAGCCACGCCGGAAAAAGAGAGTGCCATTAAATCCGCCAACGAAAAACTGGCGAAAGGCGATCAGAAAGGGGCTATCGATACCCTCCGTCTGGCCGGTATTGGCGTAATTGAGAACCAGTATCTGATGCCGCTCAACCAGACCCGTAAGGCGGTGGCGCAGGCGCAAGACCTGCTGAAAGCTGGAAAATATTACGAAGCGAATCTGGTGCTGAAAGGCGCAGAAGAGGGCATCGTGGTGGACAGCGAGATGCTGGTGGCAGGCAACTGA	MKKVILASLLATMMGTSPVWAADSATAAPAAAATAQVQKEAADVLQVAVQGANAMRDVQFARLALFHGQPDSAKKLTDDAAALLAADDASWAKFVKTDAKAKMIADRYVVINASIALSEDYVATPEKESAIKSANEKLAKGDQKGAIDTLRLAGIGVIENQYLMPLNQTRKAVAQAQDLLKAGKYYEANLVLKGAEEGIVVDSEMLVAGN				NA	NA	NA	NA	NA
BMS020_01977	576	hdeD	COG3247	Protein HdeD	ATGTTTATGTTTAGCCATTACACCTTAAATGCGTTTAACCCACGCGTCTTGATTCGATATAAACGGCATGCCGGCTTGATGGCCGCGCTGCTGTTTATCTGCGGGGCCTGTTGCCTGGCCTGGCCGCTGGTCGCCGGCTGGTATCTCGCCACGGTGACCGGCATGTTGTTGATGATCTGCGGCTTCTACTCACTGTACAGCCTGATCGTCTTCCGCCAGCAGCACTGGAAATCACGCCTGGTGGCGCTGATCTTCGCCATCGCCTGGATCGTGCTCGGCCTGAGTTTTGTCGTTAATCCTCTTAACGGCATGAGCAGTCTGGCCCTCTTATTCGGCTTTTTATTTGTTCTCGGCGGTATTTCCCGCATCGTCAACGGATGTCAAACCCGAAAACAAAGCGGCGCCGGCTGGAATATTTTTATCGGCCTGTTGGATTTACTTATCGCCTGCCTGTGGCTGGCCATGAATCCGCAGCAAAGCTGGATATTTATTACCGCCTTTATCGGCGTTGAAATGATATTTAGCGCCATCGGCTTGCTGGTCCTGCGCAATAAAATGAAGCACGCCCAGGCTTAA	MFMFSHYTLNAFNPRVLIRYKRHAGLMAALLFICGACCLAWPLVAGWYLATVTGMLLMICGFYSLYSLIVFRQQHWKSRLVALIFAIAWIVLGLSFVVNPLNGMSSLALLFGFLFVLGGISRIVNGCQTRKQSGAGWNIFIGLLDLLIACLWLAMNPQQSWIFITAFIGVEMIFSAIGLLVLRNKMKHAQA				NA	NA	NA	NA	NA
BMS020_01978	306	hdeB_2		Acid stress chaperone HdeB	ATGAATTTGCCTAAAGCACTCGTACTGACCGTAGCGGCCACCACATTCTGTCTGATGACCAGCCCGGCGTTCGCGATTCTGGAAACCACACCGCAGAATATGACCTGTCAGGAGTTTATGGATCTGAACCCAAAAAGCATGACCCCGGTGGCCTTCTGGGTGGTGAACCGCAACACCGACTTCAGCGGCGGGGACTACGTCGACTGGCATGAAGTCGAGACCGTCTCGGTGCCGAAAATGTTGCAGCAGTGCCACAAGAACCCCGCCGCCAAACTCGGCGAGCTCAATGCGGTCATCAAGAAATAA	MNLPKALVLTVAATTFCLMTSPAFAILETTPQNMTCQEFMDLNPKSMTPVAFWVVNRNTDFSGGDYVDWHEVETVSVPKMLQQCHKNPAAKLGELNAVIKK	PGPT0014510_107	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_ACIDIC_STRESS	ACID_STRESS_CHAPERONE,PGPT0014510-hdeB-K19778	NA	NA
BMS020_01979	636			hypothetical protein	ATGACAGACAAACCAGATGACTATTATGATTACGTGCTCGGGGTGAATACTATTTATGATGTCGATGACAGATATCTTAAAGAGGGCGTGCATGCTTTAATCACTATTGCCCTGCATTCAATTAGCATGCACTACTTTGAAGCATTACTCTCCATGGGGTTGAAAATCATTGTTTCTGAAAAATGTTTCGAAGACGAATTACTCTGCCAGCGCAGATTAGTAACAGACTCAGCAGAGCATATACAACTCGTATTTATAGATAAGAATTATATTGCGTTTTTCAATAATTCGAAACTATGTCCTGATGGCAAGATATTTTTTAGTAAGAAAATCGAGAAAAATCAATTCCTGCACGAACTGCAGCGTATTTTTATCCAAAGAGTCGAACCGCGATATCAAGAGCATAAGCGAGGGGACTGCAAATCATATCCATGCAGTAAACAATTAACTGAACTGCAGAGGAAGATCCTGCTAAAGCTCAGCAGCGGTTTAAGCTATGAGAGGCTCTCGCAAGAGCTGAATATGGAGTACCGTAAGCTAATGAAACATAAGGAAAGTATCATTCAGAAATTCAGTCTGGGGGGCGCTTGCGATTTAACTGCTTTTGCCAGAGCCTTAAGAAAAACGAGCAATTGA	MTDKPDDYYDYVLGVNTIYDVDDRYLKEGVHALITIALHSISMHYFEALLSMGLKIIVSEKCFEDELLCQRRLVTDSAEHIQLVFIDKNYIAFFNNSKLCPDGKIFFSKKIEKNQFLHELQRIFIQRVEPRYQEHKRGDCKSYPCSKQLTELQRKILLKLSSGLSYERLSQELNMEYRKLMKHKESIIQKFSLGGACDLTAFARALRKTSN				NA	NA	NA	NA	NA
BMS020_01980	603	iprA_4		Inhibitor of hydrogen peroxide resistance	ATGAATATTAATATTAAAGAGTCCGTTAACGTCATCGGACAATGCATGAAAGATGATAATAATTCTTTTTTCTTACAAAATAAAAAAAACCAACGTCTTGATTTTAAGAAAAGCAACCATGTCGCCTATCTGGAAAATGGTTGTATCACTATGCACAGAATAGATGATGGATTGTTAACAATTACCATTAGAGCTCCCGCGATTATTGGTCTTGGGCAGTTTAGAGGAGAGTCATTCACTCACTACATCCGCTGCACAACAGAATGCGGAATGTGGGTAATGACGGCGGAGGATACCTTTAAGTTACTGTCCAGATTCGATCTTTGGCAGCATGCATTTGATATTCTGACTAAGCATTTATATATGTACTTCACCAGAGACAATATGATGCAAAAATCAACAGTACGGGATATCGTGATAGACCATATTAAAATGATATGTTCCTTTGAAGAGTCGATACGAACGTCTACCTCAATATATACCTATATACTCTCACGGAATGCTATTTCAAGAAGTGCAGTACATAAAGTCGTTCAGGAGTTAGTCAAAGATGGCTCTTTAGTATTGAATCGGGGAAAAATAATTAGCTTTAGAGAAGAGTAA	MNINIKESVNVIGQCMKDDNNSFFLQNKKNQRLDFKKSNHVAYLENGCITMHRIDDGLLTITIRAPAIIGLGQFRGESFTHYIRCTTECGMWVMTAEDTFKLLSRFDLWQHAFDILTKHLYMYFTRDNMMQKSTVRDIVIDHIKMICSFEESIRTSTSIYTYILSRNAISRSAVHKVVQELVKDGSLVLNRGKIISFREE				NA	NA	NA	NA	NA
BMS020_01981	174			hypothetical protein	ATGTGTTGTTTGGCCGTGGATGATAGCGGCCTTTTTTTTATCAATGGAGATGGGAACTTTAATGGTTTGTTCAAGAGTATGCAGATGAAAGTGATAGATAAAGGGCGTCAACGCGCCGAAAAAAGCGAGGGGAACCTGGACCAAAAAGCCCTCTTTGTGCAGAAGACATTATAA	MCCLAVDDSGLFFINGDGNFNGLFKSMQMKVIDKGRQRAEKSEGNLDQKALFVQKTL				NA	NA	NA	NA	NA
BMS020_01982	2520	htrE_2	COG3188	Outer membrane usher protein HtrE	ATGAAAATATCTCTTACTGCTTTTTCTGTAAATAAAGCTTTATGGTTTCCTGTGTGTGCTTTTTTTTCTGTAAATGCGCTTGCAGATGGAGTTGTTAATCACGATATCGTGGATGCTGATACGCTTGCGAACAACACACAGTTCGATCCCGTATTCATCAACTCCTCTTTCAAGAAAAATATCGATCTCAAACAATTTTCTATCGCTGGCAATGTACCTGAAGGCGATTACCAGGCAGATGTTTATATTAATGAAATTTTATCCTACAGCGAAAGGGTTAAATTTAGAAGGAATAAAGCTGGAAAAGTTGTACCGTGTTTATCAGAATCGATGTTAAAGCATCTTCATCTTAAAGAAAATGTGATAAAAAATAAGGTCGATTTCGCTTCATGTCCTGAATTATCCAATTTAATCCCCGGCAGTAGCGTCAAGTTTGATGCCAGTAGCCAACGACTCGATATCTCTGTACCACAAAAATTTATTTTGCATCTTTCGCAAGGTGAAGTTCCTGAGTCGGAGTGGGATAGTGGGATCGCCGCAGCGTTTGTCGGATATAATTTTAATACCTATGAAAGTAGTACCCATGGCTCGCATTATAACTCTGACTATCTTGGCCTGAATAGCGGCATGAATATCGGCGGTTGGTTCTTCAGACATAATGGTACCTGGACCAGCCAAACGAATCAACAAAGCCGATACCATGCCCTGAATACCTATGTCCAGCATGATATTAATGGCATTAAAGGGCGAGTGGTTATTGGCCAGTCAAACACCTCCGGTCGACTTTTTGATACATTACCGTTCACCGGCGTCTCTGTCATGTCGGACGATCAGATGTTACCGCAGTCGAGACGCGGTTATGCACCTGAGATTAGGGGGGTGGCTAACACCAGCGCAAAAGTGACCGTTCGTCAGGGTGATCAGGTTATCTACGAGACTACGGTTTCACCAGGGGAATTCATCCTCGACGATCTTTATCCTTCTGGCTACGGCGGCGATCTGGTTGTTTCAGTCAGAGAGGCAGATGGTCAGACAAAAACTTTTAGAGTCCCCTATTCCTCGGTGGCCGATCTTCTGAGGCCAGGCGTTCAACGCTACGAGATCGTGGCGGGTAAATACCGTAATGACTATAGCTCAGGCGACGGCAATTCGCTCTATCAGTTTACCTGGCAGCGCGGTATCTCAAACTACCTGACATTTTATACGGGCTCGCAGAAAAGTAATGACTATTTTTCCGGTCTCCTTGGGGTTGCTATTGATACGCCAATTGGCGCGTTCGGTACGGATATTACGCACTCCATTACTGATTTAGATGATAGTAATAAGAAAGGGGAAAGTTACCGCATAAGCTATAATAAGCTCATTCAGGAATCTGGCAGTAATATCGCTTTAGCAGCATACAGATTTTCTACGCGTGGGTATTTTGACTTTACCGAGGCGATGCATTATCAGGACTTATACAATCATCATCTGTGGGCGGGGGATGTATTTTTACCCAAAAGCAAATTTATCATTAGCGTTCAGCAAAAGCTGGGTGAAGATTTGGGTCAACTGTATGTCAGTAATATCTGGTTGAACTCATGGGGAAATCAGGGTTCTGAAAAACAATATCAATTGGGGTATTCTAATTACTGGAAAAAGGTTAGTTATTCGTTTTCCTTAAACCGAAGCCGGCTTGATAACGGACAGTATGAAAATAACTGGTTATTGTCCGCAAGTATTCCCTTGGGTGAAGAGAGCAATACATCGTTATCCACCAGCTTAGGCCGGGACTCATCCGGGCACTATACTGAACAGGTGGGATTAAGCGGCTCGGAAGGTGAATCTGGTCAGTTAAGCTGGAATGCGCAGGGATCGCATACGAGCTATGGCGACAATATGGGAAGCTTATCAGGGCAGTATCGTTCTCCGGTCACAAACATTGGTGTCGGGGCCAGTGCTGGCGAAAATACCCATACTCTTAGCGGCAATTTAAGTGGTGCCATCGTCGGCCATCGTCGCGGCGTGACGCTGACCCCCTATCTGGCTGATTCCTATGTTGTGGTATCGGCGCCTGGCGCTACCGGCGCGAAATTACCCGGTTATTCTGATGTCCGGATCGATCGCTGGGGAAATGCAGTAGTCCCTGTCTGGTCTCCTTATTCAGTGAATGAGATCAGAATTGATCCGAAAGGCATTCCAACGAACATCGAGCTGGATGAAACCAGTCAGGCTACTATCCCAAGAGCGGGGGCGGTGACACAAACTATTTTCTCAACGCATAAAGGTTATCCCCTGTTATTTAGTCCGCAAGATCATCACGCGCTTCCTTTTGGTAGTAATGTGACAGATGAGCATGGTCAGGCCATGGGATTGGTCAGTCAGGGCGGCCAAATCTATCTGCGAGCCACCGAAGAAAGTGGGAAACTCTATGCGACATGGAATGATAACGGTTCGCCTAAAACATGCATCATTTCCTATGCTTTGCATGAGAATGAATTAACCTTGCCAATGATCAAAAGAAGTTATCAGTGCCAGTAG	MKISLTAFSVNKALWFPVCAFFSVNALADGVVNHDIVDADTLANNTQFDPVFINSSFKKNIDLKQFSIAGNVPEGDYQADVYINEILSYSERVKFRRNKAGKVVPCLSESMLKHLHLKENVIKNKVDFASCPELSNLIPGSSVKFDASSQRLDISVPQKFILHLSQGEVPESEWDSGIAAAFVGYNFNTYESSTHGSHYNSDYLGLNSGMNIGGWFFRHNGTWTSQTNQQSRYHALNTYVQHDINGIKGRVVIGQSNTSGRLFDTLPFTGVSVMSDDQMLPQSRRGYAPEIRGVANTSAKVTVRQGDQVIYETTVSPGEFILDDLYPSGYGGDLVVSVREADGQTKTFRVPYSSVADLLRPGVQRYEIVAGKYRNDYSSGDGNSLYQFTWQRGISNYLTFYTGSQKSNDYFSGLLGVAIDTPIGAFGTDITHSITDLDDSNKKGESYRISYNKLIQESGSNIALAAYRFSTRGYFDFTEAMHYQDLYNHHLWAGDVFLPKSKFIISVQQKLGEDLGQLYVSNIWLNSWGNQGSEKQYQLGYSNYWKKVSYSFSLNRSRLDNGQYENNWLLSASIPLGEESNTSLSTSLGRDSSGHYTEQVGLSGSEGESGQLSWNAQGSHTSYGDNMGSLSGQYRSPVTNIGVGASAGENTHTLSGNLSGAIVGHRRGVTLTPYLADSYVVVSAPGATGAKLPGYSDVRIDRWGNAVVPVWSPYSVNEIRIDPKGIPTNIELDETSQATIPRAGAVTQTIFSTHKGYPLLFSPQDHHALPFGSNVTDEHGQAMGLVSQGGQIYLRATEESGKLYATWNDNGSPKTCIISYALHENELTLPMIKRSYQCQ	PGPT0016040_342	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016040-fimD|fimC|mrkC|htrE|cssD-K07347	NA	NA
BMS020_01983	717	yadV_2		putative fimbrial chaperone YadV	ATGAGTTATCCATTACACCGCCTCATGTCGGTATTATCGCTGACAATGTCTATTATTATGGCTGCAAACGTTTCAGCCTCATCGATTATTAATGGTACCCGGTTTATATATCCTTCTGATGAACGTGAGATAACCGTTCAGGTTGATAATAAAAACAGCTATCCGGTACTGTTACAAAGTTGGATCGATGATGGACATTCACAAATAGAACCAGAAAAAATGAATGTGCCTTTCATTTTGACCCCTCCGTTAACCAGAGTCGAAGCTGGTAAGGGACAGACGCTGCGAATTAACTATATCGGCACCGATCTTTCACCCGATCGTGAACATGTTTTTTGGTTGAATGTGCTGGAGATACCACCAAATGAAAAAGATACTAAAAATCATTTACAGGTTGCCTTCAGAAGTCGATTAAAGCTTTTTTGGCGACCATCTCAGCTTTCTAACGGCGCTGCGACAGCGCAGGAAAAGTTGTCATGGAAGGTTGCTGGTGACTCAATCATTATTAAAAACCCGACACCTTATTATATTACGCTGGCTGCGGTGAGTATTACCCATAACGGTAAGAAAACGATTGTCAATGGTTCAATGATTGAGCCAATGGGAACAACATCATTAAAAAATGATATCAATGTTAACAGCACAGATAAGGTTGAAGCAGAATATATAAATGATTTCGGGGCTCATAAAAGCATCACTATTAAATACTTGCCATAA	MSYPLHRLMSVLSLTMSIIMAANVSASSIINGTRFIYPSDEREITVQVDNKNSYPVLLQSWIDDGHSQIEPEKMNVPFILTPPLTRVEAGKGQTLRINYIGTDLSPDREHVFWLNVLEIPPNEKDTKNHLQVAFRSRLKLFWRPSQLSNGAATAQEKLSWKVAGDSIIIKNPTPYYITLAAVSITHNGKKTIVNGSMIEPMGTTSLKNDINVNSTDKVEAEYINDFGAHKSITIKYLP	PGPT0016035_524	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016035-fimC-K07346	NA	NA
BMS020_01984	597	smf-1	COG3539	Major fimbrial subunit SMF-1	ATGTTCGCTATTAAGAAAAAAGCAGTAAGTGTTGCAATTGTATCTATTATTTCTTCTTTATCTTTCGCTGCTAGCGCTGCGCCTGCTCCAACGGCTAACGGTGGTACTATTAATTTCACCGGTAAAGTGACTGACGTGACCTGTACGGTTAAGCTGAACGGCGGGACTAACTCCGGTACGGTGGCACTGCCTCCGGTATCCACGGCATCTCTTGCCAAAAGCGGTGATGTTGCCGGAATGACCAGTTTCACTGTCTCTCTCGATAACTGTAAATCTGCTGGCGCAACTCTGGCGGCGGGTAAAACAGCAGCGGTCTTCTTCGAAGCCGGCGCGGATGTGGATTCTGCCACTGGCTTATTGTTAAACCATAAAGCGAGCGGTGCGGGTGCCGTTGCCCTTGAATTAGTGGATAACAGCAACAGCAGCCACCACGCGATTATCGCCGGTGACGCCGCACAGCAGGCGAATACCACCAAAATTGCCATTGATCCTCAGGGCACCACCATTCTGCCTTACGCGGTACGTTACCATGCAACTGGTGCCGCGACTGCCGGTGATGTCGAATCCAGTGTTGTTTATTCTGTGATGTACAATTAA	MFAIKKKAVSVAIVSIISSLSFAASAAPAPTANGGTINFTGKVTDVTCTVKLNGGTNSGTVALPPVSTASLAKSGDVAGMTSFTVSLDNCKSAGATLAAGKTAAVFFEAGADVDSATGLLLNHKASGAGAVALELVDNSNSSHHAIIAGDAAQQANTTKIAIDPQGTTILPYAVRYHATGAATAGDVESSVVYSVMYN	PGPT0016030_951	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016030-fimA-K07345	NA	NA
BMS020_01985	1053			hypothetical protein	ATGAATGGCATAAAGATACTTATTTTTAGCTTGTTGGGACTTTTTATAACCTGCTATTCCGCCGGCGCAATGGCAAATGTGGCATGTGGTTCTGAAGCCAGTCTCCCCGCGGGAACACTGAATATCGGGTTTACACCGGCGCCTTCAGTGATTCAAAAAGCGGCTGGCGTGTATGATGTCAGAACAGTGTCCGATCATGGCGTAGTCGGCGATTTGGTGTATACCGCTTCCGTGCAATGTATTTCCGACACGGATGGGCCGATACATTATGTGCCCCTCGTTTTTAACGGTGCCTGTATGGGTATGTTCGGATTTGAATTCGAACTGGAACCGACCTTTTGTCGCGCTATTGTGAATCATTTCCTCACCGATCCTCATGCTGTGAGCAGTCAACCGATCAACGCGAAATCTGGCACTCCCTTCATGGTTTCAGCCAGGGTTGCATTACCATTAGCACTGAAAAATCACCACGGCAGCGGCAGCTTTACGCTCGACCTGAACAGTTCTTCAGTTAAGGATGGAGTAAGACACCAAGCTTCAAAAGCGCCAATCACTGCAGGAAAAAACATTTTTCTTGGCGGAAAAGTGGTCTCTTACAACGGGCCACAGCTCATAAAATTCGTTACTGTGCCACCTACCTGTGTATTTGAACTGAATGATGTCGATTTTCAGAATCAGACCCAGGAACAGGTAATGAAAAATAGCGTCATGCCATTGCATACCACATTGTCTGCAAATTGCAATGAGGCTTTGAGCGGCGTTAAAGTGAAGTTTACTAGTCCCAATGGTTATATGCAGCAACCAGGAGTGATTAAGTCTAATCTCAATGATTTAGGTTTTCTACTGGTCTGGGCAGACGATATTCTGGCTTCTAAAGGTACAGCCGTTGAATTTACCAAGGATTACACGCTCGCGGACAGGTTGTTTGCCAGTGCCAGTACCACAACGATTAATTTACCGATAGATGTTACACCCTATTATAATGCCAGCTCAGGATCCAGTATCACGGGGCAAGTCAGAAGTTCTATCACTGCTGAAATTAATTACTGGTGA	MNGIKILIFSLLGLFITCYSAGAMANVACGSEASLPAGTLNIGFTPAPSVIQKAAGVYDVRTVSDHGVVGDLVYTASVQCISDTDGPIHYVPLVFNGACMGMFGFEFELEPTFCRAIVNHFLTDPHAVSSQPINAKSGTPFMVSARVALPLALKNHHGSGSFTLDLNSSSVKDGVRHQASKAPITAGKNIFLGGKVVSYNGPQLIKFVTVPPTCVFELNDVDFQNQTQEQVMKNSVMPLHTTLSANCNEALSGVKVKFTSPNGYMQQPGVIKSNLNDLGFLLVWADDILASKGTAVEFTKDYTLADRLFASASTTTINLPIDVTPYYNASSGSSITGQVRSSITAEINYW				NA	NA	NA	NA	NA
BMS020_01986	807	glpF_1	COG0580	Glycerol uptake facilitator protein	ATGATGAACCAGACTTCTAGCTTAACCGGGCAGTGCGTGGCCGAGTTTCTTGGCACCGGACTGCTCATTTTCTTCGGCGCGGGCTGTGTCGCTGCGCTGCGGGTCGCCGGAGCCAGCTTTGGCCAGTGGGAAATCAGTATTATCTGGGGCCTCGGCGTCGCCATGGCCATCTATCTGACGGCTGGCGTCTCCGGCGCGCACCTTAATCCGGCCGTCACCATTGCCCTGTGGCTGTTCGCCTGTTTTGAACGCCGTAAAGTACTGCCGTTTATTGTCGCCCAGACGGCCGGGGCATTCTGCGCCGCCGCCCTGGTGTACGGGCTCTATCGTCAGCTGTTTCTCGATCTTGAACAGAGCCAGCATATCGTTCGCGGTACCGTCGCCAGCCTTAACCTGGCCGGGGTCTTTTCCACCTACCCGCATCCGCATATCACCTTTTGGCAGGCGTTTGCCGTAGAGACCACCATCACGGCGATCCTGATGGCGATGATCATGGCTCTGACCGACGACGGCAATGGCATCCCGCGCGGGCCGCTGGCGCCGTTGCTGATTGGCTTGTTGATCGCCGTGATCGGCGCGTCGATGGGGCCGCTAACCGGCTTTGCGCTGAATCCGGCGCGTGATTTCGGCCCTAAACTGTTTACCAGTCTGGCCGGCTGGGGCGCGATCGCCTTTACCGGCGGGCAGTCGATACCCTACTTTTGGGTGCCGCTGCTGGCGCCGGTGGTGGGGGCGATTATGGGAGCGTTTTTATACCGCAAGCTTATCGGCAACCATCTGCCGTGCGAATGCGCGGTTAACGACTAA	MMNQTSSLTGQCVAEFLGTGLLIFFGAGCVAALRVAGASFGQWEISIIWGLGVAMAIYLTAGVSGAHLNPAVTIALWLFACFERRKVLPFIVAQTAGAFCAAALVYGLYRQLFLDLEQSQHIVRGTVASLNLAGVFSTYPHPHITFWQAFAVETTITAILMAMIMALTDDGNGIPRGPLAPLLIGLLIAVIGASMGPLTGFALNPARDFGPKLFTSLAGWGAIAFTGGQSIPYFWVPLLAPVVGAIMGAFLYRKLIGNHLPCECAVND	PGPT0004760_1050	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLYCEROL_UPTAKE,PGPT0004760-glpF|pduF-K02440	NA	NA
BMS020_01987	1824	ddrA_2		Diol dehydratase-reactivating factor alpha subunit	ATGCCGTTAATAGCCGGGATTGATATCGGCAACGCCACCACCGAGGTGGCGCTGGCGTCCGACGACCCGCAGGCGAGGACGTTTGTTGCCAGCGGGATCGTCGCGACGACGGGCATGAAAGGGACGCGGGACAATATCGCCGGGACCCTCGCCGCGCTGGAGCAGGCTCTGGCGAAAACGCCATGGTCAATGCGCGATGTGTCTCGCATCTATCTTAACGAAGCCGCGCCGGTCATTGGCGATGTGGCGATGGAGACCATCACCGAGACCATTATCACCGAGTCAACCATGATCGGTCATAACCCGCAGACCCCGGGCGGGGTGGGCGTCGGCGTGGGGACGACCATCGCCCTCGGCCGGCTGGCGACGCTGCCGGCGGCGCAGTATGCCGAGGGGTGGATCGCGCTGATTGACGACGCCGTCGATTTCCTTGACGCCGTGTGGTGGCTCAATGAGGCGATCGACCGCGGGATCAACGTGGTGGCGGCGATCCTCAAAAAGGACGACGGCGTGCTGGTGAACAACCGCCTGCGCAAAACCCTGCCGGTGGTGGATGAAGTGACGCTCCTGGAGCACGTGCCCGAGGGGGTGATGGCGGCGGTGGAGGTGGCCGCGCCGGGTCAGGTGGTGCGGATCCTGTCGAATCCCTACGGCATCGCCACCTTCTTTGGGCTGAGCCCGGAGGAGACCCAGGCCATCGTCCCCATCGCCCGCGCGCTGATTGGCAACCGCTCAGCGGTGGTGCTCAAGACCCCCCAGGGCGACGTGCAGTCGCGGGTGATCCCGGCGGGCAAGATCTACATCAGCGGCGAAAAGCGCCGTGGAGAAGCCGATGTCGCCGAGGGCGCGGAGGCGATCATGCAGGCGATAAGCGCCTGCGCTCCGGTACGCGACATCCGCGGCGAACCGGGCACCCACGCCGGCGGCATGCTCGAGCGGGTGCGCAAGGTGATGGCGTCCCTGACCGGCCATGAGATGAGCGCGATCCACATCCAGGATCTGCTGGCGGTGGATACATTTGTTCCGCGCAAGGTGCAGGGCGGGATGGCTGGGGAGTGCGCTATGGAGAATGCCGTCGGGATAGCGGCGATGGTGAAATCGGATCGTCTGCAGATGCAGGTTATCGCCCGTGAGCTGAGCGCCCGACTCCAGACTGAGGTGGTCGTGGGCGGCGTGGAAGCCAACATGGCCATCGCCGGGGCGTTAACCACGCCGGGCTGTGCGGCGCCGCTGGCGATCCTCGACCTCGGCGCTGGTTCGACGGATGCGGCGATCGTCAGCGCGGAGGGGCAGATCGCCGCGGTGCATCTCGCCGGGGCGGGAAATATGGTCAGCCTGCTGATTAAAACCGAGCTGGGTCTCGAGGATCTTTCGCAGGCGGAAGCGATAAAAAAATACCCGCTGGCCAAAGTGGAAAGCCTGTTCAGTATCCGCCACGAGAATGGCGCAGTGGAGTTCTTCCGGGAAGCCCTCAGCCCGGCGGTGTTCGCCAAAGTGGTGTACATCAAGGAGGGCGAACTGGTGCCGATCGATAACGCCAGCCCGCTGGAAAAAATTCGTCTTGTGCGCCGCCAGGCGAAGGAGAAAGTGTTTGTTACCAACTGCCTGCGCGCGCTGCGCCAGGTCTCCCCCGGCGGTTCCATTCGCGATATCGCCTTTGTGGTGCTGGTGGGCGGCTCATCGCTGGATTTTGAAATCCCGCAGCTGATCACCGACGCCCTGTCGCACTACGGCGTGGTCGCCGGGCAGGGCAACATTCGGGGAACAGAAGGGCCGCGCAATGCGGTCGCCACCGGGCTGGTGCTGGCCGGTCATGCCGATTAA	MPLIAGIDIGNATTEVALASDDPQARTFVASGIVATTGMKGTRDNIAGTLAALEQALAKTPWSMRDVSRIYLNEAAPVIGDVAMETITETIITESTMIGHNPQTPGGVGVGVGTTIALGRLATLPAAQYAEGWIALIDDAVDFLDAVWWLNEAIDRGINVVAAILKKDDGVLVNNRLRKTLPVVDEVTLLEHVPEGVMAAVEVAAPGQVVRILSNPYGIATFFGLSPEETQAIVPIARALIGNRSAVVLKTPQGDVQSRVIPAGKIYISGEKRRGEADVAEGAEAIMQAISACAPVRDIRGEPGTHAGGMLERVRKVMASLTGHEMSAIHIQDLLAVDTFVPRKVQGGMAGECAMENAVGIAAMVKSDRLQMQVIARELSARLQTEVVVGGVEANMAIAGALTTPGCAAPLAILDLGAGSTDAAIVSAEGQIAAVHLAGAGNMVSLLIKTELGLEDLSQAEAIKKYPLAKVESLFSIRHENGAVEFFREALSPAVFAKVVYIKEGELVPIDNASPLEKIRLVRRQAKEKVFVTNCLRALRQVSPGGSIRDIAFVVLVGGSSLDFEIPQLITDALSHYGVVAGQGNIRGTEGPRNAVATGLVLAGHAD	PGPT0019446_272	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019446-pduG|ddrA-NA	NA	NA
BMS020_01988	426	pduE_2	COG4910	Propanediol dehydratase small subunit	ATGAGCGAGAAAACCATGCGCGTGCAGGATTATCCGTTAGCCACCCGCTGCCCGGAGCATATCCTGACGCCCACCGGCAAACCATTGACCGACATCACCCTCGAGAAAGTGCTCTCTGGCGAGGTGGGCCCGCAGGATGTGCGGATCTCCCGGCAAACCCTTGAGTACCAGGCGCAGATTGCCGAGCAGATGCAGCGCCATGCGGTGGCGCGCAATTTTCGCCGCGCGGCGGAGCTTATCGCCATCCCTGACGAGCGCATTCTGGCTATCTATAACGCGCTGCGCCCGTTCCGCTCCTCGCAGGCGGAGCTGCTGGCGATCGCCGACGAGCTGGAGCACACCTGGCATGCGACGGTGAATGCCGCCTTTGTCCGGGAGGCGGCGGAAGTGTATCAGCAGCGGCATAAGCTGCGTAAAGGAAGCTAA	MSEKTMRVQDYPLATRCPEHILTPTGKPLTDITLEKVLSGEVGPQDVRISRQTLEYQAQIAEQMQRHAVARNFRRAAELIAIPDERILAIYNALRPFRSSQAELLAIADELEHTWHATVNAAFVREAAEVYQQRHKLRKGS	PGPT0008250_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0008250-dhbE-K06122	NA	NA
BMS020_01989	585	pduD_2		Propanediol dehydratase medium subunit	GTGCAACAGACAACCCAAATTCAGCCCTCTTTTACCCTGAAAACCCGCGAGGACGGGGTGGCTTCTGCCGATGAACGCGCCGATGAAGTGGTGATCGGCGTCGGCCCCGCCTTCGATAAACATCAGCATCACACCCTGATCGATATGCCCCATGGCGCGATCCTTAAAGAGCTGATTGCCGGGGTGGAGGAAGAGGGACTTCACGCCCGGGTGGTGCGCATTTTGCGCACGTCCGACGTCTCCTTTATGGCCTGGGATGCGGCGAACCTGAGCGGCTCGGGGATCGGCATCGGTATCCAGTCGAAGGGGACCACGGTCATCCATCAGCGCGATCTGCTGCCGCTCAGCAACCTGGAGCTGTTCTCCCAGGCGCCGCTGCTGACGCTGGAGACCTACCGGCAGATTGGCAAAAACGCCGCGCGCTATGCGCGCAACGAGTCACCTTCGCCGGTGCCGGTGGTGAACGACCAGATGGTGCGGCCGAAATTTATGGCCAAAGCCGCCCTGTTTCATATCAAAGAGACCAAACATGTGGTGCAGGACGCCGAGCCCGTCACCCTGCACGTCGACTTAGTAAGGGAGTGA	MQQTTQIQPSFTLKTREDGVASADERADEVVIGVGPAFDKHQHHTLIDMPHGAILKELIAGVEEEGLHARVVRILRTSDVSFMAWDAANLSGSGIGIGIQSKGTTVIHQRDLLPLSNLELFSQAPLLTLETYRQIGKNAARYARNESPSPVPVVNDQMVRPKFMAKAALFHIKETKHVVQDAEPVTLHVDLVRE	PGPT0008245_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0008245-dhbC-K06121	NA	NA
BMS020_01990	1668	dhaB		Glycerol dehydratase large subunit	ATGAAAAGATCAAAACGATTTGCAGTACTGGCCCAGCGCCCCGTCAATCAGGACGGGCTGATTGGCGAGTGGCCTGAAGAGGGACTGATCGCCATGGAAAGCCCCTTTGACCCGGTCTCGTCGGTCAAAGTGGAAAACGGTCGGATCGTCGAGCTGGACGGCAAGCGCCGGGACCAGTTTGACATGATCGACCGGTTTATCGCCGACTACGCGATCAACATTGAGCGCACGGAGCAGGCGATGCGTCTGGAGGCGCTGGAGATAGCCCGCATGCTGGTGGATATCCACGTCAGCCGGGAGGAGATCATCGCCATCACCACCGCCATCACGCCGGCCAAAGCGGTTGAAGTCATGGCGCAGATGAACGTGGTGGAGATGATGATGGCGCTGCAAAAGATGCGCGCCCGCCGAACGCCCTCCAACCAGTGCCATGTCACCAACCTGAAGGATAATCCGGTGCAGATTGCCGCCGACGCCGCCGAGGCCGGGATCCGCGGCTTCTCCGAGCAGGAGACCACGGTCGGTATCGCGCGCTATGCCCCGTTCAACGCCCTGGCGCTGCTGGTCGGCTCGCAGTGCGGCCGCCCCGGCGTGTTGACGCAATGCTCGGTGGAAGAGGCCACCGAGCTGGAGCTGGGCATGCGTGGCTTAACCAGTTACGCCGAGACGGTGTCAGTCTACGGCACCGAGGCGGTATTTACCGACGGCGATGACACCCCATGGTCAAAGGCGTTCCTCGCCTCGGCCTACGCCTCCCGGGGGCTGAAAATGCGCTACACCTCCGGCACCGGCTCCGAAGCGCTGATGGGCTATTCGGAGAGCAAGTCGATGCTCTACCTCGAATCGCGTTGCATCTTCATTACCAAAGGCGCCGGGGTGCAGGGTCTACAGAACGGGGCGGTGAGCTGCATCGGCATGACCGGCGCCGTGCCCTCGGGCATTCGGGCGGTGCTGGCGGAAAATCTGATCGCCTCCATGCTCGACCTCGAAGTGGCCTCGGCCAACGACCAGACCTTCTCCCACTCGGATATCCGCCGCACCGCGCGCACCCTGATGCAGATGCTGCCGGGCACCGACTTTATTTTCTCCGGCTACAGCGCGGTGCCGAACTACGACAACATGTTCGCCGGCTCGAACTTCGATGCGGAAGATTTTGATGATTACAACATCCTGCAGCGCGACCTGATGGTTGACGGTGGACTGCGTCCAGTGACCGAGGCGGAAACCATCGCCATTCGCCAGAAAGCGGCGCGGGCGATCCAGGCGGTCTTTCGCGAGCTGGGGCTGCCGCCGATCGCCGACGAGGAGGTGGAAGCCGCCACCTACGCGCACGGCAGCAACGAGATGCCGCCGCGTAACGTGGTGGAGGACCTGAGCGCGGTGGAAGAGATGATGAAGCGCAATATTACCGGTCTCGATATTGTCGGCGCGCTAAGCCGCAGCGGCTTTGAGGATATCGCCAGCAATATTCTCAATATGCTGCGCCAGCGGGTCACCGGCGATTACCTGCAGACCTCGGCCATTCTCGATCGACAGTTCGAGGTGGTGAGCGCGGTCAACGACATCAATGACTATCAGGGGCCGGGCACCGGCTATCGCATCTCCGCCGAACGCTGGGCAGAGATCAAAAATATTCCGGGCGTGGTCCAGCCCGACACCATTGAATAA	MKRSKRFAVLAQRPVNQDGLIGEWPEEGLIAMESPFDPVSSVKVENGRIVELDGKRRDQFDMIDRFIADYAINIERTEQAMRLEALEIARMLVDIHVSREEIIAITTAITPAKAVEVMAQMNVVEMMMALQKMRARRTPSNQCHVTNLKDNPVQIAADAAEAGIRGFSEQETTVGIARYAPFNALALLVGSQCGRPGVLTQCSVEEATELELGMRGLTSYAETVSVYGTEAVFTDGDDTPWSKAFLASAYASRGLKMRYTSGTGSEALMGYSESKSMLYLESRCIFITKGAGVQGLQNGAVSCIGMTGAVPSGIRAVLAENLIASMLDLEVASANDQTFSHSDIRRTARTLMQMLPGTDFIFSGYSAVPNYDNMFAGSNFDAEDFDDYNILQRDLMVDGGLRPVTEAETIAIRQKAARAIQAVFRELGLPPIADEEVEAATYAHGSNEMPPRNVVEDLSAVEEMMKRNITGLDIVGALSRSGFEDIASNILNMLRQRVTGDYLQTSAILDRQFEVVSAVNDINDYQGPGTGYRISAERWAEIKNIPGVVQPDTIE	PGPT0008240_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0008240-dhaB-K06120	NA	NA
BMS020_01991	429			hypothetical protein	ATGAACAAGAGCCAACACATTCAGACTATCACCCTGGCCGCCGCCCAGAAAATGGCGGCGGCAGTGGAGAAAAAAGCCAATGAGATCAACGTAGCGGTGGTATTTTCCGTGGTTGACCGCGGCGGCAACACGCTGCTTGTCCAGCGGATGGACGAAGCCTTTGTTTCCAGCTGCGATATTTCGTTGAATAAAGCCTGGAGCGCCTGCAGCCTGAAACAAGGCACCCATGAAATTACGCCAGCGGTTCAGCCCGGACAATCTCTGTATGGTCTACAGCTGACCAATCAACAGCGAATCATTATTTTTGGCGGCGGCCTGCCGGTTATTTTAAACCAGCAGATAATTGGTGCCGTCGGCGTTAGCGGTGGTACGGTCGAACAGGATCAATTATTAGCCCAGTGCGCCCTGGATTGTTTTTCCGCATTATAA	MNKSQHIQTITLAAAQKMAAAVEKKANEINVAVVFSVVDRGGNTLLVQRMDEAFVSSCDISLNKAWSACSLKQGTHEITPAVQPGQSLYGLQLTNQQRIIIFGGGLPVILNQQIIGAVGVSGGTVEQDQLLAQCALDCFSAL				NA	NA	NA	NA	NA
BMS020_01992	1164	dhaT	COG1454	1,3-propanediol dehydrogenase	ATGAGCTATCGTATGTTTGATTATCTGGTGCCAAACGTTAACTTTTTTGGCCCCAACGCTATTTCCGTGGTCGGTGAACGCTGCAAGCTGCTGGGGGGTAAAAAAGCCCTGCTGGTTACCGACAAAGGCCTGCGGGCGATAAAAGATGGCGCGGTGGATAAAACTCTGCATTATCTGCGGGAGGCCGGCATCGAGGTGGCGATCTTTGACGGCGTCGAGCCGAACCCGAAAGACACCAACGTGCGCGACGGTCTCGCCGTGTTTCGCCGCGAGCAGTGCGACCTTATCGTCACCGTGGGCGGCGGCAGCCCGCACGACTGCGGCAAAGGCATCGGTATCGCCGCCACCCATGAGGGCGATCTTTATCAGTATGCCGGGATTGAGACCCTGACCAACCCGCTGCCGCCCATCGTCGCGGTCAACACCACCGCCGGCACCGCCAGCGAGGTCACCCGCCACTGCGTCCTGACCAACACCCAAACCAAAGTGAAGTTTGTGATCGTCAGCTGGCGCAACCTGCCGTCGGTCTCCATCAACGATCCGCTACTGATGATCGGCAAACCGGCCGCCCTGACCGCGGCGACCGGGATGGATGCCCTTACCCACGCCGTAGAGGCCTATATCTCTAAAGACGCCAACCCGGTGACTGACGCCGCCGCCATGCAGGCGATCCGCCTCATCGCCCGCAACCTGCGCCAGGCCGTCGCCCTCGGCAGCAATCTTCAGGCGCGGGAAAACATGGCCTACGCCTCTCTGCTGGCCGGGATGGCCTTCAATAACGCCAACCTCGGTTATGTGCACGCCATGGCGCATCAGCTGGGCGGGCTGTACGACATGCCGCACGGCGTGGCCAACGCCGTCCTGCTGCCGCACGTGGCTCGCTATAACCTGATCGCCAACCCGGAAAAATTCGCCGATATCGCCGAACTGATGGGCGAAAATATCGCCGGACTGTCGACCCTCGACGCGGCGGAAAAAGCTATCGCCGCCATCGCGCGTCTGTCGATGGATATCGGGATTCCGCAGCATCTGCGCGATCTGGGGGTGAAAGAGGCCGACTTCCCGTACATGGCGGAGATGGCCCTGAAAGACGGCAACGCGTTCTCGAACCCGCGTAAGGGCAACGAGCAGGAGATTGCCGCGATTTTCCGCCAGGCATTCTGA	MSYRMFDYLVPNVNFFGPNAISVVGERCKLLGGKKALLVTDKGLRAIKDGAVDKTLHYLREAGIEVAIFDGVEPNPKDTNVRDGLAVFRREQCDLIVTVGGGSPHDCGKGIGIAATHEGDLYQYAGIETLTNPLPPIVAVNTTAGTASEVTRHCVLTNTQTKVKFVIVSWRNLPSVSINDPLLMIGKPAALTAATGMDALTHAVEAYISKDANPVTDAAAMQAIRLIARNLRQAVALGSNLQARENMAYASLLAGMAFNNANLGYVHAMAHQLGGLYDMPHGVANAVLLPHVARYNLIANPEKFADIAELMGENIAGLSTLDAAEKAIAAIARLSMDIGIPQHLRDLGVKEADFPYMAEMALKDGNAFSNPRKGNEQEIAAIFRQAF	PGPT0006370_551	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006370-yiaY-K13954	NA	NA
BMS020_01993	354			hypothetical protein	ATGTCGCTTTCACCGCCGGGCGTACGCCTGTTTTACGATCCGCGCGGGCACCATGCCTGCGCCATCAATGAGCTGTGCTGGGGGCTGGAGGAGCAGGGGGTCCCCTGCCAGACCGTATCCTGCGACGAAGGCGGTGACGCCGATACGCTGAGCGCCCTGGCGGCCAGAAGCTCGACGCTGCGGGTGGGCATTGGGCTCAGCGCAGCCGGCGAGATCGCGCTAACCCATGCCCAGCTGCCGGCGGACGCGCCGCTGGCGACCGGGCACGTCACCGATAGCCGCGATCATCTGCGTACGCTCGGCGCCAACGCCGGGCAGCTGGTGAAAGTCCTGCCGTTAAGTGAGAGAAGCTGA	MSLSPPGVRLFYDPRGHHACAINELCWGLEEQGVPCQTVSCDEGGDADTLSALAARSSTLRVGIGLSAAGEIALTHAQLPADAPLATGHVTDSRDHLRTLGANAGQLVKVLPLSERS	PGPT0019440_163	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019440-pduD-K13919	NA	NA
BMS020_01994	531	yvqK	COG2096	Corrinoid adenosyltransferase	ATGTACCGTATCTATACCCGCACCGGAGATAAAGGCACCACCGCCCTGTACGGCGGCAGCCGCATCGAGAAAGACCATATTCGCGTCGAGGCCTACGGCACCGTCGATGAACTGATATCCCAGCTGGGCGTCTGCTATGCCACCACCCGCGACGCCGGGCTGCGGGCAAGTCTGCATCAGATTCAGGAGACGCTGTTCGCGCTGGGGGCCGAACTGGCCAGCGATACGCGGGGCCTGGTCCGCCTGAGCCAGACGATCGGCGAGGAGGAGATCACCGCCCTGGAGCGACTTATCGACCGCAATATGGCCGAAAGCGGCCCCCTGAAACAGTTTGTGATCCCGGGGAAGAATCTCGCCTCCGCCCAGCTGCACGTGGCGCGCACCCTGGCCCGTCGGCTGGAACGTCTGCTGACGGCCATGGACCGCTCGCACCCTCTGCGCGACGCGCTCAAACGCTACAGCAATCGTCTGTCGGACGCCCTGTTCTCCATGGCGCGTATCGAGGAGACTAGGCCTGATGCTTGCGCTTGA	MYRIYTRTGDKGTTALYGGSRIEKDHIRVEAYGTVDELISQLGVCYATTRDAGLRASLHQIQETLFALGAELASDTRGLVRLSQTIGEEEITALERLIDRNMAESGPLKQFVIPGKNLASAQLHVARTLARRLERLLTAMDRSHPLRDALKRYSNRLSDALFSMARIEETRPDACA				NA	NA	NA	NA	NA
BMS020_01995	1926	dhaR	COG3284	PTS-dependent dihydroxyacetone kinase operon regulatory protein	ATGACTGTTCAGACTCAGGATACCGGGAAGGCGGTCTCTTCCGTCATCGCCCAGTCATGGCATCGCTGCAGCAAGTTTATGCAGCGCGAAACCTGGCAAAAACCGCACCAGGCCCAGGGCCTGACCTTTGACTCGATCTGTCGGCGTAAAACCGCGCTGCTGACCATCGGTCAGGCGGCGCTGGAGGACGCCTGGGAGTTTATGGACGGTCGCCCCTGCGCGCTGTTTATCCTTGATGAGACCGCCTGTATTCTGAGCCGCTGCGGCGAACCGCAAACGCTGGCGCAGCTGGCTGACCTGGGGTTTCGCGACGGCAGCTACTGCGCGGAGAGCATTATCGGCACCTGCGCGCTGTCGCTGGCCGCGATGCAGGGGCAGCCGATCAACACCGCCGGCGATCGGCATTTTAAGCAGGCCCTGCAGCCATGGAGCTTTTGTTCGACGCCGGTGTTCGATAACCACGGGCGGCTGTTCGGCTCTATCTCGCTTTGCTGTCTGATGGAGCACCAGTCCAGCGCCGACCTCTCCCTGACGCTGGCCATCGCCCGCGAGGTGGGCAATTCCCTGCTCACCGACAGCCTGCTGGCGGAATCCAACCGCCACCTCAATCAAATGTACGGCCTGCTGGAGAGCATGGACGACGGGGTGATGGCGTGGAACGAACAGGGGGTACTGCAATTTCTCAATGTTCAGGCGGCGAGACTGCTGCATCTTGATGCCCAGGCCAGCCAGGGAAAAAATATCGCCGATCTGGTGACCCTGCCGGCGCTGCTGCGCCGCGCCATCAAACACGCCCGCGGCCTGAATCACGTTGAAGTCACCTTTGAAAGCCAGCACCAGTTTATCGACGCGGTGATCACCTTAAAACCGATTGTCGAGTCGCAAGGCAACAGCTTTATTCTGCTGCTGCACCCGGTGGAGCAGATGCGGCAGCTGATGACCAGCCAGCTGGGCAAAGTCAGCCACACCTTTGAGCAGATGTCAGCCGACGATCCGGAAACCCGGCGGCTGATCCACTTTGGCCGCCAGGCGGCGCGCGGCGGCTTTCCGGTACTGCTGTGCGGTGAAGAGGGGGTGGGGAAAGAACTGCTGAGCCAGGCCATCCACAATGAAAGCGAGCGGGCGGGCGGCCCCTACATCGCCGTCAACTGCCAACTGTATGCCGACAGCGTGCTGGGCCAGGACTTTATGGGGAGCGCCCCCACCGATGATGAAAATGGCCGCCTGAGCCGCCTTGAGCTGGCCAACGGCGGCACCCTGTTTCTGGAAAAAATTGAGTATCTGGCGCCGGAGCTGCAGTCCGCCCTGCTGCAGGTGATTAAGCAGGGAGTGCTTACCCGCCTCGACGCCCGACGCCTGATCCCGGTGGATGTGAAGGTGATCGCCACCACCACCGTCGATCTGGCCAACCTGGTGGAACAGAACCGCTTTAGCCGCCAGCTGTACTATGCGCTGCACTCTTTCGAGATCGTCATTCCGCCGCTGCGCGCCCGGCGCAACAGTATCCCGTCGCTGGTGCATAACCGGCTGAAAAGCCTGGAGAAGCGTTTCTCTTCCCGGCTGAAAGTGGACGATGACGCGCTGGCCCAGCTGGTGGCCTACTCGTGGCCGGGAAATGATTTTGAGCTTAACAGCGTGATAGAGAACATCGCCATCAGCAGCGATAACGGCCACATTCGCCTGAGCAACCTGCCGGAATATCTCTTTTCCGATCGGCCGGGGGCCGATAGCGGCTCATCGCTGCTGCCGGCCAGCCTGACCTTTAGCGCCATCGAAAAAGAGGCCATCATCCACGCCGCCCGGGTGACCAGCGGGCGGGTGCAGGAGATGTCGCAACTGCTGAATATCGGCCGCACCACCCTGTGGCGCAAAATGAAGCAGTACGATATCGACGCCAGCCAGTTCAAGCGCAAGCATCAGGCCTAG	MTVQTQDTGKAVSSVIAQSWHRCSKFMQRETWQKPHQAQGLTFDSICRRKTALLTIGQAALEDAWEFMDGRPCALFILDETACILSRCGEPQTLAQLADLGFRDGSYCAESIIGTCALSLAAMQGQPINTAGDRHFKQALQPWSFCSTPVFDNHGRLFGSISLCCLMEHQSSADLSLTLAIAREVGNSLLTDSLLAESNRHLNQMYGLLESMDDGVMAWNEQGVLQFLNVQAARLLHLDAQASQGKNIADLVTLPALLRRAIKHARGLNHVEVTFESQHQFIDAVITLKPIVESQGNSFILLLHPVEQMRQLMTSQLGKVSHTFEQMSADDPETRRLIHFGRQAARGGFPVLLCGEEGVGKELLSQAIHNESERAGGPYIAVNCQLYADSVLGQDFMGSAPTDDENGRLSRLELANGGTLFLEKIEYLAPELQSALLQVIKQGVLTRLDARRLIPVDVKVIATTTVDLANLVEQNRFSRQLYYALHSFEIVIPPLRARRNSIPSLVHNRLKSLEKRFSSRLKVDDDALAQLVAYSWPGNDFELNSVIENIAISSDNGHIRLSNLPEYLFSDRPGADSGSSLLPASLTFSAIEKEAIIHAARVTSGRVQEMSQLLNIGRTTLWRKMKQYDIDASQFKRKHQA	PGPT0008260_77	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0008260-dhaR|acoR-K05880	NA	NA
BMS020_01996	1098	dhaD		Glycerol dehydrogenase	ATGCTAAAAGTTATTCAATCTCCAGCCAAATATCTTCAGGGTCCTGATGCTGCTGTCCTGTTCGGCCAATATGCCAAAAACCTGGCGGAGAGCTTCTTCGTCATCGCTGACGACTTCGTGATGAAGCTGGCGGGGGAGAAAGTGGTGAATGGCCTGCAGAGTCACGATATTCGCTGCCATGCGGAACGGTTTAACGGCGAATGCAGCCATGCGGAAATTAACCGCCTGATGGCGATTTTGCAAAAACAGGGCTGCCGCGGCGTGGTTGGCATCGGCGGCGGTAAAACCCTCGATACCGCGAAAGCGATCGGTTACTACCAGAAGCTGCCGGTGGTGGTGATCCCGACTATCGCTTCGACCGATGCGCCGACCAGCGCGCTGTCGGTGATCTACACCGAAGCGGGCGAGTTTGAAGAGTATCTGATCTATCCGAAAAACCCGGATATGGTGGTGATGGACACGGCGATTATCGCCAAAGCGCCGGTACGCCTGCTGGTCTCCGGCATGGGCGATGCGCTCTCCACCTGGTTTGAGGCCAAAGCCTGCTACGATGCGCGCGCCACCAGCATGGCCGGGGGGCAGTCCACCGAGGCGGCGCTGAGTCTGGCCCGCCTGTGCTATGATACGCTGCTGGCGGAGGGCGAAAAGGCCCGTCTGGCGGCGCAGGCCGGGGTGGTGACCGAAGCGCTGGAGCGCATCATCGAAGCGAACACCTACCTCAGCGGCATTGGCTTTGAAAGCAGCGGCCTGGCCGCCGCCCACGCGATCCACAACGGTTTCACCATTCTGGAAGAGTGCCATCACCTGTATCACGGCGAGAAAGTGGCCTTCGGCACCCTGGCGCAGCTGGTGCTGCAGAACAGCCCGATGGACGAGATTGAAACCGTGCTGGGCTTCTGCCAGCGCGTCGGCCTGCCGGTGACCCTCGCGCAGATGGGCGTCAAAGAGGGGATCGACGCGAAAATCGCCGCGGTGGCGAAAGCCACCTGCGCGGAAGGGGAAACCATCCACAATATGCCGTTTGCGGTGACCCCGGAGAGCGTGCACGCCGCTATCCTCACCGCCGATCTGTTAGGCCAGCAGTGGCTGGCGCGTTAA	MLKVIQSPAKYLQGPDAAVLFGQYAKNLAESFFVIADDFVMKLAGEKVVNGLQSHDIRCHAERFNGECSHAEINRLMAILQKQGCRGVVGIGGGKTLDTAKAIGYYQKLPVVVIPTIASTDAPTSALSVIYTEAGEFEEYLIYPKNPDMVVMDTAIIAKAPVRLLVSGMGDALSTWFEAKACYDARATSMAGGQSTEAALSLARLCYDTLLAEGEKARLAAQAGVVTEALERIIEANTYLSGIGFESSGLAAAHAIHNGFTILEECHHLYHGEKVAFGTLAQLVLQNSPMDEIETVLGFCQRVGLPVTLAQMGVKEGIDAKIAAVAKATCAEGETIHNMPFAVTPESVHAAILTADLLGQQWLAR	PGPT0008270_571	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0008270-gldA|dhaD-K00005	NA	NA
BMS020_01997	1071	dhaK_1	COG2376	PEP-dependent dihydroxyacetone kinase, dihydroxyacetone-binding subunit DhaK	ATGAAAAAGCTGATTAACCGTGTTGAAGATGTACTGAATGAACAATTACAGGGGCTGGCTAAAGCCCACCCGCAGCTGACCCTGCACCAGGACCCGCTGTACGTCACCCGCGCCGACGCGCCGGTAGCCGGCAAGGTCGCCCTCCTCTCCGGCGGCGGCAGCGGCCATGAGCCGATGCACTGCGGCTATATCGGCCAGGGGATGCTCTCTGGCGCCTGCCCGGGGGAAATCTTCACCTCGCCGACGCCGGATAAAATGTTCGAATGCGCGATGCAGATTGACGGCGGCGAAGGCGTCCTGCTGATTATCAAAAACTACACCGGCGACATCCTGAACTTCGAAACCGCCACCGAGCTGCTGCATGAGAGCGGCATAAAAGTCACCACCGTGGTGGTCGACGACGACGTGGCGGTGAAAGACAGTCTCTATACCGCAGGCCGCCGCGGCGTCGCCAATACCGTTCTGATCGAAAAACTGGTCGGCGCCGCCGCCGAGCGCGGCGATTCGCTGGAGGCCTGCGCTGAACTGGGGCGCCGCCTGAATAATCTCGGCCACTCCATTGGCATCGCCCTCGGCGCCTGCACCGTACCGGCCGCCGGACAACCCTCCTTTACCCTGCAGGACGATGAAATGGAGTTCGGCGTCGGCATTCACGGCGAGCCGGGCATCGACCGCCGTCGCTTCAGCTCGCTGGACCAAACCGTCGATGAGATGTTCGATACCCTGCTGGAGAATGGCGCCTACAGCCGCACGCTGCGCCAGTGGGATACCGTTAAGGGCGCGTGGCAGGAAGTGAAGCAGAGCAAAACCGCGCTACAAAACGGCGACCGGGTCATCGCCATGGTCAATAACCTCGGCGCCACGCCGCTGTCCGAACTGTACGGCGTCTATCACCGGCTCGCCCAGCGCTGTGAAGCGTCCGGCATCATCATCGAACGCAACCTCGTCGGCAGCTACTGCACCTCGCTGGATATGGCGGGCTTCTCCATCACCCTGCTGAAAGCGGATGATGAGACGCTGGCGCTATGGGACGCCCCGGTTCATACCCCGGCGCTGAACTGGGGAAACTAA	MKKLINRVEDVLNEQLQGLAKAHPQLTLHQDPLYVTRADAPVAGKVALLSGGGSGHEPMHCGYIGQGMLSGACPGEIFTSPTPDKMFECAMQIDGGEGVLLIIKNYTGDILNFETATELLHESGIKVTTVVVDDDVAVKDSLYTAGRRGVANTVLIEKLVGAAAERGDSLEACAELGRRLNNLGHSIGIALGACTVPAAGQPSFTLQDDEMEFGVGIHGEPGIDRRRFSSLDQTVDEMFDTLLENGAYSRTLRQWDTVKGAWQEVKQSKTALQNGDRVIAMVNNLGATPLSELYGVYHRLAQRCEASGIIIERNLVGSYCTSLDMAGFSITLLKADDETLALWDAPVHTPALNWGN	PGPT0018460_190	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018460-dhaK|dak-K05878	NA	NA
BMS020_01998	633	dhaL	COG2376	PEP-dependent dihydroxyacetone kinase, ADP-binding subunit DhaL	ATGTCACTGAACAGAACGCAAATCGTCGACTGGCTGTACCGCTGCGGCGATATCTTCACCAAAGAGAGCGATTTTCTCACCGGCCTCGATAAAGAGATCGGCGATGCCGACCACGGCCTGAATATGCACCGCGGGTTCAGCAAGGTGGTGGAAAAGCTGCCGTCGATTGCCGATAAAGATATTGGCTTTATCCTCAAAAACACCGGCATGACGCTGCTCTCCAACGTCGGCGGCGCCAGCGGCCCGCTGTTCGGCACCTTCTTCATTCGCGCCGCGCAGGTCACTCAGGCCCACCAGAGCCTGACCCTCGACGAACTGTACCTGATGATCCGCGACGGCGCGGACGGCGTCGTCAACCGCGGTAAAGCGGAGCCAGGGGATAAAACCATGTGCGACGTCTGGCTGCCGGTAGTGGACTCCCTGCGCCAGTCCAGCGAGCAGCATCTGTCGATCGCCGCCGCGCTGGATGCCGCCTGCAAAGCAGCGGAGGCCGGCGCCCACAGCACCATCACCATGCAGGCGCGCAAAGGCCGCGCCAGCTACCTTGGCGAACGCAGCATCGGCCATCAGGATCCGGGCGCCACGTCAGTGATGTTTATGATGCAGATGCTGGCCGCCGCGGCCAAAGAGTAA	MSLNRTQIVDWLYRCGDIFTKESDFLTGLDKEIGDADHGLNMHRGFSKVVEKLPSIADKDIGFILKNTGMTLLSNVGGASGPLFGTFFIRAAQVTQAHQSLTLDELYLMIRDGADGVVNRGKAEPGDKTMCDVWLPVVDSLRQSSEQHLSIAAALDAACKAAEAGAHSTITMQARKGRASYLGERSIGHQDPGATSVMFMMQMLAAAAKE	PGPT0018455_876	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018455-dhaL-K05879	NA	NA
BMS020_01999	1422	dhaM	COG1080	PEP-dependent dihydroxyacetone kinase, phosphoryl donor subunit DhaM	ATGGTAAACCTGGTTATTGTTTCTCATAGCGCCCGGCTGGGCGAAGGTGTCGGAGAACTGGCCCGGCAGATGTTAATCAACGACGGCTGCAAGCTGGCGATCGCCGCCGGGATCGACGATCCCGACAGCCCGATCGGCACCGATCCGATCAAGGTCATGGAAGCGATCGAATCCGTCGCCGATACCGACCACGTGCTGGTGATGATGGATATCGGCAGCGCATTGCTTAGCGCCGAAACCGCCCTCGACCTGCTCGATCCGGCGATTGCCGCGAAGGTGCGGCTATGCGCCGCGCCGCTGGTGGAGGGGACGCTGGCGGCCACCGTCAGCGCCGCCTCCGGCGCCGGGATCGACAAAGTGATCGCCGACGCCATGAACGCTCTGGAGGCCAAACGGATCCAGCTGGGTTTACCTTCGCCAACCCCTGACGCCGCCCCGGCGCCGACGCTTGCCGACGATGGCGACAGCAAGTCGCTTGCAGTCGTCATACAGAACCACAACGGCCTGCACGTGCGTCCGGCGTCGAAGCTGGTCGCCGCGCTGGCGGGCTTTAACGCCGATCTGCTGCTGGAGAAAAACGGGAAGTGCGTCAAACCGGACAGCCTCAACCAAATCGCCCTGCTGCAGGTGAGGCGCAACGATAAGCTGCGCCTGCTGGCCCGCGGGCCAGAGGCCGATGCGGCGCTGGCGGCGTTTCAGGCGCTGGCCGCCGATAACTTCGGCGAATCGCCTGCGGCGCAACCGGCAGCGGCCCCGGCCGCCCCCGAGCGCGTCGAAGGCATCGCGCTGCGCTATCCGCTGGCCCTGATCCAGCCGGTCCGCCCGGCCGCCGCCGATGTCGCCCGCGAACAGCAGCGACTGCGCCGGGCTATCGACCAGACGCTGGCGGATCTCACTGCCCTGACCGAGCTGGCGGAGAATAAATTTAACGCCGATATCGCGGCGATTTTCGCCGGGCACCACACCCTGCTCGACGATGAGGATCTGTTTGATGCCGCCAACGATCGTCTGCTCACCGAGCCGTGCTCGGCGGAATGGGCGTGGCATCAGGTGCTGATGGAGCTCAGCCAGCAGTATCGCCAGCTGGATGACCCCTATCTCCAGGCGCGCTATATCGATATCGAAGATATTCTGCAGCGCACCCTGCGCCATCTGCAGGACGTGCAGGAAACGCTGCCGATGCCCGGCGAGCCGACCATTATTATCGCCGACAACATGTTCCCGTCGGCGGTCCTGCAACTGGATGCCAGCCGCGTGAAAGGCCTGTGCCTGCGCGACGGCAGCGAACAGGCCCACGGCGCGATTATCGCCCGCGCGGCGGGGATCGCCTGGCTATGTCAGCAGGGCGAGGCGCTGAACAGCGTGCAGCCCGGCGAGCCCATCGCGCTCGATATGCGCCGCCAGCGCCTTATCCGTCACTAA	MVNLVIVSHSARLGEGVGELARQMLINDGCKLAIAAGIDDPDSPIGTDPIKVMEAIESVADTDHVLVMMDIGSALLSAETALDLLDPAIAAKVRLCAAPLVEGTLAATVSAASGAGIDKVIADAMNALEAKRIQLGLPSPTPDAAPAPTLADDGDSKSLAVVIQNHNGLHVRPASKLVAALAGFNADLLLEKNGKCVKPDSLNQIALLQVRRNDKLRLLARGPEADAALAAFQALAADNFGESPAAQPAAAPAAPERVEGIALRYPLALIQPVRPAAADVAREQQRLRRAIDQTLADLTALTELAENKFNADIAAIFAGHHTLLDDEDLFDAANDRLLTEPCSAEWAWHQVLMELSQQYRQLDDPYLQARYIDIEDILQRTLRHLQDVQETLPMPGEPTIIIADNMFPSAVLQLDASRVKGLCLRDGSEQAHGAIIARAAGIAWLCQQGEALNSVQPGEPIALDMRRQRLIRH	PGPT0018450_97	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018450-dhaM-K05881	NA	NA
BMS020_02000	1650	dhaK_2		Dihydroxyacetone kinase	ATGTCTCAATTCTTTTTTAACCAGCGCGCCAGCCTCGTCAACGATGTGATTGAGGGAACCATCATCGCCAGTCCGTGGAACAACCTCGCCCGGCTGGAGAGCGACCCGGCGATCCGGGTGGTGGTCCGTCGCGACCTGAATAAAAACAACGTGGCGGTGATCGCCGGCGGCGGCGCCGGCCACGAACCGGCGCACGTCGGCTTTATTGGTAAAGGCATGCTGACCGCCGCGGTTTGTGGCGATCTGTTCGCCTCGCCGAGCGTCGACGCGGTGCTTACCGCCATTCAGGCGGTGACCGGCGAGGCGGGCTGCCTGCTGATCGTAAAAAACTATACCGGCGACCGGCTGAACTTCGGCCTCGCGGCGGAGAAAGCGCGCCGTCTCGGCTACAACGTGGAAATGCTGATCGTCGGCGACGACATTTCGCTGCCGGAAAACAAACAGCCGCGCGGCATCGCCGGTACGCTGTTCGTCCATAAGGTGGCGGGCTATTTTGCCGAGCGCGGCTGCAATCTCGCCACCGTTCTGCGCGAAGCGCAGTATGCCGCCAACCACACCGCCAGCATCGGGGTGGCGCTGGCCAGCTGCCATCTGCCGCAGGAGGCGGACAGCGCGCCGCGCCATCAGGCCGGCCATGCCGAGCTGGGAATGGGCATCCACGGCGAACCTGGCGCCTCCACCATCGCCACGCAAAACAGTGCGGACATCGTCAACCTGATGGTGGAAAAACTGACCGCTGCCCTGCCGGAAACCGGCCGTCTGGCGGTGATGCTCAATAACCTCGGCGGCGTGTCGGTGGCCGAAATGGCGATCCTGACCCGCGAACTGGCCAACACGCCGCTGCAGGCGCGCGTTGACTGGCTGATTGGCCCGGCCTCGCTGGTGACGGCCCTGGATATGAAGGGTTTCTCGCTGAGCGCCATCGTGCTGGAAGAGAGTATTGAGAAAGCGCTGCTGGCGGATGTGGAAACCGCCGGCTGGCCGCGGCCGGTGCAGCCGCGGACGGTTAACATCATGCCGTCCACTCTCGCCAGCCCGCGCGTCGACTTTACGCCTTCGGCCAACCCGCAGGTGGGTGATTACGTGGCCCAGGTGACCGGCACCCTCGTCGGGCTTGAAGACCATCTCAACGCGCTGGATGCCAAAGTGGGCGATGGCGATACCGGCTCCACCTTCGCCGCCGGGGCGCGTGAGATTGCCGACCTGCTGCAGCGCCAGCAGCTGCCGCTGAACGATCTGCCCACGCTGTTCGCGCTCACGGGCGAACGCCTGACGGTGGTGATGGGCGGCTCCAGCGGGGTATTGATGTCGATCTTCTTCACCGCTGCCGGGCAGAAGCTGGGGCACGGCGCCAGCGTGGCCGAGGCGCTGAACGCCGGTCTGGAGCAGATGAAATTTTACGGCGGCGCCGAGGAAGGCGACCGGACAATGATCGACGCGCTGCAGCCAGCGCTGGCGGCGCTGCTCGCCGAACCGGAGAACCTGCAGGCCGCTTTTGCCGCGGCGCAGGCCGGCGCGGATCGCACTTGCCAGTCGGGCAAAGCCGGCGCCGGACGAGCGTCCTATCTCAACAGCGACAGCCTGCTCGGCAACATGGACCCCGGCGCCCACGCGGTGGCGATGGTGTTTAAAGCGCTGGCGGAACGATAA	MSQFFFNQRASLVNDVIEGTIIASPWNNLARLESDPAIRVVVRRDLNKNNVAVIAGGGAGHEPAHVGFIGKGMLTAAVCGDLFASPSVDAVLTAIQAVTGEAGCLLIVKNYTGDRLNFGLAAEKARRLGYNVEMLIVGDDISLPENKQPRGIAGTLFVHKVAGYFAERGCNLATVLREAQYAANHTASIGVALASCHLPQEADSAPRHQAGHAELGMGIHGEPGASTIATQNSADIVNLMVEKLTAALPETGRLAVMLNNLGGVSVAEMAILTRELANTPLQARVDWLIGPASLVTALDMKGFSLSAIVLEESIEKALLADVETAGWPRPVQPRTVNIMPSTLASPRVDFTPSANPQVGDYVAQVTGTLVGLEDHLNALDAKVGDGDTGSTFAAGAREIADLLQRQQLPLNDLPTLFALTGERLTVVMGGSSGVLMSIFFTAAGQKLGHGASVAEALNAGLEQMKFYGGAEEGDRTMIDALQPALAALLAEPENLQAAFAAAQAGADRTCQSGKAGAGRASYLNSDSLLGNMDPGAHAVAMVFKALAER	PGPT0018465_533	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018465-dhaK_2-K00863	NA	NA
BMS020_02001	777	yqjH_1	COG2375	NADPH-dependent ferric-chelate reductase	ATGATGACAAAAACCAAAGCAGACAAGTACCCGCAGCGTGTCCGCAATGAGCTGCGTTTCCGTGAGCTGACGGTGCTGCGCGTGGAGCGCGCAGGCGCGGCTTTCCAGCGCATCGTGCTGGGAGGCGAGGCGCTGGAAGGTTTCGTTTCCCGCGGCTTTGACGACCACACCAAGCTTTTCTTCCCGGAGCCGGGCGCGGCGTTTGCCCCGCCGCAGGTGACCGAGGAGGGGATTGACTGGGGCGAGGGCGTGCGGCCTGCTACCCGCGACTATACGCCGCTGTACGATGCCGAACGCCATGAGCTGGCGTACGACTTCTTTATCCACGACGGCGGAATCGCCAGCCGCTGGGCGCTGGAGGCAAAAGCGGGCGATAAGCTGGTGATCGGCGGTCCGCGCGGCTCGCTGGTGGTGCCGGAGGATTACGCCTGGCAACTGTATTTCTGCGATGAGTCCGGTATGCCGGCGCTGCGTCGTCGTCTGCTGGGTTTGCGTCAGCTGGCGGTGACGCCGCAGGTGACGGCCATCGTCACTATCGCCGATGCGTCATATAAAGATTATCTGGCGGACCTCGACGGCTTTAACATCGAGTGGGTGGTGGGCCACCATCCGGCGTTCGTCGCCGAGCGTCTGGCGCAGGTGAAGGTGCCGGCGGAGGATTATTTCATCTGGCTGACCGGCGAAGGCGCGGTGGTGAAATCGCTGCTGGCGCGCTTTGAGGATGAGAGCATCGATCAGCAGCTGGTGCGCTCGCAGGCGTACTGGCACAGCAAGTAA	MMTKTKADKYPQRVRNELRFRELTVLRVERAGAAFQRIVLGGEALEGFVSRGFDDHTKLFFPEPGAAFAPPQVTEEGIDWGEGVRPATRDYTPLYDAERHELAYDFFIHDGGIASRWALEAKAGDKLVIGGPRGSLVVPEDYAWQLYFCDESGMPALRRRLLGLRQLAVTPQVTAIVTIADASYKDYLADLDGFNIEWVVGHHPAFVAERLAQVKVPAEDYFIWLTGEGAVVKSLLARFEDESIDQQLVRSQAYWHSK	PGPT0004045_75	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS,PGPT0004045-ygjH-K07229	NA	NA
BMS020_02002	555	yqjI_1	COG1695	Transcriptional regulator YqjI	ATGCGACATCATCATGAAGACGGGCGTGGGCCGCGCGGGCGCCACGGTGACCCCAGCGAACACGGCGACCATGGCCGTCGCGGCGGCGGACGTCGCCAGCGTTTCTTTGGCCACGGCGAACTGCGGCTGATTATTCTGGACATCCTTAGCCGCAGCGCCAGCCACGGCTATGAGCTGATCAAAGAGATCGAAACCCTCACCCAGGGGAACTACAGTCCCAGCCCGGGGGTGATCTACCCGACGCTGGATCTGCTCCAGGACCAGGGTCTCATCAGCGTGGAAGACGACAACGGACGCAAAAAAATCGTCATCAGCGAAGAGGGGAAACAGCTGCACGCGGAGAACCAGGAGCATCTGTCCCATATCCAGGAGCGTCTGCAGGCGCGGATGGTCGGCTGCGAGCTGCGCCGCGATCCGCAGATGAAGCGCGCGCTGGAGAATTTCAAAGCGGTCCTCGACCTGAAAGTGAACCAGCAGGCCAGCAGCGCCGCCCAGCTCAAGCAGATCATCGGCATTATCGACCGGGCGGCGATGGAGATCTCCCAGCTCGACTAA	MRHHHEDGRGPRGRHGDPSEHGDHGRRGGGRRQRFFGHGELRLIILDILSRSASHGYELIKEIETLTQGNYSPSPGVIYPTLDLLQDQGLISVEDDNGRKKIVISEEGKQLHAENQEHLSHIQERLQARMVGCELRRDPQMKRALENFKAVLDLKVNQQASSAAQLKQIIGIIDRAAMEISQLD				NA	NA	NA	NA	NA
BMS020_02003	1380	patA	COG4992	Putrescine aminotransferase	TTGAACAGGTTACCTTCCAGCGCATCGGCTCTGGCCTGCAGCGCACACGCACTGAATCTCATTGAAAAGCGCACGCTTGACCATGAGGAAATGAAAGCACTTAACCAGGAGGTCAGAGAATACTTTAAAGAGCATGTGAATCCGGGGTTTTTAGAGTATCGAAAATCGGTCACAGCCGGCGGGGATTACGGAGCCGTAGAGTGGCAAGCGGGAGGGTTAAATACGCTTGTCGACACCCAGGGACAGGAGTTTATCGACTGCCTTGGCGGGTTTGGCATCTTCAATGTAGGGCACCGTAATCCAGTTGTGGTATCCGCCGTCGAGAATCAACTCGCGAAACAACCGCTTCACAGTCAGGAACTGCTGGATCCGCTACGCGCGATGCTGGCGAAAACCCTGGCGGCCTTAACGCCCGGCAAACTGAAGTACAGCTTCTTCTGCAACAGCGGTACCGAATCGGTAGAGGCGGCCATCAAGCTGGCGAAAGCCTATCAGTCGCCGCGCGGTAAATTCACCTTCATCGCCACCAGCGGCGCCTTCCACGGCAAATCGCTGGGCGCGCTGTCGGCCACCGCCAAGTCGACTTTCCGCAAACCGTTTATGCCGCTGCTGCCGGGCTTCCGCCATGTGCCGTTCGGCGATATCAACGCCATGCGCACTATGCTGAGCGAGTGCAAGAAAACCGGCGACGACGTCGCGGCGGTGATCCTTGAGCCGATTCAGGGCGAAGGGGGCGTGATCCTGCCGCCGACGGGGTATTTGCCGGCGGTGCGTAAGCTGTGCGACGAGTTTGGCGCCCTGCTGATCCTCGACGAAGTGCAGACCGGCATGGGCCGCACTGGCAAGATGTTCGCCTGCGAGCATGAGAACGTTCAGCCCGACATTCTGTGTCTGGCGAAAGCGCTCGGCGGCGGCGTGATGCCGATCGGCGCGACGGTGGCGACGGAAGAGGTCTTCTCGGTGCTGTTCGACAACCCGTTCCTGCACACCACGACCTTCGGCGGCAACCCGCTGGCCTGTGCGGCGGCGCTGGCGACCATCAACGTGCTGTTGACGCAAAACCTGCCGGCGCAGGCGGCGCAGAAAGGCGATATGCTGCTGGACGGTTTCCGCCTGCTGGCGCAGGAGTATCCGGACCTGGTGAATGAAGTACGCGGGAAAGGCATGCTGATGGCCATCGAGTTTGTCGATAACGAGATTGGCTACGACTTTGCCAGCGAGATGTTCAGACAGCGGGTGCTGGTCGCCGGGACGTTAAATAACGCCAAGACGATCCGCGTTGAACCGCCGCTGACGCTCACCCTTGAGCAGTGCGAGCAGGTGCTGAAGGCGGCGCGTAAGGCGCTGGCGGCCTTGCGCGTCTCGGTTGAAGAGGCGTAA	MNRLPSSASALACSAHALNLIEKRTLDHEEMKALNQEVREYFKEHVNPGFLEYRKSVTAGGDYGAVEWQAGGLNTLVDTQGQEFIDCLGGFGIFNVGHRNPVVVSAVENQLAKQPLHSQELLDPLRAMLAKTLAALTPGKLKYSFFCNSGTESVEAAIKLAKAYQSPRGKFTFIATSGAFHGKSLGALSATAKSTFRKPFMPLLPGFRHVPFGDINAMRTMLSECKKTGDDVAAVILEPIQGEGGVILPPTGYLPAVRKLCDEFGALLILDEVQTGMGRTGKMFACEHENVQPDILCLAKALGGGVMPIGATVATEEVFSVLFDNPFLHTTTFGGNPLACAAALATINVLLTQNLPAQAAQKGDMLLDGFRLLAQEYPDLVNEVRGKGMLMAIEFVDNEIGYDFASEMFRQRVLVAGTLNNAKTIRVEPPLTLTLEQCEQVLKAARKALAALRVSVEEA	PGPT0007155_224	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007155-patA1-K09251	NA	NA
BMS020_02004	297	lsrG	COG1359	(4S)-4-hydroxy-5-phosphonooxypentane-2,3-dione isomerase	ATGAATGTGACGCTGGTGGAGATCAATATCAAACCCGAGCGGGTGGATGAGTTTCTCGAGGTGTTCCGCGCCAACCACGAAGGGGCGCTGCGGGAGCCGGGCAACCTGCGCTTTGATGTCCTGCAGGATCCGGAGGTGAAGACCCGCTTTTTTATCTACGAAGCCTATAAAGACGATGAAGCGGTGCTGGCGCACAAGAAGACCCCGCACTATTTAGCCTGCGTCGAAAAGCTGGAAGAGATGATGTCGCAGCCGCGGCAGAAGCGCAGCTTTATCGGCCTGCTACCGCAGGTGTGA	MNVTLVEINIKPERVDEFLEVFRANHEGALREPGNLRFDVLQDPEVKTRFFIYEAYKDDEAVLAHKKTPHYLACVEKLEEMMSQPRQKRSFIGLLPQV	PGPT0025515_212	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_PERCIPITATION|SIGNALLING,PGPT0025515-lsrG-K11530	NA	NA
BMS020_02005	888	lsrF_1	COG1830	3-hydroxy-5-phosphonooxypentane-2,4-dione thiolase	ATGGCTGATTTAGACGATATCAAAGAGGGCAAGGACTTCGGCCTCGACCGCCCGCAGCAGAACACGCTGTATACCCTGAAAGGCTGCGGCTCGCTGGACTGGGGCATGCAGTCGCGGCTGGCGCGCATTTTTAATCCGCACAGCAACCGCACGGTCATGCTGGCCTTCGATCACGGTTACTTCCAGGGACCCACCACCGGGCTGGAGCGCATCGATCTCTCTATCGCGCCGCTGTTCGAGGAAACCGACGTGCTGATGTGCACCCGCGGCGTACTGCGCAGTCAGGTGCCGGCCGCGACCAACAAACCGGTGGTGCTGCGCGCCTCCGGCGGCAACTCGATCCTCAGCGAACTTTCCAACGAGTGCGTGGCGGTGGCGATGGAAGATGCGCTGCGCCTGAACGTCTGCGCAGTGGCGGCGCAGGTCTATATCGGCAGCCAATACGAACATCAGTCGATCAACAACATCATCAAACTGGTGGACGCCGGCAACCGCTACGGTATGCCGGTACTGGCGGTGACCGGCGTCGGCAAAGAGATGACCCGCGATGCGCGCTACTTCTCGCTGGCCAGCCGGATTGCCGCCGAAATGGGGGCGCAGTTTGTGAAGACCTATTTCGTTGAGGAAGGCTTTGAAAAAGTGACCGCCAGCTGCCCGGTGCCGATCGTCATCGCCGGGGGGAAAAAGCTGCCGGAGCATGAGGCGCTGGAGATGTGCTGGCGGGCGATCGACCAGGGGGCGTCCGGGGTGGATATGGGGCGCAATATCTTCCAGTCCAGCGCCCCGCGCGCAATGCTGAAGGCGGTGAAAAAGGTGGTGCATGAGAATCTGAACGCGCGCGAAGCGTACCAGTTCTGGCAGGAAGAGAAACAGGGAGAGCGGAAATGA	MADLDDIKEGKDFGLDRPQQNTLYTLKGCGSLDWGMQSRLARIFNPHSNRTVMLAFDHGYFQGPTTGLERIDLSIAPLFEETDVLMCTRGVLRSQVPAATNKPVVLRASGGNSILSELSNECVAVAMEDALRLNVCAVAAQVYIGSQYEHQSINNIIKLVDAGNRYGMPVLAVTGVGKEMTRDARYFSLASRIAAEMGAQFVKTYFVEEGFEKVTASCPVPIVIAGGKKLPEHEALEMCWRAIDQGASGVDMGRNIFQSSAPRAMLKAVKKVVHENLNAREAYQFWQEEKQGERK	PGPT0025495_47	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_TRANSPORT,PGPT0025495-lsrF-K08321	NA	NA
BMS020_02006	1014	lsrB_1		Autoinducer 2-binding protein LsrB	ATGAAAACCAAACGAATCCTCCAGACGAGCGTCCTGGCGCTGGCGTTAAGCGTGGCAACCGCCCAGGCGGCGGACCGCATCGCCTTTATACCTAAGCTGGTCGGCGTGGGCTTCTTTACCAGCGGCGGCAACGGCGCGAAAGAGGCGGGGAAAGCGCTGGGCGTGGATGTCACCTATGACGGCCCCACCGAGCCCAGCGTCTCCGGCCAGGTGCAGCTTATCAACAACTTCGTCAACCAGGGCTACAACGCGATTATCGTCTCCGCCGTCTCGCCGGACGGCCTGTGTCCGGCGCTGAAGCGGGCGATGCAGCGCGGGGTGAAGGTCCTGACCTGGGATTCCGATACCAAACCGGAGTGCCGCAGCATCTATATCAATCAGGGCACGCCGCAGCAGCTCGGCGGCCTGCTGGTGGAGATGGCGAAAAAGCAGGTGACCAGGCCCGCTGCCAAAGTGGCGTTTTTCTACTCCAGCCCGACGGTGACCGACCAGAACCAGTGGGTGAAGGAAGCCAAAGCCAAAATCGAAAAAGAACATCCGCAGTGGCAAATCGTCACCACCCAGTTCGGCTATAACGATGCCACCAAATCGCTGCAAACCGCCGAGGGGATCTTAAAAGCGTATCCCGATCTTGACGCCATTATCGCGCCGGATGCCAATGCCCTGCCGGCGGCGGCGCAGGCGGCGGAAAACCTCAAGCGCCAGGGCGTGGCGATCGTCGGCTTTAGTACCCCCAACGTGATGCGCCCGTACGTGGAGCGCGGCACGGTGAAAGCCTTTGGCCTGTGGGATGTGGTTCAGCAGGGCAAAATTGCGGTTAACGTCGCCGATCGTCTGCTGAAAAAGGGCGATCTTAACGTCGGCGACAGCGTTGAGGTGAAAGATATCGGCTCGCTGAAGGTCGAATCGAACAGCGTGCAAGGCTACCAGTATGAGGCGAAGGGCAACGGTATCGTGCTGCTGCCGGAGCGCGTGGTGTTCAGCAAAGAGAACATCAATAACTACGACTTCTGA	MKTKRILQTSVLALALSVATAQAADRIAFIPKLVGVGFFTSGGNGAKEAGKALGVDVTYDGPTEPSVSGQVQLINNFVNQGYNAIIVSAVSPDGLCPALKRAMQRGVKVLTWDSDTKPECRSIYINQGTPQQLGGLLVEMAKKQVTRPAAKVAFFYSSPTVTDQNQWVKEAKAKIEKEHPQWQIVTTQFGYNDATKSLQTAEGILKAYPDLDAIIAPDANALPAAAQAAENLKRQGVAIVGFSTPNVMRPYVERGTVKAFGLWDVVQQGKIAVNVADRLLKKGDLNVGDSVEVKDIGSLKVESNSVQGYQYEAKGNGIVLLPERVVFSKENINNYDF	PGPT0025510_141	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_PERCIPITATION|SIGNALLING,PGPT0025510-lsrB-K10555	NA	NA
BMS020_02007	999	lsrD_1		Autoinducer 2 import system permease protein LsrD	ATGAAGCTGAAGCTTAACTGGGAAAGCGCGCTGCTGGCGTTGTTAGTCGTGGAAATCCTGCTGTTCGGCGCGCTGAATCCGCGCATGCTGGATCTCAATATGCTGCTCTTTAGCACCAGCGACTTTATCTGCATCGGCATCGTCGCGCTGCCGCTGACGCTGGTGATCATCAGCGGCGGGATCGATATTTCGCTGGGCTCGACCATCGGCCTGTGCGCCATCGCCCTCGGGGTGATGACCCAGACGGGCTGGCCGCTGTGGCTGGCGGTGTCGCTGACGTTGCTGCTGGGGCTGCTGTGCGGGTTAATCAACGCCGCGCTGATCCACTACACCGGCATCAGCCCGCTGGTGATCACCCTCGGGACGCTGTATCTGTACGGCGGCGGCGCGCTGCTGCTTTCCGGCATGGCCGGCGCCACCGGCTATGAAGGGATCGGCGGCTTTCCCGACAGCTTCACCGCCTTCGCCAATTTAACCCTGGGCGGGCTGCCGCTGCCGCTGGTGCTGTTCGCGGTTATCACCTTTCTCTTCTGGCTGCTGGCCCATCGCGGGCGCTTTGGCCGCCATCTTTTTTTACTCGGGCAAAACCCGCGCGCCGCCCGCTATGCCGCGCTGTCGGTCAACGGCATCCCGTATGTGCTGTATGGCCTGGTGGGCGTGGCGTCGGCAGTGGCGGCGCTGGTGATGGTCTCCTATTTTGGCTCGGCGCGTTCGGATTTAGGCCGTGACCTGCTGATGCCGGCGCTGACCGCGGCGGTGCTCGGCGGGGCCAATATCTACGGCGGTTCCGGCTCGATCGTCGGCACGGCGCTTGCCGCGCTGCTGGTGGGCTATTTACAACAAGGTTTGCAAATGGTCGGCATCCCCAACCAGGTGTCGAGCGCGCTGTCAGGGGCGCTGTTGGTGGTGGTGGTGATGGGGCGTTCGCTGAGCCTGCACCGTGAATGGGTGCGCGCGACCTGGCGGCGTCTTTTCTCGCGTAAAACAATCGGAGCATAA	MKLKLNWESALLALLVVEILLFGALNPRMLDLNMLLFSTSDFICIGIVALPLTLVIISGGIDISLGSTIGLCAIALGVMTQTGWPLWLAVSLTLLLGLLCGLINAALIHYTGISPLVITLGTLYLYGGGALLLSGMAGATGYEGIGGFPDSFTAFANLTLGGLPLPLVLFAVITFLFWLLAHRGRFGRHLFLLGQNPRAARYAALSVNGIPYVLYGLVGVASAVAALVMVSYFGSARSDLGRDLLMPALTAAVLGGANIYGGSGSIVGTALAALLVGYLQQGLQMVGIPNQVSSALSGALLVVVVMGRSLSLHREWVRATWRRLFSRKTIGA	PGPT0025490_53	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_TRANSPORT,PGPT0025490-lsrD-K10557	NA	NA
BMS020_02008	1035	lsrC	COG1172	Autoinducer 2 import system permease protein LsrC	ATGAAAACGTTACTCAAGAATCGCGAACTGAGCGCCTTCTTCGCCATCGTGGCGCTGTTTGCCGTGCTGGTGGCGCTCAATCCGGCCTATTTCAGCCTGCAGACGCTGGCGATGATTTTCGCCAGCTCGCAAATCCTGTGCCTGCTGGCGCTGGGGGCAACGCTGGTGATGCTGACCCGCAATATCGACGTGTCGGTGGGCTCCACCGTTGGCCTGAGCGCCATCGCCGTTGGGGTGGCGCTGAACAACGGCTACGGGCTGGCGACAGCGATCGCCTTCGCGCTGGCGATTGGCGCGCTGGCCGGGGCTTTTAACGGCCTTCTGGTGGTGGGGCTGCGCATTCCGGCGATCGTCGCCACCCTCGGCACGCTGGGGTTGTATCGCGGGGTGATGTTGCTGTGGACCGGCGGGAAATGGATCGAAGGCTTGCCCGATAGCCTGAAATCGCTCTCGGAGCCGCTGTTTATCGGCGTCTCGCCGCTGGGCTGGCTGGTGCTGGCGCTGCTGCTGGCGGGCGCATGGCTGCTGTCGCGCACCGCCTCTGGGCGTGATTTCTATGCCGTTGGCGATAACCTCGCCGCTGCCCGCCAGCTGGGCGTGGCGGTCAACCGCACGCGGATGCTGGCCTTTACCCTCAACGGTATGCTGGCGGCCTGCGCCGGGATCGTTTTCGCCGCGCAGATTGGCTTTGTGCCCAATCAGACCGGCAGCGGTCTGGAGATGAAAGCCATCGCCGCCTGCGTGCTGGGCGGAATTTCGCTGCTCGGCGGCACCGGCACCCTGCTCGGCGCGTTTCTCGGCGCCTTCTTCCTCACCCAAATCGACACCGTGCTGGTGCTGTTCCGCCTTCCCGCCTGGTGGAATGACTTTATCGCCGGCCTGGTCCTGCTCGGGGTGCTGGTCCTTGATGGCCGCCTGCGCCAGGCGCTGACCCGCCATCAGCGGGCGCTGAAGTACAGCCGTTTCCAGCCCGGCAACAAAGGGGGCAAACAGGTTGCCCGCTTTCCCGAACGCAAAAGCAAAGAGGTGGCGTAA	MKTLLKNRELSAFFAIVALFAVLVALNPAYFSLQTLAMIFASSQILCLLALGATLVMLTRNIDVSVGSTVGLSAIAVGVALNNGYGLATAIAFALAIGALAGAFNGLLVVGLRIPAIVATLGTLGLYRGVMLLWTGGKWIEGLPDSLKSLSEPLFIGVSPLGWLVLALLLAGAWLLSRTASGRDFYAVGDNLAAARQLGVAVNRTRMLAFTLNGMLAACAGIVFAAQIGFVPNQTGSGLEMKAIAACVLGGISLLGGTGTLLGAFLGAFFLTQIDTVLVLFRLPAWWNDFIAGLVLLGVLVLDGRLRQALTRHQRALKYSRFQPGNKGGKQVARFPERKSKEVA	PGPT0025485_73	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_TRANSPORT,PGPT0025485-lsrC-K10556	NA	NA
BMS020_02009	1488	lsrA	COG1129	Autoinducer 2 import ATP-binding protein LsrA	ATGAAGTCACTGCTTGAAGCTCGCCAGATCCGCAAACAGTTCTCCGGTGTTGCCGTGCTGAAGGGCATCGACTTTACGCTATGCGCGGGCCAGGTGCATGCGCTGATGGGGGGCAACGGCGCGGGTAAATCGACGCTGATGAAGATCATCGCCGGCGTCGAAACCCCGGATAGCGGTGAACTGACGATCGGCGAACGCGCGTTTGCGCGCCTTAACCCGGCGCTGGCCCACCAGCTGGGCATCTATCTGGTGCCGCAGGAGCCGATGCTGTTTCCCAACCTCAGCGTGCGCGAGAACATTCTTTTTCGTCTGCCGAAGCGGGCGGATACCGCCGCGCGGCTGCAGGAAAAACTGCAGCAGCTGAACTGCCAGATCAACCTGGACGCCAGCGCCAGCACGCTTGAGGTAGCCGATCAACAGATGGTCGAGATCCTGCGCGGCCTGATGCGCGAGGCGCGGATCCTGATCCTTGATGAACCCACCGCCTCTTTAACGCCGGGCGAAACGGAAAGGCTGTTTCAGCAGATCCGGGCATTGCAGGGGCTCGGCGTGGGGATCGTCTTTATCTCGCACAAACTGCCGGAAATCCGCCAGCTTGCCAGCCATGTGTCGGTGATGCGCGATGGGGCGGTAGTGCTCAGCGGCGAAACGGCGGGCTACGGCGACCAACAGCTTATCAGCGCCATGACGCCGGCCAGCCGTGACCATGCGCTGAGCGACACGCAAAAGCTGTGGCTGGCGCTGCCGGGCAACCGCCGCACCCAGGCGCAGGATTTTCCCGTTTTGCGGGTGGAGGATCTCACCGGCGAAGGTTTTATCGATCTCAGTCTGGAGATCCGCGCCGGGGAGATCGTCGGCCTCGCCGGGCTGGTGGGATCCGGGCGCACCGAATTTGCCGAAACCTTATACGGCCTGCGTCCGCCGCGCGCCGGGCGGATCTGGCTGGAGAACCGCGAGATTAGTCAGGAGAGCACCCGCGCCAGGCTGGCCAGCGGGCTGGTCTATCTGCCCGAAGACCGCCAGGTCTCCGGGCTGTTTCTCGATGCGCCGGTGCGCTGGAACACGGTGATGTTCAATCAGCCGTCGTGGTGGCAGCAGGGGAAACGGGAGGCGGCGGTGGTCGAACGCTATCACCGGGCGCTGGGGATCAAGCTGGCCGATGGCGATCAGCCGGTGCGTACCCTCTCCGGCGGCAACCAGCAGAAGGTGCTGCTGGCGCGCTGTCTGGAGGCTAACCCGCTGCTGTTGATTGTTGATGAACCGACGCGCGGCGTGGATGTCTCCGCCCGCGCCGATATCTATCAGTTGCTGAAAAGCGTTGCCGCGCAAAATGTGGCGGTGCTGATGATCTCCAGCGATCTGGATGAGTTCGTTGGCCTGGCCGACCGGGTGTTGGTGATGCATCAGGGCCGCTACAGCGGCGAACTGGCGCGGCAGGCGGTGACCGTCGATCGCATGATGACCCTGGCCTTTGGAGGGCAGGCATGA	MKSLLEARQIRKQFSGVAVLKGIDFTLCAGQVHALMGGNGAGKSTLMKIIAGVETPDSGELTIGERAFARLNPALAHQLGIYLVPQEPMLFPNLSVRENILFRLPKRADTAARLQEKLQQLNCQINLDASASTLEVADQQMVEILRGLMREARILILDEPTASLTPGETERLFQQIRALQGLGVGIVFISHKLPEIRQLASHVSVMRDGAVVLSGETAGYGDQQLISAMTPASRDHALSDTQKLWLALPGNRRTQAQDFPVLRVEDLTGEGFIDLSLEIRAGEIVGLAGLVGSGRTEFAETLYGLRPPRAGRIWLENREISQESTRARLASGLVYLPEDRQVSGLFLDAPVRWNTVMFNQPSWWQQGKREAAVVERYHRALGIKLADGDQPVRTLSGGNQQKVLLARCLEANPLLLIVDEPTRGVDVSARADIYQLLKSVAAQNVAVLMISSDLDEFVGLADRVLVMHQGRYSGELARQAVTVDRMMTLAFGGQA	PGPT0025480_141	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_TRANSPORT,PGPT0025480-lsrA|ego-K10558	NA	NA
BMS020_02010	972	lsrR	COG2390	Transcriptional regulator LsrR	ATGAGCGAAAAACGCATTACGGAAGACCATCGCTACGCCGGGCTGGCGTTAGCCGAGGAAGAGCTGGTGGCGCGGGTGGCGTGGTGTTACTACCACGACGGCCTGACGCAAAACGACATCGGCGAGCGTTTGGGGCTGCCGCGGCTGAAGATTTCCCGCCTGCTGGAGAAAGGTCGCCAGTCCGGGGTGATCCGCGTGCAGATCAACTCGCGCTATGAAGGCTGTCTGGCGCTGGAAAGCGAACTCCAGCAGCGCTTTGGCCTCAAGATTGCTCGCGTGCTGCCGGCGCTCAACACCCCGCCGATGAATACCCGGCTGGGGATCGGCGCGGCGCAGTCGCTGATGGGGATTCTGCAACCGGGACAGCTGCTGGCGGTCGGCTTCGGCGAAGCCACCATGAGCTGCCTGCAGCATCTCAGCGGCTTTATCGGCTCGCAGCAGGTGCGGCTGGTGACCCTCTCCGGCGGCGTCGGCCCCTATATGACCGGCATCGGTCAGCTGGATGCCGCCTGCAGCGTGAGCATTATTCCGGCGCCGCTGCGGGTCTCGTCGGCGGAGGTCGCCGAAATCCTGCGCCGCGAATCCAGCGTGCGCGATGTGATGCTGGCGGCGACGGCGGCGGACGCGGCGGTGGTTGGCATTGGCGCTATCGATCAGCGGCGCGACGCGACCATTCTGCGCTCCGGCTATATCAGCGAGGGCGAACAGCTGATGTACGCCCGCAAAGGGGCGGTCGGCGACATTTTAGGTTATTTCCTGCAGGCCGACGGCCGGCCGGTAGAGGGGCTGGAGATCCATCGGGAACTGCTCGGCGTGACCCTGGATGAGCTGGCGCAACTGCCGACCATCGTCGGCGTCGCCGGGGGAGAACAAAAAGCGCAGGCGATTCATGCCGCTCTGATTGGCAAGCGGATTAATGGCCTGGTAACGGAAGAGACAACAGCACGCGCGGTGCTCGCGCTGGCCTCCTGA	MSEKRITEDHRYAGLALAEEELVARVAWCYYHDGLTQNDIGERLGLPRLKISRLLEKGRQSGVIRVQINSRYEGCLALESELQQRFGLKIARVLPALNTPPMNTRLGIGAAQSLMGILQPGQLLAVGFGEATMSCLQHLSGFIGSQQVRLVTLSGGVGPYMTGIGQLDAACSVSIIPAPLRVSSAEVAEILRRESSVRDVMLAATAADAAVVGIGAIDQRRDATILRSGYISEGEQLMYARKGAVGDILGYFLQADGRPVEGLEIHRELLGVTLDELAQLPTIVGVAGGEQKAQAIHAALIGKRINGLVTEETTARAVLALAS	PGPT0025525_76	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_PERCIPITATION|SIGNALLING,PGPT0025525-lsrR-K11531	NA	NA
BMS020_02011	1599	lsrK	COG1070	Autoinducer-2 kinase	ATGAGTTACCTGTTAGCGTTAGATGCCGGGACCGGCAGCATTCGGGCGGTCATTTTCGATCTCAATGGCCGCCAGCTGGCGGTGGGCCAGGCCGAATGGAAACACCTGAGCGTCGATAACGTCCCCGGCTCGATGGAGTTCGACCTTACCACCAACTGGCAGCTGGCCTGCCAGTGCATTCGCCAGGCGCTCGACGCCGCCCGGCTCTCTCCCGCCGATATTCAGTCCGTCGCCTGCTGTTCGATGCGCGAAGGGATCGTCCTCTATGACCGCAACGGCGAGGCCATCTGGGCCTGCGCCAACGTTGATGCCCGCGCCAGCCGCGAAGTCGCAGAGCTTAAAGAGATCCACGACTATCATTTTGAATCCGAGGTGTACGAGGTCTCCGGGCAAACGCTGGCGCTCAGCGCGATGCCGCGCCTGCTGTGGCTGGCGCACCATCGACCCGATATCTACCGCAAGGCGGCGACCATCACCATGATCAGCGACTGGCTGGCGGCGAAGCTTTCCGGCGAGCTGGCGGTCGACCCGTCAAACGCGGGCACCACCGGCATGCTCGATCTGTTCAGCCGCGACTGGCGTCCGGCGCTGCTGGATATGGCCGGGCTGCGCGCCGATATGCTGTCGCCGGTGAAAGAGACCGGCACGCTGCTGGGCGCCGTCACCGATACGGCAGCCCAGCAGAGCGGCCTGCGCGCCGGGACGCCGGTGGTGATGGGCGGCGGCGACGTGCAGCTCGGCTGCCTGGGGCTCGGGGTGGTGCGCGCCGGACAAAGCGCAGTGCTCGGCGGCACCTTCTGGCAGCAGGTGGTGAATCTGCCGCAGGTGCGCACCGACCCGCAGATGAATATTCGCGTTAACCCTCACGTCATTCCCGGCATGGCGCAGGCGGAGTCCATCAGCTTTTTTACCGGCCTGACCATGCGCTGGTTCCGCGACGCCTTCTGCGCTGAAGAAAAGCTGATTGCCGAGCGCCTCGGCGTCGATGCCTATTCGCTGCTGGAGGAGATGGCCAGCCGCGTACCCGCCGGTTCCCACGGCGTGATGCCTATTTTTTCCGACGCCATGCACTTTAAGCAGTGGTACCACGCCGCGCCGTCGTTTATTAACCTCTCCATCGATCCGGAGAAGTGCAATAAAGCCACTCTGTTCCGCGCCCTGGAGGAGAACGCGGCGATTGTCTCCGCCTGCAACCTGGCGCAGATATCGCAGTTTTCCGGGGTGACTTTCGATAGCCTGGTGTTTGCCGGCGGCGGCTCGAAGGGAGCGCTGTGGAGCCAGATCCTCAGCGACGTCACCGGCCTGCCGGTGCGGGTGCCGGTGGTCCGCGAAGCCACCGCCCTCGGCTGCGCCATCGCCGCCGGCGCTGGCGCCGGGCTGTACGGCGACATGGCCAGCGCCGGAGAAAAGTTAGTGAGCTGGCACCGCGAGTTCACCCCTAATCCGCAGCATCGCGAGCTGTATCAGGAGATGATGAGTAAATGGCAGTCGGTATATGCCGATCAGCTTGGTCTTGTCGATAGCGGGCTGACAACGTCGATGTGGCAGGCGCCGGGCCTCGAACGCCGCCAGCGCGCTGTGTCTTCCCCCTCACCCTAA	MSYLLALDAGTGSIRAVIFDLNGRQLAVGQAEWKHLSVDNVPGSMEFDLTTNWQLACQCIRQALDAARLSPADIQSVACCSMREGIVLYDRNGEAIWACANVDARASREVAELKEIHDYHFESEVYEVSGQTLALSAMPRLLWLAHHRPDIYRKAATITMISDWLAAKLSGELAVDPSNAGTTGMLDLFSRDWRPALLDMAGLRADMLSPVKETGTLLGAVTDTAAQQSGLRAGTPVVMGGGDVQLGCLGLGVVRAGQSAVLGGTFWQQVVNLPQVRTDPQMNIRVNPHVIPGMAQAESISFFTGLTMRWFRDAFCAEEKLIAERLGVDAYSLLEEMASRVPAGSHGVMPIFSDAMHFKQWYHAAPSFINLSIDPEKCNKATLFRALEENAAIVSACNLAQISQFSGVTFDSLVFAGGGSKGALWSQILSDVTGLPVRVPVVREATALGCAIAAGAGAGLYGDMASAGEKLVSWHREFTPNPQHRELYQEMMSKWQSVYADQLGLVDSGLTTSMWQAPGLERRQRAVSSPSP	PGPT0025520_17	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_PERCIPITATION|SIGNALLING,PGPT0025520-lsrK-K11216	NA	NA
BMS020_02012	2022	fadH_1	COG0446	2,4-dienoyl-CoA reductase	ATGAGCCGCTACCCGTCGCTTTTCGCCCCGCTTGAGCTGGGCTTCACCACCCTCAAAAACCGCGTGTTGATGGGCTCCATGCATACCGGTCTGGAAGAACTGCCCGACGGCGCGCAACGGTTAGCGGCCTTTTACGCCGAGCGCGCGCGGCACGGCGTGGCGCTGATCGTCACCGGCGGCATAGCGCCCGCCCCGTCCGGGGTGACCATGGCCGGCGGCGCGGTACTCAACGATGCCAGCCATCTGGCGCATCATCGCCAGATCACCGACGCGGTACATCAGGAAGGCGGTAAAATCGCCCTGCAGATCCTGCACACCGGGCGCTACAGCTACCAGCCCGCGCTGGTCGCCCCCTCTTCTCTGCAGGCGCCGATTAACCGGTTCACCCCTCATGAGCTGAGCCACGATGAGATCCTCACGCTGATCGATGATTTTGCCCACTGCGCCCAGCTGGCGCGGGAAGCAGGCTATGACGGCGTGGAGGTGATGGGCTCTGAGGGCTATCTGATTAACGAATTCCTCGCCGCGCGCACTAACCAGCGCAACGATCAATGGGGCGGCGATTACGCGCGCCGGATGCGTTTCGCCGTTGAAGTAGTCAAGGCCGTGCGCCAGCGCGCCGGTCACGATTTCATTATCATCTACCGTCTGTCGATGCTCGATCTGGTTAACGACGGCAGCACGCTGTCGGAAGTCACCGCGCTGGCCAAAGCCATCGAGGCGGCGGGGGCGACGATCATCAACACCGGCATCGGCTGGCACGAAGCGCGCATTCCGACCATCGCCACTCCGGTACCGCGCGGCGCCTTTAGCTGGGTCACCCGCAAACTGAAGGGCGCGGTGTCGATCCCGCTGATCACCACCAACCGCATCAACGATCCGCAGGTCGCGGAGGCGATCCTCGCCCGCGGCGATGCCGACATGGTCTCAATGGCCCGCCCGTTCCTTGCCGATGCCGAATTTATGTCGAAAGCACAGAGCGATCGCGCCGATGAGATCAACACCTGCATCGGCTGCAACCAGGCGTGTCTCGATCGGATCTTCGTCGGCAAAGTCACCTCCTGTCTGGTCAACCCGCGCGCCTGCCATGAAACCCTGATGCCGGTCCTGCCTGCCAACGCCCCTAAGCGGCTGGCGGTGGTCGGCGCCGGGCCTGCCGGTCTGGCCTTCGCGGTTAACGCCGCCGCCCGCGGTCATCACGTCACGTTGTTCGATGCCCTCCCGGAGATCGGCGGCCAGTTTAATATCGCCAAACAGATCCCCGGCAAAGAGGAGTTTCATGAAACCCTGCGCTACTACCGTAGAATGCTCGATCTTAACGGCGTCGATCTACGTCTGCACACCCGCGTCACGGCAGACGATCTGCTGGCGTTCGATGAGACGATCCTCGCCACCGGCATTGCCCCGCGCCTGCCGGCGATCGTCGGGATCGATCATCCCAAGGTGCTCAGCTACCTGGATGTCTTACGCGATAAAGCGCCGGTTGGCGCGAAGGTGGCGATTATCGGCTGCGGCGGCATCGGCTTCGACACCGCGATGTATTTAAGCCAGTCGGGGGGGGCCACCAGCCAGGATATCGGCGAGTTCTGTCGCGAATGGGGTATCGATACCAGCCTGCGGACGGCGGGCGGGCTGCGTCCTGAAGGCCCGCAGCTGAGTCAAAGCCCGCGACAGATTGTGATGCTGCAGCGCAAGGCGAGCAAACCGGGCGACGGGCTCGGCAAAACCACCGGCTGGATCCACCGCGCCACGCTGCTGGCGCGCGGCGTGAAAATGATCCCGGCGGTCAGCTATGAGAAGATCGATGATGAGGGATTACACGTGACGATCGGCGGCGAGCGCCAGCTGCTGGCGGTGGATCATGTCGTGATCTGCGCCGGTCAGGAGCCGCGCCGCGAGCTGGCGGATCCGCTGCGCGCGGCGGGGAAAACGGTGCATTTGATCGGCGGCTGCGACGTGGCGGCGGAGCTGGATGCGCGCCGGGCGATTGCCCAGGGCACGAAGCTGGCCCTGGCGATTTAG	MSRYPSLFAPLELGFTTLKNRVLMGSMHTGLEELPDGAQRLAAFYAERARHGVALIVTGGIAPAPSGVTMAGGAVLNDASHLAHHRQITDAVHQEGGKIALQILHTGRYSYQPALVAPSSLQAPINRFTPHELSHDEILTLIDDFAHCAQLAREAGYDGVEVMGSEGYLINEFLAARTNQRNDQWGGDYARRMRFAVEVVKAVRQRAGHDFIIIYRLSMLDLVNDGSTLSEVTALAKAIEAAGATIINTGIGWHEARIPTIATPVPRGAFSWVTRKLKGAVSIPLITTNRINDPQVAEAILARGDADMVSMARPFLADAEFMSKAQSDRADEINTCIGCNQACLDRIFVGKVTSCLVNPRACHETLMPVLPANAPKRLAVVGAGPAGLAFAVNAAARGHHVTLFDALPEIGGQFNIAKQIPGKEEFHETLRYYRRMLDLNGVDLRLHTRVTADDLLAFDETILATGIAPRLPAIVGIDHPKVLSYLDVLRDKAPVGAKVAIIGCGGIGFDTAMYLSQSGGATSQDIGEFCREWGIDTSLRTAGGLRPEGPQLSQSPRQIVMLQRKASKPGDGLGKTTGWIHRATLLARGVKMIPAVSYEKIDDEGLHVTIGGERQLLAVDHVVICAGQEPRRELADPLRAAGKTVHLIGGCDVAAELDARRAIAQGTKLALAI				NA	NA	NA	NA	NA
BMS020_02013	1131	rlmG	COG2813	Ribosomal RNA large subunit methyltransferase G	ATGAGCCAGGCAGAGTTAAACGGTGAGTTATTCACATTAGAGCGGTTCCCACCTAACGCTGAAGAAGAAGCGCTTCAGGCGTGGGAAGCGGCGGATGAATATCTGCTGCAACAGGTGAATGACGTCGACGGCCTGACGCTCATCTTCAACGATGGCTTCGGCGCGCTCGCCTGCGCGCTGGCGGAACGCAACCCGGTGAGCATCAACGACTCCTTTATCTCCGAGCTGGCGACCCGCCACAACCTGCGGATGAACGGCATTGATGAAGAGAGTGTGCGTTTTCAGGATAGCCTGAGCCCGCTGCCGGCCGCGCCGGCGCTGGTGCTGATTAAGGTGCCAAAGCAGCTGGCGCTGCTGGAACAGCAGCTGCGCGCCCTGCGCGAAGTGGTGACGCCGGAAACCCGCATTATCGCCGCGGCGAAAGCGCGCGATGTGCATAACTCGACGCTGGCGCTGTTTGAAAAGATCCTCGGCACCACCACCACCTCGCTGGCGTGGAAAAAAGCGCGTCTGATCCACTGCGTTTTCACCGCCCCTGAGCTTACCGATGCGCCGCAAACCTACAGCTGGAAGCTGGACGGCACGCCGTGGACCATCCACAACCATGCCAACGTCTTTGCCCGCAGTGGTCTGGATATCGGCGCGCGCTTCTTCCTGCAGCATTTACCGTCTGATTTAGAAGGCGAGATCGCCGATCTCGGCTGCGGCAACGGGGTGATAGGCCTGCAGGCGCTGGCGCAGAACCCCCATGCCCGCGTGATGTTCACCGATGAGTCGCACATGGCGGTGGCTTCCAGCCGGTTGAACGTTGAGCACAACCTGCCGGACGATATTGACCGTTGTGAATTTATGGTCAACAACTCGCTCTCCGGCATTGAGCCGGACCGCTTTACGGCGATCCTGTGCAATCCGCCGTTCCACCAGCAGCACGCCATTACCGACCATATCGCCTGGCAGATGTTTAACGACGCCCGCCGCAGCCTGAAATACGGCGGCGAGCTGTACGTCGTCGGCAACCGTCATCTCGACTACTTCCGTAAGCTGAAGCGCGCTTTTGGTAACTGCACGACGATTGCGACGAACAATAAGTTTGTCATTTTGAAAGCAACGAAGGTGCGTAAGCAGCGCTGA	MSQAELNGELFTLERFPPNAEEEALQAWEAADEYLLQQVNDVDGLTLIFNDGFGALACALAERNPVSINDSFISELATRHNLRMNGIDEESVRFQDSLSPLPAAPALVLIKVPKQLALLEQQLRALREVVTPETRIIAAAKARDVHNSTLALFEKILGTTTTSLAWKKARLIHCVFTAPELTDAPQTYSWKLDGTPWTIHNHANVFARSGLDIGARFFLQHLPSDLEGEIADLGCGNGVIGLQALAQNPHARVMFTDESHMAVASSRLNVEHNLPDDIDRCEFMVNNSLSGIEPDRFTAILCNPPFHQQHAITDHIAWQMFNDARRSLKYGGELYVVGNRHLDYFRKLKRAFGNCTTIATNNKFVILKATKVRKQR				NA	NA	NA	NA	NA
BMS020_02014	708			hypothetical protein	ATGCGTAGCGTAACGCCGTCAATCGAATCTGCGGTCAGCCGCCTGGCGCCGGGCTTTCGGGCATTAAGTATTGTGGTGGAGAGCGCGCCGGTGGCCAATCCCGCCGTCGCGGAACAGGCGCTGGCCGAGGCCTGCCTGGTGGTGCAGCAGGATGATGTGCCCTGGGCGCAAGCGCACCTGGCGGCATGGGATGAAGCGTTCAGCGCCTTCGGCGCGAAGGCGAAACGTACCCCCTGTTCGGCGCAGGCGCTGCGCAAGCGGGTGCTGAAGGAGGGGAGCCTGCCGGCCATCGATCCGGTGGTGGATATCTACAACGCGATCAGCATTCGCTATGCCATCCCGGTCGGTGGGGAAAATCTGGCCGCCTACCGTGGCGAACCGCGACTGGCCATTGCCCGCGGCGATGAGCCATTCGATACGCTAAAATCGGCAGAGCCGGTGGTGGAATATTCGGAGCCGGGCGAAGTCATCTGGCGGGATGATATAGGCGTAACCTGCCGACGCTGGAACTGGCGGCAGGGCGTACGCACCCGGCTGGACAGCGGCGCGCAGACGATGTGGTTTATTCTCGAAAGCCTGCCGGCGATGCCGTTGTCGGCCCTGCATGAGGCGGGAGAGCGGCTGGTAGGCTATCTGCAGCAGCTCATGCCCGGCGCCCGCGCCTCGATAACGCTGCTGCGAGCCGATGACGAGGGCGATCTACGCTGA	MRSVTPSIESAVSRLAPGFRALSIVVESAPVANPAVAEQALAEACLVVQQDDVPWAQAHLAAWDEAFSAFGAKAKRTPCSAQALRKRVLKEGSLPAIDPVVDIYNAISIRYAIPVGGENLAAYRGEPRLAIARGDEPFDTLKSAEPVVEYSEPGEVIWRDDIGVTCRRWNWRQGVRTRLDSGAQTMWFILESLPAMPLSALHEAGERLVGYLQQLMPGARASITLLRADDEGDLR				NA	NA	NA	NA	NA
BMS020_02015	603			hypothetical protein	ATGAACGTAAAAGTCAATATAACGACCGATTCAGGATCTGATGTCGACCAGGTAAGTCGCGCCGTCGCCACGCGGCTGAAGGCCTACCGTAAAGCGAAAAAAATGTCGCTGGACGAGCTGTCGCGCCGGGCCAGCATCAGCAAAGGCATGCTGGTCGAGATGGAAAAAGAGGCCGCCAACCCCAGCATTGCGATCCTCTGCAAACTCGCCGCCGCGCTGGGCGTCTCGGTGGCGGATATTGTCAATGTGGCTAGCGAACCCGCGTTGCATATTATTCCCGCCGAGCAGATCCCCACCCTCTGGCAAGGCCCGCTGGGGGGCAGCGCCAGGCTCCTCGCCGGCACCGCCGGGCCGAATATGATTGAGCTGTGGCGCTGGGAGATGCAGCCCGGCGAAGCCTTTACCTCGCCCGGCCATCCGGCGACGACCTTCGAGCTGCTGCACGTGGAAGCCGGCGCGCTGACGCTGACGCTTGGCGAAACCTGCCGCACGGTGGCGGCCGGGGAATCCGCGGTGGCCCGTACCGAAACAGAGCACGGGTACCGGAATGCGGGGCCCGCGCCGCTGGTCTTTACCATGACCGTGGCTGAACTGCCCTCCTGA	MNVKVNITTDSGSDVDQVSRAVATRLKAYRKAKKMSLDELSRRASISKGMLVEMEKEAANPSIAILCKLAAALGVSVADIVNVASEPALHIIPAEQIPTLWQGPLGGSARLLAGTAGPNMIELWRWEMQPGEAFTSPGHPATTFELLHVEAGALTLTLGETCRTVAAGESAVARTETEHGYRNAGPAPLVFTMTVAELPS				NA	NA	NA	NA	NA
BMS020_02016	501	ygjP	COG1451	UTP pyrophosphatase	ATGACAAAACTCATTTATTTACAGGGCTATCCTGAATCGCTGCTGGCGCAGGTGACCACGTTAATCGAGCAAAACCGCCTTGGAGAGGTGCTGCAAAAGCGCTATCCGCATGGACACGACGTTAACAGCGATAAAGCGCTATATCAGTACACCCAGGATTTGAAAAACCGCTTTCTGCGCGGCGCGGCGCCGATCAACAAAGTGATGTATGACAGTAAGATCCACGTGCTGAACAATGCGCTCGGCCTGCATACCGCCATTTCCCGCGTTCAGGGCGGCAAGCTGAAAGCCAAAGCGGAGATCCGCGTGGCGACGGTATTTCGCGACGCGCCGGAGGACTTTTTGCGGATGATCGTGGTCCATGAACTGGCGCATCTGAAAGAGAAGGAGCACAACAAAGCCTTCTACCAGCTGTGCTGCCATATGGAGCCGCAGTACCATCAGCTGGAGTTCGACACCCGCCTGTGGCTGACGCACCTTTCGTTAAATCGTTCTGCGTAG	MTKLIYLQGYPESLLAQVTTLIEQNRLGEVLQKRYPHGHDVNSDKALYQYTQDLKNRFLRGAAPINKVMYDSKIHVLNNALGLHTAISRVQGGKLKAKAEIRVATVFRDAPEDFLRMIVVHELAHLKEKEHNKAFYQLCCHMEPQYHQLEFDTRLWLTHLSLNRSA				NA	NA	NA	NA	NA
BMS020_02017	990	iolU_1	COG0673	scyllo-inositol 2-dehydrogenase (NADP(+)) IolU	ATGATACGTTTCGCAGTTGTTGGCACAAACTGGATCACTAAGCAGTTTGTCGATGCCGCCCATGAAACCGGCAAATATAAACTTACCGCCATCTACTCCCGCAGCCTCGAACAGGCGCAAGCCTTCGCCAATGACTATCCGGTCGAGCATCTGTTTACCTCGCTGGAGTCGCTGGCGCAAAGCGACGCCATTGACGCGGTATATATCGCCAGCCCGAACTCCCTGCACTTCCCGCAGACGCGGCTGTTCCTGAGCCACAAAAAGCACGTCATTTGCGAAAAACCGCTGGCGTCGAATCTGCAGGAGGTCGAGGCGGCCATCGCGGTGGCGAAAGCCAACAACGTGGTGCTGTTTGAAGCCTTCAAAACCGCCAGCCTGCCCAACTTTCTGCTGCTGAAGGAAACCCTCGGCAAAGTGGGTAAACTGCGTAAAGCCTTCATTAACTACTGCCAGTACTCTTCGCGCTACCAGCGCTACCTCGACGGCGAAAACCCCAACACCTTTAATCCGGCGTTCTCCAACGGTTCGATTATGGATATCGGCTTCTATTGCCTGGCGTCCGCTGTGGCGCTGTGGGGCGAACCGCGGGCTGTTCATGCCACCGCCAGCCTGCTGGACAGCGGCGTGGACGCCCAGGGCACCGTGGTGCTGAGCTACGGCGACTTCGACGTGACGCTGCATCATTCCAAGGTGAGCGACTCGGCGATCCCCAGTGAAATTCAGGGCGAAGACGGCGTATTAGTGATCGAAAAAATCTCCGAGTGCCAGAAGCTGGCGTTTGTGCCGCGCGGCGGCAAAGCCCAGGACCTGACGCAGCCGCAGCATATCAATACTATGCTGTACGAGGCGGAGACCTTCGCGCGGCTGGTGGAAACAGAGGATGTCGACCATCCGGGCCTGGCAGTGAGCCGTATCACGGCGAAACTGTCGAGCGAAATTCGTCGCCAGACCGGGGTGATCTTCCCGGCCGATACGCAGCCGCTGGCGTAA	MIRFAVVGTNWITKQFVDAAHETGKYKLTAIYSRSLEQAQAFANDYPVEHLFTSLESLAQSDAIDAVYIASPNSLHFPQTRLFLSHKKHVICEKPLASNLQEVEAAIAVAKANNVVLFEAFKTASLPNFLLLKETLGKVGKLRKAFINYCQYSSRYQRYLDGENPNTFNPAFSNGSIMDIGFYCLASAVALWGEPRAVHATASLLDSGVDAQGTVVLSYGDFDVTLHHSKVSDSAIPSEIQGEDGVLVIEKISECQKLAFVPRGGKAQDLTQPQHINTMLYEAETFARLVETEDVDHPGLAVSRITAKLSSEIRRQTGVIFPADTQPLA				NA	NA	NA	NA	NA
BMS020_02018	972	alx_1	COG0861	Putative membrane-bound redox modulator Alx	ATGAATACTGTCGGCACGCCGTTGCTATGGGGTGGATTCGCTGTCGTCGTCGCGATCATGTTGGCGATCGACCTGCTGCTTCAGGGACGACGCGGTTCGCATAGCATGACCATGAAGCAGGCCGCTGGCTGGTCTATCCTCTGGGTCACACTTTCTCTGTTGTTTAACGCCGCGTTCTGGTGGTACCTGGTGCAAACCCAGGGCCGCGCCGTCGCCGATCCGCAGGCCCTGGCCTTCCTCACCGGCTATCTGATTGAAAAAGCGCTGGCAGTCGATAACGTCTTCGTCTGGCTGATGCTGTTCAGCTACTTCGCCGTGCCGCCTGCTCTGCAGCGCCGGGTGCTGGTGTATGGCGTCCTCGGGGCGATTGTTCTGCGCACCATTATGATCTTCGCCGGCAGCTGGCTTATCTCCCAGTTCGACTGGCTGCTGTACGTCTTCGGCGCCTTCCTGCTGTTTACCGGCGTGAAGATGGCGCTGGCGAAAGAGGACGATTCCGGCATCGGCGACAAACCGCTGGTGCGCTGGATCCGCAGCCATCTGCGAATGACCGATAAAATCGAGAGCGAGCGCTTCTTCACCCGTAAAAACGGGGTGCTGTTCGCCACGCCGCTGCTGCTGGTGTTGATTCTGGTCGAGCTAAGCGATGTGATATTCGCCGTCGACAGTATCCCGGCGATCTTCGCGGTCACCACCGACCCGTTTATCGTGCTGACCTCGAACCTGTTTGCCATTCTCGGCCTGCGCGCCATGTACTTCCTGCTGGCGGGGGTCGCTGAGCGCTTCTCGATGCTCAAATATGGCCTGTCGGTGATCCTGGTGTTTATTGGCGTGAAGATGCTGATCGTCGATTTCTACCATATCCCGGTCGCCATCTCGCTGGGGGTCGTGGGTGGTATCCTGACCGTCACGCTGTTGATTAACGCCTGGGTCAACAAGCAGCACGACAAGCAGCGCAAACTGCCTGAGTAA	MNTVGTPLLWGGFAVVVAIMLAIDLLLQGRRGSHSMTMKQAAGWSILWVTLSLLFNAAFWWYLVQTQGRAVADPQALAFLTGYLIEKALAVDNVFVWLMLFSYFAVPPALQRRVLVYGVLGAIVLRTIMIFAGSWLISQFDWLLYVFGAFLLFTGVKMALAKEDDSGIGDKPLVRWIRSHLRMTDKIESERFFTRKNGVLFATPLLLVLILVELSDVIFAVDSIPAIFAVTTDPFIVLTSNLFAILGLRAMYFLLAGVAERFSMLKYGLSVILVFIGVKMLIVDFYHIPVAISLGVVGGILTVTLLINAWVNKQHDKQRKLPE	PGPT0004905_1930	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TELLURIUM_RESISTANCE	TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004905-terC-K05794	NA	NA
BMS020_02019	1248	sstT	COG3633	Serine/threonine transporter SstT	ATGACCACACGCACTCCCTCATCAGGGTGGCTTTCCCGCCTGGCACAAGGCAGCCTGGTGAAACAAATTTTAGTCGGCCTGGTACTTGGCGTGCTGCTGGCGCTGGTCTCTAAGCCTGCGGCCATCGCCGTCGGCCTGCTGGGGACCCTGTTCGTCGGCGCGTTGAAGGCGGTAGCGCCGGTGCTGGTATTGATGCTCGTCATGGCCTCGATCGCCAACCATCAGCACGGACAAAAAACCAGTATCCGCCCCATTCTGTTTCTCTATCTGCTGGGCACCTTCAGCGCGGCGCTGACCGCGGTGTTGTTCAGTTTTGTCTTTCCCTCGACCCTGCACTTAACCACCGCCGCCGACAGCATCACGCCGCCGTCGGGGATTGTTGAGGTGCTGCGCGGCCTGCTAATGAGCATGGTGTCCAACCCGATCGACGCCCTGCTGAACGCCAACTATATCGGTATTCTGGTGTGGGCGGTGGGCCTTGGCTTCGCCCTGCGCCAGGGTAACGACACCACTAAAAACCTGATCAACGATGTCTCCCACGCGGTGACCTTTATCGTTAAAGTGGTGATCCGCTTTGCGCCGCTGGGGATCTTCGGTCTGGTCTCTTCCACCCTGGCGACTACCGGTTTTGAAACCCTGTGGGGTTACGCCCAGCTGCTGCTGGTGCTGGTGGGCTGTATGCTGCTGGTGGCGCTGGTGATTAATCCGCTGCTGGTGTTCTGGAAGCTCCGCCGCAACCCCTATCCGCTGGTGCTGACCTGTCTGCGCGAAAGCGGCGTCTACGCGTTTTTCACCCGCAGCTCCGCCGCTAATATTCCGGTGAATATGGCGCTGTGTGAGAAACTGAACCTGGATCGCGATACCTATTCGGTCTCCATTCCGCTGGGGGCAACCATCAATATGGCGGGCGCGGCAATCACGATCACCGTGCTGACGCTGGCGGCGGTCCATACGCTGAATGTTCCGGTGGATCTGCCGACGGCGCTGTTGCTGAGCGTGGTCGCTTCGCTGTGCGCCTGCGGCGCCTCTGGCGTGGCGGGCGGTTCGCTGCTGCTGATCCCGCTGGCCTGTAATATGTTTGGTATTCCGAACGATGTGGCGATGCAGGTGGTTGCCGTCGGCTTTATCATCGGGGTGCTGCAGGATTCTTGCGAAACCGCGCTGAACTCCTCCACCGACGCCCTGTTTACCGCCGCCGCCTGCATGGCGGAAGACGACCAGCTGGCGAAAAACGCCCTGCGTAGCTAA	MTTRTPSSGWLSRLAQGSLVKQILVGLVLGVLLALVSKPAAIAVGLLGTLFVGALKAVAPVLVLMLVMASIANHQHGQKTSIRPILFLYLLGTFSAALTAVLFSFVFPSTLHLTTAADSITPPSGIVEVLRGLLMSMVSNPIDALLNANYIGILVWAVGLGFALRQGNDTTKNLINDVSHAVTFIVKVVIRFAPLGIFGLVSSTLATTGFETLWGYAQLLLVLVGCMLLVALVINPLLVFWKLRRNPYPLVLTCLRESGVYAFFTRSSAANIPVNMALCEKLNLDRDTYSVSIPLGATINMAGAAITITVLTLAAVHTLNVPVDLPTALLLSVVASLCACGASGVAGGSLLLIPLACNMFGIPNDVAMQVVAVGFIIGVLQDSCETALNSSTDALFTAAACMAEDDQLAKNALRS				NA	NA	NA	NA	NA
BMS020_02020	555	ygjV		Inner membrane protein YgjV	ATGACCGCATATTGGCTGGCCCAGGGGGTCGGCGTCATCGCCTTTCTTATCGGCATTACCACCTTTATCAACCGCGACGAACGTCGCTTCAGGCTTCAGCTGGCGGTCTATAGCGGCGTTATCGGCGTCCATTTCTTCCTGATGGGCGCCGCGCCTGCCGGGATGAGCGCCGGGCTTAATGCGCTCCGCACGGTCATTTCCCTGCGCACCCGCAGCCTGTGGGTGATGACGATCTTTATCCTGCTGACGCTGATCCTCGGCCTTGGCAAGCTGCAGCATGCTATGGAGCTGCTGCCGATTATTGGCACTGTCGCCAGCACCTGGGCGCTGTTTCGCTGTAAAGGGCTGACCGTCCGCTGCGTGATGTGGTGCTCCACCGCCTGCTGGGCGACGCATAACCTGTGGCTGGGTTCCATCGGCGGGACGCTGATTGAAGGCAGCTTCCTGATCGTCAACGGCCTGAACATTATTCGCTTCCGCCGGATGCAAAAGCGGGGTATCGACCCGTTCAGGGTTGAAAACGCGGTGCAGGAAGAGAGCCCCTCCGCACGGTAG	MTAYWLAQGVGVIAFLIGITTFINRDERRFRLQLAVYSGVIGVHFFLMGAAPAGMSAGLNALRTVISLRTRSLWVMTIFILLTLILGLGKLQHAMELLPIIGTVASTWALFRCKGLTVRCVMWCSTACWATHNLWLGSIGGTLIEGSFLIVNGLNIIRFRRMQKRGIDPFRVENAVQEESPSAR				NA	NA	NA	NA	NA
BMS020_02021	1488	uxaA	COG2721	Altronate dehydratase	ATGCAATACATCAAAATCCATTCGCAGGATAACGTCGCGGTCGCGCTGGCGGATATCACGGCCGGTAGCGTGGTGACGATCGACAATGACCCGGTCACCCTCGGTCAGGATATCGTTCGCGGACACAAGTTTGCACTGCGCGCTATCGCGAAAGGGGAAAACGTCGTTAAGTATGGGTTGCCGATTGGCCATGCGCTGGCGGATATCGCGCCGGGCGAGCATGTCCATGCGCACAATACGCGCACCAATCTCAGCGACCTTGACGCGTATCGCTATCAACCGGAGCAGGTTGCCCAACCGCCGCAGCCAGCGGATCGCGAAGTGCAGATTTATCGTCGCGCCAATGGCGACGTCGGGGTGCGCAATGAGCTATGGATCCTGCCGACCGTCGGCTGCGTCAACGCCATGGCCCGTCAGATGCAGAACCGTTTTCTGAAAGAGGCGAACGGCGCCGAAGATATCGATGGGGTGCATCTCTTCAGCCATACCTACGGTTGCTCACAGCTCGGGGACGACCACATCAACACCCGCACCATGCTGCAGAATATGGTCCGCCATCCGAACGCCGGAGCGGTGCTGGTGGTGGGCCTTGGCTGTGAAAACAACCAGGTGGATGCTTTTCGCGAAACGCTGGGCGAGTATGATCCGCAGCGCGTGCACTTTATGGTTTGTCAGCATCAGGACGATGAAGTGGAGGCAGGGGTGGCGCATCTCCACCAGCTGTATGACGTGATGCGTCAGGATAAACGTCAGCCGGGCAAGCTGAGCGAGCTGAAGTTTGGCCTCGAGTGCGGTGGGTCGGACGGCCTGTCCGGCATCACCGCTAACCCGATGCTGGGGCGTTTCTCAGACTATGTGATCGCCAACGGCGGCACTACCGTGCTGACCGAAGTGCCGGAGATGTTCGGCGCCGAACAGCTGCTGATGAGCCACTGCCGCGACGAAGCGACCTTCGACAAGCTGGTGACCATGGTCAATGACTTTAAGCAGTACTTTATCGCTCACGACCAGCCTATTTACGAAAACCCCTCGCCGGGCAACAAGGCCGGGGGGATCACCACCCTCGAAGATAAGTCGCTGGGCTGTACCCAGAAAGCGGGCTCCAGCCAGGTAGTGGATGTCCTGCGCTACGGCGAGCGTCTGAAGGTACATGGTCTGAACTTGCTGAGCGCGCCGGGCAATGATGCTGTCGCCACCAGCGCGCTGGCCGGCGCCGGCTGCCATATGGTGCTGTTCAGCACCGGCCGCGGCACGCCGTACGGCGGCTTTGTGCCGACGGTGAAGATCGCCACCAACAGCGAGCTGGCGGCAAAGAAAAAGCACTGGATCGACTTCGATGCCGGACAGCTGATCCACGGCAAAGCGATGCCGCAGCTGCTGGAGGAGTTCGTGGACACCATTGTGGCTTTCGCCAACGGCAAACCGACCTGTAATGAGCAGAATGACTTCCGCGAGCTGGCCATCTTTAAAAGCGGTGTTACCCTGTAA	MQYIKIHSQDNVAVALADITAGSVVTIDNDPVTLGQDIVRGHKFALRAIAKGENVVKYGLPIGHALADIAPGEHVHAHNTRTNLSDLDAYRYQPEQVAQPPQPADREVQIYRRANGDVGVRNELWILPTVGCVNAMARQMQNRFLKEANGAEDIDGVHLFSHTYGCSQLGDDHINTRTMLQNMVRHPNAGAVLVVGLGCENNQVDAFRETLGEYDPQRVHFMVCQHQDDEVEAGVAHLHQLYDVMRQDKRQPGKLSELKFGLECGGSDGLSGITANPMLGRFSDYVIANGGTTVLTEVPEMFGAEQLLMSHCRDEATFDKLVTMVNDFKQYFIAHDQPIYENPSPGNKAGGITTLEDKSLGCTQKAGSSQVVDVLRYGERLKVHGLNLLSAPGNDAVATSALAGAGCHMVLFSTGRGTPYGGFVPTVKIATNSELAAKKKHWIDFDAGQLIHGKAMPQLLEEFVDTIVAFANGKPTCNEQNDFRELAIFKSGVTL	PGPT0018305_1258	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
BMS020_02022	1413	uxaC_1	COG1904	Uronate isomerase	ATGACACCGTTTATGACCGAAGATTTTCTACTCGATAGCGAATTTGCCCGCCGCCTGTACCACGATTACGCCAAAGATCAGCCTATTTTCGACTACCATTGCCACCTTCCGCCGCAGCAGGTTGCCGAAAATTACCGTTTCAAAAATCTGTATGACATCTGGCTGAAAGGCGATCATTATAAATGGCGCGCGATGCGCACCAACGGCGTGCCGGAGCGTTTGTGTACCGGTGATGCCTCCGATCGCGAGAAATTTGACGCCTGGGCAGCCACCGTGCCTCACACGATTGGCAACCCGTTATACCACTGGACCCATTTAGAGCTGCGTCGCCCATTTGGTATTACAGGTAAGCTGCTGTCGCCTTCCACCGCCGATGAGATCTGGGACCAGTGCAATGCGTTACTGGCCCAGGACGCCTTCTCCGCCCGCGGGATCATGAAGCAGATGAATGTGAAGATGGTCGGCACCACCGACGATCCGATTGATTCCCTGGAACACCATGCGGTTGTCGCTAAAGACACTTCATTTGATATCAAGGTGTTGCCGAGCTGGCGCCCGGATAAAGCGTTCAACATCGAGCAGGCGACCTTCAATGACTATATGGCTAAGCTGGGTGAAGTGTCCGACACCGATATTCGCCGTTTTGCGGACCTGCAAAGCGCGCTGACCAAACGTCTGGACCACTTTGCCGCTCACGGTTGCAAAGTCTCCGACCACGCCCTGGACGTGGTGCTGTTTGCGGAAGCGACTGACGCCGAGCTGGACGCCATTCTGGCGCGTCGCCTGGCTGGCGAAACCCTCAGCGAACGCGAAGTGGCGCAGTTCAAAACCGCGGTGCTGGTGTTCCTCGGCGCAGAGTATGCCCGTCGCGGCTGGGTGCAGCAGTACCACATCGGCGCGCTGCGCAATAACAACCTGCGTCAGTTCAAACTGTTAGGCCCGGACGTTGGTTTTGACTCGATCAACGATCGCCCGATGGCTGAAGAGCTGTCTAAGCTGCTGAGCAAGCAGAACGAAGAGAACCTGCTGCCGAAAACCATTCTCTACTGCCTGAACCCGCGCGATAACGAAGTGCTGGGCACCATGATCGGTAACTTCCAGGGCGAAGGGATGCCGGGTAAGATGCAGTTCGGCTCTGGCTGGTGGTTCAACGATCAGAAAGACGGCATGGAGCGGCAGATGACCCAGCTGGCGCAGCTCGGCCTGCTGAGCCGCTTTGTCGGGATGCTGACCGACAGTCGCAGCTTCCTTTCCTACACCCGCCACGAATACTTCCGTCGTATTCTGTGCCAGATGATCGGCCGTTGGGTGGCCGCCGGCGAAGCGCCTGCGGATATCGCGCTGCTGGGCGAGATGGTGAAAAACATTTGCTTTAACAATGCGCGTGACTATTTCGCCATTGAACTGAACTAA	MTPFMTEDFLLDSEFARRLYHDYAKDQPIFDYHCHLPPQQVAENYRFKNLYDIWLKGDHYKWRAMRTNGVPERLCTGDASDREKFDAWAATVPHTIGNPLYHWTHLELRRPFGITGKLLSPSTADEIWDQCNALLAQDAFSARGIMKQMNVKMVGTTDDPIDSLEHHAVVAKDTSFDIKVLPSWRPDKAFNIEQATFNDYMAKLGEVSDTDIRRFADLQSALTKRLDHFAAHGCKVSDHALDVVLFAEATDAELDAILARRLAGETLSEREVAQFKTAVLVFLGAEYARRGWVQQYHIGALRNNNLRQFKLLGPDVGFDSINDRPMAEELSKLLSKQNEENLLPKTILYCLNPRDNEVLGTMIGNFQGEGMPGKMQFGSGWWFNDQKDGMERQMTQLAQLGLLSRFVGMLTDSRSFLSYTRHEYFRRILCQMIGRWVAAGEAPADIALLGEMVKNICFNNARDYFAIELN	PGPT0018210_630	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
BMS020_02023	1302	exuT_1		Hexuronate transporter	ATGCGTAAAATTAAAGGGTTACGTTGGTACATGATCGCACTGGTGACGCTGGGCACCGTGCTGGGCTACCTGACCCGTAACACCGTGGCGGCGGCCGCGCCGACGCTGATGGAAGAGTTACACATCTCGACCCAACAGTACTCCTATATCATTGCAGCCTATTCCGCTGCCTATACAGTCATGCAGCCTGTCGCAGGTTATGTCCTTGATATTCTGGGGACTAAAGTCGGCTATGCCTTCTTCGCTATCGCCTGGGCGATATTCTGCGGCTCGACCGCCCTCGCCGGCAGCTGGGGCGGACTGGCGCTGGCCCGCGGCGCGGTGGGCGCGGCGGAAGCGGCGATGATCCCCGCCGGGCTGAAAGCCAGCTCCGAATGGTTCCCGGCAAAAGAGCGCTCTATCGCGGTGGGCTACTTCAACGTAGGTTCCTCTATCGGCGCCATGATCGCGCCGCCGCTGGTGGTGTGGGCGATCGTCATGCACAGCTGGCAGATGGCGTTCATTATCTCCGGGGTTCTGAGCTTCGCCTGGGCCATCGCCTGGCTGATCTTCTACAAACACCCGCGCGACCAGAAGAAATTATCTGACGAAGAACGCGACTACATCATTGGCGGCCAGGAGTCTCAACACCAGACCAATAATGCGAAGAAAATGTCGCCGTGGGAGATCCTGCGCAACCGTCAGTTCTGGGGTATCGCCCTGCCGCGCTTCCTCGCCGAGCCGGCCTGGGGGACCTTTAACGCCTGGATCCCGCTGTTCATGTTTAAGGTTTACGGCTTTAACCTGAAAGAGATCGCGATGTTCGCCTGGATGCCGATGCTGTTCGCCGACCTCGGCTGCATCGTCGGTGGATACCTGCCGCCGCTGTTCCAGCGCTGGTTCGGCGTTAACCTGATCGTGTCGCGTAAAATGGTGGTCACCATGGGCGCCCTGCTGATGATTGGCCCGGGGATGATCGGCCTGTTCACCAGCCCGTACGTGGCGATTGCCCTGCTGTGCATCGGCGGGTTTGCTCACCAGGCGCTGTCCGGGGCGCTGATTACCCTCTCTTCCGACGTCTTTGGCCGTAACGAAGTCGCTACCGCCAACGGTCTGACCGGGATGGCCGCCTGGCTGGCGAGCACCATGTTCGCCCTGGTCGTCGGCGCGCTGGCAGACACCATCGGTTTCAGCCCGCTGTTTGCGGTACTGGCGGTCTTTGACCTGCTGGGCGCGCTGGTCATCTGGACGGTGCTGAAAAACAAACCGGCTGACGATGACACGACGCCGCTTAGCAGCCGCAAACCGGCCACCCAGAGTTAG	MRKIKGLRWYMIALVTLGTVLGYLTRNTVAAAAPTLMEELHISTQQYSYIIAAYSAAYTVMQPVAGYVLDILGTKVGYAFFAIAWAIFCGSTALAGSWGGLALARGAVGAAEAAMIPAGLKASSEWFPAKERSIAVGYFNVGSSIGAMIAPPLVVWAIVMHSWQMAFIISGVLSFAWAIAWLIFYKHPRDQKKLSDEERDYIIGGQESQHQTNNAKKMSPWEILRNRQFWGIALPRFLAEPAWGTFNAWIPLFMFKVYGFNLKEIAMFAWMPMLFADLGCIVGGYLPPLFQRWFGVNLIVSRKMVVTMGALLMIGPGMIGLFTSPYVAIALLCIGGFAHQALSGALITLSSDVFGRNEVATANGLTGMAAWLASTMFALVVGALADTIGFSPLFAVLAVFDLLGALVIWTVLKNKPADDDTTPLSSRKPATQS	PGPT0017205_717	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_HEXURONATE_TRANSPORT,PGPT0017205-exuT-K08191	NA	NA
BMS020_02024	777	lldR_2	COG2186	Putative L-lactate dehydrogenase operon regulatory protein	ATGGAAATCATTGAACCACGCCGTCTTTATCAGCAACTTGCCGCTGAGCTGAAGACGCGCATCGAACAAGGTGTCTACCTTGTAGGGGATAAGCTGCCCGCCGAGCGCTTTATCGCCGATGAAAAAAACGTTAGCCGCACCGTGGTTCGTGAAGCCATTATCATGCTGGAAGTGGAAGGCTATGTCGAAGTCCGCAAAGGGTCGGGCATTCACGTCATCTCCAACCATCCGAAATACCAGCAGGTGGCCGATGAAAGCCTGGAGTTCGCCAACTATGGCCCCTTTGAGCTGCTGCAGGCGCGGCAGCTTATTGAAAGCAATATCGCCGAATTCGCGGCCACTCAGGTGACCAAGCAGGACATCATGAAGCTGATGGAGATTCAGGAGAAAGCGCGCAACGAGAAGTGTTTCCGCGACTCCGAATGGGATCTGCAGTTTCACGTCCAGGTGGCGCTGGCCACGCAGAATAGCGCCCTGGCGGCGATCGTGGAAAAAATGTGGACCCAGCGCGTGCATAACCCGTACTGGAAAAAGCTGCATGAGCATATCGATCTGCGCACCGTCGATAACTGGTGCGACGACCACGATCAGATCCTGAAGGCTCTGCTGCGTAAAGATCCGAACGCCGCCAAACTGGCGATGTGGCAGCATCTGGAAAATACCAAGCAAATGCTGTTTAACGAAACCAGCGACGACTTTGAATTTAATGCCGATCGCTACTTATTTGCCGAAAACCCGGTGGTTCATCTCGATACCGCGGCCAACGGCGCGAAATAA	MEIIEPRRLYQQLAAELKTRIEQGVYLVGDKLPAERFIADEKNVSRTVVREAIIMLEVEGYVEVRKGSGIHVISNHPKYQQVADESLEFANYGPFELLQARQLIESNIAEFAATQVTKQDIMKLMEIQEKARNEKCFRDSEWDLQFHVQVALATQNSALAAIVEKMWTQRVHNPYWKKLHEHIDLRTVDNWCDDHDQILKALLRKDPNAAKLAMWQHLENTKQMLFNETSDDFEFNADRYLFAENPVVHLDTAANGAK	PGPT0018214_61	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_HEXONATE|HEXURONATE|HEXURONIDE_UTILIZATION,PGPT0018214-exuR-K19775	NA	NA
BMS020_02025	663	yqjA	COG0586	Inner membrane protein YqjA	ATGGAACTATTAACCCAGTTATTGAATGCCTTGTGGGCTCAGGATTACGAAACGCTCGCGAATCCCTCCATGATTGGCATGCTGTATTTTGTCTTGTTTATGATTTTGTTCCTTGAGAACGGGTTACTGCCTGCCGCGTTTTTGCCGGGGGACAGCCTGCTTGTGCTCGTGGGCGTGCTGATCGCCAAAGGGGCGATGGGCTTTCCGGAAACGTTGCTGCTGCTCACCGCCGCCGCCAGCCTCGGCTGCTGGCTGAGCTACATCCAGGGGCGTTGGCTGGGCAATACGCGGATCGTGCAAAACTGGCTGTCGCATCTGCCCTCTCACTATCATCAGCGCGCGCATCACCTGTTTCATAAACATGGGCTCTCCGCGCTGCTGATCGGCCGCTTCATCGCCTTCGTGCGCACGCTGCTGCCGACCATCGCCGGGCTTTCCGGCCTCAATAACGCCCGCTTTCAGTTCTTTAACTGGATGAGCGGCCTGCTGTGGGTGCTCATCCTGACCTCGCTGGGCTATCTGTTGGGCAAAACCCCGGTATTCCTTAAGTATGAAGATCAGCTGATGTCCTGCCTGATGCTCCTGCCGGTTGCGCTGTTGGTCTTCGGACTGGTCGGCTCGCTGGTGGTGCTGTGGAAGAAAAAATACAGAAGCCGGGGCTAA	MELLTQLLNALWAQDYETLANPSMIGMLYFVLFMILFLENGLLPAAFLPGDSLLVLVGVLIAKGAMGFPETLLLLTAAASLGCWLSYIQGRWLGNTRIVQNWLSHLPSHYHQRAHHLFHKHGLSALLIGRFIAFVRTLLPTIAGLSGLNNARFQFFNWMSGLLWVLILTSLGYLLGKTPVFLKYEDQLMSCLMLLPVALLVFGLVGSLVVLWKKKYRSRG	PGPT0004890_1222	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_TRANSPORT,PGPT0004890-dedA-K03975	NA	NA
BMS020_02026	387	mzrA		Modulator protein MzrA	ATGATGGTCATAAAACGCCCTTCCCTGCGCCAGCTCAGCTGGCTGCTGGGTGGCTCTCTTCTGCTCTGCGCGCTGTTCTGGCTCTGGCTGGCGGTGCAGCAGCAAGAGGCCACGCTGGCGATCCGTCCGGTTGGCCAGGGCGTCAGTATGCCGGATGGTTTCTCCGTCTGGCATCACCTCGACGCCAACGGTATCCGCTTCAAGAGCATTACGCCGCAAAAGGATGGCCTGTTGATTAAGTTTGATTCCACCGCCCAGGGCGCGGCGGCGAAAGAGGTTCTCGGCCGCGCTCTGCCTCATGGTTATATTATCGCCTTGCTGGAAGACGATAACTCGCCCACCGCCTGGTTATCCCGCCTGCGCGACGCGCCGCATCGGCTCGGGTAA	MMVIKRPSLRQLSWLLGGSLLLCALFWLWLAVQQQEATLAIRPVGQGVSMPDGFSVWHHLDANGIRFKSITPQKDGLLIKFDSTAQGAAAKEVLGRALPHGYIIALLEDDNSPTAWLSRLRDAPHRLG				NA	NA	NA	NA	NA
BMS020_02027	369	yqjC		Protein YqjC	ATGAAACACCGCATCGCTCTGCTTCTGGCCCTGTCTTCACTTAGCGCCAGCGCCATAGCCGCCTCTCCCTGCCAGGAAAAAGAGCAGGATATTCAACGAGAGATCAGCTATGCCGAAAAGCATCACAATCAAAGTCGCATTGATGGGCTAAATACCGCGCTACGCCAGGTACGGGAGAACTGCAGCGACAGTAAACTCAAAGCCGATCATCAGCAAAAAATTGCCAAACAGCGGGAAGAGATCGCTGAACGTCAGCGCGATCTGCAGGAAGCCCGGAAGAAAGGCGATGCGGACAAAATCAACAAACGCCAGCATAAACTCAATGAAGCGCAACAGGAGTTGAAAACGCTGGAGTCTCGGGATTACTAA	MKHRIALLLALSSLSASAIAASPCQEKEQDIQREISYAEKHHNQSRIDGLNTALRQVRENCSDSKLKADHQQKIAKQREEIAERQRDLQEARKKGDADKINKRQHKLNEAQQELKTLESRDY				NA	NA	NA	NA	NA
BMS020_02028	306	yqjD	COG4575	putative protein YqjD	ATGGCTAAAGAGAATGTGACTGACGACCTTCGTGCAGAACTGAAAACGCTGGCGGACACCCTGGAGGAAGTACTGAATTCCTCGGCGGACAAGTCGAAAGAAGAGATGGGTAAACTGCGCAGTAAAGCCGAGAGCGCGCTGAAAGAGAGCCGCGCCCGTCTGGGTGAGACCAGCGAAGCGATTCTGCGTCAAACTCGTGAGACCGCCGCGCGAGCGGATGATTATGTTCGCGAAAATCCGTGGACAGGGGTCGGGATTGGCGCCGCCGTCGGGCTGGTGCTGGGTGTCCTGCTGTCGCGTCGCTGA	MAKENVTDDLRAELKTLADTLEEVLNSSADKSKEEMGKLRSKAESALKESRARLGETSEAILRQTRETAARADDYVRENPWTGVGIGAAVGLVLGVLLSRR				NA	NA	NA	NA	NA
BMS020_02029	399	yqjE	COG5393	Inner membrane protein YqjE	ATGGCGAATACTCAACACACGCAGGGGCCGGGTCAGCGCGTCTTCTCCATTGGCCAGCGTATCGTTACGCTGCTGGTCGAAATGGTGGAAACACGGCTGCGCCTGGTCGTCGTGGAGCTGGAGGAGGAGAAAGCCAACCTCTTCCAGCTGCTGATCATGACCGGACTGACGCTGCTGTTTGCCGCGTTTGGCCTCATGAGTCTGCTGGTGCTGGTTATCTGGGCCGTTGACGCTCAGTACCGCCTGCACGTCATGATCGCCACCACCGTCGTGCTGCTTCTCGCCGCCGCGATTGTCGGTATCCTTACCTTACGTAAGGCGCGACGCTCCACGCTGCTGCGCCTGACGCGAAGAGAGCTGGAGAACGACCGTGCCCTTCTGGAGGAAGATAAACCATGA	MANTQHTQGPGQRVFSIGQRIVTLLVEMVETRLRLVVVELEEEKANLFQLLIMTGLTLLFAAFGLMSLLVLVIWAVDAQYRLHVMIATTVVLLLAAAIVGILTLRKARRSTLLRLTRRELENDRALLEEDKP				NA	NA	NA	NA	NA
BMS020_02030	297			hypothetical protein	ATGAATGGCCGACAGGAGCGTGAACGGCAAAAGGCGCAGCTGCTGCGCCAGATCCAGCAGCAACGGCTGGAGCTGAGCGCCTGTCGCCGCCACTGGCTGGAAGCGACTGCGCCCTTAGACCGCGGCTGGCATACGCTGCTTAGTTTACGTTCGTGGCTGATGGTGGGCAGCGGTCTGATGGCCGTGTGGTCCGTCCGACACCCGCATTTTTTAATGCGCTGGACCAAACGCGGACTGGGTTTATGGAGTACCTGGCGGCTGGTCCGCGGGATCCTGCGCCAGTCGGCAGTCCGTTAG	MNGRQERERQKAQLLRQIQQQRLELSACRRHWLEATAPLDRGWHTLLSLRSWLMVGSGLMAVWSVRHPHFLMRWTKRGLGLWSTWRLVRGILRQSAVR				NA	NA	NA	NA	NA
BMS020_02031	393	yqjF_1	COG2259	Inner membrane protein YqjF	ATGAAAAAATTAGAAGATGTTGGTGTACTGGTAGCGCGCATTCTGATGCCGATTCTGTTTATCACTGCAGGATGGGGCAAAATCACCGGTTATGCGGGAACCCAGCAGTATATGGAAGCCATGGGCGTACCGGGTGCGCTGCTGCCGCTGACCATTCTCCTTGAATTCGGCGGCGGACTGGCGATTCTGTTCGGTTTCCTGACCCGGACCACCGCGCTGTTCACCGCAGGCTTTACGCTGTTGACCGCGTTCCTGTTCCACAGCAACTTTGCGGAAGGCGTGAACTCCCTGATGTTCATGAAAAACCTGACCATCGCTGGCGGTTACCTGCTGCTGGCCATTACCGGACCGGGCGCCTTCAGTATCGACCGTGTACTGAATAAGAAATGGTAA	MKKLEDVGVLVARILMPILFITAGWGKITGYAGTQQYMEAMGVPGALLPLTILLEFGGGLAILFGFLTRTTALFTAGFTLLTAFLFHSNFAEGVNSLMFMKNLTIAGGYLLLAITGPGAFSIDRVLNKKW	PGPT0028505_6409	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
BMS020_02032	987	yqjG	COG0435	Glutathionyl-hydroquinone reductase YqjG	ATGGGACAATTAGTCGACGGCGTCTGGCAGGATACCTGGTATGACACAAAATCCACCGGTGGGCGTTTTAAGCGTTCCGTTTCCGCCTTCCGTAACTGGCTCACCGCCGATGGCGCGGCCGGACCGAGTGGTGAAGGGGGATTTGCGGCGGAAAAAGATCGCTATCATCTGTACGTCTCTCTCGCCTGCCCGTGGGCGCATCGCACGTTAATTATGCGTAAGCTGAAAGGACTGGAGCCTTTTCTCCCTGTCTCCGTGGTCAATCCGCTGATGCTGGAAAACGGCTGGACTTTTGACGACAGCTTCCCGGAAGCCACCGGTGACACCCTTTATCAGCACGATTTTCTCTATCAGCTGTATCTGCACGCCGACCCGCACTACACCGGTCGCGTCACCGTCCCGGTACTATGGGATAAAAAACAGCAGACCATCGTCAGCAATGAGTCGGCAGAAATCATCCGTATGTTTAATACCGCCTTCGATGGCCTGGGCGCCAGAACCGGGGATTACTACCCGCCGGCGCTGCGGGAAAAAATCGATGAACTGAACGGCTGGATATATGACAACGTCAATAACGGCGTGTATAAAGCCGGCTTTGCCACCAGTCAGCAGGCTTACGACGAAGCGGTGGATGCGGTGTTTACCTCGCTGGAGCGGCTGGAGCAGATCCTCGGTCAGCATCGTTACCTGACGGGCAATCAGCTGACGGAAGCGGATATTCGCCTGTGGACGACGCTGGTACGCTTCGACCCGGTGTATGTGACCCATTTTAAATGCGACAAACGACGCATCAGCGATTATCTCAATCTCTACGGCTTCCTGCGCGACATCTACCAGATGCCGGGTATCGCGGAGACGGTGAGCTTTCCGCATATTCGTCACCACTATTACCGCAGCCATAAAACCATTAACCCTACCGGCATCATCTCCATTGGGCCGCAGCAGGATCTCAGCGAACCACACGGTCGCGACCAGCGCTTCCGTTGA	MGQLVDGVWQDTWYDTKSTGGRFKRSVSAFRNWLTADGAAGPSGEGGFAAEKDRYHLYVSLACPWAHRTLIMRKLKGLEPFLPVSVVNPLMLENGWTFDDSFPEATGDTLYQHDFLYQLYLHADPHYTGRVTVPVLWDKKQQTIVSNESAEIIRMFNTAFDGLGARTGDYYPPALREKIDELNGWIYDNVNNGVYKAGFATSQQAYDEAVDAVFTSLERLEQILGQHRYLTGNQLTEADIRLWTTLVRFDPVYVTHFKCDKRRISDYLNLYGFLRDIYQMPGIAETVSFPHIRHHYYRSHKTINPTGIISIGPQQDLSEPHGRDQRFR	PGPT0013050_1515	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013050-yqjG-K07393	NA	NA
BMS020_02033	369	yhaH	COG3152	Inner membrane protein YhaH	ATGGACTGGTATCTCAAGGTATTAAAAAACTATATAGGATTTGGCGGCCGTGCGCGGCGCAAAGAGTACTGGATGTTTATTCTGGTCAACCTCATCCTGACCGGCGTATTGAGCATCATCGATAAAATGCTGGGCTGGCAGCGGGCGGGCGGCGAAGGCATTCTGACGACCATCTATGGCATACTGGTCTTTTTACCGTGGTGGGCGGTGCAGTTTCGGCGTCTGCATGACACCGACCGTTCGGCATGGTGGCTGCTGCTGCTGTTGATCCCGGTCATCGGCTGGCTGGTGATCCTGATCTTTAACTGCCAGCGCGGAACGGAAGGCAACAACCGATTCGGGCCCGATCCAAAACCCTTTTCCTACTGA	MDWYLKVLKNYIGFGGRARRKEYWMFILVNLILTGVLSIIDKMLGWQRAGGEGILTTIYGILVFLPWWAVQFRRLHDTDRSAWWLLLLLIPVIGWLVILIFNCQRGTEGNNRFGPDPKPFSY				NA	NA	NA	NA	NA
BMS020_02034	897	yhaJ_2		HTH-type transcriptional regulator YhaJ	ATGGCTAAAGAGAGAGCATTAACGCTGGAAGCGTTACGCGTGATGGATGCGATCGACCGTCGCGGGAGCTTCGCTGCCGCGGCTGATGAGCTGGGACGCGTGCCTTCCGCCCTGAGCTACACCATGCAAAAACTGGAGGAAGAGCTGGACGTGGTGCTGTTTGACCGCTCAGGTCATCGCACAAAGTTCACCAACGTCGGGCGTATGCTGCTGGAGCGCGGTCGCGTGCTGCTCGAGGCGGCGGACAAGCTCACCACCGATGCCGAAGCCCTGTCTCGCGGCTGGGAAACTCACCTGACGATCGTCACCGAAGCGCTGGTGCCCACGCCGGATCTGTTTCCGCTGATTGAGAAACTGGCGACCAAGTCCAATACCCAGCTGTCGATTATCACCGAGGTGCTGGCCGGCGCCTGGGAGCGGCTGGAGCAGGGGCGGGCGGATATCGTTGTCGCGCCGGATATGCATTTTCGTTCTTCCTCGGAGATTAACTCGCGCAAACTCTATTCGGTGCTCAGCGTGTACGTCGCGGCGCCGGACCACCCGATCCACCAGGAGCCTGAACCGCTCTCTGAGGTCACCCGCGTGAAATACCGTGGCGTCGCGGTGGCGGATACCGCGCGCGAGCGGCCCGTTCTCACCGTTCAGCTGCTGGATAAACAGCCGCGCTTAACGGTGAGCACCATTGAAGATAAGCGCCAGGCGCTGCTGGCCGGATTAGGCGTGGCGACCATGCCCTATCCGCTGGTGGAGAAGGATATTGCTGAAGGACGCTTGCGGGTGGTCAGTCCGGAATATACCAATGAAATTGACATTATCATGGCCTGGCGACGGGACAGCATGGGCGAAGCGAAGTCCTGGTGCCTGCGTGAGATCCCTAAGCTGTTTGCCGGCAGATAG	MAKERALTLEALRVMDAIDRRGSFAAAADELGRVPSALSYTMQKLEEELDVVLFDRSGHRTKFTNVGRMLLERGRVLLEAADKLTTDAEALSRGWETHLTIVTEALVPTPDLFPLIEKLATKSNTQLSIITEVLAGAWERLEQGRADIVVAPDMHFRSSSEINSRKLYSVLSVYVAAPDHPIHQEPEPLSEVTRVKYRGVAVADTARERPVLTVQLLDKQPRLTVSTIEDKRQALLAGLGVATMPYPLVEKDIAEGRLRVVSPEYTNEIDIIMAWRRDSMGEAKSWCLREIPKLFAGR				NA	NA	NA	NA	NA
BMS020_02035	702	yhaK	COG1741	Pirin-like protein YhaK	ATGATTACTACCCGAACAGCCAAACAATGCGGACAAGCAGACTTCGGCTGGCTGCAGGCCCGCTACACCTTCTCCTTTGGCCACTACTTCGACCCAAAATTACTGGGCTTCGCGTCCTTACGCGTTCTCAATCAGGAAGTGCTGGCCCCCGGGGCCTCGTTCCAGGCCAGAACTTATCCCAAGGTCGATATCCTGAACCTGATTCTGGAAGGCGAAGCGGAGTATCGCGACAGCGACGGCAATCACCTGCAGGCCAGGGCCGGCGACGCGTTGATTATCGCCACTCAGCCTGGCGTGAGCTATAGCGAGCACAATCTGAGCAAAGAGCAGTCGTTAACGCGAATGCAGCTATGGCTCGATGCCTGCCCGCAGCGGGAAAACCCGCTGCAGCAGAAAATCGAGGTCGCCAACGCGCCGCTACAGCTGCTGGCCTCACCGGATGGGGGGAATAATAGCCTCCAGCTTCGCCAGCAGGCCTGGGTCTATCACATCGCGCTGGAAAAAGGTGAGCAGATCAATGTGCAATTGCATGGCCCGCGCGCCTACCTGCAGTCGATCCACGGCACCGTCCATGCCGTCGCGCAGGAACAACCCAAACAGGCTCTCACCTGTGGTGATGGGGCATTTATTCGTGACGAAGCTAACATTACCCTCGTCGCCGATACGCCGCTGCGCGCTTTGCTGATAGATTTACCGGTGTAA	MITTRTAKQCGQADFGWLQARYTFSFGHYFDPKLLGFASLRVLNQEVLAPGASFQARTYPKVDILNLILEGEAEYRDSDGNHLQARAGDALIIATQPGVSYSEHNLSKEQSLTRMQLWLDACPQRENPLQQKIEVANAPLQLLASPDGGNNSLQLRQQAWVYHIALEKGEQINVQLHGPRAYLQSIHGTVHAVAQEQPKQALTCGDGAFIRDEANITLVADTPLRALLIDLPV	PGPT0019980_6425	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
BMS020_02036	168			hypothetical protein	GTGAGTAAGAAGAAAAACAGAAAAAAGGCGTCTCCGACGCCGCTAGCCCCGACGCCGCCGGAAACCGTCGGCGTCGTCAGCTTTGGTTATGATGAGATGCTTAGCGAACTGGAAGCCATCGTCGCCGAGGCGGAGATTCGCCTGCGGGATGAAGAAAGTCTCGCCTGA	MSKKKNRKKASPTPLAPTPPETVGVVSFGYDEMLSELEAIVAEAEIRLRDEESLA				NA	NA	NA	NA	NA
BMS020_02037	408			hypothetical protein	ATGACAAAAGTATCACGAGCTATATTATTGACCGCCGCCGTTGCAGGTTTTTCGCTGGCGGCGCAGGCCGCGGAAGTGACTGCGCCAGCACCCGCTAAGGACCCTATCGTCCAGCACTTAAAACTGACTCCCGATCAGGTGAGCAAAATTAACAGCCTGCATCAGCAAATGGAAAAAAACGTTGAGCAGATTTCACAGCAAGACATTAAAGATGGCGCGCTGATTAACGTGATTGATTCCGGTAAATGGAATGAGAAAGCGGTGAAGGATCAGCTGGCGGCATTCAGTAAAATTGATCAACAGGTACGTTATTATCGCGTGAAGTACTATTTTGATGTGAATCAGGTACTGACGCCGGAGCAGCGCACCCAGGTGAAAAAAGATCTTGCCGACGCGCTGAGTGAATAA	MTKVSRAILLTAAVAGFSLAAQAAEVTAPAPAKDPIVQHLKLTPDQVSKINSLHQQMEKNVEQISQQDIKDGALINVIDSGKWNEKAVKDQLAAFSKIDQQVRYYRVKYYFDVNQVLTPEQRTQVKKDLADALSE				NA	NA	NA	NA	NA
BMS020_02038	864	mscS_2	COG0668	Small-conductance mechanosensitive channel	GTGAAAAATGTAGTATTATTCCCGCAGCTCAAATCGGCAATAGCCTGGCTTATCGGTCATGGTGAAACAATTATGCAGTTTGCCTGGAATATCGTGGCAGCGCTGATTATTCTTTTTGTCGGGCGAATGCTTGCAAAAGTCCTCGCTAAAGCCTTCGAGAAAATTCTCTTACGACGCAACGTCGATGCGACAATCGTTCATTTCTTTGCTGCGCTCGTTCGTTATATTACGATGGCTTTTGCGATAATCGCCGCATTAGGTCGGGTAGGGATTGAGACGTCTTCCATCATCGCGGTTATTGGCGCGGCAGGGCTGGCAATTGGTCTGGCGCTGCAAGGTTCGCTTTCTAACTTTGCCGCTGGTGTTCTGTTAGTCACTTTACGTCCTTTTCGGGCCGGCAATTTTGTACAGGTCGGCGCGATTTCTGGTATGGTGCAGTCCGTACATGTTTTTTCAACAACGCTACTAACCGTTGATAATAAAGAAGTTATTATTCCAAATGGTAAAGTCATCGCCGACAGTATTGTGAATTATTCCTGCCATCCTTTTCGGCGAATCGATCTGACCCTCGGCGTGGCCAGTGAGACTAAAATTGTGCAGGTTAAGCAGGTCATTCAGGCTATCATTGATAGTGAAAAGCGAATCGATCAATCTCGTGGTACTACGGTTCGTCTGCTTGAAATGATGCCGGGCACACTTAACTTCACTGTTCGTGTCTGGGTGAAAAATAGCGAATATTGGGAGACTTATTTTGATTTTCTTGAGGCGATTAAAGAAGCGCTCGATGAACATCAGATCACCCTCGCCGCGCAACGGATGGATATTAATTTAACCACCTCGACGTTATCGGACCTAAAAAAATAA	MKNVVLFPQLKSAIAWLIGHGETIMQFAWNIVAALIILFVGRMLAKVLAKAFEKILLRRNVDATIVHFFAALVRYITMAFAIIAALGRVGIETSSIIAVIGAAGLAIGLALQGSLSNFAAGVLLVTLRPFRAGNFVQVGAISGMVQSVHVFSTTLLTVDNKEVIIPNGKVIADSIVNYSCHPFRRIDLTLGVASETKIVQVKQVIQAIIDSEKRIDQSRGTTVRLLEMMPGTLNFTVRVWVKNSEYWETYFDFLEAIKEALDEHQITLAAQRMDINLTTSTLSDLKK	PGPT0013773_1854	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013773-mscS|yggB-K03442	NA	NA
BMS020_02040	891	garR_2	COG2084	2-hydroxy-3-oxopropionate reductase	ATGACAATCAAAGTGGGTTTTATCGGTCTTGGCATTATGGGCAAGCCGATGAGCAAAAATTTGCTGAAGGCGGGTTACTCGCTGGTGGTGTCTGACCGTAACCCGGAAGCGATTGCCGACGTGATTGCCGCGGGCGCAGAGACCGCGACCACGCCGAAGGCGATTGCCGAGCAGTGCGATGTGATCATCACCATGCTGCCGAACTCGCCGCATGTCAAAGAGGTGGCGCTGGGGGAGAATGGCATTATTGAAGGCGCGAAACCGGGCACCGTGGTGATCGACATGAGCTCTATTGCGCCGCTGGCCAGCCGGGAAATCAGCGAAGCGCTGAAGGCTAAAGGCATTGATATGCTGGACGCGCCAGTAAGCGGCGGCGAACCAAAAGCGATCGACGGCACCCTGTCGGTAATGGTCGGCGGCGACAAGGCGATCTTCGACAAATATTACGAGCTGATGAAAGCGATGGCCGGTTCCGTGGTGCATACCGGCGACATCGGCGCGGGTAATGTGACCAAACTGGCCAATCAGGTGATTGTCGCCCTGAACATCGCTGCCATGTCCGAAGCGCTGACTCTGGCCACCAAAGCCGGCGTCAATCCGGATCTGGTTTATCAGGCGATCCGCGGTGGTCTGGCGGGGAGTACCGTGCTGGATGCCAAAGCGCCGATGGTGATGGATCGTAACTTCAAGCCGGGCTTCCGGATCGATCTGCATATTAAAGATCTGGCCAATGCGCTGGATACCTCCCACGGAGTGGGCGCTCAGCTGCCGCTGACGGCGGCGGTAATGGAGATGATGCAGGCGCTGCGTGCGGACGGTCTGGGCACCGCTGACCATAGCGCGCTGGCTTGTTACTACGAAAAGCTGGCGAAAGTGGAAGTGACTCGCTAA	MTIKVGFIGLGIMGKPMSKNLLKAGYSLVVSDRNPEAIADVIAAGAETATTPKAIAEQCDVIITMLPNSPHVKEVALGENGIIEGAKPGTVVIDMSSIAPLASREISEALKAKGIDMLDAPVSGGEPKAIDGTLSVMVGGDKAIFDKYYELMKAMAGSVVHTGDIGAGNVTKLANQVIVALNIAAMSEALTLATKAGVNPDLVYQAIRGGLAGSTVLDAKAPMVMDRNFKPGFRIDLHIKDLANALDTSHGVGAQLPLTAAVMEMMQALRADGLGTADHSALACYYEKLAKVEVTR	PGPT0018170_389	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
BMS020_02041	771	garL	COG3836	5-keto-4-deoxy-D-glucarate aldolase	ATGGATAACGCAATTTTCCCGAACAAATTTAAGGCCGCGCTGGCGGCTCATCAGGTGCAGATTGGCTGCTGGTGCGCGCTGGCCAATCCGATTAGCACCGAGGTGTTGGGTCTGGCGGGTTTCGACTGGCTGGTACTGGACGCGGAACACGCACCGAACGACGTCACCACACTTATCCCGCAGCTTATGGCGCTGAAAGGCAGTTCCAGCGCTCAGGTGGTTCGCGTGCCGACCAACGAGCCCATCATTATTAAGCGCATGCTGGATATCGGCTTCTATAACTTCCTGGTGCCGTTTGTCGAGACGGCTGAACAGGCGGCGCAGGCGGTGGCTTCTACCCGCTATCCGCCGGAGGGGATCCGCGGGGTTTCCGTTTCCCATCGCGGCAATATGTTCGGCACCGTGCCGGACTACTTCGCCCAGTCCAATAAGAACATTTCCGTTCTGGTACAGATTGAGAGCCAGATCGGGGTGGACAACGTCGAGGCGATTGCCGCGACCGAAGGTGTCGACGGCCTGTTCGTCGGCCCGAGCGACCTGGCCGCCGCGCTAGGTCATCTGGGCAATGCCGCCCATCCTGAGGTGCAGCGCGCCATCCAGCATATCTTCGCCAGCGCGAAGAAGCACGGTAAGCCAAGCGGCATTCTGGCGCCGGTGGAGGCCGATGCGCGGCGCTACCTGGAGTGGGGCGCCTCTTTTGTCGCCGTCGGCAGCGATCTGGGCGTCTTCCGTTCCGCAACCCAGAAACTTGCTGATGTCTTTAAAAAATAG	MDNAIFPNKFKAALAAHQVQIGCWCALANPISTEVLGLAGFDWLVLDAEHAPNDVTTLIPQLMALKGSSSAQVVRVPTNEPIIIKRMLDIGFYNFLVPFVETAEQAAQAVASTRYPPEGIRGVSVSHRGNMFGTVPDYFAQSNKNISVLVQIESQIGVDNVEAIAATEGVDGLFVGPSDLAAALGHLGNAAHPEVQRAIQHIFASAKKHGKPSGILAPVEADARRYLEWGASFVAVGSDLGVFRSATQKLADVFKK	PGPT0002090_209	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0002090-garL-K01630	NA	NA
BMS020_02042	1572	garD_1	COG2721	Galactarate dehydratase (L-threo-forming)	ATGGCCGATATTTCAATTCGACAACCATCGCCGACCGCGTTTTATATAAAAGTTGACCCAACAGATAATGTGGCGATTATTGTCAACGATCGGGGATTGACCGCCGGAACGCGTTTTCCGGACGGCCTGACGCTCATCGAGCACATCCCACAGGGGCATAAAGTCGCCCTGGCGGATATCCCTGCCCGCGGTGAAATTATCCGTTACGGAGAAGTCATTGGCTTCGCGGTGCGCGACATCCCCCAGGGAAGCTGGATTGACGAGTCGTTAGTGGAGTTGCCTACCGCCCCGCCGTTGAACACCCTGCCGCTGGCCACCAAAGTGCCCGCCCCGCTACCGCCGCTGGAAGGCTACACCTTCGAGGGCTACCGCAATGCCGACGGCAGCGTGGGCACCAAAAATCTGCTGGGTATCACCACCAGCGTGCACTGCGTTGCGGGCGTGGTCGATTACGTGGTGAAACTCATTGAACGCGACCTGCTGCCGAACTATCCCAACGTCGACGGCGTGGTGGGTCTGAATCACCTCTATGGCTGCGGCGTAGCGATTAATGCGCCAGCGGCGGTGGTGCCGATTCGCACCATCCACAATATCGCCCTTAACCCGAACTTCGGCGGCGAAGTGATGGTCATTGGCCTTGGCTGTGAAAAGCTGCAGCCCGAACGCCTGCTGCAGGGGACGGAAGATGTCAAAAGCATCCCGGTGGACAGCGCCAGCATCGTCAGCCTGCAGGATGAAAAGCACGTGGGCTTTAAATCAATGGTCGATGACATTCTGCAGGTCGCCGAGCGCCATCTGGCGAAACTCAACCAGCGTCAGCGGGAAACCTGCCCGGCCTCTGAGCTGGTGGTGGGTATGCAGTGCGGCGGCAGCGACGCTTTCTCCGGCGTGACCGCCAACCCGGCGGTGGGTTACGCCTCCGATCTGCTGGTGCGCTGCGGCGCGACGGTGATGTTCTCAGAGGTGACCGAAGTCCGCGACGCTATCCATCTGCTGACCCCGCGGGCAATCAACGAAGAGGTGGGTCAACGCCTGCTGGAAGAGATGGCCTGGTACGATAACTATCTCGACATGGGCAAAACCGACCGCAGCGCCAACCCCTCCCCCGGCAACAAGAAAGGCGGCCTGGCCAACGTGGTGGAAAAAGCGCTGGGGTCGATTGCCAAATCAGGCAAAAGCGCCATCGTTGAGGTGCTTTCCCCTGGGCAGCGCCCGACCAAACGCGGCCTGATTTACGCTGCCACCCCCGCCAGCGATTTTGTCTGCGGCACCCAGCAGGTGGCCTCTGGCATCACGGTGCAGGTATTCACCACCGGCCGCGGCACGCCTTACGGACTGATGGCGGTACCGGTGATAAAAATGGCGACCCGTACCGAGCTGGCTAACCGCTGGTATGACTTAATGGACATTAACGCCGGCACCATCGCCACCGGCGAAGAGACGATTGAGGATGTGGGGCTGAAGCTGTTCGAATTCATTCTCGACGTCGCCAGCGGACGCAAGAAAACCTTCTCCGATCAATGGGGTCTGCATAACCAGCTGGCGGTGTTTAACCCGGCGCCGGTGACCTGA	MADISIRQPSPTAFYIKVDPTDNVAIIVNDRGLTAGTRFPDGLTLIEHIPQGHKVALADIPARGEIIRYGEVIGFAVRDIPQGSWIDESLVELPTAPPLNTLPLATKVPAPLPPLEGYTFEGYRNADGSVGTKNLLGITTSVHCVAGVVDYVVKLIERDLLPNYPNVDGVVGLNHLYGCGVAINAPAAVVPIRTIHNIALNPNFGGEVMVIGLGCEKLQPERLLQGTEDVKSIPVDSASIVSLQDEKHVGFKSMVDDILQVAERHLAKLNQRQRETCPASELVVGMQCGGSDAFSGVTANPAVGYASDLLVRCGATVMFSEVTEVRDAIHLLTPRAINEEVGQRLLEEMAWYDNYLDMGKTDRSANPSPGNKKGGLANVVEKALGSIAKSGKSAIVEVLSPGQRPTKRGLIYAATPASDFVCGTQQVASGITVQVFTTGRGTPYGLMAVPVIKMATRTELANRWYDLMDINAGTIATGEETIEDVGLKLFEFILDVASGRKKTFSDQWGLHNQLAVFNPAPVT	PGPT0018155_149	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018155-garD-K01708	NA	NA
BMS020_02043	864	rsmI_1	COG0313	Ribosomal RNA small subunit methyltransferase I	ATGAAACAACACGAATCAGCGGATAATTCTCAGGGGCAGCTCTATATTGTGCCCACTCCGATAGGAAATCTGTCTGATATCACGCAGCGCGCACTGGAAGTGTTGCAAGCCGTTGATTTAATTGCTGCGGAGGATACCCGCCACACCGGTTTGCTGCTGCAGCATTTTGCGATTAACGCCCGCTTGTTTGCGCTTCATGACCATAACGAGCAGCAAAAGGCGGAAACACTTCTCGCTAAACTGAAAGAAGGGCAAAACATCGCGCTGGTCTCCGATGCCGGCACGCCGCTGATTAACGACCCAGGCTACCATCTGGTGCGCACCTGTCGTGAAGCGAATATTCGCGTCGTACCGCTGCCGGGACCCTGCGCGGCCATCGCCGCCCTCAGCGCCGCCGGTTTGCCCTCCGATCGTTTCTGCTATGAAGGCTTCCTGCCGGCGAAATCGAAAGGCCGTCGCGATACCCTGAAAGCGCTGGAAGAAGAGCCGCGCACCCTCATCTTCTACGAGTCGACCCACCGGCTGGTGGAGAGTCTGGAAGATATCTGCGCGGTACTGGGAGAATCCCGCTACGTGGTGCTGGCCCGCGAGCTAACCAAAACCTGGGAATCGATCCACGGGGCGCCGATTGGCGAGCTGGTGGCGTGGGTCAAGGAAGACGAAAACCGTCGCAAAGGCGAGATGGTGCTGATCGTCGAAGGCTTTAAGGCGCAGGAAGAGGCGCTGCCGGCGGCGGCGCTGCGTACCCTGGCGCTGCTGCAGGCGGAGCTGCCGCTGAAGAAAGCCGCTGCGCTGGCCGCGGAGATCCACGGTGTGAAGAAGAATGCGCTGTATAAGTATGCCCTGGAGCAGCAGGGGGAGTGA	MKQHESADNSQGQLYIVPTPIGNLSDITQRALEVLQAVDLIAAEDTRHTGLLLQHFAINARLFALHDHNEQQKAETLLAKLKEGQNIALVSDAGTPLINDPGYHLVRTCREANIRVVPLPGPCAAIAALSAAGLPSDRFCYEGFLPAKSKGRRDTLKALEEEPRTLIFYESTHRLVESLEDICAVLGESRYVVLARELTKTWESIHGAPIGELVAWVKEDENRRKGEMVLIVEGFKAQEEALPAAALRTLALLQAELPLKKAAALAAEIHGVKKNALYKYALEQQGE				NA	NA	NA	NA	NA
BMS020_02044	2109	lpoA_1	COG3107	Penicillin-binding protein activator LpoA	ATGGTACCGTCAACATTTCTTCGTTCTAAGCCCGCGCGCTGTCTGCCCGTATTGCTGGCTACTCTTCTTTTTGCTGGCTGCGGCACCCACACGCAGGATCAAAGTACGGCGTTTATGCAGGGTACGTCGCAGGCCAACTCCAGTTTCTACTTGCAGCAGATGCAGCAAAGCACGAATGATAGCAAGACCAACTGGCAATTACTCGCCATTCGTGCACTGCTGCAGGAAGGAAAGAAGCAGCAGGCCATCGACCTGTTTAACCAGCTGCCGTCGAACCTGGACAGCACCCAGGCCCGTGAACAGTCACTGCTGGCGATAGAAGTGAAGCTGGCGCAGAACGACTATCAGGGGGCCCGTACTCTGTTGGCTAAGCTTGACCCGGCAAGCCTGGAGCAGCCTCAGCAGGCGCGCTACTGGCAGGCGCAAATCGATGCCAGCCAGGGTAAACCATCGGTTACGCTTCTGCGCGCCTTAATCGCCCAGCAGCCGCTGCTGAGCGATGCCAAACAGCGCCAGCAAAATATTGACGCGACCTGGCAAGCGCTGACCGCGATGACCCAGGATCAGGCCAATGCGCTGGTGATCAATGCCGATGAAAATACCCTCCAGGGCTGGCTGGATCTGCAGCGGATGTGGTTTGACAACCGCAACGATCCCATGCTGCTGAAAGCCGGCGTCAAAGACTGGCAGACGCGCTACCCGCAAAACCCGGGCGCCAAAATGCTGCCGACGGCGCTGGTGAACATGCAAAACTATAAGCCCGCCTCCATCAACAAGATTGCGCTTTTCCTGCCGCTGAACGGCCAGGCGTCGATCTTCGGCCGTACCATCCAGCAGGGCTTCGAAGCCGCCAAAAACGGCGCGCCGTCGGTGACGGGCAGCGCGGTTCCCGCTCAGGTCGCCCAGGCGGCGAACGCGTCCGGTAATGATGACGTGGTAAGCCCGTCGCAGGCGGAAATTAGCGATCTTACGGCTACCGGAAGTCGCGCTGAACCGGTGCAGGCCCCGGCGCAAACCCAGGCAACGCCAGCCGCGGAGCCGGCCGCTCAGGCCCCGGCAGCGGTCGCCGCGCCGCAGACCACCGCCTCTCCGGCCACCCAGCCGGTCACTGCCCCGGCCGCACAGCCGCAGCCAGTGGTCGCCACCGCCGCCAACCCCTCGGCAGAACTGAAAATTTACGATACCACCAGCCAGCCGATCGGCCAGCTGCTTGCTCAGGCTCAGCAGGACGGCGCCACCCTCGTCGTCGGACCGCTGCTGAAAGAGAACGTCGAAGATGTTATCAAGAGCAATACGCCGCTCAACGTGCTGGCGCTCAACCAGCCGGAGAAGGTCGAAGGCCGCGCTAATATCTGCTATTTCGCGCTGTCGCCGGAAGACGAAGCGCGTGACGCCGCCCGACATATCCATCAACAGGGCAAACAGACGCCGTTGCTGCTGGTTCCGCGCGGCGCCCTGGGCGATCGTGTGGTCAGCGCGTTTGCCGACGAGTGGCTGAAGCTGGGCGGCGCCAGCGTCCTGCAGCAGCGTTTTGGCTCCACGGCGGAGCTGCGCGCCGGCGTTAACGGCGGAGGGGGCATTGCGCTGAGCGGCACCCCGGTCTCCACCCTGCCATCAGCGCAGAACAGCGTCCTCGGCAGTGCGGATGAGATGCCGGTTAGCAGCGGCGGCAGCGTCGACGCGGCCTACATCCTCGCCACCCCGGAACAGATTGGCTATATCAAACCCATGATCGCGATGCGCAACGGCAGCCAGAGCAATGTCACCCTGTACGCCAGCTCGCGCAGCGCGCAGGGCACCGCCGGTCCGGATTTCCGTCTGGAGATGGAAGGCCTGCAGTATAGCGAAATCCCGATGCTGGCTGGCAGCAACCCGGCGCTGATGCAGCAGGCGCTGTCTGCGGTGCGCAATGACTACTCGCTGGCGCGTCTGTATGCGATGGGCGCTGACGCCTGGTCGCTGGCAAACCACTTCACGCAAATGCGCCAGACGCCGGGCTTCGAGCTGAACGGGAATACCGGCGATCTGACGGCGACTCAGGACTGCGTGATTAACAGGAAACTGTCATGGCTCAAGTACCAGCAGGGACAAATCGTCCCGGCCAGCTAA	MVPSTFLRSKPARCLPVLLATLLFAGCGTHTQDQSTAFMQGTSQANSSFYLQQMQQSTNDSKTNWQLLAIRALLQEGKKQQAIDLFNQLPSNLDSTQAREQSLLAIEVKLAQNDYQGARTLLAKLDPASLEQPQQARYWQAQIDASQGKPSVTLLRALIAQQPLLSDAKQRQQNIDATWQALTAMTQDQANALVINADENTLQGWLDLQRMWFDNRNDPMLLKAGVKDWQTRYPQNPGAKMLPTALVNMQNYKPASINKIALFLPLNGQASIFGRTIQQGFEAAKNGAPSVTGSAVPAQVAQAANASGNDDVVSPSQAEISDLTATGSRAEPVQAPAQTQATPAAEPAAQAPAAVAAPQTTASPATQPVTAPAAQPQPVVATAANPSAELKIYDTTSQPIGQLLAQAQQDGATLVVGPLLKENVEDVIKSNTPLNVLALNQPEKVEGRANICYFALSPEDEARDAARHIHQQGKQTPLLLVPRGALGDRVVSAFADEWLKLGGASVLQQRFGSTAELRAGVNGGGGIALSGTPVSTLPSAQNSVLGSADEMPVSSGGSVDAAYILATPEQIGYIKPMIAMRNGSQSNVTLYASSRSAQGTAGPDFRLEMEGLQYSEIPMLAGSNPALMQQALSAVRNDYSLARLYAMGADAWSLANHFTQMRQTPGFELNGNTGDLTATQDCVINRKLSWLKYQQGQIVPAS				NA	NA	NA	NA	NA
BMS020_02045	387			hypothetical protein	ATGGCTCAAGTACCAGCAGGGACAAATCGTCCCGGCCAGCTAAGCAAACAGACCGGCGATGCATGGGAACACCGTGCTCGCCGCTGGCTGGAAGGCCAGGGCCTGCGTTTTATCGCCGCCAACGCCCGCGAGCGTGGCGGCGAAATTGACCTCATCATGCGCGACGGCGCCGTCACCGTCTTTGTCGAGGTGCGCTACCGCCGCAGCGCCCTGTACGGTGACGCGGCGGCCAGCGTCACCCCGCAAAAACAGCAACGCCTCCTTAAAGCCGCCCGTTTGTGGCTCTGCCGACAGAATGGGAGCTTTGAGACTGTGGATTGCCGTTTCGATGTGGTAGCCTTCACCGGAAACGACATCCAATGGCTAAAAAACGCCTTTGGCGAATAG	MAQVPAGTNRPGQLSKQTGDAWEHRARRWLEGQGLRFIAANARERGGEIDLIMRDGAVTVFVEVRYRRSALYGDAAASVTPQKQQRLLKAARLWLCRQNGSFETVDCRFDVVAFTGNDIQWLKNAFGE				NA	NA	NA	NA	NA
BMS020_02046	591	diaA	COG0279	DnaA initiator-associating protein DiaA	GTGCTCGACAGAATCAAAGCCTGCTTTACCGAAAGCATTCAAACCCAAATTGCCGCAGCAGAAGCACTCCCGGACGCCATCTCCCGGGCGGCGATGACGCTCGTGCATTCCCTGCTCAACGGCAACAAAATCCTCTGTTGTGGTAATGGCACTTCCGCCGCCAACGCACAGCATTTTGCTGCCAGCATGATTAATCGTTTTGAAACGGAACGCCCTGGTTTACCCGCCATTGCACTAAACACCGATAATGTGGTCTTAACTGCCATCGCTAACGATCGCCTGCATGACGAGATTTACGCCAAGCAGGTGCGCGCCCTGGGACACGCCGGCGATGTGCTGCTGGCAATCTCCACGCGCGGTAACAGCCGGGACATCGTCAAGGCAGTGGAAGCCGCCGTGACCCGCGACATGACCATCGTCGCGTTGACCGGCTATGACGGCGGTGAGCTGGCGGGCCTGTTAGGTCAGCAGGATGTCGAAATTCGCATCCCCTCGCACCGCAGCGCGCGTATCCAGGAGATGCATATGCTGACCGTCAACTGTCTGTGCGATTTGATAGATAACACTCTTTTTCCACACCAGGACGATTAA	MLDRIKACFTESIQTQIAAAEALPDAISRAAMTLVHSLLNGNKILCCGNGTSAANAQHFAASMINRFETERPGLPAIALNTDNVVLTAIANDRLHDEIYAKQVRALGHAGDVLLAISTRGNSRDIVKAVEAAVTRDMTIVALTGYDGGELAGLLGQQDVEIRIPSHRSARIQEMHMLTVNCLCDLIDNTLFPHQDD	PGPT0023030_1104	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-MANNO-HEPTOSE|-PHOSPHATE_MODIFICATION,PGPT0023030-gmhA|lpcA-K03271	NA	NA
BMS020_02047	576	osmY_2	COG2823	Osmotically-inducible protein Y	ATGAAGGCTCTCTCGCCCCTCGCCATCCTGCTTTCTGCACTACTGCTGCAGGGCTGCGTTGCCGCCGCGGTAGTCGGAACGGCAGCAGTCGGCACTAAAGCCGCTACGGACCCGCGTACGGTGGGAACCCAGGTCGATGACAGCACCCTGGAACTGCGCGTCAATAGCGCCTTGTCGAAAGATGAACAGATTAAGAAACAGGCCCGCATCAACGTTACCGCTTATCAGGGCAAAGTCCTGCTGACCGGTCAGTCGCCGACGCCGGACCTCTCAGCCCGCGCCAAGCAAATCGCCATGGGCGTGGAAGGAACCACGGAAGTATTTAACGAAGTGCGCCAGGGCCAGCCGATTGGTTTAGGCACCGCCTCTTCTGATACCTGGATTACCACCAAGGTGCGTTCACAGCTGCTGGGCACCGATCAGGTCAAATCCTCGAACGTGAAGGTGACCACGGAAAACAGCGAAGTCTTCCTGATGGGGCTGGTGACCGACCGTGAAGGCCGCGCGGCGGCGGATATCGCCAGCCGGGTGAGCGGCGTGTCCCGGGTGACTACCGCCTTTACCTACATCAAATAA	MKALSPLAILLSALLLQGCVAAAVVGTAAVGTKAATDPRTVGTQVDDSTLELRVNSALSKDEQIKKQARINVTAYQGKVLLTGQSPTPDLSARAKQIAMGVEGTTEVFNEVRQGQPIGLGTASSDTWITTKVRSQLLGTDQVKSSNVKVTTENSEVFLMGLVTDREGRAAADIASRVSGVSRVTTAFTYIK				NA	NA	NA	NA	NA
BMS020_02048	1041			hypothetical protein	ATGGCTGGTCAGTCTTCATCTCAGGCGGCGTCACCATTTCAATGGTGGAAACCCGCGCTTTTCTTTCTCGTCGTGATTGTCGGCCTGTGGTTCGTCAAATGGCAGCCGTACTACGGGAAAGCCTTCACCGCTGCGGAAACCCACAGTATCGGTAAATCCATTCTCGCCCAGGCCGACGCTAATCCGTTAAAGGCGGCGTGGGACTACGCGATGGTTTACTTCCTTGCCGTCTGGAAAGCGGCGGTGCTCGGCGTGCTGCTCGGGTCGCTGATTCAGGTGCTGATCCCGCGCGACTGGCTGCTGCGCACCCTGGGGCAATCGCGTTTTCAGGGGACGCTGCTGGGGGCGATTTTCTCGCTGCCAGGCATGATGTGCACCTGCTGCGCCGCGCCGGTCGCGGCCGGGATGCGCAAACAGCAGGTGTCGATGGGCGGGGCGCTGGCGTTCTGGATGGGCAATCCGCTGCTCAACCCGGCGACATTGGTGTTTATGGGCTTTGTTCTGGGCTGGCAGTTTGCGCTGGTTCGCCTGGTGGCGGGCCTGGCGACGGTGCTGATTGTCGCAACGCTGGTGCAAAAATGGGTAAAAGAGGCGGCGACGCAGCCTGCCGTGGTGCCTGAAGCGCAACCGGAAGCGGCCCAGGGCGGTTTCTTTAGCCGCTGGCTGCGGGCGCTGTGGACGTTGTTCTGGAACACCATCCCGGTTTATATCCTTGCGGTACTGGTGCTGGGGGCGGCGCGCGTCTGGCTGTTCCCGCACGCTGATGGCGTGGTGGATAATACCTTGTTCTGGGTCATCGCGATGGCGATCGCCGGCTGCCTGTTTGTGATCCCTACCGCGGCGGAAATTCCGATTGTCCAGACGATGATGCTGGCAGGGATGGGCGTCGCGCCGGCGCTGGCGCTGCTGATTACGTTGCCGGCGGTGAGCGTGCCGTCGCTGATTATGCTGCGCAAAGCCTTCCCGGCCAAAGCACTGTGGCTGACCGGCGGGCTGGTGGCGCTGTGCGGCGCGATTGTCGGTGCGCTGGCGCTGGTGTAG	MAGQSSSQAASPFQWWKPALFFLVVIVGLWFVKWQPYYGKAFTAAETHSIGKSILAQADANPLKAAWDYAMVYFLAVWKAAVLGVLLGSLIQVLIPRDWLLRTLGQSRFQGTLLGAIFSLPGMMCTCCAAPVAAGMRKQQVSMGGALAFWMGNPLLNPATLVFMGFVLGWQFALVRLVAGLATVLIVATLVQKWVKEAATQPAVVPEAQPEAAQGGFFSRWLRALWTLFWNTIPVYILAVLVLGAARVWLFPHADGVVDNTLFWVIAMAIAGCLFVIPTAAEIPIVQTMMLAGMGVAPALALLITLPAVSVPSLIMLRKAFPAKALWLTGGLVALCGAIVGALALV				NA	NA	NA	NA	NA
BMS020_02049	648			hypothetical protein	ATGAGTCAGGTATTATTGACCGGCGCGACCGGGTTAGTTGGCGGTCACTTACTCCGGCTGCTGCAGAATGAACCCCGCATCAGCACCATCGCCGCCCCGACGCGTCGCCCACTGGCGCCGGCGGAAGGCGTGTTTAATCCGTACGATCCGCAGCTGACCGATGCCCTGGCGCAGGTGGTCGACCCGGTCGACATTGTCTTCTGCTGTCTGGGAACGACGCGCCGGGAAGCGGGAAGTAAAGAGGCCTTTGTCCATGCCGACTTTACGCTGGTTGTTGATACGGCGCTGACCGGCAAACGGCTAGGCGCTCAGCATATGCTGGTGGTCAGCGCGATGGGCGCTAACGCCCACTCGCCGTTTTTCTACAATCGGGTGAAGGGGGAAATGGAGGCGGCGCTGATCGAGCAAGGATGGCCGCGGCTGACCATTGCCCGGCCGTCGATGCTGTCAGGCGAGCGGGAAAAAAAACGGACCAATGAGACCTTCCTCGAACCGCTGTTCCGACTCTTACCGGGGAACTGGAAATCCATTGCGGCCCGCGACGTGGCGATTGCCCTGCTGGAGGAGGCGCTGTCGCCCACTCACGAAGGGGTGCAAATTCTGTCATCGTCCGAGCTGCGGGAGCGCGCCGCGCGGCAGGCGGAATAG	MSQVLLTGATGLVGGHLLRLLQNEPRISTIAAPTRRPLAPAEGVFNPYDPQLTDALAQVVDPVDIVFCCLGTTRREAGSKEAFVHADFTLVVDTALTGKRLGAQHMLVVSAMGANAHSPFFYNRVKGEMEAALIEQGWPRLTIARPSMLSGEREKKRTNETFLEPLFRLLPGNWKSIAARDVAIALLEEALSPTHEGVQILSSSELRERAARQAE				NA	NA	NA	NA	NA
BMS020_02050	537	yhbO	COG0693	Protein/nucleic acid deglycase 2	ATGAGTAAAAAGATAGCCGTGCTCATTACCGACGACTTTGAAGATTCTGAATTTACCTCTCCCGCCGAGGCGTTTAAGCTCGCCGGGCATCAGGTCGTGACGATCGAAAAGCAGGCTGGCAAGACGGTGAAGGGTAAACAGGGAGAAGCAGAGGTCGCCATCGATCGGGCCATTGATGACGTCACACCGGGTGAATTTGATGCCTTGTTGCTGCCAGGGGGCTATTCCCCGGACCAGCTGCGCGGGGATGAACGCTTTGTCACCTTTACGCGCGATTTTGTCAACGGCGGGAAGCCGGTCTTCGCCATCTGCCACGGCCCGCAGCTGCTGATCAGCGCCGATGTGATCCGCGGGCGCAAGCTCACGGCGGTAAAACCGATCGTGGTGGATGTGAAAAATGCCGGGGGCGAGTTTTACGACCAGGAGGTGGTGGTCGATAACGAACAGCTGGTCACCAGCAGAACGCCGGACGATCTGCCGGCCTTCAATCGCGAAGCGCTACGCCTGCTCGGCGCCGGCATCGCGCCGCCAGTGTAG	MSKKIAVLITDDFEDSEFTSPAEAFKLAGHQVVTIEKQAGKTVKGKQGEAEVAIDRAIDDVTPGEFDALLLPGGYSPDQLRGDERFVTFTRDFVNGGKPVFAICHGPQLLISADVIRGRKLTAVKPIVVDVKNAGGEFYDQEVVVDNEQLVTSRTPDDLPAFNREALRLLGAGIAPPV	PGPT0015010_2630	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
BMS020_02051	444			hypothetical protein	ATGGATACGCTTGCCGCCATTGGCCGCTGGCTGAGTAAACAGCACGTCGTTACCTGGTGCGTCTCCCGTGACGACGAGCTGTGGTGTGCGAATGCCTTTTACGTCTATGACCCGGATACCGTGGCCTTTTATCTGCTCAGCGAGGAGCACACCCGCCACGGCCAGATGACCGGCGAGCGGGCGAAGGTGGCCGGGACGGTCAACGGTCAGCCCAAGACCGTGGCCCTGATCCGCGGCGTGCAGTTCCAGGGCGAGATCCGTCGTCTGCGCGGCGACGAAGAGGCGCGAATGCGCCAGCGCTACGTCAAGCGCTTCCCGGTGGCCCGCATGCTGTCGGCGCCGGTCTGGGAGATTCGTCCGGACGAAATCAAGTTTACCGACAACACGCTGGGATTCGGGAAAAAGCTACACTGGCGGCGCGATGCCGGCGCCGAGCAGGCGTAG	MDTLAAIGRWLSKQHVVTWCVSRDDELWCANAFYVYDPDTVAFYLLSEEHTRHGQMTGERAKVAGTVNGQPKTVALIRGVQFQGEIRRLRGDEEARMRQRYVKRFPVARMLSAPVWEIRPDEIKFTDNTLGFGKKLHWRRDAGAEQA				NA	NA	NA	NA	NA
BMS020_02052	321			hypothetical protein	ATGGTGCATACACCTTACCATAGTGACTTTGTGACCGTGTGCTGGTTTCTGTATCTCATTCGAACCGCGGATAATCGCCTCTATACCGGCATCACCACCGATGTGCCGCGCCGCTTTCGCCAGCATCAGGCAGGGAAAGGCGCGAAGGCGTTGCGCGGCAAAGGCGACCTGCGACTGGCCTTTAGTCATGAAGTTGGTGAACACTCACTTGCTTTGCGGCTGGAATACCGCATTAAGCAGCTAACGAAGCGCGAAAAAGAGCGCCTCGTTGCCGGAGAGGATACCGTTGAAACCCTGCTGGCAAGGCTTAAAAACGATTAA	MVHTPYHSDFVTVCWFLYLIRTADNRLYTGITTDVPRRFRQHQAGKGAKALRGKGDLRLAFSHEVGEHSLALRLEYRIKQLTKREKERLVAGEDTVETLLARLKND				NA	NA	NA	NA	NA
BMS020_02053	504			hypothetical protein	ATGCTGATTCGAGTGGAAATTGGGATTGATGCACCGGGAATCGACGCGCTGCTGCGTCGTACCTTCGGCCGCGATGCCGAAGCGCAGCTGGTGCACGATCTGCGTGAAGATGGACTGATCACGCTGGGGGTAGTGGCGACGGATGATGAAGGCCAGGTGATCGGCTACGTTGCCTTCAGCCCGGTTGCGGTGGAAGGTGAAGAGCTGCAGTGGGTCGGCCTGGCGCCGCTGGCGGTGGATGAACGCTATCGCGGACAGGGCATTGGCCGGCAGCTGGTCTATGAAGGGCTGGATTCGCTGAATGAGTTTGGCTATGCCGCGGTGGTGACGCTGGGCGACCCGGCGTTATACCGTCGCTTTGGTTTTGAACCGGCCGCGCGCTTCGATCTCCGCTGCCGCTGGCCGGACAGCGCGGAGGCGTTCCAGGTGCATCGCCTGGCGGATGACGCCCTCGAAGGCGTCCACGGCCAGGTCGAATACAGCGACCACTTTAATCGTTTTTAA	MLIRVEIGIDAPGIDALLRRTFGRDAEAQLVHDLREDGLITLGVVATDDEGQVIGYVAFSPVAVEGEELQWVGLAPLAVDERYRGQGIGRQLVYEGLDSLNEFGYAAVVTLGDPALYRRFGFEPAARFDLRCRWPDSAEAFQVHRLADDALEGVHGQVEYSDHFNRF				NA	NA	NA	NA	NA
BMS020_02054	525	ubiJ_1		Ubiquinone biosynthesis accessory factor UbiJ	GTGTTGGATAAACTGCGTTCCCGGCTGGTCCACTTTGGCCCGTCTTTAATGAGCGTGCCGGTTAAGCTGGCGCCTTTTGCCCTCAAGCGCCAGGTGCTGGAGCAGGTGCTTAGCTGGCAGTTTCGCCAGGCGCTGGCGGAGGGTGAGCTGGAGTTTCTCGAGGGGCGCTGGTTAAGTATTCATGTGCGTGACATCGGTCTGCTGTGGTATACCTCGGTAGTCGATGGTCGCCTGGTGGTCAGCCAGCAGGCCGACGCCGACGTCAGCTTCAGCGCCGACGCCAGCGATCTGTTAATGATCGCCGCGCGCAAGCAGGATCCGGATACGCTATTCTTCCAGCGTCGTCTGGTTATTGAAGGCGATACGGAGCTGGGGCTGTATGTAAAAAATTTGATGGACGCCATTGAGCTCGAGCAGATGCCCAAAGCGCTGCGCGTGATGTTGCTGCAACTGGCGGATTTTGTCGAAGCTGGACTGAAGAGCCCGCAGAAACCTGAACAGACATCGGTAGGTGAGGCATGCTGA	MLDKLRSRLVHFGPSLMSVPVKLAPFALKRQVLEQVLSWQFRQALAEGELEFLEGRWLSIHVRDIGLLWYTSVVDGRLVVSQQADADVSFSADASDLLMIAARKQDPDTLFFQRRLVIEGDTELGLYVKNLMDAIELEQMPKALRVMLLQLADFVEAGLKSPQKPEQTSVGEAC				NA	NA	NA	NA	NA
BMS020_02055	996	yhbU_1	COG0826	putative protease YhbU	ATGGAGCTGCTCTGCCCAGCCGGTAACCTTCCGGCGCTTAAGGCGGCCATCGAAAACGGCGCCGATGCCGTCTATATCGGGCTGAAAGATGACACCAACGCCCGCCACTTTGCCGGCCTTAATTTCACCGAAAAGAAACTGCAGGAAGCCGTCAGCTTTGTGCATCAGCACCGTCGTAAGCTGCATATCGCCATCAACACCTTCGCCCACCCCGACGGCTACGCCCGCTGGCAGCGCGCGGTGGATATGGCGGCTCAGCTGGGCGCCGATGCGCTCATTCTGGCCGATATCGCCATGCTGGAGTACGCCGCGGAGCGCTATCCGCACATCGAGCGTCACGTTTCCGTTCAGGCCTCGGCCACTAACGAAGAAGCGGTAAAATTTTATCATCGCAACTTTGACGTCGCCCGCGTGGTGCTGCCGCGCGTACTGTCTATTCACCAGGTCAAACAGCTGGCCCGCGCCACGCCGGTGCCGCTGGAGGTCTTCGCCTTCGGCAGCCTGTGCATCATGGCGGAAGGCCGCTGTTATCTCTCTTCCTACCTGACCGGCGAATCGCCCAATACCGTCGGCGCCTGTTCGCCTGCACGCTTCGTTCGCTGGCAGCAAACCCCGCAGGGGCTGGAATCGCGTCTCAATGAGGTGCTGATTGACCGCTATCAGGATGGGGAAAACGCGGGCTACCCAACGTTGTGTAAAGGCCGCTACCTGGTCGATGGCGAGCGCTATCACGCGCTGGAGGAGCCCACCAGCCTCAACACTCTGGAACTGTTGCCGGAGCTGATGGCCGCCAATATCGCCTCAGTGAAAATCGAAGGCCGTCAGCGCAGCCCAGCCTACGTCACCCAGGTGGCGAAAGTCTGGCGCCAGGCGATCGATCGCTGCAAAGCCGATCCGCAGAATTTCGTGCCGCAATCCGCATGGATGGAAACTCTTGGCTCCATGTCCGAAGGGACACAAACCACCCTTGGCGCCTATCACCGTAAATGGCAGTGA	MELLCPAGNLPALKAAIENGADAVYIGLKDDTNARHFAGLNFTEKKLQEAVSFVHQHRRKLHIAINTFAHPDGYARWQRAVDMAAQLGADALILADIAMLEYAAERYPHIERHVSVQASATNEEAVKFYHRNFDVARVVLPRVLSIHQVKQLARATPVPLEVFAFGSLCIMAEGRCYLSSYLTGESPNTVGACSPARFVRWQQTPQGLESRLNEVLIDRYQDGENAGYPTLCKGRYLVDGERYHALEEPTSLNTLELLPELMAANIASVKIEGRQRSPAYVTQVAKVWRQAIDRCKADPQNFVPQSAWMETLGSMSEGTQTTLGAYHRKWQ				NA	NA	NA	NA	NA
BMS020_02056	879			hypothetical protein	ATGAAATATTCATTAGGGCCGGTGCTTTACTACTGGCCAAAAGAGACGCTGGAGGATTTTTACCAGCAGGCGGCAAACTGCAGCGCCGACACCATTTATCTCGGCGAAGCGGTGTGCAGCAAACGCCGCGCCACCAAAGTCGGCGACTGGATCGAGATGGCGAAAGCGCTGGCCGGCAGCGGCAAGCAGGTGGTGCTGTCTACCCTCGCGCTGGTGCAGGCCTCCTCTGAACTGGGCGAGCTGAAGCGCTATGTCGATAACGGTGAGTTCCTGATTGAGGCCAGCGATTTGGGCGTGGTGAACCTCTGCGCCGAACGCAAGCTGCCGTTCGTCGCCGGGCATGCGCTGAACTGCTACAACGCCGTCACTCTGCGCCTGCTGCTTAAGCAAGGTATGGTGCGCTGGTGCATGCCGGTGGAGCTTTCCCGCGACTGGCTGGCTAATTTACTGACCCAGTGCGAAGAGCTGGGTATTCGCAATCAGTTTGAAGTCGAAGTGCTGAGCTACGGCCATCTGCCGCTGGCTTATTCCGCCCGCTGCTTTACCGCCCGCTCGGAAGATCGGCCAAAGGATGAATGCGAGACCTGCTGCATCAAGTACCCAACCGGGCGCAGCATGCTGTCCCAGGAGAACCAGCAGGTGTTCGTGCTCAACGGTATCCAGACCATGAGCGGCTATGTCTACAACCTGGGCAATGAGCTGACGTCCATGCACGGCCTGGTGGATATGGTGCGCCTGTCGCCGATGGGCAACGAGACCTTCGCCATGCTCGACGCCTTCCGCGCCAATGAAAACGGCGCTGCGCCGCTGGCGCTCACCGGCAACAGCGATTGCAACGGCTACTGGAAACGGCTGCCTGGGCTGGCGCTGCAGGCCTGA	MKYSLGPVLYYWPKETLEDFYQQAANCSADTIYLGEAVCSKRRATKVGDWIEMAKALAGSGKQVVLSTLALVQASSELGELKRYVDNGEFLIEASDLGVVNLCAERKLPFVAGHALNCYNAVTLRLLLKQGMVRWCMPVELSRDWLANLLTQCEELGIRNQFEVEVLSYGHLPLAYSARCFTARSEDRPKDECETCCIKYPTGRSMLSQENQQVFVLNGIQTMSGYVYNLGNELTSMHGLVDMVRLSPMGNETFAMLDAFRANENGAAPLALTGNSDCNGYWKRLPGLALQA				NA	NA	NA	NA	NA
BMS020_02057	1008			hypothetical protein	ATGACTGACAAATCTGTTCCGTTCTCGGTGCTCGATCTGGCGCCGATCCCGCAAGGATCTTCTGCTAAAGAAGCCTTTACCCACTCTCTGGATCTCGCCCGGCTGGCCGAATCGCGCGGCTATCACCGCTACTGGCTGGCGGAGCACCACAATATGGTCGGCATTGCCAGCGCAGCGACCTCGGTGCTCATTGGCTATCTCGCGGCCAATACCACCACCCTGCATCTGGGGTCCGGTGGCGTGATGCTGCCCAACCACTCTCCGCTGGTGATTGCTGAGCAGTTCGGCACCCTGAATACCCTCTATCCCGGGCGTATCGATCTCGGCCTTGGCCGCGCGCCGGGCAGCGATCAGCCCACCATGCGCGCCCTGCGTCGCCATATGAGCGGCGATGTCGATAACTTCCCGCGCGATGTGGCGGAACTGGTGGACTGGTTTGACGCCCGCGATCCGAACCCGCACGTGCGCCCGGTTCCTGGCTATGGCGAACGAATTCCGGTGTGGCTGCTGGGCTCAAGCCTCTACAGCGCCCAGCTGGCGGCGCAGCTCGGCCTGCCGTTCGCATTCGCTTCGCACTTCGCGCCGGATATGCTGTTCCAGGCCCTGCACCTGTATCGCAGCAACTTTACGCCCTCAGCGCGGCTGGAAAAACCGTATGCCATGGTGTGCATTAATATCATCGCCGCCGACAGCAACCGCGATGCGGAGTTTCTCTTCACTTCCATGCAGCAGGCGTTTGTGAAGCTACGTCGCGGCGAAACAGGACAGCTACCGCCGCCGGTGGAAAATATGCATCAGCTGTGGTCAGCGTCCGAGCAGTATGGCGTGCAGCAGGCGCTGCGCATGTCGCTGGTGGGTGATAAAACCAAAGTCCGCCACGGCTTAGAGTCGATTTTGCGGGAAACCGAGGCGGACGAAATCATGGTCAATGGCCAGATCTTCGACCACCAGGCGCGCCTGCATTCTTTCGATTTAGCGATGCAGGTGAAAGAGGAATTGTTGGGTTAA	MTDKSVPFSVLDLAPIPQGSSAKEAFTHSLDLARLAESRGYHRYWLAEHHNMVGIASAATSVLIGYLAANTTTLHLGSGGVMLPNHSPLVIAEQFGTLNTLYPGRIDLGLGRAPGSDQPTMRALRRHMSGDVDNFPRDVAELVDWFDARDPNPHVRPVPGYGERIPVWLLGSSLYSAQLAAQLGLPFAFASHFAPDMLFQALHLYRSNFTPSARLEKPYAMVCINIIAADSNRDAEFLFTSMQQAFVKLRRGETGQLPPPVENMHQLWSASEQYGVQQALRMSLVGDKTKVRHGLESILRETEADEIMVNGQIFDHQARLHSFDLAMQVKEELLG	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
BMS020_02058	1245	mtr	COG0814	Tryptophan-specific transport protein	ATGGCGACACTAACCACTACGGCAACCCGTCCGTCCCTGTTTGGCGGCGTGGTGATCATCGGCGGCACGATTATCGGCGCGGGCATGTTCTCGCTGCCGGTGGTGATGTCCGGCGCGTGGTTTTTCTGGTCGCTGGCGGCGCTGGTCTTCACCTGGTTCTGCATGTTGCACTCCGGTCTGATGATCCTCGAGGCCAACCTTAACTACCGGATCGGCTCCAGCTTCGACACCATTACCAAAGATCTGCTCGGCAAGGGCTGGAACCTGGTCAACGGCGTGTCGATCGCCTTTGTGCTGTATATTCTGACCTACGCCTATATTTCAGCCAGCGGCTCGATACTGCATCATACGTTTAGCGAGATGTCGCTGAACGTACCGGCGCGGGCGGCGGGTTTTGGCTTTGCGCTGCTGGTGGCATTTATCGTCTGGATGAGCACCAAAGCGGTGAGCCGCATGACGGCTATCGTGCTTGGCGCCAAGGTGATCACTTTCTTCCTGACCTTCGGCAGTCTGCTGGGGCACGTCGAGCCGACGACGCTGTTTAACGTCGCGGAAAAGAACGCCTCCTATGCGCCATACTTGCTGATGACGCTGCCGTTCTGCCTGGCCTCGTTTGGCTACCACGGCAACGTGCCGAGCCTGATGAAATACTACGGAAAAGATCCACGTACCATCATCCGCTGCTTAACCTACGGTACGTTGCTGGCGCTGGGTCTGTACGTGGTCTGGTTGCTGGTGACGATGGGCAATATCCCGCGCCCGCAGTTTATCGACATCGCGCAGAAGGGCGGCAACATTGATGTGCTGGTGCAGGCCCTGAGCGGGGTGCTGAACAGCCGGAGCCTGGATCTGCTGCTGGTGGTGTTCTCTAACTTTGCCGTCGCCAGCTCGTTCCTTGGCGTCACGCTGGGGCTGTTCGACTACCTGGCGGATCTGTTTGGCTTTGACGACAGCGCGCTGGGGCGCTTTAAAACTGCGCTGCTGACCTTTATTCCGCCGATGATTGGCGGGCTGGTGAAACCCGATGGCTTCCTCTACGCCATCGGCTATGCCGGTCTGGCGGCGACGATCTGGGCGGCGATTGTACCGGCGCTGCTGGCTCGCGCTTCGCGTAAACGCTTCGGCAGCCCACAGTTCCGCGTATGGGGCGGAACACCGATGATTGTGCTGATCCTGCTGTTTGGCCTGGGCAATGCGGTCGTGCACATTCTGTCGAGCGTTAATCTGCTGCCGGTTTACCAGTAA	MATLTTTATRPSLFGGVVIIGGTIIGAGMFSLPVVMSGAWFFWSLAALVFTWFCMLHSGLMILEANLNYRIGSSFDTITKDLLGKGWNLVNGVSIAFVLYILTYAYISASGSILHHTFSEMSLNVPARAAGFGFALLVAFIVWMSTKAVSRMTAIVLGAKVITFFLTFGSLLGHVEPTTLFNVAEKNASYAPYLLMTLPFCLASFGYHGNVPSLMKYYGKDPRTIIRCLTYGTLLALGLYVVWLLVTMGNIPRPQFIDIAQKGGNIDVLVQALSGVLNSRSLDLLLVVFSNFAVASSFLGVTLGLFDYLADLFGFDDSALGRFKTALLTFIPPMIGGLVKPDGFLYAIGYAGLAATIWAAIVPALLARASRKRFGSPQFRVWGGTPMIVLILLFGLGNAVVHILSSVNLLPVYQ	PGPT0020755_335	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_TRYPTOPHANE_TRANSPORT,PGPT0020755-mtr-K03835	NA	NA
BMS020_02059	1932	deaD	COG0513	ATP-dependent RNA helicase DeaD	ATGGCTGAATTCGAAACCACTTTTGCAGATCTGGGCCTGAAGGCTCCTATCCTTGAAGCGCTTACCGATCTGGGTTACGAAAAACCATCTCCGATCCAGGCTGAGTGCATTCCGCATCTGCTGGACGGCCGCGACGTTCTGGGTATGGCCCAGACCGGTAGCGGTAAAACCGCAGCGTTCTCTTTACCGCTGCTGAACAACATCGATCCTGAGCTGAGAGCACCACAGATCCTGGTGCTGGCGCCGACCCGCGAGCTGGCGGTACAGGTTGCTGAAGCAATGACGGAATTCTCTAAACATATGCGCGGCGTAAACGTGGTTGCCCTGTACGGCGGCCAGCGTTATGACGTGCAGCTGCGCGCCCTGCGTCAGGGTCCGCAGATCGTTGTCGGTACCCCGGGTCGTCTGCTGGACCACCTGAAGCGCGGCACCCTGGACCTCTCTAAACTGAGCGGCCTGGTACTGGATGAAGCAGATGAAATGCTGCGCATGGGCTTTATCGAAGACGTAGAAACCATTATGGCGCAGATCCCGGAAGGGCATCAGACCGCGCTGTTCTCCGCCACCATGCCGGAAGCGATCCGTCGCATTACCCGCCGCTTTATGAAAGAGCCGCAGGAAGTGCGTATTCAGTCCAGCGTGACGACTCGTCCGGACATCAGCCAGAGCTACTGGACTGCCTACGGCATGCGTAAAAACGAAGCGCTGGTGCGTTTCCTGGAAGCGGAAGATTTTGATGCGGCGATTATCTTCGTCCGTACCAAAAACGCGACCCTGGAAGTGGCTGAAGCGCTGGAGCGTAACGGCTACAACAGCGCGGCGCTGAACGGCGACATGAACCAGGCGCTGCGTGAGCAGACCCTGGAGCGTCTGAAAGACGGTCGTCTGGATATCCTGATTGCGACTGACGTTGCAGCCCGTGGTCTGGACGTTGAGCGTATCAGCCTGGTGGTGAACTACGACATCCCGATGGATTCCGAGTCTTACGTTCACCGTATCGGCCGTACCGGTCGTGCGGGCCGCGCCGGCCGCGCGCTGCTGTTCGTTGAGAACCGCGAGCGTCGTCTGCTGCGCAACATCGAACGTACGATGAAGCTGACCATTCCGGAAGTTGAACTGCCGAACGCAGAGCTGCTGAGCAAACGTCGTCTGGAAAAATTCGCCGCGAAAGTCCAGCAACAGCTGGAAAGCAGCGATCTGGACCAGTACCGTGCGCTGCTGGCGAAAATCCAGCCGACGGCGGAAGGCGAAGAGCTGGACGTGGAAACGCTGGCTGCTGCGCTGCTGAAAATGGCCCAGGGCGAACGCTCGCTGATCGTGCCGCCGGATGCGCCGATGCGTCCGCGTCGTGAGTTCCGTGACCGTGACGATCGCTTCGAGCGTCGTGGCGACCGCAACGACCGCGCTCCGCGTGGCGATCGCGAAGATCGTCCGAAGCGTGAGCGTCGTGACGTAGGCGATATGGAACTGTATCGCATTGAAGTGGGTCGCGATGACGGTGTTGAAGTACGTCATATCGTTGGCGCGATCGCTAACGAAGGCGATATCAGCAGCCGTTACATCGGTAACATCAAGCTGTTCGCTTCTCACTCCACCATCGAACTGCCGAAAGGGATGCCGGGCGAAGTGCTGCAGCACTTTACTCGTACCCGCATCCTGAACAAGCCGATGAACATGCAGCTGCTGGGCGATGCGCAGCCGCGCACCGAACGTCGTGGCGGCGGTGAACGTCGTGAAGGCGGTCGTAGCTTCGGCGGTGAGCGTCGTGAAGGCGGTCGTGGCTTCGGTGGCGAGCGTCGTGAAGGTGGTCGTGGTGATGGTCGTCGTTTCAGCGGCGAACGTCGTGAAGGCCGTGCGCCGCGTCGTGACGATGCATCCGCGCCGCGCCGCGATGACTCTGCCGGTCGCCGTCGCTTCGGTGGCGATGCGTAA	MAEFETTFADLGLKAPILEALTDLGYEKPSPIQAECIPHLLDGRDVLGMAQTGSGKTAAFSLPLLNNIDPELRAPQILVLAPTRELAVQVAEAMTEFSKHMRGVNVVALYGGQRYDVQLRALRQGPQIVVGTPGRLLDHLKRGTLDLSKLSGLVLDEADEMLRMGFIEDVETIMAQIPEGHQTALFSATMPEAIRRITRRFMKEPQEVRIQSSVTTRPDISQSYWTAYGMRKNEALVRFLEAEDFDAAIIFVRTKNATLEVAEALERNGYNSAALNGDMNQALREQTLERLKDGRLDILIATDVAARGLDVERISLVVNYDIPMDSESYVHRIGRTGRAGRAGRALLFVENRERRLLRNIERTMKLTIPEVELPNAELLSKRRLEKFAAKVQQQLESSDLDQYRALLAKIQPTAEGEELDVETLAAALLKMAQGERSLIVPPDAPMRPRREFRDRDDRFERRGDRNDRAPRGDREDRPKRERRDVGDMELYRIEVGRDDGVEVRHIVGAIANEGDISSRYIGNIKLFASHSTIELPKGMPGEVLQHFTRTRILNKPMNMQLLGDAQPRTERRGGGERREGGRSFGGERREGGRGFGGERREGGRGDGRRFSGERREGRAPRRDDASAPRRDDSAGRRRFGGDA				NA	NA	NA	NA	NA
BMS020_02060	885	nlpI	COG4785	Lipoprotein NlpI	ATGAAGCCTTTTTTGCGCTGGTGTTTCGTGGCGACAGCTCTCACGCTGGCAGGATGCAGTAGCACCGCCTGGCGTAAGGACGCCGTCCTCGCAGTACCATTGCAACCGACTTTACAGCAAGAAGTGATTCTGGCACGTATGGAACAAATTCTTGCCAGTCGGGCTTTATCCGATGACGAACGCGCACAGCTTTTATATGAGCGCGGAGTGTTGTATGATAGTCTCGGTCTGAGGGCATTAGCGCGAAATGATTTTTCACAAGCGCTGGCAATCCGACCCGATATGCCTGAAGTATTCAATTACTTAGGCATTTACTTAACGCAGGCAGGCAATTTTGATGCTGCCTATGAAGCGTTTGATTCTGTACTTGAGCTTGATCCAACTTACAACTACGCGCACTTGAACCGCGGTATCGCCCTGTATTACGGCGGCCGGGCTAAGTTAGCGCAAGATGATCTGCTGGCGTTTTATCAAGACGATCCCAATGATCCTTTCCGTAGCCTGTGGCTTTATATCGCCGAGCGTAAACTCGACGAGAAGCGGGCGCTTGAAGCACTCAGAGAGCGCTTAGACAAGTCGGACAAAGAGCAATGGGGATGGAACATTGTCGAGTTCTACCTTGGCGACATTAGCGAAAAAGAGCTGATGACTCGTCTGAAGGCAGACGCAACGGATAACACCTCGCTCGCTGAGCATCTCAGTGAAACCAACTTCTATTTAGGTAAGTACTACCTAAGTCTGGGGGACAAGGACAGCGCTACGGCACTGTTCAAACTGGCGGTCGCCAACAACGTACATAACTACGTTGAGCACCGATACGCATTGTTGGAATTATCGCTCTTGGGCCAGGAGCAAGATGACCTGGCAGAATCGGACCAGCAATAG	MKPFLRWCFVATALTLAGCSSTAWRKDAVLAVPLQPTLQQEVILARMEQILASRALSDDERAQLLYERGVLYDSLGLRALARNDFSQALAIRPDMPEVFNYLGIYLTQAGNFDAAYEAFDSVLELDPTYNYAHLNRGIALYYGGRAKLAQDDLLAFYQDDPNDPFRSLWLYIAERKLDEKRALEALRERLDKSDKEQWGWNIVEFYLGDISEKELMTRLKADATDNTSLAEHLSETNFYLGKYYLSLGDKDSATALFKLAVANNVHNYVEHRYALLELSLLGQEQDDLAESDQQ	PGPT0024495_314	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024495-nlpI|yhbM-K05803	NA	NA
BMS020_02061	2136	pnp_1	COG1185	Polyribonucleotide nucleotidyltransferase	TTGCTTAATCCGATCGTTCGTAAATTCCAGTACGGCCAGCATACCGTGACCCTGGAAACCGGCATGATGGCGCGCCAGGCAACGGCCGCTGTGATGGTTAGCATGGATGACACTGCGGTATTCGTGACCGTTGTGGGCCAGAAAAAAGCGAAGCCAGGCCAGGACTTTTTCCCGCTGACGGTTAACTACCAGGAGCGTACCTACGCTGCCGGTAAAATCCCGGGTGGTTTCTTCCGTCGTGAAGGCCGCCCAAGCGAAGGCGAAACCCTGATCGCGCGTCTGATTGACCGCCCGGTTCGCCCGCTGTTCCCGGAAGGCTTCGTTAACGAAGTTCAGGTTATCGCCACCGTGGTTTCCGTTAACCCGCAGGTTAACCCGGATATCGTCGCGATGATCGGCGCTTCCGCAGCGCTGTCCCTGTCTGGTATTCCGTTCAATGGCCCAATCGGCGCCGCGCGTGTGGGTTACATCAACGACCAGTACGTACTGAACCCAACCCAGGAAGAGCTGAAGTCCAGCAAACTGGATCTGGTGGTTGCCGGTACCGAAGCGGCCGTGCTGATGGTGGAATCCGAAGCGGAACTGCTGAGCGAAGACCAGATGCTGGGCGCGGTGGTCTTTGGCCACGAGCAGCAGCAGATTGTTATTCAGAACATCAACGACCTGGTGAAAGAAGCCGGTAAACCGCGTTGGGACTGGCAGCCGGAAGCCATCAACGAAGCGCTGAACGCGCGCGTGGCTGCGCTGGCTGAATCCCGCCTGAGCGATGCTTACCGTATCACCGACAAACAAGAGCGTTACGCTCAGGTTGATGTGATCAAATCTGAAACCATCGCTACGCTGGTTGCAGAAGATGAAACCCTGGACGCTAACGAACTGGGTGAAATCCTGCACGCTATCGAGAAAAACGTGGTTCGTAGCCGCGTGCTGGCCGGTGAGCCGCGTATCGATGGCCGCGAAAAAGATATGATCCGTGGTCTGGACGTTCGTACCGGCGTTCTGCCGCGTACTCACGGTTCCGCACTGTTCACCCGTGGCGAAACGCAGGCGCTGGTTACCGCGACTCTGGGTACCGCACGCGATGCGCAGAACATCGACGAACTGATGGGCGAGCGTACCGACTCCTTCCTGTTCCACTACAACTTCCCTCCGTACTCCGTAGGCGAAACTGGCATGGTGGGGTCTCCGAAGCGTCGTGAAATCGGTCACGGTCGTCTGGCTAAGCGCGGCGTTCTGGCCGTGATGCCGACTATCGACGAATTCCCGTACACCGTTCGCGTGGTGTCTGAAATCACCGAATCCAACGGCTCTTCTTCCATGGCTTCCGTCTGTGGTGCCTCTCTGGCGCTGATGGACGCTGGTGTGCCGGTGAAAGCCGCCGTGGCGGGTATCGCCATGGGCCTGGTGAAAGAAGGCGACAACTTCGTCGTGCTGTCTGACATCCTCGGTGACGAAGACCACCTTGGCGATATGGACTTCAAAGTAGCGGGTTCCCGCGACGGTATCTCTGCGCTGCAGATGGATATCAAAATTGAAGGTATCACCAAAGAAATCATGCAGGTTGCATTGAACCAGGCTAAAGGTGCGCGTCTGCACATCCTGGGCGTGATGGAGCAGGCGATTAACGCGCCGCGCGGCGACATCTCTGAATTCGCACCGCGTATCCACACCATCAAGATCAACCCGGACAAGATCAAAGACGTTATCGGTAAAGGCGGTTCTGTTATCCGTGCCCTGACCGAAGAGACCGGCACCACCATCGAAATCGAAGATGACGGTACCGTGAAGATCGCAGCGACCGACGGCGACAAAGCACAACATGCTATCCGTCGTATCGAAGAGATCACCGCTGAGATCGAAGTTGGCCGTATCTACAATGGTAAAGTGACCCGTATCGTTGACTTTGGCGCGTTCGTTGCCATCGGCGGCGGTAAAGAAGGTCTGGTTCACATCTCGCAGATCGCCGACAAGCGCGTTGAGAAAGTGACTGACTACCTGCAGATGGGTCAGGAAGTACCGGTTAAGGTTCTGGAAGTTGACCGCCAGGGCCGTGTCCGTCTGAGCATCAAAGAAGCAACTGAACAGACTCCGTCTGCCGCAGCGCCGGAAGTTCCGGCTGCCGAGCAGGGCGAGTAA	MLNPIVRKFQYGQHTVTLETGMMARQATAAVMVSMDDTAVFVTVVGQKKAKPGQDFFPLTVNYQERTYAAGKIPGGFFRREGRPSEGETLIARLIDRPVRPLFPEGFVNEVQVIATVVSVNPQVNPDIVAMIGASAALSLSGIPFNGPIGAARVGYINDQYVLNPTQEELKSSKLDLVVAGTEAAVLMVESEAELLSEDQMLGAVVFGHEQQQIVIQNINDLVKEAGKPRWDWQPEAINEALNARVAALAESRLSDAYRITDKQERYAQVDVIKSETIATLVAEDETLDANELGEILHAIEKNVVRSRVLAGEPRIDGREKDMIRGLDVRTGVLPRTHGSALFTRGETQALVTATLGTARDAQNIDELMGERTDSFLFHYNFPPYSVGETGMVGSPKRREIGHGRLAKRGVLAVMPTIDEFPYTVRVVSEITESNGSSSMASVCGASLALMDAGVPVKAAVAGIAMGLVKEGDNFVVLSDILGDEDHLGDMDFKVAGSRDGISALQMDIKIEGITKEIMQVALNQAKGARLHILGVMEQAINAPRGDISEFAPRIHTIKINPDKIKDVIGKGGSVIRALTEETGTTIEIEDDGTVKIAATDGDKAQHAIRRIEEITAEIEVGRIYNGKVTRIVDFGAFVAIGGGKEGLVHISQIADKRVEKVTDYLQMGQEVPVKVLEVDRQGRVRLSIKEATEQTPSAAAPEVPAAEQGE				NA	NA	NA	NA	NA
BMS020_02063	270	rpsO_1	COG0184	30S ribosomal protein S15	ATGTCTCTAAGCGTTGAAGCTAAAGCAAAAATCGTTTCTGAGTTTGGTCGTGGCGAAAACGACAGCGGTTCTACCGAAGTTCAGGTTGCACTGCTGACTGCACAGATCAACCACCTGCAGGGCCACTTTGCAGAGCACAAAAAAGATCACCACAGCCGTCGTGGTCTGCTGCGCATGGTTTCTCAGCGTCGTAAACTGCTCGACTACCTGAAACGTAAAGATGTTGCACGTTACTCTGCGCTGATCGAGCGTCTGGGTCTGCGTCGCTAA	MSLSVEAKAKIVSEFGRGENDSGSTEVQVALLTAQINHLQGHFAEHKKDHHSRRGLLRMVSQRRKLLDYLKRKDVARYSALIERLGLRR				NA	NA	NA	NA	NA
BMS020_02065	945	truB_1	COG0130	tRNA pseudouridine synthase B	ATGAGTCGTCCTCGTCGTCGCGGCCGCGACGTGCACGGCGTATTGCTGCTGGATAAGCCTCAGGGCGCCTCCAGCAACGATGTGCTGCAGAAAGTAAAGCGTATATATAACGCCAATCGCGCCGGACACACCGGCGCGCTGGATCCGCTGGCGACCGGTATGCTGCCGATCTGCCTTGGCGAAGCGACCAAGTTTTCCCAATACCTGCTGGACTCCGATAAGCGCTACCGCGTGATAGCTAAACTTGGCCAGCGCACCGATACCTCCGATGCCGATGGCCAGGTGGTGGAAGAGCGCCCGCTGACCTTTAGCGATGAACAGCTGGCGGCGGCGCTGGACAGCTTCCGCGGCGAGACGCAGCAGGTGCCGTCGATGTATTCGGCGCTGAAATATCAGGGCAAGAAGCTGTACGAATATGCCCGTCAGGGGATTGAGGTCCCGCGTGAAGCTCGGCCGATTACCGTTTATGAGCTGCTGTTTATTCGCCATGAAGGCGATGAACTGGAGCTGGAGATCCACTGCTCGAAAGGCACCTACATCCGGACGATTATCGATGATTTAGGTGAGAAGCTCGGCTGCGGCGCGCACGTGATTTTCCTGCGTCGCCTGGCGGTGAGCAAATACCCGGTTGAGCGGATGGTGACCCTCGAGCAGCTGCAGGCGCTGGTCGATCAGGCGGCGGCGCAGGATATTCCTGCCGCGCAGCTGCTCGATCCGCTGCTGATGCCGATGGACAGCCCGGCGTCGGACTATCCGCTGGTGACGATCCCGGAGACCTCCGCGGTCTACTTTAAAAACGGCAACCCGGTACGTCAGTCAGGCGCGCCGCTTAACGGGCTGGTGCGGGTGATGGAAAGCGAATCCGGCAAGTTTCTCGGCATGGGCGAAATTGACGATGAAGGCCGCGTGGCGCCGCGTCGTCTGGTGGTGGAATACCCGGCGTAA	MSRPRRRGRDVHGVLLLDKPQGASSNDVLQKVKRIYNANRAGHTGALDPLATGMLPICLGEATKFSQYLLDSDKRYRVIAKLGQRTDTSDADGQVVEERPLTFSDEQLAAALDSFRGETQQVPSMYSALKYQGKKLYEYARQGIEVPREARPITVYELLFIRHEGDELELEIHCSKGTYIRTIIDDLGEKLGCGAHVIFLRRLAVSKYPVERMVTLEQLQALVDQAAAQDIPAAQLLDPLLMPMDSPASDYPLVTIPETSAVYFKNGNPVRQSGAPLNGLVRVMESESGKFLGMGEIDDEGRVAPRRLVVEYPA				NA	NA	NA	NA	NA
BMS020_02066	402	rbfA_1	COG0858	30S ribosome-binding factor	ATGGCGAAAGAATTTGGTCGCCCGCAGCGCGTGGCCCAGGAGATGCAAAAAGAGATTGCTATCATCCTGCAGCGTGAAATTAAAGATCCGCGTCTGGGCATGATGACCACCGTTTCCGGTGTGGAAATGTCCCGTGACCTGGCCTATGCCAAGGTGTATGTCACCTTCCTCAACGACAAAGATGAAGCCGCGGTGAAAGCGGGCATCAAAGCGCTGCAGGAAGCCTCTGGCTTTATCCGCTCTCTGCTGGGGAAAGCGATGCGCCTGCGCATCGTGCCGGAGCTGACCTTCTTCTACGACAACTCACTGGTGGAAGGGATGCGTATGTCCAACCTGGTCACCAGCGTGGTGAAACACGACGATGAGCGTCGTGTGAACCCGGACGACAGCAAGGAGGACTGA	MAKEFGRPQRVAQEMQKEIAIILQREIKDPRLGMMTTVSGVEMSRDLAYAKVYVTFLNDKDEAAVKAGIKALQEASGFIRSLLGKAMRLRIVPELTFFYDNSLVEGMRMSNLVTSVVKHDDERRVNPDDSKED				NA	NA	NA	NA	NA
BMS020_02067	2691	infB_1	COG0532	Translation initiation factor IF-2	ATGACAGATGTGACTATTAAAGCGCTGGCCTCAGAGATTCAGACCTCTGTGGATCGCCTGATACAGCAATTTGCTGACGCAGGCATCCGCAAAACGGCTGATGATTCTGTGACCTCGCAAGAGAAACAAACTTTGTTGACGCACCTGAACCGTGAGCACGGTTCGGCGCCAGACAAGCTGACGTTACAGCGTAAGACGCGCAGTACGTTGAATATTCCAGGTACCGGTGGAAAGAGTAAATCGGTACAAATCGAAGTCCGCAAGAAACGCACCTTTGTGAAACGCGATCCGCAAGAGGCTGAACGCCTGGCCGCGGAAGAGCAGGCGCAGCGTGAAGCGGAAGAGCAGGCCCGTCGTGAAGCTGAAGAAGCAGCGAAACGCGAGGCGCAATTAAAAGCTGAACGTGAGGCCGCAGAACAAGCTAAACGTGAAGTCGCTGATAAAGCGAAACGTGAAGCTGCGGAAAAAGACAAAGTGAGCAATCAACATACCGACGAAATGACCAAAACCGCCCAGGCTGAAAAGATCCGTCGCGAGAACGAAGCCGCGGAACTGAAGCGCAAATCGGAAGAAGAAGCACGCCGCAAACTTGAAGAAGAAGCGCGCCGTGTAGCGGAAGAAGCACGCCGTATGGCAGAAGAAAACGAAAAAAATTGGTCTGAAACTTCAGACAGCCCGGAAGACACCAGCGACTATCACGTCACCACGTCACAGCATGCTCGTCAGGCTGAAGATGATAACGATCGTGAAGTCGAAGGTGGCCGCAGCCGCAGCCGTAGCAGCAAAGCGGCGCGTCCGGCGAAGAAAGGCAACAAACACGCTGAATCTAAAGCCGATCGTGAAGAAGCCCGTGCGGCCGTTCGCGGCGGTAAAGGTGGTAAGCACCGTAAAGGTTCCGCTCTGCAGCAGGGCTTCCAGAAGCCGGCGCAGGCCGTTAACCGTGACGTCGTGATCGGCGAAACCATCACCGTTGGCGAACTGGCTAACAAGATGGCGGTGAAAGGTTCGCAGGTCATCAAAGCGATGATGAAGCTGGGCGCCATGGCGACCATCAACCAGGTCATCGACCAGGAAACCGCACAGCTGGTTGCCGAAGAGATGGGCCACAAAGTTATCCTGCGTCGTGAAAACGAGCTGGAAGAAGCGGTAATGAGCGACCGTGACACCGGCGCGGCGGCTGAACCGCGCGCACCGGTTGTGACCATCATGGGTCACGTTGACCACGGTAAAACCTCGCTGCTGGACTACATTCGTTCCACTAAGGTTGCCTCCGGCGAAGCGGGTGGTATTACCCAGCACATCGGTGCTTACCATGTAGAAACCGACAACGGCATGATCACCTTCCTGGATACCCCGGGCCACGCCGCGTTTACCTCCATGCGTGCTCGTGGTGCGCAGGCGACGGATATCGTGGTTCTGGTGGTGGCGGCAGACGACGGCGTGATGCCGCAGACTATCGAAGCTATCCAGCACGCCAAAGCGGCGCAGGTGCCGGTGGTGGTTGCGGTGAACAAGATCGATAAGCCTGAAGCCGATCCGGACCGTGTGAAGAACGAACTGTCCCAGTACGGCATCCTGCCGGAAGAGTGGGGCGGCGAGAGCCAGTTCGTCCACGTCTCCGCGAAAGCCGGTACCGGTATCGACGACCTGCTGGACGCGATCCTGCTGCAGGCTGAAGTACTCGAGCTGAAAGCGGTCCGTAACGGGATGGCGAGCGGCGCGGTGATCGAATCCTTCCTTGATAAAGGTCGTGGTCCGGTCGCTACCGTTCTGGTTCGCGAAGGTACGCTGCACAAGGGCGATATCGTTCTGTGCGGCTTCGAATACGGTCGTGTGCGTGCGATGCGTGACGAACTGGGTCGCGAAGTGCTGGAAGCGGGTCCGTCCATTCCGGTGGAAATCCTCGGCCTGTCCGGTGTGCCGGCTGCCGGTGATGAAGTGACCGTGGTTCGTGACGAGAAAAAAGCGCGTGAAGTGGCGCTGTATCGTCAGGGCAAATTCCGTGAAGTTAAGCTGGCGCGTCAGCAGAAATCTAAACTGGAAAACATGTTCGCTAACATGACCGAAGGCGAAGTTCACGAAGTGAACATCGTGCTGAAAGCGGACGTACAGGGTTCTGTCGAAGCGATTTCCGATTCCTTACTGAAACTGTCTACCGACGAAGTGAAAGTGAAGATCATCGGTTCCGGCGTAGGTGGTATCACCGAAACCGACGCCACCCTGGCTGCAGCATCCAACGCGATTCTGGTTGGCTTCAACGTTCGTGCCGATGCCTCTGCGCGTAAAGTTATCGAAGCGGAAAGCCTGGATCTGCGTTACTACTCCGTCATCTATAACCTGATCGACGAAGTGAAAGCGGCGATGAGCGGCATGCTGTCTCCGGAACTGAAACAGCAGATCATCGGTCTGGCTGAAGTGCGTGATGTCTTTAAATCGCCGAAATTCGGCGCCATCGCGGGCTGTATGGTTACCGAAGGGACGATCAAACGTCACAACCCAATCCGCGTGCTGCGTGACAACGTGGTTATCTATGAAGGCGAGCTGGAATCCCTGCGCCGCTTCAAAGATGACGTTAACGAAGTCCGTAACGGCATGGAATGTGGTATCGGTGTGAAGAACTACAACGACGTTCGCGTTGGCGATATGATCGAAGTGTTCGAAATCATCGAAATCCAGCGTAGCATCGATTAA	MTDVTIKALASEIQTSVDRLIQQFADAGIRKTADDSVTSQEKQTLLTHLNREHGSAPDKLTLQRKTRSTLNIPGTGGKSKSVQIEVRKKRTFVKRDPQEAERLAAEEQAQREAEEQARREAEEAAKREAQLKAEREAAEQAKREVADKAKREAAEKDKVSNQHTDEMTKTAQAEKIRRENEAAELKRKSEEEARRKLEEEARRVAEEARRMAEENEKNWSETSDSPEDTSDYHVTTSQHARQAEDDNDREVEGGRSRSRSSKAARPAKKGNKHAESKADREEARAAVRGGKGGKHRKGSALQQGFQKPAQAVNRDVVIGETITVGELANKMAVKGSQVIKAMMKLGAMATINQVIDQETAQLVAEEMGHKVILRRENELEEAVMSDRDTGAAAEPRAPVVTIMGHVDHGKTSLLDYIRSTKVASGEAGGITQHIGAYHVETDNGMITFLDTPGHAAFTSMRARGAQATDIVVLVVAADDGVMPQTIEAIQHAKAAQVPVVVAVNKIDKPEADPDRVKNELSQYGILPEEWGGESQFVHVSAKAGTGIDDLLDAILLQAEVLELKAVRNGMASGAVIESFLDKGRGPVATVLVREGTLHKGDIVLCGFEYGRVRAMRDELGREVLEAGPSIPVEILGLSGVPAAGDEVTVVRDEKKAREVALYRQGKFREVKLARQQKSKLENMFANMTEGEVHEVNIVLKADVQGSVEAISDSLLKLSTDEVKVKIIGSGVGGITETDATLAAASNAILVGFNVRADASARKVIEAESLDLRYYSVIYNLIDEVKAAMSGMLSPELKQQIIGLAEVRDVFKSPKFGAIAGCMVTEGTIKRHNPIRVLRDNVVIYEGELESLRRFKDDVNEVRNGMECGIGVKNYNDVRVGDMIEVFEIIEIQRSID				NA	NA	NA	NA	NA
BMS020_02068	1488	nusA_1	COG0195	Transcription termination/antitermination protein NusA	ATGAACAAAGAAATTTTGGCTGTTGTTGAAGCCGTTTCCAACGAAAAAGCGCTGCCGCGTGAGAAAATTTTCGAAGCGCTGGAAAGCGCGCTGGCAACGGCCACCAAGAAAAAATACGAACAAGAGATCGACGTTCGCGTTGAAATCGACCGTAAGAGCGGCGATTTCGACACTTTCCGTCGCTGGCTGGTTGTAGAAGAAGTCACCCAGCCGACGCGCGAGATCACGCTGGAAGCCGCGCGTTTCGAAGATGAAAGCATGAACGTCGGCGACTACGTCGAAGATCAGATTGAATCTGTCACCTTCGACCGCATCACCACCCAGACCGCTAAACAGGTTATCGTGCAGAAAGTTCGCGAAGCCGAGCGCGCGATGGTGGTCGATCAGTTCCGCGAGCACGAAGGTGAGATCATCACCGGCGTGGTGAAAAAAGTGAACCGCGACAACATCACTCTGGATCTGGGCAACAACGCTGAAGCCGTGATCCTGCGTGAAGATATGCTGCCGCGTGAAAACTTCCGTCCGGGCGACCGCATTCGCGGCGTACTGTACGCCGTCCGTCCGGAAGCGCGTGGCGCCCAGCTGTTCGTGACCCGTTCCAAACCTGAGATGCTGATCGAACTGTTCCGCATCGAAGTGCCGGAAATCGGTGAAGAAGTGCTGGAGATCAAAGCGGCAGCTCGCGATCCGGGCTCTCGTGCCAAAATCGCGGTGAAAACCAACGACAAGCGTATCGACCCGGTTGGCGCTTGCGTCGGTATGCGCGGCGCGCGCGTGCAGGCGGTATCCACCGAGCTGGGCGGCGAGCGTATCGATATCGTCCTCTGGGATGATAACCCGGCGCAGTTCGTGATTAACGCTATGGCGCCGGCAGACGTCGCGTCCATCGTGGTGGATGAAGATAAACACACCATGGATATCGCGGTAGAAGCGGGCAACCTGGCGCAGGCGATTGGCCGTAACGGTCAGAACGTCCGCCTGGCCTCGCAGCTTAGCGGCTGGGAACTCAACGTGATGACCGTTGACGATCTGCAGGCTAAGCACCAGGCGGAAGCGCATGCCGCTATCGATACCTTCACCAAATATCTCGATATTGATGAAGATTTCGCGACAGTGCTGGTTGAAGAAGGCTTCTCCTCACTGGAAGAGCTGGCCTATGTGCCGATGAAAGAACTGCTGGAAATCGACGGTCTGGATGAAGCCACCGTTGAAGCACTTCGTGAGCGTGCGAAAAACGCACTGACTACGCTGGCGCTGGCTCAGGAAGAAAGCCTGGGAGATAACAAACCTGCCGATGATCTGTTGAATCTCGAAGGTCTGGATCGTGCCCTGGCATTCAAACTGGCTGCCCGTGGTGTTTGTACGCTGGAAGATCTCGCCGAGCAGGGCGTTGATGACCTGGCTGATATCGAAGGGATGACCGACGAGAAAGCTGGCGAGCTCATCATGGCCGCTCGCAACATTTGTTGGTTCGGCGACGAAGCGTAA	MNKEILAVVEAVSNEKALPREKIFEALESALATATKKKYEQEIDVRVEIDRKSGDFDTFRRWLVVEEVTQPTREITLEAARFEDESMNVGDYVEDQIESVTFDRITTQTAKQVIVQKVREAERAMVVDQFREHEGEIITGVVKKVNRDNITLDLGNNAEAVILREDMLPRENFRPGDRIRGVLYAVRPEARGAQLFVTRSKPEMLIELFRIEVPEIGEEVLEIKAAARDPGSRAKIAVKTNDKRIDPVGACVGMRGARVQAVSTELGGERIDIVLWDDNPAQFVINAMAPADVASIVVDEDKHTMDIAVEAGNLAQAIGRNGQNVRLASQLSGWELNVMTVDDLQAKHQAEAHAAIDTFTKYLDIDEDFATVLVEEGFSSLEELAYVPMKELLEIDGLDEATVEALRERAKNALTTLALAQEESLGDNKPADDLLNLEGLDRALAFKLAARGVCTLEDLAEQGVDDLADIEGMTDEKAGELIMAARNICWFGDEA				NA	NA	NA	NA	NA
BMS020_02069	423	rimP_1	COG0779	Ribosome maturation factor RimP	ATGCTCACTGCGCCGGTTGAAGCGCTTGGCTTTGAGCTGGTCGGCATCGAATTTATTCGCGGTCGCACATCTACACTGCGCATCTATATTGATAGTGAAGATGGCATCAACGTTGATGATTGTGCTGATGTGAGCCACCAGGTAAGCGCCGTCATGGATGTCGAAGACCCGATCACTGTCGCTTACAACCTGGAAGTCTCTTCGCCTGGTCTCGACCGTCCGATGTTCACCGCCGAACACTATCAACGTTTCACTGGCGAAGAAGTTGCGCTGGTGCTGCGCATGGCGGTTCAGAACCGTCGCAAATGGCAGGGCATTATCAAAGCGGTAGACGGTGAAATGATCACGGTAACCGTCGAAGGCAAAGATGAAGTGTTCGCGCTGAGTAACATCCAGAAGGCGAACCTGGTTCCCCACTTTTAA	MLTAPVEALGFELVGIEFIRGRTSTLRIYIDSEDGINVDDCADVSHQVSAVMDVEDPITVAYNLEVSSPGLDRPMFTAEHYQRFTGEEVALVLRMAVQNRRKWQGIIKAVDGEMITVTVEGKDEVFALSNIQKANLVPHF				NA	NA	NA	NA	NA
BMS020_02072	1344	argG_1	COG0137	Argininosuccinate synthase	ATGACGACGATTCTCAAGCATCTCCCGGTTGGTCAACGTATTGGTATCGCTTTCTCTGGTGGACTGGATACCAGCGCCGCGCTGTTATGGATGCGCAAAAAAGGCGCCGTGCCTTATGCATATACCGCTAACCTGGGTCAACCGGACGAAGACGACTACGATGCTATTCCGCGCCGCGCGAAAGAGTACGGCGCCGAAGGCGCCCGTCTGATCGACTGCCGCAAACAGCTGGTCGCTGAAGGGATCGCCGCGATTCAGTGTGGCGCTTTCCATAACACCACCGGCGGGTTGACCTACTTCAACACCACGCCGCTGGGCCGCGCGGTCACCGGCACCATGCTGGTAGCGGCAATGAAAGAAGACGGCGTCAACATCTGGGGCGATGGCAGCACCTATAAAGGCAACGATATCGAACGTTTCTATCGCTACGGCCTGCTGACCAACGCTGAACTGCAGATCTACAAACCGTGGCTGGACAGCGATTTCATCAATGAACTCGGCGGCCGTCACGAAATGTCCGAATTTATGATCGCCTGCGGCTTTGACTACAAAATGTCGGTCGAGAAAGCCTATTCCACCGACTCCAACATGCTCGGCGCTACCCACGAAGCGAAAGATCTGGAGTATCTGAATTCCAGCGTCAAGATCGTCAACCCGATTATGGGCGTAAAGTTCTGGGACGAAAACGTGAAGATCCCTGCGGAAGAGGTCACCGTACGTTTTGAGCAGGGTCACCCGGTAGCGCTTAATGGCAAAACCTTCGCCGATGACGTCGAGATGATGCTGGAAGCCAACCGCATCGGCGGTCGTCACGGCCTGGGCATGAGCGACCAGATCGAAAACCGGATTATCGAAGCGAAAAGCCGCGGCATTTATGAAGCCCCGGGGATGGCGCTGCTGCATATCGCTTACGAGCGTCTGCTGACCGGTATTCATAACGAAGATACTATCGAGCAATATCACGCTCACGGTCGCCAGCTGGGCCGTCTGCTGTATCAGGGCCGCTGGTTTGATTCCCAGGCGCTGATGCTGCGTGATTCGCTGCAGCGCTGGGTCGCCAGCCAGATCACCGGCGAAGTCACCCTTGAGCTGCGTCGCGGCAACGACTACTCGATCCTCAATACGGTATCAGACAACCTGACCTATAAAGCAGAGCGTCTGACCATGGAAAAAGGTGATTCCATGTTTACCGCTGAAGACCGTATCGGCCAGCTGACCATGCGTAATCTGGATATCACCGATACCCGCGAGAAGCTGTTCGGCTACGCGCAGTCTGGCCTGCTGAGCGCCTCCTCAGCGACGGGTTTACCGCAGGTTGAAAATCTGGAAAACAAAGGCAAATAA	MTTILKHLPVGQRIGIAFSGGLDTSAALLWMRKKGAVPYAYTANLGQPDEDDYDAIPRRAKEYGAEGARLIDCRKQLVAEGIAAIQCGAFHNTTGGLTYFNTTPLGRAVTGTMLVAAMKEDGVNIWGDGSTYKGNDIERFYRYGLLTNAELQIYKPWLDSDFINELGGRHEMSEFMIACGFDYKMSVEKAYSTDSNMLGATHEAKDLEYLNSSVKIVNPIMGVKFWDENVKIPAEEVTVRFEQGHPVALNGKTFADDVEMMLEANRIGGRHGLGMSDQIENRIIEAKSRGIYEAPGMALLHIAYERLLTGIHNEDTIEQYHAHGRQLGRLLYQGRWFDSQALMLRDSLQRWVASQITGEVTLELRRGNDYSILNTVSDNLTYKAERLTMEKGDSMFTAEDRIGQLTMRNLDITDTREKLFGYAQSGLLSASSATGLPQVENLENKGK	PGPT0020130_591	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020130-argG-K01940	NA	NA
BMS020_02073	630	iprA_5		Inhibitor of hydrogen peroxide resistance	ATGAATATTAAACCGCCTATCAGGCCGCAGAAGGCCATTGACCGATTGATCGATGTGCTTGAGCCACACGCGACGCCCGTTAACGCGATCGCCAGAAAAAGACTCACGTGGGAATATAAAGGCAAAACTCAGCTCTTTATTTTTAAAAAAGGCGAGTTGTCGATTATTCGTAATTCCGACAGGCTCTTGATGGTGACCGTCTATGAACCCCACCTTTTCGGCGTGGCGGAAATGCTGCAGCCCAGCCGCAGTCATAGCCTGCGTGCAGAGGTCTCATCCGAGCTGCTGCGTATCGACTACGATCTGGCGTCGGCGCTATTTCGTCAGCATAATCTGTGGGAAGAAGTGACAATCCTGCTGGCCTATCATACCTCGTATATGGTGTATCGTGACGATTTGGTATTGCAACAGCGAACCTATTCGGTGATCCGTAACCATCTGCTGGAAATGATGCTCTTAACTGAAGAGACACGACAGCGCGTATCTATTCTTGAATATATTCAGGACCGGACTCATCTCTCACGCAGCAGTATTCTTAATGTCTTGTCAGCCTTAAAGAAAGGCGGTTATATTGCCTTTGCCCGGGGGGGTTATTTACAAAGCATTGCCTCACTTCCTGAAAAATTCTGA	MNIKPPIRPQKAIDRLIDVLEPHATPVNAIARKRLTWEYKGKTQLFIFKKGELSIIRNSDRLLMVTVYEPHLFGVAEMLQPSRSHSLRAEVSSELLRIDYDLASALFRQHNLWEEVTILLAYHTSYMVYRDDLVLQQRTYSVIRNHLLEMMLLTEETRQRVSILEYIQDRTHLSRSSILNVLSALKKGGYIAFARGGYLQSIASLPEKF				NA	NA	NA	NA	NA
BMS020_02074	552			hypothetical protein	ATGAAGTCTATTGCTCCAAAAATGGTAGCCCTGATGATCGCTGTGGGGGCCAGCGGCGCCGCCTGCGCATCCGTTAATCTGCATGGTGAAGCCGGTAGCGAGTTTACCAATCTGTCTGCCAGCTTTGGCGCCGGGGAACCTGGAATGACGTTCAATACCCAGTGGGCGCATAGTGACAATGACGGCGACACCATTGGACTGGGTATGGGTTATAACTTCAACCTCGGGCCTTTCCTGATGACGCTGGGCGGTAAAGGCATCTATCTGAACCCTAAAGATGGGGATGAAGGTTACGCCATCGCCGCGGGTGGCGGAGCAGAGCTTCCTCTCGGCCAGTACTTCACGCTCTTCGGTGAGGGTTATTACTCGCCGGACTCGATGTCCAGCGGCGTCGATGATTATGTGGAGGCCAATGCCGGGGTACGCCTTAACGTGCTGCCGTCGCTGAATATCGAAGCAGGCTATCGATATATCGATATGGCGGGGAAAGACGGCCATCGCGACAACACCCTCGCCGACGGGGCCTACGCCGGGGTTAACTTCCGCTTTTAA	MKSIAPKMVALMIAVGASGAACASVNLHGEAGSEFTNLSASFGAGEPGMTFNTQWAHSDNDGDTIGLGMGYNFNLGPFLMTLGGKGIYLNPKDGDEGYAIAAGGGAELPLGQYFTLFGEGYYSPDSMSSGVDDYVEANAGVRLNVLPSLNIEAGYRYIDMAGKDGHRDNTLADGAYAGVNFRF				NA	NA	NA	NA	NA
BMS020_02075	402			hypothetical protein	ATGAACAAGATCGGGTTGCTTATCGTCGCCGGCGCGCTCGGTTTAGCGGGATGCAGTTCAACATCGCCATCCAAAACGGTGGAGACGATTAATGCGCTAACCGTACCGGTATCATACAGTGAGCCTGGCGTTGCAGCGAACAATGCCCAGGCGGTGACGCGCTATTTCCAGGACAATACGGCACTGATTGGCCGCCTTAACCATTCGTTGAAAAGCCATTATCTGCAGGATGTTGAGCGCCGCGATGTGTTCGACAGACACAGCGAGGCGTATCAGGTGTATGGCGCTCTGACCCGCCTGGAGCAGATGGCGTCCATGAATGAGGTTTACCGCAAAGAGAATAATGTTGCTGGCCTGCAGGAGATTAACCGCGTACTGAAAAGCGTGCCGCAGGCCAGTTAA	MNKIGLLIVAGALGLAGCSSTSPSKTVETINALTVPVSYSEPGVAANNAQAVTRYFQDNTALIGRLNHSLKSHYLQDVERRDVFDRHSEAYQVYGALTRLEQMASMNEVYRKENNVAGLQEINRVLKSVPQAS				NA	NA	NA	NA	NA
BMS020_02077	270	secG	COG1314	Protein-export membrane protein SecG	ATGCTGCAGCAAGGTAAAGGCGCTGATATGGGAGCCTCCTTCGGTGCAGGCGCTTCCGGCACACTGTTTGGGTCCAGCGGTTCTGGTAACTTCATGACCCGTATGACCGGCATCCTGGCTGCGCTGTTCTTCATCATCAGTCTGGCGCTGGGTAACATCAACAGCAACAAGACCAGTAAAGGAAGTGAGTGGGATAACCTGAGCGCGCCGAAAACAGAGCAAACTCAGCCAACTGCGCCGGCTCAGCCGACCAGCGATATCCCGCACTAA	MLQQGKGADMGASFGAGASGTLFGSSGSGNFMTRMTGILAALFFIISLALGNINSNKTSKGSEWDNLSAPKTEQTQPTAPAQPTSDIPH	PGPT0025720_1317	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025720-secG-K03075	NA	NA
BMS020_02078	1338	glmM_1	COG1109	Phosphoglucosamine mutase	ATGAGTAACCGCAAGTATTTTGGCACCGATGGTATTCGTGGCCGCGTCGGCGATGCGCCGATCACTCCGGAATTTGTGCTTAAGCTCGGCTGGGCGGCGGGCAAAGTGTTAGCGCGTCACGGCTCGCGTAAAATTATCATCGGCAAGGATACCCGTATTTCGGGCTATATGCTGGAATCGGCGCTGGAAGCCGGGCTGGCGGCAGCGGGGCTCTCTGCGTCGTTCACCGGGCCAATGCCAACGCCGGCGATCGCCTACCTGACGCGCGCCTTTCGCGCCGAGGCGGGGATCGTCATCTCCGCTTCACATAACCCCTTCTACGACAACGGCATCAAGTTCTTCTCCATTGAGGGCACCAAGCTGCCGGATGATGTGGAAGAGGCGATTGAAGCCGAAATGGAGAAAGAACTCACCTGTGTGGACTCGGCTGAGCTGGGCAAAGCCAGCCGCATCGTCGATGCCGCGGGCCGCTACATTGAGTTTTGTAAAGGCACCTTTCCTAACGAACTGAGCCTCTCCACGCTGAAAGTGGTGGTGGACTGTGCGCACGGCGCAACCTACCACATCGCGCCCAATGTTTTCCGCGAGCTGGGCGCCCAGGTTATCGCGATGGGCTGCGAGCCTAACGGCCTCAACATCAACGAAGAGGTCGGGGCCACCGACGTGCGGGCGCTGCAGGCGCGCGTGCTGGCGGAAAAAGCCGATCTGGGCATTGCCTACGATGGCGATGGCGATCGGGTGATCATGGTTGACCACGAAGGCAATAAAGTCGATGGTGACCAGATCCTCTACATCATCGCCCGGGAAGGGCTGCGTCAGGGACAGCTGCGCGGCGGCGCCGTCGGTACGCTGATGAGCAATATGGGCCTGGAGCTGGCGCTCAAGCAGCTGGGCATCCCGTTTGCCCGCGCTAAGGTGGGTGACCGCTATGTGCTGGAGATGCTCCAGGAAAAAGGCTGGCGCATCGGTGCGGAAAACTCCGGCCATGTGATCCTGCTGGATAAAACCACTACCGGCGATGGCATCGTCGCCAGTTTGCAGGTGGTCGCGGCGATGGTACGCAACCACATGAGCCTGCATGACCTGTGCAGCGGCATGAAGATGTTCCCTCAGCTGCTGGTGAATGTGCGCTTTACCGAGGGCAGCGGTAACCCTCTGGAGAATGAGCATGTCAAAGCGGTGACCGCAGAAGTGGAAGCGGCGTTAGGTAAGCGTGGCCGCGTCCTGCTGCGTAAATCGGGTACGGAACCGCTGATCCGCGTTATGGTGGAAGGCGAGCATGAAGATCAGGTGCACGAGTTTGCGCATCGCATCGCCGAAGCGGTAAAAAGCGTCTAA	MSNRKYFGTDGIRGRVGDAPITPEFVLKLGWAAGKVLARHGSRKIIIGKDTRISGYMLESALEAGLAAAGLSASFTGPMPTPAIAYLTRAFRAEAGIVISASHNPFYDNGIKFFSIEGTKLPDDVEEAIEAEMEKELTCVDSAELGKASRIVDAAGRYIEFCKGTFPNELSLSTLKVVVDCAHGATYHIAPNVFRELGAQVIAMGCEPNGLNINEEVGATDVRALQARVLAEKADLGIAYDGDGDRVIMVDHEGNKVDGDQILYIIAREGLRQGQLRGGAVGTLMSNMGLELALKQLGIPFARAKVGDRYVLEMLQEKGWRIGAENSGHVILLDKTTTGDGIVASLQVVAAMVRNHMSLHDLCSGMKMFPQLLVNVRFTEGSGNPLENEHVKAVTAEVEAALGKRGRVLLRKSGTEPLIRVMVEGEHEDQVHEFAHRIAEAVKSV	PGPT0018950_3142	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
BMS020_02079	849	folP_1	COG0294	Dihydropteroate synthase	ATGAAACTTGTAGCCCAGGGCTCAACCCTCGATCTCTCTCACCCCCACGTGATGGGTATTCTTAATGTGACGCCTGACTCCTTCTCCGATGGCGGCGCCCATAATTCGCTGATTGAGGCGGTGAAGCATGCCAATCTGATGATCAACGCCGGGGCGACCATCATTGATATCGGCGGTGAATCGACGCGGCCAGGGGCGGCTGAGGTTAGCGTGGAAGAGGAGCTTGCGCGGGTGATCCCGGTGGTGGAGGCTATCGCCCAGCGCTTTGAGGTGTGGATCTCCGTGGATACCTCCAAAGCGGAGGTTATCCGCGAATCCGCCCGGGCAGGGGCGCATATCATTAACGATATTCGTTCGCTGACCGAACCCGGCGCGTTGCAGGCTGCGGCGGAAACCGGGCTGCCGGTGTGTCTGATGCATATGCAGGGACAGCCGAAAACCATGCAGGAGGCGCCGAAGTATGAGGATGTCTTCGCCGATGTGGAGCGCTTTTTTAATGAACACATCGTGCGCTGCGAACAGGCAGGGATCGCAAAAGAAAAATTGCTGCTCGACCCGGGATTCGGTTTCGGTAAAAATCTCACCCACAATTATCAACTGCTGGCCAGGCTGGGAGAGTTTCATCACTTTGGTCTGCCGCTGCTGGTCGGTATGTCGCGTAAGTCGATGGTAGGTCAGTTGCTGAACGTCGGGCCGTCGGAACGGCTGAACGGCAGCCTGGCGTGTGCCGTCATTGCAGCAATGCAGGGCGCGCAGATTATCCGCGTCCATGATGTCAAAGAAACGGTAGAAGCGCTGCGCGTGGTGGAAGCCACTCTCGCCGCTAAGGGAAAAAAACGTTATGAGTAA	MKLVAQGSTLDLSHPHVMGILNVTPDSFSDGGAHNSLIEAVKHANLMINAGATIIDIGGESTRPGAAEVSVEEELARVIPVVEAIAQRFEVWISVDTSKAEVIRESARAGAHIINDIRSLTEPGALQAAAETGLPVCLMHMQGQPKTMQEAPKYEDVFADVERFFNEHIVRCEQAGIAKEKLLLDPGFGFGKNLTHNYQLLARLGEFHHFGLPLLVGMSRKSMVGQLLNVGPSERLNGSLACAVIAAMQGAQIIRVHDVKETVEALRVVEATLAAKGKKRYE	PGPT0007915_2988	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007915-folP-K00796	NA	NA
BMS020_02080	1935	ftsH_1	COG0465	ATP-dependent zinc metalloprotease FtsH	ATGGCGAAAAACCTAATACTCTGGCTGGTCATTGCCGTTGTGCTGATGTCAGTATTCCAGAGCTTTGGGCCCAGCGAGTCGAATGGCCGCAAGGTGGATTATTCTACCTTCCTGCAAGAGGTCAATCAGGACCAGGTTCGCGAAGCGCGTATCAACGGACGTGAGATCAACGTTACCAAGAAAGATAGTAACCGTTACACGACTTACATTCCGGTTAACGATCCGAAGCTGCTCGATAACCTGTTGACTAAAAACGTCAAAGTTGTTGGTGAACCACCAGAAGAGCCAAGCCTGCTGGCTTCCATCTTCATCTCCTGGTTCCCAATGCTGCTGTTGATCGGCGTCTGGATCTTTTTTATGCGGCAAATGCAGGGCGGCGGCGGAAAGGGCGCGATGTCCTTCGGCAAAAGCAAAGCCCGTATGCTGACGGAAGATCAGATCAAAACCACTTTTGCTGACGTTGCCGGGTGTGACGAAGCGAAAGAGGAAGTCGGCGAACTGGTGGAATACCTGCGTGAGCCGAGCCGCTTCCAGAAACTGGGCGGTAAGATCCCGAAAGGCGTCCTGATGGTCGGTCCTCCGGGTACCGGTAAAACGCTGCTGGCGAAAGCGATCGCTGGCGAAGCAAAAGTGCCGTTCTTTACTATTTCCGGTTCTGACTTCGTAGAAATGTTCGTCGGTGTTGGTGCATCCCGTGTGCGTGACATGTTCGAACAGGCTAAGAAAGCAGCGCCTTGCATCATCTTCATCGATGAAATCGACGCCGTCGGCCGCCAGCGTGGCGCCGGTCTTGGCGGTGGTCACGATGAACGTGAGCAGACCCTGAACCAGATGCTGGTTGAGATGGACGGCTTCGAAGGTAACGAAGGTATTATCGTTATCGCGGCGACTAACCGTCCGGACGTTCTTGACCCCGCGCTGCTGCGTCCGGGCCGTTTTGACCGCCAGGTGGTGGTTGGCCTGCCGGATGTTCGCGGTCGTGAGCAGATCCTGAAAGTGCATATGCGTCGCGTTCCGCTGGCGCCGGATATCGATGCGGCAATCATTGCTCGCGGTACCCCTGGCTTCTCTGGTGCGGACCTGGCCAACCTGGTCAACGAAGCGGCCCTGTTTGCTGCCCGCGGCAACAAACGCGTCGTATCGATGGTTGAGTTCGAAAAAGCGAAAGACAAAATCATGATGGGTGCGGAACGCCGCTCCATGGTGATGACGGAAGCGCAGAAAGAGTCCACCGCTTACCACGAAGCGGGCCACGCGATTATCGGTCGTCTGGTGCCGGAGCACGATCCGGTGCACAAAGTGACGATTATCCCGCGCGGTCGTGCGCTGGGTGTGACCTTCTTCCTGCCGGAAGGCGATGCGATCAGCGCCAGCCGTCAGAAACTGGAAAGTCAGATCTCCACCCTGTACGGCGGTCGTCTGGCGGAAGAGATTATCTACGGTCCGGAACATGTTTCTACCGGCGCGTCTAACGACATTAAAGTGGCGACGAACCTGGCGCGTAACATGGTGACCCAGTGGGGCTTCTCCGACAAACTTGGTCCGCTGCTGTACGCGGAAGAAGAGGGTGAAGTGTTCCTCGGCCGCAGCGTCGCGAAAGCGAAGCATATGTCCGATGAAACCGCACGTATCATCGACCAGGAAGTGAAATCGCTGATTGAGCGTAACTACGGTCGTGCTCGCCAGCTGCTGAACGACAACATGGACATTCTGCACGCGATGAAAGATGCGCTCATGAAGTATGAGACCATCGATGCGCCGCAGATTGACGACCTGATGGCTCGTCGCGATGTTCGTCCGCCAGCGGGTTGGGAAGAACCCGGTTCTTCTAACAACTCTGACAACAATGGCACGCCTCGTGCGCCGCGTCCGGTCGATGAACCGCGTACGCCGAACCCGGGCAACACCATGTCAGAGCAGCTGGGCGACAAATAA	MAKNLILWLVIAVVLMSVFQSFGPSESNGRKVDYSTFLQEVNQDQVREARINGREINVTKKDSNRYTTYIPVNDPKLLDNLLTKNVKVVGEPPEEPSLLASIFISWFPMLLLIGVWIFFMRQMQGGGGKGAMSFGKSKARMLTEDQIKTTFADVAGCDEAKEEVGELVEYLREPSRFQKLGGKIPKGVLMVGPPGTGKTLLAKAIAGEAKVPFFTISGSDFVEMFVGVGASRVRDMFEQAKKAAPCIIFIDEIDAVGRQRGAGLGGGHDEREQTLNQMLVEMDGFEGNEGIIVIAATNRPDVLDPALLRPGRFDRQVVVGLPDVRGREQILKVHMRRVPLAPDIDAAIIARGTPGFSGADLANLVNEAALFAARGNKRVVSMVEFEKAKDKIMMGAERRSMVMTEAQKESTAYHEAGHAIIGRLVPEHDPVHKVTIIPRGRALGVTFFLPEGDAISASRQKLESQISTLYGGRLAEEIIYGPEHVSTGASNDIKVATNLARNMVTQWGFSDKLGPLLYAEEEGEVFLGRSVAKAKHMSDETARIIDQEVKSLIERNYGRARQLLNDNMDILHAMKDALMKYETIDAPQIDDLMARRDVRPPAGWEEPGSSNNSDNNGTPRAPRPVDEPRTPNPGNTMSEQLGDK				NA	NA	NA	NA	NA
BMS020_02081	630	rlmE_1	COG0293	Ribosomal RNA large subunit methyltransferase E	ATGACAGGTAAAAAGCGTTCTGCCAGCTCAAGCCGCTGGCTTCAGGAACACTTTAGCGATAAATATGTTCAACAGGCACAGAAAAAGGGGTTACGTTCCCGTGCCTGGTTTAAACTTGATGAAATACAGCAAAGTGACAAAATTTTTAAGCCGGGGATGACGATAGTTGACCTCGGCGCTGCTCCCGGGGGCTGGTCGCAGTATGCGGTCACGCAGATCGGCAACAGCGGCCGCATCATCGCTTGCGATCTTTTACCAATGGATCCAATCGTTGGTGTGGACTTCCTTCAGGGCGACTTTCGTGATGAATTAGTCCTGAAAGCGTTACTTGAGCGAGTAGGCGACAGTAAAGTACAAGTGGTCATGTCCGATATGGCGCCGAATATGTGCGGAACACCGGCGGTGGATATTCCCCGGGCGATGTATCTGGTAGAACTGGCGCTTGAAATGTCTCGTGATGTATTAGCGCCAGGTGGTAGTTTTGTAGTGAAGGTGTTCCAGGGCGAAGGCTTCGATGAGTATCTTCGAGAAATTCGCTCCCTGTTTACGAAGGTCAAAGTTCGTAAGCCGGACTCTTCCCGCGCTCGTTCGCGTGAAGTGTATATTGTAGCGACCGGGCGTAAACCATAA	MTGKKRSASSSRWLQEHFSDKYVQQAQKKGLRSRAWFKLDEIQQSDKIFKPGMTIVDLGAAPGGWSQYAVTQIGNSGRIIACDLLPMDPIVGVDFLQGDFRDELVLKALLERVGDSKVQVVMSDMAPNMCGTPAVDIPRAMYLVELALEMSRDVLAPGGSFVVKVFQGEGFDEYLREIRSLFTKVKVRKPDSSRARSREVYIVATGRKP				NA	NA	NA	NA	NA
BMS020_02082	333	yhbY_1	COG1534	RNA-binding protein YhbY	ATGACCCGTTTTCAATCCCAACGTAAGCAAAAAAATACGATGAATCTGAGTACTAAACAAAAACAGCACCTGAAAGGTCTGGCACATCCGCTCAAGCCGGTAGTTATGCTTGGCAACAATGGTTTGACCGAAGGGGTACTGGCCGAGATCGAACAAGCGTTAGGGCACCATGAACTCATCAAGGTGAAGATCGCCTCAGAAGATCGCGAAACTAAAGCCTTGATCGTGGAAGCCATCGTGCGCGAAACCGGCGCCTGTAACGTACAGGTCATCGGTAAAACGCTGGTTCTGTACCGCCCAACGCCAGAGCGTAAAATCTCGCTGCCACGCTAA	MTRFQSQRKQKNTMNLSTKQKQHLKGLAHPLKPVVMLGNNGLTEGVLAEIEQALGHHELIKVKIASEDRETKALIVEAIVRETGACNVQVIGKTLVLYRPTPERKISLPR				NA	NA	NA	NA	NA
BMS020_02083	477	greA_1	COG0782	Transcription elongation factor GreA	ATGCAAGCGATTCCGATGACCTTACGTGGCGCTGAAAAACTGCGCGAAGAACTGGATTATCTGAAGTCTGTGCGTCGTCCTGAAATCATTGCCGCTATTGCTGAGGCCCGTGAACACGGCGATCTGAAAGAGAATGCCGAGTATCACGCCGCGCGTGAACAGCAGGGCTTCTGCGAAGGGCGTATCAAGGATATCGAAGCGAAGCTGTCCAATGCGCAGGTTATCGATATCACCAAAATGCCGAACAATGGCCGGGTGATTTTTGGCTCTACTGTCAGCGTGCTGAACCTCGATACTGACGAGGAACAGACCTACCGTATCGTGGGCGATGACGAAGCTGATTTTAAGCAGAATCTGATCTCCGTGAACTCGCCGATTGCCCGTGGTCTGATCGGTAAAGAGCAGGATGACGTCGTGACTATCCGTACACCGGGTGGGGAAGTGGAATACGAAATTACCAAGGTTGAATACCTGTAA	MQAIPMTLRGAEKLREELDYLKSVRRPEIIAAIAEAREHGDLKENAEYHAAREQQGFCEGRIKDIEAKLSNAQVIDITKMPNNGRVIFGSTVSVLNLDTDEEQTYRIVGDDEADFKQNLISVNSPIARGLIGKEQDDVVTIRTPGGEVEYEITKVEYL	PGPT0030495_2922	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSCRIPTIONAL_CONTROL	PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624
BMS020_02085	1434	dacB	COG2027	D-alanyl-D-alanine carboxypeptidase DacB	ATGCGATTTCCCAGATTTATCATCGGATTGACTGCCGGTATAGCGCTTAGCGCTCAGGCGGCGAATATTGACGAGTACATCACCCAGCTTCCCGCCGGTGCGAACCTTGCCTTTATGGCGCAAAAGGTCGGCGCATCGACGCCGGAAATCGACTATCACAGCCAGCAAATGGCGCTTCCGGCCAGTACGCAAAAGGTCATCACCGCGCTGGCGGCCCTGCTGCAGCTGGGTCCCGATTTTCGCTTCACCACCACGCTGGAAACCAAAGGCTCACTGGACGGCGGCGTGCTGAAAGGCGATCTGATCGCCCGCTTCGGCGGCGACCCGACGCTGAAGCGGCAGGATATTCGCAATATGGTGGCGACGCTGAAAAAAGCTGGCGTGCAGCGTATCGACGGCAATGTGCTTATCGATACCTCGGTCTTCGCCAGCCATGATAAAGCGCCGGGGTGGCCGTGGAACGACCTGACGCAATGCTTCAGCGCTCCGCCTGCGGCGGCGATTGTCGACCGCAACTGCTTCTCGGTCTCGCTGTATAGCGCGCAGAAGCCGGGCGATCTCGCCTTCATTCGCGTCGCCTCCTATTATCCGGTCACCATGTTCAGTCAGGTTCGCACCCTGGCGCGTGGCTCATCGGAAGCCCAGTATTGCGAACTGGACGTGGTGCCGGGCGACCTCAATCGCTATACCCTCACCGGCTGCCTGCCGCAGCGTAGCGAACCGCTGCCGCTGGCCTTCGCGATACAGGATGGCGCCAGCTACGCCGGGGCGATCCTTAAAGCGGAGCTGAAGCAGGCGGGGATCGCCTATAGCGGCACGCTGCTGCGTCAGACGCTGGCCAATGAGCCCGGCACGGTATTAGCCACCACCCAGTCAGCGCCGCTGCACGATCTGCTACGGATCATGCTGAAGAAATCCGACAACATGATTGCGGATACCGTTTTTCGTACCATCGGTCATGCCCGGTTCGGCGTACCAGGGACCTGGCGGGCAGGATCCGATGCCGTACGTCAGATCCTGCGTCAACAGGCTGGGGTTGATCTCGGCAACACCATCATCGCCGACGGCTCTGGCCTGTCGCGCCACAACCTGATCGCCCCGGCGACCATGATGCAGGTGTTGCAGTATATCGCCCAGCACGACACCGAGCTCAACTTCATCTCTATGCTGCCGCTGGCGGGCCATGACGGCTCGCTGCAGTATCGCGCCGGCCTCCATCAGGCGGGCGTCGATGGCAAAGTCTCGGCGAAAACCGGGTCGCTGCAGGGGGTTTATAACCTTGCGGGCTTCATCACTACCGCCAGCGGGCAAAAGGTGGCCTTCGTGCAATACCTCTCCGGCTACGCCGTGGAGCCAGCCGATCAGCGTAACCGCCGCATACCCTTGGTACGCTTTGAAAGCCGGCTTTATAAAGATTTGTACCAGAACAACTAA	MRFPRFIIGLTAGIALSAQAANIDEYITQLPAGANLAFMAQKVGASTPEIDYHSQQMALPASTQKVITALAALLQLGPDFRFTTTLETKGSLDGGVLKGDLIARFGGDPTLKRQDIRNMVATLKKAGVQRIDGNVLIDTSVFASHDKAPGWPWNDLTQCFSAPPAAAIVDRNCFSVSLYSAQKPGDLAFIRVASYYPVTMFSQVRTLARGSSEAQYCELDVVPGDLNRYTLTGCLPQRSEPLPLAFAIQDGASYAGAILKAELKQAGIAYSGTLLRQTLANEPGTVLATTQSAPLHDLLRIMLKKSDNMIADTVFRTIGHARFGVPGTWRAGSDAVRQILRQQAGVDLGNTIIADGSGLSRHNLIAPATMMQVLQYIAQHDTELNFISMLPLAGHDGSLQYRAGLHQAGVDGKVSAKTGSLQGVYNLAGFITTASGQKVAFVQYLSGYAVEPADQRNRRIPLVRFESRLYKDLYQNN	PGPT0024035_1727	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024035-dacB-K07259	NA	NA
BMS020_02086	1179	obgE	COG0536	GTPase ObgE/CgtA	ATGAAGTTTGTAGATGAAGCAACGATCCTGGTCGTAGCAGGTGACGGCGGCAATGGTTGCGTAAGCTTCCGCCGCGAAAAATATATTCCGAAAGGCGGCCCGGACGGCGGCGATGGCGGTGATGGCGGCGATGTCTGGCTGGAAGCGGACGAAAACCTGAATACCCTGATCGACTACCGTTTTGAAAAATCTTTCCGCGCCGAACGCGGGCAGAATGGCCAGAGCCGCGACTGTACCGGTAAGCGTGGTAAAGACGTGACGGTAAAAGTGCCGGTCGGGACCCGGGTTATAGACCAGGGCACCGGCGAGACCATGGGCGATATGACCAAACACGGTCAGCGTCTGATGGTGGCGAAGGGCGGCTGGCACGGTCTGGGCAACACCCGTTTTAAATCATCCGTTAACCGTACGCCGCGTCAGAAGACCATGGGTACGCCGGGTGATAAGCGCGACCTGCAGCTGGAGCTGATGCTGCTGGCGGACGTCGGAATGCTCGGGATGCCGAACGCCGGTAAATCCACCTTCATCCGTGCGGTCTCCGCCGCCAAGCCGAAAGTGGCTGACTATCCGTTTACCACCCTGGTGCCAAGCCTGGGCGTGGTGCGTATGGACAATGAGAAGAGCTTTGTGGTCGCCGATATCCCGGGGCTGATTGAAGGCGCAGCGGAAGGCGCAGGCCTCGGCATCCGCTTCCTCAAGCACCTTGAGCGCTGCCGCGTATTGCTGCACCTGATCGACATCGAGCCTATCGACGGTTCCGATCCGGTTGAGAACGCGCGCATCATCATCGGCGAGCTGGAGAAATACAGCGAGAAGCTGGCCTCCAAACCGCGCTGGTTAGTCTTTAACAAGATTGACCTTATGGACAAAGCGGAAGCCGAAGCTAAAGCGAAGGCAATTGCTGAAGCGCTGGGTTGGGAAGAGAAATTCTACCTGATCTCCGCCGCCAGCCAGCAGGGCGTAAAAGATCTGTGCTGGGACGTGATGACCTTCATCATCGAAAACCCCATCGTGCAGGCGGAAGAAGAGCAGAAGCCGGAGAAAGTCGAGTTTATGTGGGACGACTATCACCGTCAGCAGCTTGAAGAGGCCGAAGCCGAAGTGGAAGATGACGAAGACTGGGATGACGACTGGGACGAAGACGACGAAGAAGGCGTTGAATTCATCTACAAACGTTAA	MKFVDEATILVVAGDGGNGCVSFRREKYIPKGGPDGGDGGDGGDVWLEADENLNTLIDYRFEKSFRAERGQNGQSRDCTGKRGKDVTVKVPVGTRVIDQGTGETMGDMTKHGQRLMVAKGGWHGLGNTRFKSSVNRTPRQKTMGTPGDKRDLQLELMLLADVGMLGMPNAGKSTFIRAVSAAKPKVADYPFTTLVPSLGVVRMDNEKSFVVADIPGLIEGAAEGAGLGIRFLKHLERCRVLLHLIDIEPIDGSDPVENARIIIGELEKYSEKLASKPRWLVFNKIDLMDKAEAEAKAKAIAEALGWEEKFYLISAASQQGVKDLCWDVMTFIIENPIVQAEEEQKPEKVEFMWDDYHRQQLEEAEAEVEDDEDWDDDWDEDDEEGVEFIYKR				NA	NA	NA	NA	NA
BMS020_02087	966	yhbE	COG0697	putative inner membrane transporter YhbE	ATGAAGCAGCAGGCTGGGATTGGCATTATTCTGGCGCTTACCACCGCGATGTGTTGGGGAGCGTTGCCGATTGCAATGAAGCAGGTTCTTGAGGTGATGGCGCCGCCAACGGTGGTGTTTTATCGCTTCCTGATGGCCAGTATTGGTCTTGGCGCGATCCTCGCGATCAAAGGCAAACTGCCGCCGCTGCGAATTTTTCGCAAGCCGCGCTGGCTGGTCTTATTAGCGATTGCCACCGGCGGCCTGTTCGGTAACTTCATCCTGTTCAGTTCTTCCCTGCAGTATCTCAGCCCCACGGCTTCTCAGGTCATCGGCCAGCTATCGCCGGTAGGCATGATGGTGGCTAGCGTCGTGATTCTGAAAGAGCGCATGCGCGGCACCCAGGTGGTGGGCGCGTTGATGCTGCTCAGCGGGTTGGTGATGTTCTTCAACACCAGCCTGATTGAAATCTTTACCCGCCTGACGGACTACACGTGGGGGGTAATTTTCGGCGTTGCTGCCGCCACGGTGTGGGTAAGCTACGGCGTCGCGCAAAAGGTGTTATTGCGCCGTCTGGCATCACAGCAGATACTATTTTTGCTGTACACTTTATGTACGATTGCATTACTGCCGCTCGCTGAGCCTGGGGTGATATCCCGGTTAAGCAGCTGGCAACTGGCATGCCTGATTTTTTGCGGGCTGAATACCCTGGTCGGCTACGGGGCGCTGGCGGAAGCCATGGCGCGCTGGCAGGCGGCGCAGGTCAGCGCGTTAATCACCTTGACGCCACTGTTTACGCTACTGTTTTCTGATTTATTATCAATGGCCTGGCCCGATGTTTTCGCCAGACCGATGTTAAACCTGATTGGTTATCTCGGTGCGTTTGTCGTGGTTGCGGGCGCGATGTATTCCGCCATCGGTCATCGTCTTTGGGGACGTTGGCGTAAGCGAGAGGCGGTAGTACCGCTGCCCCGCTCAGGCGAATGA	MKQQAGIGIILALTTAMCWGALPIAMKQVLEVMAPPTVVFYRFLMASIGLGAILAIKGKLPPLRIFRKPRWLVLLAIATGGLFGNFILFSSSLQYLSPTASQVIGQLSPVGMMVASVVILKERMRGTQVVGALMLLSGLVMFFNTSLIEIFTRLTDYTWGVIFGVAAATVWVSYGVAQKVLLRRLASQQILFLLYTLCTIALLPLAEPGVISRLSSWQLACLIFCGLNTLVGYGALAEAMARWQAAQVSALITLTPLFTLLFSDLLSMAWPDVFARPMLNLIGYLGAFVVVAGAMYSAIGHRLWGRWRKREAVVPLPRSGE				NA	NA	NA	NA	NA
BMS020_02088	258	rpmA_1	COG0211	50S ribosomal protein L27	ATGGCACATAAAAAGGCTGGCGGCTCGACTCGTAACGGTCGCGATTCAGAAGCTAAACGTCTGGGCGTAAAACGTTTCGGCGGTGAAGCAGTTCTGGCAGGTAGCATCATCGTTCGTCAACGTGGTACCAAATTCCACGCTGGCACCAACGTTGGTTGCGGCCGTGACCACACTCTGTTCGCTTTGACTGACGGTAAAGTCAAGTTCGAAGTTAAAGGCCCGAAAAACCGTAAATTCATCAGCATCGTTGCTGAATAA	MAHKKAGGSTRNGRDSEAKRLGVKRFGGEAVLAGSIIVRQRGTKFHAGTNVGCGRDHTLFALTDGKVKFEVKGPKNRKFISIVAE	PGPT0019510_13	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0019510-icd2-K00030	NA	NA
BMS020_02089	318			hypothetical protein	ATGGCCCTGCTGCTTACGATAGTGTTTACGACGACGAAACTTAACGATTTTAACTTTCTCGCCACGACCGTGAGCAACAACTTCAGCTTTGATTACGCCGCCCTCAACGAAAGGAACGCCGATCTTGATTTCTTCACCGTTTGCGATCATCAGCACTTCAGCGAACTCAACAGCTTCGCCAGTTGCGATGTCCAGCTTTTCCAGGCGAACGGTCTGACCTTCGCTTACTCGGTGTTGTTTACCACCACTTTGGAAAACCGCGTACATATAAAACTCCGCTTCCGCGCACCTCTTCGTGTGATTCAGAGTGCGCTATAA	MALLLTIVFTTTKLNDFNFLATTVSNNFSFDYAALNERNADLDFFTVCDHQHFSELNSFASCDVQLFQANGLTFAYSVLFTTTLENRVHIKLRFRAPLRVIQSAL	PGPT0007525_3	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007525-ispB-K02523	NA	NA
BMS020_02090	972	ispB_1	COG0142	Octaprenyl diphosphate synthase	ATGAATTTAGAAAAAATCAATGAGTTAACCGCGCAAGATATGGCGGGTGTCAATGCGACGATTCTTGAGCAACTCAATTCCGATGTTCAGCTTATCAATCAGTTAGGCTATTACATCGTCAGCGGCGGCGGCAAACGCATTCGCCCGATGATTGCTGTGCTCGCCGCCCGCGCGGTGGGCTATCAGGGGAGCGCGCATGTCACCATTGCTGCGCTGATTGAATTTATTCATACCGCCACCCTGCTGCATGACGACGTCGTCGATGAGTCTGATATGCGTCGCGGCAAAGCCACGGCAAATGCGGCGTTTGGCAATGCCGCCAGCGTGCTGGTCGGCGATTTTATCTATACCCGCGCCTTTCAGATGATGACCCAGTTGGGCTCGCTGAAGATCCTCGAGGTCATGTCGGAAGCGGTGAACGTCATTGCCGAAGGCGAAGTGCTGCAGCTGATGAACGTCAATGACCCGGATATCACGGAAGAGAACTACATGCGCGTCATCTACAGCAAGACGGCGCGTCTGTTTGAGGCTGCCTCGCAGTGTGCGGGATTACTGGCCGACTGCACTGCGGAAGAAGAGCGCGCGTTGCAGGATTATGGCCGCTATCTCGGCACCGCTTTCCAGCTGATCGACGATTTACTCGATTACAGCTCCGACGGAGAGCGGCTTGGTAAAAACGTCGGTGATGACCTCAACGAAGGCAAACCGACGCTACCGCTGCTGCACGCCATGCACCATGGTACCGCCGATCAATCGGCGATGATCCGCGGGGCAATCGAGCAGGGCAACGGCCGCCATCTGCTGGATGCCGTCCTGGAAACGATGGCTGCCTGCGGTTCGCTGGAGTGGACGCAGAAACGTGCCGAAGAAGAAGCTGACAAAGCGATTGCCGCGCTGCAGGTTCTCCCTGACACCCCCTGGCGTGAAGCCTTGATCGGGCTGGCGCATATCGCGGTTCAGCGCGATCATTAA	MNLEKINELTAQDMAGVNATILEQLNSDVQLINQLGYYIVSGGGKRIRPMIAVLAARAVGYQGSAHVTIAALIEFIHTATLLHDDVVDESDMRRGKATANAAFGNAASVLVGDFIYTRAFQMMTQLGSLKILEVMSEAVNVIAEGEVLQLMNVNDPDITEENYMRVIYSKTARLFEAASQCAGLLADCTAEEERALQDYGRYLGTAFQLIDDLLDYSSDGERLGKNVGDDLNEGKPTLPLLHAMHHGTADQSAMIRGAIEQGNGRHLLDAVLETMAACGSLEWTQKRAEEEADKAIAALQVLPDTPWREALIGLAHIAVQRDH	PGPT0007525_1955	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007525-ispB-K02523	NA	NA
BMS020_02091	273			hypothetical protein	ATGGATAAGTTCATCGACTGGCATCCCGCAGATATTGTTGCGGGATTACGTAAACGGGGAACATCGCTGGCGGCAGAGTCGCGACGGCACGGTCTGAGTTCTTCAACGCTGGCGAACGCCCTGACCCGCCCCTGGCCGAAAGGCGAATTAATCATCGCCACGGCGCTGGATACACAGCCGTGGGTCATCTGGCCGTCACGCTACCATGACCCGGTAACGCATGAGTTTATCGACAGAACGCAGATGATGCGTCAAAAGAAGATGGACAAGTGA	MDKFIDWHPADIVAGLRKRGTSLAAESRRHGLSSSTLANALTRPWPKGELIIATALDTQPWVIWPSRYHDPVTHEFIDRTQMMRQKKMDK				NA	NA	NA	NA	NA
BMS020_02092	1260	murA_1	COG0766	UDP-N-acetylglucosamine 1-carboxyvinyltransferase	ATGGATAAATTCCGTGTTCAGGGGCCGACTCGCCTTCAGGGCGAAGTCACCATCTCCGGTGCAAAAAACGCCGCCCTGCCAATCCTCTTTTCCGCGCTGCTTGCCGAAGAGCCGGTAGAGATCCAGAACGTACCTAAGCTGAAAGACATCGATACCACCATGAAGCTGCTGAGTCAGCTGGGCGCGAAGGTAGAGCGCAATGGTTCGGTGTGGATTGACGCCGGCCCGGTCGATGTATTCTGTGCTCCGTACGATCTGGTGAAAACCATGCGCGCCTCCATCTGGGCGCTGGGCCCGCTGGTGGCGCGTTTCGGTCAGGGACAAGTTTCTCTGCCTGGCGGCTGCGCCATCGGCGCGCGTCCGGTCGATCTGCATATTAGCGGGCTGGAACAGCTGGGCGCCGAGATCAAACTGGAAGAAGGTTATGTTAAAGCCTCGGTCAATGGTCGTCTGAAAGGCGCGCATATCGTGATGGATAAAGTGAGCGTCGGCGCCACCGTCACTATCATGAGCGCAGCGACCCTCGCCGAGGGGACGACGATTATTGAAAACGCCGCTCGCGAGCCGGAGATCGTCGATACCGCGAACTTCCTTAATGCGCTGGGCGCAAAAATCAGCGGCCAGGGCACCGATCGCATCACCATCGAAGGCGTGCAGCGTCTGGGCGGCGGCGTTTACCGCGTGCTGCCGGACCGTATTGAAACCGGGACCTTCCTGGTTGCCGCAGCCATTTCCGGCGGCAAGATCCTCTGCCGTCATGCGCAACCAGATACCCTGGACGCCGTACTGGCGAAGCTGCGCGACGCCGGAGCGGACATCGAAACGGGCGAAGACTGGATCAGCCTTGATATGCACGGCAACCGTCCGAAAGCGGTTAACGTGCGTACCGCGCCGCATCCGGGCTTCCCGACCGATATGCAGGCCCAGTTCACGCTGCTCAACCTGGTCGCGGAAGGGACCGGCGTGATCACCGAAACGATCTTTGAAAACCGCTTTATGCACATTCCGGAACTGATCCGTATGGGCGCCCACGCGGAGATCGAGAGCAATACCGCGATCTGTCACGGCGTGGAGCAGCTTTCGGGCGCGCAGGTGATGGCGACCGATTTGCGTGCCTCGGCGAGCCTCGTACTGGCAGGTTGTATCGCTGAGGGAACCACCATCGTCGATCGCATCTATCATATCGATCGTGGCTATGAGCGTATCGAAGATAAACTGCAGGCGCTGGGTGCCAATATTCAGCGCGTGAAAGGCGAGTAA	MDKFRVQGPTRLQGEVTISGAKNAALPILFSALLAEEPVEIQNVPKLKDIDTTMKLLSQLGAKVERNGSVWIDAGPVDVFCAPYDLVKTMRASIWALGPLVARFGQGQVSLPGGCAIGARPVDLHISGLEQLGAEIKLEEGYVKASVNGRLKGAHIVMDKVSVGATVTIMSAATLAEGTTIIENAAREPEIVDTANFLNALGAKISGQGTDRITIEGVQRLGGGVYRVLPDRIETGTFLVAAAISGGKILCRHAQPDTLDAVLAKLRDAGADIETGEDWISLDMHGNRPKAVNVRTAPHPGFPTDMQAQFTLLNLVAEGTGVITETIFENRFMHIPELIRMGAHAEIESNTAICHGVEQLSGAQVMATDLRASASLVLAGCIAEGTTIVDRIYHIDRGYERIEDKLQALGANIQRVKGE	PGPT0024090_4544	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790	NA	NA
BMS020_02093	255	ibaG	COG5007	Acid stress protein IbaG	ATGGAAAATCATGAAATTCAGACCGTGCTGATGAACGCACTCCCCCTCCAGGAAGTCCACGTCTCTGGCGATGGCAGCCACTTTCAGGTTATTGCTGTGGGTGAGATGTTTGATGGCATGAGTCGGGTTAAAAAGCAGCAGAGCGTCTACGCGCCGCTGATGGAATATATTGCTGACAACCGCATCCATGCGCTGTCGATCAAGGCCTTTACTCCGCAGGAGTGGGCGCGAGACCGCAAACTAAATGGCTTCTAA	MENHEIQTVLMNALPLQEVHVSGDGSHFQVIAVGEMFDGMSRVKKQQSVYAPLMEYIADNRIHALSIKAFTPQEWARDRKLNGF				NA	NA	NA	NA	NA
BMS020_02094	291	mlaB	COG3113	Intermembrane phospholipid transport system binding protein MlaB	ATGAGCGGGCAGCTGAGCTGGACTCGTGATGGCGAGACGCTGGCGCTGCACGGAGAGCTGGATCAGGATCTGCTGGTCCCGCTCTGGGAGGCACGCGCCCAGGCGACGGCGGGGACAGTGATCATCGATCTCAGCCAGACCACGCGCGTGGACACGGCGGGCCTGGCGCTGTTAGTGCATTTTGTAGCGCTGATTCGCCGCCAGGGCCGGGAAGCGCAGCTGATCGGCAAGAGCGAAAATCTGCAAACGCTGGTCGGTCTTTACAACCTGCCTGCCGATATGATCCCATAA	MSGQLSWTRDGETLALHGELDQDLLVPLWEARAQATAGTVIIDLSQTTRVDTAGLALLVHFVALIRRQGREAQLIGKSENLQTLVGLYNLPADMIP	PGPT0007675_903	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007675-mlaB-K07122	NA	NA
BMS020_02095	636	mlaC_1	COG2854	Intermembrane phospholipid transport system binding protein MlaC	ATGTTTAAACGCTTACTCATGGTCGCCATGCTGGTGATTGCCCCGCTGACCGCGGTCCAGGCGGCAGACCAGTCCAATCCGTATAAGCTGATGAATGAAGCGGCGCAGAAAACCTTCGATCGCCTGAAGAATGAACAGCCGAAGATCAAGGCCAACCCTAACTATCTGCGCGACATCGTCGACCAGGAGCTTCTGCCGTATGTGCAGGTGAAGTATGCCGGCGCGCTGGTGCTGGGCCGCTATTACAAAGAAGCCACCCCGGCGCAGCGTGAAGCCTATTTTGCCGCCTTCCGTGAATACCTGAAGCAGGCCTATGGCCAGGCGCTGGCCATGTACCACGGTCAGACCTACCAGATTGCCCCTGAACAGCCGCTGGGCAGCGCGACCATCATTCCGATCCGCGTCACCATCCTCGACCCGAATGGCCGTCCGCCGGTACGTCTCGACTTCCAGTGGCGTAAAAACACCCAGACCGGCAACTGGCAGGCCTACGATATGATCGCGGAAGGGGTCAGCATGATCACCACCAAACAAAACGAGTGGAGCGATCTGCTGCGTACCAAGGGCGTTGATGGCCTGACCGCGCAGCTGAAAGCGATCTCCGCTCAGCCGATCACCCTGGAACAGAAAAAATAA	MFKRLLMVAMLVIAPLTAVQAADQSNPYKLMNEAAQKTFDRLKNEQPKIKANPNYLRDIVDQELLPYVQVKYAGALVLGRYYKEATPAQREAYFAAFREYLKQAYGQALAMYHGQTYQIAPEQPLGSATIIPIRVTILDPNGRPPVRLDFQWRKNTQTGNWQAYDMIAEGVSMITTKQNEWSDLLRTKGVDGLTAQLKAISAQPITLEQKK	PGPT0007670_887	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007670-mlaC-K07323	NA	NA
BMS020_02096	552	mlaD_1	COG1463	Intermembrane phospholipid transport system binding protein MlaD	ATGCAAACGAAAAAAAATGAAATCTGGGTAGGGGTGTTCTTACTGGTGGCGCTGCTGGCGGCGCTGTTTGTCTGCCTGAAGGCGGCAAACGTCACCTCGTTACGTACCGAGCCGACTTACCGTCTTTACGCGACCTTCGATAATATCGGCGGCCTGAAAGCGCGCTCGCCGGTGCGCATCGGCGGTGTGGTTGTTGGCCGCGTGGCGGACATCACCCTCGACCCGAAAACCTATCTGCCGCGCGTGGAGCTCGATATTGATGAGCGCTACAACCATATCCCCGATACCAGTTCGCTGGCGATCCGCACCTCTGGCCTGCTGGGCGAGCAGTATCTGGCGCTGAACGTCGGTTTTGAAGACCCGGACCTCGGGACGACTATCCTTAAAGACGGCGGTACTATCCAGGACACCAAGTCCGCCATGGTGCTGGAAGATCTGATTGGTCAGTTCCTTTATAACAGCAAGGGCGGCGACAATCAGAATTCTGGCAATGATAAGGCCGAGGCAGAAGGTCATACTGACGCGACGCCGGCAGCCGGCACGACGCATTAA	MQTKKNEIWVGVFLLVALLAALFVCLKAANVTSLRTEPTYRLYATFDNIGGLKARSPVRIGGVVVGRVADITLDPKTYLPRVELDIDERYNHIPDTSSLAIRTSGLLGEQYLALNVGFEDPDLGTTILKDGGTIQDTKSAMVLEDLIGQFLYNSKGGDNQNSGNDKAEAEGHTDATPAAGTTH	PGPT0007005_8564	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007005-mlaD|linM-K02067	NA	NA
BMS020_02097	783	mlaE_1	COG0767	Intermembrane phospholipid transport system permease protein MlaE	ATGCTGTTTAATGCGCTGGCCGCGCTAGGTCATCGCGGTATTAAAACCACCGCGACCTTTGGACGCGCCGGATTAATGCTGTTTAACGCCGTTGTCGGCAAACCAGAGTTTCGCAAGCACGCGCCGCTGCTGGTTCGTCAACTCTACAACGTCGGCGTTCTGTCGATGCTGATTATCATTGTATCGGGCCTGTTTATCGGTATGGTGCTCGGGCTGCAGGGGTATCTGGTCTTAACCACCTACAGCGCTGAGACCAGTCTTGGCATGCTGGTGGCGTTGTCGCTGCTGCGCGAGCTGGGGCCGGTGGTCGCCGCGCTGCTGTTTGCCGGTCGCGCCGGGTCGGCGCTGACCGCCGAGATTGGCCTGATGCGGGCCACGGAACAGCTCTCCAGTATGGAGATGATGGCGGTGGATCCGCTGCGCCGCGTCATTTCTCCCCGTTTCTGGGCCGGCGTCATTTCGCTGCCGCTGCTGACGATTATCTTCGTCGCGGTGGGGATCTGGGGTGGCGCGCTGGTGGGCGTGAGCTGGAAGGGCATTGACGGTGGTTTTTTCTGGACCGCGATGCAAAATGCCGTCGACTGGCGAATGGATCTGGTGAACTGCCTGATTAAGAGCCTGGTATTCGCCATTACGGTAACCTGGATTGCGTTATTCAATGGTTATGACGCTATCCCCACTTCCGCCGGGATTAGCCGGGCGACTACGCGCACCGTGGTGCATGCGTCGCTGGCGGTTCTGGGGCTGGATTTTGTGCTGACTGCGCTGATGTTTGGGAATTGA	MLFNALAALGHRGIKTTATFGRAGLMLFNAVVGKPEFRKHAPLLVRQLYNVGVLSMLIIIVSGLFIGMVLGLQGYLVLTTYSAETSLGMLVALSLLRELGPVVAALLFAGRAGSALTAEIGLMRATEQLSSMEMMAVDPLRRVISPRFWAGVISLPLLTIIFVAVGIWGGALVGVSWKGIDGGFFWTAMQNAVDWRMDLVNCLIKSLVFAITVTWIALFNGYDAIPTSAGISRATTRTVVHASLAVLGLDFVLTALMFGN	PGPT0007010_4214	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007010-mlaE|linK-K02066	NA	NA
BMS020_02098	813	mlaF_1	COG1127	Intermembrane phospholipid transport system ATP-binding protein MlaF	ATGAGCCAAACTCAGGCGAATTTAGTTGAAGTGCGCGGTATCCGCTTTTCTCGCGGCGATCGCGTGATCTTCGACGACATCTCGCTGTCGGTGCCGCGCGGTAAAATTACTGCGATTATGGGACCTTCGGGGATCGGCAAGACTACCCTGTTACGCCTGATCGGCGGACAGATCCCGCCGGACAGGGGAGAGATCCTGTTCGATGGCGAGAACGTGCCGCAGATGACCCGTTCACGTCTGTACACGGTGCGTAAGCGGATGAGCATGCTGTTCCAGTCTGGGGCGCTGTTTACCGACCTCAATGTTTTTGACAACGTCGCCTACCCGCTGCGCGAACATACGCATCTGCCGCCTGCGCTGCTGCATACGACGGTGATGATGAAGCTGGAGGCGGTGGGGCTGCGCGGTGCGGCGAAGTTAATGCCCTCCGAGCTTTCCGGCGGCATGGCGCGCCGCGCCGCCCTGGCGAGGGCCATCGCCCTGGAGCCGGATCTCATTATGTTCGACGAACCGTTCGTCGGGCAGGATCCCATCACCATGGGCGTGCTGGTGAAGCTGATTTCTGAACTCAACAGCACGCTGGGCGTCACCTGCATCGTGGTTTCGCACGATGTGCCTGAGGTGCTGAGCATTGCGGACTATGCGTATATCGTGGCGGATAAAAAGATTGTCGCCCACGGCAGCGCCCAGTCGCTACGGGAGAATGCCGACCCTCGGGTTCGTCAGTTCATTGATGGTATTGCCGACGGCCCGGTGCCGTTCCGTTATCCGGCTGGCGACTATCACCATGATTTATTAGGCATAGGGAGTTGA	MSQTQANLVEVRGIRFSRGDRVIFDDISLSVPRGKITAIMGPSGIGKTTLLRLIGGQIPPDRGEILFDGENVPQMTRSRLYTVRKRMSMLFQSGALFTDLNVFDNVAYPLREHTHLPPALLHTTVMMKLEAVGLRGAAKLMPSELSGGMARRAALARAIALEPDLIMFDEPFVGQDPITMGVLVKLISELNSTLGVTCIVVSHDVPEVLSIADYAYIVADKKIVAHGSAQSLRENADPRVRQFIDGIADGPVPFRYPAGDYHHDLLGIGS	PGPT0007015_1497	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007015-mlaF|linL|mkl-K02065	NA	NA
BMS020_02099	978	yrbG	COG0530	Inner membrane protein YrbG	ATGCTCTTAGCGACGGCTCTGTTAATTATTGGTTTATTGCTGGTTGTCTACAGCGCCGATCGTCTGGTCTATGCCGCCTCCATCCTTTGTCGCATGTTGGGGATCCCGCCGCTGATCATCGGTATGACGGTGGTGAGTATTGGCACCAGCCTGCCAGAGATCATGGTTTCCACCGCGGCCTCGCTGCATGGGCAGACCGATCTGGCGGTGGGCACCGCGCTCGGCTCCAATATCACCAATATTCTCCTGATCCTCGGTCTGGCTGCCTTACTCAGGCCATTTACCGTGCATTCTGATATTCTGCGCCGCGAATTACCGCTAATGTTGCTGGTCAGCGTGCTGGCGGGGCTGGTGCTCTATGATGGTCAACTGTCCCGTCTCGACGGCCTGTTTTTACTGGCGCTGGCGCTGCTATGGCTGCTGTTCACCATCAAGATTGCCCGTCTGGCGGAACGCCAGGGAAGCGATAGCCTGACCCGCGAACAGCTGGCGGAACTGCCGCGTGAAGGGTCGCTGCCGGTCGCTCTGCTGTGGTTAGGGGTGGCGATGATCGTCATGCCGATGGCCACCCGCATGGTGGTGGATAACAGCACGGTGCTGGCAAACTATTTTGCCATCAGCGAACTAACCGTCGGCCTGACGGTAGTGGCGATAGGCACCAGCCTGCCGGAGCTGGCCACCGCCATCGCCGGGGCGCGCAAAGGGGAAGATGACATTGCCATCGGCAATATCATCGGCGCGAATATCCTCAATATTGCGCTGGTGCTGGGTTTGCCGGCGCTGATCGCGCCGGGAGCCTTTGCGGCGGAAGCCTTTACCCGCGACTATGGCGTGATGTTGCTGGTCAGCCTGATCTTCGCGGTGCTGTGCTGGCGCCGTAGGCAGCAGCCGGGACGACTGGTTGGCGCGCTGCTGGTCGGTGGTTTTGTGGTTTGGTTGGCGATGCTGTTCTGGACAGCGCCGCTCTTCGTTGAATGA	MLLATALLIIGLLLVVYSADRLVYAASILCRMLGIPPLIIGMTVVSIGTSLPEIMVSTAASLHGQTDLAVGTALGSNITNILLILGLAALLRPFTVHSDILRRELPLMLLVSVLAGLVLYDGQLSRLDGLFLLALALLWLLFTIKIARLAERQGSDSLTREQLAELPREGSLPVALLWLGVAMIVMPMATRMVVDNSTVLANYFAISELTVGLTVVAIGTSLPELATAIAGARKGEDDIAIGNIIGANILNIALVLGLPALIAPGAFAAEAFTRDYGVMLLVSLIFAVLCWRRRQQPGRLVGALLVGGFVVWLAMLFWTAPLFVE	PGPT0014400_1704	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014400-yrbG-K07301	NA	NA
BMS020_02100	987	kdsD_1	COG0517	Arabinose 5-phosphate isomerase KdsD	ATGTCGCAAATAGATTTGCCCACGGATTTTGACTTTCAACAGGCCGGCCGTCAGGTGCTGGAAATTGAACGTGAAGGTCTGGCCCAACTCGATCAATATATAAATGAAGATTTCACCCGCGCCTGCGAAACGATTTTCCGCTGCGGCGGGAAAGTCGTGGTGATGGGGATGGGCAAATCCGGCCATATCGGCCGCAAAATGGCGGCAACCTTCGCCAGTACCGGCACGTCGGCATTTTTTGTCCACCCTGGCGAAGCCGCGCACGGCGATTTGGGCATGGTTACGCCGCAGGACGTGGTGATTGCGCTGTCGAACTCCGGCGAATCGAACGAAATCCTCGCGCTGATCCCGGTCCTGAAACGCCAGCAGGTGAAGCTTATCTGCATCACAAGCCGGCCTGAAAGCAGTATGGCGCGCGCGGCGGATATCCATCTGTGCGTGAAAGTGCCGAAAGAGGCTTGTCCATTAGGGCTGGCCCCCACCTCCAGCACCACCGCCGCGCTGGTGATGGGCGATGCCCTCGCCGTCGCCCTGCTGGAGGCTCGCGGCTTTACCGCTGAGGATTTCGCTCTCTCGCATCCGGGCGGCGCACTCGGTCGTAAGCTGTTGCTGCGCGTCAATGATATTATGCATACCGGTGATGAGATCCCGCACGTCGGCCTGCAGGCCACCCTGCGCGATGCGCTGCTGGAAATCACTCGTAAAAATTTAGGTATGACCGCTATCTGCGATGACGACATGAACATCATCGGTATCTTTACCGACGGTGACCTGCGCCGGGTCTTCGACACCGGCGTCGATATGCGCGATGCCAGCATTGCCGACGTCATGACCCGGGGAGGGATCCGCATCCGTCCCGGCACCCTGGCGGTGGATGCGCTAAACCTGATGCAATCCCGTCATATCACCTGCGTGCTGGTTGCCGATGGCGACCATCTGCTGGGTGTGGTACATATGCACGATCTCCTGCGCGCGGGCGTAGTGTAA	MSQIDLPTDFDFQQAGRQVLEIEREGLAQLDQYINEDFTRACETIFRCGGKVVVMGMGKSGHIGRKMAATFASTGTSAFFVHPGEAAHGDLGMVTPQDVVIALSNSGESNEILALIPVLKRQQVKLICITSRPESSMARAADIHLCVKVPKEACPLGLAPTSSTTAALVMGDALAVALLEARGFTAEDFALSHPGGALGRKLLLRVNDIMHTGDEIPHVGLQATLRDALLEITRKNLGMTAICDDDMNIIGIFTDGDLRRVFDTGVDMRDASIADVMTRGGIRIRPGTLAVDALNLMQSRHITCVLVADGDHLLGVVHMHDLLRAGVV	PGPT0023075_1233	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-8-AMINO-3|8-DIDEOXY_D_MANNO-OCTULOSONIC_ACID_MODIFICATION,PGPT0023075-kdsD|kpsF-K06041	NA	NA
BMS020_02101	567	kdsC_1	COG1778	3-deoxy-D-manno-octulosonate 8-phosphate phosphatase KdsC	ATGAATAATGCTGATGCTCAGTTAGCGACCTGCTATGGGCCGGTAAGCCAGACGTTTCTCGATCGCGCGGCTAAGATCCGTCTACTGATCCTCGATGTCGACGGTGTATTATCCGACGGGCTTATCTATATGGGTAATCACGGCGAGGAGCTGAAAGCGTTCAATGTCCGCGATGGCTATGGTATCCGCTGCGCGCTGACCTCTGGCATTGAAGTGGCGATTATTACCGGACGAAAAGCTAAACTGGTAGAAGATCGCTGTCAGACGCTGGGCATTACGCATTTGTATCAGGGGCAGTCGGACAAGCTGCTGGCGTTCCGCGATCTCACTGACAAACTGGGCGTGCGGCCAGAGGAAGTCGCCTACATCGGCGACGATCTGATTGACTGGCCGGTGATGGCCGAAGTGGGCCTCAGCGTCGCCGTCGCGGATGCGCATCCGCTGCTGCTGCCGCGCGCCGATTACATCACCCGGATTAATGGCGGACGCGGCGCGGTACGCGAAGTCTGCGATTTGTTACTATTGGCGCAGGGCAAGCTGGATGAGGCCAAAGGGCAATCAATATGA	MNNADAQLATCYGPVSQTFLDRAAKIRLLILDVDGVLSDGLIYMGNHGEELKAFNVRDGYGIRCALTSGIEVAIITGRKAKLVEDRCQTLGITHLYQGQSDKLLAFRDLTDKLGVRPEEVAYIGDDLIDWPVMAEVGLSVAVADAHPLLLPRADYITRINGGRGAVREVCDLLLLAQGKLDEAKGQSI	PGPT0023070_421	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-8-AMINO-3|8-DIDEOXY_D_MANNO-OCTULOSONIC_ACID_MODIFICATION,PGPT0023070-kdsC-K03270	NA	NA
BMS020_02102	576	lptC_1	COG3117	Lipopolysaccharide export system protein LptC	ATGAGTAAAACCAGACGTTGGGTTATCATTTTACTGTCGCTGCTTGCGCTGATCCTCATCGGCCTGAATCTGGCGAATACGGACGACACGGCCCAGCCGGAGGTCAATCCCAACGACCCGACGTATAAAAGCGAACATACTGACACCGTGGTGTACAGTCCGGAAGGCGCCCTGAGCTATCGGCTGATCGCCGAGCACGTGGAGTATTTTTCCGATCAGGAGGTCTCCTGGTTTACCAAACCGGTGATGACCACCTTTGATACCAATAAGGTGCCGACCTGGTCAGTCAGGGCTGATAAAGCGAAGCTGACAAATGACCGGATGCTCTATCTTTACGGGCACGTTGAGGTGAATGCGCTCGCGCCAGACTCTCAACTGCGCAAAATTACGACGGATAACGCCCAGATAAATCTGGTAACGCAGGACGTTACCTCCGATGACATGGTGACGTTATACGGCACCACATTTAATTCCAGCGGCCTGAAAATGCGTGGAAACCTTCGCAGCAAAAATGCCGAGCTGATTGAAAAGGTGAGAACCTCTTATGAAATTCAGAACAAACAAACTCAGCCTTAA	MSKTRRWVIILLSLLALILIGLNLANTDDTAQPEVNPNDPTYKSEHTDTVVYSPEGALSYRLIAEHVEYFSDQEVSWFTKPVMTTFDTNKVPTWSVRADKAKLTNDRMLYLYGHVEVNALAPDSQLRKITTDNAQINLVTQDVTSDDMVTLYGTTFNSSGLKMRGNLRSKNAELIEKVRTSYEIQNKQTQP	PGPT0023299_1201	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023299-lptC|yrbK-K11719	NA	NA
BMS020_02103	546	lptA_1	COG1934	Lipopolysaccharide export system protein LptA	ATGAAATTCAGAACAAACAAACTCAGCCTTAAGATTGCGCTCGCCGGCGCGTTACTGGCCGCCAGCCTGCCGGCCCTCGCCAAGACGGGCGATACCGATCAGCCGATCCATATCGAATCCGATCAGCAGTCGCTGGATATGCAGGGCAACGTCGTCACCTTCACCGGTAACGTGGTCGTGACTCAGGGGACGATCAAGATTAACGCTGATAAAGTGGTAGTCACCCGTCCGGGCAATGAAAAAGGCAAAGAGGTGATCGAAGGTTTCGGTAACCCGGCCACCTTCTACCAGATGCAGGATAACGGCAAACCGGTAAAAGGCCGGGCGTCGAAAATGCGCTATGAGCTGCAGAACGATTACGTCGTGCTGACCGGCAACGCGTACCTTGAACAGCTCGACAGTAACATCAAGGGCGACAAGATCACCTATCTGGTGAAAGAGCAAAAAATGCAGGCCTTCAGCGACAAAGGTCGACGCGTCACCACCGTTCTGGTGCCGTCCGAGCTGCAGGACAAAAGCGGCAACCAGCAAAAGAAGAGTAACTAA	MKFRTNKLSLKIALAGALLAASLPALAKTGDTDQPIHIESDQQSLDMQGNVVTFTGNVVVTQGTIKINADKVVVTRPGNEKGKEVIEGFGNPATFYQMQDNGKPVKGRASKMRYELQNDYVVLTGNAYLEQLDSNIKGDKITYLVKEQKMQAFSDKGRRVTTVLVPSELQDKSGNQQKKSN	PGPT0023301_1268	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023301-lptA|yhbN-K09774	NA	NA
BMS020_02104	726	lptB_1	COG1137	Lipopolysaccharide export system ATP-binding protein LptB	ATGGCAACCTTAACTGCGAAGAATCTCGCTAAAGCGTATAAAGGCCGCCGCGTGGTGGAAGATGTCAGTCTCACCGTTAACTCGGGGGAGATTGTCGGCTTGCTCGGCCCCAACGGCGCCGGTAAAACCACCACCTTCTACATGGTGGTCGGGATTGTGCCGCGCGACGCGGGCAATATCATCATTGATGACGAAGACATCAGCCTGCTGCCGCTGCACGCGCGCGCGCGCCGGGGGATCGGCTATCTGCCGCAGGAAGCCTCGATTTTCCGTCGCCTGAGCGTCTATGACAACCTGATGGCGGTCCTGCAGATCCGTGACGATTTGAGCAGCGAACAGCGGGAAGATCGCGCCAAAGAGCTGATGGAAGAGTTTCATATTGAGCACCTGCGTGACAGCCTCGGTCAGGCGCTCTCCGGTGGCGAACGCCGCCGCGTCGAAATCGCTCGCGCGCTGGCGGCAAACCCGAAATTTATTCTTCTGGATGAACCCTTTGCCGGCGTGGATCCGATCTCGGTTATCGATATCAAACGCATCATTGAGCATTTGCGCGACAGCGGCCTCGGCGTACTGATTACCGATCATAACGTCAGAGAGACGCTCGCCGTCTGCGAACGCGCGTATATTGTCAGTCAGGGACACCTTATCGCTCATGGTACACCGCAGCAGATCCTCGAAGATGAGCAGGTTAAGCGCGTGTATCTTGGGGAAGACTTCAGACTCTGA	MATLTAKNLAKAYKGRRVVEDVSLTVNSGEIVGLLGPNGAGKTTTFYMVVGIVPRDAGNIIIDDEDISLLPLHARARRGIGYLPQEASIFRRLSVYDNLMAVLQIRDDLSSEQREDRAKELMEEFHIEHLRDSLGQALSGGERRRVEIARALAANPKFILLDEPFAGVDPISVIDIKRIIEHLRDSGLGVLITDHNVRETLAVCERAYIVSQGHLIAHGTPQQILEDEQVKRVYLGEDFRL	PGPT0023300_1777	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023300-lptB-K06861	NA	NA
BMS020_02105	1392	rpoN_1	COG1508	RNA polymerase sigma-54 factor	ATGACGCCGCAGTTGCAGCAGGCGATTCGTTTGCTGCAGTTGTCCACGTTAGAACTCCAGCAAGAGCTCCAGCAAGCGCTGGAAAGTAACCCGTTGCTTGAGCAAACCGATCTTCACGACGAGGTAGAGGCGAAAGAGGTGGAGGACCGCGAGTCTCTCGATACCGTCGACGCGCTTGAGCAAAAAGAGATGCCCGACGAGCTTCCTCTCGATGCCAGCTGGGATGAAATCTATACCGCCGGTACGCCGTCAGGCAACGGCGTGGACTATCAGGACGACGAACTCCCCGTTTATCAAGGCGAGACTACCCAGACGCTGCAGGATTACCTGATGTGGCAGGTCGAGCTGACGCCCTTCACCGATACCGACCGCGCCATCGCCACCTCCATTGTCGACGCCGTCGACGATACGGGCTACCTCACCGTTCAGATTGAAGATATCGTCGACAGCATCGGCGATGAGGAGATCGGCCTCGAAGAAGTGGAAGCCGTCCTGAAGCGCATCCAGCGTTTCGATCCGGTTGGCGTCGCGGCGAAAGATCTGCGCGACTGCCTGCTGATCCAGCTCTCGCAGTTCGCCAAAGAGACGCCATGGCTGGAAGAGGCCCGGCTGATTATCAGCGATCATCTCGATCTTCTGGCCAACCATGATTTCCGCACCCTGATGCGGGTGACCCGCCTGAAAGAAGAGGTGCTGAAAGAGGCGGTAAATCTGATCCAGTCCCTGGATCCCCGTCCTGGCCAGTCCATTCAAACCAGCGAACCGGAATATGTCATTCCCGACGTGCTGGTGCGCAAGGTCAGCGGCCGCTGGACCGTGGAGCTCAACGCCGACAGCATTCCACGGCTGAAAATTAATCAGCAGTATGCGGCAATGGGCAACAGCGCCCGCAATGACGCCGACGGCCAGTTCATTCGCAGCAATCTTCAGGAAGCCCGCTGGCTGATCAAAAGTCTTGAAAGCCGCAACGATACCCTGCTTCGCGTCAGCCGCTGCATCGTAGAACAGCAGCAGGCTTTTTTCGAACAGGGTGAAGAGTATATGAAGCCGATGGTGCTGGCCGATATCGCCCAGGCCGTCGAGATGCATGAATCGACGATTTCCCGTGTCACCACGCAAAAATATCTGCACAGTCCGCGCGGTATTTTTGAACTGAAGTATTTCTTCTCCAGCCATGTTAATACCGAAGGCGGCGGCGAAGCCTCGTCGACGGCGATTCGCGCGCTGGTGAAGAAACTCATCGCCGCGGAAAACCCCGCGAAGCCGTTGAGCGACAGTAAGCTCACCTCCATGTTGTCCGAGCAGGGTATCATGGTCGCGCGCCGCACTGTCGCGAAGTACAGAGAGTCTTTATCCATCCCGCCGTCAAACCAGCGTAAACAACTGGTCTGA	MTPQLQQAIRLLQLSTLELQQELQQALESNPLLEQTDLHDEVEAKEVEDRESLDTVDALEQKEMPDELPLDASWDEIYTAGTPSGNGVDYQDDELPVYQGETTQTLQDYLMWQVELTPFTDTDRAIATSIVDAVDDTGYLTVQIEDIVDSIGDEEIGLEEVEAVLKRIQRFDPVGVAAKDLRDCLLIQLSQFAKETPWLEEARLIISDHLDLLANHDFRTLMRVTRLKEEVLKEAVNLIQSLDPRPGQSIQTSEPEYVIPDVLVRKVSGRWTVELNADSIPRLKINQQYAAMGNSARNDADGQFIRSNLQEARWLIKSLESRNDTLLRVSRCIVEQQQAFFEQGEEYMKPMVLADIAQAVEMHESTISRVTTQKYLHSPRGIFELKYFFSSHVNTEGGGEASSTAIRALVKKLIAAENPAKPLSDSKLTSMLSEQGIMVARRTVAKYRESLSIPPSNQRKQLV	PGPT0000795_2048	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000795-ntrA|rpoN-K03092	NA	NA
BMS020_02106	288	hpf_1	COG1544	Ribosome hibernation promoting factor	ATGCAGCTCAACATTACAGGACACAACGTCGAGATCACTCCCGCGATGCGCGACTTCGTCACGGCGAAGTTCAGCAAGCTGGAACAATTTTTCGACCGGATCAATCAGGTCTATATTGTGTTAAAAGTAGAGAAAGTGACGCAAATTGCGGACGCGAATCTGCATGTCAACGGTGGCGAAATCCATGCCAGTGCGGAAGGGCAGGATATGTATGCGGCTGTCGATGGTCTTATCGACAAGCTGGCAAGGCAGTTAACGAAGCATAAAGATAAACTAAAACAACACTAA	MQLNITGHNVEITPAMRDFVTAKFSKLEQFFDRINQVYIVLKVEKVTQIADANLHVNGGEIHASAEGQDMYAAVDGLIDKLARQLTKHKDKLKQH				NA	NA	NA	NA	NA
BMS020_02107	489	ptsN	COG1762	Nitrogen regulatory protein	ATGATGAACAACGATTCGGCTCTACAACTGAGCAACGTCCTGAACCAGGAATGTACCCGTAGCCAGGTTCACTGCCAGAGCAAGAAGCGTGCTCTGGAAATCATTAGCGAACTGGCCGCCAAACAGTTAAGTTTGCCGCCGCAGGTGGTGTTCGAAGCGATCCTCACCCGCGAAAAAATGGGCAGTACCGGGATTGGCAATGGTATCGCCATTCCCCACGGAAAACTGGAAGAGGATACGCTGCGTGCTGTCGGCGTTTTTGTCCAGCTGGAAACCCCCATCGCCTTCGACGCGATCGACAATCAGCCTGTCGACCTGCTGTTCGCGCTGCTGGTGCCGGCCGATCAGACAAAAACCCACCTGCATACGCTCTCCCTGGTGGCCAAACGACTGGCCGACAAAGCGATTTGTCGTCGCCTGCGCGCGGCGCAGAGCGATGAAGAGTTGTATGAGATCATCACCGAAGCAGGAAGCAGCGATGACGCATAA	MMNNDSALQLSNVLNQECTRSQVHCQSKKRALEIISELAAKQLSLPPQVVFEAILTREKMGSTGIGNGIAIPHGKLEEDTLRAVGVFVQLETPIAFDAIDNQPVDLLFALLVPADQTKTHLHTLSLVAKRLADKAICRRLRAAQSDEELYEIITEAGSSDDA	PGPT0000135_507	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-OTHER_NITROGEN_FIXATION_REGULATORS,PGPT0000135-ptsN-K02806	NA	NA
BMS020_02108	855	rapZ_1	COG1660	RNase adapter protein RapZ	ATGGTACTGATGATCGTCAGCGGCCGCTCGGGCTCGGGTAAATCCGTCGCTCTGCGAGCGCTGGAAGATATGGGCTTTTACTGCGTGGATAACCTGCCGGTCGTGCTGCTGCCCGATCTGGCACGGTCGCTGGCTGACCGCAATATTTCGGCGGCCGTCAGCATCGACGTGCGGAACATGCCGGAATCACCGGAGATCTTCGAGCAGGCCATGAAAAACCTGCCGGAGTGCTTTTCGCCGCAGCTGCTGTTTCTCGATGCCGATCGCAACACGCTGATCCGTCGATACAGCGACACCCGTCGCCTGCATCCGCTGTCGAGCAAGAATTTGTCGCTGGAAAGCGCCATCGACGAAGAGAGCGATCTGCTGGAGCCCCTGCGCTCGCGGGCCGACCTGATTGTCGATACCTCGGAGATGTCGGTTCACGAGCTGGCGGAAATGTTGCGCACCCGGCTGCTGGGTAAACGTGAACGCGAACTGACCATGGTCTTCGAATCCTTCGGCTTTAAGCACGGTATCCCGATCGATGCCGATTACGTCTTTGACGTGCGCTTTCTGCCAAACCCGCACTGGGATCCGAAGCTGCGTCCTATGACCGGTCTGGATAAACCGGTGGCCGCCTTCCTCGATCGGCACACCGAAGTGCACAACTTTATTTACCAGACCCGGAGCTATCTTGAGCTATGGTTACCGATGCTGGAGACCAACAATCGCAGCTATCTGACGGTGGCCATTGGCTGTACCGGCGGTAAACATCGTTCGGTTTATATTGCTGAACAACTGGCTGACTACTTCCGCTCGCGCGGCAAAAACGTACAGTCTCGTCATCGGACGCTGGAAAAACGTAAATCATGA	MVLMIVSGRSGSGKSVALRALEDMGFYCVDNLPVVLLPDLARSLADRNISAAVSIDVRNMPESPEIFEQAMKNLPECFSPQLLFLDADRNTLIRRYSDTRRLHPLSSKNLSLESAIDEESDLLEPLRSRADLIVDTSEMSVHELAEMLRTRLLGKRERELTMVFESFGFKHGIPIDADYVFDVRFLPNPHWDPKLRPMTGLDKPVAAFLDRHTEVHNFIYQTRSYLELWLPMLETNNRSYLTVAIGCTGGKHRSVYIAEQLADYFRSRGKNVQSRHRTLEKRKS				NA	NA	NA	NA	NA
BMS020_02109	273	ptsO	COG1925	Phosphocarrier protein NPr	ATGACCGTAAAGCAGACCGTTGAAATCACCAATAAGCTGGGCATGCACGCCCGCCCGGCGATGAAGCTGTTCGAACTAATGCAGAATTTCGATGCCGAAGTGTTGCTGCGCAATGATGAAGGCACGGAGGCGGAAGCCAACAGCGTCATTGCCCTGCTGATGCTGGACTCGGCGAAAGGACGGCAGATAGAGGTGGAGGCCAGCGGTCCGCAGGAAGTGGAAGCCCTCGCCGCGGTGATTGCCCTGTTTAATGCCGGGTTTGACGAAGATTAA	MTVKQTVEITNKLGMHARPAMKLFELMQNFDAEVLLRNDEGTEAEANSVIALLMLDSAKGRQIEVEASGPQEVEALAAVIALFNAGFDED	PGPT0016875_961	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
BMS020_02110	726	mtgA_1	COG0744	Biosynthetic peptidoglycan transglycosylase	ATGAAGCTCCGCATTGCGCCCTTCGCGCTGCTTAAACGACTGGCGCTGCGTCTGCTGCTGATCGCCGCCGTCTTCTGGGGCGGGGGGATCGCGCTGTTTAGCGTGCTGCCGGTGCCCTTTTCGGCGGTCATGCTTGAGCGGCAGGTTAGCGCCTGGCTGTCCGGAAATGTCCACTATCTGGCGCACTCCGACTGGGTCGCCATGGATAACATCTCCCCGTGGATGGGGCTGGCGGTGATTGCCGCCGAAGATCAGAAGTTCCCGGAACACTGGGGGTTTGACGTCCCGGCGATAGAAAAGGCGCTGGCGCACAATGAGCGTCACGATACCCGCATTCGCGGCGCATCAACGCTGTCGCAGCAGACGGCGAAAAACCTGTTTCTGTGGGATGGACGTAGCTGGCTGCGCAAGGGGCTGGAGGCCGGGTTGACCGTCGGCATGGAAACCGTGTGGAGTAAAAAGCGGATCCTGACCGTCTACCTGAATATTGCCGAGTTTGGCGATGGGATTTTTGGCGTGGAAGCGGCCGCCCAGCGCTATTTTCATAAGCCCGCCAGCCAGTTGACGCCGGGGGAAGCGGCTCTGCTGGCCGCGGTGCTGCCAAACCCGATCCGCTATCGCGCCGACGCGCCTTCGGGCTATGTGCGCAACCGCCAGGCCTGGATCTTACGTCAGATGCGACAGCTGGGTGGGGAAGGGTTCATGCGTGAGCATAAGCTCTATTAG	MKLRIAPFALLKRLALRLLLIAAVFWGGGIALFSVLPVPFSAVMLERQVSAWLSGNVHYLAHSDWVAMDNISPWMGLAVIAAEDQKFPEHWGFDVPAIEKALAHNERHDTRIRGASTLSQQTAKNLFLWDGRSWLRKGLEAGLTVGMETVWSKKRILTVYLNIAEFGDGIFGVEAAAQRYFHKPASQLTPGEAALLAAVLPNPIRYRADAPSGYVRNRQAWILRQMRQLGGEGFMREHKLY	PGPT0024110_901	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024110-mtgA-K03814	NA	NA
BMS020_02111	654	elbB	COG3155	Glyoxalase ElbB	ATGAAAAAAATTGGTGTGGTACTGAGCGGCTGCGGCGTGTACGACGGCAGTGAAATTCATGAGGCAGTGATTACCCTGCTGGCGATCGCGCGCAACGGCGCGCAGGCGGTCTGCTTTGCGCCCGATAAACCGCAGCGCGACGTCATCAACCATCTGACGGGCAAACCGTTGACCGAGCAACGCAACGTACTGGTTGAAGCGGCGCGCATCGCCCGCGGTGACATCCTGCCGCTGGCGCAGGCGCGTGAGGAGACGCTGGACGCGCTGATCGTCCCCGGCGGCTTCGGCGCGGCGAAAAACTTAAGCAGCTTCGCCGCCGAGGGCAGCGAATGTGAGGTGGACCGCGATCTGCGGGCCCTGACGCTGGCGATGCATCAGGCCGGCAAGCCGCTGGGCTTTATGTGCATCGCTCCGGCGCTGCTGCCGAAGATCTTTGCGTTTCCGCTGCGGATGACTATCGGGACCGATCTCGACACCGCCGATGTGGTGGAGGAGATGGGGGCGGAGCATGTGCCTTGCCCGGTCGACGACATCGTGGTGGATGAAGAGAACAAAGTGGTTACCACTCCGGCGTATATGCTGGCGGAGAATATTGCGCAAGCCGCTACCGGGATCGAAAAACTGGTCGCCCGCGTGCTGGCGCTGAGCGCATGA	MKKIGVVLSGCGVYDGSEIHEAVITLLAIARNGAQAVCFAPDKPQRDVINHLTGKPLTEQRNVLVEAARIARGDILPLAQAREETLDALIVPGGFGAAKNLSSFAAEGSECEVDRDLRALTLAMHQAGKPLGFMCIAPALLPKIFAFPLRMTIGTDLDTADVVEEMGAEHVPCPVDDIVVDEENKVVTTPAYMLAENIAQAATGIEKLVARVLALSA				NA	NA	NA	NA	NA
BMS020_02113	2340	arcB	COG0642	Aerobic respiration control sensor protein ArcB	ATGAAGCAAATTCGTATGCTGGCGCAGTATTATGTCGACCTGATGATGAAGCTGGGTCTGGTCCGCTTTTCAATGCTGTTGGCACTTGCGCTGGTGGTGCTGGCCATCGTGGTACAGATGGCGGTCACCATGGTGCTGCATGGCCAGGTTGAAAGCATCGACGTTATCCGCTCTATCTTCTTCGGTCTACTGATCACCCCGTGGGCGGTCTATTTTCTCTCGGTGGTGGTGGAGCAGCTTGAAGAGTCCCGCCAGCGTCTTTCGCGGCTGGTGGAGAAACTGGAGGAGATGCGTGAGCGCGATCTGAAGCTGAACGTGCAGCTGAAAGACAATATCGCGCAGTTGAATCAGGAGATTGGCGAACGTGAAAAGGCGGAAGCCGAGCGTGAGACCACCCTCGAGCAGCTGAAGATCGAGATGAAAGAGCGTGAAGAGACGCAGATCCAGCTCGAACAGCAATCCTCCTTTCTGCGCTCTTTCCTCGATGCCTCCCCGGACCTGGTCTTCTACCGCAATGAGGATAAAGAGTTTTCCGGCTGTAACCGGGCGATGGAGCTGCTGACCGGCAAAAGCGAGAAACAGCTGATCCACCTCAAACCGCAGGATGTCTATAGCGAAGAGGCGGCGGAAAAGGTGCTGGAAACCGATGAGAAGGTGTTCCGCCACAATGTATCGCTGACCTATGAGCAGTGGCTGGACTATCCCGATGGCCGTAAAGCGTGCTTCGAAATCCGCAAGGTCCCGTACTACGATCGCGTCGGTAAGCGTCGTGGTCTGATGGGCTTCGGACGCGATATCACCGAACGAAAACGCTATCAGGACGCCCTCGAACGCGCCAGCCGGGATAAAACCACCTTCATCTCCACCATCAGCCATGAGCTGCGTACCCCGCTGAACGGGATTGTCGGGCTGAGCCGAATTTTGCTGGATACCGAACTGACCAGCGAGCAGGAAAAATACCTGAAAACCATCCATGTCTCAGCGGTGACGCTGGGGAATATCTTCAATGATATTATCGACATGGATAAAATGGAGCGCCGTAAGGTGCAGCTCGATAACCAGCCGGTGGACTTCACCAGCTTCCTTGCCGACCTGGAAAACCTTTCCGGTCTGCAGGCGCAGCAGAAGGGACTGCGCTTTGTGCTGGAGCCGAGCCTGCCGCTGCCGCACAAGGTGATCACCGATGGCACCCGCCTGCGGCAGATCCTGTGGAATCTTATCAGCAACGCCGTGAAGTTTACCCCACAGGGCGGAGGGGTGAACGTCCGCGTGCGCTATGACGAAGGCGATATCCTGCACTTCGAAGTGGAAGACTCCGGGATTGGTATTCCTGAAGCGGAGCAGGACAAAATATTCGCCATGTATTACCAGGTCAAAGACAGCCACGGCGGCAAACCCGCCACCGGTACCGGGATTGGCCTCGCCGTATCGCGTCGCCTGGCGCGCAATATGGGCGGCGATATCAGCGTCACCAGCCAGCCGGGTAAAGGGGCGACCTTTACGCTCACCGTCCATGCGCCTGCCATTGCGGAAGAAGTGGAAGATACGCTGGCGGAAGACGACATGCCATTACCGGCGCTCAACGTGCTGCTGGTGGAAGATATTGAGCTCAACGTCATTGTGGCGCGCTCGGTGCTGGAAAAGCTGGGCAACAGCGTGGATGTCGCGATGACCGGCAAAGCCGCGCTGGAGATGTTTGAGCCTGGCGAGTACGACCTGGTGCTGCTGGATATCCAGCTGCCGGATATGACGGGACTGGATATTTCTCGTCAGCTAAAACAGAATTTTGCCGCGGATGAGCTGCCGCCGCTGGTGGCCCTGACCGCCAACGTGCTGAAGAATAAGAAAGAGTATCTGGATGCCGGCATGGACGATGTGCTGAGCAAGCCGCTATCGGTGCCGGCACTGACAGCCATGATTAAAAAATTCTGGGATGCGCCGGAAGAGGAGGCGCAGGAAGCGCCGGCGGCCGATCGGCATAAAGCCGATGCGGTGCTGGATACCGATATGCTTGAGCAATATATCGAACTGGTGGGACCGAAGCTTATCAACGATGGCCTCGCGGTGTTTGAGAAGATGATGCCGGGCTATATGTCCGTCCTTGAGTCTAATCTCACCGCCCGGGATCAAAAAGGGATCGTTGAAGAGGGGCATAAGATCAAAGGGGCTGCGGGCTCTATTGGCCTGCGCCACATCCAGCAGCTGGGTCAGCAGATCCAGACGCCGGACCTGCCTGCCTGGTCTGATAATGTCGCTGAATGGGTTGAAGAGATGAAATCCGAGTGGCAAAACGACGTGGCGGTTCTGAAGGCGTGGGTGGCGAAGGCCGGGAAAAAATGA	MKQIRMLAQYYVDLMMKLGLVRFSMLLALALVVLAIVVQMAVTMVLHGQVESIDVIRSIFFGLLITPWAVYFLSVVVEQLEESRQRLSRLVEKLEEMRERDLKLNVQLKDNIAQLNQEIGEREKAEAERETTLEQLKIEMKEREETQIQLEQQSSFLRSFLDASPDLVFYRNEDKEFSGCNRAMELLTGKSEKQLIHLKPQDVYSEEAAEKVLETDEKVFRHNVSLTYEQWLDYPDGRKACFEIRKVPYYDRVGKRRGLMGFGRDITERKRYQDALERASRDKTTFISTISHELRTPLNGIVGLSRILLDTELTSEQEKYLKTIHVSAVTLGNIFNDIIDMDKMERRKVQLDNQPVDFTSFLADLENLSGLQAQQKGLRFVLEPSLPLPHKVITDGTRLRQILWNLISNAVKFTPQGGGVNVRVRYDEGDILHFEVEDSGIGIPEAEQDKIFAMYYQVKDSHGGKPATGTGIGLAVSRRLARNMGGDISVTSQPGKGATFTLTVHAPAIAEEVEDTLAEDDMPLPALNVLLVEDIELNVIVARSVLEKLGNSVDVAMTGKAALEMFEPGEYDLVLLDIQLPDMTGLDISRQLKQNFAADELPPLVALTANVLKNKKEYLDAGMDDVLSKPLSVPALTAMIKKFWDAPEEEAQEAPAADRHKADAVLDTDMLEQYIELVGPKLINDGLAVFEKMMPGYMSVLESNLTARDQKGIVEEGHKIKGAAGSIGLRHIQQLGQQIQTPDLPAWSDNVAEWVEEMKSEWQNDVAVLKAWVAKAGKK	PGPT0026350_211	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-OXYGEN_AVAILABILITY_SIGNALLING,PGPT0026350-arcB-K07648	NA	NA
BMS020_02114	1071	uxuA_2	COG1312	Mannonate dehydratase	ATGACGATGCAGATGACAATGCGCTGGTTTGGACCAGAGGAAGATAAGGTTTCATTAGAGCATATACGCCAGGTCCCCGGCGTGGAGGGGGTGGTCGGCGCGCTCTATGACGTCGCGGTGGGCGAGGTATGGCCGGAGGATAAAATTGAGCGTCTGGTCAGCCAGGCCCATGCCGCAGGCCTGAAAATGGAGGTGATAGAGAGCGTCAACATCCATGACGACATCAAAATCGGCCTCCCTTCTCGTGACCGCTATATTGCCAACTATCAGCAGACCATTCGCCACCTTGCCCGCTTCGGCGTCAAAGTCATCTGCTATAACTTCATGCCGGTGTTCGACTGGATGAAGACGGATATGAACTACGTCCTGCCGGATGGCTCGTTGACGATGGCTTTTGAGAAGAAAGATATCGATAAGCGGCTGGAAGACGTGGTGAAGGAGGTGCTTGAGAATTCAAACGGCTTCGCGTTGCCGGGCTGGGAGCCGGAACGGCTGGCGGAAGTGCAGACCCTGTTTGCCAAATATAGCGCGGTGGATGACTATAAGCTGCGGGAGAACCTGGTCTATTTTCTGCAGGCGGTGATCCCGGTTTGCGAAGAGGTGGGCGTGAAAATGGCGATCCACCCTGACGATCCGCCGTACTCGATATTTGGCCTGCCGCGGGTGGTCAAAAACCGCGACGATTTGGACTGGATCTGCAGGGCTGTCGATTCACCCGCCAACGGTATCACCCTCTGCACCGGCTCGATTGCCGAAGATCCGGATAACGACGTATACGCTATTCTGGCTGAGTTTACCCGCCGCAAGCGGATCCATTTTGCCCACGTCCGCAATATTAAACTGATGCAGGATAAAGACTTTTACGAGTGCGCCCATCCGTCAGAATACGGCTCCCTGGATATGTACAAGGTGATGCAAGCGTTGCACGACAACGGCTTCGACGGCTATATACGCCCGGATCATGGCCGCTTTATCTGGGGAGAGACCGGACGCCCGGGCTATGGTTTATACGATCGCGCACTCGGGGTGACCTACCTCAAAGGTCTCTGGGAGGCGCTAAGCAAGCGCTAA	MTMQMTMRWFGPEEDKVSLEHIRQVPGVEGVVGALYDVAVGEVWPEDKIERLVSQAHAAGLKMEVIESVNIHDDIKIGLPSRDRYIANYQQTIRHLARFGVKVICYNFMPVFDWMKTDMNYVLPDGSLTMAFEKKDIDKRLEDVVKEVLENSNGFALPGWEPERLAEVQTLFAKYSAVDDYKLRENLVYFLQAVIPVCEEVGVKMAIHPDDPPYSIFGLPRVVKNRDDLDWICRAVDSPANGITLCTGSIAEDPDNDVYAILAEFTRRKRIHFAHVRNIKLMQDKDFYECAHPSEYGSLDMYKVMQALHDNGFDGYIRPDHGRFIWGETGRPGYGLYDRALGVTYLKGLWEALSKR	PGPT0018270_1407	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
BMS020_02115	1017	rspB	COG1063	Starvation-sensing protein RspB	ATGAGAAGCGTCGTTGTCAAAGAGCCAGGCCAACTGAACATCGAATCACGTCCGGTTCCCGCTCCGGGCGCCCACGAAGTCCGGGTGAAAATCGCCTTTGCCGGGATCTGCGGTTCCGATGTGCATATCTATCAGGGCCACAACCCCTTCGCGAAATATCCCCGCGTGATCGGCCATGAATTCTTCGGCATCATCGATGCCGTCGGCGAACAGGTCTCTCCGGCACGCATCGGCGAGCGCGTCGCAGTCGACCCTGTCGTCAGCTGCGGCCAGTGTTATCCCTGCTCGGTGGGGCGGCCGAATGTCTGTGCGCAGCTCCAGGTCATCGGGGTTCACCGCGACGGCGGATTCAGCGACTACGCCTGCGTGCCGGCGAAAAACGCCTGGCGCATTCCGGAAGCCATCAGCGATCGTCAGGCGACGATGGTTGAGCCTTTTACCATTGCGGCAAACATTACCGCCCAGCTGCAGCCCATGGCGCAGGATATCGCCCTGATCTACGGCGCAGGTCCGATGGGTCTGACGATGATCCAGGCGCTGAAGGGGGTGTATGGCGTTAAGCAGGTGATCGTCGTGGACCGCATTGCCGAACGTCTGCAGATGGCGCGGGACAATGGCGCCGATCTGACGCTGGATAACACTCACCAGCCGCTGGCGGAACAGCTGGCGCAGCGGCAGATAGCCCCCACGCTGGTCATCGATGCCGCCTGCCACCCGGCGATCCTTCAGGAGGCCATTCTCCTCGCCTCTCCCGCCGCACGCATCGGCATACTCGGCTTCTCCGGCGAGGCGTCCACCCTCACCCAGCAAAGCATTACCAGTAAAGAGATCTCCATTTTCTCCTCCCGGCTGAACAGCGGACGTTTTCCGCTGGTCATCGACTGGATGGAGAAAGGCCTTATCCAGCCTGAGGCGTTAATCACCCACTGCATGCCGCTGGAGCAGGTAAAAGAGGCTATGGAGATTTTTGCCAACGATCGGAAAACCTGCTGCAAGGTATTACTGCAGCTGGGGTAA	MRSVVVKEPGQLNIESRPVPAPGAHEVRVKIAFAGICGSDVHIYQGHNPFAKYPRVIGHEFFGIIDAVGEQVSPARIGERVAVDPVVSCGQCYPCSVGRPNVCAQLQVIGVHRDGGFSDYACVPAKNAWRIPEAISDRQATMVEPFTIAANITAQLQPMAQDIALIYGAGPMGLTMIQALKGVYGVKQVIVVDRIAERLQMARDNGADLTLDNTHQPLAEQLAQRQIAPTLVIDAACHPAILQEAILLASPAARIGILGFSGEASTLTQQSITSKEISIFSSRLNSGRFPLVIDWMEKGLIQPEALITHCMPLEQVKEAMEIFANDRKTCCKVLLQLG	PGPT0018265_274	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018265-rspB-K08322	NA	NA
BMS020_02116	1284	exuT_2		Hexuronate transporter	ATGGGAAAAAATATCCGCTGGATTATCGTCCTGTTATTATTTTTAGTATATATGATTAATTATCTGGACCGGGTGGCGTTATCCATTACGGTACCGATGATTGAAAAGGATCTGGCGCTAAACGCCGAACAGTTTGGTATTATTTTCGGCAGTTTTTTCTTCGGCTACGCGGTATTTAATTTTATTGGCGGTCTGGCCGTGGATAAGTTTGGCGCAACGCTGGTCCTGGGGCTGGCGGTGGGGATGTGGTCGCTATTTTGCGGTTTAACCGCCTTCGCCACCGGCTTTTATTCCATGCTGATGCTGCGCGTTCTCTTCGGGATGGCTGAAGGCCCGATTTGCGCGTCGGCGAACAAGATGATCAACGGCTGGTTTCCTAAGAAGCAAGCGGCTACCGCCGTAGGGCTGCTCAGCGCCGGCTCTCCGCTGGGCGGCGCGGTTGCTGGCCCCATCGTCGGTTATCTGGCTCTCGCATTCGGCTGGCGCCCGGCGTTTATGATTATTTTCGCCATCGGTATTGTATGGATGGTCGTGTGGTTTTTTATTGCCGCCAACTCGCCTGACAAACATAAGCATGTCAGTCAGGAAGAGCTCATGCTCATTAATAAAATGAAGCAAGAGGAGGACGCCCTGGAAACCGTAGAAAATCAAACCGCTCACTCACTGGGTTATTATCTCAAGCAGCCTATTATTCTGGTAACGGCCTTTGCGTTCTTCTGCTACAACTATATTTTGTTTTTCTTCCTCAGCTGGTTCCCGTCCTATCTGGTTCAGCAGCACCATCTGGATATTAAACAAATGAGCCTCACCACCATGATCCCATGGATAGTCGGCTTTGTCGGCCTGGCGCTGGGGGGGTATATTTCCGATAAAATTTTTAAACTCACCGGACGCCTGCTGCTGTCGCGCAAAATTGTGCTGGTGGTATGTCTGCTGATGGCCGCCATCTGTGTGGGGCTTGCCGGTACCGTCAGCAGCGTCGTTCCTGCCGTTCTGCTGATGTCGGTCTCCATCTTTTTCCTCTATGTCACCGGCGCGATCTACTGGGCGATTATCCAGGACGTAGTGCATAAATCCCGCGTCGGCGGCACCAGCGGCTTTATCCACCTTATCGGCAGCGTCTCCGGCATCGTGGGGCCGATTGTCACCGGCTATATCGTGCAGTCTACCGGTAAATTCGACAGCGCCTTTGTCCTCGCCGGCACTATCGCCGCGCTCGGCGCCCTGCTGGTACTGTTCGTGATCAAAACGCCACGCGTGACAATGAAAGCCAGTCAGGCATAG	MGKNIRWIIVLLLFLVYMINYLDRVALSITVPMIEKDLALNAEQFGIIFGSFFFGYAVFNFIGGLAVDKFGATLVLGLAVGMWSLFCGLTAFATGFYSMLMLRVLFGMAEGPICASANKMINGWFPKKQAATAVGLLSAGSPLGGAVAGPIVGYLALAFGWRPAFMIIFAIGIVWMVVWFFIAANSPDKHKHVSQEELMLINKMKQEEDALETVENQTAHSLGYYLKQPIILVTAFAFFCYNYILFFFLSWFPSYLVQQHHLDIKQMSLTTMIPWIVGFVGLALGGYISDKIFKLTGRLLLSRKIVLVVCLLMAAICVGLAGTVSSVVPAVLLMSVSIFFLYVTGAIYWAIIQDVVHKSRVGGTSGFIHLIGSVSGIVGPIVTGYIVQSTGKFDSAFVLAGTIAALGALLVLFVIKTPRVTMKASQA	PGPT0017205_1309	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_HEXURONATE_TRANSPORT,PGPT0017205-exuT-K08191	NA	NA
BMS020_02117	960			hypothetical protein	TTGTTGAGGCCGGTCTATCAGATTATGCAGTTACAGAAATTAGTCAATATGTTTGGTGGGGATCTTCTGCGCCGCTATGGCGAAAAGGTCCATAAGCTAACGCTGCACGGCGGTTTTAGCTGCCCGAACCGCGACGGTACGCTGGGCCGTGGCGGCTGCACTTTCTGTAACGTGGCCTCGTTTGCGGATGAAGCCCAGCAGCATCGATCCATCGCCGAACAGCTCGCCCATCAGGCGCAGCTCGTTAACCGGGCAAAGCGCTACCTGGCCTATTTTCAGGCCTATACCAGCACCTTTGCTGAAGTGCAGGTGCTCCGCTCAATGTATCGCCAGGCCGTCAGCGAGGCGAATATCGTTGGCCTCTGCGTCGGCACCCGCCCGGACTGCGTGCCGGAGGCGGTTCTCGACCTGCTCAGTGAATACCACCAGCAGGGGTATGAGGTATGGCTGGAGCTGGGGCTGCAGACCGCGCATGATAAGACCCTGCATCGCATTAACCGCGGGCATGATTTCGCCTGTTACCAGCGTACCGCGCGTCTGGCGCGTGAGCGCGGACTGAAGGTTTGCGCGCATCTCATTGTCGGCCTGCCCGGGGAGACCCAGGAGCACGGCCTCGAGACGCTGGAGCGGGTCGTGACCACCGGCGTGGATGGCATCAAGCTGCACCCGCTGCATATCGTTAAAGGCAGCATTATGGCAAAAGCATGGCAGGCCGGTCGTCTCGATGGCATCGAACTGGAGGCGTATACCGTCACCGCCGGGGAGATGATCCGCCATACCCCGCCGGAGGTGATCTACCATCGCATATCGGCCAGCGCCCGTCGGCCCACGCTGCTCGCGCCGCTGTGGTGCGAAAATCGCTGGACCGGAATGGTTGAACTGGATCGCTATCTGAATGAGCAGGGCGCTCAGGGTTCGGCGCTGGGCCGCAGCTGGGTCGCGCCCCAGGCGGTGAAATAG	MLRPVYQIMQLQKLVNMFGGDLLRRYGEKVHKLTLHGGFSCPNRDGTLGRGGCTFCNVASFADEAQQHRSIAEQLAHQAQLVNRAKRYLAYFQAYTSTFAEVQVLRSMYRQAVSEANIVGLCVGTRPDCVPEAVLDLLSEYHQQGYEVWLELGLQTAHDKTLHRINRGHDFACYQRTARLARERGLKVCAHLIVGLPGETQEHGLETLERVVTTGVDGIKLHPLHIVKGSIMAKAWQAGRLDGIELEAYTVTAGEMIRHTPPEVIYHRISASARRPTLLAPLWCENRWTGMVELDRYLNEQGAQGSALGRSWVAPQAVK				NA	NA	NA	NA	NA
BMS020_02118	4461	gltB_1	COG0067	Glutamate synthase [NADPH] large chain	ATGTTGTACGACAAATCCCTTGAGAGGGATAACTGTGGTTTCGGCCTGATCGCCCACATAGAAGGCGAACCTAGCCACAAGGTAGTGCGAACCGCGATACACGCACTGGCCCGCATGCAGCACCGTGGCGCAATCCTTGCCGATGGTAAAACCGGCGACGGTTGCGGTCTGCTGCTGCAAAAACCCGATCGTTTCTTCCGCATCGTTGCCGAAGAGCGCGGCTGGCGTTTAGCCAAAAACTACGCCGTTGGGATGCTGTTCCTGAATAAAGATCCTGAACTGGCGAAAGCGGCACGCCGCATCGTTGAAGAAGAACTTCAGCTTGAGACCCTGTCGATTGTTGGCTGGCGCGATGTGCCGACCAACGAAGGCGTGCTCGGTGAAATCGCCCTCTCCTCGCTGCCCCGTATTGAGCAAATCTTTGTTAACGCCCCGGCTGGCTGGCGCCCGCGCGATATGGAGCGTCGTCTGTTTATTGCGCGTCGTCGCATTGAAAAACGCCTGCAGGAAGACAAAGATTTCTACGTTTGTAGCTTGTCCAACCTGGTCAACATCTATAAAGGTCTGTGTATGCCGGCGGATTTGCCGCGCTTCTACCTGGACCTCGCGGACCTGCGCCTGGAGTCGGCTATCTGCCTGTTCCATCAGCGCTTCTCCACCAACACCGTACCACGCTGGCCGCTGGCGCAGCCGTTCCGCTACCTGGCGCACAACGGTGAAATCAACACCATCACCGGCAACCGCCAGTGGGCTCGCGCCCGTACCTATAAATTCCAGACCCCGCTGATCCCGGACCTGCACGACGCCGCGCCGTTCGTTAACGAAACCGGCTCCGACTCCAGTTCAATGGACAACATGCTGGAGCTGCTGCTGGCCGGCGGGATGGACATCGTGCGCGCCATGCGTCTGCTGGTGCCGCCAGCCTGGCAGAACAACCCGGATATGGATCCGGAGCTGCGTTCGTTCTTCGACTTTAACTCCATGCATATGGAGCCATGGGACGGCCCGGCGGGCATCGTCATGTCCGATGGTCGCTACGCGGCCTGTAACCTCGACCGTAATGGCCTGCGCCCGGCGCGCTACGTCATTACCAAAGATAAGCTCATCACCTGCGCCTCTGAAGTCGGCATCTGGGACTACCAGCCGGACGAAGTGGTTGAGAAAGGCCGCGTGGGCCCGGGCGAGCTGATGGTTATCGATACCCGTGCCGGACGCATTCTGCACTCAGCGGAAACCGATGACGATCTGAAGAGCCGCCATCCGTATAAAGAGTGGATGGAGAAAAACGTTCGTCGCCTGGTGCCATTTGAAGATCTGCCGGACGAAGAGGTTGGCAGCCGCCAGCTGGACGACGATCTGCTGGCCAGCTACCAGAAACAGTTTAACTACAGCGCGGAAGAGCTGGACTCGGTGCTGCGCGTGCTCGGCGAAAATGGCCAGGAAGCGGTCGGCTCAATGGGCGATGACACGCCTTTCGCCGTCCTTTCCAGCCAGCCGCGCATTATCTACGATTATTTCCGTCAGCAGTTCGCCCAGGTGACGAACCCGCCTATCGATCCGCTGCGTGAAGCTCACGTCATGTCGCTGGCCACCAGCATCGGGCGCGAAATGAACGTCTTCTGCGAAGCGGAAGGCCAGGCGCATCGTCTGAGCTTCAAATCGCCGATCCTGCTGTACTCCGATTTCAAACAGCTGACGACGATGGAAGAAGAGCACTATCGTGCCGACGTCCTCGACATCACCTTCAACCCGGCAGAGGCTTCCCTCAGCGAGACGGTGAAGGCCCTGTGCGACAAAGCGGAGCAAATGGTACGCGATGGTACCGTGCTGCTGGTTCTTTCTGACCGCAACATCGCCAAAGACCGCCTGCCGGTGCCGGCGCCGATGGCCGTTGGCGCGATCCAGACCCGTCTGGTCGATAAAAGTCTGCGCTGCGATGCCAACATCATCGTTGAAACCGCCAGCGCCCGCGATCCGCATCACTTCGCCGTACTGCTGGGCTTCGGCGCGACAGCTATCTATCCGTACCTCGCCTATGAAACGCTGGCGAAGCTGGTCGACAGCAAAGCTATCGATAAACCATACCGTGCGGTGATGCTGAACTATCGCAACGGTATCAATAAAGGTCTGTATAAGATCATGTCCAAGATGGGGATCTCGACCATCGCCTCCTACCGCTGCTCGAAGTTGTTCGAAGCGGTCGGTCTGCATCGCGATGTCTCCGATCTCTGCTTCCAGGGCGTGGTCAGTCGCATCGGCGGCGCCGGCTTCGACGATTTCCAGCAGGACCTGCTGAATCTGTCGAAACGCGCCTGGCTGGCGCGCAAGCCGCTGGCTCAGGGCGGTCTGCTGAAGTACGTTCACGGCGGCGAATATCACGCCTACAACCCGGACGTGGTGCGTACCCTGCAGCAGGCTGTGCAGAGCGGCGAGTACAGCGATTATCAACAATACGCGAAGCTGGTTAACGAACGTCCGGCGGCCACGCTGCGCGATCTGCTGGCGCTCAACCCGGGCGAAGACGCCATCAGCATCGACGACGTGGAGCCGGCGAAGGAGCTGTTCAAACGCTTCGATACCGCAGCGATGTCGATCGGCGCCCTGAGTCCGGAAGCGCACGAATCGCTGGCGGAAGCGATGAACAGCATCGGCGGCTTCTCTAACTCCGGTGAAGGCGGTGAAGACCCGGCGCGCTACGGCACCAATAAAGTGTCGCGCATCAAGCAGGTGGCGTCCGGCCGCTTCGGCGTCACCCCAGCCTATCTGGTCAATGCCGACGTTATCCAGATCAAAGTCGCCCAGGGCGCGAAGCCGGGTGAAGGCGGCCAGCTGCCGGGTGATAAAGTCACTCCGTACATCGCCAAACTGCGCTATTCGGTACCGGGCGTGACGCTGATCTCCCCGCCGCCGCACCACGATATCTACTCTATCGAGGATTTGGCGCAGCTGATTTTCGACCTCAAGCAGGTCAACCCGAAAGCGATGATTTCGGTCAAACTGGTTTCTGAACCGGGCGTGGGCACCATCGCCACCGGCGTAGCCAAAGCTTATGCCGACCTGATCACCATCGCCGGCTACGACGGCGGCACCGGGGCGAGCCCGCTCTCTTCCGTGAAATATGCCGGCTGTCCGTGGGAGCTTGGTCTGGTGGAAACCCAGCAGGCGCTGGTCGCTAACGGCCTGCGTCATAAGATCCGTCTGCAGGTGGATGGCGGCCTGAAAACCGGCCTCGATATCATCAAAGCGGCGATCCTCGGCGCGGAAAGCTTTGGTTTCGGTACCGGCCCGATGGTGGCGCTGGGCTGTAAATACCTGCGTATTTGCCACCTGAACAACTGCGCGACCGGCGTGGCGACCCAGGATGACAAACTGCGTAAGAACCACTATCACGGTCTGCCGTTCAAAGTGACCAACTACTTTGAATTTATCGCCCGTGAAACCCGCGAGCTGATGGCCCAGCTGGGCGTCAAGCGCCTGGTGGATCTGATTGGCCGCACCGATCTGCTCAAAGAGCTGGATGGGTTCACCGCCAAGCAGCAGAAACTGGATCTGGGTAAACTGCTGGAGACCGCAGAGCCACATCCTGGCAAAGCGCTGTACTGCACCGAAAATAACCCGCCGTTCGATAACGGCGTGCTCAACGCCCAGCTGCTGCAGCAGGCGAAACCGTACGTGGATGAAAAGCAGAGCAAAACGTTCTGGTTCGATATCCGCAATACCGACCGCTCCGTGGGGGCCTCGCTGTCCGGGTATATTGCCCAGACCCATGGCGACCAGGGACTGGCGGGCGACCCGATCGTCGCTCACTTTAGCGGCACCGCGGGCCAGAGCTTCGGCGTGTGGAACGCCGGCGGCGTGGAACTGCATCTGACGGGCGACGCCAACGACTATGTCGGCAAAGGCATGGCGGGCGGTCTGCTGGCCATTCGTCCGCCGGTGGGCTCCGCTTTCCGCAGCCACGAAGCCAGCATTATCGGCAACACCTGCCTGTACGGCGCGACCGGTGGTCGTCTGTACGCCGCAGGCCGCGCAGGTGAGCGTTTCGCGGTGCGTAACTCCGGCGCCATCACCGTGGTGGAAGGCATCGGCGACAACGGCTGTGAATACATGACCGGCGGTATCGTCTGCGTGCTCGGTAAAACCGGCGTCAACTTTGGCGCAGGGATGACCGGCGGCTTTGCCTATGTCCTGGATGAAGATGGCGACTTCCGTAAACGCGTGAACCCGGAGCTGGTGGAAGTGCTGGACGTTGACTCTCTGGCCATCCATGAAGAGCACCTGCGCGGTTTAATCACCGAGCACGTGCAGCTTACCGGTTCGCAACGCGGCGAAGAGATCCTCGCCAACTGGCCGGCCTTCTCCGCGAAGTTTGCGCTGGTTAAACCGAAGTCCAGCGATGTTAAAGCACTGTTGGGTCACCGTAGTCGTTCCGCAGCTGAGCTGCGGGTGCAGGCGCAGTAA	MLYDKSLERDNCGFGLIAHIEGEPSHKVVRTAIHALARMQHRGAILADGKTGDGCGLLLQKPDRFFRIVAEERGWRLAKNYAVGMLFLNKDPELAKAARRIVEEELQLETLSIVGWRDVPTNEGVLGEIALSSLPRIEQIFVNAPAGWRPRDMERRLFIARRRIEKRLQEDKDFYVCSLSNLVNIYKGLCMPADLPRFYLDLADLRLESAICLFHQRFSTNTVPRWPLAQPFRYLAHNGEINTITGNRQWARARTYKFQTPLIPDLHDAAPFVNETGSDSSSMDNMLELLLAGGMDIVRAMRLLVPPAWQNNPDMDPELRSFFDFNSMHMEPWDGPAGIVMSDGRYAACNLDRNGLRPARYVITKDKLITCASEVGIWDYQPDEVVEKGRVGPGELMVIDTRAGRILHSAETDDDLKSRHPYKEWMEKNVRRLVPFEDLPDEEVGSRQLDDDLLASYQKQFNYSAEELDSVLRVLGENGQEAVGSMGDDTPFAVLSSQPRIIYDYFRQQFAQVTNPPIDPLREAHVMSLATSIGREMNVFCEAEGQAHRLSFKSPILLYSDFKQLTTMEEEHYRADVLDITFNPAEASLSETVKALCDKAEQMVRDGTVLLVLSDRNIAKDRLPVPAPMAVGAIQTRLVDKSLRCDANIIVETASARDPHHFAVLLGFGATAIYPYLAYETLAKLVDSKAIDKPYRAVMLNYRNGINKGLYKIMSKMGISTIASYRCSKLFEAVGLHRDVSDLCFQGVVSRIGGAGFDDFQQDLLNLSKRAWLARKPLAQGGLLKYVHGGEYHAYNPDVVRTLQQAVQSGEYSDYQQYAKLVNERPAATLRDLLALNPGEDAISIDDVEPAKELFKRFDTAAMSIGALSPEAHESLAEAMNSIGGFSNSGEGGEDPARYGTNKVSRIKQVASGRFGVTPAYLVNADVIQIKVAQGAKPGEGGQLPGDKVTPYIAKLRYSVPGVTLISPPPHHDIYSIEDLAQLIFDLKQVNPKAMISVKLVSEPGVGTIATGVAKAYADLITIAGYDGGTGASPLSSVKYAGCPWELGLVETQQALVANGLRHKIRLQVDGGLKTGLDIIKAAILGAESFGFGTGPMVALGCKYLRICHLNNCATGVATQDDKLRKNHYHGLPFKVTNYFEFIARETRELMAQLGVKRLVDLIGRTDLLKELDGFTAKQQKLDLGKLLETAEPHPGKALYCTENNPPFDNGVLNAQLLQQAKPYVDEKQSKTFWFDIRNTDRSVGASLSGYIAQTHGDQGLAGDPIVAHFSGTAGQSFGVWNAGGVELHLTGDANDYVGKGMAGGLLAIRPPVGSAFRSHEASIIGNTCLYGATGGRLYAAGRAGERFAVRNSGAITVVEGIGDNGCEYMTGGIVCVLGKTGVNFGAGMTGGFAYVLDEDGDFRKRVNPELVEVLDVDSLAIHEEHLRGLITEHVQLTGSQRGEEILANWPAFSAKFALVKPKSSDVKALLGHRSRSAAELRVQAQ	PGPT0000635_3177	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000635-gltB-K00265	NA	NA
BMS020_02119	1419	gltD_1	COG0493	Glutamate synthase [NADPH] small chain	ATGAGTCAGAACGTTTATCAATTTATCGACCTGCAGCGCGTTGATCCGCCAAAGAAACCGCTGAAGATCCGTAAAATTGAATTTGTGGAAATTTACGAGCCGTTTTCAGAAGGCCAGGCCAAGGCGCAGGCGGATCGCTGCCTCTCCTGCGGCAACCCGTACTGCGAGTGGAAGTGCCCGGTGCATAACTACATCCCGAACTGGCTGAAGCTGGCCAACGAGGGGCGTATTTTTGAGGCGGCTGAGCTGTCGCACCAGACCAACACCCTGCCGGAAGTCTGCGGGCGCGTCTGCCCGCAGGACCGCCTGTGTGAAGGCTCCTGTACGCTGAACGATGAGTTCGGCGCGGTGACCATCGGCAACATCGAACGCTATATCAATGATAAGGCATTCGAGATGGGCTGGCGTCCGGATCTCTCCGGTGTGAAACCGACCGGTAAAACCGTCGCGATCATCGGCGCTGGCCCGGCGGGCCTCGCCTGTGCCGACGTGTTGACCCGCAACGGCGTCAAGGCGGTGGTGTTTGACCGCCATCCGGAAATCGGCGGCCTGCTGACCTTCGGTATCCCGGCGTTCAAGCTGGAAAAAGAGGTGATGACCCGCCGCCGGGAGATCTTCACCGGCATGGGCATTGAGTTCAAACTCAATACCGAAGTGGGCCGCGACGTGCAGCTCGACGACCTGCTGAAAGAGTACGATGCCGTGTTCCTCGGCGTCGGCACCTATCAGTCGATGCGCGGTGGGCTGGACAATGAAGACGCCCCGGGCGTCTACGACGCGCTGCCGTTCCTGATCGCCAACACCAAGCAGATCATGGGCTTTGGCGAAACCGCCGATGAGCCCTACGTCAGCATGGAAGGCAAACGCGTGGTCGTGCTTGGCGGTGGCGATACCGCGATGGACTGCGTACGTACCTCCGTCCGTCAGAATGCGGCGCACGTGATCTGCGCCTATCGTCGTGACGAAGAGAACATGCCGGGTTCAAAACGCGAAGTGAAAAACGCGCGTGAGGAAGGCGTTGAGTTCCAGTTCAACGTCCAGCCGCTGGGCGTGGAAGTGAATGCCAACGGCAAAGTGTGCGGCGTGAAGATGGCGCGCACCGAGATGGGCCAGCCGGATGCGAAAGGCCGCCGTCGCGCGGAGATCGTCGCTGGCTCTGAGCACGTGGTGCCGGCAGACGCCGTCGTCATGGCGTTTGGCTTCCGTCCCCACAGCATGGAGTGGCTGGCGAAGCACAGCGTCGAGCTGGACTCCCAGGGCCGCATCATTGCGCCGGAAGGCAGCGAGAACGCCTTCCAGACCAGCAACCCGAAAATCTTCGCCGGTGGCGATATCGTTCGCGGTTCCGACCTGGTGGTCACCGCGATTGCGGAAGGACGTAAAGCGGCTGACGGGATCCTCAACTACCTTGAAGTCTGA	MSQNVYQFIDLQRVDPPKKPLKIRKIEFVEIYEPFSEGQAKAQADRCLSCGNPYCEWKCPVHNYIPNWLKLANEGRIFEAAELSHQTNTLPEVCGRVCPQDRLCEGSCTLNDEFGAVTIGNIERYINDKAFEMGWRPDLSGVKPTGKTVAIIGAGPAGLACADVLTRNGVKAVVFDRHPEIGGLLTFGIPAFKLEKEVMTRRREIFTGMGIEFKLNTEVGRDVQLDDLLKEYDAVFLGVGTYQSMRGGLDNEDAPGVYDALPFLIANTKQIMGFGETADEPYVSMEGKRVVVLGGGDTAMDCVRTSVRQNAAHVICAYRRDEENMPGSKREVKNAREEGVEFQFNVQPLGVEVNANGKVCGVKMARTEMGQPDAKGRRRAEIVAGSEHVVPADAVVMAFGFRPHSMEWLAKHSVELDSQGRIIAPEGSENAFQTSNPKIFAGGDIVRGSDLVVTAIAEGRKAADGILNYLEV	PGPT0000640_3201	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000640-gltD-K00266	NA	NA
BMS020_02120	705	nanE	COG3010	Putative N-acetylmannosamine-6-phosphate 2-epimerase	ATGACTTTACTCGCACAACTGGACCAGCGTATCCGTCACCATGGCGGATTAATTGTCTCCTGCCAGCCGGTGCCGGGCAGCCCGCTGGATAACCCCGCCATCGTCGCGGCGATGGGGCTGGCGGCGGAGCAGGCGGGGGCGGTGGCGCTGCGCATAGAAAGTCTGGCCAACCTGCAGGCCGTTCGTCCGTTAGTGACGGTGCCTGTTATCGCGCTGATTAAGCGCGATCTGCATGATAGCCCGGTGCGTATTACGCCGTGGCTTGAGGATGTGAATGCCCTGGCGCAGGCAGGGGCCGATATCATAGCGGTTGACGGCACGCGGCGTCAGCGTCCGGCCTCTGTCGCATCGTTGTTGGCGGCAATTCACCGCCAGGGGAAAAATGCGATGGCAGATTGTTCCTCTCTCGACGATGCCCTTGAATGCTGGCAATTGGGCTTCGATATGGTTGGCACCACCCTCTCAGGCTATACCGCAGAGGAGACACCGGTCGAGCCGGATCTGGCGCTGGTGAAAAGCCTGAGCGCCGCGGGCTGCAGAGTGGTCGCTGAGGGACGCTACAATACGCCTGCGCAGGCGGCTGAGGCAATGCGCTGCGGCGCGTGGGCGGTGACCGTCGGCTCGGCGATCACCCGCTTAGAACATATCTGCGGCTGGTATAATACGGCGCTGAAAGCGGCGGTTTGCCCGGCGAATGGGCAATAA	MTLLAQLDQRIRHHGGLIVSCQPVPGSPLDNPAIVAAMGLAAEQAGAVALRIESLANLQAVRPLVTVPVIALIKRDLHDSPVRITPWLEDVNALAQAGADIIAVDGTRRQRPASVASLLAAIHRQGKNAMADCSSLDDALECWQLGFDMVGTTLSGYTAEETPVEPDLALVKSLSAAGCRVVAEGRYNTPAQAAEAMRCGAWAVTVGSAITRLEHICGWYNTALKAAVCPANGQ	PGPT0018900_216	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
BMS020_02121	495	sspB	COG2969	Stringent starvation protein B	ATGGATGTATCACAGCTGACGCCGCGTCGCCCGTATCTGCTGCGGGCGTTTTATGACTGGCTGCTGGATAACCAGCTGACGCCGCATCTGGTGGTGGATGTCACGCTGCCGGGCGTGCTCGTGCCGATGGAGTATGCGCGCGACGGGCAAATCGTTCTCAATATTGCCCCGCGTGCGGTAGGTAATCTTGAGCTGGCGAACGACGAAGTGCGCTTCAACGCGCGCTTTGGCGGCGTGCCGCGCAACGTATCTGTCCCGCTGGCTGCGGTACTCGCCATCTATGCCCGTGAGAACGGCGCCGGCACGATGTTTGAACCGGAAGCGGCCTATGACGAAGACGTCAGCAGCCTCAACGATGATGACGTCGCGCCTGAGAGTGAAAGCGAAACGGTGATGTCGGTGATTGATGGCGATAAGCCCGATAATCACGACGACGATCCTGACGACACGCCGCCGCCGCGCGGCGGTCGCCCGGCGCTGCGCGTGGTGAAGTAA	MDVSQLTPRRPYLLRAFYDWLLDNQLTPHLVVDVTLPGVLVPMEYARDGQIVLNIAPRAVGNLELANDEVRFNARFGGVPRNVSVPLAAVLAIYARENGAGTMFEPEAAYDEDVSSLNDDDVAPESESETVMSVIDGDKPDNHDDDPDDTPPPRGGRPALRVVK				NA	NA	NA	NA	NA
BMS020_02122	639	sspA_1	COG0625	Stringent starvation protein A	ATGGCTGTCGCTGCCAACAAACGTTCGGTAATGACGCTGTTTTCTGGTCCTACTGACATCTATAGCCATCAGGTCCGCATTGTGCTGGCCGAGAAGGGTGTCAGTTTTGAGATAGAGCACGTGGAGAAGGACAACCCGCCTCAGGATCTGATTGACCTCAACCCGAATCAAAGCGTACCGACGCTGGTGGATCGTGAGCTCACTCTGTGGGAATCCCGCATCATTATGGAATACCTGGATGAGCGTTTCCCGCACCCGCCGTTAATGCCGGTTTATCCGGTGGCGCGTGGCGAAAGCCGTCTGTATATGCAACGTATCGAGAAGGACTGGTATTCGCTGATGAACACCATCCAGAGCGGTACCGCAGCGCAAGCTGATGCTGCGCGTAAGCAACTGCGTGAAGAACTGCTGGCCATCGCGCCGGTGTTCACCCAGAAACCTTACTTCCTGAGCGATGAGTTCAGCCTGGTGGATTGCTACCTGGCGCCGCTGCTGTGGCGTCTGCCGGTTCTCGGTGTGGAGCTGGTTGGCGCAGGCGCGAAAGAGCTCAAAGGCTATATGACTCGCGTATTTGAGCGTGATTCCTTCCTCGCCTCTTTAACTGAAGCCGAGCGTGAAATGCGCCTCGGTCGGGGCTAA	MAVAANKRSVMTLFSGPTDIYSHQVRIVLAEKGVSFEIEHVEKDNPPQDLIDLNPNQSVPTLVDRELTLWESRIIMEYLDERFPHPPLMPVYPVARGESRLYMQRIEKDWYSLMNTIQSGTAAQADAARKQLREELLAIAPVFTQKPYFLSDEFSLVDCYLAPLLWRLPVLGVELVGAGAKELKGYMTRVFERDSFLASLTEAEREMRLGRG				NA	NA	NA	NA	NA
BMS020_02123	393	rpsI_1	COG0103	30S ribosomal protein S9	ATGGCTGAAAATCAATACTACGGCACTGGTCGCCGCAAAAGTTCCGCAGCTCGCGTTTTCATCAAACCGGGCAACGGCAAAATCGTTATCAACCAGCGTTCTCTGGAACAGTACTTCGGTCGTGAAACTGCCCGCATGGTAGTTCGTCAGCCGCTGGAACTGGTCGACATGGTTGAGAAACTGGATCTGTACATCACTGTTAAAGGTGGTGGTATCTCTGGTCAGGCTGGTGCGATCCGTCACGGTATCACCCGCGCTCTGATGGAGTACGACGAGTCCCTGCGTTCTGAACTGCGTAAAGCTGGCTTCGTCACTCGTGACGCTCGTCAGGTTGAACGTAAGAAAGTCGGTCTGCGTAAAGCACGTCGTCGTCCGCAGTTCTCCAAACGTTAA	MAENQYYGTGRRKSSAARVFIKPGNGKIVINQRSLEQYFGRETARMVVRQPLELVDMVEKLDLYITVKGGGISGQAGAIRHGITRALMEYDESLRSELRKAGFVTRDARQVERKKVGLRKARRRPQFSKR				NA	NA	NA	NA	NA
BMS020_02124	429	rplM_1	COG0102	50S ribosomal protein L13	ATGAAAACTTTTACAGCTAAACCAGAAACCGTAAAACGCGACTGGTATGTTGTTGACGCGACCGGTAAAACTCTGGGCCGTCTCGCTACTGAACTGGCTCGTCGCCTGCGCGGTAAGCACAAAGCGGAATACACTCCGCACGTTGATACCGGTGATTACATCATCGTTCTGAACGCAGAAAAAGTTGCTGTTACCGGCAACAAGCGCGAAGACAAAATGTACTACCACCACACCGGCCACATCGGTGGTATCAAAGAAGCGACCTTTGAAGAGATGATTGCCCGCCGTCCTGAGCGTGTGATTGAAATCGCGGTTAAAGGCATGCTGCCAAAAGGCCCGCTGGGTCGTGCTATGTACCGTAAACTGAAAGTTTACGCGGGTAACGAGCACAACCACGCGGCACAGCAACCGCAAGTTCTTGACATCTAA	MKTFTAKPETVKRDWYVVDATGKTLGRLATELARRLRGKHKAEYTPHVDTGDYIIVLNAEKVAVTGNKREDKMYYHHTGHIGGIKEATFEEMIARRPERVIEIAVKGMLPKGPLGRAMYRKLKVYAGNEHNHAAQQPQVLDI				NA	NA	NA	NA	NA
BMS020_02125	1128	zapE_2	COG1485	Cell division protein ZapE	ATGCAAAGCCTGTCTCCAACATCGCGTTACCTTTCAGCCCTGAAAGAGGGCAGCCATCAACCCGACGACGTCCAGCAAGAAGCGGTGAGCCGCCTCGATACCATTTACCAGGAACTGCAGACTCAGCCCGCGCCCGTCGCGTCAGGCGGCGGTTTGCGCGCGAAATTCGGCAAACTGCTGGGTAAGCGCGAACCAGCAGCCGAGGCGGCGCCCGTCCGCGGCCTGTATATGTGGGGCGGCGTGGGGCGGGGGAAAACCTGGCTGATGGACCTGTTTTACCAGAGCCTGCCGGGCGAGCGTAAGCAGCGCCTGCATTTCCATCGCTTTATGCTGCGGGTGCACGAAGAGCTGACCACCCTGCAGGGCCATAGCGACCCGCTGGACATTGTCGCCGACCGCTTTAAAGCGGAAACCGACGTGCTCTGTTTCGACGAGTTTTTTGTCTCCGATATAACCGACGCCATGCTGTTGGGCGGGCTGATGAAGGCCCTGTTCGCCCGCGGCATCACGCTGGTGGCGACCTCCAATATTCCGCCGGATGAGCTCTATCGCAATGGCCTGCAGCGCGCCCGTTTTCTGCCCGCTATCGACGCCATCAAGCAGCATTGCGATATTATGAACGTCGATGCCGGCATCGATTATCGCTTGCGTACCCTGACCCAGGCGCACCTGTGGCTGTCGCCGCTGAATAACGACACCCGCGAACAGATGGATAAACTGTGGCTGGCGCTGGCCGGCGCGCCGCGCGCTGCCGGGCCGACGCTGGAGATCAACCATCGCGAGCTGCCGACCCTCGGCGTGGAAAACCAGACGCTGGCGGCGTCGTTCGCCACGCTGTGCGTGGATGCCCGTAGCCAGCATGACTATATCGCGCTCTCCCGCCTGTTCCACACCGTGATGCTGTTCGATGTGCCGGTGATGACCGCGCAGCTGGAGAGCGAAGCCCGGCGCTTTATCGCCCTGGTGGATGAGTTCTATGAGCGCCACGTGAAGCTGGTGGTCAGCGCGGCGGTGCCGCTGTACGACATTTATCAGGGAGAGCGGCTGAAGTTTGAGTTTCAGCGCTGTCTGTCGCGTCTGCAGGAGATGCAGAGCGAAGAGTACCTCAAGCGCCCGCATATGCCCTGA	MQSLSPTSRYLSALKEGSHQPDDVQQEAVSRLDTIYQELQTQPAPVASGGGLRAKFGKLLGKREPAAEAAPVRGLYMWGGVGRGKTWLMDLFYQSLPGERKQRLHFHRFMLRVHEELTTLQGHSDPLDIVADRFKAETDVLCFDEFFVSDITDAMLLGGLMKALFARGITLVATSNIPPDELYRNGLQRARFLPAIDAIKQHCDIMNVDAGIDYRLRTLTQAHLWLSPLNNDTREQMDKLWLALAGAPRAAGPTLEINHRELPTLGVENQTLAASFATLCVDARSQHDYIALSRLFHTVMLFDVPVMTAQLESEARRFIALVDEFYERHVKLVVSAAVPLYDIYQGERLKFEFQRCLSRLQEMQSEEYLKRPHMP				NA	NA	NA	NA	NA
BMS020_02126	399	yhcB	COG3105	Inner membrane protein YhcB	ATGACCTGGGAATACGCGCTAATTGGGTTAGTCGTCGGTATCATCATTGGTGCCGTCGCCATGCGTTTCGGCAACCGCAAACTGCGCCAGCAGCAGGCGCTGCAGTTCGAACTGGAAAAGAATAAAGCCGAGCTTGAAGAGTACCGTGAAGAGCTGGTCAGCCATTTTGCGCGCAGCGCCGAGCTGCTGGATAACATGGCGCACGACTACCGTCAGCTGTATCAGCATATGGCGAAAAGCTCTAACAACCTGCTGCCGGATTCCATGGCAGACGCCAACCCGTTCCGCAACCGCCTGGAAGAGTCTGAAGCCAGCAACGATCAGGCGCCGGTCCAGATGCCGCGCGACTACTCCGAAGGCGCATCCGGATTACTGCGCGGTGGCGCAAAACGCGATTAA	MTWEYALIGLVVGIIIGAVAMRFGNRKLRQQQALQFELEKNKAELEEYREELVSHFARSAELLDNMAHDYRQLYQHMAKSSNNLLPDSMADANPFRNRLEESEASNDQAPVQMPRDYSEGASGLLRGGAKRD				NA	NA	NA	NA	NA
BMS020_02127	1368	degQ_1	COG0265	Periplasmic pH-dependent serine endoprotease DegQ	ATGAAGAAACAGACTTTGCTGTTGAGTGCGTTAGCGTTAAGCATTGGGTTATCGTTGTCGGTTCTGCCTCCGGCAGCAGCATCCTTACCGACTCAGGTGCCCGGCCAGGGCGCGTTACCAAGCCTGGCGCCGATGCTGGAAAAGGTCCTGCCGGCGGTAGTCAGCGTCCAGGTGGAAGGCACTGCCTCGCCGACGCTCAATATGCCGGAAGAGCTGAAGAAATATTTTGGCGATAACGCCCCGCAAGAACAGGCGCAGCCGTTCGAAGGGCTTGGCTCCGGCGTCATTATCGACGCAGCGAAAGGCTACGTGCTGACCAATAACCACGTCATCAATCAGGCGCAGAAGATCAGCGTCCAGCTGAACGATGGTCGTGAATTTGATGCCAAACTGGTCGGTAGCGATGAACAGAGCGACATTGCTCTGCTGCAGCTGATTAAGCCGTCAAACCTGACGCAAATCGCCATTGCTGACTCCGATAAACTCCGCGTCGGCGACTTTGCCGTCGCCGTCGGCAACCCGTTCGGCCTTGGTCAGACCGCCACCTCCGGCATTATCTCTGCCCTTGGCCGCAGCGGCCTGAACCTTGAAGGGCTGGAGAATTTCATCCAGACCGATGCCTCCATCAACCGCGGCAACTCCGGCGGCGCGCTGTTGAACCTCAACGGCGAGCTTATCGGGATCAACACCGCGATCCTGGCGCCGGGCGGCGGCAGCATCGGCATCGGCTTCGCCATCCCGAGCAACATGGCGAAAACCCTCGCCGATCAGCTCATTCAGTTTGGCGAAATCAAGCGCGGCCTGCTGGGCATTAAAGGCATGGAAATGAGCGCCGATATCGCCAAGGCGATGAACCTCAACGTTCAGCGCGGCGCCTTCGTCAGTGAAGTGCTGCCAAACTCCGGGTCCGCCAAAGCGGGGATCAAATCCGGCGACGTCATCGTTAGTCTGAACGGCAAACCGCTGAACAGTTTTGCCGAACTGCGCTCGCGGATCGCCACCACCGAGCCGGGGACCAAAGTCAAACTGGGCCTGCTGCGCGATGGAAAACCGGTCGATGTCGAAGTGACGCTGGATAAGAGCACCTCCTCCACCGCCAGCGCTGAGCTGATTATCCCGGCTCTGCAGGGTGCCTCGTTCAGCGACGGTCAGATGAAAGATGGCACCAAAGGGGTGGTGATCGATAATGTCGATAAAGGCAGCGCCGCCGCCCAGGTCGGCCTGCATAAGGATGACATTATCATTGGCCTTAACCGCGAGCGTATTCATTCGATTGCCGAATTACGCAAAGTGCTCGAAGGCAAACCGCCGGTCATCGCCCTGAACGTGATCCGCGGCAACGAAAGCATCTATCTGCTGCTGCGCTGA	MKKQTLLLSALALSIGLSLSVLPPAAASLPTQVPGQGALPSLAPMLEKVLPAVVSVQVEGTASPTLNMPEELKKYFGDNAPQEQAQPFEGLGSGVIIDAAKGYVLTNNHVINQAQKISVQLNDGREFDAKLVGSDEQSDIALLQLIKPSNLTQIAIADSDKLRVGDFAVAVGNPFGLGQTATSGIISALGRSGLNLEGLENFIQTDASINRGNSGGALLNLNGELIGINTAILAPGGGSIGIGFAIPSNMAKTLADQLIQFGEIKRGLLGIKGMEMSADIAKAMNLNVQRGAFVSEVLPNSGSAKAGIKSGDVIVSLNGKPLNSFAELRSRIATTEPGTKVKLGLLRDGKPVDVEVTLDKSTSSTASAELIIPALQGASFSDGQMKDGTKGVVIDNVDKGSAAAQVGLHKDDIIIGLNRERIHSIAELRKVLEGKPPVIALNVIRGNESIYLLLR	PGPT0014286_432	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS_SIGNALLING,PGPT0014286-degQ|hhoA-K04772	NA	NA
BMS020_02128	1059	degS	COG0265	Serine endoprotease DegS	ATGCCTGGAAAGTTATTACGTTCAGTACTCATCGGTTTGCTTGTCGGGGGCCTGCTGTTGGCCCTGATGCCCTCGCTGCGCCAGTGGCAGCTAGCGCCGACCACCCAGAACGATACGGCAGACGACTCCCCGGCGAGCTATAACGCCGCCGTACGCCGCGCCGCGCCCGCCGTAGTGAACGTCTATAACCGCGCCCTGAACAGCACCAGCCATAATCAGCTGACGCTTGGCTCCGGGGTGATCATGGACCAGCGCGGCTATATCCTGACCAACAAGCATGTGATTAACGATGCCGACCAGATTATCGTCGCTCTGCAGGACGGCCGGGTCTTCGAAGCGCTGCTGGTAGGCTCCGATTCCCTGACCGACCTCGCGGTGCTGAAGATCAACGCTACCGGCGGGCTGCCGGTGATCCCGATCAACCCGAAACGCACGCCGCACATCGGCGATGTGGTGCTGGCGATTGGCAACCCCTATAACCTGGGACAGACCATCACCCAGGGGATCATCAGCGCCACAGGGCGCATTGGCCTCAACCCCACCGGCCGCCAGAATTTCCTGCAGACTGACGCCTCGATCAACCACGGTAACTCCGGCGGGGCGCTGGTGAACTCCCTCGGCGAGCTGATGGGGATTAACACCCTCTCCTTTGACAAGAGCAACGACGGCGAAACGCCTGAAGGCATTGGCTTTGCGATCCCGTTCCAGTTAGCGACCAAAATTATGGACAAGCTGATCCGGGATGGCCGTGTGATCCGCGGCTATATCGGCATTAGCGGCCGGGAGATCGCCCCGCTGCACGCGCAGGGCGGCGGGATCGATCAGATCCAGGGGATCGTCGTTAACGATGTCGCGCCGGACGGACCGGCCGCGCAGGCGGGGATCCGCGCCAACGACGTGATCATCTCCGTGAATGACAAACCCGCGGTCTCCGCGCTGGAGACGATGGATCAGGTGGCCGAGATCCGCCCGGGTTCAGAAATTCCGGTGGTCATCATGCGTGATGATAAGAAAATCACGCTCCATATCGCCGTCCAGGAATACCCGGCCACCAACTAA	MPGKLLRSVLIGLLVGGLLLALMPSLRQWQLAPTTQNDTADDSPASYNAAVRRAAPAVVNVYNRALNSTSHNQLTLGSGVIMDQRGYILTNKHVINDADQIIVALQDGRVFEALLVGSDSLTDLAVLKINATGGLPVIPINPKRTPHIGDVVLAIGNPYNLGQTITQGIISATGRIGLNPTGRQNFLQTDASINHGNSGGALVNSLGELMGINTLSFDKSNDGETPEGIGFAIPFQLATKIMDKLIRDGRVIRGYIGISGREIAPLHAQGGGIDQIQGIVVNDVAPDGPAAQAGIRANDVIISVNDKPAVSALETMDQVAEIRPGSEIPVVIMRDDKKITLHIAVQEYPATN	PGPT0014286_987	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS_SIGNALLING,PGPT0014286-degQ|hhoA-K04772	NA	NA
BMS020_02129	939	mdh_1	COG0039	Malate dehydrogenase	ATGAAAGTTGCAGTCCTTGGCGCTGCCGGTGGTATCGGCCAGGCGCTTGCCCTACTACTTAAGACCCAACTGCCTTCAGGTTCAGAGCTCTCGTTGTACGACATCGCTCCGGTTACGCCGGGCGTGGCGGTAGATCTAAGTCATATCCCCACAGATGTAAAAATTAAAGGATTTTCCGGTGAAGATGCTACCCCGGCGCTGGAAGGCGCTGATGTGGTGCTGATCTCCGCGGGCGTAGCGCGTAAGCCCGGCATGGATCGTTCCGACCTGTTTAATGTGAATGCGGGTATCGTTAAGAACCTCGTGCAGCAGATAGCCAAAACCTGCCCGCAGGCCTGCATCGGCATTATTACCAACCCGGTGAACACCACCGTGGCCATCGCCGCCGAAGTGCTGAAAAAAGCCGGCGTGTACGATAAAAACAAACTGTTCGGCGTGACTACGCTGGACATCATCCGCTCCAATACCTTTGTGGCGGAGCTGAAAGGTCAATCGGCAACCGAGGTGGAAGTCCCGGTTATTGGCGGTCACTCCGGGGTCACCATTCTGCCTTTACTGTCACAGATCCCGGGCGTCAGCTTTAGCGATCAGGAAGTGGCCGATCTGACTAAACGCATTCAAAACGCCGGTACCGAGGTCGTGGAAGCGAAAGCGGGCGGCGGGTCGGCGACCTTGTCGATGGGTCAGGCGGCTGCGCGCTTTGGCCTTTCTCTGGTTCGCGCCATGCAGGGAGAAAAAGGCGTAGTGGAGTGCGCCTACGTGGAAGGCGACGGCCAGTATGCGCGTTTCTTCTCTCAGCCGCTCCTGCTGGGGAAAAATGGCGTAGAAGAGCGTCAGTCTATCGGCAAACTCAGCGCCTTTGAGCAGCAGGCGCTGGAAGGCATGCTGGACACCCTGAAGAAAGATATCGCGCTCGGCGAAGACTTCGTCAACAAGTAA	MKVAVLGAAGGIGQALALLLKTQLPSGSELSLYDIAPVTPGVAVDLSHIPTDVKIKGFSGEDATPALEGADVVLISAGVARKPGMDRSDLFNVNAGIVKNLVQQIAKTCPQACIGIITNPVNTTVAIAAEVLKKAGVYDKNKLFGVTTLDIIRSNTFVAELKGQSATEVEVPVIGGHSGVTILPLLSQIPGVSFSDQEVADLTKRIQNAGTEVVEAKAGGGSATLSMGQAAARFGLSLVRAMQGEKGVVECAYVEGDGQYARFFSQPLLLGKNGVEERQSIGKLSAFEQQALEGMLDTLKKDIALGEDFVNK	PGPT0001435_2677	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
BMS020_02130	471	argR	COG1438	Arginine repressor	ATGCGAAGTTCGGCAAAACAAGAAGAACTGGTTAAAGCGTTTAAAGCGCTGCTTAAAGAAGAGAAATTCAGCTCGCAGGGAGAGATCGTCCAGGCGCTGCAGGAAGAAGGCTTCGAGAATATCAACCAATCGAAGGTTTCCCGCATGCTCACCAAATTTGGCGCGGTTCGTACCCGTAACGCCAAAATGGAAATGGTCTATTGCCTGCCTGCCGAGCTTGGCGTGCCGACCACCTCCAGCCCGCTGAAAAATCTGGTGCTGGATATCGATTATAACGATGCCGTCGTGGTGATTCACACCAGCCCCGGGGCAGCGCAGCTGATCGCCCGTCTTCTCGACTCGCTGGGCAAGGCGGAAGGTATTCTTGGCAGCATCGCCGGGGATGACACCATCTTCACCACGCCAGCGCGCGGTTTCACAGTGAAAGATCTGCACGACGCTATCCTGGTGCTGTTCGAACAGGAACTCTGA	MRSSAKQEELVKAFKALLKEEKFSSQGEIVQALQEEGFENINQSKVSRMLTKFGAVRTRNAKMEMVYCLPAELGVPTTSSPLKNLVLDIDYNDAVVVIHTSPGAAQLIARLLDSLGKAEGILGSIAGDDTIFTTPARGFTVKDLHDAILVLFEQEL	PGPT0020105_1005	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020105-ahrC-K03402	NA	NA
BMS020_02131	264	bhsA_1		Multiple stress resistance protein BhsA	ATGAAAATCAAAACCACTGTAGCAGCTCTCAGCATCCTGTCCGTCATGTCGTTTGGCGCTTTCGCCGCTGATGTTATCAACAGCGAGCAAGCCCAGGGCCGCGAGGCCATCGGTACAGTTTCCGTCGGCGCGGTAGCCTCTTCCCCGATGGATATGCATGAAATGCTGAACAAAAAAGCGCAGGAAGAAGGGGCTTCTTCTTACCGCATTATCGAAGCCCGCACTGGCGACCACTGGCATGCCACTGCTGAGCTGTATAAATAA	MKIKTTVAALSILSVMSFGAFAADVINSEQAQGREAIGTVSVGAVASSPMDMHEMLNKKAQEEGASSYRIIEARTGDHWHATAELYK	PGPT0015005_63	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0015005-comC|ycfR|bhsA-K12151	NA	NA
BMS020_02132	267			hypothetical protein	ATGAAACGCGCAATGATCATCGCATCCCTTGGCCTGGCTTCTCTTCTCTCTTTCGGCGCTAGCGCGGCCGTTCAGCAAGTGAACGCTGAGCAAGCCCAGAACCTGCAGTCCATGGGCACCATCTCGGTTTCCCAGGTAGGTAGTGCGCCAATGGACATGCGTCAGGAACTGGCCGCTAAAGCCGAGAAAGAAGGCGCCAGCAGCTACCGTATTATTGAAGCACGTACCGGCGATAGCTGGCACGCCACCGCTGAGCTGTACAAATAA	MKRAMIIASLGLASLLSFGASAAVQQVNAEQAQNLQSMGTISVSQVGSAPMDMRQELAAKAEKEGASSYRIIEARTGDSWHATAELYK	PGPT0015005_171	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0015005-comC|ycfR|bhsA-K12151	NA	NA
BMS020_02133	276	yhcO	COG2732	putative protein YhcO	ATGACCACCTATACGTTTGATTTTGACGAAATCGCCGAGCAACAGGATTTCTACCGGGAGTTTTCCCGCACCTTCGAGCTGGCACAGGATAAGGTCAACAACCTTGATTCGCTATGGGACGCGGTGACTGGTGGGCTGCTGCCGCTGCCGCTGGACATTGAGTTCATCCATTTAAATGACAAGCAGCGTCGGCGTTTTGGGGCGTTAATTTTATTATTTGATGAAGCAGAGGAAGAGCTGGAGGGGGAGTTACGTTTTAACGCCCGGCAGGCATAA	MTTYTFDFDEIAEQQDFYREFSRTFELAQDKVNNLDSLWDAVTGGLLPLPLDIEFIHLNDKQRRRFGALILLFDEAEEELEGELRFNARQA				NA	NA	NA	NA	NA
BMS020_02134	1968	aaeB_2	COG1289	p-hydroxybenzoic acid efflux pump subunit AaeB	ATGGGGACATATACTATTGCTCCCCAGCATCTCCGCTTTGCTATTAAGCTTGCATGCGCGGTGGTGTTGGCGCTGTTCGTCGGCTTCCATTTTCAGCTCGAAACGCCGCGCTGGGCGGTGCTGACCGCGGCGATTGTCGCCGCTGGCCCGGCCTTTGCCGCCGGGGGAGAGCCGTACTCCGGCGCGATCCGCTATCGCGGCATGTTGCGTATTGCCGGGACCTTTATTGGCTGTATTGCGGCGCTGGTCATCATCATCCTGATGATCCGCGCCCCTCTGCTGATGATGCTGGTCTGCTGCCTGTGGGCCGGGTTTTGTACCTGGGTTTCGTCGCTGGTCAAGGTCGAAAACTCCTATGCCTGGGGGCTGGCCGGATACACCGCGCTGATTATCATTATTACCATCCACACCGATCCGATGCTGGCGCCGCAGTTTGCCGTTGAGCGCTGCAGCGAAATCGTCATCGGGATTGTCAGCGCCATCGTCGCCGATCTGCTGTTCTCCCCGCGTTCGATTAAAAAAGAGATCGACCTTGAACTGGATAACCTGCTGATTGCACAGTATAAGCTGATGCAGTTATGCGTTGCGCACGGCGAAAAAGATGAAGTGGATCAGGCCTGGGGAGCGCTGGTGCGTCGCACCACGGCGCTGGAAGGAATGCGCAGTAACCTGATTATGGAATCCTCTCGCTGGGCTAAGGCGAATCAACGCCTGAAGGCGATCAATACCCTCTCGCTAACGCTTATCACCCAGGCTTGCGAAACCTACCTGATTCAGAACTCGCGCCCGGAAATGGTGACGGACGACTACCGCGAGCTGTTCGCTGAGCCGGTTGAGACGGTGCAGGATGTTCACCAGCAGCTGAAGCGTATGCGTCGCTTCCTGACCTGGAAAGGCGAGCATAATACGCCAGTCACCATCTACAGCTGGGTAGGCGCAGCCACCCGTTACCTGCTGCTTAAGCGTGGCGTGGTGGGCAACACCAAAATCAGCCGCATCGAAGACGGTGTATTGCGCGGCGAAACGGTGGTTAAAGTGGAGTCCGCCGAGCGTCACCACGCGATGGTGAACTTCTGGCGTACCTCCGTCTCCTGTATCCTTGGGACGTTGTTCTGGCTGTGGACGGGCTGGACCTCAGGCAGCGGCGCAATGGTGATGATTGCCGTGGTTACCGCGCTGGCGATGCGCTTGCCTAACCCGCGAATGGTGGCGATAGACTTCCTCTACGGTACTCTGGCGGCGTTACCGCTGGGTACCTTGTACTTTCTGGTGATCATGCCGGCGACGCAGCAGAGTATGCTGTTGCTTTGTATCAGCCTGGCGGCGATGGCGTTTTTTATCGGTATCGAAGTGCAGAAAAGGCGCCTCGGATCGCTGGGGGCGCTGGCGAGCACCATCAACATTCTGGTGCTGGATAACCCGATGCAGTTCCAGTTCAGTCAGTTCCTCGATAGCGCGCTGGGGCAGATCGTCGGTTGTTTCCTCGCCCTGATGGTTATTCTCATTGTCAGGGATAACTCCCGGGCAAGAACCGGTCGGGTGCTGCTGAACCAGTTTGTCTCCGCGGCGGTCTCTTCGCTGACCACCAACTCGGCGCGTCGCAAAGAGAATCATCTGCCCGCGCTCTATCAGCAGCTGTTTTTATTGCTCAACAAATTCCCCGGCGATGTCGCTCGTTTCCGACTGGCGTTGACGTTAATCATTGCCCACCAGCGCCTGCGCGATGCGCCCGTGCCGGTGAATGAGGATCTGTCGGCGTTCCATCGCCAGCTGCGACGTACCGCGGATCATGTAATCTCCGCCGGGAGCGATGATAAGCGTCGGCGCTACTTTACCCGGCTGCTGGCGGAGCTTGATGTTTATCAGGAGAAGCTGCGGGTCTGGGAGGCTTCGCCGCAGGTGACCGAGCCGGTACGGCGACTGGTTGAGATGTTGCACAAGTACCAGCATGTGCTGACCAGCAGTTAA	MGTYTIAPQHLRFAIKLACAVVLALFVGFHFQLETPRWAVLTAAIVAAGPAFAAGGEPYSGAIRYRGMLRIAGTFIGCIAALVIIILMIRAPLLMMLVCCLWAGFCTWVSSLVKVENSYAWGLAGYTALIIIITIHTDPMLAPQFAVERCSEIVIGIVSAIVADLLFSPRSIKKEIDLELDNLLIAQYKLMQLCVAHGEKDEVDQAWGALVRRTTALEGMRSNLIMESSRWAKANQRLKAINTLSLTLITQACETYLIQNSRPEMVTDDYRELFAEPVETVQDVHQQLKRMRRFLTWKGEHNTPVTIYSWVGAATRYLLLKRGVVGNTKISRIEDGVLRGETVVKVESAERHHAMVNFWRTSVSCILGTLFWLWTGWTSGSGAMVMIAVVTALAMRLPNPRMVAIDFLYGTLAALPLGTLYFLVIMPATQQSMLLLCISLAAMAFFIGIEVQKRRLGSLGALASTINILVLDNPMQFQFSQFLDSALGQIVGCFLALMVILIVRDNSRARTGRVLLNQFVSAAVSSLTTNSARRKENHLPALYQQLFLLLNKFPGDVARFRLALTLIIAHQRLRDAPVPVNEDLSAFHRQLRRTADHVISAGSDDKRRRYFTRLLAELDVYQEKLRVWEASPQVTEPVRRLVEMLHKYQHVLTSS	PGPT0023620_66	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYBENZOIC_ACID_GALLATE_RESISTANCE,PGPT0023620-aaeB-K03468	NA	NA
BMS020_02135	933	aaeA_2	COG1566	p-hydroxybenzoic acid efflux pump subunit AaeA	GTGAAAACACTAACAAGAAATATCCTCCGTACCGCTATTACCGTGATACTGGTCATTTTGGCCTTCGTGGCGATTTTCCGCGCCTGGGTTTACTACACCGCTTCGCCGTGGACGCGGGATGCGCGTTTTAGCGCCGACATTGTGGCCATTGCCCCCGACGTCTCCGGGCTAATTTCCCAGGTAAACGTCAAGGATAACCAACTGGTTAAGAAAGACCAGGTATTGTTTGTTATTGACCAACCCCGTTACCAAAAAGCGCTGGCGCAGGCGGAAGCCGATGTCGCCTACTACCAGACCTTAGCCCAGGAAAAACGTGTCGAAGCCGGTCGGCGTAATAAGCTTGGCGTCCAGGCGATGTCGCGGGAAGAGATTGACCAGGCGAACAACGTGCTGCAGACCGTTGAGCATCAGCTGGCGAAAGCGGTGGCCAGCCGCGACCTGGCCAGACTGGACCTGCAGCGCACGGAGATTCGCGCCCCCGCGGATGGCTGGGTGACCAACCTTAACGTCTATACCGGGGAATTTATCACCCGCGGCTCCACGGCGGTGGCGCTGGTGAAAGAGAATACATTTTACGTCATGGCCTATCTGGAAGAGACCAAACTGGAAGGCGTCCGCCCTGGATACCGGGCGGAAATTACCCCGCTTGGCAGCAGCAAAACCATTAAAGGCACGGTGGACAGTATCGCTGCGGGGGTAACCAACGCCAGCAGCAGCAGCGACTCGAAAGGGATGGCTTCGGTGGATTCCAACCTTGAATGGGTGCGTCTGGCGCAGCGTGTGCCGGTACGTATTCGCCTTGACCACCAGCAGGGCAATCTGTGGCCATCGGGCACGACGGCGACGGTGGTGATCACCGGTAAAGAAGATCGTGATACCAGCCAGGCCAACTTCTTCCAGAAACTGGCTATGCGCCTGCGCGAATTCGGTTAA	MKTLTRNILRTAITVILVILAFVAIFRAWVYYTASPWTRDARFSADIVAIAPDVSGLISQVNVKDNQLVKKDQVLFVIDQPRYQKALAQAEADVAYYQTLAQEKRVEAGRRNKLGVQAMSREEIDQANNVLQTVEHQLAKAVASRDLARLDLQRTEIRAPADGWVTNLNVYTGEFITRGSTAVALVKENTFYVMAYLEETKLEGVRPGYRAEITPLGSSKTIKGTVDSIAAGVTNASSSSDSKGMASVDSNLEWVRLAQRVPVRIRLDHQQGNLWPSGTTATVVITGKEDRDTSQANFFQKLAMRLREFG	PGPT0023615_155	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYBENZOIC_ACID_GALLATE_RESISTANCE,PGPT0023615-aaeA-K15548	NA	NA
BMS020_02136	204	aaeX_1		Protein AaeX	ATGAGTCTGTTTCCTGTCATCGTGATTTTCGGCTTATCGTTTCCGCCGATCTTCTTCGAGTTGCTTTTGTCGCTGGCCATCTTCTGGCTGGTGCACCGATTGCTGGTTCCGACCGGCATTTACGATTTTGTCTGGCACCCTGCACTGTTTAATACGGCGCTATATTGCTGCCTTTTTTATTTGATATCGCGCTTGTTCGTTTGA	MSLFPVIVIFGLSFPPIFFELLLSLAIFWLVHRLLVPTGIYDFVWHPALFNTALYCCLFYLISRLFV				NA	NA	NA	NA	NA
BMS020_02137	930	dmlR_14		HTH-type transcriptional regulator DmlR	ATGGAACGATTAAAGCGCATGTCCGTTTTCGCCAAAGTGGTCGAATTAGGTTCCTTCACCGCAGCGGCCCGCCAGCTTCAGATGAGCGTTTCCTCGATCAGTCAGACCGTCGCCAAACTGGAAGATGAACTGCAGGTGAAGCTGCTCAACCGCAGCACCCGCAGCCTTGGCTTAACGGAAGCGGGTAAAATTTACTATCAGGGCTGCCGTAGGATGCTGTTTGAAGCACAGGATGTCCATGAGCAATTATACGCATTTAACAACACCCCCATCGGAACGCTGCGTATCGGCTGCTCTTCAACTATGGCACAGAATGTTCTGGCGCGCATAACGGCGAAAATGCTGAAAGAATACCCCGGGCTCTCCGTCAATCTGGTCACCGGCATACCTGCGCCGGACCTGATCGCCGACGGTCTTGACGTGGTGATCCGCGTGGGCGCCCTGCAGGATTCCAGTCTTTTTTCCCGCCGTCTGGGCTCAATGCCGATGGTGTTATGCGCCGCGAAAAGCTATCTGGCGCAGGCTGGCAATCCGGAGAAACCTGCCGATCTTGCCGGGCATGCCTGGCTGGAATATAGCGTGCGGCCGGACAATGAGTTTGTCATTATCGCGCCGGAAGGGATCTCAACCCGCCTGACCCCGCAGGGGCGCTTTGTGACCAATGATCCCATGACGCTGGTGCGCTGGCTGACCGCCGGGGTGGGTATCGCCTATGTGCCGTTGATGTGGGCGATCGAAGAAATCAATCGCGGTGAGCTTGAGATCCTGCTGCCGAGCTACCAGTCCGATCCGCGTCCGGTCTACGCCCTGTACACCGAAAAGGATAAACTGCCGCTGAAAGTGCAGGTCTGTATCAATTATCTGACGGAGTATTTTGTCGACGTGGCGAAGATCTATCAGGGGATGCACGGCAGAGGGATCGCCCGCTGA	MERLKRMSVFAKVVELGSFTAAARQLQMSVSSISQTVAKLEDELQVKLLNRSTRSLGLTEAGKIYYQGCRRMLFEAQDVHEQLYAFNNTPIGTLRIGCSSTMAQNVLARITAKMLKEYPGLSVNLVTGIPAPDLIADGLDVVIRVGALQDSSLFSRRLGSMPMVLCAAKSYLAQAGNPEKPADLAGHAWLEYSVRPDNEFVIIAPEGISTRLTPQGRFVTNDPMTLVRWLTAGVGIAYVPLMWAIEEINRGELEILLPSYQSDPRPVYALYTEKDKLPLKVQVCINYLTEYFVDVAKIYQGMHGRGIAR				NA	NA	NA	NA	NA
BMS020_02138	1446	tldD_1	COG0312	Metalloprotease TldD	ATGAGTCTGAACCTGGTAAGTGAACAATTACTGTCGGCAAATGGCCTGAATCATCAGGACCTGTTTGCCATTCTTGATCAACTGACCGAGCGCCGCCTCGATTACGGCGATCTCTATTTTCAGTCGAGCTATCACGAATCCTGGGTTCTGGAAGACAGCATCATTAAAGATGGGTCGTACAATATCGACCAGGGCGTAGGCGTGCGCGCCGTCAGCGGCGAAAAAACGGGCTTTGCCTACGCTGACCAGATCAGCAAGCTGGCGCTGGAGCAGAGCGCCCAGGCGGCGCGGACCATTGTGCGCGAGACTGGCAATGGCAAAGTACAGACCCTCGGCGCAGTAGAGCACAGCGCCCTCTATACCAGCATCGACCCGCTGCAGAGTATGAGCCGGGAAGAGAAGCTGGATATTCTCCGCCGGGTAGACAAAGTCGCCCGCGCGGCGGACCAGCGCGTGCAGGAGGTTTCGGCCAGCCTGAGCGGGGTCTATGAGCTGATTCTGGTGGCCGCCACCGACGGCACTCTGGCCGCCGACGTTCGTCCGCTGGTGCGCCTCTCGGTCAGCGTGCTGGTGGAAGAGGACGGCAAACGCGAGCGCGGCAGCAGCGGCGGCGGCGGGCGTTTTGGCTATGACTATTTCCTCGCCTCTCAGGAGGGCGAAGTACGGGCCGACGCCTGGGCGAAAGAAGCGGTGCGCATGGCGCTGGTTAACCTCTCGGCGGTCGCCGCCCCGGCGGGGATGCTGCCGGTGGTGCTCGGCGCCGGCTGGCCTGGCGTCCTGCTGCACGAAGCGGTCGGTCACGGCCTGGAAGGCGATTTCAACCGTCGCGGCACCTCGGTCTTTAGCGGCCATATGGGGGAATTAGTCGCCTCTGAGCTGTGCACCGTCGTGGACGACGGCACCATCGTCGACCGTCGTGGCTCGGTGGCCATCGATGACGAAGGAACGCCGGGTCAATACAATGTGCTGATCGAAAACGGCATCCTGAAAGGCTACATGCAGGATAAACTCAATGCGCGTCTGATGGGCGTCGCGCCGACCGGCAACGGTCGCCGTGAATCCTATGCCCATCTGCCGATGCCGCGTATGACCAACACCTATATGCTGGCGGGCCAGTCCACGCCGCAGGAGATTATCGAGTCGGTGGACTACGGTATCTTCGCGCCAAACTTCGGCGGCGGGCAGGTGGATATCACCTCCGGTAAGTTTGTCTTCTCCACCTCCGAGGCCTATCTGATCGAAAAAGGCAAGGTCACGAAGGCGGTGAAAGGCGCTACCCTGATCGGCTCCGGGATTGAGACTATGCAGCAGATTTCGATGGTGGGTAACGATCTGCGTCTGGATAACGGCGTCGGCGTTTGTGGCAAAGAGGGCCAGAGCGTGCCGGTGGGCGTTGGCCAGCCGACCCTGAAGGTCGATAACCTCACCGTCGGCGGCACTGCCTGA	MSLNLVSEQLLSANGLNHQDLFAILDQLTERRLDYGDLYFQSSYHESWVLEDSIIKDGSYNIDQGVGVRAVSGEKTGFAYADQISKLALEQSAQAARTIVRETGNGKVQTLGAVEHSALYTSIDPLQSMSREEKLDILRRVDKVARAADQRVQEVSASLSGVYELILVAATDGTLAADVRPLVRLSVSVLVEEDGKRERGSSGGGGRFGYDYFLASQEGEVRADAWAKEAVRMALVNLSAVAAPAGMLPVVLGAGWPGVLLHEAVGHGLEGDFNRRGTSVFSGHMGELVASELCTVVDDGTIVDRRGSVAIDDEGTPGQYNVLIENGILKGYMQDKLNARLMGVAPTGNGRRESYAHLPMPRMTNTYMLAGQSTPQEIIESVDYGIFAPNFGGGQVDITSGKFVFSTSEAYLIEKGKVTKAVKGATLIGSGIETMQQISMVGNDLRLDNGVGVCGKEGQSVPVGVGQPTLKVDNLTVGGTA				NA	NA	NA	NA	NA
BMS020_02139	3798			hypothetical protein	GTGAGGCGACTGCCCGGGATTTTATTGCTCACCGTGGCAACACTGATTGTTATCGTCGCGCTGCTGGTGAGTGGCTTGCGTCTCGTGTTGCCGCAGCTCGATGCCTGGCGTCCGCAGCTGCTGGAGAAGATCTCCTCTCTCACCGGCACGCCGGTGGATGCCTCGCAGATCGCCGCCAGCTGGCAAACTTTTGGCCCAACATTAGATGTCCGCGATATTCATGTCGGGCTGAAAGATGGCGGGACAATGGCGGTCAAGCGCGTGACCCTGGCGCTGGACGTCTGGCAGAGTCTGTTGCATATGCGCTGGCAGTTTCGCGATCTCACCTTCTGGCAGCTGCAGATCCATACCAATACCCCTATTCAGACCAATGACGGCGGCGAAAGCCTGAAAACCGACCGCGTCAGCGATCTCTTTTTACGTCAGTTCGACCACTTTACTCTGCGCGACAGCCATCTGAGCTTCCTGACTATTTCCGGTCAGCGGGCGGAGCTGGCGGTCCCGCAGCTGACCTGGCTGAACGGCAGGAACCGTCACCGCGCCGAGGGGCAGCTCAGCCTTTCCAGTCTCACCGGCCAGCATGGCGTCATGCAGGTGCGGATGGATCTCCGCGATGAGGATGGCCTGCTGAACAAAGGCCGGGTCTGGCTGCAGGCTGACGATATTGACGTCAAGCCCTGGCTGGGCCGCTGGATGCAGGACAATATCGCCCTGAAAAGCGCCCGCTTCAGCCTCGAAGGCTGGATGACCATTGAAAAAGGCGATGTGGCCAGCGGCGACGTATGGCTGAAAAAAGGGGGCGCCAGCTGGCAGGGGGATAGCGAGGTTCATCACCTGTCAGTGGATAACCTGACGGCGCATCTCTCCCATGACAAGCAGAGCTGGGGCTTCTACATTCCCGATACGCGGATCGCGATCGACGACAAACCCTGGCCAAGCGGCGCGCTGGCGATGGCGTGGATCCCAGCGCAGGATGTTGGTGGCGACGGTCATCAGCGTAGCGATGAATTACGTATTCGCGCCAGCAACTTAGCCCTCAGCGGTCTGAGCGGACTGCAGCCGTTTGCCGATAAGCTGGCGCCTTCATTGGGCGAACTCTGGCGCACCACGCAGCCCAGCGGCAAAATCAACCTGCTGGCTCTCGATATTCCCCTGCAGGCGACGGAGAAAACGCGCTTTCAGGCGCAGTGGAGCGATCTGGCGTGGAAGCAGTGGAAGCTCCTGCCGGGAGCGGAACACTTTTCCGGCAGCCTGAATGGCAGCGTTGAGCATGGGGAACTGCGCGCGCGCATGACGAAGGCGCTGATGCCGTATACCGGTGTTTTCCGGGCCCCGCTGGAGATCGCCGCTGGCGAAGCCACCCTCAGCTGGGTGAAAAATGACAAAGGGTTTATGCTTGATGGCCGCGATATTGACGTGCAGGCGACGGGGGTACGCGCCCGCGGCGGCTTCCGCTATCTGCAACCGCAGGGGGACGATCCCTGGCTGGGCATTCTGGCGGGGATCAGCACCAACGATGGCGGCCAGGCGTGGCGTTACTTCCCGGAAAACCTGATGGGCAAAGCGCTGGTGGACTATCTCAGCGGTGCGATAAAAGCCGGACAGGCACGCGATGCGACGCTGGTGTATGGCGGCAACCCACATCTGTTCCCGTATCCGCACAACGAAGGCCAGTTCCAGGTTTACGTCCCGCTGAAGAATGCCACTTTCGCTTTTCAACCGGACTGGCCGGCGCTGACCGGGTTGAATATCGACCTTAATTTTATCAACAGCGGCCTGTGGATGCGGGCGGAGAAAGCGATGCTCGGCAACGTGACCGCCAGCAATCTCGATGCCGCGATCCCGGATTACGCGCAGGAAAAACTGCTGATTGATGCCGATATCAAAGGCCCGGGGAAAGAGGTGGGACCTTATTTCAACACCACGCCGCTGAAAGAGACCCTGGGAGCGGCGCTGGATTCCCTGCAGCTGGATGGTGATGTAAGCGCTCGCTTACATCTGAACATTCCCCTCGATGGCGAAATGACCACCGCGAAAGGCGATGTGCATCTGCAGAATAACGATCTGTTTATCAAGCCGTTAGATACCACGCTGCAGAATCTGAGCGGTAATTTCAGCTTTGTGAATGGCGATCTTAATAGTCAAACGTTGAGCGCGACCTGGTTTAATCAGCCGCTGAACCTCAATTTTTCCACCCGCGAAGGCGAAAAAGCATTTCTGGTGGATGTCGGGATGAACGCCAGCTGGCAACCGTCGCGCACCGGGCTGCTGCCGAAAGCGGTTAATGAGGCGCTGAGCGGTAGCGTTCCGTGGGAGGGTAAAGTCGCTATCGAACTGCCGTACCATGGCAATGCCAGCTATAAGGTTGATATCAATGGCGATCTGAAGAATGTGAGCAGTCACTTACCTTCACCGGTCAACAAGCCCGCTGGCGAACCCCTGCCGGTCAAAATTAACGTTGCCGGCGGTCTGAGCAGCTTCGACCTGACCGGATCCGTTGGTGCGAAGAATCATATCAACAGCCGCTGGTTGCTGAACCGTAAGCTGACGCTGGACAGAGCGATCCTCACGACGGACAGCAAAGGCCCCTCTCCGCTGCCCGACCAGCCCGGCGTTGAGCTCAATCTGCCGCCGATGGATGGCGCGCAGTGGCTGGCGCTGTTCCAGAAGGGCGCGGCGAATGAAGTCAGCAGCAGCGTCCTTTTTCCACCGCGCATTGTGCTGCGTACGCCGTCGCTGGCGCTGGCCGGCCAGCAATGGAACAACGTGAGTCTGATGTCGCAGCCGGTCACCGGCGGTTCACAGGTTGAGGCGCAGGGGCGCGAGATCAACGCCACCCTGACGATGCGCGACAATGCCCCGTGGCTGGCAAATGTGCGTTATCTCTATTTCAACCCGGCCAGCGCCAGCGGCAAGGGCGGAACGGAGAACGTGGCCCCGCAGGCGGAGACGCGGCTGGATTTCCACGGCTGGCCCGATCTGCAGCTGCGCTGCGCGGAATGCTGGCTGTGGGGGCAAAAATATGGCCGTATCGACGGCGATGTGGCGATCAAGGGCGATACCTTAACGCTCTCCAATGGCCTGGTGGATACCGGGTTTGGCCGGCTGACGACCGACGGCGTGTGGGTTAACGCCCCTTCCGGGGTGCGCACCTCGCTGAAAGGCAGACTGCATGGCAATAAAACGAATGAATTTGCGGATTTCTTTGGCGTTTCCACACCGGTGAAGGATTCGCCGTTTGATATCGACTACGATCTGCACTGGCGCGCGCCGCCCTGGTCACCCGATGTCGCGTCGCTCAATGGGATCATTAAAAGCCACCTCGGCAAGGGTCAGTTTACCGACCTGAGTACCGGACACGCAGGCCAGCTGCTGCGTTTGCTGAGCGTCGATGCCCTGCTGCGCAAACTGCGCTTCGACTTCAGCGATACCTTTAGCGAAGGATTTTACTTCGACTCGATTAACAGTACGGCCTGGATTAAGGATGGTGTACTGCATACCGATGATACGCTGGTGGATGGCCTGGAGGCGGACATTGCCATGAAAGGGTCGGTTGATCTGGTGCGTCGTCATCTGGACCTGCAGGCGGTGGTGGCGCCGGAGATCTCCGCGACCGTCGGTGTGGCGGCGGCCTTCGCCGTCAACCCGATTGTCGGCGCGGCGGTGTTTGCCGCCAGCAAGGTGCTGGGGCCGCTGTGGAACAAAGTCTCGATACTGCGCTATCGCATCACCGGCCCGATTGACCAGCCGCAGATCAATGAAGTGCTGCGCCAGGCGCGCAGCAACAAAAAGCAATGA	MRRLPGILLLTVATLIVIVALLVSGLRLVLPQLDAWRPQLLEKISSLTGTPVDASQIAASWQTFGPTLDVRDIHVGLKDGGTMAVKRVTLALDVWQSLLHMRWQFRDLTFWQLQIHTNTPIQTNDGGESLKTDRVSDLFLRQFDHFTLRDSHLSFLTISGQRAELAVPQLTWLNGRNRHRAEGQLSLSSLTGQHGVMQVRMDLRDEDGLLNKGRVWLQADDIDVKPWLGRWMQDNIALKSARFSLEGWMTIEKGDVASGDVWLKKGGASWQGDSEVHHLSVDNLTAHLSHDKQSWGFYIPDTRIAIDDKPWPSGALAMAWIPAQDVGGDGHQRSDELRIRASNLALSGLSGLQPFADKLAPSLGELWRTTQPSGKINLLALDIPLQATEKTRFQAQWSDLAWKQWKLLPGAEHFSGSLNGSVEHGELRARMTKALMPYTGVFRAPLEIAAGEATLSWVKNDKGFMLDGRDIDVQATGVRARGGFRYLQPQGDDPWLGILAGISTNDGGQAWRYFPENLMGKALVDYLSGAIKAGQARDATLVYGGNPHLFPYPHNEGQFQVYVPLKNATFAFQPDWPALTGLNIDLNFINSGLWMRAEKAMLGNVTASNLDAAIPDYAQEKLLIDADIKGPGKEVGPYFNTTPLKETLGAALDSLQLDGDVSARLHLNIPLDGEMTTAKGDVHLQNNDLFIKPLDTTLQNLSGNFSFVNGDLNSQTLSATWFNQPLNLNFSTREGEKAFLVDVGMNASWQPSRTGLLPKAVNEALSGSVPWEGKVAIELPYHGNASYKVDINGDLKNVSSHLPSPVNKPAGEPLPVKINVAGGLSSFDLTGSVGAKNHINSRWLLNRKLTLDRAILTTDSKGPSPLPDQPGVELNLPPMDGAQWLALFQKGAANEVSSSVLFPPRIVLRTPSLALAGQQWNNVSLMSQPVTGGSQVEAQGREINATLTMRDNAPWLANVRYLYFNPASASGKGGTENVAPQAETRLDFHGWPDLQLRCAECWLWGQKYGRIDGDVAIKGDTLTLSNGLVDTGFGRLTTDGVWVNAPSGVRTSLKGRLHGNKTNEFADFFGVSTPVKDSPFDIDYDLHWRAPPWSPDVASLNGIIKSHLGKGQFTDLSTGHAGQLLRLLSVDALLRKLRFDFSDTFSEGFYFDSINSTAWIKDGVLHTDDTLVDGLEADIAMKGSVDLVRRHLDLQAVVAPEISATVGVAAAFAVNPIVGAAVFAASKVLGPLWNKVSILRYRITGPIDQPQINEVLRQARSNKKQ				NA	NA	NA	NA	NA
BMS020_02140	1470	rng_1	COG1530	Ribonuclease G	ATGACGGCTGAATTATTAGTGAACGTAACGCCATCCGAAACGCGCGTTGCGTATATTGATGGCGGTATTCTGCAGGAAATCCATATTGAGCGTGAAGCGCGACGCGGAATAGTAGGCAATATCTACAAAGGTCGTGTTAGCCGAGTGCTGCCGGGAATGCAGGCGGCTTTTGTAGATATTGGTCTGGATAAGGCGGCGTTCCTCCACGCCTCCGATATCATGCCGCATACCGAGTGCGTTGCCGGTGAGGAGCAAAAGCAGTTTACCGTGCGCGATATTTCGGAACTGGTGCGCCAGGGCCAGGACCTGATGGTCCAGGTGGTTAAAGATCCGCTCGGTACCAAAGGCGCGCGTCTGACCACCGATATTACCCTGCCTTCCCGCTATCTGGTCTTTATGCCGGGCGCCTCCCACGTGGGGGTCTCTCAGCGCATTGAAAGCGAAGCCGAGCGTGAGCGGCTGAAAAAGGTCGTGGCAGAGTACTGCGACGAGCAGGGCGGATTTATCATTCGCACCGCCGCGGAAGGCGTTCACGAGCAAGAGATGGCCGCCGATGCCGCCTATCTTAAGCGCGTATGGACCAAGGTGATGGAGCGCAAAAAGCGCAACCAGACCCGCTATCAGCTGTACGGCGAGCTGGCCCTGGCTCAGCGCGTGCTGCGTGATTTTGCCGACGCGCATCTCGACCGGATTCGCGTTGACTCGCGGCTGACCTACGAGGCGCTGCTCGAATTTACCGCCGAATATATTCCGGAAATGACCAGCAAGCTGGAACACTACAGCGGCCGTCAGCCGATATTCGATCTCTTTGACGTTGAGAACGAAATTCAGCGCGCGCTGGAACGTAAAGTCGAGCTCAAGTCCGGGGGGTATCTGATCATCGACCAGACCGAGGCGATGACCACCATCGATATCAACACAGGGGCGTTTGTTGGGCACCGCAATCTTGACGATACTATCTTCAATACCAATATCGAAGCCACCCAGGCGATAGCCCGCCAGCTGCGTTTGCGTAATCTCGGCGGCATTATCATCATTGATTTCATCGACATGAACAATGAAGACCATCGCCGGCGGGTGTTGCACTCCCTGGAGCAGGCCCTCAGTAAAGACCGGGTGAAGACCAGCATCAACGGTTTCTCCCAGTTGGGTCTGGTGGAGATGACCCGTAAACGCACCCGCGAAAGCGTGGAGCATGTGCTGTGCAACGAATGCCCGACCTGCCACGGACGCGGAACGGTAAAGTCCGTGGAAACGGTATGCTATGAGATTATGCGTGAGATCGTTCGCGTGCATCATGCTTATGATTCCGATCGCTTCCTGGTCTATGCTTCCCCTGCGGTGGCGGAAACCCTGAAAGGGGAAGAGTCGCATGCGCTGGCGGAAGTGGAGATCTTTGTCGGCAAGCAGGTGAAGGTACAAATTGAGCCGCTCTATAATCAAGAGCAGTTCGATGTGGTTATGATGTAA	MTAELLVNVTPSETRVAYIDGGILQEIHIEREARRGIVGNIYKGRVSRVLPGMQAAFVDIGLDKAAFLHASDIMPHTECVAGEEQKQFTVRDISELVRQGQDLMVQVVKDPLGTKGARLTTDITLPSRYLVFMPGASHVGVSQRIESEAERERLKKVVAEYCDEQGGFIIRTAAEGVHEQEMAADAAYLKRVWTKVMERKKRNQTRYQLYGELALAQRVLRDFADAHLDRIRVDSRLTYEALLEFTAEYIPEMTSKLEHYSGRQPIFDLFDVENEIQRALERKVELKSGGYLIIDQTEAMTTIDINTGAFVGHRNLDDTIFNTNIEATQAIARQLRLRNLGGIIIIDFIDMNNEDHRRRVLHSLEQALSKDRVKTSINGFSQLGLVEMTRKRTRESVEHVLCNECPTCHGRGTVKSVETVCYEIMREIVRVHHAYDSDRFLVYASPAVAETLKGEESHALAEVEIFVGKQVKVQIEPLYNQEQFDVVMM				NA	NA	NA	NA	NA
BMS020_02141	582	yhdE_1	COG0424	dTTP/UTP pyrophosphatase	ATGACAACTCTGTATCTTGCTTCTGGTTCCCCGCGTCGGCAGGAACTGCTGACTCAGCTTGGTCTCGCGTTCGAGCGTCTGGTTCCTGGTATCGAGGAGCAGCGCCAGCCGCAGGAGAGCGCGCAGCACTATGTCGTGCGCCTGGCGCGCGAAAAGGCGCAGGCCGGGGTGGCGCTGGCATCGCGGGATTTGCCGGTTTTGGGAGCGGATACGATTGTTATTTTGAACGGCGAAGTGCTGGAAAAACCGCGCGACGCCGAACACGCTGCAGCGATGCTGCGCCTGCTTTCCGGCCAAACCCATCAGGTCATGACCGCGGTGGCGCTGGCGGATAAGCAGCAGACGCTGGATTGTCTGGTGGTCACGGAAGTGACCTTCCGGCCGCTCAGCGAGCAGGATATCGCCGATTATGTGGCCAGCGGCGAGCCTTTAGATAAAGCAGGTGCATACGGTATTCAAGGGTTGGGTGGCTGTTTCGTCAGGAAGATTAATGGCAGCTATCACGCCGTAGTCGGCTTACCGCTGGTGGAAACGTATGAGTTGCTCAGTAACTTTAACTCACTGCGTAAAGAAAAGGGATAA	MTTLYLASGSPRRQELLTQLGLAFERLVPGIEEQRQPQESAQHYVVRLAREKAQAGVALASRDLPVLGADTIVILNGEVLEKPRDAEHAAAMLRLLSGQTHQVMTAVALADKQQTLDCLVVTEVTFRPLSEQDIADYVASGEPLDKAGAYGIQGLGGCFVRKINGSYHAVVGLPLVETYELLSNFNSLRKEKG				NA	NA	NA	NA	NA
BMS020_02142	489	mreD_1	COG2891	Rod shape-determining protein MreD	GTGGCAAGTTACCGTAGCCAGGGACGCTGGGTTATCTGGCTCTCGTTTCTTATCGCGCTATTGCTGCAAATTATGCCCTGGCCGGCGGACATCAGCGTTTTCCGGCCCAACTGGGTATTATTGATCCTGCTGTACTGGATCCTCGCGCTGCCGCACCGGGTGAATGTGGGAACGGGCTTCGTGATGGGGGCTATTCTTGATCTCATCAGCGGCTCGACGCTGGGCGTTCGCGCGCTGTCCTTAAGCATCGTCGCCTATCTGGTGGCGCTGAAGTATCAGCTGTTCCGTAACCTGGCGCTGTGGCAACAGGCGCTGGTGGTCATGCTGTTATCCCTCGCCGTGGATATCATTGTTTTCTGGGCAGAGTTTTTAGTGATCAACGTCTCTTTCCGTCCGGAAGTATTCTGGAGTAGTGTAGTAAACGGTATCCTCTGGCCATGGCTCTTCCTGCTGATGCGTAAAGTGCGTCAGCAATTTGCAGTGCAATAA	MASYRSQGRWVIWLSFLIALLLQIMPWPADISVFRPNWVLLILLYWILALPHRVNVGTGFVMGAILDLISGSTLGVRALSLSIVAYLVALKYQLFRNLALWQQALVVMLLSLAVDIIVFWAEFLVINVSFRPEVFWSSVVNGILWPWLFLLMRKVRQQFAVQ				NA	NA	NA	NA	NA
BMS020_02143	993	mreC	COG1792	Cell shape-determining protein MreC	ATGAAGCCAATTTTTAGCCGTGGCCCCTCGCTACAGATTCGCCTTATTCTGGCGGTGCTGGTGGCGCTTGGCGTGATTATCGCCGACAGCCGCCTGGGTACGTTCAGTCAAATCAGAACGTACATGGATACAGCCGTCAGCCCTTTCTACTTTGTCTCTAATGGTCCCCGGGAACTGCTCGACAGCGTATCGCAGACGCTGGCTACCCGTGACCAGCTCGAACTGGAAAACCGCGCGCTGCGTCAGGAGCTGTTGCTGAAAAACAGCGATCTGCTGATGCTGGGCCAGTACAAGCAGGAGAATGCGCGCCTGCGTGAACTGCTTGGCTCGCCGCTGCGCCAGGACGAGCAAAAAATGGTGACCCAGGTCATCTCAACGGTCAACGACCCCTACAGCGATCAGGTGGTTATCGATAAGGGCAGCGTCAACGGCGTCTACGAAGGCCAGCCGGTTATCAGTGATAAAGGCGTGGTGGGGCAGGTCGTAGCCGTGGCGAAAATGACCAGCCGGGTACTGCTGATCTGTGATGCCACCCATGCGTTGCCGATCCAGGTCCTGCGGAACGATATTCGCGTCATTGCCGCCGGTAACGGCTGCACCGACGACCTCCAGCTTGAGCATCTGCCGGCAAATACCGATATTCGCGTCGGCGATGTGCTGGTGACCTCCGGTCTGGGCGGTCGTTTCCCGGAAGGGTACCCGGTTGGGGTTGTCTCTTCAGTGAAACTGGACACCCAGCGCGCCTACACGGTGATCCAGGCGCGTCCGACGGCCGGTCTGCAGCGTTTGCGCTATCTGCTGCTGCTGTGGGGCGCCGATCGCAATGGCGCTAACCCGATGACCCCGGAAGAGGTCCATCGGGTGGCTAACGAACGCCTGATGCAGATGATGCCGCAGGTGTTGCCTGCGCCGGATGCGATGGGGCCGCAGATGCCGGCGCCCGCCACCGGGCTGACGCCGTCTCAGCCGTCGCAGCCTGCAGGGGGGCAATAG	MKPIFSRGPSLQIRLILAVLVALGVIIADSRLGTFSQIRTYMDTAVSPFYFVSNGPRELLDSVSQTLATRDQLELENRALRQELLLKNSDLLMLGQYKQENARLRELLGSPLRQDEQKMVTQVISTVNDPYSDQVVIDKGSVNGVYEGQPVISDKGVVGQVVAVAKMTSRVLLICDATHALPIQVLRNDIRVIAAGNGCTDDLQLEHLPANTDIRVGDVLVTSGLGGRFPEGYPVGVVSSVKLDTQRAYTVIQARPTAGLQRLRYLLLLWGADRNGANPMTPEEVHRVANERLMQMMPQVLPAPDAMGPQMPAPATGLTPSQPSQPAGGQ				NA	NA	NA	NA	NA
BMS020_02144	1044	mreB_1	COG1077	Cell shape-determining protein MreB	ATGTTAAAAAAATTTCGTGGCATGTTTTCCAATGACCTGTCCATTGACCTGGGTACCGCGAATACCCTTATTTACGTAAAAGGACAAGGCATCGTATTGAATGAGCCTTCCGTGGTGGCCATTCGTCAGGATCGTGCCGGATCGCCGAAAAGCGTCGCCGCCGTGGGTCATGAAGCGAAGCAGATGCTCGGCCGTACCCCGGGTAATATCGCGGCGATTCGCCCGATGAAGGACGGCGTTATCGCTGACTTCTTCGTGACGGAAAAGATGCTGCAGCACTTTATCAAACAAGTGCACAGCAACAGCTTTATGCGCCCGAGCCCGCGCGTACTGGTCTGCGTGCCGGTTGGCGCCACCCAGGTTGAGCGTCGTGCTATCCGTGAATCCGCGCAGGGCGCTGGCGCTCGCGAAGTGTTCCTGATTGAAGAACCGATGGCGGCCGCGATCGGCGCTGGCCTGCCGGTTTCTGAAGCGACCGGTTCCATGGTGGTGGATATCGGCGGCGGTACCACCGAGGTAGCGGTTATCTCCCTGAACGGCGTGGTTTACTCTTCTTCCGTGCGTATCGGCGGCGACCGCTTCGACGAAGCCGTCATCAATTACGTGCGTCGTAACTACGGCTCCCTGATCGGTGAAGCGACCGCTGAGCGTATCAAACATGAAATCGGTTCGGCTTACCCGGGCGATGAAGTGCGTGAAATTGAAGTGCGCGGCCGTAACCTGGCAGAAGGCGTTCCACGCGGCTTCACCCTGAACTCAAACGAAATTCTTGAAGCGCTGCAGGAGCCGCTGACCGGCATCGTGAGCGCGGTCATGGTTGCCCTTGAGCAGTGCCCGCCGGAACTGGCGTCTGATATCTCCGAGCGCGGGATGGTTCTCACCGGCGGTGGTGCGCTGCTGCGCAACCTGGACCGTCTGTTAATGGAAGAAACCGGTATTCCAGTCGTGGTTGCTGAAGATCCGCTGACCTGCGTAGCGCGTGGCGGCGGCAAGGCGCTGGAAATGATCGACATGCACGGCGGCGACCTGTTTAGCGAAGAGTAG	MLKKFRGMFSNDLSIDLGTANTLIYVKGQGIVLNEPSVVAIRQDRAGSPKSVAAVGHEAKQMLGRTPGNIAAIRPMKDGVIADFFVTEKMLQHFIKQVHSNSFMRPSPRVLVCVPVGATQVERRAIRESAQGAGAREVFLIEEPMAAAIGAGLPVSEATGSMVVDIGGGTTEVAVISLNGVVYSSSVRIGGDRFDEAVINYVRRNYGSLIGEATAERIKHEIGSAYPGDEVREIEVRGRNLAEGVPRGFTLNSNEILEALQEPLTGIVSAVMVALEQCPPELASDISERGMVLTGGGALLRNLDRLLMEETGIPVVVAEDPLTCVARGGGKALEMIDMHGGDLFSEE	PGPT0027700_822	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
BMS020_02145	1941	csrD		RNase E specificity factor CsrD	ATGCGATTAACGACGAAGTTCTCAGCCTTTATCACGCTGCTAACTAGCCTGACCATCTTTGTCACGCTGATTGGCGCTTCGCTGAGTTTTTACAACGGCATTGAGAACAAGGTCGAAAACCGGGTTCAGGCGGTGGCGACCATGCTGGATAACCGGCTCATCACCACCTCTTTTGATAAGCTTGAGCCGCAGCTGGATGAGCTGATGACGCCGATAGAGATCGTGCATATCGATTTCATGCTTAACGGTAAACCGCTCTACAGCCACTCCCGAACCGACAGCTATCGCCCGCTTGGCAGTCATGAGCAATTCCGTGAGATCACGGTCCCGTCGTTGAAACATCCCGGTATCTCTCTGCATCTGGTCTACGTTGACCCGATGGTGAACTATTTCCGTTCGCTGTCGATTACCGCCCCGCTGTCGATCTCCATCGGCTTCATGGTGGTGATTATTTTCTTCGCCGTCCGCTGGATCCGCCGCCAGCTGGCGGGTCAGGAGCTGCTTGAGCTTCGTTCCACGCGTATCCTGAGCGGCGAGCGCGGGCCGCAGGTGCGCGGCTCAGTCTATGAATGGCCTGCCAGCACCAGTAGCGCGCTGGATATGCTGCTGTCGGAGCTGCAGTTTGCCAGCGATCAGCGCAGCCGGATGGATACGCTGATTCGCTCCTATGCGGCACAGGATTCTAAAACCGGGCTGAATAATCGCCTGTTTTTTGACAATCAGCTGGCCACGCTGCTGGAAGATCAGGAGAAGGTGGGGGCGTACGGCATCGTGATGATGATCCGTCTACCGGAGTTTGATCTGCTACGGGACAACTGGGGGCGGGCGGCGGCCGAAGAACATTACTTCACGCTTATCAACCTGCTCTCTACCTTTATTATGCGTTACCCTGGCGCGCTGCTGGCGCGCTATCACCGTAGCGACTTCGCCGTGCTGCTGCCGCACCGCACGTTAAAAGAGGCGGATAGTATCGCCGGGCTGCTGCTGAAGGCCATGGACGCGCTGCCTCCGACGCGGATCCTCGATCGTGACGATATGATGCATATCGGCATCTGTTCTTTCCGCAGCGGACAATCGGCGGCGCAAGTGATGGAACATGCAGAAGCGGCGACGCGCAACGCGGTGCTGCAGGGCAGCAACAGCTGGTCGGTCTATGACGATACCCTTCCGGAGAAAGGCCGCGGCAACGTTCGCTGGCGGACGCTGATCGAACAGATGCTGAGCCGCGGCGGGCCGCGGTTGTACCAGAAGCCCGCCGTCACCCGCGACGGTCGGGTGCATCACCGTGAACTGATGTCGCGGATGTACGACGGTAAAGAAGAGGTGATTGCCGCCGAGTACATGCCGATGGTGCTGCAGTTTGGCCTGGCGGAGGAGTATGACCGCCTGCAGGTGACGCGCCTGCTGCCGTTTTTAGGCTTCTGGCCCGAGGAGAATCTGGCGCTGCAGCTGTCGGTGGAGTCGCTGATCCGCCCGCGTTTCCAGCGCTGGCTGCGCGATGCTCTGATGCAGTGTGAAAAATCGCAGCGTCAACGGATTATTTTTGAACTTGCTGAGGCAGATGTTTGTCAATATATCGGCCGTCTGCAGCCGGTTATGCGGTTGGTTAACGCGCTTGGCGTTCGGGTGGCGGTGGTTCAGGCAGGGTTAACCCTGGTGGGAACCAGCTGGATCAAGCAGCTGGATGCGGAGCTGATCAAACTGCATCCAGGCCTGGCGCGCAACATCGAAAAGCGCAGCGAGAACCAGCTGCTGGTGCAAAGCCTGGTGGAAGCCTGTAAAGGCATGCCTATGCAAGTTTTTGCGACGGGCGTACGCAGCCGCAGCGAGTGGCTGGTACTGTCCCAATGCGGTGTCACGGGCGGGCAGGGGGAATTTTTTGCCACCTCACAGCCACTTGACACAAATGTGAAAAAATATTCGCAAAGATACTCGGTTTGA	MRLTTKFSAFITLLTSLTIFVTLIGASLSFYNGIENKVENRVQAVATMLDNRLITTSFDKLEPQLDELMTPIEIVHIDFMLNGKPLYSHSRTDSYRPLGSHEQFREITVPSLKHPGISLHLVYVDPMVNYFRSLSITAPLSISIGFMVVIIFFAVRWIRRQLAGQELLELRSTRILSGERGPQVRGSVYEWPASTSSALDMLLSELQFASDQRSRMDTLIRSYAAQDSKTGLNNRLFFDNQLATLLEDQEKVGAYGIVMMIRLPEFDLLRDNWGRAAAEEHYFTLINLLSTFIMRYPGALLARYHRSDFAVLLPHRTLKEADSIAGLLLKAMDALPPTRILDRDDMMHIGICSFRSGQSAAQVMEHAEAATRNAVLQGSNSWSVYDDTLPEKGRGNVRWRTLIEQMLSRGGPRLYQKPAVTRDGRVHHRELMSRMYDGKEEVIAAEYMPMVLQFGLAEEYDRLQVTRLLPFLGFWPEENLALQLSVESLIRPRFQRWLRDALMQCEKSQRQRIIFELAEADVCQYIGRLQPVMRLVNALGVRVAVVQAGLTLVGTSWIKQLDAELIKLHPGLARNIEKRSENQLLVQSLVEACKGMPMQVFATGVRSRSEWLVLSQCGVTGGQGEFFATSQPLDTNVKKYSQRYSV				NA	NA	NA	NA	NA
BMS020_02146	1002	msrP_1	COG2041	Protein-methionine-sulfoxide reductase catalytic subunit MsrP	ATGAAAAGAAAAAAACTGACGGAAGCCGACGTCACGGCCGAATCCGTTTTTATGCTCCAGCGGCGCCAGGTGCTGAAAATGCTGGGCATCAGCGCGACCGCCCTTTCGCTTCCCGCCGCCGCGCAGGCCGACCTGCTGGACTGGTTTAAAGGCCATGACCGTCCGCCAGCCCCGGCGGGCAAAGCCCTGGACTTTGCTAAACCCGCTGAATGGCAGGCTAAGCTAACGCTTACCCCGGAAGATAAAGTCTCCGGCTACAATAACTTTTATGAATTCGGCCTCGATAAAGCCGATCCGGCGGCGAACGCGGGTAGCCTGCGCACCGATCCCTGGACATTGACCATCGGCGGTGAGGTGGCGAAGCCGCTGACTCTCGACCATGACGATCTGACCAAACGCTTCCCGCTGGAAGAGCGTATTTATCGTATGCGCTGCGTGGAAGCCTGGTCGATGGTGGTCCCCTGGGTCGGCTTCCCGCTGCATAAGCTGTTGGCGCTGGTGGAGCCCACCAGCAATGCGCGCTATGTGGCCTTCAAAACCCTCTATGCTCCGGATCAAATGCCCGGGCAGAAAGATCGGTTTATCGGCGGGGGGCTGGCTTACCCTTACGTGGAGGGGCTGCGGCTGGATGAAGCGATGCATCCGCTGACGCTGCTCACCGTCGGGGTGTATGGCAAAGCGCTGCCGCCGCAAAATGGCGCGCCGGTCCGCCTTACTGTGCCGTGGAAGTACGGTTTCAAAGGCATTAAATCTATCGTCAGCATTGAACTGACCCGCGAGCGGCCGCCGACCACCTGGAATCTGGCGGCACCGGACGAATACGGCTTCTTCGCCAACGTCAATCCGCACGTCGATCACCCCCGCTGGTCGCAGGCCAGCGAGCGGTTTATCGGCGCCGGCGGCGTACTCGATGTCAAGCGTCAGCCAACCCTGCTGTTTAACGGCTATGCCGACGAGGTGGCGTCGTTGTATCGCGGCATGAACCTGCGGGAGAACTTCTAG	MKRKKLTEADVTAESVFMLQRRQVLKMLGISATALSLPAAAQADLLDWFKGHDRPPAPAGKALDFAKPAEWQAKLTLTPEDKVSGYNNFYEFGLDKADPAANAGSLRTDPWTLTIGGEVAKPLTLDHDDLTKRFPLEERIYRMRCVEAWSMVVPWVGFPLHKLLALVEPTSNARYVAFKTLYAPDQMPGQKDRFIGGGLAYPYVEGLRLDEAMHPLTLLTVGVYGKALPPQNGAPVRLTVPWKYGFKGIKSIVSIELTRERPPTTWNLAAPDEYGFFANVNPHVDHPRWSQASERFIGAGGVLDVKRQPTLLFNGYADEVASLYRGMNLRENF	PGPT0013075_629	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013075-msrP|yedY-K07147	NA	NA
BMS020_02147	600	msrQ_1	COG2717	Protein-methionine-sulfoxide reductase heme-binding subunit MsrQ	GTGCGTTTCACCGTCAAACAGATCGCCTGGCTGAAGGTTTTACTTCATCTGGCGGGTTTTTTGCCGCTGGTCTGGCTATTCTGGGCCGGACATCAGGGCTACTTTAGCGCCGATCCGGCCAAGGATATCCAGCATTTTACCGGCAGGATGGCGCTGAAGTTTCTGCTGGCGACGCTGCTGGTCTCCCCGCTGGCGCGCTATGCGAAACAACCATTATTGATTCGCGTTCGTCGCCTGTTAGGTTTATGGTGTTTCGCCTGGGCGACGCTGCACCTGACCAGCTATACCCTGCTGGAGCTGGGCATTAACAATCTGGCGCTGCTGGGCTCGGAGATTATCAACCGCCCCTATCTGACGTTAGGCATGGTCAGCTGGGCGATCCTGCTGGCGCTGGCGGTGACGTCGACGCAGGCGATGCAGCGAAAACTGGGCCGCCGCTGGCAACTTTTACACAACTTCGTCTATCTGGTGGCGATCCTCGCGCCGATTCACTACCTGTGGTCAGTGAAGATCCTCTCGCCGCAGCCCATCATTTATGCCCTGCTGGCAGTGGCGCTGCTGGCATGGCGTTACAAGAAGTTCCGCCAGTGGTGGCGCTGA	MRFTVKQIAWLKVLLHLAGFLPLVWLFWAGHQGYFSADPAKDIQHFTGRMALKFLLATLLVSPLARYAKQPLLIRVRRLLGLWCFAWATLHLTSYTLLELGINNLALLGSEIINRPYLTLGMVSWAILLALAVTSTQAMQRKLGRRWQLLHNFVYLVAILAPIHYLWSVKILSPQPIIYALLAVALLAWRYKKFRQWWR				NA	NA	NA	NA	NA
BMS020_02148	453	aroQ	COG0757	3-dehydroquinate dehydratase	ATGGCAAAGAAGTTGCACATTTTGCTTTTGAATGGTCCAAACATTAACATGCTCGGTACCCGCGAGCCTGAGAAGTATGGTCCGCTCACGCTGGCGGAGATTGTTAACCATTTAACATCTGAAGCGGCGGCGCTGAATGTGAGCCTGGATCACCTGCAGTCCAACGCGGAGCATGCGTTAATCGACCGAATTCATCAGGCTAAAGACAACGTGGACTATATCCTGATTAATCCGGCCGCGTTCACGCATACCAGCGTAGCAATCCGTGACGCTTTGCTTGCCGTGAACATCCCGTTTATCGAGATTCACCTGAGCAATGTGCATGCACGCGAACCCTTCCGCCAGCATTCGTATCTGTCAGATGTCGCCGCTGGCGTCATCTGCGGACTGGGGGCGGACGGCTATTCATACGCTTTACAGACGGCGGTAAAACGCCTGTCACAATCACACTAA	MAKKLHILLLNGPNINMLGTREPEKYGPLTLAEIVNHLTSEAAALNVSLDHLQSNAEHALIDRIHQAKDNVDYILINPAAFTHTSVAIRDALLAVNIPFIEIHLSNVHAREPFRQHSYLSDVAAGVICGLGADGYSYALQTAVKRLSQSH	PGPT0012905_1180	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
BMS020_02149	468	accB_1	COG0511	Biotin carboxyl carrier protein of acetyl-CoA carboxylase	ATGGATATTCGTAAGATTAAAAAACTGATCGAGCTGGTTGAAGAATCAGGTATCTCCGAACTGGAAATTTCTGAAGGCGAAGAGTCTGTTCGCATCAGCCGCTCTGCACCGGCCGCAAGCTATCCGGTTATGCAGCAGGCTTATGCTGCGCCGATGATGCAGCCTCAGGCACCTGCCGCCGCGGCTGCCGCGCCAGCTGCAGCAGCAGAAGCGCCGGCAAAAGCGGAAATCAGTGGTCACATCGTACGTTCCCCGATGGTTGGTACTTTCTATCGTACGCCAAGCCCGGACGCGAAAGCGTTTGTGGAAGTTGGCCAGAAAGTTAACGTGGGCGACACCCTGTGCATCGTCGAAGCGATGAAAATGATGAACCAGATCGAAGCCGACAAAGCCGGCGTGGTGAAAGCCATTCTGATCGAAAGCGGCCAACCGGTAGAATTCGACGAGCCGCTGGTAGTTATCGAGTAA	MDIRKIKKLIELVEESGISELEISEGEESVRISRSAPAASYPVMQQAYAAPMMQPQAPAAAAAAPAAAAEAPAKAEISGHIVRSPMVGTFYRTPSPDAKAFVEVGQKVNVGDTLCIVEAMKMMNQIEADKAGVVKAILIESGQPVEFDEPLVVIE	PGPT0001700_2376	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
BMS020_02150	1350	accC_1	COG0439	Biotin carboxylase	ATGCTGGATAAAATTGTCATCGCTAACCGTGGCGAGATCGCACTGCGCATCCTTCGTGCCTGTAAAGAACTGGGCATCAAGACCGTTGCTGTGCATTCCACCGCGGATCGCGATCTAAAACACGTATTGTTAGCGGATGAGACGGTCTGTATCGGTCCGGCTCCGTCCGTAAAAAGCTATCTGAACATCCCGGCTATCATCAGCGCCGCTGAGATCACCGGCGCGGTAGCGATTCACCCGGGGTATGGCTTCCTCTCCGAGAACGCCAACTTTGCTGAGCAGGTTGAGCGCTCCGGCTTTATCTTCATCGGCCCGAAAGCCGACACTATCCGCCTGATGGGCGACAAAGTGTCCGCGATCACCGCCATGAAAAAAGCCGGCGTCCCGACCGTACCCGGTTCTGACGGCCCGCTGACCGACGACATGGACGCTAACCGCGCCCATGCTAAACGCATCGGCTATCCGGTGATCATCAAGGCCTCCGGCGGCGGCGGCGGTCGCGGTATGCGCGTTGTGCGCAGCGACGCTGAACTGGCCCAGTCCATCTCCATGACCAAAGCGGAAGCCAAAGCGGCTTTCAACAACGATATGGTCTACATGGAGAAATACCTGGAAAACCCGCGTCACATTGAAATTCAGGTACTGGCGGACGGTCAGGGCAACGCTATCTATCTGGCTGAACGTGACTGCTCCATGCAGCGTCGTCACCAGAAAGTGGTCGAAGAAGCGCCGGCGCCGGGCATCACTCCGGAACTGCGTCGCTACATCGGCGAGCGTTGCGCGAAAGCCTGTGTCGATATCGGCTACCGCGGGGCGGGTACCTTTGAGTTCCTGTTCGAAAACGGCGAGTTCTACTTCATTGAAATGAACACCCGTATCCAGGTAGAGCATCCGGTAACTGAAATGATCACCGGCGTTGACCTGATCAAAGAGCAGCTGCGTATCGCAGCCGGCCAGCCGCTGTCCATCAAGCAGGATGAAGTGGTGGTTCGCGGCCATGCGGTGGAATGCCGTATCAACGCCGAAGACCCGAACACCTTCCTGCCGAGCCCGGGTAAGATTACCCGTTTCCACGCGCCGGGCGGCTTTGGCGTGCGCTGGGAGTCCCATATTTACGCCGGCTACACCGTACCGCCGTACTATGACTCCATGATCGGCAAACTGATCTGCTACGGCGAAAGCCGTGACGTGGCGATTGCCCGCATGAAGAATGCGCTGCAGGAGCTGATCATCGATGGCATCAAGACCAACGTCGATCTGCAGATGCGCATTATGAGCGACGAGAACTTCCAGCATGGTGGCACCAACATCCACTATCTGGAGAAAAAACTCGGCTTGCAGGAAAAATAA	MLDKIVIANRGEIALRILRACKELGIKTVAVHSTADRDLKHVLLADETVCIGPAPSVKSYLNIPAIISAAEITGAVAIHPGYGFLSENANFAEQVERSGFIFIGPKADTIRLMGDKVSAITAMKKAGVPTVPGSDGPLTDDMDANRAHAKRIGYPVIIKASGGGGGRGMRVVRSDAELAQSISMTKAEAKAAFNNDMVYMEKYLENPRHIEIQVLADGQGNAIYLAERDCSMQRRHQKVVEEAPAPGITPELRRYIGERCAKACVDIGYRGAGTFEFLFENGEFYFIEMNTRIQVEHPVTEMITGVDLIKEQLRIAAGQPLSIKQDEVVVRGHAVECRINAEDPNTFLPSPGKITRFHAPGGFGVRWESHIYAGYTVPPYYDSMIGKLICYGESRDVAIARMKNALQELIIDGIKTNVDLQMRIMSDENFQHGGTNIHYLEKKLGLQEK	PGPT0001705_2971	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
BMS020_02151	243	yhdT	COG3924	putative membrane protein YhdT	ATGGACAAACGCTTTGTTCAGGCCCACAAAGAAGCGCGCTGGGCGCTGTGGCTGACCCTTCTCTATCTTGCCGCCTGGCTGGCCGCCGCCTATCTGCCGGGGGTGGCTATCGGTTTTACCGGCCTGCCCCACTGGTTTGAAATGGCCTGCCTGCTGGTTCCGCTGCTGTTTATTCTGCTGTGCTGGGCGATGGTCAAACTGGTTTTCCGCGACATACCTCTGGAGGACGATGATGCAGTTTGA	MDKRFVQAHKEARWALWLTLLYLAAWLAAAYLPGVAIGFTGLPHWFEMACLLVPLLFILLCWAMVKLVFRDIPLEDDDAV				NA	NA	NA	NA	NA
BMS020_02152	1452	panF	COG4145	Sodium/pantothenate symporter	ATGCAGTTTGAGGTCATTATTCCCCTGATCGCCTATCTGGTGGTGGTGTTCGGCTTATCCCTTTACGCCATGAGAAAACGCGCCTCAGGAAGCTTTCTTAATGAGTACTTTCTCGGCAGCCGCTCGATGGGCGGCTTCGTGCTGGCCATGACGCTAACCGCCACCTATATCAGCGCCAGCTCATTTATCGGCGGACCCGGCGCCGCCTATAAATACGGCCTGGGCTGGGTACTGCTGGCGATGATCCAGCTCCCCGCCATCTGGCTGTCGCTGGGCGTACTGGGAAAAAAATTCGCCATTCTTGCGCGTCGTTATAATGCCGTCACCCTCAATGACATGCTGTTTGCGCGCTACCAGAGCCGTCTGCTGGTCTGGCTGGCCAGCCTGAGCCTGCTGGTAGCCTTCGTTGGCGCCATGACCGTCCAGTTTATCGGCGGCGCCCGCCTGCTGGAGACAGCTGCGGGTATTCCCTACGATACCGGTCTGCTGATCTTCGGCATCAGCATCGCGCTGTATACCGCCTATGGCGGCTTTCGCGCCAGCGTGCTCAACGATACCATGCAGGGCATGGTGATGCTGATCGGCACGATCGTGCTACTGGTGGGGGTGATCCACGCCGCCGGCGGGATTGGCCATGCGGTAGAGACTCTGCAGTCGATCGACGTCAAGCTGGTGTCCCCGCAGGGGGCGGAAGATATCCTCTCGCCAACCTTTATGGCCTCGTTTTGGGTGCTGGTCTGCTTCGGCGTCATTGGCCTGCCGCATACCGCCGTTCGCTGTATCTCCTACAAAGACAGCAAAGCCGTGCATCGCGGCATTATGATCGGCACCATCGTAGTGGCGATCCTGATGTTTGGCATGCACCTGGCCGGCGCGTTAGGTCGGGCGGTGCTCCCCGACTTAACCGTACCGGATCTGGTGATCCCGACGCTGATGGTCAAAGTGCTCCCGCCCTTTGCGGCAGGGATCTTTCTGGCCGCGCCGATGGCGGCGATTATGTCGACGATCAATGCCCAGCTTCTGCAAAGTTCCGCTACGATCATCAAGGATCTGTATCTGAACTGGCGTCCGGATCAGGCGACTAACGAAAAGCGGCTAAAACGCATGTCCGCCGGCATCACGCTCCTGTTGGGTGTTCTGCTGCTGCTCGCGGCCTGGCGACCGCCGGAGATGATTATCTGGCTGAATCTGCTGGCCTTCGGCGGCCTGGAAGCCGTCTTCCTGTGGCCGCTGGTACTGGGCCTGTATTGGGAACGTGCTAACGCGGCTGGCGCGCTGAGCGCGATGATCGTGGGCGGCGTGCTGTATGCCGTACTTGCCACGCTGAAAGTGCAGTTTCTCGGCTTCCACCCGATCGTTCCCGCGCTGCTGCTGAGTTTACTGGCGTTTGTGGCAGGGAACCGTTTCGGCCGTCCCGCACCACAGCCACCTATTTTGACTACTGATAAATAA	MQFEVIIPLIAYLVVVFGLSLYAMRKRASGSFLNEYFLGSRSMGGFVLAMTLTATYISASSFIGGPGAAYKYGLGWVLLAMIQLPAIWLSLGVLGKKFAILARRYNAVTLNDMLFARYQSRLLVWLASLSLLVAFVGAMTVQFIGGARLLETAAGIPYDTGLLIFGISIALYTAYGGFRASVLNDTMQGMVMLIGTIVLLVGVIHAAGGIGHAVETLQSIDVKLVSPQGAEDILSPTFMASFWVLVCFGVIGLPHTAVRCISYKDSKAVHRGIMIGTIVVAILMFGMHLAGALGRAVLPDLTVPDLVIPTLMVKVLPPFAAGIFLAAPMAAIMSTINAQLLQSSATIIKDLYLNWRPDQATNEKRLKRMSAGITLLLGVLLLLAAWRPPEMIIWLNLLAFGGLEAVFLWPLVLGLYWERANAAGALSAMIVGGVLYAVLATLKVQFLGFHPIVPALLLSLLAFVAGNRFGRPAPQPPILTTDK				NA	NA	NA	NA	NA
BMS020_02153	882	prmA_1	COG2264	Ribosomal protein L11 methyltransferase	ATGCCATGGATCCAACTGAAACTAAATACCACCGGCGCGAACGCTGAAGATCTTAGCGATGCGCTGATGGAGGCCGGATCGGTCTCGATCACCTTCCAGGATACGCACGATACGCCGGTATTTGAGCCGTTGCCCGGGGAAACCCGGCTGTGGGGCGATACCGACGTGATCGGCCTGTTCGATGCCGAAACCGATATGAAAGCGGTCGTTGCCCAACTGGAGCAGCACCCGCTGCTGGGCGCCGGCTTCGCGCATAAGATCGAGCAGCTGGAAGATAAAGACTGGGAGCGGGAATGGATGGATAACTTCCATCCGATGCGTTTCGGTGAGCGGCTGTGGATCTGCCCGAGCTGGCGCGACGTTCCGGATGAAAATGCCGTCAACGTGATGCTCGATCCGGGTCTGGCCTTCGGTACCGGCACGCACCCGACGACATCCCTGTGCCTGCAGTGGCTCGATGGACTCGACCTCAACGGAAAAACGGTCATTGATTTCGGCTGCGGTTCCGGCATCCTGGCGATTGCCGCGCTGAAGCTGGGGGCCGCAAAAGCGATCGGCATTGATATCGACCCGCAGGCTATTCAGGCCAGCCGCGATAACGCGCAGCGTAACGGCGTCTCTGAGCGTCTGGAGCTCTATCTTCCTCAGGACCAGCCGGAGTCGATGAAAGCCGACGTCGTGGTCGCCAATATCCTGGCTGGCCCGTTACGTGAGCTGGCGCCGTTAATCAGCGTCCTGCCCGTTTCAGGCGGTTTGCTGGGACTTTCCGGCATCCTTGCCAGCCAGGCGGAGAGCGTCTGTGAAGCCTACGCCGATCTCTTCACCCTTGACCCGGTGGTCGAGAAAGAGGAGTGGTGCCGGATCACCGGCCGGAAAAACTAA	MPWIQLKLNTTGANAEDLSDALMEAGSVSITFQDTHDTPVFEPLPGETRLWGDTDVIGLFDAETDMKAVVAQLEQHPLLGAGFAHKIEQLEDKDWEREWMDNFHPMRFGERLWICPSWRDVPDENAVNVMLDPGLAFGTGTHPTTSLCLQWLDGLDLNGKTVIDFGCGSGILAIAALKLGAAKAIGIDIDPQAIQASRDNAQRNGVSERLELYLPQDQPESMKADVVVANILAGPLRELAPLISVLPVSGGLLGLSGILASQAESVCEAYADLFTLDPVVEKEEWCRITGRKN				NA	NA	NA	NA	NA
BMS020_02154	918	dusB_1	COG0042	tRNA-dihydrouridine synthase B	ATGGCTGGCATTACTGACAGACCATTCCGGACGCTGTGCTACGAGATGGGAGCGGGTTTAACCGTTTCCGAGATGATGTCCTCTAACCCACAGGTGTGGGAGAGCGACAAGTCCCGTTTACGGATGGTGCATATTGATGAGCCCGGTATTCGTACCGTGCAAATCGCCGGTAGCGTGCCGGAAGAGATGGCTGCCGCCGCGCGGATTAACGTGGAAAGCGGTGCCCAGATTATTGATATCAATATGGGATGCCCGGCGAAAAAGGTGAATCGCAAGCTTGCAGGTTCAGCCCTCTTGCAGTACCCCGACCAGGTGAAGTCGATCCTGACGGCGGTCGTGAATGCGGTGGACGTTCCTGTGACTCTCAAGATTCGCACCGGTTGGGAACCGGAACACCGTAACTGCGTAGAGATTGCCCAACTGGCCGAAGAGTGTGGCATTCAGGCTCTGACTATTCACGGACGCACCCGCGCCTGCTTGTTTAACGGAGACGCTGAGTACGACAGTATTCGGGCAGTTAAGCAGAAAGTTTCCATTCCGATTATCGCGAATGGCGACATTACTGACCCGCTTAAAGCCAGAGCTGTGCTCGACTATACAGGGGCTGATGCCCTGATGATAGGCCGTGCAGCTCAGGGAAGACCCTGGATCTTTCGGGAAATCCAGCATTATCTGGACACTGGAGAGCTGCTGCCCCCGCTGCCGCTGGCAGAGGTCAAGCGCTTGCTTTGTGCGCACGTTCGGGAATTGCATGACTTTTATGGTCAGGCAAAAGGGTACCGAATCGCGCGTAAACACGTCTCCTGGTATCTTCAGGAACATGCTCCAGATGACCAGTTTCGGCGCACATTCAACGCCATTGAGGATGCCAGCGAACAGCTGGAGGCGTTGGAGGCATACTTCGAAAATTTTGCGTAA	MAGITDRPFRTLCYEMGAGLTVSEMMSSNPQVWESDKSRLRMVHIDEPGIRTVQIAGSVPEEMAAAARINVESGAQIIDINMGCPAKKVNRKLAGSALLQYPDQVKSILTAVVNAVDVPVTLKIRTGWEPEHRNCVEIAQLAEECGIQALTIHGRTRACLFNGDAEYDSIRAVKQKVSIPIIANGDITDPLKARAVLDYTGADALMIGRAAQGRPWIFREIQHYLDTGELLPPLPLAEVKRLLCAHVRELHDFYGQAKGYRIARKHVSWYLQEHAPDDQFRRTFNAIEDASEQLEALEAYFENFA	PGPT0001030_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001030-acoR-K21405	NA	NA
BMS020_02155	297	fis_1	COG2901	DNA-binding protein Fis	ATGTTCGAACAACGCGTAAATTCTGACGTACTGACCGTTTCTACCGTTAACTCTCAGGATCAGGTAACTCAAAAGCCCCTGCGTGACTCGGTTAAACAGGCACTGAAGAACTATTTTGCTCAACTGAACGGTCAGGATGTGAATGACCTGTATGAGCTGGTACTGGCTGAAGTTGAACAGCCCCTGTTGGACATGGTGATGCAATACACCCGTGGTAACCAGACCCGCGCTGCCCTGATGATGGGCATCAACCGCGGTACGCTGCGTAAAAAACTGAAAAAATACGGCATGAACTGA	MFEQRVNSDVLTVSTVNSQDQVTQKPLRDSVKQALKNYFAQLNGQDVNDLYELVLAEVEQPLLDMVMQYTRGNQTRAALMMGINRGTLRKKLKKYGMN	PGPT0025570_215	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI1|AI-2|CAI-1_PERCEPTION|SIGNALLING,PGPT0025570-fis-K03557	NA	NA
BMS020_02156	654	acrR_1	COG1309	HTH-type transcriptional regulator AcrR	ATGGCAAGAAAAACGAAAGAAGAGGCGCTACGCACGCGGCAGCTCCTGATTGAGTCCGCGATCCAGCAGTTCGCTCTGCGGGGGGTGACCAACACGACCCTGACGGATATTGCTGATGCGGCGGGAGTGACCCGCGGCGCCGTCTACTGGCATTTTGCCAGTAAGACCGAGCTGTTTAATGAAATGTGGCAGCAGCAGCCACCGCTCAGGGATTTGATTCAGCATAGCCGCGCAACAGAGAATGAACAGGAGCCTTTAAATGCGTTGCGCGAGCGGTTTATTACCGGGCTCCGCTATATTGCTGCGAATCCTCGCCAGCGTGCGCTGATGCAAATTCTTTATCAGCGCTGCGAGTTTGCCAATGATATGCTTTCGGAAAATGAAATTCGCCAGCGCATTGGCTTTAATTATTCGCTCATCGGCGGCATGCTGCAGTGCTGTGTGCGTAACAATATATTGCCAGCCGAAACAAATATTGAAGTGATATTAATTGTTTTACACAGCGCCTTTTCCGGACTAATTAAAAACTGGCTGCTCGATCCGCAACGCGTCGATCTTTATCAGCAGGCGCCTGCGCTGGTGGATAATATTATGGCGGTAGTCTGTGCTGCTCGTGTATCGGAGACGCCGGTACTGCGGGCGGTGAATCAGTAA	MARKTKEEALRTRQLLIESAIQQFALRGVTNTTLTDIADAAGVTRGAVYWHFASKTELFNEMWQQQPPLRDLIQHSRATENEQEPLNALRERFITGLRYIAANPRQRALMQILYQRCEFANDMLSENEIRQRIGFNYSLIGGMLQCCVRNNILPAETNIEVILIVLHSAFSGLIKNWLLDPQRVDLYQQAPALVDNIMAVVCAARVSETPVLRAVNQ	PGPT0028920_60	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_AcrEF-TolC,PGPT0028920-envR|acrS-K18140	NA	NA
BMS020_02157	1140	acrE_1		Multidrug export protein AcrE	ATGACTACTCACGCCAGAGTGACACTTTTATCCGGTTTAATTATCTCGGCCTTATTGCTTACCGGCTGCGATAATTCGGACAATCCGCAACCCCATGCCCAGGCGCCGCAGGTGACGGTCCATGTCGTGAACAGCGCGCCGCTGTCGGTCACCACCGAACTGCCAGGCCGAACTTCAGCTTTTCGCGTGGCGGAGGTCCGCCCTCAGGTAAGCGGTATTATCCTGAAGCGTAACTTTGTTGAAGGAAGCGATGTCGAAGCAGGCCAGTCGCTCTATCAGATCGATCCGGCAACCTACCAGGCGGCGTGGAACAGCGCCAAGGGCGATGAGGCAAAAGCCGAAGCCGCAGCCGCCATCGCCCACTTGACGGTGAAACGCTACGTTCCGCTGCTGGGTACCCAGTATATCAGTCAACAGGAATACGATCAGGCGGTGGCCACCGCCCGCCAGGCCGATGCCGACGTTATCGCTACCAAAGCCTCCGTGGAAAGCGCCCGCATCAACCTGGCCTACACCAAAGTGACCTCTCCCATTAGCGGACGCATCGGTAAATCGAGCGTCACCGAGGGGGCATTGGTTACCAACGGTCAGTCGGATGCCCTGGCCACCGTCCAGCAGCTCGATCCGATCTACGTCGACGTGACGGAATCCAGCAATGACTTCATGCGCCTTAAGCAGGAAAGCCTGCAACGCGGCGGCGACACCAAAAGCGTTGAACTGCTGATGGAGAACGGTCAGGCCTATCCGCTTAAGGGTTCGCTGCAGTTCTCCGACGTCACTGTCGATGAAAGTACAGGTTCAATTACCCTGCGCGCTATCTTCCCTAACCCGCAGCATGTCCTGCTGCCGGGGATGTTCGTCCGCGCCCGCATCGATGAAGGCACCGATCCGCAGGCCATCCTGGTGCCGCAGCAGGGGGTGACTCGAACGCCGCGGGGCGATGCCTCCGTCATGCTGGTGAATGACAAAAATCAGGTTGAAACCCGTCAAGTGGTGGCTTCCCAGGCCGTGGGCGATAAGTGGCTTATCACCAGCGGGCTGAAGCCGGGCGACAAAGTGATTGTCAGCGGCTTACAGAAAGTCCGTCCCGGCGTCACCGTTAAAGCAGAAGTGGAGCGTGCGGCACCGGTCGCGCAATAA	MTTHARVTLLSGLIISALLLTGCDNSDNPQPHAQAPQVTVHVVNSAPLSVTTELPGRTSAFRVAEVRPQVSGIILKRNFVEGSDVEAGQSLYQIDPATYQAAWNSAKGDEAKAEAAAAIAHLTVKRYVPLLGTQYISQQEYDQAVATARQADADVIATKASVESARINLAYTKVTSPISGRIGKSSVTEGALVTNGQSDALATVQQLDPIYVDVTESSNDFMRLKQESLQRGGDTKSVELLMENGQAYPLKGSLQFSDVTVDESTGSITLRAIFPNPQHVLLPGMFVRARIDEGTDPQAILVPQQGVTRTPRGDASVMLVNDKNQVETRQVVASQAVGDKWLITSGLKPGDKVIVSGLQKVRPGVTVKAEVERAAPVAQ	PGPT0028925_89	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_AcrEF-TolC,PGPT0028925-acrE-K18141	NA	NA
BMS020_02158	3111	acrF_1	COG0841	Multidrug export protein AcrF	ATGTCTAAGTTTTTTATCCATCGACCGGTCTTTGCCTGGGTGCTGGCCATCATCATGATGATTGCCGGCGGTCTGGCCATTCTCCAGCTGCCGATAGCGCAGTATCCGACGATTGCGCCCCCTGCGGTGGCGATCTCCGCCACCTATCCCGGTGCGGATGCTCAGACCGTGCAGGACACGGTCACTCAGGTTATTGAGCAGAACATGAACGGTATCGACAACCTGATGTATATGTCGTCGACCAGCGATTCCGCCGGCTCAGTAACCATCACGCTTACCTTTAAGTCCGGCACCGATCCGGATATCGCCCAGGTGCAGGTGCAAAACAAACTGCAGCTGGCCACCCCGCTGCTGCCTCAGGAAGTCCAGCAGCAGGGAATTAGCGTAGAGAAGTCCAGCAGCAGCTTCCTGCTGGTGGCCGGCTTTATCTCTGATAACCCGGTCACCACCCAGGATGATATTTCCGACTATGTCGCCTCTAATGTTAAAGATCCCATCAGCCGACTCAACGGTGTGGGCGATGTACAGCTGTTCGGCGCGCAGTACGCTATGCGCATCTGGCTGGATGGCAACCTGCTGAACAAATACAACCTGACGCCGGTGGACGTCATCAATGTGCTGCAGGTTCAGAACGATCAGATTGCCGCCGGCCAGCTGGGCGGTACGCCAGCGCTGAAAGGCCAGCAGTTGAACGCGTCGATCATTGCCCAGACGCGGCTAAAAGATCCGCAGGAGTTTGGCAAGGTCACGCTGCGGGTCAATGCCGATGGTTCTGTCGTCCATTTGAAAGATGTCGCCCGCGTTGAGCTGGGCGGAGAGAACTACAATGTCGTCGCCAGAATTAACGGCAAGCCCGCCTCTGGTCTGGGTATTAAGCTCGCGACCGGCGCCAACGCGCTGGATACTGCCACCGCGATTAAAGCGAAGCTGGCCGAACTGCAGCCTTACTTCCCCCAGGGAATGAAGGTGGTCTATCCGTACGATACGACCCCTTTCGTCAAAATCTCTATTCACGAAGTGGTCAAAACGCTCTTTGAAGCGATTATTCTCGTCTTCCTTGTCATGTATCTGTTCCTGCAGAACATGCGCGCTACGCTCATTCCGACCATTGCCGTGCCCGTCGTGCTGTTGGGTACCTTCGCGGTACTGTCGATGTTTGGCTACTCCATCAACACCCTGACGATGTTTGGTATGGTGCTGGCGATAGGTCTGCTGGTCGATGACGCCATTGTGGTGGTGGAAAACGTCGAACGTGTGATGGTTGAGGAGAAGCTCTCGCCAAAAGAAGCGACGGAAAAGTCGATGTCGCAGATCCAGGGGGCGCTGGTGGGTATCGCCATGGTGCTCTCTGCGGTTTTCGTGCCGATGGCCTTCTTCGGCGGTTCCACCGGCGCGATTTATCGCCAGTTTTCGATCACCATCGTTTCCGCCATGGCGCTCTCCGTGCTGGTTGCCCTGGTGCTGACGCCAGCGCTCTGCGCCACGTTGTTGAAGCCAGCCTCAGCTGAACACCATGAGAAAAAAGGATTTTTCGGCTGGTTTAACGCCCGTTTTGACCAGAGCGTTAACCACTACACCAACAGCGTCAGCGGTATTTTGCGTGGAACCGGCCGTTACCTGGTGATCTATCTGCTGATCGTCGTGGGAATGGCCGTGCTGTTTATGCGTCTTCCGACATCCTTTCTACCCGATGAAGACCAGGGGGTCTTCCTGACCATGATCCAGCTGCCTTCCGGCGCTACCCAGGAGCGGACACAGAAAGTGCTGGATACCGTGACCGACTACTATCTGCATAACGAGAAGGCTAACGTCGAAAGCGTCTTTACCGTTAACGGCTTCAGCTTCAGCGGCCAGGGACAAAACTCCGGCATGGCGTTTGTCAGCCTGAAACCATGGGAAGCGCGCAGCGGTGATAAAAACAGCGTGGAGTCCATCATCAAGCGAGCCACCGTGGCCTTCAGCCAGATCAAAGACGCCATGGTTTTCCCGTTCAACATGCCTGCCATTATTGAGCTGGGTACCGCCACCGGCTTCGACTTTGAGCTGATCGACCAGGGCGGGCTAGGCCATACTGCCCTGACGCAGGCGCGCAATCAACTGCTGGGCATGGTGAAACAGCATCCGGATCAGCTGGTACGGGTACGGCCTAATGGGCTGGAAGATACGCCGCAGTTCAAACTGGATGTCGACCAGGAAAAAGCGCAGGCGCTGGGCGTATCGCTCTCCGATATCAATGAAACGATATCCGCTGCGCTGGGCGGGTACTACGTCAATGACTTTATTGACCGTGGTCGCGTCAAGAAAGTGTACGTCCAGGCTGATGCCCATTTCCGTATGCTGCCGAGCGACATTAACAATATGTATGTTCGTAGCGCCAATGGCGAAATGGTTCCGTTCTCCGCCTTCGTCACTTCGCGCTGGATATATGGCTCGCCGCGTCTGGAACGCTACAACGGTTTACCCTCCATGGAGATCCTCGGTGAAGCCTCGCCGGGCAAGAGTACCGGGGAAGCCATGGCGCTGATGGAAGCGCTGGCCAGTAAACTGCCGAGCGGTATTGGTTACGACTGGACCGGGATGTCTTACCAGGAACGCCTTTCCGGCAACCAGGCTCCCGCGCTCTATGCCATCTCGCTGATCGTCGTCTTCCTGTGCCTGGCGGCGCTGTATGAGAGCTGGTCGATTCCGTTCTCAGTCATGCTAGTGGTTCCGCTGGGTGTGATCGGCGCGCTGTTAGCCGCCACGCTGCGTGGGCTGAATAATGACGTTTACTTCCAGGTAGGCCTTCTGACCACGATCGGTTTGTCGGCGAAGAACGCGATCCTGATCGTCGAATTCGCCAAGGATCTGATGGAGAAAGAAGGGAAAGGGATCATTGAAGCAACCCTGGAGGCATCGCGGATGCGCCTGCGACCCATTCTGATGACCTCTCTGGCTTTTATTCTCGGGGTCATGCCGCTGGTGATTAGCCATGGTGCCGGCAGCGGGGCGCAGAATGCGGTGGGTACCGGTGTCATGGGCGGGATGCTAACCGCGACACTGCTGGCGATCTTCTTTGTTCCGGTCTTCTTTGTGGTCGTCAGACGACGTTTTACCCGGCACGCTGAATAA	MSKFFIHRPVFAWVLAIIMMIAGGLAILQLPIAQYPTIAPPAVAISATYPGADAQTVQDTVTQVIEQNMNGIDNLMYMSSTSDSAGSVTITLTFKSGTDPDIAQVQVQNKLQLATPLLPQEVQQQGISVEKSSSSFLLVAGFISDNPVTTQDDISDYVASNVKDPISRLNGVGDVQLFGAQYAMRIWLDGNLLNKYNLTPVDVINVLQVQNDQIAAGQLGGTPALKGQQLNASIIAQTRLKDPQEFGKVTLRVNADGSVVHLKDVARVELGGENYNVVARINGKPASGLGIKLATGANALDTATAIKAKLAELQPYFPQGMKVVYPYDTTPFVKISIHEVVKTLFEAIILVFLVMYLFLQNMRATLIPTIAVPVVLLGTFAVLSMFGYSINTLTMFGMVLAIGLLVDDAIVVVENVERVMVEEKLSPKEATEKSMSQIQGALVGIAMVLSAVFVPMAFFGGSTGAIYRQFSITIVSAMALSVLVALVLTPALCATLLKPASAEHHEKKGFFGWFNARFDQSVNHYTNSVSGILRGTGRYLVIYLLIVVGMAVLFMRLPTSFLPDEDQGVFLTMIQLPSGATQERTQKVLDTVTDYYLHNEKANVESVFTVNGFSFSGQGQNSGMAFVSLKPWEARSGDKNSVESIIKRATVAFSQIKDAMVFPFNMPAIIELGTATGFDFELIDQGGLGHTALTQARNQLLGMVKQHPDQLVRVRPNGLEDTPQFKLDVDQEKAQALGVSLSDINETISAALGGYYVNDFIDRGRVKKVYVQADAHFRMLPSDINNMYVRSANGEMVPFSAFVTSRWIYGSPRLERYNGLPSMEILGEASPGKSTGEAMALMEALASKLPSGIGYDWTGMSYQERLSGNQAPALYAISLIVVFLCLAALYESWSIPFSVMLVVPLGVIGALLAATLRGLNNDVYFQVGLLTTIGLSAKNAILIVEFAKDLMEKEGKGIIEATLEASRMRLRPILMTSLAFILGVMPLVISHGAGSGAQNAVGTGVMGGMLTATLLAIFFVPVFFVVVRRRFTRHAE	PGPT0029000_80	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_AcrEF-TolC,PGPT0029000-acrF-K18142	NA	NA
BMS020_02159	222			hypothetical protein	ATGAAAAAGTATTTAATCGTGGCGCTGCTGGCCTCTCTGCTGGCAGGCTGTGCCCATGACTCTCCCTGCGTGCCGGTGTATGACTCGCAAGGCCGCTTAGTCCACACCAATACCTGTATGAAAGGCACAACAGAAGACAACTGGGACACCGCAGGCGCGATCGCTGGGGGCGCCGCCGCGGTAGCCGGCCTCACGTTAGGGATCGTCGCGCTGACCCGCTAA	MKKYLIVALLASLLAGCAHDSPCVPVYDSQGRLVHTNTCMKGTTEDNWDTAGAIAGGAAAVAGLTLGIVALTR				NA	NA	NA	NA	NA
BMS020_02163	477			hypothetical protein	ATGAAACTGATCAGTCACGATCTCCAGGACGGCGGTAAGCTGCCTAATCGTCACGTCTTCAACGGCATGGGCTACGATGGCGACAATATTTCGCCGCATCTGATGTGGGATGATGTGCCCGCAGGAACCAAAAGCTTTGTGGTGACCTGCTACGATCCGGATGCGCCGACCGGCTCCGGCTGGTGGCACTGGGTGGTGGCTAACCTGCCTGCGGATACGCGCGTCCTGCCGCAGGGGGCCGGTTCCGGTCAGGCGGAGTTGCCGGAAGAGGCCGTTCAGACCCGCACCGATTTTGGCAAGGCGGGATACGGCGGCGCGGCGCCGCCGAAGGGCGAGACCCACCGCTATATCTTTACCGTCCACGCCCTGGACGTTGAGAAAATTGAGGTGGATGCCGAGGCCAGCGGCGCAATGGTCGGCTTTAACGTCCATTTCCATTCCCTCGCCAGCGCCTCCATCACCGCCCTGTTCAGTTAA	MKLISHDLQDGGKLPNRHVFNGMGYDGDNISPHLMWDDVPAGTKSFVVTCYDPDAPTGSGWWHWVVANLPADTRVLPQGAGSGQAELPEEAVQTRTDFGKAGYGGAAPPKGETHRYIFTVHALDVEKIEVDAEASGAMVGFNVHFHSLASASITALFS				NA	NA	NA	NA	NA
BMS020_02164	1308	bioA	COG0161	Adenosylmethionine-8-amino-7-oxononanoate aminotransferase	ATGGTTTACAAGTCGCTTATGACCCTGGACGATCTCGCCTTCGATCGGCGCCACATCTGGCACCCCTACACCTCTATGACTTCCCCCCTGCCGGTCTACCCGGTGGTTTCCGCCCACGGTTGCGAGCTGTCCCTCGCCGGCGGCGAACAGCTGATTGACGGTATGTCCTCCTGGTGGGCGGCGATCCACGGCTACAATCACCCGCGTCTTAATGCGGCGATGAAAGCGCAAATCGACCAGATGTCGCACGTGATGTTCGGCGGGATCACTCACCCCTCGGCGGTGGCGCTGTGTCGTCAGCTGGTGGCAATGACCCCGGAATCGCTGGAGTGCGTTTTCCTCGCCGACTCCGGTTCGGTAGCGGTTGAGGTGGCGATGAAAATGGCCCTGCAGTACTGGCAGGCGAAAGGCCAACCGCGTCGTCGTTTCCTGACCTTCCGCAACGGCTATCACGGCGATACCTTCGGCGCGATGTCGGTCTGCGATCCGCAGAACTCGATGCACAGCCTGTGGCAGGGCTATCTGCCGGATAACCTGTTCGCCCCCGCGCCACAGAGCCGCTTTGACGGCGAGTGGGATGAAATGGATATGGTGCCCTTTGCCCGCCTGATGGCCGCGCACCGTCACGACATCGCCGCGGTGATCCTCGAACCGATCGTTCAGGGCGCGGGCGGGATGCGGATGTACCATCCGGAGTGGCTGAAGCGGGTGCGTAAAATGTGCGACCGGGAAGGGATACTGCTGATCGCCGATGAGATTGCCACCGGCTTTGGCCGCACCGGCAAGCTGTTCGCCTGCGAGCACGCCGGTATCGCCGCCGATATTCTGTGTCTGGGCAAGGCGCTGACCGGCGGCACCATGACCCTCTCCGCCGCGCTGACCACCCGCGAGGTGGCGGAAACCATCAGCAACGGTGAAGCCGGCTGCTTTATGCACGGCCCAACCTTTATGGGCAACTCGCTGGCCTGCGCGGTGGCCAGCGAAAGCCTGCGCCTGCTGGAGAGCGGCGAATGGCAGCGGCAGGTGGCGGCGATTGAAGCCCAGCTGCAGACCGAGCTGGCTCCGGCGCGGGGATCCGCCCTGGTCGCCGACGTCCGCGTGCTGGGCGCTATTGGCGTGGTTGAAACCTGTCGCCCGGTCAATATGGCTGCCCTGCAGCGCTTTTTCGTCGAGCAGGGGGTGTGGATCCGACCGTTTGGCCGCCTGATCTACCTGATGCCGCCGTATATCATCACGCCTGAACAGCTGTCCCGCCTGACCCGCGCCGTTAACCTGGCGGTGCAGGACGAAACATTTTTTAGCGAATAA	MVYKSLMTLDDLAFDRRHIWHPYTSMTSPLPVYPVVSAHGCELSLAGGEQLIDGMSSWWAAIHGYNHPRLNAAMKAQIDQMSHVMFGGITHPSAVALCRQLVAMTPESLECVFLADSGSVAVEVAMKMALQYWQAKGQPRRRFLTFRNGYHGDTFGAMSVCDPQNSMHSLWQGYLPDNLFAPAPQSRFDGEWDEMDMVPFARLMAAHRHDIAAVILEPIVQGAGGMRMYHPEWLKRVRKMCDREGILLIADEIATGFGRTGKLFACEHAGIAADILCLGKALTGGTMTLSAALTTREVAETISNGEAGCFMHGPTFMGNSLACAVASESLRLLESGEWQRQVAAIEAQLQTELAPARGSALVADVRVLGAIGVVETCRPVNMAALQRFFVEQGVWIRPFGRLIYLMPPYIITPEQLSRLTRAVNLAVQDETFFSE	PGPT0022100_2000	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022100-bioA-K00833	NA	NA
BMS020_02165	1041	bioB	COG0502	Biotin synthase	ATGGCTCACCAACCCCGCTGGACAATGTCGCAAGTTACGGAATTATTTAATAAACCGCTGATCGACCTGTTATTCGAAGCGCAGCAAATCCACCGTCAACACTTTGATCCGCGCCAGGTGCAGGTCAGCACCCTGCTGTCGATCAAGACCGGCGCCTGCCCGGAAGATTGTAAATATTGTCCGCAGAGCGCGCGTTATAAAACGGGCCTCGAAACCGAGCGCCTGATGGAGGTCGAGCAGGTTCTGGAGTCCGCCCGTCAGGCAAAAAACGCCGGCTCCACGCGTTTTTGCATGGGAGCGGCGTGGAAAAACCCCCACGATCGCGATATGCCCTATCTGGAGCAGATGGTGAAAGGGGTGAAGGCTCTGGGGCTGGAGTCGTGCATGACGCTCGGCACTCTGACCGACAGCCAGGCGCAGCGCCTGGCCGAGGCGGGCCTCGATTACTACAACCACAACCTTGATACCTCGCCGGAATTTTACGGCAACATCATCACCACCCGCACCTACCAGGAGCGCCTGGATACCCTGGACAAAGTGCGTGACGCCGGGATCAAAGTCTGCTCCGGCGGTATCGTCGGGCTGGGGGAGACCGTGAAAGACCGCGCTGGCCTGCTGCTGCAGTTGGCCAACCTGCCCACGCCGCCGGAAAGCGTGCCCATCAACATGCTGGTAAAAGTCAAAGGTACGCCGCTGGCGGATAACGACGACGTCGACGCTTTCGATTTTATTCGCACTATCGCCATCGCGCGCATCATGATGCCCACCTCTTACGTGCGTCTCTCCGCCGGCCGCGAGCAGATGAACGAGCAGACCCAGGCGATGTGCTTTATGGCCGGGGCGAACTCCATTTTCTACGGCTGCAAGCTGCTGACCACGCCGAACCCGGAAGAGGACAACGATCTGCAGCTGTTCCGCAAGCTGGGGATCAACCCGCAGCAGACGGCGGTGCTGGAAGGCGACAATGAGCAGCAGCAGCGTCTGGAGCAGGCCTTACTCACCCCGGACACTGAGGAATATTACAACGCGGCGGCGCTATGA	MAHQPRWTMSQVTELFNKPLIDLLFEAQQIHRQHFDPRQVQVSTLLSIKTGACPEDCKYCPQSARYKTGLETERLMEVEQVLESARQAKNAGSTRFCMGAAWKNPHDRDMPYLEQMVKGVKALGLESCMTLGTLTDSQAQRLAEAGLDYYNHNLDTSPEFYGNIITTRTYQERLDTLDKVRDAGIKVCSGGIVGLGETVKDRAGLLLQLANLPTPPESVPINMLVKVKGTPLADNDDVDAFDFIRTIAIARIMMPTSYVRLSAGREQMNEQTQAMCFMAGANSIFYGCKLLTTPNPEEDNDLQLFRKLGINPQQTAVLEGDNEQQQRLEQALLTPDTEEYYNAAAL	PGPT0022120_1010	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022120-bioB-K01012	NA	NA
BMS020_02166	1158	bioF_1	COG0156	8-amino-7-oxononanoate synthase	ATGACCTGGCAGCAGCGAATCGATCGGGCGCTGGACGAGCGACGGACGGCGGATGCCCTTCGCCGCCGCCTGCCGGTGACGCACGGCGCCGGGCGCTGGCTGGAGCGGGAAGGGGAGCGCTGGCTTAACTTCTCCAGTAATGACTATCTCGGCCTGAGCCAGCATCCGGCGATTATCGCCGCCTGGCAGCAGGGGGCGGAACGTTATGGCGTCGGTTCCGGCGGCTCGGGACACGTAAGCGGCTATAGCGAGGCCCACCGTGCGCTGGAAGAGGAACTTGCCGACTGGCTGGGCTACCCGCGCGCATTGCTGTTTATCTCCGGCTTTGCCGCCAATCAGGCGCTGATCGCCGCCCTGGCGGATAAAGAGGATCGGATTGTGGCCGACCGCCTGAGCCACGCCTCCCTGCTGGAGGCGGCCAGTCTGAGCCCGGCGCAGCTACGCCGTTTCGGCCACAACGATCCGCAACAGCTCGCTCAACTGCTGGCTAAGCCGCTGGCGGGCGAACAGTTGGCGGTCACCGAAGGCATTTTCAGCATGGACGGCGACAGCGCGCCGCTGGCGGCCATTCACGCCGCGGCGCAGGCCGCCGGGGCGCTATTGCTGGTGGATGACGCCCACGGCGTCGGCGTGGTCGGCGACGAAGGACGCGGGAGCTGCGCCGCGCAGGCGGTGCGCCCTGAGCTGCTGGTGGTTACCTTCGGCAAGGCGTTCGGCGTCAGCGGCGCGGCGGTGCTGTGCGATGACGCGCTGGCCGATTATCTGCTGCAGTTTGCCCGTCATCTGATCTACAGCACCGCGATGCCGCCCGCCCAGGCGGTGGCGCTGAGCGCCGCGCTGCGGGTGATTCGCAGCGATGAAGGCCAGCGCCGCCGCGACACCCTGGCCGCCCGTATCCGTCAGTTCCGCGCGGGGATGGGCGAGACGTCGCTGGGTTTGACCGACTCCGTCAGCGCGATCCAGCCGCTGATCGTCGGCGATAACGGGCGGGCGCTGAGCCTGGCCAGCCGTCTGCGCGACGCGGGCTGCTGGGCAACGGCGATCCGTCCACCGACGGTGCCGGTCGGCAGCGCTCGTCTGCGCCTGACCCTGACCGCCGCCCATCAGGCTGAGGACATTAACCGTTTACTGGAGGTGCTGCATGGCCACGGTGAATAA	MTWQQRIDRALDERRTADALRRRLPVTHGAGRWLEREGERWLNFSSNDYLGLSQHPAIIAAWQQGAERYGVGSGGSGHVSGYSEAHRALEEELADWLGYPRALLFISGFAANQALIAALADKEDRIVADRLSHASLLEAASLSPAQLRRFGHNDPQQLAQLLAKPLAGEQLAVTEGIFSMDGDSAPLAAIHAAAQAAGALLLVDDAHGVGVVGDEGRGSCAAQAVRPELLVVTFGKAFGVSGAAVLCDDALADYLLQFARHLIYSTAMPPAQAVALSAALRVIRSDEGQRRRDTLAARIRQFRAGMGETSLGLTDSVSAIQPLIVGDNGRALSLASRLRDAGCWATAIRPPTVPVGSARLRLTLTAAHQAEDINRLLEVLHGHGE	PGPT0022095_2737	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022095-bioF-K00652	NA	NA
BMS020_02167	756	bioC_1	COG0500	Malonyl-[acyl-carrier protein] O-methyltransferase	ATGGCCACGGTGAATAAGCAGGCGGTCGCCGCGGCGTTTGGCCGGGCGGCCAGCGGCTATTCGCAACATGATGAACTGCAGCGGCGCAGCGCGGAACTGCTGCTGCGCCAGCTGGCGCATCGCGATTTTCCCCGGGTGCTGGATGCCGGCTGCGGCCCAGGCAGCATGAGCCGCCGCTGGCGTGAGGCGGGCAGCGTGGTGACCGCGCTGGATCTCTCCCCCGGGATGCTGGCCCAGGCGCAGCGTAACGACGCCGCCCAGCATTACCTGCTGGGCGACATTGAGGCGCTGCCGCTGCCCGATGCCTGCGTCGATCTGGCGTGGAGCAATCTGGCGGTGCAGTGGTGCGACGATCTGCGCGCAGCCCTTGGCGAGCTGTACCGGGTGGTGCGTCCCGGCGGCAGCGTGGCGTTTAGCACGCTGCTGGCCGACTCGCTGCCGGAGCTCAATCAGGCGTGGCAGGCCATTGACGACCGGCCGCATGCCAACCGTTTTCTCAGCGAAGCGGCGGTGCGCGAGGCGCTGAGCGGCCTGCGGGCGTCCGGCGAGGTGCATCAGATTAGCCTGCCGTTCGTCGATGCGCTGAGCGCCATGCGATCGCTGAAGGGCATCGGCGCCACCCATTTGCACCAGGGGCGGGCATCGGCCCCGCTTAGCCGCAGCAAACTGCGCGAGCTACAGCTGGCCTGGCCGCAGCGGCAGGGCGTCTGCCCGCTGACGTATTCTCTTTTTACAGGAGTCATTGAGCGTGACTAA	MATVNKQAVAAAFGRAASGYSQHDELQRRSAELLLRQLAHRDFPRVLDAGCGPGSMSRRWREAGSVVTALDLSPGMLAQAQRNDAAQHYLLGDIEALPLPDACVDLAWSNLAVQWCDDLRAALGELYRVVRPGGSVAFSTLLADSLPELNQAWQAIDDRPHANRFLSEAAVREALSGLRASGEVHQISLPFVDALSAMRSLKGIGATHLHQGRASAPLSRSKLRELQLAWPQRQGVCPLTYSLFTGVIERD	PGPT0022060_1704	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022060-bioC-K02169	NA	NA
BMS020_02168	723	bioD1_2	COG0132	ATP-dependent dethiobiotin synthetase BioD 1	GTGACTAAACGTTTTTTTGTCACCGGGACCGACACTGAAGTCGGGAAAACCATCGCCAGCAGCGCCCTGCTGCAGGCGGCGAATCAGCTGGGTTTTCACACCGCCGGCTACAAGCCGGTGGCTTCCGGCAGCGAGCTTACCGCCGCCGGGCTGCGTAATGAAGACGCGCTGGCGCTGCAGCGTCATAGCCGGGTCGCGCTGCGCTATGAGCAGGTTAACCCGTATACCTTCGCCGAGCCGACCTCACCGCATATCATCAGCGCCGACGAAGGACGGCCGATCGCCGCGGCGAGGCTCTCCAGCGGGCTGCGCGAGTTAGAACGCCTCGCCGACTGGGTGCTGGTGGAAGGGGCCGGCGGCTGGTTTACGCCGCTTTCGGAAACCCTGACCTTCGCCGACTGGGCGCAGGCGGAGCAGCTGCCGGTGATTCTGGTGGTGGGCGTCAAGCTCGGCTGCATCAACCACGCGATGCTTACCGTCCAGGCGGTACGCCAGGCGGGGCTGCCGCTCGCGGGGTGGATCGCCAATGACGTGCTGCCGCCGGGCAAGCGCCACGCCGAGTATCTGGCGACGCTGAAAAACCGGCTGGCCGCGCCGTTCCTCGGTGAAATACCGTGGCTTGCCGATATCGCGCAGCGCGACGATCTCGGCCAGTATCTGGACCTCAGGGCGCTGGATCCGGCGTCATCCACTGCGCCAGCAGCGGTTCATCCAGCGCCATAA	MTKRFFVTGTDTEVGKTIASSALLQAANQLGFHTAGYKPVASGSELTAAGLRNEDALALQRHSRVALRYEQVNPYTFAEPTSPHIISADEGRPIAAARLSSGLRELERLADWVLVEGAGGWFTPLSETLTFADWAQAEQLPVILVVGVKLGCINHAMLTVQAVRQAGLPLAGWIANDVLPPGKRHAEYLATLKNRLAAPFLGEIPWLADIAQRDDLGQYLDLRALDPASSTAPAAVHPAP	PGPT0022115_537	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022115-bioD-K01935	NA	NA
BMS020_02169	723	livF_4	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGTTGAATTTACAGGCAGTAAATCACTTTTACGGCAACCAGCATTCGCTGTGGAATGTCGATCTTGAACTACGCCCGGGGGAGTGCATTGGCGTACTGGGACGCGAGGGCATGGGAAAAACCACCCTGGTTAACTGCATTGCCGGGCACCTGCCGGTGGCCAGCGGCCGGATGACCTGGCATGACATTGGCGCCCCGCCGCAGGATCTCACCCCCCTGTCGGCCCAGTCGCGCAGCGCCATCGGTATCGGCTATGTGCCGCAGGATAAACGCATCTTCTCCCAGCTCAGCGTGGAAGAGAATCTACATATTGCCCTCGCGGCCGGGAAACCCGGGGCTAACGCCAGCGGCGGCGAAATCTATGAACATTTTCCCGAACTCTATGCCCTACGGCAGCGCAAAGGCGCCTCGCTGAGCGACGACGATCAGTACCAGCTGGCGCTGGCCAGGGCGCTGATTGTCCAGCCGCGGCTGCTGATCCTTGATGAACCCTCGCGCGGCAGAGGGCCGCGCTGTCTGCAAAAGCTGGCGGATCTGCTGCTGCGGTTGAATCGCGATATCGGCCTGACGGTGCTGCTCGCCGAGCAGCACCTGCCCTTTATCCGCCGGGTGGCGGATCGTTTCTGTGTTTTGCACCGGGGCCGTAACGTCGCCGAAGGCGATATTATGGCGCTGGATGAACCGCTGCTGGCGCAGTGGATGACGCCGGATCCAGCGCCCTGA	MLNLQAVNHFYGNQHSLWNVDLELRPGECIGVLGREGMGKTTLVNCIAGHLPVASGRMTWHDIGAPPQDLTPLSAQSRSAIGIGYVPQDKRIFSQLSVEENLHIALAAGKPGANASGGEIYEHFPELYALRQRKGASLSDDDQYQLALARALIVQPRLLILDEPSRGRGPRCLQKLADLLLRLNRDIGLTVLLAEQHLPFIRRVADRFCVLHRGRNVAEGDIMALDEPLLAQWMTPDPAP	PGPT0000945_107	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000945-urtE-K11963	NA	NA
BMS020_02170	2022	uvrB_1	COG0556	UvrABC system protein B	ATGAGTAAATCGTTTGTTCTGCATTCCGCCTTTCGCCCCTCCGGAGACCAACCGGAAGCCATCCGCCGCCTGGAAGAGGGGCTGGAGGATGGGCTCGCGCATCAAACGCTGCTGGGGGTCACCGGCTCCGGTAAAACCTTTACCATCGCCAATGTGATTGCCGATCTGCAGCGGCCGACGATGGTGCTGGCGCCAAACAAAACCCTGGCGGCCCAGCTCTACGGCGAGATGAAAGAATTTTTCCCCGAGAATGCCGTCGAGTATTTCGTCTCCTACTACGATTACTACCAGCCGGAAGCCTACGTCCCCAGCTCAGATACCTTCATTGAGAAGGACGCCTCGGTAAACGAACATATCGAGCAGATGCGCCTGTCGGCCACTAAAGCGCTGCTCGAGCGGCGCGATGTGGTGGTGGTGGCCTCGGTCTCGGCTATCTACGGCCTCGGCGACCCGGACCTGTATCTGAAAATGATGTTGCATCTGACGGTGGGGATGCTGATTGACCAGCGGGCGATCCTGCGCCGCCTGGCCGAGCTGCAGTATACCCGCAACGATCAGGCCTTCCAGCGCGGCACCTTCCGCGTGCGCGGCGAGGTGATCGACGTCTTCCCGGCGGAATCCGACGATATCGCCCTGCGCATTGAGCTGTTTGACGAAGAGGTTGAGCGCCTGTCGCTGTTCGACCCGCTTACCGGCCATGTGGAATCGACGGTGCCGCGCTACACCATTTATCCTAAGACGCACTACGTGACGCCGCGGGAACGCATCGTCCAGGCGATGGAAGAGATTAAGCTGGAGCTGGCGGAGCGGCGCAAGGTGCTGCTGGCCAACAACAAGCTGCTGGAAGAGCAGCGCTTAACCCAGCGCACCCAGTTCGACCTCGAAATGATGAACGAGCTGGGCTACTGCTCGGGCATTGAAAACTACTCGCGCTTCCTCTCCGGGCGCGGGCCCGGCGAGCCGCCGCCCACCCTGTTCGACTACCTGCCGGCAGACGGCCTGCTGGTGATCGACGAATCCCACGTCACGGTGCCGCAGATCGGCGGCATGTACCGCGGCGACCGGGCGCGCAAAGAGACGCTGGTGGAGTACGGCTTCCGCCTGCCGTCGGCGCTGGATAACCGGCCGATGAAGTTTGAAGAATTCGAAGCGCTGGCGCCGCAAACCATCTACGTGTCGGCGACCCCCGGCGCCTACGAGCTGGATAAATCCGGCGGCGAGGTGGTGGATCAGGTGGTGCGTCCGACCGGTCTGCTGGACCCGATCATCGAAGTGCGGCCGGTGGCCACCCAGGTCGACGACCTGCTGTCGGAGATCCGCCTGCGCACGGCCATCAACGAGCGCGTGCTGGTCACCACCCTCACCAAGCGGATGGCGGAAGACTTAACCGAGTACCTTGAGGAGCACGGCGAGCGGGTGCGCTATCTGCACTCGGATATCGACACCGTCGAACGTATGGAGATTATCCGCGACCTGCGTCTTGGCGAGTTTGACGTGCTGGTGGGGATCAACCTGCTGCGTGAGGGGCTGGATATGCCGGAGGTGTCGCTGGTGGCGATCCTCGATGCGGACAAAGAGGGCTTCCTGCGCTCCGAACGCTCGCTGATCCAGACCATCGGCCGCGCGGCGCGCAACGTCAACGGCAAGGCTATTCTGTACGGCGATAAGATCACTCCCTCGATGGCGAAAGCCATCGGCGAGACGGAGCGGCGACGGGAGAAACAGCAGCGCTACAACGAAGAGCATGGCATCGTGCCGCAGGGGCTCAACAAGAAAGTGGTGGATATCCTGCAGCTGGGCCAGAGCCTGGCGAAAACCAAAGCCAAAGGACGCGGTAAAGCGAAGGTCGTCGAGCCTGCCGGGCTCAGCGGCGTGGATATGACGCCAAAAGCGCTGCAGCAGAAAATCCACGAGCTGGAAGGGCAGATGATGCAGCACGCGCAGAACCTCGAGTTCGAAGAGGCGGCGCAAATTCGCGACCAGCTGCATCAACTGCGTGAACTGTTTATTGCTGCCTCCTGA	MSKSFVLHSAFRPSGDQPEAIRRLEEGLEDGLAHQTLLGVTGSGKTFTIANVIADLQRPTMVLAPNKTLAAQLYGEMKEFFPENAVEYFVSYYDYYQPEAYVPSSDTFIEKDASVNEHIEQMRLSATKALLERRDVVVVASVSAIYGLGDPDLYLKMMLHLTVGMLIDQRAILRRLAELQYTRNDQAFQRGTFRVRGEVIDVFPAESDDIALRIELFDEEVERLSLFDPLTGHVESTVPRYTIYPKTHYVTPRERIVQAMEEIKLELAERRKVLLANNKLLEEQRLTQRTQFDLEMMNELGYCSGIENYSRFLSGRGPGEPPPTLFDYLPADGLLVIDESHVTVPQIGGMYRGDRARKETLVEYGFRLPSALDNRPMKFEEFEALAPQTIYVSATPGAYELDKSGGEVVDQVVRPTGLLDPIIEVRPVATQVDDLLSEIRLRTAINERVLVTTLTKRMAEDLTEYLEEHGERVRYLHSDIDTVERMEIIRDLRLGEFDVLVGINLLREGLDMPEVSLVAILDADKEGFLRSERSLIQTIGRAARNVNGKAILYGDKITPSMAKAIGETERRREKQQRYNEEHGIVPQGLNKKVVDILQLGQSLAKTKAKGRGKAKVVEPAGLSGVDMTPKALQQKIHELEGQMMQHAQNLEFEEAAQIRDQLHQLRELFIAAS	PGPT0014920_2577	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014920-uvrB-K03702	NA	NA
BMS020_02171	93			hypothetical protein	ATGCAAAAAATCAACTTCCGTGAATATCTGGCGGTCGCCACCGCCCTGGTCATTATTGTTGCCTTCTTCCATCAGTGGGTGCTGACGTTCTGA	MQKINFREYLAVATALVIIVAFFHQWVLTF				NA	NA	NA	NA	NA
BMS020_02172	1098	basS		Sensor protein BasS	ATGGCTCTGTTTGCAACCGAAAACTGGACCATGCGCCACCGGCTGCTGTTGACCATCGGCGCCATTCTGGTGGTCTGTCAGCTGATCAGCGTCTTCTGGCTATGGCATGAGAGCAAAGAGCAGATCCAGTTGCTGGTGGCCAGCGCCATCGAAGGGCACAACAATCAGAAGCATGTGGAGCATGAGGTAAGGGAAGCGGTCGCCAGCCTGCTGGTGCCGAGCCTGCTGATCGTGGGTCTGGCGCTGTACATCAGCATGCTGGCGGTACGCAAAATCACCCGCCCGCTTTCACGTCTGCAAAGCGAGCTGGAGAGTCGCACGCCGGACAACCTCACCCCCATCGTGCTCAGCGAATCGGTACCCGAGGTGACGGCGGTGACCACCGCCCTGAATCAGCTGGTTTCCCGCCTCAATCTGACCCTTGACCGCGAACGGCTGTTTACCGCCGACGTGGCGCACGAGCTGCGCACCCCGCTGGCCGGGCTGCGGCTGCACCTTGAGCTGCTGGCGAAAGTGCATGGCATGGGCGTCGACCCGCTGATCCAGCGCCTCGACCAGATGACCACCAGCATTTCGCAGCTGCTGCAGCTGGCGCGCGTCGGTCAGTCCTTTTCCGCCGGCAGCTATCAGCAGGTGCTGCTGCTGGATGACGTGGTCAAACCGCTGCAGGATGAGCTGGAGACCATGCTGGCCGAGCGCCAGCAACGGCTGCTGCTGACGGATGTCGAAAGCGAGGCCGTCGTCTCTGGCGACGCGACGCTCATCCGCGTCATTCTGCGCAATCTGGTGGAGAATGCCCATCGCTACAGCCCGCAAGGGTCGACGATCCGCGTGTCGGTGAAAGCGGGTCTGATGCCAGTGATGGCAGTGGAAGATGAAGGACCGGGAATTGATGAGGCGAAAAGCGGCGAACTCAGTAAGGCCTTTGTACGCATGGACAGTCGCTACGGCGGCATAGGGCTCGGACTGAGCATCGTCACGCGCATCGCTCAGCTGCATGACGCCCAGTTCTTTTTGCATAACCGCCAGCCGGGGCCAGGGGTCCGCGCGTGGGTGTTATTCCCGCGGCGTGCGGGTCAGAACGTCAGCACCCACTGA	MALFATENWTMRHRLLLTIGAILVVCQLISVFWLWHESKEQIQLLVASAIEGHNNQKHVEHEVREAVASLLVPSLLIVGLALYISMLAVRKITRPLSRLQSELESRTPDNLTPIVLSESVPEVTAVTTALNQLVSRLNLTLDRERLFTADVAHELRTPLAGLRLHLELLAKVHGMGVDPLIQRLDQMTTSISQLLQLARVGQSFSAGSYQQVLLLDDVVKPLQDELETMLAERQQRLLLTDVESEAVVSGDATLIRVILRNLVENAHRYSPQGSTIRVSVKAGLMPVMAVEDEGPGIDEAKSGELSKAFVRMDSRYGGIGLGLSIVTRIAQLHDAQFFLHNRQPGPGVRAWVLFPRRAGQNVSTH	PGPT0022447_35	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0022447-basS-K07643	NA	NA
BMS020_02173	672	basR		Transcriptional regulatory protein BasR	ATGAAAATCTTAGTCATTGAAGACGATGCGCTGCTGTTGCAGGGGTTAATCCTGGCGATGCAAAGTGAAGGATACGTGTGCGACGGCGTCTCCACAGCGCACGAAGCGGCGCTGTCGCTGGCCAGCAATCACTATAGCCTGATCGTGCTCGATCTTGGCCTGCCGGACGAAGACGGCCTGCATTTTCTCGCCCGCATGCGACGGGAGAAAATGACCCAGCCGGTGCTGATCCTCACCGCCCGCGATACCCTTGAGGATCGCATTAGCGGTCTCGACACCGGCGCGGATGACTATCTGGTGAAACCCTTTGCCCTGGAAGAGCTGAACGCGCGCATTCGCGCCCTGCTCCGTCGGCATAATAATCAGGGCGATAACGAAATCAGCGTCGGCGACCTGCGCCTCAACGTCACCCGTCGCCAGGTGTGGCTCGGTGAGACGGCGCTGGATCTGACGCCGAAGGAGTATGCCCTGCTATCGCGACTGATGATGAAAGCCGGCAGCCCGGTACATCGCGAGATCCTCTACAACGATATCTACAGCTGGGACAATGAGCCAGCGACCAATACCCTGGAAGTGCACATCCACAACCTGCGCGATAAGATTGGCAAATCGCGGATCCGCACCGTCAGGGGCTTCGGCTATATGCTGGCTAACCACAACGAGACGGAATAG	MKILVIEDDALLLQGLILAMQSEGYVCDGVSTAHEAALSLASNHYSLIVLDLGLPDEDGLHFLARMRREKMTQPVLILTARDTLEDRISGLDTGADDYLVKPFALEELNARIRALLRRHNNQGDNEISVGDLRLNVTRRQVWLGETALDLTPKEYALLSRLMMKAGSPVHREILYNDIYSWDNEPATNTLEVHIHNLRDKIGKSRIRTVRGFGYMLANHNETE	PGPT0022440_36	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0022440-basR-K07771	NA	NA
BMS020_02174	1641	eptA_1	COG2194	Phosphoethanolamine transferase EptA	ATGTCGTTATTGCCTCTGCGTCGGCCGGTCGTCAGCCGCACGACTTATCTGATTATTTTCGCGGTCTATATCGGGCTTTTTCTTAACCTCGCCTTCTACCGCCAGGCGTATACGCTGCTGCCGGTGAACAACCTGCACACCGCGCTGGTGTTTCTGAGTATGCCGCTGGTGGCATTCAGCGTGATGAATATCCTCACCACCCTCGCCTCGTTCCTCAAGCTTGACCGGCTGGTGATTAGCCTTTTTATTCTGCTCAGCGCATCGGCGCAGTACTTCATCTGGAGCTTCGGCGTGGTGATCGACCGCAGCATGATCACCAACATCCTCGACACCACCCCAGCGGAGAGCTTTGCCCTGCTCTCCGGCGAAATGATCGTTGTCCTTGGCCTCTCCGGGGTGCTGGCGGTGCTGGTCGCCTGGTGGGTTAAAATTCGTAAACCGGCCACGCTATGGCGCGGCGTGGCCTGGCGCCTGGTGAATATGGTGGCCTCCGCGCTGCTGATCGTCCTGATTGCCGTCCTCTTTTATAAAGACTATGCCTCGCTGTTTCGCAACAACAAGGAGCTGGTGAAATCCCTGAGCCCCTCCAACAGCATTGTGGCGGTGAACTCCTGGTATGCGCACCATCGCATGGACAACCTGCCGCTGGTGAAGATTGGCGAAGATGCCAAACAGAACCCGGTGATGCATAACGGTCCCCGTAAGAACCTGACGATTGTGGTGCTGGGCGAAACTTCCCGGGCGGACAACTTCTCGCTGGGCGGATATCCGCGCGACACCAACCCGCTGATGCAACAGGACGGGGTGATCTACTTCCCGCACACCACCTCCTGCGGAACCGCCACGGCGGTCTCGGTGCCGTGCATGTTCTCCAATATGCCGCGCGCGCACTATGACGAAGAGCTGGCCCATCATCAGGAAGGGGTGCTGGATATTCTGCAGCGCGCCGGCATTCAGGTGCTGTGGAACGACAACGATGGCGGCTGTAAGGGGGCCTGCGATCGGGTACCGCACCAGAACGTGACCGATCTGAAGCTAACCGGGCAGTGCATCGACGGCGAGTGCTACGATGACGTGCTGTTCCATCATCTCGACAGCTATATCGATAACCTGCAACAGGATGGCATTATTGTGCTGCATACCATCGGCAGCCATGGGCCGACGTACTACAATCGCTATCCGGCTGAATTCAAAAAATTCACCCCAACCTGCGACACCAATGAGATCCAGGGCTGTACCCGGGAGCAGTTGACCAACACGTATGACAACACCATCCTCTACGTCGACCACGTGGTGGATAAAGCGATAAAACTCCTGCAGGCGAAACAGGACAAATTCACTACCAGCCTGGTCTATCTTTCCGACCACGGCGAGTCGTTAGGGGAAGATGGGGTCTATTTGCATGGTCTGCCGTACTCTGTCGCGCCGGATACGCAGAAACACGTGCCGATGGTGATGTGGCTCTCTGCCGACTACCAGCAACGCTACGGCATTTCCGCGCAGTGTCTGCAGCAGCGAGCGAAAAAAGAGAATTACTCGCAGGATAATCTGTTCTCCACCCTGCTCGGCCTGCTCGGCGTCAGCACCCACGAGTACCAGGCGGCAGATGATATTTTAACGCCATGTAGAGAGGCTGGTTGA	MSLLPLRRPVVSRTTYLIIFAVYIGLFLNLAFYRQAYTLLPVNNLHTALVFLSMPLVAFSVMNILTTLASFLKLDRLVISLFILLSASAQYFIWSFGVVIDRSMITNILDTTPAESFALLSGEMIVVLGLSGVLAVLVAWWVKIRKPATLWRGVAWRLVNMVASALLIVLIAVLFYKDYASLFRNNKELVKSLSPSNSIVAVNSWYAHHRMDNLPLVKIGEDAKQNPVMHNGPRKNLTIVVLGETSRADNFSLGGYPRDTNPLMQQDGVIYFPHTTSCGTATAVSVPCMFSNMPRAHYDEELAHHQEGVLDILQRAGIQVLWNDNDGGCKGACDRVPHQNVTDLKLTGQCIDGECYDDVLFHHLDSYIDNLQQDGIIVLHTIGSHGPTYYNRYPAEFKKFTPTCDTNEIQGCTREQLTNTYDNTILYVDHVVDKAIKLLQAKQDKFTTSLVYLSDHGESLGEDGVYLHGLPYSVAPDTQKHVPMVMWLSADYQQRYGISAQCLQQRAKKENYSQDNLFSTLLGLLGVSTHEYQAADDILTPCREAG	PGPT0022420_602	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0022420-eptA-K03760	NA	NA
BMS020_02175	906	ybhK	COG0391	Putative gluconeogenesis factor	ATGCGCAATCGTACATTCGCTGACCTGGATCGGGTGGTGGCGCTCGGCGGCGGGCATGGTCTGGGTCGGGTGATGTCCTCCCTCTCCTCGCTGGGCTCACGGCTGACCGGCATTGTGACCACCACCGACAACGGGGGATCCACCGGGCGGATCCGCCGCTCGGAAGGCGGCATTGCCTGGGGCGATATGCGCAACTGCATCAATCAGTTAATCGCCGAGCCGAGCGTGGCGTCGGCGATGTTTGAGTACCGTTTTAGCGGCAATGGCGAGCTTTCCGGCCATAACCTGGGAAATCTGATGTTAAAGGCGCTGGATCACCTCAGCGTGCGGCCGTTAGAAGCGATCAATTTGATCAGAAACCTGCTCAAAGTGGACGCTTTTCTTATTCCGATGTCGGAACAACCGGTGGATTTAATGGCGCTCGATCATGAAGGCCATGAAGTATACGGTGAAGTGAATATCGATCAGCTGGATAGCGTGCCGCAGGAGCTGATGCTCACCCCGCCGGTACCGGCCACCCGCGAGGCGGTAGAGGCCATCGCCGAAGCCGATCTGATCCTCATCGGCCCGGGCAGTTTCTATACCAGCCTGCTGCCGATCCTGCTGCTTGACGAGATGGCCCAGGCGCTGCGCCGCACTCCGGCGCCGATGGTGTTTATTGATAACCTCGGCAAAGAGCACAGCCCGGCCGCGAGGCTCTCGCTGGCGGAGCGCATCGCGATTATGGAGCGCTACGTGGGCAAGCGGGTGGTGGATGCAGTCATCGCCGGCCCAAAAGCCGATATCAGCGGCATCGACGACCGGCTGGTGATCCAGTCGCCGCTGGAAGCCAGCGACGTGCCCTATCGCCATGACCGGGCGCTGCTTCGCGGGGCGCTGGAGAAAGCGCTCCAGCTGCCGGGCTGA	MRNRTFADLDRVVALGGGHGLGRVMSSLSSLGSRLTGIVTTTDNGGSTGRIRRSEGGIAWGDMRNCINQLIAEPSVASAMFEYRFSGNGELSGHNLGNLMLKALDHLSVRPLEAINLIRNLLKVDAFLIPMSEQPVDLMALDHEGHEVYGEVNIDQLDSVPQELMLTPPVPATREAVEAIAEADLILIGPGSFYTSLLPILLLDEMAQALRRTPAPMVFIDNLGKEHSPAARLSLAERIAIMERYVGKRVVDAVIAGPKADISGIDDRLVIQSPLEASDVPYRHDRALLRGALEKALQLPG				NA	NA	NA	NA	NA
BMS020_02177	990	moaA_1	COG2896	GTP 3',8-cyclase	ATGGCCTCACAGCTTACCGATGCATTCGCGCGTAAGTTTTATTACCTGCGTCTGTCGATTACCGATGTGTGCAATTTCCGTTGCACCTACTGCCTGCCGGATGGCTACAAGCCCGGCGCCGTCAATAACAACGGCTTTCTCAGCGTAGACGAAGTGCGCCGGGTTACGCGCGCTTTCTCCGCGCTGGGCACTGAAAAAGTTCGCCTCACCGGTGGGGAACCCTCCCTGCGCCGTGACTTCACCGAGATCATCGCCGCCGTGCGTGAAAACCCGGCGATCCGTCAGATTGCCGTCACCACCAACGGTTACCGCCTGGCGCGCGATGTCGAACGCTGGCGCGATGCCGGGCTGACGGCGATCAACGTCAGTGTCGATAGCCTCGACGCCCGCCAGTTCCATGCCATCACGGGCCAGGACAAATTCCACCAGGTGATGGACGGGATTGACGCCGCTTTCGCCGCGGGCTTTGACAAGGTGAAGGTGAATACCGTGCTGATGCGCGATGTTAACCATCACCAGCTTGATATCTTCCTCGCGTGGATCCAGCCGCGTCGAATTCAGCTGCGGTTTATTGAGCTGATGGAAACCGGCGAGGGCAGCGACCTGTTCCGCCGTCACCATCTCTCCGGCATGGTGCTGCGCGACGAGCTGCTGCGCCGCGGCTGGATCCACCAGATCCGCCAGCGCAGCGATGGTCCGGCGCAGGTCTTTTGTCATCCGGATTACGCCGGCGAGATCGGCCTCATCATGCCGTACGAAAAAGACTTCTGCGCCACCTGCAACCGTCTGCGCGTCTCCTCCGTCGGCAAACTGCACCTGTGCCTGTTTGGCGAAGGCGGCGTCGACCTGCGCGACCTGATGGCCGATGATCGGCAGCAGGCGGCGCTGGAAGCGCGGATCGCCGAAGCCTTAACCCACAAAAAGCAGACCCATTTCCTGCATCAGGGCAACACCGGCATTACGCAGAACCTGTCCTATATTGGCGGATAA	MASQLTDAFARKFYYLRLSITDVCNFRCTYCLPDGYKPGAVNNNGFLSVDEVRRVTRAFSALGTEKVRLTGGEPSLRRDFTEIIAAVRENPAIRQIAVTTNGYRLARDVERWRDAGLTAINVSVDSLDARQFHAITGQDKFHQVMDGIDAAFAAGFDKVKVNTVLMRDVNHHQLDIFLAWIQPRRIQLRFIELMETGEGSDLFRRHHLSGMVLRDELLRRGWIHQIRQRSDGPAQVFCHPDYAGEIGLIMPYEKDFCATCNRLRVSSVGKLHLCLFGEGGVDLRDLMADDRQQAALEARIAEALTHKKQTHFLHQGNTGITQNLSYIGG	PGPT0008410_3147	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639	NA	NA
BMS020_02178	513	moaB_1	COG0521	Molybdenum cofactor biosynthesis protein B	ATGAGCCAGGCTAGCGCTGAGTTTATTCCGACCCGTATTGCTATTCTTACCGTTTCCAGTCGTCGCGGCGAAGAGGACGACACTTCCGGCCACTGGCTGCGTGAGGCGGCGCAGGAGGCGGGGCACCATGTCGTCGATAAGGCGATAGTCAAAGAGAACCGCTACGCCATCCGCGCCCAGGTATCGGCGTGGATCGCCAGCGATGAGGTGCAGGTGGTGCTGATCACCGGCGGGACCGGGTTCACCGAAGGGGACCAGGCGCCGGAAGCGCTGCTGCCGCTGTTTGACCGTGAGGTGGAAGGTTTTGGCGAAGTGTTCCGCATGCTGTCGTTCGAAGAGATCGGCACCTCGACGCTGCAGTCCCGGGCGGTGGCCGGCGTCGCCAACCACACGCTGATCTTCGCCATGCCGGGCTCGACGAAAGCCTGCCGCACCGCGTGGGACAACATTATTGCCCCGCAGCTGGATGCCCGCACCCGTCCTTGTAATTTTATTCCTCACCTGAAGAAATAA	MSQASAEFIPTRIAILTVSSRRGEEDDTSGHWLREAAQEAGHHVVDKAIVKENRYAIRAQVSAWIASDEVQVVLITGGTGFTEGDQAPEALLPLFDREVEGFGEVFRMLSFEEIGTSTLQSRAVAGVANHTLIFAMPGSTKACRTAWDNIIAPQLDARTRPCNFIPHLKK	PGPT0008420_1333	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008420-moaB-K03638	NA	NA
BMS020_02179	489	moaC_1	COG0315	Cyclic pyranopterin monophosphate synthase	ATGTCACAACTGACCCATATTAACGCCGCGGGCGAAGCCCATATGGTGGATGTCTCCGGCAAAGCGGAAACGGTGCGCGAAGCGCGCGCCGAGGCTTATGTCGAGATGCAGGCGACGACCCTGGCGATGATTATCGACGGCAGCCACCATAAAGGCGACGTTTTCGCCACTGCGCGTATCGCCGGGATCCAGGCGGCCAAGCGCACCTGGGAGCTGATCCCGCTGTGCCATCCGCTGATGCTCAGCAAAGTGGAAGTCAATCTGCAGGCGCAGCCGGAACATAACCGGGTGCGCATCGAATCGCTCTGCCGCCTGACCGGCAAAACCGGCGTCGAGATGGAAGCCCTTACCGCCGCCTCGGTTGCCGCGCTGACCATTTACGATATGTGCAAAGCGGTGCAGAAGGATATGGTGATTGGCCCGGTGCGTCTGCTGGCGAAAAGCGGCGGCAAGTCCGGCGATTTTAAGGTGGACGAACGCCATGATTAA	MSQLTHINAAGEAHMVDVSGKAETVREARAEAYVEMQATTLAMIIDGSHHKGDVFATARIAGIQAAKRTWELIPLCHPLMLSKVEVNLQAQPEHNRVRIESLCRLTGKTGVEMEALTAASVAALTIYDMCKAVQKDMVIGPVRLLAKSGGKSGDFKVDERHD	PGPT0008405_1592	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008405-moaC_-K03637	NA	NA
BMS020_02180	249	moaD	COG1977	Molybdopterin synthase sulfur carrier subunit	ATGATTAAGGTTCTGTTTTTTGCCCAGGTGCGCGAGCTGGTGGGTACTGATTCGCTGACTCTCGACGCCAGCGACCTGGCCACCGTTGAGGCTGTGCGTCAGCAGCTTGCCGCTCGCGGCGATCGCTGGGCGCTGGCCCTGGAGGAGGGCAAACTGCTGGCGGCGGTTAACCAGACGCTGACCGCCTTTGACCATCCTGTCGCCAGCGGGGATGAAGTGGCGTTCTTCCCGCCGGTCACCGGAGGCTGA	MIKVLFFAQVRELVGTDSLTLDASDLATVEAVRQQLAARGDRWALALEEGKLLAAVNQTLTAFDHPVASGDEVAFFPPVTGG	PGPT0008405_223	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008405-moaC_-K03637	NA	NA
BMS020_02181	453	moaE	COG0314	Molybdopterin synthase catalytic subunit	ATGACGCAAACTCGTATCGTCGTTAGCCCGGCGCGCTTTAGCGTCGGCGAGGAGTATCCCTGGCTGGCCGAACGCGATGAAGACGGCGCGGTGGTCACCTTCACCGGCAAAGTGCGCAATCACAACCTCGGCGACAGCGTGAAAGCGCTGACCCTCGAGCACTATCCGGGGATGACCGAGAAATCGCTGGCGGAGATCGTCGACCAGGCGCGCGAGCGCTGGCCGCTGGGCCGGGTGACCATTATCCATCGCATCGGCGAAATGTGGCCGGGGGAAGAGATTGTGTTTGTCGGCGTCACCAGCGCCCACCGCGGCAGCGCCTTCGCCGCCGGCGAGTTTATGATGGACTACCTGAAAACCCGCGCGCCGTTCTGGAAACGCGAGGCGACGCCGGAGGGCGAGCGCTGGGTCGACGCCCGCGACAGCGATCGCCAGGCGGCAGAGCGCTGGTAG	MTQTRIVVSPARFSVGEEYPWLAERDEDGAVVTFTGKVRNHNLGDSVKALTLEHYPGMTEKSLAEIVDQARERWPLGRVTIIHRIGEMWPGEEIVFVGVTSAHRGSAFAAGEFMMDYLKTRAPFWKREATPEGERWVDARDSDRQAAERW	PGPT0008415_71	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008415-moaX-K21142	NA	NA
BMS020_02182	705	ybhL	COG0670	Inner membrane protein YbhL	ATGGACAGATATCCGCGTTCCGATTCAATAGTGCAGGGCCGCAGCGGCCTGCAGACTTATATGGCGCAGGTGTACGGCTGGATGACGGTTGGCCTGCTGCTGACGGCGTTTATCGCGTGGTTTGCGGCTAACACCCCGGCGGTGATGATGTTCGTCTTTTCGAGCAAAATCACCTTCTTCGGGCTGATCATCGCCCAGCTGGCGCTGGTGTTTGTGCTGTCGGGGATGGTACAGCGGCTGAGCGCCGGGATGGCGACCACCCTGTTTATGCTCTATTCGGCGCTCACCGGGCTGACGCTGTCGAGCATTTTTATCGCTTATACCTACTCCTCCATCGCCAGCACCTTTGTGGTCACTGGCGGGATGTTCGGGGCGATGAGCCTTTACGGCTACACCACTAAACGCGACCTGAGCGGCTTCGGCAGCATGCTGTTTATGGGGCTGATTGGCATCGTGCTGGCGTCGCTGGTTAACCTGTGGCTGAAGAGCGAGGCGCTGATGTGGGCCGTGACCTACATTGGGGTGGTGCTGTTTGTCGGCTTGACCGCCTACGACACCCAGAAGCTGAAAAATATCGGCGAGCAGATTGATACCCGCGACAGCGCCACGTTGCGTAAATACTCGATCCTCGGCGCCTTAACGCTGTATCTGGATTTCATCAACCTGTTCCTGATGCTGCTGCGTATTATGGGCAATCGCCGCTAA	MDRYPRSDSIVQGRSGLQTYMAQVYGWMTVGLLLTAFIAWFAANTPAVMMFVFSSKITFFGLIIAQLALVFVLSGMVQRLSAGMATTLFMLYSALTGLTLSSIFIAYTYSSIASTFVVTGGMFGAMSLYGYTTKRDLSGFGSMLFMGLIGIVLASLVNLWLKSEALMWAVTYIGVVLFVGLTAYDTQKLKNIGEQIDTRDSATLRKYSILGALTLYLDFINLFLMLLRIMGNRR				NA	NA	NA	NA	NA
BMS020_02183	558			hypothetical protein	ATGGGCCTGAACGCCAGCCGGACTGTTTCCGGGAGAGTGGAAGCACTGCCGTGTGGTTGTTTATGTTATCTGTGGCTTCAGCGTAGTTTGCGCTCCCGGCTAGTCTTCTGCGTTATGTCTCTTACGGCGCGGGGAGCGCACAGGGGGCGGCCGGTCGCCGCCGCCCCCTGTACCCCCGGGCTCCGGCCAGCAAAATCGCCACTGCGTGGTCCCTTCGACTTATCCCTGCAGGCTTCGGGTCGGGCCGAGGCAGCGTCCGTGCAAAACACGGCCCTCAGCCCGCATCCATGCGGGCTGCCCCGGCCTTCCGGGAACGTCTCAGCGATTTTGAGGCCGCCAGCACCGGCAGTTTCAGTCGCACAAGTGGGTAAATCAACGACAGGTCGCACGAACCCTGTAGGCCGGGTAAGGCGCAGCCGTCACCCGGAAACATCACGGGTACCGCGCCTGGCGTCTCGCCCGGCGGCGCTGCGCTTGTATGGGCCTGAACGCCAGCCGGACTGTTTCCGGGAGAGGGGAAGCACTGCCGTGGGGTTGTTTATGTTATCGGTGGCTTAA	MGLNASRTVSGRVEALPCGCLCYLWLQRSLRSRLVFCVMSLTARGAHRGRPVAAAPCTPGLRPAKSPLRGPFDLSLQASGRAEAASVQNTALSPHPCGLPRPSGNVSAILRPPAPAVSVAQVGKSTTGRTNPVGRVRRSRHPETSRVPRLASRPAALRLYGPERQPDCFRERGSTAVGLFMLSVA				NA	NA	NA	NA	NA
BMS020_02184	966	ybhN	COG0392	Inner membrane protein YbhN	ATGAGCAAATCGCACCCGCGCTGGCGGATGGCAAAAAGAGTGCTCACCGTGCTCTTTTTTATCGCCGTGATCGTCCTGCTGGTGATTTACGCGCAGAAGGTCGACTGGCAGGAAGTGTGGAAGGTGATCCGCGGCTACGATCGGCTGGCCTTGTTCAGCGCCATTGCGCTGGTCATCGTCAGCTATCTGATCTACGGCTGCTACGATCTGCTTGGCCGCGCCTGGTGCGGACACAAGCTGGCGAAACGCCAGGTAATGCTGGTGTCGTTTATCTGCTATGCCTTCAACCTGACCCTCAGCACCTGGGTCGGCGGCATCGGCATGCGCTACCGGCTGTACTCCCGGCTGGGGCTGAACAATAGCACCATCACCCGTATTTTTTCCTTAAGCATCACCACCAACTGGCTGGGCTATATCCTGCTCGGTGGGGTGATCTTTACGGCGGATCTGGTGAAGCTGCCGTCGCACTGGTACATCAGCCAGACCACCCTGCGGATTATCGGCGGAGCGATGCTATTTCTCACGCTGTGCTATCTCTTCGGCTGCGCGTTCGCCAAACGCCGTCACCTGACGATCAAAGGCCAGCGGCTGGTGCTGCCCTCCTGGGGATTCGCGCTGCTGCAGATGGGGGTCTCGGCGGCGAACTGGATGGCGATGGGGGCGATCATCTGGCTGCTGTTGGGCAGCGAGATTAACTATTTTCTGGTATTGGGAGTACTGCTGGTGAGCAGTATCGCCGGGGTGATTATCCACATCCCGGCCGGGATTGGCGTGCTGGAGGCGGTGTTTATCGCCATGCTCTCCGGGGAAGAGATTTCGAAGGGGGCGATCATCGCCGCCCTCCTCGCCTGGCGCGCGCTCTATTATTTCCTGCCGCTGCTGCTGGCGACGGTGGCCTATCTGCTGCTGGAGAGTCGGGCGAAAAAGCTGCGGCAAAAGAACCAGCGCAAGCTGGCCCGCGAGTGA	MSKSHPRWRMAKRVLTVLFFIAVIVLLVIYAQKVDWQEVWKVIRGYDRLALFSAIALVIVSYLIYGCYDLLGRAWCGHKLAKRQVMLVSFICYAFNLTLSTWVGGIGMRYRLYSRLGLNNSTITRIFSLSITTNWLGYILLGGVIFTADLVKLPSHWYISQTTLRIIGGAMLFLTLCYLFGCAFAKRRHLTIKGQRLVLPSWGFALLQMGVSAANWMAMGAIIWLLLGSEINYFLVLGVLLVSSIAGVIIHIPAGIGVLEAVFIAMLSGEEISKGAIIAALLAWRALYYFLPLLLATVAYLLLESRAKKLRQKNQRKLARE				NA	NA	NA	NA	NA
BMS020_02185	1245	clsB	COG1502	Cardiolipin synthase B	GTGAAATGTCGTTGGCAGGAAGGCAACCGCATTACGCTACTGGAGAACGGCGACCAGTACTATCCGGCGCTGTTTGCGGCCATCGGTCGCGCCAGCCGGCGGGTGATCCTCGAATCCTTTATCTGGTTTGAAGATGAGGTCGGCCGACAGCTGCACGCGGTTCTGCTGAAGGCCGCCCGCCGCGGCATCCAGGTGGAAGTGCTGCTTGACGGCTACGGCTCGCCGGATCTTAGCGATGAGTTTGTCGGCGAACTGACCGCCGCCGGGGTGATTTTCCGCTATTACGACCCGCGCCCTAAGCTGATGGGAATGCGCACTAACCTGTTCCGTCGCATGCACCGTAAAATCGTGGTGATCGACGACACCACCGCCTTTGTCGGCGGCATCAACTACTCCGCAGAACATATGAGCGACTATGGCCCGGAGGCGAAACAGGATTACACGGTGCAGGTCGAGGGGCCGGTGGTGCTGGATATTCTGCAGTTCGAACTGGAGAATCTGCCCAACAGCGAAACCGCCCGCCGCTGGTGGCGCCGTCGTCGCCATCAGCCGGAGATCAACCAGACCCCCGGCGAGGCGCAGGCGCTGTTCGTCTGGCGCGATAATCAGGATCACCGCGACGATATCGAACGCCACTACCTAAAGATGCTGACCAGCGCCCGCCGGGAGGTGATAATCGCGAACGCCTATTTTTTCCCCGGCTATCGTCTGCTGCATGCGATGCGCAATGCCGCGCGGCGCGGGGTGCGGGTGAAGCTGATCGTCCAGGGCGAACCGGATATTCCAATTGTGAAATTTGGCGCCCACCTGCTCTATCACTACCTCGTCAAAGGCGGCGTGCAGATCTACGAATATCGCCGCCGTCCGCTGCATGGCAAAGTCGCCCTGGCGGACGACCACTGGGCCACCGTCGGGTCGAGCAACCTGGATCCGCTCAGCCTGTCGCTGAATCTGGAAGCCAATCTGATCATTCACGACCGGGTGTTTAACCAGACGCTGCGCGATAACCTTAACGGGCTTATCGCCCGGGATTGCCAGCGGATCGATAAAGCAATGCTGCCGAAACGCAACTGGTGGCGGCTGGGGGTGAGCGTGATGGCCTTCCACTTTCTGCGCCACTTTCCGGCGTGGGTCGGCTGGCTGCCGGCCCATACTCCGCGGCTGGCCAGGGTCAGCCCGCCGGTGCAGCCGGAGATTGAAACGCAGGATCGCGTCGAGTCACCTACCAGGGATAATCCACTATGA	MKCRWQEGNRITLLENGDQYYPALFAAIGRASRRVILESFIWFEDEVGRQLHAVLLKAARRGIQVEVLLDGYGSPDLSDEFVGELTAAGVIFRYYDPRPKLMGMRTNLFRRMHRKIVVIDDTTAFVGGINYSAEHMSDYGPEAKQDYTVQVEGPVVLDILQFELENLPNSETARRWWRRRRHQPEINQTPGEAQALFVWRDNQDHRDDIERHYLKMLTSARREVIIANAYFFPGYRLLHAMRNAARRGVRVKLIVQGEPDIPIVKFGAHLLYHYLVKGGVQIYEYRRRPLHGKVALADDHWATVGSSNLDPLSLSLNLEANLIIHDRVFNQTLRDNLNGLIARDCQRIDKAMLPKRNWWRLGVSVMAFHFLRHFPAWVGWLPAHTPRLARVSPPVQPEIETQDRVESPTRDNPL	PGPT0007725_4266	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
BMS020_02186	762			hypothetical protein	ATGGCTGAGCCAACGTCGGGATTTTCGTTGAACGTGCTGACAATTAACACCCATAAAGGCTTTACGGCGTTTAATCGGCGTTTTATTTTGCCCGAGCTGCGCGAAGCCGTTCGCAGCGTCAGCGCTGACATAGTTTGCCTGCAGGAAGTGATGGGCGCTCACGAAGTTCACCCGCTGCATATCGAAAACTGGCCAGATACGACCCATTACGAATTTCTCGCCGACACCATGTGGAGCGACTACGCCTATGGGCGCAACGCGGTCTATCCGGAAGGTCACCATGGCAATGCCGTGCTGTCGCGCTTCCCGATTGAATACTATGAGAATCGCGATATCTCGGTCGGCAACGGGGAGAAACGCGGCCTGCTGTACTGCCGCATCGTGCCGCCTCAGAGCGGCGTCACGATTCACGTCATTTGCGTCCATCTCGGACTGCGTGCCGACCAGCGGCAGGCGCAGCTGGGGATGCTGACGGAATGGGTCAACACCCTGCCCGCCGGCGAGCCGGTGGTGGTGGCCGGGGATTTTAACGACTGGCGTCAGCAGGCTAACCAGCCGTTAAAAGCCCAGGCGGGGCTGGAAGAGATTTTTACCCGCGCCCGCGGACGCCCGGCGCGCACCTTTCCGGTCAGTTTTCCGCTGCTGCGCCTCGATCGCATTTACGTCAAGAACGCCCACGCCAGCCGCCCGAAGGCGCTGGCCCTCAAACAGTGGCGGCATCTGTCCGATCATGCACCCCTTAGCGTGGAGATTCATTTGTGA	MAEPTSGFSLNVLTINTHKGFTAFNRRFILPELREAVRSVSADIVCLQEVMGAHEVHPLHIENWPDTTHYEFLADTMWSDYAYGRNAVYPEGHHGNAVLSRFPIEYYENRDISVGNGEKRGLLYCRIVPPQSGVTIHVICVHLGLRADQRQAQLGMLTEWVNTLPAGEPVVVAGDFNDWRQQANQPLKAQAGLEEIFTRARGRPARTFPVSFPLLRLDRIYVKNAHASRPKALALKQWRHLSDHAPLSVEIHL				NA	NA	NA	NA	NA
BMS020_02187	411	ybhQ		Inner membrane protein YbhQ	ATGAAGTGGCAACAACGTGTACGCGTCGCAACAGGTCTTAGTTGCTGGCAGATTATGTTGCATCTACTGGTCGTGGCAGTGCTGGTGATGGGATGGATGAGCGGCGCGCTGGTGCGCGTCGGATTAGGGCTGTGCGTCCTCTACAGCGTCACGCTGCTGGCGATGCTGTTTCTGCAGCGTCATCACGAGGCGCGCTGGCGCGATGTGGGAGACTTCCTTGAGGAGCTCACCACCACCTGGTACTTCGGCGCCGCCATGATAGCGCTGTGGCTGCTGTCGCGCGTGCTGCACAACAACCTGCTGCTGGCCCTCGCCGGGCTGGTGATACTGGCAGGCCCGGCGGTGGTCTCGCTGCTGGCGAAAGATAAAAAATTACGCAATCTTTCTTCGGAACATCGCATACGCCGCTGA	MKWQQRVRVATGLSCWQIMLHLLVVAVLVMGWMSGALVRVGLGLCVLYSVTLLAMLFLQRHHEARWRDVGDFLEELTTTWYFGAAMIALWLLSRVLHNNLLLALAGLVILAGPAVVSLLAKDKKLRNLSSEHRIRR				NA	NA	NA	NA	NA
BMS020_02188	1107	ybhR	COG0842	putative multidrug ABC transporter permease YbhR	ATGTTTCACCGTTTATGGACATTGATCCGCAAAGAGCTGCAGTCGCTGCTGCGCGAACCGCAGACGCGGGCGATTTTAATCATGCCGGTGCTGATTCAGGTGCTGCTGTTTCCCTTTGCCGCGACGCTGGAGGTGACCAACGCCACCATCGCCATCTATAACGAGGACAGCGGTCGCCACGCGGTGGAACTCACTCAGCGCTTTGCCCGCGCCAAAGCCTTTACCCACGTCCTGCTGCTGAAAAGCCCGCAGGCGATCCAGCCGACCATCGATGAACAAAAAGCCCTGCTGGTGGTGCGCTTCCCGGCGGATTTCTCACGCAACCTCGACAACTATCAAACCGCCCCGCTGCAGCTCCTGCTCGACGGGCGCAACTCCAACAGCGCGCAAATCGCCGCCAACTATCTGCAGCAGGTCGTGAAAAATTACCAGCAGGAACTGCTGGAGGACAAAGCGAAGCCGAACAATAGCGAACTGGTGGTGCGCAACTGGTATAACCCGAATCTCGACTACAAGTGGTTCGTGGTGCCGTCGCTCATCGCCATGATCACCACCATCGGAGTGATGATCGTCACCTCGCTGTCGGTGGCCCGCGAGCGCGAGCAGGGCACCCTCGATCAGCTGCTGGTCTCGCCTCTCGCCACCTGGCAAATCTTTGTCGGTAAAGCGGTGCCGGCGCTGATCGTCGCCACCCTGCAGGCGACTATCGTGCTGGCGATTGGTATCTGGGCCTATCAGATCCCGTTTGCCGGCTCGCTGCTGCTGTTCTATTTCACCATGGTGATTTACGGTCTATCGCTGGTGGGCTTTGGCTTATTGATCTCATCGCTGTGCGCCACGCAGCAGCAGGCGTTTATCGGCGTATTCGTCTTTATGATGCCGGCGATTCTTCTCTCCGGCTACGTTTCACCGGTGGAAAACATGCCGCAGTGGCTGCAGGATCTGACGTGGATAAACCCGATCCGCCACTTTACCGATATCACCAAGCAAATTTATCTGAAGGATGCGAGTCTGGAGATTGTGTGGGGAAGTTTGTGGCCGCTACTGGTCATAGCGGCCACCACCGGCTCAGCGGCGTATGCGATGTTCCGAAGAAAGATTGCGTAA	MFHRLWTLIRKELQSLLREPQTRAILIMPVLIQVLLFPFAATLEVTNATIAIYNEDSGRHAVELTQRFARAKAFTHVLLLKSPQAIQPTIDEQKALLVVRFPADFSRNLDNYQTAPLQLLLDGRNSNSAQIAANYLQQVVKNYQQELLEDKAKPNNSELVVRNWYNPNLDYKWFVVPSLIAMITTIGVMIVTSLSVAREREQGTLDQLLVSPLATWQIFVGKAVPALIVATLQATIVLAIGIWAYQIPFAGSLLLFYFTMVIYGLSLVGFGLLISSLCATQQQAFIGVFVFMMPAILLSGYVSPVENMPQWLQDLTWINPIRHFTDITKQIYLKDASLEIVWGSLWPLLVIAATTGSAAYAMFRRKIA	PGPT0006730_7504	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS020_02189	1134	ybhS_1	COG0842	putative multidrug ABC transporter permease YbhS	ATGAGCAGTAATCTCCTCTCCTGGCGGCGGGTCCGCGCCCTGTGCGTCAAAGAGACCCGGCAGATCGTCCGCGATCCCAGCAGCTGGCTGATTGCGGTGGTGATCCCTCTGCTGCTGCTGTTTATCTTCGGCTACGGCATTAATCTCGACTCCAGCAAGCTGCGGGTGGGGGTTCTGCTGGAGCAGCAGAGCGAAGAGGCGCTGGACTTCGTGCATACCATGACCGGCTCGCCCTATATCGACGCCACCGTCAGTGACAATCGCCAGCGGCTAATTGAGCTGATGCAGGCCGGTCGCATCCGCGCGATGGTGGTCATTCCGGTGGACTTCGACCGCCAGATGGCCCGCCCCGGCGCCGCTGCGCCGCTCCAGCTCATCACCGACGGCAGCGAGCCCAATACCGCTAACTTCGCCCAGGGCTACGTGGAGGGTATCTGGCAGATCTGGCAGCAGCAGCGGGCGGAAGACCGCGGCGAGACCTTTGAACCGCTAATCGACGTGCAGATGCGCTACTGGTTTAACCCGGCGGCCATCAGCCAGCACTTTATTATCCCCGGGGCAATCACCATTATCATGACCGTGGTCGGCGCGATACTGACCTCGCTGGTGGTGGCCCGCGAATGGGAGCGCGGCACCATGGAGGCCCTGCTGTCGACGGAGATCACCCGCGCTGAACTGCTGCTGTGCAAGCTCATCCCCTATTACTTCCTCGGCATGCTGGCGATGCTGCTGTGTATGCTGGTGTCGGTGTTTATTCTCGGCGTGCCCTATCGCGGTTCGCTGCCGATCCTGTTTGTCATCACCAGTCTGTTTTTGCTCAGCACCCTGGGGATGGGACTGCTGATCTCGACGATCACCCGCAACCAGTTTAACGCCGCGCAGGTGGCGCTGAACGCCGCCTTTTTACCGTCGATAATGCTGTCCGGGTTTATTTTCCAGATAGACAGCATGCCGGCGGTGATCCGCGCGGTGACCTATGTGATCCCGGCGCGCTATTTCGTCAATACCCTGCAAAGCCTGTTTCTGGCGGGTAATATTCCGGTGGTGCTGCTGGTGAATGTGCTGTTTTTGATTGCTTCGGCGGTGATGTTTATCGGCCTGACGTGGCTGAAAACCAAACGGCGTCTGGATTAG	MSSNLLSWRRVRALCVKETRQIVRDPSSWLIAVVIPLLLLFIFGYGINLDSSKLRVGVLLEQQSEEALDFVHTMTGSPYIDATVSDNRQRLIELMQAGRIRAMVVIPVDFDRQMARPGAAAPLQLITDGSEPNTANFAQGYVEGIWQIWQQQRAEDRGETFEPLIDVQMRYWFNPAAISQHFIIPGAITIIMTVVGAILTSLVVAREWERGTMEALLSTEITRAELLLCKLIPYYFLGMLAMLLCMLVSVFILGVPYRGSLPILFVITSLFLLSTLGMGLLISTITRNQFNAAQVALNAAFLPSIMLSGFIFQIDSMPAVIRAVTYVIPARYFVNTLQSLFLAGNIPVVLLVNVLFLIASAVMFIGLTWLKTKRRLD	PGPT0032435_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-PYOLUTEORIN_METABOLISM,PGPT0032435-pltK-NA	NA	NA
BMS020_02190	1740	ybhF_1	COG1131	putative multidrug ABC transporter ATP-binding protein YbhF	ATGAGTGAGGCCGTCATCGCCTTAAACGGCCTGAGCCGCCGTTTCCCCGGGATGGACAGGCCAGCGGTGGCCCCGCTGACCTGTACGATCCGCGCCGGCTACGTCACGGGGCTGGTAGGCCCCGACGGCGCAGGGAAAACCACCCTCATGCGGATGCTCGCCGGGTTGCTTAAGCCTGATGAGGGCAGCGCCAGGGTGATTGGCTTTGATCCGCTAAAAGACGACAGCGCTCTGCACGCGGTGCTCGGCTATATGCCGCAGAAGTTCGGCCTGTATGAAGATCTGACGGTGATGGAAAACCTCACCCTGTACGCCGATCTACGCAGCGTCACCGGCGAGGCGCGGAAGAAAATTTTCGACCGCCTGCTGGAATTCACCGCCCTTGGCCCGTTCACCGGGCGGCTGGCGGGCAAGCTCTCCGGCGGCATGAAGCAAAAGCTGGGGCTCGCCTGTACCCTGGTGGGTGACCCGAAGGTGCTGCTGCTGGATGAGCCCGGCGTCGGCGTCGACCCGATCTCCCGCCGCGAGCTATGGCAGATGGTGCACGAGCTGGCCGGCGACGGCATGCTGATCCTGTGGAGCACCTCTTATCTCGATGAAGCCGAGCAGTGTCGCGATGTGCTGCTGATGAACGAAGGCAAACTGCTCTATCAAGGGGAGCCGACGGCCCTGACGCAAACCATGGCCGGGCGCAGCTTTCTGGTCTCCAGCCCGCAGGAGAACAACCGCCGCCTGCTGCAGCGGGCGCTGAAGCTGCCGCAGGTTAGCGACGGCGTGATTCAGGGCAAATCGGTGCGTCTGATCCTGAAAAAGGAGGCGCGCATCGATGAGGTTCAGCAACATGACGATATGCCGTCGCTGCAGGTGACCGACACCGCGCCGCGCTTTGAAGACGCCTTTATCGACCTGCTCGGCGGCGCCGGGACCGCCGAATCGCCGCTGGGGGCGATTATCCATCGCGTTGACGGCAGCAAAGACGAAACGGTGATTGAGGCGCAGTCGCTGACTAAAAAATTTGGCGATTTCGCCGCCACCGACCACGTCGATTTCCAGGTCAAGCGCGGCGAGATCTTCGGCCTGCTCGGCCCCAACGGCGCAGGGAAATCCACCACCTTCAAAATGATGTGCGGCCTGCTGGTGCCCACCTCCGGCAAAGCGCTGGTGCTGGGGATGGATCTCAAGGTCAGCTCCGGCAAGGCGCGTCAGCATCTGGGCTATATGGCGCAAAAATTTTCGCTATACGGCAACCTCAGCGTCGAGCAGAACCTGCGCTTTTTCTCCGGGGTCTACGGCCTGCGCGGCCGGGCGCAAAATGACAAAATTGCCCGCATGAGCGATGCCTTCGGTCTGAACGGCATCGCCCGCCACGCCGCTGACGAGCTGCCGCTCGGCTATAAGCAGCGGCTGGCGCTGGCCTGCTCCTTGATGCATGAACCCGACATTCTTTTTCTCGACGAACCCACCTCCGGGGTCGATCCCCTCACCCGTCGCGAGTTCTGGCTGCATATCAACAGCATGGTGGATAAAGGGGTGACGGTGATGGTCACCACTCACTTTATGGATGAGGCGGAGTATTGCGACCGCATTGGGCTGGTCTATCACGGTAAGCTTATCGCCAGCGGCACCCCGGACGCGCTGAAGGCTCAGGCGGCGGATGACAACCAGACGGACCCGACCATGGAGCAGGCGTTTATTACCCTGATTAACCGTTGGGATAAGGAGAATGGCCATGAGCAGTAA	MSEAVIALNGLSRRFPGMDRPAVAPLTCTIRAGYVTGLVGPDGAGKTTLMRMLAGLLKPDEGSARVIGFDPLKDDSALHAVLGYMPQKFGLYEDLTVMENLTLYADLRSVTGEARKKIFDRLLEFTALGPFTGRLAGKLSGGMKQKLGLACTLVGDPKVLLLDEPGVGVDPISRRELWQMVHELAGDGMLILWSTSYLDEAEQCRDVLLMNEGKLLYQGEPTALTQTMAGRSFLVSSPQENNRRLLQRALKLPQVSDGVIQGKSVRLILKKEARIDEVQQHDDMPSLQVTDTAPRFEDAFIDLLGGAGTAESPLGAIIHRVDGSKDETVIEAQSLTKKFGDFAATDHVDFQVKRGEIFGLLGPNGAGKSTTFKMMCGLLVPTSGKALVLGMDLKVSSGKARQHLGYMAQKFSLYGNLSVEQNLRFFSGVYGLRGRAQNDKIARMSDAFGLNGIARHAADELPLGYKQRLALACSLMHEPDILFLDEPTSGVDPLTRREFWLHINSMVDKGVTVMVTTHFMDEAEYCDRIGLVYHGKLIASGTPDALKAQAADDNQTDPTMEQAFITLINRWDKENGHEQ	PGPT0032430_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-PYOLUTEORIN_METABOLISM,PGPT0032430-pltJ-NA	NA	NA
BMS020_02191	996			hypothetical protein	ATGAAAAAACCCGTCGTCGTCATTCTGCTGATCGTGATTCTTCTCGCCGCGCTGGGCGGCGGCTGGTGGTGGTACCAGAGCAGCCGGCAGCAGCCGCTGACTCTGTATGGCAATGTCGATATCCGCACCGTCAATATGAGCTTTCGCGTCGGCGGCAGACTGGCCTCGCTGACCGTCGACGAAGGCGACAGCATCCGCGCGGGGCAAACCCTCGGCGAGCTTGACCGTGCCCCCTATGAAAACGCCCTGCTGCAGGCGCAGGCCAACGTCTCCGCCGCCCAGGCGCAGTATGACCTGATGATGGCCGGCTACCGCTCGGAAGAGATTGCCCAGGCCGCGGCGGCAGTGAATCAGGCGCAGGCCGCTTACGACTACGCGCAAAACTTTTATCAGCGCCAGCTGGGTTTACGCGCCAGCAGCGCCATTTCCGCCAACGATCTGGAGAACGCCCGCTCCTCGCGCGACCAGGCGCAGGCAACGCTGAAGTCAGCGCAGGATAAACTGCGTCAATACCGCGCCGGCAATCGTCCGCAGGAGATAGCCCAGGCCAAAGCCAGCCTCGAACAGGCGCAGGCGGCGCTGGCCCAGGCTAAACTGGACCTGCACGATACCGTGCTGACCGCCCCTTCCGACGGCACGCTGATGACCCGCGCCGTCGAGCCCGGCACTATGCTCAACGCCGGCGGCACCGTGCTAACCCTCTCCCTGACCCATCCAGTATGGGTCCGCGCCTACGTTGACGAGAAAAACCTCGGCCAGGCGCAGCCGGGACAAGCAGTGCTGCTCTATACCGACAGCCGGCCGGATAAGCCCTATCACGGCAAAATCGGCTTTGTCTCGCCGAGCGCTGAGTTCACGCCGAAGACTGTCGAGACGCCGGACCTGCGCACCGATCTGGTCTACCGTCTGCGCATCGTGGTAACCGACGCCGACGGCGCGCTGCGCCAGGGGATGCCGGTGACCGTCTCCTTTGACAACGGGAACGGACATGAGTGA	MKKPVVVILLIVILLAALGGGWWWYQSSRQQPLTLYGNVDIRTVNMSFRVGGRLASLTVDEGDSIRAGQTLGELDRAPYENALLQAQANVSAAQAQYDLMMAGYRSEEIAQAAAAVNQAQAAYDYAQNFYQRQLGLRASSAISANDLENARSSRDQAQATLKSAQDKLRQYRAGNRPQEIAQAKASLEQAQAALAQAKLDLHDTVLTAPSDGTLMTRAVEPGTMLNAGGTVLTLSLTHPVWVRAYVDEKNLGQAQPGQAVLLYTDSRPDKPYHGKIGFVSPSAEFTPKTVETPDLRTDLVYRLRIVVTDADGALRQGMPVTVSFDNGNGHE				NA	NA	NA	NA	NA
BMS020_02192	660	cecR	COG1309	HTH-type transcriptional dual regulator CecR	ATGACCAGTAAAGGCGAACAGGCAAAAAGCCAGCTTATCGCGGCCGCTATCGCCCAGTTTGGCGAGTACGGCCAGCATGCCACCACCCGCGATATTGCCGCCCAGGCCGGGCAGAATATCGCCGCTATCACCTACTATTTTGGCTCGAAAGACGACCTGTATCTCACCTGCGGCCAGTGGATCGCCGATTTTATCGGTGACAATTTTCGCCCGCACGCCGAAGCGGCGGAGGCCCTGCTCGCCGGAGAGTCGCCGGATCGCCAGGCGATCCGCGCCCTCATCCTCAGCGCCTGCCATAACATGATCCTGCTGCTGACCCAGGATGATACGGTCAACTTGAGCAAATTTATTTCCCGGGAACAGCTGGCGCCCACCGCCGCGTACCATCTGATCCATCAGCAGGTGATCGCCCCCCTGCACCACTATCTCACCCGACTGATCGCCGCCTGGACGGGTCGCGATGCCGGTGATACGCAAATGATCCTCCATACCCACGCCCTGCTGGGCGAGGTGCTCGCTTTCCGTCTCGGGCGTGAAACTATCCTGCTGCGCACCGGCTGGACGCAGTTTGACGCGCAAAAAACCGAACAGATTTTTGAGGTCATTACCTGTCATATCGATTTCATTCTGCATGGGTTATCGCAAAGGAGTTTGGGCTGA	MTSKGEQAKSQLIAAAIAQFGEYGQHATTRDIAAQAGQNIAAITYYFGSKDDLYLTCGQWIADFIGDNFRPHAEAAEALLAGESPDRQAIRALILSACHNMILLLTQDDTVNLSKFISREQLAPTAAYHLIHQQVIAPLHHYLTRLIAAWTGRDAGDTQMILHTHALLGEVLAFRLGRETILLRTGWTQFDAQKTEQIFEVITCHIDFILHGLSQRSLG	PGPT0029255_508	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIPLE_ANTIBIOTIC_RESISTANCE,PGPT0029255-cecR|ybiH-K23777	NA	NA
BMS020_02193	924	perR		HTH-type transcriptional regulator PerR	ATGAGTCAACCGCTGCCCAATAAAAATCTGCCGATGCCCTCTTTACGCAATATCCAGGCTTTTATTGAAGTCGCCGCAACCGGCAGCCTCAACCTGGCCGCAGAGAACCTCAACATTACCGCCTCGGCGGTCAGCCACCAGATAGCCAGTCTGGAGCACTTGCTGGGAAAAAAACTGTTCTCCCGCAGCAGCAAAGGCGTGATGTTAACCGCAGTGGGAGAAAAATATCTCAAAGAGGTCTCCGGAGCGCTGAATATGATTGGCCAGGCCACCAGCCAGGTGATCAACGATATTCATCAGGATTATTTACGCATTCACTCAGCGCCGAGCTTCGGCCTGCTGTGGCTGATGCCGCGGCTGGATAAATTCCGTCAGGCATGGCCGGAGCTAAAAATTAGCCTGACCTGCTCTTACGAAAGCATTCAGTTCTCCCGGGATAATATTGATATCGATATTCGCCACGGGCTGTCGCAGTGGCCGACGCTGCTGGTCAGGACCATTAAAAATGAGTGCGTCCTGCCCTACAGCGCCTCCTCTTATTTAGCCCGCCATGCGGTTCGCGCCCCGGAAGATCTGCTGGCCTGCGATCTGATCCATTCCGACAGCACCTTAATTAACTGGAGCAACTGGCTGTCGTGGCACAAGGTCCGCGGCTGGCACAAAAACTTTATCTTTAATTTCGACCGGTCGTACATGAGCATCGAGGCGGCCCGGATGGGGATGGGGGTGATCCTGGAAAGCAATCTGCTGGCCGGCGGCCACGTGCGTCAGGGGCAGCTGACGCCGGTGTTTGCCGACGAGCGGAGTATGCCGGTCGGCGCGCACCACTTCGTCCTTCCCCACGCCAATGAACAGAAGGAAAAGGTCCAGCGCTTCTTCGCCTGGGTCGCCGGGGAGCTACAGGAAGACGGTTTTCATATTTAG	MSQPLPNKNLPMPSLRNIQAFIEVAATGSLNLAAENLNITASAVSHQIASLEHLLGKKLFSRSSKGVMLTAVGEKYLKEVSGALNMIGQATSQVINDIHQDYLRIHSAPSFGLLWLMPRLDKFRQAWPELKISLTCSYESIQFSRDNIDIDIRHGLSQWPTLLVRTIKNECVLPYSASSYLARHAVRAPEDLLACDLIHSDSTLINWSNWLSWHKVRGWHKNFIFNFDRSYMSIEAARMGMGVILESNLLAGGHVRQGQLTPVFADERSMPVGAHHFVLPHANEQKEKVQRFFAWVAGELQEDGFHI	PGPT0026360_2317	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS020_02194	1335	gudP_2		putative glucarate transporter	ATGTCACGTATAGATACGCTGGTCTGTACTGACGCCAGGAAAACAAAATATCGTTTTGTGGTTTTGACGATGATTTTCCTGGTGTATGCCATCAATTACGCCGACAGAACGAATATCGGCGCGGTACTGCCGTTTATCATTGATGAATTCCATATCAATAATTTTGAGGCCGGAGCGATTGCCAGTATGTTTTTCCTCGGCTATGCGGTCAGCCAGATCCCGGCCGGCTTTTTCATCGCCAGACGCGGCACTCGAGGGCTGGTTTCGCTATCTATTTTCGGCTTCTCCGCTTTTACCTGGCTGATGGGCACGGTGAGCTCCGTATTTGGCCTGAAGCTGGTGCGGCTGGGCTTGGGACTAAGCGAAGGTCCCTGCCCGGTGGGGCTGGCGTCGACGATAAATAACTGGTTTCCGCCGAAAGAGAAAGCCACGGCAACCGGCGTTTACATCGCGGCGACCATGTTTGCCCCGATTATCGTGCCGCCGCTGGCGGTGTGGATTGCGGTGACCTGGGGCTGGCGGTGGGTCTTTTTCTCCTTTGCTATTCCCGGGATCGTAGCAGCGATAGCGTGGTACCTGTTGGTGAAGTCAAAGCCCGCGGAAAGCGGATTCGTATCTCCAAGCGAACTGGCAGAGATTAATGCCGGGCGGGACAGCCATCATAATGACGGTGTACGTGAAAATATATTAATCGCCGATCGCTTCACCTGGCTGGATAAAATTATCCGGGTGAAAAAAATGCCGCCTGTGGATACGGCGAAGGGATTATTTACCTCAAAAAATATTCTCGGAGACTGCCTCGCATATTTTATGATGGTCAGCGTGTTATATGGATTATTAACCTGGATCCCGCTGTATTTAGTGAAAGAGCGCGGTTTCGATGTGATGAGTATGGGGTTCGTGGCCAGTATGCCGTGCATCGGCGGCTTTATTGGCGCGATTGGCGGCGGATGGATTTCGGATAAATTATTAGGCCGTCGGCGTAAACCAACCATGATATTCACAGCGGTATCAACCGTAGTCATGATGTTAATTATGCTGAATATACCGGCAAGCACCCTGGCGGTCTGTATTGGTTTATTCTTTGTCGGTTTCTGTTTGAATATCGGCTGGCCGGCTTTTACCGCCTACGGTATGGCCGTTTCGGACAGCAAAACCTATCCGATCGCCTCTTCCATTATTAATAGCGGCGGCAACCTCGGCGGATTTGTGGCGCCGATGGTGGCCGGTTTCTTACTGGATAAAACGGGGAGCTTTAATTCTGTCTTTACCTATTTTGGTATCTGCGCCGCAATCGGTTTGGTGGTGATTCTTTTCCTCGATGAGCCACAATAA	MSRIDTLVCTDARKTKYRFVVLTMIFLVYAINYADRTNIGAVLPFIIDEFHINNFEAGAIASMFFLGYAVSQIPAGFFIARRGTRGLVSLSIFGFSAFTWLMGTVSSVFGLKLVRLGLGLSEGPCPVGLASTINNWFPPKEKATATGVYIAATMFAPIIVPPLAVWIAVTWGWRWVFFSFAIPGIVAAIAWYLLVKSKPAESGFVSPSELAEINAGRDSHHNDGVRENILIADRFTWLDKIIRVKKMPPVDTAKGLFTSKNILGDCLAYFMMVSVLYGLLTWIPLYLVKERGFDVMSMGFVASMPCIGGFIGAIGGGWISDKLLGRRRKPTMIFTAVSTVVMMLIMLNIPASTLAVCIGLFFVGFCLNIGWPAFTAYGMAVSDSKTYPIASSIINSGGNLGGFVAPMVAGFLLDKTGSFNSVFTYFGICAAIGLVVILFLDEPQ	PGPT0016475_596	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCARATE_TRANSPORT,PGPT0016475-gudP-K03535	NA	NA
BMS020_02195	750	fabG_3		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGTTATTAAATGATAAAGTCGCCATTATTACTGGCGCGGCCTCCGCACGCGGTTTGGGTTTTGCGACCGCGAAATTATTCGCCGAAAACGGCGCGAAAGTGGTCATTATCGACCTCAATGGCGAAGCCAGTAAAACCGCCGCGGCGGCGCTGGGCGAAGGCCATCTCGGCCTGGCGGCGAACGTCGCCGACGAAGTGCAGGTGCAGGCGGCCATCGAACTGATTCTGGCGAAATACGGCCGGGTCGATGTGCTGGTCAATAACGCCGGCATCACCCAGCCGCTGAAGCTAATGGACATCAAGCGCGCCAACTATGACGCGGTGCTCGATGTCAGCCTGCGCGGCACGCTGCTGATGTCACAGGCGGTGATCCCCACGATGCGGTCGCAAAAATCCGGCAGCATCGTCTGCATCTCGTCCGTTTCCGCCCAGCGCGGCGGCGGTATCTTCGGCGGTCCGCACTACAGCGCGGCAAAAGCCGGCGTGCTCGGCCTGGCGCGGGCGATGGCGCGCGAGCTTGGCCCGGACAACGTCCGCGTTAACTGCATCACCCCGGGGCTAATTCAGACCGACATTACCGCCGGCAAGCTGACGGACGACATGACGGCCAATATTCTTGCCGGCATTCCGATGAACCGCCTCGGCGACGCGGTGGACATCGCCCGCGCCGCGCTGTTCCTCGGCAGCGACCTCTCTTCCTACTCCACCGGTATCACCCTGGACGTTAACGGCGGCATGTTAATTCACTAA	MLLNDKVAIITGAASARGLGFATAKLFAENGAKVVIIDLNGEASKTAAAALGEGHLGLAANVADEVQVQAAIELILAKYGRVDVLVNNAGITQPLKLMDIKRANYDAVLDVSLRGTLLMSQAVIPTMRSQKSGSIVCISSVSAQRGGGIFGGPHYSAAKAGVLGLARAMARELGPDNVRVNCITPGLIQTDITAGKLTDDMTANILAGIPMNRLGDAVDIARAALFLGSDLSSYSTGITLDVNGGMLIH	PGPT0005315_470	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
BMS020_02196	846	aptA_1	COG3959	Apulose-4-phosphate transketolase subunit A	ATGAACATCACCGAATCACAAAAAGTCGCCGCGGCGGCGTGGCGTATCCGCCGCTATGCCCTGCAAATGGGGGAAGTTCAGGGGCAGGGCTATATTGGCCAGGCGCTAGGGTATGCCGATGTGCTGGCTACCGCCTTCAGTTACGCCATGACCTATCGCCCGGAAGATCCTGAGTGGGAGGGGCGCGATCGCTTCCTGCTTTCTCATGGCCATTACGCTATCGCTTATTATGCCGCGTTGCTGGAGGCGGGCATTATTCCGGAAGCGGAACTGGAAACCTACGGCTCCGACGACAGCCGCCTGCCGATGTCCGGCATGGCGACCTACACCCCGGGGATGGAGATGTCCGGCGGCTCGCTGGGGCAGGGGCTGTCTATCGCCGTCGGCATGGCGCTCGGCCTGCGGCAGAAACAGAGCAAGGCCTGGGTCTATAACTCGATGTCCGATGGGGAGTTGGATGAAGGTTCGACCTGGGAAGCGGCGATGTCGGCGGCTCACTATGGCCTGACCAACCTGATTAACCTTGTCGACGTCAACAAACAGCAGGCCGACGGCGATTCACGCAAAATCCTCGGCTTTGAGCCGCTGCAGGATAAATGGGCCGCCTTCGGCTGGTACGTGCAGCGCGTAGACGGTAACGATCTGCCGGCGGTGATGGCCGCCTTTGACAACGCGAAAAGTTATTCCGGCAACCAGCCGCGGGTCATTTTATGCGACACGCTGATGGGCAAAGGGGTGCCGTTCCTCGAAACCCGCGATAAGAACCATTTTATTCGCGTCGATGCCGACGAATGGCAAAAAGCGATTGCGGTGCTGGACGCTAACAAACCGGAAGGAGTGTTGTAA	MNITESQKVAAAAWRIRRYALQMGEVQGQGYIGQALGYADVLATAFSYAMTYRPEDPEWEGRDRFLLSHGHYAIAYYAALLEAGIIPEAELETYGSDDSRLPMSGMATYTPGMEMSGGSLGQGLSIAVGMALGLRQKQSKAWVYNSMSDGELDEGSTWEAAMSAAHYGLTNLINLVDVNKQQADGDSRKILGFEPLQDKWAAFGWYVQRVDGNDLPAVMAAFDNAKSYSGNQPRVILCDTLMGKGVPFLETRDKNHFIRVDADEWQKAIAVLDANKPEGVL	PGPT0011200_9749	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
BMS020_02197	993	aptB_1	COG3958	Apulose-4-phosphate transketolase subunit B	ATGAGCCAGAGTAAACCTCGTTTAAAAACGTCGGCGATGATCGCTTCGATTGCCGATGAAGGCCAGGCCACCGTCTCTGCGCCCTTCGGCGTCGCGCTGTCGAAACTCGCGGCGCAGCGCCCGGCGATCGTCGGTATGACAGCGGACCTGTCAAAATATACTGACCTGCATATTTTCGCCCAGGCCTTCCCGGATCGCTTTTTCCAGATGGGAATGGCGGAGCAACTGCTGATGGCGGCGGCGGGAGGCATGGCGAAGGAGGGATTTATTCCCTTCGCCACCACCTATGCCGCCTTTGCGACCCGTCGCGCCTATGATTTTATTCATCAGGTGATCGCTGAAGAGCATCTGAACGTCAAGATTTGCGCGGCGCTACCGGGCCTGACGACCGGCTATGGCCCCAGTCATCAGGCCACCGAAGATCTGGCGATCATGCGTGGTATCCCCGGAATGGTCATCGTCGATCCCTGCGATGCGCTGGAGATTGAGCAGGCGGTACCGGCCATTGCCGATCACCATGGCCCGGTTTATATGCGCCTGCTGCGCGGGAAAGTGCCGCTGGTGCTGGATAAATACGACTATCAGTTCGAACTGGGCAAAGCGAAGCTGCTGGAGGACGGCAACGACGTGTTGATTATCTCCTCCGGGCTAATGACCATGCGCGCGCTGGAGGCGGTTGAAAAGCTGCGGGACGATAATATCAGCGTGGCGGTCCTGCACGTGCCGACCATCAAACCGCTGGATGAACAAGCGATTATTGAACAGGTGTCGAAGCCGGGTCGCCTGGTGGTCACCGCCGAAAACCACACCGCGGTCGGCGGGTTAGGAGAGGCGGTGGCCGCCCTGCTGATGCGCAAAGGGGTTCGCTGCGAGCTGGATACCGTAGGGCTGCCTGACGCGTTCCTGTTAGCCGGCGCGCTGCCGACCCTCCACGATCGCTACGGCATCTCCACCGCGAAGATCGTCGAAAAAATTAAGTATCGTCTGCGTTAA	MSQSKPRLKTSAMIASIADEGQATVSAPFGVALSKLAAQRPAIVGMTADLSKYTDLHIFAQAFPDRFFQMGMAEQLLMAAAGGMAKEGFIPFATTYAAFATRRAYDFIHQVIAEEHLNVKICAALPGLTTGYGPSHQATEDLAIMRGIPGMVIVDPCDALEIEQAVPAIADHHGPVYMRLLRGKVPLVLDKYDYQFELGKAKLLEDGNDVLIISSGLMTMRALEAVEKLRDDNISVAVLHVPTIKPLDEQAIIEQVSKPGRLVVTAENHTAVGGLGEAVAALLMRKGVRCELDTVGLPDAFLLAGALPTLHDRYGISTAKIVEKIKYRLR	PGPT0011200_6992	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
BMS020_02198	1350	rhlE_1	COG0513	ATP-dependent RNA helicase RhlE	ATGTCTTTTGATTCCCTTGGCCTGAATCCCGATATCCTGCGCGCTGTCGCTGAGCAGGGCTACGTTGAGCCGACCCCTATCCAGCAGCAGGCGATCCCGGCGGTACTGCAGGGCCGCGACCTGATGGCCAGCGCCCAGACCGGCACCGGTAAAACGGCGGGCTTTACTCTGCCGCTGCTGCAGCGCCTGATCCAGAACGAGCCGCACGCGAAGGGTCGTCGCCCGGTGCGCGCGCTGATCCTGACCCCGACCCGCGAGCTGGCGGCGCAGGTGGGCGAGAACGTGCGGGATTACAGCAAATATCTGAATGTTCGCTCGCTGGTGGTGTTCGGCGGCGTGAGCATCAACCCGCAGATGATGAAGCTGCGCGGCGGCGTCGATATCCTCGTCGCCACCCCGGGCCGTCTGCTGGACCTGGAACACCAGAACGCCGTCAGCCTCGATAAAGTGGAAATCCTCGTACTGGATGAAGCGGACCGCATGCTGGATATGGGCTTTATCCATGACATCCGCCGCGTACTGGCTAAACTGCCGCCGCGTCGGCAGAACCTGCTGTTCTCGGCGACCTTCTCCGACGAGATCAAAGGCCTGGCTGAGAAACTGCTGCACAACCCGCTGGAAGTGGAAGTGGCGCGTCGCAACACGGCCTCCGAGCAGATCACCCAGCACGTCCATTTTGTTGACAAAAACCGTAAGCGCGAGCTGCTGTCGCAGCTTATCGGCGAAGGCAACTGGCAGCAGGTGCTGGTCTTTACCCGCACCAAGCATGGCGCCAACCACCTCGCGGAGCAGCTCAACAAAGACGGCATCCGCAGCGCGGCGATCCATGGCAACAAGAGCCAGGGGGCGCGTACCCGCGCGCTGGCCGACTTTAAATCCGGCGGCATTCGCGTGCTGGTGGCGACCGATATCGCCGCCCGCGGTCTGGATATCGAAGAGCTGCCGCACGTGGTGAACTACGAGCTGCCGAACGTGCCGGAAGATTATGTCCACCGTATCGGCCGTACCGGTCGCGCCGCGGCCACCGGCGAAGCCTTGTCGCTGGTGTGCGTGGATGAGCACAAGCTGCTGCGCGATATCGAGCGCCTGCTGAAGAAAGAGATCCCGCGCATCGCGATTGCCGGCTATGAGCCGGATCCGTCCATTAAAGCCGAACCTATCCAGAACGGTCGCCAGCAGCGCGGCGGCGGTCGTGGTCAGGGACGCGGCGGCCAGGGCCAGGGGCGCAGCGGACAGCCGCGCAGCCAGAGCAGCGCCCCGCGTCGTCAGGACGGCGAGGCGCCGAAAGCGCGCACTCAGGACGGCAAACCGCCGCGCCGCCGTCGCCCGCGTAAACCGGCTGGCGAATAA	MSFDSLGLNPDILRAVAEQGYVEPTPIQQQAIPAVLQGRDLMASAQTGTGKTAGFTLPLLQRLIQNEPHAKGRRPVRALILTPTRELAAQVGENVRDYSKYLNVRSLVVFGGVSINPQMMKLRGGVDILVATPGRLLDLEHQNAVSLDKVEILVLDEADRMLDMGFIHDIRRVLAKLPPRRQNLLFSATFSDEIKGLAEKLLHNPLEVEVARRNTASEQITQHVHFVDKNRKRELLSQLIGEGNWQQVLVFTRTKHGANHLAEQLNKDGIRSAAIHGNKSQGARTRALADFKSGGIRVLVATDIAARGLDIEELPHVVNYELPNVPEDYVHRIGRTGRAAATGEALSLVCVDEHKLLRDIERLLKKEIPRIAIAGYEPDPSIKAEPIQNGRQQRGGGRGQGRGGQGQGRSGQPRSQSSAPRRQDGEAPKARTQDGKPPRRRRPRKPAGE	PGPT0013740_2175	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS020_02199	2157	dinG_1	COG1199	ATP-dependent DNA helicase DinG	ATGGCTTTGACCGCTGCGCTGAAAGCGCAAATCGCCGCCTGGTATAAGGCGCTTCAGGAACAGATCCCGGACTTTATTCCCCGCCCCCCGCAGCGGCAGATGATCGCTGATGTGGCGAAAACCCTCGCCGGGGATGAGGGCCGGCATCTGGCTATCGAAGCGCCGACCGGCGTGGGTAAAACGCTGTCATATCTGATCCCCGGCATTGCCATCGCCCGTGAGGAACAAAAAACGCTGGTGGTCAGCACCGCCAACGTCGCCCTGCAGGATCAAATCTACAGTAAAGACCTGCCGCTGCTGCGCAAGATTATCCCCGACCTGCGCTTCACCGCCGCCTTCGGTCGCGGACGCTACGTCTGCCCGCGCAATCTGACGGCGCTGGCCAGCACCGAGCCGACGCAGCAGGATCTGCTGGCCTTCCTCGACGACGATCTCACCCCGAACAACCAGGCCGAGCAGAAGCTGTGCGCGACGCTGAAGCAGGATCTCGACAGCTACCGCTGGGACGGCCTGCGCGACCATACCGACAAAGCCATCGACGATGGGCTGTGGAGCCGGCTGAGCACCGATAAGGCCAGCTGCCTGAACCGCAACTGCCACTACTATCGGGAGTGTCCGTTCTTTGTGGCGCGGCGGGAAATTCAGGAGGCGGAAGTGGTGGTGGCCAACCATGCGCTGGTGATGGCGGCGATGGAGAGCGAGTCGGTGCTGCCGGAGCCGAAAAACCTGCTGCTGGTCCTCGACGAAGGCCATCATCTGCCGGACGTCGCCCGCGACGCGCTGGAGATGAGCGCCGAGATCACCGCCCCCTGGTTTCGCCTGCAGCTGGATCTGTTCTGCAAGCTGGTGGCTACCTGCATGGAGCAGTTCCGCCCGAAAACCACGCCGCCGCTGGCCAATGCGGAGCGGCTCGCCGGCCATTGCGAAGAGCTGTTCGAGCTGATTGCGTCGTTGAATAATATTCTCAATCTCTATATGCCCGCCGGTCAGGACGCGGAGCATCGCTTCCCGATGGGCGAACTGCCGCAGGAGGTGATGGAGATCTGCCAGCGGCTGGCGAAGCTCACCGAGACGCTGCGCGGGCTGGCGGAGCTGTTCCTTAACGATCTCAGCGAAAAGACCGGCAGCCATGACGTGGTGCGCCTGCATCGGGTGCTGCTGCAGATGAACCGCGCCCTCGGCATGTTTGAAAGCCAAAGCAAGCTGTGGCGTCTGGCGTCGCTGGCGCAGTCCTCTGGCGCGCCGGTGACCAAATGGGCGACGCGGGTGGTGCGCGACGGCCAGATCCACGTCTGGTTCCACTGCGTCGGCATCCGTGTCAGCGATCAGCTTGAACGACTGCTGTGGCGCAGCGTGCCGCATATCGTGGTGACGTCAGCGACGCTGCGCTCTCTAAACAGCTTCTCGCGCCTGCAGGAGATGAGCGGCCTGAAGGAGAAAGCGGGCGACCGCTTCGTGGCGCTGGATTCGCCGTTCAACCACGTAGAGCAGGGGAAAATTATTATTCCTCAAATGCGCTATGAACCGCTGATGGATAACGAAGAGCAGCACATCGCCGAGATGGCGGCCTATTTTCGCCAGCAGGTGGAGAGCAAGAAACATCTCGGGATGCTGGTGCTGTTCGCCAGCGGGCGAGCGATGAATCGCTTCCTGGAGCATGTGACCGATCTGCGCCTGATGCTGCTGGTGCAGGGCGACCAGCCGCGCTACCGGCTGGTGGAGCTGCATCGCAAACGGGTGGAAAGCGGCGAGCGCAGCGTGCTGGTGGGCCTGCAGTCCTTTGCCGAAGGTCTCGATTTAAAAGGCGATCTGTTAAGCCAGGTGCATATCCATAAAATCGCCTTTCCGCCCATCGACAGCCCGGTAGTGATCACCGAAGGCGAATGGCTGAAAAGCCTCAATCGTTATCCCTTCGAGGTACAGAGTTTGCCCAGCGCCTCCTTTAATCTTATTCAGCAGGTGGGGCGTCTGATCCGTAGCCATCACTGCTGGGGAGAGGTGGTGATTTACGATAAGCGTCTGTTGACCAAAAACTACGGCGCGCGTCTACTGAACGCGTTACCTGTTTTTCCCATAGAGCAGCCGGGCGTCCCGGAGGTTATAGTAAAACGTAAAGCAAAACAGACAGCAAAACAGACAGGCCGCAAACGTCGTTGA	MALTAALKAQIAAWYKALQEQIPDFIPRPPQRQMIADVAKTLAGDEGRHLAIEAPTGVGKTLSYLIPGIAIAREEQKTLVVSTANVALQDQIYSKDLPLLRKIIPDLRFTAAFGRGRYVCPRNLTALASTEPTQQDLLAFLDDDLTPNNQAEQKLCATLKQDLDSYRWDGLRDHTDKAIDDGLWSRLSTDKASCLNRNCHYYRECPFFVARREIQEAEVVVANHALVMAAMESESVLPEPKNLLLVLDEGHHLPDVARDALEMSAEITAPWFRLQLDLFCKLVATCMEQFRPKTTPPLANAERLAGHCEELFELIASLNNILNLYMPAGQDAEHRFPMGELPQEVMEICQRLAKLTETLRGLAELFLNDLSEKTGSHDVVRLHRVLLQMNRALGMFESQSKLWRLASLAQSSGAPVTKWATRVVRDGQIHVWFHCVGIRVSDQLERLLWRSVPHIVVTSATLRSLNSFSRLQEMSGLKEKAGDRFVALDSPFNHVEQGKIIIPQMRYEPLMDNEEQHIAEMAAYFRQQVESKKHLGMLVLFASGRAMNRFLEHVTDLRLMLLVQGDQPRYRLVELHRKRVESGERSVLVGLQSFAEGLDLKGDLLSQVHIHKIAFPPIDSPVVITEGEWLKSLNRYPFEVQSLPSASFNLIQQVGRLIRSHHCWGEVVIYDKRLLTKNYGARLLNALPVFPIEQPGVPEVIVKRKAKQTAKQTGRKRR				NA	NA	NA	NA	NA
BMS020_02200	969	ybiB	COG0547	putative protein YbiB	ATGGAGTACAGCAAAATTATAAAAGAGGTGGGCCGCGGTAAGAATCATGCCCGCGACCTGGATGAAGAGACCGCCCGTGCGCTCTACGCGCGGATGCTGAACGGCGAGGTGCCGGAGCTGGAGCTGGGGGGAATATTAATCGCCCTGCGCATCAAAGGCGAAGGCGAAGCGGAGATGAAAGGCTTTTACGCCGCGATGCAGCAGCATACTCTGCGCCTGACCCCGCCGGCAGGCAAGCCGATGCCGATCGTTATCCCCAGCTACAACGGCGCGCGCAAGCAGGCGAACCTGACGCCGCTGCTGGCGATGCTCCTGCACAAGCTGGGTTTTCCGGTCGTGGTTCACGGCGTCAGTCACGATCCGACCCGGGTGCTGACCGAGACCATTTTTACCCTGCTGGACATTCCGGCTACCCGGCATGCCGGCCAGGCTCAGGCGCAGCTGGAGGGGCATGAACCGGTGTATATCCCGGTGGGCGCCTTCTGCCCGCCGCTGGAGAAACAGCTGGCGATGCGCTGGCGGATGGGCGTGCGCAACAGCGCCCATACGTTGGCCAAACTGGCCACGCCGTTTGGCGAAGGGGAGGCGTTACGTCTCTCCAGCGTATCGCATCCGGAATATGTTCCCAGGGTGGCGAGCTTCTTTCGCGAGACCGGTGGCCGCGCGCTGCTGATGCACGGTACCGAAGGCGAAGTGTACGCCAACCCGCAGCGCTGCCCGCAGATCAGCCTGATCGATGACCAGGGCGTGCGGGCGCTGTGCGACCGTCAGACCGAGGCCGCGGCGGAGGAAGTCATTCTGCCGGCCTCAAAAGATCCCGAAGTGACCGCGCGCTGGATCGAGCGCTGCGTCGCCGGCGTCGAACCGGTACCCCACTCGCTGAAGATCCAGCTTGCCTGCTGTCTGCTGGCCTGCGGGGAGGTCTCAACCCTGGAGCAGGGGCTCAGCCGCGTCAACGACTGCTGGTGA	MEYSKIIKEVGRGKNHARDLDEETARALYARMLNGEVPELELGGILIALRIKGEGEAEMKGFYAAMQQHTLRLTPPAGKPMPIVIPSYNGARKQANLTPLLAMLLHKLGFPVVVHGVSHDPTRVLTETIFTLLDIPATRHAGQAQAQLEGHEPVYIPVGAFCPPLEKQLAMRWRMGVRNSAHTLAKLATPFGEGEALRLSSVSHPEYVPRVASFFRETGGRALLMHGTEGEVYANPQRCPQISLIDDQGVRALCDRQTEAAAEEVILPASKDPEVTARWIERCVAGVEPVPHSLKIQLACCLLACGEVSTLEQGLSRVNDCW	PGPT0007090_1202	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
BMS020_02201	261	bhsA_2		Multiple stress resistance protein BhsA	ATGAAAAACATCAAATATGCTGCCGCTGCCATCGCTCTGACCGCCCTTTCCTTCGGCGCCTTTGCCGCCGAGCCGGTTACCCCCGCTCAGGCTGAAAGCATGAATAAGATCGGCGTGGTGTCTGCGCAAGGCGCAACCACGTTAGATGGTCTGGAAGCGAAACTGGCTGCTAAAGCCGAAGCCGCTGGCGCAACCGGCTATAGCATCACTTCCGCTAACACCAACAACAAACTGAGCGGTACCGCGGTTATCTATAAATAA	MKNIKYAAAAIALTALSFGAFAAEPVTPAQAESMNKIGVVSAQGATTLDGLEAKLAAKAEAAGATGYSITSANTNNKLSGTAVIYK	PGPT0015005_134	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0015005-comC|ycfR|bhsA-K12151	NA	NA
BMS020_02202	171			hypothetical protein	ATGGCATCAGGTTGGGCAGGCGACGGCGCCGTACAGGATCAGATCGACAGCACCATTGACGATGCGGTGGCTCGCGCCCGCCGCGAGCTTCCGCACGGCGAAGCAACAAATTTTGTGATGAATGCGGAGAGCCGATTCCGGAGGCGCGCCGACAGGCGATACCCGGGGTGA	MASGWAGDGAVQDQIDSTIDDAVARARRELPHGEATNFVMNAESRFRRRADRRYPG				NA	NA	NA	NA	NA
BMS020_02203	261	mcbA		putative protein McbA	ATGAAAATCACCTCGCTGCTGTTTGCCGCTGCGCTTGCCGCTCAGGCCGACGCGGCCTCTTCCCTGCCGCCGCCCCCCGTACTGCCCTATGGCGGGCCGCTGCGTCCTGTCGGCACCGTCTCCGCCTCCGGCGCCCGCACCCTTGACGACCTGGTGGCCGCCCTCGCGGATAAGGCCCACCGTCGTGGGGCGATAGCCTGGCGGGTCAATGCCGCCAGCAGCGGTAACCGGCTGTACGGTTCAGCTATAATTTATCAATAA	MKITSLLFAAALAAQADAASSLPPPPVLPYGGPLRPVGTVSASGARTLDDLVAALADKAHRRGAIAWRVNAASSGNRLYGSAIIYQ	PGPT0023365_26	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0023365-mcbA|ybiM-K13650	NA	NA
BMS020_02204	615			hypothetical protein	ATGTACTTTTATCAACCTTCGCAGGGCCACGGCCTGCCGCATGACCCGCTCAACGCAATAATCGGGCCTCGCCCGATAGGCTGGATCGCCTCGCAGGACGCCGAGGGCCAGCGTAATCTGGCGCCATACAGCTTTTTTAACTGCTTTAACTATCGCCCGCCGATCATTGGTTTCGCCAGCAGCGGCTGGAAAGACAGCGTGCGAAATATCGTCGAAACGAAGGAGTTCGTCTGGAACCTGGCGACGCGCCCGCTGGCCGCCGCGATGAACGAAACCTCCGCCTCGATCCCGCACCATGAGGATGAATTCGTGCGCGCCGGACTCACCGCCGCCGCCAGCCGCCTGGTCAAGGCCCCCCGGGTGGCGGAGAGCCCGGTGAACTTTGAGTGCCGCCTGTCGCAATGTATTCAGCTCACCACCGCCGACGGCAACCTTGTCGATACATGGCTGGTGCTCGGCGAAGTGGTCGCCGTGCATATCGATGAATCACTGCTGGAGAACGGCATCTATCAAACCGCCCGCGCTCAGCCGATCCTGCGTGCCGGGGGGCCGAGCGCCTATTACAGTATTGATGACAGCCTGCGTTTTGACATGATCCGCCCGGATGCCCGCTAA	MYFYQPSQGHGLPHDPLNAIIGPRPIGWIASQDAEGQRNLAPYSFFNCFNYRPPIIGFASSGWKDSVRNIVETKEFVWNLATRPLAAAMNETSASIPHHEDEFVRAGLTAAASRLVKAPRVAESPVNFECRLSQCIQLTTADGNLVDTWLVLGEVVAVHIDESLLENGIYQTARAQPILRAGGPSAYYSIDDSLRFDMIRPDAR				NA	NA	NA	NA	NA
BMS020_02205	915	rlmF	COG3129	Ribosomal RNA large subunit methyltransferase F	ATGAAAGCCCAGAAACCGGGGTTACACCCGCGTAACCGCCACCATCAACGCTACGACCTGCCCGCGCTCTGCCAGGCGCATCCTGACCTGCAGGGATACATTACGCTCAATCCGCTGGGTGAGCAGACCATTGATTTTGCCAATCCGCAGGCGGTAAAGGCGTTGAATAAAGCGCTGCTGGCGCATTTCTACGCGGTCAAACACTGGGAAATTCCTGATGGTTTTCTCTGTCCGCCGGTGCCCGGGCGGGCCGATTATATTCATCATCTGGCGGATCTGCTGGCCGGGGACAGCGGCGAAGTGCCGAAGCAAGCCACGATCCTTGATATTGGCACCGGCGCCAACCTCATTTATCCCCTGATCGGCGTTCACGAGTACGGCTGGCGCTTTACCGGCAGCGAAATCAGTTCGGAAGCCTTCGCCAGCGCGCAGGCGATTGTCAATGGCAACCCGGGATTGACCCGGCAGATCCGTCTGCGTCGGCAAAAAGAGAGCCAGGCTATCTTCCACGGCGTGATCCACAAAAACGAGACCTATGACGCCACGCTGTGTAATCCGCCGTTCCATGACTCCGCGGAGAGCGCCCGGGCGGGCGGTGAGCGCAAGCGCCGCAATCTCGGACTCGGCGCCGACAGCGGGCTTAACTTTGGCGGTCAGCAGCAGGAGCTGTGGTGCGAAGGGGGCGAAGTGGCCTTTATCTCGCAGATGATCCGCGAAAGTCAGGCCTTCGCCCGCCAGGTGAAATGGTTTACCTCGCTGGTGTCGCGCGGCGACAATCTGCCGCCGCTCTACCGCCTGCTGACCGAGGTCGGGGCAGTGAAAGTGGTGAAAAAAGAGATGGCCCAGGGGCAAAAGCAGAGCCGCTTTATCGCCTGGAGCTTTATGGACGACGCCAAACGCCGCCGTCCGTTCTAA	MKAQKPGLHPRNRHHQRYDLPALCQAHPDLQGYITLNPLGEQTIDFANPQAVKALNKALLAHFYAVKHWEIPDGFLCPPVPGRADYIHHLADLLAGDSGEVPKQATILDIGTGANLIYPLIGVHEYGWRFTGSEISSEAFASAQAIVNGNPGLTRQIRLRRQKESQAIFHGVIHKNETYDATLCNPPFHDSAESARAGGERKRRNLGLGADSGLNFGGQQQELWCEGGEVAFISQMIRESQAFARQVKWFTSLVSRGDNLPPLYRLLTEVGAVKVVKKEMAQGQKQSRFIAWSFMDDAKRRRPF				NA	NA	NA	NA	NA
BMS020_02206	2196	ybiO	COG0668	Moderate conductance mechanosensitive channel YbiO	ATGCCGTGGATCCTGCTTTTGCTCGCTGCGCTGTTTATTCCCCCGCTTTCCGCCGCCGCCCTGCCCGGCGTGCCGACCGCTAATGCCGATAAAACCAGCGCCAGCGAACCCGATGTAGAACAGAAAAGAGCGGCCTATGCCGCGCTGGCCGACGTGCTGGCCAACGACTCCGCCCGCCAGGAGCTCATTGACCAGCTGCGTAAAGCGGCCGCCACGCCGCCGCCCGACAGCACCCCGACGCTGACGCCGCCGGCGGTGAAAGAAGAGACCACGGTGCTGGAGAACGTCACGCAGATCAGCCGGGAATATGGCGATGAGTTCTCATCGCGCTTCTCCCAGCTGTGGCGCAATATTACCGGCTCGCCGCATAAGCCCTTTAATCCGCAAACCTTTACCAGCGCCGCCTGGCATTTTTTACTGCTGGCCGGGCTGGTGTTTGCCTTCTGGTGGCTGGTACGCCTCGCGGCGCTGCCGCTGTATCGTAAAATGGGCGAATGGGGACGGCATAAAAACCGCGATCGCGGAAACTGGCTCCAGCTGCCGTTGACCATCGCCGGGGCGTTTATCATCGATCTGCTGCTGCTGGCGCTGACCCTGTTTATCGGTCAGCTGTTGAGCGATCGCCTGAATGGCGACAACCCTACTATCGCCTTCCAGCAGAGCCTTTTCCTCAACGCCTTCGCGCTGATCGAATTCTTTAAAGCCATCCTGCGGCTCATTTTCTGCCCGCGCATCCCGGCGCTCAGGCCCTTTAACCTCAGCGACGAGGCCGCCTCCTACTGGAGCCTGCGCCTGAGCGCCCTCAGCAGCCTGATCGGCTACGGCCTGATCGTCGCGGTGCCGATTATCTCCAACCAGGTGAATGTTCAGGTCGGCGCGCTGGCTAACGTCGTCATCATGCTGTGCATTACGCTGTGGGCGCTGTATCTGATTTTCCATAACAAAGCGGTGATTACGCAGGGGCTGATCCATCTGGCTGACCGCTCGCTCTCCTTCTTTAGCCTGTTTATCCGCGCCTTCGCTCTGATCTGGCACTGGCTGGCCTGCACCTACTTTGTGGTGCTCTTTTTCTTTTCCCTGTTCGACCCAGGCAACAGCCTGAAATTTATGATGGGCGCCACCCTGCGCAGCCTGGCGATTATCGGCGGCGCGGCGCTGGTGTCCGGCATTCTGTCGCGCTGGATAGCCAAAACCATCACCCTCTCCCCTGCCACTCAGCGCAACTATCCTGAGCTGCAAAAGCGGCTGAACGGCTGGATCTCCGCGTCGCTGAAGGCAGCGCGTATTCTCACCGTCTGCGTCGCCATCATGCTGCTCCTGAGCGCCTGGGGGCTGTTTGACTTCCGCGAATGGCTGCACAACGATGCCGGGCAAAAAACGGTGGATGTGCTGATCCGTATCGCCCTTATCCTCTTCTTCTCCGCTATCGGCTGGACGGTGCTGGCCAGCCTGATCGAAAACCGGCTGGCCTCGGATATCCATGGCCGCCCGCTGCCCAGCGCGCGGGCCCGGACGCTGCTGACGCTGTTTCGCAACGCGCTGGCGGTGGTGATCAGCACCATCACGGTGATGATTTTGCTCTCGGAGATTGGGGTCAATATCGCGCCGCTGCTGGCGGGCGCCGGGGCGTTGGGGCTGGCCATCTCGTTTGGCGCGCAAACCCTGGTCAAAGACATTATCACCGGCATTTTTATCCAGTTTGAGAACGGGATGAATACCGGCGATCTGGTCACCATCGGTCCCTTGACCGGCACGGTGGAACGGATGTCGATTCGCTCAGTGGGGGTGCGCCAGGATACCGGCGCTTATCACATTATCCCCTGGTCCTCGATCACCACCTTTGCCAACTTCGTGCGCGGCATTGGCTCGGTGGTGGCCAACTATGACGTCGACCGCCATGAGGATCTGGATAAAGCCAGTCAGGCGCTGAAGGCGGCGGTGGACGATCTGCTGGCCCAGGAGGAGATCCGCGGCCTGATCATTGGCGAACCGTCGTTCGCCGGGCTGGTGGGGCTGAGCAATACCGCCTTTACGCTGCGCGTCAGCTTCACCACCCTGCCGCTGAAGCAGTGGACGGTGCGTTTTGCCCTCGACACCCAGGTGAAAAAGCACTTCGACCGCGCCGGGGTTCGCGCCCCGGTACAGACCTGGCAGCAGCTGCCGATGCCGGGCGCCGACAGCCCGGCCGCGGAGTAG	MPWILLLLAALFIPPLSAAALPGVPTANADKTSASEPDVEQKRAAYAALADVLANDSARQELIDQLRKAAATPPPDSTPTLTPPAVKEETTVLENVTQISREYGDEFSSRFSQLWRNITGSPHKPFNPQTFTSAAWHFLLLAGLVFAFWWLVRLAALPLYRKMGEWGRHKNRDRGNWLQLPLTIAGAFIIDLLLLALTLFIGQLLSDRLNGDNPTIAFQQSLFLNAFALIEFFKAILRLIFCPRIPALRPFNLSDEAASYWSLRLSALSSLIGYGLIVAVPIISNQVNVQVGALANVVIMLCITLWALYLIFHNKAVITQGLIHLADRSLSFFSLFIRAFALIWHWLACTYFVVLFFFSLFDPGNSLKFMMGATLRSLAIIGGAALVSGILSRWIAKTITLSPATQRNYPELQKRLNGWISASLKAARILTVCVAIMLLLSAWGLFDFREWLHNDAGQKTVDVLIRIALILFFSAIGWTVLASLIENRLASDIHGRPLPSARARTLLTLFRNALAVVISTITVMILLSEIGVNIAPLLAGAGALGLAISFGAQTLVKDIITGIFIQFENGMNTGDLVTIGPLTGTVERMSIRSVGVRQDTGAYHIIPWSSITTFANFVRGIGSVVANYDVDRHEDLDKASQALKAAVDDLLAQEEIRGLIIGEPSFAGLVGLSNTAFTLRVSFTTLPLKQWTVRFALDTQVKKHFDRAGVRAPVQTWQQLPMPGADSPAAE	PGPT0013695_707	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013695-ykuT|ybiO-K22044	NA	NA
BMS020_02207	723	glnQ_5	COG1126	Glutamine transport ATP-binding protein GlnQ	GTGATTGAATTTAAAAACGTCTCCAAGCACTTTGGCCCGACCCAGGTGCTGCACGATATCTCTCTGAAAATCAATCAGGGTGAAGTGGTGGTCATTATCGGCCCGTCCGGCTCCGGTAAATCGACGATGCTGCGCTGCATCAATAAACTGGAAGAGATCACCAGCGGCGATCTGATTGTCGATGGCCTGAAGGTCAACGATCCGAAGGTGGACGAACGTCTGATTCGTCAGGAAGCCGGGATGGTGTTCCAGCAGTTTTACCTGTTCCCGCACCTCACGGCGCTGGAAAACGTGATGTTTGGCCCGCTGCGGGTACGCGGCGCCAGCAAGCAGGCGGCGGAGAAGCTGGCGAAAGATCTGCTGGCGAAAGTCGGTCTGGCAGAGCGCGCGCATCACTATCCGTCTGAACTCTCCGGCGGCCAGCAGCAGCGTGTGGCCATCGCCCGCGCGCTGGCGGTGAAGCCGAAGATGATGCTGTTTGATGAGCCCACCTCCGCGCTCGACCCGGAACTGCGTCATGAAGTGCTCAAGGTGATGCAGGATCTGGCGGAAGAGGGCATGACGATGGTGATTGTGACCCACGAAATCGGCTTTGCCGAAAAAGTGGCCTCGCGACTGATCTTTATCGACAAGGGACGAATTGCCGAAGACGGCAACCCACAGGAGCTGGTGAACAACCCGCCAAGCCCGCGTCTGCGGGAATTCCTGCAGCACGTCGCCTGA	MIEFKNVSKHFGPTQVLHDISLKINQGEVVVIIGPSGSGKSTMLRCINKLEEITSGDLIVDGLKVNDPKVDERLIRQEAGMVFQQFYLFPHLTALENVMFGPLRVRGASKQAAEKLAKDLLAKVGLAERAHHYPSELSGGQQQRVAIARALAVKPKMMLFDEPTSALDPELRHEVLKVMQDLAEEGMTMVIVTHEIGFAEKVASRLIFIDKGRIAEDGNPQELVNNPPSPRLREFLQHVA	PGPT0000730_782	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000730-glnQ-K10038	NA	NA
BMS020_02208	660	glnP_1	COG0765	Glutamine transport system permease protein GlnP	ATGCAGTTTGACTGGAGTGCCATCTGGCCTGCCATTCCGATTTTGTTGGAAGGCGCCAAAATGACGCTGTGGATTTCCGTCCTCGGCCTGGCCGGCGGCTTGATCATCGGTCTGGTGGCCGGTTTCGCCCGCTGCTTCGGCGGCTGGATCGCCAACCACATCGCGCTGGTGTTTATTGAAATCATTCGCGGCACCCCGATTGTGGTGCAGGTTATGTTCATCTACTTTGCGCTGCCGATGGCCTTTAGCGATCTGCGCATTGACCCCTTCTCCGCGGCGGTAGTGACCATCATGATTAACTCGGGCGCCTATATCGCGGAAATTACCCGCGGCGCGGTGCTCTCCATTCATAAAGGCTTCCGCGAAGCGGGCCTGGCGCTGGGCCTGTCGCGTCGCGAAACCATTCGCCACGTGATCCTGCCGCTGGCGCTGCGCCGCATGCTGCCGCCGCTGGGCAACCAGTGGATCATCAGCATCAAGGACACCTCGCTGTTCATCGTCATCGGCGTCGCCGAACTGACCCGTCAGGGACAGGAGATCATCGCCGGCAACTTCCGCGCGCTGGAAATCTGGAGCGCCGTTGCCGTGATCTACCTGATCATCACCCTGGTCCTGAGCTTTATTCTGCGTCGTCTTGAAAGAAGGATGAAAATCCTGTGA	MQFDWSAIWPAIPILLEGAKMTLWISVLGLAGGLIIGLVAGFARCFGGWIANHIALVFIEIIRGTPIVVQVMFIYFALPMAFSDLRIDPFSAAVVTIMINSGAYIAEITRGAVLSIHKGFREAGLALGLSRRETIRHVILPLALRRMLPPLGNQWIISIKDTSLFIVIGVAELTRQGQEIIAGNFRALEIWSAVAVIYLIITLVLSFILRRLERRMKIL	PGPT0000725_773	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000725-glnP-K10037	NA	NA
BMS020_02209	747	glnH_2	COG0834	Glutamine-binding periplasmic protein	ATGAAGTCTGTATTTAAAGTTTCACTGGCTGCACTGACCCTGGCTTTTGCGGTTTCTTCCCATGCCGCCAATAAGACCCTGGTTGTCGCCACCGATACGGCGTTCGTCCCGTTCGAATTTAAGCAAGGCGATAAGTATGTGGGTTTTGACGTTGACCTGTGGGCGGCCATCGCCAAAGAGCTGAAGCTCGACTACACCCTGAAGCCAATGGACTTCAGCGGCATTATCCCGGCGCTGCAAACCAAAAATATCGATCTGGCGCTGGCGGGGATCACCATTACCGACGAGCGTAAAAAAGCCATCGACTTCTCTGACGGCTACTACAAGAGCGGCCTGCTGGTGATGGTCAACGCAAATAATAACGACATCAAAGATGTGAAAGATCTGAACGGCAAAGTGGTCGCGGTGAAGAGCGGCACCGGCTCCGTTGACTACGCGAAAGCCAATATCAAAACCAAAGATCTGCGTCAGTTCCCGAATATCGATAACGCCTACATGGAGCTGGGTACCGGCCGCGCGGATGCCGTCCTGCACGATACGCCGAACATCCTCTACTTCATCAAAACCGCGGGCAACGGCAAATTCAAAGCGGTAGGTGAATCACTGGAAGCGCAAAACTACGGTATCGCCTTCCCGAAAGGCAGCGACGAGCTGCGTGAGAAAGTGAACGGTGCGCTGAAAACGCTGCGCGAGAACGGCACCTACAACGAAATTTATAAAAAATGGTTCGGCACTGAACCAAAATAA	MKSVFKVSLAALTLAFAVSSHAANKTLVVATDTAFVPFEFKQGDKYVGFDVDLWAAIAKELKLDYTLKPMDFSGIIPALQTKNIDLALAGITITDERKKAIDFSDGYYKSGLLVMVNANNNDIKDVKDLNGKVVAVKSGTGSVDYAKANIKTKDLRQFPNIDNAYMELGTGRADAVLHDTPNILYFIKTAGNGKFKAVGESLEAQNYGIAFPKGSDELREKVNGALKTLRENGTYNEIYKKWFGTEPK	PGPT0000665_902	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000665-glnH-K10036	NA	NA
BMS020_02210	504	dps	COG0783	DNA protection during starvation protein	ATGAGTACCGCTAAACTGGTTAAATCAAAAGCATCTAATCTGGTCTATACCCGCAACGATGTCGCTGACAGCGAAAAGAAAGCGACCATTGAGCTGTTGAATCGCCAGGTGATCCAGTTCATTGACCTGTCCCTTATCACCAAGCAGGCACACTGGAATATGCGCGGTGCGAACTTTATCGCCGTGCACGAAATGCTGGACGGTTTCCGTACTGCGCTCACTGAGCATCTGGATACCATGGCGGAGCGCGCCGTGCAGCTGGGCGGCGTCGCCCTGGGCACCACTCAGGTGATCAACAGCAAAACCCCGCTGCAGAGCTACCCACTGGATATCCATCATGTTCAGGATCACCTGAAAGCGCTGGCTGACCGCTACGCAGTAGTGGCTAACGATGTGCGCAAAGCGATCGGCGAAGCTAAAGACGAAGATACCGCAGATATCTTCACCGCCGCTTCCCGCGACCTGGATAAATTCCTGTGGTTTATTGAAGCGAATATCGAGTAA	MSTAKLVKSKASNLVYTRNDVADSEKKATIELLNRQVIQFIDLSLITKQAHWNMRGANFIAVHEMLDGFRTALTEHLDTMAERAVQLGGVALGTTQVINSKTPLQSYPLDIHHVQDHLKALADRYAVVANDVRKAIGEAKDEDTADIFTAASRDLDKFLWFIEANIE	PGPT0004055_1367	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047	NA	NA
BMS020_02211	888	rhtA	COG5006	Threonine/homoserine exporter RhtA	ATGCCCGGTCCATCCCGAAAAGCGGCGGCATGGTTGCCGATAGTGGTGATTTTAATCGCTATGACCTCGATTCAGAGCGGCGCATCGCTCGCCAAATCGCTGTTCCCGGTGGTCGGCGCCCCGGGAGTTACTGCCCTGCGCCTGGCGCTCGGGACGCTGATCCTGGTGGTGGTGTTCAAGCCCTGGCGGCTACGTTTCTCTCCGGCGCAGCGCGTGCCGCTGCTGCTGTACGGCCTGGCGCTCGGGGCGATGAACTATCTGTTTTATTTATCCCTGCAGCGTATTCCGCTCGGCGTGGCGGTGGCTCTTGAGTTTACCGGCCCGCTGGCGGTGGCGCTTTTCGGCTCGCGCCGCCCACTGGATTTTGTCTGGGTGGCGCTGGCGATCCTCGGACTTTGGTATCTCCTGCCGCTGGGGCAGAACGTGGCGCAGGTGGATTTAACCGGCGCGCTGTTCGCTCTCGGCGCCGGGGCCTGTTGGGCGGTCTATATTCTGACCGGCCAGCGCGCGGGCGAGGAGCATGGTCCAGCCACGGTGGCGATGGGGTCGCTTATCGCCTCGCTGGTCTTTGTCCCGTTAGGTATGGCGCAAGCCACCGATACGCTGTGGCAATGGTCGCTGCTGCCCCTGGGGCTGGGGATTGCCATTCTCTCCACCGCACTCCCCTACTCCCTGGAGATGATGGCCCTGACGCGCCTGCCGACGCGCACCTTCGGTACGCTGATGAGCCTCGAGCCGGCGCTAGCCGCCCTGTCCGGTATGATCTTCCTTGGCGAAACCCTGAACCTCTCCCAGACCCTGGCGCTGGGCGCCATTATCATCGCCTCAATGGGCGCCACGCTGACCATGCAGCGGCAGAGCAAAATCAAGCAAGTCGATATCAATTAA	MPGPSRKAAAWLPIVVILIAMTSIQSGASLAKSLFPVVGAPGVTALRLALGTLILVVVFKPWRLRFSPAQRVPLLLYGLALGAMNYLFYLSLQRIPLGVAVALEFTGPLAVALFGSRRPLDFVWVALAILGLWYLLPLGQNVAQVDLTGALFALGAGACWAVYILTGQRAGEEHGPATVAMGSLIASLVFVPLGMAQATDTLWQWSLLPLGLGIAILSTALPYSLEMMALTRLPTRTFGTLMSLEPALAALSGMIFLGETLNLSQTLALGAIIIASMGATLTMQRQSKIKQVDIN				NA	NA	NA	NA	NA
BMS020_02212	513	ompX	COG3637	Outer membrane protein X	ATGAATAAAATTGCACGTCTTTCAGCACTGGCCGTTGTTCTGGCTGCATCCGTAGGTACTACTGCATTTGCTGCAACTTCTACCGTAACCGGCGGTTACGCGCAGAGCGACATGCAGGGTAAAGCGAACAAAGCTGGCGGTTTCAACCTGAAATACCGTTACGAGCAAGATAACAACCCGCTGGGCGTTATCGGTTCCTTCACCTACACCGAAAAGGATAATAACAGCAACGGTACTTACAACAAAGGTCAGTACTACGGCATCACCGCTGGTCCGGCTTACCGTCTGAACGACTGGGCAAGCATCTACGGCGTAGTGGGTGTTGGTTACGGTAAATTCCAGAACAACAACTTCCCTAATAAATCCGATATGAGCGACTACGGTTTCTCCTACGGTGCTGGTCTGCAGTTCAACCCGATCGAAAACGTTGCCCTGGACTTCTCCTACGAGCAGTCTCGTATTCGTAACGTTGACGTCGGCACCTGGATCGCTGGCGTGGGTTACCGCTTCTAA	MNKIARLSALAVVLAASVGTTAFAATSTVTGGYAQSDMQGKANKAGGFNLKYRYEQDNNPLGVIGSFTYTEKDNNSNGTYNKGQYYGITAGPAYRLNDWASIYGVVGVGYGKFQNNNFPNKSDMSDYGFSYGAGLQFNPIENVALDFSYEQSRIRNVDVGTWIAGVGYRF				NA	NA	NA	NA	NA
BMS020_02213	1581	opgE	COG2194	Phosphoethanolamine transferase OpgE	ATGAATGTCACCACCCTGAAAGATACGCTGGTCGCCCGCCGACTGGCACTGAACCCATGGACAGGATTCTACTTTTTACAATCGCTGTTGATTAACCTGGCGCTGGGCTATGAATTTAGCCTGCTCTATACCGTGGCATTTACCTGCGTGTTACATCTTCTGTGGCGTGCCTTTCCGCGCGTGCAGAAAGGAGTGGTCGGCGCTTATTCTCTGCTGGCGGCCCTCTACTACCCGTTTGGCCAGGCTTACGGCGCGCCCAACTTCAATACCTTGCTGGCGCTGCACGCCACCAACGTGGAAGAGTCCACGGAAATCCTCACCATTTTCCCGTGGTACAACTATCTGCTGGCGGTATTTATCTTCGCGCTGGGGATCATCGCGGTCCGCCGCAGGATCGTCGAGCAGACCCGCTGGGGAAAAATGGAGACCCTGGGCCTGCTGTTCAGCATCGGGATCTTCTTTCTCCAGCCGGTGCAAAATCTCGCCTGGGGCGGTGTATTCAAGGTGATCGATACTGGTTATCCGGCCTTCCGTTTTGTCAAAGACGTGGTGGTGAATAATAACGAGGTGCTGGACGAGCAGGCGCGGATGGCGCAGCTGGCCGGCATGAAAGATAGCTGGCACGTGCTGGCGGTGAAGCCGAAGTACCATCTCTATGTGGTGGTGATCGGTGAAAGCGCCCGCCGCGACGCCCTCGGCGCCTTCGGTGGCCACTGGGACAACACGCCGTTTGCCAGCTCGGTGAACGGGTATCTGTTTAACAACTACGTCGCCGCCAGCGGCTCGACGCAAAAATCCCTCGGCCTGACCCTTAACCGGGTGGTCGATGGCAAACCGCAGTTTCAGGATAACTTTGTCACTCTCGCCAACCGCGCCGGTTTCCAGACCTGGTGGTTCTCCAACCAGGGGCAGATCGGCGAGTACGACACCGCTATCGCCAGTATCGCCAAACGGGCGGATGAAGTGCAGTTCCTGAAAAACGGCGATTTCGAAGCCAATAAAAACACCCAGGACGAGCAGTTACTGAAGCTGACCGAGCAGGTGCTCTCCACCCAGCGTACCCAGCCGCAGCTGATTGTTCTGCATCTGATGGGCTCGCACCCGCAGGCCTGCGACCGGACCAAAGGCAAATATACGGTTTTCGTCCAGTCGAAAGAGACCTCCTGCTATCTCTACAGCATGACGCAAACCGATACCCTGCTGGCTAAGCTCTACAGCCAGTTGCAAAATTCCGGCGACACCTTTTCCCTGACCTACTTTTCCGATCATGGTCTGGCGTTCAAGGAGCGAGGCAAAGAGGTGCAGTATCTGGCGCACGACGATAAGTTCCAGCAGAACTTCCAGGTGCCGTTTATGGTGCTCTCCAGCGATGACAAAGCGCATAAAGTCATTAAGGCGCAGCGCTCGGCAAATGATTTCCTCAGCTTCTTCTCGCAATGGACCGGCATCAAGGCGGCGGAAATCGCCCCGCGCTATCGGTTTATCTCTGAGCAGAAGGCCGGCCCGGTGTATATCACCAACTTCCAGCTGCAGAAGGTGGACTATTCACACCTCGGCAGCGATGAGTTCACCATCAACTAA	MNVTTLKDTLVARRLALNPWTGFYFLQSLLINLALGYEFSLLYTVAFTCVLHLLWRAFPRVQKGVVGAYSLLAALYYPFGQAYGAPNFNTLLALHATNVEESTEILTIFPWYNYLLAVFIFALGIIAVRRRIVEQTRWGKMETLGLLFSIGIFFLQPVQNLAWGGVFKVIDTGYPAFRFVKDVVVNNNEVLDEQARMAQLAGMKDSWHVLAVKPKYHLYVVVIGESARRDALGAFGGHWDNTPFASSVNGYLFNNYVAASGSTQKSLGLTLNRVVDGKPQFQDNFVTLANRAGFQTWWFSNQGQIGEYDTAIASIAKRADEVQFLKNGDFEANKNTQDEQLLKLTEQVLSTQRTQPQLIVLHLMGSHPQACDRTKGKYTVFVQSKETSCYLYSMTQTDTLLAKLYSQLQNSGDTFSLTYFSDHGLAFKERGKEVQYLAHDDKFQQNFQVPFMVLSSDDKAHKVIKAQRSANDFLSFFSQWTGIKAAEIAPRYRFISEQKAGPVYITNFQLQKVDYSHLGSDEFTIN				NA	NA	NA	NA	NA
BMS020_02214	126	mntS		Small protein MntS	ATGAACGAATTCAAGAGGTGCTTAAACGTGTTCAGCCATTCACCCTTTAAAGTACGCTTAATGCTGCTCGGTATGCTGTGCGAGATGATCAACGGTAAACCGCAGCAGGACAAACCCCATCGCTAA	MNEFKRCLNVFSHSPFKVRLMLLGMLCEMINGKPQQDKPHR				NA	NA	NA	NA	NA
BMS020_02215	474	mntR_1	COG1321	Transcriptional regulator MntR	ATGAACCGTCGCGCAGGTAAGCCAATAACAAAAAAAGTGACGCAGTTAGTAAACGTTGAAGAGCACGTTGAAGGGTTCCGCCAGGTGCGGGAAGCGCATCGGCGCGAGCTGATTGACGACTATGTTGAACTGATTTCCGACCTCATCCGCGAGGTGGGCGAGGCGCGTCAGGTGGATATGGCCGCCCGGCTGGGGGTCTCGCAGCCCACCGTCGCCAAGATGCTCAAACGGCTGGCCAGCGTCGGCCTTATCGAACAGATCCCGTGGCGCGGCATATTCTTAACCGCGGAGGGTGAGAAGCTGGCCCAGGAGAGCCGCGAGCGCCATCAAATCGTGGAGAACTTCCTGCTGGCGATCGGCGTCAGTCCGGAGATCGCCCGTCGTGATGCCGAAGGGATGGAGCATCACGTGAGTGAAGAGACGCTGGCGATGTTCCTGAAATTTACCCAAACACAGGGATCTCAGGAAGCATGA	MNRRAGKPITKKVTQLVNVEEHVEGFRQVREAHRRELIDDYVELISDLIREVGEARQVDMAARLGVSQPTVAKMLKRLASVGLIEQIPWRGIFLTAEGEKLAQESRERHQIVENFLLAIGVSPEIARRDAEGMEHHVSEETLAMFLKFTQTQGSQEA	PGPT0003895_115	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
BMS020_02216	1113	ybiR	COG0471	Inner membrane protein YbiR	ATGACTCTTCCCTTCGTCCAGTCGCTGCTGCGCGACCGTTTTCTCCATCTGCTGCTGATTATCGCCTGCGTGCTCAGCGTGATGGTGCCGTTTGTCCCGGCAAGCTGGCCGGCGGCCATTGACTGGCATACCATCATCACCCTCAGCGGCCTGATGCTGTTGACCAAGGGGATTGAACTGAGCGGCTATTTTGACGTGCTGGGGCGTAAAATGGCCCGCCGCTTTGTCACCGAGCGTCAGCTGGCTATGTTTATGGTGCTGGCGGCGGCGCTGCTGTCCACCTTCCTCACCAACGACGTCGCGCTGTTTATTGTGGTGCCCCTGACCCTGACCCTGAAGAAGTGGTGCGCCATCCCGGTAAACCGGCTGATTATTTTCGAAGCGCTGGCGGTGAACGCCGGGTCGCTGCTGACGCCGATCGGCAACCCGCAGAACATCTTGCTGTGGGGACGCTCCGGTCTCTCTTTCCCTGGGTTTATCGGCCAGATGCTGCCCCTGGCGGCGGCAATGATGCTGACCCTGCTGGGGCTGTGCTGGTTCTGTTTCCCGGCAAAGCGGCTTACCTACCAGAGCAGCGATATGGCGCCATCGTGGCAGCCTAAGCTCGTCTGGAGCTGTCTGGGGCTCTATCTGGTGTTCCTGACGGCGCTGGAGATGAATCAGGCGCTGTGGGGACTGGCGCTGGTGCTGCTGGGCTTTCTGGCGCTGGCCCGGGCGGTGATCGTCCATGTTGACTGGTCGCTGCTGCTGGTGTTTATGGTGATGTTTATCGACGTCCATCTGCTGACCCAGCTTCCGGCGCTGCACCAGGTGCTGAGTGGGGTCGGGACGCTCTCCGGCGGTGGACTGTGGCTGACCGCCATCGGCCTGTCGCAGGTGATCAGCAATGTGCCCTCGACCATTCTGCTGCTCAACTATGTCCCACCGTCGATCCTGCTCGCCTGGGCGGTTAACGTGGGGGGCTTTGGTCTGCTGCCGGGCTCGCTGGCCAATATCATCGCCCTGCGCATGGCTGGCGATCGGCGGATCTGGTGGCGTTTCCATCTCTACTCCATTCCCATGCTGCTGTGGGCGGCCCTCACCGGCTATTGGCTCTTCAAACTCTGCGCCTGA	MTLPFVQSLLRDRFLHLLLIIACVLSVMVPFVPASWPAAIDWHTIITLSGLMLLTKGIELSGYFDVLGRKMARRFVTERQLAMFMVLAAALLSTFLTNDVALFIVVPLTLTLKKWCAIPVNRLIIFEALAVNAGSLLTPIGNPQNILLWGRSGLSFPGFIGQMLPLAAAMMLTLLGLCWFCFPAKRLTYQSSDMAPSWQPKLVWSCLGLYLVFLTALEMNQALWGLALVLLGFLALARAVIVHVDWSLLLVFMVMFIDVHLLTQLPALHQVLSGVGTLSGGGLWLTAIGLSQVISNVPSTILLLNYVPPSILLAWAVNVGGFGLLPGSLANIIALRMAGDRRIWWRFHLYSIPMLLWAALTGYWLFKLCA				NA	NA	NA	NA	NA
BMS020_02217	1377	bglA_2	COG2723	Aryl-phospho-beta-D-glucosidase BglA	ATGAACAACAGACTACCGGCAGATTTCTTATGGGGTAATTCCGTCTCCAGCATGCAGACGGAGGGGGCGTGGAACGAGGGCGGCAAGGGGATGTCGGTGTACGATATCCGGCAACCGGCAGAATTCGCTTCCGACTGGAAGGTGGCGACCGACTCCTATCATCGCTTTAGGGAAGATTTCGATCTGATGCAGGATCTGGGCATGAACTGCTACCGTTTTCAGATCGCCTGGAGCCGGGTGTGCCCTGAGGGAGACGGCGAGTTCAATGAAGAGGGCATCGCCTTCTATCATCAGTTTATTGATGAACTGATCGCCCGCGGCATCGAGCCGATGATCTGTCTGTACCACTTCGATATGCCGCTCTCGCTGGCGGAGCGCTACAACGGATTTACCGACCGCCGGGTGATGGACGCCTTTATTCGCTATGGCCAGAAGATGATCGCCTGCTATGGCGACAAGGTGAAATACTGGCTCACCTTTAATGAACAGAATCTGTACCATTCGCCGGAAGCGTTTCTGATTTCCGGCTACCTGCAGGGGGAGAAGACCCTGCGCGAGCTGTACCTGATCCAGCATCATGTGATGATGGCGCACGTCCATCTGACCGATCACCTGCATCAGACGAAGCCGCAGTGTCTGATGGGCGGGATGCTGGCCCACGCCCTGGTTTATCCGGCGACCTGCAAACCACGCGATATCCTGTGCGCCCAGCAGCTGGACGAGTTTTTAAACCAGAACCTGCTGCGGGCTTACGCCGGGGAGGGCTACAGCCCGGAGGTGATGCATTTTGTCGCCACCGAAGGGTTCGATGATATCTATCGTCCGGAGGATCTCGCGCTGATGGCGACGGTGAAGGTCGATTATCTGGCGTTCAGCTATTACGCCAGCCGGACGCTGAACAGCGATGCGATCCCGTCGGGAACGGCGGTTAACAACTATATGCTGTTTGGCAATCAGGATAACCCGTTCCTGAACGCGACAGAATGGAACTGGCAGATCGATCCGCTGGGCTTCCGGACCATCATCACCCGCTATTATAACGACTGGCGCCTGCCGGTTTTCCCGATTGAAAACGGCATCGGGGTGATTGAGTCGTGGGACGGTGAACATCCGGTTGCCGACGATTACCGCATCGCCTACCATCGCGACCATATCAACGCCATGAAAGCGGCCATGTTTGAGGATGGGGCGCAGGTGATCGGCTATCTCGGCTGGGGATTAATCGACATCCTCAGCTCGCAGGGCGATATGCGTAAGCGCTACGGCGTGGTCTACGTCAATCGCGAGAACCATGACCTCAAGGATCTGCGGCGGGTGCCGAAGAAGAGCTATGCGTGGCTGAAGCAGGTGATCCACAGCAATGGCGACGTGATGTAA	MNNRLPADFLWGNSVSSMQTEGAWNEGGKGMSVYDIRQPAEFASDWKVATDSYHRFREDFDLMQDLGMNCYRFQIAWSRVCPEGDGEFNEEGIAFYHQFIDELIARGIEPMICLYHFDMPLSLAERYNGFTDRRVMDAFIRYGQKMIACYGDKVKYWLTFNEQNLYHSPEAFLISGYLQGEKTLRELYLIQHHVMMAHVHLTDHLHQTKPQCLMGGMLAHALVYPATCKPRDILCAQQLDEFLNQNLLRAYAGEGYSPEVMHFVATEGFDDIYRPEDLALMATVKVDYLAFSYYASRTLNSDAIPSGTAVNNYMLFGNQDNPFLNATEWNWQIDPLGFRTIITRYYNDWRLPVFPIENGIGVIESWDGEHPVADDYRIAYHRDHINAMKAAMFEDGAQVIGYLGWGLIDILSSQGDMRKRYGVVYVNRENHDLKDLRRVPKKSYAWLKQVIHSNGDVM	PGPT0019255_4205	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0019255-bglA-K01223	NA	NA
BMS020_02218	717	gmuR	COG2188	HTH-type transcriptional regulator GmuR	ATGACGGCGAAGTATCTGCAAATCGCGCGGGAAATAAAAAAACGGATCATCAGCCAGCAGTATCCTGCCAGCGCGCCGTTACCTGACCAGTTTGCGCTGGCGGCAGAGTTCAGCACCAGCCGGATGACCATCCAGCAGGCGATGCGCCAGTTAATCGTCGAAGGGCTGATCTATACCCGCAAAGGGCAGGGCACCTTTGTGCGGAAAAATTTCCTTCAGCTGTCGCAGTGGGAGCTGCCCGGCAGCGACTATTTCGGCGCCACCAAAACCTGGGAGCATCTTGGCGAGGTACAAAGCGAAGTGGTGCGCTTTGAGGTGCGTTTTCCCACTGACAAGGAGCAGAGTTCGCTGCTGATCGACGCCGATGCCCCGGTGTATGACTTTGTTCGCCTGCGGTTGCTCAACGGGGAACCGGTGTCGCTGGATCTGACGGTCATGCCGGTGGGGCTGGTGCCGGGGCTCAATAAAAGCCATCTGGAAAGCTCGGTGTTTCGCTATATCCAGGAGACGCTGGGGCTGAAGCTGATGGGATCTTACCGCGTGGTGCGTGCGATGAAGCCGGATGAACTGGATAAACAGCATCTTCACTGCGAACCCACCGATCCGGTGCTGGAAGTGGAGCAGGTTATCTATCTGGAAGACGGCACGCCGCTGGAGTACGCCCACTGCCACTATCGCTACGACCACGGCGGGATTATTCTGGTGAATAACGGCTAG	MTAKYLQIAREIKKRIISQQYPASAPLPDQFALAAEFSTSRMTIQQAMRQLIVEGLIYTRKGQGTFVRKNFLQLSQWELPGSDYFGATKTWEHLGEVQSEVVRFEVRFPTDKEQSSLLIDADAPVYDFVRLRLLNGEPVSLDLTVMPVGLVPGLNKSHLESSVFRYIQETLGLKLMGSYRVVRAMKPDELDKQHLHCEPTDPVLEVEQVIYLEDGTPLEYAHCHYRYDHGGIILVNNG				NA	NA	NA	NA	NA
BMS020_02219	990	ybiS	COG1376	putative L,D-transpeptidase YbiS	ATGCGCTCCCATCTACTGTCTCAATCATTAACAAAGGCCTGTGTGGCGTTGATTTCGCACACGACATTAAAAACTATGAAATTATCTACACTCTTAGCGGCAGCCTTCGCCATCGTAGGCTTTTGCAATACAGCGTCTGCTGTCACCTATCCTTTGCCAACCGATGGCAGCCGTTTGGTTGGTCAGAACCAGGTCATCACCATTCCGGATGATAACAAGCAGCCGCTGGAATACTTCGCGGCGAAATATCAGATGGGGCTTTCCAACATGCTGGAAGCCAACCCGGGGGTGGATACCTATCTGCCGAAGGGCGGTAGCGTCCTGAACATCCCTCAGCAGCTGATCCTGCCGGATACCGTCCATGAAGGGATCATCATCAACAGCGCCGAAATGCGTCTGTACTACTACCCGAAAGGCACCAACACCGTGATTGTTCTGCCGATCGGTATCGGCCAGTTAGGCAAAGACACGCCAATCAACTGGACCACCAAAGTCGAACGTAAGAAGGCTGGCCCGACCTGGACGCCGACCGCCAAGATGCATGCGGAATACGCTGCCGCCGGCAACCCGCTGCCAGCCGTCGTACCGGCCGGTCCGGATAACCCGATGGGCCTGTACGCGCTGTATATCGGCCGTCTGTACGCCATCCACGGTACCAACGCTAACTTCGGCATCGGCCTGCGCGTGAGCCATGGCTGCGTACGTCTGCGCAACGATGACATCAAATTCCTGTTTGAGAACGTGCCGGTCGGCACCCGCGTGCAGTTTATCGATGAGCCGGTAAAAGCCACCACCGAGCCGGACGGCAGCCGTTACATCGAGGTTCACAACCCGCTGTCGACCACCGAAGCGCAGTTCCAGGGCGGCGAGATCGTGCCGATCACCCTGACTCAGCCGATACAGGCGATCACCAGCCAGTCTGATGTCGATCAGAACGTGGTCGAGCAGGCTATCCAGAACCGCTCCGGTATGCCGGTGCGTCTGAACTAA	MRSHLLSQSLTKACVALISHTTLKTMKLSTLLAAAFAIVGFCNTASAVTYPLPTDGSRLVGQNQVITIPDDNKQPLEYFAAKYQMGLSNMLEANPGVDTYLPKGGSVLNIPQQLILPDTVHEGIIINSAEMRLYYYPKGTNTVIVLPIGIGQLGKDTPINWTTKVERKKAGPTWTPTAKMHAEYAAAGNPLPAVVPAGPDNPMGLYALYIGRLYAIHGTNANFGIGLRVSHGCVRLRNDDIKFLFENVPVGTRVQFIDEPVKATTEPDGSRYIEVHNPLSTTEAQFQGGEIVPITLTQPIQAITSQSDVDQNVVEQAIQNRSGMPVRLN	PGPT0023750_63	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-L|D_TRANSPEPTIDASE_ACTIVITY,PGPT0023750-ybiS-K19235	NA	NA
BMS020_02220	786			hypothetical protein	ATGACCACCAGCCAACCGCGACATCCGGCCTTTTTATCCCTGCAGGGCGGCATTAATTTTCGCGACCTGGGCGGCCAGCGCGCCGCCGACGGACGCCGGGTACGCAGCGGCAAGCTGCTACGCTCCGGTGCGCTAAACCGGCTAACGGCAGAGGATCTCGACCACCTGGATACCCTGCCGCTCAGCCGGGTGCTCGACTACCGCGACCCCGGTGAAGTACAGCGCACGCCGGACAAACTGAGCCCGCTCACTCACTATCTCAACGCGCCGGCCAATCCGCCGATCGGCGAGGTCAACGCGAAGGTCACCGAGCTGAATGCCGCCACCCTTAATGCGCTGAACGGCGAGCAGTTTATGCTGCAACTCTATCGCCAGCTGCCGTTTAACAATCCGGCCTATCGCCAGCTCGCCGCATGGCTGACGACCCCTTTCGACGGCGCCTTGCTGCAACACTGCGCGGTCGGTAAAGATCGCACCGGCGTCGGCTGCGCGTTAACCCTGTTCGCCGTCGGATGCGACAGCGAGACGGTGATGGAGGAGTATCTCCTTACCCATGGCATGCTGACGCAGGTGGAGGCCTGGATGCTGGAGATGCTCGGCAACGACCTGACGGCCCAGGGGCGCCAGAGCCTGGCGGCCATCCTGACGGTGAAAGAGTCCTATCTCGCCGCCGCGCTGTCGGCTATTCAGCAGCGCTATGGCAATGTCGACGCCTGGCTGGCGGAAGAGTACCAGCTTACCGCCCCGGTCCGCGCGGCGCTGCAGGCCCGGCTGCTGGAAGACTAA	MTTSQPRHPAFLSLQGGINFRDLGGQRAADGRRVRSGKLLRSGALNRLTAEDLDHLDTLPLSRVLDYRDPGEVQRTPDKLSPLTHYLNAPANPPIGEVNAKVTELNAATLNALNGEQFMLQLYRQLPFNNPAYRQLAAWLTTPFDGALLQHCAVGKDRTGVGCALTLFAVGCDSETVMEEYLLTHGMLTQVEAWMLEMLGNDLTAQGRQSLAAILTVKESYLAAALSAIQQRYGNVDAWLAEEYQLTAPVRAALQARLLED	PGPT0014530_1625	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
BMS020_02221	1593	ybiT	COG0488	putative ABC transporter ATP-binding protein YbiT	GTGCTAGTATCCAGCAACGTTACCATGCAGTTTGGCAGTAAGCCGCTGTTCGAAAATATCTCCGTTAAATTTGGCGGCGGCAACCGTTATGGTCTGATCGGCGCCAACGGCAGCGGTAAATCGACCTTTATGAAGATCCTCGGCGGCGATCTCGAACCGACGCTGGGCAACGTTTCTCTCGACCCGAACGAGCGCATCGGTAAGCTGCGTCAGGATCAGTTCGCCTTTGAAGCGTTCACCGTGCTGGATACGGTCATCATGGGCCACGGCGAGCTGTGGGAAGTGAAGCAGGAGCGCGATCGCATCTATTCCCTCGCCGAGATGAGCGAAGAAGATGGCTATAAAGTGGCCGACCTGGAAGTGAAATATGGCGAAATGGATGGCTACTCTGCTGAAGCGCGCGCGGGCGAACTGCTGCTGGGCGTGGGCATTCCGGTTGAACAGCATTACGGCCCGATGAGCGAAGTCGCCCCAGGCTGGAAGCTGCGTGTCCTGCTGGCGCAGGCGCTGTTCTCTAACCCGGACATTCTGCTGCTCGATGAACCGACCAACAACCTGGACATCGACACCATTCGCTGGCTGGAGCAGACGCTGAACGACCGCGACAGCACCATGATTATCATCTCGCACGACCGTCACTTCCTGAACATGGTTTGCACCCACATGGCGGATCTGGACTACGGCGAGCTGCGCGTCTATCCGGGCAACTACGATGAATACATGACGGCGGCCACCCAGGCGCGTGAACGTCTGCTGGCAGACAACGCCAAGAAAAAAGCGCAGATTGCCGACCTGCAGTCCTTCGTTAGCCGCTTCAGCGCCAACGCCTCTAAATCGCGTCAGGCCACCTCGCGCGCGCGTCAGATTGACAAAATCAAGCTGGAAGAGGTTAAAGCCTCCAGCCGTCAGAACCCGTTTATCCGCTTCGAGCAGGACAAGAAACTGTTCCGTAACGCGCTGGAAGTGGAAGCCCTCACCAAAGGCTTTGAAGACGGTCCGCTGTTCAAAAACGTCAACCTGCTGCTGGAAGTGGGCGAGAAGATTGCCATTCTGGGCGCCAACGGCGTGGGTAAATCCACGATGCTGAAAACCCTGGTGGGTGAACTGCAGCCGGACAACGGCACCGTGAAATGGTCTGAAAACGCGCAACTCGGCTACTACGCGCAGGATCATGAGTACGAGTTCGAAAACGACCTGACGGTCTTCGAGTGGATGAGCCAGTGGAAACAGGAAGGCGACGACGAGCAGGCGGTGCGCAGTATCCTTGGTCGACTGCTGTTTAGCCAGGATGACATCAAGAAGCCGGCGAAAGTATTGTCCGGTGGTGAGAAGGGCCGCATGCTGTTTGGTAAGCTGATGATGCAGAAGCCAAACATCCTGATAATGGATGAACCGACCAACCACCTGGATATGGAATCCATCGAATCGCTGAACATGGCGCTGGAGATGTATCAGGGTACCCTGATCTTCGTCTCCCACGACCGTGAGTTCGTCAGCTCGCTGGCCACCCGCGTGCTGGAGATTACCCCGGAACGGGTGATCGACTTTAGCGGCAACTACGAAGACTACCTGCGCAGCAAAGGTATCGAGTAA	MLVSSNVTMQFGSKPLFENISVKFGGGNRYGLIGANGSGKSTFMKILGGDLEPTLGNVSLDPNERIGKLRQDQFAFEAFTVLDTVIMGHGELWEVKQERDRIYSLAEMSEEDGYKVADLEVKYGEMDGYSAEARAGELLLGVGIPVEQHYGPMSEVAPGWKLRVLLAQALFSNPDILLLDEPTNNLDIDTIRWLEQTLNDRDSTMIIISHDRHFLNMVCTHMADLDYGELRVYPGNYDEYMTAATQARERLLADNAKKKAQIADLQSFVSRFSANASKSRQATSRARQIDKIKLEEVKASSRQNPFIRFEQDKKLFRNALEVEALTKGFEDGPLFKNVNLLLEVGEKIAILGANGVGKSTMLKTLVGELQPDNGTVKWSENAQLGYYAQDHEYEFENDLTVFEWMSQWKQEGDDEQAVRSILGRLLFSQDDIKKPAKVLSGGEKGRMLFGKLMMQKPNILIMDEPTNHLDMESIESLNMALEMYQGTLIFVSHDREFVSSLATRVLEITPERVIDFSGNYEDYLRSKGIE				NA	NA	NA	NA	NA
BMS020_02222	2364			hypothetical protein	ATGAAGACGTTGAAACACTGGAGTTTACATCAACAGCTGGAGCATCACGTTGAACTGACGGTCGATGGCCAGCACACCCTGTGCCTGTACGTACTGGAAGAGAATCTATTCCGCGTGCTGCTGAAACGCCAGGGCCAGCTGGCGCTGGATCGCACCTGGAGCATCGCTCCGCAGCAGGATGTGCCGTGGGAAGGCCGCGCCCGGGATGACCTCAGCGGTTTTAGTCTCCCGGCCTGGCAGCTGACCCAGGAGGGCGATACGCTGACCATCGCCACCCGCCAGCTGCGCGTCACCGTCCATCAGCCGCTGTGGCTGGAGTGGAGCTATCGCGACGATGCCGGGGAATGGCAGCAGCTTGCCAACGACCGTCCCACCAGCGCCTATCTGGCCAATGCCCACGGCGACGGCGTCGCCCACTATCTGAGCCGCCGCAAAGACGAGCGTTTCTATGGCCTGGGCGAAAAGGCCGGCGACCTGCAGCGCACCGGTAAGCGTTATGAAATGCGCAACCTTGATGCCATGGGCTACAACGCCGCCAGCACCGACCCGCTGTATAAACATATTCCGTTCACCATCACGCAACGCAGCGACGTTAGCTATGGCCTGTTTTACGACAACCTGAGCAGCTGCTGGCTGGATTTGGGTAACGAAATCGACAACTATCATACCGCCTATCGCCGCTGGCAGGCGGAAGCCGGCGATATCGATTACTACCTGTTCACCGGTAAACAGGTGCTGGATGTGACCAAAGCCTTCGTCCGTCTGACCGGTAAAACCCTGTTCGGGCCCAAATGGAGCCTCGGCTACAGCGGCTCGACCATGCACTATACCGACGCGCCGGATGCGCAAAATCAGCTGATGAACTTCATCCGCCTGTGCGATGAGCACGCTATTCCGTGCGATTCGTTCCAGCTCTCTTCCGGCTATACCTCGATTAACGGCAAGCGCTACGTCTTTAACTGGAACCACGACAAGGTGCCGCAGCCGAAAGTGATGAGTCAGTCGTTCCACGACGCCGGGCTGAAGCTGGCCGCCAATATCAAACCCTGCCTGCTGCAGGACCATCCGCGCTATGGCGAAGTGGCGGAGCGCGGTCTCTTCGTGCGCGATTCGCAAACCGACGCTCCGGAGCGTTCCAGCTTCTGGGACGATGAAGGATCGCATCTCGACTTTACCAATCCGCAAACCGTGGCCTGGTGGCAGGAAGGGGTCACCAGCCAGCTGCTGGAGATGGGCATTGATTCGACCTGGAACGATAATAACGAGTATGAGGTGTGGGACGGCGAAGCGCGCTGCTACGGCTTTGGCCGCGAAATCGCCATCAAGCATATTCGCCCGGTGATGCCGCTGCTGATGATGCGCGCCTCGATGGAGGCCCAGCAGCGCTTTGCGCCGCAAAAGCGCCCGTATCTCATCTCCCGCTCCGGCTGCGCCGGGATGCAGCGCTACGTCCAGACCTGGAGCGGCGATAACCGCACCAACTGGGATACGCTGCGCTATAACATCCGCATGGGGCTGGGCATGAGCCTTTCCGGGCTGTTTAACGTCGGCCACGACGTCGGCGGTTTCTCCGGCGATAAACCTGAGCCGGAGCTGTTCGTGCGCTGGGTACAAAACGGCGTGATGCACCCGCGCTTTACTATTCATTCGTGGAATGACGACCAGACGGTCAACGAAGCCTGGATGTATCCGGCCGTCACCCCGGCCATTCGTTCCGCTATTGAGCTGCGCTACCGCCTGCTGCCCTATCTGTACACCCTGCTGTGGCAGGCGCATGCTGACGACGAGCCGATGCTGCGCCCGACCTTCCTCGATCATCAGCACGACGCGCAGACCTTCGCCGAATGCGATGACTTCCTGCTGGGCCGCGATCTGCTGGTGGCCAGCGTGGTCGAGCCTGGCGCCCGCCAGCGTGAGGTGTGGCTACCGGATAATCAGGCCGGATGGTACGATTTCTACAGCCACCAGTGGTTCGCCGGCGGCCAGTGGGTCACCCTCGACGCGCCGCTGGAAACGCTGCCGCTGCTGGTACGCGCCGGGGCCGGACTGCCGCTCAGCGAGCGCATCCGTCATGTTGCTGCGCAACAGGACGATCGCCGCGAACTGCAGCTGTTCCCGCTGAAAGGCGTCGGAACCACTTCGGGTCTGCTGTTTGAGGATGACGGCGAAAGCTGGGGCTATAAACAGGGCGATGCGCTGTGGCTGGAGTGGGAAATGGCGTGCGACAGCAGCACCATCAACCTGAAGGTCAACGCCCGCGGCAATTATCGCCCGGCGTGGAAAGCGCTGAAGCTGTCATTACCGGCGGGAGAAAAACGCAAACTGCTGGTGAATGGCGTCGAAGGAACGGAGTGGAGGCTCTGA	MKTLKHWSLHQQLEHHVELTVDGQHTLCLYVLEENLFRVLLKRQGQLALDRTWSIAPQQDVPWEGRARDDLSGFSLPAWQLTQEGDTLTIATRQLRVTVHQPLWLEWSYRDDAGEWQQLANDRPTSAYLANAHGDGVAHYLSRRKDERFYGLGEKAGDLQRTGKRYEMRNLDAMGYNAASTDPLYKHIPFTITQRSDVSYGLFYDNLSSCWLDLGNEIDNYHTAYRRWQAEAGDIDYYLFTGKQVLDVTKAFVRLTGKTLFGPKWSLGYSGSTMHYTDAPDAQNQLMNFIRLCDEHAIPCDSFQLSSGYTSINGKRYVFNWNHDKVPQPKVMSQSFHDAGLKLAANIKPCLLQDHPRYGEVAERGLFVRDSQTDAPERSSFWDDEGSHLDFTNPQTVAWWQEGVTSQLLEMGIDSTWNDNNEYEVWDGEARCYGFGREIAIKHIRPVMPLLMMRASMEAQQRFAPQKRPYLISRSGCAGMQRYVQTWSGDNRTNWDTLRYNIRMGLGMSLSGLFNVGHDVGGFSGDKPEPELFVRWVQNGVMHPRFTIHSWNDDQTVNEAWMYPAVTPAIRSAIELRYRLLPYLYTLLWQAHADDEPMLRPTFLDHQHDAQTFAECDDFLLGRDLLVASVVEPGARQREVWLPDNQAGWYDFYSHQWFAGGQWVTLDAPLETLPLLVRAGAGLPLSERIRHVAAQQDDRRELQLFPLKGVGTTSGLLFEDDGESWGYKQGDALWLEWEMACDSSTINLKVNARGNYRPAWKALKLSLPAGEKRKLLVNGVEGTEWRL	PGPT0018560_1329	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
BMS020_02223	1302	exuT_3		Hexuronate transporter	ATGAGTCAAGGCCTCAACAATGATATCGCGGTCAGCAAAACGCGCCGGGTGGTAAAAAACCTGCGCTGGTGGGTGCTGGTCCTGTTTTTACTTGGCGTCACCGTCAACTACATCACACGCAACTCGCTGGGGATTATCGCCCCGGAACTGAAAGCGACGCTCGGTATTACCACCGAACAATATTCCTGGATCGTCGGCGCGTTTCAGTTGGCTTACACGATTTTCCAACCGCTCTGTGGCTGGCTTATCGACGTCATCGGCCTGAAGCTCGGGTTTATGATCTGCGCCACCCTGTGGGCGCTGGCCTGCATCGCCCACGCCGGGGCCGGCAGCTGGCTGCACCTGGCTATATTGCGCTTCTTTATGGGCGGGGCCGAGGCGGCCGCCACCCCGGCCAACGCCAAGACCATCGGCGAGTGGTTCCCGAAGTCTGAACGGCCAATCGCCGCCGGCTGGGCTGGCGTCGGGTTCTCCATCGGCGCCATGCTCGCTCCGCCGATCATCTACTTCGCCCATGCCTCCTTCGGCTGGCAGGGGGCGTTTATGTTTACCGGCGCGCTGGCCTTGCTGTGGGTGGTGCTGTGGTGGGCCTTCTATCAGAACCCGGAAAAGCACCCCAATCTCAGCAAAAGCGAGCTCGAGTACATCAAGCAGGATAACGAAGCGCCGCCGGTGAAACAGCCCTTCTTTACCGCACTCAAAACCGTCTCGAAGAATAAACGTTTCTACGGGATCGCCATTCCCGCATTTATGGCCGAGCCCGCCTGGGCGGTGCTGAGCTTCTGGGTACCGCTATACCTGGCCAAAGAGCACGGCATGGATCTCAAGCAGATTGCCATGTTCGCCTGGCTGCCGTTCCTTGCCGCCGACCTCGGCAGCGTGGTCAGCGGCTACCTCACCCGCCTGTACGTTCGCTGGTTCGGCTGTACGCGAGTCAACTCGGTGATCGCCAGCTCGGTGACCGGCGCGTTTCTGATGATCTCCCTGGCCCTCGTCGCTATCACCCGCGATCCCTATATCACCATCGTCCTGATCTCCATTGGCGGCTTCGGGCATCAGATCATCTCCTGCATGCTCAGCGCGCTGGTGGTGGAGTCGTTCGACAAGGGACAAATGGCGACGGTGAACGGTATGCGCGGATCCGCGGCGTGGATCGCCAGCTTCCTGTTCTCGTTATTAATCGGGGTGACCGCCGACAAAATTGGCTTCAACCCGCTGTTCATCGCCATGGGTTTCTTTGACCTGATTGGCGCCGTTTTCCTGGTGGCATTTATTGCTGAACGTCGCGCCAAGCGCGCCTAA	MSQGLNNDIAVSKTRRVVKNLRWWVLVLFLLGVTVNYITRNSLGIIAPELKATLGITTEQYSWIVGAFQLAYTIFQPLCGWLIDVIGLKLGFMICATLWALACIAHAGAGSWLHLAILRFFMGGAEAAATPANAKTIGEWFPKSERPIAAGWAGVGFSIGAMLAPPIIYFAHASFGWQGAFMFTGALALLWVVLWWAFYQNPEKHPNLSKSELEYIKQDNEAPPVKQPFFTALKTVSKNKRFYGIAIPAFMAEPAWAVLSFWVPLYLAKEHGMDLKQIAMFAWLPFLAADLGSVVSGYLTRLYVRWFGCTRVNSVIASSVTGAFLMISLALVAITRDPYITIVLISIGGFGHQIISCMLSALVVESFDKGQMATVNGMRGSAAWIASFLFSLLIGVTADKIGFNPLFIAMGFFDLIGAVFLVAFIAERRAKRA	PGPT0017205_710	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_HEXURONATE_TRANSPORT,PGPT0017205-exuT-K08191	NA	NA
BMS020_02224	1173	cytR_2	COG1609	HTH-type transcriptional repressor CytR	ATGACCGGGATCTCAAATTTTGCGCTGTCATTTGCTTACAGGGAGCGCTTTGGCGATTATGAAAATTCTTTCATTTTCCAATCGGAGCTGGATCACAAAATGGATAAAAAGCTGCGCGTCGCCGAAATCGCCGCCCGCACCGGGCTGTCGGCCAGTACCGTTTCGCGCGTCCTGGCCGGGAAGGCGAATACCAGCGACAAGGCGCGCCGGGCGGTGCTGGAGTGCGCCCGCGAGCTGGGGGTCATGCAGGGACTGGCCGCCGGACGTCTGTTGCTCAATAATCTACTGGTGTTTGCCCCACAGCGCGCCTTCGATGAGCGGTCGGATATCTTCTACTACCGGGTGATCCAGAGCATCAATAACGCGCTGGCGGCGCATGAAGTGCGCCTGCGCTACTGCGCGCTGGACGAGAACGACAGCGACGCCAATCTGTTTCTTGCCCGCATGAACGAAGCGGAGACCCAGGCCGCGGTGCTGCTGGGGATCGACGATCCGCATATTCATGGCCTGGCGGCGGACCTGGGCAAACCCTGCGTATTGATCAACTGTCGGGATGAAGGGATGCGGCTGTCGTCCATTGCCCCCGATCATCGTCTGATTGGCCTGTGCGCCGCCCGCTATCTGTTTGATATGGGGCATCGCGTGGTGATGAACGTCATGTGCCTGCGCCGCTATACCATGGAGCTGCGGCTGGGGGGGATCCAGGAGGCGTGGCGCGCGCGCAATTTGCGCTTTACCGCCAGCCGGGATCTCATCAGCGTCGCCAACTTTAGCGCCAGAGAGACCGAAGAGCAGGTGGGGGCCTGGCTTGATGGCTTACAGGGCAGGCCGTTGCCCACCGCTTTCCTGGTGGGCGGCGATTTCATGGCCGCCGGCACGGTCAGCGCATTGCAAAAGCGCGGCCTGCGGGTGCCGCAGGATGTCTCGGTGATGAGCATCGACGGGTTTAATCTGGCGGCGATCCAGGAGGTGCCGCTGACCGCGGTGCATGTGCCGCGGGATGAGCTGGGCAGCGAGGCGGTGCACCTCCTGCAGCAGCGCCTGCTGCGCCCGGAGGCGCCGCACGGTTCGCTGCTGCTGCACGGCACGCTGGTGGTGCGCGATTCGGTACGGCGGATCCGGCCGGGCAAAGGCCATACTGCCGTGGAGCCGCAGGGGCTGTATGACGATTAA	MTGISNFALSFAYRERFGDYENSFIFQSELDHKMDKKLRVAEIAARTGLSASTVSRVLAGKANTSDKARRAVLECARELGVMQGLAAGRLLLNNLLVFAPQRAFDERSDIFYYRVIQSINNALAAHEVRLRYCALDENDSDANLFLARMNEAETQAAVLLGIDDPHIHGLAADLGKPCVLINCRDEGMRLSSIAPDHRLIGLCAARYLFDMGHRVVMNVMCLRRYTMELRLGGIQEAWRARNLRFTASRDLISVANFSARETEEQVGAWLDGLQGRPLPTAFLVGGDFMAAGTVSALQKRGLRVPQDVSVMSIDGFNLAAIQEVPLTAVHVPRDELGSEAVHLLQQRLLRPEAPHGSLLLHGTLVVRDSVRRIRPGKGHTAVEPQGLYDD	PGPT0014791_15	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA	NA	NA
BMS020_02225	1266	ybiU		putative protein YbiU	ATGGCTGCTCTCCCGACCCACGAAACACTCCCCGCCGACCACAAAGCGGCGATTCGCCAGATGAAGCAGGCGCTGCGGGCGCAAATCGGCGACGTCCAGGCAGTGTTCGATAAGCTCTCAGCGCGCATCAGCGAGCGCCTGCAGGAGATTGAGACGCTGAAAGCCGCAGGCCAGGAGGTCTGGCCAACCATTCCGTTCCGCGATATCGCCGAGGGAACCGTGAGCGATGCCCAGCGCGCGGCCATTAAGCGCCGGGGCTGCGCGGTGATCAAAGGCCACTTTCCGCGCGAACAGGCGCTGGCCTGGGATACCGCGATGCTGGAATATCTGGATCTGAACCATTTCGACGAGGTCTACAAAGGACCAGGCGACAGCTTCTTCGGTACGCTTGAGGCTTCGCGGCCGGAAATCTATCCCATCTACTGGTCGCCCTCGCAAATGCAGGCCCGCCAGAGCGATGAAATGGCGGCGGCGCAGTCCTTCCTTAACCGCCTGTGGCGCTTTGAGCAGGACGGCAAGCGCTGGTTCGATCCGGACGTCAGCGTCATTTACCCCGACCGCATTCGCCGCCGTCCGCCGGGAACCACCTCGAAAGGGCTGGGCGCGCATACCGATTCCGGTGCGCTGGAGCGCTGGCTGCTCCCCGCCTACCAGCAGGTCTTCGCCAACGTCTTTAACGGTCATGTCGACGCTTACGATCCATGGGACGCCGCGCACCGTACTGAAGTTGAAGAATACACTGTCGACAACACCACCAAGTGCTCGGTGTTCCGCACTTTCCAGGGCTGGACCGCGCTGTCGGATATGATCCCGGGTCAGGGACTGCTGCACGTGGTGCCGATCCCCGAGGCGATGGCCTATGTGCTGCTGCGCCCGCTGCTTGACGATGTGCCGGAGGATGAACTGTGCGGCGTCGCGCCGGGCAGAGTGCTGCCGATCTCTGAGCAGTGGCACCCGCTGCTGATCAAAGCCCTCAGTTCGATCCCGGCGCTGAACGCTGGCGATTCCGTCTGGTGGCACTGCGACGTCATTCACTCGGTGGCGCCGGTGGAAAATCAGCAGGGCTGGGGCAATGTGATGTACATTCCGGCGGCGCCGATGTGCGAGAAGAACCTCGCCTACGCGCAGAAAGTGAAAATCGCTCTGGAAAAAGGGGCCTCGCCGGGTGATTTCCCGCGCGAGGACTATGAGGCCAGCTGGCAGGGGCGCTTCACCCTGGAGGATCTGAACATCCACGGCAAACGGGCGCTGGGTATCGCGGTTTAA	MAALPTHETLPADHKAAIRQMKQALRAQIGDVQAVFDKLSARISERLQEIETLKAAGQEVWPTIPFRDIAEGTVSDAQRAAIKRRGCAVIKGHFPREQALAWDTAMLEYLDLNHFDEVYKGPGDSFFGTLEASRPEIYPIYWSPSQMQARQSDEMAAAQSFLNRLWRFEQDGKRWFDPDVSVIYPDRIRRRPPGTTSKGLGAHTDSGALERWLLPAYQQVFANVFNGHVDAYDPWDAAHRTEVEEYTVDNTTKCSVFRTFQGWTALSDMIPGQGLLHVVPIPEAMAYVLLRPLLDDVPEDELCGVAPGRVLPISEQWHPLLIKALSSIPALNAGDSVWWHCDVIHSVAPVENQQGWGNVMYIPAAPMCEKNLAYAQKVKIALEKGASPGDFPREDYEASWQGRFTLEDLNIHGKRALGIAV				NA	NA	NA	NA	NA
BMS020_02226	816	ybiV	COG0561	Sugar phosphatase YbiV	ATGACCGTTAAAGTTATCGTCACCGATATGGACGGAACTTTTCTCAATGACGCCAAAACCTACGACCGCTCACGGTTTCTGGCGCAATTCGCCCAGCTGCAGCAGCGCGGCATTGAATTCGTTGTCGCCAGCGGCAACCAGTACTATCAGCTGATCTCCTTCTTCCCGGAGATCCGCGAGCAGATCTCGTTCGTCGCCGAAAACGGCGCGCTGGTCTTTGAGCATGGTAAGCAGCTGTTCCACGGCGAACTGACCCGCCACGAATCGCAGGTGGTGATTGGCGAATTACTCAAAGATCCGCAGCTGAACTTCGTCGCCTGCGGCCTGCACAGCGCCTACGTGAGCGATAACGCCCCGGACGCCTTCGTCGACCTGATGTCAAAGCACTACCACCGTCTGCAGCGGGTAAGCGACTATCACGCCATCGACGATACGCTATTCAAATTTTCTCTGAACCTGCCGGACAGCGAGATCCCGCAGCTGATCGATAAACTGCACGTCTCGCTCGACGGCATTATGAAGCCGGTCACCAGCGGCTTTGGCTTTGTCGATTTGATTATTCCCGGTCTGCATAAAGCCAACGGCATCAGCCGCCTGCTCAAGCGCTGGAACCTGTCGCCGCAGCAGTGCGTGGCCATCGGCGACAGCGGCAACGACGCCGAAATGCTGAAGCTGGTGAAATACGCTTTCGCCATGGGTAACGCCGCCGACAGCATCAAAGCTATCGCCGGATACGCGACCGACGATAATAATCATGACGGCGCGCTGAACGTCATTCAGGCCGTCCTCGATAACCGCGCTCCCTTCAACGCCTGA	MTVKVIVTDMDGTFLNDAKTYDRSRFLAQFAQLQQRGIEFVVASGNQYYQLISFFPEIREQISFVAENGALVFEHGKQLFHGELTRHESQVVIGELLKDPQLNFVACGLHSAYVSDNAPDAFVDLMSKHYHRLQRVSDYHAIDDTLFKFSLNLPDSEIPQLIDKLHVSLDGIMKPVTSGFGFVDLIIPGLHKANGISRLLKRWNLSPQQCVAIGDSGNDAEMLKLVKYAFAMGNAADSIKAIAGYATDDNNHDGALNVIQAVLDNRAPFNA	PGPT0008580_200	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008580-ybjI-K20861	NA	NA
BMS020_02227	2433	pflD	COG1882	Trans-4-hydroxy-L-proline dehydratase	ATGACTACCCTGAAACTCAACACCCTCAGCGCCCGTATCCAGGCCCATAAAATGGCGCTGGTGCATATCGTCAAGCCGCCGGTCTGTACCGAACGCGCCCGCCACTATACCGAGATGTATCAGCAGCATCTTGATAAGCCGATCCCGGTGCGCCGCGCCCTGGCCCTCGCTCACCACCTGGCCGAGCGCACCATCTGGATCAAGCACGATGAGCTGATCGTCGGCAACCAGGCCAGCGAAGTGCGCGCCGCGCCGATCTTCCCGGAATACACCGTCAGCTGGATCGAGAAAGAGATCGACGATCTCGCCGACCGCCCCGGCGCCGGCTTCGCGGTCAGCGAAGAGAACAAGCGCGTACTGCACGAAGTGTGCCCGTGGTGGCGCGGCCAGACCGTGCAGGACCGCTGCTACGGCATGTTTACCGATGAGCAGAAAGCGCTCCTCGCCACCGGCATTATTAAGGCCGAGGGCAACATGACCTCCGGCGACGCCCACCTGGCGGTCAACTACCCGCTGCTGCTGGAGAAAGGACTGGACGGCATGCGCGCGAAAGTCGCCGAACGCCGGTCGCGCATCAACCTGACGGTGCTGGAAGACCTGCACGGCGAACAGTTCCTGAAAGCGATTGATATTGTGCTGGCGGCGGTCAGCGACCACAGCAAACGCTTTGCCGCGCTGGCGCGCGAGATGGCGACGGCAGAATCCCGTGACGCACGCCGCGATGAGCTGCTGGCGATTGCCGAAAACTGCGACATCATCGCCCATGAGCCGCCGAAGACCTTCTGGCAGGCGCTGCAGCTGTGCTACTTCATTCAGCTGATCCTGCAGATTGAATCCAATGGCCACTCGGTCTCCTTTGGCCGCATGGACCAGTACCTCTATCCGTACTACCGCCGCGACGTTGAGCTGCAGCAATCGTTGGATCGCGAACAGGCCATTGAGCTGCTGCACAGCTGCTGGCTGAAGCTGCTGGAGGTCAACAAGATCCGCTCTGGCTCGCACTCCAAGGCCTCGGCCGGCAGCCCGCTGTACCAGAACGTCACCATCGGCGGCCAGAACCTGGTGGACGGCCAGCCGCAGGACGCGGTCAACCCGCTGTCGTACGCCATTCTGGAATCCTGCGGTCGTCTGCGCTCGACCCAGCCGAACCTCAGCGTGCGCTACCACGCCGGAATGAGCAACGACTTCCTCGACGCCTGCGTCCAGGTGATCCGCTGCGGCTTCGGCATGCCGGCGTTTAATAACGACGAGATCGTGATCCCGGAATTTATCAAGCTGGGAATCGAGCCGCAGGATGCCTACGATTATGCGGCCATCGGCTGCATCGAAACCGCAGTCGGCGGCAAATGGGGTTATCGCTGCACCGGCATGAGCTTTATCAACTTCGCGCGGGTGATGCTGGCGACGCTGGAAGGCGGCCGCGATGCCACCAGCGGCCAGGTGTTCCTGCCGCAGGAGCACGCCCTGTCGAAAGGCAACTTCGCTAACTTCGACGAGGTGTTGGCCGACTGGGACCGCCAGATCCGCTACTACACCCGTAAGTCGATTGAGATTGAGTATGTGGTCGATACTATGCTGGAAGAGAACGTCCACGATATTCTCTGTTCGGCGCTGGTGGACGACTGCATCGAACGGGCGAAGAGCATTAAGCAGGGCGGCGCTAAGTATGACTGGGTGTCCGGCCTGCAGGTGGGCATCGCCAACCTCGGCAACAGCATGGCGGCGGTGAAAAAGCTGGTCTTCGATCAGGGCGTTATCGGCCAGCAGGAACTGGCGAAGGCGCTGGCGGAAGATTTTGACGGCCTGACCCACGAGCAGCTGCGCCAGCGGTTGATCAACGGCGCGCCGAAGTACGGTAATGATGATGACAGCGTGGACGCGTTGCTGGCGCGGGCCTACCAGACCTATATCGACGAGCTGAAGCAGTATCACAACCCGCGCTATGGCCGCGGCCCGATCGGCGGCAACTATTACGCCGGCACGTCCTCTATCTCCGCCAACGTTCCGTTCGGCGCGCAGACCATGGCGACGCCGGATGGCCGTAAAGCGCACACTCCGCTGGCGGAAGGTGCCAGCCCGGCCTCCGGAACCGACCATCTGGGGCCGACGGCGGTCATCAGTTCGGTAGGTAAACTGCCCACCGGGGCGATCCTCGGCGGCGTTCTGCTAAACCAGAAGCTGAATCCGTCCACCCTGGAAAACGCGTCCGACAAGCAGAAGCTGATGGTGCTGCTGCGCACCTTCTTCGAGGTGCATAAAGGCTGGCATATCCAGTACAACATTGTCTCGCGCGACACGCTGCTGGAGGCGAAGAAACATCCTGATCAGTACCGTGATTTGGTGGTGCGCGTCGCCGGGTACTCGGCGTTCTTTACCGCTCTGTCGCCGGATACCCAGGACGATATTATCGCCCGTACCGAGCATACGCTGTAG	MTTLKLNTLSARIQAHKMALVHIVKPPVCTERARHYTEMYQQHLDKPIPVRRALALAHHLAERTIWIKHDELIVGNQASEVRAAPIFPEYTVSWIEKEIDDLADRPGAGFAVSEENKRVLHEVCPWWRGQTVQDRCYGMFTDEQKALLATGIIKAEGNMTSGDAHLAVNYPLLLEKGLDGMRAKVAERRSRINLTVLEDLHGEQFLKAIDIVLAAVSDHSKRFAALAREMATAESRDARRDELLAIAENCDIIAHEPPKTFWQALQLCYFIQLILQIESNGHSVSFGRMDQYLYPYYRRDVELQQSLDREQAIELLHSCWLKLLEVNKIRSGSHSKASAGSPLYQNVTIGGQNLVDGQPQDAVNPLSYAILESCGRLRSTQPNLSVRYHAGMSNDFLDACVQVIRCGFGMPAFNNDEIVIPEFIKLGIEPQDAYDYAAIGCIETAVGGKWGYRCTGMSFINFARVMLATLEGGRDATSGQVFLPQEHALSKGNFANFDEVLADWDRQIRYYTRKSIEIEYVVDTMLEENVHDILCSALVDDCIERAKSIKQGGAKYDWVSGLQVGIANLGNSMAAVKKLVFDQGVIGQQELAKALAEDFDGLTHEQLRQRLINGAPKYGNDDDSVDALLARAYQTYIDELKQYHNPRYGRGPIGGNYYAGTSSISANVPFGAQTMATPDGRKAHTPLAEGASPASGTDHLGPTAVISSVGKLPTGAILGGVLLNQKLNPSTLENASDKQKLMVLLRTFFEVHKGWHIQYNIVSRDTLLEAKKHPDQYRDLVVRVAGYSAFFTALSPDTQDDIIARTEHTL				NA	NA	NA	NA	NA
BMS020_02228	900	cutD_1	COG1180	Choline trimethylamine-lyase activating enzyme	ATGATCTTCAATATCCAGCGCTATTCCACCCATGACGGCCCAGGGATCCGCACCGTCGTCTTCCTGAAAGGCTGCTCGCTGGGCTGCCGCTGGTGCCAGAACCCGGAGAGCCGCGCCCGCAGCGAAGACCTGCTGTATGACCCGCGCCTGTGCCTGGCCGGCTGCGAGCTGTGCCAGCAGACGGCGCCGGCGGTTATCACCCGCACCCTCGAAGGTCTGATCATTCACCGGCAACACGTTAACGACAGCCATATCGCCGCGCTGCGCGACTGCTGCCCCACCACCGCGCTCACGGTGTGCGGCGAGGAGAAGAGCGTCGAGGAGATCATGGCGACGGTGCTGCGCGATAAACCCTTTTACGATCGCAGCGGCGGCGGCATCACCCTTTCCGGCGGCGAACCCTTTATGAACCCGGCCCTGGCGCAGGCGCTGTTGGAGGCCAGCCATCAGGCGGGTATCCATACCGCGGTGGAAACCTGCCTGCACGTACCGTGGAAATACATTGAGCCGGCTTTACCCTTCATCGACCTGTTTCTCGCCGACCTGAAGCACGTCGACGAGGCCGTTTTCCGGCAGTGGACCGACGGCAGCGCCCGCCGGGTGCTGGACAACCTGCAGCGCCTGGCGCAGGCGGGGAAAAACATCATTATTCGCGTGCCGTTAATCCAGGGATTCAACGCCAGCGAAGCCGACATTACCGCCATCACTGATTTTGCCGCCGACCGCCTGCGGGTCAGCGAAATCCATTTCCTGCCCTACCACACGCTGGGAATGAATAAATACCAGTTACTCAGTCAGCCCTACACTGCACCGGATAAACCGCTGGATGCTCCTGAGCTGCTCGCCTTTGCGCAGGATTATGCGCGGAGCAAGGGGCTAACGGCGATCTTACGAGGATAA	MIFNIQRYSTHDGPGIRTVVFLKGCSLGCRWCQNPESRARSEDLLYDPRLCLAGCELCQQTAPAVITRTLEGLIIHRQHVNDSHIAALRDCCPTTALTVCGEEKSVEEIMATVLRDKPFYDRSGGGITLSGGEPFMNPALAQALLEASHQAGIHTAVETCLHVPWKYIEPALPFIDLFLADLKHVDEAVFRQWTDGSARRVLDNLQRLAQAGKNIIIRVPLIQGFNASEADITAITDFAADRLRVSEIHFLPYHTLGMNKYQLLSQPYTAPDKPLDAPELLAFAQDYARSKGLTAILRG				NA	NA	NA	NA	NA
BMS020_02229	756	moeB	COG0476	Molybdopterin-synthase adenylyltransferase	ATGGCCGTGGAGCTGAGCGATGAAGAGATGCTGCGCTATAACCGGCAGATTGTTTTGCGCGGTTTTGATTTTGACGGCCAGGAGCGGCTAAAGGCCGCTCGCGTGCTGGTGGTCGGCCTCGGCGGACTTGGCTGCGCCGCCGCGCAGTATCTGGCCGCCGCCGGGGTGGGGCAGCTCACCCTGCTCGATTTCGACACCGTCTCGCTCTCTAATCTGCAGCGCCAGACGCTGCACAGCGACGCCGCCATCGGCCAGCCGAAGGTGGACTCCGCCCGCGAGGCGCTGGCGCGCATTAATCCGCACGTTCATCTGGTGCCGCTCAATGCCTTACTGGACGAAGCGGCGCTGGCGGGGCAGATTGCCGGGCACGATCTGGTGCTCGACTGCACCGACAACGTCGCCATTCGTAACCAGCTCAACGCTGGCTGCTTCCGCCACCAAACCCCGCTGGTTTCCGGGGCGGCGATCCGTATGGAGGGGCAGATCAGCGTCTTCACGTATCAGGAGGGCGAACCCTGCTACCGCTGCCTGAGCCGCCTGTTTGGCGAAAACGCCCTCACCTGCGTCGAAGCCGGCGTGATGGCCCCGCTGGTGGGCACTATCGGTTCCCTGCAGGCGATGGAGGCCATTAAGCTGTTGACCGGCTACGGCACGCCCGCCAGCGGGAAAATCGTGATGTACGACGCCATGACCTGCCAGTTTCGTGAAATGAAGCTGATGCGCCACCCGCAGTGCGAGGTATGCGGTACGCGCTAA	MAVELSDEEMLRYNRQIVLRGFDFDGQERLKAARVLVVGLGGLGCAAAQYLAAAGVGQLTLLDFDTVSLSNLQRQTLHSDAAIGQPKVDSAREALARINPHVHLVPLNALLDEAALAGQIAGHDLVLDCTDNVAIRNQLNAGCFRHQTPLVSGAAIRMEGQISVFTYQEGEPCYRCLSRLFGENALTCVEAGVMAPLVGTIGSLQAMEAIKLLTGYGTPASGKIVMYDAMTCQFREMKLMRHPQCEVCGTR	PGPT0008935_574	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
BMS020_02230	1236	moeA_1	COG0303	Molybdopterin molybdenumtransferase	ATGGATTTTACCGCCGGACTGATGCCGCTCGACACAGCCCTCACCCAGATGCTCGATCGTATTACGCCGCTGAGCGCGACGGAAACTGTACCGCTGTTGCAGGCCTTCGCGCGCGTCACCGCCCATGACATTATCTCCCCGCTGGATGTCCCCGGCTTTGATAACGCGGCGATGGATGGCTATGCCGTCCGGTTGAGCGACCTCAACGACGGCGCGGCCCTGCCGGTCGCCGGGAAGGCCTTTGCCGGCCAACCGTTTCACGACGCCTGGCCCACCGGCACCTGTATCCGCATCATGACCGGCGCGCCGGTGCCTGCAGGCTGCGACGCGGTGGTCATGCAGGAAGAGACCGAACAGACCGACGTCGGCGTGCGCTTTACCGCGCCGGTGAAAGCCGGGCAGCATATTCGCCGCCGCGGGGAAGATATCGCCCACGGCGCGGTGGTCTTCCCGGCGGGAACGCCGCTGACGGTAGCCGAGCTGCCGGTGCTGGCCTCGCTGGGCATTGCCGACGTCGAGGTGGTGCGCAAGGTTCGCGTCGCGGTCTTCTCGACCGGCGATGAGCTGCAGCTGCCGGGTCAACCGCTCGGCGACGGCCAGATTTACGATACCAACCGCCTGGCGGTGCATCTGATGCTCGAACAGCTGGGCTGCGAGGTCATTAACCTCGGCATTATTCCTGACGATCCGACGCAACTGCGTGAGGCCTTTATCGCCGCCGACCAGCAGGCCGACGTGGTCATCAGCTCCGGTGGCGTCTCGGTGGGCGAAGCCGACTACACCAAAACCATTCTTGAAGAGCTGGGGGAGATCGGCTTCTGGAAGCTGGCGATCAAGCCGGGCAAACCCTTCGCCTTCGGCAAGCTCAGCAGCAGCTGGTTCTGCGGCCTGCCGGGCAACCCGGTTTCCGCCACCGTCACCTTCTGTCAGCTGGTACAGCCGCTGCTGGCGAAGCTCTCCGGTAAGCACGGCCCGCTTCAGGCGACCCGCCTGCGGGTGCGGGCCGCCGCGCGGCTGAAAAAGTCCCCGGGCCGCCTCGATTTTCAGCGCGGTATTCTGCAGCGCAACCCGGACGGCGAGCTGGTGGTGACCACCACCGGTCATCAGGGCTCGCACATTTTCAGCTCTTTCAGCCTCGGCAACTGCTTTATCGTGCTGGAGCGCGAACGCGGCCACGTTGAAGCGGGCGAATGGGTCGACGTCGAACCGTTCAGCCATCTGTTTGGGGGGCTGTAA	MDFTAGLMPLDTALTQMLDRITPLSATETVPLLQAFARVTAHDIISPLDVPGFDNAAMDGYAVRLSDLNDGAALPVAGKAFAGQPFHDAWPTGTCIRIMTGAPVPAGCDAVVMQEETEQTDVGVRFTAPVKAGQHIRRRGEDIAHGAVVFPAGTPLTVAELPVLASLGIADVEVVRKVRVAVFSTGDELQLPGQPLGDGQIYDTNRLAVHLMLEQLGCEVINLGIIPDDPTQLREAFIAADQQADVVISSGGVSVGEADYTKTILEELGEIGFWKLAIKPGKPFAFGKLSSSWFCGLPGNPVSATVTFCQLVQPLLAKLSGKHGPLQATRLRVRAAARLKKSPGRLDFQRGILQRNPDGELVVTTTGHQGSHIFSSFSLGNCFIVLERERGHVEAGEWVDVEPFSHLFGGL	PGPT0008430_3326	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
BMS020_02231	942	iaaA_1	COG1446	Isoaspartyl peptidase	ATGGGCAAGGCGGTTATAGCAATTCACGGTGGCGCAGGGGCGATTTCTCGCGCGCAGATGACGCCGGAGCGGGAGCGGGAGTACGTGGCGGCGCTGTCGGCTATCGTCGAAAGCGGGCAGAAAATGTTGGCTGCAGGCGCCAGTGCGCTGGATGCCGTGACCGAGGCCGTCCGTCTGCTGGAGGAGTGTCCGCTGTTTAACGCCGGGATGGGCTCGGTATTTACCCACGATCAAACCCACGAGCTGGACGCCTGCGTGATGGACGGCTACAGCCTGCAGGCGGGGGCGGTGGCCGGGGTCAAACATCTACGTAATCCGGTGCTGGCGGCGCGTCTGGTGCTGGAGAAGAGCCCGCACGTGCTGCTGATCGGCGAGGGGGCGGAAAATTTCGCCTTCTCCCACGGAATGGCGCGCGTCGATAACGATCTCTTTTCCACCCCCGAGCGTCTGCTGCAGCTGCAGGAGGCGAAAGCGGGCGGGGAGATCATCCTTGACCATCACGCCGCTCCGCTCGACGAACGGCAGAAAATGGGCACCGTCGGGGCGGTGGCGCTCGATCTGGCCGGCAATCTGGCGGCGGCGACCTCCACCGGCGGCATGACCAACAAACTGCCCGGACGCGTCGGCGACAGCCCGCTGCCGGGCGCGGGGTGCTACGCCAACAACGCCAGCGTGGCGGTCTCCTGCACCGGCACCGGCGAAGTCTTTATGCGTACCCTGGCGGCCTACGATATCGCCGCCCTGATGGAGTACGGTCAGCTCAGTCTCTATTCCGCCTGCGAGCGGGTGGTGATGGAGAAGCTGCCGGCCCTCGGCGGCAGCGGCGGGCTGATTGCCGTCGATCGCGAAGGCAACGTCGTTTTACCGTTTAACAGCGAAGGCATGTACCGCGCCTGGTGCTATGCCGGCGATACGCCGACCATTGGCATTTATCGCGAATAG	MGKAVIAIHGGAGAISRAQMTPEREREYVAALSAIVESGQKMLAAGASALDAVTEAVRLLEECPLFNAGMGSVFTHDQTHELDACVMDGYSLQAGAVAGVKHLRNPVLAARLVLEKSPHVLLIGEGAENFAFSHGMARVDNDLFSTPERLLQLQEAKAGGEIILDHHAAPLDERQKMGTVGAVALDLAGNLAAATSTGGMTNKLPGRVGDSPLPGAGCYANNASVAVSCTGTGEVFMRTLAAYDIAALMEYGQLSLYSACERVVMEKLPALGGSGGLIAVDREGNVVLPFNSEGMYRAWCYAGDTPTIGIYRE	PGPT0020185_1435	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020185-iaaA-K13051	NA	NA
BMS020_02232	1860	gsiA_2	COG1123	Glutathione import ATP-binding protein GsiA	GTGCCGCAAACTCACGAAACGGATACCTGCGAAGTACTGGTGGTGCGCAACCTGAACGTGGCGTTCCGCCAGCAGGATGCGCCAGAGGTGCAGGCCGTGCGTCAGCTTTCCTTCAGCCTGCGCCGCAGCGAGACGCTGGCGATTGTCGGGGAGTCCGGTTCGGGAAAATCGGTCACCGCGCTGGCGCTGATGCGTCTGCTTGACGCCGCCAGCAGCGAGGTGAGCAGCGAGGGGCTGTGGCTGCGACGGCGCAACCGGCAGGTGATCGCGCTCAATGAGCAATCGGAGGCCGAAATGCGCCGGGTACGCGGCGCGGATCTGGCGATGATTTTTCAGGAGCCGATGACCTCGCTGAACCCGGTATTCACCATCGGCGAGCAGATCGCCGAATCCCTGCGCCTGCACCAGGGGCTGGGGCGCGAAGAGGCGCTGCGCGCGGCGAAAAAGATGCTCGACCAGGTGCGTATTCCCCAGGCGGAAGAGATGCTCTCACGCTATCCGCACCAGCTCTCCGGCGGCATGCGCCAGCGGGTGATGATCGCCATGGCGCTCTCCTGTCGGCCGGCGGTGCTGATTGCCGACGAGCCGACCACGGCGCTGGATGTCACCATTCAGGCGCAAATTTTGCAACTTATCGCCGTCCTGCAAAAGGAGATGGCGATGGGGGTGATCTTTATCACCCACGACATGGGGGTGGTGGCCGATATCGCCGATCGGGTGCTGGTCATGTATCGCGGCGAGGCGGTGGAGACCGGCAGCGTCGAGGAGATTTTCCGTTCCCCGCAGCACCCTTATACGCAGTCGCTGTTGGCGGCGGTCCCCCGGCTGGGGGAGATGCGCGGTCAGGATCTGCCGCGCCGCTTCCCGCTACCGGGGCAGCCGCTGGCGGAGACAGACACGCCAGACACGGTGGTGGCGGGGGAGCCTATTCTGCAGGTGCGCGATCTGGTGGCCCGTTTCCCGGTGCGCGGCGGACTGCTCAATCGCGTGACGCGCGAAGTGCATGCGGTGGAGAAGGTGAGTTTTGATCTCTGGCCGGGAGAGACCCTGTCGCTGGTGGGGGAGTCCGGCTGCGGCAAGTCGACTACCGGCCGGGCGCTGCTGAGGCTGGTTGAGACCCAGGGGGGCACCATTACCTTCGATGGTCAGCGGATCGATACCCTCTCCGGCAGCAAGCTGCAGTCCCTGCGGCGCAATATTCAGTTTATTTTTCAGGACCCTTACGCCTCGCTCGATCCGCGCCAGACGGTCGGCGATTCGATTATGGAGCCGCTGCGGGTGCATGGCCTGCTGGACAGGGAGGCGGCGCGCGAGCGGGTCGCCTGGCTGCTAAAGCGCGTGGGGCTGCAGCCGGAGCATGCCTGGCGCTACCCCCACGCCTTTTCCGGCGGCCAGCGGCAGCGGATCTGCATTGCCCGCGCGCTGGCGCTTAATCCGAAGGTGGTGATTGCCGATGAGTCGGTGTCGGCCCTGGATGTCTCCATTCGGGCGCAGATTATCAATCTGATGCTCGACCTGCAGCGCGAAATGGGCATCGCGTTTCTGTTTATTTCCCATGATATGGCGGTGGTGGAGCGCATCAGCCACCGCGTGGCGGTGATGTATCGCGGCCGGATTGTCGAAATCGGCCCGCGCCGCGCGGTGTTTGAAAACCCGCAGCACCCCTATACCCGTAAGCTCATGGCCGCCGTACCGGTGGCCGACCCGGCCTACCGTCATCCGCAACGGGTCCTGCTGTCAGATGACGTTCCGGGCAATATTTATAAGCGGGGCGAGGAGATCGCCAGCCCGCCATTGCAGCAGGTTGGGCCGGGCCACTTCGTCGCCCGCGACGCCGCCGATGTGCTGGGCAGAGCATAA	MPQTHETDTCEVLVVRNLNVAFRQQDAPEVQAVRQLSFSLRRSETLAIVGESGSGKSVTALALMRLLDAASSEVSSEGLWLRRRNRQVIALNEQSEAEMRRVRGADLAMIFQEPMTSLNPVFTIGEQIAESLRLHQGLGREEALRAAKKMLDQVRIPQAEEMLSRYPHQLSGGMRQRVMIAMALSCRPAVLIADEPTTALDVTIQAQILQLIAVLQKEMAMGVIFITHDMGVVADIADRVLVMYRGEAVETGSVEEIFRSPQHPYTQSLLAAVPRLGEMRGQDLPRRFPLPGQPLAETDTPDTVVAGEPILQVRDLVARFPVRGGLLNRVTREVHAVEKVSFDLWPGETLSLVGESGCGKSTTGRALLRLVETQGGTITFDGQRIDTLSGSKLQSLRRNIQFIFQDPYASLDPRQTVGDSIMEPLRVHGLLDREAARERVAWLLKRVGLQPEHAWRYPHAFSGGQRQRICIARALALNPKVVIADESVSALDVSIRAQIINLMLDLQREMGIAFLFISHDMAVVERISHRVAVMYRGRIVEIGPRRAVFENPQHPYTRKLMAAVPVADPAYRHPQRVLLSDDVPGNIYKRGEEIASPPLQQVGPGHFVARDAADVLGRA	PGPT0013015_585	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013015-gsiA-K13892	NA	NA
BMS020_02233	1542	gsiB	COG0747	Glutathione-binding protein GsiB	ATGACACAACCTATTTCACGCAAATGGTGGCTGGCGCTGAGTATCGCGGCGGCCCTGGCGAGCGCCCCCGCTTTTGCCGCCAAAGATGTGGTGGTGGCGGTCGGGTCTAACTTCACGACGCTCGACCCCTATGATGCCAACGATACCCTGTCGCAGGCGGTGGCGAAGTCCTTTTATCAAGGCCTGTTCGGCCTTGATAAAGAGATGAAGCTGCAAAATGTCCTTGCCGAGAGCTACACCGTGTCGCCGGATGGCCTGGTGTACACCATCAAGCTGCACAGTGGGGTGAAATTCCAGGATGGCACCGACTTTAACGCCGAGGCGGTCAAGGCTAACCTCGACCGCGCCAGCAACCCGGAAAACCATCTTAAGCGCTATAACCTGTATAAAAATATCGCCAGCACCGAGGCGGTCGATCCAACCACGGTGAAAATCACCCTCAAGCAGCCGTTCTCGGCGGTTATTAATATTCTCGCCCATCCGGCGACGGCGATGATTTCGCCGGCGGCGCTGAAAAAATATGGCAAAGATATCGGCTTCCACCCGGTGGGCACCGGGCCGTATAAGCTCGATACCTGGAACCAGACCGACTTCGTGAAGGTCAGCAAGTTCGATGGCTACTGGCAGCCGGGGCTGCCGAAGCTGGATTCCATTACCTGGCGACCGGTGGTCGATAACAATACCCGGGCGGCGATGCTGCAGACCGGCGAGGCGCAGTTCGCCTTCCCGATCCCCTATGAGCAGGCGCCGCTGCTGGCGAAAAACAGCAAACTGGAGCTGGTGGCCAGTCCGTCGATCATGCAGCGTTACATCAGCATGAACGTGACGCAGAAGCCGTTCGATAATCCGAAGGTGCGTGAAGCGATCAACTACGCCATCAACCGCCAGGCGCTGGTCAAGGTGGCGTTTGCCGGCTATGCCACCCCGGCGACCGGCGTGGTGCCGCCGTCGATTGCCTACGCCCAGAGCTACCCCGCGTGGCCTTACGATCCGGCGAAAGCGCGCCAGCTGCTGAAAGAGGCCGGCTACCCCAACGGGTTTAGCACGACGCTGTGGTCGTCACATAACCACAGCACCGCGCAGAAAGTGCTGCAGTTTACCCAGCAGCAGCTGGCGCAGGTGGGCATTAAGGCGCAGGTGACGGCGATGGATGCCGGTCAGCGGGCGGCGGAAGTGGAAGGTAAAGGGCAGAAAGAGAGCGGGGTACGGATGTTCTATACCGGCTGGTCCGCCTCCACTGGCGAAGCCGACTGGGCGCTGTCGCCGCTGTTTGCTTCCCAAAACTGGCCGCCGACCCTGTTCAACACCGCCTTTTACAGCAACCCGCAGGTGGATAGCGCGCTGAGCGAGGCGCTGAAAACCACCGATCCGCAAGAGAAAACCAAACTCTATAAAGCGGCGCAGGATATTATCTGGAAAGAGTCGCCGTGGGTGCCGCTGGTGGTGGAGAAACTGGTCTCTGCCCACAGCAAGAATCTCACCGGCTTCTATATCCAGCCGGACACCGGCTTCAGCTTCGAACAGGCAGATTTAACACCGTGA	MTQPISRKWWLALSIAAALASAPAFAAKDVVVAVGSNFTTLDPYDANDTLSQAVAKSFYQGLFGLDKEMKLQNVLAESYTVSPDGLVYTIKLHSGVKFQDGTDFNAEAVKANLDRASNPENHLKRYNLYKNIASTEAVDPTTVKITLKQPFSAVINILAHPATAMISPAALKKYGKDIGFHPVGTGPYKLDTWNQTDFVKVSKFDGYWQPGLPKLDSITWRPVVDNNTRAAMLQTGEAQFAFPIPYEQAPLLAKNSKLELVASPSIMQRYISMNVTQKPFDNPKVREAINYAINRQALVKVAFAGYATPATGVVPPSIAYAQSYPAWPYDPAKARQLLKEAGYPNGFSTTLWSSHNHSTAQKVLQFTQQQLAQVGIKAQVTAMDAGQRAAEVEGKGQKESGVRMFYTGWSASTGEADWALSPLFASQNWPPTLFNTAFYSNPQVDSALSEALKTTDPQEKTKLYKAAQDIIWKESPWVPLVVEKLVSAHSKNLTGFYIQPDTGFSFEQADLTP	PGPT0013020_616	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013020-gsiB-K13889	NA	NA
BMS020_02234	921	gsiC_3	COG0601	Glutathione transport system permease protein GsiC	ATGCTCAACTATGTGATTAAGCGCCTGCTGGGGCTGATCCCCACCCTGCTAATCGTCGCGGTGCTGGTGTTTCTCTTCGTCCATATGCTGCCCGGCGATCCGGCGCGGCTGATTGCCGGACCGGAAGCCGACGCCCAGGTGGTGGCGATGGTGCGCCAGCAGCTGGGGCTTGACCAGCCGCTGCATGTCCAGTTTTGGCACTACATCACCAACGTGCTGCGCGGCGATTTTGGCATGTCCATGGCCTCGCGGCGTCCCGTTGCCAGTGAGATAGCCAGCCGCTTTATGCCCACCCTGTGGCTGACGCTGGCCAGCATGAGCTGGGCGGTGCTGTTTGGCATGGCGGCGGGGATCGCGGCGGCGGTGTGGCGCAATCGCTGGCCTGACCGTCTGGGAATGGCGCTGGCGGTGAGCGGCATTTCGTTTCCGGCCTTTGCCCTCGGCATGCTGCTGATGCAGGTGTTTTCGGTTGAGCTGGGCTGGTTGCCGACGGTGGGCGCCGACAGCTGGCGGCACTATATTTTGCCTTCGCTGACCCTTGGCGCGGCGGTGGCGGCGGTGATGGCGCGCTTTACCCGCGCGTCGTTCGTCGATGTGCTGCATGAAGACTATATGCGTACCGCCCGGGCGAAAGGGGTGAGCGAAACGCGGGTGGTGCTCAAGCATGGTCTGCGCAATGCGATGATCCCGGTCGTCACCATGATGGGGCTGCAGTTCGGCTTTCTGCTCGGCGGCTCGATCGTCGTGGAGAAGGTCTTCAACTGGCCGGGGCTGGGGCGACTGCTGGTCGATTCGGTAGAAATGCGCGATTACCCGGTGATTCAGGCGGAAGTGCTGCTCTTTTCGCTGGAGTTTATTCTTATCAATTTAGTGGTGGATGTGCTGTACGCGGCCATAAACCCGGCTATCAGGTATAAGTAA	MLNYVIKRLLGLIPTLLIVAVLVFLFVHMLPGDPARLIAGPEADAQVVAMVRQQLGLDQPLHVQFWHYITNVLRGDFGMSMASRRPVASEIASRFMPTLWLTLASMSWAVLFGMAAGIAAAVWRNRWPDRLGMALAVSGISFPAFALGMLLMQVFSVELGWLPTVGADSWRHYILPSLTLGAAVAAVMARFTRASFVDVLHEDYMRTARAKGVSETRVVLKHGLRNAMIPVVTMMGLQFGFLLGGSIVVEKVFNWPGLGRLLVDSVEMRDYPVIQAEVLLFSLEFILINLVVDVLYAAINPAIRYK	PGPT0013025_698	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013025-gsiC-K13890	NA	NA
BMS020_02235	906	gsiD_2	COG1173	Glutathione transport system permease protein GsiD	TTGCTTAACTGGAGAAGGCAGGCGGCGCTGAACGCCATGCCGGGCATCAGGCCCGGCGAGATCCATACCCCCTGGCATGAGTTCTGGCGGCGCTTTCGGCGTCAGCCGGTGGCCATGGGCGCCGGTATTTTTGTGCTGTTGCTGATTGCGGTGGCCATCGTCGCCCCATGGATAGCGCCGTACGATGCGGAAAATTATTTCGACTATGACCGGCTTAACGAGGGGCCTTCGCTGGTGCACTGGTTCGGCGTCGACTCGCTGGGGCGCGATATTTTCAGCCGGGTGCTGGTGGGCGCGCAGATCTCGCTGGCCGCCGGGGTGCTGGCGGTGCTGATTGGCGCGGCTATCGGCACGGTGCTTGGGCTGCTGGCCGGCTACTATGAGGGCTGGTGGGACCGGCTGATTATGCGTCTGTGCGATGTGCTGTTCGCCTTTCCGGGGATCCTGCTGGCGATCGCGGTGGTCGCCGTCATGGGCAGCGGGATGGCCAACGTGATTATCGCCGTGGCGATCTTCTCGATCCCGGCGTTCGCCCGGCTGGTGCGCGGCAACACCCTGGTATTAAAGCAGCAGACCTTTATTGAATCGGCGCGCAGCATTGGCGCCAGCGATGCCACCATCCTCTTCCACCACATCCTGCCGGGGACGGTGTCGTCAATCGTGGTTTATTTCACCATGCGCATTGGGGTATCGATTATTTCGGCGGCCAGTCTGTCGTTTCTCGGTCTCGGCGCGCAGCCGCCCACGCCGGAGTGGGGTGCCATGCTCAACGAGGCGCGGGCGGATATGGTGATGTCTCCGCACGTGGCGCTGTTTCCGGCGGTGGCGATTTTCTTGACCGTGCTGGCGTTTAATCTGCTGGGAGATGGCCTGCGCGATGCGCTGGATCCGAAGTTAAAGGGGTAG	MLNWRRQAALNAMPGIRPGEIHTPWHEFWRRFRRQPVAMGAGIFVLLLIAVAIVAPWIAPYDAENYFDYDRLNEGPSLVHWFGVDSLGRDIFSRVLVGAQISLAAGVLAVLIGAAIGTVLGLLAGYYEGWWDRLIMRLCDVLFAFPGILLAIAVVAVMGSGMANVIIAVAIFSIPAFARLVRGNTLVLKQQTFIESARSIGASDATILFHHILPGTVSSIVVYFTMRIGVSIISAASLSFLGLGAQPPTPEWGAMLNEARADMVMSPHVALFPAVAIFLTVLAFNLLGDGLRDALDPKLKG	PGPT0013030_261	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013030-gsiD-K13891	NA	NA
BMS020_02236	1326	rimO_1	COG0621	Ribosomal protein S12 methylthiotransferase RimO	ATGAGCAATGTCACGCACCAGCCGAAAATCGGCTTCGTCTCCCTGGGCTGCCCGAAAAACCTCGTGGACTCAGAGCGTATCCTGACCGAACTGCGCACCGAAGGTTATGACGTCGTACCTACCTACGACAACGCCGATATGGTGATCGTTAACACCTGCGGCTTTATCGACAGCGCTGTGCAGGAATCGCTGGAAGCGATCGGCGAAGCGTTGAAAGAGAACGGTAAGGTGATCGTCACCGGCTGTCTCGGCGCAAAAGAGGATCAGATCCGCGAAGTGCACCCGAAGGTGCTGGAGATCACCGGTCCGCACAGCTATGAGCAGGTGCTGGAGCACGTCCACCACTATACGCCAAAGCCGAAGCACAACCCGTTCCTGAGCCTGGTGCCGGAACAGGGCGTGAAGCTGACGCCGCGCCACTACGCCTACTTAAAAATTTCCGAAGGCTGCAACCATCGCTGCACCTTCTGCATTATTCCGTCCATGCGCGGCGATCTGGTGAGCCGTCCGATTGGCGAAGTGCTGGCGGAAGCCAAACGCCTCGCTGACGCTGGCGTGAAAGAGCTGCTGGTGATTTCGCAGGACACCTCCGCCTACGGCGTCGACGTCAAGCACCGCACCGGTTTCCACAACGGTATGCCGGTGAAGACCAGCATGGTCAGCCTGTGCGAAGAGCTGGCGAAGCTCGGCATCTGGGTGCGCCTGCACTATGTCTACCCGTACCCGCACGTCGACGATGTGATCCCGCTGATGGCGGAAGGCAAAATTCTGCCGTACCTCGATATTCCGCTGCAGCACGCCAGCCCGCGTATCCTGAAGCTGATGAAGCGTCCAGGATCCGCGGACCGTCAGCTGGCGCGCATCAAGCAGTGGCGTGAAATCTGCCCGGATCTGACCCTGCGCTCCACCTTTATCGTGGGCTTCCCGGGCGAAACGGAAGAAGATTTCCAGATGCTGCTCGACTTTCTGAAAGAGGCGCGTCTCGACCGCGTCGGCTGCTTCAAGTACAGCCCGGTTGAAGGCGCCACCGCCAATGAGCTGGCGGACCAGGTGCCGGAAGAGGTGAAAGAGGAGCGCTGGAACCGCTTTATGCAGCTGCAGCAGCAGATCTCTGCCGAGCGTCTGCAGGAAAAAGTGGGCCGCGAAATCCTGGTGCTGGTGGATGAAGTGGATGAAGAAGGCGCCATTGGCCGCAGCATGGCCGACGCCCCGGAAATCGACGGCGCGGTCTACCTGAACGGCGAAACCCGCGTTAAGCCGGGCGACGTGGTGCGGGTGAAAGTCGAGCACGCCGACGAATACGATCTGTGGGGAACCCGGATCTAG	MSNVTHQPKIGFVSLGCPKNLVDSERILTELRTEGYDVVPTYDNADMVIVNTCGFIDSAVQESLEAIGEALKENGKVIVTGCLGAKEDQIREVHPKVLEITGPHSYEQVLEHVHHYTPKPKHNPFLSLVPEQGVKLTPRHYAYLKISEGCNHRCTFCIIPSMRGDLVSRPIGEVLAEAKRLADAGVKELLVISQDTSAYGVDVKHRTGFHNGMPVKTSMVSLCEELAKLGIWVRLHYVYPYPHVDDVIPLMAEGKILPYLDIPLQHASPRILKLMKRPGSADRQLARIKQWREICPDLTLRSTFIVGFPGETEEDFQMLLDFLKEARLDRVGCFKYSPVEGATANELADQVPEEVKEERWNRFMQLQQQISAERLQEKVGREILVLVDEVDEEGAIGRSMADAPEIDGAVYLNGETRVKPGDVVRVKVEHADEYDLWGTRI				NA	NA	NA	NA	NA
BMS020_02237	1242	cscB_2		Sucrose permease	ATGACGCCCGGTAAAAGAAACTACCTTCTGTTGAGTCTTTTCGATTTCCTCTACCTGTTCGCCTGGTCGTCGACCATGGCTTTCTTTGTCATCTGGACCACCCAGCATCTTGGCATCAGCGCCACGAAAACCGGCCTGCTCTATTCGGTCAACGCCTTTATCGCCCTGCTGATGCAGCCTTTCTTCGGCTTTATCTCCGATAAGTTCGGCCTGAAAAAACGCCTTATCTGGCTGCTGGTGGCACTGCTCCTGCCGGTAGGCCCCTTCTTTATCTACGTTTACGCGCCGCTGCTGATGCACAGCTTCTGGATTGGCGCGCTGCTGGGGGGCATCTATCTGGGGATCATCTTTAACTCCGGCTGCGGGGTGATCGACTCTTATATCGATAAGATTTCCCGCCGCTACCAGTTCGAATACGGTCGGGTGCGGATGTGGGGCTCGTTAGGCTGGGCGGCCGCGGCCTGGATCGTCGGTAAATATATCGACAGCAATCCCAATCTGGCCTTCTGGCTCGCCAGCCTCGCCATCGTCATCGCCGCCGTCTGCTTTATGCTGACCAAAATCGAATTAACTGACGCCGATGTGGCGCGAAGCGAATCGCTGAAGGTCTCCCATGCCCTTGAGCTGGCGAAGAACAGCCAGTTCTGGATGCTGCTGATCTTTACCCTGTTCGTCACGCAGATTTATGACACCTACGATCAGCAATTTGCCCAGTACTTCTCGCTGCAATTCCCGACGCCGGAGGAAGGCAACCGCTGGTATGGGATCCTCGCCTCCATTCAGGTGTGCGGCGAAACGCTGTTCTTATGCCTGATGCCGTGGTTTGTTAACCGGACCGGCGCCAAATGGGCGCTGATCATTGCCGGGCTGATCATGTCGGTACGTATTGCTGGCTCGGCGGTGCCTCTCGGCCCGGTGTGGATTGGCGCAGTAAAAATGATGCATGCCCTGGAGAAACCGTTAATTCTGGTGTCGGTCTTTAAATTCATCGCCGCCAACTTCGACCACAAGCTCTCTTCAACAGTCTATTTACTGGTGCTGTTTGTCGCCTCGATCGCCACCGCCATCTACTCGCCGCTGGCAGGCTATCTGTACGATACCATTGGCTTCGCCGACACCTATCTGATCCTCGGCGGCATCGCCGGGCTCTTTACTCTGATCTCTGTCTTCACGCTGCAGGATAAGCGCGAGCCGAAAAAGCCCGGCGTCGCCCCCTCCGGAGCCGTCACCCCGGCGCAATAA	MTPGKRNYLLLSLFDFLYLFAWSSTMAFFVIWTTQHLGISATKTGLLYSVNAFIALLMQPFFGFISDKFGLKKRLIWLLVALLLPVGPFFIYVYAPLLMHSFWIGALLGGIYLGIIFNSGCGVIDSYIDKISRRYQFEYGRVRMWGSLGWAAAAWIVGKYIDSNPNLAFWLASLAIVIAAVCFMLTKIELTDADVARSESLKVSHALELAKNSQFWMLLIFTLFVTQIYDTYDQQFAQYFSLQFPTPEEGNRWYGILASIQVCGETLFLCLMPWFVNRTGAKWALIIAGLIMSVRIAGSAVPLGPVWIGAVKMMHALEKPLILVSVFKFIAANFDHKLSSTVYLLVLFVASIATAIYSPLAGYLYDTIGFADTYLILGGIAGLFTLISVFTLQDKREPKKPGVAPSGAVTPAQ	PGPT0016855_533	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_LACTOSE_TRANSPORT,PGPT0016855-lacY|MFS_transporter|OHS_family|lactose_permease-K02532	NA	NA
BMS020_02238	384			hypothetical protein	ATGACCGTTGACAGACTATACCGCCACCTTTTGCAGAAGCTCATTAACGCCAATATCGATATTGACGCCTATCTGCAGCTGCGAAAGGCCAAAGGCTACATGTCAGTCAGCGAAAATGACCATCTGCGTGAAAACTTGTTTGAGCTTTGCCGTGAAATGCGTGCCCAGGCGCCGCGCCTGCAGAATGTCATTTCACCGGAGGAGAGGGATGCCCTTCGTTTGGCCGGCGAGTCCGTCGCCGCCGCTGCAGTATGCCTGATGAGCGGACATCATGATTGTCCGCTGTACATCGCTGTTAACGTAGAGAAGCTAGAACGCTGTCTGACAGGATTGACTTCAAATATTCATAAATTGAATAAATTGTCGCCAATCCCTCATGCCTGA	MTVDRLYRHLLQKLINANIDIDAYLQLRKAKGYMSVSENDHLRENLFELCREMRAQAPRLQNVISPEERDALRLAGESVAAAAVCLMSGHHDCPLYIAVNVEKLERCLTGLTSNIHKLNKLSPIPHA	PGPT0026310_32	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0026310-bssR-K19688	NA	NA
BMS020_02239	1110	yliI_1	COG2133	Aldose sugar dehydrogenase YliI	ATGCGTCCGATCCCGCTGCTGTTGCTATTGAGCGCCCTGTCGCTGCCGGCCCTGAGCCAGGCCGCGGTGCGGGTGGAAGTATTGCAGAACCGGCTGGCCCATCCGTGGAGCCTGGCGTTTCTCCCCGGCGACCAGGGCATGTTGATTACTCTGCGCGGCGGCGAGTTCAAGCGCTGGCAGCCAGGTAAAGGCCTGTCGGCGCCGATAGCCGGCGTGCCGCAGGTGTGGGCCAACGGCCAGGGAGGCTTACTGGACGTGGCGCTGGCCCCGGATTTCGCGCAGTCTCGGCGGGTGTGGCTAAGCTATGCGGAGAGCGACGCCAGCGGCAAAGCGGGCACCGCGGTGGGCTACGGGCAGTTGAGCCAGGATGCCACGCAGCTGACGAACTTCACCGTGGTGTTTCGCCAGCAGCCGAAACTCTCCGTCGGCAATCATTTTGGCGGCCGGCTGGTGTTCGACGGCAAAGGGCATCTGTTTATTGGCCTCGGGGAGAACAATCAGCGTCCCACCGCTCAGGATCTCGGCAAGCTACAGGGAAAAGTGGTCCGTCTGACGGAGACCGGGGGCGTTCCGCCGGATAACCCCTTTGTTGGCCGGACCGACGTGAGGCCGGAGATCTGGGCCTACGGCATCCGCAATCCGCAGGGTATGGCGATGAATCCGTGGAGCGGGGCGCTGTGGCTGAACGAGCATGGCCCGCGCGGCGGGGATGAAATTAATATCCCACAGGCGGGAAAAAACTATGGCTGGCCGCTGGCGACGCACGGCATTAACTACAGCGGCCTGCCCATTCCGGAGGCCAGGGGCAAGACGGTGCCGGGGACCGAGCCTCCCCTGTATGTCTGGCCGGTCTCACCGGGAGTGAGCGGGATGGCCTTTTACGCGGCGCAGACCTTTCCCCAGTGGCAACATAAGCTGTTTATCGGCGCGCTGAAGGAGACATCGCTGATTGTTCTGGCGGTGGACGGCAATCAGGTCCGTGAGGAGGGGCGCCTGCTGGAGGCGCGCGGGAAACGGATCCGCGACGTCCGCGTGGGACCCGACGGCTATCTGTATGTGTTAACCGACGAGTCTAACGGCGAGCTATTGCGGCTGAGTCCGGAGAGTTAA	MRPIPLLLLLSALSLPALSQAAVRVEVLQNRLAHPWSLAFLPGDQGMLITLRGGEFKRWQPGKGLSAPIAGVPQVWANGQGGLLDVALAPDFAQSRRVWLSYAESDASGKAGTAVGYGQLSQDATQLTNFTVVFRQQPKLSVGNHFGGRLVFDGKGHLFIGLGENNQRPTAQDLGKLQGKVVRLTETGGVPPDNPFVGRTDVRPEIWAYGIRNPQGMAMNPWSGALWLNEHGPRGGDEINIPQAGKNYGWPLATHGINYSGLPIPEARGKTVPGTEPPLYVWPVSPGVSGMAFYAAQTFPQWQHKLFIGALKETSLIVLAVDGNQVREEGRLLEARGKRIRDVRVGPDGYLYVLTDESNGELLRLSPES	PGPT0017700_1805	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_ALDOSE_DEGRADATION,PGPT0017700-yliI-K21430	NA	NA
BMS020_02240	627	gstB_2	COG0625	Glutathione S-transferase GstB	ATGATTACATTGTGGGGACGTAATAACTCGACCAACGTGAAGAAAGTGCGCTGGGTGCTGGAGGAGCTGGATCTGCCGTATGAGCAGATCCTCGCCGGGCTGGAGTTTGGTCTCAATCATGACCCGGAATATCTGGCGATGAACCCCAACGGGCTGGTGCCGCTGTTAAAGGACGATGCCACCGGGGTGGTGTTGTGGGAATCAAATACGATTATTCGCTACCTTGCCGCCCAGTATGGCGCTGACCGTCTGTGGCTGGCCGCGCCGGCGCAGCGCGCGCAAGGCGATAAGTGGATGGACTGGTCCAACGGCACGCTCTCTCCCGCCCATCGCCCGGTATTAATGGGTCTGGTGAGGACGCCGCCGGAGCAACGCGACCCGGCGGCCATCGCCGCGGGGATCAGCGCCTGCGAAGCGCTGTTCGCCATGCTGGATGACGAGCTGGCGAAAACGCCGTGGCTCTCCGGCGAGCAGTTCGGCCTTGGCGATATTGCCGTCGCCCCCTTCGTCTACAACCTGCTGTCGATCCTCGACAGCTGGCAACCGCGTCCCCATCTGCAGCGCTGGTATCAGCAGATTAGCCAGCGTCCGGCCTGGCGCGAAGTGGTGCAGATCCCGGTCACCTGA	MITLWGRNNSTNVKKVRWVLEELDLPYEQILAGLEFGLNHDPEYLAMNPNGLVPLLKDDATGVVLWESNTIIRYLAAQYGADRLWLAAPAQRAQGDKWMDWSNGTLSPAHRPVLMGLVRTPPEQRDPAAIAAGISACEALFAMLDDELAKTPWLSGEQFGLGDIAVAPFVYNLLSILDSWQPRPHLQRWYQQISQRPAWREVVQIPVT	PGPT0013170_17062	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS020_02241	1071	dacC_1	COG1686	D-alanyl-D-alanine carboxypeptidase DacC	ATGGACTACGCCAGCGGGAAGGTGCTGAGCGAAGGCAATGCCGATGAAAAACTCGACCCGGCCAGTCTGACGAAGATCATGACCAGCTACGTGGTGGGGCAGGCGATAAAAGCGGGAAAAATTAAACTGACCGATATGGTGACCGTCGGGCGCGATGCCTGGGCGACCGGCAACCCAGCGCTGCGCGGTTCATCGGTGATGTTCCTCAAGCCCGGCATGCAGGTTTCAGTAGAAGATCTGAACAAAGGGGTCATCATTCAGTCCGGTAACGACGCCAGCATTGCCATTGCGGACTACGTGGCGGGCAGCCAGGACGCTTTCGTCAGCCTGATGAACGGCTACGCCAAAAAAATGGGGCTGACCAACACCACCTTTATGACCGTCCACGGCCTCGATGCGCCGGGGCAGTTCAGTACCGCCCGCGATATGGCGTTACTGACCAAAGCGATGATCCACGACGTACCGGAAGAGTACGCGGTACATAAAGAGAAAGAGTTTACCTTTAATAAAATTCGCCAGCCAAACCGTAACCGCCTGCTGTGGAGCACCAACCTCAACGCCGATGGCGTGAAAACCGGGACCACCGCCGGGGCCGGCTATAACCTGGTATCTTCGGCCACTCAGGGCGATATGCGTTTGATTGCCGTGGTGCTGGGGACCAAAACCGACCGCATTCGCTTTAACGAGTCGGAAAAACTGCTGACCTGGGGCTTCCGCTTCTATGAAACCGTGACGCCGATTAAGCCGGATGCCACCTTCGTCACCCAGCGCGTGTGGTTTGGCGACAACAGCGAAGCGAAACTGGGGGCCGGCGAAGCGGGCTCTATCACCCTGCCGAAGGGCCAGCTGAAAAACCTGAAAGCCAGCTACACCTTAAACCAGCCGCAGCTTACCGCGCCGCTGGAGAAGGGGCAGGTGGTCGGGACTATCGACTTTAAGCTGAATGATAAAACCATCGAGCAGCGCCCGCTGATCGTCATGGAGCCGGTGAAAGAGGGCGGCTTCTTCAGCCGGATGATCGACTTCGTACTGATGAAACTGCACGGCTGGTTCGGCAGCTGGTTCTCCTGA	MDYASGKVLSEGNADEKLDPASLTKIMTSYVVGQAIKAGKIKLTDMVTVGRDAWATGNPALRGSSVMFLKPGMQVSVEDLNKGVIIQSGNDASIAIADYVAGSQDAFVSLMNGYAKKMGLTNTTFMTVHGLDAPGQFSTARDMALLTKAMIHDVPEEYAVHKEKEFTFNKIRQPNRNRLLWSTNLNADGVKTGTTAGAGYNLVSSATQGDMRLIAVVLGTKTDRIRFNESEKLLTWGFRFYETVTPIKPDATFVTQRVWFGDNSEAKLGAGEAGSITLPKGQLKNLKASYTLNQPQLTAPLEKGQVVGTIDFKLNDKTIEQRPLIVMEPVKEGGFFSRMIDFVLMKLHGWFGSWFS	PGPT0024040_2955	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
BMS020_02242	759	deoR_1	COG1349	Deoxyribose operon repressor	ATGGAAACTCGCCGTGACGAACGCATCAGTCAACTCATTCAGGCACTCAAGCGCAGCGATAAGCTGCATCTGAAAGAAGCGGCCTCCCTGCTTGGGGTGTCGGAAATGACCATTCGTCGCGACCTCAACGGCCACAGCGGTCCGGTCGTGCTGCTCGGCGGATACATTGTGCTGGAGCCGCGCAGCGCCACCCATTACCTGCTCAGCGACCAAAAGACCCGGCTGGTCGAGGAGAAACGCCGCGCCGCCCGCCATGCGGCCGCGCTGCTGGAGCCCCATCAGATGGCCTTCTTCGACTGCGGGACCACCACCCCGTGGATCATCGACGCCATTGACGATGCCCTGCCCTTCACCGGCGTCTGCTACTCCCTGAACACCTTTCTGGCCCTGCAGGAAAAGCCCCAGTGCCGCGCGGTCCTGTGTGGTGGAGAATTTCATGCCAGCAACGCGATTTTTATGCCGCTGAGCCTTGAGGATACCCTCAGCCATCTGAGCCCTGACATCGCCTTTTACTCGGCGGCGGGCATTGACTGCGAACAGGGGGCGACCTGCTATAACCTGGAGGAACTGCCGGTCAAACACTGGGCGATGCGACACGCGCGCTACCACGTGCTGGTGGTCGACCACAGCAAGTTTGGCAAAGTGCGTCCGGCGCGCATGGGGGCGTTAGCGAAGTTTGACGTGATCGCCAGCGATATCTGCCCGGATGATGAGCTGGTGGCGCTGGCGAAGGCACAGCAGATCTCCCTGCTGTATTGA	METRRDERISQLIQALKRSDKLHLKEAASLLGVSEMTIRRDLNGHSGPVVLLGGYIVLEPRSATHYLLSDQKTRLVEEKRRAARHAAALLEPHQMAFFDCGTTTPWIIDAIDDALPFTGVCYSLNTFLALQEKPQCRAVLCGGEFHASNAIFMPLSLEDTLSHLSPDIAFYSAAGIDCEQGATCYNLEELPVKHWAMRHARYHVLVVDHSKFGKVRPARMGALAKFDVIASDICPDDELVALAKAQQISLLY				NA	NA	NA	NA	NA
BMS020_02243	594	ybjG	COG0671	Putative undecaprenyl-diphosphatase YbjG	ATGCTGGAAAATATTAACTACGCGCTGTTCGCCCTGCTCAACGCGACCCCGGCCTCGCCGCAGTGGGCCATTGAGGTGGCGATTTTCATCGCTAAAGATCTGATTCTGATCGTGCCCCTGCTGGTGGTGGCCTTGTGGCTGTGGGGGCCTGCCCAGCGGCAGATGGTGTTTAAGCTGATGCTGGCGCTGACGATCAGCCTGACCGTCTCATGGGCGATCGGCCACCTCTATCCGCACGATCGGCCGTTTGTCGCCGGCGTGGGCTATAACTTCCTGCACCATGCGGCGGACGACTCCTTCCCCAGCGACCATGGCACCGTCAGCTTTACCTTTGCCCTGGCCTTTCTGTTCTGGCATCGCCTGTGGTCCGGCGCCCTGCTGATGGCCCTTGCCGCCGCCATCGCCTGGTCCCGCGTCTATCTCGGCGTCCACTGGCCGCTGGACATGGTTGGCGGCCTGCTGGCCGGGATGTGCGGCTGCCTTGGCGCGGCGCTAATCTGGCATACTGTCGGCCCGGCGCTGTACCGTCAGCTGCAGCGCCTCTATCGCCTCTGCTTCTCCCTGCCGATCCGCAAAGGCTGGGTGCGCGGCTAA	MLENINYALFALLNATPASPQWAIEVAIFIAKDLILIVPLLVVALWLWGPAQRQMVFKLMLALTISLTVSWAIGHLYPHDRPFVAGVGYNFLHHAADDSFPSDHGTVSFTFALAFLFWHRLWSGALLMALAAAIAWSRVYLGVHWPLDMVGGLLAGMCGCLGAALIWHTVGPALYRQLQRLYRLCFSLPIRKGWVRG	PGPT0024170_1445	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024170-bcrC-K19302	NA	NA
BMS020_02244	1233	mdfA		Multidrug transporter MdfA	ATGCAAAATTATTCGCTTTCAGGCCGCCGCCTCGGAAGGCAGGCGCTGCTGTTCCCGCTATGTCTGGTGCTGTACGAGTTTTCCACCTATATCGGCAACGATATGATCCAGCCGGGTATGCTGGCCGTGGTTCAGGAATTCCAGGTGGGCAACGAGTGGGTACCCACCTCGATGACCGCCTATCTGGCCGGCGGCATGTTTTTACAGTGGCTGCTGGGGCCTCTGTCGGACCGTATTGGCCGCCGTCCGGTGATGTTGACCGGGGTGGTGTGGTTTATCGTTACCTGCCTGGCGACGCTGCTGGCGCAGACCATTGAGCAGTTCACCCTGCTGCGCTTCCTGCAGGGGATCAGCCTGTGCTTTATCGGCGCGGTCGGCTACGCGGCGATCCAGGAGTCCTTTGAGGAGGCGGTGTGTATTAAAATCACTGCCCTGATGGCCAACGTGGCGCTGATTGCTCCGCTGCTGGGGCCGCTGGTGGGCGCCGCCTGGGTGCATATCCTGCCGTGGGAGATGATGTTCGTGCTGTTCGCCGTGCTGGCGGCCATCTCGTTTGTCGGCCTGCAGCGGGCGATGCCGGAGACCGCGACGCGGCTGGGTGAAAAGCTGTCGGTCAAAGAGCTGGGCCGCGACTATCGGCTGGTGCTGAAGAACCTGCGCTTCGTCGCCGGCGCGCTGGCCACCGGCTTTGTCAGCCTACCGCTGCTGGCGTGGATTGCCCAGTCGCCGGTCATTATTATCAGCGGCGAACAAGCCACCAGCTATGAGTATGGCATGCTGCAGGTGCCGATTTTCGGCGCGCTGATTGCCGGCAACCTGGTGCTGGCGCGCCTGACTTCGCGCCGTACCGTGCGCTCGCTGATTATCATGGGCGGCTGGCCGATCGTGTTTGGCCTGCTCCTCTCCGCGGCGGCGACGGTGGTCTCTTCCCACGCCTATCTGTGGATGACCGCCGGCCTGAGCTTCTACGCCTTCGGGATTGGCCTGGCGAACGCCGGCCTGGTGCGCTTAACCCTGTTCGCCAGCGAGATGAGCAAAGGCACGGTTTCGGCGGCGATGGGAATGCTGCAGATGCTGATCTTCACCGTCGGCATCGAGCTCAGCAAACATGCTTACGAGCTGGGCGGCAATGGGCTGTTCAGCCTGTTTAACCTGCTGGGCGGGGTGCTGTGGCTGGGGCTGATGATCTACTTCCTGAAAGATAAAAGCGTCGGCAATTCGCAGCAGGGGTAA	MQNYSLSGRRLGRQALLFPLCLVLYEFSTYIGNDMIQPGMLAVVQEFQVGNEWVPTSMTAYLAGGMFLQWLLGPLSDRIGRRPVMLTGVVWFIVTCLATLLAQTIEQFTLLRFLQGISLCFIGAVGYAAIQESFEEAVCIKITALMANVALIAPLLGPLVGAAWVHILPWEMMFVLFAVLAAISFVGLQRAMPETATRLGEKLSVKELGRDYRLVLKNLRFVAGALATGFVSLPLLAWIAQSPVIIISGEQATSYEYGMLQVPIFGALIAGNLVLARLTSRRTVRSLIIMGGWPIVFGLLLSAAATVVSSHAYLWMTAGLSFYAFGIGLANAGLVRLTLFASEMSKGTVSAAMGMLQMLIFTVGIELSKHAYELGGNGLFSLFNLLGGVLWLGLMIYFLKDKSVGNSQQG	PGPT0027975_178	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0027975-mdfA|cmr-K08160	NA	NA
BMS020_02245	813	ybjI	COG0561	5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YbjI	ATGAGCATCAAACTGATTGCGGTGGATATGGACGGCACCTTTTTAAGCGATGCCAAAACCTACAACCGGCCGCGCTTCCTCGCCCAGTATCAACGAATGCGCGAGCAGAACATTCGCTTCGTGGTCGCCAGCGGCAACCAGTACTACCAGCTGATCTCCTTCTTTCCGGAGATCGCCCACCAGATCGCCTTCGTGGCGGAAAACGGCGGCTGGGTAGTGAGCGGCAATGAAGATGTCTTCAACTGCCAGCTGCCGGTTCACCATTTCAACGCCGTGGTCGATCATCTGCAGACGCTGCCGAATATCGAAATCATCGCCTGCGGGAAGCGCAGCGCCTACACCCTCAACCGCTACAACGACGCGCTGAAGACAGTGGCGGCGAAGTATTATCACCGCCTTGAACTGGTGGATGATTTTAACCATCTCGATGACACCATCCTCAAATTTGGTCTCAACGTGCCGGACCGCCTGATCCCGGAAATTCAGCCGAGGCTGCACGCGGCGCTGGGGGACATGGTGACCGCAGTGGCCACCGGCTACGGCAGCATCGACTTAATTATCCCGGGGGTGCACAAAGCCAACGGCCTGCGTATTTTGCAGCAGCGCTGGGGCATCGAGGATCATGAGGTGGTGGCGTTCGGCGACAGCGGCAACGATATCGAAATGCTGCAGCACGCCGGGTTTGGCTTCGCCATGGCCAACGCCCGGGAAGACGTCAAAGCCGTCGCCCGCTATCATGCGCCGCACAACAACGAAGAAGGGGTTCTGCAGATTATCGATAAGGTGTTGGATCGCGAAGCGCCGTTCGCCTGA	MSIKLIAVDMDGTFLSDAKTYNRPRFLAQYQRMREQNIRFVVASGNQYYQLISFFPEIAHQIAFVAENGGWVVSGNEDVFNCQLPVHHFNAVVDHLQTLPNIEIIACGKRSAYTLNRYNDALKTVAAKYYHRLELVDDFNHLDDTILKFGLNVPDRLIPEIQPRLHAALGDMVTAVATGYGSIDLIIPGVHKANGLRILQQRWGIEDHEVVAFGDSGNDIEMLQHAGFGFAMANAREDVKAVARYHAPHNNEEGVLQIIDKVLDREAPFA	PGPT0008580_199	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008580-ybjI-K20861	NA	NA
BMS020_02246	1203	ybjJ_1		Inner membrane protein YbjJ	ATGACGACGCAATCTTCGCGCAGAGCGCTCCAGCTTCGACTGTGGGCGCTGTTTATGTTCTTTTTCATCCCCGGCTTATTAATGGCCTCCTGGGCCACCCGCACGCCGGCGATCCGCGATCTGCTGGCGCTTTCTACCGCAGAGATGGGCGTCGTGCTGTTTGGCCTGTCGGTGGGATCGATGAGCGGTATTCTCTGCTCGGCGTGGCTGGTGAAGCGCTTTGGCACCCGCAAGGTCATCCGCACCACCATGTCCTTCGCCGTACTCGGCATGCTGGTGCTCAGCCTGGCGCTGTGGGTCACCTCCGCCCCGCTGTTCGCCTTCGGTCTGGCCATCTTTGGCGCCAGCTTTGGCTCGGCAGAGGTCGCCATTAACGTCGAGGGGGCGGCGGTTGAGCGGGAGATGAATAAAACGGTGCTGCCGATGATGCACGGCTTCTACAGCTTTGGCACCCTGTTCGGCGCCGGGGTGGGCATGGCGGTGACCGGGTTCGGCCTGCCCGCCGCTCCGCATATTCTGGCGGCCGCGCTGGTGGCCATTCTGCCCATCGCCATTGCCATCCGCGCCATTCCGGAGGGTACCGGTAAAAATGCCGCCGAAGCCGCCCACGGCGAGGCGAAAGGTCTGCCGGTATGGCGCGACGCGCAGCTGCTGCTTATCGGGGTCATCGTCCTGGCGATGGCCTTTGCCGAAGGCTCGGCCAATGACTGGCTGCCGCTGCTGATGGTGGACGGCCACGGCTTTAGCCCCACCTCCGGCTCGCTGATCTATGCCGGCTTCACCCTCGGCATGACGCTGGGCCGCTTTACCGGCGGCTGGTTTATCGATCGCTACAGCCGGGTGACGGTGGTTCGCGGCAGCGCAGTGATGGGCGCCCTGGGTATCGGCCTGATTATCTTCGTCGATAACCCCTGGGTGGCGGGCATCTCGGTGCTGCTGTGGGGCATCGGCGCCTCGCTCGGCTTCCCGCTGACTATTTCCGCCGCTAGCGATACCGGTCCGGATGCCCCTAAGCGCGTCAGCGTGGTGGCGATTACCGGGTATCTTGCTTTCCTCGTCGGGCCGCCGCTGTTGGGCTTCCTCGGCGAGCACTTCGGCCTGCGCAGCGCGATGCTGGTGGTGCTGGGCCTGGTGATGGTGGCGGCGCTGGTCGCCCGTGCGGTGGCTAAGCCACAGTCTGAACCCGTTATGGAGAACAGCTAA	MTTQSSRRALQLRLWALFMFFFIPGLLMASWATRTPAIRDLLALSTAEMGVVLFGLSVGSMSGILCSAWLVKRFGTRKVIRTTMSFAVLGMLVLSLALWVTSAPLFAFGLAIFGASFGSAEVAINVEGAAVEREMNKTVLPMMHGFYSFGTLFGAGVGMAVTGFGLPAAPHILAAALVAILPIAIAIRAIPEGTGKNAAEAAHGEAKGLPVWRDAQLLLIGVIVLAMAFAEGSANDWLPLLMVDGHGFSPTSGSLIYAGFTLGMTLGRFTGGWFIDRYSRVTVVRGSAVMGALGIGLIIFVDNPWVAGISVLLWGIGASLGFPLTISAASDTGPDAPKRVSVVAITGYLAFLVGPPLLGFLGEHFGLRSAMLVVLGLVMVAALVARAVAKPQSEPVMENS				NA	NA	NA	NA	NA
BMS020_02247	564	rcdA	COG3226	HTH-type transcriptional regulator RcdA	ATGGCCCGTAGACCGAACGATCCGCAGCGCCGCGTGCGCATCCTGCAGGCGACGCTGGACACCATCGCGGCGCACGGCGTCCATGCGGTGACGCACCGTAAAATCGCCACCTGCGCGAATGTGCCGCTGGGGTCGCTGACCTACTATTTCAGCGGCATCGAGGCGCTGATCGCGGAGGCGTTCAACCTGTTTACCGCCGAGATGTCGGCGCAGTATCAGCAAAGCTTCGCCGGGGTAACGAACCGGCAACAAGCCTGCGATGCCATCGCGGAGCTGATCTTCAGCGCCCAGGTGACCACGGCGCGCAATATGGAGCTGATGTACCAGCTGTACGCGTTCTGCAGCAGCCAGCCAGCGCTGAAGGCGGTGATGCAGAACTGGATGCGGCGCAGCCAGCAGACGCTGGAGCAGTGGTTTGCCCCGGACACCGCCCGCGGCCTTGACGCCTTTATTGAAGGGATGACCCTGCACTTTGTCACCGACCGCGCGCCGCTGTCGAAGGCGGCGATCCGCATAATGGTCGGGCAACTGGCGGGGGAGAGGGCGCAGGAAGAGGGGCGCTGA	MARRPNDPQRRVRILQATLDTIAAHGVHAVTHRKIATCANVPLGSLTYYFSGIEALIAEAFNLFTAEMSAQYQQSFAGVTNRQQACDAIAELIFSAQVTTARNMELMYQLYAFCSSQPALKAVMQNWMRRSQQTLEQWFAPDTARGLDAFIEGMTLHFVTDRAPLSKAAIRIMVGQLAGERAQEEGR	PGPT0014935_306	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014935-rcdA-K23778	NA	NA
BMS020_02249	1686	aspT_1		Aspartate/alanine antiporter	GTGAATATAAACGTCGCAGATTTGTTAAACGGGAATTACATCCTGTTATTATTCGTTGTACTTGCATTAGGACTATGCCTGGGAAAACTGCGTCTCGGCTCAGTACAACTTGGTAATTCCATTGGCGTTTTAGTCGTTTCTCTATTATTAGGTCAGCAGCATTTCGCGATTAACACCGATGCCCTTAATCTCGGCTTTATGTTGTTTATTTTTTGCGTCGGCGTGGAAGCCGGTCCTAACTTTTTTTCGATTTTTTTCCGCGACGGGAAAAACTATCTGATGCTGGCCCTGGTGATGGTCGGCAGCGCGATGCTGATCGCCATGGTGCTGGGTAAAGTGTTCGGCTGGGATATCGGGCTCACCGCCGGTATGCTGGCGGGGGCGATGACCTCCACCCCGGTGCTGGTGGGCGCGGGGGACACCCTGCGCCATTTCGGCCTGCCCAGCGATCAGCTGGCGCAGTCGCTTGACCACCTGAGCCTCGGCTATGCCCTGACCTACCTGGTTGGTCTGGTGAGCCTGATCGTCGGCGCCCGCTATATGCCCAAGCTGCAGCATCAGGATCTGCAGACCAGCGCCCAGCAAATCGCCCGCGAGCGCGGCCTCGATACCGATTCCAAACGTAAAGTCTACCTGCCGGTGATCCGCGCCTATCGCGTCGGTCCGGAGCTGGTGGCATGGGCGGATGGCAAAAATCTGCGTGAGCTGGGCATTTATCGCCAGACCGGCTGCTATATCGAACGCATCCGTCGCAACGGCATTCTGGCCAACCCGGACGGCGACGCGGTGCTGCAGATGGGCGACGATATTGCGCTGGTGGGCTACCCGGACGCGCACGCCCGCCTCGACCCGAGCTTCCGCAACGGTAAAGAGGTGTTCGACCGCGACCTGCTCGACATGCGCATCGTCACCGAAGAGATTGTGGTCAAAAACCACAACGCCGTCGGCCGCCGCCTGGCGCAGCTCAAGCTCACCGATCACGGCTGCTTCCTGAACCGGGTCATTCGCAGCCAGATCGAGATGCCTATCGACGACAACGTGGTGCTGAACAAAGGCGACGTGCTGCAGGTCAGCGGCGACGCCCGCCGCGTGAAGACCGTAGCCGACCGCATCGGCTTTATCTCCATTCACAGCCAGGTGACCGACCTCCTCGCCTTCTGCGCCTTCTTTATCGTCGGCCTGATGATCGGCATGATCACCTTCCAGTTCAGCTCCTTCAGCTTCGGCATCGGCAACGCCGCCGGCCTGCTGTTCGCCGGCATCATGCTTGGCTTCCTGCGCGCCAACCACCCAACCTTCGGCTATATCCCGCAGGGGGCGCTGAACATGGTAAAAGAGTTTGGCCTGATGGTGTTTATGGCCGGGGTCGGGCTCAGCGCCGGGGCCGGGATCAATAACGGGCTGGGCGCCGTCGGCGGCCAGATGCTGGCGGCCGGGCTTATCGTCAGCCTGGTGCCGGTGGTGATCTGCTTCCTGTTCGGCGCCTACGTGCTGCGCATGAACCGGGCGATGCTGTTCGGCGCCATGATGGGGGCCCGCACCTGCGCCCCGGCGATGGAGATCATCAGCGATACCGCGCGCAGCAACATCCCGGCGCTCGGCTATGCGGGCACCTACGCCATCGCCAACGTGCTGCTCACCCTCGCCGGGACGCTCATCGTGATCATCTGGCCAGGGCTACAATAA	MNINVADLLNGNYILLLFVVLALGLCLGKLRLGSVQLGNSIGVLVVSLLLGQQHFAINTDALNLGFMLFIFCVGVEAGPNFFSIFFRDGKNYLMLALVMVGSAMLIAMVLGKVFGWDIGLTAGMLAGAMTSTPVLVGAGDTLRHFGLPSDQLAQSLDHLSLGYALTYLVGLVSLIVGARYMPKLQHQDLQTSAQQIARERGLDTDSKRKVYLPVIRAYRVGPELVAWADGKNLRELGIYRQTGCYIERIRRNGILANPDGDAVLQMGDDIALVGYPDAHARLDPSFRNGKEVFDRDLLDMRIVTEEIVVKNHNAVGRRLAQLKLTDHGCFLNRVIRSQIEMPIDDNVVLNKGDVLQVSGDARRVKTVADRIGFISIHSQVTDLLAFCAFFIVGLMIGMITFQFSSFSFGIGNAAGLLFAGIMLGFLRANHPTFGYIPQGALNMVKEFGLMVFMAGVGLSAGAGINNGLGAVGGQMLAAGLIVSLVPVVICFLFGAYVLRMNRAMLFGAMMGARTCAPAMEIISDTARSNIPALGYAGTYAIANVLLTLAGTLIVIIWPGLQ	PGPT0000709_469	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ALANINE_TRANSPORT,PGPT0000709-aspT|ybjL|yidE-K07085	NA	NA
BMS020_02250	384	ybjM		Inner membrane protein YbjM	GTGAAATCTGAGCGTAGTTGGGCCGGCATTATCTGTGGCTTCGTTCTGTTCATTGTGGTGTGCTTATCGTTGTTGTTACATATGAAAGGGGCCTTTCGCGCCAGCGGCAACCCGGAGCTGGGCCTGCTCTTCTTTTTGCTGCCAGGGGCGGCGGCGAGCTGTCTCTCTCCCGGACGGCGGGTGCTGCGTCCTTTGCTCGGCGCGATACTGGCGGCGCCGGTCTGTATGGTGACGATGCGGCTGTTTTTCGTCACGCACCGGACGTTCTGGCAGGAGATGGCGTGGGTACTGAGCGCGGTGTTCTGGTGTGCGCTCGGGGCGTTGTGCTTTTTGTTTATCTGCGCCTGGCTTGATACCTGGCGCAGTCATTCATCGAGTAAATAA	MKSERSWAGIICGFVLFIVVCLSLLLHMKGAFRASGNPELGLLFFLLPGAAASCLSPGRRVLRPLLGAILAAPVCMVTMRLFFVTHRTFWQEMAWVLSAVFWCALGALCFLFICAWLDTWRSHSSSK				NA	NA	NA	NA	NA
BMS020_02251	264	grxA	COG0695	Glutaredoxin 1	ATGTTTACCGTTATTTTTGGTCGTCCAGGCTGCCCTTACTGCGTTCGCGCCAAAGAGCTGGCAGAAAAACTGACCAACGAGCGTGATGACTTTAACTACCGTTACGTGGATATTCACGCCGAAGGCATCAGCAAAGCTGATCTGGAAAAAACCGTCGGCAAACCGGTTGAAACCGTACCGCAGATTTTCGTCGACCAGAAACACATCGGCGGTTGCACCGATTTCGAAGCCTGGGCGAAAGAGAACCTTGGCCTGTTTGCCTGA	MFTVIFGRPGCPYCVRAKELAEKLTNERDDFNYRYVDIHAEGISKADLEKTVGKPVETVPQIFVDQKHIGGCTDFEAWAKENLGLFA	PGPT0013010_208	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CHAPERONES,PGPT0013010-grxA-K03674	NA	NA
BMS020_02252	288			hypothetical protein	ATGCGAAAATTTGCCCCGTTGCCAAAAAGCATACTGCTGGTTGAGATCCTCGGGATGGGGCTGTTAACCCTCGCCTGGCTCTCGCTTAACCAGTATGTCCAACTGCCTGCGCCCATTGCCAGCCCGACCGCGGCGCTGGTGATGCTCTTTGCCGGGATCGTGCTGATGATCCCCGCCGCCATCGTCGTGATGTGGCGGATGGCGCAGATCGTGGCCCCGCAGTTAACCCACTCTCCTGAGCCTGAACCCTTGTCTGACAGAGAAAAACGAAATGACGCCGACCATTGA	MRKFAPLPKSILLVEILGMGLLTLAWLSLNQYVQLPAPIASPTAALVMLFAGIVLMIPAAIVVMWRMAQIVAPQLTHSPEPEPLSDREKRNDADH				NA	NA	NA	NA	NA
BMS020_02253	723	nfsA	COG0778	Oxygen-insensitive NADPH nitroreductase	ATGACGCCGACCATTGAGCTGCTGCGCAGCCACCGTTCTATCCGCCACTTCACCGATGCGCCCGTGAGCGACGAACAGCGCGCGGCGATTATCGCCAGCGCGCAAGCGGCATCTACCTCGAGTTTTTTACAGTGCACCTCCATCATCCGTATTACCGACCCGGCCCTGCGTGAACGTCTGGTCCCGCTGACCGGCGGCCAGCAGCACGTCGCCCAGGCGGCGGAGTTTTGGGTCTTCTGCGCCGACTTTAACCGCCACCTGCAGATCTGCCCGCAGGCGGAGCTGGGGCTGGCGGAACAGCTGCTGATCGGCGTTGTCGATACGGCGCTGCTGGCGCAAAACGCGCTGACCGCCGCCGAGTCCCTCGGGCTGGGTGGCGTCTATATCGGCGGGTTGCGCAACAGCATCGAGGCGGTGACCGAGCTGCTGGAGCTGCCGCAGCACGTCCTGCCGCTGTTCGGTCTTTGCCTTGGCTGGCCGGCGGATAACCCGGACATCAAGCCGCGGATGCCGGCCGCCATGCTGGTGCATGAGAACCGCTATCAGCCGCTGGATAACGCGCTGCTGGGGGAGTATGACGAACAGCTGGCGCACTATTATCTGTCGCGCGGCAGCAACGCCCGCCGCGATACCTGGAGCGATCATATCCGTCGCACTATCGTGAAAGAGAGTCGTCCGTTTATTCTCGACTATCTGCATAAGCAGGGGTGGGCAACGCGCTGA	MTPTIELLRSHRSIRHFTDAPVSDEQRAAIIASAQAASTSSFLQCTSIIRITDPALRERLVPLTGGQQHVAQAAEFWVFCADFNRHLQICPQAELGLAEQLLIGVVDTALLAQNALTAAESLGLGGVYIGGLRNSIEAVTELLELPQHVLPLFGLCLGWPADNPDIKPRMPAAMLVHENRYQPLDNALLGEYDEQLAHYYLSRGSNARRDTWSDHIRRTIVKESRPFILDYLHKQGWATR	PGPT0005920_116	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_NITRO-AROMATE_DEGRADATION,PGPT0005920-nfsA-K10678	NA	NA
BMS020_02254	903	rimK_1	COG0189	Ribosomal protein S6--L-glutamate ligase	ATGAAAATTGCCATATTATCCCGGGATGGAACGCTTTATTCATGTCGACGCCTGCGCGAAGCGGCGCAACAGCGCGGGCATCAGGTCGAGATCCTCGATCCGCTTTCCTGTTATATGAACGTCAGCCCGGTGGCCTCTTCGATCCACTATAAAGGGCGCCAGTTGCCGCACTTTGATGCGGTGATCCCGCGCATTGGCTCGGCGATTACCTACTATGGCACCGCGGCCCTGCGTCAGTTTGAGCTCCTGGGAAGCTATCCGCTGAACGAATCGGTCGCCATCACCCGCGCTCGCGATAAGCTGCGCTCGCTGCAGCTGCTGGCGCGCCAGGGCATCGATCTGCCGCTGACCGGCATCGCTCACTCCCCCGATGACACCAGCGATCTGATCGCCATGGTCGGCGGCGCGCCGCTGGTGGTGAAGCTGGTGGAGGGTACCCAGGGGATCGGCGTGGTGCTGGCGGAGACCCGCCAGGCGGCGGAGAGCGTGATCGACGCCTTTCGCGGGCTGAACGCCCACATCCTGGTGCAGGAGTATATTGCCGAGGCGAAAGGCTGCGATATTCGCTGCCTGGTGGTCGGCAATGAGGTGGTGGCGGCGATCGAACGGCGGGCGAAAGAGGGCGATTTTCGCTCTAACCTGCACCGTGGTGGCATGGCTACGGTGGCGCAGATTAGCGATGAGGAGCGCGCCATTGCCATCAAGGCGACGCAAACCCTGGGCCTGGACGTCGCCGGTGTCGATATTTTACGCGCCACCCGCGGGCCGCTGGTGATGGAGGTGAATGCCTCGCCCGGACTGGAAGGAGTGGAAACCACCTCCGGCGTGGACATCGCCAGCAGGATGATCGCCTGGATCGAGCGCCAGGCGACACCGGAATTCTGTTTGAAAATAGGCGGCTAA	MKIAILSRDGTLYSCRRLREAAQQRGHQVEILDPLSCYMNVSPVASSIHYKGRQLPHFDAVIPRIGSAITYYGTAALRQFELLGSYPLNESVAITRARDKLRSLQLLARQGIDLPLTGIAHSPDDTSDLIAMVGGAPLVVKLVEGTQGIGVVLAETRQAAESVIDAFRGLNAHILVQEYIAEAKGCDIRCLVVGNEVVAAIERRAKEGDFRSNLHRGGMATVAQISDEERAIAIKATQTLGLDVAGVDILRATRGPLVMEVNASPGLEGVETTSGVDIASRMIAWIERQATPEFCLKIGG				NA	NA	NA	NA	NA
BMS020_02255	480	ybjN		putative protein YbjN	ATGGATTCACTGGTCGTTCCAGGTCTGGATACGCTACGTCGCTGGCTGGATGAGATCGGCATCAGCTTTTTTGAGTGCGATTCCTGTCAGGCATTGCACCTGCCGCATATGCAGAATTTCGACGGTATTTTTGATGCCAAAATTGACCTGGTGGATAACGTGGTGCTCTTTTCCGCCCTGGCGGAGGTGAAGCCGTCTGCTTTACTGGCGCTGTCGGCGGATCTCTCGGCCATCAACGCCAGTTCGTTAACCGTGAAGGCGTTTATCGACATTCAGGACGATAATTTGCCCAAGCTGGTGGTCTGCCAGTCGCTGTCTATCGGCCCCGGGGTGACGATGGAGCAGTTCGCCTGGTTCTTCCGCCAAAGCGAGGAGCAGATCTCGATGGTGATCCTCGAAGCCGGCGCCAATCAGCTGCTGTACAAAGGCGAAGAAGAAGAGCCGGCCGCAGAAAACGTGCAATACCATTTTCTTCACTAA	MDSLVVPGLDTLRRWLDEIGISFFECDSCQALHLPHMQNFDGIFDAKIDLVDNVVLFSALAEVKPSALLALSADLSAINASSLTVKAFIDIQDDNLPKLVVCQSLSIGPGVTMEQFAWFFRQSEEQISMVILEAGANQLLYKGEEEEPAAENVQYHFLH				NA	NA	NA	NA	NA
BMS020_02256	1113	potF_1	COG0687	Putrescine-binding periplasmic protein	ATGACCGCCTTTGGTAAAAAATGGTTAACAGGTCTGGTTACGGGTGCGCTGATGGCCGTCTCTGCCGGTTCGCTCGCCGCCGAACAAAAAACCCTGCATGTCTATAACTGGTCTGATTATATTGCGCCGGACACCGTGGCCAATTTCGAAAAAGAGACCGGGATTAAAGTCGTGTATGACGTTTTTGATTCCAATGAAGTGCTGGAAGGTAAATTAATGGCCGGCAGCACCGGTTTCGATCTGGTGGTGCCATCGGCCAGCTTCCTTGAGCGCCAGCTGGCGGCGGGCGTGTTCCAGCCGCTGGATAAGAGCAAGCTGCCTAACTGGAAGAATCTCGACCCCGAAGTGCTGAAGCTGGTCGCCAAGCATGACCCGGAGAATAAATACGCCATGCCTTACCTGTGGGCGACGACGGGCATTGGCTACAACGTTGATAAAGTGAAAGCCGTCCTCGGCAAAGATGCGCCGGTCGACAGCTGGGATCTGGTGCTGAAGCCGGAGAACCTTGAAAAACTGAAAAGCTGCGGCGTCTCCTTCCTCGACGCGCCGGAAGAGATTTTCGCCACCGTGCTGAACTACCTTGGCAAGGATCCGAACAGCAGCAAAGCGAATGATTACACCGGTCCGGCCACCGATCTGCTGCTGAAGCTGCGGCCGAACATCCGCTACTTCCACTCTTCGCAATATATTAACGACCTCGCCAATGGCGACATCTGCGTGGCGATCGGCTGGGCAGGGGACGTCTGGCAGGCGGCGAACCGCGCGAAAGAGGCGAAGAACGGCGTCAACGTCTCCTACTTTATTCCGAAGGAAGGCGCCCTGGCGTTCTTTGACGTCTTTGCGATGCCGGCCGACGCTAAGAATAAAGATGAGGCCTATCAGTTCCTTAACTATCTGATGCGCCCGGATGTGATCGCCAAAATCAGCGACCAGGTGTTCTACGCCAACGGCAACAAGGCCTCTACGCCGCTGGTCAGCGAGACTATCCGTAACAACCCGGCGATTTATCCGCCAGCGGATGTGTTCGCCAAACTGTTCACGCTGAAGGTGCAGGATCCGAAGATCGACCGCGTGCGCACCCGCGCGTGGACCAAAGTGAAGAGCGGTAAATAA	MTAFGKKWLTGLVTGALMAVSAGSLAAEQKTLHVYNWSDYIAPDTVANFEKETGIKVVYDVFDSNEVLEGKLMAGSTGFDLVVPSASFLERQLAAGVFQPLDKSKLPNWKNLDPEVLKLVAKHDPENKYAMPYLWATTGIGYNVDKVKAVLGKDAPVDSWDLVLKPENLEKLKSCGVSFLDAPEEIFATVLNYLGKDPNSSKANDYTGPATDLLLKLRPNIRYFHSSQYINDLANGDICVAIGWAGDVWQAANRAKEAKNGVNVSYFIPKEGALAFFDVFAMPADAKNKDEAYQFLNYLMRPDVIAKISDQVFYANGNKASTPLVSETIRNNPAIYPPADVFAKLFTLKVQDPKIDRVRTRAWTKVKSGK	PGPT0007805_405	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007805-potF-K11073	NA	NA
BMS020_02257	1167	potA_3	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGGTGATCGTTTTTTTGCCGGAGAGCACCCGATTGAACGACGTAATGCCCCGCCCACAGGCGAAAGCCCCCAAAGCGCTGACCCCGCTGCTGGAAATCCGTAACTTAACCAAGTCGTTTGATGGCCAGCACGCTGTCGACGATGTCAGTCTCACTATTTATAAAGGCGAAATTTTTGCTCTGCTGGGCGCATCAGGCTGCGGGAAATCGACCCTGCTGCGCATGCTGGCGGGCTTTGAGCAACCGACCGCCGGACAGATTATGCTTGACGGCGTGGATCTGGCGCGCGTACCGCCCTATCAGCGGCCTATCAATATGATGTTCCAGTCCTACGCCCTGTTTCCCCATATGACCGTTGAGCAGAATATCGCTTTCGGTCTGAAGCAGGATCGTCTGCCTAAGGCGGAAATCACCGCCCGGGTGCAGGAGATGCTGGCTCTGGTGCACATGCAGGAGTTCGCTAAACGTAAGCCGCACCAGCTCTCTGGCGGTCAGCGCCAGCGCGTCGCGTTGGCGCGCAGCCTGGCGAAACGACCAAAGCTGCTGCTGCTCGACGAGCCGATGGGGGCGCTGGATAAAAAGCTGCGCGATCGCATGCAGCTGGAGGTGGTGGATATTCTTGAGCGCGTTGGCGTGACCTGCGTGATGGTGACTCACGATCAGGAAGAGGCCATGACCATGGCGGGCCGTATCGCCATCATGAACCGCGGCAAGTTTGTGCAGATTGGCGAACCGGAAGAGATTTACGAGCACCCGACCACCCGCTACAGCGCCGAGTTCATCGGCTCGGTGAACGTCTTTGAAGGGCTGGTGAAAGAGCGTCTGGAAGATGGCCTGGTGCTGCGCTCGCCGGGACTGGTGCATCCGCTGAAGGTCGACCCCGACGCCTCGGTGGTGGACAACGTGCCGGTGTGGGTGGCGCTGCGTCCGGAGAAGATCATGCTGTGCGATGAGCCGCCGGCGGATGGCTACAATTTTGCCGTCGGCGAGGTGATTCATATCGCCTATCTGGGGGATCTCTCCATCTACCATGTGCGCCTGCAAAGCGGGCAGATGATCAGCGCCCAGCTGCAGAATGAGCACCGCCATCGGAAAGGGACGCCCACCTGGGGTGACGAGGTGCGTTTATGCTGGGATGCGGACAGCTGCGTTGTACTGACGGTGTAA	MVIVFLPESTRLNDVMPRPQAKAPKALTPLLEIRNLTKSFDGQHAVDDVSLTIYKGEIFALLGASGCGKSTLLRMLAGFEQPTAGQIMLDGVDLARVPPYQRPINMMFQSYALFPHMTVEQNIAFGLKQDRLPKAEITARVQEMLALVHMQEFAKRKPHQLSGGQRQRVALARSLAKRPKLLLLDEPMGALDKKLRDRMQLEVVDILERVGVTCVMVTHDQEEAMTMAGRIAIMNRGKFVQIGEPEEIYEHPTTRYSAEFIGSVNVFEGLVKERLEDGLVLRSPGLVHPLKVDPDASVVDNVPVWVALRPEKIMLCDEPPADGYNFAVGEVIHIAYLGDLSIYHVRLQSGQMISAQLQNEHRHRKGTPTWGDEVRLCWDADSCVVLTV	PGPT0007810_125	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007810-potG-K11076	NA	NA
BMS020_02258	954	potH_1	COG1176	Putrescine transport system permease protein PotH	ATGAGTACCGTTGAATCCCCGTCAGGGGCGAAAAAACCGGGCGGCTTCGCGCTGTGGGCGGCGCGCCTGCAGATGGCGCATGGCCGCAAGCTGGTGATCGCGCTGCCCTATCTGTGGCTGATCCTGTTGTTTATGCTGCCGTTCCTGATCGTGTTCAAGATAAGTCTTGCCGAGATGGCGCGGGCGATCCCTCCCTACACCGATCTGATGGAGTGGGCGGATGGTCAGCTGACGCTGACCCTTAACTTTGCCAACTTCCTGCAGCTGACCGACGATCCGCTCTATTTTGAGGCTTATCTGCAGTCGCTGCAGGTGGCGGGCATCTCGACGCTCTGCTGCCTGCTGCTGGGCTATCCGCTGGCCTGGGCGGTGGCGCACAGCAAGCCGTCGACGCGCAATATTCTGCTGTTGCTGGTGATCCTCCCGTCGTGGACGTCGTTTTTGATCCGCGTCTATGCCTGGATGGGACTGCTGAAAAGCAACGGGGTGTTGAATAACTTCCTGCTGTGGCTAGGGGTTATCGATCAGCCGCTGGAGATCCTGCACACCAACCTGGCGGTATATATCGGTATCGTCTATGCCTATCTGCCGTTTATGGTGCTGCCTATCTACACCGCGCTGACCCGCATCGACTATTCGCTGGTGGAGGCCTCGCTGGATCTCGGCGCCCGGCCGCTGAAGACCTTCTTTCAGGTGATCGTTCCGCTCACCAAAGGGGGGATTATCGCTGGCTCCATGCTGGTGTTTATCCCGGCGGTGGGGGAGTTCGTGATCCCGGATCTGCTGGGCGGGCCGGACAGCATTATGATTGGCCGCGTGCTGTGGCAGGAGTTCTTTAACAACCGTGACTGGCCGGTGGCTTCGGCGGTGGCGATTGTCATGCTGCTGCTGCTGATCGTGCCGATCATGTGGTTCCATAAGCACCAGCAAAAACAGATGGGAGAGCAGGGATGA	MSTVESPSGAKKPGGFALWAARLQMAHGRKLVIALPYLWLILLFMLPFLIVFKISLAEMARAIPPYTDLMEWADGQLTLTLNFANFLQLTDDPLYFEAYLQSLQVAGISTLCCLLLGYPLAWAVAHSKPSTRNILLLLVILPSWTSFLIRVYAWMGLLKSNGVLNNFLLWLGVIDQPLEILHTNLAVYIGIVYAYLPFMVLPIYTALTRIDYSLVEASLDLGARPLKTFFQVIVPLTKGGIIAGSMLVFIPAVGEFVIPDLLGGPDSIMIGRVLWQEFFNNRDWPVASAVAIVMLLLLIVPIMWFHKHQQKQMGEQG	PGPT0007820_307	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007820-potH-K11075	NA	NA
BMS020_02259	846	ydcV_2		Inner membrane ABC transporter permease protein YdcV	ATGAACGACTTGCCGGTAGTACGCTCGCCGTGGCGCATTCTGATCCTCGTGCTCGGGTTCACCTTCCTCTATGCCCCGATGCTGATGCTGGTGATCTACTCCTTCAATAGCTCAAAGCTGGTGACGGTCTGGGCCGGGTGGTCAACGCGCTGGTATAGCGAGCTGTTCCACGATGACGCGATGATGAGCGCGGTGGGGCTCAGCCTGACTATCGCCGCCTGCGCGGCGACGGCGGCGGCGATCCTTGGCACCATCGCCGCGGTGGTGATGGTGCGCTTTGGACGTTTTCGCGGCTCCAACGGCTTCGCGTTTATGATCACCGCGCCGCTGGTCATGCCGGACGTGATCACCGGGCTCTCGCTGCTGCTGCTGTTCGTGGCGCTGGGACATGCCATCGGCTGGCCGTCGGATCGCGGGATGCTGACCATCTGGCTGGCGCACGTCACCTTCTGTACCGCCTACGTGGCGGTGGTGATCTCCTCGCGCCTGCGTGAGCTGGACCACTCGATCGAAGAGGCGGCGATGGATCTTGGCGCCGCGCCGCTGAAGGTCTTCTTCGTCATCACGCTGCCGATGATTATGCCAGCGGTGATCTCCGGCTGGCTGCTGGCCTTCACGCTGTCGCTGGATGACCTGGTGATCGCCAGCTTTGTCTCCGGTCCCGGGGCCACGACCTTGCCGATGCTGGTCTTCTCCAGCGTGCGCATGGGGGTCAACCCGGAGATTAACGCCCTGGCGACGCTCATCCTCGGCGTGGTCGGCGTTGTTGGTTTTATCGCCTGGTATTTGATGGCCCGCGCAGAAAAGCAGCGAGTGCGCGATATCCAGCGTGCAAGACAAGGCTGA	MNDLPVVRSPWRILILVLGFTFLYAPMLMLVIYSFNSSKLVTVWAGWSTRWYSELFHDDAMMSAVGLSLTIAACAATAAAILGTIAAVVMVRFGRFRGSNGFAFMITAPLVMPDVITGLSLLLLFVALGHAIGWPSDRGMLTIWLAHVTFCTAYVAVVISSRLRELDHSIEEAAMDLGAAPLKVFFVITLPMIMPAVISGWLLAFTLSLDDLVIASFVSGPGATTLPMLVFSSVRMGVNPEINALATLILGVVGVVGFIAWYLMARAEKQRVRDIQRARQG	PGPT0007815_123	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007815-potI-K11074	NA	NA
BMS020_02260	489	ybjO		Inner membrane protein YbjO	ATGGAAGACATTACGTTGGGATTGTTTACGAAAACTCGCTCATCGCATGCCCGCCTTAACGTCCCTGCGCTGGTGCAGGTGGCGGCCTTTGCGATTATTTTGATTCGCGGTCTGGATCTGCTGATGATCCTCAATTTGTTGGGCCTGCAGGGGCTGAACGAATTCATACACCGTAGCGTCCAGACCTGGAACCTGACGCTGGTCTTCCTCGGCAGCCTGGCGCTGGTGTTTATCGAAATCTGGTGCGCCTTCTCGCTGGTGAAAGGGCGCAACTGGGCGCGCTGGGTCTATCTGCTGACGCAGATGATAGCCGCCGGCTACCTGTGGGCGGCGTCGCTGGGCTACGGGTATCCGGAGCTGTTCAGTATTCCCGGCGAATCCAAACGGGAGATCTTCCACTCGCTGGTGATGCAAAAACTGCCGGATCTACTGGTCCTGACGCTGCTGTTTGTGCCAGCGACCTGCCGTCGGTTTTTCCGCCTGCAATAA	MEDITLGLFTKTRSSHARLNVPALVQVAAFAIILIRGLDLLMILNLLGLQGLNEFIHRSVQTWNLTLVFLGSLALVFIEIWCAFSLVKGRNWARWVYLLTQMIAAGYLWAASLGYGYPELFSIPGESKREIFHSLVMQKLPDLLVLTLLFVPATCRRFFRLQ				NA	NA	NA	NA	NA
BMS020_02261	1128	rlmC	COG2265	23S rRNA (uracil(747)-C(5))-methyltransferase RlmC	ATGCATTGCGCACTCTACGACGCCGGCCGCTGCCGTTCCTGTCAATGGCTGGAACGGTCGGTTCCGCAACAGCTCGCCGATAAAATGGCCGACCTGCGCACGCTGCTGGCGGCAATCCCCGTCGCCGACTGGGGCGAGCCGGTCAGCGGGCCGGAGGCGGCTTTCCGTAACAAGGCCAAAATGGTGGTCAGCGGCAGCGTTGAGCGTCCGCTGCTGGGGATGCTGCACCGCGATGGCACCCAGGTGGATCTGACCGACTGCCCGCTCTATCCCGCCGAGTTTGCGCCGGTGTTTGCCGGCCTGAAGCCCTTTATCGCCCGCGCCGGGTTAACTCCCTACAACGTCGCGCGCAAGCGCGGGGAGCTGAAATATCTGCTGCTGACCGCCAGCCAGCAGGGGGAGATGATGCTGCGCTTTGTGCTGCGCTCAGAGGCCAAGGTGGCCCAGCTGCGCGCCGCGCTGCCCTGGCTGCAGGCACAGCTCCCGCAGCTCAAGGTGATCACGGCGAATATCCAGCCTGTGCATATGGCAATCATGGAAGGCGAGCAGGAGATCTTCTTCACCGAACAGCAGGCGCTGGGCGAGGTCTTTAATGAGGTGCCGCTGTGGATCCGTCCGCAAAGCTTCTTTCAGACTAACCCGACGGTAGCCAGCCGGCTGTACGCCACCGCCCGCGACTGGGTGCGCGCGCTGCCGGTCCAGCATATGTGGGATCTGTTTTGCGGCGTCGGCGGTTTTGGCCTGCACTGCGCGACGCCGGCGATGCGCCTGACCGGGATAGAGATTGCCCCGGAAGCGATCGCCTGCGCCAGGCAGTCTGCCGCGCAGCTGGGGCTCGGCAATCTGCATTTTCAGGCGCTGGACTCCACGCGGTTCGCCACGCATGAAGCGGATATCCCGCAGCTGGTGCTGGTCAACCCGCCGCGACGCGGCATTGGCGCTGAACTGTGCGACTATTTAAGCCGCATGGCGCCGCCCTACATTATCTATTCCAGCTGTAACGCCCGCACCATGGCGACCGACATTGCCCGTCTTAGCGGCTATCGCGTCGAGCGGGTCCAGCTGTTTGATATGTTCCCTCATACCGCCCACTACGAAGTGCTGACCCTGCTGGTCCGCGAAGTTTAA	MHCALYDAGRCRSCQWLERSVPQQLADKMADLRTLLAAIPVADWGEPVSGPEAAFRNKAKMVVSGSVERPLLGMLHRDGTQVDLTDCPLYPAEFAPVFAGLKPFIARAGLTPYNVARKRGELKYLLLTASQQGEMMLRFVLRSEAKVAQLRAALPWLQAQLPQLKVITANIQPVHMAIMEGEQEIFFTEQQALGEVFNEVPLWIRPQSFFQTNPTVASRLYATARDWVRALPVQHMWDLFCGVGGFGLHCATPAMRLTGIEIAPEAIACARQSAAQLGLGNLHFQALDSTRFATHEADIPQLVLVNPPRRGIGAELCDYLSRMAPPYIIYSSCNARTMATDIARLSGYRVERVQLFDMFPHTAHYEVLTLLVREV				NA	NA	NA	NA	NA
BMS020_02262	717	phoP_2	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein PhoP	ATGGCCAAAACCATTCTGCTGGTGGAAGATGATGAGGATATAGCCACGCTGCTGCGGCTCAATCTGCAGGATGAGGGCTATCAGATTGTGCATGAGGCCGATGGCGGCCAGGCCCTCGCCCGACTGGAAACGCGGGTCTGGGATGCGGTGATCCTCGATTTGATGCTGCCCGGCGTCGATGGCCTGGAGATCTGCCGGCGCATCCGCCAGATGACCCGCTATCTGCCGGTGATCATCATCAGCGCTCGCACCAGCGAAATGCACCGTGTGCTGGGCCTGGAGATGGGCGCCGACGACTATCTGGCGAAACCCTTTTCGTTACTGGAACTTATCGCCCGCGTTAAAGCGCTGTTTCGTCGCCAGGAGGCGATGGGGCAGAACCTGCTGATGGACGCCGGGCGGCTGTCCTGCCATGGTCTGAGCATCGATCCGCTGTCCCGCGAAGTGAGGCTGCACGGCGAGATGGTGGACCTCACGCCGCGCGAATTCGAGCTGCTGTATTACTTTGCCCGCCATCCCGGGGAGGTGTTTTCCCGGCTGGCGCTGCTGGAGCAGGTTTGGGGATATCAGCATGAGGGCTATGAGCACACGGTCAATACCCATATCAACCGCCTGCGCAGCAAAATCGAACGTGACCCGGCCGAGCCGGACATCATTCTGACCGTCTGGGGAAAAGGCTATAAGTTCGCCCCGGTGACCCAGGAGGCCGCCCCGTGA	MAKTILLVEDDEDIATLLRLNLQDEGYQIVHEADGGQALARLETRVWDAVILDLMLPGVDGLEICRRIRQMTRYLPVIIISARTSEMHRVLGLEMGADDYLAKPFSLLELIARVKALFRRQEAMGQNLLMDAGRLSCHGLSIDPLSREVRLHGEMVDLTPREFELLYYFARHPGEVFSRLALLEQVWGYQHEGYEHTVNTHINRLRSKIERDPAEPDIILTVWGKGYKFAPVTQEAAP	PGPT0014763_29	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ENVELOPE_REMODELLING_REGULATION	CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014763-walR-NA	NA	NA
BMS020_02263	1473	sasA_3		Adaptive-response sensory-kinase SasA	GTGATCCGCCGACTGAGCCTCAGCCAGCGGCTGGCGCTGGTGGTGGTCTCCCTGCTGATGCTGTGCGCGGCGGCGGTGTGCGCCGTTCAGTTACACAGCAGCGCGCAGTATGGCAACGCCATGGTGCAGCGCCTCTCCGCCGGGCTGGCTCAGCAAATTGTGGCCCGCGAACCGCTGCTGGACGCCCACGGCGAGGTCAACCGGCAAATCCTGAAGTCGCTGTTTGACCGCCTGATGACCTTTAATCCCAGCGTGGAGCTCTATCTGCTGTCGCCGGATGGCGACCTGCTGGCCGATGCGGCGCCGCCGGGCCATATCCAGCGCCAGCGGATCGACATGGCGCCGGTACAGGTTTTTCTCACCGGCAGTACGTCGCCGGTGTATGGCGACGATCCCCGCAGCCTTGACGGGCGAAAAGTCTTCAGCGCCGCCCCGCTGCGCGTCGACGGCCAGCTGCGCGGCTACCTGTATATCATTTTGCAGGGGGAGACCTTTAATCAGCTGGCGGCCGACGCCTGGCAAAAAACGCTGTGGAGCATTGTTCTGTGGACCCTGCTGCTGGTGGCCCTGTTTGGTCTGCTGGCGGGAGGCCTGGCATGGTTCTGGGTTACCCGGCCTGTCCGCCAGCTCACCGCCCAGGTGGCGGCGAACGATCGGGACAGCATCAGCGCCATCAAAACCCTGGCGGCCCGCACGCCGGAGCCACAGCCCGGTAATGAGGTAGCGGTTCTTGAGAACCGCTTTATTGACCTTGCCCGGCAGATAGCCGGTCAGTGGGATCGGCTGGCCGACAGCGACCGCCAGCGCCGCGAATTTGTGGCCAATATTTCCCACGATTTGCGCACACCGCTGACTTCGCTGCTGGGGTATCTGGAAACGCTGACCCTGAAGGACGAAAGGCTGACCGCCGAGGAGCGCAGGCAGTATCTCACCATCGCCCTGCGCCAGGGCAACAAGGTGCGCCATCTTTCACAGCAGCTGTTTGAGCTGGCGCGACTGGAGCACGGGGGCATTAAGCCGCAGCGCGAGCGTTTCGCGATGGCGGAGCTGATTTCCGACGTGGCGCAGAAGTTTGAACTCACCGCCCGCACGCGCGAGGTGAACCTGCAAATTGATGTGCCGGGGCCGTTGCCGCTGATCAACGCCGATGTGTCGATGATTGAGAGGGTGGTGACCAACCTGCTCGATAACGCGATGCGGCATACTCCCGTCGGCGGGGAGATCCGTCTGGCGGTCTGGCAGGAGAATCAACAGCTCCAGGTTGAAGTGGCAGACAACGGAACGGGCGTCGATGCCGCGCTGCGCGATGATCTGTTCCAGCGGCCGTCGGCGTTGTCTACCCAGGCGTCGCGGGAGGATCGCGGTGGGTTAGGGCTGCTGATTGTGAAACGGATGCTGGAGCTGCACGGGGGCGGGATCCGGCTGGTGGAATCGGTAAGCGGGGCGCGGTTCAGGTTCTTCGTGCCACTTTGA	MIRRLSLSQRLALVVVSLLMLCAAAVCAVQLHSSAQYGNAMVQRLSAGLAQQIVAREPLLDAHGEVNRQILKSLFDRLMTFNPSVELYLLSPDGDLLADAAPPGHIQRQRIDMAPVQVFLTGSTSPVYGDDPRSLDGRKVFSAAPLRVDGQLRGYLYIILQGETFNQLAADAWQKTLWSIVLWTLLLVALFGLLAGGLAWFWVTRPVRQLTAQVAANDRDSISAIKTLAARTPEPQPGNEVAVLENRFIDLARQIAGQWDRLADSDRQRREFVANISHDLRTPLTSLLGYLETLTLKDERLTAEERRQYLTIALRQGNKVRHLSQQLFELARLEHGGIKPQRERFAMAELISDVAQKFELTARTREVNLQIDVPGPLPLINADVSMIERVVTNLLDNAMRHTPVGGEIRLAVWQENQQLQVEVADNGTGVDAALRDDLFQRPSALSTQASREDRGGLGLLIVKRMLELHGGGIRLVESVSGARFRFFVPL				NA	NA	NA	NA	NA
BMS020_02264	732	artJ_1	COG0834	ABC transporter arginine-binding protein 1	ATGAAAAAGTTAGTTCTGGCTGCACTGCTCACCACGTTCACCTTCGGCGCCGCCGCCGCGGAGAAAATCAGCTTCGGCGTGTCCGCGACCTATCCGCCGTTTGAATCGATGGACGCGAATAACCAGATTGTCGGCTTTGATATCGATCTGGCCCATGCGCTGTGCAAACAAATGCAGGCAGACTGCACCTTTACCAACCACGCGTTTGACAGCCTGATCCCGGCGCTGAAGTTTAAGAAGTATGACGCGGTGATTTCCGGAATGGATATTACGCCAGAACGCAGCAAGCAGGTGGCCTTCACCGACCCGTACTACGCCAACTCCGCGCTGGTGATCGCCAAAAAAGACGCGTTCCACTCGTTCGATGATTTGAAAGGCAAACGGATCGGCATGGAAAACGGCACCACCCACCAGAAATATCTGCAGGATAAACATCCTGAGGTGAAGACCGTCGCCTATGACAGCTACCAGAACGCGATTATCGACCTGAAAAATGGCCGTATCGACGGCGTGTTCGGCGACACGGCGGTGGTCAACGAGTGGCTGAAAACCAACCCGCAGCTGGGGGCAGCCACGCCGAAAGTAACCGATCCGCAATACTTTGGCACCGGCCTTGGGATTGCCGTGCGCCCGGATAACAAGGCGCTGCTGGAGAAACTGAACGCCGCGCTGAAGGCGATTAAAGCCGACGGTACCTACCAGAAAATCAGCAACCAGTGGTTCCCGGAGTAA	MKKLVLAALLTTFTFGAAAAEKISFGVSATYPPFESMDANNQIVGFDIDLAHALCKQMQADCTFTNHAFDSLIPALKFKKYDAVISGMDITPERSKQVAFTDPYYANSALVIAKKDAFHSFDDLKGKRIGMENGTTHQKYLQDKHPEVKTVAYDSYQNAIIDLKNGRIDGVFGDTAVVNEWLKTNPQLGAATPKVTDPQYFGTGLGIAVRPDNKALLEKLNAALKAIKADGTYQKISNQWFPE	PGPT0020655_230	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020655-artJ-K09996	NA	NA
BMS020_02265	669	artM_2	COG4160	Arginine ABC transporter permease protein ArtM	ATGCTCGACTACTTACCCGAACTGCTGAAAGGCCTGCATACCAGCCTGACGCTGACCGTGGCGTCGATTATCGTGGCGCTGATCCTGTCGCTGATCTTTACCATTATCCTGACGCTGAAGACGCCGGGGCTGGTGTGGATAGTGCGCGGCTACATCACCCTGTTTACCGGTACGCCACTGCTGGTGCAGATCTTCCTGATCTACTATGGCCCCGGGCAGTTTCCTTCGCTGCAGGAATATCCATGGCTGTGGCATCTTATCTCCGAGCCGTGGCTGTGCGCCCTGATCGCCCTGTCGCTTAACAGCGCCGCCTATACCACCCAGCTGTTTTACGGCGCCATCCGGGCGATCCCCGACGGGCAATGGCAGTCGTGCAGCGCGCTGGGGATGAGTAAAAAGGATACCCTGGCGATCCTGCTGCCGTACGCCTTTAAACGCGCGCTGTCGTCCTACTCCAACGAAGTGGTGCTGGTGTTCAAAAGTACCTCTCTGGCCTACACCATCACCCTGATGGAAGTGATGGGTCACGGCCAGCTGCTGTACGGACGGACCTACGACGTGATGGTGTTCGGCGCCGCCGGGATTATTTATCTCATCGTCAACGGGTTGCTGACCCTGTTGATGCGCCTGGTGGAGCGCAAAGCGCTAGCTTTCGAACGACGTAACTAG	MLDYLPELLKGLHTSLTLTVASIIVALILSLIFTIILTLKTPGLVWIVRGYITLFTGTPLLVQIFLIYYGPGQFPSLQEYPWLWHLISEPWLCALIALSLNSAAYTTQLFYGAIRAIPDGQWQSCSALGMSKKDTLAILLPYAFKRALSSYSNEVVLVFKSTSLAYTITLMEVMGHGQLLYGRTYDVMVFGAAGIIYLIVNGLLTLLMRLVERKALAFERRN	PGPT0020665_252	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020665-artM-K09998	NA	NA
BMS020_02266	717	artQ_2	COG4215	Arginine ABC transporter permease protein ArtQ	ATGAACGAAATTTTTCCATTAGCAAGCGCCGCCGGGATGACCGTCGGCCTTGCCGTTTGCGCGCTCGCCATCGGCCTCGTCCTGGCGATGCTCTTCGCGGTACTGGAGTCAGTGAAATGGCGCCCGGTAGCCTGGCTTGCAACCGGCATTGTGACCATTCTGCGCGGCCTACCGGAAATTCTGGTGGTGCTGTTTATCTATTTCGGCTCGTCCCAGCTGCTGCTGACGCTCTCTGACGGTTTCACCATCCCGCTCGGGTTCACGCAGATCCCGGTGCAGATGCAGATTGAGAACTTTGACGTCAGTCCGTTCCTCTGCGGGGCGATCGCCCTGTCGCTGCTGTATGCCGCCTACGCCTCGCAAACGCTGCGCGGCGCGCTGAAAGCCGTTCCGCAGGGTCAGTGGGAGTCCGGCCAGGCGCTGGGGCTGTCGAAAGCGGCCATTTTCTTCCGACTGGTGATGCCGCAGATGTGGCGCCATGCCCTGCCCGGTCTCGGCAACCAGTGGCTGGTGCTGCTGAAGGACACCGCGCTGGTGAGCCTGATCAGCGTCAACGATCTGATGCTGCAGACCAAAAGCATCGCCACCCGCACTCAGGAGCCCTTTAACTGGTATATCATTGCCGCAGCAATCTATCTCGTCATCACCCTGTTGAGTCAATACATCCTTAAGCGGATTGACCAGCGTGCGACGCGCTTCGAACGGAGACCAGGCTGA	MNEIFPLASAAGMTVGLAVCALAIGLVLAMLFAVLESVKWRPVAWLATGIVTILRGLPEILVVLFIYFGSSQLLLTLSDGFTIPLGFTQIPVQMQIENFDVSPFLCGAIALSLLYAAYASQTLRGALKAVPQGQWESGQALGLSKAAIFFRLVMPQMWRHALPGLGNQWLVLLKDTALVSLISVNDLMLQTKSIATRTQEPFNWYIIAAAIYLVITLLSQYILKRIDQRATRFERRPG	PGPT0020670_151	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020670-artQ-K09999	NA	NA
BMS020_02267	753	artI	COG0834	Putative ABC transporter arginine-binding protein 2	ATGTTTTTCGGGGAAATGACGATGAAAAAAGTACTGATTGCCGCCCTGCTCGCAGGCATGAGCCTCTCCGCTTCCGCCGCGCAAACCATTCGTTTCGCCACCGAGGCCTCCTACCCTCCGTTTGAGCTGGTGGATGCCAACAACCAGATCGTCGGTTTCGATGTGGATCTGGCTAACGCGCTGTGTAAAGAGATCGACGCCACCTGTACCTTTACCAACCAGGCCTTTGACAGCCTGATCCCGGGCCTGAAATTCCGCCGTTTCGACGCGGTCATGGCCGGGATGGACATCACGCCTGAGCGTGAAAAGCAGGTCCTGTTCTCCACCCCGTATTATGACAACTCGGCGCTGTTCGTCGGTCAGCAGGGCAAGTTCACCAGCATTGACCAGCTGAAGGGCAAAAAAGTGGGCGTACAGAACGGCACCACCCACCAGAAATTTATCACGGATAAACATCCGGAAATCACCACCGTGCCTTACGACAGCTACCAGAATGCAAAGCTGGATCTGCAGAACGGTCGTATTGACGCGGTCTTCGGTGATACCGCCGTGGTCACCGAATGGCTGAAGAGCAATCCGAAGCTGGCGGCCGTGGGCGATAAAGTGACCGACAAAGCCTATTTCGGCACCGGGCTGGGCATTGCCGTGCGTCAGGGCAACACCGACCTGCAGCAGAAATTTAACGCTGCGCTGGAAAAAGTGAAGAAAGACGGCACTTACCAGACCATCTATAACAAATGGTTCCAGAAGTAA	MFFGEMTMKKVLIAALLAGMSLSASAAQTIRFATEASYPPFELVDANNQIVGFDVDLANALCKEIDATCTFTNQAFDSLIPGLKFRRFDAVMAGMDITPEREKQVLFSTPYYDNSALFVGQQGKFTSIDQLKGKKVGVQNGTTHQKFITDKHPEITTVPYDSYQNAKLDLQNGRIDAVFGDTAVVTEWLKSNPKLAAVGDKVTDKAYFGTGLGIAVRQGNTDLQQKFNAALEKVKKDGTYQTIYNKWFQK	PGPT0020660_22	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020660-artI-K09997	NA	NA
BMS020_02268	729	artP	COG4161	Arginine transport ATP-binding protein ArtP	ATGAGTATTAAACTAAACGGCATTAATTGCTTCTACGGCGCGCACCAGGCGCTGTTCGACATCACGCTGGATTGCCCGCAGGGGGAAACGCTGGTGCTGCTCGGCCCCAGCGGTGCCGGGAAGAGCTCGCTGCTGCGCGTACTCAACCTGCTGGAGATGCCGCGTTCCGGTTCATTAGCCATCGCCGGTAACCATTTCGACTTCACCAGAGCGCCGTCCGATAAAGCGATTCGCGAACTGCGGCAGAACGTCGGCATGGTCTTTCAGCAGTACAACCTGTGGCCGCACCTGACGGTACAGCAGAACCTGATCGAGGCCCCCTGTCGCGTACTGGGGTTAAGCAAGGATCAGGCGCTGGCTCGCGCAGAGAAGCTGCTGGAGCGCCTGCGTCTGAAGCCCTACAGCGATCGTTACCCGCTGCATTTATCCGGCGGTCAGCAGCAGCGTGTGGCGATCGCCCGCGCGCTGATGATGGAGCCGCAGGTTCTGCTGTTCGATGAGCCTACCGCGGCGCTCGACCCGGAAATCACCGCCCAGATCGTTAGTATCATCCGCGAGCTGGCTGAAACCGGCATCACCCAGGTTATCGTCACCCATGAAGTTGAAGTGGCGCGCAAGACGGCCAGCCGGGTGGTGTATATGGAAAATGGCCATATCGTCGAGCAAGGGGATGCCTCCTGCTTCACGCATCCGCAAACTGACGCGTTTAAAAACTATCTTTCACACTGA	MSIKLNGINCFYGAHQALFDITLDCPQGETLVLLGPSGAGKSSLLRVLNLLEMPRSGSLAIAGNHFDFTRAPSDKAIRELRQNVGMVFQQYNLWPHLTVQQNLIEAPCRVLGLSKDQALARAEKLLERLRLKPYSDRYPLHLSGGQQQRVAIARALMMEPQVLLFDEPTAALDPEITAQIVSIIRELAETGITQVIVTHEVEVARKTASRVVYMENGHIVEQGDASCFTHPQTDAFKNYLSH	PGPT0020675_299	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020675-artP-K10000	NA	NA
BMS020_02269	516	ybjP		putative lipoprotein YbjP	ATGCGCTACAAACTTCTTGCAGCACTTCTCCCTTGCGCGCTGGCGCTCAGCGCCTGTACGACCGTCACCCCGGCCTATAAAGATAATGGCACCCGCAGCGGCCCCTGTGTCGAAGGCGGCCCTGACGACGTAGCGCAAAAATTCTACGACACCCAGCTCCAGAACCGTACGCAGGATCCGGCGGCGCTGCGCCCCTATCTCAGCGACGGCCTGGCGAAGCTACTCAATGACGCCCGTCAGGATCCGGCCAACAGCAAACTGCTGCAGGCTAACCTGTTCTCGAGCAGCAGCACCCCGGCGGACAGCGCCGTCGTCGCCAGCGCCTCAACCATCCCTAATCGCGATGCGCGCAACATTCCGCTGCGCGTGGAGCTGAAGCAGGGAACCCAGAGCTGGAAAGACGAAGTGCTGATGATCCAGGAAGGCCAGTGCTGGGCCGTCGATGACGTTCGCTATCTCGGCAACAACAGCCACGCGCCGGCCGGGACGTTGCGACAGAGTCTGGAGAAACGTTAG	MRYKLLAALLPCALALSACTTVTPAYKDNGTRSGPCVEGGPDDVAQKFYDTQLQNRTQDPAALRPYLSDGLAKLLNDARQDPANSKLLQANLFSSSSTPADSAVVASASTIPNRDARNIPLRVELKQGTQSWKDEVLMIQEGQCWAVDDVRYLGNNSHAPAGTLRQSLEKR				NA	NA	NA	NA	NA
BMS020_02270	273			hypothetical protein	ATGAAATATGCAGCTTTAGTGGCAGGTGCAGCATTGTTTTTAACGGCGAACGCCTTCTCTGCAGAAATTTTAACGAAAGAAGCCTTCGATAAGGTCCATACGCAATATACTAAAATCGGTACCATTTCTTCTACCGGTCAGACTGCACCCAGCGATGCCCGTGAAGAACTGATTAAAAAGGCCGATGAGAAAGGCGCAGACGTTATCGTGCTCTCTTCCGGTAATACCGATAAAAAACTGCACATCTCCGCTAACATCTATAAGAAGAAGTAA	MKYAALVAGAALFLTANAFSAEILTKEAFDKVHTQYTKIGTISSTGQTAPSDAREELIKKADEKGADVIVLSSGNTDKKLHISANIYKKK				NA	NA	NA	NA	NA
BMS020_02271	1140			hypothetical protein	ATGTTAACAAATAAGCAAGAGGGCGTCCGCCAGCTGCGAACCGAGCTGTGGGCCACCAGAGATAATGTCCAGCGCCATGCGCTATCCATGAGTATGCCCTGGCTGGCCTTTGTCAATATCGCTTTTGCGTTAATGGTTTTCTTCCGCAATTTTATCTTTACTCATTTTGATAAGAAGCTGTTAACGCACCAGGCGGTTATTCCTTATGTCGAAGTCGCGCTGATCGCGGTTATTATTATTTCGGTAATTTTAGCCATTATTGCCGTCACGCCGCGCCTGGCGCAGGGGCGCTATACGTTGAGTATTATCACCGGCCTGCAGCTGGCACTCAGCCTGTGCTGGTCCCTGAGTAATTACTGTTTCATCTTTTTCTGGACACTGCCCTTCGCCTGGCCGCTGCTGGTGATATTAATGACCACCGGACTCGCCGCGCTGTATCACCATTGGCCCGGCATTATCGCTTTTTTGCTTCCGCTATGGGGAACCGCCCTGCTGGCAGGACTACAGATCCACCCTCACACTGAGGTCCGCTTTTTGATCCTGTGGGGCATTTTTACGGCGATTTTACTCTATGGCAGGCGTATTCTTAAGCGCTGGTATGATGAGGCCTGGAATACGCATCAGGAAAATATGCGGCTTATTCAGCGGCTGGAAAGCATTGCCAACCAGGATGCATTAACCGGGACCGCGAATCGCCGGGCGCTGAATGCCTATCTGGCGGAGATTTGGCAGCAAAAAACGCCGTTGGCGCTGATGATGATCGACGTCGATTACTTTAAGCGTTACAACGACCACTATGGCCATCAGGCTGGCGACGATTGCTTATCGACTGTCGCCCAGGTGCTTAAAATGGCGGTACGGGCCGAGGGCGATCTGGTCGCCCGCTACGGCGGCGAAGAGTTTGTCATCGCCCTGCCGGGGGTTTCCTTAGCGCGAGCCACCTCCATTGCCGAGCGCATTCAGCAGAAAATTAGCGAGGCGGCGATCCCCCATGAGGCTTCGGCGGTGGCCTCGGTGGTGACCGTCAGTATGGGGGTCGTCGCCTCCGACGGCACGGTTCCGATGGAGACGCTGATCGCCCGGGCGGACAGCGCGCTGTACCAGGCGAAAAATAAAGGACGAAATCGATGGTCTTATTAA	MLTNKQEGVRQLRTELWATRDNVQRHALSMSMPWLAFVNIAFALMVFFRNFIFTHFDKKLLTHQAVIPYVEVALIAVIIISVILAIIAVTPRLAQGRYTLSIITGLQLALSLCWSLSNYCFIFFWTLPFAWPLLVILMTTGLAALYHHWPGIIAFLLPLWGTALLAGLQIHPHTEVRFLILWGIFTAILLYGRRILKRWYDEAWNTHQENMRLIQRLESIANQDALTGTANRRALNAYLAEIWQQKTPLALMMIDVDYFKRYNDHYGHQAGDDCLSTVAQVLKMAVRAEGDLVARYGGEEFVIALPGVSLARATSIAERIQQKISEAAIPHEASAVASVVTVSMGVVASDGTVPMETLIARADSALYQAKNKGRNRWSY				NA	NA	NA	NA	NA
BMS020_02272	831	amiD	COG3023	N-acetylmuramoyl-L-alanine amidase AmiD	ATGACACGGATTGCGCTGATCGCGCTGCTGGCGTTACTGCTAAGCGGCTGTGCCGGCGAAAAAGGGATTATCGATCGCGATGGATACCAGCTGGACACCCGCCATCCGGCGCAGGCGGCCTATCCGCGAATAAAAGTGCTGGTGATCCACTATACGGCAGACAACTTTGATACTTCTCTGGCGACCCTGACCGATAAAGAGGTCAGTTCCCACTATTTAATTCCTGAACAGCCGCCGCGCCACCATGATAAACCGCGGATCTGGCAGCTGGTGCCGGAAGAGGATCTGGCCTGGCACGCCGGTGTCAGCTACTGGCGCGGCAGCACGCGCATCAACGATACTTCCATCGGTATTGAACTGGAAAACCGCGGCTGGCAGAAGACCGCGGGAGGTAAAAGCTTTACTCCCTTTCACCCGGAACAGATCGCAGCCCTGATCCCGCTGGCGCGCGATATTATCACCCGCTACCACATCGCGCCGCAGAACGTGGTGGCCCATGCCGATATCGCCCCGCAGCGCAAAGACGATCCGGGGCCGTTGTTCCCCTGGCAACAGCTGGCGCAGCAGGGGATTGGCGCCTGGCCGGACGAGCAGCGGGTGGCTTTTTATCTGAACGGGCGGCCGCCCAGTGAGCCAGTGGACCCTGAGGTGGTGCTGGATTTGCTGGCGCGCTACGGCTATCAGGTCACGCCGGAGATGACTCCCGCGCAGAAGAAACGGGTAATTATCGCCTTCCAGATGCACTTCCGCCCCCAGCGCTGGGATGGCGTAGCGGATGCGCAAACCGAAGCGATAGCCGAGGCGCTGTTAGAGAAATATGGCCAGGGTTAG	MTRIALIALLALLLSGCAGEKGIIDRDGYQLDTRHPAQAAYPRIKVLVIHYTADNFDTSLATLTDKEVSSHYLIPEQPPRHHDKPRIWQLVPEEDLAWHAGVSYWRGSTRINDTSIGIELENRGWQKTAGGKSFTPFHPEQIAALIPLARDIITRYHIAPQNVVAHADIAPQRKDDPGPLFPWQQLAQQGIGAWPDEQRVAFYLNGRPPSEPVDPEVVLDLLARYGYQVTPEMTPAQKKRVIIAFQMHFRPQRWDGVADAQTEAIAEALLEKYGQG	PGPT0024155_465	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024155-amiD-K11066	NA	NA
BMS020_02273	1014	oleD_1	COG0451	2-alkyl-3-oxoalkanoate reductase	ATGAAGGTACTGGTTACCGGTGCGACCAGCGGATTAGGCCGCAACGCAGTGGAATATCTGCGCAACAAGGGCATCAGCGTGCGAGCGACCGGGCGCAACGAAGCGATGGGTAAGCTTCTGAGCAAAATGGGGGCGGAATTCATCCCGGCAGATTTAACCGAGCTGGTCTCTTCGCAGGCTAAAGTGATGCTCGCCGGTATCGATACCCTGTGGCACTGCTCAAGTTTCACCTCGCCCTGGGGCACGCAACAGGCTTTCGATCTCGCTAACGTCCGCGCCACCCGCCGCCTCGGCGAATGGTCGGTAGCATGGGGCGTACGCAATTTCGTCCATATCTCTTCGCCCTCGCTCTATTTTGATTATCACCACCATCGCGATATTCAGGAAGATTTCCGCCCGCACCGCTTCGCCAATGAGTTTGCCCGCAGCAAGGCGGCCAGCGAAGAGGTGATCAACCTGCTGGCGCAGGCCAACCCGCACACCCGTTTTACCATTTTGCGCCCGCAGAGCCTGTTCGGGCCGCACGATAAAGTCTTTATTCCCCGGCTGGCGCAAATGATGCAGCACTACGGCAGCGTCCTGTTGCCGCGGGGCGGCAGCGCGCTGGTCGATATGACCTATTATGAAAATGCCGTCCACGCGATGTGGCTGGCGAGCCAGCCGGCCTGCGATCATCTTCCCTCCGCCCGCGCGTGGAATATCAGCAATGGCGAACCGCGCACTCTGCGCAGCATCGTGCAGAAACTGATCGATGAGCTGGGCATCAAATGCCGGATCCGTTCAGTTCCCTACCCGATGCTGGATATTATCGCCCGCAGCATGGAGCGTTTTGGCGATAAAACGGCCAAAGAGCCGGCCTTTACCCACTACGGCGTCTCTAAACTTAATTTTGATTTTACGCTCGATATCACGCGCGCGCAGGATGAGCTGGGCTATCAGCCGGTGGTGACGCTGGACGACGGGATTGTGCGTACCGCCGCCTGGTTGCGCGACCACGGTAAACTTCACCGCTAA	MKVLVTGATSGLGRNAVEYLRNKGISVRATGRNEAMGKLLSKMGAEFIPADLTELVSSQAKVMLAGIDTLWHCSSFTSPWGTQQAFDLANVRATRRLGEWSVAWGVRNFVHISSPSLYFDYHHHRDIQEDFRPHRFANEFARSKAASEEVINLLAQANPHTRFTILRPQSLFGPHDKVFIPRLAQMMQHYGSVLLPRGGSALVDMTYYENAVHAMWLASQPACDHLPSARAWNISNGEPRTLRSIVQKLIDELGIKCRIRSVPYPMLDIIARSMERFGDKTAKEPAFTHYGVSKLNFDFTLDITRAQDELGYQPVVTLDDGIVRTAAWLRDHGKLHR				NA	NA	NA	NA	NA
BMS020_02274	1443			hypothetical protein	GTGTCGCAATCGGTTTTGGTGCTCGGCGCCAGCGGCTATATTGGTCAACATTTAGTCCGCGAATTAAGCGCACGGGGTTATCCGGTGCTGGCGGCGGCGCGCCATACCGACCGACTGCAAAAACTCGCTTTGCCCGGCGTCACCTGCCGGTCAGTCGATCTCAATCAGCCGCAGGCTCTGCCTGCGCTGCTCACAGGTATCGATACCCTTTACTATCTGGTACACGGCATGGGCGAAGGCGGCGATTTTATCGCCCATGAGCGTCGGGTGGCGACGCATGTTCGCGATGCCCTGCGCCAGACGCCGGTGCGTCAGATTATCTTTCTCAGCTCGCTGCAGGCTCCAGCGCAGGAGCAGTCCGACCATCTGCGCGCTCGTCAGGTCACCGGCGATCTCCTGCGCGAGTCGGGCGTGCCGGTAACCGAGCTGCGGGCCGGAATTATCGTCGGCGCCGGCTCCGCCGCCTTCGAGGTGATGCGCGACATGGTCTATAACCTGCCGGTGCTGACCCCCCCGCGCTGGGTGCGTTCGCGTACCACCCCTGTCGCGCTGGAAAACCTGCTCGTTGACCTCGTTGAGCTACTGAATCACCCTTCCGACGCGCACCGCGTCTTCGAAGCCGCCGGTCCGGAGGTGTTAAGCTATCAGCAGCAGTTCATTCGCTTTATGGCCGTCAGCGGCAAACACCGCCCGCTCATTCCGATTCCCCTGCCGACGCGCTGGATCTCGGTGTGGTTCCTCAATGTCATCACCTCGGTGCCGCCGACCATCGCCAAAGCGCTAATTCAAGGGTTGAAGCACGATCTGATCGCCGATGACCGGGCGCTGCGGGCGCTGATCCCGCAAACGCTGGTCCCCTTCGATCAGGCGGTTCGCCGCACCCTGAAAGAAGAAGAGCAGCTGGTAAACTCCAGCGACTGGGGCTACGACGCCCAGGCTTTCGCCCGCTGGCGACCGGAGTATGGCTATTATCCGAAACAGGCAGGCTGCACCATCACCACTCAGGCGAGCCGCAAAGCCCTGTGGCAGGTCGTTAACCAAATCGGCGGTAAAGAGGGATATTTTTTCGGCAATCTGCTGTGGAAAACCCGCGGCGCGATGGATCTGCTGGTCGGCCACCGGCTGGCCAAAGGGCGACCGCAGCGCGACTATCTGCAGACCGGCGATACGGTCGACAGCTGGAAGGTGATTATCGTGGAGGAAGAAAAACAGCTCACTCTGCTGTTCGGCATGAAAGCGCCGGGACTGGGCCGGTTAAGCTTTACCATTAACGATAAAGGCGATCGTCGTGAACTGGACGTCCGCGCCTGGTGGCACCCGCACGGTATGCCGGGCCTGGTCTACTGGCTGCTGATGATCCCGGCGCACCTGTTTATTTTCCGCGGTATGGCGCAACGCATCGCCCGGTTGGCCGAACAAATCTCAGGCAGAGTCGAAGGATAA	MSQSVLVLGASGYIGQHLVRELSARGYPVLAAARHTDRLQKLALPGVTCRSVDLNQPQALPALLTGIDTLYYLVHGMGEGGDFIAHERRVATHVRDALRQTPVRQIIFLSSLQAPAQEQSDHLRARQVTGDLLRESGVPVTELRAGIIVGAGSAAFEVMRDMVYNLPVLTPPRWVRSRTTPVALENLLVDLVELLNHPSDAHRVFEAAGPEVLSYQQQFIRFMAVSGKHRPLIPIPLPTRWISVWFLNVITSVPPTIAKALIQGLKHDLIADDRALRALIPQTLVPFDQAVRRTLKEEEQLVNSSDWGYDAQAFARWRPEYGYYPKQAGCTITTQASRKALWQVVNQIGGKEGYFFGNLLWKTRGAMDLLVGHRLAKGRPQRDYLQTGDTVDSWKVIIVEEEKQLTLLFGMKAPGLGRLSFTINDKGDRRELDVRAWWHPHGMPGLVYWLLMIPAHLFIFRGMAQRIARLAEQISGRVEG				NA	NA	NA	NA	NA
BMS020_02275	1002	ltaE_1	COG2008	Low specificity L-threonine aldolase	GTGATCGATCTGCGCAGTGATACCGTTACCCGTCCCGGGCGCGCCATGTTGGAAGCCATGATGGCCGCCCCGGTCGGGGACGATGTGTATGGCGACGACCCTACCGTCAATGAACTTCAGCGCTACGCCGCCGACCTGGCCGGCAAAGAGGCGGCGCTGTTTCTGCCCACCGGCACCCAGGCCAACCTCGTCGGCCTGCTCAGCCACTGCCAGCGCGGCGAAGAGTATATCGTCGGCCAGGGGGCGCATAACTATCTGTACGAAGCCGGCGGGGCGGCGGTTCTCGGCAGTATTCAGCCGCAGCCGATTGACGCCGCGGCGGACGGCTCGCTGCCGCTGGATAAAGTCGCAGCGAAAATCAAACCTGACGATATCCATTTTGCCCCGACCCGCCTGCTGAGCCTGGAAAACACCCATAACGGTAAGGTGCTGCCGCGCGACTATCTCCAGGAAGCCTGGGCGTTTACCCGCCAGCGCGATCTGGCGCTGCATGTCGACGGCGCGCGCATCTTTAACGCCGTGGTCGCCTACGGCTGTGAGCTGCGCGATATCGCCCAGTACTGCGACTCCTTCACCATCTGCCTGTCAAAGGGGCTTGGCGCCCCGGTTGGCTCGCTGCTGGTCGGCAGTGAGGCGTACATTCGCCGCGCCGTTCGCTGGCGGAAAATGGTCGGCGGCGGGATGCGCCAGGCGGGCATTCTGGCCGCCGCCGGGCTGTACGCGCTGAAAAATAACGTGCAGCGCCTGCAGGAGGATCATGATAACGCCGCGTGGATGGCGGATCAGCTGCGCGCCATCGGCGCCGACGTCACCCGTCACGATACCAACATGCTGTTCGTTCGCGTCGGTGATGAACAGGCCCGGGCGCTCGGCGAGTTTATGCAGGCGCGCGGCGTGCTGATCAACGCCTCGCCCATCGTCCGTCTGGTCACTCACCTGGATGTCAATCGTCAGCAGTTGAGCGAAGTGGTCGCCCACTGGCAGGCTTTTTTACAACGCTAA	MIDLRSDTVTRPGRAMLEAMMAAPVGDDVYGDDPTVNELQRYAADLAGKEAALFLPTGTQANLVGLLSHCQRGEEYIVGQGAHNYLYEAGGAAVLGSIQPQPIDAAADGSLPLDKVAAKIKPDDIHFAPTRLLSLENTHNGKVLPRDYLQEAWAFTRQRDLALHVDGARIFNAVVAYGCELRDIAQYCDSFTICLSKGLGAPVGSLLVGSEAYIRRAVRWRKMVGGGMRQAGILAAAGLYALKNNVQRLQEDHDNAAWMADQLRAIGADVTRHDTNMLFVRVGDEQARALGEFMQARGVLINASPIVRLVTHLDVNRQQLSEVVAHWQAFLQR	PGPT0020465_3678	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020465-ltaE-K01620	NA	NA
BMS020_02276	1719	poxB	COG0028	Pyruvate dehydrogenase [ubiquinone]	ATGAAACAAACCGTGGCCGCATACATTGCCAAAACGCTGGAACAGGCCGGCGTGAAACGTATCTGGGGCGTCACCGGCGATTCCCTCAATGGATTGAGCGATAGCCTGAACCGCATGGGCACCATCGACTGGATGGCCACCCGGCACGAAGAGGTCGCTGCTTTCGCCGCCGGCGCGGAGGCGCAACTGACCGGCGAACTGGCGGTCTGCGCCGGTTCCTGCGGTCCGGGTAACCTGCACCTGATCAACGGTCTGTTTGACTGTCACCGCAACCATGTCCCGGTGCTGGCGATTGCCGCCCACATCCCTTCCAGCGAGATTGGCAGCGGCTATTTCCAGGAGACCCATCCCCAGGAGCTGTTCCGCGAATGTAGCCACTACTGCGAGCTGGTCTCCACCCCGGAGCAGATCCCGCAGGTGCTGGCGGTGGCGATGCGTAAGGCGGTGATTAACCGCGGCGTATCGGTGGTGGTTCTGCCCGGCGACGTGGCGCTGAAAGCCGCCCCGGAGAGCGCCAGCAGCCACTGGTACCATGCGCCGTTGCCGACGGTCTCCCCGGCCGACGAGGAGCTGCGCAAGCTGGCGCAGCTTATCCGCTACTCCAGCAATATCGCGCTCATGTGCGGTAGCGGCTGCGCCGGCGCCCACCAGGAGCTGGTGGAGTTCGCAGCAAAAATTAAAGCCCCCATCGTCCATGCGCTGCGCGGTAAAGAGCATGTGGAGTATGACAACCCGTATGATGTGGGCATGACCGGGCTGATTGGCTTCTCTTCTGGCTTCCACACCATGATGAATGCCGACACCCTGATCCTGCTCGGCACCCAGTTCCCCTATCGCGCCTTCTATCCGACCGACGCCAAAATTATTCAGATCGACATTAACCCCGGCAGCATCGGCGCGCACAGTAAGGTTGATATGGCGCTGGTGGGCGACATCAAATCAACGCTAAAGGCGCTGCTGCCGCTGCTGGAAGAGAAAACCGATCGCCGCTTCCTCGATAAGGCGCTGGAGCACTATCGCGACGCGCGAAAAGGACTCGACGATCTGGCGAAGCCCAGCGAGAAGGCGATCCACCCGCAATATCTGGCGCAGCAGATCAGCCATTTTGCCGATGAAGACGCCATTTTCACCTGCGATGTCGGCACCCCGACCGTCTGGGCGGCACGCTATCTCAAGATGAACGGCAAACGCCGCCTGCTGGGTTCATTCAACCACGGCTCCATGGCCAACGCCATGCCGCAGGCCATTGGCGCCAAGGCCACCGCGCCGGAGCGTCAGGTGGTGGCCATGTGCGGCGACGGCGGGTTTAGCATGCTGATGGGGGATTTTCTGTCGCTGGCGCAGATGAAGCTGCCGGTGAAAATTATCATCTTTAACAACAGCGTGCTGGGTTTCGTGGCGATGGAGATGAAGGCCGGGGGCTATCTCACCGACGGCACAGAGCTGCACGACACCAACTTCGCCCGCATCGCCGAAGCCTGCGGTATTAAAGGTATTCGCGTTGAGAAAGCCGCCGAGGTGGATGAAGCGCTGCAGACCGCCTTCCGCACCGACGGTCCGGTGCTGGTCGACGTCGTGGTCGCCAAAGAGGAGCTGGCGATCCCGCCGCAGATCAAGCTGGAGCAGGCGAAAGGCTTTAGCCTGTATATGCTGCGGGCGATCATCAGCGGGCGCGGCGATGAAGTCATCGAACTGGCGAAAACCAACTGGCTCAGGTAA	MKQTVAAYIAKTLEQAGVKRIWGVTGDSLNGLSDSLNRMGTIDWMATRHEEVAAFAAGAEAQLTGELAVCAGSCGPGNLHLINGLFDCHRNHVPVLAIAAHIPSSEIGSGYFQETHPQELFRECSHYCELVSTPEQIPQVLAVAMRKAVINRGVSVVVLPGDVALKAAPESASSHWYHAPLPTVSPADEELRKLAQLIRYSSNIALMCGSGCAGAHQELVEFAAKIKAPIVHALRGKEHVEYDNPYDVGMTGLIGFSSGFHTMMNADTLILLGTQFPYRAFYPTDAKIIQIDINPGSIGAHSKVDMALVGDIKSTLKALLPLLEEKTDRRFLDKALEHYRDARKGLDDLAKPSEKAIHPQYLAQQISHFADEDAIFTCDVGTPTVWAARYLKMNGKRRLLGSFNHGSMANAMPQAIGAKATAPERQVVAMCGDGGFSMLMGDFLSLAQMKLPVKIIIFNNSVLGFVAMEMKAGGYLTDGTELHDTNFARIAEACGIKGIRVEKAAEVDEALQTAFRTDGPVLVDVVVAKEELAIPPQIKLEQAKGFSLYMLRAIISGRGDEVIELAKTNWLR	PGPT0001371_1193	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACETIC_ACID_BIOSYNTHESIS,PGPT0001371-poxB-K00156	NA	NA
BMS020_02277	435			hypothetical protein	ATGGTTAAGGGATTGTTAAACACAGTAAACAGAACGCTGTCGCATGAAGATGCCGGTAAACTCTTGTTACGACTCGCCGTCGGCGGGTTAATGCTGTTTCACGGTTTGCACAAGCTGCTGGATGGCGTGGACGGCATTAGCGGGATGCTGGTGGCGAAGGGGTTGCCGGGGTTTATCGCCTACGGTGTGCTGGTGGGGGAAGTGGTTGCCCCCTGTTTGTTGATTGTCGGCATCCTGACGCGCCCAGCGGCGCTGGTGTTGGCTTTCACCATGGTAGTGGCGTGGCTGATGGTCGGTCTCGGCAAGACGTTTGCGTTTGATGCGGTGGGCGCGTGGGCGATCGAGAATCTGGTCTATTTTTTTGTTGGCGCGCTGGCGATAGCGCTTTTGGGCGCCGGGCGTTACTCGCTGGCCGGTCAGTCGGTCTGGCGATAG	MVKGLLNTVNRTLSHEDAGKLLLRLAVGGLMLFHGLHKLLDGVDGISGMLVAKGLPGFIAYGVLVGEVVAPCLLIVGILTRPAALVLAFTMVVAWLMVGLGKTFAFDAVGAWAIENLVYFFVGALAIALLGAGRYSLAGQSVWR	PGPT0028505_3543	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
BMS020_02278	969	hcr	COG1018	NADH oxidoreductase HCR	ATGACCATGCCAACCTCACAATGCCCGTGGCGAATGCAGGTGCATCACATCCATCAGGAAACGCCGGATGTGTGGACCGTTTCATTGCTCTGCCATGACTATTATCCGTACCGTGCCGGGCAGTACGCCCTGGTCAGCGTGCGTCATTCGGCAGAGACCCTGCGCGCTTACACTATTTCGTCCACGCCGGGCGTCAGCGAATATATTACGTTGACCGTTCGCCGTATTGACGATGGCGCGGGCTCACAGTGGCTCACCCGCGACGTAAAGCGCGGCGACTATATCTGGCTGTCCGACGCGATGGGGGATTTCACCTGCGAGGATAAAGCGGATGATAAGTTCCTGCTGCTGGCCGCTGGCTGCGGCGTCACGCCGATCATGTCGATGCGCCGCTGGCTGGCGAAGTACCGTCCGCAGGCCGACGTGCAGGTGATCTATAGCGTTCGTTCGCCGGAGGATGTGATCTTTGCCGAAGAGTGGCGCAACTATCCGGTTACCCTGGTGGCGGAGCACCACGCGACGCACGGTTTTGTCGCCGGCCGTCTGACCCCGGAACTACTGCAGAGCGTACCGGATATCGCCAGCCGCACCGTGATGACCTGCGGGCCAGCGCCGTATATGGAGAAAGTTGAACAGGACGTTGCCGCCCTGGGTGTTACCCGCTTCTTTAAGGAGAAGTTCTTCACCCCGGTGGCGGAGGCCGCCACCAGCGGGCTGAAATTCACCAAACTGCAGCCGGCGCGAGAATTTTACGCGCCGGTGGGCACCACCCTGCTCGATGCACTGGAGAGCAATCAGGTGCCGGTGACCGTCGCCTGCCGCGCCGGCGTCTGCGGCTGCTGCAAAACCAGAGTCGTTTCCGGGGAGTATAGCGTCACCAGCACCATGACGCTGACCGACGGCGAAATCGCCGACGGCTATGTGCTGGCCTGCTCCTGTCACCCGCTGGGCGATCTGGTTCTGGCCTGA	MTMPTSQCPWRMQVHHIHQETPDVWTVSLLCHDYYPYRAGQYALVSVRHSAETLRAYTISSTPGVSEYITLTVRRIDDGAGSQWLTRDVKRGDYIWLSDAMGDFTCEDKADDKFLLLAAGCGVTPIMSMRRWLAKYRPQADVQVIYSVRSPEDVIFAEEWRNYPVTLVAEHHATHGFVAGRLTPELLQSVPDIASRTVMTCGPAPYMEKVEQDVAALGVTRFFKEKFFTPVAEAATSGLKFTKLQPAREFYAPVGTTLLDALESNQVPVTVACRAGVCGCCKTRVVSGEYSVTSTMTLTDGEIADGYVLACSCHPLGDLVLA	PGPT0013205_315	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013205-hcr-K11933	NA	NA
BMS020_02279	1686	hcp	COG1151	Hydroxylamine reductase	ATGTATATCAAATATAACTTTAAAGGTGTGACCATGTTTTGTGTGCAATGTGAACAAACCATTCGTACCCCGGCCGGCAACGGCTGCTCATACGCGCAGGGGATGTGCGGTAAAACAGCGGAAACCTCCGATCTACAGGATCTGCTGATTGCGTCACTGCAAGGCCTCTCCGCCTGGGCGCTCAAGGCCCGTGAATATGGCATTATCGACCACGACGTCGATAGCTTTGCGCCGCGCGCTTTTTTCTCTACGCTGACTAACGTTAACTTCGACTCCCCGCGTATCGTTGGCTATGCGCGCCAGGCTATCGCCATGCGTGAAGCGCTTAAAGCGCAGTGCCTGAACATTGATGCCCACGCGACGGTTAACAATCCGATGGCCGCTCTGCAACTGGCTAGCGACGATCTGGGCGACCTGCAGCGTCAGGCGGCGGAATTTACCCCGAACAAAGACAAAGCGGCCATCGGCGACAACATTCTCGGCCTGCGCCTGCTGTGCCTGTACGGCCTGAAAGGCGCTGCGGCTTATATGGAGCACGCGCACGTTCTCGGCCAGTACGACAACGACATCTACGCCCAGTACCATAAAATCATGGCATGGCTGGGTACCTGGCCTGCCGATATGAACGCGCTGCTGGAGTGCTCAATGGAGATCGGCCAGATGAACTTCAAAGTCATGAGCATTCTGGACGCCGGTGAGACCAGCAAATACGGTCATCCGACCCCAACCCAGGTCAACGTTAAAGCGACCGAGGGCAAGTGCATCCTGATCTCCGGCCATGACCTGAAAGATCTCTATAACCTGCTGGAGCAGACCGAAGGCACCGGCGTTAACGTCTATACCCACGGGGAAATGCTGCCGGCGCACGGCTATCCGGAGCTGCGTAAATTCAAACACCTGATTGGGAACTACGGCAGCGGCTGGCAGAACCAGCAGGTGGAGTTCGCCCGCTTCCCGGGCCCCATCGTCATGACCTCTAACTGCATCATCGACCCCACCGTCGGCGCCTACGACGATCGTATCTGGACCCGCAGCATCGTCGGCTGGCCGGGCGTGAACCACCTGGAAGGTGAAGACTTCGCGCCGGTTATCGCCCAGGCGCAGCAGATGGCTGGCTTCCCGTACAGCGAAATCCCGCATCTGATCACCGTCGGCTTTGGCCGTCAGACCCTGCTCGGCGCGGCGGACACACTGATCGATCTGGTCAGCCGGGAAAAACTGCGTCACATTTTCCTCGTCGGCGGCTGCGATGGCGCCCGCGGGGAACGTAACTATTTCACCGATTTCGCCACCAGCGTGCCGGACGACTGCCTGATCCTGACCCTGGCCTGCGGTAAATACCGCTTCAACAAGCTGGACTTCGGCGATATCGAAGGCCTGCCGCGTCTGGTGGATGCCGGGCAGTGCAACGATGCCTACTCGGCGATTATTCTGGCGGTCACGCTGGCGGAAAAACTGGGCTGCGGCGTCAACGATCTGCCGCTGTCGCTGGTGCTTTCCTGGTTCGAGCAGAAAGCGATCGTCATCCTGCTGACGCTGCTGTCTCTCGGCGTGAAAAACATTGTCACCGGCCCGACGGCGCCTGGCTTCTTCACTCCGGATCTGCTGGCTATCCTCAATGAGAAGTTTGGTCTGCGTTCCGTGACCACCGTGGAACAAGATATGCAGCAGCTGCTGAGCGCGTAA	MYIKYNFKGVTMFCVQCEQTIRTPAGNGCSYAQGMCGKTAETSDLQDLLIASLQGLSAWALKAREYGIIDHDVDSFAPRAFFSTLTNVNFDSPRIVGYARQAIAMREALKAQCLNIDAHATVNNPMAALQLASDDLGDLQRQAAEFTPNKDKAAIGDNILGLRLLCLYGLKGAAAYMEHAHVLGQYDNDIYAQYHKIMAWLGTWPADMNALLECSMEIGQMNFKVMSILDAGETSKYGHPTPTQVNVKATEGKCILISGHDLKDLYNLLEQTEGTGVNVYTHGEMLPAHGYPELRKFKHLIGNYGSGWQNQQVEFARFPGPIVMTSNCIIDPTVGAYDDRIWTRSIVGWPGVNHLEGEDFAPVIAQAQQMAGFPYSEIPHLITVGFGRQTLLGAADTLIDLVSREKLRHIFLVGGCDGARGERNYFTDFATSVPDDCLILTLACGKYRFNKLDFGDIEGLPRLVDAGQCNDAYSAIILAVTLAEKLGCGVNDLPLSLVLSWFEQKAIVILLTLLSLGVKNIVTGPTAPGFFTPDLLAILNEKFGLRSVTTVEQDMQQLLSA	PGPT0000630_111	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-HYDROXYLAMINE_REDUCTION,PGPT0000630-hcp-K05601	NA	NA
BMS020_02280	900	lysO	COG2431	Lysine exporter LysO	ATGTTCTCGGGACTGTTCATCATTCTGTTGCCGCTAGTCGTCGGCTATTTACTGCCTCTTCGTCACTCCTCCGCGTTAAAACTGATTAACCGGATGCTGAGCTGGATTGTCTATGTGATCCTCTTTTTTATGGGTATCAGCCTGGCGTTTCTCGACAATCTGGCCAGCAATCTGCTGGCGATATTGCATTACGCCGCGGTGAGCGTGGTCATCATTTTACTGTGTAATATTACCGCTCTGCTGTGGCTGGAAAGAAAAATGCCCTGGCGCAGTCTGCATCGTCAGGAGAAATTACCCTCGCGCCTGGCCATGGCCCTGGAATCACTCCAGCTGTGCGGTGTGGTGGTGCTCGGTTTCTTGCTTGGCCTGACCGGCCTGTCTTTTTTACAACACGCCACCGAAGCCAGCGAATATACGCTGATCTTTCTCCTGTTCCTCGTCGGTATTCAATTACGCAATAATGGAATGAGTCTGCGACAAATAGTCCTCAACCGGCGGGGAATGATCGTCGCCGTGGTGGTCACGGCCAGTTCATTACTCGGCGGCATCCTCAACGCCTTTATTCTGGATTTGCCGCTAAAGACCGGTCTGGCGATGGCCAGCGGCTTCGGCTGGTATTCACTCTCCGGTATTTTACTGACCGAATCCTTTGGCCCGGTGATCGGCAGCGCGGCGTTCTTTAACGACCTGTGCCGCGAGCTGCTGGCCATCATGTTAATTCCGGGCCTGATTCGCCGTAGCCGCTCCACGGCGCTGGGGCTGTGCGGCGCCACCTCCATGGACTTCACCTTACCGGTGCTGCAGCGTTCCGGCGGCGTGGAGATCGTCCCTGCCGCCATCGTGCACGGTTTTCTGCTGAGCCTGCTGGTCCCGATCCTGATCGCCTTTTTTGCCGCCTGA	MFSGLFIILLPLVVGYLLPLRHSSALKLINRMLSWIVYVILFFMGISLAFLDNLASNLLAILHYAAVSVVIILLCNITALLWLERKMPWRSLHRQEKLPSRLAMALESLQLCGVVVLGFLLGLTGLSFLQHATEASEYTLIFLLFLVGIQLRNNGMSLRQIVLNRRGMIVAVVVTASSLLGGILNAFILDLPLKTGLAMASGFGWYSLSGILLTESFGPVIGSAAFFNDLCRELLAIMLIPGLIRRSRSTALGLCGATSMDFTLPVLQRSGGVEIVPAAIVHGFLLSLLVPILIAFFAA				NA	NA	NA	NA	NA
BMS020_02281	696	aqpZ_1	COG0580	Aquaporin Z	ATGTTCAGAAAATTAGCAGCCGAATGCTTCGGCACCTTCTGGCTTGTATTTGGCGGCTGCGGTAGCGCCGTCCTTGCCGCAGCATTTCCCGAGCTGGGTATCGGTTTTGCCGGCGTGGCGCTGGCATTTGGTTTAACCGTATTAACCATGGCGTATGCGGTTGGCCATATTTCCGGCGGTCATTTCAACCCGGCGGTGACCTTAGGCCTGTGGGCCGGCGGTCGTTTCCCGGCGAAAGAGGTCATTGGCTATATTATCGCCCAGGTGGTCGGCGGAATTATTGCCGCCGCGGTGCTGTACGTAGTGGCCAGCGGTAAAGCCGGCTTTGATGCCGCCGCCAGCGGTTTTGCCTCCAACGGCTATGGCGAACACTCCCCGGGCGGCTTCTCTATGCTGTCGGCTATCGTTATTGAAATCGTACTGACCTGCGGCTTCCTGCTGGTTATCCATGGCGCTACCGACAAACACGCGCCTGCGGGCTTCGCGCCGATCGCTATCGGCCTGGCGCTGACCCTCATCCATTTGATCAGCATTCCGGTCACCAACACCTCGGTCAACCCGGCGCGCAGCACCGCGGTGGCGATTTTCCAGGGCGGTTGGGCGCTGCAGCAGCTGTGGCTGTTCTGGGTCATGCCGATCGTCGGCGGGATCCTCGGCGGCGTGCTGTACCGCACTCTGCTGGAAAAACGCGATTAA	MFRKLAAECFGTFWLVFGGCGSAVLAAAFPELGIGFAGVALAFGLTVLTMAYAVGHISGGHFNPAVTLGLWAGGRFPAKEVIGYIIAQVVGGIIAAAVLYVVASGKAGFDAAASGFASNGYGEHSPGGFSMLSAIVIEIVLTCGFLLVIHGATDKHAPAGFAPIAIGLALTLIHLISIPVTNTSVNPARSTAVAIFQGGWALQQLWLFWVMPIVGGILGGVLYRTLLEKRD	PGPT0004755_1044	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ARSENIC_RESISTANCE	ARSENIC_RESISTANCE-ARSENIC_TRANSPORT,PGPT0004755-aqpZ-K06188	NA	NA
BMS020_02282	1659			hypothetical protein	ATGCTTCTTGAGCGCGTAGAAATCGTCGGTTTTCGCGGTATCAATCGTCTGTCGTTGATGCTCGAGCAAAATAACGTCCTGATCGGGGAGAACGCGTGGGGGAAGTCCAGTCTGCTTGATGCGCTGACCCTGCTTTTGTCGCCAGAGTTCGATCTTTATCACTTTGTTCGCGATGACTTTTGGTTCCCCGCGGGCGACATCCAGGGGCGCGAGCACCATTTGCATATTATTCTGACCTTCCGCGAAACGGAGCCGGGACGCCATCGGGTGCGGCGTTTCCGTCCGCTTCAGCGCTGTTGGGTGCCCTGTGATGACGGGTATCACCGGGTGTTCTACCGCCTGGAAGGCGAACTCGCCGATGATGACAGCGTTATGACCCTGCGCAGTTTTATCGATGGCGAAGGCGAAGCGCTGGCGCTGGAGGATATCGATGAGCTGGCCAGACACCTGGTGCGTTTGATGCCGGTGCTGCGTCTGCGCGACGCGCGCTTTATGCGGCGCATTCATAACGGAACGGTACCGCACTCGCCGCAGATAGAGATCACCGCCCGCCAGCTGGATTTTCTGTCCCGCGAACTGGTCAGCCACCCGCAAAATTTATCCGACGGTCAGATCCGCGAGGGGTTGTCGGCCATGGTGCAGCTGCTGGAGCATTATTTTGCCGAGCAAAGCAGCGCCCAGACGCGACATCGCCTGATGCGGCGGCGTTCCCATGATGAACAGCGTAGCTGGCGTTATCTGGATATTATCAACCGGATGATCGACAAGCCCGGCGGGCGCAGCCATCGGGTGATCCTGCTGGGGCTGTTCGCCACCCTGCTGCAGGCGAAAGGGACGGTGCGCCTCGATCGCGATGCGCGGCCGCTGCTGTTGATTGAAGATCCCGAGACCCGCCTGCATCCGATCATGCTCTCCGTCGCCTGGCATCTGCTGAATTTGCTGCCGTTGCAGCGGGTGACCACCACCAACTCCGGAGAGCTGCTGTCCCTGACGCCGGTGGAGCAGGTGTGTCGGCTGGTGCGTGAATCGGCGCGGGTGTCGGCATGGCGGCTGGGGCCCGGCGGAATGAATGCCGAAGAGAGTCGGCGCATTGCCTTTCATATCCGCTTCAATCGCGCCTCATCGCTCTTCGCCCGCTGTTGGCTGCTGGTGGAGGGGGAGACGGAAACCTGGGTTATCAACGAACTGGCCCGCCAGTGCGGCCATCATTTTGATGCTGAAGGGGTGAAAGTCATTGAATTCGCACAGTCGGGCCTGAAGCCGTTGATCAAATTCGCCCGCCGGATGGGGATCCAGTGGCACGTGCTGGTGGACGGCGATGAGGCAGGGAAAAAATATGCCGCGACCGTACGCGGCCTGCTGAATAACGATCGCGAGCTGGAGCGCGACCATCTGACCACTCTGCCGGCGCTGGATATGGAACACTTTATGTATCGTCAGGGATTTGATGACGTTTACCACCGGGTGGCGCAGATCCCGGATAATGTGCCCATGAATATGCGGCGGGTGATCACCAAGGCCATTCATCGTTCATCCAAGCCGGACCTGGCGATTGAGGTGGCAATGGAAGCCGGCCGCCGTGGGGTGGACGCAGTGCCGACGCTGCTGAAAAAAATGTTCTCGCGGGTACTGTGGCTGGCCCGCGGTCGCGCCGATTAA	MLLERVEIVGFRGINRLSLMLEQNNVLIGENAWGKSSLLDALTLLLSPEFDLYHFVRDDFWFPAGDIQGREHHLHIILTFRETEPGRHRVRRFRPLQRCWVPCDDGYHRVFYRLEGELADDDSVMTLRSFIDGEGEALALEDIDELARHLVRLMPVLRLRDARFMRRIHNGTVPHSPQIEITARQLDFLSRELVSHPQNLSDGQIREGLSAMVQLLEHYFAEQSSAQTRHRLMRRRSHDEQRSWRYLDIINRMIDKPGGRSHRVILLGLFATLLQAKGTVRLDRDARPLLLIEDPETRLHPIMLSVAWHLLNLLPLQRVTTTNSGELLSLTPVEQVCRLVRESARVSAWRLGPGGMNAEESRRIAFHIRFNRASSLFARCWLLVEGETETWVINELARQCGHHFDAEGVKVIEFAQSGLKPLIKFARRMGIQWHVLVDGDEAGKKYAATVRGLLNNDRELERDHLTTLPALDMEHFMYRQGFDDVYHRVAQIPDNVPMNMRRVITKAIHRSSKPDLAIEVAMEAGRRGVDAVPTLLKKMFSRVLWLARGRAD				NA	NA	NA	NA	NA
BMS020_02283	1116	macA_1	COG0845	Macrolide export protein MacA	ATGAAATTGAAGGGAAAACGCAGGACCGTCTGGTGGCTGTTGGCGATCGTGGTGCTGGGTCTGGCTGTCTGGGGATGGCAGATCCTCAACGCGCCGCTGCCGCACTACCAGACACTGGTGGTGCGCAAAGGCGACCTCCAGCAGAGCGTGCTGGCTACCGGCAAGCTGGATGCCCTGCGAAAAGTTGACGTCGGCGCCCAGGTCAGCGGGCAGCTGAAGACGCTGCACGTGAATATCGGCGATAAGGTCAAAAAGGACCAACTGCTGGGGGTTATCGATCCTGAGCAGGCGCAAAACCAGATCAAAGAGGTGGAAGCGACGTTGATGGAGCTGCGCGCCCAGCTCAATCAGGCGCGCGCGGAGAGTAAGCTGGCGCAGGTGACCCTGGCCCGTCAGCAGCAGCTGGCGCAGCGCCAGCTGGTCTCGCTACAGGACCTCGATACCGCGGCCACCGACCTGGCGGTGAAACAGGCGCAAATCGGCACCATTGAAGCGCAAATTAAGCGCAACCAGGCGACGCTCGACACCGCGAAGACCAACCTCGACTACACGCGGATCCTGGCGCCGATGGCTGGCGAAGTGACGCAAATTACCACCCTTCAGGGACAGACGGTGATCGCTGCCCAGCAGGCGCCGAACATTCTGACCCTGGCGGACCTCAGCACCATGCTGGTTAAAGCGCAGGTCTCCGAAGCGGATGTCATCCATCTCAGACCGGGGCAAAAGGCGTGGTTTACCGTGCTGGGCGACCCGTTAACCCGCTATGAAGGCAAGCTGAAGGACATTCTGCCGACGCCGGAAAAAGTCAACGACGCCATCTTCTATTATGCCCGCTTCGAGGTCCCGAACCCGCAGGGGATCCTGCGCCTCGACATGACCGCGCAGGTGCATATTCAACTGGCCGAGGTAAAGAACGTGATCACCATCCCGCTGAGCGCCCTGGGCGATGCGGTCGGTGATAACCGCTACCACGTCCGGCTGTTGCGTACCGGCGAGGTCAAAGAGCGTGAGATTGTCATTGGCGCGCGCAATGATACCGACGTCGCGGTGGTACAGGGACTTGAAGAGGGGGATGAGGTGATCGTCGGCGAGAGCGCGAGCGGGGCGGCAAAATGA	MKLKGKRRTVWWLLAIVVLGLAVWGWQILNAPLPHYQTLVVRKGDLQQSVLATGKLDALRKVDVGAQVSGQLKTLHVNIGDKVKKDQLLGVIDPEQAQNQIKEVEATLMELRAQLNQARAESKLAQVTLARQQQLAQRQLVSLQDLDTAATDLAVKQAQIGTIEAQIKRNQATLDTAKTNLDYTRILAPMAGEVTQITTLQGQTVIAAQQAPNILTLADLSTMLVKAQVSEADVIHLRPGQKAWFTVLGDPLTRYEGKLKDILPTPEKVNDAIFYYARFEVPNPQGILRLDMTAQVHIQLAEVKNVITIPLSALGDAVGDNRYHVRLLRTGEVKEREIVIGARNDTDVAVVQGLEEGDEVIVGESASGAAK	PGPT0027919_1011	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027919-macA|pvdR-K13888	NA	NA
BMS020_02284	1941	macB_1	COG0577	Macrolide export ATP-binding/permease protein MacB	ATGACGGCCCTGCTCGAGCTGCGTGATATTCGTCGCAGCTATCCTTCCGGCGACGGCAGCGTTGAGGTCCTCAAGGGGATCACCCTCAGTATCCATGCCGGGGAGATGGTGGCGATCGTGGGCGCCTCCGGCTCGGGTAAATCAACGCTGATGAACATCCTTGGCTGCCTTGATAAACCCACCAGCGGCACCTATCGGGTGGCGGGAACCGATATTGCGCAGCTGGATGGCGATGCGCTGGCTCGTCTGCGGCGGGAACACTTTGGTTTTATCTTTCAACGCTATCACCTGCTGTCGCATTTGACCGCCGCGCAGAACGTCGAAGTGCCGGCGGTGTATGCCGGCAGTGAACGGCGGGCGCGCCTGGCGCGCGCTCATGAGCTGCTGGCGCGCCTGGGGCTTGGCGATCGCGCCGACTATCAGCCGTCGCAGCTGTCCGGCGGACAACAGCAGCGGGTCAGTATCGCCCGCGCCCTGATGAACGGTGGGGAAGTGATCCTCGCCGATGAGCCGACCGGCGCGCTGGACAGCCATTCCGGCGAAGAGGTGATGGCGATCCTGCACCAGCTGAAAGCGCAGGGGCACACGGTCATCATTGTCACTCACGATCCGCAGGTCGCCGCTCAGGCGGAGCGGATCGTCGAGATCCGCGATGGCGAAATCGTCCGCAACCCCTCCGCCAGCCGCCAGGGCGGTGGGCTGCGCGCCCGTCAGCAGGAGGAGCCCTCGGCGTGGCGTCAGTTCACCAGCGGCTTTCGCGAGGCGCTGGTCATGGCCTGGCGGGCGATGGCGGCGAATAAAATGCGCACCCTGCTGACCATGCTCGGCATTATTATTGGGATTGCCTCGGTGGTGTCGATCGTCGTGGTGGGCGATGCCGCCAAACAAATGGTGCTGGCAGATATTCGCGCGATAGGCACCAATACCATTGACGTCTACCCTGGCAAGGATTTTGGCGATGACGACCCGCGTTATCAACAGGCGCTGAAGTATGACGACTTGCTGGCGATCCAGAAACAGCCGTGGGTGCGTTCCGCTACGCCGGCGGTGTCAAAAAGCCTGCGTCTGCGCGCCAACAATATTGACGTAGCCGCCAGCGCGGAAGGGGTGGGGCCGCAATACTTTAATGTTTACGGCATGACCTTTAGCGAGGGCAATACCTTTAATGAGCTGCAGCTCAACAGCCGGGCGCAGGTGGTGGTGCTCGACAGCAATACCCGTCGCCAGCTGTTTCCCAACAAAGCGAAAGTGGTGGGCGAGGTGATTCTGGTGGGCAATATGCCGGCCACGGTGATTGGCGTTGCGGATGAAAAGCAGTCGATGTTCGGCAGCAGTAAAATTCTCCGCGTCTGGTTGCCCTACACCACCATGGCGGGAAGGGTGATGGGCCAGTCGTGGCTGAACTCGATCACCGTCCGCGTTCATGAAGGCTATGACAGCGACACCGCTGAAAAGCAGCTGCTGCGTTTGCTGGAGCTGCGGCATGGTAAAAAAGATGTATTCACCTGGAATATGGACAGCATCTTGAAAACCGCCGAAAGGACCACACATACCTTACAGCTGTTCCTCACATTGGTGGCGGTGATCGCCCTGGTGGTCGGCGGGATTGGCGTGATGAATATTATGCTGGTGTCGGTGACCGAACGGACGCGTGAGATAGGTATCCGCATGGCGGTTGGCGCCCGGGCCAGCGATGTGCTGCAGCAGTTTCTCATCGAAGCGGTGCTGGTTTGCCTGGTCGGCGGCGCGCTGGGGGTGACATTGTCGCTGATGATTGCGTTTATTCTGCAGCTGTTTCTCCCCGGCTGGGAGATCGGTTTTTCGCCGCTGGCGCTGGTGACAGCGTTTCTCTGTTCGACGTTAACCGGGGTGCTGTTTGGGTGGCTGCCGGCGCGCAATGCGGCGCGGCTCGATCCGGTGGATGCCCTGGCGCGGGAGTAG	MTALLELRDIRRSYPSGDGSVEVLKGITLSIHAGEMVAIVGASGSGKSTLMNILGCLDKPTSGTYRVAGTDIAQLDGDALARLRREHFGFIFQRYHLLSHLTAAQNVEVPAVYAGSERRARLARAHELLARLGLGDRADYQPSQLSGGQQQRVSIARALMNGGEVILADEPTGALDSHSGEEVMAILHQLKAQGHTVIIVTHDPQVAAQAERIVEIRDGEIVRNPSASRQGGGLRARQQEEPSAWRQFTSGFREALVMAWRAMAANKMRTLLTMLGIIIGIASVVSIVVVGDAAKQMVLADIRAIGTNTIDVYPGKDFGDDDPRYQQALKYDDLLAIQKQPWVRSATPAVSKSLRLRANNIDVAASAEGVGPQYFNVYGMTFSEGNTFNELQLNSRAQVVVLDSNTRRQLFPNKAKVVGEVILVGNMPATVIGVADEKQSMFGSSKILRVWLPYTTMAGRVMGQSWLNSITVRVHEGYDSDTAEKQLLRLLELRHGKKDVFTWNMDSILKTAERTTHTLQLFLTLVAVIALVVGGIGVMNIMLVSVTERTREIGIRMAVGARASDVLQQFLIEAVLVCLVGGALGVTLSLMIAFILQLFLPGWEIGFSPLALVTAFLCSTLTGVLFGWLPARNAARLDPVDALARE	PGPT0027920_964	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027920-macB|ybjZ|pvdT-K05685	NA	NA
BMS020_02285	222	cspD	COG1278	Cold shock-like protein CspD	ATGGAAATGGGTACTGTTAAGTGGTTCAACAATGCCAAAGGGTTCGGTTTTATCTGCCCTGAGGGCGGCGGCGAAGACATTTTCGCCCATTACTCCACCATCCAGATGGATGGTTACAGAACGCTAAAAGCCGGACAAGCCGTTCGGTTTGATGTTCACCAGGGGCCAAAAGGCAACCACGCCAGCGTGATCGTCCCTGTGGAAGCGGAAACGGCTGCATAA	MEMGTVKWFNNAKGFGFICPEGGGEDIFAHYSTIQMDGYRTLKAGQAVRFDVHQGPKGNHASVIVPVEAETAA	PGPT0014675_2558	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
BMS020_02286	318	clpS_1	COG2127	ATP-dependent Clp protease adapter protein ClpS	ATGAGTAAGAGAGATTGGCTGGACTTCGAGCACCTGGTTGACGACGAAGTTCGTGATGCGATTAAACCGCCATCTATGTATAAAGTGATATTGGTCAATGATGACTACACTCCAATGGAGTTTGTTATTGACGTGTTACAAAAATTCTTTTCTTATGATGTTGAACGTGCAACGCAACTGATGCTCACGGTTCACTATGAAGGTAAGGCGATTTGTGGCGTGTTTACCGCGGAAGTGGCGGAGACCAAAGTCGCTATGGTGAATCAGTACGCGAGGGAGAACGAGCATCCATTGCTGTGTACGCTGGAAAAAGCCTGA	MSKRDWLDFEHLVDDEVRDAIKPPSMYKVILVNDDYTPMEFVIDVLQKFFSYDVERATQLMLTVHYEGKAICGVFTAEVAETKVAMVNQYARENEHPLLCTLEKA	PGPT0014575_3	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014575-clpA-K03694	NA	NA
BMS020_02287	2280	clpA_1	COG0542	ATP-dependent Clp protease ATP-binding subunit ClpA	ATGCTCAATCAAGAACTGGAACTCAGTTTAAATATGGCTTTCGCCAGAGCGCGCGAGCACCGTCATGAGTTTATGACCGTCGAGCACTTGCTGCTGGCTCTGCTAAGCAACCCCTCGGCCCGTGAGGCCCTGGAAGCGTGTTCAGTGGACCTGGTGGCATTGCGTCAGGAACTTGAAGCCTTCATCGAACAAACCACACCCGTCCTGCCAGCCACGGAAGAAGAGCGCGACACCCAGCCGACGCTGAGCTTCCAGCGTGTGCTGCAGCGCGCCGTCTTCCACGTGCAATCTTCTGGCCGCAGCGAAGTGACCGGCGCCAACGTGCTGGTGGCGATTTTCAGCGAGCAGGAGTCGCAGGCCGCCTACCTGCTGCGTAAACATGAAGTGAGCCGACTCGATGTGGTGAACTTCATTTCTCATGGTACACGCAAAGACGAGCCGAGCCAGTCTTCCGATAACAGCGGAAGCCAGCCTGGCAATGAAGAGCAAGCCGGCGGGGAGGAACGTATGGAAAACTTCACCACCAACCTCAATCAGCTTGCTCGCGTCGGCGGCATTGATCCCCTGATCGGCCGTGAAAAAGAGCTGGAGCGCGCCATTCAGGTTCTGTGCCGTCGGCGTAAAAATAACCCGCTGCTGGTGGGAGAATCCGGCGTCGGTAAAACCGCCATCGCCGAAGGCCTTGCCTGGCGTATTGTGCAGGGCGATGTGCCGGAAGTCATGGCTGACTGCACCATCTACTCGCTCGATATTGGTTCTCTGCTGGCCGGGACGAAATACCGTGGCGATTTTGAAAAACGCTTTAAAGCGTTGCTCAAACAGCTGGAGCAGGATACCAACAGCATCCTGTTCATTGATGAGATCCACACCATCATCGGTGCGGGGGCGGCGTCTGGCGGTCAGGTCGATGCGGCTAACCTGATCAAACCGCTGCTTTCCAGCGGCAAGATCCGGGTGATTGGCTCCACCACTTACCAGGAGTTCAGCAACATCTTTGAGAAAGATCGTGCGCTGGCCCGCCGTTTCCAGAAAATTGATATTACCGAACCGTCGGTGGAAGAGACCGTCCAGATTATCAACGGCCTGAAGCCGAAGTACGAAGCGCACCACGATGTGCGTTATACCGCCAAGGCGGTGCGTGCCGCGGTTGAGCTGGCGGTGAAATACATTAACGATCGTCATCTGCCGGATAAGGCGATTGACGTGATTGACGAGGCAGGGGCGCGGGCGCGCTTAATGCCGGTCAGCAAGCGTAAGAAAACGGTTAATGTGGCGGATATCGAGTCAGTGGTGGCGCGCATTGCGCGGATCCCTGAGAAGAGCGTCTCCCGCAGCGATCGCGATACGCTGAAAAACCTTGGCGATCGACTGAAAATGCTGGTCTTTGGTCAGGATAAGGCCATCGAGGCGCTGACGGAAGCCATCAAAATGGCGCGCGCCGGGCTGGGCCATGAGCACAAGCCGGTGGGTTCATTCCTGTTCGCCGGGCCGACCGGGGTGGGGAAAACCGAAGTGACCGTGCAGCTGGCGAAGGCGCTGGGTATCGAGCTGCTGCGTTTTGATATGTCCGAATATATGGAACGTCATACCGTCAGCCGTTTAATCGGGGCGCCTCCGGGCTACGTCGGCTTCGATCAGGGCGGGCTGCTGACCGATGCGGTGATTAAACATCCGCACGCGGTGCTGCTGCTTGATGAGATCGAAAAAGCGCATCCGGACGTGTTCAACCTGCTGCTGCAGGTGATGGATAACGGAACGCTGACCGATAACAACGGACGTAAAGCGGACTTCCGCAACGTGGTGCTGGTGATGACCACCAACGCCGGGGTGCGGGAAACCGAGCGTAAATCGATTGGCCTTATCCAGCAGGACAACAGTCCGGATGCAATGGATGAGATCAAGAAGATCTTTACGCCGGAGTTCCGTAACCGTCTCGACAACATTATCTGGTTCGATCACCTCTCCACCACGGTGATCCATCAGGTTGTCGACAAGTTTATCGTCGAGCTGCAGGTTCAGCTGGATCAGAAAGGCGTCTCCCTGGAAGTCAGCCAGGAAGCGCGCGACTGGCTGGCGGAAAAAGGCTACGACCGGGCGATGGGGGCACGTCCGATGGGACGCGTCATTCAGGACAACCTGAAAAAACCGCTGGCGAACGAGCTGCTGTTTGGCTCGCTGGTCGACGGGGGGCAGGTGACGGTCTCTCTGGACAGCGTGAAAAATACGCTGACTTACGACTTCCAGAGCGCGCCGAAGCACAAACCGGAAGCCGCCCACTAA	MLNQELELSLNMAFARAREHRHEFMTVEHLLLALLSNPSAREALEACSVDLVALRQELEAFIEQTTPVLPATEEERDTQPTLSFQRVLQRAVFHVQSSGRSEVTGANVLVAIFSEQESQAAYLLRKHEVSRLDVVNFISHGTRKDEPSQSSDNSGSQPGNEEQAGGEERMENFTTNLNQLARVGGIDPLIGREKELERAIQVLCRRRKNNPLLVGESGVGKTAIAEGLAWRIVQGDVPEVMADCTIYSLDIGSLLAGTKYRGDFEKRFKALLKQLEQDTNSILFIDEIHTIIGAGAASGGQVDAANLIKPLLSSGKIRVIGSTTYQEFSNIFEKDRALARRFQKIDITEPSVEETVQIINGLKPKYEAHHDVRYTAKAVRAAVELAVKYINDRHLPDKAIDVIDEAGARARLMPVSKRKKTVNVADIESVVARIARIPEKSVSRSDRDTLKNLGDRLKMLVFGQDKAIEALTEAIKMARAGLGHEHKPVGSFLFAGPTGVGKTEVTVQLAKALGIELLRFDMSEYMERHTVSRLIGAPPGYVGFDQGGLLTDAVIKHPHAVLLLDEIEKAHPDVFNLLLQVMDNGTLTDNNGRKADFRNVVLVMTTNAGVRETERKSIGLIQQDNSPDAMDEIKKIFTPEFRNRLDNIIWFDHLSTTVIHQVVDKFIVELQVQLDQKGVSLEVSQEARDWLAEKGYDRAMGARPMGRVIQDNLKKPLANELLFGSLVDGGQVTVSLDSVKNTLTYDFQSAPKHKPEAAH	PGPT0014575_1137	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014575-clpA-K03694	NA	NA
BMS020_02288	219	infA_1	COG0361	Translation initiation factor IF-1	ATGGCCAAAGAAGACAATATTGAAATGCAGGGCACCGTACTTGAAACGTTGCCTAACACTATGTTCCGCGTAGAACTGGAAAACGGTCACGTGGTAACCGCGCATATCTCCGGTAAAATGCGTAAAAACTACATCCGCATTCTGACGGGCGACAAAGTGACTGTTGAGCTGACCCCGTACGACCTGAGCAAAGGCCGCATTGTCTTCCGTAGTCGCTGA	MAKEDNIEMQGTVLETLPNTMFRVELENGHVVTAHISGKMRKNYIRILTGDKVTVELTPYDLSKGRIVFRSR				NA	NA	NA	NA	NA
BMS020_02289	702	aat_1	COG2360	Leucyl/phenylalanyl-tRNA--protein transferase	ATGCGTCTGGTTCAGCTCTCCCGGCATTCTATCGCCTTCCCTTCTCCGGAAGGCGCCCTGCGTGAACCTAACGGCCTGCTGGCGCTCGGCGGCGATCTAAGCCCCGCGCGTCTGCTGATGGCCTATCAGCGTGGTATTTTTCCCTGGTTTTCCCCCGGCGACCCGATCCTCTGGTGGTCGCCCGATCCCCGGGCAGTGCTTTGGCCGGAACAGTTCCATCTCAGCCGCAGCATGAAGCGCTTTCATCAGCGCTCCCCCTACCGCGTCACGCTCAATCATGCCTTTGGCGAGGTGATTGAGGGCTGCGCCAGCGATCGTGACGAAGGCACCTGGATAACCAGCAGCATCGTTCGCGCCTATCACCAGCTGCATGAGCTGGGCCATGCCCACTCCATTGAAGTCTGGCAGGAAAATACCCTGGTGGGGGGAATGTACGGCGTGGCGCAGGGGGCGTTGTTTTGCGGCGAGTCGATGTTCAGCCGGGCGGAAAATGCCTCTAAAACCGCGCTGCTGGTATTTTGCCAGGACTTTGCGCAGAGCGGCGGTAAATTAATTGACTGTCAGGTGCTGAACAACCACACCGCGTCATTAGGCGCAGTGGATATTCCCCGCCGCGATTATCTGGACTATCTCTCGGTATTACGCGGCTACCGTCTACCCGAGCGATTTTGGGTACCACGGGTGCTATTTCCGGGCGGATAA	MRLVQLSRHSIAFPSPEGALREPNGLLALGGDLSPARLLMAYQRGIFPWFSPGDPILWWSPDPRAVLWPEQFHLSRSMKRFHQRSPYRVTLNHAFGEVIEGCASDRDEGTWITSSIVRAYHQLHELGHAHSIEVWQENTLVGGMYGVAQGALFCGESMFSRAENASKTALLVFCQDFAQSGGKLIDCQVLNNHTASLGAVDIPRRDYLDYLSVLRGYRLPERFWVPRVLFPGG				NA	NA	NA	NA	NA
BMS020_02290	1722	msbA_1	COG1132	Lipid A export ATP-binding/permease protein MsbA	ATGCGCGCGCTCTTACCCTATCTGGCACTGTATAAACGCCACAAATGGATGCTGCTGCTCGGCATCGTACTGGCTATTGTGACCCTGCTGGCCAGTATCGGCCTGCTGACGCTCTCCGGCTGGTTTCTCTCCGCCTCTGCGGTGGTGGGCGTCGCCGGGATCTACAGTTTTAACTATATGCTGCCCGCCGCGGGCGTACGCGGCGCAGCGATTATCCGTACCGCCGGACGCTATTTCGAGCGTCTGGTCAGCCACGATGCCACCTTCCGCGTGCTGCAGCACCTGCGCGTCTTCACCTTCAGCAAACTGCTCCCCCTCTCTCCGGCGGGGCTGGCGCGCTTTCGCCAGGGGGAACTGCTCAACCGCGTAGTCGCCGACGTCGACACCCTGGATCATCTCTACCTGCGTGTCATTTCGCCGCTGGTCGGCGCGCTGGTGGTGATTGTGGTGGTGACCTGCGGATTAAGCCTGCTCGACGTTACCCTCGCGCTGACGCTCGGCGGCATCATGCTGGTGACCCTGCTGGTTATGCCGCCGCTGTTCTATCGCGCCGGTAAACCGGCCGGAGAGAGTATGACCCAGCTGCGCGGTCAGTATCGGCAACAGCTTACCGCCTGGCTGCAGGGCCAGGCGGAGCTGATGGTGTTTAACGCCAGCGACCGCTATCGCGCGCAAATGGAAAAAACCGAGCTCAGCTGGCAGGACGCGCAGCGTCGCCAGGCCGAGCTGACCGCGCTTTCACAGGCGCTAATGCTGTTAATCGGCGGAATCGCCGTGGTGGCCATGCTCTGGCTGGCCTCAGACGGCGTCGGCGGCAACAGTCAGCCCGGGGCGCTGATCGCCCTGTTCGTCTTCTGCGCCCTGGCGGCTTTCGAAGCCCTGGCGCCCGTCACCGGCGCTTTCCAGCATTTAGGTCAGGTGATCGCCTCCGCGCTGCGGATCTCGCAGATCACTGACCAGCAGCCGGAAGTCTCCTTCGTTGAGGGCGAGGCCAGCAGGCCTGCGCAGGTGGCCTTAACCTTCAGGCAGGTCACCTTCCGCTACCCGCAGCAGCCCTCCCCCGCCCTGGAGAACATCTCCCTGCAGATTGCCGCCGGGGAACATATCGCTATTCTTGGCCGAACCGGCTGCGGAAAGTCGACGCTGTTGCAGTTGCTCACCCGCGCATGGGATCCGGCGCAGGGAGAGATATTGCTCAACGACCAGCCGCTGTCCGGGCTGAGCGAAGCCACCCTGCGGCAGTCAATGAGCGTGGTGCCGCAGCGCGTGCATCTGTTCAGCGCCACCCTGCGCGACAACCTGCGGCTGGCGGCGCCTGAGGCTGATGATACACTGCTCTGCGCCACCCTTGAGAAGGTAGGCCTGGAAAAACTGCTGGAAGATGGCGGACTCAACGGCTGGCTGGGCGAAGGCGGACGCCAGCTTTCCGGCGGCGAACTGCGCCGGCTGGCCATCGCCCGCGCGCTGCTCCACGATGCGCCGCTGATGCTGCTGGATGAACCGACAGAAGGTCTGGATGCCGCCACCGAAAGCCAGATCCTGCATCTGCTGGCGGAAGTCATGCGCGAGAAAACCGTGCTGATGGTCACCCACCGCCTGCGAGGCCTGGCGCGTTTTAATCAGATAATAGTCATGGACAACGGCCAGATAATTGAGCAAGGTAGTCACGCGGAGCTGCTCGCTAAACAGGGCCGGTACTTCCAGTTTAAACAGCGTCTGTAG	MRALLPYLALYKRHKWMLLLGIVLAIVTLLASIGLLTLSGWFLSASAVVGVAGIYSFNYMLPAAGVRGAAIIRTAGRYFERLVSHDATFRVLQHLRVFTFSKLLPLSPAGLARFRQGELLNRVVADVDTLDHLYLRVISPLVGALVVIVVVTCGLSLLDVTLALTLGGIMLVTLLVMPPLFYRAGKPAGESMTQLRGQYRQQLTAWLQGQAELMVFNASDRYRAQMEKTELSWQDAQRRQAELTALSQALMLLIGGIAVVAMLWLASDGVGGNSQPGALIALFVFCALAAFEALAPVTGAFQHLGQVIASALRISQITDQQPEVSFVEGEASRPAQVALTFRQVTFRYPQQPSPALENISLQIAAGEHIAILGRTGCGKSTLLQLLTRAWDPAQGEILLNDQPLSGLSEATLRQSMSVVPQRVHLFSATLRDNLRLAAPEADDTLLCATLEKVGLEKLLEDGGLNGWLGEGGRQLSGGELRRLAIARALLHDAPLMLLDEPTEGLDAATESQILHLLAEVMREKTVLMVTHRLRGLARFNQIIVMDNGQIIEQGSHAELLAKQGRYFQFKQRL				NA	NA	NA	NA	NA
BMS020_02291	1767	cydD_1	COG4988	ATP-binding/permease protein CydD	ATGAATAAAACCCGTCAACAAGAGTTAACCCGCTGGTTAAAACAGCAAAGCATTATCTCCCGTCGCTGGTTGATGATTTCCCGCCTCCTCGGCGTGGCGAGCGGTCTGCTGATCGTGGCGCAGGCCTGGTTCCTGGCGCGGATCCTGCACCGGATGGTGATGGAGAATATTCCTGCGACCGCCCTGCTGCTGCCGCTGACCCTGCTGGTGCTGACCTTTGTGCTGCGCGCCTGGGTGGTCTGGCTGCGTGAACGGGTCGGCTTTCAGGCCGGACAGCATATTCGCTATGAAATTCGCCGCCAGGTGCTCGACCGTCTCCAGCAGGCGGGCCCGGCGTGGATCCAGGGCAAACCGGCCGGCAGCTGGGCGACGCTTATCCTCGAGCAGATCGACGATATGCATGACTATTATGCCCGCTACCTGCCGCAGATGACGCTGGCGGCCTGCGTGCCACTGCTGATCGTTATCACTATTTTCCCGATCAACTGGGCCGCCGCGCTGATCCTCCTCGGCACCGCGCCGCTGATCCCCCTGTTCATGGCCCTGGTTGGGATGGGCGCCGCCGATGCCAACCGGCGTAACTTCCAGGCGCTGGCCCGCCTCAGCGGCCACTTCCTCGACCGTCTGCGCGGCATGGAAACCTTGCGTATTTTTCACCGTGGTCAGGCCGAAACGGATAATATTCGCGACGCCTCGCAGGACTTTCGCCAACGCACCATGGAAGTCCTGCGCCTGGCGTTCCTCTCCTCCGGAGTACTGGAGTTTTTCACCTCGCTCTCCATTGCGCTGGTAGCGGTTTATTTCGGCTTCTCATACCTGGGCGAGCTTAACTTCGGCCACTATGGCGCGGGCGTCACGCTGATGGCGGGCTTCCTGACGCTGATCCTCGCCCCGGAGTTTTTCCAGCCATTACGCGACCTGGGCACCTTCTACCATGCCAAAGCCCAGGCCGTCGGCGCTGCGGACAGTCTGAAAACGTTTATGGAAACCCCGCTGACCCAGGTGGAGCGTGGCGAAAAAACCTTAAATGATAACGATCTGATTGGCGTGGAAGCGCGCGATCTGCTGATTAAATCTCCCGACGGAAAAGTCCTCGCCGGGCCGCTGAATTTTTCACTGCCTGCAGGCGCGCGGGTGGTGCTGGTGGGGCAGAGCGGCTCAGGGAAAAGTTCCCTGCTGAACACCCTGCTCGGCTTTTTGCCCTATGAAGGTTCGCTGAAGGTCAACGGCGTCGAGCTGCGCGAGCTGGACGCCGATCGCTGGCGTCGCCTGTTAAGCTGGGTGGGGCAGAATCCCCAGCTTCCTGCCGCCACGCTGCGGGAAAATGTGCTGCTGGCGTGGCCGGAAGCCAGCGATGCCCAGCTTCGGCTGGCGCTGGACAAGGCCTGGGTGAGCGAGTTTATCGCTCTGCTGCCGGATGGGATCCATACCGCCGTGGGCGATCAGGCGGGCCGTCTGTCGGTCGGCCAGGCGCAGCGTATCGCGGTCGCCCGCGCGCTGTTGGTGCCGTGCCGCCTGCTGCTGCTGGATGAACCCGCCGCCAGCCTCGACGCCCATAGCGAACAACGGGTCATGCAGGCGTTGACCCACGCCTCCACCCAGCAAACCACGCTGCTGGTTACCCATCAGCTTGAGGGACTGGCGGACTGGGATGCCGTCTGGGTGATGCAGGACGGACAGATTATCGAACAAGGCGACTACGCCACGCTGGCCCGCGCCGGCGGGGTCTTCTCGGCGCTGTTGGCCCATCGTCAGGAGGAGATTTAA	MNKTRQQELTRWLKQQSIISRRWLMISRLLGVASGLLIVAQAWFLARILHRMVMENIPATALLLPLTLLVLTFVLRAWVVWLRERVGFQAGQHIRYEIRRQVLDRLQQAGPAWIQGKPAGSWATLILEQIDDMHDYYARYLPQMTLAACVPLLIVITIFPINWAAALILLGTAPLIPLFMALVGMGAADANRRNFQALARLSGHFLDRLRGMETLRIFHRGQAETDNIRDASQDFRQRTMEVLRLAFLSSGVLEFFTSLSIALVAVYFGFSYLGELNFGHYGAGVTLMAGFLTLILAPEFFQPLRDLGTFYHAKAQAVGAADSLKTFMETPLTQVERGEKTLNDNDLIGVEARDLLIKSPDGKVLAGPLNFSLPAGARVVLVGQSGSGKSSLLNTLLGFLPYEGSLKVNGVELRELDADRWRRLLSWVGQNPQLPAATLRENVLLAWPEASDAQLRLALDKAWVSEFIALLPDGIHTAVGDQAGRLSVGQAQRIAVARALLVPCRLLLLDEPAASLDAHSEQRVMQALTHASTQQTTLLVTHQLEGLADWDAVWVMQDGQIIEQGDYATLARAGGVFSALLAHRQEEI				NA	NA	NA	NA	NA
BMS020_02292	996	trxB_1	COG0492	Thioredoxin reductase	ATGTATGCCAATTATTATGGGGATCTCATGGGCACAGCCAAACACAGTAAACTGCTTATTCTTGGTTCTGGACCTGCGGGATACACCGCGGCGGTCTATGCCGCGCGCGCCAACCTGCAGCCGGTGCTGATCACCGGGATGGAAAAAGGCGGTCAGCTGACCACCACGACGGAAGTGGAAAACTGGCCAGGCGATCCGAACGATTTGACCGGTCCGCTGCTGATGGAGCGCATGCACGAGCATGCCGCGAAATTTGAAACCGAGATTATTTTCGACCATATCAGCCGCGTCGACCTGCAAAACCGGCCGTTCCGTCTGACCGGCGACAGCGGCGAATACACCTGTGACGCGCTGATTATCGCCACCGGCGCTTCAGCCCGTTACCTGGGTCTGCCTTCCGAAGAAGCCTTCAAGGGCCGCGGCGTTTCCGCGTGCGCCACCTGTGACGGATTCTTCTATCGCAACCAGAAAGTGGCGGTGATCGGCGGCGGCAACACCGCGGTTGAAGAGGCCCTGTATCTGTCGAACATCGCCTCGGAGGTACATCTGATCCACCGTCGCGATTCCTTCCGTGCGGAAAAAATCCTCATCAAACGCCTGATGGACAAAGTGGCAAGCGGCAACATCGTGCTGCATACCGATCGCACCCTCGAAGAGGTGACCGGCGACCAGATGGGCGTCAGCGGCCTGCGTCTGCGCGATACCAAAAACAGCGACAACGTCGAGTCCCTGGAAGTAGCCGGTCTGTTTGTCGCCATCGGCCACAGCCCGAACACCGCCATCTTTGAAGGTCAGCTGGAGCTGGAGAACGGCTACATCAAAGTGCAGTCCGGTATCCACGGCAATGCGACCCAGACCAGCATCCCGGGCGTGTTTGCCGCCGGCGATGTCATGGACCATATTTATCGTCAGGCTATCACCTCCGCCGGCACCGGCTGCATGGCGGCGCTGGACGCTGAACGTTACCTCGACGGTCTGGCTGACGCGTGCAAATAA	MYANYYGDLMGTAKHSKLLILGSGPAGYTAAVYAARANLQPVLITGMEKGGQLTTTTEVENWPGDPNDLTGPLLMERMHEHAAKFETEIIFDHISRVDLQNRPFRLTGDSGEYTCDALIIATGASARYLGLPSEEAFKGRGVSACATCDGFFYRNQKVAVIGGGNTAVEEALYLSNIASEVHLIHRRDSFRAEKILIKRLMDKVASGNIVLHTDRTLEEVTGDQMGVSGLRLRDTKNSDNVESLEVAGLFVAIGHSPNTAIFEGQLELENGYIKVQSGIHGNATQTSIPGVFAAGDVMDHIYRQAITSAGTGCMAALDAERYLDGLADACK	PGPT0013060_3205	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
BMS020_02293	495	lrp_2	COG1522	Leucine-responsive regulatory protein	ATGGTAGATAGCAAGAAGCGCCCTGGCAAAGATCTCGACCGCATTGATCGTAACATCCTGAATGAATTGCAAAAAGATGGGCGAATTTCTAACGTCGAGCTTTCTAAACGGGTGGGACTTTCTCCGACGCCTTGCCTTGAGCGTGTGCGTCGTCTTGAAAGACAGGGTTTTATTCAGGGCTATACGGCGCTGCTCAACCCGCATTATCTGGATGCATCACTTCTGGTATTTGTTGAGATTACTCTGAATCGTGGCGCACCGGATGTGTTTGAGCAATTTAACGCCGCAGTGCAAAAACTTGAAGAAATTCAAGAGTGTCATCTGGTTTCCGGTGATTTCGACTATCTGTTGAAAACCCGCGTACCGGATATGTCAGCGTATCGTAAATTACTGGGCGAGACCTTGCTGCGCCTGCCGGGCGTTAACGACACCCGTACCTATGTGGTAATGGAAGAAGTCAAGCAAAGTAATCGTCTGGTTATTAAGACGCGCTAA	MVDSKKRPGKDLDRIDRNILNELQKDGRISNVELSKRVGLSPTPCLERVRRLERQGFIQGYTALLNPHYLDASLLVFVEITLNRGAPDVFEQFNAAVQKLEEIQECHLVSGDFDYLLKTRVPDMSAYRKLLGETLLRLPGVNDTRTYVVMEEVKQSNRLVIKTR	PGPT0014049_86	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014049-doeX-K15782	NA	NA
BMS020_02294	4281			hypothetical protein	TTGAGCCAGGAATACACCGAAGACAAAGAAGTCAAACTTACCAAACTCAGCAGCGGGCGCCGACTCCTTGAGGCGATGCTCATCCTTTGCTCCCTCTTCGCCATCTGGCTGATGGCGGCATTACTGAGCTTTAACCCCTCGGACCCAAGCTGGTCGCAAACGGCATGGCATGAGCCTATTCATAATTTAGGCGGCGCCCCCGGCGCGTGGCTTGCCGATACCCTGTTTTTCATTTTTGGCGTCATGGCCTATACCATCCCGGTGATCATCATCGGCGGATGCTGGTTTGCCTGGCGGCATCAGGAAAACGACGAATACATTGATTATTTCGCCGTTTCTCTGCGTCTCATCGGTGCGTTAGCCCTGATCCTGACCTCCTGCGGTCTGGCGGCGATTAACGCCGATGATATCTGGTACTTCGCCTCTGGCGGGGTGATTGGCAGCTTGCTGAGCACCACCCTGCAACCGCTGCTGCACAGCAGCGGCGGCACCATCGCTCTGTTGTGCATCTGGGCGGCCGGCCTGACGCTGTTTACCGGCTGGTCGTGGGTCAGCATTGCGGAAAAACTGGGCGGCGGCATCCTGTCCGTACTCACCTTTGCCAGCAACCGCACCCGTCGGGATGATACCTGGGTCGATGAAGGCGAATACGAAGACGACGATGAAGAGTACGACGACGAAGAGGCGGCAACCCCCCAGGAGTCGCGTCGGGCCCGCATCTTGCGCAGCGCGCTGGCGCGGCGTAAACGTCTGGCCGAGAAGTTTACCAACCCTATGGGGCGTAAAACCGACGCGGCGCTTTTCTCCGGCAAACGGATGGACGACGGGGAAGAGGCCGTGCAGTACAGCGCCAGCGGTGCGCCTGTCGCCGCCGACGATGTACTGTTTTCCGGCGCCAGCGCCGCGCGTCCCGCAGAGAATGATGTGCTATTTTCCGGCGCCAGCGCCGCGCGCCCGGGCGATTTCGACCCTTACGATCCGTTGCTGAACGGCCACAGTATCGCTGAGCCGGTGGGCGCAGCGGCGGCGGCCACTGCCGCGCCGCAGGCGTGGGGCGAGTCGACGGCGGGCCATCAGGGCGCTGCGCCGGCTTATCAGCCAGAAGCCAGCTATCCGCCGCAGCAGGCCTATCAGCCTGAACCCGCCCCGTTCCAGCAGGCTGCTTATCAGCCGCCAGCGGGGCAACCCGCGCCGCAGGCGTATCAGCCAGAGCCGGCGCAGTATCAACAGCCGGTTTACGATCCGCATGCCGGACAACAGCCTGCGCCGCAGGGGTATCAACCCGAGCATGCGCCGCACCAGCAGCCGGTTTACGATCCATATGCCGGACAACAGCCTGCGCCGCAGGGGTATCAACCAGAGCCTGCACAGTATCAGCAGCCGGTTTACGATCCATATGCCGGGCAACAGCCTGCGCCGCAGGGATATCAACCCGAGCCTGCACAGTATCAGCAGCCGGTTTACGATCCATATGCCGGACAACAGCCTGCGCCGCAGGGGCATCAATCCGAGCCTGCACAGTATCAGCAGCCGGTTTACGATCCGCATGCCGGTCAGCCCGCGCCGCAGGGGTATCAACCCGAGCCTGCACAGTATCAGCAGCCGGTTTACGATCCGTATGCCGGCCAGACCGCGCCGCAGGGGTATCAACCCGAGACTGCGCCTTATCAGCAGCCGAGTTACGATCCGCATGCCGGCCAGCCCGCGCCGCAGGCGTATCAGCCTGAGCCCGCGCCGGTACCTGCCGCGCAGCCAGAGTCTGAGGCCGTGCAGGAAGAAGTGAAACGTCCGCCGCTCTATTACTTCGAGGAAGTGGAAGAGAAGCGGGCGCGCGAACGCGAGCTGCTGGCTTCCTGGTATCAGCCTATTCCGGAGCCGGAAAGCCCGATCGCCACCAAACCGCTGACGCCGCCAGCCGCCCCGGCCAAACCGCCCGTGGAGTCAACCGTGGTTTCTGCGGTGGCGGCCGGGGTGCATCAGGCAACGGCTGCCAGCGGCGGCTCAGCGGCCGCGACGACGGCGACCGCCGCGTCCGCAGCGACGGCGCCATTGTTCAGCCCGGCCTCCAGCGGACCGCGGGTACAGGTGAAAGAGGGCATTGGTCCAAAACTACCGCGGCCTAATCGTGTTCGCGTCCCGACGCGTCGGGAACTGGCCTCCTACGGCATCAAGCTACCGTCGCAGCGTGAAGCAGAACAGCGCGCGCGGCAGGCAGAGCGAGACCCCCATTATGATGATGGGCTGATCTCTGATGAGGAAGCGGATGCTATGGAGCAGGATGAACTGGCTCGCCAGTTCGTCGCCACTCAACAGCAGCGCTATGGCCATCGCTGGGAAGACGATAACGCGACTGATGACGATGATGCCGACGCCGCGGCGGAAGCGGAGCTGGCGCGCCAGTTTGCCGCCACCCAGCAGCAGCGCTACGCCTCCGAGCAGCCGCCGGGCGCCAATCCGTTCTCGCCGGCGGATTACGAATTCTCGCCGATGAAAACTCTGGTCAATGAGGGGCCGAGCGAGCCGCTGTTTACGCCGACACCTGAAGTACAGCCGCAGCAGCCAGCCCAGCACTATCAACAACCGGCCGCCGCTCCGCAGCAGGGTTATCAACCTGCGCAGCACCAGCCGGTACATCATCAGCCAGTGCCGCCGCAGCCTTACCAGACTGCGCCGCAGTCCGTGCCGCAGCACCAACCGGTTACCCCGCAGGGGCATCAGCCTGCCGCGCCTGCGCCGCAGGAGAGCCTGATCCACCCGCTGCTGATGCGCAATGGCGATAGTCGACCGCTGCAAAAGCCGACGACGCCGCTGCCGTCGCTGGATCTGCTTACGCCGCCGCCCAGTGAAGTCGAGCCGGTGGATACCTTTGCTCTCGAGCAGATGGCACGACTGGTGGAAGCGCGACTCGCCGATTTCCGCATTAAAGCGGATGTGGTGAACTACTCGCCGGGGCCGGTGATCACCCGCTTCGAACTGAATCTGGCGCCTGGCGTCAAAGCGGCGCGAATCTCTAACCTGTCACGGGATCTGGCGCGTTCGCTGTCCACGGTCGCCGTGCGCGTGGTGGAGGTGATCCCGGGTAAACCGTATGTCGGGCTTGAGCTGCCGAATAAAAAGCGCCAGACCGTCTACCTGCGTGAAGTGCTCGACAACAGCAAGTTCCGTGATAACCCGTCGCCGCTGACCGTGGTGCTGGGTAAAGACATCGCCGGCGATCCGGTGGTGGCCGATCTGGCGAAAATGCCGCACCTGCTGGTGGCCGGTACCACCGGTTCCGGTAAGTCGGTCGGCGTCAACGCCATGATCCTCAGCATGCTCTACAAGGCGCAGCCGGAAGATGTGCGTTTCATCATGATCGACCCGAAAATGCTGGAGCTGTCGGTCTACGAAGGTATTCCGCACCTGCTGACGGAAGTGGTTACCGACATGAAAGACGCCGCCAATGCGCTGCGCTGGAGCGTCAACGAGATGGAGCGTCGCTACAAGCTGATGTCGGCGCTGGGCGTGCGTAACCTGGCGGGCTATAACGAGAAGATTGCAGAAGCGGCGCGCATGGGGCGTCCGATCCCGGATCCGTACTGGAAGCCAGGCGACAGTATGGACGCCGTGCACCCGGTACTGGAAAAGCTGCCGTACATTGTGGTGCTGGTGGACGAATTCGCCGACCTGATGATGACCGTCGGTAAGAAGGTGGAAGAGCTGATCGCTCGCCTGGCGCAGAAAGCGCGTGCGGCGGGGATCCACCTGGTGCTGGCGACGCAGCGTCCGTCGGTGGATGTCATTACCGGTCTGATTAAGGCCAACATTCCGACGCGCATCGCTTTTACCGTGTCGAGCAAAATTGACTCGCGTACCATTCTGGATCAGGGCGGTGCGGAATCGCTGCTCGGGATGGGGGACATGCTCTACTCCGGGCCGAACTCCACCACGCCGGTGCGCGTCCATGGGGCGTTTGTTCGCGACCAGGAAGTCCACGCCGTGGTTCAGGACTGGAAAGCCCGCGGTCGTCCGCAGTATGTAGACGGCATTACCTCCGACAGCGAAAGCGAAGGCGGCGGCGGTGGCTTCGACGGTGGTGAAGAGCTGGATCCGCTGTTCGATCAGGCGGTCAGCTTTGTGACCGAGAAGCGTAAAGCGTCGATTTCCGGGGTGCAGCGCCAGTTCCGCATCGGCTATAACCGTGCCGCGCGTATTATCGAACAGATGGAAGCGCAGGGCATTGTCAGCGAGCAGGGCCATAACGGTAACCGCGAAGTACTGGCGCCGCCGCCCTTTGAATGA	MSQEYTEDKEVKLTKLSSGRRLLEAMLILCSLFAIWLMAALLSFNPSDPSWSQTAWHEPIHNLGGAPGAWLADTLFFIFGVMAYTIPVIIIGGCWFAWRHQENDEYIDYFAVSLRLIGALALILTSCGLAAINADDIWYFASGGVIGSLLSTTLQPLLHSSGGTIALLCIWAAGLTLFTGWSWVSIAEKLGGGILSVLTFASNRTRRDDTWVDEGEYEDDDEEYDDEEAATPQESRRARILRSALARRKRLAEKFTNPMGRKTDAALFSGKRMDDGEEAVQYSASGAPVAADDVLFSGASAARPAENDVLFSGASAARPGDFDPYDPLLNGHSIAEPVGAAAAATAAPQAWGESTAGHQGAAPAYQPEASYPPQQAYQPEPAPFQQAAYQPPAGQPAPQAYQPEPAQYQQPVYDPHAGQQPAPQGYQPEHAPHQQPVYDPYAGQQPAPQGYQPEPAQYQQPVYDPYAGQQPAPQGYQPEPAQYQQPVYDPYAGQQPAPQGHQSEPAQYQQPVYDPHAGQPAPQGYQPEPAQYQQPVYDPYAGQTAPQGYQPETAPYQQPSYDPHAGQPAPQAYQPEPAPVPAAQPESEAVQEEVKRPPLYYFEEVEEKRARERELLASWYQPIPEPESPIATKPLTPPAAPAKPPVESTVVSAVAAGVHQATAASGGSAAATTATAASAATAPLFSPASSGPRVQVKEGIGPKLPRPNRVRVPTRRELASYGIKLPSQREAEQRARQAERDPHYDDGLISDEEADAMEQDELARQFVATQQQRYGHRWEDDNATDDDDADAAAEAELARQFAATQQQRYASEQPPGANPFSPADYEFSPMKTLVNEGPSEPLFTPTPEVQPQQPAQHYQQPAAAPQQGYQPAQHQPVHHQPVPPQPYQTAPQSVPQHQPVTPQGHQPAAPAPQESLIHPLLMRNGDSRPLQKPTTPLPSLDLLTPPPSEVEPVDTFALEQMARLVEARLADFRIKADVVNYSPGPVITRFELNLAPGVKAARISNLSRDLARSLSTVAVRVVEVIPGKPYVGLELPNKKRQTVYLREVLDNSKFRDNPSPLTVVLGKDIAGDPVVADLAKMPHLLVAGTTGSGKSVGVNAMILSMLYKAQPEDVRFIMIDPKMLELSVYEGIPHLLTEVVTDMKDAANALRWSVNEMERRYKLMSALGVRNLAGYNEKIAEAARMGRPIPDPYWKPGDSMDAVHPVLEKLPYIVVLVDEFADLMMTVGKKVEELIARLAQKARAAGIHLVLATQRPSVDVITGLIKANIPTRIAFTVSSKIDSRTILDQGGAESLLGMGDMLYSGPNSTTPVRVHGAFVRDQEVHAVVQDWKARGRPQYVDGITSDSESEGGGGGFDGGEELDPLFDQAVSFVTEKRKASISGVQRQFRIGYNRAARIIEQMEAQGIVSEQGHNGNREVLAPPPFE	PGPT0030468_604	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
BMS020_02295	612	lolA_1	COG2834	Outer-membrane lipoprotein carrier protein	ATGAAAAAACTCGCAATCACCTGTGCATTACTGTCTGGTATGGTCGTCAGCCAGGTCTGGGCAGATGCGGCCAGTGACTTAAAAAGCCGTCTTGATAAAGTGAGCAGCTTCCATGCCAGCTTCACGCAAAAAGTCACCGACGGCAGCGGCAACGCCGTGCAGGACGGACAGGGCGACCTGTGGGTAAAACGCCCGAATCTGTTTAACTGGCATATGACCCAGCCGGATGAGAGCGTCCTCGTTTCGGATGGTAAAACCCTGTGGTTCTATAACCCGTTCGTCGAGCAGGCCACGGCGACCTGGCTGAAAGACGCGACCAGCAACACGCCGTTTATGCTGATTGCCCGCAACCAGTCCAGCGACTGGCAGCAGTACAATATCAAACAAAACGGCGATGATTTTGTGCTGACGCCGAAAAGCGGCAGCGGCAACCTGAAGCAGTTCACGATCAACGTCGGTCGGGACGGCACCATCCATCAGTTCAGCGCCGTCGAGCAGGATGATCAGCGCAGCAGCTATCAGCTGAAATCGCAGCAGAACGGCGCCGTCGACGCATCTAAGTTCACCTTTACGCCGCCGAAAGGGGTGACGGTGGACGATCAACGTAAGTAG	MKKLAITCALLSGMVVSQVWADAASDLKSRLDKVSSFHASFTQKVTDGSGNAVQDGQGDLWVKRPNLFNWHMTQPDESVLVSDGKTLWFYNPFVEQATATWLKDATSNTPFMLIARNQSSDWQQYNIKQNGDDFVLTPKSGSGNLKQFTINVGRDGTIHQFSAVEQDDQRSSYQLKSQQNGAVDASKFTFTPPKGVTVDDQRK	PGPT0024475_1235	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024475-lolA-K03634	NA	NA
BMS020_02296	1344	rarA_1	COG2256	Replication-associated recombination protein A	GTGAGCAATCTGTCGCTCGATTTTTCCGACAACGCGTTTCAACCTCTGGCCGCTCGCATGCGGCCAGAAAATTTAGCGCAGTATATTGGCCAGCAGCACCTGCTGGCGCCGGGCAAACCCCTGCCGCGGGCGATCGAAGCCGGGCACCTGCATTCGATGATCCTCTGGGGGCCGCCGGGCACCGGCAAGACTACCCTGGCGGAAGTGATCGCCCGCTATGCCAGCGCCGATGTCGAACGGATCTCGGCGGTGACCTCCGGGGTGAAAGAGATCCGCGAGGCCATTGAGCGCGCGCGGCAGAATCGCAACGCCGGCCGACGAACGATTCTGTTTGTTGACGAAGTGCATCGCTTCAATAAAAGCCAGCAGGATGCCTTTCTGCCGCATATTGAAGATGGCACCATCACCTTTATTGGCGCGACCACCGAAAATCCCTCCTTTGAGCTTAACTCGGCGCTGCTCTCCCGCGCCCGCGTCTACTTACTGAAATCGCTCACCACCGACGATATCGAGCAGGTGCTTGACCAGGCGATGCACGATAAAACCCGCGGCTACGGCGGCCAGGATATCGTTTTGCCGGATGAGACCCGCAGGGCCATCGCCGAACTGGTGAACGGCGATGCGCGGCGGGCGCTGAATACCCTGGAAATGATGGCCGATATGGCCGAGAGCGATGATGCGGGCAAGCGGGTGCTGAAGGCGGAACTGCTGACCGAGATCGCCGGCGAGCGCAGCGCGCGCTTTGATAATAAAGGCGACCGTTTCTACGATTTGATTTCCGCCCTGCATAAGTCAGTGCGCGGGAGCGCGCCGGACGCGGCGCTCTACTGGTACGCGCGGATCATCACCGCCGGGGGCGATCCGCTGTACGTTGCCCGCCGTTGTCTGGCGATTGCCTCGGAAGACGTCGGCAACGCCGACCCGCGGGCGATGCAGGTGGCCATTTCGGCGTGGGACTGCTTTACCCGCGTCGGGCCGGCGGAAGGCGAACGGGCGATTGCCCAGGCCATTGTCTATCTGGCCTGCGCGCCGAAGAGCAATGCGGTCTACACCGCCTTTAAAGCGGCGCTGGCCGACGCGCGAGACCGTCCGGACTATGACGTTCCGGTGCATCTGCGCAATGCCCCGACGAAGCTGATGAAAGAGATGGGGTACGGGCAGGAGTATCGTTACGCTCATGACGAACCTAACGCCTACGCCGCCGGTGAGCAGTACTTCCCGCAGGAAATGGCGCAAACGCGCTATTATCGCCCGACAAACCGGGGGCTTGAGGGCAAAATTGGCGAAAAGCTCGCCTGGCTCGCTGAACAGGATCAAAATAGCCCGATAAAACGCTACCGCTAA	MSNLSLDFSDNAFQPLAARMRPENLAQYIGQQHLLAPGKPLPRAIEAGHLHSMILWGPPGTGKTTLAEVIARYASADVERISAVTSGVKEIREAIERARQNRNAGRRTILFVDEVHRFNKSQQDAFLPHIEDGTITFIGATTENPSFELNSALLSRARVYLLKSLTTDDIEQVLDQAMHDKTRGYGGQDIVLPDETRRAIAELVNGDARRALNTLEMMADMAESDDAGKRVLKAELLTEIAGERSARFDNKGDRFYDLISALHKSVRGSAPDAALYWYARIITAGGDPLYVARRCLAIASEDVGNADPRAMQVAISAWDCFTRVGPAEGERAIAQAIVYLACAPKSNAVYTAFKAALADARDRPDYDVPVHLRNAPTKLMKEMGYGQEYRYAHDEPNAYAAGEQYFPQEMAQTRYYRPTNRGLEGKIGEKLAWLAEQDQNSPIKRYR				NA	NA	NA	NA	NA
BMS020_02297	1293	serS_1	COG0172	Serine--tRNA ligase	ATGCTCGATCCCAATCTGCTGCGTACCGAGCCAGACGCAGTCGCAGAAAAACTGGCACGCCGGGGCTTTAAGCTGGATGTAGATAAACTTCGCGCGCTTGAAGAGCGTCGTAAAGTTCTGCAGGTGCAAACGGAAAACCTGCAGGCGGAGCGCAACTCCCGATCGAAATCCATTGGCCAGGCGAAAGCGCGCGGGGAAGACATCGAGCCATTACGCCTGGAAGTGAACAAACTCGGCGAACAGCTGGATGCCGCAAAATCCGAGCTGGAAGCGCTGCTGGCGGAAATCCGCGATATCGCGCTGGCGATCCCGAATATTCCTCACGATGACGTGCCGGTTGGCCGTGACGAAAACGACAACGTTGAAGTCAGCCGCTGGGGCACGCCGCGCCAGTTCGATTTCGACGTGCGCGATCACGTGACGCTGGGTGAAATGCACGGGGGGCTGGATTTTGCCGCCGCCGTTAAGCTCACCGGTTCGCGCTTCGTGGTGATGAAAGGCCAGCTGGCCCGTCTGCACCGCGCCCTGGCGCAGTTCATGCTGGATCTGCACACTGAACAGCATGGCTATAGCGAAAACTATGTCCCGTACCTGGTTAACCAGGACACCCTGTATGGCACCGGTCAGCTGCCGAAATTCGCCGGCGACCTGTTCCATACCCGTCCGCTGGAAGAAGAGGCTGACAGCAGCAACTACGCGCTGATCCCGACGGCGGAAGTGCCGCTGACCAACCTGGTGCGTGATGAAATTATCGATGAAGACGATCTGCCGATAAAAATGACCGCCCATACGCCGTGCTTCCGTTCCGAAGCAGGTTCTTATGGTCGCGACACCCGCGGTCTGATCCGTATGCACCAGTTCGATAAAGTTGAAATGGTGCAGATTGTCCGTCCGGAAGACTCGATGGCGGCGCTGGAAGAGATGACCGGCCACGCCGAGAAAGTGCTGCAGCTGCTGGGCCTGCCTTACCGTAAGGTCGCGCTGTGCACCGGCGATATGGGCTTCAGCGCCTGCAAAACCTATGACCTCGAAGTGTGGGTCCCGGCGCAGAACACCTACCGTGAGATCTCTTCCTGCTCCAACGTCTGGGATTTCCAGGCGCGTCGTATGCAGGCTCGCTGCCGCAGCAAGTCCGACAAGAAGACCCGTCTCGTTCATACCCTGAATGGTTCTGGCCTGGCGGTCGGTCGTACCCTGGTGGCGCTGATGGAAAACTATCAGCAGGCTGATGGCCGTATCGAGATCCCGGAAATCCTGCGCCCGTATATGCGCGGCCTCGAATATATCGGTTAA	MLDPNLLRTEPDAVAEKLARRGFKLDVDKLRALEERRKVLQVQTENLQAERNSRSKSIGQAKARGEDIEPLRLEVNKLGEQLDAAKSELEALLAEIRDIALAIPNIPHDDVPVGRDENDNVEVSRWGTPRQFDFDVRDHVTLGEMHGGLDFAAAVKLTGSRFVVMKGQLARLHRALAQFMLDLHTEQHGYSENYVPYLVNQDTLYGTGQLPKFAGDLFHTRPLEEEADSSNYALIPTAEVPLTNLVRDEIIDEDDLPIKMTAHTPCFRSEAGSYGRDTRGLIRMHQFDKVEMVQIVRPEDSMAALEEMTGHAEKVLQLLGLPYRKVALCTGDMGFSACKTYDLEVWVPAQNTYREISSCSNVWDFQARRMQARCRSKSDKKTRLVHTLNGSGLAVGRTLVALMENYQQADGRIEIPEILRPYMRGLEYIG				NA	NA	NA	NA	NA
BMS020_02299	2439	dmsA_1	COG0243	Dimethyl sulfoxide reductase DmsA	ATGAAAATTAAAGCCCCCGATGCTTTACTGGCTGCTGAGGTAAGCCGCCGTGGTCTAATGAAAACCACGGCAATAGGCGGCCTGGCGCTGGCCAGCAACGCACTAACGTTACCCTTTTCCCGTATGGCCCACGCCGCCGACACGCCAGCCCCGGCCAGTGAGAAGGTGGTCTGGAGCGCCTGCACCGTCAACTGCGGTAGCCGCTGCCCGCTGCGCATGCACGTGGTGGATGGCGCGATTCAATACGTCGAAACCGATAATACCGGTGACGATAACTATGACGGCCTGCATCAGGTGCGCGCCTGCCTGCGCGGGCGGTCTATGCGCCGCCGGGTTTATAACCCCGATCGGCTGAAATATCCGATGAAGCGCGTAGGCAAACGCGGTGAGGGTAAATTCGAGCAAATCAGCTGGGAAGAGGCGTTCGATATCATCGCCAGCACGACGCAGCGCCTGATTAAAGACTACGGCAACGAGTCCATCTATCTGAACTACGGCACCGGCACGCTGGGAGGCACGCTGACCCGCTCCTGGCCGCCGGGGAAAACCCTGATTGCCCGTCTGATGAACTGCTGCGGTGGGTATCTCAATCATTACGGCGACTATTCATCCGCGCAGATTGCCGCAGGGTTGAATTACACCTACGGCGGCTGGGCGGATGGCAACAGCCCGTCGGATATTGAAAACAGCCAGTTAGTGGTGCTGTTCGGCAACAACCCTGGCGAAACGCGGATGAGCGGCGGCGGGGTGACCTACTATCTTGAGCAGGCGCGCCAGAAATCCAATGCCCGGATGATCATTATCGATCCGCGCTATACCGACACCGGCGCCGGACGCGAAGATGAATGGATCCCGATTCGCCCCGGTACCGATGCGGCGCTGGTATCGGGTCTGGCGTGGGTGATGATCACCGAGAATCTGGTCGATCAGCCGTTCCTCGATAAATACTGTGTGGGATACGACGAGAAAACTCTGCCTGCCGATGCCCCGGCCAATGGCCACTATAAAGCCTGGATACTTGGCCAGGGCGCCGACGGTATCGCCAAAACGCCGGAGTGGGCCTCGACCATAACCGGTATTCCGCGCGAACGCATTGTTAAACTGGCGCGCGAAATTGCCAGCGCCAAACCGGCCTATATCAGCCAGGGCTGGGGGCCGCAGCGTCACGCCAACGGCGAAATCGCCACCCGGGCTATCGCGATGCTCGCCATTCTGACCGGTAACGTCGGGATCAACGGCGGCAACAGCGGCGCGCGCGAGGGCTCCTACAGCCTGCCGTTTGAGCGCATGCCGACGCTGGAGAATCCGGTTCAGACCAGCATCTCAATGTTTATGTGGACCGATGCGATTGAGCGCGGCCCGGAAATGACCGCCCTGCGCGATGGGGTGCGTGGCAAAGATAAGCTCGATGTGCCGATCAAAATGATCTGGAACTATGCGGGCAACTGCCTGATCAACCAGCACTCAGAGATTAACCGCACCCACGAGATCCTGCAGGACGACAAGAAGTGCGAGATGATTGTGGTCATCGACTGCCATATGACCTCGTCAGCGAAATACGCCGATATTCTGCTGCCGGACTGCACCGCCTCTGAGCAGATGGATTTCGCGCTGGATGCTTCCTGCGGCAACATGTCCTACGTCATCTTTGCCGACCAGGCCATCAAGCCGCGTTTCGAATGCAAAACTATCTATGAGATGACCAGCGAGCTGGCGAAGCGCCTCGGCGTCGAGGAAAAATTTACCGAAGGCCGTACCCAGGAAGGCTGGATGCGCTATCTGTATGAGCAGTCGCGCACAGCGATTCCCGACCTGCCGGATTTCGACACCTTCCGTCAGCAGGGCATCTATAAGCAGCGCGATCCGCAAGGGCACCATGTGGCTTATAAAGCCTTCCGTGAGGATCCGCAGGCTAATCCGCTGACCACGCCTTCGGGCAAGATTGAAATCTATTCGCAGGCGCTGGCGAAAATCGCCGCCACCTGGGAGCTGCCGGAAGGCGATGTCATCGATCCGCTGCCGATCTACACCCCGGGCTTCGAAAACTACAACGATCCGCTGACGGCGAAATACCCGCTACAGCTGACCGGCTTCCACTATAAATCGCGCGTCCACTCAACCTACGGCAACGTCGATGTACTGAAAGCTGCCTGTCGGCAGGAGATGTGGATTAACCCGATCGATGCCCGCCAGCGCGGCATTGCCAACGGCGATCGCATTCGCATCTTCAACGACCGTGGGGAAGTGCATATCGAAGCGAAGGTGACCCCGCGCATGATGCCGGGCGTGGTCGCGCTGGGGGAAGGGGCCTGGTATAACCCGGACGCCTCGCGCGTGGATCAGGCGGGCAGCATTAACGTGCTGACCACCCAGCGCCCCTCGCCGCTGGCGAAGGGGAACCCGTCGCATACCAACCTCGTCCAGGTTGAGAAGCTGTAA	MKIKAPDALLAAEVSRRGLMKTTAIGGLALASNALTLPFSRMAHAADTPAPASEKVVWSACTVNCGSRCPLRMHVVDGAIQYVETDNTGDDNYDGLHQVRACLRGRSMRRRVYNPDRLKYPMKRVGKRGEGKFEQISWEEAFDIIASTTQRLIKDYGNESIYLNYGTGTLGGTLTRSWPPGKTLIARLMNCCGGYLNHYGDYSSAQIAAGLNYTYGGWADGNSPSDIENSQLVVLFGNNPGETRMSGGGVTYYLEQARQKSNARMIIIDPRYTDTGAGREDEWIPIRPGTDAALVSGLAWVMITENLVDQPFLDKYCVGYDEKTLPADAPANGHYKAWILGQGADGIAKTPEWASTITGIPRERIVKLAREIASAKPAYISQGWGPQRHANGEIATRAIAMLAILTGNVGINGGNSGAREGSYSLPFERMPTLENPVQTSISMFMWTDAIERGPEMTALRDGVRGKDKLDVPIKMIWNYAGNCLINQHSEINRTHEILQDDKKCEMIVVIDCHMTSSAKYADILLPDCTASEQMDFALDASCGNMSYVIFADQAIKPRFECKTIYEMTSELAKRLGVEEKFTEGRTQEGWMRYLYEQSRTAIPDLPDFDTFRQQGIYKQRDPQGHHVAYKAFREDPQANPLTTPSGKIEIYSQALAKIAATWELPEGDVIDPLPIYTPGFENYNDPLTAKYPLQLTGFHYKSRVHSTYGNVDVLKAACRQEMWINPIDARQRGIANGDRIRIFNDRGEVHIEAKVTPRMMPGVVALGEGAWYNPDASRVDQAGSINVLTTQRPSPLAKGNPSHTNLVQVEKL	PGPT0002860_356	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-DMSO|TMAO_DEGRADATION,PGPT0002860-dmsA-K07306	NA	NA
BMS020_02300	618	dmsB_2	COG0437	Anaerobic dimethyl sulfoxide reductase chain B	ATGACAACTCAGTATGGATTTTTTATTGATTCCGCCCGTTGCACCGGTTGCAAGACCTGCGAACTGGCCTGTAAGGACTACAAAAATCTGACCCCGGATGTCAGCTTCCGCCGCATTTATGAATATGCCGGCGGCGACTGGCAGGAGGATAACGGCGTCTGGAATCAGAACGTGTTCGCCTATTACCTCTCCATCGCCTGTAACCACTGCGAAGATCCGGCCTGCACCAAGGTCTGTCCGAGCGGAGCGATGCACAAACGCGAAGACGGTTTTGTGGTGGTCAACGAAGAGGTGTGCATTGGCTGCCGTTACTGCCATATGGCTTGTCCTTACGGCGCGCCGCAATATAACGCCGACAAAGGCCATATGACCAAGTGTGACGGCTGCCACGAGCGCGTCGCCGACGGGAAAAAGCCGATCTGCGTCGAGTCCTGTCCGCTGCGGGCGCTGGATTTCGGGCCGATTGCCGAACTGCGCGCTAAGCACGGCCAGCTGGCGGCGGTGGCGCCGTTGCCTTCGGCGCACTTTACCCGGCCGAGCATCGTGATCAAACCTAACGCCAATGCCCGGCCGTGTGGCGATACCACCGGTTACCTGGCAAACCCGAAGGAGGTGTAA	MTTQYGFFIDSARCTGCKTCELACKDYKNLTPDVSFRRIYEYAGGDWQEDNGVWNQNVFAYYLSIACNHCEDPACTKVCPSGAMHKREDGFVVVNEEVCIGCRYCHMACPYGAPQYNADKGHMTKCDGCHERVADGKKPICVESCPLRALDFGPIAELRAKHGQLAAVAPLPSAHFTRPSIVIKPNANARPCGDTTGYLANPKEV	PGPT0002870_363	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0002870-dmsB-K07307	NA	NA
BMS020_02301	864	dmsC_2	COG3302	Anaerobic dimethyl sulfoxide reductase chain C	ATGGGAAACGGATGGCATGAATGGCCGCTGATGATCTTTACGGTCTTCGGCCAGTGCGTCGCGGGCGGCTTCATCGTCCTGGCGCTGGCGCTCATGACGGGCAAGCTCTCCCGTGAACAGGAGCAGCGCGTGGTGGGTAGCATGTTCGGCCTGTGGGTATTGATGGGGATCGGGTTTATCGCCTCGACAATGCACCTCGGTTCGCCGCTGCGGGCCTTTAACTCGCTCAATCGCGTAGGGGCCTCATCGCTGAGTAATGAGATAGCCAGCGGGGCGATCTTCTTCGCCGTCGGCGGGATTGGCTGGCTGCTGGCCGTGTGTAAAAAGCTGCCTGCCGGACTGCGTAGCCTGTGGCTGGTAGCGACCATGGCGCTTGGGGTGATCTTCGTCTGGATGATGGTGCGGGTCTATAACACCATCGACACGGTGCCGACCTGGTATACCGTCTGGACGCCGCTGAGCTTCTTCCTGACGCTGTTTATCGGCGGTCCGCTGCTGGGCTACCTGCTGCTGCGCGTCGCAGGCGTCGACGGTTGGGCGCTGCGCCTGCTGCCGGTGGTCACTTTACTGGCGCTGCTGGTGAGTATCGTGGTGGTCCTGATGCAGGGGAGTGAACTCGCCACTATCCGCAGCTCAATTCAGCAGGCCTCCGCCCTGGTGCCGGATTATGGGCTGCTTATGGCCTGGCGCGTGGTGCTGCTGGCGCTGGCCCTGGCCTGCTGGTGCGTGCCGCAGATCCGCGGCCGCAAGCCGGCGGTCTCGCTGCTCGGCCTGGCGTTTGTTCTGGTGCTGGCGGGAGAGATGATTGGCCGCGGCGTATTCTATGGTCTGCATATGACCGTCGGGATGGCTATCGCCAGTTAA	MGNGWHEWPLMIFTVFGQCVAGGFIVLALALMTGKLSREQEQRVVGSMFGLWVLMGIGFIASTMHLGSPLRAFNSLNRVGASSLSNEIASGAIFFAVGGIGWLLAVCKKLPAGLRSLWLVATMALGVIFVWMMVRVYNTIDTVPTWYTVWTPLSFFLTLFIGGPLLGYLLLRVAGVDGWALRLLPVVTLLALLVSIVVVLMQGSELATIRSSIQQASALVPDYGLLMAWRVVLLALALACWCVPQIRGRKPAVSLLGLAFVLVLAGEMIGRGVFYGLHMTVGMAIAS	PGPT0002880_156	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-DMS_DEGRADATION,PGPT0002880-dmsC-K07308	NA	NA
BMS020_02302	1149	ycaD_2		putative MFS-type transporter YcaD	ATGACCATCTACACCCGGCCAGTGCAAATGCTGCTCTGTGGCCTGCTTTTACTGACCCTAGCGATAGCGGTGCTGAATACGCTCGTCCCGCTCTGGCTCGCCCATGAAAATATGCCAACCTGGCAGGTCGGCATGGTGGGGTCATCCTATTTTACCGGCAACCTGGCCGGTACGTTGCTTGCCGGCTGGGTGATCAAGCGCCTGGGGTTTAACCGCAGCTATTATCTCGCGTCGTTAATATTCGCCGTCGGCTGCGTAGGGCTGGGGATCACCGTGGGCTTCTGGACGTGGCTGAGCTGGCGTTTTATCGCCGGCGTAGGCTGCGCGATGATTTGGGTGGTGGTGGAAAGCGCGCTGGTCTGCAGCGGCACTTCACGCAGCCGCGGTCGTCTGCTGGCGGCGTACATGATGGTCTATTACGTCGGTACCGTACTGGGCCAGCTGATGGTCAGTAAACTCCCCACCGATTTAATGAGCGTCCTGCCGTGGGTGACGGGTCTGGCGCTGGCGGCGATCCTGCCGCTGCTGTTTACCCGCATCATGGGGCAGGCCGAAGAGCCGCATGAAACGGTACGTATCTGGCCGATGCTGAAGCTGCGCCAGGCGCGCCACGGGGTCAATGGCTGCATTATCTCAGGAATTGTCCTCGGCTCGCTGTATGGTCTGATGCCGCTGTGGCTGAACCATCAGGGCGTCAGCGACGCCGGCATTGGCTTCTGGATGGCGGTGATGGTTAGCGCCGGGATCCTCGGCCAGTGGCCGGTAGGGCGCCTGGCAGACCGCTACGGTCGCCTGCTGGTGCTGCGGGTGCAGGTTTTTGTGGTGATTCTGGGATGTATGGCGATGCTCAGCCAGGCGGCGATGGCGCCGGCGCTGTTTGTGTTGGGCGCTTCGGGCTTTACCCTCTATCCGGTGGCGATGGCCTGGGCCTGTGAAAAAGTGGAGCACCATCAGCTGGTGGCAATGAACCAGGCGCTGTTGATGAGCTATACCATCGGCAGCCTGCTGGGCCCGACGCTGACGGCGATGCTGATGCAGAACTTCTCGGATAACCTGCTGTTTATTATGATCGCCAGCGTGTCGTTTATCTATCTGCTGACCCTGCTGCGCAAAGCCGGGCATCATCCAACGCCGGTGGCGCACGCCTGA	MTIYTRPVQMLLCGLLLLTLAIAVLNTLVPLWLAHENMPTWQVGMVGSSYFTGNLAGTLLAGWVIKRLGFNRSYYLASLIFAVGCVGLGITVGFWTWLSWRFIAGVGCAMIWVVVESALVCSGTSRSRGRLLAAYMMVYYVGTVLGQLMVSKLPTDLMSVLPWVTGLALAAILPLLFTRIMGQAEEPHETVRIWPMLKLRQARHGVNGCIISGIVLGSLYGLMPLWLNHQGVSDAGIGFWMAVMVSAGILGQWPVGRLADRYGRLLVLRVQVFVVILGCMAMLSQAAMAPALFVLGASGFTLYPVAMAWACEKVEHHQLVAMNQALLMSYTIGSLLGPTLTAMLMQNFSDNLLFIMIASVSFIYLLTLLRKAGHHPTPVAHA	PGPT0014291_276	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLYCEROL_TRANSPORT,PGPT0014291-ycaD-K08219	NA	NA
BMS020_02303	741	pflA	COG1180	Pyruvate formate-lyase 1-activating enzyme	ATGTCAGTTATTGGTCGCATTCACTCCTTTGAATCCTGTGGCACCGTTGATGGCCCGGGCATCCGCTTTATTACCTTTTTCCAGGGCTGCCTGATGCGCTGCCTGTACTGCCATAACCGTGACACCTGGGATACCCACGGCGGCAAAGAAATCACCGTTGAAGAGTTAATGAAAGAGGTAGTGACCTATCGTCACTTTATGAATGCTTCCGGCGGCGGCGTCACCGCATCGGGCGGCGAAGCGATCCTGCAGGCGGAGTTTGTTCGCGACTGGTTCCGCGCCTGTAAGAAGGAAGGTATTCATACCTGTCTCGATACCAATGGCTTTGTTCGTCGCTACGATCCCGTTATCGACGAACTGCTGGAGGTAACAGACCTGGTGATGCTGGATCTCAAGCAGATGAACGATGAAATTCACCAGAACCTGGTCGGCGTCTCTAACCATCGTACGCTGGAATTCGCCCAGTATCTGGCGAAGAAGAATATCAATGTCTGGATCCGCTACGTGGTGGTTCCGGGCTGGTCAGACGATGATGATTCCGCGCACCGCCTGGGCGAATTTACCCGCGATATGGGCAATGTCGAAAAAATCGAGCTGCTGCCCTACCATGAGCTGGGCAAACACAAATGGGTAGCGATGGGCGAAGAGTACAAGCTGGACGGCGTCCATCCGCCGAAGAAAGAGACCATGGAGCGAGTCAAAGGCATCCTTGAGCAATATGGGCACAAAGTGATGTACTAA	MSVIGRIHSFESCGTVDGPGIRFITFFQGCLMRCLYCHNRDTWDTHGGKEITVEELMKEVVTYRHFMNASGGGVTASGGEAILQAEFVRDWFRACKKEGIHTCLDTNGFVRRYDPVIDELLEVTDLVMLDLKQMNDEIHQNLVGVSNHRTLEFAQYLAKKNINVWIRYVVVPGWSDDDDSAHRLGEFTRDMGNVEKIELLPYHELGKHKWVAMGEEYKLDGVHPPKKETMERVKGILEQYGHKVMY				NA	NA	NA	NA	NA
BMS020_02304	2283	pflB	COG1882	Formate acetyltransferase 1	ATGTCCGAGCTTAATGAAAAGTTAGCCACAGCCTGGGAAGGTTTTGCGAAAGGTGACTGGCAGAATGAAGTCAACGTCCGTGACTTTATTCAGAAAAACTACACCCCATATGAAGGCGACGAATCCTTCCTGGCTGGCGCGACTGAAGCGACCACCAAGCTGTGGGACAGCGTAATGGAAGGTGTAAAACAGGAAAACCGCACTCACGCGCCTGTTGATTTTGACACTGCCCTGGCCTCCACCATCACCTCTCACGACGCAGGCTATATCGAGAAAGGTCTGGAAAAAATCGTTGGTCTGCAGACCGAAGCGCCGCTGAAACGTGCGATCATCCCGTTCGGTGGTATTAAAATGGTTGAAGGTTCCTGCAAAGCGTACAATCGCGAGCTGGACCCGATGCTGAAAAAAATCTTCACTGAGTACCGTAAAACTCACAACCAGGGCGTTTTCGACGTCTATACTCCGGACATCCTGCGCTGCCGTAAATCCGGCGTGCTGACCGGTCTGCCGGATGCTTACGGCCGTGGTCGTATCATCGGTGACTACCGTCGCGTTGCGCTGTACGGTATCGACTTCCTGATGAAAGACAAATTCGCCCAGTTCAACTCTCTGCAAGCGAAACTGGAAAGCGGCGAAGATCTGGAAGCGACCATCCGTCTGCGTGAAGAAATCGCTGAACAGCACCGCGCGCTGGGCCAGATCAAAGAGATGGCGGCTAAATATGGCTACGACATCTCCGGTCCGGCGACCACCGCTCAGGAAGCTATCCAGTGGACCTACTTCGGTTACCTGGCTGCCGTTAAATCTCAGAACGGCGCGGCAATGTCCTTCGGTCGTACCTCCAGCTTCCTGGATATCTACATCGAACGTGACCTGCAGGCGGGTAAAATCACCGAGCAAGACGCGCAGGAAATGGTTGACCACCTGGTCATGAAACTGCGTATGGTTCGCTTCCTGCGTACCCCGGAATACGATGAACTGTTCTCCGGTGACCCGATTTGGGCAACAGAATCCATCGGCGGTATGGGCGTTGACGGCCGTACTCTGGTGACCAAAAACAGCTTCCGCTTCCTGAACACCCTGTACACCATGGGGCCGTCTCCGGAGCCGAACATCACTATCCTGTGGTCTGAAAAACTGCCGCTGAGCTTCAAGAAATTCGCTGCTAAAGTGTCCATCGATACCTCTTCTCTGCAGTATGAGAACGATGACCTGATGCGTCCGGACTTCAACAACGACGACTACGCTATCGCATGCTGCGTAAGCCCGATGGTTGTTGGTAAGCAAATGCAGTTCTTCGGTGCTCGCGCCAACCTCGCAAAAACCATGCTGTACGCTATCAACGGCGGCGTGGATGAAAAACTGAAAATGCAGGTGGGTCCGAAATCTGAACCGATCAAAGGCGACGTTCTGAACTTCGACGAAGTGATGGAACGCATGGATCACTTCATGGACTGGCTGGCTAAACAGTACGTCACTGCGCTGAACATCATCCACTACATGCACGACAAGTACAGCTACGAAGCCTCTCTGATGGCGCTGCACGACCGTGACGTTATCCGCACCATGGCGTGTGGTATCGCGGGTCTGTCCGTTGCTGCTGACTCCCTGTCTGCAATCAAATATGCGAAAGTTAAACCGATTCGTGACGAAGACGGTCTGGCTGTCGACTTCGAAATCGAAGGCGAATACCCGCAGTTTGGTAACAACGATGCTCGCGTCGATGACATGGCCGTTGACCTGGTTGAACGTTTCATGAAGAAAATTCAGAAACTGCACACCTACCGCAACGCGATCCCGACTCAGTCTGTTCTGACCATCACCTCTAACGTGGTATATGGTAAGAAAACCGGTAACACCCCAGACGGTCGTCGCGCTGGCGCGCCGTTCGGACCAGGTGCTAACCCGATGCACGGCCGTGACCAGAAAGGTGCTGTTGCCTCTCTGACCTCCGTAGCGAAACTGCCGTTTGCTTACGCGAAAGATGGTATCTCTTACACCTTCTCTATCGTACCGAACGCGCTGGGTAAAGATGACGAAGTTCGTAAGACCAACCTGGCGGGTCTGATGGATGGTTACTTCCACCACGAAGCGTCCATCGAAGGTGGTCAGCACCTGAATGTGAACGTGATGAACCGCGAAATGCTGCTCGACGCGATGGAAAACCCGGAAAAATATCCGCAGCTGACCATCCGCGTATCTGGCTACGCTGTACGTTTTAACTCCCTGACCAAAGAACAGCAGCAGGACGTTATTACCCGTACCTTCACTCAGACCATGTAA	MSELNEKLATAWEGFAKGDWQNEVNVRDFIQKNYTPYEGDESFLAGATEATTKLWDSVMEGVKQENRTHAPVDFDTALASTITSHDAGYIEKGLEKIVGLQTEAPLKRAIIPFGGIKMVEGSCKAYNRELDPMLKKIFTEYRKTHNQGVFDVYTPDILRCRKSGVLTGLPDAYGRGRIIGDYRRVALYGIDFLMKDKFAQFNSLQAKLESGEDLEATIRLREEIAEQHRALGQIKEMAAKYGYDISGPATTAQEAIQWTYFGYLAAVKSQNGAAMSFGRTSSFLDIYIERDLQAGKITEQDAQEMVDHLVMKLRMVRFLRTPEYDELFSGDPIWATESIGGMGVDGRTLVTKNSFRFLNTLYTMGPSPEPNITILWSEKLPLSFKKFAAKVSIDTSSLQYENDDLMRPDFNNDDYAIACCVSPMVVGKQMQFFGARANLAKTMLYAINGGVDEKLKMQVGPKSEPIKGDVLNFDEVMERMDHFMDWLAKQYVTALNIIHYMHDKYSYEASLMALHDRDVIRTMACGIAGLSVAADSLSAIKYAKVKPIRDEDGLAVDFEIEGEYPQFGNNDARVDDMAVDLVERFMKKIQKLHTYRNAIPTQSVLTITSNVVYGKKTGNTPDGRRAGAPFGPGANPMHGRDQKGAVASLTSVAKLPFAYAKDGISYTFSIVPNALGKDDEVRKTNLAGLMDGYFHHEASIEGGQHLNVNVMNREMLLDAMENPEKYPQLTIRVSGYAVRFNSLTKEQQQDVITRTFTQTM	PGPT0001950_441	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0001950-pflD|ybiW|tdcE-K00656	NA	NA
BMS020_02305	858	focA	COG2116	putative formate transporter 1	GTGAAAGCTGACAACCCTTTTGATCTTTTGCTCCCTGCCGCGATGGCGAAAGTCGCCGAAGAAGCAGGTGTCTATAAAGCAACGAAGCATCCGATGAAGACCTTTTATCTGGCGATCACCGCTGGCGTTTTCATCTCCATCGCTTTCGTATTCTATATCACCGCGACCACCGGCACTGCCGCGATGCCTTATGGGATTGCCAAGCTTATCGGTGGGGTCTGTTTTTCCCTGGGTCTGATTCTGTGCATTATCTGCGGCGCTGACCTCTTTACCTCTACGGTATTGATCGTGGTGGCGAAAGCCAGCGGTCGAATTACCTGGGGGCAACTGGCAAAAAACTGGCTCAACGTCTATTTTGGTAACCTGGTGGGCGCACTGCTGTTTGTGCTGCTGATGTGGTTATCAGGCGAATATATGACTGCCAACGGCGGTTGGGGGCTCAATGTCCTGCAGACCGCTGACCACAAAATGCACCATACTTTTGTGGAGGCCGTGAGCCTGGGTATCCTCGCTAACCTGATGGTTTGTCTCGCCGTATGGATGAGCTATTCCGGTCGTAGCCTGATGGATAAAGCGATGATCATGGTCCTGCCGGTAGCGATGTTCGTTGCCAGCGGCTTTGAGCACAGCATCGCCAACATGTTTATGATCCCGATGGGTATCGTAATCCGCAACTTTGCAAGCCCGGAATTCTGGACCGCAATCGGTTCGACTCCGGAAAGTTTCTCTCACTTGACCGTTATGAACTTCATCACTGATAACCTGATTCCGGTAACTATCGGGAACATTATCGGCGGGGGTCTGCTGGTCGGGTTGACATACTGGGTCATTTACCTGCGTGGCAACGACCATCACTAA	MKADNPFDLLLPAAMAKVAEEAGVYKATKHPMKTFYLAITAGVFISIAFVFYITATTGTAAMPYGIAKLIGGVCFSLGLILCIICGADLFTSTVLIVVAKASGRITWGQLAKNWLNVYFGNLVGALLFVLLMWLSGEYMTANGGWGLNVLQTADHKMHHTFVEAVSLGILANLMVCLAVWMSYSGRSLMDKAMIMVLPVAMFVASGFEHSIANMFMIPMGIVIRNFASPEFWTAIGSTPESFSHLTVMNFITDNLIPVTIGNIIGGGLLVGLTYWVIYLRGNDHH	PGPT0017225_277	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_FORMATE_TRANSPORT,PGPT0017225-focA-K06212	NA	NA
BMS020_02306	1761	ycaO	COG1944	Ribosomal protein S12 methylthiotransferase accessory factor YcaO	ATGACCCAAACGTTTATTCCCGGCAAAGATGCCGCCCTGGAAGATTCCATCGCTCGCTTCCAGCAAAAATTGCTCGACCTCGGATTTGATATCGAAGAGGCCTCGTGGCTGAACCCGGTGCCGCACGTGTGGTCCGTTCACATTCGCGATAAGGAATGCGCGCTGTGCTTTACCAATGGTAAAGGCGCCACCAAAAAGGCAGCCCTCGCCTCCGCGCTGGGCGAATATTTCGAGCGCCTGTCCACCAACTATTTTTTCGCTGACTTCTGGTTAGGCGACACTATCGCTAACGGCCCGTTCGTTCACTACCCGAACGAAAAGTGGTTCCCGCTGACCGAAAACGACGACGTCCCGGAAGGTCTGCTGGATGCCCGCCTGCTCACGTTCTACGATCCGGACGATCAGCTGACGGCCAGCATGCTGGTAGATCTGCAATCCGGTAACGATGAGCGCGGCGTGTGCGGCCTGCCCTTTACCCGCCAGTCCGACGGCGAAACGGTCTATATTCCTATGAATATCGTCGGCAACCTGTATGTCTCCAACGGCATGTCCGCCGGCAACACCCGTAATGAAGCTCGCGTGCAGGGCCTGTCCGAAGTCTTTGAGCGCCATATCAAAAACCGCATCATCGCCGAAAGCATCAGCCTGCCGGAGATCCCGGCGGAGGTCATGGCGCGCTATCCGGGCGTTGTGGAGTCGATCGCCAAACTGGAAGCCGAAGGTTTCCCGATCTTTGCCTATGATGGCTCGCTGGGCGGCAAGTATCCGGTTATCTGCGTCGTGCTGTTTAACCCGGCAAACGGCACCTGCTTCGCCTCTTTCGGCGCCCATCCGGACTTCGGCGTGGCGCTGGAGCGTACGGTCACCGAACTGCTGCAGGGCCGCAGCCTGAAAGATCTCGACGTCTTCACGCCGCCGACCTTCGACGACGAAGAAGTCGCCGAGCATGCTAACCTCGAAACCCACTTTATCGACTCCAGCGGCCTGATTTCCTGGGATATGTTCAAGCAGGATGCCGACTATCCGTTCGTTGACTGGAGCTTCTCCGGCACCACAGAAGAAGAGTTCGCCACCCTGATGGCCATCTTCAAGGCCGAAGATAAAGAAGTGTATATCGCCGACTACGAGCACCTGGGCGTTTACGCCTGCCGTATCATCGTCCCGGGGATGTCGGATATTTACCCGGCGGAAGATCTGTGGCTGGCGAACAACAGCATGGGCGCTCATCTGCGCGACACCATTCTGTCCCTGCCGGGCAGCGAGTGGGAAAAAGAAGATTACCTGGCGCTGATCGAGCAGATGGACGATGAAGGCCTGGATGATTTCACCCGCGTTCGCGAACTGCTGGGCCTCGCCACCGGCAAAGACAACGGCTGGTATACCCTGCGCGTCGGCGAGCTGAAAGCCATGCTGGCCCTGGCCGGCGGCGATCTGGAGCAGGCGCTGATCTGGACCGAGTGGACCATGGAGTTCAACGCTTCGGTCTTCAGCGCGGAACGCGCTAACTACTATCGCTGCCTGCAGACCCTGCTGCTGCTGAGCCAGGAAGAGGAGCGTCAGCCGTTGCAATACCTGAACGCCTTTATCCGTATGTACGGCGCCGAAGCGGTCGAAGCCGCCAGCGCGGCGCTGAGCGGGGAAGCGCCGTTCTATGGCCTTCAGGCTGTCGACAGCGATCTGCAGGCCTTCCCGGCCCATCAGTCGCTGCTGAAGGCTTATGAAAAACTGCAGCGAGCGAAGGCGGCGTTCTGGGCAAAATAA	MTQTFIPGKDAALEDSIARFQQKLLDLGFDIEEASWLNPVPHVWSVHIRDKECALCFTNGKGATKKAALASALGEYFERLSTNYFFADFWLGDTIANGPFVHYPNEKWFPLTENDDVPEGLLDARLLTFYDPDDQLTASMLVDLQSGNDERGVCGLPFTRQSDGETVYIPMNIVGNLYVSNGMSAGNTRNEARVQGLSEVFERHIKNRIIAESISLPEIPAEVMARYPGVVESIAKLEAEGFPIFAYDGSLGGKYPVICVVLFNPANGTCFASFGAHPDFGVALERTVTELLQGRSLKDLDVFTPPTFDDEEVAEHANLETHFIDSSGLISWDMFKQDADYPFVDWSFSGTTEEEFATLMAIFKAEDKEVYIADYEHLGVYACRIIVPGMSDIYPAEDLWLANNSMGAHLRDTILSLPGSEWEKEDYLALIEQMDDEGLDDFTRVRELLGLATGKDNGWYTLRVGELKAMLALAGGDLEQALIWTEWTMEFNASVFSAERANYYRCLQTLLLLSQEEERQPLQYLNAFIRMYGAEAVEAASAALSGEAPFYGLQAVDSDLQAFPAHQSLLKAYEKLQRAKAAFWAK				NA	NA	NA	NA	NA
BMS020_02307	693			hypothetical protein	ATGAAAGCCTTTGACTGGCAGAGGATGGCGCTCGATAAAGTGCCGGTGGAATTTCTCGGCGAGGTGGCGTTGCGCAGCCTCTACACCTTCGTTCTGGTCTTTATTTTCCTCAAAATTACCGGACGGCGCGGCGTGCGGCAGATGTCGCTGTTTGAAGTGCTGATTATTCTGACCCTCGGCTCGGCGGCGGGGGACGTGGCGTTTTATGACGATGTTCCGCTGTTGCCGGTGCTGGTGGTCTTCGTCACGCTGGCGCTGCTTTATCGCGGCATCATGTGGCTGATGGGGCATAGTGAAAAGCTGGAGGATCTGCTGGAGGGCAAGCCTATCGTGGTGGTGGAGGAGGGGCAACTGGCATGGGAGAAACTGCATGCGGAAAATATGACCGAATTCGAATTTTTTATGGAGCTACGGGTCAACAGCGTCGAGCAGCTCGGCCAGGTGCGGCTGGCGATCCTTGAAACCAATGGCCAGATCAGCGTGTTTTATTATCCCGATGACGAAGTGAGGGCCGGGTTGTCGATTCTCCCGACGCACTGCACCACGCGCTATACCACTATTCCTCAGGAGGGGATCTACGCCTGCGTACGCTGCAGCATTGTGATGGCGATGCAGGCGGGAGAAAAGCGAATATGTTCCCGCTGCGCAAATGCAGAATGGTCGAAGGCCAGCCGGGCGAAACGACTCACCTGA	MKAFDWQRMALDKVPVEFLGEVALRSLYTFVLVFIFLKITGRRGVRQMSLFEVLIILTLGSAAGDVAFYDDVPLLPVLVVFVTLALLYRGIMWLMGHSEKLEDLLEGKPIVVVEEGQLAWEKLHAENMTEFEFFMELRVNSVEQLGQVRLAILETNGQISVFYYPDDEVRAGLSILPTHCTTRYTTIPQEGIYACVRCSIVMAMQAGEKRICSRCANAEWSKASRAKRLT				NA	NA	NA	NA	NA
BMS020_02308	1089	serC_1	COG1932	Phosphoserine aminotransferase	ATGGCTCAGGTCTATAACTTCAGTTCGGGCCCGGCAATGCTGCCGGCGGAAGTACTCAAACTGGCTCAGCAGGAACTGTGCGACTGGCACGGTCTGGGTACGTCGGTCATGGAAATCAGTCACCGTGGTAAGGAGTTCATCCAGGTGGCAGAAGAGGCAGAACAGGACTTCCGTTCTCTGCTGAATATCCCTTCCAACTATAAAGTGTTGTTCTGTCATGGCGGCGGCCGCGGCCAGTTCGCCGGGATCCCGCTGAACATCCTCGGCGATAAAAACGTCGCTGACTATGTGGACGCTGGCTACTGGGCCGCCAGCGCGGTCAAAGAGGCGAAGAAATACTGCACGCCTAACGTCATCGACGCGAAAATCACCGTCGACGGCAAGCGCGCGGTCAAGCCAATGAGCGAGTGGCAGCTGACGCCGGGCGCGGCGTATCTGCACTACTGCCCGAACGAAACCATTGACGGTATCGCGATTGACGATACGCCGAACTTCGGCGACGACGTCATCGTGACCGCCGATTTCTCCTCCACCATTCTGTCCCGCGAAATTGACGTCAACCGCTTCGGCGTGATCTATGCCGGCGCGCAGAAAAATATCGGCCCGGCAGGGTTGACGCTGGTCATCGTGCGTGAAGATCTGCTGGGTAAAGCCAGCGTGGCCTGCCCGTCAATCCTCGACTACACCGTGTTAAGCGAGAATGACTCGATGTTTAACACGCCGCCGACGTTTGCCTGGTATCTGGCCGGTCTGGTGTTTAAGTGGCTGAAACAGCAGGGCGGCGTTGCCGCGATGGACAAGATCAACCAGCAGAAAGCCGAACTGCTGTATGGCGTGATCGATAACAGCGGCTTCTATCGTAACGATGTGGCGCAAGCCAACCGCTCCCGTATGAACGTGCCGTTCCAGCTGGCGGACAGCGCGCTGGATAAACTGTTCCTTGAAGAGTCGTTTGCCGCCGGGCTGCACGCGCTTAAGGGCCACCGGGTGGTGGGCGGCATGCGTGCCTCCATCTACAACGCGATGCCGTTGGACGGCGTTAAGGCGTTAACCGACTTTATGCTGGACTTCGAACGCCGCCACGGTTAA	MAQVYNFSSGPAMLPAEVLKLAQQELCDWHGLGTSVMEISHRGKEFIQVAEEAEQDFRSLLNIPSNYKVLFCHGGGRGQFAGIPLNILGDKNVADYVDAGYWAASAVKEAKKYCTPNVIDAKITVDGKRAVKPMSEWQLTPGAAYLHYCPNETIDGIAIDDTPNFGDDVIVTADFSSTILSREIDVNRFGVIYAGAQKNIGPAGLTLVIVREDLLGKASVACPSILDYTVLSENDSMFNTPPTFAWYLAGLVFKWLKQQGGVAAMDKINQQKAELLYGVIDNSGFYRNDVAQANRSRMNVPFQLADSALDKLFLEESFAAGLHALKGHRVVGGMRASIYNAMPLDGVKALTDFMLDFERRHG	PGPT0009160_2868	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
BMS020_02309	1284	aroA_1	COG0128	3-phosphoshikimate 1-carboxyvinyltransferase	ATGGATTCCCTGACGTTACAACCCATCGCACGCGTAGAGGGCACCGTGAACCTGCCAGGTTCGAAAAGCGTCTCCAACCGCGCGCTGCTGCTGGCCGCCCTGGCCCGCGGCACGACGGTGCTGACCAACCTGTTGGACAGCGACGATGTGCGCCATATGCTGAATGCCCTGAGTGCGCTGGGGGTTCAATACACCCTGTCTGCTGACCGTACCCGCTGTGAAGTGACCGGCAACGGCGGCCCGCTGCATGCCGCAGCGGTGCTGGAGCTGTTCCTCGGCAACGCCGGTACCGCGATGCGCCCGCTGGCGGCAGCCCTGTGCCTTGGCAGCAACGATATCGTGCTGACCGGCGAGCCGCGAATGAAAGAGCGCCCGATCGGCCATCTGGTGGATGCCCTGCGTCAGGGCGGCGCTCAGATCGACTATCTGGAGCAGGAAAATTATCCGCCGCTGCGCCTGCGCGGGGGATTCCAGGGGGGCAACGTTGAAGTTGACGGCAGCGTCTCCAGCCAGTTCCTGACCGCGCTGCTGATGACCGCGCCGCTGGCGCCGCAGGATACCGTGATCGCCATTAAGGGCGATCTGGTGTCAAAACCCTATATCGACATTACGCTGCACCTGATGAAAACCTTCGGGGTTGAGGTGGACAACCAGTCTTATCAGCGCTTTGTGGTGCGCGGCAAGCAACAGTATCAGTCGCCGGGGGATTACCTGGTGGAAGGGGATGCTTCATCGGCCTCGTATTTCCTTGCCGCTGGCGCCATTAAGGGCGGCACGGTGAAAGTCACCGGTATCGGCCGCGGCAGCGTACAGGGCGATATTCGTTTCGCCGACGTACTGGAAAAAATGGGCGCCACCGTCACCTGGGGCGACGATTTCATCGCCTGTACCCGTGGCGAGCTCAAGGCTATCGATATGGATATGAACCATATCCCGGACGCCGCGATGACCATCGCCACCGCCGCGCTGTTCGCGCAAGGGACCACCACGCTGCGCAATATCTACAACTGGCGGGTCAAGGAGACGGACCGTCTGTTCGCCATGGCGACCGAGTTGCGTAAAGTGGGCGCCGAGGTGGAAGAGGGTGAAGATTATATTCGCATCACCCCGCCGGCGACGCTGAAGTATGCTGAAATCGGCACCTATAACGACCACCGGATGGCGATGTGCTTCTCGCTGGTGGCGCTGTCTGATACGCCGGTGACCATCCTTGATCCGAAGTGTACGGCGAAAACCTTCCCCGACTATTTTGAGCAACTGGCGCGGATCAGTACGCCGGCCTGA	MDSLTLQPIARVEGTVNLPGSKSVSNRALLLAALARGTTVLTNLLDSDDVRHMLNALSALGVQYTLSADRTRCEVTGNGGPLHAAAVLELFLGNAGTAMRPLAAALCLGSNDIVLTGEPRMKERPIGHLVDALRQGGAQIDYLEQENYPPLRLRGGFQGGNVEVDGSVSSQFLTALLMTAPLAPQDTVIAIKGDLVSKPYIDITLHLMKTFGVEVDNQSYQRFVVRGKQQYQSPGDYLVEGDASSASYFLAAGAIKGGTVKVTGIGRGSVQGDIRFADVLEKMGATVTWGDDFIACTRGELKAIDMDMNHIPDAAMTIATAALFAQGTTTLRNIYNWRVKETDRLFAMATELRKVGAEVEEGEDYIRITPPATLKYAEIGTYNDHRMAMCFSLVALSDTPVTILDPKCTAKTFPDYFEQLARISTPA	PGPT0012850_3732	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012850-yddE-K00800	NA	NA
BMS020_02310	702	ycaL	COG0501	Metalloprotease YcaL	ATGCAGGGGATGGACACCAACGCCCTCGTCAATTCAGGAATGACGGCTTACAAAGCGGCGACGCTTTCTGACTCTGAAGTCAAAACGCTTTCCGACGATGCCTGTAAGCAAATGGATAGTGAAAATAAACTGGCTAGTGCATCAAGTAAGTACACCAAACGTCTGAACAAAATTGCCAAAGCGTTAGGAAATAATATCAACGGCACGCCGGTAACCTATAAGGTTTACATGACATCCGACGTCAACGCCTGGGCAATGGCCAACGGCTGCGTCCGCGTCTATAGCGGCCTGATGGACATGATGACCGATAATGAAGTTGAAGCGGTTCTGGGCCATGAGCTGGGTCACGTAGCGCTCGGACACTCGCGCAAAGCGATGCAAACCGCGTATGCGACTATTGCCGCACGCGATGCAATTTCAGCGACCAGCGAAGCGGCTGCAAACTTGTCTAAATCTCAGTTGGGCGATATCGCTGAGGGAATGATCAACTCTGCGTTCTCCCGCTCGCAGGAGTCGGATGCTGATGATTTCTCTTACGATCTGCTGAAAAAACGCAACATCAGCACTCAGGGGCTGGTGGGCAGCTTCGACAAACTGGCCAGCCTTGACGCCGGCCACAGTAAATCTCTGTTCGATTCACACCCGCCTTCAGCTGAACGCGCGCAGCATATCCGCGACCGTATCGCTGCAGATAAAAAGTAA	MQGMDTNALVNSGMTAYKAATLSDSEVKTLSDDACKQMDSENKLASASSKYTKRLNKIAKALGNNINGTPVTYKVYMTSDVNAWAMANGCVRVYSGLMDMMTDNEVEAVLGHELGHVALGHSRKAMQTAYATIAARDAISATSEAAANLSKSQLGDIAEGMINSAFSRSQESDADDFSYDLLKKRNISTQGLVGSFDKLASLDAGHSKSLFDSHPPSAERAQHIRDRIAADKK				NA	NA	NA	NA	NA
BMS020_02311	684	cmk_1	COG0283	Cytidylate kinase	ATGACGGCAACAGTTCCGGTAATCACCATTGATGGGCCTGGCGGTGCGGGTAAAGGTACGTTATGCAAGGCAATGGCGGAAGCGCTGGGCTGGCATCTGTTAGATTCAGGCGCGATCTACCGCGTTCTGGCGCTGGCGGCGCTGCATCATCATGTTGACGTGGAGTCCGAAGAGGCGCTGGTGCCCCTGGCTGCCCATCTTGACGTGCGCTTTATTTCTACTGACGGCAACCTCGAAGTGGTGCTGGAAGGGGAAGATGTCAGCGGCGAAATTCGCACCCAGGAGGTCGCGAACGCCGCCTCGAAAGTGGCGGCTTTCCCTCGCGTTCGCGAAGCGCTGCTGCGTCGCCAGCGCGCCTTTCGTGAACTGCCGGGGCTGATTGCCGACGGGCGCGATATGGGCACGGTGGTTTTCCCGGACGCGCCGGTGAAAATTTTCCTCGATGCCTCGGCCGATGAGCGGGCGCATCGCCGCATGCGGCAGTTGCAGGAAAAGGGCTTTGATGTTAACTTTGAACGTCTTTTGTCCGAGATAAAAGAGCGTGACGATCGCGATAGAAATCGCGCCGTGGCGCCGCTTGTCCCGGCTGCCGATGCATTAGTTCTCGATTCAACCGAACTAAACATTGAGCAAGTGATTGAAAAAGCGCTACAATATGCGCGCGAAAAATTGGCCGTTGCGTAA	MTATVPVITIDGPGGAGKGTLCKAMAEALGWHLLDSGAIYRVLALAALHHHVDVESEEALVPLAAHLDVRFISTDGNLEVVLEGEDVSGEIRTQEVANAASKVAAFPRVREALLRRQRAFRELPGLIADGRDMGTVVFPDAPVKIFLDASADERAHRRMRQLQEKGFDVNFERLLSEIKERDDRDRNRAVAPLVPAADALVLDSTELNIEQVIEKALQYAREKLAVA	PGPT0021220_1688	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021220-cmk-K00945	NA	NA
BMS020_02312	1674	rpsA_1	COG0539	30S ribosomal protein S1	ATGACTGAATCTTTTGCTCAACTGTTTGAAGAATCCTTAAAAGAAATCGAAACCCGCCCGGGTTCCATCGTTCGTGGTGTTGTTGTTGCTATCGACAAAGACGTAGTACTGGTTGACGCCGGTCTGAAATCTGAGTCCGCCATCCCGGCTGAGCAGTTCAAAAACGCCCAGGGCGAGCTGGAAATCCAGGTTGGTGACGAAGTTGACGTTGCTCTGGATGCAGTAGAAGACGGCTTCGGTGAAACTCTGCTGTCCCGTGAGAAAGCTAAACGTCACGAAGCTTGGATCACGCTGGAAAAAGCTTACGAAGACGCTGAAACTGTTACCGGTGTTATCAACGGCAAAGTTAAAGGTGGCTTCACTGTTGAGCTGAACGGTATTCGTGCGTTCCTGCCGGGTTCCCTGGTAGACGTTCGTCCGGTGCGCGACACGCTGCACCTGGAAGGCAAAGAGCTTGAGTTCAAAGTCATCAAGCTGGACCAGAAGCGTAACAACGTTGTTGTTTCTCGTCGTGCCGTTATCGAATCCGAAAACAGCGCAGAGCGCGATCAGCTGCTGGAAAACCTGCAGGAAGGCATGGAAGTCAAAGGTATCGTTAAGAACCTCACTGACTACGGTGCATTCGTTGATCTGGGCGGCGTTGACGGCCTGCTGCACATCACCGATATGGCCTGGAAACGCGTTAAGCATCCGAGCGAAATCGTAAACGTTGGCGACGAAATCACTGTTAAAGTGCTGAAGTTCGACCGCGAGCGTACCCGTGTATCCCTGGGCCTGAAACAGCTGGGCGAAGATCCGTGGGTAGCTATCGCTAAACGTTATCCGGAAGGTACCAAACTGACCGGTCGCGTGACCAACCTGACCGACTACGGCTGCTTCGTTGAAATCGAAGAAGGCGTTGAAGGCCTGGTTCACGTTTCCGAAATGGATTGGACCAACAAAAACATCCACCCGTCCAAAGTTGTTAACGTTGGCGACGTAGTGGAAGTAATGGTTCTGGATATCGACGAAGAACGTCGTCGTATCTCCCTGGGTCTGAAGCAGTGCAAATCTAACCCATGGCAGCAGTTCGCGGAAACCCACAACAAGGGCGACCGTGTTGAAGGTAAAATCAAGTCTATCACTGACTTCGGTATCTTCATCGGCCTGGACGGCGGCATCGACGGCCTGGTTCACCTGTCTGACATCTCCTGGAACGTTGCAGGCGAAGAAGCAGTTCGTGAATACAAAAAAGGCGACGAAATCGCAGCAGTTGTTCTGCAGGTTGACGCAGAGCGTGAGCGTATCTCCCTGGGCGTTAAACAGCTGGCGGAAGATCCGTTCAACAACTACGTTGCTCTGAACAAGAAAGGCGCTATCGTTGTTGGTAAAGTGACTGCAGTTGATGCTAAAGGCGCAACCGTAGAACTGGCTGACGGCGTAGAAGGTTACCTGCGTGCTTCTGAAGCATCCCGTGACCGCGTTGAAGACGCAACTCTGGTTCTGAGCGTTGGCGACGAAGTTGAAGCGAAATTCACTGGCGTGGATCGTAAGAACCGCGTAGTGAGCCTGTCTGTACGTGCGAAAGACGAAGCGGAAGAAAAAGACGCTATCGCTACCGTGAACAAGCAGGAAGACGCGAACTTCTCCAACAACGCCATGGCTGAAGCGTTCAAAGCAGCGAAAGGCGAGTAA	MTESFAQLFEESLKEIETRPGSIVRGVVVAIDKDVVLVDAGLKSESAIPAEQFKNAQGELEIQVGDEVDVALDAVEDGFGETLLSREKAKRHEAWITLEKAYEDAETVTGVINGKVKGGFTVELNGIRAFLPGSLVDVRPVRDTLHLEGKELEFKVIKLDQKRNNVVVSRRAVIESENSAERDQLLENLQEGMEVKGIVKNLTDYGAFVDLGGVDGLLHITDMAWKRVKHPSEIVNVGDEITVKVLKFDRERTRVSLGLKQLGEDPWVAIAKRYPEGTKLTGRVTNLTDYGCFVEIEEGVEGLVHVSEMDWTNKNIHPSKVVNVGDVVEVMVLDIDEERRRISLGLKQCKSNPWQQFAETHNKGDRVEGKIKSITDFGIFIGLDGGIDGLVHLSDISWNVAGEEAVREYKKGDEIAAVVLQVDAERERISLGVKQLAEDPFNNYVALNKKGAIVVGKVTAVDAKGATVELADGVEGYLRASEASRDRVEDATLVLSVGDEVEAKFTGVDRKNRVVSLSVRAKDEAEEKDAIATVNKQEDANFSNNAMAEAFKAAKGE				NA	NA	NA	NA	NA
BMS020_02313	288	ihfB_1	COG0776	Integration host factor subunit beta	ATGACCAAGTCAGAATTGATTGAAAGACTTGCCAGCCAGCAATCTCACATTCCGGCGAAAGCGGTGGAAGATGCTGTTAAAGAAATGCTGGAACATATGGCCTCAACGCTTGCTCAAGGTGAGCGCATTGAAATCCGCGGTTTCGGCAGCTTCTCTCTGCACTATCGAGCACCTCGCACCGGACGTAACCCGAAAACTGGTGATAAAGTCGAACTGGAAGGTAAGTACGTTCCGCACTTTAAGCCCGGGAAAGAATTACGTGACCGCGCCAATATTTATGAAGGGTGA	MTKSELIERLASQQSHIPAKAVEDAVKEMLEHMASTLAQGERIEIRGFGSFSLHYRAPRTGRNPKTGDKVELEGKYVPHFKPGKELRDRANIYEG				NA	NA	NA	NA	NA
BMS020_02314	2265			hypothetical protein	ATGCGTCTACCATGGCTTGCCGGATGCGCCATCATCGCAATACTGCCGCTACTCTGGCTACCCGCGTTGCCGGGGCCGGGCACTCTGGCGGTCGCCGGCGTACTGGCGATGTTGCTGACCCGTCTGCGCGGGACGGTCGTCGCCGTTGTGGCGGTGACGCTTCTGCTGATGGTCTGGGGAGTTTTAAGCGCGTATCAGGCGCTGTGGCCAACGCAGCACCTCACCGGCGCCGTCCGTCAGGCGGAAGTGATCCTCCACGAGACGGATGGTCAGACCCTGCACCGCGGGCAGATTGTGCGCCTGGCGGGTCGCTTCCTGTTCCCTCCGGTTGGCGTGACTTTATACGGGGAACTTGCACCTGCGCCCGTCTGCGAGGGGCAGCGCTGGATGATGACGCTGCGCCTGCGGCCGGTGCATGGACAGCTCAATGACGGGGGCTTCGACAGCCAGCGCTATGCGCTGGCTCAGCATCGGCCGCTGAGCGGGGGGATCGTCGCCGCTTCCGCGCTGGATACCCGCTGCAGTCTGCGCGCCCGCTACCTGGCGTCGCTGACCCGGCGATTGCAGACTTATCCCTGGCATCCGGTGATGCTGGGGCTGGGAATGGGGGAGCGGCTGGCGCTGCCGGCGGAGATAAAGGTCCTGATGCAGAACACAGGCACCTCCCATCTGATGGCTATCTCCGGTTTGCATATTGCCCTCGCGGCTTCCCTGATCGTGCTCCTGCTGCGCGGATTACAGTCACTTTTACCGGGGCGCTGGATCGGCTGGCGGCTACCGCTGCTGGCCGGGCTGGCGGGCGCCGTCGGCTATGCCTGGCTGACCGGTATGCAGCCGCCGGCCCTGCGCACTTGCGTAGGGCTTGCGGTCTGCTGTGCTTTACGTTTGTCGGGTCAACGCTGGACGGCGTGGCAGGTGTGGCTCTGCTGTTTGGGGGCGATACTGGTTGCCGATCCGTTAGCGGTGTTGTCGCAAAGCCTGTGGCTATCCGCCTTCGCCGTGGCGGGGCTGATCTTCTGGTACCAGTGGTTACCGCTGCCTGACAGCCGCTGGCGCTGGCCGTGGAAAGCCCTGTTCGCCCTCGCGCATTTGCAGGCTGGCGTGACGCTGCTGCTGATGCCGCTGCAACTGCTGCTCTTCCACGGCATAAGCCTGACGTCGATGGCCGCCAATTTGCTGGCGGTACCGTTAGTGACCCTGCTGGCGGTGCCGCTCATTCTCGCCGGAATGCTGCTGCATCTCACTGGACCGGAGATGGTGGCGTCGCTGATCTGGCTGGCAGCCGATCGCGTGCTGGCGGTATTGTTCTGGGGGTTACGACGTTTACCGGACGGCTGGCTGACGTTGGATGCCCGCTGGCTCTGGATCAGTAGCCTGCCGTGGCTGCTGGTGATGGGCTGGCGTTTTCAGAGCTGGCGACATTCGCCGGCGCTGTGTCTGAGCGTGCTGTTTTTGCTGACGCGGCCATTCAGCCGGCAACCGCCCGCGGACCAATGGCAGGTGACGATGCTGGATGTCGGGCAGGGGCTGGCGATGGTGATCGAGCGTTACGGCAAGGCGTTATTGTACGATACCGGGCCGGCATGGCCGCAGGGCGACAGCGGTCGACAGGTGATTATCCCGTGGCTGCGCTGGCACCATCTGCAGCTGCAGGGGATTATGCTGAGCCACGAGCATCTTGACCATCGCGGCGGCCTCGAATCGGTGCTGCAGGCATGGCCGCAGGCGTGGGTGCGCAGCCCGCCAGGCTGGGCGCGTCATCTGCCGTGCCATCGCGGCGAGCGCTGGCAGTGGCAGGGACTCACTTTCCAGGCGCTGTGGCCGCTGCCGGGCAGCACGGCAAAGGGAAACAATCACTCCTGCGTGGTGCGGATCGATGACGGTCGCTCCAGCATCCTGCTGACCGGCGATATAGAACGTCAGGCGGAGCAGGCGATGATCAGCCGCTACTGGCAGCATCTGGCGTCTACACTTATTCAGGTTCCCCATCACGGCAGCAACACCTCCTCCAGCGAACTGCTGATCCGGCGGGTGGATGGCGCGGCCGCGCTGGTTTCCGCTTCGCGCTACAATGCGTGGCGGATGCCCTCGCACAAGGTCGTTCAGCGTTATCGCCAGCGGGGGTATCGCTGGTTCGCCACGCCGCAGCAGGGGCAGATAACGGTGGTTTTTTCTGCAGAAGGGTGGCAAATCCATAGCTTACGGGATCAAGTTTTACCACGTTGGTATCATCAGTGGTTTGGCGCGCCCGCCGATAACGGGTAG	MRLPWLAGCAIIAILPLLWLPALPGPGTLAVAGVLAMLLTRLRGTVVAVVAVTLLLMVWGVLSAYQALWPTQHLTGAVRQAEVILHETDGQTLHRGQIVRLAGRFLFPPVGVTLYGELAPAPVCEGQRWMMTLRLRPVHGQLNDGGFDSQRYALAQHRPLSGGIVAASALDTRCSLRARYLASLTRRLQTYPWHPVMLGLGMGERLALPAEIKVLMQNTGTSHLMAISGLHIALAASLIVLLLRGLQSLLPGRWIGWRLPLLAGLAGAVGYAWLTGMQPPALRTCVGLAVCCALRLSGQRWTAWQVWLCCLGAILVADPLAVLSQSLWLSAFAVAGLIFWYQWLPLPDSRWRWPWKALFALAHLQAGVTLLLMPLQLLLFHGISLTSMAANLLAVPLVTLLAVPLILAGMLLHLTGPEMVASLIWLAADRVLAVLFWGLRRLPDGWLTLDARWLWISSLPWLLVMGWRFQSWRHSPALCLSVLFLLTRPFSRQPPADQWQVTMLDVGQGLAMVIERYGKALLYDTGPAWPQGDSGRQVIIPWLRWHHLQLQGIMLSHEHLDHRGGLESVLQAWPQAWVRSPPGWARHLPCHRGERWQWQGLTFQALWPLPGSTAKGNNHSCVVRIDDGRSSILLTGDIERQAEQAMISRYWQHLASTLIQVPHHGSNTSSSELLIRRVDGAAALVSASRYNAWRMPSHKVVQRYRQRGYRWFATPQQGQITVVFSAEGWQIHSLRDQVLPRWYHQWFGAPADNG	PGPT0029415_2112	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
BMS020_02315	1749	msbA_2	COG1132	Lipid A export ATP-binding/permease protein MsbA	ATGCAGAACGATAAAGATCTCTCCACGTGGCAGACCTTCCGCCGACTTTGGCCGATTATTGCACCGTTTAAAGCCGGGCTAATCGTAGCGGCGGTGGCGTTAGTGCTTAACGCGGGCAGTGACACCTTCATGTTATCGCTTCTTAAACCGTTATTGGATGATGGTTTTGGTAAAACGGATCGCTCAGTGCTGCTATGGATGCCGCTGGTGGTTATCGGGCTGATGGTGCTGCGTGGGATCACCAGCTACATCTCGAGCTATTGTATCTCCTGGGTTTCCGGCAAAGTGGTGATGACCATGCGTCGTCGCCTGTTCGGCCACATGATGGGTATGCCGGTGGCATTCTTTGACAAGCAGTCTACCGGGACGCTGCTGTCACGTATCACCTATGATTCCGAGCAGGTCGCTTCCTCTTCTTCCAGCGCGCTGATCACCGTGGTCCGCGAAGGGGCATCGATTATCGGCCTGTTCGTGATGATGTTCTATTACAGCTGGCAGCTGTCGCTGATCCTGATCGTACTGGCGCCTATCGTGTCGGTAGCAATCCGCGTGGTCTCCAAGCGTTTTCGCAATATCAGTAAGAATATGCAGAACACGATGGGGCAGGTCACCACCAGCGCCGAGCAGATGCTGAAAGGGCACAAAGAGGTGCTGATGTTTGGCGGCCAGGAAGTGGAAACCAAACGTTTTGATAAGGTCAGCAATAAAATGCGCCTGCAGGGGATGAAGATGGTTTCCGCCTCGTCTATCTCCGACCCGATCATTCAGCTTATCGCCTCCCTGGCGCTGGCCTTTGTCCTGTATGCCGCCAGCTTCCCGAGCGTGATGGACACCCTGACCGCCGGGACCATTACCGTGGTCTTCTCCTCCATGATTGCGCTGATGCGTCCGCTGAAGTCGCTGACCAACGTCAATGCCCAGTTCCAGCGCGGGATGGCGGCATGCCAGACGCTGTTTGCGATCCTCGATTCCGAGCAGGAAAAAGACGAAGGTACGCGCGTCATTGAGCGGGCGAAAGGCAATCTCAAGTTCGAGAACGTCACCTTTACCTATCCGGGTCGCGAAGTGGCCGCGCTGCGCAATATCAATCTCGATATCCCGGAAGGGAAAACCGTGGCGTTGGTGGGACGCTCCGGGTCGGGTAAATCGACCATCGCCAGCCTGATCACACGCTTCTACGATGTCGACGACGGGCAGATCCTGCTGGATGGCCACGACCTGCGCGAGTACAAGCTGAGCTCGCTGCGCGACCAGGTCGCGCTGGTTTCACAGAACGTGCACCTGTTCAATGATACCGTCGCTAATAACATCGCCTATGCCCGTACCGAAGAGTACAGCCGCGAGCAAATTGAAGAGGCTGCGCGGATGGCCTACGCCATGGACTTCATCAACAAGATGGACAATGGCCTGGATACCATCATCGGCGAAAATGGCGTGATGCTGTCCGGCGGCCAGCGCCAGCGTATTGCTATCGCCCGTGCGCTACTGCGTAACAGCCCGATCCTGATCCTCGATGAAGCCACCTCGGCGCTGGATACCGAGTCCGAGCGTGCGATTCAGGCGGCGCTGGATGAGCTGCAGAAAAACCGCACCTCGCTGGTTATCGCCCACCGTCTGTCAACCATTGAGCAGGCTGATGAGATCGTGGTGGTTGAAGACGGGCGGATTGTGGAGCGCGGAACGCACCACGACCTGCTGGAGCATAAAGGCGTATACGCCCAGCTGCATAAGATGCAATTCGGCGAATGA	MQNDKDLSTWQTFRRLWPIIAPFKAGLIVAAVALVLNAGSDTFMLSLLKPLLDDGFGKTDRSVLLWMPLVVIGLMVLRGITSYISSYCISWVSGKVVMTMRRRLFGHMMGMPVAFFDKQSTGTLLSRITYDSEQVASSSSSALITVVREGASIIGLFVMMFYYSWQLSLILIVLAPIVSVAIRVVSKRFRNISKNMQNTMGQVTTSAEQMLKGHKEVLMFGGQEVETKRFDKVSNKMRLQGMKMVSASSISDPIIQLIASLALAFVLYAASFPSVMDTLTAGTITVVFSSMIALMRPLKSLTNVNAQFQRGMAACQTLFAILDSEQEKDEGTRVIERAKGNLKFENVTFTYPGREVAALRNINLDIPEGKTVALVGRSGSGKSTIASLITRFYDVDDGQILLDGHDLREYKLSSLRDQVALVSQNVHLFNDTVANNIAYARTEEYSREQIEEAARMAYAMDFINKMDNGLDTIIGENGVMLSGGQRQRIAIARALLRNSPILILDEATSALDTESERAIQAALDELQKNRTSLVIAHRLSTIEQADEIVVVEDGRIVERGTHHDLLEHKGVYAQLHKMQFGE	PGPT0029415_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029415-comEC-K02238	NA	NA
BMS020_02316	981	lpxK_1	COG1663	Tetraacyldisaccharide 4'-kinase	ATGATCGCGCGCATCTGGTCCGGTGAATCGCCGCTGTGGCGCCTGCTGCTGCCGCTCTCCTGGCTGTATGGCCTGGTGAGCGCGGTGATTCGCCTCAGTTATCAGCTGGGGTGGAAAAAAGCCTGGCGCGCGCCTGTGCCGGTGGTGGTGGTCGGTAATCTGACCGCCGGCGGCAATGGTAAAACGCCGGTGGTGATCTGGCTGGTGGAGCAGCTGCAACAGCGCGGCATTCGCGTTGGGGTGGTCTCCCGCGGCTACGGCGGTAAAGCCGAACGCTACCCGCTGGTGTTAACTGACCGGACCAGTACGGCGCAGGCAGGTGATGAACCGGTGCTCATCCATCAGCGCACCGGCGCGCCGGTGGCTGTCTCTCCACTGCGCAGCGACGCGGTGAAATCGCTGCTCAGCGCGCACGATCTGCAGATTATCGTGACCGACGATGGTTTGCAGCACTATAAGCTGGCGCGGGACCGGGAAATTGTCGTCATCGACGGCGTGCGCCGCTTTGGCAACGGCTGGTGGCTGCCTGCCGGGCCGATGCGCGAGCGGGCGTCGCGCTTGCAAAGCGTTGATGCGGTTATCGTCAACGGCGGCGTGGCGCGTCCGGGAGAGATCCCGATGCAGCTGCGTCCCGGGATGGCGGTCAACCTGCTCACCGGCGAACGTCGCGATGTCTCTACCTTCACTAACGTGGTGGCAATGGCCGGCATCGGCCATCCGCCGCGCTTTTTCGCCACCCTCGAAAGCTGCGGCGTCCAACCGGTCAAAACCGTGGCTCTGGCGGACCATCAGGCGCTGAGCCAGGCCGATGTCGCCGCCCTGGTAACCGCCGGGCAGACGCTGCTGATGACAGAAAAAGACGCCGTGAAATGTCGCGATTTCGCCGCTGCGAACTGGTGGTATTTACCGGTCGACGCCATAATGGCCGATGAACGCGCACAGCGGTTGCTTGCGGACTTAGCGACGTTGGCGCAACGTTAA	MIARIWSGESPLWRLLLPLSWLYGLVSAVIRLSYQLGWKKAWRAPVPVVVVGNLTAGGNGKTPVVIWLVEQLQQRGIRVGVVSRGYGGKAERYPLVLTDRTSTAQAGDEPVLIHQRTGAPVAVSPLRSDAVKSLLSAHDLQIIVTDDGLQHYKLARDREIVVIDGVRRFGNGWWLPAGPMRERASRLQSVDAVIVNGGVARPGEIPMQLRPGMAVNLLTGERRDVSTFTNVVAMAGIGHPPRFFATLESCGVQPVKTVALADHQALSQADVAALVTAGQTLLMTEKDAVKCRDFAAANWWYLPVDAIMADERAQRLLADLATLAQR	PGPT0022380_2420	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022380-lpxK-K00912	NA	NA
BMS020_02317	1230			hypothetical protein	ATGTCGGTATTGCAACTATCGCTTAATGAGGCGCGCCACCTCCATCTAGCGGCGCAGGGGTTATTAAAAAAGCCCCGGCGTCGCGCTCGCCCAAATGACATCCTTTCTACCATCCAGCAGATGTCTCTGCTGCAAATCGATACCATCAACGTGGTGGCCCGCAGCCCCTACCTGGTGCTGTTCAGCCGTCTCGGCAGCTATCCGCAGCACTGGCTGGATGAGTCGCTGCGCAACGGCGAGCTGATGGAATACTGGGCGCATGAAGCCTGTTTTCTGCCGCGCAGCGATTTCGCCCTTGTGCGCCACCGGATGTTGAACCCCGACAAGATGGGCTGGAAATATCATCGCGCGTGGATGGAGGAGCATGCCGGCAGTATTGCAGAGCTGGTGGCGCATATCGGCCAAAACGGGCCGGTTCGCTCGGCGGATTTTGCCCACCCTCGCAAAGGCGCCAGCGGCTGGTGGGAGTGGAAACCGCATAAGCGCCACCTGGAAGGGCTGTTTACCGCCGGGGAAGTGATGGTGGTGGAGCGGCGCAACTTTCACCGCGTGTATGATTTAACCCGGCGGGTGATGCCGCACTGGGACGACGAGCGCGATGCGCTGTCCCGCGACGCCGCAGAGGCCATCATGCTGCGCAACAGCGCCCGCAGCCTCGGCATCTTTCGTCCCCAGTGGCTGGCGGATTACTATCGTTTACGTCAGCCGGCGCTACCGGGTCTGCTGGCGGCCTGGCAGGAAGAGGGTCTGGTGACCCAGGCCAACGTGGAAGCGCTTGGCGAGATGTGGCTACATCGCGATGCGCTGGCGCAGCTGGAGTCCGCGCCCGGCGGTAAACTTACCGCCAGCCATAGCGCCGTGCTCTCGCCCTTCGACCCGGTGGTCTGGGATCGGAAACGCGCTGAGCAGCTGTTCAACTTCAGCTATCGCCTGGAGTGCTATACCCCTGCGCCGAAGCGTCAGTATGGCTACTTCGTACTGCCTCTGCTGCACCGGGGAAAACTGGTCGGGCGGATGGACAGTAAAATACATCGCAAAAGCCGGGAACTGGAGATCTTCGCCCTGTGGCTGGAGGATGGGGTGAAGATCACCCTTGGTCTGGAGCAGGGGCTGCGCCAGGCGATCAACGATTTCGCACGCTGGCAATCGGCAGAGCGGATCCTGTGCCGACGCCTGCCGGAAGGGCTGTTTGTCGGCCAGACGCAGGGGTGGGAAATCGATGCCGATTGA	MSVLQLSLNEARHLHLAAQGLLKKPRRRARPNDILSTIQQMSLLQIDTINVVARSPYLVLFSRLGSYPQHWLDESLRNGELMEYWAHEACFLPRSDFALVRHRMLNPDKMGWKYHRAWMEEHAGSIAELVAHIGQNGPVRSADFAHPRKGASGWWEWKPHKRHLEGLFTAGEVMVVERRNFHRVYDLTRRVMPHWDDERDALSRDAAEAIMLRNSARSLGIFRPQWLADYYRLRQPALPGLLAAWQEEGLVTQANVEALGEMWLHRDALAQLESAPGGKLTASHSAVLSPFDPVVWDRKRAEQLFNFSYRLECYTPAPKRQYGYFVLPLLHRGKLVGRMDSKIHRKSRELEIFALWLEDGVKITLGLEQGLRQAINDFARWQSAERILCRRLPEGLFVGQTQGWEIDAD				NA	NA	NA	NA	NA
BMS020_02318	183			hypothetical protein	ATGGATCACCGTTTACTTGAAATCATCGCCTGCCCGGTCTGTAACGGTAAGCTGTATTACAGTCAGGATAAGCAAGAACTTATTTGCAAACTTGATAGTCTGGCGTTTCCGCTCCGCGACGGCATCCCTGTGCTGCTGGAGACAGAAGCGCGTCCGCTGGCGGTAGAAGAGAGTCACTCATGA	MDHRLLEIIACPVCNGKLYYSQDKQELICKLDSLAFPLRDGIPVLLETEARPLAVEESHS	PGPT0022380_102	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022380-lpxK-K00912	NA	NA
BMS020_02319	747	kdsB_1	COG1212	3-deoxy-manno-octulosonate cytidylyltransferase	ATGAGTTTCGTGGTCATTATTCCTGCGCGTTTCGCCTCCACGCGCCTGCCGGGAAAACCACTGCAGGACATTAACGGCAAGCCGATGATTGTCCATGTGCTGGAGCGCGCCCGCGAATCCGGCGCGGAACGCATTATTGTCGCCACCGATCACCAAGATGTCGCCCGGGCGGTTGAAGCCGCCGGCGGCGAGGTCTGCATGACCCGCGCCGACCATCAGTCCGGCACCGAACGGCTGGCGGAGGTGGTGGAGAAGTGCGCGTTCAGCGATGACACCATCATCGTCAATATCCAGGGCGATGAGCCGATGATCCCCCCGGCTATTGTCCGCCAGGTGGCGGAGAATCTGGCTGCCAGCACCAGCGGAATGGCGACGCTGGCGGTACCGATCCACGATGCGGAAGAGGCGTTTAATCCAAATGCGGTCAAAGTAGTGATGGATGCGCAGGGCTATGCGCTCTATTTCTCCCGCGCCACCATTCCCTGGGATCGCGATCGCTTTGCCCACTCCCGCGACGCCATTGGTGATTCTCTGCTGCGCCACATCGGCATCTATGGCTATCGCGCCGGCTTTATTCGCCGCTACGTCAGCTGGGCGCCAAGCCCGCTGGAGCAGATTGAAATGCTCGAGCAGCTGCGGGTGCTGTGGTATGGCGAGAAGATCCACGTCGCCGTGGCGGCCGAAGTGCCCGGCACCGGCGTCGATACCCCTGAAGATCTGGCGCGCGTCCGCGCTGAACTGCGCTAG	MSFVVIIPARFASTRLPGKPLQDINGKPMIVHVLERARESGAERIIVATDHQDVARAVEAAGGEVCMTRADHQSGTERLAEVVEKCAFSDDTIIVNIQGDEPMIPPAIVRQVAENLAASTSGMATLAVPIHDAEEAFNPNAVKVVMDAQGYALYFSRATIPWDRDRFAHSRDAIGDSLLRHIGIYGYRAGFIRRYVSWAPSPLEQIEMLEQLRVLWYGEKIHVAVAAEVPGTGVDTPEDLARVRAELR	PGPT0023065_2064	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-8-AMINO-3|8-DIDEOXY_D_MANNO-OCTULOSONIC_ACID_MODIFICATION,PGPT0023065-kdsB-K00979	NA	NA
BMS020_02320	894			hypothetical protein	ATGGAACAGTTGCGAACCGAACTCAGTCACCTGCTTGGCGAAAAGCTGAGCCGGGTGGAGTGTGTCAGTGAAAAAGCCGCCACGGCGCTGTGGTCCCTGTATGACGCGCAGGGAAATCCGATGCCGCTGCTGGCGCGAAGTTTCACCACGCCCGGGGTGGCGCGGCAGCTGGCCTGGAAGATCTCCACTCTGGCGCGCAGCGGTACGGTGCGCATGCCGGTGGTCTACGGCGTGATGACGCACGAAGAGCATCCTGGGCCGGACGTGCTGCTGCTTGAGCGCCTGCGCGGCGTCCCGGTGGAGGCGCCCACCCGCACCCCGGCGCGCTGGGAGCAGCTGCAGGAGCAGATCGTCGAGGCGCTGCTGGCCTGGCATCGTCAGGACAGCGGCGGCTGCGTGGGGATGGTCGATAATACCCAGGACAATCTGTGGCCGAACTGGTACCGGCAACGGGTGGCGATGTTGTGGAGCACCCTGAACCTGTATCAGGACACCGGCCTGACCATGCAGGATAAGCGGGTTTTGTTCCGCTCTCGCGAGTGTCTGCCGGAGCTGTTCCGCGATTTCAATGATAATGCCGTGCTGGTGCACGGCAATTTCACCCTGCGCAGCATGCTGAAAGATCCGCGCAGCGACCAGCTGCTGGCGATGGTCGGCCCGGGGATGATGCTGTGGGCGCCGCGGGAGTACGAACTGTTCCGTCTCGCGGAGGGGGGCCAGGCCGAGCAGCTGCTATGGCGCTACCTGCAGCAGGCGCCGGTTTCCGAGGCCTTTGTCTGGCGGCGCTGGCTGTATCTGCTGTGGGATGAGGTGGATAGTCTGGTCAATACCGGGCGCTTTGACCGCGCCCGTTTCGACCTCGCCGCAAAATCACTCCTGCCCTGGCTCGCCTGA	MEQLRTELSHLLGEKLSRVECVSEKAATALWSLYDAQGNPMPLLARSFTTPGVARQLAWKISTLARSGTVRMPVVYGVMTHEEHPGPDVLLLERLRGVPVEAPTRTPARWEQLQEQIVEALLAWHRQDSGGCVGMVDNTQDNLWPNWYRQRVAMLWSTLNLYQDTGLTMQDKRVLFRSRECLPELFRDFNDNAVLVHGNFTLRSMLKDPRSDQLLAMVGPGMMLWAPREYELFRLAEGGQAEQLLWRYLQQAPVSEAFVWRRWLYLLWDEVDSLVNTGRFDRARFDLAAKSLLPWLA				NA	NA	NA	NA	NA
BMS020_02321	780			hypothetical protein	ATGCTTTTCACGCTAAAAAAGATCGTCGGCGGTCTGCTGCTGCCGCTTCCTGCCCTGCTGTTGCTGATCGGTATCGGGATCGCCCTGTTATGGTTCAGCCGCTTTCAACGTACCGGGAAGCTGTGCGTGAGCCTCGGCTGGCTGCTGCTGGCGCTGCTGAGCCTGCAGCCCGTGGCAGACAGCCTGCTTAAGCCGATAGAAGATCGCTATCCCACCTGGCGCGGCGAGCAGCCGGTGAGCTACGTGGTGGTGCTGGGCGGCGGCTATACCTGGAACCCGGAGTGGGCGCCAAGCTCTAACCTTATCAGCAACAGCCTGCCGCGCCTGACGGAGGGCATTCGCCTGTGGCAGGAGAATCCGGGATCGAAAATGATCTTTACCGGCGCGGCGGCAAAAACCAACCCCGTCAGCACGGCGGAGGCCGGGGCGAGAGTGGCGGAGAGCCTCGGCGTACCGCGCAGCGATATCATCGTGCTCGATAAGCCGAAAGATACGGAAGAGGAAGCGCTGGCGGTGAAGGGCGCCATCGGCGACGCGCCCTTCCTGCTGGTCACCTCGGCGTCACACCTTCCGCGGGCGATGATCTTCTTTCGCCATGCCGGTCTGGATCCGCTGCCCGCACCGGCTAATCAGATGGCGATCACGTCACCGCTCAATCCGTGGGAGCGAGTCATTCCTTCTCCGGTGTGGCTGATGCACAGCGACCGGGTCGGCTATGAAACGCTCGGTCGCGTTTGGCAATGGCTGAAAGGCAGCTCAGGCGAGCCAGGGCAGGAGTGA	MLFTLKKIVGGLLLPLPALLLLIGIGIALLWFSRFQRTGKLCVSLGWLLLALLSLQPVADSLLKPIEDRYPTWRGEQPVSYVVVLGGGYTWNPEWAPSSNLISNSLPRLTEGIRLWQENPGSKMIFTGAAAKTNPVSTAEAGARVAESLGVPRSDIIVLDKPKDTEEEALAVKGAIGDAPFLLVTSASHLPRAMIFFRHAGLDPLPAPANQMAITSPLNPWERVIPSPVWLMHSDRVGYETLGRVWQWLKGSSGEPGQE				NA	NA	NA	NA	NA
BMS020_02322	801	cmoM	COG0500	tRNA 5-carboxymethoxyuridine methyltransferase	GTGCAGGATCGCAATTTCGATGACATTGCTGAAAAGTTTTCGCGCAATATTTACGGCACCACAAAAGGCCAGCTGCGCCAGGCGATCCTCTGGCAGGATCTGGAGCCGCTGCTGGCGCAGCTGGGGCCGGGACCGCTGAGGGTGCTAGATGCCGGCGGCGGCGAAGGGCAAACGGCCATTAAAGTGGCGCAACTGGGCCATCACGTGACGCTGTGCGATCTCTCTGCTGAAATGGTGGCCCGCGCCCGCCAGGCTGCTGTCGATAAAGGTGTGATCGACAACATGCATTTTGTACAATGCGCGGCTCAGGATATTGCGCAGCACTTGGAAAGCCCGGTCGATCTGGTACTGTTTCATGCGGTGCTGGAGTGGGTGGCGGAGCCCCAGGCGGTGCTGCGTACCCTGTGGTCGACGCTGCGTCCTGGCGGCGGCTTGTCGTTGATGTTCTACAATGCTAACGGCCTGCTGATGCACAATATGGTTGCCGGTAATTTCGATTACGTACAACTGGGCATGCCAAAAAAGAAAAAACGCACGCTGTCGCCGGATTATCCGCGTGAGCCGCAACAGGTTTATCACTGGCTGGAAGAGATTGGCTGGCAAATTGTCAGCAAAACCGGCGTGCGGGTGTTTCATGATTATCTGCGTGAAAAACGCCAACAGCATGACAGCTATGCGGCGCTGCTGGAGCTGGAGACGCGCTACTGTCGTCAGGAGCCGTACCTCAGCCTGGGCCGTTATATTCATGTCACCGCGCTTAAGAGCCAGGCTCATAGCCGCAGATGCAAGGATAAAGTATGA	MQDRNFDDIAEKFSRNIYGTTKGQLRQAILWQDLEPLLAQLGPGPLRVLDAGGGEGQTAIKVAQLGHHVTLCDLSAEMVARARQAAVDKGVIDNMHFVQCAAQDIAQHLESPVDLVLFHAVLEWVAEPQAVLRTLWSTLRPGGGLSLMFYNANGLLMHNMVAGNFDYVQLGMPKKKKRTLSPDYPREPQQVYHWLEEIGWQIVSKTGVRVFHDYLREKRQQHDSYAALLELETRYCRQEPYLSLGRYIHVTALKSQAHSRRCKDKV	PGPT0023655_146	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023655-smtA-K06219	NA	NA
BMS020_02323	1323	mukF	COG3006	Chromosome partition protein MukF	ATGAGTGAATTTTCCCAGACAGTCCCCGAACTGGTTGCCTGGGCCAGGAAAAATGATTTTTCTATCTCGCTGCCGGTCGACAGGCTCTCTTTCCTGCTGGCGATCGCCACCCTGAATGGCGAACGGCTGGAAGGAGAAATGAGCGAGGGAGAACTGGTGGATGCGTTCCGCCACGTGAGTGATGCGTTTGAGCAGACCAGCGAAACCATCAGCCAGCGCGCCAATAATGCCATCAACGATTTGGTGCGCCAGCGTCTGCTGAACCGCTTTACCAGCGAAATTACCGAAGGCAATGCAATCTATCGTCTGACGCCGTTGGGGATCGGGATCACCGATTATTATATCCGGCAGCGCGAATTTTCGACGCTGCGTCTCTCGATGCAGTTGTCGATCGTCGCCGGCGAGCTGAAGCGCGCGGCGGACGCGGCAGAAGAGGGCGGCGATGAGTTTCACTGGCATCGCAACGTTTTTGCCCCGCTGAAGTATTCGGTGGCGGAAATTTTCGACAGCATCGACCTGACGCAGCGCATCATGGATGAGCAGCAGCAGCTGGTGAAAGATGATATCGCGCAGCTGTTGAACAAAGACTGGCGCGCGGCGATTTCCAGCTGTGAACTGTTGCTGTCGGAAACTTCCGGCACCCTGCGTGAACTGCAGGATACGCTGGATGCGGCGGGGGATAAGCTGCAGGCGAATCTGCTGCGCATTCAGGATTCGACCATGGCGCGCGACGATCTCCATTTTGTCGACCGGCTGGTGTTCGATCTGCAAAGCAAGCTCGACCGCATCGTCAGCTGGGGCCAGCAGGCGATTGACCTGTGGATCGGCTATGACCGCCACGTGCACAAGTTTATCCGTACCGCTATCGATATGGATAAGAACCGCGTCTTCGCTCAGCGTCTGCGCCAGTCGGTACAGACCTATTTTGATGAGCCGTGGGCGCTGACTTACGCCAATGCCGACCGTCTGCTGGATATGCGCGACGAGGAGATGGCCCTGCGCGATGAAGAGGTCACCGGCGAGCTGCCTGCGGACCTTGAATTTGAAGAGTTTAATGAAATTCGCGAGCAGCTGGCGGCGCTGATCGAAGCGCAGCTGGCGGTCTATAAAGAGAAAGGAATACCGCTGGATCTCGGCCTGGTGGCGCGGGAGTTCCTGGCGCAATATCCGCGCGGGCGTCACTTTGACGTGGCGCGGATCGTCGTGGATCAGGCGGTACAGCTGGGCGTCGCCCAGGCAGATTTCACCGGACTGCCAGCCAAATGGCAGCCGATTAATGATTACGGAGCCAAGGTACAGGCGCATGTCATTGACAAATATTGA	MSEFSQTVPELVAWARKNDFSISLPVDRLSFLLAIATLNGERLEGEMSEGELVDAFRHVSDAFEQTSETISQRANNAINDLVRQRLLNRFTSEITEGNAIYRLTPLGIGITDYYIRQREFSTLRLSMQLSIVAGELKRAADAAEEGGDEFHWHRNVFAPLKYSVAEIFDSIDLTQRIMDEQQQLVKDDIAQLLNKDWRAAISSCELLLSETSGTLRELQDTLDAAGDKLQANLLRIQDSTMARDDLHFVDRLVFDLQSKLDRIVSWGQQAIDLWIGYDRHVHKFIRTAIDMDKNRVFAQRLRQSVQTYFDEPWALTYANADRLLDMRDEEMALRDEEVTGELPADLEFEEFNEIREQLAALIEAQLAVYKEKGIPLDLGLVAREFLAQYPRGRHFDVARIVVDQAVQLGVAQADFTGLPAKWQPINDYGAKVQAHVIDKY				NA	NA	NA	NA	NA
BMS020_02324	705	mukE_2	COG3095	Chromosome partition protein MukE	ATGTCATTGACAAATATTGAACAAGTGATGCCGGTTAAGCTGGCGCAGGCGTTGGCCAATCCGTTATTTCCGGCGCTGGACAGCGCCCTGCGCGCGGGCCGACATATCGGCCTCGACGAGCTGGATAATCACGCATTTTTGATGGATTTCCAGGATTATCTGGAAGAGTTTTATGCTCGCTATAACGTCGAGCTGATCCGCGCGCCGGAGGGCTTCTTCTACCTGCGCCCGCGTTCCACAACCCTGATTTCACGCTCGGTGCTGTCCGAACTGGATATGATGGTGGGCAAAATTCTTTGCTATCTCTATCTCAGCCCGGAGCGCCTGGCAAATGAAGGGATTTTCACCCAGCAGGAGCTGTATGACGAGCTGCTGACCCTGGCGGATGAATCCAGGCTGCTGAAGCTGGTCAACAACCGTTCCACCGGTTCGGATCTGGATCGCCAGAAGCTGCAGGAAAAAATGCGCGCGTCGCTTAACCGCCTGCGCCGTCTGGGGATGGTGTGGTTTATGGGCCATGACAGCAGCAAGTTCCGTATTACCGAATCGGTATTCCGCTTTGGCGCCGATGTGCGCGCCGGCGACGACCCGCGAGAGGCGCAGCGCCGCCTGATCCGCGACGGGGAAGCGATGGCCCTGGAAAATCACCTGCAGCTCAATGATGAGAATGAAGAGAACCAGCCGGATAGCGGGGAGGAAGAGTAA	MSLTNIEQVMPVKLAQALANPLFPALDSALRAGRHIGLDELDNHAFLMDFQDYLEEFYARYNVELIRAPEGFFYLRPRSTTLISRSVLSELDMMVGKILCYLYLSPERLANEGIFTQQELYDELLTLADESRLLKLVNNRSTGSDLDRQKLQEKMRASLNRLRRLGMVWFMGHDSSKFRITESVFRFGADVRAGDDPREAQRRLIRDGEAMALENHLQLNDENEENQPDSGEEE				NA	NA	NA	NA	NA
BMS020_02325	4449	mukB_2	COG3096	Chromosome partition protein MukB	ATGATTGAACGCGGTAAGTTTCGCTCGCTGACGCTGGTTAACTGGAACGGTTTCTTTGCCCGGACCTTTGATCTTGATGAACTGGTCACCACCCTCTCCGGGGGGAACGGCGCCGGTAAGTCGACGACCATGGCGGCCTTCGTCACGGCGCTGATCCCTGATTTAACCCTGCTGCATTTCCGTAACACCACCGAAGCGGGGGCCACTAGCGGCTCACGCGATAAAGGCCTGCACGGGAAGCTGCGCGCCGGGGTCTGTTACTCCGTGCTCGACGTCATCAACTCGCGCCATCAGCGCGTGGTGGTCGGCGTGCGTCTGCAGCAGGTTGCCGGGCGCGATCGCAAAGTCGATATCAAGCCTTTCGCCATTCAGGGGCTGCCCACCGCTATCCTGCCGACCCAGCTGTTAACCGAAACGCTGAACGATCGCCAGGCGCGCGTGGTCAGTCTCAATGAGCTGAAAGACAAGCTCGAGGCGATGGAGGGGGTCCAGTTTAAGCAGTTCAACTCGATCACTGAGTATCACTCGCTGATGTTCGACCTGGGCGTGGTGGCGCGTCGTCTGCGTTCCGCCTCCGATCGAAGTAAATACTATCGCCTGATCGAGGCCTCGCTGTACGGCGGGATCTCCAGCACCATTACCCGCTCGCTGCGCGACTACCTGTTGCCGGAAAACAGCGGCGTGCGTAAGGCATTCCAGGATATGGAAGCGGCGCTGCGGGAAAACCGCATGACCCTCGAGGCGATCCGCGTCACCCAGTCCGATCGCGATCTGTTCAAACACCTGATCAGCGAAGCCACCAACTACGTGGCGGCGGACTATATGCGTCACGCCAACGAGCGGCGCATTCATCTTGATAAGGCGCTGGAGTATCGTCGCGATCTCTTTACCTCCCGTTCACAGCTGGCGGCAGAGCAGTATAAGCACGTCGACATGGCCCGCGAGCTGCAGGAGCATAACGGCGCAGAAGGCGATCTGGAAGCGGATTACCAGGCCGCCAGCGACCACCTGAACCTGGTGCAGACCGCACTGCGTCAGCAGGAAAAAATCGAGCGCTACGAAGCGGATCTCGACGAGCTGCAGATCCGTCTGGAAGAGCAGAACGAAGTGGTGGCGGAAGCCATCGATCGCCAGGAAGAGAACGAAGCCCGCGCCGAGGCCGCCGAGCTGGAAGTGGATGAGCTGAAAAACCAGCTCGCCGACTATCAGCAGGCGCTCGACGTGCAGCAGACCCGCGCCATTCAGTATAACCAGGCGCTGCAAGCGCTGGAGCGCGCGAAGGCGCTGTGTCATCTGCCGGATCTGACGCCGGAGAGCGCCGACGAGTGGCTGGAAACCTTCCAGGCGAAAGAGCAGGAAGCGACGGAGAAAATGCTGTCGCTGGAACAGAAAATGAGCGTGGCGCAAACCGCGCACAGCCAGTTTGAACAGGCCTACCAGCTGGTGGCGGCGATTAACGGCCCGCTGGCGCGCAATGAAGCCTGGGACGTGGCGCGCGAATTGCTGCGCGACGGCGTGAACCAGCGTCACCAGGCCGAGCAGGCGCAGGGGCTGCGTAGCCGCCTCAACGAGCTGGAGCAGCGCCTGCGCGAGCAGCAGGACGCCGAGCGCCAGCTGGCTGAGTTCTGCAAACGCCAGGGCAAACGCTACGATATCGACGATCTGGAAACGCTGCATCAGGAGCTGGAAGCGCGCATCGCTTCGCTGGCCGACAGCGTTTCTAACGCGCAGGAACAGCGCATGACCCTGCGCCAGGAGCTGGAGCAGCTGCAGTCGCGCACTCAGACGCTGATGCGCCGGGCGCCGGTCTGGCTGGCGGCGCAGAACAGCCTTAACCAGCTGTGCGAGCAGAGCGGCGAGCAGTTTGAGTCCGGCCAGGAGGTTACCGAATACCTGCAGCAGCTGCTGGAGCGCGAGCGCGAAGCTATCGTTGAACGTGACGAGATCGGCGCCCGCAAGCGCGCCATCGACGAAGAAATTGAGCGTCTCAGCCAGCCGGGCGGTTCGGAAGATCCGCGCCTCAACGCGCTGGCGGAACGGTTCGGCGGCGTTCTGCTGTCCGAGATCTACGATGATGTCAGCCTTGACGATGCGCCTTACTTCTCCGCGCTGTACGGTCCGTCGCGCCATGCCATCGTGGTGCCGGATCTGTCGCAGGTTGCCGAGCAGCTTGAAGGACTGGAAGATTGTCCGGAAGATCTCTATCTGATCGAAGGCGATCCGCAGTCCTTTGACGATAGCGTATTCAGCGTGGATGAGCTGGAAAAAGCGGTGGTGGTGAAGATCGCCGACCGCCAGTGGCGTTATTCACGCTTCCCGTCGCTGCCGCTGTTTGGCCGCGCCGCGCGTGAAAACCGCATTGAAACCCTGCATGCCGAGCGTGAATCGCTGTCCGAGCGTTTTGCGACCCTGTCGTTTGACGTGCAGAAAACTCAGCGTCTGCATCAGGCCTTTAGCCGCTTCATTGGCAGCCATCTGGCAGTGGCCTTTGAGGACGATCCGGAAGAAGAGATCCGCAAACTCAACAGCCGCCGCGGCGAGCTGGAGCGCGCGCTGAGCGCCCATGAAAGCGATAACCAACAGAACCGCGTGCAGTATGAGCAGGCGAAAGAGGGCGTGTCGGCGCTCAACCGCCTGCTGCCGCGCCTTAATCTGCTGGCGGATGATACGCTGGCCGACCGCGTGGACGAGATCCAGGAACGTCTGGACGAAGCGCAGGAGGCCGCGCGCTTTATTCAGCAGCACGGCAACCAGCTGGCGAAGCTGGAGCCGATTGTTTCGGTGCTGCAGAGCGATCCGGAGCAGTTTGAGCAGCTGAAAGAAGATTACGCCTATGCGCAGCAGACCCAGCGCGATGCGCGCCAGCAGGCTTTTGCCCTGGCGGAAGTCGTCCAGCGCCGGGCCCACTTCAGCTACTCCGATTCGGCGGAAATGCTCAGCGGCAACAGCGATCTCAACGAGAAACTGCGCCAGCGCCTGGAGCAGGCGGAAACCGAACGCAGCCGCGCGCGCGACGCGATGCGTGCCCATGCGGCGCAGCTTAGCCAGTACAATCAGGTGCTGGCCTCGCTGAAGAGCTCGTATGACACCAAGAAAGAGCTGCTCAACGATCTGTATAAAGAGCTGCAGGACATTGGCGTGCGCGCCGATGCCGGCGCGGAAGAGCGTGCCCGTGCGCGTCGCGATGAGCTGCACATGCAGCTGAGCAATAACCGCTCCCGTCGCAATCAGCTGGAGAAAGCGCTGACCTTCTGCGAAGCGGAAATGGACAACCTGACCCGCAAACTGCGCAAGCTGGAGCGCGATTACTGCGAAATGCGCGAGCAGGTAGTGACCGCCAAGGCGGACTGGTGCGCGGTGATGCGCCTGGTGAAAGACAACGGCGTCGAGCGTCGCCTGCACCGCCGCGAGCTGGCCTATCTCTCCGCCGACGAGCTGCGCTCCATGTCGGATAAGGCGCTCGGTGCGCTGCGTCTGGCGGTCGCCGATAACGAACATCTGCGTGACGTGCTGCGTATCTCGGAAGATCCGAAGCGCCCGGAGCGCAAAATTCAGTTCTTCGTTGCCGTCTACCAGCATCTGCGCGAGCGTATCCGCCAGGATATTATCCGCACTGATGATCCGGTGGAAGCGATCGAGCAGATGGAGATTGAGCTCAGCCGCCTGACCGAAGAGCTGACAAACCGCGAACAGAAGCTGGCCATCAGCTCCCGCAGCGTGGCCAACATTATTCGCAAAACCATTCAGCGCGAGCAGAACCGTATCCGAATGCTCAACCAGGGATTGCAGAGCGTCTCCTTCGGCCAGGTCAACAGCGTGCGTCTGAACGTCAACGTGCGCGAGACCCACTCGACGCTGCTTGATGTGCTCTCCGAGCAGCATGAACAGCATCAGGATCTGTTCAACAGCAACCGCCTGACCTTCTCGGAAGCGCTGGCCAAGCTCTATCAGCGCCTGAATCCGCAGATCGACATGGGGCAGCGCACGCCGCAAACCATCGGCGAAGAGCTGCTCGACTACCGCAACTATCTGGAGATGGAAGTGGAAGTTAACCGCGGCTCCGACGGCTGGCTGCGCGCGGAGTCCGGCGCGCTGTCCACCGGGGAAGCGATCGGTACCGGGATGTCGATTCTGGTGATGGTCGTCCAGAGCTGGGAAGATGAATCCCGCCGCCTGCGCGGCAAGGATATCTCGCCTTGCCGTCTGCTGTTCCTCGATGAAGCGGCGCGTCTCGACGCCCGCTCCATCGCCACGCTGTTCGAGCTGTGCGAACGTCTGGAGATGCAGCTGATTATCGCGGCGCCGGAGAACATCAGTCCGGAGAAAGGCACCACCTATAAACTGGTGCGTAAGGTGTTCAATAATCACGAACACGTCCACGTGGTGGGGCTGCGCGGGTTTGCCGCGCCGCTGCCGGAAGCGCTGCCGGGCACAGCCGACGCCTCCTGA	MIERGKFRSLTLVNWNGFFARTFDLDELVTTLSGGNGAGKSTTMAAFVTALIPDLTLLHFRNTTEAGATSGSRDKGLHGKLRAGVCYSVLDVINSRHQRVVVGVRLQQVAGRDRKVDIKPFAIQGLPTAILPTQLLTETLNDRQARVVSLNELKDKLEAMEGVQFKQFNSITEYHSLMFDLGVVARRLRSASDRSKYYRLIEASLYGGISSTITRSLRDYLLPENSGVRKAFQDMEAALRENRMTLEAIRVTQSDRDLFKHLISEATNYVAADYMRHANERRIHLDKALEYRRDLFTSRSQLAAEQYKHVDMARELQEHNGAEGDLEADYQAASDHLNLVQTALRQQEKIERYEADLDELQIRLEEQNEVVAEAIDRQEENEARAEAAELEVDELKNQLADYQQALDVQQTRAIQYNQALQALERAKALCHLPDLTPESADEWLETFQAKEQEATEKMLSLEQKMSVAQTAHSQFEQAYQLVAAINGPLARNEAWDVARELLRDGVNQRHQAEQAQGLRSRLNELEQRLREQQDAERQLAEFCKRQGKRYDIDDLETLHQELEARIASLADSVSNAQEQRMTLRQELEQLQSRTQTLMRRAPVWLAAQNSLNQLCEQSGEQFESGQEVTEYLQQLLEREREAIVERDEIGARKRAIDEEIERLSQPGGSEDPRLNALAERFGGVLLSEIYDDVSLDDAPYFSALYGPSRHAIVVPDLSQVAEQLEGLEDCPEDLYLIEGDPQSFDDSVFSVDELEKAVVVKIADRQWRYSRFPSLPLFGRAARENRIETLHAERESLSERFATLSFDVQKTQRLHQAFSRFIGSHLAVAFEDDPEEEIRKLNSRRGELERALSAHESDNQQNRVQYEQAKEGVSALNRLLPRLNLLADDTLADRVDEIQERLDEAQEAARFIQQHGNQLAKLEPIVSVLQSDPEQFEQLKEDYAYAQQTQRDARQQAFALAEVVQRRAHFSYSDSAEMLSGNSDLNEKLRQRLEQAETERSRARDAMRAHAAQLSQYNQVLASLKSSYDTKKELLNDLYKELQDIGVRADAGAEERARARRDELHMQLSNNRSRRNQLEKALTFCEAEMDNLTRKLRKLERDYCEMREQVVTAKADWCAVMRLVKDNGVERRLHRRELAYLSADELRSMSDKALGALRLAVADNEHLRDVLRISEDPKRPERKIQFFVAVYQHLRERIRQDIIRTDDPVEAIEQMEIELSRLTEELTNREQKLAISSRSVANIIRKTIQREQNRIRMLNQGLQSVSFGQVNSVRLNVNVRETHSTLLDVLSEQHEQHQDLFNSNRLTFSEALAKLYQRLNPQIDMGQRTPQTIGEELLDYRNYLEMEVEVNRGSDGWLRAESGALSTGEAIGTGMSILVMVVQSWEDESRRLRGKDISPCRLLFLDEAARLDARSIATLFELCERLEMQLIIAAPENISPEKGTTYKLVRKVFNNHEHVHVVGLRGFAAPLPEALPGTADAS				NA	NA	NA	NA	NA
BMS020_02326	1791	ycbB	COG2989	putative L,D-transpeptidase YcbB	ATGTTGCTAAAGAAACGGTATGGTCGTCCATTGTCAGCGCTCAGCCTGAGCCTGGCACTGGCATTTGCTCCGCTGTTCAATGTCCAGGCCGAAGAGCCTGAAGTCGTACCCGGCGACAGTTCTGCGGCGCCCGCCGAGGTTTCCGCCGCGCTGGCGCAAAGCGATGGGCAATCGCCGGCGGTCGCGAAGCTGGCCGGTGAGCAGCCGCTGTCGATGGAGGCGGCGGCAAACAGCCGCGCCCAGATCGAGGCGCTGTTGCCGGCAGGGTACAAACCCGTCTTTATGAATCCGCTGGTGTCGCTGTACGCCGCCAGGGATATGAAACCGATGTGGGAAAACCGCGAGGCAGTGCAGGCGTTCCAGCAGCAGCTGGCGGAGATCGCCATCGCCGGTTTTCAGCCGCAGTTTACCACCTGGGTCAGCCTGCTGACCGATCCCGCCGTCAGCGGCATGGCGCGCGATGTGGTGCTGTCGGACGCCATGATGGGCTATCTGCACTTTATCAGCGGCATCCCCACCCAGGGGACCCGCTGGTTGTACAGTTCAACGCCGTACAAGATGGCGACCCCGCCGCTGTCGGTGATTAACCAGTGGCAGCTGGCGCTGGACAATGGCTCCCTGCCGGCGTTTATCGCCGGCCTGGCGCCGCATCATCCGCAGTATGAAACCATGCATCAGTCGCTGCTGGCGCTGGTGGCTGATTCTCGCCCATGGCCGCAGATGACCGGCAGCGGCTCGCTGCGCCCCGGCGAATGGAGCAATGATATCGGCGCCCTGCGCGAGATCCTCCAGCGTACCGGAATGCTGGACGATACCGCCAATATCGTTCTGCCCGGCGATGTGGTGAGCCCATCGGCGAAGAAAAAGAGCAAACCTGCGGCGCGCGGCGTGTACGATCGCCAGCTGGTGGAGGGGGTTAAGCGCTTCCAGGCGATGCAGGGGCTGGGGGCGGATGGCGTCATCGGCCAGTCGACTCGCGACTGGCTCAACGTCTCTTCCGCGCAGCGCGCAGGTGTGCTGGCCCTGAACATTCAGCGTTTACGCTTACTGCCGGGCAAACTGTCCACCGGCATTATGGTCAATATTCCGGCGTTCTCGCTGGTCTATTACCAGGACGGCAGCCAGGTGCTGGCCTCGCGGGTAATTGTGGGGCGTCCGGATCGCAAAACGCCAATGATGAGCAGCGCGCTGAATAACGTGGTGGTCAATCCGCCATGGAACGTGCCGCCAACCCTGGCGCGCAAAGATATCCTGCCGAAGGTGCGTAACAATCCAGGCTATCTTGAGCAGCATGGCTACACCGTCATGCGCGGCTGGAACAGTAAAGAGACCATCGATCCTTATCGGGTCGACTGGTCGACCATCACCGAGAACAACTTACCGTTCCGTTTTCAGCAGGCGCCCGGAGCGCGTAACTCGCTCGGACGCTACAAGTTCAATATGCCGAGCTCCGATGCCATCTACCTGCACGATACGCCGAACCATAACCTGTTCCAGAAGGATGTTCGTGCGCTCAGCTCCGGCTGTGTGAGGGTGAATAAGGCTTCGGAGCTGGCCAATATGCTGCTGCAGGATGCGGGCTGGAATGACACGCGTATTTCCGATGCCCTGAAGCAAGGGGACACGCGCTATGTCAATATTCGGCAAAATATACCGGTGAATTTATATTACTTAACGGCGTTTGTGGACGCTGATGGACGTACACAATATCGAACAGATATTTACAATTACGATATCACCGCGCGATCCAGCGCACAAATTCTGACGAAAGCTGAGCAATTAATCAGGTAA	MLLKKRYGRPLSALSLSLALAFAPLFNVQAEEPEVVPGDSSAAPAEVSAALAQSDGQSPAVAKLAGEQPLSMEAAANSRAQIEALLPAGYKPVFMNPLVSLYAARDMKPMWENREAVQAFQQQLAEIAIAGFQPQFTTWVSLLTDPAVSGMARDVVLSDAMMGYLHFISGIPTQGTRWLYSSTPYKMATPPLSVINQWQLALDNGSLPAFIAGLAPHHPQYETMHQSLLALVADSRPWPQMTGSGSLRPGEWSNDIGALREILQRTGMLDDTANIVLPGDVVSPSAKKKSKPAARGVYDRQLVEGVKRFQAMQGLGADGVIGQSTRDWLNVSSAQRAGVLALNIQRLRLLPGKLSTGIMVNIPAFSLVYYQDGSQVLASRVIVGRPDRKTPMMSSALNNVVVNPPWNVPPTLARKDILPKVRNNPGYLEQHGYTVMRGWNSKETIDPYRVDWSTITENNLPFRFQQAPGARNSLGRYKFNMPSSDAIYLHDTPNHNLFQKDVRALSSGCVRVNKASELANMLLQDAGWNDTRISDALKQGDTRYVNIRQNIPVNLYYLTAFVDADGRTQYRTDIYNYDITARSSAQILTKAEQLIR	PGPT0023755_474	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-L|D_TRANSPEPTIDASE_ACTIVITY,PGPT0023755-ycbB-K21470	NA	NA
BMS020_02327	216			hypothetical protein	ATGTATATGCACTTCTGGCGCACGAAAGGCACCTTACCGGGCATTATTGCCAACGTCAAGGCAGCCTCACCCCAGGAAAATCGGGCGCTGCAGAGGAGCAGCGCCCTTTTTTACCCAGTGCTAGGACAACAAAATCCATTGAACTACTTCATTTACCTGATTAATTGCTCAGCTTTCGTCAGAATTTGTGCGCTGGATCGCGCGGTGATATCGTAA	MYMHFWRTKGTLPGIIANVKAASPQENRALQRSSALFYPVLGQQNPLNYFIYLINCSAFVRICALDRAVIS				NA	NA	NA	NA	NA
BMS020_02328	648	gloC	COG0491	Hydroxyacylglutathione hydrolase GloC	ATGAACTATCGTATTATTCCGGTTACCGCGTTCGCGCAGAACTGTTCTCTTATCTGGTGCGAACAAACCCGGCTGGCGGCGCTGGTCGATCCTGGCGGCGATGCTGAACGTATCAAAGCGGTGGTGGCGGAGGCTGGCGTCACGCTGATGCAGATCCTGCTGACGCATGGCCATCTCGATCACGTCGGCGCCGCTGCGGAACTGGCGCAGCATTATGGCGTACCGGTTATTGGTCCGGAAAAAGAAGATGAGTTCTGGCTGGAAGGATTACCGGCGCAAAGCCGGATGTTCGGCCTGGAGGATTGCCAGCCGCTGCGTCCGGATCGCTGGCTCAATGAAGGCGATGTGGTTAATGTGGGGAATGTGGCGCTGCGGGTACTGCACTGCCCGGGCCATACGCCGGGTCACGTGGTCTTCTTTGATGACGCTTCCCGACTGCTCATTTCCGGAGATGTGATTTTCAAAGGCGGGGTGGGGCGCAGTGATTTTCCACGCGGCGACCATGGACAGCTGATCGCGGCCATTAAGGATAAGCTGTTGCCGCTGGGCGATGACGTGACCTTTATTCCCGGCCATGGTCCGCTGTCGACGCTGGGTGAGGAACGCCGCAACAACCCGTTCCTGCAGGATGAGATGCCGGTCTGGTAA	MNYRIIPVTAFAQNCSLIWCEQTRLAALVDPGGDAERIKAVVAEAGVTLMQILLTHGHLDHVGAAAELAQHYGVPVIGPEKEDEFWLEGLPAQSRMFGLEDCQPLRPDRWLNEGDVVNVGNVALRVLHCPGHTPGHVVFFDDASRLLISGDVIFKGGVGRSDFPRGDHGQLIAAIKDKLLPLGDDVTFIPGHGPLSTLGEERRNNPFLQDEMPVW	PGPT0001770_6076	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
BMS020_02329	1191	aspC_1	COG1448	Aspartate aminotransferase	ATGTTTGAGAACATTACCGCCGCCCCAGCCGACCCGATTTTAGGTCTGGCCGATCTGTTTCGTGCCGATGACCGCCCTGAAAAGATTAACCTCGGAATTGGTGTTTACAAGGATGAAACCGGTAAAACACCCGTTCTGACCAGCGTCAAAAAAGCAGAGCAGTACCTGCTGGAAAATGAAACGACTAAAAACTATCTGGGCATCGATGGTATTCCTGAATTTGGTCGCTGCACCCAGGAGCTGCTGTTCGGTAAAGGCAATGCGATTATCGCCGATAAACGCGCCCGCACCGCGCAGACCCCGGGCGGTACCGGTGCGCTGCGCGTCGCCGCAGACTTCCTCGCCAAAAACACCGACGTGAAACGCGTGTGGGTAAGCAATCCAAGCTGGCCAAACCATAAGAGTGTGTTTACCTCCGCCGGGCTGGAAGTACGTGAATATGCCTACTACGATGCGGCTAACCACGCGCTGGACTTTGATGGTCTGCTGGCCAGCCTGAACGAAGCCCAGGCGGGCGACGTGGTACTGTTCCACGGCTGCTGCCACAACCCGACCGGTATCGATCCGACGCTCGAACAGTGGCAGACGCTGGCGCAGCTGTCGGTCGAGAAAGGCTGGCTGCCGCTGTTCGATTTCGCCTACCAGGGCTTCGCCCGCGGTCTGGAAGAAGATGCTGAAGGGTTGCGCGCCTTTGCTGCTCTGCATAAAGAGCTGCTGGTCGCCAGCTCCTACTCGAAAAACTTTGGCCTGTACAACGAGCGCGTCGGCGCCTGCACCCTGGTCGCCGCCGATCAGGAGACCGTAGACCGCGCGTTCAGCCAGATGAAGTCGGTGATCCGCGCTAACTACTCCAACCCGCCAGCGCACGGCGCGTCCGTGGTCGCGACCATCCTGAGCAACGATGCGCTGCGGGCAATCTGGGAGCAGGAGCTGACCGATATGCGCCAGCGCATCCAGCGTATGCGCCTGCTGTTCGTCAACACCCTGCAGGAGAAAGGCGCGAGCCGCGACTTCAGCTTTATCAGCAAGCAGAACGGTATGTTCTCGTTCAGCGGCCTGACTAAAGAGCAAGTGCTGCGTCTGCGTGAAGAGTTCGCCATCTATGCGGTCGCGTCCGGCCGTATCAACGTGGCCGGCATGACGCCTGACAACATGGCGCCGCTGTGTGAAGCCATCGTCGCCGTGCTGTAA	MFENITAAPADPILGLADLFRADDRPEKINLGIGVYKDETGKTPVLTSVKKAEQYLLENETTKNYLGIDGIPEFGRCTQELLFGKGNAIIADKRARTAQTPGGTGALRVAADFLAKNTDVKRVWVSNPSWPNHKSVFTSAGLEVREYAYYDAANHALDFDGLLASLNEAQAGDVVLFHGCCHNPTGIDPTLEQWQTLAQLSVEKGWLPLFDFAYQGFARGLEEDAEGLRAFAALHKELLVASSYSKNFGLYNERVGACTLVAADQETVDRAFSQMKSVIRANYSNPPAHGASVVATILSNDALRAIWEQELTDMRQRIQRMRLLFVNTLQEKGASRDFSFISKQNGMFSFSGLTKEQVLRLREEFAIYAVASGRINVAGMTPDNMAPLCEAIVAVL	PGPT0020115_687	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TRYPTOPHANE_DEGRADATION,PGPT0020115-aspC-K00813	NA	NA
BMS020_02330	1083	yedS	COG3203	Outer membrane protein YedS	ATGATGAAGCGCAATATTCTGGCAGTGGTGATCCCTGCCCTGCTGGTAGCCGGTGCAGCTAACGCTGCAGAAATCTATAACAAAAACGGCAACAAACTGGACTTCTACGGAAAAATGGTCGGCGAGCACGTCTGGACCACCAATGGCAAGACCAGCAGCGACGATACCACCTACGCCCGTATCGGCCTGAAAGGCGAAACCCAGATCAACGATCAGCTTACCGGATACGGTCAGTGGGAATACAACATGGACGCCTCCAACGTTGAAGGTTCCCAGCCGACGAAAACCCGTCTGGCGTTCGCAGGTCTGAAAGCGGGCGAGTATGGTTCATTCGACTACGGCCGTAACTACGGCGCGATCTACGACGTCGAAGCAGCAACCGATATGCTGGTTGAATGGGGTGGCGACGGTTGGAACTACACCGACAACTACATGACCGGCCGTACCAACGGCGTGGCAACCTACCGTAACTCTGACTTCTTCGGTCTGGTTGACGGCCTGAGCTTCGCGCTGCAGTACCAGGGTAAAAACGACCACGACCGTTCGATTCACAAGCAGAATGGCGACGGCTTCAGCACCGCGGCGACCTACGCGTTCGACAACGGTATCGCGCTGTCTGCTGGCTACTCCGGCTCCAACCGCAGCGTAGACCAGAAAGCTGACGGCAATGGCGACAAAGCCGAAGCCTGGGCAACCTCTGCAAAATATGACGCCAACAATGTCTACGCGGCCGTCATGTACTCCCAGACTTACAACATGACCCCGGAAAACCAGGGTAACTACTTCGCTGGCAAAACCCAGAACTTCGAAGCCGTTGTACAGTATCAGTTCGACTTCGGCCTGCGTCCGTCCATCGGCTACGTACAGACCAAAGGCAAAGACCTGCAGGCGCGCGGCGGCTTCTCCGGCGGCGATGCGGATCTGGTTAAATACGTCGAAGTGGGTACCTGGTACTACTTCAACAAGAACATGAACGTTTATGCGGCGTACAAGTTCAACCAACTGGACGACAACGCTTATACGCGTGAAGCTGGCGTAGCGACCGACGACCAGGCGGCCGTGGGTATCGTTTACCAGTTCTAA	MMKRNILAVVIPALLVAGAANAAEIYNKNGNKLDFYGKMVGEHVWTTNGKTSSDDTTYARIGLKGETQINDQLTGYGQWEYNMDASNVEGSQPTKTRLAFAGLKAGEYGSFDYGRNYGAIYDVEAATDMLVEWGGDGWNYTDNYMTGRTNGVATYRNSDFFGLVDGLSFALQYQGKNDHDRSIHKQNGDGFSTAATYAFDNGIALSAGYSGSNRSVDQKADGNGDKAEAWATSAKYDANNVYAAVMYSQTYNMTPENQGNYFAGKTQNFEAVVQYQFDFGLRPSIGYVQTKGKDLQARGGFSGGDADLVKYVEVGTWYYFNKNMNVYAAYKFNQLDDNAYTREAGVATDDQAAVGIVYQF	PGPT0012995_289	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-PORIN_METABOLISM|TRANSPORT,PGPT0012995-ompF-K09476	NA	NA
BMS020_02331	1401	asnS_1	COG0017	Asparagine--tRNA ligase	ATGAGCGTTGTGCCTGTAGCCGACGTACTCCAGGGCCGCGTTGCCGTTGACAGCGAAGTCACGGTCCGCGGATGGGTGCGTACCCGCCGAGATTCAAAAGCTGGCTTTTCATTCCTCGCCGTCTATGACGGTTCCTGCTTTGATCCTGTACAGGCCGTTATTAATAATTCTCTGCCAAATTACAATCAGGAAGTGCTGCGTCTGACCACCGGTTGCTCGGTGATTGTCACCGGTAAAGTCGTGGCTTCCCAGGGCCAGGGTCAAAGCTTTGAGATCCAGGCGACCAACGTGGAAGTGACCGGCTGGGTGGAAGACCCGGACACCTACCCGATGGCGGCCAAGCGCCACAGCATCGAGTATCTGCGTGAGGTGGCCCACCTGCGTCCGCGCACCAACCTGATCGGCGCAGTTGCCCGCGTGCGTCACACCCTGGCGCAGGCGCTGCATCGCTTCTTTGATGAGCAGGGCTTCTTCTGGGTCTCCACCCCGCTGATTACCGCCTCCGATACCGAAGGCGCCGGCGAAATGTTCCGCGTGTCGACGCTGGATCTGGAAAACCTGCCGCGTAACGATCAGGGCAAAGTCGATTTCGACAAAGACTTCTTCGGTAAAGAGTCGTTCCTGACCGTTTCCGGCCAGCTGAACGGCGAGACCTATGCCTGCGCGCTGTCGAAGATTTACACCTTCGGCCCGACCTTCCGTGCGGAAAACTCCAACACCAGCCGCCACCTGGCGGAGTTCTGGATGCTGGAGCCGGAAGTGGCCTTCGCTAACCTGAACGATGTTGCCGGCCTGGCGGAAGCGATGCTCAAGTACGTCTTTAAAGCGGTACTGGAAGAGCGCGCGGACGACATGCAGTTCTTCGCCGAGCGCGTTGATAAAGACGCTATCGACCGTCTGCAGCGCTTTATCACCGCTGATTTTGCGCAGGTGGATTATACCGACGCCGTCACTATTCTGGAAAACTGCGGCAAGCAGTTCGAGAACCCGGTCTACTGGGGCGTGGATCTCTCCTCCGAGCACGAACGTTACCTGGCTGAAGAACACTTCAAAGCGCCGGTGGTAGTGAAAAACTATCCGAAAGATATTAAAGCCTTTTACATGCGCCTTAACGAAGACGGTAAAACCGTCGCGGCAATGGACGTCCTGGCACCGGGTATTGGCGAGATCATCGGCGGTTCCCAACGTGAAGAGCGCCTCGACGTGCTCGACGCGCGTATGGCCGAGATGGGTCTGAATAAAGAAGACTACTGGTGGTATCGCGACCTGCGCCGCTACGGCACCGTTCCACACTCCGGCTTTGGCCTGGGCTTCGAGCGTCTGATTGCCTACGTGACCGGCGTGCAGAACGTCCGCGATGTCATCCCGTTCCCGCGGACCCCGCGCAACGCGACATTCTAA	MSVVPVADVLQGRVAVDSEVTVRGWVRTRRDSKAGFSFLAVYDGSCFDPVQAVINNSLPNYNQEVLRLTTGCSVIVTGKVVASQGQGQSFEIQATNVEVTGWVEDPDTYPMAAKRHSIEYLREVAHLRPRTNLIGAVARVRHTLAQALHRFFDEQGFFWVSTPLITASDTEGAGEMFRVSTLDLENLPRNDQGKVDFDKDFFGKESFLTVSGQLNGETYACALSKIYTFGPTFRAENSNTSRHLAEFWMLEPEVAFANLNDVAGLAEAMLKYVFKAVLEERADDMQFFAERVDKDAIDRLQRFITADFAQVDYTDAVTILENCGKQFENPVYWGVDLSSEHERYLAEEHFKAPVVVKNYPKDIKAFYMRLNEDGKTVAAMDVLAPGIGEIIGGSQREERLDVLDARMAEMGLNKEDYWWYRDLRRYGTVPHSGFGLGFERLIAYVTGVQNVRDVIPFPRTPRNATF				NA	NA	NA	NA	NA
BMS020_02332	1239	pncB	COG1488	Nicotinate phosphoribosyltransferase	ATGGAACGCTCCAGTGAGAGGATGCTACTGCGCACCATGACACAATTCACTTCTCCTGTACTGCATTCGCTGCTTGATACGGATGCCTACAAGCTGCACATGCAGCAGGCTGTCTTCCACCGCTACGGCGATGTACATGTGGCGGCGGAGTTTCGCTGCCGTGGAGACGACCTGCTCGGCATTTATGCCGACGCGATCCGCGAGCAGGTGGAGTCCATGCGCGATCTGAGGCTGCGGGATGATGAATATCGCTGGCTGTCCACCCTTCCCTTTTTTCGCCAGGATTACCTCGACTGGCTGCGCGATTTTCGCTATGACCCGCGCCAGGTCACGGTCGCCAATGACAACGGCAAGCTGAACATTCGCCTCACTGGCCCGTGGCGGGAAGCCATCATGTGGGAAGTCCCCCTGCTGGCGGTGATAAGCGAGCTGGTCCATCGCTACCGTTCACCCGAGATGGGCGTTGAACAAGCGCTAAACGCGCTGGAGCATAAGCTAGGCGACTTCGCCACCATGACCGCTGACCTCGATATGAGCGCCTTCCGCCTGATGGATTTCGGCACCCGCCGTCGTTTTTCACGCGATGTACAGGAAGCCATTGTGCAACGCCTGCAGCAGGAGCCCTGGTTTGTCGGCACCAGCAACTACGATCTGGCGCGCCGTCTGAACTTAACCCCGATGGGCACCCAGGCCCATGAGTGGTTCCAGGCCCACCAGCAGATCAGCCCGAACCTGGCCAGCAGCCAGCGGGCGGCCCTCGCCGCCTGGCTGGAAGAGTATCCTGACCAGCTGGGCATCGCGCTGACCGACTGCATCACCATGGATGCGTTCCTGCGCGATTTCGGTCCGGAGTTCGCCACCCGCTATCAGGGTTTGCGCCACGACTCCGGCGACCCGGTGGAATGGGGTGAAAAAGCCATCGCCCATTACCAGAAGCTGGGCATCGATCCGCTGAGCAAAGTGCTGGTCTTCTCCGATAATCTCGACCTGGCGAAAGCCGTCGACCTGTATCGCCACTTCGCCTCGCGGGTGAAGCTGAGCTTTGGTATTGGTACCCGTTTAACCTGCGATCTGCCGCAGGTTAAACCGCTCAATATCGTGATTAAGCTGGTGGAATGTAACGGCAAGCCGGTGGCGAAACTCTCCGACAGCCCGGGGAAAACCATCTGCCACGATAAGGCCTTCGTCCGCGCCCTGCGCGAGGCGTTCGACCTGCCGCCGATTAAAAAGGCGAGCTAA	MERSSERMLLRTMTQFTSPVLHSLLDTDAYKLHMQQAVFHRYGDVHVAAEFRCRGDDLLGIYADAIREQVESMRDLRLRDDEYRWLSTLPFFRQDYLDWLRDFRYDPRQVTVANDNGKLNIRLTGPWREAIMWEVPLLAVISELVHRYRSPEMGVEQALNALEHKLGDFATMTADLDMSAFRLMDFGTRRRFSRDVQEAIVQRLQQEPWFVGTSNYDLARRLNLTPMGTQAHEWFQAHQQISPNLASSQRAALAAWLEEYPDQLGIALTDCITMDAFLRDFGPEFATRYQGLRHDSGDPVEWGEKAIAHYQKLGIDPLSKVLVFSDNLDLAKAVDLYRHFASRVKLSFGIGTRLTCDLPQVKPLNIVIKLVECNGKPVAKLSDSPGKTICHDKAFVRALREAFDLPPIKKAS	PGPT0013375_3238	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013375-pncB-K00763	NA	NA
BMS020_02333	2616	pepN_1	COG0308	Aminopeptidase N	ATGACACAACAGCCCCAAGCCAAATACCGCCACGACTATCGTGCGCCGGAGTATCTGATTAGCGATATCGATTTGACCTTTGACCTGGATGCCGCAAAAACCGTTGTTACGGCCGAGAGCAAGGTCTCCCGCCATGCGGCTGCGTCTGATGTGCCATTGCGCCTGGACGGCGAAGATCTGACCCTGATCGCTCTGCAGGTGAACGGCCAGCCGTGGAGCGACTATAAAGAAGAAAACAATCAGCTGGTGATCGGCGGCCTGCCGGAGCATTTCACCCTGACCATCGTCAATGAGATCAGCCCGGCGGCGAACACCGCGCTGGAAGGCCTGTATCAGTCAGGCGAAGCGCTGTGCACCCAGTGTGAAGCGGAAGGTTTCCGCCATATCACCTGGTACCTGGACCGTCCGGATGTGCTGGCGCGCTTTACCACCAAAATTATCGCCGATAAAGCCAAATATCCGTTCCTGCTCTCCAACGGCAACCGGATGGCGGAAGGGGAACTGAAGAACGGTCGTCACTGGGTACAGTGGCAGGATCCCTTCCCGAAGCCGTGCTACCTGTTTGCGCTGGTGGCCGGTGATTTCGACGTCCTGCGCGACACTTTTACCACCCGCTCCGGGCGTGAAGTGGCGCTGGAATTGTACGTCGACCGCGGTAACCTCGACCGCGCGCCGTGGGCGATGACCTCGCTGAAAAACTCCATGAAATGGGATGAGGAGCGCTTTGGCCTCGAGTACGACCTCGACATCTATATGATTGTCGCCGTCGACTTCTTCAATATGGGAGCGATGGAAAACAAAGGGCTGAACGTCTTTAACTCCAAATATGTCCTGGCCCGCACCGACACTGCCACCGATAAAGACTACCTCGATATCGAGCGGGTGATTGGCCATGAGTATTTCCATAACTGGACCGGCAACCGCGTCACCTGTCGCGACTGGTTCCAGCTCAGCCTGAAAGAGGGGCTGACCGTGTTCCGCGATCAGGAGTTCAGTTCCGACCTCGGCTCGCGGGCGGTGAACCGCATTAACAACGTGCGCACCATGCGCGGGCTGCAGTTTGCCGAAGACGCCAGCCCGATGGCGCACCCGATCCGCCCGGATATGGTTATCGAGATGAATAACTTCTATACCCTGACGGTCTATGAAAAGGGTGCCGAAGTGATCCGCATGCTGCACACGCTGCTGGGTGAAGAAAACTTCCAGAAAGGGATGCAGCTATATTTCGAACGTCATGACGGCAGCGCCGCCACCTGCGACGATTTCGTCCAGGCGATGGAAGATGCTTCTAACGTCGACCTGTCGCACTTCCGCCGCTGGTACAGCCAGTCCGGTACGCCGATTGTCACCGTCCACGACGACTATAACCCGGAAACCGAGCAGTATACGCTGACCATCAGCCAGCGCACGCCGCCGACCGCCGAGCAGGCTGAGAAACAGCCGCTGCATATTCCGTTTGCCATCGAGCTGTACGATAACGAAGGTAAGGTGATCCCCCTGCAGAAGGGCGGTCATCCGCTGCACCCGGTGCTTAATGTGACCCAGGCTGAGCAGACCTTCGTCTTTGATAATGTCTATTTCCAGCCGGTCCCGGCCCTGCTGTGCGAGTTTTCAGCACCGGTGAAACTGGAATACAAGTGGAGCGATCAGCAGCTGACCTTCCTGATGCGCCATGCGCGGAATGATTTCTCGCGCTGGGATGCGGCGCAGAGTCTGCTGGCGACCTACATCAAGCTGAACGTCAACCGTCATCAGCAGGGACAGCCGCTGTCGCTGCCGGTGCACGTGGCGGACGCCTTCCGCGCGATTCTGCTCGACGAGAAGATTGACCCGGCGCTGGCCGCCGAGATCTTAACCCTGCCGTCGGCCAACGAAATCGCCGAGATGTTCGCCATTATCGATCCTATCGCCATCGCCACCGTGCGCGAGGCGCTCACCCGCACCCTGGCGAACGAGCTGGCGGACGAATTCCTCGCGGTATATAACGCCAATAAGCTCGACAGCTACCGGGTGGAGCACGCCGATATCGGTAAGCGAGCCCTGCGCAATACCTGCCTGCGCTATCTGGCGTTCGCAGAGCCGACGCTGGGCGATAAGCTGGTGGCGGCGCAGTATCACCAGGCGGATAACATGACCGACGCGCTGGCCGCGCTGTCGGCGGCGGTTGCCGCTGAGCTGCCGTGCCGCGATGCGCTGATGCAGGAGTATGACGACAAATGGCATCAGGACGGCCTGGTGATGGACAAGTGGTTTATCCTGCAGTCCACCAGTCCGGCGGCCAATGTGGTCGAAACGGTACGCGGTCTGCTGAACCATCGTTCGTTCAGCATGAGCAACCCGAACCGCGTGCGGTCGCTCATCGGCGCTTTCGCCAGCAGCAACCCGGCGGCGTTCCATGCTGAAGACGGTAGCGGCTACCAGTTCCTGGTGGAGATGCTGACCGAGCTTAACCAGCGCAACCCGCAGGTCGCATCGCGACTGATTGAGCCGTTGATTCGTCTGAAGCGTTATGATGAGAAACGCCAGGCGCTGATGCGCGCCGCGCTGGAGCAGCTGAAGGGGCTGAAGGATCTCTCAGGCGATCTGTACGAGAAAATCAGTAAGGCGCTGGCGTAA	MTQQPQAKYRHDYRAPEYLISDIDLTFDLDAAKTVVTAESKVSRHAAASDVPLRLDGEDLTLIALQVNGQPWSDYKEENNQLVIGGLPEHFTLTIVNEISPAANTALEGLYQSGEALCTQCEAEGFRHITWYLDRPDVLARFTTKIIADKAKYPFLLSNGNRMAEGELKNGRHWVQWQDPFPKPCYLFALVAGDFDVLRDTFTTRSGREVALELYVDRGNLDRAPWAMTSLKNSMKWDEERFGLEYDLDIYMIVAVDFFNMGAMENKGLNVFNSKYVLARTDTATDKDYLDIERVIGHEYFHNWTGNRVTCRDWFQLSLKEGLTVFRDQEFSSDLGSRAVNRINNVRTMRGLQFAEDASPMAHPIRPDMVIEMNNFYTLTVYEKGAEVIRMLHTLLGEENFQKGMQLYFERHDGSAATCDDFVQAMEDASNVDLSHFRRWYSQSGTPIVTVHDDYNPETEQYTLTISQRTPPTAEQAEKQPLHIPFAIELYDNEGKVIPLQKGGHPLHPVLNVTQAEQTFVFDNVYFQPVPALLCEFSAPVKLEYKWSDQQLTFLMRHARNDFSRWDAAQSLLATYIKLNVNRHQQGQPLSLPVHVADAFRAILLDEKIDPALAAEILTLPSANEIAEMFAIIDPIAIATVREALTRTLANELADEFLAVYNANKLDSYRVEHADIGKRALRNTCLRYLAFAEPTLGDKLVAAQYHQADNMTDALAALSAAVAAELPCRDALMQEYDDKWHQDGLVMDKWFILQSTSPAANVVETVRGLLNHRSFSMSNPNRVRSLIGAFASSNPAAFHAEDGSGYQFLVEMLTELNQRNPQVASRLIEPLIRLKRYDEKRQALMRAALEQLKGLKDLSGDLYEKISKALA				NA	NA	NA	NA	NA
BMS020_02334	774	ssuB_3	COG1116	Aliphatic sulfonates import ATP-binding protein SsuB	ATGAACACTGCCCGTCTGAACCCAGGTATCCCGCTGCTGCTGAACGGGGTGACTAAACGCTATGGCGACAACACCATTCTTAACGAGCTGGATCTGCATATCCCCAGCGGCCAGTTTGTGGCGGTGGTGGGCCGCAGCGGCGGCGGCAAAAGCACCCTGCTGCGCCTGCTGGCGGGCCTGGAAAAGCCGAATGCCGGCGAGCTGCTGGCAGGCGCGACGCCGCTGGCGGCGATCCAGGACGACACCCGGATGATGTTTCAGGATGCGCGCCTGCTGCCGTGGAAAACGGTGATTGATAACGTGGGGCTGGGGTTAAAAGGCGCCTGGCGCGACGCCGCCCTGCAGGCGTTGGCCAGCGTCGGACTCGAGAGTCGCGCGCAGGAGTGGCCGGCGGCGCTGTCGGGCGGGCAGAAGCAGCGCGTTGCGCTGGCCCGCGCACTGATCCATCGCCCGCGCCTGCTGCTGCTGGACGAGCCGCTGGGGGCGCTGGACGCCCTCACCCGTCTGGAGATGCAGGAGCTGATCGTCTCCCTGTGGCAGGAGCATGGCTTTACGGTCCTGCTGGTGACCCACGACGTCAGCGAAGCCGTGGCGATGGCCGACCGGGTGCTGTTGATTGAAGAGAAGAAGATCGGTCTCGATTTGAACGTGGATATTCCGCGACCGCGGCGCACCGGTTCGGCGAAGCTGGCCGAGCTGGAGGCGGAGGTGCTGGATCGGGTGATGAAACGCGGCAAGAGCGAGAGCGCACCGCGTTTGTTTAGTCATGGCTAA	MNTARLNPGIPLLLNGVTKRYGDNTILNELDLHIPSGQFVAVVGRSGGGKSTLLRLLAGLEKPNAGELLAGATPLAAIQDDTRMMFQDARLLPWKTVIDNVGLGLKGAWRDAALQALASVGLESRAQEWPAALSGGQKQRVALARALIHRPRLLLLDEPLGALDALTRLEMQELIVSLWQEHGFTVLLVTHDVSEAVAMADRVLLIEEKKIGLDLNVDIPRPRRTGSAKLAELEAEVLDRVMKRGKSESAPRLFSHG	PGPT0003035_1150	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003035-ssuC-K15555	NA	NA
BMS020_02335	792	ssuC_1	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGGCAAAATCAACCTATCCTCTGTTGTTACGCCTCGCCCCCTGGCTGCTGCCGGTGGGAACGGTCATTGTCTGGCAGCTGGCGTCGTCCGTCGGCTGGCTGTCGACGCGGGTGCTACCCTCGCCGGAGGGCGTATTGAAAGCGTTCTGGACGCTCTCGGCCAGCGGTGAGCTGTGGCAGCATCTTGCCATTAGCTCGTGGCGGGCGCTGGTCGGCTTCGCCATCGGCGGCTCCATTGGACTGGTGCTCGGCCTGATCAGCGGTCTGTCACGCTGGGGCGAGCGCCTGCTGGACACATCGATCCAGATGCTGCGCAATGTGCCGCACCTGGCGCTGATCCCACTGGTGATCTTGTGGTTCGGCATCGATGAGACCGCCAAGATCTTCCTCGTATCGCTGGGGACCCTGTTCCCGATCTATATCAATACCTGGCACGGGATCCGCAATATCGACCGTGGGCTGGTGGAGATGGCGCGCAGCTATGGTTTATCCGGCTTTGCTCTTTTCCGTCACGTGATTTTACCCGGCGCCCTGCCCTCGATTATGGTCGGCGTGCGTTTTGCCCTCGGTCTGATGTGGCTGACGCTTATTGTCGCCGAAACCATCTCGGCGAACGCCGGTATCGGCTACCTGGCGATGAATGCGCGTGAATTTCTGCAAACCGACGTGGTGGTGGTCGCCATCATTCTTTACGCCATTCTTGGCAAACTGGCCGACGTCAGCGCCCAGCTGCTGGAGCGGCTCTGGCTGCGCTGGAACCCGGCGTATCATCTTCAGGAGGCTAACGCATGA	MAKSTYPLLLRLAPWLLPVGTVIVWQLASSVGWLSTRVLPSPEGVLKAFWTLSASGELWQHLAISSWRALVGFAIGGSIGLVLGLISGLSRWGERLLDTSIQMLRNVPHLALIPLVILWFGIDETAKIFLVSLGTLFPIYINTWHGIRNIDRGLVEMARSYGLSGFALFRHVILPGALPSIMVGVRFALGLMWLTLIVAETISANAGIGYLAMNAREFLQTDVVVVAIILYAILGKLADVSAQLLERLWLRWNPAYHLQEANA	PGPT0003030_1718	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003030-ssuB-K15554	NA	NA
BMS020_02336	1146	ssuD	COG2141	Alkanesulfonate monooxygenase	ATGAGTCTGAATATGTTCTGGTTTTTACCGACCCATGGTGATGGTCGTTATCTGGGTACCGAAGAGGGAGCCCGTCCGGTCGATTACGGCTATCTGCAGCAAATCGCGCAGACGGCGGATCGGCTGGGATTCACCGGCGTACTGATCCCGACCGGGCGCTCATGTGAAGATGCCTGGCTGGTTGCGGCCTCGATGATCCCGGTAACGCAGCGGCTGAAATTCCTAGTCGCCCTGAGGCCAAGCGTGGTGTCGCCGACGGTGGCCGCGCGCCAGGCGGCGACCCTGGACCGACTGTCGAACGGCCGGGCGCTGTTCAATCTGGTCACCGGCAGCGATCCCGCCGAGCTGGCAGGCGACGGTGTCTTCCTCGACCACACCGAGCGCTATGAGGCCTCGGCTGAATTTACCCATATCTGGCGCAAGCTGATGGAGGGGGAGACTGTCACCTTTAACGGCAAGCATCAGCGCGTTCGCGACGCCAAACTGCTGTTCCCGCCGCTCCAGCAGCCGCGTCCGCCGCTCTATTTCGGCGGATCGTCTGAGGTGGCGCAGGATCTGGCCGCTGAGCAGGTGGATCTCTATCTTACCTGGGGCGAACCGCCGGCCCAGGTGGCAGAGAAGATAGCTCAGGTGCGGGAGAAAGCCGCCCGGCACGGTCGCCGGGTGCGGTTTGGCATCCGCCTGCACGTGATCGTGCGGGAAACCAATGAGGAAGCCTGGCAGGCGGCGGACAGCCTTATCTCTCATCTGGATGATGAGACTATCGCCCGCGCCCAGGCGGCCTTCGCCAGAACCGACTCCGTCGGCCAGCAGCGGATGGCGGCGCTGCACAATGGTCGACGCGATAAGCTGGAAATCAGCCCCAACCTGTGGGCTGGCGTCGGTTTAGCGCGCGGCGGCGCCGGGACCGCGCTGGTGGGCGATGCCGCTACCGTTGCCGAACGGATCAATGAATACGCCGCGCTGGGTATCGATAGCTTTATCTTCTCCGGCTATCCGCATCTGGAAGAGGCGTATCGGGTCGGCGAGCTGCTGTTCCCGCTGCTCGACGTCGCGGTGCCGTCTGTTCCGCAGCCGCACAACCTGCGTCTGCAGGGGGAAGCCGTCGCTAACGAGTTTATCCCGCGTAAAGTGGCGCAGAGCTGA	MSLNMFWFLPTHGDGRYLGTEEGARPVDYGYLQQIAQTADRLGFTGVLIPTGRSCEDAWLVAASMIPVTQRLKFLVALRPSVVSPTVAARQAATLDRLSNGRALFNLVTGSDPAELAGDGVFLDHTERYEASAEFTHIWRKLMEGETVTFNGKHQRVRDAKLLFPPLQQPRPPLYFGGSSEVAQDLAAEQVDLYLTWGEPPAQVAEKIAQVREKAARHGRRVRFGIRLHVIVRETNEEAWQAADSLISHLDDETIARAQAAFARTDSVGQQRMAALHNGRRDKLEISPNLWAGVGLARGGAGTALVGDAATVAERINEYAALGIDSFIFSGYPHLEEAYRVGELLFPLLDVAVPSVPQPHNLRLQGEAVANEFIPRKVAQS	PGPT0003040_1102	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
BMS020_02337	963	ssuA_2		Putative aliphatic sulfonates-binding protein	ATGCTTAATCCTCTCCGCGCTCTGACCCTCGGCGGGCTGCTGCTGTTCTCCGCCCTGGGCCATGCCGCCCCGGCGGCGCCTGACGCCCTGCGCATCGGCTATCAGAAAGGCAGCGTCAGCATGGTGCTGGCGAAAAGCCATCAGCTGCTGGAGCAGCGCTACCCGCAAACCCATATTTCGTGGATTGAATTCCCGGCCGGTCCGCAGATGCTGGAGGCGCTGAACGTCGGCAGCATCGATATTGGCAGCACTGGCGACATTCCGCCTATCTTTGCGCAGGCGGCCGGCGCCGATCTGGTGTATATCGGTTCGGAACCGCCAAAGCCCAAAGCGGAAGTGATTCTGGTGGCGCAGGGCAGCCCGATTCATAACGTTGCTGAGCTAAAAGGGAAAAAGGTCGCTTTTCAGAAAGGCTCCAGCTCCCACAATCTGCTGCTGCGCGCCCTGCAGCTCGCAGGTTTGAAGTTTAGCGACATTCAGCCGGTCTATCTCGCCCCCGCCGATGCGCGCGCCGCCTTCCAGCAGGGCAATGTCGACGCCTGGGCGATCTGGGATCCGTATTACTCCGCCGCGCTGCTGCAGGGCGGCGCCCGGGTACTGACCGACGGAACCGACCTGAAACAGACGGGGTCCTTCTATCTCGCTTCCCGCCCTTACGCTGAACGCAATGGCGCCTTTATTGAGGGCGTACTCGATACCTTTACCCAGGCCGATGCCCTGACCCATAGCCAGCGTGCGCAAAGCATTACGCTGCTGGCAAAAACGATGGGATTACCGGAAGCGGTGATCGCCAGCTACCTGGACCATCGTCCCCCCACCTCGGTGACCCCGGTGAGCGCTGAAACCGCCGCTCGCCAGCAGCAGACGGCCGACCTGTTCTATGAGAACAAGCTGGTGCCGAAAAAAGTTGATATCCGGGCCCGCATCTGGCAGCCCGCCGCCGCACAAGGAGCGAAATCATGA	MLNPLRALTLGGLLLFSALGHAAPAAPDALRIGYQKGSVSMVLAKSHQLLEQRYPQTHISWIEFPAGPQMLEALNVGSIDIGSTGDIPPIFAQAAGADLVYIGSEPPKPKAEVILVAQGSPIHNVAELKGKKVAFQKGSSSHNLLLRALQLAGLKFSDIQPVYLAPADARAAFQQGNVDAWAIWDPYYSAALLQGGARVLTDGTDLKQTGSFYLASRPYAERNGAFIEGVLDTFTQADALTHSQRAQSITLLAKTMGLPEAVIASYLDHRPPTSVTPVSAETAARQQQTADLFYENKLVPKKVDIRARIWQPAAAQGAKS	PGPT0003025_2635	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003025-ssuA-K15553	NA	NA
BMS020_02338	576	ssuE	COG0431	FMN reductase (NADPH)	ATGCGCGTCATTACGCTTGCGGGCAGCCCGCGTTACCCTTCCCGTTCCAGCGCCCTGCTGGAATATGCCAGAGAGACGCTCACCGCCGCCGATATCGAAGTCTGCCACTGGCATCTGCAGAACTTTGCCCCGGAAGACCTCCTGTACGCTCGCTTTGACAACCCGGCGCTGCAGACGCTCAATGAGCAGCTGGCCGGGGCTGACGGACTGATCATCGCCACGCCGGTGTACAAAGCCTCGTTTTCCGGCGCCCTGAAAACGCTGCTCGACCTGCTTCCTGAACGGGCGCTGGAGGGCAAAATCGTGCTGCCGCTGGCCACCGGCGGCACCATCGCCCACATGCTGGCGGTGGACTACGCCCTGAAGCCGGTGCTGAATGCCCTCAAGGCTCAGGAGATCCTCCATGGCGTCTTCGCCGACGACAGCCAGGTGACCGATTACCAGCACAAGCCGCAGTTTACCCCGAACCTGCAGCGGCGCCTCGATGAAGCCCTGGAGACCTTCTGGCAGGCGCTGCATCGTCCCAGCAGCCGTGCCCCATCGTTAACGTCTCTGCGTGGGGTGGAACATGCTTAA	MRVITLAGSPRYPSRSSALLEYARETLTAADIEVCHWHLQNFAPEDLLYARFDNPALQTLNEQLAGADGLIIATPVYKASFSGALKTLLDLLPERALEGKIVLPLATGGTIAHMLAVDYALKPVLNALKAQEILHGVFADDSQVTDYQHKPQFTPNLQRRLDEALETFWQALHRPSSRAPSLTSLRGVEHA	PGPT0003045_1180	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
BMS020_02340	1011	pyrD_1	COG0167	Dihydroorotate dehydrogenase (quinone)	ATGTACTACCCCTTCGTTCGTAAAGCCCTTTTTCAGCTCGATCCTGAGCGCGCTCATGAAGTTACCTTTCAACAATTACGCCGTGTCACCGGGACGCCGCTGGAAATACTGGTTCGCCAGAAGGTGCCGGCCAGGCCTGTCACCTGCATGGGGCTGACCTTTAAAAACCCGCTGGGTCTGGCGGCCGGGCTGGATAAAAACGGGGAATGCATTGACGCACTGGGCGCGATGGGTTTTGGATCCATTGAGATCGGCACCGTGACGCCGCGTCCGCAGCCGGGCAACGATAAGCCAAGGATCTTCCGTCTGGTGGATGCCGAGGGGTTGATCAACCGCATGGGCTTTAATAACCATGGCGTCGATAACCTGGTTGAGAACGTGAAGAAGGCGCATTTTGACGGCGTGCTGGGCATCAATATCGGCAAAAATAAAGACACGCCGGTTGAGCACGGGAAAGATGATTATCTGATTTGTATGGAAAAAGTCTATCCCTACGCCGGCTATATCGCCATTAATATCTCCTCGCCGAATACCCCGGGGCTGCGCACGCTGCAATACGGCGAAGCGCTCGATGATTTACTCTCCGGTATTAAAAATAAGCAGCTTGAGCTGCAGCAGAAGCATCAAAAATATGTTCCGGTCGCCGTGAAGATCGCGCCGGATCTTTTGCCTGAGGAATTGATCCAGGTTGCCGATAGCCTCGTGCGTCATAATATTGATGGCGTGATTGCCACCAATACCACCCTCGATCGTTCTCTGGTTCAGGGAATGAAACATTGCGATGAGACCGGCGGACTTAGCGGTCGTCCATTACAATTAAAAAGTACCGAAATTATCCGTATGCTCTCCGCTGAGCTCAATGGCCGCTTGCCTATCATTGGCGTGGGCGGTATTGATTCCGTGATTGCCGCGCGGGAAAAAATGGCCGCCGGAGCATCGCTGGTGCAGATCTATTCCGGATTTATTTTTAAAGGTCCGCCGCTGATTAAAGAAATTGTTACCCACATCTAA	MYYPFVRKALFQLDPERAHEVTFQQLRRVTGTPLEILVRQKVPARPVTCMGLTFKNPLGLAAGLDKNGECIDALGAMGFGSIEIGTVTPRPQPGNDKPRIFRLVDAEGLINRMGFNNHGVDNLVENVKKAHFDGVLGINIGKNKDTPVEHGKDDYLICMEKVYPYAGYIAINISSPNTPGLRTLQYGEALDDLLSGIKNKQLELQQKHQKYVPVAVKIAPDLLPEELIQVADSLVRHNIDGVIATNTTLDRSLVQGMKHCDETGGLSGRPLQLKSTEIIRMLSAELNGRLPIIGVGGIDSVIAAREKMAAGASLVQIYSGFIFKGPPLIKEIVTHI	PGPT0021190_3731	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021190-pyrD-K00254	NA	NA
BMS020_02341	543	zapC		Cell division protein ZapC	ATGCGGATTAAACCTGACGATAACTGGCGTTGGTATTACGATGAAGAGCACGACCGCATGATGCTCGATCTGGCCAATGGCATGTTATTTCGCTCGCGCTTCGCCCGGCGCATGCTGACCCCGGACGCTTTTGCCCCATCGGGATTCTGCGTCGATGACGCCGCGCTCTATTTCTCCTTTGAAGAAAAATGCCGCGATTTCGAGTTGTCGAAAGAGCAGCGGGCGGAATTAGTCCTCAACGCATTAACCGCGATCCGTTTTCTCAAACCGCAGATGCCGAAAAGCTGGCACTTCGTCGCCCATCCCCATCACTGGCAGCCGAGCGGCGGCGACGCGGCCTGCGTCTGGCTGAGCGATACCGGCGAGCAGGTCAATTTGCTGGTGGTGGAGCCGGGCGATAACGCCGCGCTTTGTCTGCTGGCCCAGCCGGGTCTCACGCTTGCCGGCCGCGTTATGCAGCTGGGCGATGTGATTAAAATCATGAACGACAGGCTGCAGCCGGCGCAAAGCGCGGTCAGCTACAGCCTGGGACAGGCGGTTTAA	MRIKPDDNWRWYYDEEHDRMMLDLANGMLFRSRFARRMLTPDAFAPSGFCVDDAALYFSFEEKCRDFELSKEQRAELVLNALTAIRFLKPQMPKSWHFVAHPHHWQPSGGDAACVWLSDTGEQVNLLVVEPGDNAALCLLAQPGLTLAGRVMQLGDVIKIMNDRLQPAQSAVSYSLGQAV				NA	NA	NA	NA	NA
BMS020_02342	1110	ycbX	COG0633	putative protein YcbX	ATGGTAACGCTCTCGCGTCTTTTTATTCATCCCGTTAAATCCATGCGCGGCATGGGCCTGACCCACGCCTTTGCCGATATCAGCGGCCTGGCCTTCGATCGCCTGTTTATGGTCACCGAAACCGACGGCACCTTTATTACCGCCCGTCAGTTTCCGCAAATGGTGAAATTTATTCCGGCGCCGCTGCATGATGGCCTTCACCTGACTGCACCGGACGGCAGCAGCGCCGTGGTGCGTTTTAACGATTTCGCCCCTCAGGCCGAGCCGACAGAAGTCTGGGGCAACCATTTTACCGCCCTTATCGCGCCCGCCGCCGTTAATCAGTGGCTCAGCGGCTTTTTCAATCGCGATGTCCAGCTGCGCTGGCTGGGGCCACAGTTAACCCGCCGGGTGAAGCGCCACGATGCGGTGCCGCTCTCCTTCGCCGACGGCTACCCTTACCTGCTGGCTAACGAGGCCTCGCTGCGCGACCTGCAGCAGCGCTGCCCGGCAAGCGTAAGCATAGAACAGTTTCGCCCTAATCTCGTGGTCACCGGCGCGGCGGCCTGGGATGAAGACAGCTGGAAAGTGATCCGCGTCGGCGAGGTGGTATTTGACGTCGCCAAGCCGTGCAGCCGCTGCATTTTTACCACCGTCAGTCCGGAGCGCGGGCAGAAGCATCCCAGCGGAGAGCCGCTGGAAACCTTAAAGCGCTTCCGCACCGCGCAGGATAATGGCGATGTCGACTTTGGTCAGAACCTGATAGCCCGTAACAGCGGCGTGATCCGGGTGGGGGATGAAGTGGAAATCCTCGCCCGCGGCCCGGCGAAAGCCTACGGCGCCGGCGAAAGCGACGATACCCCGGCTCCCGAGGCGCAGCAGCAGGCCACGGTTGCCATTGAATGGCAGGGTCAACAATTTACCGGCAATAACCAGCAGGTGCTGCTGGAACAACTGGAGCAACAGGGCATTCGCGTACCCTACTCGTGTCGGGCGGGGATCTGCGGCAGCTGCCGCATCCGTCTTGAAGAGGGGGAAGTGAGTCCGTTAAAGAAAAATGCGGTCGCCGGAGATGGCACCATTCTCGCCTGCAGCTGCGTGCCGAAAACGGCCCTGCGCCTGGCGCCTTAA	MVTLSRLFIHPVKSMRGMGLTHAFADISGLAFDRLFMVTETDGTFITARQFPQMVKFIPAPLHDGLHLTAPDGSSAVVRFNDFAPQAEPTEVWGNHFTALIAPAAVNQWLSGFFNRDVQLRWLGPQLTRRVKRHDAVPLSFADGYPYLLANEASLRDLQQRCPASVSIEQFRPNLVVTGAAAWDEDSWKVIRVGEVVFDVAKPCSRCIFTTVSPERGQKHPSGEPLETLKRFRTAQDNGDVDFGQNLIARNSGVIRVGDEVEILARGPAKAYGAGESDDTPAPEAQQQATVAIEWQGQQFTGNNQQVLLEQLEQQGIRVPYSCRAGICGSCRIRLEEGEVSPLKKNAVAGDGTILACSCVPKTALRLAP				NA	NA	NA	NA	NA
BMS020_02343	2106	rlmL_1	COG0116	Ribosomal RNA large subunit methyltransferase K/L	ATGAATTCTCTGTTTGCCAGTACGGCTCGTGGGCTGGAAGAGCTGTTAAAAACTGAACTGGAAGGGCTTGGCGCGACGGACTGCCAGGTAGTCCAGGGCGGGGTCCATTTTCAGGGGGATACGCGCCTGCTGTATCAAAGCCTGATGTGGAGCCGGCTGGCTTCGCGCATCATGCTGCCGCTGGGCGAGTGTCGCGTATACAGCGATCTGGATCTGTACCTCGGCGTACAGGCCATTCCGTGGACGGAGATGTTCAACCCTGGCGCCACCTTCGCGGTGCATTTTAGCGGCCTCAATGAGGAGATCCGCAACAGCCAGTACGGTGCGCTGAAGGTCAAAGACGCCATTGTCGACAGCTTCACCCGTAAGAACCTGCCGCGCCCGAACGTCGATCGTGAGTCGCCCGATCTGCGGATCAACGTCTGGCTGAACAAAGAGACGGCGCACATCTCGCTGGATCTGAGCGGCGAAGGCCTGCACCTGCGCGGCTACCGCGATGGCACCGGTATGGCGCCGATCAAAGAAAACCTCGCGGCGGCGATCGTGATGCGTTCCGGCTGGGTGCCGGGCACCCCGCTGCTCGATCCGATGTGCGGCTCCGGTACCCTGCTGATTGAGGCGGCGATGCTGGCGACCGACCGCGCGCCGGGCCTGCACCGCGGCCACTGGGGCTTTGGCGGCTGGGCGCAGCACGACGACGCCATCTGGAAAGAAGTGAAAGCGGAAGCGCAAACGCGCGCCCGTCAGGGGCTGGCGGCATATGGGTCACGCTTCTATGGCTCCGATGTCGACGAACGCGTCATTGACCGCGCCCGTCGCAACGCCCGTCGGGCCGGCATCGGCGAGCTGATCGATTTTGAAGTCAAAGACGTCGCCCAGCTGAATAATCCGCTACCGAAAGGCCCGTACGGCACCGTGATCAGCAACCCGCCGTACGGCGAGCGTCTGGAAAGCGAGCCGGCGCTGATCGCCCTGCACAGCCTGCTGGGCCGGATCATGAAAAGTCAGTTTGGCGGCTGGAACCTGTCGGTGTTCAGCGCCTCGCCGGAGCTGTTAAGCTGCCTGCAGCTGCGCGCCGACAAACAGTTTAAAGCCAAGAACGGCCCGCTGGACTGCGTACAGAAGAATTATCACCTGGCGGAGAGCGAAGGCGGCAAGCCGGCGATGCTGGCGGAAGATTTTGCTAACCGTCTGCGTAAGAACCTGAAGAAGTTTGAAAAATGGGCCCGTCAGGAAGGCATTGAATGCTATCGCCTGTACGATGCTGACCTGCCGGAATACAACGTGGCCATCGACCGCTACGCCGACTGGGTGGTGGTCCAGGAATATGCCCCGCCGAAAACCGTCGATGCGCACAAAGCGCGCCAGCGCCTGTTCGATATTATCGCCGCGACCATCGCCGTACTGGACATGGCGCCTAACAAGCTGGTGCTGAAGACCCGCGAGCGGCAGAAGGGGAAAAACCAGTACCAGAAGATGGCGGAGAAGGGCGACTTTATCGAGGTGCAGGAGTACAACGCGCGCCTGTGGGTCAACCTCACCGACTACCTGGATACCGGTCTGTTCCTCGACCACCGTATCGCCCGCCGTATGCTCGGCCAGATGAGCAAAGGCAAGGACTTCCTGAATCTGTTCTCCTATACCGGCAGCGCCAGCGTCCACGCCGGTCTCGGCGGCGCGCGCTCCACCACCACGGTCGATATGTCGCGCACCTATCTGGAGTGGGCGGAACGCAACCTGCGTCTCAATGGCCTGACCGGCCGCGCGCATCGCCTGATGCAGGCGGACGTGCTGGGCTGGCTGCGGGAGAGCACCGAGCAGTTCGATCTGATCTTTATCGATCCGCCGACCTTCTCCAACTCCAAACGAATGGAAGATGCTTTCGACGTCCAGCGCGATCACATTCGCCTGATGACCGATCTGAAACGTCTGCTGCGTAAAGGCGGCACCATTATGTTCTCGAATAACAAACGCGGTTTCCGTATGGATCATGACGGGCTGGCGGCGCTTGGCCTGAAGGCGCAAGAAATTTCGCAAAAAACGCTGTCGCAGGATTTTGCCCGCAACCGTCAGATCCACAACTGCTGGCTGATTACCGCAGCCTGA	MNSLFASTARGLEELLKTELEGLGATDCQVVQGGVHFQGDTRLLYQSLMWSRLASRIMLPLGECRVYSDLDLYLGVQAIPWTEMFNPGATFAVHFSGLNEEIRNSQYGALKVKDAIVDSFTRKNLPRPNVDRESPDLRINVWLNKETAHISLDLSGEGLHLRGYRDGTGMAPIKENLAAAIVMRSGWVPGTPLLDPMCGSGTLLIEAAMLATDRAPGLHRGHWGFGGWAQHDDAIWKEVKAEAQTRARQGLAAYGSRFYGSDVDERVIDRARRNARRAGIGELIDFEVKDVAQLNNPLPKGPYGTVISNPPYGERLESEPALIALHSLLGRIMKSQFGGWNLSVFSASPELLSCLQLRADKQFKAKNGPLDCVQKNYHLAESEGGKPAMLAEDFANRLRKNLKKFEKWARQEGIECYRLYDADLPEYNVAIDRYADWVVVQEYAPPKTVDAHKARQRLFDIIAATIAVLDMAPNKLVLKTRERQKGKNQYQKMAEKGDFIEVQEYNARLWVNLTDYLDTGLFLDHRIARRMLGQMSKGKDFLNLFSYTGSASVHAGLGGARSTTTVDMSRTYLEWAERNLRLNGLTGRAHRLMQADVLGWLRESTEQFDLIFIDPPTFSNSKRMEDAFDVQRDHIRLMTDLKRLLRKGGTIMFSNNKRGFRMDHDGLAALGLKAQEISQKTLSQDFARNRQIHNCWLITAA				NA	NA	NA	NA	NA
BMS020_02344	1908	uup_1	COG0488	ABC transporter ATP-binding protein uup	ATGTCACTGATTAGTATGCACGGCGCCTGGCTTTCCTTCAGCGATGCGCCGCTGCTGGATAATGCCGAGCTGCATATCGAAGATAACGAGCGCGTCTGCCTCGTCGGACGCAACGGCGCCGGTAAATCGACCCTGATGAAGATCCTCAACCGCGAGCAGGGGCTGGATGACGGGCGCATTATTTATGAACAGGATCTGATTGTGGCGCGTCTGCAGCAGGATCCGCCGCGCAATGTCGCCGGTACGGTGTACGATTTTGTCGCGGAAGGCATCGCCGAGCAGGCGGCCTACCTGAAGGCCTATCATGACGTGTCGCATCAGGTCATGACCGATCCGAGCGACAAAAATTTAAATGAACTGGCGCGCCTGCAGGAGCAGCTCGATAACCTGGGGCTGTGGCAGCTGGACAGCCGCATTAACGAAGTGATTGAGCAGCTTGGTCTCGACGCCAACGCGCAGCTGGCATCCCTGTCCGGCGGCTGGCTGCGTAAAGCGGCGCTGGGCCGCGCGCTGGTCAGCGGGCCGCGCGTGCTGCTGCTCGATGAACCCACCAACCACCTGGATATCGAAACCATCGACTGGCTGGAAGGGTTCCTCAAAACCTTTAAAGGCACCATTATCTTTATTTCGCACGACCGCTCCTTTATCCGCAATATGGCGACGCGCATCGTCGACCTCGATCGCGGCAAGCTGGTGACCTACCCGGGCGATTACGATCAGTATCTGCTGGATAAAGAGGAAGCCCTGCGGGTTGAAGAGCTGCAGAATGCGGAATTCGACCGCAAGCTGGCCCAGGAAGAGGTATGGATCCGCCAGGGGATCAAAGCGCGCCGCACGCGTAACGAAGGCCGCGTTCGCGCCCTGAAGGCGATGCGTCGCGAGCGCGGGGAGCGCCGGGAAGTGATGGGCAGCGCCAGAATGCAGGTTGAAGAGGCTTCGCGCTCCGGCAAAATCGTGTTCGAAATGGAGAACGTCAACTACCAGGTTGATGGCAAAGTGCTGGTGAAAGATTTCTCCGCGCAGATCCAGCGCGGCGACAAGATTGCCCTGATTGGCCCCAACGGCTGCGGGAAAACCACGCTGCTGAAGCTGATGCTTGGCCAGCTGCAGGCCGACAGCGGGCGGATCCACGTTGGCACTAAACTGGAAGTCGCCTACTTCGACCAGCACCGCGCAGAGCTGGATCCGGATCGGACGGTGATGGATAACCTCGCGGAAGGTAAGCAAGAGGTGATGGTTAACGGTAAGCCGCGCCATGTGCTGGGCTACCTGCAGGACTTCCTGTTCCATCCAAAACGGGCGATGACCCCGGTGCGTGCGCTCTCCGGCGGGGAACGTAACCGCCTGCTGCTGGCGCGTCTGTTCCTGAAACCCAGCAACTTATTGATTCTCGATGAACCGACAAACGACCTGGATGTCGAAACGCTGGAGCTGCTGGAAGAGCTGATCGATGGCTATCAGGGCACCGTGATGCTGGTAAGCCACGATCGTCAGTTCGTGGATAACACCGTAACCGAATGCTGGATCTTCGAAGGCGGCGGTCGCATCGGCCAGTACATCGGCGGCTATCACGATGCCCGCGGCCAGCAGGCCCAGTCGTTGGCGCAGAAGCAGCCGGCAGCGAAAAAAACGATGGAAGTCGCTCAGCCAAAAGCAGAAACTGTCAAACGCGGTGGGAACAAACTAAGCTATAACCTGCAGCGCGAGCTGGAACAGCTGCCGCAGAAGCTGGAAGCTCTCGAGGCCGAACTGCAGACGCTGCAGGAACAGGTTGCCGATCCCGACTTCTTTGGACAACCGCACGATCGCACGCAGCAGGTGCTGGCAAAGCTGGCCGAAGCGGAACAGGCGCTGGAAGCAGCCTTTGAACGCTGGGAATATTTCGAAGGATTAAAGAACGGCGCCTGA	MSLISMHGAWLSFSDAPLLDNAELHIEDNERVCLVGRNGAGKSTLMKILNREQGLDDGRIIYEQDLIVARLQQDPPRNVAGTVYDFVAEGIAEQAAYLKAYHDVSHQVMTDPSDKNLNELARLQEQLDNLGLWQLDSRINEVIEQLGLDANAQLASLSGGWLRKAALGRALVSGPRVLLLDEPTNHLDIETIDWLEGFLKTFKGTIIFISHDRSFIRNMATRIVDLDRGKLVTYPGDYDQYLLDKEEALRVEELQNAEFDRKLAQEEVWIRQGIKARRTRNEGRVRALKAMRRERGERREVMGSARMQVEEASRSGKIVFEMENVNYQVDGKVLVKDFSAQIQRGDKIALIGPNGCGKTTLLKLMLGQLQADSGRIHVGTKLEVAYFDQHRAELDPDRTVMDNLAEGKQEVMVNGKPRHVLGYLQDFLFHPKRAMTPVRALSGGERNRLLLARLFLKPSNLLILDEPTNDLDVETLELLEELIDGYQGTVMLVSHDRQFVDNTVTECWIFEGGGRIGQYIGGYHDARGQQAQSLAQKQPAAKKTMEVAQPKAETVKRGGNKLSYNLQRELEQLPQKLEALEAELQTLQEQVADPDFFGQPHDRTQQVLAKLAEAEQALEAAFERWEYFEGLKNGA				NA	NA	NA	NA	NA
BMS020_02345	1269	pqiA	COG2995	Intermembrane transport protein PqiA	ATGTGCGATCATCATCATGCTGCGCGACATATTTTATGTCCCCAATGTGATTTGCTGGTGGCTTTGCCGCAGCTGGAGCATCGCCAGAAAGCCGCTTGCCCGCGCTGCGGTACAACGTTAACCACCACGTGGGACGCGCCTCGCCAGCGTCCCACGGCTTACGCGTTGGTCGCGCTGTTTATGCTGCTGTTGGCCAACCTGTTTCCATTTATCTACATGAAAGTGGGCGGGATCAGCAGCGAAATAGAGCTGTTGGAAATTCCCAATGTGTTATTTACCGAGGATTACGCCAGCCTCGGCACATTCTTTTTACTCTTTGTGCAACTGGTACCGGCCTTTTGCCTGGTCACCATTCTACTGTTGGTCAATCGGGTCAGGATGCCCGCTGGCCTGAAAGCGTTTCTGGCGCGAATTCTGTTTCACCTGAAGACGTGGGGAATGGCGGAGATCTTTCTTGCCGGCGTGCTGGTGAGCTTCGTTAAGCTGATGGCCTATGGCGATATCGGTATCGGTCTGAGCTTTGTTCCGTGGTGCATGTTTTGTCTGCTGCAGTTACGCACTTTCCAGTGCGTCGACCGCCGCTGGCTGTGGGATGATATTGCCCCCATGCCAGCCATTAGCCAACCGCTGAAGGTCGGAGTGGCCGGCATCCGCCAGGGGCTGCGCTCCTGCGCCTGCTGCACGGCGGTGTTACCCGTCGACCAGACGGTCTGCCCGCGCTGTCATAGTAAAGGAACGGCGCGGCGTAAAAACAGCCTGCAGTGGACGCTGGCCCTGCTGGTGACCTCATTTATCCTCTATCTCCCCGCCAATATTATGCCGATCATGATCACCGATCTGCTGGGCGATAAAATGCCGTCAACCATCATGGCCGGGGTAATTTTACTGTGGAGCGAGGGGTCTTATCCGGTGGCGCTGGTGATTTTTATTGCCAGTATTATGGTGCCGACGCTAAAGATGATCGCTATCGCCTGGCTGTGCTGGAATGCCAATGGCAACGGTGCGCGCGATTCGGAACGCATGCATCTGATCTATGAAGTGGTGGAATTTGTTGGCCGCTGGTCAATGATTGATGTTTTTGTCATCGCCGTACTCTCTGCGCTGGTGCGCATGGGAGGGTTGATGAATATCTATCCCGCCATCGGCGCGGTTATGTTTGCGCTGGTGGTGGTGATGACCATGTTTTCAGCCATGACGTTTGATCCCCGTTTACTGTGGGATCGTGAGCCAGATTCAAGCCATGAGGAAAGACAACAACATGGAAAATAA	MCDHHHAARHILCPQCDLLVALPQLEHRQKAACPRCGTTLTTTWDAPRQRPTAYALVALFMLLLANLFPFIYMKVGGISSEIELLEIPNVLFTEDYASLGTFFLLFVQLVPAFCLVTILLLVNRVRMPAGLKAFLARILFHLKTWGMAEIFLAGVLVSFVKLMAYGDIGIGLSFVPWCMFCLLQLRTFQCVDRRWLWDDIAPMPAISQPLKVGVAGIRQGLRSCACCTAVLPVDQTVCPRCHSKGTARRKNSLQWTLALLVTSFILYLPANIMPIMITDLLGDKMPSTIMAGVILLWSEGSYPVALVIFIASIMVPTLKMIAIAWLCWNANGNGARDSERMHLIYEVVEFVGRWSMIDVFVIAVLSALVRMGGLMNIYPAIGAVMFALVVVMTMFSAMTFDPRLLWDREPDSSHEERQQHGK				NA	NA	NA	NA	NA
BMS020_02346	1638	pqiB	COG3008	Intermembrane transport protein PqiB	ATGGAAAATAAGAGCGGAGAAGCGAAAGTGCAGAAGGTGAAGAACTGGTCACCGGTGTGGATCTTCCCTATCGTCACTGCGCTGATCGGGGCGTGGATCCTGTTTTATCATTACAGCCATCAGGGACCTGAGGTCACGCTGATCACCACGAATGCGGAGGGGATTGAAGGGGGAAAAACCCGTATCAAGAGCCGTAGCGTGGACGTTGGGGTGGTGGAGAGCGCCACGCTGACCGACGATTTAACCCACGTGGAAATCAAAGCCCGCCTCAATTCCGGGATGCAGAAATTACTGCACAACGATTCCGTCTTCTGGGTGGTGAAACCGCAGGTAGGGCGCGAGGGGATCAGTGGCCTGGGAACATTATTGTCCGGGGCCTATATTGAACTGCAGCCGGGGTCGAAAGGTACGGTGCCGGAGCAGTATCCGCTGCTTGATTCTCCGCCGCTGGCCTCGCCGGACGCCAAGGGGATCCGTATTCTGCTGGAGAGCAGCAAGGCGGGCCAGCTGTCGCCAGGCGATCCGGTGCTGTTCCGCGGCTATCGCGTGGGGTCGGTGGAAACCAGCACCTTCGACACCCAGAAACGTCGTATCACTTATCAGTTGTTCATCAATGCGCCCAATGACCGCCTGGTGACCACCAATGTCCGCTTCTGGAAGGACAGTGGGATCGCTGTCGATTTGACCTCGGCGGGGATGCGCGTCGAGATGGGCTCGCTGTCGACGCTGTTTGGCGGCGGCGTGAGCTTCGATATTCCGGAAGGACTGGATCTCGGCGAGCCGGTGGCGAATAAAACGGAATACCATCTGTTTGACGATCAGAAGAGCATCCAGGATTCGGTCTTTACCGAACATATTGACTATGTGATGTTCTTCAAAGACTCAGTTCGCGGCCTGCAGCCCGGCGCGCCGGTGGAGTTCCGCGGCATCCGTCTGGGAACCGTCGGCAAAGTGCCATTCTTCATCCCCGGTCTGAAGCAGCGTTTGAACGACGACTATCGCATTCCGGTGGAAGTGCGGGTTGAACCGCAACGTCTGATTAACCAGCTGGGCGGCGATCCGAATATTCGCGCCCACATTGACGATCTGATCAACCGCGGACTGCGCGGCTCGCTGAAAACCGGCAATCTGGTGACCGGCGCGCTGTATATCGATCTCGACTTCTATCCGAAGGCGCCGCCGCGCGGGAAAATGCAGGAGTTTAACGGCTATCCGATTATCCCGACCATCAGCGGTGGTCTGGCGCAGATCCAGCAGCGTCTGATGGATGCGCTGGATAAGATTAATAACCTGCCGCTCAATCCGTTGCTGGAGCAGGCGACGAGCACCCTGGCGCAGAGCGAGAAGACCATGCAGCACGTGCAGACCACGCTGGATAGTCTGAATAAGATCACCTCCAGCCAGTCGATGCAGCAGTTGCCTGCCGATATGCAGACGACGCTGCGCGAGCTGAACCGCAGCATGCAGGGCTTCCAGCCGGGCTCCGCGGCCTACAATAAGATGGTGGCCGATATGCAGCGTCTGGATCAGGTGCTGCGCGAGCTGCAGCCGGTCCTGAAAACGCTCAATGATAAGAGCAATGCGCTGGTATTTGAGGCGAAGGATAAAAAAGACCCACAGCCGAAGGGAGCGAAATAA	MENKSGEAKVQKVKNWSPVWIFPIVTALIGAWILFYHYSHQGPEVTLITTNAEGIEGGKTRIKSRSVDVGVVESATLTDDLTHVEIKARLNSGMQKLLHNDSVFWVVKPQVGREGISGLGTLLSGAYIELQPGSKGTVPEQYPLLDSPPLASPDAKGIRILLESSKAGQLSPGDPVLFRGYRVGSVETSTFDTQKRRITYQLFINAPNDRLVTTNVRFWKDSGIAVDLTSAGMRVEMGSLSTLFGGGVSFDIPEGLDLGEPVANKTEYHLFDDQKSIQDSVFTEHIDYVMFFKDSVRGLQPGAPVEFRGIRLGTVGKVPFFIPGLKQRLNDDYRIPVEVRVEPQRLINQLGGDPNIRAHIDDLINRGLRGSLKTGNLVTGALYIDLDFYPKAPPRGKMQEFNGYPIIPTISGGLAQIQQRLMDALDKINNLPLNPLLEQATSTLAQSEKTMQHVQTTLDSLNKITSSQSMQQLPADMQTTLRELNRSMQGFQPGSAAYNKMVADMQRLDQVLRELQPVLKTLNDKSNALVFEAKDKKDPQPKGAK	PGPT0014520_927	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014520-pqiB-K06192	NA	NA
BMS020_02347	564	pqiC	COG3009	Intermembrane transport lipoprotein PqiC	ATGAAAAAATGGTTACTCGCGGCAACCGTATGCGTGCTGACGGCATGCAGTAGCGGCGGCGAAAGCAAAACGTATTACCAGCTGCCGGTGGCGCAGGGCGGCGCACAGCGCGCCGCCAGCCAGGGGGCACGTCTGCTGTGGGTTGAGCAGGTCAGCATCCCGGATTATCTGGCGGGTAACGGGGTGGTCTACCAGACCACCGACGTACAGTATGTGATCGCCAATAATAATCTGTGGGCCAGCCCGCTGGACCAGCAGCTGCGCACTACGCTGGTGGCGAACCTGAGCCAACAGCTGCCGGGCTGGGTGGTGTCATCCCAGCCGCTGGGTAGCGAACAGGATACGCTCAACGTCGCGGTCAACGGCTTTCACGGACGCTACGACGGGCGGGTTATCGTCAGCGGTGAGTGGCTGCTGAAGCATCAGGGGCAGCTGATCAAGCGCCCGTTTAACATCGTGCTTAAGCAGGATCAGGATGGATATGATGCGTTGGTCAAGACCCTGGCGCAGGCGTGGAGCCAGGAGGCGGCAGCCATTGCCAGCGAGCTTAACCGTCTGCCATAA	MKKWLLAATVCVLTACSSGGESKTYYQLPVAQGGAQRAASQGARLLWVEQVSIPDYLAGNGVVYQTTDVQYVIANNNLWASPLDQQLRTTLVANLSQQLPGWVVSSQPLGSEQDTLNVAVNGFHGRYDGRVIVSGEWLLKHQGQLIKRPFNIVLKQDQDGYDALVKTLAQAWSQEAAAIASELNRLP				NA	NA	NA	NA	NA
BMS020_02348	219			hypothetical protein	ATGTGCCCGTTCCAGGCGATCTCGTTTTTGTCTCTTCATGCCTCGTTTCCCTCATTCTTTGATCTGGTGGAAAAGAAAACAGTGGTCGCAAATTGTGCAGCCACGGGTTACGAATACCGCGAAATGAAGGCGACGTCAATGCGCAAAATTCACGCCATTGTCATATTTGTGACCTATATAAGAGTTCATTTTTTGTTCACCTGGCACACCGGCCGGTAA	MCPFQAISFLSLHASFPSFFDLVEKKTVVANCAATGYEYREMKATSMRKIHAIVIFVTYIRVHFLFTWHTGR				NA	NA	NA	NA	NA
BMS020_02349	519	fabA_1	COG0764	3-hydroxydecanoyl-[acyl-carrier-protein] dehydratase	ATGGTAGATAAACGCGAATCCTATACAAAAGAAGATCTTCTTGCCTCTGGTCGTGGTGAACTGTTCGGCGCGAAAGGCCCGCAGTTGCCGGCGCCAAACATGCTGATGATGGACCGCGTCATCAAAATGACCGAAACCGGTGGTAACTACGACAAAGGTTATGTTGAGGCCGAACTCGACATCAACCCGGACCTGTGGTTCTTCGGTTGCCACTTTATCGGCGATCCGGTGATGCCGGGCTGCCTGGGCCTGGATGCCATGTGGCAGCTGGTAGGTTTCTATCTCGGCTGGCTCGGCGGCGAAGGCAAAGGCCGTGCGCTGGGCGTTGGCGAAGTGAAATTCACGGGACAGGTTCTGCCGACCGCGAAAAAAGTGACCTACCGCATCCACTTCAAGCGCATCGTTAACCGTCGTCTGATTATGGGCCTTGCGGATGGAGAAGTGCTGGTTGACGATCGTCTGATCTACACCGCAAGCGATCTGAAAGTGGGTCTGTTCCAGGATACTTCCGCTTTCTGA	MVDKRESYTKEDLLASGRGELFGAKGPQLPAPNMLMMDRVIKMTETGGNYDKGYVEAELDINPDLWFFGCHFIGDPVMPGCLGLDAMWQLVGFYLGWLGGEGKGRALGVGEVKFTGQVLPTAKKVTYRIHFKRIVNRRLIMGLADGEVLVDDRLIYTASDLKVGLFQDTSAF				NA	NA	NA	NA	NA
BMS020_02350	1758	lon_1		Lon protease	TTGACCATTACGAAACTGACCCGAACCGACCTTGCGCCTGATCTGGAACCTTACCAGGCGCTGTTTGCTCAAGCTGAACTCTCTCATCCGGCCCCCTCCCTCTCGGGCGATCTGCAGCCGCGGTTGTTCTATGCGCTTGAGCAGCTGCTGTACACCCCGGCAGTCTCCTCCTTCATGTTGGTGAAAGCCCCTGAGGAGCCGGAATATCTGCAATGGCTGGCGGCTGAAACTCGCACGCTGCACGAGCCTGCCGCACCGCTTCACGGAGTTCGCTATGAGGTTAACGGCCCTCACGTGACGCTCGCGCCGGCGCAACGCGCTGAAGATAATTTTGCCAGTACCGCTCCGGTCGTGGCGGCCGATTGGCTGGAGGCGGAACAGCTGTTTGGCTGCGTACGCCAGTTTAACGGTGAAATCACACTCCAGCCAGGCCTGGTCCATCAGGCCAACGGCGGCGTGCTGGTGCTCTCACTACGCGCATTACTGGCGCAACCGCTGCTGTGGATGCGCCTGAAAAATATGGTGACCCGTCAGCGCTTTGACTGGCTCTCCATTGATGAATCACGGCCGCTGCCGGTCAGCATCCCTTCCATGCCGCTGAGCCTGAAAGTCATGCTGGTGGGCGAACGCGAATCGCTGGCCGATTTCCAGGAAATGGAGCCAGAGCTCTCTGCCCAGGCTATCTATAGCGAGTATGAAGACACCCTGCAGTTTGCGGACGCCGATACGCTGAAGGCCTGGTGCCAGTGGGTATGGCAGAATGCGCAGCAGCTGGAGCTACCGGGCCCGGCGAGCGATGCCTGGCCACTGCTGATCGATGAAGGGACGCGCTACACCGGCGACCAGGAGACCCTGCCGCTCAGCCCGCTATGGATAGCCCGCCAGCTGCGTGAGTCTGCCGCCTTCTGCGAAGGCGAAGAGATTACCGGCGAAGCGATGCAGACGATGCTGGCGCGCCGGGAGTGGCGTGAAGGCTACCTGGCGGAGCGTATGCAGGATGAAATCCTGCAGGAACAGATCCTGATTGAAACCGAAGGCGAATGCGTCGGGCAGATCAACGCCCTCTCGGTCATTGAATTCCCCGGTCATCCACGCGCCTTCGGCGAACCTTCGCGCATCAGCTGCGTCGTGCACATTGGCGACGGCGAGTTTATCGACGTCGAACGCAAAGCCGAGCTGGGCGGCAACATCCATGCGAAAGGCATGATGATCATGCAGGCTTTTCTGATGTCCGAGCTGGAGCTGGAGCAACAACTCCCCTTCTCCGCTTCGCTGACCTTTGAACAGTCCTACAGTGAAGTGGATGGCGACAGCGCCTCCATGGCGGAACTCTGCGCCTTAATCAGCGCGCTGGCCAACGTGCCGATTAATCAGAGCATCGCGATCACCGGCTCCGTCGACCAGTTTGGTCGTGTGCAGCCGGTCGGTGGACTGAATGAAAAAATTGAAGGTTTCTTCACAATCTGTCAGCAGCGCGGTCTCACCGGAAAACAGGGCGTGATTATCCCTGCCGCCAACGTTCGCCACCTTAGTCTGACCCACGAGCTGCGTCAGGCCGTTGCCGACAATCAGTTTGCTATCTGGGCAATAGACGATATTACCGAAGCGCTGCCGATGTTGACCCAGCTGATGTGGGACGGTGAAGGACAGACGCTGCGACAAACCATTCAGGAGCGGATAGCGCAGGCGACCCAGCAGGAGACTCGCCATCGTTTTCCGTGGCCGCTACGCTGGTTAGGTGGGACAAGTTCTAACTGA	MTITKLTRTDLAPDLEPYQALFAQAELSHPAPSLSGDLQPRLFYALEQLLYTPAVSSFMLVKAPEEPEYLQWLAAETRTLHEPAAPLHGVRYEVNGPHVTLAPAQRAEDNFASTAPVVAADWLEAEQLFGCVRQFNGEITLQPGLVHQANGGVLVLSLRALLAQPLLWMRLKNMVTRQRFDWLSIDESRPLPVSIPSMPLSLKVMLVGERESLADFQEMEPELSAQAIYSEYEDTLQFADADTLKAWCQWVWQNAQQLELPGPASDAWPLLIDEGTRYTGDQETLPLSPLWIARQLRESAAFCEGEEITGEAMQTMLARREWREGYLAERMQDEILQEQILIETEGECVGQINALSVIEFPGHPRAFGEPSRISCVVHIGDGEFIDVERKAELGGNIHAKGMMIMQAFLMSELELEQQLPFSASLTFEQSYSEVDGDSASMAELCALISALANVPINQSIAITGSVDQFGRVQPVGGLNEKIEGFFTICQQRGLTGKQGVIIPAANVRHLSLTHELRQAVADNQFAIWAIDDITEALPMLTQLMWDGEGQTLRQTIQERIAQATQQETRHRFPWPLRWLGGTSSN				NA	NA	NA	NA	NA
BMS020_02351	453	matP	COG3120	Macrodomain Ter protein	ATGAAATATCAACAACTGGAAAATCTTGAAAGCGGCTGGAAATGGAAATATCTGGTAAAGAAGCACCGGGAAGGTGAGCTGATTACCCGCTACATTGAGGCCAGCGCTGCGCAAGCTGCGGTAGATGACTTGCTGACGCTCGAGAATGAACCTGTGCTGGTGCATGCCTGGATTGAGCAGCATATGAATCCGGCGCTGATGAACCGCATGAAACAGACCATCCGTGCGCGACGGAAACGCCATTTTAACGCCGAGCATCAGCATACGCGTAAGAAGTCGATCGACCTTGAATTTGTCGTCTGGCAGCGCCTTGCCGGTCTGGCGCAGAGGCGAGGGAAAACCTTGTCTGAAACCATCGTCCAGCTGATTGAGGATGCTGAGCATAAAGAGAAGTATGCCAGCAAAATGTCGAGCCTGAAGCACGATCTGCAGGTACTGTTAGGTAAGGAGTAG	MKYQQLENLESGWKWKYLVKKHREGELITRYIEASAAQAAVDDLLTLENEPVLVHAWIEQHMNPALMNRMKQTIRARRKRHFNAEHQHTRKKSIDLEFVVWQRLAGLAQRRGKTLSETIVQLIEDAEHKEKYASKMSSLKHDLQVLLGKE				NA	NA	NA	NA	NA
BMS020_02352	1071	ompA_3	COG2885	Outer membrane protein A	ATGAAAAAGACAGCTATCGCGATTGCAGTGGCACTGGCTGGCTTCGCTACCGTAGCGCAGGCCGCTCCGAAAGATAACACCTGGTATGCAGGTGGTAAACTGGGTTGGTCCCAGTATCACGACACCGGTTTCTACGGTAACGGTTTCCAGGGCAACAATGGTCCGACCCGTAACGATCAGCTCGGTGCTGGTGCGTTCGGTGGTTACCAGGTTAACCCGTACCTCGGTTTCGAAATGGGTTACGACTGGCTGGGCCGTATGGCATATAAAGGCAGCGTTGACAACGGTGCTTTCAAAGCTCAGGGCGTTCAGCTGACCGCTAAACTGGGTTACCCGATCACTGACGATCTGGACATCTACACCCGTCTGGGCGGCATGGTTTGGCGCGCTGACTCCAAAGGCAACTACGCTTCTACCGGCGTTTCCCGTAGCGAACACGACACTGGCGTTTCCCCAGTATTTGCTGGTGGCGTAGAGTGGGCTGTTACTCGTGACATCGCTACCCGTCTGGAATACCAGTGGGTTAACAACATCGGCGACGCGGGCACTGTGGGTACCCGTCCTGATAACGGCATGCTGAGCCTGGGCGTTTCCTACCGTTTCGGTCAGGAAGATGCTGCACCGGTTGTAGCTCCGGCTCCGGCTCCGGCTCCGGAAGTGGCGACCAAGCACTTCACCCTGAAGTCTGACGTACTGTTCAACTTCAACAAAGCAACCCTGAAACCGGAAGGTCAGCAGGCTCTGGATCAGCTGTACACCCAGCTGAGCAACATGGATCCGAAAGACGGTTCCGCTGTTGTTCTGGGCTACACCGACCGCATCGGTTCCGATGCTTACAACCAGCAGCTGTCTGAGAAACGTGCTCAGTCCGTTGTTGACTACCTGGTTGCTAAAGGCATCCCGGCTGGCAAAATCTCCGCTCGCGGCATGGGTGAATCCAACCCGGTTACTGGCAACACCTGTGACAACGTGAAAGCTCGCGCTGCCCTGATCGACTGCCTGGCTCCGGATCGTCGTGTAGAGATCGAAGTTAAAGGCTACAAAGAAGTTGTAACTCAGCCTGCGGCTTAA	MKKTAIAIAVALAGFATVAQAAPKDNTWYAGGKLGWSQYHDTGFYGNGFQGNNGPTRNDQLGAGAFGGYQVNPYLGFEMGYDWLGRMAYKGSVDNGAFKAQGVQLTAKLGYPITDDLDIYTRLGGMVWRADSKGNYASTGVSRSEHDTGVSPVFAGGVEWAVTRDIATRLEYQWVNNIGDAGTVGTRPDNGMLSLGVSYRFGQEDAAPVVAPAPAPAPEVATKHFTLKSDVLFNFNKATLKPEGQQALDQLYTQLSNMDPKDGSAVVLGYTDRIGSDAYNQQLSEKRAQSVVDYLVAKGIPAGKISARGMGESNPVTGNTCDNVKARAALIDCLAPDRRVEIEVKGYKEVVTQPAA	PGPT0022215_2272	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022215-ompA_ompF_porin|oprF-K03286	NA	NA
BMS020_02353	510	sulA	COG5404	Cell division inhibitor SulA	ATGTTTACTTCAGCTCATGCAAACCGTTCAGCACAGGCCTCTGCTCCGGCAGCCCACTACGCTCATCGTTCTGGCGAACAGGCCGCCAATGGGCTGATCAGTGAAATTGTCTATCGTGAAGATCAACCCATGATGACACAGTTGTTGTTGCTACCTTTATTACAGCAGTTGGGTCAACAGTCTCGCTGGCAGCTGTGGCTTACGCCGCAACAAAAGCTTAGCCGCGAGTGGGTTCAGTCCGCCGGTCTGCCGCTGTCTAAGGTCATGCAAATTAGCCAGCTCTCCCCCAGTCACACTTTAGACTCGATGATCCGCGCCCTGCGTACCGGTAACTATAGTGTGGTTATCTGCTGGCTGGCGGAGGAGTTAACCGCTGACGAACATGAGCGTCTGGTGCATGCAGCCCAGGAAGGCTGCGCGATGGGATTCATCATGCGCCCGGTCCGAAATCAGGGCACGCTCGGCAGACAACTCAGCGGGCTAAAAATTCACTCAAATTTGTATCATTGA	MFTSAHANRSAQASAPAAHYAHRSGEQAANGLISEIVYREDQPMMTQLLLLPLLQQLGQQSRWQLWLTPQQKLSREWVQSAGLPLSKVMQISQLSPSHTLDSMIRALRTGNYSVVICWLAEELTADEHERLVHAAQEGCAMGFIMRPVRNQGTLGRQLSGLKIHSNLYH				NA	NA	NA	NA	NA
BMS020_02354	597	sxy	COG3070	Protein Sxy	ATGAGAAAACTCGTATGTCCGCGGCTCCCGCAATTTCAGGCCTGCGTCTCTCCGCTGGGCCAACTTCACTCTCGCCCCCTGTTTGGCGGCTACAGCCTGGCTATCGAAGATACCGTGTTTGCGATGGTGGCAGAGGGGAATATTTATCTAAAGGCCTGCGAGCAGAGCGCTGCCTATCGGGTAGAACACCATAATCCTTTATTGATGCTGCGCCGACACGGGCGCATCGTGCCGCTAAAGTATTATCAAATCGACGATGCCTTGTGGCGCGATGAGAAACAGCTTTTCCGCTTGTCGCTGATGTCGTGGCAGAGCGCCCAGCGTGAAAAATATCGCCGCCGGTCGTCGGGACGCCTGAAGGATTTACCCAATATCAGTTTTCATATGGAGTTGCAGCTGATTCACTCGGGCATTCCAGACGTGTTAGCACTACGGGAGGTGGGCGCCCGCCAGGCCTGGCTAAAGCTGCGCGAGAACAATGCTTCCCTATCGCACAACGTCTTGCTGGCGTTGGAGGGGGCTATCGTTGGCGTTCATGCCGCCGCGCTCCCGACGCCACGGCGTCAGGAGCTTCTGGAATGGGCGTCTGCGCGCTAA	MRKLVCPRLPQFQACVSPLGQLHSRPLFGGYSLAIEDTVFAMVAEGNIYLKACEQSAAYRVEHHNPLLMLRRHGRIVPLKYYQIDDALWRDEKQLFRLSLMSWQSAQREKYRRRSSGRLKDLPNISFHMELQLIHSGIPDVLALREVGARQAWLKLRENNASLSHNVLLALEGAIVGVHAAALPTPRRQELLEWASAR				NA	NA	NA	NA	NA
BMS020_02355	2136	yccS_1	COG1289	Inner membrane protein YccS	ATGATTAGCCCCCTGCTACGCCGCTACACCTGGAACAGCGCCTGGCTTTATAACGTACGCATTTTTATTGCGCTCTGCGGCACGACGCTGTTTCCCTGGTGGATCGGCGAAGTCAAACTGACCATCCCCCTCACCCTCGGCGTCGTGGCCGCGGCGCTGACCGACCTTGATGACCGTCTGGCGGGCCGTCTGCGCAACCTCGCCATTACTCTGGTTTGCTTTTTTATCGCCTCCGCCTCCGTGGAGCTGCTGTTTCCGTGGCCGCCGCTGTTTGCCCTTGGTCTGACCGTGTCTACCATCGGCTTTATTTTGCTTGGCGGCCTCGGACAGCGCTATGCGACCATTGCCTTCGGCGCCCTGCTTATCGCCATCTACACCATGCTCGGCGTCACGCTGTACGATCACTGGTATCTGCAGCCGTTGTTCCTGCTGGCGGGAGCCGTGTGGTACAACCTGCTGACGTTGTCCGGCCATCTGATTTTTCCAATTCGTCCACTGCAGGACAACCTGGCGCGTAGCTATGAGCAACTGGCCCGCTATCTGGAGCTCAAATCCCGGCTGTTTGATCCAGACCTTGAGGATGAGAGCCAGGCGCCGCTGTACGATCTGGCCCTCGCCAACGGCCAACTGGTGGCGACCCTTAACCAAACCAAGGTATCACTGTTGACCCGACTACGAGGCGACCGGGGACAGCGTGGTACTCGTCGTACGCTGCAGTATTACTTTGTGGCCCAGGATATTCATGAACGCGCCAGCTCATCGCATATTCAGTACCAGACCCTGCGCGACCAGTTCCGCTACAGCGATGTGATGTTCCGTTTCCAGCGCATGCTTTCGATGCAGGCGCAGGCCTGCCAGAAACTCTCGCGGGCGATTCTGCTGCGCGAACCCTATCAGCATGATGCCCATTTCGAACGGGCGTTTATGCATCTAGATGCGGCACTTGAGCGCGTACGCGCCAGCGGCGCATCCGATGAGCAGCTCAACGCCCTTGGCTATTTACTCAATAACCTGCGCGCCATTGATGCTCAGCTGGCCACGATTGAATCGGTGCAAACCACCGCGCCCGCCGGGAGTAATACAGAGACGCTGCTGGCCGACGACAGGCTCGGCGGACTGAACGATATCTGGCTGCGCCTGCAGCGCAATATGTCGCCAGAGTCAGCCCTCTTTCGCCACGCGGTGCGTATGTCGCTGGTGCTCTGCGCCGGCTATGCCTTCATCCAGTTTACCGGTCTTCAGCACGGCTACTGGATCCTGCTGACCAGTTTGTTCGTCTGTCAGCCGAACTATAACGCCACCCGCCATCGTCTGGCGTTGCGGATCATCGGCACGCTGGTCGGGGTGGCGATCGGCCTGCCGGTCCTCCTGCTGGTACCGTCGGTTGAAGGGCAGCTGCTGCTGATCGTCCTCACCGGCGTGCTGTTCTTCGCCTTTCGTAACGTGCAGTACGCCCATGCCACCATGTTTATTACGCTGCTGGTGCTGCTGTGCTTTAACCTGCTTGGCGAAGGTTTTGAAGTCGCGCTGCCGCGCATCATTGATACGCTGATCGGCTGCGCCATCGCCTGGGCGGCGGTCAGCTTCATCTGGCCGGACTGGAAATTCCGCAACCTGCCGCGGGCGCTGGACCGGGCGCTAAACGCGAACTGCCGTTATCTGGATGCCATCCTGGAGCAGTACCACCAGGGCCGCGACAACCGGCTGGCCTACCGTGTCGCACGCCGTGACGCCTACAACCGCGATGCTGAGCTGGCTTCCGTCGTCTCGAACTTGTCGACGGAACCACGGGCGGATGCCGCCCAGCGCGAGACCGCCTTTCGCCTGCTGTGTCTCAATCATACCTTCACCAGCTACATTTCCGCTCTCGGCGCGCATCGGGAAAAACTGTCCACGCCGGACATCCTCGCCCTGCTCGATGATGCGGTCTGCTATGTGGATGATGCCCTGCATCATACCCCAGCGGATGAACAGCGGGTGCAGAAGGCGTTGACCAGCCTGCAAAGCCGGATCCACCATCTGGAGCCTCGCGCGGACAGTAAAGAGCCCCTGGTGCTACAGCAGATTGGCCTGCTGCTGGCGCTGTTGCCTGAAATCTGCCGCCTGCAGCAGCGGGTACACGCTCAAACGGAATAA	MISPLLRRYTWNSAWLYNVRIFIALCGTTLFPWWIGEVKLTIPLTLGVVAAALTDLDDRLAGRLRNLAITLVCFFIASASVELLFPWPPLFALGLTVSTIGFILLGGLGQRYATIAFGALLIAIYTMLGVTLYDHWYLQPLFLLAGAVWYNLLTLSGHLIFPIRPLQDNLARSYEQLARYLELKSRLFDPDLEDESQAPLYDLALANGQLVATLNQTKVSLLTRLRGDRGQRGTRRTLQYYFVAQDIHERASSSHIQYQTLRDQFRYSDVMFRFQRMLSMQAQACQKLSRAILLREPYQHDAHFERAFMHLDAALERVRASGASDEQLNALGYLLNNLRAIDAQLATIESVQTTAPAGSNTETLLADDRLGGLNDIWLRLQRNMSPESALFRHAVRMSLVLCAGYAFIQFTGLQHGYWILLTSLFVCQPNYNATRHRLALRIIGTLVGVAIGLPVLLLVPSVEGQLLLIVLTGVLFFAFRNVQYAHATMFITLLVLLCFNLLGEGFEVALPRIIDTLIGCAIAWAAVSFIWPDWKFRNLPRALDRALNANCRYLDAILEQYHQGRDNRLAYRVARRDAYNRDAELASVVSNLSTEPRADAAQRETAFRLLCLNHTFTSYISALGAHREKLSTPDILALLDDAVCYVDDALHHTPADEQRVQKALTSLQSRIHHLEPRADSKEPLVLQQIGLLLALLPEICRLQQRVHAQTE				NA	NA	NA	NA	NA
BMS020_02356	447	yccF	COG3304	Inner membrane protein YccF	ATGCGTACCATTCTGAATATTTTGAACTTTATCCTTGGCGGTTTCGCCACCACTTTAGGCTGGCTGCTCGCCACCCTGGTCAGCATTATGCTGATCGTCACGCTGCCGCTGACTCGTTCCTGCTGGGAAATCACTCGCCTTTCGTTATTTCCCTATGGTAACGAGGCGATTCATGTTGATGAGCTCGAGCCAGGTCGCCAAAACAGCCTGCTGAACGCCGGCGGCACCATCCTGAACATTCTGTGGTTCATTTTTTTCGGCTGGTGGTTGTGCCTGATGCATATTTTCAGCGGCATCGCCCAATGCCTGACTATCATTGGCATCCCGGTGGGGATCGCTAATTTTAAAATCGCCGCCATCGCCCTCTGGCCGGTGGGTCGCCGGGTCGTCTCTGTGGAAACCGCGCGCGCAGCGCGCGAAGCCAATGCGCGTCGTCGCTTTCAGTAA	MRTILNILNFILGGFATTLGWLLATLVSIMLIVTLPLTRSCWEITRLSLFPYGNEAIHVDELEPGRQNSLLNAGGTILNILWFIFFGWWLCLMHIFSGIAQCLTIIGIPVGIANFKIAAIALWPVGRRVVSVETARAAREANARRRFQ				NA	NA	NA	NA	NA
BMS020_02357	2055	helD	COG0210	DNA helicase IV	ATGGAACTTAAAGCGACAACATTGGGCAAACGCATGGCTCAGCATCCTTATGACAGGGTGCAGTTACTGAATGCCGGGGTAAAGGTTTCCGGCGATCGTCATGAGTATCTTATCCCTTTCAATCAGTTATTGTCAGTGCATTGTAAGCGCGGTCTGGTCTGGGGCGAACTGGAGTTTGTGCTGCCGGACGATAAAGTCGTGCGTTTGCACGGTACCGAATGGAGCGAAACGCAGCGCTTTTATCACCATTTACACACGCTCTGGCAGCAGTGGAGCACGGAAATGAGCGATATCGCCGCCGGGGTGTTGAAGCAGCAGCTGACAGCTATCGAACGCACCCGGGCAGAAGGGAAGTGGCTGACGCGTCAGCAGGTGGCGGATGTTCAGGATAATATTCGCCATGCGTTAACCGGGCTGCCGATGCCCACCAGCCGGCTTGACGCCTTTGATAACTGCCGGGAGCTGTGGCGGGAATGTCAGCGCTGGTTAGGGGATATTGAAGCGGCGCGTCAGGCCCATAACCAGGCCTTTACCGAGGCGATGCTGGAACAGTATCGCGGCTTTTTTGACGGCGTGGAATCCTCCCCGCTCAATCCGTCGCAGGCGCGAGCGGTGGTGAACGGCGAGCACTCCCTGCTGGTGCTGGCGGGAGCGGGCAGTGGTAAAACCTCGGTGCTGGTGGCTCGAGCGGGCTGGCTGCTGGCGCGGGGAGAAGCGGCGGCAGAGCAAATTCTGCTGCTGGCATTTGGCCGCCAGGCGGCGCAGGAGATGGATGAGCGGATCCGCGAGCGTCTGGCATCAGACGATATTACCGCCCGCACCTTCCACTCGCTGGCGCTGCATATTATCCAGCAGGGCAGCAAAAAAGTGCCCACCATCAGTAAGCTGGAAAGCGATACTGCGGCCCGCCACGCATTGCTGCTGAAAAGCTGGCAAAAGCAGTGCCAGGAGAAAAAAGCGCAGGCGAAAGGCTGGCGCCTGTGGCTGGAAGAGGAGATGGGCTGGCAACTGCCGGAGGGGGACTTCTGGCAGGATAAAAAGGTGCAGCGGCGGATGGCCAGCCGGCTTGACCGCTGGGTCAGCCTGATGCGCATGCACGGCGGCTCCCAGGCAGAGATGATCGCTGGCGCGCCGGATGCGGTACGCGATCTGTTCAGTAAACGGGTGAAGCTGATGTCGCCCCTGCTGAAAGAGTGGAAGGCGGCGCTGAAGGTGGAGAATGCAGTCGATTTTTCCGGCCTGATCCATCAGGCGGTCAATATTCTCGATAAAGGCCGCTTCGTTAGCCCGTGGAAACACATTCTGGTGGATGAATTTCAGGATATTTCGCCGCAGCGAGCCTCGCTGCTGGCCGCGTTACGCCGGCAAAATAGCCAAACCACGCTCTTTGCCGTTGGCGATGACTGGCAGGCGATTTACCGGTTCAGCGGGGCGCAGCTCTCCCTGACCACCGCGTTCAACCACTACTTTGGCGAAGGGGACTGCTGTGCGCTGGATACCACCTATCGCTTTAACGGGCGTATCGGCGAAATAGCCAATGGTTTTATCCAGCAGAATCCCCATCAGTTAAGCAAACCGCTGAACAGCCTGACCGCGGGAGATAAAAAGGCCGTCACGCTGTTAGCCGACGATAAGCTGGACGATCTTCTGGATAAATTGAGCGGTTACGTTAAGCCCGAGCAGCGGATCCTTCTGCTTGCTCGCTACCATCATCTGAAGCCCGAGGCGCTTGATAAAGCGGCGACGCGCTGGCCGCACCTCCAGCTTGATTTTATGACTATTCACGCCAGCAAAGGTCAGCAGGCCGACTATGTCATTGTGCTGGGACTGCAGGAGGGAGTGGATGCGTTTCCGGCTCCAGCGCGCGAGTCGATCATAGAGGAGGCGCTCCTGCCGCAACCGGAAGATTTTCCGGATGCGGAGGAACGTCGACTGCTGTACGTGGCCATAACCCGTGCCCGTCACCGGGTGTGGCTGTTATTTAACAAGGCGCAACCGTCGCCGTTTGTCGAGATCCTGCAGGCGCTGGATGTGCCTGTGGCCAGAAAGCCGTGA	MELKATTLGKRMAQHPYDRVQLLNAGVKVSGDRHEYLIPFNQLLSVHCKRGLVWGELEFVLPDDKVVRLHGTEWSETQRFYHHLHTLWQQWSTEMSDIAAGVLKQQLTAIERTRAEGKWLTRQQVADVQDNIRHALTGLPMPTSRLDAFDNCRELWRECQRWLGDIEAARQAHNQAFTEAMLEQYRGFFDGVESSPLNPSQARAVVNGEHSLLVLAGAGSGKTSVLVARAGWLLARGEAAAEQILLLAFGRQAAQEMDERIRERLASDDITARTFHSLALHIIQQGSKKVPTISKLESDTAARHALLLKSWQKQCQEKKAQAKGWRLWLEEEMGWQLPEGDFWQDKKVQRRMASRLDRWVSLMRMHGGSQAEMIAGAPDAVRDLFSKRVKLMSPLLKEWKAALKVENAVDFSGLIHQAVNILDKGRFVSPWKHILVDEFQDISPQRASLLAALRRQNSQTTLFAVGDDWQAIYRFSGAQLSLTTAFNHYFGEGDCCALDTTYRFNGRIGEIANGFIQQNPHQLSKPLNSLTAGDKKAVTLLADDKLDDLLDKLSGYVKPEQRILLLARYHHLKPEALDKAATRWPHLQLDFMTIHASKGQQADYVIVLGLQEGVDAFPAPARESIIEEALLPQPEDFPDAEERRLLYVAITRARHRVWLLFNKAQPSPFVEILQALDVPVARKP				NA	NA	NA	NA	NA
BMS020_02358	459	mgsA_1	COG1803	Methylglyoxal synthase	ATGGAACTGACAACACGTACCCTGCCTGCGCAAAAACATATCGCGCTGGTGGCTCACGATCACTGTAAAGATATGCTGATGAAATGGGTTGCTCGCCATCAGGCGCTGCTGGCACAACATGTTTTGTACGCCACCGGCACTACCGGCAACCTGGTCTCCCGGGCTACCGGGCTGGAGGTCAATGCCATGCTGAGCGGCCCGATGGGCGGCGACCAGCAGGTGGGTGCCCTCATTTCAGAAGGGAAAATCGACGTGCTGATCTTCTTCTGGGATCCGCTGAACGCCGTTCCCCACGACCCGGATGTCAAAGCCTTGCTGCGTCTGGCCACGGTCTGGAACATTCCGGTCGCCACTAACGTCTCCACCGCTGACTTTATTATCCAGTCGCCGCACTTCGCTCAACCGCTCGATATTCTGATCCCGGATTATCCGCGATATCTTGCCGAGCGCCTGAAATAA	MELTTRTLPAQKHIALVAHDHCKDMLMKWVARHQALLAQHVLYATGTTGNLVSRATGLEVNAMLSGPMGGDQQVGALISEGKIDVLIFFWDPLNAVPHDPDVKALLRLATVWNIPVATNVSTADFIIQSPHFAQPLDILIPDYPRYLAERLK	PGPT0001780_415	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001780-mgsA-K01734	NA	NA
BMS020_02359	414	yccU	COG1832	putative protein YccU	ATGAAAGAGAACGATATTGCCGAAATCCTGACCTCGACACGGACGATTGCGCTGGTCGGCGCCAGCGACAAACCTGACCGTCCTAGCTACCGGGTCATGAAGTATCTGCTGGATCAGGGGTATCACGTTATCCCGGTTTCGCCGAAGGTGGCAGGCAAGACGCTGTTGGGGCAGCAGGGCTATGGAACGCTTGCCGATGTTCCGGAAAAGGTCGACATGGTTGATGTCTTCCGTAATTCAGAAGCGGCATGGGGCGTGGCGCAGGAGGCGATTGCTATCGGCGCGAAAACGCTGTGGCTGCAGCTGGGGGTGATCAATGAACAGGCCGCGGTGCTGGCCCGAGAAGCCGGGTTAAACGTGGTGATGGATCGTTGTCCGGCCATTGAGCTACCGCGACTGGGGCTGGCTAAGTAA	MKENDIAEILTSTRTIALVGASDKPDRPSYRVMKYLLDQGYHVIPVSPKVAGKTLLGQQGYGTLADVPEKVDMVDVFRNSEAAWGVAQEAIAIGAKTLWLQLGVINEQAAVLAREAGLNVVMDRCPAIELPRLGLAK	PGPT0013060_1229	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
BMS020_02360	4200			hypothetical protein	GTGACCGGAACCGCAAGCCAGCTGCTCGGTGTCTCCTTACTCAATACGGTGGATGTCTCCCTGCTGGCGGCAAACTCAACGAAGTTCTCGGTTAGTGAAGGAACAACTGAGGACGTGACGATAGCTGTTACCGGTTCAACGTTGCTGAGTCTGCAGTCGGTACTGGCACTGGTGGGACAACTGGTGGGAGGTGCTTCATCTATCACCGCCGATCTGTCGATAGTGAATACCGACACCGGTGAGGTGGTGCAGATTATTCCGGATGCCGTGAGCCTGACGCCATCTCTGGCGCTGCTCAATCTGGTTTACTCCGGCAGCGCGACCTTCAGCGACCTGCCGGCAGGGAACTACGCGGTGGTGGTTTCTTCACCACAGGCTTCCGGCGCGCTGGCCGCAGTGGTTGATGAACTGGCTTCAGCCAATCTGCTGTCGGTGGCGCAGGCGACGATCACAGACTCTACGCAGTACACCTCGACGGTAATTGCCGGCAACGTGCTGACTGCAGATGCAGGCGGTGATGTCGCAGACACCGGGGATGGCATTACGGTAAGCAAAATCGCCTCCAGCGTGCAGACCACGCCGCTTGATGTGACGTCTGAAGGCGTTGTGATCAACGGTCTTTACGGCCAGCTGACGATCCATGCGGACGGCAGCTATACCTATAAGGCGACTGGCGATGCGGACGCTGTTGGCCAGGCTGATGTCTTTACCTACACGATAGTGGATGAGAATGGTGATATGGCGACGGCCACGCTGACAATTAATATTGTGGCAGGAAGCGATACCGGTGAGTCAGATGCTGATGCGGACAGTGACTCCGACTCCGACAGTGACTCCGATTCCGACAGCGATTCCGACTCTGACAGCGACTCCGATTCCGACAGTGATTCGGACTCTGACAGCGACTCGGATTCCGACAGCGATTCAGATTCCGACAGCGATGCGGATTCAGACAGCGACTCGGACTCGGACAGCGACTCGGACTCCGACAGCGATGCGGATTCAGACAGCGACTCGGATTCCGACAGCGATTCAGACTCCGACAGCGATGCGGATTCAGACAGCGACTCGGATTCTGACTCCGACTCTGACTCCGACAGCGATTCGGATTCTGACAGTGACTCTGACTCCGACAGCGACTCGGACTCCGACAGCGACTCCGACTCCGACTCGGATAGCGATTCCGACTCTGACAGTGACTCGGATTCCGACAGCGATTCGGACTCTGACAGCGACTCCGACTCTGACAGCGACTCGGATTCTGACTCCGACTCCGACAGCGACTCCGATTCCGTTGAGGCAATACCTGATACTAATAGTTCTGAGATTATTCAGCAGTACGGCAACCTTAATGGCACTGAAGGCAATCTCTCGCAACTGGTTGGTGTCTCGCTGTTGAGCACGATTAATGTGTCGCTGTTGTCTGGCAGTAGTTTCCGCTTCAACGTGGATAACAACACGACAGAAGATATGACGGTTGATGCCAGTGGCGTTTCTCTGCTTTCAACAGCAGGACTGTTAACGTCGATAGTCAATCTGCTGGGGGCGGGAAATACGCTGACAGCCGATCTGTCGGTGATTGATATCGCTACGGGACGCGTTGTTGCTATCGACCCGGGGAGCGTGAGTATTAGCGCAACCTTGCTTGGTGGGTTGGTCTATAGCGGCACCGCTTCCTTTGAGAATCTGCCTGCTGGTAACTATGCGCTGGCGATATCCTCACCCAATTCTGATGGGGTGCTGGTGAGCCTGATCAACACGCTGGCAGGGGCAGGCGTTGCCACCTTCGTTGAGGCAACGGTAACAGACTCGCTCGGTTATAGCGGAAGTACCGTTACAGGCAACGTACTGGAGGGATCCGACAACGGCGATATGGCCGATAGCGGTACCGATCTTACGGTAACGTCGGTAACGGCCACCACTGCCGCAGGCGAGACTGTCTCCGTGGATGGCGGCACAATATCGGTAACCGGTGCTTACGGTGTCCTGACTATTAACGCTGACGGCAGCTATAGCTATCAGGCATCAGGTAAGGCGGGGTCAGCAGGTAATGCAGATGTATTTACCTACACCATTACGGATGGTAATGGACTGCAATCCACCACGACCCTGACCATTAATATTGGTCAGGAGATCGAAACCGCCCAGGCCAACCCTGATACGCAGGCTTATTACGTCGGCAATGTCGAGGATAATCTTGATATTCAAGGGGGCAATGTCGTTCAGGTGGCGGGCCTGTCGTTACTGAATACCGTGAATGTCGCGCTTCCGACTAATGGCTTTAAGTTTACCGTGGCCGAGGGGACTGAACAGGATGTGACGTTAGGCGTTTCGGGGTCTACCGCCCTTAGCATCGCGCTTGGCGCTGTCACTCTGGATCTTATTCTGGTCAATACCGATACGAACCAGATTGTCGGGGTCATTAAGGATGGAATTACAGCAACGCCGACAGGTCTCCTTGGATTAAGCCTTGAGTATGCGGGGGGAGGAGAGTTCGAACGAATTGGCGCCGGTAACTATATGGTCGTTATTTCGTCACCCACCACAGGAGGGGTGATCGGCTCGATTCTGAATCTCAACTTGGGCACCAGTATTAGTATGGAGGTGACTGATTCGGCCAAATATGTGACGGGTAATGTTCTGCATACTGATAGCGATGGTGATGTCGGCGATACCGGAAACGGGATTACCGTAAGCAGCGTCCAGTTTGGTTCGCAGATAGAAACCGTCACCCCTGAGGGCGTCACTATAAATGGCACCTGGGGAACGCTGTTCATCAAGGCGGACGGTAGTTATAGCTATCATGCCAATGGTACAACGGGCGCCGGTCAAAGCGATGTCTTCACCTATACGATAGAAGATGCGTTGGGTCAGACTTCATCGACTACGTTGACGATGAATATTGAATCGACACCGGCGGTGGCGATAGATGATATCGTTTCCCTGTCGGCGCCGACGGCAATGCAAGCGGCCACCTGGACGCAAAGCGTCAGTAATCTTGCGGTGACGAACGCTGCGGTACAGACTGGCGCGACCTCGGCGGTGAAAGTAACAAGCCAGAACTTTACCATCGCGGAAGGCCGGGAGGTGGATGGGGCGTCTATCACTCTCAACCTGAGTGGTAACCGAACCAGTGGCCTTTCACTACTGAATGGCGATCTTTCCGGAACGGTCACGTTAATCCATCATGTGACCGTTGGCGGAGTCACGACAGATGTCACGGTGTGGACGGGGCCTCTGGAGATGGCCCTCAACGGTACCCTCTTGAGCCCGGGGGCGGATTCGGCTACCGCGACGCTAAACCTGGTCAACGGCAGCAACCCGGTACAACTGGCGGCAGGTGATTATACGCTGAGTATTAGTCATACGATGCAGGCTGGCCCGGCGATGACCTACAGCCTGTCAGCGAGCGTGACAGGAACCGAGATCCATACCGATGCGCATCTGACGGTCGCGCAATCCGTGGCAGGCAATATCCTCGACGGTTCCGATGCGAATGGCACACCGGATACGCTTGGTTCGCTGCATAGCGGCTTTACGATAAGTGGCGAAAATAATCTGGGCGTCGTGACCAACTGGACCTTCCATTCGGATGGCACGGTAACTAACGATACGGGGACCAGCGCATCTAATGGAAATGCGGTGCTGTATGGTGAATATGGGATCCTGACCATTAATGGGGAAGGAGGTTACACCTATCAGTTGAACAATGGTGTCAATACCAACGCTATAACGGCTAAGGAGACGTTTACCTATACCCTTATCAGTAGTGATGGCGGCAGTTCGACGGCGAACCTGACCATCGATCTGCATCCGCAGATCGCCGGCAGCGTCAATGACGATAGCGTTCACAGTACCGCTTACGATGATACCTTCAGCATGGGAGTGGGGGCCGATACGCTGGTTTACAACCTGCTGGCGGATGACGACACCGGAGGCAATGGTAGCGATACCTGGAGCGATTTCTCAGTCGCGCAGGGAGACCATATCGATATTTCGGCGCTGCTGGTCGGCTGGAATGGTTCCAGCGATACGCTGGGTGACTATATTACTCTGAGTTATGTTGGCGGAAATACCGTGGTGTCTATTGATCGCGATGGTAACGGTGGAACCACTCATCAACCTGCGACGTTGATTACGCTACAGGGGGTCCATATCAATTCGCTCGATGAGCTGATTGATACCAACAATTCGAACTAA	MTGTASQLLGVSLLNTVDVSLLAANSTKFSVSEGTTEDVTIAVTGSTLLSLQSVLALVGQLVGGASSITADLSIVNTDTGEVVQIIPDAVSLTPSLALLNLVYSGSATFSDLPAGNYAVVVSSPQASGALAAVVDELASANLLSVAQATITDSTQYTSTVIAGNVLTADAGGDVADTGDGITVSKIASSVQTTPLDVTSEGVVINGLYGQLTIHADGSYTYKATGDADAVGQADVFTYTIVDENGDMATATLTINIVAGSDTGESDADADSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDADSDSDSDSDSDSDSDSDADSDSDSDSDSDSDSDSDADSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSVEAIPDTNSSEIIQQYGNLNGTEGNLSQLVGVSLLSTINVSLLSGSSFRFNVDNNTTEDMTVDASGVSLLSTAGLLTSIVNLLGAGNTLTADLSVIDIATGRVVAIDPGSVSISATLLGGLVYSGTASFENLPAGNYALAISSPNSDGVLVSLINTLAGAGVATFVEATVTDSLGYSGSTVTGNVLEGSDNGDMADSGTDLTVTSVTATTAAGETVSVDGGTISVTGAYGVLTINADGSYSYQASGKAGSAGNADVFTYTITDGNGLQSTTTLTINIGQEIETAQANPDTQAYYVGNVEDNLDIQGGNVVQVAGLSLLNTVNVALPTNGFKFTVAEGTEQDVTLGVSGSTALSIALGAVTLDLILVNTDTNQIVGVIKDGITATPTGLLGLSLEYAGGGEFERIGAGNYMVVISSPTTGGVIGSILNLNLGTSISMEVTDSAKYVTGNVLHTDSDGDVGDTGNGITVSSVQFGSQIETVTPEGVTINGTWGTLFIKADGSYSYHANGTTGAGQSDVFTYTIEDALGQTSSTTLTMNIESTPAVAIDDIVSLSAPTAMQAATWTQSVSNLAVTNAAVQTGATSAVKVTSQNFTIAEGREVDGASITLNLSGNRTSGLSLLNGDLSGTVTLIHHVTVGGVTTDVTVWTGPLEMALNGTLLSPGADSATATLNLVNGSNPVQLAAGDYTLSISHTMQAGPAMTYSLSASVTGTEIHTDAHLTVAQSVAGNILDGSDANGTPDTLGSLHSGFTISGENNLGVVTNWTFHSDGTVTNDTGTSASNGNAVLYGEYGILTINGEGGYTYQLNNGVNTNAITAKETFTYTLISSDGGSSTANLTIDLHPQIAGSVNDDSVHSTAYDDTFSMGVGADTLVYNLLADDDTGGNGSDTWSDFSVAQGDHIDISALLVGWNGSSDTLGDYITLSYVGGNTVVSIDRDGNGGTTHQPATLITLQGVHINSLDELIDTNNSN				NA	NA	NA	NA	NA
BMS020_02361	1437			hypothetical protein	ATGCGTCTATTTCAAAAAAAAGGGATGGTCAACGTTTACAGGTGCAGCACTATTTTCCTGTCAATAAGCATGATATTAACGGTTGAGGCAGAGGAGCTTTCCTTTCCGCCCACCACTATCAGTACCCAGAGATTAAACGATAGTCAGCAGATTGCCGGATATAGCGAAGATCTTATCAATCCTGAAAGTCATCTGGCCGGTCCAGTGGATATTGCCACGGCGGTTAAATCAGCAGTCAACTGGCATCCAGCTATCACTCAACAGGTGAGTAAGCTCCAGGAGCAGGTGCAAAAAGTTGATGTAGCGAAAGCCAAATATTATCCGCAGGTCAATGCGGGTATGAATAATGGTTATAGTAATACCTACTCTGATTCAGGATATTCCCCTTCATTAGTGGTTTCTGTTTCGCAAATGCTGTACGACTTTGGCAAAGTCTCCAGCTCGGTCAGAGCGGCGGATGCCGCTGTTGCCCAACAGCAGGCGATGGTCATGCTTAATATCGATCAAGTGGCTCATGATACCGCGGGTGCAGTGGTACAGATGCAGGGTTATCAAAAGCTGGTGAAAATAGCTCAGGCCCAGGTGGATTCGTTAAAACATATTGGCGATCTTATTCGCCAGCGCAACGACGCCGGCGCAACATCGCTTTCAGATGTGGTGCAGACGGATACCCGCGTAGAGGGCGCGCAGGCAACGCTTATTCAATATCAGGCGGCGCTGGAGCGCTGGAAGGCAACGCTGGCGACTTATCTTGGTCTCGGGAGTATTACCTCCGTAACCGAAAGCGTACCGCAGGCGATGGATGCTGCCTGTGGCGTAAGTAAAATCGATTACCGAACCGTACCAGCGGTGCTCGCGGCTTTGGCGCAGGCTACGCAGGCGCAGGCGCAGTTAGATAATGCCACCGCGCAAATGTTGCCAACTATCTCGCTGGAACCTCAGGTAACGCATTACCTCAATGATAATTACGCCAACAGCGCGGTTTTAAATAAAACTCAGTATTCGGCATGGGTAAAAGTTGAAATGCCGATCTATCAGGGCGGGGCACTCACCGCTTCCCGCGAAGCGGCGCAGCAAACGTTATCTGCGGCTAATGCCGGGATCAGAAACGCGCAACTCGATGCCAGCCAAAAGTTAAGCGCCTCCCGCGACGAGGCGGTAAATCTGAAACAATCTATCGCCATCCAGCGCCGCCAGCAATTACTTGGCGAACAAACTCGCGCTCTGTATCAGGATCAATATTTACAGCTTGGCACGCGTCCGTTACTCGACCTGCTCAATGTCGATCAGGAAATTTATCAGGCGCAATTCAATCAGGTATTAACTGAAGCGCAACTGCGAAATCTGGAACTGGACTGTCTGTTCAGTACGGGGAAAATGCGCGCCGTTTTTGCTCTGGATAACCAAAGAATTCAGGGTGTGGAGATTCGACCATGA	MRLFQKKGMVNVYRCSTIFLSISMILTVEAEELSFPPTTISTQRLNDSQQIAGYSEDLINPESHLAGPVDIATAVKSAVNWHPAITQQVSKLQEQVQKVDVAKAKYYPQVNAGMNNGYSNTYSDSGYSPSLVVSVSQMLYDFGKVSSSVRAADAAVAQQQAMVMLNIDQVAHDTAGAVVQMQGYQKLVKIAQAQVDSLKHIGDLIRQRNDAGATSLSDVVQTDTRVEGAQATLIQYQAALERWKATLATYLGLGSITSVTESVPQAMDAACGVSKIDYRTVPAVLAALAQATQAQAQLDNATAQMLPTISLEPQVTHYLNDNYANSAVLNKTQYSAWVKVEMPIYQGGALTASREAAQQTLSAANAGIRNAQLDASQKLSASRDEAVNLKQSIAIQRRQQLLGEQTRALYQDQYLQLGTRPLLDLLNVDQEIYQAQFNQVLTEAQLRNLELDCLFSTGKMRAVFALDNQRIQGVEIRP	PGPT0022235_420	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ADHESIN_TRANSPORT,PGPT0022235-lapE-K12543	NA	NA
BMS020_02362	2148	btuD_7		Vitamin B12 import ATP-binding protein BtuD	ATGAGCGAACAACACCAGCGCAGCGATATTCCCCATTTGCAGGATTGGGCTAACGCTATGGCTTTTGTCGCCAGCCATTATCGGCAAAGTTACTCGCCGGGTACGCTCCATGCCGCGGCGGAGTGGGCGACGCAAAAAACGCTGCCTGATGCGCTTAAACATCTCTGCCGCCATGCCGGATTGCATTGCCAGTTTCTGAATGGCAATGACCGGAAAATGTCGGCCTGGCGTCTGCCGCTTGTGGTACAGCTCAAAGATGGTCAGATTGGCATTATTGAAAGCTTTGATCTGCATAATTCCGTCGGGATCCGTTTTGTCAAAGAGCTGACTTTACTAAGCCACTGCCCGCTTGACGCCTTATTAGATGAGATTGAATTCACCGTAGCTTTTCGTCCGGCCTCGCCGGAGAAAGATATTAGAACTGAAAGCTATCTCTCTCGCTTTCAGCCAGACTGGCTGCGTAAAATCGTTTTAAAAGATTGGCGTCCCTATCTGCATGTCATGCTGGCATCGCTGGCGATTAATATTTTGGCATTAGCCGGCATCCTGTTTTCTATGCAGGTATATGACCGGGTGATCCCTGCTCAATCTTATCCCACTTTATATGTCTTGTTCAGCGGTGTATTAATTGCCGCCCTGTTCAACTTCATGCTGAAAATTACCCGTGGACACGTCACGGATCTGTTAGGCAAACGTGGAGATATCCGTATCTCCGATCGCGTGTTTGGTCACGCATTGCGGCTGAAAAATACGGCGGTTCCACGCTCGACAGGCAGCTTTATTTCCCAAATTCGCGAGCTTGAACAGGTACGGGAAATGATGACCTCGACCATGATGACGGTCATTGCCGATTTGCCTTTTTTCCTGCTTTTCCAGCTTGTGTTATTTATCGTCTCGCCATGGCTGAGCTGGATTGCGCCTGTTGCGACTATTCTGATGCTATTACCGGGATTGGTACTGCAGAAAAAACTGGCTGAGCTGGCGAACAAAAATCAGCATGAAAGCATGCTACGCAACGCCATTTTAGTGGAAAGCATTCAGGGGTTGCCGGATATCAAAATGATGCAGGCAGAAAGCCGTTTCCTGCAGCAATGGAACAGCTATGTGGCAATTACTGCCGAATCGGGAGTGAAAACCCGCAAAGTTACTCATGGCCTGGTGAGCTGGGGCATGTCGGTTCAGAACCTGTTGTATGCCACCGTCGTAGCGGTAGGGGCGCCACTGGTTATTAATGGCGACATCACGACTGGCGCCATGGTGGCGGCATCGATGCTGTCCAGCCGAATGGTTGCTCCGATGACGGCCCTCTGCGGCGTACTGGCTCGCTGGCAGCAGGTGAAAGTCGCGAAAGCAAGCCTGGATAATTTAATGGCGCTGCCGGTAGAGGGCGGGCTGGATGAACCGCGGGTCCACCGAGCGGTTCTGCACGGCAATTATGAATTCCGTAACGCCGAGTTTCGTTACGGCAAAGACAATGGTCCCGCACCGCTGCGAATTAAACAACTTTCTATTAAAGCCGGAGAAAAAATAGCCGTTCTTGGACGCATAGGCGCCGGAAAATCGACGCTACTGCAGGCGATGATGGGCAATGTCGAGCTGGCGTCAGGCGAACTTCGGCTTGACGATCTTTCGCTGCCACAGATCGATCTTGCAGACATTCGCCGTAACGCCACGCTACTGACTCAGGAGGCGCTGCTGTTTCATGGAACATTAAGGGAGAATCTGACGCTGGGGCGGCCAATGGCGAGCGATGATGAACTGGTGAAAGTGCTTGAACTGTGTGGTGCGCTGGAGTTCGTCAACAAACTGCCTATGGGTCTTGAACATGTGGTGATGGAAGGGGGACTCGGGCTCTCCGGCGGACAGCGGCAGTCCCTGTTGCTGGCGCGCTCGCTCATTCGCGACCCTAATATTATTTTGCTGGATGAACCCACCTCATTTTTTGATGAACGAACAGAAAAAGCGTTCGTCGAGCAACTGGCGCGCTGGGCAGGAGAGCGCACGTTAATCATCGCCACTCATAAAGCAGCAGTGCTCAATATCGTTGATCGTATTCTGGTTATTCAGGATGGTCAGTTAGCGCTGGATAAACCGAAGGCGACCGTATTTGAGCAGGAAAAAGCGCGCGCTCAGGTGGTGAACATATGA	MSEQHQRSDIPHLQDWANAMAFVASHYRQSYSPGTLHAAAEWATQKTLPDALKHLCRHAGLHCQFLNGNDRKMSAWRLPLVVQLKDGQIGIIESFDLHNSVGIRFVKELTLLSHCPLDALLDEIEFTVAFRPASPEKDIRTESYLSRFQPDWLRKIVLKDWRPYLHVMLASLAINILALAGILFSMQVYDRVIPAQSYPTLYVLFSGVLIAALFNFMLKITRGHVTDLLGKRGDIRISDRVFGHALRLKNTAVPRSTGSFISQIRELEQVREMMTSTMMTVIADLPFFLLFQLVLFIVSPWLSWIAPVATILMLLPGLVLQKKLAELANKNQHESMLRNAILVESIQGLPDIKMMQAESRFLQQWNSYVAITAESGVKTRKVTHGLVSWGMSVQNLLYATVVAVGAPLVINGDITTGAMVAASMLSSRMVAPMTALCGVLARWQQVKVAKASLDNLMALPVEGGLDEPRVHRAVLHGNYEFRNAEFRYGKDNGPAPLRIKQLSIKAGEKIAVLGRIGAGKSTLLQAMMGNVELASGELRLDDLSLPQIDLADIRRNATLLTQEALLFHGTLRENLTLGRPMASDDELVKVLELCGALEFVNKLPMGLEHVVMEGGLGLSGGQRQSLLLARSLIRDPNIILLDEPTSFFDERTEKAFVEQLARWAGERTLIIATHKAAVLNIVDRILVIQDGQLALDKPKATVFEQEKARAQVVNI	PGPT0022225_962	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ADHESIN_TRANSPORT,PGPT0022225-lapB-K12541	NA	NA
BMS020_02363	1221	prsE		Type I secretion system membrane fusion protein PrsE	ATGAATAAACCCAGTACTGCAATTTTCCCGCGAGTACAGGAACCGGATCCGGTTGCCGCGATGGCTGATAACGAGCGTGATGAGGCTGAACTGGTTAATTCGCGACGCCTGATCGCTTTACTGGCACTGCTGTTGGTTGTCACAGGCGTATGGGCGTGGTTCGCGACGCTCGATGAAGTATCCACCGGAACCGGAAAAGTGATCCCCAGCTCGCGCGAGCAGGTGTTGCAAACGCTGGACGGCGGGATCTTAACTGAGTTGCACGTTCGCGAAGGCAGCCGGGTCGCCGCAGGTCAGGTGGTCGCACGATTGGATCCCACCCGCAGTGAATCCAATGTTGGCGAGAGTCAGGCTAAATATCGCGCGTCATTAGCCGCGAGCATTCGCCTGACCGCAGAGGTTAATAACCAACCGCTGATTTTTCCGCCATCGCTGAAGGCCTGGCCGGGACTGCTGGCGGAAGAAACTCGCCTCTATCACAGCCGCAGGGAGCAATTAACGAAGTCTATGCGGCAACTGGAGCAGTCGTTGTCTCTGGTAAATAGCGAGCTGGCGATAAATGAAAAGCTGGCTAAGACCGGTGCGGCCAGTAATGTCGAAGTACTCCGTTTGCGTCAGCAGGCCGCCGATATTGAATTAAAGAAAATTGACCTTAACACTCGCTACTATGTTGATGCCCGCGAGCAGTTGTCGAAAGCTAACGCGGATGTCGCCAGCCTTGCCGAAGTGATTAAAGGCCGGGCAGATTCAGTGGCTCGGCTGACCGTGCGCTCGCCGGTGCAGGGGATCGTCAAAAATATCAAAGTGAATACCATCGGCGGCGTTATCGCGCCAAACGGTGAGCTGATGGATATTGTACCCATCGATGGTCGGTTATTGATCGAAGCGCGTATTTCGCCGCGGGATATTGCATTTATTCATCCCGATCAGAAGGCACTGGTGAAAATTACCGCCTATGATTATGCCATCTATGGCGCCCTCAATGGTGTTGTCGAAACTATCTCTCCGGACACGATCCAGGATGAGGCAAAACCTGACGTCTACTACTATCGGGTATTTATCCGAACCGATCATAACTATCTGGAAAATAAACGCGGCAAGCGTTTTTTAATTGGCCCGGGAATGATCGCCACGGTTGATATTAAAACCGGTGAAAAGACCGTAATGGATTATCTGGTGAAACCATTTAACAGGGCGAAAGAAGCACTGAGAGAAAGGTAA	MNKPSTAIFPRVQEPDPVAAMADNERDEAELVNSRRLIALLALLLVVTGVWAWFATLDEVSTGTGKVIPSSREQVLQTLDGGILTELHVREGSRVAAGQVVARLDPTRSESNVGESQAKYRASLAASIRLTAEVNNQPLIFPPSLKAWPGLLAEETRLYHSRREQLTKSMRQLEQSLSLVNSELAINEKLAKTGAASNVEVLRLRQQAADIELKKIDLNTRYYVDAREQLSKANADVASLAEVIKGRADSVARLTVRSPVQGIVKNIKVNTIGGVIAPNGELMDIVPIDGRLLIEARISPRDIAFIHPDQKALVKITAYDYAIYGALNGVVETISPDTIQDEAKPDVYYYRVFIRTDHNYLENKRGKRFLIGPGMIATVDIKTGEKTVMDYLVKPFNRAKEALRER	PGPT0022230_974	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ADHESIN_TRANSPORT,PGPT0022230-lapC-K12542	NA	NA
BMS020_02364	3135	gtfA		UDP-N-acetylglucosamine--peptide N-acetylglucosaminyltransferase GtfA subunit	ATGGCATTAAGCGATTTATTACAACAGGCTTGCTTTCAGTGCAAGCCATTAAAAACGACCGCATTGCCTGCCGATTATCCTGGATGGGTCATCTTTTTTAGCGTCAGTGACGGAAAGCAGCGCGCGCATGTCCAGGTATCGACCGCCGCCAGTTTTGATCAAGCCTGGTTAACCGGCGCCAGAGCGCTGCAGGAGTGGCGTAAAAAGCAGGATAATGAACCGCAATGGTTACGAATTGACATTGTCGATAGCGTAGATAAACTCACCTGGGAAAATCTGCAAAAGAAACTCAATATCACTAAACGCAATTACTTCCGCTTCGGGATCTCTTTTGATACCCAATTTACGCAAGCGATCCTTGAACAGGAAATTGCGGCGAATGCGTTACTTTATGATGGCGACAATGGCGTAGCGGCGCCAAATGACATCAATCTGGAAAATTATGGTCAACGGCGGTTTAAATGTAGTTTGAACTGGCCGAGCGAGCCTCAGCAGATATTATGGCGTTTTAAAACGCGATCGGTGTTTTGCGATCGTAGCGGTGCCAAACTCATTGAACATAGCGGCCGCAGTTCCGGCTACCGCGTTATCGATGATGAATGGCAAAAAAACTATCTGCCCGAGGTGATTAAAAAGGGGAGCGACTATCTGGCTCGCCAGGTTAAAAAAGATGGGCTCTATTATTACGGTTGGTTTCCCTGCTTTGACCGTCCGGTACGTTCCTATAATGCTCTGCGCCACGCCAGCTCAACCTATTCGCTGATTGAAGGATGGGAAGCCACCAGGCAGCCGCACCTGCGTCAGGCAATCGATCGGGCGATTGGTTACCTGGTCAACAATCTTATTGCCGTTCGTACGCTTGCCGATGGGCGACAGGCCGCGTTTCTTTGCGATGTCGAAAATGAAATTAAGCTTGGCGGGAATGCGGTCAGTATTCTGGCGCTGGTAAAATATACCGAAACGACGGGTGACCGACAATATCTGGACTTGTTGTCGCAACTGGCCACCGGCATTGCCTTTATGCAGGATGCGCAAAGCGGTGAGTTTGTTCATGTTCTTAACAGCAACGATCTCTCATTGAAAGCCAAACATCGCATAATCTATTACGACGGCGAGGCGGCATTTGCCTTAATGCGTTTGTATCGTTTGACGCAGGCGCCGCAGTGGCTGTCCATGGTGGAGAAAGCATTTGAATACTTCATTCGACAAAAACACTGGCAGCATCACGATCACTGGTTGAGCTACTGTGTTAACGAATTGACGCGTTACCGCCCGGAAGAGCGTTATTTCCGTTTCGGGCTGGATAACGTGCGCGATCATCTGGATTTCGTGCTGCAACGCGTAACAACCTATCCGACGTTACTGGAATTAATGATGGCGGCGGCGGAAATGATTGCGCGTCTGGATGCCTCGTCCGAACAGCGCCATTTGCTCGACAACTTTGATAAAGAGAAGTTTTATCAGGCGCTGGAGTCGCGGGCGCGTTACCTGCTGGATGGTTTCTTCTGGCCGGAGCTGGCGATGTTTTTTAAAAATCCTGCTCGTATCGTCAACAGCTTCTTCATTCGACACCATAGCTACCGCGTGCGGATTGATGATGTAGAGCACTATCTGTCTGGTTATATTGCTTATCAAAAGTATTATCAGGCTGCCAACACACGTCAGCAATCGCCAATCGCGGCGGCGCCCGCACCTCGGGGAACGACTATTTTTTTGTTAGAGAATCTGCGCGACGTGGGTAATGGTATTGAGGTAGCGGCTTCCCGGCGAGCAAGGCTGTTTGTAGAACATTTACAGACTGTTCCCTGGCTTATTACTGCGATGTGGGATCCCGAACTCAATGAGACGGTAAAAGCATTGAAGGCGCGAGGCGCGCTGCCGGAAGCGGTCCCGGTTTACAATTTGTACCATGCTTTGGTGTCGTGTCTGAAGAGCGGGAAAATCATTCCCCTACCTGCGCTTAAAGGGGAGATCGAACTTCGTCAGGCTGTAGCGCCAAAAGCAGAGGCGACGGTCGGTAAAAATAACTATCAATTACGCCCGCAGGGGCAACTGGTGGAGGATTACGTCGATTGCGCGGGAAACGTTTTGCTGCGTAAATATTTTGACGTGAAGAAAGCGAACCTGCAGATAGCCCGCATGGATCTCGCGCTACCCGGTGGAGAAATAAAATCCTTCAGCCAACAGGAGGCGTTTTTTTCCTGGATGCTGGAAATGATGCTGCCCGCAGCGGGCAGCTGGCATTTTATCGTCGATAAAAACAAAGCCTGGAAAGCATTCGTCTGCTCGCAACCGGCACAGCGGATGAACTGCACGGTTAGCGCAGTCATCCACTCTCATCATCAGTTGCTAAACGGCGGGATAAAAGCTTCATACCGTCATTTACTGGAACAACCGCAACGGGTGGATCGGTTAATCGTACTTACCGACGAACAATGGCAGGATTTACAGCAGGAGGGGATCCCCGGCGATCGCCTGGTGGTCATCCCCAATCATATGGATGACAGCAAAATTCCGGCTGACCCGCAAAAGGAACCCTCGGAAACAGTCATCTATCTGGCGCGTTACTCTGAAGAAAAACAGCATCTGATGCTTTTCAACGCGTTCCGTAAAGTAGTGGCGCAATGCCCTGATGCGCGGCTACACACTTATGGCGTCGGTCCGCTTCGCCGTAAACTCAGCGAGCAGGTTAAGGCGTGGGGATTAGAAGAGGTCATAAAAATCAATGGATTTACCTCGGATATTGCTGCTGTCCATCGCCGCGCTTGCTGTACGGTACTCTGTTCAAATCAGGAGGGGCAATCCCTGTCGGCTGTCGAGGCAATGGTCTATGGCACGCCGTTAATTAGCTTTGCTATAAAATATGGGCCGCGCGATATTCTGCAGGATCGTCAGGCCGGGATCCTCGTACCTTACGGCGACGAAGAGGCGCTGGCCGCGGCATTAGTTCAGGTCATCTCCGATAAGGCGTTACAAAAAGAGATGCAGGCCGCCGCCATCCGCAATGCACGCCGTTATTACGCCAGCGCGATAGCCGGACGCTGGGAGAACTGGTTACAGCAAAATGAGCAGCGAATGAAGGGGCTGGAGGAGAAGCCTGTCAACGTGGTTTCACTCAAACAACGTGTCGTGTGA	MALSDLLQQACFQCKPLKTTALPADYPGWVIFFSVSDGKQRAHVQVSTAASFDQAWLTGARALQEWRKKQDNEPQWLRIDIVDSVDKLTWENLQKKLNITKRNYFRFGISFDTQFTQAILEQEIAANALLYDGDNGVAAPNDINLENYGQRRFKCSLNWPSEPQQILWRFKTRSVFCDRSGAKLIEHSGRSSGYRVIDDEWQKNYLPEVIKKGSDYLARQVKKDGLYYYGWFPCFDRPVRSYNALRHASSTYSLIEGWEATRQPHLRQAIDRAIGYLVNNLIAVRTLADGRQAAFLCDVENEIKLGGNAVSILALVKYTETTGDRQYLDLLSQLATGIAFMQDAQSGEFVHVLNSNDLSLKAKHRIIYYDGEAAFALMRLYRLTQAPQWLSMVEKAFEYFIRQKHWQHHDHWLSYCVNELTRYRPEERYFRFGLDNVRDHLDFVLQRVTTYPTLLELMMAAAEMIARLDASSEQRHLLDNFDKEKFYQALESRARYLLDGFFWPELAMFFKNPARIVNSFFIRHHSYRVRIDDVEHYLSGYIAYQKYYQAANTRQQSPIAAAPAPRGTTIFLLENLRDVGNGIEVAASRRARLFVEHLQTVPWLITAMWDPELNETVKALKARGALPEAVPVYNLYHALVSCLKSGKIIPLPALKGEIELRQAVAPKAEATVGKNNYQLRPQGQLVEDYVDCAGNVLLRKYFDVKKANLQIARMDLALPGGEIKSFSQQEAFFSWMLEMMLPAAGSWHFIVDKNKAWKAFVCSQPAQRMNCTVSAVIHSHHQLLNGGIKASYRHLLEQPQRVDRLIVLTDEQWQDLQQEGIPGDRLVVIPNHMDDSKIPADPQKEPSETVIYLARYSEEKQHLMLFNAFRKVVAQCPDARLHTYGVGPLRRKLSEQVKAWGLEEVIKINGFTSDIAAVHRRACCTVLCSNQEGQSLSAVEAMVYGTPLISFAIKYGPRDILQDRQAGILVPYGDEEALAAALVQVISDKALQKEMQAAAIRNARRYYASAIAGRWENWLQQNEQRMKGLEEKPVNVVSLKQRVV				NA	NA	NA	NA	NA
BMS020_02365	876			hypothetical protein	ATGGTGCAGGAATCCCGCTGCGTCAAAGGTTCGATATTGCTTAAACATCGCCTCGAAAAAGAATATGTTGAAGATGATTTCCATATTTTTTATAGCCTGCAAGGGCGCGACGCGCTCAAATATCAGTACGACAGTTCAGGCAGTGGCGTCCCTGATAGTATTAAAGATATTGCTGTGCAGCTGCAGGCCGCCAAATATCTTTATTCCCATGTGCTTGGCCTTCGCTTTCCGTTACAGCAAAAGATTTATGCTCAGGCCAGACAAATCAATGTCTATGTATTGCAACTGCCGAAGGGGAATGGTCTGGCTTTCGATCGCGTGGCGGCAGAAACCATGAATGACGGCAGGCAGCTGCCTTGCGGTTTAAAGTTTGTATTGAATGCCGCGCTGGAACCGGCGCGTAACATTACCCCTGCTCATGAATTTTTCCATCTTTATCAGTATGGCTATGCCGTCTTTAAACAAACATGGTATCTGGAGGGCATGGCGCGGTGGATGGAGAACAGCTTTAAAGCCCCGGAGAAAAATACCCGGCCGCGCTTTCCGCTTCCTGATTGCGAAAGTAATTTTACACGCGGTTATAACGCCGCGAATTACTGGGCAAGCTTTGCGCAAGCGCACTTTTCTAATATCACTATCCCCGCAGCAGCACAGCGTTTCCGTTACAGCGATGGTTCGCCGGTCTTGATAGCACAGCAAGTGAAAGGGGGGGCGATGCTTACGCCGTTTTTTACTCAGCTGGCGCAGGGGAGCGCGGTACAGTCGCGGCAGTTAAACCTGGCGAATACCCGCTGGTCGGAAGCGCAGCAGCGCAGCCCCGAGTTTAATGAGACGATTTGTCAGACGCTGGCCGCCGTGGTTGGGGCGAAAAAATAG	MVQESRCVKGSILLKHRLEKEYVEDDFHIFYSLQGRDALKYQYDSSGSGVPDSIKDIAVQLQAAKYLYSHVLGLRFPLQQKIYAQARQINVYVLQLPKGNGLAFDRVAAETMNDGRQLPCGLKFVLNAALEPARNITPAHEFFHLYQYGYAVFKQTWYLEGMARWMENSFKAPEKNTRPRFPLPDCESNFTRGYNAANYWASFAQAHFSNITIPAAAQRFRYSDGSPVLIAQQVKGGAMLTPFFTQLAQGSAVQSRQLNLANTRWSEAQQRSPEFNETICQTLAAVVGAKK				NA	NA	NA	NA	NA
BMS020_02366	318	hspQ	COG3785	Heat shock protein HspQ	ATGATAGCCAGCAAATTCGGTATCGGCCAACAGGTCCGTCATACGCTCTTGGGCTACCTGGGCGTCATCGTCGATGTCGATCCCGAGTACTCACTCGCGGAACCGGAAGAGGATGAAATTGCCGCCAATGACGAACTGCGCGCGGCCCCCTGGTACCATGTAGTGATGGAAGATGATGATGGCCAACCCATCCACACCTATCTGGCAGAAGCGCAGCTGAGCAGCGAACCCCGCGACGAACATCCGGAGCAGCCGTCCCTCGACGAGCTGGCCAAAACAATTCGTCAGCAGTTGCAGGCGCCCAGGTTGCGTAACTAG	MIASKFGIGQQVRHTLLGYLGVIVDVDPEYSLAEPEEDEIAANDELRAAPWYHVVMEDDDGQPIHTYLAEAQLSSEPRDEHPEQPSLDELAKTIRQQLQAPRLRN	PGPT0014644_406	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014644-hspQ|yccV-K11940	NA	NA
BMS020_02367	1203	rlmI_1	COG1092	Ribosomal RNA large subunit methyltransferase I	ATGACAGATTCCCTATTCCCCCGCTTAGTGTTAGCCAAAGGACGCGAGAAATCCCTGCTGCGTCGCCATCCGTGGATTTTCTCCGGCGGCGTCGCCCGCATGGAAGGTAAAGCCCGCAGCGGTGAAACCATCGATATCGTTGACCATCAGGGAAAATGGCTGGCCCGCGGCGCTTACTCGCCGTCGTCGCAGATCCGCGCCCGCGTGTGGACCTTCGATCGCAACGAAGCCATTGATAACGCCTTCTTTGAACGCCGCCTGCAGCAGGCGCAAACCTGGCGTGCCTGGCTTGCCGAGCGCGATGGCCTCGACAGCTACCGTCTGATCGCCGGCGAGTCCGATGGGCTGCCGGGCGTGACAATCGACCGCTTTGGCAACTTTTTCGTACTGCAGCTCCTCAGCGCAGGCGCCGAATACCAGCGCGCCGCCATCATCAGCGCCTTGCAGAGCCTGTTCCCGGACTGCGCCATTTACGATCGCAGCGATGTCGCGGTGCGTAAAAAAGAGGGGCTGGAGCTGGCCCAGGGGCCGGTAGTGGGCGAACTGCCGCCAGCGCTGCTGCCGATCGCTGAGCATGGCATGAAGCTGTTGGTCGATATCCAGGGCGGGCACAAAACCGGCTATTACCTCGACCAGCGCGACAGCCGCCTGGCGACCCGTCGCTACGTGGCGGACAAACGGGTGCTGAACTGCTTCTCTTATACCGGCGGCTTTGCGGTGTCAGCGCTGATGGGCGGCTGCCGCCAGGTCACCAGCGTGGATACCTCGCAGGAAGCGCTCGACGTTGCGCGCCAGAACGTGGAGCTCAACGGACTGGATCTGTCCAAAGCGGAGTTTGTGCGCGACGACGTGTTCAAACTGCTGCGTAAATACCGCGATCAAGGGGAGAAATTCGACGTCATCGTGATGGATCCGCCGAAATTCGTAGAAAATAAAAGCCAGTTGATGGGCGCCTGCCGTGGCTATAAAGATATCAATATGCTGGCGATCCAGCTGCTGAACCCCGGCGGCGTGCTGCTGACCTTCTCCTGCTCCGGCCTGATGACCACCGATTTATTTCAGAAAATCATCGCGGATTCCGCAATTGATGCCGGACGTGATGTACAATTTATAGAACAGTTCCGTCAGGCTGCCGACCATCCGGTGATCGCAACCTATCCGGAAGGGCTGTATCTGAAGGGGTTTGCCTGTCGCGTCATGTAA	MTDSLFPRLVLAKGREKSLLRRHPWIFSGGVARMEGKARSGETIDIVDHQGKWLARGAYSPSSQIRARVWTFDRNEAIDNAFFERRLQQAQTWRAWLAERDGLDSYRLIAGESDGLPGVTIDRFGNFFVLQLLSAGAEYQRAAIISALQSLFPDCAIYDRSDVAVRKKEGLELAQGPVVGELPPALLPIAEHGMKLLVDIQGGHKTGYYLDQRDSRLATRRYVADKRVLNCFSYTGGFAVSALMGGCRQVTSVDTSQEALDVARQNVELNGLDLSKAEFVRDDVFKLLRKYRDQGEKFDVIVMDPPKFVENKSQLMGACRGYKDINMLAIQLLNPGGVLLTFSCSGLMTTDLFQKIIADSAIDAGRDVQFIEQFRQAADHPVIATYPEGLYLKGFACRVM				NA	NA	NA	NA	NA
BMS020_02368	555			hypothetical protein	ATGAAAACAGGTATGCGGATAGTTGTGGCGATGGTTGCGGCAGTGAGCAGTGGCGCGATGGCCGCGCCGTTTAGCGTGAGCAGCAATGATATGCGTGACGGGCAGCCGCTGGCCCAGAAGCACTGGTTTACTGGTTTCGGCTGCACAGGAGGCAATGTCTCTCCACAGCTGGCATGGAAAAACGCCCCGGCAGGCACGCGCAGTTTCGCGGTCACCGTCCGGGATCCTGATGCGCCTACCGGCAGCGGCTGGTGGCACTGGACGTTAGTCAATATTGCCAGCAGCGTCTCTTCTCTGCCCGCTGGCGCGGGAGATAAAAACAGCGCTACACTGCCGGGCGGAGCGGTACAGGGCCGCAACGATTTTGGCTATGCCGGCTTCGGCGGCGCCTGCCCGCCGGCGGGAGATAAACCACATCGCTACCGTTTTACGGTGTGGGCGCTGGATATCCCCACGCTGCCGGTGAACGCCGATGCCAGCGGGGCGCTGGTCGGGTATCTGTTACACAGCCATGCTCTCGCCAGCGCCCAGTTGACGGCGACGGCCGGGCGCTAA	MKTGMRIVVAMVAAVSSGAMAAPFSVSSNDMRDGQPLAQKHWFTGFGCTGGNVSPQLAWKNAPAGTRSFAVTVRDPDAPTGSGWWHWTLVNIASSVSSLPAGAGDKNSATLPGGAVQGRNDFGYAGFGGACPPAGDKPHRYRFTVWALDIPTLPVNADASGALVGYLLHSHALASAQLTATAGR				NA	NA	NA	NA	NA
BMS020_02369	789	appY	COG2207	HTH-type transcriptional regulator AppY	ATGGAGAGTATTCATTTTCAGCATAACGCCCTGACCGCCGCGGAGATCACCACCCGACGGCTATGCAGGCTGCATCGGGTGCGTCTGTTCGCCCCGGCGCTCTGTCGGGTAAAGCGCGGCAGCAAGGTGATTGTGCAAGGGGAGAGCCGGGTGCTGGCGACCCCGCAACAGCTGATTGTTTTGCCGGCTGACGTTGAGCTGGAGGTGATTAACCAGCCGGAGAATGGCCTCTTTTGCTCCGATCTGCTGTCGCTGACGCCCGAGCTGTTGACGGCGTTCAAGACCCGCTATGTCAGTGAACCACCGCCCGGGCGTCTGACCTCGCTCTGCGCCCCGGTGACGACTGAGCTGGCGTTTATGTGGCAAAGCGTTCTGCAGGCGGTGCGGGAAGGCTTGTCCCCCTCTCTGCAGCAGCATCAGACCATGGGCCTGCTGCTGGCCTTGCACGAGGCGGGTTATGCCGGCCCGCTGCTCGTCGAGCGGCAGCAGGATCTGTCGGCGCAGGTTCGACAACTGGTCATGCTGTCGCCAGCGCAAGCGTGGAGCGTGTCGCGGGTGGCGAAAATGCTCTTTCTCGGCGAGTCCACGCTGCGCCGTCGGCTGCAGCAGGAATCGCAGAGTTTTCGCCAGATTGTCGAGGAGGTGCGGATGGCCCATGCCCTGGGGCAGCTGCAGACCACTTCGCGGCCCATCGGGGAAATTGCGCAGAACAGCGGATATCAGTCGGGATCGCGCTTTACCGCGCGCTTCCGTCAGCACTATGGTTTACTGCCAAAGCACGTACGCTGA	MESIHFQHNALTAAEITTRRLCRLHRVRLFAPALCRVKRGSKVIVQGESRVLATPQQLIVLPADVELEVINQPENGLFCSDLLSLTPELLTAFKTRYVSEPPPGRLTSLCAPVTTELAFMWQSVLQAVREGLSPSLQQHQTMGLLLALHEAGYAGPLLVERQQDLSAQVRQLVMLSPAQAWSVSRVAKMLFLGESTLRRRLQQESQSFRQIVEEVRMAHALGQLQTTSRPIGEIAQNSGYQSGSRFTARFRQHYGLLPKHVR				NA	NA	NA	NA	NA
BMS020_02370	282	yccX	COG1254	Acylphosphatase	ATGGCCAGTATCTGCACGATGGCATGGGTTTACGGTTCAGTTCAGGGCGTAGGGTTTCGCTATTCGACACAGCGGGAAGCGCTGCAGCTGGGATTGACCGGCTATGCCCGTAATCTGGACGACGGCGGGGTGGAAGTGCTTGCCTGCGGCGAGGCGGAGCAGGTGGAGAAACTCATCGCCTGGCTGAAAGCCGGTGGGCCGCGCAGCGCGCGGGTTGACCGAGTGTTGACTGAACCCCATCAACCCACCCGCAGCTGGGACAAGTTCGCGATCCTCTATTAG	MASICTMAWVYGSVQGVGFRYSTQREALQLGLTGYARNLDDGGVEVLACGEAEQVEKLIAWLKAGGPRSARVDRVLTEPHQPTRSWDKFAILY	PGPT0001372_1926	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACETIC_ACID_BIOSYNTHESIS,PGPT0001372-acyP|yccX-K01512	NA	NA
BMS020_02371	330	tusE	COG2920	Sulfurtransferase TusE	ATGTTTATTTTTGAAGGCAACGAAATTGAGACGGATAGCGAAGGCTATCTGAAAGATACCACCCAGTGGAGCGAGGCGATGGCCGACGTCATCGCCGCGCAGGAAGGGATAACGCTCGCCGTTGAGCACTGGGAAGTGGTGCGCTTTGTGCGCGAGTTTTACCTTGAATTCAACACCTCGCCAGCGATCCGCATGCTGGTAAAGGCGATGGCCAACAAGTTTGGCGAAGAGAAAGGCAACAGCCGCTATCTCTATCGCCTGTTTCCGAAAGGCCCCGCCAAACAAGCGACCAAAATCGCCGGTCTGCCGAAGCCGGTGAAGTGCATCTAA	MFIFEGNEIETDSEGYLKDTTQWSEAMADVIAAQEGITLAVEHWEVVRFVREFYLEFNTSPAIRMLVKAMANKFGEEKGNSRYLYRLFPKGPAKQATKIAGLPKPVKCI				NA	NA	NA	NA	NA
BMS020_02372	660	yccA	COG0670	Modulator of FtsH protease YccA	ATGGATCGCATAATTACATCATCGCGTGACCGTTCCTCGCTGCTCAGCACGCACAAGGTTCTGCGTAACACCTACTTCCTGCTCAGCCTGACGCTGGCGTTTTCCGCCATCACCGCTACCGCCAGCACGGTGCTGATGCTTCCTTCCCCGGGGCTGATTTTAACCCTCGTGGGGATGTACGGTCTGATGTTTCTGACCTATAAAACGGCGAATAAGCCCACCGGGATTATTTCCGCCTTCGCCTTCACCGGGTTCCTCGGCTATATCCTTGGACCGATGCTGAACGCGTACCTTTCTGCCGGCATGGGCGATTTGATCGGCCTGGCGCTGGGCGGTACGGCGCTGGTCTTCTTCTGCTGCTCGGCCTACGTGCTGACGACGCGCAAAGATATGTCTTTCCTCGGCGGGATGCTGATGGCCGGCGTGGTCGTGGTGCTGATTGGTATGGTCGCTAACCTGTTCCTGCAGCTGCCGGCGCTGCACCTGGCGATTAGCGCGGTGTTCATCCTGATCTCTTCGGGCGCCATCCTGTTCGAGACCAGCAACATCATCCGCGGTGGTGAAACCAACTACATTCGCGCCACGGTCAGCCTGTATGTCTCGCTGTACAACATCTTTGTCAGCCTGCTGAGCATCCTGGGCTTCGCCAGCCGGGACTAA	MDRIITSSRDRSSLLSTHKVLRNTYFLLSLTLAFSAITATASTVLMLPSPGLILTLVGMYGLMFLTYKTANKPTGIISAFAFTGFLGYILGPMLNAYLSAGMGDLIGLALGGTALVFFCCSAYVLTTRKDMSFLGGMLMAGVVVVLIGMVANLFLQLPALHLAISAVFILISSGAILFETSNIIRGGETNYIRATVSLYVSLYNIFVSLLSILGFASRD				NA	NA	NA	NA	NA
BMS020_02373	1653	oppA_2	COG4166	Periplasmic oligopeptide-binding protein	ATGACATTAAATCAAAACAATCACATCACGCGAACGCTGCTGGCAGTCAGTATGATAGCAATGATCGGCGGGGCCCAGGCGGCGCAGGTGCCGCCGGGCGCCCAGCTGGCGGAAAAGCAGGAGCTGGTCAGAAATAACGGCAGTGAACCAGCCTCGCTCGATCCGCACAAAGTCGAGAGCGACGTTGAAAATAATATTATTAGCGATCTCTTCGAAGGTCTGGTCAGCGTATCGCCTGCGGGGGTGGTCGAGCCCCGGCTGGCGGAACGCTGGAAAAACAAGGACAACCAGCTGTGGACCTTCCATTTACGTCCCGGCCTGACCTGGTCCGACGGCACGGCCATCACGGCGCAGGATATCGTCTGGAGCTGGCAACGGCTGGTCTCGCCGGCCACCGCCTCCCCCTATGCAAGCTACCCCGGCAATATGCATATCACCAACGCCCGAGAGATTGCCCTGGGGCAAAAGGGCCCCGAGACGCTGGGGGTGAAAGCCCTAAACGACACCACGCTGCAGGTCACCCTGACTCAGCCGAATGCTGCCTTCCTGGCGATGCTGGCGCACCCTGCGCTGGTGCCGATCGACAAAGTGCTGGTGGAGCGTTTTGCCGATAAATGGACCCGGCCAGAGCATATCGTCACCAGCGGGCCCTATAAGCTGACCCAATGGGTGGTGAATGAACGGCTGGTGGCTGAACGTAATGTGAAGTACTGGGACAATGCGCACACGGTTATCAATAAAGTCACTTACCTGCCAGTCTCTTCCGAGGCCGCCGATGTCAATCGCTACAAAGCGGGGGAGATCGATATTGTTTACACGGTGCCGATCAATCAGTTTGCGCAGTTGCAGAAAACCATGGGCGACCAGCTGGACGTTTCGCCACAGTTGGCGACCTATTACTACGAGTTCAATACCACCCGGCCGCCGTTTAACGACGCGCGCGTGCGTCGGGCGCTGAATATGGCGCTTGATAAAGATATCATTGCCGGAAAAGTACTTGGCCAGGGCCAGCGCCCGGCCTGGGTGATCAGTCAGCCGGATATTGGCGGCGTGACGCTACACAACCCGGACTATGCCAGCTGGCCGCGCGAGAAGCGGATTGCCGAGGCGAAAAAACTGCTGGCGCAGGCAGGGTACGATGAGCGGCACCCACTGGTCTTTACCCTGCTATATAACACCTACGAGTCACATCAGCGCATCGCCATCGCCGCCAGCTCTATGTGGAAGAAAAACCTCGGCGTCGAGGTGAAGCTGCAGAACCAGGAGTGGAAGACGATGCTGGATACGATGCATACGCATAATTTTGACGCCGTCCGCTACGCGTGGATTGCCGACTACGACGATGCCGCCTCCTTCCTCAATACCTTCCGCACCGGGGATAGCGAGAACACCAGTCAGTACAGCAACCCGGCTTACGATGAGGCGCTGCACAACGCGGCGAAAGCCACCGACGTGGCGACCCGCGGCAAATACTATCAGCAGGCGGAAGATCTGCTGGCGCAGGATGTTCCCGCCATTCCGGTCTATCACTATGTGCGTACCCATTTAGTGAAGCCCTGGGTGGGCGGCTTCACGCCGGACAAACTGGGGTACTACTACACCAAAGATATGTACATAAAGAAACTGCCGTCCGCGAGCGGCGATGGGCGCTGA	MTLNQNNHITRTLLAVSMIAMIGGAQAAQVPPGAQLAEKQELVRNNGSEPASLDPHKVESDVENNIISDLFEGLVSVSPAGVVEPRLAERWKNKDNQLWTFHLRPGLTWSDGTAITAQDIVWSWQRLVSPATASPYASYPGNMHITNAREIALGQKGPETLGVKALNDTTLQVTLTQPNAAFLAMLAHPALVPIDKVLVERFADKWTRPEHIVTSGPYKLTQWVVNERLVAERNVKYWDNAHTVINKVTYLPVSSEAADVNRYKAGEIDIVYTVPINQFAQLQKTMGDQLDVSPQLATYYYEFNTTRPPFNDARVRRALNMALDKDIIAGKVLGQGQRPAWVISQPDIGGVTLHNPDYASWPREKRIAEAKKLLAQAGYDERHPLVFTLLYNTYESHQRIAIAASSMWKKNLGVEVKLQNQEWKTMLDTMHTHNFDAVRYAWIADYDDAASFLNTFRTGDSENTSQYSNPAYDEALHNAAKATDVATRGKYYQQAEDLLAQDVPAIPVYHYVRTHLVKPWVGGFTPDKLGYYYTKDMYIKKLPSASGDGR	PGPT0021015_1637	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
BMS020_02375	2427	malP_1	COG0058	Maltodextrin phosphorylase	ATGCCTGTCATTAATCCGCAAGATATCAAAGAATTACGGGCGTTGGTTGAAGAACAATTAAAATACACGCTGTGTGTCAGCTTAAATAAAGCCACGCTAGGCGATATTTTTAACGCGGTGGCGCTGGCCATTCGTCATTTTCAGCAGGACCATTTTCTGTCGAGCCAGGCGCGGCAGCGCGAAGCGCGAAAAAAGCGAGTTTACTACCTGTCGATGGAGTTTTTACTCGGCCAGTCGCTGCGTAATAACCTGGTGAATATGAATTTACTGTCGGAGATGCGCCAGGTGGTCAATGACCTGGGGTTTGATCTTGAACGCCTCCTTGACGAGGAGCCTGACGCCGCGCTGGGTAACGGCGGGTTAGGGCGCTTAGCCGCTTGCTTTATCGACTCGATGGCCACCCTTGACATTGCAGCGTCCGGGCATGGCATCAAATACGAATATGGCCTTTTTCGCCAGTCCTTTCAAAACGATCAGCAGATCGAACATCCTGATGACTGGCACTCCATGCATTCCCCATGGCTGGTGGAGCATCACGCCCAGCACATTCTGATCCCGCTGGGGGGGTATATCGAGCATAGCGAAGATATTGATGGTAATTACAACCCGATGTGGCTCGGCTGGAAAACTATCGTTGGTATTCCCCATGACTATTTTGTTTCCGGCTACCGGGATACGACCACCAACAAGCTGCGTCTCTACAGCGCGGTAGCCTCTGACTCCTTTAATATCCATATTTTTAATCGCGGCGATTATATCAAGGCGGTGAGTGAAAAAATCGCCTCGGAGAATATTTCAAAAATACTCTATCCTTCCGATGAGGTGCTGACCGGAAAAGAGCTGCGGCTGACCCAAGAATATTTTCTGGTGGCCTGTACGCTGCGGGATATATTTCGTGACTACGCTGAGGTTAATGACGACATTACTTTGCTGGCGCAGCATGTGGCTATTCAGCTTAATGACACCCATCCGGCATTGGCGGTGGTGGAGCTGATGCGGATCCTCGTGGACGAATACCGACTGCCCTGGGAGCAGGCGTGGGAGATAACGCAAAATACCTGCGCCTACACCAATCATACGCTGATGCCGGAAGCGCTGGAGACCTGGCCGGTGTCGTTGTTTGAGAAACTTCTGCCGCGTCATTTGCAGATTATATTTGAGATTAACCACCGTTTTCTCGAAGCGGTGGCCCGGCGCTGGCCGGATAAAAATCATCTGTTATCTTCGCTGTCTTTAATTGACGAACATCATGATAAACAAATCCGCATGGCTAATCTGGCCATTGTCGGTAGCCATCGCGTGAATGGGGTGGCGTGGCTGCACTCAGAATTGGTCAAAAAACAGCTGGTGCCTGACTTCTATTTTATCACCCCGGAGAAATTCATTAATCAGACCAACGGCGTCACACCGCGTCGTTGGGTGCAGCAGGCTAACCCTGGGCTGGCAGAGTTTTTGCACCAACAATTGGGGGAGGGGTGGCCAATCGATTTACCCCAGCTCTCCCGTCTGGAAAACCTGGTCGACGACCCGGCCGTTATTGACAATATCCGGGCCATAAAATTTGCTAACAAAACCGCGCTCAGCCAGCTGGTGGCGCAACGCTACGGCATCCCGCTGGATCCGCTGGCCATGTTTGACTGTCAGGTCAAACGTATTCACGAATACAAACGACAGTTACTCAATATTCTTCACGTGATCGCGCTGTACCTGGAGATCAAAGAGGCAGGGAGAACGATTGCGCCTAAGGTCCATTTGTTTGCGGGTAAAGCGGCGCCGGGCTACCGGATGGCTAAGCTGATTATTCAGTTGATTAATACCGTTGCCCGAAAAATTAACAGTGACCCGCAGGTCGCCGGGCAGCTTAAAGTGGTTTTCCTCGAAGATTATAAAGTCTCGCTGGCGGAAAAAATTATTCCCGCCACGGATCTCTCTGAGCAAATTTCCACCGCCGGGACCGAGGCGTCCGGCACCAGCAATATGAAGTTTGCCATGAACGGCGCGTTAACTATCGGCACCTATGATGGGGCGAATATCGAAATCCGCGAGGCAGTGGGCATCGATAATTTTTATCTGTTTGGCGCGGTGGCGGAAGAGATTGAAGAGAGCCGACGCCTCGGGCGTCACCATGCGTTCTATCATCAGAATCCGGCTATCGCGCGAGTGGTCGATAGCCTGGTGTCCGGGCAGTTTACCGCCGATCGCGAACGGTTTGCGCCGCTGCATCAGATGCTGACGGGGGCCGATCATTACTGCCATCTGCTGGATTTCGACAGTTATTGTCAGGTGCAACAGCAGGCGATGGCTGATTTTGAACAACCGGATCGCTGGCACCGCCGGGCCTTGCTCAACATTTGCCGGATGGGGGAGTTTTCCAGCGACAGAACCATCCGCGGCTACGCCAGGGATATCTGGGGCATCACCCGCTAA	MPVINPQDIKELRALVEEQLKYTLCVSLNKATLGDIFNAVALAIRHFQQDHFLSSQARQREARKKRVYYLSMEFLLGQSLRNNLVNMNLLSEMRQVVNDLGFDLERLLDEEPDAALGNGGLGRLAACFIDSMATLDIAASGHGIKYEYGLFRQSFQNDQQIEHPDDWHSMHSPWLVEHHAQHILIPLGGYIEHSEDIDGNYNPMWLGWKTIVGIPHDYFVSGYRDTTTNKLRLYSAVASDSFNIHIFNRGDYIKAVSEKIASENISKILYPSDEVLTGKELRLTQEYFLVACTLRDIFRDYAEVNDDITLLAQHVAIQLNDTHPALAVVELMRILVDEYRLPWEQAWEITQNTCAYTNHTLMPEALETWPVSLFEKLLPRHLQIIFEINHRFLEAVARRWPDKNHLLSSLSLIDEHHDKQIRMANLAIVGSHRVNGVAWLHSELVKKQLVPDFYFITPEKFINQTNGVTPRRWVQQANPGLAEFLHQQLGEGWPIDLPQLSRLENLVDDPAVIDNIRAIKFANKTALSQLVAQRYGIPLDPLAMFDCQVKRIHEYKRQLLNILHVIALYLEIKEAGRTIAPKVHLFAGKAAPGYRMAKLIIQLINTVARKINSDPQVAGQLKVVFLEDYKVSLAEKIIPATDLSEQISTAGTEASGTSNMKFAMNGALTIGTYDGANIEIREAVGIDNFYLFGAVAEEIEESRRLGRHHAFYHQNPAIARVVDSLVSGQFTADRERFAPLHQMLTGADHYCHLLDFDSYCQVQQQAMADFEQPDRWHRRALLNICRMGEFSSDRTIRGYARDIWGITR	PGPT0018545_3597	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
BMS020_02376	342		COG1366	Putative anti-sigma factor antagonist	ATGAACGTTGAATTACATACTGAGCAGGGCGTCAAAATTATCGTGCCCCTGGTGCGTCGACTGGATGCTTCCGTTGTCTCGGCGTTTAAGCAGCAGGTCCTCGAGGCCATCGACGGGGAGACAAAAAACGTACTGCTGGATCTGAGCCATGTCGAGTTTATCGACAGCAGTTGCCTGGGTGCCCTGGTATCCATACTCAAGAGCGTCAGTGGGCAGGGAGAGCTGGTGCTGTGTTCGCTCAACGGGACGATCCAGAACCTGTTCAAGCTTACCCGTATGGATCGTATCTTTTCTATTAAAGAGAACCGTCAGGAGGCGCTGAACCTGTTTGCTCAGGGATGA	MNVELHTEQGVKIIVPLVRRLDASVVSAFKQQVLEAIDGETKNVLLDLSHVEFIDSSCLGALVSILKSVSGQGELVLCSLNGTIQNLFKLTRMDRIFSIKENRQEALNLFAQG	PGPT0014350_1739	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749	NA	NA
BMS020_02377	1536	pdeG		putative cyclic di-GMP phosphodiesterase PdeG	ATGAAAGAGATAAAGCGGCGAAACGCATGGATTGCCTTTTCCCTCGCGCTGGTGGTATTTCTGGCTGGCGTGTTCGTCATTAACTGGCAACTGTGGCATTCCGACCAGGCCGCCCATGTCGCCGCCGCCCGCCAGGCGGCGACGAAAATCGCCGTTATTCTGGATGAGGCCCGCACAGCAACGGTGACGGCGATGAACGTTAGCCGCAGCGGGTGCTCGGAACAGGGTCAGTTTCAGCTCGGAACGGAGGCCGCCCTGCAGCCGCATCTGCGCACCATTATGCTGATAAAAGAGGGCCAGGTGTGGTGCTCGTCCCTGCCCGGCAACCGGGTCCTGACGCTCAGCCCTGTTTCTTTATCTGACGAACCTCTGATGCTGCTCCCGGCCAGAATGATGGTCAATAAGCGTCCGGTGCTGATCTATCAGACGCACTCAGCGCAGATCCGGGTGATTGTCACTATCAGCGACGTCCATCTGCGCGATGCGCTATATAGCGATTCGGATAGCAATGGGCTGGCGCTATGGGTTCAGGATCAAATGATTACCAGGCATGGCGATGTCCAGCCACAGGCTGCTGATCCAAGCCGGAGCGTTTTTACCTCGCCGGCCTATCCGTTTCGCATTGCCTATCCCGAGTCATCTTTTTTAAGCCCCGGCCGCCTGGTGAATAATGGCGCCGGTTTGCTGATTTTTATTTTCTCTGTTTCGCTGCTGTTTTATTTTCTGATGCGTAAATTTCTCAATGTTTACACCTCTGAAGAGGAAAAGTTACGCTACGCCATCGCCCAGGGCTATATCGTTCCCTACTACCAGCCTTTGGTGAACGGGAAAACCGGTGAGATATACGGTGTGGAAATACTGGCACGCTGGCAAAACACCACCACGCCCTCGCGTTCACCTGCTGAATTTATACCGCTGGCCGAGCGTACCGGCTTAATTATTCCGCTGACCCGCAGCCTGATGGCGCAGGTAACCGCCCAGATGAGACCGCTCTTTAATAAACTACCGGATGGGTTTCATATCGGCCTCAACATCAGCGCGTCGCATATTAACTCGCCGACGTTTATCGATGATTGTCTGCACTTTCAGCGCGGCTTTGAGGGTAAAGCGGTAAAGCTGATGCTGGAGATCACCGAGCAGGAACCGCTGTTACTCAATGGGGCGGTGGTCGACAAGCTCAACAGGTTACACAACTGTGGGTTTTCCATCGCGCTGGACGACTTTGGTACCGGCTATTCCGGGCTTTCCTATCTGCACGAACTGGTGTTTGATTACATTAAAATCGATCAGAGCTTTGTCGGTCGCGTGACCGGAGAGACGCCGTCAAGCAAGCTGCTGGACTGTGTGATAGAGATGGCCCGAACGCTTTCACTGCGCATCATTGCCGAGGGCGTTGAAACCCAGGCCCAGCTGGATTACCTCAATCGCCAGAATATTCCTCTGCTGCAGGGCTACTTCTTCTGGAAGCCGATGCCCTACGTCGCGCTGGTGATGCTCCTGCTGAGTAAACCGAAGGCACGGATTATCGAAGAATAA	MKEIKRRNAWIAFSLALVVFLAGVFVINWQLWHSDQAAHVAAARQAATKIAVILDEARTATVTAMNVSRSGCSEQGQFQLGTEAALQPHLRTIMLIKEGQVWCSSLPGNRVLTLSPVSLSDEPLMLLPARMMVNKRPVLIYQTHSAQIRVIVTISDVHLRDALYSDSDSNGLALWVQDQMITRHGDVQPQAADPSRSVFTSPAYPFRIAYPESSFLSPGRLVNNGAGLLIFIFSVSLLFYFLMRKFLNVYTSEEEKLRYAIAQGYIVPYYQPLVNGKTGEIYGVEILARWQNTTTPSRSPAEFIPLAERTGLIIPLTRSLMAQVTAQMRPLFNKLPDGFHIGLNISASHINSPTFIDDCLHFQRGFEGKAVKLMLEITEQEPLLLNGAVVDKLNRLHNCGFSIALDDFGTGYSGLSYLHELVFDYIKIDQSFVGRVTGETPSSKLLDCVIEMARTLSLRIIAEGVETQAQLDYLNRQNIPLLQGYFFWKPMPYVALVMLLLSKPKARIIEE				NA	NA	NA	NA	NA
BMS020_02378	1017	fbpA		Fe(3+)-binding periplasmic protein	ATGAAATCTCGCTTATCGCCCCTCCGCACGGCAGCGCTGGTTGCCGCTTCTCTGTTTCTGGCGCCGCAAGGGATGGCGGCTGACGGTCAGGACGGGATTGTGGTCTACAACGCCCAACACGAAAATCTGGTGAAGTCGTGGGTGGATGGATTTACGAAAGAGACCGGTATTAAAGTCACGCTGCGCAATGGTGATGACAGCGAGCTGGGTAATCAGCTGGTTCAGGAAGGCGCCGCGTCGCCAGCCGATGTGTTTCTGACCGAGAACTCGCCGTCGATGGTGCTGGTTGATAATGCCAAACTTTTCGCCCCGCTGGATGCGGCGACCCTGCAGCAGGTTCCGGCGCAGTACCGCCCTCAGCACGGTCGCTGGATCGGCATCGCCGCGCGCAGCACCGTCTTCGTCTATAACCCGGCGAAAATCAGCGAGGCGCAGCTGCCGCACTCGCTGATGGATCTGGCAAAACCGGAGTGGAAGGGCCGCTGGGCGGCTTCGCCATCGGGGGCGGATTTCCAGGCTATCGTCAGCGCGATGCTGGCGCTGAAGGGCGAGCAGGCGACTCTCAACTGGCTGAAGGCGATGAAAACCAACTTTGTCGCCTATAAAGGCAACAGCACGGTGATGAAAGCGGTCAACGCCGGGCAGATCGACGGCGGGGTGATCTACCATTACTATCGCTTCGTTGACCAGTCAAAAACCGGCGAGAACAGCAAAAACACCCAACTGTATTACTTCAAACACCAGGATCCAGGGGCCTTCGTCAGCATTTCCGGCGGCGGCGTGCTGGCCTCCAGCAAACATAAAGCGCAGGCGCAGGCCTTTATTAAATGGATCACCGGTAAGCAGGGACAGGATGCGCTGCGCACCAATAACGCCTTCGAATATGCGGTGGGGGTAGACGCGGCCTCTAACCCGAAACTGACCCCGCTGAAAGATCTGGACGCCCCGAAGGTAGAACCTTCCTCGCTGAACAGTAAAAAGGTCATTGAACTGATGACGCAGGCTGGCCTGCTCTGA	MKSRLSPLRTAALVAASLFLAPQGMAADGQDGIVVYNAQHENLVKSWVDGFTKETGIKVTLRNGDDSELGNQLVQEGAASPADVFLTENSPSMVLVDNAKLFAPLDAATLQQVPAQYRPQHGRWIGIAARSTVFVYNPAKISEAQLPHSLMDLAKPEWKGRWAASPSGADFQAIVSAMLALKGEQATLNWLKAMKTNFVAYKGNSTVMKAVNAGQIDGGVIYHYYRFVDQSKTGENSKNTQLYYFKHQDPGAFVSISGGGVLASSKHKAQAQAFIKWITGKQGQDALRTNNAFEYAVGVDAASNPKLTPLKDLDAPKVEPSSLNSKKVIELMTQAGLL	PGPT0003725_3624	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
BMS020_02379	1575			hypothetical protein	ATGTCTGTTCTGAGTCTGTCGCTCGGAAAGAAAACAGGACGCCTGCCCGAGCGCAGGCGTCCTGCATTTCCGATGGTTGCCTTAGCGCTCCTGTTTTCATTGCTGGCGCTGTTGCCGTTAGGGTTTGTGGTGGCGGTCGGATTCGAGACCGGCTGGCCGACAATCAAAGCGCTGGTCTTTCGCCCGCGGGTAGGCGAGCTGCTCAGCAATACCCTGTGGCTGACGGTGCTGGCGGTCCCCATCAGCATTGTGCTTGGCGTGACGCTGGCCTGGCTGACGGAACGTACCGCGCTGGCCGGGCGGCAGCTGTGGTCGGCGCTGGCGGTGGCCCCGCTGGCCATTCCAGCCTTTGTTCAGAGCTACGCGTGGGTCAGCGCTGCGCCCTCGCTGCATGGCCTGGGCGCCGGGGTGTTTCTTTCCGTGCTGGCCTACTATCCGTTTATCTATATGCCAGTGGCGGCCGTGCTGCGCCGACTCGATCCCACGCTTGAAGATGTCGCCGCATCGCTGGGCACTCCGCCGTGGAAAGTGTTCTTTCGGGTGGTCCTCCCGCAGCTGCGGCTGGCTATCTGCGGCGGTGCGCTGCTGGTGGCTCTGCATCTGCTGGCGGAATATGGTCTGTATGTGATGATCCGCTTCGATACTTTCACTACCGCCATTTACGATCAGTTCCAGTCGACCTTCAGCGGTCCGGCCGCCAATATGCTGGCGGGCGTGCTGGCTCTGTGCTGTCTGGCGATCCTGCTGCTGGAGAGCGCTTCGCGCGGTAAAGCGCGCTATGCGCGTATCGGCGCCGGGGCGGCGCGCGAGCAGAAGCGCCTGGTGCTGGGTAAAGGGGCCGCTTTCGGCGCGCAGCTGCTGCTTCTGTTGCTGGTGTTGCTGGCGATGGGGGTGCCGTTGCTGGTCCTGGGACGCTGGCTGTGGCTGGGCGGTATCGACAACTGGCTGCATGCCGATCTGTGGCATTCCCTGCGTCAAACGCTGCTGCTGGGGGCGGGCGGGGCGCTGCTGACGACGGTCTGCGCGATCCCCATCGCCTGGCTCGGCGTGCGCTATCCGCGTCCGCTGTTCCGCCTGCTGGAGGGGTGTAATTACATCACCAGCTCGCTGCCCGGCATCGTGACCGCGCTGGCGCTGGTCACCGTCACCATCCACTATGCCCGTCCGGTGTACCAGACAGAAGTGACGCTGTTTCTGGCCTATTTGCTGATGTTTATGCCGCGGGCGCTGATTAACCTGCGCGCCGGTATCGCCCAGGCGCCGGTGGAGCTGGAAAACGTCGCCCGCAGTCTCGGACGCAGCCCGGCCCGCGCCCTGTGGAGTATCACCATGCGGCTTGCCGCCCCGGGGGCGGCCGCCGGCGCCGCGCTGGTGTTCCTCGGCGTCAGCAATGAGCTGACCGCCACGCTGCTGCTCTCGCCGTTAGGCACCCGCACGTTGTCGACCGGATTCTGGGCGTTAACCAGCGAGATCGACTACGTGGCGGCGGCGCCCTACGCGCTGTTGATGATCGTCATTTCGCTGCCGCTGACGGCGGTTCTCTATATGCAGTCGAAAAAAATGGCAGGGTTGTAA	MSVLSLSLGKKTGRLPERRRPAFPMVALALLFSLLALLPLGFVVAVGFETGWPTIKALVFRPRVGELLSNTLWLTVLAVPISIVLGVTLAWLTERTALAGRQLWSALAVAPLAIPAFVQSYAWVSAAPSLHGLGAGVFLSVLAYYPFIYMPVAAVLRRLDPTLEDVAASLGTPPWKVFFRVVLPQLRLAICGGALLVALHLLAEYGLYVMIRFDTFTTAIYDQFQSTFSGPAANMLAGVLALCCLAILLLESASRGKARYARIGAGAAREQKRLVLGKGAAFGAQLLLLLLVLLAMGVPLLVLGRWLWLGGIDNWLHADLWHSLRQTLLLGAGGALLTTVCAIPIAWLGVRYPRPLFRLLEGCNYITSSLPGIVTALALVTVTIHYARPVYQTEVTLFLAYLLMFMPRALINLRAGIAQAPVELENVARSLGRSPARALWSITMRLAAPGAAAGAALVFLGVSNELTATLLLSPLGTRTLSTGFWALTSEIDYVAAAPYALLMIVISLPLTAVLYMQSKKMAGL	PGPT0003730_4223	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
BMS020_02380	1029	fbpC		Fe(3+) ions import ATP-binding protein FbpC	ATGCTGGAATTGTCTTCTGTTTCGAAATCCTTCGCCGACGCGCAGGTCCTCGATAATATTCATCTTCAGGTGGCGCCGGGTAGCCGGACGGCTATAGTGGGTCCGTCGGGTTCGGGAAAAACCACGCTGCTGCGCATTCTCGCCGGTTTCGAAACGCCCGACAGCGGGCGGATCGTGATGCACGGCGCGCCGCTGTTTGCCGAGGGCGTGTTTGTTCCTGCCCACCAGCGACGGATCGGCTACGTTCCGCAGGAGGGGGCGCTGTTTCCTCACCTCAATGTGGCGGACAATATCGCCTGGGGACTGGACGCCAGCCGCGAGGAAAAACGTCGCCGGGTGGGCGCGCTGATGGAGATGGTCGCCCTCGACCACAGCCTGGCGCGCCACTGGCCGCATGAGATCTCCGGGGGCCAGCAGCAGCGTGTGGCTCTGGCTCGCGCCCTGGCCCAGCAGCCGGCGCTGATGCTGCTCGATGAACCCTTTTCTGCCCTGGACACCGGACTGCGCGCCAGCACGCGCAAAGCGACCGCCGATCTGCTGGCGGAGACCGGCATCGCCTCGATTCTGGTGACCCATGACCAGACCGAAGCGCTGTCGTTCGCCACACAGGTGGCGGTGATGCGCCAGGGGCGTTTCGCCCAGGTGGGGACCCCGCTGGCGGTTTACTCGCAGCCGGTGGATGAAGAGACGGCGCTGTTTCTCGGCGATGCCCTGATCCTCCCCGCACGGCTGAGCCCCGGGCGGGCCAGCTGCGCGCTGGGCGACCTGGCGACAGACGCAGGGCATCCTGCTGGTGAAGGTAAGGTGATGTTGCGTCCGGAACAGCTGAGCGTCAGCGTGAGCGGGCCGCAGGAAAGTACCGCCACCATCCGCGATGTTGATTTCTCCGGCCAGCTCTCCACGCTGACGCTGTCGATGTCCGGGCACGATCGGCCGATTGTCCTGCGAACCGTAAGCCAGCCGGCGTGGCAGCCCGGCGCGACGGTGCGATTGACGGTCAGCGGCAAGGCGCGAGTGTTCAGCGGCTAA	MLELSSVSKSFADAQVLDNIHLQVAPGSRTAIVGPSGSGKTTLLRILAGFETPDSGRIVMHGAPLFAEGVFVPAHQRRIGYVPQEGALFPHLNVADNIAWGLDASREEKRRRVGALMEMVALDHSLARHWPHEISGGQQQRVALARALAQQPALMLLDEPFSALDTGLRASTRKATADLLAETGIASILVTHDQTEALSFATQVAVMRQGRFAQVGTPLAVYSQPVDEETALFLGDALILPARLSPGRASCALGDLATDAGHPAGEGKVMLRPEQLSVSVSGPQESTATIRDVDFSGQLSTLTLSMSGHDRPIVLRTVSQPAWQPGATVRLTVSGKARVFSG	PGPT0003735_3532	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
BMS020_02381	921			hypothetical protein	ATGCCTGAATGCCTTATTCCTGCGAAACGCCCCATTCCGTCCGCTTTGGCGCGGGGTACGCTACTGCCTGCGCTGCTGGTTATCGTCGCCGTCGCTGTCGGCTGTGCGCTGGTGTCGCCGCCCATCGGCTCGTGGCGAGAAATCCTGGCCAACCCCGGACTCTATATCGATTTGCTGGCGCTGCTGTTTCTGGTGTTTATGCTGTGGAGCTCAGCGAAGGTGCGGATGAGCCATATTGCCGTCAACTGGGTGCGCTATGGGCTGCTGCTGTGGATTGCCGGCGGCACGTTCGATGTGATGGATGAGATGGTGGTTCAGCCGCGCTGGATGGGCTACTACTGCGAAGATCTGCTGCGCCTCTCCGGGATGCTGCTTACCGTGGTGGGCGTCTACAAAATTATTGAGCGCATCAACCTGCTGTACGTTGACGCGCGCTCGCAATCCCTAAAAGATGAGCTCACTCAGTTGCCCAACCGCCGCTTTTTTATCGATACCATTCGCGAAAAGTCCGGACATGCGTTGGGGCTCATGATCCTGGATATCGATTTTTTTAAGAAAATCAACGATACCTGGGGCCACCTGGTGGGGGATGAAGTGTTATTTTCCCTGGGGAAACAGCTGGCGAAACTGACCAGCGAGCAGGTCCTGCCGGCGCGTATCGGTGGGGAAGAGTTTGCCATTATCGTCGATGGCCTGTCGGAGCCTGAGCTGCACGATCTGGCGCAGGCGATCCTCGACAATGCCCGCACCATCCTGATCAATCATCAAACACCGCTGTCGATCAGCATTGGCGTCGGAACCTGGCGGCCGGGCGAAGCGCAGGAGACGTTTATCCGCAAAGTCGACGAGGCGTTGTACAAGGCCAAGCACAACGGGCGCGGGCGCGTGGAGTGGGCGCAATATTCCGACACGGCAGGTTAG	MPECLIPAKRPIPSALARGTLLPALLVIVAVAVGCALVSPPIGSWREILANPGLYIDLLALLFLVFMLWSSAKVRMSHIAVNWVRYGLLLWIAGGTFDVMDEMVVQPRWMGYYCEDLLRLSGMLLTVVGVYKIIERINLLYVDARSQSLKDELTQLPNRRFFIDTIREKSGHALGLMILDIDFFKKINDTWGHLVGDEVLFSLGKQLAKLTSEQVLPARIGGEEFAIIVDGLSEPELHDLAQAILDNARTILINHQTPLSISIGVGTWRPGEAQETFIRKVDEALYKAKHNGRGRVEWAQYSDTAG				NA	NA	NA	NA	NA
BMS020_02382	834	rhaR_2		HTH-type transcriptional activator RhaR	ATGATTGAAGATCTGCCGGATATACTGCATCGGTTAATCGGTCAAAAAGATCGCTTACAGGTGAGATTTCCTGAGCCGGATATCTCCGTGCCTGCCCTTGCCTTCAACGTACCGTTTCCACGTCTGGAAATTGTGCTGGAGGGTCAGCTTAATGAACAGGGGCTGCCGCTAGCCGCTTCGACGTTAACCGCGCTGCAGGTACTCTACGTGCAGGCGGGAAAGTGGACGCTGCCGCAGTGGACCGGCCCGGCCACTACCCTGAGTATCCTGTTTGGCCGGCAGAAACTGGGATTCAGTATTCAGCGCTGGGACGGGAAAAGCCTGCACACGGAGAAGCAAAGCGTTGCCCGCCTCGGGCCGCGCGTGGGCTCTTACCTGCTGCTGAGCCTGAATGAAGTCAGCCTGCAGCCCGATCCGCTGACCGCCCGGCTGGTGGTCGCCGCGCTACTGAGCCACTGTCGCGAACAGCTGGTTGGGCTGGAAATGCGCGTCAGTCGCAGCCGGGATCTGTTTCTTGCCGTTCAGGACTATCTCGAGGAAAATCTGAGCCTGCCGCTGTCGCGGGAATCAGTGGCCAGACGTTTTCACATCACGCCCAACTATCTTTCGCATATTTTTCAGAAATCAGGCTCGGTGGGATTTAACGAATATCTGACCCGGGTGCGTCTTGAAAAGGCAAAACAGCTGCTGCGCGGCTATGACCTGAAGGTGAAAGAGATCGCCCATAACTGCGGCTTTGTCGACAGCAACTATTTTTGCCGGGTCTTCAAACGCTACACCGAGCGTTCGCCGTCAGAGTATCGGCGACACTGCCGCAGCGCACAGCAGGCCTAA	MIEDLPDILHRLIGQKDRLQVRFPEPDISVPALAFNVPFPRLEIVLEGQLNEQGLPLAASTLTALQVLYVQAGKWTLPQWTGPATTLSILFGRQKLGFSIQRWDGKSLHTEKQSVARLGPRVGSYLLLSLNEVSLQPDPLTARLVVAALLSHCREQLVGLEMRVSRSRDLFLAVQDYLEENLSLPLSRESVARRFHITPNYLSHIFQKSGSVGFNEYLTRVRLEKAKQLLRGYDLKVKEIAHNCGFVDSNYFCRVFKRYTERSPSEYRRHCRSAQQA	PGPT0014658_35	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA	NA	NA
BMS020_02383	768			hypothetical protein	ATGAACTCATCATCAGCTAGCTTTCTCGATGCGTTAGGCGCCAGCCTGGCGCTCAGCGCGCAAATGAAACACGAGCTCGACACCCTCGGCTACACCGTTGTGCATAACGTCGTTGACGCCCAGTGGCTGAGCGAAATGCGACGGCTAATTGATACCCTGGTCGAGCGCGAAGGCGACAATCTGGCGATGGAACATCATCAGGAAGCGACCGCGACGCGGATCGCCAACCTGGTGAATAAGGGGGTTATCTGGGAGAAAGTCTGGGCTCATCCGCTGATCCTCTCCGCCTGCCGCTATATCTTCAACGGCGATTTTAAAGTCTCCAGCCTCAACGCGCGCGAGGCGTTATATAACGGCGGCCACCAGCCGCTGCACGCCGACTGGAAAAAGCCGCGCCCGGATTTTCCCAAAGTCCACCTGGTGAATACCATCTGGGCGATAGACGATTTGAGCGCCGCCAACGGCGCGCCGCGGATTATCCCCGGTACCCACCTGCGTCCTGAGCTCCCGGAAGAGGTACTGGCCGACCCGGAGCAGGCCCACCCTGATGAAATCGTGTTTGCTGCGCCGGCCGGGAGCGTGATGATTTACAACGCTCACGCCTGGCACGGCGGCACGCGTAATCGTGAGGGCAGCAGACGACGTGTGCTGCATGGGTTATACATCGATCGCGCGGATACGCCGCAGCAGGACCAGCGGCGCTGGTTGACGCCCGAGACGGCCAGCCGCCTGACGCCAGCGCAAAAGTGGTTGCTGGATGTAGAGTAA	MNSSSASFLDALGASLALSAQMKHELDTLGYTVVHNVVDAQWLSEMRRLIDTLVEREGDNLAMEHHQEATATRIANLVNKGVIWEKVWAHPLILSACRYIFNGDFKVSSLNAREALYNGGHQPLHADWKKPRPDFPKVHLVNTIWAIDDLSAANGAPRIIPGTHLRPELPEEVLADPEQAHPDEIVFAAPAGSVMIYNAHAWHGGTRNREGSRRRVLHGLYIDRADTPQQDQRRWLTPETASRLTPAQKWLLDVE				NA	NA	NA	NA	NA
BMS020_02384	342	frwD	COG1445	PTS system fructose-like EIIB component 3	ATGGACTTCAATATTATCGCCGTCACCGCCTGCGTCAGCGGAGTGGCGCACACCTATATGGCTGCCGAACGGCTGGAAAAGGTCGGTCATCATGAAAAATGGCATCTTAAGGTGGAAACTCAGGGCGCGCTCGGCGTTGAAAATCGCATTACCGCAGAAGATATCGCCCGCGCCGAAGTGGTGCTGCTGGTGACGGATATCGAAATTGACGACGCCCAGCGCTTTCGCGGCCTGCGGACGATTAAAACCAGCATCAAGAGCTTCCTGCTGCAGCCGCAGCAGATCGTCGAGGCCGTGAAAAGCATCATGAAAAAGCCGGTCGTCTATGTTGAACTTCCCTGA	MDFNIIAVTACVSGVAHTYMAAERLEKVGHHEKWHLKVETQGALGVENRITAEDIARAEVVLLVTDIEIDDAQRFRGLRTIKTSIKSFLLQPQQIVEAVKSIMKKPVVYVELP	PGPT0017125_248	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_FRUCTOSE_PTS_SYSTEM_I,PGPT0017125-fruAb-K02769	NA	NA
BMS020_02385	876	cutD_2	COG1180	Choline trimethylamine-lyase activating enzyme	ATGACATTATCCGCCGCACCGCGCATCAGCTGTGAGGTGATGGAGACGCGCGCCGACCGGGCGCGCATTTTTAATCTGCAGCGCTACTCGCTCAATGATGGCCAGGGGATCCGCACGGTGGTCTTTTTCAAAGGCTGCCCCCACACCTGCCCGTGGTGCGCCAACCCGGAGTCAATGTCACCCAGGATCCAGACCCTGCGCCGGCAGAGTAAATGCCTGGGTTGCGCCCGCTGCCAGCAGGATGTCGTCGAGTGTCCCTCCGGGGCATGGGAGCAGATCGGTCGCGACATGACGCTGGATAACCTCCTTCATGAGGTGCTGAAGGATGAAGTCTTCTTCCGCGCCTCCGGTGGCGGTGTCACCCTCTCCGGCGGTGAAGTGCTCATGCAGGCCGAATTTGCCGCCCGCTTTCTCCAGCGCCTGCGCCAGTGGGGGATCCGCACCGCCATCGAAACCGCTGGCGACGGGCCCTTCAACCGTTTTTTACCGGTGGCTGAAGCCTGCGACGAGGTGTTATTTGATTTTAAAATCATGGAACCTGAGCGGGCATTGTCGCTACTGCGAATCAATCAGCCGCGGGTACTGGATAATTTTCGCCAGCTGGCGGCTAGAGAGATCAACCTCATCCCACGCGTGCCGCTGATCCCGGGCTATACCATGAGCGTCGATAATTTTCGCCAGATTCTGAACTTTCTCGCACCTTTTAATCTTACAGAATTGCACCTGCTGCCATTTCATCAATACGGCGAGCCCAAATACCGTCTGCTGGGCAAACCCTGGGCGCTGGCCAGGGTGAAAGCGCCTGACGAAGCGGACATTCAACCTTATCGGGTAATGGCCGAAGCGGCCGGATTCCACGTCACTATCGGCGGTTAA	MTLSAAPRISCEVMETRADRARIFNLQRYSLNDGQGIRTVVFFKGCPHTCPWCANPESMSPRIQTLRRQSKCLGCARCQQDVVECPSGAWEQIGRDMTLDNLLHEVLKDEVFFRASGGGVTLSGGEVLMQAEFAARFLQRLRQWGIRTAIETAGDGPFNRFLPVAEACDEVLFDFKIMEPERALSLLRINQPRVLDNFRQLAAREINLIPRVPLIPGYTMSVDNFRQILNFLAPFNLTELHLLPFHQYGEPKYRLLGKPWALARVKAPDEADIQPYRVMAEAAGFHVTIGG				NA	NA	NA	NA	NA
BMS020_02386	2298	cutC_2	COG1882	Choline trimethylamine-lyase	ATGACGAATCGTACTCAACGCCTGAAAGCCAGCCTGTTCGCCCAACCGCGCGAAATATCACTTGAACGCGCCCTGCTGTATACCGCCAGCCATCGGCAAACGGAGGGCGAGCCGGTGATTATTCGCCGGGCGAAGGCCACCGCCTGGATCCTCGATAAGGTAGACATTTCGATTCGTGATGATGAACTGATTGCCGGCAACCGTACCATCAAACCGCGGGCCGGCATTATGTCGCCGGAGATGGATCCCTACTGGCTGCTTAACGAGCTTGACACCTTCCCGACCCGACCGCAGGACCGCTTCGCGATAAGCGAAGAAGATAAGCGCGTCTATCGGGAAACGCTGTTCCCCTACTGGGAAAAGCGCTCAATGAAAGATTTCATCAACGGCCAGATGACCGACGAGGTCAAAGCCGCCGTCAGCACCCAAATATTCAGCGTGAACCAGACCGATAAAGGCCAGGGCCATATCATTATCGACTATCCGCACCTGTTGAATAATGGCCTGGACGCGCTGGTTGCGGAGATGCAATCACACTGCGACCGGCAGCCTGATAACCCTTTTTATCAGGCGGTATTGATCCTGCTGGAGGCCTCTCAGCGCCATATTCTGCGCTACGCCGCGCTGGCCGAGGAGATGGCTGGACACTGTCAGGATCCGCAGCGTCAGCGGGAGCTGTTAACCATCGCCGCGATTTCGCGCCACAATGCGCAGCACCGGCCAACGGACTTCCCCCAGGCCTGCCAGCTGTTCTGGTATATGAACATCATTCTGCAGTACGAATCCAATGCCAGCTCCATTTCGCTCGGCCGTTTTGACCAGTACATGCTGCCGTTTTATCAGGCGTCGCTGAATCAAGGACAGGATCCGGCGTCGCTCAAGGAGCTGCTGGAGTCGCTTTGGGTAAAATGCAACGACATCGTGCTGCTGCGCTCCTCCAGTAGCGCACGCTATTTCGCCGGTTTTCCCACCGGGTATACCGCCCTGCTCGGTGGGCTAACGGAAACCGGGCGCAGCGCGGTCAACGTGCTGTCATTTTTATGCCTCGATGCCTATCAAAACGTGCAATTGCCGCAGCCGAATCTTGGCGTGCGGGTGAACGAGCTGATTGACCGCCCGTTCCTGCGTAAAACCGCCGAAACCATCCGCCTGGGCACCGGCATTCCACAGATTTTCAACGACGAGGTGGTGGTCCCCGCCTTCCTCAATCGTGGCGTGTCGCTGGAAGACGCCCGCGACTACGCGGTGGTCGGCTGCGTCGAGTTGTCGATCCCCGGCCGCACCTACGGCCTGCATGATATCGCCATGTTCAACCTGCTGAAGGTCATGGAACTTGTCCTGCAGGAAAATGAAGGGCAACCGGAGGTCAGCTGGGAAGGGCTTATCCGCCAGATGCGCGACAAAATTCGCTATTACATCAAGCTGATGGTCGAGGGCAGCAATATCTGCGATATCGGCCATCGCGACTGGGCGCCAGTGCCTCTCCTCTCCTCGTTCATTAAAGATTGCGTGCAGCACGGTAAAGACATCACCGCCGGCGGAGCGCGCTATAACTTCTCCGGCGTCCAGGGCATCGGGATCGCCAACCTGAGCGATTCGCTTTATGCCCTGAAGGGGATGGTCTTTGACCAGCAGCGCCTTAGCTTTGACCAACTGATGGCGGTACTGAAAGCCAACTTCCAGACGCCAGAGGGAGAGAAAATCCGCGCCCGGTTGATCAACCGTTTTGAAAAATACGGCAACGATATCGACGACGTCGATAATATCAGCGCCGATCTGCTGCGCTTTTACTGCAAAGAGGTGGAACAATATCTGAATCCGCGCGGCGGGCGTTTTACGCCCGGCTCCTATACCGTCTCGGCGCACGTGCCGCTGGGCTCGGTGGTGGGGGCTACCCCGGACGGGCGGCTGGCTGGCGAACAGTTAGCGGACGGCGGCCTGTCGCCAATGGTCGGCCAGGATGCCCAGGGGCCGACGGCGGTGCTGAAATCAGTCAGCAAGCTGGATAACTATCTGCTGTCGAACGGTACGCTGCTCAACGTTAAATTCACCCCGGCGACGCTGGCCGGCGACGGCGGGCTAAACAAGCTGGCAGACTTTTTACAGGCTTTCTGCAAGCTCAAGCTGCAGCATATTCAGTTTAACGTGGTCAATGCCGACACCCTGCGTGAAGCGCAGCAACGGCCGCAGGACTTTGCCGGCCTGGTGGTGCGCGTCGCGGGCTACAGCGCCTTCTTTGTTGAGCTGTCGAAGGAGATTCAGGATGACATTATCCGCCGCACCGCGCATCAGCTGTGA	MTNRTQRLKASLFAQPREISLERALLYTASHRQTEGEPVIIRRAKATAWILDKVDISIRDDELIAGNRTIKPRAGIMSPEMDPYWLLNELDTFPTRPQDRFAISEEDKRVYRETLFPYWEKRSMKDFINGQMTDEVKAAVSTQIFSVNQTDKGQGHIIIDYPHLLNNGLDALVAEMQSHCDRQPDNPFYQAVLILLEASQRHILRYAALAEEMAGHCQDPQRQRELLTIAAISRHNAQHRPTDFPQACQLFWYMNIILQYESNASSISLGRFDQYMLPFYQASLNQGQDPASLKELLESLWVKCNDIVLLRSSSSARYFAGFPTGYTALLGGLTETGRSAVNVLSFLCLDAYQNVQLPQPNLGVRVNELIDRPFLRKTAETIRLGTGIPQIFNDEVVVPAFLNRGVSLEDARDYAVVGCVELSIPGRTYGLHDIAMFNLLKVMELVLQENEGQPEVSWEGLIRQMRDKIRYYIKLMVEGSNICDIGHRDWAPVPLLSSFIKDCVQHGKDITAGGARYNFSGVQGIGIANLSDSLYALKGMVFDQQRLSFDQLMAVLKANFQTPEGEKIRARLINRFEKYGNDIDDVDNISADLLRFYCKEVEQYLNPRGGRFTPGSYTVSAHVPLGSVVGATPDGRLAGEQLADGGLSPMVGQDAQGPTAVLKSVSKLDNYLLSNGTLLNVKFTPATLAGDGGLNKLADFLQAFCKLKLQHIQFNVVNADTLREAQQRPQDFAGLVVRVAGYSAFFVELSKEIQDDIIRRTAHQL	PGPT0019431_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019431-pflD|bssA-NA	NA	NA
BMS020_02387	321	fruA_2	COG1299	PTS system fructose-specific EIIB'BC component	ATGACCCACATTATCGCTGTCACCGCCTGCCCGTCGGGTGTGGCTCACACCTATATGGCCGCCGAATCGTTAGAAAGCGCCGCTAAGGCCAAAGGCTGGCAGGTCAAAGTTGAAACCCAGGGTTCTATCGGCATTGAAAACGAGCTGACCGCGGAAGAGATCGCCGCCGCCGATATGGTCATTCTGACCAAAGATATCGGTATCAAATTCGAAGAGCGTTTTGCCGGGAAAACTATCGTACGCGTCAATATCAGCGATGCGGTCAAACGCGCCGACGCCATCATGAACAAGATAGACAGCCACCTTTCCCAACGAGCCTGA	MTHIIAVTACPSGVAHTYMAAESLESAAKAKGWQVKVETQGSIGIENELTAEEIAAADMVILTKDIGIKFEERFAGKTIVRVNISDAVKRADAIMNKIDSHLSQRA	PGPT0017125_223	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_FRUCTOSE_PTS_SYSTEM_I,PGPT0017125-fruAb-K02769	NA	NA
BMS020_02388	1077	manP	COG1299	PTS system mannose-specific EIIBCA component	ATGAACGAACTGGTGCAAATACTAAAAAATACTCGCCAGCATCTGATGACCGGCGTGTCACATATGATCCCCTTCGTGGTCTCCGGCGGGATCCTGCTGGCGGTGTCCGTCATGTTGTATGGCAAAGGTGCGGTTCCGGATGCCGCCACCGATCCCAACCTGAAGAAACTGTTTGATATTGGCGTCGCCGGCCTGACGCTGATGGTCCCTTTTCTCGCCGCCTACATTGGCTACTCCATCGCCGACCGCGCCGCGCTGGCCCCCTGCGCCATCGGCGCCTGGGTAGGTAACAGCTTCGGCGCCGGCTTCTTTGGCGCGCTGATCGCTGGGATGATCGGCGGTCTGGTGGTCTATTACCTGAAAAAAATACCGGTCCACAAGGTGCTGCGCTCGGTGATGCCGATATTCATTATTCCCATCATCGGCACCTTTATTACTGCCGGGATCATGATGTGGGGGCTCGGCGAACCGGTAGGCGCGCTCACGGCAAACCTGACCAACTGGCTGCAGGGCATGCGCGAAGGCAGCATCGTGGTGCTGGCCATCATTATGGGCCTGATGCTGGCGTTTGATATGGGCGGCCCGGTGAACAAAGTGGCCTACGCCTTCATGCTGATCTGCGTTTCACAGGGGGTCTATAGCGTAGTGGCTATCGCCGCCGTCGGCATCGCCGTACCGCCGCTGGGGATGGGACTGGCGACGCTGATCGGCCGCAAATATTTCACCGCCGAAGAGAGGGAAACCGGCAAAGCGGCGCTGGTGATGGGCTGCGTCGGGGTCACCGAAGGGGCGATTCCCTTTGCCGCTGCCGACCCGCTGCGCGTTATTCCGGCCAATATGATTGGCGCGGCCAGCGGCTGCGTCACCGCGGCGCTGTTGGGCGCCCAGTGTTACGCCGGCTGGGGCGGGCTCATCGTGCTGCCGGTGGTCCAGGGCAAACTCGGCTTTATCGCCGCGCTGCTGGTCGGCGCCTGCGTCAGCGCCGCCTGCGTCATTGTGCTGAAAGCGCTGGCTAAAAAGAAATCGTCTGACGCCAAAGCCGACGACGAATTAGACCTTGATTTTGAAATTAACTAA	MNELVQILKNTRQHLMTGVSHMIPFVVSGGILLAVSVMLYGKGAVPDAATDPNLKKLFDIGVAGLTLMVPFLAAYIGYSIADRAALAPCAIGAWVGNSFGAGFFGALIAGMIGGLVVYYLKKIPVHKVLRSVMPIFIIPIIGTFITAGIMMWGLGEPVGALTANLTNWLQGMREGSIVVLAIIMGLMLAFDMGGPVNKVAYAFMLICVSQGVYSVVAIAAVGIAVPPLGMGLATLIGRKYFTAEERETGKAALVMGCVGVTEGAIPFAAADPLRVIPANMIGAASGCVTAALLGAQCYAGWGGLIVLPVVQGKLGFIAALLVGACVSAACVIVLKALAKKKSSDAKADDELDLDFEIN	PGPT0017120_2868	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
BMS020_02389	2502	fryA	COG1080	Multiphosphoryl transfer protein 1	ATGGCTCTGGTCATTGAATTTACATGTGATTTGCCCAACGGCGTGCATGCGCGTCCGGCCAGTCTGGTCGAAACGCTGTGTAACCGTTTTTCATCGGCAATTGAGTGGCGGAACCTGCGCTGCGATACCGGTGGCAATGCCAAAAGCGCGTTGGCGGTCATCGGCACGAACACCCTGAAGGGCGACACCTGCCAGCTGCTTATCAGCGGCGAAGATGAAGCCGAGGCTTACGCCGCGTTAACGGCCTTTCTGCGTGATGAATTTCCTCACTGCGACGCGCCGCTGCCTACGGCACAAGCGCTGGACGTCCAGCCGGTGCCGGAGTCACTCTCACGCCTGAACCCGACGCTGTTCCATGCCAGTCCGGTCTGCGCCGGCAGCGCGGGGGGCAGACTCATCCATCTAAAATCCCGCGATTTGCACGAGCTTGGCGCACTGCCCGTCGCCAGCAGTCCTGAACAGGAGCAGGCGGCACTGGATAACGGCCTGCGCCTGCTGGTGAAAGATATCGAACTGCGGCTGCTGGACAATGACGGTACCGCCAGCGCGATACTGGAAGCTCACCGTTCGCTGGCGACGGATGCCTCGCTGCGCCAGCATCTGCTCGGCGGGATCCTCACCGGTCTCAGCTGCGCCCAGGCGATCGTCGCCACCAGCGACCACTTCTGCGCCCAGTTCCGCGATTCCGGCAGCAGCTATCTGCAGGAGCGAGTGCTGGATGTGCGCGATGTCTGCTTCCAGCTGTTGCAGCATATCTATGGCGAAGCCCGTTTCCCGGCGCCGGGTCAACTGCGGGAAGCCGCCATTTGCCTTGCCGACGAACTCACCCCCAGCCAGTTCCTCGAACTGGATAAAACGCATCTCAAAGGGCTGCTGCTGCGCAGCGGCGGCACTACGTCGCACACCGTGATCCTTGCCCGCTCATTCAATATCCCGACCCTGGTGGGGGTTGACCTCGACGCACTGTTGCCCTGGGAGGATACTCAGGTGCAGATCGACGGCAACGCCGGGCTGCTGGTGGTCGACCTGAGTCCGGCGGTGGCGCGCTACTATCAGCAGGAGTCGTGGGTTCAGGCGCAGATCCAGCAACAGCAGCAGGTATGGCTGGATAAGGCGGGGCAGACGGAAGACGGTATCCGCGTCGAGATCGCGGCGAACATCGCCCATTCGGTAGAGGCGGTGGCGGCCTTCAACAACGGCGCGCAGTCGGTTGGCCTGTTCCGCACGGAGATGCTCTATATGGACCGGCCCGGCGCGCCATCGGAAGACGAACTCTACAACATTTTCTGCCAGGCGCTGGAGCCTGCCGCCGGGCGCAGCATTATCGTGCGGACTATGGATATCGGCGGTGATAAGCCGGTGGCCTACCTCAACATTCCGGCGGAAAATAACCCTTTCCTCGGCTACCGCGCGGTGCGCATCTATGAAGAGTACCAGGCGCTGTTTCATACTCAGCTGCGGGCGATTCTACGCGCTTCGGCGCACGGCTCGCTGAAGATCATGATCCCGATGATTTCCTCAATGGAAGAGATCCTGTGGGTGAAAGAGCGGTTGGCGGAGGCCAAACAGTCGCTGCGCGTCGAACAGATCCCGTTTGATGAAAAAATCCCGCTGGGCATCATGCTGGAGGTGCCGTCGGTGATGTTCATCATCGATCAGTGCTGCGAAGAGGTGGACTTCTTTAGCATCGGCAGCAATGACTTAACGCAGTATCTGCTGGCGGTCGATCGCGATAATGCGAAAGTGACGCGCCATTACAACAGTCTCAACCCGGCCTTCCTGCGTGCGCTGGACTATGCCGTGCAGGCGGCGCACCGGCAGGGGAAATGGATCGGCCTGTGCGGCGAGCTGGGGGCCAAAGGTTCGGTGCTGCCGCTGCTGGTCGGCCTCGGCCTGGATGAACTGAGCATGAGCGCGCCGGCGATCCCGGCGACTAAAGCGCGTCTGGCGCAGATGGACAGCCGCGCCTGCCGTCAGCTGCTGAATCAGGCGATGCAGTGCCGTACCTCGCTGGAAGTGGAGCATCTGTTGGCCCAGTTCCGCATGCGCCAGCAGGATGTGCCGTTGATTAGCCGCCAGTGCATCACCCTCAACAGTGACTGGCGCAGCAAGGAGGAGGTGCTGAAGGGGATGACGGATAACCTGCTGCTGGCCGGGCGCTGCCGCTATCCACGCAAGCTGGAGGCCGATCTCTGGGCCCGCGAGGCGGTGTTCTCCACCGGGCTGGGCTTCAGTTTTGCCATTCCGCATAGTAAATCCGAGCATATTGAGCAGTCGACCATTAGCGTCGCCCGCCTGGCGCAGCCGGTGAAGTGGGGTGATGAAGAAGCGCAGTTTGTGATTATGCTGACGCTAAACAAGCATTCGGCGGGCGACCAGCATATGCGCATCTTCTCGCGTCTGGCGCGGCGCATTATGCACGCCGAGTTCCGCCAGGCGCTGGTATCCGCAGAGAGCAGCGAGGCTATCGCAACGTTGCTCCAGCGTGAGCTTGAGATTTAA	MALVIEFTCDLPNGVHARPASLVETLCNRFSSAIEWRNLRCDTGGNAKSALAVIGTNTLKGDTCQLLISGEDEAEAYAALTAFLRDEFPHCDAPLPTAQALDVQPVPESLSRLNPTLFHASPVCAGSAGGRLIHLKSRDLHELGALPVASSPEQEQAALDNGLRLLVKDIELRLLDNDGTASAILEAHRSLATDASLRQHLLGGILTGLSCAQAIVATSDHFCAQFRDSGSSYLQERVLDVRDVCFQLLQHIYGEARFPAPGQLREAAICLADELTPSQFLELDKTHLKGLLLRSGGTTSHTVILARSFNIPTLVGVDLDALLPWEDTQVQIDGNAGLLVVDLSPAVARYYQQESWVQAQIQQQQQVWLDKAGQTEDGIRVEIAANIAHSVEAVAAFNNGAQSVGLFRTEMLYMDRPGAPSEDELYNIFCQALEPAAGRSIIVRTMDIGGDKPVAYLNIPAENNPFLGYRAVRIYEEYQALFHTQLRAILRASAHGSLKIMIPMISSMEEILWVKERLAEAKQSLRVEQIPFDEKIPLGIMLEVPSVMFIIDQCCEEVDFFSIGSNDLTQYLLAVDRDNAKVTRHYNSLNPAFLRALDYAVQAAHRQGKWIGLCGELGAKGSVLPLLVGLGLDELSMSAPAIPATKARLAQMDSRACRQLLNQAMQCRTSLEVEHLLAQFRMRQQDVPLISRQCITLNSDWRSKEEVLKGMTDNLLLAGRCRYPRKLEADLWAREAVFSTGLGFSFAIPHSKSEHIEQSTISVARLAQPVKWGDEEAQFVIMLTLNKHSAGDQHMRIFSRLARRIMHAEFRQALVSAESSEAIATLLQRELEI	PGPT0016915_64	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_PTS-MULTIPHOSPHORYL_TRANSFER_PROTEIN,PGPT0016915-ptsA|fryA-K23991	NA	NA
BMS020_02390	138			hypothetical protein	ATGGTAATCAGGGAAAGTGAGAGGCATTTCAAATTTGACTGCGGTATCCTGGCTAAAGAAGGCGGCGGCTTGCGGGCCATGACGCAAGAATGCATCCACTCGTTCTTCGTTATAGCTGGCACCCCCTTCATGCTTTAA	MVIRESERHFKFDCGILAKEGGGLRAMTQECIHSFFVIAGTPFML				NA	NA	NA	NA	NA
BMS020_02391	1332	ksdD_1	COG1053	3-oxosteroid 1-dehydrogenase	ATGGTGGCGAAGCCGTTCGATGCTCGTCAGTTGGGGAAACATTTGGCCCAATTGGAACCTCCGCTACCTGAATTGACAGTGTTTGGCATGATGATTGGGTCGGGCAACGATATTCGCCACTTTATGAAAGCGACGCGTTCGCTGGAGTCCGCCATCTACGCCACGAAGCGTTTAACTAAACATTTTTGGCAAACGTTGACCTGTGGACGAGGCATGACCTTAACCAACGGTAATGCTCTGATGGGCAGATTAGCTATATCGGTCTTTGATAAGAATGTGCCGCTCTGGCTGAATTCACCCGTCAGGGAGTTGATCCTTAAAGAGGGGGCGGTCATTGGCGCAAAGGTAGAAAAAGAAGGATCGTTATATACGGTCTACGCATCGCGCGGTGTGGTGCTGGCCGCCGGCGGTTTTTCTCATGATATTAAGAGACGAAGCGAACACTATCCCCATACGCCAACCGGGAAGGAACACTGGAGCCCGACAGCCGAAACCAATACCGGCGACAGCCTGAATATGTTTGAAAATATCGGTGGGAGAGTCGATAGCCATTTGCCAAACGCCGCCGCATGGGCACCGATATCGTTAACCCGACGACCGGACGGCGGTCAGGGAGTGATGCCACACTTTATTGATCGGGCAAAGCCAGGCGTTATCGCGGTGACTCGTCAGGGACGCCGTTTCACTAACGAAGCCAACTCCTATCATGATTTCGTGCAGGCAATGATCAACGTTAGGGATGCTAAAAGTGAAGTTTGTGCCTGGTTAGTTTGCGATCGCCGAACTCTCAGACGCTACGGGCTGGGATGTGTCGCGCCATTTCCGCTACCGTTGAAACGCCATTTGACCTCCGGCTATCTCCTTGAAGGGCGCACGCTGGAAGCATTGGCGGAAAAAGCGGGCATTGAGGTGGCACAGTTTAAGGCGACGGTGGAGGAATATAACCGTTATGCCGCCTACGGTCAGGATCCGATCTTTGGTAAAGGTTCAAAAGCCTATAACCGTTATCAGGGCGATGCTTTGCATAATCCTAATCCTTGCATCAATACCATTGAGCGCGGGCCTTTTTATGCGGTGAAGGTTTTACCTGGTGATATCGGGACCTACAACGGTATCCCGGTTGATGCGGATAACCGTGTTCTGGATCAGCAGAAGAAGCCCATCCGCGGCCTGTTCGCCATTGGTAACGATGCCACTAGCATCATGGGCGGTAATTACCCGGGGGCAGGTATTACCCTGGGACCGGCATTAACTTTCGGATATGCCGTGGGTCAGTATTTGGCTCACTGCAGCACCCCTTCAGTCTCCGAGACGATAAAAAAAGCATCCTGA	MVAKPFDARQLGKHLAQLEPPLPELTVFGMMIGSGNDIRHFMKATRSLESAIYATKRLTKHFWQTLTCGRGMTLTNGNALMGRLAISVFDKNVPLWLNSPVRELILKEGAVIGAKVEKEGSLYTVYASRGVVLAAGGFSHDIKRRSEHYPHTPTGKEHWSPTAETNTGDSLNMFENIGGRVDSHLPNAAAWAPISLTRRPDGGQGVMPHFIDRAKPGVIAVTRQGRRFTNEANSYHDFVQAMINVRDAKSEVCAWLVCDRRTLRRYGLGCVAPFPLPLKRHLTSGYLLEGRTLEALAEKAGIEVAQFKATVEEYNRYAAYGQDPIFGKGSKAYNRYQGDALHNPNPCINTIERGPFYAVKVLPGDIGTYNGIPVDADNRVLDQQKKPIRGLFAIGNDATSIMGGNYPGAGITLGPALTFGYAVGQYLAHCSTPSVSETIKKAS	PGPT0006680_406	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STEROID|DERIVATE_DEGRADATION	XENOBIOTIC_ADROSTENEDIONE_DEGRADATION,PGPT0006680-kstD-K05898	NA	NA
BMS020_02392	774	idnO_1		5-keto-D-gluconate 5-reductase	TTGTTGAAGAACACGATTATGCAAATTACACCATTATTTGATTTAAGCGGTAAGAAAATACTCATCACCGGGGCGGCAAAAGGTAATGGCGCCGCCTTAGCGCGCGGGATGTCGGATGCTGGGGCAGAAGTCATATTGGTCGATGTCGATGACAAAGGCGTGCAGCGTTTAGCAGATAGGTTTAGAGCAGAAGGGCGATTAGCCAGTGCGTACCGGCTTGACGTTAGCCAGATCGAAGGATGTCTGCAGCTTGCTGAGGAGGTAGGAGATATCGATGTATTAATCAATAATGCAGGACTGTTGAAGCGGATCCCCTTTGCATCGGCATCTGTTTACGAGGCCTTTGCCGTCACGCTCGCCGTGAATGTTCATGGTCCTTTTAATATGACCCGTGCATTTTTACCTGCCTTAAAAAGACGGCGTGGAAATATTATTAATATTGCTTCTATCCAGTCCTTTGTCGCCGCACCAACCTCACCCACCTATGCCATCTCTAAAGGCGCGCTGGCGCAGTTAACCCGGACGCTTGCTGCGGAACTGGCGACGGATAATATACGTGTAAACGCCATTGCTCCGGGAATGATCGCGACAGAAATGTCGGCAAGTACAAGGGATAATGAAGAGGTTATGCAGCGTTTTTTGCAGCACGTGCCGATGAAGCGTGCCGCGCAACCTGATGAACTTATTGGCCCTGCGACTTTTCTCGCTTCGTCTGCTGCCAGCTATGTGACCGGTGTGATATTGCCTGTAGACGGAGGATATCTGGTGAGCTGA	MLKNTIMQITPLFDLSGKKILITGAAKGNGAALARGMSDAGAEVILVDVDDKGVQRLADRFRAEGRLASAYRLDVSQIEGCLQLAEEVGDIDVLINNAGLLKRIPFASASVYEAFAVTLAVNVHGPFNMTRAFLPALKRRRGNIINIASIQSFVAAPTSPTYAISKGALAQLTRTLAAELATDNIRVNAIAPGMIATEMSASTRDNEEVMQRFLQHVPMKRAAQPDELIGPATFLASSAASYVTGVILPVDGGYLVS	PGPT0008190_781	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
BMS020_02393	774			hypothetical protein	ATGAAATCAGAATCGCGTGGGATCCAGAGCGTGGAAATCGCCGGGCAAATTTTACGAGTACTGGTGGACCATTCCCGTCCCTTAACGCTCAGCGAAATAGCTGAGCGGGCAGGGACAACTTCTGCGCAAATTCATAACTATCTGGTAAGCATGACGCGCGTGGGTCTGCTTAAGCGTGACCCACAAAGTCAGAAATTTGAACCAGGGGCACTAGCCCTCCGTTTAGGCGTCGCAGCCCTACATAGCCAGTCGGTAGTGGAAGAGGCTATTGCTCATATTGCAGCGTTGGGACAGCGTTTAAACGTCAATATGTTTCTTTCTGTGTGGGGACGTTTTGGCCCGCTGGTCATTGACTATCGTGAGCATGGTGCAGTGATGAATATTGGTTTTCGCCTGGGAAGCGTACTTTCTCTGACCCAGACAGCGACAGGAAAACTTTTCGCCGCTTATCACGATCGCGAACAGTGTACCGAGGTAATTAACCAGCAGATGTTTACGCGCGATAAGCTGGATGATTATCTCTCCCCGGCTTTTCAGCAACAATTGGCCGCCATCAGGAGAGACAAAATATCGATTGCACAGTCTTATCCGTTGGCATCAATTACCAGCCTTGCTGTCCCGGTGTTTGCGGCTGACAACTCGCTTACCCTGACGATCAGCGCGTTTGCGGCCGCTCATGATTTGATAGGTGAGCGCTTCACGATGGTGAGCAATGCTCTTCAAGCGCTCGCCGCCTCCCTTTCATGCAATGAGATCGCTTATGAATCACGTTGA	MKSESRGIQSVEIAGQILRVLVDHSRPLTLSEIAERAGTTSAQIHNYLVSMTRVGLLKRDPQSQKFEPGALALRLGVAALHSQSVVEEAIAHIAALGQRLNVNMFLSVWGRFGPLVIDYREHGAVMNIGFRLGSVLSLTQTATGKLFAAYHDREQCTEVINQQMFTRDKLDDYLSPAFQQQLAAIRRDKISIAQSYPLASITSLAVPVFAADNSLTLTISAFAAAHDLIGERFTMVSNALQALAASLSCNEIAYESR				NA	NA	NA	NA	NA
BMS020_02394	828	yiaJ	COG1414	DNA-binding transcriptional repressor YiaJ	ATGAATCACGTTGATAATGATAAGAACTCGCGTGGAGTGCAGTCGGTTGAAACAGCCGCCTTGATGTTAGAGTTCCTCACAGGCCAACAGGGTGGTGTGCCGCTAAAAAAGATTGCCCAGGCTGTCGGTATGAGTCCGGCACGGGCTTTCCCGTATCTTATAAGCCTGGTACGTAGTGGACTGGTGACAAAGGATGATGCACGAGGGCTTTATCTGCCCGGCGAACTGTCAAAGCAGTTAGGAATGCTGGCTCTGCATTTACACCGCCCTTACGATACCGCTGAACATACGTTGAAGATCTTAAACCTGGAATGCGGACATAGTGCTGCCCTGAGCGTTTGGGGGAACATGGGGCCAACGGTCGTGCGCGTTGAAGAGAGTCGTTATAGCGTATATCCGGAAATTCGAATCGGGTCGGTGATGTCGCTGGAGCAGACCTCCATTGGTCAGGTATTTTCCGCCTGGATGCCAGAGGAGATCGTTCGCGAGGCATGGGAGGCGGAGTATTGGCGACGTGAGCACCGTGCGGCGCCGAAAACGGCTATGGCGGCATTCTTTGCGAAGTTAGAGGCTGTTCGTCAGGCCGGGTGCGACTTCAAGCAAAATGTTCCTGCGCCAGGATTGAGTTCCGTGAGCGCGCCGGTTTTTGATCTCAGTGGTTCAATAGCTTACGCGTTGACCTTGTTTGATGAGAGTGGGGTCATTGATGTGAGCCCCGGCGGTGCAGCCCAACAAGTGTTGCGCCATCATGCATACTGCCTGTCGGCAGCGCTGGGGCTACGGATTGATTATCCCACTGGTGATTTAGCGGTTACCTCAACGCGTTGA	MNHVDNDKNSRGVQSVETAALMLEFLTGQQGGVPLKKIAQAVGMSPARAFPYLISLVRSGLVTKDDARGLYLPGELSKQLGMLALHLHRPYDTAEHTLKILNLECGHSAALSVWGNMGPTVVRVEESRYSVYPEIRIGSVMSLEQTSIGQVFSAWMPEEIVREAWEAEYWRREHRAAPKTAMAAFFAKLEAVRQAGCDFKQNVPAPGLSSVSAPVFDLSGSIAYALTLFDESGVIDVSPGGAAQQVLRHHAYCLSAALGLRIDYPTGDLAVTSTR				NA	NA	NA	NA	NA
BMS020_02395	1134	dmlA	COG0473	D-malate dehydrogenase [decarboxylating]	ATGAAAAAAACCTGTCGTATTGCCGCCATCCCGGGTGACGGAATTGGCAAAGAAGTCCTGCCTGAAGGGATCCGCGTACTGAAAGCCGCCGCGCAGCGGTGGGATCTGGCGCTGAGCTTCGAGCAGATGGAGTGGGCAAGCTGCGAATATTATGCTCATCACGGTAAGATGATGCCGGACGACTGGCGCGAGCAGTTACAGGGGTTCGACGCCATCTACTTTGGCGCCGTCGGCTGGCCGGATACCGTCCCGGATCATATCTCGCTGTGGGGGTCGCTACTGAAGTTCCGCCGCGAGTTCGATCAGTACGTCAACCTGCGCCCGGTGCGCCTGTTCCCCGGCGTCCCCTGCCCGCTGGCGGGGAAAAAGGCTGGCGATATCGATTTCTACGTGGTGCGCGAGAACACCGAAGGCGAATATTCCGCTCTGGGCGGGCGCGCCAATGAAGGCACCGAGCATGAAGTGGTGATTCAGGAGTCGATCTTTACCCGCCGGGGCGTTGACCGTATCCTGCGCTACGCCTTCGAGCTGGCGCAAAGCCGCCCACGCAAAACGCTGACCTCGGCGACGAAATCCAACGGGCTGGCCATCAGCATGCCCTACTGGGATGAGCGGGTGGAGGAGATAGCCAAAAACTATCCCGAGATCCGCTGGGACAAGCAGCATATCGATATTCTCTGCGCCCGCTTCGTGCTGCAGCCGGAGCGGTTTGACGTGGTCGTCGGCTCCAATCTGTTCGGTGATATTCTCTCCGATCTCGGCCCGGCCTGCACCGGTACCATTGGTATTGCGCCATCGGCCAATCTCAACCCGGAGCGCACCTTCCCGTCGCTGTTCGAGCCGGTCCACGGTTCAGCGCCGGATATCTACGGGAAAAATATCGCCAATCCGATCGCCACCATATGGGCCGGGGCGATGATGCTTGATTTTCTCGGGAACGGCGATGCGCGCTATCACGCCGCGCACAACGGCATCCTGGCGGCAATTGAGCAGACGATCGCCAGCGGGCCGAAGACGCCGGATATGCAGGGCTCTGCCTCCACCCAACAGGTAGGAGACGCGGTTTGCCTGGCTGTGCTGAGTGAGGTCGTTCCAATGACGGCCAGGAAACCCAGCTCGAGTAGCGACCATTGA	MKKTCRIAAIPGDGIGKEVLPEGIRVLKAAAQRWDLALSFEQMEWASCEYYAHHGKMMPDDWREQLQGFDAIYFGAVGWPDTVPDHISLWGSLLKFRREFDQYVNLRPVRLFPGVPCPLAGKKAGDIDFYVVRENTEGEYSALGGRANEGTEHEVVIQESIFTRRGVDRILRYAFELAQSRPRKTLTSATKSNGLAISMPYWDERVEEIAKNYPEIRWDKQHIDILCARFVLQPERFDVVVGSNLFGDILSDLGPACTGTIGIAPSANLNPERTFPSLFEPVHGSAPDIYGKNIANPIATIWAGAMMLDFLGNGDARYHAAHNGILAAIEQTIASGPKTPDMQGSASTQQVGDAVCLAVLSEVVPMTARKPSSSSDH	PGPT0001905_471	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TARTRATE_UTILIZATION,PGPT0001905-ttuC|dmlA-K07246	NA	NA
BMS020_02396	942	dmlR_15		HTH-type transcriptional regulator DmlR	ATGAATAATCTGCCGCTGCTGAATGATTTACGCGTCTTTATGCTGGTCGCCCGCCGGGCCGGGTTTGCCGCCGCCGCTGAGGAGCTGGGCGTATCGCCGGCTTTTGTCAGCAAGCGGGTTTCGCTGCTGGAGCAAACCCTGAATGTGATGTTGCTGCACCGGACCACCCGCCGGGTCACCATTACCGAAGAGGGAGAGCGGATCTACGAGTGGGCGCAGCGCATTCTGCAGGATGTCGATGAGATGATGGACGAGCTCTCCGACGTGCGTCAGGTGCCGCAGGGAACGCTGCGGATTATCAGCAGCTTCGGCTTTGGCCGCCGGGTGGTGGCCCCCGCGCTGTCGGCGCTGGCGCTTCAGTACCCGCAGCTGGAGCTGCGTTTTGATGTCCAGGACCGGCTGGTGGATTTAGTCAATGAAGGGGTGGATCTCGATATTCGCCTCGGCGACGATATCGCGCCGAATCTGATTGCCCGCCAGCTGGCGCGCAATCACCGCGTGCTCTGTGCGTCGCCGCAGTTCCTCGCCCGCCATGCGCCGCCGAAACAGCTGAGCGATCTGGCGGCTCTGCCGTGCCTGGTGATTAAAGAGCGGGATCATCCGTTCGGCGTCTGGCAGCTGCATAGCAAAGAGGGCCAGCACGCCATCAAAGTGACCGGGCCGCTGTCGTCCAACCATGGCGAAATTGTTCATCAGTGGTGTCTGGACGGGCAGGGGATTGCGCTCCGTTCGTGGTGGGACGTCAGGGAGAATATCGCCAGCGGGCATCTGGTGCAGGTGCTGCCGGACTACTGGCAACCGGCCAACGTCTGGGCGGTTTACGTCTCCCGCCTGGCGACGTCGGCTAAAATTCGCACCACCGTGGAGTTTCTGCGCCACTATTTCCAGCAACACTATCCGCAGCATGAGCCGACGGCCAGGGCCGTCGGCAAAGGCGATTAA	MNNLPLLNDLRVFMLVARRAGFAAAAEELGVSPAFVSKRVSLLEQTLNVMLLHRTTRRVTITEEGERIYEWAQRILQDVDEMMDELSDVRQVPQGTLRIISSFGFGRRVVAPALSALALQYPQLELRFDVQDRLVDLVNEGVDLDIRLGDDIAPNLIARQLARNHRVLCASPQFLARHAPPKQLSDLAALPCLVIKERDHPFGVWQLHSKEGQHAIKVTGPLSSNHGEIVHQWCLDGQGIALRSWWDVRENIASGHLVQVLPDYWQPANVWAVYVSRLATSAKIRTTVEFLRHYFQQHYPQHEPTARAVGKGD				NA	NA	NA	NA	NA
BMS020_02397	1281	puuB_1		Gamma-glutamylputrescine oxidoreductase	ATGACCGAACATACCACCAGCTATTACGCCGCCAGCGCCAACAAATATGAACCCTTTCCGACGCTGGACGAATCGATAAGCTGCGACGTCTGCGTCGTCGGCGGCGGCTACACCGGCCTCTCATCTGCCCTGCATCTTGCCGAAATGGGCTACGACGTGGTGGTGCTGGAAGGGGCGCGCATCGGCTTCGGCGCCAGCGGCCGCAACGGCGGTCAGCTGGTTAACTCCTACAGCCGCGATATCGACGTGATTGAAAAAAACTACGGCCCGGATGCGGCGAAAATGCTCGGCAGCATGATGTTCGAAGGCGGCGATATTATCCGCGAACGCATCCAGCGCTATCAGATCCAGTGCGATTACCGACCGGGCGGCCTGTTCGTGGCGATGAACCATAAACAGCTGGAGACGCTGGAAGAACAGAAAGCCAACTGGGAGCGCTACGGCAACACGCAGCTGGAGCTGCTGGACAGAGAGGCGATTCGTCGCGAAGTGGACAGCGACCGCTACGTCGGCGCCCTGCTCGACCACAGCGGCGGCCATATTCACCCGCTCAACCTCGCCATCGGCGAAGCGGACGCTATTCGTCTGAACGGCGGCCGAGTGTATGAGCAGTCGCCGGTCACCCGCATTCAGCACACCAGCCCGGCAGTGGTCAGCACCGCCCGCGGCCAGGTCACAGCCCGCTATGTGATCGTCGCCGGCAACGCCTATCTCGGTGACAAACTGGAGCCGGAGCTGGCGAAGCGCAGCATGCCGTGCGGCACCCAGGTGGTCACCACCGCGCCGCTGTCGGAGGAGGTCGCCCGCTCGCTGATCCCGAAAAACTACTGTGTGGAAGACTGTAACTACCTGCTGGACTACTACCGTCTGACCGGCGATAACCGCCTGCTGTACGGCGGCGGCGTGGTCTACGGCGCCCGCGACCCGGACGATGTGGAGCGGCTGATTATGCCAAAGCTGTTGAAAACCTTCCCACAGCTGCAGGGGGTGAAGATTGACTACCGCTGGACGGGCAACTTCCTGCTGACCTTGTCGCGGATGCCGCAGTTTGGTCGCCTGGATAGCAACATCTACTACATGCAGGGCTACAGCGGGCATGGGGTCACCTGTACCCACCTCGCCGGACGATTGATTTCGGAACTGCTGCGCGGCGACGCCGAGCGTTTCGACGCCTTTGCCAAACTGCCGCACTACCCGTTCCCGGGCGGCCGCAGCCTGCGTATCCCCTTTACCGCGATGGGCGCCGCCTACTACAGCCTGCGCGACCGCCTTGGGGTTTAA	MTEHTTSYYAASANKYEPFPTLDESISCDVCVVGGGYTGLSSALHLAEMGYDVVVLEGARIGFGASGRNGGQLVNSYSRDIDVIEKNYGPDAAKMLGSMMFEGGDIIRERIQRYQIQCDYRPGGLFVAMNHKQLETLEEQKANWERYGNTQLELLDREAIRREVDSDRYVGALLDHSGGHIHPLNLAIGEADAIRLNGGRVYEQSPVTRIQHTSPAVVSTARGQVTARYVIVAGNAYLGDKLEPELAKRSMPCGTQVVTTAPLSEEVARSLIPKNYCVEDCNYLLDYYRLTGDNRLLYGGGVVYGARDPDDVERLIMPKLLKTFPQLQGVKIDYRWTGNFLLTLSRMPQFGRLDSNIYYMQGYSGHGVTCTHLAGRLISELLRGDAERFDAFAKLPHYPFPGGRSLRIPFTAMGAAYYSLRDRLGV	PGPT0007637_1808	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007637-puuB|ordL-K09471	NA	NA
BMS020_02398	1488	puuC_1	COG1012	NADP/NAD-dependent aldehyde dehydrogenase PuuC	ATGAATTTTCAGCACCTGGCTTACTGGCAGGAAAAAGCGAAAAGCCTGGCCATTGAAACACGATTATTTATTAACGGCGAATATTGCGCCGCGGTCGATAATACCACCTTTGAAACCATTGACCCTGCCGCGCAGCAAACGTTAGCCCATGTCGCCCGCGGCAAAAAAGCCGACGTCGAGCTGGCGGTGAAGGCCGCGCGCCGGGTCTTTGATAACGGCGACTGGTCACAGGCCGCCCCCGCGCAGCGTAAAGCGGTTCTCACACGCTTCGCCGACCTAATGGAGGCCCACCGCGAAGAGCTGGCGCTGCTGGAAACGCTGGATACCGGCAAACCGATTCGCCACAGCCTGCGCGACGATATTCCCGGCGCCGCCCGCGCCATCCGCTGGTATGCCGAAGCGCTGGATAAAGTCTATGGCGAAGTGGCCCCCACCGGCAGCAACGAGCTGGCGATGATCGTCCGCGAACCGATTGGCGTCATCGCCGCGGTGGTGCCATGGAACTTCCCGCTGCTGCTGGCCTGCTGGAAGCTCGGTCCGGCGCTGGCGGCAGGCAACAGCGTGATCCTTAAGCCGTCGGAAAAATCGCCGCTCACCGCCCTGCGCCTCGCCGGGCTGGCGAAAGAGGCTGGCCTGCCGGACGGCGTGCTGAACGTGGTCAGCGGCTTTGGTCACGAGGCCGGACAGGCGCTCGCCCTGCATCCTGACGTGGAGGTCATTACTTTTACCGGCTCCACCCGCACCGGCAAGCAGCTGCTGAAAGACGCCGGCGACAGCAATATGAAGCGCGTGTGGCTGGAAGCGGGCGGCAAGAGCGCCAACATCGTCTTCGCCGACTGCCCGGATCTGCAAAAAGCGGTCAGCGCCACCGCCGGCGGCATCTTCTACAACCAGGGCCAGGTGTGCATCGCCGGCACCCGCCTGCTGCTGGAGGAGAGCATCGCCGACGAGTTCCTGGCGCGACTGAAAACCGAAGCGCAACACTGGCAGCCGGGCAACCCGCTCGACCCAAACACCACCATGGGCATGCTGATTGACAACACCCATGCCGACAGCGTGCACAGTTTTATTCGCGGCGGCGAAAGTAAAAGCACGCTGTTCCTCGATGGGCGGAAAAATCCATGGCCAGCCGCCGTCGGCCCGACCATTTTCATTGACGTCGACCCGGCTTCCACCCTCAGCCGGGAAGAGATCTTCGGCCCGGTGCTGGTGGTGACGCGATTCAAAAGCGAAGACGAGGCGCTGCGGCTTGCCAACGACAGCGACTATGGCCTCGGCGCCGCGGTATGGACTCGCGATCTCTCACGCGCCCACCGCATGAGCCGCCGCCTGAAGGCCGGTTCGGTCTTCGTCAACAACTATAACGATGGTGATATGACCGTCCCCTTCGGCGGTTACAAACAGAGCGGCAACGGGCGCGATAAGTCGCTGCACGCCCTGGAAAAATTCACCGAACTGAAAACCATCTGGATTGCCCTGGAGTCTTAA	MNFQHLAYWQEKAKSLAIETRLFINGEYCAAVDNTTFETIDPAAQQTLAHVARGKKADVELAVKAARRVFDNGDWSQAAPAQRKAVLTRFADLMEAHREELALLETLDTGKPIRHSLRDDIPGAARAIRWYAEALDKVYGEVAPTGSNELAMIVREPIGVIAAVVPWNFPLLLACWKLGPALAAGNSVILKPSEKSPLTALRLAGLAKEAGLPDGVLNVVSGFGHEAGQALALHPDVEVITFTGSTRTGKQLLKDAGDSNMKRVWLEAGGKSANIVFADCPDLQKAVSATAGGIFYNQGQVCIAGTRLLLEESIADEFLARLKTEAQHWQPGNPLDPNTTMGMLIDNTHADSVHSFIRGGESKSTLFLDGRKNPWPAAVGPTIFIDVDPASTLSREEIFGPVLVVTRFKSEDEALRLANDSDYGLGAAVWTRDLSRAHRMSRRLKAGSVFVNNYNDGDMTVPFGGYKQSGNGRDKSLHALEKFTELKTIWIALES	PGPT0007638_552	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007638-puuC|ordL-K09472	NA	NA
BMS020_02399	558	puuR_1		HTH-type transcriptional regulator PuuR	ATGAGCGATGACGGACTGGCGCCAGGGAAACGTCTGTCAGAGATCCGCCAACAGCTGGGTCTCTCGCAGCGTCGTGCCGCCGAACTGTCTGGGTTAACACATAGTGCCATCAGCACCATAGAGCAGGACAAAGTCAGTCCCGCCATCAGTACGCTGCAAAAGCTGCTGAAAGTCTATGGGCTGTCGCTCTCGGAATTCTTTTCTGAACCCGAAAAGCCGGACGAACCCCAGGTGGTCATTAATCAGGATGACCTTATCGAAATGGGCAGTCAGGGCGTTTCCATGAAGCTGGTTCATAACGGAAATCCGAACCGTACGCTGGCGATGATTTTTGAAACTTACCAGCCTGGAACCACGACCGGGGAGAGGATTAAGCATCAGGGTGAGGAGATAGGCACCATACTGGAGGGGGAGATCGTGCTGACCATTAACGGTCAGTCGTACCACCTGGTGGCTGGACAGAGCTATGCCATTAACACCGGCATCCCGCACAGCTTCAGCAACACCTCGGCAGGCATCTGCCGCATCATCAGTGCCCACACCCCCACCACATTCTGA	MSDDGLAPGKRLSEIRQQLGLSQRRAAELSGLTHSAISTIEQDKVSPAISTLQKLLKVYGLSLSEFFSEPEKPDEPQVVINQDDLIEMGSQGVSMKLVHNGNPNRTLAMIFETYQPGTTTGERIKHQGEEIGTILEGEIVLTINGQSYHLVAGQSYAINTGIPHSFSNTSAGICRIISAHTPTTF	PGPT0019781_42	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0019781-puuR-K14056	NA	NA
BMS020_02400	765	puuD_1	COG2071	Gamma-glutamyl-gamma-aminobutyrate hydrolase PuuD	ATGGAAAATATAATGTACAAGCCAGTTATTGGCGTCGTGATGTGTAGAAACAGGCTTAAGGGTCACCAGACCCAGACCTTGCAAGAAAAGTACCTGAATGCAATTGTTAACGCCGGCGGACTGCCGATCGCCCTGCCGCATGCGCTGGCGGAGCCGGAGCTGCTGAACGCGTTAGTCGATAAACTGGACGGGATATACCTGCCAGGCAGCCCCAGTAACGTGCAGCCGCACCTTTATGGTGAAAACGGCGATGAGCCTGACGCCGACCCCGGGCGTGATCTTCTGAGCATGGCGCTGATTAACGCCGCACTCGAAAGGCGCATCCCCATTTTCGCCATCTGTCGTGGACTGCAGGAACTGGTTGTCGCCACCGGTGGGACTCTGTATCGTCGTCTGTTCGAGCAGCCTGAGCTGCTGGAGCATCGCGAAGATCCTGAACTGCCCGTCGAGCAGCAGTATGCCCCGTCCCATCAGGTTGAGGTTCAGGAAGGAGGATTGCTGTCGCAATTGATACCGGGCTGCAACACGTTTTGGGTAAACTCGCTACACGGACAAGGGGCAAAAACCCTGAGTTCGCAGCTGCGCGTGGAGGCGCGAGCGCCGGATGGACTGGTGGAAGCGGTCAGCGTGAACGATCACCCTTTCGCGCTGGGCGTACAGTGGCATCCTGAATGGAACAGTAGCGAATACGCCCTGTCGCGTATGTTGTTTGATGGTTTTATCACCGCCTGTCAGGGCCATCATGCTGAAAAGCGGCGGCGCTGA	MENIMYKPVIGVVMCRNRLKGHQTQTLQEKYLNAIVNAGGLPIALPHALAEPELLNALVDKLDGIYLPGSPSNVQPHLYGENGDEPDADPGRDLLSMALINAALERRIPIFAICRGLQELVVATGGTLYRRLFEQPELLEHREDPELPVEQQYAPSHQVEVQEGGLLSQLIPGCNTFWVNSLHGQGAKTLSSQLRVEARAPDGLVEAVSVNDHPFALGVQWHPEWNSSEYALSRMLFDGFITACQGHHAEKRRR	PGPT0007640_74	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007640-puuD-K09473	NA	NA
BMS020_02401	1422	puuA_1	COG0174	Gamma-glutamylputrescine synthetase PuuA	ATGGAAACCAATATCGTAGAAGTTGAGAATTTTGTTCAGCAAACGGAAGAGAGACGGGTCAGCGCGTTCGCGAAAGAAGTGAAGCGCTACCTCGAAACCTACCCTGATACCCAATATGTCGATGTCCTCCTCACTGATCTGAACGGCTGCTTCCGCGGCAAGCGCATCCCCGTTGCCGGCCTGAGCAAGCTGGAGAAAGGCTGTTATTTTCCGGCCTCGGTGTTTGCGATGGATATTCTCGGCAACGTCGTGGAAGAGGCCGGTCTGGGCCAGGAGATGGGCGAGCCGGATCGCAGCTGCATCCCGGTGCCCGGTACCTTAACGCCTTCAGCGGCCGATCCGCAGTCGATAGCCCAGGTACAGCTGACTATGGTTGATGAAGATGGCGCTCCCTTTGACGTTGAGCCGCGGAACGTACTCAACCGCCTCTGGCAGCAGCTGCGCCAGCGCGGGCTGTTCCCCGTGGTAGCGGTAGAGCTGGAGTTCTATTTACTGGACCGCAAACGCGATGCCGAAGGCTACCTGCAGCCGCCGTGCGCGCCGGGCACCGACGATCGCAACACCCAAAGCCAGGTCTACTCGGTCGATAACCTGAACCACTTTGCCGACGTGCTCAACGACATCGACGAGCTGGCGAAACTGCAGCTGATCCCCGCCGACGGCGCGGTGGCCGAAGCCTCGCCGGGCCAGTTTGAAATCAACCTCCACCATACCGATAACGTGCTGGACGCCTGCGATGATGCGCTGGCGTTAAAACGTCTCGTGCGTTTAATGGCGGAGAAGCATAAGATGCACGCCACTTTTATGGCCAAGCCTTATGAAGAGCATGCGGGCAGCGGGATGCATATCCACATCAGCATGCTGAACAATAAAGGGGAAAACGTGCTGGTGGACGGCGACGGGGAAGACTCCGCGCTGCTCAAACGCGCGCTGGCCGGGATGATCGATCTGATGCCGGCCTCGATGGCGCTGCTGGCGCCGAACGTGAACTCGTATCGCCGCTTCCAGCCGGGGATGTATGTCCCGACGCAGGCTTCCTGGGGCCATAACAACCGTACCGTGGCGCTGCGGATCCCGTGCGGCGAGCGGCAGAACCACCGCGTGGAGTATCGCGTGGCGGGAGCGGACGCCAACCCGTATCTGGTGATGGCGGCGATTTTCGCCGGTATCCTGCACGGGCTGGATAACCCTCAGCTGCCTTTGCAGGAAGAGGTGGAAGGTAACGGCCTGGAACAAGAAGGGCTGCCGTTCCCGATCCGTCAGAGCGACGCGCTGTGGGAGTTTATGCAGAACGATCACCTGCGTGAGCGTCTCGGCGAGCGTTTCTGCCACGTTTTCCATGCCTGCAAGCATGATGAATTATTGCAGTTTGAGCGTCTTATCACAGAAACTGAAATTGAGTGGATGTTGAAAAACGCCTGA	METNIVEVENFVQQTEERRVSAFAKEVKRYLETYPDTQYVDVLLTDLNGCFRGKRIPVAGLSKLEKGCYFPASVFAMDILGNVVEEAGLGQEMGEPDRSCIPVPGTLTPSAADPQSIAQVQLTMVDEDGAPFDVEPRNVLNRLWQQLRQRGLFPVVAVELEFYLLDRKRDAEGYLQPPCAPGTDDRNTQSQVYSVDNLNHFADVLNDIDELAKLQLIPADGAVAEASPGQFEINLHHTDNVLDACDDALALKRLVRLMAEKHKMHATFMAKPYEEHAGSGMHIHISMLNNKGENVLVDGDGEDSALLKRALAGMIDLMPASMALLAPNVNSYRRFQPGMYVPTQASWGHNNRTVALRIPCGERQNHRVEYRVAGADANPYLVMAAIFAGILHGLDNPQLPLQEEVEGNGLEQEGLPFPIRQSDALWEFMQNDHLRERLGERFCHVFHACKHDELLQFERLITETEIEWMLKNA	PGPT0007636_32	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007636-puuA-K09470	NA	NA
BMS020_02402	1392	puuP	COG0531	Putrescine importer PuuP	ATGGCAATTAATCTTCCTGCGCATAACGCCGCTCAGGCGGGCAGACCGCGTCTGCGTAAATCCCTCAAACTCTGGCAAGTGGTGATGATGGGGCTCGCCTATCTGACGCCGATGACGGTGTTTGATACCTTCGGCATTGTCTCCGGCATCAGCAACGGCCACGTCCCGGCGTCGTATTTGCTGGCGCTGGCTGGCGTGCTGTTCACCGCCATCAGCTACGGCAAACTGGTACGCCAGTTCCCGGAAGCCGGCTCCGCCTACACCTACGCGCAAAAATCCATCAGTCCGCACGTCGGCTTTATGGTCGGCTGGTCGTCGCTGCTGGATTATCTGTTCCTGCCGATGATCAACGTCCTGCTGGCGAAGATCTATCTCTCGGCGCTGTTCCCGGAAGTGCCGCCATGGGTGTGGGTGGTGACCTTTGTCGCCATTTTGACCGCCGCGAACCTGAAAAGCGTTAACCTGGTGGCCAACTTCAACACCCTGTTCGTGCTGGTGCAGATCTCGATTATGGTGGTGTTTGTCATTCTGGTGGTCCAGGGGCTGCACAAAGGCGAGGGGGTAGGGACCGTCTGGTCGCTGCAGCCGTTTATCAGCCAGAATGCGCATCTGATCCCGATTATTACCGGGGCGACCATCGTCTGCTTTTCGTTTCTCGGCTTCGACGCGGTGACCACGCTGTCGGAAGAGACGCCTGACGCCGCGCGGGTGATCCCGAAGGCGATTTTTCTCACCGCGATGTACGGCGGCATTATTTTCATCGTCGCGTCGTTCTTTATGCAGCTGTTTTTCCCGGATATTCATCGCTTTAAAGACCCGGACGCCGCGCTGCCGGAGATTGCGCTGTACGTGGGCGGCAAGCTGTTCCAGTCAATTTTCCTCTGCACCACCTTTGTTAACACCCTGGCGTCCGGCCTGGCGTCCCATGCCAGCGTCTCCCGTCTGCTGTACGTGATGGGCCGCGATAACGTCTTCCCGGAGCGCATTTTCGGCTATGTGCATCCGAAATGGCGAACCCCGGCGTTGAACGTGATTATGGTGGGTATTGTCGCGCTGTCGGCGCTGTTCTTCGACCTGGTGACCGCCACCGCGTTGATTAACTTCGGCGCGCTGGTGGCCTTCACCTTCGTTAACCTGTCGGTGTTCAACCACTTCTGGCGGCGCAAAGGGTACAACAAAACCTGGAAGGATCGACTGCACTATCTGCTGCTGCCGATGGTCGGGGCGTTGACGGTAGGGGTGCTGTGGATCAACCTCGAGGCCACTTCCCTGACGCTCGGTCTGGTGTGGGCGGCGCTTGGTCTGCTGTATCTGGCTTATCTGACCCGACGCTTCCGTAAACCGCCGCCGCAGTTCGATGCCGCCAAGGCGGAGCAGGCCTGGGAGTCCTAG	MAINLPAHNAAQAGRPRLRKSLKLWQVVMMGLAYLTPMTVFDTFGIVSGISNGHVPASYLLALAGVLFTAISYGKLVRQFPEAGSAYTYAQKSISPHVGFMVGWSSLLDYLFLPMINVLLAKIYLSALFPEVPPWVWVVTFVAILTAANLKSVNLVANFNTLFVLVQISIMVVFVILVVQGLHKGEGVGTVWSLQPFISQNAHLIPIITGATIVCFSFLGFDAVTTLSEETPDAARVIPKAIFLTAMYGGIIFIVASFFMQLFFPDIHRFKDPDAALPEIALYVGGKLFQSIFLCTTFVNTLASGLASHASVSRLLYVMGRDNVFPERIFGYVHPKWRTPALNVIMVGIVALSALFFDLVTATALINFGALVAFTFVNLSVFNHFWRRKGYNKTWKDRLHYLLLPMVGALTVGVLWINLEATSLTLGLVWAALGLLYLAYLTRRFRKPPPQFDAAKAEQAWES	PGPT0007795_81	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007795-puuP-K14052	NA	NA
BMS020_02403	123			hypothetical protein	ATGTCGGGTCTTATTCTCTTTATCGTCGCGGTGGCGCTGCTGGGCGTCGCCATCTACAGTCTGGTGTCGTACCTCAAAGAGCGGCGCGCCAGTCAGTTACCTGTCCATAAAAAGAAGAAATAA	MSGLILFIVAVALLGVAIYSLVSYLKERRASQLPVHKKKK				NA	NA	NA	NA	NA
BMS020_02404	222			hypothetical protein	ATGTATAAGAAAACCCTCAGCCTGCTGGGCGTGGCGCTGGCGCTGACGGCCTTCGCCAGTCAGGCTGAAAATGAACGTCAGGCGATCCGCGAGCGGATCGTGGAGCAGGTCCTGAAACCGTGTGAAGGTAAAAAAGCGGGCGATAAGGTGGTGATCACCGATCGCCGCGGCGGTGAGCACGAGGCGATCTGTACCCTGGCGGCGGTTCCACTGCCGGAGTGA	MYKKTLSLLGVALALTAFASQAENERQAIRERIVEQVLKPCEGKKAGDKVVITDRRGGEHEAICTLAAVPLPE				NA	NA	NA	NA	NA
BMS020_02405	789			hypothetical protein	ATGTCCCAGTCATCGCACACTGCTTTTATCACCGGCGCTTCCTCAGGTATCGGCGCGATCTATGCCGAACGACTCGCCGCTCGCGGCTACGATCTGATCCTCGCGGCCCGCCGTGAAGATCGGCTGCAGACGCTCGCCGGGCAGCTGCAGGCGCGCTACGCCATCCGGGCCAGCATCGTCAAGGCCGACCTGAGCGAGGAGCAAGGCATTGAAGCCGTGGAGCAGCGTCTGCAGCACGATCCCGCCATTGACCTGTTCATCAACAACGCCGGCACGGCAAAAATGGCGGGCTTTCTCGCCAGTACGCCGCGCGAGCACCAGGCGATTCATACGCTCAACACCACCGCGCTCCTGCGCCTGAGCTATGCCGCGCTGGCCGCTTTCGCTCCCCGGGGCCGCGGAACGCTGATCAATATTGCCTCTATTCTCGCGCTGCATACGCTGCCGGGCAGCGCGGTCTACAGCGCCAGCAAAGCGTGGGTGTTGAGCTTTACCCGTGGCCTGCAGGATGAGTTTGCCGACAGCGGCGTGCGTATTCAGGCGGTATTGCCGGCGGCGACCGCCACCGATCTGTGGCCGACCTCCGGCGTGGCGCTGGACGCCCTGCCCACCGGTACGGTCATGACCACCGAGGATCTGGTTGACGCCGCCCTCAGGGGACTGGAGATGGGGGAAAAGGTCACCTTACCGCCCGTGCATGACCTGGGATTGTGGGAGGCTTTCGAGCAGACGCGACTGGCGTTGTTTACCAGCGCGCGAACCGGGCAACCGGCGCCGCGATATCGCTAA	MSQSSHTAFITGASSGIGAIYAERLAARGYDLILAARREDRLQTLAGQLQARYAIRASIVKADLSEEQGIEAVEQRLQHDPAIDLFINNAGTAKMAGFLASTPREHQAIHTLNTTALLRLSYAALAAFAPRGRGTLINIASILALHTLPGSAVYSASKAWVLSFTRGLQDEFADSGVRIQAVLPAATATDLWPTSGVALDALPTGTVMTTEDLVDAALRGLEMGEKVTLPPVHDLGLWEAFEQTRLALFTSARTGQPAPRYR	PGPT0030485_2315	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-OXIDOREDUCTASE_ACTIVITY	PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124
BMS020_02406	450			hypothetical protein	GTGAAACGTACCCGTCTTGAAAACAGCTGCTGTCCTGTCGCCCGCTCCCTCGACGTAATCGGTGACTGGTGGTCGCTGCTTATCGTCCGCGATGCCCTGCGCGGGGCGTGCCGTTTTAGTGAATTCCAGAAAAACCTCGGCATTGCCAAAAATATGCTCGCCGGACGCCTGAAAATGCTGGTGGATGAAGGCATCCTGCGTCTGCAGCCGGCCTCCGACGGCAGCGCCTGGCAGGAGTACGTCCTGACGGATAAGGGCCGCGCCCTGCAGACCGTGCTGGTCGCCCTTTCCCAGTGGGCGGATGACTATCTGTTCGATCCTGACGAACCGGCAACCCGGCTTATTGACCGCCAGCAGCGCCAGCCCCTGCGTAAACTGGTCCTGCAGGCGGCGGATGGCCGTGAGCTGGCCCCAGCGGATATCACCATCGCCGTTCCGCTGAACGACTAA	MKRTRLENSCCPVARSLDVIGDWWSLLIVRDALRGACRFSEFQKNLGIAKNMLAGRLKMLVDEGILRLQPASDGSAWQEYVLTDKGRALQTVLVALSQWADDYLFDPDEPATRLIDRQQRQPLRKLVLQAADGRELAPADITIAVPLND	PGPT0028680_3	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
BMS020_02407	1248	agp_1		Glucose-1-phosphatase	ATGAAAAAACGTCTACTCGCCGCCGCCGTAGCCGGCGCGGTCATGTTATCCGCCGGCGCTCTGGCGCAGGACACGGCCGCCCCGGAGGGGTATCAGCTGCAGCAGGTGCTGATCATGAGTCGTCACAACCTGCGCGCGCCGCTGGCCAATAACGGTAGCGTGCTGGAGCAGTCCACCGCCAAAGCCTGGCCGCAATGGGATGTGCCGGGCGGCCAGCTGACCACCAAGGGGGGTGTGCTGGAGGTGTATATGGGCCACTATATGCGCGAATGGCTGGCGCAGCAGAAGCTGGTGACCAGCGGCGAGTGCCCGCCGGAAAACGCTGTTTACGCCTACGCTAACAGCCTGCAGCGCACCGTCGCCACCGCGCAGTTCTTTATCACCGGCGCGTTCCCGGGCTGCGGCATTGCGGTGCATCATCAGCCGCAGATGGGCACCATGGACCCGACCTTCAACCCGGTTATCACCGACGACTCCCCGGCGTTTCGTGAGAAAGCGCTGCAGGCGATGGAAAAAGAGCGCCAGGGGTTGCAGTTGACCGAGAGTTACAAGCTGCTGGAGACGATGATCGATTACCGCAACTCGCCCTCCTGCAAAGAGAAGCAGGTCTGTTCCCTGAGCGAGGGTAAAGATACTTTTAGCGCCGGTTATCAGCAGGAGCCGGGGGTGTCCGGGCCGCTGAAGGTGGGCAACTCGCTGGTGGACGCCTTCACCCTGCAATATTATGAAGGCTTCCCCAAAGACCAGGTGGCGTGGGGGGAGATCACCAGCGATAAGCAGTGGCAGGTGCTGTCGAAGCTGAAAAACGGCTATCAGGATAGTCTGTTTACTTCGGTGGCGGTGGCGCAAAACGTGGCCAAGCCGCTGGTCAACTATATCGATAACGCGCTGGTGGGCGAGGGGGCCAGCAAGGCGAAAGTCACGCTGCTGGTGGGACACGACTCGAATATTGCCTCGCTGCTGACGGCGCTGGACTTTAAGCCCTATCAACTGCCCGGCCAGTATGAGCGCACGCCTATCGGCGGCAAACTGCTGTTTCAACGCTGGCACGACAGCGGCAGCAACCGCGATCTGATGAAGATTGAGTATGTGTACCAGAGCACCGAGCAGCTGCGTAACGCCGACCCATTGACGTTGCAGACCCCGCCGCAGCGGGTCACGCTGGCGCTTAACGGCTGCCCGGTCGATGACCAGGGTTTCTGTCCGCTGGAGACCTTTAAAAAGGTGATCAACGAGGCAGCGAAATAA	MKKRLLAAAVAGAVMLSAGALAQDTAAPEGYQLQQVLIMSRHNLRAPLANNGSVLEQSTAKAWPQWDVPGGQLTTKGGVLEVYMGHYMREWLAQQKLVTSGECPPENAVYAYANSLQRTVATAQFFITGAFPGCGIAVHHQPQMGTMDPTFNPVITDDSPAFREKALQAMEKERQGLQLTESYKLLETMIDYRNSPSCKEKQVCSLSEGKDTFSAGYQQEPGVSGPLKVGNSLVDAFTLQYYEGFPKDQVAWGEITSDKQWQVLSKLKNGYQDSLFTSVAVAQNVAKPLVNYIDNALVGEGASKAKVTLLVGHDSNIASLLTALDFKPYQLPGQYERTPIGGKLLFQRWHDSGSNRDLMKIEYVYQSTEQLRNADPLTLQTPPQRVTLALNGCPVDDQGFCPLETFKKVINEAAK	PGPT0002585_138	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-PHYTASE_PRODUCTION,PGPT0002585-agpP|agp-K01085	NA	NA
BMS020_02408	228	yccJ		putative protein YccJ	ATGCCAACTCAAGAAGCAAAAGCACATCGCGTCGGCGAATGGGCAAGTTTACGTAACACCTCGCCGGAGATCGCCGAGGCGATTTTCGAAGTCGCCCACTATGATGAAAAACTGGCGGAGCAAATCTGGGAGGAAGGCAGCGACGAAGTGCTGACGCTGGCCTTTGCCAAAACCGATAAAGATGCGCTGTTCTGGGGTGAACAGACGATTGAGCGTAAAAACGTCTAG	MPTQEAKAHRVGEWASLRNTSPEIAEAIFEVAHYDEKLAEQIWEEGSDEVLTLAFAKTDKDALFWGEQTIERKNV				NA	NA	NA	NA	NA
BMS020_02409	597	wrbA	COG0655	NAD(P)H dehydrogenase (quinone)	ATGGCTAAAATTCTGGTGCTTTATTATTCCATGTATGGACACATTGAAACCATGGCTCACGCCGTCGCCGATGGGGCGAACCGGGTGGACGGCGTTGAGGTGGTTGTGAAGCGCGTGCCGGAAACCATGCAGGCAGAAGCGTTTGCCAAAGCAGGCGGTAAAACGCAAAACGCGCCTGTCGCTACGCCGCAGGAACTGGCTGAGTATGACGCCATCATCTTTGGTACCCCGACTCGTTTCGGCAATATGTCCGGACAAATGCGCACCTTCCTCGATCAGACCGGCGGCCTGTGGGCATCCGGCGCGCTGTATGGCAAGATCGCCAGCGTATTCAGCTCAACCGGCACCGGCGGCGGCCAGGAACAAACCATTACCTCCACCTGGACGACGCTGGCCCACCACGGCATGATCATCGTGCCGATCGGCTACGGCGCCCAGGAGCTGTTCGATATCTCCCAGGTCCGCGGCGGGACGCCTTATGGCGCAACCACTATTGCCGGCGGCGACGGCTCGCGTCAGCCAAGCGAGGAAGAGTTAGCCATCGCCCGCTATCAGGGTGAACATGTCGCCAAACTGGCCGTTAAACTGCACGGCTAA	MAKILVLYYSMYGHIETMAHAVADGANRVDGVEVVVKRVPETMQAEAFAKAGGKTQNAPVATPQELAEYDAIIFGTPTRFGNMSGQMRTFLDQTGGLWASGALYGKIASVFSSTGTGGGQEQTITSTWTTLAHHGMIIVPIGYGAQELFDISQVRGGTPYGATTIAGGDGSRQPSEEELAIARYQGEHVAKLAVKLHG	PGPT0009460_1646	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009460-wrbA-K03809	NA	NA
BMS020_02410	939			hypothetical protein	ATGTCTTCGTTAAAATTCTCCGTTAGCCGCCAGGAAGCGCTCCTTATCATGATCACCATGTTCTGGGGAGGGACCTTCCTTGCCGTGCAGTATGCGGTCAGCCTCAGCGGGCCGCTGTTTTTTGTCGGCCTGCGTTTCGCGACCGCCGCGCTGGCGGTGGGTCTGCTCTCGCTGCGCACCCTGCGCGGTATGACATGGCTGGAGGTGAAGGCGGGGGTGGCGATTGGCGTGGCGATTGCGCTGGGGTATGGGCTGCAGACCTGGGGACTGCAGTCGATCTCCAGCAGTAAGTCTGCCTTTATCACGGCGATGTATGTGCCGCTGGTGCCGCTGCTGCAGTGGCTGTGCCTGGGTCGTATGCCGGGGATGATGTCCTGCGTGGGGATTGTGCTGGCCTTTATCGGTTTGATCCTGCTGGCCGGGCCGGAAAACAATCTGCTGGCGCTTGGCGTGGGGGAGATGATCACGCTGGCGAGCGCGCTGGCGATTGCCGCGGAGATTATCCTTATCAGCGCCTGGGCCGGGAAAGTGGATGTTCGGCGGGTGACGGTGGTGCAGCTGGCGACCGCGTCGCTGGTGGCTTTCGCCGCCATGAAGCCGGCCGGTGAGTCAGTGCCGCCGTTGACGCCGGCGCTGCTCGGCGTGGCGCTGGGGCTGGGCATTTTCAGCGCGATCATTCAGGTGACCATGAACTGGGCGCAGCGCAGCGTCTCGCCGACGCGGGCCACGCTGATCTATACCGGCGAACCGGTGTGGGCCGGTATTTTTGGCCGGTTGGCCGGTGAGCGTCTGCCGCTGCTGGCCCTCCTCGGCTGCGTCTTTATCCTCGCGGGGGTGCTGGTGAGCGAGCTGAAGTGGAAGCGCAAACCGCCGCCGCAGATGTCAACGAATAACGATGCGCAGCCGCTCCCGGACCTGGCCGATCGTCGCGAGCCGTAA	MSSLKFSVSRQEALLIMITMFWGGTFLAVQYAVSLSGPLFFVGLRFATAALAVGLLSLRTLRGMTWLEVKAGVAIGVAIALGYGLQTWGLQSISSSKSAFITAMYVPLVPLLQWLCLGRMPGMMSCVGIVLAFIGLILLAGPENNLLALGVGEMITLASALAIAAEIILISAWAGKVDVRRVTVVQLATASLVAFAAMKPAGESVPPLTPALLGVALGLGIFSAIIQVTMNWAQRSVSPTRATLIYTGEPVWAGIFGRLAGERLPLLALLGCVFILAGVLVSELKWKRKPPPQMSTNNDAQPLPDLADRREP				NA	NA	NA	NA	NA
BMS020_02411	1323	rutG	COG2233	Putative pyrimidine permease RutG	ATGGCACTCTTCGATTTTCCTCGCTGGAAGCTGACCTCCCCCGCCGCCGAATCCGGCGTTGTCGCGCCCGATGAACGCTTATCGGCCGGGCAAACGCTGGTGATGGGCGTGCAGCACGCCGTTGCGATGTTCGGCGCGACGGTGCTGATGCCGTTGTTGATGGGGCTCGACCCAAACCTGTCCATACTGATGTCGGGGGTCGGCACCCTGCTGTTCTTTGTCGTCACCGGCGGACGGGTGCCGAGCTATCTCGGCTCCAGCGCCGCCTTTGTCGGAGTGGTGATCGCCATTACCGGCTTTAACGGCCAGGGACTCAACCCTCACCTCAGCGTCGCCCTTGGCGGGATCATCGCCTGCGGGCTGGCCTATACCCTGATCGGTCTGGTGGTGATGAAGATCGGCACCCGCTGGATCGAGCGCCTGATGCCGCCGGTGGTGACCGGGGCGGTGGTGATGGCTATCGGCCTGAACCTGGCGCCGATTGCCGTGCGCAGCGTCTCCGCCAGCGCCTTCGACAGCTGGATGGCGGTGTTAACCGTGCTCTGTATCGGCATAGTCGCGGTATTTACCCGCGGGATGCTGCAGCGTCTGCTGATCCTGGTCGGCCTGATCGTCGCCTGCGCGCTGTACGCCCTGCTGGCTAACGGCTTTGGCCTCGGCAAACCGCTGGACTTCTCCCCCCTCGCCCAGGCGGCGTGGTTCGGGCTGCCGCACTTTACCACCCCATCCTTTAACGGCCAGGCGATGATGTTGATTGCCCCGGTCGCGGTGATCCTGGTGGCCGAGAACCTCGGGCACCTGAAGGCCGTCGCCGGGATGACCGGGCGCAATATGGATCCGTACATGGGGCGCGCCTTCGTCGGCGATGGTCTGGCGACCATGCTCTCCGGCTCGGTCGGCGGCAGCGGGGTCACGACCTATGCGGAGAACATCGGCGTCATGGCGGTGACCAAGGTCTACTCGACGCTGGTGTTTGTCGCCGCGGCGCTGATTGCCATGCTGCTGGGCTTCTCGCCGAAATTCGGCGCATTAATCCACACCATTCCCGGGCCGGTGATCGGCGGCGCCTCGATCGTGGTCTTTGGCCTGATCGCCGTCGCCGGGGCGCGGATCTGGGTGCAAAACCGCGTCGACCTCAGCCAGAACAGCAATCTGATCATGGTGTCTGTGACCCTGGTGCTGGGCGCCGGCGATTTCGCGCTGTCGCTGGGCGGCTTTACGCTGGGCGGGATTGGTACCGCCACCTTCGGGGCGATCCTGCTGCACGCGCTGCTTCATCGCGGGACGCGTGAGGCGAAGGAGGCCAGGGTAACACCGGTTTAA	MALFDFPRWKLTSPAAESGVVAPDERLSAGQTLVMGVQHAVAMFGATVLMPLLMGLDPNLSILMSGVGTLLFFVVTGGRVPSYLGSSAAFVGVVIAITGFNGQGLNPHLSVALGGIIACGLAYTLIGLVVMKIGTRWIERLMPPVVTGAVVMAIGLNLAPIAVRSVSASAFDSWMAVLTVLCIGIVAVFTRGMLQRLLILVGLIVACALYALLANGFGLGKPLDFSPLAQAAWFGLPHFTTPSFNGQAMMLIAPVAVILVAENLGHLKAVAGMTGRNMDPYMGRAFVGDGLATMLSGSVGGSGVTTYAENIGVMAVTKVYSTLVFVAAALIAMLLGFSPKFGALIHTIPGPVIGGASIVVFGLIAVAGARIWVQNRVDLSQNSNLIMVSVTLVLGAGDFALSLGGFTLGGIGTATFGAILLHALLHRGTREAKEARVTPV				NA	NA	NA	NA	NA
BMS020_02412	495	rutF	COG1853	FMN reductase (NADH) RutF	ATGAAGTTAGCGGACAAAGAGAGTTTTCGTGACGCCATGGCCCGCGTCGGCGCCGCGGTTAACATTATTACCACCGATGGCCCGGCGGGCCGGGCGGGCTTTACCGCCAGCGCGGTCTGCAGCGTGACCGACACCCCGCCGACCCTGTTGGTCTGTCTGAACCGCTCAGCCTCCGTGTGGCCGGTGTTCAGCGAACACCACACGCTGTGCGTCAATACCCTGGCGGCGGGACAGGAGGCGCTGTCAACGCTGTTTGGCGGTAAAACGGCGATGGACGAGCGCTTTGCCGCCGCCGACTGGCAGACCGGCGCCACCGGCTGCCCGCGGCTGGAGGCGGCGCTGGTCAGCTTTGACTGCCGCATCGACCAGCGCGTCAGCGTCGGCACGCACGACATTCTGTTTTGTCACGTCGTGGCCATTTCCCGTCACCCGGAACCCCGGGGTCTGATGTGGTTTGACCGCGGCTATCACACGCTTATGCGACCCGCTTGTTAA	MKLADKESFRDAMARVGAAVNIITTDGPAGRAGFTASAVCSVTDTPPTLLVCLNRSASVWPVFSEHHTLCVNTLAAGQEALSTLFGGKTAMDERFAAADWQTGATGCPRLEAALVSFDCRIDQRVSVGTHDILFCHVVAISRHPEPRGLMWFDRGYHTLMRPAC	PGPT0021265_405	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021265-rutF-K09024	NA	NA
BMS020_02413	591	rutE_1	COG0778	putative malonic semialdehyde reductase RutE	ATGAACGACGCGATAAACCAGACGGCCTGCGAGACGCTGTTTACCCAGGCCCGGACCCACAACGGCTGGCTGGATAAGCCAGTGAGCGATGCGCAGCTGCAGGCAGTCTGGGACCTGATGAAAATGGGGCCGACTTCCGCCAACTGTTCGCCGGCGCGCATCGTGTTCGTGCGCAGCGCGGACGGCAAAGAGAAGCTCCGCCCGACGCTCTCCAGCGGCAATCTGCAGAAAACCATGCAGGCGCCGGTGACCGCCATCGTGGCGTGGGATAGCGCCTTTTACGACCGGCTACCGACCCTGTTTCCCCACGGCGATGCCCGCAGCTGGTTCACCTCCAGCCCGCAGCTGGCGGAAGAGACGGCGTTTCGCAATAGCTCCCTGCAGGCGGCGTATCTGATTTTCGCCTGCCGGGCGCTGGGACTCGACACCGGGCCGATGTCCGGTTTCGATCGGGAAAAAGTCGATGCAGCGTTTTTCGCCGACAACGGCTGGAAAAGCAACCTGCTGGTGAACATCGGCTATGGCGACCCCGGCAAACTGTATGGCCGCCTGCCGCGTCTGTCCTTTGATGAAGCCTGCCTGCTGGCATAA	MNDAINQTACETLFTQARTHNGWLDKPVSDAQLQAVWDLMKMGPTSANCSPARIVFVRSADGKEKLRPTLSSGNLQKTMQAPVTAIVAWDSAFYDRLPTLFPHGDARSWFTSSPQLAEETAFRNSSLQAAYLIFACRALGLDTGPMSGFDREKVDAAFFADNGWKSNLLVNIGYGDPGKLYGRLPRLSFDEACLLA	PGPT0021290_677	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021290-rutE|ycdI-K09019	NA	NA
BMS020_02414	804	rutD_1		Putative aminoacrylate hydrolase RutD	ATGATGAGGCTCAATATTGCTCAGGCCCCATGGCCCGGCGCGCCGGTGGTGGTCCTCAGCGCAGGTCTGGGCGGCGGCGGCGGCTACTGGCTGGCGCAGCGCGCGGCGCTGGAGGAACAGTATCAGCTGGTGAGTTATGACCATAACGGGACCGGGGAGAACGCCGGTCCGCTGCCCGCCGACTACAGCATGGCGACGATGGCCGGGGAGCTGTTCAGCGCTCTGCAGGCGGCGGGGATCGCCCGCTTCGCGCTGGTGGGCCACGCGCTGGGGGCGCTGATTGGCCTGCAGCTGGCGCTCGATCGCCCCGAGGCGGTGAGCGCCCTGGTGCTGGTCAACGGCTGGCTGTCGCTGTCGCCGCACACCCGCCGCTGCTTCCTGGTGCGCGAGCGTCTGCTGCATGCCGGCGGCGCGCAGGCGTGGGTCGAAGCGCAGCCGCTGTTTCTCTACCCGGCGGAATGGATGGCCGCGCGCCTGCCGCGCCTCGAAGCCGAAGATGCGCTTGCCATCAGCCATTTTCAGGGCAAGGAGAACCTGCTGAAGCGGCTGCAGGCCCTGAAGCAGGCTGATTTTTCCCGTCGCGCGGCGGCCATCGCCTGCCCGACGCTGATGGTTAGCGCCGCTGACGACCTGCTGGTCCCGGCCTCCTGCTCCCGCGTGCTGCAGACGGCGATCCCCGGCAGCCAGCGCGTGGAAATGCCGTGGGGCGGGCATGCCTGCAACGTCACCGACGCCGATACCTTTAATACCATTTTACGCGACGGGCTGGCTGCAATGCTGCCGGTCGCCAGGGAGACCCGATGA	MMRLNIAQAPWPGAPVVVLSAGLGGGGGYWLAQRAALEEQYQLVSYDHNGTGENAGPLPADYSMATMAGELFSALQAAGIARFALVGHALGALIGLQLALDRPEAVSALVLVNGWLSLSPHTRRCFLVRERLLHAGGAQAWVEAQPLFLYPAEWMAARLPRLEAEDALAISHFQGKENLLKRLQALKQADFSRRAAAIACPTLMVSAADDLLVPASCSRVLQTAIPGSQRVEMPWGGHACNVTDADTFNTILRDGLAAMLPVARETR	PGPT0021280_128	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021280-rutD-K09023	NA	NA
BMS020_02415	393	rutC_3	COG0251	Putative aminoacrylate peracid reductase RutC	ATGCCTAAACAGGTGATTATTCCGCCAGGCACCACCACGCCGATTGCCCCCTTTGTTCCGGGGACGCTCGCCGATGGCGTGATCTACGTCTCCGGCACTCTGCCGTTTGATAAGCAAAACAATGTGGTGCACATCGGCGACCCAAAGGCGCAAACCCGCCACGTGCTGGAGACTATCAAGTGCGTTATCGAAACGGCGGGCGGGAGTATGGCGGATGTGACTTTCAACAGCATCTTTATCACCGACTGGACAAATTACGCCGCGATTAACGAGGTTTACGCCGAGTTCTTCCCCGGCGATAAACCCGCGCGCTTCTGCATTCAGTGCGGGCTGGTGAAGCCCGATGCGCTGGTGGAAATCGCCAGCGTCGTCCATATCGGCACCCCGACATGA	MPKQVIIPPGTTTPIAPFVPGTLADGVIYVSGTLPFDKQNNVVHIGDPKAQTRHVLETIKCVIETAGGSMADVTFNSIFITDWTNYAAINEVYAEFFPGDKPARFCIQCGLVKPDALVEIASVVHIGTPT	PGPT0021275_42	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021275-rutC-K09021	NA	NA
BMS020_02416	711	rutB_1	COG1335	Peroxyureidoacrylate/ureidoacrylate amidohydrolase RutB	ATGATTACCCTTCCCGCTCGCCCGGAATCCCTGACCTTCGCGCCGCAGCAGAGCGCGCTGATTGTTGTCGATATGCAGAACGCCTACGCCAGCCTCGGCGGTTATCTGGATCTCGCCGGATTTGACGTCTCCGCCACCCGGCCGGTTATCGACAATATTAATACCGCCGTCACCGCCGCTCGCGCCGCGGGCATGCTGATTATCTGGTTCCAGAACGGCTGGGATGACCAGTATGTTGAAGCCGGCGGCCCGGGCTCGCCGAACTACCATAAGTCCAACGCGCTGAAAACGATGCGTCAGCGCCCGGAACTGCAGGGCAAGCTGCTGGCGAAAGGCGGCTGGGATTATCAGCTGGTGGACGAGCTGACGCCGCAGGAAGGCGACATCGTGTTGCCGAAACCGCGCTACAGCGGCTTCTTTAACACTCCGCTCGACAGCATTTTGCGCAGCCGCGGCATCCGTCATCTGGTGTTCACCGGGATCGCCACCAACGTCTGCGTCGAATCGACGCTGCGCGATGGTTTCTTCCTCGAATACTTCGGCGTGGTGCTGGAGGATGCTACCCATCAGGCCGGACCGGCCTTCGCCCAGCAGGCGGCGCTGTTCAATATAGAAACCTTTTTCGGCTGGGTCAGCGACGTCGAGAGCTTCTGCCGCGCGCTGTCCCCTGCCACCCCGCTGTCTTTAGCCCAGGAGAAACGTTATGCCTAA	MITLPARPESLTFAPQQSALIVVDMQNAYASLGGYLDLAGFDVSATRPVIDNINTAVTAARAAGMLIIWFQNGWDDQYVEAGGPGSPNYHKSNALKTMRQRPELQGKLLAKGGWDYQLVDELTPQEGDIVLPKPRYSGFFNTPLDSILRSRGIRHLVFTGIATNVCVESTLRDGFFLEYFGVVLEDATHQAGPAFAQQAALFNIETFFGWVSDVESFCRALSPATPLSLAQEKRYA	PGPT0021270_232	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021270-rutB-K09020	NA	NA
BMS020_02417	1092	rutA	COG2141	Pyrimidine monooxygenase RutA	ATGAAAATTGGTGTTTTCGTTCCCATTGGCAACAACGGCTGGCTGATCTCCACCCATGCCCCGCAGTATATGCCGACCTTCGAACTGAATAAGGCTATCGTACAGAAAGCCGAGCACTACCATTTCGACTTCGCGCTCTCCATGATCAAGCTGCGCGGCTTCGGCGGGAAAACCGAATTCTGGGATCACAACCTGGAGTCCTTCACCCTGATGGCCGGCCTGGCCGCGGTGACCTCGAAGATCCAGATCTACGCCACCGCCGCCACCCTCACGCTGCCGCCGGCGATCGTCGCCCGGATGGCCTCCACCATCGACTCCATCTCCGGCGGCCGGTTTGGCGTCAATCTGGTGACCGGCTGGCAAAAACCGGAATATGACCAGATGGGCATGTGGCCGGGGGATGACTATTTCGCCAGCCGCTATGACTATCTCACCGAATACGTTCAGGTGCTCCGCGACCTGTGGGGCACCGGGCGCAGCGATTTCAAAGGCGACTACTTCACCATGAACGACTGCCGGGTCAGCCCGCGCCCTTCGCAGCCGATGAAGGTGATCTGCGCCGGGCAGAGTGACGCCGGCATGGCCTTCTCCGCCCAGCACGCCGACTATAACTTCTGCTTTGGCAAAGGGGTCAACACGCCAACGGCCTTCGCGCCGACCGCGGCGCGCATGATGCAGGCGGCGGAAAAAACCGGCCGTGACGTAGGCTCCTATGTGCTGTTCATGGTGATCGCTGACGAAACCGACGAAGCGGCGCGCGCCAAATGGGAGCACTACAAAGCGGGCGCCGATGAAGAAGCGCTGGCGTGGCTCACCGAGCAGAGTCAGAAAGACACCCGCTCCGGCAGCGATACTAACGTGCGCCAGATGGCCGACCCCACCTCGGCGGTCAATATCAACATGGGCACCCTTGTCGGATCCTATGCCAGCGTCGCCCGTATGCTTGATGAAGTCGCGAGCGTGCCCGGCACCGACGGCGTGCTGCTGACCTTTGATGATTTTCTTGCCGGCATCGACGCCTTTGGCGAACGCATTCAGCCGCTGATGCGCTGCCGGGACCATATTGCTCCTGTTACCCGTGAGGTGGCCTGA	MKIGVFVPIGNNGWLISTHAPQYMPTFELNKAIVQKAEHYHFDFALSMIKLRGFGGKTEFWDHNLESFTLMAGLAAVTSKIQIYATAATLTLPPAIVARMASTIDSISGGRFGVNLVTGWQKPEYDQMGMWPGDDYFASRYDYLTEYVQVLRDLWGTGRSDFKGDYFTMNDCRVSPRPSQPMKVICAGQSDAGMAFSAQHADYNFCFGKGVNTPTAFAPTAARMMQAAEKTGRDVGSYVLFMVIADETDEAARAKWEHYKAGADEEALAWLTEQSQKDTRSGSDTNVRQMADPTSAVNINMGTLVGSYASVARMLDEVASVPGTDGVLLTFDDFLAGIDAFGERIQPLMRCRDHIAPVTREVA	PGPT0021260_117	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021260-rutA-K09018	NA	NA
BMS020_02418	639	rutR	COG1309	HTH-type transcriptional regulator RutR	ATGGCACAGGGCGCGGTGAAGAAAAACGGCAAACGTTCACAAGCGGTCAGCGCCAAAAAGGAGGCCATTCTGGCCGCCGCGCTGGAGGCATTTTCGCAATTTGGTATTCACGGTACGCGACTGGAGCAGGTGGCTGAGCGCGCCGGGGTGTCGAAAACCAATCTGCTCTATTACTACCCTTCGAAAGAGGCGCTGTACGTGGCCGTTCTGCAGCAGATCCTCGCCATCTGGCTGGCGCCGCTGAAGGCCTTTCGCGAGGATATCAGCCCGCTGGTGGCGATCCGCGAGTATATTCGTCTGAAGCTGGAGGTGTCCCGCGATCACCCCCAGGCCTCGAAGCTCTTCTGCCTTGAGATGTTGCAGGGCGCGCCGCTGCTGATGGGCGAACTGACCGGGGATCTGAAAGCGCTGGTCGATGAGAAATCGGCGATTGTTTCCGGCTGGATCGACCGCGGCAAGCTGGCGCCGGTCGATCCGCAGCATTTAATCTTTATGATCTGGGCCACTACCCAGCATTACGCCGACTTCGCCACCCAGGTGGAGGCGGTCACCGGCGCCACGCTGCAGGACGCGGCCTTTTTTGAGCAAACGGTCGATAATGTCCAGCGGATGATTATCGAAGGCATTCGCGTCCGTTAA	MAQGAVKKNGKRSQAVSAKKEAILAAALEAFSQFGIHGTRLEQVAERAGVSKTNLLYYYPSKEALYVAVLQQILAIWLAPLKAFREDISPLVAIREYIRLKLEVSRDHPQASKLFCLEMLQGAPLLMGELTGDLKALVDEKSAIVSGWIDRGKLAPVDPQHLIFMIWATTQHYADFATQVEAVTGATLQDAAFFEQTVDNVQRMIIEGIRVR				NA	NA	NA	NA	NA
BMS020_02419	396			hypothetical protein	ATGAAACGCATGTTATTTGCCGCGGCGGTCTTGCTGGCCAGCGGCGCGGCGCTGGCGGACGAGTGCAGCAACGCCAACACCCAGACCGAAATGAATCAGTGCGCGGCCGCGCAGTATCAGGCAGCCGACAAAAAGCTGAACGACACCTGGCAGCAGGCTCTGCAGCGTGCGGTGGGTAAACAGCAGACATTACTGAAGCAGGCCCAGCAGGCATGGATCGCCCTGCGCGACGCCGACTGCGCTTTCCTCGCGTCCGGAGCCGATGGCGGCAGCATGCAGCCGATGCTGGTGAGCCAGTGCATGACCGATAAGAGCGTGGAGCGGGAATCTTTCCTCGCCTCGCTGCTACAGTGCGAGGACGGCGATCAAAGCTGCCCGCTGCCGCCGGCCAATTAA	MKRMLFAAAVLLASGAALADECSNANTQTEMNQCAAAQYQAADKKLNDTWQQALQRAVGKQQTLLKQAQQAWIALRDADCAFLASGADGGSMQPMLVSQCMTDKSVERESFLASLLQCEDGDQSCPLPPAN				NA	NA	NA	NA	NA
BMS020_02420	3963	putA_1	COG0506	Bifunctional protein PutA	ATGGGCACCACCACCATGGGTGTTAAGCTTGACGACGCAACCCGCGAGCGCATTAAGTCCGCCGCGAGCCGCATTGACCGCACGCCGCACTGGCTGATTAAGCAGGCCATCTTCAACTATCTGGAAAAGCTGGAGAACGACGAAACGCTGCCCGAACTGCCGGCGCTGCTCTCCGGGGCCGCCAATGAAAGCGATGAAGCGGGTTCCCCGGCGGAAGAGCCGTATCAGCCGTTCCTCGAATTCGCCGAGCAGATCCTGCCGCAGTCGGTAAGCCGCGCGGCGATCACCGCCGCCTGGCGTCGCCCGGAAACCGACGCGGTGCCGATGCTGCTGGAGCAGGCCCGACTGCCGCAGCCGCTGGGCGAGCAGGCGCATAAGCTGGCGTATCAGCTGGCGGAAAAACTGCGCAACCAGAAGACCGCCAGCGGCCGCGCCGGCATGGTGCAGAGTCTGCTGCAGGAGTTCTCCCTCTCCTCACAGGAAGGGGTGGCGCTGATGTGCCTGGCGGAAGCCCTGCTGCGTATTCCGGATAAAGCCACCCGCGATGCGCTGATCCGCGACAAAATCAGCAACGGCAACTGGCAGTCGCATATCGGCCGCAGCCCGTCGCTGTTCGTCAATGCCGCCACCTGGGGGCTGCTGTTCACCGGCAAACTGGTCTCCACCCACAACGAAACCAGCCTCTCACGCTCGCTGAACCGCATCATCGGCAAGAGCGGCGAACCGCTGATCCGCAAGGGCGTGGATATGGCGATGCGCCTGATGGGCGAGCAGTTCGTCACCGGGGAAACCATCGCCGAAGCGCTGGCTAACGCCCGCAAGCTGGAAGATAAAGGTTTCCGCTACTCCTACGATATGCTCGGCGAAGCGGCCCTGACCGCCGCCGACGCCCAGGCCTATATGGTCTCTTATCAGCAGGCGATCCATGCCATCGGCAAAGCTTCCAACGGCCGCGGCATTTATGAAGGCCCGGGCATCTCCATTAAGCTCTCGGCTCTGCACCCGCGCTATAGCCGCGCCCAGTATGACCGGGTGATGGAAGAGCTCTATCCGCGTCTGAAATCGCTGACCCTGCTGGCGCGCCAGTATGACATCGGCATTAACATCGATGCTGAAGAGGCCGACCGTCTCGAGATCTCCCTCGACCTGCTGGAAAAACTGTGCTTCGAGCCGGAGCTGGCGGGCTGGAACGGCATCGGTTTTGTTATTCAGGCCTACCAGAAGCGCTGCCCGTTCGTCATCGACGCGCTGATCGATCTCGCCACCCGCAGCCGTCGTCGCCTGATGATCCGTCTGGTGAAAGGCGCCTACTGGGACAGCGAAATCAAACGCGCGCAGATGGAAGGTCTCGAAGGCTACCCGGTCTACACCCGCAAGGTTTACACCGACGTCTCCTATCTCGCCTGCGCGAAAAAGCTGCTGGCGGTGCCGAACCTGATTTATCCGCAGTTCGCCACTCACAACGCCCATACTCTGGCGGCTATCTACCAGCTGGCGGGCCAGAACTACTACCCTGGCCAGTATGAGTTCCAGTGCCTGCACGGCATGGGCGAACCGCTGTACGAGCAGGTGGTGGGCAAAGTCGCCGACGGCAAACTGAACCGGCCGTGCCGGATCTACGCTCCGGTGGGCACCCACGAGACGCTGCTGGCGTATCTGGTGCGTCGTCTGCTGGAGAATGGCGCCAATACCTCCTTCGTCAACCGTATCGCGGACAATACCCTGCCGCTGGACGAGCTGGTGGCCGACCCGGTCAGCGCGGTGGAAAAACTGGCGCAGCAGGAAGGCCAGGCCGGTCTGCCGCACCCGAAAATTCCGCTGCCGCGCGATCTCTACGGCAGCGGCCGGAGCAACTCCGCCGGTCTGGATCTGGCTAACGAGCATCGTCTGGCCTCCCTCTCCTCTTCCCTGCTCAACAGCGCCCTGCATAAATGGCAGGCATTGCCGATGCTGGAGCAGCCGGTGGCCGAAGGCGAGATGCAGCCGGTGGTCAACCCGGCGGAGCCGAAGGATATCGTCGGTTACGTCCGCGAAGCCAGCGATGACGAAGTGCAGCAGGCGCTGACCAGCGCTATCAATAACGCGCCCATCTGGTTCGCCACCCCGCCGCAGGAGCGCGCCGCCATTCTTGAGCGCGCCGCGGTGCTGATGGAAAGCCAGATGCCGACCCTGATGGGGATCCTGGTGCGCGAAGCGGGTAAAACCTTCAGCAACGCCATCGCCGAAGTGCGCGAAGCCGTTGACTTCCTCCACTACTACGCCGGTCAGGTGCGCGACGATTTCGATAATGAAACCCACCGTCCGCTGGGTCCGGTGGTCTGCATCAGCCCATGGAACTTCCCGCTGGCGATCTTCACCGGGCAGATTGCCGCCGCGCTGGCGGCCGGCAACAGCGTGCTGGCGAAACCGGCGGAGCAGACGCCGCTTATCGCCGCTCAGGGCGTGGCGATCCTGCTGGAAGCCGGCGTGCCGCCAGGGGTGATCCAGCTGCTGCCGGGCCGCGGGGAAACCGTCGGCGCCGCGCTGACATCCGATGAGCGCGTGCGCGGCGTGATGTTCACCGGCTCCACCGAAGTGGCCACCCTGCTGCAACGCAATATCGCCAGCCGCCTCGACGCTCAGGGACGCCCAACGCCGCTGATCGCCGAAACCGGCGGGATGAACGCGATGATCGTCGACTCGTCGGCGCTTACCGAGCAGGTGGTGATCGACGTCCTGGCTTCCGCGTTCGACAGCGCCGGTCAGCGCTGCTCCGCCCTGCGCGTCCTCTGCCTGCAGGAAGAGGTAGCCGACCACACCTTAACCATGCTGCGCGGCGCGATGAGCGAGTGCCGGATGGGCAATCCCGGCCGCCTGACCACCGATATCGGCCCGGTTATCGATGCGGAAGCGAAAGAGAATATCGAACGCCATATTCAGACGATGCGCGCCAAAGGCCGCACCGTCTATCAGGCGGTGCGCGAGAATAGCGAAGACGCCCGCGAATGGAACCACGGGACCTTTGTGCCGCCGACGCTTATCGAACTCGACAGCTTCGACGAGCTGAAAAAAGAGGTCTTCGGCCCGGTGCTGCACGTGGTGCGCTATAACCGTAACGAGCTGGACAAACTGGTGGAGCAGATTAACGCTTCCGGCTACGGCCTGACCCTCGGCGTACATACCCGTATCGACGAGACCATCGCCCAGGTCACCGGCAGCGCGAAGGTGGGCAACCTGTACGTCAACCGCAATATGGTTGGCGCGGTGGTCGGCGTGCAGCCGTTCGGCGGCGAAGGGTTGTCCGGTACCGGTCCAAAAGCCGGCGGTCCGCTGTACCTTTACCGCCTGCTCTCCAGCCGTCCGCAGGGCGCGGTTGGCGTGACCTTCGCCCGCCAGGATGCAGAGCGTCCACTGGACGCCCAGCTGAAAACGCTGCTGGAAAAACCGCTGCAGGCGCTGCAGCAGTGGGCGGCGGGCCGTCCTGAGCTGCAGGCGCTGTGCCAGCTGTACAGCGAGCAGGCGCAAAGCGGCACCCAACGCCTGCTTCCGGGGCCCACCGGCGAGCGCAACACCCTGACGCTGATGCCTCGCGAGCGCGTGCTGTGCGTGGCGGATAATGAGCAGGATGCGCTGATCCAGCTGGCGGCTGTGCTGGCGGTCGGTTGTGAAGTGCTGTGGCCGGACAGCGCCCTGCAGCGCGATCTGGCGAAGAAACTCCCGCGGGACGTCAGCGAGCGGATCCGTTTCGCCAAAGCGGATCAGTTGCCTGGCCAGGCCTTCGACGCGGTTATCTATCACGGCGACTCCGACCAGCTGCGCGAGCTGTGCGAGCAGGTGGCGGCGCGCGACGGGGCGATTGTCTCCGTGCAGGGCTTCGCCCGCGGCGAAACCAATCTGCTGCTGGAGCGGTTGTACATCGAGCGTTCGCTGAGCGTCAACACCGCGGCGGCAGGCGGTAACGCCAGCCTGATGACCATCGGCTAA	MGTTTMGVKLDDATRERIKSAASRIDRTPHWLIKQAIFNYLEKLENDETLPELPALLSGAANESDEAGSPAEEPYQPFLEFAEQILPQSVSRAAITAAWRRPETDAVPMLLEQARLPQPLGEQAHKLAYQLAEKLRNQKTASGRAGMVQSLLQEFSLSSQEGVALMCLAEALLRIPDKATRDALIRDKISNGNWQSHIGRSPSLFVNAATWGLLFTGKLVSTHNETSLSRSLNRIIGKSGEPLIRKGVDMAMRLMGEQFVTGETIAEALANARKLEDKGFRYSYDMLGEAALTAADAQAYMVSYQQAIHAIGKASNGRGIYEGPGISIKLSALHPRYSRAQYDRVMEELYPRLKSLTLLARQYDIGINIDAEEADRLEISLDLLEKLCFEPELAGWNGIGFVIQAYQKRCPFVIDALIDLATRSRRRLMIRLVKGAYWDSEIKRAQMEGLEGYPVYTRKVYTDVSYLACAKKLLAVPNLIYPQFATHNAHTLAAIYQLAGQNYYPGQYEFQCLHGMGEPLYEQVVGKVADGKLNRPCRIYAPVGTHETLLAYLVRRLLENGANTSFVNRIADNTLPLDELVADPVSAVEKLAQQEGQAGLPHPKIPLPRDLYGSGRSNSAGLDLANEHRLASLSSSLLNSALHKWQALPMLEQPVAEGEMQPVVNPAEPKDIVGYVREASDDEVQQALTSAINNAPIWFATPPQERAAILERAAVLMESQMPTLMGILVREAGKTFSNAIAEVREAVDFLHYYAGQVRDDFDNETHRPLGPVVCISPWNFPLAIFTGQIAAALAAGNSVLAKPAEQTPLIAAQGVAILLEAGVPPGVIQLLPGRGETVGAALTSDERVRGVMFTGSTEVATLLQRNIASRLDAQGRPTPLIAETGGMNAMIVDSSALTEQVVIDVLASAFDSAGQRCSALRVLCLQEEVADHTLTMLRGAMSECRMGNPGRLTTDIGPVIDAEAKENIERHIQTMRAKGRTVYQAVRENSEDAREWNHGTFVPPTLIELDSFDELKKEVFGPVLHVVRYNRNELDKLVEQINASGYGLTLGVHTRIDETIAQVTGSAKVGNLYVNRNMVGAVVGVQPFGGEGLSGTGPKAGGPLYLYRLLSSRPQGAVGVTFARQDAERPLDAQLKTLLEKPLQALQQWAAGRPELQALCQLYSEQAQSGTQRLLPGPTGERNTLTLMPRERVLCVADNEQDALIQLAAVLAVGCEVLWPDSALQRDLAKKLPRDVSERIRFAKADQLPGQAFDAVIYHGDSDQLRELCEQVAARDGAIVSVQGFARGETNLLLERLYIERSLSVNTAAAGGNASLMTIG	PGPT0020210_238	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020210-putA-K13821	NA	NA
BMS020_02421	1509	putP	COG0591	Sodium/proline symporter	ATGGCTATTAGCACACCGATGCTGGTGACATTTATTATTTATATTCTTGGTATGGTATTGATAGGGTTTATTGCCTGGCGTTCGACCAAAAACTTTGATGATTATATTCTCGGGGGACGCAGTCTGGGGCCATTTGTAACCGCGCTTTCCGCCGGCGCCTCGGACATGAGCGGCTGGCTGCTGATGGGCCTGCCGGGCGCCATTTTCCTCTCCGGGATCTCCGAAAGCTGGATCGCCATCGGCTTAACGCTGGGGGCGTGGGTTAACTGGAAGCTGGTAGCCGGGCGCCTGCGCGTGCATACCGAGGTGAATAATAACGCCCTGACGCTGCCCGATTATTTTACCGGCCGTTTTGAAGATAAAAGCCGGGTGCTGAGAATTATTTCAGCGCTGGTTATTCTGCTGTTCTTTACCATCTATTGTGCCTCGGGAATTGTGGCGGGGGCGCGTCTGTTTGAAAGCACCTTCGGCATGAGTTATGAAACCGCGCTGTGGGCCGGCGCGGCGGCGACGATTATCTATACCTTTGTCGGCGGCTTCCTCGCCGTCAGCTGGACGGATACCGTGCAGGCCAGCCTGATGATTTTCGCGCTGATCCTCACCCCGGTGATCGTGATTGTTTCCGTAGGCGGCTTTGGCGATTCGCTGGAAGTCATTAAGCAAAAGAGCATCGAAAATATCGACATGCTGAAAGGGCTGAATTTCGTGGCGATTATTTCGCTGATGGGCTGGGGGCTGGGTTATTTCGGTCAGCCGCATATTCTGGCGCGCTTTATGGCGGCGGATTCGCACCACAGCATCGTCCACGCGCGTCGCATTAGTATGACCTGGATGATCCTCTGCCTCGCCGGGGCGGTGGCCGTCGGCTTCTTTGGTATCGCCTACTTCAATAGCAACCCGAGCCTGGCGGGCGCGGTTAACCAGAACGCCGAGCGCGTGTTTATCGAACTGGCGCAAATCCTGTTTAACCCATGGATTGCCGGGATCCTGCTGTCGGCGATTCTGGCGGCGGTGATGTCCACTTTGAGCTGTCAGCTGCTGGTCTGCTCCAGCGCGATTACCGAAGACCTGTATAAAGCCTTCCTGCGTAAAAACGCCGGTCAGAAAGAGCTGGTGTGGGTGGGCCGGATGATGGTGCTGGTGGTTGCCCTGGTGGCGATTGCCCTGGCGGCCAATCCGGAAAACCGCGTGCTGGGTCTGGTGAGCTATGCCTGGGCCGGCTTCGGCGCCGCCTTTGGTCCGGTGGTGCTGTTCTCGGTGATGTGGTCGCGCATGACCCGTAACGGCGCGCTGGCCGGGATGGTGATTGGCGCCCTGACCGTGATCGTCTGGAAGCAGTTTGGCTGGCTGGGCCTGTATGAAATTATTCCGGGCTTTGTCTTCGGCAGCATCGGGATCGTGGTCTTTAGCCTGCTGGATAAAGCGCCGTCGGCCAGCATGCAGCAGCGCTTCGCCGAAGCGGATGCCCACTACCATACGCCGCCGCCGGTACGCGCCACGGCTGAGTAA	MAISTPMLVTFIIYILGMVLIGFIAWRSTKNFDDYILGGRSLGPFVTALSAGASDMSGWLLMGLPGAIFLSGISESWIAIGLTLGAWVNWKLVAGRLRVHTEVNNNALTLPDYFTGRFEDKSRVLRIISALVILLFFTIYCASGIVAGARLFESTFGMSYETALWAGAAATIIYTFVGGFLAVSWTDTVQASLMIFALILTPVIVIVSVGGFGDSLEVIKQKSIENIDMLKGLNFVAIISLMGWGLGYFGQPHILARFMAADSHHSIVHARRISMTWMILCLAGAVAVGFFGIAYFNSNPSLAGAVNQNAERVFIELAQILFNPWIAGILLSAILAAVMSTLSCQLLVCSSAITEDLYKAFLRKNAGQKELVWVGRMMVLVVALVAIALAANPENRVLGLVSYAWAGFGAAFGPVVLFSVMWSRMTRNGALAGMVIGALTVIVWKQFGWLGLYEIIPGFVFGSIGIVVFSLLDKAPSASMQQRFAEADAHYHTPPPVRATAE	PGPT0013970_592	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013970-putP|ycgO-K11928	NA	NA
BMS020_02422	435			hypothetical protein	ATGACGTTCAGACAGGGTGCAATGGCGCTGGTGCTGGCAGGGTTACTCAGCGGCTGCGCGGCGGGTGGAAGTTCGTCGACCAGCGCGCCGAAGCCCGGCGCCTGCCCGGCGGATCAGTCCATGGTGCAAACCACGCTTTACTTCGGCCTGAGCCGCCCGGCGGGGAAAGACATCACCCCTGATGAGTGGCAACAGTTTGTCGACCGCGACGTCACGCCGCGTTTTCGCGACGGGCTGACGGTGTTTGACGCTCGCGGCCAGTGGCTGGGCCAGAATGGACAGGTGGTGCGGGAGCAGAGTAAGGCGCTGATGGTGATCCATGGCAACGACGCGCAGAGCGAGGCCGGTATTGAGGCGCTGCGCCAGGGCTATAAATCACGGTTCGCGCAGGAGTCGGTGATGCGTGTCGACCAGCCGGTCTGCGTACAGTTCTGA	MTFRQGAMALVLAGLLSGCAAGGSSSTSAPKPGACPADQSMVQTTLYFGLSRPAGKDITPDEWQQFVDRDVTPRFRDGLTVFDARGQWLGQNGQVVREQSKALMVIHGNDAQSEAGIEALRQGYKSRFAQESVMRVDQPVCVQF				NA	NA	NA	NA	NA
BMS020_02423	1218	nupC_1	COG1972	Nucleoside permease NupC	ATGGCGGCCTTATTGACCTGCGAAAAGAACAACATGACTGCATTTTTTCATTTCCTGCTGGCGCTGGCGGTGATCCTCGCCCTGGCCTGGCTTGTCAGCTATGACAGACAAAAAATTCGTATTCGTTATATTCTCCAGTTGATTATTATCGAAATAGCGCTCGCTTTCTTTTTCCTGCACGCCGAAAGCGGCCTGTGGCTGGTGAAAAATATCTCCGGCTTTTTTGCTTCGCTATTAGGCTTTGCCGCCGAAGGGACCAATTTCGTCTTTGGCGGCATGAGCGAAAAAGGCTTAGCCTTTATTTTCCTTGGCGTCCTGTGTCCGATTGTGTTTATTTCCGCGCTGATTGGTATTCTCCAGCACTGGCGGATCCTGCCGATTTTTATTCGCATCATTGGCACCCTGCTGTCGAAGGTCAACGGCATGGGTAAGCTGGAATCTTTTAACGCCGTCAGCTCACTGATCCTCGGCCAGTCAGAAAACTTCATCGCCTACAAAGGCGTGCTGGGCGACCTCTCCTCGCGGCGTCTGTTCACCATGGCGGCGACGGCCATGTCGACCGTATCGCTGTCGATCGTCGGCGCCTATATGACCATGCTGGACGCCAAATATGTCGTCGCGGCGCTGATCCTGAATATGTTCAGCACCTTTATCGTGCTGTCGGTGATTAACCCGACGCGGCCGGGCAGCGAGCAGGAAATAAAGCTGGAGAAGCTGCATGAATCGCAGAGTTTCTTTGAAATGCTCGGGGAATATATTCTGGCCGGCTTTAAGGTGGCGATGATTATTCTGGCGATGCTGATCGGCTTTATCGCGCTGATCAGCGCCATTAACGCGCTGTTCGCTACCCTGTTTGGCCTCAGCTTCCAGCAGATCCTCGGCTACGTCTTCTATCCGCTGGCCTGGCTTATCGGCATTCCGCTGAGCGATGCGCTAAACGCCGGCAGCATCATGGCCACCAAGCTGGTCGCGAACGAATTTGTGGCGATGATTGAGCTGCAAAAGATTGCCGCCAGCATGACGCCGCGCGGGCTCGGCATTCTCTCGGTCTTTCTGGTGTCGTTTGCCAACTTTGCCTCGATCGGCATTATCGCCGGAGCGATCAAAGGCCTGAATGAACCGCAGGGCAATATCGTCTCCCGCTTCGGCCTGCGGCTGGTGTATAGCGCCACGCTGGTGAGCCTGCTTTCGGCCAGCTTCGCCGGGCTGGTGCTGTAA	MAALLTCEKNNMTAFFHFLLALAVILALAWLVSYDRQKIRIRYILQLIIIEIALAFFFLHAESGLWLVKNISGFFASLLGFAAEGTNFVFGGMSEKGLAFIFLGVLCPIVFISALIGILQHWRILPIFIRIIGTLLSKVNGMGKLESFNAVSSLILGQSENFIAYKGVLGDLSSRRLFTMAATAMSTVSLSIVGAYMTMLDAKYVVAALILNMFSTFIVLSVINPTRPGSEQEIKLEKLHESQSFFEMLGEYILAGFKVAMIILAMLIGFIALISAINALFATLFGLSFQQILGYVFYPLAWLIGIPLSDALNAGSIMATKLVANEFVAMIELQKIAASMTPRGLGILSVFLVSFANFASIGIIAGAIKGLNEPQGNIVSRFGLRLVYSATLVSLLSASFAGLVL	PGPT0021070_1267	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021070-TC_CNT|nupX-K03317	NA	NA
BMS020_02424	831	efeU	COG0672	Ferrous iron permease EfeU	ATGTTTGTCCCATTTCTCATTATGTTACGCGAAGGCCTGGAGGCGGCGCTGATTGTCAGCCTGATCGCCAGCTATCTGAAACGCACCCAGCGCGGCAACTGGATTGGCGTGATGTGGATTGGCGTGATCCTCGCGGCGGCGCTGTGTCTTGGCTTAGGCATTTTTATCAACGAAACCACCGGTGAATTTCCTCAGCGTGAACAGGAGCTGTTCGAAGGGATCGTCGCGGTCATCGCAGTGGTGATCCTGACGTGGATGGTCTTCTGGATGCGCAATGTCTCACGCAACGTCAAGCAGCAGCTGGAGCAGGCCGTGGACAAGGCGCTACAGCGCGGCAATCACCATGGCTGGGCGCTGGTGATGATGGTCTTTTTCGCGGTCGCCCGTGAGGGGCTGGAGTCGGTCTTCTTTCTGCTGGCGGCATTCCAGCAGGATGTCGGCATCTGGCCGCCGCTGGGGGCGCTGCTGGGGCTGGCCACGGCTATCGTGCTGGGCTTCCTGCTCTACTGGGGCGGTATCCGTCTCAACCTCGGCGTGTTCTTCAAATGGACCAGCCTGTTTATCCTGCTGGTGGCCGCTGGCCTGGCCGCGGGGGCGATCCGCGCCTTCCACGAGGCGGGCCTGTGGAACCTGTTCCAGGAGACCGCCTTCGATCTGAGCGCTGTGTTGTCGACGCATACGCTGTTCGGCACGCTGCTGGAAGGGATCTTCGGCTACCAGGAGACGCCAAGCGTCAGCGAAGTGGCTGTTTATCTGCTTTATCTGATCCCGGCGCTGGTGCTGTTTGCGCTGCCGCCGCGAAATAATACGACTGCCTCGCGGGCTGCCTGA	MFVPFLIMLREGLEAALIVSLIASYLKRTQRGNWIGVMWIGVILAAALCLGLGIFINETTGEFPQREQELFEGIVAVIAVVILTWMVFWMRNVSRNVKQQLEQAVDKALQRGNHHGWALVMMVFFAVAREGLESVFFLLAAFQQDVGIWPPLGALLGLATAIVLGFLLYWGGIRLNLGVFFKWTSLFILLVAAGLAAGAIRAFHEAGLWNLFQETAFDLSAVLSTHTLFGTLLEGIFGYQETPSVSEVAVYLLYLIPALVLFALPPRNNTTASRAA	PGPT0003710_2114	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003710-efeU|FTR|FTH1-K07243	NA	NA
BMS020_02425	1128	efeO	COG2822	Iron uptake system component EfeO	ATGATGATTCATTTTCGCCGTAATGCGCTGCGGGTGACCGTGGCCGCGCTGCTCTGCTCTGCATTCGGTGCTCAGGCTGCGGATATCCCGCAGGTCAAAGTCACCGTCAACGATAAACAGTGCGAGCCGATGCAGGTGACCGTTAACGCGGGTAAAACCCAGTTTATTATTCAGAACCACAGCCAGAAAGCGCTGGAGTGGGAGATTCTGAAAGGGGTCATGGTGGTGGAAGAGCGTGAGAACATCGCGCCGGGCTTTACCCAGAAGCTCACCGCGAACCTGCAGCCGGGCGAATATGACATGACCTGCGGCCTGCTCACCAACCCGAAAGGCAAACTGATCGTCACCGGCGCCGCCACCAAAGACGCGGCGAAAGCCGATGCGGTGCTGAGCCTCGGCGAAGCGATCACCGCTTACAAAGCCTATGTGACGGCGGAAACCGCGCAGCTGGTCAGCGGCACCAAAGCCTTTACCGACGCGGTGAAAGCGGGCGATATCGAGAAAGCGAAAGCGCTGTACGCCCCGACGCGCCAGCATTACGAGCGCATCGAGCCGATCGCCGAGCTGTTCTCTGACCTTGACGGCAGCATCGACGCCCGCGAAGACGACTTCGAGAAAAAAGCGGAAGATCCGAAATTCACCGGTTTCCACCGTCTGGAAAAGGCGCTGTTTGGCGATAACAGCGTCAAGGGCATGGAAAAATATGCCGATCAGCTGAACAGCGATGTGCTGGAGCTGCAAAAACGCATCAGCGAGCTGGCGTTCCCGCCGTCAAAAGTCGTGGGCGGTGCGGCAGGATTAATTGAAGAAGTCGCGGCCAGCAAGATCAGCGGTGAAGAAGATCGCTACAGCCATACCGACCTGTGGGACTTCCAGGCCAATATTGACGGCGCGCAGAAAATTGTCGACCTGCTGCGCCCGCAGCTGCAAAAAGAGAACAGCGCGCTGCTGGCGAAAGTAGACGCCAACTTTAAGAAAGTGGACAGTATCCTCAGCAAATACCGCACCAAAGACGGTTTCGAAACTTACGATAAGCTGACCACCGCTGACCGTAATGCGCTGAAAGGGCCGATCACCACCCTGGCGGAAGATCTGGCTCAGCTGCGCGGGATCCTGGGTCTGGACTAA	MMIHFRRNALRVTVAALLCSAFGAQAADIPQVKVTVNDKQCEPMQVTVNAGKTQFIIQNHSQKALEWEILKGVMVVEERENIAPGFTQKLTANLQPGEYDMTCGLLTNPKGKLIVTGAATKDAAKADAVLSLGEAITAYKAYVTAETAQLVSGTKAFTDAVKAGDIEKAKALYAPTRQHYERIEPIAELFSDLDGSIDAREDDFEKKAEDPKFTGFHRLEKALFGDNSVKGMEKYADQLNSDVLELQKRISELAFPPSKVVGGAAGLIEEVAASKISGEEDRYSHTDLWDFQANIDGAQKIVDLLRPQLQKENSALLAKVDANFKKVDSILSKYRTKDGFETYDKLTTADRNALKGPITTLAEDLAQLRGILGLD	PGPT0003715_468	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003715-efeO-K07224	NA	NA
BMS020_02426	1284	efeB	COG2837	Deferrochelatase/peroxidase EfeB	ATGGCACAACAGAAACCACACGACGTGAACGAGCCGTCACGTCGTCGCTTACTGAAAGGGATCGGCGCGCTTGGCGGCGCGCTGGCCATCACCGGCGGCTGCCCGGTGGCACATGCGGCAAAAGCGGAAAGTTCCCCCGGGACGCTCGCACCCGACGCGCGTCAGGAAAAACAGCCATTCTACGGCCGGCATCAGGCGGGCATTCTGACGCCGCAGCAGGCCTCGATGATGCTGGTGGCGTTCGACGTGCTGGCGTCAGATAAAGCCGACCTCGAGCGTCTGTTCCGGCTGCTGACCCAGCGTATCGCCTTTTTAACCCACGGCGGCCCGGCGCCGGATACGCCTAATCCCCGGCTGCCGCCGATGGATTCCGGCATCTTAGGGCCGTGGATTGCCCCGGATAACCTGACCATCACCGTCTCGGTCGGCCATTCGCTGTTTGATGAGCGCTTTGGTCTCGCGGATAAAGTGCCGAGAAAACTGCAGCCGATGACTCGCTTCCCCAATGATTCGCTGGATGCCGCCCTGTGCCATGGCGACCTGCTGCTGCAGATCTGCGCCAATACTCAGGATACGGTGATCCACGCCCTGCGCGATGTCATCAAACATACGCCGGATTTGCTCAGCGTGCGCTGGAAGCGGGAAGGGTTTATCTCCGATAGCGCGGCGCGCAGCAAAGGCAAAGAGACCCCCATCAACCTGCTGGGTTTCAAAGACGGCACCGCTAATCCGGCGAGCCATGACAGCGCGCTGATGGATCAGGTCGTGTGGGTAACGGCGGATCAGGACGAGCCGGCCTGGGCCGTGGGCGGCAGCTATCAGGCGGCGCGCATCATCCAGTTTCACGTCGAGTTCTGGGACCGGACGCCGCTGAAAGAGCAGCAGACGATCTTTGGCCGCGACAAACACACCGGAGCGCCGCTGGGGATGAAAAACGAGCACGATACCCCGGATTACAGCAACGATCCTGGCGGCGAGACGATCGCGCTGGATAGCCATATTCGTCTGGCCAATCCTCGCACGCCGGAAACCCAGTCCAGCCTGATGATGCGCCGCGGCTACAGCTATTCGCTGGGCGTCACTAACGCCGGGCAACTGGATATGGGGCTGTTGTTCGTTTGCTATCAGCACGATCTGGAAAAGGGCTTTCTGACGGTGCAGAAACGGCTTAACGGCGAGGCGCTGGAGGAGTACGTCAAACCCATTGGCGGGGGCTACTTCTTTGTTTTACCCGGCGTAGTGGATGACAAGCACTACCTGGGACAGACGCTGCTGCAGGTCTGA	MAQQKPHDVNEPSRRRLLKGIGALGGALAITGGCPVAHAAKAESSPGTLAPDARQEKQPFYGRHQAGILTPQQASMMLVAFDVLASDKADLERLFRLLTQRIAFLTHGGPAPDTPNPRLPPMDSGILGPWIAPDNLTITVSVGHSLFDERFGLADKVPRKLQPMTRFPNDSLDAALCHGDLLLQICANTQDTVIHALRDVIKHTPDLLSVRWKREGFISDSAARSKGKETPINLLGFKDGTANPASHDSALMDQVVWVTADQDEPAWAVGGSYQAARIIQFHVEFWDRTPLKEQQTIFGRDKHTGAPLGMKNEHDTPDYSNDPGGETIALDSHIRLANPRTPETQSSLMMRRGYSYSLGVTNAGQLDMGLLFVCYQHDLEKGFLTVQKRLNGEALEEYVKPIGGGYFFVLPGVVDDKHYLGQTLLQV	PGPT0003720_460	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0003720-efeB-K16301	NA	NA
BMS020_02427	789	phoH	COG1702	Protein PhoH	ATGGGAAGACAAAAAGCAGTGATCAAAGCTCGTCGTGAAGCAAAACGTGTGCTGAGACGGGATTCACGCAGTCATAAGCAGCGTGAAGAAGAATCGGTCACATCGCTTGTGCAAATGAGTGGCGTAGAAGCAATTGGCATGGCGCGGGACAGCCGTGATACTTCCCCAATTGAGGCGCGCAATGAGGCTCAGGCGCATTATCTGAATGCCATCGACAATAAACAGCTGATTTTCGCCACCGGCGAAGCCGGATGCGGCAAGACCTGGATTAGTGCGGCGAAGGCAGCGGAAGCGCTGATCCATAAGGATGTGGACAGAATTATTGTTACCCGTCCCGTTCTGCAGGCCGACGAAGATCTCGGCTTCTTACCGGGAGATATCGCCGAGAAGTTCGCGCCCTATTTCCGACCGGTTTACGACGTGCTGGTGAAAAGGTTGGGGGCTTCCTTTATGCAGTACTGCCTGCGTCCGGAAATCGGCAAGGTGGAAATCGCGCCGTTCGCCTATATGCGCGGACGTACCTTTGAAAATGCGGTGGTGATTCTGGACGAGGCCCAGAATGTGACCGCAGCGCAAATGAAGATGTTTTTAACCCGCCTCGGGGAGAACGTGACGGTCATCGTCAATGGCGATATCACCCAGTGCGACTTGCCCTCTGGTGTGAGATCTGGCCTAAGTGATGCGCTGGCGCGTTTTGAGGAAGACGAGATGATCGGCATCGTGCGTTTCACCACCGATGACTGCGTGCGCTCAGCCCTCTGCCAGCGGACGCTGAAAGCCTATTATTGA	MGRQKAVIKARREAKRVLRRDSRSHKQREEESVTSLVQMSGVEAIGMARDSRDTSPIEARNEAQAHYLNAIDNKQLIFATGEAGCGKTWISAAKAAEALIHKDVDRIIVTRPVLQADEDLGFLPGDIAEKFAPYFRPVYDVLVKRLGASFMQYCLRPEIGKVEIAPFAYMRGRTFENAVVILDEAQNVTAAQMKMFLTRLGENVTVIVNGDITQCDLPSGVRSGLSDALARFEEDEMIGIVRFTTDDCVRSALCQRTLKAYY	PGPT0002700_1007	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002700-phoH-K06217	NA	NA
BMS020_02429	645	dsbA_1	COG0526	Thiol:disulfide interchange protein DsbA	ATGGTCGTACATGGGAAAGTTATCAAGTTATTAATTACTATTTTGATGGTGGGGTTGTCATCTGCTGCTTATAGTAAAGATTATCAGGCAGGGAAAAACTTCACTGTCATTAATTCTACTGTTAAGCAACCGCCGCAACTGGTTGAGTTTTTTTCCTTCTACTGCGGACCTTGTTATGCGTTTGCAGAGCGCATCAATGTTGATACAGCTATCAGAAAGCGCCTGCCCGACGATATGAAACTGGAAAAATACCATGTCAGCCAGATGGGACCTTTAGGACCAGCATTAACAGAAGCATGGGCCGTAGCACAATATGCTGGGGTAGATGGCAAGGTGGAAAAGTTATTGTTTGAAGGCTTACAGGTTAAGCGTGATATTAAAACGACAGCTGATATTGTTAAGGTCTTTAATCAACTTGGCATTACGTCCGAGAAATATGCCGAAATGCAAAGTAATTTTATGGTAAAAGCTTTAATTGCCAGACAGGACAATCTGGTCGAAAAAATGAAAGTAAGTGGTACGCCTTCTTTTTATGTTTCAGGGAAATATCATATTAACAATGCATCACTCGCGCAAGATGACTATGATACCTATGCAGAGGATATGGCGAATCTGGTTTTATTTTTGCTTAACAAATCCCAGTGA	MVVHGKVIKLLITILMVGLSSAAYSKDYQAGKNFTVINSTVKQPPQLVEFFSFYCGPCYAFAERINVDTAIRKRLPDDMKLEKYHVSQMGPLGPALTEAWAVAQYAGVDGKVEKLLFEGLQVKRDIKTTADIVKVFNQLGITSEKYAEMQSNFMVKALIARQDNLVEKMKVSGTPSFYVSGKYHINNASLAQDDYDTYAEDMANLVLFLLNKSQ	PGPT0015115_342	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015115-dsbA-K03673	NA	NA
BMS020_02432	678	ycaC	COG1335	putative hydrolase YcaC	ATGTCAACTCCCGCTAACTTTAACGGTGCTCGTCCGGTGATTGATGTCAACGATACCGCCATGCTGTTGATTGACCACCAGAGCGGCCTGTTCCAGACCGTCGGCGATATGCCGATGCCAGAGCTGCGCGCTCGCGCCGCCGCGCTGGCGAAGATGGCCTCGCTTGCCGGGATCCCGGTGATCACCACCGCTTCCGTGCCGCAGGGGCCGAACGGTCCGCTGATCCCGGAGATTCATGAGAACGCGCCGCATGCGACGTACATCGCCCGTAAAGGCGAGATCAACGCCTGGGATAACCCGGAATTCGTCGCCGCGGTGAAAGCGACCGGTCGCAAAACGCTGATTATCGCCGGGACCATCACCAGCGTCTGCATGGCCTTCCCGGCGATTGCCGCCGTCGCCGACGGTTATAAAGTGTTTGCCGTGATTGACGCTTCCGGCACCTACAGCAAAATGGCGCAGGAGATCACCCTGGCTCGCGTGGTACAGGCCGGCGTAGTGCCGATGGATACCGCCGCCGTCGCCTCTGAGCTGCAGCGTACCTGGAATCGCCCGGACGCCGCAGAATGGGCGGAGGTGTACACCAAAGTCTTCCCGGCCTACCAGCTGCTGATCGAAAGCTATAGCAAAGCGCAGGACGTCGTGAAGAATAACGAACAGCTTGATTCCCAGCGCTAA	MSTPANFNGARPVIDVNDTAMLLIDHQSGLFQTVGDMPMPELRARAAALAKMASLAGIPVITTASVPQGPNGPLIPEIHENAPHATYIARKGEINAWDNPEFVAAVKATGRKTLIIAGTITSVCMAFPAIAAVADGYKVFAVIDASGTYSKMAQEITLARVVQAGVVPMDTAAVASELQRTWNRPDAAEWAEVYTKVFPAYQLLIESYSKAQDVVKNNEQLDSQR				NA	NA	NA	NA	NA
BMS020_02433	861			hypothetical protein	ATGAAACAGATTACAGGAGTCTACACCGCGCCTGCGCAGCATTGGGTAGGCGACGGCTTCCCGGTTCGTTCGATGTTTTCCTATCAGACGCACGGCCAGCAGTTGAGCCCCTTCTTACTGCTCGACTATGCCGGGCCGTACACCTTCCCGGCAGGCAGCGATAAACGCGGCGTCGGTGAGCATCCGCATCGCGGATTCGAAACCGTCACTATCGTCTACGCCGGTGAAGTAGAGCATCGTGACTCCACCGGACGCGGCGGGGTGATCGGCCCAGGCGACGTGCAATGGATGACGGCCGGCGCCGGGATCCTGCACGAAGAGTTCCACTCGGAGGCCTTCACCCGCAGCGGCGGCGAGCTGAAGATGCTCCAGCTGTGGGTCAACCTGCCCGCCAAAGACAAAATGACGGCCCCCGGCTACCAGAGCATTACCGCCGGGACAATCCCCACCGCCGCGCTGGCGAATGGCGCCGGACAGGTTCGGGTTATTGCCGGCCAGTATGACGACGTCAGCGGCCCGGCCCATACCTTCTCACCGCTTAACGTGTGGGATCTGCAGCTGAATCAGGGGCACGACCTCACGCTTCGCCAGCCGGAAGGCTGGAGTACTGCGCTGGTGGTACTGGAAGGGGAAGTGATCATCAACGGTTCCGAATCCGCCCGCGAAGGCCAGCTCGCCGTCCTGAGCCAGGCAGGAGATGCACTGCACCTGGAGGCGACAACCCAGGCAAAAGTTCTGCTGATGGCCGGCGAACCGCTGCAGGAGCCGATTGTGGGCTATGGCCCCTTTGTCATGAATAACAAAACACAGATCGCAGAAGCCGTTCGCGATTTTAACAGCGGCCGCTTTGGCCAAATCTAA	MKQITGVYTAPAQHWVGDGFPVRSMFSYQTHGQQLSPFLLLDYAGPYTFPAGSDKRGVGEHPHRGFETVTIVYAGEVEHRDSTGRGGVIGPGDVQWMTAGAGILHEEFHSEAFTRSGGELKMLQLWVNLPAKDKMTAPGYQSITAGTIPTAALANGAGQVRVIAGQYDDVSGPAHTFSPLNVWDLQLNQGHDLTLRQPEGWSTALVVLEGEVIINGSESAREGQLAVLSQAGDALHLEATTQAKVLLMAGEPLQEPIVGYGPFVMNNKTQIAEAVRDFNSGRFGQI	PGPT0019980_3177	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
BMS020_02434	906	dmlR_16		HTH-type transcriptional regulator DmlR	ATGCAGGATCTCAATGACTTCGCCTGGTTTGTCCAGGTCGTGGACCATGGCGGTTTCGCCGCGGCGGGGCGAGCGCTTGACCAGCCGAAATCCAAGCTCAGCCGCCGTATTGCGCAACTCGAGGAGCGGTTGGGCGTGCGTTTGATTCAGCGAACCACTCGCCAGTTCGCGGTCACCGAGGTCGGGCAGACCTTTTACCAGCATTGCAAAGCGATGCTGATTGAGGCCGAGGCGGCGCAGCAGGCGGTCGACACGCTGCGCGCCGAGCCGCGCGGCAGCGTCAGGATCACCTGTCCGGTCACCTTGCTGCATGTCCATATCGGACCGATGCTGGCGCGATTTATGGCGCGCTATCCCGGGGTAACATTGCATCTTGAGGCGACCAACCGCCGGGTGGATGTGGTCGGTGAGGGCATTGATGTGGCGATCCGCGTCCGTCCCCGGCCAATCGAGGACAGCGACCTGGTGATGCGCGTGCTGGCGGACCGCGGGCACCGGCTGGTGGCCAGTTCGCAGCTGATTTCCCGGCTCGGACGCCCGCAGGCGCCGTCTGAGTTGAGCGACTGGCCGGGGCTCAGCCTGGGGGCGAACAAGCATCAGCATAAATGGCAGCTTACCGGGCCTGAAGGGGCAAGGGCGGAGGTGTATTTCACGCCGCGAATGGTGACCACCGATATGCTGGCGCTGCGCGAGGCGGCGATAGCCGGCGTGGGGGTGGTGCAGCTTCCTTTATTGATGGTGCGCGATCAGCTGGCGTCAGGGGAGTTAGAGGTGGTACTGGATGAGTGGCAGCCGCGGCGGGAAGTGATCCATGCGGTATTTGCCTCCCGGCGCGGGCTGCTGCCCTCCGTTAGAGCGCTGGTGGATTACCTCAGCGAAGAGTATCAACGAATGGAGGAGGATTAG	MQDLNDFAWFVQVVDHGGFAAAGRALDQPKSKLSRRIAQLEERLGVRLIQRTTRQFAVTEVGQTFYQHCKAMLIEAEAAQQAVDTLRAEPRGSVRITCPVTLLHVHIGPMLARFMARYPGVTLHLEATNRRVDVVGEGIDVAIRVRPRPIEDSDLVMRVLADRGHRLVASSQLISRLGRPQAPSELSDWPGLSLGANKHQHKWQLTGPEGARAEVYFTPRMVTTDMLALREAAIAGVGVVQLPLLMVRDQLASGELEVVLDEWQPRREVIHAVFASRRGLLPSVRALVDYLSEEYQRMEED				NA	NA	NA	NA	NA
BMS020_02436	939	ghrA_2	COG0111	Glyoxylate/hydroxypyruvate reductase A	ATGGAGATTATTTTTTACCATCCGACCTTTGATACCCAATACTGGATCCGAGAGCTGGAAAAGCAGTTACCCGGCGCGCGAGTGCGCGAATGGAAAGCGGGCGATAACCAGCCGGCGGACTATGCCCTGGTCTGGCATCCACCGGTAGAGATGCTGCAGGGCAGGGCGCTGAAGGCCGTGTTCGCCCTTGGGGCGGGGGTGGATTCGATCCTCAGTAAGCTGCGCGATCATCCGGATATGTTGCCCCTGTCGATCCCGCTGTTTCGCCTCGAAGATACGGGCATGGGACGACAGATGCAGGAGTATGCGGTGAGCCAGGTTCTGCACTGGTTCCGCCGGTTCGATGACTATCAGGCGCAGAAGCTGGCGTCCCGCTGGCAGCCGTTGCCTGAGTATCTTGCCGACGATTTCACCGTCGGGATTATGGGCGCCGGCGTGCTGGGGGCGAAGGTGGCGGAAAGCCTGCAACCCTGGGGATTCCCGCTTCGCGTCTGGAGCCGTAGCCGCAAAGCCTGGCCGCAGGTGCAGAGCTTTGCCGGCCAGGCCGAGCTGGGCACATTCCTGCAGGGGACCCGCGTGCTGATCAACCTGCTGCCGAACACCGCTGAAACCGTCGGCATTATTAACCAGACGCTGCTGGCGCAGCTGCCGGATGAGAGCTATGTCCTAAACCTTGCCCGCGGCGTGCATGTCGTTGAAGAAGATCTGCTGGCGGCGCTGAACAGCGGTAAGCTCAAAGGGGCAATGCTCGATGTCTTCAGTCGCGAACCGTTGCCCCAGGAGAGCCCGCTTTGGGCGCACCCGCGGGTGGCCATGACTCCCCACGTGGCGGCAGTCACCCGCCCGATGGAGGCCATTGCCTATATCGCCGGGACCATTAGCCGCCTGGAGCGAGGGGAACCGGTTAGCGGTCAGGTCGATCATCAGCGCGGTTATTAA	MEIIFYHPTFDTQYWIRELEKQLPGARVREWKAGDNQPADYALVWHPPVEMLQGRALKAVFALGAGVDSILSKLRDHPDMLPLSIPLFRLEDTGMGRQMQEYAVSQVLHWFRRFDDYQAQKLASRWQPLPEYLADDFTVGIMGAGVLGAKVAESLQPWGFPLRVWSRSRKAWPQVQSFAGQAELGTFLQGTRVLINLLPNTAETVGIINQTLLAQLPDESYVLNLARGVHVVEEDLLAALNSGKLKGAMLDVFSREPLPQESPLWAHPRVAMTPHVAAVTRPMEAIAYIAGTISRLERGEPVSGQVDHQRGY	PGPT0019465_628	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0019465-ghrA-K12972	NA	NA
BMS020_02437	738	ycdX	COG1387	putative phosphatase YcdX	ATGTATCCCGTTGACCTGCACATGCATACCGTCGCCAGCACCCACGCCTACAGCACCCTGCACGATTATATTGCGGAAGCAAAGCGTAAAGGGATCAAACTCTTCGCCATTACCGATCACGGCCCGGACATGGCGGATGCTCCGCACTACTGGCATTTCGTTAATATGCGCATCTGGCCCCGTCTGGTGGACGGGGTGGGGATCCTGCGCGGTATTGAATCGAATATTAAAAATATCGAAGGCGAGATCGACTGTTCCGGGCCGATGTTGACGTCGCTCGATCTGATCATCGCCGGATTCCACGAGCCGGTGTTTCCGCCGCAGGATAGCGCCACCCATACGCAGGCGATGATTGCCGCGATGGCCAGCGGTAAAGTGCATATGATTAGCCATCCGGGTAATCCGAAATTCCCGGTGGATATCCCGGCCATTGCCGAAGCGGCGGCCCGTTACCAGGTGGCGCTGGAGATCAATAACTCCTCTTTCGTTTCATCGCGCGTGGGCAGTGAAGATAACTGCCGGGCCATCGCCGCCGCGGTGCGCGACGCCGGAGGGTGGGTGGCGCTGGGCTCGGACTCTCACACTGCGTTTACCCTCGGAGAGTTTACCGAATGCCGCAAGATCCTCGATGCTGTCGATTTCCCGGAGGAGAGGATCCTCAATGTTTCTCCGCGTCGCCTGCTCGACTTCCTCGAGTCGCGTGGTATGCCGGCGATCCCGGAATTTGCTGACCTTTAA	MYPVDLHMHTVASTHAYSTLHDYIAEAKRKGIKLFAITDHGPDMADAPHYWHFVNMRIWPRLVDGVGILRGIESNIKNIEGEIDCSGPMLTSLDLIIAGFHEPVFPPQDSATHTQAMIAAMASGKVHMISHPGNPKFPVDIPAIAEAAARYQVALEINNSSFVSSRVGSEDNCRAIAAAVRDAGGWVALGSDSHTAFTLGEFTECRKILDAVDFPEERILNVSPRRLLDFLESRGMPAIPEFADL	PGPT0016200_757	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016200-ycdX-K04477	NA	NA
BMS020_02438	555	ycdY	COG3381	Chaperone protein YcdY	ATGAACGAGTTTTCAATCCTCTGCCGCGTGCTGGGTTCGCTGTATTACCGTCAACCGCAGGACCCGCTGCTGGTGCCGCTGTTTACCCTGATCCGCGAGGGCAAACTGGCCGCCAGCTGGCCGCTGGAACAGGACGAGCTGCTGGCGCGTCTGCAGAAAAGCTGTGAAATGCAGTCCCTGGCGACGGACTATAATGCGCTGTTCGTCGGTGAAGCCTGCAGCGTCCCGCCGTACCGCAGCGCGTGGGTGGAGGGTTCCTCGGAAGCGGAGGTCCGGGCTTTTCTGAGCGAGCATGGCATCCCGACGGGAGAAGGTCCGGCGGATCATCTCGGATCGCTGCTGCTGGCCGCCTCCTGGCTGGAGGATCATGCCACAGAAGAGCAGAGCGAGACGCTGGAGCGCCTGTTTGCCGACTATATCCTGCCGTGGTGCGGGACAATGCTGGGGAAAGTCGAAGCGCATGCGCACACAGCGTTCTGGCGCACGATGGCGCCGTTGACCCGCGACGCCATCGCCGCGATGTGGGACGAGCTTCAGGAAGAAGATGAGCAATAA	MNEFSILCRVLGSLYYRQPQDPLLVPLFTLIREGKLAASWPLEQDELLARLQKSCEMQSLATDYNALFVGEACSVPPYRSAWVEGSSEAEVRAFLSEHGIPTGEGPADHLGSLLLAASWLEDHATEEQSETLERLFADYILPWCGTMLGKVEAHAHTAFWRTMAPLTRDAIAAMWDELQEEDEQ				NA	NA	NA	NA	NA
BMS020_02439	483	ycdZ		Inner membrane protein YcdZ	ATGAACATACTCTTCGCAATCGCATTAACGACGGGCATTCTCTCCGGGATTTGGGGATGGGTGGCGGTCGCCCTCGGCCTGCTGAGCTGGGCCGGTTTCCTCGGCTGTACCGCCTATTTCGCCTGCCCGCAGGGCGGTCTGAAAGGTCTGGCCATCTCCTCCTGTACGGTAATGAGCGGCGTGGTCTGGGCGTTGGTGATTATCCACGGTAGCGCGCTGGCCCCGCAGCTGCAGATCCTCAGCTATATGATGACCGGCGTCGTGGCCTTTCTGATGTGCATCCAGGCGCGACAGACGCTGCTGTCGTTTGTCCCCGGCACCTTTATCGGCGCCTGCGCGACCTTCGCGGCAGACGGCGACTGGCGTCTGGTTATCCCTTCTCTGGCGCTGGGCCTGGTCTTTGGCTATGCCATGAAAAATAGTGGCCTGTGGCTGGCGGCCCGTGCGGATAAGCATAAATCGTTCGCCAATGACAACGCCTGA	MNILFAIALTTGILSGIWGWVAVALGLLSWAGFLGCTAYFACPQGGLKGLAISSCTVMSGVVWALVIIHGSALAPQLQILSYMMTGVVAFLMCIQARQTLLSFVPGTFIGACATFAADGDWRLVIPSLALGLVFGYAMKNSGLWLAARADKHKSFANDNA				NA	NA	NA	NA	NA
BMS020_02440	528	ymdB_1	COG2110	O-acetyl-ADP-ribose deacetylase	ATGGCTGTTCAACCTGAAGTAATTCTCGGCGATATTACGACGCTTGATGTCGATGTGATTGTGAATGCGGCAAACCCCTCGCTGCTGGGCGGCGGCGGGGTGGATGGCGCGATCCACCGGGCGGCCGGTCCCGCGCTGCTGGCGGCCTGCAAGCAAGTGTTGCAGCAGCAGGGCGAATGTCCCCCTGGTCATGCGGTGATCACGATGGCGGGCGATCTTCCCGCCAGCGCGGTGATCCACACCGTGGGCCCGGTCTGGCACGGCGGCGACCGCATGGAGGCGCAAACCCTGGCCGATGCCTACAAAAACAGCCTGCAGCTGGCGGCGGCAAACAATTATCGCTCCATTGCGTTTCCGGCGATCAGCACCGGCGTGTATGGCTATCCGAAAGAGGAAGCGGCGGCGATCGCCGTGCGCACCGTGACCGCGTTTCTCACCCGCTATAACCCGCTTGAACGGGTCCTGTTCGTCTGTTTCGACGAGGAAACGGCGGCTATCTATCGTCGCCTGCTGGCGGCATACCCCTGA	MAVQPEVILGDITTLDVDVIVNAANPSLLGGGGVDGAIHRAAGPALLAACKQVLQQQGECPPGHAVITMAGDLPASAVIHTVGPVWHGGDRMEAQTLADAYKNSLQLAAANNYRSIAFPAISTGVYGYPKEEAAAIAVRTVTAFLTRYNPLERVLFVCFDEETAAIYRRLLAAYP	PGPT0027680_1639	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
BMS020_02441	594	betI_3		HTH-type transcriptional regulator BetI	GTGTCGGAAGGAAAAGTACAGCAGAAGCAGCAGGCGCGCCGCGCGGAGATCGTTGCCGCTGCGCAAAGATGTTTTGCGGCAAAGGGATTGCATGGCGCCTCTGTCGCTGATATCGCCCGCGAGGCGGGCCTGAGCGTCGGTCAGCTGTATCGCATTTTTGCCAGCAAGGAAGCGATCATTGAAGCGATTGTCAGCGAAATCGTCAACGCCAGGGTCGGAGAGATGATCGATGAGAACCACAATCTGGCGCGCAAAGCGGCGGTGCTGGCCGGCAGGATCCCGACTTCGGCAGCCACCAAAAGCGACAATTATCTGTTGATGGAAATTAATGCCGAAGCCTCGCGTAACCCACGCTTGCGCGAGATCCTGGTGCAGGCCGATCGGAGGTTGAAAGAGGAGGGCGGCCGTTTGTCGCAGCGTTATCATCCCGGTCTCGGCGATGCGCGACGCAATGCTGCTTCAGAGCTCATCGCCGTTCTGACGGAGGGGGCAGCCTACCGCTGTGAGCTGAGCGCCTCCACTCCGGTCGATAAAGCGGATTTAGAAGCCCTGTATAATATGATCTTCGATCGGCTGTTTGATGAGCAAGCGTAG	MSEGKVQQKQQARRAEIVAAAQRCFAAKGLHGASVADIAREAGLSVGQLYRIFASKEAIIEAIVSEIVNARVGEMIDENHNLARKAAVLAGRIPTSAATKSDNYLLMEINAEASRNPRLREILVQADRRLKEEGGRLSQRYHPGLGDARRNAASELIAVLTEGAAYRCELSASTPVDKADLEALYNMIFDRLFDEQA				NA	NA	NA	NA	NA
BMS020_02442	1161	mdoC		Glucans biosynthesis protein C	ATGAATAATACTCCGGTACAGCGTGAATATTTTTTCGACAGCATCCGCGCCTGGCTGATGCTGCTGGGGATCCCTTTTCACATTTCGCTGATTTATTCCAGCCATAGCTGGCATGTCAACAGCGCAGAGCCCTCGTGGTGGCTGACGCTGTTTAATGATTTCATTCATGCCTTCCGCATGCAGGTCTTCTTCGTGATCTCCGGCTATTTCTCCTACATGCTGTTCCTGCGCTACCCGCTGAAAAAGTGGTGGAAAGTGCGCGTCGAACGGGTCGGTATTCCGATGCTCACCGCCATCCCGCTGCTGACGCTGCCGCAGTTTATTATGCTGCAGTACGTCAACGGCAAGGCGGAAAACTGGCACACCCTTTCGGGGTACGACAAATTCAACACCCTGGCGTGGGAGCTCATTTCCCACCTCTGGTTTTTGCTGGTCCTGGTGGTGCTGACCTCGCTGGGGGTGGTGCTGTTTAAATGGCTGACGCGCCGCCCGGCTCCGGGCGCTCACGCATTCGGTGACACTGTCACCATGGGCCAGCTGACGATGATTTTCCTCGCGCTGGGGGTGCTTTACGCGCTGATCCGTCGGTCATTGTTCGTGATCTACCCGCCCCTGCTGAGCAATGGTCTGTTTAACTTTGTGGTCATGCAGACGCTGTTCTATCTGCCCTTCTTTGTGCTGGGGGCGCAGACCTTTATTAACCCGCGCTTAAAGGCGATGTTCACCACCCCGTCGCCATGGTGTTGCGTGGCGTCACTGCTGGGATTCATCGCTTACCGCCTGAACCAGCAGTATGGATCTGGCGACGGTTGGATGTATGAAACGGAATCGGTGATCACCATGGTGCTGGGGCTGTGGATGGTAAATGTGATCTTCTCGCTCGGCCATCGCCTGCTGAATTTCCAGTCGGCGCGGGTGACCTACTTCGTCAATGCTTCGCTGTTTATTTACCTGGTGCACCATCCGCTGACGCTGCTGTACGGGGCGTGGATCACCCCGGCCATTAAGTCGAATACCTTAGGCTTTATTGGCGGGTTGGTTTTTGTGGTGGGGATTGCCCTGATCCTGTATGAAATTCATCTGCGTATTCCGCTGCTGCGTTTCCTGTTCTCCGGTAAACCCATGAGCAAACCGGCAAAAACCCCGGCCTCGGCCAGCTAA	MNNTPVQREYFFDSIRAWLMLLGIPFHISLIYSSHSWHVNSAEPSWWLTLFNDFIHAFRMQVFFVISGYFSYMLFLRYPLKKWWKVRVERVGIPMLTAIPLLTLPQFIMLQYVNGKAENWHTLSGYDKFNTLAWELISHLWFLLVLVVLTSLGVVLFKWLTRRPAPGAHAFGDTVTMGQLTMIFLALGVLYALIRRSLFVIYPPLLSNGLFNFVVMQTLFYLPFFVLGAQTFINPRLKAMFTTPSPWCCVASLLGFIAYRLNQQYGSGDGWMYETESVITMVLGLWMVNVIFSLGHRLLNFQSARVTYFVNASLFIYLVHHPLTLLYGAWITPAIKSNTLGFIGGLVFVVGIALILYEIHLRIPLLRFLFSGKPMSKPAKTPASAS	PGPT0013335_334	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013335-mdoC|glucans_biosynthesis_protein_C_EC_2_1_X_X-K11941	NA	NA
BMS020_02443	1566	mdoG	COG3131	Glucans biosynthesis protein G	GTGCTTACTTATATGAAACATAAACCACAGATGATGAAAATGCGTTGGTTAAGCGCAGCCGTAATGTTGTCCCTGTGTACTTCATCTGCATGGGCATTTAGCATTGATGACGTTGCAAAAGAGGCCAAAACGTTAGCCGGGAAAGGCTATGAAGCGCCAAAGAGTAACCTGCCCTCCGCTTTCCGCGACATGAAATACGCGGACTACCAGCAAATTCAGTTTAATCACGATAAAGCTTACTGGAATAACCAGAAAACCCCATTCAAGCTTGAATTTTACCATCAGGGTATGTACTTCGACACGCCGGTCACCATCAATGAAGTGACGGCCACCAGCGTGCGCAAAATTAAATATAGCCCGGACTATTTTAACTTTGGTAACGTTCAGCACGATAAAGACACGGTGAAAGACCTTGGTTTCGCCGGCTTCAAAGTACTGTATCCGATCAACAGCAAAGATAAGAACGATGAAATCGTCAGCATGCTCGGTGCCAGCTACTTCCGCGTGCTGGGTCAGGGTCAGGTATACGGTCTGTCCGCGCGCGGTCTGGCTATCGATACCGCGCTGCCTTCCGGCGAAGAGTTCCCGCGTTTTCGTGAGTTCTGGATTGAGCGTCCAAAAGCTACCGACAAGCGTCTGACTATCTATGCGCTGCTGGATTCGCCGCGGGCAACCGGCGCTTATCGCTTTGTGATCATGCCGGGACGCGATACCGTGGTGGATGTCCAGTCCAAAGTTTACCTGCGTGACAAAGTGGGCAAACTGGGCGTGGCGCCGCTCACCAGTATGTTCCTGTTTGGTTCCAACCAGCCTTCTCCGGCGCTGAACTATCGTCCGGCGCTGCACGACTCCAATGGTCTGTCGATCCTGGCGGGCAACGGCGAGTGGATCTGGCGTCCGCTGAACAACCCGAAACACCTGGCCGTTAGCAGCTATGCGATGGAAAACCCGCAAGGGTTCGGCCTGCTGCAGCGCGGCCGTCAGTTCTCGCGCTTCGAGGACCTTGACGATCGTTATGACCTGCGCCCGAGCGCCTGGATCACCCCGAAAGGGGAGTGGGGCAAAGGGAAAATCGAACTGGTCGAAATCCCGACCAACGATGAAACCAACGATAACATCGTGACTTACTGGACGCCGGATCAGCTGCCGGAGCCGGGCAAGGAGATGAACTTCAAGTACACCATCACCTTCAGCCGCGATGAAGACAAGCTGCATGCGCCGGATAACGCGTACGTTATGCAGACCCGCCGCTCTACCGGCGATGTGAAGCAGTCGAACCTGATCCGCCAGCCGGACGGCACCATTGCTTTCATTGTCGACTTCACCGGCGCCGATATGAAAAAACTGCCAGCGGATACCCCGGTCGCCGCCCAGGCGAGCACCGGCGATAACGCTGAAATCGTTGAAAATACCGTGCGTTACAACCCGGTGACCAAAGGCTGGCGAATGATCCTGCGTTTGAAGGTGAAAGATCCGAAGAAAACGACGGAAATGCGCGCCGCACTGGTTAACGGCGATGACACGTTGAGCGAAACCTGGAGCTATCAGCTGCCTGCCAATGAATAA	MLTYMKHKPQMMKMRWLSAAVMLSLCTSSAWAFSIDDVAKEAKTLAGKGYEAPKSNLPSAFRDMKYADYQQIQFNHDKAYWNNQKTPFKLEFYHQGMYFDTPVTINEVTATSVRKIKYSPDYFNFGNVQHDKDTVKDLGFAGFKVLYPINSKDKNDEIVSMLGASYFRVLGQGQVYGLSARGLAIDTALPSGEEFPRFREFWIERPKATDKRLTIYALLDSPRATGAYRFVIMPGRDTVVDVQSKVYLRDKVGKLGVAPLTSMFLFGSNQPSPALNYRPALHDSNGLSILAGNGEWIWRPLNNPKHLAVSSYAMENPQGFGLLQRGRQFSRFEDLDDRYDLRPSAWITPKGEWGKGKIELVEIPTNDETNDNIVTYWTPDQLPEPGKEMNFKYTITFSRDEDKLHAPDNAYVMQTRRSTGDVKQSNLIRQPDGTIAFIVDFTGADMKKLPADTPVAAQASTGDNAEIVENTVRYNPVTKGWRMILRLKVKDPKKTTEMRAALVNGDDTLSETWSYQLPANE	PGPT0013325_687	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0013325-mdoG-K03670	NA	NA
BMS020_02444	2529	mdoH	COG2943	Glucans biosynthesis glucosyltransferase H	ATGAATAAGATAACGAAGTACATTGACGCATTGCCGCTGTCGGACGCCGAGAAATCGGCGCTGCCGGACACCAGCCTGCAGGCCGTTCATCAGGCCCTGGATGACGAACATCAGACCTTCGCCCGCGAAGACGACTCCCCGCTGGGGTCGGTCAAGGCGCGGCTGGCGCACAGCTGGCCGGATTCGCTGTCTGGCGATCAGCTGGTGAAGGATGATGAAGGCCGCACCCAGCTGCATGCGATGCCGAAAGCCAAGCGCTCCTCGATGATCCCGGACCCGTGGCGTACCAACCCGGTTGGCCGCTTCTGGGACCGCCTGCGCGGACGCGATGTCACGCCGCGCTATCTCTCCCGCCTGACGCAAGAAGAACGCGAGAGCGAGCAAAAATGGCGTACCGTCGGCACCATTCGTCGCTACATCCTGTTGCTGCTGACGCTGTCGCAGACCGTGGTGGCGACCTGGTACATGAAAACCATTCTGCCTTATCAGGGCTGGGCGCTGATCAACCCGGCCGACATGGTGGGGCAGAACCTGTGGGTCTCGTTCATGCAGCTGCTGCCGTACGTGTTGCAGAGCGGCATTCTGATCCTCTTCGCGGTGCTGTTCTGCTGGGTTTCCGCCGGCTTCTGGACCGCGTTAATGGGCTTCCTGCAGCTGTTGATCGGCCGCGATAAGTACAGTATTTCCGCCTCGACGGTCGGTGACGAACCGTTGAACCCGGCGCACCGTACGGCGCTTATTATGCCGATCTGTAACGAAGACGTTGACCGCGTGTTCGCCGGGCTGCGGGCGACCTGGGAGTCGGTGAAAGCCACCGGCAACGCCGCCCATTTCGACGTCTATATCCTCAGCGACAGCTATAACCCCGATATCTGTGTCGCTGAGCAAAAGGCGTGGATGGAGCTGATTGCCGAAGTACAGGGCGAAGGGCAGATCTTCTACCGTCGTCGTCGTCGTCGCGTGAAGCGTAAGAGCGGCAACATCGATGATTTCTGCCGCCGCTGGGGCAGCCAGTATAGCTACATGGTGGTGCTGGATGCTGACTCGGTGATGACCGGAGAGTGTCTGAGCAGCCTGGTGCGCCTGATGGAAGCGAACCCGAACGCCGGGATCATCCAGTCATCCCCGCGCGCCTCGGGCATGGACACGCTGTATGCGCGTTGCCAGCAGTTTGCCACCCGGGTGTATGGTCCGTTGTTTACGGCGGGTCTGCACTTCTGGCAGCTGGGGGAGTCCCACTACTGGGGACACAACGCCATTATCCGCGTGAAGCCGTTCATTGAGCACTGCGCGCTGGCGCCGCTGCCGGGCGAGGGCAACTTTGCCGGGTCGATTCTGTCGCACGACTTCGTTGAAGCCGCGCTGATGCGCCGCGCCGGCTGGGGCGTGTGGATTGCCTACGATCTGCCGGGCTCCTATGAAGAGCTGCCGCCGAACCTGCTGGACGAGCTGAAACGCGACCGCCGCTGGTGCCAGGGCAACCTGATGAACTTCCGCCTGTTCCTCGTGAGAGGGATGCACCCGGTTCACCGGGCGGTGTTCCTTACCGGCGTGATGTCCTACCTGTCGGCGCCGCTGTGGTTTATGTTCCTTGCTCTGTCGACAGCGCTGCAGGTGGTGCATGCCCTGACCGAGCCGCAGTACTTCCTGCAGCCGCGTCAGCTGTTCCCGGTGTGGCCGCAGTGGCGTCCGGAGCTGGCTATTGCGCTGTTCGCCTCGACCATGGTGCTGCTGTTCCTGCCGAAGCTGCTGAGTATCATCCTGGTGTGGTGTAAGGGGCCGAAGGAGTACGGTGGATTTATCCGCGTGACGCTTTCCCTGCTGCTGGAGGTCCTGTTCTCGGTCCTGCTGGCGCCGGTGCGCATGCTGTTCCACACCGTCTTCGTGGTCAGCGCCTTCCTCGGCTGGGAAGTGGTGTGGAATTCGCCGCAGCGTGATGATGACTCCACGCCGTGGGGAGAAGCCTTTATGCGTCACGGCTCGCAGCTGCTGCTGGGGCTGGTATGGGCGGTCGGAATGGCATGGCTGGATCTGCGCTTCCTGTTCTGGCTGGCGCCGATTGTCGTATCGCTGATCCTGTCGCCGTTCGTGTCGGCGATCTCCAGCCGGGCGACCGTGGGCCTGCGCACCAAGCGCTGGAAGCTGTTCCTGATCCCGGAAGAGTATTCGCCGCCGCAGGTGCTCAAGGATACCGATGCGTACCTGACGCTGAACCGTCAGCGTTCGCTGGACGATGGCTTTATGCACGCGGTGTTTAACCCGTCGTTTAACGCCCTCGCGACCGCGATGGCCACCGCGCGCCACCGTCAGGGTCATATCCTGGAGATCGCCCGCGAGCGCCATGTCGAGCAGGCGCTGAATGAAACGCCGGATAAGCTGAACCGCGATCGTCGACTGGTGCTGTTGAGCGACCCGGTAACCATGTCGCGTCTGCACTATCGCGTATGGGCCGCGCCGGAGAAATACTCTTCGTGGGTGAACGCCTATCAGCAGCTGGCGCTTAACCCGCTGGCGCTGAAAACGAAATAA	MNKITKYIDALPLSDAEKSALPDTSLQAVHQALDDEHQTFAREDDSPLGSVKARLAHSWPDSLSGDQLVKDDEGRTQLHAMPKAKRSSMIPDPWRTNPVGRFWDRLRGRDVTPRYLSRLTQEERESEQKWRTVGTIRRYILLLLTLSQTVVATWYMKTILPYQGWALINPADMVGQNLWVSFMQLLPYVLQSGILILFAVLFCWVSAGFWTALMGFLQLLIGRDKYSISASTVGDEPLNPAHRTALIMPICNEDVDRVFAGLRATWESVKATGNAAHFDVYILSDSYNPDICVAEQKAWMELIAEVQGEGQIFYRRRRRRVKRKSGNIDDFCRRWGSQYSYMVVLDADSVMTGECLSSLVRLMEANPNAGIIQSSPRASGMDTLYARCQQFATRVYGPLFTAGLHFWQLGESHYWGHNAIIRVKPFIEHCALAPLPGEGNFAGSILSHDFVEAALMRRAGWGVWIAYDLPGSYEELPPNLLDELKRDRRWCQGNLMNFRLFLVRGMHPVHRAVFLTGVMSYLSAPLWFMFLALSTALQVVHALTEPQYFLQPRQLFPVWPQWRPELAIALFASTMVLLFLPKLLSIILVWCKGPKEYGGFIRVTLSLLLEVLFSVLLAPVRMLFHTVFVVSAFLGWEVVWNSPQRDDDSTPWGEAFMRHGSQLLLGLVWAVGMAWLDLRFLFWLAPIVVSLILSPFVSAISSRATVGLRTKRWKLFLIPEEYSPPQVLKDTDAYLTLNRQRSLDDGFMHAVFNPSFNALATAMATARHRQGHILEIARERHVEQALNETPDKLNRDRRLVLLSDPVTMSRLHYRVWAAPEKYSSWVNAYQQLALNPLALKTK	PGPT0013320_298	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013320-mdoH-K03669	NA	NA
BMS020_02445	228			hypothetical protein	ATGCGAATACTACCTATCATTGCCATGGCGCTGCTGCTTAGCGGCTGCGGCAGCATTATTAGCCGGACGGTGCCCGGGCAGGGGCATGGCAATCAATATTACCCGGGCGTGCAGTGGGACGTTCGCGATTCAGGATGGCGCTATCTCACCATTCTGGACCTGCCGTTCTCGCTGGTTTTCGATACGCTGCTGCTGCCGCTGGACGCCAGCCACGGGCCCTATAACTGA	MRILPIIAMALLLSGCGSIISRTVPGQGHGNQYYPGVQWDVRDSGWRYLTILDLPFSLVFDTLLLPLDASHGPYN				NA	NA	NA	NA	NA
BMS020_02446	387			hypothetical protein	ATGCCAAAGGATTCGATGTTCTATGCCACGCTCGAAGAAGCTATTGATGCAGCACGTGAAGAATTTCTCGCCAACAACCCTGACAGCGATGAAGAGAGCGCTAACGTTGAGCAGCTCAATATTCAAAAGTATGTGCTGCAGGATGGCGATATCGCCTGGCAGGCCGAATTTTTTGCTGACGAAGAGGAACAAGGCGAATGCTTACCGATGCTCAGCGGCGAAGCCGCGCAGAGCGTCTTCGATGGGGATTATGATGAGATAGAGCTGCGTCAGGAGTGGCTGGAGGAAAATACGCTTCATGAGTGGGATGAAGGTGAATTCCAGCTCGAGCCCTCGCTGGACACCGAAGAGGGACAGACGGCGGCCGACGAGTGGGACGAGCGTTAA	MPKDSMFYATLEEAIDAAREEFLANNPDSDEESANVEQLNIQKYVLQDGDIAWQAEFFADEEEQGECLPMLSGEAAQSVFDGDYDEIELRQEWLEENTLHEWDEGEFQLEPSLDTEEGQTAADEWDER	PGPT0013340_45	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013340-msyB-K12147	NA	NA
BMS020_02447	1239	sbnD_1		Staphyloferrin B transporter	ATGTCGTCTGCTGATACCCCCATTAACTGGAAACGAAACCTGACCGTCACCTGGCTTGGCTGCTTTTTAACCGGCGCCGCCTTCAGCCTGGTCATGCCCTTTCTGCCGCTCTACGTCGAACAACTCGGCGTCACCGGGCATAGCGCTCTCAACATGTGGTCCGGGCTGGTCTTTAGCATCACTTTTCTCTTCTCCGCCATCGCCTCGCCGTTCTGGGGCGGACTTGCTGACCGCAAGGGACGTAAAATCATGCTGCTGCGTTCAGCCCTCGGGATGGCCATCGTCATGATGTTGATGGGGATGGCGCAGAATATCTGGCAGTTTCTGCTACTGCGCGCGCTGCTCGGCCTGCTGGGGGGCTTTATTCCCAATGCCAACGCCCTGATTGCCACCCAGATCCCGCGCCATAAAAGCGGCTGGGCGCTGGGCACGCTGTCAACCGGCGCGGTAAGCGGCGCCCTGCTCGGCCCGCTGGCGGGTGGCTTCCTGGCCGACCACTGGGGCCTGCGTACTGTCTTCTTTATGACCGCGGCGGTGCTGTTTATCTGCTTCCTGTTTACCCTGTTTTTAATCCGTGAAAATTTTGTTCCGATCGCCAAAAAAGAGATGCTCAGCGCGAAGGCGGTGTTCTCCTCGCTGCAGAATCCGAAACTGGTGCTCAGCCTGTTTGTCACCTCGCTGATCATCCAGGTCGCCACCGGCTCCATTGCGCCGATCCTGACGCTTTACGTGCGCGATCTGGCGGGTAACGTCAGCAATATCGCCTTTATCAGCGGGATGATCGCCTCGGTGCCGGGCATTGCCGCCCTGATGAGCGCCCCTCGTCTGGGCAAACTGGGGGATCGTATCGGACCGGAAAAAATCCTCATCGTGGCGCTGATTATCTCGGTGCTGTTGCTGATCCCGATGTCGTTCGTCCAGACCCCGCTGCAGTTAGGTATCCTGCGATTCCTGCTCGGCGCCGCGGACGGCGCGCTGCTGCCGGCGGTGCAAACCCTGCTGGTGTATAACTCCACCAGCCAGATCTCCGGGCGGATCTTCAGCTATAACCAGTCATTTCGTGATATTGGCAACGTCACCGGCCCCCTGATCGGCGCCTCGGTTTCCGCCAACTACGGCTTTCGCGCCGTCTTCCTTGTCACCGCAGGAGTGGTGTTGTTTAACGCGATCTATTCGACCCTCAGCCTGCGCCGGCCAGCCGCGGACGCCTCGCAGCCCGACCGCCATTCAGTAAATTAA	MSSADTPINWKRNLTVTWLGCFLTGAAFSLVMPFLPLYVEQLGVTGHSALNMWSGLVFSITFLFSAIASPFWGGLADRKGRKIMLLRSALGMAIVMMLMGMAQNIWQFLLLRALLGLLGGFIPNANALIATQIPRHKSGWALGTLSTGAVSGALLGPLAGGFLADHWGLRTVFFMTAAVLFICFLFTLFLIRENFVPIAKKEMLSAKAVFSSLQNPKLVLSLFVTSLIIQVATGSIAPILTLYVRDLAGNVSNIAFISGMIASVPGIAALMSAPRLGKLGDRIGPEKILIVALIISVLLLIPMSFVQTPLQLGILRFLLGAADGALLPAVQTLLVYNSTSQISGRIFSYNQSFRDIGNVTGPLIGASVSANYGFRAVFLVTAGVVLFNAIYSTLSLRRPAADASQPDRHSVN	PGPT0029185_211	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
BMS020_02448	921	lpxL_1	COG1560	Lipid A biosynthesis lauroyltransferase	ATGACTCATTTGCCTAAATTTTCTCCGGCGCTGCTGCATCCGCGCTATTGGCTGCTGTGGCTGGGTATCGGCCTGCTGTGGCTGGTTGTCCAACTGCCCTACCCGCTGATCTACCGCCTCGGGAACGCCATCGGCCGGCTGGCCATGCGATTTATGAAGCGCCGGGCGAAGATCGCCTATCGCAACCTTGAGCTCTGCTTCCCCGAGAAAAGCGAGCAGGAACGTCACCGGATGGTGGTGATGAACTTTGAATCGGTGGGGATGGGGCTGATGGAGACCGGTATGGCCTGGTTCTGGCCGGTTCGCCGTATCGCCCGCTGGACCGACACCATCGGCTTTGAGCATATTCGCGATGTGCAGGCGCAGCAGCGCGGCATTCTGCTGATCGGCATTCATTTCCTGACACTGGAAATGGGCGCGCGGATGTTCGGTATGAACGAGCCGGGGATTGGCGTCTATCGTCCCAACGATAACCCGGTCATCGACTGGCTGCAGACCTGGGGCCGACTGCGCTCCAACAAGGACATGATCGACCGCAAGGATCTGAAAGGCATGATCCGCGCGCTGAAAAAAGGCGACGTGGTGTGGTACGCGCCAGATCATGATTACGGCCCGACCGCCAGCGTCTTCGCCCCACTGTTTGCCGTAGACCAGGCGGCGACCACCTCCGGCACCTGGATGCTGGCGAAAATGTCCAAAGCCTGCATCGTGCCCTTTGTTCCACGCCGTAAACCGGACGGTAAAGGTTATGAACTGATTATCCTGCCGCCAGAGTGCTCCCCGCCGCTGGACGATGCGGAAACCACCGCTGCGTGGATGAATAAGATCGTAGAGCAGTGCATTATGATGGCCCCGGAACAATATATGTGGCTCCATCGCCGCTTTAAAACCCGCCCCGAGGGGATGCCCTCCCGCTACTGA	MTHLPKFSPALLHPRYWLLWLGIGLLWLVVQLPYPLIYRLGNAIGRLAMRFMKRRAKIAYRNLELCFPEKSEQERHRMVVMNFESVGMGLMETGMAWFWPVRRIARWTDTIGFEHIRDVQAQQRGILLIGIHFLTLEMGARMFGMNEPGIGVYRPNDNPVIDWLQTWGRLRSNKDMIDRKDLKGMIRALKKGDVVWYAPDHDYGPTASVFAPLFAVDQAATTSGTWMLAKMSKACIVPFVPRRKPDGKGYELIILPPECSPPLDDAETTAAWMNKIVEQCIMMAPEQYMWLHRRFKTRPEGMPSRY	PGPT0013315_1502	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0013315-lpxL|htrB-K02517	NA	NA
BMS020_02449	1065			hypothetical protein	ATGCCAGTGTTACACAACCGCATTTCAAATGAGACGTTAAAGGCGCAAATGCTGGCTGAAACCGAGCCGCGCACGACGATCTCATTCTATAAATATTTCACCATTGTCGATCCGCAAGCGACCCGCGATGCGCTGTGGGTTGCCTTAACCCAGTTGAAAGTCTTTGGCCGCATCTATCTGGCCCGGGAAGGGATCAACGCGCAAATCAGCGTGCCGGAAAGCAACGTTGAAGCCCTGCGTGAGTTTCTCAATGGCTTCGATCCGGCGCTGGCGGGGCTGCGTTTCAATATCGCTCTCGAGGACGACGGTAAATCGTTCTGGGTGCTACGTCTGAAAGTGCGCGACCGCATCGTTGCCGACGGCATCGACGATCCCTCTTTCGACGCCTCCAACGTCGGAGACTATCTCAAGGCGGCGGAGGTCAACGCGATGCTTGACGATCCGGATGCCGTGTTTATCGATATGCGCAACCACTATGAATATGAGGTGGGCCATTTCGAAAACGCGCTGGAGATCCCAGCGGATACCTTCCGCGACCAGTTGCCGAAAGCCGTTGAAATGATGCAGGACCATAAAGACAAGAAAATTGTCATGTATTGCACCGGTGGTATTCGCTGTGAAAAAGCCAGCGCCTGGATGAAGCATAACGGCTTCAATAAGGTCTGGCACATCGAGGGTGGCATCATTGAGTACGCCCGCCGCGCCCGTGAGCAGGGGCTGCCGGTGCGTTTCATTGGCAAAAACTTTGTCTTTGATGAACGGATGGGCGAGCGGATCTCCAATGACGTTATCGCGCACTGTCATCAGTGCGGCGCGCCGTGCGACACCCATACCAACTGCCTGAATGATGGCTGCCATCTGTTGTTTATCCAGTGCCCGAGCTGTGCCGAGAAGTTTGCCGGCTGCTGTAGCGAAGCCTGCATGGAAGAGCATAAGCTGCCGGAAGAGGAGCAGCGTCAGCTGCGCGCCGGGCGTGAAAACGGCAATAAAATCTTTAATAAATCCCGTGGCCGGCTGAATACCAAACTCGGGATCCTCGATCCTGAGCCGTCAGAAAAACCATAA	MPVLHNRISNETLKAQMLAETEPRTTISFYKYFTIVDPQATRDALWVALTQLKVFGRIYLAREGINAQISVPESNVEALREFLNGFDPALAGLRFNIALEDDGKSFWVLRLKVRDRIVADGIDDPSFDASNVGDYLKAAEVNAMLDDPDAVFIDMRNHYEYEVGHFENALEIPADTFRDQLPKAVEMMQDHKDKKIVMYCTGGIRCEKASAWMKHNGFNKVWHIEGGIIEYARRAREQGLPVRFIGKNFVFDERMGERISNDVIAHCHQCGAPCDTHTNCLNDGCHLLFIQCPSCAEKFAGCCSEACMEEHKLPEEEQRQLRAGRENGNKIFNKSRGRLNTKLGILDPEPSEKP	PGPT0013330_176	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013330-UPF0176_protein-K07146	NA	NA
BMS020_02450	114	yceO		putative protein YceO	ATGCGTCGCCTGTTTAATTTGCTGGTCAATAACGTCCGCGAGCACTTTATGATCTACCTGGCGCTCTGGCTGCTGCTGGCGATCATCGATCTTGTCTGGTTATGGTTTTTCTGA	MRRLFNLLVNNVREHFMIYLALWLLLAIIDLVWLWFF				NA	NA	NA	NA	NA
BMS020_02451	1119	solA	COG0665	N-methyl-L-tryptophan oxidase	ATGCAATACGATCTTATCATTATCGGCAGCGGCTCCGTCGGCGCCGCCGCTGGCTATTATGCGCGTCGTGCCGGACTCAATGTTCTGATGACCGATGCCCATCAGCCTCCTCACCAGGAAGGCAGCCATCACGGCAGCAGCCGTCTTATCCGTCACGCCTATGGCGAAGGTGAAAAATATGTTCCGCTGGTGCTGCGAGCCCAGCAGCTGTGGGATGAACTGGCCGAGATCAGTGGCGAAGCCGTGTTTGAACGCACCGGCGTCATAAACCTCGGCCCCGCCAGCTCCCCTTTCCTCGCCAACGTTGCTGCCAGCGCCCGTGCGTTCCAGCTTGAGGTGGAAGAGCTGGATGCCCAGGCCGTGATGCAGCGCTGGCCGGAGATACGCCTCCCCGATGACTATCGGGCGATTTTTGAACCCGCTTCCGGCGTACTGCGCAGCGAACTGGCTGTGGAAACCTGGATCCGTCTGGCGCGGGAAGCAGGCTGCGCGCAGCTATTCAACTGCCCGGTCTCGGCTATTCATCACCATGCAGATGGGGTCACCATCGATACCCTCGACGGTGAATATCATGGTAAAAAGCTGCTGGTCAGCGCCGGGACCTGGGTCACCCGCCTGCTTCCGGACCTCCCCATCCAGCCGGTACGCAAGGTGTTCGCCTGGTACCAGGCCGATGGCCGTTACAGCAGCAAGAATCACTTCCCGGCCTTCACCGGCGAGTTGCCCAACGGCGATCAATACTACGGTTTCCCGGCGGAAGATAACGAGCTGAAGATTGGCAAGCATAACGGCGGTCAGCCGATCTCCATGCCGCAGGAGCGAGTGGCGTTTGGCGCTGTCGCCAGCGATGGCTCCGAATCGTTTCCGTTTTTGCGTAACGTCCTGCCCGGGATCGGCGGCTGTCTGCACGGCGCCTCCTGTACCTACGATAATACCGTCGATGAAGACTTTATTATCGATACGTTACCCGGCAGACCAGACACGCTGCTTATCACCGGTCTGAGCGGGCACGGCTTTAAGTTTGCCCCGGTGCTGGGGGAAATTGCCAGTCAGTTTGCTCAGGGCGAAGCTTCGAGCTTCAACCTGGCGCCCTTCTCGCTGGCGCGCTTTAACGCGTAA	MQYDLIIIGSGSVGAAAGYYARRAGLNVLMTDAHQPPHQEGSHHGSSRLIRHAYGEGEKYVPLVLRAQQLWDELAEISGEAVFERTGVINLGPASSPFLANVAASARAFQLEVEELDAQAVMQRWPEIRLPDDYRAIFEPASGVLRSELAVETWIRLAREAGCAQLFNCPVSAIHHHADGVTIDTLDGEYHGKKLLVSAGTWVTRLLPDLPIQPVRKVFAWYQADGRYSSKNHFPAFTGELPNGDQYYGFPAEDNELKIGKHNGGQPISMPQERVAFGAVASDGSESFPFLRNVLPGIGGCLHGASCTYDNTVDEDFIIDTLPGRPDTLLITGLSGHGFKFAPVLGEIASQFAQGEASSFNLAPFSLARFNA	PGPT0007125_159	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0007125-solA-K02846	NA	NA
BMS020_02452	255	bssS		Biofilm regulator BssS	ATGGAAAAAAATAATGAAGTCATTCAGACCCATCCCCTCGTCGGATGGGACATCAGCACCGTTGATAGCTACGATGCGCTGATGTTGCGCCTGCACTACCAGAACCCCGCTCAAGAAAACAGTCATGATGCTGAGATAGGCCAGACGCTATGGCTAACGACGGACGTCGCACGTCAGTTTATTTCAATCCTGGAAGCAGGCATTGCGAAAATTGAATCTGGCGAATACCAGGAAAACGAGTACCGCAGACATTAA	MEKNNEVIQTHPLVGWDISTVDSYDALMLRLHYQNPAQENSHDAEIGQTLWLTTDVARQFISILEAGIAKIESGEYQENEYRRH	PGPT0026270_124	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0026270-bssS-K12148	NA	NA
BMS020_02453	252	dinI		DNA damage-inducible protein I	ATGCGCATTGAAGTCTCTATCGCCAAAACGACCGCCTTACCCAACGGCGCGCTGGAAGCGCTGAATAACGAACTCTCTCGCCGTATCGCCGAACAGTTCCCGGCCATCGACAGCCAGGTGAGCGTCCGCTACGCCACGGGCAATCAGCTCTCGGTGTTCGGCGGCCTGAAAGAAGATAAAGACCGGATAAGCGAAATCCTGCAAGAAACCTGGGAAAGCGCGGACGACTGGTTTGTCCACGACCTCTCCTGA	MRIEVSIAKTTALPNGALEALNNELSRRIAEQFPAIDSQVSVRYATGNQLSVFGGLKEDKDRISEILQETWESADDWFVHDLS				NA	NA	NA	NA	NA
BMS020_02454	1047	pyrC_1	COG0418	Dihydroorotase	ATGACAGCACAATCCCAGGTATTGAAAATCCGCCGCCCAGACGACTGGCATATCCATCTGCGTGATGACGATATGCTGAAAACCGTCGTGCCTTATACCAGTGAGTTTTATGGCCGGGCGATCGTGATGCCGAATCTGGTGCCGCCTGTCACCACCGTCGCGGCGGCTATCGCCTATCGCCAGCGCATTATGGACGCCGTCCCGGCCGGGCACGATTTTACCCCGCTGATGACCTGCTATCTGACAGACTCCCTCGACCCGGCGGAGCTGGAGCGCGGCTTTAACGAAGGCGTGTTCACCGCCGCCAAGCTTTACCCGGCCAATGCCACCACCAACTCCAGCCACGGCGTCACCAGCACCGACGCCATTATGCCGGTGCTGGAGCGGATGGAAAAACTGGGGATGCCCCTGCTGGTACATGGCGAAGTCACCCACGCCGAGATTGATATTTTCGACCGCGAAGCGCGCTTTATTGAAACCGTGATGGAGCCGCTGCGCCAGCGCCTGCCCGGCCTGAAGGTGGTCTTTGAGCATATCACCACCAAAGATGCCGCCGAGTATGTGCGTGACGGCAATGAACTGCTGGCGGCCACTATCACCCCGCAGCATCTGATGTTCAACCGTAACCATATGCTGGTCGGCGGTATTCGTCCTCACTTGTACTGCCTGCCGATACTCAAACGCAATATTCATCAGCAGGCACTGCGCGAACTGGTCGCCAGCGGCTTTAGCCGCGTCTTCCTTGGCACCGATTCCGCGCCGCACGCCCGCCATCGTAAGGAAGCCAGCTGCGGCTGCGCCGGCTGCTTCAACGCCCCGACCGCCCTCGGCAGCTACGCCACCGTGTTTGAAGAAATGAACGCTCTGCAGCACTTTGAGGCCTTCTGCTCGCTGAACGGCCCGCGCTTTTACGGTCTGCCGGTCAATGAAAGCTATGTTGAACTGGTGCGTGAAGAGACGACCGTCGTCGACAGTATTGCGTTGCCCAATGACACCCTGGTGCCGTTCCTGGCAGGTGAAACCGTCCGCTGGACCATGAAGCGATAA	MTAQSQVLKIRRPDDWHIHLRDDDMLKTVVPYTSEFYGRAIVMPNLVPPVTTVAAAIAYRQRIMDAVPAGHDFTPLMTCYLTDSLDPAELERGFNEGVFTAAKLYPANATTNSSHGVTSTDAIMPVLERMEKLGMPLLVHGEVTHAEIDIFDREARFIETVMEPLRQRLPGLKVVFEHITTKDAAEYVRDGNELLAATITPQHLMFNRNHMLVGGIRPHLYCLPILKRNIHQQALRELVASGFSRVFLGTDSAPHARHRKEASCGCAGCFNAPTALGSYATVFEEMNALQHFEAFCSLNGPRFYGLPVNESYVELVREETTVVDSIALPNDTLVPFLAGETVRWTMKR	PGPT0021145_6553	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465	NA	NA
BMS020_02455	561	yceB		putative lipoprotein YceB	ATGAAAAAGATTTTGATCGCCGCCGCGCTGATTGTCAGCGGCCTGCTGAGCGGCTGTAATCAGCTGACCCAATACACAGTAAGCGAGCAGGAGATTAACCAGGCCCTGCAGAAGCGAAACCATTTTGCCAAAGATATTGGTCTGAAAGGCGTTGCCGACGCCCATATCGAACTGCAGAACCTCACCAGCGCCATCGGGCGCGAGGAGCCGGGCAAAGTCACGCTGACCGGGATCGCTAATGTCGACCTGAACTCCCTGTTCGGCACGCAGAAAGCGACGATCGATCTGAAGCTCAAAGCGCTGCCAACCTTTGACAGAGAGAAAGGCGCCATCTTCCTGCAGGAAATGGAGGTGGTGGATGCCAAAGTGGCGCCCGAGAAACTGCAGTCGGTCATTCAGGCCCTGCTCCCCTATCTGAATCAGTCGCTGCGCAGTTACTTCAGCCAGCAGCCTGCCTATGTCCTGCGTGAGGACGCCAGCACCGGTGAAGCGCTGGCGAAGAAATACGCCAAAGGCATAGAGGTGAAGCCGGGCGAGATTGTCATCCCCTTTACCAATTAA	MKKILIAAALIVSGLLSGCNQLTQYTVSEQEINQALQKRNHFAKDIGLKGVADAHIELQNLTSAIGREEPGKVTLTGIANVDLNSLFGTQKATIDLKLKALPTFDREKGAIFLQEMEVVDAKVAPEKLQSVIQALLPYLNQSLRSYFSQQPAYVLREDASTGEALAKKYAKGIEVKPGEIVIPFTN				NA	NA	NA	NA	NA
BMS020_02456	1209	mdtH_2		Multidrug resistance protein MdtH	ATGTCCCGCGTCTCGCAGGCAAGGAGCCTGGGTAAATATTTCCTGTTAGTCGATAACATGCTGGTCGTGTTGGGCTTTTTTGTCGTCTTCCCGCTGATTTCCATCCGCTTTGTCGATCAGATGGGCTGGGCGGCGCTGATGGTCGGCATCGCGCTCGGCCTGCGCCAGTTGGTGCAGCAGGGATTAGGTATCTTTGGCGGCGCTATCGCCGACCGCTTCGGCGCCAAACCGATGATCGTCACCGGTATGCTGATGCGCGCCGGCGGCTTCGCGGCGATGGCCGTCGCCCATGAGCCGTGGGTGCTGTGGTTCTCGTGCATACTTTCCGGGCTCGGCGGCACGCTGTTCGATCCGCCGCGGGCGGCGCTGGTGGTTAAGCTGGTGCGCCCGCATCAGCGCGGCCGCTTTTTCTCCATCCTGATGATGCAGGATAGCGCCGGCGCGGTGATTGGCGCGCTGCTGGGCAGCTGGCTGCTGCAGTATGATTTCCGCCTGGTGTGCAGCGCCGGCGCCGCGCTGTTTATCGCCTGCGCGGCATTTAACGCCTGGTATCTGCCGGCATGGAAGCTCTCGACGGTGAAAACGCCGATCCGCGAGGGGCTGGGCCGGGTGCTGCGGGACAAGCGCTTCGTCACCTATGTCCTGACGCTGACGGGCTATTACATGCTGGCGGTGCAGGTGATGCTGATGCTGCCGATCATGGTGAATGACATCGCCGGCTCGCCGGCCGCCGTGAAGTGGATGTACGCCATCGAAGCCACCATTTCGCTGACCCTGCTCTATCCCATTGCCCGCTGGAGCGAAAAACGTTTTCGCCTTGAGCACCGGCTGATGGCCGGTCTGCTGGTGATGACTCTGGCCATGCTCCCCATCGGCATGACCAGCAGTTTGCAACAGCTGTTTACCCTGATCTGCCTGTTTTACATCGGCTCCATCATTGCCGAACCCGCCCGGGAGACGCTGGGCGCCTCGTTGGCGGACGCCCGGGCGCGCGGCAGCTATATGGGCTTCAGCCGCCTGGGGCTCGCCTTTGGCGGCGCGCTGGGATATGCGGGCGGCGGCTGGCTGTTCGATGCCGGTAAGGCCGCGGGTCAGCCCGAGCTGCCGTGGCTGATGCTCGGGGCCATCGGGGTTATCACCTTCCTGGCGCTGTGGTGGCAGTTTAGTCCGAAACGCTCTGCCTCCGGCATGCTGGAGCCGCGGACCTGA	MSRVSQARSLGKYFLLVDNMLVVLGFFVVFPLISIRFVDQMGWAALMVGIALGLRQLVQQGLGIFGGAIADRFGAKPMIVTGMLMRAGGFAAMAVAHEPWVLWFSCILSGLGGTLFDPPRAALVVKLVRPHQRGRFFSILMMQDSAGAVIGALLGSWLLQYDFRLVCSAGAALFIACAAFNAWYLPAWKLSTVKTPIREGLGRVLRDKRFVTYVLTLTGYYMLAVQVMLMLPIMVNDIAGSPAAVKWMYAIEATISLTLLYPIARWSEKRFRLEHRLMAGLLVMTLAMLPIGMTSSLQQLFTLICLFYIGSIIAEPARETLGASLADARARGSYMGFSRLGLAFGGALGYAGGGWLFDAGKAAGQPELPWLMLGAIGVITFLALWWQFSPKRSASGMLEPRT	PGPT0029190_142	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029190-mdtH-K08162	NA	NA
BMS020_02457	669	rimJ	COG1670	[Ribosomal protein S5]-alanine N-acetyltransferase	ATGGTATGTTGCTGTTTTCACACCGTCGCGCAGGACAGGTATAGTGAAGGCAGCAAGAATGAAGTCAGGGGGACTGAAAAGGAAATGTTTGGCTATCGCAGTAACGTGCCGAAGGTGCGTTTGACGACGGACCGGCTGGTGGTGCGCCTGGTTCACGATCGTGACGCCTGGCGTCTGGCCGATTATTACGCCGAGAATAAGGCGTTCTTAAAACCCTGGGAGCCGGTTCGTGACGACAGCCACTGCTATCCTTCCGGATGGCAGGCGCGTCTGTCGATGATCGCCGAGTTTCATAAACAGGGGTCTGCTTTTTATTTCGCGCTGCTCGATCCGGAGGAAAAGGAGATCGTCGGCGTGGCGAACTTTTCCAACGTGGTGCGTGGATCATTCCATGCCTGCTATCTCGGCTACTCTATTGGCGAGAAGTGGCAGGGGCAGGGGCTGATGTTTGAAGCGCTGACGTCGGCGATTCGCTATATGCAGCGTACGCAGCATATTCATCGCATTATGGCCAACTATATGCCGCATAATCAGCGCAGCGGCGCGCTGCTGGCGCGGTTGGGGTTTGAAAAAGAGGGTTACGCCAAAGATTACCTGCTGATCGACGGGCAGTGGCGTGACCATGTATTGACGGCGCTAACGACGCCGGACTGGTCAGCGGGACGTTAA	MVCCCFHTVAQDRYSEGSKNEVRGTEKEMFGYRSNVPKVRLTTDRLVVRLVHDRDAWRLADYYAENKAFLKPWEPVRDDSHCYPSGWQARLSMIAEFHKQGSAFYFALLDPEEKEIVGVANFSNVVRGSFHACYLGYSIGEKWQGQGLMFEALTSAIRYMQRTQHIHRIMANYMPHNQRSGALLARLGFEKEGYAKDYLLIDGQWRDHVLTALTTPDWSAGR				NA	NA	NA	NA	NA
BMS020_02458	654			hypothetical protein	ATGAAATATCAGTTAACCGCGCATGAAGCGCGCGTCATTGGCTGTCTGCTGGAAAAGCAGGTCACCACGCCAGAGCAGTATCCGCTGTCGGTGAACGCCGTCGTGACCGCCTGCAATCAGAAAACCAACCGCGAGCCGGTGATGTCGCTGAGCGAAGGCGAGGTCCAGACGCTGCTGGATACCCTGGTGAAACGCCACTATCTGCGCACGGTCAGCGGATTCGGCAATCGGGTAACCAAGTATGAGCAGCGCTTTTGCAACTCCGAATTTGGCGATCTGAAGCTCAGCGCCGGCGAGGTGGCGGTGGTGACGACGCTGCTGCTGCGCGGCGCCCAGACGCCGGGTGAATTACGCAGTCGGGCGCAGCGGATGCATGAGTTCAGCGATATGGCGGAAGTGGAAAGCGTGCTGGAAGGGCTGGCGACCCGTGAAGATGGTCCCTTCGTCGCCCGTCTGCCCCGGGAGCCGGGAAAACGGGAAAGCCGCTATATGCATCTGTTTTGCGACGAGATGGATACGCTGATCACGACGGTGGAAGCACTCGCGCCGCTGGAAGAGGATGACGATCTGCGAGCCAGGGTTGAAGCGCTGGAAGGCGAGGTGGCGGAGCTGAAAGCGCGCCTCGATTCGCTGTTACACCATCTGGGGGACTAA	MKYQLTAHEARVIGCLLEKQVTTPEQYPLSVNAVVTACNQKTNREPVMSLSEGEVQTLLDTLVKRHYLRTVSGFGNRVTKYEQRFCNSEFGDLKLSAGEVAVVTTLLLRGAQTPGELRSRAQRMHEFSDMAEVESVLEGLATREDGPFVARLPREPGKRESRYMHLFCDEMDTLITTVEALAPLEEDDDLRARVEALEGEVAELKARLDSLLHHLGD	PGPT0024195_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_MODIFICATION,PGPT0024195-mviM|yceM-K03810	NA	NA
BMS020_02459	924	yceM	COG0673	Putative oxidoreductase YceM	GTGGGGACAAGATTGCGCATCGGAGTGGTTGGCTTAGGCGGCATTGCGCAGAAAGCGTGGCTGCCGGTGCTGGGGGCGGCGGAAAGCTGGACGCTGCAGGCGGCCTGGTCGCCGGGGAAAGAGAAGGCGCTGCGGGTCTGCGAAACCTGGCGGATCCCCTACGCTGAATCACTGGACGCTCTGGCGGCGCAGTGCGATGCGGTTTTTGTCCATACGTCGACGGCTTCACATTATGAAGTGGTGAATCATTTGCTGAATGCCGGGGTTCATGTTTGCGTGGATAAACCGCTGGCGGACAAGCTGAGTGAGGCGGAGATGCTGGTCGAGCTGGCGGCGCGGCGGCGTCTGACGCTGATGGTCGGTTTCAATCGCCGCTTCGCACCGCTCTATCGGGAGCTGAAGGGACGGCTGGGCGAGGCGGCCTCGCTGCGGATGGATAAGCACCGCAGCGATAGCGTGGGCAACGATCTGCGCTTTACCCTGCTTGATGACTATCTGCACGTGGTGGATACCGCGCTATGGCTGGCCGACGGTCAGGCGCGTCTGCGCGGTGGCGCGCTACAGATCACTCCGCAGGGCGAGATGCTCTATGCCGAACACCAGTTCAGTTCGCCCCGGCTGCAGGTCACCACCAGCATGCACCGCCGCGCAGGCAGCCAGCGCGAGTGGGTGCAGGCGGTGACGGATGGCGGGCTATATGCCGTCAGCGAGATGCGCGAATGGCAGGAAGAGTGCGGTCACGGCGTGGTCCAGCGCCCGGTCGCCGGCTGGCAAACCACCCTGGAGCAGCGCGGCTTTGTCGGCTGCGCGCGCCATTTTATCGAATGCGTGCAAAATCAGACCGTTCCTGAAACTGCAGGCGAACAGGCGCTGCTGGCTCAGCGGGTGGTCGACAAACTCTGGCGCGACGCCATCAGCGAATAA	MGTRLRIGVVGLGGIAQKAWLPVLGAAESWTLQAAWSPGKEKALRVCETWRIPYAESLDALAAQCDAVFVHTSTASHYEVVNHLLNAGVHVCVDKPLADKLSEAEMLVELAARRRLTLMVGFNRRFAPLYRELKGRLGEAASLRMDKHRSDSVGNDLRFTLLDDYLHVVDTALWLADGQARLRGGALQITPQGEMLYAEHQFSSPRLQVTTSMHRRAGSQREWVQAVTDGGLYAVSEMREWQEECGHGVVQRPVAGWQTTLEQRGFVGCARHFIECVQNQTVPETAGEQALLAQRVVDKLWRDAISE	PGPT0024195_258	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_MODIFICATION,PGPT0024195-mviM|yceM-K03810	NA	NA
BMS020_02460	1536	murJ_1	COG0728	putative lipid II flippase MurJ	ATGAACCTTTTAAAATCACTGGCGGCCGTCAGTTCGATGACCATGTTTTCGCGCGTGCTGGGCTTTGCCCGCGATGCGATTGTGGCGCGCATTTTTGGCGCCGGGATGGCGACCGACGCCTTTTTCGTCGCCTTCAAACTGCCTAATCTGCTGCGGCGTATTTTTGCCGAAGGCGCCTTCTCGCAGGCGTTTGTGCCGATCCTTGCCGAATATAAAAGCAAGCAGGGCGAAGATGCCACCCGGGTGTTTGTCTCGTATGTCTCCGGATTGCTGACCCTGGCCCTGGCGATCGTCACCGTTATCGGGATGCTGGCGGCGCCGTGGGTGATCACCATCACCGCCCCCGGGTTTGCTGATACCGCCGATAAATTTGCGCTGACCACCCAATTGCTGCGCATTACCTTCCCCTATATTTTGCTGATCTCCCTGGCCTCGCTGGTGGGGGCGATCCTCAATACCTGGAACCGCTTCTCGGTGCCGGCCTTTGCGCCGACGTTCCTTAACGTCAGCATGATTGGCTTTGCGCTGTTTGCCGCGCCGTACTTCCATCCGCCGGTGCTGGCGCTGGCCTGGGCTGTCACGGTCGGCGGCGTGCTGCAGCTGGCCTACCAGCTGCCGCACCTGAAGAAGATTGGCATGCTGGTCCTGCCGCGCATCAATCTGAAAGATGCCGGCGCGATGCGGGTGGTGAAGCAGATGGGCCCGGCGATCCTCGGCGTGTCGGTAAGCCAGATCTCTCTTATCATCAATACCATCTTCGCTTCGTTTCTCGTGTCGGGATCGGTGTCGTGGATGTACTATGCCGACCGCCTGATGGAGTTTCCGTCCGGTGTTCTGGGGGTGGCGCTCGGCACTATCCTGCTGCCCTCGCTGTCAAAAAGCTTCGCCAGCGGTAATCATGACGAGTATTGCCGGCTGATGGACTGGGGGCTGCGTCTCTGCTTCCTGCTGGCGCTGCCGAGCGCGGTAGCGCTGGGGATCCTCGCTAAACCGCTGACCGTGGCCCTGTTCCAGTACGGCAAATTTAGCGCCTTTGATGCGGCGATGACCCAGCGCGCGCTGGTGGCTTATTCCGTGGGGCTCATGGGGCTTATCGTGGTGAAGGTGCTGGCGCCGGGTTTCTATTCCCGTCAGGACATCAAGACCCCGGTCAAGATTGCCATTGTCACCCTGATTATGACCCAGGTGATGAACCTGGCGTTTATCGGCCCGCTGAAGCATGCGGGTCTGTCGCTGTCCATCGGCCTGGCGGCCTGCCTGAACGCTGCGCTGCTTTACTGGCAGTTACGTAAACAGAAAATTTTCACCCCCCAACCGGGCTGGCTGGCGTTCCTGCTGCGTCTGATTGCTGCGGTGCTGGTCATGGCCGCGGCGCTGCTGGGCGTCATGCATCTCATGCCGGAGTGGTCGCTGGGGACGATGCCGTTCCGTCTGATGCGTCTGCTGGTGGTGGTGATCGCCGGAGTGGTGGCCTATTTCGCCACACTGCTGCTGCTGGGCTTCCGCGTGAAAGAGTTTGCCCGTCGTACAGCGTAA	MNLLKSLAAVSSMTMFSRVLGFARDAIVARIFGAGMATDAFFVAFKLPNLLRRIFAEGAFSQAFVPILAEYKSKQGEDATRVFVSYVSGLLTLALAIVTVIGMLAAPWVITITAPGFADTADKFALTTQLLRITFPYILLISLASLVGAILNTWNRFSVPAFAPTFLNVSMIGFALFAAPYFHPPVLALAWAVTVGGVLQLAYQLPHLKKIGMLVLPRINLKDAGAMRVVKQMGPAILGVSVSQISLIINTIFASFLVSGSVSWMYYADRLMEFPSGVLGVALGTILLPSLSKSFASGNHDEYCRLMDWGLRLCFLLALPSAVALGILAKPLTVALFQYGKFSAFDAAMTQRALVAYSVGLMGLIVVKVLAPGFYSRQDIKTPVKIAIVTLIMTQVMNLAFIGPLKHAGLSLSIGLAACLNAALLYWQLRKQKIFTPQPGWLAFLLRLIAAVLVMAAALLGVMHLMPEWSLGTMPFRLMRLLVVVIAGVVAYFATLLLLGFRVKEFARRTA	PGPT0024200_3407	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_LIPID_II_FLIPPASE_ACTIVITY,PGPT0024200-murJ|mviN-K03980	NA	NA
BMS020_02461	1215	sotB_2		sugar efflux transporter	ATGACACCGACTTCTCTTTCCGCCCGCGACGCAGGCTGGATTATCTTCATTCTCGCGCTCGGCGCTGGCTTTAGCGTCGCCTCTATCTACTACGCGCAGCCGCTGCTGCCGTTGATGGGCGCCAATCTCCACCTGACGGTAGAAGGTATGGGTCTGGTCCCTACCCTGACGCAGGCGGGTTATGCGCTCGGCATTCTGTTCCTGCTTCCGCTCGGCGACCGCCACGATCGCCGCCGGCTGATCCTGGTGAAAAGCGCGCTGCTGGCGCTCCTGCTGCTGCTGTGCAGCCTCACCGGCCAGCTCAGCTTACTGCTGGTGGTTAGTCTGCTGATCGGTATGGCGGCGACCATGGCGCAGGATATCGTCCCGGCGGCGGCGATCCTCGCCCCGGCGGGCAAGCAGGGAAAAATGGTGGGCACGGTGATGACCGGGCTGCTGCTGGGGATCCTGCTTTCCCGGACGGTCAGCGGCGTGGTGGGCGCAGTGTTCGGCTGGCGGGTGATGTATCAGGCGGCGGCGGTCAGCGTGGCGCTGATTGGCCTGGTGATGTGGCGGGTGCTGCCGCGCTTCGCCATTCACTCGACGCTGAGCTATCCGCAGCTGATGGCCTCGATGGCGCATCTGTGGCAGCGTTACCCGGCGCTACGCCGCGCTGCGCTGGCTCAGGGGGCGCTCTCTGTCGCCTTCAGCGCCTTCTGGTCGACGCTGGCGGTGATGCTCTCCGAACACTATCACATGGGCAGCGCGGTAGCGGGCGGCTTTGGTATCGCCGGGGCCGCCGGGGCGCTGGCCGCGCCGCTGGCCGGCGGACTGGCCGATAAATTTGGCGCCGGTAAAGTGACGCAAATGGGGGCGGCGCTGGTCACCGTCTCCTTCGCCCTGATGTTTATACTGCCGCTGCTGCCACTGCATGGCCAGCTGGCGCTGATTGCCCTGTCGGCGATTGGCTTCGACCTTGGCCTGCAGTCAAGCCTGGTGGCGCATCAGAACCTGGTGTATGGCCTTGAGCCACAGGCCCGCGGCCGCCTGAACGCTCTGCTGTTTACCGTGGTCTTCATTGGGATGTCGCTGGGGTCGGTGCTGGGCAGCAAGCTTTACGTACTGGCCGGCTGGAACGGGGTGGTTACCCTGGCGGTGGTCAGCGGGGCGATCGCCCTGGCGATCCGCTTGCTGGAGAATGCCCGTATCGTTGCAGCCGAACGCCGCGCATCATAA	MTPTSLSARDAGWIIFILALGAGFSVASIYYAQPLLPLMGANLHLTVEGMGLVPTLTQAGYALGILFLLPLGDRHDRRRLILVKSALLALLLLLCSLTGQLSLLLVVSLLIGMAATMAQDIVPAAAILAPAGKQGKMVGTVMTGLLLGILLSRTVSGVVGAVFGWRVMYQAAAVSVALIGLVMWRVLPRFAIHSTLSYPQLMASMAHLWQRYPALRRAALAQGALSVAFSAFWSTLAVMLSEHYHMGSAVAGGFGIAGAAGALAAPLAGGLADKFGAGKVTQMGAALVTVSFALMFILPLLPLHGQLALIALSAIGFDLGLQSSLVAHQNLVYGLEPQARGRLNALLFTVVFIGMSLGSVLGSKLYVLAGWNGVVTLAVVSGAIALAIRLLENARIVAAERRAS				NA	NA	NA	NA	NA
BMS020_02462	936	dmlR_17		HTH-type transcriptional regulator DmlR	ATGAAAAGACAGGAGCGTATAGACCGCATTGAGCTGATGCGCACTTATATCCGCATTGTGGAGACCGGATCGCTCTCCGCCGCGGCGGGGCAGATGGATACCACTCAGGCGACCGTCAGCCGCCGCCTGCAGTCCCTTGAAGGGCTGCTGGGGGTCAAGCTGATCCTGCGTACCACCCATGCGATGAAGCTCACTGACGATGGCGAACGCTGCTACCGTCACGCTCGCCAGCTGGTGGATGCCTGGCTGGCGCTGGAAGATGACCTGCGTATTGCCGACGATCGGCCGGTAGGGGTGCTGCGGGTGAGGGCACCGCACGCTTTTGGCCAGCAGCAGCTGCTGGGGCCGCTGGTCGCCTTTCTCCAGCGTCATCCGCAGCTGTCGGTGGAGTGGATGCTGAATGATAATACTGTCGACTTTCTCAGCGATAATATCGACTGCGCCATCCGCGTGGGGGCGGAGGTGGATCCGGCCACGGTCTCCGTGCTGCTGGCGGAAGTGCCGCGCTGCGTGGTGGCCTCTCCTGAACTGCTGGCGAAGTACCCGCCGTTAACCTCGCTGGAGGCATTATCCGGCCTGCCGTGGATCGCCATTAACACCTTTTATCAGCATGAGGTACGGCTCCGACATCAGGTAAGCGGGCAGATCGTCTCCACGGCGATTACCCCCTGTCTGAGCACCGACAGCCTGTACGTCGCGCGCAATACCGCGCTGGCGGGTCTGGGGGTGGCGATGGTGTCCAGCTGGACGGTGGCGGAAGATCTTGCCGCCGGAAGGTTGACAGAGCTGTTCCCGCAGTGGCGCCCCGCCTCGCTGCCGGTCCACCTGGTCTATCCCTGGGCGCGCTATTATCCGACGCGGCTGCGTAAGTTCCTCGACCTGATGCGGGAGATCATGCCGGACCTCGCCGGCATGCAGCCTCCGCAAAGCGCATAA	MKRQERIDRIELMRTYIRIVETGSLSAAAGQMDTTQATVSRRLQSLEGLLGVKLILRTTHAMKLTDDGERCYRHARQLVDAWLALEDDLRIADDRPVGVLRVRAPHAFGQQQLLGPLVAFLQRHPQLSVEWMLNDNTVDFLSDNIDCAIRVGAEVDPATVSVLLAEVPRCVVASPELLAKYPPLTSLEALSGLPWIAINTFYQHEVRLRHQVSGQIVSTAITPCLSTDSLYVARNTALAGLGVAMVSSWTVAEDLAAGRLTELFPQWRPASLPVHLVYPWARYYPTRLRKFLDLMREIMPDLAGMQPPQSA				NA	NA	NA	NA	NA
BMS020_02463	3234	rne_1	COG1530	Ribonuclease E	ATGAAAAGAATGTTAATCAACGCAACTCAGCAGGAAGAGTTGCGCGTCGCCCTTGTTGATGGGCAGCGCCTGTACGACCTGGATATCGAAAGCCCCGGGCACGAACAGAAAAAAGCGAACATCTACAAAGGCAAAATCACCCGCATTGAACCCAGCCTTGAAGCCGCGTTTGTTGATTACGGCGCCGAGCGTCATGGTTTCCTCCCCCTCAAAGAAATCGCCCGCGAATACTTCCCCGCCAACTACAATGCGCATGGTCGTCCTAATATCAAAGACGTACTGCGTGAAGGTCAGGAAGTTATCGTGCAGATTGATAAAGAAGAACGCGGCAACAAAGGCGCTGCGCTCACCACCTTTATCAGCCTGGCGGGCAGCTATCTGGTACTGATGCCGAACAACCCGCGCGCGGGGGGAATTTCCCGCCGTATCGAGGGCGACGACCGTACCGAACTGAAAGAAGCGCTGGCGAGCCTGGAGCTTCCGGACGGCATGGGCCTTATCGTTCGCACCGCTGGCGTCGGCAAATCCGCCGAAGCCCTGCAGTGGGACCTGAGCTTCCGTCTGAAACACTGGGAAGCGATTCAGAAAGCCGCGGAAAGCCGCCCGGCGCCGTTCCTGATCCACCAGGAAAGCAACGTCATTGTCCGCGCCTTCCGTGACTACCTGCGCCAGGATATCGGCGAAATCCTGATCGATAACCCGAAAGTGCTTGAGCTGGCGCGCCAGCATATCGCCGCGCTGGGTCGTCCGGATTTCAGCAGCAAAATCAAACTGTACACCGGTGAAATCCCGCTGTTCAGCCACTACCAGATCGAATCCCAGATTGAATCCGCCTTCCAGCGTGAAGTCCGTCTGCCGTCCGGTGGCTCTATCGTCATCGACAGCACTGAAGCGCTGACCGCTATCGATATCAACTCCGCCCGCGCCACCCGCGGCGGCGATATCGAAGAGACGGCATTCAACACCAACCTCGAAGCGGCTGACGAGATTGCCCGCCAGCTGCGTCTGCGCGACCTCGGCGGCCTGATCGTTATCGACTTTATTGATATGACTCCGGTTCGCCACCAGCGCGCCGTGGAGAACCGTCTGCGCGAAGCCGTCCGTCAGGACCGGGCGCGCATTCAGATCAGCCATATCTCGCGCTTCGGCCTGCTGGAGATGTCCCGCCAGCGCCTGAGTCCGTCGCTGGGCGAATCCAGCCACCACGTCTGCCCGCGCTGCTCCGGCACCGGCACCGTGCGTGATAACGAATCGCTGTCGCTCTCTATTCTGCGTCTGATTGAAGAAGAAGCGCTGAAAGAGAACACCAAAGAAGTTCATGCCATCGTTCCGGTACCGATCGCCTCCTATCTGCTGAACGAAAAACGTGCCGCGGTGAGCGCTATCGAATCCCGTCAGGGCGATGTGCGCGTGATCATCGTGCCAAACGACGAAATGCAGACGCCGCACTACTCCGTCCTGCGCGTGCGCAAAGGTGAAGAGACCTCAACGCTGAGCTACCTGCTGCCGAAGCTGCATGAAGAAGAGATGGCGCTGCCGGGCGACGATGAGCCGGCAGAACGGAAACGTCCGGAACAACCGGCCCTCGCCGCTTTTGTCATGCCTGATGCGCCGCCGGCCCCGATGCTCGAAGAACCAGCCGCCGCGCCTGTCGCCGCAGCGACCCCGGTCGCGGCCGCCGCACCGGCGCAGCCTGGCCTGCTCTCGCGCTTCTTCAGCGCGCTGAAGAATATCTTCTCTGGCGCCGAAGAGGCCAAACCGGCTGAAGTTCAGGTCGAGAAGAAAGCGGAAGAAAAACCGGAGCGTCAGCAGGAGCGCCGTAAACCGCGCGCCAACAACCGCCGCGATCGCAACGACCGTCGTGACAATCGCGACAATCGTGATAATCGCGACAACCGTGATAACCGCGACGCGCGTGCCGAGAATAACGAAGGCCGTGAACCGCGCGAATCGCGTGAAGAGAACCGTCGCAACCGTCGCGAGAAGCCGTCGCAGAACGTGGAAGCCCGTGATGTTCGCCAGACCTCAGGTGACGATGCGGAAAAAGCGAAATCTCGTGACGAGCAGCAGCCGCGCCGCGAACGCACCCGCCGCCGCAATGACGACAAACGTCAGGCGCAGCAGGAAGCCAAAGCGCAGACACGCGAAGAGCCGGTAGTGCAGGAGACGGAGCAGGAAGAGCGTGTGCAGACCCTGCCGCGTCGTAAACCGCGCCAGCTGGCACAGAAAGTACGCGTCGAGTCCGCTGTCGTTGAGCAGGTTGCCGAGATCGTGCCAGAAGCCGTAGTGGCGGAAGTTATCGCTCCGCGCAGCGAGCCGGTGAAAGCCGAGCTGCCAGCAGTCGTGGAGAGCGTGGCGGACCAGGACGAAAATGGCGAATCCCGTGAAGCGAACGGTATGCCGCGTCGCTCACGTCGTTCCCCGCGTCACCTGCGCGTCAGCGGTCAGCGTCGTCGTCGCTATCGTGACGAACGCTATCCGACCCAGTCGCCAATGCCGCTGACCGTGGCCTGCGCATCGCCGGAGATGGCTTCCGGTAAAGTATGGATCCGCTACCCGGTAGTTCGTCCGCAGGACCAGCAGCCGGAAGAGGTTCAGGTTCAGGACGACAACGTCGTGGAAACTGTCGCGGCCGTCGCGGCCCCGGTTGCCGTCGTTGAAACCGTTACCGCTGCGCCGGTCACCATTGAGCCGGCTACTATGGAGCCGGTTACCACTGAGCCTGTGGTCGTCGAGCCGGTCGCGGCCGCCGAGCCGGTGGTCGTTGATGCTGCGGAAGTTGTCGCGCCAGCAGCCGTCGAGCCTGCGCCGCAGGAGCTGGTCACCGAAGCGCCGGCTGTCGAAGCGCCTCAGGCTATCGCGCCAGTGACGATCGACGCCGAGCCGGTGGTGGTAGAACCTGAAGTGGTGGAAACGGCGCCTGTCGTTGAAGCGCCAGTGGAAACCATCGCCCCGGCGGCGGAAACCGTGGTTGAAGCACCGGTTGTCGAAGCAGCGCCTGTCGAGCCGGTCAAGGCCGAGCCCCCGGTGAGCAAGCCGGTAGTGGTGGTGAGTCATCGCCATGCCACCGCGCCAATGACCCGTGCGCCAGCGCCGGACTATGTCCCGGAAGCACCGCGCCACAGCACCTGGGTGCGGCCGCCATTCGCCTTTGAAGGTAAAGGCGCCGCCGGCGGTCATAGCGCGACCCATAAAGCCACCGCTGAACCGACCCGCCCACAGCCCGTCGAGTAA	MKRMLINATQQEELRVALVDGQRLYDLDIESPGHEQKKANIYKGKITRIEPSLEAAFVDYGAERHGFLPLKEIAREYFPANYNAHGRPNIKDVLREGQEVIVQIDKEERGNKGAALTTFISLAGSYLVLMPNNPRAGGISRRIEGDDRTELKEALASLELPDGMGLIVRTAGVGKSAEALQWDLSFRLKHWEAIQKAAESRPAPFLIHQESNVIVRAFRDYLRQDIGEILIDNPKVLELARQHIAALGRPDFSSKIKLYTGEIPLFSHYQIESQIESAFQREVRLPSGGSIVIDSTEALTAIDINSARATRGGDIEETAFNTNLEAADEIARQLRLRDLGGLIVIDFIDMTPVRHQRAVENRLREAVRQDRARIQISHISRFGLLEMSRQRLSPSLGESSHHVCPRCSGTGTVRDNESLSLSILRLIEEEALKENTKEVHAIVPVPIASYLLNEKRAAVSAIESRQGDVRVIIVPNDEMQTPHYSVLRVRKGEETSTLSYLLPKLHEEEMALPGDDEPAERKRPEQPALAAFVMPDAPPAPMLEEPAAAPVAAATPVAAAAPAQPGLLSRFFSALKNIFSGAEEAKPAEVQVEKKAEEKPERQQERRKPRANNRRDRNDRRDNRDNRDNRDNRDNRDARAENNEGREPRESREENRRNRREKPSQNVEARDVRQTSGDDAEKAKSRDEQQPRRERTRRRNDDKRQAQQEAKAQTREEPVVQETEQEERVQTLPRRKPRQLAQKVRVESAVVEQVAEIVPEAVVAEVIAPRSEPVKAELPAVVESVADQDENGESREANGMPRRSRRSPRHLRVSGQRRRRYRDERYPTQSPMPLTVACASPEMASGKVWIRYPVVRPQDQQPEEVQVQDDNVVETVAAVAAPVAVVETVTAAPVTIEPATMEPVTTEPVVVEPVAAAEPVVVDAAEVVAPAAVEPAPQELVTEAPAVEAPQAIAPVTIDAEPVVVEPEVVETAPVVEAPVETIAPAAETVVEAPVVEAAPVEPVKAEPPVSKPVVVVSHRHATAPMTRAPAPDYVPEAPRHSTWVRPPFAFEGKGAAGGHSATHKATAEPTRPQPVE				NA	NA	NA	NA	NA
BMS020_02465	996	rluC	COG0564	Ribosomal large subunit pseudouridine synthase C	ATGAGTGGCGCTAATGCGTCCGGCTATTTAGAATCGCGCACCATGAAAACTGAGACCCCAACCGTAAAAATGGTTGCCATTGCTGCTGATGAAGCGGGGCAACGTATCGACAACTTTTTGCGTACGCAATTGAAAGGCGTACCGAAGAGCATGATTTATCGCATCCTGCGTAAAGGCGAGGTGCGGGTGAATAAAAAACGCGTGAAGCCGGAGTATAAGCTGGAAGCGGGCGATGAAGTCCGTATCCCGCCGGTGCGCGTGGCGGAGCGTGAAGAAGAGGCGGTATCGCCGCATCTACAGAAAGTCGCGGCGCTCTCTGAGGTGATCCTCTATGAAGACGATCATATTCTGGTCCTCAATAAGCCTTCCGGCACTGCGGTACATGGCGGCAGCGGCCTGAGCTTCGGGGTGATTGAAGGGTTGCGCGCCCTGCGCCCGGAGGCGCGCTTCCTTGAGCTGGTGCATCGACTCGACCGCGATACTTCAGGCGTGCTGCTGGTGGCGAAAAAGCGCTCAGCGCTGCGTTCGCTGCACGAGCAGCTGCGCGATAAAGGCATGCAGAAAGACTATCTGGCGCTGGTGCGCGGCCAGTGGCAGTCGCATACCAAAGTAGTGCAGGCCCCGCTATTGAAGAACATTCTGCAGAGCGGGGAGCGAATTGTCCGCGTGAGTCAGGAAGGCAAGCCGTCAGAGACGCGCTTTAAAGTGGAAGAGCGTTATGAATTCGCCACGCTGGTGCGCTGCAGTCCGGTCACCGGGCGCACCCATCAGATTCGTGTTCATACCCAGTATGCCGGCCATCCTATCGCCTTTGACGACCGCTATGGCGACCGCGAATTTGATAAGCAACTCTCTGGTACCGGCTTAAACCGCCTGTTCCTCCACGCTGCTGCGCTGAAGTTTACCCACCCGGGGAGCGGGGAGGTGATGCGCGTTGAGGCGCCGCTGGATAACCAGCTGAAGCACTGTTTACAGGTGCTACGGAAGAGCAAATAA	MSGANASGYLESRTMKTETPTVKMVAIAADEAGQRIDNFLRTQLKGVPKSMIYRILRKGEVRVNKKRVKPEYKLEAGDEVRIPPVRVAEREEEAVSPHLQKVAALSEVILYEDDHILVLNKPSGTAVHGGSGLSFGVIEGLRALRPEARFLELVHRLDRDTSGVLLVAKKRSALRSLHEQLRDKGMQKDYLALVRGQWQSHTKVVQAPLLKNILQSGERIVRVSQEGKPSETRFKVEERYEFATLVRCSPVTGRTHQIRVHTQYAGHPIAFDDRYGDREFDKQLSGTGLNRLFLHAAALKFTHPGSGEVMRVEAPLDNQLKHCLQVLRKSK				NA	NA	NA	NA	NA
BMS020_02466	585	yceF_1	COG0424	7-methyl-GTP pyrophosphatase	ATGTCTGAACTTATCCTGGCGTCAACCTCTCCCTGGCGGCGCATGCTGCTGGAAAAACTGGGATTACCGTTTGAATGCGCGGCGCCTGACGTCGACGAAACGCCCCGTCCTGAAGAATCCGCGCGTCAGCTTGTCACCAGGTTGGCGCAGGCCAAAGCGCAGAGCCTGGCCTCGCGCTACCCCAATCACCTTATTATAGGCTCCGATCAGGTTTGCGTACTGGACGGTGAGATCACCGGTAAACCGCACACCGAAGAAAATGCCCGCAGGCAGTTGAGAAAGGCCAGCGGGTCAATCGTCACCTTTTATACCGGCCTGGCGCTGTATAACTCCGCCAGCGGTCATCTGCAAACCGAATGCGAGCCCTTTGACGTCCACTTCCGCCATCTCAGCGATAAAGAGATCGAAGGCTATGTGCGCAAAGAGAACCCGCTGCAGTGCGCCGGGAGTTTCAAGAGCGAGGGGTTAGGCATTACGCTGTTCGAACGGCTGGAAGGCCGCGACCCGAATACGCTGGTCGGGTTACCCTTAATCGCGCTGTGTCAGATGCTGCGCCGCGAAAACGACAACCCGCTGTTAGGCTAA	MSELILASTSPWRRMLLEKLGLPFECAAPDVDETPRPEESARQLVTRLAQAKAQSLASRYPNHLIIGSDQVCVLDGEITGKPHTEENARRQLRKASGSIVTFYTGLALYNSASGHLQTECEPFDVHFRHLSDKEIEGYVRKENPLQCAGSFKSEGLGITLFERLEGRDPNTLVGLPLIALCQMLRRENDNPLLG				NA	NA	NA	NA	NA
BMS020_02467	522	yceD_1	COG1399	Large ribosomal RNA subunit accumulation protein YceD	ATGCAAAAGGTAAAATTACCCCTGACTCTTGATCCGGTACGCACGGCTCAAAAACGCCTTGATTACGAAGGCATCTATGCCCGCGATCAGGTTGAACGTGTAGCCGATTCTGTAGTCAGCGTGGACAGCGATGTGGAATGCAGCATGTCGTTCGCTATCGATAACCAGCGTCTCGCCGTCATTACAGGCGATGCGAAGGTAACGGTAACCCTCGAATGCCAGCGTTGCGGGAAACCGTTCTCCCATCACGTCCACACCACGTATTGTTTTAGCCCCGTCAGAAATGACGAACAGGCCGAAGCACTACCGGAAGCGTATGAGCCGATTGAGGTTAACGAATTCGGTGAAATCGACCTGCAGGCAATGGTCGAGGATGAAATTATCCTCTCCCTGCCCGTAGTTCCGGTGCATGATTCTGAACACTGTGAAGTGTCCGACGCGGACATGGTCTTTGGCGAACTGCCTGAAGAGGCACAAAAACCAAACCCATTTGCCGTATTAGCCAGCTTAAAGCGTAAGTAA	MQKVKLPLTLDPVRTAQKRLDYEGIYARDQVERVADSVVSVDSDVECSMSFAIDNQRLAVITGDAKVTVTLECQRCGKPFSHHVHTTYCFSPVRNDEQAEALPEAYEPIEVNEFGEIDLQAMVEDEIILSLPVVPVHDSEHCEVSDADMVFGELPEEAQKPNPFAVLASLKRK				NA	NA	NA	NA	NA
BMS020_02468	174	rpmF_1	COG0333	50S ribosomal protein L32	ATGGCCGTACAACAGAATAAACCAACCCGTTCCAAACGTGGCATGCGTCGTTCCCATGACGCGCTGACCGCAGTCACCAGCCTGTCTGTAGACAAAACTTCTGGTGAGAAACACCTGCGTCACCACATCACTGCCGACGGTTTCTACCGCGGTCGCAAGGTTATCGCTAAGTAA	MAVQQNKPTRSKRGMRRSHDALTAVTSLSVDKTSGEKHLRHHITADGFYRGRKVIAK				NA	NA	NA	NA	NA
BMS020_02469	840	plsX	COG0416	Phosphate acyltransferase	ATGCGCGTGGCGCTGGAGCTTGTGAAAGAAGGGCGGGCGGAAGCCTGCGTTAGCGCCGGCAACACCGGCGCGCTGATGGGCCTGGCGAAACTGCTGCTCAAACCGATTGAAGGTATTGAGCGGCCGGCGCTGGTGACGGTTTTGCCGCACCAGCAGAAGGGCAAAACCGTGGTGCTGGATCTCGGCGCCAACGTCGACTGCGACAGCACGATGCTGGTGCAGTTCGCAGTGATGGGCGCGGTGCTGGCGGAAGAGGTGGTCGGCATTGCCAATCCACGCGTCGCCTTGCTGAACATCGGCGAAGAAGAGATGAAAGGCCTCAGCAGCATCCGCGATGCTGCCGCAGTGCTCAAAACGCTGCCTTCCCTCAACTACATCGGCTATCTTGAAGCCAATGAACTGTTGACCGGAAAAACCGATGTGCTGGTTTGTGACGGATTCACGGGCAACGTCACATTAAAAACCATGGAAGGTGTTGTCAGAATGTTCCTTTCACTGCTGAAATCTCAGGGAGAGGGCAAAAAACGGTCGTGGTGGCTGCTGTTACTAAAACGTTGGTTACAAAAAAGCCTGGCGAGGCGATTCAGTCACCTCAACCCCGACCAGTATAATGGCGCCTGTCTGTTAGGATTGCGCGGTTCCGTGATCAAGAGTCATGGTGCTGCCAATCAGCGCGCCTTTAGCGTCGCGATAGAGCAGGCAGTGCAGGCGGTGCAGCGGCAAATTCCTCAACGGATCGCCGCGCGCCTGGAATCTTTATACCCAGCTGGTTTCGAACTGCCGGAAAGCGACAGTGACGTGAACGCCCGACAGCAAAGCGGGACGAATGGACACCACTGA	MRVALELVKEGRAEACVSAGNTGALMGLAKLLLKPIEGIERPALVTVLPHQQKGKTVVLDLGANVDCDSTMLVQFAVMGAVLAEEVVGIANPRVALLNIGEEEMKGLSSIRDAAAVLKTLPSLNYIGYLEANELLTGKTDVLVCDGFTGNVTLKTMEGVVRMFLSLLKSQGEGKKRSWWLLLLKRWLQKSLARRFSHLNPDQYNGACLLGLRGSVIKSHGAANQRAFSVAIEQAVQAVQRQIPQRIAARLESLYPAGFELPESDSDVNARQQSGTNGHH	PGPT0024410_47	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024410-plsX-K03621	NA	NA
BMS020_02470	954	fabH_1	COG0332	3-oxoacyl-[acyl-carrier-protein] synthase 3	ATGTATACGAAGATTATTGGTACCGGCAGCTATCTGCCCGAGCAAGTGCGTACAAACGCCGACCTGGAAAAAATGGTAGAGACCTCTGACGAGTGGATTGTCACCCGCACAGGTATCCGTGAGCGTCGTATTGCCGCAGCGCATGAAACAGTTGCTACGATGGGCTTTGAAGCCGCAAAGCAGGCGCTGGCGATGGCGGGCGTGTCCGCGGAGCAAATTGGTCTGATCATCGTTGCGACCACCTCCGGCACGCACGCGTTTCCGAGTTCGGCTTGCCAGATTCAGTCTATGCTGGGCGTCAAAGGCTGCCCGGCGTTTGACGTCGCGGCCGCCTGCGCCGGTTTCACCTATGCGCTGAGCGTCGCCGATCAGTATGTGAAAAACGGCGCGGTGGATTATGCGCTGGTCGTTGGCGCTGATGTGCTGGCGCGCACCTGCGATCCGGCCGATCGCGGGACGATTATTATTTTCGGCGATGGCGCCGGCGCGGTGGTGCTGGGCGCCTCCGAAGAGCCTGGCATTATCTCGACGCATCTGCATGCTGACGGTAGCTATGGCGAACTGCTGACCCTGCCGAACGCCGATCGCGTCGATCCGGAAAATCCGATCTATCTGACGATGGCCGGTAATGAAGTCTTCAAAGTGGCGGTCACCGAGTTAGCGCATATTGTTGATGAGACGCTGGCCGCGAACAATCTTGAACGTTCAGCGCTGGACTGGCTGGTGCCGCATCAGGCAAACCTGCGGATCATCAGCGCGACGGCGAAGAAACTGGGCATGTCGATGGATAACGTCGTAGTGACCCTCGACCGCCATGGCAACACCTCCGCGGCGTCAGTCCCTTGCGCGCTGGATGAGGCCGTCCGCGATGGCCGCATTCAACGTGGGCAGCTGATTTTGCTGGAAGCCTTTGGTGGCGGTTTCACCTGGGGTTCCGCGCTGGTTCGTTTTTAG	MYTKIIGTGSYLPEQVRTNADLEKMVETSDEWIVTRTGIRERRIAAAHETVATMGFEAAKQALAMAGVSAEQIGLIIVATTSGTHAFPSSACQIQSMLGVKGCPAFDVAAACAGFTYALSVADQYVKNGAVDYALVVGADVLARTCDPADRGTIIIFGDGAGAVVLGASEEPGIISTHLHADGSYGELLTLPNADRVDPENPIYLTMAGNEVFKVAVTELAHIVDETLAANNLERSALDWLVPHQANLRIISATAKKLGMSMDNVVVTLDRHGNTSAASVPCALDEAVRDGRIQRGQLILLEAFGGGFTWGSALVRF	PGPT0008355_6373	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
BMS020_02471	930	fabD_2	COG0331	Malonyl CoA-acyl carrier protein transacylase	ATGACGCAATTTGCTTTTGTGTTCCCGGGACAGGGCTCTCAGGCCGTAGGCATGCTGGCCGATATGGCGGCGACCTGGCCGGTCATTGAAGAGACCTTCGGTGAAGCTTCCGCAGCGTTGGGTTACGATCTGTGGGCGCTGACGCAACAGGGCCCGGCAGAAGAACTGAATAAGACCTGGCAGACCCAGCCGGCGCTGCTGACCGCCTCCGTGGCGCTGTACCGCGTCTGGCAGCAGCAGGGCGGCAAAGCGCCGGCGCTGTTGGCAGGCCACAGCCTTGGCGAATACTCCGCGCTGGTTTGCGCGGGCGTTATCGCTTTCGCTGATGCCGTTCGCCTGGTTGAACTGCGCGGCAAATTCATGCAGGAAGCCGTACCGGAAGGTACCGGCGCCATGTCAGCGATTATCGGTCTGGACGACGCGGCTATCGCCAAAGCCTGTGAAGACTCGGCCGAAGGGCAGGTCGTCTCTCCGGTGAACTACAATTCCCCGGGACAGGTGGTTATCGCCGGTCACAAAGAGGCCGTCGAACGCGCAGGCGTCGCCTGTAAAGCCGCGGGCGCTAAACGCGCGCTGCCGCTGCCGGTGAGCGTGCCCTCCCACTGTGCGCTGATGAAGCCCGCTGCGGAAAAACTGGCGCTTGAGCTGCAGAACATCACCTTCAACGCGCCGACGATTCCGGTGGTAAATAACGTCGACGTGAAGTGCGAAACCGCGCCGGACGCCATTCGCGACGCGCTGGTACGCCAGCTGTATAGCCCGGTTCAGTGGACCAAAACCGTTGAGTTTATGGCTGCTCAGGGCGTCACGCATCTGTATGAGGTTGGCCCGGGTAAAGTCCTCACCGGCCTGACCAAACGTATTGTTGACACCCTGACCGCTTCCGCGCTTAACGAGCCGGCGGCGATGTCTGCGGCGCTTGAGCAATAA	MTQFAFVFPGQGSQAVGMLADMAATWPVIEETFGEASAALGYDLWALTQQGPAEELNKTWQTQPALLTASVALYRVWQQQGGKAPALLAGHSLGEYSALVCAGVIAFADAVRLVELRGKFMQEAVPEGTGAMSAIIGLDDAAIAKACEDSAEGQVVSPVNYNSPGQVVIAGHKEAVERAGVACKAAGAKRALPLPVSVPSHCALMKPAAEKLALELQNITFNAPTIPVVNNVDVKCETAPDAIRDALVRQLYSPVQWTKTVEFMAAQGVTHLYEVGPGKVLTGLTKRIVDTLTASALNEPAAMSAALEQ	PGPT0008350_3659	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
BMS020_02472	735	fabG_4		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAGTTTTGAAGGAAAAATCGCGCTGGTTACCGGTGCAAGCCGCGGTATTGGCCGCGCCATCGCTGAAACGCTCGTCGCCCGCGGCGCGAAAGTTATCGGTACTGCGACCAGCGAAAGCGGCGCGCAGGCGATCAGCGACTATTTAGGCGCCAACGGTAAAGGTCTGATGTTGAATGTGACCGACCCGGCATCTATTGAATCTGTTCTGGAAAATGTGCGCGCAGAGTTTGGCGAAGTGGATATCCTGGTGAATAATGCCGGGATTACTCGCGACAACCTGTTAATGCGCATGAAAGATGACGAGTGGAACGATATTATCGAAACCAACCTGTCATCGGTTTTCCGTCTGTCAAAAGCGGTAATGCGCGCTATGATGAAAAAGCGTCATGGACGTATTATCACTATCGGTTCTGTGGTTGGTACCATGGGAAATGCGGGTCAGGCCAACTACGCTGCGGCGAAAGCGGGTCTGATCGGCTTCAGTAAATCACTGGCGCGTGAAGTTGCGTCACGCGGTATTACTGTAAACGTTGTTGCTCCGGGCTTTATTGAAACGGACATGACGCGTGCGCTGACCGATGAGCAGCGTGCGGGTACGCTGGCGGCAGTTCCTGCGGGGCGCCTTGGCACCCCAAATGAAATCGCCAGCGCGGTGGCATTTTTAGCCTCTGACGAAGCAAGTTACATCACTGGTGAAACCCTGCACGTCAACGGCGGAATGTACATGGTCTGA	MSFEGKIALVTGASRGIGRAIAETLVARGAKVIGTATSESGAQAISDYLGANGKGLMLNVTDPASIESVLENVRAEFGEVDILVNNAGITRDNLLMRMKDDEWNDIIETNLSSVFRLSKAVMRAMMKKRHGRIITIGSVVGTMGNAGQANYAAAKAGLIGFSKSLAREVASRGITVNVVAPGFIETDMTRALTDEQRAGTLAAVPAGRLGTPNEIASAVAFLASDEASYITGETLHVNGGMYMV	PGPT0003180_18460	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
BMS020_02473	237	acpP_1		Acyl carrier protein	ATGAGCACTATCGAAGAACGCGTTAAGAAAATTATCGGCGAGCAGCTGGGCGTTAAGCAGGAAGAAGTTACCAACAATGCTTCCTTCGTTGAAGACCTGGGCGCTGATTCTCTTGACACCGTTGAGCTGGTAATGGCTCTGGAAGAAGAGTTTGATACTGAGATTCCGGACGAAGAAGCTGAGAAAATCACCACCGTTCAGGCTGCCATTGATTACATCAACGGCCACCAGGCGTAA	MSTIEERVKKIIGEQLGVKQEEVTNNASFVEDLGADSLDTVELVMALEEEFDTEIPDEEAEKITTVQAAIDYINGHQA	PGPT0011375_265	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
BMS020_02474	1242	fabF_2	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	GTGTCTAAGCGTCGTGTAGTTGTGACCGGACTGGGCATGTTGTCTCCTGTCGGCAATACCGTAGAGTCTACCTGGAAAGCTCTCCTTGCCGGTCAGAGTGGCATCAGCCTGATCGACCATTTCGATACTAGCGCCTATGCAACGAAATTTGCTGGCTTAGTAAAGGATTTTAACTGTGATGACATTATCTCGCGCAAAGAGCAGCGCAAGATGGATGCCTTCATTCAATATGGAATTGTCGCTGGCGTTCAGGCCATGCAGGATTCTGGCCTTGAAGTGACGGAAGAGAATGCTACCCGTATTGGCGCCGCGATCGGCTCCGGTATTGGCGGCCTCGGCTTGATCGAAGAAAACCACAGTTCGCTGGTCAACGGCGGACCGCGTAAGATCAGCCCATTCTTCGTTCCCTCCACAATTGTTAACATGGTGGCCGGGCATCTGACCATCATGTTTGGTCTGCGTGGACCAAGTATCTCCATCGCGACCGCCTGTACTTCAGGCGTGCACAACATCGGTCAGGCTGCGCGCATCATCGCCTATGGCGATGCCGATGCGATGGTGGCAGGCGGTGCGGAAAAAGCCAGTACCCCGCTTGGCGTGGGCGGCTTTGGCGCAGCGCGGGCGCTCTCCACGCGCAATGACAACCCGCAGGCGGCAAGCCGTCCGTGGGATAAAGATCGCGACGGCTTCGTGCTGGGCGACGGCGCGGGCATGGTGGTGCTGGAAGAGTACGAGCATGCGAAAAAACGCGGCGCAAAAATCTACGCCGAGATCGTCGGCTTCGGCATGAGCAGCGATGCTTACCACATGACGTCACCGCCGGAAGATGGCGCGGGCGCCGCGCTGGCGATGGTGAATGCCATTCGCGATGCGGGCATCGAACCAGGCCAGATCGGCTACGTCAATGCCCACGGCACCTCGACGCCGGCTGGCGATAAAGCGGAAGCGCAAGCGGTTAAGTCTGTCTTCGGCGATGCGGCGAGCCGCGTACTGGTGAGCTCCACCAAATCCATGACCGGGCATCTGCTGGGCGCGGCAGGGGCGGTAGAGTCGATTTACTCTATCCTGGCGCTGCGCGATCAGGCGGTTCCGCCGACGATCAACCTCGACAACCCGGATGAGGGCTGCGACCTCGACTTCGTTCCGCACGAAGCGCGTCAGGTTTCCGGTATGGAGTACACCCTGTGCAACTCCTTCGGCTTCGGCGGCACTAACGGTTCGCTGATCTTCAAAAAAGTGTGA	MSKRRVVVTGLGMLSPVGNTVESTWKALLAGQSGISLIDHFDTSAYATKFAGLVKDFNCDDIISRKEQRKMDAFIQYGIVAGVQAMQDSGLEVTEENATRIGAAIGSGIGGLGLIEENHSSLVNGGPRKISPFFVPSTIVNMVAGHLTIMFGLRGPSISIATACTSGVHNIGQAARIIAYGDADAMVAGGAEKASTPLGVGGFGAARALSTRNDNPQAASRPWDKDRDGFVLGDGAGMVVLEEYEHAKKRGAKIYAEIVGFGMSSDAYHMTSPPEDGAGAALAMVNAIRDAGIEPGQIGYVNAHGTSTPAGDKAEAQAVKSVFGDAASRVLVSSTKSMTGHLLGAAGAVESIYSILALRDQAVPPTINLDNPDEGCDLDFVPHEARQVSGMEYTLCNSFGFGGTNGSLIFKKV	PGPT0008360_5032	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
BMS020_02475	810	pabC	COG0115	Aminodeoxychorismate lyase	ATGTTCTTGATAAATGGCGTTGAACAGGACACGCTGGCGGCGAACGATCGCGCCGTCCAGTTTGGCGACGGTTGTTTTACCACCGCCCGTATACAGCACGGGCAGGTTGCGTTACTGGACGCCCATCTGCAGCGTTTGCAGACGACCTGCGAAAAGTTACGCATCCCATTTGACGACTGGCTGACGTTGAGCGACGAGATGCAGCGTCTGGCTCGGCCGCACGCCCAGGGTGTGCTTAAGGTGGTCCTCACCCGCGGCGTCGGGGGGAGGGGATACAGCACGGCGGGCTGCGCGTCGCCCACCCGCATTCTGAGCGTCTCTTCGCTTCCGGCGCACTACGCTCGCTGGCGGGAGGAGGGCATTACCCTGACCCGAAGCCCGGTGACCCTGGGGCGCAACCCCTGTCTGGCCGGTCTGAAGCATCTTAATCGTCTGGAGCAGGTGCTGATCCGCTCTCATCTTGAACAGACGGACGCCGATGAGGCGCTGGTCCTTGACAGTGACGGGTGGCTTACGGAATGCTGTGCCGCGAATTTATTCTGGCGTCAGGGACGGGATGTCTTTACTCCGCGACTCGATTATGCCGGGGTCAACGGCATAATGCGGCAGCGTTGTATCGCGCAGCTGGCACCATCGACGTTTCGCGTTGTCGAAGTGACAGCGCGTCCCGAGACGTTGCGGGAGGCCGATGAAGTGCTGATCTGCAATGCGCTTATGCCGCTGGTGCCGGTTCGTCGCTGGGAGGAGACCGTCTGGTCCTCTCGCGAGCTTTACCATTTTTTAGCCCCTTTGTGTGAGCTGTCTGGTTAG	MFLINGVEQDTLAANDRAVQFGDGCFTTARIQHGQVALLDAHLQRLQTTCEKLRIPFDDWLTLSDEMQRLARPHAQGVLKVVLTRGVGGRGYSTAGCASPTRILSVSSLPAHYARWREEGITLTRSPVTLGRNPCLAGLKHLNRLEQVLIRSHLEQTDADEALVLDSDGWLTECCAANLFWRQGRDVFTPRLDYAGVNGIMRQRCIAQLAPSTFRVVEVTARPETLREADEVLICNALMPLVPVRRWEETVWSSRELYHFLAPLCELSG	PGPT0008020_1465	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008020-pabC-K02619	NA	NA
BMS020_02476	1023	mltG_1	COG1559	Endolytic murein transglycosylase	ATGAAGAAAATGTTACGTTTTATCCTGTTGCTGGTCGTGCTGTTGGGCATCGCCGCGGCGGCAGGAATGTGGAAGGTACGCCAGCTGGCGGACAGCAAGCTGCTGATTAAAGAAGAGACCATCTTTACCCTCGAAGCCGGCACCGGCCGGCTGGCGCTGGGGCAGGATCTCTATCGCGAGAAGGTGATCAATCGTCCGCGCGTGTTCCAGTGGCTGCTGCGGATGGAGCCTGAGCTGTCTCACTTCAAGGCCGGGACCTATCGTTTCACGCCGCAAATGACGGTACGCGAAATGCTGCAGCTGCTGGCCAGCGGCAAAGAGGCGCAGTTTCCGCTGCGCTTTGTCGAAGGCATGCGCGTCAGCGACTACCTTCGTCAGCTGCGCGATGCCCCCTACGTGAAGCACACGCTTGAAGACGATAGCTACGCGACGGTGGCTAAGGCTTTAGGTCTTGACCACGCCGACTGGGTGGAAGGTTGGTTCTGGCCGGATACCTGGATGTACACCGCCAATACCAGCGACATCGCCATCCTCAAGCGCGCGCATCAGAAAATGGTCACCGAAGTGGCGAAGGTCTGGGAAGGACGGATGGATAATCTGCCCTATGACGATCAGAATCAGCTGTTGACCATGGCCTCGATTATTGAGAAAGAGACCGCGGTGGCGGAAGAGCGCGATCGCGTCGCGTCGGTGTTTATCAACCGCCTGCGCATCGGCATGCGTTTACAGACTGATCCAACGGTGATCTACGGGATGGGAGAAGGGTATAATGGTAAGTTAACGCGTAAGGATCTGGAGACGCCGACCGCGTACAATACCTATACCATCAGCGGCCTGCCGCCAGGCCCTATTGCGGTGCCGGGCGAAGCGTCGCTGAAGGCGGCCGCCCATCCGGCGAAAACGCCATACCTCTATTTTGTCGCCGACGGGAAAGGGGGCCATACGTTTACCACAAACCTGGTCAGCCATAACCGCGCGGTGCAGGACTATCTGAAAGTACTTAAGGAAAAAAATGCGCAGTAA	MKKMLRFILLLVVLLGIAAAAGMWKVRQLADSKLLIKEETIFTLEAGTGRLALGQDLYREKVINRPRVFQWLLRMEPELSHFKAGTYRFTPQMTVREMLQLLASGKEAQFPLRFVEGMRVSDYLRQLRDAPYVKHTLEDDSYATVAKALGLDHADWVEGWFWPDTWMYTANTSDIAILKRAHQKMVTEVAKVWEGRMDNLPYDDQNQLLTMASIIEKETAVAEERDRVASVFINRLRIGMRLQTDPTVIYGMGEGYNGKLTRKDLETPTAYNTYTISGLPPGPIAVPGEASLKAAAHPAKTPYLYFVADGKGGHTFTTNLVSHNRAVQDYLKVLKEKNAQ				NA	NA	NA	NA	NA
BMS020_02477	642	tmk_1	COG0125	Thymidylate kinase	ATGCGCAGTAACTATATCGTCATCGAGGGGCTGGAGGGCGCCGGGAAGACCACCGCACGTCAACTGGTGGTGGAGACGCTGCAGTCGGCAGGTATTCACGATATGGTGTTTACCCGTGAGCCGGGGGGCACAATCCTTGCCGAAAAACTGCGTAGCCTGGTGCTGGATATCCAGTCCACGGGCGATGAAGTGATTAACGATAAAGCGGAAGTGCTGATGTTTTACGCGGCGCGCGTCCAGCTGGTGGAGACCGTGATTAAGCCTGCTCTGGCTCGCGGCCAGTGGGTGATCGGCGATCGTCACGATCTCTCCACTCAGGCCTATCAGGGCGGCGGCAGGGGGATTGACCGCACGATGCTGGCGACGCTGCGTGACGCCGTTCTCGGCGATTTTCGACCTAATTTGACGCTGTACCTCGACGTCACGCCGGAAGTGGGCCTGCGGCGCGCCCGCGCCCGCGGCGAACTGGATCGCATTGAGCAGGAGTCCATGAACTTCTTCAATCGTACCCGCGCGCGCTACCTTGAGCTGGCCGCGGCGGATCCTTCTATCCGCACGGTGGACGCGACGCAGCCGCTGGATGCCGTCGCGCGCGATATTCGCGCCACGATCGTCCAGTGGATGGCGGAGCAACCGGCATGA	MRSNYIVIEGLEGAGKTTARQLVVETLQSAGIHDMVFTREPGGTILAEKLRSLVLDIQSTGDEVINDKAEVLMFYAARVQLVETVIKPALARGQWVIGDRHDLSTQAYQGGGRGIDRTMLATLRDAVLGDFRPNLTLYLDVTPEVGLRRARARGELDRIEQESMNFFNRTRARYLELAAADPSIRTVDATQPLDAVARDIRATIVQWMAEQPA	PGPT0021395_2435	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021395-tmk-K00943	NA	NA
BMS020_02478	1005	holB	COG0470	DNA polymerase III subunit delta'	ATGAAATGGTATCCGTGGCTGCGCCCCTCGTTCGAGCAACTGGTCGGTAGCTATCAGGCCGGACGAGGCCACCACGCCTTACTGTTACAATCCCTGAGCGGGATGGGCGGCGAGGCGTTGATGTATGCGCTGTGCCGCTTCCTGATGTGCCGCCAGCCCGAAGGGCATAAAAGCTGCGGTCACTGCCACAGTTGCCAGCTGATGCAGGCCGGTACGCACCCTGATTACTACCCGCTGAGCCCCGAGAAAGGCAAAAGCGCGCTGGGTATTGACGCGGTGCGCGATGTCAACGACAAGCTCTATGAGCGCGCGCGCCTCGGTGGGGCGAAGGTGGTATGGATTAGCGATGCCGCCTTGCTGACCGATGCCGCCGCCAACGCGTTGCTGAAAACGCTGGAGGAGCCGCCGGAAAATACCTGGTTCTTCCTCGCCTGCGAGGAGCCGGCGCGTCTGCTGACCACTCTGCGCAGTCGCTGCCGCCTGCACCACCTGTCGCCGCCGACGGAATCTTATGCCCTGGCCTGGCTGGAGCGTGAGGTGAACCTGCCGCAGGAGGCGCTGCTGACCGCGTTACGTCTGTGCGCCAGCGCGCCGGCCGCCGCGCTTGAGCTGCTTAAGGAGCCGCAGTGGACGGCGCGACAGCAGCTGTGTCAGGCGCTGGCGACCACGCTGGCGAGCGGTGACTGGCTGGCGCTGCTGCCAATACTCAATCATGAACAGGCGGCGGTTCGCCTGCAGTGGCTGGCATCGCTGCTGGTCGATGCGCAAAAACGACAGCAGGGAATTGCCCTGGTGAGTAATCCGGATGTCTGGCCGCTGCTGGAGCAGCTGGCGCATAGTCTGCCCGCCTCCCGGCTGCAGGCGATTGCCCATGACGTCTGTACCTGCCGCGAGCAATTGCTGAACGTCGTCGGCGTCAACCGCGAACTGCTGCTCACCGAGCGCCTGCTGCGCTGGGAACATTACCTGCAACCCGGGACGGTTTTACCCGTCTCCCACCTCTGA	MKWYPWLRPSFEQLVGSYQAGRGHHALLLQSLSGMGGEALMYALCRFLMCRQPEGHKSCGHCHSCQLMQAGTHPDYYPLSPEKGKSALGIDAVRDVNDKLYERARLGGAKVVWISDAALLTDAAANALLKTLEEPPENTWFFLACEEPARLLTTLRSRCRLHHLSPPTESYALAWLEREVNLPQEALLTALRLCASAPAAALELLKEPQWTARQQLCQALATTLASGDWLALLPILNHEQAAVRLQWLASLLVDAQKRQQGIALVSNPDVWPLLEQLAHSLPASRLQAIAHDVCTCREQLLNVVGVNRELLLTERLLRWEHYLQPGTVLPVSHL				NA	NA	NA	NA	NA
BMS020_02479	795	ycfH	COG0084	putative metal-dependent hydrolase YcfH	ATGTTTTTAGTCGACTCCCACTGCCATCTTGATGGTCTGGATTATCAAACTCTGCACAAAAACGTCGATGACGTGCTGGCAAAAGCGGCCGCGCGCGATGTGAAATTTTGCCTGGCGGTCGCCACGACGCTGCCTGGCTACCGCAGTATGCGCGAGCTGGTAGGGAGGCGTGACAATGTCGTTTTCTCCTGTGGCGTGCACCCGTTAAACCAGGACGAGCCCTACGAGGTGGAGACGCTGCGCACGCTGGCGGCGGAAGAGGGCGTCGTCGCGATGGGAGAGACCGGGCTGGATTATTTTTATACCCCGGAAACCAAAGCCCAGCAGCAAACCTCATTCCGTGACCATATCCGCATCGGCCGGGAGCTGAATAAGCCAGTGATCGTGCATACCCGTGACGCTCGCGCCGATACCCTGGCCATTTTACGTGAAGAAAAGGTGACGGATTGCGGAGGCGTACTACACTGTTTCACTGAGGACAGGGAGACGGCGGGTAAGCTGCTCGACATGGGGTTCTATATCTCGTTTTCCGGTATCGTCACTTTCCGTAACGCCGAGCAACTGCGCGATGCGGCGCGCTATGTTCCGCTGGATCGTCTGCTGGTGGAGACCGATTCGCCGTACCTGGCGCCGGTACCCCATCGCGGCAAAGAGAACCAGCCGGCGATGGTTCGTGACGTTGCTGAATACATGGCGGTACTGAAGGGTGTGTCGCTGGAGCAACTGGCTCAGCAGACCACCGACAATTTTGCCACGCTGTTCCACATTGACCCCGCCCGCTTGCAACCTGCTTGA	MFLVDSHCHLDGLDYQTLHKNVDDVLAKAAARDVKFCLAVATTLPGYRSMRELVGRRDNVVFSCGVHPLNQDEPYEVETLRTLAAEEGVVAMGETGLDYFYTPETKAQQQTSFRDHIRIGRELNKPVIVHTRDARADTLAILREEKVTDCGGVLHCFTEDRETAGKLLDMGFYISFSGIVTFRNAEQLRDAARYVPLDRLLVETDSPYLAPVPHRGKENQPAMVRDVAEYMAVLKGVSLEQLAQQTTDNFATLFHIDPARLQPA				NA	NA	NA	NA	NA
BMS020_02480	1434	ptsG	COG1263	PTS system glucose-specific EIICB component	ATGTTTAAGAATGCATTTGCTAACCTGCAGAAGGTCGGTAAATCGCTGATGCTGCCGGTATCCGTACTGCCTATCGCAGGTATCCTGCTGGGCGTCGGTTCCGCAAACTTCAGCTGGCTGCCAGCCGTGGTCTCCCACGTCATGGCAGAAGCAGGCGGTTCTGTTTTCGCCAACATGCCGCTGATCTTCGCTATCGGTGTGGCCCTCGGCTTCACCAATAACGACGGTGTATCCGCACTGGCTGCAGTCGTAGCTTACGGCATCATGGTGAAAACCATGGCGGTGGTTGCGCCGCTGGTGCTGCATTTACCTGCTGACGAGATTGCGGCAAAACACCTGGCTGATACCGGCGTGCTTGGCGGTATTATCTCCGGTGCTATCGCCGCGTACATGTTCAACCGCTTCTATCGCATCAAGCTGCCAGAATATCTCGGCTTCTTTGCGGGCAAGCGCTTTGTACCGATTATCTCTGGTCTGGCCGCTATCTTCACTGGCGTGATCCTCTCCTTCATTTGGCCGCCGATCGGTTCCGCGATCCAGACCTTCTCCCAGTGGGCTGCTTATCAGAACCCGGTGGTGGCGTTTGGTATCTACGGTTTCATCGAGCGTTGCCTGGTGCCGTTTGGTCTGCACCACATCTGGAACGTTCCTTTCCAGATGCAGATCGGCGAATACACCAACGCGGCGGGTCAGGTATTCCACGGCGATATCCCGCGCTACATGGCAGGCGACCCGACTGCGGGCAAACTGTCTGGCGGCTTCCTGTTCAAAATGTACGGTCTGCCGGCAGCGGCTATCGCGATTTGGCACTCTGCTAAACCGGAAAACCGCGCCAAAGTGGGCGGTATCATGATCTCCGCCGCGCTGACCTCGTTCCTGACCGGTATCACCGAGCCGATCGAGTTCTCGTTCATGTTCGTGGCGCCGATCCTGTACGTTATCCATGCCATCCTGGCGGGTCTGGCGTTCCCGATCTGTATCCTGCTGGGTATGCGTGACGGTACCTCGTTCTCTCACGGCCTGATCGACTTTATCGTGCTGTCCGGTAACAGCAGCAAGCTGTGGCTGTTCCCGATCGTCGGTATCTGCTATGCGATCGTGTACTACGTCATTTTCCGCGTGCTGATTAAAGCCCTGGATCTGAAAACCCCGGGTCGTGAAGATACCACCGAAGAGAGCAAAGCTGGCGCAACCAGCGAGATGGCTCCGGCTCTGGTCGCCGCTTTCGGCGGTAAAGAGAACATCACCAACCTCGACGCATGTATTACTCGTCTGCGTGTTAGCGTGGCGGATGTAGCGAAAGTTGACCAGGCTGGCCTGAAAAAACTGGGCGCCGCTGGCGTGGTAGTGGCAGGTTCTGGCGTACAGGCCATCTTCGGTACCAAGTCCGATAACCTGAAAACTGAAATGGATGAGTACATCCGTAACAGTTAA	MFKNAFANLQKVGKSLMLPVSVLPIAGILLGVGSANFSWLPAVVSHVMAEAGGSVFANMPLIFAIGVALGFTNNDGVSALAAVVAYGIMVKTMAVVAPLVLHLPADEIAAKHLADTGVLGGIISGAIAAYMFNRFYRIKLPEYLGFFAGKRFVPIISGLAAIFTGVILSFIWPPIGSAIQTFSQWAAYQNPVVAFGIYGFIERCLVPFGLHHIWNVPFQMQIGEYTNAAGQVFHGDIPRYMAGDPTAGKLSGGFLFKMYGLPAAAIAIWHSAKPENRAKVGGIMISAALTSFLTGITEPIEFSFMFVAPILYVIHAILAGLAFPICILLGMRDGTSFSHGLIDFIVLSGNSSKLWLFPIVGICYAIVYYVIFRVLIKALDLKTPGREDTTEESKAGATSEMAPALVAAFGGKENITNLDACITRLRVSVADVAKVDQAGLKKLGAAGVVVAGSGVQAIFGTKSDNLKTEMDEYIRNS	PGPT0015080_312	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
BMS020_02481	357	hinT	COG0537	Purine nucleoside phosphoramidase	ATGGCAGAAGAAACGATTTTCAGCAAAATCATTCGCCGGGAGATCCCGTCGGATATGGTTTATCAGGATGAGCTTGTGACCGCTTTTCGCGACATCTCCCCGCAGGCGCCCACCCACATTCTGATTGTCCCGAACGTTCTGATTCCTACCGTAAATGACGTTACCACTGAACATGAACTGGCCCTGGGCCGGATGATGACCGTCGCGGCGAAGATTGCCCGCGATGAAGGCCTCGCCGACGATGGCTACCGTTTGATCGTTAATTGCAACCGCCACGGCGGCCAGGAAGTTTACCATATCCATATGCATCTGCTGGGCGGTCGTCCGCTGGGTCCGATGCTGGCGCACAAAGGCTAA	MAEETIFSKIIRREIPSDMVYQDELVTAFRDISPQAPTHILIVPNVLIPTVNDVTTEHELALGRMMTVAAKIARDEGLADDGYRLIVNCNRHGGQEVYHIHMHLLGGRPLGPMLAHKG				NA	NA	NA	NA	NA
BMS020_02482	375			hypothetical protein	ATGCTCAGGACCCTTTTGGGCGCGTGTCTGGCGGCGGGGCTGCTGGCCGGATGTAGTTCACATCCGGAAATCCCGGTTTCTGACCAGCAGGCGCTGGTGATGGAGTCGAGCGTGCTGGCCGCCGGGATCAGCGCCAGCGAGCCTGTCGTCGTGGCGACGGAGATCCAGGCCACCGCCTCCTCTACGCTGTATAACGAGCGCCAACAGCCGGTCACCGTGCATTATCGTTTTTTCTGGTATGACGCCCGAGGGCTGGAGATGCACCCTCTGGAGGCGCCGCGCACCATCGTGGTTCCGGCTCGCTCCTCGGTGACGTTGTATGGCAGCGCCAATATCCTGGGGGCGCATAAGGCCCGCCTTTATCTTTATCTGTAA	MLRTLLGACLAAGLLAGCSSHPEIPVSDQQALVMESSVLAAGISASEPVVVATEIQATASSTLYNERQQPVTVHYRFFWYDARGLEMHPLEAPRTIVVPARSSVTLYGSANILGAHKARLYLYL				NA	NA	NA	NA	NA
BMS020_02483	642	lpoB	COG3417	Penicillin-binding protein activator LpoB	ATGATGAAAATGTGTCGCTATGCGTTAATCACAGCACTGGCGATATTCCTCGCAGGCTGTGCGGGGCTGCGTGAGCAGCCCGCGCCGGTAGAAGAGGCCAAACCGCAGCAGCCTGCGCAGCCGCAGCCCACGGTGCCGACGGTACCGGCGGTGCCATCCGTCCCGTCACAGCCAGGACCGATTGAGCATCAGGATCAGCAGTCGGGTCAGCCGGCGCCGCGCGTGCGTCATTATGACTGGAACGGCGCGGTGCAGCCGATGGTGGGACAGATGCTGCAGGCGGGCGGGGTCAATGCCGGCAGTATTCTGCTGGTTGACAGCGTGAACAACCGCACCAACGGTTCGCTGAATGCCGGAGAAGCTACCACCGCGTTACGCAACGCGCTGGCGGGCAACGGCAAATTTACCCTTGTTTCACCGCAGCAGCTGGCGGTCGCCAAGCAGCAGCTGGGCCTGTCGCCGCAGGACAGCCTCGGCAGCCGCAGCAAAGCCATGGGCATCGCCCGCAACGTGGGCGCGCAGTATGTGCTTTACTCCAATGCCACCGGCAACGTCAACGCGCCTGAGCTGAAGATGCAGTTGATGCTGGTGCAAACCGGCGAGATTATCTGGTCAGGTAAAGGTGCTGTTCAGCAACAATAA	MMKMCRYALITALAIFLAGCAGLREQPAPVEEAKPQQPAQPQPTVPTVPAVPSVPSQPGPIEHQDQQSGQPAPRVRHYDWNGAVQPMVGQMLQAGGVNAGSILLVDSVNNRTNGSLNAGEATTALRNALAGNGKFTLVSPQQLAVAKQQLGLSPQDSLGSRSKAMGIARNVGAQYVLYSNATGNVNAPELKMQLMLVQTGEIIWSGKGAVQQQ	PGPT0023869_47	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023869-lpoB|ycfM-K07337	NA	NA
BMS020_02484	828	thiK	COG0510	Thiamine kinase	GTGCTGTTCAGCAACAATAAGCTAACGCGCGACGAGCTCTTGTCGCGCTTCTTTCCCCACTATCATCCTGTCGCCTCGCTGAGCCAGACCGGCCTCAGCGGCGGCAGTGTGATTATCAGCGACGGCGACCGGCGACGAGTGCTGCGTCAGCCGCACGACCCGTCTGCCGCTGCCTGTTATTTTCGCCGTCAGTATCGCGCGCTGCGCCGGCTGCCTGCCAGGCTGGCGCCCAACCCCCTGTTTTACTCGCCCTGCTGGATGGTGGTGGAGTATTGCGCGGGTGAGGTGAAAAGCGAGTTACCTGACTGCCCGCAGCTGTCTGGCTTATTGTATGATTTGCATCAGCAACCGCGGTTTGGCTGGCGTGTTAGTCTCGGGCCGCTGCTGGCGCAGTACTGGCAGAGGAGCGATCCGGCCCGGCGCACGCCGCGCTGGCTACGCTGGCATCAGCGGCTGTGCCGCCGGGGCGAGCCTCGTCCTCTGCGCCTGGCGCCGCTGCATATGGACGTCCATGCCGGCAATATTATCCACAGCGACGCCGGTCTGAAGCTGATCGACTGGGAATATGCCGGCGATGGCGATATCGCGCTGGAGCTGGCCGCCGTATGGATCGCCCCGGGCGAGCGCCGCCAGCTGGTGACGGCGTATGCCCGGCGGGCGGCCATCGACCCGCAGCAGCTATGGCGGCAGGTGGCGCGCTGGCGTCCGTGGGTACTGCTGCTGATGGCGGGCTGGTATGAAATGCGCTGGCGGCAGAGTGGGGATCGGCAATTTATCACGCTGGCAGATGAAACATGGTGTCAGTTAGACAACGAACGCAAAGGATAA	MLFSNNKLTRDELLSRFFPHYHPVASLSQTGLSGGSVIISDGDRRRVLRQPHDPSAAACYFRRQYRALRRLPARLAPNPLFYSPCWMVVEYCAGEVKSELPDCPQLSGLLYDLHQQPRFGWRVSLGPLLAQYWQRSDPARRTPRWLRWHQRLCRRGEPRPLRLAPLHMDVHAGNIIHSDAGLKLIDWEYAGDGDIALELAAVWIAPGERRQLVTAYARRAAIDPQQLWRQVARWRPWVLLLMAGWYEMRWRQSGDRQFITLADETWCQLDNERKG	PGPT0009030_227	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0009030-thiK-K07251	NA	NA
BMS020_02485	1023	nagZ_1	COG1472	Beta-hexosaminidase	GTGGGCCCAGTGATGTTGGATGTTGAAGGGTATGAACTGGATGCGGAAGAGCGAGAGATTCTGGCGCATCCGCTGGTGGGAGGGTTGATCCTCTTCACCCGAAATTATCACGATCCGGCGCAGCTGCGGGAGCTGGTGCGCCAGATCCGCGAAGCCTCCCGTAACCATCTGGTGGTGGCGGTCGATCAGGAAGGGGGACGCGTTCAGCGTTTCCGCGAAGGCTTTACCCGTTTACCGGCGGCCCAGTCTTTCGCCGCGCTGCTGGGGATGGAAGAGGGGGGCAAACTGGCCGCCGAGGCCGGCTGGCTGATGGCCAGCGAAATGATCGCCATGGACATCGATATTAGCTTTGCGCCAGTGCTGGACGTCGGCCATATCAGCGCCGCGATCGGCGAACGTTCTTATCATGAAGATCCGCAGAAAGCGCTGACGATGGCGCGTCACTTCATTGACGGCATGCACGCCGCGGGCATGAAAACCACCGGCAAACACTTCCCGGGACACGGGGCGGTGACTGCCGATTCGCATAAAGAAACCCCATTCGATCCGCGTCCGGCATCGGTCATCCGCGACCACGATATGGCGGTATTCAAAAGCCTTATCGCCGAGCAGCGTCTGGATGCCATTATGCCGGCGCATGTGATTTATCCGGAGCTCGATCCGCGTCCGGCCAGCGGTTCAGCGTACTGGCTGAAGACGGTGCTGCGCGGCGAGCTGGGCTTCGACGGGGTGATTTTCTCCGACGATCTGTCGATGGAAGGGGCGGCGATCATGGGCAGCTATGCCGAACGCGGCCAGGCATCGCTCGACGCCGGTTGCGATATGATACTGGTCTGCAATAATCGTAAGGGCGCGGTCAGTGTGCTGGATAACCTGTCGCCGATCAAAGCAGAGCGTGTTACGAAATTGTATCATAAAGGTTCCTTTTCCCGTCAGGAGTTAAGGGATTCAGCCCGTTGGAAAACGGTGAGTGCCCAGCTGGAGCAGCTTCATGCGCGCTGGCAAGAGGCGAAGTCCGCGTAA	MGPVMLDVEGYELDAEEREILAHPLVGGLILFTRNYHDPAQLRELVRQIREASRNHLVVAVDQEGGRVQRFREGFTRLPAAQSFAALLGMEEGGKLAAEAGWLMASEMIAMDIDISFAPVLDVGHISAAIGERSYHEDPQKALTMARHFIDGMHAAGMKTTGKHFPGHGAVTADSHKETPFDPRPASVIRDHDMAVFKSLIAEQRLDAIMPAHVIYPELDPRPASGSAYWLKTVLRGELGFDGVIFSDDLSMEGAAIMGSYAERGQASLDAGCDMILVCNNRKGAVSVLDNLSPIKAERVTKLYHKGSFSRQELRDSARWKTVSAQLEQLHARWQEAKSA	PGPT0012175_3953	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207	NA	NA
BMS020_02486	543			hypothetical protein	ATGATTATCTATTTACACGGTTTTGACTCGAACAGCCCCGGTAACCACGAGAAGGTGATGCAGTTGCAGTTTATTGACCCTGACGTGCGGTTGATAAGCTACAGCACGCGCCACCCCAAGCACGACATGCAGCATTTGCTGAAAGAGGTCGATAAAATGCTGCAGCTTACCGCCGATGACCGGCCGCTGATCTGCGGCGTTGGACTCGGCGGTTACTGGGCTGAGCGGATTGGTTTCCTGTGCGATATTCGTCAGGCGGTGTTCAATCCGAACCTGTTTCCGCATGAGAATATGGAAGGCAAAATCGACCGACCGGAAGAGTATGCTGACATCGCCACCAAGTGCGTGACCAACTTTCGCGAGAAGAACCGCGATCGCTGCCTGGTGGTGCTTTCCCGGCAGGACGAAGCGCTGGACAGCCAGCGTTCCGCCGACCTTCTGCACCACTATTATGAAATTATCTGGGATGAAGAGCAGACCCATAAGTTTAAAAACATCTCGCCGCACCTGCAGCGGCTGAAAGCGTTTAAAACCCTCGGTTAA	MIIYLHGFDSNSPGNHEKVMQLQFIDPDVRLISYSTRHPKHDMQHLLKEVDKMLQLTADDRPLICGVGLGGYWAERIGFLCDIRQAVFNPNLFPHENMEGKIDRPEEYADIATKCVTNFREKNRDRCLVVLSRQDEALDSQRSADLLHHYYEIIWDEEQTHKFKNISPHLQRLKAFKTLG				NA	NA	NA	NA	NA
BMS020_02487	1305	ndh	COG1252	NADH dehydrogenase	ATGACTACGCCATTGAAAAAAATCGTAATTGTGGGTGGCGGCGCAGGCGGACTGGAACTGGCAACTCAGCTGGGGAAAAAGTTAGGGCGCCATAAGAAAGCGAAAATCACCCTGGTGGACCGTAACCACAGCCATCTGTGGAAGCCGCTGCTGCACGAAGTGGCCACCGGTTCTCTGGATGAAGGCGTTGATGCGCTGAGCTATCTGGCCCATGCCCGCAACCACGGCTTCCAGTTCCAGCTGGGGTCGGTGGTCGATATCAATCGCGAAGGGAAGACCATCACCCTCGGCGAGCTGCGCAATGAAAAAGGCGAGCTGCTGGTGGCTGAGCGTAAACTGCCGTACGACACGCTGGTGATGGCGCTGGGCAGTACCTCGAATGACTTCAACACCCCTGGGGTGAAAGAGAACTGCATTTTCCTCGACAACCCGCATCAGGCGCGTCGTTTCCATCAGGAGATGCTCAACCTGTTCCTTAAGTACTCCGCGAACCTTGGCGCTAACGGTAAAGTGAACATTGCCATCGTCGGCGGCGGCGCCACCGGCGTGGAACTCTCCGCTGAGTTGCATAATGCCGTGAAACAGCTGCACAGCTACGGTTACAAAGGGCTGACCAACGAAGCGCTGAACGTCACGCTGGTCGAAGCGGGCGAACGCATTCTGCCTGCGCTGCCGCCGCGCATTTCCGGCGCGGCGCACAATGAGCTGACCAAGCTGGGCGTACGGGTGCTGACGCAGACCATGGTCACCAGCGCCGATGCGGGCGGCCTGCACACCAAAGATGGCGAATATATTGAAGCGGATCTGATGGTCTGGGCGGCCGGGATCAAAGCGCCAGATTTCATGAAAGAGATCGGCGGCCTGGAAACCAACCGTATCAATCAGTTGGTGGTTGAGCCGACGCTGCAGACCACCCGCGACGCGGATATTTTCGCCATCGGCGACTGCGCCTCCTGCGCCCGCCCGGAAGGCGGGTTTGTGCCACCGCGTGCTCAGGCGGCGCACCAGATGGCCACCTGCGCGCTGAATAACATCCTCGCGCAGATGAAAGGCAAACCGCTGAAGGCGTATACCTATAAAGACCATGGCTCGCTGGTGTCGCTGTCCAATTACTCCACCGTCGGCAGCCTGATGGGCAACCTGATGCGCGGCTCGATGATGGTGGAAGGGCGCATTGCGCGCTTCGTGTACATCTCCCTGTACCGTATGCACCAGATCGCCCTGCACGGCTATTTCAAAACCGGCCTGATGATGCTGGTTGGGCGCATTAACCGCATCATTCGCCCGCGCCTCAAGCTGCACTAA	MTTPLKKIVIVGGGAGGLELATQLGKKLGRHKKAKITLVDRNHSHLWKPLLHEVATGSLDEGVDALSYLAHARNHGFQFQLGSVVDINREGKTITLGELRNEKGELLVAERKLPYDTLVMALGSTSNDFNTPGVKENCIFLDNPHQARRFHQEMLNLFLKYSANLGANGKVNIAIVGGGATGVELSAELHNAVKQLHSYGYKGLTNEALNVTLVEAGERILPALPPRISGAAHNELTKLGVRVLTQTMVTSADAGGLHTKDGEYIEADLMVWAAGIKAPDFMKEIGGLETNRINQLVVEPTLQTTRDADIFAIGDCASCARPEGGFVPPRAQAAHQMATCALNNILAQMKGKPLKAYTYKDHGSLVSLSNYSTVGSLMGNLMRGSMMVEGRIARFVYISLYRMHQIALHGYFKTGLMMLVGRINRIIRPRLKLH	PGPT0004020_2776	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
BMS020_02488	540			hypothetical protein	GTGAATAAATCTATGTTGGCGGGTATAGGGATAGGCGTGGCTGCCGCGCTGGGCGTTGCAGCTGTCGCTGGTCTCAACGTGTTAGATCGCGGCCCGCAGTATGCGCAAGTGGTCTCCAGTACACCGATTAAAGAAACCGTGAAAACGCCGCGCCAGGAATGCCGTAATGTCACCGTGACCCATCGTCGTCCGGTACAGGATGAAAACCGCATCGCCGGTTCCGTGCTGGGCGCGGTGGCGGGCGGGGTGATTGGCCACCAGTTCGGCGGCGGTCACGGACGCAGCGTGGCGACGGTGGTGGGCGCGCTGGGCGGCGGCTATGCCGGTAACCAGATCCAGGGCGCGATGCAGGATAACGACACCTACACCACCACGCAGCAGCGCTGCAAAACGGTGTATGACAAATCCGACAAAATGCTGGGCTACGATGTGACCTATAAGATAGGCGATCAGCAGGGGAAAATCCGTATGGATCACGATCCTGGCAGCCAGATCCCGCTGGACAACAACGGCCAGCTGGTCCTGAACAACAAAATCTAA	MNKSMLAGIGIGVAAALGVAAVAGLNVLDRGPQYAQVVSSTPIKETVKTPRQECRNVTVTHRRPVQDENRIAGSVLGAVAGGVIGHQFGGGHGRSVATVVGALGGGYAGNQIQGAMQDNDTYTTTQQRCKTVYDKSDKMLGYDVTYKIGDQQGKIRMDHDPGSQIPLDNNGQLVLNNKI				NA	NA	NA	NA	NA
BMS020_02489	2190	iutA		Ferric aerobactin receptor	ATGAAAAAGCGCCTCTGGGTGCTCCACCCTCTGCTGCTGGCCAGCGCGCTGCCTGCGCTGGCGGCTCAGTCTGATGAAGACAGCATCATCGTTAGCGCGAACCGCACCCACCGCACCGTGGCCGAGATGGCCCAAACCACCTGGGTCATTGAGGGCCAGGAGATTGAGCAGCAGGTCCAGGGCGGGAAAGAGTTCAAAGACGTGCTGGCGCAGCTGATCCCGGGCATCGATGTCAGCAGCCAGGGGCGCACCAATTACGGGATGAACATGCGCGGGCGCGCCATCGTCGTGCTGATTGACGGCGTCCGGCTCAACTCCTCACGCACCGACAGTCGCCAGCTCGACGCCATCGATCCGTTCAACATCGAACATATCGAAGTGATCTCCGGGGCGACCTCACTGTACGGCGGCGGCAGTACCGGCGGACTTATCAACATCGTCACCAAAAAAGGGCAGCAGGATCGGCAGGTCGATCTTGAGGTGGGCAGCAAGAGCGGGTTTGCCAACAGCAACGATCATGATGAGCGCGTCGCAGCGGCCGTCAGCGGCGGGACAGACCACGCGTCCGGGCGTTTATCGGTAGCCTATCAGCGTTTCGGCGGCTGGTACGATGGCAACAACGATGCGCTGCTCCTCGATAACACCCAAACGGGGCTCCAGCACTCTGACCGTCTGGACGTCATGGGAACGGGGACGATCGAGATCGACGACAACCGCCAGCTGCAGCTGGTCACCCAGTATTATAAAAGCCAGGGCGATGATGACTATGGCCTGTGGCTCGGAAAGAATATGTCCGCGGTGACCAGCGGCGGCAAAGCGTACACCACCGATGGGCTCAATTCCGATCGTATCCCCGGCACCGAGCGCCATCTGATCAGCCTCCAGTACTCCGATGCCGACTTCTTCGGTCAGAATCTGGTGAGCCAGGTGTACTATCGCGATGAATCCCTCACCTTCTATCCGTTCCCGACGCTCAGCAAAGGCCAGGTCAGCAGTTTCTCCTCGTCGCAGCAGGATACCGATCAGTATGGGGCAAAGCTGACCCTGAACAGTCAGCCGCTGGCGGGCTGGGATCTTACCTGGGGTCTCGACGCCGATCATGAGACCTTCAATGCCAATCAGATGTTCTTCGATCTGCAACAATCGCTGGCTTCCGGCGGGCTGCACAACGAATCGATTTACACCACCGGCCGCTACCCGGGATACAGCATCTCCAACGTCGCGCCGTTCCTGCAGTCAAGCTACGATCTGAACGATATCTTTACCATCAGCGGCGGGGTTCGCTACCAGTGGACCGAAAACCGGGTTGACGACTTTGTCGGCTACGCCCAGCAACAGGATATCGCCAACGGCAAAGCGCGCTCCGCCGACGCCATCAAAGGTGGCAAAACCGATTATGACAACTTCCTGTTTAACGCCGGGATCGTCGCCCATCTGACCGAGCGTCAACAGACCTGGTTTAACTTCTCGCAGGGCGTTGAGCTGCCGGATCCGGGTAAATACTATGGCATCGGGAAATACGGCGCCGCGGTCAATGGTCATCTGCCGCTGCTCTCCAGCGTCAACGTCGATGACTCGCCGCTGCAGGGGATCAAAGTTAACTCGTATGAGCTGGGCTGGCGCTACACCGGCGATAACCTGCGCACCCAGCTGGCGGCGTATTACTCGACTTCGGATAAGACCATCGTGGTCAACCGTACCGACATGACCATCGATGTTCAGTCCGACAAGCGGCGTATTTACGGCGTTGAGGGAGCGGTCGATTACTTTATTCCGGACAGCGACTGGAGCGTCGGCGGCAACTTCAACGTGCTGAAATCACAGGTGCAGACCGATGGCCGCTGGCAAAAATGGGACGTCACCCTCGCCTCGCCGTCCAAAGCCACCGCCTGGGTAGGCTGGGCGCCGGATCCGTGGAGCCTGCGCGTGCAGAGCCAGCAGGTGTTTGACCTCAGCGACGCCGCCGGCAACAAGCTGGAAGGCTATAATACCGTCGATTTTATCGGTAGTTACGCGCTGCCGGTGGGGAAACTGACCTTCAGTATCGAAAACCTGCTTAACGAAGATTATGTCACCATCTGGGGCCAGCGCGCGCCGCTGCTCTACAGCCCAACCTACGGCAGCTCGTCGCTGTATGAATATAAAGGCCGTGGCCGTACCTTCGGTCTGAATTACGCGTTAACTTTCTGA	MKKRLWVLHPLLLASALPALAAQSDEDSIIVSANRTHRTVAEMAQTTWVIEGQEIEQQVQGGKEFKDVLAQLIPGIDVSSQGRTNYGMNMRGRAIVVLIDGVRLNSSRTDSRQLDAIDPFNIEHIEVISGATSLYGGGSTGGLINIVTKKGQQDRQVDLEVGSKSGFANSNDHDERVAAAVSGGTDHASGRLSVAYQRFGGWYDGNNDALLLDNTQTGLQHSDRLDVMGTGTIEIDDNRQLQLVTQYYKSQGDDDYGLWLGKNMSAVTSGGKAYTTDGLNSDRIPGTERHLISLQYSDADFFGQNLVSQVYYRDESLTFYPFPTLSKGQVSSFSSSQQDTDQYGAKLTLNSQPLAGWDLTWGLDADHETFNANQMFFDLQQSLASGGLHNESIYTTGRYPGYSISNVAPFLQSSYDLNDIFTISGGVRYQWTENRVDDFVGYAQQQDIANGKARSADAIKGGKTDYDNFLFNAGIVAHLTERQQTWFNFSQGVELPDPGKYYGIGKYGAAVNGHLPLLSSVNVDDSPLQGIKVNSYELGWRYTGDNLRTQLAAYYSTSDKTIVVNRTDMTIDVQSDKRRIYGVEGAVDYFIPDSDWSVGGNFNVLKSQVQTDGRWQKWDVTLASPSKATAWVGWAPDPWSLRVQSQQVFDLSDAAGNKLEGYNTVDFIGSYALPVGKLTFSIENLLNEDYVTIWGQRAPLLYSPTYGSSSLYEYKGRGRTFGLNYALTF	PGPT0003790_18785	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_02490	636	comR		HTH-type transcriptional repressor ComR	ATGACAACTGACGTTCAAAGTTGCGCCAAAAAAAGCCGTGGCCGACCGAAGGTGTTCGACAGGGATGCGGCGCTGGACAAAGCCATGACACTCTTCTGGCAGCACGGCTATGAGGCGACCTCGCTCGCCGATCTGGTCGAGGCGACAGGAGCAAAAGCCCCCACCCTGTATGCGGAATTTGTGAATAAAGAAGGACTGTTCCGCGCAGTATTGGATCGTTACATTTCGCGCTTTGCCGCGAAGCACGAAGCCGTGCTGTTTGCTGAGGGAAAAACCGTCGATCGGGCGTTGCGCGACTACTTCACCGCGGTCGCCACCTGCTTTACCAGCAAAGAGACGCCGGCCGGCTGCTTTATCATCAATACCTCCGCCGCGCTGGCCGCCTCCTCGACGGATATCGCCAACACCATCAAATCCCGCCATGCGATGCAGGAGCAGGCGCTAACCCAGTTTCTGCAGCAGCGGCAAGCGCAGGGCGAACTGCCTGCGGGCCGCGACGTGGCGCAGCTCGCGCAGTTTCTCAACTGTGTCCTGCAGGGGATGTCCATCAGCGCACGGGAAGGCGCCGATTTCGACAAACTGATGCAAATCACTGACACCACTCTCCGTCTCTGGCCGCTGGTCCTCGAGTCCTGA	MTTDVQSCAKKSRGRPKVFDRDAALDKAMTLFWQHGYEATSLADLVEATGAKAPTLYAEFVNKEGLFRAVLDRYISRFAAKHEAVLFAEGKTVDRALRDYFTAVATCFTSKETPAGCFIINTSAALAASSTDIANTIKSRHAMQEQALTQFLQQRQAQGELPAGRDVAQLAQFLNCVLQGMSISAREGADFDKLMQITDTTLRLWPLVLES	PGPT0004136_150	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004136-comR|ycfQ-K22041	NA	NA
BMS020_02491	258	bhsA_3		Multiple stress resistance protein BhsA	ATGAAAACCGTTAATACTCTGGCTATTGCCGCCGTGCTTAGCTCCCTCTCTTTCGCCAGCTTTGCCGCTGTTGAGGTGCAGTCCACCCCAGCCGGCCAGCATAAAGTGGGCACCATCTCTGCGTCCGCAGGGACTAACCTGGGGTCGCTGGAAGACCAGCTGGCGCAGAAAGCGGATGAAATGGGCGCCACCTCATACCGTATTACTTCGGTAACCGGTCCGAATACTCTTCACGGTACCGCGGTTATCTACAAGTAA	MKTVNTLAIAAVLSSLSFASFAAVEVQSTPAGQHKVGTISASAGTNLGSLEDQLAQKADEMGATSYRITSVTGPNTLHGTAVIYK	PGPT0015005_76	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0015005-comC|ycfR|bhsA-K12151	NA	NA
BMS020_02492	954	ycfS	COG1376	putative L,D-transpeptidase YcfS	ATGAGAAACCGTTTCCCCCTGGCGCTGGCGCTGGTCGCGCTGGTTGCCGCGCTGGCGCTGCCTGCGCGCGCTAACACCTGGCCCCTTCCCCCGCCGGGCAGCCGGCTGGTGGGGCAGAATCAGTTCCATGTGGTGCAGGATAACGGCGGTTCGCTGGAGGCGATTGCCAAAAAGTACAATGTCGGCTTTCTGGCCCTGCTGCAGGCCAATCCCGGGGTAGACCCCTATGTTCCGCGCGCCGGCAGCGTGCTGACTATCCCCCTGCAGACGCTGCTGCCCGATGCGCCGCGCGAAGGGCTGGTGATCAACCTTGCCGAACTGCGCCTCTACTATTACCCGCCGGGCAAGAATGAAGTGACCGTCTACCCGATCGGCATCGGCCAACTGGGCGGAACCACCATCACACCGACGATGGTCACCACCGTGTCCGACAAGCGGGCTAATCCGACCTGGACGCCAACCGCTAACATTCGCGCGCGCTACAAAGCGATGGGGATTGAGCTGCCGGCGGTGGTGCCTGCCGGTCCTGACAACCCGATGGGCCATCACGCTATCCGCCTTGCCGCCTATGGCGGAGTCTATCTCCTGCACGGCACCAATGCCGATTTCGGCATCGGCATGCGCGTCAGCTCCGGCTGTATTCGTCTGCGCGACAACGATATCAAGGCGCTGTACAACGCGATCTCGCCGGGCACGAAGGTGAATATTATCAACACGCCGATTAAGGCGTCGGTGGAGCCGGACGGCCGCCGTCTGGTCGAAATTCACCAGCCGCTGTCTGAGCATATCGATGACGACCCGCAGACCCTGCCTATTACGCTTAACGCGGCCATGAAGGCGTTCAAACAGGCGCCGCAGACCGACGGTACGGTAATGGAGCGCGCGATGAATTACCGCTCGGGCATGCCCATTGACGTTACCCGTCATGCCGACCCTGGTCCGCAGTCGCTGTAA	MRNRFPLALALVALVAALALPARANTWPLPPPGSRLVGQNQFHVVQDNGGSLEAIAKKYNVGFLALLQANPGVDPYVPRAGSVLTIPLQTLLPDAPREGLVINLAELRLYYYPPGKNEVTVYPIGIGQLGGTTITPTMVTTVSDKRANPTWTPTANIRARYKAMGIELPAVVPAGPDNPMGHHAIRLAAYGGVYLLHGTNADFGIGMRVSSGCIRLRDNDIKALYNAISPGTKVNIINTPIKASVEPDGRRLVEIHQPLSEHIDDDPQTLPITLNAAMKAFKQAPQTDGTVMERAMNYRSGMPIDVTRHADPGPQSL	PGPT0023760_255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-L|D_TRANSPEPTIDASE_ACTIVITY,PGPT0023760-ycfS-K19236	NA	NA
BMS020_02493	3447	mfd_1	COG1197	Transcription-repair-coupling factor	ATGCCTGAACAATATCGATACTCATTGCCGGTGAAAGCCGGTGACCAGCGCCAGCTTGGCGAGTTGACCGGCGCAGCCTGCGCCACCCTGGTGGCGGAGATGGCCGAACGCCACAAGGGCCCGGTGGTGCTGGTGGCGCCTGACATGCAAAACGCGCTGCGTCTGAACGACGAGATCAGGCAGTTCACCGACAGCCTGGTGATGGGGCTGGCGGACTGGGAAACGCTCCCTTACGACAGCTTCTCGCCGCATCAGGACATCATCTCCTCCCGTCTTGCCACCCTTTACCAGTTACCCACTATGCAGCGCGGCGTGCTGATCGTCCCGGTCAGCACGCTGATGCAGCGCGTCTGTCCGCACAGCTTCCTTCACGGCCACGCGCTGGTGATGAAAAAGGGTCAGCGCCTGTCGCGCGATGCGCTGCGCGATCAGCTCGAGGGGGCCGGCTACCGCCATGTCGATCAGGTGATGGAGCATGGCGAATACGCCACCCGCGGCGCGCTGCTCGACCTGTTCCCGATGGGCAGCGACCAGCCCTACCGCCTCGATTTCTTTGACGATGAAATCGACAGCCTGCGCCTGTTCGACGTCGACAGCCAGCGCACGCTGGAGGAAGTGGCGGCCATTAACCTGCTGCCGGCGCACGAATTCCCCACCGACCAGACCGCCATCGAGCTGTTCCGCAGTCAGTGGCGCGACCGCTTTGAGGTGAAGCGCGACGCCGAGCATATCTATCAGCAGGTCAGTAAAGGGACGCTGCCTGCCGGTATCGAATACTGGCAGCCGCTGTTCTTCAGCGAGCCGCTGCCGCCGTTATTTAGCTATTTCCCGGCCAGCACGCTGATCGTCAACACCGGCGATCTCGAGGCCAGCGCGGAGCGTTTCCAGAATGAAGCCCGCGCCCGCTTTGAAAACCGCGGAGTCGATCCGATGCGCCCGCTCCTGCCGCCGGAACTGCTGTGGCTGCGCAGCGATGAGCTGTTCAGCGAACTGAAAAAGTGGCCGCGCGTTCAGCTGAAAACCGAGCGCCTGGCCGAAAAAGCAGCGAATACCAACCTGGGCTACCAGACGCTGCCGGACCTCGCCGTCCAGGCGCAAAACAAAGCGCCGCTGGATAATCTGCGCCGCTTCCTCGACGCGTTTGCCGGTCCGGTGATTTTCTCCGTTGAAAGCGAGGGTCGCCGGGAAGCGCTGAGCGAAATGCTGGCGCGGATCAAAATTGCGCCGAAACACCTGCTGCGCCTGGAGGAAGCCACCGGCAACGGGCGCTATCTGATGATTGGCGCCGCCGAGCACGGGTTTATCGACAGTCAGCGCGGCCTGGCGCTGATTTGCGAGAGCGACCTGCTCGGCGAGCGCGTAGCGCGCCGTCGTCAGGATTCCCGTCGCACCATTAACCCTGACACGCTAATTCGCAACCTTGCCGAACTGCATATCGGCCAGCCGGTCGTTCACCTGGAACACGGCGTGGGCCGCTATGCGGGGATGACCACCCTGGAGGCGGGCGGCATCACCGGCGAATACCTGATGCTGACCTACGCCAACGATGCCAAATTATACGTTCCGGTCTCCTCCCTGCATCTTATCAGTCGCTACGCCGGCGGAGCGGAAGAGAACGCGCCCCTGCACAAGCTGGGTGGCGATGCCTGGACCCGGGCGCGGCAAAAAGCGGCCGAGAAGGTACGCGACGTAGCGGCCGAACTGCTGGATATCTACGCCCAGCGCGCGGCGAAAGCCGGGTTTGCCTTTAAACACGACCGCGAACAGTATCAGCTGTTCTGCGACGGTTTCCCGTTTGAAACCACGCCGGATCAGGCGCAGGCGATCAACGCCGTCCTCAGCGATATGTGCCAGCCGCTGGCCATGGACCGCCTGGTGTGTGGCGATGTGGGCTTCGGCAAGACCGAAGTGGCCATGCGCGCCGCCTTCCTCGCCGTGGAGAACCACAAACAGGTGGCGGTACTGGTGCCGACCACCCTGCTGGCTCAGCAGCACTATGACAACTTCCGCGATCGTTTCGCCAACTGGCCGGTACGCATCGAAATGCTCTCCCGCTTCCGCAGCGCTAAAGAGCAGGCGCAGATCCTCGAGCAGGCCGCGGAAGGCAAAATCGATATCTTGATCGGCACCCATAAGCTGCTGCAGAGCGAAGTGAAGCTGCGCGATCTGGGGCTGCTGATCGTCGACGAAGAGCACCGGTTTGGCGTGCGGCATAAAGAGCGCATCAAAGCGATGCGCGCCGATGTCGATATCCTGACCCTCACCGCCACGCCGATCCCGCGAACGCTGAACATGGCGATGAGCGGGATGCGGGATCTGTCGATCATCGCCACGCCGCCGGCGCGCCGCCTGGCGGTAAAGACCTTCGTTCGCGAATACGATGCGCTGGTCGTGCGCGAGGCGATCCTGCGTGAAACGCTGCGCGGCGGCCAGGTTTACTACCTGTTTAATGACGTCGAGAACATCCAGAAAGCCGCCGACAAGCTGGCGGAGCTGGTGCCTGAGGCGCGGATCGCCATCGGCCACGGTCAGATGCGGGAGCGCGAGCTGGAGCGGGTGATGAATGACTTCCATCACCAGCGCTTCAATGTGCTGGTGTGCACCACCATCATCGAAACCGGGATCGACATTCCCACCGCCAACACCATCATTATCGAACGCGCCGACCACTTTGGCCTCGCCCAGCTGCACCAGCTGCGCGGCCGCGTTGGCCGCTCCCATCACCAGGCCTATGCCTGGCTGCTGACACCGCATCCGAAGGCGATGACCACCGATGCGCAAAAGCGCCTCGAAGCCATTGCCTCGCTGGAAGATCTTGGCGCCGGCTTTGCGCTGGCGACCCACGATCTGGAGATCCGCGGCGCCGGGGAGCTGCTGGGCGAAGATCAGAGCGGTCAGATGGAGACCATCGGCTTCTCCCTGTATATGGAGCTGCTGGAGAATGCGGTAGATGCCCTGAAAGCCGGGCGCGAGCCGTCGCTGGAAGATCTCACCAGCCAGCAGACAGAAGTCGAACTGCGCATGCCTTCCCTGCTGCCTGATGATTTCATCCCCGACGTCAATACCCGTCTGTCGTTCTATAAGCGCATTGCCAGCGCCAAAAACGAACAGGATCTGGAGGAGATCAAAGTCGAGCTGATCGATCGTTTTGGCCGCCTGCCCGACGCCGCCCGCAATCTGCTGGATATCGCCCGTCTGCGTCAGCAAGCGCAGAAGCTGGGGATCCGTAAGCTGGAGAGCAATGAAAAAGGCGGCGTGATCGAATTTAACGAGAAAAACAACGTCAATCCGGTGTGGTTGATCGGCCTGCTGCAGAAGCAGCCGCAGCACTTCCGCCTGGACGGGCCGACGCGCCTGAAGTTCATGCAGGATCTCGAGGAGCGTAAGACGCGGATGGATTGGGTTCGCCAGTTCATGCGCCAGCTGGAAGAGAACGCCGTCGCCTGA	MPEQYRYSLPVKAGDQRQLGELTGAACATLVAEMAERHKGPVVLVAPDMQNALRLNDEIRQFTDSLVMGLADWETLPYDSFSPHQDIISSRLATLYQLPTMQRGVLIVPVSTLMQRVCPHSFLHGHALVMKKGQRLSRDALRDQLEGAGYRHVDQVMEHGEYATRGALLDLFPMGSDQPYRLDFFDDEIDSLRLFDVDSQRTLEEVAAINLLPAHEFPTDQTAIELFRSQWRDRFEVKRDAEHIYQQVSKGTLPAGIEYWQPLFFSEPLPPLFSYFPASTLIVNTGDLEASAERFQNEARARFENRGVDPMRPLLPPELLWLRSDELFSELKKWPRVQLKTERLAEKAANTNLGYQTLPDLAVQAQNKAPLDNLRRFLDAFAGPVIFSVESEGRREALSEMLARIKIAPKHLLRLEEATGNGRYLMIGAAEHGFIDSQRGLALICESDLLGERVARRRQDSRRTINPDTLIRNLAELHIGQPVVHLEHGVGRYAGMTTLEAGGITGEYLMLTYANDAKLYVPVSSLHLISRYAGGAEENAPLHKLGGDAWTRARQKAAEKVRDVAAELLDIYAQRAAKAGFAFKHDREQYQLFCDGFPFETTPDQAQAINAVLSDMCQPLAMDRLVCGDVGFGKTEVAMRAAFLAVENHKQVAVLVPTTLLAQQHYDNFRDRFANWPVRIEMLSRFRSAKEQAQILEQAAEGKIDILIGTHKLLQSEVKLRDLGLLIVDEEHRFGVRHKERIKAMRADVDILTLTATPIPRTLNMAMSGMRDLSIIATPPARRLAVKTFVREYDALVVREAILRETLRGGQVYYLFNDVENIQKAADKLAELVPEARIAIGHGQMRERELERVMNDFHHQRFNVLVCTTIIETGIDIPTANTIIIERADHFGLAQLHQLRGRVGRSHHQAYAWLLTPHPKAMTTDAQKRLEAIASLEDLGAGFALATHDLEIRGAGELLGEDQSGQMETIGFSLYMELLENAVDALKAGREPSLEDLTSQQTEVELRMPSLLPDDFIPDVNTRLSFYKRIASAKNEQDLEEIKVELIDRFGRLPDAARNLLDIARLRQQAQKLGIRKLESNEKGGVIEFNEKNNVNPVWLIGLLQKQPQHFRLDGPTRLKFMQDLEERKTRMDWVRQFMRQLEENAVA				NA	NA	NA	NA	NA
BMS020_02494	1200	lolC_1	COG4591	Lipoprotein-releasing system transmembrane protein LolC	ATGTACCAACCTGCCGCACTCTTTATCGGCCTGCGCTATATGCGCGGGCGCGCAGCCGACCGCTTCGGTCGTTTCGTCTCCTGGCTTTCCACCATCGGTATTACCCTCGGCGTCATGGCGCTGGTGACGGTCCTGTCGGTGATGAACGGCTTTGAACGCGAACTGCAAAACAACATCCTGGGGCTGATGCCCCAGGCCATTCTTAGCGCCAAACAGGGTTCGGTGAATCCCCAACAGCTGCCGGAGCGCGAGGCGAAACTCCAGGGCGTCACCCGCGTGGCGCCGATCACCACCGGCGACGTGGTGCTGCAGAGCGCGCGCAGCGTGGCGGTCGGCGTGATGCTGGGCATCGACCCGGCGCAGAACGATCCCCTGACACCGTACCTGGTGAACGTCAAACAGAGCGATCTGCAGGCGGGCAAATATAACGTGATTCTCGGCGAGCAGCTGGCGGGCCAGCTGGGGGTGAATCGCGGCGATAAAATTCGCGTGATGGTCCCCTCCGCCAGCCAGTTTACGCCGATGGGACGCGTGCCGAGCCAGCGTCTGTTTACAGTCATCGGCACCTTCGCCGCCAACAGCGAAGTCGATGGTTATCAGATGCTGACCAACATCGACGATGCTTCCCGTTTGATGCGCTATCCGCTGGGGAATATCACCGGCTGGCGCCTGTGGCTGGATAAACCGCTGCAAGTGGATACCCTCAGCCAGCAGACGCTGCCGTCGGGCACCCAGTGGCAGGACTGGCGCGAGCGCAAGGGCGAACTGTTCCAGGCGGTGCGTATGGAGAAAAATATGATGGGCCTGCTGCTCAGCCTGATCGTCGCCGTCGCGGCCTTCAACATTATTACCTCGCTGGGGATGATGGTGATGGAGAAGCAGGGCGAAGTGGCGATCCTGCAGACTCAGGGGCTGACGCCGCGACAGATTATGGCCGTCTTTATGGTGCAGGGCGCCAGCGCCGGGATCGTCGGCGCGCTGCTGGGAGCCGTGCTTGGCGCGCTGCTGGCCAGCCAGTTGAATAATTTAATGCCGATCATCGGCGCCTTCCTTGACGGCGCGGCGCTGCCGGTGGCGATTGAGCCGCTGCAGGTCGTCGTGATCGCCCTGGTGGCGATGGCGCTGGCATTGTTGTCTACGTTGTACCCTTCCTGGCGCGCTGCCGCCACTCAACCCGCTGAGGCTTTACGTTATGAATAA	MYQPAALFIGLRYMRGRAADRFGRFVSWLSTIGITLGVMALVTVLSVMNGFERELQNNILGLMPQAILSAKQGSVNPQQLPEREAKLQGVTRVAPITTGDVVLQSARSVAVGVMLGIDPAQNDPLTPYLVNVKQSDLQAGKYNVILGEQLAGQLGVNRGDKIRVMVPSASQFTPMGRVPSQRLFTVIGTFAANSEVDGYQMLTNIDDASRLMRYPLGNITGWRLWLDKPLQVDTLSQQTLPSGTQWQDWRERKGELFQAVRMEKNMMGLLLSLIVAVAAFNIITSLGMMVMEKQGEVAILQTQGLTPRQIMAVFMVQGASAGIVGALLGAVLGALLASQLNNLMPIIGAFLDGAALPVAIEPLQVVVIALVAMALALLSTLYPSWRAAATQPAEALRYE	PGPT0024510_3949	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_TRANSPORT,PGPT0024510-lolC_E-K09808	NA	NA
BMS020_02495	702	lolD_1	COG1136	Lipoprotein-releasing system ATP-binding protein LolD	ATGAATAAGATCCTGCTGCAATGCGACAACCTGTGCAAACGCTATCAGGAAGGCAATGTGCAAACCGATGTCCTGCACAATGTCAGCTTCAGCATTGATGAAGGCGAGATGATGGCCATCGTCGGCACCTCCGGCTCCGGTAAAAGTACCCTGCTGCATCTGCTGGGCGGCCTCGATACACCCACCTCTGGCGACGTGATTTTCTCCGGCCAGCCGATGAGCAAGCTCTCTACCGCCGCGCGCGCCGACCTGCGCAACCGCGAGCTGGGCTTTATCTATCAGTTCCACCATCTGCTGCCGGACTTTAGCGCGCTGGAAAACGTGGCGATGCCGCTGCTGATTGGCAAAAAGAAGCCGGCGGACATTGAACGTCAGGCGAAAGCGATGCTGCATGCGGTCGGGCTTGAACACCGCAGCCATCACCGTCCGTCGGAGCTCTCCGGCGGCGAACGCCAGCGGGTGGCGATTGCCCGCGCGCTGGTGAACAAACCGCGGCTGGTATTGGCGGATGAGCCGACCGGTAACCTCGACGCCCGCAACGCGGACAGCATCTTCCAGCTGCTCGGCGAACTGAACCTCGCGCAGCGCACCGCGTTTCTGGTGGTAACCCACGACCTGCAGCTGGCGAAGCGGATGAGCCGCCAGCTGGAGATGCGCGATGGCCGCCTGACCGCCGACCTGACCCTGATGGGGGCCGAGTAA	MNKILLQCDNLCKRYQEGNVQTDVLHNVSFSIDEGEMMAIVGTSGSGKSTLLHLLGGLDTPTSGDVIFSGQPMSKLSTAARADLRNRELGFIYQFHHLLPDFSALENVAMPLLIGKKKPADIERQAKAMLHAVGLEHRSHHRPSELSGGERQRVAIARALVNKPRLVLADEPTGNLDARNADSIFQLLGELNLAQRTAFLVVTHDLQLAKRMSRQLEMRDGRLTADLTLMGAE	PGPT0024515_957	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_TRANSPORT,PGPT0024515-lolD-K09810	NA	NA
BMS020_02496	1245	lolE	COG4591	Lipoprotein-releasing system transmembrane protein LolE	ATGGCCTCTCCGTTATCGTTATTAATTGCATTGCGTTTCAGCCGCGGCCGGCGGCGCGGCGGCATGGTGTCGCTGATCTCGGTGATCTCCACCATCGGTATTGCGCTGGGGGTGGCGGTGCTGATCGTCGGTCTCAGCGCGATGAACGGCTTTGAGCGCGAGCTGAACCACCGCGTGCTGGCGGTGGTGCCGCACGGTGAAATCGAACCCGTGAACCAGCCGTGGAATAACTGGCAGGAGGCGCTGGCGAAGGTGCAGAAGGTGAAGGGGATTGTCGCGGCGGCGCCCTATATTAACTTCACCGGCCTGGTGGAGAGCGGCAGCAATATGCGCGCCATCCAGGTGAAAGGGGTCGACCCGCAGCAGGAAACCCGGCTCAGCGCGCTGCCCACCTTTGTGCAGAATAACGCGTGGGCCGGCTTCAAGGCCGGCGAACAGCAGGTGATTCTGGGTAAAGGCGTCGCCGATGCCCTGCACGTGAAGCAGGGGGACTGGGTGTCGATCATGATCCCTAACGCCGACGCCGACCATCAACTGCTGCAGCCGAAACGCGTTAGGCTGCATGTGACCGGTATTTTACAGCTGAGCGGCCAGCTCGATCATAGTTTTGCCATGATCCCGATGCAGGATGCGCAGCAGTACCTGGAGATGGGCGGCAGCGTGACCGGCATCGCCATCAAGGTCACCGACGTTTTCCATGCTAACAAGCTGGTGCGCGACGCCGGCGAGGTGACCAACAGCTACGTCTACATCAAGAGCTGGATTGGCACCTACGGCTATATGTATCGCGATATCCAGATGATCCGCGCCATTATGTACCTGGCGATGGTACTGGTGATCGGCGTGGCCTGCTTCAACATCGTCTCGACGCTGGTGATGGCGGTCAAAGACAAAAGCGGCGATATTGCGGTGCTGCGCACGCTTGGCGCAAAAGACGGCTTAATTCGCGCGATTTTCGTGTGGTATGGTTTATTAGCCGGATCGGTAGGCAGCCTGTTCGGGGTGGTGATCGGCGTGATCTGCGCGTTGAATCTGACGTCAATCATCAATGGCATCGAATACCTGATTGGGCATAAATTCCTCTCCGGCGACATCTATTTTATTGACTTCCTGCCGTCTGAACTGCACTGGCTGGACGTCTTTTATGTGCTGGTGACAGCACTGTTGCTGAGTTTGCTGGCCAGCTGGTATCCCGCCCGCCGCGCCAGCCGTATCGACCCGGCGAGGGTGCTGAGTGGCCAGTAA	MASPLSLLIALRFSRGRRRGGMVSLISVISTIGIALGVAVLIVGLSAMNGFERELNHRVLAVVPHGEIEPVNQPWNNWQEALAKVQKVKGIVAAAPYINFTGLVESGSNMRAIQVKGVDPQQETRLSALPTFVQNNAWAGFKAGEQQVILGKGVADALHVKQGDWVSIMIPNADADHQLLQPKRVRLHVTGILQLSGQLDHSFAMIPMQDAQQYLEMGGSVTGIAIKVTDVFHANKLVRDAGEVTNSYVYIKSWIGTYGYMYRDIQMIRAIMYLAMVLVIGVACFNIVSTLVMAVKDKSGDIAVLRTLGAKDGLIRAIFVWYGLLAGSVGSLFGVVIGVICALNLTSIINGIEYLIGHKFLSGDIYFIDFLPSELHWLDVFYVLVTALLLSLLASWYPARRASRIDPARVLSGQ	PGPT0024510_2367	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_TRANSPORT,PGPT0024510-lolC_E-K09808	NA	NA
BMS020_02497	912	nagK	COG1940	N-acetyl-D-glucosamine kinase	ATGTACTATGGATTTGACATTGGCGGCAGCAAGATAGCGCTGGGCGTATTTAATCAGGAGCGGCGGCTGCAGTGGGAAAAACGCGTCGCCACGCCGAAAAGCAGTTATGAGGATTTTCTCCAGGCGGTGGAGGCGCTGGTCCGCGAGGCCGATGAGCGCTTCGACCGGCAGGGGACGGTTGGGATCGGTATCCCGGGGATGCCGGAGACGGCGGACGGCACGCTGTATGCCGCTAACGTGCCTGCCGCCAGCGGCCGGCCGCTGCGCGCCGACCTCAGCGCGCGACTGGGGCGCGATGTGCGCCTCGATAATGACGCCAACTGCTTCGCGCTGTCGGAAGCGTGGGACGATGAGTTTACGCAATACCCGCTGGTGATGGGGCTGATCCTCGGCACCGGCGTGGGCGGCGGCCTGGTGTTGAACGGTAAATCGATTACCGGACATAGCTATATCACCGGCGAGTTTGGTCATATTCGTCTGCCGGTGGATGCCCTGGAGGTGGTCGGGCGTGATTTTCCGCTGCTTCGCTGCGGCTGCGGCCAGCTGGGCTGCATTGAAAATTATCTCTCCGGCCGCGGTTTCGCCTGGCTGTATGAACATTTTTATCAGCAACCGCTTACCTCGCCGGAGATTGTGGCGCAGTGGCAGCAGCACGATCCGCGCGCCCAGGCGCATGTAGATCGCTATCTCGATCTGCTGGCGGTGTGTCTGGGAAATATACTGACCATTGTCGACCCGGATTTGCTGGTGCTCGGCGGTGGATTATCTAACTTTACGGCCATTAGCGAAGGGCTGGCGCAGCGATTGCCGCGCCATCTTCTGCCGGTCGCCAGGGTACCGCGCATTGAGCGCGCGCGCCACGGCGATGCCGGGGGAATGCGCGGTGCGGCCTTCCTTCATCTGAGCCATTAA	MYYGFDIGGSKIALGVFNQERRLQWEKRVATPKSSYEDFLQAVEALVREADERFDRQGTVGIGIPGMPETADGTLYAANVPAASGRPLRADLSARLGRDVRLDNDANCFALSEAWDDEFTQYPLVMGLILGTGVGGGLVLNGKSITGHSYITGEFGHIRLPVDALEVVGRDFPLLRCGCGQLGCIENYLSGRGFAWLYEHFYQQPLTSPEIVAQWQQHDPRAQAHVDRYLDLLAVCLGNILTIVDPDLLVLGGGLSNFTAISEGLAQRLPRHLLPVARVPRIERARHGDAGGMRGAAFLHLSH	PGPT0018885_576	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018885-nagK-K00884	NA	NA
BMS020_02498	831	cobB_1	COG0846	NAD-dependent protein deacylase	ATGCAGTCGCGCCGTTTACATCGATTGAGCCGTTTTCGTCGCAATAAACGTCAGTTGCGTGACCGTCTGCGTCAGCGGATTTTCTTTAGGGAGGACAGGATGAAGCCTGAAGCGATGGCCAAACCGAGAGTGGTGGTGTTAACCGGCGCGGGCATATCGGCGGAGTCGGGGATCAAAACTTTCCGCGCGGCCGATGGCCTGTGGGAAGAGCATCGGGTGGAAGATGTGGCGACGCCGGAAGGCTTCGCCCGCGACCCGGCGCTGGTGCAGGCGTTCTACAACGCCCGCCGTCGTCAGCTGCAGAGTCCGGAGATCGCGCCGAACGCGGCGCATCTGGCGCTGGCGCGTCTGGAGGATCTGCTGGGCGACCATTTTCTGCTGGTCACCCAGAATATCGATAATCTGCATGAACGCGCCGGCAACCGCCGGGTGATCCATATGCACGGCGAGCTGCTGAAGGTGCGCTGTTCGTGGAGCGGCCAGGTGCTGGAGTGGACCGGGGACGTCACCGCAGAGGACAAATGCCACTGCTGCCAGTTCCCGGCGGCGCTGCGTCCGCACGTGGTCTGGTTTGGCGAAATGCCGCTGGGGATGGACGAGATCTACAGCGCGCTGGCCGAAGCGGATATCTTTATCGCCATCGGCACCTCCGGCCACGTCTATCCGGCGGCCGGCTTTGTGCACGAGGCGCGACTGCACGGCGCCCATACCGTTGAACTGAACCTCGAGCCCAGCCAGGTGGGCAGCGAGTTTGCCGAAAAGCACTACGGGCTGGCAAGCGAAGTGGTACCCGCCTTTATCGATAAGCTGCTGCAGGAAAACGCGCTGTAA	MQSRRLHRLSRFRRNKRQLRDRLRQRIFFREDRMKPEAMAKPRVVVLTGAGISAESGIKTFRAADGLWEEHRVEDVATPEGFARDPALVQAFYNARRRQLQSPEIAPNAAHLALARLEDLLGDHFLLVTQNIDNLHERAGNRRVIHMHGELLKVRCSWSGQVLEWTGDVTAEDKCHCCQFPAALRPHVVWFGEMPLGMDEIYSALAEADIFIAIGTSGHVYPAAGFVHEARLHGAHTVELNLEPSQVGSEFAEKHYGLASEVVPAFIDKLLQENAL	PGPT0013485_189	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013485-npdA-K12410	NA	NA
BMS020_02499	345			hypothetical protein	ATGCATCATCCCCTGGTCATTGCATCGATCGCCTTGATCGCGGCCATTACCATTGGCGTCTGGAGCCAGCGTGCGCTACCTGAATACGCCGATAGCCGACCGATCCTCTTCCTGCTGTGCCTGTTGATCGGCACCGGCAGCGCGTTGTGCCTGCTGCTGGATGGCTTAGCCCTGCTGTTCACCGGTCAGGTCGCGACGGGCGGTGTGCGGATATACGGCCCCATGCTGCTGCTGGTGGTGCTGTGGAAACCCCTCAACGGGATCTTCGGCATCATTGAAGATTTTGTGCAACGGCGAGCCGAAAAAGGGAAGGACAAAGACCAGCCCGACGGCGGGCGACGCTGA	MHHPLVIASIALIAAITIGVWSQRALPEYADSRPILFLLCLLIGTGSALCLLLDGLALLFTGQVATGGVRIYGPMLLLVVLWKPLNGIFGIIEDFVQRRAEKGKDKDQPDGGRR				NA	NA	NA	NA	NA
BMS020_02500	1629	dmdB	COG0318	3-methylmercaptopropionyl-CoA ligase	ATGCCGTCACCGATGATTTATCAGGATCTCACTACCACCGCGCTGCTCAGCCATGCGGCGCAATACCACAGCGAGACGGAGATCGTCTCGGTGGGCGCCGGCGGTGAGAAGGAGCGCAGCAGCTGGGGGGAAGTGGCCAGCCGCGCTCAGCGGCTGGCATCGGCGCTGGCGTCGCTGGGGCTGCCGCCGGGCGCCCGCTGCGCCACCCTCGCATGGAACAATCGCCGCCACCTGGAGATCTATTTTGCCGTCGCCTCCGGCGGCTGGGTGACGCACACCGTCAATCCACGGCTGTCGGTTGACCATCTGCGGTATATCCTCAACGACGCTGCCGACGAGGTGCTGTTCTTTGACCAGACCTTTTTGCCGCTGGTGGCGCAGCTCCTGCCGCAGCTGCCGACGGTGAAACACGTCGTGCTGATGGCGCCCCGCAGCGAAGCGGCGCTCAGCCAGCTGCCCTCATTGCTGTTTTTTGACGAACTGTTGCAGCAGGGGATGGCAGACTATCGCTGGCCGCCGCTCAATGAACTGACGCCGGCCTCGCTCTGCTACACCTCGGGGACCACCGGCCGACCGAAAGGGGTGTTGAATACCCATCGTTCGCTGGTCCTGCATGCCCTGAGCGGCAATCAGCCGGACGCCGCCGGGATCTCGGCCAGGGATAGCCTGTTGCCGGTGGTGCCGATGTTCCATGTCAACGCGTGGGGGACGCCGTTTATCGCCGCCATGGTCGGCGCGCGGCTGGTGCTACCGGGGCCGCACCTCGATGGCGACAGCCTGCTGCAGCTGCTGGCCGCCGAGAAGGTGACGGTGGCGTTCGGCGTGCCGGTGATCTGGGCCGGTCTGTTGGCGGCGATGCGGCGGTCGGACATGCGGCTGCCTGATTTTAAACGTGCGTTTGTCGGGGGCTCCGCGCTGCCGCCGTCGATGATGGAGGCCTTTCAGCACGATTACGGCATTACGCTGATCCACGCCTGGGGAATGACCGAAACATCGCCCATCGGCACCATTAACACGCTGTTGAGCAAACATGACGCACTCCCGGCGCCGGAGCAGCAAAAACAGCGTACCGGTCAGGGGCGGCCTATTTTTGGCATCGAGCTACAGGTGGTGGATGTCGAGGGCGACCCACTGCCGATGGACGGTCAAAGTCAGGGATATCTGCAGGTCAGAGGGCACTGGGTGGTGGAGCAGTACTATGGTCAGGACGAAAGCGCCCTGACCGCGGCAGGCTGGTTTGATACCGGCGATATCGGTACGCTCGACGCCAATGGTTATCTGGTGATCAGCGATCGGGCAAAGGATATCATCAAGTCCGGCGGCGAGTGGATCTCCACCGTTGAGCTGGAGAATATCGCCATCGCGCATCAGGCGGTGCGCAGCGCGGCGGCCATCGCCGCCCGCCACCCGCGCTGGGACGAGCGGCCGGTGCTGCTGTGCGTTCGCGTGGAAGGGGGCGAAGTGGAAGAGAGCGATCTGCTGGCCTGGTTTGAGAAACGGGTGCCCAAATGGCAGATCCCGGACCGGGTGATATTTGTCGATGCGCTACCGGTCAGCGCCACGGGCAAGGTGCTCAAGAATCAGCTGCGCCAGGCCTATGGAGAGATTTTAATGAGTGAGGGAAAATGA	MPSPMIYQDLTTTALLSHAAQYHSETEIVSVGAGGEKERSSWGEVASRAQRLASALASLGLPPGARCATLAWNNRRHLEIYFAVASGGWVTHTVNPRLSVDHLRYILNDAADEVLFFDQTFLPLVAQLLPQLPTVKHVVLMAPRSEAALSQLPSLLFFDELLQQGMADYRWPPLNELTPASLCYTSGTTGRPKGVLNTHRSLVLHALSGNQPDAAGISARDSLLPVVPMFHVNAWGTPFIAAMVGARLVLPGPHLDGDSLLQLLAAEKVTVAFGVPVIWAGLLAAMRRSDMRLPDFKRAFVGGSALPPSMMEAFQHDYGITLIHAWGMTETSPIGTINTLLSKHDALPAPEQQKQRTGQGRPIFGIELQVVDVEGDPLPMDGQSQGYLQVRGHWVVEQYYGQDESALTAAGWFDTGDIGTLDANGYLVISDRAKDIIKSGGEWISTVELENIAIAHQAVRSAAAIAARHPRWDERPVLLCVRVEGGEVEESDLLAWFEKRVPKWQIPDRVIFVDALPVSATGKVLKNQLRQAYGEILMSEGK	PGPT0002895_397	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-DMS_DEGRADATION,PGPT0002895-dmdB-K20034	NA	NA
BMS020_02501	1725			hypothetical protein	ATGAGCCACGCGCGACCCGGTCTGACGACCTGCTCTCAGTATGACGCAGCGCTGCACGCCTTGTCGGCGGCGCGCCAGCGCTGGGCGGAGACCTCAGTGAATCGTCGTCTGGCGCTCCTGCGCCAGATCAAGGATGCCCTGGCTTCAATTGCTCCTGCGTGGGTGGAGGCGGCGGCGAGGGCCAAAGGACTACCGCCAGGCGATCCGCTGACGGGCGAAGAGTGGTTGGCAGGCCCCTGCGCGCTGATGGTCGGCTGCAACGGGCTTATCGCCACCCTGGAGCAGCTGGAGGAGAAAACCTTCCTCCGGCGGATCCCGCTGCGGACGCTGGCGGACGGCCGCCTGGCGCTGCGGGTGATGCCCGGCACGCTCTGGGATCGACTGTTGCTGTCTGGTGTTCGCGCTGAAATTTGGATGCAGCCGGGGGTCACCCGGGCCAATCTCGATCGCTGCGCGGCGGCCGCATACGATATCCCGCCGGCCGCGCGGCAGGGCAAGCTGGCGCTGGTGCTCGGCGCCGGGAATGTGGCCGCTATCGCGCCGCTGGACGTATTACACAAACTGTTTATTGAAAATCAAGTCTGCCTGCTGAAGCTCAACCCGGTGAATGATTATCTGCACGATCTGCTGGCTCAGGCTCTGGCGCCGCTGATCGCCATGGATGCGCTCCGCATCGTCACCGGCGATGCCCAGGCGGGGGCGTGGCTGACCATCCATCCCGCTGTCGATGAGATCCATATCACCGGCTCGCGGGAGAGCCATGACGCTATCGTCTGGGGCGACGGTGAGGCGGCTCGCCAGCGTCGGGCCGCCGGGACGCCGCTGAACCCGCGACGGGTGACCTCGGAGCTGGGCGGCGTCAGCCCTACCATTATCGTCCCCGGTCCGTGGAGCGAGGCGGATATCGCTTTTCAGGCGCAGCAGCTGGCGACGCAGAAGATGAACAATGGCGGGTTTAACTGCGTGGCCAGCCAGGTGCTGATCCTGCAGCAGGGCTGGGAGCCGGCGTCGGCCCTGCTTAATCAGCTGTACCGGCTGATCGCCGCCAATACCCGTCCGGACTATTACCCCGGCGCGGAAAACCGGCTGACTGACTTTCGCCTGCGCGCCCGTCAGCCGCTGGAGATAGCCCGCGGCGACGCGCTGCCGTTGATTGTGGCGAACACCGAGGATGATCCGGACTTCTGCCAGCAGGAGGTCTTTGGCCCGGGGCTGTCGATCACCCGCCTTGAGGCCGACAGCGCGGAAAGCTTTTTGCGCCAAGCGATCGGCTATGCCAATCAGCGGCTGCAGGGCACGCTGGGGGCCAATATTGTGATCCACCCGCGCACCCGCAAGGCGATTGGGCGTAAGCGTTTTAACGCGCTGATCGCCGAGCTGCGCTATGGCACGGTGGCGATCAACTGCTGGAGCGGGGTGGCCTTCCTCTTAGCTCTCTGCCCGTGGGGGGCGTTTCCCGGCCACAGGCTCGACGATATTCAGAGCGGGCAGGGCAAGGTGCATAACAGCTTTATGCTGGAGAAAACCGAGCGCACGGTGATTGAGGCGCCGTTTCGGCCGTTTCCGCGCAGTCTGTGGCATGGCGAACTGACGCTGATGCCCCTGCCGCCCTGGTTTATTACTCACCGGGGGCAGGAAGCGGTGGCGCAGCGGCTAGTGGATTTTTACCATCGGCCGCGCTGGCGCAAGCTGCCGGCGATCCTCTGGCGCGCCCTGAGGGGCTAA	MSHARPGLTTCSQYDAALHALSAARQRWAETSVNRRLALLRQIKDALASIAPAWVEAAARAKGLPPGDPLTGEEWLAGPCALMVGCNGLIATLEQLEEKTFLRRIPLRTLADGRLALRVMPGTLWDRLLLSGVRAEIWMQPGVTRANLDRCAAAAYDIPPAARQGKLALVLGAGNVAAIAPLDVLHKLFIENQVCLLKLNPVNDYLHDLLAQALAPLIAMDALRIVTGDAQAGAWLTIHPAVDEIHITGSRESHDAIVWGDGEAARQRRAAGTPLNPRRVTSELGGVSPTIIVPGPWSEADIAFQAQQLATQKMNNGGFNCVASQVLILQQGWEPASALLNQLYRLIAANTRPDYYPGAENRLTDFRLRARQPLEIARGDALPLIVANTEDDPDFCQQEVFGPGLSITRLEADSAESFLRQAIGYANQRLQGTLGANIVIHPRTRKAIGRKRFNALIAELRYGTVAINCWSGVAFLLALCPWGAFPGHRLDDIQSGQGKVHNSFMLEKTERTVIEAPFRPFPRSLWHGELTLMPLPPWFITHRGQEAVAQRLVDFYHRPRWRKLPAILWRALRG				NA	NA	NA	NA	NA
BMS020_02502	1047	potD	COG0687	Spermidine/putrescine-binding periplasmic protein	ATGAAAAAATGGTCACGCCACCTGCTCGCGGCGGGCGCTCTGGCAATCGGCATGAGCGCCGCCCACGCGGACGACAGCAAAACGCTCTACTTCTACAACTGGACCGAATATGTGCCGCCGGGCCTGCTGGAGCAATTCACCAAAGAGACCGGCATCAAGGTTATCTACTCGACCTACGAGTCGAACGAAACCATGTACGCCAAGCTCAAGACCTATAAAGATGGGGCGTACGACCTGGTCGTCCCGTCGACCTACTTCGTCGACAAGATGCGTAAAGAAGGCATGCTGCAGAAGATCGATAAGAGCAAGCTGACTAACTTCAGCAACCTCGATCCGCAGATGCTGAACAAACCGTTCGACCCGAATAACGACTACTCCATCCCCTACATCTGGGGGGCGACGGCCATCGGCGTCAACAGCGACGCTATCGATCCGAAAACCGTCACCAGCTGGGCCGACCTGTGGAAGCCGGAATACAAAAGCAGCCTGCTGCTGACCGACGACGCGCGCGAAGTGTTCCAGATAGCGCTGCGTAAGCTGGGCTATTCCGGCAACACGACCGACCCGAAAGAGATTGAAGCCGCCTATAACGAGCTGAAAAAACTGATGCCCAACGTCGCGGCGTTTAACTCCGATAACCCGGCGAACCCGTATATGGAAGGCGAAGTGAACCTCGGCATGGTATGGAACGGTTCGGCTTACGTCGCCCGCCAGGCCGGTACGCCGCTGGAAGTGATCTGGCCGAAAGAAGGCGGCATCTTCTGGATGGACAGCCTGTCGATCCCGGCAAATGCGAAAAACGTCGACGGCGCGCTGAAGCTGATTAACTTCCTGCTACGCCCGGATGTCGCCAAACAGGTCGCGGAAACCATCGGCTACCCCACGCCAAACCTGGCGGCGCGCAAAATGCTCAGCCCGGCCGTGGCCAACGATAAATCGCTCTATCCGGACGCCGCCACCATCGAGAAAGGCGAATGGCAAAATGACGTCGGCAGCGCCAGCGCTATTTATGAAGAGTATTACCAGAAGCTGAAAGCGGGCCGCTAA	MKKWSRHLLAAGALAIGMSAAHADDSKTLYFYNWTEYVPPGLLEQFTKETGIKVIYSTYESNETMYAKLKTYKDGAYDLVVPSTYFVDKMRKEGMLQKIDKSKLTNFSNLDPQMLNKPFDPNNDYSIPYIWGATAIGVNSDAIDPKTVTSWADLWKPEYKSSLLLTDDAREVFQIALRKLGYSGNTTDPKEIEAAYNELKKLMPNVAAFNSDNPANPYMEGEVNLGMVWNGSAYVARQAGTPLEVIWPKEGGIFWMDSLSIPANAKNVDGALKLINFLLRPDVAKQVAETIGYPTPNLAARKMLSPAVANDKSLYPDAATIEKGEWQNDVGSASAIYEEYYQKLKAGR	PGPT0007825_2549	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
BMS020_02503	786	ydcV_3		Inner membrane ABC transporter permease protein YdcV	ATGATCGGTCGACTGCTGCGCGGCGGCTTTATGACCGCCATCTACGCGTATCTCTACATCCCTATTATTATTCTGATCGTTAACTCGTTTAACCGGTCGCGTTTCGGCATCAACTGGCAGGGGTTCACCACCGACTGGTATAGTCTGCTGATGAACAACGATAGCCTGCTGCAGGCCGCCCAGCACTCGCTGACCATGGCGGTGCTGTCGGCGACCTTCGCCACCCTTATCGGCTCGCTAACCGCCGTGGCGCTGTACCGCTACCGTTTTCGCGGCAAACCGTTCGTTAGCGGCATGCTGTTTGTGGTGATGATGTCGCCCGATATTGTCATGGCCATCTCCCTGCTGGTGCTGTTTATGCTGATTGGCGTCCAGCTTGGCTTCTGGTCGCTGCTGTTTTCGCATATCACCTTTTGCCTGCCGTTTGTGGTGGTCACCGTTTACTCCCGGCTGAAAGGCTTTGATGTGCGGATGCTGGAGGCGGCGAAAGATCTGGGCGCCAGCGAGATGACCATCCTGCGCAAAATTATCCTGCCGCTGGCCCTGCCGGCGGTGGCGGCCGGGTGGCTGCTGAGCTTCACGCTGTCGATGGATGACGTGGTGGTCTCCTCGTTCGTCACCGGTCCGGGGTATGAAATCCTGCCGCTGAAGATCTATTCGATGGTCAAGGTCGGCGTTTCGCCAGAGGTGAACGCTCTGGCAACGATACTGTTGGTTCTGTCGCTGGTGATGGTCATCGCCAGTCAGTTAATTGCACGTGATAAAACTCAGGGGACGTTAAAATGA	MIGRLLRGGFMTAIYAYLYIPIIILIVNSFNRSRFGINWQGFTTDWYSLLMNNDSLLQAAQHSLTMAVLSATFATLIGSLTAVALYRYRFRGKPFVSGMLFVVMMSPDIVMAISLLVLFMLIGVQLGFWSLLFSHITFCLPFVVVTVYSRLKGFDVRMLEAAKDLGASEMTILRKIILPLALPAVAAGWLLSFTLSMDDVVVSSFVTGPGYEILPLKIYSMVKVGVSPEVNALATILLVLSLVMVIASQLIARDKTQGTLK	PGPT0007830_2022	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
BMS020_02504	858	potB	COG1176	Spermidine/putrescine transport system permease protein PotB	ATGAAGAACACCAGTAAATTCCAGAATGTGGTGATCGCCACCATCGTCGGTTGGCTGGTGCTGTTTGTCTTTCTGCCCAACCTGATGATCATCGCCACCAGCTTCCTGACCCGCGACGACGCTAACTTCGTCAAGCTGGTCTTCACGCTGGACAACTACTCGCGGCTGCTGGATCCGCTCTATTACGACGTGCTGCTGCATTCGCTGAACATGGCGCTGCTGGCGACCCTTGCCTGCCTGGCGCTGGGCTACCCGTTTGCGTGGTTCCTTGCCCGGCTGCCGCAGAAGGTGCGGCCCCTGCTGCTGTTCCTGCTGATCGTTCCCTTCTGGACCAACTCGTTGATCCGCATCTACGGGCTGAAGATTTTCCTCAGCACCAAAGGCTACCTGAACGAGTTTCTCCTGTGGCTGGGAGTGATCGACACGCCGATACGCATTATGTTCACCCCGTCGGCGGTGATTATCGGCCTGGTGTACATCCTGCTGCCGTTTATGGTGATGCCGCTCTACTCCAGCATTGAGAAACTGGACCGCCCGCTGCTGGAAGCGGCGAAAGATCTCGGCGCCAGCAAGCTGCAGACGTTTATCCGCATCATCATTCCGCTGACCATGCCGGGGATCATCGCCGGCTGCCTGCTGGTCATGTTGCCGGCGATGGGGCTGTTCTACGTTTCCGACCTGATGGGCGGCGCCAAGAACCTGCTGATCGGCAATGTGATCAAGAGCCAGTTTCTCAACATTCGCGACTGGCCGTTCGGCGCGGCAACCAGCATTACCTTAACCCTGGTGATGGGCCTGATGCTGTTGATTTACTGGCGCGCGGCGCGCCTGCTGAATAAAAAGGTGGAGCTGGAATGA	MKNTSKFQNVVIATIVGWLVLFVFLPNLMIIATSFLTRDDANFVKLVFTLDNYSRLLDPLYYDVLLHSLNMALLATLACLALGYPFAWFLARLPQKVRPLLLFLLIVPFWTNSLIRIYGLKIFLSTKGYLNEFLLWLGVIDTPIRIMFTPSAVIIGLVYILLPFMVMPLYSSIEKLDRPLLEAAKDLGASKLQTFIRIIIPLTMPGIIAGCLLVMLPAMGLFYVSDLMGGAKNLLIGNVIKSQFLNIRDWPFGAATSITLTLVMGLMLLIYWRAARLLNKKVELE	PGPT0007835_638	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
BMS020_02505	1266	potA_4	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGCAGGCGTATCAAGGATTGGCGATTACCCTCGTTTGCCGTAGAATGCTGGCCCTTATTAAAAACGTGCAACCCCAAAGGTGGTTAATCACAAACCCCGCAGCGGTCGGAAGTTTCCGTTGCGTCTACATGGGACAGAGTCAAAAATTGAATATACAACCGCGTTCGCGTTCGCCGCTGGTGCAACTGGCGGGAATTCGCAAAAGCTTTGATGGTAAAACGGTCATCGATAACCTTAACCTGACCATCAACAATGGTGAGTTTCTCACCCTGCTTGGCCCCTCTGGCTGCGGTAAAACCACCGTTCTGCGCCTTATCGCCGGCCTGGAAAACGTCGACAGCGGACGGATCCATCTCGAAGATCACGATATCACTCATGTTCCGGCGGAAAACCGCCACGTTAATACCGTATTCCAAAGCTACGCCCTGTTTCCGCATATGACGGTGTTCGAGAACGTCGCCTTCGGCCTGCGCATGCAGAAAACCCCGGCGGCGGAAATCACTCCGCGGGTGATGGATGCCTTAAAGATGGTGCAGCTGGAGGCGTTTGCCCAGCGCAAACCGCACCAGCTCTCCGGCGGCCAGCAGCAGCGCGTGGCCATCGCCCGCGCGGTGGTCAACAAACCGCGCCTGCTGCTGCTCGATGAGTCCCTTTCGGCGCTGGATTACAAGCTGCGCAAGCAGATGCAGAACGAACTGAAAGCGCTGCAACGTAAGCTCGGCATCACCTTCGTCTTCGTCACTCACGACCAGGAAGAGGCCCTGACCATGTCCGATCGCATCGTGGTGATGCGTGATGGCAAAATCGAACAGGACGGAACCCCGCGCGAGATCTACGAAGAGCCAAAGAACCTGTTCGTCGCCAGCTTTATCGGCGAGATCAATATCTTCGACGCCACGGTCATTGAACGCCTCGACGAACAGCGCGTGCGGGCCAGCGTGGAAGGGCGTGAGTGCAACATCACCGTCAATTTTGCGGTGGAGGCCGGCCAGCGTCTGCATGTCCTGCTGCGCCCGGAAGATCTGCGCGTCGATGAGATCCACCACAACAGCGACGCCGACGGCCTGATCGGCTATGTGCGCGAGCGCAACTATAAGGGCATGACCCTCGAGTCGGTGGTGGAGCTGGAAAACGGCAAAATGGTGATGGTCAGCGAATTCTTTAATGAAGACGACCCGGATTTCGACCACTCTCTTGACCAGAAAATGTCTATCAATTGGGTGGAGAGCTGGGAGGTGGTGCTGGCCGATGAAGAACACCAGTAA	MQAYQGLAITLVCRRMLALIKNVQPQRWLITNPAAVGSFRCVYMGQSQKLNIQPRSRSPLVQLAGIRKSFDGKTVIDNLNLTINNGEFLTLLGPSGCGKTTVLRLIAGLENVDSGRIHLEDHDITHVPAENRHVNTVFQSYALFPHMTVFENVAFGLRMQKTPAAEITPRVMDALKMVQLEAFAQRKPHQLSGGQQQRVAIARAVVNKPRLLLLDESLSALDYKLRKQMQNELKALQRKLGITFVFVTHDQEEALTMSDRIVVMRDGKIEQDGTPREIYEEPKNLFVASFIGEINIFDATVIERLDEQRVRASVEGRECNITVNFAVEAGQRLHVLLRPEDLRVDEIHHNSDADGLIGYVRERNYKGMTLESVVELENGKMVMVSEFFNEDDPDFDHSLDQKMSINWVESWEVVLADEEHQ	PGPT0007840_662	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
BMS020_02506	1233	pepT	COG2195	Peptidase T	ATGGATAAATTGCTTGAGCGTTTTTTGCAGTACGTTTCTTTGGACACGCAGTCGAAGCCTGGCGTTCGTCAGGTCCCCAGCACGGAAGGGCAGTGGAAGCTGTTACGCCTGTTGCAGGCGCAGCTGGAAGAAATGGGACTGGTCAAGGTAACGCTGAGTGAAAAAGGGACGGTAATGGGAACCCTGCCCGCCAACGTCGAGGGCGATATCCCGGCCATCGGCTTTATCTCTCACGTCGACACCTCCCCGGATTTCAGCGGCAAAAACGTTAACCCGCAGATTGTCGAAAACTATCGCGGCGGCGATATTGCGCTGGGTATCGGCGATGAGGTGCTCTCCCCGGTGATGTTCCCGGTTCTCCATCAGCTTTTGGGGCAGACGCTGATCACCACCGACGGGAAAACGCTGCTGGGGGCGGACGATAAGGCCGGCATCGCCGAGATCATGACCGCGCTGGCGACCCTGCAGGCGAAAAATATCCCCCACGGCGATATCCGCGTGGCCTTCACCCCCGATGAAGAGGTCGGAAAAGGGGCGAAACATTTCGACGTCGAGGCCTTTGACGCCCGCTGGGCCTATACCGTTGACGGCGGCGGGGTCGGCGAACTGGAGTTTGAAAACTTCAATGCCGCCTCGGTGACCATTAAGATCGTCGGCAACAACGTGCACCCCGGCACTGCGAAAGGGGTGATGGTCAACGCGCTGTCGCTGGCCGCGCGGATTCATGCCGAAGTGCCGGCCGACGAGGCGCCGGAGACTACCGAAGGCTATGAAGGCTTTTATCATCTCACCAGTATCAAAGGCAGCGTCGATCGGGCCGAGATGCACTACATCATCCGCGATTTTGACCGTAAGCACTTCGAGGCGCGCAAGCGCAAGATGATGGAGATCGCCAAAAAGGTGGGCAAGGGGCTGCACCCGGACTGCTATATCGAGCTGGTGATCGAGGACAGTTATTACAACATGCATGAGCAGGTGATCGCCCATCCGCACGTGGTCGATATTGCCCGCCAGGCCATGGTGGACTGCGATATCGAACCGCAGATGAAGCCGATCCGCGGCGGTACCGACGGGGCGCAGCTCTCGTTTATGGGACTGCCATGCCCGAACCTGTTTACCGGCGGCTACAACTATCACGGCAAACATGAGTTTGTCACCCTGGAAGGGATGGAGAAAGCGGTGCAGGTGATCGTGCGTATCGCCGAGCTGACAGCGGCACGAAAAGGGCATTAA	MDKLLERFLQYVSLDTQSKPGVRQVPSTEGQWKLLRLLQAQLEEMGLVKVTLSEKGTVMGTLPANVEGDIPAIGFISHVDTSPDFSGKNVNPQIVENYRGGDIALGIGDEVLSPVMFPVLHQLLGQTLITTDGKTLLGADDKAGIAEIMTALATLQAKNIPHGDIRVAFTPDEEVGKGAKHFDVEAFDARWAYTVDGGGVGELEFENFNAASVTIKIVGNNVHPGTAKGVMVNALSLAARIHAEVPADEAPETTEGYEGFYHLTSIKGSVDRAEMHYIIRDFDRKHFEARKRKMMEIAKKVGKGLHPDCYIELVIEDSYYNMHEQVIAHPHVVDIARQAMVDCDIEPQMKPIRGGTDGAQLSFMGLPCPNLFTGGYNYHGKHEFVTLEGMEKAVQVIVRIAELTAARKGH	PGPT0020915_205	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
BMS020_02507	1122	roxA_1	COG2850	50S ribosomal protein L16 3-hydroxylase	ATGGATTATCAATTAACGCTTAACTGGCCCGACTTTATCGAACGCTACTGGCAAAAACGGCCGGTGGTACTGAAGCGCGGCTTCGCCAATTTTATCGACCCGCTGAGCCCGGACGAACTGGCTGGACTGGCCATGGAGAGCGAGGTCGATAGCCGCCTTGTCAGCCATCAGGATGGAAAATGGCAGGTCAGTCACGGTCCCTTCGAAAGCTACGATCACCTGAGCGAAAACAACTGGTCCCTGCTGGTACAGGCGGTCAACCACTGGCATGAGCCGTCGGCGGCGCTGATGCACCCGTTCCGCGCCCTGCCGGACTGGCGTATCGACGACCTGATGATCTCCTTCTCCGTACCGGGCGGCGGCGTCGGCCCACATCTGGATCAGTATGATGTGTTTATCATCCAGGGCACTGGCCGTCGGCGCTGGCGCGTCGGGGAAAAAGTGCCGATGAAACAGCACTGCCCGCATCCGGACCTGCTGCAGGTTGACCCCTTCGAGGCGATCATCGATGAAGAGATGGAGCCGGGCGATATTCTCTATATTCCGCCAGGATTCCCGCATGAGGGATATTCGCTGGAAAATTCGCTGAACTATTCGGTCGGCTATCGCGCGCCGAATGCCCGCGAGCTGTTCAGCGGCTTTGCCGACTACGTTCTCCAGCGCGAACTGGGCAGCCAGCGCTACGCCGATCCGGACGTGCCCTCCCGCGACCATCCGGCGGATATTTTACCGGCCGAACTCGACCGCCTGCGCGAGATGATGCTGGGGCTGATTAACCAACCGGAGCACTTTAAGCAGTGGTTCGGCGAGTTTATCACTCAGTCGCGTCATGAGCTCGACGTCGCGCCGCCGGAGCCGCCGTATCAGCCCGATGAAATTTACGATGCCCTGCAGCAGGGCGATACCCTGGAACGCTTGGGCGGCCTGCGGGTGCTGCGCATTGACGGCGAGGTGTTCGTCAATGGCGAGAAGATCAACTCTCCGCACCGCCCGGCGCTGGACGCCTTAGCCACCCACCTGACGCTGCGCGCAGACCATTTTGGCGATGCGCTGGAAGATCCCTCTTTCCTCGCCATGCTGGCGGCGCTGGTCAACAGCGGCTACTGGTTCTTTGGCGACTGA	MDYQLTLNWPDFIERYWQKRPVVLKRGFANFIDPLSPDELAGLAMESEVDSRLVSHQDGKWQVSHGPFESYDHLSENNWSLLVQAVNHWHEPSAALMHPFRALPDWRIDDLMISFSVPGGGVGPHLDQYDVFIIQGTGRRRWRVGEKVPMKQHCPHPDLLQVDPFEAIIDEEMEPGDILYIPPGFPHEGYSLENSLNYSVGYRAPNARELFSGFADYVLQRELGSQRYADPDVPSRDHPADILPAELDRLREMMLGLINQPEHFKQWFGEFITQSRHELDVAPPEPPYQPDEIYDALQQGDTLERLGGLRVLRIDGEVFVNGEKINSPHRPALDALATHLTLRADHFGDALEDPSFLAMLAALVNSGYWFFGD				NA	NA	NA	NA	NA
BMS020_02508	1467	phoQ_1	COG0642	Sensor protein PhoQ	ATGAAGGGACTGTTGCGGCATATTTTCCCGCTGTCGTTACGGGTTCGCTTTCTGCTGGCGACCGCCGGGGTGGTGCTGGTGCTCTCCCTGGCTTATGGCATGGTGGCGCTGGTGGGCTACAGCGTCAGCTTCGATAAAACCACCTTCCGTCTGCTGCGCGGCGAGAGCAATCTCTTTTATATGCTGGCCAAATGGGAGAACGGCGCCATTGACGTCGATATCCCGGAAAATCTGAATATGGAAAGCCCGACGGTGACCCTTATTTACGATGAGAAGGGCAAACTGCTGTGGGCGCAGCGCGATGTTCCCTGGCTGACAAAACGCATTCAACCGGATTGGCTGAAACGCAATGGTTTCCATGAAATTGAAGCCGATGTCGACAGCAGCAGTATGCTGTTGCGCAATAACCATGAGGTTCAGGAACAGCTGGACGCCATCCGCGAACAGGGCGACGATTCGGAGATGACCCACTCGGTGGCGATCAACTTCTACCCGGCCACCAGCAAAATGCCCCAGCTCAGTATCGTGGTGGTCGACACCATCCCGGTGGAGCTTAAGCGCAGCTATATGGTGTGGAGCTGGTTTATCTACGTGCTGGCCGCCAACCTGTTGCTGGTGATCCCCCTGCTGTGGGTCGCCGCCTGGTGGAGCCTGCGCCCCATCGAGTCGCTGGCCAAAGAGGTGCGCGAGCTGGAGGAACATCACCGCGAGAAGCTCAATCCCAACACCACCCGCGAGCTGACCCGGCTGGTCAGCAACCTTAACCGGCTGGTTCGCAGCGAGCGTGAACGCTATGACAAATACCGCACCACCCTCACCGATCTCACCCACAGCCTGAAAACGCCGCTGGCGGTGATGCAGAGCACGTTGCGCTCGCTGCGCGGCGAGAAGATCAGCGTCGACGAGGCGGAGCCGGTGATGCTGGAGCAGATCAGCCGTATTTCGCAGCAGATTGGTTACTATCTGCATCGCGCCAGCATGCGCAGCGGCGGCACCTTGCTGAGCCGGGAGCTGCATCCGATCGCCCCCCTGCTCGACAGCCTGACCTCCGCCCTCAATAAGGTTTATCAGCGCAAGGGGGTCAATATCTCGCTCGACATCTCGCCGGAGATCAGTTTTGTCGGCGAGCAGAACGATTTTATGGAAGTGATGGGTAACGTTCTCGATAACGCCTGTAAGTACTGTCTGGAGTTCGTGGAGGTTTCCGTGCGCCAGACCACCGACAGCCATCTGCACATTCTGGTGGAAGACGATGGGCCGGGGATCCCGCCGAGCCAGCGCCGCGCTGTCTTCGACCGCGGTCAGCGGGCGGATACTCTACGTCCCGGCCAGGGGGTGGGGCTCTCCGTCGCCCGGGAAATCGTCGAACAATATGACGGGGAGATCATCGCCGGCGAGAGCCTGCTCGGCGGCGCCTGCATGGAGGTGGTGTTTGGCCGCCAGCTGATGGAAGATAAAGAGAGTTAA	MKGLLRHIFPLSLRVRFLLATAGVVLVLSLAYGMVALVGYSVSFDKTTFRLLRGESNLFYMLAKWENGAIDVDIPENLNMESPTVTLIYDEKGKLLWAQRDVPWLTKRIQPDWLKRNGFHEIEADVDSSSMLLRNNHEVQEQLDAIREQGDDSEMTHSVAINFYPATSKMPQLSIVVVDTIPVELKRSYMVWSWFIYVLAANLLLVIPLLWVAAWWSLRPIESLAKEVRELEEHHREKLNPNTTRELTRLVSNLNRLVRSERERYDKYRTTLTDLTHSLKTPLAVMQSTLRSLRGEKISVDEAEPVMLEQISRISQQIGYYLHRASMRSGGTLLSRELHPIAPLLDSLTSALNKVYQRKGVNISLDISPEISFVGEQNDFMEVMGNVLDNACKYCLEFVEVSVRQTTDSHLHILVEDDGPGIPPSQRRAVFDRGQRADTLRPGQGVGLSVAREIVEQYDGEIIAGESLLGGACMEVVFGRQLMEDKES	PGPT0011065_43	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_ACIDIC_STRESS	ACIDIC_STRESS_REGULATION,PGPT0011065-phoQ-K07637	NA	NA
BMS020_02509	672	phoP_3		Transcriptional regulatory protein PhoP	ATGCGCGTACTCGTGGTTGAGGATAATGCCCTGCTGCGTCACCACCTCAAAGTTCAGCTACAGGAGCTGGGCCATCAGGTCGATGCCGCAGAGGATGCCAAGGAAGCGGATTACTATCTGGGCGAACATCTCCCGGATATCGCCATCGTCGATCTCGGTCTGCCGGACGAAGATGGATTATCGTTGATCCGCCGCTGGCGCAGCCACGACGTGTCACTGCCGGTGCTGGTGCTGACCGCCCGCGAAGGTTGGCAGGATAAAGTCGAAGTGCTGAGCGCCGGGGCGGATGATTACGTCACCAAGCCTTTCCATATTGAAGAGGTTGCCGCCCGCATGCAGGCGCTGCTGCGCCGCAATAGCGGCCTGGCCTCGCAGGTGATCTCTCTGCCGCCGTTCCAGGTCGACCTCTCCCGGCGCGAGCTGTCGGTGAACGACCAGCCGATCAAGCTGACGGCTTTTGAGTACACCATTATGGAAACCCTGATCCGCAATCGCGGCAAAGTGGTCAGTAAGGATTCGCTGATGCTCCAGCTTTACCCGGATGCCGAACTGCGTGAAAGCCATACCATCGACGTGCTGATGGGCCGGCTGCGTAAGAAAATTCAGGCTGAATACCCGCAGGACGTCATCACTACGGTGCGCGGCCAGGGCTATCTGTTCGAACTGCGCTGA	MRVLVVEDNALLRHHLKVQLQELGHQVDAAEDAKEADYYLGEHLPDIAIVDLGLPDEDGLSLIRRWRSHDVSLPVLVLTAREGWQDKVEVLSAGADDYVTKPFHIEEVAARMQALLRRNSGLASQVISLPPFQVDLSRRELSVNDQPIKLTAFEYTIMETLIRNRGKVVSKDSLMLQLYPDAELRESHTIDVLMGRLRKKIQAEYPQDVITTVRGQGYLFELR	PGPT0011060_546	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS|LIPID|IVA_REGULATION,PGPT0011060-phoP-K07660	NA	NA
BMS020_02510	807			hypothetical protein	ATGTCTCAGCAGCAGAGCGCGGACTGGGTCAGGCTGGCGCAGTCGCCCAGTCGGACGGAGCGCATCGAAGCCTTCTTCGGCGGCCACGGCTATGAGCCGCACCGGCATGACACCTACGCCATCGGCCAGACGATCGCCGGCGTGCAGAGCTTTCACTATCGCGGCGGGCTACAGCACAGTCTGCCCGGCGGGACGATGGTCCTTCACCCGGACGAAATACACGATGGCGAGGCGGGCACCGAGGCGGGGTTTCACTACCGCATGGCCTATATCGAACCCGCGCTGATCCAGAAGATACTCGGCGGCAGGCCATTGCCGTTTATCCCCGGCGGCCTGTCGGCGGATCCACGGCTACGTCGCGCCGCGCAACCGCTGTTGAAAGCGGTCACGGCTACCTTCGAGCCGCTGGAGGAAGAGGACGCCCTGTACGACCTGGCGCAGACCCTGGCCGTGGTCGGCGGGCAGCGTTCCCGTCGCCAGGCGTTTGATTATCAGGCGGCGGAGAGGGCCCGGGAGTATATCCATGCCTGTTTTATGCAGGATATGACCCTCGACATCCTGTCGCAGGTCAGCGGCCGGGACCGCTGGAGCCTGAGCCGCGATTTCAGAACGCTGTACGGCACCAGTCCGTGGCGATACGTCATGATGCGCCGGCTCGATTTTTGTCGCCAGCGGATGCGCGCCGGGGAGCGTCTGGTGGATATTGCCGCCGAGGCGGGCTTTGCCGACCAGAGCCACATGACGCGCCAGTTTATCAGCCGCTTTGGCCTCTCTCCGGGGCGCTGGCTGCGGGCGATCCGCGGCTAA	MSQQQSADWVRLAQSPSRTERIEAFFGGHGYEPHRHDTYAIGQTIAGVQSFHYRGGLQHSLPGGTMVLHPDEIHDGEAGTEAGFHYRMAYIEPALIQKILGGRPLPFIPGGLSADPRLRRAAQPLLKAVTATFEPLEEEDALYDLAQTLAVVGGQRSRRQAFDYQAAERAREYIHACFMQDMTLDILSQVSGRDRWSLSRDFRTLYGTSPWRYVMMRRLDFCRQRMRAGERLVDIAAEAGFADQSHMTRQFISRFGLSPGRWLRAIRG				NA	NA	NA	NA	NA
BMS020_02511	363			hypothetical protein	ATGTATCAACTCGTTAATTTTGCTCATAAATTTTCCCTTTTCAGCGAACAATGGCAGCCCAAAGTGGTGGCCGAAATGAACGACTATCAGTTCAAGATCGTGCGCATCGCCGGCGACTTTATCTGGCACAGCCATCCGGAAACTGATGAGACGCTGATGGTGGTGGAGGGGGTATTGCGCGTGGACTTCCGCGACGGACATGTGCTGGTGAAGGCCGGGGAGATGATCGTCGTGCCGCGCGGGGTGGAACATAAGACCTCGGCGGAGATGGAAGCGAAGCTGCTGCTGATTGAACCGCGCGGGGTGCTGAATACCGGCCACGAGGGCGGCGAGCGGACGGCGGTGAACGACGTCTGGATCTGA	MYQLVNFAHKFSLFSEQWQPKVVAEMNDYQFKIVRIAGDFIWHSHPETDETLMVVEGVLRVDFRDGHVLVKAGEMIVVPRGVEHKTSAEMEAKLLLIEPRGVLNTGHEGGERTAVNDVWI				NA	NA	NA	NA	NA
BMS020_02512	1371	purB_1	COG0015	Adenylosuccinate lyase	ATGGAATTATCCTCACTGACCGCCGTTTCCCCTGTAGACGGCCGCTACGGCGATAAAGTCAGCGCGCTGCGCGGTATCTTCAGCGAATTCGGTTTGCTGAAATTCCGCGTTCAGGTGGAAGTACGTTGGCTGCAAAAACTGGCCGCCCACGCAGCGATCAAGGAAGTTCCTGCTTTTGCTGCTGACGCAAACGGTTTCCTTGACAAAATCGTCGCCGATTTCAGCGTCGAAGACGCCGAGCGCATCAAAACCATCGAGCGCACCACTAACCACGACGTGAAAGCGGTAGAGTACTTTCTGAAAGAGAAAGTCGCTGACGTCGCTGAACTGCACGCCGTGTCGGAGTTTATTCACTTCGCCTGTACGTCCGAAGATATCAATAACCTCTCCCACGCGCTGATGCTGAAAACCGCCCGCGACGAAGTGGTTCTGCCTTACTGGCGCAAGCTGATTGACGCGGTAAAAGATCTGGCGACCCAGTACCGCGATGTACCGCTGCTCTCCCGTACCCACGGCCAGCCGGCGACGCCGTCCACCATGGGTAAAGAGATGGCGAACGTCGCCTACCGTATGGAGCGCCAGTACCGTCAGCTGAACCAGGTGGAAATCCTCGGTAAAATCAACGGCGCGGTGGGTAACTACAACGCCCACATCGCCGCCTACCCGGAAGTCGACTGGCATCAGTTCAGCGAAGAGTTTGTCACTTCGCTGGGCATTCAGTGGAACCCGTACACCACGCAGATCGAGCCGCATGACTATATCGCTGAGCTGTTTGACTGCATCGCGCGCTTCAACACCATTCTGATCGACTTCGATCGCGACGTGTGGGGCTACATCGCGCTCAACCACTTCAAACAGAAGACCATCGCCGGGGAAATCGGCTCCTCCACCATGCCGCACAAGGTGAACCCGATTGACTTCGAAAACTCCGAAGGCAACCTCGGCCTGGCCAATGCGGTCATGCAGCACCTGGCCAGCAAACTGCCGGTTTCCCGCTGGCAGCGCGACCTGACCGACTCCACCGTCCTGCGTAACCTCGGCGTGGGCATCGGCTATGCGCTGATCGCCTATCAGTCCACCCTCAAAGGGATCAGCAAGCTGGAGCTGAACCAGGATCGCCTGCTGGACGAACTGGATCACAACTGGGAAGTACTGGCTGAGCCGATCCAGACCGTGATGCGTCGTTACGGTATCGAAAAACCGTACGAGAAGCTGAAAGAGCTGACCCGCGGCAAACGCGTTGACGCGGAAGGGATGAAGCAGTTTATTGACAGCCTCGCCCTGCCGGAAGAGGAAAAAGTGCGTCTCAAAGCGATGACCCCGGCCAACTATATCGGTCGGGCAACCACCATGGTTGACGAGCTGAAGTAA	MELSSLTAVSPVDGRYGDKVSALRGIFSEFGLLKFRVQVEVRWLQKLAAHAAIKEVPAFAADANGFLDKIVADFSVEDAERIKTIERTTNHDVKAVEYFLKEKVADVAELHAVSEFIHFACTSEDINNLSHALMLKTARDEVVLPYWRKLIDAVKDLATQYRDVPLLSRTHGQPATPSTMGKEMANVAYRMERQYRQLNQVEILGKINGAVGNYNAHIAAYPEVDWHQFSEEFVTSLGIQWNPYTTQIEPHDYIAELFDCIARFNTILIDFDRDVWGYIALNHFKQKTIAGEIGSSTMPHKVNPIDFENSEGNLGLANAVMQHLASKLPVSRWQRDLTDSTVLRNLGVGIGYALIAYQSTLKGISKLELNQDRLLDELDHNWEVLAEPIQTVMRRYGIEKPYEKLKELTRGKRVDAEGMKQFIDSLALPEEEKVRLKAMTPANYIGRATTMVDELK	PGPT0021555_2339	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021555-purB-K01756	NA	NA
BMS020_02513	642	hflD_1	COG2915	High frequency lysogenization protein HflD	GTGGCGAAGAATTACTATGACATCACCCTGGCGCTGGCTGGCGTTTGCCAGGCGGCGCGACTGGTTCAGCAACTGGCGCATCAGGGACATTGCGACAGCGATGCCCTGCATGTGTCGCTGAACAGCATCATCGACCTCGATCCCGAGTCGACGCTGGCGGTGTTCGGTGGCAGTGAAGCCAATCTTCGCCTCGGCCTTGAAACGCTGCTCGGGGTGCTCAATACCAGCAGCCGTCAGGGCCTCAATGCGGAACTCACCCGCTATACCCTGAGCCTGATGGTGCTGGAGCGCAAGCTCGCCGCCAGTAAAGGGGCGATGGACACGCTCGGCAACCGCATCGCCGGCCTGCACCGTCAGCTGGAGCACTTTGACCTGCAGTCCGAAACGCTGCTCAGCGCCATGGCGGGCATCTATGTCGATGTGATAAGCCCGCTGGGCCCGCGTATTCAGGTGACCGGCTCCCCTGCCGTGCTGCAAAGCCCGCAGGTGCAGGCGAAAGTTCGCTCAGCGCTGCTGGCGGGGATTCGCGCCGCGGTGCTCTGGCATCAGGTGGGCGGCGGACGTCTGCAGCTTATGTTTTCCCGTAATCGTCTGGTTAACCAGGCAAAGCAAATTCTTGCTCATTTAACCCCGGAGTTGTGA	MAKNYYDITLALAGVCQAARLVQQLAHQGHCDSDALHVSLNSIIDLDPESTLAVFGGSEANLRLGLETLLGVLNTSSRQGLNAELTRYTLSLMVLERKLAASKGAMDTLGNRIAGLHRQLEHFDLQSETLLSAMAGIYVDVISPLGPRIQVTGSPAVLQSPQVQAKVRSALLAGIRAAVLWHQVGGGRLQLMFSRNRLVNQAKQILAHLTPEL	PGPT0021555_16	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021555-purB-K01756	NA	NA
BMS020_02514	1167	mnmA_1	COG0482	tRNA-specific 2-thiouridylase MnmA	ATGAACGGTGAGCGCGTGCTAGAATACGCCGCCTCGAAGTTCAATGTAGCGAGTATTTCCATGTCAGAAAGCCAGAAAAAAGTGATCGTCGGCATGTCCGGCGGCGTCGACTCCTCGGTCTCCGCGTACCTGCTGCTGCAGCAAGGGTATAAGGTGGAAGGCCTGTTCATGAAGAACTGGGAGGAAGACGACGGCGAGGAATACTGCACCGCCGCCGCCGACCTTGCCGATGCGCAAGCGGTCTGCGATAAGCTGGGCATTGAACTGCACACCGTTAACTTTGCCGCCGAATATTGGGATAACGTCTTTGAGCTCTTCCTGGAAGAGTACAAAGCCGGCCGCACGCCGAACCCGGATATTCTGTGCAATAAAGAGATCAAATTTAAAGCCTTCCTCGAGTTTGCCGCCGAAGACCTCGGCGCCGACTACATCGCCACCGGGCACTATGTGCGCCGCGCCGATGTCGACGGTAAAAGCCAGCTGCTGCGCGGTCTCGACGGCAACAAAGATCAGAGCTACTTCCTTTATACCCTCAGCCACGAGCAGATTGCCCAGAGCCTGTTCCCGGTGGGTGAGCTGGAAAAACCGCAGGTGCGTAAGATCGCCGAAGAGCTGGATCTGATCACCGCGAAGAAAAAAGATTCCACCGGCATCTGCTTTATCGGCGAGCGTAAATTCCGCGATTTCCTTGGCCGCTATCTGCCGGCGCAGCCGGGCAAAATCCTCACCGTCGACGGCGAGGAGATCGGCACCCATCAGGGGCTGATGTACCATACTCTGGGCCAGCGTAAAGGACTGGGTATCGGCGGCACCAAAGAGGGTAGCGAAGACCCATGGTACGTGGTCGATAAAGACGTTGAGAATAATATTCTTATCGTCGCCCAGGGCCATGACCACCCGCGCCTGATGTCCGTCGGCCTGATTGCCCAACAGCTGCACTGGGTTGACCGTGAACCGCTGCAGGGCACCCTGCGCTGCACGGTGAAAACCCGCTATCGCCAGACCGATATCCCCTGCACCGTTACCGCGCTGGATGAAGACCGTATCGAAGTCCGCTTCGATGAGCCGGTCGCGGCGGTGACCCCGGGCCAGTCCGCCGTGTTCTATTTGGGTGAAGTGTGCCTCGGCGGCGGAATTATTGAACAACGACTGCCTCTGCAGTCCTGA	MNGERVLEYAASKFNVASISMSESQKKVIVGMSGGVDSSVSAYLLLQQGYKVEGLFMKNWEEDDGEEYCTAAADLADAQAVCDKLGIELHTVNFAAEYWDNVFELFLEEYKAGRTPNPDILCNKEIKFKAFLEFAAEDLGADYIATGHYVRRADVDGKSQLLRGLDGNKDQSYFLYTLSHEQIAQSLFPVGELEKPQVRKIAEELDLITAKKKDSTGICFIGERKFRDFLGRYLPAQPGKILTVDGEEIGTHQGLMYHTLGQRKGLGIGGTKEGSEDPWYVVDKDVENNILIVAQGHDHPRLMSVGLIAQQLHWVDREPLQGTLRCTVKTRYRQTDIPCTVTALDEDRIEVRFDEPVAAVTPGQSAVFYLGEVCLGGGIIEQRLPLQS				NA	NA	NA	NA	NA
BMS020_02515	459	nudJ_1	COG0494	Phosphatase NudJ	ATGTTTAAACCTCATGTCACTGTTGCCTGCGTGGTTCACGCCCAGGATAAATTTCTCATCGTCGAAGAGACCATTAACGGCAAAGCATTGTGGAACCAGCCGGCGGGCCATCTCGAGGCCAATGAAACGCTGCTGCAGGCCGCCGAACGTGAACTGTGGGAAGAGACCGGCATTCGCGCCACGCCGCAGCACTTCATCCGCATGCATCAGTGGCTGGCGCCCGATAACACCCCGTTTCTGCGCTTCCTGTTCGCCATCGAACTTAGCGATCTGTGCGCCACTGAACCGCACGACAGCGATATCGATCGCTGCCTGTGGCTCAGTGCTGAGGAAATTCTTAACGCGCCAAACCTGCGCTCGCCGCTGGTTGCCGAAAGCATTCGCTGCTACCTGCAGGACCCGCGCCAGCCGCTGTCGCTGATTGGCGCATTTAACTGGCCGTTCACAGGGGGTGAATGA	MFKPHVTVACVVHAQDKFLIVEETINGKALWNQPAGHLEANETLLQAAERELWEETGIRATPQHFIRMHQWLAPDNTPFLRFLFAIELSDLCATEPHDSDIDRCLWLSAEEILNAPNLRSPLVAESIRCYLQDPRQPLSLIGAFNWPFTGGE	PGPT0028060_194	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACIMETHRIN|CF3-HMP_DETOXIFICATION,PGPT0028060-nudJ|ymfB-K12152	NA	NA
BMS020_02516	651	rluE_1	COG1187	Ribosomal large subunit pseudouridine synthase E	ATGCGGCAATTGATAGAGCCTGAAAATACCATGCAGAAAACTTCATTTAGAAAACATCGCGTTGAGCGATTCAGCACACAACAAGTCACCAGACAACGCAAAGAACGCCAGCCAAAAACTGTGATCTTGTTCAATAAACCCTATGATGTGTTGCCGCAATTTACCGACGAGGCCGGGCGCAGCACGCTGAAAGATTTTATTCCCGTGGCGGGCGTCTACGCCGCAGGTCGACTCGATCGCGACAGCGAAGGGCTGCTGGTGCTGACCAACGATGGCGCGCTGCAGGCGAAGCTGACCCAGCCGGGTAAACGCACCGGCAAGATCTACTACGTCCAGGTGGAAGGCGAACCCACGCCCGAGGCGCTGGCCGCTTTGCGCGACGGCGTCACCCTCAACGATGGCCCCACCCTGCCTGCCGGCGTAGAACTTGTGGAGGAGCCCGCCTGGCTGTGGCCGCGCAACCCGCCGATTCGTGAGCGCAAATCGATCCCCACCCGCTGGCTGAAGATCACGCTCTACGAGGGACGCAACCGTCAGGTGCGCCGGATGACCGCCCACGTCGGCTTCCCTACCCTGCGGCTGATCCGCTACGCCATGGGCGGCTACACCCTCGACGGGCTGGCCAACGGCGACTGGCGCAAAGCCGAATAA	MRQLIEPENTMQKTSFRKHRVERFSTQQVTRQRKERQPKTVILFNKPYDVLPQFTDEAGRSTLKDFIPVAGVYAAGRLDRDSEGLLVLTNDGALQAKLTQPGKRTGKIYYVQVEGEPTPEALAALRDGVTLNDGPTLPAGVELVEEPAWLWPRNPPIRERKSIPTRWLKITLYEGRNRQVRRMTAHVGFPTLRLIRYAMGGYTLDGLANGDWRKAE	PGPT0029005_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029005-bcr|tcaB-K07552	NA	NA
BMS020_02517	1251	icd_1	COG0538	Isocitrate dehydrogenase [NADP]	ATGGAAAGCAAAGTAGTAGTTCCGGCGGAAGGTCAAAAAATCACCCTGCAAAACGGCAAACTGAACGTCCCTCATAATCCGATTATCCCGTTCATTGAAGGTGACGGTATCGGCGTTGACGTTACCCCAGCGATGCTGAAAGTGGTTGATGCCGCCGTTGAGAAAGCCTATAAGGGCGAGCGTAAAATTTCCTGGATGGAAGTTTACACCGGTGAGAAATCGACCCACGTCTATGGCCAGGATGTCTGGCTGCCAGCTGAAACCCTCGATCTGATTCGTGACTACCGCGTTGCTATCAAAGGTCCTCTGACTACCCCAGTCGGCGGCGGCATTCGTTCCCTGAACGTGGCGCTGCGTCAGGAGCTGGATCTCTACGTTTGCCTGCGTCCGGTACGTTACTACCAGGGCACTCCGAGCCCGGTTAAGCACCCGGAACTGACCGACATGGTTATCTTCCGTGAAAACTCCGAAGATATCTATGCCGGCATCGAGTGGAAAGCCGACTCTGCTGAAGCAGACAAAGTGATCAAATTCCTGCGCGATGAGATGGGCGTGAAGAAAATTCGCTTCCCGGAACATTGCGGCATCGGCATCAAGCCGTGCTCTGAAGAAGGCACCAAACGCCTGGTTCGTGCAGCCATTGAGTATGCGATCACCAACGATCGTGACTCTGTGACCATCGTTCACAAAGGCAACATCATGAAGTTCACCGAAGGCGCGTTCAAAGACTGGGGCTACCAGCTGGCTCGCGAAGAGTTCGGCGGCGAGCTGATCGACGGCGGCCCGTGGGTGAAAATCAAGAACCCGAACACCGGCAAAGAGATCGTGGTAAAAGACGTGATCGCCGATGCCTTCCTGCAGCAGATCCTGCTGCGTCCGGCGGAATACGACGTTATCGCCTGTATGAACCTCAATGGCGACTACATCTCTGACGCGCTGGCGGCACAGGTTGGCGGTATCGGTATCGCCCCGGGCGCCAACATCGGCGACGAGTGCGCGCTGTTCGAAGCGACTCACGGTACTGCGCCGAAGTATGCTGGCCAGGACAAAGTGAACCCGGGCTCCATCATCCTGTCCGCAGAGATGATGCTGCGCCACATGCAGTGGTTCGAAGCCGCAGACCTGATCGTCAAAGGCATGGAAGGCGCTATCGCCGCCAAGACCGTGACCTATGACTTCGAACGTCTGATGGAAGGCGCTAAGCTGCTGAAATGTTCAGAGTTTGGCGACGCGATTATCGCGAACATGTAA	MESKVVVPAEGQKITLQNGKLNVPHNPIIPFIEGDGIGVDVTPAMLKVVDAAVEKAYKGERKISWMEVYTGEKSTHVYGQDVWLPAETLDLIRDYRVAIKGPLTTPVGGGIRSLNVALRQELDLYVCLRPVRYYQGTPSPVKHPELTDMVIFRENSEDIYAGIEWKADSAEADKVIKFLRDEMGVKKIRFPEHCGIGIKPCSEEGTKRLVRAAIEYAITNDRDSVTIVHKGNIMKFTEGAFKDWGYQLAREEFGGELIDGGPWVKIKNPNTGKEIVVKDVIADAFLQQILLRPAEYDVIACMNLNGDYISDALAAQVGGIGIAPGANIGDECALFEATHGTAPKYAGQDKVNPGSIILSAEMMLRHMQWFEAADLIVKGMEGAIAAKTVTYDFERLMEGAKLLKCSEFGDAIIANM	PGPT0001170_2689	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
BMS020_02518	387			hypothetical protein	ATGATGAAGAAAATCCCCCCCACCGCGCTGCTGTTAGCTTGCGCACTGGTTGGTTGCACCGTAAACCAAATAAACGATCAGGAAAAGCACGTCGCGAAGTTTCGCGAAACCAGGAGCCTTTACAACAAAGCGCTACTGCGCTGCGAGGAGATCGCTAACAAGAAATATCATGGCCAGTTGTATGGCTCTGTCCGGGTTGAAGGTGAAGCGCGTGTCGCGGTCTCCCGCGGGTATGAGAAAGAGCGCCGTGTCTGCGCTGACAATTATGACCGGAAAATGAGAGCATTGTGGGATGCTCAACCTGCCGATGTTCATGCGTTTTATGAGCAACGCCGCGCTGAATTGCATCAAGAAAACAACGCCGTTAATGAAGAGGCAAAAAGATGA	MMKKIPPTALLLACALVGCTVNQINDQEKHVAKFRETRSLYNKALLRCEEIANKKYHGQLYGSVRVEGEARVAVSRGYEKERRVCADNYDRKMRALWDAQPADVHAFYEQRRAELHQENNAVNEEAKR				NA	NA	NA	NA	NA
BMS020_02519	339			hypothetical protein	ATGAACATCCTGAAGACGCTTTCTGGCGTAGCACTGACGACGGCGCTGGCCGGGTGTGCCGTTCCCCCTCCAATGGGCGTCACTAACGCGAGCCGCGCTGACGCTACCGTTAAATTTTCGTACCTGCTAAACGGTAGCCAGCCTGCTAACTTCACGCCGACCTTTAACGGCGCGCAGGAGAAGGCGGCGGCAATCTGCAAAAAATGGGGGTACACCGGCGCGGAGGCTGTCGATGAACTCGCCAAAACTGAATGCTCCGAGACGAATATATTCATCCGCGGTTGCCTGAAAGGCGAAGTGTCAAAACTGTACATGTGTAGTGGCAAGATCCAACAATAG	MNILKTLSGVALTTALAGCAVPPPMGVTNASRADATVKFSYLLNGSQPANFTPTFNGAQEKAAAICKKWGYTGAEAVDELAKTECSETNIFIRGCLKGEVSKLYMCSGKIQQ				NA	NA	NA	NA	NA
BMS020_02520	432			hypothetical protein	ATGAAAAAATTGATGATAGCAATCACCCTGGCGACCGTCGCTGCAGCACCGGCACACGCCATTAACGCTAAATATCGCGAACAGCTGGAGCGCTCCGGATGCAATGAGATGAACGCCGGGCAGGGCTGCGACATCCACAAAACTAAAGCGCAAAACGCCGCAGAAGCGAAGAAGAGCCAGAACTTTTCGAAATTCGCTGGTACCTACTCCGTTTTCCTTCGGAATGGTCAGCGCATTGGCAACAAAATCATTGTGGTGAAGCCCCATGAGGTGCGTTACAACGGCCACCTGGCGGAGCGCCCGCGGGTCGTCAACGGCGTGCTGCTGTTTTCCGTGCAGGAGGCACAATTCTCCATCACCAGCACGCACGGTAATGAGCTGGGAACTTGGTTCAACGATGCGAACGATACCGGCGGCACTATCGGCCGATAG	MKKLMIAITLATVAAAPAHAINAKYREQLERSGCNEMNAGQGCDIHKTKAQNAAEAKKSQNFSKFAGTYSVFLRNGQRIGNKIIVVKPHEVRYNGHLAERPRVVNGVLLFSVQEAQFSITSTHGNELGTWFNDANDTGGTIGR				NA	NA	NA	NA	NA
BMS020_02521	771			hypothetical protein	ATGAATCTCCTGAAAACGCAGCAAGACAGTGAGCCAGAGGCGGCACTGGAAACCGCGATGGCGATGGTGGCCTCAGCCCTCTCCGACCCGTCAAGGGTGAGTATTCTCTGCGCGCTGATGGACGGGCGCGCATGGACGGCGACCGAGCTCAGCACGGTCGCCGAGGTCTCCGCCTCCACCACCAGCGGACATCTTGCCCGACTGCTCAGCAACGGGCTGGTGGTGTGTCTCGCGCAGGGGCGCCACCGCTATTACCGCCTGGCGGGCCCGCATATCGCCGGGCTGCTGGAAAACCTGATGGGCGTCTCAATGCAGGCGCATAAGGCGCTGGCCACCAGCACGCCGGTTACGCTTCGCTACGCCCGCACCTGCTACGACCATCTGGCGGGCGAACTGGCGGTGAATATTTATGAGTTTATGCTGCGGGAAAAATGGCTGACGGCCGATGGGCAGTCCCTGACGTCAGCCGGTAAAACCCAGCTTGAAAGCCTGGGCGCAGTACTTAACGTTCGACCGCGACGTAAGCCTTGCTGCCCCTGTCTTGACTGGAGCGAAAGACGTTTTCATCTGGGAGGCGACGCCGGATCGGCGCTGTTGGCGCTGTTTGAGCAAAAAGGATGGATAACCCGCGCGCCGGGATATCGGGAAGTGCAAGTGACGGATAGCGGCAGAGCGGCGCTGTCCCGGCTGTTTAATCTCAAAGATAGCATCCGCGGATTAGACTATGTTGAGCCACCAGAAAACGTTAATCATAGTGAGCGCAACGCATAG	MNLLKTQQDSEPEAALETAMAMVASALSDPSRVSILCALMDGRAWTATELSTVAEVSASTTSGHLARLLSNGLVVCLAQGRHRYYRLAGPHIAGLLENLMGVSMQAHKALATSTPVTLRYARTCYDHLAGELAVNIYEFMLREKWLTADGQSLTSAGKTQLESLGAVLNVRPRRKPCCPCLDWSERRFHLGGDAGSALLALFEQKGWITRAPGYREVQVTDSGRAALSRLFNLKDSIRGLDYVEPPENVNHSERNA				NA	NA	NA	NA	NA
BMS020_02522	393			hypothetical protein	ATGTATGATATTCACGTCATTCTCAGCAACACGCCGGGCTCGCTTGGCGCAATGGGTATAGCGCTGGGCAACAACGGTGTGGGTCTCGAAGGTGGTGGGGTATTCACCACGCCTGATGCCGGACATGCGCATTTTCTGGTGGAAGACGGTGAGACAGCCCGCAGGGTGCTGACCGAGGCCGGATTTACGGTCAGCGATGTATGCCGTCCTCTGATACGCAAGTTACCCCAGGAACGACCCGGGGAGCTGGGGGACATTGCCGACACCCTGGCCCGCAACGGTATTAATATTCTGGTACAGTACAGCGACCACCGTAACCGGCTCATTCTCCTTACCGATGATGACACCCGGGCAGCGGAAGTGACCAAAAAATGGGCCATACTTTCTGAATGA	MYDIHVILSNTPGSLGAMGIALGNNGVGLEGGGVFTTPDAGHAHFLVEDGETARRVLTEAGFTVSDVCRPLIRKLPQERPGELGDIADTLARNGINILVQYSDHRNRLILLTDDDTRAAEVTKKWAILSE				NA	NA	NA	NA	NA
BMS020_02523	324			hypothetical protein	ATGATTGCGGTACTTTTTGAGGCCGGCGCCTTACCGGAAGCACAGGAAAGATATCTTGAGCTGGCGGCCGGGCTGACGCCTTTGCTTTCAGGCACGCCGGGGTTTATCGCCATCGAGCGTTTTCAGAGCCTGAATTCACCCGGCAAAATCCTTTCGTTATCCTGGTGGGAAGATGAAGCATCGGTGGCCAACTGGCAGCAAAATGAGCGGCATCTGGCAGCCCAGCGCGAAGGCAAAGCATCAATTTTTTCATATTACAGAATACGCGTTGCCCGCGTGTTCCGGGATTACTCATCGGATCGGGGAGCACAGCCAGATGTATGA	MIAVLFEAGALPEAQERYLELAAGLTPLLSGTPGFIAIERFQSLNSPGKILSLSWWEDEASVANWQQNERHLAAQREGKASIFSYYRIRVARVFRDYSSDRGAQPDV				NA	NA	NA	NA	NA
BMS020_02524	474			hypothetical protein	ATGGAACATGCTTATACCAGTCATATCACATGGACCGGCAATCAGGGCACGGGTACCTCGGGTTACAAGGCTTATGCCCGAACCTGGGATATCGCGGTAAAGGGAAAAGAACCTATTCATTGTTCAAATGATCCATTACTGGGCGGCGATCCCGGCAAAATGAACCCGGAAGATCTCCTGCTCTCTTCTCTCTCTGCCTGTCACATGCTGTGGTACTTACATCTGGCCTCAGATGCCGGCATTACGGTCATGGAATATCAGGACTCGCCGGTGGCAACTGGCGAAGTATTAAAAGGGGGCGCGGGTCGCTTTATTTCTGCTACCCTCAGGCCGAAAATCACCGTATTACCAGGTACCGATCTCGACGCCGCCGCGGCCATTCATCAGCAGATCCATCACGTCTGTTTTATCGCCCGCTCGGTCAATTTCCCGGTCAGCTACCAGCCTGAATTTATTATCTTTAACGCAGAGTAA	MEHAYTSHITWTGNQGTGTSGYKAYARTWDIAVKGKEPIHCSNDPLLGGDPGKMNPEDLLLSSLSACHMLWYLHLASDAGITVMEYQDSPVATGEVLKGGAGRFISATLRPKITVLPGTDLDAAAAIHQQIHHVCFIARSVNFPVSYQPEFIIFNAE				NA	NA	NA	NA	NA
BMS020_02525	642		COG1802	putative HTH-type transcriptional regulator	ATGAACGCTGCTACCCGTTCGACCGCCGACATCCTTGCCAGTGAGTTAAAAATCTTAATCAACAAGGGGGCATTGCGAGATGGCGACCGGCTTGTAGAGCGCGACCTGGCCTGCCAGTTTTCTGTCAGCCGTATCCCAATGAGAGAAGCGATACAGCAGCTTGAGCGCGAAGGTCTGGTTGAGATTTACAGAAATCGTGGCGCGGTGGTGAAAACGCTGACGGCCGCAGATGTCGATGAAATTTATCAGCTGCGGGCACTCCTGGAAGGTGAAGCCATTTTTCATAGCCTGAAGAATATGGACCCGGAAACGCTTGCCCGGGCAGAGCTGGTGCATCAGCTGCTGAGCAGCGCTTCTGAACCCGAGCAGCAGGGGAGGTATAACCGGGAGTTTCATGAACTGCTGTATCGGAAGTGTAACAATCAGCGCCTGTTGAAGATGATCGGTGAATTGCGCGAGCAGATTGAAAGATATGAGCTTTTTCAGAACAGACTGCTGTCGGATACGCTGAAATTCCAGGATGAGCATCAGCAGATCCTGATGGCCTGCCAGCAAAATAATCCACAGGAGGCTCGGGCATATACCGTGAAACATATTCTTTCAGCAGGCGAAACCCTTCGCGCCTATATTGTAAGTCGTTAA	MNAATRSTADILASELKILINKGALRDGDRLVERDLACQFSVSRIPMREAIQQLEREGLVEIYRNRGAVVKTLTAADVDEIYQLRALLEGEAIFHSLKNMDPETLARAELVHQLLSSASEPEQQGRYNREFHELLYRKCNNQRLLKMIGELREQIERYELFQNRLLSDTLKFQDEHQQILMACQQNNPQEARAYTVKHILSAGETLRAYIVSR				NA	NA	NA	NA	NA
BMS020_02526	546			hypothetical protein	ATGATTTCATCTGAACATGCCCTGTTAATTATCGATATGCAGCAGGGGCTTTTCCGTGGCCCGGTTTCCCCGTATCAGGCCGATGCGCTTCTGGCGAACGTTTGCCTGCTGATTGAAAAAGCGAGACAGGCTGAGGTGCCAGTCTTCTTTGCCCGCCATACCGGACCTGACGACTCTCCGTTCTCCGCGCAAAGTCCATTAACCCAACTGCTGCCTGAGATGGGGGTTAACTGCGAGCGGGATATCGTTTTGATTAAAAAATACCCCTCCTGTTTCCAGCAAACTGACCTTGAGCATCAGCTCGCCCAGGCCGGCGTAAAACAGCTGGTTATTGCCGGGATGAAAACCGAATTCTGCGTGGACACGACCTGCCGAGCGGCATCGGCGCTGGGATTACGGACGGTGTTAATCTCGGATGCGCACTCAACCATGGATAACGAACGTTTATCAGCGCCTGACATCATTGGCCATCACAATGTCACCCTTGCGGGGCCCTTTGTGACGCTGTCGACCGCGGCAGAGTGGCGCTTTTCGGCAGAGAAATAA	MISSEHALLIIDMQQGLFRGPVSPYQADALLANVCLLIEKARQAEVPVFFARHTGPDDSPFSAQSPLTQLLPEMGVNCERDIVLIKKYPSCFQQTDLEHQLAQAGVKQLVIAGMKTEFCVDTTCRAASALGLRTVLISDAHSTMDNERLSAPDIIGHHNVTLAGPFVTLSTAAEWRFSAEK				NA	NA	NA	NA	NA
BMS020_02527	228			hypothetical protein	ATGCTCGAGTTACGCCCGAATTGCGAATGCTGTGATAAAGATCTGCCGCCAGACTCACCCGAAGCGTTTATCTGTTCGTTCGAGTGTACCTTTTGCCAGGACTGCATGACGGCCCGGCTGAACGGCCATTGCCCGAACTGCGGCGGCGAGCTGGTGCGGCGCCCGGTGCGTCCCGAAGAGGCGCTCCGGCGTCACCCCGCCTCCACCCTGCGTCGCCATACGCAGTAA	MLELRPNCECCDKDLPPDSPEAFICSFECTFCQDCMTARLNGHCPNCGGELVRRPVRPEEALRRHPASTLRRHTQ	PGPT0019420_387	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019420-putative_alginate_lyase-K09984	NA	NA
BMS020_02528	1194		COG1063	putative zinc-binding alcohol dehydrogenase	ATGAAAGCACTCACTTATCATGGCCCCCATCATGTCAGCGTTGACACCATGCCCGACCCGGCCCTTGAGGCGCCGGACGATATTATTCTGCGCGTCACGGCGACGGCGATCTGCGGTTCCGATCTGCACCTTTACCGCGGAAAGATCCCCGGCACGCACCATGGTGATATTTTCGGCCATGAATTTATGGGGGAAGTGGTGGACGCCGGTTCGGACGTCACCGCGGTTCGTAAAGGCGATCGGGTGGTTATCCCGTTTGTCATTGCCTGCGGAGACTGCTTCTTTTGTCGCCTGCAGCAATATGCCGCCTGCGAAAGCACCAATAGCGGCCAGGGGGCGACGCTCAATCGCAAAGGTATTTCGCCACCCGCGGCGCTGTTTGGCTATAGTGATTTGTACGGCGGGATCCCCGGCGGCCAGGCGGAATATGTGCGGGTTCCCAAAGCTAATACCGGCCCGTTTAAAGTGCCGGACACCTTACCCGATGAAAAGGTGCTGTTTCTGTCAGATATTCTGCCCACCGCCTGGCAGGCGGTAAAAAACGCCGAGGTCAAACCCGGCAGCAGCGTGGCTATTTTTGGCGCCGGCCCGGTTGGCCTACTGTGCGTCTCCTGCGCCAGGCTCAATGGCGCAGAGCAGATATTCATCATTGATCATAACGATTACCGACTCGACTTCGCGCAGCAGCGCTATGGCGCGATCCCGATAAACTTCGACCACCATGACGACCCGGCGCAGTGGATTATCGACAACACCGCCGGCCATCGCGGCGTCGACGCGGTGATTGACGCCGTCGGCTTCGAGGCGAAAGGCAGCCTCACGGAAACCGTCCTCAGCACCCTGAAAATCGAAGGCAGCAGCGGGAAAGCGCTGCGCCAGTGCATCGCCGCCGTGCGCCGCGGCGGCATCGTCAGCGTGCCCGGGGTTTACGCCGGTTTCATTCATGGATTTATGTTTGGCGATGCCTTTGATAAGGGGCTGACCTTCAAAATGGGGCAAACCCACGTCCATGCCTGGTTGCCGGATCTGCTGGCGCTAATTGAGCAAGGGTTGCTCACCCCGGAGGAGATTATCACGCACCATATGCCGCTGGAGGAGGCCGCGCGCGGCTATCAGATCTTTGAGAAGCGTGAAGAGGCATGCCGCAAAGTGATCCTCGTGCCGGGGATGCAGCCCGGAAAGGCAACGCTTTGA	MKALTYHGPHHVSVDTMPDPALEAPDDIILRVTATAICGSDLHLYRGKIPGTHHGDIFGHEFMGEVVDAGSDVTAVRKGDRVVIPFVIACGDCFFCRLQQYAACESTNSGQGATLNRKGISPPAALFGYSDLYGGIPGGQAEYVRVPKANTGPFKVPDTLPDEKVLFLSDILPTAWQAVKNAEVKPGSSVAIFGAGPVGLLCVSCARLNGAEQIFIIDHNDYRLDFAQQRYGAIPINFDHHDDPAQWIIDNTAGHRGVDAVIDAVGFEAKGSLTETVLSTLKIEGSSGKALRQCIAAVRRGGIVSVPGVYAGFIHGFMFGDAFDKGLTFKMGQTHVHAWLPDLLALIEQGLLTPEEIITHHMPLEEAARGYQIFEKREEACRKVILVPGMQPGKATL	PGPT0006355_340	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
BMS020_02529	495	yciF	COG3685	Protein YciF	ATGAATATGAAAAGCATTGAAGATGTATTTATTCACCTGCTCTCAGATACCTACAGCGCAGAGAAACAATTAACCCGCGGGCTGGCTAAACTGGCCAGAGCGGCGTCCAGTGAAAAACTCAGCGCGGCGTTCAATGCTCATCTTGAAGAAACCCAGGGCCAGATTGAACGTATCGACCAGATCGTTGAGCAGGAATCCGGTCTGAAAATCAAACGCATGAAATGCGTGGCCATGGAAGGATTAATCGAAGAGGCCAATGAAGTCGTTGAGAGCACGGAAAAAAATGAAGTACGTGATGCCGCGTTAATTGCCGCTGCGCAAAAGGTCGAGCATTACGAAATTGCCAGTTACGGTACCCTGGTGACCCTGGCGGAACAGCTGGGTTATAAAAAAGCGGTCAAACTGCTGGCCGAAACCCTGGAAGAAGAAAAACAAACCGATGTGAAATTAACCGACCTGGCGGTAGGTAATATTAATAAAAAAGCAGAAAAATAA	MNMKSIEDVFIHLLSDTYSAEKQLTRGLAKLARAASSEKLSAAFNAHLEETQGQIERIDQIVEQESGLKIKRMKCVAMEGLIEEANEVVESTEKNEVRDAALIAAAQKVEHYEIASYGTLVTLAEQLGYKKAVKLLAETLEEEKQTDVKLTDLAVGNINKKAEK	PGPT0013240_16	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013240-katN|ctjC|ydbD|yjqC-K07217	NA	NA
BMS020_02530	507	yciE_2	COG3685	Protein YciE	ATGAATCACATTGAACATTATCATGACTGGCTACGAGATGCGCATGCCATGGAAAAACAGGCAGAATCCATGCTGGAATCAATGGCTGGCCGTATCGATAATTATCCGGATCTCCGTGCCAGAATCGAACAGCATATTAATGAGACCAAACGGCAAATTACCGTGCTGGAAGAGATCCTCGACCGCAACGAGATTTCGCGCTCGGTGATTAAAGATTCGATGAGTAAAATGGCGGCTCTCGGCCAGTCCATCGGCGGGATGTTTCCTTCCGATGAAATAGTCAAAGGCTCGATCAGCGGGTACGTCTTCGAGCAGTTTGAGATCGCCTGCTATACCTCTCTGCTGGCGGCGGCTGAAAAAGCGGGCGATACCGCTTCCATTCCGGCCATTGAGGCCATCCTGGCGGAAGAGCAGGCCATGGCCGACTGGCTGATCAAACATATTCCTCAGACCACGGAGCAATTTCTCCTGCGTTCAGATGCTGACGGCGTAGAAGCGAAAAAATAA	MNHIEHYHDWLRDAHAMEKQAESMLESMAGRIDNYPDLRARIEQHINETKRQITVLEEILDRNEISRSVIKDSMSKMAALGQSIGGMFPSDEIVKGSISGYVFEQFEIACYTSLLAAAEKAGDTASIPAIEAILAEEQAMADWLIKHIPQTTEQFLLRSDADGVEAKK				NA	NA	NA	NA	NA
BMS020_02531	888			hypothetical protein	ATGTTTCGTCATGTGAAACAACTGCAGTATACCGTGCGCGTTGCTGAACCCAATCCGGGGCTCGCGAATTTACTGCTCGAACAGTTTGGCGGCCCTCAGGGCGAGCTGGCCGCCGCGTGTCGTTATTTCACTCAGGGATTAAGCGATGACGATCCCGGCCGCAAAGACATGCTGATGGATATCGCGACAGAGGAGCTGAGCCATCTGGAGATCATTGGCACCCTGGTCGGCATGCTAAATAAAGGCGCCAAAGGGGCGCTGGCGGAGGGCACCGAGAGCGAGGCGGAACTCTATCGTTCGCTCACCGCCAACGGCAACGACAGCCATATTACGTCGTTACTGTACGGCGGCGGTACCCCGCTGACCAATTCGGCGGGCGTGCCGTGGACGGCGGCCTACATTGATACTATCGGCGAACCCACCGCCGACCTGCGGTCGAACGTCGCGGCGGAGGCGAGGGCGAAGATCGTCTATGAACGGCTGATCAACGTGACCGACGATCCCGGCGTAAAAGACGCGCTGGCGTTCCTGATGACCCGCGAAGCGGCGCATCAGCTCTCTTTTGAGAAGGCGCTGCAGTCAATTCGCAACAACTATCCGCCGGGCAAACTGCCGCCCATTAGCGAGTACGCGAACACCTACTACAATATGTCTGAAGGTGGAGAAGTACGCGGCAGCTGGAACAGTGACAAACACTTCGATTATGTCAAGGATCCGCAGCCGGCCGTGGATGGCGGAGATGGCAGCGCCTCTGTCGGCCTGACGCCGGAGCAGGAAGCGCTGTGCAAAGCGATGCTGAAGCGAACAGAGTCTGACCCGCAGGGTGATCCTTTGACCGGCGCTGAACTGGGCGCCGGTAAGCAAAACACGTCATCATCGGCTAAGTGA	MFRHVKQLQYTVRVAEPNPGLANLLLEQFGGPQGELAAACRYFTQGLSDDDPGRKDMLMDIATEELSHLEIIGTLVGMLNKGAKGALAEGTESEAELYRSLTANGNDSHITSLLYGGGTPLTNSAGVPWTAAYIDTIGEPTADLRSNVAAEARAKIVYERLINVTDDPGVKDALAFLMTREAAHQLSFEKALQSIRNNYPPGKLPPISEYANTYYNMSEGGEVRGSWNSDKHFDYVKDPQPAVDGGDGSASVGLTPEQEALCKAMLKRTESDPQGDPLTGAELGAGKQNTSSSAK	PGPT0013240_445	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013240-katN|ctjC|ydbD|yjqC-K07217	NA	NA
BMS020_02532	1407	cydA_2	COG1271	Cytochrome bd ubiquinol oxidase subunit 1	ATGTTTGAATTTGACGCGTTTCATCTGGCCCGACTGCAATTTGCCTTTACCGTTTCCTTCCATATTCTGTTTCCGGCCATCACTATCGGCCTTGCCAGCTACCTTGTGGTGCTGGAAGGGATGTGGCTGCGAACCCGGGATAACGTCTGGCGCTCGCTCTACAACTTCTGGCTGAAAATTTTCGCCGTCAATTTTGGCATGGGCGTGGTTTCCGGATTAGTCATGTCCTATCAGTTCGGCACCAACTGGAGCGGATTCTCCCAGTTTGCCGGCAGTATTACCGGCCCGCTGCTGCTGTATGAAGTGCTGACCGCCTTCTTCCTCGAAGCGGGATTCCTCGGCGTGATGCTGTTCGGCTGGAGCAAGGTGCCGCCGGCGCTGCATTTTTTTACCACCTGCATGGTAGCCCTTGGCACCCTGGTCTCCACCTTCTGGATCCTCGCCTCCAATAGCTGGATGCAGACGCCGCAGGGTTTTACCCTCGAAAATGGCCACCTCATCCCGCAGGACTGGCTGGCGATTATCTTTAACCCGTCATTCCCGTATCGCTTGTTCCATATGGCGATCGCCGCGTTCCTCAGCAGCGCCATGTTCGTCGGGGCCTCCGCCGCCTGGCATCTGCTGCGCGGCAACGACTCGCCGGCCATCCGCAAAATGCTGTCGATGGCGATGTGGATGGCGCTGCTGGTGGCGCCCATCCAGGCGGTGGTGGGGGATATGCATGGCCTTAACACCCTTGAGCATCAGCCGGCGAAGATTGCGGCGATTGAAGGACACTGGGAAAACCGGCCGGGCGAGGCCACCCCGCTGCTGCTGTTTGGCCTGCCGGATATGGAAGAGGAGCGGACCCGCTATGGCCTGGAGATCCCGGCGCTGGGCAGCCTGATCCTCACCCACAGCCTGCATAAGCAGGTGCCGGCCCTGAAAGATTTCCCGAAAGAGGACCGGCCCTATTCGCCCGCCGTGTTCTGGTCGTTCCGTATCATGGTTGGGATGGGCGTGTTGATGATCGCCTTAGGGATCTGCAGCGCCTGGCTGCGCTATCGGCGGCGGCTGTACCATTCGCGTCCGTTCCAGTGGTTTGCGCTCTGTATGGGGCCCGCCGGTCTTATTGCGCTGGTCGCCGGGTGGGTGACCACCGAGATGGGCCGTCAGCCGTGGGTGATCTACGGTTTGCTGCGCACCCGGGACGCGGTGTCGTTGCACAGTACGCTGCAGATGGCTATCAGCCTGCTGGTGTTTATCGTGGTCTACTGCGCGGTGTTTGGCGTGGGGTATTACTATATCTTCCGGCTTATCAAAAAAGGGCCGCAGCCGGTGACGGAGCTGACCTCGCAAACCGCAGGCACCCCGGCGCGTCCGCTCTCGGCGGCAGAGCCGGTGCGGGATGAGGAGAACGCATCATGA	MFEFDAFHLARLQFAFTVSFHILFPAITIGLASYLVVLEGMWLRTRDNVWRSLYNFWLKIFAVNFGMGVVSGLVMSYQFGTNWSGFSQFAGSITGPLLLYEVLTAFFLEAGFLGVMLFGWSKVPPALHFFTTCMVALGTLVSTFWILASNSWMQTPQGFTLENGHLIPQDWLAIIFNPSFPYRLFHMAIAAFLSSAMFVGASAAWHLLRGNDSPAIRKMLSMAMWMALLVAPIQAVVGDMHGLNTLEHQPAKIAAIEGHWENRPGEATPLLLFGLPDMEEERTRYGLEIPALGSLILTHSLHKQVPALKDFPKEDRPYSPAVFWSFRIMVGMGVLMIALGICSAWLRYRRRLYHSRPFQWFALCMGPAGLIALVAGWVTTEMGRQPWVIYGLLRTRDAVSLHSTLQMAISLLVFIVVYCAVFGVGYYYIFRLIKKGPQPVTELTSQTAGTPARPLSAAEPVRDEENAS	PGPT0026700_3275	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
BMS020_02533	1011	cydB_2	COG1294	Cytochrome bd-I ubiquinol oxidase subunit 2	ATGAGCATCGATATCTCGGTGATTTGGTTTGTCATCATTGTCTTCGCCACGTTGATGTATATCGTGATGGATGGTTTCGATTTAGGCATCGGGATGCTGTTCAGCGTGGTGCATGACGCCGAAGAGCGCGATGTGATGGTTAACAGCGTGGCGCCCGTCTGGGATGGTAACGAAACCTGGCTGGTGCTCGGCGGGGCAGGGCTGTTCGGCGCGTTTCCGCTGGCTTACGCGGTGATCACCGATGCGCTGGTTATCCCGCTGACGGCGATGCTCATCGGCCTGATTTTCCGCGGCGTGGCGTTTGAGTTTCGTTTTAAAGCGGTTCCCTCGCATCGCACCTTCTGGGACTATGCCTTCGCCGGCGGCTCGCTGCTGGCGACCTTCAGCCAGGGGATTGTCGTCGGCGCCTTTATCAACGGCTTTGCGGTAGCCGACCGCCGCTTCGCCGGCTCGACGCTGGACTGGCTTACCCCCTTTAACCTGTTCTGCGGTCTGGGGCTGGTGGTGGCCTATCTGCTGTTGGGCACCACCTGGCTCATCATGAAAAGCGAAGGCGCGCTGCAGCAGCGGATGCGCGAGCTGACCCGTAAGGTGCTGCTGGCGCTGATGGCGGTGATCGCGGTGGTCAGCGTCTGGACGCCGTTGGGCTGGCGCTACGTGGCGGAACGCTGGTTTACGCTGCCCAATTTCTTCTGGTTCGTGCCGGTGCCGATCCTGGTGCTGACCCTGAGCCTGTGGATCTGGCGCCTGAGCGCGCGCCCCGCCAGCCACGCTCGTCCCTTTATCCTGACGCTGGGCCTGATATTCCTCGGCTTCAGCGGGCTGGGGATCAGCGTCTGGCCGAACATTATTCCGCCGCACATCTCCCTGTGGGATGCCGCCGCGCCGCCCTCCAGTCAGGTATTTATGCTGCCGGGGGCGCTGCTGATCATCCCGGTGATCCTGATGTATACCGCCTGGAGCTATTACGTCTTTCGCGGCAAAGTGTCCGGCAGCGAAGGTTATCACTGA	MSIDISVIWFVIIVFATLMYIVMDGFDLGIGMLFSVVHDAEERDVMVNSVAPVWDGNETWLVLGGAGLFGAFPLAYAVITDALVIPLTAMLIGLIFRGVAFEFRFKAVPSHRTFWDYAFAGGSLLATFSQGIVVGAFINGFAVADRRFAGSTLDWLTPFNLFCGLGLVVAYLLLGTTWLIMKSEGALQQRMRELTRKVLLALMAVIAVVSVWTPLGWRYVAERWFTLPNFFWFVPVPILVLTLSLWIWRLSARPASHARPFILTLGLIFLGFSGLGISVWPNIIPPHISLWDAAAPPSSQVFMLPGALLIIPVILMYTAWSYYVFRGKVSGSEGYH	PGPT0026705_3517	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
BMS020_02534	921	aaeA_3	COG1566	p-hydroxybenzoic acid efflux pump subunit AaeA	ATGACACTGTATCTGACACTTCTGGGCCGCTATGCCCTGACCTTAGGCGCCGTCGCCGCCGCCGCGCTACTGGCTTTCATTTTCTGGAAACAGGAGGCGCAGACGCCCTGGACCCGCGATGGCCGGATGCGGGCCGACGTGGTGCAGATCGCCCCCAATGTCTCGGGGCCGGTGGCCAGCGTGGCGGTGAAAGACAACCAGTGGGTCAATCGGGGAGAGGTACTCTATACCATCGATCCGCGCTGGCTGAAGCTGGCGGTCAGCAGCGCTCAGGCGGAGGTGGAAGCCCGACGCCAGGAGATGGCGATGCGCCAGGATGCCGCCAGACGTCGGGCGCAGATCCAGGGCGTCATCTCCAGCGAAGATCTGAAACAGACCAACAGCGCGGCCAGCGTCGCGGCCGCTAACTACCAGGGCGCGCTGGCGGCACTGGCGCTGGCGCAGCTGAATGTAGCGCATGCCACCGTGCGGGCGCCGGTATCCGGCTACGTGACCCATCTCCGGCTGCGCCCCGGCGACTATGCCACCGCCGGTGTGACGACAGTCGCCATTATCGATGGTCAGAGCTTCTGGGTGGTGGGGTATTTTGAAGAGACCCGTCTGCGCCACATCCACATTGGCGATACCGCGCACATCACGCTGATGGGCTACGACCCGGTTATTACCGGCCATGTGGAGAGCATCGGGCACGGGATCGGCGATACCAATGATGAAACCGGCGCCCTGGGCCTGCCGCAGGTCGAGCCAACGTTCAGCTGGGTGCGGCTGGCGCAGCGTGTGCCGGTGCGTATCCATATCGATACCCTGCCCGCGGGGGTGGAGCGGGTCGCCGGTCTGTCCGCGACCATTTCGGTCATCCCTGACCGGACGGCGCGGCGCGCCGGTCAATCATCAGTAGCCGACTTGCTGTCCTCTCAGTGA	MTLYLTLLGRYALTLGAVAAAALLAFIFWKQEAQTPWTRDGRMRADVVQIAPNVSGPVASVAVKDNQWVNRGEVLYTIDPRWLKLAVSSAQAEVEARRQEMAMRQDAARRRAQIQGVISSEDLKQTNSAASVAAANYQGALAALALAQLNVAHATVRAPVSGYVTHLRLRPGDYATAGVTTVAIIDGQSFWVVGYFEETRLRHIHIGDTAHITLMGYDPVITGHVESIGHGIGDTNDETGALGLPQVEPTFSWVRLAQRVPVRIHIDTLPAGVERVAGLSATISVIPDRTARRAGQSSVADLLSSQ	PGPT0023615_41	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYBENZOIC_ACID_GALLATE_RESISTANCE,PGPT0023615-aaeA-K15548	NA	NA
BMS020_02535	213			hypothetical protein	ATGCGTGACCTCGCGCTGGGCGGGGTATTTTTCCCCGGCCTGCTGATTGTCGGCCTTATCGCCCTGTTCGCTACACTGTTGCTGCAACCGCTTATCTTCTCCGCCCGCGGCCCGGGTCGCCTGCCGTGCCGGCCGCTGTGGGGGCTGTCCCTTTTTATCGCGCTTTTCTTCCTGCTCCTGCAGGGCGTTCACACGCTGGGGTTATCCGTATGA	MRDLALGGVFFPGLLIVGLIALFATLLLQPLIFSARGPGRLPCRPLWGLSLFIALFFLLLQGVHTLGLSV				NA	NA	NA	NA	NA
BMS020_02536	2058	aaeB_3		p-hydroxybenzoic acid efflux pump subunit AaeB	ATGAACATCATCCTCTTTCGTCAGGCCCGCTGGCTGCGGGCCGCAGGCGCCGTCGCGCGCCGTTTCATGCCGCAAATACCCTCAGCCGCGCTGCGCAGCGATGGCCAGGCGGTGATCTATGCCGCGAAGAGTTTCGCCGCGGCGATGCTGGCTTACTATCTCGCGCTCTCCATCGGTCTGCAGCGGCCTTCCTGGGCCATCATCACCGTCTATATCGTCTCGCAGACCTCGGCGGGCGCCTCGTTGAGCCGTAGCGTCTATCGGCTGGCCGGGACCGTCGTCGGCGCGGCGGCCACCGTGATCATCGTGCCCACCTTCGTTAACCAGCCGATCCTGTGCAGCGTCGTGCTGGCCCTGTGGATCGCGGGTAGCCTCTGCCTGTCCCTGCTTGAACGCACGCCGCGCGGGTACGCCTTCCTGCTGGCGGGTTACACCGCGAGCCTGATTGGCTTTCCCGCCGTCTCCGCGCCCGGGACGATCTTTGACCTCGCCGTCACCCGGGTGGAAGAGATCGCCATCGGTATCTTATGCGCCGGCCTGATCCATCGCTTCGTGCTGCCGGTGCGCATCGCCGGGCGGTTTAACAGCACGCTGGCACAGACGCTGGCAACCGCCCGCCAGCGGATCGCCGATACGCTGGCAGGCAAGCCGGTGGCGGCGGAAACGCTGCGGCTGGCGCTGAGCCTGCAGTTTCTCCAGGGCATTAACCACCACCTGCCCTGGGATGACGGACTGTCTGTCCCTCACCGCCAGGCGAGAAAAGCGATCCACGACCGGCTGGCGAGACTGTTGATCGTCAATGGCGAATTGTATGACCGTTTACAGCGGAGCGGGCCGCCACCTGACGACCTGCAGGCGCTGCTGGCGGAGGCAGAGGCCTGGCTGACAGGCCCGCAAGCCGCCAGGTCGGCGCCCTCGGCAGACGGACTTCTCTCCCGCTGCGAGCGGCTCATCGCCCGGTACGCTGCTGACGCGCAGACCATGGACGAGGCGCTGCGGCTCAGCCTGGCGCGCCATCTGGCGGAAGCCATCCGCCTCCTGCAGGAGAGCGAGCGGCTGGCGAAAGCGGTTTATCGTCGGCGGTCGCCTGCCCTGCCCCCCGACGCCGGCGCGGCGAAGGGTTATGTTTTCCATCGCGATCCGCTCAGCGCCCTGCGGACTTCCTTCGGCGCCTTCGTCATCATCCTTAGCGGCTGCCTGATCTGGATAGGATCCGCCTGGCCCGATGGCGGCACCGCGGTCTCGATCCTCGGGGTCTGCTGTAGCCTGTTCGCCAGCTTCGACGCGCCGGCGGCGCATCTGGTGAAATACCTGATCGGCTGCGTGTGGGGCGTGCTGTTCAGCCTGCTCTACAGCTTCGTCCTGCTGCCGCAGGTGAACGAATTTGCGCTGCTGGCGGCAGTGCTCGCCCCGGTCTATCTGCTGGCCGGCTCGCTGCAGGCGCGGCCTGCCACCACCTTTATGGCGATGGGCATCACCCTGACGCTGCCGATATTGTGCGAGCTGGGGGCCAGCTACCGCGGCGACTTCGCGACGGCGATCAATACCGCGCTCGCGCTGTTTATCGCCGCCGGTTATGCGGCGTTTGGTATGCGCCTGCTGCAAACCGTGCAGGCGGAAACCGCTATCCGTCGTCTGCTGACGCTGTGCCAGCGCGATATCCGCCGCGCCGCTCGCGGCCGGCTGGCGCACAATGCCCACCGCTGGACCAACCTGATGATCGACCGAACCGCATTACTGCTGCCCCGCCTGCCGCAGAGTGGACCGGCAGCCGGTCAGTTGCTTGACAAGATGCTGCGCGATATTCGTACCGGTCTCGCCGTGATCCATCTGCGCCGTCGCTATCAGCAGGCGGACAGTGCGTCGGCGGACGCAGTGCAAGCGCTCCTGGACACGCTGAACCCGCAGCCGGACATGACGGCCCTGGAGCAACCGGTCAATGCGCTGCTGGCCCAGGCTTTACCGGCGACCGATGCCGCCTCGCGCGAACGCGCGGAAGCGCTCATCGCGCTGTATTGCGCCTTACACCTGCCTGAGGAGAGCCAGAACCATGCGTGA	MNIILFRQARWLRAAGAVARRFMPQIPSAALRSDGQAVIYAAKSFAAAMLAYYLALSIGLQRPSWAIITVYIVSQTSAGASLSRSVYRLAGTVVGAAATVIIVPTFVNQPILCSVVLALWIAGSLCLSLLERTPRGYAFLLAGYTASLIGFPAVSAPGTIFDLAVTRVEEIAIGILCAGLIHRFVLPVRIAGRFNSTLAQTLATARQRIADTLAGKPVAAETLRLALSLQFLQGINHHLPWDDGLSVPHRQARKAIHDRLARLLIVNGELYDRLQRSGPPPDDLQALLAEAEAWLTGPQAARSAPSADGLLSRCERLIARYAADAQTMDEALRLSLARHLAEAIRLLQESERLAKAVYRRRSPALPPDAGAAKGYVFHRDPLSALRTSFGAFVIILSGCLIWIGSAWPDGGTAVSILGVCCSLFASFDAPAAHLVKYLIGCVWGVLFSLLYSFVLLPQVNEFALLAAVLAPVYLLAGSLQARPATTFMAMGITLTLPILCELGASYRGDFATAINTALALFIAAGYAAFGMRLLQTVQAETAIRRLLTLCQRDIRRAARGRLAHNAHRWTNLMIDRTALLLPRLPQSGPAAGQLLDKMLRDIRTGLAVIHLRRRYQQADSASADAVQALLDTLNPQPDMTALEQPVNALLAQALPATDAASRERAEALIALYCALHLPEESQNHA				NA	NA	NA	NA	NA
BMS020_02537	795	nimR_3		HTH-type transcriptional regulator NimR	ATGCCATCACCTTTTGCCAATACGCTGTACGATCCGGACGCGTCTTCCTGCCCGGCCGTCGCGCGTCATCTTGATTTTGTCGAGTATGAAGCCGAAGTGCCGGTGCATAGCCATCGCAAAGGACAACTGATTATCGTGCTGTATGGCGCGGTGCGTTGTCGGGCGGAAAATAACCTGTGGATCGTGCCGCCTCGCTGCGCGGTATGGATCCCGGGCGGTATTGCCCACAGTGTGACCGCCACCTGGAATGCGCGCCTCAACTACCTGTTTATTGAACCCGGGGCGGCGGCGCTGCCCGACAGCTGCTGCGCGCTGGCGCTCTCTTCCCTGATCCATGAGCTGGTGGGGCGGCTCACCCGCGAAGGGGCGGACTACGCGGCGGATAGCCATGCCGGGAGACTGACCCGGGTGACCCTCGACGAGCTGGCGACCATGCCGGCGCAGCGCCTGAATCTGCCCGTTTCAGCGCACCCCAAAATACGCGCCATGGCCGACAGGCTGGTGAGTCATCCTGACGATCGCAGTACCCTGCCGGTGTGGGCGAAACGTCTGGCGCTGAGTGAACGCTCCCTGGCGCGCCTGATGCAGCGGGAGACCGGCCTCACCTTCGGACGCTGGCGCCAGCAGCTGCATCTGATTATTGCCCTGCAGGAGCTGGCCAGCGGCGTTTCGGTACAAAACGTGGCGGCTAAGCTGGGGTATGAGTCGGTGAATGCTTTCATTACCCTGTTTAAAAAAACGATGGGGACGACGCCGGCGCACTATTTTGCCGAACGGCAGACCGGCACTCGTTAA	MPSPFANTLYDPDASSCPAVARHLDFVEYEAEVPVHSHRKGQLIIVLYGAVRCRAENNLWIVPPRCAVWIPGGIAHSVTATWNARLNYLFIEPGAAALPDSCCALALSSLIHELVGRLTREGADYAADSHAGRLTRVTLDELATMPAQRLNLPVSAHPKIRAMADRLVSHPDDRSTLPVWAKRLALSERSLARLMQRETGLTFGRWRQQLHLIIALQELASGVSVQNVAAKLGYESVNAFITLFKKTMGTTPAHYFAERQTGTR				NA	NA	NA	NA	NA
BMS020_02538	198			hypothetical protein	ATGCCCAGCGAAAAAGCCCGCAGCCTTGACCATTTCTATGAATTACTGGCGACAGGACAACATCAGAAAATTGAACTCGATTTCGACGTCGCCGCGGACGATTTTTTTAAAATCGCCACCGAGTTTGGCGACATTGGCGCGAGGATCACCCGGCTGAATGAGCGATTTATTATTAAGATCAAGTCGCCGAAAGCCTAA	MPSEKARSLDHFYELLATGQHQKIELDFDVAADDFFKIATEFGDIGARITRLNERFIIKIKSPKA				NA	NA	NA	NA	NA
BMS020_02539	105			hypothetical protein	ATGCAATTACTTGATTTATTCGCAGGCTTATTGTGGTTAAGCAGCGTTATTTTCCTGCTGTTTGTTCTTGATGTGGTCATCACCCGTTATCTTTATCGTAAATAA	MQLLDLFAGLLWLSSVIFLLFVLDVVITRYLYRK				NA	NA	NA	NA	NA
BMS020_02540	633			hypothetical protein	GTGGCCGGGAGAGTTGATTACGATATTGAAAAATACCAGTTTACCGAAGCCGGTGAAACGTCGCGGCTGCGGGAGCAGTGGCGCGAAGTCTATCAGGAGTGCCGTCAGCTGCAGGCCGGGGCAGAGGAGCGCCTGCGCATTGCGTTACTGAACGTCGACTATGTCACCAGCTTCGAGCTGCCTTTTCGCCTGCTGCTGGTGCGCGCGCCGCAGCTGATCGCCGACGTCCGCGAGACGCTGCAGCTCAGCCGTAAAGCCGCCGTTTTCAACGGCAAACGTTACGGCTGCGTCTACAGTTTGAAGCAGGATTTACAGGCTGTACCGGAGAGCTTTCATTACCACCTGACAAACCGCATTCGTCGCGTCGAAGCGACGGGCCTGACGGCGGCGCCGTACCAGCAGATCGCCCGGGAGATTAAACCTGCCCGGGATCGACTCCGCCAGGCATTAATCGCCGGCCTGCCGGTTACCGCGCTTGATGCCCTGTTCTGGTTCGGCAGTCAGCGGGTGGCAGCGGACATTGCCCAGCTGCGCCGGTCCGGGATGGCTATTGTCACTGAGGAGGTGGAGGTCAGCGACAATCTGTTCAATACCACCCGGTGGGTACCGGTTTATCGTCTGACCAGCGCGTGA	MAGRVDYDIEKYQFTEAGETSRLREQWREVYQECRQLQAGAEERLRIALLNVDYVTSFELPFRLLLVRAPQLIADVRETLQLSRKAAVFNGKRYGCVYSLKQDLQAVPESFHYHLTNRIRRVEATGLTAAPYQQIAREIKPARDRLRQALIAGLPVTALDALFWFGSQRVAADIAQLRRSGMAIVTEEVEVSDNLFNTTRWVPVYRLTSA				NA	NA	NA	NA	NA
BMS020_02541	687	pdeH_2		Cyclic di-GMP phosphodiesterase PdeH	ATGGTTGAAGAAAACGTGAAAAATACCTCTTATCGCTTCGTTCTGGAGCCCGCTATTAGCGATGGCGGCGGCTACCACTCGTGGGAATTGCTCACTAAAGACATTATAGCACCCGCACAAAATAACACCTCAGCGCCCACATTTTCTTTCTCCACGCTCACCGAAAGCGATAAGCTTGCACTATTTACCCGACAAATCGAATTGCTTTCCGTATTTGATTTTTCCCAGGTCGATAATAAGCCGATCTCTCTGAATATTGATGATTTATTAAGCCATTTTATTCTGACCGACCGCTATCTCTGTGATTTTCTGCGCTCCTGTAAATACATTGCTCTGGAAATAAATGAGAATTTTCATGAATTTATCGCTGGCCGTGAACTGACGGCGCTGAGCACGCTGGCGGCGCTTTGCCCGGTCTGGCTGGATGACTTTGGTCGCGGACGAACGACGTTCCGGCTGCTGGAGCGATTTCGCTTTGATTGCGTCAAAGTGGATAAAGACTATTTCTGGGACAAAGAAAACGATCCCGCTTTGCCCGGGCTGTTACAGGCCATTCATACCCTGACCGGGCATGTGATTGTGGAGGGGATCGAAACCGAAAAGCAAAAACGGCTCATCAATGCGGCCGGGGATATCATTGGTCAGGGCCGTTACTGGAAGGATGAATATATCTTTCTTTGCTGCTGA	MVEENVKNTSYRFVLEPAISDGGGYHSWELLTKDIIAPAQNNTSAPTFSFSTLTESDKLALFTRQIELLSVFDFSQVDNKPISLNIDDLLSHFILTDRYLCDFLRSCKYIALEINENFHEFIAGRELTALSTLAALCPVWLDDFGRGRTTFRLLERFRFDCVKVDKDYFWDKENDPALPGLLQAIHTLTGHVIVEGIETEKQKRLINAAGDIIGQGRYWKDEYIFLCC	PGPT0016215_277	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|CRP_SIGNALLING_PATHWAY,PGPT0016215-yhjH-K21086	NA	NA
BMS020_02542	411			hypothetical protein	GTGAATACACGCTTGCGTAACACCCTGATCGCCATTGCGCTGACCACCTGCTTCACCGCCGCCAGCCAGGCGTCGACCTCGGCTGACGTGCCGTCTGTCTCGCAGGACCCGGTCGTCCAGCACCTGAAGCTGAGTGAGGAGCAGGTCGCCAAAATCCAGGCGCTGCGTCAGGGCTTCGAGAACAGTGTGAGCCAGATTAAAATCAGCGGCTATCAGGACGGCGCCCTGGCCGACGTGATTCACTCCGGGAAATGGGATGAAGCCAAAGTCAAACAGCAGCTGGCTGCCTTTAGCCAACTGGATCAGCAGGTGCGCTATTATCGCGTGAAATACTACTTCGACGTCAGCCAGGTGCTGACCGCCGAGCAGCGTGAGCAGGTGAAAAAAGACCTCGCCGCGGCGATCAACTAA	MNTRLRNTLIAIALTTCFTAASQASTSADVPSVSQDPVVQHLKLSEEQVAKIQALRQGFENSVSQIKISGYQDGALADVIHSGKWDEAKVKQQLAAFSQLDQQVRYYRVKYYFDVSQVLTAEQREQVKKDLAAAIN				NA	NA	NA	NA	NA
BMS020_02543	1503	lpdC_1	COG0043	Gallate decarboxylase	ATGACCGCACCGATTCAGGATCTGCGCGACGCCATCGCACTGCTGCAACAGCATGACAATCAATACCTCGAAACCAATCATCCGGTGGACCCTAACGCCGAGCTGGCCGGCGTCTATCGTCATATCGGCGCCGGCGGCACCGTGAAGCGCCCCACCCGCATTGGCCCGGCGATGATGTTTAACAATATTAAAGGCTATCCGCATTCGCGTATTCTGGTGGGCATGCACGCCAGCCGCCAGCGGGCGGCGCTGCTGCTGGGCTGCGAAGCTTCGCAGCTGGCGCTGGAGGTGGGTAAAGCGGTGAAAACACCGGTCGCGCCGGTGGTGGTTCCGGCCGGCAGCGCCCCCTGTCAGGAGCAGGTTTTTCTGGCCGACGATCCGGACTTTGATTTGCGCACCCTGCTCCCGGCGCCCACCAACACCCCGATCGACGCCGGCCCCTTCTTCTGCCTGGGCCTGGCGCTGGCCAGCGATCCTGACGACGCCTCGCTCACCGACGTCACCATCCACCGCTTGTGCGTGCAGGGCCGGGATGAGCTGTCGATGTTTCTTGCCGCCGGCCGCCATATCGAAGTGTTTCGCCAGAAAGCCGAGGCTGCCGGCAAACCGCTGCCGATAACCATCAACATGGGTCTCGATCCGGCCATCTATATTGGCGCCTGCTTCGAAGCCCCCACCACGCCGTTTGGCTATAACGAACTGGGCGTCGCCGGCGCGCTGCGTCAGCGCCCGGTGGAGCTGGTGCAGGGCGTCAGCGTCCCGGAGAAAGCCATCGCCCGCGCCGAGATCGTCATTGAAGGCGAACTGCTGCCCGGCGTGCGCGTCAGAGAAGATCAACACACCAACAGCGGCCACGCGATGCCGGAATTTCCCGGCTACTGCGGCGGCGCCAACCCGTCGCTGCCGGTGATCAAAGTCAAAGCGGTAACCATGCGGCACAATGCCATCCTGCAGACGCTGGTGGGACCGGGGGAAGAACATACCACCCTCGCCGGGCTGCCGACCGAAGCCAGTATCTGGAATGCCGTCGAGGCCGCCATTCCGGGCTTTTTACAAAACGTCTACGCCCACACCGCGGGCGGCGGTAAATTTCTGGGGATCCTGCAGGTGAAAAAACGTCAGCCCGCCGACGAAGGACGTCAGGGACAGGCTGCGCTGCTGGCGCTGGCGACCTATTCCGAACTGAAAAACATCATTCTGGTTGATGAGGATGTCGATATCTTTGACAGCGACGATATCCTGTGGGCGATGACCACCCGCATGCAGGGGGATGTCAGCATCACCACCCTCCCCGGTATCCGCGGTCACCAGCTCGATCCTTCCCAGACGCCGGAATACAGTCCGTCGATCCGCGGGGAAGGTATCAGCTGCAAGACGATTTTTGACTGCACGGTTCCCTGGGCGCTGAAAGCGCACTTTGAGCGTGCGCCGTTTGCCGATGTCGACCCGCGTCCGTTTGCCCCGGAGTATTTTGCCCGTCTGGAAAACGGCCACGGTCAGTAA	MTAPIQDLRDAIALLQQHDNQYLETNHPVDPNAELAGVYRHIGAGGTVKRPTRIGPAMMFNNIKGYPHSRILVGMHASRQRAALLLGCEASQLALEVGKAVKTPVAPVVVPAGSAPCQEQVFLADDPDFDLRTLLPAPTNTPIDAGPFFCLGLALASDPDDASLTDVTIHRLCVQGRDELSMFLAAGRHIEVFRQKAEAAGKPLPITINMGLDPAIYIGACFEAPTTPFGYNELGVAGALRQRPVELVQGVSVPEKAIARAEIVIEGELLPGVRVREDQHTNSGHAMPEFPGYCGGANPSLPVIKVKAVTMRHNAILQTLVGPGEEHTTLAGLPTEASIWNAVEAAIPGFLQNVYAHTAGGGKFLGILQVKKRQPADEGRQGQAALLALATYSELKNIILVDEDVDIFDSDDILWAMTTRMQGDVSITTLPGIRGHQLDPSQTPEYSPSIRGEGISCKTIFDCTVPWALKAHFERAPFADVDPRPFAPEYFARLENGHGQ	PGPT0005530_30	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE|TANNINE_RESISTANCE,PGPT0005530-lpdC-K22958	NA	NA
BMS020_02544	900	gltC_3		HTH-type transcriptional regulator GltC	ATGTCCTTGCGAGCGTTACGCCATTTTGTGGTCGTTGCCGAAGAGTTACATATGCACCGTGCGGCGGAGCGGTTACATATCGCCCAGCCCGCCCTCAGCCAGCAGATTAAACAGCTCGAGCAGCGTCTGGGGGTGGTGCTCTTCTCCCGCGCCAACCGCCGTCTGACCCTGACCGCCGCGGGCGAGGCCTTTTGGCAGAAGACGCGGCTGGCGCTGGAGATGGTCGACCAGGCGGCACTGGACGCCCAGCGCACCGCGCGGGGCGAGCAGGGAAGGCTGCATCTGGGGTATGTCTCCAGCGCGATGTACGACAGTAAACTGCCGGGGCTGCTGCGCGAGCTGCGCGCCGACTGGCCGGGGATTGAGCTGTCGCTGGTGCATGGCGATGTGCAAATGCTCTACGAAGCGCTGCTGGATCTGCGCCTGGATATCGCCATCATCCGCGCGCCGCTGGCCTCGCCGCCGGAGGCGCTGGTGGTCAGGCCGTTTGTGCGGGAAAAGCTCTGCCTGGCGCTCTATCAACAGCATCCGCTGGCGGGCGTGGGGGCGCTCAATCTGGCCTCATTGCGCGCGGATAACTGGATCTCGCTTGACGATCCGCAGGGCACCGGGCTGGAGCAGGTGTTTATTGACGCCTGCCGCGTCGCGGGCTTTACGCCGCAGGTGGCGCAGCGGATTAACGACGTCACCTCGATGATTAGCCTGGTCTCCGCCGGGGTCGGGGTGGCCCTGGTTCCGGTCTCGGCGCGGGCCTTACGCCTCGATAACGTGGTGTATATCGATCTTCAGGACCGGCTGGCGGAGAGTGAGCTGAGCATGGTTTACCACCGCCATATCCGTTCGGCGGTGGTGCGGAAAGTTATCTCGTTGCTCAATGCGACCGAGCAATCACCCGGTTAG	MSLRALRHFVVVAEELHMHRAAERLHIAQPALSQQIKQLEQRLGVVLFSRANRRLTLTAAGEAFWQKTRLALEMVDQAALDAQRTARGEQGRLHLGYVSSAMYDSKLPGLLRELRADWPGIELSLVHGDVQMLYEALLDLRLDIAIIRAPLASPPEALVVRPFVREKLCLALYQQHPLAGVGALNLASLRADNWISLDDPQGTGLEQVFIDACRVAGFTPQVAQRINDVTSMISLVSAGVGVALVPVSARALRLDNVVYIDLQDRLAESELSMVYHRHIRSAVVRKVISLLNATEQSPG				NA	NA	NA	NA	NA
BMS020_02545	1785			hypothetical protein	GTGAGAATCGCCACCATCACCAACTGGGCCTACGGGATCACCGTCGGCCTGACGCTGGCCTCCGGGAGCGCCATGCTCATGGCCTCCAGCGCCGACCGCGTCGAACGCCAGGCGGTACAGCAGCGCCAGGTCTTTGATACCCTCTCCGACAAGGTGGAAAACGACGCCTGGGCGCTGTCTGACCTCGCCCGGCTATACGTGGTTAAGCCCTCGCCGGAGACGCTGGAGCAGTACCAGCAGCTGCAGCGGACCGACAAAAACATTGAGCTGCGGCTGGCCAGATTGAAAGATAACGGCGCCAGCCGCGAGGAGCTGGCGCTGCTGCATGATGGCTTGCAGATTGCCGCTGAACTGCAGGATGAACAACAGGCCGCCCTGGCGCATGTCGCCCACGGCGATGCGCCAGCGGCCATCGCCGTGCTATACGGCAATGCATACGAGACCGAGCTGGAACGCATGCAGACGCAGATCGATCGCTTCCGCCAGATGCTCGAAAATCGCGCCGCCGTCGCCATTGACCAGGCCACCGAACGCTCGCGGATCTGGCGCACCCTGTCGGAAATCATGGTCGGCCTGACCGCGCTGATGTTTTTGTTCGTCCTCGGCTTTATTCTCAAGCGGCGGGTGCTCTACCCGGTGGTTCGCCTGAGCGACGTGGTGCAGCGTCTCGCCTCCCAGGACTATGCGGTGGAGACGCCGCAGTTCACTCAGGTGGATGAGATTGGCGATATGGCCCAGGCCATCCGCATTTTTCGCGAGAACGGCCTGGCCCGCCAGCAGCTGGAGCAGCAGCGCGACGCTGACTGGGCGATCCGCGAACTGCTGGCGCGCATGACCCAGCGTCTGCAGGGCTGTGAAACCATTGAGGATGTGATTAAGGTGGCGGAACTGTTTGCGCCGAATATCGCCCCGACGATCCCCGGGAAACTGTATATTCTGGATACCGACCCCTGGCAGATGCGCTGCGTGGCGCAGTGGCTGGCGCCCGCCGGGGAGACGACGCCCTTTTCACCCGACGACTGTTGGGCGATACGTCGGGGACTCAGCCATCCGCCGGTGCAGGGCGAACCCGATATCACCTGCTATCATCTGCCGGAGGCGCACGCCGGCCAGTCGCTCTGCGTACCGCTCATCGCCCAGGGCGAAGCCATCGGGCTGCTGACCTTTCAGAACGTTACCGCCAGTGACGCTCCTTCCCGGGCCTACCTTGAGCTGATGGCGGAAGCGCTGGGCCTGGCGCTGGCCAATCAGCGCTTACGCAGCGCCCTACTGGAAAAAGCGCTGTTCGATTCCCTGACCGGCCTGCGTAATCGCCATCATCTTGACGAAGCGCTGCATTCACAGATGGCGCTGGCGGTCCATACCCACACCCCGCTGAGCTGTCTGATGATCGACATCGATCATTTTAAAGCCATCAATGACCGCTACGGCCACGAGGCCGGGGATCTGGTGATTAAGAGCGTCGCCACCATCGTGCAGCGCGCGGTGCGCGATATCGGCACGGCTTTCCGCTACGGCGGCGAAGAGTTTCTGGTACTGCTCCCCGGCCTTGACGAAGCCGAGGCGCACCAGTGCGCCAGCGAGATCTATACCCAGGTGCACGCGATGACGCTGCGCGATGGTCTGACCGAGATAGGACAGGTGGATGTGTCGATTGGCATCGCCAGCTACCCGCAGCACACCCAAAGCGACAGCCTGCTACGCGCGGCGGACGCCGCGCTGTACCGGGCGAAAGAGCTGGGCCGCTCAAGGATTGTCAGCTTTGGCCGCCTGAAGACCAGCTAA	MRIATITNWAYGITVGLTLASGSAMLMASSADRVERQAVQQRQVFDTLSDKVENDAWALSDLARLYVVKPSPETLEQYQQLQRTDKNIELRLARLKDNGASREELALLHDGLQIAAELQDEQQAALAHVAHGDAPAAIAVLYGNAYETELERMQTQIDRFRQMLENRAAVAIDQATERSRIWRTLSEIMVGLTALMFLFVLGFILKRRVLYPVVRLSDVVQRLASQDYAVETPQFTQVDEIGDMAQAIRIFRENGLARQQLEQQRDADWAIRELLARMTQRLQGCETIEDVIKVAELFAPNIAPTIPGKLYILDTDPWQMRCVAQWLAPAGETTPFSPDDCWAIRRGLSHPPVQGEPDITCYHLPEAHAGQSLCVPLIAQGEAIGLLTFQNVTASDAPSRAYLELMAEALGLALANQRLRSALLEKALFDSLTGLRNRHHLDEALHSQMALAVHTHTPLSCLMIDIDHFKAINDRYGHEAGDLVIKSVATIVQRAVRDIGTAFRYGGEEFLVLLPGLDEAEAHQCASEIYTQVHAMTLRDGLTEIGQVDVSIGIASYPQHTQSDSLLRAADAALYRAKELGRSRIVSFGRLKTS				NA	NA	NA	NA	NA
BMS020_02546	1209		COG2206	3'3'-cGAMP-specific phosphodiesterase 1	ATGCGTATTGCCCTGAAGTCGGCCCTGATGCTGACCACCAACGTCATTCAGATCATTAACCCTGATCTGCACCGGCATATGCAACGAACGGCCTTAATCGCCCTGACGCTGGCGCAAAGGCTGGGGCTGCCTGCCGAGCGGCAGCAGACCATTTTTTGCGCCGCGCTGCTGCACGATATCGGCGTACTGGGTGATAGACGCACCATTCATTCGCTGGATGCCATCGATAATGTCCACGATCCGCATCAGCGCCAGGGGGCGGCGATGCTCGAGGGGTTAGCAACCTTCCGGCCCATCGTCCCCTTTATTCGCGACCACCACTTTAGCCCGGAGCACCGCGGCAGCCGCGAACAGCATATTGTCTATTTCGCCGATGCCTTTGAACGGCTGCTGCCGGCGGATAGCCGCGTGACCGCCTGGCCCACGCGGGCAGTGGTGGAGCAGTTCGTCACCCTGCACCGGGAGATCGATCCGTTACTCTGCGATACCCTGTGCGAGGTCGCTGAAAATGCGAACTTCTGGCAGCACCTGCATCCCGGGCATATTCAACGGCTGCTGGAAATTATTGCCCCCATCAACACGCTGTATCTGGATATTGACGGTCTGAAAGATGTCTGCCTGCTGATTGCCAAAATTGTCGACACCTACAGCAGCTTTACCGCCAGCCACAGTATTATGGTGGGGGAAATCGCCCGCCAGCTTGCCCACTGGATGCAGCTGCCGGAGCCCATCTGCCAGCAAATACAGGTTGCCGGCTATCTGCACGACATTGGTAAGGTTTATATCCCTCTTTCTATTCTGGAAAAAGAGGGGGAGCTGGATGACGACGAGCTGAGCCAGGTACGCGAGCACAGCTACATGACCGGGGATCTCCTTAGCGACTACAGCGAGCTTGGCGACATTATCAACTGGGCCTCGAATCATCATGAAAAACTGGACGGCAGCGGCTACCCTCTGCATCTCGAAAAGGATCACCTAACCCTCGCCGACCGCATTATCTCCATCGCCGATATTTTCACCGCCCTGACCGAAGATCGCCCTTATCGTAAAGGGATGGCCTGGCAGGAGGCCTTACAGATTATGGAAACGGATGTTATAAATGGCGCTCTGGATCGCGATGTCTTTCTCGTTTTGCGCCACCATGCGGAAACGCTACACGCCATCATTCTTCAGACCCTCGAACACCCCCGCAGCGAGCACCGTCCCTGA	MRIALKSALMLTTNVIQIINPDLHRHMQRTALIALTLAQRLGLPAERQQTIFCAALLHDIGVLGDRRTIHSLDAIDNVHDPHQRQGAAMLEGLATFRPIVPFIRDHHFSPEHRGSREQHIVYFADAFERLLPADSRVTAWPTRAVVEQFVTLHREIDPLLCDTLCEVAENANFWQHLHPGHIQRLLEIIAPINTLYLDIDGLKDVCLLIAKIVDTYSSFTASHSIMVGEIARQLAHWMQLPEPICQQIQVAGYLHDIGKVYIPLSILEKEGELDDDELSQVREHSYMTGDLLSDYSELGDIINWASNHHEKLDGSGYPLHLEKDHLTLADRIISIADIFTALTEDRPYRKGMAWQEALQIMETDVINGALDRDVFLVLRHHAETLHAIILQTLEHPRSEHRP				NA	NA	NA	NA	NA
BMS020_02547	1044	ansB		L-asparaginase	ATGAATTTTAGAGCATTACTTGCCATTGCGTTACTGACGATGAGCAGCCTGGCGTTTAGCGAGACGCGCTTACCGCATATTGTCATTTTAGCCACCGGTGGGACGATTGCCGGCTCGGCGGCCAGCAATACCCAGACGACGGGCTATAAAGCCGGGGCGATTGGCGTGCAGACGCTGATTAACGCCGTGCCGGAAATAAGTAAAATCGCCCACGTCGAAGGTGAGCAGGTGGCGAATATCGGCAGTGAGAATATGACCAGCGATATTATTCTGCAGCTCTCGAAGCGGGTGAATGCGTTATTAGCCCGGGATGATGTCGATGGCGTGGTGATCACTCATGGCACCGACACCCTCGATGAAACCCCTTATTTCCTCAATCTGACGGTGAAAAGCAATAAACCGGTGGTCTTTACCGCCGCGATGCGTCCGGCGACGGCGATCAGCGCCGACGGGCCGATGAACCTGCTGGAAGCCGTCACCGTCGCCGCCGACCCGGATGCCCGTGGGCGCGGGGTCATGGTGGTGCTTAACGACCGCATCGGCGCGGCGCGCTTCGTCACCAAAACCAATGCCACCTCGCTGGATACTTTCCGGGCGCCGGAGGAGGGGTATCTTGGCGTCGTGGTGGGGGGAAAACCCCAGTTTGAAACGCGGGTGGATAAAATTCATACCCTGCGCTCGGTCTTCGATGTGCGTCAGCTGAAGGCTCTGCCGAAAGTGGTGATCATCTATGGTTACCAGGACGACCCGGAGTATATGTACGATGCGGCGATCGCCCATCATGCCGACGGTATTATTTACGCCGGCACGGGGGCGGGTTCTGTATCGGTACGTAGCGCCGCTGGTATTAAAAAAGCGCAGCAGGCGGGTATCGTGGTGGTGCGCGCCTCCCGCACCGGCAGCGGCTTGGTGCCCCCGGACGACAGCCAGCCAGGGCTGGTGGCCGATTCCCTCAACCCGGCGAAAGCGCGTATTCTGCTGATGACGGCGCTGACGCAGACGAAAAATCCGCAGCTGATCCAGCAATACTTCCACACTTATTGA	MNFRALLAIALLTMSSLAFSETRLPHIVILATGGTIAGSAASNTQTTGYKAGAIGVQTLINAVPEISKIAHVEGEQVANIGSENMTSDIILQLSKRVNALLARDDVDGVVITHGTDTLDETPYFLNLTVKSNKPVVFTAAMRPATAISADGPMNLLEAVTVAADPDARGRGVMVVLNDRIGAARFVTKTNATSLDTFRAPEEGYLGVVVGGKPQFETRVDKIHTLRSVFDVRQLKALPKVVIIYGYQDDPEYMYDAAIAHHADGIIYAGTGAGSVSVRSAAGIKKAQQAGIVVVRASRTGSGLVPPDDSQPGLVADSLNPAKARILLMTALTQTKNPQLIQQYFHTY	PGPT0020180_746	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
BMS020_02548	915	lpxP	COG1560	Lipid A biosynthesis palmitoleoyltransferase	ATGGCCTGCGTATTTCATAAACAACTTTTACACCCGCGCAACTGGCTGACCTGGTTCGGGCTCGGCATTCTCTGGTTGATCGTGCAACTGCCTTATCCGCTGCTGCATTTTATCGGCACCAGCGCGGGTCGTCTTTCCAGACGCTTTCTCAAACGCCGCGAACATATCGCCCGGCGCAATATTGAACTCTGCTTCCCGGAGATGTCGCCGGCGGCGCGCGAGACCCTCATCGATCAAAACTTTATGTCGCTGGGAATGGGACTGATCGAAACCGGCATGGCCTGGTTCTGGAACGATGAGCGGGTTAAAAAATGGTTTGATGTCGAGGGCTTTGCCAACCTTAATCATGCGCTTAGCGGCGGGAAAGGGGTGATGGTCGTCGGCGTACACTTTATGTCGCTGGAGCTGGGCGGGCGCGCCATGGGGCTGTGTCGTCCAATGATGGCCACCTATCGTCCGCACAACAGTCCGCTGATGGAGTGGGTGCAAACCCGCGGTCGCCTGCGCTCGAACAAAGCGATGATCGATCGCAACAACCTGACCGGCCTGGTACATGCCTTAAAATCAGGCGAAGCGGTATGGTTTGCTCCGGACCAGGATTACGGCCCCAAGGGCAGCGTGTTTGCGCCGTTTTTCTCCGTCCCGCAGGCGGCTACCACCAACGGCACCTATGTACTTTCCCGTTTATCGGGGGCGAAAATGCTGAGTATCAGCATGGTGCGCAAGCTGGATCGCCAGGGCTACAGCCTGCACATTAGCGAAGTGATGAATGACTATCCGGGTGAGGATAAGCAGATTGCCGCCGGCTATATCAACAAGGTGATTGAGCGCGAGATCCTGCGCGCCCCCGAGCAGTATCTGTGGGTGCATCGCCGTTTTAAAACCCGCCCGCTGGGTGAACCCTCCGTCTATTAA	MACVFHKQLLHPRNWLTWFGLGILWLIVQLPYPLLHFIGTSAGRLSRRFLKRREHIARRNIELCFPEMSPAARETLIDQNFMSLGMGLIETGMAWFWNDERVKKWFDVEGFANLNHALSGGKGVMVVGVHFMSLELGGRAMGLCRPMMATYRPHNSPLMEWVQTRGRLRSNKAMIDRNNLTGLVHALKSGEAVWFAPDQDYGPKGSVFAPFFSVPQAATTNGTYVLSRLSGAKMLSISMVRKLDRQGYSLHISEVMNDYPGEDKQIAAGYINKVIEREILRAPEQYLWVHRRFKTRPLGEPSVY	PGPT0022395_242	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022395-lpxP-K12974	NA	NA
BMS020_02549	639	leuE_2	COG1280	Leucine efflux protein	GTGTTCGCTGAGTTTGGTGTTCTGAATTATTTGACCTACCTGGTCGGGGCGGTGTTTATCATCCTCGTCCCTGGCCCTAATACGTTTTTTGTGCTGAAGACGGGCATTGCCCACGGCGTGAAGAAAGGCTATCTGGCGGCGGCGGGCGTCTTTATTGGCGACGCGGTGCTGATGTTTCTGGCCTTTACCGGCGTGGCGACGCTGATTAAGACCACGCCGGTGCTGTTTAACGTCGTCCGTTACCTCGGGGCGATTTACCTGCTGTGGCTGGGGGGCAAAATGCTCTATGCGGTGCTGACCCAGCGTGACGGCCAGGCCGACGCCAGCGCAGAGCCGGCGAGCGCAATCCTTAAGCGCTCCCTGACCCTGAGTCTGACCAACCCGAAAGCGATTCTGTTTTATGTGTCGTTTTTCGTGCAGTTTATCGACGTCAACGCCAAAGCACCCGGGGTGGCGTTCTTTATTCTGGCGCTGACCCTCGAGGTGATAAGCTTCTGCTATATGAGCTTTTTGATCCTCTCCGGCTCGTTTGTCACCCGCTACGTCAAAACCCGCAAGAAGCTGGCCAAACTTGGCAACAGCCTGATTGGCCTGGTTTTCGTTGGGTTCGCCGCGCGCCTGGCTACCCTGCAGTCCTGA	MFAEFGVLNYLTYLVGAVFIILVPGPNTFFVLKTGIAHGVKKGYLAAAGVFIGDAVLMFLAFTGVATLIKTTPVLFNVVRYLGAIYLLWLGGKMLYAVLTQRDGQADASAEPASAILKRSLTLSLTNPKAILFYVSFFVQFIDVNAKAPGVAFFILALTLEVISFCYMSFLILSGSFVTRYVKTRKKLAKLGNSLIGLVFVGFAARLATLQS				NA	NA	NA	NA	NA
BMS020_02550	264			hypothetical protein	ATGATTCTGCAAAAACTCCTCAGCAATAAAAACTGCAAAAAATACTGTCTGTCGCTCGCGGCGGTGTTTGCTATCGCGCTGGCGGTGGTGGGACGGGCGACCTTTGGCGGCGTGGTGAGCGAGTACAATATGCCGTACTCGGAGTGGACGACGTCCATGTTCTTCCTGCAGGGGGCGATGGTGACGGTTTACAGCATCGTCTTTACCGCGCTCTTCGCTATTCCGCTCGGCTTTATTTTCCTAGGTGACGAGCGTCAGGATTAA	MILQKLLSNKNCKKYCLSLAAVFAIALAVVGRATFGGVVSEYNMPYSEWTTSMFFLQGAMVTVYSIVFTALFAIPLGFIFLGDERQD				NA	NA	NA	NA	NA
BMS020_02551	126			hypothetical protein	ATGAAAAAACCGATCGTGTTACCGTTGATTATTGCGCTGTGCACGCTGTTATCGGGATGCATTGTTGACGATGGCTATCACCACCATCGCCATCACCACCATCATCACTATCATGACGATGATTAA	MKKPIVLPLIIALCTLLSGCIVDDGYHHHRHHHHHHYHDDD				NA	NA	NA	NA	NA
BMS020_02552	102	yoaK		putative membrane protein YoaK	ATGAAATTGGGTATTCTTTTCCCGGTGGCGATCTTTATCGTCGCCGTCGTCTTTCTCGGCTGGTTTTTTGTCGGCGGCTATGCGGCGCCGGGCGGGGCATAA	MKLGILFPVAIFIVAVVFLGWFFVGGYAAPGGA				NA	NA	NA	NA	NA
BMS020_02553	1014	dgcP	COG2203	Diguanylate cyclase DgcP	ATGTCAGATTTTATTCTTGCCCGGGTGTCGCAAACCCTCGCTACGGAACAGTCCCTGGAAACCCTGGTGCGCCAGCTGCTGGAGATGCTGGAGGCGGTGACGCGAATGGAGTCCACTTACCTTACCCGCATCGATATCAACGCCCAGCGGCAGCAGATCATGTTCGCCCACAACAGCAGCGAAATGCAGATCCCGGAAGGATTTTCCGTCCCCTGGGATGAATCTCTGTGCAAACGCGCCCTTGAGGATCAGTGTACGTTTAGCAATGACGTCGCCCGTCGCTGGCACTCCTGCATCGCCGCCCAGGAGCTGGGGATCGCCACCTTTTTAAGCATTCCTGTGCGCCTGGCCGACGGCTCTCTGTTCGGCACTCTCTGCGCCACCAGCCGGCAACAACAGCCTTATAACCTTGAAGGTGAACAGGTCATGGGCCTGTTCGCGAAGCTCATTTCCCACTACGTGGAAAAAGACACCCTGGTGCAACAACTGCAGGCGGCAAACGTCGCGCTGGAGCTGCACTCGTCGACCGATGAGCTCACCCAGCTCCCTAATCGCCGCGCGCTGTTTAAGCAACTGGCGCTACGCTTTGCCTCCGCCCGCGCTCAGCAGCAACAGGTCGCGCTCATTTTTATCGATCTCGACGGTTTCAAAGCCATTAACGATCGATTCGGCCATCCGTGCGGCGACAGCTTTCTGGTGCAGGTCGGCGAACGACTCACCGCCGTCGCGCGCCGTGAAGATATCGTTGGCCGCCTTGGCGGCGATGAGTTTTTGATCGTCGGTAGCGCCCAGCCGCCCGCGGCGCAGCAGGCGTATGTCACCACCCTGCGCCAGGCCCTGTGCGGCGTCTACTTCCTCGGCGAACAGCGTATCAACTATGAGGGCGCCAGCTTCGGGGTGGTCATCTGCGATCCGCAGAGTATCGATGTTGAAGCGGCCTTACGCGCTGCCGATGAGGCGATGTATCAGGATAAGAAGTCTCGCCGGCAGGAGAATTTTATTCATATTGACTAA	MSDFILARVSQTLATEQSLETLVRQLLEMLEAVTRMESTYLTRIDINAQRQQIMFAHNSSEMQIPEGFSVPWDESLCKRALEDQCTFSNDVARRWHSCIAAQELGIATFLSIPVRLADGSLFGTLCATSRQQQPYNLEGEQVMGLFAKLISHYVEKDTLVQQLQAANVALELHSSTDELTQLPNRRALFKQLALRFASARAQQQQVALIFIDLDGFKAINDRFGHPCGDSFLVQVGERLTAVARREDIVGRLGGDEFLIVGSAQPPAAQQAYVTTLRQALCGVYFLGEQRINYEGASFGVVICDPQSIDVEAALRAADEAMYQDKKSRRQENFIHID	PGPT0026325_421	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026325-yddV|ydeH|yeaP-K13069	NA	NA
BMS020_02554	957	xerC_1		Tyrosine recombinase XerC	ATGACTATTAAGAAACTCGATGATGGTCGATATGAAGTGGACATCAGGCCTGCTGGTCGCAATGGAAAGCGTATCCGCAGGAAGTTTGATAAGAAAAGTGAAGCGGTAGCTTTCGAGAAGCATACCCAGTTCAACCACCACACCAAAGAATGGTTATCAAAACCGACGGATAAGCGGCATCTGTCTGAACTGATACAGCTTTGGTGGAATTTGAAAGGCAAGCATGAGGAGCACGGTCGGATAAACCGCAACAAGTTAGATATTTTTTGCAGGATTACCGACGATCCTTGTGCTTTTCAGATTACAAAAGCGCTGATTAGTCAGTATTACGCGGCAAGAAGAAGCCAGGGCATCAAAGCTTCCACCATTAACCGTGATCTCAACAGCATCAGTGGTATGTTCACAGCTCTTATCGAGGCCGAGTTGTTTTCGGGTGAACATCCGATCAGAGGGCGGAAGAAGTTGAAAGAAGATGTCCCCGAAACTGGCTATCTGACAGAAGACGAAATCAAACACTTACTCTTTAAACTGGATGGTGACAACAAGAAGATAGCTGTTCTCTGTTTAAGTACTGGTGCTCGCTGGAGCGAAGCGGCTCGACTCAAGGCGGAACACATCATACAGAACCGTGTGACGTTCGTTAAAACCAAGAGTAACAAGCAGCGGACTGTTCCTGTTTCAGCGGAAGTGGCAAAACTCATAGCTGATGGTAAGCGAGGGTTGTTATTTGGTAAGGCGTCTTATTCTGACTTCAGGCAGATACTCAGGGAGGTAAAACCTGATCTTCCGACCGGCCAGGCGACGCATGCACTACGCCACAGTTTCGCGACGCATTTTATGATTAATGGGGGGAGCATAATTACATTACAGAGGATCTTAGGACATGCGCGAATTGAGCAAACTATGGCCTACGCTCACTTTGCACCGGAATACCTACAGGACGCAATCTCGGCTTAA	MTIKKLDDGRYEVDIRPAGRNGKRIRRKFDKKSEAVAFEKHTQFNHHTKEWLSKPTDKRHLSELIQLWWNLKGKHEEHGRINRNKLDIFCRITDDPCAFQITKALISQYYAARRSQGIKASTINRDLNSISGMFTALIEAELFSGEHPIRGRKKLKEDVPETGYLTEDEIKHLLFKLDGDNKKIAVLCLSTGARWSEAARLKAEHIIQNRVTFVKTKSNKQRTVPVSAEVAKLIADGKRGLLFGKASYSDFRQILREVKPDLPTGQATHALRHSFATHFMINGGSIITLQRILGHARIEQTMAYAHFAPEYLQDAISA				NA	NA	NA	NA	NA
BMS020_02555	861			hypothetical protein	ATGGGGTTGAGCGTCCGCTTTCGTAATAACTTAAAGTCCCATAAGGAATTCCTGTCAGATCAGCGAGTTGCTGTCTACTTAGATACTCAGACTTTCTTATTAAGACGATTTTCTCGGAGTTCTGTCAATAACTGTACGGGCCGCGCCGATTCGGACGAAAAACCACCGTCAGAAACGGCGGTGTCAGTTGATAAAACCGCGCCAGACGACAGTTCAGTGACAGAACTTCCGCTGAATATCGATGCTTTGAGACGATATTCACGCCAGCAAAGGCAGGAGATCACTAGCAGGCTCAGAAAATCCCCCCGCGAAAGCTCAGATCAAGCCTTCATGCGTACCGCGCGCGGTCTGCGCACGTCGATTAATGACGAAACCGCGCTGGCATGGGGACCAAAAGTCACCGCTGCGAAAAATATGAGCCTGACGCCGGAAGAGGCAGAGCAGCGCTGGCGCGAGCAGCTACGGGTTGAGGCGGAACGGCGCGCGGACAGTTACGCCGCAGTGGCTTCGGAATTCCAAAAGAAAAAGTCAGAGTCAGCATTGTTTCAACAGAACGGCACGGCAGCGAACGGTCAAGGGCGAAATTCACCGCAGCAAGGCATTAGCGGGATCTCGCAAGAACTGCCTGACCACGCGATCGTCGAACTGAATAGACGTAATATCGTTATCAGTGACCGGGAGGTTAAATTGTTAGTAGGTGGCTGCATTCTGTCGCGTGGCGAAATGGAATTTGCCATCAGAGAAGGGGAGTTAATAGTGGAGCGCCGGTTGTTTAAACACGCCAACAACGCTCGGGCATCATTGACCAGACAAAGTGAGCTGCTTGATAGCTGCCAAAGGGCTATCAGGAAGAAATTATGA	MGLSVRFRNNLKSHKEFLSDQRVAVYLDTQTFLLRRFSRSSVNNCTGRADSDEKPPSETAVSVDKTAPDDSSVTELPLNIDALRRYSRQQRQEITSRLRKSPRESSDQAFMRTARGLRTSINDETALAWGPKVTAAKNMSLTPEEAEQRWREQLRVEAERRADSYAAVASEFQKKKSESALFQQNGTAANGQGRNSPQQGISGISQELPDHAIVELNRRNIVISDREVKLLVGGCILSRGEMEFAIREGELIVERRLFKHANNARASLTRQSELLDSCQRAIRKKL				NA	NA	NA	NA	NA
BMS020_02556	285			hypothetical protein	ATGACCTCGTTCACTGTAGAAATTCATGAAGATATCGTTACCTGGCTTAAAAGGAGCACTCGCCATGAGATAGTCCTGGATCTGCCATCAGTGCCGGATCCCGGCGACAAGCTATGGCTGAAGAGTATGCGAGGTATGCAAATTGTCGAAATGGAAAGGTGCATGATCGTGGAGTCGCGCCGCGTTTCGCGCTTGCGCCCGACTGTACGCTTGGTATTGGTATTTGGTATTGCAACAAATCATGGCCACGATGAATCCCGCGAACAGGACGTCTTCAGAAACTAA	MTSFTVEIHEDIVTWLKRSTRHEIVLDLPSVPDPGDKLWLKSMRGMQIVEMERCMIVESRRVSRLRPTVRLVLVFGIATNHGHDESREQDVFRN				NA	NA	NA	NA	NA
BMS020_02557	180			hypothetical protein	ATGTCGATTAACAGACTTGTCGACTGGTATGATTACTATGACATGCTGAATCATCTGGCGCGCAAAAGCCACATGGAGCATATCATTCTGAGCTATATCAGCAAATACTCCCCGGCGCGGATTAATTATGTTTCAGAGATTCGTCAGGAGATTATTGATCGGGCCGCCGAACTCGAATGA	MSINRLVDWYDYYDMLNHLARKSHMEHIILSYISKYSPARINYVSEIRQEIIDRAAELE				NA	NA	NA	NA	NA
BMS020_02558	870			hypothetical protein	ATGGTGAAATTTTCCCTGCTGGAAAACGCGCTGGACTCAGTCGAAACCGGGCTCGACTATTTCAGCAACGCTTTAGAAAAACAGGATCGACGGGATTACAAGCAGTGCCTGCTGAATCTCTTCCAAGCCGCAGAATTGCTGCTTAAGGCTGTGATCTCAAGGCATGGCGTCGGGACTGTATTTATTCCAAAGTCACTCCACAAACACTGCAAAGATCCGAAACATCCTACAGAAGCAGAGCTGCACCGGTGCCAGTCGGTCAATATCGACCAGCTCTGTAAACTGCTCGGTGAGTATCACCCGACTGAGTTTTCAGACACGTCGCTTCAGATGATAAGGGCTGTAGCTCAGATACGTAATAACCTGCAACACTTTGCCTTAGAGATCAGCCCGGCAGATCTTGCCATGCAACTGAGTGAACTGTACCGGCAGGTTTTTCGTCCGGCATTTATCCTGCTTCAGGCCGATGAAACAGATAACGCCTGGAACTCAGAAGTACGCCGTCAGTATATCGCACTGGAGGCAAGGTTTATGGAAATCAGCACGCCTGATGAATACACCTTAGCGCTTTGTCCGGCCTGCGAAAGCTGGTCACACTTTATTGTGTATGGTGGAGAAAGCTACCCTATCAGTTCTCACTGCATCTGCTGCAATTTCCGACTGGAAAACCTTCAGATATGGGACTTTCACCTGTGCCCAGAGTGTAGCTGGCCATCGGTTGTATACATTCCTCAGTACCAGGCAGGGGCATGTCTTTTTCACAAATGTTACTACAGTAAAGAGGGGAGATTTGTTCCGATGGAGCCATGTGCGTGTGGTGGATACCGAATAGAAGAGCATTGCCGCCACTGTGATCCGGAAGAGGAGTAA	MVKFSLLENALDSVETGLDYFSNALEKQDRRDYKQCLLNLFQAAELLLKAVISRHGVGTVFIPKSLHKHCKDPKHPTEAELHRCQSVNIDQLCKLLGEYHPTEFSDTSLQMIRAVAQIRNNLQHFALEISPADLAMQLSELYRQVFRPAFILLQADETDNAWNSEVRRQYIALEARFMEISTPDEYTLALCPACESWSHFIVYGGESYPISSHCICCNFRLENLQIWDFHLCPECSWPSVVYIPQYQAGACLFHKCYYSKEGRFVPMEPCACGGYRIEEHCRHCDPEEE				NA	NA	NA	NA	NA
BMS020_02559	1581			hypothetical protein	ATGCTAACTTCAATCGGCGTTAAGAATCTTAAAAGCATAAAAAACAAAACATCCATTGACTTGAAACCTATCACAGTACTGTTAGGAAGAAATAGTAGCGGTAAAAGTTCGATGATACGTTTGTTTCCTCTGCTAAGACAGTCATTTCAAGAAGAAACAACGGGACCAATTTTGTGGTATGGTAAGTATGCAGACTATGGCGACTATCATGAAGCTTTGACGAATGAAGTCGATGGCAATATTGAGCTAAGCTTCGGTTTGTCATTTGATTTCTATTATAGAAAGCCAAGTCACTTGCCAGATTTTCCTATGCTAAATTTTGTCGTTGATTTGAAACTTGACTCAGTCGATAGAAAAACTGTTATGCGGGAGGTGAGTTTTTCTGTTGGGGAGATTAAAGTTTCTATTTTACCCACTGAGCAAGATAATGTTATTTTGAAGTTAAATTCTAAAAATTACTCTTATGATATCCCCTTATCAGTCTATAGCTCAGAAGATAAGTTCTTCCCAACTGTATATTTTGAGGGCGTAGATAAGAAGCGTAAGGACATAAATGAAAACTGGTCGCCTTACTATTTTTTAGAAAAAAACAGAAGAATGTATAGTAGATCAATTGGATATAAGTCAGAAATAGAATTAAATCAGCGTGTTTGTGAAAAAGCCGCAGATGTTATTAGAGGGTATTTTAGTCCAAGCGCAAGCAAAAAAAACATAATCAAAGGCTTGTTGGATATTAATTCTTATGCTAAAGACAGACTATATTATTCATTAATGGATTCTTTTTCTGGGCATTCTGTTTTTATTAGAAATCTTGAAAACAAGCGCGACGAAATATTAGATGCTATCCTTCCATTTATTTTGATGAAAGGCTACAACGAAATAGCTGTTATGCTGAATAGTAACCTTGCAGAAAGCTTTCTATCTGTTAAATATCTTTATCCAATTAGAGCAACAACTGAACGTTACTATCGTTTTCAGGATCTGCAAGTTGAGGAAATGGACCACACAGGTTCGAATGTTGCAATGATACTCAATTCATTTGATGAATCTGAGTTGCGATCATTTCAGAAATGGACTCACGAAAGTTTGGGCTTTATCGTTTATGTTCAAGAAGTGGGCTCTCATTATGCTATCAAGATCAAAACAGATAATGATGACAAAGAACATAATATCAGTGATATGGGGTTCGGTTTTTCGCAGGTGTTACCAATTGTAATGTCAATCTGGTTGGAGACAAAGGATAATAGTTCACCCAAAGGTAAAGCCTCTATTTTTGTGATTGAGCAACCTGAGTTACATCTTCATCCAGCATATCAGACACAATTGGCATATCTATTTGCAAATACTATTAAGTTAGCGTCTAAAACTAAAAATAATATACAAATTATTTTTGAAACGCATAGCCAAGCAATGATAGACGCCTTGGGAGACTATATTGAAAGTGGGGAAATTAATAAGAGTGATGTAAATATTGTTTTCTTTGATAAAAATGGTTCTGAAGGAACCACAGTCAAAACAGCGGAATTTGATGAAGATGGTTACTTCATCAATTGGCCAATTGGTTTTTTCTCAGGGAAATAA	MLTSIGVKNLKSIKNKTSIDLKPITVLLGRNSSGKSSMIRLFPLLRQSFQEETTGPILWYGKYADYGDYHEALTNEVDGNIELSFGLSFDFYYRKPSHLPDFPMLNFVVDLKLDSVDRKTVMREVSFSVGEIKVSILPTEQDNVILKLNSKNYSYDIPLSVYSSEDKFFPTVYFEGVDKKRKDINENWSPYYFLEKNRRMYSRSIGYKSEIELNQRVCEKAADVIRGYFSPSASKKNIIKGLLDINSYAKDRLYYSLMDSFSGHSVFIRNLENKRDEILDAILPFILMKGYNEIAVMLNSNLAESFLSVKYLYPIRATTERYYRFQDLQVEEMDHTGSNVAMILNSFDESELRSFQKWTHESLGFIVYVQEVGSHYAIKIKTDNDDKEHNISDMGFGFSQVLPIVMSIWLETKDNSSPKGKASIFVIEQPELHLHPAYQTQLAYLFANTIKLASKTKNNIQIIFETHSQAMIDALGDYIESGEINKSDVNIVFFDKNGSEGTTVKTAEFDEDGYFINWPIGFFSGK				NA	NA	NA	NA	NA
BMS020_02560	1101			hypothetical protein	ATGTTATTAAAATTAACGAATTTCCAGAATAATATAGAAGGTAACGAGCAGCTAGAAATAGCTCTTACCAATCTCTTTAATTCATATTTAGAGAAAAAACATGTAATTTTGGCGAGCAAAGAGTTGTTTCAGGATGTTCTATCTTCGGATGTATTTTCCAGAAGGATCAGAAATCTGGCTAAGTATTTATTAACTAATTACCGAGAGATGTGTGCAATTCCGGGAAAGCTTAGTACTTATATAGAGGTTGATCTGAGTTTACAACAAGTTGACTTGAATAAACAGGAGGGTAGTCCTCGTAGATTGGGCTATGGCTTTTTTATAGATAGTGAATCAGTACAAAGAGCCAATTTTCTATGTGAAGATTTAATGGACTGTAATTTTTATAAATTTATAGGTGATTTTTACAAACGTGAAGTTGATGCTGATGGCCTATTGATAAATTTAGAATTCAGAAATGGCGGTGGTTCTGGAACTAAAAGAAATTATGATGAACTGATTCGAAATAATAAGATGTGCTTATGCATTTTAGATAGTGATAAAAAACATCCATATGGAGCAAAAGGAGATACATGTTTAGCATTTAATGGTGTTACTGATAAAAACTTTTCACATCATTTAGTTTTAGAAGTGCATGAGGCTGAATCTCTCATCCCGATGGGTTTAATAAATCTCGCTCTTGAAAGCGGCAAAATTAACCGCGCTCATGTGACTGTCTATGATTCATTTTTAAGAGTATTTGATGTTGATGCAACTGCGAAAAAATACTTGGATCATAAAAAGGGGTTGGAGGTAAATGCAGCAGCAGAGATTGATGAAAAACTAAGGGTGGAATACTGGACAAATATAGTGACTAGAGTTAATGGAATACCTAAGAATAGATGTGTGACTCGGTTTGAATGTGAATGTCGAGAGCCGTGTAAAGTTGTAGAGGGGTTTGGCGATAGGCTATTATCTCATATCATTGAAGAATTAAACGAAACTTCCCCACATAAATTGCGTAATTTAATCAAAGATGACCTGTATGATGATTGGTTTAATATTGGCAAGGAAATATTTAGTTGGGGCTGCGCTCCAAATAAGCAAGCAAGAACATCTTAG	MLLKLTNFQNNIEGNEQLEIALTNLFNSYLEKKHVILASKELFQDVLSSDVFSRRIRNLAKYLLTNYREMCAIPGKLSTYIEVDLSLQQVDLNKQEGSPRRLGYGFFIDSESVQRANFLCEDLMDCNFYKFIGDFYKREVDADGLLINLEFRNGGGSGTKRNYDELIRNNKMCLCILDSDKKHPYGAKGDTCLAFNGVTDKNFSHHLVLEVHEAESLIPMGLINLALESGKINRAHVTVYDSFLRVFDVDATAKKYLDHKKGLEVNAAAEIDEKLRVEYWTNIVTRVNGIPKNRCVTRFECECREPCKVVEGFGDRLLSHIIEELNETSPHKLRNLIKDDLYDDWFNIGKEIFSWGCAPNKQARTS				NA	NA	NA	NA	NA
BMS020_02561	2028	aaeB_4		p-hydroxybenzoic acid efflux pump subunit AaeB	ATGCTGTTGCTCGATGGACGGGCCTGGCTGTTCTCGGCCAAGGCCTATGTGGCGGCGATCGCGGCGCTGTTCCTCGGTCTGGCGATGAACCTGCCACGCCCGTACTGGGCGATGGCCACGGTCTACATCGTGCTGCAGCCGCAGCTCGGGCCGACCCGCGCCAAGGGCATCTACCGGATCATCGGCACCTCGGTCGGCGGGCTGTTCTCGATCCTGCTGCTGCCGGTGGTGGTCGAACAGCCGCTGCTGATGAGCGCGGTGATCTCGCTGTGGCTCAGCGCCTGCGTGTTCCTGGCGCTGCGCCAGCGCGGCCCGCGCAGCTATCTGTTCATGCTGTCCGGCTACACCGTCACCTTCGTCTGCTTCCCGGCGCAGCTGGAGCCGGAGAGCATCTTCCCGGTCGCCAGCGCGCGCTGCCAGGAGATCATGCTCGGCTCGATCGTCGCGGTGGTGGTCGCGGCGATCGTCTTCCCCAGCTCGATCCGCCCGCAGGTGCTGGGCCAGGTGGAACGCTGGATGCGCGATGCGGCGCGCTGGTGCCGGCAGATCGTCGATGCGCCGCGGCGTTCGGACAGCCAGCGCCAGCGGCTGGCGGTGGACATCCACCAGTTCGCGCAGCTGATCGAGGTGTTCGCCCACGACGACCCGCGCCACGCCACCTCCGGGCGCACGCTGCGCCAGCTGCGCGCGCACATGCTGCAGCTGCTGCTGGGCATCTCCTCGATCGGCAACCGCCTGACCGCGCTGCGCGCCCACGACCCGGCGATGCCGCCCGGCCTGCCCGAACTGCTGCAGCGCATGCTGGTCTGGATGGAGGATGGGCACGGCCACGACGACAGCGAGTACCACTGCCTGTGCGCGCTGATCGCGGCGATGAAGCCCGACCCGGACGACAGCGCCACGCGCCTGTACGACGGCCTGCTGCTGCGCATGCAGATGCTGGTGGAGCTGTGGCAGGACTGCCGCGGCCTGCGCCATGCGCTGCAGGCGCGCACCCCGGCACCGCCGGCGCATGCACGGGTCGATGCCGATGCCGCCGACATCGAACACCACGACCTGCTGATGGCCGGGTTTTCCGCCGCCAGCGCCGGACTCACGCTGTTCTGCTACTGCGCGATGTGGATCGCGCTCGGCTGGAGCACCGGCACCAGCGGCGCGATGATGGGCGCGATGGCGGCCAGCATCTTCGCCGCGCAGGACGACCCGGTGCCGAGCATGATGGCGTTCCTGGCCGGCCTGCTCGGCTCGATCGTGCTGGCCGGGGTGTACCTGTTCGGCGTGCTGCCGGCGGTGCACGACTTCGGCATGCTGGTGCTGGTGCTGGCGCCGACCTTCCTGCTGCTCGGGCTGACCCTGACCCGCCCGGCGATGACCGTGGTCGGCATGCCACTGCTGTTCACCCTGGCCACCAACCTGAGCCTGCAGAACAGCGAGCCGGTGCGCTTCGACGACTTCGCCAACGCCTCGATCAGCACGGTGATCGGCATCGTGTTCGCGATCGTGATGACCCGGCTGTTCCGCTCGGTCGGCACCGAATGGAGTTCGCGCCGGCTGCTGCGCCAGGGCTGGCAGACCCTCGCCGCGGCGGCCGAAGGCCATGGCATCGCCGATCGCGACCGCTTCGGCGCGCGCATGCTCGACCTGCTCGGCCAGCTGGTGCCGCGGCTGGCGGCGACCCGCCCCGACAGCCACCTGGCCTCGGTCGACATGCTCAACGAGATCCGCACCGGGCAGAACATCCTGCTGCTGCGCCAGGCCCGCCACGACCTGCCGGCGCCATACAGCGAGCACCTGGACCAGGCGCTGGGCGCGATCGCCGCGCACTATCGCGCCCAGGCCGATGCCCGCCACCCGCTGGACTGGCCCGCACCGATGCGCGAACGCCTGGATAGCCTGCTGCAGGGCATCGACCGTGTCCCCGCCGGCGACGGCCGCGATGCCGCGCTGATCGGCCTGCTGGGGCTGCGCCATGGCTTCTTCCCGCAGCAACAGCTGGCCGACACGGCGGCCCCGGTGGCGACGCGCTAG	MLLLDGRAWLFSAKAYVAAIAALFLGLAMNLPRPYWAMATVYIVLQPQLGPTRAKGIYRIIGTSVGGLFSILLLPVVVEQPLLMSAVISLWLSACVFLALRQRGPRSYLFMLSGYTVTFVCFPAQLEPESIFPVASARCQEIMLGSIVAVVVAAIVFPSSIRPQVLGQVERWMRDAARWCRQIVDAPRRSDSQRQRLAVDIHQFAQLIEVFAHDDPRHATSGRTLRQLRAHMLQLLLGISSIGNRLTALRAHDPAMPPGLPELLQRMLVWMEDGHGHDDSEYHCLCALIAAMKPDPDDSATRLYDGLLLRMQMLVELWQDCRGLRHALQARTPAPPAHARVDADAADIEHHDLLMAGFSAASAGLTLFCYCAMWIALGWSTGTSGAMMGAMAASIFAAQDDPVPSMMAFLAGLLGSIVLAGVYLFGVLPAVHDFGMLVLVLAPTFLLLGLTLTRPAMTVVGMPLLFTLATNLSLQNSEPVRFDDFANASISTVIGIVFAIVMTRLFRSVGTEWSSRRLLRQGWQTLAAAAEGHGIADRDRFGARMLDLLGQLVPRLAATRPDSHLASVDMLNEIRTGQNILLLRQARHDLPAPYSEHLDQALGAIAAHYRAQADARHPLDWPAPMRERLDSLLQGIDRVPAGDGRDAALIGLLGLRHGFFPQQQLADTAAPVATR				NA	NA	NA	NA	NA
BMS020_02562	648			hypothetical protein	GTGACCCCGCGCGACCTTGCCATCGTGGCAAGGCCGGCTGCGGGCGCCGCATTCGCGCTGCATGCAGAGGAAGGCGTGCAGCGGTGCTATGGTCCGGCCATGGCCTCGCGCATTGCCAGCATCCGCTTCAGTGCCACGCTGCTGCAGCCGGCGACGCCGGCGGATGCGGACTGGAGCTTCCTGCGCCTGCCCGGCACCGCCAGCGCCAAGCTGCCGAGTCGCGGCATGGTCACGGTGCGCGGCCGGTTCGGCGGCCAGCCGCTGCAGGCCACGCTGCTGCCCGACGGCGAAGGCGGCCATTGGTTGAAGGTGGAGCCGGCGCTGCGCGCGGCGGCCGGTGCCGCGGTCGGCGATCGCGTCGCGCTGGCGATCACACCGGTGGCCGAGGAACCCGAGCCGCTGCTGCCCGCCGACCTGCGCCAGGCGCTCGCGCAGCAGCCGGCCGCGCGTGCGACCTGGGACGACATCACCGCCACCGCGCGGCGCGACTGGATCTTCTGGATCACTTCCGGCAAGAAGGCCGAAACCCGCACCAAGCGCATCGCCACCGCCTGCGACATGCTCGCCAGCGGCAAGCGCCGCGCCTGCTGTTTCGACCGCTCGGGCATGTACAGCAAGTCGCTGGCGGCGCCGCAGGCGGCGGAGTAG	MTPRDLAIVARPAAGAAFALHAEEGVQRCYGPAMASRIASIRFSATLLQPATPADADWSFLRLPGTASAKLPSRGMVTVRGRFGGQPLQATLLPDGEGGHWLKVEPALRAAAGAAVGDRVALAITPVAEEPEPLLPADLRQALAQQPAARATWDDITATARRDWIFWITSGKKAETRTKRIATACDMLASGKRRACCFDRSGMYSKSLAAPQAAE				NA	NA	NA	NA	NA
BMS020_02563	855			hypothetical protein	ATGAGCAACGCGTCGCCGCCCGTGCGGGCCCGTACCAGCAGCAGGATCGAACGCAGCGAACCGTGGATCGCGGCGCTGATCAGCGCGCTGGTGCAGGTGCTGCTGTTGCTGGTGCTGCTGTCGGCTTCGGCGCTGAACCTCAATGCGCCGGCCGGCGCGTCCGCCGGCGGGCGCATGAAGGTGGACTTCGTCGGCCAGACCCAGCAGCCGGTGACCACGCCGACCAAACCGACGCCGCCGCGCAAGCCGGTGGTCAAGAAGAAGCGCCCGGCCGCGCCGAAGGTGCGCAGCACCCTGGTCGAACACGCCAAGGATCCGCTGCCACCCGACGCGCCGCCCGAGCCGATGCCCACGCCGCAGCCGCCGACCCCGGAGCTGGCCGACGATGCGTGGATGCCGGTCGCCACGCGCAGCCCGCCGCGGCCGACCGAGCGCCGCCCCGAGACCTGGACCGGCCAGCCGCCGGGCATGCTGCCGCAGGACTTCGGCCCCAACGACGATGGCGTGAGCCGCAGCGACCTGCGCGGCCGCGGCAATGGCCGCACCAACAACGCCTCCGGCCCGAGCATGGAGGCCGGCGGCTACCAGGTGGTCTACGACCTGCGAAGTGAGACCCAGCTGCGCGCCTGGAAGGAGCAGGGCATGAAGGAGATCGCGATCATCCTGCCGGGCACCGACCAGCGCATGATCTGTCCGCTGGAAACCGCGCTGCGCCGTGGCTCCGGTCCATGCCGCCTGCTGCCGGCGGATTCGCCGGAGCTCAAGGCACTCGGCGATGCCCGCGAGGGCATCAACATGCTGCAGGTCTACCACCGCGGCGATTCGGTCTGGAGCGGTCCCGGACCGTATCGCTGA	MSNASPPVRARTSSRIERSEPWIAALISALVQVLLLLVLLSASALNLNAPAGASAGGRMKVDFVGQTQQPVTTPTKPTPPRKPVVKKKRPAAPKVRSTLVEHAKDPLPPDAPPEPMPTPQPPTPELADDAWMPVATRSPPRPTERRPETWTGQPPGMLPQDFGPNDDGVSRSDLRGRGNGRTNNASGPSMEAGGYQVVYDLRSETQLRAWKEQGMKEIAIILPGTDQRMICPLETALRRGSGPCRLLPADSPELKALGDAREGINMLQVYHRGDSVWSGPGPYR				NA	NA	NA	NA	NA
BMS020_02564	1950			hypothetical protein	ATGTCCTTCGTCGATCGCGCCGCCGTCACCGCGATGCTCCGCCCCCGTACCCGCCTGGCCGCCGCGCTCGGCCTGGCGCTGCTGGCCAGTACTGCGTCGGCGCAGATCGTGCGCAAGGCCGACGTGCCGCCGCCGCAGGACGTGGCCTATCCGGGCCAGATCGCGCTCCGCGTCGATGCCAGCGACACCACCCAGGGCATCTTCCGCGTGCGCGAATCGATCCCGGTGCAGCCCGGCAAGGTCACGCTGCTGTACCCGGAATGGATTCCCGGCGCGCATTCGCCCAGCGGCCCGATCTCGCAGCTGGCCGGACTCAAGTTCAGCGGCAACGGCCAGGCGCTGGCGTGGACGCGCGATCCGTACGACGTGTACGCCTTCCACGTCGAGGTGCCGGCCGGGGTGAGCACGCTGCAGGCCGAGTTCCAGTACCTGTCGCCGCGCGACGGCGGCTTCCAGATGACCGACCGCATGCTAATGCTGGACTGGGACCAGATGTCGCTGTATCCGGCCGGCTACTACACCCGCGGCATCCAGGTGCAGCCGAGCGTGACGCTGCCGGCCGGCTGGCAGTTCGGCAGCGCGTTGCGCGCCGCGGCCAAGGACGGCACCACCACCACCTTCCAGCCGGTGGCCTACAACACCCTGGTCGACTCGCCGATCTACGCCGGCCTGCACTTCAAGCAGGTCGACCTGACCCCCAGGGGCGGCGCGCCGGTGATGCTGGACATCGTCGCCGACACGCCGGCCGACCTGGAGATCAGCGCCGAGCAGCTGGCCGCGCACCGCGCGCTGCCGGAGCAGGCGCTGAAGCTGTTCGGCGCGCACCACTACGATCATTACGATTTCCTGTTCTCGCTGTCCGACCACCTGGCCGGCAACGGGCTGGAACACCACCAGTCCAGCGAGAACGGCCTGGGGACGGAGTATTTCAGCGGCTGGAAGGACAACCCGACCGACCGCGACCTGCTGGCGCACGAGTACGTGCATTCGTGGAATGGCAAGTTCCGCCGCGGCGCCGACCTGGCGACGCCGAACTTCAGCGAGCCGATGGGCGACTCGCTGCTGTGGGTGTACGAGGGCGCGACCCAGTACTGGGGCTTCGTGCTGACCGCGCGCGCCGGGTTGTGGAGCCCGCAGCAGTTCCGCGACGCGCTGGCGATGGTGGCGGCCAACTACGACCGCAACCGCGTCGGTTTCGACTGGCGCACGCTGGAGGACACCACCAACGACCCGACCGCCGCGCACCGCTCGCCGCTGCCGTACCGCAGCTGGCAGATGAGCGAGGAGTACTACAGCGCCGGGCAGATGGTGTGGTTGCAGATCGATGCGCGGCTGCGCCAGCTCAGCGGCGGCAGGAAGTCGCTGGACGATTTCGCCAAGGCGTTCTTCGGCATCGACAACGGCAGCTACGTGACCCACCCGTACACGTTCGAGGACGTGGTCGCCGCGCTCGACGGCGTGGCCCACGACGACTGGGCGGCGTTCCTGCACGCGCGCGTGGACGCGGTGCAGCCGCCGCTGCTGGACGGCATCGCCGCCAGCGGCTGGAAGCTGGTCTACACCGACACGCCCAGCGAGTACGAGACGCAGTACAACAGCCACCCGCAGTCGCCGCGGCATCGCTACAACTTCGCCTGGTCGATCGGGCTGACGATGAACGACGACGGCAGCATCAACGACGTGCGCTGGGATGGCCCGGCGTTCAAGGCCGGGGTCAGCACCGGCGCCAAGTTGATCGCGGTCGATGGCCAGGACTACTCGGCCGACGTGCTCAAGCAGGCGATCACCGCGGCCAAGGGCGGCAGCACGCCGATCACCCTGCTGCTGCAGTTCCAGGGCAGCGTGCGCACGGTGCGGGTGGACTACCACGACGGCCTGCAGTACCCGCATCTGGTGCGCGTGGACGGCACCCCGGACTACCTGAGCCAGATCATCAAGCCGCGCAGCTGA	MSFVDRAAVTAMLRPRTRLAAALGLALLASTASAQIVRKADVPPPQDVAYPGQIALRVDASDTTQGIFRVRESIPVQPGKVTLLYPEWIPGAHSPSGPISQLAGLKFSGNGQALAWTRDPYDVYAFHVEVPAGVSTLQAEFQYLSPRDGGFQMTDRMLMLDWDQMSLYPAGYYTRGIQVQPSVTLPAGWQFGSALRAAAKDGTTTTFQPVAYNTLVDSPIYAGLHFKQVDLTPRGGAPVMLDIVADTPADLEISAEQLAAHRALPEQALKLFGAHHYDHYDFLFSLSDHLAGNGLEHHQSSENGLGTEYFSGWKDNPTDRDLLAHEYVHSWNGKFRRGADLATPNFSEPMGDSLLWVYEGATQYWGFVLTARAGLWSPQQFRDALAMVAANYDRNRVGFDWRTLEDTTNDPTAAHRSPLPYRSWQMSEEYYSAGQMVWLQIDARLRQLSGGRKSLDDFAKAFFGIDNGSYVTHPYTFEDVVAALDGVAHDDWAAFLHARVDAVQPPLLDGIAASGWKLVYTDTPSEYETQYNSHPQSPRHRYNFAWSIGLTMNDDGSINDVRWDGPAFKAGVSTGAKLIAVDGQDYSADVLKQAITAAKGGSTPITLLLQFQGSVRTVRVDYHDGLQYPHLVRVDGTPDYLSQIIKPRS				NA	NA	NA	NA	NA
BMS020_02565	837	prpB_1		2-methylisocitrate lyase	ATGCCATCCGCCACCGCCCACGCCTTCCATGCCCTGCACCACCGCGACCAGCTCCTGATGCTGCCCTCCGCGTGGGATGCCGCCAGCGCCGCGCTGTGGCAACGCGCCGGCGCCGCCGCGATCGGCACCAGCAGCGCCGCGCTTGCATGGTCCAGCGGCTACGCCGACGGCGGCGCGCTGCCCGAACAGGTGCTGCTGCAGCGGATCGCGGAGATCGCCGCCGCGGTGTCGGTGCCGCTGAGCGTCGATCTCGAGGACGGCTACAGCGACGCCCCCGACGCGGTCGCGCGCCTGGTGGAACGCATCGCCGCGCTCGGCGTGGCCGGCATCAACCTGGAAGACGGCAGCGGCCCACCGCAGCGGCTGGTCGCCAAGCTCGAAGCGATCCGGCGCCGGCGTGGCGCGCGCGCGTTGTTCATCAATGCGCGTACCGATGTCTACCTCGGCGGCCTCGCCAGCGGCACCGAGGCGGTGCGGATCAGCTGCGAACGCCTGTGCCGCTATGCACAGGCCGGCGCGGATGGCGGCTTCGTGCCCGGCCTGTGCGCGCCGGCGCAGATCGCCGCCATTGCCGCAGGCATTCCGCTGCCGCTGAATCTCATGGCCGTACCGGACCTGCCCGAGGTGGCCCAGCTGCGTGCGGCCGGCGTGCGCCGCCTGAGCGCCGGACCAGCGTTGTTCCTGGGCACGTTCGCGCACGCGTTGGCCATCGGCCGCAGCTTCATCGACGCCGGGTGCGTGGCGGACGGCACGCCCGCGTCGCTGGACTACGCGGCGATGAATGCCCTGCACCGGTCGCGTCCGGCCATGGCTGCCGGCACCGGCGCGGCGACCTGA	MPSATAHAFHALHHRDQLLMLPSAWDAASAALWQRAGAAAIGTSSAALAWSSGYADGGALPEQVLLQRIAEIAAAVSVPLSVDLEDGYSDAPDAVARLVERIAALGVAGINLEDGSGPPQRLVAKLEAIRRRRGARALFINARTDVYLGGLASGTEAVRISCERLCRYAQAGADGGFVPGLCAPAQIAAIAAGIPLPLNLMAVPDLPEVAQLRAAGVRRLSAGPALFLGTFAHALAIGRSFIDAGCVADGTPASLDYAAMNALHRSRPAMAAGTGAAT				NA	NA	NA	NA	NA
BMS020_02566	225			hypothetical protein	ATGCCACGCAGGCCCTTGCATGTCGCCCTGTCGATCCTGATCCGGCTGGCGCTGACGTTCCTGGTGATCGGTATCCAGGAAGGATTCCGCCGCGCCACGGCCGACTACCTGCCCGAGAAAGCGTACTCCTGGTTCGCCTACGTCGACGGCATCCTGCTGATGGTGATCTGGATCTACGGCTGGCGGCGGCGCCCGCGTGCGGACGCGCAGGATCCGGCTGGATGA	MPRRPLHVALSILIRLALTFLVIGIQEGFRRATADYLPEKAYSWFAYVDGILLMVIWIYGWRRRPRADAQDPAG				NA	NA	NA	NA	NA
BMS020_02567	939		COG0596	putative protein	ATGCGCCTTCGCTTCCCCCTCGTTTCCCGCGGCCTGCTGCTCGGCCTGCTGGCCTGCGCCGCCGCAACCGTGCAGGCCACTGAGGTCACGCTGCCGAGCGCCGACAGCCTGCCCGCGCAGAAGACCGCGCAGGTGTTCGGCCAGCGCATCGCCTACTACGACGTCGGCCAGGGCCCGACCATCGTGCTGGTGCACGGCATGGCCAGCCAGGCGCTGTTCGATTGGGGCCACGTGATCGCACCGCTGGCGCGCGACCACCGGGTCATCGCGCTGGACCAGATCGGTTTCGGCCATTCGGACAAGCCGCAGGTGGATTACACGGTGCAGACCTTCGTCGACTTCCTCGGCGAGTTCCTGCGCACGCTGCAGGTCAAGGACAAGGACTACACCTTGATGGGCGAGTCGCTCGGCGGCTGGATCGCCGCCAGCTACACCATCCAGGCGCTGTCGCCGCAGAACAGCGGCGCGTACGCGGTACCGGCGCCACGCCGGCTGCTGCTGCAGGACGCGGCCGGCAACATTCCGGCCACCGGCACGGTCAGCGATGCGCGGCGCATCACCCGCGTGCAGGGCAGCCTGGCCGAGGCGCGCGGCATCGCGGTGATCTTCGACGAGCGCACCACCGTGCCGGAGACGTTCGCGCGCGCGGCGTGGGCGATGAAGATGCAGGCCAACGACGGCTTCACCCAGCGCGCGTTCTGGCAGAACGTGGACATGGCGCGCGACTCGGTGCACGACAAGCTCGGCCAGATCACCGTGCCGACGCTGGTGGTGTGGGGCGGCAACGACCGCATCGTGCCGATCGCGCAGGGCCGCGACTACGCCGCGCGCATCCCCGGCGCGCAGCTGGTGGTGGTCCCCGCGACCGGCCACGCCCCCTCGCTGGAGCGGCCGCAGGCCTTCCTCGACGCGGCCACGCCGTTCCTGGCCGGGCCGTAA	MRLRFPLVSRGLLLGLLACAAATVQATEVTLPSADSLPAQKTAQVFGQRIAYYDVGQGPTIVLVHGMASQALFDWGHVIAPLARDHRVIALDQIGFGHSDKPQVDYTVQTFVDFLGEFLRTLQVKDKDYTLMGESLGGWIAASYTIQALSPQNSGAYAVPAPRRLLLQDAAGNIPATGTVSDARRITRVQGSLAEARGIAVIFDERTTVPETFARAAWAMKMQANDGFTQRAFWQNVDMARDSVHDKLGQITVPTLVVWGGNDRIVPIAQGRDYAARIPGAQLVVVPATGHAPSLERPQAFLDAATPFLAGP				NA	NA	NA	NA	NA
BMS020_02568	270			hypothetical protein	ATGAAGAAGCTCGTACTTGCGGTCGCGCTGTTCGCACTGGCCGCCCCCGCGTTCGCCGATACCTATCGCTTCGACATGCAGGTCGTCAGCACCGGCGATTCGACCGGCAAGCTGATGAGCGCCGGCGGCAAGCCGGACCAGGTCAACATCAACGAAAACGAATACGGCGCCCGCACCGGCGAGAACTGGGTCTATTACCGCGACGGCAAGACGATCACCTTCACCGTCGACACCAGCGGACGCGTCACCCGGATCACCGAGGTGCGCTGA	MKKLVLAVALFALAAPAFADTYRFDMQVVSTGDSTGKLMSAGGKPDQVNINENEYGARTGENWVYYRDGKTITFTVDTSGRVTRITEVR				NA	NA	NA	NA	NA
BMS020_02569	777	glpR_3	COG1349	Glycerol-3-phosphate regulon repressor	ATGTCCGACGTCCCCGCGCCGCTGCCCGCCGAGCGCACCGACCAGATCCTGGCCGACCTGCGCCAGCACGGGCGCGTGGTCGCCGCCGAGTTGGCGCGGCGCTACGCGGTCTCCGAAGACTCGATCCGCCGCGACCTGCGCGAGCTGGCCGCGCGTGGCCTGTGCCAGCGCGTCTACGGCGGCGCGGTGCTGCCCACGCCGAAGGCAAGCCCGCTGCGCGAACGCTTCAGCGTCGACCGCCCGGACAAGGACGCGCTGGCCGCGCGGGTATGTGCGCTGCTCGCGCCCGGGCAGGTGGTGCTGATCGATGCCGGCTCGACCAACGTCGCCATCGCCCAGCAGCTGCCCGGCGACCTCGGGCTGACCGTGATCACCAATGCCCCGCACGTCGCGCTGGCGGCCAGCTGGCACGCCGCCACCAAGGTGCAGGTGATCGGCGGCCAGCTCGGCGCCGGCGGCGGCGCGGTCGGCGCCGATGCGCTGATGCAGGTGCAGCGCCTGCGCGCCGACGTCTACCTGCCCGGCGCCTGCGCGGTGGATACCGAGACCGGCGTGTGGGCCCTCGATGCCGAGGAAGCCACGTTGAAGCGGGCGATGCTCGCCTGCAGCAGCCGGGTGATCGTGGCCGCCACCGACGACAAGCTCGGCGCACGCGCGACCTGGCAGGTGGCCGCGCTGGACGAGATCGACGACCTGGTGCTGACCACCACCGCACCGCCCGCGCTGGCGCGGTGCTTCCACGACGCCGGCATCGCCGTGCACCCGGCGCTGCGCTGA	MSDVPAPLPAERTDQILADLRQHGRVVAAELARRYAVSEDSIRRDLRELAARGLCQRVYGGAVLPTPKASPLRERFSVDRPDKDALAARVCALLAPGQVVLIDAGSTNVAIAQQLPGDLGLTVITNAPHVALAASWHAATKVQVIGGQLGAGGGAVGADALMQVQRLRADVYLPGACAVDTETGVWALDAEEATLKRAMLACSSRVIVAATDDKLGARATWQVAALDEIDDLVLTTTAPPALARCFHDAGIAVHPALR				NA	NA	NA	NA	NA
BMS020_02570	1134	ybjJ_2		Inner membrane protein YbjJ	ATGCCCCTCACCTCCTCCGCGCGTGCGCAACAGCACGCCACCCGCGCCGCGTTCTTCATCCCCGGCTTCGCCGCCGCCATCTGGGCCACGCTGGTCCCCTTCGCCAAGGCCCGCACCGGCGTCGACGACGCCACGCTCGGCCTGGTGCTGCTGTGCCTGGGCGCCGGTTCGTTGCTGGCGATGCCGGCCGCCGGCCTGCTCGCCGCGCGGCTCGGCTGCCGGCCAGTCATGGCCGTCACCACTGCGCTGATCTGCCTGACCCTGCCGGCGCTGGCGCTGACCGGTTCGCCGTGGCTGCTCGGCGCGGTGCTGTTCGTCTTCGGCGCCGGCGTGGGTGCGATGGACTGCGCGATGAACCTGCAGGCGGTGGTGGTCGAGCGCGAGGCGCGGCGCGCGATGATGTCCGGCTTCCATGCCTACTACAGCATCGGCGGCTTCGTCGGTGCGGCGGCGATGACACTGCTGTTGTCGGCACGGCTGGCGCCGGCACTGGCGGCAGCGCTCGGCGTCGGCGCGATGCTGGCCATCGCCGGGCTGGCACTGCGCCACTGGCGCGGCGAGAGGATCGCGCAGGAGGGGCCGTTGCTGGCCTGGCCACGCGGCATCGTGTTGTTCATCAGCGTGCTGGCGTTCGTCGCGTTCCTTGCGGAAGGCGCGATGCTGGACTGGAGCGCGGTGTTCCTCAGCGACGTGCGTGCGGTGGCGCCGGCCACGGCCGGCATCGGCTACGTGGTGTTCGCGCTGACCATGACCGTGACCCGCCTGTTCGGCGACGCGGTGGTGGAGCGGCTCGGCCGGCACCGCGCGATCGTGCTCGGCGGCCTGCTCGGCTGCGTCGGCTTCCTCGTGCTGACCCTGGTCACGCCATGGCAGGCCTCGCTGCTCGGCTACGTGCTGCTCGGGCTGGGCTGCGCCAACATCGTGCCGGCGCTGTTCTCGCTGGCCGGCAACCAGACCCGCATGCCCGAGGGCATCGCGATCACCGCGGTGACCACGCTCGGCTACGCCGGCGTGCTGGCTGGGCCGGCACTGATCGGCTTCGCCGCGCACCAGATCGGCCTGGTCGGCGCCTTCGTCGGCGTCGCGGTCGCGCTGGTGCTGGTGGCCTGCTCGGTGCGCTGGTTGCGCACCTGA	MPLTSSARAQQHATRAAFFIPGFAAAIWATLVPFAKARTGVDDATLGLVLLCLGAGSLLAMPAAGLLAARLGCRPVMAVTTALICLTLPALALTGSPWLLGAVLFVFGAGVGAMDCAMNLQAVVVEREARRAMMSGFHAYYSIGGFVGAAAMTLLLSARLAPALAAALGVGAMLAIAGLALRHWRGERIAQEGPLLAWPRGIVLFISVLAFVAFLAEGAMLDWSAVFLSDVRAVAPATAGIGYVVFALTMTVTRLFGDAVVERLGRHRAIVLGGLLGCVGFLVLTLVTPWQASLLGYVLLGLGCANIVPALFSLAGNQTRMPEGIAITAVTTLGYAGVLAGPALIGFAAHQIGLVGAFVGVAVALVLVACSVRWLRT				NA	NA	NA	NA	NA
BMS020_02571	786	bdcA_1	COG1028	Cyclic-di-GMP-binding biofilm dispersal mediator protein	ATGTCGAACCAGATTTCCACTGCCGGCAACCAGGCCGGCTCCCGCCCGCTGGGCAACAAGATCGCGCTGGTGCAGGGCGGCTCGCGCGGCATCGGCGCGGCGATCGCACGTCGTCTGGCGCGCGACGGCGCAACCGTCGCGTTGACCTACGCCAGCTCGCCGGGGAAGGCCGCCGAGGTCGTGCGCGAGATCGAAGCCGCGGGTGGCCGCGCGGTGGCGATCCAGGCCGATGCTGCCGATGCCGCGCAGGTCGACGCGGCGGTGAAGCACGCCGTCGACGCATTCGGCCGCATCGACATCCTGGTCAACAACGCCGGCGTGCTGGCGCTGGGCAACGTCGCCGAGGCGCCGCTGGCAATCAGCGACATCGACCGCACGCTGGCGATCAACGTGCGCAGCGTGCTGGTCGCGGCGCAGGCCGCGGCGCCGCACATGGGCGAGGGCGGGCGCATCATCACCATCGGCAGCACCAACGCCGAGCGCATGCCGTTCCAGGGCGGCGCGCTGTATGCGGCCAGCAAGTCGGCGATCGTCGGCCTGACCAAGGGCCTGGCGCGCGACCTCGGCCCGCGCGGCATCACCGTCAACAACGTGCAGCCCGGCCCGATCGACACCGAGATGAACCCGGCCGACAGCGCATTCGCCTCCAGCCTGATCGGCCTGATGGCGTCGGGCCGCTACGGCCATGCCGGGGAAGTGGCGAGCTTCGTCGCCTATCTGGCCGGCCCGGAGGCGGGCTACATCACCGGCGCCAGCCTACTGATCGATGGGGGCTTCGCAGCGTGA	MSNQISTAGNQAGSRPLGNKIALVQGGSRGIGAAIARRLARDGATVALTYASSPGKAAEVVREIEAAGGRAVAIQADAADAAQVDAAVKHAVDAFGRIDILVNNAGVLALGNVAEAPLAISDIDRTLAINVRSVLVAAQAAAPHMGEGGRIITIGSTNAERMPFQGGALYAASKSAIVGLTKGLARDLGPRGITVNNVQPGPIDTEMNPADSAFASSLIGLMASGRYGHAGEVASFVAYLAGPEAGYITGASLLIDGGFAA	PGPT0003180_5969	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
BMS020_02572	936	pgrR_6		HTH-type transcriptional regulator PgrR	ATGGAAAGCCTGAGCAGCATCGAATGCTTCGTACGCAGTGCCGAGGCCGGCAGTTTCGCCGAGGCCGCGCGCCGGCTCGGGCTCACCGCGGCGGCGGTCGGGCGCAATGTCGCCAAACTGGAGACGCGCCTGGGCGTGCGGCTGTTCCAGCGCAGCACCCGCAGCCTCACCCTCACCGAGGCCGGCCAGCGCTTCCTCGACGAAGTCGGCGATGGCCTGGCGACGATCCAGAACGCGGTCGCCAATCTCGCCGATGCCGATGGCCAACCGGCGGGCACGCTCAAGGTCAGCATGGGCAACGCGTTCGGCCGCGAGCACATCGTGCCGCTGCTCGGCGCATTCCTGGCGCGCTATCCGGCGATCGTGCCGGACTGGCACTTCGACAACCGCGCGGTCGAGCTGATCGCCGAAGGATTCGATGCGGCGATCGGCGGCGGCTTCAAGCTGCCGCCCGGGTTGGTCGCACGCGAACTTGCACCGGCGCACATGGTGCTGGCCGCCGCGCCGGCCTACCTGGCCGACACGCCCGCGATCACGCATCCCGACCAGCTCAAGGACCACGCCGGCATCTTCATCCGCTCGCCGCAGACCGGCCGCATCCGGCCGTGGGCACTGGTGCGCGGCAAGCGCGCGCGCGATGACGAACAGCATCCGATCGACATGCGCGTGCGGCTAACGATGAATGATCCGGGCGCCGCGCTGGAAGCGGCCGAGCAAGGCCTGGGCATCGTCGTCGCCGCGATGCCCAATGCCTATCCGTATCTCGATAGCGGCCGCCTGCAGCGGGTGCTGCCGCAGTGGTATGCCGACGCCGGTGCGCTGTCGCTGTACTTCCCCGCGCAGAAGCTGCTGCCGGCCAAGACCCGTGCCTTCGTCGACTTCGTCGTCGCCCACTTCCGCAGCCAGCAGCTCGCACGGCGCTTCAGCGCGGTGTAG	MESLSSIECFVRSAEAGSFAEAARRLGLTAAAVGRNVAKLETRLGVRLFQRSTRSLTLTEAGQRFLDEVGDGLATIQNAVANLADADGQPAGTLKVSMGNAFGREHIVPLLGAFLARYPAIVPDWHFDNRAVELIAEGFDAAIGGGFKLPPGLVARELAPAHMVLAAAPAYLADTPAITHPDQLKDHAGIFIRSPQTGRIRPWALVRGKRARDDEQHPIDMRVRLTMNDPGAALEAAEQGLGIVVAAMPNAYPYLDSGRLQRVLPQWYADAGALSLYFPAQKLLPAKTRAFVDFVVAHFRSQQLARRFSAV				NA	NA	NA	NA	NA
BMS020_02573	276			hypothetical protein	ATGAAGAAGCTGTACGTCCTCGTCTTCGCCGGCTGCCTGCTCGGCATGAGCCAGCTCGCCGCCGCCGAAGTCGTCAACCTGACCAACAGCGCCGACGGCGCCAACCGCGATGCCGGCATCGCCGCGGTCAAGAAGAAGCTGTCCGACGCCTGCACCGAGCGCAAGGGCACGCCGGACGCAGGCTCGTTCGAAGTGGTCTACGAGAAGACCAGCACCAACCCGGATGTGCCCAAGCCGTACTACGTCGACGGCAAGCTCAAGTGCGATCTGCCGTAA	MKKLYVLVFAGCLLGMSQLAAAEVVNLTNSADGANRDAGIAAVKKKLSDACTERKGTPDAGSFEVVYEKTSTNPDVPKPYYVDGKLKCDLP				NA	NA	NA	NA	NA
BMS020_02574	849			hypothetical protein	ATGATTCGGAAGTGCATCGCCGCACGTACGCTGACCGCGCTGGTGGCGTGTTGGACCATTGCGGGCACGGCATGGGCGGAGGAACTCACCCGCATCGACGCGGGAGCTTGCAGTGCCGACGACGCCAGCATCAAGGCGCATCCCCTGCTGTATCCGGCAACATCGAAGGACGCGGGGACCAGGGGCGTCGTGGTGGCGGAGCTGGTACTGACCGCGGAGGCGCCCCCGGCCGCCGCGCCGGCCGGAGGCGATGCCGGCCGGGCCGACTACCGGGTGGGCGATCTGCACATCGTAAAGTCGGCACGCAACCGCGACCTGGACCGGGCGGTGTTGCAGGCGGTCGGGTCCTGGCGCTTCACCTGTCCGCCCGGCGCCGCTGGGAGTCCACCCCGTGTGCGGGTGGAGGTGACGCTGGATCCGGCATTGACGCCCATGGCGGCACCGACGCCACGCCCGGTGGTGTCGGCGTTTCCCGGTTGGTTAATGACCATGCTGACCTCGTCGCCGTTGGCGACGGTCGCGCGCGACGATGGGATGCTCGACGGCGCCGATACGGCGGCGATCAGGGCGCGCATCGAAGCCGACCCGACGTTCAAGAAGGACGGCATCCGCAAACCGTTCGACATGTACGCCAGATGGGATGACCAGGCCAAGCAGTCGGAGATCTGGTGGTTCCTGAAGCAGTCTGAGGGCCGCGCGGATGCGGTGGTGCTGATCAATGACAGCTACGGGCAGGGGCGCCGCGACTATGCTGCGCGCTGCACATCGGACAAAGCCGCGTGCGCGGCGTTCGAGCGCTGGCTCACGTCGAACATGGCCACCTGGTATCCGATGGCGGAGTGGAACTGA	MIRKCIAARTLTALVACWTIAGTAWAEELTRIDAGACSADDASIKAHPLLYPATSKDAGTRGVVVAELVLTAEAPPAAAPAGGDAGRADYRVGDLHIVKSARNRDLDRAVLQAVGSWRFTCPPGAAGSPPRVRVEVTLDPALTPMAAPTPRPVVSAFPGWLMTMLTSSPLATVARDDGMLDGADTAAIRARIEADPTFKKDGIRKPFDMYARWDDQAKQSEIWWFLKQSEGRADAVVLINDSYGQGRRDYAARCTSDKAACAAFERWLTSNMATWYPMAEWN				NA	NA	NA	NA	NA
BMS020_02575	651			hypothetical protein	ATGTCGTACAAGACCCTGCTGTTGCTGCTGGCCTGCGCACTTGGCGCGGCCCTGCCCGCTGCCGCCAAGGAGATCATCAGCACGAAGATCGCCGCGGAGACGAAGATCAATCCGCTGCTGATCCTCTCGACCCGGACCTTCGGTTCGTGCGCCCACCTCGCACCGGGAGCGAAGCCACGGCCTGCCGCCGATACGTTCCATCAGCGCTGCATGGAACTGCCGGTCGCGCTGGCCGCGCTGCTGAAGGAGCGCGGTTTCGATGTCGTGCTCGCGTCGTTCGATCCGGACGAACAGATGGCGGACGATGCGTACTGGACCGCGAGCGCCGCATGGGTCAAGGAGCAGCAGCGTGCGCACCAGGACCGCTATGTGCTCAAGTACGACGGCCTGCGCGAGGACCTCAGCAGTTCGATTCTGCTGATGTCCCTGTACGCGCCCGGTGGCGAGACGCGTGAGCGCCTTGGTTCGGTGAACCTGCAGCGCATGCATTGGCAGAGCGTCCGCTATGCCGGCATGTCGCCATCGACCATCCTGCGCCCGCTGGAGGATGTCGTGAACATCCTGGCCAACACCATGGATGCGCGCTGCGCATCGATGGGCAAGTTCAAGGGCTGCGGGGACAGGGCGACGCTGACGGAAATCGTGAAATAG	MSYKTLLLLLACALGAALPAAAKEIISTKIAAETKINPLLILSTRTFGSCAHLAPGAKPRPAADTFHQRCMELPVALAALLKERGFDVVLASFDPDEQMADDAYWTASAAWVKEQQRAHQDRYVLKYDGLREDLSSSILLMSLYAPGGETRERLGSVNLQRMHWQSVRYAGMSPSTILRPLEDVVNILANTMDARCASMGKFKGCGDRATLTEIVK				NA	NA	NA	NA	NA
BMS020_02576	597			hypothetical protein	ATGAAGTCGTTCGTTCTCCCCATGGCGATCGCCATGGGCGCCGCCGCCTGCGCCCCGTCATCGGTGGTGCTGGTCAGGGAGCCGCCGCCGGACGTGCCGGCCGCCACGTTGGTCAACAAGCTGCATCGCGCAGGCGGCCGCCACGAATCGATCGAGGTCTCGATCGCCGGCGGCCAGGAATGCCCGTTGATCCCGAAGGGACGCAATCCGGTCTACCGCACGCTGTACTCGATGCGTGAGGACGACCTCGGCTTGCCGCAGCGCATGCGGGTGGCAGCGATGCAGCCGCTCCGCCTCTACTACTTCGAAGGCGCAGCCGGCGGCCGGACATGCGAGATCGTCGCCGATACGGTGCTGGTGCCGGGCCGCACCTACGAGGTACGCGGCGGCTTCACCTACAAGGACGGGCCGATTCCGATCGTGACCGGCACGCGCTCGTGCAGGTTGGAACTGGTCGACATGACGACCAATCGGCCAGTGCCGTTGCTGCCGCGGCAATCGGAACCGATCTGTGAAGGCCGACTCGGCGCAATCGCGCGGGCGATGCAGGGGCTGGTCGTGGGCAAGCCAACCATATCGGGCGACACGCTGCCATAG	MKSFVLPMAIAMGAAACAPSSVVLVREPPPDVPAATLVNKLHRAGGRHESIEVSIAGGQECPLIPKGRNPVYRTLYSMREDDLGLPQRMRVAAMQPLRLYYFEGAAGGRTCEIVADTVLVPGRTYEVRGGFTYKDGPIPIVTGTRSCRLELVDMTTNRPVPLLPRQSEPICEGRLGAIARAMQGLVVGKPTISGDTLP				NA	NA	NA	NA	NA
BMS020_02577	1380	yjjJ		Toxin YjjJ	ATGCCAGCCACCATCACCACGCCTGATCGCCTGATTCAGCTGCTCCGTACCAAGGGGCCGATGACCGGTGCTGCGCTGGCGGCCGAGCTGGGGGTGAGCCGTCCGACGCTGTCGCGTCTGGTGTCGGCGGCGGGAGATCGGGTGCTGCGTTACGGGAGCGCGCGGGCGACGGCTTATGCGGCGACGGGCGAGGTGCGCGGCGAGCGGCAGTGGCCGATCTACCGCATCGATGAGGATGCCCGCGTCAGCCAGTTGGGCACGTTGCTGGCGCTGCATGGCGATGGCTTCTTCGTCACGTTGGACCGGCCCAGTTCCTCGCTGCTTCACCCGCCGCTGGATTCGGGCGTGTTCGCGTCGCTTCCCTGGTTCCTGGACGACCAGCGGCCGCAGGGATTCCTCGGCCGCAACCTGGCGCGCCGCATCGCCGGCCGCCTTGGGCTTGCCGAGGACATCAAGGTATGGAGCGCGCGGGACAATCTGGTGGCGATCCTGGCCGAGGGATACGACCAGCTGGGCAATCTGGTGATTGGCGACCAGGCATTGAAGGCCGCGCTGGATGCCATCGCGGCGCCGTTGGTCATCGGGTTGGACGGAAGGGCGGACGAATACCCGCAGAGGGCCGACGCGGCGCTGCGCGGCGACGATGTGGGCTCGTCCGCGGCCGGCGAGCAGCCCAAGTTCACCGCGGTGCTGGCGGCCGATGAAGGCCCGCGCCCGGTCATCGTGAAGTTCAGCGCCATGACCGACACCGCCGTGGGCGCGCGGTGGGCGGACCTGCTGCGCATGGAGCAGCTTGCAGGCGTGGTGCTCAACGAACACGGGATCGCCGCTGCGCATTCGCAACTGCATGCGTTCGGCGGGCGCATGTTCCTCGAATCCATGCGCTTCGACCGCTCGCCGTCCTTGGGCAGGCGCGGGTTCGTGTCGTTGCTGTCGCTCGACAGTGCCTTCTACGCCGATGACAGGTACAGGAGCTGGCGGGCGCTGGCACCACTGCTGGTGCGTGATGGCTGGTTGTCGGCGGAACACGGGCGGCAGCTGGAGGTCATCCACTGGTTCGGCGTGTTGATCGGCAACACCGACATGCACTTCGGCAACGTGGGGATGTTCCTGGATACCTCGATGCCGCTGACGCTCGCCCCCGTCTACGACATGCTGCCGATGGTGCTGCGCCCGGCAGCAAGCGGAGAGGTCATCGACCGCGAGGTGGACGTGCAGCCGCCGACTGCCGGCCAGTTCGACCAGTGGCGGCAAGCGGCGGACATGGCGCTGGTGTTCTGGACGCGGGTGGTGGGGGATACCGCCATCGCTGCTGCCGTGCGCGGCATCGGTGGCCGCGCGCATCGGAACATCGCGCGTGTGCGCGACCGCCTGGTCTGA	MPATITTPDRLIQLLRTKGPMTGAALAAELGVSRPTLSRLVSAAGDRVLRYGSARATAYAATGEVRGERQWPIYRIDEDARVSQLGTLLALHGDGFFVTLDRPSSSLLHPPLDSGVFASLPWFLDDQRPQGFLGRNLARRIAGRLGLAEDIKVWSARDNLVAILAEGYDQLGNLVIGDQALKAALDAIAAPLVIGLDGRADEYPQRADAALRGDDVGSSAAGEQPKFTAVLAADEGPRPVIVKFSAMTDTAVGARWADLLRMEQLAGVVLNEHGIAAAHSQLHAFGGRMFLESMRFDRSPSLGRRGFVSLLSLDSAFYADDRYRSWRALAPLLVRDGWLSAEHGRQLEVIHWFGVLIGNTDMHFGNVGMFLDTSMPLTLAPVYDMLPMVLRPAASGEVIDREVDVQPPTAGQFDQWRQAADMALVFWTRVVGDTAIAAAVRGIGGRAHRNIARVRDRLV				NA	NA	NA	NA	NA
BMS020_02578	486			hypothetical protein	ATGTCTCACCACACCCAAGCCACATCCGCGCCCAGCGCGTCGAAGTCCGCCGATCGCTTGATCTTCGGCCTCACCGTCACCCAGCTGGACGACCTCCGCCGTTACATCTCCTTCCTTGTCGCCGACGGCGACATGCTCATGAATGCCCCTAACCCGTGCGACGCCAGGACCGTGCCCACGCTCGGCGAGAACATCTACGAAACGGCGCTGGCCACGCGCGAGATCATCAACGCGCTCGAAGAGCAGCGTCTGAGCCCACCGCCCGGCATCGACGACGCGGCCAGCCCCGCCGCGTTGTTCATCAGCCACATGCATACCCAGTTACGCGAGGTCGACACCATCGCCCGGTTGCTGCGCACGGCCCTCGACATGCCAGACGGCGACCGCGCGGCGCCCGGCATCAGCCTCGCGCTGTCCGAGATGCTGGGCAGGCTGGTCGAGCAGGTGGAAGCCCATTCCGGCGCGCAGGCGGGCGGGGCGGACTGA	MSHHTQATSAPSASKSADRLIFGLTVTQLDDLRRYISFLVADGDMLMNAPNPCDARTVPTLGENIYETALATREIINALEEQRLSPPPGIDDAASPAALFISHMHTQLREVDTIARLLRTALDMPDGDRAAPGISLALSEMLGRLVEQVEAHSGAQAGGAD				NA	NA	NA	NA	NA
BMS020_02580	549			hypothetical protein	ATGGGACGCATCAAGGGAAAAAGCGGGTTCGATACCTTGGTCGCGCTGCCGTGGCCACTGGGCATCGTGGCCGGCATCGCCGGATTTCTTGTCGTGCGCTACGGCGTGCTGTGGTGGCTGTCGCACCACGGCGGCCTGCTGGTGCAGGGATTCGCCCGACAATCAGCCTCCACGTTCGCGCCGCTGGCGTGGATGCTGCTCGCCGTCTGCTGGCTGGCGGCACTGATCTCCCACCTGGGCGCGCGCCGCAACCGCCGCTTCCTCGATACACGCACCTCGCTGGAAAGCCTGGCCGCCGGCGGCTGGCGCCAGTTCGAGCAACTGGTGGGCGAAGCCTTCCGCCGCCAGGGCTACACCGTCGAACAGACCGGCCTGGGCGGCCCCGATGGCGGCATCGACCTGATCCTGCGCGGCGACGGCCAACGCACGCTGGTGCAGTGCAAGCAGTGGAAGCGCCAGCAGGTGGGCGTCAGCGTGGGTGGTGAAGATCGCCTGCATCGGCAAGTACACTCCAGACTCTGTGCGCCTCGTCCAGGGCAAGCCGACTGA	MGRIKGKSGFDTLVALPWPLGIVAGIAGFLVVRYGVLWWLSHHGGLLVQGFARQSASTFAPLAWMLLAVCWLAALISHLGARRNRRFLDTRTSLESLAAGGWRQFEQLVGEAFRRQGYTVEQTGLGGPDGGIDLILRGDGQRTLVQCKQWKRQQVGVSVGGEDRLHRQVHSRLCAPRPGQAD	PGPT0027250_1300	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_IV_R-M_SYSTEM,PGPT0027250-mrr-K07448	NA	NA
BMS020_02581	1089			hypothetical protein	ATGAACCAAGACAGTACCTCGAGAGACATAGAAGCCGAAATTGACTCAAAGATCGGGGAGGTCAGAGCTGAATCACTCGATTTTAGCGTCGGCGAAATTGCATCTCTTCATGCACAAAAAGAACTCATCATTCAACCTGAATATCAGCGACTCTTTCGCTGGTCTCCTGAGCAGAAGTCGAGACTTGTGGAGTCGGTTTTGCTCGAGCTACCGATCCCGCAGATATTTGTCATCGAGAATACCGACGGGGTGTTTGAGTTAATTGACGGGCTTCAACGCGTCAGCTCTCTGCTGCAATTCATTCAGCCAGAACTATTGGAACTGGAGGATTTCAGACTGGTGGGGTGTGATGTAATCCCCTCACTTAATGGTTACCGATTTGCCGATTTGCCGATGAGCCTTCGCCTTCGATTAAAGCGATCAGCCCTGAAAACCGTAGTCATTAAGCGCCAAAGCAGATCATTTCTTCGGTACGAGATGTTCAAGCGACTTAATACTGGCGGGTCTGCACTTGCTCCTCAGGAAATTCGCAACTGCTCCGTGCGAATGCTAGGCGACTCCGGAATAGAGTTCTATGAGAATCTAGTCCGCCTATCTGCAAATCCGAGCTTTCAAGCAACCACAAGCACTCTTTCGCAAGTCGACTTTGAGCAGAAAACAAACGAAGAGCTAGTTCTCAGATTTTTCGCAGCCAAGAACTACAGGCCTCAGTTTAAAGGAAGCGTTCGAGATTGGCTAGATGACTATCTAGAATCAATCCTACTCGGCATAGAGGATTTTGACTACACCACGGAAAATGAAGCATTTACTCAAACTTTCCAGTTGGCTTCCCAACTACTCGGCGAAACTGCATTTGTGAAATTTAGAAATGGCACGCCGATCGGCGGTCTAGCGCCGGCGTACTACGAGGCCGTATCTATTGGCATTTATGAATCAGCAGTGTGCAATAAGCGCATGCCGCCAGAAGAATTTAAGGATAACTTGATTAATTTGGTTCAATCACCCCAATTTCGCGAAGTCACCGGACCAGGCGCAAATAGCAAGACGAAGTTAGAGAGGCGGATATCTATGGTTGGCGATTTAATCTAA	MNQDSTSRDIEAEIDSKIGEVRAESLDFSVGEIASLHAQKELIIQPEYQRLFRWSPEQKSRLVESVLLELPIPQIFVIENTDGVFELIDGLQRVSSLLQFIQPELLELEDFRLVGCDVIPSLNGYRFADLPMSLRLRLKRSALKTVVIKRQSRSFLRYEMFKRLNTGGSALAPQEIRNCSVRMLGDSGIEFYENLVRLSANPSFQATTSTLSQVDFEQKTNEELVLRFFAAKNYRPQFKGSVRDWLDDYLESILLGIEDFDYTTENEAFTQTFQLASQLLGETAFVKFRNGTPIGGLAPAYYEAVSIGIYESAVCNKRMPPEEFKDNLINLVQSPQFREVTGPGANSKTKLERRISMVGDLI				NA	NA	NA	NA	NA
BMS020_02582	648			hypothetical protein	ATGAGCACTTGGACAGAGCAAATAGAAGGCGATCTGCGATGGCGCGAAGTCGAGCTCGCGAGCCTAAAAGCAATCTGCGCCAAGCTTGATAACAAAGGAGATTCCTACAGAGCCATGCTGAGAGCTCTATGGGCATTAATGTACGCGCATTATGAGGGATTTCACAAGTTCTGCTGGGATCTCCTCTTGGAGGCAATCGAGGCTGAACGCATTCTTCGCGGCGCTGCTTCCCCTAATTTCATTAGATTGTCGCTCAGCAAGGCCTTTCAAGAGTTACGAGGAAATTTAGGAGATGAATCGCTCTGGGCTTTTGCAAATAGCGGATTCGACATACATATGTCTGAGTTCGTGTCGTTTCCGGAAAAGCTGGAGACAAAGTCAAACCTATGGCCGAATGTGTCTACTGAAAATAATCTAAAGATAGGCATTTGCTGCGAATCAGTCGAACGCCACAGGATAAAACTAAAGAGCATAGTTAGTCGCAGAAATGAAATAGCGCACGGGAAGAAACTCATTATATCCAAGCTCTCCGAATACAAAGATTATGAAGATGCAGCTTTCCTGGTTATGCATGACCTAGCTGTGCACGTTATTGATTGTCTAGACAAGCAGAAATATCTCGCTTTCCCTGCTCTTCCGCCCCCTTAG	MSTWTEQIEGDLRWREVELASLKAICAKLDNKGDSYRAMLRALWALMYAHYEGFHKFCWDLLLEAIEAERILRGAASPNFIRLSLSKAFQELRGNLGDESLWAFANSGFDIHMSEFVSFPEKLETKSNLWPNVSTENNLKIGICCESVERHRIKLKSIVSRRNEIAHGKKLIISKLSEYKDYEDAAFLVMHDLAVHVIDCLDKQKYLAFPALPPP				NA	NA	NA	NA	NA
BMS020_02583	762			hypothetical protein	ATGGCCAGACTCCCGCGCATCGACCTTCCGGGCATCCCCCAGCACATCGTCCAGCGCGGGAACAATCGCCTGCCATGCTTTCTGGATGACGGCGATCGCCTTCGATACCTGCATCTGCTCCACGATGCCCTGCACGCCACCGGATGCCTGCTTCATGCCTATGTGTTGATGGACAATCACGTCCACCTGCTCGCCACGCCACCCGCGGCTGGGCGGACGGGACGGATGATGCAGCGACTCGGCCGCAGCTACGTGTCCCTGTTCAATGGCCGGCACGGTCGCACCGGCACGCTGTGGGAGGGACGCTACAAGGCCTGCGTGGTGGACACTGCCGATTACGTGCTGCGCTGCTATCGCTATATCGAACTCAACCCGGTGCGGGCACGGATGACCGACGATCCGGCTGCCTATCGCTGGTCCAGCTGCCTGGCCAACCTTGGCCAGCGCGAGCACTCGGCATTGACACCACACCCCTGCTGGCTGGCCCTTGGCAATGACGCCGCGGAGCGGTCCCGGGCATACCGCGACCTGCTCGACGAGGCGCTACCCGACGAACTCGTCGCCGACATCCGCCTTCATCTCCAGCAGCAACGCGCCCTGGGCCATGACGCCTTTCGCGCCATGGTTGAACCGCTTCGCTGGCGCCAGGCCCGCCCATCGGCCGCGCAGACCCATCGCTACCAACCCATAGGTAACCTGACCCCCGTTACTCCCCCAGAAGTACGGGGCCGCCTACAAAGAAGATGTCGCTTTGCATCGTGA	MARLPRIDLPGIPQHIVQRGNNRLPCFLDDGDRLRYLHLLHDALHATGCLLHAYVLMDNHVHLLATPPAAGRTGRMMQRLGRSYVSLFNGRHGRTGTLWEGRYKACVVDTADYVLRCYRYIELNPVRARMTDDPAAYRWSSCLANLGQREHSALTPHPCWLALGNDAAERSRAYRDLLDEALPDELVADIRLHLQQQRALGHDAFRAMVEPLRWRQARPSAAQTHRYQPIGNLTPVTPPEVRGRLQRRCRFAS	PGPT0030655_938	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030655-yafM|rayT|tnpA-K07491	NA	NA
BMS020_02584	366			hypothetical protein	ATGGTGGCATTCGGCGCCTCGCTGACGCTATTTTTTTCTGCCTGCATGATCCGTGCTTTCGGTGTGACCATTACGATCACCCCGAACGGCGTCAGTCGTCGATCGCCGTTCGGTGAATCGCGCGTCCTGTGGAAAGAATTGGAGATGATCGAGATCGGTCCGTCTTGCCGTACTTTGCTGCTATCTGGCGCCGGCCGGCAAGTATGGATGTATCGTCCGACGCTCTCCGTTGCTGCCTGGTTCCGCACACGATACGAGGAGGATGCCGAGGAACCATTACTTGAGTACTTGTTTGAACTCCTCGAGCAGCACGCGATACCGAGTCGTAGTGGTTGGCTCACGCCCTTCAAGACCTCCCACGGGTAA	MVAFGASLTLFFSACMIRAFGVTITITPNGVSRRSPFGESRVLWKELEMIEIGPSCRTLLLSGAGRQVWMYRPTLSVAAWFRTRYEEDAEEPLLEYLFELLEQHAIPSRSGWLTPFKTSHG				NA	NA	NA	NA	NA
BMS020_02585	354			hypothetical protein	ATGATCAGATTCATTGCAGGGATGCTGTGCATCGTCGCGCTGCCGGCCGCGGCGCAGTCGGTCTATAAGTGCTCGGACGGAAAATCCGGTTCCGTGTACCAATCCACGCCGTGCGCCGCAGGCGCGGAGCAGAAGCGCTATCACGCCTCCAGCGCGCCGGCACAAGCCGCTTCCAGCAACGCGGCCGAGCCCAGCGTCGGCGCGCAGATGATCACGTTCACCGGACAGCCCAGCCCAGAAGCCTGTGCGCGTGCCAAGCACGTGCGCGACCAGGCCCAAGCCGATGCGTCGATGAAAGGCGAGCGCGAGTTCCACGAGACGCTGCAGCGCAATGTGGCCAACGCATGTAAGTAG	MIRFIAGMLCIVALPAAAQSVYKCSDGKSGSVYQSTPCAAGAEQKRYHASSAPAQAASSNAAEPSVGAQMITFTGQPSPEACARAKHVRDQAQADASMKGEREFHETLQRNVANACK				NA	NA	NA	NA	NA
BMS020_02586	348			hypothetical protein	ATGATCTCAGTCGAAACCCTGCAGGAGTTCTTCTCCGACACCCGGAAGAAGAATGCCGATGCCGGCGCGTCGTGGAGCATCGACGATGTCTGCCGCTGGTCGTTCTTCTTCGTCGACGAAGATGAAGATCTGCTTGTACCGGTGGCCAAGCACCTGGAGTCGCTGGGCTACGCGGTCATCGACATCACCGAGCCCGACGATGACGAGGACCCGTTCTTCTACCTGCAGGTGGACAAGGTGGAGCGGCACACGCCCGAATCGCTGCAGGCCCGGGTGCAGGAGCTGTACGCCCTCGCCGAGCAGTTCGGCATCGCCGACTACGACGGCATGAACGTGGTCGCGGCCTGA	MISVETLQEFFSDTRKKNADAGASWSIDDVCRWSFFFVDEDEDLLVPVAKHLESLGYAVIDITEPDDDEDPFFYLQVDKVERHTPESLQARVQELYALAEQFGIADYDGMNVVAA				NA	NA	NA	NA	NA
BMS020_02587	690			hypothetical protein	GTGGGATTGGACCTATCGGTCGGGTTGATCGCCGACCTCAGAAGCAACGATTCGGAAGGCGCGGAGCACTTCAGCACGGCGCTGTCCGCGCTGGATCCGCTGCTGAAGAGCGCGGGACTGCTACCGCATGTGGAGCCCGACGAGTGCGCGTGCTGGAGCGCGCAGATGTACGGCTATTCCGGGCTGCATTACCTCCGCCGCATCGCGGCCTATGTGGATGCGGGCCAGCCGCTGCCGCCGCCCGGCGACAACGCCAGCTCGGAGGATCCGCTGCTGGCGGCGTACTACGATGCGGTCGCGGGCAAGGCGCCGGGCCTGCTGCAGCGGATCACCAGGCGCTCGCCGCGCTTCTCGCGGTCGTTCGACCACCTGCTTGTGCATAGCGATGCCGAGGGGTTCTACCTGCCGCAGGACTTCCGGCACGTGCTGTTTGCCGAAGACGAAGCGGTGCCCGGTGGCATGGTGGGCTCGGTGCCGCGCCTGCTTGCCGAGCTCGAACGCCTCGCCGCGCAACTCGCGATTCCGGACGATCTGCACGCCCAATCGGAGGACCTGTGGGAGGCCGCGGAGGCACAGGGCGAAGGCGTCGAGCGCTGGCAGCAGTACGGAATCGAAAGCTTTTGCTGTGTGGTCCTGCGCGAGGCCTGCCGTAGGAGCCTGGCGACCGGCGCGGCGATCATCTTCTGCTGA	MGLDLSVGLIADLRSNDSEGAEHFSTALSALDPLLKSAGLLPHVEPDECACWSAQMYGYSGLHYLRRIAAYVDAGQPLPPPGDNASSEDPLLAAYYDAVAGKAPGLLQRITRRSPRFSRSFDHLLVHSDAEGFYLPQDFRHVLFAEDEAVPGGMVGSVPRLLAELERLAAQLAIPDDLHAQSEDLWEAAEAQGEGVERWQQYGIESFCCVVLREACRRSLATGAAIIFC				NA	NA	NA	NA	NA
BMS020_02588	576			hypothetical protein	ATGAATCAACCGGACCCCATTGCGCTGGCGAGCAAGGCTGCTGCTCTGATGGAACAGTTCGAGCGCCGCTGCGCTGAACTGGAGCAGCAACAACGGCAGCTTGCCCAGCAGCTGCAGCAGGTGGCGCAGTCATTGCCCGCCGTCGTGGCGCGATCAGCGCAGGAAACCCTGCAGCGCGTTCCAGACACCTTGATCGGCCGCGTGCAGACCAGCCTCGATCCACCCGTGGCGGGCTTTGAGAAGCGGCTTCAGCATGCCGGCACGTCGCTCGGCGACGGCGCTCAGGCCCTGGCCGCTCAGCTCAAGCGCATGGAGCGTCTGCAGCACAGCCTGCTGTGGAAGATGGCGGCCGTTACCGGAGCCAGCCTGTTGCTGTTGCTGGCCGGCGGTGCCTGGCTGCTGGGGCACTACCGGCAGGAGATCAGCGACAACCAGGTGCGTGCCGAACTGATGCGTGCCTACAGCCAGGCCGACGTGGCCATGTGCGAGGGCCGCTTGTGCGCCAATGTCGACGCCAAAGGCCCGGTCTATGGAGCGCACGGCCAGTATCGGCCGGTGCGCGCCCGCGCCCAGTGA	MNQPDPIALASKAAALMEQFERRCAELEQQQRQLAQQLQQVAQSLPAVVARSAQETLQRVPDTLIGRVQTSLDPPVAGFEKRLQHAGTSLGDGAQALAAQLKRMERLQHSLLWKMAAVTGASLLLLLAGGAWLLGHYRQEISDNQVRAELMRAYSQADVAMCEGRLCANVDAKGPVYGAHGQYRPVRARAQ				NA	NA	NA	NA	NA
BMS020_02589	1410			hypothetical protein	ATGAAAATTGACAGCCAGCAATATGCCAATCTTGCCGATTTTTGTTATGGGCGGGATCAAAAAGGCAACAATGACATCGATCTGAAGAGTCTGGTTGGTAAGACGGTCGAGATGGCCGATGGGGTCAAGTACCGGGTTCTGGCGAGTGTTGATAAGCCTTCGGGATACCAGGGTACGATCTTTCAGCGGGAAGATTCGCGAGAAATCGTTGTCGCTCACCGGGGTACAGAGTTTGGGCGTGAGCCTATCAAGGACGGGGTGCTGACCGATGGCGGAATGGTGCTTTCGAGGCTCAATCAACAGGCACAGGATGCGATCGATCTAACACGCGAGGCTTTGACTGCAGCCAAAGATGAGGGGAACGCATCCGGAAAACAGCCCGAAGTCACAGTAACCGGCCACTCCCTAGGCGGTACCCTGGCGCAGATCACCGCGCATCACTTCGATCTGCGCGGCGAGACCTTCAATCCCTATGGCGCGGCCAGCCTGAACTATCAGATTCCGAACGACCCTACCGCCAGGGTCATCAATCATGTGATGGCGGCGGATGTGGTCAGTTCCGCCAGTCCGCACTACGGCGAGGTGCGCGTCTATGCGCAGCCTTCGGAAATCAGCCACCTGCATATGGCCGGCTACCGCAACGGCGTCATCGCCGATGCGCTGACCCCCGACCATCCGGTGCTGGGCTCGGTGAACACCTCGCACATGATGCACAACTTCCTCAACATCAACGGGGACTACAAGCAGGATGTCTCGGTGTTGGGTGATCCAGCCGCGCGTAGCCGCGCCAGCGATAACGCCCACATGATCGAGGGCTATCGCAGCGATGTCCGCGCCATTCGCACCGTGGCCAGTTTGGGCGGCGATGTGGCCGACGTCATGCGCGGCGGGGTGCTGAATCCGGCGCGGGCGTACGAGCACATCAATCGCGCGGTACAGGAACCGCTGCCCGCAGGCGAACCGGCCAGGCGCGAAGCACTGCACGGTCACGCGGCCACCGAATCCGCGCCTGGCAATCGCCCGGCGGCCCCGACCTGGTCCGAGCAGATGCGGCAGATGCATGCCGCGCCTGAAGCCAGTCAAAGACCGCAGGAATGGCGGGTGCCGATGCGCGTGCCCAACGGCGACGACGCGCAGTCGGCCAAGATCCCGACAGGCGCATCGCTGAAACATGACCCCGCCGCATTCCTGGACAGCATGTTGTCCGCCGCCAAGAGCGATGACCGCGCCGCGTTCCGCCAGATGACCCAGGAACTGGCGGCGGCCCCGGCAGGCCGCGCCCTGCGCAACGAAGCCATCGAGACGGTGAACCAGCAGGAGCACCAGACGATGCAGCACGCCATGCAGGCACAGCGCCAGCAAACAGAGATGCAGCAGGAATCGATGCGCATGGGTGGCCGCAGCCTCTAA	MKIDSQQYANLADFCYGRDQKGNNDIDLKSLVGKTVEMADGVKYRVLASVDKPSGYQGTIFQREDSREIVVAHRGTEFGREPIKDGVLTDGGMVLSRLNQQAQDAIDLTREALTAAKDEGNASGKQPEVTVTGHSLGGTLAQITAHHFDLRGETFNPYGAASLNYQIPNDPTARVINHVMAADVVSSASPHYGEVRVYAQPSEISHLHMAGYRNGVIADALTPDHPVLGSVNTSHMMHNFLNINGDYKQDVSVLGDPAARSRASDNAHMIEGYRSDVRAIRTVASLGGDVADVMRGGVLNPARAYEHINRAVQEPLPAGEPARREALHGHAATESAPGNRPAAPTWSEQMRQMHAAPEASQRPQEWRVPMRVPNGDDAQSAKIPTGASLKHDPAAFLDSMLSAAKSDDRAAFRQMTQELAAAPAGRALRNEAIETVNQQEHQTMQHAMQAQRQQTEMQQESMRMGGRSL				NA	NA	NA	NA	NA
BMS020_02590	594			hypothetical protein	ATGAATGCCGTGAATTCCTCGTCCGCCGACCATGGCGACGCCCCTGCGTCCTATCGCAATCCGGCGCCGAAAGAGGCCTATACGATCACCATGACCTTGAACGGCGCGCCCGGGCCATTCGCATTCATGAAAGGCCTGGCGCAATACGACGTGGTCAACAGGGAATGCCTCAGCCCGCCGAAGGACAATCCGGGTGGCCACACGGCACCGGTGCCGACCGATGATGTCGAGATCCCGCTGCGGAAGATTTCCGACACCGAGTATGTGGCCACGGTCTATGCCGACCAGATGCTCGACCAAGACTTCGCCGGGCGCGGTCTCTGCCATTGGAAGCTGATCCAGTTCCGGGTGCATATGAAGGCGACGGGGGATCACGCAGAAACGTTATTTATGCCAAGTATCCCGGACGACGAACTGTTTTCAGAATCTTCGAAGACGGTCTACTTCAACAAGATCTCCTATCCGCGAGGAGAGATGGAGAACTATCCAAATATTGGATTTTCCAGTCGATCGGATTTTTCTGATTGGATAAAGGACGATCAGCTCTTCACCGTTGAATTTGTTGCCCAAAAGGATATGGGACATGAAAATTGA	MNAVNSSSADHGDAPASYRNPAPKEAYTITMTLNGAPGPFAFMKGLAQYDVVNRECLSPPKDNPGGHTAPVPTDDVEIPLRKISDTEYVATVYADQMLDQDFAGRGLCHWKLIQFRVHMKATGDHAETLFMPSIPDDELFSESSKTVYFNKISYPRGEMENYPNIGFSSRSDFSDWIKDDQLFTVEFVAQKDMGHEN				NA	NA	NA	NA	NA
BMS020_02591	2016	recD_2	COG0507	RecBCD enzyme subunit RecD	ATGAGTGTGTTCGATGACCTGCAACGCAGCGGCAGCGTGCGTGCGCTCGATGCCGCGTTCGCGCAGAGCCTGCAACGCCTGCAGTCCGATACCGACCCGAGCGTGCTCGCCGCCGCCGCGCTCGCCAGCCTGTCGGTGGCCAGCGGCCACGCCGCGTTCGATCCGGCGCGTGCGGCGCTGTTGACCGAATCGCACGACGGCGCGCCGCCGGCGTTGCCGGATGCGCATGACTGGCAACGCACGCTGGCCGCTTCGCGCTGGGTCGACCAACCGCAGCCGAAGGACGCCGCAGGGCTCGACAGACCGCTGGTGCTCGAACACGGCCTGCTCTACCTGCGCCGCTACCGCGAATACGAACGCCGCCTTGCGCTCGGCCTGCAGCGGCTGGCCGCGCAACCGATGCCTGCGCTCGATGCCGCCGCGCTGGCGCCGCTGTTCTCCACGCTGTTCCCGCAGGGCGCCAGTGGTGAAGACCATCAGGCCTGGGCCGCTGCGCTCGCGTTGCGTCGCGCGCTGCTGCTGGTCACTGGCGGCCCCGGCACCGGCAAGACCACCACCATCGCCCGGCTGCTGCTGCTGTGCATCGCCCAGGCGCAGCTGGCCGGCACTCCCGCGCCGCGCATCGCGTTGGCCGCGCCGACCGGCCGCGCCGCCGAGCGCATGGCCGAAAGCCTGCGCGCCGCGGTCGCCCGCGCGGTCGCCGACGGCGTGCAACTGCCACCAGCCCCGCAGCATCAAGACACCTCCCCTCTCCCGCAAGCGGGAGAGGGTGCCCAAAGGGCGGGTGAGGGCAGCAGCCCCAGCGCCTGGGAATCCCACCTCCCCAAAGGCGCCACCACCCTGCATCGGCTGCTCGGCGTGATTCCCGACGCCCCGCAGTTCCGCCACAACGCCGACAACCCGCTGCCGTTCGACCTGATCGTCGTCGACGAAGCCTCGATGGTCGACCTGCCACTGATGTGCAAGCTGGTCGAAGCCGTTGCCGACGGCACCCAGCTGATCCTGCTCGGCGATGCCGACCAGCTGCCCTCGGTCGAAGCCGGCGATGTGCTCGCCGCGATCCTGCAGGCCGCCGGCCCCGGCGATGCACTGCCCAGCGACGAAGCCGTCACGCTGCAGCCGTTGCTGGGCAACGCCCCCAGCAGCAACACGCAGGGCGGTCTGTCCGGCAATCGCATCCACTTGCGCCGCGGCTACCGCCAGGCCGACGACTTCGCGCTCGCCCCGTTGGCCGACGCCGTGCGCGCAGGCGACGCAGAGCAGACCATCGCACTGCTGCGCGCCAACACACTCGCCGGCGTGCACTTCCACGACAACGCCGACGACCCGCTCGCCGCGCATCGCGATGCGCTACTCACGCACTGGCGCGCACTGGCCGACGCGGATACTCCTGCGCAGGCGCTGCGCGATGCCGGCCGCCTGCGCCTGCTCACCGCGGTGCGCAACGGCCCGCAAGGCGCACGCACGCTCAACGCCCGCATCGAACAACTGCTCGCCGACACCGGCCACGGCGGCCGCCGCCTCGGCGCCGCCACGCCGTGGTTCCATGGCCGGCTGCTGCTGGTCACCGAGAACAGCTACCGCCACGGCCTGTTCAACGGCGACGTTGGTATCTGCCTACGTGACGCGCAAGGCACCCTGGTCGCCTGGTTCGAAGGCGAGGGCGAGGACGGCGTGCGCGGCTTCCATCCCGCCGCATTGCCCGCGCACGAAAGCGCGTTCGCGATGACCGTGCACAAGGCCCAGGGTAGCGAGTTCGACACCGTCTGGCTGCAACTGCCCGCCCGCGACGCCCGCGTCCTCAGCCGCGAGCTGGTCTACACCGGCATCACCCGCGCCCGTAAAGCGCTGCATCTGGCAGGCAACGAAGCGGTGCTGCGTGCGGCGCTGGCACGGCATGCAGCGCGGGTCTCAGGGCTGGGATGGAGGCTGGGAGAGCGGGAAGCTGCCAAGGAGCTTCCAATTGCTCAGGACATGGGGGCGCGACAAACGCCGGAACAGGGCAGCTTGTTCTAA	MSVFDDLQRSGSVRALDAAFAQSLQRLQSDTDPSVLAAAALASLSVASGHAAFDPARAALLTESHDGAPPALPDAHDWQRTLAASRWVDQPQPKDAAGLDRPLVLEHGLLYLRRYREYERRLALGLQRLAAQPMPALDAAALAPLFSTLFPQGASGEDHQAWAAALALRRALLLVTGGPGTGKTTTIARLLLLCIAQAQLAGTPAPRIALAAPTGRAAERMAESLRAAVARAVADGVQLPPAPQHQDTSPLPQAGEGAQRAGEGSSPSAWESHLPKGATTLHRLLGVIPDAPQFRHNADNPLPFDLIVVDEASMVDLPLMCKLVEAVADGTQLILLGDADQLPSVEAGDVLAAILQAAGPGDALPSDEAVTLQPLLGNAPSSNTQGGLSGNRIHLRRGYRQADDFALAPLADAVRAGDAEQTIALLRANTLAGVHFHDNADDPLAAHRDALLTHWRALADADTPAQALRDAGRLRLLTAVRNGPQGARTLNARIEQLLADTGHGGRRLGAATPWFHGRLLLVTENSYRHGLFNGDVGICLRDAQGTLVAWFEGEGEDGVRGFHPAALPAHESAFAMTVHKAQGSEFDTVWLQLPARDARVLSRELVYTGITRARKALHLAGNEAVLRAALARHAARVSGLGWRLGEREAAKELPIAQDMGARQTPEQGSLF				NA	NA	NA	NA	NA
BMS020_02592	3879	recB_2	COG1074	RecBCD enzyme subunit RecB	ATGAGCGACACCCCGATGAGCAGTACCGATCCCTACCTGCAGCTGCCGCTGCACGGCGTGCGCCTGATCGAGGCCAGCGCCGGCACCGGCAAGACCTTCACCCTGGCCACGCTGTTCACCCGGCTGGTGGTCGAACGCCAGCTGCGCATCGGCCAGATCCTCGCGGTCACCTTCACCGAAGCCGCCACCCAGGAACTGCGTCGCCGCATCCGCGAGCGCCTCGCGTTGGCCGCGACGCTGGTGCCCGCCGACCCCGTTGCCGCCCCTGTAGGAGCGGCTTTAGCCGCGAAGGGCCGCACCGATACCTCCAACGATCACGTTGCGGTTGTAGGAGCGGCTTTAGCCGCGATCCCTTCCCAGGAAAGCCCATCGCGGCTAAAGCCGCTCCTACAACAGCAATCGCCGGAGCTCGCCGCCGCCCCCGAATCCCCCGACATCACCCTCACCCGCGCGATCCTCAGCGCCCACCTCGCCACTTCGCAGGAAGCCCCCGCCGCGCTGCGCCATCGCCTGCAGCAGGCCGCCGAGGAAATCGACCTCGCCGCGATCTTCACCATCCACGGCTTCTGTGCGCGGGTGCTGCGTGAGCACGCGCTGGAAAGCGGCCAGGCGTTCGCCGCGCCCGAGCTGCTGGCCAACGACCGCGACCTGCTCGCCGAGATCGCCGCCGACACCTGGCGCGTGCACGCGGTCGATCCGGCCGATGCCGACGATCTGGTCGCGCTGTGGCCGGCCGGCCCCGATGCACTTGCCAGCGATCTGCGCGAGCTGATCCGCCAGCCGCTGCTGTTGCCAGCCGCACCCAGCGACGACGGCAGTGGCGATGCGCTGCTGCAGACCCTGCAACGCGCCGCGCAGGCGCTGGCCGCTGCGATCGACCAGCACGCCGCCAGCTTCCGTACCGATCTGGTCCAAGCCATCGACGCCGGCGTGCTGAGCAAAGCCCAGTACAAGCTCGACTGGATCGCCACGCTGTGGGACTGGCTGGCCGAATTCGCCAGCGCGCCGGCCACCATCGGCGAGATCCATCCCAAGCTGGCCAAACTGACCGAAGCCGAGCTGCTCGCCGGCACCAACAAGGCCGGCGCCGGGCGTACGCCGGGCTCGCCGATGACGCACGAAGTCGATGGCTTCCTCGCCGCGCTGGCCCAGCTCGAACGCTGGCGTGCCGGCCGCCGGTTGCGGTTGCTGCACGCAGTGCGCGGCGAGGCCGCGCAGCGGTTGGCGGCGACCAAGCGCCAGCGCCGGGTGCAGACCTACGACGATCTGGTCGATGGCGTCGCCCGCGCGCTCGAAGGCCCGCAGGCCGAAGCATTGGTGCGTCGTTTGCGCGCGCAGTACGCGGTCGCGCTGGTCGACGAATTCCAGGACACCGACGACCGCCAGTGGGCGATCTTCTCCACGGTGTTCGGGCCGGATGGCGAGGTGACATCGACGGATGCGGCGGTTGAGTACGCCGACGAGAGCGTGCCCGACGATGATGCCGACGCGCGCCTGCTCGCCCTGATCGGCGATCCCAAGCAGGCGATCTACGGCTTCCGCGGTGGCGACGTGCAGACCTATCTGGCCGCCGCCAAAACCGCCGAGCGCGCACCGCCGCTCGGCCACAACTTCCGCTCGCGCCCGGCGTTGCTGGCGGCGATCGAAGCGCTGTACGCGCAGGCCGGGTTCGACACCGCATTCGCCACCAATGGCATCGCCTTCCACCCGGTGCAGCCGGGCACCAAGCGCAGCGATGCCGACCTGCAGCGCGATGGCGCCGCCGCGCCGGCACTGACGCTGTGGCGCGCGCCGGAGCCGCCACCGCCCGCCAAAGGCAAGCCGAAACCGTGGAGCGCCGGCCGCGCCCGCGAGCTGTGCACCGCCGCCTGCGTCGCGGCGATCCGCGACTGGCTGCAGGCCGGCCGCGATGGCCGCGCACTGATCGACGGCCGTCCGGTGCAGGCCGGCGACATCGCGGTGCTGGTGCGCAGCCACGGCGAGGCCACCCGCATCCAGCAGGCGCTGGGCGCGGTCGGCATTCCCGCGGTCGCGGCCGGCAAGCTCAGCCTGTTCGCCACCGACGAGGCGCTGGAACTGCTCGCGCTGCTGCAGGCGTTGCTCGATCCGGGCGATGACAGCCGCCTGCGCGCCGCGCTCGCCACCGTGCTGATCGGCCTGGATGCCGCCGCAATCGCCACGCTCGATGGTGATGGCGAACGGCATCGCCACTGGCAACAGCAGGCACTGGACTGGCGCGAGCGCTGGCGTCGCGGTGGACCGCTGGCGCTGATCGGCGAACTCGCCGCCGCGCACGGCCAGCGTTTGCTGGCGTTGGTCGATGGCGAGCGCCGGCTGACCAACTACCTGCAGCTGGCCGAACTGCTGCAGGAAGCCGACGCCCGCGCGCTCGGCCCGCATGGCCTGGTCGACTGGCTGGCGCGGCGCATCGCCAATGCCGATGCCAACGACGAAGCCCAGTTGCTGCGGCTGGAATCGGACGCGCGCCGCGTGCAGATCGTCACCCTGCACAAGTCCAAGGGCCTGGAATATCCGTTGGTGTTCCTGCCGTACATCGGCATCGGCCGCAGCGACAAGAGCGCCGGGCGCCATTGCGTCGTGCATGCCGACGGCGTTGGCCGCCAGCTGCATTGGCGCAGCGACAAGGACGATCCCGACTGGAAGCACGCCGAGGACGCGTGGAAAGCCGAGCAGCGCGCCGAGGACGCGCGCCTGCTCTACGTCGGCCTGACCCGCGCCGAACACGCGCTGTGGATCGCGACCGGGCCGTTCTTCAAGCACGAGGCCACCGCGCTGTCGGCAATGGTCGCCGACAGCGATGCGCTGCAGGCCAGCGCCACGCCCGGCGCGATCACCCTCGACACCACCCAGCCACCCGCGCAGCTGCCACGCTTCGCCTTGCCCGACGAAGGCGAGGTACAGCCGGCGCGCAGCATCCGCCGCCACGTCGTGCCGGACTGGTGGGTCTACAGCTTCACCCAGCTGGCCAACGCCGATGCCGGCAACGAGGCCGAAACGCTGGCCAGCGCCACCGTCGAAACCAGCGGCGGCAATGACGAGCCGGCCGCGCCGGAGATCGCGCCGGTCGACCCCGAGGCCGACGTGTTCGACCCGCGCTTCGCCGGCACCCGCTTCGGCGTGGCGATGCACGACGTGTTTGAGCGCACCGACTTCAATGCATGGCAGGACTGGCATCCCGGCCAGCCGGCGCCGGCCGGGCAGGCCGAGGTCATCGTCGAATCGCTGCAGCGCGGCGGATATCCGGAAGACGACCTCAAGGACGGCGAGCGCGTGCTGCGCGCGCTGGTCGGTCACACCCTCACCGTGGCACTGCCCGAAGGCGCGCGGCTGGCTACGCTGGCCGCGCACGATCGCCGCGCCGAAATGGAATTCCACTTCGCGATGCAGCCCACCGCGGTGGATGCGCTGCTCGCGTTGCTGCATCGCCACGGCGTCGTGCCCGAGCGCCAGGCGTTCGGCGCGCGCCAGCGGCTGGAAGGGCTGATGACAGGCCTGATCGACCTCACCTATCTCCACGACGGCCGCTGGTACGTGCTCGATTACAAATCCAACCGCCTGCCCAGCTACGACCCGGCCGCGCTGCAGCGGGCGATGGCGCACAGCGAATACGAACTGCAGGCGCTGATCTACACCGTCGCCCTGCATCGCTGGCTGCGCTTCCGGCTCGGCGATGGCTACGACTACGCGCGCGACTTCGGCGGCGTGCGCTACCTGTTCTGTCGCGGCGTCGATGCAGCACGCGTGATCGAGCCCGGACAATCAGCCCCCGGCGTGCATGCGTGGACGTTCGCACCCGCGCTGGTGCACGGCGTCGATGCGCTGTTCGCCGGCCACGCATTGCCGGAGGTGGCTGCATGA	MSDTPMSSTDPYLQLPLHGVRLIEASAGTGKTFTLATLFTRLVVERQLRIGQILAVTFTEAATQELRRRIRERLALAATLVPADPVAAPVGAALAAKGRTDTSNDHVAVVGAALAAIPSQESPSRLKPLLQQQSPELAAAPESPDITLTRAILSAHLATSQEAPAALRHRLQQAAEEIDLAAIFTIHGFCARVLREHALESGQAFAAPELLANDRDLLAEIAADTWRVHAVDPADADDLVALWPAGPDALASDLRELIRQPLLLPAAPSDDGSGDALLQTLQRAAQALAAAIDQHAASFRTDLVQAIDAGVLSKAQYKLDWIATLWDWLAEFASAPATIGEIHPKLAKLTEAELLAGTNKAGAGRTPGSPMTHEVDGFLAALAQLERWRAGRRLRLLHAVRGEAAQRLAATKRQRRVQTYDDLVDGVARALEGPQAEALVRRLRAQYAVALVDEFQDTDDRQWAIFSTVFGPDGEVTSTDAAVEYADESVPDDDADARLLALIGDPKQAIYGFRGGDVQTYLAAAKTAERAPPLGHNFRSRPALLAAIEALYAQAGFDTAFATNGIAFHPVQPGTKRSDADLQRDGAAAPALTLWRAPEPPPPAKGKPKPWSAGRARELCTAACVAAIRDWLQAGRDGRALIDGRPVQAGDIAVLVRSHGEATRIQQALGAVGIPAVAAGKLSLFATDEALELLALLQALLDPGDDSRLRAALATVLIGLDAAAIATLDGDGERHRHWQQQALDWRERWRRGGPLALIGELAAAHGQRLLALVDGERRLTNYLQLAELLQEADARALGPHGLVDWLARRIANADANDEAQLLRLESDARRVQIVTLHKSKGLEYPLVFLPYIGIGRSDKSAGRHCVVHADGVGRQLHWRSDKDDPDWKHAEDAWKAEQRAEDARLLYVGLTRAEHALWIATGPFFKHEATALSAMVADSDALQASATPGAITLDTTQPPAQLPRFALPDEGEVQPARSIRRHVVPDWWVYSFTQLANADAGNEAETLASATVETSGGNDEPAAPEIAPVDPEADVFDPRFAGTRFGVAMHDVFERTDFNAWQDWHPGQPAPAGQAEVIVESLQRGGYPEDDLKDGERVLRALVGHTLTVALPEGARLATLAAHDRRAEMEFHFAMQPTAVDALLALLHRHGVVPERQAFGARQRLEGLMTGLIDLTYLHDGRWYVLDYKSNRLPSYDPAALQRAMAHSEYELQALIYTVALHRWLRFRLGDGYDYARDFGGVRYLFCRGVDAARVIEPGQSAPGVHAWTFAPALVHGVDALFAGHALPEVAA				NA	NA	NA	NA	NA
BMS020_02593	3399	recC_2	COG1330	RecBCD enzyme subunit RecC	ATGACTGCAGCACCGGATTTCCGCCTCTATCCCTCCAACGCCCTCGACACGCTGGCCGCGCTGCTGGCCGAGGAGCTGCGCCGGCCGGTGCCCGGCCAGCCGCTGCTGGCGCCGGAGGTGGTGTTGATCCCGCAGGTGGCGATGCGCCGCTGGCTGCAGTCGACGCTGGCGCATACCCATGGCGTCGCCGCCAACCTGGAATTCCTGACCCCCGGCGAGTTCGTCGCGCGCGCGCTGGAGGCCAACCTCGGCCCGGCCGACGACGACCTGGACATGGCCACCACCCAGTGGCATCTGTACGCCGCGCTGCAGGCGGACCTGGCCGCCGATCCGGCGCTGGCCACGCTGGCCGGGTACCTGGCCGATGGCGATGCGCTGAAGCCTTGGGCGCTGGCCGGCGAGCTTGGCAACGTGTTCGAGAAGTACCAGGCCTGGCGCCGCGACTGGCTGCAGCGCTGGGAGGCCGGCGCCGATCCGGGCGATCCGCAGGCGCAGCTGTGGCGGGCGATCGCCACTGGCCGGCAGTACCGCGCGCGGCGCATCGGCCGCTACCTGGATCGGTTCGCGCGGCCCGATGCCCCGCTGCCGGCCGGGCTGCCGCAGCGGCTGTTCGCGTTCGCGATCCTCAACATCTCGCCCGACGTGTTGCGCGTGCTCGCCACCCAGGCGCGCGCCGGCACGCTGCACTTCTATCTGCCGACACCGACCCGTGGCTACTGGGGCGACCTGCAGACGCTGTGGCAGCGTCGCCGCGATGGCGAAGCGCCGACGTTGTTTGCCGGGCAGATCCAGGAAAACCCGCTGCTGCAGGCCTGGGGCGCGGCCGGGCGCGACTTCATGGCGCTGGTCGGCGACTACGAGGTGGTGCATCCCAGCGCCGAGATCGACGTCTACGCCGATCCGCTGGAATCGGGCCGGCGCACGCTGGCCGATGGCGGTCTCGGCGACAGCCTGCTGCGGCGGATGCAGAGCGATTTGTACCGCCGCGTCGCACCGGCGTTGCCAGCGCCGCTGGCCGCGGTCGATCTGGCCGATCCCAGCGTGCAGGTCCACGCCTGCCACACCCGGCTGCGCGAACTGCAGGTGCTGCAGGACCAGCTGCGCGCGCTGCTCGAGGACCCGCGCTTCGAGCCGCCGCTGCAGCCGCGCGAGATCGCGGTGCTGTCGCCGGACATCGATCCGTACGTGCCGTACCTGGACGCGGTGTTCGGTGGCCATGGTGGCGATGACGCCCTGCCGTATGCACTGGCCGATGCCAGCCCGCTGGCCAGCGAGCCGCTGGCCGAGGTGTTCCTGACCCTGCTCGGGCTGCCGGTGTCGCGCTTCGGCCTGCACGAGATCCTCGACCTGCTCGCCGCCGCGCCGATCGCCGAGGCCGCCGGTCTGGACGAATCCGGGCTGGAGCGCCTGCGCAGCTGGCTGCAGGCGGCCGGCGCACGCTGGGGGCTGGATGCGGGCCACCGCCGTCGTCACCAGGCGCCGGGCGATGACGCCTACACCTGGCGCTTCGCGCTGGACCGGCTGCTGCTCGGCCACGCCAGCGGCGAGGACGGCGACATCGACGGCGTTGCACCGTGGCCGCAGCTCGAAGGCAGCGCGCTGGCCGCACTCGACACCTTGATCCGGCTGCTGCGTGTGCTCGAACGCCAGCAACAGCTGCTGGCCGAGCCGATGCCGCCGGCCGGCTGGCGCGAGGCGCTGCTGGCGATGCTCGACGCGCTGGTGCCGGTCGCGCCGTCGGCGCCGCGTTCGCAGCGCGCACTGGAACGGCTGCGCACGCTGATCGACCAGTTCGCCCGCGACGCCGGCCGTGCCGGCTTCGATGCGCCGGTGCCGGCCGAGGTCGTGCGCAGCCATTTCGCCAGCGTGCTCGGCGAGGCCGATACCCGCGCGCCGCTGCTGACCGGCGGCATCAGCTTCGGCCGCATGGTGCCGATGCGGCTGCTGCCGTTCCGGGTGATCTGCCTGCTCGGCATGAACGATGGCGACTTCCCGCGCCGCGACCCGGCTGCCGGGCTCAACCGGTTGACCGCCGAGCTGGGTACCGAGCGCCGCCGCATCGGTGACCGCTCCACCCGCGAGGACGACCGCTTCCTGTTCCTGCAGCTGTTCGCCTCGGCGCAGGAGGTGCTGTACCTGAGCTACCTCGGCGCCGACGCGCGCGACGGCAGCGTGCGCGAGCCCTCGGTACTGGTCGCCGAACTGCTGGTCAGCGCGGCGCGCTACCACGCCGAGCCGAAGGCGGCCGAGCGGCTGGTGGTGCGTCATCCGCTGCAGCCATTCGCCGCCGCCGCGTTCGGTGAAGCCAGCGGCGCGGCGGCCGACCCGCGCCGTTTCAGCTACCGGCGGCAATGGCGTCCGGCGGTCGACAGCCTCGCCGGCCAGCGCCAGCCGCTGGCGCCGTGGGTCGATCACGCCTTGCCCGATGACGCCGATGCCGGATCGGCAACGATCACGCTCGACGAGCTGCGCCGGCTGTTCGTCGACCCGGCCGGGCAGTTCCTGCGCCATCGCCTCGGCCTGCGCCTGCCCGAACCGGCCAGCGAGGATCGCGACCTGGAGCCGCTGCTCGCGCCGACCGGCGGGCTCGACAAATACGCGCTCGACCAGCTGCTGCTGCACGCGCTGGACGATGCCGACACCGACCAGCTCTACGAGCGCCTGCGCGCCCGCGCGCTGCTGCCGTCCGGCCCGCTTGGCCGTCGCCAGCTGGCCGAACGGCTGCGCCAGGTGCGTCCGTACGCCGAGGCGTTCCGCCAGTGGCGCAACGGCGGCGAGGCGCAGGCGCAGCGGCTGCAGGTCAAGATCGACGAAAGCGTGATCAATGGCCGGCTGCGTGACTGGTTCCCGGCCGGTCTTGGCCGGATCAAGGTCGGCGAATTGAACGGCCGCGCGGCGATCACCCACGGGCTGGAATGGCTGCTGCTGCGCGCCGCCGGTGAGTCCGCGCCGTACCAGCGCTTCTTCGATGGCGACGGTGGCGTCGGCCCGCACCCGATGGATGCCACCCCTATCGAGCAGTCGCAGGCCCGCGATGCGTTGGCGCAGGTGCTGGCGCTGTATCGCGACGGCCTGCGCGCGCCGCTCGCATTCGCCCCGTACAGCGGCTGGAAATACCATCTGGCCGCGCGCGAGGGCGATCTGGACAAGGCGATCAAGGACGCCGCCGGGCAATGGAACGCCAGCTTCGGCTGGAGCGAATCCGACGCGCCGGAGCTGCGCCTGGTCAACCGTGGCCGCGATCCGTTCGCCGATGCCGAGCGCTTCATCGACTTCGCCCGCACCAGCCACCGGCTGTATTCGCTGCTGCAGACCGGCGAGCCCGGCGCCGCGCTGGACACCGACGCCCTGGCCGACAGCTGGCGCCACTGGCAGGGCCAGCAGGAGCCGGTCGAATGA	MTAAPDFRLYPSNALDTLAALLAEELRRPVPGQPLLAPEVVLIPQVAMRRWLQSTLAHTHGVAANLEFLTPGEFVARALEANLGPADDDLDMATTQWHLYAALQADLAADPALATLAGYLADGDALKPWALAGELGNVFEKYQAWRRDWLQRWEAGADPGDPQAQLWRAIATGRQYRARRIGRYLDRFARPDAPLPAGLPQRLFAFAILNISPDVLRVLATQARAGTLHFYLPTPTRGYWGDLQTLWQRRRDGEAPTLFAGQIQENPLLQAWGAAGRDFMALVGDYEVVHPSAEIDVYADPLESGRRTLADGGLGDSLLRRMQSDLYRRVAPALPAPLAAVDLADPSVQVHACHTRLRELQVLQDQLRALLEDPRFEPPLQPREIAVLSPDIDPYVPYLDAVFGGHGGDDALPYALADASPLASEPLAEVFLTLLGLPVSRFGLHEILDLLAAAPIAEAAGLDESGLERLRSWLQAAGARWGLDAGHRRRHQAPGDDAYTWRFALDRLLLGHASGEDGDIDGVAPWPQLEGSALAALDTLIRLLRVLERQQQLLAEPMPPAGWREALLAMLDALVPVAPSAPRSQRALERLRTLIDQFARDAGRAGFDAPVPAEVVRSHFASVLGEADTRAPLLTGGISFGRMVPMRLLPFRVICLLGMNDGDFPRRDPAAGLNRLTAELGTERRRIGDRSTREDDRFLFLQLFASAQEVLYLSYLGADARDGSVREPSVLVAELLVSAARYHAEPKAAERLVVRHPLQPFAAAAFGEASGAAADPRRFSYRRQWRPAVDSLAGQRQPLAPWVDHALPDDADAGSATITLDELRRLFVDPAGQFLRHRLGLRLPEPASEDRDLEPLLAPTGGLDKYALDQLLLHALDDADTDQLYERLRARALLPSGPLGRRQLAERLRQVRPYAEAFRQWRNGGEAQAQRLQVKIDESVINGRLRDWFPAGLGRIKVGELNGRAAITHGLEWLLLRAAGESAPYQRFFDGDGGVGPHPMDATPIEQSQARDALAQVLALYRDGLRAPLAFAPYSGWKYHLAAREGDLDKAIKDAAGQWNASFGWSESDAPELRLVNRGRDPFADAERFIDFARTSHRLYSLLQTGEPGAALDTDALADSWRHWQGQQEPVE				NA	NA	NA	NA	NA
BMS020_02594	795	mlaF_2	COG1127	Intermembrane phospholipid transport system ATP-binding protein MlaF	ATGACGGCACCCGTCTCCCCTGTCGTGCAGTTGAACGGAGTCCGCATCGACCGAGGCGGGCGCACGATCCTGCGCGACGTCTCGCTGGAGGTCCCGCGCGGCAGCATCACCGCGGTGCTGGGCCCGTCCGGCAGCGGCAAGTCCACGTTGCTGGCGGCGCTGACCGGCGAACTGCGCCCGGCCGCCGGCACGCTGACCCTGTTCGGCGCGCCGATCCCGACCGGCAGCCGCGCGCTGCTGGAGATGCGCCGCAACGTCGGCGTGCTGCTGCAGGGCAACGGCCTGCTGACCGACCTCACGGTGGCCGAGAACGTCGCGCTGCCGCTGCGCACCCATACCCGCCTGCCCAAGCCACTGCTGCGCCGGATCGTCGAGATGAAGCTGCACGCGGTGGGCCTGCGCGCGGTCGCCGACGCCTGGCCGCGCGAGCTGTCCGGCGGCATGGCGCGCCGCGTGGCGCTGGCCCGTGCGCTGGCGCTGGACCCGCCGCTGATGATCTACGACGAGCCGCTGACCGGGCTGGACCCGATCGCCTCCGGGGTGATCATGAGCCTGATCCAGCGCCTCAACGACAGCCTGGGCCTGACCAGCATCATCGTCAGCCACCACGTCCACGAGACCCTGCCGATCTGCGACCAGGCAGTGGTGATCGCCAACGCCGGCATCGTCTTCGCCGGCACCCCGGCGCAGCTGGAGGCCAGCGACGATCCGCTGGTGAAGCAGTTCCTGCACGGCCAGCCCGACGGCCCGATCCCGTTCGACGCCGCCGCGCGCGCGGCCCGGAGTGCCGCCTGA	MTAPVSPVVQLNGVRIDRGGRTILRDVSLEVPRGSITAVLGPSGSGKSTLLAALTGELRPAAGTLTLFGAPIPTGSRALLEMRRNVGVLLQGNGLLTDLTVAENVALPLRTHTRLPKPLLRRIVEMKLHAVGLRAVADAWPRELSGGMARRVALARALALDPPLMIYDEPLTGLDPIASGVIMSLIQRLNDSLGLTSIIVSHHVHETLPICDQAVVIANAGIVFAGTPAQLEASDDPLVKQFLHGQPDGPIPFDAAARAARSAA	PGPT0007015_2392	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007015-mlaF|linL|mkl-K02065	NA	NA
BMS020_02595	750	mlaE_2	COG0767	Intermembrane phospholipid transport system permease protein MlaE	ATGGCGTTCGTGTCCTCGATCCGTTCGCTCGGCCGTGCCGGGCTGTTCGCGCTGACGGTGCTGCGCGGCTCGCTGCCGAGCGCCGACTTCTGGGCCGAGCTGACCCGCGAGATCTACAAGATCGGCGCGCGTTCGCTGCCGATCATCGCCGTCGGCGGCGCCTTCGTCGGCCTGGTGCTGACCCTGCAGGGCTACCGCACGCTGACCACGTACGGCGCCTCCGATGCGCTGTCCACGCTGCTCGGGCTGTCGCTGTACCGCGAGCTGGCGCCGGTGCTGACCGCGCTGCTGTTCATCGGCCGCGCCGGCAGCTCGATCGCCGCCGAGCTGGGCCTGATGCGTGCCACCGACCAGATCAAGGCGCTGGAGCTGATGGCGATCGACCCGGTCGCCAAGGCGGTGGCGCCGCGCTTCTGGGCGGCGATCCTGACCGTGCCGCTGCTGACGGGGGTGTTCTGCTCGCTGGCGATCACCGGCGGCTACTTCGAGGCGGTGCACGTGCTGGGCATCGACAACGGCACCTTCTGGTCCGGCCTGCGCGGCAGCGTCGACCTGTGGGACGACTTCGGCGTGGCGATGCTGAAGTCGGCGATCTTCGGCGGCACCGCCGCGCTGGTCGCCGCCTATGTCGGCTTCAACGCCGAACCGACCATCGAGGGCACCTCGGTGGCGACCACCCGCGCGGTGGTCAACGCCTCGCTGCTGGTGCTGATGTTCAATTTCGTCCTCTCCGCGATGTTGTTTAAGTGA	MAFVSSIRSLGRAGLFALTVLRGSLPSADFWAELTREIYKIGARSLPIIAVGGAFVGLVLTLQGYRTLTTYGASDALSTLLGLSLYRELAPVLTALLFIGRAGSSIAAELGLMRATDQIKALELMAIDPVAKAVAPRFWAAILTVPLLTGVFCSLAITGGYFEAVHVLGIDNGTFWSGLRGSVDLWDDFGVAMLKSAIFGGTAALVAAYVGFNAEPTIEGTSVATTRAVVNASLLVLMFNFVLSAMLFK	PGPT0007010_5586	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007010-mlaE|linK-K02066	NA	NA
BMS020_02596	528	mlaD_2	COG1463	Intermembrane phospholipid transport system binding protein MlaD	ATGGCCATGCGTGGACCACGACTCGAATTCGCCGTTGGCGCCTTCCTGCTGCTGACCCTGGGCTCGCTGCTGGTACTGGCGGTGGCCTCCACCAACCAGCGCTGGGGCCTGGGCCACAGCGACTACGCGCTGACCGCGCGCTTCAGCCAGATCGGCCAGCTGCGCAAGCAGGCCCCGGTGCGCATCGGCGGCGTCAACATCGGCCAGGTCAGCGACATCACCCTGGACCCGAAGACCTTCGAGTCGGTGGTGACGCTGGCGCTGGACGACAAGTACAAGGACCTGCCCGCCGACACCTCGGCCGGCATCTTCACCAGCGGCCTGCTTGGCGAGAGTTACATCGGCCTGCAGCCCGGCGGCGACCCCGACGTGCTCAAGCCCGGCGACGAGATCGCCTTCACCCAGCCGGCGGTGGACCTGATCCAGCTGGTCGGCAAGTACATGTTCAGTGGCGGTGGTGGCGACAAGGCCAATGCTCCCGCCGACGCCTCCGGCGCCGCCACGTCTCCCACGGAAACCCATCCATGA	MAMRGPRLEFAVGAFLLLTLGSLLVLAVASTNQRWGLGHSDYALTARFSQIGQLRKQAPVRIGGVNIGQVSDITLDPKTFESVVTLALDDKYKDLPADTSAGIFTSGLLGESYIGLQPGGDPDVLKPGDEIAFTQPAVDLIQLVGKYMFSGGGGDKANAPADASGAATSPTETHP	PGPT0007005_8469	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007005-mlaD|linM-K02067	NA	NA
BMS020_02597	666	mlaC_2	COG2854	Intermembrane phospholipid transport system binding protein MlaC	ATGAAGATCTCCCTGCTCTCGACCCTGATGGCCGTTGCCCTGGCCACCACCGTGCCGGCCACCGCGTCCGCGCAGGCGGCCACGCCGGCCCGCGCCGCCGCCAGCCAGGGCGCCGCGACCAAGACCGTCATCGATGCCAGCACCCGTATCCTGACCACGCTGGAAGCGCGCCGCGCCGAGTTCAAGAAGAACCCGACCGCGCTGCGCGCGTTCATCGATACCGAGCTGACCAACGCCTTCGACCGCGAGTACGCCGCGCGCCTGGTGCTGGGCGTGCACGGCCGCGGCGCGTCCGATGCCGACGTCAAGCTGTTCGCCGATGCGATGGCCGACAATCTGATGCAGCGCTACGGCGCCGCCCTGCTCGACTTCACCGGCAAGCCGAGCTTCCGCGGCAAGTCCGAGAGCCCGCTGCCGGGCAACCGCGGCGTCAAGGTCTCCACCGAACTGCTGCGCGCCGGCAGCGACCCGACCCCGGTCGACTACCTGATGCGCAACGTCAACGGCCAGTGGAAGATCTTCGACGTGATGATCGAAGGCATCTCCTACGTGCAGACCTTCAAGACCCAGTTCGATACCCCGCTGCGGCAGAAGGGCATCGCCGAGGTCGCCAAGGAACTGCGCGGCGGTACGCTGCAGGCCGCGCCGGCCAATGGCAACCAGTAA	MKISLLSTLMAVALATTVPATASAQAATPARAAASQGAATKTVIDASTRILTTLEARRAEFKKNPTALRAFIDTELTNAFDREYAARLVLGVHGRGASDADVKLFADAMADNLMQRYGAALLDFTGKPSFRGKSESPLPGNRGVKVSTELLRAGSDPTPVDYLMRNVNGQWKIFDVMIEGISYVQTFKTQFDTPLRQKGIAEVAKELRGGTLQAAPANGNQ	PGPT0007670_270	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007670-mlaC-K07323	NA	NA
BMS020_02598	306			hypothetical protein	ATGGCAACCAGTAATCCGGCCAGCCTGCGCCGCGATGGCGCCACCCTGCTCGCCGCCGGTGCGCTGGACCGCGCCGCGGCGGCCGCGCTGTGGCCGCAGGTCGGCGCGCTGCTGGACGGCGCCGACACGCTCGACCTGTCGGCGGTGACCCGGCTGGACAGCGCCGGCCTGGCGCTGCTGGTCGAACTGGCCGCCGCGCTGCGCGCGCGCCATGGCGGTGCCGCCGCGGTCCGCGGCGACGCCCCGGGCCTGGCCGAGTTGCGCGCGGCCTACCGCCTTTCCCCCGCGCTGGATTTCCAGGCCTGA	MATSNPASLRRDGATLLAAGALDRAAAAALWPQVGALLDGADTLDLSAVTRLDSAGLALLVELAAALRARHGGAAAVRGDAPGLAELRAAYRLSPALDFQA	PGPT0007675_1061	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007675-mlaB-K07122	NA	NA
BMS020_02599	1059			hypothetical protein	ATGACCCCGCTACGCCTCCTCCCCCCGCTCGCGCTCGCGCTGACCCTGGCCGCGTGCGCCGGCAACGCGCCGAAGCCGGCCTCAGCGCCGTCCACGCCCGTCGCCGTGGTCCCGGCCGACAGCACCGCCGCCGCCGCGAGCGATGCCGCCGTGACCGGTGACGTGGCCGCGCCGACCGCGCCCCCGACCGACGCCGGCATGGCCGCGACCGAAGCGACCGAAGCGACCGAAGCAGCCGCCAGCGCCGCGCCGGCGGCCGATGCCGTCCCGACCGCGGCCGAGGACGACTACGCCGCGCTGTACGGTGGCCCGGCCCCGACCGCCGGCGCGCCGACCGCGCAACAGGCCGGTGCGCCGCCGGCCTACGATCCGTGGGAGCGCTACAACCGCACGATGCACCGCTTCAACAACGCGGTGGACCGCGGTGTCGCGCGTCCGCTGGCCACCGGCTACACCAAGGTGGTGCCGCGCCCGATGCGACTCGGCGTGACCAATTTCTTCGACAACCTGAAGTCGCCGGTGACGCTGGTCAACCAGCTGCTGCAGGGCCATCCGGTGTACGCGCTGCAGACCCTGGGGCGCTTCGTGATGAACTCCACGCTGGGCGTCGGCGGCCTGTTCGACCCGGCCAGCGCGGCCAAGATCCCGCGTCGCAGCGAGGACTTCGGCCAGACCCTGGGCGCCTGGGGCTGGCACAACTCGCGTTACGTGGAGCTGCCGTTCTTCGGCCCGCGCACGCTGCGCGATACCTTCGGCCTGGCCGGCGACTACCCGCTGTCGCCGCTGCGCCAGGTCGACGACGACACCGTGCGCTACGGCCTGCAGGGCCTGCAGCTGGTCGACACCCGCGCCCAGCTGCTGTCGCTGGACGCGATGCGCGACGAGGCGGTGGACGAGTACGCGCTGACCCGCGATGCCTGGCTGCAGCGCCGCAACTACCAGATCACCCGCGACCTGCGCAGCCGCAAGCAGCAGGACGACGACCTGCCCGAGTACCTGCGCGAGAAGGACAACACCGTGCCGGTCGATGCGATGCCGATCCCCAACCTCGGCAACTGA	MTPLRLLPPLALALTLAACAGNAPKPASAPSTPVAVVPADSTAAAASDAAVTGDVAAPTAPPTDAGMAATEATEATEAAASAAPAADAVPTAAEDDYAALYGGPAPTAGAPTAQQAGAPPAYDPWERYNRTMHRFNNAVDRGVARPLATGYTKVVPRPMRLGVTNFFDNLKSPVTLVNQLLQGHPVYALQTLGRFVMNSTLGVGGLFDPASAAKIPRRSEDFGQTLGAWGWHNSRYVELPFFGPRTLRDTFGLAGDYPLSPLRQVDDDTVRYGLQGLQLVDTRAQLLSLDAMRDEAVDEYALTRDAWLQRRNYQITRDLRSRKQQDDDLPEYLREKDNTVPVDAMPIPNLGN	PGPT0024485_100	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024485-mlaA|vacJ-K04754	NA	NA
BMS020_02600	546	btuE_2	COG0386	Thioredoxin/glutathione peroxidase BtuE	GTGAGCCAGTCCGTCTACGACATTCCCGTCACCACCATCGAAGGCCAGCCGTCGGCGCTGGGCGCCTACCGCGGCAAGGTGCTGCTGGTGGTCAACGTCGCGTCCAAGTGCGGGCTGACCGCGCAGTACGAAGGCCTCGAGGCGCTGTACCGCGAGAAGCAGGCCGCCGGGCTGGAAGTGCTGGGTTTCCCGGCCAACGACTTCAAGGGCCAGGAGCCGGGCACCGACGCGGAGATCGCGCAGTTCTGCAGCACCACCTTCGACGTCACCTTCCCGCTGTTCTCCAAGATCGCCGTCACCGGCGAGGCGACCCATCCGCTGTACCAGGCGCTGATCGCCGCGCAGCCGGCCGCCACCGGCGAGGGCCCGATGCGCGAGAAGCTGGTCGGCTTCAACATCGATCCGAACCCGCAGCCGGGCGTGCTGTGGAACTTCGAGAAGTTCCTGGTCGGCAAGGACGGCAGCGTGATCGGCCGCTTCGCCCCGGACGTGGCCGCCGACGACGCACGCCTGCACGCGGCGATCGACGCGGCGCTGGCCGCCTGA	MSQSVYDIPVTTIEGQPSALGAYRGKVLLVVNVASKCGLTAQYEGLEALYREKQAAGLEVLGFPANDFKGQEPGTDAEIAQFCSTTFDVTFPLFSKIAVTGEATHPLYQALIAAQPAATGEGPMREKLVGFNIDPNPQPGVLWNFEKFLVGKDGSVIGRFAPDVAADDARLHAAIDAALAA	PGPT0013115_2215	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013115-bsaA|gpx|btuE-K00432	NA	NA
BMS020_02601	399			hypothetical protein	ATGTCCGGACCAAGCACGTTGTTCCTGCGCTGCGGCGCGTGGTGGCTGGCGGGCATGCTGCTCGCGGCCTGCAGCACCACCACGCCACCGAGCCCGCCCGCCAGCGCCAGCGCCGAGGCGTCACCGGCCGGCACGGCACTGGACCCCGCGGCCTGCGCCGCCCGCGGCGGCAGCATCCGTCCGCTCGGTGGTCGCCTGCAGAAGCTGGCCTGCGTGGTGCCTTACGCCGATGCCGGCAAGGTCTGCCGCGACCGCGGCGACTGCGAAGGTCGCTGCCTGGCCACCGGCACCGACGCGACCGGCGCGGCGACCGGTATCTGCCAGCGCGACGCGACGACCAGCTTCGGCTGCCATGCCTGGATCGAGGGCGGCACGGCCCAGACCATCTGCATCGACTGA	MSGPSTLFLRCGAWWLAGMLLAACSTTTPPSPPASASAEASPAGTALDPAACAARGGSIRPLGGRLQKLACVVPYADAGKVCRDRGDCEGRCLATGTDATGAATGICQRDATTSFGCHAWIEGGTAQTICID				NA	NA	NA	NA	NA
BMS020_02602	1578			hypothetical protein	ATGCACACCGAATCCATCATCCTGATCGTCCTGGGCTGCGCCGTGCTGGTGCTGCAGCTGGTCGCGCTGTTGCGCCGTTCCGATTCCTCCGCGCTGGAGCAGGCGCTGCGCGAGGAACAGCGCGACGGCCGCGGCGAGCTGCGTGAGCAGCTCGAAGGTCTCGCCCGCCAGCAGGAGGCACGGCTGGAGAACTTCGCGCGCAACCTCGCCGAGCTGTCGACCCGCACCGACCAGCGCCTGGACCAGCTGCGCGAGGCGCTCGGCGAGGACGCCCGCAAGGCGCGCGAAGAAGCGGCCGGCGCCCAGCAGCGCACCGGCGAGCTGCTCAACCAGCGCCTGCTCGACGTGCGCACCCAGCTGGAGAACTTCGGCCAGCAGCAGGACGCGCGGATCCAGGCATTCGGCCAGCAGCTGGCCGAGCTGACCACGCGCACCGACAGCCACATGGCGGCGCTGCGCGAGACCCTGGTCGAGGACGCGCGCAAGGGCCGCAGCGAGGCCGGCGAGTCGCAGCAGCGCTTCGCCGACACGCTCGGCCTGCGGCTGACCGAGCTGACCCAGCGCAACGAGCAGCGCATCGGCGAGATGCGCGCCACCCTGGAGCAGCAGCTCAAGGCGCTGCAGGACGACAACGCCGCCAAGCTCGAGCAGATGCGCGCCACCGTCGACGAGAAGCTGCAGTCCACGCTCAACACCCGCCTCGATTCCTCGTTCAAACTGGTCTCCGAGCGGCTGGAGCAGGTGCAGCGCGGGCTCGGCGAGATGCAGCAGCTGGCCACCGGCGTCGGCGATCTCAAGCGCGTGCTGAGCAACGTCAAGACGCGCGGCGGCTGGGGCGAGGTGCAGCTGGACAACATCCTCGAGCAGACCCTGACCGCCGAGCAGTACGCGCGCAGCGTCAAGGTCCGCCCTGGCAGTGCCGAGATGGTCGATTTCGCGGTCAGCCTGCCCGGCCGTGGCGAGTACGACCAGCCGGTGTGGCTGCCGATCGATGCCAAGTTCCCGCGCGAGGACTACGAGCGCCTGCTCGATGCGCAGGAGCAGGGCGACGCCGACGCGGTGAAGACCGCCTCGACCCAGCTCGAGCGCGCGATCCGCGTGCAGGCCAAGTCGATCAACGAGAAATACGTGTGCCCGCCGCACACCACCGATTTCGCGGTGATGTTCCTGCCCACCGAGGGCCTGTACGCCGAGGTGATCCGTCGCCCCGGGCTGGTCGACCAACTCCAGCGCGAGCATCGCATCGCGCTCGCCGGCCCGACCACGATCACCGCGCTGCTCAACAGCCTGCAGATGGGTTTCCGCACGCTGGCGATCGAGAAGCGCTCCAGCGAGGTCTGGCAGGTGCTGGGCGCGGTCAAGGCCGAGTTCGGCAAGTTCGCCACGGTGCTGGAGAAGACCAGCTCGCACCTGGACAAGGCGCAGAACAGCATCAAGGCCGCCGGCGTGCGCACGCGCGCGATCGAGCGCAAGCTGCGCGGGGTCGAGACGCTGTCCGGTGGCGAGGCGCAGGCGTTGCTGGGCGACCTGGGCGAGGAGCCCGGTGCGGCGGACGAGGACGCCGACGCACAGGAATGA	MHTESIILIVLGCAVLVLQLVALLRRSDSSALEQALREEQRDGRGELREQLEGLARQQEARLENFARNLAELSTRTDQRLDQLREALGEDARKAREEAAGAQQRTGELLNQRLLDVRTQLENFGQQQDARIQAFGQQLAELTTRTDSHMAALRETLVEDARKGRSEAGESQQRFADTLGLRLTELTQRNEQRIGEMRATLEQQLKALQDDNAAKLEQMRATVDEKLQSTLNTRLDSSFKLVSERLEQVQRGLGEMQQLATGVGDLKRVLSNVKTRGGWGEVQLDNILEQTLTAEQYARSVKVRPGSAEMVDFAVSLPGRGEYDQPVWLPIDAKFPREDYERLLDAQEQGDADAVKTASTQLERAIRVQAKSINEKYVCPPHTTDFAVMFLPTEGLYAEVIRRPGLVDQLQREHRIALAGPTTITALLNSLQMGFRTLAIEKRSSEVWQVLGAVKAEFGKFATVLEKTSSHLDKAQNSIKAAGVRTRAIERKLRGVETLSGGEAQALLGDLGEEPGAADEDADAQE				NA	NA	NA	NA	NA
BMS020_02603	615	gstB_3	COG0625	Glutathione S-transferase GstB	ATGCTCACACTGTACGGTCGTTCCGCCTCGATCAACGTGCGCAAGGTGCTGTGGTTGCTCGATGAGCTGGGGCTGGAGCATCTCCACCACGGTGCCGATGGCGCGCTGGATCCGGCCCGGCTGAGTGCGCTCAACCCCAACGCGCTGGTGCCGGTGATCGACGATGGCGGCTTCGTGCTGTGGGAATCCAACACCATCTGCCGCTACCTGGCCGCGCGTGAATGCCGCGACGACCTGCTGCCGGCGTCGCCGCTGGCGCGCGCACGGGTCGAACAGTGGATGGACTGGCAGGCTACCGAGCTCAACACCGCCTGGCGCTATGCGTTCATGGCGCTGGTGCGGCGCAGCCCGGCCCATGCCGACCCGGCGGCGATCGCCGCCAGCGTGGCGGCGTGGAATGCGGCAATGGCGATCCTCGATGCACAACTGACGCACGCCGGCGACTGGGTGCTCGGCGACAGCTTCACCCTGGCCGACATCGTGCTGGGGCTGTCGGCGCAGCGCTGGCTTGCCAGCCCGATCGACCGCACCACACTGCCGGCGGTGATGGCCTGGCACGGGCGACTGCGCACCCGCCCCGGCTTCCTGCGCCATGGCGACAACGGGCTGCCGTGA	MLTLYGRSASINVRKVLWLLDELGLEHLHHGADGALDPARLSALNPNALVPVIDDGGFVLWESNTICRYLAARECRDDLLPASPLARARVEQWMDWQATELNTAWRYAFMALVRRSPAHADPAAIAASVAAWNAAMAILDAQLTHAGDWVLGDSFTLADIVLGLSAQRWLASPIDRTTLPAVMAWHGRLRTRPGFLRHGDNGLP	PGPT0013170_18014	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS020_02604	582			hypothetical protein	ATGGCCGGCCCTGCCCGTGTGAACCCGTGCATGAAAGCCCTGTTGCCGCTGTTGCTGTGCTGCCTGCTGCCGGTGGCGCAGGCCGCCACCCCGTCGCAGACGCTCACCTCGCCGACGCCGCTGCCGGCGCATGACGCGCGGATCAAGGTGTTCCTGGCCGGCAGCATCGAGATGGGCAAGGCCGGCGACTGGCAGCAGCAGGTGGCCGATGCGCTGCGCGATGACGGTGTGCTGCTGCTCAACCCGCGTCGTTCCGACTGGAATCCGGCGTGGAAGCCGCAGGCCGACGAGCCGGAATTCCGCCGCCAGGTCGAATGGGAGCTGGCCGCGCTGGAGCAGGCCGACGTGGTGTTGATGTACTTCGCGCCCGGCACGCAGAGCCCGATCAGCCTGCTCGAATTCGGCCTGTACGCGCGCTCGGGCAAGCTGCTGGTCGCCGCGCCCGACGGCTACTGGCGCAAGGGCAACCTCGACATCACCGGCGACCGCTACGGCGTGCCGCGCTACGACACGCTGTCGGCATTGATCGCCGCGGTGCGCACGCGCATCGGGCAGCTGCAGCACACGGTTCGCCAGCGCTGA	MAGPARVNPCMKALLPLLLCCLLPVAQAATPSQTLTSPTPLPAHDARIKVFLAGSIEMGKAGDWQQQVADALRDDGVLLLNPRRSDWNPAWKPQADEPEFRRQVEWELAALEQADVVLMYFAPGTQSPISLLEFGLYARSGKLLVAAPDGYWRKGNLDITGDRYGVPRYDTLSALIAAVRTRIGQLQHTVRQR				NA	NA	NA	NA	NA
BMS020_02605	651	nfsB_1	COG0778	Oxygen-insensitive NAD(P)H nitroreductase	ATGCACCTGCTTGATGCGCTGACGCGCCGCTACACCACCAAGGCCTACGACCCGGCCAAGACGCTGCCGCCGGAGACCGTCGATGCGCTGCTGCAGGCGCTGCGGCTGAGCCCGTCGTCGGTGAACTCGCAGCCCTGGCACTTCGTCGTGGCCGCCACGGACGCCGGCAAGGCCCAGCTGGCCAAGGCCACCCACGGCCCCTACGCCTACAACGCGGCCAAGGTCGCCAACGCCTCGCACGTGGTGGTGCTGTGCGCGCGCACCGACCTGGGCGACGACTACCTGGCGCAGCTGCTCGAGCAGGAGCAGGCCGATGGCCGCCTGGCCGACGACAAGGCGCGCCAGACCCAGCAGGCGACCCGCGCGATGTACGTGCAGCAGCACCGCGACGCTGGCGACCTGCCGCTGTGGGCGCAGAAGCAGGTCTATATCGCGCTGGGTGGGCTGCTGCTGTCGGCCGGCGTGCTGGGTGTCGATGCCACGCCGATGGAAGGCTTCGACGCCGATCTGCTCGATGCCGAACTCGGCCTGGCCGAGCGCGGCCTGCACGCGCTGGTGCTGGTGGCGCTGGGCCACCACGCCGACGGCGACTTCAACGCCACCCTGCCGAAGTCGCGGCTGGCGCCGGAGCTGGCGTTCACCCACCTCTGA	MHLLDALTRRYTTKAYDPAKTLPPETVDALLQALRLSPSSVNSQPWHFVVAATDAGKAQLAKATHGPYAYNAAKVANASHVVVLCARTDLGDDYLAQLLEQEQADGRLADDKARQTQQATRAMYVQQHRDAGDLPLWAQKQVYIALGGLLLSAGVLGVDATPMEGFDADLLDAELGLAERGLHALVLVALGHHADGDFNATLPKSRLAPELAFTHL	PGPT0005925_509	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_NITRO-AROMATE_DEGRADATION,PGPT0005925-nfnB|nfsB-K10679	NA	NA
BMS020_02606	1008			Zinc-type alcohol dehydrogenase-like protein	ATGAAAGCCATCGCCTATACCGACCACGGCCTGCCGATCGACGATGCGCGCGCGCTGGTCGAGATCAGCCTGCCCTCGCCCGAACCCGGCCCGCGCGACCTGCGGGTCAAGGTGCACGCGGTCTCGGTCAATCCGGTCGACACCAAGCTGCGCCGCAATGCCGCCACCGCGCAGCCACGCGTGCTCGGCTTCGACGCGGTCGGCACGGTCGACGCGGTCGGCAGCGCGGTCAGCCTGTTCAAGCCCGGCGACAAGGTGTTCTACGCCGGCGCGATCGACCGCCCGGGCAGCAACGCCGAATACCAGCTGGTCGACGAGCGCATCGCCGGGCACGCCCCCCGCACGCTCGACGATGCCGCCGCCGCGGCGCTGCCGCTGACCGCGATCACCGCCTGGGAGCTGCTGTTCGACCGGCTCGGCGTGGCCGAGGGCGGCGGTGAGGGCCAGACCCTGCTGGTGGTCGGCGCGGCCGGCGGGGTCGGCTCGATACTGGTGCAGCTGGCACGCCAGCTGACCAGGCTCACCGTGATCGGTACCGCCTCGCGCCCGGACACCCAGGACTGGGTGCACGCGCTCGGCGCCCACCACGTGATCGACCACCGCGAACCGCTGACCGATGGGCTCAAGCGCCTCGGCATCGCGCAGGTGGCGCTGGTCGCCAGCCTGACCCACACCGACCAGCACTTCGCGCAGATCGTCGAGGCGTTGGCGCCGCAGGGCAAGCTGGCGCTGATCGACGATCCGGCGGTGCTCGACGCGCTGCCGCTCAAGCGCAAGAGCCTGTCGCTGCACTGGGAGCTGATGTTCACCCGCTCGTTGTTCCAGACCGAGGACATGATCGCCCAGCACCAGCTACTGGAGCGGCTCGCGGCGCTGATCGACGCCGGCACCCTGCGCAGCACCCTGGCCGAGCACTTCGGCACGATCAGCGCCGACAATCTGCGCCGTGCCCACGCGTTGATCGAAAGCCAGCGCGCGCGCGGCAAGATCGTCCTCGAAGGCTTCTGA	MKAIAYTDHGLPIDDARALVEISLPSPEPGPRDLRVKVHAVSVNPVDTKLRRNAATAQPRVLGFDAVGTVDAVGSAVSLFKPGDKVFYAGAIDRPGSNAEYQLVDERIAGHAPRTLDDAAAAALPLTAITAWELLFDRLGVAEGGGEGQTLLVVGAAGGVGSILVQLARQLTRLTVIGTASRPDTQDWVHALGAHHVIDHREPLTDGLKRLGIAQVALVASLTHTDQHFAQIVEALAPQGKLALIDDPAVLDALPLKRKSLSLHWELMFTRSLFQTEDMIAQHQLLERLAALIDAGTLRSTLAEHFGTISADNLRRAHALIESQRARGKIVLEGF	PGPT0019417_437	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
BMS020_02607	915	dmlR_18		HTH-type transcriptional regulator DmlR	ATGATCCGGTTCGACGACCTCGCCCTGTTCGTGCGCACCGCCGCGCTTGGCAGTTTCTCGCGCGCCGCGCGCGAGGCCGATCTGCTGCCCGGCCAGGTCAGCGCGGCGGTGGCGCGGCTGGAACGCGAACTGGACCTGCGCCTGTTCGCACGCTCCACCCGCAGCCTGCGCCTGACCGCCGAGGGCGAGCAGTACCTGCCCTACGCCCAGCAGGTGCTGGAGACGCTGCGCGAGGGCCGCGAGCGGCTGCATGGCGCCGATGCCGAGCTGCACGGCGTGCTGCAGGTCGCCGCGCCGTCGGACTTCGGCCGCAACCTGCTGCTGCCGTGGCTGACCGCGTTCCGCCGCGCGCATCCGCGCCTGCACCTGCGCCTGCACCTGTCCGACGAGGTCGCCGACGTGTTCCGCGATCCGGTCGACGTGGCGATCCGGCTCGGCCATTTCGACGAGGCCCGCTACGTCGCGCTGCCGCTGCTGCCGGACAACCGCCGCGTGCTGGTGGCCACGCCGGGCTACCTCGCCGCGCACGGGCAGCCGGCCACGCTGGAGGCGCTGCGCGAACACGCCTGCCTGACCTACGTGCTGGGCGGGCGCGCGCACGAGCGCTGGGGCTTCAATGTCGACGGCCGCCGGGTGGCGGTGCCGGTGCGCGGGACCATGCTGTGCGACGACGCCGACGTGGTGCGGCGCTGGGCGCTGGCCGGCGAAGGCATCGCCTACAAGTCGTGGCTGGACGTGGCCGCCGACGTGCACGCCGGGCGCCTGCAGGCGCTGTTTCCCGGCTGGGGCGAGAGCGTGCCGCTGCATCTGGTGTGCCCGCACCGCAAGCAGTTCTCGCCGGCGATCCGGTTGCTGCACGCCTGGCTGGCGCGCCAACTGCAGGCGCTGCTGGCGGCGTATCCGCTGCCGGCCTGA	MIRFDDLALFVRTAALGSFSRAAREADLLPGQVSAAVARLERELDLRLFARSTRSLRLTAEGEQYLPYAQQVLETLREGRERLHGADAELHGVLQVAAPSDFGRNLLLPWLTAFRRAHPRLHLRLHLSDEVADVFRDPVDVAIRLGHFDEARYVALPLLPDNRRVLVATPGYLAAHGQPATLEALREHACLTYVLGGRAHERWGFNVDGRRVAVPVRGTMLCDDADVVRRWALAGEGIAYKSWLDVAADVHAGRLQALFPGWGESVPLHLVCPHRKQFSPAIRLLHAWLARQLQALLAAYPLPA	PGPT0012355_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-FIT-SYSTEM,PGPT0012355-fitG-K19618	NA	NA
BMS020_02608	618	leuE_3	COG1280	Leucine efflux protein	ATGGGCATCGCCAACGTATGGGCGTTCGTGGCCGCGGTGCTGGTGTTCCTCGCCCTGCCCGGCCCCGGCACCTTCACCCTGCTCACCTCGACCGCGCGCGGCGGCATGCGCGCCGGCTATGCCACGTTCTGCGGGCTGCTGCTCGGCGACCAGGTGCTGATCTGGCTGGCGGTGGCCGGGGTGGCGGCGGTGCTGCAGGCCAATCCGCTGCTGTTCAACGCGCTGCGCCTGGCGGGCGTGGCCTATGTCGGCTGGATCGGCCTGCAGCTGTTGCGCACACCCCGACGCCAGCCTACCAGCGCGGCGCCGGCGCTGCCGCAGCGCGGCCACTATTTCCGCCAGGGCGTGCTGGTGGCGCTGCTCAACCCGAAGGCGATCATCTTCTACATGGCGTTCCTGCCGCTGTTCGTGGCGCCGGCCACGCAGCGCGGGCTGGCCACGTTCGCGACGATGGCGGTGCTGATCGCGGCGCTCAGCCTGTTGTGGTGCAGCGTGCTGATCGTGCTCGGCGACGCGCTGGCGCGGCGGCTGGCGCAGCGGCCGCGGGTGGCGCTGTGGATGCGCCGCCTCACCGGCGCCGCCCTGCTCGGGTTTGCCGTGCGACTGGCGCTGGGCTGA	MGIANVWAFVAAVLVFLALPGPGTFTLLTSTARGGMRAGYATFCGLLLGDQVLIWLAVAGVAAVLQANPLLFNALRLAGVAYVGWIGLQLLRTPRRQPTSAAPALPQRGHYFRQGVLVALLNPKAIIFYMAFLPLFVAPATQRGLATFATMAVLIAALSLLWCSVLIVLGDALARRLAQRPRVALWMRRLTGAALLGFAVRLALG				NA	NA	NA	NA	NA
BMS020_02609	444			hypothetical protein	ATGCTGCCCCGTTGCCTGCTTGCCGTCGCCCTGCTCGCCACTTCCGCCTCGGCCCTGGCCGCCAAGTCCGAAGTCGCCCCCACCGAGTGCGAGAACAACTTCACCGCCGCCGGCTCGTTCTCCTCCGGCAAGACCTTCAAGTCCTCGCAGCAGTACACCGGCATTCCCTACGACGCCGTGTTCGACAAGGTCGCCAATGCGATCACCGCCGATGGCCTGTCGATCATCGACCAGAGCAAGGAACGCGGCTACATCCGCGCCAACAACCATGTGAGCTTTGGCGAAGGCGGGACCGCGCAGGCCCCGCTGCGCGTGCTTGTGATCGGCCGGCCCGACGGTTCGGTCAAGGTCGACGCGACGTTCAACATCGCCGGCGGCCAGATCACCACCAAGAAGGCGATCATGACCCACATGTGCCAGATGCTGGCCGCGCCGCTGTCCTGA	MLPRCLLAVALLATSASALAAKSEVAPTECENNFTAAGSFSSGKTFKSSQQYTGIPYDAVFDKVANAITADGLSIIDQSKERGYIRANNHVSFGEGGTAQAPLRVLVIGRPDGSVKVDATFNIAGGQITTKKAIMTHMCQMLAAPLS				NA	NA	NA	NA	NA
BMS020_02610	390			hypothetical protein	ATGACCTCAGCCACCACCACCCTGCGTACGCGCGCGCTGGCGCTGGGCTTTTTTGCCTTCGTCACGGCGTTCGCGGTGCTGGTCTGGTTCCTGGTGCGGCCGTATGGCGGCACGTATTTCTTCGCGGTGCATTTCCTGGTCGGGCTGGGGCTGCCGTTCCTGGTCTACGCGACCGGCGCCAGCCCGGCGTGGTTCCGCGCCGGGCTGGTGGTGACCGCGCTGGTGCTGGTCTGGCTCAACCTCGGCGGCCACGATGCCGCCGGCCTGGCCCCACGTGTGCTCGACTGGGCGCAGGTCGCCGCCGGCGCACTCGGCCTGCTGCTGGCGTGGGGCGTGCACCTGCTCTATCGCCGGGTGCAACCGGCGCACCGCGCATCGATCGGACGCTGA	MTSATTTLRTRALALGFFAFVTAFAVLVWFLVRPYGGTYFFAVHFLVGLGLPFLVYATGASPAWFRAGLVVTALVLVWLNLGGHDAAGLAPRVLDWAQVAAGALGLLLAWGVHLLYRRVQPAHRASIGR				NA	NA	NA	NA	NA
BMS020_02611	1437	yhdG_1	COG0531	putative amino acid permease YhdG	ATGCAGTCCTGGCTCCGGCGCAAGCCCATCGATCAGGTCACCGTGCATGAGGCCGGGCGCCGGCTGGTGCCGACGCTCAGCTGGCCGCATCTGGTCGCGCTGGGCATCGGCGCGATCGTCGGCACCGGCATCTACACGCTGATCGGCGTCGGCGCCGACAAGGCCGGCCCGGCAGTGCTGCTGTCGTTCGTCGCCGCCGGCATCGTCTGCGCCTGCGCGGCACTGGCCTATGCGGAGATGGCCACGCTGATGCCGGCCGCCGGCAGCGCCTATACCTACAGCTACGCCGCGCTCGGCGAGACCATCGCCTGGGTAGTGGGCTGGAGCCTGATCCTCGAATACTCGCTGGTGGTCAGCACCGTCGCGGTCGGCTGGTCCGGCTACTTCGTCGGCTTCCTGCACTGGGTGCACCAGCAGTTCGGCTGGAATGTCGAGCTGCCGGCGGCGCTGGCTGCCGGGCCGCATGCCGGCGGCATCGTCAACCTACCGGCGGTGGTGATCACCTTCCTGGTCGCCGGCATGCTGATGGCCGGCACCAAGGAGAGCGCCACGCTCAACGCGATCCTGGTGGTGCTCAAGCTGATCGCGCTGGCGGTGTTCGTCGCGGTGGCGCTGCCGGCGTTCGACAGCAGCAACCTGCAGCCGTTCATGCCGTACGGCTTCTCCAAGTCGCTCGGCCCGGACGGGGTGGAGCGCGGCGTCATGGCCGCCGCGGCGATCATCTTCTTCGCCTTCTACGGCTTCGATGCGATCTCCACCGCGGCCGAGGAGACCAAGAACCCCGGGCGCGACCTGTCGATCGGCATCGTCGGCTCGATGATCGGCTGCACGCTGATCTACGTGCTGGTGGCGCTGGCCGCGGTCGGCGCGATGAGCTTCAGCGTGTTCGGCAAGAGCGCCGAGCCGCTGGCGCTGATCATGCGCGAGCTCGGCCATGGCACCGCGGCGGTGGTGATCGGCGCGGTGGCGATCATCGCGCTGCCGACCGTGCTGCTGGCGTTCCTGTACGGCCAGAGCCGGATCTTCTTCGTGATGTCGCGCGACGGCCTGCTGCCGCGCGGGTTGTCCAAGGTCAACGCACGCACCGGCACGCCGGTGGCGACCACGCTGTTCACCGCGGTGCTGGTGGCGGCACTGGCCGGCGTTGCGCGGCTGGACGAGATCGCCGCGCTGGCCAACGCCGGCACGCTGGCCGCGTTCGTCGCCGTGGCCGCCTGCCTGCTGGTGCTGCGCAAGCAGGCGCCGGAGCTGCCGCGCAGCTTCCGCACGCCGGCGGCGTGGCTGGTCGGGCCGGTGGCGATTTTCGGCTGCCTGTACCTGTTCTGGAGCCTGCCGACCCGCACCCAGCTGTGGTTCCTGGCCTGGAACGCGCTCGGTCTGGTCGCCTACCTGGCCTACGGCCGACGCGGCGCGCTGCTCGGGCGCAAGCCGGGCTGA	MQSWLRRKPIDQVTVHEAGRRLVPTLSWPHLVALGIGAIVGTGIYTLIGVGADKAGPAVLLSFVAAGIVCACAALAYAEMATLMPAAGSAYTYSYAALGETIAWVVGWSLILEYSLVVSTVAVGWSGYFVGFLHWVHQQFGWNVELPAALAAGPHAGGIVNLPAVVITFLVAGMLMAGTKESATLNAILVVLKLIALAVFVAVALPAFDSSNLQPFMPYGFSKSLGPDGVERGVMAAAAIIFFAFYGFDAISTAAEETKNPGRDLSIGIVGSMIGCTLIYVLVALAAVGAMSFSVFGKSAEPLALIMRELGHGTAAVVIGAVAIIALPTVLLAFLYGQSRIFFVMSRDGLLPRGLSKVNARTGTPVATTLFTAVLVAALAGVARLDEIAALANAGTLAAFVAVAACLLVLRKQAPELPRSFRTPAAWLVGPVAIFGCLYLFWSLPTRTQLWFLAWNALGLVAYLAYGRRGALLGRKPG	PGPT0020810_3507	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020810-TC_APA|yhdG-K03294	NA	NA
BMS020_02612	738	cutC_3	COG3142	Copper homeostasis protein CutC	GTGAGCGCGGCGCGGCCGCAGCTGGAGATCGCCGCCAATGCGCTGGGCTCGGCGCTGGCCGCGCAGGCCGGCGGCGCCGACCGGGTCGAACTGTGCGAGAACCTTGGCGAAGGCGGCTGCACGCCGTCCTACGGCACCCTGGCGCTGGCGCGCGAGCGGCTGCGGATCGGCCTGCACGTGCTGATCCGGCCGCGCGCCGGCGACTTCCTGTACATGCCGGACGAGCTGGCGGTGATGCGGCGCGATATCGAGCTGTGCGTGCGGCTGGGCGTGGATGGCGTGGTCATCGGCGCGCTTGATGCCGAGGGCGAGGTCGACCGGACCGCCTGCGCCGAACTGATCGCCGCCGCGGCCGGGCTGGAGGTCACCTTCCACCGTGCCTTCGATGCCGCGCGCACGCCGGCGCGCGCGTTGGAGGACATCGTCGCGCTTGGCTGCACGCGGGTGCTCAGTTCCGGCGCCGCCGCCGCGGCGTTGGACGGTGCGACGGCGTTGGCCGCGCACGTCGCGCAGGCGGCCGGGCGGATCCAGGTCATGGCCGGCGCCGGCATCACCCCGGCCAACCTGGCCGAGGTCGCGCGCCGCACCGGAGCCGATGCACTGCACGCGTCGGCCAAGCACGTCGCGCGCTCGGCGATGCGCTACCGCAACGCTGCGCTGGCCGGGCTCGACCCGGACTGGCAGGCCAGCGACGCCGCCACCGTGGCGGCGCTGCGGCAGGCGCTGGACGCGCTGTAA	MSAARPQLEIAANALGSALAAQAGGADRVELCENLGEGGCTPSYGTLALARERLRIGLHVLIRPRAGDFLYMPDELAVMRRDIELCVRLGVDGVVIGALDAEGEVDRTACAELIAAAAGLEVTFHRAFDAARTPARALEDIVALGCTRVLSSGAAAAALDGATALAAHVAQAAGRIQVMAGAGITPANLAEVARRTGADALHASAKHVARSAMRYRNAALAGLDPDWQASDAATVAALRQALDAL	PGPT0004085_895	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004085-cutC-K06201	NA	NA
BMS020_02613	1002			N(4)-(Beta-N-acetylglucosaminyl)-L-asparaginase	ATGACCGATCGCAGGCAGTTCCTCCAGGCCGGAATGCTGGCCGCCGGTGCGCTGGCGTTGCCGCGCGTGCAGGCCGCCTCGGGTGCCAACGGCGCGCGGGTGGTATCGACCTGGGACTTCGGCGTGCCGGCCAACCAGGCCGCGTGGAAGGTGCTGGCCGGCGGCGGCAATGCGCTGGACGCGGTCGAGGCCGGCGCGCGCTGGGTCGAGAGCGAGCTGTGCAATCCCACGGTCGGCCATTGCGGCTATCCCGATCGCGATGGCGTGCTGACCCTGGACGCCAGCATCATGGACGGCGACGGCCGCTGCGGCGCGGTCGCGGCGATCGAGGACATCGATCACCCGATCTCGGTGGCGCGCGCGGTGATGGAGAAATCGCCGCACGTGCTGCTGGTCGGGCAGGGTGCGCAGCAGTTCGCGCTCGAGCAGGGCTTCGCCAGGACGCCGCTGCTGACGCCCGAGGCGAAGGCGGCCTGGGAGGAGTGGAAGAAGACCTCCAAGTACCAGCCGCAGATCAACGCCGAGCGCCGGCTGATTCCCGGCAACAGCCAGAACCACGACACCCTCGGCATGCTGGCGATCGACCGCAACGGCCACCTGGCCGGCGCCTGCACCACCAGCGGCATGGCGTGGAAGCTGCACGGCCGGGTCGGCGACAGCCCGATCATCGGCGCCGGGCTGTACGTCGACAACGCCGTCGGCGGCGCCACCGCCTCGGGCGTCGGCGAGGAGATGATCCGCAACGCCGCCAGCTTCCTGGTGGTCGAGCTGATGCGCCAGGGCCGCTCGCCGGCGCAGGCCTGCCGCGAGGCGATCGCGCGCGTGGTCAAGAAGCGCCCGGAGGCGAGCAAGACCCTGCAGGTGTGCTTCCTGGCCTTGAACAAGCACGGCGAGGTCGGCGCCTACGCGCTACACAAGGGCTTCGTCTACGCGGTCTGCGACGGCACGCGCCAGGACGACCTGCGCGATTCGGCCTCGGTCTACAGCAGCAGCCAGACGTGA	MTDRRQFLQAGMLAAGALALPRVQAASGANGARVVSTWDFGVPANQAAWKVLAGGGNALDAVEAGARWVESELCNPTVGHCGYPDRDGVLTLDASIMDGDGRCGAVAAIEDIDHPISVARAVMEKSPHVLLVGQGAQQFALEQGFARTPLLTPEAKAAWEEWKKTSKYQPQINAERRLIPGNSQNHDTLGMLAIDRNGHLAGACTTSGMAWKLHGRVGDSPIIGAGLYVDNAVGGATASGVGEEMIRNAASFLVVELMRQGRSPAQACREAIARVVKKRPEASKTLQVCFLALNKHGEVGAYALHKGFVYAVCDGTRQDDLRDSASVYSSSQT	PGPT0018780_567	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCAN|GLYCAN_BREAKDOWN,PGPT0018780-aspG-K01444	NA	NA
BMS020_02614	1014	glk_1	COG0837	Glucokinase	ATGGACCACACGGCGCCGCAGCCACCAGCCCAGGAGGCTGTGCCACCGGCCGGCGAGGCGCCCCTGGCGCCGGACGTGCAGCTGATCGCCGCCGATGTCGGCGGCACCCACGCCCGCCTGGCGCGGGTCCGGCTGCATCCGCACGCCGCCCCGCAGATCCTCGCGCTGCGCCGCTACCTCGGCGCCGACTACCCGTCGCTGGCGGCGATCCTCGACGACTTCCGCCGTGGCGATGGTGCCGGCCTGGACCACGCGGTGGTCGCGATCGCCGGCGTGGTCGACGGCGACACCTTGGTCAATTCCAACCTGCCGTGGCCGGTCACGCTGGCCGCCACCCGCGTCGATGCCGGGCTGGCGCGCTTGGACGTGGTCAACGATTTCGAAGCGGTGGCGCGGGCGATCGCGCATGTCGACACGGCCGCGCTGGAACCGCTGAACGGCATCGCCGCGTCGGCGCCGCGCTGGCCGGCGCTGGTGCTCGGCCCGGGCACCGGTCTGGGCGTGGCGCTGCGGCTGGCCGACGGCAGCGTGCTCGCCAGCGAGGCGGGGCATGCCGCGCTCGCCCCCGGCAACGCGCTGGAGCTGCAGGTGCTGGCGCGGCTGCAGCAGCGCTGGCCGCACGTGGACAACGAACGGGTGTTCTCCGGCCCGGGCCTGCTCAACCTGTACCAGGCGCTGTGCGACATCGACGCGGTGACGCCGCGCTGGCACAGCCCGGCGCAGCTGGTCGAGGCCGCCGCGCACGACGCGCTGGCCGCGCGCACGCTGGAGGTGTTCTGCGCCTGGCTCGGCAGCCTGTGCGGCGACCTGGCGGTGGCCTTCGGCGCGCGGGCGGTGTACCTGACCGGCGGCGTTGCCGGGCACCTGGCCGTGCCGCTGGCACGCAGCGCATTCGGTGCGCGCTTCCGCGCCAAGGGCGTGCTGTCGGGCATGCTGGCCGAGGTGCCGGTGTGGCGCGTCGCGCATGGCGAACTGGGCGTGCTCGGCGCGGCCGCGGCAGCGCGCAGCGACTGA	MDHTAPQPPAQEAVPPAGEAPLAPDVQLIAADVGGTHARLARVRLHPHAAPQILALRRYLGADYPSLAAILDDFRRGDGAGLDHAVVAIAGVVDGDTLVNSNLPWPVTLAATRVDAGLARLDVVNDFEAVARAIAHVDTAALEPLNGIAASAPRWPALVLGPGTGLGVALRLADGSVLASEAGHAALAPGNALELQVLARLQQRWPHVDNERVFSGPGLLNLYQALCDIDAVTPRWHSPAQLVEAAAHDALAARTLEVFCAWLGSLCGDLAVAFGARAVYLTGGVAGHLAVPLARSAFGARFRAKGVLSGMLAEVPVWRVAHGELGVLGAAAAARSD	PGPT0017730_941	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017730-glk-K00845	NA	NA
BMS020_02615	414			hypothetical protein	ATGGATCTGGATCGTTCCACCACGTCTTCGGCTGATCTCAGCCAGTACAGCCCCAAATGGCAGTTCCGCTTCGGCTTCTTCGAGCGCCATGGCGGCCCGGCCAGCCCGGACTTCAAGGCGGCGTTCAAGGCGCTGTCGTTCGGCCAGCGGCTGAAGATCAACATGAACTTCTTCGCGTTCTTCTTCGGCTTCATCTATTTCTTCATCCTCGGCCTGTGGCGCAAGGCGCTGGTGCTGATCGGCGTGTCGCTGGCGATCGGCGTGGTCGCCTTCTTCCTGCCGGATGCGGTCGCACGCGGCCTGGGCGTGGCCTATTCGGTGCTGGTGGGGATGTCGGCCAACTACGCCTTCTACCTGGACCGCATCAAGGGCAGCACCAGCTGGAATCCCTGGGAAGGGGTGCGCTGGTTCTGA	MDLDRSTTSSADLSQYSPKWQFRFGFFERHGGPASPDFKAAFKALSFGQRLKINMNFFAFFFGFIYFFILGLWRKALVLIGVSLAIGVVAFFLPDAVARGLGVAYSVLVGMSANYAFYLDRIKGSTSWNPWEGVRWF				NA	NA	NA	NA	NA
BMS020_02616	327			hypothetical protein	ATGCCGATGATCGGCACCATCCGTTGCCGCCGATGCTCCGCCCCGGTCAGCGTCCACCCGTTCGACCTGCTGCCATCGCGGCACCAGACCGCCCGCTGCCGGCACTGCGGACACGACACCGCGCTGCCCTACCTGCGCAACGTGATGGGTTGCGTCGCGGGCCTGGTCGCCGGGGTGACGGTCGCGCGCCGCGTGCTTGCCGGCGCCGAGGCGCGCTACGGCGCTCCGCTTGGCCCCGGCGCGTTTGCGGCCAGCCTGACCCTGGGGCTCGTCGCCTGGGCAGCCGCCACCGTGCTGGTCGCGGCGCTGCTCTACCGGTTGCGGTGA	MPMIGTIRCRRCSAPVSVHPFDLLPSRHQTARCRHCGHDTALPYLRNVMGCVAGLVAGVTVARRVLAGAEARYGAPLGPGAFAASLTLGLVAWAAATVLVAALLYRLR				NA	NA	NA	NA	NA
BMS020_02617	1362	dnaK_2		Chaperone protein DnaK	ATGAAGCTCGGCATCGATTTCGGCACCAGCAATTCCGCCGCCGCGGCCATCGTCGACGGCGAACTGCGCCAGGTGCGCTTCGGCGAGGCGCTGCAGTTCCGCACCTCGGTGTACTTCCCCGAGGTGATGCGCGAGTTCGACGACTTCGTGCCCGACGACGCGCAGGAGTACCGCATCGAGCAGCTGGTCGACACCGCGCGCCGCGAAGCCGTCGCCGCCGGCCAGACCCGGCCGCTGCCGGCGCTGCGCCGCGAGGCGCTGCGGGTGGTGCGGCGCGAGTGGATGGAAGAGCAGATGCGCCAGCCGCGCAGCTCGACCACGCTGCTGCAGAACGCGGTGTACGGCGACGATGCGCTCGACGCCTACTTCGCCGAAGGCGAGGGCAACCTGGTGCAGAGCCCGAAGTCGATGCTCGGCTACAACCTGCACCCGCGCGCTAAGCAGACCATCACCGGCATCGCCGCACACATCCTCGAGCACATCCGCCTGAGCGCGCAGCAGCAGTTCGGCCAGCCGGTGCGCAGCGCGACGCTGGGACGGCCGGTGCAGTTCCGCAGCTCGCTCGGCGAGGCCGGCAACGCCCAGGCGCTGGAGATCCTGCAGGCCGCGGCGATCGCCGCCGGTTTCGATGCGATCGATTTCCTCGAAGAGCCGTCGGCCGCGGCGATGGGCCACCACGCCGCCAGCGCGCAGCGCCACGAGGTGGTGGTGGTCGACATCGGCGGCGGCACCAGCGACGTGGCGCATGCCGAGGTGGGCGGCAACGAAGCGCCGCGCGTGCACCGCGCCTGGGGCATCGCCCGCGGCGGGACCGACATCGACCTGGCGCTGAGCCTGGCCGGCTACATGCCGCTGTTCGGCCGCGGCATCACCCGCGTGCCGAACCACCATTACGTCGAAGCGGCGACGGTGCACGACCTGACCCGCCAGCGCGACTTCCAGCGCCACGACTACGCCGCTGTCGACGCGCCGTACGGTCCGCGCCTGCAGGCGCTGCAGGACACCGGCAACACCGCGCGGCTGGTGCGCGGCGTGGAGCGCAGCAAGATCGCGCTCAGCGCGCAGGCCACGCATGACGATGCGCTGGACTACATCGAGCGCGGCCTGGTCGCGGCGCTGCGCGCCGACGGGCTGGCGACGGCGGCCGAAGGCTTTCTCGGCGAGCTGACCGCGCTGCTGCACCAGGTCGCCGCCGACATCGGCCACGCGCCCGACGCGGTGTTCCTGACCGGCGGCATGTCGCGCGCGCCGTACGTACGCGCGGCGATCGCTGCCGCGTTCCCAGGCGTGGCGCAGGTGCATGGCGACCCGTCGTTCGGCGTGGTGCAGGGATTGGCGCTGGCGGCGGCCGCGGCGCGCTGA	MKLGIDFGTSNSAAAAIVDGELRQVRFGEALQFRTSVYFPEVMREFDDFVPDDAQEYRIEQLVDTARREAVAAGQTRPLPALRREALRVVRREWMEEQMRQPRSSTTLLQNAVYGDDALDAYFAEGEGNLVQSPKSMLGYNLHPRAKQTITGIAAHILEHIRLSAQQQFGQPVRSATLGRPVQFRSSLGEAGNAQALEILQAAAIAAGFDAIDFLEEPSAAAMGHHAASAQRHEVVVVDIGGGTSDVAHAEVGGNEAPRVHRAWGIARGGTDIDLALSLAGYMPLFGRGITRVPNHHYVEAATVHDLTRQRDFQRHDYAAVDAPYGPRLQALQDTGNTARLVRGVERSKIALSAQATHDDALDYIERGLVAALRADGLATAAEGFLGELTALLHQVAADIGHAPDAVFLTGGMSRAPYVRAAIAAAFPGVAQVHGDPSFGVVQGLALAAAAAR				NA	NA	NA	NA	NA
BMS020_02618	357			hypothetical protein	ATGAAGCACACCCTGATCCTGCTGCCGCTGTTGGCGATCACCGCCACCGCCACCGCCCAGACCCCGGCGCGTCCCGCCGGTGGCTATACCGGTCCGGGCATTGCCGCCAGTACCGTCGCCGCGGCCAAGGACGCCCCGGACGACACCCGGGTCCGTCTGCGCGGCAAGCTCAGCCAGCACCTTGGCGGCGACCGCTACGTGTTCCGCGATGCCAGCGGCAGCCTGCATGTCGATATCGACGCCGACCTGTGGCAGGGCCAGAGCATCGGTGCCGACGACCTGGTCGAGCTCGACGGCGAGATCGACAAGGACTGGACGTCGCTGGAGCTGGATGTGGATCGCATCCGCAAGCTCTGA	MKHTLILLPLLAITATATAQTPARPAGGYTGPGIAASTVAAAKDAPDDTRVRLRGKLSQHLGGDRYVFRDASGSLHVDIDADLWQGQSIGADDLVELDGEIDKDWTSLELDVDRIRKL				NA	NA	NA	NA	NA
BMS020_02619	675			hypothetical protein	ATGAACAAGCTCCTGCCGTCCGTCCTCGTCCTTTCGGCCTGCTGCGCGCCTGCGGCCTTCGCCGCCGATGCGCCCGACCAGCGCTTCGCGGTTACGCTCGGCTATGCCGCTCAACAGCTGCATGGCGATACGCTGGTGCCGGTCGCGCTGGGTAACGCCTATCCGGCCGGTAGCGAAGTGGAGAATGGCGACGATGCCGGTGGCGCCACGCTCGCGCTCAACTGGTACCTGACCCGCAACATCGCGCTGGAGCTGTGGGGCGCGACCGCCAGCGACAGCGACGTCGAGATCGACGTCGAGAACGGGGCGGATGTGGGCGTCGCCGGCTATCGCACCCGCCCGCTGGCGCTGAGCGTGCAGTACCACTTCACCGACCTGTTCGACGGCGCCGCGGCGCGACTGACGCCGTTCGTCGGCCTCGGCTACCACCACACCGAGGTCAGCAGCGTGCGCAGCAACGCGGCGCTGGCCGACTACGCCGGCCTGGAGATCAGCGGCGGTGGCGGGCTGGCTGCCTCGGCCGGGCTCGACTGGGCGCTGGGCGAGCGCTGGTTCGTGCGCGGCGACGTGCGCTACCTGCGCTGGAGCGCCGAATCCAAGGTCGGCGGCCAGACCCTGGTCGATGCCGACATGGACACGCTCAGCTACGGCGCCAGCCTCGGCCTGCGCTTCTGA	MNKLLPSVLVLSACCAPAAFAADAPDQRFAVTLGYAAQQLHGDTLVPVALGNAYPAGSEVENGDDAGGATLALNWYLTRNIALELWGATASDSDVEIDVENGADVGVAGYRTRPLALSVQYHFTDLFDGAAARLTPFVGLGYHHTEVSSVRSNAALADYAGLEISGGGGLAASAGLDWALGERWFVRGDVRYLRWSAESKVGGQTLVDADMDTLSYGASLGLRF				NA	NA	NA	NA	NA
BMS020_02620	306			hypothetical protein	ATGTCCGTGCCTATCGCCTCCCAGATGCTGTTGCTCGCGTTGTCGCTGGATGCCGCAACGGCCACCGACCCCGCCGTCGAGCGCCAGCAGGCCGAGGTGCGCGAAGCGGTGCGGTCCGGGCGCTTCGTGCCGCTCGAGCAGGTACTCGCCGATGCGATGCGGCGCTACCCCGGCAAGCTGGTCGAGGTCGAGCTGGAAGACGACGACGAATACGAGATCGAAATCCTCGGCCCGGATGGCGTGGTGATGGAACTCGAGTACGACGCCGTCACCGGCAAGCTGCTCAAGATCGAAGTCGAGGACTGA	MSVPIASQMLLLALSLDAATATDPAVERQQAEVREAVRSGRFVPLEQVLADAMRRYPGKLVEVELEDDDEYEIEILGPDGVVMELEYDAVTGKLLKIEVED				NA	NA	NA	NA	NA
BMS020_02621	663	phoP_4		Transcriptional regulatory protein PhoP	ATGCGCATCCTGCTCGCCGAAGACGATCTGGCGCTGGCCGAGCGTGTCCGCGCGGCGCTGCAGGACGCCGGCTTCGTGGTGGTGCACCACGCCAACGGCAGCGACGCCGAATACGCCGGCCAGGGCGAGCCGTTCCAGGCCGCGGTGGTCGACCTCGGCCTGCCCGGGCTGGACGGCCTGAGCGTGCTGGAGCGCTGGCGGCGCGCCGGTTGCACACTGCCGGTGCTGGTGTTGACCGCGCGCGCGCGCTGGCACGACAAGCTGGCCGGCTTCGATGCCGGCGCCGACGACTACCTGACCAAGCCGTTCCACGTCGACGAGCTGATCCTGCGGCTGCGCGCGCTGATCCGGCGCAGCACCGGCCATGCGCATCCCTGCCTGCAGGTGGGTCCGCTGCAGCTGGACACCAACGCCGGCCGCTTCGAGCTCGATGGCGTGCCGCTGCGGCTGACCGCGCAGGAGTTCCGCATCCTGAGCTACTTCATGCATCACCCGGGCAGCGTGATCAGCCGCGCCCGGCTTGGCGAGCATGTCTACGAAGCGGGTTTCGATCCCGACTCGAACACGCTGGAGGTGCTGATCGGACGGATCCGCCGCAAGCTCGGCGTCGAACTGATCCACACCCTGCGCGGCCAGGGCTACCGGCTCGCGGCGGAGGCATGA	MRILLAEDDLALAERVRAALQDAGFVVVHHANGSDAEYAGQGEPFQAAVVDLGLPGLDGLSVLERWRRAGCTLPVLVLTARARWHDKLAGFDAGADDYLTKPFHVDELILRLRALIRRSTGHAHPCLQVGPLQLDTNAGRFELDGVPLRLTAQEFRILSYFMHHPGSVISRARLGEHVYEAGFDPDSNTLEVLIGRIRRKLGVELIHTLRGQGYRLAAEA	PGPT0011060_302	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS|LIPID|IVA_REGULATION,PGPT0011060-phoP-K07660	NA	NA
BMS020_02622	1335	phoQ_2	COG0642	Sensor protein PhoQ	ATGAGCGCGGCCGGCTTCTCGCTGCGCAACCGCCTGCTGCTGGCCGGCGCGGCCGGCGTGCTGCTGGTCTCCTCGGTGGCGACCTGGATGCTCGGCAGCATGTTCGAGCGGGCGATCCGCAGCTCGCTCGAGCGGCGCCTCGGCGAGGACCTGATCTCGCTGCTGGCGCTGGTCGAGAGCGACCGCAACGGCCAGCTGCAGATGCGTCACGATCCCGACGACACCCGGTATGCGCGGGTGTTCTCCGGCGCGTACTGGCAGGTCTTCGATACCAGCGGACGGGCGTTGATGCAGTCGCGCTCGCTGTGGGACGAATCGCTGGCGGTACCGGCAGGGCTCGGCGATGGCGAGCCGCATCCGCTCGACCTGCAGGGGCCGATGCAGCAGCCGCTGCGTGCGCTGGCGCAGCAAGTCACGCTGCCGCGCGCGCAGCAGCCGCTGCTGTTCGTGGTGGCCGCCGACCGGAGCCATATCGCCGCCGAAGCCGGTGACTTCCGGCGGCGTACCGCACTGGCGCTGGCGATCCTGACCGCGCTGTGGGTCGCGGTGCTGCTGACCCAGGTGCATTACGGCCTGCGTCCGCTGGCCAGGCTCGGCCAGATCGCCAGGCAGGTGCGCACCGGCGAAGCCGCGCGCTTTCCCGAAGGTGGCCAGCCGCGCGAAGTCCAGCCGCTGGCCGACCATCTCAACGAGCTGCTGGACCACCACGGGCGCATGGTGGTGCGGGCGCGCAACAGCGCCGCCGACCTCGCCCATGCATTGAAGACGCCGCTGGCGGTGCTGATCGCCGAGAGCGAGGGCAGCGGCGCCGACTGGCGCACGGTCCTGCGCGAGCAGACACTGCGGATGCGCGCGAGCATCGATCGCCATCTCGCCGCCGGCGTGGCGGTGGATGCGCGCCAGCGCACGCCGGTGGCGGAGGTCGCCACCGCATTGGCGGCGTTGATGCAGCACGTGCATGCCGAGCGTGGCCTGCGCATCGACACCGGTGGCTGCGGCGCGGACGTGTTCGCCGGGGCACGCGAGGACCTGGAGGAGATGCTCGGCAACCTGCTCGACAATGCCTGCAGGTGGGCCCGCGCCTGTGTCCGCGTACACAGCAGGGTGCACGACGGACGCCTGTACATCGACATCGCCGACGACGGCCCCGGTCTGCCCGCCGAAGCACTGGAGCGCGTGCGCACCCGCGGGGTGCGGCTGGACGAACGCGCCTCCAGCAGTGGCCTGGGCTTGGCGATCGTCGACGAACTGGCCGCCAGCTACGCCGGCACGCTGCAGTTGGACAACGGCGCTCCCGGCCTGCGCGCGATCCTGCAGCTGCCGGCGGCGCCGTGA	MSAAGFSLRNRLLLAGAAGVLLVSSVATWMLGSMFERAIRSSLERRLGEDLISLLALVESDRNGQLQMRHDPDDTRYARVFSGAYWQVFDTSGRALMQSRSLWDESLAVPAGLGDGEPHPLDLQGPMQQPLRALAQQVTLPRAQQPLLFVVAADRSHIAAEAGDFRRRTALALAILTALWVAVLLTQVHYGLRPLARLGQIARQVRTGEAARFPEGGQPREVQPLADHLNELLDHHGRMVVRARNSAADLAHALKTPLAVLIAESEGSGADWRTVLREQTLRMRASIDRHLAAGVAVDARQRTPVAEVATALAALMQHVHAERGLRIDTGGCGADVFAGAREDLEEMLGNLLDNACRWARACVRVHSRVHDGRLYIDIADDGPGLPAEALERVRTRGVRLDERASSSGLGLAIVDELAASYAGTLQLDNGAPGLRAILQLPAAP				NA	NA	NA	NA	NA
BMS020_02623	1251			hypothetical protein	ATGAAGCTGCAAGCGCTGTGCATCGCCGTGTCTCTCGCCGTCGCCATCGTCGCCGCGCCGGCGCATGCGGTGGAGTTCTCCCAGGCCGAACTGACACGCGCGCTGGCGCTGCAGAAGACGCTGGTGACGCTGGACTCGCACCTGGATACGCCGGCCAATTTCGAGCGCGCCGATTTCGACATGCTCGCCGCGCACGCCGGCAATGCGCTGTCGCAGGTCGATTACCCGCGCATGGTCGACGGCGCGCTGGACGGTGGCTTCTGGGCGATCTACACCGGGCAGGGCGACCGCAGCGCGCAGGCGCACCTGGACGACCGCGATGCCGGGCTGCAGCGGCTGGTGGTGATCAAGCAGCTGCTGGCGGCGCATCCGGACATGTTCGCGCTGGCGACCACGCCGGCCGATGCGGCGCGGATCAAGGCCGCCGGCAAGCGCGTGGTCTACATCAGCATGGAGAACGCCAGCCCGCTGGTGGCCGATCCGTCGCTGCTGTCGTTCTACTACGCGCAGGGGCTGCGGCTGATGAGCACCGTGCATTTCCTCAACAACGAGTTCGCCGATTCGGCGACCGACCCGAAGGGCGCGCAGTGGCAGGGCCTGAGTCCGGCCGGCAAGGCGCTGGTGCAGCAGGCGCAGAAGCTCGGCATCGTCATCGACCAGTCGCATGCCTCCGATGCGGTGTTCGACCAGCTGATCGCGTTGTCGCCGGTGCCGATCCTGCTCTCGCACAGCGGCGCCAAGGCCGTGCACGCGCATCCGCGCAACCTCGACGATGCGCGGTTGAAGGTGCTGGCCGCGCATGGCGGGGTGATCCAGATGAATTCCTATGGTGGCTATCTGGTCGACAGCGGCGCCTCGGCGGAGCGCAAGGCCGCCGAGAAGGCCCTGCACGCCAAGTACGGCGACTGGGAACACATGAAGATCGCCGACGGCAGCCGCCTGGCCGCCGACCTGGCCGCGCTGGACGCGCGTTATCCGGTGCGCAAGGCCACGCTGGACGATTTCTTCGCCCACTTCGAGCACGTGCTCAAGCTGATCGGCCCCGAGCACGTCGGCATCGGCATGGACTGGGACGGTGGCGGCGGCGTGGAAGGCATGCGCGACGTGTCCGACCTGCCCAAGATCACCGCCTGGCTGCTGCGCAAGGGCTATAGCGAAAAGCAGATCGCCGACATCTGGGGCGGCAACGTGCTGCGGGTGATGCAGCAGGCGCAGGACTGGGCGGCAGCGCAACCCAAGCCCGCGGGCTAG	MKLQALCIAVSLAVAIVAAPAHAVEFSQAELTRALALQKTLVTLDSHLDTPANFERADFDMLAAHAGNALSQVDYPRMVDGALDGGFWAIYTGQGDRSAQAHLDDRDAGLQRLVVIKQLLAAHPDMFALATTPADAARIKAAGKRVVYISMENASPLVADPSLLSFYYAQGLRLMSTVHFLNNEFADSATDPKGAQWQGLSPAGKALVQQAQKLGIVIDQSHASDAVFDQLIALSPVPILLSHSGAKAVHAHPRNLDDARLKVLAAHGGVIQMNSYGGYLVDSGASAERKAAEKALHAKYGDWEHMKIADGSRLAADLAALDARYPVRKATLDDFFAHFEHVLKLIGPEHVGIGMDWDGGGGVEGMRDVSDLPKITAWLLRKGYSEKQIADIWGGNVLRVMQQAQDWAAAQPKPAG	PGPT0020950_921	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
BMS020_02624	831	yddE_2	COG0384	putative isomerase YddE	ATGGACCTGCAACGCTTCAGTGCCTTCTGCGATGGCGACGCCGGCGGCAATCCGGCCGGGGTGGTGATCGCCACGGCATTGCCGGACGCGGCGGCGATGCAGGCGCTGGCGGCCGAGGTCGGCTATTCGGAGACGGTGTTCGCCGCCCCCGAGGGCGAAGGCTGGCGGGTGCGCTATTTCTCGCCCGAGGCGGAAGTGGATTTCTGCGGCCACGCCACCATCGCGCTCGGCGCGGCGCTGGCGCGCCGCTTCGGCGACGGTCGCTTCGCGCTGCAGCTCAACCATGCCGCGATCAGCGTCGAGGGCGACACCCGCGACGGCCAGCTGGCTGCCGCGCTGCAGTCACCGCCGACGCATAGCCGGGCCGCGTCGCCGGAGCTGCTGCAACAGGCGTTGGCGCTGTTCGGCTATACGCCGGACGAGCTCGACCCACGGCTGCCGCCGGCCATCGCGCATGCCGGCATCGACCACCTGGTGCTGGCGCTGTGCAGCCGCGCCGCGCTGGCGGCGATGCGCTACGACCTCGCCGCCGGGCGGTCACTGATGCAGCAGTACCGGATCGGCACGATCGCGCTGCTACAGGTGGAAGCCCCGCAACGGCTGCACGCGCGCAACCCGTTCGCGATCGGCGGGGTCTACGAGGATCCGGCCACCGGTGCCGCGGCCGCGGCAGTGGCCGGCTACCTGCGCGATCTCGACTGGCCGCATGGCGGCCGGATCGAGATCCTGCAGGGCCACGACATGGGCATGCCGTCGCGGTTGCTGGCCGACATCGGCGCCACCGCGGGCGCCGGCATCCGCGTCAGCGGCCGGGTGCGGCCGCTGGACTGA	MDLQRFSAFCDGDAGGNPAGVVIATALPDAAAMQALAAEVGYSETVFAAPEGEGWRVRYFSPEAEVDFCGHATIALGAALARRFGDGRFALQLNHAAISVEGDTRDGQLAAALQSPPTHSRAASPELLQQALALFGYTPDELDPRLPPAIAHAGIDHLVLALCSRAALAAMRYDLAAGRSLMQQYRIGTIALLQVEAPQRLHARNPFAIGGVYEDPATGAAAAAVAGYLRDLDWPHGGRIEILQGHDMGMPSRLLADIGATAGAGIRVSGRVRPLD				NA	NA	NA	NA	NA
BMS020_02625	1170	rlmI_2	COG1092	Ribosomal RNA large subunit methyltransferase I	ATGAATACTCCGCTGCCCGTTGTCCGTCTCAAGAATGCCTGGCGCTCCAGCCACCCGTGGATCTTCCAGAAGCTGGTGGAGAAGCCCAGCGTGCGGCCCAAGCCGGGCAGCATCGTCGAGGTGGTCGGCGTGGACGGGGAGTGGATCGGCCGCGGCTTCTACAACGGCCATTCGCGCATCGCGGTGCGCATCCTCGAGACCGACCAGGCCGTGGCGGTGGACGAGCAGTGGTTCCACCGCAAGATCGCCGACGCGGTCGGCCTGCGCCGCGACTGGCTCAAGCTCGACGCCGCCAGCGATGCCTGGCGCGTGGTCCACAGCGAGGGCGATGGCCTGTCCGGGCTGGTGGTGGACCGCTACGGCGACCTGATCGTGGTCGAGTTCTTCGCCGCCGGCATGTTCCGCCACCGCGAGTGGATCTACGCCGCGCTGCGCGCGCAGTTCCCCGGTTGCCGCTTCCACAGCTTCGCCGACGAGCACGTGCAGAAGCAGGAGAGCTTCGACTTCCACAACACCACCGGCACCGAGCCGGCGGTGATCACCGAGTACGGGGTGAAGTTCCGCGCCGACCCGGCCGGCGCGCACAAGACCGGCTTCTTCGCCGACCAGCGCGAGAACCGCCAGTGGCTGAGCCAGCAGGTCGAAGGCAAGAGCGTGCTCGACCTGTGCTGCAACACCGGCGGCTTTGCGGTCTACGCCGCCGCGCGCGGCGCGGCCGAAGTGCTGGGCGTGGACATCGACCAGGACGTGATCGCGATCGCCAAGGGCAACGCGCGCCTCAACAACGTCAAGCCGAAGTTCGTGCAGGCCGACATCTTCCCGTACCTGCGCGATGCGGCCAACCGCGGCGACCAGTACGACGTGGTGATCCTGGACCCGGCCAAGATGACCCGCGACCGCGACCAGGTGATCCCGGCGCTGAAGAAGTACCTGGACATGAACAAGCTGGCGCTGGGCGTGGTCAAGCCGGGCGGCCTGTTCGCCACGTTCTCCTGCACCGGCCTGGTCGCCGAGCAGGAGTTCCTGGACATGCTGCGCCGCGCCTCGTACTTCTCCGGCCGCACCATCCAGATCCTCAAGGTCGCCGGCGCTGGCCCGGACCATCCGTTCATGGCCCACGTGCAGGAATCGCGCTACCTCAAGGCGGTGTTCTGCCGCGTGCTCGACTGA	MNTPLPVVRLKNAWRSSHPWIFQKLVEKPSVRPKPGSIVEVVGVDGEWIGRGFYNGHSRIAVRILETDQAVAVDEQWFHRKIADAVGLRRDWLKLDAASDAWRVVHSEGDGLSGLVVDRYGDLIVVEFFAAGMFRHREWIYAALRAQFPGCRFHSFADEHVQKQESFDFHNTTGTEPAVITEYGVKFRADPAGAHKTGFFADQRENRQWLSQQVEGKSVLDLCCNTGGFAVYAAARGAAEVLGVDIDQDVIAIAKGNARLNNVKPKFVQADIFPYLRDAANRGDQYDVVILDPAKMTRDRDQVIPALKKYLDMNKLALGVVKPGGLFATFSCTGLVAEQEFLDMLRRASYFSGRTIQILKVAGAGPDHPFMAHVQESRYLKAVFCRVLD				NA	NA	NA	NA	NA
BMS020_02626	957	alx_2	COG0861	Putative membrane-bound redox modulator Alx	ATGGAAACGATAGGCAATGTCTGGTTGTGGGGCGGCTTCGCGGTCGTCGTCGTGGTGGCGCTGATGGTCGACCTGGTGCTGATGCGCCACGGCGGCCCGCACAAGGTGACGTTCAAGGAAGCGTTGTGGTGGTCGATCGGCTGGGTCGGCCTGGCGCTGGCGTTCAATGCCGGGCTGTGGTGGTACCTGCGCGAAACCGCCGACGTGGCGCTGGCCAACCGGGTGGGGCTGGAGTTCCTGACCGGCTACCTGGTCGAGAAATCGCTGGCGGTCGACAACATCTTCGTGTTCCTGATGCTGATGACCTACTTCGCGGTGCCCGAGGAACAGCGCCAGCGCGTGCTGGTGATCGGCGTGCTCGGCGCGATCGTGCTGCGCGCGATCATGATCTTCGCCGGCACCGCGCTGCTGGCGCGCTTCCACTGGCTGCTGTACGTGTTCGGCGCGTTCCTGCTGCTGACCGGCATCAAGATGTGGTTCTCCGCCGGCAAGGAGCCGGACCTGGAGACCAACCCGGCGCTGCGCTTCATGCGCAAGCACCTGCGCATCAGCCCGCAGTACAACGGCAACCGCATGCTGACGATGCACGACGGCGTGCGCATGTTCACCCCGATGTTCGTGGTGCTGGTGCTGATCGCGGTGACCGACGTGATCTTCGCGGTCGACAGCATCCCGGCGATCTTCGCCATCACCATGGACCCGTTCGTGGTGCTGACCTCGAACGTGTTCGCGGTGCTCGGCCTGCGCGCGATGTTCTTCCTGCTGGCCGGCATGGCCGACCGCTTCCACCTGCTGCCGTATGGCCTGGCGGTGGTGCTGGTGTTCATCGGCCTGAAGATGCTGGCGATCGACCTGGTCAAGCTGCCGGTGCTGGTGTCGCTGGGCGCGGTGGTGGCGATCATCGGCACGACGATGGTGCTGAGCCTGAAACTGCCGCCGCGCGAGGCCCGTCACTAA	METIGNVWLWGGFAVVVVVALMVDLVLMRHGGPHKVTFKEALWWSIGWVGLALAFNAGLWWYLRETADVALANRVGLEFLTGYLVEKSLAVDNIFVFLMLMTYFAVPEEQRQRVLVIGVLGAIVLRAIMIFAGTALLARFHWLLYVFGAFLLLTGIKMWFSAGKEPDLETNPALRFMRKHLRISPQYNGNRMLTMHDGVRMFTPMFVVLVLIAVTDVIFAVDSIPAIFAITMDPFVVLTSNVFAVLGLRAMFFLLAGMADRFHLLPYGLAVVLVFIGLKMLAIDLVKLPVLVSLGAVVAIIGTTMVLSLKLPPREARH	PGPT0004905_2085	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TELLURIUM_RESISTANCE	TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004905-terC-K05794	NA	NA
BMS020_02627	774			hypothetical protein	ATGGACGAGACGACTTCCAATGCGGCCGCTGGCCGCTTCGACCGGGCCCGGGTGCTGCGCGCGTTCAACGTCAGCCTCGGCGCGGTGCTGCTGCTGGTGGCGGTCTTCGCCAGCCAGGGCCTGTTCGACTGGCAGGCCTGGGCGGTGGCGCCGCACGACAACGCCGGCCTGCGCGGCCTGCTGACCGCGCCCCTGCTGCATGGCTCCCTCGAGCACCTCGGCGCCAACGCCGCCGCGCTGCTGATCCTGGGCACGCTGGCCGGCAGCGTCTATCCGCGCGCCACGGTGTTCGCGCTGCCGCTGCTGTGGCTGGGCTCCGGGCTCGGCGCCTGGCTGCTCGGCGACGTCGGCACCCGCCACCTTGGCGCCAGCGGCATCACCCACGGGCTGATGTTCCTGGTGTTCGTGCTCGGGCTGTTGCGCCGCGACCGCGCCGCGATCGCCACCAGCATGATCGCGTTCCTGTTCTATGGCGGCATGCTGTTGACGATCCTGCCGCACGAGCCGGGCGTGTCCTGGCAGTCGCACATGGGCGGCGCGGTGGCCGGGGTGATCTCGGCGCTGCTGTTCCGGCTGCGCGATCCGCTGCCGCCGCGTCCGCGCTACAGCTGGGACGAGGAAGACGACGCGCAGGCTGATGACAGCGGCGACGATCCGGAAGGACTGGAGCCGCCGTCGCCGCGCCAGGTCCCGGTGCTGTGGCATGGCGCCGAGGCACAACCGCGCGGGGTGGTGCTGCCGTTCCCGCCGCGCCGGCCGCCGCCCGAGACCTGA	MDETTSNAAAGRFDRARVLRAFNVSLGAVLLLVAVFASQGLFDWQAWAVAPHDNAGLRGLLTAPLLHGSLEHLGANAAALLILGTLAGSVYPRATVFALPLLWLGSGLGAWLLGDVGTRHLGASGITHGLMFLVFVLGLLRRDRAAIATSMIAFLFYGGMLLTILPHEPGVSWQSHMGGAVAGVISALLFRLRDPLPPRPRYSWDEEDDAQADDSGDDPEGLEPPSPRQVPVLWHGAEAQPRGVVLPFPPRRPPPET				NA	NA	NA	NA	NA
BMS020_02628	453			hypothetical protein	ATGCAACCGCGCTTCACCGTCTCCGGCCACATTGGCCGCCCGCCCGCCGCGGTCTTCGAGGCGATCGCCGATCCAGCCCAGCTCGCGCGCTATTTCACCACCGGCGGCGCCCGCGGCCGGCTGCAGCCCGGCACCACGGTGTGGTGGGACTTCGCCGACTTCCCTGGCGAGTTCCCGGTCGAGGTGCTGGAGGTGCAGGCCGATGCACGCATCGTGCTGCGCTGGGCCAGCGAGGACGGCAGCAGTGAAGACGGCACCACCACGGTGACGTTCGCGTTCGCCGCTACCGATGACGGCCGCACCCGCCTGGAGATCAGCGAGGAAGGCTGGTCGGCCAACGCCGCCGGGCTGGAGGCCTCCTACCGCAACTGCATGGGCTGGTCGCAGATGCTGTGCGCGCTCAAGGCCTGGCTGGAACACGGCATCAACCTGCGCGCCGGCATGTACGTGTGA	MQPRFTVSGHIGRPPAAVFEAIADPAQLARYFTTGGARGRLQPGTTVWWDFADFPGEFPVEVLEVQADARIVLRWASEDGSSEDGTTTVTFAFAATDDGRTRLEISEEGWSANAAGLEASYRNCMGWSQMLCALKAWLEHGINLRAGMYV				NA	NA	NA	NA	NA
BMS020_02629	1338	mnmE_1	COG0486	tRNA modification GTPase MnmE	ATGCAGGCCCAGGACACCATCGTGGCGATCGCCACCGCGGCCGGCGCCGGTGGCGTGGGCATGCTGCGTGTCTCCGGTCCGCGTGCCGAAGCGGTCGCGGCCGGGCTGGGCATCGCCGCGCTGCAGCCGCGGCAGGCGCGCTACGCGCGCTTCCGCGACGCTGGCGGCGAGGTGATCGACGACGGCATCGCGCTGCTGTTCCCGGCGCCGCGCAGTTTCACCGGCGAGGCGGTGCTGGAGCTGCAGGGCCACGGCAGCCCGGTGGTGTTGCGCCGGCTGCTGGCGCGCTGCATCGAGCTCGGCGCGCGCCAGGCGCGGCCGGGTGAGTTCAGCGAGCGGGCGTTCCTCAACGGCAAGCTCGACCTGGCCCAGGCCGAGGCGATCGCCGACCTGATCGCCGCTGGCGACGAACGCGCCGCGCGCGCCGCGCGGCGTTCGCTGGACGGGGTGCTGTCGCAGCGCGTGGAGGCGATCGGCGAAGCGCTGGTGCGGCTGCGCATCCATGTCGAAGCGGCGATCGACTTCGCCGATGAACCGATCGACACCCTCGGTGGTGCGCAGGTCCGCGCCGGCCTGGACGAGGAGCGCCAGCGCCTGCAGCAGCTGCAGCGCGAGGCCGAGCGCGGCCGGCGCCTGCGCGACGGCCTGCATGCGGTGCTGGTCGGGCCGCCCAACGCCGGCAAGAGCTCGCTGCTCAACGCGCTGGCCGGCAGCGACCGTGCGATCGTCACCGACGTCGCCGGCACCACCCGCGACACGCTGCGCGAGACCGTGCGCCTGGATGGCTTTGAGCTGACCCTGGTCGATACTGCCGGGCTGCGCGATGGCGGCGACGCGATCGAACGCGAAGGCATGCGCCGCGCGCATGCCGAACTGCAGCGCGCCGACCTGGCGCTGGTGGTGCTCGATGGCCGCGACGTCGAGGCCGGACGCGCCGCGGTGGCCGCCGCGATCGCCGGCGTGCCGCGGCAGCTGTGGATCCACAACAAGGCCGACCTGCTGCCGCCCGGCAGCGTGGTCGCGGCGCCGGCGGTCGCGGTGTCGGCCGCGACCGGGCTGGGGCTGGAGCAGCTGCACGCGCGCCTGCGCGCCCTGGCCGAGCTGGAGACCGGCGACAGCGTCGAGGGCGAGTTCAGCGCACGCGCGCGCCATGTCGAAGCGATCGCCCGCGCGGCCGATCACGCCGTCGGCGCGGCGCTCCAGCTGCAGCACGAGCAGCTGGAGCTGGCCGCCGAGGAACTGCGCCTGGCACACGAGGCGCTGGGCGAGATCACCGGGCGGATGAGCGCCGACGACCTGCTCGGGCGGATCTTCTCCAGCTTCTGCATCGGCAAGTAG	MQAQDTIVAIATAAGAGGVGMLRVSGPRAEAVAAGLGIAALQPRQARYARFRDAGGEVIDDGIALLFPAPRSFTGEAVLELQGHGSPVVLRRLLARCIELGARQARPGEFSERAFLNGKLDLAQAEAIADLIAAGDERAARAARRSLDGVLSQRVEAIGEALVRLRIHVEAAIDFADEPIDTLGGAQVRAGLDEERQRLQQLQREAERGRRLRDGLHAVLVGPPNAGKSSLLNALAGSDRAIVTDVAGTTRDTLRETVRLDGFELTLVDTAGLRDGGDAIEREGMRRAHAELQRADLALVVLDGRDVEAGRAAVAAAIAGVPRQLWIHNKADLLPPGSVVAAPAVAVSAATGLGLEQLHARLRALAELETGDSVEGEFSARARHVEAIARAADHAVGAALQLQHEQLELAAEELRLAHEALGEITGRMSADDLLGRIFSSFCIGK				NA	NA	NA	NA	NA
BMS020_02630	2691	cpoB_1		Cell division coordinator CpoB	ATGCCCGGATCCCGTTTTTCCCGCGCCTGCCACCTGCCATGGCTGCTGGTCTGCGCAGCCGGCCTGGCATTGCCTGGCTGTGGCGAGCGCGCGGCGGCGCCGGCGTCGGCGGCCGCAACCAGCGCGGCGCCAGCGCCCACGGCCGCCGATCCGGATGCCGCGGCGCTGCGCGAACGCCTGCAGGCGTTGCTGGCCGGCTACCGCAAGATCATCGTGCTGCTGGCCGACGAGGACGCGCAGTCGCCGCGCGATCGCGCCACCTCCAGCGGCGTGGGCCAGCAACTCTTCCACGAAGGGCTGGAGCGGCGTGCCGACCTGGCCACGCGCTTCGATGTGCTGCTGGCCTCGGGTCGGCCGCAGCGGCTGGACACCGTCGCGCAGCTGCTCGACTACATCGAATCGGACCCGGCGCTGTACGACGCGGACCGGCTGGCGTTCCGCGAGGTGCTGCGCGACCTGCATGCGCGCATCGGGCGCGAATCGGCGCTGCCGGCGGTGAAGCTGCACGCGCGTATCGGCGAGGACCTGGATGCGCTCGACGAGATCGAGCGCAACTACAACCAGGAGATCACCCGCATCTTCAGCCGCTTCGACACCACCCGCGCGATCACCCCCAAGCGCGAGAAGTGGGACGACTACGTCGCGCACCTGCGTGGGCTGTACGTGCGCGAGGCGATCCTGCGCGACTACGGCGTGATCGAGCCGTACCCGATGTCGATGCAGGACAGCGAGCGCGAGATCTTCGGCCGCGACCTGCCGCCCAAGACCATCGCGCTGACCTTCGACGATGGTCCGCACAAGGAATACACCGATGAGATCGTCGCGATCCTCAAGCGCTACGACGTGCCCGGCGCGTTCTTCGAGGTCGGCCGCAACCTCGGCAAGCTCGATGCCGACGGCGGCGCGCAGCTCGCGCCGCTGGCCAAGGTCAGCCGTGCGCTGATGGAACAGGGCTATACCGTCGGCAACCACAGCCTGACCCACGCCCAGTTGTCCAAGACCAGCGGCGAGGCGCTGCGCAGCCAGGTGCTGGATACCGACGCGCTGCTGCGCGCGGTCGACGACAAGCGCGCACCGCTGTTCCGCTTCCCGTACGGCGCCCGCAATGCCGAGGGGTTGCAGGTGCTGAAGGACGCCGGGCTGAAATCGATCATGTGGAACATCGACTCGATGGACTGGGCTGACCCGGTGCCGGATTCGATCGTGCAGCGCGTGCTCGGCCAGGTCGCACAGCAGCAGCGCGGCATCATCCTGTTCCACGACATCCACGATCGCGCGGTGAAGGCGTTGCCGCAGATCCTCGATCGCCTGATCGCCGAGGGTTACCAGTTCGCCGGCTGGAACGGCCGCGATTTCAGCGTCAGCCGCCCGCGCTCCGCGCCCGACGCCGAAGCCACCGTCACCAGCGGCTACGAAGCCTCGTGGGCGATCGTGATCGGCATCGACGACTATGCGAAGTGGCCGCGGCTGGAATACGCCGCCAACGACGCGCAGTCGATCGCCGACACGCTGACCGGGCAGTTCGGCTTCCCGTCCTCGCAGGTGATCGTGCTGAAGGACCGCGACGCGACCCGCAACAACATCCTCGCCGCGTTCCACGACCGGCTCGCCGATGGCCGCACGCAAAAGGACGACCGCGTGTTCGTGTTCTTCGCCGGGCATGGCGCCACGCGCAAGCTGGCATCGGGCCGCGAGCTCGGCTACATCATTCCGGTCGACTCCGATCCCAAGGAACTGGCCACCGACGCGATCGCGATGAGCGACATCCAGAACATCGCCGAGAGCCTGCAGGCCAAGCACGTGCTGTTCGTGATGGACGCCTGCTACAGCGGCCTGGGCCTGACCCGCGGCGGCCCGGCGTCGGGGGCGTTCCTGCGCGAGAACGCCCGCCGCGTGGCGCGGCAGATGCTCACCGCCGGCGGCGCCGACCAACAGGTGGCCGACAGCGGCCCGAACGGCCATTCGGTGTTCACCTGGGTGCTGCTGCAGGCGCTGGCGGGCAAGGCCGATCTCAACGGCGATGGCCTGATCACCGGCACCGAACTGGCCGCCTACGTGGCGCCGTCGGTGTCGGCGGTATCGCAGCAGACGCCGGCGTTCGGCAGCCTGCCCGGCTCGCAGGGCGGCGAGTTCGTGTTCCAGGTGCCGCAGGCCGAGGAGTTCCTGACCGCCGACACCGCGCAGTTGTCGCCGGAGGCGATCGCGCTCAACGGCAAGGTCGAGCAGGCGCGCCCGGCGGAAGGCGAAGGCCAGGCCACCGCGCCGGTGCAGGTCAAGGACCTGCAGGGCGGTGAGGCCACGCTGGTGGTGCCGCAGGCGGGCAAGCAGAACGATCGCCAGCTGGCGCAGCGTGCCAACGACCGTGGCCTGCAGCTGTACAAGGAAAAGCGCTACGAGGAGGCGATCGCGCAGTTCACCGAAGCGCTGAAGCTGCGCCCGGATTTCGCCCTCGCCGCCAACAACCTGGGCTTCGTCTACTATCGCCAGGGGCGCCATGCCGAGGCGGCGCGCTGGCTGGAGAACACGGTGAAGATCGATCCCTCGCGCGCAGTGGCCTATCTCAACCTCGGCGACGCCTATGCCCATGCCGGCGCGCGCGACAAGGCGCGCAAGGCCTACACCACCTACCTGGAGCTGCAGCCGCAGGGTGCCGGCGCCGCGCAGGCGCGCGCGCAGCTGCAGCAGCTGTGA	MPGSRFSRACHLPWLLVCAAGLALPGCGERAAAPASAAATSAAPAPTAADPDAAALRERLQALLAGYRKIIVLLADEDAQSPRDRATSSGVGQQLFHEGLERRADLATRFDVLLASGRPQRLDTVAQLLDYIESDPALYDADRLAFREVLRDLHARIGRESALPAVKLHARIGEDLDALDEIERNYNQEITRIFSRFDTTRAITPKREKWDDYVAHLRGLYVREAILRDYGVIEPYPMSMQDSEREIFGRDLPPKTIALTFDDGPHKEYTDEIVAILKRYDVPGAFFEVGRNLGKLDADGGAQLAPLAKVSRALMEQGYTVGNHSLTHAQLSKTSGEALRSQVLDTDALLRAVDDKRAPLFRFPYGARNAEGLQVLKDAGLKSIMWNIDSMDWADPVPDSIVQRVLGQVAQQQRGIILFHDIHDRAVKALPQILDRLIAEGYQFAGWNGRDFSVSRPRSAPDAEATVTSGYEASWAIVIGIDDYAKWPRLEYAANDAQSIADTLTGQFGFPSSQVIVLKDRDATRNNILAAFHDRLADGRTQKDDRVFVFFAGHGATRKLASGRELGYIIPVDSDPKELATDAIAMSDIQNIAESLQAKHVLFVMDACYSGLGLTRGGPASGAFLRENARRVARQMLTAGGADQQVADSGPNGHSVFTWVLLQALAGKADLNGDGLITGTELAAYVAPSVSAVSQQTPAFGSLPGSQGGEFVFQVPQAEEFLTADTAQLSPEAIALNGKVEQARPAEGEGQATAPVQVKDLQGGEATLVVPQAGKQNDRQLAQRANDRGLQLYKEKRYEEAIAQFTEALKLRPDFALAANNLGFVYYRQGRHAEAARWLENTVKIDPSRAVAYLNLGDAYAHAGARDKARKAYTTYLELQPQGAGAAQARAQLQQL	PGPT0012156_15	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012156-chitin_deacetylase-NA	NA	NA
BMS020_02631	1713	yidC_1		Membrane protein insertase YidC	ATGAACCAGACCCGTGTATTCCTGATCTTCGCCTGGCTGATGGTCGCGGCACTGCTGTGGATGGAATGGAACAAGGAGAAGTCCGCGCCTCCGGTCCAGCCCACCGCCACCGCCGCCGCGATCCCGGCCGCCAACGACGCCGACGTCCCCAATGCCGGCGCCGGTGCGATCCCGCAGGCCCCGGGCAGCACTCCGGCCGCCGCGCCCACCACCACGACCGCGACGACCGCTGCGTCCGCGCCGGCGCAGGTGGTCACCGTCACCACCGACGTGCTGCGCCTGAAGCTCGATGGCCGCAGCGTGCTCGACGCGCAGCTGCTGAAGTTCCCGCAGAGCAAGGATCCGGGCGCCGCGCCGGTGGACCTGCTGACCGATGACAGCGCACACCCGTACAGCGCGATCAGCGGCTGGGCCAGCCAAGCCTCGCCGGTGCCGGGCATCGGCGGCTTCCGCCTGGCCCAGGACGCCACCGAGCTGGTGCTGGCCGAGGGCCAGGACACGCTGCAGATCCCGTTCGTCTGGACCGGTCCGGACGGCGTCAGCATCCGCCGCACCTTCACCCTGGAGCGCGGCCGCTACGCGATCTCGATCAAGGATGAAGTGGTCAACGCCGGCAGCACCGCCTGGAACGGTTACGTGTTCCGCAAGCTGAGCCGCGTGCCGGCGATCCTCAGCCGCAACATGACCAACCCGGACTCCTTCAGCTTCAACGGCGCCACCTGGTACAGCCCGCAGGAAGGCTACGAGCGCCGCGCGTTCAAGGACTACATGGACGACGGCGGCCTCAACCGCCAGATCGCCGGTGGCTGGATCGCGCTGCTGCAGCACCACTTCTTCACCGCCTGGATCCCGCAGAAGGACCAGACCTCGATCTACCTGCTGGCGCAGGACGGACCGCGCGATGTCGCCGAGCTGCGCGGCCCGGCCTTCACCGTGGCGCCGGGCCAGAGCGCCAGCACCGAGGCCCGCCTGTGGGTCGGCCCGAAGCTGGTCGCGGCGATCGCCAAGGAAGACGTGAAGGGCCTGGACCGCGTGGTCGACTACAGCCGCTTCTCGCTGATGGCGATCATCGGCCAGGGCCTGTTCTGGGTGCTCAGCCACCTGCACAATCTGATCGGCAACTGGGGCTGGGCGATCATCGGCCTGGTGGTGATGCTGCGCGTGGTCATGTACCCGCTGTCGGCGGCGCAGTACAAGTCGGCGGCGAAGATGCGCCGGTTCCAGCCGCGCATGCAGCAGCTGAAGGAGCGCTACGGCGACGATCGCGCCAAGCTCAACCAGGCGATGATGGAGCTGTACAAGAAGGAGAAGATCAACCCGATGGGCGGCTGCCTGCCGGCGCTGATCCAGATGCCGATCTTCTTCGCGCTGTACTGGGTGCTGGTGGAGTCGGTCGAACTGCGCCAGGCGCCGTGGCTGGGCTGGATCCAGGACCTGACCGCGCGCGACCCGTACTTCATCCTGCCGATCCTCAACATCGCGATCATGTGGACCACGCAGAAGCTGACGCCGACCCCGGGCATGGATCCGGTGCAGGCCAAGATGATGCAGTTCATGCCGCTGGTGTTCGGCGTGATGATGGCCTTCGTGCCGTCCGGCCTGGCGCTGTACTGGGTGGTCAACGGCGCGCTGAACCTGCTGATCCAGTGGTGGATGATCCGCCAGCACGGCGAATCGCCGGGCAAGATCATCCACGACAACGTCGCCAAGTGA	MNQTRVFLIFAWLMVAALLWMEWNKEKSAPPVQPTATAAAIPAANDADVPNAGAGAIPQAPGSTPAAAPTTTTATTAASAPAQVVTVTTDVLRLKLDGRSVLDAQLLKFPQSKDPGAAPVDLLTDDSAHPYSAISGWASQASPVPGIGGFRLAQDATELVLAEGQDTLQIPFVWTGPDGVSIRRTFTLERGRYAISIKDEVVNAGSTAWNGYVFRKLSRVPAILSRNMTNPDSFSFNGATWYSPQEGYERRAFKDYMDDGGLNRQIAGGWIALLQHHFFTAWIPQKDQTSIYLLAQDGPRDVAELRGPAFTVAPGQSASTEARLWVGPKLVAAIAKEDVKGLDRVVDYSRFSLMAIIGQGLFWVLSHLHNLIGNWGWAIIGLVVMLRVVMYPLSAAQYKSAAKMRRFQPRMQQLKERYGDDRAKLNQAMMELYKKEKINPMGGCLPALIQMPIFFALYWVLVESVELRQAPWLGWIQDLTARDPYFILPILNIAIMWTTQKLTPTPGMDPVQAKMMQFMPLVFGVMMAFVPSGLALYWVVNGALNLLIQWWMIRQHGESPGKIIHDNVAK	PGPT0024530_1290	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
BMS020_02632	486	rnpA		Ribonuclease P protein component	TTGATTGCCCCGCCGCTCAACGCGGCCAAGGCAATCCCCATCGTGACCGCAACGGACCCGCGCAGGCGATTCCCTCGCACTGCGAGGGTCCGTACGCGTGCCGAATATGGCGTCGTCTTCGACCAGGCCAAGCGCTGGTCCGAACCGCTGATGAGCCTGCATTGGCGCACCACCGATGGTGTGCCCAAGCTGGGCATGGCGGTCTCGCGCAAGGTAGACACCCGCGCCGTCGGCCGCAACCGCATCAAGCGGGTGTTGCGCGACACCTTTCGTCACCTGCTGCCGGACCTGGCCGCGGGTGATTTTGTCGTGGTCGCACGTCACGCGGCCAAGACGGCCAGCAATGCGCAGATCCGCGATGCGCTGCTGAAGCTGCTGCGCCGTGCCGGCGCATTGCCCCTGCAAGCCACGGGCGGCACAATGCCGCCGCCCGAGAGGCCCGCACACTTCCCTTCACTGAACGAGCCGGAACGCCGTTCCGACTGA	MIAPPLNAAKAIPIVTATDPRRRFPRTARVRTRAEYGVVFDQAKRWSEPLMSLHWRTTDGVPKLGMAVSRKVDTRAVGRNRIKRVLRDTFRHLLPDLAAGDFVVVARHAAKTASNAQIRDALLKLLRRAGALPLQATGGTMPPPERPAHFPSLNEPERRSD				NA	NA	NA	NA	NA
BMS020_02633	141	rpmH	COG0230	50S ribosomal protein L34	ATGGCCACCAAGCGCACCTATCAGCCCAGCAACCTCAAGCGCAAGCGCGACCACGGCTTCCGTGCCCGTATGGCCACTGCCGACGGCCGCAAGATCCTGGCCCGTCGCCGCGCCAAGGGCCGCAAGCGCCTGAGCGCTTGA	MATKRTYQPSNLKRKRDHGFRARMATADGRKILARRRAKGRKRLSA				NA	NA	NA	NA	NA
BMS020_02634	1350	dnaA_1	COG0593	Chromosomal replication initiator protein DnaA	ATGAATACCTTGATGGATGCTTGGCCCCGCTGCCTGGAACGTCTGGAAGCTGAATTTCCGCCCGAAGACGTCCACACCTGGTTGAAACCGCTGCAGGCCGACGAACGCGCCGACAGCGTCGTGCTGTATGCCCCGAACGCCTTCATCGTCGAGCAGGTGCGCGAGCGCTACCTCGCCCGCATCCGCGAGCTGCTGGCGCATTACGCCGGTGCTGGCGATGTCGCGCTGGCGGTGGGCTCGCGCCCGAAGCCGGTCGAAGCGCTGCCGGTGCAGCCGAGCGTCGCGCTGGCGGCACCGGCCACCGTGATGCCGGCGGCGGTCCCGTTCGTCAGCAACCTGGACCCGCACTACACCTTCGCCAATTTCGTCGAGGGCCGCAGCAACCAGCTCGGCCTCGCCGCGGCGACGCAGGCCGCGCAGAAGCCCGGCGACCGTGCCCACAATCCGCTGCTGCTGTACGGAAGCACCGGCCTGGGCAAGACCCACCTGATGTTCGCGGCCGGCAATGCGATGCGCCAGGTCAATCCGGCGGCGAAGATCATGTACCTGCGGTCCGAGCAGTTCTTCAGCGCGATGATCCGTGCGCTGCAGGACAAGACCATGGACCAGTTCAAGCGCCAGTTCCAGCAGATCGACGCGCTGCTGATCGACGACATCCAGTTCTTCGCCGGCAAGGACCGCACGCAGGAGGAGTTCTTCCACACCTTCAACGCGCTGTTCGACGGCAAGCAGCAGATCATCCTGACCTGCGACCGCTATCCGCGCGAGGTGGAAGGCCTGGAGCCGCGGCTGAAGTCACGCCTGGCCTGGGGCCTGTCGGTGGCGATCGATCCGCCGGACTTCGAGACCCGCGCGGCGATCGTGCTGGCCAAGGCGCGCGAGCGCGGCGCCGAGATCCCGGACGACGTGGCGTTCCTGATCGCCAAGAAGATGCGCTCCAACGTGCGCGACCTGGAAGGCGCGCTCAACACGCTGGTGGCGCGCGCCAATTTCACCGGCCGTGCGATCACCATCGAGTTCGCCCAGGAAACCCTGCGTGACCTGCTGCGCGCCCAGCAGCAGGCGATCGGCATCCCGAACATCCAGAAGACCGTGGCCGACTACTACGGCCTGCAGATCAAGGATCTGCTGTCCAAGCGCCGCACGCGCTCGCTGGCGCGTCCGCGCCAGGTCGCGATGGCGCTGGCCAAGGAACTGACCGAGCACAGCCTGCCGGAGATCGGCGACGCGTTTGCCGGCCGCGACCACACCACCGTGCTGCACGCCTGCCGGCAGATCAAGCACCTGATGGAGACCGACGGCAAGCTGCGCGAGGACTGGGACAAGCTGATCCGCAAGCTCAGCGAGTAG	MNTLMDAWPRCLERLEAEFPPEDVHTWLKPLQADERADSVVLYAPNAFIVEQVRERYLARIRELLAHYAGAGDVALAVGSRPKPVEALPVQPSVALAAPATVMPAAVPFVSNLDPHYTFANFVEGRSNQLGLAAATQAAQKPGDRAHNPLLLYGSTGLGKTHLMFAAGNAMRQVNPAAKIMYLRSEQFFSAMIRALQDKTMDQFKRQFQQIDALLIDDIQFFAGKDRTQEEFFHTFNALFDGKQQIILTCDRYPREVEGLEPRLKSRLAWGLSVAIDPPDFETRAAIVLAKARERGAEIPDDVAFLIAKKMRSNVRDLEGALNTLVARANFTGRAITIEFAQETLRDLLRAQQQAIGIPNIQKTVADYYGLQIKDLLSKRRTRSLARPRQVAMALAKELTEHSLPEIGDAFAGRDHTTVLHACRQIKHLMETDGKLREDWDKLIRKLSE	PGPT0014800_4463	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0014800-dnaA-K02313	NA	NA
BMS020_02635	1101	dnaN_1	COG0592	Beta sliding clamp	ATGCGTTTCACACTGCAGCGCGAAGCCTTCCTCAAGCCGTTGGCACAGGTCGTCAACGTGGTCGAACGCCGCCAGACTCTGCCTGTGTTGGCCAACTTTCTCGTCCAGGTCCAGGGCGGTCAGCTGTCGCTGACCGGTACCGATCTGGAAGTGGAGATGGTGTCGCGCACCACGGTGGAAGATGCCCAGGATGGCGAAACCACGATTCCCGCCCGCAAGTTGTTCGACATCGTCCGTGCCCTGCCCGACGGCAGCCGTGTGACCGTGTCGCAGTCCGGGGACAAGGTCACCGTGCAGGCCGGGCGTAGCCGCTTCACGCTGGCAACCCTGCCCGCCAACGATTTCCCGTCGGTGGACGAAGTCGAGGCGACCGAACGCGTCGCCGTGCCGGAAGCCGGCCTGAAGGAGCTGATCGAGCGCACCGCGTTCGCGATGGCGCAGCAGGACGTGCGCTATTACCTCAACGGCCTGCTGTTCGATCTGCGCGACAGTACCCTGCGCTGCGTGGCCACCGATGGCCATCGTCTGGCGTTGTGCGAGACCTCGCTGGAGAACAGCGCCGGCTCCAAGCGGCAGATCATCGTGCCGCGCAAGGGCGTGACCGAGTTGCAACGCCTGCTCGAAGGCGGCGATCGCGAGCTGGAGCTGGAAGTCGGCCGCAGCCATGTCCGCGTCAAGCGCGACGATGTGACCTTCACTTCCAAGCTGATCGACGGCCGTTTCCCCGATTACGAGGCGGTGATTCCGATCGGCGCCGACCGCGAGGTCAAGGTCGACCGCGAAGTGATCCGCGCGGCGCTGCAGCGAGCGGCGATCCTGTCGAACGAGAAGTACCGCGGCGTGCGCGTCGAGGTGTCGCCGGGCCAGCTGAAGATCAGCGCGCACAATCCGGAGCAGGAAGAAGCCCAGGAAGAGATCGAGGCCGATACCAAGGTCAGTGATCTGGCGATCGGCTTCAACGTGAACTACCTGCTGGATGCGCTGTCGGCGCTGAAGGACGAGTTCGTGATCATCCAGCTGCGCGACGCGAACTCCTCGGCGCTGGTGCGCGAGGCAGCCAGCGAGAAGTCGCGTCACGTGGTAATGCCGCTGCGGCTCTGA	MRFTLQREAFLKPLAQVVNVVERRQTLPVLANFLVQVQGGQLSLTGTDLEVEMVSRTTVEDAQDGETTIPARKLFDIVRALPDGSRVTVSQSGDKVTVQAGRSRFTLATLPANDFPSVDEVEATERVAVPEAGLKELIERTAFAMAQQDVRYYLNGLLFDLRDSTLRCVATDGHRLALCETSLENSAGSKRQIIVPRKGVTELQRLLEGGDRELELEVGRSHVRVKRDDVTFTSKLIDGRFPDYEAVIPIGADREVKVDREVIRAALQRAAILSNEKYRGVRVEVSPGQLKISAHNPEQEEAQEEIEADTKVSDLAIGFNVNYLLDALSALKDEFVIIQLRDANSSALVREAASEKSRHVVMPLRL				NA	NA	NA	NA	NA
BMS020_02636	1098	recF_1	COG1195	DNA replication and repair protein RecF	ATGCTGATCCAGCGACTCGCGCTGCGCGCCTTCCGTCGTTTCGACCAGGCCGAATGGTCCCCCGCCCCCGGCATCAATCTGCTGACTGGCGATAACGGCGCCGGGAAGACCAGTGTGCTCGAGGCGCTGCACCTGATGGCGTACGGCCGAAGCTTCCGGGGGCGCGTGCGCGACGGGTTGATCCGTTGCGATGCGGATGCGCTGGAGGTCTTCGTCGAGTGGAGCGAACAGGCAGATGCCGCCGCGGCCGGGCGTACACGCCGGGTCGGGCTTCGGCATTCCGGGCAGGCCTGGACCGGGCGCCTGGATGGCGCCGATGTGCAGCAGATGACCGCCTTGTGCGCGGCGCTGGCGGTGGTGACTTTCGAACCAGGAAGCCACGCGTTGATCAGTGGCGGCGGCGAAAGTCGGCGGCGCTTCCTGGATTGGGGCTTGTTCCACGTGGAACAGGATTTCCTGATGCTGTGGCGGCGCTATAGCCGGGCGCTGAAGCAGCGCAACGCCCTGCTCAAGCAGTGCGGCGCCAATGCGGCGCTGGATCCGTGGGACCATGAGCTGGCCCAGAGCGGCGAGCAGCTGAATTCCCGGCGACAGGAATACCTGGAACGGCTCGAGGCGCTGCTGTTGCCGGTGGCGGCACGCATCGCCCCGCGCCTGGGCCTGCAGCGCCTGGTGTATACGCCGGGCTGGCGCCGGCAGGAGCTTTCGCTGGCCGATGCGTTGCTGGTTGGACGCGAGCGTGACCGGTTGAACGGCTACACCTCGGTGGGGCCGCACCGCGCGGATTGGGTCCCCGAATTCGCCAGCATCCCTGGGCGCGAGGCGCTGTCGCGCGGTCAGGCCAAGCTGACAGCGTTGGCCTGCCTGCTCGCGCAGGCCGAAGACTTCGCCCAGCGCCGCGGCGAATGGCCGGTGGTGGCACTCGACGACCTGGGCTCGGAGCTCGATCGCCACCACCAGGCGCAGGTGCTGGAATTGCTCGGGCAGACCCCGGCGCAAGTGATGATCACCGCAACCGAACCCAGCCCGGCGATGTTGGCGCTGACCCCGGCGCCAGCCGTGTTCCACGTGGAACATGGCCGCCTTCTGGCTCCGTGA	MLIQRLALRAFRRFDQAEWSPAPGINLLTGDNGAGKTSVLEALHLMAYGRSFRGRVRDGLIRCDADALEVFVEWSEQADAAAAGRTRRVGLRHSGQAWTGRLDGADVQQMTALCAALAVVTFEPGSHALISGGGESRRRFLDWGLFHVEQDFLMLWRRYSRALKQRNALLKQCGANAALDPWDHELAQSGEQLNSRRQEYLERLEALLLPVAARIAPRLGLQRLVYTPGWRRQELSLADALLVGRERDRLNGYTSVGPHRADWVPEFASIPGREALSRGQAKLTALACLLAQAEDFAQRRGEWPVVALDDLGSELDRHHQAQVLELLGQTPAQVMITATEPSPAMLALTPAPAVFHVEHGRLLAP				NA	NA	NA	NA	NA
BMS020_02637	2460	gyrB_1	COG0187	DNA gyrase subunit B	ATGACCGAAGAACAGAACACCCCGGCCAGTAACGGCAACTACGACGCCAACAGCATCACGGCCCTGGAAGGCCTGGAGGCGGTTCGCAAGCGCCCCGGCATGTACATCGGTGATGTCCATGACGGCACCGGTCTGCACCACATGGTGTTCGAAGTCGTCGACAACTCGATCGACGAGGCCCTGGCCGGCCATGCCGACCACGTGGCGGTGACGATCCACGCCGACGGTTCGGTGTCGGTCTCGGACAACGGCCGCGGCATTCCAGTCGGCAAGCACGAGCAGATGAGCCAGAAGCTGGGCCGCGAGGTCTCCGCCGCCGAGGTGGTGATGACCGTGCTGCATGCCGGCGGCAAGTTCGACGACAACAGCTACAAGGTGTCCGGCGGCCTGCACGGCGTCGGCGTCAGCGTGGTGAATGCGTTGTCGCAGAAGCTGCTGCTCGACGTGTTCCAGGGCGGCGCGCATTACCAGCAGGAATTCAGCAATGGCGCGGCGGTGCGTCCGCTGGCCCAGCAGGGCACGACGACCAAGCGCGGCACCACGGTGCGCTTCTGGCCGTCGGCAGTGGCGTTCCACGACAACATCGAATTCCACTACGACATCCTGGCGCGGCGCCTGCGCGAGCTGTCCTTCCTCAATTCCGGCGTCAAGATCGTGCTGGCCGACGAGCGCGGCGAAGGTCGTCGCGACGACTTCCACTACGAGGGCGGCATCGCCAGCTTCGTCGAGCACCTGGCGCAGCTGAAGACCCCGCTGCACCCGAACGTCATCGCGGTGGTCGGCGAGCACAACGGCATCACCGTCGAAGTGGCGCTGCAGTGGACCGACTCCTACCAGGAGACGATGTACTGCTTCACCAACAACATCCCGCAGAAGGACGGCGGCACCCACCTGGCCGGCTTCCGCGGCGCGCTGACCCGTGTGCTCAACAACTACATCGAGCAGAACGGCATCGCCAAGCAGGCCAAGATCAACCTGACCGGCGATGACATGCGCGAAGGCATGATCGCGGTGCTGTCGGTGAAGGTGCCGGACCCGAGCTTCTCCTCGCAGACCAAGGAAAAGCTGGTCAGTTCCGACGTGCGTCCGGCGGTGGAAAATGCCTTCGGCGCGCGGCTGGAGGAATTCCTGCAGGAGCACCCTAACGAGGCCCGCGCGATCGCCGGCAAGATCGTCGATGCTGCGCGTGCCCGCGAGGCGGCGCGCAAGGCGCGCGACCTGACCCGCCGCAAGGGCGTGCTCGACATCGCTGGCCTGCCCGGCAAGCTGGCCGACTGCCAGGAAAAGGACCCGGCGCTGTCGGAACTGTTCATCGTCGAGGGTGACTCGGCGGGTGGCTCGGCCAAGCAGGGCCGCAACCGCAAGAACCAGGCGGTGCTGCCGCTGCGCGGCAAGATCCTCAACGTGGAGCGCGCCCGCTTCGATCGCATGCTGGCCTCGGACCAGGTCGGCACGCTGATCACCGCACTGGGCACCGGCATCGGCAAGGACGAGTACAACCCTGACAAGCTGCGCTACCACAAGATCATCATCATGACCGACGCCGACGTCGACGGCGCGCACATCCGCACCTTGCTGCTGACGTTCTTCTACCGGCAGATGCCGGAGCTGATCGAGCGCGGCCACGTCTACATCGGCCTGCCGCCGCTGTACAAGATCAAGCAGGGCAAGCAGGAGCTGTACCTGAAGGACGACCCGGCGCTGGATGGCTACCTGGCCAGCAGCGCGGTCGAGAACGCCTCGCTGGTGCCGGCGGCCGGCGAACCGCCGATCGACGGCGTGGCGCTGGAGAAGCTGCTGCTGAGCTATGCCGCGGCCCAGGACGCGATCGATCGCAATGCCCACCGCTTCGACCGCAACCTGCTCGAAGCGCTGATCGACTTCGTGCCGATGGATCTGGCCAGCCTGCATGGCGCCGGTGACGGTGAAGGCCTGGCGGCGCTGACCGCGCATCTCAACCAGGGCAGCCTGGGCAGCCCGCGCTTCAGCCTGGAGCTGCAGGAGCCGAACGACCAGCGTCCGGCGGCGCTGCTGGTGACCCGTCGCCACATGGGCGAGGAGCACATCCAGGTGCTGCCGCTGGCGGTGTTCGAGAGTGGCGAACTGCGTGCGCTGTACCAGGCTTCGCAGCTGCTGCACGGGCTGATCCGCGAGGGCGCCACGATCAACCGCGGCAACAAGTCGAGCGAGATCACCTCCTTCGCCCAGGGCCAGGCCTGGTTGCTGGAGGAGGCCAAGAAGGGACGGCAGATCCAGCGCTTCAAGGGCCTGGGCGAAATGAACCCCGAGCAGCTGTGGGATACCACGGTGAATCCGGAAACGCGGCGCATGCTGCAGGTCCGGATCGAGGACGCCGTGGCCGCCGACCAGATCTTCAGCACCTTGATGGGCGACGTGGTCGAACCGCGCCGCGACTTCATCGAGGACAACGCGCTGAAGGTCGCCAATCTGGATATCTGA	MTEEQNTPASNGNYDANSITALEGLEAVRKRPGMYIGDVHDGTGLHHMVFEVVDNSIDEALAGHADHVAVTIHADGSVSVSDNGRGIPVGKHEQMSQKLGREVSAAEVVMTVLHAGGKFDDNSYKVSGGLHGVGVSVVNALSQKLLLDVFQGGAHYQQEFSNGAAVRPLAQQGTTTKRGTTVRFWPSAVAFHDNIEFHYDILARRLRELSFLNSGVKIVLADERGEGRRDDFHYEGGIASFVEHLAQLKTPLHPNVIAVVGEHNGITVEVALQWTDSYQETMYCFTNNIPQKDGGTHLAGFRGALTRVLNNYIEQNGIAKQAKINLTGDDMREGMIAVLSVKVPDPSFSSQTKEKLVSSDVRPAVENAFGARLEEFLQEHPNEARAIAGKIVDAARAREAARKARDLTRRKGVLDIAGLPGKLADCQEKDPALSELFIVEGDSAGGSAKQGRNRKNQAVLPLRGKILNVERARFDRMLASDQVGTLITALGTGIGKDEYNPDKLRYHKIIIMTDADVDGAHIRTLLLTFFYRQMPELIERGHVYIGLPPLYKIKQGKQELYLKDDPALDGYLASSAVENASLVPAAGEPPIDGVALEKLLLSYAAAQDAIDRNAHRFDRNLLEALIDFVPMDLASLHGAGDGEGLAALTAHLNQGSLGSPRFSLELQEPNDQRPAALLVTRRHMGEEHIQVLPLAVFESGELRALYQASQLLHGLIREGATINRGNKSSEITSFAQGQAWLLEEAKKGRQIQRFKGLGEMNPEQLWDTTVNPETRRMLQVRIEDAVAADQIFSTLMGDVVEPRRDFIEDNALKVANLDI	PGPT0027710_1124	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
BMS020_02638	840			hypothetical protein	ATGACCGCACCGCCGGCCCCCCTGTCCACCGGCCCGGTGTCCGCGCCGGCCCCCACCCAGCCGCGTGGCCCGCTGCCGGGCTTCCTGCTCGACCTGCTGATCGGCACCGGCATCCTGCTGTCGACCAGCATCGCCGCCGGCACGGTCTGGTACTTCTATCGCGGCGTGACCCTGGCGATGCAGGCGCGCGCCGCCGGCCTGCCGCTGTCGCCGGCGGACATCGCCGTGCAGGTCGGCCAGCCCGGCGCGCTCGCACAGATGCTGATGGCCTTGGTCAGCACCGCGCTGCCGGCCTTGGTGCTGTACTTCTGGCGCCGCCGCGCCAGTGCGCAGGAACGCGCCGCTGGCCGTCTGGCGCTGCGCCGTCCGGCCACCTGGGGCTGGGTGCTGACGGTCGCGGTTGGCGTATTCATGTTCAGCAGCCTGGCCAGCGCCACCGCGGAACACCTCGGCATCAAGCCGGTACCGACCAACCTGCCGCTGATGGAGCAGGCGTTGGCGCAGTGGCCGCTGTTTCTGGTCGTGTTTGCGGTGCTGATCGCCCCGGCCTACGAGGAACTGCTGTTCCGCCGCGTTTTGTTCGGGCGCTTCCTGGCCGCCGGGCGGCCGTGGCTGGGCATCGTGCTCAGCGGCATGGCGTTCGCGCTGCTGCACGAAGTGCCCGGCGTCAGTGGCAATGGCCCGGCGGCGATCTGCCAGCTGTGGCTGGTGTATGGCGTGATGGGCGCCGCGTTCGCCTGGGTGTACTGGCGCACCGGCACGCTGTGGGCATCGATCGCCGCGCATGGCTTGAACAACGCCACGGCGTTGGCCGCGCTGTACTTCTTCGGCGTGCAGTGA	MTAPPAPLSTGPVSAPAPTQPRGPLPGFLLDLLIGTGILLSTSIAAGTVWYFYRGVTLAMQARAAGLPLSPADIAVQVGQPGALAQMLMALVSTALPALVLYFWRRRASAQERAAGRLALRRPATWGWVLTVAVGVFMFSSLASATAEHLGIKPVPTNLPLMEQALAQWPLFLVVFAVLIAPAYEELLFRRVLFGRFLAAGRPWLGIVLSGMAFALLHEVPGVSGNGPAAICQLWLVYGVMGAAFAWVYWRTGTLWASIAAHGLNNATALAALYFFGVQ				NA	NA	NA	NA	NA
BMS020_02639	807	bepA_1		Beta-barrel assembly-enhancing protease	ATGAAACACATGCTGCTGTCGGTCGTCGTGCTGGCATCGCTCGCTGCCTGCGCAACGACAACCTCGCCCACGGGGCGTCGCCAGGTGGTCGGTGGTGTCAGCCAACAAGAGCTCGACAAGCTCGGGGCGCAGGCCTTCGCCGAGACCAAGGCCAAGGAAAAGATCAGCAGCAACGGCCAGCAGAACGCCTACGTGAAATGCGTGGTCAACGCGCTGGTCGCGCAGTTGCCCGCGCAGTGGCGCGGCACCGCCTGGGAGACCGCGTTGTTCGTCGACGACGAACCCAATGCCTTCGCGCTGCCGGGCGGCAAGGTCGGGGTCAACAGCGGCATCTTCACCGTCGCCAAGACCCAGGACCAGCTCGCGGCGGTGCTCGGGCATGAGATCGGCCATGTGATCTCGCGCCACCACGAGGAGCGCATCACCCGCCAGCTCGGCGCGCAGACCAGCCTCGGCATCCTCGGCGCGCTCGCCGGTGCCGCCTACGGCAGTGGCGCGGCCAGCGCGGTGAACCAGCTCGGCGGCATGACCGCGCAGACCGCGTTCCTGCTGCCGGGGTCACGGACCCAGGAAAGCGAAGCCGACGTGGTGGGCCAGCGGCTGATGGCGCAGGCCGGTTTCGATCCTGCCCAGGCGGTCGATCTGTGGCAGAACATGATGGCCGCGTCCGGCAGCCGCAACCCGCAATGGCTGTCCACCCACCCCGATCCGGCCAACCGCATCCGCGAGCTGCAGCGCGATGCCCCGGCACTGCGCCCGGTGTACGAACAGGCGCGCCGCGACGGTCATATTCCAAGGTGTGGCTGA	MKHMLLSVVVLASLAACATTTSPTGRRQVVGGVSQQELDKLGAQAFAETKAKEKISSNGQQNAYVKCVVNALVAQLPAQWRGTAWETALFVDDEPNAFALPGGKVGVNSGIFTVAKTQDQLAAVLGHEIGHVISRHHEERITRQLGAQTSLGILGALAGAAYGSGAASAVNQLGGMTAQTAFLLPGSRTQESEADVVGQRLMAQAGFDPAQAVDLWQNMMAASGSRNPQWLSTHPDPANRIRELQRDAPALRPVYEQARRDGHIPRCG				NA	NA	NA	NA	NA
BMS020_02640	1191			hypothetical protein	ATGAAACTGCCCAACCGCAAGAATGCCCTGCTTTCCCTGTTCATCGCCGCTTCGCTGGGCGGGGCCGTGATCACCGACGCCGTCGCCCAGCCGGATTCGTCCGAGCGCCAGGGCCGTGGCTCCAAGAGCGACAAGGCCAAGGAGCTGTATCCGGAGGCGACCCGCGAGGCGCCGAAGGTGAAGAACTCGGCCAAGATGGGCAGCAAGCTGCAGAAGCTGATCGACACCTTCAACAAGGGCGAGGATTACGCTTCGGTCCGTACCCAGGCCGACGAGATCATCGCCAGCGACAAGGCCAACGAAGCCGACAAGGCGCTGGCCGCGCAGATGGGGGCCCAGGCCGCCTACAACCTCGACGACGCCGCGGCCGCCAAGGCCTACCTCAAGCAGGCGGTCGACCTCAACGCGCTGGACAACAACGGCCACTACCAGTCGATGCTGATGCTGGCCCAGCTGCAGCTGCAGGACAACGAATACGACGCCGGACTGGCGACGCTGGACAAGTACCTGGCCGAGACCAAGTCCAACCGTCCGGAAGACCTGATCGTCAAGGGCCAGGCGCTGTACCAGACCGAGAAGTACGCCGAGGCGATTCCGGTGCTGAAGCAGGCCATCGCCGCTTCGCCGGAGCCGAAGGACAGCTGGAACCAGCTGCTGATGGCCGCCTACGCCGAGGCCGGCCAGACCGGCGAGGCCGTGGCCGCCGCCGAAGCGCTGGCCGCCAAGAACCCGGCCGACAAGAAGGCGCAGATCAACCTGGCCAGCATGTACATGCAGGCCGACCAGATGGACAAGGCCGCAGCCGTGATGGACAAGCTGCGTGCCAGTGGCCAGCTCACGGACGAGAAGGAATACCGCCAGCTCTATTCCATCTATGCCAACACCGACGGCCACGAGAAGGATGTGATCGCGGTGATCAACGAAGGCCTGCAGAAGGGCATCCTGAAGCCGGACTACCAGGTCTATCTGGCCCTGGCCCAGTCGTATTACTACAGCGACCAGGTCCCGCAGGCCATCGAGAACTGGAAGAAGGCGGCCCCGCTGTCCAAGGACGGCGAGACCTACCTGAACCTGGCCAAGGTGCTGCACTCGGAAGGCCGTATCCCGGAAGCCAAGGACGCGGCCAAGCAGGCACTGGCCAAGGGCGTGAAGCGCCCGGATGACGCCAAGAAGATCATCAACTTGAAGTAA	MKLPNRKNALLSLFIAASLGGAVITDAVAQPDSSERQGRGSKSDKAKELYPEATREAPKVKNSAKMGSKLQKLIDTFNKGEDYASVRTQADEIIASDKANEADKALAAQMGAQAAYNLDDAAAAKAYLKQAVDLNALDNNGHYQSMLMLAQLQLQDNEYDAGLATLDKYLAETKSNRPEDLIVKGQALYQTEKYAEAIPVLKQAIAASPEPKDSWNQLLMAAYAEAGQTGEAVAAAEALAAKNPADKKAQINLASMYMQADQMDKAAAVMDKLRASGQLTDEKEYRQLYSIYANTDGHEKDVIAVINEGLQKGILKPDYQVYLALAQSYYYSDQVPQAIENWKKAAPLSKDGETYLNLAKVLHSEGRIPEAKDAAKQALAKGVKRPDDAKKIINLK				NA	NA	NA	NA	NA
BMS020_02641	672			hypothetical protein	ATGACGGAACAACTCGTTGTCCACAGGTACGACCGCGATGCAGGGAACCAGGGGTTGAGCTGGCCCCGCATCTTCGGTGTTGCCTTCGTAATTGCACTCCATCTCGCCGCCCTGATGCTGCTCCTGATCCCGGCCGTGGCCCCCAAGGCTCCCGCGGAGAAGGAACGCAACGTCATGGTGACGATCGTCGACGCGCCGCCGCCGCCGCCACCGCCGCCGCCGCCGCCGCCGCCGCAGGACAAGCCGCCGCCGCCGGTGAAGAACCTGGCGCCGCCGAAGCCGTCGCCCGTGCCGCCGCCGCCGGAAGCCCCGGTCGTGGACGTGCCGGAGCCGCGCCCGGCCGACATCGTGACCCCGCCGTCGCCGCCTGCCCCGCCGCAGCCGCCGAGTGACATCGGTGCGAGCGTGGACATCTCGTCGAAGAACATGAACCCGCCGAAGTACCCGCCGTCCGCGTTCCGCGCCGGCATCCAGGGCGAGGTCATCCTGATCATCGATGTCGATGCGAACGGCAACGTGACCAACGTGTCGGTCGAGAAGTCCAGCCGCAACCGTGAACTGGACCGCGCTGCAATGGACGCTGCGCGCAAGTGGAAGTTCAATGCTTCGGTCGTCAACGGCCAGAAGGCTGCCGGTCGCGTCCGCGTCCCGGTCAACTTCGCGCTCAACTGA	MTEQLVVHRYDRDAGNQGLSWPRIFGVAFVIALHLAALMLLLIPAVAPKAPAEKERNVMVTIVDAPPPPPPPPPPPPPQDKPPPPVKNLAPPKPSPVPPPPEAPVVDVPEPRPADIVTPPSPPAPPQPPSDIGASVDISSKNMNPPKYPPSAFRAGIQGEVILIIDVDANGNVTNVSVEKSSRNRELDRAAMDAARKWKFNASVVNGQKAAGRVRVPVNFALN	PGPT0003745_5640	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003745-tonB-K03832	NA	NA
BMS020_02642	762	tolQ_1		Tol-Pal system protein TolQ	ATGCTGCAGGATCTCTTCATCGCCGCCGCTGCCGGGGGTTCCAACCCGTCGGCTGCCCTCTCGCAGATGGGCTTCGAGCACCTGATCGGGGAAATGACCTCGCATCCGGGTGACTTCGCCGTTTCCTGGGTCGTGCTCATCGCCCTCGTCACCATGTCGGCGATGTCCTGGTACTGGACCGTCATCAACATCTTCCGCGCCGCCCGCCTGAAGGCTGCTTCCGACCGCGTCGTCAGCGCGTTCTGGGAAGCCCCGAACGCCCAGGAAGCGATCCGTGCGATGGAAGAGCAGCCGGCTTCCGAGCCGTTCTCCAAGATCGCCTTGGACGCAGCCCAGGCCGCTGCGCACCACCAGCGCGCTGAAGGCAGCAACACCGGCCTGGGTGAGAACCTGAGCCGTTCGGAGTTCGTCGACCGCGCCCTGCGCCAGGCCGTGACCCGCGAAAGCGGCCGCCTGCAGTCGGGCATGGTGCTGCTGGCGACCGTCGGCGCGACCTCGCCGTTCGTCGGCCTGCTCGGCACCGTGTGGGGCATCTACGGCGCGCTGATCAAGATCGGTGCGAGCGGCAACGCCGGCATCGAGGCCGTGGCCGGCCCGGTGGGTGAGGCGCTGATCATGACCGCGATCGGTCTGTTCGTGGCGATCCCGGCGGTGTTCGCGTTCAACTTCTTCTCGAAGATCAACACTTCGACGATCGCGAAGTTCGACACGTTCGCCCACGACCTGCACGACTTCTTCGCCACCGGTTCGCGCGTCAAGTAA	MLQDLFIAAAAGGSNPSAALSQMGFEHLIGEMTSHPGDFAVSWVVLIALVTMSAMSWYWTVINIFRAARLKAASDRVVSAFWEAPNAQEAIRAMEEQPASEPFSKIALDAAQAAAHHQRAEGSNTGLGENLSRSEFVDRALRQAVTRESGRLQSGMVLLATVGATSPFVGLLGTVWGIYGALIKIGASGNAGIEAVAGPVGEALIMTAIGLFVAIPAVFAFNFFSKINTSTIAKFDTFAHDLHDFFATGSRVK	PGPT0003750_2067	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003750-exbB-K03561	NA	NA
BMS020_02643	423	exbD_2	COG0848	Biopolymer transport protein ExbD	ATGGCCTTCAGTAGTGGAAACAGCAGCGGCCCCATGGCCGACATCAACGTCACGCCCCTCGTGGACGTGATGCTGGTGCTGCTGATCATCTTCATCATCACCACCCCGTTGATGACCCAGAAGGTCAAGGTGGAGTTGCCCAAGGCCAACCTCACCAAGCAGGACGATGATGACAAGCGGCCGAGCCCGATCACGATCGCGGTGAAGGAGAACGGCGACATGTTCTTCAACGACGAGCCGATCACCAAGGAAGCCTTGGAATCGCGCCTGTCGACCGCCGCCCAGCAGACGCCGCAGCCCCCGCTCAACCTGCGTGGTGACCGCACCACCAAGATGAGCACGATCAATGAGGTGATGAAGATCGCTCAGGGTCAGGGCATGCTGGACATCGGCTTCGTCACGACCAAAGACAGAGGGCAGTAA	MAFSSGNSSGPMADINVTPLVDVMLVLLIIFIITTPLMTQKVKVELPKANLTKQDDDDKRPSPITIAVKENGDMFFNDEPITKEALESRLSTAAQQTPQPPLNLRGDRTTKMSTINEVMKIAQGQGMLDIGFVTTKDRGQ	PGPT0003755_2274	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003755-exbD-K03559	NA	NA
BMS020_02644	411	exbD_3	COG0848	Biopolymer transport protein ExbD	ATGGCTTTCAGTAGTGGAACCAGCGGAAAGCCGATGGCCGACATCAACGTCACGCCGTTGATCGACGTGATGCTGGTGTTGCTGATCATCTTCATCGTGACTGCGCCGATCATGACGTACCCGATCGCAGTGGACCTGCCGCAGCGCGTGCTCAACCCGCCGCCGCAGACGGTCGAGCCGCCGCCGCCGATCGACCTGCGCATCGACGCAGGCAACCAGCTGTACTGGAACAACAGCCCGGTTGCGGTCGGTGATCTGCAGCAGCGCATGGAAGAAGTGGTCCAGGCGGACCCGACCAACCAGCCGCAGCTGAAGATCGACGCGAATGCCGATGCCGAGTACGAAGTGGTGGCCAAGGTGCTGGCCGCCGCCAAGAACGCGGATATGAAGAAGATCGGCTTCGTCCAGTAA	MAFSSGTSGKPMADINVTPLIDVMLVLLIIFIVTAPIMTYPIAVDLPQRVLNPPPQTVEPPPPIDLRIDAGNQLYWNNSPVAVGDLQQRMEEVVQADPTNQPQLKIDANADAEYEVVAKVLAAAKNADMKKIGFVQ	PGPT0003755_2980	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003755-exbD-K03559	NA	NA
BMS020_02645	405	exbD_4	COG0848	Biopolymer transport protein ExbD	ATGGCAATGCACGCAGCAGGCAACGCGCAACCGATGGCCCAGATCAACGTCACCCCGCTGATCGACGTGATGCTGGTGTTACTGATCATTTTCCTCGTGACCGCGCCGATCATCACGCGCCCGATCACTCTCGACCTGCCGCAACGTGCCCCGCCGATCAGTCCGCCACCGCCTGCCGTGGCGCCGGTCGAACTGCGCCTGGATGCGGCCGGCCAGCTGTACTGGGACGGTCAGCCGATCGCCGAGGCCGCGCTGGAGCAGCGCTTGCGCGAGGACATCGGCCGCGCGGCCGATGCCCCGGCCCTGCGTATCGCTGCGAACGCCGACGCCCAGTACGAACCGATGGCACGGGTGCTGGCGGCAGCGAAGAACGCCGGGGTCCAGCGGATCACGCTGGCGCAGTGA	MAMHAAGNAQPMAQINVTPLIDVMLVLLIIFLVTAPIITRPITLDLPQRAPPISPPPPAVAPVELRLDAAGQLYWDGQPIAEAALEQRLREDIGRAADAPALRIAANADAQYEPMARVLAAAKNAGVQRITLAQ	PGPT0003755_3461	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003755-exbD-K03559	NA	NA
BMS020_02646	756	pdxJ_1	COG0854	Pyridoxine 5'-phosphate synthase	GTGACCCAGCTCAGCGTCAACGTCAACAAGATCGCGGTGCTGCGTAATTCGCGCGGCGGCCGCGACCCGGACGTGGTGCGCGCCGCGCGTACCTGCCTGCAGGCCGGCGCACATGGCATCACCGTGCATCCACGCCCGGATCAGCGCCATATCCGCACCGACGACGTGCGCGCGTTGGCCGCGCTGACCGGCGAGTTCGCGGTGGAGTTCAACATCGAGGGCAACCCGTTCGCGCCGCCGCGCGACGGCTATCCGGGCCTGCTCGCGTTGTGCGCGCAGGCGCGTCCGGCACAGGTCACGCTGGTGCCCGATGCCGACGGCCAGCTGACCTCGGACCACGGGTTCGATTTCGCGCGCGATGGCGAGCGCTTGAAGCCGCTCGTCGCGGCCTACCGGGCGCTGGGATGCCGGGTCAGCCTGTTCGTCGATGCCGACCAGGCCGACATGGCCGCCGCCGCCGCGACCGGCGCGCAGCGCATCGAGCTTTACACCGGGCCCTATGCCGAGGCGCATGCAGGCGGCCAACCGCAGGCCAGCCTCGGAGTGTTCGCGCGCGCCGCGCAGGCCGCACAGGCCGAAGGGCTTGGCGTGAATGCCGGGCACGATCTGTCACAGGCCAATCTCGGCGACTTCCTCGCCGCGGTCCCTGGCGTCGAGGAAGTCTCGATCGGCCACGCGCTGGTCGGTGAAGCCTTGTACGAAGGCCTGGACGCGACCATCCGCGGCTATCTGGCGATCCTGCGCCAGGCCGGCTAG	MTQLSVNVNKIAVLRNSRGGRDPDVVRAARTCLQAGAHGITVHPRPDQRHIRTDDVRALAALTGEFAVEFNIEGNPFAPPRDGYPGLLALCAQARPAQVTLVPDADGQLTSDHGFDFARDGERLKPLVAAYRALGCRVSLFVDADQADMAAAAATGAQRIELYTGPYAEAHAGGQPQASLGVFARAAQAAQAEGLGVNAGHDLSQANLGDFLAAVPGVEEVSIGHALVGEALYEGLDATIRGYLAILRQAG	PGPT0009170_683	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009170-pdxJ-K03474	NA	NA
BMS020_02647	267			hypothetical protein	ATGCACTGGTTGTTCCTGCTGCTGGCGCTCGGCGCCATGGTCCTGGCGTTCACCACGCCGCAGATGTGGTTGCTGGTGGCGTCGCTGCTGGCCGCCTTGGTGCTGGTCCTGCTGTGGGTGCGCGGCTGGTATGTCGCGCGCATGGGCGACGTGCAGCGCGACGTGTCCACGATGATCGACCCGGCCGAGCTGCGCCGTCTGCGTGAGCTGGCAGCGGCACGCAAGGCCGCCGCCGCCGCTGAATCCGGCGATGTGGCCAAGGACTGA	MHWLFLLLALGAMVLAFTTPQMWLLVASLLAALVLVLLWVRGWYVARMGDVQRDVSTMIDPAELRRLRELAAARKAAAAAESGDVAKD				NA	NA	NA	NA	NA
BMS020_02648	1461	clsA_2	COG1502	Major cardiolipin synthase ClsA	ATGCTTGCACTCCTGCAGGGCGCATGGGACTGGTTGGCAGACCTTCCCCATCTTGGCGCCGTTCTTACTGCCGCCTACCTGGCCTATGTGGTGTGGATCGTCGGTTGGATCGTGCTGCAGAAGCGCGAGCCGGTGGCGACGCTGAGCTGGGTGCTGTCGCTGGCGGCGCTGCCGTACCTGGGCCTGCTGATCTATTACCTGCTCGGACCGCAGAAGGTGAAGCGCCAGCGCCTGCGCCGCGGCCGCGCCCGCTCCGGCATGGAGCACTACAGCAGCGTGTGCCCCCCGGACAGCGACTGCACCGAGCTGGACAAGGTCGCGCAGGCCACCAGCGGCTTGGCGCCGAGCAGCGCGACCCGGGTCGACTGGCTGGTCGACGGCGCGGCGACCTACGACGCGCTGTTGGCGGCGATCGTCCAGGCGCGCGACCACGTGCACCTGGAGTACTACATCTTCAATCCCGACCAGAGCGGCACGATGCTGCGCGATGCGCTGGTCGAGCGCGCCCGCGCCGGGGTCAAGGTGCGGCTGCTGCTGGACGCGGTCGGATCCTCGCGCGTGGGCCGGCGCTTCCTCGCGCCGCTGCGCGACGCCGGCGCCGACGTCGCCTGGTTCCATCCGGCCCAGCTGTTGAAGCCGTTCAAGCGGCCCTGGGTCAACATGCGCACCCACCGCAAGCTGGTGCTGGTGGACGGGCGCTGCGCCTTCACCGGCGGCATCAACGTCACCGACGAGGAGAACGAGCGCGTGCGCGGGGACGCTTACCGCGACCTGCACATGCGTGTGGAAGGGCACGTGGTGCGCAGCCTGCAGCTGGTGTTCCTCGAGGACTGGCTGTACGCGACCGGGCAGGGCCGCGACGTCTTCGCCGCGCAGCAGCTGTGGCCGGAGGACGTGCCGCGTCGGCACGACGGCGACATCGACGCGCAGGTGCTGGTGTCCGGGCCGGATTCGGCCTGGGAGACCATCCACCGCCTGCACGTCGCCGCGATCCACGAAGCCACCCGCCGGGTGTGGCTGGCGACGCCGTACTTCGTTCCCGGCGAAGCGGCGCGGATGGCGCTGACCTCCGCCGCGCTCGGCGGCCTGGACGTGCGGCTGCTGGTGCCGCGCGTCAGCGACTCGCGGCTGGTGACCTACGCGGCGCGTTCCTACTTCGACGAACTGCTGCAGGCCGGCGTGCGCATCTTCGAGTATGGCCCGCGCATGCTGCACACCAAGGCGTTCGTCGCCGACGACCACCTGGCGATCGTCGGCAGCGCCAACTTCGACAATCGCAGCTTCCGGCTCAACTTCGAGCTGTCGATGAAGCTGCGCGACCACGGCCTGGTCAACCAGCTCGCCGACCACCTGCAGCACGAGATGGAGGCGGCGGTGGAGGTGCGGTTCGACCGCCACCGGCCGCTCTGGCGCTCGCGCCTGCCCGAGGCGTTCGCGCGACTGACCTCGCCGCTGCTGTAG	MLALLQGAWDWLADLPHLGAVLTAAYLAYVVWIVGWIVLQKREPVATLSWVLSLAALPYLGLLIYYLLGPQKVKRQRLRRGRARSGMEHYSSVCPPDSDCTELDKVAQATSGLAPSSATRVDWLVDGAATYDALLAAIVQARDHVHLEYYIFNPDQSGTMLRDALVERARAGVKVRLLLDAVGSSRVGRRFLAPLRDAGADVAWFHPAQLLKPFKRPWVNMRTHRKLVLVDGRCAFTGGINVTDEENERVRGDAYRDLHMRVEGHVVRSLQLVFLEDWLYATGQGRDVFAAQQLWPEDVPRRHDGDIDAQVLVSGPDSAWETIHRLHVAAIHEATRRVWLATPYFVPGEAARMALTSAALGGLDVRLLVPRVSDSRLVTYAARSYFDELLQAGVRIFEYGPRMLHTKAFVADDHLAIVGSANFDNRSFRLNFELSMKLRDHGLVNQLADHLQHEMEAAVEVRFDRHRPLWRSRLPEAFARLTSPLL	PGPT0007725_1943	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
BMS020_02649	1095			hypothetical protein	ATGAACCAGGCGATCAAGGGCCGGGGCGCGGCCAGCCGCTTGCCCGGGCGATTCGAGAGCACCGTCAGCGAAGCGGTCGACGATGGCTGGTGGCAGCAGGAGGCGGAGGAATTCGCCGCCCCGGCACTGCGCACCCAGGTCACCGAGGAAACCGCACGCAGCATCATCAGCCGCAACCAGTCGCCGGACATCCCGTTCTCGCAGTCGGTCAATCCGTATCGCGGGTGCGAACACGGCTGCTCCTATTGCTTCGCGCGGCCCAGCCATGCCTACCTCAACCTGTCGCCCGGACTGGACTTCGAGACCCGCCTGTTCGCCAAGACCAATGCGCCCGAGCTGCTGCGCCGCGAACTGGCCCGGCCGGGCTACGTGCCGAGTCCGATCGCGCTCGGCATCAACACCGATGCCTACCAGCCGATCGAGCGGCGCCTGCGCCTGACCCGCCAGCTGATCGAGGTGCTGTGGGAGGCGCGCCATCCCTTCACCCTGATCACCAAGAACGCCCTGGTGGTGCGCGACCTGGATCTGCTCGCTGCGCTCGCCGCCGAGCAGCTGGTCAGCGTGCACTTCTCGGTGACCACGCTGGACCCGCACCTGTCGGCGAAGTTGGAGCCGCGGGCAGCGGCGCCGCATGCGCGGCTGCGTGCGATGCGCACCCTGCAGCAGGCCGGCATCCCGGTCGGGGTGATGGTCGCGCCGGTGATTCCGTGGATCAACGACCACGAGCTGGAGGCGGTGCTGCAGGCCGCCGCCGAGGTCGGCGCCAGCTCGGCCGGGTATGTGCTGCTGCGCTTGCCGCACGAGGTGGCGCCGCTGTTCCGCGACTGGTTGCAGGCCCATCACCCGCAGCGCGCCGATCACGTGATGAGCACGATCCAGCAGCTGCGCGGCGGCAAGGACTACGACAGCCGGTTCGGCGCGCGCTTCACCGGCGAGGGCGCGTATGCCGAGTTGCTGGCACGCCGGTTCGCGCTGGCGCTGCGCCGCAGCGGATTCGAAGGCCGCCGCTACCCGGCGCTGGAGACGTCCCGCTTCCGCCGTCCCGAACCGCCGCCGAAGCCGCGCCCGGCCTCGCCGCAGGGCGAGTTGTTCTGA	MNQAIKGRGAASRLPGRFESTVSEAVDDGWWQQEAEEFAAPALRTQVTEETARSIISRNQSPDIPFSQSVNPYRGCEHGCSYCFARPSHAYLNLSPGLDFETRLFAKTNAPELLRRELARPGYVPSPIALGINTDAYQPIERRLRLTRQLIEVLWEARHPFTLITKNALVVRDLDLLAALAAEQLVSVHFSVTTLDPHLSAKLEPRAAAPHARLRAMRTLQQAGIPVGVMVAPVIPWINDHELEAVLQAAAEVGASSAGYVLLRLPHEVAPLFRDWLQAHHPQRADHVMSTIQQLRGGKDYDSRFGARFTGEGAYAELLARRFALALRRSGFEGRRYPALETSRFRRPEPPPKPRPASPQGELF				NA	NA	NA	NA	NA
BMS020_02650	693			hypothetical protein	ATGGACGACTTCATCGAAGTGTACGAAGAGCTGGTGCCACGCGCGGACTGCGAGGCGATCGTGGCCCGGCTGCAGGCGAGCCGGCAGCTGCATCCCGGCCAGGTCGGCGGCGGCGTGTTTCCCGAGCTCAAGCACAGCCGCGACCTGCGCATCGACGGCCTGGCGGAATGGCGCGATGTCGACCAGCGCCTGCAGCAGGCCGTGTTCGCCGGGCTGCTGCGTTACCTGCGCCGCTATCCGCAGGCGCTGATCTCGCCGCTGATGTTGCAGGTCACCGGTGCCGATGGCACGGCGCACCGGCTCGGCGCCGACGACATCGCCGGCATGGACGATGCGGCGCTGGCCGGGCTGGCGCGTACCTGCCTGCGCCCGGGCGCGGCCAACCTGCAGTGGTACGCGGCGGGCGAGGGCGGCTATCCGTATTGGCATTGCGAGCTGTACCCACGCGATCCCGGCGCGGAAACGCTGCACCGGCACCTGCTGTGGACGCTCTACCTCAACGACGATTTCGACGAGGGCGAAACCGAGTTCCTGTTCCAGCAGCGCAAGGTGCGCCCGCGCAGCGGCAGCCTGCTGATCGCGCCGACCGCCTTCACCCATACCCATCGCGGCAATCGCCCACAGCGCGGCGACAAGGTCATCGCCACCAGCTGGATCCTGTTTCAGCCGGCGAGCAAGCTCTACAGCGGTTGA	MDDFIEVYEELVPRADCEAIVARLQASRQLHPGQVGGGVFPELKHSRDLRIDGLAEWRDVDQRLQQAVFAGLLRYLRRYPQALISPLMLQVTGADGTAHRLGADDIAGMDDAALAGLARTCLRPGAANLQWYAAGEGGYPYWHCELYPRDPGAETLHRHLLWTLYLNDDFDEGETEFLFQQRKVRPRSGSLLIAPTAFTHTHRGNRPQRGDKVIATSWILFQPASKLYSG				NA	NA	NA	NA	NA
BMS020_02651	531			hypothetical protein	ATGATCCAGCGCCTGTATCTTGCCGGCCCCGATGTCTTCCGCCCCGACGCCCGCGAACGCGGCGAGGAACTCAAGGCGCACTGTGCCGCGTTCGGCTTCGACGGGCTGTTCCCGCTGGACCAGGACGTGCCAGCCGGCATCGCCGACCCGGCCGAGCAGGCCGCATGGATCTACCGCGCCAACATCGGCCTGATCGAACGCGCCGACGCGGTGCTGGCCAACCTGGATTTCTTCCGCGGCCCGGAGCCGGACAGCGGCACCTGCTTCGAGGTCGGCTACGCGGTGGCCAAGGGCAAGCCGGTGTATGGCTACATCCCCGAGCACGGCAGCTTCGCCGAGCGCATCCGCCTGCGCCACCCGCAGGCGATCGGCGCCGATGGCGTGCTCGACGTGCGTGGCTGGTTCTTCGAGGAGTTCGGCCTGCCGCTCAACCTGATGCTGTCGGTGCCGGCGCCGCTGGTGGTCGGCGATGCGCGTACCGCACTGGCGCGGTTGCGCGCCGAGCAGGATGCGATCGCGCTGGCGGGCTGA	MIQRLYLAGPDVFRPDARERGEELKAHCAAFGFDGLFPLDQDVPAGIADPAEQAAWIYRANIGLIERADAVLANLDFFRGPEPDSGTCFEVGYAVAKGKPVYGYIPEHGSFAERIRLRHPQAIGADGVLDVRGWFFEEFGLPLNLMLSVPAPLVVGDARTALARLRAEQDAIALAG				NA	NA	NA	NA	NA
BMS020_02652	1335	ompP1	COG2067	Outer membrane protein P1	ATGTCCAACGCATCCAACATCAGCCGCATTACCGTGCTGGCTGTCGGCATCGCCGGCGCTCTGGCGTTCGGCCAGGCGCATGGCGCCGCGTTCCAGCTGAAGGAGAACAGCGCCAAGGGTCTCGGCCGCGCCTTCGCCGGCTCCGCCAGCGCCCCGGGCGATGCCTCGATCATCGCCAACAACCCGGCCGGCATGCGCCTGCTGGAAGGTCGCCAGTTCCAGGCCGACGTCAGCGCGATCAGCTTCGGCGCCAAGTTCAAGGGCGACGCCACCTACATCAGCGGCAGCGAGGTTTCCGGCGGCAACGGCGGCGACGCCGGCAAGATCGCCGCGGTGCCGGCGATGTACTTCCACGTGCCGTTCGGCGAGAACGACCACATGCACTTCGGCACCTCGCTGACCGTGCCGTTCGGCTTCGTCACCAAGTACGACAGCACCTGGAAGGGCCGTTACAGCGGCCTGAAGACCGAGCTGCAGGCGATCGACCTGAACTTCGCCTTCTCCTACGACGTCAATCCGTACGTGTCGTTCGGCGCGTCGGTGTTCGCCGAGCGCCTGGACGTGGATATCGGCAACGCGATCGACTTCGGCACCGCGCTGTACGCCAGCCGCGTGCCGGGCTTCACCCCGGGCAGCGCCGACGGTACCCTGCGCATCAAGGGCGACAACACCGAGGCCGGCTTCACCCTCGGCGGCCTGTTCAGCATCGATGAGAACACCAACATCGGCCTGAGCTACCGTTCGGAAGTCGAGCACAAGATCACCAACGGCACCGCCGACTTCACCGTGCCGGCGCAGGTCGCCGCGGTGCTCGCGGTGGCCCAGCCGGGTTACTACGTCGACACCACCGGTCGCGCGACGATCACCCTGCCGGCCAGCGCCACCGCCAGCTTCTTCCACCGCGTCAACGACCAGTGGTCGATCATGGCGGACGTGACCCGCACTGCGTGGAGCAAGTTCGACAAGGTCAACGTCTCCCTCGACAACGGCCAGACCCTGCCGCTGGAGTTCGCCTACCGCGACACCACGTTCGCCTCGATCGGCGCCGACTACAAGCTCAACGAGTCGGTCACCCTGCGCGGCGGCCTCGGCTACGACCAGACCCCGACCACCGACGCACACCGCGACGTGCGCGTGCCGGACACCACCCGCAAGTGGCTGTCGCTGGGCGTGAGCTGGGCCCCGTCGGAGACCGTCGAGTACAACCTCGGCTACACCCACCTGTTCACCAGCGACCCGAACGTGGATACCACCTCGGCGACCTACAACAACATCGTGGGCACCTACGACGTCAGCGGCGACGTGCTGGCAGCGTCGTTCAACTACAAGTTCTGA	MSNASNISRITVLAVGIAGALAFGQAHGAAFQLKENSAKGLGRAFAGSASAPGDASIIANNPAGMRLLEGRQFQADVSAISFGAKFKGDATYISGSEVSGGNGGDAGKIAAVPAMYFHVPFGENDHMHFGTSLTVPFGFVTKYDSTWKGRYSGLKTELQAIDLNFAFSYDVNPYVSFGASVFAERLDVDIGNAIDFGTALYASRVPGFTPGSADGTLRIKGDNTEAGFTLGGLFSIDENTNIGLSYRSEVEHKITNGTADFTVPAQVAAVLAVAQPGYYVDTTGRATITLPASATASFFHRVNDQWSIMADVTRTAWSKFDKVNVSLDNGQTLPLEFAYRDTTFASIGADYKLNESVTLRGGLGYDQTPTTDAHRDVRVPDTTRKWLSLGVSWAPSETVEYNLGYTHLFTSDPNVDTTSATYNNIVGTYDVSGDVLAASFNYKF				NA	NA	NA	NA	NA
BMS020_02653	693			hypothetical protein	ATGTTCGTGTCCATCCCGTCCCGTCGCAAACCTGCCCTGCGCTGGGCGGTGCCGCTGCTGTTCGTCGCCTTGTGGCTGGCGTTCCTGTGGTCGATCAGCCGCCCCGACGAGGCCAGGCGCACGCTGTGGCTGGACTGGGGGGCGCTGTCCAGCGGGGTCTCCCAGCCCGGCGACTGGTGGGCGACGCTGCAGGACGGCAGCGTGCTGCGCCTGTTCACCGCGCTGTTCCTGCACGCGGACTGGTCGCACCTGCTCGGCAACCTGGTGTTCCTGCTGATCTTCGGTCTGTCGGCCGAGCGGATGCTCGGGCCGTGGCGGCTGCTGCTGCTGTTCCTGGCCGGCGGCGCGGTCTCCAACCTGGCCGCGATCGTCGCGATCGGCACCCCGGACCGGGTCATCATCGGCGCATCCGGCGCGGTGTCGGCGCTGATCGGCAGCTACCTGGCGCTGTTTCCCAGCGCCAAGCTCGGCGTGGTGCTGCCGCTGGGGCTGTTCCTGGAGTTCATCCGCGTGCCGGCGGCGTTGCTGATCGGTGCCTGGGCGCTGCTGCAGGTGGTGTTCGCCTACATCGGCCCGGCCTTCGGCATGGTGGCCTGGTCGGCGCACATCGCCGGCTTCCTGTTCGGGGTCGCCTATGGGCTGTACGTGCGCGCGGCGATCGCGCGGCGGCTGCGCAAGCGGCAGGGGTTCTAG	MFVSIPSRRKPALRWAVPLLFVALWLAFLWSISRPDEARRTLWLDWGALSSGVSQPGDWWATLQDGSVLRLFTALFLHADWSHLLGNLVFLLIFGLSAERMLGPWRLLLLFLAGGAVSNLAAIVAIGTPDRVIIGASGAVSALIGSYLALFPSAKLGVVLPLGLFLEFIRVPAALLIGAWALLQVVFAYIGPAFGMVAWSAHIAGFLFGVAYGLYVRAAIARRLRKRQGF				NA	NA	NA	NA	NA
BMS020_02654	321			hypothetical protein	ATGTCCAAGCCGCTGTTCAAAGTCACGTTCCTCAACCACGGCAAGGTCTACGAGCTGTACGCGCGCCATGTCGGCAGCAGCCACTTGTGGGGCTTCAACGAGATCGGCGAGCTGGTGTTCGACGTGCATGACGGGCTGGTGGTCGATCCGACCGAGGAGCGCCTGCGCGAGGAGTTCGGCAACACCAAGGTGCTGCACCTGCCGATGCAGAGCATCGTGCGGATCGAGGAAGTGGAAAAGAAGGGCCAGTCGGCAATCCGCGATGCGACCACCGGCGAGAAGGTGGTCACGCCGTTCCCGTTGCCGGCCAAGCCGCGCTGA	MSKPLFKVTFLNHGKVYELYARHVGSSHLWGFNEIGELVFDVHDGLVVDPTEERLREEFGNTKVLHLPMQSIVRIEEVEKKGQSAIRDATTGEKVVTPFPLPAKPR				NA	NA	NA	NA	NA
BMS020_02655	1014	ghrB_1	COG1052	Glyoxylate/hydroxypyruvate reductase B	GTGCCCGTCACCGTTGTCGCGCCGACTGAGCGGATGCGTGTGCTGGTGGCCGACGACTACCAGGATGCGGTGCGGCATCTACCCTGCTTCCAGCATCTGCGCGCGCACGATGTCACCGTGCTGCGAGGGGCGCTTGGCGATGCGCCGCCCACGGTGCTGGCGCAGGCCGAGGCGGTGGTGTTGATCCGCGAGCGTTCGCGCATCGACGCGGCGCTGCTGCGGCGCATGCCCCGGCTGCGGCTGCTGAGCCAGACCGGCAAGATCGCCGCGCACCTGGACCTGGCCGCCTGCAGCGCCGCCGGCGTCGCCGTCGCCGAAGGCAGCGGATCGCCGTTCTCCACCGCCGAGCTGACCTGGGCGCTGGTGCTGGCCGCGAGCCGGCGCCTGCCCGACTACCAGCGTGCGCTGCATGCCGGGCGCTGGCAGGACCTGGGCGATCCACGCCTGGGACGCGCGCTGCACGGGTTGACCCTGGGCATCTGGAGCTACGGCAAGATCGGTCGGCTGGTGGCCGGCTACGGGCGTGCGTTCGGCATGCAGGTGCGGGTCTGGGGCAGCGAGGCCGCGCGCGCGCAGGCCGCCGCCGACGGCATCGCCTGCTTCGACAGTCGCGCGCAGCTGTTCGCCGACAGCGACGTGCTGAGCCTGCATCGGCGCCTGGTGCCGGCGACGCGGCATGAGATCGACGCGGCTGCGCTGGCGTCGATGAAGCCCGACGCGCTGCTGGTCAACACCAGCCGCGCCGAGCTGATCGCGCCGGGCGCGCTGCTGGCGGCGCTGGAGGCCGGGCGTCCCGGCCAGGCGGCGTTCGACGTGTTCGAGCACGAACCACTGCTGGCACCGGACGATCCGCTGCTGCGGCATCCGCGGGTGCTGGCGACGCCGCACCTGGGCTATGTCGAACAGGCCAGCTATGCGCAGTACTTCGCCGCCGCGTTCGACAACGTGCTGGCCTTCGCTGCCGGCGCGCCGCGCAACCTGGCCAATCCCGAGGTGCTGGCGGCGCAGGCCTGA	MPVTVVAPTERMRVLVADDYQDAVRHLPCFQHLRAHDVTVLRGALGDAPPTVLAQAEAVVLIRERSRIDAALLRRMPRLRLLSQTGKIAAHLDLAACSAAGVAVAEGSGSPFSTAELTWALVLAASRRLPDYQRALHAGRWQDLGDPRLGRALHGLTLGIWSYGKIGRLVAGYGRAFGMQVRVWGSEAARAQAAADGIACFDSRAQLFADSDVLSLHRRLVPATRHEIDAAALASMKPDALLVNTSRAELIAPGALLAALEAGRPGQAAFDVFEHEPLLAPDDPLLRHPRVLATPHLGYVEQASYAQYFAAAFDNVLAFAAGAPRNLANPEVLAAQA	PGPT0009155_5944	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
BMS020_02656	1371			hypothetical protein	ATGCGCGTAGCCGTCCTGTATCTCGCCCTGTCACTGGCCCTGGCCCCGGTTGCGGCCCTGGCGCAGAGCGAAGGCCAGTCCCCCCCCGCCCGCGCGGACGATCCGGACGCGGACGAATCCGCCGCCAGCAAGGTGCCGCTGGAAGAGATCCGCCGCTACGTGGCGGTCTACAACGCGGTGAAGGAAGCCTACGTCGACCCGGTCGACGACAAGAAGCTGATGCAGTCGGCGATCCGCGGCCTTCTGCTCGACCTCGACCCACACAGCACCTACTTCGACAAGGAAGACGCCCAGGCCTTCGACGAACAGGCCACCGGCGCCTACGACGGCATCGGCGTGGAGCTGCAGCAGCAGCCGGACAACACGCTGAAGGTGATCTCGCCGATCGACGACACCCCGGCCGCGCGCGCCGGCATCCTCGCCGGCGACACCATCATCGCCATCGACGGCAAGCCGATCGCCGCGGTCGAGGCAATGGAACCGCTGCGCGGCAAGCCCGGCAGCAAGGTCACCCTGACCCTGCTGCGCGAAGGCCGCGACAAGCCGTTCGACGTGGCGGTCACCCGCGAGACCATCCGCGTCACCAGCGTGCGCTCGCGGATGCTGGAGCCCGGCTACGGCTACCTGCGCATCGCCACCTTCCAGGCCGATACCGGCACCGACTTCCAGAAGAACCTGGCCACGCTCAAGCAGCAGGCCGGCGGCAGGCTCAAGGGCCTGGTGCTGGACCTGCGCAGCAATCCCGGCGGCCTGCTGACCTCGGCGGTGCAGGTGGCCGACGACCTGCTCGACAAGGGCACGATCGTCACCACCCGCGGCCGCATCTCGATCAGCGACGCCAAGTTCGACGCCACCCCCGGCGACCTGCTCGACGGCGCGCCGGTGGTGGTGCTGGCCGACGCCGGCTCGGCCAGCGCCTCGGAAGTGCTGGCCGGTGCGCTGCGCGACAACAAGCGCGCGCGCATCGTCGGCAGCCGCACGTTCGGCAAGGGCTCGGTACAGACCGTGCTGCCGCTGGACAACGGCGACTCGGTCAAGCTGACCACCGCGCGCTACTACACCCCGAGCGGCCGTTCGATCCAGGCCAGCGGCATCGTGCCCGACGTGGTGCTGCGCCCCGAGGGCAAGCCGGATGCCGACATGCCGGCCAGCGTGGCCGACTACAGCGAGGCCACGTTGCCCGGCCACCTGCGCGGCGACGACGAAGGCGCCGACGGCTACACCGCCGGCGACGTGCTGCCGGGCGATGGCCCGATCGCCTCCGCCCTGGCCGAGCTCAAGCAGCCCGGCGCGGTGGCACGCGCCGAAGCGGCCAAGGCGAAGGCCAAGCCCGCCTCCAAGCCGGCCAGCGCGGCGAAACCGGCCAAGTAG	MRVAVLYLALSLALAPVAALAQSEGQSPPARADDPDADESAASKVPLEEIRRYVAVYNAVKEAYVDPVDDKKLMQSAIRGLLLDLDPHSTYFDKEDAQAFDEQATGAYDGIGVELQQQPDNTLKVISPIDDTPAARAGILAGDTIIAIDGKPIAAVEAMEPLRGKPGSKVTLTLLREGRDKPFDVAVTRETIRVTSVRSRMLEPGYGYLRIATFQADTGTDFQKNLATLKQQAGGRLKGLVLDLRSNPGGLLTSAVQVADDLLDKGTIVTTRGRISISDAKFDATPGDLLDGAPVVVLADAGSASASEVLAGALRDNKRARIVGSRTFGKGSVQTVLPLDNGDSVKLTTARYYTPSGRSIQASGIVPDVVLRPEGKPDADMPASVADYSEATLPGHLRGDDEGADGYTAGDVLPGDGPIASALAELKQPGAVARAEAAKAKAKPASKPASAAKPAK	PGPT0015095_3002	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015095-prc|ctpA-K03797	NA	NA
BMS020_02657	1254	envC_1	COG4942	Murein hydrolase activator EnvC	TTGCCATCGCCAGCCCATCTGCTGCGTTCCCGCCTGCCGTTGCTCGCCGCGCTGCTGTGCGTCGCGCTCGCCGGCACCGCCGCCGCGCAGAACCAGCGCGAGACCGAGCGCAAGCTGGCGCAGATGCGCGCCGAGCTGAAGGACATCGGCCAGGAGCGGCGCAAGCTGGAGGACCAGCGCGGCGAAGCCTCGCGCAAGCTGCGCGCGGCCGACGAGCGCGTGGCCCGCAGCGCACGCGCATTGGCCGAGACCGAGCAGGCACTGCGCGAGCAGCAGCAGGCGCTGGACGAGGCGCAGCGCAAGCGCGCCGCGCTGGAGCAGGGCATGCAGGCGCAGCGCGCCGCATTGGCGGCGCTGCTGCGCGGTGCCTACCAGGTCGGCGATGCCGCGCCGCTGAAGCTGCTGCTGTCGCAGGACAGCGTGGCCGACGCCAACCGCGTGCTGGCTTACCACCGCTACGTGCAGACCGAACGCGCCGCGCGCATCCAGGCGATCAGCCGCGACCTGCAGGCGCTGGACGCGGTCGAGCAGGAGATCCGTGACCGGCACGCATCGCTGGCGCAGGCGCAGACCCAGCAGCGCGGCCAGGCCGCGACGCTGAAAGCCGACCGCAGCCAGCAGGCGGCGACCGTGGCCGACCTGGACGGCCGCTACCAGGAGCGCAGCGCGCGCGAGAAGGCACTCGGCCAAGACACCAAGGCGCTGGAGAAGCTGCTGGCCAACCTGCGCGCCGCCGCTGCGCGCGCCGAGGCCGAACGCCGGGCCGCGGCCAAGCGGGCGGCCGCCGAAGCCGCCGCCGAAGCCAAGGCCGGCGGCAGCCACAAACCCGGCAAGACCCCGCCGAAGGTGGTCGCCAACGCACCGGCGCCGAAGGTCGGCGGCCTGGGCTGGCCGGTTTCCGGCCGGCTGCTGGCGCGTTACGGCGGCACCATGCCCGACGGCCGCGCCAGCGCCGGCGTGCTGATCGGCGCGCCGACTGGTACCACGGTGACCGCGGTGGCCGACGGCACCGTGGTGTTCTCCGACTGGATGACCGGCTACGGCATGATCCTGATCGTCGACCATGGCAACGGCTACATGAGCCTATACGCACACAACGACACGCTGCTGCGCGACGCCGGTGCCGCGGTCAAGCGCGGCGATGCGATCGCCAAGGTCGGCAACTCCGGCGGGCAGGGCACGCCGGCGCTGTATTTCGAGCTGCGCCGCAACGGCCAGCCGGTGGATCCCTCGGCGTGGCTGCAGCGGCGCTGA	MPSPAHLLRSRLPLLAALLCVALAGTAAAQNQRETERKLAQMRAELKDIGQERRKLEDQRGEASRKLRAADERVARSARALAETEQALREQQQALDEAQRKRAALEQGMQAQRAALAALLRGAYQVGDAAPLKLLLSQDSVADANRVLAYHRYVQTERAARIQAISRDLQALDAVEQEIRDRHASLAQAQTQQRGQAATLKADRSQQAATVADLDGRYQERSAREKALGQDTKALEKLLANLRAAAARAEAERRAAAKRAAAEAAAEAKAGGSHKPGKTPPKVVANAPAPKVGGLGWPVSGRLLARYGGTMPDGRASAGVLIGAPTGTTVTAVADGTVVFSDWMTGYGMILIVDHGNGYMSLYAHNDTLLRDAGAAVKRGDAIAKVGNSGGQGTPALYFELRRNGQPVDPSAWLQRR	PGPT0023855_1248	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN-ENDOPEPTIDASE_ACTIVITY|LIPOPROTEIN,PGPT0023855-envC-K22719	NA	NA
BMS020_02658	663			hypothetical protein	ATGAAGCGTGTGAAGCTTGGCGTGGTGTTGGCGGTGCTGCTGGCGACCGGGCCGGCCTGGGCCGACGAGGACATCAGCAAGGTCAACGGCCACATCACCGCCGAAGCCGGGCGCCAGTATGGCGACCTGGACACCGTCAACGGCGGCATCACCATCGCTGCCGAGGCGCGGACCCGCGACGCGGAAACGGTCAACGGCAGCATCGACGTCGGCGCGCGCGCCCAGACCGGCGGGCTGTCCACCGTCAACGGCAGCATCGAGGTCGGCACCGGGGCGGTGGTCGGCGACGGCATCGAGACAGTCAACGGCAGCGTGTTCGTCGATCGTGGCAGCACGGTGCGCGGTGGCATCGAGACGGTCAACGGCGGCATCGGCCTGGTCGGCACGCAGCTGGATGGCGGCATCGAGACGGTCAATGGCGACATCACCGTCGGCGTCGGTTCGCACGTGTCCGGCGGCATCGACATCAAGAAGCCCAGCTTCAGCCTGTCGCTGAAGCCGGCGCGCAAGCCGCGGGTGATCATCGGCCCGAACGCGGTGGTCGACGGGCCGCTGAACTTCGAGCGCGAGGTGGTGCTGCTGGTGCACCGCAGCGCCCGCATCGGCACGGTCAGCGGCGCCACCCCGCGCAGCTTCGACAGCGACGTGGCGCCGGCCGACTGA	MKRVKLGVVLAVLLATGPAWADEDISKVNGHITAEAGRQYGDLDTVNGGITIAAEARTRDAETVNGSIDVGARAQTGGLSTVNGSIEVGTGAVVGDGIETVNGSVFVDRGSTVRGGIETVNGGIGLVGTQLDGGIETVNGDITVGVGSHVSGGIDIKKPSFSLSLKPARKPRVIIGPNAVVDGPLNFEREVVLLVHRSARIGTVSGATPRSFDSDVAPAD				NA	NA	NA	NA	NA
BMS020_02659	1740			hypothetical protein	ATGTCCCGCAAGATCCTGCTGTGCCTGGCCGCGACCGCGGCGCTGGCGGCCTGCAAGCGCGAACCGGAGGCGGCACCGGCCCAGGTCGCGCAGCCGCAGGCCAGCGCCGCGCCGGTGGCCGCGCCGGCCAGCACCCATCCGTTCGCGTCCGCGATCAACGAGGCCGATTTCGCCGAACTGGTGAAGACCCTGTCCTCGGACGACTTCGAGGGCCGCGGCCCCGGCACCGCCGGCGAGGACAAGACCGTCGCCTACATCCGCGACCAGATGCAGCGCGCCGGCCTGCAGCCGGGCAACGGCGACAGCTGGTTCCAGGACGTGCCGATGGTGGAGACCACCGCCGACGCGGCCACCGCGCCGACGCTGACGTCGGGCGGGCAGACCCGCACGCTGCGCTTCGGCAGCGACATCGTGATCGGCACCCGCAGCGGCCAGCCCGAGGTGAAGATCGATGCCAGCGAGCTGGTGTTCGTCGGCTACGGCGTGGATGCGCCCGAGCAGCAGTGGGATGACTACGCCGGGCAGGACTGGAAGGGCAAGACGGTGGTGATGTTCGTCAACGACCCCGGCTTCCACACCGGCGATGCCAAGCTGTTCGAAGGCAAGCGCATGACCTACTACGGGCGCTGGACCTACAAGTTCGAGGAGGCCGCGCGCAAGGGCGCCGCCGCCGCGCTGATCGTCCACGACAGCGCCGGCGCCGGCTACGGCTGGGACGTGGTGCGCCATTCCTGGGCCGGTCCGCAGTACGACCTGCCGACCCAGGACGATCCGGCGCCGCGCCTGCCGGTGCAGGGCTGGATCAGCGCCGACACCGCGCGCCAGCTGTTCGCCGATGCCGGGCTGGACCTGGACAAGGAATACAAGGCAGCCAGCAAGCGCGGTTTCAAGCCGGTAGCGCTGAAAGCGCGCTGGTCGGTGGACCTCAAGAGCACGATCGCGCAGAAGACCTCGCGCAACGTGGTCGGGGTGCTGCCCGGCAGCAGCCGCGCCGACGAGGCGGTGCTGTACATGGCGCACTGGGACCATCTCGGCAAGCACGAGGGCGAGGCCGGCGACAACATCTACAACGGTGCGGTCGACAACGCGACCGGCGTGGCCGGCATCCTCGAGATCGCCGACCAGTTCGCCCACCAGGAGCCCAAGCCGCAGCGTTCGGTGGTGTTCGTGGCGGTGACGCTGGAGGAGTCGGGCCTGCTCGGCTCGCAGTACTACGTCGCCCACCCGACCTTCCCGCTGGACAAGATCGCCGGCGTGGTCAACATCGATGCGATGTCGATCGCCGGGCGCGCGCGCGACATGACCGTGGTCGGCATGGGCAGCTCGGAGCTGGAGGACATCCTCAAGCCGCTGGCGGCGATGCAGGGCCGCACCCTGCACGCGGAAACCTCGCCGCAGAACGGCTCCTACTTCCGCTCGGACCACTTCAACTTCGCCAAGGCCGGCGTGCCGGCGCTGTACGCCAAGGGCGGCGCGGACCTGCGCGACGGCGGCGAGGCGGCCGGGCGCAAGGCCGCCGAGGCGTACGGCAAGTGCTACCACGCGCCGTGCGACCAGTTCGACGCGGCGACCTGGAAGCTCGATGGCGTGGTCGAGGACCTGCAGGCGCTGTACGGCGTCGGCAAGGAGCTGGCCGCTGGCGAGCGCTGGCCGAACTGGTATGCCGGCAATCCGTTCAAGGCCGCGCGCGATCGCATGATGGCGGGCAAGCCTGCCGCGGCCACGCCGAAGCAGGACTGA	MSRKILLCLAATAALAACKREPEAAPAQVAQPQASAAPVAAPASTHPFASAINEADFAELVKTLSSDDFEGRGPGTAGEDKTVAYIRDQMQRAGLQPGNGDSWFQDVPMVETTADAATAPTLTSGGQTRTLRFGSDIVIGTRSGQPEVKIDASELVFVGYGVDAPEQQWDDYAGQDWKGKTVVMFVNDPGFHTGDAKLFEGKRMTYYGRWTYKFEEAARKGAAAALIVHDSAGAGYGWDVVRHSWAGPQYDLPTQDDPAPRLPVQGWISADTARQLFADAGLDLDKEYKAASKRGFKPVALKARWSVDLKSTIAQKTSRNVVGVLPGSSRADEAVLYMAHWDHLGKHEGEAGDNIYNGAVDNATGVAGILEIADQFAHQEPKPQRSVVFVAVTLEESGLLGSQYYVAHPTFPLDKIAGVVNIDAMSIAGRARDMTVVGMGSSELEDILKPLAAMQGRTLHAETSPQNGSYFRSDHFNFAKAGVPALYAKGGADLRDGGEAAGRKAAEAYGKCYHAPCDQFDAATWKLDGVVEDLQALYGVGKELAAGERWPNWYAGNPFKAARDRMMAGKPAAATPKQD				NA	NA	NA	NA	NA
BMS020_02660	453			hypothetical protein	ATGACGAACACCACGCCCCGCCTGACCTCGACCCTGCTGCTCGGCGCGCTGCTCGCCGGCGGCGCCGGCCTGGCCCACGCCGCCAATGCCCAGGAGGGCGCCCTGACCTCGGCCAAGGTCGAGGCGCTGCTGGCCGAGCAGGGCTACCGCAAGGTGCACGACGTGACCTTCAAGGACGGCCTGTGGCAGGCCGAGGCCGAAAGCGGCGACGGCGAGGACCTGAAGCTGCGTATCGACCCGGTCGCCGGCCGCATCTACGGCGACCGCGGCGCCTCGGCAATGACCGAGGCCGATGTCCGCGCCGCGCTGGCCGCCAACGGCTATTCCAAGGTCCACGACCTGAAGTTCAAGGACGGGCTGTGGAAGGCCCAGGCCGAACAGTCCAGCGGACAGGACATCAAGGTCCAGGTCGATCCGCGCGACGGCCTGGTGGTCAGCGCCGAGAACGACTGA	MTNTTPRLTSTLLLGALLAGGAGLAHAANAQEGALTSAKVEALLAEQGYRKVHDVTFKDGLWQAEAESGDGEDLKLRIDPVAGRIYGDRGASAMTEADVRAALAANGYSKVHDLKFKDGLWKAQAEQSSGQDIKVQVDPRDGLVVSAEND				NA	NA	NA	NA	NA
BMS020_02661	1329			hypothetical protein	ATGGTGCGGTTCGTTCGTCGCGCGGCGCTGGCGTGTTGCCTGTGCCTGCCCCTGCTCGCGCAGGCCCAGGAGGATGCCGAGCGCCTGCGCATCCACGGCTCCAACACCCTCGGCAACCGGCTGATGCCAGCGCTGGTCGAACGCTGGCTCGGTTCGATCGGCTATGAAGGCCTGCGCCGCACCGGCACCGCGGCAGGCCGCACCGAGATCCACGCGGTACGCGACGGCCAGCTGCTGGTGGTCGAGATCGACGGCGGCGGCAGCGCCGCGGGCCTGCGCGACCTGGTCCGCGGCGATACCGAGCTGGCGATGGTCACGCGCCCGCCCAACGCCGCCGAATCCGCCGCGGCCTGGCAGCTCGGCGCGCTGGATTCGCCGGACCAGCAGTTCGTGGTCGCGCTGAACGGTGCACGCGTGCTGGTCGGCAACGCCAACCCGCTGCGCAGCCTGAGCCTGGCCCAGCTACGCGACGTGCTGGCCGGGCGGATCGACAACTGGCGCCAGCTCGGCGGCAACGACCGCCCGCTGCAGCTGGTCTGCGCCGACGGTGCCGCCGGTCTGGCCGACTACCTGCGCGGCCGCGTCGGCACGCTGGATGCCCGCGCCTGCGGTCGGCGCGTGCCCAGCCTGCGCGAGGCCGCCGCCGTGGTCGCCGGCAATCCGTTGGCCATGGCGGTCGTCGAGATCGCCACGCCGGTCGCTCCCGGCGCACGCGCGCTGGCGATCGCCGACGGCGGCATCGCCGTGCCGGCCGACGCGGCCTCGGTGCGCAGCCAGGACTATCCGCTGACGCAGCGCTACAGCGTGCATGGCGGGCAGATGATGTCGGCGCTGGGCCGCAGCTTCGGCCTGTACCTGCTGGGGCCGGCGGCGCAGCGCATCGTCGCCGCGCAGGGGCTGGTGCCGATGGCGCTGCCTGCCGCGGCCGCGGCCACGCCATTGGCGGACAGCAGCGATCCGGCCTACCGCGATGCCGTCGCCGGCGCGGTGCGGCTGCCGCTCAGCGTGCACTTCAACCTGGCCTCGCTGACCACGATGTTCGAGGGCGGCTCGGCCCAGGACCTGGACCGGCTGGTGGCGTGGATGCAGCAACCGGCCCATGCCGGGCACCAGCTGGTGGTGGTCGGCTTCGCCAATGCCGACCCGTCCAACAAGCTGTACCCGACCATCGCCAGCAACGACCGCGCCGACATCGTCACCGGCTACCTGGCCCAGCGCGGGGTGCGCGTGCAGCGCTCGCGCGGCCTTGGCGCGCTGCGCCCGCTGGTTGCGCCGGATGCACCTCAGGCACGCATGCGCAACGAGCGCGTGGAGCTGTGGCTGCTGTAG	MVRFVRRAALACCLCLPLLAQAQEDAERLRIHGSNTLGNRLMPALVERWLGSIGYEGLRRTGTAAGRTEIHAVRDGQLLVVEIDGGGSAAGLRDLVRGDTELAMVTRPPNAAESAAAWQLGALDSPDQQFVVALNGARVLVGNANPLRSLSLAQLRDVLAGRIDNWRQLGGNDRPLQLVCADGAAGLADYLRGRVGTLDARACGRRVPSLREAAAVVAGNPLAMAVVEIATPVAPGARALAIADGGIAVPADAASVRSQDYPLTQRYSVHGGQMMSALGRSFGLYLLGPAAQRIVAAQGLVPMALPAAAAATPLADSSDPAYRDAVAGAVRLPLSVHFNLASLTTMFEGGSAQDLDRLVAWMQQPAHAGHQLVVVGFANADPSNKLYPTIASNDRADIVTGYLAQRGVRVQRSRGLGALRPLVAPDAPQARMRNERVELWLL	PGPT0002625_405	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
BMS020_02662	879	mgsA_2		Methylglyoxal synthase	ATGCGACTGGGACTGGCCGCGAACCGGCTGCACCACCACGGCAAGGACGCCGCGCTGTTCCGTTGGCTGCGCGCCTGCGAAGCCGGCATCCGCGAACTGGAGCTGGGCCTGCATGCGGTCGGCCGCACCTACGATGCGATCGCCCGTGCCAGCCTGCTGTGCGGCTACGCCGGCCTGCGCCGCTACCCGTACGGGCGCGAGGGCGGGTTGATGAAGCTGGTTGCCGAAGTGGTCGGGCTGGAAGGCGCCGAACGCACGCTCGACGGGGCGATCTACCTGATCGACCCGGTGGATCCGTCCTCGATCTTCCCCGAGGCGATCGCGCTCAAGCGCCAGTGCGTGATCCACGGCAAGCCGTTCATCTCCACCGTGGCCTCGGCGCGCGACTGGGTGGAGATGGAGCGCATGCACGCCGGCTTCGCCGCCGATCCCGGCGCCGACGACCTGCACGCGCTGGAGGGCCAGACCCTGGCGCTGATCGCCCACGACGCGATGAAGCCGCAGATGCTGGCCTTCGCCGCCGAGCACTTCGACACGCTGTCGCGCTTCGCCCAGCGGGTCGGCACCGGCACCACCGGCCAGCGCCTCAACGAACTGGCCTGGAGCCGCGGCTGGCCACATGACCTGCCGTGGGTGCACCGCTACGAGAGCGGCCCGATGGGCGGCGACGCGCAGATCGCCGACCGCGTGCTGGAGAAGCGCTGCCAGCGCGCGATCTTCTTCGAGGACCCGCACGTGGCGCGCCAGCACGAGGCCGACATCCAGCTGCTCGAACGCGCGGTCACCACGGTCACCGACAGCGCGGTGTGCATCACCTCGCCAGCGGTCGCCGCGCGCTGGGCCAAGGCGGTGCAGCTGCGCAGGAGCACGCGGCCCTGA	MRLGLAANRLHHHGKDAALFRWLRACEAGIRELELGLHAVGRTYDAIARASLLCGYAGLRRYPYGREGGLMKLVAEVVGLEGAERTLDGAIYLIDPVDPSSIFPEAIALKRQCVIHGKPFISTVASARDWVEMERMHAGFAADPGADDLHALEGQTLALIAHDAMKPQMLAFAAEHFDTLSRFAQRVGTGTTGQRLNELAWSRGWPHDLPWVHRYESGPMGGDAQIADRVLEKRCQRAIFFEDPHVARQHEADIQLLERAVTTVTDSAVCITSPAVAARWAKAVQLRRSTRP	PGPT0001780_39	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001780-mgsA-K01734	NA	NA
BMS020_02663	1053	egl		Endoglucanase	ATGCCCCACCGTCCCCTCCGCGTCGGGCTGCCACGCGCTGGCCTGCTCGCCCTCGCCCTGCTCACCGCCGCCCCCCTGGCGGCCGCCGCCGACGCGTTGAAGTACGCCGGCGTGAATCTCGCCGGCGCCGAGTTCAACGCGTCGAAGAAGCCCGGCACGCTGTACAAGGACTACACCTACCCGGCCGCCACCGACTACGCCTACTTCGCCGGCAAGGGCATGAACATCGTGCGCCTGCCGTTCCTGTGGGAGCGGCTGCAGCCGGAACCGCTGGGCGAGCTCGACGCCGAGCAGCTGGCACTACTGAAGAAGGCGGTGGACCAGGCCAAGGCCAACGGCCAGCACCTGATCCTGGACGTGCACAACTACGCCAAGTACGACGGCGAGCGGATCGGTCCGGACGGCGCCGGCGTGGATCGCCTGGCGGACCTGTGGAAGCGCCTGGCCGCGGTGTTCGGCAGCGACGAGGCGGTGGTGTTCGGGCTGATGAACGAACCCAATGGCGTGTCGGCCACCGACTGGGCCGCCGCCGCGCAGGCCGCGATCGATGCGATCCGCGCCGCCGGCGCGCGCAACCTGATCCTGGTGCCGGGCACCGCCTACACCGGCGCGCACAGCTGGACCAGCGCGACCAGCGGCGGCGGCGTCTCCAACGCCGATGCCCTGGCCGGCCTGCACGACCCGCTCAAGCACTACGCGATCGAGCTGCACCAATACCTGGACAAGGACTACAGCGGCACCAGCGACACCTGCGTCAGCGCCACGATCGGGGCCGAGAAACTGCAGGCGGTGACCGCCTGGCTGCGTGCGCAGGGCAAGACCGGCTTCCTCGGCGAATTCGGCGGGGCCGACAACGCGACCTGCCGGCAGGCGGTGGACGGCATGCTCAGCTACATCGAGCAGAACCGCGATGCGTGGCTGGGCTGGACCTGGTGGGCCGGCGGCGCCTGGTGGAAGACCGACTATCCGTTCAACCTGCAACCGGACAAGGACGGCACCGACAAGCCGCAGATGGAACTGCTCGCCGAACACGCCGCTGCGGTGACCAAGTAG	MPHRPLRVGLPRAGLLALALLTAAPLAAAADALKYAGVNLAGAEFNASKKPGTLYKDYTYPAATDYAYFAGKGMNIVRLPFLWERLQPEPLGELDAEQLALLKKAVDQAKANGQHLILDVHNYAKYDGERIGPDGAGVDRLADLWKRLAAVFGSDEAVVFGLMNEPNGVSATDWAAAAQAAIDAIRAAGARNLILVPGTAYTGAHSWTSATSGGGVSNADALAGLHDPLKHYAIELHQYLDKDYSGTSDTCVSATIGAEKLQAVTAWLRAQGKTGFLGEFGGADNATCRQAVDGMLSYIEQNRDAWLGWTWWAGGAWWKTDYPFNLQPDKDGTDKPQMELLAEHAAAVTK	PGPT0018620_5186	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CELLULASES,PGPT0018620-celJ|eglA|eglS-K01179	NA	NA
BMS020_02664	1059	yahK_1	COG1064	Aldehyde reductase YahK	ATGTCCCACGCCCACGGCTACGCCGCCCGTTCCGCCGACCAGGCGCTCGCCCCGTTTTCGTTCGAGCGCCGCGCGCCCGGCCCGGACGACGTGCGCATCGACATCCTCTACTGCGGCGTCTGCCATTCGGACCTGCACACCGCGCGCAACGAGTGGCAGAACACGCTCTATCCGTCGGTACCGGGGCACGAGATCGTCGGCCGCGTCGCCGCGGTCGGCAGCAACGTCAGCGGCTTCAAGGTCGGCGACCTGGCCGGCGTCGGCTGCATGGTCGACAGCTGCCGCACCTGCCCGTCCTGTCAGGAAGGCGAGGAGCAGTACTGCGAGAGCGGCTTCACCGGCACCTACAACGGCCCGATGTTCGGCGGCGAGAACACCTACGGCGGCTACTCCGACCACATCGTGGTCGACCAGAAGTATGTGCTGCAGGTGCGCCATGACGGCGACAACCTGGCCGCGGTCGCGCCGCTGCTGTGCGCCGGCATCACCACCTACTCGCCGCTGGCGCACTGGAAGGTCGGGCCGGGCCAGCGCGTCGGCGTGGTCGGCCTCGGCGGCCTGGGCCACATGGGCGTGAAGATCGCCAAGGCGATGGGCGCCGAGGTGGTGCTGTTCACCACTTCCGAGAACAAGCGCGCCGATGCGCTGCGCCTGGGCGCCGACGCGGTGGTGGTGTCGAAGGATCCGGAGCAGATGGCGGCCCAGGCCAACACGCTGGACTTCATCCTCAACACCGTCGCCGCCCCGCACAACCTCGATCCGTTCCTCAACGCGCTCAAGCGCGACGGCGCGATGGTGCTGGTCGGTGCGCCCGAGCACGCGCATCCGTCGCCGACCGTGTTCAACCTGATCATGAAGCGCCGCACGCTGGCCGGTTCGCTGATCGGCGGCATCCGCGAAACCCAGGAAATGCTGGATTTCTGCGCCAAGCACGGCATCGTGTCGGAGATCGAGCTGATCGCCATGGACCAGATCGAGCAGGCCTATGCGCGCATGCTCAAGGGCGACGTGAAGTACCGCTTCGTGATCGACATGGCGACGCTGGACACCGCGGCCTGA	MSHAHGYAARSADQALAPFSFERRAPGPDDVRIDILYCGVCHSDLHTARNEWQNTLYPSVPGHEIVGRVAAVGSNVSGFKVGDLAGVGCMVDSCRTCPSCQEGEEQYCESGFTGTYNGPMFGGENTYGGYSDHIVVDQKYVLQVRHDGDNLAAVAPLLCAGITTYSPLAHWKVGPGQRVGVVGLGGLGHMGVKIAKAMGAEVVLFTTSENKRADALRLGADAVVVSKDPEQMAAQANTLDFILNTVAAPHNLDPFLNALKRDGAMVLVGAPEHAHPSPTVFNLIMKRRTLAGSLIGGIRETQEMLDFCAKHGIVSEIELIAMDQIEQAYARMLKGDVKYRFVIDMATLDTAA	PGPT0024430_745	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0024430-yahK-K13979	NA	NA
BMS020_02665	399	arsC_2		Arsenate reductase	ATGGCTGCGCTGATCTGGCACAACCCGCGCTGCAGCACCTCGCGCAATGCGCTGGCGCTGCTGCGGCATGCCGGGATCGAGCCGGAGGTCGTCGACTACCTGAAGCAGCCGCCGACGCGCGCGCAGCTGCAGGCGATGTTCGACGCCGCCGGCATCGCGGTGCGCGCCGCGATGCGCAGCAAGGAGGCCGCGTTCGTCGAACGCGGCCTGGCCGACCCGGCGCTGGACGATGCCGCGCTGCTCGAGGCGATGCTGGCGGACCCGGTGCTGATCGAACGTCCGTTCGTAAGCACCGATCTTGGCACCCGCCTGGGCCGGCCGCTGGAGGCGCTGCTGGAGATCCTGCCGCCGTTGGCGACGCCGTTCGTCAAGGAGAACGGGCAGACGCTGGCGGGGTAG	MAALIWHNPRCSTSRNALALLRHAGIEPEVVDYLKQPPTRAQLQAMFDAAGIAVRAAMRSKEAAFVERGLADPALDDAALLEAMLADPVLIERPFVSTDLGTRLGRPLEALLEILPPLATPFVKENGQTLAG	PGPT0004720_918	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004720-arsC1-K00537	NA	NA
BMS020_02666	1473	gltD_2	COG0493	Glutamate synthase [NADPH] small chain	ATGAGCCGCAAGCACGCCTTCCAGTTCCTCGACCTGCCCCGGACCATGCCGCAGCGCATCCCGGTGGAGCTGCGCACCTCCGGCGACTGGGGTGAGCTGTACGGCAAATTCGACAAGGCCGACGCGCAGTACCAGGCCGGGCGCTGCCTGGATTGCGGCAATCCGTATTGCAGCTGGAAGTGCCCGGTGCACAACGCGATCCCGCAGTGGCTGCAGCTGGTGCAGGAGAACCGCATCGCCGAAGCCGCGGCGCTGTGCCATTCGACCAACCCGCTGCCGGAAGTGTGCGGCCGTGTGTGCCCGCAGGACCGCCTGTGCGAGGGCAGCTGCACGCTGGAGGAATTCGGCGCGGTGACCATCGGCGCGGTGGAGAAGTACATCGTCGATACCGCGCTGGCGCAGGGCTGGCGCCCGGACCTGTCCAGCGTCACCGCCAGCGGCCGCCGCGTCGCGGTGGTCGGCGCAGGCCCGGCCGGGCTGGCCTGCGCCGACCGGCTGGCGCGCGCCGGCGTGCAGGCGGTGGTGTTCGACCGCTATGAGCAGATCGGCGGCCTGCTGCAGTTCGGCATCCCCAGCTTCAAGCTCGACAAGAGCGTGATCGGCAAGCGCCGCGAGGTGCTCGAGGGCATGGGCGTGGAGTTCCGCCTCGGCGTGGAGATCGGCCGCGACGTGACCATCGAGCAGCTGCAGGCCGAGTACGACGCGGTGTTCCTCGGCACCGGCGCCTACCGCTACACCGACGGCGGCCTGCCCGGGCAGGACCTGAAGGGCGTGCTGCCGGCGCTGCCGTTCCTGGTGCAGAACAGCCGCATCGTCTCCGGCAACGATCCGTGGGGCCGGCCGATCGCCGGCTGGGAAGACAAGGTGGCGCTGCCCGACCTGAGTGGCAAGCGCGTGGTCGTGCTCGGCGGCGGCGATACCGGCATGGACTGCGTGCGTAGCGCGATCCGCCTCGGCGCAGCCAAGGTCACCTGCGCCTACCGCCGCGACGAGGCCAGCATGCCGGGCAGCGCGCGCGAGGTCGCCAACGCACGCGAGGAAGGCGTGCGCTTCCTGTTCAACCGCCAGCCGCTGGCGATCGAGGCCGGCGCCGACGACGAGGCGATCGGCGTGACCGTGGTCGAAACCACGCTCGGCGAGCCCGATGCCAACGGCCGCCGCAACGCGGTGGTGATCGAGGGCAGCGAGTCGCTGCTGGAAGCGGACGTGGTGATCATCGCCTTCGGCTTCTCGCCGAACCTGCCGGAGTGGCTGGCCGCGCAGGGCGTGCAGGCCGCACAGAACGGCCGCATCGCGGTTGGCGGCAGCAAGCTGCCGTACCAGACCGCCAACCCCAAGCTGTTCGCCGGCGGCGACGCGGTGCGCGGCGCCGACCTGGTGGTCACCGCGGTCGCCGAAGGCCGCGACGCGGCCGCCAGCATCGTCGAGTGGCTGGGCGTGCAGGCGCCGTTACGCGCGCCGGCGGCAGCGTAA	MSRKHAFQFLDLPRTMPQRIPVELRTSGDWGELYGKFDKADAQYQAGRCLDCGNPYCSWKCPVHNAIPQWLQLVQENRIAEAAALCHSTNPLPEVCGRVCPQDRLCEGSCTLEEFGAVTIGAVEKYIVDTALAQGWRPDLSSVTASGRRVAVVGAGPAGLACADRLARAGVQAVVFDRYEQIGGLLQFGIPSFKLDKSVIGKRREVLEGMGVEFRLGVEIGRDVTIEQLQAEYDAVFLGTGAYRYTDGGLPGQDLKGVLPALPFLVQNSRIVSGNDPWGRPIAGWEDKVALPDLSGKRVVVLGGGDTGMDCVRSAIRLGAAKVTCAYRRDEASMPGSAREVANAREEGVRFLFNRQPLAIEAGADDEAIGVTVVETTLGEPDANGRRNAVVIEGSESLLEADVVIIAFGFSPNLPEWLAAQGVQAAQNGRIAVGGSKLPYQTANPKLFAGGDAVRGADLVVTAVAEGRDAAASIVEWLGVQAPLRAPAAA	PGPT0000640_846	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000640-gltD-K00266	NA	NA
BMS020_02667	4473	gltB_2	COG0067	Glutamate synthase [NADPH] large chain	ATGGCCCCCCGCACTCGCCAAGGGCTCCACGACCAAGGTCTCTACGACGCGCGCAGCGAGCGCGACGCCTGTGGATTCGGCATGGTCGCGCAGTTGGACGACCAGCCCTCCCGTTCGCTCGTCGACACCGCGATCGCCGCGCTGTCGCGCATGACCCACCGCGGCGGCGTCGCCGCCGACGGCCTGACCGGCGACGGCTGCGGCCTGTTGATCCGCAAACCGGAACCATTCCTGCGCGCGCTGGCGCGCGATGCCGGTATCGCCATCGGCGCACAGTTCGCCGCCGGCGTGGTGTTCCTGCCGCTGGACGAAGCCGCCGCGGCGCGTTGCCGCGACGAACTCGACGCGCAGCTGCGCCGTGCAGGCGCGCAGCCACGCGGCTGGCGCGTGGTGCCGACCGACGACCGCGTCTGCGGCCAGCTCGCCAAGGACACCCTGCCGCGGATCGAGCAGGTGTTCGTCGACGCCGGTGATGGCCAGGGCGTGGAAGCGTTCGCGCTGGCGTTGTTCCTGGCGCGCCGCCGCGCCGAGCAGGTGCTGCGCGAGCACGCCGATTTCTACGTGACCACGCTGTCGCCGAACGCGATCAGCTACAAGGGCATGGTGCTGCCGGACAAGCTCAGCACGTTCTACCCGGACCTGCAGCGCAGCGACCTGGCCTCCAGCGCGATCGTGTTCCACCAGCGCTTCTCCACCAACACGCTGCCGCGCTGGCCGCTGGCGCATCCGTTCCGGCTGCTGGCCCACAACGGCGAGATCAACACCATCGAGGGCAACCGGCGCTGGGCGCAGGCGCGCTCCAAGGTGTGGAAGACGCCGAAGTTCGACATCGGCGAGTTCGACCCGGTGATCTCGATGCACGGCTCGGATTCGCAGAGCCTGGACAACATGCTCGAGCTGCTGGTGTCCGGCGGCATGGACCTGCTGCAGGCACTGCGCATCCTGGTGCCGCCGGCGACCCAGTCGCTGGAGTTCAAGGACGCCGACCTGGCCGCGTTCTACGAGTTCCACGGGCTCAACACCGAGCCGTGGGACGGCCCGGCCGGCATCGTCGCCTGCGACGGCCGCTATGCGGTGTGCACGCTTGACCGCAACGGCCTGCGCCCGGCACGCTGGATGCTGACCTCCGACCGCCACTTCCTGGTCGCCTCCGAGGCCGGCGTGTGGGAGCTGCCGGCCGAGCGCATCACCCGCAAGGGCAAGCTTGGCCCGGGCGAGATGATGGCCATCGACCTCAAGCGCGGCGACCTGCTCGACAGCGACGGCATCGACCGCATCAACCGCGCGCGCGCGCCGTACAAGCAGTGGCTGCAGCACGGCGTGACCTACCTGCAGACCGAGCTGATCGACCCGACGCTGGCCGAGGAGCCGTTCGACGAGCCGACCCTGCGCAGCTACCACAAGCTGTTCCAGCTCAGCACCGAGGAAGTGGAGCAGGTGCTGCGCCCGCTCGCCGAAACCGAGCAGGAAGCCACCGGCTCGATGGGCGATGACACCCCGATGGCGGTGCTCAGCCAGTACACCCGGCCGCTGTACGACTACTTCCGCCAGGCGTTCGCGCAGGTCACCAACCCGCCGATCGATCCGCTGCGGGAAAACTGCGTGATGTCGCTGACCACCCAGCTCGGCAAGGAGACCAACGTCTTCCATTCCGGGCCGGAGACGGTCAACCACGTGATCCTCAACTCGCCGGTGCTGAGCCAGCGCAAGCTGCGCCAGCTGCTGAAGATGGAGCAGTACGTCGAGCGCAACCGCCTGATCGACCTGTCCTACAGCGTCGAGGAGGGGCTCAAGGCCGGCATCGAGCGCATCTGCGCCGAATGCGAGCAGGCCGCGCGCGCCGGCGTGGTGATGCTGCTGCTGTCGGACCGCTATCCGGTGGCCGATCGGCCGATGGTGCATGCGCTGCTCGCCACCGGCGCGGTGCACCACCACCTGTCGGCCAAGGGTCTGCGCTGCGACGTCAACCTGATCATCGAGACCGGCACCGCGCGCGACCCGCACCACATGGCCTGCCTGCTCGGCTTCGGTGCCACCGCGGTGTACCCGTACCTGGCCTACCAGACCCTGCACGACCTCAACCGCCGCGGCATCCTCAAGCTCAAGCGCGGCAACGGCGAGCCGCTGCAGATCGGCCCGAGCTACCGCAAGGGCATCGTCAAGGGGCTGGGCAAGATCATCTCCAAGATGGGCATCGCCACCATCGCCAGCTATCGCGGCGCGCAGCTGTTCGAGATCGTCGGCCTCGACGCCGACGTGGTCGCGCTGTGCTTCCCGGACACCCCGTCGCGGGTCGGCGGCGTCGGCCTGGCGCGGCTGGACACCGAGGCGCGCGAGCTCACCGCGCGTGCCTGGAACGACCTGGTCAAGCCCGAGGTCGGCGGCCTGCTGAAGTACGTACACGGCGGCGAGTACCACATGTACAACCCGGACGTGGTGCTGACGCTGCAGCGCGCCACCCGCACCGGCAACGCCGGCGACTGGCAGAAGTACGTCGACGCGGTGCATGCGCGACCGCCGTCCGCGCTGCGCGACCTGGTCCAGCTGAAGAAGGCGGCGACGCCGACCCCGCTCGACCAGGTCGCCCCGGCCGAGGACGTGCTGCGCCGCTTCGACACCGCGGCGATCTCGCTCGGCGCATTGTCGCCGGAAGCGCACGAGGCATTGGCCATTGCGATGAACCGCCTCGGCGGGCGCAGCAACTCCGGCGAAGGTGGCGAAGACCCGGCGCGCTACGGCACCGAGAAGCGCTCCAAGATCAAGCAGGTCGCCTCCGGCCGCTTCGGCGTCACGCCCGAATACCTGGTCAACGCCGAAGTGCTGCAGATCAAGGTCGCGCAGGGCGCCAAGCCGGGCGAGGGCGGCCAGCTGCCCGGGCACAAGGTCAACGAGCTGATCGCGCGGCTGCGTTACGCCAAGCCCGGCATCGGCCTGATCAGCCCGCCGCCGCATCACGACATCTACTCGATCGAGGATCTGGCGCAGCTGATCTACGACCTCAAGCAGGTCAACCCCAGCGCGCTGGTGTCGGTGAAGCTGGTCAGCCATGCGGGCGTCGGCACGATCGCCGCCGGCGTGGTCAAGGCCGGCGCCGACCTGATCACCGTGTCCGGCCATGACGGCGGCACCGGTGCCTCGCCGATCAGCTCGATCCGCTATGCCGGCGTGCCGTGGGAACTGGGCGTGGCCGAGTCGCACCAGGCGCTGGTCGCCAACGACCTGCGCGAGCGCACCATCCTGCAGACCGACGGCGGCCTGAAGACCGGGCTGGACGTGGTCAAGGCCGCGCTGCTCGGCGCCGACAGCTTCGGCTTCGGCACCGCGCCGATGATCGTGCTCGGTTGCAAGTACCTGCGCATCTGCCACCTCAACAACTGCGCCACCGGCGTGGCCACCCAGGACGAGCGCCTGCGCGAGGGGTACTTCACCGGCCTGCCCGAGCGCGTGGAGAACTTCTTCCGCCTGCTCGCCGAGGAAGTGCGCGGCTGGTTGTCGTACCTGGGCGCGACCTCGCTGGACGAGATCGTTGGCCGCACCGACCTGCTCGAGCAGCTGCAGGTGGCGCCGCGCGAAGGCGTCAGCGTCGACCTGTCGCGGCTGCTGAAGAACGCGCGCTACGACGGCAGCCACTGCGCCGCCCAGCGCCTGTACGAGTCGCCGGACAGCCTGGCCACGCAGATGGACGGCCTGCTCGCCGACGCGATCGCCAACAAGACCGGCGGCGACCACCGCTTCCTGATCCACAACACCGACCGCTCGATCGGCACCCGCCTGTCCGGCGCGATCGCCCGCGCGCACGGCAACCACGGCATGGACGATGCGCCGTTGAACCTGCGCTTCCGCGGCACCGCCGGGCAGAGCTTCGGCGCGTTCAACGCCGGCGGCCTGCACATGGAGATCGAGGGCGAGGCCAACGACTACGTCGGCAAGGGCATGGCCGGCGGCCGGCTGGTGGTGCGTCCGCCGCGTGGCGCACGCTTCGAGGCGCGCAACACCGCGATCATCGGCAACACCTGCCTGTACGGCGCCACCGGTGGCGAGCTGTTCGCCGCAGGCCGTGCCGGCGAGCGCTTCGGCGTGCGCAACTCCGGCGCGCTGGCGGTGATCGAAGGCGCCGGCGACCACTGCTGCGAGTACATGACCGACGGCATCGTGCTGGTGCTGGGCAAGGTCGGGCTGAACTTCGGTGCCGGCTTCACCGGCGGCCTGGCCTACGTGCTGGATATCGAGCGCGATTTCGTGGACCGCTACAACCACGAGCTGATCGACATCCACCGCATCTCGGCCGAGGGCTTCGAGAACTACCGCCAGCACCTGCACACGCTGATCAGCCGCCACCGCGAGCTGACCGGCAGCATCTGGGCGCAGCAGATCCTCGACGAGTTCCGCGACTACATCGGCAAGTTCTGGCTGGTCAAACCCAAGGCCGCCAGCATCGAGTCGTTGACCGAGTCGCTGCGCCGCGCCGCCTAA	MAPRTRQGLHDQGLYDARSERDACGFGMVAQLDDQPSRSLVDTAIAALSRMTHRGGVAADGLTGDGCGLLIRKPEPFLRALARDAGIAIGAQFAAGVVFLPLDEAAAARCRDELDAQLRRAGAQPRGWRVVPTDDRVCGQLAKDTLPRIEQVFVDAGDGQGVEAFALALFLARRRAEQVLREHADFYVTTLSPNAISYKGMVLPDKLSTFYPDLQRSDLASSAIVFHQRFSTNTLPRWPLAHPFRLLAHNGEINTIEGNRRWAQARSKVWKTPKFDIGEFDPVISMHGSDSQSLDNMLELLVSGGMDLLQALRILVPPATQSLEFKDADLAAFYEFHGLNTEPWDGPAGIVACDGRYAVCTLDRNGLRPARWMLTSDRHFLVASEAGVWELPAERITRKGKLGPGEMMAIDLKRGDLLDSDGIDRINRARAPYKQWLQHGVTYLQTELIDPTLAEEPFDEPTLRSYHKLFQLSTEEVEQVLRPLAETEQEATGSMGDDTPMAVLSQYTRPLYDYFRQAFAQVTNPPIDPLRENCVMSLTTQLGKETNVFHSGPETVNHVILNSPVLSQRKLRQLLKMEQYVERNRLIDLSYSVEEGLKAGIERICAECEQAARAGVVMLLLSDRYPVADRPMVHALLATGAVHHHLSAKGLRCDVNLIIETGTARDPHHMACLLGFGATAVYPYLAYQTLHDLNRRGILKLKRGNGEPLQIGPSYRKGIVKGLGKIISKMGIATIASYRGAQLFEIVGLDADVVALCFPDTPSRVGGVGLARLDTEARELTARAWNDLVKPEVGGLLKYVHGGEYHMYNPDVVLTLQRATRTGNAGDWQKYVDAVHARPPSALRDLVQLKKAATPTPLDQVAPAEDVLRRFDTAAISLGALSPEAHEALAIAMNRLGGRSNSGEGGEDPARYGTEKRSKIKQVASGRFGVTPEYLVNAEVLQIKVAQGAKPGEGGQLPGHKVNELIARLRYAKPGIGLISPPPHHDIYSIEDLAQLIYDLKQVNPSALVSVKLVSHAGVGTIAAGVVKAGADLITVSGHDGGTGASPISSIRYAGVPWELGVAESHQALVANDLRERTILQTDGGLKTGLDVVKAALLGADSFGFGTAPMIVLGCKYLRICHLNNCATGVATQDERLREGYFTGLPERVENFFRLLAEEVRGWLSYLGATSLDEIVGRTDLLEQLQVAPREGVSVDLSRLLKNARYDGSHCAAQRLYESPDSLATQMDGLLADAIANKTGGDHRFLIHNTDRSIGTRLSGAIARAHGNHGMDDAPLNLRFRGTAGQSFGAFNAGGLHMEIEGEANDYVGKGMAGGRLVVRPPRGARFEARNTAIIGNTCLYGATGGELFAAGRAGERFGVRNSGALAVIEGAGDHCCEYMTDGIVLVLGKVGLNFGAGFTGGLAYVLDIERDFVDRYNHELIDIHRISAEGFENYRQHLHTLISRHRELTGSIWAQQILDEFRDYIGKFWLVKPKAASIESLTESLRRAA	PGPT0000635_2829	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000635-gltB-K00265	NA	NA
BMS020_02668	393			hypothetical protein	ATGCGGTTTGCCCCTTCCGCCTCCCGCCCGTACCTGCTCGGTGCGCTGACGACCCTGCTCGCGCTCGGCCTGAGCGCCTGCCAGCCACCGGCACCGGACGAGCAGGAAGCCGTGGGCGCTCAGGCGCAGCAGGCCGCCGAAGCGGCTGCCACGCCGGCCGCCGCCAGCGCACCGGAAGCCCCGCCGGTCGGCAGCTGCGACGCGACCCAGGCCCAGACCCTGGTCGGCCAGCCGCTCAGTGACGCGCTGGTGCAGCAGGCGCAGCAGGACACCGGCGCCAAGGCGGTGCGCGTGCTCAAACCGGATCAGATGGTGACGATGGAATTCAACGGCGAACGCCTGAACATCGACGTCGACGAGAAGGGTGTGATCAGCGGCGTCCGCTGCGGCTGA	MRFAPSASRPYLLGALTTLLALGLSACQPPAPDEQEAVGAQAQQAAEAAATPAAASAPEAPPVGSCDATQAQTLVGQPLSDALVQQAQQDTGAKAVRVLKPDQMVTMEFNGERLNIDVDEKGVISGVRCG				NA	NA	NA	NA	NA
BMS020_02669	345			hypothetical protein	ATGCACCGTCTGTTCGTCCCGCTCGCCGCCGCCCTCGCGCTCTCGGCCTGCAGTACCGCCCAGGTCGCCGAGGTGCAGCCGATCGACGGCACGATCTCCGGCCAGTGCCACACCGACATGGTCCGGGGCGCGGTCGGCCTGGCCGCGTCGGCGCAGACGGTCGCCCGCGCGCGGGTCGACAGCGACAGCACCAGCGTGCGCGTGCTCGATGGCGAGCGCAGCGCCAGCGGCACCACCTCCAGCGGCCTGACCGACCCGGCCCAGGGGGCCAGCGAGACCGGCGGCAACCGCCTGACCGTGGAGCGCGGCCCGACCAACAACATCACCGCGATCTACTGCGGCTGA	MHRLFVPLAAALALSACSTAQVAEVQPIDGTISGQCHTDMVRGAVGLAASAQTVARARVDSDSTSVRVLDGERSASGTTSSGLTDPAQGASETGGNRLTVERGPTNNITAIYCG				NA	NA	NA	NA	NA
BMS020_02670	234			hypothetical protein	ATGGCCACCTGCGATGTCTGCGGAAACGACTACGACAAGCCCTTCACCGTGGTCCAGGGCGGCCGCACCGGCAGCTTCGATTGTTTCGAGTGCGCGATCCATGCCTTCGCCCCGACCTGCGACCACTGCGGTTGCCGGATCATCGGCCACGGCATGGAGGGCGATGGGCGCTTCTTCTGCTGTGCGCACTGCGCGCGCCGCGTCGGTGTCGGTGGCCTGGCTGACCACGCCTGA	MATCDVCGNDYDKPFTVVQGGRTGSFDCFECAIHAFAPTCDHCGCRIIGHGMEGDGRFFCCAHCARRVGVGGLADHA				NA	NA	NA	NA	NA
BMS020_02671	387			hypothetical protein	ATGCGCCGCAAGACCATCGGGGACCAGGAACTGGCCCTGTTGCAGTACATCGGCGAGCACGCCGATGCCAGCGTCGGCGAAGTCGCCGCCGGCTACGGCGAGCCGCGCGGCCTGGCGCGGTCGACCGTGCTGACGATGATGGAGCGCCTGCGCGCCAAGGCCTATCTGCGCCGGCGCCAGGTTGACGGCGTCTACCGCTACGCCGCCACCGCGCGGCAGGACGAAGTGATCGGCAGCACCATCGGCCATTTCGTCGAGAAGACCCTGCAAGGCTCGTTGTCGCCGTTCGTGGCCTGGATGTCGCAGAAGGCCGAGGTCAGCGACGCCGAACTCGCGGAACTGGAGGCCCTGGTGGCCAGGTTGCAGTCGCAACGTCGGGAGGGATGA	MRRKTIGDQELALLQYIGEHADASVGEVAAGYGEPRGLARSTVLTMMERLRAKAYLRRRQVDGVYRYAATARQDEVIGSTIGHFVEKTLQGSLSPFVAWMSQKAEVSDAELAELEALVARLQSQRREG				NA	NA	NA	NA	NA
BMS020_02672	1698			hypothetical protein	ATGGACATGCCGTTCGCAAGCCTGCTCGCGCGCCTGGCCGCGACCAGCGTGCAGACGCTGGTGCTGGCACTGGTGGTGTGGGCGCTATGCCGTAGCGTGAAACGCCTGCCGGCGGCCAGCCAGTGCTGGCTGTGGTGGATGGTGGCGCTGCAGGCGCTGGTCGGGATGTTGGCCCCGGCCGCGCTGGAACTGCCATGGCTGCCGGCCGCGCAGCAGGCCGCGGCGGCAGTCGCCCCGGTCGCGCTCGCCGCCGCGGCGGCACCACCGCCGGCTGCGACCCTGCCGGGCTGGAGCCTGGCGCAGGCGCTGGTGGCGTTGTGGGGCGCCGGGGTGCTGCTGCTGGCGCTGCGGACCGCGATGGCCTACCGCGCCAGCCGGCAGCTGGTGCGCGAGGCGCATCCCTGCCCCGATCCGCGCCTCGAAGGCGCGCTGCGCCTGGCCGCCGACGCCCATGGGCTGGCGCACGCGCCGCGGCTGCTGGTCAGCACGCGCATCGAGTCGCCGCAGCTGGTCGGCCCATGGCGGCCGGTGCTGCTGCTGCCGGCGCGGCAGCTGGCGGCGATGGCCGATGACGACCTCGACATGGCGCTGACCCACGAACTGGTGCACCTGGTGCGCCGCGACCTGTGGTTCGGACTGCTGCCGGCGCTGGCCCAGCACCTGTTCTTCTTCCATCCGGCGGTGCATCTGGCGGCGCGCGAATATGCGATCGCCCGCGAAGCGGCCTGCGATGCCGCGGTGGTCGCTGGCCACCGTCATTGCCGCCACGAATACGGCCGGCTGCTGGTCCAGTTCGGCGTGGCGCACCGCCCGCAGGGCGGCCTGGCGAGCGCGTCGCCGAACTTCCTCAGCCTCAAGCGCCGCCTGCAGCAGCTGCAGCAGCACGAGCGCCTGCCGCGTGTCGTGGCGGGGCTGATGGTGGCGCTGGCGTTGGTCGGGGTGGTGCCGATGCGGCTGGTGGCCAAGCCGGTTGCCGCACCCGCGGTCCAGCCCGCCGCGCAAGCCGCCACGCCTGCGCCGGCGACCACCGCGGCGGCCGCGCCGGTGGCCGCACCGACGGTTGCGCCGTTGCCGGACCCGCTGCCGGCGCCGGCGGCGATCCCCGATACCGCACGGCTGCCGTCGCCCCCGAAGCCGCCGTCGCCACCGTCGGCGCCCGCCGTGCCGAGCGCACCGCCGGCACCGCCGAGTCCGCCCGCCGCGCCGACGCTGGCTGATCCCTGGGACGGGTTGGCGGCCAGGATCGATGCGGCGATGCGCGAGGTGGATACCGTCCAGGTCGAGCATGCGGAGGCCAAGGTCGAACGCGATCGGGCCGAGCTCGCACGCGAGCAGGCCGAACTGGCCCGCCAGCAAGAGATGCTGGGCCGGCGCATGGGCAGTCTTGGCATCGAAGCGGCGGCGCTCGCGCTGGACCAGGTCGGCACGGTGTTGAAGGGTATCGGCGACGATCCGGCGCGCCTGCAGCAGTTCCAGGGCACGATCGACGCGGCCGCTGCGCGTGCCGCCGCCGATACCCTGAAGGCGGCGCACCAGCAAGGGCTGGATCGCCGCATCGCCGAGGTCGCCAGCCGCCAGGCCGAGCTGGCTACGCGCCAGGCGGCGATCGCGCTGCGGCAAAGCGGTGTCGCCCAGCGGGCCGCCGATGACGCCGCGGCCCGCGCCGATCGCGCGGCCGATCAGGCGGAGCGGCAGTAG	MDMPFASLLARLAATSVQTLVLALVVWALCRSVKRLPAASQCWLWWMVALQALVGMLAPAALELPWLPAAQQAAAAVAPVALAAAAAPPPAATLPGWSLAQALVALWGAGVLLLALRTAMAYRASRQLVREAHPCPDPRLEGALRLAADAHGLAHAPRLLVSTRIESPQLVGPWRPVLLLPARQLAAMADDDLDMALTHELVHLVRRDLWFGLLPALAQHLFFFHPAVHLAAREYAIAREAACDAAVVAGHRHCRHEYGRLLVQFGVAHRPQGGLASASPNFLSLKRRLQQLQQHERLPRVVAGLMVALALVGVVPMRLVAKPVAAPAVQPAAQAATPAPATTAAAAPVAAPTVAPLPDPLPAPAAIPDTARLPSPPKPPSPPSAPAVPSAPPAPPSPPAAPTLADPWDGLAARIDAAMREVDTVQVEHAEAKVERDRAELAREQAELARQQEMLGRRMGSLGIEAAALALDQVGTVLKGIGDDPARLQQFQGTIDAAAARAAADTLKAAHQQGLDRRIAEVASRQAELATRQAAIALRQSGVAQRAADDAAARADRAADQAERQ				NA	NA	NA	NA	NA
BMS020_02673	1335			hypothetical protein	ATGCGCACGGAGCCGCCGACACACCGGCCCCCATTCGCGTCCCTGCACGCGTACCCTCGCCCCCGGTATCGGCGAGGACCGCCGCGACCGTCTTGCGCGGCGCTGCTGGCCACCATCACCGACGCCCTGCTCTTCGTCGTCCTCGCCTGGGGAATCTGGCGGCTGTTGGGGCGTGCGATTCCGATCGCGGGGATCCCGATCGTGATCGGCCTGGTGCTGGCGGCAACCGGTCGGCACCAGGCCTGGACCGGGGTGCCGTCGGCGCCGGGCCACGCGCTCGGCTTCCTCGGCGTGCTGCTGCTGGCGTTCACGGCCGGCCTGGAGACGCGGCAGCTGGGCGCGCCGTCCGAGCACGCACCACCGGCACCGCGCAGCGCCGCCATCACCCGCCGCCTCGGCCTGAGTGCCGCCACCGCGCTGGTGCTGCCGCTCCTGGTCGGTACGCTGCTCGCCTACGCCTACTTCGGAGCGTTGCCGGAGTGGCGTGCGCCCGCTGGCGACCGTGTCGCCGGCGCGCTGGCGATCGGCTTGTGCATCGCGGTCAGCGCGTTGCCGGTGCTGATCGGCATCGTGCGCGAGCTCGGACCGCGGCATCGGCCGCTGACCCAGGTCGCACTGAAGATCGCGGTGATCGACGACGCCGTGCTGTGGACCGGCCTGGCCGCCCTGTTGCTGTTCACCGGCGATGCGACGCCGTCGCCTGGCGCATCGCAGCTGCTGGCGCTGGCGGTGCCGCTGTTGCTGCTTGCGGTGGACGTCGCGGCGCGCCGCAACAAGCGGCAGCCACCGCGCTGGCTGCTGTGGCCGCTGCTGGCCGGCTATCTCGCCGCAGGGGCGTGGGCCAGCGCACAGCTGGGCCTGCATGAACTGCTCGGCGCGTACTTCGCCGGCGCGCTGGTACCGCCGCGCTGGGTCCAGCGTTTGCCGGTCGAACGGTTCGCCCAGTTCGCGTTGCTCGGGTTGGCGCCGCTGTTCTTCGGCCATAGCGGGCTGAAGATCGATGGCGACGCGCTCGGCTGGAGTGCGCTGCAGGCCGCCGGCCTGCTGCTGGTGGTGTCCGTGCTGGCTAAGCTGGCCGCGGTCGCGGTATGCCCGCCGGTGACCGGATTCAGCCGCCGCGAAACGCTGGCGGTGGGCGCGCTGCTGCAGTGCAAGGGCCTGATGGAAATCGTCGCGGCGACCATCCTGCGCGACAAGGGCCTGCTGTCCGAACACGCCTTCGCCGCGCTGGTCACGTTGGCGGTGCTGTCGACGCTGCTGACCGGACCGGCGTTCCGCTGGATCGTGGGTCGCGGCATCGAGCGCCGCAGCGAGGACCGGCAGGCCGCGCTGTAG	MRTEPPTHRPPFASLHAYPRPRYRRGPPRPSCAALLATITDALLFVVLAWGIWRLLGRAIPIAGIPIVIGLVLAATGRHQAWTGVPSAPGHALGFLGVLLLAFTAGLETRQLGAPSEHAPPAPRSAAITRRLGLSAATALVLPLLVGTLLAYAYFGALPEWRAPAGDRVAGALAIGLCIAVSALPVLIGIVRELGPRHRPLTQVALKIAVIDDAVLWTGLAALLLFTGDATPSPGASQLLALAVPLLLLAVDVAARRNKRQPPRWLLWPLLAGYLAAGAWASAQLGLHELLGAYFAGALVPPRWVQRLPVERFAQFALLGLAPLFFGHSGLKIDGDALGWSALQAAGLLLVVSVLAKLAAVAVCPPVTGFSRRETLAVGALLQCKGLMEIVAATILRDKGLLSEHAFAALVTLAVLSTLLTGPAFRWIVGRGIERRSEDRQAAL				NA	NA	NA	NA	NA
BMS020_02674	750			hypothetical protein	GTGCTGCCAACACCGGCGCCAGTCCGCGAGCAGGACCGCGTACTGCCCGGCGAGGAGATCGCGCCCGGCCTGCGGCTGATCGAAGCGTTCCTGCCGCAAGCAGTGCCGAACGCCGCGCTGTCGCTGGCGTTCGCCAAGCGCTCCGACGAGGCGGTCGATCCGCGCGCGCTGCTGTTCTTCGACACCGAGACCACCGGCCTGGCCGGCGGCACCGGCACCCGCGCCTTCATGATCGGCGCGGCCGACTGGCATAACGATCCGCAGCGCGGCGACGGCCTGCGCGTGCGCCAGCTGGTGATGGCGACGATGGCCGCCGAGCGCGCGATGCTGGAGACGTTCGCATCTTGGTTGACGCCGACGACGGTGCTGTCCAGCTACAACGGCCGCTGCTACGACGCGCCGCTGCTGAAGACCCGCTACCGGCTGGCGCGGCTGCGCGAACCGCTGTCCGCGCTCGACCACGTCGACCTGCTGTTCCCGACCAGGCGCCGCTACCGCGGCACCTGGGAGAACTGCCGGCTGGCGACGATCGAGCGCCAGCTGCTGCAGGTGATCCGCGAGGATGACCTGCCCGGCTCGGAAGCCCCGGCGGCGTGGTTGAACTACCTGCGCGGCGGCAGCGCGCGCAACCTGCGCCGGGTCGGCGAGCACAACCACCAGGACGTGGTGACGCTGGCGTTGCTGTTCCAGCGGCTGGTGCAGGCCGAGCAGGACGAGCGGGAAGCCGCGGCGTTCGTGCCGGTGGGCTGA	MLPTPAPVREQDRVLPGEEIAPGLRLIEAFLPQAVPNAALSLAFAKRSDEAVDPRALLFFDTETTGLAGGTGTRAFMIGAADWHNDPQRGDGLRVRQLVMATMAAERAMLETFASWLTPTTVLSSYNGRCYDAPLLKTRYRLARLREPLSALDHVDLLFPTRRRYRGTWENCRLATIERQLLQVIREDDLPGSEAPAAWLNYLRGGSARNLRRVGEHNHQDVVTLALLFQRLVQAEQDEREAAAFVPVG				NA	NA	NA	NA	NA
BMS020_02675	684			hypothetical protein	GTGTCGCACGCGCTGGAGCGGCGGCCGCCAGCAATACGTCGCGATCCACGCGACACGACCGGCGACCGTTCGCGTCGCCACGGTCGCGTATCGCGGTGCCCGATGGGGACTGCGGAGATGACGCCCCTGATGCTGCCGGTGCACCACGTCACCGCGCAGCGGTACTTGAACCCTCAGCTGCGCCGCTGCCCGTTGCCACTACGGCTGCGGCTGCGGCTGCGGCTGCGGCTGCGATGGCAACGCACAAGACGTCCACATCGCCGGTCAATACCGCGACCTCGGTCTTCGACTGGATCGACCGGCCGCCCGCGCCGGTCGCAACGCCCACAGCGTCACCAGCCGACCTCAGCACTGGTCCTGCCGCGAACCACGGCAGCGCGCGCCGCGTCGACCGGCAGGCGCTGGCGCGACTGCGCCAGCAGGCCGGAGGCGCCGGTGATGCACCTGCATCGGGGCAGGACAGTGATGCACCGGCGCAGGCCGATCCACACCGCACCAGACTCGCAGCACTGGCGCGCCACGCCGGCACGGCCGCGGGCGATCGCGCTGCGCTGGCGCGGCGGACACTGCCGGCGCCCGCCGCCGGACCAGCCGCGCACGCGCCACGCCCGCCCACGCCACCGGCTTCGGCCATCGCCCGGCCCGACCCGCGCGGCCAGAACCTCGCTGCATTGCGCCGGCTGA	MSHALERRPPAIRRDPRDTTGDRSRRHGRVSRCPMGTAEMTPLMLPVHHVTAQRYLNPQLRRCPLPLRLRLRLRLRLRWQRTRRPHRRSIPRPRSSTGSTGRPRRSQRPQRHQPTSALVLPRTTAARAASTGRRWRDCASRPEAPVMHLHRGRTVMHRRRPIHTAPDSQHWRATPARPRAIALRWRGGHCRRPPPDQPRTRHARPRHRLRPSPGPTRAARTSLHCAG				NA	NA	NA	NA	NA
BMS020_02676	2487	dbpA_2		ATP-dependent RNA helicase DbpA	ATGCCCCCTTTCGCCCTCGCCCCGCGCACCGAGACCGCCGAACGCGCGCTGTCCACCACCGACGGCCTGCCCAGCCGCGACGGCGCGCTGCTGACCCGGCGGCTGGAGAAGCGCTACCGCGACCGCATCACCGGCAGCTTCACCATCCCGGGCCGCGAGGGCCGCTATGCGCCGATCCCCGACGACGTGCCGGAGAAGCTGAAGGCGGCGCTGCGCGCACGCGGGATCGAGCAGCTGTACGCGCACCAGGCCGAGGCCTGGGACGCGACGCAGCGCGGCGAGCACGTGGCGGTGGTGACGCCGACCGCGTCGGGCAAGTCGCTGTGCTACACGCTGCCGGTGGTCAGCGCAGCGATGGCCGGCAATGCGAAGGCCTTGTACCTGTTCCCGACCAAGGCGCTGGCGCAGGACCAGGTTGCCGAGCTGCTGGAGCTCAACCGCGCCGGCGACCTCGGCGTGAAGGCCTTCACCTTTGATGGCGACACGCCCGGCGATGCGCGCCAGGCGATCCGCCTGCATGGCGACATCGTCGTCTCCAACCCGGACATGCTGCACCAGGCGATCCTGCCGCATCACACCAAGTGGGCGCAGTTCTTCGAGAACCTGCGCTACGTGGTGATCGACGAGATCCACACCTACCGCGGCGTGTTCGGCAGCCACGTCACCAACGTGCTGCGGCGGCTGAAACGGATCTGCGCGTTCTACGGCGTGGAACCGCAGTTCATCCTGTGCTCGGCGACGATCGGCAACCCGCATGCGCATGCCGAGGCACTGGTCGAGCAGCGCGTGCACGCGATCACCGAATCCGGCGCGCCGAGTGGGCCCAAGCACGTGCTGCTGTGGAACCCGCCGGTGATCAACGCCGATCTTGGCCTGCGCGCATCGGCCCGCTCGCAGGCCAACCGGATCGCGCGCATCGCGATCAAGAGCGGGCTCAAGACGCTGGTGTTCGCGCAGAGCCGGCTGATGGTCGAGGTGCTGACCAAGTACCTGAAGGACATCTTCGACCACGACCCGCGCAAACCACCACGGATCCGCGGCTATCGCGGCGGCTACCTGCCGACCGAGCGCCGCGAGGTCGAGCGGGCGATGCGCGCGGGCAGCATCGACGGCATCGTCAGCACCTCGGCGCTGGAGCTGGGCGTGGACATCGGCGCGCTCGACGTGGTGATCCTCAACGGCTATCCGGGCAGCGTCGCGGCGACCTGGCAGCGCTTCGGCCGCGCCGGCCGCCGCCAGCAGCCGGCGCTGGGCGTGATGGTCGCCAGCAGCCAGCCGCTGGACCAGTACGTGGTGCGGCATCCGGACTTCTTCGCCGACGCCTCGCCCGAGCACGCGCGGATCGCGCCGGACCAGCCGCTGATCCTGTTCGACCACATCCGCTGCGCCGCGTTCGAGCTGCCGTTCCTCGACGGCGAGCCCTTCGGCCCAGTCGATCCGTTGGTGTTCCTGGAGGCGCTGGCCGAAAGCGGCGTGGTCCACCAGGAAGGCGATCGCTGGGAGTGGATCGCCGACAGCTACCCGGCCAACACGGTGAGCCTGCGCTCGGTGGCCGACGGCAACTTCGTCGTCGTCGACCGCAGCGACGGCAAGCAGCAGATCATCGCCGAGGTCGATTACTCGGCCGCCGCGCTGACGCTGTACGAAGGCGCGATCCACATGGTGCAGAGCACCCCGTACCAGGTCGAGAAGCTCGACTGGGACGGCCGCAAGGCCTATGTCACCCGCACCTTCGTCGACTACTACACCGACAGCATCGACTACACCAAGCTCAAGGTGCTCGACCGCTTCGATGGCGGCATCGCCGGGCGCGGTGATTCGCACCATGGCGAAGTGCACGTGGTGCGGCGCGTGGCCGGCTACAAGAAGATCCGCTACTACACCCACGAGAACATCGGCTACGGCCCGGTCAACCTGCCCGACCAGGAACTGCACACCACCGCGCTGTGGTGGCAGCTGCCGCAGGCGACGCTGGGCAAGGCGTTTGAATCGCGCCAGGACGCGCTCGATGGCTTCCTCGGTGCGGCGTATGCGCTGCACATCGTCGCCACCGTCGCGGTGATGGCCGATGCGCGCGACCTGCAGAAAGCGGTGGGCAACGGCGACGGCGCCTGGTTCGCGATCGCCGATCAGACCGGGCGCGGCCAATTGCGCGGCGTCGAAGGCGGCGAGGGCGCGGTCGAGCTGCAGCAGTCATTCGTGCCAACCGTCTACCTGTACGACAACTTCCCCGGCGGCGTTGGCCTCAGCGAACCGCTGTGGCTGCGCCAGGCCGAACTGGTGCAGCGCGCGGCCGAGCTGGTGCAGCGCTGCGACTGCAAGGCCGGCTGCCCGGCCTGCGTCGGCCCGGTGCTGGCCGCGCAGGAGGATGGCGACGGCGCCAGCACGCCACGCGCACTGGCCCTGAAGGTGCTGGCGCTGCTCGGCGACATCGATGGCGTCGCCGCGCAGCACGACGACAGCACGCTGGTGGTGGACGTCGGCTGA	MPPFALAPRTETAERALSTTDGLPSRDGALLTRRLEKRYRDRITGSFTIPGREGRYAPIPDDVPEKLKAALRARGIEQLYAHQAEAWDATQRGEHVAVVTPTASGKSLCYTLPVVSAAMAGNAKALYLFPTKALAQDQVAELLELNRAGDLGVKAFTFDGDTPGDARQAIRLHGDIVVSNPDMLHQAILPHHTKWAQFFENLRYVVIDEIHTYRGVFGSHVTNVLRRLKRICAFYGVEPQFILCSATIGNPHAHAEALVEQRVHAITESGAPSGPKHVLLWNPPVINADLGLRASARSQANRIARIAIKSGLKTLVFAQSRLMVEVLTKYLKDIFDHDPRKPPRIRGYRGGYLPTERREVERAMRAGSIDGIVSTSALELGVDIGALDVVILNGYPGSVAATWQRFGRAGRRQQPALGVMVASSQPLDQYVVRHPDFFADASPEHARIAPDQPLILFDHIRCAAFELPFLDGEPFGPVDPLVFLEALAESGVVHQEGDRWEWIADSYPANTVSLRSVADGNFVVVDRSDGKQQIIAEVDYSAAALTLYEGAIHMVQSTPYQVEKLDWDGRKAYVTRTFVDYYTDSIDYTKLKVLDRFDGGIAGRGDSHHGEVHVVRRVAGYKKIRYYTHENIGYGPVNLPDQELHTTALWWQLPQATLGKAFESRQDALDGFLGAAYALHIVATVAVMADARDLQKAVGNGDGAWFAIADQTGRGQLRGVEGGEGAVELQQSFVPTVYLYDNFPGGVGLSEPLWLRQAELVQRAAELVQRCDCKAGCPACVGPVLAAQEDGDGASTPRALALKVLALLGDIDGVAAQHDDSTLVVDVG				NA	NA	NA	NA	NA
BMS020_02677	510			hypothetical protein	ATGGACGCGGGGTGGTGGTGGATGCGTGTGGTCCAGCTGAGACAGGTGGTGTGGATCGTCGTACTGCTGGCGGTCGCCGGCAGTGCCTGGAGCCAGCAGGTGCCGCAACCGGAAGCCGAGGCAGATGTCACGGCCGTGGCGCCAGCGGCCTCGGCGGCCTCGGCCGATTCGAACGTGACCACCCTGGGCGAGGTCCGCGCGGTGCCCCCGGACGAAGCGCCACCGCTGGACCTGTATGGCTTCAAGAATCCGGTGACGGTCGAGCCGAACCGCTTCGACAAGGCCTACCGGCCGCCACCGAGCCCGGAGCAGATCAGCAACAGCGGCGGCTATCTGATGATGGGCATCTATTACGCGATAGGCGCTGCGGCAATGGGCGTGCACAAGCTCAGCGGCGGCCCTGACCAGATCCAGTCGGCAGTCGCCCGCCCACCACCGCTAACCGAAGAGCAGATGCGCCGCGCCGCGACGATGTGCAGTACCAGCGGCGAGCGCTGCGAAGGGCAATGA	MDAGWWWMRVVQLRQVVWIVVLLAVAGSAWSQQVPQPEAEADVTAVAPAASAASADSNVTTLGEVRAVPPDEAPPLDLYGFKNPVTVEPNRFDKAYRPPPSPEQISNSGGYLMMGIYYAIGAAAMGVHKLSGGPDQIQSAVARPPPLTEEQMRRAATMCSTSGERCEGQ				NA	NA	NA	NA	NA
BMS020_02678	708			hypothetical protein	ATGCAGCGCAGCAGATTAACGAAGTTCGTTGTCACGCTTACCATCCTGTTGGCTGGCTCCGGGATGTTGGGGATGTTCCGCCATGCAGGTGTCGTGCCGGCGCAGAACAGCGCGGCGCCGACCAATGTTGCGACGGAGAAACAGACGCGTGCCATCCTGGCTGTGGTCCTTGCCAACGAGGCGCGCATTGTCGCTGCGCAGGTGGCGTTTGCCTCGCAGGGGGCCGGGGCGTCGCCCGGGCGAACCTCCTTGCTGCTTGTCGATCATTCTCTATGCCTTGGAACTGCGCCAGGCGATAGCTGTGATCGTCTGCTATTCGATGACGAGCCATCACAGAAGGGTTTGCAATCCCGTGCCGCGCGTCAGCTACTGGCGCAATTGCTGGCCAATAACCGCGCGTCACACCGGTTTACCTCGGGAGAACTGCCCGATGCCCCAGTGGTCGGCTTGAACGAGCTGCGAGCGCTGGCGGTGACGGGGGCTCCTGACGAGGTGGCAAGTTTCTGGGCTGCATTCCATCAGGCGCATCCACGCAGCCAAGGTTTCGTTGTGGCGAGCCGTCCGGTGGTAGCAGCAGATGGGTCGGAGGCGATTGTCCATGTCGCCCGCCAGTGCGGAGGCAGGTGCGGAGCTGGAACAACCTATCTGCTGGTCCGCGACGCCCGTGGCTGGCGGATTGGCGAAGCGGCGGAAATGTCGGAATCGTGA	MQRSRLTKFVVTLTILLAGSGMLGMFRHAGVVPAQNSAAPTNVATEKQTRAILAVVLANEARIVAAQVAFASQGAGASPGRTSLLLVDHSLCLGTAPGDSCDRLLFDDEPSQKGLQSRAARQLLAQLLANNRASHRFTSGELPDAPVVGLNELRALAVTGAPDEVASFWAAFHQAHPRSQGFVVASRPVVAADGSEAIVHVARQCGGRCGAGTTYLLVRDARGWRIGEAAEMSES				NA	NA	NA	NA	NA
BMS020_02679	666			hypothetical protein	ATGAACGCGACGATCACTGCATTTGAATCCTCGCCCGACCGCGGCCGTGGGCTGGCGCGCGACATGCGCGTGCGTTGGGCGCTGGAGGAGGTCGGCCAGCCCTACGATGTCCGGCTGCTGTCGTTCGTCGCGCTCAAACAGCCCGCGCATCTGGCGTTGCAGCCGTTCGGGCAGATTCCGACCTACGAGCAGGACGGACTGGCGCTGTTCGAATCCGGCGCGATCGTGCTGCATCTGGGCGAACGTCATGGCGGCCTGCTACCCGCCGACGCCGATGCGCGGATGCGCGCGATCGGCTGGATGTTCGCCGCGCTGAACACCGTCGAGCCGCCGATCGTCGAACGCTCGCTGGCGCGGATCCTCGAACGCGAGCAACCCTGGTTCGACCAGCGCGCGGTGATGCTCGACGAACGTGTGCGCACGCGGCTGGCGCAGCTGTCACGCAGGCTCGGCGATGGCCCATGGCTGGACGGCGCGTTCAGCGCCGGCGACCTGCTGATGGCCTCGGTGCTGATGCGGCTGGACGGCGCCGGCTTCATCGAGGAACACCCCAACCTTGCCGACTACATCGCCCGCGCCAAGGCCCGCCCGGCCTACCAGCGCGCGTTCGCCGCGCAGTTGGCGGTGTTCGAGCGGGCGCAGCGGCGGGCTGCTGGATCACCGTAA	MNATITAFESSPDRGRGLARDMRVRWALEEVGQPYDVRLLSFVALKQPAHLALQPFGQIPTYEQDGLALFESGAIVLHLGERHGGLLPADADARMRAIGWMFAALNTVEPPIVERSLARILEREQPWFDQRAVMLDERVRTRLAQLSRRLGDGPWLDGAFSAGDLLMASVLMRLDGAGFIEEHPNLADYIARAKARPAYQRAFAAQLAVFERAQRRAAGSP	PGPT0013170_13311	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS020_02680	705			hypothetical protein	ATGCGTACGTCCCGAGCCTTGTTGTACCTGGCGCTGCTGGTCGCCACGCCCGCGTTGGCCCAGCAGGGCATCAGCACGATTTCCGACGATGTGCAGACCCAGGCCGGCCAGGCCTACGGCTCGCTGGCCAGCGTCAGCGGTGACATCCACGTCGCGGCCAAGGCGCACGCCGGCAGCGTCCACGCGGTCAGCGGGCAGATCAACATCGATGACGGCGCCCAGGTGGGCGATATCGCGACAACCAGCGGCGACATCCAGGTCGGCAACAACGTCGGTACCGGCGCAGTGAAGAACGTCAGCGGCAACATCGCGCTGGGCCACGACGTGGTTGTCGATGGCGGCGTGACCACGGTAAGCGGTGCGATCTTCGTCGCGCACGACAGCCGCATCGGCGGCAACATCGCCGCGGTCAGCGGCGACATCGGCCTGGTGCGCACCGAGGTGCGCGGCGACATCACCTTCGTCGCCAGCAACGTCACCGTCGGCATCGGGTCGCACGTCACCGGCCGGGTCCATCTGAAGAAGCCGACCTTTGGCAAGACGGACCAACCGCCGCGGGTCGTGATCGGTCCGGGCGCGGTGGTCGACGGGCCGCTGGTCTTCGAACTCCCGGTCACCCTGTACGTACACAGCACTGCCAGGACCGGCCCGATCAGCGGCGCCACCCCGATCGCGTTCTCCACGCCGAGCTCGCCCAAGCACTAA	MRTSRALLYLALLVATPALAQQGISTISDDVQTQAGQAYGSLASVSGDIHVAAKAHAGSVHAVSGQINIDDGAQVGDIATTSGDIQVGNNVGTGAVKNVSGNIALGHDVVVDGGVTTVSGAIFVAHDSRIGGNIAAVSGDIGLVRTEVRGDITFVASNVTVGIGSHVTGRVHLKKPTFGKTDQPPRVVIGPGAVVDGPLVFELPVTLYVHSTARTGPISGATPIAFSTPSSPKH				NA	NA	NA	NA	NA
BMS020_02681	1017	zntB_2	COG0598	Zinc transport protein ZntB	ATGCCGCCTGTCGATATCAGTTACGGGTCCGATGAAGACGGACTGATCTGGGGCTATCGGCTTTCGCCCGACCGACCGGCCCAGCCGATCACCGCCGCGCAGGTGCCGGGCTTCCTCGCCGGTGCCGATGGTTGCACGCCCGGCGACTTCGTCTGGCTGCATTTCTCGCTCGCCAACCAGGGGGCGCGGCGCTTCCTGCGCGACGCGCTGGACTTGCCCGGCGCGTTCCACGACACCCTCGGCAGCCAGGTCGGATCGACCCGGCTGGAACTCGACGACGGGGCGCTGGTGGCGGTGATCCACGACGTGCTGTTCGACACCGCATTCGACGCCTCCGATGTCGGCACCAGCAGCCTGTGCATCGCGCCGCGCATGATCATCAGTGCGCGGCTGCGGCCGCTGCGTTCGGTCGATCGGCTGCGTGCCGCGGTGCGCGCCGGGCAGGCCTTCCGCTCGCCGGTCGAACTGCTGGCGCACCTGTTGACCGACCAGGCCAAGGTGCTCGGCGACATCCTGCGGACCTCCACCACGCGGGTGAACCAGATCGAGGACCGGCTGCTGGCCAACCAGGTCGCCACCGACCGCCAGGAGCTGGGCGCGCTGCGACGCACGCTGGTGCGGTTGCAGCGCCTGCTGGCGCCGGAACCGACCGCGCTGTTCCGCCTGCTCAACCGGCCGCCGGCGTGGATCAGCCGCGACGACGTGCTCGATCTGCAGCAGGCGGCGGAAGAATTCTCCGCCACCCTCGGTGACTCGCAGGCGCTGGTGGAGCGGATCAAGCTGATCCAGGAAGAACTGGCCGCGCTGATCAACGAACAGAGCAACCGCACGTTGTTCCTGCTGACCGTGGTCACGGTGCTGGCGCTTCCGGTCAATCTGATCGCCGGCCTGTTCGGCATGAACGTCGGCGGCGTGCCCTTGAGTGCCAGTGCACATGGCTTCGCGGTGGTGGTGAGCCTGCTGGTGGTGCTGACCGTGCTGCTGGCCTGGTTCGCGTTTCGCAGGCGCGGCGGCTGA	MPPVDISYGSDEDGLIWGYRLSPDRPAQPITAAQVPGFLAGADGCTPGDFVWLHFSLANQGARRFLRDALDLPGAFHDTLGSQVGSTRLELDDGALVAVIHDVLFDTAFDASDVGTSSLCIAPRMIISARLRPLRSVDRLRAAVRAGQAFRSPVELLAHLLTDQAKVLGDILRTSTTRVNQIEDRLLANQVATDRQELGALRRTLVRLQRLLAPEPTALFRLLNRPPAWISRDDVLDLQQAAEEFSATLGDSQALVERIKLIQEELAALINEQSNRTLFLLTVVTVLALPVNLIAGLFGMNVGGVPLSASAHGFAVVVSLLVVLTVLLAWFAFRRRGG	PGPT0004205_337	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNT_TRANSPORT_SYSTEM,PGPT0004205-zntB-K16074	NA	NA
BMS020_02682	312			hypothetical protein	ATGCGGATCCGATATTGGGCGCTGGTCGTCCTGTTGTTGGCGGCGCCATGTGCGGCGGCCAACACGCCGTGTTCCGGCGCGAAGGGTGGCGTGGCGCACTGCGCCAACGGCCGCTTCGTCTGCAACGACGGTTCGGTCAGCGCCTCCAAGCGGGTCTGCGGCGGTGATGCCGCATCGCTGCGGCCAGCCCCGGCCGCAGCGTCGGCTCCGCCCGGCTGCGCCTGCAGCGCCGGGACGTTCTGTACCGGCCCGCGTGGAGGTCGGTACTGCCTGACCCCGACGGGACGCAAGAGCTACATCCCCCGCGACTGA	MRIRYWALVVLLLAAPCAAANTPCSGAKGGVAHCANGRFVCNDGSVSASKRVCGGDAASLRPAPAAASAPPGCACSAGTFCTGPRGGRYCLTPTGRKSYIPRD				NA	NA	NA	NA	NA
BMS020_02683	1332			hypothetical protein	ATGCAGGGGCTCAAAGAAAGCGATCTGACCATCCTGTCTGCTTATGCGAACAAAGGCAACCGAGAGCTCTATTGGAACTACCTAGCCCACAAGCAGGGGAACGACGGCTACGGCCTTCTTGCCTTAGGGGTGGTAAGGAACGACAACGCGCCCGGTGCCACGGCGAATGCGTTTGCTAACAACCAGGCGAGGAGCGACGGGATCGATATGACCGAACGGGAGTGGAACACGTTCGGTGTAGAGCTCATGAAATTCGATCTGGAACACCGTCAAAAGCAGCTTGAACGCGGGCGTCCAGACCTTGCCCTCAACCTGCCCGTCCGAGAGATCGAAGCAGTGCATGACCGCACTTTCAAGGACTACCACATCAACCCCAACGCCTGGACCCCGCGCGAGCTGCTCGATGCCGCACGTCGCCATGGCGGCGATGCGGAGGCCGAGAAGGTCTGGACGATGATGCTGGACAACACCGCCTTGGGTCTGGGCCGGATGTCTTCGACCAGCGCGGATATCGTGCATCGTTACAACGATGGTCAGCTGGATGCCACGTCTTATATGACGCGCATGGGCGTGGCACGCACAGAAGCGACCCAGGCGCTGCGCAACGGCGATCCGAACAGGATCGGTAGCGAGGGGTTCTATGCCCTCTACGATACCCGCTCCGGTCAATGGACCCAGGTGACCAGCATGGGCGGCCAGGTGACGATGCGGCCGGTCCACGATGCCGACGAGATCCAGCGGCTCGACGACACGCGCCAGCTGCGCCTGCAGCGCCAGGAGTTGCGCGGGCAGTTCCACCCGGACGATCCATACCGCGACCAGCCGATCGTGCGCAGTCCGTACCTGCTGTCCGATGGGACACCGGCCCATCCGCAGGACGCACCCGCGCGTAGCGGCGCAGCAGGGCCGGTTGCGGGGTCCGCGCCGGACGCGCACCCGCACCAGGCGCTGCGGCAGCAATGCAGTGCCGGCGTCGATGCGCTTGATCGGCAGCTTGGGCGGTCACCTGACCAGAACAGCGCCTGCATGACCGCCAGCCTGACCACGTTGGCCGCCGCCAACGGCTTCGAGCGGGTCGACCATGTGCTGTTGAGCGAGCGCTCCGGGCAGGTGCAGGCGGGCCAGAACGTGATCATCGTGCAGGGCGCGCGCGACGATCCAGCGCACCTGCGCGCGCACATGCCGACCGACCAGGCGATCGGCACGCCGGTGGAAACCTCGCAGCGCGACCTGGCCCAGATCGCCCAGCGGCAGGCCCAGGCACTCGACGCACCCACCCAGTCCCTGCAGCAGGCCGAGCACAGCCATGGCGCCCGAACGCTCGGCGCCTGA	MQGLKESDLTILSAYANKGNRELYWNYLAHKQGNDGYGLLALGVVRNDNAPGATANAFANNQARSDGIDMTEREWNTFGVELMKFDLEHRQKQLERGRPDLALNLPVREIEAVHDRTFKDYHINPNAWTPRELLDAARRHGGDAEAEKVWTMMLDNTALGLGRMSSTSADIVHRYNDGQLDATSYMTRMGVARTEATQALRNGDPNRIGSEGFYALYDTRSGQWTQVTSMGGQVTMRPVHDADEIQRLDDTRQLRLQRQELRGQFHPDDPYRDQPIVRSPYLLSDGTPAHPQDAPARSGAAGPVAGSAPDAHPHQALRQQCSAGVDALDRQLGRSPDQNSACMTASLTTLAAANGFERVDHVLLSERSGQVQAGQNVIIVQGARDDPAHLRAHMPTDQAIGTPVETSQRDLAQIAQRQAQALDAPTQSLQQAEHSHGARTLGA				NA	NA	NA	NA	NA
BMS020_02684	867			hypothetical protein	ATGAGAGGTTTGATCGCGCCCGTCTGTCTGGCGTTGCTGGCGCTGGGATTCGCCATCCCGGGTTGCAGCCAACCGGCGCATGATCCCGGCACGATGACCAATGAGCAGGGCTGCACCAGGAAGCGTGGTGGTCCGCAGGATCCCAGCGCGACCCCGCCGCCGTTGATGGACGCCTGCCTCGGGCCGTATCTGCTGCGCGTCCCTGCCAACTACTTCGACGACCAGATGGGGCCGTATTTCGACGGCAGCTTCGGGTTTGCCCTCGAGTACCCCGGCCTCGAAGCCTTCGCGCCCGGCGAGCGTTCGCATCTGAGCCTGGATGTGTCCACCCGGACGGTGGACATCGGCTATACGTTCATTGATCGCGTGCCGGTGGGAGAACCGCTGCGCTTGCGCTACACGCTGGGACCTGAGGCTTCCTATCGGCCGGAGAAGGATCTCGCGACACGTATCAAGGGAGAAGCTGTTTACGGCCTAGTGCCCTACTACGCGGACTTGGATGCCTACCGTGCGTTCTATCGGGGCAAAGGTTACGCAGAGGACACTCCCGTCATGCAGGCGAAGTACTACAACGATTGGTTCGTTGTGCGCGGGACCGACGGAACGATCGCGACGATCATCGAATGTACTTCACGCGAGATCACCAAGTCGGGCGTCGATTACCGCGACGGCAAGCTCATCCGTAGTGCCGATAGGCCGCTCCCAGAGTGCACACAGACGTTCATTCTTCCTAAGCTGCGCACGCTGGTGGAAATTCGCTATGTGCGCGTTGCGCTGCCGGATTGGCGGCGTATGGAGAAGCGCGCACGCGAGGCACTTGCAGAGTTCATGGTCAACAAGCCAGAAGCAAAAATCACCCACGACTAA	MRGLIAPVCLALLALGFAIPGCSQPAHDPGTMTNEQGCTRKRGGPQDPSATPPPLMDACLGPYLLRVPANYFDDQMGPYFDGSFGFALEYPGLEAFAPGERSHLSLDVSTRTVDIGYTFIDRVPVGEPLRLRYTLGPEASYRPEKDLATRIKGEAVYGLVPYYADLDAYRAFYRGKGYAEDTPVMQAKYYNDWFVVRGTDGTIATIIECTSREITKSGVDYRDGKLIRSADRPLPECTQTFILPKLRTLVEIRYVRVALPDWRRMEKRAREALAEFMVNKPEAKITHD				NA	NA	NA	NA	NA
BMS020_02685	894			hypothetical protein	ATGACCGAGACCCTGCTCAGCGCCGTCCGCCGCCACGCCGATCTGCATGCTGATGCTGCCGGCCTTGCCCAGACCGCCATTCCCGGGCTGGCCACGGTCCGTGCGACCGCGCCAAGCGCGTTGGACCACGCCGCCCAGCGGCCACTGGTCTGCCTGGTCGTGCAGGGCAGCAAGGACGTCACGCTTGGCAGCCGAACGCTCAGCTTCACGCCCGGCGATTCGCTGCTGATCACCTCCGATGTCGTCACCAGCAGCCGCATCACCCGCGCCAGCGCCGCCGCGCCGTACTACTCGCTGGTGCTGGATCTGGATGTGGCGGTAATTGCCGACCTGAGCGCGCAGATGCCCCCGCCCGGTCCCGGCAGCGGGCCCTCGCTCCAGGGCGAGCCGACCGAAGTGGAGGTTGCCGACGCCGCGCTGCGGCTGCTGCGCTTGCTCGACCGCCCGGACGCGCTGCCGGTGCTGCGCGCGCAGCTGGTGCGCGAGCTGCACTACTGGCTGCTGGTGGGCCGCCATGGCGCGGCGATCCGCCGGCTCGGCTGGCCCGAGGGCCAGGTCCAGCGCATCGCACGCGCGGTCGCGCTGCTGCGGGCCGAGTACACCCATCCCCTGCCGGTACGACGGCTGGCCGATGCCGCCGGCATGAGCGCCTCGGCGTTCTACCAGCACTTCCGTAACATCACTTCGCTATCGCCGCTGCAGTTCCAGAAGCAGCTGCGGCTGATCGAGGCACGCCGGCTGATGCGCAGCGAAGGCGCCAACGCCAGCACCGCCGCCTTCGCGGTCGGCTACGCCAGCGTGCCGCAGTTCACCCGCGAATACGGCCGGATGTTCGGCGCCCCGCCGGCGCGCGACATGCAGGCGGCGCGCGCTGATGTGGCCGCGGCCGGCTGA	MTETLLSAVRRHADLHADAAGLAQTAIPGLATVRATAPSALDHAAQRPLVCLVVQGSKDVTLGSRTLSFTPGDSLLITSDVVTSSRITRASAAAPYYSLVLDLDVAVIADLSAQMPPPGPGSGPSLQGEPTEVEVADAALRLLRLLDRPDALPVLRAQLVRELHYWLLVGRHGAAIRRLGWPEGQVQRIARAVALLRAEYTHPLPVRRLADAAGMSASAFYQHFRNITSLSPLQFQKQLRLIEARRLMRSEGANASTAAFAVGYASVPQFTREYGRMFGAPPARDMQAARADVAAAG				NA	NA	NA	NA	NA
BMS020_02686	756	fabG_5		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGCAGACCATTTCCCTTGTCACCGGCGGCAGCCGCGGCCTGGGCCGCGAGACCGCGCTGAGCATCGCCCGCACAGGCGGCGACGTGGTGCTGACCTACCGCAGCGACGCCGACGCGGCCGCTGCCGTGGTCGCCGAGATCCAGGCACTGGGCCGGCGCGCGCTCGCGCTGCCATTGGACACCAGCGTGGTCGCCGGCTTCGCCGCATTCGTCGAGACGTTGCGTGGGGTGCTGCGCGCGACCTGGCAGCGCGGGACCTTCGACCACCTGGTCAACAACGCCGGCCACGGCGACTACGCGTTGATCGCCGACACCAGCGAAGCGCAGTTCGACCGGCTGATCGATGTGCACTTCAAGGGCGTATTTTTCCTGACCCAGGCGCTGCTGCCGCTGCTCGTCGATGGCGGGCGCATCGTCAACCTGTCCTCGGGCCTGACCCGGGTGTCGTTCCCCGGCTACGCGGCGTACGCGGCAGCGAAGGGCGCGGTGGAAGTGTTGAGCGTGTACCTGGCACGCGAACTCGGCGCGCGCGCGATCACCGTCAACACCGTGGCGCCGGGGGCGATCGCCACCGATTTCGGCGGTGGAGCGGTCCGCGACACCCCGGAGGTCAACCGCTTGTTCGCCGACATGACCGCGCTTGGCCGTGTGGGCGAGCCGGACGACATCGGTCCGATGATCGCCGGCCTGCTGGCGCCGGCCAACCGCTGGGTCAACGCGCAGCGGATCGAGGTCTCGGGCGGCCAGAGCATCTGA	MQTISLVTGGSRGLGRETALSIARTGGDVVLTYRSDADAAAAVVAEIQALGRRALALPLDTSVVAGFAAFVETLRGVLRATWQRGTFDHLVNNAGHGDYALIADTSEAQFDRLIDVHFKGVFFLTQALLPLLVDGGRIVNLSSGLTRVSFPGYAAYAAAKGAVEVLSVYLARELGARAITVNTVAPGAIATDFGGGAVRDTPEVNRLFADMTALGRVGEPDDIGPMIAGLLAPANRWVNAQRIEVSGGQSI	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
BMS020_02687	861			hypothetical protein	ATGCCACCTTCCGATTCCAGCTCCCGCTCGCCCCTGGGCAGCTACCTGCGCGAACGCCGCGCCCGCCTGGACCCGGTGGCACTGGGACTGCCCACCGCACGGCGGCGTACGCCCGGGCTGCGCCGCGAGGAGGTCGCCCAGCGCGCCTGCGTCAGCGCCACCTGGTACACCTGGCTCGAACAGGGTCGCGGCGGCGCACCGTCGACCGAGGCGCTGGAGCGGATCGCCGGCGCGCTGATGCTCGACACGGCCGAGCGCGAGCATCTGTTCCTGCTGGCCCAGCATCGTCCACCACGCACCGCGGACGCGGCGCCGACCCGGATCACCAGCGGGCTGCGCGGCGTGCTCGACGCATTGCCGGCCAGCCCGGCCTTCATCAAGAACGCGGCCTGGGACGTGCTGGCCTGGAACCGTGCCGCGGCGGTGGTGCTGACCGACTACGCACTGCTGCCGCCGCAGAGACGCAACATCCTGCACCTGGTGTTCTCCCGCCCCGGCGCGATGCAGACCATGCCGAACTGGGAGCAGGTTGCGCGTTTCGTCGTCGCCACCTTCCGCGCCGAGACCACGCGCGCCGGCGAGGCGATCGCGGCGCGCGCGGCCGAGCTGGTCGCCGAGCTCGGCGCCACCAGCCCTGCATTCCGCGCGATGTGGGACGCCGGCGACGTCCGCCGCCATGGCGCCGGCACCAAGCACATCCACAAGCCCGGCGCCGGCGCGATCGGGCTGGACTACTCGGCGTTCGCGATCGAAGACCAGCCCGGCCTCAGTCTTGTGGTCTACACCGCCGCCACGGCCGACGATGCCGCGCGCATCGATGCGCTGCTGCGCGCCGCCACAGGCGACGCACCGGCGGCATGA	MPPSDSSSRSPLGSYLRERRARLDPVALGLPTARRRTPGLRREEVAQRACVSATWYTWLEQGRGGAPSTEALERIAGALMLDTAEREHLFLLAQHRPPRTADAAPTRITSGLRGVLDALPASPAFIKNAAWDVLAWNRAAAVVLTDYALLPPQRRNILHLVFSRPGAMQTMPNWEQVARFVVATFRAETTRAGEAIAARAAELVAELGATSPAFRAMWDAGDVRRHGAGTKHIHKPGAGAIGLDYSAFAIEDQPGLSLVVYTAATADDAARIDALLRAATGDAPAA				NA	NA	NA	NA	NA
BMS020_02688	438			hypothetical protein	ATGCAGACCCCATGGATTTCCGGCGCGTGCGCGCTGCTGCTCGCTGGCGCTGCCGGCGCTGCCGGCGCCCAGCAGACGACGCCACAGCAGGCCGATCCGCGTATCGTCGAGTACGTCACCGCACGCTCGATCGACCGGCAACAGCAGCTCGCACGCCAGTACTGCGCGCGCGACCCGCAGGCCCGCGCGGCTTATGACGCCGGGTTGCAGGCGTTTCGCGCCCGCAACCCCGACTTCGTCGCGGTGGTGGGCAATCCGCCCTCCGGCGAAGAAGCCCGCCGCGCCATCGCCTCCGGCGACCAGGTCGCCCAGCGCATGGAACCTTCGTTCCGCAAGGGCATGGAGTCGGTCGACCTGCGCACCTACTGCAAGGCCAACGGCGAGGCATTGCCGAAGCTGTCGTGGGTGGAGATGAAGCGCATGGCCGGCATGCGCTGA	MQTPWISGACALLLAGAAGAAGAQQTTPQQADPRIVEYVTARSIDRQQQLARQYCARDPQARAAYDAGLQAFRARNPDFVAVVGNPPSGEEARRAIASGDQVAQRMEPSFRKGMESVDLRTYCKANGEALPKLSWVEMKRMAGMR				NA	NA	NA	NA	NA
BMS020_02689	600			hypothetical protein	ATGAGCAATGCCCTGATCGATGCCATCAAGACCCGCCGCACCCAGTACGCGCTCGGCAAGTCGCTGCCGCTGCCGCAGTCGGAGGTCGCCGCGCTGATCCAGGAGGCGATCAAGCTGTCGCCGTCCTCGTTCAACTCGCAGAGCTCGCGCGCGGTGATCCTGTTCGGCACCGAGAGCGACACGTTCTGGCGCATCGTCACCGACGAGCTGCGCAAGATCGTGCCGGCCGAGGCGTTCGCCGCCACCGAGCAGAAGATCGCCAGCTTCGCCGCCGGCGCCGGCACCGTGCTGTTCTTCGAGGACCAGGACGTGGTGAAGGGCCTGCAGGAGCAGTTCGCGCTGTACGCCGACAACTTCCCGATCTGGTCCGAGCAGGCCAGCGGCATGGCGCAGTTCGCGGTGTGGACCGCGCTGGCCAACGCCGGCATCGGCGCCAGCCTGCAGCACTACAACCCGCTGCCGGACGCCGCCGCCGCCGCCGAATGGAAGCTGCCGGCCAGCTGGAAGCTGCGCGCGCAGATGCCGTTCGGCTCCAACGAAGCCCCGTTCGGTGACAAGAGCTTCATCGACGACGCCACCCGCTTCCGCGTGTTCGGCTGA	MSNALIDAIKTRRTQYALGKSLPLPQSEVAALIQEAIKLSPSSFNSQSSRAVILFGTESDTFWRIVTDELRKIVPAEAFAATEQKIASFAAGAGTVLFFEDQDVVKGLQEQFALYADNFPIWSEQASGMAQFAVWTALANAGIGASLQHYNPLPDAAAAAEWKLPASWKLRAQMPFGSNEAPFGDKSFIDDATRFRVFG				NA	NA	NA	NA	NA
BMS020_02690	987			hypothetical protein	ATGCGCGTCCTCGTCACCGGCAGCGCCGGCCACCTTGGCGAAGGCCTGGTCCGCACCCTGCGCGCGCACGGGCGCGAGGTGCTGGGCATCGACCTGCTGCCCTCGCCGTACACCGACCGCACCGGCTCGATCGCCGATGCGGGGTTCGTCGAAGACTGCATGCACGGCATCGACGCGGTGCTGCATACCGCCACCCTGCACAAGCCGCATGTCGCCACCCACGCGCGCCAGGCCTTCGTCGACACCAACATCAGCGGCACCCTGGCGTTGCTGGAAGCGGCGCGCCGCCAGCACGTGGGCGCGTTCGTGTTCACCAGCACCACCAGCGTGTTCGGCGATGCACTGGCGCCGCCCGAAGGCGCGCCGGCGGCCTGGATCGACGCGGACGTGGTGCCGCAGCCGAAGAACATCTACGGCGTGACCAAGGCGGCGGCCGAGGACCTGTGCCAGCTGTTCCAGCGCAACCACGGCCTGCCCTGCGTGGTGCTGCGCACCGCGCGCTTCTTCCCCGAGGCCGACGACAGCGCCGCGGCCCGCGCCGCGTTCGACGACACCAATCTGAAGGTCAACGAGCTGCTGTACCGCCGCGCCGACCTGGACGACGTGGTGCAGGCGCACCTGTGCGCGTTGGCGCGCGCCGAGACGCTCGGCTTCGGCCGCTACGTGGTCAGCGCCACCACGCCGTTCCAGCGCGAGGACCTGGCGATGCTCAACCGCGACGCCGCCGCGGTGGTCGAACGCCGCGCCCCCGGCTGCGCCGCGCTCTACGCCGCACGCGGATGGCGGCTGCCGGCGCGGATCGACCGCGTCTACGACAACCGCGCTGCGCGCGAGGCGCTGGACTGGCAGCCACGCCACGACTTCGCACATGCCCTGGCCTGCCTGCGCGATGGCGGCGAGCCGCGCAGCCTGCTGGCCCGCGTGGTCGGCGCCAAGGGCTACCACGCCGACGCATTCGACGGCATGCCGTATCCGGTCGACGGCTGA	MRVLVTGSAGHLGEGLVRTLRAHGREVLGIDLLPSPYTDRTGSIADAGFVEDCMHGIDAVLHTATLHKPHVATHARQAFVDTNISGTLALLEAARRQHVGAFVFTSTTSVFGDALAPPEGAPAAWIDADVVPQPKNIYGVTKAAAEDLCQLFQRNHGLPCVVLRTARFFPEADDSAAARAAFDDTNLKVNELLYRRADLDDVVQAHLCALARAETLGFGRYVVSATTPFQREDLAMLNRDAAAVVERRAPGCAALYAARGWRLPARIDRVYDNRAAREALDWQPRHDFAHALACLRDGGEPRSLLARVVGAKGYHADAFDGMPYPVDG	PGPT0022625_346	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
BMS020_02691	393			hypothetical protein	ATGGAAACTTCCCCCGCCGCGCCGCCGCTGAAGGTGTTCTCGGCCAGCTGTTCCAGCCGCGTGCTGTTCGACCAGGTCGCCGACAAGTGGTCGATGATGATCCTGTCGATCCTCGGCGACGGCCCGCACCGCTTCAACGCAATCCGCCGCCGCATCGAGGGCGTGACCCAGAAGGCGCTGACCCAGTGCCTGCGCCGGCTCGAACGCAACGGCCTGATCGAGCGCCGGGTGATCCCGACCTCGCCGGTCGGGGTGGAGTACCGGCTGACCGCACTCGGGCTGTCGCTGCTGCAGCCGTTCCGCGCGCTGTACCAGTGGATGACCGCGCACATGGCCCAGGTCGAGCGCGCGCGGGTCGACTACGACGCGCGCGAGCTGGCCGCGACCGGCTGA	METSPAAPPLKVFSASCSSRVLFDQVADKWSMMILSILGDGPHRFNAIRRRIEGVTQKALTQCLRRLERNGLIERRVIPTSPVGVEYRLTALGLSLLQPFRALYQWMTAHMAQVERARVDYDARELAATG				NA	NA	NA	NA	NA
BMS020_02692	1119			NADH oxidase	ATGCACTCCAATGCTGCCGATGTCCTGTTCCAGCCGCTGACGCTGAAGTCGCTGACCCTGCCCAACCGCATCGTGATGGCGCCGATGACCCGGCTGTTCGCCGCCGAGGGCGTGCCGGCGCAGGTCAACGCCGACTATTACCGGCGCCGCGCCGAGGACGGCGTCGGCCTGATCCTGTCCGAGGGCACGGTGATCGACCGTCCAGCCGCGCGCAACGCCGCCGGCATCCCGTTCTTCCATGGCGACGCGGCGCTGGCTGGCTGGTCGCAGGTGATCGCCGCGGTGCACGCCGCCGGCGGCCGCATGGGCCCGCAGATCTGGCACACCGGCGGCGCGCACAGCCCGAACGGCTGGGACCCGGGCGTGCCGGTGGAAACCCCGTCGGGCATCAACGGCCCGGACGACGTGCGCGGCGTGGCGATGAGCGAGCAGGACATCGCCGATGCGATCGCCGCGTTCGCGCGCGCCGCCGCCGATGCCAAGCGCCTGGGCTTCGACACGCTGGAGCTGCATGGCGCGCACGGCTACCTGATCGACCAGTTCTTCTGGGGCGTGACCAACCGCCGCGAGGACCGCTATGGCGGCGCCACGCTGGCCGAGCGCGCGCGCTTCGCCGCCGAGGTGGTGGCCGCGGTACGCGCCGCGGTCGGCCCGGACTTCCCGCTGATCCTGCGCATCAGCCAGTGGAAGCAGCAGGACTACGCTGCGCGCCTGGCCGAAACCCCGCAGGCGATGAGCGACTGGCTGCTGCCGCTGGTCGAGGCCGGCGTGGACGTGCTGCACTGCTCGCAGCGCCGCTTCTGGGAACCGGAGTTCGCCGAGGTCGATGGCGAGCACGGGCTCAATTTCGCTGGCTGGGCGAAGAAGCTGACCGGCGCGACGACGATTTCGGTCGGCTCGGTGGGGCTGTCCGGCGATTTCCTCGGCGCGTTTGGCGGCCAGGGCGCGCCGAAGGCCGGACTGGAAGCGCTGGTGCAGCGCATGGAACGCGGCGAGTTCGATCTGATCGCGGTCGGCCGGGCGATCCTGGCCGACCCACAGTGGGTCACCAAGGTCCGCGGCGGCGACCACGCCGCGCTGCAGGACTTCAACGCCGCAGCGCTGGCGGAGCTGGTCTGA	MHSNAADVLFQPLTLKSLTLPNRIVMAPMTRLFAAEGVPAQVNADYYRRRAEDGVGLILSEGTVIDRPAARNAAGIPFFHGDAALAGWSQVIAAVHAAGGRMGPQIWHTGGAHSPNGWDPGVPVETPSGINGPDDVRGVAMSEQDIADAIAAFARAAADAKRLGFDTLELHGAHGYLIDQFFWGVTNRREDRYGGATLAERARFAAEVVAAVRAAVGPDFPLILRISQWKQQDYAARLAETPQAMSDWLLPLVEAGVDVLHCSQRRFWEPEFAEVDGEHGLNFAGWAKKLTGATTISVGSVGLSGDFLGAFGGQGAPKAGLEALVQRMERGEFDLIAVGRAILADPQWVTKVRGGDHAALQDFNAAALAELV				NA	NA	NA	NA	NA
BMS020_02693	1209	fabV		Enoyl-[acyl-carrier-protein] reductase [NADH]	TTGATCATCCATCCCAAGGTCCGCGGCTTCATCTGCACCACCACGCATCCGACCGGCTGCGACCTCAACGTGCGCGACCAGATCGCCGCCACCCGTGCGCTGGGCAAGCGCGACGACGGCCCGAAGAAGGTGCTGGTGATCGGCGCCTCCAGCGGCTACGGCCTGGCCGCGCGCATCTCCGCCGCGTTCGGCTTCGGCGCCGACACCCTCGGCGTGTTCTTCGAGAAGCCCGGCAGCGAGAAGAAGGCCGGCACCGCCGGCTGGTACAACGCCGCCGCGTTCGACCGCTACGCCAAGGCCGAGGGCCTGTACAGCAAGTCGATCAACGGCGACGCGTTCTCCGACGAGGCACGCGCCAAGGTCATCGAGCTGATCAAGACCGAGATGGGCGGCCAGGTCGACCTGGTGGTCTATTCGCTGGCCTCGCCGGTGCGCAAGCTGCCGTCGACCGGCGAGCTGAAGCGCTCGGCGCTCAAGCCGATCGGCGCGGCCTACACCTCCAATGCGATCGATACCAACAAGGACCAGGTGATCGAAGCCACCGTCGAACCGGCGACCGAGCAGGAGATCGAAGACACCATCACCGTGATGGGCGGCCAGGACTGGCAGCTGTGGATCGACGCGCTGGGCGACGCCGGCGTGCTCGCGCAGGGCGCCAAGACCGTGGCGTTCAGCTACATCGGCACCGAGATCACCTGGCCGATCTACTGGCACGGCGCGCTCGGCAAGGCCAAGGCCGACCTCGACGCGACCGCGCGCCGCCTCGACGGCCAGCTGCAGGCCAGCGTTGGCGGCGGCGCCAACGTGGCGGTGCTGAAGTCGGTGGTGACCCAGGCCAGCGCGGCGATCCCGGTGCTGCCGCTGTACATCGCCATCGTGTTCAAGGTGATGAAGGCCAAGGGCATCCACGAAGGCACCATCGAGCAGCTCGACCGCCTGTTCCGCGAGCGCATGTACCGCGCCGACGGCGCACCGGCCGAGGTCGACGCCGAGCACCGCCTGCGCCTGGACGACTGGGAGCTGCGCGAAGACGTGCAGAGCGAATGCAAGGCGGTCTGGCCGCAGGTGACCACCGAGAACCTGTCCACGCTGACCGACTACGCCAGCTACAAGCACGAGTTCCTCAAGCTGTTCGGCTTCGAGCGCAACGACGTCGACTACGACGCCGAGGTCGATCCGGACGTGACGTTCGACGTCATCGAGCTCTGA	MIIHPKVRGFICTTTHPTGCDLNVRDQIAATRALGKRDDGPKKVLVIGASSGYGLAARISAAFGFGADTLGVFFEKPGSEKKAGTAGWYNAAAFDRYAKAEGLYSKSINGDAFSDEARAKVIELIKTEMGGQVDLVVYSLASPVRKLPSTGELKRSALKPIGAAYTSNAIDTNKDQVIEATVEPATEQEIEDTITVMGGQDWQLWIDALGDAGVLAQGAKTVAFSYIGTEITWPIYWHGALGKAKADLDATARRLDGQLQASVGGGANVAVLKSVVTQASAAIPVLPLYIAIVFKVMKAKGIHEGTIEQLDRLFRERMYRADGAPAEVDAEHRLRLDDWELREDVQSECKAVWPQVTTENLSTLTDYASYKHEFLKLFGFERNDVDYDAEVDPDVTFDVIEL	PGPT0001825_95	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001825-fabV|ter-K00209	NA	NA
BMS020_02694	417			hypothetical protein	ATGGCCCAGCGCATTCCCGAAGGCACCCTGGTCGTCGTCGCCGATGGCGGTTCGGCGCGCGTGTTCACCAACGTCGGCAGCGATCACCGGCTGGTCCTGAAACAGCATGAGGACCTGCGCGTACAGGGCGCGGTCGAGCCTGGCATGGCCGGGCAGGGCCCGGCCGGCGCGGTGCCGCAGGACATGCCACTGGCGCAGATGAACGAAGCGATCTTCGCCAAGCAGCTGGCCGCCCAGCTCAACGAAGATGCATTGAAGGCGCGCTATGCGCATCTGGTGCTGGTCGCCGCGCCGCAGACGCTGGGGCGGATCCGCCCGCTACTGCACAAGCAGGCCCAGCGGCGGCTGGTGCGCGACCTGGCCAAGGACCTCACCAATGCGCCGGTGGCGGGCATCGAGCGCGCATTGGCGGGTTGA	MAQRIPEGTLVVVADGGSARVFTNVGSDHRLVLKQHEDLRVQGAVEPGMAGQGPAGAVPQDMPLAQMNEAIFAKQLAAQLNEDALKARYAHLVLVAAPQTLGRIRPLLHKQAQRRLVRDLAKDLTNAPVAGIERALAG				NA	NA	NA	NA	NA
BMS020_02695	1488	proP_2		Proline/betaine transporter	ATGCAGGATCCGCACGTGACCCACGCCCACTTCGGCTGGTTCAAACGCCGCCGCCAGGTGCGTGCCGACGACATCACCGTGGTCGACAAGCCGATGCTGCGCCGCGCAGTCGGCGCCGCCGCGCTCGGCAACGCGATGGAATGGTTCGATTTCGGCGTCTACGGCTACATCGCGGTGACGCTGGGCCAGGTGTTCTTCCCGGCCAGCAACCCGACCGCGCAGCTGATCGCCACCTTCGCCACCTTCACCGTGGCATTCCTGGTGCGCCCGCTCGGCGGCCTGGTGTTCGGCCCGCTCGGCGACAAGTACGGGCGGCAGAAGGTGCTGGCGGCGACGATGATCCTGATGGCGCTGGGCACGTTCTCGATCGGCCTGATCCCGTCGTACGCGCGCATCGGGCTGTGGGCGCCGGCGCTGCTGCTGCTGGCGCGGCTGGTGCAGGGCTTCTCCACCGGCGGCGAGTACGGCGGCGCGGCGACCTTCATTGCCGAGTATTCCACCGACCGCAACCGCGGCCTGATGGGCAGCTGGCTGGAGTTCGGCACGCTGGCCGGCTATATCGCCGGCGCCGGCACCGTCACCGCGCTGCACATGGCGCTGAGCGAGGCGCAGATGCTCGACTGGGGCTGGCGCATCCCGTTCCTGGTGGCCGGTCCGCTCGGCCTGCTGGGCCTGTACATGCGCATGAAGCTGGAAGAGACCCCGGCGTTTCAGGCCTATGCCGCCGAAGCGGAGAAGCGCGAACACGCCAAGCCCGGGCTGGGCGACCTGTTCCGCGTGCACTGGCCGCAGCTGCTCAAGTGCGTCGGCCTGGTGCTGGTGTTCAACGTCACCGACTACATGCTGCTGACCTACATGCCCAGCTACCTGAGCGTCACCCTGGGCTATGCCGAGAGCAAGGGGCTGCTGCTGATCATCATCGTGATGTTGGTGATGATGCCGTTGAACGTGGTCGGCGGGCTGTTCAGCGACAAGCTCGGGCGCCGGCCGATGATCATCGGTGCCTGCGTCGCGCTGCTGCTGCTGGCGATCCCGTGCCTGAAGCTGGTCGCCACCGGCAACGACGCGCTGATCTTCCTCGGCCTGCTGCTGCTGGGCCTGGCGCTGGTGTGCTTCACCAGCTCGATGCCGTCGACGCTGCCGGCGCTGTTCTACACCCCGGTGCGCTACAGCGCGCTGTCGATCGCCTTCAACGTGTCGGTGTCGCTGTTCGGCGGGACCACGCCGCTGGTCACCGCCTGGCTGGTCGAGAAGAGCGGCGATCCGCTGGTGCCGGCCTATTACCTGATGGGCGCGGCGGTGATCGGCATCGTGACGATGCTGTTCGTGCGCGAGACCGCCGGGCTGCCGCTGCGCGGCTCGCCGCCGGCGGTGGGGAGCGATGAAGAGGCGCAGGCGCTGCTGAGCAGCGGCCAGCCGGTGACCGTGGACCCGGCGCTGCCGGTGGTCCCGGAGCCGCCGGCCCCGGATGGCGCCCGCCCGGCCTGA	MQDPHVTHAHFGWFKRRRQVRADDITVVDKPMLRRAVGAAALGNAMEWFDFGVYGYIAVTLGQVFFPASNPTAQLIATFATFTVAFLVRPLGGLVFGPLGDKYGRQKVLAATMILMALGTFSIGLIPSYARIGLWAPALLLLARLVQGFSTGGEYGGAATFIAEYSTDRNRGLMGSWLEFGTLAGYIAGAGTVTALHMALSEAQMLDWGWRIPFLVAGPLGLLGLYMRMKLEETPAFQAYAAEAEKREHAKPGLGDLFRVHWPQLLKCVGLVLVFNVTDYMLLTYMPSYLSVTLGYAESKGLLLIIIVMLVMMPLNVVGGLFSDKLGRRPMIIGACVALLLLAIPCLKLVATGNDALIFLGLLLLGLALVCFTSSMPSTLPALFYTPVRYSALSIAFNVSVSLFGGTTPLVTAWLVEKSGDPLVPAYYLMGAAVIGIVTMLFVRETAGLPLRGSPPAVGSDEEAQALLSSGQPVTVDPALPVVPEPPAPDGARPA	PGPT0013645_556	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013645-proP-K03762	NA	NA
BMS020_02696	609			hypothetical protein	ATGCGCAAGCGGCCCAGCCTCGCCGCCCTGCTGCTGTGCCTGCTGCTGCCTGGCTGCCGGCCGCCGGCCGAGGAGCGCGGCCAGCCTGCGGCCACGGCCCCGACCCAGCCCCCGGCATTGCCCGCGCGGGCGCTCGACCCGGAGGTGCCGCAGGCGGCCATCGCCACGCTGCGCGCCCTGTTCCCGCCGGTCAACGAAGACCTGCGGTATTTCGCCCGTGCGGTGGACCTGGACGGCGACGGCCGCGCGGAGGTGGTCGCCGAGGTCCTGGGCGACATGCTGTGCGGCGACGATGGCTGCTCGCTGTTCGTGCTGGCCGGCGACGAAGGCGGGCATTACCGCGTGCTCAGCCAGATCGCCCCGGCCGACGCCCCGGTGTACGCCGGCGCCGCGCAGGCCGATGGCTGGCGCGACCTGCTGGTCGGGGCTGGCGATGGCCGTGGCGGCCGCCTGCTGGTCCGGCTGCGCCACGACGGCCGCGGCTATCCGGACCCGGCCACGGCACGCACGCCGGTTTCCGCGGCGCCGGCCGACGCCGACCTGCTGATCGCCCCGTACCGCTCGCCGCAGGAGGCCGCGGCGCTGGGCGTCCAGCTGCTGCCGCGCTGA	MRKRPSLAALLLCLLLPGCRPPAEERGQPAATAPTQPPALPARALDPEVPQAAIATLRALFPPVNEDLRYFARAVDLDGDGRAEVVAEVLGDMLCGDDGCSLFVLAGDEGGHYRVLSQIAPADAPVYAGAAQADGWRDLLVGAGDGRGGRLLVRLRHDGRGYPDPATARTPVSAAPADADLLIAPYRSPQEAAALGVQLLPR				NA	NA	NA	NA	NA
BMS020_02697	474			hypothetical protein	ATGGACCACGTCATCCGTCATGAGGTCGAGATCGCCGCGGCGCCGGAAGTGGTCGCCAGCGCGCTGTCGTTGCCGCAGCACATCGCCGGCTGGTGGACGCGCGAGGTCAGCGCGGACGGTCGGCGGCTGCGCGCGGACTGGAGCGTGCACGGCTGGCAGGTGGAGCTGGAGATCGTCGAGGAGCCCGAGCACGGCCGCGTGCTGTGGCACTGCCTGCGCTCGAACCTGCTCGACAGCGCGGCCTGGGTGGGCACCGTGCTGAGCTTCGAGCTGGCCTCGACGGCGCACGGGACCCGGCTGCTGTTCCAGCACCGCGACTATCCCGATGCGCCGTGCCGGTCGCTGTGCGAGCGTGGCTGGGGCTTCTTCATCGGCAGCCTGAAGCGCTACGTCGAGACCGGCGAGGGCCTGCCCTACCCCGACATGCCCGACCCCGGCGATGCCGGGCTGGCCGAGGACGGCACGCCCCGGTGA	MDHVIRHEVEIAAAPEVVASALSLPQHIAGWWTREVSADGRRLRADWSVHGWQVELEIVEEPEHGRVLWHCLRSNLLDSAAWVGTVLSFELASTAHGTRLLFQHRDYPDAPCRSLCERGWGFFIGSLKRYVETGEGLPYPDMPDPGDAGLAEDGTPR				NA	NA	NA	NA	NA
BMS020_02698	2055	cpdB_1	COG0737	2',3'-cyclic-nucleotide 2'-phosphodiesterase/3'-nucleotidase	ATGCGCTTCTGCTACCGTCTGCGCTCTTCCCTGCTGCCCACGCCGTTCGCCATGCCCGTGCCTGCTCCGCGCCTGTCCCTGCTCGCCCTGTCCCTTGCCGCGCTCGCCGGCTGCGCCAGCCAGCCGTCCGCCTCGCATGCCCCGGCCGCGCCGGGCGACGGCAGCACCGCGCGGGTGGCGATCCTGGAGACCACCGATGTCCACAACAACGTGCTCAGCTACGACTACTACAAGCAGCGCGAGGACACGAGCGTGGGCTATGAGCGCGTGGCCACGCTGATCCGCCAGGCCCGCGCCGAGTTCCCCAACACGTTCCTGTTCGACAGCGGCGACACCATCCAGGGCACCGTACTGGCCGACTACCAGGCCAAGGTCAAGCCGATCGGCTGCGACGAGGAGCTGGGCATCTACAAGGCGATGGACGCGATGGGCTACGACGGCGGCACCGCCGGCAACCACGAGTTCAACTACGGCCTGGGCTTCCTGTCGCAGGCCACCGGCACGCCGATGAACGTCGACGGCGGCCGCAGCGAGCGCTGCGCCGGGCCGAAGTTCCCGCTGGTGCTGAGCAACGTGTTCAGCGCGCGCGACGCCAAGCCGATCTTCAAGCCGTGGGAGGTGGTGACGCGCGAGATCAGCGTGACCGCCGCCGATGGCAGCACCCGGCGCGTGCCGTTGCGGGTCGGCATCATCGGCTTCACTCCGCCGCCGATCCTGGAGTGGGACAAGCAGAACCTGGAAGGCAAGGTCACCGTCACCGGCGTGGTCGAGGCAGCCAAGCGCTACCTGCCGGAACTGCAGGCGCAGCATCCGGACATCATCGTCGGCATCCTGCACGGCGGACTCAACGCCGCACCGTACACCCCGGACATGGAGAACGGCGGCTGGCACCTGGCCGGGGTGGACGGCATCGACGTGCTGCTGCTCGGCCACTCGCATACCGAGTTCCCGGGGCCGCGCTACGCCGACATGCCCGAGGTCGACGCCACCCGCGGCCTGGTGCGCGGCAAGCCGGCGGTGATGGGCGGCTTCTTCGGCAAGGACCTGGGCGTGATCGACCTGGCGTTGGTGCGCCGCGACGGCCGCTGGGCCATCGACACCAGCGCCAGCCACAGCGAGGTGCGGCCGATCTGCAAGGCCAAGGACGACTGCGTGTCGGCCGATCCGGCGATCGCGCCGCTGGTGGCGCAGGCGCACGCCGCCGCGCAGGCCTACGTCAACACGCCGATCGGTCACACCGACGTGCAGCTGAGCAGCTACTTCACCGAGCAGGGCAACAGCACCGCGCTGGCCGCGGTGAACGCCGCGCAGCTGGACTACCTGCAGCGCGAACTGCCGCGGGTGCACCCGGAACTGGCCGGCCTGCCGCTGCTGGCGGCGGCGGCACCGTTCCGCACCGGCTTCGCCGGCCCGGACGACTACACCGACGTGCCGGTGGGCGCGCTGACCCTGCGCAGCGCCGCCGACCTGTACTTCTTCCCGAACACGTTGACCGCGGTGAAGGTCGACGGCGCCGGGCTCAAGGCCTGGCTGGAGACGTCGGCCAGCCGTTACGCGCAGATCGACCCGGCCAAGCCGGGCGAGCAGGCCTTCATCAACACCCGCTACGTGCCCTACAACGCCGACCAGATCCAGGGTGCCGGGTTCGCCTACACCATCGACGTCAGCAAGCCGCAGGGCCAGCGCATCACCGCGCTGACCTGGAAGGGCAAGCCGGTGCAGCCGCAGCAGGCGTTCGTGGTGGCGACCAACAACTACCGCGCCAACGGTGGCGGCCACTTCCCGGGCCTGGACGGCAGCAGCGTGGTGTTCGCCGCGCCGGACGGCGCGCGCGAGATCCTCGCCGCGTGGCTGCAGGCCAAGGGCACGCTGCGTGCGGACGACCTACTGCCGCGCGCCTGGCGCTTCGCGCCGCTCAAGGCCAAGGGCCCGCTGAGCTTCGCCTGCGCGCCGGGCAAGCTTGCCGTCGCCCGCGCCGCCGGGGTGAGCAACGTACGCGAGCTGCACGACAACGGCGACGGCACCGGCACCTGCGCGATCGACCTGGCGCACTGA	MRFCYRLRSSLLPTPFAMPVPAPRLSLLALSLAALAGCASQPSASHAPAAPGDGSTARVAILETTDVHNNVLSYDYYKQREDTSVGYERVATLIRQARAEFPNTFLFDSGDTIQGTVLADYQAKVKPIGCDEELGIYKAMDAMGYDGGTAGNHEFNYGLGFLSQATGTPMNVDGGRSERCAGPKFPLVLSNVFSARDAKPIFKPWEVVTREISVTAADGSTRRVPLRVGIIGFTPPPILEWDKQNLEGKVTVTGVVEAAKRYLPELQAQHPDIIVGILHGGLNAAPYTPDMENGGWHLAGVDGIDVLLLGHSHTEFPGPRYADMPEVDATRGLVRGKPAVMGGFFGKDLGVIDLALVRRDGRWAIDTSASHSEVRPICKAKDDCVSADPAIAPLVAQAHAAAQAYVNTPIGHTDVQLSSYFTEQGNSTALAAVNAAQLDYLQRELPRVHPELAGLPLLAAAAPFRTGFAGPDDYTDVPVGALTLRSAADLYFFPNTLTAVKVDGAGLKAWLETSASRYAQIDPAKPGEQAFINTRYVPYNADQIQGAGFAYTIDVSKPQGQRITALTWKGKPVQPQQAFVVATNNYRANGGGHFPGLDGSSVVFAAPDGAREILAAWLQAKGTLRADDLLPRAWRFAPLKAKGPLSFACAPGKLAVARAAGVSNVRELHDNGDGTGTCAIDLAH	PGPT0021400_431	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021400-cpdB-K01119	NA	NA
BMS020_02699	1263	stpA_2		Glucosylglycerol-phosphate phosphatase	ATGCGCATTTCCCGGCATGAGTCGTTTTCCACCGATCACCCGCGCCTGCTCGACACGCTGCAGCGCGCTCCGGCCCTGCTGCTGATCCAGGACCTGGACGGAGTCTGCATGGCGCTGGTGCGTGATCCACTCGATCGCCAGCTCGAACCCGCCTACCTGGACGCCGCGCGCGCGCTCGACGGCGCGTTCTACGTGCTGACCAACGGCGAGCACATCGGCCCGCGCGGCGTGAACGCGATCGTCGACCGGGCCAGCGGTGGCCGCGCCGCGCGCGACGGGCTGTACCTGCCCGGGCTGGCCGGCGGCGGCGTGCAATGGCAGGACCGCTTCGGCAACGTCGCCCACCCGGGCGTGGGTGCCGACGAACTGGCGTTCCTGGCCGCATGGCCGGCCCGTGCCCGCGCGTTCCTGCGCACGCTGCTGGGCGCGGCGCCGTACGCGCTGGCCGACGAGGCGATCGAAGCACTGCTGGCCGCGCTGGTGCTGGACAACCCGGCCTCGCCGACGATCAACGCCAACCGCCTGCATGCGGCGCTGCTGCCGCGCCCCGGGCTGTACCAGCAGGCGCAGCAGACCTTGGCCGGCTTCATGCGGCAGCAGCTGGACGCGGCAGCGGCGGCCGGGCTGGGCGAGGCCTTCTTCGTCCACTACGCGCCCAACCTCGGCCGCGACGCCTGCGGCGACGAACGCGCCAAGCCCGCCACCGGCGACGATGCCGGCACCACCGATTACCAGTTCATGCTGGCCGGCGCGGTGAAGGAGGTCGGCGTGCTGGTGCTGCTCAACCGGTACTACCACCGGCGCAGCGGCCACTACCCGCTGGGCGCGGAGTTCAACGCGCGCACCGCACCGCGCGATCCGCAGGCGCTGCGCGCGCTGGCGCGGGCCTGCTTCGATCCGGCGCTGATGCCGTGCATCGTCGGCGTCGGCGACACCGTCACCAGCGTGCGTGGCGACGACGGCCAGTGGCAGCGCGGCGGCAGCGACCGTGGCTTCCTGCAGCTGGTGCAGTGGCTGGGCGAGGATTTCGCCAGCGGCAACCGCGTGCTCTATGTCGACAGCAGTGGCGGCGAGGTCCGCCGCCCCGGCATCGACGCGGCCTGGCTGGCCGGATGCGCGCACGACCGGCAGCGCGCGCCATGGCCGGCGCTGGCCGGCATCACCGATGCCGACGATCCGCTACGGCTGGACGTGCTGTTCCCGCGGGGCCATCGCCAGTACGTGGCCTTCTTCACCGAGCTGGCGCGGCGCCGCGCGGGCTGA	MRISRHESFSTDHPRLLDTLQRAPALLLIQDLDGVCMALVRDPLDRQLEPAYLDAARALDGAFYVLTNGEHIGPRGVNAIVDRASGGRAARDGLYLPGLAGGGVQWQDRFGNVAHPGVGADELAFLAAWPARARAFLRTLLGAAPYALADEAIEALLAALVLDNPASPTINANRLHAALLPRPGLYQQAQQTLAGFMRQQLDAAAAAGLGEAFFVHYAPNLGRDACGDERAKPATGDDAGTTDYQFMLAGAVKEVGVLVLLNRYYHRRSGHYPLGAEFNARTAPRDPQALRALARACFDPALMPCIVGVGDTVTSVRGDDGQWQRGGSDRGFLQLVQWLGEDFASGNRVLYVDSSGGEVRRPGIDAAWLAGCAHDRQRAPWPALAGITDADDPLRLDVLFPRGHRQYVAFFTELARRRAG	PGPT0014294_3	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014294-stpA-K05978	NA	NA
BMS020_02700	807			hypothetical protein	ATGGACACCCGACTTCCGGTACCGGTGATGGACGACGCGGCGCACCGCGATCTGGCCGCGGCGCGCGCGTTGCTGGAGAATCCCGGCCTGGCCGCGCAGCTGGCCAACTACGTCGGCGCGCCGATCGAGCGGCTGCTCAACGAGCGCCTGCCCAAGGGCGTGAGCAGCCGCATCGACGCGCTGACCCGGCGTGCGCTGCAGGTGTCGCTGCGCGCCTCGCTGCTGACCCTGCGCCGCGAAGGCCGCGGTTCGCCGGGCACCGCCCGGCACCGGCTCGCGGTGGCGCTGACCGGCGGTGCCGGCGGTTTCTTCGGCCTGCCCGGGCTGGCGGTGGAGCTGCCGGTGACGACCACGCTGATGCTGCGCTCGATCGCCGCGATCGCCCGCGCCGAAGGCGAGCGCCTGGACGATCCGGACACCGCGCTGGCCTGTCTGGAGGTGCTCGCGCACGGCGGCCGCAGCAGCAGCGACGATGGCGCCGAGTCGGGCTACTTCACCGTGCGCGCGGCGCTGGCGCAGCAGATCAACGCCGCCGCGCGGCATATCGCCGCGCACGGCATCACCCACAAGGGCGGGCCGGCGCTGGTCACGCTGCTGTCGCGGGTGGCGGCGAAATTCTCGGTCAATGTCGGCGAGAAGCTGGCCGCCCAGGCGGTGCCGCTGGTCGGCGCGGCCAGCGGCGCTGCGCTCAACATGTTGTTCATCGGCCACTTCCAGGCGATGGCGCGCGGCCACTTCACGATCCGCCGGCTGGAACGCAGCTACGGCGAACTGGCGGTGCGCCAGGCCTACGACGCACTGGCCTGA	MDTRLPVPVMDDAAHRDLAAARALLENPGLAAQLANYVGAPIERLLNERLPKGVSSRIDALTRRALQVSLRASLLTLRREGRGSPGTARHRLAVALTGGAGGFFGLPGLAVELPVTTTLMLRSIAAIARAEGERLDDPDTALACLEVLAHGGRSSSDDGAESGYFTVRAALAQQINAAARHIAAHGITHKGGPALVTLLSRVAAKFSVNVGEKLAAQAVPLVGAASGAALNMLFIGHFQAMARGHFTIRRLERSYGELAVRQAYDALA				NA	NA	NA	NA	NA
BMS020_02701	252			hypothetical protein	ATGGGCAGCTGGTTCGAACTGCGCGACAGCGCAAGCGGGGAATACCACTTCGTCCTCAAGGCGGCGCATGGGGAGGTGCTGGCGCGCGGCGGGCCGTTCCGGTGTTGGACCGACGCGCTCGATGGCATCGAAGAGGTGCGGCGCATGCACCCGCAGGCCCACGACGCCGGCATCGTCTCGATGCGCGGCTATGGCGGCGGCCGCCCCGCGACCGGCCCGATGGCCGGTTCCACCGGGGTGGCTGCGTTATGA	MGSWFELRDSASGEYHFVLKAAHGEVLARGGPFRCWTDALDGIEEVRRMHPQAHDAGIVSMRGYGGGRPATGPMAGSTGVAAL				NA	NA	NA	NA	NA
BMS020_02702	342			hypothetical protein	ATGAACAAGGTCGTTTGGAGTTTTTTTCTTGGCACAGTTGGTTTCATCTCATCGCAGCAGACGGCACATGCGCAGACCGCGGCAGTTATTCTCGAATGCAATACCAGCGACATCTGCATGGTCGACGTCAACAGCGCGGGATCGCCGCCCCCTTACAGTTATACGTGGTCGTTCAGCAATACGTCCGGGGTGATTTTCCCGGCACCATGCAATGAGATTTGTGAGTTCTACTGCCCGAGCACGATCAAGAACATAACCGCCACAGTGACCGTGACCGACGCAAACAAGCAGTTGATCGGCAGCGCCAGTGCGGCGACGCGCTGCACCCCTGATCCGCTCTGA	MNKVVWSFFLGTVGFISSQQTAHAQTAAVILECNTSDICMVDVNSAGSPPPYSYTWSFSNTSGVIFPAPCNEICEFYCPSTIKNITATVTVTDANKQLIGSASAATRCTPDPL				NA	NA	NA	NA	NA
BMS020_02703	342			hypothetical protein	ATGAACAAGGTCGTTTTTGGTTTGTTTCTCGGCGCAGTTGGTTTCGCGTCTTCACTGCCGACCGCCAGCGCGCAGACCTCGGCAGTTACCCTCGATTGCAACGGCAGCGACATCTGCATGGCTGATGTCAACAGCCCCGGGTCGCCTACGCCATACAACTACGGCTGGTCATTCGATAACACATCCGGCGTGATCTTCCCGGCGCTTTGCGGCCAGGTTTGCGAGTTCTACTGTCCGAGCACCTCGAAGACACTGACAGCTACCGTAACCGTGACCGATGCAAACAACCAGTTGATCGGTAGCGCATCGGCGCGCGCGCGGTGTACTCCGCAGCCGGCTTGA	MNKVVFGLFLGAVGFASSLPTASAQTSAVTLDCNGSDICMADVNSPGSPTPYNYGWSFDNTSGVIFPALCGQVCEFYCPSTSKTLTATVTVTDANNQLIGSASARARCTPQPA				NA	NA	NA	NA	NA
BMS020_02704	747			hypothetical protein	ATGCGCACCATGTCTACGCGAGAATGGTCGTCGCGGGTGCTAGAGCCCCAACTTGTGCTGCACACTCTAGGGCCGTCGAGCAGCAATGAAGCGATGTCGAGTAAACCCTTCGCCCCGGCCTGCGAGCGCAACCGTGGTCCGATCCTGGACGTGCTGGCCGGCGTCTTCGCCGCGCGCCGGCAGGTGTTGGAGATCGGTTCGGGCACCGGCCAGCATGCGGTGCACTTCGCGGCGGCGATGCCGTGGCTGCGCTGGCAGTGCAGCGACCACGCCGACGCCTTGCCCGGCATCCGCCAGTGGCTGGACGAGGCCGGGCTGGCGAACACGCCGGCGCCGCTGGAACTGCAGGCGGTGGTCGATCCGCTGCCCGCGCTCAGCCCGCTGCCGCCGCTGCCGCGCGACGCCGCCGGCAACGCGGTCGGCTTCGACGCGGTGTTCTCGGCCAACACGCTGCACATCATGGGCTGGCCGCAGGTACAGGCGTTCTTCGCCGGACTGCCGGCGTTGATGGCCGACGATGCGCTGCTGGTGGTGTATGGGCCGTTCAACCGCGATGGCCAGTTCACCAGCGCCAGCAACCGCGCGTTCGACGGATGGCTGAAGGCGCGCGATCCGGCCTCGGGCATCCGCGATGCCGCGGCGGTCGATGCGCTCGCCGCGGCGGTGGGCCTGCAGCTGTGCGACGACGTGGCGATGCCGGCCAACAACCGCTGCCGGATCTGGCGGCGCGGCGCGTCGCTGCGGTAA	MRTMSTREWSSRVLEPQLVLHTLGPSSSNEAMSSKPFAPACERNRGPILDVLAGVFAARRQVLEIGSGTGQHAVHFAAAMPWLRWQCSDHADALPGIRQWLDEAGLANTPAPLELQAVVDPLPALSPLPPLPRDAAGNAVGFDAVFSANTLHIMGWPQVQAFFAGLPALMADDALLVVYGPFNRDGQFTSASNRAFDGWLKARDPASGIRDAAAVDALAAAVGLQLCDDVAMPANNRCRIWRRGASLR				NA	NA	NA	NA	NA
BMS020_02705	912	yjiE_2		HTH-type transcriptional regulator YjiE	ATGGAACTCAACTGGCTGGAAGACGCACAGGTCCTCGCGCAGACCTTGAACTTCTCCCGCGCCGCCGCGCTGCGGCATGTCACCCAACCGGCCTTCAGCCGGCGCATCCAGGCGCTGGAGGATTGGCTGGGCACGGCGCTGTTCCTGCGTTCGCGCCGCGACGTGCGGCTGACGCCCGCTGGCGAGGCCTTCCTGCGCCGCATCGCGCCGCTGGCGCCGACCCTGCACGCCGCGCGCGAGGAAGCGCAGCAGATCGCCGGGCTCCGGCGCCCGAGTGTGCTGTTCCTGGCCACGCACGTGCTGTCGTTCACCTGCTTCCCGGCGCTGATGCGCCGCGTCGACGCCGGCGGCGGCATGGGCGCGTTCCAGCTGGTCTCAGACACCCTGCGTGCCTGCGAGACGCTGATGGCGCGCGGTGCGGCGCAGTTCCTGCTGTGCCATCACCACCCGCGCATGCAGCTCGGCCTGGAACCCGAGCGCTTCCGCCGCCTGGTGGTCGGCCACGACGTGCTGCAGCCATGCAGCGCCACCGCGGCCGACGGTTCCACGCCACGCTGGCCACTGGCGTCGCCAGGGGTGCTGCCGCTGCTCGGCTACAGCCCCGATTCCGGCCTGGGCCGCATCCTGGCCGGGCATCCGCCGTTCGCCGCGCTCGGCGAACGCCTGCAGGCCGGCTTCACCTCCGACCTGGCGGCGACGCTGCTGGCGATGTGCCGCGCCGGCGACGGCATCGCCTGGCTGCCGCGCTCGTTGGTCGAAGACGACCTGCGCCGCGGCACGCTGGTGGACGTCGCCGCCGACGGCGACAGCCTGCGCATTCCCGTCGAGATCTGCCTGCTGCGCCCCACCGCCGTGCTACACGCCGACGCTGAGCACCTGTGGGCACGGTTCGAGGCGCTGCGCCAGCCATAG	MELNWLEDAQVLAQTLNFSRAAALRHVTQPAFSRRIQALEDWLGTALFLRSRRDVRLTPAGEAFLRRIAPLAPTLHAAREEAQQIAGLRRPSVLFLATHVLSFTCFPALMRRVDAGGGMGAFQLVSDTLRACETLMARGAAQFLLCHHHPRMQLGLEPERFRRLVVGHDVLQPCSATAADGSTPRWPLASPGVLPLLGYSPDSGLGRILAGHPPFAALGERLQAGFTSDLAATLLAMCRAGDGIAWLPRSLVEDDLRRGTLVDVAADGDSLRIPVEICLLRPTAVLHADAEHLWARFEALRQP				NA	NA	NA	NA	NA
BMS020_02706	1323	tarD	COG4948	D(-)-tartrate dehydratase	ATGCAGATTGTGCATCACCAAGGCGGAAGTGGCATTGGACGCATCGCGCAATGCAGCCTAGTTTTCCGCTCCAGCGCGATCCGCCGCAGCCCGGAATGCTTCACTCCCGGCATCACCGCGGGCATCGCCAGGCCCATCTTCCCGCTGCTCGGAACCCGCATGCGCGTCCTCGACGTCCTCGAAATCACCAAGCCGATCGCCTCGCCGATCCGCAACGCCTACATCGACTTTTCCAAGATGACCGCCAGCCTGGTCGCGGTGGTCACCGACCAGGTCCGCGACGGTCGTCGCGTAGTTGGCTACGGCTTCAACTCCAATGGCCGCTACGGCCAGGGCGGACTGATCCGCGAGCGCTTCCGCGACCGCATCCTCGAGGCCGCGCCGCACTCGCTGCGCAACGCTGCCGGCGACAACCTCGACCCAGGCCGGATCTGGGCGGCGATGATGGTCAACGAGAAGCCCGGCGGCCACGGCGAGCGTTCGGTTGCGGTCGGCACGCTGGACATGGCGGTCTGGGATGCGACCGCGAAGATCGGCGGCATGCCGCTGTTCCGTCATCTGGCGCAGATGAAGGGCCGCGAAGCCAATCCGCGCGTGTTCGTCTACGCCGCCGGTGGCTACTACTACCCGGGCAAGGACAACAGCGCACTGCGCCGGGAAATGCGTGGCTATCTCGACCGCGGCTACACCGTGGTCAAGATGAAGATCGGCGGCGCGTCGATCGACGAAGACCGCGCCCGCATCGAAGCGGTGCTGGAAGAAATCGGCAGCGAAGCGCAGCTGGCGGTCGACGCCAACGGTCGCTTCGATCTGGACACCGGCATCGCCTACGCCAGGATGCTGCGTGACTATCCGCTGTTCTGGTACGAGGAAGTCGGCGACCCGCTCGACTATGCGCTGCAGGCCAGCCTGAGCGAGTTCTATCCCGGCCCGATGGCCACCGGCGAGAACCTGTTCTCGCACCAGGACGCGCGCAACCTGCTGCGTTATGGCGGCATGCGCCCGGACCGCGACTACCTGCAGTTCGACTGCGCGCTGTCCTACGGTCTGGTCGAATACCTGCGCACGCTCGACGTGCTGGCGCAGTTCGGCTGGTCGCCGTCGCGCTGCATTCCGCACGGCGGCCACCAGATGTCGCTGAACATCGCGGCGGGCCTGGGCCTGGGTGGCAACGAGAGCTACCCGGACCTGTTCCAGCCCTACGGCGGCTTCCCGGATGGCGTGAAGGTGCAGGATGGCCACATCGTGATGCCGGAGTTGCCGGGGATCGGGTTCGAGGGCAAATCCGAGCTGATCAAGGTGATGCGCGAGCTGGCTGAGTGA	MQIVHHQGGSGIGRIAQCSLVFRSSAIRRSPECFTPGITAGIARPIFPLLGTRMRVLDVLEITKPIASPIRNAYIDFSKMTASLVAVVTDQVRDGRRVVGYGFNSNGRYGQGGLIRERFRDRILEAAPHSLRNAAGDNLDPGRIWAAMMVNEKPGGHGERSVAVGTLDMAVWDATAKIGGMPLFRHLAQMKGREANPRVFVYAAGGYYYPGKDNSALRREMRGYLDRGYTVVKMKIGGASIDEDRARIEAVLEEIGSEAQLAVDANGRFDLDTGIAYARMLRDYPLFWYEEVGDPLDYALQASLSEFYPGPMATGENLFSHQDARNLLRYGGMRPDRDYLQFDCALSYGLVEYLRTLDVLAQFGWSPSRCIPHGGHQMSLNIAAGLGLGGNESYPDLFQPYGGFPDGVKVQDGHIVMPELPGIGFEGKSELIKVMRELAE				NA	NA	NA	NA	NA
BMS020_02707	1743			hypothetical protein	ATGACCACGGCGCTGCTGCTGGCCGGCCTGCTCGCCCTCGGTGCCATGCTGGCGCTGTGGCGGCTGCGCCATGCCCCCGCGCGTGGCAGCCGCAAGGCCGCGCTGCTGCTGCTCCAGCCCCTGTGCGCCGGACTGCTGTACCTCGCGCTGATGCCACCCTCGCGCCCGGGCGATGCCGGCACGCTGGTGGTCGCCACCGCCGGCAGCGATGCGGCTGCGCTCGCCGCCGCGGCAGGCGATGCCGTCGTCGCGCTGCCCGAGGCACCGCCGCTGCCCGGCATCGCGCGCGTGCCCGATCTGGGGACCGCGTTGCGCCGCCATCCCGGCAGCCGCGCGCTGCGCATCGTCGGCGATGGACTACCGGCGCGCGATCGCGACACGGCCGCCGGCCTGCCGCTGGCGTTCGCCGCACCCGCCGAGCACGCCGGCCTGGCGGAGCTGTCGCCACCACCGCTGCTGGTCCCCGGGGCCGCGTTCCAGGTCGCCGGGCGCGTCAGTGGCATCGCCGATGCGCGGGTGGAACTGCGCGATCCGTCAGGCGCGCGTGTCGACCTGCAACCCGTCGGCCGCGATGGCCGCTTCGCGCTGCACGGCGCCAGCCGCGCCGCTGGCGAGACACTGTTCGAACTGCGCGTTGCCGATGGCGCCGGCCGCGAACGTGACCATGTCGACGTACCGGTGGTCAGCATGGCGGCGCCGGCGCAGCGCGTGCTGCTGCTCGGCGGCGCGCCGCAGCCGGAATGGAAGTACCTGCGGCGCTGGGCCGAGGACGCCGGCCTGCAGGTGCAGGCGCGCATCGCCGTCGGCGGCGGCGTGCAGCTCGGCGATGCCGATGTGCGACTGGATGCCGCCAGCCTCGACCAGCTCGACCTGCTGATCGTCGACGAACGTGCACTGACCGCACTGTCGCGTACGCAGCGCGATGCGCTGGCCGCGGCGGTCGAACGCGGACTCGGCATGCTGGTGCGCCTCGGCGGGCCGCTGGATGGTGGCCAGCGCGCGACGCTGGCCGCGCTGGGCCTGGCCATGCGCGGCGACGATGGCAGCGCGCCGCTACGGCTCACCGCGGCCCTAGATCCCGCACCAGCCGACAACGCCGCGGCCGGCAGCCAAGCGCCGCCATGGCCCGCCTTGCAGCAACGCGCGCTGCACCCGCAGGACGTCGCCCTGCCCGTGCTCGCCCGCGACGCCGCCGGCGATGCCTACGCGTGGTGGCGCGCCCAGGGCCGTGGCCGCATCGGCCTGACCACTCTGGTCGACAGCTATCGCCTGGTGCTGGAAGGCCACGGTGGCGACCACGCCGCCCTGTGGAGCGCCCTGGCATCCCCCTTGGTCCGGGCCCAACCTCGCACCGTCACCGTTGCCGCGCCGGCATGGCGCGGCGAGCGCACCACGCTGTGCGCACCGGGCAAGCGCATCGATCTGCGGGCGCCGGATGGCGGCAGCGTCGCGCTGCTGCGCGATGACGCCGGCTGCGCGGCCCTGTGGCCGCGCCACGCCGGCTGGTATCGCTGGCATGCCGACGACGGCCGCAGCGGCATGCTGTTCGTGCGCGATCCGCAGCAGGCGCTGCACGCCAACGCCATGCGCGCCGCGACGCTGGCGCTGGTGCGCGGAGCGACACCGACCGCCGCCGCATCGCATCCACAGCCCGGCCCGCGCTGGCCGTGGTGGCTGGCGTTCGTGCTCGCCGCGGGCTGCAGCTGGTGGCTGGAGCGACGCCGCCCGACGGAACCGCGCTGA	MTTALLLAGLLALGAMLALWRLRHAPARGSRKAALLLLQPLCAGLLYLALMPPSRPGDAGTLVVATAGSDAAALAAAAGDAVVALPEAPPLPGIARVPDLGTALRRHPGSRALRIVGDGLPARDRDTAAGLPLAFAAPAEHAGLAELSPPPLLVPGAAFQVAGRVSGIADARVELRDPSGARVDLQPVGRDGRFALHGASRAAGETLFELRVADGAGRERDHVDVPVVSMAAPAQRVLLLGGAPQPEWKYLRRWAEDAGLQVQARIAVGGGVQLGDADVRLDAASLDQLDLLIVDERALTALSRTQRDALAAAVERGLGMLVRLGGPLDGGQRATLAALGLAMRGDDGSAPLRLTAALDPAPADNAAAGSQAPPWPALQQRALHPQDVALPVLARDAAGDAYAWWRAQGRGRIGLTTLVDSYRLVLEGHGGDHAALWSALASPLVRAQPRTVTVAAPAWRGERTTLCAPGKRIDLRAPDGGSVALLRDDAGCAALWPRHAGWYRWHADDGRSGMLFVRDPQQALHANAMRAATLALVRGATPTAAASHPQPGPRWPWWLAFVLAAGCSWWLERRRPTEPR				NA	NA	NA	NA	NA
BMS020_02708	2229			hypothetical protein	ATGAGCGCCGCGCTTGTCCGCCTGCTGCGCGGCGCACGCCGGCGGCGGCAGGCCATCGTCTGGAGCGCCGGCCTGCCGCTGGCGCTGCTGGCCACCGCGCTGGGCTGGCGCCTCGGCGGGCCGCAGCCCGCCTTCGTGGTGGCCACGCTGACCCTGTTGGGCGTCGCCGCGACCGCGGTGTGGCAGGCCCGCCGCATCGACCGGCGTGCACTGATCCGGCGCCTGGATCGGCACCACGCGCTGGAAGACAGCGCCGACCTGCTGTTCGCCGCGCCGGCCACGCTCGGGCCGCTGCAGCAGCTGCAGCGCGGGCGGCTGGAGCAGCGACTGGCTGCGCACGCCTACGACGTCCGCGAGCCGTGGCCGTGGCAACGACTGCTGGCGATCGTGCTGCCTGCACTGGCGCTCACCGCCGCCGTGCTGCTGTGGCCGTCCCCTTCAACCACCCGGCCTGTCGCATCGCCGCCGGCCACCGCTGGCTCGGCGGGTGCACGCCCGACGCTGCGCGGCGCGGTCCTGCACGCCACGCCGCCGGCCTACACCGGCCTGGCCGCCGCCGACCTGCCCGCGCTCGATGCGAAGCTGCCGCAGGGCAGCACGCTGGCGTGGACCCTGCGCTTCACCACGCCACCGGCCAGCGTGACGCTGCGCCTGCACGACGGCGGCGCGATCGCCTTGCAGCGCGACGGCGATGGGTGGCGCGCGCGCACCACGCTGCAGCGCTCGCTGCTGTACCGCATCGTCGTCGATGGCGCGCCGCTGGACGCCGCGCTGCACCGGCTCGAAGCGGTGCCCGACCGACCACCGCAGGTGCGCGTGCTGGAGCCCGACAGCAGCCTGGTGCAATGGACGCCATCGGCGCAGGGCTGGACGCTGCGCTTCGAGGCCAGCGACGACCATGGCGTGGCCGTGAACGCCCAGCTGCGGCTCACCCTGGCCGAGGGCAGCGGCGAAAACATCAGTTTCCGCGAACAGACGCTGGTGCTGGCCGGCAGCGGCCCGGCCACCGCGCGCCGCTTCGCGCGCACGCTGCAACCGCAGGCGCTGGGGCTGCAGCCTGGCAGTGACTTGGTCGCGCAACTGGTGGTCCACGACAACCGCCAGCCACAGCCGCAGGAAGCGCGCAGCGCCAGCGTGATCCTGCGCTGGCCGCCGCCGGAGCAGACCCGCGCCGCCGATCTGGAAGGCAGCATCAAGCAGGCGATGCCGGCCTACTTCCGCAGCCAGCGCCAGATCATCATCGACGCCGAGGCGTTGCTGAAGCAGAAGCGGGCGCTGGCTGGCGAAGAGTACCTGCGCCGTTCCGACGCGATCGGCGTCGACCAGCGCCTGCTGCGGCTGCGCTACGGCCAGTTCCTCGGCGAGGAAGCCGAAGGCGCGCCCGAACCGCCGCCGGTGGCCGATGACATCCCGACCGCCGATGCGCTGCCGCTCGCCGATGACCTGCCCACCGCGGACATGCCCACCGCCGATGCACCCGCGCCTGCGCGCGGCGCCCACCATGACGACGACAGCCACGACCACGCTGCCCATGCGGGCGCGCACGACGCGCACGACCACGGCGGCGAGCCCGACACGCGCGGCGGCTTCGGCGACGCAGGCAATGTGCTGGCCGAGTTCGGCCATACCCACGACCACGCCGAGGCCGCCACCCTGCTCGATCCGCAGACCCGCGCCACGTTGAAGGCCGCGCTCGACCAGATGTGGCAATCCGAAGGCGAGCTGCGCCAGGGCCATCCCGAGCGCGCGCTGCCGTTCGCCTACAAAGCGCTGGGCTTCATCAAGCAGGTGCAGCAGGCCGAGCGCATCTACCTGGCGCGGATCGGCCCGGAGCTGCCGCCGATCGATCCGGCCCGTCGCATGGGCGGCAAGCGCGACGGCCTGGGCGATCGCACGCTGGCGCCGGCGCCGCGCACGCCGCCCGATCCGCGCGCACTGGCATTGTGGCAGGCGCTGGGCGATGCCCCGGGCGACGCGGACGCCGCCACGCTCGCGGCATTCTCCACCTGGCTGTCCACGCGCGATGCCAACGCTACCGGCACGCTCGACCTCATCGCCGCCGTGGAGACGCTGCGCGCCACACCCGAGTGCGCCAGCTGCCGTCAGCGCCTGCGGGCCCGGCTGTGGCCGCTGCTGGTCCGCCCGCCCGCATCGGCACAGCCACGTGCGGCGCCTACGCCCGCCGGCGAACGCTATCTCGATGCGCTGCAGCGCACGGAGGCCCGATGA	MSAALVRLLRGARRRRQAIVWSAGLPLALLATALGWRLGGPQPAFVVATLTLLGVAATAVWQARRIDRRALIRRLDRHHALEDSADLLFAAPATLGPLQQLQRGRLEQRLAAHAYDVREPWPWQRLLAIVLPALALTAAVLLWPSPSTTRPVASPPATAGSAGARPTLRGAVLHATPPAYTGLAAADLPALDAKLPQGSTLAWTLRFTTPPASVTLRLHDGGAIALQRDGDGWRARTTLQRSLLYRIVVDGAPLDAALHRLEAVPDRPPQVRVLEPDSSLVQWTPSAQGWTLRFEASDDHGVAVNAQLRLTLAEGSGENISFREQTLVLAGSGPATARRFARTLQPQALGLQPGSDLVAQLVVHDNRQPQPQEARSASVILRWPPPEQTRAADLEGSIKQAMPAYFRSQRQIIIDAEALLKQKRALAGEEYLRRSDAIGVDQRLLRLRYGQFLGEEAEGAPEPPPVADDIPTADALPLADDLPTADMPTADAPAPARGAHHDDDSHDHAAHAGAHDAHDHGGEPDTRGGFGDAGNVLAEFGHTHDHAEAATLLDPQTRATLKAALDQMWQSEGELRQGHPERALPFAYKALGFIKQVQQAERIYLARIGPELPPIDPARRMGGKRDGLGDRTLAPAPRTPPDPRALALWQALGDAPGDADAATLAAFSTWLSTRDANATGTLDLIAAVETLRATPECASCRQRLRARLWPLLVRPPASAQPRAAPTPAGERYLDALQRTEAR				NA	NA	NA	NA	NA
BMS020_02709	1161			hypothetical protein	ATGCCGTTGAGCCTGCTGCTCCCCGCCGGCCTGGCCGCGCTTGGCGCCGTGCTGCTGCCGCTGCTGATCCATCTGGCACGGCGCAGCGAACATCGCCCGACCGATTTCGCTGCGCTTCGCTGGCTGCGGGCGCAGCCGCGTCCACGCCATCGCATCCGCTTCGACGAGATCCCGCTGCTGGTTCTGCGCGTACTGTTGCTGGCGCTGCTCGCCATCCTGCTTGCGCGGCCCGTCATCGAGGGGTGGACGGATGCGGGCGCGCATGTGCTGGTCGCTCCCGGCGTCACGCCAGAGCAGGCGCGTACCCGCGACGTGCCGGCCGACGCGCACTGGCATTGGCTTGCACCAGGCTTTCCATCGCTCGACGACGCGATGCCCACCACGTCTGACGCGCAGGCCAGCCTGCTGCGTGAGTTCGACGCGACGCTACCTGCAGCTGCGCAGCTGGTCGTGATCGTGCCGGAGCGCTGGGGCGTGCTCGACGCGCAGTCGCTGCAGCTGTCGCGCGAGGTGCGCTGGGAGATCGTCGAAAGCACTGAATCGCCAGTCGCCGCAGCGACGCCCGCGCGATCGCCACACCTGCTCGCCTATGCCGATGACACACACGCTGACGGCCTGCGCTACCTGCGCGCCGTGCAGGCCGCGTGGCAGCCGCAGCACGCGACGCTGGAGGTGAGAGCCACCGCGGCTGCCGAACCACCGCCGCGGGACGTCACCACCATCGCCTGGCTGGTCAGCACGCCGCTGCCGGAACCGCTGCTCGACTGGCTGCGTGATGGCGGCACCCTGCTGCTGGCGCATGACGCACCGATGCCGGACGGCATCACCCTGCTGCTACGCTGGCGCGACGACGAGGGCATCGCACTGATCGAGGGCGCCAACGTCGGCCGCGGCCAGCTGCTGCGCTTCACACGCGCGCTCGACGCGCAGGCGATGCCGCAGCTGCTCGACGCCGCCTTCCCCGACACTTTGCGTGCAGCGTTGCAGCCCGTCGCGGCACCGGCGCTGGCGTCGGCCGCCGCGCTTGCGCCGACCACCGGCGCGCCGCCGCCGTCGCCGCCAGCCACGCCGTTGACTGCGTGGCTGGTCGTGGCGCTCGCGCTGCTGTTCCTGCTCGAGCGCTGGCTCGCTGGCGCGCCGCGGCGCTGGAGGCCGAGATGA	MPLSLLLPAGLAALGAVLLPLLIHLARRSEHRPTDFAALRWLRAQPRPRHRIRFDEIPLLVLRVLLLALLAILLARPVIEGWTDAGAHVLVAPGVTPEQARTRDVPADAHWHWLAPGFPSLDDAMPTTSDAQASLLREFDATLPAAAQLVVIVPERWGVLDAQSLQLSREVRWEIVESTESPVAAATPARSPHLLAYADDTHADGLRYLRAVQAAWQPQHATLEVRATAAAEPPPRDVTTIAWLVSTPLPEPLLDWLRDGGTLLLAHDAPMPDGITLLLRWRDDEGIALIEGANVGRGQLLRFTRALDAQAMPQLLDAAFPDTLRAALQPVAAPALASAAALAPTTGAPPPSPPATPLTAWLVVALALLFLLERWLAGAPRRWRPR				NA	NA	NA	NA	NA
BMS020_02710	885			hypothetical protein	ATGCCCGGGCTGATTCCTGCCGATGTGCGCGCGCGCCTGCGCACGCTGCAGCTGCGCGCGCGGCGCAGCGCCGGCGGCCACGGCATCGGCCAGCATGCCAGCCGCAGTCGTGGCGCCGGGCTGGAGTTCGCCCAGTACCGCGCGTACGAGCCGGGCGACGAGCTGCGCCAGGTCGACTGGAAACTGTATGCACGCTCGGACCGCTTCTTCGTGCGCGAATCCGAACGCGAGAGCCCGCTCACGGCCTGGCTGCTGCTCGACGCCACCGCCTCGGCGGCGCAGGCCGACCAGGCCCGCGCCGGCTTCAGCCGGTTCGACCTGATGAAGACGCTCGCCGCCTGCGCCGCCGAACTGGCGCTGCGCCAGGGCGACCGGTTCGGCCTGATCGCCGTCCACGGCGACGGCCTGACGCTGGTGCCGGCCGGCAACGGCCCGCGCCAGCGCGACCGCGTGTGGCTGGCGCTGCACGCGCTGCGCTGCGGAGGCGCATGGCCGCCGGCCGAACGCCTGCGACCGCTGTGGGAACGCATCGCCGCCAACGACCTGGTGCTCGCGCTCGGCGACGGCTTCGACGAGGACGCGCTCGTGCTGCTCGAGCGCCTCGCCGGGGCGAGGCGCGAGGTGCTACAGCTGCAGGTGCTGACCTGCGACGAGCGTGATTTCCCGTTCGCCGGCGGACACCGCTTCCGCGATCCGGAAAGCGGCGAGGAGCTGCTCGGCGATGGTGCGGCGATGCGCAGCGACTATCTGCGGCGCTTCGCCGACGCCCAGCGGATGCGCGCGGCACGGTTGCACGGCGCCGGCATCGTGCACGCGACGATGTGGCTGGACGAGCCGGCCGATGTCGGCCTGCGCCGGTTGCTGCTCGACAGGAGCGTGCGGTGA	MPGLIPADVRARLRTLQLRARRSAGGHGIGQHASRSRGAGLEFAQYRAYEPGDELRQVDWKLYARSDRFFVRESERESPLTAWLLLDATASAAQADQARAGFSRFDLMKTLAACAAELALRQGDRFGLIAVHGDGLTLVPAGNGPRQRDRVWLALHALRCGGAWPPAERLRPLWERIAANDLVLALGDGFDEDALVLLERLAGARREVLQLQVLTCDERDFPFAGGHRFRDPESGEELLGDGAAMRSDYLRRFADAQRMRAARLHGAGIVHATMWLDEPADVGLRRLLLDRSVR				NA	NA	NA	NA	NA
BMS020_02711	996			hypothetical protein	ATGACCGCCACGCCCGACACCACCACCCTCGATCCCCTGCTCGCACGCCTCGGCGAACTGCGCGGCGCCCTCGGCCAGGCCGTGGTCGGCCAGACCGAGGTGGTCGAACAGCTGCTGATCGGCCTGCTCGCCGGCGGCCACTGCCTGCTCGAAGGCGCGCCCGGCCTGGGCAAGACCCTGCTGGTGCGCTCGCTCGGCCAGGCGCTGGAGCTGCAGTTCCGGCGCGTGCAGTTCACCCCCGACCTGATGCCCAGCGACATCCTCGGCACCGAGCTGCTGGAGGAAGACCACGGCACCGGCCATCGCCACTTCCGTTTCCAGCCCGGGCCGATCTTCACCAACCTGCTGCTCGCCGACGAACTCAACCGCACCCCGCCCAAGACCCAGGCCGCGCTGCTGGAAGCGATGCAGGAGCGCACCGTCAGCTACGCCGGCACCACCTATTCGTTGCCGGCACCGTTCTTCGTGCTGGCCACGCAGAACCCGGTCGAACAGGCCGGCACCTATCCACTGCCGGAAGCGCAGCTGGACCGCTTCCTGCTGCATGTGCGCGTGGATTACCCGAGCGAGGCCGAGGAGCGCGACATCCTCGCCCAGACCACCGGCAGCCACAGCGCCAAGGTGCCGAAGGTGATGGACGCGGCCGCAGTGCAGGCGCTGCAGCAGCATGTGCGCGAGGTCCATGTCGGCGAGGATCTGCTCGGCTGGATCAACCGCCTGGTGCGCGCCAGCCGGCCCGGACCGGATGCGCCGGAAGAAGTGCGGCAGTGGATCAAGTGGGGCGCCGGCCCGCGCGCCGGGCAGTCGCTGGTGCTGGCGTCGAAGGCGCGTGCGCTGCTGCACGGGCGCTATGCCGCCACCCGCGAGGACGTGACCGCGCTGGCCGCGCCGGTGATGCGCCATCGCCTGCTGCTGTCGTTCGCCGCCGAGGCCGAGCAGAAGAGCGGCGACGACGTGGTCGCCGCGCTGCTGCGCAGCGTGCCGTTCGCGGCCTGA	MTATPDTTTLDPLLARLGELRGALGQAVVGQTEVVEQLLIGLLAGGHCLLEGAPGLGKTLLVRSLGQALELQFRRVQFTPDLMPSDILGTELLEEDHGTGHRHFRFQPGPIFTNLLLADELNRTPPKTQAALLEAMQERTVSYAGTTYSLPAPFFVLATQNPVEQAGTYPLPEAQLDRFLLHVRVDYPSEAEERDILAQTTGSHSAKVPKVMDAAAVQALQQHVREVHVGEDLLGWINRLVRASRPGPDAPEEVRQWIKWGAGPRAGQSLVLASKARALLHGRYAATREDVTALAAPVMRHRLLLSFAAEAEQKSGDDVVAALLRSVPFAA				NA	NA	NA	NA	NA
BMS020_02712	708			hypothetical protein	GTGACCATGACACGTGGCCGCTTCCTCAAGCTGCTGCTCGGCAGCACAGCGGCGCTGGCACTGCCCGGGGCGGCCGCGGCACAAGCGGCACGCTACGATTTCTGGTTCACCCGATTGCGCTACGACTCCGGCGACTGGGACGTGGACGCGCGCATGCCGTCCAATCTGATCACCTCGCTGATCGACTACACCACGCTGCGCGTGGACCCGGTCGAGCACGTGGTCGCGCTGGCCGATCCGCGCATGCTGTCGGCACCGTTCTGCTACCTGGCCGGGCACAAGCTGGTCGAGTTCAATCCGGAGGAGCGGCGCAACTTCGAGCGCTACGTGCGCAACGGCGGCTTCGTGTTCGTCGACGACTGCAACCACGATATCGACGGGCTGTTCGCGACCTCGTTCGAGGCACAAATGACGTCGATCTTCGGCAAGGCCGCGCTGAAGAAGCTTCCCAACCGCCATGCGCTGTACCGCAGCTTCTTCCGTTTTCCCGATGGCCCGCCGGCCACCGGCTTCGAGTTGAACGGCTGGGGCGACGACCTGGTGCACGACTACCTGAAAGGCATCGAGATCGATGGCCGCCTCGGCGTGCTCTACAGCAACAAGGACTATGGCTGCGAATGGGACTACGACTGGCGCAACAAGCGCTTCCTCGCCGAGGACAACACCAAATTCGCGGTCAACATCGTGATGTATGCACTGAACAGCTGA	MTMTRGRFLKLLLGSTAALALPGAAAAQAARYDFWFTRLRYDSGDWDVDARMPSNLITSLIDYTTLRVDPVEHVVALADPRMLSAPFCYLAGHKLVEFNPEERRNFERYVRNGGFVFVDDCNHDIDGLFATSFEAQMTSIFGKAALKKLPNRHALYRSFFRFPDGPPATGFELNGWGDDLVHDYLKGIEIDGRLGVLYSNKDYGCEWDYDWRNKRFLAEDNTKFAVNIVMYALNS				NA	NA	NA	NA	NA
BMS020_02713	1335			hypothetical protein	ATGAGCATCCTCACCGAAGCGCAGGCCAAGGCCATCCTGGACAAGGTGCTTGCGCTGTCCAAGGCCGACGAATGCACCGCCTCGCTCGGCGGCTCGATCGCCGGCAACATCCGCTTCGCCCTGAACAACGTATCCACCAGCGGCATTGTCGATGACACCGAGCTGGCGGTGCAGGTCGCCTTCGGCAAGCGCGTGGGCACCGCGACGATCAACGAGTTCGACGATGCCTCGCTGGAGCGCGTGGTGCGCCGCGCCGAAGACCTGGCCCGGCTGGCGCCGGAGAACCCGGAGTTCATGCCGGCGGTAGCGAAGCAGGCCTACACCGCCAGCCCGACCTTCAGCGACTCCACCGCGGCGATCACCCCGGACTTCCGCGCCCAGGTCGCCGCCGACTCGATCGCCCCGTGCAAGAGCGGCGGGCTGATCGCGGCCGGCTTCCTGGAGGACAGCCAGCGCTTCGAGGCCTTCGCCAACAGCAATGGCAATTTCGGCTACCAGCGCGGCACCGCGTTCGACTACACCTGCACCGTGCGCACCGAGGACGGCCGCGGTTCCGGCTGGGTCGGCCGCAACCTCAAGGACGCCGCCGACTTCAAGGCCGAGCAGGACATCCGCATCGCGATGCGCAAGGCCAGCGAATCGGTCGAGGCCAAGGCACTGGAACCGGGCAAGTACACGGTGATCCTGGAGCCGGCCGCGGCGGCCGGCCTGATCAGCTTCATGATGCGCTTCTTCGACGCACGCATGGCCGACGAGGGCCGCAGCTTCCTGTCCAAGAAGGGCGGCGGCAACAAGCTTGGCGAGCAGGTCTACGACCCGCGCGTGAACATCGTCGCCGACCCGTGGGACCCGCGCGCGCCGGTGATGCCGTGGGACAACGAGGGCCTGCCGCGCGAGAAGATGGCCATCGTCGAGAACGGCAAGGTCGCCAACCTCAACTACTCGCGCTTCTGGGCGCAGAAGAACGGCAAGCGCGCGGTCGGCGAGCCGGGCAACCTGCTGATGGCCGGCGGCGACAAGTCGATCGCCGACCTGGTGCGCAGCACCGAGAAGGGCGTGCTGGTCACCCGTACCTGGTACATCCGCATGGTCGACCCGCAGACCGTGCTACTGACCGGCCTGACCCGCGACGGCACGTTCTACATCGAGAACGGGCAGATCAAGTATCCGGTGAAGAACTTCCGCTTCAACGAATCGCCGGTGATCATGCTCAACAACATCGACGAGCTGGGCCGGCCGGTGCGCGTGGCCGGTGACGAATCGGACTTCGTGATGATGATCCCGCCGATGCGCCTGCGCGATTTCACCTTTACCTCGCTGTCGGATGCGGTGTAA	MSILTEAQAKAILDKVLALSKADECTASLGGSIAGNIRFALNNVSTSGIVDDTELAVQVAFGKRVGTATINEFDDASLERVVRRAEDLARLAPENPEFMPAVAKQAYTASPTFSDSTAAITPDFRAQVAADSIAPCKSGGLIAAGFLEDSQRFEAFANSNGNFGYQRGTAFDYTCTVRTEDGRGSGWVGRNLKDAADFKAEQDIRIAMRKASESVEAKALEPGKYTVILEPAAAAGLISFMMRFFDARMADEGRSFLSKKGGGNKLGEQVYDPRVNIVADPWDPRAPVMPWDNEGLPREKMAIVENGKVANLNYSRFWAQKNGKRAVGEPGNLLMAGGDKSIADLVRSTEKGVLVTRTWYIRMVDPQTVLLTGLTRDGTFYIENGQIKYPVKNFRFNESPVIMLNNIDELGRPVRVAGDESDFVMMIPPMRLRDFTFTSLSDAV				NA	NA	NA	NA	NA
BMS020_02714	1635			hypothetical protein	GTGCAACGACGTGATTTCCTGGCCCTGACCGGGCTGACCGCGGGCGGCTTGATGGTGCCGTCCTTCTTCGGCAAGGCGGTGGCCGCCGAGCAGTTGCTGAGCGTGCTGGATCCGGCGTTCAAGAAGCGCCTGGCCGATGCCGGCCTGAACGCCGCGCGCAAGGCCGGCGCCAGCTACTGCGACGTGCGCATCGGGCGCTACCTGCGCCAGTTCGTGATCACCCGCGAGGACAAGGTGCAGAACGTGGTGAACACCGAGTCCACCGGCGCCGGCGTGCGCGTGATCGCCGGCGGCGCCTGGGGCTTCGCCGCCACCAACGACCTCAGCGAGGCCGGCCTGGCGCGTGCAGCGCAGCAGGCGACCACGATCGCCAAGGCCAACGCGCGCATCCAGAGCGTACCGGTGCAGCTGGCCGCGGCGCCGGGCGTCGGCGAGGTGTCGTGGAAGACGCCGATCCGCAAGAACGCGATGGAGGTGCCGCTCAAGGACAAGGCCGAGCTGCTGCTCGGGGTCAACGCCGCGGCGATGAGCGCCGGTGCCAGCTTCGTCAACTCGATGCTGTTCCTGGTCAACGAGCAGAAGTACTTCGCCAGCACCGACGGCTCCTACATCGACCAGGACGTGCACCGGATCTGGGCGCCGATGACGGTGACCGCGATCGACAAGGCCAGCGGCAAGTTCCGCACCCGCGACGGCCTGTCCGCGCCGATGGGCATGGGCTACGAATACCTCGATGGCGCCGCGTCCGGCAAGGTGGTCACGCCCAACGGCGTGGTCAACTACGGCCTGTCCTACGACATGAAGGAAGACGCGATCGCCGCGGCGAAGCAGGCGCAGGAGAAGCTCAAGGCGCCGTCGGTGAAGCCGGGCAAGTACGACCTGGTGCTCGATCCCTCGCACACCTGGCTGACCATCCACGAGTCGGTCGGCCATCCGCTGGAGCTGGACCGCGTGCTCGGCTACGAGGCCAACTACGCCGGCACCAGCTTCGCCACGCTGGACAAGCTCAAGGAGCACTTCCAGTACGGCAGCGACAAGGTGCACATCTTCGCCGACAAGCTGCAGCCGGGCAGCCTCGGCGCGGTCGGCTACGACGACGAGGGCGTGAAGACCAAGCAGTGGGACCTGATCCGCGACGGCAAGCTGGTCGACTACCAGGCGATCCGCGACCAGGCGCACATCCTCGGCAAGACCGCGTCGGATGGGTGCTGCTACGCCGATTCGTGGAGCAGCGTGCAGTTCCAGCGCATGGCCAACGTCTCGCTGGCCGCCGGCAAGACCCCGCTGAGCGTGGCCGAGATGATCAAGGACGTCGAGAACGGCATCTACATCATCGGCGACGGCTCGTTCTCGATCGACCAGCAGCGCTACAACGCGCAGTTCGGCGGGCAGCTGTTCTACGAGATCAAGAACGGCCAGATCACCCGCATGCTCGAGGACGTGGCGTACCAGATCCGCACGCCGGAATTCTGGAATGCGTGCGTGGCGGTGGCCGACGAACGCGACTACCGCCTGGGCGGGTCGTTCTTCGACGGCAAGGGCCAGCCCGGCCAGGTTTCGGCGGTCTCGCACGGCTCGTCCACGGCGCGCTTCAACGGCGTCAACGTCATCAACACCGCCCGTTCGCTCGGCTGA	MQRRDFLALTGLTAGGLMVPSFFGKAVAAEQLLSVLDPAFKKRLADAGLNAARKAGASYCDVRIGRYLRQFVITREDKVQNVVNTESTGAGVRVIAGGAWGFAATNDLSEAGLARAAQQATTIAKANARIQSVPVQLAAAPGVGEVSWKTPIRKNAMEVPLKDKAELLLGVNAAAMSAGASFVNSMLFLVNEQKYFASTDGSYIDQDVHRIWAPMTVTAIDKASGKFRTRDGLSAPMGMGYEYLDGAASGKVVTPNGVVNYGLSYDMKEDAIAAAKQAQEKLKAPSVKPGKYDLVLDPSHTWLTIHESVGHPLELDRVLGYEANYAGTSFATLDKLKEHFQYGSDKVHIFADKLQPGSLGAVGYDDEGVKTKQWDLIRDGKLVDYQAIRDQAHILGKTASDGCCYADSWSSVQFQRMANVSLAAGKTPLSVAEMIKDVENGIYIIGDGSFSIDQQRYNAQFGGQLFYEIKNGQITRMLEDVAYQIRTPEFWNACVAVADERDYRLGGSFFDGKGQPGQVSAVSHGSSTARFNGVNVINTARSLG				NA	NA	NA	NA	NA
BMS020_02715	1626	tldD_2	COG0312	Metalloprotease TldD	GTGGATCGTCGTCTGTTCCTGACCCTGTCCGGCCTCGGTGCCGCCGGCCTGCTGCTGCCCGGCAGCCGGTTGATCGCCGCCGAGCAGTTGCTGGCGCCGGCCGATGCCGCGCGCAACCGGCGGCTGGCCGATGCCGCGCTGGCCAGTGCCAAGGCCGCCGGCGCCAGCTACTGCGACGTGCGCGTGGGCCGCTACCTGCGCCAGTTCGTGGTCACCCGCGAGGCGCAGGTGGAGAACGTGGTCAACGCCGAGTCGCTGGGCGTGGGCGTGCGGGTGATCGCCGACGGCGCCTGGGGCTTCGCCGCGACCAATACGCTGAACTCGGATGCGGTGGCCACCGCGACCCGCCAGGCGGTGGCGATCGCCCGCGCCAATGCGCGCCTGGCCGGCGCCGCGGTGCAGCTGGCACCGCAACGCGGCGTCGGCGAAGCCAGCTGGCGCACGCCGCTCAAGCGCAACGCGATGGAAGTGCCGGTGCAGGAGAAGGTCGCGCTGCTGATGGACCTCAACGCCGCCGCGCAGAATGCCGGCGCCGACTTCGTCGCCTCGCGGCTGTTCTGCATCAACGAGCAGAAGTACTTCGCCAGCAGCGATGGCTCCTACATCGACCAGGACGTGCACCGGCTGTGGCTGCCGTTCACCGTGACCGCGGTGGACAAGGCCAGCGGCAAATTCCGAACCCGCGACGGCCTCGGCGCACCGGTCGGCATGGGCTACGAGTACCTGGACGGCGATGCGAAGCAGGCCTTCCAGCTGCCCGGCGGGGTGACCGGCTACGGACTGTCCTACGACCCGCGCGCGGATGCGGTGGCCGCGGCGAAGCAGGCGCGCGCCAAGTTGTCGGCCCCATCGGTGAAGCCAGGCAAGTACGACCTGGTGATCGACCCGAGCAACCTGTTCCTGACCATCCATGAGTCGGTCGGCCATCCGCTGGAGCTGGACCGCGTGCTCGGCTACGAGGCCAACTACGCCGGCACCAGCTTCGCCACGCTCGACAAGCGCGGCAGCTTCCGCTGGGGCAGCGAGCAGGTGAACTTCGTCGCCGACAAGACCCGCCCCGGCAGCCTCGGCGCGGTCGGCTACGACGACGAGGGCGTGAAGACCAAGCAGTGGGACCTGGTCAAGGACGGCATCCTGGTCGACTACCAGTGCACCCGCGACCAGGCCCACATCCTCGGCAAGACCGCCTCCGATGGTTGCAGCTACGCCGATTCGTGGTCGACGGTGCAGTTCCAGCGCATGCCCAACGTGTCGCTGGCGCCGGGCAAGGCGCCGCTGTCGGTGGCGCAGATGATCTCCGGCGTGGAGAAGGGCCTGTACATCCATGGCCGTGCCTCGTACTCGATCGACCAGCAGCGCTACAACGCCCAGTTCGGCGGGCAGCTGCTGTTCGAGATCGAGAACGGCCAGGTGACCCGCCAGGTCGAGGATGGCGCCTACCAGATCCGCACGCCGGAATTCTGGAACGCGGTCAGCGCCGTCTGTGACGAGCGCGACTTCCGCGTGTTTGGCTCGTTCTTCGACGGCAAGGGCCAGCCCAGCCAGGTCTCGGCGGTGTCGCATGGCGCGGCGACCACGCGCTTCGACGGCGTCAACGTGATCAACACGGCGCGCTCGCTGGGATAG	MDRRLFLTLSGLGAAGLLLPGSRLIAAEQLLAPADAARNRRLADAALASAKAAGASYCDVRVGRYLRQFVVTREAQVENVVNAESLGVGVRVIADGAWGFAATNTLNSDAVATATRQAVAIARANARLAGAAVQLAPQRGVGEASWRTPLKRNAMEVPVQEKVALLMDLNAAAQNAGADFVASRLFCINEQKYFASSDGSYIDQDVHRLWLPFTVTAVDKASGKFRTRDGLGAPVGMGYEYLDGDAKQAFQLPGGVTGYGLSYDPRADAVAAAKQARAKLSAPSVKPGKYDLVIDPSNLFLTIHESVGHPLELDRVLGYEANYAGTSFATLDKRGSFRWGSEQVNFVADKTRPGSLGAVGYDDEGVKTKQWDLVKDGILVDYQCTRDQAHILGKTASDGCSYADSWSTVQFQRMPNVSLAPGKAPLSVAQMISGVEKGLYIHGRASYSIDQQRYNAQFGGQLLFEIENGQVTRQVEDGAYQIRTPEFWNAVSAVCDERDFRVFGSFFDGKGQPSQVSAVSHGAATTRFDGVNVINTARSLG				NA	NA	NA	NA	NA
BMS020_02716	1038			hypothetical protein	ATGGCGCAGGCTCCGTTCGACCGCGGCACCCTGGCCGAGCAGGCTGCACGCTGGCACGTGCGCCAACGCGAGGGCGGGCTCGACGCCGCCACCCAGGCGCGCTTCATGCAGTGGCTGCTGGACTCGCCCGAACACCTGCGCGAATACCTCGCCGTGGCGCGTACCGCCGGCGAACTGGCCGCGGCGCTGCGGGCGCTGCCGGCAACGCCCGCCGCACCGCCGTTGCCTGCACCACGCCCCGACAACGTGGTGCTGCTGCCGGTGCGCCCGCGCGCACGGTCGGCAACACCACCGCACGCGCGCACACGGCACTGGCGCGCGACGGTCGCGGCCGTACTCGGCCTGGTGCTCCTCGGCGGCGGCGTGCAGGCGCTGAGGCCCCGCACCACCGAGTACGTGGCCGCGCACGCCGCGCCGCGCACGCTGCAGCTGGACGACGGCAGCGTGGTGCACCTCAATGCCGACAGCGCGCTGCGCGTGCGCCTGGGCCCGTTCGCACGCCAGGTCGAACTGACCCGCGGCCAGGCCAGCTTCGTCGTCGCCGCCGACCGGCGTCCGTTCCGCGTGCGCGCCGCCGGCCTGCAGGTACGCGACATCGGCACCACCTTCGACGTGGCGCTGCTGCGCGAGCAGGCACGGATCGGCGTCAGCGAAGGCCGCGTGCAGGTGCTCGGCGACGGCGATGCGGCCGGGCTGCTGGCCGACCTGGGCGCCGGCGAGAGCGCGCGCATCGACTATCGCGACCAGCAGGTCACGTTGAGCCGCGAAGACCCGCAGGCGATCACCGCGTGGTGGCAGCGCCGCATCGTGTTCCGCGACGAGCCGCTGGCCGAAGTCGCCGACGCCTTCAACCGGCTCAATCGGGTGCGCCTGCAGGTGGACGAGGCGGCCGGTGCACTACGCCTGACCGGCAGCCTGCGCGGCGACGACATCGCATCGCTGCGCGCGTTCCTGGAGCACCAGCCGCAGTTGCAGGTGCGCATGCAGGGACAGCTGCTGCTGGTCGGCATGCGCGACGGCGCCCCGGCGCCGCGCTGA	MAQAPFDRGTLAEQAARWHVRQREGGLDAATQARFMQWLLDSPEHLREYLAVARTAGELAAALRALPATPAAPPLPAPRPDNVVLLPVRPRARSATPPHARTRHWRATVAAVLGLVLLGGGVQALRPRTTEYVAAHAAPRTLQLDDGSVVHLNADSALRVRLGPFARQVELTRGQASFVVAADRRPFRVRAAGLQVRDIGTTFDVALLREQARIGVSEGRVQVLGDGDAAGLLADLGAGESARIDYRDQQVTLSREDPQAITAWWQRRIVFRDEPLAEVADAFNRLNRVRLQVDEAAGALRLTGSLRGDDIASLRAFLEHQPQLQVRMQGQLLLVGMRDGAPAPR	PGPT0003910_2155	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003910-prhR|fecR-K07165	NA	NA
BMS020_02717	522			hypothetical protein	TTGGTCGAGCGGGCAAAACGCGGGTTGGCGCGCATGTTCGTCGAACAGGCCCCGGTGCTACGGGGCTTCTTCGTGCGCCGCGGCGCCAACGACGAGGCCGAGGACCTGGTACAGGAAACCTACCTGCGCCTGCTGCGCGCGCACCAGGCGCAGGAGGGCGCGATCGCCAATCCGGAAGCCTACCTGTTCACCGTGGCGACCAACCTGGCGCGCGAGCAGGCCAGCCGCCGCCAGCGCGCGCCGCTGCCGATCGACGAACTCGAACACCTGAGCGCCCTGCTCGCCGCGGAGGACTGCGTGGTGGAAAGCGCCGAACGCGCCCAGCGCCACCAGCACCTGCTGGAGCTGCTCGGCACCCTGCCCGAGAACACCCGCAGCGTGCTGGTGATGCAGTACCGCGACGGGCTCAGCTACCGGCAGATCGCCGAGCGGCTGGGCGTCTCGCCGCACATGGTGAAAAAGCACGTGGTGCGCGGGCTGGCGCATTGCCGCCAGGCGCTGGGCGACGCGGCGGAGGCCTGA	MVERAKRGLARMFVEQAPVLRGFFVRRGANDEAEDLVQETYLRLLRAHQAQEGAIANPEAYLFTVATNLAREQASRRQRAPLPIDELEHLSALLAAEDCVVESAERAQRHQHLLELLGTLPENTRSVLVMQYRDGLSYRQIAERLGVSPHMVKKHVVRGLAHCRQALGDAAEA				NA	NA	NA	NA	NA
BMS020_02718	1227			hypothetical protein	ATGCTTCGTTTCAACAGATGGACCGCCACGGCGGCATGCTGGCTGCTGGCGTTGCCGGCAGCGGCTGCCGCGCCCGACCAGGCCACGCTGCGGGCCTACCACAGCGGCGTCGATCAGCTGGTCGCACTGGTCAACGCGCACCAGACAGGCTTCGCGCCTGATAGTCCTGCGGCCACTGAGGCCCACGCCCTGATCGCGCGGACGTTCTCCGAGCCGCGGCTGCTGGACTTCACCGATGTCGAGCTCGACGACCTGGCTCGACTGTCGGACATCTGCCAGGGCGCCAACCAGGTCATGGTCGCACTGGCGATGGCCGGTGCCCGTTCCCAGATCGATCCGGACCAGGGCCGCGCGGCGGCCGCCGCCAAGCTGATGGCGGTGATGGACAGCAATGGCGTGCGATATCAGGACTTCACCGCACCGATCATGCCGTTCCTGACGCGTTGCCTGGCCCTGCAGAGCCGGGCCGCGATCGGCGTGGTCGAACGGATCGGGCCCACGCAGTTGGAGCCGGTCCGACGCGCCGGTCTGGCACGGATGCGCGATGGCCTGTCCGGCTTCGTGCTGGGGGCGACGATCGTGGCGGGTGATGGCCGCTACAGCCTGCACAACCGCGCCCTCGTCCTGGACAGTCTGAATGCCCACGTTGGCGCCTTGCTGCATGTCTTGCCGATGCCCATGCGCGAACCGCTGCTGGCGGCCGTCGATGCCGCCAGCGCGCATGCGGACGCGACGCTTGCGCCCGCGCTCGCCAGCCTGCGGGCAGCGCTCGACCAGGTCCCCTGCGCACTGCTCTGCAACGTGCTGCAGATCGGCAGCGGGCCCGGACGCCCGCCGTCCTGTCTGTCCCAGCCGATCCTGCTGGGTCCGCGCACCGCGCCCGCACGCCTGTGCGCGGTGGGTGGCAACTTCGTCCACCATGATTACTACGTCGACATCGACGGCAAGCGGGCCATCGGCGACATCGATGATGAAGTGGCAAAGGGCGTGCGGGCCGAGCTCGACGGCAACGCACTGTCCCTGCAGTGCGTTCCCGAGCACCAGGCCTCGGGCCAACCTGTCGACGACGGGTTGGTCAAGGCACTGATGGCCAAGATGCCCGATGCCAACGAGGCACAGGCGCACAAGGTGCTGGAGCGGCTCAACGCGGTCGAGATCGCCCGCAACTGCGAGCTGCGGGTCAACGATGTGCCGCAACTCAGCGTGCGGGTCGAGCAACCGCAGTAG	MLRFNRWTATAACWLLALPAAAAAPDQATLRAYHSGVDQLVALVNAHQTGFAPDSPAATEAHALIARTFSEPRLLDFTDVELDDLARLSDICQGANQVMVALAMAGARSQIDPDQGRAAAAAKLMAVMDSNGVRYQDFTAPIMPFLTRCLALQSRAAIGVVERIGPTQLEPVRRAGLARMRDGLSGFVLGATIVAGDGRYSLHNRALVLDSLNAHVGALLHVLPMPMREPLLAAVDAASAHADATLAPALASLRAALDQVPCALLCNVLQIGSGPGRPPSCLSQPILLGPRTAPARLCAVGGNFVHHDYYVDIDGKRAIGDIDDEVAKGVRAELDGNALSLQCVPEHQASGQPVDDGLVKALMAKMPDANEAQAHKVLERLNAVEIARNCELRVNDVPQLSVRVEQPQ				NA	NA	NA	NA	NA
BMS020_02719	1017	fbp_1	COG0158	Fructose-1,6-bisphosphatase class 1	ATGTCGCGAACCTCGCTGACCCGCTTTTTGATCGAAGAGCAGCACGCCGGGCGCATCGACGCCGAGCTGCGCCAGCTCATCAGCATCGTCGCCCGCGCCTGCAAGCGCATCTCCATCGCGGTCAGCAAGGGGGCGTTGGGCGACGTGCTCGGCGATGCCGGCACCGGCAATGTGCAGGGCGAGGCGCAGAAGAAGCTCGACGTGCTCAGCAACGACATCCTGCTGGAGGCCAACGCCTGGGGCGGCCACCTGGCGGCGAGCGCGTCGGAGGAGATGGAACACAGCCAGCCGGTGCCGGACAAGTACCCGCGCGGCGACTTCCTGCTGCTGTTCGATCCGCTCGACGGCAGCTCCAACATCGACGTCAACGTCTCGGTCGGCACGATCTTCTCGGTGCTGCGCGCCCCGGCCGGCACCGACAAGCCGGGCGATGAGCACTTCCTGCAGCCGGGCACCCAGCAGGTCGCCGCCGGCTACTGCATCTACGGGCCGAGCACGATGCTGGTGCTGACCCTCGGCCACGGCACCCATGCGTTCACGCTGGAGCGCGAGGAAGGCAGCTTCCTGATGACCCAGGCCAACATGCGCGTGCCCGAGGACACCGCCGAGTTCGCGATCAACATGTCCAACCAGCGCCATTGGGAAGCGCCGATGCAGGGCTACGTCGCCGACCTGCTGGCCGGCAAGGAAGGCCCGCGCGGCAAGAACTTCAACATGCGCTGGATCGCCAGCATGGTCGCCGACGTGCACCGCATCCTGACCCGCGGCGGCATCTTCATCTATCCGTGGGACAAGAAGGACCCGTCCAAGCCGGGCAAGCTGCGGCTGATGTACGAGGCCAACCCGATGGGCATGCTGATCGAGCAGGCCGGCGGCGCCGCCACCACCGGCCGCGAGCGCATCCTCGACATCCAGCCGACCGCGCTGCACCAGCGCGTGCCGGTGTTCCTCGGCTCGAAGAACGAGGTGGCCGAGGCGACCCGCTACCACCTGGACGCCGACAAGGCCAAGGCCTGA	MSRTSLTRFLIEEQHAGRIDAELRQLISIVARACKRISIAVSKGALGDVLGDAGTGNVQGEAQKKLDVLSNDILLEANAWGGHLAASASEEMEHSQPVPDKYPRGDFLLLFDPLDGSSNIDVNVSVGTIFSVLRAPAGTDKPGDEHFLQPGTQQVAAGYCIYGPSTMLVLTLGHGTHAFTLEREEGSFLMTQANMRVPEDTAEFAINMSNQRHWEAPMQGYVADLLAGKEGPRGKNFNMRWIASMVADVHRILTRGGIFIYPWDKKDPSKPGKLRLMYEANPMGMLIEQAGGAATTGRERILDIQPTALHQRVPVFLGSKNEVAEATRYHLDADKAKA	PGPT0017665_1835	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017665-fbp|cbbFC-K03841	NA	NA
BMS020_02720	603		COG1309	putative HTH-type transcriptional regulator	ATGACAGTCGTCCTAATCAAGGCCCGCCCGATGAGCCCCCGCCAATCCGACGCCCGCCAGCGCGTGGTCGCCGCCGCCGCCGACATGCTGGCCCGGCACGGCCTCAACGCGACCAGCATCCGCGAGATGGCCAAGCACGCCGGCGCTCCGCTCGGGTCCACCTACCACCACTTCCCTGGCGGCAAGCAGCAGGTGGTGGTCGAGGCGGTGACATTGGCTGGCGCGCAGGTCAGCGCGGCGCTGCAGCGGCACCTGCAACCCGGCGGTGCCGGGCTGGCGGGCTTCATCGCGATGTGGCGCGAGATCCTGGTGCGCTCGGACTTCCGCCGCGGTTGCCCGGTGATGGCGGTCGCCATCGAGGAACCACTCGATGCCGACGGCGAGGACGTGCTGCAGGCGGCCGCGCGGGTCTTCGCCGACTGGGAAGCGCGGCTGGCCAGCTTCCTCGGCGAGCACGGCCATGCACCGGCTACCGCCGCCGCGCTGGCGACACTGGTCATCGCCAGCTTGGAAGGCGCCATCGTGTTGAGCCGCGCGCAGCGGAGCATTGCCCCGTTCGATCGCGTCAGCGCACAGATCGAGGCGCTAGCCGCCGCGTCATGA	MTVVLIKARPMSPRQSDARQRVVAAAADMLARHGLNATSIREMAKHAGAPLGSTYHHFPGGKQQVVVEAVTLAGAQVSAALQRHLQPGGAGLAGFIAMWREILVRSDFRRGCPVMAVAIEEPLDADGEDVLQAAARVFADWEARLASFLGEHGHAPATAAALATLVIASLEGAIVLSRAQRSIAPFDRVSAQIEALAAAS				NA	NA	NA	NA	NA
BMS020_02721	876			hypothetical protein	ATGGCCATGACCACCGAAGCGTTACCTCGCGAACTGATCGCCGCCGACGGCTATGTCCTGGCGGGCACGTGCTATCCGGCTGCGGGACCGGCCCGCGGGCGTGTGGTGGTGGCTGGCGCGACCGCGGTGCCGCAAGGGTTTTACCAGCGGTTCGCGCGCTTCGCCGGCGAACGTGGGTACGAGGTGCTGACGTTCGACTACCGCGGCATCGGGCGCTCGCGTCCACCGTCGCTGAAGGGCTTCCGCATGGACCTGCTGGATTGGGCGCGCCAGGACCTGGCCGCGGCGGTCGACGCGATGGCCGACGATGCGCTGCCGCTGTACGTGGTCGGGCATTCGTACGGCGGGCACGCCTTCGGCCTGCTGCCCAACCACCGTAAGGTCGCCGGTTTCTACGTATTCGGCACGGGTGCGGGCTGGCACGGCTACATGCCCCTCGGCGAACGCCTGCGCGTGTTGCTGATGTGGAAGCTGGTGCTGCCGCTGCTCACCTGGTGGAAGGGCTACTGCCCCTGGCGGATGCTCGGGATGGGCGAGGACCTGCCAGTGGACGCGTACCGGCAGTGGCGCCATTGGTGCCGGTTCCCGCGCTACTTCTTCGACGATCCCGCCATGCGCGGCATCGAAGCGCACTACGCCGCCGTCACGACGCCGATCGTGGCGGCGAACGCGTCGGACGATCTATGGGCATCGCCCGCCTCACGTGATGCGTTCATCGATGCGTATCGCCACGCCCCGCTGGTCCGGACCGAGCTCGATCCCGCCCGGGTTGGCGGCAAGGTCGGGCACATGGGCTATTTCCGCCCGATCGCCGAGCCGTACTGGGACGACGTGCTGCGCTGGTTCGCGTCGCTGCCGCCGGCGCGGCCGGGCTGA	MAMTTEALPRELIAADGYVLAGTCYPAAGPARGRVVVAGATAVPQGFYQRFARFAGERGYEVLTFDYRGIGRSRPPSLKGFRMDLLDWARQDLAAAVDAMADDALPLYVVGHSYGGHAFGLLPNHRKVAGFYVFGTGAGWHGYMPLGERLRVLLMWKLVLPLLTWWKGYCPWRMLGMGEDLPVDAYRQWRHWCRFPRYFFDDPAMRGIEAHYAAVTTPIVAANASDDLWASPASRDAFIDAYRHAPLVRTELDPARVGGKVGHMGYFRPIAEPYWDDVLRWFASLPPARPG				NA	NA	NA	NA	NA
BMS020_02722	519			hypothetical protein	ATGCACTGGCACGCCGTCCCCACCCCCTTCCATCCCTCGCAGGCCATTGCCATGACCCCACCGATTCCGTTCGACGCACGCGCCCGCAAGGCGCTGATCCTCGCCAACATCGCGATGCTGCTCGCGATCACCGCGCACGATGCCGACCATCTGCGCCAAGCCGCGGACTGGTGCTACACCATCACGCCCACGCTATGGGTGGTGAACATCGCGGTGTACCTGCCGAGCCTGGTGGCGTTGTTGCTGAGCCTGCGCGCGCACCGCCATGCACCGCTGGCGACCGGCGGCGGCGCGTTGCTGATCGCCTTCCTGTTCGCCAAGGTGCATCTGTGGAAGCCCGTCTTCAGCGTCTGGGGCATCTGGAACAAGAGCTTCTTCGTCCTGGGAGCGGACTGGATCAGCTGGAGCATCCTCACCGGACTGGTCCTGGTCGGCGTGAGCGTGGCGATGACCGCCGCCTGGGCCGCCGGCAGACAGGGCCGCGCGCATGAGGGCCTGACGGTGCGACCGGCTGGGTGA	MHWHAVPTPFHPSQAIAMTPPIPFDARARKALILANIAMLLAITAHDADHLRQAADWCYTITPTLWVVNIAVYLPSLVALLLSLRAHRHAPLATGGGALLIAFLFAKVHLWKPVFSVWGIWNKSFFVLGADWISWSILTGLVLVGVSVAMTAAWAAGRQGRAHEGLTVRPAG				NA	NA	NA	NA	NA
BMS020_02723	849			hypothetical protein	ATGCAAGGCACCATCGCCCAGATCGTCGCGCTCGTCCTCGAAGGCAACGCCGCGCTGCGCGGCATCGAGTCACGCGGCCTGGACCGCGCGCACAGCACGATGACGTTCTGCGAGTTCGTGCGCTTCGTCGATCTGCAGGAAGCACCGGCAGGCTGGGCCGAGACACCGGCGGCCGATGATCCGGTCGCGTGGATTGACCTGCTCAGGCAGCAGGACGTCAGTGCGCTGCGGATGACGTACGGGCCATCCGGGAACGCCGGGGCCGACGGCAGCGGTGTGAACGACCGGATGCTGGTCGGCTTCGTCGGCGGCGGTGGGCGCTGGCTGGTCGAAGCGCGCAAGCCCGGCGGCTGCGACTACTGGGAATCGCGCTGGGAGGTCGGCGACCGCCAGCGCACGGACCGCCGGATCTGGCAGGTCACCTACGGCCGCATCGCCAGCGACTGCGCGCCGGGCGAGATCGAACCGGACGACCTGCCCGCGCTGATCGCGCAGTTCCGCGCGCTGCTGGAGCAGATCAAGGCCTTCGCCGAGCGGCATGCGCTGGGCGGCTTCGCCAGCTGCTTCGCGCGCGGGCTGGAGGACCTGGCTGCCGATGCGCCGCGGCATGCCTTCCACAAGGATCTGTTGAATCCCGCGCTGCTGCCGGCCGATGCGCTGCGGCTGCTGTCCGCGGCGCAGTCGGCGTGGGTGTTCGGCGGCATGGGCTCGTGGAACGACCAGGGCTTCGACGGCGAGGACCAGGCCGTCTATGAGCGCCTGTCCGACGCCCTCTACCAACTGATCAACCGGGCCATCGTCGCCGCGGCCAACAGCTCGGCGGCAGCAACCGCGTCGTCATCGCGCTGA	MQGTIAQIVALVLEGNAALRGIESRGLDRAHSTMTFCEFVRFVDLQEAPAGWAETPAADDPVAWIDLLRQQDVSALRMTYGPSGNAGADGSGVNDRMLVGFVGGGGRWLVEARKPGGCDYWESRWEVGDRQRTDRRIWQVTYGRIASDCAPGEIEPDDLPALIAQFRALLEQIKAFAERHALGGFASCFARGLEDLAADAPRHAFHKDLLNPALLPADALRLLSAAQSAWVFGGMGSWNDQGFDGEDQAVYERLSDALYQLINRAIVAAANSSAAATASSSR				NA	NA	NA	NA	NA
BMS020_02724	372			hypothetical protein	ATGGTTTCGTTGTCACCGACCGCGCTCGAGGCCTTTTTCACTGAAGACGACGCCGCCAGCGTCGTCATGCTCAATCTCATCCGGTTCCAGCCCGATGGAGGCAGGGCGCGTTATCTGCACTACCTTGAAATGGCCAGGCCGATCCTGGCCCGATTCGGCGCGAGGATCCTGTTCGGCGGCGACGGCCTGCCGGTGCTCACCAGCGCACAGACGCAGCCGTGGGATGCGGTGGTGCTGGTCCAGTACCCGCGCCGATCCGTGTTCAAGGCGATGGTCGCCGATCCGGACTACCAGCTTGCGTTCACGGTGGGCGTCTCGGCAATTGCCGAGATCATGCTGCAACCGCTGGCGCCGATCGACGGCCTGGTTTAG	MVSLSPTALEAFFTEDDAASVVMLNLIRFQPDGGRARYLHYLEMARPILARFGARILFGGDGLPVLTSAQTQPWDAVVLVQYPRRSVFKAMVADPDYQLAFTVGVSAIAEIMLQPLAPIDGLV				NA	NA	NA	NA	NA
BMS020_02725	219			hypothetical protein	ATGGACCTTGAAGCCCTTTTGACTGCCGCATTGCGCGAGGCGGGGTACGGCCAGGACACCATCGGCTCGGCGATGCCCAGGCTGCTGCGCATCCTCGAAGCCGAAGACGTGCGCCTGGAGGTCGGTCGCAGCCTGTCGCGCAAGGAGCGCGAATACGTGCGCCTGCAGCTCGAACTTGGGCTCAGCGTGTCGGAAATCGTGGCGGCCCTGAAGAAGTAA	MDLEALLTAALREAGYGQDTIGSAMPRLLRILEAEDVRLEVGRSLSRKEREYVRLQLELGLSVSEIVAALKK				NA	NA	NA	NA	NA
BMS020_02726	546			hypothetical protein	ATGAAGATCAGCTCAAACACTACCCGCCTACGCTGGGCAGCCGCCGTTCTTTTGCTGGCCAATATTGGTGGCACAAGCGCATCTCAACACTCAGATCGCGCCTCCGAACCAGTTGGCGAGCAGCGAAAGATTGAATCCGAGATCAGCGCGCTCGTCCAGGAAATAATCAGAATCAATGAAATCAACCTCGGCAGCGCAACCCTGAGAACGCCGGCCGTATCGTATGACCCTTCTACGAAGGCAGTGACCATTGACCTCGGAAGATCTGCCGTTCCCAAGGAACATACGCCGACCTTTGACGAAGATCTGCTTCTTATTTCCCAGCGCGTGAGTGACGCGATTTCACCGGACGTCCCCGTTGACGTCAAAATTGTCTTTGACGGCTCGGACATCTATGAATATTTCCCCGAAGATCGCGGACCAATAGAGAACCCTGGAAGCGACACCTGCGCCATTAAGGGAAAACCGACTGAAGCCCGGGTCGCCTTGATTCCTGCGCGGCATGGCAACGTTTTAGCGAACAGCACAAAAGCCGCCCAAGCCTAA	MKISSNTTRLRWAAAVLLLANIGGTSASQHSDRASEPVGEQRKIESEISALVQEIIRINEINLGSATLRTPAVSYDPSTKAVTIDLGRSAVPKEHTPTFDEDLLLISQRVSDAISPDVPVDVKIVFDGSDIYEYFPEDRGPIENPGSDTCAIKGKPTEARVALIPARHGNVLANSTKAAQA				NA	NA	NA	NA	NA
BMS020_02727	1203	tyrB_2	COG1448	Aromatic-amino-acid aminotransferase	GTGTCCTTCTTTGCAAACGTCGAACTGGTTCCGGGCGACCCGATCCTGGGCCTGACCGAGGCCTACAACGCCGACAGCCGCCCCAACAAGGTCAACCTGGGCGTGGGCATCTATTACGACGAGAACGGCCGCATCCCGCTGCTGCGCGCCGTCAACCAGATCGAGCAGCAGCTCGCGCTGGACGCCAAACCGCGCGGCTACCTGCCGATCGACGGCCTGGCCGCCTACACCAAGGCCACCCAGCAGCTGCTGTTCGGCGCCGATTCGGCGCTGCTCAATGCCGGCCGTGTCGCCACCACCCAGACCGTCGGCGGCTCCGGCGCGCTGCGCGTGGGCGCCGATCTGCTGAAAAAGGTGCTGCCGACGGCGACCATCGCCATCTCCAACCCGAGCTGGGAAAACCACCGCGCGGTGTTCGGCGCGGCCGGCTTCGAGGTGGTGGACTACACCTACTTCGATGCCGCCAGCCACGGCCTCGACTTCGCCGGCATGCTCGCCGACCTGAACAAGCTCGCCCCGGGCACCGTGGTGCTGCTGCACGCCTGCTGCCACAACCCGACCGGTGCCGACCTGACCCACGACCAGTGGAAGCAGGTCGCCGGCGTGCTGAAGGAACGCAAGCTGTTCCCGTTCGTCGACATCGCCTACCAGGGCTTCGACAAGGGCATCGACGAGGACGCCTACGCGGTGCGCCTGCTGGCCGCCGAAGGCATCGACAGCTACGTCGTCGCCAGCTCGTACTCCAAGTCGTTCTCGCTGTACGGCGAGCGCGTGGGCGCGCTGTCGGTGGTGGCCCCGGACGCGACCCAGGCCAAGGCCGTGCAGTCGCAGATCAAGCGCATCATCCGCACCATCTACTCCAGCCCGTCCACGCACGGCGCGCAGCTGGTCGCCGGCGTGCTGACCAGCCCGGAACTGCGCCAGATGTGGGAAACGGAGCTGACCGAGATGCGCGAGCGCATCCATGCCCTGCGTGCCGGCCTGGTGGCCAAGCTCGCCGAGCACGGCGCCGGCGACTTCGGCTTCATCCAGCAGCAGGCCGGCATGTTCTCGTACTCGGGCCTGAGCAAGCCGCAGGTCGATCGCCTGCGCGACGAGTTCGCGATCTACGCCGTCGGCACCGGCCGCATCTGCGTGGCCGCACTGAGCCAGAAGACCCTGGACTACGTGGCCCAGGCCGTGGCGACGGTGAGCAAGGGCTGA	MSFFANVELVPGDPILGLTEAYNADSRPNKVNLGVGIYYDENGRIPLLRAVNQIEQQLALDAKPRGYLPIDGLAAYTKATQQLLFGADSALLNAGRVATTQTVGGSGALRVGADLLKKVLPTATIAISNPSWENHRAVFGAAGFEVVDYTYFDAASHGLDFAGMLADLNKLAPGTVVLLHACCHNPTGADLTHDQWKQVAGVLKERKLFPFVDIAYQGFDKGIDEDAYAVRLLAAEGIDSYVVASSYSKSFSLYGERVGALSVVAPDATQAKAVQSQIKRIIRTIYSSPSTHGAQLVAGVLTSPELRQMWETELTEMRERIHALRAGLVAKLAEHGAGDFGFIQQQAGMFSYSGLSKPQVDRLRDEFAIYAVGTGRICVAALSQKTLDYVAQAVATVSKG	PGPT0020310_364	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020310-tyrB-K00832	NA	NA
BMS020_02728	2127	fecA	COG4772	Fe(3+) dicitrate transport protein FecA	ATGCACTTCTCCCCCTCCCCGTTGCTGTGCGGCCTGTTGGCTGCCGGCCTCGCCCCGGGTGTCCATGCGCAGGCGTTGGACGACCGGATTTCCACCCTCTCCCCGGTACAGGTCGATGCGGCCCGGGTGCAGGACGTCGACGATTTCGACCTGCCGGCCTCGCTGACCGCGGTCGCCGTGGACCGCGACCTGGACAACCGCGGCGCGCAGGTCTCGGAGGTGCTCGACGGCATCCCCGGCGTGGTCGCGCGCGAGCGCCAGAACTACGCCCAGGACACCCAGCTGTCGATCCGCGGCTTCGGCGCGCGTTCCACCTTCGGTGTGCGCGGCGTGCGGCTGTATGTCGACGGCGTGCCGGCGACGATGCCCGACGGGCAGGCCCAGCTGTCGCATTTCAACGTGCTCGGCGCCGAGCGCATCGAGGTACTGCGCGGGCCGTTCTCGGCGCTGTACGGCAATTCCTCCGGCGGCGTGCTGCAGCTGTGGAGCGCCGATGGCGAGGCGGGCGATCCGTGGCGGCTGCGGACCACCTACGGCGCCTATGGCACGTCCAGCACCGGCGCGCAGCTGCTCGGCCAGCAGGGCCGCGTCCATTACAACATCGCCGCCAATCATTTCGAGACCGAGGGCTGGCGCGACCACAGCCGCGCGCGGCGCGATTCGGTCAACGCCAAGTTCGGCCTGGATCTGGCCGAGCGCACCCGCCTGGACCTGGTGTTCAACTACTTCGATGCGCCCGACGCGCAGGATCCGCTGGGCCTGACCCGCGCCCAGTACCAGGCCGATCCGCGCCAGGCGACCTCGGTGGCGTACCAGTACGACACCCGCAAATCGGTGCGCCAGGCCCAGGCCGGCGCGGTGCTGACCCAGCGTTACGACAGCCAGACGCTGCGGGTGATGGCCTACGCGGGCCAGCGCGAGGTGGAGCAGTTCCAGTCGATCCCGGCCTCGGTGCAGGCCAATCCGCTGCACGCCGGTGGGGTGATCGACCTGGACGGCGATTACGGCGGCGTGGATGCGCGCTGGGCCTGGCACGGCAACCTGCTCGGGCGGCCGCTGGAGCTGACCGTCGGCGCCAATGCCGACCGCCAGGTGCAGACCCGGCGCGGCTACGAGAACTTCGTCGGCAGCACGCTCGGGGTGAAGGGCGCGCTGCGCCGCGACCAGCGCGACCGGGTCGAGAACGTGGACCAGTTCGCCCAGGCCTGGTGGCAGTGGAGCGCGCGCTGGTCGGCGCTGCTCGGCGTGCGCCACAGCGAGGTGCGCTTCCGTTCGGCCGACCACTACCTCACCGCGTCCAATCCGGATGACAGCGGCAGCCGCGATTACGGCGCGACCTCGCCGGTGGCCGGGGTGGTGTTCAAGGCCAGCGACGCCCTGCGCCTGTACGCCTCGGCCGGACGCGGCTTCGAGACCCCGACCTTCAACGAGCTGGGCTACCGCAGCGATGGCGGCGCCGGGCTGGCGCTGAACCTGTCGGCGGCGCGCAGCCGCAACTACGAGGTCGGCGCGAAGTGGCGCGACCAAGCCGGCACCCAGCTGAACCTGGCGCTGTTCCGCACCAACACCGACGACGAGCTGGCGGTGGCCTCCAACACCAACGGCCGCAGCACCTACCACAACATCGGCCGCACCCGCCGCCAGGGCGTGGAGCTGGAATACCTGCAGCCGCTCGGCCAGACCCAGCAGCTGCAGCTGTCCTACACCTACCTCGATGCGACCGTGCGCGAGGGTTACCTGACCTGCTCCGGCAGCGGCTGCGCCACCCCCAACACGCTGGTCGCGGCCGGCTCGCGCCTGCCCGGCATCCCGCGCCAGCAGCTGTTCGCGCGCTGGCAGTGGCAGCCGGCGGTGTGGCAGTTCGCGGTCGAGGGCGAGGCCTCCGGCGACACCGTGGTCAACGACCTCAACACCGCCGCCGCGCCCGGCTACGCGCTGGTCAACCTGGAAGCGGCGCGGCGCTGGCGCACGCGCCACGGCGCCCTGCGCGCGTTCGCGCGCGTGGACAACCTGTTCGACCGCGACTACATCGGTTCGGTGATCGTCAACGACGGCAACGGCCGCTTTTACGAACCGGGTCCGTCGCGCGGCTACACGCTCGGCCTGCAGTGGGAGTTCGGCGGCTGA	MHFSPSPLLCGLLAAGLAPGVHAQALDDRISTLSPVQVDAARVQDVDDFDLPASLTAVAVDRDLDNRGAQVSEVLDGIPGVVARERQNYAQDTQLSIRGFGARSTFGVRGVRLYVDGVPATMPDGQAQLSHFNVLGAERIEVLRGPFSALYGNSSGGVLQLWSADGEAGDPWRLRTTYGAYGTSSTGAQLLGQQGRVHYNIAANHFETEGWRDHSRARRDSVNAKFGLDLAERTRLDLVFNYFDAPDAQDPLGLTRAQYQADPRQATSVAYQYDTRKSVRQAQAGAVLTQRYDSQTLRVMAYAGQREVEQFQSIPASVQANPLHAGGVIDLDGDYGGVDARWAWHGNLLGRPLELTVGANADRQVQTRRGYENFVGSTLGVKGALRRDQRDRVENVDQFAQAWWQWSARWSALLGVRHSEVRFRSADHYLTASNPDDSGSRDYGATSPVAGVVFKASDALRLYASAGRGFETPTFNELGYRSDGGAGLALNLSAARSRNYEVGAKWRDQAGTQLNLALFRTNTDDELAVASNTNGRSTYHNIGRTRRQGVELEYLQPLGQTQQLQLSYTYLDATVREGYLTCSGSGCATPNTLVAAGSRLPGIPRQQLFARWQWQPAVWQFAVEGEASGDTVVNDLNTAAAPGYALVNLEAARRWRTRHGALRAFARVDNLFDRDYIGSVIVNDGNGRFYEPGPSRGYTLGLQWEFGG	PGPT0003790_21592	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_02729	612	flgH_1		Flagellar L-ring protein	ATGAAGGCTGCTCTGGCCCTGCCGCTGCTCGTCCTGGCGATCCTGCCGCTGGTCGGCTGCTATCCGCTGTACCTGCAGACCCAGCAGGCGCGCCAGGCCGTGGGCAACTACGAGGACCGCCGCGCGGCGAAGCGGCCGCTGCCGCAGACCGCGGTCGAGTACGCACCCGAAGCGCCGCCGCCGGTGTCGGCGACGCCGGTCGAGGGCGGCGAGCCGGATGTGGGGCGCCTGCTGCAGGTCGACTTCGAGGACGCCGCCAGCGTGCGCACCTACGGCGTGCAGGAGGTGCGCAGCCGCGGCGGCGTGCTCGACAACCCGCTGACCGAGCTGCTGCACCGCGGTGGCGGCGGCATGGCGGTGACGGTGGTGCGGCGCATGTACGACGGCCGCCTGCTGGTGCGCGGCGAGAAGCCGCTGCGCGACGCCGACGGCGGCGGCACGATGCAGCTGGAGGGCATCGTCGATCCGCGCGATATCGCCCGCAACGGCAGCGTGGCGTCCAACCGCATCGCCGAAGCCCGGCTGGGCTACGTCGGCGGCAGCGGCCGTGGCCGCCCGCTCGCGGTCGAGGAGATGGCGCACTACTTCCAGGGTGGCGGCGGGTTGAACTGA	MKAALALPLLVLAILPLVGCYPLYLQTQQARQAVGNYEDRRAAKRPLPQTAVEYAPEAPPPVSATPVEGGEPDVGRLLQVDFEDAASVRTYGVQEVRSRGGVLDNPLTELLHRGGGGMAVTVVRRMYDGRLLVRGEKPLRDADGGGTMQLEGIVDPRDIARNGSVASNRIAEARLGYVGGSGRGRPLAVEEMAHYFQGGGGLN				NA	NA	NA	NA	NA
BMS020_02730	189			hypothetical protein	ATGTTGAGGACGTGGATCGAGATCGGACTGATGCTGGCCGGTGCGGTGACGCTGACCGTGGGCTATCGACGCAACAGCCGCAACGTGCTGCTGGCCGGCGCGCTGCTGCTGTTCGCCAGCGGCACCGCGGTGGATTTCGTCCGCGGCGTCGGTGATGGCTGGAAGCAATCCACCGCGCAAACGCTGTAG	MLRTWIEIGLMLAGAVTLTVGYRRNSRNVLLAGALLLFASGTAVDFVRGVGDGWKQSTAQTL				NA	NA	NA	NA	NA
BMS020_02731	1905	acoR_2	COG3284	Acetoin catabolism regulatory protein	GTGGCGACCCCGCAATCGCAGTTCCGGCTCGGCCAGGCGCGGCGCTCGTTTTTCGAGCGTGGCAACAACCCGGTCGGGCAGGTCCCCGAGACCATCCTGCAGTCGTGGCGGCGTTGCCGCCGCGCCGGGCTGCCCACCGAGGGCACCACGGCGATCGAACCGGTGACCAGCACGCGCCTGCGCGAGATGCGCGAGCGCCACGAGACCCTGTGGCGGCTGGCGCGCGCCGAACTGGAGGGACTGGCCGCCGACGCGGTGGCCACCGGCAGCGTGGTGCTGCTGACCGACGAGTCGGGCTGGATCCTCGATGCCGAGGGCAGCTCCGGCTTCCTCGACCGCGCCGGCCGCGTGGCACTGATGCCCGGTGCCTGCTGGGGCGAGGCCCAGGCCGGCACCAACGCGATCGGTACCGCGATCGTCGAAGCGCGCCCGGTCGAGGTACGCGGCGGCGAGCACTACCTGGCGCCGAACGGCATCCTCAGCTGCGCCGCTTCGCCGATCTTCGACCCGTACGGCCAGCTGGTCGGCGTGCTCGACATCTCCGGCGACGCGCGCACCCAGCACCTGCATGCGCTGGCGCTGGCGCGGCGCGCGGTGGCCAGCATCGAGCACCGCTATTTCGATGCCGGCATCGCCGGCTGCGAGCTGTTGCGCGTACACCACGACCCGGCCCTGCTGGGCACCGCGCGCGAGGGCCTGCTGGCATTCCGCAGCGGGCGCCTGGTCGCCGCCAACCACGCCGGCCTGCAGCTGTTCGGGCTGGAGCGCGAGGAGCTGGGGCGCGCGCGCTACGAGGCGATGTTCGAAGAACCGCTGGCGCGGCTGCGTGCAGACGGCGCGCTGTTCGACCGCCAGGGGCGGGCGCTGTATGGCCGCGTCGATGCCGAGGGCGATGCGCCGCCACGGCTGCCACGGCGCGGCGCCGGCTCGCCGATCCGGATCAGCACCGCGGCGGCGGCGGCGCCGGCCGCGCCGGCCGACGGGCCGTTGTTCGATGCCGGCACCGCGGCGATGCTGGCGCAGGCGCGGCGCGTGCTCGACGCCGAGCTGCCGGTGCTGGTGCAGGGCGAGACCGGCTGCGGCAAGGAAGTCTTCGCGCGCGAACTGCACCGACGCAGCGGGCGCGCCGGCAAGGCCTTCGTCGCGGTGAACTGCGCGGCGCTGCCGGAGGGGCTGATCGAGGCCGAGCTGTTCGGCTACGAGGAGGGCGCCTTCACCGGCGCGCGCAAGCACGGCAGCCCCGGCCTGCTGCGCCAGGCCGACGGCGGCGTGCTGTTCCTGGACGAGATCGGCGACATGCCGCTGGCGCTGCAGCCACGGCTGCTGCGCGTGCTGCAGGAGCGCGAGCTGTCGCCGCTCGGCGGCGGCAAGCCGGTCAAGCTGGATTTCGCCCTGGTCTGCGCCACCCACCAGGACCTGGAGCGGGCGATCGCCGACGGCCGCTTCCGCGCCGACCTGTACTACCGCATCGCCCACCACGTGGTGCAGCTGCCGGCGTTGCGCGAGCAGGGCGGGCGCGCGCCGCTGGTGCAGGCGCTGTGGCAGCGGCTGGCCGGCACCCGCACGCTTGACGACGAGGCGCTGCAGGCGCTGGCCGATTACGCCTGGCCGGGCAACCTGCGCCAGCTGGTGGCCTGCCTGCGCACGCTGGTGGCGCTGAGCGAGCCGGGTGCGCAGCTGGGCCGCGAGGCGCTGCCCGGCTACGTGGCCACGCGCACGTCGGCACCGGCGACACCGCCGGCGCAGCGCGCCGACGACGCACGCCTGGACAGCCTGCAGCAGGCGGCGATGCGCCAGGCGCTGGACGCCTGCCACGGCAATGTCAGCCACGCCGCCAAGCGGCTGGGGGTCAGCCGCAGCACGCTGTACCGGCGGCTGGGGCTGGGCAGGACGGCCGGGTCATAA	MATPQSQFRLGQARRSFFERGNNPVGQVPETILQSWRRCRRAGLPTEGTTAIEPVTSTRLREMRERHETLWRLARAELEGLAADAVATGSVVLLTDESGWILDAEGSSGFLDRAGRVALMPGACWGEAQAGTNAIGTAIVEARPVEVRGGEHYLAPNGILSCAASPIFDPYGQLVGVLDISGDARTQHLHALALARRAVASIEHRYFDAGIAGCELLRVHHDPALLGTAREGLLAFRSGRLVAANHAGLQLFGLEREELGRARYEAMFEEPLARLRADGALFDRQGRALYGRVDAEGDAPPRLPRRGAGSPIRISTAAAAAPAAPADGPLFDAGTAAMLAQARRVLDAELPVLVQGETGCGKEVFARELHRRSGRAGKAFVAVNCAALPEGLIEAELFGYEEGAFTGARKHGSPGLLRQADGGVLFLDEIGDMPLALQPRLLRVLQERELSPLGGGKPVKLDFALVCATHQDLERAIADGRFRADLYYRIAHHVVQLPALREQGGRAPLVQALWQRLAGTRTLDDEALQALADYAWPGNLRQLVACLRTLVALSEPGAQLGREALPGYVATRTSAPATPPAQRADDARLDSLQQAAMRQALDACHGNVSHAAKRLGVSRSTLYRRLGLGRTAGS	PGPT0001030_1340	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001030-acoR-K21405	NA	NA
BMS020_02732	1530	adh_2	COG1012	Aldehyde dehydrogenase	ATGAATGCCGTCACCTCCGCCAAGGCGCTCGCCACCGACCCGCAGTCGATCTTCAAGTCGCGCTACGGCAACTTCATCGGCGGCAAGTGGGTCGAGCCCAAGAGCGGGCAGTATTTCGACGACACCACCCCGATCAGCGGCCAGGTCATCACCGCGGTGGCGCGCTCCAACGCCGAGGACGTGGAGGCCGCGCTCGACGCCGCGCACGCGGCCAAGGACGCCTGGGGCAAGACCAGCGCCACCGAACGCGCCAACCTGCTGCTGAAGATCGCCGACCGCATCGAGCAAAATCTCGAACTGCTGGCCTATGCCGAGACCTGGGACAACGGCAAGCCGATCCGCGAGACGCTCAATGCCGACGTGCCGCTGTGCGCCGATCACTTCCGCTACTTCGCCAGCGCGGTGCGCACCCAGGAAGGTGGCATCTCCGAGATCGACCACGACACCATCGCCTACCACTTCCACGAGCCGCTCGGCGTGGTCGGGCAGATCATCCCGTGGAACTTCCCGCTGCTGATGGCGTGCTGGAAGCTGGCCCCGGCGCTGGCCGCCGGCAACTGCGTGGTGCTCAAGCCGGCCGAGCAGACCCCGGCCTCGATCCTGGTGCTGATGGAAGTGATCGGCGACCTGCTGCCGGCCGGCGTGCTCAACGTGGTCAACGGCTTCGGCCTGGAATGCGGCAAGCCGCTGGCGAGCAATCCGCGCATCGCCAAGATCGCCTTCACCGGCGAGACCACCACCGGCCGGCTGATCATGCAGTACGCCAGCCAGAACCTGATCCCGGTGACGCTGGAGCTGGGTGGCAAGTCGCCCAACATCTTCTTCGCCGACGTGATGGCCGAGGACGACGACTTCCTCGACAAGGCGGTCGAAGGCTTCGTGCTGTTCGCCTTCAACCAGGGCGAGGTGTGCACCTGTCCGTCGCGCGCGCTGATCCAGGAGTCGATCTACGACAAGTTCATGGAAAAAGTGCTCAAGCGCGTGGCGGCGATCAAGCAGGGCAACCCGCTGGACCCGAACACGATGATCGGCGCGCAGGCCTCGTCCGAGCAGCTGGAGAAGATCCTGTCCTACATCGACATCGGCAGGCAGGAAGGCGCCGAAGTGCTGATCGGCGGCGAGCGCAACACGCTCGACGGCGATTTGGCCGGCGGCTATTACGTCAAGCCGACGGTGTTCAAGGGCCACAACAAGATGCGCATCTTCCAGGAGGAGATCTTCGGCCCGGTGGTGTCGGTGACCACGTTCAAGGAGGAGGCCGAAGCGCTGAGCATCGCCAACGACACGCTGTACGGCCTCGGCGCCGGCGTGTGGAGCCGCGACACCGGGCGCCTGTACCGGATGGGCCGGGCGATCCAGGCCGGGCGGGTGTGGACCAACTGCTACCACGCCTATCCGGCGCATGCCGCGTTCGGTGGTTACAAGCAGTCGGGCATCGGCCGCGAGAACCACAAGATGATGCTCGACCACTACCAGCAGACCAAGAATCTGCTGGTCAGCTACTCGCCGAAGGCGTTGGGTTTCTTCTGA	MNAVTSAKALATDPQSIFKSRYGNFIGGKWVEPKSGQYFDDTTPISGQVITAVARSNAEDVEAALDAAHAAKDAWGKTSATERANLLLKIADRIEQNLELLAYAETWDNGKPIRETLNADVPLCADHFRYFASAVRTQEGGISEIDHDTIAYHFHEPLGVVGQIIPWNFPLLMACWKLAPALAAGNCVVLKPAEQTPASILVLMEVIGDLLPAGVLNVVNGFGLECGKPLASNPRIAKIAFTGETTTGRLIMQYASQNLIPVTLELGGKSPNIFFADVMAEDDDFLDKAVEGFVLFAFNQGEVCTCPSRALIQESIYDKFMEKVLKRVAAIKQGNPLDPNTMIGAQASSEQLEKILSYIDIGRQEGAEVLIGGERNTLDGDLAGGYYVKPTVFKGHNKMRIFQEEIFGPVVSVTTFKEEAEALSIANDTLYGLGAGVWSRDTGRLYRMGRAIQAGRVWTNCYHAYPAHAAFGGYKQSGIGRENHKMMLDHYQQTKNLLVSYSPKALGFF	PGPT0007176_296	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007176-aldB-K00138	NA	NA
BMS020_02733	1029	adhT_2		Alcohol dehydrogenase	ATGAACAACACGATGAAGGCTGCTGTTGTCCGCGAGTTCGGCAAGCCGTTGGTGATCGAAGAGGTCCCGGTGCCGCGTCCCGCCGCGGGCGACCTGCTGGTCAAGATCGAGGCATGCGGCGTCTGCCACACCGACCTGCACGCCGCCGAGGGCGACTGGCCGGTCAAGCCGAACCCGCCGTTCATCCCCGGCCACGAAGGCGTGGGCCACGTGGTCGCGGTCGGGGCCGGCGTCACCCACGTCAAGGAAGGCGACCGGGTCGGCATCCCGTGGCTGTACTCGGCCTGCGGGCACTGCGAGCACTGCCTGGGCGGCTGGGAAACCCTGTGCGAGAGCCAGCAGAACGCCGGCTACTCGGTCAACGGTGGCTTCGCCGAATACGCGCTGGCCAACGCCGGCTACGTCGGCCACCTGCCCAAGAGCGTGGGCTTCGTCGAGGTCGCGCCGATCCTGTGCGCCGGCGTGACCGTCTACAAGGGCCTGAAGATGACCGACACCAAGCCGGGTAACTGGGTGGTGATCTCCGGCATCGGCGGCCTGGGCCACATGGCGGTGCAGTACGCCAAGGCGATGGGCCTGAACGTGGCCGCGGTCGATGTGGACGACGCCAAGCTGCGCCTGGCCGAGCGCCTGGGCGCGACCGTCACCGTGAATGCCAAGACCACCGACCCGGTGGCCTACCTGAAGAAGGAAATCGGCGGCGCGCATGGCGCGCTGGTCACCGCGGTGTCGCCGAAGGCGTTCGAGCAGGCCATCGGCATGGTCCGCCGCGGCGGCACCGTGTCGCTCAACGGCCTGCCGCCGGGCAACTTCCCGCTGGACATCTTCGGCATGGTGCTCAACGGCGTGACCGTGCGCGGCTCGATCGTCGGCACCCGCCTGGACCTGCAGGAGTCGCTGGAGTTCGCCGAGATGGGCAAGGTCAAGGCGACCGTGGCCACCGACCGGCTGGAGAACATCAACGAGGTGTTCGCCAAGATGCATGCAGGCCAGATCGAAGGCCGCATCGTGCTCGACATGGCGGCCTGA	MNNTMKAAVVREFGKPLVIEEVPVPRPAAGDLLVKIEACGVCHTDLHAAEGDWPVKPNPPFIPGHEGVGHVVAVGAGVTHVKEGDRVGIPWLYSACGHCEHCLGGWETLCESQQNAGYSVNGGFAEYALANAGYVGHLPKSVGFVEVAPILCAGVTVYKGLKMTDTKPGNWVVISGIGGLGHMAVQYAKAMGLNVAAVDVDDAKLRLAERLGATVTVNAKTTDPVAYLKKEIGGAHGALVTAVSPKAFEQAIGMVRRGGTVSLNGLPPGNFPLDIFGMVLNGVTVRGSIVGTRLDLQESLEFAEMGKVKATVATDRLENINEVFAKMHAGQIEGRIVLDMAA	PGPT0006365_1678	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006365-adhP-K13953	NA	NA
BMS020_02734	414			hypothetical protein	ATGGCCGTCCCGAGCGCACCGCCACCGATCGCCACCGCCACCGCGCCGCCGCCGCAGGTGATCGCGACGCTGGCGGCGCTGCAGCTGATCGAGCGCCTGCGCGGCAAGCACGGGGCGCTGCTGTTCCACCAGTCCGGTGGTTGCTGCGACGGCTCCTCGCCGATGTGCTTCCCGGTCGGCGATTTCATCGTCGGCGACCGCGACGTGCTGCTTGGCCAGATCGGCGGCGCCGAGTTCTACATCAGCCCATCGCAGTTCGAATACTGGAAGCACACCCAGCTGATCATCGACGTGGTCGAAGGCCGCGGCGGCATGTTCTCGCTGGAGAACGGCGAAGGCGTGCGCTTCCTGGTGCGCTCGCGGCTGTTCAGCGACGTCGAGTTCGCCGCGCTGCAGGCCGCCGGGCGCGCCTGA	MAVPSAPPPIATATAPPPQVIATLAALQLIERLRGKHGALLFHQSGGCCDGSSPMCFPVGDFIVGDRDVLLGQIGGAEFYISPSQFEYWKHTQLIIDVVEGRGGMFSLENGEGVRFLVRSRLFSDVEFAALQAAGRA				NA	NA	NA	NA	NA
BMS020_02735	399			hypothetical protein	ATGGCCACGCGCCCCGTCGAACGTCGTCCCGACCGCCGCCTGTTCACCGCGACCGCCTCCGGGCCGGGCGCGCCGCCGCGGCGCATGCCGCGCGCCGATCCCGGCGCGATCGCCCAGGACTTCCACCACTACAGCCTGGCCGACTACCAGCGCCGTCGCCGCCGCGGCGGGCCGAGCTGGCGCGACCTGCAGCCGGCCTATGCGTTCGCCCGGCTGACCCACGCCGCCGACTGGCCGCGCGCGGCCGCCGATGGGGCCGAGGACGAGCTGGCCTCGCAGTGGGAACGCATGCGCGGCGCCTCGCGGCTGAGCTGGTCGCGCGCGCGCCCGGTGGTCGAGGACGCCTGGCTGGCGCTGGACCATATTCCGACCGCCGCGGTGCACGCCGGCCCGCATTGA	MATRPVERRPDRRLFTATASGPGAPPRRMPRADPGAIAQDFHHYSLADYQRRRRRGGPSWRDLQPAYAFARLTHAADWPRAAADGAEDELASQWERMRGASRLSWSRARPVVEDAWLALDHIPTAAVHAGPH				NA	NA	NA	NA	NA
BMS020_02736	426			hypothetical protein	ATGCTGCCGGAACTGCTGGTCAGTTCGTTGCTGGTGATCGCCACCGTGCTGATCCACAACTTCGGCCTGTACGGGCTGGAGCGGGTCTGGCCGCCGGAGGCGCGGCTGCGCGCGGACGCCGGCAAGGGCCACGGCGCCGGCTGGAAGCTGCTGTATCCGCCGGTGCTGGTATTGGGGCTGATCGTGGTGCACGCCGCGGAGATCTGGCTGTACGCGGTGGTGCTGCTGCACCTGGAGGCGGTCACCAGCATGCGCGACGGCATCTACTACTCGACCATCAGCTACGCCGCGATCGGCTACAGCGATGCGGCGATCGCGCCGCAGTGGGCGCTGGTCGGCGCGCTCGAAGGCATCAACGGGCTGATCCTGCTCGGCTGGTCCACCGCGTTCTTCGTGTCGATGATCGGGCGCCGGCGCGACGACTGA	MLPELLVSSLLVIATVLIHNFGLYGLERVWPPEARLRADAGKGHGAGWKLLYPPVLVLGLIVVHAAEIWLYAVVLLHLEAVTSMRDGIYYSTISYAAIGYSDAAIAPQWALVGALEGINGLILLGWSTAFFVSMIGRRRDD	PGPT0013815_22	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013815-lctB-K08713	NA	NA
BMS020_02737	1731	dld_2	COG0277	Quinone-dependent D-lactate dehydrogenase	ATGACTGTTTCCTCCCCGGTCTCCTCCGACACGCTGCTGCAGCAGCTGCGCGATGCGGTCGGCAGCGGCCACGTACTCACCGGCGACAAGGCCACGCGGCGCTTCCGCAAGGGCTACCGCTTCGGCGACGGCCCGGTGCTGGCGGTGGTGCGGCCGGGCACGCTGGTGGAGCTGTGGCGCGCGCTGCAGGCCATCGTCGCCGGCGGGCGCATCGTCATCATGCAGGCCGCCAACACCGGCCTGACCGGCGGCTCCACGCCCGATGGCGACGACTACGACCGCGAGATCGTGCTGGTCAGCACGCTGCGCCTGGCCGGGGTGCAGCCGATCCACGACGGCCGCCAGGTGGTATGCCTGCCCGGCGCCACGCTGGACCGGCTGGAACAGGTGCTGCGCCCGCTCGGACGCGAACCGCACTCGGTGATCGGCTCGTCGTGCATCGGCGCCTCGGTGCTGGGCGGGATCTGCAACAACTCCGGCGGTGCGCTGGTGCGGCGCGGCCCGGCCTACACCCAGCTGGCGTTGTACGCGCAGCTCGATGGCGAGGGCCGCCTGCAGCTGGTCAACCACCTCGGCATCCGCCTGGGCGATGCGCCCGAGCAGGTCCTGGCGCGGCTGCAGGCCGGCGACTATGCCGAGGCCGACATCGTCGACGATCCGGCGCTGGCCGCCTCCGACCCGCTCTACGCCCAGCACGTGCGCGACGTCGACGCGCCGACCCCGGCGCGCTACAACGCCGATCCGGCGCGCCATTACGAAGCCTCCGGCTCGGCCGGGCGGCTGTGCGTGTTCGCGGTGCGGCTGGATACCTTCGCGCGCGAGGACAGCACGGTGTTCTACATCGGCAGCAACGCCCCGGAAGACCTCACCGCGATCCGCCGCGAGCTGCTGACCACGATGGCCGAGCTGCCGATCGCCGGCGAATACATCCACCGCGACGCCTACGACATCGGCGAGAAGTACGGCAAGGACAGCTTCCTGCTGATCGACAAGCTCGGCACCGACAAGGTGCCGCGCGCGTTCGCGCTGAAGAGCCGGATCGACGGCGTGTTCGAATCGCTGGGCCTGCGCGGGGTGACCGACCGGGTGATCCAGGTGCTGATGGACCTGCTGCCCAGCCACCTGCCGGCGCGCATGCGCGACTTCCGCGACCGCTACGAGCACCACCTGCTGCTGCGCGTGGCGCAGCGCGACGCCGGCTGGACCGAGTTCTTCCTCAAGCAGCACTTCGCCGCCAGCAGCAGCGGCGGCTTCTTCACCTGCGATGCCGAGGAGGGCCGCAAGGCGTTCCTGCACCGCTTCGCGGTGGCCGGCGCGGCGGTGCGCTACCGCGAGGTGCACCGGCGCCAGGTCGAGGACATCGTCGCGCTGGACGTGGCGCTGCGCCGCAACGACCGCGACTGGGTAGAGGCGCTGCCGGCGCAGATCGATGCGACCTTCGTGCACAAGCTGTACTACGGCCACTTCTTCTGCCACGTGTTCCACCAGGACTACATCGTGCGCAAGGGCCATGACCCGCTGGCGATCGAACACGCGATGTGGGGCCTGCTCGACCACCGCGGTGCCGAGTACCCGGCCGAACACAACGTCGGCCACCTGTACCGCGCCAAGCCGGCGCTGGAGCGCCACTACCGCGCGCTGGACCCGACCAACAGCTTCAATCCCGGCATCGGGCAGACCAGCAAGCAACGCCGTTGGGGCGAGGCGGACTGCTGCGACGGCCACCACTGA	MTVSSPVSSDTLLQQLRDAVGSGHVLTGDKATRRFRKGYRFGDGPVLAVVRPGTLVELWRALQAIVAGGRIVIMQAANTGLTGGSTPDGDDYDREIVLVSTLRLAGVQPIHDGRQVVCLPGATLDRLEQVLRPLGREPHSVIGSSCIGASVLGGICNNSGGALVRRGPAYTQLALYAQLDGEGRLQLVNHLGIRLGDAPEQVLARLQAGDYAEADIVDDPALAASDPLYAQHVRDVDAPTPARYNADPARHYEASGSAGRLCVFAVRLDTFAREDSTVFYIGSNAPEDLTAIRRELLTTMAELPIAGEYIHRDAYDIGEKYGKDSFLLIDKLGTDKVPRAFALKSRIDGVFESLGLRGVTDRVIQVLMDLLPSHLPARMRDFRDRYEHHLLLRVAQRDAGWTEFFLKQHFAASSSGGFFTCDAEEGRKAFLHRFAVAGAAVRYREVHRRQVEDIVALDVALRRNDRDWVEALPAQIDATFVHKLYYGHFFCHVFHQDYIVRKGHDPLAIEHAMWGLLDHRGAEYPAEHNVGHLYRAKPALERHYRALDPTNSFNPGIGQTSKQRRWGEADCCDGHH	PGPT0001900_513	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0001900-dld-K03777	NA	NA
BMS020_02738	1146	lldD_2	COG1304	L-lactate dehydrogenase	ATGATCATCTCCGCCTCCACCGACTACCGCGCCGCCGCGCAACGGCGGCTGCCGCCGTTCCTGTTCCACTACATCGACGGCGGCGCCTACGCCGAGCATACGCTCAGGCGCAACGTGGCCGACCTGGAGGAGGTGGCGCTGCGCCAGCGCATCCTGCGCAACATGACCGGGCTGGACACCTCCACCGAACTGTTCGGCGAGCGCCTGGCGATCCCGGCGGCGCTGGCGCCGGTCGGCTTGACCGGCATGTACGCGCGCCGCGGCGAGGTGCAGGCGGCGAAGGCCGCGGCCGCGCGCGGCATCCCGTTCACCCTGTCCACGGTGTCGGTGTGCCCGATCGAGGAAGTCGCGCCGGCGATCGACCGGCCGATGTGGTTCCAGCTGTACGTGCTCAAGGACCGCGGCTTCATGAAGAACGCGCTGGAGCGCGCGCAGGCCGCCGGCTGCAGCACCCTGGTGTTCACCGTCGACATGCCCACGCCGGGCGCGCGCTACCGCGACGCACACTCGGGCATGAGCGGGCCGAACGCCGCGCTGCGGCGCATGCTGCAGGCCGCGACGCATCCGCGCTGGGCCTGGGACGTCGGCCTGCGCGGGCGCCCGCACGACCTTGGCAACATCTCCACCTACCGCGGCGCGCCGACCGGCCTGGCCGACTACATCGGCTGGCTGGCCGGCAACTTCGATCCGTCGATCTCGTGGAGGGACCTGGAGTGGATCCGCGCGTTCTGGAAGGGGCCGATGGTGATCAAGGGCATCCTCGATGCCGAGGACGCCAAGGACGCGGTGCGTTTCGGCGCCGACGGCATCGTGGTCTCCAACCACGGCGGCCGCCAGCTCGACGGCGTGCTGTCCAGCGCGCGCGCGCTGCCGGCGATCGCCGATGCGGTGAAGGGCCAGATCAAGCTCCTGGCCGATTCGGGCGTGCGCAACGGCCTGGACATCGTGCGCATGCTGGCGCTCGGCGCCGACGCGGTGCTGCTCGGCCGCGCCTTCGTCTATGCGCTGGCCGCGGCCGGCCAGCCCGGCGTGGACAACCTGCTGGGCCTGCTGGAGAAGGAGATGCGCGTGGCGATGACGCTGACCGGTGCGCGCACCGTGGCCGACATCGGCCGCGATTCGCTCGCGGCGCTGTCGGCCGCGTGA	MIISASTDYRAAAQRRLPPFLFHYIDGGAYAEHTLRRNVADLEEVALRQRILRNMTGLDTSTELFGERLAIPAALAPVGLTGMYARRGEVQAAKAAAARGIPFTLSTVSVCPIEEVAPAIDRPMWFQLYVLKDRGFMKNALERAQAAGCSTLVFTVDMPTPGARYRDAHSGMSGPNAALRRMLQAATHPRWAWDVGLRGRPHDLGNISTYRGAPTGLADYIGWLAGNFDPSISWRDLEWIRAFWKGPMVIKGILDAEDAKDAVRFGADGIVVSNHGGRQLDGVLSSARALPAIADAVKGQIKLLADSGVRNGLDIVRMLALGADAVLLGRAFVYALAAAGQPGVDNLLGLLEKEMRVAMTLTGARTVADIGRDSLAALSAA	PGPT0001765_1512	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0001765-lldD-K00101	NA	NA
BMS020_02739	795	lldR_3	COG2186	Putative L-lactate dehydrogenase operon regulatory protein	ATGGGCAGCGTGCACCCCAGCGCCGACAATGGCGCGATGAAACCGAATCGCCTGTCCGATCGTGTGGCCGAGCAGCTGCGCAGCCTGATCACCGAACGCCAGCTGCAACCCGGCGACCGCCTGCCGGCCGAGCGCGCGCTGGCACTGGAGCTGGGCGTCTCGCGCACCGCGCTGCGCGAGGCGATCGCGCAGCTGGCCAGCCAGGGACTGCTGCGCGCGCGCGTCGGCGGCGGCACCTATGTGCAGGCCGCCACGCACGTGCAGGCGCTGGCCGAACCGCTGGCGCCGTACCTGCCGCTGTTCCAGGGCGATCCGGAATACCGCTTCGACGTGCTGGAGATCCGCCACGCGCTGGAAGGCGCCACCGCCTGGCATGCGGCGCTGCGCGCCACCGACGACGACCGCGCGCGCATCCGCGCCGCGTTCGAGACGATGATGGCCGCGCACGGCCACGACGATCCGGCCGCCGAGGCGCGTGCCGACGCCGCCTTCCACCTCGCCATCGCCGAGGCCTCGCACAACCTGGTGCTGCTGCAGGTGATGCGCGGGCTGTTCGAGCTGCTGCAATCCAACATCTCGCAGAACCGCGAGAAGCTCTACACCTCGCCGCGCACCTTCGCGCCGCTGTCGGTGCAGCACCGCGAAATGATGGACGCGGTGCTGGCCGGCGATGCCGAACGCGCGCGCGCCGCCGCGCAGGACCACCTGGAATTCGTCCACAGCTCGCTGCGCGGCATCGACGAGGACGAGGCGCGCCGCGCGCGTGCCTCGCGCCTGCCCCCTTCCCACGGTTGA	MGSVHPSADNGAMKPNRLSDRVAEQLRSLITERQLQPGDRLPAERALALELGVSRTALREAIAQLASQGLLRARVGGGTYVQAATHVQALAEPLAPYLPLFQGDPEYRFDVLEIRHALEGATAWHAALRATDDDRARIRAAFETMMAAHGHDDPAAEARADAAFHLAIAEASHNLVLLQVMRGLFELLQSNISQNREKLYTSPRTFAPLSVQHREMMDAVLAGDAERARAAAQDHLEFVHSSLRGIDEDEARRARASRLPPSHG	PGPT0018120_188	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018120-lldR-K14348	NA	NA
BMS020_02740	1728	lldP_1	COG1620	L-lactate permease	ATGCCCCGCCCCACGTTCTCCGCGGACGGCGCGCTGATGCCGCTGCCCGCATCCCTGGGAGGGGACATGCAGGCCTGGAACCAACTCTACGATCCCGCGGGCAATCTCTGGCTTTCCAGCCTGGTCGCGCTGTTGCCGATCGCCTTCTTCTTCGTCGCCCTCGCCGTGCTGCGGATGAAGGGCTGGCTGGCCGGCACCCTGACCGTGGCGATCGCGCTCGGCGTGGCGCTGCTGTTCTACGGCATGCCGGTCGAGCGCGCGCTGGCCGCGGGCCTGTACGGCTTCTTCTACGGGCTGTGGCCGATCGCCTGGATCATCATCGGCGCGGTATTCCTCTACAAGGTCTCGGTGGAGACCGGCCAGTTCGACATCATCCGCGCCTCGATCCTGTCGATCACCCAGGACCAGCGCCTGCAGATGCTGCTGGTCGGCTTCTCCTTCGGCGCGTTCCTGGAAGGCGCCGCCGGCTTCGGTGCACCGGTGGCGATCACCGCCGCGCTGCTGGTCGGGCTGGGCTTCAAGCCGCTGTACGCGGCCGGGCTGTGCCTGATCGTCAACACCGCGCCGGTGGCGTTCGGCGCGATGGGCATCCCGATCATCGTCGCCGGCCAGGTCACCGGTCTGGACCCGATGCACATCGGCATGATGGCCGGCCGCCAGCTGCCGTTCCTGACCATCATCGTGCTGTTCTGGATCATGGCGATCATGGACGGCTGGCGCGGCATCAAGGAGACCTGGCCGGCGGTGCTGGTGGCCGGTGGCGCATTCGCGATCGCCCAGTACCTGACCTCCAACTTCGTCGGTCCGGAACTGCCGGACATCACCGCCTCGCTGGCCTCGCTGGTGTGCCTGACGCTGTTCCTGCGCCGCTGGCAGCCCAAGCGCATCTTCCGCTTCGCCGAGGCCGACGCGCAGCGCGATGCCGGCGTGCAGGCGCAGGCGCAGCGCCGCTACGGCGCCGGCCAGGTCGCCAAGGCGTGGTCGCCGTTCCTGATCCTCACCGCGATGGTCACGCTGTGGAGCATCAAGCCGTTCAAGGCGCTGTTCGCCGCTGGCGGCGCACTGGAAACCTGGGTGCTGAAGCTGCACGTGCCGGGGCTGGACGCGCTGGTGCAGAAGATGCCGCCGGTGGTCGCCAAGCCCACCGCCTACGAGGCGGTCTACAAGTTCGACTGGTTCTCCGCCACCGGCACCGCGATCCTGATCGCCGCGCTGCTCAGCATCGTGCTGCTGAAGATGAAGCCGGCCAGCGCGCTGCGCACCTTCGGCGCGACGCTGAAGGAGCTGCGCACGCCGATCTATTCGATCGGCATGGTGCTGGCGTTCGCGTTCATCGCCAACTACTCCGGGCTGTCGGCGACGCTGGCGCTGGCGTTGGCCCACACCGGCCACGGCTTCACCTTCTTCTCGCCGTTCCTGGGCTGGCTGGGCGTGTTCCTGACCGGATCGGACACCTCGGCCAACGCACTGTTCGCCGCGCTGCAGGCGACCACCGCGCAGCAGATCGGCGTGCCCGACGTGCTGCTGGTGGCGGCCAACACCACCGGCGGCGTCACCGGCAAGATGATCTCGCCGCAGTCCATCGCCATCGCCTGCGCGGCGGCCGGCCTGGCCGGCAAGGAGTCGGACCTGTTCCGCTTCACCGTCAAGCACAGCCTGATCTTCTGCGTGATGGTCGGCCTGATCACCACGCTGCAGGCCTACGTGCTGCCGTGGATGATTCCCTGA	MPRPTFSADGALMPLPASLGGDMQAWNQLYDPAGNLWLSSLVALLPIAFFFVALAVLRMKGWLAGTLTVAIALGVALLFYGMPVERALAAGLYGFFYGLWPIAWIIIGAVFLYKVSVETGQFDIIRASILSITQDQRLQMLLVGFSFGAFLEGAAGFGAPVAITAALLVGLGFKPLYAAGLCLIVNTAPVAFGAMGIPIIVAGQVTGLDPMHIGMMAGRQLPFLTIIVLFWIMAIMDGWRGIKETWPAVLVAGGAFAIAQYLTSNFVGPELPDITASLASLVCLTLFLRRWQPKRIFRFAEADAQRDAGVQAQAQRRYGAGQVAKAWSPFLILTAMVTLWSIKPFKALFAAGGALETWVLKLHVPGLDALVQKMPPVVAKPTAYEAVYKFDWFSATGTAILIAALLSIVLLKMKPASALRTFGATLKELRTPIYSIGMVLAFAFIANYSGLSATLALALAHTGHGFTFFSPFLGWLGVFLTGSDTSANALFAALQATTAQQIGVPDVLLVAANTTGGVTGKMISPQSIAIACAAAGLAGKESDLFRFTVKHSLIFCVMVGLITTLQAYVLPWMIP	PGPT0001805_76	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_LACTATE_TRANSPORT,PGPT0001805-ldlP|lctP-K00427	NA	NA
BMS020_02741	570			hypothetical protein	ATGCACCTGCCCGACACGTTGTTCCTGCTGCTCAACCTGGCCTGGGGCGGCTACGAAGTCCTGATCAGCCATCGCCGCCGCGCCGCCGATGGCGGTGCCCGCGACCAGGGCACGCTGAAGCTGCTGTGGACGGTGCTGTACGGCGCGATCGCGCTGGCGGTGACCGCGGCGGTGTTCGGCATCGGCCGCCTGCCGCACGCGCTGCTGGAACCGCTGAAGTGGAGCGGCTGCGCGTTGATCGCTGGCGGATTGGCGCTGCGGCTGTGGGCGATCCATGTGCTCGACCGCTGGTTCACCGTCGACGTGACCATCCAGGACGGCCACCAGCTGGTGCAGCACGGCCCGTACCGCTGGCTGTGCCACCCGTCCTACACCGGCGCGCTGATGGCCTTCGCCGGGCTGGGCCTGGGGCTGGGCAACGTGCTGTCGCTGCTGCTGGTGCTGCCGGCCGCGGTGTGGGCGTTCCAGCGCCGTATCCGCGTCGAGGAAGCGGCGCTGCACGACGGCTTCGGCGCCGCCTACGCCGGCTATGTCGCCGCGCGCTGGCGGCTGTTGCCGTGGGTGTGGTGA	MHLPDTLFLLLNLAWGGYEVLISHRRRAADGGARDQGTLKLLWTVLYGAIALAVTAAVFGIGRLPHALLEPLKWSGCALIAGGLALRLWAIHVLDRWFTVDVTIQDGHQLVQHGPYRWLCHPSYTGALMAFAGLGLGLGNVLSLLLVLPAAVWAFQRRIRVEEAALHDGFGAAYAGYVAARWRLLPWVW				NA	NA	NA	NA	NA
BMS020_02742	1239			hypothetical protein	ATGGATGGCTTGCCGGCAGTGTGTGCGCGCCGCCGCCACGGCGCAGTTGCCGCAGGTCACCCGGGCGTGGTGCCGGAAGTCACTTTCCGCGCCCGCCCCATTGCCGGCGCCAGCCGCGGCGGGCAGCATCGGCGCATGCCCCGCTTCCTGCGCGAACTGCTGCAACCGATGAGCCTGGCCGGCCTGATCACTATCGGCGCGGTGGTGCTGTCGTTCGGCTTCGGCGATTCGCCGCATGGCGCGCTGCGCTGGCTGGTGCTCGGCGCGTTCACCGTGCTGTTCCTCGGCCACGACCTGCTGCCCTGGGCCTGGTCGCGGCACGTGGCGCTGGTGCTGCAGGCCATCGCGGCGCTGGCGCTGGTCTGGCTGGAACCGCGCGCCGGCACCGCACCGGTGCTGCTGGTGATGGTGATCGCGGCAGCGGCGATGTGCTGGCCACGCTGGGTGGTGGCGTTGCTGGCGCTGGTGCTGGATATCGGCATGTACCTGGCGCTGGTGCAGTCCGGCTATGCCGACCGCGCCTGGCTGGTGGTGGCGGTGTACGCCAGCTTCCAGGCGTTCGCCGCGTTGACCGCCTATTACGCGGTCAACGCCACGCGTGCGCGCGATGCGCTGGCCCGCGTCAACGCCGACCTGCTCGCCACCCGTGCGCTGCTCGCCGACAGCGCGCGCGATGCCGAGCGGTTGCGGCTGGCGCGCGAACTGCACGACGTGGCCGGGCACAAACTCACCGCGATGCGGATCAACCTGCGCATGCTCGCGGCCGATCCGCAGCTGGCCGGACGCGAGGAGATCGCCCTGGCCGAACGGTTGTCGGCCGAGCTGCTCGGCGACATCCGCGCGGTGGTGCAGTCGCTGCGCGACGACCGCGGGCTGGATCTGGCAACCGCCTTGCACGCGCTGGCCGCGCCGTTCCCGCGCCCGCGCCTGCGCGTGGACATCGCCGAGCACGTGCGCGTCACCGATCCGCTGGTGGCCGAGGCGCTGCTGCGGCTGGTGCAGGAGGCGCTGACCAACGCCGCGCGGCATGCCGATGCCGACCATGTCGAGGTGCGCATCGACCTGGACGACGGCCAGCTGCGCATCGATATCGACGACGACGGCCATGCCGCCGCCAGCATCCGCGAGGGCAACGGCATCGCCGGCATGCGCGAGCGGCTGGCGACGCTGCACGGCCGCCTGGACCTGGGCCGCACCGCCGGTGGCGGCCTGCACCTTTCCGCGAGGCTTCCCGCATGA	MDGLPAVCARRRHGAVAAGHPGVVPEVTFRARPIAGASRGGQHRRMPRFLRELLQPMSLAGLITIGAVVLSFGFGDSPHGALRWLVLGAFTVLFLGHDLLPWAWSRHVALVLQAIAALALVWLEPRAGTAPVLLVMVIAAAAMCWPRWVVALLALVLDIGMYLALVQSGYADRAWLVVAVYASFQAFAALTAYYAVNATRARDALARVNADLLATRALLADSARDAERLRLARELHDVAGHKLTAMRINLRMLAADPQLAGREEIALAERLSAELLGDIRAVVQSLRDDRGLDLATALHALAAPFPRPRLRVDIAEHVRVTDPLVAEALLRLVQEALTNAARHADADHVEVRIDLDDGQLRIDIDDDGHAAASIREGNGIAGMRERLATLHGRLDLGRTAGGGLHLSARLPA				NA	NA	NA	NA	NA
BMS020_02743	636	lnrK_1	COG2197	Transcriptional regulatory protein LnrK	ATGACCCCGACCCCCACCATCGCCCTGGCCGACGACCAGGTGCTGGTCCGCGCCGGGCTGCGCGCGCTGCTGCAGAGCCAGGGCGTGCAGGTCGCGTTCGAGGCCGACGACGGCGAGGCGCTGCTGGCCGGCCTGCAACGGCAGCCGGTGGACGTGGTGCTCAGCGACATCCGCATGCCGGGCATGGACGGCATCGCCGCGCTGGCCGCGCTGCGCGCGCGCGGCGACCGCACCCCGGTGCTGCTGCTGACCACCTTCGACGACAGCGACCTGCTGCTGCGCGCGACCGAGGCCGGTGCGCAGGGCTTCCTGCTCAAGGACGCCGCCCCGGAAGACCTGCGCGAGGCGATCGCGCGCGTGGCCGCCGGCGAAACCCTGCTGCAGCCGGTCAGCACCGACCCGGTGCGCACCCGCTACCAGTACCGCGACCAGGATGCGCCGCGCGACACCTTCAGCGAGAAGGAAGTGGCGATCCTGCGCCTGCTCGCCGGCGGCTATTCCAACAAGGAGATCGCGCGCACGGTGTTCCTGGCCGAAGGCACGGTGAAGAACTACGTCTCCACCATCCTGGAAAAGCTCGGCACCCGCGACCGCACCCGCGCGGTGCTCAAGGCGATCACGCTGCGGGTGATCTGA	MTPTPTIALADDQVLVRAGLRALLQSQGVQVAFEADDGEALLAGLQRQPVDVVLSDIRMPGMDGIAALAALRARGDRTPVLLLTTFDDSDLLLRATEAGAQGFLLKDAAPEDLREAIARVAAGETLLQPVSTDPVRTRYQYRDQDAPRDTFSEKEVAILRLLAGGYSNKEIARTVFLAEGTVKNYVSTILEKLGTRDRTRAVLKAITLRVI	PGPT0012750_13	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
BMS020_02744	1368			hypothetical protein	ATGCTCAAGCCGCTCCTGCGCGAAGCCACCACCGGCAACGACGACGTGCATGCCTCGCTGTTCCGCCATGGCGCCAGCGACCGCCAGCGGCTGACCACCGCCGCGCTGCAGGCCGACTGCTGCGATCAGAAGCCCTGGGGGCTGATGTACCAGGCGCTGGTGCAGGCGCTCGGGGCCAGCCCGGACAGCTTCCAACTGCTCTACCCGTGCACCGCCTGGGACTGGCCGGCGCCGCGCGACGGCTTCATCGACTGCGCACAGTACGACTTCTGCTCGACGGTGCCGCACTGGAGCGCGATCGGCGCCTATGCCTCCAGCGGCGACCGCCTGCACCAGGCGTACCGGGAGTTCCTCAACATCGTGCCGGTCAGCTGCCAGGACGGCGACCTGCGCCAGCAGTTGCGGACCGCCGAGGAGACCCTGACCCAGGCCAGCAACAGCTACACGATCACCTACAACCAGGCCCGCTCGGCGTACCTGGACGAGGTCAAGGACAACAGCCCGAGCTTTTCCGCCTGGCTGGGCCAGGCCGCCGGCCGTGGCTGGCAGACCCGGATCGCCACGGCCAGCCGGCGCATGGACCTGGCCCAGATCGGCTTCGACCTGCTGGTCCGCCAGGCCGACAACCTCGGCCTGGCCGCCGCGCAGACCCAGGCCGGCAACGCCGAGGCCTTCGCCCGGCTCGACGATCCCGAACTGGCGCGCTTCCCGATGGTGCCGGCGTGGACCGTGGCCGCGCACGCCGGCGCCTGGCGCGCGGCGGTGCAGGCCGGCAGCGGCCCCGGCGGCGGCACGCTCAGCTTCAGCAGCGACGATGCCGGCTACGACTTCCAGAAGACCTGGGCCGGCGGCGCGGCCTCGATCAAGCAGTGGTTCTGGGCGCTGCGCATCGACGGCCGCTGGCAACGCGTGGATGCATTCGACGGCGCCGACCGGCTGCAGGTCGACATCGCATTCGAGGCGCTGGAGCTGATCCCGCTGCAGCCGGGCGCCTGGTACGACAGCGCGTTCGTGCAGGACCAGGGCCGCGGTCCGTTCACCCGCGGCTACAGCGCCTACGGCGGCGACCTGACCCAGGCGGTGTTCGGCAAGGACGGCTTCCTCGGGCTGCGCAAGACCGGCATGTACGTGGGCTACCGGCCAAGCTTCAGCATCAGCACCGATGCCGGTCGCTACCCGCGCTTCGCCGCGCAGCTCGACGCCGCCACCGGCCTGCGCATCGGCCCACTGGCCTTCGAGGCCGAGGGCGGGGCCGCCCAGGCCGGCTGGCAGGGCTGCGCGCAGACGTTGCGCTTCAGCGGCACCACCACCTCCACGCAGCCGCTGATCGTCGGCATCACCGTCGCGCAGTTGCCCAACGATGCCTGA	MLKPLLREATTGNDDVHASLFRHGASDRQRLTTAALQADCCDQKPWGLMYQALVQALGASPDSFQLLYPCTAWDWPAPRDGFIDCAQYDFCSTVPHWSAIGAYASSGDRLHQAYREFLNIVPVSCQDGDLRQQLRTAEETLTQASNSYTITYNQARSAYLDEVKDNSPSFSAWLGQAAGRGWQTRIATASRRMDLAQIGFDLLVRQADNLGLAAAQTQAGNAEAFARLDDPELARFPMVPAWTVAAHAGAWRAAVQAGSGPGGGTLSFSSDDAGYDFQKTWAGGAASIKQWFWALRIDGRWQRVDAFDGADRLQVDIAFEALELIPLQPGAWYDSAFVQDQGRGPFTRGYSAYGGDLTQAVFGKDGFLGLRKTGMYVGYRPSFSISTDAGRYPRFAAQLDAATGLRIGPLAFEAEGGAAQAGWQGCAQTLRFSGTTTSTQPLIVGITVAQLPNDA				NA	NA	NA	NA	NA
BMS020_02745	402			hypothetical protein	ATGAACACCCAAGAGACCGCGATCGATATCGCCCTGACCGTCGCCTACGTCGGCTTTGGCGGCAACGCCGGCCACAGCAAGTACTTCTACAGCTTCGCCCCGGAGGTGGTGACGGTCGGCAAGGGCCAGAGCCCCGTGCTGCTGAGCTACTCGCTCGATCCGGAGGTGCCGGAGTACTTCAAGATCGTCGATGTGCTGACCTCCGATTCGAAGGACCAGATCGGCCCGGTGAAGATTCCCGATGGCGGCCGCAGCGCGATGATGGTCAACAAGAACACGGTGAAGACGCTGATCTTCTTCACCGTGCTGGTGCGCGACACCCGCCCCGAGTACAACACCTTGATCAGCTGCGACCCCCAGGTCGGCAACGACCCGGAGATCAGCCCGCAGCTGCTCGCCTGA	MNTQETAIDIALTVAYVGFGGNAGHSKYFYSFAPEVVTVGKGQSPVLLSYSLDPEVPEYFKIVDVLTSDSKDQIGPVKIPDGGRSAMMVNKNTVKTLIFFTVLVRDTRPEYNTLISCDPQVGNDPEISPQLLA				NA	NA	NA	NA	NA
BMS020_02746	3348			hypothetical protein	GTGGCGCGGCCAGGGAAACGGCCGTCCCCGCTCGCGGAAGCCGCGTCCTTCCGCATCGGCGCGTTGCTGGTGCAGCCGGACCGGCTGGTGGTGCTGCGCGATGGCGAGAGCATCGCGCTGGAGCCGCGCTGCATGGAGGTGCTGGTCGCGCTGGCCGAGCACGCCGGCGAGGTGGTCAGCGCCGACCAGCTGCTGATCGAGGTGTGGCGCGGCAGCTTCTACGGCGACAACCCGGTCCACAAGACCATCGCGCTGCTGCGCCGCCAGCTCGGCGACGACAGCCGCAACCCGCGCTACATCGAGACGATCCGCAAGCGCGGCTACCGCATCGTCGCGCCGGTGGCGTTCCCGTCCGGCTATCGCGCCGGCGCGATCGCCGCCGGCAGCTGGAGCGGCGGCAATCCATACCGTGGCCTGGCCGCGTTCGACCAGGCGCATGCCGGGCTGTTCTTCGGCCGCGGCCGCACCATCGCGCAGGTGATCGAGGCGATCCGCGCGCAGCTGCGCAGCCAGCGCCGCTTCGTGCTGGTCAGCGGCGCCAGCGGCTGCGGCAAGACCTCGCTGATGCAGGCCGGCGTGGTGCCGTTGCTGAGCCAGCCCGGCGGCATCGACGGCCTGCAGGCGCTGTCGGTGGCGCAGTGCGACCTGTCGGCGAGCCCGGGGATCGGCGCGGTCGAGGCGCTGGCCACGGCGATGGGCGAATGGCGCCTGCAGGAGCGCCCGCTGTTCCTGCCGGCGCAGCACGAACTGCTGGCGCGCCAGCTGGTGGAGGCGCCGGAGCAGCCGCGTGCGCAGATCGACGATGCGCTGCGCCGGCTCGGCTCGCGCCAGGTCGATGGTGCCACCGGCGCGCACCTGTTGCTGGTGATCGACCACGCCGAGGCGCTGGTCGCCAGCGACGACGACAGCGCCACCCAGCGCGCGGTGCAGGCGGCGATCGCCGGGCTGTGCGCCAGTCCGCGCGTGGTGGTGGTGATGCTGGTACGCAGCGATTTCTACCCGCGCCTGGTGGAGGCGTTGCCGCTGGTCGCCGACCTCAAGCGCGGCGATGGCCACCTCGACCTGCTGGCGCCGCAACCGGGCGAGTTCGCCCAGATCATCCGCCTGCCGGCGCACTGCGCCGGGCTCGAGTTCGAGGAGGACGCCAGCACCGGCGCGCGCCTGGACGACGTGCTGCTGGCCGCCGCCAGCGACCAGCCCGACGCGCTGCCGCTGCTGCAGCACGTGCTGCACGGCCTGTATGAGCGCCGCACCGAGGATGGCGTGCTGACCTTCGCCGCCTACCGCGCGCTCGGCGGGCTGGAAGGCGCGCTGGCGCAGGCCGCCGAAGGCGCCTACGCCTCGGTGCCGGCCGCGGCCAGCGCCGCGCTGGACCTGGTGCTCAGCCACCTGGTGGTGGTGCACCCGGACACCGAACACGTCACCGCGCGACCGATCGCCTGGCAGAGCCTGACCGACGCCGGCGCGCGCGCGCTGGCCGAGGCGTTCGTGCGGGCGCGGCTGTTCGTCGGCGACCTCAGCGGCAGCCAGCCGGCCTTGGCGATCGCCCACGAGGCGCTGCTGCGGCAATGGCCGCGCGCGCGCGAATGGGTGCGCGACAACCGCCGCCTGCTGCAGGTCCGCGAACGCCTGCAATGGGCGGCCCGGCGCTGGCAGGACGAGGGCCGGCGCCGCGACCTGCTGCTCAGCGGCGGGCGTCCGCTGGACGAGGCGCGCGATGCCGCGCGGCGCCTGCCGCGCCCGCTGGATGCCGATTCGCGCAGCTACCTGCGCGCTTCCGAACGGCAGCAACGGCGCCGCCATTGGCTGCGCGGCGCCGCGATCGGCACGCTGACGCTGCTGACCACGATCTCGATCGCGCTGGGGCTGAAGTTCCGCCACGCCCAGCGCGTGGCCGAGGCCCGCCACGACGAGGCCCAGCAGCTGGCCACCTACCTGCTCGGCGATCTCGCCGAGCAGCTGCGCAAGGCCGGCAACCTCAAGCTGCTCGACAGCGTCGGCAACCAGGCGCTGGCCTACCTGGAACGGCTGCCGCAGGCGGACATGGGCCCGCGCGAGCTGGTCAGCCACGCGCGCGCGCTGCGCACGGTCGGCGAGGTGCTGTTCAACCAGGCCCAGTTCGACATCGCCGGGCAGGTGTTCGCGCGCGCGCATGCGGTGGCGCTGCAGGCGCTGGCCCGGGACGCGAACGCCGACGAACCGCTGTCCGAGCGCGGCCTGTCCTCGTACTGGCTGGGCTATCTGGCCTACCGGCAGAAGCAGTACGCGCAGGCGCAGGTCCATTGGGACGACTACCTGGACGCGACCACGCGACTGCGCGAGCGCACCCCGGCCGATCCGCGCTGGCAGCTGGAGATGTCCTACGCGCTCAACAACCTCGGCACGCTGGCACATGCGCGCCAGGACGATGCGCTGGCCGCGGCGCTGTTCGATTCCTCGATCGGACTGAAGCAGCAGGTGCTGGCGGTGCATCCGGACGACGCGGCGGTGCGCTACGAACTGGTCGACAGCCTGTCATGGTTCAGTTCCAGCCAGGAGTCGCAAGGCCAGCTGCAGGCGGCCGAAGCCGGCTACCGCGAGCAGATCGGCATGCTGCGCGCGCTGGTCGCCGCCGAGACCGATGCCGATGCCTGGCGCCGGCGCCTGGCCACCTCGCTGCTGCGCAGTTCGGCGCTGGCGCTGGCACAGGGACGCCTGCAGCAGGCCGCGCGCGACGCGCAGGAAAGCCGCCAGCTGCTCACCGCGCTGGCCCGCAAGCAGCCGGACAACGCGGTGTGGCAGCGCGACCTGGCCCACGCCGCGGCGCAGGTCGGCTGGCTGGCGCTGCTGCGCGGCGACCAGACGCAGGCGCGCGAAGGCCTCGGCGCCGCCGCCACGCTGATCGCCCCCCTGCTGCAGAAGCCCAAGCCACCGCCGGAGTGGCGCTGGATGGCGGCGACCGTCGAGCTGCGCCGCGCGCAGCTGGCGGCCCTGCAACGGCCTGCCGCGCTGGCGCAGGTCGACGCGGCAATCGACCGGATGGAAACCCTGCACGCCGCATTGCCCGACGACACCCTCGGCGTATCGCTGCTGGCCAGCGCACTGGCCTGGCGCGGCGAGCGGCTGGAAGCGCAACAGGCGCACGAAGCCGCGCGCGCGGACTGGAACCGGATCCGCCAGCTGCTCGGCGACCTGGCCCCGCGCTCGCGCGATCGCGCGCTGCTCGACCCCTGGGTCCGTGCCGAGGTGCATCTCGGCCATCGCCAGCAGGTGACGCCGGTCCTGTCCTGGCTGCGCGACTCGGGATATCGCCATCCCGGCTTCGTTGCTCTGTACGACGTCCCCAACCAGGAGATGCAGCACCCATGA	MARPGKRPSPLAEAASFRIGALLVQPDRLVVLRDGESIALEPRCMEVLVALAEHAGEVVSADQLLIEVWRGSFYGDNPVHKTIALLRRQLGDDSRNPRYIETIRKRGYRIVAPVAFPSGYRAGAIAAGSWSGGNPYRGLAAFDQAHAGLFFGRGRTIAQVIEAIRAQLRSQRRFVLVSGASGCGKTSLMQAGVVPLLSQPGGIDGLQALSVAQCDLSASPGIGAVEALATAMGEWRLQERPLFLPAQHELLARQLVEAPEQPRAQIDDALRRLGSRQVDGATGAHLLLVIDHAEALVASDDDSATQRAVQAAIAGLCASPRVVVVMLVRSDFYPRLVEALPLVADLKRGDGHLDLLAPQPGEFAQIIRLPAHCAGLEFEEDASTGARLDDVLLAAASDQPDALPLLQHVLHGLYERRTEDGVLTFAAYRALGGLEGALAQAAEGAYASVPAAASAALDLVLSHLVVVHPDTEHVTARPIAWQSLTDAGARALAEAFVRARLFVGDLSGSQPALAIAHEALLRQWPRAREWVRDNRRLLQVRERLQWAARRWQDEGRRRDLLLSGGRPLDEARDAARRLPRPLDADSRSYLRASERQQRRRHWLRGAAIGTLTLLTTISIALGLKFRHAQRVAEARHDEAQQLATYLLGDLAEQLRKAGNLKLLDSVGNQALAYLERLPQADMGPRELVSHARALRTVGEVLFNQAQFDIAGQVFARAHAVALQALARDANADEPLSERGLSSYWLGYLAYRQKQYAQAQVHWDDYLDATTRLRERTPADPRWQLEMSYALNNLGTLAHARQDDALAAALFDSSIGLKQQVLAVHPDDAAVRYELVDSLSWFSSSQESQGQLQAAEAGYREQIGMLRALVAAETDADAWRRRLATSLLRSSALALAQGRLQQAARDAQESRQLLTALARKQPDNAVWQRDLAHAAAQVGWLALLRGDQTQAREGLGAAATLIAPLLQKPKPPPEWRWMAATVELRRAQLAALQRPAALAQVDAAIDRMETLHAALPDDTLGVSLLASALAWRGERLEAQQAHEAARADWNRIRQLLGDLAPRSRDRALLDPWVRAEVHLGHRQQVTPVLSWLRDSGYRHPGFVALYDVPNQEMQHP				NA	NA	NA	NA	NA
BMS020_02747	1017	kdgK_1		2-dehydro-3-deoxygluconokinase	ATGAGCCATATCGTCTGTTTCGGTGAACTGCTGCTGCGCCTGGGCGCGCCCGGCCACCAGCTGCTGCTGCAGAGTCCGGTGCTGGACGTGCATGCCGGCGGCGCGGAGGCCAATGTCGGGGTCTCACTGGCGCATTTCGGTCACCAGGTGGCGATGGCCAGCACGGTCGCCGACAACCCGCTCGGCGCGCACGTGCTGGGCGAGCTGCGCCGGCACGGCGTGGAGACCCGCGGCGTGCGCCGGGTCGATGGCCGCATGGGCCTGTACTTCCTCACCACCGGCGCGGTGCAGCGCCCGAGCGAGGTGGTCTACGACCGTGCCGATTCCGCCTTCGCCCTGTCCACGGCCGCCGACTACGACTGGCCGGCGCTGCTGGCCGGCGCCGACTGGCTGCACCTGTCCGGGGTCAGCCCGGCGCTCGGCGCCGAGGTCGCGCAGGCCACCCTGGCCGCAGCGCGCGCCGCGCGGGCGATGGGCGTGCAGGTGTCGTTCGACGGCAACTTCCGCCCCAAGCTGTGGCAGCGCTGGGGCGGCGATGCCAGCGGCATCCTGCGCGAGCTGTTCGCCTGCGCCGACATCGTGTTCGCCGATTACCGCGACATCGGCGTGGTGCTGGGCGGCAGCTTCGCCCAAGACGACGCACGCGAGCGGGTGCGCGCCGCCGCGGCGATGGCCTTTGCCGCGTTCCCGCAGCTGCGCTACATGGCCTGCACCCAGCGCACCGCGCACAGCGTCGACCACCACGCGCTGGGGGCGATGCTGCTGCACCGCGACGGCGAGGTCGCGGAGGCGGCGGAACTGCAGCTGACGCCGATCGTCGACCGCATCGGTGGCGGCGACGCGTTCGCCGCCGGCATCCTGCACGGGCTGATCGAAGGCTGGAGCCTGTCCGACACGGTGCACTTCGGGCTGGCCGCCGGCTGCCTGAAGCATTCGATCCCGGGCGACTTCAACCCGGTCTCGGTCGCCGAGGTGCAGGCACTGGTCGGCGAGGGCCGCTACGACGTCAGGCGCTGA	MSHIVCFGELLLRLGAPGHQLLLQSPVLDVHAGGAEANVGVSLAHFGHQVAMASTVADNPLGAHVLGELRRHGVETRGVRRVDGRMGLYFLTTGAVQRPSEVVYDRADSAFALSTAADYDWPALLAGADWLHLSGVSPALGAEVAQATLAAARAARAMGVQVSFDGNFRPKLWQRWGGDASGILRELFACADIVFADYRDIGVVLGGSFAQDDARERVRAAAAMAFAAFPQLRYMACTQRTAHSVDHHALGAMLLHRDGEVAEAAELQLTPIVDRIGGGDAFAAGILHGLIEGWSLSDTVHFGLAAGCLKHSIPGDFNPVSVAEVQALVGEGRYDVRR	PGPT0018060_814	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
BMS020_02748	2742			hypothetical protein	ATGTACGCACGCAACATCATGAAGACACCGGTTACCTTGCTCGCCTGCGCGGTCGCGCTGGCGCTGCAGGCCGGACCGGGGCAGGCACAGGACGCGGCCGCCAGCGGCCAGACCGCCGCGGCGACCGAGCTCGACGCGGTCACGGTCACCGGCTACCGCGCCAGCGTGGAGAAGGCGCTGGACATCAAGCGCGCCGAGAAGGGCATGGTCGATGCGATCGTCGCCGAGGACATCGCCAACTTTCCCGACCTGAACCTGGCCGAGTCGCTGCAGCGCATCCCGGGCGTGGCGATCACCCGCGACGCCGGCGAGGGCCGCAACATCTCGGTGCGCGGCCTCGGCCCGGATTTCACCCGCGTGCGCATCAACGGCATGGAGGCGCTGGCCACGGTCGGCGGCAGCGACCAGAGCGGTGGCACCAACCGCAGCCGCGGCTTCGACTTCAACGTGTTCGCCTCGGACCTGTTCTCCGAGCTGGTGGTGCGCAAGACCGCCTCGGCCGACGTCGAGGAAGGCTCGCTTGGCGCCACCGTCGACCTGCGCACCGCGCGCCCGTTCGACTACGACGGCTTCACCTTCGCCGCCAGCGGCCAGGCCGGCTACAACGACATGGCGCAGAAGGCCTCGCCGCGCGTGGCGGCGCTGATCGCCGATACCTGGGCCGACGGCCGCTTCGGCGCGCTGCTGTCGCTGGCCTATTCCGAGCGCCAGGTGCTGGAGGAAGGCAGCGGCAGCGGCCGCTGGTATGGCGGCACCAGCAACGGCGGCTTCGACCCGGCCTCGCCGTTCCAGGAGGGGCTGGCCGCCAACGTGTGGTCGCCGTATTTCCCGCGCTACACGCTGCTCGAGCACGACCAGAAGCGCCTGGGCGTGACCGGCTCGCTGCAGTGGAAGCCCGGCGACAACACCGAGTTCTCGCTCGACACGCTGTATTCGAAGATCGATGCCAAGCGCACCGAGAAGTACATCGAGGCGATCTCCTTCGCCTACTCGGCGCAGAAGCGCCAGATGCTGCTCAACGACGGCTACATCGATCCGGTCTCCGGGGCGATGCTGTACGCGCAGTTCGACAACGCCGGGATCCGCTCCGAGCAGCGCTACGACGAGTGGAACACCACCTTCAAGCAGGTCTCGTTGAACGGCGAGCACCGCTTCAGCGACAGCTTCAAGATCAACGGCCAGATCGGCAGCTCCAGCTCGGTGCACGACAACCCGGTGCAGACCACGATCATCATGGACAAGGCGGTCGACGGCTACAGCTACGACTACCGCGACAGCTACACCTCGCCGGTGTTCGATTACGGCGTGGACCCGACCGACGGCAGCGGCTGGACCCTGGCCGAGATCCGCATGCGCCCGCAGTACGCCAAGAACGCCTTCGACACCGGCGCGCTGGATTTCACCTGGAACATGGGCCCGGCCTTCACCCTGAAGGGCGGCGTGCTGGCCAAGGACTACCGCTTCCGCACCCACGAGTACCGGCGTGCATCCGAATCGGTGGTGCCGACCTTCGCCGACGGCACCACCACGGTGCCGGTGGACTACACCGAGACCGCCAGCCTGTCGGGCATCGACGGCCACCCGGGCAGCTGGGCGATCCCGGACCTGGCGGCGATCGCCGATGCGCTGGGCATCGACAGCGGCGAAGGCCTGTATGCGCTGTACGAACGCACCGCCAGCACCCGCCGGGTGGAAGAGAAGGACCGTGGCGCCTGGCTGATGGGCGAGTTCGGCTTCGACATCGGCCCGGTGCCGGTCTCCGGCAACCTCGGCGTGCGCTACGTGAAGACCGAGCAGTCCTCGACCGGCTATTCCAGCGTCAACGGCACCCCGGTGCTGACCACGGTGGCGCGCGACTATGACGACACCCTGCCGTCGCTGAACCTGGTCGCCGAGCTGAGCCCGGACCTGCTGCTGCGCTTCGGCGCGGCCAAGGTGATGGCGCGCCCCAGCCTGAGCAGCCTCACCCCCGGCACCACGCTGAGCCTGTCCAGCGGCTACCGCTACGTCAACGGCGGCAACCCGTACCTGGACCCGATCCGTGCCAAGACCGTCGACCTCGGCGTGGAGTGGTACTTCCAGGAAGGCGCGCTGCTCGGCCTGGCGCTGTTCTACAAGGACATCGACAGCTTCGTGCAGGGCACCAGCACGGTGATGCCGTTCAGTGCCGGCGGCTTGCCGGTGAGTCTGCTCGACGGCACCGGCGTGTCGCCCGACGAGCTGTTCACCTTCACCCGCCCGCTCAACACCCCGGGCGGCGACCTGAAGGGCGCGGAGTTCAACTACGTGCAGCCGTTCGCGTTCCTGCCCGGGCGCTGGAGCAACCTCGGCCTGCAGCTGAACTACACCTTCGTCGAATCGAAGATCCAGTACCTGACCTCGACCGGCGCGACCTCGCTGAAGACCGACCTCACCGGGTTGTCCAAGAACGCCTACAACGCCACGCTGTTCTACGAGGGCAAGCAGTTCGGCGGACGGGTGTCCTACACCCACCGCGACGGCTACTACACCCAGGTGCCGGCCAGCGTGGCCGGGTTCTCGTTCCATGGCATGGACGCGGTCGACACGCTCGATGCGTCGCTGAGCTGGAAGATCGACGACCACCTGGAGCTGAGCCTGGAGGCGATCAACCTGACCAACGAGGCCTCCTACGAGTGGGTCGGCACCTCGGCCTGGAAACTACCGCTGACCTACGCCCAGACCGGGCGCGAGTTCCTGGTCGGCGCACGCTACCGCTTCTGA	MYARNIMKTPVTLLACAVALALQAGPGQAQDAAASGQTAAATELDAVTVTGYRASVEKALDIKRAEKGMVDAIVAEDIANFPDLNLAESLQRIPGVAITRDAGEGRNISVRGLGPDFTRVRINGMEALATVGGSDQSGGTNRSRGFDFNVFASDLFSELVVRKTASADVEEGSLGATVDLRTARPFDYDGFTFAASGQAGYNDMAQKASPRVAALIADTWADGRFGALLSLAYSERQVLEEGSGSGRWYGGTSNGGFDPASPFQEGLAANVWSPYFPRYTLLEHDQKRLGVTGSLQWKPGDNTEFSLDTLYSKIDAKRTEKYIEAISFAYSAQKRQMLLNDGYIDPVSGAMLYAQFDNAGIRSEQRYDEWNTTFKQVSLNGEHRFSDSFKINGQIGSSSSVHDNPVQTTIIMDKAVDGYSYDYRDSYTSPVFDYGVDPTDGSGWTLAEIRMRPQYAKNAFDTGALDFTWNMGPAFTLKGGVLAKDYRFRTHEYRRASESVVPTFADGTTTVPVDYTETASLSGIDGHPGSWAIPDLAAIADALGIDSGEGLYALYERTASTRRVEEKDRGAWLMGEFGFDIGPVPVSGNLGVRYVKTEQSSTGYSSVNGTPVLTTVARDYDDTLPSLNLVAELSPDLLLRFGAAKVMARPSLSSLTPGTTLSLSSGYRYVNGGNPYLDPIRAKTVDLGVEWYFQEGALLGLALFYKDIDSFVQGTSTVMPFSAGGLPVSLLDGTGVSPDELFTFTRPLNTPGGDLKGAEFNYVQPFAFLPGRWSNLGLQLNYTFVESKIQYLTSTGATSLKTDLTGLSKNAYNATLFYEGKQFGGRVSYTHRDGYYTQVPASVAGFSFHGMDAVDTLDASLSWKIDDHLELSLEAINLTNEASYEWVGTSAWKLPLTYAQTGREFLVGARYRF	PGPT0003790_2791	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_02749	981	pemA		Pectinesterase A	ATGGACAGACACCACGCGATCCACCGCCGGCGCCTGCCGCTGCTGGCATTGCTGATGCTCAGCGCAGCAAGCGCGAGCGCCCGCGACTGGGTGGTCGCCGCCGACGGCAGCGGCGACTACCGCCGCATCCAGGACGCCATCGACGCGGTGCCCGACGGCAACCCGCAGCGGCAGGTGATCCGCATCGGCGCCGGCACCTGGCGCGGTGTGGTGACGGTGCCGGCCAGCAAGCCGCGCATCACCCTGCGCGGCGCCGCCGCCGGCGCCACGGTGCTGAGCTGGGACAACTACGCCGACCGCATCGACCCGTCCACCGGCAAGGCGTTGCGCACCAGCGGCTCGGCGACGTTGTACGTGTATGGCGACGGCTTCATCGCCGAGGACCTGAGCGTGGAGAACACCGCGGGCAACGTCGGCCAGGCGTTGGCGCTGTACGCGGCGCCGCCGCACGGCGGCTTCCGCAACGTGCGCCTGCTCGGCAACCAGGACACGCTGTATACCCACGTCGGCAGCGTGCTGCACTTCAAGGACTGCTACATCGAGGGCACGGTCGACTTCATCTTCGGCGGTGCCACGGCGCTGTTCGACGACTGCACGATCGTGTCCAAGGGCCGCAGCGGCTACGTCACCGCCGCCTCCACCCCGGAGGGCCAGCGCTACGGCTACGTGTTCCGGCGCGCGCTGCTGCGCGGCGAGGGCGTGGCCACCACCTATCTCGGGCGGCCATGGCGCCCGTTCGCGAAGACCGTGTTCATCGGCAGCAACCTCGGCCGCCACATCGTCAGCGCCGGCTGGCACAACTGGGACAAGCCCGATGCCGAGGCGACCAGCTACTACGGCGAGTTCGGCAGCATCGGCGAGGGGGCCGCGCCGGAGGAGCGGGTGCGCTGGTCGCACCACCTGTCCGGCGACGAAGCGGCCGGCTATACCAGCGAGGCGATCCTCGGCGACTGGCGGCCGTTTCCGTCGGCACATGATTGA	MDRHHAIHRRRLPLLALLMLSAASASARDWVVAADGSGDYRRIQDAIDAVPDGNPQRQVIRIGAGTWRGVVTVPASKPRITLRGAAAGATVLSWDNYADRIDPSTGKALRTSGSATLYVYGDGFIAEDLSVENTAGNVGQALALYAAPPHGGFRNVRLLGNQDTLYTHVGSVLHFKDCYIEGTVDFIFGGATALFDDCTIVSKGRSGYVTAASTPEGQRYGYVFRRALLRGEGVATTYLGRPWRPFAKTVFIGSNLGRHIVSAGWHNWDKPDAEATSYYGEFGSIGEGAAPEERVRWSHHLSGDEAAGYTSEAILGDWRPFPSAHD	PGPT0001855_4351	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
BMS020_02750	2781			hypothetical protein	ATGCAATCTCGTCGCAATCACCGGAAGACACCGGTTACCTTGCTTGCGCTATCGATCGGCCTGGCGCTGCAGTCGGGCCATGCCCTGGCGCAGGACGCCAGCCCTGACCCCGACACCGCCGCCGCTGCGCAGGCGCAGGGCGCGGTGAACCTCGACACCGTCGTCGTCACCGGCTATCGCGCCAGCGTGGAGAAGGCGCTGGACATCAAGCGTGCCGAAAAGGGCATGGTCGATGCGATCGTCGCCGAGGACGTGGGCAAGTTCCCGGACAACAACCTGGCCGAATCGCTGCAGCGCATCCCCGGCGTGGTCATCACCCGCGATGCCGGCGAAGGCCGCAACATCTCGGTGCGCGGCCTCGGCCCGGACTTCACCCGCGTGCGCATCAACGGCATGGAGGCGCTGACCACGGTCGGCGCCAGTGACCAGAGCGGCGGCACCAACCGCGGCCGCGGCTTCGACTTCAACGTGTTCGCCTCCGACCTGTTCAACGAGATGGTGGTGCGCAAGACCGCCTCGGCCGACGTCGAGGAAGGCTCGCTCGGCGCCACCGTCGACCTGCGCACCGCGCGCCCGTTCGACTACGACGGCTTCATCTTCGCCGCCAACGCCGAGACCACCTACAACGACATGTCGCAGAAGGCCGACCCGCGCATCGCCGCGCTGATCGGCAACACCTGGGCCGACGGCACCTTCGGTGCGTTGATGTCGGTGGCGTATTCCGAGCGCCAGGCCCTGGAAGAGGGCAGCGGCACCACGCGCTGGGCCAACGGCACCAGCAACAACGGCTATGCGACCACCTCGCCGTTTGCCGCCGCCAACAGCGCCTCGGTGTTCAGCCCGCGCATCCCGCGCTACACGCAGATGGAGCACGAGCAGAAGCGCCTGGGCGTGACCGGCTCGCTGCAGTGGAAGCCGAGCGAGAACACCGAGTTCTCGCTGGACGGGCTGTACTCGAAGATCGACGCCAAGCGCTACGAGCACTACATCGAGGCGATCAGCTTCAGCCGCGGCCGCTCGCAGGGCGGCAAGCCGGAGATGGTGGTCAACGACGGCTACGTCGACCCGGCCTCCGGCGCGCTGCTGTACGGCCAGTTCGACAACGTCGACGTGCGCTCGGAAAACCGCTACGACGAGTGGAATACCGTCTTCAAGCAGATCTCGCTGAGCGGCGAGCACCGCTTCAGCGACAGCTTCAAGATCAACGGCCAGGTCGGTACGTCCAGTTCCAAGCACCGGAACCCGATCCAGACCACGATCATCATGGACAAGCTCAACGTCGACGGCTACAGCTACGACTACCGCAACAGCTACACCTCGCCGACGTTCAACTACGGCATCGATCCCACCGACGGCAGTGGCTGGACGCTGGCCGAGGTGCGCATGCGCCCGCAGTACGCCAACAACGACTTCGATACCGGCTCGCTGGATTTCGAATGGAACTTCGGCCCGGGCTTCACCCTGAAGGGCGGCGTGCTGGCCAAGAACTACGGTTTCGACACCAAGGAGTTCCGGCGCGCGTCCGAGACCTCGGTGCCGACCTTCGCCGACGGCACCAAGATCGTGCCGGAGGACTACACCACGCTGGCCGGCCTGAAGGGCATCAGCGGCTCGCCGTCGACCTGGGTGGTGCCCGACCTCGATGCGATCGCCGATGCGCTGGACATCTACAGCGGCACCGGCACCTGGGCGCTGGCCGAGCGCGCGGTCAACACCCGCAGCGTCGAGGAACAGGATCGCGGCGGCTGGCTGATGGGCGAGTTCGGTTTCGACATCGGTTCGATTCCGTTCTCCGGCAACATCGGCGTGCGCTACGTGAAGACCAAGCAGTCGTCCACCGGCTACGCCACGGTCGGTTCGGCGCTGGTCAACACCACGGTCGAGCGCGAATACGACGACACCCTGCCGTCGCTGAACCTGGTCGCCGAGATCACCCCGGACTTCCTGGTGCGCTTTGGCGCGGCCAAGGTGATGTCGCGTCCGGGCCTGGGCAGCCTGACCCCGGGCGTCACCGTCAACGTCTCCGGCGGCGCACGCACGGTGTCCGGCGGCAACCCGTACCTGGATCCGATCCGCGCCAAGACCGCCGACCTGGGCTTCGAGTGGTACCTGCAGGAAGGCGCGATGCTGGGCGTGGCGCTGTTCTACAAGGACATCGACAGCTTCGTGCAGACCACCCGCACGGTGGCCTCGTATGCCAGCAGCGGCCTGCCGGCCAGCCTACTCGACGGCACCGGCGCGGCGGTCACCGATGACTTCGTGTTCAGCGTGCCGCTCAACACGCCGGGCGGCGACCTGAAGGGCGCGGAGTTCAACTACGTGCAGCCGTTCACCTTCCTGCCGGGTAAGTGGGCCAACTTCGGCACGCAGCTGAACTACACCTTCGTCGAATCGAAGATCCAGTACGTGACCAGCACCGGTGCGCTGTCGTTCAACACCGACCTGACCGGTCTGTCGAAGAACTCCTACAACGCCACGCTGTTCTACGAAGGCGACCGCTTCAGCGGCCGCGTGTCGCTGACCCACCGCGACGGCTACCTGACCCAGGTGCCGGCGACGGAAACCGGCTTCGACACCCATGGCATGCGCGGTACCAACATCGTCGATGCCAAGCTGAGCTACCGCATCGACGAGAAGCTGGACATCAGCATCGAGGGCTCGAACCTGACCAACGTGCCCTACTACGAGTGGGTGCAGGTCAGCGGTTCGAGCGCGCAGCTGCCGCTGACCTACAGCGAGACCGGCCGCCAGTTCTCGGTGGGCATGCGCTACAAGTTCTAA	MQSRRNHRKTPVTLLALSIGLALQSGHALAQDASPDPDTAAAAQAQGAVNLDTVVVTGYRASVEKALDIKRAEKGMVDAIVAEDVGKFPDNNLAESLQRIPGVVITRDAGEGRNISVRGLGPDFTRVRINGMEALTTVGASDQSGGTNRGRGFDFNVFASDLFNEMVVRKTASADVEEGSLGATVDLRTARPFDYDGFIFAANAETTYNDMSQKADPRIAALIGNTWADGTFGALMSVAYSERQALEEGSGTTRWANGTSNNGYATTSPFAAANSASVFSPRIPRYTQMEHEQKRLGVTGSLQWKPSENTEFSLDGLYSKIDAKRYEHYIEAISFSRGRSQGGKPEMVVNDGYVDPASGALLYGQFDNVDVRSENRYDEWNTVFKQISLSGEHRFSDSFKINGQVGTSSSKHRNPIQTTIIMDKLNVDGYSYDYRNSYTSPTFNYGIDPTDGSGWTLAEVRMRPQYANNDFDTGSLDFEWNFGPGFTLKGGVLAKNYGFDTKEFRRASETSVPTFADGTKIVPEDYTTLAGLKGISGSPSTWVVPDLDAIADALDIYSGTGTWALAERAVNTRSVEEQDRGGWLMGEFGFDIGSIPFSGNIGVRYVKTKQSSTGYATVGSALVNTTVEREYDDTLPSLNLVAEITPDFLVRFGAAKVMSRPGLGSLTPGVTVNVSGGARTVSGGNPYLDPIRAKTADLGFEWYLQEGAMLGVALFYKDIDSFVQTTRTVASYASSGLPASLLDGTGAAVTDDFVFSVPLNTPGGDLKGAEFNYVQPFTFLPGKWANFGTQLNYTFVESKIQYVTSTGALSFNTDLTGLSKNSYNATLFYEGDRFSGRVSLTHRDGYLTQVPATETGFDTHGMRGTNIVDAKLSYRIDEKLDISIEGSNLTNVPYYEWVQVSGSSAQLPLTYSETGRQFSVGMRYKF	PGPT0003790_2791	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_02751	3837			hypothetical protein	GTGAAGCGGATCGGGAATGGGGCGTGGGCGCTGCTGCTGGCGGCAATGGCTGGGGCAGCGGCGGGACAGGCAGCGGCGCAGGACCCGCAGCTGCTGTTCCGGGTATCGGCCGACCACGGCTTCAGCGCCGATGTCGCTGCCGGGGCGGCGGTGCCGAATTTCCGCGACAAGGTCGCGCTGGTCGACGACGGCCGCGCCGGCAAGGCGATCCAGTGGGCCGACGACGGCGTGCTGGCCTGGGACGCGCCCGGCAACCTGTACACCCAGCGCGGCACGCTGGGGTTCTTCTGGCGCCCGCGCTACGCCGTGGGCGAGGCGCCGTTCGTGATCTTCCGCGCCGGCTATGCCGACCACACCAGCTGGGACATGGCCTGGCTGCGCATCGACTGGAACGGCCACGGCTTCGATGCCTTCGTCACCGACGCCAACCTGGCGCGCACCCGGGTGTCGTTCACGCTCGCGCAGCCGCCGCGCCCGCAGCAGTGGCTGCACCTGGCCTTCAGCTGGGACGAGAGCCGCGGCGTGCGCCTGTACGTGGACGGGCGCGAGGTGGCGCGCCAGGACTGCGGTGCGCGCTGCCGTGACGGCGGCACGCTCGACTACGACGCCGCGCTGGACCAGTTCGGCCTGGCCGGGCGGGTGATGGCGCCGCACCAGGTGCAGAGCCGCTACAACTTCCTGCGCGGCAGCGATGTCGACGAGATCCGCATCTACGACCGCATGCTCGATGGCGCCGGCATCGCCGCGCTGGCGCAGCTGCACGAACCGGCGGCCAGCGCCGCGCCGGCGGCCGAGGCGACGCAGGCGGCGTGGCTGTATCGGCATGGCTGGGACCACGGCGCGCTGCCGCCGCTGCTGGTCGATCCGGTCACGCGCATCCGCAAGGTCGAGTTCGCCGACGCGAAGGACCTCAAGCAGTGGATGTGGAAGGCCACCGACGGCATCGCCGAGACCACCTGGCCGGGCGTCTACAACCGCTCGCGCCTGCCTGGGCGCGACGACTACTTCCAGCTGCCGGACTGGAACGTCTACGTCGAGGGCGGCAAGGCGCTGACCCTGACCCTGCCGGATGAGCCGTTCAACCGCATCGAGATCCGCGGCGCCGCGTTCGGCAGCGCCAGCTACCGCGATGCCAGCGGTGTCGAGCAGTCGCTGTTGCAGCGCCCGCGCGGGGTGGTGCGCAGCGTCGATGCGTTCGCTACCCGTCGCGGCGGCACGCTGCGCTTCGACAACAGCGCGCAGGAAACCCCGATCCAGGAGATCTGGGCCTACGACGTCGGCGCCGGTGAGGTGCCGCGCGGCAGCGTCACGCTCGACTACACCATCGACAGCAGTGCCGCGCCGGACTACGCCAACCTGGCCGCGTTGCGCGACTACATCGCCGGGCGCCATCCGCCGGGCGAACGCGACACCGTGCTGGCGCTGCCGGCCAAGGCGCCGGCGCGCAAGCGCCAGGACGTGAGCGAGCCGGCAGGCCACTTGCCGCTGGTGCACGTGCTGGTGCCGTCCACGCTGGGCGACCCGCCGCCGGACCAGCCGCTGATGCGCAGCTGGGCCTATGGCTGGGAGAACATGCACGACGGCCTGGACGGCATCGCGATCGAGCTGCCGGCGCTGGACCTGCCGGCACTGCGCGATGGCGCGATCCCGTTGAACATCCGGGTCAAGGATCCGATCTGGCCGGCGCGCGACATGCTCGACGTGTCGGTCTCGGTCGCGCCGCACCAGCCGCGCACGCTGTGGCTGGACCTGCGCGACCGCATGCTCGGCGACGACAGCCTGATGCTGGACATCGCCGCCGGCGTGCCCGGCTTCGACCGCCGCGCGCTGGACGGCGCGCGCATCCGCCTGGTGTTCAAGCCGCGCGAACAGGCCAAGGCCGAGCATGTCGCCGACCGACTCAACCAGGTCAAGGACAACTGGGGGTTCCTGGTCGAGGAGCACACCACCTCGCAGCGCCAGCGCCTGTACGCGCGGCTGGACCGCGACATCCACGACCTGCTGCGGGTCGACCCGGACAACGTGCTCGGCCGCGCCTACTGGCACGACATCAGCTACGGCAACCAGGCGCCGCCGCCGGTGGCGCTGCCGGAGCCGCCGGCTGGCATGCCCGGCTGGGCGTTCTGGCAGCTGGAGGACCTCAAGGCAACGCGCCGCTATGTGAACTGGTGGATCGACCAGCGCCAGGTCGCCTACGGCGACTTTGGCGGCGGCATCTCCGACGATTCGGACCTGGTGCAGCAGTGGCCGGGTGTGGCGTTGATGGGCGTGGACCCGGACAAGCTGGCCGCGTCGATGTGGGCGCTGTCCGATGCCAATTACCGCAACGGCATGTTCACCGACGGGCTGTCGACGATCGAGACCGACGAGCTGCACAGCTACGAGGAAGGCATCAACCTCAACAGTGCGCTGCTGTACCTGGACTGGGGCGATCCGGTGCTGGTCGAGCGCGCGATGCGCACGGTGAAGGCCTTCGACGCGATCATCCAGGTCAATCCCCAGGGCCACTTGCTGTTCGCCAGCAACTGGTTCGGCGGGCGCAAGGTCTACCGCGAGCCGAACTGGCAGTGGCAGAAGCCGTATTCGTTCCCGATCCTGCATCCGGCGATCCTGCTCGGCGGCTACAACGCCGATCCGAACAGCCGGCGCATCGTCACCGGCCTGGCCGATGCCTACCTCGCCCACGCGTACACCGATGCCAAGGGTCGCTGGGCGCTGCCGAACGAGATCAACTGGGCGACCGGCGCGACCCGCGGCGGCGAGCTGTGGCAGGGCAGCGGCGGCGCCGACACGCTGCACACGTTCTGGGCGGCGTGGCGCTGGAGCGGCGATGCGCGCTATCGCCAGGTGTTCGACTACCGGGTCGCGCGTAGCGGACCGAACGGCCTGTCCAACCTCAACGAGGACGTCCTCACCCTGCTCGGCAAACGCGACAGCTGGGGCGCACAGCTGTTCGCACAGGCGCAGGCCGGCGACGACGCGCCGGACTTCCCGCACTACGTCGCCTGGGAAAGCAGCGGCGATCCGCGCTGGCTGGAAGCGCTGTTCCGCGCCGAGACCGAGGCCAAGCTGCGCGGCATCTACCTCAACACCGAAGGCCACTGGTGGAGCGACCGGGTGGAATCGCCGACGGTCAACCTGCAGCGTGCGCGGCTCGGCGGCGTGGCCTTGAAGCGCAACCAGACCTATCCCGGGCACACGGTGAGCTGGCGCTTCGCCGAGCCGGAGGCGGCGCTGCAGGTCGCGCTGCTGCTGCCGCAGCCGCGTGCCGAGCGCTTCCGGGTGATCGCCTACAACGCCAGCGGGCGCCGCCAGGCGGTGACGATGACCGGCTGGAACGTGCAGCCGGGGCGCTGGGCGCTGCGCAGCGGCGCCGACCGCGATGGCGACGGCCGCATCGATGGCCGCGCGCAGCAGCGCGAGCTGACGTTCGAGCGCAGCGGCAGCGTCACGCTGGAGCTGCCGGCCGGGCAGAGCGTGGTGGAGATGGAACTGCTGCAGGCGGCCACGCCCAGCGAACTGCGCCCGGACCTGGGCATCGGCCGTGGCGACGTGCGCATCGATGGCGCCCAGGTGCAGGTCACCGTGCACAGCCTTGGCCATGTCGATGCACCGGCCGGTGCCGTGGTGCTGGAGGATGCGCGCGGCCGCGAACTGGCCCGCGCCACGTTCCCGGCGCTGGCGGCGCCGCGCGACCTGCAGCCGCAGACCGCGCTGGTAAGGCTGGCGTTGCCCGATGGTCGCATCCCCGCGGGGGCCCGGCTGGTGGTGCGCAGCGAGGGCGATGTCGCCGAGATCACCCGCGGCAACAATACGCGCGGCTTGGACGGCCCCTGA	MKRIGNGAWALLLAAMAGAAAGQAAAQDPQLLFRVSADHGFSADVAAGAAVPNFRDKVALVDDGRAGKAIQWADDGVLAWDAPGNLYTQRGTLGFFWRPRYAVGEAPFVIFRAGYADHTSWDMAWLRIDWNGHGFDAFVTDANLARTRVSFTLAQPPRPQQWLHLAFSWDESRGVRLYVDGREVARQDCGARCRDGGTLDYDAALDQFGLAGRVMAPHQVQSRYNFLRGSDVDEIRIYDRMLDGAGIAALAQLHEPAASAAPAAEATQAAWLYRHGWDHGALPPLLVDPVTRIRKVEFADAKDLKQWMWKATDGIAETTWPGVYNRSRLPGRDDYFQLPDWNVYVEGGKALTLTLPDEPFNRIEIRGAAFGSASYRDASGVEQSLLQRPRGVVRSVDAFATRRGGTLRFDNSAQETPIQEIWAYDVGAGEVPRGSVTLDYTIDSSAAPDYANLAALRDYIAGRHPPGERDTVLALPAKAPARKRQDVSEPAGHLPLVHVLVPSTLGDPPPDQPLMRSWAYGWENMHDGLDGIAIELPALDLPALRDGAIPLNIRVKDPIWPARDMLDVSVSVAPHQPRTLWLDLRDRMLGDDSLMLDIAAGVPGFDRRALDGARIRLVFKPREQAKAEHVADRLNQVKDNWGFLVEEHTTSQRQRLYARLDRDIHDLLRVDPDNVLGRAYWHDISYGNQAPPPVALPEPPAGMPGWAFWQLEDLKATRRYVNWWIDQRQVAYGDFGGGISDDSDLVQQWPGVALMGVDPDKLAASMWALSDANYRNGMFTDGLSTIETDELHSYEEGINLNSALLYLDWGDPVLVERAMRTVKAFDAIIQVNPQGHLLFASNWFGGRKVYREPNWQWQKPYSFPILHPAILLGGYNADPNSRRIVTGLADAYLAHAYTDAKGRWALPNEINWATGATRGGELWQGSGGADTLHTFWAAWRWSGDARYRQVFDYRVARSGPNGLSNLNEDVLTLLGKRDSWGAQLFAQAQAGDDAPDFPHYVAWESSGDPRWLEALFRAETEAKLRGIYLNTEGHWWSDRVESPTVNLQRARLGGVALKRNQTYPGHTVSWRFAEPEAALQVALLLPQPRAERFRVIAYNASGRRQAVTMTGWNVQPGRWALRSGADRDGDGRIDGRAQQRELTFERSGSVTLELPAGQSVVEMELLQAATPSELRPDLGIGRGDVRIDGAQVQVTVHSLGHVDAPAGAVVLEDARGRELARATFPALAAPRDLQPQTALVRLALPDGRIPAGARLVVRSEGDVAEITRGNNTRGLDGP				NA	NA	NA	NA	NA
BMS020_02752	2283	fyuA_1	COG1629	Pesticin receptor	ATGCGCGTGTCCGCCACGCTTCCCGTCCTGTCGACGCTGGCCGTCGCCACCACGCTGTCGGCGCCGCTGCGCGCCGACGACGCGGTGGCCATCCCCCAGACCACCACCTTGGACGGCATCGTCGTCACCGGCGAAAAGCGTGCGCGTTCGCTGCAGGACACCACCAGCTCGGTCGCGGTGACCACGGCGGTGCGGATCGAGCAGGAGAACCTGCAGACCCTCTACGAAGTGCTCAACCGCACCGCCAACGTCGCCCAGACCTATGGCGATGCCGGGTTCACCATCCGCGGCATCCGCGACATCGATGGCGGCGGCGACTCACCGCTGGCCACGATCTACCTGGACGGCGCCGCGCTGCCGCGCTATGCGATCAGCTCCGCGCCGCTGGGCCTGTGGGACCTGCAGCAGGTGGAAATCCTGCGTGGTCCGCAATCGACCATCCAGGGCGAGAACGCGCTGGCCGGCGCGGTGATCCTGCGCACCGCCGAGCCGACGATGGACTGGCAGGGCAAGGTGCGGGTACTGGCCTCCGATCCGTCCGATCGCAGCGTCGCAGCCGCGTTCGGCGGGCCGCTGGTCGCCGACGAGCTGGCGTTTCGTGCCTCGGTCGAGCAGCGCAGCTTCGACGGCTACAACTGGAACATCACCCGCGGCGCCGCCGACGACGCGCTCGAAGCGGTGACCTATCGCGGCAAGCTGCTGTGGACGCCGTCGGCGATCGACGGCCTGAAGCTGCAGCTCGGCTACACCCGCGCGCATCGCACCGGCCCGTACATGTACAGCTACGTGCGCACCGACCTGCCGGACTATCTCGACAACCGCTACAGCACCGGCAACACGCCCGATCGCAACCGCACCGACAGCGACATCGTCAACCTGCAGGTCGACTATGCGCTCAACGACGCCTGGTCGCTGTCCGCGGTCAGCGCCTGGAACCAGGGCGATCTGTTCAGTACCTGGGACGTGGATCGCAGCGCGGCCAACACCAGCTACGCCCAGCGCACGATCCGCAACCGCACCGCCTCGCAGGAACTGCGCCTGCAGTACGCTGGCGGCCGCGTCGACGGCCTGGTCGGGATGTACTGGGCCAGGCACGAGGAGGACAACGACGCGCTCACCCGCACCACCATCGCCACGCCCACCGCCACCATCACCCGCCTGCTCGCCAGCGCCGGCGTCCCGTCCGCCACCGCCGCATCGATCTCCGCCGCGTACGCGCAGGCGCTGCCGGAAATCCCGCTCGACTACGCCAGCAGCAATCCGACCCGCTCGCAGAACGTGGCGCTGTTCGCCGACGGCGAATGGCGCATCGGTGGCAAGTTCTCGTTGCTGGGCGGCCTGCGCTACGACCGCCAGCGCTATGAGATGGCTTCCGCGACCGACGCCAACTTCGTCGGCAGCTATCCGGATCCGGCCGCGTTCGCCGCCACCGGCACCGCGCTGTACCAGGCGATCGCCGCGATCAACCAGGGCGTGGGCGGGATCGTCGGCGCGGCCAGCGGCACGGTGGCGTGGAACAGCCGCGACTTCGATGCGCTGCTACCCAAGCTCGGCGTGCGCTACGCGTGGACGCCGGACCTGGCCGCCAGCCTGGTGGTGCAGCGCGGTTACCGCTCGGGCGGATCGAGCTTCAACATCGCACGCAGCCAGGCCTTCGCCTACGCCCCGGAGTACACCGTGAACTACGAGGCCTCGCTGCGCTCGCGTTGGCTCGACGGACGCCTGGCACTCAACGCCAATGCCTACTACGTCGATTGGAAGGACAAGCAGGTGGTGGCCTATTTCGGGCTCAACGAATACGACTACAACACCGTCAACGCCGGCCGCGCCCACCTGTACGGGTTCGAGCTGGAAGGCAGCCATCGGCTGAGCGAGGCATTCGACTGGTATGCCTCGCTCGGCTACACGCAGACCCGCTTCGACGCGTTCGACACCGTCGCCGACGCCACCGTCACCAGCTACGCCGGCCGCGAGTTCGCCTACGCGCCGCGCTGGACTGCGGCGCTTGGCGCCAACCTGCGCCTCGCTGGCGGCTGGGTGGCCAACCTCAATGCCAACATGCGTGACCGGGTTTATACCGACATCGGCACCGGCGCGCCGCAACTGGCGTCGCGCACCCTGGTCAACGCCAAGCTCGGTTACGAAACCCTGGACTGGAGCGCCTGGATCTTCGCCAACAACCTGTTCGACACGCAGTACGTGCAGTACCGCTGGTCGAGCAGCCCGGTGGCGATCCTCGGCGCGCCGCGGGTGCTGGGGATCGGGTTCGAAGGGCGCTGGTAG	MRVSATLPVLSTLAVATTLSAPLRADDAVAIPQTTTLDGIVVTGEKRARSLQDTTSSVAVTTAVRIEQENLQTLYEVLNRTANVAQTYGDAGFTIRGIRDIDGGGDSPLATIYLDGAALPRYAISSAPLGLWDLQQVEILRGPQSTIQGENALAGAVILRTAEPTMDWQGKVRVLASDPSDRSVAAAFGGPLVADELAFRASVEQRSFDGYNWNITRGAADDALEAVTYRGKLLWTPSAIDGLKLQLGYTRAHRTGPYMYSYVRTDLPDYLDNRYSTGNTPDRNRTDSDIVNLQVDYALNDAWSLSAVSAWNQGDLFSTWDVDRSAANTSYAQRTIRNRTASQELRLQYAGGRVDGLVGMYWARHEEDNDALTRTTIATPTATITRLLASAGVPSATAASISAAYAQALPEIPLDYASSNPTRSQNVALFADGEWRIGGKFSLLGGLRYDRQRYEMASATDANFVGSYPDPAAFAATGTALYQAIAAINQGVGGIVGAASGTVAWNSRDFDALLPKLGVRYAWTPDLAASLVVQRGYRSGGSSFNIARSQAFAYAPEYTVNYEASLRSRWLDGRLALNANAYYVDWKDKQVVAYFGLNEYDYNTVNAGRAHLYGFELEGSHRLSEAFDWYASLGYTQTRFDAFDTVADATVTSYAGREFAYAPRWTAALGANLRLAGGWVANLNANMRDRVYTDIGTGAPQLASRTLVNAKLGYETLDWSAWIFANNLFDTQYVQYRWSSSPVAILGAPRVLGIGFEGRW	PGPT0003790_16327	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_02753	279			hypothetical protein	ATGAGCGTGATCTACATCGTCGCCGCGCTGCTGTCGGCGCTGGCGTTCTACCTGGCCACCGCGCACCAGCAGGTGCGCCCGGCACTGCGTGCGCAGGCCCGGTGGTTGCGCGTGCTGGGCTGGGCGCTGGCGCTGCTGGCGGTGGCCGCCGGCAGCGTCGCGCAGGGACCGTGGGCCGGGCTGTTCTGCGCGCTGACCGCCTTCATGCTCGGAGCGGTCGCACTTCCGTACCTGGATACATGGCGCCGGCTGCGCCGGGAGCGTGCGCATGTGGGCTAG	MSVIYIVAALLSALAFYLATAHQQVRPALRAQARWLRVLGWALALLAVAAGSVAQGPWAGLFCALTAFMLGAVALPYLDTWRRLRRERAHVG				NA	NA	NA	NA	NA
BMS020_02754	273			hypothetical protein	ATGTGGGCTAGGTGGCTGGCGGCGATCGTGCTGGGCCTGCCGCTGTCGACCGGCGTGGTCGGGCTGGTGGTGCTGCTGTGGCCGGGACCGCTGCAGCAGCACACGCTGGCGTGGCTGGTGTGCTCGTTCCCGGTGTGGATCGCGGCGATGGCCTGGGCGTTCGCCTGCCGCAGCGGCGCGCGCGCCTGGCTGTGGATGGGCGGCGCCACCACGCTGTGCTACGCGGCGCTGTACGCGCTCAAGGCACTGGGCTGGACGGAGTTGAGTGCATGA	MWARWLAAIVLGLPLSTGVVGLVVLLWPGPLQQHTLAWLVCSFPVWIAAMAWAFACRSGARAWLWMGGATTLCYAALYALKALGWTELSA				NA	NA	NA	NA	NA
BMS020_02755	1551			hypothetical protein	ATGAAGGCGGTGACCCTGCGCAGTTTCCTGGCGCTGCATACCTGGACCGGGCTGCTCGCCGGCATGGCGCTGTTCATCGCCTTCTACGCCGGTGCGATCACCGTGTTCACCCACGAACTCGGCGACTGGCAGCGGCGACCTGCCGCGCAGGCACCGGTGCAGCCGCCCGAGCAGGCGGCGCAGGCACTGATGGACGCCGTGCTCGGCGCGCATCCGGCGCTGGCCGAATCGTTTTCGCTGATGCTGCCGGGCGAGCATGGACCGGTGCCGCGCCTGTACGTGTTCGGCCCGGCCGCGGACAAGGAGCTGGGCGGACTGGCGATGTTCGAGCCCGGCGCGGACGGGAGCTCGCAGCGGCGCCCGTGGCGGGTCGGTTTCGCCGACTTCCTCTACGACCTGCACTTCACCGCTGGCCTGCCGCGCACGTTCGGCACCTACCTGTTCGGGGTGGTCAGCATCCTTTACGGACTGGCCCTGGTCAGCGGCGTGGTGCTGTACGCGCCGGCGTTCTTCAAGGACCTGTTCGCACTGCGCTGGGGCCGCAACATCAAGCGCCTGTGGCAGGACGCGCACAACGTGGTCGGCATGCTGTCGTTGCCGTTCCACGTGATCTTCGCCTGGTCCGGCGCGGTGCTGTGCCTGGGCCTGCTGTTGCTGGCGCCGTTCCAGTACCTGGTGTTCGGCGACAAGCTGATGCCGATCCTGCAGCCGGACTTCGAGCTGGTACCGCACGTGGCACCGGCCGGTACCCAGGCACGCCTGCTGCCGGTGGCCGAACTGCTGGCGCGCGCACGTGAAGCCAGCCCGGGGCTGGTGGCGGAAAGCCTGTCCTACCACGACGCCGGCGACGCGCACGCGCGCGTGGAGATCTACGGCCATCACCACCAGCGCCGGCTCAACACGCTTGGCGGCGTGGCGCTCGATGCGACGAGCGGGGCGGTGCTGCGCGTGCTCGAACCGCGCACGATGTCGTCCGGGACCGCCACGCTGCGCGGGCTGCAGGGCCTGCACTTCGGCAACTATGGCGGCGCGCCGCTGCAGTGGCTGTACTTCCTGCTCGGGCTGGGCGGCGCGTTCCTGTTCTACAGCGGCAACCTGCTGTGGGTGGAAGCGCGGCGCAAGCGCCGCCAGGCGGCGCAGCCGCTGCGCACCCAGGTGATGGCGCGGCTGACGATCGGCGTCTGCCTGGGCTGCGTGGCCGGGGTGTCGGCGCTGTTCGTGGCCGCGCGGCTGCTGCCGCCCGGCCAGGAGGCGCGGGTGTATTACGCGGTGTTCCTGGCCAGCCTCGGCTGGGCGCTGCTGCGCCGGCCGGCGCGCGGCGCCAGCGAGCTGCTGTGGGCCTGCGCGGCGTTGACCGCGCTGGTACCGGTGGTGGCGCTGCTTGGGCCGCACGGGCTGATCGCACCGTGGCGTGACGCGACCGTGCTGGTGGTGGTTCTGTGCGCGCTGGCATTGGCCTGGGCATATGCAGCGATGGCACGGGCCAGCATGCGCCGCGCCCGCGACGGCGATCCCAACAGCGTGTGGGCGCTGGCGCGCGCCGCGGACTAG	MKAVTLRSFLALHTWTGLLAGMALFIAFYAGAITVFTHELGDWQRRPAAQAPVQPPEQAAQALMDAVLGAHPALAESFSLMLPGEHGPVPRLYVFGPAADKELGGLAMFEPGADGSSQRRPWRVGFADFLYDLHFTAGLPRTFGTYLFGVVSILYGLALVSGVVLYAPAFFKDLFALRWGRNIKRLWQDAHNVVGMLSLPFHVIFAWSGAVLCLGLLLLAPFQYLVFGDKLMPILQPDFELVPHVAPAGTQARLLPVAELLARAREASPGLVAESLSYHDAGDAHARVEIYGHHHQRRLNTLGGVALDATSGAVLRVLEPRTMSSGTATLRGLQGLHFGNYGGAPLQWLYFLLGLGGAFLFYSGNLLWVEARRKRRQAAQPLRTQVMARLTIGVCLGCVAGVSALFVAARLLPPGQEARVYYAVFLASLGWALLRRPARGASELLWACAALTALVPVVALLGPHGLIAPWRDATVLVVVLCALALAWAYAAMARASMRRARDGDPNSVWALARAAD				NA	NA	NA	NA	NA
BMS020_02756	315			hypothetical protein	GTGCAACGCCTCTATCTCGCCCTGTGCGTGCTCGGCACGCTGCTGCCGCTGGCCGCGCTGGCGCCCTGGCTGGGCCAGCATGGTCCGGCCATCGTGCCGTTGCTGCGGCAGGCCTTCGCCGAGCCGGTCGGCGCCTTCGCCTGGTGCGACGTGCTGCTCTCGGCGCTGGCGCTGATCGCGCTGGTGCTGGCCGAAGGCCGCCGGATCGGCATGCGCCGGCCGTGGCTGGCGCTGCTTGGCCTGCTGGTCGGCGTCTCGCTGGCGCTGCCGTTGTTCCTGCTGCTGCGCGAACGCCACCTGGCCGCCCGCGCCTGA	MQRLYLALCVLGTLLPLAALAPWLGQHGPAIVPLLRQAFAEPVGAFAWCDVLLSALALIALVLAEGRRIGMRRPWLALLGLLVGVSLALPLFLLLRERHLAARA				NA	NA	NA	NA	NA
BMS020_02757	462			hypothetical protein	ATGATCAACCACCACAGCGCCGTGCTGGCGCTCGCACTGCTGCTGGCGGCCTGCAAGCCGCAGGCGACCCCGGCGCCGGCCGCGCCGGCGCAGCCCGCCGCCACCATCGCAGCCCCCACCGCGCCTGCCCCCGCCGCGCCGCCGGCGACCGCTACAGCCGCCATCGCCGATGCCGACCAGGCGCTGCAGCAGCTGGTCGCGCGGCTGCAGCGCGATGCGCTGTACGCCGATGGCTGCGTCAGCTACGCCAGCGACGACCAGGACGACGCGGCCGACGGCTTCGCCTTCGTGGTGCGCGAACGCCACGGCCAGGGCTGCCCGGGCGACCCGCAGACCGCACCGGTGCGCGACCGCTTCCGGGTCGGGCGCGATGGCGCGCTGCAGTGGTACGACATCGTGGACGGCGAGTACGTCGACTATGCCGAGCGCAGCCGGCGCCTGGAGCAGCTGCAGGCGGGCTGA	MINHHSAVLALALLLAACKPQATPAPAAPAQPAATIAAPTAPAPAAPPATATAAIADADQALQQLVARLQRDALYADGCVSYASDDQDDAADGFAFVVRERHGQGCPGDPQTAPVRDRFRVGRDGALQWYDIVDGEYVDYAERSRRLEQLQAG				NA	NA	NA	NA	NA
BMS020_02758	1032	yajO_2	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGGAGACCCGACTGCTTGGCCGTTCCGGCCTCAAGGTGCCGGTGCTCGGCTTCGGCGCCGGCACCTTCGGCGGCCAGGGCCCGCTGTTCTCGGCCTGGGGCGATACCGGCGTGGAGCAGGCGCGCCGCATCGTCGACCTGTGCCTGGATGCCGGGGTGACCCTGTTCGACACCGCCGACGTGTATTCCGACGGCGCCTCCGAGGAGATCCTCGGCGCGGCGCTGGCCGGGCGGCGCGAGCAGGTGCTGATCTCGACCAAGACCGGCCTGCGCCTGGGCGACGGCCCCAACGACGCCGGCGCCTCGCGGCAACGCCTGCTGCGCGCGGTCGAGGCCTCGCTGCGGCGCCTGCGCACCGACTACATCGACCTGCTGCAGCTGCACGCCTTCGATGCGCTGACGCCGGTCGAGGAGACCTTGTCCACGCTCGACGGCCTGGTGCGTGCCGGCAAGGTGCGCTACCTGGGCGCGTCGAACTACGCCGGCTGGCAGCTGATGAAATCGCTGGCGGTGGCCGATGCACATGGCTGGAGCCGCTTCGTCGCCCACCAGGCCTACTACTCGCTGGCCGGGCGCGACTACGAGTGGGAACTGATGCCGCTCGCGCTCGACCAGGGCGTCGGCGCGGTGGTGTGGAGCCCGCTGGGCTGGGGCCGGCTGACCGGCAAGCTGCGGCGCGGCCAGCCGCTGCCGGCGCAGAGCCGGCTGCACGCCACCGCCGCGTTCGGTCCGGCGATCGACGATGCGCGCCTGTTCGACCTCGTCGACGTGCTCGACGCGATCGCCGCCGAGACCGGCCGCAGCATCGCGCAGGTCGCGCTCAACTGGCTGCTGCAGCGGCCGACGGTGAGCACGGTGCTGATCGGCGCGCGCACCGAAGCGCAGCTGCGCGACAACCTCGGTGCGGTCGGCTGGGCGCTGCAGCCGGCCCAGGTCGCGCGCCTGGACGCGGTCAGCGCGGTCGAGCCGCCGTATCCGTACTACCCGTACTGGCGCGGCCACTTCGCCGAGCGCCATCCACTGCCGGTCTGA	METRLLGRSGLKVPVLGFGAGTFGGQGPLFSAWGDTGVEQARRIVDLCLDAGVTLFDTADVYSDGASEEILGAALAGRREQVLISTKTGLRLGDGPNDAGASRQRLLRAVEASLRRLRTDYIDLLQLHAFDALTPVEETLSTLDGLVRAGKVRYLGASNYAGWQLMKSLAVADAHGWSRFVAHQAYYSLAGRDYEWELMPLALDQGVGAVVWSPLGWGRLTGKLRRGQPLPAQSRLHATAAFGPAIDDARLFDLVDVLDAIAAETGRSIAQVALNWLLQRPTVSTVLIGARTEAQLRDNLGAVGWALQPAQVARLDAVSAVEPPYPYYPYWRGHFAERHPLPV	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
BMS020_02759	1224	ydhP_3	COG2814	Inner membrane transport protein YdhP	ATGTCCCCCGAAGCCGTTTCCCCTCGCCCGCGCACGCCCGCGGCGCTGTATGCCCTCACCATCGGTGCCTTCGGCATCGGCACCACCGAGTTCGTGATCATGGGCCTGCTGCAGCAGGTCGCCAGCGACCTCGGCGTCTCCATCACCAGCGCCGGGCTGCTGATCAGCGGCTACGCGCTGGGGGTGTTCGTCGGCGCACCGCTGCTGACCCTGGGCACCGCGAAGCTGCCGCGCAAGGCGTTGCTGCTGGCGCTGATGGGCGTGTTCACGCTCGGCAACCTGGCCTGCGCGCTGGCGCCGGACTACGCCACGCTGATGGCCGCGCGGGTGCTGACCTCGCTCGCGCACGGGACCTTCTTCGGCGTCGGCGCGGTGGTGGCGACGTCGCTGGTGCCGGCCGAGCGCCGCGCCTCGGCGATCTCGCTGATGTTCGCCGGGCTCACCGTGGCCACCGTGCTCGGCGTGCCGGCCGGCGCCTGGCTGGGCCTGCACCATGGCTGGCGGGCGACGTTCTGGGCGGTGTCGGCGATCGGGCTGGTGGCGCTGGCGGCGGTGGCGGTGTGGGTGCCGGCGCGGGTGGCGGTCGCCGCGCCGCTGCACTGGCGCCAGGAAGTGGCGGTGCTCAAGCGCGGCCAGGTGCTGCTGGCGCTGCTGATGACCGCGGTCGGCATCGCCGGCGAGTTCGCCGTGTTCACCTACATCCAGCCGCTGCTGGTCGACCTGACCGGCTTCAGCGCCGATGCGGTCTCGCTGGTGCTGCTGGTGTTCGGCGCCGGCATGATCGCCGGCAACCTGCTCGGCGGGCGGCTGGCCGACCGCCATCCCGACGGCGCGCTGATCGGCACGCTGGCGGCGATGGCGCTGGTGTTGCTGGCGATGCCGCTGGCGCTGCATTCGCGCCCGGCGATGGTGGTGATGGCCGGCCTGCTGGGCGTGAGTTCGTTCGCCACGGTCGCGCCGCTGCAGCTGCGGGTGCTGGAGCAGGCGCGCGGCGCCGGCCAGAACCTCGCCTCCAGCCTCAACATCGCCGCGTTCAACCTCGGCAACGCGCTCGGCGCCTGGGTCGGCGGCGTGGTGGTGGCCAGCTCGGCCGGCCTGGCGGCAACCCCGTGGGCCGCGGCGACGCTGACCGTGCTCGGCCTGCTGGTCGCGCTGGGCAGCGTGCGCCACGACCGTCGCCAGCGTACGCGCGCCGCGCTCGGCGCCTGCTCCCAGGCCACCTGA	MSPEAVSPRPRTPAALYALTIGAFGIGTTEFVIMGLLQQVASDLGVSITSAGLLISGYALGVFVGAPLLTLGTAKLPRKALLLALMGVFTLGNLACALAPDYATLMAARVLTSLAHGTFFGVGAVVATSLVPAERRASAISLMFAGLTVATVLGVPAGAWLGLHHGWRATFWAVSAIGLVALAAVAVWVPARVAVAAPLHWRQEVAVLKRGQVLLALLMTAVGIAGEFAVFTYIQPLLVDLTGFSADAVSLVLLVFGAGMIAGNLLGGRLADRHPDGALIGTLAAMALVLLAMPLALHSRPAMVVMAGLLGVSSFATVAPLQLRVLEQARGAGQNLASSLNIAAFNLGNALGAWVGGVVVASSAGLAATPWAAATLTVLGLLVALGSVRHDRRQRTRAALGACSQAT	PGPT0028991_1026	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
BMS020_02760	909	dmlR_19		HTH-type transcriptional regulator DmlR	ATGGACCGTGTCGGCGACATCGCGCTGTTCCTGCGGGTGCTGGACCTGGGCTCGATCAGTGCCGCCGCGCGCAGCCTGGACCTGTCGGTGGCGGTGGCCAGCCAGCGCCTGAAGCGGCTGGAGCGCGACCTCGGCGTGCGCCTGCTGCACCGGACCACCCGCCGCCTGCATCCCACCCCCGAAGGCCAGGCGCTGGCCGAACGCGGCCGCGTGCTGGTGCAGGACCTGGAGGCGCTGGGCGAGGGCCTGCGCGAGAGCAGCCGCGGGGTGACCGGCACGCTGCGGCTGACGATGTCGGCCTCGTTCGGCCAGCAGTACGTGTCGCGGCTGCTGCCGGAATTCCAGGCGCTGCATCCGGGCGTGCGGGTGGCCGCGCACCTGAGCGACGACATGATCGACCTGGTGCGCGAGGGGTACGACCTGGCGATCCGGATCGGCGCGCTGGACGACTCCGGGCTGGTGGCGCGGCGCATCGCCGGCAACGCGCGGGTGCTGTGCGCCGCGCCGGAGTACCTGCGCCGGCGCGGCACGCCGCGCACCCCGGAGGACCTGGCCGGGCACGACGGCGTGCTGCTGATGGGCCGTGACGGGCGCCAGGACCTGTGGACCCTGCTCGGCCCGGACGGCGCCAGCGTCCGGGTGCGCATGGCCAGCCGCTTCGAGAGCAACTTCGGCGAGCTGCTGCGCGAGGCGGTGCTGGCCGGGCAGGGCATCGCGGTGCACTCGCTGTGGCATATCGCCGACGACCTGCGCGCCGGCCGCATGGTCGCGGTGCTGCCGGACTGGCGCCCGCCGACCACCCAGATCAGCGCGGTCACCCCGGCGCGCCGGTTGCAGCCGCCGCGGGTCCGCGCCTTCGTCGATTTCCTGATCGCGCGGCTGGGCGACCCGCCGCCGTGGGAGCGCTGA	MDRVGDIALFLRVLDLGSISAAARSLDLSVAVASQRLKRLERDLGVRLLHRTTRRLHPTPEGQALAERGRVLVQDLEALGEGLRESSRGVTGTLRLTMSASFGQQYVSRLLPEFQALHPGVRVAAHLSDDMIDLVREGYDLAIRIGALDDSGLVARRIAGNARVLCAAPEYLRRRGTPRTPEDLAGHDGVLLMGRDGRQDLWTLLGPDGASVRVRMASRFESNFGELLREAVLAGQGIAVHSLWHIADDLRAGRMVAVLPDWRPPTTQISAVTPARRLQPPRVRAFVDFLIARLGDPPPWER	PGPT0028940_150	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
BMS020_02761	1365			hypothetical protein	ATGGAGATCCGTCGTTTCGCGCGCGGGCTGGCCTGGGGTTGTGCCGGCCTGGTCGCGCTGCTGGTGCTCGCCGGCGCCGCGCTCCTGCTGGTCAATCGTCGCGACCAGCCGCCGTCGGCGGCCGCCAGCCAGCTGCACGCGCTGATCGACGCGCGCATCGCGGTCGCCGATGCGGACAACGCCTATGTCGATGCGCTCGGCATCGCCGCGCCGCGCGAGCAGGATCCGCTGGCGTTCGGCCGCCTGCGCAAGCAGGTAGTGGATGCGAAGGCGACGCAGGGCTCGGGCATCGAGGGCTTCGCCCTGCCGGGGCGCGACGTCGACTACCGGGCCGCGCGTGCGCCGCGGGTGACGCGGTTGGCCACGGCCTGCGAACGCCCCGAGCCGGACTGCCTGGTGCTGCTTGCCCAGGACCCGGGCACGCTCGACGCATGGCTCGCCAGCGAGGCGTGGCTGCTGGCGCGCTACCGCGCCATGCTGCTGCGCCCCCAATGGCAGGAAACGCCGCCGGCCGACGCGCGCGCGCCGATTCCGGCCTATGCGCCGCTGCTGGACGGCCAGCGCCTGTCGCTGCTGGCGATGCTGCGCCAGGCCCAGGCCGGCGATGCCGTGGGCGTGCGTGCCCGGCTGCAGGACGACCTGCGCTACTGGCGCATGGTGCTGGCGTCGTCGGACATGCTGATCACCAAGATCATCGCGGCTGCGGCGATCGAACGGCACTTCGTGTTTGGCAACCAGATCCTGCGCGCGCTGCCGGCGGCGCAGGCGCAGGCCGCGATCCCCGACGCCTGGCGGGTGCCGTTGAGCGCGGCGGAACGCTCGCTGCTGCGGCCGCTGGCCGGCGAGTGGCGGATGCTGTCCGGCGAACTCGCCCTGGCCGAGGCGTCGGCGGCGGCTGACAGTCCCGGATGGCGTGGGCTGCCGGTGCGGCTGGAAGCGCGCCTGATGCAGCGCCAGGCCACGCTCAACCTGGTCGCCGAGCGCAGTGTCGCCCTCGCGGCGCGCGCCGCGGTGCCGTATGCCGAGCTGCCGCAGGTGATGGCGGCGATGGGCGAGCCGCGCGCGCTGCCGGCGGTGCTGCATCCGTACAACCCGATCGGACGCATGCTCGATGGCGCCATCGTCGATGGCAGCTACCTGCGCTACGCCCCGCGCCTGGCCGACCTGGAAGGAGTGCGGCGGGTGTCGCTGCTGGCCGCGCAGCTGCGTGCCGGCGACCCGGCCCGGCTGGGCGAGCAGGTGCAGGCCTCGCCATTGCGCGATCCGTACACCGGCGCCGCGTTCGGCTGGGATGGCAGCGCCCGCACGCTGCACTACGACGGCCTGGGCGAGCAGCCCACGGTCCACCTGCGCGTGCCGCTGTAG	MEIRRFARGLAWGCAGLVALLVLAGAALLLVNRRDQPPSAAASQLHALIDARIAVADADNAYVDALGIAAPREQDPLAFGRLRKQVVDAKATQGSGIEGFALPGRDVDYRAARAPRVTRLATACERPEPDCLVLLAQDPGTLDAWLASEAWLLARYRAMLLRPQWQETPPADARAPIPAYAPLLDGQRLSLLAMLRQAQAGDAVGVRARLQDDLRYWRMVLASSDMLITKIIAAAAIERHFVFGNQILRALPAAQAQAAIPDAWRVPLSAAERSLLRPLAGEWRMLSGELALAEASAAADSPGWRGLPVRLEARLMQRQATLNLVAERSVALAARAAVPYAELPQVMAAMGEPRALPAVLHPYNPIGRMLDGAIVDGSYLRYAPRLADLEGVRRVSLLAAQLRAGDPARLGEQVQASPLRDPYTGAAFGWDGSARTLHYDGLGEQPTVHLRVPL				NA	NA	NA	NA	NA
BMS020_02762	1626	pnbA_2	COG2272	Para-nitrobenzyl esterase	ATGAGCGACGCGCACGATTCCACCACCACCGGCGGGCGGCGCCGGTTCCTGCGCGGCGCGCTGCTCGGTGGCCTCGGCGCCGGCCTGGCCGCGCCCTGGCTGCCGGCGCAGGCGCTCGCCCGCGACGACGGCTCCGCTCCATTGGCGACGCTGCGCAGCGGCCGCGTGCGCGGCGCACGCGATGGCGGCATCCACGTGTTCAAGGGCATGCCGTACGGCGCCGACACCGCCGGCTACCGCTTCCAGCCGCCGCGGCGCGAGCCGCGCTGGGATGGCATCCGCGACGCGCTGGCCTATGGCCCGGCCGCGCCGCAGGCCAGGACCGAGGAGCGCACCAGCGAGGATTGCCTGGTGCTCAACGTGTGGACGCCGGGCCTGCGCGACGGCGGCCGCCGGCCGATCCTGGTCTACATCCACGGCGGCGCCTTCAACAACGGCTCCGGCAGCGACCCGCTGTACGACGGCAGCGCGCTGTGCCGCGCCGGCGACGTGGTGGTGGTCACGCTCAACCACCGCCTCAACGCGTTCGGCTACCTGTACCTGGCACAGCTCGGTGACGCCACGCTGGCCGACTCCGGCAACGTCGGCCAGCTCGACCTGATCGCCGCCCTGCACTGGGTGCGCGAGCACGCCGCCGAGTTCGGCGGCGACGCCGGCAACGTGACCGTGTTCGGCCAGTCCGGCGGCGGCGCCAAGATCGCCACGCTGATGGCGATGCCGGCCGCGCGCGGGCTGTTCCAGCGCGCCTGGACGATGAGCGGGCAGCAGGTCACCGCCGCCGGCCCGCGCGCGGCGGCCCAGCGCGCGCGGATCTTGCTCGACGCGCTCGGCGTGCAGGACGTCGCGGCGCTGCGCACGCTGCCGGCGGCGCGGCTGCTCGACGGCCTGCGCGCACGCGATCCATCGCGCGCCGAGGACACCGCGCTGTATCTCGGCCCGGTGCTCGATGGCGGCGCGCTGCCACGGCATCCGTTCTGGCCGGATGCCCCGCCACAATCGGCGGCGATCCCGATGGTGATCGGCAACACCCACGACGAGACCCGCGCCTTCCTCGGCAACGATCCGCATCATTTCGAGCTCGGCTGGGACGAGCTGCCGGCGCTGCTGGAACGCCAGCAGTTCGTCGACCTGCTGCCGGCCACGGTGATCACCGAGTACCGCCGCCTGTACCCGCATTACACGCCGTCGGAGGTGTTCTTCGCCGCGACCACCGCCGGGCGCTCGTGGCGCGGCGCGGTCGAGGAGCTGGAGGCGCGCGCGCACCAGGGCGCGCCGACCTGGGCGTATCAGCTGGACTGGTACGCACGTGGTGGCGAGGCCGAGCAGCTGCGCGCGTTCCACACGCTGGACATCCCGCTGGTGTTCGGCACCACCGCGCAGCCGGGCGCGCGCAGCGGCGATGGCGCCGACGCCCGTGCGATGAGCACGGTGATGCGCGACGCGCTGCTGGCGTTTGCGCGCCACGGCGATCCCAACCATCGCGGCCTGCCGGCCTGGCGCCCGTACTCGCTGCAGCGGCGTGAAACCATGCTGTTCGACCAGCGCAGCCGGCTCGAGAACGACCCGCGCGGCGGCGAGCGCCGGCTCTACGCGCAGGTGCCGTTCGTGCAGCGCGGCACGTTCTGA	MSDAHDSTTTGGRRRFLRGALLGGLGAGLAAPWLPAQALARDDGSAPLATLRSGRVRGARDGGIHVFKGMPYGADTAGYRFQPPRREPRWDGIRDALAYGPAAPQARTEERTSEDCLVLNVWTPGLRDGGRRPILVYIHGGAFNNGSGSDPLYDGSALCRAGDVVVVTLNHRLNAFGYLYLAQLGDATLADSGNVGQLDLIAALHWVREHAAEFGGDAGNVTVFGQSGGGAKIATLMAMPAARGLFQRAWTMSGQQVTAAGPRAAAQRARILLDALGVQDVAALRTLPAARLLDGLRARDPSRAEDTALYLGPVLDGGALPRHPFWPDAPPQSAAIPMVIGNTHDETRAFLGNDPHHFELGWDELPALLERQQFVDLLPATVITEYRRLYPHYTPSEVFFAATTAGRSWRGAVEELEARAHQGAPTWAYQLDWYARGGEAEQLRAFHTLDIPLVFGTTAQPGARSGDGADARAMSTVMRDALLAFARHGDPNHRGLPAWRPYSLQRRETMLFDQRSRLENDPRGGERRLYAQVPFVQRGTF	PGPT0030515_717	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TANNIN_DEGRADATION	PUTATIVE-TANNIN_DEGRADATION-1,PGPT0030515-pnbA-K03929
BMS020_02763	1059			hypothetical protein	ATGCAGCTGGAATCACCGCGCCGCCGGGTCGGGCGGAGGGTCATCGCGTTGGCGTTGGCGCTGTTCGCCGGCGCGGCCGGGGGACAGGAGCATGGCGCGGCCGAGACCGCGGCCGAACAGGCCACCCGGATCGCGCTATGGCCGGGCGACGGCATCGCGCCGGGCGACCACGCACTGGCGCGACCGCAGCGCATCATCGAGCGCAGCGCCGATCCGGCGCTGCCGGACCGCTACATCGACGGGATCAGCCGGCCCTACCTGGTGGTCTACCGCCCGGCGCGGCCGAATGGCACCGCGCTGCTGGTCGCACCGGGCGGCGGCTACCAGCGCATCGTGCTCGACAAGGAAGGCAGCGCGCTGGTGCCGGCGTTCGTCGACGCGGGCGGCGTGACCCTGTTCGTGCTGCGCTACCGGCTGCCCGGTGAAGGTCATGCCGATGGCCGCGATGCCCCGCTGGCCGACGCGCAGCGCGCGCTCCGGCTGATCCGCGCCCATGCCGGGCACTACGGCATCGATCCGCACCGGGTCGGGGTGATGGGCTTCTCCGCCGGCGGCCATGTCGCCGCGAGCCTGGCCACGCGCTTCGATGTGCCGGCGTACCCGGCACAGGACATGAGCGACCGGCTGTCGGCGCGGCCCGACTTCGCGCTGCTGGTGTATCCGGTGATCGACATGGGCCTGGCACAGCGCTGCACGCCGGGCGCAGCCTGCGCCCAGCCGGCGTCGATCGCCCACCCCGGCTCGCGCGCGCGCCTGCTTGGCGCCACGCCGGACGCGCAGGCGGTGCGTGACTATTCGCTGCAGCAGCGGGTCGATGCGCGCACGCCGCCGACCTTCCTGGTGCATGCCGAGGACGACGACGTGGTGCCGGTGGAGAACAGCCTGGTGTTCAACGCCGCACTGCGCCGCGCCGGTGTCGCCAGCGAGCTGCATCTGTTCCCGCACGGTGGCCACGGCTTCGGCACCCGCGGCACCACCGGCCTGACCACCGCGGCGTGGCCACGGCTGGCCCTGGACTGGATCGCCGCGCAGCCGCGCGGCAACGAGGACGCACGATGA	MQLESPRRRVGRRVIALALALFAGAAGGQEHGAAETAAEQATRIALWPGDGIAPGDHALARPQRIIERSADPALPDRYIDGISRPYLVVYRPARPNGTALLVAPGGGYQRIVLDKEGSALVPAFVDAGGVTLFVLRYRLPGEGHADGRDAPLADAQRALRLIRAHAGHYGIDPHRVGVMGFSAGGHVAASLATRFDVPAYPAQDMSDRLSARPDFALLVYPVIDMGLAQRCTPGAACAQPASIAHPGSRARLLGATPDAQAVRDYSLQQRVDARTPPTFLVHAEDDDVVPVENSLVFNAALRRAGVASELHLFPHGGHGFGTRGTTGLTTAAWPRLALDWIAAQPRGNEDAR				NA	NA	NA	NA	NA
BMS020_02764	861			hypothetical protein	ATGGGCAGTGCAGCAATCGCCACCTATTGCGGAGACCTCACCTTGAGCAACGACGCCGGCCAGCCAGCATCGCCCCCGCCCGCGCTGAACGAGATCGCGCGCAGCTTCACCCAGGCCCGCGCCGAGGGCCGCGCCCTCGCTGATTTCCCCGGCAGCATCCCCGAAGACCTGGAAACCGCCTACCGCGTGCAGGACATCGCGATCGCCCAATGGCCGGACCAGGTCGTGGGCTGGAAGGTCGGCTACATCGCCGCCGAGCGCCGCGACCACTCCGGCGACGACCGCCTGCTGGGCCCGATCTTCTCGCGCCGGCTGCAAAATGCTACCGGTAGCATTGCCGATATCGCGGTGTTCGCCGGCGGCTTCGCCGCGGTCGAGGCCGAGTACGTGCTGCGCCTGGACGCCGATGCACCGGCCGACCAGCTGCACTGGACCCCGGAGCAGGCCGCCGCGCTGCCGGCCACGCTGTTCATCGGCGTGGAAGTGGCCAGCAGCCCGCTGGCGACGATCAACGTGCTCGGCCCGCGCGTGGTGATCTCCGATTTCGGCAACAACAACGGCCTGCTGCTCGGTCCGCAGATTCCCGACTGGACCGCGCTGGACGAGGCCACGCTGCGCGCCGAAACCCTGATCGAAGGCGAGGTGGTCGGCACCGGTGGCGCGCTGCACCTGCCGGGCGGGCTGCGCACCGCGTTCGCGTTCGCCCTGGGGCGTTCGGCCCGGCGCGGGCGGCCGCTGCGCCGCGGCGAGCTGATCGCCACCGGCAACGCCACCGGCATCCACGACATCGCGGTCGGCCAGCAGGCCTTGATCCGCTTCCATGGCCATGGGGAAATCCACTGCCGGGCCGTCGCCGCCTAA	MGSAAIATYCGDLTLSNDAGQPASPPPALNEIARSFTQARAEGRALADFPGSIPEDLETAYRVQDIAIAQWPDQVVGWKVGYIAAERRDHSGDDRLLGPIFSRRLQNATGSIADIAVFAGGFAAVEAEYVLRLDADAPADQLHWTPEQAAALPATLFIGVEVASSPLATINVLGPRVVISDFGNNNGLLLGPQIPDWTALDEATLRAETLIEGEVVGTGGALHLPGGLRTAFAFALGRSARRGRPLRRGELIATGNATGIHDIAVGQQALIRFHGHGEIHCRAVAA	PGPT0006005_220	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-3-PHENYLPROPIONIC_ACID|CINNAMIC_ACID_RESISTANCE,PGPT0006005-mhpD-K02554	NA	NA
BMS020_02765	999		COG1638	Solute-binding protein	ATGATCACACGCAGGAACTTCATCGGCGCCACGCTCGGCGCCGCCATCGCGCTGCCGTGCGCGCGCAGCCTGGCCGCCGCCGCCGGCGACGGCGCGCGGCTGTTGACCGCCACCGACGTGCACGTCGCCGACTATCCGACCGTGACCGCGGTGCGCTGGATCGGCGAGCAGCTGCAGCAGGCCACCGAAGGGCGCCTGGCGCTGCGCCAGTACCACTCCGGCCAGCTCGGCCGCGAGGCCGAGGCGATCGACATGGCGCGCTTCGGCGCGATCGACATCACCCGCGTGTACGCCGGCGCGCTGAACAACGCCTTCCCGCTGACCCAGGGGCTGTGCCTGCCCTACACCTTCGATTCGGTCGCGCATCTGCGTCGGGCGATCGATGGCGGCATCGGCGAGGCGGTGCTGCGCGGCTTCGAGGCGCGTGGCCTGGTCGGCCTGGCGATCTACGATTCCGGCGCGCGCTGCTTCTACAACACCAAGCACCCGGTCGTGAGCCCGGCCGACCTGCACGGGCTGAAGCTGCGCGTGGCCAACTCGGACATGTTCATCCAGCTGATGCGGCTGCTCGGTACCAACCCGACGCCGATGTCGCTGGGCGAGACGTTCTCGGCGATGGAGACGCACATGATCGACGGCGCCGAGAACAACATGCGCAGCTTCCAGTCCAGCCGCCATTTCGAGGCCGCGCACTACTGGTCGCAGAGCGAGCATTCCTACGCGCCGGACATCCTGGTGATGTCGCAGCGCAGCTTCGAGGCGCTGGCGCCGGGCGACCGCGCGCTGCTCATCGACATCGCGCGGCGCTCGGTGCCGGTGATGCGCCAGGCCTGGGACAGTTCCGAGGCCGCTGCGCGCAAGGCGGTGCTCGATTACGGCGTGGCCGCCAACGCGGTCGACATGGCCGCGTTCCGCGCCGCCGCGGCGCCGCTGCTGGCGCAGTACCGCAAGCAGCCGGCGATCGACGCGCTGTACCGCCGCATCCGCGACTTCGCCTGA	MITRRNFIGATLGAAIALPCARSLAAAAGDGARLLTATDVHVADYPTVTAVRWIGEQLQQATEGRLALRQYHSGQLGREAEAIDMARFGAIDITRVYAGALNNAFPLTQGLCLPYTFDSVAHLRRAIDGGIGEAVLRGFEARGLVGLAIYDSGARCFYNTKHPVVSPADLHGLKLRVANSDMFIQLMRLLGTNPTPMSLGETFSAMETHMIDGAENNMRSFQSSRHFEAAHYWSQSEHSYAPDILVMSQRSFEALAPGDRALLIDIARRSVPVMRQAWDSSEAAARKAVLDYGVAANAVDMAAFRAAAAPLLAQYRKQPAIDALYRRIRDFA				NA	NA	NA	NA	NA
BMS020_02766	519			hypothetical protein	ATGACCGAGACGACCGAGATCCTCCCGGCCTCCGGCGCGCAGCGCGCGCTGGACCGGCTGTCCGATGCCGCCATCGCCGTGGCCGCCGCCGCCCTGCTCGGGCTGGTGGCGGTGCAGGGCTGGCAGGTGTTCGCGCGCTACGTGCTCAACGATTCGCCGAGCTGGACCGAACCGGTGACGCTGCTGTTGCTGAGCACGGCGATGAGCCTGGGCGCGGCCTCCGGTGTGCATACCAACCGCCATTTCGGCTTCTTCCTGCTGGCCGAGCATGTCGGTGCCGGGGTGCGCCGCGCGCTGGCGCTGGTGTCGCCGCTGGCGGTGGCGCTGCTCGGCGCGGTGCTGTGCTACTGGGCCGCGGTGCTGTTCGTCGATGGACTGACGATCAAGATCGCCGGCGCGTCGATGCCGCAGAGCATCAACTACCTGCCGCTCGCGGTCGGCGCGGCGCTGATGGTGCTGTTCGCGCTGCACCGGCTGCTGCAGGCGCTGCGTGGCGACCACGCCGAAGGGAGGTCCTGA	MTETTEILPASGAQRALDRLSDAAIAVAAAALLGLVAVQGWQVFARYVLNDSPSWTEPVTLLLLSTAMSLGAASGVHTNRHFGFFLLAEHVGAGVRRALALVSPLAVALLGAVLCYWAAVLFVDGLTIKIAGASMPQSINYLPLAVGAALMVLFALHRLLQALRGDHAEGRS				NA	NA	NA	NA	NA
BMS020_02767	1287	dctM_2	COG1593	C4-dicarboxylate TRAP transporter large permease protein DctM	ATGGCGATCGCATTGTTGTTCGGTCTGTTCGCGGTGCTGCTGCTGATCGGCGTACCGGTGGCCTACGCATTGGGCATGGCGGCGCTGGCGACGCTGGTCTATCTCGACCTGCCCAGCGTGGTGCTGGTGCAGCAGGTCTCGGCCGGCAGCGGCAGCGCGTCGCTGATCGCGATCCCGCTGTTCATCTTCGCCGGCGAGATCATGCTGCGCGGTGGCATCTCCGAGCGCCTGATCGCGCTGGCGGCGTCGCTGGTCGGGCGCATGCGCGGCGGCCTCGGCCAGGTCAGCGTGTTGTCGTCGCTATTTTTCGGTGGCGTGTCCGGTTCGGCGATCGCCGACGTCTCGGCGGTCGGCGGCACGATGATTCCGCAGATGGTGCAGCGCGGCTACGACCGTGACTTCGCGGTCAACGTCAGCATCACCGCGGCGCTGGTGGCGCTGCTGGTGCCGCCCTCGCACAACCTGATCCTGTTCTCGGCCGCGGCCGGCGGCGGGCTGTCGATCGCCGATCTGTTCGCCGCCGGCATGGTGCCGGCGCTGCTGATGACGCTGGCGATGATGATCACCGGCTATGCGGTGGCGCGGCGCCGCGGCTACGGCGTGGAGGTGTTCCCCGGCATGCGGGCGGTGCTGCTGCGGCTGGTCGCGGCGCTGCCGGGCCTGGGCCTGGTCGGGCTGATCTTCTTCGGCATCCGTGCCGGCATCTTCACCGCGGTGGAGAGCGCGGCGATCGCGGTGCTGTACGCGCTGCTGGTGACCTCGGTGATCTACCGCCAGCTTGGCTGGCGCACCTTCTTCGCCACCGTCGCGCATGCCGCGCGCACCACCGGCGTGATCCTGTTCGTGATCGCCACCGCGGCGGTGTTCGGCTGGTTGCTGGCCTACCTGCAGGTGCCGGCGCACGCGGTGGAGTTCCTGCAGTCGTTCGCGCACAGCAAGACCATGGTGTTGCTGATGATCGTGCTGATGCTGCTGGTCCTCGGCACGTTCATGGACCTGGCGCCGATGATCCTGATCTGCACGCCGATCTTCCTGCCGGTGGCCAAGGCGTACGGCATCGATCCGATCCACTTCGGCCTGGTGCTGGTGCTGACCGGCGGCATCGGCCTGGTGACGCCACCGGTGGGCTCGGTGCTGTTCATCGGCACCGCGATCGGCAAGATCAGCATCGCCCAGAGCATGCGCACCATCTGGCCGTTCTGGTTGGCCGCGCTGGGCGTGCTGCTGGTGGTGACGTTCTTCCCGGCGCTGTCGTTGTGGCTGCCGCACGCGCTGCGCGCAGGCTGA	MAIALLFGLFAVLLLIGVPVAYALGMAALATLVYLDLPSVVLVQQVSAGSGSASLIAIPLFIFAGEIMLRGGISERLIALAASLVGRMRGGLGQVSVLSSLFFGGVSGSAIADVSAVGGTMIPQMVQRGYDRDFAVNVSITAALVALLVPPSHNLILFSAAAGGGLSIADLFAAGMVPALLMTLAMMITGYAVARRRGYGVEVFPGMRAVLLRLVAALPGLGLVGLIFFGIRAGIFTAVESAAIAVLYALLVTSVIYRQLGWRTFFATVAHAARTTGVILFVIATAAVFGWLLAYLQVPAHAVEFLQSFAHSKTMVLLMIVLMLLVLGTFMDLAPMILICTPIFLPVAKAYGIDPIHFGLVLVLTGGIGLVTPPVGSVLFIGTAIGKISIAQSMRTIWPFWLAALGVLLVVTFFPALSLWLPHALRAG	PGPT0017335_2575	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017335-dctM-K11690	NA	NA
BMS020_02768	1563			hypothetical protein	ATGCGCTGGAACATCGGGTGGCTGCTGACGGCGGCGCTGCTGTGCACGACGGCGCACGCCGCCGACTGGGCGCGCGGCATCGAAGGCCAGCGCATCGCCGACCTGGGCAACGGCAGCTACCTCAACCCGGTGCTGGCCGGCGATCATCCCGATCCATCGGTGCTGAAGGACGGCGAGGACTACTACCTCACGCTGTCCTCGTTCGATGCCTATCCGGGCCTGCCGCTGTGGCATTCGCGCGACCTGGTGAACTGGCAGCCGGTCGGCCACGCGATCGACACCAACGTCGGTGCGATCTGGGCGCCTGACCTGGTCAAGCATGGCGGCCGCTACTACATCTACTTCCCGGCGCGGCGCGGCGACACCGGCGCGCGCAGCAATTTCGTGGTCTGGGCCGATGCGATCGGCGGTCCGTGGAGCGCGCCGGTGGATCTCGGCCTGGGCGCCTACATCGATCCGGGCCACGCGGTCGGCGAGGACGGCAAGCGCTATCTGTTCCTGTCCGGCGGCGACTACGTGCAGCTGTCCGACGATGGCTTGCAGGTGGTCGGCACGCCGAAGCATGTCTACGACGGCTGGGCCTACCCGCAGGAGTGGGACGTGGAGTCCTACGCGCAGGAAGGGCCGAAGATCACCCGTCACGGCGGCTGGTTCTACATGACCACCGCGGTCGGCGGCACCGCCGGCCCGCCGACCGGGCACATGGTGATCACCGCGCGTTCGCGCTCGATCCACGGCCCATGGCAGAACGCGCCGAACAACCCGATCACCCGCACCGTCAGCCGCGATGAGCCATGGTGGTCGCGCGGCCATGCCACGCTTGTGGAGGGCACCGACGGGCGCTGGTGGATGCTCTACCACGGCTACGAACACGGCTACTGGACGCTGGGCCGGCAGATGCTGCTGGACCCGATCGCCTGGACCGACGACGGTTGGTTCGTTGCGCGCGGCGGCGATCTCGGCACGCCGTTGCGCAAACCCAGCGGCAGCGCGGTGCCGCATGGGCTGGCGTTGTCGGACGACTTCGCCGGCCCGCGGCTGGGGCCGCAATGGGCGTTCTACGACCCGGCCCCGGGCGAGCAGCGCCGCCTGCGCATCGCCGATGGCACGCTGAGCCTGCAGGGCAAGGGCAGCCAGCCGCGCGATGCCTCGCCGCTGACCATCACCGCGCCCGATCCGGCCTACCAGGTCGAGGTCGAACTGCAGGTCGATCCAGGAGCCCAGGGCGGGCTGCTGCTGTTCTACAGCGACCGCCTGTACGCCGGCGTCGGCAGCAACGGCGAGGACTTCATCCTGCATCGCTACGGCCAGGAGCGCCCGGCGGTGCTGGCGCCGAGCGCGCAGGGAGGGCGGTTGTGGCTGCGGCTGCGCAACGACCGCCACATCGTCACCCTCCACTCCAGCACCGACGGCAGCACGTGGACCAAGTACCCGGTGCAGATGGAAGTATCCGGTTACCACCACAACGTCGCCGGCAAGTTCCTGGCACTGAAGCCGGCGCTGTACGCGGCGGGCAAGGGCCAGGTGCATTTCCGCCACTTCCGCTACCAGGCATTGCCGTGA	MRWNIGWLLTAALLCTTAHAADWARGIEGQRIADLGNGSYLNPVLAGDHPDPSVLKDGEDYYLTLSSFDAYPGLPLWHSRDLVNWQPVGHAIDTNVGAIWAPDLVKHGGRYYIYFPARRGDTGARSNFVVWADAIGGPWSAPVDLGLGAYIDPGHAVGEDGKRYLFLSGGDYVQLSDDGLQVVGTPKHVYDGWAYPQEWDVESYAQEGPKITRHGGWFYMTTAVGGTAGPPTGHMVITARSRSIHGPWQNAPNNPITRTVSRDEPWWSRGHATLVEGTDGRWWMLYHGYEHGYWTLGRQMLLDPIAWTDDGWFVARGGDLGTPLRKPSGSAVPHGLALSDDFAGPRLGPQWAFYDPAPGEQRRLRIADGTLSLQGKGSQPRDASPLTITAPDPAYQVEVELQVDPGAQGGLLLFYSDRLYAGVGSNGEDFILHRYGQERPAVLAPSAQGGRLWLRLRNDRHIVTLHSSTDGSTWTKYPVQMEVSGYHHNVAGKFLALKPALYAAGKGQVHFRHFRYQALP	PGPT0019091_312	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
BMS020_02769	1056	exuR_1	COG1609	putative HTH-type transcriptional repressor ExuR	ATGCCCCGCAAGAAAGCCGAAGAGCCCAGCCCGGGTCTGCCCAAGGGCCGGGCGGTGACGATCAACGACATCGCCCGCCTGTCCGGGGTGTCGAAGAAGACCGTCTCGCGCATCATCAACAACTCGCCGCTGGTGCGGCAGGACACCCGCGAGAAGGTCGAGACGCTGATGCGCGAGGTCGGCTACGCGCCGGACCCGCTGGCGCGCGGGCTGGCGTTCCGGCGCTCGTTCCTGATCGGCATGGTCTACGACAACCCGACCGCGCAGTACATCGTCGACATGCAGTACGGCGCGCTCGACGCACTGCGCGGTTCCAGCTTCGAGCTGGTCGTGCATCCGTGCGACACGCGCAGCCCCGGCTACATCGAGGGCGTGCGCCGTTTCGTGCAGGCGCAGAAGCTGCACGGGGTGATCCTGGTGCCGCGCGCGTCCGAAGACCAGGCGCTGGCCGACATGCTGGCCGAGATCGGCTGCCGCTACACCCGCATCGCCTCGGTGGCGCTGGATGCGACCTCGCAGACGGTGATCACCCACGACCGCGACGGCGCCGCCGAAGCGGCCGACTATCTGCTCTCGCTCGGCCACCGCGACATCGCCCTGGTCACCGGCCCCGGTGCCTACCGCTCCTCGATCGAGCGGACCGGCGGCTTCATCGATGCCTTGCGCCGGCGCGGCATCGAACTGCCGCCCGAGCGCGTGGTCGAGGCCGGCTACACCTTCGAGTCCGGTGTCGCCGCGGCCGAGAAGCTGCTGCTGGGCAAGCAGCGCCCCACCGCGATCTTCACCGGCAACGACGAAATGGCGGCCGGCATCTACAAGGTCGCGCTGCGCGCCGGCATCAGCATTCCGCGCCAGCTGTCGGTGATCGGCTACGACGACAGCTCGCTGGCGTCGCGGCTGTGGCCGCCGCTGACCTCGGTGCGCCGCCACACCCGCGACACCGGCCGCACCGCCGCAGCGATGCTGATCCAGCCCGAAGGCACGCCGATGCTGCCGACCGCGAGCGTGCGCCCGCACCTGATCGTGCGCGATTCCTGCCAGCCTCCCGAGGACTGA	MPRKKAEEPSPGLPKGRAVTINDIARLSGVSKKTVSRIINNSPLVRQDTREKVETLMREVGYAPDPLARGLAFRRSFLIGMVYDNPTAQYIVDMQYGALDALRGSSFELVVHPCDTRSPGYIEGVRRFVQAQKLHGVILVPRASEDQALADMLAEIGCRYTRIASVALDATSQTVITHDRDGAAEAADYLLSLGHRDIALVTGPGAYRSSIERTGGFIDALRRRGIELPPERVVEAGYTFESGVAAAEKLLLGKQRPTAIFTGNDEMAAGIYKVALRAGISIPRQLSVIGYDDSSLASRLWPPLTSVRRHTRDTGRTAAAMLIQPEGTPMLPTASVRPHLIVRDSCQPPED	PGPT0017992_2771	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
BMS020_02770	855	kduI		4-deoxy-L-threo-5-hexosulose-uronate ketol-isomerase	ATGTCCCTGTACTGCAAGACCCACTACGCGACCCACCCCGATGCCGTGAAGGGCGCCAGCAACGACGACCTGCGCGCGCTGTACCTGCTGGACGGGCTGTTCGCCGACGGCCAGATCGTCCTGAAGTACACCCATTACGAGCGCTTCGTGCTCGGCGGCGTGGCGCCGACCACGGCGCCGATCGAGCTGCCCAAGCAGACCGAGCCGGCCTCGGCCGCCGGCCATCCGTTCCTGGAGCGGCGCGAGCTGGGCGTGATCAACGTCGGTGGCGGCGCCGGTACGGTGACCGTCGATGGCAGCGTCTACACGCTGGCGCCGAAGGACGGCCTGTACGTGCCGATGGGCAGCGCGCAGGTGGTGTTCGCCTCGGCCGATGCCGCCAACCCGGCGAAGTTCTACCTGGCCTCGACCCCGGCGCATGCGCGCTTCGAAACCAAGCAGATCTCGATCAAGGACGCGGTGCCGCTGGAGCGCGGCGCGCTGGAGACCAGCAACGAGCGCACCATCTACCAGTACATCGTGCCGGCCACCTGCCAGTCCTCGCAGCTGCTGCTGGGCCTGACCATCCTCAAGCCGGGCAGCGTTTGGAACACGATGCCGCCGCACCTGCACGACCGCCGGAGCGAGGTCTATTTCTACTTCGACCTCGGCGCCAACGACCGCGTCTACCACTTCATGGGCGAGCCGGAAGCGCAGCGCCACATCGTGATCCAGAACAACGAGGCGGTGGTGTCGCCGCCGTGGTCGATCCACATGGGTGCCGGCACCAGCAACTACGCCTTCATCTGGGCGATGGGTGGCGAGAACCTCGACTACACCGACATGCACGTGCTCGACATCTGCCAGCTCAAGTGA	MSLYCKTHYATHPDAVKGASNDDLRALYLLDGLFADGQIVLKYTHYERFVLGGVAPTTAPIELPKQTEPASAAGHPFLERRELGVINVGGGAGTVTVDGSVYTLAPKDGLYVPMGSAQVVFASADAANPAKFYLASTPAHARFETKQISIKDAVPLERGALETSNERTIYQYIVPATCQSSQLLLGLTILKPGSVWNTMPPHLHDRRSEVYFYFDLGANDRVYHFMGEPEAQRHIVIQNNEAVVSPPWSIHMGAGTSNYAFIWAMGGENLDYTDMHVLDICQLK	PGPT0018245_67	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018245-kduI-K01815	NA	NA
BMS020_02771	759	kduD_2		2-dehydro-3-deoxy-D-gluconate 5-dehydrogenase	ATGGCACACAACCCGTTCAGCCTGGAAGGCAAGGTCGCGCTGGTCACCGGCGCCAACACCGGCCTGGGCCAGGGCATCGCGTTGGCACTGGCGGCCGCTGGCGCCGACATCGCCGGGGCCGGCATCGTCCACGCCACCGAGACCGAGCAGAAGGTCCAGGCGCTGGGCCGCCGCTTCCTCAACATCGAAGCCAACCTGGGCAGCCTGGAGCCGATCCCGCGCGTGCTCGAGGAAGCGCTGGGCGGGCTTGGTCGCCTCGACATCCTGGTCAACAACGCCGGCCTGATCCGCCGCGCCGACGCGGTCGATTTCAGCGAGAAGGACTGGGACGACGTGATGAACGTCAACATCAAGGCCGCGTTCTTCATGAGCCAGGCCGCCGGTCGCCATTTCATCGCGCAGGGCAGCGGCAAGATCATCAACATCGCCTCGATGCTGTCGTTCCAGGGCGGCATCCGCGTGCCGTCCTACACCGCCAGCAAGAGCGGCATCGCCGGCATCACCCGCCTGCTCGCCAACGAGTGGGCCGGCAAGGGCGTGAACATCAACGCGATCGCGCCGGGCTACATGGCCACCGACAACACCGCGCAGCTGCGTGCCGACGCCGACCGCAACCAGGCGATCCTCGAGCGCATCCCGGCCGCGCGCTGGGGCACCCCGGCCGACCTCGGCGGCACCGCGGTGTTCCTGTCCTCGACCGCATCGGACTACGTCAACGGCGCGATCATCCCGGTCGATGGCGGCTGGCTGGCACGGTAA	MAHNPFSLEGKVALVTGANTGLGQGIALALAAAGADIAGAGIVHATETEQKVQALGRRFLNIEANLGSLEPIPRVLEEALGGLGRLDILVNNAGLIRRADAVDFSEKDWDDVMNVNIKAAFFMSQAAGRHFIAQGSGKIINIASMLSFQGGIRVPSYTASKSGIAGITRLLANEWAGKGVNINAIAPGYMATDNTAQLRADADRNQAILERIPAARWGTPADLGGTAVFLSSTASDYVNGAIIPVDGGWLAR	PGPT0018065_1221	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018065-kduD-K00065	NA	NA
BMS020_02772	1116			hypothetical protein	ATGCATCTGCATTCGATCCTGCTACTGGCCCTGTGCGCGGCCTCCCTGCCCGCACGGGCCGCGCCGCAGCAGGTGTTCATCGCCGGCGATTCCACCGCGGCCGAGTACGGCCCGGAACGTGATCCGCAGGCCGGTTGGGGCCAGAAGCTGCAGGCCTGGCTCGACCCGGCGCAGTGGCAGGTGCGCAACCACGCCAAGGGCGGCCGCAGCGCGCGCAGCTTCATCGAGGAGGGCCGGCTGGAGCCGATCGCCGCGCAGCTGCGCAGCGGCGACGTGCTGCTGATCCAGTTCGGCCACAACGACGCCAAGGTCGAGGACCCGAGCCGCTACGACGATCCGCAGCAGGCCTATCCGGCCTACCTGATGCGCTACATCGCCGCGGCACGCGCCAAGGGCGCCACGCCGGTGCTGGTCACCCCGGTGGCGCGGCTGCTGTACGACTTCGGCGCGCTGCTCGATACCCATGGGCGCTACACCCTGGCGATGCAGCAGCTGGCCGCGCGCGAGCAGGTTGCGCTGATCGACCTCAATGCCAGTTCCAGCGCCTGGATCCGCGCGCTCGGCGAACAGGCCGCGCGGCCGTACTTCATGTTCGTGCCCGAACAGGGCAAGGCCGACGGCACCCACTTCAGCCACGCCGGCGCGACCGCGGTCGCCTGCCTGGTGATGCAGGGCTGGCTGGCGACGCCGTCGCTGCCGCAGCCGCGTCCGCAGCGCGACACCGATTGCGGTGCCAGCGCCGATGCCGCGGCGATGCGGCGCGCGCAGCCGCATCCGTCGCTGATCGAGCACGAAGCGACGCTGGCGCGGCAGCAGCCCGGACCGCACGGTGGGCCCGGCAGCACTACCGCGTATCCGTTCTTCGCCGATGCGCCGGCGTTGCCGTTCGTGCTGCGCAAGCGCGTGTTGCATCCGGGCAGCGGCATCGGCCTGCACCCGCACCACAAGGACGAGGTCTACTACGTGGTCAGCGGGCGCGGGTTGTACGCGCTGGACGGCGTGCAGCACGCCGTCGGCCCCGGCGACGCGCTGCTGACCCGTCCGGGCAGCAGCCATGCGCTGCTGCAGACCGGCAGCGAGGATCTGGTGATCCTGCTGGCCTACCCGCGCGAGTGA	MHLHSILLLALCAASLPARAAPQQVFIAGDSTAAEYGPERDPQAGWGQKLQAWLDPAQWQVRNHAKGGRSARSFIEEGRLEPIAAQLRSGDVLLIQFGHNDAKVEDPSRYDDPQQAYPAYLMRYIAAARAKGATPVLVTPVARLLYDFGALLDTHGRYTLAMQQLAAREQVALIDLNASSSAWIRALGEQAARPYFMFVPEQGKADGTHFSHAGATAVACLVMQGWLATPSLPQPRPQRDTDCGASADAAAMRRAQPHPSLIEHEATLARQQPGPHGGPGSTTAYPFFADAPALPFVLRKRVLHPGSGIGLHPHHKDEVYYVVSGRGLYALDGVQHAVGPGDALLTRPGSSHALLQTGSEDLVILLAYPRE				NA	NA	NA	NA	NA
BMS020_02773	642			hypothetical protein	ATGGACCTGACGCAACTGCGCATCCGCCGGCTGGAGCTGGACGATGCCCGGGTGTTCTTCACGCTGGCCAACGGCGTGCGTATCGACGAGCCGCTCAAGGGCTACCTGCAACTGGAACGCGCCACGCCGCTGCAGCGGCTCGGCTGGCAGCTCACCGACGATGCCTACGGCGTGGACTGGCCGGCGCTGGTACCGGCCAGCGCCACCGGCATGATCAACGTGCTCGACCTGCTGTGGGACCGGCGCGGCGCGTCGGCACTGCGCCAGCTGGCGCGCGCCGGGGGCGATGCGCAGGCGCTGCCGGCCGGCACCCGCGCGGTGGCCGCGCTGCGCCGCCTCGATGGCGGGCTCAACACCGGCGGCTTCCTGCAATTCCTCGGCGACTGGGGCGATGCCAGCTGCCAGCTGGCGTTGCAGGCGTTGCTGGAGATCGGTGCGCCTGGCCGGCACACGCTGGTGGCGGGCATGCGCGAGACCGTTGCGCGCTTCGAGCACGACGCCTCGATCCGGCACATCGACGACGTGGCGCAGGCACTGAACGCCACCGAGCGACGCCAGCTCGCATCGCTGGAAGCGGCCTATTACGACAGCGGCGAGGACCTGGCGCGACTGGGCCTGGCCCGGTTCGGGCTGGAAGGCTGA	MDLTQLRIRRLELDDARVFFTLANGVRIDEPLKGYLQLERATPLQRLGWQLTDDAYGVDWPALVPASATGMINVLDLLWDRRGASALRQLARAGGDAQALPAGTRAVAALRRLDGGLNTGGFLQFLGDWGDASCQLALQALLEIGAPGRHTLVAGMRETVARFEHDASIRHIDDVAQALNATERRQLASLEAAYYDSGEDLARLGLARFGLEG				NA	NA	NA	NA	NA
BMS020_02774	810			hypothetical protein	ATGGAAGGGAAGATATTTGCAGGGCTTCTGCTCGGCGTGCTGGTGCTTGGCGCACTGGGGACCCGCAGCATGATCTCGCGAGCGATGAAGTACACGATCGAGGAGACGCTCGACCATCCTCAGCGCTTCACCCGCTACCGCCACCGCTTGTGGTCCTGGATGACGGCGTACGCGGCCTCATTGCTGTTTACGTCGGGACCGCTGTACGTGGCACTGAGCAAGCGCTGGCCCATCCCGCCCGGGCTGACCGGCCCGCTGCTGTTTTTTGCCGCGGCGGTTCCCGGCGCCGCGCTGATCTTCTGGCTGGATCGATACATCGCGCGCCGGGGTAGCCCGGCCAAACGGGCAGGGCGACGACGCCTGGGACTTCCCGGCTATCGGGTGCCGGTGACGCTGCATGCCCCGCCAGTGCCGGTCGCCTTTGCGGTGGGCAATGGACATCAGCCGGCGCCGTTCGCATTCGATGTGGACATGCGCGATCCGGAGCTCGTCCGCGAGGCCGCACGCAAGCACTGGGAAGCGATCCACTTCGCGATGGCCTCCGGCGGCGACGTTGCCGCTGCGCACGCGCGCCAGCACGCATTCCTCGACGAGGCGGCACGACGCCTGCCCCCGCAGGCGCTGGCGCAACTGCAACAGGTCTATGCCGAGGAAAGCGTACCGCAGGCCGAACGCATGGCCGGGATCGCCGGGCGCCAGGCTGACAAGCGCGAGGAGCAGGCGGCCCTGCGTCACCGTACCGGCAGGAATCTGCTGATCTTCGGCGCGATCGGCGCCGGTCTGATGGTGTTGCGGTTCTGCAGCGGCTGA	MEGKIFAGLLLGVLVLGALGTRSMISRAMKYTIEETLDHPQRFTRYRHRLWSWMTAYAASLLFTSGPLYVALSKRWPIPPGLTGPLLFFAAAVPGAALIFWLDRYIARRGSPAKRAGRRRLGLPGYRVPVTLHAPPVPVAFAVGNGHQPAPFAFDVDMRDPELVREAARKHWEAIHFAMASGGDVAAAHARQHAFLDEAARRLPPQALAQLQQVYAEESVPQAERMAGIAGRQADKREEQAALRHRTGRNLLIFGAIGAGLMVLRFCSG				NA	NA	NA	NA	NA
BMS020_02775	549	phhA_1	COG3186	Phenylalanine-4-hydroxylase	GTGACCTGGTGGATCCGCCGGCCCGAGCAGATCGACTACATCGCCGAGCCGGACCTGTTCCACGACCTGTTCGGCCACGTGCCGCTGCTGATGAACCCGGTGTTCGCCGACTACATGCAGGCCTACGGCCGCGGCGGGGTCAAAGCACACGGCATCGGCCCGGAGGCGCTGACCAACCTGACCCGGCTGTACTGGTACACGGTCGAGTTCGGCCTGATCGACACCGCCGACGGCCTGCGCATCTACGGCGCCGGCATCGTCTCCTCGCGCGGCGAATCGCTGCATGCGCTGGAATCGCCGGTGCCGAACCGGATCGGCTTCGACCTGCAGCGGATCATGCGCACCCGCTACCGCATCGACACGTTCCAGAAAACCTACTTCGTCATCGACGGCTTCGAGCAGCTGATGGCCGCCACCGCACCGGACTTCACCCCGCTCTATGCCGCGTTGCGCGACCAGCCGGAGCACCCGGCCGGCGCCGTGCTGGCCGACGACCGCGTGCTGCAGCGGGGCAACGGCGAGGGCTGGGCCGAGGGTGGGGATGTGTAG	MTWWIRRPEQIDYIAEPDLFHDLFGHVPLLMNPVFADYMQAYGRGGVKAHGIGPEALTNLTRLYWYTVEFGLIDTADGLRIYGAGIVSSRGESLHALESPVPNRIGFDLQRIMRTRYRIDTFQKTYFVIDGFEQLMAATAPDFTPLYAALRDQPEHPAGAVLADDRVLQRGNGEGWAEGGDV	PGPT0020295_652	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PHENYLALANINE_DEGRADATION,PGPT0020295-phhA-K00500	NA	NA
BMS020_02776	405			hypothetical protein	ATGAAGATCCCACTCCCGCTTGGCGGCATGATGGCGCTGGCGTTGGCCGCAGGGGCAATGACCTGCGGTGGTGCGCACGCGCAGCCGACGCAGCAGTCGCATGCGCAACACGCGCCGGCGTACTACATCGCCGAGTTCGAAGTCTCGGACCCAGACCGTCTGCGCCCGTACTCCGAGCAGGCCGAGGCCACCTTCAAGGCCTACGGCGGTCGCTACGTGGCCCGTCGCGGCGAACTGCTCCCGCTTGAGGGCAGGAAGCCGCTTTCGCGCATCATCATCATCGCCTTCGATAGCCTGGAGAAGGCCAAGGCCTGGTACTACTCGCCGGAATATTCGGCAATCAGGCCCATCCGCCAGCAGTCCGGGCAGACAAACGCCTACATCGTCGAAGGCCTGGCGGAGTAG	MKIPLPLGGMMALALAAGAMTCGGAHAQPTQQSHAQHAPAYYIAEFEVSDPDRLRPYSEQAEATFKAYGGRYVARRGELLPLEGRKPLSRIIIIAFDSLEKAKAWYYSPEYSAIRPIRQQSGQTNAYIVEGLAE				NA	NA	NA	NA	NA
BMS020_02777	729			hypothetical protein	ATGTCCATGCCCGGAGTTGCCGCGTCCCCCGGCACGCTGTTCGAGGCGATCGAGGCGGTCAGCCCGGCCTTGGCCGCCTATACCCGTGACACCATCATGGATGATCTCTGGGGCCGCCCCGGGCTGGCCGCGCGTGATCGCGCTGTCGCGACGGTCTCCATCCTGGTCTCGCGCAACGCCAGCAGTGCGTACAAGCCCTACCTCGACAAGGCACTCGATAGCGGCGTCAGCCCCGCCGAGCTGTCCGAGCTGCTGACCCACTTGGCGTTCTATACCGGCTTCGCTTATGCCTTCGGCGCGGTGTCGGTGCTCGACGGCATCTTCGCCGAGCGTGGCATCGGGGCGCAGCAGCTGCCGGCGCAGCCTCTGCCATTGCTGGACGCCGAGGGCGTGCTGCCTCCGACAGCCATGCGAAAGGCATTCGTCGATGCGCAGATCGCGCCGGCATCGGAGGCATTGGCGCACTACACCGAGGCCGTGCTGCATGGTCAGCTGTGGTTGCGACCCGTGCTGACCACCCGCGAGCGCAGCCTGGCCACCATCGCGTCCCTCTGCGCCCAGGGGCAGTGGGCGGGGTTGTCAGGCTACCTCGCCCGCGCCCTGCACCATGGCGCCACGCGACAGGAAATAGGCGAAGTGCTCGGCCACGTCGCCTTCTACGCGGGCTGGGGCAATGCGGTGCTGGCAGCGACAGAAGTGAATCGCTACTACGCAAGTTTGAAGGCTTAA	MSMPGVAASPGTLFEAIEAVSPALAAYTRDTIMDDLWGRPGLAARDRAVATVSILVSRNASSAYKPYLDKALDSGVSPAELSELLTHLAFYTGFAYAFGAVSVLDGIFAERGIGAQQLPAQPLPLLDAEGVLPPTAMRKAFVDAQIAPASEALAHYTEAVLHGQLWLRPVLTTRERSLATIASLCAQGQWAGLSGYLARALHHGATRQEIGEVLGHVAFYAGWGNAVLAATEVNRYYASLKA	PGPT0005005_599	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005005-pcaC-K01607	NA	NA
BMS020_02778	735	idnO_2		5-keto-D-gluconate 5-reductase	ATGAGCACAAACGCAAGAATCGCGCTGGTGACCGGCGCCAACAAGGGAATCGGGTTCGAGGTCGCCAAGGCGCTCGGCCAGCAGGGCATCATCGTCTATATCGGCGCACGCGATGCCGCGCGGGGCGCTGCGGCGGTGGACAAGCTCAAAGGCCTGGGGCTGGACGCGCGCCTGGCGCGGATCGACGTGACCGATGCCGACAGCATCCGCGTGGCCGCCGAGCAGATCGCCGCCGAGCACGGGGTGCTGGATATCCTGGTCAACAACGCCGGGCTGATCGATCCGACAGACAGTGTGCCCAGTAACACCGATGTAGCGGTCGTGCGGCACACGTTTGAGACGAACTTCTTCGGCGCACTGGAAGTGACCCGCGCCATGCTGCCCCTGCTGCGCGGCTCTAAAGCAGGGCGCATCGTGAATGTGTCCAGCGGGCTCGGCTCGCTGGCGCTGAATCAGGATCCCGCGTGGGCGTTCGCATCCGTCAAGTTGATCGGCTACAACGCCTCGAAGGCGGCGCTGAACATGCTGACCGTCCAGCTTGCCTGGGAACTCGCCGACACGACGATCAAGGTCAATTCGGCCAATCCGGGCTATACCGATACCGAACTTGTCCCCGGCGTGGTCGGGGCGCAGCCGGTCGAGCTGGGCGCACGCAAGATCATCGAGCTGGCGCTGCTGCCGGACGATGGCCCGACGGGAGGCTTCTTCGAGAACGAGGGTGTGGTGCCCTGGTAG	MSTNARIALVTGANKGIGFEVAKALGQQGIIVYIGARDAARGAAAVDKLKGLGLDARLARIDVTDADSIRVAAEQIAAEHGVLDILVNNAGLIDPTDSVPSNTDVAVVRHTFETNFFGALEVTRAMLPLLRGSKAGRIVNVSSGLGSLALNQDPAWAFASVKLIGYNASKAALNMLTVQLAWELADTTIKVNSANPGYTDTELVPGVVGAQPVELGARKIIELALLPDDGPTGGFFENEGVVPW				NA	NA	NA	NA	NA
BMS020_02779	1059	adhC2_1	COG1064	NADP-dependent alcohol dehydrogenase C 2	ATGACGACCCTGGCCTATGCCGCCGCATCGGCGGAAGCTCCTCTTGCCCCACTTCAGATCGACCGCCGCGCGCCGCGTGCGGATGACGTGGTCATCGAGGTGCTGTTCTGTGGCGTGTGCCATACGGACCTGCACTTGGCCCGCAACCATGGCGGCTTCACTCGCTATCCGATCGTCCCGGGCCACGAAGTTGTCGGTCGCGTCACCGCGGTTGGCAGCGAAGTGACCCGCTTCAAGGTGGGCGAAACCGTCGGCGTCGGCTGCATGGTGGATTCGTGCCAGCACTGCGCGGCCTGCGAGCAGGGGTTCGAGCAGCATTGCGCCGAAGGCGCGGTGTTCACCTACAACGGCACCGACCGCCATGACGGCAGCATCACCTTCGGCGGCTATTCCACCACGCTGGTGGCCTCGGAGAAATTCGTACTGCGCATTCCCGAAGGGCTGGATCTGGCGGGAGCCGCGCCGCTGCTGTGCGCCGGCATCACCACCTGGGAGCCACTGCGGCAGTGGAACGTTGGTCCGGGCAGCAAGGTCGCCGTCATCGGGCTTGGCGGCCTGGGACACATGGCATTGAAGCTGGCCAAGGCCTTCGGTGCGGATGTCACGCTGTTCACCCGTTCGCCGGGCAAGGAAGACGATGCACGTCGTCTCGGAGCCGACCATGTCGTGCTCAGTGGCGACCCCGCGCAGATGGACGAAGTGGCTGGTCGCTTCGACCTGATCGTGGACACCGTGCCCTACGACCATGATGTCAATCCCTATCTGCCGACGCTCACCTTCAACGGCAAGCTCGTGCTGGTCGGTTACATGGGGCCATTGACCCAGCCTGTGGCGGCGGGAGCGCTGGTGGCAGGGCGTCGGGCCATCGCCGGCTCGTTCATCGGCGGCGTGGCCGCCACGCAGGAGATGCTGGATTTCTGCGCCGAGCACAATGTGGTCTCCGACATTGAGCTGATTTCGATGCAGCAGATCAACGAGGCCTATGAGCGGATGCTCAAGAGCGATGTGAAATATCGATTCGTCATCGACATGGCATCGCTGGCGCGTGACGCCGGCTGA	MTTLAYAAASAEAPLAPLQIDRRAPRADDVVIEVLFCGVCHTDLHLARNHGGFTRYPIVPGHEVVGRVTAVGSEVTRFKVGETVGVGCMVDSCQHCAACEQGFEQHCAEGAVFTYNGTDRHDGSITFGGYSTTLVASEKFVLRIPEGLDLAGAAPLLCAGITTWEPLRQWNVGPGSKVAVIGLGGLGHMALKLAKAFGADVTLFTRSPGKEDDARRLGADHVVLSGDPAQMDEVAGRFDLIVDTVPYDHDVNPYLPTLTFNGKLVLVGYMGPLTQPVAAGALVAGRRAIAGSFIGGVAATQEMLDFCAEHNVVSDIELISMQQINEAYERMLKSDVKYRFVIDMASLARDAG	PGPT0024430_648	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0024430-yahK-K13979	NA	NA
BMS020_02780	573	fldP		Flavodoxin FldP	GTGTTGGTCAGCATCGTGTACGACAGTGGCTACGGCCACACCCTCAAGCAGGCTGAAGCGGTCGCAGCCGGCGTCCGCCAGGTTGCAGGCGCGGAGGCACGCCTAGTCCCAGTAGCCGAGCAGGACATCGACTGGGATGCGCTGAAGGCCAGCGACGCCATCATCTTCGGCTCGCCCACCTACAACGGCACGATCAGCGCGCGCCTGAAGAAATTCATGGAAGACTCCACCCGGACCGCGTGGATGCCGCAGGCGTGGCGCAACAAGGTCGCGGCGGGCTTCACCAATTCCGGTGCGATGCATGGCGACAAGCTCAACTCGCTTGTCACGATGGCCCTGTTCGCCGCCCAGCACGGGATGATCTGGGTGGGTCTGGATCTTTTCCCGGGCAAGGGCCCGGATGATTTGAACCGGGTTGGGGGCTGGTTGGGTGCGATGGCGCAGTCTGACGACGCCCCCGCAGAGGTCACACCGATCGCGAGCGACCTGAAGACCGCTGAGTACTTGGGACGCCGGGTTGCCAACGTTACCCAGCAGCTGAAGCAGGGCGCGTCTTCGGTGGTGGAGGCGTGA	MLVSIVYDSGYGHTLKQAEAVAAGVRQVAGAEARLVPVAEQDIDWDALKASDAIIFGSPTYNGTISARLKKFMEDSTRTAWMPQAWRNKVAAGFTNSGAMHGDKLNSLVTMALFAAQHGMIWVGLDLFPGKGPDDLNRVGGWLGAMAQSDDAPAEVTPIASDLKTAEYLGRRVANVTQQLKQGASSVVEA	PGPT0009460_3298	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009460-wrbA-K03809	NA	NA
BMS020_02781	957	dmlR_20		HTH-type transcriptional regulator DmlR	ATGGAGTCATCGCATCGTGTCCGCGGCATCCTCGCGTTTGTCCAAGCGGCAGACACCGGGAGCTTTGCCGCCGCGGGACGCCAATTGGATATTTCGGCGGCTGCCGTCAGCAAGAGCATGGCGGGCCTGGAAGAGGCACTTGGGGTCAGGCTGTTCAATCGGACTACGCGCAGCCTGCAGCTCACAGAGGAAGGCGCTGTGTTTTTGCGGCAGGCTCGTGTTGCTTTGGACGCGCTGGATGCGGCAATCGACAGCGTGGCCGCATCCAGCGGCGAGCCCACCGGTAGCGTCAAGATTTCCACCAGCGCCGCCTTTGGGCGCGAACAGCTGATGCCGGTACTGCCACGCTTGCTGTCGCGTTACCCGGGGATTTCCATCGCTGTCGACTTCGATGATCGCATGGTCGACCTGGTGCGCAACGGCTATGACCTCGCTTTGCGGGGGGGCAACCTGCGCGACTCTGGCTTGATTTCGCGCCCAGTATGCCGACTCAACACCATTCTGGTCGCTGCCCCGGCATACCTGGCCGAAGCAGGAGTTCCACGGGCTATCGATGACTTGCGCCGTCATCGGCTAGTGGCGCGGCGCTTTTTGAGCGGCGCCATCGACATGTGGAGCATGAAAGCCGCCGACGGCAGCATTACCACTCTTGATCCATCGCAATTGGCGGCGCTGACGTTGTCCGCGCCGGAAACGGTGGTGGAAGCAGCTCGTTATGGCATCGGCATCGCCCAGGTTGGAGTGCACCTGGCTTTGCACGATCTCCAGGCGGGGCGCTTGCAGACGGTACTCCCGCTACAACACCACCCGGGCAACTACGAGATGGCGCTCCAGTATCCGCACCGTGCATTGATGGCGCCGCGCGTAAGGGTCGTCCTGGACGGACTTCTCGATGCATTCGCCTCGGACCCAACCCTGCATGTTCCTTTGGACTCGCTTGCCAGCTATGCAGCATAG	MESSHRVRGILAFVQAADTGSFAAAGRQLDISAAAVSKSMAGLEEALGVRLFNRTTRSLQLTEEGAVFLRQARVALDALDAAIDSVAASSGEPTGSVKISTSAAFGREQLMPVLPRLLSRYPGISIAVDFDDRMVDLVRNGYDLALRGGNLRDSGLISRPVCRLNTILVAAPAYLAEAGVPRAIDDLRRHRLVARRFLSGAIDMWSMKAADGSITTLDPSQLAALTLSAPETVVEAARYGIGIAQVGVHLALHDLQAGRLQTVLPLQHHPGNYEMALQYPHRALMAPRVRVVLDGLLDAFASDPTLHVPLDSLASYAA				NA	NA	NA	NA	NA
BMS020_02782	891	phhA_2	COG3186	Phenylalanine-4-hydroxylase	ATGAACGCGCAGCCGCGCCGCGTCGAGAACCAGCTCACCGACAAGGGCTATGTGCCGGTCTACACCACCGCGGTGGTCGAACAGCCGTGGAGCGACTACAGCGCCGACGATCATGCGACCTGGGGCACGCTGTACCGCCGCCAGCGCGCGCTGCTGGTCGGGCGCGCCTGCAACGAGTTCCTGCAGGCGCAGGACGCGATGGGCATGGACGACCAGGCGATCCCGCGCTTCGACCAGCTCAACCAGGCGCTGGGCGCGGCCACCGGCTGGACCCTGGTCGGGGTCGAGGGACTGCTGCCGGAACTGGACTTCTTCGAACACCTGGCCCACCGGCGCTTTCCGGTGACCTGGTGGATCCGCCGGCCCGAGCAGATCGACTACATCGCCGAGCCGGACCTGTTCCACGACCTGTTCGGCCACGTGCCGCTGCTGATGAACCCGGTGTTCGCCGACTACATGCAGGCCTACGGCCGCGGCGGGGTCAAAGCACACGGCATCGGCCCGGAGGCGCTGACCAACCTGACCCGGCTGTACTGGTACACGGTCGAGTTCGGCCTGATCGACACCGCCGACGGCCTGCGCATCTACGGCGCCGGCATCGTCTCCTCGCGCGGCGAATCGCTGCATGCGCTGGAATCGCCGGTGCCGAACCGGATCGGCTTCGACCTGCAGCGGATCATGCGCACCCGCTACCGCATCGACACGTTCCAGAAAACCTACTTCGTCATCGACGGCTTCGAGCAGCTGATGGCCGCCACCGCACCGGACTTCACCCCGCTCTATGCCGCGTTGCGCGACCAGCCGGAGCACCCGGCCGGCGCCGTGCTGGCCGGCGACCGCGTGCTGCAGCGGGGCAGCGGCGAGGGCTGGGCCGAGGGTGGGGATGTCTGA	MNAQPRRVENQLTDKGYVPVYTTAVVEQPWSDYSADDHATWGTLYRRQRALLVGRACNEFLQAQDAMGMDDQAIPRFDQLNQALGAATGWTLVGVEGLLPELDFFEHLAHRRFPVTWWIRRPEQIDYIAEPDLFHDLFGHVPLLMNPVFADYMQAYGRGGVKAHGIGPEALTNLTRLYWYTVEFGLIDTADGLRIYGAGIVSSRGESLHALESPVPNRIGFDLQRIMRTRYRIDTFQKTYFVIDGFEQLMAATAPDFTPLYAALRDQPEHPAGAVLAGDRVLQRGSGEGWAEGGDV	PGPT0020295_710	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PHENYLALANINE_DEGRADATION,PGPT0020295-phhA-K00500	NA	NA
BMS020_02783	483	decR_1	COG1522	DNA-binding transcriptional activator DecR	ATGCCGGCTTCGATCCCGCTCGACCGCACCGATCTCCGCCTGCTCGCCCTGCTCCAGACCGAGGGCCGCACCAGCAATGCCGACCTCGCCGCGCGCATCAACCTGTCGCCGTCGGCCTGCCTGCGGCGCACCCAGCGGCTGGAGGCGGCCGGCATCGTCGCCGGCTACGGCGCGCGGCTGGATGCGCGCGCGCTGGGCCTGGGGCTGCAGGCGTTCGTGCGGGTGCAGCTGGCCAAGCATGCCCAGGCCGATATCGAGCGCTTCGCCGACGGCGTGCGCCACTGGGACGAGGTGGTGGCCTGCTGGGCGCTGACCGGCGACATGGACTACCTGCTGCAGGTGATGGTGCAGGATCTGGAGCACTTTTCACGGTTCCTGCTCGACCGCCTGCTCAATGCCACCGGCGTGGCCGACGTCAATTCCAGTTTCGTGCTGCGCACGGTCAAGGTTCCGCAGGCGCTGCCGCTGTCACATCTGGGATAA	MPASIPLDRTDLRLLALLQTEGRTSNADLAARINLSPSACLRRTQRLEAAGIVAGYGARLDARALGLGLQAFVRVQLAKHAQADIERFADGVRHWDEVVACWALTGDMDYLLQVMVQDLEHFSRFLLDRLLNATGVADVNSSFVLRTVKVPQALPLSHLG	PGPT0014049_20	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014049-doeX-K15782	NA	NA
BMS020_02784	252			hypothetical protein	ATGAGGGGCAAGCAGATGGCGTTACCGGAGCGGACCTGGCGCTTCACCCGTGCGACCCTGTTCGCCAGCGGGCCAGGCTATTGGCAGGTGCGGTTGTGGTTCTGGATCGGCCTGGCCGCCGGCCTGGCCTGCGCGCTGCTGTTCGCGCATCCGCTGCTGGGCTGGTGCGTGCTGATCACCCATCTGGCGTTGGCGCAGCTCGATCACCGGCGCTGGCGCCGGCACGAACGCCACCGGCTGACCGAGCACTGA	MRGKQMALPERTWRFTRATLFASGPGYWQVRLWFWIGLAAGLACALLFAHPLLGWCVLITHLALAQLDHRRWRRHERHRLTEH				NA	NA	NA	NA	NA
BMS020_02785	378			hypothetical protein	ATGGCGCGCAGTGTGGTTCCGCAGTTGATGTTCACCGGCGATGCCGAGGCGGCGATGACGCTGTATACCTCGCTGTTCGCCGATTCGCATATCGACGAGATCAAGCGCACCGCGCAGGGGCGGGTGCTGCGCGCGCGCTTCACCGTGGCCGGGCAGCCGCTGGCCTGCATCGATTCCGAGCCGGTGCACGCGTTCTCGTTCACCCCGTCGCTGTCGCTGTTCGTCGAATGCAGCGAGCTGGCCGAGCTGGAGTTCGCCTTCGCCGCGCTCGCCGAGGGCGGGCAGGTGCTGATGCCGCTGGGCGACTACGGCTTCAGCCAGCGCTTCGGCTGGCTCAACGACCGCTACGGCGTGAGCTGGCAGCTCAACCTGGCCTAG	MARSVVPQLMFTGDAEAAMTLYTSLFADSHIDEIKRTAQGRVLRARFTVAGQPLACIDSEPVHAFSFTPSLSLFVECSELAELEFAFAALAEGGQVLMPLGDYGFSQRFGWLNDRYGVSWQLNLA				NA	NA	NA	NA	NA
BMS020_02786	1029			hypothetical protein	ATGCGCCCGCGCTCCCTGCTCCCGTTATCCGCCATCGCCCTGACCAGCCTGCTCGCCGCCTGTGGCGGCAACGCCCGCCCCGACGCGCCGCCGCCGGCGCCGACGGCCACGCCGGTCGAGGCCAAGCCGGTGCGCATCGGCGTCGCGCTGGGCGGCGGCGCGGCCAAGGGCTTCGCCCATATCGGCGTGATCAAGATGCTGGAAGCCAATGGCTTCGAGCCGGCGGTGGTGTCCGGCACCAGCGCCGGCAGCGTGGTCGGCGCCTTGTACGCCAGCGGCATGGATGCGTTCCAGATGCAGGAGAAGGCGGTCGCGCTGGACCAGACCAGCATCCGCGACGTGCGGCTGTTCTCCGGCGGGCTGGTGCAGGGCCAGAAGCTGCAGGACTACGTGAACCAGCAGGTCGGCGGCAAGACCATCGAGAAGCTGTCCAAGCCGTTCGCGGCGGTCGCCACGCGGCTGGAAGACGGCGAGCGCACCGTATTCGTGCGCGGCAACATCGGCCAGGCGGTGCGCGCCTCCAGCAGCATCCCGGGCGTGTTCGAGCCGGTGACGATCGGCCAGTACCACTACGTCGACGGCGGCGTGACCAGCCCGGTGCCGGTGGACGCCGCGCGCCAGCTCGGCGCCGAGTTCGTGATCGCCGTGGACATCTCAAGCAAGGCCAGCGGCAAGAATCCCGGCGACCTGCTCGGCACCGTCAACCAGTCGATCTCGATCATGGGCCAGCGCCTGGGCGAGGCCGAGCTCAAGCGCGCCGACATCGTGATCCGGCCCAAGGTGCTGGACATCGGCGCAGCCGACTTCAACCAGCGCGGTGCGGCGATCCTGGAAGGCGAGAAGGCCGCGATGGCGGCGATGCCGCAGATCCGCAGCAAGATCGCCCAGCTGCAGGCGCAGCGCGCCAATGCCGCGCGCGCGGCGGAAAAAGAGGCGCGCGACGCGGCGCGCACGGCCTGCCTGCAACAGCGTTCGCGGGTCAGCAAGCTGATGCACCGCGACGGCGACTGCGCCGCACCGGCGCAGTAA	MRPRSLLPLSAIALTSLLAACGGNARPDAPPPAPTATPVEAKPVRIGVALGGGAAKGFAHIGVIKMLEANGFEPAVVSGTSAGSVVGALYASGMDAFQMQEKAVALDQTSIRDVRLFSGGLVQGQKLQDYVNQQVGGKTIEKLSKPFAAVATRLEDGERTVFVRGNIGQAVRASSSIPGVFEPVTIGQYHYVDGGVTSPVPVDAARQLGAEFVIAVDISSKASGKNPGDLLGTVNQSISIMGQRLGEAELKRADIVIRPKVLDIGAADFNQRGAAILEGEKAAMAAMPQIRSKIAQLQAQRANAARAAEKEARDAARTACLQQRSRVSKLMHRDGDCAAPAQ				NA	NA	NA	NA	NA
BMS020_02787	927	rclR_2	COG2207	RCS-specific HTH-type transcriptional activator RclR	ATGCCGCGCATGGACCACCTCACCCAGCCCGAGATCGACCAGGCGGCCGACGACAGCGACGCCGTCCTGGAAACCGTGCTCGGCGCCTACCGGATGCGGGTGGAGATCACCGCCGACGTGCATTACTGCGGCACCTGGTTCGACCACGAGCCGGCGACCCATCACGGCCAGTTCCATCTGGTCACCGAGGGCCATTGCTGGGTCAGCGGCGAGGTGCTGGAACAGGCGGTGCAGCTGCGCCGCGGCGATCTGATCGTGTTCCCGGCCGGGGTTCGCCACCTGCTGTCGTCCTCGCCCGATCCGCACGTCGTCGACTGCGCCGACGGCGATGACACCGCAATGCTGTGCGGCGAACTGGAATTCATCACCGGCGCGCACAACCCGATCTTCAGCGCGCTGCCGGCCTGGTTCGTGATCCGCGGCGAGGACAGCAGCCCCGGGTTCCGCCAGCTGGCGCAGATGCTCGCCGACAGCAGCCGCGACCGCCGCTGGGGCCGCCAGCTGGTGCAGAACAAGCTGGCCGATTCGCTGTTCACGATGGCGGTCTGCGAATACGTGCGGCGCGCCGAGCGCCCGCGCGGCCTGCTTGCGGCACTGACTGATGCACGCCTGTCGCGCGCGTTGACCGCGATCCACGCCCGCCCCGGCGAGGACTGGACGATCCAGGCGATGGCACAGCAGGCCGGCATGTCGCGCACCGCGTTCGCCGAGCTGTTCACCGGCACCGTCGGCCTGCCGCCGATCCAGTACCTGGCGCAGTGGCGTGCCACCGAGGCGCGCCGGCTGCTGAAGAACCGCCGGTTCTCGGTGGCGGCGATCGCCGAGATGCTCGGCTACCGCAGCGAGGCGGCGTTCCGGCGCTTCTTCAAGCGGGTCGAGGGGATCGGCCCGGGCAAGGCGCGCGGCCGCGGCGGCGAGCCGCTCTGA	MPRMDHLTQPEIDQAADDSDAVLETVLGAYRMRVEITADVHYCGTWFDHEPATHHGQFHLVTEGHCWVSGEVLEQAVQLRRGDLIVFPAGVRHLLSSSPDPHVVDCADGDDTAMLCGELEFITGAHNPIFSALPAWFVIRGEDSSPGFRQLAQMLADSSRDRRWGRQLVQNKLADSLFTMAVCEYVRRAERPRGLLAALTDARLSRALTAIHARPGEDWTIQAMAQQAGMSRTAFAELFTGTVGLPPIQYLAQWRATEARRLLKNRRFSVAAIAEMLGYRSEAAFRRFFKRVEGIGPGKARGRGGEPL				NA	NA	NA	NA	NA
BMS020_02788	294			hypothetical protein	ATGAACACCACCAAGCTGTCCGGACTGTCCGTCGCCGTTGCCGCCGCCGCCCTGTTCCTGGGCGCCCCGATCGCCCAGGCCAGCGAGCACGGCGCGGCCGAGGTCGGCCACTGCATGGGCGCCAATGCCTGCAAGGGCCAGGGCGCGTGCAAGACTGCCGCCAACGCCTGCAAGGGCCAGAACGCTTGCAAGGGCCACGGTTTCACCGAGACCACCGCTGCGGCCTGCAAGACCGCCGGCGGCAAGTTCGAAATGCCCAAGGCCGACCACGCCCACGCCAAGCAGCAGTCCTGA	MNTTKLSGLSVAVAAAALFLGAPIAQASEHGAAEVGHCMGANACKGQGACKTAANACKGQNACKGHGFTETTAAACKTAGGKFEMPKADHAHAKQQS				NA	NA	NA	NA	NA
BMS020_02789	849			hypothetical protein	ATGAACCTGCCCCTGCACGGCTTCGGCCTGGGCCTGCGCCCGCAGCACTACCAGGCGCTGCTGTCGGACACCCCGCCGGCATTGGACTGGCTGGAGATCCTCAGCGAGAACTATCTGGTCGACGGTGGCCGGCCGCTGCGCATGCTCGACGCCATCGCCGAACGCTGGCCGCTGGCGATGCATGGCGTCGCGCTGAACATCGGCGGCAGCGATCCGCTCGACCGCGATTACCTGCGCGCACTGGCCGGGCTGGCCCGGCGGGTGCGCCCGAAGCTGGTCTCCGACCACCTGTGCTGGACCCGCCATGGCGGCATCCAGATGCACGACCTGCTGCCGCTGCCGCAGAACGAGGACAGCGTCGCCCATGTCGCCGCGCGCGTGCGCCAGGTGCAGGACGCGCTCGGCTGCCAGCTGCTGCTGGAAAACGTCTCCAGCTACCTGCGCTTTGCCGACGACACCCTGGACGAGGCGCAGTTCCTCGCCGCGATCGTCGCCGAGAGCGGCTGCGGGCTGCTGCTCGACGTCAACAACGTCTACGTCAACGCGCACAACCACGGTTTCGATGCAGGCCAGTTCCTGGCCACGCTGCCGCTGCACGCGGTGCAGCAGATCCACCTGGCCGGCCACAGCGAGGACGCGCTCGGCAGCGGCCTGCTGGTCGATACCCACGACGCGCCGGTGTGCGCGGCGGTGTGGGAGCTGTACGGCGAGGCGCTGCGCCGCTTCGGTGCGGTGCCGGCGATGATCGAGCGCGACGACCACATCCCGCCGCTGGCCGAGCTGCTGGACGAGCTGGCGATCGCGCGCAGCGTCGCCGCCGATGCGCAGGCGCTGGAGCAGGCGGCATGA	MNLPLHGFGLGLRPQHYQALLSDTPPALDWLEILSENYLVDGGRPLRMLDAIAERWPLAMHGVALNIGGSDPLDRDYLRALAGLARRVRPKLVSDHLCWTRHGGIQMHDLLPLPQNEDSVAHVAARVRQVQDALGCQLLLENVSSYLRFADDTLDEAQFLAAIVAESGCGLLLDVNNVYVNAHNHGFDAGQFLATLPLHAVQQIHLAGHSEDALGSGLLVDTHDAPVCAAVWELYGEALRRFGAVPAMIERDDHIPPLAELLDELAIARSVAADAQALEQAA				NA	NA	NA	NA	NA
BMS020_02790	795			hypothetical protein	ATGAACGCGCACGTCATCACACCACTGGCCCAGCGCCAGCAGGCGTTGCAGGCCTGGCTGCTCGCGCACACGCCGCTCGATGCGACGGCCATCGTTGCGCGCGATCCCGACCAGCGCGACGCGCGACTGCGCATCTACGCCGATGCCTACCGGCTGCGGCTGATCGAGGTGCTCGGCAACGACGTGCCGGTGCTGCGCGCGCTGCTCGGCAGCGATGCCTTCGACGCGCTGGCGCTGGACTACATCGCCGCGTGCCCGTCGCGGACGCCATCGGTGCGCGGCTTCGGCGCGCGCCTGCCCGACTGGCTGGCGGCACGCGCCGACATCGATCCGGCACTGGCGTCGCTGGCGCGCTTCGAATGGGCGCAGGGCGAGGTCTTCGACGCGCCCGACGCCGCCAGCTGCACGATCGATGCGCTTGTCGTTGTCGCGCCCGAATCCTGGCCGGCGCTGCGCCTGCAGCTGCATCCGGCCCAGCGCCGGCTGCAGCTGGACGCCAATGCCGCAGCGCTGGTCGATGCCCACGCACGCGCGCTGCCGTTGCCGCCACTGGGCGCGACCGCCCCCAGCCACTGGCTGCTGTGGCGCCAGGACTTCGACGTGCACTGGCGCAGGCTCGACGACGACGAAGCCGCCGCGCTTGACGCCATCGACGCTGGCGCCTGCTTCGCCGACTGGTGCGTGCTGCTCGATGGCGATGTGCCGGCATTGCGCGCGGCCAGCCTGCTCAAGCGCTGGCTCGCCGACGGCCTGATCGCGGCGATCGACGCTGATCCTCTCCCTTCCACCCGCTGA	MNAHVITPLAQRQQALQAWLLAHTPLDATAIVARDPDQRDARLRIYADAYRLRLIEVLGNDVPVLRALLGSDAFDALALDYIAACPSRTPSVRGFGARLPDWLAARADIDPALASLARFEWAQGEVFDAPDAASCTIDALVVVAPESWPALRLQLHPAQRRLQLDANAAALVDAHARALPLPPLGATAPSHWLLWRQDFDVHWRRLDDDEAAALDAIDAGACFADWCVLLDGDVPALRAASLLKRWLADGLIAAIDADPLPSTR				NA	NA	NA	NA	NA
BMS020_02791	480			hypothetical protein	ATGCACGCCACCCCGTTTCCGCTGCCCGCGCGGCTGCGCACCCATCTCGCGCCGCTGCGCTGGCTCGGCCCGCTGTTGGTCCGGCTGGTGTTCGGCTACTTCTGGCTGGAGACCGGCTGGGCCAAGCTGCACAACCTGGAATTCTTCGCCGGCCGCTTCGTCGACTGGGGCATCCCGTTTCCTGAATTCAGCGCCGCGCTCAGCGCCGGCACCGAGTTCGTCGGTGGCGCGCTGATCATGCTCGGCCTGGCCACGCGACTGACGATGCTGCCGATGATCTTCAACATGCTGGTCGCGCTGGCGGTGGTGGTGTTGCCGGGCATCTCCACGCTCGACGAATTCGTCGAACTGGACGAAGTGCTGTACGTGGCGGTGTTCGTCTGGCTGCTGCTCGCCGGCCCGGGCGCGGCGAGTGTCGATGCGTTGATCGCGCGGCGCTGGAATGCGCGTGGCAGCGCCGGTGTCGCCGCCGCGCTGTGA	MHATPFPLPARLRTHLAPLRWLGPLLVRLVFGYFWLETGWAKLHNLEFFAGRFVDWGIPFPEFSAALSAGTEFVGGALIMLGLATRLTMLPMIFNMLVALAVVVLPGISTLDEFVELDEVLYVAVFVWLLLAGPGAASVDALIARRWNARGSAGVAAAL	PGPT0028505_1303	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
BMS020_02792	1017			hypothetical protein	ATGACCCAGTGGTACTTCCACATCCCCGGCCACTCCGACCGCGTCGGCCCGCTCGATGACGCCGCCGCGCGCCAGCACGCCCAGCTGAACCCGGGCGCGGTGGGCTGGCGCGAGGGCATGAGCGGCTGGAAGCCGGTGCGCGAGATCCCCGAACTCGGCGCCGCCGGTCCGGCCGGCTACGCCGCGCCACCGCCGTTCGCTGGTGGCGGGCAGCGCGCCGACGACATCGACTTCCGCATCGTCGGCAACGACATGCAGTTCGTCGAAGTCGAGCTCGACCCGGGCGAGAGCGCGATCGCCGAGGCCGGCGCGCTGATGTACAAGGATTCGGCGGTGCAGATGGACACCGTGTTCGGCGACGGCTCGCACGGCGGCCAGGGCGGCGGCTTCATGGACAAGCTGCTGTCGGCCGGCAAGCGCGTGGTCACCGGCGAAAGCCTGTTCACCACCGTCTACACCCACACCGGCGCCGGCAAGGCCAAGGTCGCGTTTGCCGCGCCGTATCCGGGCACGGTGCTGGCGCTGAACCTGGCCGACCACGGCGGCCGGCTGATCTGCCAGAAGGACAGCTTCCTGGCCGGCGCGCGCGGTGTGTCGCTGGGCATCGCGTTCCAGCGCAAGATCCTCACCGGCCTGTTCGGCGGCGAGGGTTTCATCATGCAGAAGCTCGAGGGCGACGGCTGGGTGTTCGTGCATGCCGGCGGCACGGTGGTCGAGCGCGAACTGGCCGCCGGCGAGCGCATCGACGTCGATACCGGCTGCGTGGTCGGCTACCACGGCAGCGTCGACATGGACGTGCGCCGCGTGACCGGCATCAAGAGCATGTTCTTCGGCGGCGAAGGCGTGTTCCTGGCCACGCTGACCGGCCCCGGCAAGGTCTGGCTGCAGTCGCTGCCGTTCTCGCGGATGGCCGGGCGCATGCTGCAGGCCGCACCGCAGGCCGGCGGCCAGAACCGCGGCGAGGGCTCGATCCTCGGCGGCTTCGGCCGCATCCTCGATGGCGACAACAACTTCTGA	MTQWYFHIPGHSDRVGPLDDAAARQHAQLNPGAVGWREGMSGWKPVREIPELGAAGPAGYAAPPPFAGGGQRADDIDFRIVGNDMQFVEVELDPGESAIAEAGALMYKDSAVQMDTVFGDGSHGGQGGGFMDKLLSAGKRVVTGESLFTTVYTHTGAGKAKVAFAAPYPGTVLALNLADHGGRLICQKDSFLAGARGVSLGIAFQRKILTGLFGGEGFIMQKLEGDGWVFVHAGGTVVERELAAGERIDVDTGCVVGYHGSVDMDVRRVTGIKSMFFGGEGVFLATLTGPGKVWLQSLPFSRMAGRMLQAAPQAGGQNRGEGSILGGFGRILDGDNNF				NA	NA	NA	NA	NA
BMS020_02793	1122	chiA1_1		Chitinase A1	GTGAGCCTGCGCGCACTGCGGCACTGCATCGCCGCGACCGCGCTGCTGCTGACCCTCGCCAGCGGCGCCGCGCTGGCCGCGCCCTACCGGCTGATCGGCTACGTCACCAACAGCGACGCCCCGGTGGCGCTGGACCCACGCAAGCTCGACGTCGTGAACTTCGCCTTCGCCGTGGTCGATGCGCATGGCGCGGTGATCCTGGACAACCCGACCGCGCCGCAGCGGCTCGACGAGCTGGTCGCGCTGCGCCAGCGCAACCCGGCGCTGAAGATCGTGCTGTCGATCGGCGGCTGGGGCGCCGGGCATTTCTCCGAGGCGGCGCTCGACGAGACCAGCCGCGCGCACTTCGCCGACAGCGCGATCGCACTGCTGCAGGCGCACGACCTGGACGGGCTGGACATCGACTGGGAGTACCCGACCCTGCCCGGTCCCGGCATCAGCCACCGGCCCGAGGACCGGCACAACTTCAGCCTGCTGCTGCAGACGCTGCGCACGCGGCTGGACGCGCTGGGTGCGCAGCGGCACGGCCGCCACTACCTGCTCAGCATCGCCGCCGCCGAAGGCGAGTACGCCCAGGGCCTGGAGCTGCCGCGGATCGCCGCGTCGCTCGACTGGATCAACCTGATGAGCTACGACTTCTACGGCAGCCTGACCCCGACCACCGGCCACCATGCCGGGCTGCGCCCGACACCCGGCGCGGCAGCAGGCGCGCGCAATGCCAGCAGCGCGGTGGACTTTTTTCTCGCCCGCGGTGTGCCGGCCGCCAAACTCAATCTCGGCGTGGCGTTCTACGGCCGCCGCTTTGGCGACGTGCAGCCCGCCAACCACGGCCTGCTGCAGCGCTTCGCCAGCGATGGCGGCTTCATCTCGTGGCGACAGATCGCCGAACAGCGGCTCGGCAAGCCGGGCTGGACGCGCTACTGGGACAGCGACGCGCAGGCGCCGACCCTGTGGAACGCACAGCAGCATGCATTCATCAGCTACGACGATCCGCAGTCGCTGGGTGCCAAGGCCGACTACGTGCGCGCCAAACAGCTGGGCGGGATCATGTACTGGGAATACCGCGAGGACCGCGACGAGCAGCTGCTCGACGTGCTCGACGCCGCGCTGCACCGCCGCTGA	MSLRALRHCIAATALLLTLASGAALAAPYRLIGYVTNSDAPVALDPRKLDVVNFAFAVVDAHGAVILDNPTAPQRLDELVALRQRNPALKIVLSIGGWGAGHFSEAALDETSRAHFADSAIALLQAHDLDGLDIDWEYPTLPGPGISHRPEDRHNFSLLLQTLRTRLDALGAQRHGRHYLLSIAAAEGEYAQGLELPRIAASLDWINLMSYDFYGSLTPTTGHHAGLRPTPGAAAGARNASSAVDFFLARGVPAAKLNLGVAFYGRRFGDVQPANHGLLQRFASDGGFISWRQIAEQRLGKPGWTRYWDSDAQAPTLWNAQQHAFISYDDPQSLGAKADYVRAKQLGGIMYWEYREDRDEQLLDVLDAALHRR	PGPT0012130_4654	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
BMS020_02794	837	phoC_1		Major phosphate-irrepressible acid phosphatase	ATGCGCCACGTCGTCCGTCCTGCCGCCATCACCGCGCTCGCCCTGTGCCTGGGCCTGCTCGGCGCCTGCAGCACGCCGCCGTCGCGCAGCACCGCATCGACCCGAGCCGACGCCAAGGCGGTGGGCTACCTCGACGCTGCAGCGCTGCCCGACAGCCTGGCGCTGCTGCCACCGCCGCCGGCACCCGGCTCGGCCGGCGCCGCGTTCGATCAGGCGGTCAGCCAGCAGGCGCTGGCGCTGCATGACGCCGCGCGTTTGGCCCAGGCGCGCCGCGATGCCGACCTGAGTTTCCCGGCCGGCGCCGACCTGTTCGCCTGCGCGCTCGGCGCGCCGATCAATGCCGAGCACACCCCGCACCTGTATCGGCTGCTGGAACGCAGCCGCATCGATGCCAGCGCCGCGACCAAGGCCGCCAAGAACCACTACCAGCGCACCCGGCCGTTCGTGCTCAACCACGCGCCGGTGTGCACGCCCGACGACGAGGCGCATCTGCGCGGCAGTGGTTCGTATCCGTCCGGCCACACCACGATCGGCTGGGCCTGGGCGCTGATCCTCGGCGAGGCCGATCCGGCCCATGCCGACGCACTGGCGCAACGCGGCCGCAGCTTTGGCGAGAGCCGGCTGGTCTGCAACGTGCACTGGCAGAGCGACATCATCGCCGGCCGGGTGATCGGCGCGGCGACGGTGGCGCGGCTGCATGACGATCCGACATTCCTGGCCGACCTGGCCGCCGCGCGCCGCGAGATCGCCGCCGCACGCGCACAAGGTCTGCAGCCGGCACGCGACTGCGCGGCCGAAAGCGCCGCGCTGCGCGTCCGCCCAGAGTCAGCACTGTGA	MRHVVRPAAITALALCLGLLGACSTPPSRSTASTRADAKAVGYLDAAALPDSLALLPPPPAPGSAGAAFDQAVSQQALALHDAARLAQARRDADLSFPAGADLFACALGAPINAEHTPHLYRLLERSRIDASAATKAAKNHYQRTRPFVLNHAPVCTPDDEAHLRGSGSYPSGHTTIGWAWALILGEADPAHADALAQRGRSFGESRLVCNVHWQSDIIAGRVIGAATVARLHDDPTFLADLAAARREIAAARAQGLQPARDCAAESAALRVRPESAL	PGPT0002555_52	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0002555-phoN|phoC-K09474	NA	NA
BMS020_02795	840	ylmA	COG1119	putative ABC transporter ATP-binding protein YlmA	ATGTCCGCAGTCGCCAGTCCGTCCCTCGCCTCGTCCGCGTCCTCCGCCCTGATCGAACTCGACCGCGCCAGCGTGATCCGCGGCCAGGTCAAGGTGCTGCACGAGCTCAGCCTGCGCATCGACGCCGGCCAGCACACCGCGATCCTCGGCCCCAACGGCTGCGGCAAGTCCTCCTTCATCAAGCTGATCACGCGCGAGCTGTACCCGCTGGCGCGGGTCGGCGGCGAGGCGCCGGTGAAGGTGCTCGGCCAGACCCGCTGGCACGTCGACCGGCTGCGTTCGCAGCTGGGCATCGTCACCAGCGACCTCAGCAACAACCTCGCCGACATGCCCGGGCTGACCGTGGAGAACGCGGTGTTGTCGGGCTACTTCGCCAGCTACGTGGTGCCGGCGCACCGCGAGGTCAGCGAGGCGATGCGCGAAGGCGCGCGGCATGCGCTGGAGCTGGCACGCGCGCTGCCGCTGCTGCATCGCGCATACGCCGAGCTGTCGGCCGGCGAGACCCGGCGCGTGCTGATCGCGCGGGCGCTGGTCAACCGCCCGCAGGCGCTGCTGCTGGACGAGCCCTCGACCGGGCTGGACCTGGTCGCGCGCCAGCACCTGGTCGACACGATGCGCCACCTCGCCCAGCAGGGCATCACCCTGGTGCTGGTCACCCACCACATCGAGGAGATCGTGCCGGAGATCGGCCGCGTGGTGCTGCTGCGCGGCGGGCGCATCTTCGCCGACGGCGAGCGCGAGGCGCTGCTCACCGACGCATCGCTGTCGGCGGTGTTCGACTGCCCGGTGCGGGTGCAGTGCGAGGATGGCCGCTATTCGGCGGTGGTGGCAGGCCACTGA	MSAVASPSLASSASSALIELDRASVIRGQVKVLHELSLRIDAGQHTAILGPNGCGKSSFIKLITRELYPLARVGGEAPVKVLGQTRWHVDRLRSQLGIVTSDLSNNLADMPGLTVENAVLSGYFASYVVPAHREVSEAMREGARHALELARALPLLHRAYAELSAGETRRVLIARALVNRPQALLLDEPSTGLDLVARQHLVDTMRHLAQQGITLVLVTHHIEEIVPEIGRVVLLRGGRIFADGEREALLTDASLSAVFDCPVRVQCEDGRYSAVVAGH	PGPT0003760_1226	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
BMS020_02796	1206			hypothetical protein	ATGTCAGCGGACACCCTCGTCGACCTGCTCAGCGGTGGCCTGCTCGCCCCGGGCTGGTGGGGCATGCTGGCGGTGCTGCTGGTGTTCACCCAGCTGACGATCTTCGCGGTGACGCTGTACCTGCATCGCAGCCAGGCCCATCGCGGCGTGGATTTCCATCCGGCGATCGCCCACCTGTTCCGTTTCTGGGTGTGGCTGACCACCTCGATGATCACCCGCGAGTGGGTGGCGATCCACCGCAAGCACCACGCGCGGGTGGAGACCGAGGACGATCCGCACAGCCCGCAGACGCGCGGCATCGGCATGGTGTTCTGGCGCGGCGTGGAGCTGTACCGCGAGGCGCGCGCGCTGCGCGGCGACATCGCCCAGTACGGCAAGGGCACGCCGGAGGACTGGATCGAGCGGCACCTGTACACGCCGCACGCCAATCTCGGCCCGGTGCTGCTGTTCGCGCTCAACACGCTGCTGTTCGGCCTGCCCGGCGTGGCGCTGTGGGCGATCCAGATGGCGTGGATCCCGTTCTGGGCGGCCGGCGTGGTCAACGGCCTGGGTCACTGGTGGGGCTACCGCAACTTCGAGTCGGCCGACACCTCGACCAACCTGACCCCGTGGGCGTTCTGGATCGGCGGCGAGGAGCTGCACAACAACCATCACGCCTTCCCCAGTTCGGCGCGCTTCTCGATGCGGCGCTGGGAATTCGACATCGGCTGGAGCGCGATCCGCCTGCTGCAGGCGCTGCGCCTGGCCAAGGTGCTGCGGGTCGCGCCCAAGCTCGACATCCGCCCGAACATCCAGGTGCCCGATGCCGACACGTTGAAGGCGCTGCTGTCGCACCGCTTCCAGGCGATGACCGACTACCAGCGCAACGTGTTCGCGCCGGCGCTGCGCGAGGAGGCCGCCGCCACCGGCGCCAAGCTGCGCCAGCTGCTGCCGCGGCGGCTGCGGCGCGGGCTGGTCGACGATGGCCGCTGGCTCAAGCCGGATGCCCGCGAACAGCTGCGGTGCTGGGTCGAGCAACGCCCGCGCATGCGCCTGCTGGTGGAGCACCGCGCGCGCCTGGCCGCGTTGCTGGAGGCGCGCAGCCACGATGCCGCCGAGCGCCTGCGCCAGCTGCAGCAGTGGTGCCAGGAGGCCGAGGCCAGCGGCGTGGCGGCGCTGCAGGCGTATGCTGGGCGGCTCAAGGGCTATGCATTGAGCAGCGCATGA	MSADTLVDLLSGGLLAPGWWGMLAVLLVFTQLTIFAVTLYLHRSQAHRGVDFHPAIAHLFRFWVWLTTSMITREWVAIHRKHHARVETEDDPHSPQTRGIGMVFWRGVELYREARALRGDIAQYGKGTPEDWIERHLYTPHANLGPVLLFALNTLLFGLPGVALWAIQMAWIPFWAAGVVNGLGHWWGYRNFESADTSTNLTPWAFWIGGEELHNNHHAFPSSARFSMRRWEFDIGWSAIRLLQALRLAKVLRVAPKLDIRPNIQVPDADTLKALLSHRFQAMTDYQRNVFAPALREEAAATGAKLRQLLPRRLRRGLVDDGRWLKPDAREQLRCWVEQRPRMRLLVEHRARLAALLEARSHDAAERLRQLQQWCQEAEASGVAALQAYAGRLKGYALSSA	PGPT0012215_548	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012215-desC-K00507	NA	NA
BMS020_02797	384			hypothetical protein	ATGACGGCTCCCGATTCCGCTTCCTCCCGCCTGTCCGGACGCCGCCTCGCGCGGCGTCTGTCGTACTGGGGCCTGCTGGCATTGTTGGCGGCCGGCGCGGCCGTGGCGCAGGTCAGCGATGCGGGCGAGTACCTGCAGCGCATGGACCGCGACGGCGACGGCCGGGTCAGCCTGGACGAATACCTGGACTGGATGAGCTACGCCTTCGACCAGCGCGATGCCAACCACGATGGCGTGCTGTCGGCCGACGAGCTGCCCGGCGGGCGCGGCCAGCCGATCACGCGCGCGCAGCACCGTGCGACGCTGGCCGAGCGCTTCCGTCGCCAGGATGCCGATCGCGACGGCTACCTGAGCGCGCGCGAACTGCTTGCGCCGCCGCGCTGA	MTAPDSASSRLSGRRLARRLSYWGLLALLAAGAAVAQVSDAGEYLQRMDRDGDGRVSLDEYLDWMSYAFDQRDANHDGVLSADELPGGRGQPITRAQHRATLAERFRRQDADRDGYLSARELLAPPR				NA	NA	NA	NA	NA
BMS020_02798	1164	egtB_3	COG1262	Hercynine oxygenase	ATGGTGCAGAGCATGGACGAGGCCAGCCCGGCGAAGTGGCACCTGGCGCATACCACCTGGTTCTTCGAGCGCTTCGTGCTGCGCGGCGATCCCGGCTACCACCCGCATGCGCCGGACTGGGACCGCCTGTTCAACAGCTACTACGAAAGCGCCGGGCCGCTGCATGCGCGCGGCCGCCGCGGGCTGCTGTCGCGGCCGACGCAGCAGCAGGTGCACGCCTACCGGGCCGTGGTCGACGATGCCGTCGCGGTGCGACTGGCCGACGATGGCCTGCCGGCGCAGGCGCTCGACGTGCTCGAGCTCGGCCTGCACCACGAGCAGCAGCACCAGGAGCTGCTGCTGACCGACATCAAGCACGCGCTGTGGAGCCATCCGCTGCAGCCGGCGTATCGCGACGACCTGCCCAGTCCGCACGCGGGCGGATCGACGCTGCGCTGGCTCGCGCGCGGCGAGCGCATCGTGCAGCTTGGCGCCGACCCGTGGCCGCAGTCGCCGGTGTTCGCCTATGACAACGAATCGCCGCGCCACCGCGTGCTGGTCGCTGCGCACGCGCTGGCCAGCCGGCCGGTCAGCAACCGTGAGTTCCAGGACTTTGTCGACGATGGCGGTTACGCCAACGTCGCGCTGTGGCTCAGCGACGGCTGGGCCACCGTGCGCGCGCAGGGCTGGCAGCGCCCGCTGTACTGGCATGCCGATGGCGAGCGCGAGTTCACCCTGGGCGGCTGGCGTGAGCGCGATCCGGATGCGCCGGCCTGCCACCTCAGCCTGTTCGAGGCCGACGCGTTCGCGCGCTGGGCCGGCGCACGGCTGCCGACCGAGGCCGAATGGGAGCAGGCCGCGACCGGACTGGCCGCCGCGGGGCACTTCGCCGACGACGGGGCGCTGCACCCATGCTCGGCCGACGCCGCCGATGCCGGCCTGCAGCAGTTGTACGGCAACGTGTGGGAGTGGACCGGCAGCGCATACCGGCCGTATCCCGGCTTCGCGCCGTGGCCGGGCACGCTGGGCGAATACAACGGCAAGTTCATGAACGCGCAGTGGGTGCTGCGCGGCGGCAGCTGCGCCACGCCGCGTGGCCATGTCCGCGCCAGCTACCGCAACTTCTTCCCGCCCGATGCGCGCTGGCAGTTCGCCGGCGTGCGGCTGGCGCGCGACCTGGCGTGA	MVQSMDEASPAKWHLAHTTWFFERFVLRGDPGYHPHAPDWDRLFNSYYESAGPLHARGRRGLLSRPTQQQVHAYRAVVDDAVAVRLADDGLPAQALDVLELGLHHEQQHQELLLTDIKHALWSHPLQPAYRDDLPSPHAGGSTLRWLARGERIVQLGADPWPQSPVFAYDNESPRHRVLVAAHALASRPVSNREFQDFVDDGGYANVALWLSDGWATVRAQGWQRPLYWHADGEREFTLGGWRERDPDAPACHLSLFEADAFARWAGARLPTEAEWEQAATGLAAAGHFADDGALHPCSADAADAGLQQLYGNVWEWTGSAYRPYPGFAPWPGTLGEYNGKFMNAQWVLRGGSCATPRGHVRASYRNFFPPDARWQFAGVRLARDLA				NA	NA	NA	NA	NA
BMS020_02799	978	egtD	COG4301	Histidine N-alpha-methyltransferase	GTGAACGCCGCCGCGCGCATCGCCGAGGACGGGCTGGCCGACCTGCAGCCACGCCCGGCCGAGATCGCCGCCGAGGTGCTGGCCGGGCTCGCGGCGACACCGAAGCGGCTGCCATCGAAATACTTCTACGATGCCGAAGGCTCGCGGCTGTTCGAGGCGATCACCCGGCAGCCGGAGTACTACCCCACGCGCACCGAGCTGGCGCTGCTGCAGGAGCGGATGGCGCAGATCGCGCCGGTGGTCGGCGCTGGCGTGCATGTGGTCGAGTACGGCAGCGGCAGCGGCCGCAAGACCGAGCTGTTGCTGGCCGGGCTGGCCGATCCGGTCGCCTACACGCCGGTGGAAATCTCGCGCAGCGCGGTGCTGCAGGCGACCGCACGCCTGGCCGGGCGCTTCCCGCGGATCGAGATGCTGCCGGTCTGCGCCGATTTCACCCGTGCCTTGCCGCTGCCGCGTCCGCGTCGCCGGGCGCAGCGCACGCTGATGTTCTTTCCCGGCTCCACGCTGGGCAACTTCGCCGATGCCGAGGCCACCGCACTGCTGCAGGCGATGCGCCAGAGCATGGGCGGCGACGGCATGGCGCTGATCGGCATCGACCTGGTCAAGGACGCGGCGTTGATCGAGGCGGCCTACAACGACGCGGCCGGCGTCACCGCACGCTTCACCCTGAACCTGCTGGCGCGGCTGAATCGCGAGATCGGCAGTGATTTCGACCTCGGCGCGTTCGCGCACCGCGCGGTCTACGTCGAGCAGCGTGGGCGCATCGAGACCTTCCTGGTCAGCCTCCGCGCGCAGCAGGTGACGGTCGCGGGGCGGCGTATCCACTTCGCCCGCGACGAGGCGATGCTGGTCGAGTACAGCCACAAGTACACCGATGCGGGGTTCGCCACGCTCGCGGCCGCCGCCGGGCTGCAGGTCGGCGCCGGCTGGAACGATGCGAACGACTGGTTCGGCCTGCGGCTGCTGCGGCCAGGCTGA	MNAAARIAEDGLADLQPRPAEIAAEVLAGLAATPKRLPSKYFYDAEGSRLFEAITRQPEYYPTRTELALLQERMAQIAPVVGAGVHVVEYGSGSGRKTELLLAGLADPVAYTPVEISRSAVLQATARLAGRFPRIEMLPVCADFTRALPLPRPRRRAQRTLMFFPGSTLGNFADAEATALLQAMRQSMGGDGMALIGIDLVKDAALIEAAYNDAAGVTARFTLNLLARLNREIGSDFDLGAFAHRAVYVEQRGRIETFLVSLRAQQVTVAGRRIHFARDEAMLVEYSHKYTDAGFATLAAAAGLQVGAGWNDANDWFGLRLLRPG	PGPT0020260_223	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020260-egtD-K18911	NA	NA
BMS020_02800	3720			hypothetical protein	ATGACCAGTACCGCCGAACTTACCTCGCCTGCATCCGCCAACGCCCCGGCGACCGGCAACCTGGACACGGACTACACCCTAGACCACAAATACACCCGCACCGACGGCCGCATCTACCTGAGCGGCGTGCAGGCGCTGGTGCGGCTGCCGTTGATGCAGCGGCTGCGCGACGCGGCCGCCGGCCTGGACACCGCCGGCTTCATCAGCGGCTACCGCGGCAGCCCGCTGGGCGGGCTGGACCTGGAGCTGTGGCGCGCGCGCAAGCACCTGGACGCGGCAAGGGTGAAGTTCACCCCGGGCCTCAACGAGGACCTGGCCGCGACGATGGTCTGGGGCACGCAGCAGACCAACCTGTTCCCCGGCGCCACCGTGCAGGGCGTGTTCGGCATGTGGTACGGCAAGGGTCCGGGCGTGGACCGCAGCGGCGACGTGCTCAAGCACGGCAACGCCGCCGGCACCTCGCCACTGGGCGGCGTGCTGGCGCTGGCCGCCGACGACCATGCCTGCCGCAGCTCGACGCTGCCGCACGGATCGGAAGAGGAATTCGTCAGCGCGATGATGCCGGTGCTGAACCCGTCGGGCGTGCAGGACGTGCTCGACATGGGCCTGCTCGGCTGGGCGATGAGCCGCTATACCGGACGCTGGGTCGGCTTCAAGACCATCGCCGAGACGGTGGAATCGTCGGCCTCGGTCGATGTCGATCCGTTCGCGCGCCGCATCGTGCTGCCGGAGGACTTCGAGCTGCCGCCGGGCGGGCTCAACATCCGCTGGCCGGACCCGCCGCTGGACCAGGAAATGCGCCTGCACCGCTACGCGGTGAAGGCCGCGCAGGCGTTCGCGCGCGCCAACGGCATCGACCGCCTGGTGATGGACGCACCGCGCGCGCGGCTGGGCATCGTCACCACCGGCAAGAGCTACCTCGACGTGCTGCAGGCGCTGGAGTACCTGGGCCTGGATGCGCAGGCGTGTGCCGAGATCGGCATCCGCGTGTACAAGGTCGGCATGACCTGGCCGCTGGAGCCGCTCGGCATCGCCGCGTTCGCGCGCGGGCTGGACGACATCGTCGTGGTCGAGGAGAAGAAGGCCTTCATCGAATCGCAGATGAAGGAGCAGTTCTACAACTGGCCGGCCAGCTGGGGGCCGCGCCCGTGCATCGTCGGCAAGTACGACGAAGCCGGCGAATGGATCCTGCCGTCCACCGGCGAACTGACTCCGGCGACGATCGCCGGCGTGATCGGCCGACGCATCCAGAAGCTGCTGCAATCGAGCGCGATCAACACCGAGTCGATCGAGCAGCGCCTGCAGTGGATGGTGGAGAAGGAAGCGGAAATGGCCCGCCCCCGGGCCTTGTTCCCGCGCATCCCGCACTACTGCTCGGGCTGTCCGCACAACACCTCCACCGTGGTGCCGGATGGCTCGCGGGGGATGGGCGGCATCGGTTGCCACTACATGGTGACCTGGATGAACCGCAACACCGACACCTTCACCCACATGGGTGGCGAAGGCGTCACCTGGTCCGGGCAGGCGCCGTTCACCGACACGCCGCACGTGTTCCAGAACCTCGGCGACGGCACCTATTTCCACAGCGGCACACTGGCGATCCGCCAGTCGATCGCCACCGGCGTCAACATCACCTACAAGATCCTCTACAACGACGCGGTGGCGATGACCGGCGGGCAGCCGGTCGACGGCACCCTGAGCGTGCCGGACATCGCCCGGCAGATGCGCGCCGAGGGCATCCACACCATCGCACTGGTGTCCGACGACATCGGCAAGTGGACGCGCCAGCGCGAACTGTTCCCGAGCGATGTCGACTTCCACGACCGCGCCGAGCTCGACGCCGTGCAGAAGCGCCTGCGCACGATCAAGGGCGTGTCGATCCTGATCTACGACCAGACCTGCGCGACCGAGAAGCGCCGCCGCCGCAAGCGCGGCAAGCTGCCCGATCCGGCCAAGCGCGCGGTGGTCAACTCGCTGGTCTGCGAAGGCTGCGGCGATTGCGGCGAGAAGAGCTTCTGCGTGTCGGTGCTGCCGAAGGAAACCGAGTACGGGCGCAAGCGCGAGATCGACCAGTCCAACTGCAACAAGGACTTCTCCTGCGTGTCCGGCTTCTGCCCGAGCTTCGTCACCGTGCACGGCGGCCAGCTGCGCAAGGGCAAGAAGAGCGACGCCAGCACGCTGCTGGACGCGCTGCCCGAGCCGGTGTTCGCCAGCGACCTGAGCCAGCCGTGGAACGTGCTGATCACCGGCGTCGGTGGTACCGGCGTGGTGACCATCGGTGCGCTGCTCGGCATGGCCGGGCACCTGGAAGGCAAAGGCGCGACCGTGCTCGACCAGACCGGGCTGGCGCAGAAGGGCGGCGCGGTGACCACCCACTTCCGCCTCGCCCGCACCCCGGCCGACCTGCACGCGGTGCGCATCGCCGCCGGCGAGGCCGACCTGGTGCTGGGCTGCGACATGGTCGTGGTCAACGACTACTGGGCGCTGTCCAAGGTCCGCGCCGGGCGTTCCACCGTGGTGCTCAACAGCTACGAGGCGATGCCGGGCGGCTTCACCATGCAGCCGGACATGCAGTTCCCGGCCGCCGAGATCGTCGCCGGCGTGCGCGTGGCACTCGGCGGCGCCGAGCCACTGCTGCTGGACGCGACCCAGCTGGCGACCGCGCTGCTCGGCGACGCGATCGCGACCAACCTGTTCATGCTCGGCTACGCCTGGCAGCGCGGGCTGGTGCCGGTGTCGTTCGCGGCGCTGATGCGCGCGATCGAACTCAATGGCGCCGCGGTGGCGATGAACCAGCGCGCCTTCGCCTGGGGCCGGCTGGCGGCGATCGACCTGGCCGCGGTGCAGCAGGCCGCCGGCCTGGTGCGCAGCGCGCCGCTCGCCGACACGGCCGCCATGCAGCCGCTGCAGGCGCTGCCGCCGCGCGAATGGGAAGGCAGCGAGGCCGGCGCCACCGCTGCACCGCGCAGCCAGCCGGGCGCGCGCGATCCGCGCGGCCTGCCGCACCACGACCACGATGCCGAAGCGTTCGCCGCGCTCGACGACGCACAGCTGTCGCGTTCGTTGGACGAACTGGTCGAGCGCCGCGTCGCCTTCCTGACCGACTACCAGGACGCCACCTACGCGCAGCGCTATGCCGAGCTGGTGGCGCGCGTGCGCGCAGTCGAACTGCAGCGCGCGCCCGGTTCCAGCGCGCTCGGCGAGGCGGTGGCGCGCTATGCGTTCAAGCTGATGGCCTACAAGGACGAGTACGAAGTGGCCCGGCTGTACACCAGCGGCGCGTTCCAGCAGCAGCTGCAGCAGCAGTTCGAGGGCGACTACCAGGTGCGCTTCCACCTCGCCCCGCCGCTGCTGGCCAAGCGCGACGCCAACGGCCAGCTGCTCAAGCGCGAGTACGGGCCGTGGATGTTCACCGCGTTCAAGTGGCTGGCCAGGCTCAAGCGCCTGCGCGGCACGCGCCTGGACGTGTTCGGCTACAGCGCCGAACGCCGCGGCGAGCGCCAGCTGGTCACCGATTACTTCGCCACCATCGGCACGCTGCTGGAGCGGCTGGATGCCGACAACGTCGGCCTGGCCGCGCGCATCGCCGGCATTCCCGAGCAGATCCGCGGCTACGGCCACGTCAAGGACGCGCACCTGCAGGAAGCCAAGGCGCTGGAAGCGCGGCTGCTGGCGCAGTGGCGCAACCCGAAGGCGCTGCATATCGTGCAGGCCGCCTGA	MTSTAELTSPASANAPATGNLDTDYTLDHKYTRTDGRIYLSGVQALVRLPLMQRLRDAAAGLDTAGFISGYRGSPLGGLDLELWRARKHLDAARVKFTPGLNEDLAATMVWGTQQTNLFPGATVQGVFGMWYGKGPGVDRSGDVLKHGNAAGTSPLGGVLALAADDHACRSSTLPHGSEEEFVSAMMPVLNPSGVQDVLDMGLLGWAMSRYTGRWVGFKTIAETVESSASVDVDPFARRIVLPEDFELPPGGLNIRWPDPPLDQEMRLHRYAVKAAQAFARANGIDRLVMDAPRARLGIVTTGKSYLDVLQALEYLGLDAQACAEIGIRVYKVGMTWPLEPLGIAAFARGLDDIVVVEEKKAFIESQMKEQFYNWPASWGPRPCIVGKYDEAGEWILPSTGELTPATIAGVIGRRIQKLLQSSAINTESIEQRLQWMVEKEAEMARPRALFPRIPHYCSGCPHNTSTVVPDGSRGMGGIGCHYMVTWMNRNTDTFTHMGGEGVTWSGQAPFTDTPHVFQNLGDGTYFHSGTLAIRQSIATGVNITYKILYNDAVAMTGGQPVDGTLSVPDIARQMRAEGIHTIALVSDDIGKWTRQRELFPSDVDFHDRAELDAVQKRLRTIKGVSILIYDQTCATEKRRRRKRGKLPDPAKRAVVNSLVCEGCGDCGEKSFCVSVLPKETEYGRKREIDQSNCNKDFSCVSGFCPSFVTVHGGQLRKGKKSDASTLLDALPEPVFASDLSQPWNVLITGVGGTGVVTIGALLGMAGHLEGKGATVLDQTGLAQKGGAVTTHFRLARTPADLHAVRIAAGEADLVLGCDMVVVNDYWALSKVRAGRSTVVLNSYEAMPGGFTMQPDMQFPAAEIVAGVRVALGGAEPLLLDATQLATALLGDAIATNLFMLGYAWQRGLVPVSFAALMRAIELNGAAVAMNQRAFAWGRLAAIDLAAVQQAAGLVRSAPLADTAAMQPLQALPPREWEGSEAGATAAPRSQPGARDPRGLPHHDHDAEAFAALDDAQLSRSLDELVERRVAFLTDYQDATYAQRYAELVARVRAVELQRAPGSSALGEAVARYAFKLMAYKDEYEVARLYTSGAFQQQLQQQFEGDYQVRFHLAPPLLAKRDANGQLLKREYGPWMFTAFKWLARLKRLRGTRLDVFGYSAERRGERQLVTDYFATIGTLLERLDADNVGLAARIAGIPEQIRGYGHVKDAHLQEAKALEARLLAQWRNPKALHIVQAA				NA	NA	NA	NA	NA
BMS020_02801	615			hypothetical protein	ATGACCATGGCCGTGCTGGGGTTTGCGTGCTTCGCCGCTCAGGCGCAGGCGCTGCCGAAGCCAAAGGAATTCTATTTCGACGAGGACAAGTCCACGACGCGCGCGATCGTCGCAGTGGCTGGTGACGGCGATGCGGTGGTCGACCGCCTCGCGCAGATCGTCCAGCGCGACAGCCGTGCGGTGGATGCCAAGGCGCAGCTGGCCACGATCGCCTTCAACGGCGGCCGCCGCGAACTGGGCGAGCAGTTGTACCAGTCGGTGCTCGGCAGCCTGTCGAACAACAGCCAGCAATACCGCACGGTGGCCTGGAATTACGCCTGGGACCTGCTGCACGCAGGCGATGCCGAAAAGGCGCTGGAGCAGTGGAGCGGCCTGGCCGGGGGACGGCCGGCGGCTCCGGAATGGCTGCCGCCGACGCTGGCGCTGGGCCTGTGGCAAGCCGGGCACAAGGACGAGGCACTGCAGTGGTATGGCGCGGCGATGCGCACCTGGCCGGACCGCTGGAACAATGCCGGCAACTTCGCCAGCCTGCTGCCGGACTGGAAGGAGCAGGACCGCACCACGCTGGCCAGCGTGCTGGCGGCCTGGCAGGCCAATCCGCCGGCCTGGCCCTGA	MTMAVLGFACFAAQAQALPKPKEFYFDEDKSTTRAIVAVAGDGDAVVDRLAQIVQRDSRAVDAKAQLATIAFNGGRRELGEQLYQSVLGSLSNNSQQYRTVAWNYAWDLLHAGDAEKALEQWSGLAGGRPAAPEWLPPTLALGLWQAGHKDEALQWYGAAMRTWPDRWNNAGNFASLLPDWKEQDRTTLASVLAAWQANPPAWP				NA	NA	NA	NA	NA
BMS020_02802	918			hypothetical protein	ATGGCATTCGACGCTTTCGCCCTGATCCTGGCCATGCTTGGGCTGGGCCTGCTGTTCTCGCGGCTGCGGGCGCTGCCCGACAACGCCGCCGACGTGCTCAACCGCGTGGTGCTGTACGTATGCCTGCCGGCGTCGGTGCTGACCTACGTGCCGCGGCTGCACCTGGACGCCTCGCTGGCCGGCGTGGTCGCCACGCCGTGGCTGCTGGCCGCGCTGGCGACCTTGCTGGTATGGGCATGCACGCGGCTGTTCGGCTTCCGCCGCGAGGAGCACGCCGCGCTGATCATGTGCGTGGCGCTGACCAATTCCAGCTTCATCGGCTTTCCGATGGTGCGCGCGCTGCTCGGCGACGCGGCGTTGCCGTACGCGGTGGTCTACGACCAGTTCGGTACCTTCGTGCTGTTGTCCACGTTCGGCCTGTACGTGCTGGCGCGCTACAGCGGCGATGTCGCGCCGAGCACCCGCACGATCCTGCTGCGGGTGGCGAAGTTCCCGCCGCTGTGGGCGCTGCTGGTGGCGGCCACGGTGATGCCGGCGCAGCCGCCGGCGTGGATCGGTGCCGCGCTCAAGAGCCTGGCCGACGCGATGCTGCCGCTGGTGATGCTGGCGGTCGGGTTCTCGCTGCAGCTGCGGCTGCCGGCCGATGAACTCAAGCCGCTCGGCGTCGGCCTGCTGCTGAAGCTGCTGGTGCTGCCGGCGCTGGCGCTGCCACTGTCGTGGGCGCTCGGCCTGCAGGGGTTGATGTTTCGCGCCAACGTGCTGGAAAGCGCGATGCCGACGATGATCACCGCCGCCGCGCTGGCGATCTCGCACCGGCTGGCGCCGCGCCTGTCGGCGGCGATGGTCGGCTATAGCATCCTGCTGTCGTTGCTGACCCTGCCGGCCTGGTCCTGGCTGCTGGCGCGGCTGGGCGGTTGA	MAFDAFALILAMLGLGLLFSRLRALPDNAADVLNRVVLYVCLPASVLTYVPRLHLDASLAGVVATPWLLAALATLLVWACTRLFGFRREEHAALIMCVALTNSSFIGFPMVRALLGDAALPYAVVYDQFGTFVLLSTFGLYVLARYSGDVAPSTRTILLRVAKFPPLWALLVAATVMPAQPPAWIGAALKSLADAMLPLVMLAVGFSLQLRLPADELKPLGVGLLLKLLVLPALALPLSWALGLQGLMFRANVLESAMPTMITAAALAISHRLAPRLSAAMVGYSILLSLLTLPAWSWLLARLGG	PGPT0007208_4149	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
BMS020_02803	1158			hypothetical protein	ATGAAGCAGGCATGCAGGCAGTGGATCGGCGGGATCGTGCTGGGCGTCGCGGTTGCCTGCGCGCAACCGGCACTGGCGGCGAGCGCGCCGCCCATGTCGGCGGAGCAGCTCAAGGCGGTCGGCGCGATCTTCGCCGCGCCCGAGAACGCGGCCGCCGGCAAGCGCTGGGGCGAGCAGTTCAAGCAGGCGATGCAGCAGCGGCTGCGCGCGCTGGCCGCGAGCGGCGAGCCGCGCAAGCTGTACGTGGCCGCGCTGCTGTGGGATGCCGTGGCGACGCAGGCGCCGGCCAACGGCGGGCCGTCCGAGCAGGCCAAGGCCTGGCTGCAGGTCGCGGTGGATGCGCGCCCGCGCGATGCGCTGGTGGCACGCTACGAACTGGATAATTGCACCGGCGCCGGCCTGCGCTGCGCGCCCGACGAGGCGTTGGCGTTCCTGCTGGCCAGCGAGCCGGACAACGCCGAGGTGCAGCTGCGCGCGATCGCGGATGCATCGCGCCGCCAGGACCAGGCCGCGCAGGCGCGGCACTGGCAGGATGCGGCCACTGCCAGCCGCTTCGCCCCGGCCGCGGGGCCGCTCGGCCAGGCACTGCTGCAGGCCTATGCGGGGCTGCAGTGGCCGCTGCCGGATGCGGCGTTCTCCAGGGTGATCGAGCAGCTCCGGGCGCAGGGCATGGACTTCGAGCCGCGCGCGCTGGCGCTGGCCGGCGCGCAGCCGGTCTGGGTCGTCCATGCACTGCCGGCGCTGCGGGTATTCGCGCCGTGCCGCAGTGCCCAGGCTGGCACGCCGCGCTGGGACGAATGCGTCAGCGTGGCGGCGCTGATGGCCGAGGACCGCTCCAACCTGCTGGTGCCGATCTTCGGCGTGAACACCGCGGGGGCACTGACCGCCGGCAGCCCCGACCAGCAGGCCTGGCTGCAGCGCCAGCGCCGGGTGCAGTGGCTGCAGCACAAGGGGGCCGAGGTCGTGTTCAACGAACTGATGACCTCGGCCAGCTACAGCAACCTGCAGACCATGCTGGGCGAAGGTGAAATCCCGGCGATCGAAGCGGCGCTGGCCCGCAAGGGCATCGCCGCACTGCCGCCGGCGGACTGGACCCCGGGCAATGGCGCCACGGTCGAGGCCGGCGGCGTGCTGGGCGTGGCCCTGCCCGCGGAGTGA	MKQACRQWIGGIVLGVAVACAQPALAASAPPMSAEQLKAVGAIFAAPENAAAGKRWGEQFKQAMQQRLRALAASGEPRKLYVAALLWDAVATQAPANGGPSEQAKAWLQVAVDARPRDALVARYELDNCTGAGLRCAPDEALAFLLASEPDNAEVQLRAIADASRRQDQAAQARHWQDAATASRFAPAAGPLGQALLQAYAGLQWPLPDAAFSRVIEQLRAQGMDFEPRALALAGAQPVWVVHALPALRVFAPCRSAQAGTPRWDECVSVAALMAEDRSNLLVPIFGVNTAGALTAGSPDQQAWLQRQRRVQWLQHKGAEVVFNELMTSASYSNLQTMLGEGEIPAIEAALARKGIAALPPADWTPGNGATVEAGGVLGVALPAE				NA	NA	NA	NA	NA
BMS020_02804	1497	ftsH_2		ATP-dependent zinc metalloprotease FtsH	ATGAGCGAGCTGCAGGACCTGACCGCGCTGATCCGCGCCAACACCCCGCTGATCGTGATCGAGACGCAGGACGAAGCCCGCGTGGTGCAGCTGTTCCGCGAGGCCTTGATGCACGTGTGGCGGGCCTTGTACCGCTGGAGCATCACCGAGGGCCTGCGCCGGATCGACCTGGACCGCGAGGATGCGCCGCAGGGCCCGCCCGACGCCAGCGCGCTGCTGCAGATGATCCGCCAGGCCGACCAGCGCGGCATCTACCTGATGCTCGACGTGCACCCCTACCTGGGCTACGCCAGCCACCAGCGGCTGCTGCGCGACATCGTGCAGCGCCGCCACTGCGAGCCGCACGTGCTGGTGGTGATCGGCGCCAAGGTGGAGCTGCCGGCCGAGCTGGAAGCGCTGGCGACCCGCTTCAACCCGCGCCTGCCCGATGCCAACGCGCTGCTGAAGATGCTGCGCGAGGAGGCGGCCGACTACGCCCGCGAACACGGCGGGCGCCGGGTCGAGGTCGACAACGCGGTGGTGCAGCAGATCCTGCGCAACCTGCAGGGCCTGAGCCTGACCGATGCGCGGCGGATCGGCCGCCAGCTGATCTTCGCCGACGGCGCGCTCGGCCAGGACGACCTGCCGCAGCTGGCCAGGCTGAAGTTCGAGCTGCTCAACCGCAGCGGCCACCTGCACTACGAGTACGACAGCGCGCGCTTCGCCGATGTCGCCGGCGCCAACCGGCTCAAGCGCTGGATCGGCCAGCGCCGCACCGTGTTCGTGTCCGGCACCGCGCCGGCCGGGCTGGAACCGCCCAAGGGCATGCTGCTGCTGGGCGTGCAGGGTTGCGGCAAGTCGATGCTGGCCAAGGCCACCGCGGCCGGTTTCGGCGTGCCGCTGCTGCGGCTGGACTTCGGCACGCTGTACGACAAGTACCACGGCGAGACCGAGAAGAATCTGCGCGCCGCGCTGGCCTCGGCCGAACAGCTGGCGCCATGCGTGCTGTGGATCGACGAGATCGAGAAGGGCCTGGCCAGCGGCGGCGAGGACGGCGGGGTATCGCGGCGCGTGCTCGGCTACCTGCTGACCTGGATGGCCGAGCGCAGGAGCCAGGCCGGCGCCGGCGGGGTCTTCATCGTCGCCACCGCCAACCAGGTCCACGAGCTGCCGCCCGAGCTGCTGCGCAAGGGCCGCTTCGACGAGATCTTCTTCGTCGACCTGCCCAGCCCCGATACCCGCGTGGAGCTGCTGCGGCTGCACCTGGCGCGGCGCGGGCTGGACCCGGAAGGCTTCGCGCTGCCGGCGCTGGCCGCTGCCGCGCAGGGGTTCTCCGGGGCCGAGATCGAGCAGGCCATCGTCGCCGGGCTGTACGCGGCGCACGCCGAGAGCCGGCCGCTGGATACCGAGCTGCTGATGGCCGAGATCCGCGGCACCCGGCCGCTGTCGGTGGTGATGGCCGAACAGGTGCAGGCGCTGCGCGACTGGGCCGGCAGCCGCACCGTGCCCGCCGACTGA	MSELQDLTALIRANTPLIVIETQDEARVVQLFREALMHVWRALYRWSITEGLRRIDLDREDAPQGPPDASALLQMIRQADQRGIYLMLDVHPYLGYASHQRLLRDIVQRRHCEPHVLVVIGAKVELPAELEALATRFNPRLPDANALLKMLREEAADYAREHGGRRVEVDNAVVQQILRNLQGLSLTDARRIGRQLIFADGALGQDDLPQLARLKFELLNRSGHLHYEYDSARFADVAGANRLKRWIGQRRTVFVSGTAPAGLEPPKGMLLLGVQGCGKSMLAKATAAGFGVPLLRLDFGTLYDKYHGETEKNLRAALASAEQLAPCVLWIDEIEKGLASGGEDGGVSRRVLGYLLTWMAERRSQAGAGGVFIVATANQVHELPPELLRKGRFDEIFFVDLPSPDTRVELLRLHLARRGLDPEGFALPALAAAAQGFSGAEIEQAIVAGLYAAHAESRPLDTELLMAEIRGTRPLSVVMAEQVQALRDWAGSRTVPAD				NA	NA	NA	NA	NA
BMS020_02805	633			Iron-sulfur cluster carrier protein	ATGAAGACGATCCTGGTGGCGGGCTCCAAGGGCGGGGTGGGCAAGACCACCATCGCCACCAACCTGGCTGCTTACGCCGCCTTGCAGGGCCGCCGCACGGTTTTGGCCGATGCCGACCCGCAGGGATCGTCCACGCGCTGGGCCGAGCGCCGTGCCGTGCTCGACAGCGCAGTGCTGCCGATCGACGCCACGCGCAAGCGCAAATGGCTCGCCGCGGTGCCCGATGACACCGAGCAGGTCGTCATCGACGCACCAGCCGGGGCGATGGCCGACGACCTGGAGTCCTTCCTCGAACGCGCCGACGCGGTGGTGGTGCCGGTGATGGCCTCGGCGCTGGATATCGAAGCGGTGGTCGGTTTCCTGAACACCCTGGCCAAGGTGCCGCGGGTGCACCAGCGCAAGCTGCCGGTCGGGCTGGTGCTCAACCGCAGCAAGCCCTGGACCCAGACCACCCAGCAGGCGGTGGAGATGCTCGCCACCTGGCCCTACCCGTTGCTGGCGCAGCTGCGCGACACCCAGGCCTACGTGGTGCTGGCCGGGCTTGGGCGCAGCCTGTTCGACTACCGTTCGGCCCAGGTCCGCGACCACCAGCAGGACTGGGCACCGTTGCTGGCCTGGCTCGACAAGGCATGA	MKTILVAGSKGGVGKTTIATNLAAYAALQGRRTVLADADPQGSSTRWAERRAVLDSAVLPIDATRKRKWLAAVPDDTEQVVIDAPAGAMADDLESFLERADAVVVPVMASALDIEAVVGFLNTLAKVPRVHQRKLPVGLVLNRSKPWTQTTQQAVEMLATWPYPLLAQLRDTQAYVVLAGLGRSLFDYRSAQVRDHQQDWAPLLAWLDKA				NA	NA	NA	NA	NA
BMS020_02806	477		COG2062	putative protein	ATGCGTGAACTGATCCTGCTGCGGCATGCCCATGCCGAACCGGCCGATACCGGCCAGGCCGATTTCGATCGCCCCCTTTCGCCACACGGACTGGCCGAGGCCGAAGCCGCCGGGCGCTGGCTGCGCGAGCAGCGGCTGGTGCCGGACCGGGTGCTGTGCTCGCCGGCGCGGCGCGCCCGCGAGACGCTCGAGGCGGTGCTGGAACTGACCGGCTACATCGAGCAGCGGCTTGAGCCCAAGATCTACGAGGCCACGCCCGGTACGCTCGCGGCGCTGGTGGACGACCATCGCGAGGCCGAGCGGCTGCTGCTGGTCGGCCACAATCCCGGCCTGGAACGGCTGGCGGCGCTGATGCACAGCGGCCAGTCCGGCGACTACCGCGGCATGCCCACCGCGTCCATCGCCCTGCTGGCGCTGCCGATCGAGGCGCTGATCGAACCTGGAGTCGCCCGCCTCACCGCGTTCTGGTGGCCCTGA	MRELILLRHAHAEPADTGQADFDRPLSPHGLAEAEAAGRWLREQRLVPDRVLCSPARRARETLEAVLELTGYIEQRLEPKIYEATPGTLAALVDDHREAERLLLVGHNPGLERLAALMHSGQSGDYRGMPTASIALLALPIEALIEPGVARLTAFWWP				NA	NA	NA	NA	NA
BMS020_02807	585			hypothetical protein	GTGGCCCTGACGCCAGTGCGCCTGGGGTGGCTGGCGGGGGTGCTGTTGGCGCTCGCCTGCGCGGCGCCGGCCTGTGCCCAGCAGCGGTTGCCGCTGGATCCGGAGCGCTCGCAGTTCGGCTTCGAGATCCGCACCCGTTTCGGGCAGAAGATCGAGGGGGTGTTCCCGCACTTCGAGGGCGACGTGCTGGTGCTGCCGGATGGCCGCCACCAAGTGCGGCTGCGCCTGTACGCGGCCGAGGTGGTGATCCCCGACAAGCCGCGCTACACCAGCTGGATGCGCGGCGAGGACTTCTTCGATGTCGGCCGCTTCCCGGTGGTGCAGTTCGACTCGTTGCCGTATTCGCCGGGCATCACTGCCGGCGGGGGTGACATCGTGGGCAACCTGACCATCCGCGGAATCACCCACCTGGAGACACTGACGGTGATGCCGGCCGAATGCGCGCGTGCAGGCTATGATTGCGACGTGATCAGCCGCGGTACGGTCCTGCGTGGACGCTATGGGATGGATGCTTGGCAGGTGGCCCTGGGCGACAGGGTGACCTTCGTTCTGCGCGCGCGTCTGGCGGAGGCGCCGACGCCGTGA	MALTPVRLGWLAGVLLALACAAPACAQQRLPLDPERSQFGFEIRTRFGQKIEGVFPHFEGDVLVLPDGRHQVRLRLYAAEVVIPDKPRYTSWMRGEDFFDVGRFPVVQFDSLPYSPGITAGGGDIVGNLTIRGITHLETLTVMPAECARAGYDCDVISRGTVLRGRYGMDAWQVALGDRVTFVLRARLAEAPTP				NA	NA	NA	NA	NA
BMS020_02808	1977	clsC_1		Cardiolipin synthase C	GTGACGCTGATGTGGCGGGGACTGGCACTGGCAGTGGTGCTGCTGGGCACGGGGTGTGCCGGCCTGTCCCAGGTCCAGCGCGACCGCGCCCAGGCGATCGCACTGGCGGCGCGCGACAGCGCGGTCGACTGCGACCGCGACGACCGCTGCGCCCAGCCCTCGCCGCTGCGCGCGCTGGGCGGCCAGGCGATCGCCGAGTCGACCTCCGCGGCACCGCGCCACTACGCCACCATCGTCGATGGCGGCGAGGACTCGCTGGTCGCCCGGCTCAACCTGATCGACAGCGCCACCCGCCGCATCGATCTGCAGACCTATATTTTCGACAAGGATGACAGCGCCCGCTCGGTGCTGGATGCGCTGATCGCCGCGGCGCGGCGCGGGGTCAAGGTGCGGGTGCTGATCGACCAGCTCTCGGCGATCTCCGATCTGCCGATCCTCGGTGCGCTGGCCGGCGTGCACCAGAATTTCGAGCTGCGCATCTACAACCCGACTTTCGGCAAGGCCAAGCTCAACTACGCCGACTACGCCGGCAGCGTGCTGTGCTGTTTCCGCCGCTTCAACCAGCGCATGCACAACAAGCTGCTGGTGATCGACGACGTGGTCGGCATGGTCGGCGGGCGCAACTACCAGGACGACTATTACGACTGGGACAGCGAGTTCAATTTCCGTGACCGCGACGTGATCGTCGCCGGCCCCGAAGCGCGGGCGATGGGCGCCAATTTCGAGGCGTTCTGGCGTGCGCAGCGCAGCGTGCCGGTGGAGCGGCTCAACGATGTCGGCCGGCTGCTGCTGGACCAGGGCGTGCCGGTGCTGCCGCCGGACCAGTTCGTCCGCCCCGAGCGGGTGCGGCGGGTGCAGGCCGAGGCCGCCGACCAAGAATTCGTGCGCGAGCGCTTCGTCGACACCGCGCTGCCGGTGCGCAAGGTGCAGTACGTGGCCGACCTGCCGCAGAAGCACCGCCGCGAGCATTCCAGCCAGGCGGTGTCGACCGCGCCGGAGCTGGACGGGCTGATCGCCGGGGCGCAGAAGGAAGTGCTGCTGCAGACCCCGTACCTGGTGTTGTCCAAGCCGGCGCAGCGGATCTTCCGCGAGCTGCGCAAGCGCCCGCAGCCACCGCGCATCGTGGTGGCGACCAACAGCCTGGCCGGCACCGACAACCCGATCGTCTACGCGCTGGCTTACAAGTACAAGCGCCGCAACCTGCGCGAGCTGGGCTTCAACATCTACGAATACAAGCCGTTCCCGCTGGACGCGCCGGTCGACTATGCCGAGCTGGTGCCGCAGCCGCTGGCCGGCGGCGCTGGCAGCAACAGCCGCGAGCACCGGGTGATCGGCGGCAGCGCGGTCGGCAACGCCGTGCGCGGCAGCAGCGGCAGCGGTGGCCCGCGCGGCAGCCGGCGCCCCGGCGGCAGTGAGGTCGACCGCCAGGTGCTGCGCACCGAGACCCGGCCCTCGTTCCTGGGCACCCGCGCGGTAACGCGACCGTTGCCGGTGACCCGCGACGGCGCGCGCATGGGCCTGCATGCCAAGTCGCTGGTGGTCGATCGCCGGGTCGGGGTGATCGGCACCCACAACTTCGATCCGCGCAGCGAGAACTACAACACCGAAGGTGCGGTGGTGATCGACGATCCGGCGTTCGCCGAGGCGCTGGCACAGAGCATCGAGCGCGACATCTCGCCGGCCAATTCCTGGACCGTCGCTCCGCGCGAGAAGCCGCCGGTGGTCGGCGGGATCAGCTACAGCGTCGGCAAGGTCTCCGAAGCGCTGCCGGTGCTGGATTTCTGGCCGTGGCGCTACGCCACCAATTACGAGTTCAAGCCGGGACCGGACTGCCCGTTCCCGCTCAAGCAGCAGGACCCGCGCTTCCACCAGTGCTACGTCGCGGTCGGCGATTTCCCCGAGGTGAACGTCGGGCCGAAGTGGCTGCTGGTGCGGATGCTGACTGCGTTCGGCGCCGGGCTGGTGCCGATCCTCTGA	MTLMWRGLALAVVLLGTGCAGLSQVQRDRAQAIALAARDSAVDCDRDDRCAQPSPLRALGGQAIAESTSAAPRHYATIVDGGEDSLVARLNLIDSATRRIDLQTYIFDKDDSARSVLDALIAAARRGVKVRVLIDQLSAISDLPILGALAGVHQNFELRIYNPTFGKAKLNYADYAGSVLCCFRRFNQRMHNKLLVIDDVVGMVGGRNYQDDYYDWDSEFNFRDRDVIVAGPEARAMGANFEAFWRAQRSVPVERLNDVGRLLLDQGVPVLPPDQFVRPERVRRVQAEAADQEFVRERFVDTALPVRKVQYVADLPQKHRREHSSQAVSTAPELDGLIAGAQKEVLLQTPYLVLSKPAQRIFRELRKRPQPPRIVVATNSLAGTDNPIVYALAYKYKRRNLRELGFNIYEYKPFPLDAPVDYAELVPQPLAGGAGSNSREHRVIGGSAVGNAVRGSSGSGGPRGSRRPGGSEVDRQVLRTETRPSFLGTRAVTRPLPVTRDGARMGLHAKSLVVDRRVGVIGTHNFDPRSENYNTEGAVVIDDPAFAEALAQSIERDISPANSWTVAPREKPPVVGGISYSVGKVSEALPVLDFWPWRYATNYEFKPGPDCPFPLKQQDPRFHQCYVAVGDFPEVNVGPKWLLVRMLTAFGAGLVPIL	PGPT0007730_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_GLYCEROPHOSPHOLIPID-CARDIOLIPIN_SYNTHASE_ACTIVITY,PGPT0007730-clsC|ymdC-K06132	NA	NA
BMS020_02809	429		COG2050	Putative esterase	ATGACGTTCCGCGCCCCGGTGTCCATCGACGACCTCAATGCCCTCAGTCGCGACACCTTGATCGAACACCTCGGCATCGTGTTCACCGCCGCCGGCGAAGACTGGGTGCAGGCGACGATGCCGGTCGATGCGCGCACCCGCCAGCCATACGGGCTGCTGCACGGCGGCGCCTCGGTGGTGCTGGCCGAGACCCTCGGCAGCAGCGCCGGCAACCTGTGTGTCGATCCGGCCACGCACATGTGCGTCGGGCTGGAGATCAACGCCAACCACCTGCGCGCGGCTACCGCCGGGCGGGTGACCGGCACCGCACGGGCGCTGCACGTCGGACGCAGTACCCAGGTCTGGGAGATCACGATCGAAGACGATGGCGGCCGCCGGGTCTGCGTGTCGCGGCTGACATTGGCGGTGGTGGCGAGGGCGCAACACTGA	MTFRAPVSIDDLNALSRDTLIEHLGIVFTAAGEDWVQATMPVDARTRQPYGLLHGGASVVLAETLGSSAGNLCVDPATHMCVGLEINANHLRAATAGRVTGTARALHVGRSTQVWEITIEDDGGRRVCVSRLTLAVVARAQH	PGPT0001845_1078	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0001845-menI|ydiI|ydiL|ydiI|ybdB-K19222	NA	NA
BMS020_02810	804			hypothetical protein	ATGAGCGAGTCATCCCTGCCCGCCACGCGCGACGCCGGCGGCATGCCGCGCGGGTTCCGCTACCTCTACCGCGTCCCCCTGCTGGCCCTGCACGTGCTGCTCGGCCTGCCGGTGACGATGCTGTGCATCGTGGTGCCGGCGCTGGCCGGGATCCGCCTCGGCCAGCACGACACCCTGGAGCAGTTCATGATCCGCTGGTGGCAGGGCACCCTGATGCGGATCTTCGGCTTCCGCCTGCGCCGCTTCGGCAGCCCGCTGCAGGGCGCCACGGTGTTCGTCGCCAACCATGTCAGCTGGGTCGACATCTCCGTGCTGCACAGCCAGCAGGTGATGGGCTTCGTCGCCAAGCGCGAGATCGCCGGCTGGCCGCTGGTCGGCTGGCTGGCGGCCAAGGGCCAGACCATCTTCCACCAGCGCGGCAGCACCGAGTCGCTCGGCGACGTGCTGCAGCAGATGCTGGAGCGGCTGCGTTCGGGCAAGTCAGTCGGCGTGTTCCCGGAAGGGCGCACCCGCGGCGGCGAGGAGGTCGGCCCGTTCCATGCGCGGATCTTCCAGGCCGGGGTCGAGGCGGAGGTGCCGGTGCAGCCGGTGGCGCTGCGCTACGGCGTGCGTGGCGCGGCGCAGACGGTGGTGGCGTTCGGGCCGCGCGAGAGCTTCTTCGCCAACTTCGTGCGCCTGCTCGGCGAGCCGGCGCGCGTGGCCGAGGTGCATTTCCTCGAACCGATCGCCGCCCACGACATCGAGGGCCGCCGGCGCATCGCCGAGACCTCGCGCGCGCGCATCGTCGCGGCGATGGAGTCCTGA	MSESSLPATRDAGGMPRGFRYLYRVPLLALHVLLGLPVTMLCIVVPALAGIRLGQHDTLEQFMIRWWQGTLMRIFGFRLRRFGSPLQGATVFVANHVSWVDISVLHSQQVMGFVAKREIAGWPLVGWLAAKGQTIFHQRGSTESLGDVLQQMLERLRSGKSVGVFPEGRTRGGEEVGPFHARIFQAGVEAEVPVQPVALRYGVRGAAQTVVAFGPRESFFANFVRLLGEPARVAEVHFLEPIAAHDIEGRRRIAETSRARIVAAMES	PGPT0024380_296	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655	NA	NA
BMS020_02811	984			hypothetical protein	ATGAACGCCGACGACTTCCACCCGCCGCGCTGGCTGCGCAACCCGCACGTGCAGTCGGTGCTGGGCTCCAGCGCGCTGCGCCGGCGCCACGGCGAGCGGATGCTGGCCGCGACCGGCGCGGTGACCACCGAGCACATCCTCGACGGCGGCGACGGTGTGCGCCTGCAGGGCTGGCTGAGCGTGCCGCCGGGGGCGCCGCCGCGCGGCACCGTGCTGCTGCTGCACGGCTGGGAAGGCAGTGCCGATTCCAACTACATGCGCATGACCGGCGCGCGCCTGCTCGGGCTCGGCTACCAGGTGTTCCGGTTGAATTTCCGCGACCACGGCGGCACCCACCACCTCAACGTCGACCTGTTCCACTCCGACCGCCTGGACGAAGTGGTCAATGCCGCCGGCGACCTGTGGCGGCGTTTCCCGGCGCCGCGGCTGCTGGCCGCCGGCTACTCGCTGGGTGGCAACTTCGCGCTGCGGCTGGCGCTGCGCGCGCCGGCGGCCGGACTGCCGCTGGAGCGGGTCGCCGCGGTGTGCCCGCTGCTCGACCCGGGCACGACGATGGAGCGGATCGAGCAGGGCCCGCAGTTCTACGACTGGTATTTCCGCCGCAAGTGGCGCGAGTCGCTGCTGCGCAAGCGCGCGCTGTTCCCGGAGCAGCATGGCTACGACGACGCCACGCTGGCGCTGGACATGCGCGGGCTGATGCGCTGGCTGGCCGAGCGCCATACCGGGCATGGTTCGCTGGAATCGTATTTCGACGCCTATTCGATCGCCGGCGAGCGCCTGGCCGGGCTGCAGCTGCCGGCCGACATCCTGATGGCCGAGGACGACCCGGTGATCCCGATCGAGGATTTCCAGTCGCTGCAGCTGCCGCCTGGGGCGCACCTGGAAGTGGCGCACTGGGGGGGCCATTGCGGGTTCCTGGAGAACGCCCGCGGCGATGGCTTCGCCGAGCGCTGGGTGGCCGAGCGGCTGGATCTGCCTGGCTGA	MNADDFHPPRWLRNPHVQSVLGSSALRRRHGERMLAATGAVTTEHILDGGDGVRLQGWLSVPPGAPPRGTVLLLHGWEGSADSNYMRMTGARLLGLGYQVFRLNFRDHGGTHHLNVDLFHSDRLDEVVNAAGDLWRRFPAPRLLAAGYSLGGNFALRLALRAPAAGLPLERVAAVCPLLDPGTTMERIEQGPQFYDWYFRRKWRESLLRKRALFPEQHGYDDATLALDMRGLMRWLAERHTGHGSLESYFDAYSIAGERLAGLQLPADILMAEDDPVIPIEDFQSLQLPPGAHLEVAHWGGHCGFLENARGDGFAERWVAERLDLPG				NA	NA	NA	NA	NA
BMS020_02812	2073	bepA_2		Beta-barrel assembly-enhancing protease	ATGCACGACAAGATCATCGAAGCCCTGCGCCGCGACGCGGCCGACGACGCCGTGGCGCTCGCGCGCGACTGGCTGGCCGCCGAGCCGCAGCAGGCGCAGGCCCACCGCTGGCTGGGCGTGGCGCTGCAGCAGCAGGGCGACGCCGCGGCCGCGCGCACGGCGATCGACGCCGCGATCGCGCTGGCGCCGGAAGACGCCGAGCTGCACCTGCTGCGCGCCGGCCTGCTGTTGGCCGGGCGCGAGCTGGACGCCGCCGCCGGTGCGCTGGCGCACAGCACCTCGCTCGATCCGAACCAGCTCGGCAGCTACCTGATGCAGGCCCACCTGGCCATCGCCCGCGGTGACGTCGATGCCGCCGAGCGCTTGACCCGTACCGCGGCGCGGGTCGCCCCGGAGCACCCGCAGGTGACCACGCTGGAGGGCATCGTCGCCCACCATCGCGGCGAGGTGGACCGCGCGCTGGCGCTGCTGTCGCGCGCCGCCGAGCAGATGCCCGACGACCCGCGCGTGCTGTTCGCGTTGGGCTTTGCCTACCTCGGCAAGCAGCACTACGCCTTCGCCGAGCGCGCCTTCCAGCGCGTGATCGAGCTGCACCCGCCGGGCATCCCGCTGCGTGCGCTGGTGGCGCAGCTGGCGCAGCGCCAGGGCCGCCTGGACGAAGCGCTGGAGATCCTCGACGCGGTGCTGGCCGATCCGGCCGGCGACACCCCGGCGATGCACCGCCTGGCCGGTGAGTTCGCGCTGCAGGCGGGGCGTCCGGCCGATGCGCTGCCGCACCTGAAGCAGGCGCTGGCGGTGCTGCCGGGCGACCGCCGCACGCTGCAGGCGCTGTTGGCGGCGTGGCAGCGCCTGGGCGCGGGCGACGATGCCCGCGACACGCTGGAGGCGGCGCTGGCCACCGGCGGCCGCGTCCACGACCTGTGGCTGGCGCGCCTGGCGATCGAGCCGATCGGCGGCGACGGCGCGCTGGACGTGGTCGAGCGCTGGCTGCTGGCGATGCCCGAGCACCTGCCGGCGCTGGAGACGCTGATGCGCATCCACGACATGCAGGGCAATGCCGAGGAGGCCGAAATGGCCGCGCGCCAGATCGTCGCGGTCGAGCCGGGCCGCCTCAGCGGCGAGCGTCGCATCGTCGAGGCGCTGCTGCAGCGCGACCCGCCGGCGGCGGTGGCCTGCGTGCAGGCGCTGATCGACACCATGCCCGAGCAGGAGCGCACCGTGCTGCGGCCGTGGCTGGGCCAGGTGCAGGATCGCGCCGGCCAGCGCCAGGCCGCGCTCGACACCTGGCTGGAATTCCACCGCGAGCAGGCCCCGCACCGCCTGCCGCTGCCGCCGCAGTCCGAGCCGGCGCCGCTGCAGTGGCCGCCGCTGGCCGAGATCGCCGATGAGGTGAAGGCGCGGCCGCTGTTCCTGTGGGGCGCGCCCGGCTCGCAGGTCGAGCGCATCGCCGCGGTCATGGGCGCCGCCTCGCCGGTGCTGCGCAACGACCGGTTCGGCACCGAGCCGCCGCAGGATGCGTTCCAGAACTACCGCACCGTGACCCGGCTCCCGGCCGGCGGGCTGTCCGCCGACGAGGTGGTCGGCAGCTGGAAGGCCGGCCTGGTCCCGCGCGGGGTCGGCAACGGCAACGTGATCGACTGGTTGCTGTGGTGGGACAACAGCCTGCTGCTGGCGCTGCGCCCGCTGCTGCCCGAGGGGCGCCTGGCGATCGCGCTGCGCGACCCGCGCGACATGCTGCTGGACTGGCTGGCCTACGGTGCGCCGATGCCGCTGGCGCTGGAATCGGCCGAGCAGGCCGCCGACTGGCTGGTGCGCATGCTCGAGCAGGTCGCGCTGCTGCAGGAGAAGAACCTCTACCCGCACCACGTGATCCGCCTGGATGGCATCGAGGCCGATCCGGCCGCCATCGCCGCGACGCTGGGCGAGACCTTCGGCCACGCGTTCCCGGTGCTGCCGGGCCTGGGGGGCGAACGCCTCGCCGCCGGCCGCTGGCGCGACTACGCCGCCGAACTGGCCGGCCCGTTCGCCACGCTGACCCCGGTCGCGATGCGCCTGGGGTATCCGTTCCAGTGA	MHDKIIEALRRDAADDAVALARDWLAAEPQQAQAHRWLGVALQQQGDAAAARTAIDAAIALAPEDAELHLLRAGLLLAGRELDAAAGALAHSTSLDPNQLGSYLMQAHLAIARGDVDAAERLTRTAARVAPEHPQVTTLEGIVAHHRGEVDRALALLSRAAEQMPDDPRVLFALGFAYLGKQHYAFAERAFQRVIELHPPGIPLRALVAQLAQRQGRLDEALEILDAVLADPAGDTPAMHRLAGEFALQAGRPADALPHLKQALAVLPGDRRTLQALLAAWQRLGAGDDARDTLEAALATGGRVHDLWLARLAIEPIGGDGALDVVERWLLAMPEHLPALETLMRIHDMQGNAEEAEMAARQIVAVEPGRLSGERRIVEALLQRDPPAAVACVQALIDTMPEQERTVLRPWLGQVQDRAGQRQAALDTWLEFHREQAPHRLPLPPQSEPAPLQWPPLAEIADEVKARPLFLWGAPGSQVERIAAVMGAASPVLRNDRFGTEPPQDAFQNYRTVTRLPAGGLSADEVVGSWKAGLVPRGVGNGNVIDWLLWWDNSLLLALRPLLPEGRLAIALRDPRDMLLDWLAYGAPMPLALESAEQAADWLVRMLEQVALLQEKNLYPHHVIRLDGIEADPAAIAATLGETFGHAFPVLPGLGGERLAAGRWRDYAAELAGPFATLTPVAMRLGYPFQ				NA	NA	NA	NA	NA
BMS020_02813	621			hypothetical protein	ATGCGCCTGAGCAGCCAGAGTTTCGACAACGGCCAGCCGATCCCGGCCGAGTTCGCCGCCGGCACGCCCGACGGCTTCGCGCCCAACCGCAACCCGCAGCTGGGCTGGGACGACGTGCCTGCCGGCACGCGCTCGTTCGCGCTGCTGTGCATCGATCCGGACGTGCCGACCGTGCCGGAGACGGTCGGTCGCACCGACCTGCAGATCCCGGTCGAGCAGCCGCGCACCGATTTCGTGCATTGGGTGATCGTCGACCTGCCGGCCGAGCTGCGCGCGCTCGCCGCCGGCAGCTGCAGCGATGGCTTCGTCGCCAAGGGCAAGCCGGCCCCGGCCGGTCCGGCCGGCGCGCGCCAGGGCGTGAACAGCTACACCGGCTGGTTCGCCGGCAACCCGGACATGGCCGGCGACTACCTCGGCTACGACGGTCCGTACCCGCCGTTCAACGACGCGCGCCTGCACCGCTATTTCTTCCGCCTGTTCGCGCTCGACGTGGCCACGCTGGAGGACCTGCCGGCGCGCTTCGAGGCGGCCGACGTGCTGCGCGCGATCCAGGGCCACGTGCTGGCCGAGGCGGCGATCCACGGCACCTATACGCTCAATCCGGCGCTGCGCGGCGGTTGA	MRLSSQSFDNGQPIPAEFAAGTPDGFAPNRNPQLGWDDVPAGTRSFALLCIDPDVPTVPETVGRTDLQIPVEQPRTDFVHWVIVDLPAELRALAAGSCSDGFVAKGKPAPAGPAGARQGVNSYTGWFAGNPDMAGDYLGYDGPYPPFNDARLHRYFFRLFALDVATLEDLPARFEAADVLRAIQGHVLAEAAIHGTYTLNPALRGG				NA	NA	NA	NA	NA
BMS020_02814	873			hypothetical protein	ATGCGCATCGCCGTCCCGTTGTTGGCCGCCGCGGCAGTGGCGGCCTGCTCGAATCCGTCGTCCGACCAGGCCACGCCACCCGGCGAGCTGCCGGCACAGCAGCAGCCCTCCGCGGCCGCGGCGACGGCGCCCCCCGCCGCGTCGGTGCCGGCCACCAGCGCTGCTGCCCCGGCAGCCGGCGCCGCCGCCGTGCTCGAAGGCGTGCACTGGCAGCTGGCCGCGGCCAGCGACGCCCGCGGCGCGCCGCTGAACGCGCTGCAGGTCGCCGGCCAGCCGCCGCTGCAGCTGGATTTCGCCGACGGTCGGCTGAGCGTCTCCCAGCTGTGCAACAGCATCATCGGCAGCTACAGCTTCGATGGCACCGAACTGGCGCTCGGGCGCATGACATCGACCCGCCGCGCCTGCATCGATCCGGCCCGGACCGCCCAGGAGCGCGCTGCGCAGGCACTGTTCAGTGGCCACTTCCGCGTCGGCGTGCAGCAGGCCGGGAACCAGCAGGCCTTGACCCTGGATCGCCATGACGGTGCCCGCGCCAGCTTCCGCGCCGCCGCCGCCGAGGCCGCCTATGCCGGCCCGGCCGAGACGCTGTTCCTGGAGGTCGCCGCGCAGGAGCAGCCCTGCAGCCACCCATTGAAGCCGCAGGCTCAGTGTCCACAGGTGCGCGAGCTGACCATCGGCAGCGACGGCCTGCGCCAGGGCGAAGCCGGGCCGTGGCGGCCGCTGTACGAGGCCATCGACGGCTATAGCCACCAGCCCGGCGTGCGCAACGTGCTGCGGGTCAAACGCTATACGCGCAGCGTCGTGCCGGCGGACGCGTCGCGCTACGCCTACGTGCTCGACCTGGTGGTGGAAACCGAGCAGGCACCGCGCTAG	MRIAVPLLAAAAVAACSNPSSDQATPPGELPAQQQPSAAAATAPPAASVPATSAAAPAAGAAAVLEGVHWQLAAASDARGAPLNALQVAGQPPLQLDFADGRLSVSQLCNSIIGSYSFDGTELALGRMTSTRRACIDPARTAQERAAQALFSGHFRVGVQQAGNQQALTLDRHDGARASFRAAAAEAAYAGPAETLFLEVAAQEQPCSHPLKPQAQCPQVRELTIGSDGLRQGEAGPWRPLYEAIDGYSHQPGVRNVLRVKRYTRSVVPADASRYAYVLDLVVETEQAPR				NA	NA	NA	NA	NA
BMS020_02815	792	uppP_2		Undecaprenyl-diphosphatase	ATGTCCGACCTGTTCTCCGCCCTGCTGCTGGGCATCCTCGAAGGCCTCACCGAATTCCTCCCCGTCTCCAGCACCGGCCACCTGCTGATCGCCGAACACTGGCTGGGCCGGCGCTCGGATTTCTTCAACATCGTGATCCAGGCCGGCGCGATCCTCGCCATCACCCTGGCCTACCGGCAGCGGCTGTGGACACTGGCCACCCACCTCGGCGAGCGCGACACCCGCGACTACGTGTCCAAGCTGATCGCCGCGTTCGCGACCACCTGCGTGGTCGGGCTGGTGGTGCGCAAGGCCGGCTGGGAACTGCCGGAAACGGTGCAGCCGGTGGCCTGGGCGCTGATCATCGGCGGCGTGTGGATGATGCTGGCCGAGCACTTCGCCGCGCGGCTGCCCGAACGCGCGGTGGTGACCTGGAAGGTGGCCATCGCGGTCGGCCTGGCGCAGGTGCTGGCCGGCGTGTTCCCCGGCACCTCGCGCTCGGCGACGACGATCTTCCTGGCGATGCTGCTGGGCCTGAGCAACCGCCCGGCCGCGGCCGAATTCGCCTTCCTGGTCGGCATCCCGACCATGTTCGCGGCCAGCGCCTATGCGCTGCTGGAGCTGTGGAAGGACGGCACGATGGGCCACGAGAACTTCCTAGACGTCGGCGTGGCGTTCGCCGCGGCGGTGGTCACCGGCTTCGCGGTGGTGAAGTGGCTGCTGGGCTACATCAAGTCGCACCGCTTCACCGTGTTCGCCTGGTACCGCATCGTACTCGGCGCGGCCCTGTTGCTGTGGCTGCCCGCCGCCTGA	MSDLFSALLLGILEGLTEFLPVSSTGHLLIAEHWLGRRSDFFNIVIQAGAILAITLAYRQRLWTLATHLGERDTRDYVSKLIAAFATTCVVGLVVRKAGWELPETVQPVAWALIIGGVWMMLAEHFAARLPERAVVTWKVAIAVGLAQVLAGVFPGTSRSATTIFLAMLLGLSNRPAAAEFAFLVGIPTMFAASAYALLELWKDGTMGHENFLDVGVAFAAAVVTGFAVVKWLLGYIKSHRFTVFAWYRIVLGAALLLWLPAA	PGPT0024165_4411	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153	NA	NA
BMS020_02816	1410	glnA_1	COG0174	Glutamine synthetase	ATGTCTGCGGAAAATGTTGAGAAGCTGATCAAGGACAACAAGGTCGAGTTCGTCGACCTGCGTTTTGTCGACATGCGTGGCGTGCAGCAGCACGTGACGTTCCCCGCCAGCATCGTCGAGCCCTCGCTGTTCGAAGACGGCAAGATGTTCGACGGGTCCTCGATCGCGGGCTGGAAGGGCATCAACGAGTCGGACATGGTGCTGCTGCCGGACGCGGACACCGCCTACCTCGATCCGTTCTACGCCGATCCGACCGTCGTGCTGACCTGCGACATCCTCGACCCGGCGACCATGCAGGCCTATGAGCGCGACCCGCGCGGCATCGCCAAGCGTGCCGAGGCCTACCTGAAGTCCTCCGGCATCGCCGACCAGGCCTTCTTCGGTCCGGAGCCGGAATTCTTCATCTTCGACTCGGTCCGCTTCGCCAATGAAATGGGCAACACCTTCTTCAAGATCGATTCGGAAGAAGCGGCGTGGAACACCGGCGCCAAGTTCGAAGGCGGCAACAGCGGCTACCGTCCGGGCGTGAAGGGCGGCTACTTCCCGGTTCCGCCGACCGATTCGCTGCACGACCTGCGTGCCGAGATGGTCAAGACCCTGGAGCAGGTCGGCATCGAGACCGAAGTGCACCACCACGAGGTCGCCACCGCCGGCCAGTGCGAGATCGGCACCAAGTTCAACTCGCTGGTCAAGAAGGCCGACGAGCTGCTGACCACCAAGTACGTGATCAAGAACGTCGCCTACCGCAACGGCAAGACCGCGACCTTCATGCCGAAGCCGATCGTCGGCGACAACGGCTCGGGCATGCACGTGCACCAGTCGCTGGCCAAGGGCGGCGACAACCTGTTCTCCGGCGACGGCTACGGCGGCCTGTCGCAGCTGGCGCTGTGGTACATCGGCGGCATCTTCAAGCACGCCAAGGCGATCAACGCCTTCGCCAACTCCGGCACCAACAGCTACAAGCGCCTGGTCCCGGGCTTCGAAGCGCCGGTGATGCTGGCCTACTCGGCCCGCAACCGTTCGGCCTCGTGCCGCATTCCGTGGGTGTCCAGCCCGAAGGCGCGCCGCATCGAGATGCGCTTCCCCGATCCGTTGCAGTCGGGCTACCTGACCTTCACCGCGCTGATGATGGCCGGCCTGGACGGCATCAAGAACCAGATCGACCCGGGCGCGCCGAGCGACAAGGACCTGTACGACCTGCCGCCGGAAGAAGAGAAGCTGATCCCGCAGGTCTGCTCCAGCCTCGACCAGGCGCTGGAAGCGCTGGACAAGGACCGCGAGTTCCTCAAGGCCGGCGGCGTGATGAGCGACGACTTCATCGATGGCTACATCGCGCTGAAGATGCAGGAGGTCACCAAGTTCCGCGCGGCGACCCACCCGCTCGAGTACCAGCTGTACTACGCCAACTGA	MSAENVEKLIKDNKVEFVDLRFVDMRGVQQHVTFPASIVEPSLFEDGKMFDGSSIAGWKGINESDMVLLPDADTAYLDPFYADPTVVLTCDILDPATMQAYERDPRGIAKRAEAYLKSSGIADQAFFGPEPEFFIFDSVRFANEMGNTFFKIDSEEAAWNTGAKFEGGNSGYRPGVKGGYFPVPPTDSLHDLRAEMVKTLEQVGIETEVHHHEVATAGQCEIGTKFNSLVKKADELLTTKYVIKNVAYRNGKTATFMPKPIVGDNGSGMHVHQSLAKGGDNLFSGDGYGGLSQLALWYIGGIFKHAKAINAFANSGTNSYKRLVPGFEAPVMLAYSARNRSASCRIPWVSSPKARRIEMRFPDPLQSGYLTFTALMMAGLDGIKNQIDPGAPSDKDLYDLPPEEEKLIPQVCSSLDQALEALDKDREFLKAGGVMSDDFIDGYIALKMQEVTKFRAATHPLEYQLYYAN	PGPT0000645_4165	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
BMS020_02817	339	glnB_1	COG0347	Nitrogen regulatory protein P-II	ATGAAACTGATCACCGCCATCATCCGGCCGTTCAAGCTCGACGAGGTGCGCGAAGCACTCTCGCAAGCGGGCGTGTCGGGCATCACCGTCACCGAGGTCAAGGGCTTCGGGCGGCAGAAGGGCCACACCGAGCTGTACCGCGGCGCCGAATACGTCGTCGACTTCCTGCCCAAGATCAAGATCGAGACGGTCGTGACCGACGAGCGCCTGGACGCCGTGGTCGAGGCGATCCAGACCGCGGCCGGCACCGGCAAGATCGGCGACGGCAAGATTTTCGTGACCGCGATCGAACAGGTCGTGCGCATCCGCACCGGCGAAATCGGCGCTGACGCCCTCTAA	MKLITAIIRPFKLDEVREALSQAGVSGITVTEVKGFGRQKGHTELYRGAEYVVDFLPKIKIETVVTDERLDAVVEAIQTAAGTGKIGDGKIFVTAIEQVVRIRTGEIGADAL	PGPT0000650_1333	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000650-glnB|glnY-K04751	NA	NA
BMS020_02818	1458	amtB_1		Ammonia channel	ATGAAGACTGGTCTTTTCTCCGGGTGGAAGACCCGGTTCTACACCGTGAGCATGCTGATGCTGCTCAGCGCGCTGGCCGTGCTCGGCAGCGCCAACACTGCCCATGCCCAGGATGCCGGCACGCAGACCGCACCGGCACCGACCGAGCAGGTCGCCACCGAGCCGCTGGCCGATGCGGCCGCCGCCGCGCCTGCAGCGGCTCCGGCCGAGCCGGCCGAAGCCGAGCCGATCGTCGACAAGGGCGACGTGGCCTGGATGCTCACCTCCACGCTGCTGGTGCTGATGATGGTGGTACCTGGCCTGGCGCTGTTCTACGGCGGCATGGTCCGCGCCAAGAACGTGCTGTCGGTGCTGATCCAGGTGGCGGTGGTGTTCTCGCTGATCTCGATCCTGTGGGTGTTCTACGGCTACAGCCTGGCGTTCTCGGGCGAGGGGCCGTGGATCGGCAACCTCGACAAGGCGCTGCTGAAGGGCGTGGACATCACCACGCTGGCAGCCACCTTCACCAAGGGCGTGAGCCTGCCTGAGTACGTGTTCGTCGGCTTCCAGTGCACCTTCGCCGGCATCACCGGCGCGCTGATCGTCGGCGCCTTCGCCGAACGCGCCAAGTTCGCCGCAGTGCTGCTGTTCTCGGTGATCTGGTTCACCTTCGGCTACCTGCCGCTGGCGCACATGGTCTGGGCCACCGGCGGCTACCTGTTCGACAAGGGCGCGCTGGACTTCGCCGGCGGCACCGTGGTGCACATCAATGCCGGTATCGCCGGCCTGGTCGGTGCCTACTTCGTCGGCAAGCGCACCGGCTTCGGCCGTGAGGCGATCAAGCCGCACAACGTGACCCTGACCTTCGTCGGCGCTGCGCTGCTGTGGGTGGGCTGGTTCGGCTTCAACGCCGGCTCCAACCTGGAAGCCACCGCCGGTGCTGCGCTGGCGTTCCTCAACACCCTGCTGGCCACCGCCGCCGCGGTGCTGGGCTGGTCGCTGACCGAGAAGGTCATCAAGGGCAAGTCCTCGGCGCTGGGCGTGGCCTCGGGCATGGTCGCCGGCCTGGTCGGCATCACCCCGGCCTGCGGCACCGTCGGTCCGTTCGGCGCGATCGTCATCGGCCTGGCCTGCGGCGTGCTGTGCGTGTGGGGCGTCACCGGCCTGAAGCGCCTGCTCGGCGCCGACGACAGCCTGGACGTGTTCGGCGTGCATGGCCTGGGCGGCATCATCGGCGCGCTGCTGACCGGCGTGTTCTCGGCGGCCTCGCTGGGCGGCCAGAAGGGCGAGGGCTACGACATCGCCAGCCAGGTCGGCATCCAGGCGCTGGGCGTGGGCATCACCGTGGTGTGGATCGGCATCGTCTCGGTGGTCGCGTTCCTGATCGCCAAGCTGGTGTTCGGCCTGCGCGTGCCGGAGGAAGCCGAGCGCATCGGTCTGGATATCACCTCGCACGGCGAATCGGCCTACGAGTCGTAA	MKTGLFSGWKTRFYTVSMLMLLSALAVLGSANTAHAQDAGTQTAPAPTEQVATEPLADAAAAAPAAAPAEPAEAEPIVDKGDVAWMLTSTLLVLMMVVPGLALFYGGMVRAKNVLSVLIQVAVVFSLISILWVFYGYSLAFSGEGPWIGNLDKALLKGVDITTLAATFTKGVSLPEYVFVGFQCTFAGITGALIVGAFAERAKFAAVLLFSVIWFTFGYLPLAHMVWATGGYLFDKGALDFAGGTVVHINAGIAGLVGAYFVGKRTGFGREAIKPHNVTLTFVGAALLWVGWFGFNAGSNLEATAGAALAFLNTLLATAAAVLGWSLTEKVIKGKSSALGVASGMVAGLVGITPACGTVGPFGAIVIGLACGVLCVWGVTGLKRLLGADDSLDVFGVHGLGGIIGALLTGVFSAASLGGQKGEGYDIASQVGIQALGVGITVVWIGIVSVVAFLIAKLVFGLRVPEEAERIGLDITSHGESAYES	PGPT0000840_2090	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320	NA	NA
BMS020_02819	1053	glnL_1	COG3852	Sensory histidine kinase/phosphatase NtrB	ATGCGCATGACCTCGCTGCCGTCCCTCGAAACCCTCGGCACGCCGGTCGCTTGGACCGACCGTGATGGCCGCGTGCTCGGCGTCAATCCCGCGTTCGCACGCTGGCTGGGGGTCAGCCAGCGCCGCCTGCAGGACCAGCCACTGGCCGCGCTGGAGGTGCAGGGCGATGCGCTGGCGCGGTTCCTGCTCAACGACGACCGCGACGTGCTGCGCCTGCATCGGCTGGCGGTCGGCCTGCCCGGCGAGGCGCCGCGCTTCGCCGAGGGCTGGCTATCGCGGCTGGACGATGGCGGCTGGCTGCTGGAGGCCCATCCGGTCGATGAATTCCCGGCGCCGGACCCGACCCACGCGCTGCCCAACGCGCTCAGCGCGGCGTTGAAAGGGCTGGCCCACGAGCTGCGCAATCCGCTGGCCGGGCTCAAGGGCGCCGCGCAGCTGCTGGCGCGGCGTTCGGCCGGCCGCGACGACGACGAGCGCGAGCTGATCGAGCTGATCGGCGCGGAGATCGAACGCCTCAACACCCTGCTCGAACGGCTGCTGTCGCCGTCGCCGCTGCGCCCGCACGAACCGCTGAACATCCATGCCGTGCTCGAACGCGTGTTGCGCCTGGCCGAGACCGAGGGCGGCTGGACGGTGCGGCTGCAGCGCGACTACGACCCCAGCATCCCCGACATGCCCGGCGACGCCGACCGCTTGACCCAGGCGGTGTGGAACCTGGTGCGCAACGCGTTCCAGGCCGGCGCGACCACGATCACGCTGCGCACCCGGGTCGAGCACGGCCTGCGCATCCGCGAACGCGTGCACGCGATGTCGTTGCGGCTGGAGATCGTCGATGACGGCGGCGGCGTGCCGGAAGAGCTGGCCGAACACCTGTTCCTGCCGCTGGTCAGCGGCCGTGCCGAGGGCAGCGGCCTGGGCCTGGCGCTGGCGCAGCAGGTCGCGCGCGAACACCACGGCACGCTGACCTTCCGCTCGCGACCCGGGCATACCGTTTTCACCCTGTTGCTGCCGCAGCTGCCGCTGGAACAGGGCAAGGAGTCCATGCATGGCTGA	MRMTSLPSLETLGTPVAWTDRDGRVLGVNPAFARWLGVSQRRLQDQPLAALEVQGDALARFLLNDDRDVLRLHRLAVGLPGEAPRFAEGWLSRLDDGGWLLEAHPVDEFPAPDPTHALPNALSAALKGLAHELRNPLAGLKGAAQLLARRSAGRDDDERELIELIGAEIERLNTLLERLLSPSPLRPHEPLNIHAVLERVLRLAETEGGWTVRLQRDYDPSIPDMPGDADRLTQAVWNLVRNAFQAGATTITLRTRVEHGLRIRERVHAMSLRLEIVDDGGGVPEELAEHLFLPLVSGRAEGSGLGLALAQQVAREHHGTLTFRSRPGHTVFTLLLPQLPLEQGKESMHG	PGPT0000680_1308	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000680-ntrB|glnL-K07708	NA	NA
BMS020_02820	1428	glnG	COG2204	DNA-binding transcriptional regulator NtrC	ATGGCTGAGCTTGATCCGAACGCGCAGCGCATCTGGGTCGTCGACGACGACCGTTCGGTGCGCTTCGTGCTGTCCACCGCGCTGCGCGACGCCGGCTACTCGGTCGACGGCTTCGACAGCGCGGCCGCCGCACTGCAGGCGCTGGCGGTGCGGCCGGTGCCGGACCTGCTGTTCACCGATGTGCGCATGCCCGGCGACGACGGGTTGGTACTGCTGGACAAGCTCAAGTCGCGCCATCCGCAGCTACCGGTGATCGTGATGTCGGCTTACACCGACGTGGCCAGCACCGCCGGCGCGTTCCGCGGCGGCGCGCACGAATTCCTGTCCAAGCCGTTCGACCTCGACGACGCGGTGGCGCTGGCCGCGCGCGCGTTGCCGGTGGCCGGCGACGCGGTCGAGCATGCCGGCACGCCGCCGGCCGAGGGCGACACCCAGCTGATCGGCGATTCGCCGGCGATGCGCGCGCTGTTCCGCACCATCGGCCGCCTGGCGCAGGCGCCGCTGTCGGTGCTGATCAACGGCGAGACCGGCACCGGCAAGGAGCTGGTGGCGCGTGCGCTGCACAACGAGTCGCCGCGCGCACGCAAGCCGTTCGTCGCGCTCAACACTGCGGCGATCCCGGCCGAGCTGCTGGAAAGCGAACTGTTCGGCCACGAGGCCGGCGCGTTCACCGGTGCGACCAAACGTCATGTCGGGCGCTTCGAGCAGGCCGATGGCGGCACGCTGTTCCTCGACGAGATCGGCGACATGCCGTTGCCGCTGCAGACGCGGCTGCTGCGGGTGCTGGCCGAGAACGAATTCTTCCGCGTCGGCGGGCGCGAGCTGATCCGCGTCGACGTGCGGGTGATCGCCGCGACCCACCAGGACCTGGAGGCGCTGGTCGAGGCCGGGCGCTTCCGCGCCGACCTGCTGCACCGCCTCGACGTGGTGCGCCTGCAGCTGCCGCCGCTGCGCGAGCGCCGCGGCGACATCGCCCAGCTCGCCGAGAACTTCCTGGCGATGGCCGCGCGCAAGCTCGACATGCCGCCCAAGCGGCTGTCGGCGAGCGCGCTGGAGGCGCTGCGCCGCCACGATTGGCCCGGCAACGTGCGCGAGCTGGAGAACATGTGCTGGCGGCTGGCGGCGCTGGCCACCGCCGACATGATCGACGCCACCGATGTCGATGGCGCGCTGGCGCGCAACCGCCGCGCGGCGCGCCCGGCCGCCGACGACGGCGAGTGGGACGTGCTGCTGGCGCGCTGGGCCGAGCAGCGGCTCGGCGATGGTGCGCAGGGGCTGCATGCCGAAGCGCGCGAACGCTTCGACAAGGCGCTGCTGGAAGTGGCGCTGCAGTTCACCCAGGGGCGCCGCGCCGAAGCCGCCGCGCGCCTGGGCGTGGGCCGCAACACGGTGACGCGCAAGCTCGGGCCGGGGCGCCGGCGGCGCTGA	MAELDPNAQRIWVVDDDRSVRFVLSTALRDAGYSVDGFDSAAAALQALAVRPVPDLLFTDVRMPGDDGLVLLDKLKSRHPQLPVIVMSAYTDVASTAGAFRGGAHEFLSKPFDLDDAVALAARALPVAGDAVEHAGTPPAEGDTQLIGDSPAMRALFRTIGRLAQAPLSVLINGETGTGKELVARALHNESPRARKPFVALNTAAIPAELLESELFGHEAGAFTGATKRHVGRFEQADGGTLFLDEIGDMPLPLQTRLLRVLAENEFFRVGGRELIRVDVRVIAATHQDLEALVEAGRFRADLLHRLDVVRLQLPPLRERRGDIAQLAENFLAMAARKLDMPPKRLSASALEALRRHDWPGNVRELENMCWRLAALATADMIDATDVDGALARNRRAARPAADDGEWDVLLARWAEQRLGDGAQGLHAEARERFDKALLEVALQFTQGRRAEAAARLGVGRNTVTRKLGPGRRRR	PGPT0000685_899	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000685-ntrC|glnG-K07712	NA	NA
BMS020_02821	561	yojM	COG2032	Superoxide dismutase-like protein YojM	ATGCGCATGATGCGAGCCGCTGTCCCGTTGTCGCTGCTGTTGCTGGCCGCCTGCGCCAGCGCGCCGCCGCCACCACCGCCGACCCCGCCGCCGCCGGTGTCGACGCTGGCCAAGGCCGAAGCCGTGCTGGCCTCGGCGTCCGGCAGCCTGGTCAGCGGTCGCGTGGTGCTGCTTCCGGCGCCGGGCGGCGTGCGCCTGAGCGGCACCATCGGCGGCCTGCGTGCGGCCGGCAGCTTCGGCTTCCATCTGCACGAGCGCGGCGACTGCAGCGCGGTCGACGCCAGCAGTGCCGGCGGCCACTTCAATCCCGCTGGCGCCCCCCATGGCCGCACCGGCGGCGCCCCGCACCACCTCGGCGACATGGACAACCTGGTCGCCGACGGCGATGGCGTGGTCCAGCTCGACCTGCTGCTGCCGGGCGTGACCCTCGGCGGCGGTGCCGGCAACGACATCCTCGGCAGGGCGCTGGTCGTCCATGCCGCCCCCGACGACTACCGCAGCCAGCCGGCCGGCAATGCCGGCGCGCGCCTGGCCTGCGGGGTCATCCGCGCCGCCCGTTGA	MRMMRAAVPLSLLLLAACASAPPPPPPTPPPPVSTLAKAEAVLASASGSLVSGRVVLLPAPGGVRLSGTIGGLRAAGSFGFHLHERGDCSAVDASSAGGHFNPAGAPHGRTGGAPHHLGDMDNLVADGDGVVQLDLLLPGVTLGGGAGNDILGRALVVHAAPDDYRSQPAGNAGARLACGVIRAAR	PGPT0013181_911	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0013181-sodC|sod1-K04565	NA	NA
BMS020_02822	642			hypothetical protein	ATGCGCTTGATCCCGACCACCCTCGTCATCGCCACCGCTCTGGCCCTCGGCGCCTGCAAGCGCGAGGAACCCGCACCGGCGGCGCCGGCCGAGGCCCCGGCGGCCGCCCACACCGGCCATGCGCCCGACGCGCCGCCGCCGATGGGTACCGACCTGCCGCCGCCGGCCAGCGCCAGCGCCGCGCTCAAGCCGACCGAAGGCAGCAGCGTCAGCGGCCAGGTCAGCTTCAGCGTGGTGGACGGCGTGCTGCGCGCGCACGGCCAGCTCAGCGGCCTCAAGCCGGGCAGCGAGCACGGCTTCCACATCCACGAGAAGGGCGACTGCAGCGCGCCGGACGGTTCCAGCGCCGGCGGCCACTTCAATCCGGGCCAGAGCGCGCACGGCAACGTCGCCCAGGATCCGCACCATGGCGGCGACATGCCGAACATCGTCGCCGACGCGCAGGGCAACGCGAGCGTCGACGGCCCGGTGTCGAGCAACGTGAATCTCGGCAAGGGCGATGCGTTCGACATCGCCGGCCATGCGCTGATCGTGCATGCCGATCCGGATGACTACACCAGCCAGCCGACCGGCAACGCCGGCGCGCGCCTGGCCTGCGGCGTGATCACCACCGACAACGCACCGGCGCCGCAGGCGCACTGA	MRLIPTTLVIATALALGACKREEPAPAAPAEAPAAAHTGHAPDAPPPMGTDLPPPASASAALKPTEGSSVSGQVSFSVVDGVLRAHGQLSGLKPGSEHGFHIHEKGDCSAPDGSSAGGHFNPGQSAHGNVAQDPHHGGDMPNIVADAQGNASVDGPVSSNVNLGKGDAFDIAGHALIVHADPDDYTSQPTGNAGARLACGVITTDNAPAPQAH	PGPT0013181_455	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0013181-sodC|sod1-K04565	NA	NA
BMS020_02823	885			hypothetical protein	ATGAGCACCCAAGATCTCGGCACCACCACCCTCGGCGTACTGGCATTGGAACTGACCGGCGGCGCCGCGCCGACCGTCGCCGCGCTATCGCCACAGCAGGCCGGCGAGCTGGCCGAACGCGCCGGGCGCGACCTGACGCAGTGGGTGCCGGAGGTGACCACGCTGGACTTCGTGTTCGCCGCGGCGCATTTCGATCCCGCCGAGGTGCTGCGCCCGGGCTGGGCAGTGCACCGGCGGCTGGACGAACTGCTGGCACGCGCGCCGGGCCGCGACCAGGGCCCGCGCATGCTGGCCTTCGGCGCCGATGCCGCCGGCGAGGTGCCGATGCCGTTCCAGGCCGATGCGGCGCTGACCGGCGGTGGCCTGCGGGTGCTGCCGTTCCTGCTGTCCGGTTCGCCGGAGGTAGTGGCGCGGGTTGGCGCGGCGCTGGAAGAGGTGCTGCTGGCGCAGGGCATGGCCCAGCCCGGGACCGCGCTGCTGGCGCAGGAAGCATTCGGCGCCCGCGTCGAGCATGCCCGCTACCTGACCGTGCACGACCTCGCCGCGATGATGTCGATGCAGTACGACAACCAGGGCCTGGGCGTGCTGTGGCCGCTGATCGAAGCGGCGCTGCTGGCACCGCACAGCGAGGAGTGGCTGGACAGCCCACCGGAGCCGCTGCTGCGCTACGCCGGCGGCGAGGTGCGCATGGCACTGTTCGACCCGGCCGGCTGGTGTGCGCATTACGTGCAGGACCGCAACGACTGCGAACGCCTGCGCGGCGTCTACGAGCAGTTCCTGTCGCGCCAGCGGCAGATGGCCGCGGTGCTGGAAGCGCACGGCCTGCCGGTGCTGTACGTGCACATCGAACCCGGCCAGGACGCGCGCGCAGCGCTGGCTGGCTGA	MSTQDLGTTTLGVLALELTGGAAPTVAALSPQQAGELAERAGRDLTQWVPEVTTLDFVFAAAHFDPAEVLRPGWAVHRRLDELLARAPGRDQGPRMLAFGADAAGEVPMPFQADAALTGGGLRVLPFLLSGSPEVVARVGAALEEVLLAQGMAQPGTALLAQEAFGARVEHARYLTVHDLAAMMSMQYDNQGLGVLWPLIEAALLAPHSEEWLDSPPEPLLRYAGGEVRMALFDPAGWCAHYVQDRNDCERLRGVYEQFLSRQRQMAAVLEAHGLPVLYVHIEPGQDARAALAG				NA	NA	NA	NA	NA
BMS020_02824	1296	fadI_2	COG0183	3-ketoacyl-CoA thiolase FadI	ATGCCAGGTCCTGCGCAGTCCGCTCCCCGCCCCGTCGCCATCCTCGGCGGCGTCCGCATCCCGTTCTGCCGGCAGAACACCGCGTATTCCGATGTCGGCAACCTCGGCATGTCGGTGCGCACGCTGGGTGCGCTGGTGGAGCGCTTCGGCCTGCACGGCCAGCAGCTTGGCGAAGTGGCGATGGGCGCGGTGATCAAGCATTCCTCGGACTGGAACCTGGCGCGCGAGGCCGCGCTGTCCTCCGGACTGTCGCCGCTGACCCCGGGCATCACCCTGCAGCGCGCCTGCGGCACCTCGCTGGACACGATCATCCACATCGCCAACAAGATCGCGCTGGGCCAGATCGATTCGGGCATCGGCGGCGGCTCGGACACCACCTCCGACGTGCCGATCGTCTACGGCAAGAAGCTGCGCGCGCGCCTGCTCGCCGCCAACCGCGCCAAGAGCACCGGCGACAAGATCAAGGCGATCCTGTCCGGTTTCCGCCTGTCCGAGCTGAAGCCGGAGTTCCCCGGCGTGGCCGAGCCGCGCACCGGCAAGAGCATGGGCGACCACTGCGAGGACATGGCCAAGGAGTGGAACATCTCGCGCGACTCGCAGGACGAGTGGGCGGTGTCCTCGCACAAGAAGCTGGCCGCGGCCTACGAGAGCGGCTTCTTCGACGACCTTGTGGCGCCGTTCCGCGGCGTCTCGCGCGACAACATCCTGCGAGCGGATACCTCGCTGGAAAAGCTGGCCACGCTGAAGCCGGCGTTCGACAAGGTGTCCGGGCGCGGCACGCTGACCGCGGCCAACTCCACCCCGCTGACCGATGGCGCCGCGGCGGTGCTGCTGGGCAGCGAGGAGTGGGCGGCCCAGCACGGCCTCGAGGTGCAGGCCTACCTGCGCGATGCGCAGGTCGCCGCGGTCGATTTCGTCCACGGCGAGGGCCTGCTGATGGCGCCGACCGTGGCGGTGCCGGAGATGCTCAAGCGCCAGGGCCTGACCCTGCAGGACTTCGACATCTACGAGATCCACGAGGCCTTCGCCGCGCAGGTGCTGTGCACGCTGCGGGCCTGGGAGAGCGAGGACTACTGCCGCAACCGGCTGGGGCTGGAGGCGCCGCTGGGACGCATCGATCCGGCCAAGATCAACCCGCTGGGCTCGTCGCTGGCCACCGGCCACCCGTTCGCGGCGACCGGCGCGCGCGTGGTCGCCACCGTCGCCAAGGAACTGAAGCAGCGCGGTGGCGGCCGCGCGCTGGTGTCGATCTGCACCGCCGGCGGCATGGGCGTGGTGGCGATCATCGAACGCTGA	MPGPAQSAPRPVAILGGVRIPFCRQNTAYSDVGNLGMSVRTLGALVERFGLHGQQLGEVAMGAVIKHSSDWNLAREAALSSGLSPLTPGITLQRACGTSLDTIIHIANKIALGQIDSGIGGGSDTTSDVPIVYGKKLRARLLAANRAKSTGDKIKAILSGFRLSELKPEFPGVAEPRTGKSMGDHCEDMAKEWNISRDSQDEWAVSSHKKLAAAYESGFFDDLVAPFRGVSRDNILRADTSLEKLATLKPAFDKVSGRGTLTAANSTPLTDGAAAVLLGSEEWAAQHGLEVQAYLRDAQVAAVDFVHGEGLLMAPTVAVPEMLKRQGLTLQDFDIYEIHEAFAAQVLCTLRAWESEDYCRNRLGLEAPLGRIDPAKINPLGSSLATGHPFAATGARVVATVAKELKQRGGGRALVSICTAGGMGVVAIIER	PGPT0008320_1433	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
BMS020_02825	1155	yhhS_2		putative MFS-type transporter YhhS	ATGCGCGTGCTCGGCATCGTGGCCTTCAACTTCGTCGCCTACTTCTGCGTCGGCCTGCCGCTGGCGGTGGTGCCGCACCAGGTCCATGTCGGGCTCGGCTACGGCACCGTGCTGGCCGGACTGGCGGTGAGCCTGCAGTACGTGGCCACCCTGGCCACGCGCGCCAGCGCCGGGCGGTTGTGCGACCAGCGCGGTCCGCGCAGCTCGGTGCTGTACGGGCTGGCGATCTGCGCCGGCAGCGGCGTGCTGCTGCTGGCCGCGGCGCTGGCCAGCGCGCATGCGCCGCTGAGCCTGGCGCTGTTGCTGGCCAGCCGCTTGCTGCTCGGTGCCGGCGAGAGCCTGGTCACCACCGCGACGATCATGTGGGGCATCGGCGCGCTCGGCAGCGGCCACACCGGCAAGGTGATCTCCTGGAACGGCGTGACCACCTACGCGGCGTTGGCCGCGGCGGCGCCGGTCGGGGTGTGGCTGGCCGACAGCGCCGGCTTCGCCAGTCTCGGCGGGGCCACCGTGCTGCTGGCGCTGCCGGCGTGGTGGCTGGCCTGGCGCCGCCAGGGCGTGCGTCCGATCGCCGGCAGCCGGATTCCCGCGCGCCAGGTGCTGGCGCGGATGCTGCCGTTCGGCGCCTGCCTGGGCCTGGCTTCGATCGGCTTCGGCGCGATCACCGCGTTCATCGCGCTGTACTACGCCGATCGCGGTTGGGGCGGCCCGGCACTGGCGATCAGCCTGCTCGGCGCGACCTTCGTCGCGACCCGGCTGCTGCTGCCGAACGCGATCGCCCGTTTCGGCGGCTTCAATGTCGCCTTCGCCTCGCTGGCGGTGGAAGCGCTGGGGCTGCTGACGATCTGGTCGGCGGCGGCGCCCGGTTGGGCGGCGCTGGGCGCGGCGGTGACCGGCTGCGGCTTCGCGCTGGTGTTCCCGTCGCTGGGGATCGAGGCGGTGCGCCGGGTCAGCGACAGCAACCGTGGCACCGCGCTGGGCATTTACTCGCTGTTCCTGGACCTGGCGCTGGCGATCACCGGTCCGCTGGCCGGCTGGCTGGCGCACCGCGCCGGCTTCGGCACGATCTACCTGGTCGCCGGCCTGGCCGCCACCTGCGCCGCGGTGGCGAGCCTGGCGCTGGCGCGTGTCGCCGCCGCCGACCGCGCCGGCTGA	MRVLGIVAFNFVAYFCVGLPLAVVPHQVHVGLGYGTVLAGLAVSLQYVATLATRASAGRLCDQRGPRSSVLYGLAICAGSGVLLLAAALASAHAPLSLALLLASRLLLGAGESLVTTATIMWGIGALGSGHTGKVISWNGVTTYAALAAAAPVGVWLADSAGFASLGGATVLLALPAWWLAWRRQGVRPIAGSRIPARQVLARMLPFGACLGLASIGFGAITAFIALYYADRGWGGPALAISLLGATFVATRLLLPNAIARFGGFNVAFASLAVEALGLLTIWSAAAPGWAALGAAVTGCGFALVFPSLGIEAVRRVSDSNRGTALGIYSLFLDLALAITGPLAGWLAHRAGFGTIYLVAGLAATCAAVASLALARVAAADRAG				NA	NA	NA	NA	NA
BMS020_02826	1263			hypothetical protein	ATGAAAGCTCTCCGCAGCCTGGTGATCCTGCTGCTGGCGGTCGCGCTCGGCGTGGCCGCCGCGCAATGGCTCTCGCACCAGACCAGCTACGATCTCGGCGAAGTCATCGTCCGCGCCGGCGGCAACGACTACGTGACCTCCGGCCCGCAGGCGCTGCTGCTGCTGGTCATCGCGCTGCTGCTGCTGTGGCTGGCATGGGCGCTGTTGAGCCTGCCGTTCCGCACCTGGGGCCGCTACCGCCGCAAGAAGGGCCGCGCGCGCCTGATCGAAGGCCTGCGCGCGGCCGACCACGGCCAATGGAGCCGCGCCGAGAAGCTGCTGGCGGCGGCCGGCGAGGACGCCGAGGTGGCCGCGATCGCGCTGGCCGCGGCGATCCGCGTCGCCGATGCCCGCGGCGACGCCGATGCGGCGGTGGAGCTGGGGCGGCAACTGGCCGAACGCGATCCGGCCGCGCACGCACTGCTGCAGGCCGAGCGCCTGCTCGCGCAGGAGCGCCCGGTCGATGCGATCAACGCACTCGACGTCGCCGCGGCGCAGCCACTGCCGCCGCGCGGGCTGCTGATGCGCACCCACGCCCTGGCGCGGATCGGGCGGGCCGAGGAGGCCTACGGCCAGCTCGGCGCGCTGCGCCAACAGCAGATCCTCGCCGGCGGCCCGCTGGCGGCGCTGGAGGTGCAGCTGGCCGAGCAGGCGCTGCTGCAGGCGGCCGATGCCAATGCGCTGGCCGAACGCTGGGAAAGCATTCCCAAGGCGCTGCGGACCACCCCGGCGGTGGTCGCCGCCTATGCCGGCCGCGCCGCCGCGCTGCGTTGGGACGATGCCGCGCTGCGCAGCCTCGAACAGGCGCTGGACGCACAGTGGGACGAGCCGCTGGCGCGCCAGTACGGCGCGCTGCCATTGGAAAAGTACGATTCGCGCCGCGCCAGCGCGCAACGCTGGCTGGCCCAGCATCCGGACAGTCCCGGGCTGCTGCTGACCCTGGCGCGGCTGGCGCGCCACCAGCAGCAGTGGGGGCAGGCGCAGGAATTCCTGCATCGCGCCCTCGCCCAGGGCGCCGGTGCCGAGGCGTGGGAAGAACTCGGCCACGGCTTCGCCGCCGCGGGCGATGCCGCCAGCGCCGAGCAGTGCTACGCCAACGCGCTGCGTGCCACCCGCGGCGAGGCGACCAGCGCGCTGGCGCTGCGCGACGCCCGCGAACAGATCGCCGACCAGGCCGTGGCCGAGGAACGCGACGCCTTCGGCATGCCGCGCCTGCGCGGCTGA	MKALRSLVILLLAVALGVAAAQWLSHQTSYDLGEVIVRAGGNDYVTSGPQALLLLVIALLLLWLAWALLSLPFRTWGRYRRKKGRARLIEGLRAADHGQWSRAEKLLAAAGEDAEVAAIALAAAIRVADARGDADAAVELGRQLAERDPAAHALLQAERLLAQERPVDAINALDVAAAQPLPPRGLLMRTHALARIGRAEEAYGQLGALRQQQILAGGPLAALEVQLAEQALLQAADANALAERWESIPKALRTTPAVVAAYAGRAAALRWDDAALRSLEQALDAQWDEPLARQYGALPLEKYDSRRASAQRWLAQHPDSPGLLLTLARLARHQQQWGQAQEFLHRALAQGAGAEAWEELGHGFAAAGDAASAEQCYANALRATRGEATSALALRDAREQIADQAVAEERDAFGMPRLRG				NA	NA	NA	NA	NA
BMS020_02827	978			hypothetical protein	ATGAACGACCTCCCCGCCCCTTCGCGCCGCCTGCGCTGGACCTGGATCGTCCTGGCCCTGGCCGTGGCCGCGCTGGTGGCAGGCGGTGTGCTCGGCTGGCACTGGTGGCGCGGCCACCAGGCCGAACGCGAACAGGCCGCTGGCGAGGAACTGCAGCGCTGGGACGCGATCGAGCGCAACCTGGACACACTGCGCCGCGACCAGCGCGCGGCCAACCAGCGCCTGCAGGACGCGCAGGCGACCAACCGGGTCCTGCGCGACGAGGTGCTGGGGCTGGGCCAGCGCGGCGCGCTGCTGGAGGAAACCGTCGCCAAGCTCGCCGACCCCAACCGCCATGGCGCCCAGGCGCTGCGGCTGGATGAAGTGGAGCTGCTGCTCGAACTCGGCCAGCAGCGGCTGGCGATCGCCGGCGACCTGGACGGCGCGCGCCGCGCCTATGCGCTCGCCGCCGGCGCGCTGGACGGCATCGACGACCCCGGCTACCTCAACCTGCGCCAGGCACTGGTGCAGGAGCGCAACGCGCTCGATGCCCTCGGCAAGGGCCCGCAGGACGCGCTGGCCAACGACCTCGACCGCGTCGCCGACGCGCTGGCCACGCTGCCGCTGCAACCGGAAGACGCCGCCGGCGACGTGCGCCCGTGGTGGCAGAAGCTGCTGGCGCCGCTGGTGCAAGTGCGGCCTTCGCACGGCAACGTGCTGGTGGCGCAGTCCGAGCGCATCGGCGCCAAGGATTCGCTGCAGATCGAACTGAGCCTGGCCCGTGCCGCGCTGGAGCGCAACGACCCGGGCGCCTGGCGCCAGGCGATCCGCCGCGTCGATGCCTGGCTGGTGCGGCTGTGGCCCGATTCGCCGGCGCTGCGCGCGCGCCGCGCCGAACTGGCCACGCTGAAGCAGGCCCCGCTGCGGCCGGCACTGCCCGAACTGGGCAGCACGCTGCAGCAACTGCGCGCGATGCGCGAAGGGAGGAACAGCCCATGA	MNDLPAPSRRLRWTWIVLALAVAALVAGGVLGWHWWRGHQAEREQAAGEELQRWDAIERNLDTLRRDQRAANQRLQDAQATNRVLRDEVLGLGQRGALLEETVAKLADPNRHGAQALRLDEVELLLELGQQRLAIAGDLDGARRAYALAAGALDGIDDPGYLNLRQALVQERNALDALGKGPQDALANDLDRVADALATLPLQPEDAAGDVRPWWQKLLAPLVQVRPSHGNVLVAQSERIGAKDSLQIELSLARAALERNDPGAWRQAIRRVDAWLVRLWPDSPALRARRAELATLKQAPLRPALPELGSTLQQLRAMREGRNSP	PGPT0008495_1064	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008495-hemX-K02496	NA	NA
BMS020_02828	777			hypothetical protein	ATGCCGGGGATGGATGCCGCCGCCCACCCGCCCGCCACCTGGTACCTGCTGTCGTTGCGCCCGCGTGGCGGCCACGCGGCGCTGCGCGGCGCGGTCCGTGCCGCAGGCGGCGACCTGCTGGCATTGTCGCCGTGGCGCATCGCGCGCCTCGACGACGCGGACAGCCGTGCCGCGCTGGAACGGGCACTGGCGGCGCCGGCCACGCTGTTCACCAGTCCGGCCGCGGTCGATGCCGCGCAGGCACTGCAACCCGACTTCGCCCGACGGCTGGCCTGCGCGGTCGCGGTCGGCGAAGGCAGCGCGCGGGCGCTGCGCCGCCACGGCGTCGATCAGGTGCTCAGCCCGGAGCGGATGGACAGCGAAGGCGTGCTTGCCCTGCCGCAGCTGCAGGGCCTGTCCGGCATCGGCCTGGTCACCGCACCGGGCGGCCGCGGCGTGCTCACCAGCGCACTGCCGGCGCGCGGCACCGCGGTGATCCGCGCCGATGTCTACCGCCGCCTGGCGCTGCCTCTTGCCCCGCGCACGCTGGCGCGGCTGCGCCGGCTGCTGCCCGGCAGCGCGCTCGCGCTCAGCAGCGGCGAGGCGTTCACCACGGTCCTGGGCCAGCTGCCGGCGCCACTGGCGACGGCGTTGCGACGCCGGCCGGTACTGGCCGCCAGCGACCGCCTGGCCGCGCTCGCCGGCGACGCCGGCTTCACCTGGGTGATCCGCGCCGACGGGCCATTGCCGGCGCAGCTGGCTGCGGCCGCGGCGCTGACGCTGCGACCACCTCGCTGA	MPGMDAAAHPPATWYLLSLRPRGGHAALRGAVRAAGGDLLALSPWRIARLDDADSRAALERALAAPATLFTSPAAVDAAQALQPDFARRLACAVAVGEGSARALRRHGVDQVLSPERMDSEGVLALPQLQGLSGIGLVTAPGGRGVLTSALPARGTAVIRADVYRRLALPLAPRTLARLRRLLPGSALALSSGEAFTTVLGQLPAPLATALRRRPVLAASDRLAALAGDAGFTWVIRADGPLPAQLAAAAALTLRPPR	PGPT0003665_1843	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719	NA	NA
BMS020_02829	474			hypothetical protein	ATGACGGTTTCCGATTCCCTCGCCCCCGCGCTGCAGGCGCTGCAGGCGCAGTTCGACGCCATGCCACCGGTGGCGGCGATGCGGATCCGGGTGGACGGCCTGCACGGCGGCGGCCTGTGCCTGCGCGCGCCGCTGGACGCCAACGTCAACGACAAGGCCAATGCGTTCGGCGGCAGCCTGGCCTCGCTGATGACCCTGGCCGGCTGGGGCTGGTTGACCCTGCGGCTGCGCGGCGCCGGCCACGATGCCGACGTCTATGTCGCTGACAGCCAGCTGCGCTACCTGGCGCCAGTCTACGAGGAGCTGGTGGCGCTGGCCGCGCCGGACGTCGATGCCGACCTCGACGCCTTCCTGGCCACCTTCCGCCAGCGGGGCAAGGCCCGCATCGGCATGCGCGCCGAGGTGCGGCTGGGCGACGGCGGCGTTGCCGCGAGCCTGAGCGGGCGCTTCGTCGCGATCGCCAAGGCCGGTTAG	MTVSDSLAPALQALQAQFDAMPPVAAMRIRVDGLHGGGLCLRAPLDANVNDKANAFGGSLASLMTLAGWGWLTLRLRGAGHDADVYVADSQLRYLAPVYEELVALAAPDVDADLDAFLATFRQRGKARIGMRAEVRLGDGGVAASLSGRFVAIAKAG				NA	NA	NA	NA	NA
BMS020_02830	444			hypothetical protein	ATGCACACGCCCTCGTCCCTGCGTCGTCTCGCCATGGCTGCCCTGCTGCTGGCCCTTTCCATCGTCGCGGTCGGCAGCGCCCAGGCCGGCAACCGGGCCCAGCAGCGCGCCCTGGAGGAGCTGCAGACCGCCTACGCGGCGGCGATCCGCTGGAACGACTTCGATGGCGCCGCCAGCGTGATCGATCCGGCCTACGCCGAGGCGCATCCGCAGACCGAGCTGGAGCGCTCGCGCTACGAGCAGGTGCAGATTTCCGGCTACCGCGAACTGCGCGCCGGTGCGGTCGCCAAGGACGAGGTCGCGCGTGACGTCGAGATCCGCGTGATCAACCGCAATACCCAGGCCGAACGCAGCGTGCGCGTGCGCGAGCTGTGGCGCTGGGATCCGCAGGCCAAGCAGTGGTGGCTGGCCTCGGGACTGCCGGACCTGTGGCAGGGCGAGTGA	MHTPSSLRRLAMAALLLALSIVAVGSAQAGNRAQQRALEELQTAYAAAIRWNDFDGAASVIDPAYAEAHPQTELERSRYEQVQISGYRELRAGAVAKDEVARDVEIRVINRNTQAERSVRVRELWRWDPQAKQWWLASGLPDLWQGE				NA	NA	NA	NA	NA
BMS020_02831	396	yibN_1	COG0607	putative protein YibN	ATGTTGTCGGTCGCCCTGGTGGGCCTGACCGTCGCCCTGATCGTCACCGAGATCGCCCGGCTGTTCCGCGGCTATCACGCGCTCAAGCCGGCCCAGCTGACCCAGCTGATCAACAGCGAGAACGCGCTGGTGCTGGACCTGTCTGCGAGCGCGGACTACGAAAAGGGCCATATCGCCGGCAGCCGCAACATCGCCGCCAGCAAGTTCGATCCGGAAGGCAAGCTGCTGTCCGCTGCGAAGACCTCGCCGGTGGTGCTGGTGTGCCGCAGCGGCACCGCGTCCGCTGCCGCCGCCAAGAAGCTCAAGCAGGCCGGCTTCGAGAAGGTCTACTGGCTCGAGGGCGGCATCCCCGCCTGGCAGCAGGCCGAGCTGCCGCTGGTCAAGGGCCGCGGCTGA	MLSVALVGLTVALIVTEIARLFRGYHALKPAQLTQLINSENALVLDLSASADYEKGHIAGSRNIAASKFDPEGKLLSAAKTSPVVLVCRSGTASAAAAKKLKQAGFEKVYWLEGGIPAWQQAELPLVKGRG				NA	NA	NA	NA	NA
BMS020_02832	519	secB_1	COG1952	Protein-export protein SecB	ATGTCCGACGAAACCACCAACGGCGCCGTGGCGCCGGCCGAAGCCGCCGCTGGCCCCGCTTTCACAATCGAGAAGATCTACGTCAAGGACGTTTCTTTCGAATCCCCGAACGCCCCGGCGGTGTTCAACGACGCCACCCAGCCGGAGCTGCAGCTGAACCTGAACCAGAAGGTCCAGCGCCTCAACGACAGCGCCTTCGAAGTCGTGCTGGGTGTCACCCTGACCTGCACCACCGCCGGCAAGACCGCCTACGTCGCCGAAGTGCAGCAGGCCGGCGTGTTCGGCCTGGTTGGCCTGGAGCCGCAGGCGATCGACGTGCTGCTCGGCACCCAGTGCCCGAACATCCTGTTCCCGTACGTGCGCACCCTGGTCAGCGACCTGATCCAGGCCGGTGGCTTCCCGCCGTTCTTCCTGCAGCCGATCAACTTCGAGGCGCTGTACGCCGAGACCCTGCGCCAGCGCGCGCAGCAGGGCGAGGGCACCTCGCTGGCCGACTCCGAGCCGGCCGGCAACGCCTGA	MSDETTNGAVAPAEAAAGPAFTIEKIYVKDVSFESPNAPAVFNDATQPELQLNLNQKVQRLNDSAFEVVLGVTLTCTTAGKTAYVAEVQQAGVFGLVGLEPQAIDVLLGTQCPNILFPYVRTLVSDLIQAGGFPPFFLQPINFEALYAETLRQRAQQGEGTSLADSEPAGNA	PGPT0025745_259	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025745-secB-K03071	NA	NA
BMS020_02833	1026	gpsA_1	COG0240	Glycerol-3-phosphate dehydrogenase [NAD(P)+]	ATGAGCGATCCGAAACAGAAAATCGCCGTTCTCGGCGCCGGTTCCTGGGGCACGGCCCTGGCGGCGCTGGTCGCACGGCACGGTCACCCGACCGTGCTGTGGGGCCGTGATGCCGCGATGGCCCAGGCCATCGACGGCAGCCACGAGAACCCCCGTTATCTGCCCGGCATTCCGCTTCCGGAATCGCTGCGTGCCACCACCGACCTCGCTGCCGCCATCGACGGCGCCGGCTGGATCCTGGTGGTGGTGCCGTCGCATGCCTTCACCGAGACGGTGAAGCTGCTGGCCCCGCTGCGCCCGGCCGGCGCCGGCGTGGCCTGGGCAACCAAGGGCTTCGAGCCCGGTTCCGGCCGATTCCTGCACGAAGTGGCGCGCGAGATTCTCGGCGACGAGGTGCCGCTGGCCGTGGTCACCGGTCCGTCGTTCGCCAAGGAAGTCACCCAGGGCCTGCCGACCGCGATCACCGTGCACGGCGACGATGCCGAGTTCGCGCAGGTGGTCGCCGAAGCGATGCACGGCCCGACCTTCCGCGCCTACACCGGCGACGACATGGTCGGCGCCGAGCTTGGCGGTGCGATGAAGAACGTGCTGGCCGTGGCCACCGGCGTCGCCGATGGCATGCAGCTGGGCCTGAACGCACGCGCTGGCCTGATCACCCGTGGCCTCAACGAGATGCTGCGGCTGGCGGCGGTGATCGGTGCCAAGCCGGAAACCCTGATGGGCCTGGCGGGGCTGGGCGATCTGGTGCTGACCTGCACCGGCGACCTGTCGCGCAACCGTCGCCTCGGCCTGGCGCTGGGGCGTGGCCAGAGCCTGCAGGACGCGGTGCGCGAGATCGGCCAGGTGGTCGAATCGGTGCAGACCGCCGACGAGGTGATGCGCCAGGCCGAACAGCATGGCATCGACCTGCCGATCTCCAACGCGGTGCGCGCGGTGCTGCACGGCGAGTTGACCCCAGAGGCCGGCCTGCAGGAATTGCTGGCGCGCGAGCAGAAGCCGGAATACCCGGACACGCTGTTCAAGTAA	MSDPKQKIAVLGAGSWGTALAALVARHGHPTVLWGRDAAMAQAIDGSHENPRYLPGIPLPESLRATTDLAAAIDGAGWILVVVPSHAFTETVKLLAPLRPAGAGVAWATKGFEPGSGRFLHEVAREILGDEVPLAVVTGPSFAKEVTQGLPTAITVHGDDAEFAQVVAEAMHGPTFRAYTGDDMVGAELGGAMKNVLAVATGVADGMQLGLNARAGLITRGLNEMLRLAAVIGAKPETLMGLAGLGDLVLTCTGDLSRNRRLGLALGRGQSLQDAVREIGQVVESVQTADEVMRQAEQHGIDLPISNAVRAVLHGELTPEAGLQELLAREQKPEYPDTLFK	PGPT0024330_1178	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024330-gpsA-K00057	NA	NA
BMS020_02834	573			hypothetical protein	ATGAAGACTTCCCTGCTTGCGCTTGGCCTGCTCGCCACCCTGCCGTTCGCCGCTTCGGCCGCCGAGGGCATCTCGTACAACTACGCCGAAGGCGCGTACGTGAAGACCGACACCAACAACGGCGACGCCGACGGCTGGAAGGTCAAGGGCTCCTACGCCTTCGCTCCGAACTGGAGCGTGTTCGGTGACTACTCCAAGCAGAGCATCGACCACAGCGACATCGACGTGCAGCAGTGGCGCATCGGCGCCGGCTACAACTACGAGATCGCGCCGAGCACCGACCTGGTCGCACGCGTGGCCTACAACAAGTTCGACCCGGACTATAACCAGGACTTCGACGGCTACAGCGCCGAAGTCGGCCTGCGCAACGCGTTCGGCCCGCACTTCGAGGTCTATGCGCTGGCCGGTTACGAGGACTACACCGAGAAGCACGGCGTGAATCCGGAAGGCGAGTTCTACGGCCGCCTCGGCGCCCAGGCCAAGCTCAACCAGAACTGGGGCCTGAATGCCGACATCAAGCTCGGCAAGGACGGCGCCAAGGAATGGTCGGTCGGCCCGCGCTTCAGCTGGTAA	MKTSLLALGLLATLPFAASAAEGISYNYAEGAYVKTDTNNGDADGWKVKGSYAFAPNWSVFGDYSKQSIDHSDIDVQQWRIGAGYNYEIAPSTDLVARVAYNKFDPDYNQDFDGYSAEVGLRNAFGPHFEVYALAGYEDYTEKHGVNPEGEFYGRLGAQAKLNQNWGLNADIKLGKDGAKEWSVGPRFSW				NA	NA	NA	NA	NA
BMS020_02835	1725	shlB_1		Hemolysin transporter protein ShlB	ATGCGTGCGGTGACAGGGGACATCGCAGTGAACATCCGACATCGCGCACGCGTGATGCTGGCCGCCTGTCTGTTGGGTGCGGCCGGCCATGCGTTGGCGCAGGAACAGTCCAGCCCGCTCGACCGCCAGGAGCAGCTGCGTCAGGCCGAGCAGATCCAGCGTCAGCGGGAGGCCAGCCAGCAGGCGCCGTTCGCGGGCCCTCGCCAAGCGCTGACCGCCGCCGACGGTGGCACCGATCTGCCGCAGGAGACGCCCTGCTTCAGGATCGAGCACGTGCATCTGGACGGCGGTGGCGCCGATGCCGCGCGCTTCTCCTGGCTGTGGCGTTCGCTACGCCATTACGAGCAGCGCTGCATCGGCCGCGACGGCGTCGACCTGATCCGCCGCCGCGCGCTGGACCAGCTGGTCGCGCGCGGCTACGTCACCACCCGCATCGGCGTGCCTGCGCAGGATCTGTCGAGCGGGCACCTGCGACTGGAGCTGCTGCCGGGCCGGCTGCGCGACGTGCGCGTCGTCAGCGACGGCGCCAAGGTGCGCTGGAAGAACGCGCTGCCGCTGCGGCCCGGCGACCTGCTCGACCTGCGTGCGATCGAACAGGCGGTCGAGCAGTTCAAGCGGCTGCCGTCGCAGGACGCGAAGATCGACATCGCCCCTGGCGAGCAGCCTGGCGAATCCGACCTGGTGATCACGATGCAGCACGCGCGCCGTTGGCGTGGCGCGCTCAGCAGCGATGATTCGGGCGTCCAGGCCACCGGTCGCTACCAGGGCAGCGTCGACCTGTCGCTGGATGGCCCGCTGGGCATCAACGATCTGCTGTCGCTGGGCTACACCCATGACCTGGTCGACGATGGCCAGGCGCGCGGCACGCGTGGCCGCAGCCTGGGCTACAGCCTGCCCTGGGGCTGGTGGACCGCCTCGCTGTCGTTGTCCTCGTACCGCTACCACCAGCAGGTCGATGGCTATCTGCAGCAGTTCCAGTCCAGCGGAACCTCCGACAGCAGCCAGCTCGACCTGCAGCGCGTGATCCATCGCGATGGGACCAGCAAGACCTCGCTGGGGCTGGTGGTCGCCAAGCGCCGCGCACGCAGCTATCTGGACGACGTCGAGATCGGCATCCAGCGCCGGCATACCACCAGCGCCGAGTTCTATCTCGCGCATCGCCACTACCTGGGCAGCGCGCAGGTCGATGCGCGGATCGCGCACCGGCGCGGCACGCCGTGGTTCGACGGCCAGTGGACCGGCTACGACCCGGACGTCGGCTTCCCGACCTACCGCTACGGCGTCAGCACGCTCGATCTCAGCTTGGCGATGCCGTTCAAGCTCGGCCCGGTCGGTGTGCAATGGGAGAGCAGCGTGCATGCGCAGACCGCCTCGGACCTGCTGCTCGGCTCGGAGTTCATCACGCTCGGCGGTCGCTACAGCGTGCGCGGCTTCGATGGCGAATCCACTCTCGGGGCCGAGCGCGGCGTGTACTGGCGCAACACCTTCAGTGTCCCGCTGCAGCGACTCGGGGTGGTGCCGTATGCCGGCATCGATGCCGGCCGCATCGGTGGACCCAGTGCGCAGGGCCTGGACGGGCGCAGCCTGGCCGGTGCGGTGGCGGGCATCCGCGGCGGCTGGCGCGGAATGAGCGTGGATGGCTTCGCCGGCTGGGCGTTGCATCGTCCCGACGGCTTTGTGTCCGCCGCGCCGGCGTACGGCGTACGGCTGACCTACCAATTCTGA	MRAVTGDIAVNIRHRARVMLAACLLGAAGHALAQEQSSPLDRQEQLRQAEQIQRQREASQQAPFAGPRQALTAADGGTDLPQETPCFRIEHVHLDGGGADAARFSWLWRSLRHYEQRCIGRDGVDLIRRRALDQLVARGYVTTRIGVPAQDLSSGHLRLELLPGRLRDVRVVSDGAKVRWKNALPLRPGDLLDLRAIEQAVEQFKRLPSQDAKIDIAPGEQPGESDLVITMQHARRWRGALSSDDSGVQATGRYQGSVDLSLDGPLGINDLLSLGYTHDLVDDGQARGTRGRSLGYSLPWGWWTASLSLSSYRYHQQVDGYLQQFQSSGTSDSSQLDLQRVIHRDGTSKTSLGLVVAKRRARSYLDDVEIGIQRRHTTSAEFYLAHRHYLGSAQVDARIAHRRGTPWFDGQWTGYDPDVGFPTYRYGVSTLDLSLAMPFKLGPVGVQWESSVHAQTASDLLLGSEFITLGGRYSVRGFDGESTLGAERGVYWRNTFSVPLQRLGVVPYAGIDAGRIGGPSAQGLDGRSLAGAVAGIRGGWRGMSVDGFAGWALHRPDGFVSAAPAYGVRLTYQF	PGPT0030385_532	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5b_TWO-PARTNER_SECRETION,PGPT0030385-fhaC|tpsB-K07326	NA	NA
BMS020_02836	10728			hypothetical protein	ATGGATCGCGATCGGACCTCGTTCGGCACCGCAGTACGTGACCAGCTCAAGCGCGCAGTGGCGCTGCTGCTGTGCTGCACGGTCACCTGGACATCGTTCCCGGCCTGGGCCGAGGTGGCGCCGACCAGCAACCCGAAGGGGCAGACGCCGGGCCAGCAGGCCGCTGCCAACGGCGTGCCGGTCGTCGACATCGTCGCGCCGAACGCGCGTGGCATCTCCCACAACCGCTATACCCGCTTCGACGTCGGCAGCAACGGGCTGATCCTCAACAACAGCGCGGGCATCAGCAAGACCGAGCTGGGCGGCTACATCGCCGGCAACGCCAACCTGCAGGGCGGCACGGCCAGCCTGATCCTCAACGAAGTCACCTCGGCCAGCAGCCGGCTGCAGGGCTATACCGAGATCGCCGGCAGCCAGGCGCAGCTGGTCATTGCCAATCCGAACGGCATCAGCTGCGATGGCTGCGGCTTCCTCAACACCTCGCGCGTCACCCTGACCACCGGCACGCCGAATCTCGGCAGCGACGGCGCGCTGAACGGCTTCGACGTCACCGGCGGCAAGCTCACGATCGGCAGCAACGGCCTGGACGCCTACAACGTCGACCGGCTCGACCTGCTGTCGCGCCAGCTCGACGTGCAGGGCCCGGTCTGGGCCAAGCAATTGACGGCGGTCGCCGGCACGCGCCGGATCGGCTACGACGGCATGCTGCTGGATGTGCTGCCGGCACGCGACGGTGGCAGCCCGCAGGTCGCCATCGACGTCGCCTATCTCGGCGGCATGTATGCCGATCGCATCCACCTGATCGCGACCGACGCCGGCGTCGGCGTGGTCAGTCGCGGAACGCTGGCCGCGCAGGCCGGCGATCTGCAGATCGACGCCAATGGCCAGGTCAGCCTGAGTGGCACGACGGTCGCGCGCGATGCATTGCGCATCGACGCGGCGGGCAACAGCATCACCCAGACCGGCACGCTGGGCTCGCAGCTTGGCGCAGTCACGCTGCGCGGCAGCGCGCTGTCGCTCAGCGGCGACGTGATCGCCGCGCAGGGCCTGGATGCCGCCGCGACCGCCGCGCTGCTGCAGCGCGGCCGCATCAGCGCAGGCAGCGTACGTCTGGCCGGCAAGGACGTCACGCTGGGCGGCACGCTGTACAGCGGCGGCGCGCTGTCGCTCAGCGCCAGCGGGACGCTGAGCAATGCCGGTGCTGCCTATGCCGCCGGCAACGCAACGCTGCAGGCGGCGTACCTGAAACTCGCGGGCAGCCTGCAGAGCGGCGGCGGCATCGGGCTGCGCGGCGAACGCATCGACAGCACCGGCACGCTCGACGCCGCCCTCGCATTGGCGATCAGCGGCAGCGCCACGGTGACGCTGGATGGCCTGGCGCAGGCGGGCCAGGCCATCAGCGTGCACAGCGGGGGGCAGTACCGCCAGCTCGGCCAGTTGCTGGCCGGCGGCAGCGCCACGCTCGACGCGGGCACGATCAGCGTCGGCGGCGCAGGCCTCATCAGCAGCGGCGGCGCGCTCGGCCTGACCAGTGCCGGCAGCATCGTCCACGATGGCGCGCTGAGCAGTGCAACCACGCTGACGCTGCAGGCCGCGGCGCTGGACAACCGCGGCGACAGCTTCGCCGCCGGCAGCGCCAGCGTCGATGTCGCCGGCACCGTCGTCAACAGCGGCAGCCTGGTTGCCGGCAATGGTCTGTCGGTCGCCGCCACCACGCTGACCAGCAGTGGCGATCTCGGCAGCCAGCAGGCGGCGCTGACGCTGTCCGCCGATGCCATCGCATTGACCGGCAACACCGCGGCCGGCACAACATTGAAGGCCAAGGCCGCAGGCGCGCTCGATGTCGCTGGCGTGGTCTCGGCGCGCGATGCAGACCTGCAGGCCGGCGCGGATCTTCAGCTGGCCGGCGAACTCCAGCTCAGTCGCGACCTGCAGGTGATGGGACGTGATGTGACGTCCAACGCGGTGATCGCCGCCGGGCGCGACGCCACGCTGCAGGCATCCCGGACCTTGGACCAGCGAGGCCAGCTGCAGAGCGGCGGCAAGCTCACGTTGGATGCGGCAACCTTGGCAAGCGGCGGCGTGCTCGACGCGGGCGGCGAGCTGCATCTGGCCGCGACCGACGCGCTCCAGCTCGCCGGCACGATCCAGTCGGGCGGCGCCGCGTCTCTGTCGGCAACGCAGATCGACAACCGCGCGTCGCTGCTCGCCGGCGGTGCGCTTTCGGTCGCTGCGCAGCGCCTGGACAACCGTGCGGACGCCACGCTTGCCGCGCTCGGCAATGCCGACCTGCAGGTGGGCGACACGCTCGCCAATGCCGGCGCCCTGCAGGCGGCGGGTGACCTCGAGCTGCAGGCCGGCAGCCTGCAGCAGACCGGCAGCAGCTACGCAGGCAGCGTGCTGACCGCCAACGTCGATGGCGCGCTCGACAGCAGCGGCTCGCTGATCGCCGGCCAGCAGCTGACCATCACCGCCGACAGCCTGCACAGCAGCGGCGAACTCGGCAGCGAACACGGCGACGTCGCGCTGAGCAGCCAGGGCGACCTGACCCTGGCCGGCACCCAGGCGGCGGCTGGCGGCTTCAGCGCGCAGGCCGGCGGCGTGCTGCAGCAGGGCGGCAAGCTCGGCGCGGGCGGCGCGCTGGTGCTGGATGCGACCGGCGACCTGGAGGTGGCCGGGCAGGTATCGGCGCAGCAGGTCGCGCTGCATAGCGCGGCCACGCTGCGCCAGCAGGGCGCGCTCAACGGCACCACGGTGGCCTTGCAGGCCAGCCGCATCGAGAACGCCGGCAGCACCGTGGCCAGTGGCGATACGCGTCTGCAGGCCGACACGATCTCGGTCACCGGCACGGTCGCGGCAGGCATCGGTGCCGACGGCGCGCTCGGCACCGGCGGCACGCTGCGGCTCGAAGCCAACCAGCAGCTGCAGGCCAACGGCGAGTTGCTCGCAGGCGGCGACCTGGTCGCCACCGCCGACAGCATGGACCTGGTCGGCAGCACCACCCGCGCCACCGGCGATGCGGCATTCACTGCCGCTGGCGACGTCGATCATCGTGGCGGCGACCTGCGGGTCGGCGGCAGCCTGACGCTGGACGTTGCCGGCACGCTCGACAACGGCACCGACGCGGGCGTCGGCGGTGCCATGCAGGCCAACGCGCTGGCGGTGAAGGCCGGTGCGCTGGCCAATGCGGGCGGCAGTCTGGTGCAGGCCGGTACCGGCGACACCCGCATCGACATCGCCGGGCAACTGGACAATCGCGGTGGCGTGATCGCCAGCAACGGCGACGCGCTGACCGTGGCCGCCGGCGCGCTGGTCAATGCCGAAGGCCGCATCGAGCACGCCGGCACCGGCACGCTCGCGCTGACCACCCAAGCTGGGTTGGACAACAGCGCTGGCCGTGTGGTGACCCAGGGCCAACTCGATGCCAGTGCCGCGGGCGCGATCAACAACCAGGGCGGCGCGATCGCCGCCGCCGGCGACGCCAGCCTGACCGGCGCGGCGCTGGACAACAGTGCCGGCAGCATCGCGGGCCACGCACTGGCGCTGCAGTCCACGGGCGGCATCGTCAACAACGCCGGTGTGCTGCAGGCGGCCGGCGGTGCGCTGTCGCTGGATGCGGCGCGTCTGGACAACCAGGCCGGCACGCTGCAGGCGGTCGCGCTCGACGGCGTGGGGGGCGATCTGGTCGCCACGGTGCACGGTGCGGTCGACAACAGCGCTGGCACCATCGGCGCGAGCGGCGACCTGACGCTGTCCGGCACCGACATCGGCAATCGCGGCGGCACGCTGCAGGCCGGCACCGATCTGGCCCTCACCGCCAGCGGCCAGCTCGACAACAGCCAGGGCGGTCGCACGAGCGCCGGCAGTGCGTTGACGCTCAATGCCGGCGGTGCGTTGCTCAACGCCAATGGCCAGCTCGATGCGGGCAACACCCTCACCGCATCGGCAGCACGCATCGACAACAGCCTGGGCCGCATCGTCAACAATGGCGCCGGCCTGACCCAGCTCACCACCAGCGGCGCGCTGACCAATGCTGGCGGCAGTATCGGTGGTCTGGGCAACGTGGCTCTCACTGCCGGCAGCATCGCCAATACCAGCGCGGGCACGCTGGCCGCAGGCAGTGCGCTCAGCATCGATGCCGCCAGCCTCAGCAACCAGGCTGGCACCATCTACGCCGGCAGCACGTTCGCGCTGCAGCGCGACGGCGCCACGCTGGACAACCGCAACGGCACGCTGAAGGCCGAGCAGGCGGTGCAGCTGCGGCTGGCGCAGCTGTACAACGCCGGCGGCGAGATCGGCGGCGGCAGCAGCACCGGCGGCGCCGGTGACGTGACCATCGATACGACCGCGTTCGATGGCGCCGGCACCATCCTGGCGCAGAACCTGCTGGATCTGACCCTGCGCGGCAACTACACCAACGGCGCCGCGTCCGATCTCTTCAGCAATGGCACCTTCAAGCTCACCGTCACCGGCGCACTGACCAACCAGGGCTCGCTGGCCGCCAGCGACGCCCTGCAGCTCACCGCGGCGAGCATCGCCAACACCGGCACCGGCAGCATCGCATCGAACGCCACCACCTTGAAGGCCACCGGCGCGATCACCAATGCCGGCGACATCTCGGGCAACGACAGCCTGCAGGCGACGGCGGCCACCATCGCCAATACCGGCAGCATCATCGGCGGCGACGTACTGCTGCAGGCCAATACGCTGACCAACGGCAGCGATCTGGGCCAGGCCACCGGCGACAGCGGCTATGCGACCGGCCTGATCGCCTCGACCGGCGACATGACGCTGCTGGTACGCGACCGCCTACTCAACCGCGATGCGCAGATCTACAGCCTGGGCGACATCGCCATCGGCGCGGCGCGCAACGCCGCGGGCACCATCACCACGCGGACCACCACGCTGGACAACGTCTCGGGCAGCATCGAGGCCAAGGGCGACATCCTGATCGCGGCCAGCGCCCTCAACAACAAGCGCCGCGTGTTGAAAACCGAAACCGGCCCGTTGACCGCTGCCGAACTGGCCGAAGCAAATGCAAGCCTGCCGGCCGAAGAGCTGATCGAAGCAGATACCATCCGCGCGCCGGCCAATGCCACGTTCCCGACGCGTTACGAGGGGCATTCTCCCGGTACATGGCGGACCTACAGTGTGGTCAGCCGCGACCGCCTGACCGGTACGAGCGCGGAAAGCAAGATCGTCGCCGGCGGCAATATCTCGTTGTCGGGCAGCGTCACCAACACTACGTCCACGATTGCCGCGGCCGGCAAGCTGAACGTCAATCAGCGCGGCGTCGCTGGCTTGTCCGACGCCATGATCACCGGCGGCGAGCAGGTGCTCAACCAGGCCTTGTCGCTCGGCCAGACCGTGCGACAGTCCGACGTCCAGACCATCGTCACCGGCAACACCAATGACTGCCCGCAGCGCGCCGGTGCGCCTGTGGTGTGCTACTACGAAGTCGAGACCAACGTTCTCGCCACCAAGGATGTCTCCAGCAGCTACGTCGCCCTCGGCGCGACGATGAGTGGCGCCAAGGGCGTGGCGATCAGCGGTGCGGACATCCGCAACGAAGCGGTCGGCACCGATGGCCGCCGCATCGATGGCGTGGCGTTGACCGGCAGCGGCCAGCAGGCCGGGTTGAGCCGCAAGGTCAGCCTGACCGCCAACGGGGCCAGCGCAGGCGCCGTCGACGGCCGTACCACCGCCGCCAGCGGCAACGCCGGCGTCAGCGGCGGCACGCAGGGCCAGCTGCTCAACCTCGACCTGCCGCTGGGCGGGCTGTACCACCTGGTCGGCGAGGCCGGCGCCACCCCCGGTGCGCTGGGACGCGTGGCCAGCCGGCTCGGCGGTATCAACGCCAACCAGGGCAATACCCCAGGACGCCGCTACCTGATCGAAACCGATCCGCGCTTCATCGACTACGACAACTTCATCAGCAGCGATTACCTGCTCGACAAGCTCGGCGTCGACCCCGAGTGGACGCTGACCCGCCTCGGCGACGGCTTCTACGAGCAGCAGCTGGTGCTGGACCAGATCACCAACCTCACCGGCAACCGCTACCTGGGCGACTACAGCGACGGCGTGGACCAGTACCGCGCGCTGCTCGACGCGGGCGTTGCCGCGGCCGACCAGCTGCAGCTGAGCGTCGGTGTCGGCCTCACCGCCGAGCAGGTCGCCGCCCTCACCGACAGCATCGTCTGGATGGTGGAACAGGAGTACCAGGGCCAGAAGGTGCTGGTGCCGGTGGTCTACCTCGCCGCATCGATGGACCTCAAGCCGAGCGGCGCCCTGCTGGCCGGCGGCAGCGTCAGCCTGGATGCGACCAATACCATCGCCAACAGCGGCACCATCACCGGTACCGACGTCAGCGCCACCGCCGCCAACCTGCTCAACCAGGGCAGCATCGCCGGCACCGGCACGGTCGTGCTGCAGGCCAGCCAGGATCTGCTGAACCTCGGCGGCCAGATCCAGGGCGGCGATGTCCTGCTCAGCGCCGGCAACAACCTGCGCAGCGAAGCTGTCGCCGGCATCGGCAATGCCGCCACCACCGCGGGTGTCAGCGCCAGTGGCGCACTGCAGCTGCAGGCCGGCAACGACCTGACGCTCGCCGGCACCACCGTCAGTGCCGGCGGCAGTGCGGCGCTGCTCGCCGGCAACAACCTCAATGTGCAGCAGGTCGCCCTCAGCCAGGACAGCGGACTGCTGCGCGGCGGCCAGGCCACCACGGTCACGGCGGGTGGCGACCTGCTGCTGAGCGCCGGCAACGACCTGCTGGTGCAGGGCGCAAGCGTGCACGCCGATGGCAGCGCCGCGCTGCAGGCCGGCAACGACCTGCAACTGGTCGCCAGCGCCGGCCTGGGCAACCAGGCCGCCACCCACGCCAGCGTCGATGCCGATGGCAGCCTGCAGTTGGCCGCCGGCAACGACATCACCCTGCGCCAGGCCACCGTCGCCGCCGGCGACGACCTGGTCGCCGCTGCCGGTCACGACCTGAATGTCGAGTCGGTGCTCAACGACAGCACCACCGCGTCGTACGCCACCCGTAACGGCGGCACCAGGACGACCGTCACCACCACCACGCAGACCATCGACCAGCAGGCGCTCAGTGCCGGCGGCAACCTGGTGCTCAGCGCCGGCAACGACGTCAACCTGGTGGCCGCCAAGCTGCAGGCCGGCGAGGGGCTGGCGATCGCGGCCGGCAACGACATCACCAGCACCACCCTGACCAGCACCGACAGCCAGGACACGCTGGAAACCCGCAAGCGCTACAAGCAGAGCACCAGCATGGTCGACGAGACCGTGCACGGCACCGAGTTGGGTGCCGGTGGCGACATCGCACTGCAGGCCGGCCACGACATCAGCCTGACGGCGGCCAGCGCCACCAGCGACGCCGGCGGCATCGCGCTGAGCGCCGGCAACGACATCAACCTGCTCGCGGCACAGGAGCAGCACGACGCCGTGCAGGACATGGAGAAGAAGAAGAAGGGCTTCCTGTCCAGCAAGACCACCACCACGCATGACGAATGGCATGACAGCCTGGCGGTGACCAGTTCGCTCAGCGGCGAAAGCGTCACCATCGCGGCCGGCAACGATGTGCTGGCGCAGGGCGCGCAGATCGTCGGTACCGACGCCGTGGTCATCGCTGCCGGCAACGACCTCACGCTGGAAACGGCGGAGAGCACCCACAGCGAGTCACACGACAAGAAGACGGTCAAGTCCGGCCTGTTCGGCAGCGGCGGGATCGGCTTCACGGTCGGCAAGCAGACGGTCAAGACCGAGGCCGATGTCGGCGACGTCACCCACACCGGCAGCACCGTCGGCAGCCTGGAAGGCGACGTGACGCTGGTGGCCGGCGACCAGCTCGCCATCACCGGCAGCGACGTGATGGCGCTGCAGGGCGACATCACCGCCAAGGCCAAGGACATCGCGATCACCGATGTGCAGGACACCACCAGCTACGACCAGCGCACCGAGTTCAAGCAGGGCGGGCTGACCGCCAGTGTCAGCGCGGCGGCGCTGAGCCTGGCGCAGGCGGCCGTGGACAGCGTCGATGCCGGCAAGAAGGTCGAAGGCGATACGCGCATGCAGGCACTGGCTGCGGCCTCGGCCGGTTATAGCGCCTATGGCGCAGCCAAGGCCGTGGATGGCCTGGCGTCGGCCGCAAGCGCCAAGGACGCCGCGCAGGCGGCGAACATCAGCGTGGCGATCACCGTCGGCGGCAGCAAGAGCGAGAGCCAGTCCTCGCAGCGCGGCAGCACCTCGAACGGCTCGACGCTGCAGGCGGGTGGCGACATCAACCTGATCGCCACCGGCGGCGGCGACGCAAGCAACCTGTTGATCCGCGGTAGCGACATCAGTGCGGGCAACAACGTACTGCTCGCCGCCGATCACGACATCACGATCGAAGCCGGCCAGAGCCAGTTCGCGCAGGACAGCTCCAGCAAGAGTTCGAGCGCCGCGGTCGGCGTCGCGGCCACCTACGGTTCGCAGGGGATGGCATTCGGCGTCACGGTCAGCGCAAGCGGTGCCCGCGGGAATGCCAACGGCGAGGATGTCACCCAGTCCAACAGCCACGTGACGGCGGGCAACACCGCCACGGTGATCAGCGGCAACGACACCACGCTGCAGGGCGCGGTGCTGTCGGCGGATACCGTGCTGGCCAACATCGGCGGCGACCTCAACATCGAGAGCCTGCAGGACACCAGCACCTACACCAGCAAGGACAAGTCCGTCGGCGGCAGCGCCACCTTCGGTGCCGGCTTCAGCGCGAGCGCCAGCTACAGCAGCAACAAGGTCAACGGTGACTACGCCAGCGTCACCGAGCAGAGCGGGATCCAGGCCGGCGATGGTGGGTTCGACATCACCGTGGCGGGCAACACGGATCTCAAGGGCGCGGTGATCGCCAGCACGCAGGCCGCGGTTGATGCCGGCGTGAACCGCCTGCAGACCGGTACGCTGACGGTCAGTGAGATCGAGAACAGCAGCAGCTACAGCGCCCAGGGCGTGAGCCTGTCGGGTGGCTACAGCCACGGCACCGAGGATGGAAAGAAGGGCAGCGAGGGCACCGACTCAGGAAGCCAAGCCCAGGCCCAAACCACCGTCAACAATGGCACGGACTGGTCCTGGCAGAACTTCAAGACTGGTTCGCAGGGCGCCGCCGCAGGCTATGCGAGCAAGGATGGCAGCAGCACCTCGATCACCGGCAGCGGGATCAGCGGCGGAACGCTGCTGATCACCGATGAAGCAGGCCAGCAGGCAAAGACCGGACAGAGCGTTGCCGAAGTCTTGGCTGCGTTGGATCGCGACGTGCTCACAGGCGATAGCGCCAACGGTCTGGTTAAGGACTGGGATGGCCAGCAGCTGCAACAGCAGGTGGCCGCTGGCGCGGAAATCACCGCGACGTTTGGACAGCAGGCGAGCGAGCTGATTGGCAGCTATGCCAGAAAGAAGGAGCTTGAACTCACGCTGGCAGGCGATGAGGAAGAAGCGGCCAAGTGGAGTGAAGGTGGCGAGTATCGCGTGGCGGCGCACGCGGTCATCGGCTTGCTCACCGGAGGTGCCGATGGCGCGTTGGGTTCGGCCGCATCGGCGGCCGCCGCCCCCTACCTGACGGAGCTGACCAGCAATCTTCCTGAAGGCGTGAAGGAGGTGGTCGGCGCCAGCGTGGCTGCGGCGCTGGGAGGAACACTAGGAGGGAGCGCAGGGGCCAGTACAGCGTTCAATGAGGATGCCAATAATCGTCAGCTGCATCCGGATGAGATCACCTGGATCAACCAGAATGCCGAAGCGTTCGCGCAGCAGCAGGGGATCAGCGTCGATGAAGCGAAGTATCGCCTGACCTTGGAGGCGGCAGCGCAGGTAGATGGCGTGATCGCTGAAAAGGTGGGTAAAACAAACATCGACACTGAAGCCCTGGCGTTCCTGAATACCAATCAGAACAGCTATGACTGGGGACAGGCTTTCCGGGCGACTGACGCGGAATACAACAGCTTTCATCAGTACGGCAACCTGCTAGCTGAAAATACAAACCAGTTCCGGCAGGTATACAACGTGCTTGGAGCTTCGGGAGTCACACAAGGCTCTTTGCAGCAGATGTACCAGAGCGAACTGTTGACTTTGGCAACATCAAGCCGGGGTTCGGACGGTGTTGCGATGCTGGAGACGTTCAGCGGCGATGTCGGCATGGCGCTCGGTATCCTACGCAAGCTGCTGCAAGGCGACACTCAAGGAGCCGGCACGGACGTGGCGCTGGCTGCTCTGCCCACGGCGGTGGGCAAGATTGCTGGCCCCCTGCTGCGCCCCTTAGCCAAGGCTGCCGAAGACACAATTTGGCTAAACGGCAGGGTCGTCAGCGATACTTGGGTGAACGCAAAGAATGAGCTGACATGGGTCAATCCATTGACAGGCGCCAAGGAGGTCGTACCCGCCACGGCCAATGTACATGTTGATCACATTCTTCCACAGGATGCCATCAAAAAGATTGACGGATTTAATGAGCTACCAGCCAGTGTTAAAAATGATCTTCTGAATGATCCAGCTAACTTGCAACCTATGATCGCCTCGGCCAATTGTTCCAAGAGATGCAACGTGGAAGGGGTTGGCGATGGATGGATGACATGGAATGGCCAGCCTGTAAGTGCCGAATACAAGGAATATTTGCAAACGGCACAGGCGTCATTCAGGGAAAAGATCGAAGGTATTGTGGCGACTTACCGTGAGTCAAAATGA	MDRDRTSFGTAVRDQLKRAVALLLCCTVTWTSFPAWAEVAPTSNPKGQTPGQQAAANGVPVVDIVAPNARGISHNRYTRFDVGSNGLILNNSAGISKTELGGYIAGNANLQGGTASLILNEVTSASSRLQGYTEIAGSQAQLVIANPNGISCDGCGFLNTSRVTLTTGTPNLGSDGALNGFDVTGGKLTIGSNGLDAYNVDRLDLLSRQLDVQGPVWAKQLTAVAGTRRIGYDGMLLDVLPARDGGSPQVAIDVAYLGGMYADRIHLIATDAGVGVVSRGTLAAQAGDLQIDANGQVSLSGTTVARDALRIDAAGNSITQTGTLGSQLGAVTLRGSALSLSGDVIAAQGLDAAATAALLQRGRISAGSVRLAGKDVTLGGTLYSGGALSLSASGTLSNAGAAYAAGNATLQAAYLKLAGSLQSGGGIGLRGERIDSTGTLDAALALAISGSATVTLDGLAQAGQAISVHSGGQYRQLGQLLAGGSATLDAGTISVGGAGLISSGGALGLTSAGSIVHDGALSSATTLTLQAAALDNRGDSFAAGSASVDVAGTVVNSGSLVAGNGLSVAATTLTSSGDLGSQQAALTLSADAIALTGNTAAGTTLKAKAAGALDVAGVVSARDADLQAGADLQLAGELQLSRDLQVMGRDVTSNAVIAAGRDATLQASRTLDQRGQLQSGGKLTLDAATLASGGVLDAGGELHLAATDALQLAGTIQSGGAASLSATQIDNRASLLAGGALSVAAQRLDNRADATLAALGNADLQVGDTLANAGALQAAGDLELQAGSLQQTGSSYAGSVLTANVDGALDSSGSLIAGQQLTITADSLHSSGELGSEHGDVALSSQGDLTLAGTQAAAGGFSAQAGGVLQQGGKLGAGGALVLDATGDLEVAGQVSAQQVALHSAATLRQQGALNGTTVALQASRIENAGSTVASGDTRLQADTISVTGTVAAGIGADGALGTGGTLRLEANQQLQANGELLAGGDLVATADSMDLVGSTTRATGDAAFTAAGDVDHRGGDLRVGGSLTLDVAGTLDNGTDAGVGGAMQANALAVKAGALANAGGSLVQAGTGDTRIDIAGQLDNRGGVIASNGDALTVAAGALVNAEGRIEHAGTGTLALTTQAGLDNSAGRVVTQGQLDASAAGAINNQGGAIAAAGDASLTGAALDNSAGSIAGHALALQSTGGIVNNAGVLQAAGGALSLDAARLDNQAGTLQAVALDGVGGDLVATVHGAVDNSAGTIGASGDLTLSGTDIGNRGGTLQAGTDLALTASGQLDNSQGGRTSAGSALTLNAGGALLNANGQLDAGNTLTASAARIDNSLGRIVNNGAGLTQLTTSGALTNAGGSIGGLGNVALTAGSIANTSAGTLAAGSALSIDAASLSNQAGTIYAGSTFALQRDGATLDNRNGTLKAEQAVQLRLAQLYNAGGEIGGGSSTGGAGDVTIDTTAFDGAGTILAQNLLDLTLRGNYTNGAASDLFSNGTFKLTVTGALTNQGSLAASDALQLTAASIANTGTGSIASNATTLKATGAITNAGDISGNDSLQATAATIANTGSIIGGDVLLQANTLTNGSDLGQATGDSGYATGLIASTGDMTLLVRDRLLNRDAQIYSLGDIAIGAARNAAGTITTRTTTLDNVSGSIEAKGDILIAASALNNKRRVLKTETGPLTAAELAEANASLPAEELIEADTIRAPANATFPTRYEGHSPGTWRTYSVVSRDRLTGTSAESKIVAGGNISLSGSVTNTTSTIAAAGKLNVNQRGVAGLSDAMITGGEQVLNQALSLGQTVRQSDVQTIVTGNTNDCPQRAGAPVVCYYEVETNVLATKDVSSSYVALGATMSGAKGVAISGADIRNEAVGTDGRRIDGVALTGSGQQAGLSRKVSLTANGASAGAVDGRTTAASGNAGVSGGTQGQLLNLDLPLGGLYHLVGEAGATPGALGRVASRLGGINANQGNTPGRRYLIETDPRFIDYDNFISSDYLLDKLGVDPEWTLTRLGDGFYEQQLVLDQITNLTGNRYLGDYSDGVDQYRALLDAGVAAADQLQLSVGVGLTAEQVAALTDSIVWMVEQEYQGQKVLVPVVYLAASMDLKPSGALLAGGSVSLDATNTIANSGTITGTDVSATAANLLNQGSIAGTGTVVLQASQDLLNLGGQIQGGDVLLSAGNNLRSEAVAGIGNAATTAGVSASGALQLQAGNDLTLAGTTVSAGGSAALLAGNNLNVQQVALSQDSGLLRGGQATTVTAGGDLLLSAGNDLLVQGASVHADGSAALQAGNDLQLVASAGLGNQAATHASVDADGSLQLAAGNDITLRQATVAAGDDLVAAAGHDLNVESVLNDSTTASYATRNGGTRTTVTTTTQTIDQQALSAGGNLVLSAGNDVNLVAAKLQAGEGLAIAAGNDITSTTLTSTDSQDTLETRKRYKQSTSMVDETVHGTELGAGGDIALQAGHDISLTAASATSDAGGIALSAGNDINLLAAQEQHDAVQDMEKKKKGFLSSKTTTTHDEWHDSLAVTSSLSGESVTIAAGNDVLAQGAQIVGTDAVVIAAGNDLTLETAESTHSESHDKKTVKSGLFGSGGIGFTVGKQTVKTEADVGDVTHTGSTVGSLEGDVTLVAGDQLAITGSDVMALQGDITAKAKDIAITDVQDTTSYDQRTEFKQGGLTASVSAAALSLAQAAVDSVDAGKKVEGDTRMQALAAASAGYSAYGAAKAVDGLASAASAKDAAQAANISVAITVGGSKSESQSSQRGSTSNGSTLQAGGDINLIATGGGDASNLLIRGSDISAGNNVLLAADHDITIEAGQSQFAQDSSSKSSSAAVGVAATYGSQGMAFGVTVSASGARGNANGEDVTQSNSHVTAGNTATVISGNDTTLQGAVLSADTVLANIGGDLNIESLQDTSTYTSKDKSVGGSATFGAGFSASASYSSNKVNGDYASVTEQSGIQAGDGGFDITVAGNTDLKGAVIASTQAAVDAGVNRLQTGTLTVSEIENSSSYSAQGVSLSGGYSHGTEDGKKGSEGTDSGSQAQAQTTVNNGTDWSWQNFKTGSQGAAAGYASKDGSSTSITGSGISGGTLLITDEAGQQAKTGQSVAEVLAALDRDVLTGDSANGLVKDWDGQQLQQQVAAGAEITATFGQQASELIGSYARKKELELTLAGDEEEAAKWSEGGEYRVAAHAVIGLLTGGADGALGSAASAAAAPYLTELTSNLPEGVKEVVGASVAAALGGTLGGSAGASTAFNEDANNRQLHPDEITWINQNAEAFAQQQGISVDEAKYRLTLEAAAQVDGVIAEKVGKTNIDTEALAFLNTNQNSYDWGQAFRATDAEYNSFHQYGNLLAENTNQFRQVYNVLGASGVTQGSLQQMYQSELLTLATSSRGSDGVAMLETFSGDVGMALGILRKLLQGDTQGAGTDVALAALPTAVGKIAGPLLRPLAKAAEDTIWLNGRVVSDTWVNAKNELTWVNPLTGAKEVVPATANVHVDHILPQDAIKKIDGFNELPASVKNDLLNDPANLQPMIASANCSKRCNVEGVGDGWMTWNGQPVSAEYKEYLQTAQASFREKIEGIVATYRESK				NA	NA	NA	NA	NA
BMS020_02837	903			hypothetical protein	ATGAATCAGTTGTATGAAAGTTATGGCGTATCAAGAGAACGGTATTGCGCCAGGATGGATGGTGGCATATATGAGCGTTATTGGGATGTGCCAGCGATCTATCGCCCAGTGATGGAATTTGGGCATAACGGGATGGCTAAAAATTTGGATTATGAGGGTTTGATTTCTCGAGGGAAGCCGTGGGTCGTCGGGCCTCTTGAAAGTCTTCAGCCTCACTCGTTTTGCGCATTCAACGAAGCGGCAGGACCTCTTCTTCTTGGTATTGTCCTAATTAAAGACCTCGCGAATCCGGATGGTCCGCCCAAAGTAAGGGTCGTCACCTTTCTCGATGCCAGTGGACGCATGATCGAAGTGCAACCCACTTTCCCTGGAAATAGTTATGAGGACGGTAATGATTCTTTCGGATCTCTACGGAGTCTTCCAGATGTGTTGGCAAAGTCGTGGCTATGGCGTACCGCGGGCTGGCGTGTGCCTAGCGAGCCATTCCAGGGGCCGTTGATTAATCGTTGTTTGATCGGACATCCTTCTTCGATGTGGTTGGATGCGGATGACTATCTGGATACATTGGGAAAAGGAATGAAAAAAAAATTCCTTCCGATAATTGTCGATCTATTTCCCGATTCGGTAATTGAGCCGAAAACTAGCCATGACATAAGGAGATATAAATTTCGTTGTTTCCTTGATACTCGCCCTGCCGGTATGGGTGGGTTTGCAGGCGATCAGTTCTTTGTCTGCTCGACGCGCAGGGATCAGATTGTCTATCATATTCATCGTGGGGATATAAATGACATCCGGGTGCTGCATGATCCGGGCGATGCAATTGATCGCTACTGTGCTCATATCTTGCGACGACTGCCAGGAGAGTTCGACTTCTCGCAATGGAGTGAGCCCATGTCTGTATAA	MNQLYESYGVSRERYCARMDGGIYERYWDVPAIYRPVMEFGHNGMAKNLDYEGLISRGKPWVVGPLESLQPHSFCAFNEAAGPLLLGIVLIKDLANPDGPPKVRVVTFLDASGRMIEVQPTFPGNSYEDGNDSFGSLRSLPDVLAKSWLWRTAGWRVPSEPFQGPLINRCLIGHPSSMWLDADDYLDTLGKGMKKKFLPIIVDLFPDSVIEPKTSHDIRRYKFRCFLDTRPAGMGGFAGDQFFVCSTRRDQIVYHIHRGDINDIRVLHDPGDAIDRYCAHILRRLPGEFDFSQWSEPMSV				NA	NA	NA	NA	NA
BMS020_02838	669			hypothetical protein	ATGAGGGGACGGAAGCAATTTATCACCCATCCCCGTCCCTGCATTCCCCTACCAATCGCCACGCCACGGGTTCAAGCTAGCCGCCTCCTCACAGGGCACTCCAGCTATGCGCTCTATACGGCGCCGTGGGGTTGCACCATGCCTCGGCAGGCGAGATTTGAGATTCCCGGAGTACAGCGGCGGCATGTCAACCAGCGTGGGGTCAATCCCCGCACGTCCTTCCTTGATGATGACGATCGACGCGATTGCCTGCACCTGCTCGCCGAGGCGTCACGCGCATACGACGTGCAGGTCCACGCATCTGTGCTGATGACCAACCACGTAGATCTGCTCGTCAGGTGCCCGCTTGCCGGCGGCGTACTATCCCTGGTCGAGCGCCAGCGCCAACCTCGCCCTTATCACCAGTCCTCTTGCGACGCTACGCCCGACCTATCTCGTCATTGCAGCAAATCCCGACGAACGCGCTGCGTTGTACGACGCATGGCTCAACGCCGGTGTCGAAAGCGAGCAACTCGCCTCGATACATTGCCACATCCAGCAGGAGCGCAAAAGGGTGGTCCGCGCTTCCTTGAGATGGCGGAGAAAGCCTTGGTTCGCCTCGCACGTGTCCGAACCCGATGCAGGACGGTCAAAGCTCCATTGAATTACCTTCGCCTCCTTTTCCTTTAG	MRGRKQFITHPRPCIPLPIATPRVQASRLLTGHSSYALYTAPWGCTMPRQARFEIPGVQRRHVNQRGVNPRTSFLDDDDRRDCLHLLAEASRAYDVQVHASVLMTNHVDLLVRCPLAGGVLSLVERQRQPRPYHQSSCDATPDLSRHCSKSRRTRCVVRRMAQRRCRKRATRLDTLPHPAGAQKGGPRFLEMAEKALVRLARVRTRCRTVKAPLNYLRLLFL				NA	NA	NA	NA	NA
BMS020_02839	723			hypothetical protein	TTGCGGATTGGGTGGGCATCGCCCCACCACGGAGCAGTCTCGACCGGTAGCTGCAGCGCTTCGATGGAACGCCTGACGTACGTCGTTCGTCCAGGCCCGCGCGCGAGCCAGAGAATCCCGACCGTCGGTCACAGAGACTCGCGTTCAAGCGAAATGGCTTTGCGCCTGGTCTGCGGAACGTCGCGCCCGGCACTAAAAGCCTTACGGGTCGACGTTAGATCGCTGCGACGGCGAAGCAGCTTCAGTCGCGCGCGACGCTCAGAAGGCCAAACGCGGCCGTCCAGGCCTCGATATCGACGTTCCAGCACGCCATGCGACGCCGAAATCATCCCGATCGCAACGCAACGTGCTTCGCGCGCAAGGCGGATGTGGCTGACGCTTGGGAATCGGCGGCCCGAACGCGCCCCTCGGAAGCTCGCGCGATGTCCGGATACCCATGCCCGACCGTCCACGGAGCGCCAGCGCCGACCTCGGCCTTGCGGCCAGTCCTCTGGTGACACCACATCCGATCCATCTCGCCATTGCAGCGGATCCCGAAGAACGTGCAACGTTGTACGCCGCATGGATGCCGGCATCGATAGCGAGCAACTCGCCTCGATACATCGCTACATCCAGAAGGAGCGCGCAACGGGTAGTCCGCGCTTCGTTGAGATGGCGGAGAAGACCTTGGGCCGGCCTGTGCATGTCCGGTCACGTGATGGGCGGGCCAAAACTGCCGCTTAA	MRIGWASPHHGAVSTGSCSASMERLTYVVRPGPRASQRIPTVGHRDSRSSEMALRLVCGTSRPALKALRVDVRSLRRRSSFSRARRSEGQTRPSRPRYRRSSTPCDAEIIPIATQRASRARRMWLTLGNRRPERAPRKLARCPDTHARPSTERQRRPRPCGQSSGDTTSDPSRHCSGSRRTCNVVRRMDAGIDSEQLASIHRYIQKERATGSPRFVEMAEKTLGRPVHVRSRDGRAKTAA				NA	NA	NA	NA	NA
BMS020_02840	3162			hypothetical protein	ATGCGTCACCCGTTGAGGAAAGTCAGGTCCAGGGCCATGTTCACCTTCATCGGTGGGGTGCTGGTGATCAACCCGGCGTTCGCCCAGGACACGCCCGCGCCGCCACCGGCGCCCCAGTCCGCGTCGGCGCAGGACGCGGCCAAGACGCTGGATACGGTGACCGTCACCGGCATCCGCAGCAGCCTCAACCAGTCGATGGGGATCAAGCGCGATGCTGCCGGCGTGGTCGATGCGATCAGTGCCGAGGACATCGGCAAGTTTCCCGATACCAACCTGGCCGAATCGCTGCAGCGCATCACCGGCATCTCGATCGAGCGTCGCGATGGCGAGGGCGCGCAGGTCACCGCACGCGGCTTCGGTCCGCAGTTCAACACTGTCACCCTCAATGGCCGGCTGATTCCCGGCGCCGACGCGTTCGGCGCGCCCGGGCAGGTGCCGATCGGTGGCGTCGATGTGGGCACGCGCGCGTTCAACTTCGCCCAGCTCGCCTCCGAGGCGATCACCGGCATCGAAGTGTTCAAGACCAGCCGCGCCAACGCGCCCAGCGGCGGCATCGGCGCCACCATCGACATCCAGACCGACCGGCCGTTCAACCACGAAGGCATCGTCGCCAGTGCCGGCGCCAAGGGCGCCTATGACGAATCGCAGCCGTTCGGCAACGACATCACCCCGGAGGTGTCGGGCATCTTCAGCTATACCAGCCCCAACAAGGTCTGGGGCATCGGCCTCAGCGCCAGCTACCAGAAGCGCCATGGCGGCTCGGTCCAATCCACCGAGAACACCTGGAACGTGCAGGAGTGGACCGGCACCGATCCGGCGCTGCGCCCGGATGCGACCGTGGTCAACGCGCCGGCGATCGGCCAGCTGTATGCGATGCCCAACGACCTGCGCTACGCCTTCGCCGACTTCGAGCGCGAGCGCACCAACGGCCAGGCGGTGCTGCAGTTCGCACCGACCGACAGCCTGATCCTGACCTTGGACTACACCTACTCGCAGAACGAGATCACCGAGGACCGCGGCGAGCAGGGCATCTGGCTGCAGCGCGCCAACAGCTTCACCGACGTGGTGTTCGACACCGACCAGGCGGTCGCCACGCCGGTGTACCTGCGCGACGTGCCCAACGGCGCCAAGGACTTCGGCCTGGAGCAGCAACGCAACATGCAGAAGTACAAGCTCGGTTCGCTGGGCTTCAACGCCGACTGGCAGGCCACCGACCGCCTGCGCCTGACGTTCGACGCGCACAACTCCAAGACCGAGAGCCTGCCCAACGACCCGGTGACCGGTGGCAGCGCGACCTATTTCAGCCTGGCCGGCACCAACAACTGCACCGGTGGCGACAACTGCGGCGGGCAGTGGGCACAGGAGTTCTGGTTCAACGGCGGGTTGCCGATCGGTGCGCGCACCTGGTACCCGACCGCGGCCGACTCGATCGCCGGCACCAACGGCGTGGTCAACCCGGACTTCTCGGCCGAGGAACTCGGCACCCAGGTGCTGCGGATCTACTACCAGAGCCAGGTCACCGAGATCAAAGAGGGCCGCATCGACGGCCAGTGGGATTTCGACAACGGCCGCTTCCAGTTCGGCGTGGATACCGCGCGCACCACGATGCATCGGCGCACCAGCGACACCTATGCCGCGCTCGGCGACTGGGGCGTGGCCAATGCCGGCAACGAGCCGGGCATGATGGACCTGCTGAGCCCGGTCAGCATCACCGGACTGTTCGACGACTACAACCCGACCGGCGCGGCCAGCAGCGCATGGCGTGGCAATGCCGACCAGCTGGCGCTGTGGGCGGCCGATGCCTATGGCGTGAGCACGCGCTACAACTCGCAGTTCAGCGCCGACAATGAAGTCGAGGAGAAGACCCGGGCCGCGTACATGCAGCTGGAATTCCAGGGCGAGCTCGGCGGCCTGACCACCAACACCCGGATCGGCGTGCGCTACGAGAAGACCGACGTGGTCTCGACCTCGCAGGTGGCCACGCCGACGGCGATCGAATGGCAGGCCAACAACGACTTCCAGCTGATCCGCTCCTCGGACGTGCAGCCGTTCGCCGAAAAGCACAGCTACAGCCACGTGCTGCCCAACCTGGACTTCAGCATCGACTTCACCGACAAGCTCAAGGGCCGCGCTGCGTTCGGTCAGAGCATCGCGCGCGCGCCGTACAACAACCTGATCGCCGGCCCGACCCCGGGCACGCCGACCGGCTCGATCCTGATCAACCCGTCCACCCGTGCCGCCGGCAGTGCGCAGAATCCGTCGCTGGATCCGCTCGAGTCGGACAACCTCGACCTGGCGCTGGAATGGTATTTCGCCGATGCCAGCTACGTCTCGGTGACGTTCTGGAACAAGCGCGTGGCCAACTTCATCGGCAACACGGTGACCCGGCAGACGCTGTATGGGCTGCGCGACCCGACCTCCGGTCCGGACGCGCAGGCGGCGCTGGCGTTCCTGCAGAGCGCGCAATGCGCCGCGCAGGTCGGTGCGGCCGGCAACGACGTCTCGGCGGCATGCTCGGCCAACGATACCTCGCTGTTCTCGGCGGTGGCGCTGCTGCGCAACGCGGCGGCTACCGGCGGTCTGGGCGCGTACGACGGCAGTTCGGCGCAGAGCCTGGCACTGGAGAACGCCTACGACCTGGTCGGCGAGAACGACGACCCGCTGTACGAGTTCGACGTCTCGCAGCCGATCAACCAGAACAAGGCCAACATCCATGGCTGGGAGCTGGGTGGGCAGTACTTCTTCGGCGACTCGGGCTTCGGCGTGTACGCCAACTACACCGTCGTGCAGGGCGACGTCGGCTTCGACAACACGGTGATCGATCGCGACCAGTTCGCGCTGCTGGGCCTGAGCGACACCGCCAACGCGATGCTGATGTACGAGAAGCACGGCTGGAGCGCGCGCCTGGCCTGGAACTGGCGCGACGAGTACCTGATCGCGGCGAACATGGACGGCTCCAACCGCAACCCGTACTACGTCGAGCCCTACCAGCAGTGGGACCTGAGCGTGAGTTACGCGTTCAGCGAACGCCTGTCGGTCGGCTTCGAGGCGATCAACCTGACCGGCGAGGACGTGCGCTGGCACGGCCGCTCGGACAAGCAGATCATCAAGCTGGTCGACCAGAGCCCGCGCTACACGCTCGGGCTGCGCTACAACTTCTGA	MRHPLRKVRSRAMFTFIGGVLVINPAFAQDTPAPPPAPQSASAQDAAKTLDTVTVTGIRSSLNQSMGIKRDAAGVVDAISAEDIGKFPDTNLAESLQRITGISIERRDGEGAQVTARGFGPQFNTVTLNGRLIPGADAFGAPGQVPIGGVDVGTRAFNFAQLASEAITGIEVFKTSRANAPSGGIGATIDIQTDRPFNHEGIVASAGAKGAYDESQPFGNDITPEVSGIFSYTSPNKVWGIGLSASYQKRHGGSVQSTENTWNVQEWTGTDPALRPDATVVNAPAIGQLYAMPNDLRYAFADFERERTNGQAVLQFAPTDSLILTLDYTYSQNEITEDRGEQGIWLQRANSFTDVVFDTDQAVATPVYLRDVPNGAKDFGLEQQRNMQKYKLGSLGFNADWQATDRLRLTFDAHNSKTESLPNDPVTGGSATYFSLAGTNNCTGGDNCGGQWAQEFWFNGGLPIGARTWYPTAADSIAGTNGVVNPDFSAEELGTQVLRIYYQSQVTEIKEGRIDGQWDFDNGRFQFGVDTARTTMHRRTSDTYAALGDWGVANAGNEPGMMDLLSPVSITGLFDDYNPTGAASSAWRGNADQLALWAADAYGVSTRYNSQFSADNEVEEKTRAAYMQLEFQGELGGLTTNTRIGVRYEKTDVVSTSQVATPTAIEWQANNDFQLIRSSDVQPFAEKHSYSHVLPNLDFSIDFTDKLKGRAAFGQSIARAPYNNLIAGPTPGTPTGSILINPSTRAAGSAQNPSLDPLESDNLDLALEWYFADASYVSVTFWNKRVANFIGNTVTRQTLYGLRDPTSGPDAQAALAFLQSAQCAAQVGAAGNDVSAACSANDTSLFSAVALLRNAAATGGLGAYDGSSAQSLALENAYDLVGENDDPLYEFDVSQPINQNKANIHGWELGGQYFFGDSGFGVYANYTVVQGDVGFDNTVIDRDQFALLGLSDTANAMLMYEKHGWSARLAWNWRDEYLIAANMDGSNRNPYYVEPYQQWDLSVSYAFSERLSVGFEAINLTGEDVRWHGRSDKQIIKLVDQSPRYTLGLRYNF				NA	NA	NA	NA	NA
BMS020_02841	762			hypothetical protein	ATGGCACGCTACGAACTGCTCAACAACGTCGCCCACCACGACCTGCGCGTGATGCTGCGCTTCGGCCCGGCGTTCGGCGACGACACCGGCATGGTGCGCGCGTTCCCGACCGAGTTCGCCGAACTGCAGCGCGAGTACCCGATCTTCTTCCGCCAGGATGCCGGCAGTGCCGAATACCACGCCGTCGCGCTGCTCGGCTTCGGCGCGCAGGAGAACCTGTTCGTACAGGACGGGCACTGGAATGCCAGTTACCTGCCCGGCATGGTCGCCAAGGGGCCGTTCCTGATCGGCTTCCAGGAGCAGTGGATCGATGGCCAGCTGCGCCACGAGCCGGTGATCCATGTCGACCTGGACGACCCGCGCGTCAGCTTCAGCGAGGGCGAACCGGTGTTCCTGCCGCAGGGCGGCAACAGCCCGTACCTGGACCATGTCGCCGGCGTGCTGCGCGGCATCCGCGATGGCGTCGAAGGCGGTCGGCCGATGTTCGCCGCATTCGCCGCGCTCGGCCTGGTCCAGCCGCTCAAGCTGGAACTGCAGCTGGACGACAGCCATCGTGTCGCGCTCGACGGGCTGCACGCACTCGATCGCGAGCGGTTGGCGGCGCTGGACGCCACCGCGCTGCACCGCCTGCACCATGCCGGCTACCTCGAAGGGGCGTATCTGGTGCTGGCCTCGCAACACAATCTGCGCCGCCTGATGGCGGAAAAGCAGCGGCGGCTGCGGGCGCAGGCGCAGGCCGGCGATGCGGAGCGGGCCGCCTGA	MARYELLNNVAHHDLRVMLRFGPAFGDDTGMVRAFPTEFAELQREYPIFFRQDAGSAEYHAVALLGFGAQENLFVQDGHWNASYLPGMVAKGPFLIGFQEQWIDGQLRHEPVIHVDLDDPRVSFSEGEPVFLPQGGNSPYLDHVAGVLRGIRDGVEGGRPMFAAFAALGLVQPLKLELQLDDSHRVALDGLHALDRERLAALDATALHRLHHAGYLEGAYLVLASQHNLRRLMAEKQRRLRAQAQAGDAERAA				NA	NA	NA	NA	NA
BMS020_02842	1017			hypothetical protein	ATGACGCCGGTTGCACTGCCTGAACGCCACGGCGACCGGCTCGATGCCGGCGTGCTGGCCGAGCTGCGTGCCGGCAACACGCCGGTGGTGCTGCGCGGCGTGGCGCAGCACTGGCCGCTGGTGCAGGCCGGCCAGCGCGGGCGTGCCGAGGCGATGGCGCTGCTGCGCCGCCACGACGACGGCCGGTCGCGGCAGTACTCCTACGGCGCGCCGGCGATCGAAGGCCGCCCGTTCTACAGCGAGGACTACACCGGGCTGAACTTCGAGGTGCGCCGCGCCACGCTGGATGCGCTGCTGCAGCAGATCGAGGCGCATGCCGGGGACGCGCGGCCGCCGATGTTCTACCTGGCCTCGCTGCCGATCGACGATGCCCTGCCCGGGTTGCGCGCCGGCAACGACCTGGACCTGGCCGTGGCCGGCATCGCCGCACGCCCGAGCATCTGGATCGGCAACCGGGTGACGGCTTCCTGCCACTACGACGCGTTGAACAACATCGCCTGCGTCGCGGTCGGGCGGCGCCGGTTCACGCTCTTCCCGCCGGAACAGATCGGCAACCTCTACCCCGGGCCGCTGGAACCCACGCCGGGCGGGCAGGCGGTCAGTACGGTGGATTTCGCCGCGCCGGATTTCGCCCGCCATCCCGGCTTCCGCGATGCGCTGGCGCAGGCGCGCACGGCCACGCTGGAGCCGGGCGATGCGATCTTCATGCCGGCGATGTGGTGGCATCACGTCGAGGCGCTGGCGCCGTTCAACGTGCTGGTCAATTACTGGTGGAGCAGCGCGCCGGCGCACCTGGCCGCGCCGATGCACGCGCTGCAGCACGCGTTGTGGGCGCTGCGCGATCGCCCGCAGGCGGAAAAGGACGCCTGGCGCGCGGTGTTCGAGCATTACGTGTTCGGCCCGGCCGAGCAGGCCGGCGCGCACCTGCCGGCCGCGGCGCGGCAGGTGTTGGGTCCGATCGATCCGGCGTTGGCGCGGCAGCTGCGCGCGATGCTGATCGCCAAGTTGAATCGCTGA	MTPVALPERHGDRLDAGVLAELRAGNTPVVLRGVAQHWPLVQAGQRGRAEAMALLRRHDDGRSRQYSYGAPAIEGRPFYSEDYTGLNFEVRRATLDALLQQIEAHAGDARPPMFYLASLPIDDALPGLRAGNDLDLAVAGIAARPSIWIGNRVTASCHYDALNNIACVAVGRRRFTLFPPEQIGNLYPGPLEPTPGGQAVSTVDFAAPDFARHPGFRDALAQARTATLEPGDAIFMPAMWWHHVEALAPFNVLVNYWWSSAPAHLAAPMHALQHALWALRDRPQAEKDAWRAVFEHYVFGPAEQAGAHLPAAARQVLGPIDPALARQLRAMLIAKLNR				NA	NA	NA	NA	NA
BMS020_02843	1530	rebH_1		Flavin-dependent tryptophan halogenase RebH	ATGGGGCAGGTACGCAGGGTCGTCATCGCTGGCGGCGGCACCGCCGGCTGGATCGCCGGGTGCGCGCTGTCGCACCAGTTCCGCGATCTGCTGCAGATCACGCTGGTGGAGTCCGAGCAGATCGGCACGGTCGGGGTCGGCGAGTCGACGGTGCCGCCGATCCGCAGCTTCCACCGCTTCCTGCAGATCGACGAGCAGGAGTTCCTGCGCGCGGTTGCCGGCACCTTCAAGCTGGCGATCTCGTTCGAACACTGGCGGCGGCCGGGCGAGCGCTACCTGCACCCGTTCGGCATCACCGGCCAGGGCACGTTGGTGTGCCCGTTCCACCACTTCTGGCTGGAGGCGCGCGCACGCGGTTTCGGCGGCGAGCTCGGCGACTACTGCCTGGAAACCGAGGCGGCGCGCGGCGACCGCTTCGGCCTGCCGGCCGAGCCGCCGGTCAACTACGCCTATCACTTCGATGCCGGGCTGTACGCCGGCTTCCTGCGTGCGAGCGCCGAACGTCAGGGCCTGCGCCGGATCGAGGGCAAGATCCAGCAGGTGCGGCGGCATGCCGACAGCGGCGACGTGGCGGCGCTGGTGCTGGAGGACGGCCAGGTGCTGGAGGGCGACCTGTTCATCGACTGCACCGGCTTTCGCGGCCTGCTGATCGAGCAGACCCTGCAGACCGGCTACGAGGACTGGGACCAGTGGCTGCCGTGCGACCGCGCGGTGGCGGTGCAGACCGAGGCGGTGGCGCCGCCGGTGCCGTATACGCGGGCGATCGCGCACGAGGCCGGCTGGCGCTGGCATATCCCGCTGCAGCACCGGGTCGGGTGCGGGCTGGTGTTCTCCACCCGGCACATGTCCGAGGACGAAGCCCAGGCCAAGCTGCTGCGCGAGGTCGGCGCGCCGCCGCTGCGCGCGCCGTGGACGGTGCCGTTCCGCACCGGCCGCCGATGCAAGGCCTGGAACCGCAACGTGGTCGCCCTCGGGTTGGCCAGCGGCTTCATCGAACCGCTGGAATCGACCAGCATCCACCTGGCCATCGCCGCGGTGGTGCGGCTGCTGCACCTGTTCCCGGCCGATCGCGACATGCAGGCGTTGGCCGCGCTGTACAACGATGCCTGCCGGATCGACATGGAGCAGGTGCGCGACTTCATCATCCTGCACTACCACGCCACCGCGCGCGACGAGCCGCTGTGGCAGGCCTGCCGCGAGATGGCGCTGCCGCCGTCGCTGCAGCTGCGGCTGGATGCCTGGCGCACGCGTGCGCATGCCTGGCAGGGTGCCGACGAACTGTTCCGGGTCGATTCCTGGACCCACGTGCTGCTCGGCCAGGGCGTATTGCCGCACGCCCACCACCCGCTGGCACGCGCGCTACCGGATGCCGATCTGCAGCGGCTGCTGGCGACGGTGCGCGCGCCGATCGAGCGCATCGCGGCGCAGTTGCCGCCGCAGCAGGCCTTCATCGAGCGCTATTGCCGCGCCGACGACGCGGTGTGGGCGGGGCGGCCGCGCGTGCAGGCGGCGGCGGTGGCGGCCGGCTAG	MGQVRRVVIAGGGTAGWIAGCALSHQFRDLLQITLVESEQIGTVGVGESTVPPIRSFHRFLQIDEQEFLRAVAGTFKLAISFEHWRRPGERYLHPFGITGQGTLVCPFHHFWLEARARGFGGELGDYCLETEAARGDRFGLPAEPPVNYAYHFDAGLYAGFLRASAERQGLRRIEGKIQQVRRHADSGDVAALVLEDGQVLEGDLFIDCTGFRGLLIEQTLQTGYEDWDQWLPCDRAVAVQTEAVAPPVPYTRAIAHEAGWRWHIPLQHRVGCGLVFSTRHMSEDEAQAKLLREVGAPPLRAPWTVPFRTGRRCKAWNRNVVALGLASGFIEPLESTSIHLAIAAVVRLLHLFPADRDMQALAALYNDACRIDMEQVRDFIILHYHATARDEPLWQACREMALPPSLQLRLDAWRTRAHAWQGADELFRVDSWTHVLLGQGVLPHAHHPLARALPDADLQRLLATVRAPIERIAAQLPPQQAFIERYCRADDAVWAGRPRVQAAAVAAG	PGPT0011765_632	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-PYRROLNITRIN_METABOLISM,PGPT0011765-prnA|rebH|ktzQ-K14266	NA	NA
BMS020_02844	477	trmL_1	COG0219	tRNA (cytidine(34)-2'-O)-methyltransferase	ATGACCGCCCCCGTTCTCGATGTACTGCTGTACCAGCCGGAAATCCCCCCCAATACCGGCAACGTGATCCGCCTGTGCGCCAATACCGGCGCGCGTCTGCACCTGATCGAGCCGCTCGGCTTCGACCTGAGCGACCGCCAGCTCAAGCGCGCCGGCCTCGATTACCACGAATACGCCCGGCTGCAGGTCCACCCCGACCTCGACAGTGCGCTGGCCACGATCGCCCCACGCCGCCTGTTCGCGATGAGCACCCGCGGCGCGGTGCGCTACGACAGCTGGGCCTTCGCCGACGGCGATGCGTTCCTGTTCGGCCCGGAAACCCGCGGCCTGCCCGACGACGTGCTCGCGCGCGTGCCCGACGGCCAGCGCCTGCGGCTGCCGATGCAGCCGGGCAACCGCAGCCTCAACCTGTCCAACAGCGTCGCGGTGGTGGTGTTCGAGGCCTGGCGCCAGCTGGGTTTCCCCGGCGGCAGCTAG	MTAPVLDVLLYQPEIPPNTGNVIRLCANTGARLHLIEPLGFDLSDRQLKRAGLDYHEYARLQVHPDLDSALATIAPRRLFAMSTRGAVRYDSWAFADGDAFLFGPETRGLPDDVLARVPDGQRLRLPMQPGNRSLNLSNSVAVVVFEAWRQLGFPGGS	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
BMS020_02845	474			hypothetical protein	ATGAACACCAAGTCCCTGAGCGTTGCCATCGCCATCGCCGCCGGTTCCGTTCTGGCTTCGATGACCGCCTCCGCCTCCCCCATCACCACGCTGCAGGCCGTGCAGGTGCGCCCCTCGGCCGACCAGCTGGCCCAGCAGGAATACGAGCGCACCAGCCCGATCCCGACCCTGGCCGCGGTGCAGGTGCGCCCGTCGCCGGAACAGGAAGCGGCCTACCAGGCCGAGCTGGCCGCCTACGGTCGCGTCGTCACCCTCGCCGCGGTGCAGGTCCGTCCCAGCGCCGACCAGCGGGCCGAACTGCTGGCCAGCAGCGACGACGCCGAGCAGGGCAATGCCGGCTTCGGCGCCACCGCCACGATCACCGCGCTGGTCAGCGACGTCATCGTCAACCTGCCGGTGCCGCACCTGCGCCCGGCCCCGGCCGACCTGGAAGCGCTGCTGGGCGCGATCGGCCAGTTCGCCGCGCGCTACTGA	MNTKSLSVAIAIAAGSVLASMTASASPITTLQAVQVRPSADQLAQQEYERTSPIPTLAAVQVRPSPEQEAAYQAELAAYGRVVTLAAVQVRPSADQRAELLASSDDAEQGNAGFGATATITALVSDVIVNLPVPHLRPAPADLEALLGAIGQFAARY				NA	NA	NA	NA	NA
BMS020_02846	327			hypothetical protein	ATGCGCCACCTTTCCGCCGTCGTCCTGGCCGCCAGCGTGGCCGCGCTGTCCGCCTGCACCTGGGTGCCGATCGAGCAGAGCGGCAAGAGCGTGCGCGTGCTGCCGGCGGGGGCCGTGCCGGCCGGCTGCCAGAAGCAGGGCGAGGTCGTGGTCTCGGTCAAGGACCGGGTCGGCTTCATCAACCGCAATCCGCTCAAGGTGAAGGACGAGCTGGAAACCCTGGCCCGCAACGAGGCCCCGTCCGCCGGCGCCAATACCGTGCAGCCGAAGGGCGAACCGGCCGACGGCAGCCAGCGTTTCGACGCCTACCGCTGCCCGGCAGGCTGA	MRHLSAVVLAASVAALSACTWVPIEQSGKSVRVLPAGAVPAGCQKQGEVVVSVKDRVGFINRNPLKVKDELETLARNEAPSAGANTVQPKGEPADGSQRFDAYRCPAG				NA	NA	NA	NA	NA
BMS020_02847	1017	oleA	COG0332	Acyl-CoA:acyl-CoA alkyltransferase	ATGCTCTTCAAGAACGTCTCGATCGCGGGACTGGCGCATGTCGATGCGCCGCATACGCTGACTTCGCAGGAAATCAATGAGCGCCTGAAGCCGACCTTCGAGCGGCTCGGCATCAAGACCGACGTGCTCGGCGACATCGCCGGTGTGCATGCGCGCCGCATGTGGGATGCCGATGTGCAGGCCTCCGACGCGGCGACGCTGGCGGCGCGCAAGGCGCTGGAAGACGCCGGCATCGGCGCCGACCAGGTCGGCCTGGTGGTCAACACCTCGGTCAGCCGCGACTATCTCGAGCCGTCCACCGCCTCGATCGTCTGCGGCAACCTCGGCGTCGGCGACCACTGCATGGCCTTCGACGTCGCCAACGCCTGCCTGGCCTTCATCAACGGCATGGACATCGCCGCGCGCATGCTTGAGCGCGGCGAGATCGACTACGCGCTGGTGGTCGACGGCGAAACCGCCAACCTGGTCTACGAAAAGACCATCGCGCGCCTGCTCGAGGTGGAAGCCACCGCGCAGGACTTCCGCGACGAGCTGGCCGCGCTGACCCTGGGCTGCGGCGCCGCGGCGATGGTGATGGCGCGCGCCGACCTGGTGCCGGACGCGCCGCGTTACAAGGGCGGCGTGACCCGCTCGGCGACCGAGTGGAACAAGCTGTGCCGCGGCAACATGGACCGCATGGTCACCGACACCCGCATGCTGCTGCTGGAAGGCATGAAGCTGGCCGAGAAGACCTTCGTCGCGGCCAAGCAGGTGCTGGGCTGGACCGTGGACGAGCTGAACCAGTTCGTGATCCACCAGGTCAGCCGCCCGCATACCACCGCGTTCGTGAAGTCCTTCGGCATCGACCCGGCCAAGGTGATGACCATCTTCGGCGAGCACGGCAACATCGGTCCGGCCTCGGTGCCGATCGTGCTGAGCAAGCTCAAGGAGCTGGGCCGCCTGAAGAAGGGCGACCGCATCGCGCTGCTCGGCATCGGCTCGGGCATCAACTGCACGATGGCTGAAGTGGTGTGGTGA	MLFKNVSIAGLAHVDAPHTLTSQEINERLKPTFERLGIKTDVLGDIAGVHARRMWDADVQASDAATLAARKALEDAGIGADQVGLVVNTSVSRDYLEPSTASIVCGNLGVGDHCMAFDVANACLAFINGMDIAARMLERGEIDYALVVDGETANLVYEKTIARLLEVEATAQDFRDELAALTLGCGAAAMVMARADLVPDAPRYKGGVTRSATEWNKLCRGNMDRMVTDTRMLLLEGMKLAEKTFVAAKQVLGWTVDELNQFVIHQVSRPHTTAFVKSFGIDPAKVMTIFGEHGNIGPASVPIVLSKLKELGRLKKGDRIALLGIGSGINCTMAEVVW				NA	NA	NA	NA	NA
BMS020_02848	909	oleB	COG0596	Cis-3-alkyl-4-alkyloxetan-2-one decarboxylase	ATGACCACAGTCTCCGTGCCGCTGCCTGGCTACCCCGCCCACCCCAAGCGCTTCGAGGTGCGCCCGGGCATCGCGATGTCGTACCTGGACGAGGGCCCGCGCGATGGCGAGGTGGTCGTCATGGTCCACGGCAATCCGTCGTGGAGTTACCTGTGGCGGCACCTGGTCACCGGACTGAGCGATCGCTACCGCTGCATCGTGCCCGACCACGTCGGCATGGGCCTGTCGGACAAGCCCGACGACAGCCGCTACACCTACACGCTGCAGTCGCGCGTGGACGACCTGGACGCGCTGCTGCGGCACGCCGGCATCGATGCACAGACGCCGGTGACGCTGGCGGTGCACGACTGGGGCGGCATGATCGGCTTCGGCTGGGCGCTGGCGCACCATGCCCAGGTCAAGCGGCTGGTGATCACCAACACCGCTGCGTTCCCGCTGCCGGCGGCCAAGCCGATGCCGTGGCAGATCGCGATGGGCCGGCACTGGCGCCTGGGCGAATGGTTCATCCGTACCTTCAACGCGTTCTCGGCCGGTGCCTCGTGGCTGGGCGTGTCGCGGCGGATGCCGGCCGACGTGCGCCGCGCCTACGTCGCCCCGTACGACAGCTGGGACAACCGGATCAGCACGATCCGCTTCATGCAGGACATCCCGCTGTCGCCGGCCGATCGTGCCTGGTCGCTGCTGGAGCGCGCCGCGCAGGCGCTGCCCAGTTTCGCCGACCGCCCGGCGTTCATCGGCTGGGGGCTGCGCGACATCTGCTTCGACCATCACTTCCTCGAAGGCTTCCAGGCGGCGTTGCCGCAGGCCGAGGTGATGGCGTTCGCGGACGCCAACCACTACGTGCTTGAAGACAAGCACGAGGTGCTGGTGCCGGCGATCCGCGCGTTCCTGGAGCGTCATCCGCTCTGA	MTTVSVPLPGYPAHPKRFEVRPGIAMSYLDEGPRDGEVVVMVHGNPSWSYLWRHLVTGLSDRYRCIVPDHVGMGLSDKPDDSRYTYTLQSRVDDLDALLRHAGIDAQTPVTLAVHDWGGMIGFGWALAHHAQVKRLVITNTAAFPLPAAKPMPWQIAMGRHWRLGEWFIRTFNAFSAGASWLGVSRRMPADVRRAYVAPYDSWDNRISTIRFMQDIPLSPADRAWSLLERAAQALPSFADRPAFIGWGLRDICFDHHFLEGFQAALPQAEVMAFADANHYVLEDKHEVLVPAIRAFLERHPL				NA	NA	NA	NA	NA
BMS020_02849	384			hypothetical protein	ATGGCACATCCCTGCCTGTCCTGCGGCGCCTGCTGCGCCTTCTTCCGCGTTAGCTTCCACTGGAGCGAGGCCGCCCCGGAGTTGGGTGGCAGGGTGCCGGTCGAACTCACCGAGACGCTGCGCGGGCATGAGCGCGCGATGCGCGGCACCAATGCGTCCAGCCCGCGCTGCGTGGCGCTGGAGGCCGACATCGGCCGCTACAGCCGCTGCACGATCCACGACCGCCGCCCGTCGACCTGCGCGCTGGTGCCGGCGTCGCTGGAATTCGGCGCACGCAGCGCGCAATGCGACCGCTCGCGCGCGGCCTACGGCCTGCATGCGCTGACCGACGCCGACTGGGCCGGCATCAGCGAAGCCGAACGCACACCGCTGCCGGTGTTCTGA	MAHPCLSCGACCAFFRVSFHWSEAAPELGGRVPVELTETLRGHERAMRGTNASSPRCVALEADIGRYSRCTIHDRRPSTCALVPASLEFGARSAQCDRSRAAYGLHALTDADWAGISEAERTPLPVF				NA	NA	NA	NA	NA
BMS020_02850	1671	oleC	COG0318	Olefin beta-lactone synthetase	ATGACTTCGCCCTGCAATATCGCCGCGACGCTACCGCGGCTGGCGCGTGAGCGCCCCGACCAGATCGCGATCCGCTGCCCGGGCAAGCCCGGCCCGGACGGCTTCGCGCGCTACGACGTGACCCTGAGCTATGCGCAGCTGGATGCGCGCAGCGATGCGATCGCCGCCGGCCTGGCCGCGTACGGCATTGGCCGCGGCGTGCGGGCGGTGGTGATGGTGCGGCCGTCGCCGGAATTCTTCCTGCTGATGTTCGCGTTGTTCAAGGTCGGCGCGGTGCCGGTGCTGGTTGATCCCGGCATCGACAAGCGCGCGCTGAAACAGTGCCTGGACGAGGCGCAGCCGCAGGCGTTCATCGGCATTCCGTTGGCCCAGCTGGCGCGGCGGCTGCTGGGCTGGGCCAGGTCGGCGCGGCGCATCGTCACCGTCGGTACGCGCTGGGCCTGGGGTGGCACCACGCTGGCGAAGATCGAGCGCGCCGGCCACGGCGCCGGCAGCCAGCTGGCCGACACCGCGCCCGACGATGTCGCCGGCATCCTGTTCACCAGCGGCTCGACCGGCGTGCCCAAGGGCGTGGTCTACCGCCATCGCCACTTCGTCGGCCAGATCGAGCTGCTGCGCAACGCCTTCGGCATGCAGCCCGGTGGCGTCGACCTGCCGACGTTCCCGCCGTTCGCGCTGTTCGATCCGGCGCTGGGGCTGACCAGCGTGATCCCGGACATGGATCCGACCCGTCCGGCCAAGGCCGATCCGCGCAAGCTGCACGACGCGATCGCGCGCTTCGGCATCACCCAGCTGTTCGGCTCGCCGGCGCTGATGCGGGTGCTGGCCGAATACGGCCAGCCGCTGCCGACGGTCAAGCGGGTGACCTCGGCCGGTGCGCCGGTGCCGCCGGACGTGGTGGCCAAAATCCGCGCGCTGCTGCCCGAGGATGCGCAGCTGTGGACCCCGTACGGCGCCACCGAATGCCTGCCGGTGGCGGTGGTCGAGGGCCGCGAGCTGGAGGCCACGCGCGCGGCCACCGAGGCTGGCGCCGGCACCTGCGTCGGCCGCGTGGTCGCGCCGAACGTGGTGCGCATCATCGCCATCGACGATGCCGCGATCGGCGACTGGTCCGGCGTGCGCGAACTGCCGGCCGGCCAGGTCGGCGAGATCACCGTGGCCGGGCCGACCGCCACCGACAGCTACTTCAACCGCGATGCGGCCACCGCGATCGCCAAGATCCGCGAGCGGCTGGACGATGGCAGCGAGCGGATCGTGCACAGGATGGGTGACGTCGGCTATTTCGACGCCGACGGCCGGCTGTGGTTCTGCGGGCGCAAGACCCAGCGCGTGGAAGCCGCGCACGGGCCGATGTATACCGAGCAGGTCGAACCGGTGTTCAACGCGCTGGCGCAGATCGGTCGCAGCGCGCTGGTCGGCGTCGGCGCGCCGGGCCAGCAGCAGCCGGTGCTGTGCTACGAGCTGCCCGCCGATGCCTGGATCGGCCAGGAATACGACGCGCCGCCGGATGCGCTGGAGCCGCTGCTGCGTGCGAGGGCCGACGCGCATGCGCACACCGCTCCGATCACCCGTTTCCTGGCGCATCCGGGCTTTCCGGTCGACATCCGCCACAACGCCAAGATCGGCCGCGAGAAGCTGGCGGTCTGGGCGGCGGAGCAACTTGGACGCTGA	MTSPCNIAATLPRLARERPDQIAIRCPGKPGPDGFARYDVTLSYAQLDARSDAIAAGLAAYGIGRGVRAVVMVRPSPEFFLLMFALFKVGAVPVLVDPGIDKRALKQCLDEAQPQAFIGIPLAQLARRLLGWARSARRIVTVGTRWAWGGTTLAKIERAGHGAGSQLADTAPDDVAGILFTSGSTGVPKGVVYRHRHFVGQIELLRNAFGMQPGGVDLPTFPPFALFDPALGLTSVIPDMDPTRPAKADPRKLHDAIARFGITQLFGSPALMRVLAEYGQPLPTVKRVTSAGAPVPPDVVAKIRALLPEDAQLWTPYGATECLPVAVVEGRELEATRAATEAGAGTCVGRVVAPNVVRIIAIDDAAIGDWSGVRELPAGQVGEITVAGPTATDSYFNRDAATAIAKIRERLDDGSERIVHRMGDVGYFDADGRLWFCGRKTQRVEAAHGPMYTEQVEPVFNALAQIGRSALVGVGAPGQQQPVLCYELPADAWIGQEYDAPPDALEPLLRARADAHAHTAPITRFLAHPGFPVDIRHNAKIGREKLAVWAAEQLGR				NA	NA	NA	NA	NA
BMS020_02851	990	oleD_2	COG0451	2-alkyl-3-oxoalkanoate reductase	ATGAAGATCCTGGTCACTGGCGGCGGTGGATTCCTCGGCCAGGCGCTGTGCCGCGGATTGGTCGCGCGCGGGCATGAGGTGCTCAGCCTCAACCGTGGCCACTATCCCGAACTGCAGGCGCTGGGGGTCGGGCAGATCCGCGGCGACCTAGCCGATGCCGAGGTGGTCCGCCACGCCGTCGCCGGCGTCGACGCGGTGTTCCACAACGCCGCCAAGGCCGGCGCCTGGGGCAGCTACGACAGCTACCACCGGCCCAACGTGCTCGGCACCGAGAACGTGCTGGCGGCCTGTCTGGAGCACGGGATCGGCAAGCTGGTCTATACCTCCACGCCGAGCGTGACCCATCGCGCCACCCACCCGGTCGAAGGCCTCGGCGCCGACGAGGTGCCGTACGGCGAGGATTTCCAGGCGCCATACGCGGCGACCAAGGCGATCGCCGAACGCGCGGTGCTGGCGGCCAATTCGCCGAAGCTGGCGACCGTGGCGCTGCGCCCGCGGCTGATCTGGGGACCCGGCGACAACCAGCTGGTGCCGCGCTTGGCCGAGCGTGCGCGGCAGGGCCGGTTGCGCCTGGTCGGCAGTGGCGAGAACTTCGTCGACACCACCTACATCGACAACGCCGCGCAGGCGCACTTCGATGCGTTCGAGCACCTGGCGCCGGGTGCGGCCTGTGCCGGCAAGGCGTATTTCATCTCCAACGGCGAACCGCTGCCGATGCGCGAGCTGCTCAACCGGCTGCTGGCCGCGGTGGGCGCGCCGCCGGTGACCAAGGCGATCTCGTTCAAGGCGGCGTACCGCATCGGCGCGGTCTGCGAGAAGGCCTGGCCGCTGCTGCGCCTGCCGGGCGAGCCGCCGATGACGCGCTTCCTCGCCGAGCAGCTGTGCACGCCGCACTGGTATTCGATGGCGCCGGCCAAGCGCGATTTCGGCTACGTGCCACAGGTCAGCCTCGAAGAAGGGATGCGCCGGCTGGCGGCGTCGATGGGCTGA	MKILVTGGGGFLGQALCRGLVARGHEVLSLNRGHYPELQALGVGQIRGDLADAEVVRHAVAGVDAVFHNAAKAGAWGSYDSYHRPNVLGTENVLAACLEHGIGKLVYTSTPSVTHRATHPVEGLGADEVPYGEDFQAPYAATKAIAERAVLAANSPKLATVALRPRLIWGPGDNQLVPRLAERARQGRLRLVGSGENFVDTTYIDNAAQAHFDAFEHLAPGAACAGKAYFISNGEPLPMRELLNRLLAAVGAPPVTKAISFKAAYRIGAVCEKAWPLLRLPGEPPMTRFLAEQLCTPHWYSMAPAKRDFGYVPQVSLEEGMRRLAASMG				NA	NA	NA	NA	NA
BMS020_02852	159			hypothetical protein	ATGCTGCATTACGCCATCGTCTTCTTCGTCATCGCCATCATCGCCGCCGTGCTCGGCTTCAGCGGGATCGCCGGTGCGGCGACCAATATCGCCTGGATCCTGTTCGTGGTGTTCCTGATCCTGGCGGTCATCTCGATGTTCCGTCGCGGCCGGGTGTAG	MLHYAIVFFVIAIIAAVLGFSGIAGAATNIAWILFVVFLILAVISMFRRGRV				NA	NA	NA	NA	NA
BMS020_02853	480			hypothetical protein	ATGAACGGCGCTGCGCGTCCTCCGCACGCCAGCGACCACGCGGCGTTGCTGGCCCTCAACAACGCCCATGCGCTGGAACTGTCGTGGCTGACCGACGCGGCGCTGGCGGCGCTGCTCGCCGGTGCCTGGCATGCGCGCACGGTCGGCGATGCCGACGCGCTGCTGCTCGCCTTCGACCAGGACGCAGGCTATGCCAACGCGAACTTCGCCTGGTTCGCCGCGCGCCACGCCCGCTTCGTCTATATCGACCGCGTGGTGGTGGCCGATCACGCGCGCGGCGGCGGGCTCGCGGCGATGCTCTACGCCGAGCTGATCGAGCGCGCCCGCGCGGCCGGGCACGCGCGCCTGTGCTGCGAGGTCAACCACCTGCCACCCAACCCCGCCTCGCAGGTCTTCCACGCCCGGCTCGGCTTCGTCCCGGTCGGGCGCGCCACGCTCGCAGGCGGCAAGCAGGTCGACTACCTGGAACTGGCGCTGTAG	MNGAARPPHASDHAALLALNNAHALELSWLTDAALAALLAGAWHARTVGDADALLLAFDQDAGYANANFAWFAARHARFVYIDRVVVADHARGGGLAAMLYAELIERARAAGHARLCCEVNHLPPNPASQVFHARLGFVPVGRATLAGGKQVDYLELAL				NA	NA	NA	NA	NA
BMS020_02854	642	ubiJ_2		Ubiquinone biosynthesis accessory factor UbiJ	ATGCCTGGTTCCCCGCTTGATTCCCTCAAACCGCTGGCCGGTCGTGCGCTGGAAGCCGCGCTCAACCGTGCCGTCGCCCTCGATCCGGATACCCGCGACGCGCTGCAGGCGCTGGACGGGCAGCGCATCGCGCTGACCCTGGAGGCGCCGTCGCTGGCGCTGCAGATCCGGGTGTCCGGCGCTCGCCTGCAGGTCGGCCCGGTCGACGCCGTTGGCGAGCCGGACCTGGCCGTGCGCGGCTCGCTTGGCGGGCTGCTGTCGCAGCTGCCGTTCCTGGCCAACGCGCGCCGCCCCGGCAGCGCGCCGGCCGGCAAGGTCCGGGTGTCCGGCGATGCCGAGCTGGCGCGGCGGCTGCAGCAGCTGGCCGCGCGCTTCGATCCGGACTGGCAGCTGCCGTTCGTGACGGTGTTCGGCGAGGTCCTCGGCGTGCAGATCGCCGGCCTGGTGCGCGAGGCGCTGGTGCAGGCGCGGCGCAGCGCGGTCGACCTGGCGCACAGCGCCGCCGAGTTCGTCACCGAGGAGTCGCGCGACGTGGTGCCGCGCGCCGAGCAGGCCGCGTTCCACGACGATGTCGATGTGCTGCGCGACGACGTCGAGCGGATCGCGGCGCGCATCGCCCGCCTGCAGGGAGGCCGCGCATGA	MPGSPLDSLKPLAGRALEAALNRAVALDPDTRDALQALDGQRIALTLEAPSLALQIRVSGARLQVGPVDAVGEPDLAVRGSLGGLLSQLPFLANARRPGSAPAGKVRVSGDAELARRLQQLAARFDPDWQLPFVTVFGEVLGVQIAGLVREALVQARRSAVDLAHSAAEFVTEESRDVVPRAEQAAFHDDVDVLRDDVERIAARIARLQGGRA	PGPT0009560_207	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009560-ubiJ|yigP-K03690	NA	NA
BMS020_02855	1659	ubiB_1	COG0661	putative protein kinase UbiB	ATGAAGGCGTTCTTCCGCGCCAGTCGGATCGGCCGCGTGGTGCTGCGCTACCGGCTCGACGACCTGCTGATCGATACCCCGCTGGGGCGCTGGCTGCGGCTGGCCAAGCCGTTCGTGCCGCGCGCCTCGGCGCAGATCGCCGCGCAGTCGCGCGGTGCACGGCTGCGCCTGGCGCTGCAGGAGCTGGGACCGATCTTCGTCAAGTTCGGGCAGATCCTGTCCACCCGCCGCGATCTGGTGCCGCCGGACGTGGCCGAGGAACTGACCCTGCTGCAGGACCGCGTGCAGCCGTTTGACGGCCAGACCGCGCGGCAGATCGTCGAGCAGGCGCTGGGCCAGCCGGTCAGCGTGGCGTTCGCCAGCTTCGACACCACGCCGCTGGCGTCGGCGTCGATCGCCCAGGTGCATGCGGCCACGCTCGACGACGGCCGCGAGGTGGTGGTCAAGGTGCTGCGGCCGGGCATCGAGAAGCAGATCGATGCCGACATCGCGCTGCTGAACTCGCTGGCCGCGCTGGTCGAGCGCACCCATCCGCGCGCCGACAAGATCCGCCCGCGCGAGGTCGTCGCCGAGATCGAGACCACGCTGTCGGCCGAGCTCGACCTGCAGCGCGAAGGCGCCAACGCCAGCGTGCTGCGCCGGTTCTGGGAGCACTCCGACGACCTGTACGTGCCGGAAGTGATCTGGTCGCACACCGCCGAGCGCGCGTTGACGCTGGAGCGCGTCTACGGCATTCCCTCCGACGACATCGCCCGCCTCGACGCCGCCGGCATCGACCGCAAGGTGCTGGCCGCCAAGGGCGTGCGGGTGTTCTACACCCAGGTGTTCCGCGACAACTTCTTCCACGCCGATGCGCACGCCGGCAACATCTGGGTCGACAGCGACCCGGCGCGCCGCGCCAACCCGCGCTTCATCGCGCTGGACTTCGGCATCATGGGCCAGCTCTCGCAGGAAGATCAGTACTACCTGGCCGAGAACTTCATGGCGATCTTCAACCGCGACTACCGCCGCATCGCCGAGCTGCACGTGCAGGCCGGCTGGATGCCGTCGCACCTGCGCATCGACGACCTGGAAGCGGCGGTGCGCTCGGTGTGCGAGCCGTACTTCACCCGGCCGCTGTCGCAGATCTCGCTGGCCGAGGTGCTGCTGAAGCTGTTCCGCATGGCCCAGCGCTACCAGCTGACGCTGCAGCCGCAGCTGATCCTGCTGCAGAAGACCCTGCTCAACATCGAGGGCGTCGGTCGCCAGCTCGACCCGCAGATCGACATCTGGGCGGTCGCCAAGCCGGTGCTGGCGAAGATCCTGCGCGAGCGCTACAGCCCGCGCCGGGTGCTGAAGGAACTCGGCAAGCGGCTGCCGGAAATCATGACTCACGCGCCGGACATGCCGCGGCTGGTGCATGCCTGGCTGAGCCAGCAGGTCGAGGGCCGGCATCGCGTCGAGGTGGGCTCGCAGGATCTGCAGGCACTCGATGCCAGCCTGCGCCGGCTGCAGCGGCGCGGCGTCACCGCGATCACCGGCAGCGGCCTGCTGGTGGTCGCCGCGGTGCTGTACGGCCTGCACCCGGATGGCTGGTACCTGGGCGCGGTGCCGCTGTGGAGCTGGATCAGCGGCGTGATCGGCGGCGCGGCGCTGCTGTCGGCGTGGTGGCGGCGCTGA	MKAFFRASRIGRVVLRYRLDDLLIDTPLGRWLRLAKPFVPRASAQIAAQSRGARLRLALQELGPIFVKFGQILSTRRDLVPPDVAEELTLLQDRVQPFDGQTARQIVEQALGQPVSVAFASFDTTPLASASIAQVHAATLDDGREVVVKVLRPGIEKQIDADIALLNSLAALVERTHPRADKIRPREVVAEIETTLSAELDLQREGANASVLRRFWEHSDDLYVPEVIWSHTAERALTLERVYGIPSDDIARLDAAGIDRKVLAAKGVRVFYTQVFRDNFFHADAHAGNIWVDSDPARRANPRFIALDFGIMGQLSQEDQYYLAENFMAIFNRDYRRIAELHVQAGWMPSHLRIDDLEAAVRSVCEPYFTRPLSQISLAEVLLKLFRMAQRYQLTLQPQLILLQKTLLNIEGVGRQLDPQIDIWAVAKPVLAKILRERYSPRRVLKELGKRLPEIMTHAPDMPRLVHAWLSQQVEGRHRVEVGSQDLQALDASLRRLQRRGVTAITGSGLLVVAAVLYGLHPDGWYLGAVPLWSWISGVIGGAALLSAWWRR	PGPT0009520_1060	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
BMS020_02856	504			hypothetical protein	ATGAGCGCGCGCGACGACCACGCCGATCGCCGGCCCGGCGCGTCCGCGGTCGTCGCCGGCGCGATGGCGGCACGGGCAACGGCCAGCACCTATCCGGCGCCGTTCGCGGCGCGGCTGGGCGGACGCGAGAAGCGCGTGCTCGGCGACCTGTTCGGGCTGAGCGGCTTCGGCGTCAACCTGACCCGGCTTGAACCCGGCGCGATCTCCGCGCTGTGCCACGCACACAGCGTGCAGGACGAATTCGTCTACATCCTCGCCGGCCAGCCGACCCTGCGCACCGACGCCGGCGAGCAGCTGCTGCAACCGGGCATGTGCGTCGGCTTCCGCGCCGGCAGCGGCGATGCCCACCAGCTGGTCAATCGCAGCGACGCGCCGGTCGAGTATCTGGAGATCGGCGATCGCCGCAGTGGCGATGCGATCGCTTATCCGGACGACGACCTGGCGTTGCAGGTCGATGCCGATGGCCGCTGCCGCTACACCCACAAGGACGGTACTGCGTACTGA	MSARDDHADRRPGASAVVAGAMAARATASTYPAPFAARLGGREKRVLGDLFGLSGFGVNLTRLEPGAISALCHAHSVQDEFVYILAGQPTLRTDAGEQLLQPGMCVGFRAGSGDAHQLVNRSDAPVEYLEIGDRRSGDAIAYPDDDLALQVDADGRCRYTHKDGTAY				NA	NA	NA	NA	NA
BMS020_02857	588	trmR		tRNA 5-hydroxyuridine methyltransferase	ATGGACCTGCACGACCTGAAGGACGAACTGGCGCGCTTCGGTGAGGCCAACGACGCGGCCGTGGCGGCCGGCGAGGCCGGGCCGCGCATGCTCAACATCACCGCCGATACCGGCGAACTGCTGGCGGTGCTGATCCGCGCGATGCGCGCGCGCCGCGTGCTGGAGGTCGGTACCTCCAACGGCTACTCCACGCTGTGGCTGGCCGAGGCGTTGGTCGCGATCGATGGCCACGTCACCACGCTCGAATACGCCGCCGACAAGTGGGCGATGGCTTGCGCCAACTTCGCGCGCAGCGGGCTGGCGGCGCGGATCGACGCGGTGCAGGCCGATGCCGGGGCATGGCTGCAGCAGGCGCCGGAGGCCGGCTTCGACCTGGTGTTCCTGGATTCGGACCGCAGCCGCTACCTGGCCTGGTGGCCGGCGCTGCGCCGGGTGCTGCGCCCGGGCGGCCTGCTGGTGGTCGACAACGCGCTCTCGCACGCGGCGCAGATGGCGGATTTCGCGCGGCAGCTGCGCGCCGATCCGGACTTCACCTGCAGCCTGGTGCCGGTCGGCAAGGGCGAACTGCTGGCGGTGCGGGCAGAGTGA	MDLHDLKDELARFGEANDAAVAAGEAGPRMLNITADTGELLAVLIRAMRARRVLEVGTSNGYSTLWLAEALVAIDGHVTTLEYAADKWAMACANFARSGLAARIDAVQADAGAWLQQAPEAGFDLVFLDSDRSRYLAWWPALRRVLRPGGLLVVDNALSHAAQMADFARQLRADPDFTCSLVPVGKGELLAVRAE	PGPT0011950_42	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	TUMORICIDAL_COMPOUNDS	TUMORICIDAL-ANSAMITOCIN_P-3_METABOLISM,PGPT0011950-asm17-K16028	NA	NA
BMS020_02858	480			hypothetical protein	ATGCCCGTCACTGCCGATACCCGCCTGCGCGAGGCGCGGCCCGGGCCATCGCCTGCGCGCCTGCAGTCGATCCCGCGCGCGTTGCCGCTGGCGCCGACCCTGCGCCGCGCCGGTCGCGGCGATGCTGCCAGCATCCTCGCGTTCTGCCAGGACGCGGCCGGTGCCGCCCGGCCGCAGACCCTGCCGCTGCCGCTGCGCGAGGCGCTGTTCGACACCCCATGCCGCAGCTGGGCGTGGCTGGCCGAGATCGGCGGCGCGCCGGTCGGGCTGCTGCTGGCCAGTCCCGGCCTGAGCCTGCCGCAGGGCGAGTACTGCCTGGCCATCGATGCGCTGTACGTGCGCCCGGCCTGGCGTGGGCGCGGCATCGGCACGCGCCTGCGCGAGCACGCCCGCGCGATGGCCGCCGAACTCGGCTGCAGCCAGCTGCGCCTGGCCGATGCCAGTGTGCTCGCCGTCGCCGCCTCTGCCGACGCGCGGTGA	MPVTADTRLREARPGPSPARLQSIPRALPLAPTLRRAGRGDAASILAFCQDAAGAARPQTLPLPLREALFDTPCRSWAWLAEIGGAPVGLLLASPGLSLPQGEYCLAIDALYVRPAWRGRGIGTRLREHARAMAAELGCSQLRLADASVLAVAASADAR				NA	NA	NA	NA	NA
BMS020_02859	1068		COG2220	putative protein	ATGGTTTTCGCCTCCGGCCGTTCCGCCACCGCCTACCCGCAATCGCCGCAGTACCGCGACGGCGCCTTCCACAACACCGCGCCGCCGCCGCCGCGCGAGGCCTCGGCGCTGGCGCTGTGGTGGAAGTTCATGACCGGCAAGAATCCGAACACGCGCCCGGCCGCGCCGGTGCTGGTGCAGCCGCTGACCCCGACGATGCTGGCCGACGCGCCGGATGGGCGGTTGTACCGGCTTGGCCACTCCACCGTGCTGCTGCGCCTGGACGGCGGCTGGTGGCTGACCGATCCGGTGTTCTCCGAACGCGCCTCGCCGGTGCAGTGGGCCGGGCCCAAGCGCTTCGAGGCGCCGCCGATCGCGCTCGACCAACTGCCGCCGCTGCGCGGGGTGATCCTCTCGCACGACCACTACGACCATCTCGACAAGGCCACGATCCGCGCGCTGGCGCAGCGCGCCGAGCACTTCATCGCCCCACTCGGGGTTGGCGACCTGCTGCAGCGCTGGGGCGTGGCGCCGCAGCGCATCGTGCAGCTGGACTGGTGGCAGTCCTGGCGCGACGGCAACGTCGAGCTGACCGCCACGCCGGCGCAGCACTTCTCCGGGCGTTCGCCGTTCGGGCGCAATCCGACGCTGTGGGCGTCGTGGGCGATCCGCGGGCCAGGTGCCAACGTGTTTTTCAGCGGTGACGGCGGCTACGCCCCGCACTTCGCCGAGATCGGCCGGCGGCTCGGGCCGTTCGACCTGACCCTGGTCGAGTGCGGCGCCTACGACGTGCAGTGGGCCGACATCCACATGCTGCCGGAGCAGACCGTGCAGGCGCACCTGGACCTGGGTGGACGGCGCCTGCTGCCGATCCACAACGGCACCTTCGACCTGGCCTTCCACGACTGGTACGAGCCGATGGAGCGGGTGCTGGCGGCGGCGCGCACGCATGGCGTGGCGGTGTCGACGCCGCGCTTCGGTGCGCCGGTGGACATCGCCACGCCGCCGGAGGTGGACACCTGGTGGCGTGCGCCGTCGGCCGAACGCGCCGGCGGCGAGCTGGTCACGGTCGCGGAAAGCGCACGCTGA	MVFASGRSATAYPQSPQYRDGAFHNTAPPPPREASALALWWKFMTGKNPNTRPAAPVLVQPLTPTMLADAPDGRLYRLGHSTVLLRLDGGWWLTDPVFSERASPVQWAGPKRFEAPPIALDQLPPLRGVILSHDHYDHLDKATIRALAQRAEHFIAPLGVGDLLQRWGVAPQRIVQLDWWQSWRDGNVELTATPAQHFSGRSPFGRNPTLWASWAIRGPGANVFFSGDGGYAPHFAEIGRRLGPFDLTLVECGAYDVQWADIHMLPEQTVQAHLDLGGRRLLPIHNGTFDLAFHDWYEPMERVLAAARTHGVAVSTPRFGAPVDIATPPEVDTWWRAPSAERAGGELVTVAESAR				NA	NA	NA	NA	NA
BMS020_02860	1368	sasA_4		Adaptive-response sensory-kinase SasA	ATGCACGTGCCCTCGCTGCGCCTGAAGCTGCTCAAGACCATCATGGCCGCGCTGCTGCTCGGCTGGCTGTACTGGCTGGGCTGCCAGTACCTGCAGCTGTCACGGCAGCAGGACAGCCATGCCGATCTGATGCTGCGCGAGGTCGCCGAGCAGATCCTGCTGTCGATGCCACGCGGCATCGCCGACGCCAGCGGCGCCGAGCACCTGCGCCTGCCCGCGGGCCAGCCGGCCACGCCGATCCAGAAGTTCGGCAAGCTGCAGTTCCAGATCTGGCGGCTGCACGACCATCAGCGCGTGGCCGCCTCACTGGCGGCGCCGGAGGCGGCGCTGAAGGCCGATTTCCTGCCCGGCTTCGGCCATGCGCAGGTCGGCGAGGAGGCGCTGCGGGTGTATGCGGTCAGTGACGCCGAAGGCCGCGTGCAGGTGCAGGTGGGGCTGGCGCAGTCGTGGCTGCGTGCCGAGCTCGGCGACTGGGCGCGCACCGGGCTGGCGTTCGCGCTGGGCAGCCTGCTGGCGCTGGCGGCGCTGATCTGGCTGGCGGTGCACTGGAGCCTGCGCCCGATCAACCGCCTGCGCGATGCGATGGCGCAACGCGCGCCACTCGACCTGGCGCCGCTGCCGACCACCGGCATCGTCAGCGAGATCCGCCCGCTGGTGGATTCGTTCAACGCGCTGCTGGCGCGGCTGGGCACGGCGATGCAGGCCGAGCACCAGTTCCTCGCCGATGCCGCGCACGAGATCCGCACGCCGCTGGCGGCGCTGCTGACCCAGGCCGAACTGGCGCAGCGCGCGCAGACCCCTGAGCAGGCGCGCGACGCACTGGCCCGCCTGGCCGGCGGCATCGAGCGCACCTCGCGGCTGGCCCAGCAGCTGCTCGACTCGGCGCGGCTGGAGGCTTCGCAGCGCAGCGCCGAGGCGACCAGCGTGGAGCTGACCGAGGTCGCGACGATGGTCGCGCGCGAGTTCGAGGGCATGGCCTCGCGGCGGCACCAGACCCTGGCGGTCAGCGCCAGCGAGACCCCGGTGCGCGGCAACCTCGACGATCTCGGCATCCTGCTGCGCAACCTGGTCGACAACGCGGTGCGCTACGCCGGCAGCGGCGCGCGCATCGAGATCGACTGCGGCCACGCCGTCGACGGCACGCCGCAGCTGTGCGTGCGCGACAACGGCCCCGGCGTGCCGCTGGACGAGCGCGAACGGATCTTCGAGCGTTTCTTCCGCGGCAGCAGCGGCAATGGCGAGCGCGGCAGCGGCATCGGCCTGTCGCTGGTGGCGCGCATCGCGCGGCGCCACGGCGCGGTGCTGGCCACCGACGACGGCATCGGTGGCCGCGGGCTGGCGGTCAGCGTGCGCTTTCCGCGACCGTGA	MHVPSLRLKLLKTIMAALLLGWLYWLGCQYLQLSRQQDSHADLMLREVAEQILLSMPRGIADASGAEHLRLPAGQPATPIQKFGKLQFQIWRLHDHQRVAASLAAPEAALKADFLPGFGHAQVGEEALRVYAVSDAEGRVQVQVGLAQSWLRAELGDWARTGLAFALGSLLALAALIWLAVHWSLRPINRLRDAMAQRAPLDLAPLPTTGIVSEIRPLVDSFNALLARLGTAMQAEHQFLADAAHEIRTPLAALLTQAELAQRAQTPEQARDALARLAGGIERTSRLAQQLLDSARLEASQRSAEATSVELTEVATMVAREFEGMASRRHQTLAVSASETPVRGNLDDLGILLRNLVDNAVRYAGSGARIEIDCGHAVDGTPQLCVRDNGPGVPLDERERIFERFFRGSSGNGERGSGIGLSLVARIARRHGAVLATDDGIGGRGLAVSVRFPRP	PGPT0003920_647	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
BMS020_02861	657	qseB_2		Transcriptional regulatory protein QseB	GTGTCCCAGGTCCTGCTCGTCGAAGACGACCGCATGCTCGGCGATGCCGTGGCCGCCGCGCTGACCGCTGATGGCTGGCAGGTCGCGCGCGCCGCCGATGCCACCGCCGCGCGGCTGGCGCTGGTCGAGCACGCCTACGACGCGGTGCTGCTCGACCTCGGCCTGCCGCATGGCTCCGGGCTGGACGTGCTGCGCGGCATGCGTCAGCGCTACGACGCCACCCCGGTGCTGATCGTCACCGCGCGCGACCGCCTCAGCGACCGGGTCAGCGGGCTGGACGCCGGCGCCGACGACTACCTGGTCAAGCCGTTCCAGAGCGATGAGCTGTGCGCGCGGCTGCGGGCGCTGGTGCGCCGCGCGCAGGGCCGGGTGACGCCGCAGCTGGCCTGGGGCGAGGTCAGCGTCGACCCGGCCTCGCGCAGCGTCAGCCGCGCCGGCGACGACGTCCGGCTGGGCGCGAACGAGTACCGCACGCTGCTGGCGCTGATGGAGCGCCGCGGCCGCACGGTCTCGCGCGAGGTGCTGGAATCGCTGGTCTACGGCGGCGACGGCACCATCGAGAGCAACACCATCGCGGTCTACGTGCACCAGCTGCGGCGCAAGCTCGGCGAGGACTTCATCGCCACCGTGCACGGCATCGGCTACCGGATCGGCTGA	MSQVLLVEDDRMLGDAVAAALTADGWQVARAADATAARLALVEHAYDAVLLDLGLPHGSGLDVLRGMRQRYDATPVLIVTARDRLSDRVSGLDAGADDYLVKPFQSDELCARLRALVRRAQGRVTPQLAWGEVSVDPASRSVSRAGDDVRLGANEYRTLLALMERRGRTVSREVLESLVYGGDGTIESNTIAVYVHQLRRKLGEDFIATVHGIGYRIG	PGPT0003915_128	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
BMS020_02862	720	truC_2	COG0564	tRNA pseudouridine synthase C	GTGAACAGCCCCGACGATTCCCTGCGCATCCTCCATCTCGACGAGCAGCTGGCCGTGGTCGACAAGCCCGCCGGGCTGATGGTCCACGACAGCAAGCTGGCCCGGGGGGAGGACGACTTCCTGGCCGATCGCCTGCGCGAGCAGCTCGGCCGCCCGATCTTCCTGGTGCACCGGCTCGACCGTGCCACCAGCGGCTGCCTGCTGCTGGCGTTCGACCGCGAGTCCGCCAGCGCGCTCGGCAAGGCGCTGATGGCCGGCGAGGTCGAGAAGGACTACCTGGCGGTGTGCCGCGGCTGGCCGGCGGAGGCGCGCTTCAGCGTCGACCACGACCTGGACGGCGGCCCCGGCAAGCCGGTGAAGAAGCAGGCCATCACCCACTTCCAGCGCCTGCTGTGCGGCGAGCTGGAGGTGCCGTCGACGGGCTTTCCGACCTCGCGCTACGCGCTGCTGCGCTGCCAGCCGCAGACCGGGCGCTTCCGCCAGATCCGCCGCCACCTCAAGCACCTGTCGCACCACCTGATCGGCGACACCAGCCACGGCGACGGCCGCCACAACCGCACCTTCCGCATGCTCGGGGTGCACCGCATGCTGCTGCACGCCGAGCGGCTGGCGTTCCCGCATCCGGGTGGGGGCCGCATCGACGTGCGCGCGCCGGTGGAGGGTGAATTCGTCAAGGCCTGCGCCTTGTTCGGCTGGCAGGAGATTCCACCGGCCGACTGA	MNSPDDSLRILHLDEQLAVVDKPAGLMVHDSKLARGEDDFLADRLREQLGRPIFLVHRLDRATSGCLLLAFDRESASALGKALMAGEVEKDYLAVCRGWPAEARFSVDHDLDGGPGKPVKKQAITHFQRLLCGELEVPSTGFPTSRYALLRCQPQTGRFRQIRRHLKHLSHHLIGDTSHGDGRHNRTFRMLGVHRMLLHAERLAFPHPGGGRIDVRAPVEGEFVKACALFGWQEIPPAD				NA	NA	NA	NA	NA
BMS020_02863	582			hypothetical protein	ATGAGCCACCACTCCCTTGCGCCGCGCCCGCGCGGCCTGCGTCTCGGCCTGGCAGTGCTGCTGGCACTGGCCACCCCATGGGCGCTGGCGACGCCGCCCAGCGACGCCGACATCAACCGGCTGCTGGCCGCCTCGCGCGCGCAGAGCCTGATCGACGGCATGCTGCCGCAGATCGAGGCGATGCAGCAGCAACAGTTCCAGGAAGCCTTCCGCGGCCGCGAGCTCACGCCGGCCCAGGCCGACCAGCTGCAGCGCATCCAGCAACGCACCAGCCAGGCCATGCGCGACCTGATGGCCTGGTCCAAGCTGCGGCCGCTTTACCTGCAGCTGTACAAGCAGTCCTTCTCCAAGGAGGACGTGCTGGCGATGGCCGAGTTCTACGAGAGCCCGGCCGGCCAGAGCATGCTCGACAAGACCCCGGCGCTGATGCAGAACGTGATGGTGGCGATGCGCGAGCGGATCACCCCGGCGCTGGCCGACCTGGAGCGCGACCTGGACCGCATCGTCAACGAGACGCCCGCGCAGCGCGACGAGGCACCGGTCTTCGACGTCCCGGCACCGCCGGCACCGCCCCAGCGCTGA	MSHHSLAPRPRGLRLGLAVLLALATPWALATPPSDADINRLLAASRAQSLIDGMLPQIEAMQQQQFQEAFRGRELTPAQADQLQRIQQRTSQAMRDLMAWSKLRPLYLQLYKQSFSKEDVLAMAEFYESPAGQSMLDKTPALMQNVMVAMRERITPALADLERDLDRIVNETPAQRDEAPVFDVPAPPAPPQR				NA	NA	NA	NA	NA
BMS020_02864	432	arfB_1	COG1186	Peptidyl-tRNA hydrolase ArfB	ATGGGGAGCGAATTGATCCATGTCAGCGCCACGTTGTCGATTCCGGAAGCGGAACTCGTCGAGCGTTTCGTGCGCGCCAGCGGCGCCGGTGGCCAGAACGTCAACAAGGTCTCGACCGCGGTCGAGCTGCGTTTCGACGTGGCCGCCTCGCCGTCGCTGCCCGAGCCGCTGCGCGCGCGCCTGCTGGCCCGGCGCGACCGCCGGCTGACCGGCGAGGGTGTGCTGGTTATCGATGCCCAGCGCTTCCGCACCCAGGACCGCAACCGCGAGGACGCGCGCGCCCGCCTGGTGGACTTCATTGCCGACAGCCTGTCGGTGCCCAAGCGACGGATCGCGACCAAGCCTTCCCGCGCCGCGAAACTGCGCCGACTCGACGCCAAGCGCGAGCGCAGCCAGGTCAAGCGCGGGCGTTCCTCGTCCCATTGGGAGTGA	MGSELIHVSATLSIPEAELVERFVRASGAGGQNVNKVSTAVELRFDVAASPSLPEPLRARLLARRDRRLTGEGVLVIDAQRFRTQDRNREDARARLVDFIADSLSVPKRRIATKPSRAAKLRRLDAKRERSQVKRGRSSSHWE	PGPT0013740_337	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS020_02865	630			hypothetical protein	ATGAGCCCCACCGTGCCACCGTTGCCGCCGACCGCCGAGCTCGATCCGCTGCAGCAGCCGATCCCGCCCAACATGCCGCCTGGTCACGGCCCGATCGGCCGCTGGATGGGGCGCACCGCGCTGCGCCTGACCGGGTGGAAGATCCGCGGCCGGCTGCCCGACCTGGGCAAGCTGGTGATGATCGTCGCCCCGCATTCGTCCAACTGGGATGGTTTCGTCGGCTTCGCCGCCAAGTTCGCGCTCGGCTTCGAGGTCAAGGTGCTGGGCAAGGCCAGCCTGTTCTGGTGGCCGCTGGGCCCGCTGCTGCGCCGGCTCGGCGCGTTGCCGCTAGACCGCAGCTCGCCGCAGGGCACGGTTGGCCAGGCGGTGCGGCTGTTCCGCGAGTCGCCGAGCATGTGGTACGTGCTGACCCCGGAAGGCACCCGCAAGCGCGTGGAACAGTGGAAGGCCGGCTTCTGGAAGATCGCCCACCATGCCGGCGTGCCGATCCTGCCGGTGTACTTCGACTATCCCAGCCGCACCATCGGCATCGGCGAACCGTTCTGGACCGGCGAGGACATGGACGCCGACATCGCCGCGATCCGCACCTGGTACCGCCCCTGGCGCGGCAAGAACCGCGACACGCTCTGA	MSPTVPPLPPTAELDPLQQPIPPNMPPGHGPIGRWMGRTALRLTGWKIRGRLPDLGKLVMIVAPHSSNWDGFVGFAAKFALGFEVKVLGKASLFWWPLGPLLRRLGALPLDRSSPQGTVGQAVRLFRESPSMWYVLTPEGTRKRVEQWKAGFWKIAHHAGVPILPVYFDYPSRTIGIGEPFWTGEDMDADIAAIRTWYRPWRGKNRDTL				NA	NA	NA	NA	NA
BMS020_02866	999	iaaA_2	COG1446	Isoaspartyl peptidase	ATGCCCCTGTTGCCGCGCCTGTTCTGTGTTCCGCTGTTGTTCGCCGCCGGCCAGGCGTTGGCCGCCGATCCGGTGCTGGTCATCCATGGCGGTGCCGGCGTGGTCCGCGCCGGCATGACCGCGCAGGACGAGGCCGCCGCGCGTGCCGGGCTGGATCAGGCGCTGCGCGCCGGCCACGCGGTGCTGGCCAAGGGCGGGGCGGCGGTGGATGCGGTGGCCGCCACCATCACCGTGCTCGAGGACAACCCGCAGTTCAACGCCGGCAAGGGCGCGGTGTTCACCCATGACGGCCGCAACGAGCTGGATGCGGCGATCATGGATGGCCACAGCGGCGCCGCCGGTGCGATCGCCGGCGTGCACCGGGTCAGGAACCCGATCCAGCTGGCACGCGCGGTGATGGAGAACTCCAAGCACGTGATGCTGACCGGCGACGGTGCCGAAGCCTTCGCCCGCGAGCAGGGCATCGCCCTGGTCGACCCGGCCTACTTCCGCACCGACAAGCGCTGGAACCAGCTGCAGAAGGCGCTGAAGGAAGAGGCCGCCGGCCAGGCCCATGCCGACCTGGAGACCGCCAAGCATTTCGGCACGGTCGGCGCGCTGGCGCTGGACGCGCAGGGCCACCTGGCCGCCGGCACCTCCACCGGCGGCATGACCAACAAGCGCTACGGCCGCGTCGGCGACTCGCCGATCATCGGTGCCGGCACCTATGCCAACGCCCAGTGCGCGGTGTCTGGTACCGGCTGGGGCGAGTACTACATCCGTGCCGTGGCCGCCTACGACATCTGCGCCCGGATGAAGTACGCCGGCGAGCCGCTGGCCAAGGCCGCCGAGGCGGTGATCGACCAGCAGATTCCCGCCGCCGGTGGCGATGGCGGCGCGATCGCGCTCGATGCCGCCGGCAACGTCGCCTTCCCGTTCAACACCGACGGCATGTACCGCGGCTGGATCGGCGCCGACGGCGTGCCGCACGTGGCGATCTTCAAGGACGAGGCGCTCTAG	MPLLPRLFCVPLLFAAGQALAADPVLVIHGGAGVVRAGMTAQDEAAARAGLDQALRAGHAVLAKGGAAVDAVAATITVLEDNPQFNAGKGAVFTHDGRNELDAAIMDGHSGAAGAIAGVHRVRNPIQLARAVMENSKHVMLTGDGAEAFAREQGIALVDPAYFRTDKRWNQLQKALKEEAAGQAHADLETAKHFGTVGALALDAQGHLAAGTSTGGMTNKRYGRVGDSPIIGAGTYANAQCAVSGTGWGEYYIRAVAAYDICARMKYAGEPLAKAAEAVIDQQIPAAGGDGGAIALDAAGNVAFPFNTDGMYRGWIGADGVPHVAIFKDEAL	PGPT0020185_498	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020185-iaaA-K13051	NA	NA
BMS020_02867	2151	dcp_2	COG0339	Dipeptidyl carboxypeptidase	ATGTCGCGTACCGTCGTACTGGCCGCCGCCATCAGCCTGGCGCTGGCCGCCTGTTCCGGAAAAGAAGCCCCCGCCGTGCCTGAGAAGACCGCCACCACCCAGACCCCGGACGCCGCGCCGAACCCGCTGCTCAGCGCCAGCACGCTGCCGTTCCAGGCGCCGCCGTTCGACAAGATCCAGGACAGCGACTACCTGCCGGCGTTCGAGCAGGGCATGACCGAGCACCTGGCCGAGGTCCGCAAGATCGCCGACAACGCCGAGCCGGCCACCTTCGCCAACACCATCGAGGCGCTGGAGCGCTCCGGCGAGACGCTGACCCGCGTGTCGCGGATCTTCTTCGGCCTGGTCCAGGCCGATACCAACGATGCCCGGCAGAAGATCCAGGAAGAGGTCGCGCCAAAGCTGGCCGCGCACCAGGACGAGATCAACCTGGACCCGAAGCTGTTCGCGCGCATCAAGAGCGTCTACGACGCCCGCGACACGCTGAGCCTGGATCCGGAGCAGAAGCGCCTGGTCGAGCGTGACTACCAGGAGTTCGTGCGCGCCGGTGCGCAGCTGTCCGATGCCGACAAGGCCACCCTGCGCAAGCTCAACGTCGAGGAAACCACGCTCTCGACCCAGTTCCACACCAAGCTGGTCGCCGCGACCGCCGCCGGTGCGGTGGTGGTCGACGACAAGGCCAAGCTCGACGGCCTGAGCGATGGCGACATCGCCGCTGCCGAGCAGGACGCCAAGGCGCGCAAGCTCGACGGCAAGTACCTGCTGGCGCTGCAGAACACCACCCAGCAGCCGGTGCTGGCCTCGCTGAAGGACCGCGACCAGCGCGCGCTGGTGCTGCAGGCCTCTGAGACCCGCACCGAGAAGGGCGACGCCAACGACACCCGCCAGACCATCCAGCGCCTGGCCCAGCTGCGCGCGCAGAAGGCCAAGCTGCTCGGCTTCGACAGCTACGCCGCCTACAGCCTGGGCGACCAGATGGCGCGCACCCCGGAGGCCGCGCTCAAGCTGCTGACCGACACCGTGCCGGCCGCCACCGCCAAGGCGCGCAGCGAAGTGGCCGAGATGCAGAAGGTCATCGACGCCCAGAACGGCGGCTTCAAGCTGGCCGCGTCGGACTGGGACTTCTACGCCGAGCAGGTGCGCAAGGCCAAGTACGACCTCGACGAGTCGCAGATCAAGCCGTACTTCGAGCTCGACAACGTGCTGCAGAACGGCGTCTTCTACGCCGCCAACCAGCTGTACGGGATCACCTTCAAGGAACGCAAGGACATCCCGACATACAACCCGGACATGAAGGTCTACGAGGTGTTCGACAAGGACGGCAGCTCGCTGGCGCTGTTCTACACCGACTACTTCAAGCGCGACAGCAAGTCCGGTGGCGCCTGGATGGACGTGTTCGTCGAGCAGGATGGCCTGACCGGCGCCAAGCCCGTGGTCTACAACGTCTGCAACTTCACCAAGCCGGCACCGGGCCAGCCGGCGCTGCTGAGCTTCGACGACGTCACCACCATGTTCCACGAGTTCGGCCATGCGCTGCACGGCATGTTCTCGAAGGTGAAGTACCCGTCGATCGCCGGCACCAGCACCTCGCACGATTTCGTCGAGTTCCCGTCGCAGTTCAACGAGCACTGGGCGACCGACCCGAAGGTGTTCGCGCACTACGCCAAGCACTACCAGAGCGGCGAGGCGATGCCGCAGGCGCTGGTCGACAAGATCATGAAGGCGCGCACCTTCAACCAGGGCTATGCGACCACCGAGTACCTGTCGGCGGCGCTGCTCGACCTGGCCTGGCACACCCTGCCGGCCGACGCGCCGCTGCAGGACGTGGACAAGTTCGAGGCCGACGCGCTGAAGAAGTTCAAGGTCGACCTGAGTGAGGTGCCGCCGCGCTACCGCACCAGCTACTTCGACCACATCTGGGGCGGCGGCTACTCGGCCGGCTACTACGCCTACTTCTGGTCGGAAGTGCTCGACGACGACGCGTTCGAGTGGTTCAAGGAGCACGGCGGCCTGACCCGCGCCAACGGCGACACCTTCCGCGACAAGATCCTCTCGCGCGGCAATACCGTCGAGCTGGCCGACCTGTACCGCCAGTTCCGCGGCAAGGACCCGAGCGTCGAGCCGCTGCTGGAGAACCGCGGGCTGAAGTAA	MSRTVVLAAAISLALAACSGKEAPAVPEKTATTQTPDAAPNPLLSASTLPFQAPPFDKIQDSDYLPAFEQGMTEHLAEVRKIADNAEPATFANTIEALERSGETLTRVSRIFFGLVQADTNDARQKIQEEVAPKLAAHQDEINLDPKLFARIKSVYDARDTLSLDPEQKRLVERDYQEFVRAGAQLSDADKATLRKLNVEETTLSTQFHTKLVAATAAGAVVVDDKAKLDGLSDGDIAAAEQDAKARKLDGKYLLALQNTTQQPVLASLKDRDQRALVLQASETRTEKGDANDTRQTIQRLAQLRAQKAKLLGFDSYAAYSLGDQMARTPEAALKLLTDTVPAATAKARSEVAEMQKVIDAQNGGFKLAASDWDFYAEQVRKAKYDLDESQIKPYFELDNVLQNGVFYAANQLYGITFKERKDIPTYNPDMKVYEVFDKDGSSLALFYTDYFKRDSKSGGAWMDVFVEQDGLTGAKPVVYNVCNFTKPAPGQPALLSFDDVTTMFHEFGHALHGMFSKVKYPSIAGTSTSHDFVEFPSQFNEHWATDPKVFAHYAKHYQSGEAMPQALVDKIMKARTFNQGYATTEYLSAALLDLAWHTLPADAPLQDVDKFEADALKKFKVDLSEVPPRYRTSYFDHIWGGGYSAGYYAYFWSEVLDDDAFEWFKEHGGLTRANGDTFRDKILSRGNTVELADLYRQFRGKDPSVEPLLENRGLK				NA	NA	NA	NA	NA
BMS020_02868	666			hypothetical protein	GTGAAACAAGATCTGAGGGTGCTGGCGGTCCAGTTGGGCCGGGCGGCGCTGTTTGCGTTGATGGTGTCGCTGCCGCCGCTGCTGGCCTGGCTCGACGTGCACTGGCTGCACGACGGCATCGGCGAGTGGTCGTTGGTGGAGCTGAGCCAGGAAGGCTTCCTGCTGGCCAGCGCGCTGGCCTTCGTGCGCCTGGCCCGGCGCCGCGCCGACGAGCGCCGCTTCGCGCTGCTGGCGGCGGCGCTGTTCGGCTGCATGCTCCTGCGTGAGATGGACGAGCTGCTCGACCTGGTCGTGCACGGCTTCTGGAAGTACCCGGCCGCGGCGCTGGCCGCCAGCGCGATCGTCTACGGCCTGCGCGACCTGCCGGCGAGCATCGGCGGGTTGGTGCGCCTGCTCGGCTCGCGCGCCGGCACGGTGATGCTGGTCGGGCTGGTGGTGCTGCTGTTCTACTCGCGCCTGCTCGGCATGGGTTCGCTGTGGAACGGGCTGCTTGGCGAGCAGTACCTGCGCGTGTTCAAGAACGCGATCGAGGAAACCACCGAGCTGCTCGGCTACACCTTCATCCTCGCCGCCAGTCTGGGCTACGCCGCCCAGCGCATCCGCGAGCCGGTACGCGCTGCACGCGCCGCCACGCCGCTGCAGGGCGGCGTGGCCGGCCGGCGCTGA	MKQDLRVLAVQLGRAALFALMVSLPPLLAWLDVHWLHDGIGEWSLVELSQEGFLLASALAFVRLARRRADERRFALLAAALFGCMLLREMDELLDLVVHGFWKYPAAALAASAIVYGLRDLPASIGGLVRLLGSRAGTVMLVGLVVLLFYSRLLGMGSLWNGLLGEQYLRVFKNAIEETTELLGYTFILAASLGYAAQRIREPVRAARAATPLQGGVAGRR				NA	NA	NA	NA	NA
BMS020_02869	351			hypothetical protein	ATGTCCCAGCCCGAACGCCACCAGCGCATCGATTACCTCGAATTCGCCGTCGCCTCCATCCCCGCCGCCTGCCGCTTCTTCGGCGAGGCGTTCGGCTGGAGCTTCCAGGACTACGGCCCGGACTACTGCGAATTCCGCGATGGCCGACTGACCGGCGGCTTCTTCCACGGCACGCCGCAACCGGGCGGCGCGCTGGTGGTGGTCTATTCCGACGACCTGCCCGCGACCCAGGCGGCGGTGGAACGCAGCGGCGGCCGCATCGTGAAGCCGGCGTTCGACTTCCCCGGCGGCCGCCGTTTCCATTTCCTCGATCCGGACGGCTACGAGTGGGCCGCCTGGACCACGACCTGA	MSQPERHQRIDYLEFAVASIPAACRFFGEAFGWSFQDYGPDYCEFRDGRLTGGFFHGTPQPGGALVVVYSDDLPATQAAVERSGGRIVKPAFDFPGGRRFHFLDPDGYEWAAWTTT				NA	NA	NA	NA	NA
BMS020_02870	723			hypothetical protein	ATGTCGCCACCGCGCTACCGCGAGATCGTCCCGCCCGCCGCCTGGCGACAGCAGGTGCGCCGGCTGTGGCGCTACCAGGCCGGCAGCCAGCCGCAGGCACCCACGCAGGTGCTGCCCGACGGCTGCATCGACCTGATCTGGGACGGCGCGCGGCTGATCGTCGCCGGGCCGGATCCGGTCGCGGCCGAGGCGCTGATCGCCCCGGGCCGTGTGCTGACCGGCGTGCGTCTGGCCCCTGGCGCCGGGCGCGGCCTGCTTGGACTGCCGATGTCGGCATTGACCGCCCAGCGCGTCGCCCTGCACGAACTGTGGGGCGCACGCGCCGAGGCGCTGGGCGAACGCCTGGCGAGCGCGCCGCGCACGCCGGGCCGGCACCTGCTCGCAGCGCTCGCGGCGATGCCCGCCCGGGCGGACGTGCGCATGGCGGCCCTGTTCGCCCGGTTGGCCGCGGCCGAGGCGCCGCGGCTGCCGCAGCTCGCCGCCGCCCTCGGCAGCAGCGAACGCGCGCTGCGCCGCCACTGCCTGGAGCACTTCGGCTACGGGCCGAAGACCCTGCAGCGGGTCCTGCGCCTGCAGCGGCTGCTGGCACTGGCCCCGGGCCAGGCCAGCCTGACCGAGGCGGCACTGGCCGCCGGCTACGCCGATGCGGCGCACCTGGGCCACGAGAGCCGGGCGCTGGCCGGGCTGGCGCCGGGCGAGCTGCTGCGCAGGCACCGGCGCTGA	MSPPRYREIVPPAAWRQQVRRLWRYQAGSQPQAPTQVLPDGCIDLIWDGARLIVAGPDPVAAEALIAPGRVLTGVRLAPGAGRGLLGLPMSALTAQRVALHELWGARAEALGERLASAPRTPGRHLLAALAAMPARADVRMAALFARLAAAEAPRLPQLAAALGSSERALRRHCLEHFGYGPKTLQRVLRLQRLLALAPGQASLTEAALAAGYADAAHLGHESRALAGLAPGELLRRHRR				NA	NA	NA	NA	NA
BMS020_02871	957	cmpR_3	COG0583	HTH-type transcriptional activator CmpR	ATGCCCGCAACCCCGCGGTTTTCCTACAAATCCGATCGGCTCAAACCGTTGCGGGCGTTCTGCCAGACGGTGCGGCTCGGCTCGGTCTCGCGCGCCGCGGAGGCCTTGTTCGTCAGCCAGCCGGCGGTGAGCCTGCAGCTGCAGGCGCTGGAACGCGAGCTGGGCGTGGTGCTGTTCGAGCGCACCGGGCGGCGCCTGAGCCCCAGCCGCGAGGGCCAGCTGCTGTACGAGATGGCGCAGCCGCTGGTGGAGAGCCTGGACGGGCTGGAAGCCAGCTTCCGCGAGAAGGTGAAAGGGCTGGACGCCGGCGAGCTCAACATCGCCGCCAACAGCTCGACGATCCTGTACCTGCTGCCGCGGATCGTGGAGAACTTCCGCGCCCGCCACCCGGACGTGCGCCTGACCCTGCACAACGCGATCAGCGCCGACGGCACCGACCTGCTGCGCGAGGACGCGGTCGACCTGGCGGTCGGCTCGATGCTCGACGTGCCGGCCGACCTCAGCTACGCGCCGATCTACCGCTTCGAGCAGGTGCTGATCACCCCGCCCGAGCATCCACTGGCCGCCAAGCGCGAACTGAAGCTGGAGGACATCTCGCCCTATCCGCTGATCCTGCCGCCCAGGCGCCAGGTCACCTACCGCTTGGTCGACCAGGTGTTCCAGCAGGCGCGGGTGCCGTACGCGGTCGCGCTGGAGGTGGGCGGCTGGGAGGTGATCAAGCAGTACGTGGCGATGGGCATGGGCATCTCGATCGTCACCGCGATCTGCCTGACCGATGGCGACCGCGACAAGCTGGCGATGCGCCCGCTGAAGGACTGGTTTCCGACCCGCAGCTACGGCGTGGTGGTGCGCAAGGGCAAATACCTCTCGCCGCAGGCGCGCGCCTTCATCGAGCTGATCCAGCCGGACCTGTTCGCGCCGCGCAGCTACGAGGACAGCGGTCCGTCCGAGCGTTGA	MPATPRFSYKSDRLKPLRAFCQTVRLGSVSRAAEALFVSQPAVSLQLQALERELGVVLFERTGRRLSPSREGQLLYEMAQPLVESLDGLEASFREKVKGLDAGELNIAANSSTILYLLPRIVENFRARHPDVRLTLHNAISADGTDLLREDAVDLAVGSMLDVPADLSYAPIYRFEQVLITPPEHPLAAKRELKLEDISPYPLILPPRRQVTYRLVDQVFQQARVPYAVALEVGGWEVIKQYVAMGMGISIVTAICLTDGDRDKLAMRPLKDWFPTRSYGVVVRKGKYLSPQARAFIELIQPDLFAPRSYEDSGPSER	PGPT0002965_725	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002965-cysB-K13634	NA	NA
BMS020_02872	1656	aceB_1	COG2225	Malate synthase A	ATGTCCGCCACCGCTTCCTCGTTCGCCAGCCACCCGCAGGAGCACCGCGCCGCGCCGCGGGCCGATGCCGCCGAGCGCCCGACCCCGGGCCTGACCCTGACCACCCAGGTGGCCGGCCAGTCCGAGCTGCTGCCCGCCGCCGCGCTCGGCCTGCTGGTGTCGCTGCACCGGGCGATCGAGCCGGAGCGGCAGGCGCGGCTGGCGGCGCGGCGCGAGCGCCAGGCCTTCTTCGACCAGGGCGGGCTGCCGGACTTCCGCGCCGACACCGCCGCGCTCCGCGCCGAGGAGTGGCGCGTCGCGGCGATCCCGGCCGCGCTGCAGGACCGTCGCGTCGAGATCACCGGCCCGACCGACCCGAAGATGGTCATCAATGCGCTGAACTCCGGCGCCAAGGTGTTCATGGCCGACTTCGAGGATTCCACCTCGCCGACCTGGAAGAACCTGTTGGCCGGGCAGCGCGCGCTGATCGGCGCGGTGCGCGGCGACCTGAGCTTCGACACCCCGGCCAAGCACTACGCGCTGCGGCCGTTCGCCGAGCAGGCGGTGCTGATCGTGCGCCCGCGCGGCTGGCACCTGGACGAGAAGCACGTGCTGGTGGACGGCCAGCCGATCGGCGGCGGGCTGTTCGACGCGGCGCTGTTCGCCTTCCACAACGGCAAGGCGCTGCTGGCCAAGGACCGTGGTCCGTACTTCTACCTGCCCAAGCTGCAGTCGATGGAGGAGGCGGCGCTGTGGGAGAGCGCGCTGTCGCACATCGAGGCGATGCTGGGCCTGCCGCATGGGCAGATCAAGGTCACCGTGCTGATCGAGACGCTGCCGGCGGTGTTCGAGATGGACGAGATCCTGCATGCCCTGCGCGAGCGCATCGTCGGGCTGAACTGCGGGCGCTGGGACTACATCTTCTCGTACCTGAAGACCTTCCGCCGCCACGCCGACCGGGTGCTGCCCGAGCGCGGCCAGGTGACGATGACCCAGCCGTTCCTGAAGGCGTACTCGGAGCTGCTGATCAAGACCTGCCACCGCCGCGGCGCGCATGCGATGGGCGGCATGGCGGCACAGATCCCGATCAACGTTGATGAGGCCGCCAACGAACAGGCGATGGCGCGGGTGCGCGCGGACAAGCTGCGCGAGGTCACCGCCGGCCACGACGGCACTTGGGTCGCGCATCCGGCATTGATCCCGGTGGCGATGGCGATCTTCGACGAGCACATGCCCACGCCGAACCAGCACCAGCTGCTGCGCAACGACGTGCAGGCTAGCCGCGACGCGTTGATCGCGCCCAGCCCGGGCAGCGTCACCCGCGCCGGCTTCGAGGGCAATGTCGAGGTCTGCGTGCGCTACATGGCGGCCTGGCTGGACGGCAACGGCTGCGTGCCGATCCATCACCTGATGGAGGACGCGGCCACCGCCGAGATCAGCCGCGCGCAGATCTGGCAGTGGCTGCATACGCCCGGCCAGCACCTGGACGACGGCACCGCGATCGACCTGGCGCTGCTGGAGGCCACGCTGCGCACGTTGCCGGCGCGGCTGGGCAACCAGGCCGGCCTGCCTGGTGCGGCGCATCTGGGCGAGGCGATCGCCTTGCTGGATCGGCTCAGCCGCGCCGACGAACTGGCCGATTTCCTGACCCTGCCGGCGTACGCGCTGATCGATTGA	MSATASSFASHPQEHRAAPRADAAERPTPGLTLTTQVAGQSELLPAAALGLLVSLHRAIEPERQARLAARRERQAFFDQGGLPDFRADTAALRAEEWRVAAIPAALQDRRVEITGPTDPKMVINALNSGAKVFMADFEDSTSPTWKNLLAGQRALIGAVRGDLSFDTPAKHYALRPFAEQAVLIVRPRGWHLDEKHVLVDGQPIGGGLFDAALFAFHNGKALLAKDRGPYFYLPKLQSMEEAALWESALSHIEAMLGLPHGQIKVTVLIETLPAVFEMDEILHALRERIVGLNCGRWDYIFSYLKTFRRHADRVLPERGQVTMTQPFLKAYSELLIKTCHRRGAHAMGGMAAQIPINVDEAANEQAMARVRADKLREVTAGHDGTWVAHPALIPVAMAIFDEHMPTPNQHQLLRNDVQASRDALIAPSPGSVTRAGFEGNVEVCVRYMAAWLDGNGCVPIHHLMEDAATAEISRAQIWQWLHTPGQHLDDGTAIDLALLEATLRTLPARLGNQAGLPGAAHLGEAIALLDRLSRADELADFLTLPAYALID	PGPT0001445_1840	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001445-aceB|glcB-K01638	NA	NA
BMS020_02874	1296	aceA_1	COG2224	Isocitrate lyase	ATGAGCACCAAGCTGCCGACCGCCGCCGAGATCCAGAAGGACTGGGAGACCAATCCGCGCTGGGCTGGCATCACCCGCAACTACAGCGCCGCCGACGTGGTGCGCCTGCGCGGCACCGTCCACGTCGAGCATTCCATCGCCCGCCTGGGCGCGGAGAAGCTGTGGGGCTACCTGCAGGAAAAGGACTTCGTGAACGCGCTCGGCGCGCTGACCGGCAACCAGGCGATGCAGCAGGTCAAAGCCGGCTTGAACGCGATCTACCTGTCCGGCTGGCAGGTGGCCGCCGACGCCAACCTGGCCGGGCAGATGTACCCGGACCAGTCGCTGTACCCGGCCGATTCGGTCCCGGCGGTGGTCAAGCGCATCAACAACACGCTGCTGCGCGCCGACCAGCTGCACCACGCCGAGGGCAAGGACGAGATCGACTTCCTGCAGCCGATCGTCGCCGATGCCGAGGCCGGCTTCGGCGGCGTGCTCAACGCCTTCGAGCTGATGAAGGCGATGATCGAGGCTGGCGCGGCCGGCGTGCACTTCGAGGACCAGCTGGCGTCAGTGAAGAAGTGCGGCCACATGGGCGGCAAGGTGCTGGTGCCGACCCGCGAGGCGATCGAGAAGCTCAACGCCGCGCGCCTGGCCGCCGACGTGATGGGCGTACCCACGCTGCTGGTCGCGCGCACCGATGCCGAGGCGGCCGACCTGCTGACCAGCGACATCGACCCCAACGACGCGCCGCACACCACCGGCGAGCGCACCGTCGAAGGCTTCTACCGCACCCGCAATGGCCTGGACCAGGCGATCAGCCGCGGGCTGGCTTACGCACCGTACGCCGACCTGATCTGGTGCGAGACCGGCAAGCCGGACCTGGCGTTTGCGCGCAAGTTCGCCGAGGCGATCCATGCCAAGTTCCCGGGCAAGCTGCTGGCCTACAACTGCTCGCCGAGCTTCAACTGGAAGAAGAACCTGGACGACGCCACGATCGCCAAGTTCCAGAAGGAGATCGCCAGCTACGGCTACAAGTTCCAGTTCATCACCCTGGCTGGCTTCCACAGCCTGAACTACTCGATGTTCAACCTGGCCCACGGCTATGCCCGCCGCCAGATGAGCGCCTTCGTCGAGCTGCAGGAGGCCGAGTTCGCCGCCGCCGAGCGCGGCTTCACCGCGGTCAAGCACCAGCGCGAGGTCGGCACCGGCTATTTCGATGCGGTGACCCAGGCGATCCAGCAGGGGCAGTCCTCGACCACCGCGCTGACCGGGTCGACCGAGGAAGAGCAGTTCCATGGTGAGAAGGCCGCCTGA	MSTKLPTAAEIQKDWETNPRWAGITRNYSAADVVRLRGTVHVEHSIARLGAEKLWGYLQEKDFVNALGALTGNQAMQQVKAGLNAIYLSGWQVAADANLAGQMYPDQSLYPADSVPAVVKRINNTLLRADQLHHAEGKDEIDFLQPIVADAEAGFGGVLNAFELMKAMIEAGAAGVHFEDQLASVKKCGHMGGKVLVPTREAIEKLNAARLAADVMGVPTLLVARTDAEAADLLTSDIDPNDAPHTTGERTVEGFYRTRNGLDQAISRGLAYAPYADLIWCETGKPDLAFARKFAEAIHAKFPGKLLAYNCSPSFNWKKNLDDATIAKFQKEIASYGYKFQFITLAGFHSLNYSMFNLAHGYARRQMSAFVELQEAEFAAAERGFTAVKHQREVGTGYFDAVTQAIQQGQSSTTALTGSTEEEQFHGEKAA	PGPT0001550_1903	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLYOXYLIC_ACID_BIOSYNTHESIS,PGPT0001550-aceA-K01637	NA	NA
BMS020_02875	1050			hypothetical protein	ATGACCTGCGATAGCGCCGTGCCCGGCTCGGCAGACCTTACCGGTCACATCGTCAGTTCGCTGCCGGATGGCTTGCACGCGATGCTGACCCGCGAAGAACTGGCCTTGTTCGGCCGGTTTGGTCGTGAGCGCCACTTCGCCGCGCGCCAGCCGATCTTCCGCCGCGGCGATGTCCAGACCCAGATGTATGTCTGCCTGAGCGGCGAGGTCGACCTGGACTTCGGCGAGGACCTGATCGTCAAGCATCTTGGTCCGGGCGAGTTCTTCGGCGAGCTCGGCCTGCTGATCGGCAACCACGCGCGCAGCGCCGACGCCGTCGCCGCCAGCGACTGCACCCTGGTCGAGCTGGATCATGACGACTTCCAGCGCCTGGTCGAGCTGGACCCGGTGCTGGTCGCGCATTTCCTGCGGCGCACGATCCTGCGCGTGGTCAACAACGAGCAGTTGCTGATCCGCCAGCTGCGCCGGCGCAACCATGACCTTGAGCAGGCGCTGGACAACCTCTACGCGACCTCGCACCAGCTCAACCAGACCGAGGAGCTGGTCCGTACCGACGAGCTGACCGGCCTGCACAACCGGCGCGGCCTGGCCCTGCACCTGCAGGAGTGCCGCAAGGCCGGGCGTTTGCCGGGCTTCGGCCTGCTGCTGATCGATTGCGACCGCTTCAAGCAGGTCAACGACGAGCACGGCCACCTGGCCGGCGACGCGGTGCTGCAGAACGTGGCCGGTGTGCTGCGCGCGGTGATGCGCGAGGGCGACCTGGCCTGCCGCCTGGGCGGCGACGAGTTCTGCCTGTTCGTCAATGTCGCCGATACCCACGAGCTGGAACAGCTCGGCCAGCGTGTCGTCGCCAGCGTGCAGGCCCAGCTGAGCCGCGTCGACGCGGTGCCGCACAGTTGCACGGTCAGCATCGGCTCGTGCCTGCTGGATGCGACCGGCAACTGGAACGAATGGTACGCGCGCGCCGACAACGCGCTGTACGAGGCCAAGCGGCTCGGTGGCAACCGCGTGCACCGCTCGGACGAACCCCTGCCCAACGTGGCGGCCTGA	MTCDSAVPGSADLTGHIVSSLPDGLHAMLTREELALFGRFGRERHFAARQPIFRRGDVQTQMYVCLSGEVDLDFGEDLIVKHLGPGEFFGELGLLIGNHARSADAVAASDCTLVELDHDDFQRLVELDPVLVAHFLRRTILRVVNNEQLLIRQLRRRNHDLEQALDNLYATSHQLNQTEELVRTDELTGLHNRRGLALHLQECRKAGRLPGFGLLLIDCDRFKQVNDEHGHLAGDAVLQNVAGVLRAVMREGDLACRLGGDEFCLFVNVADTHELEQLGQRVVASVQAQLSRVDAVPHSCTVSIGSCLLDATGNWNEWYARADNALYEAKRLGGNRVHRSDEPLPNVAA	PGPT0025990_490	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0025990-sadC-K21019	NA	NA
BMS020_02876	2529			hypothetical protein	ATGAACGATGCCCACCAGCCCCGACTCGACGCCCCGCAGCTACGCACCCTGCTGCTGACCGACCTGTGCGATTCCACCGAGCTGGTGGAGAAGCTGGGCGACGCCCATGCGGCCGAGCTGTTCCGCGAACACGATCACCTGGTGCTGGTGCTGCAGCGGGAATGGCGCGGGCGCCTGATCGACCGTTCCGATGGCTTGCTGCTGCTGTTCGAGCGGCCGATCGACGGCCTGGGTTTCGCCCTCGACTACCAACAGGGCCTGCGCGATATCGGCAAGGCCCGCTCGCTGCGCCTGCTGGCGCGCGCCGGGCTGCATGTGGGCGAGGTGCTGACCTGGCGCAACAGCGAGGAGGCGGTGCAGATCGGCGCCAAGCCGCTGGAGGTCGAGGGCCTGGCCAAGCCGATGGCCGCGCGGTTGATGACGCTGGCGCGGCCGGGGCAGATCCTGCTGTCGGCGGTGGCCGAATCGCTGACCCACCGCGCCGCGCGCGAACTCGGCGCGCGCGGCGAACAGCTGCTGTGGAAGTCGCACGGGCGCTGGCGCTTCAAGGGCGTGCCCACCGCGCAGGAGATCTACGAGGTCGGCGAGGCCGGCCTGACCCCGCTGCGCGCACCCAAGAGCTCGCCCAAGGCGCGCCGCGACCTGCCGTTGTGGCGGCGGCCCGCCGCGCTGGTGGCGGAAGTGGCGCTGATCGCCTCGATCGGTGTCGGCACCTGGTTCATGACCCGCCCCGAGCCGGCGATTGCCTTCGCCGAGCGCGATTGGGTGGTGGTGGGGGATCTGCGCAACCTGACCGGGGATACGTTGCTGGACGATTCTCTGCAGCAGGCATTCCGAATCAGTCTGGAGCAGTCGCGCTACGTCAATGTCATGAGTGACATGAAGGTTAGGCAGACGCTTGCCTTGATGCGAAAAGATCCCAATCAAAGTGTCTTGGATCGGGAGCTTGCGTCGGAAGTCGCCATTCGCGATGGTGCGCGCGCGGTCATCCTGCCAACAGTGATCGAGTCCGGCGGGGCGTTGCGCGTGACGGCGGAGGTGATCGATCCTAAGACTCAGGCCACGGTTTATGCGTTGAGTGCCGCTGGAAAGGGCAATGGCGGCGCACTGGCGTCAATTGATCGTGTTAATGAGGAGCTTCGGATCAGGCTCGGGGAGGCAATGACCGACGTCAGCGCATCATCGGCACCTTTGCCCAAGGTTGCGACGAGTAGCCTCGATGCTCTTAGGGCGTATGGTCTCGCAACGAAGCTATACGGTATGCGCCGCTTCGACCTGGCTAGAGACTATTTTCAGAAGGCGATTGAGCTGGATAGCGGGTTTGCTCTGGCTTATCTGGGAGTGATGCGAGTCTATATATCAACCGCAGATAATCGTTCGGCGATTCCCTATCTTGAACGGGCCCGATCGCTGCGCAGCTCTTTGCCGGCACGTGACGCAATGTATCTTGACGCCTGGGTAGCCGAGCTAGGGGAGCATCCATGGAAGGATGCGCGTGAAAAGTGGGACATGCTTGCTCAAATGTATCCGGACTATTTTGCCGGCTCTGCGTTGTCGGCCTGGGCAGATTTTAGTGCCGGGGATTTTGAGTCGGCACAGGAAAAGACGTCTAGATTTAGTGTTCCGCAGAACCCCCTTCGAGACGTTGCGATCGAGTTGAAGGGACGCTCGCTTCTGGCGCAGAACAAATATTCGGAAGCTAAGGACGCTTTTCTGCAGGCCGAACAACTTGGGGGATATGGACCAACGCGTAGGAGGGTGGCGGCACTAGCTGCTGGTGGGGAGTATGTTCAGGCCCGTGAACTTCTCTCGAATCTTTCGTTGGAGGATGGACTGACGAATGGATTCGAGAAAATTTCTGTTCCGCTCGATCAGGGCGACTATCCCGGTGCCATAACTGCCGCAAAGGACGTCCTAAAGGCGACTGACGGCGCAACGCCGCTACTTCGCTATGGGCTCAGAATTGGTGCCTTGAGTGCACTTAGTCAGGCCAAAAGCAGTGAGTTCAATCCCCAGAATGTGCTTTCGCTAGCCGATCAGGCCATCGCCGATGCCGTTAGTTCGAATGCAGGGGATCGCGATGATCTCGCGATGATGGCAATGGCGGCATTGCGTTTGGCTCAGCGCAACGGAGTTTTGGTCGGAAGCGTCCAGCTAAAAAAGCTAGGCGACTTGGTAAGTGCCTCGGGTAACCCGGTATTGCGACGTATGCAGTCGATTATTGTGGCGCAGCAGGAATCCTTGAGAGGTGCGCCGGAAGAAGCGCTCAAATTTCTTGAGTCCCGAGAAAGCGCAGACGGCCCAAATATGTTCCAGTGGCATGTGGCAAAGAGGGAGTTTCTATCTCATTCGGGGAGAATATCTGATGCGGAAAAAGAAGACTCTTGGCTTGCATCAAATGGCGGGCTGGCTTACATCGAACCCTATGGCGGTCAGGCCCTTCAGGTAATGAGCGTAGGCGACGCGTCTCAGGCTAGAAGGCGCGTCACCCATCACGAGTCAGCCGCAATTGCTGCGGTGACGCGCTAA	MNDAHQPRLDAPQLRTLLLTDLCDSTELVEKLGDAHAAELFREHDHLVLVLQREWRGRLIDRSDGLLLLFERPIDGLGFALDYQQGLRDIGKARSLRLLARAGLHVGEVLTWRNSEEAVQIGAKPLEVEGLAKPMAARLMTLARPGQILLSAVAESLTHRAARELGARGEQLLWKSHGRWRFKGVPTAQEIYEVGEAGLTPLRAPKSSPKARRDLPLWRRPAALVAEVALIASIGVGTWFMTRPEPAIAFAERDWVVVGDLRNLTGDTLLDDSLQQAFRISLEQSRYVNVMSDMKVRQTLALMRKDPNQSVLDRELASEVAIRDGARAVILPTVIESGGALRVTAEVIDPKTQATVYALSAAGKGNGGALASIDRVNEELRIRLGEAMTDVSASSAPLPKVATSSLDALRAYGLATKLYGMRRFDLARDYFQKAIELDSGFALAYLGVMRVYISTADNRSAIPYLERARSLRSSLPARDAMYLDAWVAELGEHPWKDAREKWDMLAQMYPDYFAGSALSAWADFSAGDFESAQEKTSRFSVPQNPLRDVAIELKGRSLLAQNKYSEAKDAFLQAEQLGGYGPTRRRVAALAAGGEYVQARELLSNLSLEDGLTNGFEKISVPLDQGDYPGAITAAKDVLKATDGATPLLRYGLRIGALSALSQAKSSEFNPQNVLSLADQAIADAVSSNAGDRDDLAMMAMAALRLAQRNGVLVGSVQLKKLGDLVSASGNPVLRRMQSIIVAQQESLRGAPEEALKFLESRESADGPNMFQWHVAKREFLSHSGRISDAEKEDSWLASNGGLAYIEPYGGQALQVMSVGDASQARRRVTHHESAAIAAVTR				NA	NA	NA	NA	NA
BMS020_02877	318			hypothetical protein	ATGCAAACTAACGACGCTGGGCACGAGCCACTTGATCCGGCAATCGCTGACAAACTTCTTGAGAAGCTAAGCAGTGACGACAGTTTCCGCTCGCAGTTCAGTAGTAATCCAGCGGGGGCGCTCATTTCCCTTGGCGTACCCGAAGCGGCGGCGAACCTGGCGACTTCCGGCAACAGCTGTCTGTGCACGCGAAATCTCGCCTCCAAGCAAGAAATTGCAGCAACTCGCGAGGCCCTTCTTTCCTACCTGACGAGCAAGGGAACCCACACCGTCGTGCATGCCTTTGAACTAGGCGAAACCGCGGCTAAACTTCGGTAG	MQTNDAGHEPLDPAIADKLLEKLSSDDSFRSQFSSNPAGALISLGVPEAAANLATSGNSCLCTRNLASKQEIAATREALLSYLTSKGTHTVVHAFELGETAAKLR				NA	NA	NA	NA	NA
BMS020_02878	933			hypothetical protein	ATGGACGTGCTTCTGGCACTCGTCGGATGCGGACTTCTCATCAGCGAGGAAGATAACGACTTTCGTAAGCGCGATGATGCTGTGCGCTCTGCTCATTGGTGGGGATTATCGGCCTTGGCGCACAGACATGGTCGTTGGAGTGGACTGGACAGTGTCTCCATGATGGAGAGCGCGGGTATGACAGATGTTGCTGGACTACGTCGCAGACTCGGTCCGCCCCCTCCGGCGGTCAAGGAATGCTCGCAAGTTGAGGAGATCATGCCGCTGCCGAGAATTGAGGCAGATGTGTTGGAGAGAGCGTGGGCAGAAAGATGCACCTGCCGCAATTTTGACGCGCTTCGCCTGATGGATCTTGAAACGTTCTCAAAGATGCTTCAGCGCGTTCTTATGGCGCAGGGGGTTGTCGAGCGCGATGGACTCACATTCATCAAGAAGAACGTGGCGTCCGGCGGGGGCTTACACGCAATTGATGCCTATGTTGTGGTTCAAGGCGTTGATGGTGTTAAGCCGGGCATCTACCACTATCACCCAGTGAAGCATGCTCTTGAGTCGATGGAAGGGGGCGATGAGCCATTGGCCGCGCTGATGAGGAAGTGGCTATCTGGCCAGTACTGGTTCGCAGATGCGCACGTTCAAATAGTCTTGACCGCTCGCTTCGAGAGGAGCTTCTGGAAGTATCGAGAGCACTCCAAAGCCTATCGAGCTCTGGTTCTGGAGGTTGGCCATATCTCGCAAGCGATCTATTTGAGTGCTCTGGATCTGAAACTCGGTGCATTTGTGACTGCGGCGATCAACGAATGCGACATCGAACGGGTGCTTGGACTGGAATCACTGCGCGAGGGAGTGATCGCGGTCTGTGGATTTGGGCTCCGCTCGGATCGGATGCAGACGACGGAGTTCGATCCTAATGGAAGGATATGGCGTGCTGATTGA	MDVLLALVGCGLLISEEDNDFRKRDDAVRSAHWWGLSALAHRHGRWSGLDSVSMMESAGMTDVAGLRRRLGPPPPAVKECSQVEEIMPLPRIEADVLERAWAERCTCRNFDALRLMDLETFSKMLQRVLMAQGVVERDGLTFIKKNVASGGGLHAIDAYVVVQGVDGVKPGIYHYHPVKHALESMEGGDEPLAALMRKWLSGQYWFADAHVQIVLTARFERSFWKYREHSKAYRALVLEVGHISQAIYLSALDLKLGAFVTAAINECDIERVLGLESLREGVIAVCGFGLRSDRMQTTEFDPNGRIWRAD				NA	NA	NA	NA	NA
BMS020_02879	1992	accA1	COG4770	Acetyl-/propionyl-coenzyme A carboxylase alpha chain	ATGGCCAACCCTCTTTTCGACAAGATCCTGATCGCCAACCGCGGCGAAATCGCCTGCCGGGTGATCGCCAGCTGCCGCCGGCTCGGCATCGCCACGGTCGCGGTGTACTCCGACGCCGATACCGACGCCCGGCACGTGCGGCTGGCCGACGAAGCCGTCCGCATCGGCCCCGCCCCCGCGGCGGAGAGCTACCTGCGCGGCGAGGCGATCCTGGACGCCGCGCGCCGCACCGGCGCGCAGGCGATCCATCCCGGCTACGGCTTCCTGTCGGAGAACGCCGGTTTCGCCGAGGCCTGCGCCGCGGCGGGCATCACCTTCATCGGCCCCGACCCTCATGCGATCCGCGCGATGGGCGACAAGAGCGCCGCCAAGGCGCTGATGCAGGCGGCCGGCGTGCCGCTGACGCCGGGCTACCACGGCGCGCGCCAGGATGCCGAATTCCTGCGCGAACAGGCCGATGCGATCGGCTACCCGGTGCTGATCAAGGCCAGCGCCGGTGGTGGTGGCAAGGGCATGCGCCGCGTCGATGACGGCGCCGACTTTGCCGACGCCCTCGCCAGTTGCCAGCGCGAGGCCAATGCCGCATTCGGCAACGCGCACGTGCTGGTGGAGAAGTACATCGAACGGCCCCGGCATATCGAGATCCAGGTGTTCGGCGACCGCCACGGCAACCTCGTGCATCTGTTCGAGCGCGACTGCTCGGTGCAACGACGCCACCAGAAGGTGCTTGAAGAAGCACCCGCACCGGGCATGAGCGCCGAGCGGCGCGAGGCGATGGGCCGCGCCGCGGTGGACGCGGCGCGCGCGGTCGACTACGTCGGCGCCGGCACGGTCGAGTTCATCGCCGGACCCGATGGCGACTTCTACTTCATGGAAATGAACACCCGCCTGCAGGTCGAGCACCCGGTGACGGAGTTCATCACCGGCACCGACCTGGTGGAGTGGCAGCTCCGCGTCGCCGCCGGCCAGCCGCTGCCCCGGCGCCAGGACGAACTGCACATCCAGGGCCACGCAATCGAGGCGCGGCTATACGCCGAGGATCCGGACCGCGGCTTCCTGCCCTCCACCGGCATGCTGCGCCACCTGCGCTTTCCGGACGCCGACAGCCACGTGCGCATCGATACCGGCGTCGAACAGGGCGATGCGATCAGCCCCTATTACGACCCGATGATCGCCAAGCTGATCGTCTGGGATGTGGACCGCGACGCCGCGCTGCGGCGGATGGCCCGCGCGCTCAAGGCCTGCGAGATCGCCGGCATCCACAGCAACATCGCGTTCCTGGCACGCCTGGTTGCAACGGATTCGTTTGCGAATGCACGCCTGGATACCGCGCTGATCGAGCGCGAGCATGATGCGTTGCAGCCGCAGCACATGCTGGACGATGTCCGCTGGCTGATGGCCGCGGTACTCGCGGCCGAGCTCGGACCGCAGGCCGCTGTCGATGCTGCCGATCCGACATCCCCGTGGCATGCAACAGATGGCTGGCGCTTGGGTGACCCTGCCTGGCAGCGCATCGGGCTGGAGCATGCCGGACGCCACCGCGAGCTGTTGGTGCGACATCGCCACGGAGAATGGGAAGCCGCCGTAGACGGACAAACAAGTGTCATCCGCTGCGACCAAATCGACGGCCGCTGGCAGCTATGGATCGACGGACAGCGCTGCGCCCTGCGCTGCCATCGCGACGGACAACGCCTGACGTTGTTTGGCAACGAGGGCGGCGATCAGTTCCTGCTGCACGACGCGATCGCTGAAGCGGACCAGCCATCCGCCGAGCACGGTAACCTCACCGCGCCCATGCCGGGACGGGTTCTAGCGCTGCTCGTCGCGCCCGGAAGCGCGGTAAAGCGTGGCCAGGCACTGCTGGTGCTGGAAGCGATGAAGATGGAGCACAGCCTTTGCGCACCAGCCGATGGAACTGTCAGCACCTTCAGAGTTGAGGAAGGCGATCTCGCTTCCGAGGGTGCAGTGCTCGTAGATTTCAGCGATAAATGA	MANPLFDKILIANRGEIACRVIASCRRLGIATVAVYSDADTDARHVRLADEAVRIGPAPAAESYLRGEAILDAARRTGAQAIHPGYGFLSENAGFAEACAAAGITFIGPDPHAIRAMGDKSAAKALMQAAGVPLTPGYHGARQDAEFLREQADAIGYPVLIKASAGGGGKGMRRVDDGADFADALASCQREANAAFGNAHVLVEKYIERPRHIEIQVFGDRHGNLVHLFERDCSVQRRHQKVLEEAPAPGMSAERREAMGRAAVDAARAVDYVGAGTVEFIAGPDGDFYFMEMNTRLQVEHPVTEFITGTDLVEWQLRVAAGQPLPRRQDELHIQGHAIEARLYAEDPDRGFLPSTGMLRHLRFPDADSHVRIDTGVEQGDAISPYYDPMIAKLIVWDVDRDAALRRMARALKACEIAGIHSNIAFLARLVATDSFANARLDTALIEREHDALQPQHMLDDVRWLMAAVLAAELGPQAAVDAADPTSPWHATDGWRLGDPAWQRIGLEHAGRHRELLVRHRHGEWEAAVDGQTSVIRCDQIDGRWQLWIDGQRCALRCHRDGQRLTLFGNEGGDQFLLHDAIAEADQPSAEHGNLTAPMPGRVLALLVAPGSAVKRGQALLVLEAMKMEHSLCAPADGTVSTFRVEEGDLASEGAVLVDFSDK	PGPT0019850_118	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019850-atuC|atuF-K13777	NA	NA
BMS020_02880	1611		COG4799	Methylmalonyl-CoA carboxyltransferase 12S subunit	ATGACCTTGCTGACCACCCAGCTCCAGACCGGCAGCGACACCTTCCAGGCCAATGCCGCGGCGATGCGCGCACAGGTCGAGGATCTGCGCGTGACGCTGGCGCGCACCGCGCGCGGCGGCAGCGAGGCTGCGCGCGCCAAGCACACCGGCCGCGGCAAGCTGCTGGTGCGCGAGCGCATCGACGCCCTGCTCGACCCGGGCAGCCCGTTCCTGGAGATCGGCGCGCTGGCCGCGCACGGCATGTACGACGATGCGGTGCCGTGCGCCGGCGTGGTCGCCGGCATCGGCCGGATCGAAGGCGTGGAATGCATGATCGTCGCCAACGACGCCACGGTGAAGGGCGGCACCTACTACCCGATCACGGTCAAGAAGCACCTGCGCGCGCAGGAGATCGCCCAGCAGAACCATCTGCCGTGCATCTACCTGGTCGATTCCGGCGGCGCCTTCCTGCCGATGCAGGACGAGGTGTTTCCCGACCGCGACCACTTCGGGCGGATCTTCTACAACCAGGCCAACCTGTCGGCACAGGGCATCGCGCAGATCGCCTGCGTGATGGGCAGCTGTACCGCCGGCGGCGCCTACGTGCCGGCGATGAGCGACGAGACGGTGATCGTGCGCGGGCAGGGCACCATCTTCCTTGGCGGTCCGCCGCTGGTGAAGGCCGCCACCGGCGAGGTGGTCAGCGCCGAGGAGCTCGGCGGCGCCGACGTACACACGCGCATTTCCGGCGTCGCCGACCACATCGTCGACAACGACCACCAGGCATTGGCGCGGGTGCGCGCGATCGTCGCCACGCTCAACCGGCGCAAGCCGCCGCACGCGCAGGCACTGCGCGATCCGGAGCCCCCTGCGCTGCCCGCCGAAGACCTGTACGGCGTGATCCCGCTGGACGCACGCAAGCCGTTCGACGTGCGCGAGGTCATCGCCCGCATCGTCGACGGCTCGCGCCTGGACGAGTTCAAGCCGCGCTACGGCAGCACGCTGGTGACCGGCTTCGCCCACCTGCACGGCTACCCGGTCGGGATCATCGCCAACAACGGCATCCTGTTCTCCGAATCGGCGCAGAAAGGCGCGCACTTCATCGAACTGTGCTGCCAGCGCGGCATCCCGCTGGTGTTCCTGCAGAACATCACCGGCTTCATGGTCGGGCGCAAGTACGAACACGGCGGCATCGCCAAGGACGGGGCCAAGCTGGTGATGGCGGTGGCCTGTGCGCGCGTGCCGAAGTTCACCGTCGTGATCGGCGGCAGCTTCGGCGCCGGCAACTACGGCATGTGCGGGCGGGCGTACGCGCCGCATTTCCTGTGGCTGTGGCCGAATGCGCGCATCGGCGTGATGGGCGGCGAGCAGGCCGCGAACGTGCTGGCGACGGTGCGCCGCGACGGCATCGAAGCCGGTGGCGGGCAATGGCCGGCGGAGGACGAGGAAGCATTCAAGGCGCCGATCCGCGCGCAGTTCGAGCAACAGGGGCATCCGTATTACGCCAGCGCGCGGTTGTGGGACGACGGCGTCATCGACCCGGTCGACACCCGTCGGGTGCTGGCGCTGGGCCTGTCCGCCGCGCTCAATGCTCCAGCGCAGCAAACGCGCTTCGGCGTGTTCCGGATGTGA	MTLLTTQLQTGSDTFQANAAAMRAQVEDLRVTLARTARGGSEAARAKHTGRGKLLVRERIDALLDPGSPFLEIGALAAHGMYDDAVPCAGVVAGIGRIEGVECMIVANDATVKGGTYYPITVKKHLRAQEIAQQNHLPCIYLVDSGGAFLPMQDEVFPDRDHFGRIFYNQANLSAQGIAQIACVMGSCTAGGAYVPAMSDETVIVRGQGTIFLGGPPLVKAATGEVVSAEELGGADVHTRISGVADHIVDNDHQALARVRAIVATLNRRKPPHAQALRDPEPPALPAEDLYGVIPLDARKPFDVREVIARIVDGSRLDEFKPRYGSTLVTGFAHLHGYPVGIIANNGILFSESAQKGAHFIELCCQRGIPLVFLQNITGFMVGRKYEHGGIAKDGAKLVMAVACARVPKFTVVIGGSFGAGNYGMCGRAYAPHFLWLWPNARIGVMGGEQAANVLATVRRDGIEAGGGQWPAEDEEAFKAPIRAQFEQQGHPYYASARLWDDGVIDPVDTRRVLALGLSAALNAPAQQTRFGVFRM	PGPT0008345_106	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-VOLATILE_RELATED_FATTY_ACID_METABOLISM,PGPT0008345-accD-K01970	NA	NA
BMS020_02881	1164	acdA_1	COG1960	Acyl-CoA dehydrogenase	ATGCATGTGCCAACCCTGGACTTCGCCCTGGGTGAAGACCTCGACCTGCTGCGCTCGAGCGTGGCCGCGTTCGCCGCGCGCGAAATCGCCCCGCGCGCCGCGGCGGCAGACCACGACAATCTGTTCCCGCACACGCTGTGGCCATTGCTGGGCGAGCAGGGGCTGCTCGGGCTGACCGTGGAGGAGGAGTTCGGTGGCAGCGGCCTGGGCTATCTCGCCCACGTGGTGGCGATGGAGGAGGTTTCGCGTGCGAGCGGCGCGATCGGGCTGTCGTACGGCGCGCACTCCAACCTGTGCCTCAACCAACTGCGCAAGAACGCCACCACCGAGCAGAAGCAGCGCTACCTGCCACGGTTGTGCAGCGGCGCGCAGGTCGGCGCGCTGGCGATGAGCGAACCTGGCGCCGGCTCGGACGTGGTCTCGATGAAGCTGCGCGCCGAGCGCCGTGGCGACCGCTTCGTGCTCAACGGCACCAAGATGTGGATCACCAATGGCCCCGACGCCGATGTACTGGTGGTCTACGCCAAGACCGATCCCGACGCCGGTGCGCGCGGCATCACCGCCTTCATCGTCGAAAAGGACTTCGCCGGCTTCGCCACCGCGCAGAAGCTCGACAAGCTCGGCATGCGCGGCTCCAACACCTGCGAGCTGGTGTTCACCGACTGCGAGGTGCCGGTGGAAAACGTGCTCGGCGAGGTGGGCGGTGGCGTGCGCGTGCTGATGTCCGGGCTGGACTTCGAGCGCGTGGTGCTTGCCGGCGGTCCGCTCGGCCTGATGGCGGCCGCGCTCGACGTGGTGCTGCCCTACGTGCATGAGCGCCACCAGTTCGACGCGCCGATCGGCAGCTTCCAGCTGATCCAGGCCAAGCTTGCCGACATGTATGTCGGGCTCAACGCGTGCCGCGCCTATGTGTACGCGGTGGCCCGCGCCTGCGACGCCGGCCGCACCACCCGCCGCGACGCAGCCGGCGCGATCCTCTACGCCGCCGAGAAGGCGACCTGGCTGACCGGCCAGGCGATCCAGATCCTCGGCGGCAACGGCTACATCAACGAGTATCCGACCGGCCGCCTGTGGCGCGACGCCAAGCTGTACGAGATCGGTGCCGGCACCTCGGAGATCCGCCGCATGCTGATCGGCCGCGAGTTGTTCGAGCGCACGTGCTGA	MHVPTLDFALGEDLDLLRSSVAAFAAREIAPRAAAADHDNLFPHTLWPLLGEQGLLGLTVEEEFGGSGLGYLAHVVAMEEVSRASGAIGLSYGAHSNLCLNQLRKNATTEQKQRYLPRLCSGAQVGALAMSEPGAGSDVVSMKLRAERRGDRFVLNGTKMWITNGPDADVLVVYAKTDPDAGARGITAFIVEKDFAGFATAQKLDKLGMRGSNTCELVFTDCEVPVENVLGEVGGGVRVLMSGLDFERVVLAGGPLGLMAAALDVVLPYVHERHQFDAPIGSFQLIQAKLADMYVGLNACRAYVYAVARACDAGRTTRRDAAGAILYAAEKATWLTGQAIQILGGNGYINEYPTGRLWRDAKLYEIGAGTSEIRRMLIGRELFERTC	PGPT0002285_498	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
BMS020_02882	639	slmA_1		Nucleoid occlusion factor SlmA	ATGGCCTACAAACGCTCTTCGCTGATGGAACAGCGGCTCGCCGGCAATCGCGAGCGGATCCTGCTGGCCGCGCGCAAGCTGGTGGCCGGCGGTGGGTACCGCAACGCGCCGGTGACGGCGGTGGCGGCGGCCGCCGGCGTCTCCACCGGACAGATCTACCGTTACTTTCCGTCCAAGGCCGAGCTGTTCGTCGAGGTGTTGAACCAGGCGGTCACGCACGAGGTCGCGCTGCTGCGCGCGATCGCCGCCGGCGAGGGCAGCGCCACGCAGCGGCTGCGCCAGGCGGTGGAGTCGTTCGTGCGCCGTGCGCTGGCCGGGCCCGGGCTGGCCTATGCGTTCATTGCCGAACCGACCGAAGAGGACGTGGAAGCCGAGCGCATCCGCGGCCGGCGCGCGTTCGGCGAGGTGTTCCGCGCTCTGCTGGCCGAGGGCGTGGCCGCCGGCGAGCTGCCCGAGCAGGACCTGGACGTGGCCGCGGCCTGCATCGTCGGCGCGTTCACCGAGGCGCTGGTCGGGCCGATCGCGCCAACCCGCGCCGGTCCACGCGACGGCGAGCGCCTGGTCGAGACGATCTGCAGCTTCTGCCTGCGTGCAGTCGGCGTGCGCGCGCGTCGGCCGCGCGCGCCCCGGCCCGCATAG	MAYKRSSLMEQRLAGNRERILLAARKLVAGGGYRNAPVTAVAAAAGVSTGQIYRYFPSKAELFVEVLNQAVTHEVALLRAIAAGEGSATQRLRQAVESFVRRALAGPGLAYAFIAEPTEEDVEAERIRGRRAFGEVFRALLAEGVAAGELPEQDLDVAAACIVGAFTEALVGPIAPTRAGPRDGERLVETICSFCLRAVGVRARRPRAPRPA				NA	NA	NA	NA	NA
BMS020_02883	333			hypothetical protein	GTGATCTGGCTCGCACTCGCGTTGAGCTATTCCGGCTTCACCGCGCTGTGTCTGGCGATGGACAAGCACCGGCTGGAACTGCGCGGCAAGGATGCATTCGCGCCGCGCGTCGTACGTGGCCTGCGCTGGGCCGGCTGGGTGCTGCTGGGCGTGGCGTTCGCGCTGTGCGTGGCTGGCAGCGGCTGGGCACTCGGCCCGGTGCAGTGGTTGGGTGCGCTGACCGCCGCCGCCGCAGTGCTGGCGTTGTGGCTGCTGCCCTACCGGCAGCAGGCCATCATCCCGGCGGCATTCGCCGCACCGGCGGTCGGGCTGGCACTGGCCCTGCTCGGCTAG	MIWLALALSYSGFTALCLAMDKHRLELRGKDAFAPRVVRGLRWAGWVLLGVAFALCVAGSGWALGPVQWLGALTAAAAVLALWLLPYRQQAIIPAAFAAPAVGLALALLG				NA	NA	NA	NA	NA
BMS020_02884	1635			hypothetical protein	ATGAAGCAGGGGTTCCGCCAGTCGATGGCCTGGCTGCACACCTGGACCGGCCTGCTGGTCGGCTGGGTGCTGCTGCTGATCTTCATGGGCGGCACCGCGAGCTACTACCGGCAGGAAATCAGCCGCTGGATGCGCCCGGAGCTGCCGGCCACCCAGGTCGATGCAGGCACCGCGCTGCGCAGCGCCGAGCACTACCTGCGTGCGCACGCCGGCGACGCGCAGAGCTGGAACATCATGCTGCCGACGCCGCGCGACCCGGCGATGCGGATGTACTGGCTCAACCCGACGCCGCCGCCCGGTACCGAGGTCTCGCGGCGGTCGATGTACGGCAACGCCACCATCGATCCGTCCACCGGCGAGGAGATCGCCGCGCGTGACACCATGGGCGGCGACTTCTTCTACCGCCTGCATTTCGACCTGCACTACATCCCGGTGGTGTGGGCGCGCTACATCGTCGGCTTCTGCGCGATGTTCATGCTGGTGGCGATCATCAGCGGCGTGATCACCCACAAGAAGATCTTCGCCGATTTCTTCACCTTCCGCCCGGGCAAGGGCCTGCGTTCGTGGCTGGATTTCCACAACGTCAGTGCGGTGCTGGCATTGCCGTACCACGCGATGATCACCTACACCGGCATCGTCACGCTGATGTTCATGTACCTGCCATGGGGCATCAAGGCGACCTACCCCGACGGCGAGATGCGCTTTTACGACGAGGCCTTCAACCGCGTCGCCGACAGCCGCGAGGCGGCCGGCGTGCCGGCGGCGATGCTGCCGCTGCAGCGCCTGCTCGAGCAGGCGCGTGCGCAGTGGCCGGCCGGCACGCCGATCGCCACCGTGTTCGTGAACCACCCCGACGACGCCAACGCCAGCGTCGCGGTGACCCAGGCCAGCACCGCCTCGCTGTCGGTCGATGCGCCCGCGCTGCTGTTCGATGCCGGCAGCGGCGAGCTGCTGGCGCGCAACGGCGCCCCGGGCGGCGCCACCCAGACCCGCGGGGTGATGTACGGCCTGCACATGGCCGAGTTCGCCAAGCCAGTGCTGCGCCTGCTGTTCTTCGGCTCCGGCCTGCTCGGCTGCCTGATGGTCGCCAGCGGCGTGGTGCTGTGGGCAGTGAAGGAACGCCCCAAGCATCTCAAGAGCGGTCGCATCGGCTTCGGCCTGCGCCTGGTCGATGCGCTCAACATCGGCGCGGTGGCCGGGCTGCCGATCGCCTTTGCCAGCTATTTCTGGGCCAACCGGCTGCTGCCGGTCGGCATCGAGGGCCGCGCCGACGTGGAGATCGCGGTGTTCTTCTGGGCCTGGGCGGCGGCATTGCTGGCCGCGTTCGTGTGGCCGAAGCGGATGATGTGGGCGTGGCAGCTGTACCTGGGCGCGGCGCTGTTCGCGCTGGTGCCGGTGCTCAACGCGCTGACCACGCACGTGCACCTGGGCGTGACCCTGCCCGCCGGCGACTGGGCCCTGGCCGGGGTCGACCTGGTCTGCCTGTTTCTCGGCATCTGTCTCGGCGTGGCCGCCAGGCGCATGCAGCGTTGGCAGCCGCCGCTGACCGCAGCGCAGCGCCGCGCCAAGGCCGCGCCCGCCGCCGCGGCACCGGCTGGCCGCATCGCCGAGCCGGCGCGCGAGGGCGCAGCGTGA	MKQGFRQSMAWLHTWTGLLVGWVLLLIFMGGTASYYRQEISRWMRPELPATQVDAGTALRSAEHYLRAHAGDAQSWNIMLPTPRDPAMRMYWLNPTPPPGTEVSRRSMYGNATIDPSTGEEIAARDTMGGDFFYRLHFDLHYIPVVWARYIVGFCAMFMLVAIISGVITHKKIFADFFTFRPGKGLRSWLDFHNVSAVLALPYHAMITYTGIVTLMFMYLPWGIKATYPDGEMRFYDEAFNRVADSREAAGVPAAMLPLQRLLEQARAQWPAGTPIATVFVNHPDDANASVAVTQASTASLSVDAPALLFDAGSGELLARNGAPGGATQTRGVMYGLHMAEFAKPVLRLLFFGSGLLGCLMVASGVVLWAVKERPKHLKSGRIGFGLRLVDALNIGAVAGLPIAFASYFWANRLLPVGIEGRADVEIAVFFWAWAAALLAAFVWPKRMMWAWQLYLGAALFALVPVLNALTTHVHLGVTLPAGDWALAGVDLVCLFLGICLGVAARRMQRWQPPLTAAQRRAKAAPAAAAPAGRIAEPAREGAA				NA	NA	NA	NA	NA
BMS020_02885	336			hypothetical protein	ATGACCCAGACCTCTCCTTCCACCGCGACGCCGGCGCCGGCGCGACTGCCGCAGTGGCTGCTGCGCCCCTGGCTGGGCGTGCTGTCGCGCAGTGTCGCGGCGATCGGTGGCGGCTACGCGCTGGCCAGCACGACCTGCCTGCTGATGGCGCTGGCGCTGCCGCTGCCGCGCAGCCAGGCGGTGCTGATCGGCATGATGAGCGGCATCGTGGTCTGCGCCTGCGCGGCGCTGTGGGCGTTCGCGGTGCGCAGCGCCTGGAAGGCCTGGGCCGGCATCGCGTTGCCGGCGCTGCTGATGTACGCGGTCGCCGCGCTGCTGCAGCGGGGCGCGGCATGA	MTQTSPSTATPAPARLPQWLLRPWLGVLSRSVAAIGGGYALASTTCLLMALALPLPRSQAVLIGMMSGIVVCACAALWAFAVRSAWKAWAGIALPALLMYAVAALLQRGAA				NA	NA	NA	NA	NA
BMS020_02886	645			hypothetical protein	ATGAAACGAGCCCTGCTGTCGGGCCTGGCCCTGGCCTGCCTGGCGTTGTCCGCCCAGGCCCACGAGATCTGGATCGAACGCGACGGCAGCGGGCCGGTGCGGGTGTACTTCGGCGAACCGGCCGAAGACGCGCCCGCCGCGGGCGACGACGAACTCAAGCGCGTTGTCGCGCCGCGCATCTTCGGTGCCAGCGGCAAGGCCGCCGCCCCGACCCGCGAAGGCGACCACCTGGTGGCGGCGCTGGCCGGCGAGGGCGATGCGTGGCTGGCCGACGACGCGGTGTTCGAGCCGTGGCAGGGCGAAGGCGGCACCTACGAGGCGGTCAGCTACTACGCCCGCGCCGGGCGCCAGAGCACCGCGGCCAAGCTCGATTTCGAGCTGGTACCCAACCGTCCCGGCAGCGACGTGCTGACCGTGCTCTACCGCGGCAAGCCGTTGGCCGATGCCGAGGTGACGGTGATCGACCCGCGCAAGTGGAGCAAGCAGCTCAAGTCCGATGCGCAGGGCCAGGTCACGCTGCCGGCGCTGGCCGACGGGCGCCACATCGTGGTCGCCAGTCACAAGGAAGCGGTGCAGCGCCAGATCGCCGGCAAGGATGTCGGCACGATCCACCACATCAGCACGTTGACCTTCCGGGCCGAATGA	MKRALLSGLALACLALSAQAHEIWIERDGSGPVRVYFGEPAEDAPAAGDDELKRVVAPRIFGASGKAAAPTREGDHLVAALAGEGDAWLADDAVFEPWQGEGGTYEAVSYYARAGRQSTAAKLDFELVPNRPGSDVLTVLYRGKPLADAEVTVIDPRKWSKQLKSDAQGQVTLPALADGRHIVVASHKEAVQRQIAGKDVGTIHHISTLTFRAE				NA	NA	NA	NA	NA
BMS020_02887	519			hypothetical protein	GTGCGGAATTACGATCTCGAGTTCCTGAAGAAGTTCTCGATGGTGATTGCCCTGCTGGTCGTGATCACGCTCGGCCTGATCGGGCTGGCGGCCTATCTGCAGCGGGCGATTCCGGACGAGGTCTCGCCCACCGCGGTGCGTCGCCTCGAGGAGCGGATCGCCCCGGCCGGCGCGGTCTACGCCGGCCAGACCGGCGCCGCCGCACAGGCGGCCGCGCAGGCCGCGGCCCTGGCCAAGGCGGCCTCGCAGGTGGCCTACGGCGGCACCACCGATGGCAAGACCATCTTCGACAACCTGTGTACGGCCTGCCACACCAACGGCGTGGGGATGGCGCCGACGCTGGACCACAGCCATTGGGACAAACGGATCGCGCAGGGCAAGGACACCTTGTATCGGCACGCGATCGAGGGCTTCACCGGTCCCGACGGCGGGATCATGCCGCCCAAGGGGGGCAACGCGGCGCTGACCGAGGAGCAGGTCAAGGCCACCGTCGACTGGATGCTCGGCAATCTGAAATAG	MRNYDLEFLKKFSMVIALLVVITLGLIGLAAYLQRAIPDEVSPTAVRRLEERIAPAGAVYAGQTGAAAQAAAQAAALAKAASQVAYGGTTDGKTIFDNLCTACHTNGVGMAPTLDHSHWDKRIAQGKDTLYRHAIEGFTGPDGGIMPPKGGNAALTEEQVKATVDWMLGNLK				NA	NA	NA	NA	NA
BMS020_02888	1719			hypothetical protein	ATGTCCTTCCGCCTGTTCGTCATCCCGGGTCTGATCTGCCTGTTGGCCAGTGGCATCGCCGCCGCCGCGTCGCCGCAGGTGCTTCCGATCGGCCGGGTGCAGGGGAGTGGCGGCGCCAGTCCGTTCGATGGCCAGCAGGTCGTGATCGAGGGCGTGCTCACCGCCGACCTGCGCGCCGGACTCGCCGGGGTGTTCGTGCAGGATGCCGGCGATGGCGATGCGACCACCTCCGACGCGGTGTTCGTCACCGGCATCACGGGCCAGGACCTGCAGCCGGGCATGCGCCTGCGCATCGCCGGCCAGGCCGCCGAGGTCGGGGCGGGGGGCGATGCCACCCTGACCACCTTGCGCGCAGATCGCGTGGACGTGCTCGCGCGCGATGTCGCACTGCCGCTGCACGTGCTCGATGCGCCGCCGAAGGATTGGGAGGCGCTGGAAGGCGAGCGCGTGCGCATCACCGCGCCGTTGACCGTGGTCGGCAGCCATCGGCTGGCCAGCCACGGGCAACTGCTGGTGGCCTTCGGCGGTCGCCTGTGGCAACCCAGCGAGCTGGCGGTGGCCGGCACCCCGGCATACACGCAGGTGCTGCGCGACAACGCACGCCGCGCGCTGCTGCTCGACGATGCCAGCGCCGCGCGCGACCCGGCGCGGATCGCCTACCTCGCGCCGGATGCGCTGGTGCGCAGCGGGCAGCGCATCGCCTTGGTCGAGGGCATCATCGATCAGCGCTACGACGGCCGCTACCGGCTGCAGGTGACGGCACCGCTGGCGCTGGAGCCGGCGCAGCGGCCGGCGCCGCCGCAGGTCGCCGGCACGCTGCGCATCGCCTCGTTCAACCTGGAGAACTTCTTCAACGGTGACGGGCGCGGTGGCGGCTACCCGACCCCGCGTGGCGCGCGCAGCGCGGCCGAGCATCGCGCGCAGCTGGCCAAGCTGGTCGCGGCGATCGTGCCGATGCAGGCCGATGTCGCCGCGGTGATGGAACTGGAGAACGACGGCGACGGGCCGCAGTCGGCGGTCGCCGAGCTGGTGGCCGCGCTCAATGCCGCACCGCGCAGCGGCGGCGACTGGCGCCATGTCGCCGCCGGCGAGGTCGGCAGCGACGCGATCCGGGTCGGCATCCTCTACCGTGCCTCGCGGGTGCGCCCGGTCGGCGCGCCGGCGATGCTGCACGGCGGGCCGTACGACAGCCACAGCCGGGTGCCGCTGGCGCAGGCATTCCGTGCCCCGGGCGGCCAGCGCTTCGTGGTGGTCGCCAACCACCTCAAGTCCAAGGGCTGCCGCGGCGCCACCGGCGCCGATGCCGACCAGGGCGACGGCCAGGGCTGCTGGGACGCGACCCGGACCGATTCGGTGCAGCGGCTGCAGGCTTGGCTGCGCACCGATCCGACCGGCGCCGGCAGCGCGATGACGGTGCTGCTCGGCGACTTCAACGCGCATGCGATGGAACGCCCGCTGCGGACGCTGCGCGGCGATGGCTGGCAGGACGCGTTCGTACTGGCGCATGTCGAGCGGCCCTACAGCTACGTCTACAGCGGCCTGAGCGGACGGCTGGACCACGCGCTGGTGAGCCCGGCGCTGGCGGCGCGGGTGCGCGGCGCGGCCGAATGGCACATCAACGCCGACGAGACCGACGCGCAGGGCTATGCCGGCCGCGACGCCGCTGGGCCGTGGCGCAGCTCCGACCACGACCCGCTGGTGATCGGCGTCGATCTGTAG	MSFRLFVIPGLICLLASGIAAAASPQVLPIGRVQGSGGASPFDGQQVVIEGVLTADLRAGLAGVFVQDAGDGDATTSDAVFVTGITGQDLQPGMRLRIAGQAAEVGAGGDATLTTLRADRVDVLARDVALPLHVLDAPPKDWEALEGERVRITAPLTVVGSHRLASHGQLLVAFGGRLWQPSELAVAGTPAYTQVLRDNARRALLLDDASAARDPARIAYLAPDALVRSGQRIALVEGIIDQRYDGRYRLQVTAPLALEPAQRPAPPQVAGTLRIASFNLENFFNGDGRGGGYPTPRGARSAAEHRAQLAKLVAAIVPMQADVAAVMELENDGDGPQSAVAELVAALNAAPRSGGDWRHVAAGEVGSDAIRVGILYRASRVRPVGAPAMLHGGPYDSHSRVPLAQAFRAPGGQRFVVVANHLKSKGCRGATGADADQGDGQGCWDATRTDSVQRLQAWLRTDPTGAGSAMTVLLGDFNAHAMERPLRTLRGDGWQDAFVLAHVERPYSYVYSGLSGRLDHALVSPALAARVRGAAEWHINADETDAQGYAGRDAAGPWRSSDHDPLVIGVDL				NA	NA	NA	NA	NA
BMS020_02889	369			hypothetical protein	GTGAAACGATCTTCCGCCGCGCTGTTCGATGCCTCGGCCATGGCCTTGTCGGGGCTGTGCCTGGTGCACTGCCTGGCCTTGCCGCTGCTGGCGTCGCTGCTGCCGCTGCTCGGGGCCTGGGGCGAGGCCGAATGGCTGCATGCCGTGTTCGCCGGCATCGCGGTGCCGCTGTCGATGGCCACGCTGTGGCGCGCGCATCGTCGCCGGCCCCTGCCGGGCGCACTGTGGACGATGGCGGGGCTGGGCCTGTCCGCGCTGGTGCTGGGCGCGCTCGGCTGGCCGGCGCACGCCTGGGAGACGCCGGTCACCGTCGCCGGCAGCCTGCTGGTCGCCGCCACGCATGTGTGGAACTGGCATCGCCGCCACTGA	MKRSSAALFDASAMALSGLCLVHCLALPLLASLLPLLGAWGEAEWLHAVFAGIAVPLSMATLWRAHRRRPLPGALWTMAGLGLSALVLGALGWPAHAWETPVTVAGSLLVAATHVWNWHRRH				NA	NA	NA	NA	NA
BMS020_02890	1329	yciC	COG0523	Putative metal chaperone YciC	ATGCCCCTCGCTTCGCCTTCCTCCGACCCGCGCCTGCCGGTCACCGTGCTGTCCGGCTTCCTTGGCGCCGGCAAGACCACCCTGCTCAACCGCCTGCTGCACAACCGCGAAGGCCTGCGCGTGGCGGTCATCGTCAACGACATGAGCGAGGTCAACATCGACGCGCAGCTGGTCCGCGACGGCGGCGCCGCGCTCAGCCGCACCGAGGAGACGCTGGTGGAGTTCAGCAATGGCTGCATCTGCTGCACGCTGCGCGACGACCTGCTGCAGGAAGTGAAGCGGCTGGCGCTTGAGCGCCGCTACGACTACCTGTTGATCGAGTCGACCGGCATCGCCGAACCGATGCCGGTGGCGGCGACGTTCGCGGTCCGCGACGCCGACGGCTTCAGCCTGTCCGACATCGCCCGCCTGGACACGATGGCGACCGTGGTCGATGCCAGCCAGTTCCTCGCCCTGTTCGGTTCCAGCACATCGCTGCGCGAGCTTGGCCGCCAGGCCGGCGAGGACGATGCGCGCACGTTGGCCGACCTGCTCGGCGAGCAGGCCGAGTTCGCCGACGTGCTGGTGATGGGCAAGTGCGACCTGGTCGACGCCGCCCAGCGCGACCGCGTGCGCGCGGTGCTGCGCGCGCTCAACCGCGACGCGCAGATCCTCGAAGCCCGCCATGGCGACCTGCCGCTGCGCGCGCTGCTCGGCACCGGCCGCTTCGATTTCACCCGTGCGCAGCTCGCGCCGGGCTGGATGCAGGAACTGCGCGGCGAACACACCCCGGAAACCGAGCAATACGGCATCACCAGCTTCGTCTACCGCGCGCGCCGCCCGTTCCACCCACAGCGCTTCGCCGCGCTGCTGGCGCATGGCCTGCCGCAGGTGATCCGCAGCAAGGGCTTCTTCTGGCTGGCCAGCCGCATGGACTGGGTCGGCGAGCTGTCCAGCGTCGGCGCGGCGATGCGCACCCAGGCCGCCGGCTTCTGGTACGCGGCGCGCGATCGCGTCGCCGCCGGTCAGGAGGGCACGCTGCCGCAGATCGGACTGCCGCCGCTGCCGTATACCGAGGCCGGCTGGCAGCGCCAGCAGCTGGACTGCTGGAGCGCCCCGCTGCCGGCGCCGCACGAGGTCGGCGATCCGCGCGAGTACGCGGCGATGCAGCGGCTATGGCACCCGCGCTGGGGCGACCGGCGCCAGGAGCTGGCGGTGATCGGCATCGCGCTGGACGAGCAGGCCGCACGTGCCGAACTGGACGCCTGCCTGCTCGATCGGGCGGAACTGGCGCTGGGGCCGATGCACTGGCACGGGATGGACGACCCGTTCCCGCGCTGGCAGCGCTGA	MPLASPSSDPRLPVTVLSGFLGAGKTTLLNRLLHNREGLRVAVIVNDMSEVNIDAQLVRDGGAALSRTEETLVEFSNGCICCTLRDDLLQEVKRLALERRYDYLLIESTGIAEPMPVAATFAVRDADGFSLSDIARLDTMATVVDASQFLALFGSSTSLRELGRQAGEDDARTLADLLGEQAEFADVLVMGKCDLVDAAQRDRVRAVLRALNRDAQILEARHGDLPLRALLGTGRFDFTRAQLAPGWMQELRGEHTPETEQYGITSFVYRARRPFHPQRFAALLAHGLPQVIRSKGFFWLASRMDWVGELSSVGAAMRTQAAGFWYAARDRVAAGQEGTLPQIGLPPLPYTEAGWQRQQLDCWSAPLPAPHEVGDPREYAAMQRLWHPRWGDRRQELAVIGIALDEQAARAELDACLLDRAELALGPMHWHGMDDPFPRWQR				NA	NA	NA	NA	NA
BMS020_02891	837			hypothetical protein	GTGCTGGTGTCGGTCCTGCTGAAGTGGTCGCCGCGCCATCGCCTCGACATCGTGCAGCTGGTCGCCTGCAACTACGCCGTCGCCACCGCGCTGGCGCTGCTGGTGCTGCAGCCGTCGCTGGACGGGCTGCGCGCGCCGTCCACGCCATGGCCGGCGCTGCTGGCACTGGCGGTGGCGCTGCCGGCGTTGTTCCTGGTGCTGGCGCGCTCGGTGCGCGCGGCCGGCATCGTCCGCAGCGATGTCGCCCAGCGGCTGTCGCTGCTACTGTCGCTGGCCGCCGCGTTCGTGCTGTTCGGCGAAGCCGCCAACGCCTGGAAGCTGGGCGGGTTGGCGATCGGCGTGGCGGCGATGGTCGCGGTGGCGTGGCGCCCGGCGCCCGCGGCCGGCGAGCGCGATGGCGGTGGCTGGCCGTGGCTGCTGGCGGTGTGGGTGGGCTTCGCGCTGATCGACGTGCTGCTCAAGCGCGTGGCGCAGTCCGGGCTGTCGTCGCTGGCCTCGCTGACGGTGTGCTTCGCGCTCGCCTTCGTGCTCAGTGCCGCGGTCGTGCTGTACCGCCAGCTGCGCGGGCAGGCACGGGTGGCGCCACGCCATCTCGCCGCCGGCGCGCTGCTCGGCGTGCTGAACTTCGCCAACATCCTGTTCTACGTGCGCGCGCACCAGGCGCTGCCGCACAGCCCGGCGACGGTGTTCGCGACGATGAACATCGGCGTGGTGGTGCTCGGCGCGCTGGTCGGCACGCTCGTCTTCGGCGAACGCACCAGCTGGCTCAACCGCGCCGGGCTGGTGCTGGCGGTGGTGGCGATCGGCGTGATCGCCTACGGCAGTTTCGGCGTCTGA	MLVSVLLKWSPRHRLDIVQLVACNYAVATALALLVLQPSLDGLRAPSTPWPALLALAVALPALFLVLARSVRAAGIVRSDVAQRLSLLLSLAAAFVLFGEAANAWKLGGLAIGVAAMVAVAWRPAPAAGERDGGGWPWLLAVWVGFALIDVLLKRVAQSGLSSLASLTVCFALAFVLSAAVVLYRQLRGQARVAPRHLAAGALLGVLNFANILFYVRAHQALPHSPATVFATMNIGVVVLGALVGTLVFGERTSWLNRAGLVLAVVAIGVIAYGSFGV				NA	NA	NA	NA	NA
BMS020_02892	726			hypothetical protein	ATGCATGCGGGCGGCTGGCCTGGCGCGTGCGGGCGCGTGGAGGAGGAGCGGTATTATGGCCGCATGTCCAAGCCTGCCTTACCCACCGAGACCGGCACCCTGCTGCTGGACGGGCCCGTCGGCCCGCTCGAAGTCGCCGTCGACCTGCCCGAGGCGGATGTCGCCGCGCAGCCGGTCACCGCGATCGTCTGCCACCCGCTGTCCACCGAGGGCGGCACGATGCACAACAAGGTCGTGACGATGCTCGCGCGCGCGCTGCGCGAGCTCGGGGTGACCGTGGTGCGTTTCAATTTCCGCAGCGTCGGGGCCTCGGCCGGGACGTTCGACCACGGCGACGGCGAGCGCGAGGACCTGCGCGCCGTTGCCGAATGGGTGCGTGCCAGCCGTCCCGGCGACGCGTTGTGGCTGGCTGGTTTCAGCTTCGGCGCCTACGTGTCGCTGCGCATGGCCGGCGACCTGCAGCCGCAGGTGCTGGTGTCGATCGCGCCGCCGGCCGGGCGCTGGGACTTCGACGGCGTGCAGCCGCCGGCGCAGTGGCTGGTGGTGCAGGGCGATGCCGACGAGATCGTCGACCCGCAGGCGGTCTACGACTGGCTGGCCACGCTGCAGGTGCAGCCGGAGCTGGTACGCATGCCGGAGACCAGCCACTTCTTCCATCGCAAGCTGATCGACCTGCGCGGGGCGATCCAGCACGGCGTACGCCACTGGTTGCCCAGCGGGCGATGA	MHAGGWPGACGRVEEERYYGRMSKPALPTETGTLLLDGPVGPLEVAVDLPEADVAAQPVTAIVCHPLSTEGGTMHNKVVTMLARALRELGVTVVRFNFRSVGASAGTFDHGDGEREDLRAVAEWVRASRPGDALWLAGFSFGAYVSLRMAGDLQPQVLVSIAPPAGRWDFDGVQPPAQWLVVQGDADEIVDPQAVYDWLATLQVQPELVRMPETSHFFHRKLIDLRGAIQHGVRHWLPSGR				NA	NA	NA	NA	NA
BMS020_02893	1161	zapE_3	COG1485	Cell division protein ZapE	ATGACCGAGATGACCCCCACCCAACGCTATGCCGCTGGCGTCGCCCGCGGCGACTGGCGCGATGATCCGGCCCAGCACGGCGGCCTGAGCGAACTGGACCGCATCCACCAGGCCATCGTCGATGGCGCCCAGGACGGCTGGCTGGACCGGCTGTCGGCGTTCTGGAAGAAGCCCGAGCCGGTGCGCGGGCTGTATTTCTGGGGCGGTGTGGGCCGCGGCAAGACCTTCCTGGTCGACCTGTTCTACGACGGCCTGCCACTGAAGAAATTCGTGCCGGAAGGCGCGGCCGCGGTCGAAGGAGCGCAGCCGTCGACGGTGCTGCGCGGTGGCGGCAAGTACCGCACCCACTTCCACCGCTTCATGCGCAACGTGCACGAGCGCCTGCGCGAGCACCAGGGCCAGAGCGACCCGCTGGCGAAGATCGCGCAGGAATGGCGCGACAACCTGCGCGTGCTGGTGCTGGACGAATTCTTCGTCACCGACATCGGCGACGCGATGCTGCTGGCGCGGCTGCTGGAGCGGCTGTTCGCCGAGGGCGTGACCCTGGTGACCACCTCCAACACCGCGGTGGAGAACCTGTACCTCAACGGCCTGCAGCGCGACAGCTTCCTGCCGGCGATCGGCCTGCTGCAGAAGTACTGCGTGGAGCTGTACGCCGAAGGCACCGAGGACTACCGCATGCGCGCGCTGACCCGCTCGCCGGTGTACCGCGCGCCACTGGAAGCCGGCTCGGATGCATGGCTGGGCCAGCGCTGGAGCGAGCTGTCCGGCAACGAGGCCGCGCAGGCCGGCAACATCGCCATCGAGGGACGCAAGATCCCGGTGCGCGGGCGCGGCAAGAGCATCGTCTGGTTCGATTTTCCGGCGTTGTGCGAAGGCCCGCGCGGGCCGTCGGACTACATCGAGATCGCGCGCGAGTTCAACACCGTGCTGGTCGGCGGCATTCCGCATTTCGACCGCATGAACGAGGACGCCGCACGGCGTTTCGTCAACCTGATCGACGAGCTCTACGACCGCCAGGTCAACCTGGTCTGCACCGCGCACGACGCGCCGCCGCTGCTCTATACCGGCGAGCGCCTGGCTGGCGCGTTCGAGCGCACCGCCTCGCGGCTGATCGAGATGGCCAGCGCCGAGTACCTGTCGACCCCGCACCGCGCCTGA	MTEMTPTQRYAAGVARGDWRDDPAQHGGLSELDRIHQAIVDGAQDGWLDRLSAFWKKPEPVRGLYFWGGVGRGKTFLVDLFYDGLPLKKFVPEGAAAVEGAQPSTVLRGGGKYRTHFHRFMRNVHERLREHQGQSDPLAKIAQEWRDNLRVLVLDEFFVTDIGDAMLLARLLERLFAEGVTLVTTSNTAVENLYLNGLQRDSFLPAIGLLQKYCVELYAEGTEDYRMRALTRSPVYRAPLEAGSDAWLGQRWSELSGNEAAQAGNIAIEGRKIPVRGRGKSIVWFDFPALCEGPRGPSDYIEIAREFNTVLVGGIPHFDRMNEDAARRFVNLIDELYDRQVNLVCTAHDAPPLLYTGERLAGAFERTASRLIEMASAEYLSTPHRA				NA	NA	NA	NA	NA
BMS020_02894	459	ohrR		Organic hydroperoxide resistance transcriptional regulator	ATGGACGCACGCCCCGCCACCGCCGGTTCCGACGCACTGCTCAAGCTGGACAACCAGCTGTGCTTCGCGCTGTATTCGGCCAACCTGGCGATGCACAAGCTCTACCGCGGGTTGCTGAAATCGCTGGACCTGACCTATCCGCAGTACCTGGTGATGCTGGTGCTGTGGGAGCGCGACCAGCGCACGGTGTCGGAGATCGGCGACAAGCTGTACCTGGATTCGGCCACGCTGACCCCGCTGCTGAAACGGCTGGAAGCGGCCGGTCTGCTGAGCCGCACCCGCGCGGCCAGCGACGAGCGCCAGGTCATCATCGCGCTCAGCGCGGCCGGTGCGGCGTTGCGCGCCAAGGCGCAGGCGGTACCGGAGCAGGTGTTCTGCGCGGCGGCCTGCGACCTGGATGAACTGGTGCGGCTGCGCACCCAGCTGGAGACGCTGCGCGGCAACCTCAGCCAGGGCTGA	MDARPATAGSDALLKLDNQLCFALYSANLAMHKLYRGLLKSLDLTYPQYLVMLVLWERDQRTVSEIGDKLYLDSATLTPLLKRLEAAGLLSRTRAASDERQVIIALSAAGAALRAKAQAVPEQVFCAAACDLDELVRLRTQLETLRGNLSQG	PGPT0013155_2413	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
BMS020_02895	432	ohrB	COG1764	Organic hydroperoxide resistance protein OhrB	ATGGCTTCCCCGACCACCATCCTCTACACCGCCCATGCCACCGCCACCGGTGGCCGCGAAGGCCGCGCCGTGTCCTCGGACAAGGCGCTGGACGTCAAGCTCTCGACCCCGCGCGAGCTGGGCGGCGCCGGCGGCGACGGCACCAACCCGGAACAGCTGTTCGCGGCCGGCTACTCGGCCTGCTTCATCGGCGCGATGAAGGCGGTGGCGGCGCAGGAGAAGCTGAAGCTGCCGGGCGAAGTCAGCATCGAAGGCAGCGTCGGCATCGGCCAGATCCCGGGCGGCTTCGGCATCGCGGTGGAACTGCGCATCGCCGTGCCGGGCATGGAGCGCGAGGCGCTGCAGGCGCTGGTCGACAAGGCCCACCAGGTCTGCCCGTACTCCAACGCGACCCGCGGCAACATCGACGTGACCCTGGTCGTCGTCGCCTGA	MASPTTILYTAHATATGGREGRAVSSDKALDVKLSTPRELGGAGGDGTNPEQLFAAGYSACFIGAMKAVAAQEKLKLPGEVSIEGSVGIGQIPGGFGIAVELRIAVPGMEREALQALVDKAHQVCPYSNATRGNIDVTLVVVA	PGPT0013160_869	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
BMS020_02896	780	cobB_2	COG0846	NAD-dependent protein deacylase	ATGACGCCGTTCGACCACGCCCGCGACCTGTTCGCCGACGCCACGCGCGTGGCGGTGCTGAGCGGGGCCGGGATCTCCGCCGAGAGCGGCATTCCCACCTTCCGCAGCACCCACGACAGCCTGTGGGCGCGCTTCGACCCGATGCGCCTGGCGACGGCGGAGGCCTGGCGTGCGGACCCGGCGCTGGTCTGGGGCTGGTACCGCTGGCGGATCGCGCTGCTGGCACAGGCGCGGCCGAATGCCGGCCATGTCGCACTGGCCCAGCTGGCGCATGGGCGGACGCTGGCGCTGGTCACCCAGAACGTCGACGACCTGCACGAGCGCGCCGGCAGCGCGGTGGCCGCGCACCTGCACGGCCGCATCGACGCGCTGCGTTGCTTCGACTGCGGCCACCCGCACGCAGCGCCGCTGCCGGCGCTGGAGGCCGCGGCGGTGCCGCAGCGGCTGCCGCCGCCGCGCTGCCTGCACTGCGGCGGCGATGTGCGGCCGGGCGTGGTCTGGTTCGGCGAGGGCCTGCCCGAAGATGGCTGGCAGCATGCGCTGGCGGCGATGGAGTGCGAGGTGCTGCTGGTGGTCGGTACCTCCGGGCTGGTGCAGCCGGCGGCCTCGCTGCCCGCGCTGGCGCGTCGTCATGGCGCGCGGGTGATCGAACTCAACCCGGATGCCACCGCGCTCAGCACGCTGGCCGACGTGCAGGTGCGCGGGACGGCGGCGCAGCTGCTGCCCGACCTGGTCGCGGCGCTGGGCGCGCGCGGCGGCGACGCGCCGGCACCGCCTTAG	MTPFDHARDLFADATRVAVLSGAGISAESGIPTFRSTHDSLWARFDPMRLATAEAWRADPALVWGWYRWRIALLAQARPNAGHVALAQLAHGRTLALVTQNVDDLHERAGSAVAAHLHGRIDALRCFDCGHPHAAPLPALEAAAVPQRLPPPRCLHCGGDVRPGVVWFGEGLPEDGWQHALAAMECEVLLVVGTSGLVQPAASLPALARRHGARVIELNPDATALSTLADVQVRGTAAQLLPDLVAALGARGGDAPAPP	PGPT0013485_1070	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013485-npdA-K12410	NA	NA
BMS020_02897	903			hypothetical protein	ATGATCCGCCCACTGCTGCAGGCCATCGCATGCGTCGGCATGCTCGCCATCAGCGCCGCCGGCACGGCCGCGGACAGCGCGCGTTCGGTGCTGTTCCCGCTCGGCGAGTTGCCGCCGACCACCCTGCCCGCAGGCGCGCGGGTGCTGCGCGAGGTCGGCTACGGGCGCGATCCGGCGCAGCGCCTGGATGCCTACCTGCCGGCCACGCGCGCGCCGGCCGCGGCGATCGTGCTGGTCCACGGCGGCGGCTGGCGCCGCGGCGGCCGCGACAATCCCGGCGTGGCCGCGCCGAAGGCGGCGCACTGGCTGGCGCAGGGCATCGCGGTGATTTCGGTGGACTACCGCATGCTGCCGGACGCCGATCCGCTGCAGCAGGCCGACGATGTCGCCCATGCGCTGGCCTATGTGCAGCACCAGGCCGCGGCGTGGCAGCTGGATCCGCAGCGGATCGTGCTGATGGGGCATTCGGCCGGTGCCCACCTGGTCGCGCTGCTCGGCAGCGATCCGGCGCAGCTGGCACGCGCCGGCGCGCGCCCGGTACGTGGCGTGGTCGCGCTCGACAGCGCGGTGCTGGACGTGCCCGCCTTGATGCGCGCGCCGCATCCGCGGCTGTACGACCAGGCCTTCGGCACCGACCCGGACTACTGGCAGCGCGCCTCGCCCTACCACCACCTCGGCAGCGACGCGGTACCGCTGCTGGCGGTGTGTTCGACCCGGCGCAGCGATGCCTGCCCGCAGGCGCAGGCCTACGCACGCCGCGCGCAGGCGCTGGGCGTGGCCGTGCAGGTCTCGCCGCAGGATCTGTCGCACATGCAGATCAACCGCGAACTGGGCGGCGCCTCGGCCTATACCGCAACCGTCGACGCCTTCGTCGACCGGGTACTGGGCACCGGCCGGCACTGA	MIRPLLQAIACVGMLAISAAGTAADSARSVLFPLGELPPTTLPAGARVLREVGYGRDPAQRLDAYLPATRAPAAAIVLVHGGGWRRGGRDNPGVAAPKAAHWLAQGIAVISVDYRMLPDADPLQQADDVAHALAYVQHQAAAWQLDPQRIVLMGHSAGAHLVALLGSDPAQLARAGARPVRGVVALDSAVLDVPALMRAPHPRLYDQAFGTDPDYWQRASPYHHLGSDAVPLLAVCSTRRSDACPQAQAYARRAQALGVAVQVSPQDLSHMQINRELGGASAYTATVDAFVDRVLGTGRH				NA	NA	NA	NA	NA
BMS020_02898	1287	envZ_1		Osmolarity sensor protein EnvZ	ATGAGGCGGATGCGGTGGTTGCCGACCAGCGTGTTCGGCCAGCTGGTGTTGACCGTGGTGCTGGTGCTGGTCGGGATGATGCTGCTGGTGGCGGTGCTTGGCCGCGAACTGTCGGTGCAACCCGGCGCACGCCAGCTGCTGCAGGTGATGGGCGGGTTCGCCCGGGTCGCCGAAGCGGTCGAGGACGCGCAGTCGCCGCAGGCGCTGCGCCACCTGCTCGACGGCGCCGGACTGGAGCACCGCGAACAGCCGCCGGCCGCGGCCGGTGCGCTGCCGCTGGCGCCGCTGGTCAACAGCATCCGCGAACAGGGCAATGCCCAGCTCGGACCGGGCCGTTCGATCGAGGCCGAACGCACGCCCGCCGGCATGCGCCTGTGGTTGGGCCTGGCCACGCACGAGCCGATGTGGGTGGCCTTCACCGCCGATCCGCGCCCGGCGATGCGGCGCATGTCGGTGCTGACCCTGCTCGGCTGCGCGCTGCTGGTATGGCTGGCCGCCGGCCTGTTCGCGCGCCGGCTGGTGATCCCGTTGCGGGCGCTGGCACGGCAGGCGCCGGCGATCATGCGTGGCGAAGCGCCGACCCGGCTCGCCAGCAGCGGCCCGCGCGAAGTCGGCGAACTGGCCGACGCGCTGGCCAGCGCCAGCGAGGACGTGCGCGCCGCCGCGGCCGAACGCTCGCTGATGCTGGCAGGCATCTCGCACGACCTGCGCACGCCGTTGACCCGGTTGCAGTACGCACTGGCGCTGCTGCCGGAGGTGGAGCCGAAACTGCGCGAAGGCATGGAGCGCGACATCGTGGAGATCGACGCGATCCTGTCGCAGTTCATCGCCTTCGCCCGCGACGGTCGCGACGAAGCCAGCGAGCCGGTCGACCTGGCCGCGCTGTGCGCCGGCGTGCTGGCGGCCACCGCGGCGCCGTGGGAAGCCCAGCTGCCGGCCCAGGCCTGGCTGCATGGACGCCCGGTGGCCCTGGCGCGGGCGGTGGAGAACCTGGTGGTCAACGCCGAGCGCCACGGCCGCGCACCGTTCGCGCTGACCTTGCACCAGCGCCGCGATGGCTGGGTGGTCGAAGTCAGCGATCACGGCCCAGGACTCGATGCTGAACAGGCGCAGCGTGCGCGCCAGCCGTTCGTGCACGATGCCGCCGCCGGCGGCTCCGGGCTGGGCCTGGCCATCGTCGAACGCATCGCCCGCCAGCACCACGGCCGGCTCGAACTGCTGCGCAATACCCCGGCCGGGCTGCGCGCACTCCTGCATCTGCCACATGCCCCGGAGGCCAACTCATGA	MRRMRWLPTSVFGQLVLTVVLVLVGMMLLVAVLGRELSVQPGARQLLQVMGGFARVAEAVEDAQSPQALRHLLDGAGLEHREQPPAAAGALPLAPLVNSIREQGNAQLGPGRSIEAERTPAGMRLWLGLATHEPMWVAFTADPRPAMRRMSVLTLLGCALLVWLAAGLFARRLVIPLRALARQAPAIMRGEAPTRLASSGPREVGELADALASASEDVRAAAAERSLMLAGISHDLRTPLTRLQYALALLPEVEPKLREGMERDIVEIDAILSQFIAFARDGRDEASEPVDLAALCAGVLAATAAPWEAQLPAQAWLHGRPVALARAVENLVVNAERHGRAPFALTLHQRRDGWVVEVSDHGPGLDAEQAQRARQPFVHDAAAGGSGLGLAIVERIARQHHGRLELLRNTPAGLRALLHLPHAPEANS	PGPT0012975_1697	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012975-envZ-K07638	NA	NA
BMS020_02899	723	ompR_2		Transcriptional regulatory protein OmpR	ATGGACGACATCTCCCATCACCTGCTGCTGGTCGACGACGACCAGCGCCTGCGCGAGCTGCTGCACCGCTACCTGGAGAGCCAGGGCTTCGGCGTGCGCAGCGTCGGCGACGGCGCGCAGATGCAGCAGGCGCTCAACCGCGGCCACTACGACCTGATCGTGCTCGACCTGATGCTGCCGGGCGAGAGCGGGCTGGAGATCTGCCGGCGCCTGCGCGGCCAGGGCGACGCCACGCCGGTGGTGATGCTCACCGCCAAGGGCGACGAGATCGACCGCATCGTCGGGCTGGAGATCGGCGCCGACGACTACCTGCCCAAGCCGGTCAACCCGCGCGAACTGCTGGCGCGGATCCGCGCGGTGCTGCGGCGCACCGGTCCGGCCGGCGCCGGCGCGCCGCAGGCCCAGGGCGGCGAGGTGGCGATCGGGCCGCTGCGGCTCAACCTCGCCACCCGCGTGCTGCAGCGCGCCGACGACGAGATCGTGCTGACCACCACCGAATTCGCGGTGCTGTCGGTGCTGGTGCGGCACCCGCACCAGCCGCTCAGCCGCGACCGGCTGATGAGCCTGGCGCACGGACGCGAACACCAGGCGTTCGAACGCAGCATCGACGTGACCATCGCACGGCTGCGCAAGCTGGTCGAAGCCGACACCCAGGCGCCGCGGCTGATCCAGACCGTCTGGGGCGTGGGCTATGTGTTCGTGCCGCCGGAGACCGCGGCATGA	MDDISHHLLLVDDDQRLRELLHRYLESQGFGVRSVGDGAQMQQALNRGHYDLIVLDLMLPGESGLEICRRLRGQGDATPVVMLTAKGDEIDRIVGLEIGADDYLPKPVNPRELLARIRAVLRRTGPAGAGAPQAQGGEVAIGPLRLNLATRVLQRADDEIVLTTTEFAVLSVLVRHPHQPLSRDRLMSLAHGREHQAFERSIDVTIARLRKLVEADTQAPRLIQTVWGVGYVFVPPETAA	PGPT0012985_600	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
BMS020_02900	537			hypothetical protein	ATGCAACGCTTGCATGTTTCGGTGCTGTCCCTGGTGCTGGTCGCCACCGTCGGCCTGGTGGCCGCGCCGCACGCGTCGGCCGAGCGCATCCGCGGCCGCGCCGCGGTCAGCGGGAGCGAGGGCCGCGCTGTCGTGGCCGGTGGCGCGGCCAGCGGGGCGCGCGGCCGCTACGCACGCGGCCACCATGCCGCGGCCGACGGTAACGGCAATGCCCATGGCGGCAGCCAGGCCAGCGCCAGCGGCGTCTACGGTGGCCAGGCCGAACGCAGCGGCAGCTGGAACCGCAACGCCGATGGCAGCGCCAGCCACTCCGCTTCGTCCAGCGCAAGCGGCGCCAACGGCGGCAGTGCCGCCAGCAGCGGCAGTTTCACCCGCAGTGCCGACGGCCAGCTGCAGGGCAGCCGCACCAGCAATGCCACCGCCGCCAGCGGCGCCAGCTACCAGGGCTCGACCACGGTCAACGACGGCAGCCTGACCCATACCTCCACCTGCACCAACGCCGCCGGCGAGATCGTCGCCTGCCACAGCCGCCCCTGA	MQRLHVSVLSLVLVATVGLVAAPHASAERIRGRAAVSGSEGRAVVAGGAASGARGRYARGHHAAADGNGNAHGGSQASASGVYGGQAERSGSWNRNADGSASHSASSSASGANGGSAASSGSFTRSADGQLQGSRTSNATAASGASYQGSTTVNDGSLTHTSTCTNAAGEIVACHSRP				NA	NA	NA	NA	NA
BMS020_02901	294			hypothetical protein	ATGAAGACCATGTCCCGCCCGTTCTTGACCGCCGCCGCCGTGCTGGCCCTGCTGCCCGGCGCCGCGCTTGCGCAGCAACAGCTCACCGATGCCCAGCGCGAGAAACTGCAGGAGATCGGCCAGCGCGTGAAGGCCGCCGACACCAACGGCGACGGCACGATCAGCCGCGCCGAGGCCGACGCCGGCCTGCCGCGCATCGCCAAGCGCTTCGACCAGCTCGATGCCGACCACGACGGCCAGCTGACCGCGCAGGAGATGCAGGCGGCGATGCAGCGGATGCGCGCGCAGCGGTGA	MKTMSRPFLTAAAVLALLPGAALAQQQLTDAQREKLQEIGQRVKAADTNGDGTISRAEADAGLPRIAKRFDQLDADHDGQLTAQEMQAAMQRMRAQR				NA	NA	NA	NA	NA
BMS020_02902	936			hypothetical protein	ATGGGTGTTTCCAACAAACTGATCGGCGCCGCGATCGCGGCGCTGCTTGCCGGCGGCGCGCAGCAGGCGCACGCCGCGCACCTGATGCCGGGCTATGGCGAACTGGTGCAGCAGGCGATCCGCCAGGCCGGGCAGGCCCCGGCGGTGAACGACGCGGACGCGCGCTACCGCGACGCGGCCGACCGTGGCGACGCGGTCGCGCAGACCGCACTGGGCTGGGCCTATGCCACCGGCAACGGCGCGTCGCGCAACGTGCTGCAGGCCGCGGAGTGGTACCGCCGCGCCGCCGAGCAGGACTACGAATGGGCGCTGGTCGGCCTGGGCGAACTGTACGAAGACGGGCAGGGCGTGGCCGCCGATCCGCGCAAGGCCGCACGCCTGTACCGGCGCGCCGCCGAGCAGGGCAATGCGGTGGCGCGGGTCGCGCTGGGTCGGCTGTACGCCGATGGCCACGGTGTCGGGCGCGACTACGCCAAGGCCGCCGCGCTGTACCGCCAGGCTGCCGAGCAGGGCAATGCGCGCGCGCAGTTCAACCTCGGCATGCTCTACAGCCGAGGCGACGGGGTGGACAGCGATGCCTACGAGGCCGCGCACTGGCTCTGGCGGTCGGCCAGCCAGGATTTCGTGATGGCGCAGGCCGCGCTCGGCGTGCTGTACCTGCGCGGCGAAGGGCTGGAGCGCAATCCGGTCGAAGCCGCGCGCTGGCACCGGCGTGCCGCCGAACAGGGCTTCGCGCCGTCGCAGGCCGCGCTGGGTGCGCTGTACCAGCGTGGCGAGGGCGTGCCGCACGACGAAGCCCAGGCGCTGGCCTGGTACCGGCGTGCCGCCGAGCAGGGCAACGACGATGCCGAAGCGGCGCTGGCCTCGCTGGCGATGGCGCGACCGGCCGACCATGCCGGCACGGCCGGTGGACGCATGGCGGGGTTGTCGGATTGA	MGVSNKLIGAAIAALLAGGAQQAHAAHLMPGYGELVQQAIRQAGQAPAVNDADARYRDAADRGDAVAQTALGWAYATGNGASRNVLQAAEWYRRAAEQDYEWALVGLGELYEDGQGVAADPRKAARLYRRAAEQGNAVARVALGRLYADGHGVGRDYAKAAALYRQAAEQGNARAQFNLGMLYSRGDGVDSDAYEAAHWLWRSASQDFVMAQAALGVLYLRGEGLERNPVEAARWHRRAAEQGFAPSQAALGALYQRGEGVPHDEAQALAWYRRAAEQGNDDAEAALASLAMARPADHAGTAGGRMAGLSD				NA	NA	NA	NA	NA
BMS020_02903	225	merR1		Mercuric resistance operon regulatory protein	ATGAAGATCGGTGAACTGGCCAAGGCCTGCGGCTGCCATGCGCAGAGCATCCGCCACTACGAACAGCTCGGCCTGCTGCCGGCCTCGCGGCGCACGCTCACCGGCCACCGCCGTTACGACGAGGCCGACCTGCAGCGGTTGCGCTTCGTGCGCGATGCGCGCGAACACGGCCTGTCGCTGGCCGCGATCGCCGATCTGCTCAAGCGCGCGTTCGCCGGCCGTTGA	MKIGELAKACGCHAQSIRHYEQLGLLPASRRTLTGHRRYDEADLQRLRFVRDAREHGLSLAAIADLLKRAFAGR	PGPT0004135_1506	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
BMS020_02904	696	rutD_2		Putative aminoacrylate hydrolase RutD	ATGAACCGCCCCGCCCTGCTGCTGCTTCCCGGCCTGCTCAACGACGCCGACCTGTGGGCGGCGCAACTGGATGACCTGGCCGACCTGGCCGACTGCAGCGTCGGCGACCTCAGCCGTGGTGCGTCGCTGCGTGCGCTGGCCGAAAGCGTGATCGCGCCGATGCCGCCGCGGTTCGCGCTGGCCGGCTTCTCGCTCGGGGGCTATATCGCCCAGGAGATCCTGAGGATCGCGCCGGAACGGGTCGAGCGCCTCGCGCTGCTGGACACCTCGGTCCGGGCCGATCCGCCGGCGCGCGCCGCGCAGCGTCGGCGCCAGGCCCAGGCACTGCGTGCGCCGGGCAGCTTCATCGGTTTCGGCGAGCGGCTGATGCACAGCTACGTCGACGCGTCGCGGCATGGCGACACCGCGCTGCTGCACCGGGTGCAGGCGATGACCCGGCGGCTCGGTGCGGAGGTGTTCCTGCGCCAGAACGCGTTGCCGCGGCTGGATGGCCGCGCCGAGCTGGCCGCCTTCGATGGCCCGCTGCTGGTGCTGTGCGGCGCCAACGATGCGATCACCCCGCTGGCCGGGCATGAGGAAATGGCCGCGCTGGTGCCGCGGGCACGCCTGGTGGTGGTGCCCGACTGTGGGCACCTGGCGCCGCTGGAGCGGCCCGAGGCGGTTTCGCAGGCGTTGCGCGCCTGGCTGCAAGGCTGA	MNRPALLLLPGLLNDADLWAAQLDDLADLADCSVGDLSRGASLRALAESVIAPMPPRFALAGFSLGGYIAQEILRIAPERVERLALLDTSVRADPPARAAQRRRQAQALRAPGSFIGFGERLMHSYVDASRHGDTALLHRVQAMTRRLGAEVFLRQNALPRLDGRAELAAFDGPLLVLCGANDAITPLAGHEEMAALVPRARLVVVPDCGHLAPLERPEAVSQALRAWLQG				NA	NA	NA	NA	NA
BMS020_02905	417			hypothetical protein	ATGATCGACGCCCGCATCGAGCAGGTCGATGTCGCGCTGAACGAGATCGAGCCTGGCGAGCTCGCCCGCAAGGTGGCGCTGTGGCAGTGGGCGTACCGCGAGATGCTGCACGAGACCCTGACCGGCATGCACCAGCTCTCCTACCTGACCGGGATCGCCGAGCGCGTCGCCGATGCCTGGCGCCGGCCGGTGGACGTGATCGAGCCGGAGCAGCCGTACATGAAACGCAACGTGCTCGCCGACCGCCGCCTGCCGGAAGTCCTCGACGGCCTGGGCCATGCGACCGACGAGAATGCCCGCGCGCAGTTGTGGCGCACCCGCTACGCGGCCTTGCTCGCCACGACCCTGCAGGGCATGCATGCGCTGGCCGGCAAGCACCGGATCGAGCGCCAGACCGCGGCGCAGTGGTGGAGTTGA	MIDARIEQVDVALNEIEPGELARKVALWQWAYREMLHETLTGMHQLSYLTGIAERVADAWRRPVDVIEPEQPYMKRNVLADRRLPEVLDGLGHATDENARAQLWRTRYAALLATTLQGMHALAGKHRIERQTAAQWWS				NA	NA	NA	NA	NA
BMS020_02906	297			hypothetical protein	ATGCACACCGCCACCGCGTTTGTTCGTCCTGTCGTCGATGTCGATGCCGAACTGGCCTACTGGCGTGACCTGCATGCCGAGGGGCGTCTGGGCCGGCGCGATTTCGCCGATTACTCGATGCTGCTCAGGCTCGGCTACGACATCTACCGCGCCTATCCGCGCGCCACCGAAGCGCAGCTCTACCGCGTGCTGCAGGATGGCTACCACCAGCACCGGCCGATGCTGAGCGTGCCCTGGGATGAGGCGCGCTGGCTGGTGCGCCATGCCTGGCACCACATGGAACAGACCACCCACTGA	MHTATAFVRPVVDVDAELAYWRDLHAEGRLGRRDFADYSMLLRLGYDIYRAYPRATEAQLYRVLQDGYHQHRPMLSVPWDEARWLVRHAWHHMEQTTH				NA	NA	NA	NA	NA
BMS020_02907	1224	rtcB	COG1690	RNA-splicing ligase RtcB	ATGAGTACCTCACACCAATTCGAATTGCTGCATGCCGAGGGCAGCGCCACGCCGATCAAGGGCTGGGTGCGCGGCGTACCGCTGGAGACGCAGGCCCACGAACAGCTGCGCAACATCGCCGCGATCCCGTTCGTCGGACCGTGGGTGGCGGTGATGCCCGACGTGCACCTGGGCAAGGGCGCGACCGTCGGCTCGGTGATCCCGACCCGCGGCGCGATCATCCCGGCCGCGGTAGGCGTGGACATCGGCTGCGGCATGGCCGCGGTGCGCACCACGCTGCGCGCGTCCGACCTGCCCGACGACCTGCGCCAGCTGCGTAACAGCATCGAGCGCAGCGTGCCGGTCGGCAACGGCCGGGGCGGCGAGCACCGCACACTGCCCGACAGCATCGCCACCCGCATCGCCCAGTCCGGGCTTGTACCGCGGCTGGAGGCGATCAAGGACAAGCACCGCAAGGTCCGCACCGACAAGCTGGATTGCCAGATCGGCACGCTCGGCGGCGGCAACCACTTCATCGAGGTCTGTCTCGACGAAACCGACGCGGTGTGGGTGATGCTGCACAGCGGCTCGCGCGGCACCGGCAACCTGATCGGCACGTACTTCATCGAACGTGCGCGTGAGGAACTGGCCAGGCGCGTGCTCGGCTTCCACCTGCCGGACAAGGACCTGGCGTTCTTCATCGAAGGCGAGCCGTTGTTCGACGACTACGTCGAGGCGGTGTCGTGGGCGCAGGACTACGCCCGCGAGAACCGCGAGGCGATGATGGCGCGGGTGCTGGCGGAAATGCGTCACCGCCTGCCGAAGTTCCAGTTGCAGAAGCTGGCGGTGAACTGCCACCACAACTATGTGCAGAAGGAGACGCACGCCGGGCAGGATCTGTACGTGACCCGCAAGGGCGCGGTCAGCGCGCGTGCCGGCGAGCTGGGCATCATTCCCGGCAGCATGGGCGCGAAGAGCTTCATCGTCCGCGGCCTGGGCAATGGCGACAGCTTCCACAGCTGCAGCCACGGCGCCGGGCGGGTGATGAGCCGCTCGGCCGCGCGCCAGCAGATCACCCTGGCCCAGCATCGCGAGGCCACCGCGCACGTGGAATGCCGCAAGGACGCGGCGGTGATCGACGAATCGCCGGCAGCGTACAAGTCGATCGACGCGGTGATGGCCGCGCAGACCGACCTGGTCGAAGTGGTGCACACCTTGCGCCAGGTGCTGTGCATCAAGGGGTGA	MSTSHQFELLHAEGSATPIKGWVRGVPLETQAHEQLRNIAAIPFVGPWVAVMPDVHLGKGATVGSVIPTRGAIIPAAVGVDIGCGMAAVRTTLRASDLPDDLRQLRNSIERSVPVGNGRGGEHRTLPDSIATRIAQSGLVPRLEAIKDKHRKVRTDKLDCQIGTLGGGNHFIEVCLDETDAVWVMLHSGSRGTGNLIGTYFIERAREELARRVLGFHLPDKDLAFFIEGEPLFDDYVEAVSWAQDYARENREAMMARVLAEMRHRLPKFQLQKLAVNCHHNYVQKETHAGQDLYVTRKGAVSARAGELGIIPGSMGAKSFIVRGLGNGDSFHSCSHGAGRVMSRSAARQQITLAQHREATAHVECRKDAAVIDESPAAYKSIDAVMAAQTDLVEVVHTLRQVLCIKG				NA	NA	NA	NA	NA
BMS020_02908	1122			hypothetical protein	ATGTTCTGGACCAAGAGGGTCGTGATCGGTGACGGCGAGCGCGGCCTGGTGTATCGCAACCGGCGTTTCGAGCGCGTGCTCGCCCCCGGTGTCTATCGCCTGTTCGATCCGCTGGGTCGGACCGAGATCACCCTGCATGCCGCGAACGGCGGCGAGTACGCCGGTCGCGACGTCGACTCGCTGATCGCCGCGCTCGGCGCGACGCTCGCGCAGACCTTCGTGGTCGCCGACATCGGCACCGCGCAGGTCGGCCTGCTGCTGCGCAACGGCAAGCTCGACGAGGTGCTGCCGCCGGGCACGCGCAAGCTGTTCTGGCGTGGCGCGATGGCCGTGGAGGTGCTGCCCCTGGCGCTGGACGAACGCCTGCAGGTGCCGGGCGATGTGGTGCGGCGCCTGCGCCAGCTCGGCACGCTGTCGAAGGTGGCGTTGGCCATGGACGTGCCGGCCGAGTCGCTCGGCCTGGTGTTCGTCGATGGTCGCCTGACCCAGGCGCTGCCGGCCGGCAGCTACGCATTCTGGAATTTCCAGAAGAACGTCGCCAGCGAGGTCGTCGACCTGCGCGTGCAGTCGATCGAGGTCGGCGGCCAGGAGCTGCTGACCCGTGACAAGGTCAGCCTGCGGGTGAACCTGGCGGCCAGCACCCGCATCACCGATGCGGTGCTGGCGCGGACCCGCGTGGCCAAGGTCGGCGATTTCGTCTACCGCGAGCTGCAGTACGGCCTGCGCCGTGCGGTGGCGGCCAAGACGCTGGACGAGCTGCTCGGCGACAAGGCCTCGCTGGACGCGGACATCTTCGCCTACGTGCGCGGCGCCCTGGACGGCTTCGGCGTGGAGGTGCTCGGCGTCGGCGTCAAGGACGTGATCCTGCCCGGCGAGATGAAGCAGATCCTCAACGGCGTCGTGCAGGCCGAGAAGCAGGCCCAGGCCAATGTGATCCGGCGCCGCGAAGAGGCCAACGCCACCCGCGCGCTGCTCAACACCGCCAAGCTGATCGAGGACAGCCCGGTGCTGATGCGACTCAAGGAGCTGGAGGCGCTGGAGAAGGTCACCGAGAAGATCGACAAGCTCACCGTGTTTGGCGGCCTGGATGGCGTGCTGAAGCAGCTGGTGACGATCAAGTAG	MFWTKRVVIGDGERGLVYRNRRFERVLAPGVYRLFDPLGRTEITLHAANGGEYAGRDVDSLIAALGATLAQTFVVADIGTAQVGLLLRNGKLDEVLPPGTRKLFWRGAMAVEVLPLALDERLQVPGDVVRRLRQLGTLSKVALAMDVPAESLGLVFVDGRLTQALPAGSYAFWNFQKNVASEVVDLRVQSIEVGGQELLTRDKVSLRVNLAASTRITDAVLARTRVAKVGDFVYRELQYGLRRAVAAKTLDELLGDKASLDADIFAYVRGALDGFGVEVLGVGVKDVILPGEMKQILNGVVQAEKQAQANVIRRREEANATRALLNTAKLIEDSPVLMRLKELEALEKVTEKIDKLTVFGGLDGVLKQLVTIK				NA	NA	NA	NA	NA
BMS020_02910	111			hypothetical protein	ATGCACCTGCGCATCGCCGCCATTGCCAGCTCGACGTCCCGCGAACAGCGCGGCTCGCTGCCCTGTGCGCGCCACGCACAGCTGGGCAAGGACTTCCTGCACCGGCACTGA	MHLRIAAIASSTSREQRGSLPCARHAQLGKDFLHRH				NA	NA	NA	NA	NA
BMS020_02911	657			hypothetical protein	ATGTTCGCACCCACCCCGCCCCCCGAGCTGCACTCCGCCGGAGCCTTCCGCGCCGAGCGCATCGACATCCACTCGCCGCAGCGTGCCGCGGTCGAAGCGTTCATCGCCCAGGTGTACCACGCACGCTATGGCGCGACGCTACGCAGCTTCATGCCGACGTTGCTGGCCTACTACGACGCCTCCGGCAGGTTGCAGGCGGCGGTCGGCGTGCGTCTTGGCGCGCAAGGGCCGCTGTTCCTCGAACAGTACCTGGACCTGCCGGCCGAGCAGGCTCTGGCGACGCGGACGCTGGCGCTGGTCCCGCGCGAGACGCTGGCCGAGGTCGGCAGCTTTGCCGCACTGCGCTCGGGCAGCGCACGCGTGCTGATCCCGCACATCACCTGCCTGCTGCATGAGGCCGGCGTGCGCTGGGTCCTGTTCACCGCCACACGCAAGCTGCGCAATGCCTTCGCGCGGCTGCAGCTGCAGCCGCAACCGCTGGCCGAAGCCGCTGCCGCGCGGGTGCGTGACCTGGGCGACTGGGGCGACTACTACGCGACCCAGCCGCATGTGATGTTCGGCGATGTCGCTGCCGGTCATGCGTTCCTGCGGCAGCGCACGCGCCATGCCGCAGCGCCATGGGCGCCGCTCGAAGGCTGCCTGGCGGTGGCGCTGTGA	MFAPTPPPELHSAGAFRAERIDIHSPQRAAVEAFIAQVYHARYGATLRSFMPTLLAYYDASGRLQAAVGVRLGAQGPLFLEQYLDLPAEQALATRTLALVPRETLAEVGSFAALRSGSARVLIPHITCLLHEAGVRWVLFTATRKLRNAFARLQLQPQPLAEAAAARVRDLGDWGDYYATQPHVMFGDVAAGHAFLRQRTRHAAAPWAPLEGCLAVAL				NA	NA	NA	NA	NA
BMS020_02912	1503		COG1022	Long-chain-fatty-acid--CoA ligase FadD15	GTGAGCGGGCTGGCGTTCGAGGCGCTGCTGGCCGCGCTTCCGGAGACCGCGATCCAGGTCGCGCATGCCGGCGGCACGCTCAGCGGTGCCGAGCTGCGCGGGCGCGTCGATGCGCTGGCCGAGACCTTGCACCAGCATGACCTGACCCGCGTCGCCAGCCGCCTCGACAATGGCCCGGACTGGTTGCTGCTGGACCTGGCGGTGCGTCGCCTGGGCGGCGTGCACGTGCCGTTGCCGACGTTCTTCTCGCCGGAACAGGTCGAGCACGCGCTGGCCTCGAGCGGCGCGCAGTGCCTGGTCGGCGAGAGCGCGGCCGGGCAGCCGGGAGGCACCTGCGACCGGCTCGCCACGTTGCCGCCGTCCGGACTGAGCGCGTGGCGGCTGGAGCCGCATGCCGCCGCCGCAGCGCTGCCGGCGGGGACCGCCTGCATCACCTATACCTCCGGGACCACCGGGCGCCCGAAAGGCGTGTGCCTGTCGGCGCCGTCGCTGTTGACCGTGGCCGCGGCGCTGGTCGATGCCGCGTCGGCGATCGCGCCGCGCCGGCATCTGTGCCTGATGCCGCTGAGCACGCTGCTGGAGAACATCGCCGGGTTGTATGCGCCGTTGCTGTCGGGCGCGACCATCCTGCTGCCGGGGCTGGGCGAGATCGGCTACACCGGCGCGTCGGGCCTGGATGTGCCGACCCTGTTGCGGTGCCTGCACCGCTACCAGCCCGAGAGCGTGATCCTGGTGCCGCAGCTGCTGCTGGCGCTGGTCAGCGCGGCCGAGCAGGGACTGCCGCCGCCGGCGTCGCTGCGCTACATCGCAGTCGGCGGCGGCCATGTCGGTCCCAGCCTGATGGCGCGTGCGGCGCGGCTCGGCCTGCCGGTCCACGAGGGCTACGGCCTGACCGAATGCGCCTCGGTGGTGTGCCTCAACCGCCCCGACGCACAACGCGCGGGCAGCGTCGGGCGGCCGTTGGCGCATGCGCAGGTCGGCATCAATGGCGGCGAGATCGTCGTCGACGGCGTGCGCGCGCTGGGCTATCTGGGCGGCGAGGCGTTGCCGGCCGGACCGATCCGCACCGGCGACCTGGGCCATGTCGACGGCGACGGCTTCGTGCACATCACAGGGCGGCGCAAGAACGTGTTCATCACCGCCTTCGGCCGCAACGTCTCGCCGGAGTGGGTCGAGAGCGAGTTGCTGCAGCACCCGTTGCTGGCGCAAGCGCTGGTCTGGGGCGAGGCCCAGGCCGACAACGTCGCCGTGCTGTGGCCGCGCCGCGCCGACCTGGACGATGCGGCGCTGGCGCGGGCGCTGGGCGAAGTCAACGCCGGCCTGCCCGACTACGCGCAGGTGGCGCGCTTCATCCGCGCCGAGCGCCCGTTCAGTGCGCAGGAAGGCCTGCTGACCGCCAACGGCCGGCCGCGTCGCGAGGCGATCCTGGCGCGCTACCAGGCCGCGATCGACCACAGCTACAGGCTGCCCCCCAACGTCCGTTCCCCAGGAGTCACCGCATGA	MSGLAFEALLAALPETAIQVAHAGGTLSGAELRGRVDALAETLHQHDLTRVASRLDNGPDWLLLDLAVRRLGGVHVPLPTFFSPEQVEHALASSGAQCLVGESAAGQPGGTCDRLATLPPSGLSAWRLEPHAAAAALPAGTACITYTSGTTGRPKGVCLSAPSLLTVAAALVDAASAIAPRRHLCLMPLSTLLENIAGLYAPLLSGATILLPGLGEIGYTGASGLDVPTLLRCLHRYQPESVILVPQLLLALVSAAEQGLPPPASLRYIAVGGGHVGPSLMARAARLGLPVHEGYGLTECASVVCLNRPDAQRAGSVGRPLAHAQVGINGGEIVVDGVRALGYLGGEALPAGPIRTGDLGHVDGDGFVHITGRRKNVFITAFGRNVSPEWVESELLQHPLLAQALVWGEAQADNVAVLWPRRADLDDAALARALGEVNAGLPDYAQVARFIRAERPFSAQEGLLTANGRPRREAILARYQAAIDHSYRLPPNVRSPGVTA	PGPT0008380_14951	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
BMS020_02913	669			hypothetical protein	ATGAGCTTCCACCAACAGCTGCTGGCCGCCACCGAAGCAGAACGCCAGCAGCTGATCGCGATCCCGATCATCCAGGAGGCGCTCGCCGGCCGCATCGCGCGCGAGGACTACATCGCCTTCCTCGGCCAGGCCTATCACCACGTCCGCCACACCGTGCCGCTGCTGATGGCCTGCGGCGCGCGCCTGCCGGCGCGGCTGGAATGGCTGCGCACGGCGATCGGCGAATACATCGAGGAGGAGATGGGGCACCAGGAATGGGTACTCGATGACATCGCCGCCTGCGGCGCCGACCGTGCGGACGCTGCAGCGTCGGCGCCGTCGATCGCCACCGAACTGATGGTCAGCTATGCCTACGACACCATCGCGCGCGGCAACCCGGTCGGCTTCTTCGGCATGGTGCTGGTCCTGGAGGGCACCAGCGTCGCGCTGGCCACGCGCGCGGCGACCACCATCGAGCACACCCTCGGGCTGCCGCGCAACGCCTTCAGTTACCTGCTCTCGCACGGCGACCTGGACATCGAGCATGTGGGGTTCTTCGAGGGGTTGATGGACCGGCTCGACGATCCGGCCGACCAGCAGGCGGTGATCCACGCCGCGCGACGCTTCTACCTGCTCTACGGCAACATCTTCCGCACCCTGCGCGAGCCGCGCCTGGCGGAGGCGGCGTGA	MSFHQQLLAATEAERQQLIAIPIIQEALAGRIAREDYIAFLGQAYHHVRHTVPLLMACGARLPARLEWLRTAIGEYIEEEMGHQEWVLDDIAACGADRADAAASAPSIATELMVSYAYDTIARGNPVGFFGMVLVLEGTSVALATRAATTIEHTLGLPRNAFSYLLSHGDLDIEHVGFFEGLMDRLDDPADQQAVIHAARRFYLLYGNIFRTLREPRLAEAA	PGPT0008380_1348	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
BMS020_02914	825			hypothetical protein	ATGGAGCTGCAGGGCAGGACCGTCATCGTCACCGGCGCCAGCGGCGGCATCGGCGCGGCGCTCACCGCCGAGCTGGTCCGGGCGCGCGCGCGCGTGCTGGCGGTGGCGCGCCGCGCCGCGCCACTGCACGCGCTGGCGGCCGAGCATGCGCCCGGCTACGTGGTGCCGCTGGCTGCCGACCTGTCCACCGCGGAGGGACGCGCGGCGCTGCATGCCGCGGCCATGGCGGTGCAGCCAACGCCCAGCGTGCTGGTGATCGCGCATGCCAGCAGCGGCTTTGGCCTGTTCGAGCAGCAGAGCGAGGCCGCGCTCGCCAACCTGCTGCATGCCGATGTGGTGGCGCCGACGCTGCTGGTGCGCGGCCTGCTGCCGCTGCTGGGCGCGCATGCCGACGCCGCGGTCGTCGCGGTCGGCTCCACCTTCGGCAGCCTCGGATTCCCCGGCTTCGCCGCTTACAGCGCGGCCAAGTTCGGCCTGCGCGGGCTGTTCGAGGCGCTCGCGCGCGAGCACGCCGACGGCCCCGTGCGCTTCCAGTACCTGGCGCCACGCGCGACCCGCACCCCGTTCAACAGCGACGACGTGGTCGCGCTGAACCTGGCGTTGGGCACCGCCAGCGATGCGCCCGAGGACGTGGCGCGCTGGCTGCTGGCATCGATCCGTGCCGGCGCGCCGCGCCGCCAGCTGGGCTGGCCGGAAAAGCTGTTCGCCCGCCTCAACGGGCTGCTGCCCGAACTGGTCGACCGCAGCCTGCGCAAGCAGCTGCCGTTGATCCGCACGCATGCGCAGCGCGCCGCTGCGCCCCGCTCCATGGAGACCCCGGCATGA	MELQGRTVIVTGASGGIGAALTAELVRARARVLAVARRAAPLHALAAEHAPGYVVPLAADLSTAEGRAALHAAAMAVQPTPSVLVIAHASSGFGLFEQQSEAALANLLHADVVAPTLLVRGLLPLLGAHADAAVVAVGSTFGSLGFPGFAAYSAAKFGLRGLFEALAREHADGPVRFQYLAPRATRTPFNSDDVVALNLALGTASDAPEDVARWLLASIRAGAPRRQLGWPEKLFARLNGLLPELVDRSLRKQLPLIRTHAQRAAAPRSMETPA	PGPT0003180_3206	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
BMS020_02915	666			hypothetical protein	ATGAACCGCATGAACCCATTCGCCGCCCCGCTGGTGCTGCTGTCGCTGGTGGCCGGCATCCCGGCATCGGCGCTGGCGGCCAAGCCGTTGGCGCCTGCGGTGGTGCAGATCCAGGACCGCTGGGCCCAGGCCAGCTACCAGACGCCCAAGGCCGCGCGTGCGCAGGCGCTGCAGGCGCTGGCCACGCAGGCCGAACGGGTGCGCAAGGCCCAGCCCGGCGACGCCGCGGCGTGGACCTGGGAGGGCATCGTGCTGTCCAGCCTGGCCGGCGAGAAGGGCGGGCTGGGCGCGCTGGGCCTGGTCAAGCAGGCGCGCGCGGACTTCGAACAGGCGCTCGCCCTGGACCCGCAGGTGATGGACGGCGCGGCCTACACCAGCCTGGGCGCGCTGTACTACCAGGTGCCGGGCTGGCCGCTGGGGTTCGGCGACGACGGCAAGGCCCGCGAGCTGCTGCGCAAGGGCGTGGCGATCGATCCGCAGGGCATCGACAGCAACTACTTCCTCGGCGACTTCCTGCGCGACCAGAAGGAGTGGGCCGGCGCCGCGGCGGCGTTCGAGAAGGCCGTACAGGCGCCGCCGCGCCCGGGCCGGCAGGTGGCCGACGAGGGGCGCCGCCAGGAGGCGCAGGCACGCCTGCGCGAAGCGCGCGAGCAGCTTGCCAAGTGA	MNRMNPFAAPLVLLSLVAGIPASALAAKPLAPAVVQIQDRWAQASYQTPKAARAQALQALATQAERVRKAQPGDAAAWTWEGIVLSSLAGEKGGLGALGLVKQARADFEQALALDPQVMDGAAYTSLGALYYQVPGWPLGFGDDGKARELLRKGVAIDPQGIDSNYFLGDFLRDQKEWAGAAAAFEKAVQAPPRPGRQVADEGRRQEAQARLREAREQLAK				NA	NA	NA	NA	NA
BMS020_02916	687	qseB_3		Transcriptional regulatory protein QseB	ATGCGCATCCTGCTGGTCGAAGACGATCCGTCGTTGGGTGAAGGCGTCCGCACCGCGCTGCGCCGCGCCGCGTTCGCGGTGGACTGGGTGCAGGACGGCGCCGCCGCGCTGCTGGCGCTGCGCGAGCAGACCATCGACCTGGTGGTGCTTGACCTCGGCCTGCCGCGCATGGACGGCATCGAGGTGATCCGCCAGGCGCGCGCCGCCGGCGCCGACGTGCCGATCCTGGTGCTGAGCGCACGCGAGCGCGCGGCCGACCGCACGCTCGGCCTGGATGTGGGCGCCGACGACTACCTGGGCAAACCGTTCGACAGCGCCGAGCTGCTGGCGCGGATCCGTGCGCTGCTGCGCCGCGCCGCCGGGCGCGCGCGGCCGACCCTGGAATCGGGCGCGCTGCGGCTGGATCCGGCCGCGCTGGCGGTGCATTGGCAGGGACGCTCGCTCGACCTGACGCGGCGCGAGTTCGCCCTGCTGTGGCTGCTGATGGAGCAGGCCGGGCGGCCGATCGGCCGCGAGCGCATCCAGCAGCACCTGTACGGGTGGGACGAGGACGTGGCCAGCAACGCGGTCGACGTGCATGTGCACCAGCTGCGGCGCAAGCTGGCCCCGGGGCTGATCCGCACCGTGCGCGGGATCGGCTACGCGCTCGATCTGCAGGCGGCGGAAGGCGGCGCGGAGGCGTCGTGA	MRILLVEDDPSLGEGVRTALRRAAFAVDWVQDGAAALLALREQTIDLVVLDLGLPRMDGIEVIRQARAAGADVPILVLSARERAADRTLGLDVGADDYLGKPFDSAELLARIRALLRRAAGRARPTLESGALRLDPAALAVHWQGRSLDLTRREFALLWLLMEQAGRPIGRERIQQHLYGWDEDVASNAVDVHVHQLRRKLAPGLIRTVRGIGYALDLQAAEGGAEAS	PGPT0003915_139	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
BMS020_02917	1380	qseC_2		Sensor protein QseC	GTGAACTCGATCCGGCGCATGCTGCTGGTCGCGCTGCTCGGCATCCTGTCGGTGCTGCTGGTGCTGGCGGCCGGCTTCAGCTACCACGCCGGCCTGCAGGAGGCCGGTGAGATGTTCGACGCGCGCCTGGTGCAATCCGCGCGGGTGCTGCTCAGCCTGGTCGATGAGCCGCTCGGCGACCTTGCCGCGCATCCCGGCGACCCGATCGTCATCCGTGGCTGGCATGGCCAGGCGCACGGCGTCGGCGCGGCGCTGGCGTTCGACAACGGCCACGCCTACGAGACCAAGCTGGCGTTCCAGGTGTCCGACGGCGACGGCCACCTGCTGTTGCGCTCGGACAGCGCGCCGATGGCGCCGATGGCCGCACTCAAACCCGGCTATGCCGATGTGCAGCTCGCCGATGGGCGCTGGCGGGTATTCACGCTGCGCTCGGACAACGGGCGCTGGTTCCAGTCCGGCGAGCGCGCCGACATCCGCGAGGAACTGGCCGAGGACATCGCCTTCGGCACGCTGCTGCCGCTGTTGATCGCGCTGCCGCTGATGGCGGTGCTGATCTGGCTGGCGGTGAGCTGGGCGACGCGCTCGCTGGTGCGCATCTCCAGCGAGATCGGCGAACGCGACCCGCAGCGGCTGGACCCGTTGCCGCGCGAGCAGTTGCCCAGCGAGGTGCACGGCATGGTCGGCGCGCTCAACGCGCTGCTCACCCGCATCGGCGAGGGACTGGAGCGCGAGCGCCGCTTCATCGCCGATGCCGCGCACGAGCTGCGCACGCCGATCGCCGCGCTCAAGGTACATGCCGACAACCTGCGCAGCGCTCCCGACGATGGCGAGCGTGCCGAGTCGCAGCAGCAGCTGGATGCCAACGTGGCGCGGGTCGAGCGCCTGGTCGCGCAGCTGCTGGCGCTGAGCCGGGCCGAACAACGGCGGGCGGCCGCGGCGCCGGCACCGCTGAGCCTGGATGCGCTGGTGGCGCTGGAAGCGGAGGATGCGGCGACGCTGGCGCGCGCGAAGGGGCTGGCGTTGGAGCTGCGCCTGGCGCCGGTGACGGTGCTCGGCGATGAACACTCACTGCAGGTGCTGGTGCGCAACCTGCTGGAGAACGCGATCCGCTACACGCCGGCCGGTGGCCGGCTGCGGGTGTCGTTGCTGGCGCAGCCGCGGCCGCGGCTGGTGGTGGAGGACAGCGGGCCAGGCATCGCGGCGGAGGCGCGCGCGCGGGTGTTCGACCGCTTCCACCGCGAGCTCGGCACCGGGACCGAAGGCAGTGGGCTGGGGTTGGCGATCGTGCGCGAAGTCGCCGAGCAGCACGCCGCCGAGGTCATGCTCGACGACGCGCCGGAGCTCGGCGGCCTGCGGGTCAGCGTGCAGTTCCGCGGCTGA	MNSIRRMLLVALLGILSVLLVLAAGFSYHAGLQEAGEMFDARLVQSARVLLSLVDEPLGDLAAHPGDPIVIRGWHGQAHGVGAALAFDNGHAYETKLAFQVSDGDGHLLLRSDSAPMAPMAALKPGYADVQLADGRWRVFTLRSDNGRWFQSGERADIREELAEDIAFGTLLPLLIALPLMAVLIWLAVSWATRSLVRISSEIGERDPQRLDPLPREQLPSEVHGMVGALNALLTRIGEGLERERRFIADAAHELRTPIAALKVHADNLRSAPDDGERAESQQQLDANVARVERLVAQLLALSRAEQRRAAAAPAPLSLDALVALEAEDAATLARAKGLALELRLAPVTVLGDEHSLQVLVRNLLENAIRYTPAGGRLRVSLLAQPRPRLVVEDSGPGIAAEARARVFDRFHRELGTGTEGSGLGLAIVREVAEQHAAEVMLDDAPELGGLRVSVQFRG	PGPT0003920_628	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
BMS020_02918	963	yajO_3	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGACCCAGTCCCGCGAACTCGGCCGCTCCGGCCTGACGGTCGCTCCCATCGCCTTCGGCGGCAATGTGTTCGGCTGGAGCGCCGACGAGAAGACCTCGTTCGCGCTGCTCGATGCCTTCGTCGATGCCGGCTTCAACCTGGTCGATACCGCCGATGCGTATTCGGCGTGGGTGCCGGGCAACAAGGGCGGCGAATCGGAAAGCATCATCGGCCGCTGGTTCAAGCAGTCGGGCAAGCGCGACAAGGTCGTGCTCGCGACCAAGGTCGCCAAGTGGAGCGAGCAGCCGGGCCTGTCGGCCGACAACATCGCCGAAGCGGTCGAGGGCTCGCTGCGGCGCCTGCAGACCGACGTGATCGACCTCTACCAGGCGCATGAGGACGACGTGTCCATCCCGCTGGAAGCGACCCTGGCCGCGTTCGGGCGGCTGGTCGAGCAGGGCAAGGTGCGCGCGATCGGTGCGTCCAACTACTCCGCCCCGCGGCTGCGCGAGGCGCTGGAGGTGTCGCGCCAGTTCAACCTGCCGCGTTACGAAACGCTGCAGCCGGAATACAACCTCTACGACCGCGCCGGCTACGAGGCCGAGCTGGAGCCGCTGGTGCGCGAACAGGGCCTGGCGACGATCGGCTATTACTCGCTGGCCAGCGGTTTCCTCACCGGCAAGTACCGCAGCGCCGACGACGCGGCCAAGAGCAGCGCGCGTGGTGCCGCGGTGGTGAAGCAGTACCTCAATCCGCGCGGCATCCGCATCCTCGCCGCGCTCGACGACATCGCCGCCAAGCACTCGGCCACCCAAGGCCAGGTCGCACTGGCGTGGCTGATCGCGCGCCCCGGCGTGGCCGCGCCGATCGCCAGCGCCACCAGCGTCGCGCAGCTGCAGGACATCCTCAAGGCCGCCACGCTGGGCCTGTCGGCCGATGACGTGGCCCAGCTCGACGGCGCTAGTGCCGAGGACATCGGCTGA	MTQSRELGRSGLTVAPIAFGGNVFGWSADEKTSFALLDAFVDAGFNLVDTADAYSAWVPGNKGGESESIIGRWFKQSGKRDKVVLATKVAKWSEQPGLSADNIAEAVEGSLRRLQTDVIDLYQAHEDDVSIPLEATLAAFGRLVEQGKVRAIGASNYSAPRLREALEVSRQFNLPRYETLQPEYNLYDRAGYEAELEPLVREQGLATIGYYSLASGFLTGKYRSADDAAKSSARGAAVVKQYLNPRGIRILAALDDIAAKHSATQGQVALAWLIARPGVAAPIASATSVAQLQDILKAATLGLSADDVAQLDGASAEDIG	PGPT0016784_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016784-mocA-NA	NA	NA
BMS020_02919	852			hypothetical protein	ATGACGCAGCATGGACTGACAGGGCTTGGCGTGCTGGCACTGGCACTGGCGGCGGGCATACCGGCCGCATCGATCGCGGCCGACGCGACGACGACAACGCGCGCGGCGGATCCGGCGCTGCAGGCCGCGATCGCCGGGCCATGGCGCGACCGCGTCCATGTGACGCGCGACGCCTGGCGCCATCCGGCGCAGACGCTCGGCTTCATCGGTCTGCGCCCCGAGCAGACCGTCATCGAGATCACCCCGGGCGGTGGCTGGTATTCGGAGATCCTCGCGCCCTACCTGCACGATCGCGGCCACTACATCGCCGCGGTGGTCGATCCGCAGGCGGTGGCCGAGGGCAAGGACCGCCAGTACCAGCAGCGCGCGCGCGACCAGTTGCAGCAGAAGTTCGTCGCCCATCCGGCGCAGTACGACAAGGTGGCGTTCGTGGCCTATGCGCCGGGCTCGCCAGTGTTCGGGCCGGACGCGTCGGCCGACGTGGTGCTGACCTTCCGCAACGTGCACAACTGGCGCATGGCCGGGCAGGCCGAAGGCATGTTCAAGGGCTTCTACAAGGTGCTCAAGCCGGGTGGCGTGCTCGGTGTGGTCGAGCATCGCGCCAACGGCGACGTCGCCGCCGACGACCGCAGCGGCTATGTCGGTCAGCAGCAGGTGATCGCGCTGGCCGAGGCCGCGGGCTTCAAGCTTGCCGGCAGCAGCGAGATCAATGCCAATCCGCGCGATACCAAGGACCATCCCAACGGGGTGTGGACGTTGCCGCCGAGCAACAAGCACGACGCCGCCGACGATGCGAAATACCAGGCGATCGGCGAGAGCGACCGGATGACCTTGAAGTTCGTCAAACCGTGA	MTQHGLTGLGVLALALAAGIPAASIAADATTTTRAADPALQAAIAGPWRDRVHVTRDAWRHPAQTLGFIGLRPEQTVIEITPGGGWYSEILAPYLHDRGHYIAAVVDPQAVAEGKDRQYQQRARDQLQQKFVAHPAQYDKVAFVAYAPGSPVFGPDASADVVLTFRNVHNWRMAGQAEGMFKGFYKVLKPGGVLGVVEHRANGDVAADDRSGYVGQQQVIALAEAAGFKLAGSSEINANPRDTKDHPNGVWTLPPSNKHDAADDAKYQAIGESDRMTLKFVKP				NA	NA	NA	NA	NA
BMS020_02920	540	rluE_2	COG1187	Ribosomal large subunit pseudouridine synthase E	ATGCTGATCGCCCTCAACAAGCCATTCAACGTGCTGTGCCAGTTCACCGACCGCAGCGCTCCGCCGCGGCGCACGCTGGCCGAGTTCGGCCTGCCCGCCGACGTCTACGCGGCGGGGCGGCTGGACTACGACAGCGAAGGCCTGCTGCTGCTGACCGACGATGGGCGGCTGGCGTCGCGGCTGACCGACCCGCGCCACAAGCAGCCCAAGACCTACTGGGTGCAGGTGGAGGGCACGCCGCAGCAGGCGCAGCTGCAGCAGCTGCGCCGTGGCGTGCTGCTCAACGATGGCCCGACCCTGCCGGCCGGCGCCGAGCTGCTGCCGGGCGCCCCTGCGCTGTGGCCGCGCGATCCGCCGGTGCGGTATCGCAAGAGCGTGCCCGATGCCTGGCTGGCGATCACCCTGCGCGAGGGGCGCAACCGCCAGGTGCGGCGCATGACCGCCGCGGTCGGGTTGCCGACGCTGCGGCTGGTACGCGCGCAGATGGGGGCGCATGCACTCGACGGCCTGCAGCCCGGGCAGTGGCGCCAGCTCGACTGA	MLIALNKPFNVLCQFTDRSAPPRRTLAEFGLPADVYAAGRLDYDSEGLLLLTDDGRLASRLTDPRHKQPKTYWVQVEGTPQQAQLQQLRRGVLLNDGPTLPAGAELLPGAPALWPRDPPVRYRKSVPDAWLAITLREGRNRQVRRMTAAVGLPTLRLVRAQMGAHALDGLQPGQWRQLD	PGPT0029005_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029005-bcr|tcaB-K07552	NA	NA
BMS020_02921	669			hypothetical protein	ATGAGCGAGACCCCCGTATCGGCACAGTCGCTGGCCGAATCGCTGACCGGCGATCTTGGCCAGGTCAGCCAGTCGCAGCGCGAGGCCGAAATCCAGGAGCTGGAGGCGCTGATCGCCGAAGTCCCCGAACGCGCGGTGTTCACCGCCTCGCGCAAGGGCCTGGTGTACGGCATCGGCGTGCTGGTGCTGGCGATCGCGCTGGGCGTGGGCGGCGTGCACGCCGGCAAGCTGGGCACCGGCATGCTGGTGCTGCTGGGCGTCTTCGTCGTGTTCGGCATCGGCCTGGTGGCGACCCATCGCAACGCAGGCCAGACGCCGCTGCTCACGCTCGACCGCCGCCATGCCCATGCGCTCAATTTCCCCGCGCCGCTGCCGCTGACCGCGATCGGCGACATCACCGTGTGGCAGAACTACCAGGCCGAGATCCACCTGGAGCTGGCGCCCACCACCTCGCTGCCGGCGGTCAAGCCGGGCCGCAATCCGTTCTACCCGCCCAAGTCCTACCTGCACCGCCGCCGCAACAAGCCCGACACGCTGGTGGTGATGGCGCCGGGCTTCCGCATCGACGGCAAGGCGATGGACAACGAGGACGTGCTGGAACGCCTGGCCGCGCATGTCGCCGCGGCCAACGCGCAGGCGCGGCTGGACGCGCTGCGCGCGCAGGGCTGA	MSETPVSAQSLAESLTGDLGQVSQSQREAEIQELEALIAEVPERAVFTASRKGLVYGIGVLVLAIALGVGGVHAGKLGTGMLVLLGVFVVFGIGLVATHRNAGQTPLLTLDRRHAHALNFPAPLPLTAIGDITVWQNYQAEIHLELAPTTSLPAVKPGRNPFYPPKSYLHRRRNKPDTLVVMAPGFRIDGKAMDNEDVLERLAAHVAAANAQARLDALRAQG				NA	NA	NA	NA	NA
BMS020_02922	1509	htpX_2		Protease HtpX	ATGAAACGGACTTCCGAACCGGCCGCGGAGACGGCCCAGCCCACGCCGGCGGCGCGGCCGCCGCACTGCGATGGCGCGCTGCGCCGCAAGGCCGCCTGCGCCCTGCTCCTGCTGCCGTTGCTGGTGCTGCTGTATCCGCTGCTGCAGAGCTGGCGCGTGCACGACGACGCGCTGCAGTACCAGCGCAGTACCCGCTACCTGCAGGCGGTGCACGACGGCAACGCCGAGACCGTGCCCATTCCCTATGGCCTGGCCCGCGCAGCCCCGCAGGCACGCGCGCAGGCGGTCGCCGCGCAGGTGGCCGAGATGAAAGCCAATGCCGGCAGCGTCGCGCTCCGCCGCGGCCTGGCCTGGAGCAGCCTCGCCAGCGCGATGGCAGCGCTGGCCCTGGCGCTGGGACTGCTCGCCGCGGTCGAACGCGCGCGTCGGCGCGCGCTGGCCTCGCCGGCCTACCTGATCGCACAGTTCGCGCACGGCTGGCGCCGCGCCTCGCGGCTGCTGATGGCGCAGATCGGCATGATGCTGCTGACGCTGCTGCTGAACATCGCGTTCGAGGTGCTGTGGTCGCGCGAGCACTGGCACAGCCATGGCTTCGTCGCGGTGCTGATGACCGTGCCGTTGTGGGGCGGCATCGCCGCGGTCGCCACGATGCTGCTGAAGACCCGCCGCGCGCTCGCGCCGACCGGTCCGCTGGTGCTTGAGGCCACCGCCCGCGCGGTACCGCGCGCCAGCGCGCCGCGCCTGTGGCAGTGGCTGGAGACGATCGCCGCACGGGTCGGCGCGCCGATGCCGAACCACGTCGTGGTCGGGCTCGCCGACGGCTTCTACGTCACCAGCGCCACGCTGCGCCTGCTGCCGCAGGGCCAGCTGCTGCACGGGCGCACCCTGCATGTCCCGCTGCCGCTCGCCGCCAGCCTGAGCGAGGCCGAGACCAGGTTCGTGATCGGTCACGAGCTGGCCCACTTCGCCCATGCCGACACCGACCACAGCCAGCAGCTGGCGCTGCTGCATCGGGCGATGCTGGCACGCATCGACTGGCTGGCCGAGCAGATCGCGTACAGCCGCGCATGGCTGGCGCAGCCACCGCTGTGGACCTCGCTGTACATCCTGTCCAGCTTCGATCAGGCCTACGGCCACTGGAGCCGGCAGCAGGAATTCGCCGCCGACCGGGTCGGCGCGCTGGCCAGCGACGCACGCAGCGGCGCCGTGGCGCTGCTGCGCATCGGGGCGCTGCTGCCGCTGCTCGGCGAAGCCTTGCAGGCGCGTGGCGGCAATGCGGTCGCGGCGTTGCATGCGCTGCTGGCCAACACCCCGCCGCAGCTGGACGACGACATGCTCGCCGACGCGCTGCCGCATCCGGTCGACAGCCATCCGCCGACCCGCGCGCGCCTGCAGGCGCTCGACGTGACGCTCGACGCGGCGCTGCTGGCGCGCGCCCAGCGCGGCCTCGATCGCCACGACCAACAGTGGTTCGCCGCGCTGCTGCAGGCGCACACCACCACGCCCTGA	MKRTSEPAAETAQPTPAARPPHCDGALRRKAACALLLLPLLVLLYPLLQSWRVHDDALQYQRSTRYLQAVHDGNAETVPIPYGLARAAPQARAQAVAAQVAEMKANAGSVALRRGLAWSSLASAMAALALALGLLAAVERARRRALASPAYLIAQFAHGWRRASRLLMAQIGMMLLTLLLNIAFEVLWSREHWHSHGFVAVLMTVPLWGGIAAVATMLLKTRRALAPTGPLVLEATARAVPRASAPRLWQWLETIAARVGAPMPNHVVVGLADGFYVTSATLRLLPQGQLLHGRTLHVPLPLAASLSEAETRFVIGHELAHFAHADTDHSQQLALLHRAMLARIDWLAEQIAYSRAWLAQPPLWTSLYILSSFDQAYGHWSRQQEFAADRVGALASDARSGAVALLRIGALLPLLGEALQARGGNAVAALHALLANTPPQLDDDMLADALPHPVDSHPPTRARLQALDVTLDAALLARAQRGLDRHDQQWFAALLQAHTTTP				NA	NA	NA	NA	NA
BMS020_02923	1314	maeB_1	COG0280	NADP-dependent malic enzyme	ATGCCGTCTCTCCCGCCGATGACCTACGACGCACGCAAGCCAGCCACCGACTTCCGCCAGGCCGCCCTGGACTACCACCGCCATCCGCAGCCGGGCAAGCTGCAGGTCGCTCCGACCAAGCCGATGAAGACCCAGCGCGACCTGGCGCTGGCCTATTCCCCCGGCGTCGGCCACGCCTGCGAGGCGATCGTCGCCGACCCGACCCAGGCCAGCGTGCTGACCGCGCGCGGCAACCTGGTCGCGGTGGTCTCCAACGGCACCGCGGTGCTGGGCTTCGGCAACATCGGCCCGCTGGCCTCCAAGCCGGTGATGGAAGGCAAGAGCGTGCTGTTCAAGCGCTTCGCCGGCGTCGATGCATTCGACCTGGAACTGGCCGAGAACGATCCGCAGAAGCTCATCGACATGGTCGCGGCGATGGAGCCGACCTTCGGCGGCATCAACCTGGAAGACATCAAGGCGCCGGAGTGCTTCATCGTCGAGCGCGCGTTGCGCGAGCGGATGAACATCCCGGTGTTCCATGACGACCAGCACGGTACCGCGATCGTCGCCGGTGCGGCGGTGCTGAGCGCGCTGGAGGTGGTCGGCAAGGACATCGCCACCGCCACGCTGGTGGTCAACGGCGCCGGTGCGGCCGGCATCGCCTGCCTGGACATGCTGGTGGCGCTCGGGCTGGATCCGGCCAACGTGATCGCCTGCGACAGCCAGGGCGTGATCCACACCAGCCGCGAGCGCCTGGAAGCCAACAAGGCCCGCTATGCGCGCGACACCGACAAGCGCACGCTGGCCGACGCGGTCGCCGGCGCCGACATCTTCCTCGGCCTGTCCGCGGCCGGCGCGCTGAAGCCGGAGATGGTCGCGAGCATGGCGGCGCGCCCGATCATCCTGGCGCTGGCCAACCCGGATCCGGAGATCACCCCGGAGGCGGCGCATGCGGTGCGCGCCGACTGCGTGGTCGGCACCGGCCGTTCGGACTACCCGAACCAGATCAACAACGTGCTGTGCTTCCCCTACCTGTTCCGTGCCGCGCTCGACGTCGGCGCCAGCGGCATCGACGAGACGATGAAGATCGCCTGCGTGCGTGCGCTGTCGGCGCTGGCGCGCCAGGGCGCGGTGCCGATCGAGGGCATCTACGCCGGTGCCCCGCCGCAGTTCGGTGCCGAGTACCTGATCCCGCACCCGTTCGACCCGCGCCTGCTGGTCGAGCTTCCGGCGGCGATCGCGCAGGCGGCGATGGACGCCGGCCTGGCCTCGCGCCCGATCGCCGACATGGCCGCCTACCGCGCGCAGCTGGCCGCACTCGCCGCCACGCTCTGA	MPSLPPMTYDARKPATDFRQAALDYHRHPQPGKLQVAPTKPMKTQRDLALAYSPGVGHACEAIVADPTQASVLTARGNLVAVVSNGTAVLGFGNIGPLASKPVMEGKSVLFKRFAGVDAFDLELAENDPQKLIDMVAAMEPTFGGINLEDIKAPECFIVERALRERMNIPVFHDDQHGTAIVAGAAVLSALEVVGKDIATATLVVNGAGAAGIACLDMLVALGLDPANVIACDSQGVIHTSRERLEANKARYARDTDKRTLADAVAGADIFLGLSAAGALKPEMVASMAARPIILALANPDPEITPEAAHAVRADCVVGTGRSDYPNQINNVLCFPYLFRAALDVGASGIDETMKIACVRALSALARQGAVPIEGIYAGAPPQFGAEYLIPHPFDPRLLVELPAAIAQAAMDAGLASRPIADMAAYRAQLAALAATL	PGPT0001685_1063	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001685-maeB-K00029	NA	NA
BMS020_02924	405			hypothetical protein	ATGAGCAAGCTGACCGTCATCACCGACCGCGCGCTGGAGCGCGCCCTGGAACTGGCCGGCAGCGCCGGCGATACCCTGCGCCATGCCGGCAGCAGCCTGCGCCAGGCCGCGCCGCATGCCGGCGACTGGCTCAAGACCGGCGCGGCGATCGGCGCGGTGAAGAGCGGCGGTCGTGCGGCCGGCAAGTTCGCCAAACGCAATCCGGCGGTCACCGTGGCCGCCGCGGTGGCCGGCCTGGGCCTGATCGGCTATGCGATCTACCGCAAGCGCAAGCGCGACCAGTACGCGGCGATCGACGGCAGCGCGCAGCGCCTGGACGGGCACATCAGCAACGCCGATGCGCGGCGTGCGGCGCGCAACGCCCGCCGTGCCGCGCTCAACCCGGCCGACACGCCGCACGAGTGA	MSKLTVITDRALERALELAGSAGDTLRHAGSSLRQAAPHAGDWLKTGAAIGAVKSGGRAAGKFAKRNPAVTVAAAVAGLGLIGYAIYRKRKRDQYAAIDGSAQRLDGHISNADARRAARNARRAALNPADTPHE				NA	NA	NA	NA	NA
BMS020_02925	2691			hypothetical protein	ATGAACACCGCCGCATTCCCGATCTCCCCGCTGCTGCCGGCCATCGCCGACAGCCTCGCCGCCCACCCGCGCCTGGTGCTGGAAGCCCCGCCCGGCGCCGGCAAGACCACCCAGGTGCCGCTGGCGCTGCTGGATGCGGCGTGGCTGGGCGGCAAGAAGATCGTGATGCTCGAGCCGCGCCGGGTCGCCGCGCGCAGCGCCGCGCTGTTCATGGCGCGCCAGCTCGGCGAAGACGTTGGCGGCACGGTCGGCTACCGCATCCGTTTCGAGAACAAGGTGTCCGCGCGCACCCGCATCGAGGTCGTCACCGAAGGCATCCTGACCCGGATGCTGCAGGACGATCCGCTGCTGGAGGACGTCGGCGCGCTGCTGTTCGACGAGTTCCACGAGCGCCACCTGTCGGCCGATCTCGGCCTGGCGCTGGCGCTGGACGTGCAGGCCGGATTGCGCGAGGACCTGCGCATCGTGGTGATGTCGGCCACGCTCGACGGCGAGCGGCTGGCCAACTTCCTCGACGCGCCGCGACTGAGCAGCGAGGGCCGCAGCTTCCCGGTCGAGATCGCGCATTTCCCGGCGCGCCGCGACGAGGCGCTGGAGCCGCAGGCGCGGCGCGCGATCGAACACGCGCTGGCCAGCCATCCCGGCGACGTGCTGGTGTTCCTGCCCGGCCAGCGCGAGATCGCGCGGGTGCAGGCGGCGCTGGAGGCGGTGACGCTGCCGTCGGCGCCAAGTCCATCACATACCGCCGGTCCAGGCACCGCCGCCAGCGATGAAGAAGGCCGCTCTCCCGCGAGCGGGAGAGGGGTTGGGGTGAGGGCCACTGGTGAAGACGCCGCCGCCCTCCTCCGCCCTGCGGGCACCTCCTCCCGCATGCGGGAGGAGGGAACATCAGCGCGGGGCGGAGCGCGTCCGGTGCAGGTGCTGGCGCTGCACGGCGAGCTGCCGGTCGAACAGCAGGCGCGCGTGCTGCAGCCCGATCCGGACGGCGCGCGCCGGGTGGTGCTGGCGACCAACGTCGCCGAATCCTCGGTGACCCTGCCCGGCGTGCGCGTGGTCATCGATGCCGGGCTGGCGCGCGAGCCGCATTACGACCCCAACAGCGGCTTCTCGCGGCTGGAGACCGCCAGCGTGTCGCAGGCCTCGGCCGACCAGCGCGCCGGCCGCGCCGGGCGCGTCGCCAGCGGCTGGGCCTACCGGCTGTGGCCGCAGTCGCAGCGGCTGGAGCCGCAGCGCCGCGCCGAGATCGGCCAGGTCGAACTGGCCGCGCTGGCACTGGAACTGGCCGCCTGGGGCAGCGATGCACTGCGCTTCGTCGATGCACCGCCAACCGGCGCGATGGCCGCCGCGCGCGAACTGCTGCAGCGCCTCGATGCACTCAGCAGCGACGGCGCGATCACCGCCACCGGCCGGCGGATGCTGGCGCTGGGTACGCATCCGCGGCTGGCGGCGATGCTGATCGCCGCGTCCGGCCCGCGCGAGCAGGCGCTGGCCGCCGACCTCGCCGCCTTGGTCGAGGCACGCGATCCGCTGCGCGGCGCCGCCGATGCACTGGCGGCGCGCTGGCGTGCGCTGGCGGCATTCCGCAGCGGCCGCAGCCCGCACGATGCCAGCCGCGGCGCGCTCGCCGCGATCGACGCGGCGGCCAAGCAATGGCGGCGCCGGCTGCGCTGCGATGCCGCGCCGCCAGCCGACATCGAGGCGCACGAGCTCGGCGACCTGCTCGCCCACGCCTTCCCCGACCGCATCGCCGCGCAGCATCCAACCGATCCGCTGCGCTACCTGCTCGCCAACGGCCGCAGCGCGCGGCTGTTCGACGCCAGCGACCTGCGCGGCGAGCCTTGGCTGGTCGCCAGCGAGCTGCGTTTCGAGGCCAAGGACGCGCTGCTGCTGCGCGGCGCGCCGGTCGACGAAGCGCGGCTGCGGCGCGACTTCCCGAAGCGCTTCTTCCAGCACGACGTGGTGCGCTGGGATGCCGACAAGCGCGCGCTGGTGGCGCGCCGCGAGAGCGGCTTCGACCGCATCGTGCTCGACAGCCGCCCGGCCGGAAAGGTCGATCCGGCGCACGCCGCGCAGGCGCTGACCGCGGCGGTGCGCGAGCTCGGTCTGGACGCGCTGCCGTGGACCGACGGCCTGCGCCAGTGGCGCGCGCGCGTGCAGTCGCTGCGCGCGTGGATGCCGGAACTCGACCTGCCCGATTACGGCGACGCCGCGCTGCTCGCATCGCTGGAGCAGTGGCTGACCCCGGCGTTCGCCGGCAAGACCCGGCTCGACGCGCTCGACGAAGGCGAACTCGGCGAAGCGCTGAAGACGCCGCTGGCATGGGAGCGGCGGCAACTGGTGGAACGCCACGCGCCGCGGCAGATCGCGGTGCCGTCGGGCATGGAACGGCGCATCGACTACGCGCTCGACCACGACGGCGCACCGCAGCCGCCGGTGCTGGCGGTGAAGCTGCAGGAACTGTTCGGCCTGGCCGACACCCCACGCGTCGCCGACGGCCGCGTGCCGCTGCTGCTGCATCTGCTCTCGCCCGGCGGCAAGCCGCTGCAGGTCACCGGCGACCTGCGCAATTTCTGGAACACCACCTATGCCGAGGTGAAGAAGGAGATGAAGGGGCGGTATCCCAGGCATCCGTGGCCGGATGACCCGTGGACCGCCTCCGCGACGCACCGGGCGAAGCCTCGCGGCACCTGA	MNTAAFPISPLLPAIADSLAAHPRLVLEAPPGAGKTTQVPLALLDAAWLGGKKIVMLEPRRVAARSAALFMARQLGEDVGGTVGYRIRFENKVSARTRIEVVTEGILTRMLQDDPLLEDVGALLFDEFHERHLSADLGLALALDVQAGLREDLRIVVMSATLDGERLANFLDAPRLSSEGRSFPVEIAHFPARRDEALEPQARRAIEHALASHPGDVLVFLPGQREIARVQAALEAVTLPSAPSPSHTAGPGTAASDEEGRSPASGRGVGVRATGEDAAALLRPAGTSSRMREEGTSARGGARPVQVLALHGELPVEQQARVLQPDPDGARRVVLATNVAESSVTLPGVRVVIDAGLAREPHYDPNSGFSRLETASVSQASADQRAGRAGRVASGWAYRLWPQSQRLEPQRRAEIGQVELAALALELAAWGSDALRFVDAPPTGAMAAARELLQRLDALSSDGAITATGRRMLALGTHPRLAAMLIAASGPREQALAADLAALVEARDPLRGAADALAARWRALAAFRSGRSPHDASRGALAAIDAAAKQWRRRLRCDAAPPADIEAHELGDLLAHAFPDRIAAQHPTDPLRYLLANGRSARLFDASDLRGEPWLVASELRFEAKDALLLRGAPVDEARLRRDFPKRFFQHDVVRWDADKRALVARRESGFDRIVLDSRPAGKVDPAHAAQALTAAVRELGLDALPWTDGLRQWRARVQSLRAWMPELDLPDYGDAALLASLEQWLTPAFAGKTRLDALDEGELGEALKTPLAWERRQLVERHAPRQIAVPSGMERRIDYALDHDGAPQPPVLAVKLQELFGLADTPRVADGRVPLLLHLLSPGGKPLQVTGDLRNFWNTTYAEVKKEMKGRYPRHPWPDDPWTASATHRAKPRGT				NA	NA	NA	NA	NA
BMS020_02926	1104			hypothetical protein	GTGCTGGCTGACTGGGCCCGCGATGCGCGCGACGCGCTGGCGCACGGTCCCACCGCGCTGGTCTCGGTGCTGGCGGTGGCCGGCTCGACGCCGCGTGCGGCCGGTACGCGCATGGTGGTCGCCGCCGACAGCACCCGCGGCACCATCGGCGGCGGCGTGCTCGAGCACCGTGCCATTGGCGCCGCGCGTGCGCTGCTGGCGCGCCCGCCGGGCAGCTGGCGGGTGCACGACTACATCCTCGGCCGGAGCAGCAGCGGCCAGCGCCACGCCGACGGCTTCGGCATCGCCGCGGCCGGTTTCGACGGCGGGCATATCGGCGATGACCAACCACCGGCACGCGAGCTCGCCTGCCCGGGCCCGTTGGGCTGCAGCCGCTGCGGCTGCGCCGCCGGCAGCATGCCCATGCATACCTCGGCGCTGCCGCAGTGCTGCGGCGGACGCGCACGCGTGCTGCTGGAACACCTCGATCCGGCGCAGGCGCAATGGCTGGACACAATGCAGCCAGGGCACGCCCTGATCATCACGCTGGGCGCGCAGCGCAGCAGCCACGCGGGCACCACCACGGCGCCCATGCCGACCACGCAGGCGCTGCCGGCGAAGGGAGCCCAGCCCATGGCCGGCGACACCCTGCACCTGCCGGTCGGGGTGCGCATGCCGCCGCTCTATCTGTTCGGCGCCGGCCATGTCGGCCGCGCGATCGCGCACGTGCTGCATGGCCTGCCGTTCGCGCTGCACTGGTTCGACAGCCGCGCCGATGAAGCGGCCAGCGCCGGCGCCACGTACTGCGACGCCGCCGCGTTGCCTGGCGTGCTGGCCGATGCCCCCGCCGATGCCCACGTGCTGGTGCTGACCCACGACCATGCGCTCGACTACGCACTGACCCGGGCGATGCTGGCACGCAACGTCGCCTTCGCCGGACTGATCGGCTCGGCCTCCAAGCGCGCGCGCTTTCTTGCCCAGCTGCGCCGCGACGGTGCCAGCGACGCGACGCTGGCGCGGCTGGTCTGCCCGATCGGCGAGCCCGGCATCATCGGCAAGGAGCCGGCGGTGATCGCGGTGGCCGTCGCTGCACAGTTGCTGGCGTTGCGCTCGGCGCAGGCCTAG	MLADWARDARDALAHGPTALVSVLAVAGSTPRAAGTRMVVAADSTRGTIGGGVLEHRAIGAARALLARPPGSWRVHDYILGRSSSGQRHADGFGIAAAGFDGGHIGDDQPPARELACPGPLGCSRCGCAAGSMPMHTSALPQCCGGRARVLLEHLDPAQAQWLDTMQPGHALIITLGAQRSSHAGTTTAPMPTTQALPAKGAQPMAGDTLHLPVGVRMPPLYLFGAGHVGRAIAHVLHGLPFALHWFDSRADEAASAGATYCDAAALPGVLADAPADAHVLVLTHDHALDYALTRAMLARNVAFAGLIGSASKRARFLAQLRRDGASDATLARLVCPIGEPGIIGKEPAVIAVAVAAQLLALRSAQA	PGPT0007280_1103	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_BIOSYNTHESIS,PGPT0007280-xdhC|paod|ygeB|pucA-K07402	NA	NA
BMS020_02927	2319	xdhA	COG1529	Putative xanthine dehydrogenase molybdenum-binding subunit XdhA	ATGGCTGATACCGGCCTCGCCACGCCGCCGACCGCACTGGTGCACAGCGACCAGCGCCACGACAGCGCGCCGGCGCATGTCGACGGCAGCGCACGCTACGTCGACGACCTCCCCGCCCCGGCCGGCCTGCTGCACCTGGCCTTCGGCCTGGCCGCGCAGGCCCACGCACGTATCCTCGCGCTCGATCTGGACGCGGTGCGCGCCGCCCCCGGCGTGGTCGCGGTGTTCACCGCCGCCGACATCCCCGGGCACAACAACATCGCCCCGGTGGCGCACGACGACCTGCTGCTGGCCGAGGGCGAAGTCAGCTTCCACGGCCAGCCGCTGTTCCTGGTGGCCGCCGAGAGCCATGCGCTGGCGCGGCGCGCGGCGCGGCTGGCGCGGGTCGAGTACGCACCATTGCCGGCATTGACCACGATCGCCGCGGCGCGCGCCGCCGGCAGCCTGATCGAGGCGACCCAGCGCATGGGCCGCGGCGATGTCGATGCGGCGCTGGCCGCCGCGCCGCTGACCGCGCGCGGCAGCCTGGAGATCGGCGGGCAGGAGCATTTCTACCTGGAAGGCCAGGTCGCCCAGGCCCACCCCGGCGAGCAGGGCACGCTGCACGTGCTGTCCTCGACCCAGCATCCCAGCGAGGTGCAGCACCTGGTCGCCGACCTGCTGAACCTGCACAGCGCCGACGTGACCGTCGAGGTGCGGCGCATGGGCGGCGCGTTCGGCGGCAAGGAGACCCAGGCCGCCGCGCCGGCCGCGGCCTGCGCGCTGGTCGCCACCAAGACCGGGCGCCCTGCGCGGCTGCGCTACGACCGTGACGACGACATGCGCATCACCGGCAAGCGCCACGATTTCAGCGTCGAGTACACGGTGGGCTGCGCTGCCGACGGCCGCGTGCTCGGGCTGCGCCTGGAACTGGCCTCGCGCTGCGGTGCCAGCACCGACCTGTCGCCGGCGATCAACGACCGCGCGATGTTCCATGCCGACAACTGCTACTGGCTGCCGGCGGTGGAAATCCTCTCGCACCGGCTGCGCACCCACACCGTGTCCAACACCGCGTTCCGCGGCTTCGGCGGGCCGCAGGGCATGCTGGCGATCGAGCGGGTGATGGATGCGGTGGCCGCCGTCTGCGGCATCGATCCGCTCGAGGTGCGGCGCCGCAACCTGTACGGCCCCGGGCGCGACACCACGCCGTTCGGCATGCAGGTCAGCGACAACATCGCCCCGCAGCTGGTCGATACGCTGGCGCGCGACGCGCGCTACGCGCAGCGCCAGGCCGAGGTCGCCGCGTTCAACGCGCGCCACACGGTGCTGAAGAAGGGCCTGGCGCTGAGCCCGGTGAAGTTCGGCATCAGCTTCACCACCACCCACCTCAACCAGGCCGGCGCGCTGCTGCTGGTCTATGCCGACGGCTCGATCCAGCTCAACCACGGCGGCACCGAGATGGGCCAGGGCCTGATGGTCAAGGTCGCGCAGATCGTCGCCGACGTGTTCGCGGTGCCGCTGGCGCAGGTGCGCATCACCGCCACGCGCACCGACAAGGTGCCCAACACCTCGGCCACCGCGGCCTCCTCCGGCACCGACCTCAACGGCATGGCGGCGTACAACGCGGCGATGACGGTACGCGCGCGGCTGGTCGCGCTGCTGGCCACGCGCGAAGGCGTGGACGCCGACGCGGTGCGCTTCCACGATGGCCACGTCGACGCCGGCGCCACGCGGCTCAGCTTCGCCCAGCTGTGCCGGCAGGCGCACATGGCGCGCGTGTCGCTGGCGGCCACCGGCTATTACGCCACGCCGAAAATCCACTACGACCGCGCCAGCCATACCGGCCGGCCGTTCCTGTATTTCGCCTATGGCGCGGCGCTGAGCGAGGTGGTGATCGACACGCTGACCGGCGAGCACAAGGTGCTGGCGGTGGACGTGCTGCACGACGTGGGGCGCTCGCTGAACCCGGCGATCGACCTGGGCCAGATCGAAGGCGGCTTCATCCAGGGCATGGGCTGGCTGACCACCGAGGAGCTGGTCTACGCCGACGACGGCCGCCTGCTCAGCCATGCACCGTCGACCTACAAGATTCCCACCGCCAGCGACCGCCCGCGCCACCTGGCGATCCGGCTGTGGCCGGGCGAGAACCGCGAGCCGACCATCCATCGCTCCAAGGCGGTGGGCGAGCCGCCGTTCATGCTGGCGATCTCGGTGTTCAACGCGCTGACCCAGGCGGTCGCCGCGGCGGTGCCGGGCCAGGGCCTGCCGGCGCTGGACGCACCGGCCACGCCGGAGCGCGTGCTGCATGCGCTGCAGGAGCTGCGCGGGCGTGCTGGCTGA	MADTGLATPPTALVHSDQRHDSAPAHVDGSARYVDDLPAPAGLLHLAFGLAAQAHARILALDLDAVRAAPGVVAVFTAADIPGHNNIAPVAHDDLLLAEGEVSFHGQPLFLVAAESHALARRAARLARVEYAPLPALTTIAAARAAGSLIEATQRMGRGDVDAALAAAPLTARGSLEIGGQEHFYLEGQVAQAHPGEQGTLHVLSSTQHPSEVQHLVADLLNLHSADVTVEVRRMGGAFGGKETQAAAPAAACALVATKTGRPARLRYDRDDDMRITGKRHDFSVEYTVGCAADGRVLGLRLELASRCGASTDLSPAINDRAMFHADNCYWLPAVEILSHRLRTHTVSNTAFRGFGGPQGMLAIERVMDAVAAVCGIDPLEVRRRNLYGPGRDTTPFGMQVSDNIAPQLVDTLARDARYAQRQAEVAAFNARHTVLKKGLALSPVKFGISFTTTHLNQAGALLLVYADGSIQLNHGGTEMGQGLMVKVAQIVADVFAVPLAQVRITATRTDKVPNTSATAASSGTDLNGMAAYNAAMTVRARLVALLATREGVDADAVRFHDGHVDAGATRLSFAQLCRQAHMARVSLAATGYYATPKIHYDRASHTGRPFLYFAYGAALSEVVIDTLTGEHKVLAVDVLHDVGRSLNPAIDLGQIEGGFIQGMGWLTTEELVYADDGRLLSHAPSTYKIPTASDRPRHLAIRLWPGENREPTIHRSKAVGEPPFMLAISVFNALTQAVAAAVPGQGLPALDAPATPERVLHALQELRGRAG	PGPT0007265_920	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0007265-xdhB|pucD-K13482	NA	NA
BMS020_02928	1578			hypothetical protein	ATGGACCGCGGCATCCGCTTCGTGCTCGACGGCGCGGTGGTCGAGCTGGGCCAGGTCGATCCGACCATGACCGCGCTGGACCTGCTGCGCGGCCCGCTGCGCCGTACCGGCACCAAGGAGGGCTGCGCCGAAGGCGACTGCGGCGCCTGCACCGTGGTGCTGGGCGAGCTGGTGGCGCCGCCAGGAGGCTTCGGTAGGAGCGACTTCCGTCGCGACGGGCTGTCCCAGGAAGGCATCGCGACTGAAGTCGCTCCTACACCCGCTCCTACAGCCGCGCTTACAGACGACGCGGCGCCCAGCGTGCGCTGGCGCGCGGTCAATGCCTGCATCCTGTTCGCGCCGATGCTCGACGGTCGCGCACTGGTTACCGTGGAAAGCCTCGCCCGCCATGGCCAGCCACATCCGGTGCAGCAGGCGATGGTCGCGCACCACGGCTCGCAATGCGGCTTCTGCACGCCGGGCTTCGTGATGTCGCTGTACGCGCGCAGCATCGGCGCGCTCGGCACTGCCGATGCCGCGCTGCCCGACGTGATCGCCGGCAACCTGTGCCGCTGCACCGGCTACGGGCCGATCCTCGCCGCCGGCAACGCCGTGGGCGGCGATGCACACGCCGCCGAAGACGTTGCCGATGCGCTGCGCGCACTCGCCGCGGACGCGCCGCTGGCCTACCGCTGGCGCGATCCGCATGGCGGGCCGGAGCGGCAGGTGTTCGCGCCGCGCGATGTCGATGCATTGGCCACGCTGCTGCTCGAGCATCCCGACGCGCACCTGGTCGCCGGTGCCACCGATGTCGGCCTGTGGGTGACCAAGCAGCTGCGCGTGCTGCCCACCACCATCTTCATCGACCGCGTCGACGCGCTGCAGCGCATCGACGAGGACGCCGATGGCCTGCGCATCGGTGCCGGGGTGCGCTATTCCGAAGCACAGCTGGCGCTGGCGCGGCTGCATCCGGATCTGGGCGAGCTGCTGCGCCGGATCGGCGCGCTGCAGGTCCGCAACGCCGGCACGCTGGGCGGCAACATCGCCAACGGCTCGCCGATCGGCGACACGCCGCCGGCGCTGATCGCGCTCGGCGCCAGCGTGGTGCTGCGGCGTGGCGACGCGCGGCGCACGCTGGCGCTGCAGGACTACTTCATCGACTACGGCCGCCAGGACATCCAGCCCGGCGAGTTCATCGAGTCGATCCTCATCCCGAAGCCGACCGCCACCGCGCGCCTGCACGTGCGCAAGCTGTCCAAGCGCTTCGACAGCGACATCTCCGCGGTCTGCGGCGCGGTGCTGGTGACGCTGGACGGCGATCGCATCAGCGAGGCGCGCGTCGCCTTCGGCGGCATGGCCGCCACGCCCCGCCGCGCCCCGCACGCCGAAGCGGCGCTGCGCGGCCAAGCGTGGAGCGAGGCGACGATCGAGGCCGCGGTGGCCGCACTGGCGCAGGACTACAGCCCGCTCGACGACGTGCGCGGCAGCGCACGCTACCGCCTGCAGGCGGCGGCCAGCGTGCTGCGTGGGCTGTGGCTGCGCGAGGCGTTTCCAGAGGAACCGCTGGGCGTGCTCGATCTGGAACTGATCGATGGCTGA	MDRGIRFVLDGAVVELGQVDPTMTALDLLRGPLRRTGTKEGCAEGDCGACTVVLGELVAPPGGFGRSDFRRDGLSQEGIATEVAPTPAPTAALTDDAAPSVRWRAVNACILFAPMLDGRALVTVESLARHGQPHPVQQAMVAHHGSQCGFCTPGFVMSLYARSIGALGTADAALPDVIAGNLCRCTGYGPILAAGNAVGGDAHAAEDVADALRALAADAPLAYRWRDPHGGPERQVFAPRDVDALATLLLEHPDAHLVAGATDVGLWVTKQLRVLPTTIFIDRVDALQRIDEDADGLRIGAGVRYSEAQLALARLHPDLGELLRRIGALQVRNAGTLGGNIANGSPIGDTPPALIALGASVVLRRGDARRTLALQDYFIDYGRQDIQPGEFIESILIPKPTATARLHVRKLSKRFDSDISAVCGAVLVTLDGDRISEARVAFGGMAATPRRAPHAEAALRGQAWSEATIEAAVAALAQDYSPLDDVRGSARYRLQAAASVLRGLWLREAFPEEPLGVLDLELIDG	PGPT0007250_899	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0007250-xdhA-K13481	NA	NA
BMS020_02929	333	hiuH_1		5-hydroxyisourate hydrolase	ATGAGCACGCTGTCCACCCACGTGCTCGACACCATGCACGGCCGCCCGGCGCACGGCGTCGCGCTGCGCCTGTACCACGGCGCGCTGTTGCTGCTGGAGGCACCCACCGACGCCGATGGCCGTTGCCCGGCGTTGAAGGACCTGGTGCTCGCCCCGGGGCGGCACCGGCTGGTGTTCGCGGTGGCCGGCTATTTCCGCGCGCAGGGCGTGGACCTGCCCGAGCCGCCGTTCCTGGACGAGGTGGCGATCGACTTCGGCATCGCCGATGGCGGGCACTACCACGTGCCGCTGCTGGTCTCGCCGTTCGCCTACTCGACCTATCGGGGCAGCTGA	MSTLSTHVLDTMHGRPAHGVALRLYHGALLLLEAPTDADGRCPALKDLVLAPGRHRLVFAVAGYFRAQGVDLPEPPFLDEVAIDFGIADGGHYHVPLLVSPFAYSTYRGS	PGPT0021125_1645	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021125-uraH|pucM|hiuH-K07127	NA	NA
BMS020_02930	1425	hpyO	COG2072	FAD-dependent urate hydroxylase	ATGAGCCTTGACGTACTCGAACGCGAGGTCGCACGCGACCTGGAGCGCCTGGCCCACGGCGGCGAGGACTGGACCGCACCACGCGTGCACCGCGACGGCCATGTGTATGACGTGGTGATCGTCGGCGGCGGCCAGAGCGGCCTGGGCGCGGCATTCGCGCTGATGCGCGAGCGGGTCGGCAACCTGCTGGTCATCGATGAGAATCCCGAAGGGCTGGAAGGCCCCTGGGTGACCTATGCGCGCATGCAGACGCTGCGCACACCCAAGCACCTGACCTCGATCGAGCTGGGCGTGCCGTCGCTGACCTTCCGCGCCTGGTGGGAAGCCCAGCACGGTGCCGCCGGCTGGGAAGCGCTGGACAAGATCGCGCGTGGCGACTGGATGGACTATCTGCGCTGGTACCGGCGCGTGCTGCGCATCCCGGTGCGCAACAGCACCCGGCTGGCGCGGATCGACGCCGACGCCGCGACCGGCGTGCATCGGCTGCACCTGGCGATGGGCGCGCCGCTGCTGGCACGCAAGGTGATCCTGGCCACCGGCATCCAGGGCGGCGGCGACTGGGCGGTGCCGGCGTGGATCAGCGGTGCGCTGCCGCCGCACCGCTACGCACACACGTCCGGCCCGATCGACTACGCCGCGCTGGCCGGCAAGCGCATCGGCATCCTCGGCGGCGGCGCCTCGGCGTTCGACAATGCCTGCTTCGCGCTGGCCCAGGGCGCGGCCAGCGCCGAGGTGTTCGCGCGCCGTGCGCAGCTGCCGCAGGTCAACCCGATCCGACACATGGAGCGCGCCGGCATGATCCCGCGCTTCGCCGCACTGCCCGATGCCGACAAGTACCGCGCGATGGCGCACTTCTTCGGCAACAACCAGCCGCCGACCAACGACACCTTCAACCGCGCCTGCGCACTGCCCGGCTTCCGCCTGCACCTGGGCGCGCCGTGGCTGGAGGTGGCCGAGCGCGACGGCGAGGTGGTGGTGCGCACGCCGCAGGGCGAGCACCGCTTCGACTTCCTCGCCATCGCCACCGGGCTGGTGACCGATCCGGCGCTGCGCCCGGAGCTGGCGACGCTGGCGCCGCGCATCCTGCGCTGGGCCGATCGCTACGCGCCGCCGGAAGGTGAGCGCAACGCGCTGCTCGATGCCCATCCCTACCTCGGCCCCGGCTTCGAACTGCTGCCGCGCGCGCCGGCCGATGCCGCCGCACTGCATGGCCTGTTCGCGTTCAACTACTCCGGCCTGATCAACCACGGGCTGTCGGCAGCGGCGCTGTCCGGGCTGAAGTACGCGCTGCCCAAGCTGGCGCGCGCGGTCGCCGACCAGCTGTTCGTCGATGACCGTGCGCGCATGCTCGACGCTTTCCTCGACTACGACGAAGCCGAGTTCACAGGGCAATGGCCGCTGCCGGCGACGGAGGCGGCGGCATGA	MSLDVLEREVARDLERLAHGGEDWTAPRVHRDGHVYDVVIVGGGQSGLGAAFALMRERVGNLLVIDENPEGLEGPWVTYARMQTLRTPKHLTSIELGVPSLTFRAWWEAQHGAAGWEALDKIARGDWMDYLRWYRRVLRIPVRNSTRLARIDADAATGVHRLHLAMGAPLLARKVILATGIQGGGDWAVPAWISGALPPHRYAHTSGPIDYAALAGKRIGILGGGASAFDNACFALAQGAASAEVFARRAQLPQVNPIRHMERAGMIPRFAALPDADKYRAMAHFFGNNQPPTNDTFNRACALPGFRLHLGAPWLEVAERDGEVVVRTPQGEHRFDFLAIATGLVTDPALRPELATLAPRILRWADRYAPPEGERNALLDAHPYLGPGFELLPRAPADAAALHGLFAFNYSGLINHGLSAAALSGLKYALPKLARAVADQLFVDDRARMLDAFLDYDEAEFTGQWPLPATEAAA	PGPT0021120_426	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021120-hpyO-K22879	NA	NA
BMS020_02931	507	pucL	COG3195	Uric acid degradation bifunctional protein PucL	ATGAACGCCCTGGTCCATGACCACGACGACCACAACGCACTGGGCGAGGCGGCCTTCGTCGCCCGCTACCGCGAACTGTTCGAACATTCGCCCTGGGTGGTCGAGCGCGCTGCCGCGCGGCGCCCGTTCGCCGACCTGCATGGCGGCCTGATGGCGGTGGTGCAGCAGGCGTCGATCGCCGACAAGGAACGGCTGATCCGCGCCCATCCCGAGCTGGCCGGCAAGGCCGCGATCGATCGCAGCCTGACCGCGGCCTCGGCCGCCGAACAGGCCAGCGCCGGGCTGGACCGGCTGAGCGAGGCCGAGTACGCGCGCTTCCATGCGCTCAACCAGGCCTATCGCAACCGCTTCGGCTTTCCGTTCGTGATCTGCGTGCGGCTGCACGACAAGGCCGGCATCCTCGCCGAGCTGGAACGGCGGCTGGATGCACCGCGCAACACCGAGATCGACACCGCGATCACCCAGATCGGCGAGATCGTCCGACTGCGACTGGAGGCCATGGCATGA	MNALVHDHDDHNALGEAAFVARYRELFEHSPWVVERAAARRPFADLHGGLMAVVQQASIADKERLIRAHPELAGKAAIDRSLTAASAAEQASAGLDRLSEAEYARFHALNQAYRNRFGFPFVICVRLHDKAGILAELERRLDAPRNTEIDTAITQIGEIVRLRLEAMA	PGPT0021130_681	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021130-uraD-K13485	NA	NA
BMS020_02932	381			hypothetical protein	ATGATCCTCGACGACCCGCAGGTGATCGCCGAGGTCCGCGCCGTGTTCGAGGCCTACGAACGCGCGCTGATGCGCGACGACATCGCCGCGATGGACGCGCTGTTCCACCACGCCCCGAGCACGGTGCGCTACGGCGTCGGCGAGGTGCTGTACGGCATCGATGAGATCCGCGCGTTCCGCAGCGGCCGCGGCGGCTCGCCGCAGCGCCGGCTCGGTCGCGTGGCGATCGCGGCCTACGGCCACGACTTCGCCACCGCCAACGCCGAGTTCCATCGCGAAGGCGATCCGCGCCGCGGCCGCCAGAGCCAGAGCTGGGTGCGCTTCGCCGACGGCTGGAAAGTCGTCTCGGCCCACGTTTCGCTGGAGGGTCACCACGCATGA	MILDDPQVIAEVRAVFEAYERALMRDDIAAMDALFHHAPSTVRYGVGEVLYGIDEIRAFRSGRGGSPQRRLGRVAIAAYGHDFATANAEFHREGDPRRGRQSQSWVRFADGWKVVSAHVSLEGHHA				NA	NA	NA	NA	NA
BMS020_02933	906			hypothetical protein	ATGAGCGTCCCGCGCGATCTCGTCGGCTACGGCGCAACCCCACCCGCCGCGCGCTGGCCCGGCGGCGCGAAGGTCGCCGTGCAGTTCGTCATCAACTACGAGGAAGGCGCCGAGAACAGCGTACTCAACGGCGACGCCGGCTCCGAAGCGTTCCTGTCGGAGATGGTCGGCGCGCACAGCCACGCCGGCATGCGCGCGATGGCGATGGAGAGCCTGTACGAGTACGGCAGCCGCGCCGGCTTCTGGCGCCTGCACCGCCTGTTCACCGAGCGCGCGCTGCCGCTGACCGTGTTCGGCGTGGCCACCGCCATGCAGGCCAACCCGGCCGCGGTCGAGGCGATGCTCGCCGCCGGCTGGGAGATCGCCAGCCACGGCTACCGCTGGATCGACTACCAGCACGTGCCCGAGGAGGTCGAACGCGCGCACATCGCCGAGGCCATCGCGCTGCATACCGCGCTGACCGGCAGCCGCCCGCTGGGCTGGTACCAGGGCCGCACCAGCCCCAACACCGCGCGCCTGGTCGCCGAGGAAGGCGGCTTCGTCTACGACGCCGATGCCTATGCCGACGACCTGCCCTATTACGACACCCGCTTCGGCACGCCGCAGCTGATCGTGCCGTACACGCTGGACGCCAACGACATGAAGTTCGTCGCCTACAACGGCTTCGACGACGGCGAGGCGTTCTACCGCTACCTGCACGACAGCTTCGCGCAGCTGCGCGAGGAAGGCGGTCGGATGCTGTCGGTCGGCCTGCACGGGCGCATCGCCGGCCGCCCCGGGCGGGCGCGCGCGCTGGCGCGCTTCCTCGACCATGTGCGCGCCAGCGGCGACGCGTGGATCGCGCGGCGCATCGACATCGCCGAACACTGGCAGCGCGAGCATCCGTACGCCGGGGGTGCGGCATGA	MSVPRDLVGYGATPPAARWPGGAKVAVQFVINYEEGAENSVLNGDAGSEAFLSEMVGAHSHAGMRAMAMESLYEYGSRAGFWRLHRLFTERALPLTVFGVATAMQANPAAVEAMLAAGWEIASHGYRWIDYQHVPEEVERAHIAEAIALHTALTGSRPLGWYQGRTSPNTARLVAEEGGFVYDADAYADDLPYYDTRFGTPQLIVPYTLDANDMKFVAYNGFDDGEAFYRYLHDSFAQLREEGGRMLSVGLHGRIAGRPGRARALARFLDHVRASGDAWIARRIDIAEHWQREHPYAGGAA	PGPT0000885_697	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0000885-hpxB-K16842	NA	NA
BMS020_02934	1242	pucG_2	COG0075	(S)-ureidoglycine--glyoxylate transaminase	TTGAACATCGACACCTTCGGCGAGATCGATCCCCCGCAGCGCCTGCTGATGGGCCCCGGCCCGGTCAACGCGCATCCGCGCGTGCTGCGCGCGATGTCGGCCGACCTGCTGGGCCAGTTCGACCCGGAAATGACCGCTTACATGAACGAGGTGATGGCGCTGTACCGGCCGATCTTCGGCACGCGCAACCACTGGACCTTCCTGGTCGACGGCACCGCGCGCGCCGGCATCGAGGCGGCGCTGGTGTCGCTGGTGGCGCCTGGCGACACCGTGCTGGTGGTCAACTTCGGCCGCTTCGGCCTGCTGCTGGGCGAGATCCTCGGCCGCATCGGCGCCCGCGTCGAGAGCGTCGACGCGCCGTGGGGCGAGGTGGTGCCGCTGGAGACGATCGAAGCGGCGATCGCGCGCGTGCAGCCGAGCCTGGTCGCCACCATCCACGGCGACACCTCGACCACGATGGCGCAGCCGCTCGACGGCTTCGGCGCGCTGTGCCGCAGGTACGGCGCGCTGTCCTACGTCGATGCCACCGCGACCATCGGCGGCATGGAGCTGGCCGCCGACCGCTGGGATGTGGACGTGGTCACCGGCGGCCTGCAGAAGTGCCTGGGCGGGCCGTCGGGTTCGGCGCCGATCACCGTCTCCGAGCGCGCCGCCGAGCGCATCTTCGGCCGCCGCCACGTCGAGCGCGGCATCGCCCGCGACGACATCGACGACGGCGACGGCCCGCGCATCCTGTCCAACTACTTCGACCTGGCGATGGTGATGGACTACTGGTCCGACAAGCGCCTGAACCACCACACCGAAGCGACCACGATGCTGTACGGCGCCCGCGAATGCGCGCGCATCGTGTTGCAGGAAGGGCTGGAGCGGCGCTACGCGCGGCACCGCGCGGCCGGGCGTGCGGTCACCGCCGGTGCGCGTGCGCTGGGGCTGGAGGTGTTCGGCGACGACCGCTACCGGATGAGCAATGTCACCGGCATCGTGATTCCCGCCACGGTCGACGGCGAGCGCGTGCGCCGGCGCATGCGCGAGGATTTCGAGATCGAGATCGGCACCGCGTTCGGCCCGCTGCAGGGCAAGGTCTGGCGTATCGGCGCGATGGGGTACAACGCGGCCAAGCACAAGGTGCTGATCACCCTCGGCGCGCTGGAGACGGTGCTGCGCGGCGAAGGCTTCGCCTGCGCGCCCGGTGCCGGCGTCGAGGCCGCACTGGCGGCGTGGAACGCAGAGCTGGCCCGATGA	MNIDTFGEIDPPQRLLMGPGPVNAHPRVLRAMSADLLGQFDPEMTAYMNEVMALYRPIFGTRNHWTFLVDGTARAGIEAALVSLVAPGDTVLVVNFGRFGLLLGEILGRIGARVESVDAPWGEVVPLETIEAAIARVQPSLVATIHGDTSTTMAQPLDGFGALCRRYGALSYVDATATIGGMELAADRWDVDVVTGGLQKCLGGPSGSAPITVSERAAERIFGRRHVERGIARDDIDDGDGPRILSNYFDLAMVMDYWSDKRLNHHTEATTMLYGARECARIVLQEGLERRYARHRAAGRAVTAGARALGLEVFGDDRYRMSNVTGIVIPATVDGERVRRRMREDFEIEIGTAFGPLQGKVWRIGAMGYNAAKHKVLITLGALETVLRGEGFACAPGAGVEAALAAWNAELAR	PGPT0021460_205	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021460-pucG-K00839	NA	NA
BMS020_02935	1263	amaB_2		N-carbamoyl-L-amino acid hydrolase	ATGCTGCAGGCGACATCACCGGACCAGACCAGCGCCGGCCAACGCGCCGTCGCCCGCTGTGATCGGCTCGGCGTCGCCCCGTACAGCGACAGCAGCGATGGCCTGTTCCGCGCCTGGCTCAGCCCCGCTCACCGCGCCACGCTCGACCCGCTGCGCCGCTGGATGGGCGAGGCCGGCATGCAGGTGCGGCTGGACGCGGCCGGCAACCTGCTCGGCCGCTACGAGGGCGCGACGCCCGACGCACCGGCGCTGCTGATCGGCAGCCATATCGACAGCGTGCGCGACGCCGGCCGCTACGACGGTCCGCTCGGGGTGATGCTCGGCATCGAGTGCGTGGCCGCGCTGCACGCGCAGGGCCGGCGCCTGCCGTTCGCGCTGGAGGTGATCGCCTTCGGCGACGAGGAGGGCTCGCGCTTCCCGGCCTCGATGTTCTGCAGCCGCGCGGTCGCCGGCACGCTGGATGCGGCCACGTTGCAGGTCCACGACGCCGCCGGCAGCAGTGTCGCCGACGCGCTGGCCGCCTGGGCGCTGGACATCGACGCGCTCGGCAGCGCGGCGCGGCGCCCGGGCGAGCTGCTCGGCTACCTGGAAGCGCATATCGAGCAGGGCCCGGTGCTCGAAGCCGAAGGCCTGGCGCTGGGCGTGGTCAGCGGCATTGCCGCGCAGCGCCGCTACGCGGTCACGGTGCGCGGCCGCGCCGGCCATGCCGGCACCTCGCCGATGCCGCTGCGCGCCGATGCGCTGGCCGCCGCCGCCGAATGCGTGCTGGCCGCCGAAGCGGTGGCCCACGCCGCCGCCAGCGACTTGGTCGCCACGGTCGGGCGGCTGCAGGTGCTGCCCGGCGCCACCAACGTGATTCCCGGCCAGGTGACGTTCTCGCTGGACGTGCGCGCCGGCACCGATACGGCCCGCGATGCCGGCGCCGCCGCGATCGTGCAGCGCTTCGCCGGCATCGCCGCCGCACGCGGCGTGCGCATCGACGCCGAGCCGGTGCAGGACCTCGCCGCCAGCCCCTGTGACGCGCGCCTGGTGGCGCTGTTGCAGCAGGCGCTGGCCGCACAGGGCATCGCGCCGCGCACGCTGGTCTCCGGCGCCGGCCACGACGCGATGGTGATGGCGGCGCTGTGCCCGACCGCGATGCTGTTCATCCGCTGCGCCGGCGGCATCTCGCACAACCCGGCCGAGTCCGTCGACCCGGCCGACGCCAGCCTCGCCGTCGCGGCGATGCTGGATTTCATCGAACGACTTGGAGCCAACGCTTGA	MLQATSPDQTSAGQRAVARCDRLGVAPYSDSSDGLFRAWLSPAHRATLDPLRRWMGEAGMQVRLDAAGNLLGRYEGATPDAPALLIGSHIDSVRDAGRYDGPLGVMLGIECVAALHAQGRRLPFALEVIAFGDEEGSRFPASMFCSRAVAGTLDAATLQVHDAAGSSVADALAAWALDIDALGSAARRPGELLGYLEAHIEQGPVLEAEGLALGVVSGIAAQRRYAVTVRGRAGHAGTSPMPLRADALAAAAECVLAAEAVAHAAASDLVATVGRLQVLPGATNVIPGQVTFSLDVRAGTDTARDAGAAAIVQRFAGIAAARGVRIDAEPVQDLAASPCDARLVALLQQALAAQGIAPRTLVSGAGHDAMVMAALCPTAMLFIRCAGGISHNPAESVDPADASLAVAAMLDFIERLGANA	PGPT0000875_565	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000875-allC-K02083	NA	NA
BMS020_02936	843			hypothetical protein	ATGAGCAGGCCTCGCATCCTGCCGATCATCGGCGCCATGCTGTTGGCGTACGCCGCCACGGCACCGGCGCAGTCGCTGTCCGAGCGACTTGCACACGGCCCGGTGGTGGTCGCGCACCGCGCGCGGCTGGCACCGGCGCTGGCCGAAAACAGCCTGCGCCAGGCCCCGGTGACCACCGCGGCCGGGCTCGGCATCGAGGTCGACCTGGCCGCCGATGCCGACGGCGCACTGCACCTGCTGCACGACGCCACCCTCGACCGCAGCAGCGACGGCCACGGCGCGATCGCCGGCGTGCCGAGCACGACGGTGACAGCGCTGCACCTGCGCGACGGCCTCGGCAAGCCGACCGATGAGCCGCTGCCCAGCTTCGCCGCACTGCTGGACTGGGCCGCACGGACCCCGCGCGCGCTGCTGATGCTGGACCTGAAGGGCGTGCCGGCCGCGCGCGTGCTGCCGCTGCTGCGTGCACGTGGGCTGGAACCGCGCAGCATTCTGCTGACCTTCGACCGCGCCGCCAGCGCCGAGGCGCTGGCCCAGCCCGGCGACGCGCTGGTCTCGGTGCTGCTGACCCGCGCCGAGGACATCGCCGCCTACCAGGCCCTGGCCGGCACGCATCCGCTGGCGTTCTACGTGCCGCAGCGGGCCGACCCGGCGCTGTTCGCCGCCGCCCATGCCAGCGGCGCGCGGGTGATCAGCGACAGCACCGACGGCGCCGAGCGCGACGCGCTGGACGGCGCCGCGCACTGCGCCGCCTACCGCGGCTGGGTGCAGGCGCGTCACGTCGACATCCTGGTCTCCAACCGGCCGCGCTGCGCGTTGGACGCGCTCGCCGCGCCGCGGTAA	MSRPRILPIIGAMLLAYAATAPAQSLSERLAHGPVVVAHRARLAPALAENSLRQAPVTTAAGLGIEVDLAADADGALHLLHDATLDRSSDGHGAIAGVPSTTVTALHLRDGLGKPTDEPLPSFAALLDWAARTPRALLMLDLKGVPAARVLPLLRARGLEPRSILLTFDRAASAEALAQPGDALVSVLLTRAEDIAAYQALAGTHPLAFYVPQRADPALFAAAHASGARVISDSTDGAERDALDGAAHCAAYRGWVQARHVDILVSNRPRCALDALAAPR	PGPT0018470_3468	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
BMS020_02937	1014			hypothetical protein	ATGCTTCGACCGGTCCTGCTTGCCGCCCTGTTCGCCCTCGCTTCCCCGGCGCTCGCCGCGCCCGCGCCGATCGCGCCGCGGGTGCTGGTGATCACCATGTTCGACGGCGAGGCCAAGCCCTGGCTGGAACACGCCGGCCTCAGCCGCGAAGTGACGCTGGCCGGGCTGGCGCCGCGCTACCCGGCGCTGCACTGCACCGCCGATGCGACGCTGTGCATGGCCACCACCGACATGGGCTATGCCAACGCCGCCAGCGTCACCGCCGCGCTGGTGCTGGCGCCGCAGCTGGACCTGCGCCGCAGCTACGTGATCGTCGCCGGCATCGGCGGCATCGACCCGGCCTACGGCACGCTCGGCTCGGCGCACTGGGCGCGCTACGTGGTCGATGGCGGGCTGACCTATGCCCTGGACCCGCGCCAGGCCCCGGCCGACTGGGGCACCGGCATCCTCGCGCTGGGCGCGCCGCGCCCCGGCAGCAAGGGCGACTGGGATGCCGGCACCGAGCTGTACCGGCTCGACGAGACCCTGCTGCAGCGCGCCTACGCGCTGACCCGCGCGGTGCCGCTGCTGGATACCGATGCCGCGCGCAGCTACCGCGCGCGCTATCCGGCGGCGCCGGGCAATGCCGCGCCACAGGTCAGCATCTGCGACACGCTGTCGTCGGATACCTACTGGCACGGCTCGCAGCTGGCCGCGGCGATGGCGACCCAGATCGCGGTGGTCAGCGACGGCCAGGCCAGGGTCTGCACCACGCAGATGGAGGACAACGCCACGCTGACCGCGCTCAAGCGCGGCGCCGAGGCCGGGCGGGTCGACTTCAGCCGCATCGCGGTGCTGCGCACCGGCTCCAACTTCGACCGCGAGGCGCCGGGCCAGGACGTGGCCGAATCGCTGCACGCCAAGTCCGGCGGCTTCGTGCCGGCGACCACCAACGCCTGGCGCGTGGCCGATGCGCTGGCGCGCACGATCATCGCCGACTGGCCGCAGTGGCGCGACGGCGTGCCGGCGCCATGA	MLRPVLLAALFALASPALAAPAPIAPRVLVITMFDGEAKPWLEHAGLSREVTLAGLAPRYPALHCTADATLCMATTDMGYANAASVTAALVLAPQLDLRRSYVIVAGIGGIDPAYGTLGSAHWARYVVDGGLTYALDPRQAPADWGTGILALGAPRPGSKGDWDAGTELYRLDETLLQRAYALTRAVPLLDTDAARSYRARYPAAPGNAAPQVSICDTLSSDTYWHGSQLAAAMATQIAVVSDGQARVCTTQMEDNATLTALKRGAEAGRVDFSRIAVLRTGSNFDREAPGQDVAESLHAKSGGFVPATTNAWRVADALARTIIADWPQWRDGVPAP				NA	NA	NA	NA	NA
BMS020_02938	1035			hypothetical protein	ATGGCGCGCCTGCGCACGCGCCTGCTGCTGGCCGGCCTGGTCGCGTGCGGGCTGGGCGGCTGCCACGCCGCGCGCGAGCGCGTGCCCGGCGCCGAGGTCACCGCCGCGCCGGTGCAGGTCAAGGTGTTCATCGGCGCGATGTTCGAGATCGGCGCCAACAGCGGCGACCGCGCCGGCGAGTTCCAGCACTGGTACGAACATTACTGGCGCGACGCGTCGCCGGTCGCGGTGCGTGGCGCGCTGCATCCGCTGTACTGCAACCGTGACGGGGTGTGCGGCGCGGTGCTGGGCATGGGCAAGGTCAATGCGTCGGCGTCGATGCAGGCGATCCTGCTCGACCCGCGCTTCGATTTCAGCCACGCCTACTACCTGCTGTCCGGCGTGGCCGGTGCGCCGCCGTCGCGCGGCACCATCGGCGACGTCGACTGGGCAACCTGGCTGGTCGACTTCGACCTGGGCCACCGCTGGGCCGCGGACGAGGTTGCGCCAGGGCAGCCGACCTTCATGCCGCGCAAGGGCTACGAGAACGACCGCCGCTTCCAGCTCGACCCGCAGCTGGTGGCGTGGAGCATGGCGCTGTCCGCAGGCGCGCCGCTGCTCGATTCCGACGCGGCGCGGCACTACCGCCTGCGCTACCCGGATGCGGCCGCACGACGTGCGCCGCAGGTCACCTCCGGCACGCACATGACCGGCGATACCTTCTTCCACGGTCCCGGCCTGTCGCGCCAGGCGCAGGAGATCGCGCGCATGTACGGCGCCGACGACTACATGGTCACCGAGATGGAGGCCGCCGCGCTGGCCGGGGTGATCCGTCGCACGCACGGCACCGGGCGGGTGATGAGCCTGCGCGGCGTGGTCAATTTCGACCAGGGCAGCCCCGGCGAGACCACCCTGCAGCACCTGGACCCGGCGCCCGGGCAGACCGCCGGCGGCTTCGCCGAGGTGGTGCACAACATCGAGATCGCCGGTGCGCGCGTGGTCGACCACATCGTCGCGCACTGGGACACATGGAAAGACGGCGTGCCACCACGCTGA	MARLRTRLLLAGLVACGLGGCHAARERVPGAEVTAAPVQVKVFIGAMFEIGANSGDRAGEFQHWYEHYWRDASPVAVRGALHPLYCNRDGVCGAVLGMGKVNASASMQAILLDPRFDFSHAYYLLSGVAGAPPSRGTIGDVDWATWLVDFDLGHRWAADEVAPGQPTFMPRKGYENDRRFQLDPQLVAWSMALSAGAPLLDSDAARHYRLRYPDAAARRAPQVTSGTHMTGDTFFHGPGLSRQAQEIARMYGADDYMVTEMEAAALAGVIRRTHGTGRVMSLRGVVNFDQGSPGETTLQHLDPAPGQTAGGFAEVVHNIEIAGARVVDHIVAHWDTWKDGVPPR				NA	NA	NA	NA	NA
BMS020_02939	1581	hpxW_2	COG0405	Oxamate amidohydrolase proenzyme	ATGCTCCACACCCTGCGTGCGCACCGCGGCCTGGTGGTCGCGCCCCACCACCTCGCCGCGCAGGCCGGCCGCGACGTGCTGCGCGACGGCGGCAGCGCGGTCGAGGCCGCGGTCGCCACCGCCGCGACGCTGGCGGTGGTCTATCCGCACATGACCGGCATCGGCGGCGACGGCTTCTGGCTGGTGCGCGAGCCGGATGGCCGCGTGCACGCGATCGATGCCTGCGGCCGCGCCGCGCAGGCGGCCACGCTGGACTTCTACCCGGGTGTGGACACGATCCCCTGGCGCGGGCCGGGCGCGGCCAACACCGTCGCCGGCACCGTGTCCGGCTGGGCGCTGGCACTGGCCGGCGGCGGCGCAACGCTGCCGCTGCCGCGGCTGCTGGAGGATGCGATCCACCACGCCCGCCACGGCGTGGCGGTCACCGCCGGCGGCGCGCAGATCGCCGCGACCAAGGGCGCCGAGCTGCGCGCCCAGCCCGGCGCCTGGGCGGCCACGTTCGAACCCGATGGCCAGCCGCTGCGCGAAGGCGCGCTGCTGCGCCAGCCGGCGCTGGCCGCTACGCTACAGCAGTTGGCCGATGCCGGCCTGGACGACTACTACCGCGGTGCGCTGGCCGAATCGATCGCCGCCGACCTGGCCGCGCTCGGCAGCCCGCTGGCGCTGGCCGACCTGCACGCGCACCGCGCCGAGGCCAGCACGCCGCTGCAGGTGCGGCTGCGCGACGCCACCCTGTACAACCATGCGCCGCCGACCCAGGGCCTGGCCTCGCTGCTGATCCTGGCGCTGTTCGAGCGCCTGGGCGTCACCGAGGGCGAGGGCTTCGCGCATCTGCACGGGCTGGTCGAGGCGACCAAGCAGGCGTTCCTGGTGCGCGATGCGCATGTCGGCGACCCGGCGTACATGACCCTCGATCCGCAGGCGCTGCTCGACGACAGCGCCGCGCTCGACGCGCTGGCCGCGCGCATCGATCCGCAGCGCGCGCTGCCGTGGCCGCAGCCGTCGCAGGCCGGCGACACCACCTGGTTCGGCGCGATCGACCACGACGGCCGCGCGGTCAGCTGCATCCAGTCGACCTATTTCGAATTCGGCTCCGGGCTGGTGCTGCCGCGCAGCGGCATCACCTGGCAGAACCGCGGCTGCAGTTTCCGCCTCGCCGCCGATGGCTGGAACGCGCTCAGGCCCGGGCGCAAGCCGTTCCACACGCTCAATCCGGCGCTGGCGGTGTTCGACGACGGTCGCGTGCTCAGCTACGGCACGATGGGCGGCGAAGGCCAACCGCAGACCCAGGCCGCGCTGTTCACCCGCTACGCACGCTTCGGCCAGCCGTTGCAGCAGGCGGTCAGCGCGCCGCGCTGGCTGCTCGGCCGCACCTGGGGCGAGGACAGCACCACGCTCAAGCTCGAGGATCGCGTCGATGCGGCGGTGGTACAGGCGCTGCGCGAGGCCGGCCATGCGGTCGAGCTGCTGCCGGCCTTCACCTCGGTGATGGGCCATGCCGGCGCGCTGCTGCGCGAGGCCGACGGCACGCTGTCGGGCGCCAGCGACCCGCGCAGCGACGGCGCGGTGGCGGGCTGGTGA	MLHTLRAHRGLVVAPHHLAAQAGRDVLRDGGSAVEAAVATAATLAVVYPHMTGIGGDGFWLVREPDGRVHAIDACGRAAQAATLDFYPGVDTIPWRGPGAANTVAGTVSGWALALAGGGATLPLPRLLEDAIHHARHGVAVTAGGAQIAATKGAELRAQPGAWAATFEPDGQPLREGALLRQPALAATLQQLADAGLDDYYRGALAESIAADLAALGSPLALADLHAHRAEASTPLQVRLRDATLYNHAPPTQGLASLLILALFERLGVTEGEGFAHLHGLVEATKQAFLVRDAHVGDPAYMTLDPQALLDDSAALDALAARIDPQRALPWPQPSQAGDTTWFGAIDHDGRAVSCIQSTYFEFGSGLVLPRSGITWQNRGCSFRLAADGWNALRPGRKPFHTLNPALAVFDDGRVLSYGTMGGEGQPQTQAALFTRYARFGQPLQQAVSAPRWLLGRTWGEDSTTLKLEDRVDAAVVQALREAGHAVELLPAFTSVMGHAGALLREADGTLSGASDPRSDGAVAGW	PGPT0021715_296	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021715-hpxW-K22602	NA	NA
BMS020_02940	1482	atzE_2		1-carboxybiuret hydrolase subunit AtzE	ATGCAGATCCCCAGCGAGTACCAGCCCGGCATCCAGCGCAACCGCAGCCTGCTGATGGGCTATGCGCAGCGCCTGCGCGAGTTCGTCGCGCCGGAGCCCGCGGCCGCGACCCGCGCGCCGGGCCGCATCGCCGCGCTGGTGGCCGCCAGCCGCGCCGGCACGGGCGCGGCGCAGGCGCATGCCGACGCCGCGCTGGTGGCGATCGAAGCGGCCAACCCGGCACTGTGCGCGCTGACCCGGGTGCTGCCGACCCGCGCCCAGGCCGATGCCGCGCGCGTGCAGGCCGCACTGGACAGCGGCCGCGACGGCGGCGCGCTGGCCGGCGTGCCGTTCGCGGTGAAAGACCTGTTCGACGTCGCCGGGCTGCCGACCACCGCCGGCGCGGCGATCCGCGCCGATGCCGCCCCGGCCACCCACGATGCACCGCTGGTGCAGCGCCTGGTCGAGGCCGGCGCGCTGCTGGTCGGCACCGCCAACATGGACGAGTTCGCCTACGGCTTCGCCACCGTCAACGCGCACTACGGCACCACCCGCAATCCGCACGACACCGCGCGCCTGGCCGGCGGCTCCTCCGGCGGCTCGGCCGCGGCGGTGGCGGCCGGGCTGGTGCCGTTCGCGCTCGGTTCGGACACCAACGGCTCGATCCGCGTGCCGGCCGCGCTGTGCGGCATCTACGGGCTGCGCCCCAGCCACGGCAGCCTGCCGCTGGACGGCGTGTTCCCGTTCGTCGAACGCTTCGATGTGGCCGGGCCGTTCGCGACCTCGGTCGCCGACCTGCGTGCGGTGCACGAGGCGATGGCCGCCACGCCACTACCCGAGGCCGAGGTCGGCAGCCTGCGCATCGCCCGGCTCGGCGGCTGGTTCGCGCGCAACCTCGATCCCGAGCTCGCCGCCGGGCTGGACGCGCTCGCCGCGCACCTGGGCACGACCGCGCTGCACGAGCTGCCCGATGCCGAACGCGCGCGCGCCGCGGCGTTCGTGATGACCGCGGCCGAGGGCGGCATGCGCCACCGCGCCGCGCTGGCGACGCACGCCGCCGGCTTCGACCCGGCCACCCGCGACCGGCTGATCGCCGGGCTGATGCTGCCGGCGGCGGTGATCGCCGACGCGCAGCGCTTCGCCGACTGGTTCGCGCAGGCGATGCGCACGCTGTGGGACCAGGTCGACGTGTTGATCGCGCCGGCGGTGCCGTGCGTGGCGCCGCGCATCGACGAGGAGACCATCGTCGTCGACGGCGAGGCGGTGTCGGCGCGTGCCAACCTCGGCCTGTTCACCCAGCCGCTGGGGCTGGCGCGCTGCCCGGTGCTGGCCGCGCCGCTGCTGCGCCCCGGGCAGCTGCCGCTGGGCGTGCAGCTGATCGCCGCGCCGGGCCGCGAGGACCGGCTGTTCGCCGTGGCCGCGCAGCTCGAGCGCGACGGCCTGATCGGCTACAGCGTGCCGGTCGGCCACGGCCTGGACCGCCACATCGCCGCCCTCGCATGA	MQIPSEYQPGIQRNRSLLMGYAQRLREFVAPEPAAATRAPGRIAALVAASRAGTGAAQAHADAALVAIEAANPALCALTRVLPTRAQADAARVQAALDSGRDGGALAGVPFAVKDLFDVAGLPTTAGAAIRADAAPATHDAPLVQRLVEAGALLVGTANMDEFAYGFATVNAHYGTTRNPHDTARLAGGSSGGSAAAVAAGLVPFALGSDTNGSIRVPAALCGIYGLRPSHGSLPLDGVFPFVERFDVAGPFATSVADLRAVHEAMAATPLPEAEVGSLRIARLGGWFARNLDPELAAGLDALAAHLGTTALHELPDAERARAAAFVMTAAEGGMRHRAALATHAAGFDPATRDRLIAGLMLPAAVIADAQRFADWFAQAMRTLWDQVDVLIAPAVPCVAPRIDEETIVVDGEAVSARANLGLFTQPLGLARCPVLAAPLLRPGQLPLGVQLIAAPGREDRLFAVAAQLERDGLIGYSVPVGHGLDRHIAALA	PGPT0006165_10	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_ATRAZINE|DERIVATE_DEGRADATION	XENOBIOTIC_CYANURIC_ACID_DEGRADATION,PGPT0006165-atzE-K19837	NA	NA
BMS020_02941	474			hypothetical protein	ATGATCAACAACGACGTACTCCGCAGCATCCGCTACATGCTCGACATGGGCGATGTCCACGTGATCGAGCTGACCCAGCTGGCCGACCCGGATTTCGCCCTCGACAAGGACCAGGTCCAGGCCTGGATGAAGCGCGAGGACGAACCTGGCTTCGCGCCGTGCAGCGACGCGATGCTGCTGCGCTTCCTCGATGGCCTGGTGGTGTACTACCGCGGCCGCGACGACAGCGCCGCGCCGCGCCCGCTGGAAGCGCGGGTCAGCAACAACCTGGTGTTGAAAAAGCTGCGCGTGGCGTTCGAGCTGAAGGACGTGGACATGCATGCGATCTTCGAGGCGGCCGGCTTCCCGGTCTCCAAGCCGGAGCTGTCGGCCTTGTTCCGCCAACCCGGGCACAAGAACTTCCGTGCCTGCGGCGACCAGATGCTGCGCAACTTCCTCAAGGGCCTGACCCAGCGCCTGCGCACGCAGGGCTGA	MINNDVLRSIRYMLDMGDVHVIELTQLADPDFALDKDQVQAWMKREDEPGFAPCSDAMLLRFLDGLVVYYRGRDDSAAPRPLEARVSNNLVLKKLRVAFELKDVDMHAIFEAAGFPVSKPELSALFRQPGHKNFRACGDQMLRNFLKGLTQRLRTQG				NA	NA	NA	NA	NA
BMS020_02942	339			hypothetical protein	ATGCTGGTGCTGGCCGAATGCGCGTTCGCGCTCATGCTGTGCTGGGCGCTGTGCCTGCCGCTGGTCTACGGCTATTACCTCGCCGCCTGCAGTGGTGGCCTCGGTGCCGGCGGCATGACGCTGCTGGTCGCGCTGGCCGCGCCACTGGTGTTTCCGTGGCTCACCTGCGTGTTGTGCGTCGCCGCGATCGCGCTCAGTGCCGTCGTGCAGCCGTTCCGCCACCGCCGGCTCTGGCCGAAACTGCCCTGGATCCTGCTCGCCGCACTGCTCGCCGGCGTGGCCAGCTGGGGCATCGCCACCATCGCCGACCTGCATGCGCGCTGCTCGATCGGCTTCTGA	MLVLAECAFALMLCWALCLPLVYGYYLAACSGGLGAGGMTLLVALAAPLVFPWLTCVLCVAAIALSAVVQPFRHRRLWPKLPWILLAALLAGVASWGIATIADLHARCSIGF				NA	NA	NA	NA	NA
BMS020_02943	1104	rihB	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihB	ATGCCCGAAGCTTCCGCCGCACCCGCAAAACGCCTGGTCATCCTCGAAGACGACATCGACGGCTTCACCCCCGCGCAGCTGCTCCTGCTGCAATCGCCCGACGTGGAGGTGCTGGGCATCTCCGTGGTCAGCGGCAACATCTGGCGCGACGAGGCGCTGGCGCATACCTGCCGCCTGCTCGAACTCGCCGGCCGCCCCGACATTCCCGTGCTGCCCGGCCCGGTCTTCCCGCTGCTCAATTCCGAGGCCGCCACCGAGCGCTGGGAAGCACTGCACGGGCGGCTGGTGTGGAAAGGCGCATGGACCCGCCACTGGGTCGACGCCGACACCGTGCAGAGCTCGCCGCGCTACCACGCCCACGACGTGGTGCCCGACCTTGCGCTCGGCAATCCGAGCGTGGTGCGCCCGGCGCAGGAGCACGCCGCACTGTTCATGCTGCGCATGGCGCGGCAATACCCCGGCCAGGTCAGCATCGTCGCCACCGGGCCGTTGACCAACCTGGCACTGGCGCAGTCGCTGGACCCGCAGTTCGCCACGCTGGTGAAGGAGCTGGTCTACATGGGCGGCAGCCTCAATCCGCAGCGCCGCCTGGACAGCGTCTCGGCGCGGCAGTTCGCGCGCGAGTTCGCCCATTCGCCGCGCCGCGAGTTCAACATCCGTTGGGACCCGGAAGCGGCGCGCATCGTGCAGCGCGCGCCGTGGAACCGCATCGTGATGGTGCCGGTGGATCCGTCCACCAGCACCGAGCTGAGCCCCGCGCTGCTGGCGCGGATGGGCGCTGCCGACACCACCATCGGCCACACCCTGCGCCGGCGCGAGCCGGGCTTCCCGATGTGGGACGAGATCGCCACCGCGGTGTGGCTGCGCCCCGAACTGGCGACCCGCATCGAGCACGCCTACATCGATACCGATACCGGCTTCGGCCCCGGCTATGGCGACACCGTGTCGTGGGCCGAGGGCTACCAGCCCGGCCTGGGCGAGCAGCGCAACGCGGTGGTGATGGAGATCGACGTAGCGGCGATGGAAGCGCTGCTGGTCGAACGCCTGACCGCGCCGCAGCCGCCCGCGGTCGGTGCGCCGCTGCCGGCGCAGACCGGGCCGTGA	MPEASAAPAKRLVILEDDIDGFTPAQLLLLQSPDVEVLGISVVSGNIWRDEALAHTCRLLELAGRPDIPVLPGPVFPLLNSEAATERWEALHGRLVWKGAWTRHWVDADTVQSSPRYHAHDVVPDLALGNPSVVRPAQEHAALFMLRMARQYPGQVSIVATGPLTNLALAQSLDPQFATLVKELVYMGGSLNPQRRLDSVSARQFAREFAHSPRREFNIRWDPEAARIVQRAPWNRIVMVPVDPSTSTELSPALLARMGAADTTIGHTLRRREPGFPMWDEIATAVWLRPELATRIEHAYIDTDTGFGPGYGDTVSWAEGYQPGLGEQRNAVVMEIDVAAMEALLVERLTAPQPPAVGAPLPAQTGP	PGPT0013465_28	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
BMS020_02944	2301			hypothetical protein	ATGAAGAACTCGCTCCTGGCGCTCGCCGTCGGCACCGCCCTCTATCTGCCGGCGCAGGCCGGCTTCGCCCAGACCGACGACGCCAACGCCTCGCGCTCCAGCGTCACCACCACCTCCAACACCACCAACTCCAACGCGACCAAGCGCGCGGTGCAGCAGCTCGATGCGATCCAGGTCAGCGGCCAGATCGAATCGATCGGTGGCGGCAACATGCAGTACCAGGCCGCCTCCAAGGCGGTGTCCACGGTCGGCCGCGAGGCGATCCTGAAGGCCGCCCCGGGCGCCAACTTCACCCAGATGCTGACCAGCATCCCGGGCGCGATCTCGGCCACCAACGACGTGACCGGCCTCAACGACGGCCAGTTCACCGTGCGCGGCTTCCCGGCCGACGAGGTCGGCGTGACCGTCAACGGCGTGCCGATCAACGACTCGGGCAACTACAAGATCTACGCCACCGAGTACGGCGACACCGAGAACATGGGCGACATCACCGTCGAGCAGGGCTTCCCGAGCGTGACCTCGCCGGTGATCGGCGCGGCCGGCGGCAACATCGCCTGGGTCACCGTCGATCCGACCCACGATGCCGGCGTCGACGTCAGCCAGAGCCTGGGCAGCAACAACTACAACCGCACCTTCGTGCGCTACAACACCGGCGACCTCGGCCCGGTGCGTTCGTGGATCTCCTACTCGCACAACGAGACCGACCTGTGGCGCGGCGCCGGCCAGTCCAAGGTCACCAAGATCGACGGCAAGTCGGTGTGGACCATCGACGACGACAATTCGCTGACCTTCTCGCTGCAGTACAACCGCGAGATGAAGAACAACTACCGCGCACTGACCAAGAGCCAGATCGCGCAGTACGGCTACAAGACCGGCTACAGCAACATCTACAACGCGTCCTCGCCGGGCACCTACGCCGGCCTGCAGACCAACCCGTTCCGCAGCTGGATCGCCAGCCTCGATGGCGAGTTCACCCTGACCGACTCGCTGCACCTGTCGGTGGTGCCGTACTTCGTCTACGGCTACGGCGGCGGCGGCTCGGGCTCGACCGCCTCGGGCGTGAACTACTACAACTTCTACACCTCCGATACCTGGCGTCCGGGCGTGCACGTGAAGTTCAAGCAGGACTTCAGCCAGAACGACAGCCTCGAATACGGCTTCCTGTACGAGCGTCCGCGCCAGTCGGCGCTGAACGCGCGGCTGGGCGTCGATGCCGGCGGCAACGCCTCGGACCTGTGGGCGCACAACAGCGCCTACTACCTGCAGAACGCCGCGGGCAACCCGTACATCAGCTACAAGTACAGCGTGACCACGCCGACCATGCGCGTGTTCGCCAACAACACCTGGACCCCGACCGACGCGCTGTCGATCACCGTTGGCGGCGCCTACACCAAGGTCAAGCGCGAGGGCTGGTACTGGAACCTGCCGGAATCGGGCAGCAGCAGCGAGTTCTATGCCTCCGGCTCCAAGGAGTACAAGAAGTTCACCCCGAGCGCCGGCGTGAAGTACCAGCTCGACGACGCCAACCAGCTGTACCTGGGCGTGGGCAAGACCTACCGCGCGCCGATCGCGCTGGCCGCCATCGACGACGTCTACAACGCCGCCTACGCCGCCGCGACCGGCACCAGCACCAGCGCCGGCAATGCCGAGCCGGAGCAGGCCAAGACCCTCGACCTGGGCTGGCGCTTCTACGGTGACAAGATCAGCACCGTGGTCGACGCGTTCGCAACCAACTTCGAGAACAAGCAGTTCAGCGGCCAGGACGCGCAGACCTTCCAGTACGTGTACTTCGGCCTGGGCGCGGTGCAGATGCGCGGCATCAACGGCGAGTTCAGCTACAAGTTCAACGACCAGTGGAACGTGTACACCTCGTACGCCTACACCAAGGCCGAGATCAAGGACGACGTGACCTTCGGCAGCAGCACCTACGGCACCGCGGGCAGCACCTTGATCAACGTGCCGAAGAACGCCGGCTACGCCGCGCTGAACTACACCGGCGGTCCGTTCTGGGCGACGCTGAGCGCGACCTCGCAGAGCGGCATCTGGGGCACGTTCACCAACCAGGCCGGTTCGTACTCGGGCGGCTTCACCGTGTTCAGCCTCAACGGCGGCTACAACTTCAACGACTTCGGTGGTCTGAAGAAGCCGTACATCAAGGTCAACCTGTACAACCTCGGCGACCGCAAGGCGCTGACCTACTCGTCGACCTCCTCGCTGAGCACCAGCGCCACCTCGGCGACCTGGCAGCTGCTGCAGGACCGCACCGTGATGGTGACCTTCGGCGGCTCGATCGGGCTGTAA	MKNSLLALAVGTALYLPAQAGFAQTDDANASRSSVTTTSNTTNSNATKRAVQQLDAIQVSGQIESIGGGNMQYQAASKAVSTVGREAILKAAPGANFTQMLTSIPGAISATNDVTGLNDGQFTVRGFPADEVGVTVNGVPINDSGNYKIYATEYGDTENMGDITVEQGFPSVTSPVIGAAGGNIAWVTVDPTHDAGVDVSQSLGSNNYNRTFVRYNTGDLGPVRSWISYSHNETDLWRGAGQSKVTKIDGKSVWTIDDDNSLTFSLQYNREMKNNYRALTKSQIAQYGYKTGYSNIYNASSPGTYAGLQTNPFRSWIASLDGEFTLTDSLHLSVVPYFVYGYGGGGSGSTASGVNYYNFYTSDTWRPGVHVKFKQDFSQNDSLEYGFLYERPRQSALNARLGVDAGGNASDLWAHNSAYYLQNAAGNPYISYKYSVTTPTMRVFANNTWTPTDALSITVGGAYTKVKREGWYWNLPESGSSSEFYASGSKEYKKFTPSAGVKYQLDDANQLYLGVGKTYRAPIALAAIDDVYNAAYAAATGTSTSAGNAEPEQAKTLDLGWRFYGDKISTVVDAFATNFENKQFSGQDAQTFQYVYFGLGAVQMRGINGEFSYKFNDQWNVYTSYAYTKAEIKDDVTFGSSTYGTAGSTLINVPKNAGYAALNYTGGPFWATLSATSQSGIWGTFTNQAGSYSGGFTVFSLNGGYNFNDFGGLKKPYIKVNLYNLGDRKALTYSSTSSLSTSATSATWQLLQDRTVMVTFGGSIGL	PGPT0003790_13384	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_02945	1110			hypothetical protein	ATGCCGATCCCACGCCCGCTTTTCCTGCTGTTGCCACTGCTGGCCCTGTTGCCCGCCCTCGCCTCCGCCGCCAGCGTCGCCCCCGCGCCGACCGTGGCGCATCCGATCCCGGTGAAGATGGTCGTGGTGGCCAACTTCGAGAACGGCGCCGATGCCGGCGACAAGCCGGGCGAGTACCAGTTCTGGGTCGAGCGCGAACACCTGGACGAGACCATCGCGGTGCGTGGTGCCGAGCATCCGCTGCGGCGCAACGCACAGGGCCTGTACGGCCTGATGCTGAAAGACATGGACGCGATCGTGCTCGATCCGCGCTTCGACTTCAGCCACGCCTACTGGCTGTTCACCGGCATCTCCGGCGGCGATCCGAACCTGGTCTCGGTCGGCAGCGCGGCCTGGGCGCGCTGGGTGGTCAACGCCGACCAGATGCGCGAGTTCGATGATCGCGAGACGCCGAAGGACTGGCCGTACGGCCTGTTCGCGATCGGCGCGCTCAAGCCCAACACCCTGCCCAGCGATCCGAATGGGTTTGGCAGCGTGGAATCGGCCGACCAGCTCGGCATGGCGTGGAAGCTCAACCCCGGCCTGGTCGGCTGGGCGTATGCGATGACCCGCAACGTGGCCATTCCCGACGATCCGGTGCTGGCCGAACGGCGCAAGGCCTGGACCGGCTTCCCGCACGCGCAGCAGCCGCCGCGCGTGGTGCTCGGCGAAACCCTGGGCTCCAAGCGCTACTGGCACGGCGCGATGCGCAACCAGTGGGCCGAGGACTGGGTCAAGCTGTGGACCGGCGGCAAGGGCCGCTTCGCGATGACCAACATGGAAAGCCAGAATGCCGCGCAGCGCATCGAGCGCTACGCCACGTTCGGCATGGTCGATCCGCAGCGCGTGCTGGTGCTGCGCACCGCCAGCAATCCGTCGATGCCGCCGCCGGGGCAGGACCCGCTGGCCACGGTCGGCGACGAAACCCCCGGCCAGGTCGCCGCCTACGAAGCCAACTACCGCGTCGGTGCACCGGTGGTGCACGCGCTGCTGGCCGGCTGGGACCAGCACCACTACCGCGACACGCCGCCGGCCACGCCGCTGCCGGCCCAGGACACCCAGGACGACTGA	MPIPRPLFLLLPLLALLPALASAASVAPAPTVAHPIPVKMVVVANFENGADAGDKPGEYQFWVEREHLDETIAVRGAEHPLRRNAQGLYGLMLKDMDAIVLDPRFDFSHAYWLFTGISGGDPNLVSVGSAAWARWVVNADQMREFDDRETPKDWPYGLFAIGALKPNTLPSDPNGFGSVESADQLGMAWKLNPGLVGWAYAMTRNVAIPDDPVLAERRKAWTGFPHAQQPPRVVLGETLGSKRYWHGAMRNQWAEDWVKLWTGGKGRFAMTNMESQNAAQRIERYATFGMVDPQRVLVLRTASNPSMPPPGQDPLATVGDETPGQVAAYEANYRVGAPVVHALLAGWDQHHYRDTPPATPLPAQDTQDD				NA	NA	NA	NA	NA
BMS020_02946	1161	rihA_2		Pyrimidine-specific ribonucleoside hydrolase RihA	ATGAGCGCTTCGTCGCGCACGCTGCGCGCGGCGCTGGGCGCGCTGCTGCTCGCCGCTGGCGTCGCGCTGCCGGCGCTGGCCGCCGAACCGCGCCTGGTCATCCTCGACGAGGACCTCGACGGCTTCGCGCCGGCGCAGGTGATGGCACTGCAGGCGCCGGACGTGCGCGTGCTGGGCATCACCACGGTCAGCGGCAATGTCTGGGCCACCGAGGCCACCGCGCATGCGCGGCGCATGCTGGAGATCAGCGGCCATCCGCAGGTCCCGGCGGTGCCCGGCGCGATCTACCCGCTGGTCAACACCGAGGCCGCCACCGAGCGCTGGGAAAGCCTGTACGGCAAGCTGGTGTGGAAGGGCGCGTGGATGAAGCACTGGGTCGAACCGACCCACCAGGCCGATCCGCAGTACCACGGCCCGGAGGTCGTGCCCGACCTCAAGCTCGGCAACCCGAGCGTGGTCAAGGCCAGCGACGAGCTCGCCGCCACCTTCCTGATCCGCATGGTGCGCGCCTACCCGGGCCAGGTCAGCATCATCGCCACCGGCCCGCTGACCAACCTGGCGCTGGCGCAGCGGCTCGACCCGCAGTTCGCCACGCTCGCCAAGGAGCTGGTCTACATGGGCGGCAGCCTCAATCCGCGCCAGCTGCGCGACAGCGTCGCCGCGGCGCAGTTCGCGCGCGAGTACGTCAACACGCCGCGGCGCGAGTTCAACATCCGCTTCGACCCCGAGGCCGCCAGCATCGTGCAGCGCGCGCCGTGGAAGAAGGTGGTGATGGTGCCGGCCGATCCGGCCACCGCCACCGAGGTCACCGCTGAACTGCGTGCGCGCATGAGCGCGGCCAACACCCCGATCGCGCGGGCGATGGCGCAGCGCCAGCTCGGCTTCCCGTTGTGGGACGAACTGGCAGTGGCGGTGTGGCTGGACCCGTCGCTGATCACCGAATCCGAGCAGCTGAAGGTCGACACCAACACCGAGTCCGGCCCCGGCTACGGCGACATCCTCAGCTGGAACGCGCTGTACGCGCCGGACCAGGGCGAAGGCGACGAGACCGTGGTGCGCCAGGTCGACGTGCCGCGCTTCGAGGCGCTGATGGTGCAGCTGCTGACCCGGCCGCAGCCGCACGCACTCGGCCGGCCGGTGCCCGAGCCGCGCCCGGACTGA	MSASSRTLRAALGALLLAAGVALPALAAEPRLVILDEDLDGFAPAQVMALQAPDVRVLGITTVSGNVWATEATAHARRMLEISGHPQVPAVPGAIYPLVNTEAATERWESLYGKLVWKGAWMKHWVEPTHQADPQYHGPEVVPDLKLGNPSVVKASDELAATFLIRMVRAYPGQVSIIATGPLTNLALAQRLDPQFATLAKELVYMGGSLNPRQLRDSVAAAQFAREYVNTPRREFNIRFDPEAASIVQRAPWKKVVMVPADPATATEVTAELRARMSAANTPIARAMAQRQLGFPLWDELAVAVWLDPSLITESEQLKVDTNTESGPGYGDILSWNALYAPDQGEGDETVVRQVDVPRFEALMVQLLTRPQPHALGRPVPEPRPD	PGPT0013465_28	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
BMS020_02947	1569	add_2		Adenosine deaminase	ATGCAGCATCGCAGCATCCCGGCCCGTGCCGGCCTCGTCCTCGCCGCCGCGCTCGCCTGCGCCGGCGCCGCCCACGCCCGCCAGGCGCCGTCCAGCGCCGCCGCGCGCGAACAGCAGGTCGCGCAGCTGATGCAGCGCGACGCCGACCGCCCGCCGCAGCTGCGCGCGTTCCTGCAGCGCATGCCCAAGGGCGGCGACCTGCATAACCACCTTGGCGGCAGCAATTACGCCGAGGATTTCCTGCGCTGGGCCGACCAGGACGAAGGCTGCGTGAAGCCGGCCGACCACAGCCTGCATGCCGGCCCGTGCGGCGACGGCCAGGTGCCGGCGCGCGGGCTCGCCGCGCGCGATCCGGCGCTGTATTCGGCGATGGTCGATGCGCTGTCGATGCGCAACTACATCCCGGGCCAGCCGCAGGCCTCTGGCCACGACCGCTTCTTCGAGAGCTTCGCCCGCTTCGGCCCGGCGATGGCCAAGCGCCGCGCCGAGGCGATCGCGGCCACGATGGAACAGGCCGCGCGCGACCGCGTGCCCTACGTCGAACTGATGGCCGACCCGCCGCAGGTGCTGGCCACCGGCCGACGCGCGCAGGAGCTGGCGTGGAACCCCGACGACTTCGGCCCGACCCTGGCCGCGCTGCAGGCCGACATGCCGGCGCAGGTGCAGGCCGGGCGCGACGACTTCGCCGCCACCGATGCGCAGGTGCAGCGCCTGCTGCGCTGCGGCCAGGCCGATGCCAGCCCCGGCTGCGGCGTGCAGTACCGCTACGTGCTGTTCGTGCTGCGCACGCTGCCGCCGGCGAACGTGTTCGGGCAGATGGCCACCGCCTACGCGCTGGTCGCCGCCGATCCGCAGCGCTTCGTCGCGGTCAACATCGTCGCCCCCGAGGACAACCCGGTCGCGCTGGCCGACTACCGCCTGCACATGGCGATGTTCCGCTACCTGTCGGCACGCCAGCCGCAGGTGCCGCTGACCCTGCACGCCGGCGAGCTGGCGCACGGGCTGGTGCCGCCGGCCGACCTGCGCTTCCACATCCGCGCGGCGGTCGAGGTCGGCGCGCGCCGGATCGGCCACGGCGTCGACATCGCCTACGAGGACGATGCCGCCGGCCTGCTGGCCGAGATGAAGCGGCGCCAGGTCGCGGTCGAGATCAACCTGACCAGCAACGACGGCATCCTCGGGGTCAAGGGCGCCGAGCATCCGCTGCCGATGTACCTGGAGGCCGGCGTGCCGGTGGTGCTGTCCACCGACGACGAAGGCGTGTCGCGCAACGACATGACCAACGAATACCAGCGCGCGGTGCAGGAGCATGGCGTGGACTACGCCACGCTCAAGCAGATCGCGCGCAACGGCCTGAGCTATGCCTTCGCCCCCGGCGCCAGCCTGTGGGGCAGCGATGGCCACACCGCCGCGCCGGCCTGCGCGGCCGCGCTGGCGCAGGCCGCACCGCGCGCCGACGCCGCCTGCCAGCGCCTGCTCGACGGCAGCGCCAAGGCGAAGCTGCAGTGGCAGCAGGCGCTGGATTTCGCCGCGTTCGAGGACGCGACGCTGGCCGGGGCGCGCCGATGA	MQHRSIPARAGLVLAAALACAGAAHARQAPSSAAAREQQVAQLMQRDADRPPQLRAFLQRMPKGGDLHNHLGGSNYAEDFLRWADQDEGCVKPADHSLHAGPCGDGQVPARGLAARDPALYSAMVDALSMRNYIPGQPQASGHDRFFESFARFGPAMAKRRAEAIAATMEQAARDRVPYVELMADPPQVLATGRRAQELAWNPDDFGPTLAALQADMPAQVQAGRDDFAATDAQVQRLLRCGQADASPGCGVQYRYVLFVLRTLPPANVFGQMATAYALVAADPQRFVAVNIVAPEDNPVALADYRLHMAMFRYLSARQPQVPLTLHAGELAHGLVPPADLRFHIRAAVEVGARRIGHGVDIAYEDDAAGLLAEMKRRQVAVEINLTSNDGILGVKGAEHPLPMYLEAGVPVVLSTDDEGVSRNDMTNEYQRAVQEHGVDYATLKQIARNGLSYAFAPGASLWGSDGHTAAPACAAALAQAAPRADAACQRLLDGSAKAKLQWQQALDFAAFEDATLAGARR	PGPT0021520_87	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021520-add-K01488	NA	NA
BMS020_02948	2115	fusA_2	COG0480	Elongation factor G	ATGGCTCGTACAACACCCATCGCACGCTACCGTAACATCGGTATCAGTGCGCACATCGACGCCGGTAAAACCACTACTACCGAACGTATTCTGTTCTACACCGGTGTAAACCACAAAATCGGTGAAGTTCATGACGGCGCCGCTACCATGGACTGGATGGAGCAGGAGCAGGAACGTGGTATCACCATCACTTCCGCTGCGACTACTGCATTCTGGTCTGGTATGGCTAAGCAGTATGAACCGCACCGTGTAAACATCATCGACACCCCGGGGCACGTTGACTTCACTATCGAAGTAGAACGTTCCATGCGTGTTCTTGATGGTGCGGTAATGGTTTACTGCGCAGTTGGTGGTGTTCAGCCGCAGTCTGAAACCGTATGGCGTCAGGCAAACAAATATAAAGTTCCGCGCATCGCGTTCGTTAACAAAATGGACCGCATGGGCGCTAACTTCCTGAAAGTTGTTGGTCAGATCAAAACCCGTCTGGGCGCGAACCCGGTTCCGCTGCAGCTGGCAATTGGTGCTGAAGAAGGTTTCACCGGCGTTGTTGACCTGGTGAAAATGAAAGCCATCAACTGGAACGATGCAGACCAGGGCGTAACCTTCGAATACGAAGATATCCCGGCTGACATGCAGGATCTGGCTGACGAATGGCACCAGAACCTGATCGAGTCCGCAGCTGAAGCTTCTGAAGAGCTGATGGAAAAATACCTGGGTGGTGAAGAACTGACTGAAGAAGAGATCAAAAAAGCTCTGCGTCAGCGCGTTCTGAACAACGAAATCATCCTGGTAACCTGTGGTTCTGCGTTCAAGAACAAAGGTGTTCAGGCGATGCTGGATGCGGTAATTGACTACCTGCCATCCCCTGTTGACGTTCCGGCGATCAACGGCATCCTGGACGACGGTAAAGATACTCCGGCTGAGCGTCACGCAAGCGACGACGAGCCGTTCTCTGCACTGGCGTTCAAAATCGCTACTGACCCGTTCGTGGGCAACCTGACCTTCTTCCGCGTGTACTCCGGTGTGGTTAACTCTGGTGATACCGTACTGAACTCCGTGAAAGCTGCACGTGAGCGTTTCGGTCGTATCGTACAGATGCACGCTAACAAACGTGAAGAGATCAAAGAAGTTCGCGCGGGCGACATCGCTGCTGCAATCGGTCTGAAAGACGTAACTACTGGTGACACCCTGTGTAACCCGGATGCGCCGATCATTCTGGAGCGTATGGAATTCCCTGAGCCGGTAATCTCCATCGCCGTTGAGCCGAAAACCAAAGCTGACCAGGAAAAAATGGGTCTGGCTCTGGGTCGTCTGGCTAAAGAAGACCCGTCTTTCCGCGTATGGACTGACGAAGAGTCTAACCAGACCATTATCGCCGGTATGGGTGAGCTGCACCTCGACATCATCGTTGACCGTATGAAGCGTGAATTCAACGTTGAAGCGAACGTCGGTAAACCTCAGGTTGCTTACCGTGAAGCAATTCGCGCGAAAGTTACCGATATCGAAGGTAAACACGCCAAGCAGTCTGGTGGTCGTGGTCAGTACGGTCACGTTGTGATCGACATGTACCCGCTGGAGCCGGGCTCTAACCCGAAAGGTTACGAGTTCATCAACGACATCAAAGGTGGTGTAATTCCTGGCGAATACATCCCGGCCGTTGATAAAGGCATCCAGGAACAGCTGAAAGCTGGTCCGCTGGCAGGTTACCCGGTAGTTGATATGGGTATCCGTCTGCACTTCGGTTCTTACCACGACGTTGACTCCTCTGAGCTGGCGTTTAAACTGGCTGCGTCTATTGCCTTTAAAGAAGGCTTTAAGAAAGCAAAACCAGTTCTGCTTGAGCCGATCATGAAGGTTGAAGTAGAAACTCCGGAAGAGAACACTGGTGACGTTATCGGTGACTTGAGCCGTCGTCGCGGTATGCTGCGCGGTCAGGAATCCGAAGTAACCGGCGTTAAGATCCACGCTGAAGTACCGCTGTCCGAAATGTTCGGTTATGCAACTCAGCTGCGTTCTCTGACCAAAGGTCGTGCATCATACACCATGGAATTCCTGAAGTATGATGATGCGCCGAACAACGTTGCTCAGGCCGTTATTGAAGCCCGTGGTAAATAA	MARTTPIARYRNIGISAHIDAGKTTTTERILFYTGVNHKIGEVHDGAATMDWMEQEQERGITITSAATTAFWSGMAKQYEPHRVNIIDTPGHVDFTIEVERSMRVLDGAVMVYCAVGGVQPQSETVWRQANKYKVPRIAFVNKMDRMGANFLKVVGQIKTRLGANPVPLQLAIGAEEGFTGVVDLVKMKAINWNDADQGVTFEYEDIPADMQDLADEWHQNLIESAAEASEELMEKYLGGEELTEEEIKKALRQRVLNNEIILVTCGSAFKNKGVQAMLDAVIDYLPSPVDVPAINGILDDGKDTPAERHASDDEPFSALAFKIATDPFVGNLTFFRVYSGVVNSGDTVLNSVKAARERFGRIVQMHANKREEIKEVRAGDIAAAIGLKDVTTGDTLCNPDAPIILERMEFPEPVISIAVEPKTKADQEKMGLALGRLAKEDPSFRVWTDEESNQTIIAGMGELHLDIIVDRMKREFNVEANVGKPQVAYREAIRAKVTDIEGKHAKQSGGRGQYGHVVIDMYPLEPGSNPKGYEFINDIKGGVIPGEYIPAVDKGIQEQLKAGPLAGYPVVDMGIRLHFGSYHDVDSSELAFKLAASIAFKEGFKKAKPVLLEPIMKVEVETPEENTGDVIGDLSRRRGMLRGQESEVTGVKIHAEVPLSEMFGYATQLRSLTKGRASYTMEFLKYDDAPNNVAQAVIEARGK				NA	NA	NA	NA	NA
BMS020_02949	471	rpsG_1	COG0049	30S ribosomal protein S7	ATGCCACGTCGTCGCGTCATTGGTCAGCGTAAAATTCTGCCGGATCCGAAGTTCGGATCAGAACTGCTGGCTAAATTTGTCAATATCCTGATGGTAGATGGTAAAAAATCTACTGCAGAAACTATCGTATACAGCGCGCTGGAGACCCTGGCTCAGCGTTCTGGTAAATCTGAACTGGAAGCCTTCGAAGTTGCGCTCGAAAACGTGCGCCCGACTGTCGAAGTTAAGTCCCGCCGCGTAGGTGGTTCTACTTATCAGGTTCCAGTTGAAGTTCGTCCGGTCCGTCGTAATGCCCTGGCAATGCGTTGGATCGTTGAAGCTGCTCGTAAACGCGGTGATAAATCCATGGCTCTGCGCCTGGCGAACGAACTCACTGATGCTGCAGACAACAAAGGTACTGCAGTTAAGAAACGTGAAGACGTTCACCGTATGGCCGAAGCCAACAAGGCGTTCGCTCACTACCGTTGGTAA	MPRRRVIGQRKILPDPKFGSELLAKFVNILMVDGKKSTAETIVYSALETLAQRSGKSELEAFEVALENVRPTVEVKSRRVGGSTYQVPVEVRPVRRNALAMRWIVEAARKRGDKSMALRLANELTDAADNKGTAVKKREDVHRMAEANKAFAHYRW	PGPT0026715_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026715-ndhB-K05573	NA	NA
BMS020_02950	375	rpsL_1	COG0048	30S ribosomal protein S12	ATGGCAACAATTAACCAGCTGGTACGCAAACCACGCGCGCGCAAAGTTGCAAAGAGCAACGTGCCAGCGCTGGAAGCCTGCCCGCAGAAACGTGGCGTATGTACTCGCGTATATACCACCACTCCTAAGAAACCGAACTCCGCACTGCGTAAAGTTTGCCGTGTGCGTCTGACTAACGGTTTCGAAGTCACCTCCTACATCGGTGGTGAAGGTCACAACCTGCAGGAGCACTCCGTGATCCTGATCCGTGGCGGTCGTGTTAAAGACCTTCCGGGTGTTCGTTACCACACCGTTCGTGGTGCGCTTGACTGCTCCGGCGTTAAAGACCGTAAGCAGGCTCGCTCCAAGTACGGCGTGAAGCGTCCTAAGGCTTAA	MATINQLVRKPRARKVAKSNVPALEACPQKRGVCTRVYTTTPKKPNSALRKVCRVRLTNGFEVTSYIGGEGHNLQEHSVILIRGGRVKDLPGVRYHTVRGALDCSGVKDRKQARSKYGVKRPKA				NA	NA	NA	NA	NA
BMS020_02951	288	tusB	COG2168	Protein TusB	ATGCTCCATACGCTCAGTGTTTCTCCCTGGCATGCCGATATCGCAGCAATGCTTCGCTTGATGGAGCAGGGTGACGATCTGTTACTGCTGTCTGATGGCGTCGCGGCGGCTATCGCCGGCGGTCGCTTCCTTGAGATCCTGCAATCCGCCCCCATAACCCTTTACGTGCTGCAAGACGACGTTGACGCCCGCGGGCTAACTGGTCAAATTGCGGACAGTGTCGGCAGGGTTAGCTATACTGATTTCGTCAGACTCACAGTCAAACATGCCGGTCAGTTGGCCTGGTGA	MLHTLSVSPWHADIAAMLRLMEQGDDLLLLSDGVAAAIAGGRFLEILQSAPITLYVLQDDVDARGLTGQIADSVGRVSYTDFVRLTVKHAGQLAW				NA	NA	NA	NA	NA
BMS020_02952	360	tusC	COG2923	Protein TusC	ATGAAACGTGTGGCTTTCGTTTTTTCCTCCGCGCCGCACGGCAGCGCCGCCGGCAGGGAAGGCCTCGACGCCTTATTAGCCACCTCCGCCCTCACCGACGAGATTGGCGTATTTTTCGTGGGCGACGGCGTGTTTCAGCTGTTGCCCGCCCAGCGGCCTGGCGCTGTGCTGGCCCGCGATTACATCGCCACTTTTAAACTGCTGTCGCTATATGATATCGACCAGTGCTGGCTGTGCGCCGAGTCGGCGCGAGAGCGCGGCCTGGACCCCGCGACACCGTGGGTGGTGGATGTCGAATGCCTGGCGCCGGATGCCCTGCGCGCCCGTCTGCATGAATTTGATGTGATTTTGCGTTTCTGA	MKRVAFVFSSAPHGSAAGREGLDALLATSALTDEIGVFFVGDGVFQLLPAQRPGAVLARDYIATFKLLSLYDIDQCWLCAESARERGLDPATPWVVDVECLAPDALRARLHEFDVILRF				NA	NA	NA	NA	NA
BMS020_02953	387	tusD	COG1553	Sulfurtransferase TusD	ATGCGTTTTGCCCTCACGGTGACCGGCCCTGCCTATGGCACGCAGCAGGCGAGCAGCGCCTGGCAATTTGCGCAGGCCGTGCTGCAGGAAGGCCATGAGCTGGCGTGCGTTTTTTTCTATCGCGAAGGCGTGCTTAACGCTAACCAGCTGACGGCGCCCGCCAGCGATGAGTTCGATCTGGTGCGCGGGTGGCAATCCCTCCACGATGAGCACGGCGTCGCGCTGCATATCTGCGTGGCGGCCGCCCTGCGTCGTGGCGTAACGGACGAGCGCGAAGCGCAACAGCTCGCTCTGCCTGGCCATAATCTGCAGCCGGGTTTTACGTTGAGCGGACTTGGCGCGCTGGCGGAAGCGGCGCTTACTTGCGATCGGATGGTACAGTTTTGA	MRFALTVTGPAYGTQQASSAWQFAQAVLQEGHELACVFFYREGVLNANQLTAPASDEFDLVRGWQSLHDEHGVALHICVAAALRRGVTDEREAQQLALPGHNLQPGFTLSGLGALAEAALTCDRMVQF				NA	NA	NA	NA	NA
BMS020_02954	723	dauR	COG2964	Transcriptional regulator DauR	ATGTCCAGGTCGCTTTTAACCAACGAAACCAGCGAGCTTGACCTGCTGGATCAACGTCCCTTTGACCAGACCGATTTCGATATTCTTAAATCTTATGAAGCGGTGGTGGACGGGTTGGCGATGCTCATCGGTTCGCACTGTGAAATCGTGCTGCATTCTTTGCAGGATCTGAAATGCTCTGCCATCCGTATCGCCAATGGTGAACATACCGGCCGCCAAATCGGTTCACCGATTACCGATCTTGCGCTGCGCATGCTGCACGATATGACGGGCGCCGATAGCAGCGTTTCCAAATGCTACTTTACCCGCGCCAAAAGCGGCGTCCTGATGAAGTCGGTGACGATTGCCATCCGCAACCGCGATCACCGGGTGATTGGTCTGCTGTGCATCAATATGAATCTGGATGTGCCTTTTTCCCAGATCATGAGCACCTTTATTCCGCCAGAAACGCCCGAGGTTAACTCGCCGGTGAACTTTGCTTCCTCGGTTGACGATCTGGTCGCCCAGACTCTGGAATTCACCATCGAAGAGGTGAATGCCGATCGCAGCGTGTCCAACAATGCTAAAAACCGTCAAATCGTGCTGAATCTCTACGAGAAAGGGATCTTCGATATTAAAGACGCCATTAACCAGGTGGCCGATCGTCTGAACATCTCCAAGCACACCGTCTACCTCTATATTCGCCAGTTCAAAAGCGGCGATTTCCAGGGGCTGGATAAGTAA	MSRSLLTNETSELDLLDQRPFDQTDFDILKSYEAVVDGLAMLIGSHCEIVLHSLQDLKCSAIRIANGEHTGRQIGSPITDLALRMLHDMTGADSSVSKCYFTRAKSGVLMKSVTIAIRNRDHRVIGLLCINMNLDVPFSQIMSTFIPPETPEVNSPVNFASSVDDLVAQTLEFTIEEVNADRSVSNNAKNRQIVLNLYEKGIFDIKDAINQVADRLNISKHTVYLYIRQFKSGDFQGLDK				NA	NA	NA	NA	NA
BMS020_02955	831	fkpA	COG0545	FKBP-type peptidyl-prolyl cis-trans isomerase FkpA	ATGAAATCACTGTTTAAAGTAACGCTGCTGGCGACCACAATGGCCGTCGCCCTGAATGCACCGCTGACCTTTGCTGCAGATACCGCGGCGAAAGCAGCCCCGGCGGCTGAGAGTAAATCGGCATTTAAAAATGACGATCAGAAATCGGCCTATGCGCTGGGCGCGTCCCTGGGGCGTTACATGGAAAACTCCCTGAAAGAACAAGAAAAACTCGGCATTAAGCTGGATAAAGCCCAGCTGATCGCCGGCGTACAGGACGCGTTTGCCGATAAGAGCAAACTGTCCGACCAGGAGATCGAACAGACTCTGCAGGCCTTTGAAACGCGCGTGAAGACCGCGGCTCAGCAGAAAATGGAAAAAGACGCCACTGAGAACGAAACAAAAGGTAAAGCTTTCCGTGACAGCTTTGCCAAAGAGAAGGGCGTGAAAACGTCGAAAACTGGCCTGCTGTATAAAGTCGAGAAAGAAGGCACTGGCGATGCGCCGAAAGACAGCGACACCGTGGTGGTTAACTACAAAGGTACGCTGATCGACGGCAAAGAGTTTGATAACTCTTATACCCGCGGCGAGCCGCTCTCTTTCCGTCTCGACGGGGTGATCCCGGGCTGGACTGAAGGCCTGAAGAACATCAAGAAAGGCGGCAAAATCAAGCTGGTCATTCCGCCAGATCTGGCCTACGGCAAAACCGGCGTCCCGGGCATCCCGGCCAACTCTACGCTGGTCTTTGATGTAGAGCTGCTGGATATCAAACCGGCGCCGAAGGCAGATGCTCAGCCGGAAGCCGCTGGCGATGCGAAAGCCGCGGACGCGAAAGCTGACGCTAAGAAGTAA	MKSLFKVTLLATTMAVALNAPLTFAADTAAKAAPAAESKSAFKNDDQKSAYALGASLGRYMENSLKEQEKLGIKLDKAQLIAGVQDAFADKSKLSDQEIEQTLQAFETRVKTAAQQKMEKDATENETKGKAFRDSFAKEKGVKTSKTGLLYKVEKEGTGDAPKDSDTVVVNYKGTLIDGKEFDNSYTRGEPLSFRLDGVIPGWTEGLKNIKKGGKIKLVIPPDLAYGKTGVPGIPANSTLVFDVELLDIKPAPKADAQPEAAGDAKAADAKADAKK				NA	NA	NA	NA	NA
BMS020_02956	219	slyX_1	COG2900	Protein SlyX	ATGCACGATAGCACATTAGAAACGCGCCTTGCGGAGCTGGAAAGCCGGCTGGCGTTTCAGGAAATCACCATCGAAGACCTCAATAAAACCGTGACCGCCCACGAGATTGAGATGGCGAAGATGCGCGAGCATATGCGTCTGATGATCGAGAAGCTGAAGGCGACCCAACCCTCCCATATCGCCTCCCAGGCCGAAGAGACGCCGCCGCCGCATTATTGA	MHDSTLETRLAELESRLAFQEITIEDLNKTVTAHEIEMAKMREHMRLMIEKLKATQPSHIASQAEETPPPHY				NA	NA	NA	NA	NA
BMS020_02957	600			hypothetical protein	ATGAAAGTAGCAAAAGACCTGGTGGTCAGCCTGGCCTATCAGGTACGTACAGAAGACGGTGTGTTGGTTGATGAGTCTCCGGTAAGCGCGCCGCTGGATTACCTGCACGGTCACGGCTCCCTGATTTCCGGCCTGGAAAACGCGCTGGATGGCCACGAAGTGGGCGACAAATTTGACGTAGCCGTTGGCGCTAACGACGCTTACGGTCAGTATGACGAAAACCTGGTGCAGCGTGTACCGAAAGACGTCTTCATGGGCGTTGATGAACTGCAGGTTGGCATGCGCTTCCTGGCGGAAACCGATCAGGGTCCGGTACCCGTAGAGATTACTGAAGTTGAAGACGACCACGTTGTGGTTGATGGCAACCACATGCTGGCAGGCCAGAACCTGAAGTTCAATGTGGAAGTTGTCGCCATCCGCGAAGCGACCGCTGAAGAGCTGGAGCACGGTCACGTGCACGGCGCGCATGGTCATGATCACGACCACGATCATGGTCACGATGGCTGCTGCGGCGGTCACGGTCACGGTCACGACCACGATCATGGCCACGACCATGGTAAAGGCGGCTGCGGCGGCCACGGTGGCTGCGGTTGCCACTAA	MKVAKDLVVSLAYQVRTEDGVLVDESPVSAPLDYLHGHGSLISGLENALDGHEVGDKFDVAVGANDAYGQYDENLVQRVPKDVFMGVDELQVGMRFLAETDQGPVPVEITEVEDDHVVVDGNHMLAGQNLKFNVEVVAIREATAEELEHGHVHGAHGHDHDHDHGHDGCCGGHGHGHDHDHGHDHGKGGCGGHGGCGCH				NA	NA	NA	NA	NA
BMS020_02958	201			hypothetical protein	ATGGCAGTACGTAAACGTTTTATTGCCGGGGCGAAATGTCCGGCGTGCCAGGCGCAGGATTCACTGGCGATGTGGCGTGAAAATAATGTCGATGTTGTTGAATGCGTTAAGTGCGGTCATCAGATGCGTGAGGCGGATAAAGAGGCCCGTGAGCATGTACGCAAAGAGGAGCAGGTGATTGGCATTTTTCATCCCGACTAG	MAVRKRFIAGAKCPACQAQDSLAMWRENNVDVVECVKCGHQMREADKEAREHVRKEEQVIGIFHPD				NA	NA	NA	NA	NA
BMS020_02959	1806	kefC_1	COG0475	Glutathione-regulated potassium-efflux system protein KefC	ATGGCGGGATTTGATCTGCTGCTGGCGGGGGTGCTGTTTTTGTTCGCGGCCGTCATCGCCGTCCCTCTGGCTTCAAGACTGGGGATTGGCGCGGTGCTGGGCTATCTGCTGGCCGGGATCGCCATAGGTCCGTGGGGGCTCGGGTTTATCAGCGATGTGGATGAAATTCTCCATTTCTCTGAACTTGGCGTGGTGTTTCTGATGTTTATCATCGGCCTGGAGCTCAATCCCGCCAAGCTATGGCGGCTGCGAAGCTCCATCTTCGGCGTTGGCGCGGCGCAGGTGATGCTCAGCGCGGCGATCCTCGGCGGTCTGTTGATGACGACAGGATTTTCATGGCAGGCGGCGGTGGTCGGCGGGATCGGCCTGGCGATGTCCTCTACCGCGATGGCACTGCAGCTGATGCGCGAGAAGGGAATGAGCCGCAGCGAATCAGGGCAGTTAGGCTTTTCGGTCCTGCTGTTTCAGGATCTGGCGGTGATCCCGGCGCTGGCGCTGGTGCCTCTGCTGGCGGGTTCCGCGGATGAGCATGTGAACTGGCTAACGGTCGGCATGAAGGTCCTGGCGTTTGCCGGGATGCTGATTGGCGGACGCTATTTGCTGCGGCCGGTGTTCCGCTTTATCGCCAGCTCCGGGGTCAGGGAAGTGTTCACTGCCGCCACGCTGCTGCTGGTCCTTGGATCAGCCCTGTTTATGGAGGCGCTGGGGCTGTCGATGGCGCTGGGTACCTTTATCGCCGGCGTGCTGCTGGCGGAAAGTGAGTATCGCCATGAACTGGAGATCGCCATCGATCCGTTCAAGGGGTTGCTGCTTGGGTTGTTCTTTATCTCCGTCGGTATGGCGCTGAACCTTGGCGTGCTGTACACCCATCTGCTGTGGGTGGCGGTGAGCGTGGCGGTGCTGGTGGCGGTAAAAATGCTGGTGCTCTATCTGCTGGCCCGTCTCTATGGCCTGCGGAGTTCCGAGCGTATGCAGTTTGCGGGCGTATTAAGCCAGGGCGGCGAGTTCGCGTTTGTCCTCTTTTCGCTGCCCGCTTCTCAGCGGTTGTTCCAGCACGACCAGATGGCGCTGCTGCTGGTGGCCGTCACCTTGTCGATGATGACCACGCCGCTGCTGATGAAAGGGATCGATAAGATACTGTCGCGACGCCTGAATCCAGCGGAGGATACCGATGAGGCGCCGTGGGTAGAGGACGATAAACCGCAGGTGATTATTGTTGGCTTTGGCCGTTTCGGCCAGGTCATCGGTCGCCTGCTGATGGCCAATAAGATGCGTATTACGGTGCTGGAGCGAGACATCAGCGCGGTGAATCTGATGCGCAACTATGGCTATAAAGTCTATTTTGGCGACGCCACCCAGCTGGAACTGCTGCGCTCGGCGGGGGCGGAGGAGGCGCAGTCGATCGTCATTACCTGTAATGAGCCGGAAGACACCATGCGGCTGGTGGAGATGTGTCAACAACACTTTCCACATCTGCACATCCTGGCGCGCGCTCGCGGGCGCGTCGAGGCGCATGAGCTGCTGCAGGCCGGCGTGACGCAGTTTTCCCGTGAGACTTTCTCCAGCGCGCTGGAGCTGGGGCGTAAAGCGCTCATCACCCTCGGGATGCATCCTCACCAGGCTCAGCGCGCGCAGCTGCACTTCCGACGCCTCGATATGCGAATGCTGCGTGAGTTAATGCCGGTGCATACTGATACGGTACAGATATCACGCGTGCGGGAAGCCCGGCGCGAACTGGAAGAGATTTTTCAGCGCGAAATGCAGAAAGAGAGCCGGCAGCTGGACGGCTGGGACGAGTTTGAATAA	MAGFDLLLAGVLFLFAAVIAVPLASRLGIGAVLGYLLAGIAIGPWGLGFISDVDEILHFSELGVVFLMFIIGLELNPAKLWRLRSSIFGVGAAQVMLSAAILGGLLMTTGFSWQAAVVGGIGLAMSSTAMALQLMREKGMSRSESGQLGFSVLLFQDLAVIPALALVPLLAGSADEHVNWLTVGMKVLAFAGMLIGGRYLLRPVFRFIASSGVREVFTAATLLLVLGSALFMEALGLSMALGTFIAGVLLAESEYRHELEIAIDPFKGLLLGLFFISVGMALNLGVLYTHLLWVAVSVAVLVAVKMLVLYLLARLYGLRSSERMQFAGVLSQGGEFAFVLFSLPASQRLFQHDQMALLLVAVTLSMMTTPLLMKGIDKILSRRLNPAEDTDEAPWVEDDKPQVIIVGFGRFGQVIGRLLMANKMRITVLERDISAVNLMRNYGYKVYFGDATQLELLRSAGAEEAQSIVITCNEPEDTMRLVEMCQQHFPHLHILARARGRVEAHELLQAGVTQFSRETFSSALELGRKALITLGMHPHQAQRAQLHFRRLDMRMLRELMPVHTDTVQISRVREARRELEEIFQREMQKESRQLDGWDEFE	PGPT0013795_624	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013795-kefB-K11747	NA	NA
BMS020_02960	561	ywrO	COG2249	General stress protein 14	ATGTCTCAGACAGCGAAAGTGTTGCTGCTGTATGCCCACCCAGAATCTCAGGATTCCGTGGCCAACCGGGTTTTATTACAACCGGCCTTACAGTTGCCAAACGTCACCGTGCACGATCTCTACGCGCACTATCCGGATTTTTTTATCGATATTGCTCACGAACAGGACCTGCTGCGCCAGCATGAGGTGATCGTTTTCCAGCATCCTTTATATACCTGGAGCTGTCCGGCGCTGCTCAAGGAGTGGCTGGATCGTGTCTTAAGCCGCGGCTTCGCCAGCGGCGCCGGAGGGAACGAACTGGCGGGAAAGTACTGGCGCAGCGTGATCACCACCGGCGAGCCTGAGAGCGCCTACCGTCGCGATGCGAATCGCTATCCGATGAACGATATTTTACGTCCTTTTGAACTGACCGCCGGCATGTGCCGTATGCACTGGATGAGCCCCATTATCGTCTACTGGGCCCGGCGGCAACAGCCAGAGGAGCTGCGCAGCCGCGCCCTGGCCTATCGGGACTGGCTGGCCAACCCCCTTGCCGCCGGAGGTGTCCATGGCGGGATTTGA	MSQTAKVLLLYAHPESQDSVANRVLLQPALQLPNVTVHDLYAHYPDFFIDIAHEQDLLRQHEVIVFQHPLYTWSCPALLKEWLDRVLSRGFASGAGGNELAGKYWRSVITTGEPESAYRRDANRYPMNDILRPFELTAGMCRMHWMSPIIVYWARRQQPEELRSRALAYRDWLANPLAAGGVHGGI	PGPT0013810_320	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013810-kefG-K11748	NA	NA
BMS020_02961	1905	yheS_2	COG0488	putative ABC transporter ATP-binding protein YheS	ATGATTGTTTTCTCCTCGTTACAAATTCGTCGCGGCGTACGCGTCCTGCTGGACAACGCCACCGCTACCATCAACCCTGGCCAGAAGGTCGGTCTGGTGGGGAAAAACGGCTGCGGGAAATCGACGCTGCTATCGCTTTTGAAAAACGAGATAAGCGCTGACGGCGGCAGTATGACCTTTCCCGGCAACTGGCAGCTGGCCTGGGTGAATCAGGAAACCCCGGCCCTGCCGCAGCCGGCAATCGATTATGTCATTGACGGCGATCGCGAATATCGCCAGCTGGAAGCCGCGCTCCAGCAGGCTAACGAGCGCAACGACGGCCATGCCATCGCCACCGTCCACGGCAAGCTGGACGCCATCGACGCCTGGACCATCCGCTCCCGCGCCGCCAGCCTGCTGCACGGCCTGGGTTTCAGCAATGAACAGCTCGAGCGGCCGGTCAGCGATTTTTCCGGCGGCTGGCGTATGCGTCTTAACCTCGCGCAAGCGCTGATCTGCCGCTCCGATCTGCTGCTGCTCGATGAACCGACTAACCACCTCGACCTTGATGCGGTGATCTGGCTGGAGAAGTGGCTGAAGGGCTACACGGGGACGCTGATCCTGATCTCCCACGATCGCGATTTCCTCGATCCTATCGTCGACAAAATTATCCATATCGAACAACAGACGATGTTTGAGTACACCGGCAACTACAGCTCGTTTGAAGTGCAGCGCGCCACCCGGCTCGCTCAGCAGCAGGCGATGTACGAAAGCCAGCAGCAGCGTGTCGCGCATCTGCAAAGCTATATCGATCGCTTCCGCGCCAAAGCCACCAAAGCCAAGCAGGCGCAGAGCCGTATTAAAATGCTGGAGCGGATGGAACTCATCGCCCCGGCGCACGTGGATAACCCGTTCCACTTCAGCTTCCGCCAGCCGGAGAGCCTGCCAAACCCGCTGCTGAAGATGGAGAAAGTCAGCGCCGGCTATGGCGAGCGTATTATCCTCGACTCCATTAAGCTCAATCTGGTGCCGGGGTCGCGTATCGGCCTGCTGGGCCGCAACGGCGCAGGGAAATCGACGCTGATTAAGCTGCTGGCTGGCGAACTCCTGCCCGTGAGCGGCGAGATCGGCCTCGCCAAAGGCATCAAGCTCGGCTACTTCGCCCAGCATCAGCTGGAGTTCCTGCGCGCCGATGAGTCGCCGCTGCAGCACCTGGCGCGCCTGGCGCCGCAGGAGCTGGAGCAGAAGCTGCGCGATTATCTTGGCGGCTTTGGTTTCCAGGGGGATAAGGTCAGCGAAGAGACCCGCCGCTTCTCCGGTGGAGAAAAGGCGCGTCTGGTGCTGGCCCTGATCGTCTGGCAGCGCCCTAACCTGCTGCTGCTCGACGAACCGACCAACCATCTCGACCTCGATATGCGTCAGGCCTTAACCGAAGCGCTGATCGACTTTGAAGGGGCGCTGGTGGTCGTATCGCACGATCGCCACCTGATCCGCTCCACCACCGACGATCTGTACCTTGTCCACGATGGCAAAGTCGAACCGTTCGACGGCGATCTGGACGATTATCAGCAGTGGCTCAGCGACTCGCAAAAACAGGAGTCCCAGAGCGGCGACGCGCCAAAAGAGAGCGGCAACAGCGCGCAAGCGCGCAAAGACCAGAAGCGTCGGGAAGCGGAGCTGCGCAGCCAGACCCAACCGCTGCGCAAAGAGATCGCCCGTCTGGAGAAAGAGATGGACAAGCTCAACGCGCAGCTGGCCAGTGCGGAAGAGAAACTTGGCGACAGCGAACTCTACGACGCCTCGCGGAAAGCGGAACTGACTGAATGCCTGCAGCAGCAGGCCAGCGCGAAATCCGGGCTGGAAGAGTGCGAAATGGCCTGGCTGGAGGCTCAAGAGCAGCTGGAGCGCATGCTTCAGGAAGGCTAA	MIVFSSLQIRRGVRVLLDNATATINPGQKVGLVGKNGCGKSTLLSLLKNEISADGGSMTFPGNWQLAWVNQETPALPQPAIDYVIDGDREYRQLEAALQQANERNDGHAIATVHGKLDAIDAWTIRSRAASLLHGLGFSNEQLERPVSDFSGGWRMRLNLAQALICRSDLLLLDEPTNHLDLDAVIWLEKWLKGYTGTLILISHDRDFLDPIVDKIIHIEQQTMFEYTGNYSSFEVQRATRLAQQQAMYESQQQRVAHLQSYIDRFRAKATKAKQAQSRIKMLERMELIAPAHVDNPFHFSFRQPESLPNPLLKMEKVSAGYGERIILDSIKLNLVPGSRIGLLGRNGAGKSTLIKLLAGELLPVSGEIGLAKGIKLGYFAQHQLEFLRADESPLQHLARLAPQELEQKLRDYLGGFGFQGDKVSEETRRFSGGEKARLVLALIVWQRPNLLLLDEPTNHLDLDMRQALTEALIDFEGALVVVSHDRHLIRSTTDDLYLVHDGKVEPFDGDLDDYQQWLSDSQKQESQSGDAPKESGNSAQARKDQKRREAELRSQTQPLRKEIARLEKEMDKLNAQLASAEEKLGDSELYDASRKAELTECLQQQASAKSGLEECEMAWLEAQEQLERMLQEG				NA	NA	NA	NA	NA
BMS020_02962	1023			hypothetical protein	ATGGTTGAAATCATCCCCACAGACATGACGCCCCCCGAAAACGATTCGCGTGAGTTCCATCCCATGCGCGGCGTGGGCAATCGTCATCTGCAAACCATGCTGCCGCGGCTGATCCGCCGTAAATTGCGCTTTACCCCGCACTGGCAGCGCCTTGAGCTGCCGGACGGCGATTTTGTCGATCTCGCCTGGAGCGAAGACCCGCACCAGGCGCGCCACAAGCCGCGCCTGGTCGTCTTTCATGGTCTGGAAGGGAGTCTGCACAGCCCGTATGCCCATGGCCTGATCCACGCGGCGATGCAGCGCGGCTGGCTGGGCGTGGTCATGCACTTTCGCGGCTGCAGCGGCGAACCTAACCGCAATCACCGCATCTATCACTCCGGCGAAACGGAAGATGGCACCTGGTTTCTCCACTGGCTGCAGCGCGAGTTTGGCCCCGCGCCGACCGCCGCCGTCGGCTATTCGCTGGGCGGCAACATGCTGGGCTGCCTGCTGGCAGAAGAAGGCGACCGCTGCCCGCTGGATGCGGCGGTGATCGTTTCCGCGCCTTTCATGCTGGAAGCCTGCAGCTATCATATGGATAAGGGCTTCTCGCGAGTTTATCAGCGCTATCTGCTCAATCTGTTAAAAGCCAACGCCTCACGTAAGTTGAAAGCGTATCCTGGCTCGCTGCCCGTCGATTTACGCCAGCTCAAAGGGATGCGCCGCATCCGGGAATTTGACGACATGATCACCGCCAAAATCCATGGTTTCGCCGATGCGCTGGATTATTACCGGCAATGCAGCGCTATGCCGCGGCTCAGCGATATCACTAAGCCGACGCTCATCATCCATGCGAAAGACGACCCGTTTATGGACCACCACTCCATTCCCCCGCAGGAGCAACTGCCGGCGAACGTTGAGTATCAATTGACTGAACAAGGCGGCCACGTCGGCTTCGTCGGCGGCACCCTGCGTAAACCGGAGATGTGGCTGGAAAGACGTATTCCCGACTGGTTAAACCGCTGGCTGGAGGTTCCCGTATGA	MVEIIPTDMTPPENDSREFHPMRGVGNRHLQTMLPRLIRRKLRFTPHWQRLELPDGDFVDLAWSEDPHQARHKPRLVVFHGLEGSLHSPYAHGLIHAAMQRGWLGVVMHFRGCSGEPNRNHRIYHSGETEDGTWFLHWLQREFGPAPTAAVGYSLGGNMLGCLLAEEGDRCPLDAAVIVSAPFMLEACSYHMDKGFSRVYQRYLLNLLKANASRKLKAYPGSLPVDLRQLKGMRRIREFDDMITAKIHGFADALDYYRQCSAMPRLSDITKPTLIIHAKDDPFMDHHSIPPQEQLPANVEYQLTEQGGHVGFVGGTLRKPEMWLERRIPDWLNRWLEVPV				NA	NA	NA	NA	NA
BMS020_02963	219			hypothetical protein	ATGATTATTCCCTGGCAGGATCTGGATCCCGAAACGCTGGATAACCTGATTGAAAGCTTTGTGTTACGCGAAGGCACCGATTATGGTGAACATGAACGTTCACTTGCCGATAAAGTCGCCGATGTAAAACAGCAGCTGAAACGCGGAGAGGCGGTCCTCGTGTGGTCGGAACTGCATGAGACGGTCAATATTATGCCGCGCGCCCTGTTTAACGGCTAA	MIIPWQDLDPETLDNLIESFVLREGTDYGEHERSLADKVADVKQQLKRGEAVLVWSELHETVNIMPRALFNG				NA	NA	NA	NA	NA
BMS020_02964	870	cfxP	COG3954	Phosphoribulokinase, plasmid	ATGTCTGCCAAACATCCGGTGATCGCCGTCACGGGCTCCAGCGGCGCGGGCACTACCACCACCAGCCTCGCCTTTCGCAAAATCTTCGCGCAGCTAAATCTGCACGCCGCGGAGGTGGAAGGCGACAGCTTTCATCGCTACACCCGCCCGGAAATGGACATGGCGATCCGCAAAGCGCGGGATCAGGGCAAACATATCAGCTACTTTGGCCCGGAGGCGAACGACTTCGGCCTGCTGGAGCAGACCTTTGTCGACTATGGCCGCCATGGCAAAGGCCAGTCGCGTAAATACCTGCACACCTATGACGAAGCCGTGCCGTGGAATCAGGTGCCGGGAACCTTCACCCCATGGCAGCCGCTGCCGGAGCCGACGGACGTGCTGTTCTATGAGGGGCTGCACGGCGGGGTTGTCACGCCGCAGCATGATGTCGCCAGCCATGTCGACCTGCTGGTCGGGGTCGTGCCTATCGTTAACCTGGAGTGGATCCAGAAACTCATTCGCGACACCAGCGAACGCGGCCACTCCCGGGAGGCGGTGATGGACTCCGTCGTCCGATCGATGGAAGATTACATTAACTTCATCACCCCGCAGTTTTCCCGCACCCACATCAACTTCCAGCGCGTGCCGACGGTGGACACCTCCAACCCGTTTGCCGCGAAAGCGATCCCCTCTCTGGACGAGAGCTTTGTGGTGATCCATTTCCGCAATCTGCAGAACATCGACTTCCCCTGGCTGCTGGCGATGCTACAGGGCTCGTTTATTTCGCATATGAACACCCTGGTGGTGCCGGGCGGTAAAATGGGGCTGGCGATGGAGCTTATTATGGCGCCGCTGGTCGAGCGTCTGATGGAAGGCCGAAAGATCGGCTAA	MSAKHPVIAVTGSSGAGTTTTSLAFRKIFAQLNLHAAEVEGDSFHRYTRPEMDMAIRKARDQGKHISYFGPEANDFGLLEQTFVDYGRHGKGQSRKYLHTYDEAVPWNQVPGTFTPWQPLPEPTDVLFYEGLHGGVVTPQHDVASHVDLLVGVVPIVNLEWIQKLIRDTSERGHSREAVMDSVVRSMEDYINFITPQFSRTHINFQRVPTVDTSNPFAAKAIPSLDESFVVIHFRNLQNIDFPWLLAMLQGSFISHMNTLVVPGGKMGLAMELIMAPLVERLMEGRKIG	PGPT0001735_1062	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-ORGANIC_ACID_METABOLISM	P-SOLUBILISATION-GLYCOLIC_ACID_BIOSYNTHESIS,PGPT0001735-prkB|cbbP-K00855	NA	NA
BMS020_02965	405	yhfA	COG1765	Protein YhfA	ATGCAAGCGCGTGTGAAATGGGTTGAAGGGTTAACCTTTATCGGGGAGTCCGCGTCAGGACACCAGATTCTGATGGATGGCAACTCCGGAGATAAGGCGCCCAGCCCGATGGAGATGGTGCTGATGGCGGCGGGCGGTTGCAGTGCGATCGATGTGGTCTCTATTTTGCAAAAAGGTCGTCACGACGTGACCAACTGCGAAGTGAAGCTGACCTCTGAGCGTCGGGAAGAGGCGCCGCGCCTGTTCACGCATATTAATCTGCACTTTATCGTCACCGGTAAGGCGCTGAAAGATGCCGCAGTCTCCCGCGCGGTGGATCTGTCGGCAGAGAAATACTGCTCGGTGGCGCTGATGCTGGAAAAAGCGGTGAAGATCACCCACTCCTATGAAGTGATCGAGGCGTAG	MQARVKWVEGLTFIGESASGHQILMDGNSGDKAPSPMEMVLMAAGGCSAIDVVSILQKGRHDVTNCEVKLTSERREEAPRLFTHINLHFIVTGKALKDAAVSRAVDLSAEKYCSVALMLEKAVKITHSYEVIEA				NA	NA	NA	NA	NA
BMS020_02966	633	crp	COG0664	cAMP-activated global transcriptional regulator CRP	ATGGTGCTTGGCAAACCGCAAACAGACCCTACCCTTGAATGGTTCTTGTCTCATTGCCACATTCATAAGTACCCATCAAAGAGCACGCTGATCCACCAGGGTGAGAAAGCAGAAACGCTGTACTACATCGTTAAAGGCTCCGTGGCTGTACTCATCAAGGATGAAGAAGGTAAAGAGATGATCCTCTCCTACCTCAACCAGGGCGATTTCATCGGTGAATTAGGCCTGTTTGAAGAGGGTCAGGAGCGTAGCGCCTGGGTACGGGCGAAAACCGCATGTGAAGTGGCCGAGATCTCTTATAAGAAATTCCGTCAGCTGATCCAGGTGAACCCGGACATTCTGATGCGTCTCTCTTCGCAAATGGCTCGCCGTCTGCAGGTGACGTCTGAGAAAGTGGGCAACCTCGCCTTCCTCGACGTGACGGGCCGTATCGCCCAGACGCTGCTGAACCTGGCGAAGCAACCCGATGCCATGACCCACCCGGACGGTATGCAAATTAAAATTACCCGTCAGGAAATTGGTCAGATCGTCGGCTGCTCTCGTGAAACCGTTGGCCGTATTTTGAAAATGCTGGAAGATCAGAACCTGATTTCCGCCCACGGTAAAACTATCGTCGTCTACGGCACCCGTTAA	MVLGKPQTDPTLEWFLSHCHIHKYPSKSTLIHQGEKAETLYYIVKGSVAVLIKDEEGKEMILSYLNQGDFIGELGLFEEGQERSAWVRAKTACEVAEISYKKFRQLIQVNPDILMRLSSQMARRLQVTSEKVGNLAFLDVTGRIAQTLLNLAKQPDAMTHPDGMQIKITRQEIGQIVGCSRETVGRILKMLEDQNLISAHGKTIVVYGTR	PGPT0015075_4263	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
BMS020_02967	2079			hypothetical protein	ATGTGGCGCAGGCTGATTTACCACCCGGAAGTCAACTATGCACTGCGGCAAACGCTGGTGCTGTGTCTGCCTGTGGCCATTGGTCTTCTGCTCGGCCATCTCCAGCAGGGACTCCTGTTTTCCTTAGTTCCCGCCTGCTGCAACATCGCCGGTCTCGACACTCCGCATAAGCGCTTTTTTAAGCGTCTGATTATCGGCGGCTGTCTGTTTGCCGGATGCAGCCTGGTGGTGCAGCTGCTGCTCGCCCAGACGATACCTCTGCCGCTTATTCTCAGCGGCCTGGCGCTATTGCTCGGCGTCACCGCGGAAATCAGTTCGCTGCACGCGCGCCTGCTGCCCGCGTCGCTGATCGCCGCCATCTTTACCCTGAGCCTGGCGGGCAATATGCCCGTCTGGGAGCCGCTGCTGATCTACGCCTTCGGCACGCTATGGTACGGCGTGTTTAACTGGTTCTGGTTCTGGCTGTGGCGCGAACAGCCGCTGCGGGAGTCGCTCAGTCTGCTCTACCGGGAACTGGCCAATTATTGCGAAGCCAAATATAGCCTGTTGACCCAGCATACCGATCCCTCGACCGCCCTGCCGCCGCTGCTCATCCGCCAGCAGAAGGTGGTCGATTTAATCACCCAATGCTATCAGCAGATGCATATGCTGGCCGCCAACCAACGTAACGACCACAAACGTCTTCTGCGAGCGTTCCAGATGGGGCTGGATCTACAGGAGCATATTTCGGTCAGCCTGCATCAGCCGGAAGAGGTGCAAAAGCTGGTTGAGCGCAGCCATGCCGAAGCGGTGATCCGTTGGAACGCGCAGACCGTCGCCGCCCGCCTGCGGGTGCTGGCGGATGACATGCTCTATCATCGTTTTCCGCAGCGTTTCCAGATGGATAAACAGATCGGCGCCCTGGAAAAAATCGCCCGCCAGCATCCGGATAACCCGGTCGGCCACTTCTGCGCCTGGCACTTCAGCCGCATCGCCCGGGTGCTGCATACCCAGCGCCCACTGTATGCCCGGGATCTGATGGCTGACAAAGAGCGTCGTTTACCGTTGTTTCCCGCGCTAAAGAACTATCTGTCGCTGAAGTCGCCCGCGCTGCGCAACGCCGCCCGCATCAGCGTGATGCTGAGCATCGCCAGCCTGATGGGCAACGCCCTGCATTTGCCGAAGCCCTACTGGATCCTGATGACCGTCCTCTTCGTGACACAGAACGGCTATGGCGCCACGCGGGTACGTATTGTCCACCGGGCGGCGGGGACGCTCGCCGGCCTGATCATCGCCGGGCTGACCTTGCACTTTCACGTTCCGGAGAGCTATACCCTGAGCGGGATGCTGCTGATCACCCTGCTCAGCTATCTGATCATCCGCAAACACTATGGCTGGGCGATGGTGGGGTTTACGGTGACGGCGGTATATACCCTGCAGCTGCTGACGCTTAACGGCGAACAGTTTATTATCGCCCGGCTGATGGACACGCTGATCGGCTGCCTGATCGCCTTCGGCGGGATGGTCTGGCTGTGGCCGCAGTGGCAGAGCGGCCTGCTGAAAAAAAACGCCCACGATGCGCTGGAGGCCGACCAGCAGGCGATTCGCCTGATCCTCAGTCCCGACCCCAAAGCGCCCGTGCTGGCCTACCAACGCATGCGCGTCAATCAGGCGCACAACGCGCTCTACAACTCCCTGAATCAGGCGATGCAGGAGCCCGGGTTTAATACCCACTACCTGGAAGATATGAAGCTATGGGTGACGCACAGCCAGTTTATCGTCGAACACATCAACGCCATGACCACTTTGGCCCGGGAGCATACGATGCTCACCCCGGATCTTGCCCAGCGCTATCTCGAATCCTGTGAGATTGCCCTGCAGCGCTGTCAGCAGCGGCTGGACAGCGATGGCCCCGGCAGCGCAGGGGATGTCAATATTATGGAGTCACCGGAAAGCGAGGTGCCGATCGGTCCGTTAAGCACCCTGGAGCAGCATCTGCAACGCATTCTGGGCCATCTGAACACCATGCACACCATTTCGTCAGTGGCATGGCGTCAGCGGCCGCATCACGGCATCTGGCTGCGGAAGATCAGCCGTTAA	MWRRLIYHPEVNYALRQTLVLCLPVAIGLLLGHLQQGLLFSLVPACCNIAGLDTPHKRFFKRLIIGGCLFAGCSLVVQLLLAQTIPLPLILSGLALLLGVTAEISSLHARLLPASLIAAIFTLSLAGNMPVWEPLLIYAFGTLWYGVFNWFWFWLWREQPLRESLSLLYRELANYCEAKYSLLTQHTDPSTALPPLLIRQQKVVDLITQCYQQMHMLAANQRNDHKRLLRAFQMGLDLQEHISVSLHQPEEVQKLVERSHAEAVIRWNAQTVAARLRVLADDMLYHRFPQRFQMDKQIGALEKIARQHPDNPVGHFCAWHFSRIARVLHTQRPLYARDLMADKERRLPLFPALKNYLSLKSPALRNAARISVMLSIASLMGNALHLPKPYWILMTVLFVTQNGYGATRVRIVHRAAGTLAGLIIAGLTLHFHVPESYTLSGMLLITLLSYLIIRKHYGWAMVGFTVTAVYTLQLLTLNGEQFIIARLMDTLIGCLIAFGGMVWLWPQWQSGLLKKNAHDALEADQQAIRLILSPDPKAPVLAYQRMRVNQAHNALYNSLNQAMQEPGFNTHYLEDMKLWVTHSQFIVEHINAMTTLAREHTMLTPDLAQRYLESCEIALQRCQQRLDSDGPGSAGDVNIMESPESEVPIGPLSTLEQHLQRILGHLNTMHTISSVAWRQRPHHGIWLRKISR				NA	NA	NA	NA	NA
BMS020_02968	1221	argD_1	COG4992	Acetylornithine/succinyldiaminopimelate aminotransferase	ATGGCAACTGAACAACCGGCAATCACCCGCGCCACATTCGATGAAGTTATTTTGCCAATTTATGCACCGGCAGAATTCATCCCGGTAAAGGGAAAAGGCAGCCGCGTCTGGGATCAGCAGGGCAAAGAGTATGTTGATTTCGCCGGCGGTATCGCGGTGACGGCGCTCGGCCATTGCCACCCGGCGCTGGTGGCGGCGCTCCACGAGCAGGGCGAAACGCTGTGGCATACCAGCAACGTCTTTACCAATGAGCCAGCGCTGCGCCTGGGACGTAAACTTGTCGATGCCACCTTCGCCGAGCGAGTGGTGTTTATGAACTCCGGTACCGAAGCCAATGAAACGGCCTTTAAGCTGGCGCGTCACTATGCGGTGACCCGCCATAGCCCGTACAAAACCAAAATCATCGCTTTCCATAATGCCTTTCATGGTCGCTCCCTGTTTACCGTCTCCGTCGGCGGGCAGCCGAAGTACTCCGATGGTTTCGGCCCGAAACCGGCGGATATTGTCCATGTTCCCTTCAACGACCTGCAGGCGGTAAAAGCGGTGATGGATGACCACACCTGCGCGGTGGTGGTGGAGCCGATTCAGGGCGAAGGCGGCGTGACGGCAGCGACGCCGGCGTTCCTGCAGGGGCTGCGCGAACTGTGCGATCAACACCAGGCGCTGTTAGTCTTTGATGAAGTGCAGTGCGGAATGGGGCGTACCGGATCGCTGTTTGCCTATATGCACTATGGCGTAACCCCGGATATTCTCACCAGCGCCAAAGCGCTGGGCGGCGGTTTCCCGGTCAGCGCCATGTTGACTACCCACGAGATCGCCAGCGCCTTCCATGCGGGTTCCCATGGCTCAACCTACGGCGGCAACCCGCTGGCCTGCGCGGTCGCCAACGCCGCTTTCGATCTGATCAATACCCCGGCGGTGCTGGATGGCGTGAACGCCAAACGCGAACTGTTCGTCAAACACCTGCAGCAGCTGGATGCCGAGTTTGATCTGTTCAGTGATATTCGCGGGATGGGCCTGCTGATTGGCGCCGAACTCAAGCCGCAGCACAAGGGCCGCGCGCGTGATTTTCTCTATGCCGCTGCGGAAGCCGGCGTCATGGTGCTTAACGCCGGGCCGGACGTGATGCGTTTTGTTCCCTCGCTGATCATCGAAGAGCAGGATATTGCCGAGGGGATGGCGCGCTTTGCCCAGGCCGTGGCAAAGGTGATTAACGGCTGA	MATEQPAITRATFDEVILPIYAPAEFIPVKGKGSRVWDQQGKEYVDFAGGIAVTALGHCHPALVAALHEQGETLWHTSNVFTNEPALRLGRKLVDATFAERVVFMNSGTEANETAFKLARHYAVTRHSPYKTKIIAFHNAFHGRSLFTVSVGGQPKYSDGFGPKPADIVHVPFNDLQAVKAVMDDHTCAVVVEPIQGEGGVTAATPAFLQGLRELCDQHQALLVFDEVQCGMGRTGSLFAYMHYGVTPDILTSAKALGGGFPVSAMLTTHEIASAFHAGSHGSTYGGNPLACAVANAAFDLINTPAVLDGVNAKRELFVKHLQQLDAEFDLFSDIRGMGLLIGAELKPQHKGRARDFLYAAAEAGVMVLNAGPDVMRFVPSLIIEEQDIAEGMARFAQAVAKVING	PGPT0014253_932	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
BMS020_02969	564	pabA	COG0512	Aminodeoxychorismate synthase component 2	ATGATCCTGCTTATCGATAACTATGACTCTTTCACCTGGAATCTGTATCAGTACTTTTGCGAACTGGGGGCGGAAGTGCTGGTCAGGCGCAACGATGCGTTGACGCTGGAGGAGATAGCGTCGCTGGCGCCGGAGAAGATAGTGATTTCGCCTGGTCCCTGTACGCCGGATGAAGCGGGGATTTCCCTCGCGGTAATCCGTCACTATGCAGGGAAAACGCCGCTGCTGGGCGTCTGCCTCGGGCATCAGGCGATAGCCCAGGCGTTTGGCGCGACCATTGTGCGGGCGGCGCAGGTGATGCATGGAAAAACCTCGCTTATCGAGCATAACGGCGAAGGGGTGTTTCTGGGGCTGAATAATCCTTTGACGGTGACCCGCTATCATTCGCTGGTGATTGACCCGCCGACGCTGCCGCCTGAGTTTATCGTCACCGCCCGCAGCGCCAGCGGTGAGATTATGGGGATCCGTCATCGCGACTGGGATCTCGAGGGCGTGCAGTTCCATCCGGAAAGCATCCTCAGCGAACAGGGCCATCAATTGCTGGCGAACTTTATTAAGCGGTGA	MILLIDNYDSFTWNLYQYFCELGAEVLVRRNDALTLEEIASLAPEKIVISPGPCTPDEAGISLAVIRHYAGKTPLLGVCLGHQAIAQAFGATIVRAAQVMHGKTSLIEHNGEGVFLGLNNPLTVTRYHSLVIDPPTLPPEFIVTARSASGEIMGIRHRDWDLEGVQFHPESILSEQGHQLLANFIKR	PGPT0008000_1599	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008000-pabA-K01664	NA	NA
BMS020_02970	603	fic	COG2184	putative protein adenylyltransferase Fic	ATGAGCGATAAATTTGGCGATGAACGCGATCCTTACCTCTATCCGGCGCTGAACGTCCTGCGCAACCGCCTCGGCATCCGCCAGGCTAAAACGCTGCAGCAGGCTGCCCTGGAGATGACGTCCCTGCGGGCGGCCACTCTGCCGCTGGGCCCGCGGGTGCGCGGCTTACCCTATCTGTGCGCTATTCATCATCAGCTGTATCAGGATCTGTTTGACTGGGCGGGTAGGCTGCGTGAAGTGAACCTCTACCTGGGCGATACGCCGTTCTGCCACTTTGCCCGCATCGAAGAGGAGGGGAATGCCCTGATGCAGGCTCTGGAGCAGGAGGATTATCTCTGCGGTCTGCCGCGGGATACCTTTATCGAACGCCTGAGCTGGTTCTATGGTGAAATTAATGTGCTGCACCCTTTTCGTCTCGGCAATGGCCTGACCCAGCGCATTTTCTTTGAACAGCTGGCGATACATGCCGGCTACCTTCTTGACTGGCGTGACGTCGATCCTGCCGCCTGGAGCACCGCCTGTCAGCAGGGCGCGATGGGCGATCCGGACCCGCTGGCGGCGATCTTTCGCAAAGTGGTAAGCGAAGCGCGGGAATCTGAGTAG	MSDKFGDERDPYLYPALNVLRNRLGIRQAKTLQQAALEMTSLRAATLPLGPRVRGLPYLCAIHHQLYQDLFDWAGRLREVNLYLGDTPFCHFARIEEEGNALMQALEQEDYLCGLPRDTFIERLSWFYGEINVLHPFRLGNGLTQRIFFEQLAIHAGYLLDWRDVDPAAWSTACQQGAMGDPDPLAAIFRKVVSEARESE				NA	NA	NA	NA	NA
BMS020_02971	168	yhfG		putative protein YhfG	ATGCGTCCACTCACCGATAAGCAAAAATCCCGGCTCTGGGAACAGACACGTAATAGCAATTTTCAGGCCAGCCGTCGCCTCGAAGGCGTATCGGTGCCGCTGGTTACGCTGACTGCCGAGGAGGCGCAGGCTCGCCTCGCGACGCTGCGGAGGGAGTATGAGCGATAA	MRPLTDKQKSRLWEQTRNSNFQASRRLEGVSVPLVTLTAEEAQARLATLRREYER				NA	NA	NA	NA	NA
BMS020_02972	570	ppiA	COG0652	Peptidyl-prolyl cis-trans isomerase A	ATGCTCAAATCAACACTGGCGGCGATGGCTGCCGTTTTCGCCATTTCAGCTTTCTCCCCGGCCATGGCGGCAAAGGGCGATCCGCATGTGCTGCTGACCACCTCGGCAGGTAACATTGAGCTTGAGTTAAACAGCCAGAAAGCCCCGATTTCCGTGGATAACTTCCTGAAGTACGTTAACAGCGGCTTCTACAACAACACTACCTTCCACCGCGTGATCCCGGGATTCATGGTGCAGGGCGGCGGCTTTAACGAGCAGATGCAGCAGAAACAGCCTAACCCGCCGATCAAGAATGAAGCAGACAACGGCCTGCGCAACACCCGCGGCACCATCGCGATGGCGCGTACCGCCGATCAGGATAGCGCCACCAGCCAGTTCTTTATCAACGTGGCGGATAACGCCTTCCTCGACCATGGCCAGCGCGACTTTGGCTATGCGGTGTTTGGCAAGGTAGTCAAAGGCATGGACGTTGCGGATAAGATCTCCCAGGTCCAGACCCATAACGTCGGCCCATACCAGAATGTGCCGTCTAAACCGGTTGTTATCCTCTCTGCGAAAGTGCTGCCCTAA	MLKSTLAAMAAVFAISAFSPAMAAKGDPHVLLTTSAGNIELELNSQKAPISVDNFLKYVNSGFYNNTTFHRVIPGFMVQGGGFNEQMQQKQPNPPIKNEADNGLRNTRGTIAMARTADQDSATSQFFINVADNAFLDHGQRDFGYAVFGKVVKGMDVADKISQVQTHNVGPYQNVPSKPVVILSAKVLP	PGPT0015110_1449	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015110-ppiA-K03767	NA	NA
BMS020_02973	1188	tsgA	COG0477	Protein TsgA	ATGACTAACAGCAACCGTATTAAGCTCACATGGATCAGCTTCTTCTCCTACGCCCTGACCGGCGCGTTGGTGATCGTCACCGGTATGGTGATGGGTAACATTGCGGATTATTTCCATCTGCCCGTTTCCAGTATGAGCAACACCTTTACCTTCCTGAACGCCGGTATTCTGATCTCCATCTTCCTCAATGCCTGGCTGATGGAGATCGTGCCGCTGAAAACTCAGCTGCGTTTTGGCTTTATTTTAATGGTGCTGGCGGTGGCCGGCCTGATGCTCAGCCACAGCCTGGCGCTGTTCTCCGCGTCGATGTTCGTTCTCGGCCTGGTCAGCGGGATCACCATGTCGATCGGGACCTTCCTGATCACCCATATGTATGAAGGCCGTCAGCGCGGGGCGCGTCTGCTGTTTACCGACTCCTTCTTTAGCATGGCGGGAATGATTTTTCCGATGGTCGCCGCGGTCCTGTTGGCGCGCAGCATCGAGTGGTACTGGGTCTACGCCTGTATCGGTCTGGTGTATGTCGCTATTTTCGTCCTGACATTCGGCTGTGACTTCCCGGTGCTCGGCAAAAAAGCGCAGAGCGAAAACAGCCAGCCGGTGGTGAAAGAGAAGTGGGGCATCGGCGTGCTGTTCCTCTCCGTCGCGGCGCTGTGCTACATCCTCGGTCAGCTGGGCTTTATCTCCTGGGTACCGGAATATGCCAAGAGCCTGGGCATGAGCCTCGGCGATGCCGGTAAACTGGTGAGCGATTTCTGGATGTCCTACATGATCGGCATGTGGTCATTCAGCTTTATCCTGCGCTTCTTCGACCTGCAGCGCATCTTAACCGTCCTCGCCGGCCTCGCGACGGTGCTGATGTACCTGTTTATCAATGGTTCGCCGGAGCATATGCCGTGGTTTATTCTGACCCTGGGCTTCTTCTCCAGCGCCATCTACACCTCGATCATTACGCTCGGTTCGCAGCAAACTAAAGTCGCTTCACCAAAGCTGGTGAACTTTATCCTCACCTGCGGCACCATCGGCACCATGCTGACTTTCGTGGTTACCGGCCCGATTGTGGCTGCCAGCGGTCCGCTGGCAGCGCTGCACACCGCTAACGGCCTCTACGCCGTGGTGTTCGTGATGTGCTTTATCCTCGGCTTCGTCTCCCGTCACCGCCAGAACAACGCGCAGGCGGCGTCTCACTAA	MTNSNRIKLTWISFFSYALTGALVIVTGMVMGNIADYFHLPVSSMSNTFTFLNAGILISIFLNAWLMEIVPLKTQLRFGFILMVLAVAGLMLSHSLALFSASMFVLGLVSGITMSIGTFLITHMYEGRQRGARLLFTDSFFSMAGMIFPMVAAVLLARSIEWYWVYACIGLVYVAIFVLTFGCDFPVLGKKAQSENSQPVVKEKWGIGVLFLSVAALCYILGQLGFISWVPEYAKSLGMSLGDAGKLVSDFWMSYMIGMWSFSFILRFFDLQRILTVLAGLATVLMYLFINGSPEHMPWFILTLGFFSSAIYTSIITLGSQQTKVASPKLVNFILTCGTIGTMLTFVVTGPIVAASGPLAALHTANGLYAVVFVMCFILGFVSRHRQNNAQAASH				NA	NA	NA	NA	NA
BMS020_02974	1323	codA_1	COG0402	Cytosine deaminase	ATGACAGCAGCGCCGCTTTGGTTGATTCAGAACGTACGCCTGGCAGACCGCGACGGCCTGTGGCAGATAGCGATAGATAAGGGCCGCTTTGGCGAGATCACACCGATGGGGGAGGCGCGGGACGAAAGCTACGAGGTGTTGAACGCTCGCGGCGGTCTGGCGATCCCGCCTTTTATTGAGCCGCATATCCATCTGGATACCACCCAGACGGCCGGTGAGCCGAACTGGAACCAGTCCGGCACCCTGTTCGAGGGGATTGAGCGCTGGGCGGAGCGGAAAGCGCTGCTCAGCCATGAGGACGTTAAAGCCCGGGCGTGGAAAACCCTCAAGTGGCAGATCGCCAATGGCGTGCAGTTTGTCCGTACCCATGTCGATGTCTCCGATCCAACGTTGACGGCGCTGAAGGCGATGCTGGAGGTCAAAAAGGAGGTGGCGCCATGGGTCGAGCTGCAGATTGTCGCTTTTCCGCAGGAGGGGATCCTCTCTTACCCCAACGGCGAGGCGCTGCTGGAAGAGGCCCTGAAGCTGGGGGCGGATGTCGTCGGGGCGATCCCGCACTTTGAGTTCACCCGTGAATATGGGGTGGAATCGCTGCATATCGCCTTTCGACTGGCGCAGAAATATGACCGCCCGCTGGATATTCACTGCGATGAAATTGACGATGAACAGTCGCGCTTTGTTGAAACCGTTGCCGCGCTGGCGCTGAAGGCGGGGATAGGGCCGCGGGTGACGGCCAGCCATACCACCGCCATGCACTCCTATAATGGCGCCTATACCTCGCGCCTGTTCCGCCTGCTAAAGCTCTCCGGCATCAACTTTGTCGCCAATCCGCTGGTCAATATTCATCTGCAGGGCCGGTTTGACGACTACCCGAAGCGACGGGGCATTACCCGGGTGAAGGAGCTGATGGCGGCGGGGATCAATGTTTGCTTTGGTCATGATGATGTCTTTGACCCGTGGTACCCGCTGGGGACCGGTAATATGCTGCAGGTCCTGCATATGGGGCTGCACGTTTGCCAGCTGATGGGCTACCAGCAGATTAACGACGGCCTGCAGCTTATCACTGACAACAGCGCCCGCACGTTTGGCCTGACCGATTACGGCATCGTCAGCGGCAACCCGGCTAACCTGATCATCCTCCCGGCGGAGAATGGCTTTGAGGCGGTACGCTGCCAGGTGCCGGTGCGCTGGTCAATTCGCCAGGGAAGGGTGATCGCGATTACCCAGCTGGCGCAAACCTGGATCCAGACCGACCGCGGTGGCGAGGCGCTCTCTTTTATGAGGAACAGCCCCCTTGCGGACGAAAAGGGGCCGAAGGCTTAG	MTAAPLWLIQNVRLADRDGLWQIAIDKGRFGEITPMGEARDESYEVLNARGGLAIPPFIEPHIHLDTTQTAGEPNWNQSGTLFEGIERWAERKALLSHEDVKARAWKTLKWQIANGVQFVRTHVDVSDPTLTALKAMLEVKKEVAPWVELQIVAFPQEGILSYPNGEALLEEALKLGADVVGAIPHFEFTREYGVESLHIAFRLAQKYDRPLDIHCDEIDDEQSRFVETVAALALKAGIGPRVTASHTTAMHSYNGAYTSRLFRLLKLSGINFVANPLVNIHLQGRFDDYPKRRGITRVKELMAAGINVCFGHDDVFDPWYPLGTGNMLQVLHMGLHVCQLMGYQQINDGLQLITDNSARTFGLTDYGIVSGNPANLIILPAENGFEAVRCQVPVRWSIRQGRVIAITQLAQTWIQTDRGGEALSFMRNSPLADEKGPKA	PGPT0021315_154	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021315-codA-K01485	NA	NA
BMS020_02975	2544	nasD	COG1251	Nitrite reductase [NAD(P)H]	ATGAGCAAAGTCAGAATCGCTATTATCGGTAACGGCATGGTTGGCCATCGCTTTATCGAAGAGCTTCTCGATAAGGCGCCTGCCGGACAGTTCGACATTACCGTGTTCTGTGAAGAACCGCGTATCGCCTACGACCGTGTCCACCTGTCGTCTTATTTCTCCCACCATACCGCAGAAGAGCTGTCGCTGGTCCGCGAAGGTTTCTATGAGAAACACGGCGTCAAGGTGCTGGTCGGCGAACGGGCCATCACCATCAACCGCCAGGAGAAAGTGATCCACTCCAGCGCCGGGCGCACGGTGTTCTACGACAAGCTGATTATGGCGACCGGCTCATACCCCTGGATCCCGCCTATTAAAGGCGCGGAAACTCAGGATTGCTTCGTCTATCGCACCATTGAAGATCTTAACGCTATTGAATCCTGCGCCCGTCGCAGCAAACGCGGCGCGGTGGTCGGCGGCGGCCTGCTCGGCCTGGAAGCCGCAGGCGCCCTGAAAAACCTCGGTGTCGAAACCCATGTTATCGAATTCGCGCCGATGCTGATGGCCGAGCAGCTCGACCAGATGGGCGGCGAGCAGCTGCGGCGCAAAATTGAAAGCATGGGCGTGAAAGTTCACACCAGCAAAAACACCAAAGAGATCGTTCAGCAGGGCACCGAGGCGCGCAAAACCATGCACTTCGCCGACGGTAGCGAGCTGCAGGTCGATTTCATCGTCTTCTCTACCGGGATCCGCCCGCGCGATAAACTGGCCACCCAGTGCGGACTGGCGGTTGCCCAGCGCGGCGGCATCATGGTCAACGATAGCTGCCAGACCTCCGACCCGGATATCTATGCCATCGGCGAATGCGCCAGCTGGAACAACCGCGTGTATGGCCTCGTCGCGCCGGGTTATAAAATGGCCCAGGTGGCCGTCGACCACCTCCTCGGCAGTGAAAACAGCTTCACCGGCGCCGACCTCAGCGCCAAGCTGAAGCTGCTGGGTGTAGACGTGGGCGGTATCGGCGATGCCCACGGCCGCACGCCGGGCGCCCGTAGCTACGTCTATCTCGACGAAAGCAAAGAAGTTTATAAGCGTCTGATCGTCAGCGCCGACAACAAAACCCTTCTCGGCGCGGTGCTGGTCGGCGACACCAGCGACTACGGCAACCTGCTGCAGCTGGTGCTGAACGCCATCGAGTTGCCAGAGAATCCGGATTCGCTGATCCTCCCGGCCCACGCCGGCAGCGGCAAGCCGTCGATTGGCGTCGATAAACTGCCGGACAGCGCGCAAATATGCTCCTGCTTCGACGTCAGCAAAGGCGACCTGATCGCCGCCATCAATAAAGGCTGCCATACCGTCGCGGCGCTGAAAGCGGAAACCAAGGCCGGTACCGGCTGCGGCGGCTGTATCCCGTTGGTCACCCAGGTGCTCAACGCCGAGCTGGCGAAACAGGGTATCGAGGTCAACAACAACCTGTGCGAACACTTCGCTTACTCCCGCCAGGAGCTGTTCCACCTGATCCGCGTGGAAGGCATCAAAACCTTCGACGAACTGCTGGCCAAACACGGCCAGGGCTACGGCTGTGAAGTGTGTAAACCGACCGTCGGCTCCCTGCTGGCCTCCTGCTGGAATGAGTACGTCCTCAAGCCTCAGCACACGCCGCTGCAGGACACCAACGACAACTTCCTCGCCAACATCCAGAAAGATGGCACCTACTCGGTCATTCCGCGCTCCGCGGGCGGCGAAATCACGCCGGAAGGGCTGGTCGCCGTGGGCCGTATCGCTCGTGAATTCAATCTGTACACCAAAATCACCGGTTCCCAGCGCATCGGCCTGTTTGGCGCGCAGAAAGACGACCTGCCGGAGATCTGGCGGCAGCTGATTGAAGCGGGCTTCGAAACCGGCCACGCCTACGCCAAAGCGCTGCGGATGGCGAAAACCTGCGTCGGCAGCACCTGGTGCCGCTACGGGGTCGGCGACAGCGTCGGCTTCGGCGTCGAACTGGAAAATCGCTACAAAGGCATCCGTACGCCACACAAAATGAAGTTCGGCGTCTCCGGCTGTACCCGCGAATGTGCGGAAGCCCAGGGCAAAGACGTCGGGATCATCGCCACCGAGAAAGGCTGGAACCTGTACGTGTGCGGTAACGGCGGGATGAAGCCGCGCCACGCCGATCTGCTGGCCGCGGACCTCGATCGCGAGACGCTGATTAAGTATCTCGACCGCTTTATGATGTTCTACATCCGCACCGCCGATAAGCTGACCCGCACCGCGCCGTGGCTGGACAACATGGAAGGCGGGATCGACTATCTGCGCAGCGTCATCATCGATGACAAGCTCGGTCTGAACGACCATCTGGAAGAGGAGCTGGCTCGCCTGCGCGCCGCCTTCGCCTGCGAGTGGACCGAGACCGTCAATAACCCGGCGGCGCAGACCCGCTTCAAACACTTTATCAACAGCGACCAGCGCGACCCGAACGTTCAGGTGGTGCCGGAACGTGATCAGCATCGCCCGGCCACGCCGTATGAGCGCATCCCGGTTACTCTGGTGGAGGAAAAAGCATGA	MSKVRIAIIGNGMVGHRFIEELLDKAPAGQFDITVFCEEPRIAYDRVHLSSYFSHHTAEELSLVREGFYEKHGVKVLVGERAITINRQEKVIHSSAGRTVFYDKLIMATGSYPWIPPIKGAETQDCFVYRTIEDLNAIESCARRSKRGAVVGGGLLGLEAAGALKNLGVETHVIEFAPMLMAEQLDQMGGEQLRRKIESMGVKVHTSKNTKEIVQQGTEARKTMHFADGSELQVDFIVFSTGIRPRDKLATQCGLAVAQRGGIMVNDSCQTSDPDIYAIGECASWNNRVYGLVAPGYKMAQVAVDHLLGSENSFTGADLSAKLKLLGVDVGGIGDAHGRTPGARSYVYLDESKEVYKRLIVSADNKTLLGAVLVGDTSDYGNLLQLVLNAIELPENPDSLILPAHAGSGKPSIGVDKLPDSAQICSCFDVSKGDLIAAINKGCHTVAALKAETKAGTGCGGCIPLVTQVLNAELAKQGIEVNNNLCEHFAYSRQELFHLIRVEGIKTFDELLAKHGQGYGCEVCKPTVGSLLASCWNEYVLKPQHTPLQDTNDNFLANIQKDGTYSVIPRSAGGEITPEGLVAVGRIAREFNLYTKITGSQRIGLFGAQKDDLPEIWRQLIEAGFETGHAYAKALRMAKTCVGSTWCRYGVGDSVGFGVELENRYKGIRTPHKMKFGVSGCTRECAEAQGKDVGIIATEKGWNLYVCGNGGMKPRHADLLAADLDRETLIKYLDRFMMFYIRTADKLTRTAPWLDNMEGGIDYLRSVIIDDKLGLNDHLEEELARLRAAFACEWTETVNNPAAQTRFKHFINSDQRDPNVQVVPERDQHRPATPYERIPVTLVEEKA	PGPT0000450_959	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362	NA	NA
BMS020_02976	327	nirD	COG2146	Nitrite reductase (NADH) small subunit	ATGAGCCAGTGGGTAAACATCTGCAACATTGACGACATCCTGCCCGCCACCGGCGTCTGCGCCCTGCTCGGTCAGCAGCAGGTGGCGATCTTCCGTCCCTATCATGACGACAGGGTGTTCGCTATCAGCAACATCGATCCGTTCTTTAACGCCAGCGTACTGTCTCGCGGCATTATCGCCGAGCATGACGGCGCCCTGTGGGTTGCCAGCCCGCTGAAAAAACAACGTTTCCGCCTGAGCGACGGCCTGTGTATGGAAGATGCCAGCCACTCTATCGCCCGTTTCGACGCCCGGGTAAAAGACGGCCACGTTCAGCTTAAGGCGTGA	MSQWVNICNIDDILPATGVCALLGQQQVAIFRPYHDDRVFAISNIDPFFNASVLSRGIIAEHDGALWVASPLKKQRFRLSDGLCMEDASHSIARFDARVKDGHVQLKA	PGPT0000455_1573	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000455-nirD-K00363	NA	NA
BMS020_02977	1374	cysG_2	COG0007	Siroheme synthase	GTGGATCACTTACCCATATTCTGCCAGTTGCGCCAGCGTGATTGTTTACTGGTTGGCGGCGGGGATGTCGCCGAACGCAAGGCCCGTCTGCTGCTGGATGCTGGCGCAAACGTCACGGTCAATGCGCTCGACTTTACCCCGCAGTTTCATGTGTGGGCCGATTCACAGATGCTAACCCTGGTGCAGGGGGAGTTTATCCCCTCGCTGCTGGACAACTGCTGGCTGGCCATCGCCGCTACCGATAATGAGACGGTGAACCAGCAGGTCAGCGACGCGGCCGAAGCGCGGCGTATCTTCTGTAACGTGGTGGATGCCCCGCGCCAGGCCAGCTTTATCATGCCGTCCATTATCGACCGCTCGCCGCTGATGGTCGCCGTCTCCTCGGGCGGGACATCCCCGGTGCTGGCGCGCCTGTTGCGCGAGAAGCTGGAGTCAGTCTTACCCCTGCATCTTGGCCAGCTGGCCCGCTACGCCGGCCATCTGCGCGCGCGCGTGAAGCAGCAGTTTGCCACCGTAGGCGAACGCCGCCGCTTCTGGGAGAAGCTGTTCGTTAACGACCGGCTGGCGCAGTCGCTGGCCAATGACGATCGGCAGGCGGTGGCGGATACCACCGAGCAGCTGCTGACCGAGCCGTTAGAGCATCGCGGCGAGGTCGTCCTGGTTGGCGCCGGCCCAGGTGACGCCGGGCTGCTCACGCTCAAGGGCCTGCAGCAGATCCAGCAGGCCGACGTGGTGGTCTATGACCGGCTGGTCTCCGACGACATTATGAATCTGGTGCGCCGCGATGCCGACCGGGTGTTCGTCGGCAAGCGCTCAGGCTATCACTGCGTGCCGCAGGAGGAGATCAACCAGATCCTGCTGCGCGAAGCGCAAAAAGGAAGACGCGTGGTCCGGCTGAAAGGCGGCGATCCCTTTATCTTTGGCCGCGGCGGAGAGGAGCTGGAGACCCTCTGCGAGGCGGGGATCCCCTTCTCGGTTGTGCCCGGCATCACCGCCGCCTCCGGCTGCTCCGCCTACTCGGGGATCCCGTTGACCCATCGCGATTTCGCCCAGGGCGTCCGCCTGGTCACCGGCCATCTGAAAACCGGCGGCGAGCTGGACTGGGCGAACCTGGCGGTGGAGAAGCAGACCCTGGTGTTCTATATGGGTCTGAACCAGGCGCCGGCGATCCGCGAGAAGCTTATCGCCCACGGCATGGCGGAAGATATGCCTGCCGCCATCGTCGAGAACGGCACCGCCGTGACGCAAAAAGTGGTCAGCGGCACCTTAGGACAGCTGGATATTCTGGCGCAGCAGATGGCCAGCCCGGCGCTGATCATTGTCGGCCGCGTGGTCGGTCTGCGGGATAAACTGAACTGGTTCTCGAACCACTAA	MDHLPIFCQLRQRDCLLVGGGDVAERKARLLLDAGANVTVNALDFTPQFHVWADSQMLTLVQGEFIPSLLDNCWLAIAATDNETVNQQVSDAAEARRIFCNVVDAPRQASFIMPSIIDRSPLMVAVSSGGTSPVLARLLREKLESVLPLHLGQLARYAGHLRARVKQQFATVGERRRFWEKLFVNDRLAQSLANDDRQAVADTTEQLLTEPLEHRGEVVLVGAGPGDAGLLTLKGLQQIQQADVVVYDRLVSDDIMNLVRRDADRVFVGKRSGYHCVPQEEINQILLREAQKGRRVVRLKGGDPFIFGRGGEELETLCEAGIPFSVVPGITAASGCSAYSGIPLTHRDFAQGVRLVTGHLKTGGELDWANLAVEKQTLVFYMGLNQAPAIREKLIAHGMAEDMPAAIVENGTAVTQKVVSGTLGQLDILAQQMASPALIIVGRVVGLRDKLNWFSNH	PGPT0003690_1382	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003690-cysG-K02302	NA	NA
BMS020_02978	1005	trpS	COG0180	Tryptophan--tRNA ligase	ATGACTAAGCCCATCGTTTTTAGTGGCGCACAGCCCTCAGGTGAACTGACCATTGGCAACTACATGGGTGCGCTGCGTCAGTGGGTAAACATGCAGGACGATTACCACTGCATCTATTGCATCGTGGACCAGCACGCCATCACCGTGCGCCAGGATCCGCAGCAGCTGCGTAAGGCGACGCTGGACACCCTGGCGCTGTATCTGGCCTGCGGCATCGACCCGCAGAAAAGCACTATTTTCGTTCAGTCTCACGTGCCGGAACATGCCCAGTTAGGCTGGGCGCTGAACTGCTACACCTATTTCGGCGAACTGAGCCGCATGACCCAGTTTAAAGACAAGTCCGCGCGCTACGCGGAGAACATCAACGCCGGTCTGTTTGATTATCCGGTACTGATGGCCGCTGACATTCTGCTGTACCAGACCAACCAGGTTCCGGTGGGCGAAGATCAGAAACAGCACCTTGAACTGAGCCGCGATATCGCCCAGCGTTTTAACGCCATCTACGGCGATATTTTTAAAGTGCCTGAGCCGTTTATCCCTAAATCCGGCGCGCGCGTGATGTCGCTGCTGGAGCCGACGAAAAAGATGTCCAAGTCCGACGACAACCGCAACAACGTCATCGGCCTGCTGGAAGACCCGAAATCGGTGGTCAAGAAGATCAAACGTGCGGTCACCGACTCCGACGAGCCGCCGGTGGTGCGCTACGACCTGAAAGAGAAAGCGGGCGTCTCCAACCTGCTGGATATCCTCTCCGCGGTCACCGGGAAAACCATTCCTGAGCTGGAGCAGCATTTCGAAGGCAAAATGTATGGCCACCTGAAAGGCGAAGTCGCCGAAGCGGTATCGGGCATGCTGATTGACCTGCAGGAGCGCTATCACCGTTTCCGTAACGACGAAGCGTTTCTCAATCAGGTGATGAAGGACGGCGCAGAAAAGGCCAGCGCGCGCGCTTCTCAAACCCTGAAAGCGGTATACGAAGCGATTGGCTTTGTCGCCAAGCCGTAA	MTKPIVFSGAQPSGELTIGNYMGALRQWVNMQDDYHCIYCIVDQHAITVRQDPQQLRKATLDTLALYLACGIDPQKSTIFVQSHVPEHAQLGWALNCYTYFGELSRMTQFKDKSARYAENINAGLFDYPVLMAADILLYQTNQVPVGEDQKQHLELSRDIAQRFNAIYGDIFKVPEPFIPKSGARVMSLLEPTKKMSKSDDNRNNVIGLLEDPKSVVKKIKRAVTDSDEPPVVRYDLKEKAGVSNLLDILSAVTGKTIPELEQHFEGKMYGHLKGEVAEAVSGMLIDLQERYHRFRNDEAFLNQVMKDGAEKASARASQTLKAVYEAIGFVAKP	PGPT0007120_4871	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
BMS020_02979	762	gph_1	COG0546	Phosphoglycolate phosphatase	ATGGATAAATTACAGGCGATCCGCGGCATCGCGTTTGATCTCGACGGCACGCTGGTGGACAGCGCGCCGGGTCTGACCGCCGCCGTTGATAACGCCCTCTACGCCCTGGAGCTGCCGGTGGCGGGAGAAGAACGCGTCGTGACCTGGATCGGCAACGGCGCCGATGTTCTGATGGAGCGGGCGCTGACCTGGGCTCGTCAGGAGCGTGCAACGTTACGTGCGGCGATGGGCAAGCCTTCCGTCGACGATCATGATATTCCGCAAGACGAACAGCTGCGCATTTTGCGTAAACTGTTTGACCGCTATTACGCCGAAGCGGCGGAAGAGGGCAGTTTCCTGTTTCCGGCAGTGGCCGATACGCTCGGCGCGCTGCAGGCCAAAGGCCTGCCGCTGGCGCTGGTGACCAATAAGCCGACGCCGTTCGTCGCCCCGCTGCTGGACGCGCTCGATATTGCGAAATATTTTACCGTGGTGATCGGCGGCGATGACGTACAGAACAAAAAGCCGCATCCGGAACCGCTGCTGCTGGTGGCGCAAAAGCTCGGCCTGACGCCGGAGGCGCTGCTGTTCGTCGGCGATTCCCGTAATGATATTCAGGCGGCCAAAGCGGCAGGCTGCTGCTCTGTTGGCCTGACCTACGGCTATAACTATGGCGAACCGCTTGCGCTGAGCGAGCCGGACTATCTCTTCGACCAGTTTAATGAACTCTTACCCGCTCTCGGGTTACCGCACAGTGAAACTCAGGAATTGAAACATGACTAA	MDKLQAIRGIAFDLDGTLVDSAPGLTAAVDNALYALELPVAGEERVVTWIGNGADVLMERALTWARQERATLRAAMGKPSVDDHDIPQDEQLRILRKLFDRYYAEAAEEGSFLFPAVADTLGALQAKGLPLALVTNKPTPFVAPLLDALDIAKYFTVVIGGDDVQNKKPHPEPLLLVAQKLGLTPEALLFVGDSRNDIQAAKAAGCCSVGLTYGYNYGEPLALSEPDYLFDQFNELLPALGLPHSETQELKHD	PGPT0001730_376	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
BMS020_02980	678	rpe_1	COG0036	Ribulose-phosphate 3-epimerase	ATGAAGCAGTATTTGATTGCCCCTTCGATTCTGTCGGCTGATTTTGCCCGTCTGGGTGAGGATACCGCGAAGGCGCTGGCGGCGGGTGCGGATGTCGTGCACTTCGACGTCATGGACAACCACTACGTGCCGAACCTGACGATTGGCCCGATGGTGCTGAAGTCGCTGCGTAACTACGGTATTACCGCGCCGATCGACGTCCACCTGATGGTGAAGCCGGTCGACCGCATCATTCCTGATTTTGCCGAAGCTGGCGCCAGCATCATCACCTTCCACCCGGAAGCCTCCGAACACGTCGACCGCAGTCTGCAGCTTATCAAAGAGCACGGCTGCAAAGCGGGCCTGGTGTTTAACCCCGCGACGCCGCTGAGCTATCTCGATTACGTGATGGATAAGCTGGACGTGATCCTGCTGATGTCGGTTAACCCGGGCTTTGGCGGCCAGTCCTTTATTCCGCAGACGCTGGATAAACTGCGTGAAGTGCGCCAGCGCATCGATGCGTCCGGCTACGATATTCGCCTGGAAGTGGATGGCGGAGTGAAAGCGAGCAATATCGGCGAAATCGCCGCGGCGGGTGCGGATATGTTCGTTGCCGGTTCGGCGATCTTCGGCCAGCCGGACTACAAGAAAGTCATTGATCACATGCGTAATGAATTAGCGAAGGTAAGTCATGGATAA	MKQYLIAPSILSADFARLGEDTAKALAAGADVVHFDVMDNHYVPNLTIGPMVLKSLRNYGITAPIDVHLMVKPVDRIIPDFAEAGASIITFHPEASEHVDRSLQLIKEHGCKAGLVFNPATPLSYLDYVMDKLDVILLMSVNPGFGGQSFIPQTLDKLREVRQRIDASGYDIRLEVDGGVKASNIGEIAAAGADMFVAGSAIFGQPDYKKVIDHMRNELAKVSHG	PGPT0017425_2267	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
BMS020_02981	828	dam	COG0338	DNA adenine methylase	ATGAAAAAGAATCGCGCTTTTCTAAAGTGGGCAGGGGGGAAGTACCCCCTGCTTGACGATATTAAAAAGCATTTGCCGGAAGGTGAGTGCTTAATCGAGCCCTTTGTGGGCGCCGGGTCGGTATTTCTCAATACCGACTTTTCTCGTTATATCCTCGCGGATATCAACAGTGATTTAATCGGCCTGTACAACATCGTCAAATTGCGCACCGACGAGTATGTCGCTGCCGCCCGCGAGATGTTTACCCCGGAAAACAACGTCGCTGAGCGCTACTACCAGTACCGAGATGAATTCAACCAGAGCCAGGATCCGCTGCGTCGCGCGGTGCTGTTCCTGTATCTGAACCGTCACGGCTACAACGGCCTGTGTCGCTACAATTTGCGCGGCGAATTCAATGTGCCGTTTGGCCGCTATAAGAAGCCCTATTTCCCCGAGGCTGAGCTCTATCATTTTGCCGACAAGGCGCAAAACGCTGAGTTTTACTGCGAATCTTATGAAGAGTGTATGCAGCGTGCGGATAGCCGCACGGTGGTGTATTGCGATCCGCCCTATGCGCCGTTGACGGCGACGGCGAATTTTACCGCCTACCACACCAACAGCTTCAACCTGGAGCAACAGGTGCTGCTGGCGCAAAAGGCGGAATCGCTGATGAAGAAACGGATCCCGGTGCTGATTTCCAACCACCGCACGCCGTTGACGCAGGAGTGGTATAAAAACGCGGCAGAAACGCATATTGTGAAGGTTCGGCGCAGCATCAGCAGCAACGGTGGTACGCGTAAAAAGGTGGACGAGCTCTTAGCGCTCTACCGTCCGCCTAAGACCAAATAA	MKKNRAFLKWAGGKYPLLDDIKKHLPEGECLIEPFVGAGSVFLNTDFSRYILADINSDLIGLYNIVKLRTDEYVAAAREMFTPENNVAERYYQYRDEFNQSQDPLRRAVLFLYLNRHGYNGLCRYNLRGEFNVPFGRYKKPYFPEAELYHFADKAQNAEFYCESYEECMQRADSRTVVYCDPPYAPLTATANFTAYHTNSFNLEQQVLLAQKAESLMKKRIPVLISNHRTPLTQEWYKNAAETHIVKVRRSISSNGGTRKKVDELLALYRPPKTK	PGPT0027190_1684	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0027190-dam-K06223	NA	NA
BMS020_02982	1290	damX	COG3266	Cell division protein DamX	ATGGATGATTTCAAACCAGAAGACGATATGAAAGCCGATCGCAACGATCGTCGTGCTGGTCGTTCCCGTCAGTCTTCCGAGCGTGATGCCGATCCGCAGATCAATTTTGACGATGTCGATCTTGATGCCGATGAAGGCCGTCCGACGCGCGCCGGCAAGGCCCGTCGTGAGCGTGAAGAGGAAGAGTTCGAAGAAGAACTGGATGCGGAAGATGAGGAGATGCTCGAAGAGCAGCCTGTAGAGCGTCGTCCGCGTAAGCGTAAAAAAGCGCCGGCGAAACCCGCTTCCCGCCAGTACATCATGATGGGCGTGGGGATTCTGGTGCTGTTGCTGTTAATCGTAGGTATCGGTTCCGCGCTGAAATCGCCATCTTCGTCCAGCCAGCAGACCGCTTCCGGCGAGAAGAGCATTAATCTGTCTGACGACCAGTCCGCCAGCACGCCAGCTGCCGGCCAGGATCAGACAGCCGCCAATACCACCACACAGCAGGACGTCACGGTACCGCCTATTGCCGCGAACCCGACCCAGGGCCAGGCAGCGGCAGAGCCGCAGGGCCAGCAGCGTGTTGAAGTTCAGGGCGATCTGAATAACGCGCTGACCCAGCAGCAGGGCCAGCTGGACGGCGCCGTAGCTAACTCGACGCTGCCAACTGAACCGGCAACCGTCGCGCCGATCCGTAATGGCGCCAGTGGCGCCGCGGCGCCGCGCCAGACGACCGAACGTCAGACGGCTGCAACGCCGCGTCCGGCCGAGCGTAAGCACACCGTCATCGAAGCGAAGCCGCAGCCGAAACCACAGGCGGTGGCGAAAGCGCCGGTAGAAACGAAACCGGTCCAGCCGAAGCATGTTGAAAGCGCGGCCACTACCGCTCCGGCGAAAACGACCGTCAGCGAAAGTAAACCGGCAGCCACCGCGCAGAGCAAACCAGCCACGACCGCGACGACCGCAGCGCCAGCTGCAACGGCAGCCGCGGCAGCGCCGGCGGCGAAGAGCGGTAAAACGGCAGGTGACGTCAGCTCGATGAAATCTGCGCCGTCGGGTAACTATACCCTGCAGCTCAGCAGCTCCTCTAACTATGAAAACCTGAACAACTGGGCGAAGAAAGAGAAGCTGGACAGATATGTTGTCTATGAAACGTCGCGTAACGGCCAACCGTGGTACGTGCTGGTGAGCGGTATCTATTCATCGAAAGATGAAGCGAAACGCGCGGTCACCTCGCTGCCGCCGGACGTGCAGGCGAAAAATCCATGGGCAAAACCACTGCATCAGGTTCAGGCTGATCTGAAATAA	MDDFKPEDDMKADRNDRRAGRSRQSSERDADPQINFDDVDLDADEGRPTRAGKARREREEEEFEEELDAEDEEMLEEQPVERRPRKRKKAPAKPASRQYIMMGVGILVLLLLIVGIGSALKSPSSSSQQTASGEKSINLSDDQSASTPAAGQDQTAANTTTQQDVTVPPIAANPTQGQAAAEPQGQQRVEVQGDLNNALTQQQGQLDGAVANSTLPTEPATVAPIRNGASGAAAPRQTTERQTAATPRPAERKHTVIEAKPQPKPQAVAKAPVETKPVQPKHVESAATTAPAKTTVSESKPAATAQSKPATTATTAAPAATAAAAAPAAKSGKTAGDVSSMKSAPSGNYTLQLSSSSNYENLNNWAKKEKLDRYVVYETSRNGQPWYVLVSGIYSSKDEAKRAVTSLPPDVQAKNPWAKPLHQVQADLK				NA	NA	NA	NA	NA
BMS020_02983	1095	aroB_1	COG0337	3-dehydroquinate synthase	ATGGAGAGGCTTACTGTTACCCTCGGGGAACGTAGTTACCCGATTACCATCGCGGCTGGTTTGTTTAACGATCCAGCTTCCTTCCTGCCACTCAAGTCGGGCGACCAGGCTATGCTGGTCACCAACGAAACGCTGGCGCCGCTTTATCTGGATACCGTCCGCTCTGCGCTGGAGCAGGCAGGGGTCAACGTTGACAGCGTGATCCTGCCCGACGGCGAGCAGTATAAAAGCCTGGCGGTGATGGATACCGTATTTACCGCGCTGTTACAAAAACCCCATGGCCGCGACACCACGCTGGTGGCGCTCGGCGGCGGTGTTATCGGTGATTTAACCGGTTTCGCCGCGGCAAGCTATCAGCGCGGCGTGCGTTTTATCCAGGTCCCTACCACCTTGCTGTCGCAGGTCGACTCGTCGGTCGGCGGCAAAACCGCAGTGAACCACCCTCTCGGCAAAAACATGATTGGCGCCTTCTGGCAGCCGGTTTCCGTGGTGGTTGATCTTAACTGTCTGAAGACGCTTCCGAAGCGCGAACTCGCTTCCGGACTGGCTGAGGTCATCAAGTATGGGGTGATCCTCGACGGCGCATTCTTCAGCTGGCTGGAAAACAACATTGATGCCCTGCTGGCGCTGGATGAAAAGGCCATGGCGTACTGCATTCGCCGTTGCTGTGAGCTGAAAGCGGAAGTTGTGGCTGCCGACGAGCGTGAAACCGGGTTACGTGCTTTACTCAATCTTGGACATACCTTCGGCCATGCTATCGAGGCTGAAATGGGCTACGGTAACTGGCTGCACGGCGAAGCGGTGGCGGCAGGTATGGTGATGGCGGCGCATACGTCCGAGCGGCTGGGGCAGTTCCGCTCGCAGGATACTCAGCGCCTTATCGATCTGCTCAAGCGTGCAGGTTTACCGGTACGCGGCCCGCAGGAAATGAGTGCGCAGGCGTATTTGCCCCATATGATGCGCGATAAGAAAGTACTGGCTGGCGAAATGCGGCTGGTGCTCCCGCTCGCAATAGGAAGCAGCGAGCTGCGCGGCGGAGTGCCGCATGATGTGGTTCTTGGCGCGATTGCTGATACTCAGCAGGCGCAACAATAA	MERLTVTLGERSYPITIAAGLFNDPASFLPLKSGDQAMLVTNETLAPLYLDTVRSALEQAGVNVDSVILPDGEQYKSLAVMDTVFTALLQKPHGRDTTLVALGGGVIGDLTGFAAASYQRGVRFIQVPTTLLSQVDSSVGGKTAVNHPLGKNMIGAFWQPVSVVVDLNCLKTLPKRELASGLAEVIKYGVILDGAFFSWLENNIDALLALDEKAMAYCIRRCCELKAEVVAADERETGLRALLNLGHTFGHAIEAEMGYGNWLHGEAVAAGMVMAAHTSERLGQFRSQDTQRLIDLLKRAGLPVRGPQEMSAQAYLPHMMRDKKVLAGEMRLVLPLAIGSSELRGGVPHDVVLGAIADTQQAQQ	PGPT0012865_1838	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
BMS020_02984	522	aroK_1	COG0703	Shikimate kinase 1	ATGGCAGAGAAACGCAATATCTTTCTGGTTGGGCCTATGGGTGCCGGCAAAAGCACTATTGGGCGCCAGTTAGCCCAACAGCTCAACATGGAATTTTACGATTCTGATCAAGAGATTGAGAAACGCACTGGCGCTGATGTGGGCTGGGTCTTCGATGTTGAAGGCGAAGAAGGCTTCCGCGACCGTGAAGAAAAAATTATCAATGAGTTGACGGAAAAACAGGGGATTGTGCTGGCGACTGGCGGCGGCTCTGTAAAATCCCGTGAAACGCGTAACCGTCTCTCCGCCCGCGGCGTGGTGGTCTACCTGGAAACAACGATCGAGAAGCAGTTGGCCCGTACGCAGCGCGATAAAAAGCGTCCTTTGCTACAAGTCGATGCGCCGCCTCGTGAAGTACTGGAAGCGCTGGCTGACGAGCGTAACCCGCTGTATGAAGAGATCGCCGATGTGACTATCCGCACAGACGATCAGAGTGCGAAAGTCGTCGCGAACCAGATTATTCATATGCTGGAAAGCAACTGA	MAEKRNIFLVGPMGAGKSTIGRQLAQQLNMEFYDSDQEIEKRTGADVGWVFDVEGEEGFRDREEKIINELTEKQGIVLATGGGSVKSRETRNRLSARGVVVYLETTIEKQLARTQRDKKRPLLQVDAPPREVLEALADERNPLYEEIADVTIRTDDQSAKVVANQIIHMLESN	PGPT0012900_3156	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
BMS020_02985	1239	pilQ_1	COG4796	Type IV pilus biogenesis and competence protein PilQ	ATGCGATGGATAAGCCTGCTGCTTCTGCTGCTACCGCTGGCGGTGGTCGCCGCGCGAAATGACAAGCCGGTTTCGCTGGTCGTTGACGACGCGCCAGTGGCCCAGGTGCTGCAAGCCCTAGCCGAAATGAACCATAAGAACCTCGTTGTCGCACCGGACGTCAGCGGCACGCTCTCCCTGCGCCTGCAGAAGGTCCCCTGGACCCAGGCGCTGCGGGCAGTGGCGGATAGCGCAGGCCTCTCTTTGCAACAGCAGGGGACGGTCATCTACGCGCATACGCAGGCCTGGCAAAAAGCCAATCTGGCGCAGCGCGAAGCTGAACAGGCGAAACGTCTGCAGAACCTGCCGCTGCTGGCGGAGAGCGTGACGCTGCACTATGCCGATGCCGAGGAGCTGGCTAAAAGCGGCGGTAAGTTGCTTAGCGCCCGGGGAAACCTGATGGCGGACAAGCGGACCAATCGGCTGCTGATCCGCGATGATGCGCGGCATCTGCCGGCGCTGAAGGCCTGGGCGCAGGAGATGGATCTGCCGGTCGGACAGGTGGAGCTGGCCGCCCATATCGTGTCGATGAGCGAAACCAGCCTGCGTGAACTGGGGGTGAAGTGGCGGCTGGCGGAGGCTGAAAGCACCCCGGGATCCGGGCACATCACCACCCTAAGCAGCGATGTGTCGGTCAACGATGCCAGCACCCGCGCAGGCTTTAACATCGGCAAAATTAACGGGCGCTTGCTTGAGCTGGAGCTTTCCGCGCTGGAGCGCAAGCAGCAGGTCGAGATTATCGCCAGTCCTCGTTTGCTCGCCTCCCATATGCAGCCCGCCAGCATCAAGCAGGGGAGCGAGATCCCCTATCAGGTCTCCAGCGGTGAAAGCGGCGCCACGTCGGTGGAGTTTAAAGAGGCGGTGCTGGGCATGGAGGTGACGCCGACGGTGCTGCAGAAGGGGAGAGTGCGGTTGAAGCTGCGAATAAGCGAGAACACGCCAGGCCAGGTGCTGAAGCAGGATAACGGCGAGGCGCTGGCCATTGATAAACAGGAGATCGAGACCCTGGTGGAAGTCCGCAGCGGCGAGACCCTGGCGTTGGGCGGCATCTTTTCGCAGAAAAACAAAACCGCCCGCGACAGCGTCCCGCTGCTTGGCGATATCCCGGTGCTGGGGCGTCTGTTTCGCCGCGACGGGAAAGATAATGAACGCCGTGAACTGGTTGTCTTTATTACGCCACGGATTCTGGCAGTACGTTAA	MRWISLLLLLLPLAVVAARNDKPVSLVVDDAPVAQVLQALAEMNHKNLVVAPDVSGTLSLRLQKVPWTQALRAVADSAGLSLQQQGTVIYAHTQAWQKANLAQREAEQAKRLQNLPLLAESVTLHYADAEELAKSGGKLLSARGNLMADKRTNRLLIRDDARHLPALKAWAQEMDLPVGQVELAAHIVSMSETSLRELGVKWRLAEAESTPGSGHITTLSSDVSVNDASTRAGFNIGKINGRLLELELSALERKQQVEIIASPRLLASHMQPASIKQGSEIPYQVSSGESGATSVEFKEAVLGMEVTPTVLQKGRVRLKLRISENTPGQVLKQDNGEALAIDKQEIETLVEVRSGETLALGGIFSQKNKTARDSVPLLGDIPVLGRLFRRDGKDNERRELVVFITPRILAVR	PGPT0016180_243	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IVa_PILUS_HOMOLOG_PROTEIN,PGPT0016180-hofQ-K02507	NA	NA
BMS020_02986	381			hypothetical protein	ATGGGCGGTAAATGCTGGATTTTTCTGTGGTTGCCGCTGTCGCTGCTGGCGGCCGGGCGCGATCCTTTCCTGCCGGTTGAAGATCCTTGCCGCACGGTGCAGCTGTCGCAATGGCGCTATGGCGGCGCGGCCGGCGATGGCGCAGGCTGGACGGGGTTTTTGCAGGACGGAAGCGGCATGTGGCGACGGGTACGCCTGGATGAGCAATTGCCCACGGGCTGGCGGGTGAGTCGGCTGACGGCCGGCGAGCTGGACATCGTCACGCCCCCGGGATGTGAACCGCCAGCGTGGCGCTGGCAACGTGAAGGAAAACAAGATGATGCGATGGATAAGCCTGCTGCTTCTGCTGCTACCGCTGGCGGTGGTCGCCGCGCGAAATGA	MGGKCWIFLWLPLSLLAAGRDPFLPVEDPCRTVQLSQWRYGGAAGDGAGWTGFLQDGSGMWRRVRLDEQLPTGWRVSRLTAGELDIVTPPGCEPPAWRWQREGKQDDAMDKPAASAATAGGGRRAK	PGPT0016175_154	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IVa_PILUS_HOMOLOG_PROTEIN,PGPT0016175-hofP-K12291	NA	NA
BMS020_02987	429			hypothetical protein	ATGCGGATTAACACCCGGCGCACCCGGGCGGGGCTGTTGATCCTGCTCGCGATGGGGCTGATGGGGGGCGGCGTGGCGCTCTGGCGCGATGCCCCCCAGCCGCTGGCGGCGCTGTCCCGCGATGGCGCTCTGCAAACGCAGTGGCGGCGGATCATGGCGCTGCGCATCCCCGCCGGTGAAAGTTCCGGGGAACGCATCGACAAGCAGCCGTTCTCGCCCATCGCCATTCCGCTCGCCGGCGCGAAGCTAATCGCCTGGCATCCGCAGGGGAGCGGCGGTGAGATGGCGCTGACTCTCTCCTGGCCGACGGTACCCGCCCTGTTCTCATGGCTGGCGCGCTGCGGGATGAACCCGCGTTCGTTCTCGCTGGAGCGCGAGGGGCAGGCGCTGCGCATGCGGCTGCAGCTGGAGGCGGAAGATGGGCGGTAA	MRINTRRTRAGLLILLAMGLMGGGVALWRDAPQPLAALSRDGALQTQWRRIMALRIPAGESSGERIDKQPFSPIAIPLAGAKLIAWHPQGSGGEMALTLSWPTVPALFSWLARCGMNPRSFSLEREGQALRMRLQLEAEDGR	PGPT0016170_199	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IVa_PILUS_HOMOLOG_PROTEIN,PGPT0016170-hofO-K12290	NA	NA
BMS020_02988	534			hypothetical protein	ATGACGTATGTCGTTAATCTTCTCCCCTGGCGTGACCTGCGTCGCCGCCAGCGCCTGCGCTACGCCCTGTTGTTAGCCACCGGTATCGTGCTGCTGGTGGGAACGACCCTGCAGGCGGGGCGAACAGCGGGTCTACAGCGCGACGCCCTGGCGAGGATCCACACGACAGCCGACGCAGCGTTGCTCGCCTCGCTCAAACAGCGCGAACAGGCGATGCGCGAGGCATGGCAGCAGCATCAACGCCAGCGCGAGCAGCGCCAGCGCAGATCGACGATCGCCGCCTGGCAACCCCGACTAATGGCGCTCGCGGCAGGCCTGCCCGCTCAGGCATGGCTGACGCGGCTGGAGTACCAGGGGGCGCGCCTGACGCTGGATGGTCTGGCCCTCAACCTGCAGGCGCTGGCCCGGGTGGAGGCTGCTCTGGCCAGCGTCGCGGGATTCGCGCCGGCTAAAGCCGGCGGAACGCAGCGCGACGCCGAGGGGCGCTGGCGGTTCAGTTTTACCCTGTCGGGAGCGCGCACCGATGCGGATTAA	MTYVVNLLPWRDLRRRQRLRYALLLATGIVLLVGTTLQAGRTAGLQRDALARIHTTADAALLASLKQREQAMREAWQQHQRQREQRQRRSTIAAWQPRLMALAAGLPAQAWLTRLEYQGARLTLDGLALNLQALARVEAALASVAGFAPAKAGGTQRDAEGRWRFSFTLSGARTDAD	PGPT0016165_240	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IVa_PILUS_HOMOLOG_PROTEIN,PGPT0016165-hofN-K12289	NA	NA
BMS020_02989	801			hypothetical protein	ATGGCTTTCAGAAACTGGCGGATCGGAATGCATATCCAACAGGATAGCATTGCCATTGTCGCGCTACTGCATGAGCGCTCACACTGGGCACTGCGCCGCTGGTGGCGCATTCCTCTGCCGCCAGGTCTGGTGCGGCAGGGGATGGTGGCGGACGTTAGCGCCCTCGGCTCACGGCTGGCCGCCTGGCGGCGGGAGCTACCGGCGCAGCATCAGATCAGTATCGCCTTTCCCGCGGCTCGCACGCTGCAAAAACGCCTGCCTTATCCCCAGTTCGCCCTGCGAGAGCGGGAACAGGCGACGTGGATAGCCAGCGCCATGACCCAGCAGCTGGCGATGCCCGCCTCCTCTCTATGTATTGATTATGCGCCCACCTCGCGGGATGACGGCTGGCAGGTGACGGCGGCGCAGCGGCTGGATATCAATGTTCTGCGGGAGCTGGCAGGGCGGCTGCGGCTGCGGGTGGCGGCCATCGTACCGGATGCCAGCGCGCTCGGCGCCTTTTTCCCCTGGGTGACGGCAGCAGAGCAAGGCCTGGCGTGGCGGGATGAAAAGTACTGGCTATGGGCGACCCAGGAGGCCTGGGGCTGTGACGCCTGCGATGCGATAGGATCCTTAAGCCAGCTGGCGGGGCAACTTCAGGTTCCTCTGCGCCTGTGCGCTGATGCGGGCGACGAGGGCAGTCGTTTTGATGTCTGGCAGGTGGTTCACCGCCGGCAGCCTCCGCTGCCAGCCGACGGCGATCGCTACGCCATTGCCCTTGGGCTGGCGCTGGGAGGCGGGCGCCATGACGTATGTCGTTAA	MAFRNWRIGMHIQQDSIAIVALLHERSHWALRRWWRIPLPPGLVRQGMVADVSALGSRLAAWRRELPAQHQISIAFPAARTLQKRLPYPQFALREREQATWIASAMTQQLAMPASSLCIDYAPTSRDDGWQVTAAQRLDINVLRELAGRLRLRVAAIVPDASALGAFFPWVTAAEQGLAWRDEKYWLWATQEAWGCDACDAIGSLSQLAGQLQVPLRLCADAGDEGSRFDVWQVVHRRQPPLPADGDRYAIALGLALGGGRHDVCR	PGPT0016160_176	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IVa_PILUS_HOMOLOG_PROTEIN,PGPT0016160-hofM-K12288	NA	NA
BMS020_02990	2559	mrcA_1	COG5009	Penicillin-binding protein 1A	GTGAAGTTCGTAAAGTATCTATTGATCCTTGCAGTCTGTTGCGTACTGCTGGGAGCAGGCTCGATTTTTGGCCTCTACAAATACATAGAGCCGCAACTCCCCGACGTCGCAACCCTGAAGGATGTGCGTTTGCAGATCCCGATGCAGGTCTATAGCGCCGACGGTGAGCTTATTGCGCAGTACGGCGAAAAGCGCCGTATCCCTGTAACGTTGCAGCAAATTCCCCCCGAGCTGGTGAAAGCGTTTATCGCCACCGAAGACAGTCGTTTCTATGAGCATCACGGCGTCGATCCGGTGGGTATTTTCCGCGCCGCCAGCGTGGCGATGTTCTCAGGCCACGCCTCGCAGGGCGCCAGCACCATCACCCAGCAGTTAGCGCGTAACTTCTTCCTCAGCCCTGAGAAGACGTTGATGCGTAAGATTAAAGAGGCCTTTCTGGCCATCCGCATCGAGCAGCTGCTGAACAAAGATGAAATCCTTGAGCTGTATCTGAACAAGATTTACCTCGGCTACCGCGCCTATGGCGTCGGCGCCGCGGCGCAGGTCTATTTTGGCAAACCTATCGACCAGCTGACCCTCAGCGAAATGGCGGTGATTGCCGGTCTGCCGAAAGCCCCGTCCACCTTTAACCCGCTCTATTCGATGGATCGCGCCACAGCCCGTCGCAACGTGGTGCTGTCGCGTATGCTGAGCGAGGGGTACATCACCCAGGCGCAATACGATGAAGCGCGCAGCGAACCCATCGACGCCAGCTACCACGCGCCGAAAATCGCCTTCTCAGCGCCTTATCTGAGCGAAATGGTGCGCCAGGAGATGGTGAATCGCTATGGCGAGCAGGCCTATGAAGATGGCTACCGGGTGTACACCACGATTACCCGCAAAAACCAGCAGGCGGCCCAGCAGGCGGTCCGCAATAACGTGCTGGATTACGATATGCGTCACGGCTACCGCGGCCCGGCCAGCGTGCTGTGGAAGGTCGGCGAAACGCCGTGGGAGGCGAAAAAGATCGTCGACGTCCTGAAGCGCCAGCCTGGCTTAGGCCCGCTTTCTCCTGCGGTGGTCACCTCCGCGACTGCCCAGGAGGCCGTCGCGCTGTTGGCTAACGGCGACTCCGTTTCACTGACGATGGACGGCGTGCGCTGGGCTCGTCGCTTTATCTCCGATACGCAGCAGGGAGCGACTCCGCGTAAAGTCAACGACGTCGTGCAGGCCGGGCAGCAGATCTGGGTTCGCAAAGTGGGTGACAGCTGGTGGCTGTCGCAGGTCCCGGACGTCAACTCGGCGCTGGTCTCCATTAACCCGCAAAACGGCGCGATTATTGCCCTTGTCGGTGGGTTTGACTTCAACCAGAGCAAGTTTAACCGCGCCACCCAGGCGCTGCGCCAGGTCGGCTCCAACATCAAGCCGTTCCTCTACACCGCTGCGATGGATAAAGGCTTAACTCTGGCAAGCATGCTCAACGATGTGCCAATCTCGCGCTGGGACGCCGGGGCCGGCTCCGACTGGCGGCCGAAAAACTCGCCGCCGCAGTATGCCGGTCCGATTCGTTTACGCCAGGGCCTGGGGCAGTCGAAAAACGTGGTAATGGTGCGCGCCATGCGCGCCATGGGCGTTGACTATGCCGCCGAGTATCTGCAGCGCTTTGGTTTCCCGGCGCAAAACATTGTCCACACCGAATCGCTGGCGCTGGGCTCCGCCTCCTTTACGCCTCTGCAGGTCGCCCGCGGGTATTCGGTGATGGCCAACGGCGGCTTCCTGGTCAACCCGTTCTTTATCAGTAAGATTGAGAATGATCAGGGTGGGGTCCTCTTCGAGGAGCGCCCGAAAATCGCCTGCCCGCAGTGTGATTTACCGGTGATTTACGGCGATACGCCAAAATCCAATGTGCTGGAAAACAAAGATGTGGAAGATGTCGCCACCTCGACGGAACCGCAGAATGGCAACGTGCCGCCGCAGCCGCAGCTGGAGCAGGCCAATCAGTCACTAGTGGCGCAGAGCGGCGCCCAGGAATACGCGCCGCATGTGATCAATACCCCGCTGGCCTTCCTGATCAAGAGCGCGCTGAACAGCAACATCTTTGGCGAACCGGGCTGGATGGGAACCGGCTGGCGCGCCGGACGGGATCTGCAGCGGCATGACATCGGCGGCAAAACCGGAACCACCAACAGCTCGAAGGACGCCTGGTTCTCAGGCTACGGGCCGGGCGTGGTGACCTCGGTTTGGATCGGCTTTGACGATCATCGTCGCGATCTTGGCCGGACCACCGCATCAGGGGCGATTAAAGATCAGATCTCCGGCTACGAAGGCGGCGCCAAAAGCGCCCAACCGGCCTGGGACAGCTTTATGAAGAGCGTGCTGGAAGGCGTTGCGGAAGAGCCGTTAACGCCGCCGCCGGGAATCGTCACGGTGAATATCGATCGCAGCACCGGTCAGCTGGCGAACGGGGGCAACAGCCGGGCGGAATACTTTATTGAGGGTACCCAGCCCACGCAGCAGGCGGTCCATGAGGTGGGCACCACCCTGACGGACGGCGGCGGTGAAACCCACGAGCTGTTCTGA	MKFVKYLLILAVCCVLLGAGSIFGLYKYIEPQLPDVATLKDVRLQIPMQVYSADGELIAQYGEKRRIPVTLQQIPPELVKAFIATEDSRFYEHHGVDPVGIFRAASVAMFSGHASQGASTITQQLARNFFLSPEKTLMRKIKEAFLAIRIEQLLNKDEILELYLNKIYLGYRAYGVGAAAQVYFGKPIDQLTLSEMAVIAGLPKAPSTFNPLYSMDRATARRNVVLSRMLSEGYITQAQYDEARSEPIDASYHAPKIAFSAPYLSEMVRQEMVNRYGEQAYEDGYRVYTTITRKNQQAAQQAVRNNVLDYDMRHGYRGPASVLWKVGETPWEAKKIVDVLKRQPGLGPLSPAVVTSATAQEAVALLANGDSVSLTMDGVRWARRFISDTQQGATPRKVNDVVQAGQQIWVRKVGDSWWLSQVPDVNSALVSINPQNGAIIALVGGFDFNQSKFNRATQALRQVGSNIKPFLYTAAMDKGLTLASMLNDVPISRWDAGAGSDWRPKNSPPQYAGPIRLRQGLGQSKNVVMVRAMRAMGVDYAAEYLQRFGFPAQNIVHTESLALGSASFTPLQVARGYSVMANGGFLVNPFFISKIENDQGGVLFEERPKIACPQCDLPVIYGDTPKSNVLENKDVEDVATSTEPQNGNVPPQPQLEQANQSLVAQSGAQEYAPHVINTPLAFLIKSALNSNIFGEPGWMGTGWRAGRDLQRHDIGGKTGTTNSSKDAWFSGYGPGVVTSVWIGFDDHRRDLGRTTASGAIKDQISGYEGGAKSAQPAWDSFMKSVLEGVAEEPLTPPPGIVTVNIDRSTGQLANGGNSRAEYFIEGTQPTQQAVHEVGTTLTDGGGETHELF	PGPT0023875_944	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023875-mrcA-K05366	NA	NA
BMS020_02991	561	nudE_1	COG0494	ADP compounds hydrolase NudE	ATGAGCAAATCATTACAAAAACCCACCATTCTCAATGTTGAAACTGTCGCCCGTTCGCGCCTCTTTAATGTCGAAAGCGTCGATCTGGAATTCAGCAACGGTGTGCGTCGCGTTTATGAACGTATGCGGCCTTCCACCCGCGAAGCGGTAATGATTGTGCCGATTGTGGATGATCATATTATTTTGATTCGCGAGTATGCCGTCGGGACGGAATCCTACGAGCTGGGCTTCTCCAAAGGGCTGATTGATCCGGGTGAAACCGTGGATGAAGCGGCCAATCGCGAGCTGAAAGAAGAGGTTGGCTTCGGCGCCAATAAGCTGACGTTCCTGAAGAAGCTCAGTATGGCTCCCTCTTACTTCTCCAGCAAAATGAACATCCTGGTGGCGGAAGATCTCTATCCGGAGTCGCTGCCGGGCGATGAGCCCGAGCCGCTGCCGCAGGTGCGCTGGCCGCTGGCGCAGCTGATGTCGCTGCTGGATGAAGAAGATTTTAACGAGGCCCGCAACGTCAGCGCGCTGTTTTTAGTGCGGGAATGGCTGCAGGCCCAGGGGAGACTCTGA	MSKSLQKPTILNVETVARSRLFNVESVDLEFSNGVRRVYERMRPSTREAVMIVPIVDDHIILIREYAVGTESYELGFSKGLIDPGETVDEAANRELKEEVGFGANKLTFLKKLSMAPSYFSSKMNILVAEDLYPESLPGDEPEPLPQVRWPLAQLMSLLDEEDFNEARNVSALFLVREWLQAQGRL	PGPT0021615_358	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021615-nudE-K08312	NA	NA
BMS020_02992	2130	igaA		Intracellular growth attenuator protein igaA	ATGGGCACCTTTCTGATATTCCTTACAGCTCTGCTAATCTGCGTATTGCTCATTGGATGGTGGTATCGCACGCACGCCAGACGCCGCCGGCTCCCCCTACTGCACGCCTTTAGCGATGCCACCACGCGGCCGCTCCCTGCCGATGAGCGCCAGGCCATCGAAAAGTATCTTGCCGAACTGAGCCGCGCCCAGCAGGTGCCCGCGTCCGGCGCCACCAGCGCGCCCGTCGCTCTGGCGCTAAACGAACAGAGCGATACCGTCTATGGGTTGACGCGAGCCATCACCCGCTACGGGATCACCACCGACGCGCCGAATAAATGGCGCTATTTTCTCGATTCGGTGGAGGTACATCTGCCGCCGTTCTGGGAACAGCATATCAACGATGAAAACAGCGTTGAGCTGATCCCCACCGACAGCCTGCCGCTGGTTATCACCCTTAACGGTCATACCCTGAGCGACTATCGTCAGGAAGCGCAAAGCTACGCTCTGGAACGCGCCTCGGCCACCCAGGCCTCGATTCGCGGCGAAGAGAGCGAACAGGTAGAGCTGCGGCAGATCCGGCGGGAAAGTCCGGAAGAGCACGCCCTGAATCGCCCGGACGGTCTGCGGGAAGCGATCCTGATCGTCGCCTCTTTCCTGGTCTTTTATTTCAGCCTGATTGGGCCAGCCGTCTTTACCCCGTGGCTGGTAGCCGCCGGTTTGCTGCTGCTCGCCGCCGGCCTGTGGGGGATCTATGCCCCGCCGCGCCGCGCCGCGCTGCGCGAAATCCACTGCCTGCGCGGCGTCCCGAAGCGCTGGGGGCTGTTCGGCGAAAACGATCAGGAACATATCAATAATATCTCGCTGGGCATTATCGATCTCATCTATCCGCGCCACTGGCAGCCCTGGATCGCCCAGGACCTCGGACAGCAGACCGATATTGATATCTATCTCAACCGCCATGTGGCCCGTCAGGGACGCTACTTGTCGCTTCATGATGAAGTGAAAAATTTCCCGCTGCAGTACTGGCTGCGCAGCGCGATTATCGCCGCCGGCGCTCTTGTGGTGGTGATCATGCTATGGGCCAGCGTACCGCTGAATATGCCGTTTAAGTTCACCCTGTCGTGGCTGAAGGGGGCGCAGACGATTGAAGCCACGACCGTCAGCCAGCTGGAAAAGGCCCATGTGCGCATTGGCGATACGCTGCGCCTGACCGGTACCGGGATGTGCAACATCCGCACGCCGGGCAGTTGGACGGCCAAAGAGGATTCGCCGTTCCTGCCTTTCGATTGTTCGCAGATTGTGTGGAACGATGCCCCTCCTCTGCCGCTGCCGGAGTCTGACATTGTCAGCAAAGCGACCGCCCTGATGGAGTCCGTCCAGCGTCAGCTGCACCCGGAAACCGACGACGACTCCCGCGTCAGCCCGGCGCTGCGCTCCGCCATTCAGAAATCTGGCATGGTGCTGCTGGATGATTTCGGCGATATCGTTCAGAAAACCAACGATCTCTGTTCGGCTGCCGATGATTGCCTGCGCCTGAAGAACGCGCTGGTTAATCTCGGCAATACCCGTAACTGGGAGACGTTAACCAAGCGCGCGTCCGCCGGGAAACTGGATGGCGTGAACGTGCTCCTGCGACCAGTCAGCGCCGAGTCGTTGGAGAATCTGGTGACCACCTCAACCGCCCCCTTTGTAATGCGTGAAACCTCGCGAGCGGCGCAGGCGCTCAACAGCCCGGCCCCGGGCGGCTTCCTCATCGCCAGCGACGAGGGCAGCGTGCTGGTCAATCAGCCGTGGCCGGCGGTAAGCCTGTATGATTACCCGGCGCATGAGCAATGGGGCGAACTGCGGCGGCTGGCCGGTATGCTGATGCATACTCCCTTCCATGCCGAAGGGATCGTCACCAATCTGTTTACTGACGCCAACGGCACCCAGCATATCAACCTGCACCGCATTCCCGACCGCAGCGGCCTGTGGCGCTATCTGGGCATCACCCTGCTGCTGCTGTCGATGGTGGGATGCATGGCTTACCACGGCGTGCAGGCGCTGCGTCGTTATCAACGCCATCGCCAGCGTATGGAAGAGATTCAGAAATATTACGAAAGCTGCCTGAACCCGGTGCTGCTCCCCTCGTCTGACCCGCAAGATTAA	MGTFLIFLTALLICVLLIGWWYRTHARRRRLPLLHAFSDATTRPLPADERQAIEKYLAELSRAQQVPASGATSAPVALALNEQSDTVYGLTRAITRYGITTDAPNKWRYFLDSVEVHLPPFWEQHINDENSVELIPTDSLPLVITLNGHTLSDYRQEAQSYALERASATQASIRGEESEQVELRQIRRESPEEHALNRPDGLREAILIVASFLVFYFSLIGPAVFTPWLVAAGLLLLAAGLWGIYAPPRRAALREIHCLRGVPKRWGLFGENDQEHINNISLGIIDLIYPRHWQPWIAQDLGQQTDIDIYLNRHVARQGRYLSLHDEVKNFPLQYWLRSAIIAAGALVVVIMLWASVPLNMPFKFTLSWLKGAQTIEATTVSQLEKAHVRIGDTLRLTGTGMCNIRTPGSWTAKEDSPFLPFDCSQIVWNDAPPLPLPESDIVSKATALMESVQRQLHPETDDDSRVSPALRSAIQKSGMVLLDDFGDIVQKTNDLCSAADDCLRLKNALVNLGNTRNWETLTKRASAGKLDGVNVLLRPVSAESLENLVTTSTAPFVMRETSRAAQALNSPAPGGFLIASDEGSVLVNQPWPAVSLYDYPAHEQWGELRRLAGMLMHTPFHAEGIVTNLFTDANGTQHINLHRIPDRSGLWRYLGITLLLLSMVGCMAYHGVQALRRYQRHRQRMEEIQKYYESCLNPVLLPSSDPQD				NA	NA	NA	NA	NA
BMS020_02993	684	yrfG	COG1011	GMP/IMP nucleotidase YrfG	ATGCATTTTGATATCGCCTGGCAGGAGGTCGATACCGTTCTGCTGGATATGGACGGCACGCTCCTGGATCTCGCTTTCGATAACTATTTCTGGCAAACGCTGGTGCCGGAAACCTGGGGGGCCGCCCGCGGCCTCAATCTGCAACAGGCGAAAGAGGCCATGCACCAGGAGTATCATGCCGTGCAGCATACGCTAAACTGGTACTGTCTGGATTACTGGAGCGAGCGCCTGGGTTTGGATATTTGTGCGATGACCAGCGAACAGGGTCCGCGCGCCACGCTGCGTGAGGATACCGTGCCGTTCCTTGATGCGCTCAAGGCCAGCGGTAAGCGACGTATTCTGTTGACCAATGCCCATCCCCACAATCTGGCGGTGAAACTCAAACACACCGGCCTGGATGCGCACCTTGATTTATTACTTTCCACCCACACATTTGGTTATCCGAAAGAGGATCAGCGTCTGTGGCGCGCCGTGGCGGAGGAAACCGGCCTTGAGGCGCATAAAACGCTGTTTGTCGACGACAGCGAGGCGATTCTGGATGCCGCGAGGGAGTTTGGCATTCGCTACTGCCTGGGCATTACCAATCCCGACTCCGGGCTGGCGGAAAAGCAGTATCTGCGCCATCCGGGGCTGAATGATTACCGACGACTGATCCCTTCGCTTACCCCGAAGGAGAGGCGATGA	MHFDIAWQEVDTVLLDMDGTLLDLAFDNYFWQTLVPETWGAARGLNLQQAKEAMHQEYHAVQHTLNWYCLDYWSERLGLDICAMTSEQGPRATLREDTVPFLDALKASGKRRILLTNAHPHNLAVKLKHTGLDAHLDLLLSTHTFGYPKEDQRLWRAVAEETGLEAHKTLFVDDSEAILDAAREFGIRYCLGITNPDSGLAEKQYLRHPGLNDYRRLIPSLTPKERR	PGPT0013415_195	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013415-yrfG-K20881	NA	NA
BMS020_02994	402	hslR_1	COG1188	Heat shock protein 15	ATGAAAGAGAAGCCTGCCGAAACCGTCAGACTGGATAAATGGCTTTGGGCCGCCCGCTTTTACAAGACCCGCGCGCTGGCGCGGGAGATGATTGAAGGCGGCAAGGTGCATTACAACGGACAACGCAGCAAACCAGGGAAAATCGTCGAACTGGACGCCATGCTGACGCTGCGTCAGGGCAACGACGAGCGGACGGTGCGCATCGTCGGTATCACCGAGCAGCGCCGCCCGGCAAGCGAAGCCGTCACCCTGTATGAAGAGACGGCGGAGAGTATCGAGAAGCGTGAAAAAATGGCCCTGGCGCGCAAAATGAACGCCCTGACCATGCCGCACCCTGACAGACGTCCGGACAAGAAAGAGCGCCGCGACCTGATGAGATTTAAACACGGCGAGAGTGATTAA	MKEKPAETVRLDKWLWAARFYKTRALAREMIEGGKVHYNGQRSKPGKIVELDAMLTLRQGNDERTVRIVGITEQRRPASEAVTLYEETAESIEKREKMALARKMNALTMPHPDRRPDKKERRDLMRFKHGESD	PGPT0014620_1059	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014620-hslR|yrfH-K04762	NA	NA
BMS020_02995	879	hslO_1	COG1281	33 kDa chaperonin	ATGACTCAACACGATCAATTACATCGTTATCTGTTTGAAAACTATGCCGTGCGCGGCGAGCTGGTGACGGTGTCGGAAACCCTGGAACAGATACTGGCGAATCACACTTATCCCCAGCCGGTGAAAACGGTGCTGGCGGAGCTGCTGGTCGCCACCAGTCTGCTGACTGCGACCCTGAAGTTTGCCGGCGACATTACCGTGCAGCTGCAGGGCGATGGGCCTTTACAGCTGGCGGTGATCAACGGCAATAACCAGCAGCAGCTGCGCGGTGTCGCGCGCGTGCAGGGCGAGATTGCGGACGATGCGGATCTGAAAGCGATGGTCGGCAACGGTTATCTGGTCATTACCATCTCCCCGGAAGAGGGTGAGCGCTATCAGGGCGTGGTCGGTCTGGAAGGCGATACGCTGGCCGCCTGCCTGGAAGATTACTTCCAGCGTTCAGAGCAGCTGCCGACGCGCCTTATCATCCGCACCGGCGAACATGAAGGCCAGCCGATGGCGGGCGGGATGCTGCTGCAGGTGATGCCGGCCCAGGATGCCCAGACTGCCGACTTTGAGCACCTGGCGACGCTCACCGAGACCATCAAGGCGGAAGAGCTGTTCACCCTGCCGGCGAACGATGTGCTGTGGCGTCTGTACCATGAAGAAGAAGTCACGGTCTACGATCCGCAGAGCGTGGAGTTCAAGTGCACCTGCTCCCGCGAACGCTGCGCCGGCGCGCTGAAGACGCTGCCGGACGAAGAGATAGATAGCATCCTTGCCGACGAAGGCGAGATTGATATGCACTGCGACTACTGCGGTAACCACTATATCTTCAACGCCATGGACATCGCCGAGATCCGTAACAACGCCTCTCCGGCCGACCCGCAGGTCCATTAA	MTQHDQLHRYLFENYAVRGELVTVSETLEQILANHTYPQPVKTVLAELLVATSLLTATLKFAGDITVQLQGDGPLQLAVINGNNQQQLRGVARVQGEIADDADLKAMVGNGYLVITISPEEGERYQGVVGLEGDTLAACLEDYFQRSEQLPTRLIIRTGEHEGQPMAGGMLLQVMPAQDAQTADFEHLATLTETIKAEELFTLPANDVLWRLYHEEEVTVYDPQSVEFKCTCSRERCAGALKTLPDEEIDSILADEGEIDMHCDYCGNHYIFNAMDIAEIRNNASPADPQVH	PGPT0014645_2202	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014645-hsp33|hslO-K04083	NA	NA
BMS020_02996	1623	pckA_2	COG1866	Phosphoenolpyruvate carboxykinase (ATP)	ATGCGCGTTAATCATGGTTTAACCCCGCAGGATCTCAAGGCTTATGGTATCAATGACGTTCAGGATATCGTCCACAACCCCAGCTACGACATGTTGTTTCAGGAAGAGCTCGACCCCAACCTGGAAGGCTACGAACGTGGCGTATTAACCAGTCTGGGTGCTATCGCCGTCGACACGGGCATTTTTACCGGTCGTTCTCCGAAAGATAAGTACCTCGTGCGCGACGACACCACCCGCGATACCGTCTGGTGGTCCGATAAAGGCAAGGGTAAAAACGACAACAAGCCGCTTTCGCAGGAAACCTGGCAGCATCTGAAAGGGCTGGTGACACAGCAGCTGTCCGGTAAACGCCTGTTTATCGTCGACGCCTTCTGCGGCGCTAACGCCGATACCCGTCTCAGCGTACGTTTCATTACCGAAGTGGCCTGGCAGGCGCACTTCGTGAAGAACATGTTCATTCGCCCGAGCGACGAAGAGCTGGCGGAATTCGCGCCGGACTTCATCGTGATGAACGGCGCGAAGTGCACCAACCCGCAGTGGAAAGAGCAGGGCCTGAACTCGGAAAACTTCATCGCTTTCAACCTCACCGAGCGCATTCAGCTGATCGGCGGCACCTGGTACGGTGGCGAAATGAAGAAAGGGATGTTCTCGATCATGAACTACCTGCTGCCGCTGAAGGGCATCGCCTCCATGCACTGTTCTGCCAACGTCGGCGAGAAAGGCGATGTCGCCATTTTCTTCGGCCTCTCAGGCACCGGCAAAACCACCCTTTCCACCGATCCGAAACGCCGCCTGATTGGCGATGACGAACATGGCTGGGATGACGATGGGGTGTTTAACTTCGAAGGGGGCTGCTACGCCAAGACCATCAAGCTCTCTGAAGCGGCCGAGCCGGATATCTATCACGCCATCCGCCGCAACGCCCTGCTGGAAAACGTGGTGGTGCGCGCCGACGGCACGATCGATTTCGATGACGGTTCAAAAACCGAAAACACCCGCGTCTCCTACCCCATCAACCATATCGATAATATCGTCAAACCGGTCTCCAAAGCGGGTCACGCCACCAAAGTGATCTTCCTGACGGCCGATGCGTTCGGCGTACTGCCGCCGGTCTCCCGCCTGACCGCCGATCAGACGCAGTACCATTTCCTGTCCGGGTTTACCGCCAAACTGGCCGGCACCGAGCGCGGCGTGACCGAACCCACGCCAACCTTCTCCGCCTGCTTCGGCGCCGCCTTCCTGTCGCTGCATCCGACGCAGTACGCCGAAGTGCTGGTCAAACGTATGCAGGCGGCTGGCGCGCAGGCTTATCTGGTCAATACCGGCTGGAACGGCACCGGCAAGCGCATCTCGATTAAAGATACCCGCGCCATCATCGACGCCATCCTCAATGGCTCGCTGGACAACGCGGAGACCTTTACCCTGCCGATGTTTAATCTGCAGATCCCGACGGCGCTCCCGGGCGTGGATACTCAGATCCTCGATCCGCGCAGCACCTATGGTTCCCCGGAGCAGTGGCAGGAAAAAGCCGACCAGCTGGCGAAGCTGTTTATTGAGAACTTTGAGAAGTATACCGATACGCCAGCGGGCGCCGCGCTGGTGGCGGCAGGGCCGCAGCGCTAA	MRVNHGLTPQDLKAYGINDVQDIVHNPSYDMLFQEELDPNLEGYERGVLTSLGAIAVDTGIFTGRSPKDKYLVRDDTTRDTVWWSDKGKGKNDNKPLSQETWQHLKGLVTQQLSGKRLFIVDAFCGANADTRLSVRFITEVAWQAHFVKNMFIRPSDEELAEFAPDFIVMNGAKCTNPQWKEQGLNSENFIAFNLTERIQLIGGTWYGGEMKKGMFSIMNYLLPLKGIASMHCSANVGEKGDVAIFFGLSGTGKTTLSTDPKRRLIGDDEHGWDDDGVFNFEGGCYAKTIKLSEAAEPDIYHAIRRNALLENVVVRADGTIDFDDGSKTENTRVSYPINHIDNIVKPVSKAGHATKVIFLTADAFGVLPPVSRLTADQTQYHFLSGFTAKLAGTERGVTEPTPTFSACFGAAFLSLHPTQYAEVLVKRMQAAGAQAYLVNTGWNGTGKRISIKDTRAIIDAILNGSLDNAETFTLPMFNLQIPTALPGVDTQILDPRSTYGSPEQWQEKADQLAKLFIENFEKYTDTPAGAALVAAGPQR	PGPT0001405_759	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001405-pckA-K01610	NA	NA
BMS020_02997	1356	envZ_2		Osmolarity sensor protein EnvZ	ATGAAACGCGTGCGCTTTTCGCCGCGCAGCTCCTTTGCTCGCACGCTGCTCCTGATCGTCACCTTGCTGTTCGTCAGCCTGGTGACGACCTATCTGGTGGTACTGAATTTCGCGATCCTGCCGAGCCTCCAGCAGTTTAATAAAGTATTGGCCTACGAAGTGCGTATGCTGATGACCGATAAGCTGCAGCTGGAGGATGGCACCCAACTGGTGGTGCCCCCGGCGTTTCGTCGTGAAATTTATCGCGAGCTGGGGATTTCGCTCTATTCCAATGAAGCGGCGGAAGACGCAGGCCTGCGCTGGGCGCAGCATTATGAATTCTTGAGCCAGCAGATGGCTCATCAGCTTGGCGGCCCCACTGAGGTGCGGGTGGAGGTCAATAAAAGCTCCCCCGTGGTGTGGCTGAAGACCTGGCTGTCGCCCAATATCTGGGTGCGGGTGCCGCTGACCGAGATCCATCAGGGCGACTTCTCGCCGCTGTTCCGCTATACCCTGGCGATCATGCTGCTGGCGATAGGCGGCGCCTGGCTGTTTATCCGTATTCAGAACCGCCCGCTGGTGGATCTGGAGCATGCGGCGCTGCAGGTCGGGCGCGGCATTATCCCGCCGCCGCTGCGCGAGTACGGCGCCTCTGAGGTGCGATCGGTGACCCGCGCCTTCAACCACATGGCCGCGGGCGTGAAGCAGCTGGCCGACGACCGTACGCTGCTGATGGCCGGGGTCAGCCATGATTTACGTACTCCGCTGACCCGCATTCGTCTGGCCACCGAGATGATGGGCGAGCAGGACGGCTATCTCGCGGAGTCGATCAACAAAGATATCGAAGAGTGCAATGCCATCATCGAGCAGTTTATCGACTACCTGCGCACCGGGCAGGAGATGCCGCTGGAACTGGCGGATCTGAATGCGGTGCTGGGGGAAGTGATCGCTGCGGAGAGCGGCTATGAGCGGGAGATCGCCACCGCCCTGCAGGCCGGCGAAATTCCGGTACGCATGCATCCTCTGTCTATCAAGCGCGCGCTGGCGAATATGGTGGTCAACGCGGCCCGCTATGGCAATGGCTGGATCAAGGTCAGCAGCGGCAGCGAAGCGAGCCGGGCGTGGTTCCAGGTTGAAGATGACGGACCGGGGATTAAACCTGAGCAGCGGGAGCACCTGTTTCAGCCGTTTGTGCGCGGCGACAGCGCCCGCAGCACCAGCGGAACCGGGCTGGGGTTGGCGATTGTTCAGCGTATTATCGACAATCACAACGGCCGGCTGGAGATTGGCTCCAGCGAACGCGGCGGGTTACTGATCCGCGCCTGGTTGCCGGTGCACCGGGTGCTGACGCCGATGAAACCGGCCAAAGAGAGCTGA	MKRVRFSPRSSFARTLLLIVTLLFVSLVTTYLVVLNFAILPSLQQFNKVLAYEVRMLMTDKLQLEDGTQLVVPPAFRREIYRELGISLYSNEAAEDAGLRWAQHYEFLSQQMAHQLGGPTEVRVEVNKSSPVVWLKTWLSPNIWVRVPLTEIHQGDFSPLFRYTLAIMLLAIGGAWLFIRIQNRPLVDLEHAALQVGRGIIPPPLREYGASEVRSVTRAFNHMAAGVKQLADDRTLLMAGVSHDLRTPLTRIRLATEMMGEQDGYLAESINKDIEECNAIIEQFIDYLRTGQEMPLELADLNAVLGEVIAAESGYEREIATALQAGEIPVRMHPLSIKRALANMVVNAARYGNGWIKVSSGSEASRAWFQVEDDGPGIKPEQREHLFQPFVRGDSARSTSGTGLGLAIVQRIIDNHNGRLEIGSSERGGLLIRAWLPVHRVLTPMKPAKES	PGPT0012975_688	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012975-envZ-K07638	NA	NA
BMS020_02998	720	ompR_3		Transcriptional regulatory protein OmpR	ATGCAAGAGAATTATAAGATTCTGGTTGTGGATGACGACATGCGCCTGCGTGCGCTGCTCGAACGTTATCTGACCGAGCAGGGCTTCCAGGTTCGTAGCGTGGCGAACGCCGAACAGATGGATCGTCTGTTAACCCGCGAATCCTTCCACCTGATGGTGCTGGATCTGATGCTGCCCGGGGAAGATGGTCTCTCGATTTGCCGCCGTTTGCGCAGCCAGAGCAACCCGATGCCGATCATTATGGTGACGGCGAAAGGCGAAGAGGTCGATCGGATCGTGGGCCTGGAGATTGGGGCTGACGACTATATTCCGAAGCCGTTCAACCCGCGCGAACTGCTGGCCCGCATCCGGGCGGTGCTGCGCCGTCAGGCGAACGAGCTGCCGGGCGCGCCGTCGCAGGAAGAGGCGGTTATCGCCTTTGGTAAATTCAAACTGAACCTGGGCACCCGCGAAATGTTCCGTGAAGACGAGCCGATGCCGTTGACCAGCGGCGAGTTCGCGGTCCTGAAGGCGCTGGTGAGCCATCCTCGTGAGCCGCTGTCGCGCGATAAGTTAATGAACCTCGCTCGCGGCCGCGAATACTCTGCGATGGAGCGTTCCATCGACGTACAGATCTCCCGCCTGCGCCGCATGGTGGAAGAGGACCCGGCGCATCCGCGCTATATCCAGACCGTCTGGGGTCTGGGCTACGTCTTCGTCCCGGACGGTTCTAAGGCATGA	MQENYKILVVDDDMRLRALLERYLTEQGFQVRSVANAEQMDRLLTRESFHLMVLDLMLPGEDGLSICRRLRSQSNPMPIIMVTAKGEEVDRIVGLEIGADDYIPKPFNPRELLARIRAVLRRQANELPGAPSQEEAVIAFGKFKLNLGTREMFREDEPMPLTSGEFAVLKALVSHPREPLSRDKLMNLARGREYSAMERSIDVQISRLRRMVEEDPAHPRYIQTVWGLGYVFVPDGSKA	PGPT0012985_603	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
BMS020_02999	474	greB_1	COG0782	Transcription elongation factor GreB	ATGAAAACGCCGCTGATCACCCGCGAGGGATATGAAAAACTGAAGCAGGAGATGGACTACCTGTGGCGCCAGGAGCGCCCGGAAGTGACCAAAAAGGTGACCTGGGCCGCCAGCCTTGGCGACCGCAGCGAGAACGCGGATTACCAGTACAACAAAAAGCGCCTGCGCGAGATCGATCGCCGGGTCCGCTATCTGACCAAATGTCTGGAACAGTTAAAGATCGTCGATTACTCCCCGCAGCAGGAGGGCAAAGTCTTCTTCGGCGCCTGGGTAGAAATTGAAAACGATGAAGGCGATATCAAGCGCTTTCGCATCGTCGGTTACGATGAAATTTTTGGCCGCAAAGACTATATCTCCATCGACTCGCCGATGGCGCGCGCGCTGTTAAAAAAAGAGGTCGGCGATCTGGCCATCGTTAACACGCCGGCGGGGGAAGCCAGCTGGTATGTCAACGAGATCGAATACGTAAAATAG	MKTPLITREGYEKLKQEMDYLWRQERPEVTKKVTWAASLGDRSENADYQYNKKRLREIDRRVRYLTKCLEQLKIVDYSPQQEGKVFFGAWVEIENDEGDIKRFRIVGYDEIFGRKDYISIDSPMARALLKKEVGDLAIVNTPAGEASWYVNEIEYVK	PGPT0030495_3825	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSCRIPTIONAL_CONTROL	PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624
BMS020_03000	2331	yhgF_1	COG2183	Protein YhgF	ATGATGAATGATTCGCTCTGCCGCATTATTGCGGGTGAACTTCAGGCCAGAGCCGAACAGGTAGAAGCTGCCGTTCGCCTGCTTGATGAAGGGAACACCGTGCCGTTTATTGCACGATATCGTAAAGAAGTCACCGGCGGTCTGGATGACACGCAGCTGCGTAATCTGGAAACCCGCCTCGGCTACCTGCGCGAACTCGAAGACCGTCGTCAGGCGATCCTCAAATCCATCGCTGAACAGGGCAAACTGACCGACGCGCTGGAAAAAGCCATCAATACCACGCTCAGCAAAACCGAACTGGAAGACCTCTACCTGCCGTACAAGCCGAAGCGCCGTACCCGCGGACAGATCGCCATCGAAGCCGGGCTGGAGCCGCTGGCTGACCTGCTGTGGAACGAACCGTCCCACGATCCGGAAACGGAAGCCGCAAAATATATTGACGCCGATAAAGGCGTGGCCGACAGCAAAGCGGCGCTGGATGGCGCGCGCTATATTCTGATGGAGCGTTTTGCCGAAGACGCCGCGCTGCTGGCGAAGGTCCGTGACTATCTGTGGAAAAACGCCCACCTGGTTTCCACCGTCGTCAGCGGCAAAGAAGAGGAAGGCGCCAAATTCCGCGACTACTTCGATCACCACGAACCGATCGCCGCCGTGCCGTCGCATCGTGCGCTGGCGATGTTCCGCGGCCGCAATGAAGGCGTCCTGCAGCTCTCTTTAAACGCCGACCCGCAGTTTGACGAGCCGCCGAAAGAGAGCCACGGCGAGCAGATTATTATCGACCACCTGGGCCTGCGCCTGAACAACGCCCCGGCGGACAGCTGGCGTAAAGGCGTCGTCAGCTGGACCTGGCGGATCAAAGTCCTGATGCACCTCGAAACCGAGCTGATGGGCACCGTGCGCGAGCGCGCCGAAGACGAAGCCATTAACGTCTTCGCCCGCAACCTGCACGACCTGCTGATGGCGGCGCCCGCCGGGCTGCGCGCCACCATGGGCCTTGACCCGGGCCTGCGCACCGGGGTGAAAGTGGCCGTGGTTGACGGTACCGGCAAACTGGTGGCGACGGACACCATTTACCCCCACACCGGCCAGGCCGCCAAAGCGGCCGTCGCCGTCGCCGCGCTGTGTGAGAAGTACAACGTTGAGCTGGTGGCCATCGGCAACGGTACCGCCTCGCGTGAAACCGAGCGTTTCTTCCTCGACGTGCAGAAGCAGTTCCCGAAGGTCACCGCCCAGAAGGTGATCGTCAGCGAAGCCGGGGCTTCCGTTTACTCCGCCTCCGAGCTGGCGGCGCAGGAGTTCCCGGACCTCGACGTGTCGCTGCGCGGCGCGGTCTCCATCGCCCGCCGTCTGCAGGATCCTCTGGCCGAGCTGGTGAAAATCGACCCGAAATCCATCGGCGTCGGTCAGTATCAGCATGATGTCAGCCAGACCCAGCTGGCGCGTAAGCTGGACGCGGTGGTGGAAGACTGCGTGAACGCCGTCGGCGTTGACCTGAACACCGCCTCCGTGCCGCTGCTGACCCGCGTTGCCGGCCTGACCCGCATGATGGCGCAGAACATCGTCGCCTGGCGCGACGAGAATGGCCAGTTCCAGAACCGTCAGCAGCTGCTGAAGGTCAGCCGTCTGGGGCCGAAAGCCTTTGAACAGTGCGCCGGCTTCCTGCGTATCAACCACGGCGACAACCCGCTGGACGCCTCCACCGTTCACCCGGAAGCCTATCCGGTGGTCGAGCGCATTCTGGCGGCGACTCAGCAGGCGCTGAAAGATCTGATGGGCAACAGCAGCGAGCTACGGAACCTGAAAGCCGTCGATTTCACCGATGAGAAGTTCGGCGTGCCGACGGTTTCCGACATTATCAAAGAGCTGGAAAAACCGGGCCGCGACCCGCGTCCTGAGTTCAAAACCGCTCAGTTCGCCGACGGCGTGGAGACTATGAACGACCTGCTGCCGGGGATGATCCTCGAAGGCGCGGTGACTAACGTCACCAACTTCGGCGCGTTTGTTGATATCGGCGTTCACCAGGACGGCCTGGTGCATATCTCTTCCCTTTCGAACAAGTTCGTTGAAGACCCGCATACGGTGGTGAAAGCGGGCGACATCGTGAAGGTCAAGGTCATGGAAGTCGATCTGCCGCGTAAGCGTATCGCCCTGACCATGCGTCTCGACGAGCAGCCGGGCGACAGCAACGCCCGCCGCGGCGGCGGTCAGGATCGCCCGCAGGGCAATCGCCCGGCCGCGAAAGCCGCCAAACCCCGCGGTCGCGACGCGCAGCCTGCCGGCAACAGCGCGATGATGGATGCCCTCGCCGCGGCGATGGGTAAAAAACGCTAA	MMNDSLCRIIAGELQARAEQVEAAVRLLDEGNTVPFIARYRKEVTGGLDDTQLRNLETRLGYLRELEDRRQAILKSIAEQGKLTDALEKAINTTLSKTELEDLYLPYKPKRRTRGQIAIEAGLEPLADLLWNEPSHDPETEAAKYIDADKGVADSKAALDGARYILMERFAEDAALLAKVRDYLWKNAHLVSTVVSGKEEEGAKFRDYFDHHEPIAAVPSHRALAMFRGRNEGVLQLSLNADPQFDEPPKESHGEQIIIDHLGLRLNNAPADSWRKGVVSWTWRIKVLMHLETELMGTVRERAEDEAINVFARNLHDLLMAAPAGLRATMGLDPGLRTGVKVAVVDGTGKLVATDTIYPHTGQAAKAAVAVAALCEKYNVELVAIGNGTASRETERFFLDVQKQFPKVTAQKVIVSEAGASVYSASELAAQEFPDLDVSLRGAVSIARRLQDPLAELVKIDPKSIGVGQYQHDVSQTQLARKLDAVVEDCVNAVGVDLNTASVPLLTRVAGLTRMMAQNIVAWRDENGQFQNRQQLLKVSRLGPKAFEQCAGFLRINHGDNPLDASTVHPEAYPVVERILAATQQALKDLMGNSSELRNLKAVDFTDEKFGVPTVSDIIKELEKPGRDPRPEFKTAQFADGVETMNDLLPGMILEGAVTNVTNFGAFVDIGVHQDGLVHISSLSNKFVEDPHTVVKAGDIVKVKVMEVDLPRKRIALTMRLDEQPGDSNARRGGGQDRPQGNRPAAKAAKPRGRDAQPAGNSAMMDALAAAMGKKR				NA	NA	NA	NA	NA
BMS020_03001	228	feoA	COG1918	Fe(2+) transport protein A	ATGCAATTCACACCTGATAGTGCGTGGAAAATTACCGGATTTTCCCGCGATATTAGCCCAGCATACCGTCAGAAATTGCTCTCCCTCGGCATGCTGCCCGGATCCTCTTTTCATGTGGTGCGCGTGGCGCCGCTCGGCGATCCTGTTCATATTGAAACCCGACGCGTCAGTCTGGTATTACGCAAAAAAGATCTCGCCTTAATCGAACTGGAAGCGGTTGCACAATAA	MQFTPDSAWKITGFSRDISPAYRQKLLSLGMLPGSSFHVVRVAPLGDPVHIETRRVSLVLRKKDLALIELEAVAQ	PGPT0003695_2110	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003695-feoA-K04758	NA	NA
BMS020_03002	2319	feoB_1	COG0370	Fe(2+) transporter FeoB	ATGAAAAAATTAACCGTTGGTTTAATTGGTAATCCTAATTCCGGCAAGACTACCCTGTTTAATCAGCTGACCGGCGCCCGCCAGCGCGTGGGCAACTGGGCCGGGGTCACCGTTGAGCGTAAAGAGGGCGTGTTCGCCACCACTGACCACCAGGTCACGCTGGTCGACCTCCCGGGAACCTACTCTCTGACCACCATCTCTTCGCAAACCTCGCTGGACGAGCAGATCGCCTGCCACTACATCCTCAGCGGCGACGCCGACATGCTGATTAACGTGGTCGACGCCTCCAACCTCGAGCGAAACCTCTATTTGACGCTGCAGCTGCTCGAGCTGGGGATCCCCTGCGTCGTGGCGCTGAACATGCTGGATATTGCCGAAAAGCAGCAGGTGCGTATCGATATCGATGCCCTCGCCGCACGCCTCGGCTGCCCGGTCATTCCGCTGGTTTCGACCCGCGGACGCGGGATCGAAGCGCTGAAGATTGCCCTCGACCGTCATCAGGCGAACAGCGATATCGAGCTGGTCCACTATCCACAGCCGCTGCTGCGCGAAGCCGACCTGCTGGCGCAGCAGATGTCAGCGCAGATCCCGGCCCGGCAGCGGCGCTGGCTCGGTCTGCAGATGCTGGAGGGCGACATCTACAGCCGGGCCTATGCCGGCGACGCCGCCGATAAACTGGATATCGCCCTGGCGAATCTCAGCGACGAGATCGACGACCCGGCTCTGCATATCGCTGACGCGCGCTATCAGACCATCGCCGCCATTTGCGACGCCGTCAGTAACACCCTGACCGCCGAGCCAAGCCGCTTCACCGCGGCGATGGACAAAGTGATCCTCAACCGCTTCCTCGGGTTGCCGATTTTTCTCTTTGTTATGTATCTGATGTTCCTGCTGGCCATCAACATCGGCGGCGCGCTGCAGCCGATTTTCGACGCCGGCTCGGTCGCGGTCTTTATTCACGGTATTCAATGGCTGGGTTACACCCTGCACTTCCCGGACTGGCTGACCGTCTTCCTCGCCCAGGGGATCGGCGGCGGTATCAACACCGTACTGCCGCTGGTGCCGCAGATCGGCATGATGTATCTGTTCCTCTCCTTCCTCGAGGACTCCGGCTACATGGCGCGCGCCGCCTTTGTCATGGACCGCCTGATGCAAGCTCTCGGCCTGCCGGGGAAATCCTTTGTCCCGTTGATTGTCGGTTTCGGCTGCAACGTGCCGTCGGTGATGGGCGCCCGCACCCTCGACGCCCCGCGCGAACGTCTGATGACCATTATGATGGCGCCGTTTATGTCCTGCGGCGCGCGGCTGGCGATCTTCGCCGTCTTCGCGGCCGCCTTTTTTGGTCAGAACGGCGCGCTGGCGGTCTTCTCGCTCTACGTGCTGGGCATTGTGATGGCCATTCTCACCGGCCTGATGCTGAAGCACACCATTATGCGCGGCGAAGCCTCGCCGTTCGTGATGGAGCTGCCGGTGTACCACGTCCCGCATATTAAGAGCCTGATTATCCAGACCTGGCAGCGCCTGAAAGGCTTTGTGCTGCGCGCCGGGAAGGTGATCGTCATTGTCAGCATCTTCCTCAGCGCGCTGAACAGCTTTTCGCTGAGCGGTAAGGTCGTCGACAACATCAACGACTCCGCGCTGGCCTCGGTGAGCCGGGTCATCACTCCGCTGTTTAAGCCGATCGGCGTGCATGAAGATAACTGGCAGGCCACCGTGGGTCTGTTTACCGGCGCAATGGCGAAGGAGGTGGTGGTCGGTACGCTGAACACCCTCTATACCGCCGAAGATATCCAGAACGAGGAGTTCAATCCGCAGACCTTCAGCCTCGGCGAGGAACTGCTGGCCGCCGTCGACGAAACATGGCAGGGACTGAAAGACACCTTCAGCCTCAGCGTCCTGGCCAACCCCATCGAAGCCAGCAAAGGCGATGGCGAAATGGCCACCGGCGCGATGGGCGTGATGGGCAGTAAATTTGGCAGCGCCGCGGCGGCTTACAGCTACCTGATCTTCGTTCTTCTCTATATCCCCTGCATCTCGGTGATGGGGGCCATCGCCCGCGAATCGAGCCGCGGTTGGATGACCTTCTCCATTCTGTGGGGACTGAATATCGCCTATTCGCTCTCGACGCTCTACTACCAGACCGTCAGCTTTAGCGACCATCCGCGCTACAGCCTGGTGTGTATCCTGGCGGTGATATTGTTCAACGTGGTGCTCTTCGGTCTGCTGCGTCGGGCGCGCAGCCGGGTTGACGTCTCGCTGCTGGCCACCCGGAAAACGCCGGCCTCCTGTTGTTCCAGCCCGGCTGGCGATTGCCACTAA	MKKLTVGLIGNPNSGKTTLFNQLTGARQRVGNWAGVTVERKEGVFATTDHQVTLVDLPGTYSLTTISSQTSLDEQIACHYILSGDADMLINVVDASNLERNLYLTLQLLELGIPCVVALNMLDIAEKQQVRIDIDALAARLGCPVIPLVSTRGRGIEALKIALDRHQANSDIELVHYPQPLLREADLLAQQMSAQIPARQRRWLGLQMLEGDIYSRAYAGDAADKLDIALANLSDEIDDPALHIADARYQTIAAICDAVSNTLTAEPSRFTAAMDKVILNRFLGLPIFLFVMYLMFLLAINIGGALQPIFDAGSVAVFIHGIQWLGYTLHFPDWLTVFLAQGIGGGINTVLPLVPQIGMMYLFLSFLEDSGYMARAAFVMDRLMQALGLPGKSFVPLIVGFGCNVPSVMGARTLDAPRERLMTIMMAPFMSCGARLAIFAVFAAAFFGQNGALAVFSLYVLGIVMAILTGLMLKHTIMRGEASPFVMELPVYHVPHIKSLIIQTWQRLKGFVLRAGKVIVIVSIFLSALNSFSLSGKVVDNINDSALASVSRVITPLFKPIGVHEDNWQATVGLFTGAMAKEVVVGTLNTLYTAEDIQNEEFNPQTFSLGEELLAAVDETWQGLKDTFSLSVLANPIEASKGDGEMATGAMGVMGSKFGSAAAAYSYLIFVLLYIPCISVMGAIARESSRGWMTFSILWGLNIAYSLSTLYYQTVSFSDHPRYSLVCILAVILFNVVLFGLLRRARSRVDVSLLATRKTPASCCSSPAGDCH	PGPT0003700_450	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003700-feoB-K04759	NA	NA
BMS020_03003	240	feoC		putative [Fe-S]-dependent transcriptional repressor	GTGGCGTCGTTAATGGAAGTCCGCGATATGCTGGCCCTGCAGGGCCGCATGGAGGCGAAACAGCTCAGCGCCCGCCTGCGGACGCCTCAGCCGCTGATTGACGCCATGCTCGAACGCATGGAAGCCATGGGTAAGGTGGTACGGATCAGCGAAACCAGCGAGGGCTGTCTCTCCGGCAGCTGTAAAAGCTGTCCTGAAGGGAAAGCGGCGTGCCAGCAGGAGTGGTGGGCGCTGCGATGA	MASLMEVRDMLALQGRMEAKQLSARLRTPQPLIDAMLERMEAMGKVVRISETSEGCLSGSCKSCPEGKAACQQEWWALR	PGPT0003705_65	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003705-feoC-K07490	NA	NA
BMS020_03004	270			hypothetical protein	ATGAAACTTGTTACAGGAATGGTTGCATCTCTGGTGATTGGCTGTCTGTCTTTTGGCGCATTCGCAGCGAAAGAGATCCAAAAAGAGGACGTGGCGAAGATGAATCTGACCAAGGTCGGCAGCATCACGACCTCAAGGACGACCTCGCCGATGGACGCCCGACGCGATCTGTCGAAAAAAGCCGATGAGCTGGGTGGAAAATACTTTGTGGTGATTGCCGGGCAGAAAAACGAAAAAACCGTCCACGCTAACGCTGACGTGTATAAATAA	MKLVTGMVASLVIGCLSFGAFAAKEIQKEDVAKMNLTKVGSITTSRTTSPMDARRDLSKKADELGGKYFVVIAGQKNEKTVHANADVYK				NA	NA	NA	NA	NA
BMS020_03005	774	bioH_1	COG0596	Pimeloyl-[acyl-carrier protein] methyl ester esterase	ATGAACGACATCTGGTGGCAAACAATCGGCGAAGGTGATTGTCATCTTGTGCTGCTGCACGGTTGGGGGCTGAACGCTCAGGTCTGGGATTGCATCACGCCGCAGCTGGCTTCGCATTTTACCCTTCACCTGGTGGACCTGCCGGGCTATGGCCGTAGCGGCGGGTTTGGGGCGATGTCGCTGGAGGCGATGGCGCAGCGGGTGCTGGAGCAGGCTCCGCCTCAGGCGGTATGGCTGGGCTGGAGCCTGGGCGGGCTGGTGGCCAGCCAGATCGCGATAAGGTGCCCGCAACGGGTGCAGGCGCTGGTAACGGTCGCCTCTTCCCCCTGTTTCGCGGCCCATGAGGACTGGCCGGGCATCAAGCCGGAGGTGCTGGCCGGGTTTCAGCAGCAGCTGAGCGAGGATTTCCAGCGTACCGTCGAGCGGTTCCTCGCCCTGCAAACCATGGGAACGGAGAGCGCCCGTCAGGATGCGCGGGCGTTAAAGCAGGCGGTGCTCTCGCTGCCGATGCCTTCCGCTGAGGCGCTGAACGGCGGTCTGGAGATCCTCAGAACCGTCGATCTGCGTCAGGCGCTGGTCGGACTGCCGATGCCGTTTCTGCGGCTGTACGGTCGGCTGGACGGGCTGGTGCCGCGTAAGATTGTCCCGCTGCTGGATAAGCTATGGCCGGAAAGTGAGTCCATTCTCTTTGACAAGGCAGCGCATGCGCCGTTTGTTTCCCATCCCGCAGCCTTCTGCGAGCCGCTGCTGGCGTTGAAAAAACGGCTGGGGTAA	MNDIWWQTIGEGDCHLVLLHGWGLNAQVWDCITPQLASHFTLHLVDLPGYGRSGGFGAMSLEAMAQRVLEQAPPQAVWLGWSLGGLVASQIAIRCPQRVQALVTVASSPCFAAHEDWPGIKPEVLAGFQQQLSEDFQRTVERFLALQTMGTESARQDARALKQAVLSLPMPSAEALNGGLEILRTVDLRQALVGLPMPFLRLYGRLDGLVPRKIVPLLDKLWPESESILFDKAAHAPFVSHPAAFCEPLLALKKRLG	PGPT0022065_466	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022065-bioH-K02170	NA	NA
BMS020_03006	486			hypothetical protein	ATGGTGGCGGTCAATGACTATCGTCCGCCGCTGAGCGATCTGGTGCGGCAGCTGAAGTTTCACCATCGTCCGGAACTGGGCCCCGCCCTGGCGCGCCTGCTGCTGCTGCGCCTTAAACAGCGTGACGATTTGCCGCCGGTAGACGCGCTGGTCGGCGTGCCGCTGGGGCATCGCCGCCGCTGGCGCCGGGGTTATAATCAGTGCGATGAGCTGTGCCGACCGTTAGCCCGCTGGCGTGGGTGCGTCTGGCGTCGCGACGGCCTGACGCGCCAGCGAGCGGGCGCCGTGCAGCATTCGCTTAATGCCCGCCTGCGCAGGCAGAACCTGAAAAATGCCTTTCAGCTTGAATTTGCCGTGCAGGGACTCCATATCGCTCTGGTGGATGATGTCGTCACGACCGGCAGCACCGTCGCCGAGATATCCCGCCTGCTTTTGCGAAACGGCGCCGCGACGGTTCAGGTATGGTGTGTATGCCGTACCTTGTAG	MVAVNDYRPPLSDLVRQLKFHHRPELGPALARLLLLRLKQRDDLPPVDALVGVPLGHRRRWRRGYNQCDELCRPLARWRGCVWRRDGLTRQRAGAVQHSLNARLRRQNLKNAFQLEFAVQGLHIALVDDVVTTGSTVAEISRLLLRNGAATVQVWCVCRTL				NA	NA	NA	NA	NA
BMS020_03007	576	nfuA_1	COG0316	Fe/S biogenesis protein NfuA	ATGATCCGTATTTCCGATGCTGCACAAGCGCACTTTGCCAAACTGCTGGCAAATCAGGAAGAAGGGACGCAAATTCGCGTATTTGTGATTAATCCCGGCACCCCAAACGCTGAGTGCGGCGTATCCTACTGCCCACCGGATGCGGTGGAAGACACCGACACGGCGCTGAAATTTGAACAGCTGACCGCCTATGTCGATGAGCTCAGCGCGCCCTATCTGGAAGACGCTGAAATTGATTTCGTCACCGACCAGCTTGGCTCGCAGCTGACCCTGAAAGCGCCGAACGCCAAAATGCGCAAAGTCGCTGACGATGCCCCGCTGATGGAGCGCGTCGAGTACCTGCTGCAGTCGCAGATTAACCCGCAGCTGGCCGGGCACGGCGGCCGCGTGTCGCTGATGGAGATCACCGACGACGGTCTGGCTATCCTGCAGTTCGGCGGCGGATGCAACGGCTGCTCGATGGTCGACGTGACCCTGAAAGAAGGTATTGAAAAACAGCTGCTGAACGAGTTTCCGGAGCTGAAAGGGGTTCGCGATCTGACCGAGCACCAGCGCGGCGAGCACTCCTACTACTAA	MIRISDAAQAHFAKLLANQEEGTQIRVFVINPGTPNAECGVSYCPPDAVEDTDTALKFEQLTAYVDELSAPYLEDAEIDFVTDQLGSQLTLKAPNAKMRKVADDAPLMERVEYLLQSQINPQLAGHGGRVSLMEITDDGLAILQFGGGCNGCSMVDVTLKEGIEKQLLNEFPELKGVRDLTEHQRGEHSYY				NA	NA	NA	NA	NA
BMS020_03008	1317	gntT	COG2610	High-affinity gluconate transporter	ATGCCATTAATCATCGTTGCTATCGGGGTTGCCCTGTTATTGCTGTTAATGATCCGTTTCAAAATGAACGGCTTCATTGCGCTGGTTCTGGTGGCGCTCGCCGTCGGATTAATGCAGGGTATGCCGCTGGATAAAGTGATCGTCTCCATCAAGAACGGCGTCGGCGGTACCCTTGGCAGCCTCGCGCTGATCATGGGCTTCGGCGCTATGCTCGGTAAGCTGCTGGCAGACTGCGGCGGCGCTCAGCGTATCGCCACCACGCTTATCAATAAATTCGGTAAGAAGCATATTCAATGGGCCGTGGTCCTGACCGGCTTCACCGTCGGTTTCGCCCTGTTCTATGAGGTGGGCTTCGTGCTGATGCTGCCGCTGGTGTTTACCATCGCCGCCTCGGCCCGTATTCCGCTGCTGTACGTCGGCGTACCGATGGCCGCCGCGCTCTCCGTCACCCATGGCTTCCTGCCGCCGCACCCGGGTCCGACCGCGATCGCCACCATCTTCCACGCCGATATGGGTAAAACGCTGCTCTACGGCACCATTCTGGCTATCCCGACGGTTATTCTCGCCGGCCCGGTTTTCGCCCGTTTCCTGAAAGGCATTGATAAGCCGATCCCGGAAGGCCTGCATAACCCGAAAGTGTTCACTGAAGAAGAGATGCCTGGCTTTGGCGTCAGCGTCTGGACCTCGCTGGTTCCGGTGATCCTGATGGCGATGCGCGCCGTTGCCGAGATGATCCTGCCGAAGGGCCACGCCTTCCTGCCGATTGCCGAGTTCTTCGGCGACCCGGTCATGGCCACCCTGATTGCGGTACTGATCGCCCTGTTCACCTTCGGTTTGAACCGCGGCCGCTCCATGGAGCAGATCAACGATACCCTGACCTCTTCGATTAAAATCATCGCCATGATGCTGTTGATCATCGGCGGCGGCGGCGCCTTCAAACAGGTGCTGGTGGATAGCGGCATGGATAAATATATCGCTTCTATCATGCACGAATCGAATATGTCTCCGCTGTTTATGGCCTGGTCCATCGCCGCGGTGCTGCGTATCGCGCTGGGTTCGGCGACCGTTGCCGCCATCACCGCGGGCGGGATCGCCGCGCCGCTGATCGCCACCACCGGCGTCAGCCCGGAGCTGATGGTTATCGCGGTCGGCTCCGGCAGCGTTATCTTCTCCCACGTGAACGATCCGGGCTTCTGGCTGTTCAAAGAGTACTTTAACCTGACCATCGGCGAGACCATCAGGTCCTGGTCGGTGCTGGAAACCATTATCTCGGTCTGCGGCCTGGTAGGCTGTCTGCTGCTGGGGATGGTGGTGTAA	MPLIIVAIGVALLLLLMIRFKMNGFIALVLVALAVGLMQGMPLDKVIVSIKNGVGGTLGSLALIMGFGAMLGKLLADCGGAQRIATTLINKFGKKHIQWAVVLTGFTVGFALFYEVGFVLMLPLVFTIAASARIPLLYVGVPMAAALSVTHGFLPPHPGPTAIATIFHADMGKTLLYGTILAIPTVILAGPVFARFLKGIDKPIPEGLHNPKVFTEEEMPGFGVSVWTSLVPVILMAMRAVAEMILPKGHAFLPIAEFFGDPVMATLIAVLIALFTFGLNRGRSMEQINDTLTSSIKIIAMMLLIIGGGGAFKQVLVDSGMDKYIASIMHESNMSPLFMAWSIAAVLRIALGSATVAAITAGGIAAPLIATTGVSPELMVIAVGSGSVIFSHVNDPGFWLFKEYFNLTIGETIRSWSVLETIISVCGLVGCLLLGMVV	PGPT0001330_252	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_GLUCONATE_TRANSPORT,PGPT0001330-gntT-K06155	NA	NA
BMS020_03009	2094	malQ_1	COG1640	4-alpha-glucanotransferase	ATGGAGAGTAAACGCCTCGATAATGCCGCGCTGGCGGCGGGCATCAGCCCCAGCTATATCAACGCGCACGGCAAGCCGCAGTCTATCGCGGCTGTCACCAAACAGCGTCTGCTGGATGCGATGCATCGCTCAACCGCCGCCACGAAAGTGGCGGTTAACCCGCTGCCGAACGTGAAGATCTTCACCCACGGCAAAAAAATGTCGCTGCCGGTGGCAGGACGCGGTGAGTATCAGTGGATCCTGACCACTGAGGACGGTAAGCAGTATCAGGGTAAAACCCGCGGCGGCGAGACGCTGCCGCTGCCGGCCAGACTGCCGGAGGGGTATCACTCCCTGACGCTCACCCAGGAGGGGGAGCGCTGGCACTGCCGGACCATCGTCGCCCCGGCCCGCTGCTATGAGCCGCAGCCGCTGAAAGAGGGGAAAAAGCTGTGGGGCACCTGCGTGCAGCTGTATACCCTGCGTTCGGAGAAAAACTGGGGGATCGGCGATTTTGGCGATCTGCGCGCCATGCTCCCGGAAATCGCCCGCCGCGGCGGGTCGTTTATTGGCCTCAACCCGATCCATGCCCTCTATCCGGCGAACCCGGAGAGCGCCAGTCCGTATAGCCCGTCTTCACGGCGCTGGCTGAACGTCATCTACATCGACGTCAACGCGGTTGAAGATTTCCAGCGTAGCGAAGAGGCGCAGGCATGGTGGCAGTCCGCTGCGACCCAGCAGGCCTTGCAGGCGGCGCGGCAAACGGATGATGTGGATTACACCGCTGTCACCACGCTGAAAATGACCGCGCTGCGTATGGCGTGGAAACGATTCTCCCGTCGTGAAGATGAACAGATGACGGCGTTCCGCGAGTTTGTTTTGCGCGAAGGGGAAAGCCTCTACTGGCAGGCCGCTTTCGATGCGCTGCACGCCTGGCAGGTTCAACAGGACCCGCTGCGCTGGGGCTGGCCGGCCTGGCCGAAGGCCTTTCAGGATATCGACAGCCCGGAGGTGAAAGCCTTCTGCGTCGAGCATGAGGACGACGTCAGTTTCTATCTCTGGCTGCAGTGGCTGGCCTGGAGCCAGTTTGCCGCCTGCTGGGAAACCAGCCAGCGCGACGGGATGCCGATCGGCCTCTACCGCGATCTGGCGGTGGGCGTCGCCGAAGGCGGGTCGGAGACCTGGTGCGACCGTGAGCTGTACTGTCTGAAAGCGTCCGTGGGCGCGCCGCCGGATATTCTGGGCCCGCTGGGCCAGAACTGGGGCCTACCGCCGATGGATCCGCATATTATTGCCGCTCGCGCCTATGAGCCGTTTATCGACCTGCTGCGCGCCAATATGCAGAACTGCGGCGCGCTGCGTATCGATCACGTGATGTCGGTGCTGCGTCTGTGGTGGATCCCCTATGGTGAAACCGCCGACCATGGCGCTTACGTTCAGTATCCCGTCGACGACCTGCTGTCGCTTCTGGCGCTGGAAAGCCAGCGTCATCGCTGCATGGTGATCGGCGAAGATCTGGGCACGGTACCGGTGGAGATCGTCAGCAAGTTACGCAACAGCGGCGTCTATTCGTATAAGGTGCTCTATTTTGAGAGTGATGCAGAGAAAACGTTCCGCGCGCCGGCGCTGTACCCGGAGCAATCAATGGCTGTGGCGACGACGCACGACCTGCCCACCCTCCGCGGCTACTGGGAAAGCGGCGATCTGACGTTAGGCAAAGCGCTGGGTCTCTATCCTGATGAGGTGGTGCTGCGCGGGCTGTACCAGGACCGTGAGCTGGCGAAGCAAGGGCTGCTGGATGCGCTGCATAAGTACGGCTGTCTGCCCAAGCGTGCCGGCCATAAGGCCTCCCTGATGAGCATGACGGGGATCCTCAACCGGGGGATGCAACGTTATATTGCCGACAGCAACAGCGCCCTGCTGGGCCTGCAGCCGGAAGACTGGCTGGAGATGGCGTCGCCGGTCAATATTCCGGGCACCAGCACTGAGTACCCAAACTGGCGCCGGAAGCTGTCCGTCACCCTTGAGCAGATGTTTGCCGATGAACAGGTCAATAAGCTGATTAAGGATCTGGATAAACGGCGCAAGGCGGCGAGCAAAAAAGCCGCCTCCTGA	MESKRLDNAALAAGISPSYINAHGKPQSIAAVTKQRLLDAMHRSTAATKVAVNPLPNVKIFTHGKKMSLPVAGRGEYQWILTTEDGKQYQGKTRGGETLPLPARLPEGYHSLTLTQEGERWHCRTIVAPARCYEPQPLKEGKKLWGTCVQLYTLRSEKNWGIGDFGDLRAMLPEIARRGGSFIGLNPIHALYPANPESASPYSPSSRRWLNVIYIDVNAVEDFQRSEEAQAWWQSAATQQALQAARQTDDVDYTAVTTLKMTALRMAWKRFSRREDEQMTAFREFVLREGESLYWQAAFDALHAWQVQQDPLRWGWPAWPKAFQDIDSPEVKAFCVEHEDDVSFYLWLQWLAWSQFAACWETSQRDGMPIGLYRDLAVGVAEGGSETWCDRELYCLKASVGAPPDILGPLGQNWGLPPMDPHIIAARAYEPFIDLLRANMQNCGALRIDHVMSVLRLWWIPYGETADHGAYVQYPVDDLLSLLALESQRHRCMVIGEDLGTVPVEIVSKLRNSGVYSYKVLYFESDAEKTFRAPALYPEQSMAVATTHDLPTLRGYWESGDLTLGKALGLYPDEVVLRGLYQDRELAKQGLLDALHKYGCLPKRAGHKASLMSMTGILNRGMQRYIADSNSALLGLQPEDWLEMASPVNIPGTSTEYPNWRRKLSVTLEQMFADEQVNKLIKDLDKRRKAASKKAAS	PGPT0018570_1232	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018570-malQ-K00705	NA	NA
BMS020_03010	2391	malP_2	COG0058	Maltodextrin phosphorylase	ATGTCACAGACTTCATTTAACAAAGCTCAGTTTCAGGCTGCACTGACGCGTCAGTGGCAGCGTTTTGGTTTACAGTCCGCTTCCGAGATGACGCAGCGTCAATGGTGGCGCGCCGTCAGCGGAGCGCTGGCGGAACTTCTGTCGGCGCAGCCGGTGGCAAAACCAGCGCAAGGACAGCGTCACGTTAACTACATCTCGATGGAGTTTCTGATTGGTCGCCTGACCGGCAACAACCTGCTCAACCTGGGCTGGTACGAGGGCGTGAGCGACGCGCTGAAAGGCTATGACGTCAACCTCACCGATCTGCTGGAAGAAGAGACCGACCCGGCGCTGGGTAACGGCGGCCTGGGCCGTCTGGCAGCCTGCTTCCTCGACTCCATGGCGACCGTGGGGCAGTCGGCGACCGGCTACGGCCTCAATTACCAGTATGGTCTGTTCCGCCAATCCTTTGACGATGGCCAGCAGAAGGAAGCCCCGGACGACTGGGGTCGCAGCAGCTACCCGTGGTTCCGCCATAACGAGGCGCTGGATGTTCAGGTCGGCATCGGCGGCAAGGTCAGCAAAAACGGCGAATGGCAGCCGGCGTTCGTCATTACCGGCGAAGCCTGGGATCTGCCGGTGCTCGGCTATCGCAACAACGTCGCCCAGCCGCTGCGTCTGTGGCAGGCCAAACACGCCCATCCGTTTAACCTGACCAAATTCAACGACGGCGATTTCCTGCGCGCCGAGCAGCAGGGCATCGACGCGGAAAAACTGACTAAGGTGCTGTACCCGAACGACAACCATCAGGCCGGTAAAAAACTGCGCCTGATGCAGCAGTACTTCCAGTGCGCCTGCTCAGTGGCCGATATCCTGCGTCGTCATCATCTGGCAGGCCGCAAGCTGGCCGAGCTGGCGGATTACGAAGTGATCCAGCTGAACGATACGCACCCGACCATCGCCATCCCGGAACTGCTGCGCGTGCTGATCGACGAACACCAGCTGAGCTGGGACGACGCCTGGGCGATCACCAGCAAAACCTTTGCTTACACCAACCATACCCTGATGCCGGAAGCGCTGGAGTGCTGGGATGAGAAGCTGGTGAAAGCGCTGCTGCCGCGCCATATGCAGATCATCAACGCGATTAACGACAAATTTAAACTGCTGGTGGACAAAACCTGGCCGGGCGATAAGCAGGTCTGGGCGAAACTGGCGGTGGTGCATGACAAGCAGGTACGGATGGCCAACATGTGCGTGGTGGGCGGTTTTGCCGTCAACGGCGTGGCGGCGCTGCACTCGGACCTGGTGGTGAAAGATCTGTTCCCGGAATATAACCAGCTGTGGCCGAACAAATTCCATAACGTGACCAACGGCATCACGCCGCGCCGCTGGATCAAGCAGTGCAACCCGGCGCTGGCCACGCTGCTGGATGAGACGCTGAAAAAAGAGTGGGCCAATGACCTCGACCAGCTGATCAATCTGGAAAAATACGCTGACGATGCGGCATTCCGTCAGACTTATCGCGATATCAAGCAGGCCAACAAAGTTCATCTGGCTGAGTTTGTGAAGCAACGTACCGGGATTGAGATCAACCCGCAGGCGATTTTCGACATTCAGATCAAACGTCTGCACGAGTACAAGCGTCAGCACCTCAACCTGCTGCATATCCTTGCGCTGTACAAAGAGATCCGCGAAAACCCGCAGGCCGACCGCGTTCCGCGCGTCTTCCTGTTCGGCGCGAAAGCGGCGCCGGGGTACTATCTGGCGAAAAACATTATTTTTGCCATCAACAAGGTAGCGGAAGCGATTAACAACGACCCGAAAGTCGGCGATAAGCTGAAAGTGGTCTTCCTGCCGGACTATTGTGTATCGGCTGCGGAAAAACTGATCCCGGCGGCGGATATCTCCGAGCAGATCTCCACCGCGGGCAAAGAAGCCTCTGGCACCGGCAACATGAAGCTGGCGCTGAACGGCGCGCTGACCGTCGGGACGCTGGATGGCGCCAACGTGGAAATCGCCGAGCAGGTCGGTGAAGAGAACATCTTTATCTTCGGCCACACGGTAGAAGAAGTGAAAGCCCTGAAAGCGAAAGGCTACGATCCGCTGAAATGGCGTAAAAAAGACAAACTGCTCGATGCAGTGCTTAAGGAGCTGGAGAGCGGCACCTATAGCAACGGCGATAAGCATGCCTTCGACCAGATGCTGCATAGTCTGCTGCAGGGCGGCGACCCGTATCTGGTGCTGGCCGATTTCGAAGCCTACGTGGCGGCGCAAAAACGGGTAGATGAGCTGTATCGCGACCAGGAGGCCTGGACCCGCGCGACAATCCTCAACACCGCGCGCTGCGGCATGTTCAGCTCCGACCGCTCGATCCGCGATTATCAGCAACGTATCTGGCAGGCGAAACGCTAA	MSQTSFNKAQFQAALTRQWQRFGLQSASEMTQRQWWRAVSGALAELLSAQPVAKPAQGQRHVNYISMEFLIGRLTGNNLLNLGWYEGVSDALKGYDVNLTDLLEEETDPALGNGGLGRLAACFLDSMATVGQSATGYGLNYQYGLFRQSFDDGQQKEAPDDWGRSSYPWFRHNEALDVQVGIGGKVSKNGEWQPAFVITGEAWDLPVLGYRNNVAQPLRLWQAKHAHPFNLTKFNDGDFLRAEQQGIDAEKLTKVLYPNDNHQAGKKLRLMQQYFQCACSVADILRRHHLAGRKLAELADYEVIQLNDTHPTIAIPELLRVLIDEHQLSWDDAWAITSKTFAYTNHTLMPEALECWDEKLVKALLPRHMQIINAINDKFKLLVDKTWPGDKQVWAKLAVVHDKQVRMANMCVVGGFAVNGVAALHSDLVVKDLFPEYNQLWPNKFHNVTNGITPRRWIKQCNPALATLLDETLKKEWANDLDQLINLEKYADDAAFRQTYRDIKQANKVHLAEFVKQRTGIEINPQAIFDIQIKRLHEYKRQHLNLLHILALYKEIRENPQADRVPRVFLFGAKAAPGYYLAKNIIFAINKVAEAINNDPKVGDKLKVVFLPDYCVSAAEKLIPAADISEQISTAGKEASGTGNMKLALNGALTVGTLDGANVEIAEQVGEENIFIFGHTVEEVKALKAKGYDPLKWRKKDKLLDAVLKELESGTYSNGDKHAFDQMLHSLLQGGDPYLVLADFEAYVAAQKRVDELYRDQEAWTRATILNTARCGMFSSDRSIRDYQQRIWQAKR	PGPT0018545_4209	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
BMS020_03011	2706	malT_1	COG2909	HTH-type transcriptional regulator MalT	ATGTTGATTCCGTCCAAATTAAGTCGTCCGGTCCGCCTTGAACACACCGTGGTTCGTGAGCGTTTACTGGCGAAACTTTCCGGCGCGAACAATTATCGTCTCGTGCTGATCACCAGTCCTGCCGGGTACGGTAAAACAACGCTCATTTCTCAGTGGGCCGCAGGTAAAAACGATCTTGGGTGGTTTTCGCTGGACGAAGGCGACAACCAGCAGGAGCGTTTTGCCAGCTATCTGATCGCGGCGATCCAGCAGGCCACCGGCAACCACTGCGCGGCCAGTGAAGCGATGGTGCAAAAGCGCCAGTACGCCAGCCTCTCCTCTCTTTTTGCGCAGCTGTTTATTGAACTCGCCGACTGGCAGCGCCCGCTGTACCTCGTCATTGATGATTATCACCTGATCAATAATCCGGTGATCCATGACGCGATGCGCTTTTTCCTGCGCCATCAGCCGGAGAATATGACCCTCGTGGTCCTGTCGCGGAACCTGCCGCAGCTGGGCATTGCCAACCTGCGCGTCCGCGATCAGCTGCTGGAGATTGGCAGCCAGCAGCTGGCCTTTACCCACCAGGAAGCGAAACAATTTTTCGACTGTCGTCTGACGTCGCCTATCGAAGCCGACGACAGCAGTCGGCTGTGCGACGACGTCGCCGGGTGGGCCACCGCGCTGCAGCTCATCGCCCTCTCCGCCCGCCAGAATAACTCCTCCGCCCAACACTCCGCCCGTCGCCTCGCCGGGATTAACGCCAGCCATCTGTCGGATTATCTGGTGGATGAAGTGCTGGATAACGTCGACGCCCGCACGCGCAACTTTTTGCTGAAGAGCTCTCTGCTGCGCTCAATGAACGACGCGTTAATCGTGCGCGTCACCGGCGAAGAGAATGGCCAGATGCAGCTGGAGGAGATCGAACGTCAGGGGCTGTTCCTGCAGCGGATGGATGATTCCGGCGAATGGTTCCGCTATCACCCGCTGTTTGGCAGTTTCCTGCGCCAGCGCTGTCAGTGGGAACTGGCGGTTGAACTGCCGGAGATCCACCGCGCCGCGGCGGAGAGCTGGATGGCGCAAGGCTTCCCCAGCGAGGCCATCCACCATGCGCTGGCGGCCGGCGATGCCAAAATGCTGCGCGATATCTTGCTCAATCACGCCTGGGGCATGTTCAACCATAGCGAACTGGGACTGCTGGAGCAGTCGCTGTCGGCGCTGCCCTGGTCAAATCTGCTGGAAAATCCGCGCCTGATCCTGCTGCAGGCCTGGCTGATGCAGAGCCAGCATCGCTACAGCGAAGTTAACACCCTGCTGGCGCGCGCCGAGCAGGAGATGAGCGTCGAAATGGATACCGCGATGCATGGCGACTTCAACGCCCTGCGCGCGCAGGTGGCGATTAACGACGGCGACCAGGACGAAGCGGAACGTCTGTCGATGGTGGCGCTGGAAGAGCTGCCGCTGGCCAACTATTACAGCCGCATCGTCGCCACCTCGGTACATGGCGAAGTCCTCCACTGTAAGGGGAAACTGACCAAATCTCTCGCCGTGATGCAGCAGACCGAACAGATGGCCCGCCGTCACGACGTCTGGCATTACGCCCTGTGGAGCATCATTCAGCAAAGCGAAATTCTGTTCGCCCAGGGCTTCCTGCAGGCCGCCTGGGAGAGCCAGGAGAAAGCCTTCCATCTGGTACGCGAACAGCATCTTGAGCAGCTGCCGATGCATGAGTTCCTGCTGCGCATCCGCTCTCAGCTGCTGTGGGCATGGGCGCGCCTCGACGAGGCTGAAGCCTGCGCCCGCCAGGGGATGGCGGTTCTCTCAACTTATCAACCGCAGCAGCAGCTGCAGTGCCTGGCGCTGATGGTGCAATGCTCGCTGGCGCGCGGCGATCTGGATAATGCCCGTAGCCACCTGAACCGGCTGGAAAACCTGCTCGGTAACGGTCACTACCACAGCGACTGGGTCTCCAACGCCGACAAGGTGCGGGTGATCTACTGGCAGATGACCGGCGATAAAACCGCGGCGGCCAACTGGCTGCGCCAGACGCCGAAGCCGGAATTCGCCAATAACCACTTCCTGCAGAGCCAGTGGCGCAATATTGCCCGCGCGCAGATCCTGCTGGGCGATTTCGAACCGGCGGAAATGGTGCTGGAAGAGCTGAACGAAAATGCGCGCTCACTGCGTTTGATGAGCGATCTCAACCGCAACCTGCTGCTGCTCAACCAGCTGTACTGGCAGGCAGGACGCAAGAGCGAAGCGCAGAAAGCCCTGCTGGAAGCCCTGACGCTCGCCAACCGCACCGGCTTTATCAACCACTTTGTGATTGAAGGCGAGGCGATGGCCCAGCAGCTGCGCCAGCTGATCCAGCTGAACACCCTGCCGGAGCTGGAGCAGCATCGCGCCCAGCGTATTCTGCGCGACATCAACCAGCATCATCGCCACAAATTCGCCCACTTTGACGAAGGGTTCGTCGAGCGGCTGCTGAATCACCCCGAGGTGCCGGAGCTTATCCGCACCAGCCCGCTGACCCAGCGCGAATGGCAGGTGCTTGGCTTAATCTATTCCGGCTACAGCAACGAGCAGATTGCCGGCGAGCTTGACGTGGCGGCCACCACCATCAAGACCCATATTCGCAACCTGTATCAGAAACTGGGCGTCGCCCACCGTCAGGACGCGGTGCAGCATGCCCAGCAGTTGCTTAAGATGATGGGATACGGCGTCTGA	MLIPSKLSRPVRLEHTVVRERLLAKLSGANNYRLVLITSPAGYGKTTLISQWAAGKNDLGWFSLDEGDNQQERFASYLIAAIQQATGNHCAASEAMVQKRQYASLSSLFAQLFIELADWQRPLYLVIDDYHLINNPVIHDAMRFFLRHQPENMTLVVLSRNLPQLGIANLRVRDQLLEIGSQQLAFTHQEAKQFFDCRLTSPIEADDSSRLCDDVAGWATALQLIALSARQNNSSAQHSARRLAGINASHLSDYLVDEVLDNVDARTRNFLLKSSLLRSMNDALIVRVTGEENGQMQLEEIERQGLFLQRMDDSGEWFRYHPLFGSFLRQRCQWELAVELPEIHRAAAESWMAQGFPSEAIHHALAAGDAKMLRDILLNHAWGMFNHSELGLLEQSLSALPWSNLLENPRLILLQAWLMQSQHRYSEVNTLLARAEQEMSVEMDTAMHGDFNALRAQVAINDGDQDEAERLSMVALEELPLANYYSRIVATSVHGEVLHCKGKLTKSLAVMQQTEQMARRHDVWHYALWSIIQQSEILFAQGFLQAAWESQEKAFHLVREQHLEQLPMHEFLLRIRSQLLWAWARLDEAEACARQGMAVLSTYQPQQQLQCLALMVQCSLARGDLDNARSHLNRLENLLGNGHYHSDWVSNADKVRVIYWQMTGDKTAAANWLRQTPKPEFANNHFLQSQWRNIARAQILLGDFEPAEMVLEELNENARSLRLMSDLNRNLLLLNQLYWQAGRKSEAQKALLEALTLANRTGFINHFVIEGEAMAQQLRQLIQLNTLPELEQHRAQRILRDINQHHRHKFAHFDEGFVERLLNHPEVPELIRTSPLTQREWQVLGLIYSGYSNEQIAGELDVAATTIKTHIRNLYQKLGVAHRQDAVQHAQQLLKMMGYGV	PGPT0018616_888	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018616-malT-K03556	NA	NA
BMS020_03012	759	glpR_4	COG1349	Glycerol-3-phosphate regulon repressor	ATGAAACAAACACAACGTCATGACGCCATTATCGAGCTGGTAAAAAAACAGGGTTACGTCAGCACGGAAGAGCTGGTTGAGCAGTTCGCGGTCAGCCCGCAGACCATCCGCCGCGACCTGAACGATTTAGCCGAACAGAAAATGATCCTCCGTCATCACGGCGGCGCGGCGCTGCCCTCCAGCTCGGTGAACACCTCCTGGCACGATCGCAAAGCGACCCAGACGGCGGAGAAAGAGCGTATCGCCCGGCGGGTGGCCAGCGAGATCCCGGACGGGGCGACGCTGTTTATCGATATCGGCACCACGCCGGAAGCGGTGGCGCACGCCCTGCTCGATCACAACGATTTGCGGATTGTGACCAATAACCTGAACGTCGCCAACACGCTGATGGTGAAAGAGGACTTCCGCATTATTCTCGCCGGCGGCGAACTGCGCAGCCGCGACGGCGGGATCATCGGGGAAGCCACCCTCGACTTTATCTCGCAGTTCCGTCTCGACTTCGGCATTCTCGGCATCAGCGGCGTCGACAGCGATGGCTCGCTGCTGGAGTTTGATTATCATGAAGTGCGCACCAAGCGCGCGATTATTGAGAATTCACGCCACGTGATGCTGGTGGTGGATCATACCAAGTTTGGCCGTAACGCGATGGTCAACATGGGCAGCATCAGCATGGTCGATGCGGTCTATACCGATGTGCTGCCCCCGGCGGGCGTGCTCAAGGTCATCACCGATAACAACCTCCAGCTCGAGCTGTGCTAA	MKQTQRHDAIIELVKKQGYVSTEELVEQFAVSPQTIRRDLNDLAEQKMILRHHGGAALPSSSVNTSWHDRKATQTAEKERIARRVASEIPDGATLFIDIGTTPEAVAHALLDHNDLRIVTNNLNVANTLMVKEDFRIILAGGELRSRDGGIIGEATLDFISQFRLDFGILGISGVDSDGSLLEFDYHEVRTKRAIIENSRHVMLVVDHTKFGRNAMVNMGSISMVDAVYTDVLPPAGVLKVITDNNLQLELC	PGPT0018445_1098	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULE_REGULATION,PGPT0018445-glpR-K02444	NA	NA
BMS020_03013	831	glpG_1	COG0705	Rhomboid protease GlpG	ATGTTAATGATTACCTCTTTTGCCAACCCGCGCGTGGCCCAGGCGTTTGTCGATTATATGGCGACGCAGGGGATTATCCTGACTATCCAGCAGCACACCCAGAGCGACGTCTGGTTGGCTGATGAGAGTCAGGCCGGGCGCGTCAGGGCTGAGCTGGCGCGTTTTCTCGAAAACCCGGCGGACCCGCGCTATCTGGCGGCGAGCTGGCAGTCCGGACAGACCAACAGCGGGTTGCGCTATCAGCGCTTTCCTTTCTTTGCCACGCTGCGGCATAACGCCGGCCCGTTCACCTGGGCGATTCTGCTGATCTGCATCGCGGTGTTCATCCTGCAAAATCTGCTGGGCGATCAGCCGGTGATGATTTGGCTGGCCTGGCCCTACGATCCTTCGCTGCAGTTCGAAGCCTGGCGCTATTTCAGCCATGCTTTCATGCATTTCTCGCTGATGCATATTCTCTTCAACCTGCTATGGTGGTGGTATCTCGGCGGCGCGGTGGAAAAGCGCATCGGCAGCGGCAAGCTGGTGGTGATCACCGTCATCAGCGCCCTGCTGAGCGGCTTTGTGCAGCATCAGTTTAGCGGCCCATGGTTTGGCGGGCTGTCGGGCGTGGTTTACGCGCTGATGGGCTATGTCTGGCTGCGGGGCGAGCGCGATCCGCAGAGCGGTATTTATCTGCAGCGCGGGTTGATACTCTTCTCTTTAGTGTGGTTAATTGCTGGCTGGTTTGACGTTTTCGGCATGGCGATCGCTAACGGCGCGCACGTGGCTGGTCTGGCGACCGGCCTGGCCATGGCGTTTGTCGATACCTTGCATGGGCGAAAACGCGCATAA	MLMITSFANPRVAQAFVDYMATQGIILTIQQHTQSDVWLADESQAGRVRAELARFLENPADPRYLAASWQSGQTNSGLRYQRFPFFATLRHNAGPFTWAILLICIAVFILQNLLGDQPVMIWLAWPYDPSLQFEAWRYFSHAFMHFSLMHILFNLLWWWYLGGAVEKRIGSGKLVVITVISALLSGFVQHQFSGPWFGGLSGVVYALMGYVWLRGERDPQSGIYLQRGLILFSLVWLIAGWFDVFGMAIANGAHVAGLATGLAMAFVDTLHGRKRA				NA	NA	NA	NA	NA
BMS020_03014	330	glpE_2	COG0607	Thiosulfate sulfurtransferase GlpE	ATGGAACAGTTTGAATGTATCAACGTTGAAGAAGCGCACCAGAAACTGCATCAGCAGACGGCGGTTTTGGTCGATATCCGCGATCCGCAAAGCTATGCGATGGGCCATACGCCGGGCGCGTTTCATCTGACCAACGATACCCTGGGCGCGTTTATGCGTGACAACGACTTTGACACGGCGGTGATGGTGATGTGCTATCACGGCAACAGCAGCAAGGGCGCCGCGCAGTATCTGCTGCAGCAGGGGTTTGATAAGGTCTACAGCGTTGACGGCGGGTTCGACGCCTGGCATCGCCATTTCCCGGCGGAAGTGGCACACGGGACGTTTTAA	MEQFECINVEEAHQKLHQQTAVLVDIRDPQSYAMGHTPGAFHLTNDTLGAFMRDNDFDTAVMVMCYHGNSSKGAAQYLLQQGFDKVYSVDGGFDAWHRHFPAEVAHGTF	PGPT0003021_164	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-THIOSULFATE_DEGRADATION,PGPT0003021-glpE-K02439	NA	NA
BMS020_03015	1509	glpD	COG0578	Aerobic glycerol-3-phosphate dehydrogenase	GTGGAAACCAAAGATCTGATTGTGATAGGCGGAGGCATCAACGGTGCCGGTATCGCGGCAGATGCCGCCGGGCGTGGTTTATCCGTACTGATGCTGGAAGCGCGCGATCTCGCCTGCGCCACCTCCAGCGCCAGTTCCAAACTGATCCACGGCGGGCTACGCTACCTCGAACACTATGAGTTCCGCCTGGTCAGCGAAGCGCTGGCCGAACGCGAAGTGCTGTTAAAAATGGCCCCGCATATCGCCTTCCCGATGCGCTTTCGTCTCCCGCATCGCCCGCATCTGCGTCCGGCATGGATGATCCGCATCGGCTTGTTTATGTACGATCATCTGGGCAAACGCACCAGTCTGCCGGGATCCACCGGCTTGCGTTTTGGCGCAGAATCGGTACTTAAGCCGGAAATTGTGCGCGGTTTCGAATATTCCGACTGCTGGGTCGACGATGCCCGCCTGGTGCTGGCCAACGCGCAGATGGTCGTCCGCAAAGGCGGCGAGGTGCGGACCCGCACTCGCGCCATCTCGGCAAAACGGGAGAACGGCCTGTGGGTGGTGGAAGCGGAAGATATCGATAGCGGCGAGAAGTTTACCTGGAAGGCGCGCGGTCTGGTCAATGCCACCGGTCCATGGGTCAAACAGTTCTTCGACGAAGGGATGCATCTCCGCTCGCCTTACGGTATTCGCCTGATCAAGGGCAGCCACATCGTGGTGCCGCGGGTGCATACCCAGAAGCAGGCCTACATTCTGCAAAACGAAGATAAACGTATTGTGTTTGTTATCCCGTGGATGGATGAGTTCTCCATCATCGGCACGACGGACGTCGAGTATAAAGGCGATCCGAAAGCGGTGGCCATTGATGATAAAGAGATTAATTACCTGCTGAACGTCTATAACGCGCACTTTAAAAAGCCCCTCAGCCGGGACGATATCGTCTGGACCTACTCCGGCGTCCGTCCGCTGTGCGACGACGAGTCGGATTCACCGCAGGCGATCACCCGCGACTACACGCTGGATATTCACGATGAGAACGGCCAGGCGCCGCTGCTCTCCGTCTTCGGCGGGAAGCTGACCACCTATCGCAAACTGGCCGAGCATGCGCTGGAGAAACTGACCCCCTATTACAAAGGGATCGGCCCGGCATGGACCAAAACCGCGGTGCTCCCCGGCGGCGATATCGGCGGCGACCGCGACGACTACGCGGCAAAACTGCGCCGTCGCTTCCCGTTCATCAGTGAGTCACTGGCCCGCCATTATGCCCGCACCTACGGGAGCAACAGCGAGTGGATCCTGAAGGAAGCCAGCGCCCTGAGCGATCTGGGGGAAGATTTCGGCCATGAGTTTTATGAAGCTGAGCTGAAGTATCTGGTTGAGCATGAATGGGTGCGCAGCCTGGATGACGCCATCTGGCGTCGTACCAAACAGGGCATGTGGCTGAATGGCGAGCAGCAGGCGCGCATCAGCGAATGGCTGGCGCAGCATGCGGGAAAGTCTGAGCTGTCGTTAGCGTCTTAA	METKDLIVIGGGINGAGIAADAAGRGLSVLMLEARDLACATSSASSKLIHGGLRYLEHYEFRLVSEALAEREVLLKMAPHIAFPMRFRLPHRPHLRPAWMIRIGLFMYDHLGKRTSLPGSTGLRFGAESVLKPEIVRGFEYSDCWVDDARLVLANAQMVVRKGGEVRTRTRAISAKRENGLWVVEAEDIDSGEKFTWKARGLVNATGPWVKQFFDEGMHLRSPYGIRLIKGSHIVVPRVHTQKQAYILQNEDKRIVFVIPWMDEFSIIGTTDVEYKGDPKAVAIDDKEINYLLNVYNAHFKKPLSRDDIVWTYSGVRPLCDDESDSPQAITRDYTLDIHDENGQAPLLSVFGGKLTTYRKLAEHALEKLTPYYKGIGPAWTKTAVLPGGDIGGDRDDYAAKLRRRFPFISESLARHYARTYGSNSEWILKEASALSDLGEDFGHEFYEAELKYLVEHEWVRSLDDAIWRRTKQGMWLNGEQQARISEWLAQHAGKSELSLAS	PGPT0006775_4726	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111	NA	NA
BMS020_03016	2448	malP_3	COG0058	Maltodextrin phosphorylase	ATGAATGTACCCTTTAGCTATGCATCACCGACGCTGAGCGTTGAGGCGTTAAAACATTCTATTGCCTATAAGCTGATGTTTATCATCGGTAAAGATCCGGCCATCGCCAACAAGCATGAATGGCTTAACGCCACGCTGTTTGCCGTTCGCGATCGCATGGTGGAGCGCTGGCTGCGCTCCAACCGCGCGCAGCTCTCGCAGGAAGTGCGCCAGGTATACTATCTGTCGATGGAGTTCCTGATCGGCCGTACCCTCTCGAATGCCCTGTTGTCGCTCGGCATCTATGACGATGTGAGCAGCGCGCTGGCGGAGATGGGGCTCGATCTCGAAGAGCTGATCGATGAAGAGAATGACCCGGGGCTTGGCAACGGCGGTCTGGGCCGCCTGGCGGCCTGCTTCCTTGACTCCCTGGCGGCGCTGGGGCTGCCGGGACGTGGCTACGGGATCCGCTACGACTACGGGATGTTTAAACAGAATATCGTCGATGGCCGGCAAAAAGAGTCCCCTGACTACTGGCTGGAGTACGGTAACCCGTGGGAGTTTGAGCGCCACAACACCCGCTATAAAGTGCGCTTCGGCGGCCGCATTCAGCAGGAGGGGAAGAAAACCCGCTGGATAGAGACGGAAGAGATCATTGCCGAAGCCTACGATCAGATTATCCCCGGCTTTGACACCGACGCCACCAACACGCTGCGTCTGTGGAGCGCGCAGGCCAGTAGCGAAATTAACCTCGGTAAGTTTAACCAGGGCGACTACTTCGCCGCGGTAGAGGATAAGAACCACTCCGAAAACGTCTCCCGCGTCCTCTATCCGGACGACTCGACCTACTCCGGCCGCGAGCTGCGCCTGCGCCAGGAGTATTTCCTCGTCTCGGCCACGGTGCAGGATATTCTGAACCGCCACTATCTGTTGCATAAGACCTATGACAACCTGGCGGACAAGATAGCCATCCACCTGAATGACACCCACCCGGTGCTGTCGATACCGGAGCTGATGCGCCTGCTTATCGACGAGCATAAATTCAGCTGGGACGAGGCGTTCGAGGTGACCTGTCAGGTCTTCTCCTATACCAACCATACCCTGATGAGCGAAGCGCTCGAGACCTGGCCGGTGGATATGCTGGGCAAAATTCTCCCGCGCCATCTGCAGATTATCTTTGAGATTAACGACTACTTCCTCAAGACTCTGCAGGAGCAGTATCCCAACGATACCGCGCTGCTCAGTCGGACCTCGATTATCGACGAGTCAAACGGCCGTCGCGTGCGGATGGCCTGGCTGGCGGTGGTGGTCAGCCACAAGGTCAATGGGGTGTCGGAGCTACATTCCCGATTGATGGTGGAGTCGCTGTTTGCCGAATTCGCCAAAATTTTCCCGATGCGCTTTATCAACGTGACCAACGGCGTCACGCCGCGCCGCTGGCTGGCGCTGGCCAACCCGCCGCTGTCGAAAGTGCTGGATGAGCATATCGGCCGCACCTGGCGGACCGATCTGAGCCAGCTTGACGAGCTGAAGCAGCATATCGACTACCCGACGGTCAATCAGGCAGTGCGTCAGGCTAAACTGGAAAACAAACAGCGGCTGGCCAGCTATATTGCGCAGCAGCTTAATGTGGTGGTGAATCCGAAGGCGCTGTTTGATGTGCAGATCAAACGCATTCACGAGTACAAACGCCAGCTGATGAATGTGCTGCACGTCATTACCCGCTATAACCGGATCAAAGCCGATCCGCAGGCGGAGTGGGTGCCGCGGGTGAACATTTTCGCCGGTAAGGCGGCTTCAGCCTACTACATGGCCAAGCATATTATTCACCTGATCAACGATGTGGCGGCGGTGATCAATAACGATCCGCAGATTGGCGACAAGCTGAAGGTCGTTTTTATCCCCAACTACAGCGTCAGCCTGGCGCAGCTAATCATTCCGGCGGCAGACCTGTCGGAACAGATCTCGCTCGCAGGCACGGAAGCCTCCGGCACCAGTAATATGAAGTTTGCCCTTAACGGCGCGCTGACGATCGGCACCCTCGACGGGGCGAACGTGGAGATGCAGGAGCACGTGGGCGAAGAGAATATCTTTATCTTCGGCAACACCGCGGAAGAGGTGGAGGAGCTGCGTCGCAGTGGCTATAAACCGCGCGAATATTACGAGCAGGATGAAGAGCTTCACCAGGCGCTGACGCAGATCGGTACCGGCGTTTTCAGCCCGGCGGAACCGGGGCGCTACCGCGACCTGCTGGATTCGCTGATTAACTTTGGCGACCACTACCAGGTGCTGGCGGACTATCGTAGCTATGTGGACTGCCAGGATCGCGTCGACGAGCTGTATCAACATCCGGAAGAGTGGGCCTACAAGGCGATGCTGAATATTGCCAATATGGGCTACTTCTCTTCCGACCGGACGATCCAGGAGTACGCGAAATACATCTGGCATATCGACCCGGTAAGGCTGTAA	MNVPFSYASPTLSVEALKHSIAYKLMFIIGKDPAIANKHEWLNATLFAVRDRMVERWLRSNRAQLSQEVRQVYYLSMEFLIGRTLSNALLSLGIYDDVSSALAEMGLDLEELIDEENDPGLGNGGLGRLAACFLDSLAALGLPGRGYGIRYDYGMFKQNIVDGRQKESPDYWLEYGNPWEFERHNTRYKVRFGGRIQQEGKKTRWIETEEIIAEAYDQIIPGFDTDATNTLRLWSAQASSEINLGKFNQGDYFAAVEDKNHSENVSRVLYPDDSTYSGRELRLRQEYFLVSATVQDILNRHYLLHKTYDNLADKIAIHLNDTHPVLSIPELMRLLIDEHKFSWDEAFEVTCQVFSYTNHTLMSEALETWPVDMLGKILPRHLQIIFEINDYFLKTLQEQYPNDTALLSRTSIIDESNGRRVRMAWLAVVVSHKVNGVSELHSRLMVESLFAEFAKIFPMRFINVTNGVTPRRWLALANPPLSKVLDEHIGRTWRTDLSQLDELKQHIDYPTVNQAVRQAKLENKQRLASYIAQQLNVVVNPKALFDVQIKRIHEYKRQLMNVLHVITRYNRIKADPQAEWVPRVNIFAGKAASAYYMAKHIIHLINDVAAVINNDPQIGDKLKVVFIPNYSVSLAQLIIPAADLSEQISLAGTEASGTSNMKFALNGALTIGTLDGANVEMQEHVGEENIFIFGNTAEEVEELRRSGYKPREYYEQDEELHQALTQIGTGVFSPAEPGRYRDLLDSLINFGDHYQVLADYRSYVDCQDRVDELYQHPEEWAYKAMLNIANMGYFSSDRTIQEYAKYIWHIDPVRL	PGPT0018545_3259	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
BMS020_03017	1434	glgA_1	COG0297	Glycogen synthase	ATGCAGGTCTTACATGTATGTTCTGAGATGTTCCCGCTGTTAAAGACGGGCGGTCTGGCGGACGTCATCGGCGCGCTGCCGGCGGCGCAAATCGCGGAGGGTATCGATACGCGCGTGCTGTTGCCGGCGTTTCCCGATATCCGCCGCGGCGTGGTGGATGCCCAGGTGGTGACCCGCCGGGATACGTTCGCCGGGCGGATCACGCTGCTGTACGGCCACTTTAACGGCGTGGGGATCTATCTGATAGACGCCCCGCATCTCTATGACCGGCCGGGGAGCCCTTACCACGATACCAACCAGCACGCTTATACCGACAACGTTCTGCGCTTTGCGCTGCTGGGCTGGGTGGGAAGCGAAATGGCCAGCGGACTGGATCCGTTCTGGCGCCCGGATGTGGTCCATGCCCACGACTGGCACGCCGGCCTGACGCCGGCCTACCTGGCGGCGCGCGGGCGTCCGGCTAAATCGGTCTTTACCGTGCACAACCTGGCGTACCAGGGGATGTTTTACTCCTGGCATATGAATGATATCGAGCTGCCGTGGTCGTTTTACAACATGCATGGCCTCGAGTTTAACGGCCAGATCTCGTTTCTGAAGGCCGGTCTTTACTACGCCGACCATATTACGGCGGTGAGCCCGACCTACGCGCGCGAGATCACCGAGCCGCAGTACGCCTACGGCATGGAGGGGCTGCTGCGTCAGCGCCATCATGAAGGGCGGCTGTCGGGAATTCTCAACGGCGTTGACGACGGTATCTGGAGCCCGCAAAACGACCTCCTGCTGCCGATGCGCTACGATCGCGACACGCTGGAGGAGAAGGCGGAGAACAAGCGTCAGCTGCAGATCGCCATGGGCCTGAAGGTCGATGATAAAGCGCCGCTGTTTGCCGTCGTCAGCCGTCTCACCAGCCAGAAAGGGCTAGATCTGGTGCTTGAAGCGCTGCCGGGCCTGCTTGAGCAGGGCGGCCAGCTGGCGCTGTTGGGCGCCGGCGACCCGGTGCTGCAGGAAGGGTTCCTTGCCGCCGCTGCCGAACACCCGGGCAAGGTGGGGGTGCAGATTGGCTATCATGAGGCCTTCTCCCACCGCATTATGGGGGGCGCCGACGTCATTCTGGTCCCGAGCCGCTTTGAACCCTGCGGCCTGACCCAGCTGTACGGTCTGAAGTACGGTACGTTGCCGCTGGTGCGCCGCACCGGCGGGCTGGCGGACACGGTCTCTGACAGTTCGCTTGAGAACCTTGCCGATGGTCTGGCGACAGGTTTTGTCTTTGAGGACAGCAATGCGCTGTCATTGCTGCGCGCTATACGTCGCGCCTTTGTCCTCTGGTCGCGCCCATCGCTCTGGCGCTATGTGCAGCGTCAGGCGATGAATATGGATTTTAGCTGGCAGGTTGCCGCGAACTCCTATCGCGAACTTTATCAACGCTTGATGTAA	MQVLHVCSEMFPLLKTGGLADVIGALPAAQIAEGIDTRVLLPAFPDIRRGVVDAQVVTRRDTFAGRITLLYGHFNGVGIYLIDAPHLYDRPGSPYHDTNQHAYTDNVLRFALLGWVGSEMASGLDPFWRPDVVHAHDWHAGLTPAYLAARGRPAKSVFTVHNLAYQGMFYSWHMNDIELPWSFYNMHGLEFNGQISFLKAGLYYADHITAVSPTYAREITEPQYAYGMEGLLRQRHHEGRLSGILNGVDDGIWSPQNDLLLPMRYDRDTLEEKAENKRQLQIAMGLKVDDKAPLFAVVSRLTSQKGLDLVLEALPGLLEQGGQLALLGAGDPVLQEGFLAAAAEHPGKVGVQIGYHEAFSHRIMGGADVILVPSRFEPCGLTQLYGLKYGTLPLVRRTGGLADTVSDSSLENLADGLATGFVFEDSNALSLLRAIRRAFVLWSRPSLWRYVQRQAMNMDFSWQVAANSYRELYQRLM	PGPT0025880_2519	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
BMS020_03018	1296	glgC	COG0448	Glucose-1-phosphate adenylyltransferase	ATGGTTAGGCTTGAAAAAAACGATCCGCTGATGCTGGCGCGTCAATTACCTATCAAATCCGTGGCGTTGATCCTCGCGGGCGGCCGTGGCACCCGGCTTAAGGATCTCACCATTAAGCGTGCGAAACCTGCCGTTCACTTCGGCGGCAAGTTCCGTATTATCGATTTCGCATTATCTAACTGCATTAACTCAGGGATCCGCCGTATCGGCGTTATTACCCAGTATCAGTCGCATACGCTGGTACAGCACATCCAGCGCGGCTGGTCGTTCTTCAGCGAAGAGATGAACGAGTTTGTCGATCTGCTGCCGGCCCAACAGCGCGTACACGGCGAAAACTGGTATCGCGGCACGGCGGACGCGGTGACGCAGAACCTGGACATCATCAGCCGCTACAAGGCCGAGTACGTGGTGATCCTCGCGGGCGACCATATTTATAAGCAGGACTACTCGCGCATGCTGATCGACCATGTCGAAAAAGGGGCGCGTTGCACCGTGGCCTGCATGCCGGTGCCCATTGAAGAGGCATCCGCCTTCGGCGTCATGGCGGTCGACGAAAACGAAAAAATCATTGAGTTTGTCGAGAAACCCGCCAACCCGCCGGCGATGCCGACCGACCCGACCAAATCGCTGGCCAGCATGGGCATTTATGTCTTCGACGCCGCCTATCTTTATGAGCTGCTGGAGGAAGACGATCGCAACGAGAACTCCAGCCATGATTTCGGCAAAGACATCATTCCGAAGATCACCGAAGCTGGCATGGCTTATGCACATCCTTTCCCGCTCTCCTGCGTGCAGTCCGACCCGAACGCCGAGCCGTACTGGCGCGACGTGGGGACGCTGGAGGCCTACTGGAAGGCCAACCTCGATCTGGCGTCAGTCACGCCGGAGCTGGATATGTACGACCAGAACTGGCCGATCCGTACCCATATGGAATCGCTGCCGCCGGCGAAGTTCGTGCAGGACCGTTCCGGAAGCCACGGCATGACCCTGAACTCGCTGGTCTCCGGGGGCTGCATTATCTCCGGGTCGGTGGTGGTGCAGTCGGTGCTGTTCCCGCGCGTGCGGGTGAACTCATTCTGTAACATTGATTCGGCAGTCTTGTTGCCAGATGTCTGGGTGGGGCGCTCATGCCGCCTGCGTCGCTGCGTGATTGACCGCGCCTGCGTCATCCCGGAAGGTATGGTGATTGGTGAGAACGCGGAAGAGGATGCACGCCGCTTCTATCGCTCAGAGGAAGGTATCGTGCTGGTGACCCGCGACATGCTGCGGAAATTGGGGCACAAACAGGAGCGCTAA	MVRLEKNDPLMLARQLPIKSVALILAGGRGTRLKDLTIKRAKPAVHFGGKFRIIDFALSNCINSGIRRIGVITQYQSHTLVQHIQRGWSFFSEEMNEFVDLLPAQQRVHGENWYRGTADAVTQNLDIISRYKAEYVVILAGDHIYKQDYSRMLIDHVEKGARCTVACMPVPIEEASAFGVMAVDENEKIIEFVEKPANPPAMPTDPTKSLASMGIYVFDAAYLYELLEEDDRNENSSHDFGKDIIPKITEAGMAYAHPFPLSCVQSDPNAEPYWRDVGTLEAYWKANLDLASVTPELDMYDQNWPIRTHMESLPPAKFVQDRSGSHGMTLNSLVSGGCIISGSVVVQSVLFPRVRVNSFCNIDSAVLLPDVWVGRSCRLRRCVIDRACVIPEGMVIGENAEEDARRFYRSEEGIVLVTRDMLRKLGHKQER	PGPT0025885_951	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
BMS020_03019	1977	glgX_1	COG1523	Glycogen debranching enzyme	ATGACCAACCTCGCGGCAGGCAAGCCTGCGCCGTTGGGCGCCAGCTATGACGGCAAGGGGGTGAACTTCGCCCTCTTCTCCGCCCACGCGGAGCGGGTGGAGCTGTGCGTGTTCGACGAGCAGGGCAACGAGCAACGCTTCGATCTCCCGGCGCGCAGCGGCGACATCTGGCACGGCTGGCTGGCTGCCGTCGGGCCGGGCCTGCGCTACGGCTACCGGGTGCATGGCCCCTGGGATCCGGCGCAGGGACACCGCTTTAACCCGGCCAAGCTGCTGCTCGATCCCTGCGCTCACCGGGTTGAGGGCGATCTGCCGGACGACGAGCGCCTGCACGGCGGAATGTGGCAGCCGGATCATCGCGATAGCGCCGCGATAGCGCCAAAATCGCAGGTAGTGGATCTGCGTTACGACTGGCTGGGCGATAAACCGCCGCGTACCCCGTGGGGGGAAACGGTGATTTATGAAGCGCACGTGAAAGGGCTCACCCTGCTTAATCCGCAGCTGCCGGAAGCCATTCGCGGAACGTATAAGGCGCTGGGCCACCCGGTGATGATCGCTTACTTCAAATCGCTGGGCATCAGCGCCCTTGAACTGTTGCCGGTGGCGCAGTTCGCCAGCGAGCCGCGACTGCAGCGGATGGGGTTGAGCAACTACTGGGGCTACAACCCGCTGGCCTGGTTCGCGCTGGATCCGCGCTATGCCAGCGACCCGACGCGCGCCCTGGATGAGTTTCGCGATGCGGTTAAGGCGCTGCACGCCGCCGGTATCGAGGTGATTCTGGATATCGTGCTCAACCATAGCGCGGAAATCGATCTTGAAGGTCCCACCGTCTCCCTGCGCGGAATCGACAACCGTAGCTATTATTGGGTAAGGGAAGATGGCGATTATCACAACTGGACCGGGTGCGGGAATACGCTCAATCTCAGCCACCCGGGGGTAGTGGAACTGGCGCGCCAGTGTTTGCGCTTCTGGGTGGATGAGTGCCATGTCGACGGTTTTCGCTTCGATCTCGCCTCAGTGATGGGACGGACGCCGGAATTCCGCCAGGATGCGCCGCTGTTCGAGGCTATCCGCCACGACAGCGTGCTGTCGCAGGTGAAACTGATCGCCGAACCCTGGGATATCGGCCCGGGGGGCTACCAGGTGGGCAATTTTCCCCCGCTGTTCGCCGAGTGGAACGACCATTTTCGCGATAGCGCCCGCCGCTTCTGGCTGCAGCAAAACGTCTCCTTGGGGGATTTCGCGCAACGCTTCGCGGCCTCCAGCGATCTCTTTGCCCGTGATGGCAAGCCGCCATCGGCGACGGTCAATCTGGTGACGGCCCACGATGGCTTCACGCTGCGCGACTGCGTTTGTTTCAATCAGAAACACAATGAGGCGAACGGGGAGGAGAATCGCGATGGGACTAACAATAACTACAGCAACAATCATGGTATAGAAGGATTAGAAGCTAATTTTGCGGTGATTGAACGGCGACGCGCCAGCGTGCATGCGCTGCTGACGACGCTGCTGCTGGCTCAGGGGACGCCGATGCTGCTGGCGGGCGATGAGCAGGGCCACAGCCAGCACGGCAACAATAATGCCTACTGTCAGGACAACGCCCTTACCTGGCTCGACTGGCGCCAGGCGAACCCGGGATTAACCGCCTTTACCGCGGCGCTGATCCACCTGCGCCGGCGCATTCCGGCGCTCACCCGCAACCGCTGGTGGCAGGAGGGGGATGGCAGCGTCCGCTGGCTTAATCGCCATGCCCAGCCGCTGACTGCCGGGGAGTGGCAGCAGGGGGCAGCGTGTATGCAGATCCAGTTGTCGGATCGCTGGCTGCTCACGCTGAACGCCACCGCAGAGGTGGTCGATATGGTTTTACCCGAGGGGGAATGGCGCGCCGTTCCTCCATTCGCCGGAGAGGATAATCCGGTCATCATGGCTGTCTGGCATGGGCCCGCGCACGGAGTGTGCGTATTTCAAAGGTCGTAA	MTNLAAGKPAPLGASYDGKGVNFALFSAHAERVELCVFDEQGNEQRFDLPARSGDIWHGWLAAVGPGLRYGYRVHGPWDPAQGHRFNPAKLLLDPCAHRVEGDLPDDERLHGGMWQPDHRDSAAIAPKSQVVDLRYDWLGDKPPRTPWGETVIYEAHVKGLTLLNPQLPEAIRGTYKALGHPVMIAYFKSLGISALELLPVAQFASEPRLQRMGLSNYWGYNPLAWFALDPRYASDPTRALDEFRDAVKALHAAGIEVILDIVLNHSAEIDLEGPTVSLRGIDNRSYYWVREDGDYHNWTGCGNTLNLSHPGVVELARQCLRFWVDECHVDGFRFDLASVMGRTPEFRQDAPLFEAIRHDSVLSQVKLIAEPWDIGPGGYQVGNFPPLFAEWNDHFRDSARRFWLQQNVSLGDFAQRFAASSDLFARDGKPPSATVNLVTAHDGFTLRDCVCFNQKHNEANGEENRDGTNNNYSNNHGIEGLEANFAVIERRRASVHALLTTLLLAQGTPMLLAGDEQGHSQHGNNNAYCQDNALTWLDWRQANPGLTAFTAALIHLRRRIPALTRNRWWQEGDGSVRWLNRHAQPLTAGEWQQGAACMQIQLSDRWLLTLNATAEVVDMVLPEGEWRAVPPFAGEDNPVIMAVWHGPAHGVCVFQRS	PGPT0018555_455	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0018555-glgX-K02438	NA	NA
BMS020_03020	2187	glgB_1	COG0296	1,4-alpha-glucan branching enzyme GlgB	ATGTCTAATCATATCGATAGAGACGTGATTAATGCGCTAATCGCCGGTCATTTCGCGGACCCTTTTTCCGTGCTCGGCATGCACCGTACCGACGCCGGGCTGGAAGTGCGCGCATTATTACCCGATGCCACCGATGTGTGGGTTATTGAACCGAAAACCGGACGCAAAGTCGGCAAGCTCGAATGCCTCGACTCGCGTGGTTTCTTCAGCGGCGTTCTGCCGCGGCGTAAAAACGCCTTTCGCTATCAGCTGGCCGTCACCTGGCACGGGCAGCAGAATCTGATTGATGACCCTTATCGCTTTGGTCCGCTGCTGCAGGATCTTGACGTCTGGCTGCTGTCGGAAGGGACCCACCTGCGCCCTTACGAAACGCTGGGCGCGCACGCCGCCACCATGGACGGCGTCACCGGCACCCGTTTCTCGGTATGGGCGCCGAACGCCCGTCGCGTCTCAGTGGTGGGGCAGTTTAACTACTGGGACGGCCGGCGCCACCCGATGCGATTCCGCAAAGAGTCCGGCATCTGGGAACTGTTCGTCCCGGGCGCGCACAATGGCCAGCTGTATAAATTCGAGCTGATTGACGCCCACGGCCATCTGCGGGTCAAAGCTGACCCTTACGCCTTTGAATCGCAAATGCGTCCGGAAAGCGCCTCGCTTATCTGTGACCTGCCGCCTAAAGTCGAACAGCCGGCGGACCGCAAAGCGGCGAACCAGTTCGATGCCCCTGTCTCTATCTATGAAGTGCATCTTGGCTCATGGCGTCGCCATACCGACAATAATTTCTGGCTGAGCTACCGCGAGCTGGCCGACCAGCTGGTGCCCTACGCGAAATGGATGGGCTTCACCCATCTCGAGCTGCTGCCGGTTAACGAGCACCCGTTCGACGGCAGCTGGGGCTATCAACCCACCGGCCTCTATGCGCCGACCCGCCGGTTCGGCACCCGCGATGATTTCCGTTACTTTATCAACGCCGCGCACGCCGCCGGGCTAAACGTCATTCTGGACTGGGTGCCTGGCCACTTCCCGGCGGATGATTTTGCCCTTGCCTCTTTCGATGGCACCGCCCTGTATGAGCACAGCGATCCGCGCGAGGGGTATCACCAGGACTGGAATACCCTGATCTACAACTACGGACGCCGCGAAGTCAGCAACTTCCTGGTGGGAAATGCGCTGTACTGGATCGAACGCTTCGGCATCGATGCTCTGCGCGTCGACGCGGTGGCTTCGATGATCTATCGCGACTATAGCCGCAAGGCGGGGGAGTGGATCCCCAACGAATACGGTGGCCGGGAAAATCTGGAAGCCATTGAGTTTCTGCGCAACACCAACCGCATCCTTGGCGAACAGACGCCGGGCGCGGTCACCATGGCGGAAGAGTCCACCGATTTCGCCGGGGTAACCCGTCCGCCAGCCGGCGGCGGCCTCGGTTTTTGGTTCAAATGGAACCTCGGCTGGATGCACGACACCCTGGATTACATGAAACTCGATCCGGTGCACCGCCGCTTCCATCACGACAAAATGACCTTCGGCATGCTCTACAACTACACCGAGAACTTTGTGCTGCCGCTCTCCCACGATGAAGTGGTGCACGGCAAAAAATCGATTCTCGACCGCATGCCGGGGGACGCCTGGCAGAAGTTCGCCAACCTGCGCGCCTACTACGGCTGGCTGTTCGCCTTCCCGGGGAAAAAGCTGCTGTTTATGGGCAATGAGTTCGCCCAGGGCCGCGAGTGGAACCACGACGGCAGCCTCGACTGGCATCTGCTGGAGGGCGGCGACAACTGGCACCACGGCGTCCAGCGGCTGGTGCGCGACCTGAACCATACCTATCGCCACCATAAGGCGCTGCACGAGCTGGACTTTGACCCGTACGGCTTCGAATGGCTGGTGGTGGACGACCACGAGCGCTCAGTGTTTGTCTTTGTGCGCCGCGACCGGGCGGGGAACGAGATTATCGTCGCCAGCAACTTCACGCCGGTGCCGCGCCACGACTACCGCTTCGGCATCAACCAGCCGGGCCGCTGGCGCGAGGCGTTGAATACCGACTCAATGCACTATCACGGCAGCAACCAGGGCAACGGCGGGGTGGTGGAAAGCGATGCCATCCCCAGCCACGGTCGCGAACATTCGCTGTCCCTGACCCTGCCGCCGCTGGCGACGATCTGGCTGGTCCGGGAGGCGCAATGA	MSNHIDRDVINALIAGHFADPFSVLGMHRTDAGLEVRALLPDATDVWVIEPKTGRKVGKLECLDSRGFFSGVLPRRKNAFRYQLAVTWHGQQNLIDDPYRFGPLLQDLDVWLLSEGTHLRPYETLGAHAATMDGVTGTRFSVWAPNARRVSVVGQFNYWDGRRHPMRFRKESGIWELFVPGAHNGQLYKFELIDAHGHLRVKADPYAFESQMRPESASLICDLPPKVEQPADRKAANQFDAPVSIYEVHLGSWRRHTDNNFWLSYRELADQLVPYAKWMGFTHLELLPVNEHPFDGSWGYQPTGLYAPTRRFGTRDDFRYFINAAHAAGLNVILDWVPGHFPADDFALASFDGTALYEHSDPREGYHQDWNTLIYNYGRREVSNFLVGNALYWIERFGIDALRVDAVASMIYRDYSRKAGEWIPNEYGGRENLEAIEFLRNTNRILGEQTPGAVTMAEESTDFAGVTRPPAGGGLGFWFKWNLGWMHDTLDYMKLDPVHRRFHHDKMTFGMLYNYTENFVLPLSHDEVVHGKKSILDRMPGDAWQKFANLRAYYGWLFAFPGKKLLFMGNEFAQGREWNHDGSLDWHLLEGGDNWHHGVQRLVRDLNHTYRHHKALHELDFDPYGFEWLVVDDHERSVFVFVRRDRAGNEIIVASNFTPVPRHDYRFGINQPGRWREALNTDSMHYHGSNQGNGGVVESDAIPSHGREHSLSLTLPPLATIWLVREAQ				NA	NA	NA	NA	NA
BMS020_03021	1107	asd_2	COG0136	Aspartate-semialdehyde dehydrogenase	ATGAAAAATGTTGGTTTTATCGGCTGGCGCGGAATGGTCGGCTCTGTTCTCATGCAACGCATGGTTGAAGAGCGCGATTTCGACGCCATTCGCCCGGTGTTCTTCTCTACCTCCCAGCTGGGACAGCCAGCGCCGTCTTTCGGCGGTAGCACCGGTGGCACGCTCCAGGATGCGTTCGATCTGGACGCGCTGAAGGCACTGGACATTATTGTCACGTGCCAGGGCGGCGATTACACCAACGAGATTTACCCGAAGCTGCGCGAAAGCGGCTGGCAGGGTTACTGGATTGACGCCGCCTCTTCGCTGCGCATGAAGGACGATGCGATCATTATCCTCGACCCGGTTAACCAGGACGTGATCACCGCCGGCCTGAACAATGGCGTAAAAACCTTTGTCGGCGGCAACTGTACCGTCAGCCTGATGCTGATGTCCCTCGGCGGCCTGTTTGCCCAGGATCTGGTGGAGTGGGTCAGCGTGGCGACATACCAGGCGGCTTCCGGCGGCGGCGCGCGTCATATGCGCGAACTGCTGAGCCAGATGGGCCAGCTGCACAACCACGTCGCGGCAGAGCTGGCGGACCCGGCTTCCGCCATTCTGGATATCGAGCGCAAAGTGACGTCGCTGACCCGCAGCGGCGAGCTGCCGGTGGATAACTTCGGCGTACCGCTGGCGGGCAGCCTGATCCCGTGGATCGACAAACAGCTGGATAACGGCCAGAGCCGCGAAGAGTGGAAAGGCCAGGCGGAGACCAACAAGATCCTCGCCACCTCGTCCGTTATCCCGGTAGACGGCCTGTGCGTCCGCGTCGGCGCGCTGCGCTGCCACAGCCAGGCGTTCACCATCAAGCTGAAAAAAGATATCTCTATCCCGACCGTTGAGGAGCTGCTGGCCGCGCACAACCCGTGGGCCAAAGTGGTACCGAACGATCGCGACATTACCATGCGCGAGCTGACCCCAGCCGCGGTGACTGGCACCCTGACCACCCCGGTAGGTCGCCTGCGTAAACTGAATATGGGGCCGGAGTATCTGTCGGCCTTTACCGTTGGCGACCAGCTGCTGTGGGGCGCCGCGGAGCCGCTGCGCCGGATGCTTCGCCAGCTGGCGTAA	MKNVGFIGWRGMVGSVLMQRMVEERDFDAIRPVFFSTSQLGQPAPSFGGSTGGTLQDAFDLDALKALDIIVTCQGGDYTNEIYPKLRESGWQGYWIDAASSLRMKDDAIIILDPVNQDVITAGLNNGVKTFVGGNCTVSLMLMSLGGLFAQDLVEWVSVATYQAASGGGARHMRELLSQMGQLHNHVAAELADPASAILDIERKVTSLTRSGELPVDNFGVPLAGSLIPWIDKQLDNGQSREEWKGQAETNKILATSSVIPVDGLCVRVGALRCHSQAFTIKLKKDISIPTVEELLAAHNPWAKVVPNDRDITMRELTPAAVTGTLTTPVGRLRKLNMGPEYLSAFTVGDQLLWGAAEPLRRMLRQLA	PGPT0014045_1262	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133	NA	NA
BMS020_03022	1266	gntU	COG2610	Low-affinity gluconate transporter	ATGCACGCCTTCGTGGCTTTGATGGTGGTTTCTATTGGCGCAGGTCTCTTCTCCGGCATGCCGCTGGATAAAATCGCGGCGACGATGGAGAAGGGGATGGGCGGTACGCTGGGCTTCCTGGCGATCGTCGTCGCGCTGGGCGCGATGTTCGGGAAGATCCTGCATGAAACGGGGGCGGTCGATCAGATTGCCGTCAAGATGCTCAAATCCTTCGGCCACAATCGCGCGCACTATGCGATTGGTCTCGCCGGCCTCATCTGCGCGCTGCCGCTGTTTTTCGAAGTGGCGATCGTGCTACTGATCAGCGTCGCCTTCTCGATGGCGCGCCATACCGGCACTAACCTCGTGAAGCTGGTGATCCCGCTGTTTGCCGGGGTGGCCGCCGCCGCGGCGTTCCTGCTGCCGGGACCGGCGCCGATGCTGCTGGCGTCGCAAATGCACGCCGACTTTGGCTGGATGATCCTGATTGGCCTGTGCGCGGCCATTCCGGGAATGATTATCGCCGGGCCGCTGTGGGGCAACTTCATCAGCCGCTACGTTGAGCTGCATATTCCTGACGACGTGACGGAGCCGCATCTCGGCGAAGGCAAAATGCCCTCCTTCGGCTTCAGCCTGTCGCTGATCCTGCTGCCGCTGGTGCTGGTAGGCCTGAAAACCATCGCCGCGCGCTTTGTGCCGGTGGGGTCGACCGCTTACGAATGGTTTGAATTTATCGGTCACCCATTCACCGCGATCCTGGTAGCCTGCCTGGTGGCGATCTACGGCCTGGCGGTACGTCAGGGGATGGCGAAAGACCGGGTGATGGAGATCTGCGGTCATGCGCTGCAGCCGGCGGGCATTATCCTGCTGGTGATCGGGGCAGGCGGCGTCTTCAAGCAGGTGCTGGTTGACTCCGGCGTCGGCCCGGCGCTGGGTGAAGCGCTGACCGGCATGGGGCTGCCGATCGCCATTACCTGCTTCGTGCTGGCGGCGGCGGTGCGTATCATCCAGGGCTCCGCCACCGTGGCGTGCCTGACGGCGGTCGGCCTGGTGATGCCGGTGATTGAGCAGCTGAACTACAGCGGCGCGCAGATGGCGGCATTGTCTATCTGTATCGCCGGCGGCTCGATTGTCGTGAGCCATGTGAACGACGCCGGCTTCTGGCTGTTCGGTAAATTTACCGGCGCCACCGAAGCCCAGACGCTGAAAACCTGGACGATGATGGAAACCATCCTCGGCACCACCGGGGCGATTGTCGGCATGATCGCCTTCCAGCTGCTGAGCTAA	MHAFVALMVVSIGAGLFSGMPLDKIAATMEKGMGGTLGFLAIVVALGAMFGKILHETGAVDQIAVKMLKSFGHNRAHYAIGLAGLICALPLFFEVAIVLLISVAFSMARHTGTNLVKLVIPLFAGVAAAAAFLLPGPAPMLLASQMHADFGWMILIGLCAAIPGMIIAGPLWGNFISRYVELHIPDDVTEPHLGEGKMPSFGFSLSLILLPLVLVGLKTIAARFVPVGSTAYEWFEFIGHPFTAILVACLVAIYGLAVRQGMAKDRVMEICGHALQPAGIILLVIGAGGVFKQVLVDSGVGPALGEALTGMGLPIAITCFVLAAAVRIIQGSATVACLTAVGLVMPVIEQLNYSGAQMAALSICIAGGSIVVSHVNDAGFWLFGKFTGATEAQTLKTWTMMETILGTTGAIVGMIAFQLLS	PGPT0001335_105	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_GLUCONATE_TRANSPORT,PGPT0001335-gntU-K06156	NA	NA
BMS020_03023	492	gntK_1	COG3265	Thermoresistant gluconokinase	ATGGGCGTTTCCGGCAGCGGGAAATCCGCTGTCGCCAGCGAAGTGGCGCATCAGCTGCATGCCGCGTTTCTCGACGGCGACTTTCTGCATCCGCGCAGCAATATCACCAAGATGGCCTCCGGTGAGCCGCTCAACGATGACGACCGTACCCCGTGGCTGCAGGCGCTAAATGACGCCGCGTTTGCCATGCAGCGTACCAATAAGGTGTCGCTGATCGTCTGTTCGGCGCTGAAGAAGAGCTATCGCGACATTCTGCGCAAGGGCAACCCGAACCTCTCCTTCATCTACCTGAAAGGCGACTTCGAGGTGATCGAAAACCGTCTGAAGGCGCGTAAAGGGCACTTCTTCAAAACCCAAATGTTGGTGACGCAGTTTGAAACGCTGCAGGAACCAGGCGCCGACGAGAGCGATGTGCTTATCGTCGATATCGACCAGCCGCTGGAAGGCGTGGTGGCCAGCACCATTGAGGTGATCAACAAAGGCAGTCACTAG	MGVSGSGKSAVASEVAHQLHAAFLDGDFLHPRSNITKMASGEPLNDDDRTPWLQALNDAAFAMQRTNKVSLIVCSALKKSYRDILRKGNPNLSFIYLKGDFEVIENRLKARKGHFFKTQMLVTQFETLQEPGADESDVLIVDIDQPLEGVVASTIEVINKGSH	PGPT0018055_1086	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_GLUCONIC_ACID_UTILIZATION,PGPT0018055-gntK|idnK-K00851	NA	NA
BMS020_03024	996	gntR		HTH-type transcriptional regulator GntR	ATGAAAAAGAAAAGACCCGTACTTCAGGATGTAGCCGATCTTGTCGGCGTGACCAAAATGACGGTCAGTCGCTATTTACGCAACCCGGAGCAGGTCTCCGAAGCGCTGCGTGGCAAGATTGCCGTTGCCCTCGATGAACTGGGTTATATTCCCAATCGCGCCCCTGACATTCTCTCCAACGCCACCAGCCGCGCCATTGGCGTGCTGCTGCCATCGTTAACCAACCAGGTGTTCTCGGAAGTGCTGCGCGGGATTGAAAGCGTCACTGACGCCTTCGGCTATCAAACCATGCTGGCGCACTACGGCTACAAGCCGGAAATGGAAGAGAAACGCCTCGAATCGATGCTCTCCTGGAACATTGACGGCCTGATCCTCACCGAACGCACCCATACGCCCCGCACCCTGAAGATGATTGAAGTCGCCGGCATTCCGGTGGTGGAGCTAATGGACAGCCAGTCACCGTGCCTCGATATCGCGGTCGGTTTCGATAACTTCGAAGCGGCGCGGCAGATGACGGCGGCGATTATCGCCCGCGGCCACCGCCACGTTGCTTATCTCGGCGCGCGTCTTGATGAACGTACTATCATCAAACAGAAGGGGTACGAGCAGGCGATGCTCGATGCGGGCATGACGCCCTACAGCGTGATGGTGGAGCAGTCCTCGTCCTATTCATCCGGGATTGAGCTGATGCGCCAGGCGCGCCGCGAATACCCGCAGCTTGACGGCATCTTTTGCACCAACGATGACCTCGCGGTCGGCGCGGCCTTTGAGTGCCAGCGCCTGGGGCTGAAGATCCCGGACGACATGGCGATAGCCGGTTTCCACGGCCACGATATCGGCCAGGTGATGGAGCCGCGGCTGGCCAGCGTCCTGACCCCGCGCGAGCGGATGGGGCGCATTGGCGCCGAACGTCTGCTGGCGCGCATTCGTGGCGAAGCGATTACCCCTAAGATGTTAGATTTAGGTTTCACATTGTCACCGGGCGGATCAATTTAA	MKKKRPVLQDVADLVGVTKMTVSRYLRNPEQVSEALRGKIAVALDELGYIPNRAPDILSNATSRAIGVLLPSLTNQVFSEVLRGIESVTDAFGYQTMLAHYGYKPEMEEKRLESMLSWNIDGLILTERTHTPRTLKMIEVAGIPVVELMDSQSPCLDIAVGFDNFEAARQMTAAIIARGHRHVAYLGARLDERTIIKQKGYEQAMLDAGMTPYSVMVEQSSSYSSGIELMRQARREYPQLDGIFCTNDDLAVGAAFECQRLGLKIPDDMAIAGFHGHDIGQVMEPRLASVLTPRERMGRIGAERLLARIRGEAITPKMLDLGFTLSPGGSI				NA	NA	NA	NA	NA
BMS020_03025	696	yhhW_1	COG1741	Quercetin 2,3-dioxygenase	ATGATCTACTTACGCAAAGCGAACGAACGTGGCCACGCTAACCATGGCTGGCTGGATTCCTGGCATACTTTCTCTTTCGCCAACTACTACGACCCGAACTTTATGGGCTTCTCCGCCCTGCGGGTGATTAACGACGACGTCATCGACGCCGGTCAGGGCTTCGGTACCCACCCGCATAAAGATATGGAGATCCTGACCTATGTGCTGGAAGGGGCGGTGGAGCACCAGGACAGCATGGGCAACAAAGAGCAGGTGCCGGCGGGCGAGTTCCAGATCATGAGCGCGGGTACCGGGGTGCGTCACTCTGAGTACAACCCGAGCAAAACCGATCGTCTGCGTCTGTACCAGATCTGGATTATTCCGGAAGAAACCGGCATTACCCCGCGCTACGAGCAGCGCCGCTTCGACGCCGCCCAGGGCAAACAGCTGGTGCTGTCGCCGGATGCACGGGATGGCTCGCTGAAGGTCTATCAGGATATGGAGCTGTATCGCTGGGCGCTGCTGAAAGATGAGCAGTCGGTTCACCAGATTGCCGCGGAACGTCGCGTCTGGATCCAGGTCGTCAAAGGCGAAGTGACCATCAACGGTACCAAAGCCACCACCAGCGATGGTTTGGCTATCTGGGACGAGCAGGCGATTTCGGTTCATGCCGACAGCGATAGCGAAATCCTGCTGTTCGATCTGCCGCCGGTTTGA	MIYLRKANERGHANHGWLDSWHTFSFANYYDPNFMGFSALRVINDDVIDAGQGFGTHPHKDMEILTYVLEGAVEHQDSMGNKEQVPAGEFQIMSAGTGVRHSEYNPSKTDRLRLYQIWIIPEETGITPRYEQRRFDAAQGKQLVLSPDARDGSLKVYQDMELYRWALLKDEQSVHQIAAERRVWIQVVKGEVTINGTKATTSDGLAIWDEQAISVHADSDSEILLFDLPPV	PGPT0019980_6140	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
BMS020_03026	1038	yhhX	COG0673	putative oxidoreductase YhhX	ATGACTCTGCACTGCGCATTTATTGGCTTCGGTAAAAGCACCACCCGCTACCATCTTCCTTACGTGTTACACCGCCAGGACCGCTGGCAGGTGGCGCACATCTATCGCCGTCGGGCGAAGCCCGAGGAGCAGGCGCCGCAGTATTCCCACATCCATTTCACCAGCGATCTCGATGAAGTATTAAACGACCCGCAGGTCAGGCTGGTGGTGGTCTGCACCCATGCCGACAGCCATTTTGACTATGCGAAAAAGGCGCTGGAGGCGGGGAAAAACGTGCTGGTGGAAAAGCCGTTCACCCCGACGCTGGAGGAAGCCAAGACCCTGTTTGCGCTGGCGAACAGCAAAGGCCTGACGGTGACGCCCTACCAGAACCGCCGCTTCGACTCCTGCTTCCTGACCACTAAAAAGGTGATTGAGAGCGGCAAACTTGGCGAACTGGTGGAGATCGAAAGCCATTTTGACAACTACCGTCCGCTGGCGGAGACCAACCCCGGCGGCCCGCAAAACGGCGAGTTCTATGGCCTTGGCGTGCATACCCTGGACCAGATTATTTCGCTGTTCGGCCGCCCGGACCATGTCGCTTACGATCTGCGCTCGCTGCGCAACAAAGCTAACCCGGATGATACCTTTGAGGCCCAGCTGTTCTACGGCGATCTGAAGGCCATCGTTAAGACCAGCCACCTGGTGCAGATCGACTACCCGAAATTCATCGTCCACGGCCATAAAGGCTCGTTTGTGAAATATGGTATCGACCAGCAGGAGACCAGCCTGAAAGCCAATATCATGCCGGGCGAGCCGGGCTTTGGCGCGGACGACAGCGTCGGCGATCTGGTGTATGTCAACGAGGCGGGGGAGACGGTGCGCGAAGCGGTCCCGCTGGAGAGCGGCGACTATGGTCGGGTCTACGACGCGCTGTACGACACCCTCGTCAACGGCCAGCCAAATTACGTCAAGGAATCTGACGTTCTTACCAATATGGAGATCCTGCAGCGCGGCTTTGAGCAGCCCTCACCGGCCACCATTACTCTGGTGAAATAA	MTLHCAFIGFGKSTTRYHLPYVLHRQDRWQVAHIYRRRAKPEEQAPQYSHIHFTSDLDEVLNDPQVRLVVVCTHADSHFDYAKKALEAGKNVLVEKPFTPTLEEAKTLFALANSKGLTVTPYQNRRFDSCFLTTKKVIESGKLGELVEIESHFDNYRPLAETNPGGPQNGEFYGLGVHTLDQIISLFGRPDHVAYDLRSLRNKANPDDTFEAQLFYGDLKAIVKTSHLVQIDYPKFIVHGHKGSFVKYGIDQQETSLKANIMPGEPGFGADDSVGDLVYVNEAGETVREAVPLESGDYGRVYDALYDTLVNGQPNYVKESDVLTNMEILQRGFEQPSPATITLVK				NA	NA	NA	NA	NA
BMS020_03027	642			hypothetical protein	ATGGACAAACAGTATCTCGCCTTAAACGGCGCCCTTTTTTTCTGGCTTCTCGCGCTGATCGCCTGGTCTGTCGATGCGATCGTGCCGGCGCGCCTGGCGGCCGCCTGCGCACTGGTCGCCTTTCTCCTCCATAGCCAACGGAACAAAATTAACGCGATGTTTATTAAGAAAAATAAAACGGAACCTCAGACGTCAGAAGTGGCCACGCCTCCGGCAAACAACCCAGAATCCCAGGCGGTCGCCAGCAAAAAACAAGAGACTACAGTCATCGCCAGCGGGGTGCATTTCGTCGGCAATATTGTCGCCAGCGGCCATGTCTATATTCACGGCCAGCTTACCGGCAACATTGAGGCGAAAGAACATCTGATTAAGGTGATGCGTGAAGGTCAGGTCGAGGGCAACATCAGCTGCCGTGAGCTGATTATTGATGGCAAGGTTCAGGGCCAGTGCCGCGGCGACAGCATCACCATTGAGGAACACGGCAATCTGGATGGCACCCTCGCCTATCGCTCGCTGGCGATTAAAAAGGGCGGCCAGTTCACCGGCAGCGCCGAGGTGCTGGCCGCGGCGGAAAGCAAAAGTCATCTCATCGGCCTGGTTGCGGAAGACGGCGTGATGTCCGCCAGGCCGCAAAGCGCCTGA	MDKQYLALNGALFFWLLALIAWSVDAIVPARLAAACALVAFLLHSQRNKINAMFIKKNKTEPQTSEVATPPANNPESQAVASKKQETTVIASGVHFVGNIVASGHVYIHGQLTGNIEAKEHLIKVMREGQVEGNISCRELIIDGKVQGQCRGDSITIEEHGNLDGTLAYRSLAIKKGGQFTGSAEVLAAAESKSHLIGLVAEDGVMSARPQSA				NA	NA	NA	NA	NA
BMS020_03029	489	aaaT	COG0454	L-amino acid N-acetyltransferase AaaT	ATGAGTGACATAGTGATACGCCATGCCGAACCGCGCGATGCTGAACCTTTACGTATGCTGATGGCGCACCCGGAGGTCTATCATGACACGCTACAGATCCCTTACCCCGCCATGGAAGCCTGGCAGGAGAAGCTACAGCCCAAACCCCATACCTTCCATCTGGTGGCGACGCTGGACGATCGGGTTACCGGGCATCTGTCGCTCCATGTCGAACCGCGCCCTCGTCGCAGCCACGTGGCGACCTTTGGCATGGCGGTTGCCGCCGGCTATCAGGGGCGCGGTATCGGCAGCGCGCTGATGCGCGAGATGATCGATCTGTGCGATAACTGGCTGCGCGTTGACCGCATTGAGCTGACGGTGTTCGCTGATAACAAGCCGGCGATTGCGGTGTACAAAAAACACGGATTTGAGATCGAAGGCACCGGCAAGCGTTACGCGCTGCGCAACGGTGAATATGTGGATGCATATTATATGGCGAGAATGAAGTAG	MSDIVIRHAEPRDAEPLRMLMAHPEVYHDTLQIPYPAMEAWQEKLQPKPHTFHLVATLDDRVTGHLSLHVEPRPRRSHVATFGMAVAAGYQGRGIGSALMREMIDLCDNWLRVDRIELTVFADNKPAIAVYKKHGFEIEGTGKRYALRNGEYVDAYYMARMK	PGPT0020290_571	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-RESISTANCE_TO_TOXIC_AMINOACYL_NUCLEOTIDES-1,PGPT0020290-aaaT-K03825	NA	NA
BMS020_03030	1746	ggt_1	COG0405	Glutathione hydrolase proenzyme	ATGATAAAAACAACAATCTGGCGTCAGGTGGTCATCGCTGCGTTGCTGGCGGGCGGTAGTTTTACCGTCGCCGCCAGTCCACCGCCGCCGCCGCCGGTCTCTTATGGCGTAGAGGAGGATGTATTCCACCCGGTGCGCGCCCGGCAGGGCATGGTGGCCTCGGTGGATGCGCTGGCCACCCGCGTCGGGGTGGATATTCTGCGCCAGGGCGGCAACGCCGTCGATGCGGCGGTGGCGGTTGGCTACGCGCTGGCGGTCACTCATCCGCAGGCGGGGAATATCGGCGGCGGCGGTTTTATGATGCTGCGGACGAAAGATGGCAAGACTACGGCGATCGATTTCCGCGAAATGGCGCCAGAGCAGGCCACCCGCGACATGTTCCTCGACGACCAGGGTAACCCGGACAGTAAAAAATCGCTCACCTCGCATCTGGCCTCCGGCACGCCAGGCAGCGTGGCGGGCTTCTCTCTTGCCCTGGAAAAATACGGCACCATGCCGCTGAACAAAGTGATCCGCCCGGCAATCAAGCTGGCGGAAGAGGGCTTTATTGTTAACGATGCGCTGGCGGACGATCTGAAGACCTACGGCAGCGAAGTGATCCCGCAGCACGAAAACAGTAAAGCGATCTTCTGGAAGAACGGCGAGCCGCTGAAGAAGGGCGACCGGCTGGTACAGAAGAACCTGGGGAAAAGCCTCGAGCTGATTGCCGAGCACGGTCCGGATGCCTTCTATAAAGGCGCTATTGCCGACCAGATCGCGGACGAGATGAAAAAGCACGGCGGGCTTATCACCAAAGCCGACCTCGCTAACTATAAGGCCGTGGAGCGCACGCCGATTAGCGGCGAATATCGCGGGTATGAGATCTACTCTATGCCGCCGCCCTCCTCCGGCGGGATCCACATCGTGCAGATCCTCAATATCCTCGAAAACTTCGATCTGCAGAAATATGGCTTTGGCAGCGCCGACGCTATGCAGGTGATGGCGGAGGCGGAGAAACACGCCTATGCCGACCGCTCTGAATATCTCGGCGACCCTGATTTCGTCAAAGTGCCGTGGCAGGCGCTGACCAGCAAAGCCTACGCCAAAGCGATTGCCGCCGAGATCGACGTCAATAAGGCGAAGCCTTCCAGCCAGATCCGCCCGGGCAAGCTGGCGCCCTATGAAAGCAACCAGACCACCCACTTCTCGGTGGTCGATAAAGACGGCAATGCGGTGGCGGTGACCTATACGTTGAATACCACCTTCGGCACCGGCATTGTGGCGGGGGACTCCGGCATTCTGCTGAATAACCAGATGGATGATTTCTCGGCGAAGCCCGGCGTACCTAACGTCTATGGCCTGGTGGGCGGCGACGCCAATGCGGTGGAGCCGAAAAAACGCCCGCTGTCGTCGATGTCGCCGACCATTGTGGTGAAAGACGGCAAAACCTGGCTGGTGACCGGCAGCCCGGGCGGCAGCCGGATCATCACCACGGTGCTGCAGATGGTGGTCAATACCATCGATTTCGGGATGAACGTCGCAGAAGCCACCAACGCCCCGCGCTTCCATCATCAATGGCTGCCGGATGAGCTGCGGGTGGAGAAAGGCTTTAGCCCGGATACCCTGAAGCTGCTGGAGGCGAAAGGGCAGAAAGTGGCGCTGAAAGAGGCGATGGGCAGCACTCAGAGCATTATGGTGGGGCCGGACGGGATGCTGTATGGCGCCTCCGACCCGCGTTCGCCGGATGATTTAACGGCGGGGTATTGA	MIKTTIWRQVVIAALLAGGSFTVAASPPPPPPVSYGVEEDVFHPVRARQGMVASVDALATRVGVDILRQGGNAVDAAVAVGYALAVTHPQAGNIGGGGFMMLRTKDGKTTAIDFREMAPEQATRDMFLDDQGNPDSKKSLTSHLASGTPGSVAGFSLALEKYGTMPLNKVIRPAIKLAEEGFIVNDALADDLKTYGSEVIPQHENSKAIFWKNGEPLKKGDRLVQKNLGKSLELIAEHGPDAFYKGAIADQIADEMKKHGGLITKADLANYKAVERTPISGEYRGYEIYSMPPPSSGGIHIVQILNILENFDLQKYGFGSADAMQVMAEAEKHAYADRSEYLGDPDFVKVPWQALTSKAYAKAIAAEIDVNKAKPSSQIRPGKLAPYESNQTTHFSVVDKDGNAVAVTYTLNTTFGTGIVAGDSGILLNNQMDDFSAKPGVPNVYGLVGGDANAVEPKKRPLSSMSPTIVVKDGKTWLVTGSPGGSRIITTVLQMVVNTIDFGMNVAEATNAPRFHHQWLPDELRVEKGFSPDTLKLLEAKGQKVALKEAMGSTQSIMVGPDGMLYGASDPRSPDDLTAGY	PGPT0002935_2614	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002935-ggt-K00681	NA	NA
BMS020_03031	321	yhhA		putative protein YhhA	ATGAAAGCGATGTTATTTCTGGCGGCGCTGATGCCGCTCGGCGTTTTAGCCCAGCCAATCAATATTGATAACAACCCCAACCAGCCGGGTTACGTGGTCCCCAGCCAGCAGCGCATGCAAAATGAGATGAAGGTGCAGCAACAGCAGCAACAGAGCATGCTGAAGCAGAATCTGAACAATCAGACTCGCTCCCAGCAGCAGCATTTGCAAAACCAGCTGCAGACCAATCAGCAGCGCGCGGCGCAGGGCGGGAATCTCAATCCGCCGCAGCAGGTGCTGCCGAACAACAACGGAGGGATGCTGCGGCAGACCAACCCGTAA	MKAMLFLAALMPLGVLAQPINIDNNPNQPGYVVPSQQRMQNEMKVQQQQQQSMLKQNLNNQTRSQQQHLQNQLQTNQQRAAQGGNLNPPQQVLPNNNGGMLRQTNP				NA	NA	NA	NA	NA
BMS020_03032	741	ugpQ	COG0584	Glycerophosphodiester phosphodiesterase, cytoplasmic	ATGAGTAACTGGCCTTATCCCCGTATCGTCGCCCATCGCGGCGGCGGTAAACTGGCGCCGGAGAACACCCTGGCGGCTATCGACGTCGGCGCTCGCTACGGGCACACGATGATTGAATTTGACGCCAAGCTGTCAAAGGACGGGCAGATCTTTCTGCTGCATGACGATAATCTCGAACGCACCAGCAACGGCTGGGGCGTGGCGGGGGAGCTGCCATGGGACGATCTGCTGAAGGTGGATGCCGGTAGCTGGTTCAGCCGTGAATTTAAGGGCGAGCCGCTGCCGCTGCTCTCCCAGGTGGCGGAGCGCTGCCGCCGTCACGGCATGATGGCGAATATCGAAATTAAACCGACCACCGGCCTTGGGCCGCTGACCGGCAACGTGGTGGCCCTGGCGGCGCGGGAGCTGTGGGCGGGAATGGCCGCGCCGCTGCTGTCGTCGTTTGAAATCGATGCCCTGGAAGCGGCGCAGGAAGCCGCCCCCGAGCTACCGCGTGGGCTGCTGCTGGATGAGTGGCGTGAGGACTGGCGGGAGTTGACCACCCGGCTGGGCTGCGTCTCCATTCACCTTAACCACAAGCTGCTGGACGCCGGGCGGGTGGCAAGCCTGAAACAGGCCGGCCTGCATATCCTGGTGTATACCGTTAACAAACCCCAGCGCGCCGCCGAGCTGCTGCGCTGGGGCGTAGACTGCATCTGCACCGATGCTATTGACGTCATCGGGCCCCATTTCCAGCCTTAA	MSNWPYPRIVAHRGGGKLAPENTLAAIDVGARYGHTMIEFDAKLSKDGQIFLLHDDNLERTSNGWGVAGELPWDDLLKVDAGSWFSREFKGEPLPLLSQVAERCRRHGMMANIEIKPTTGLGPLTGNVVALAARELWAGMAAPLLSSFEIDALEAAQEAAPELPRGLLLDEWREDWRELTTRLGCVSIHLNHKLLDAGRVASLKQAGLHILVYTVNKPQRAAELLRWGVDCICTDAIDVIGPHFQP	PGPT0018470_7075	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
BMS020_03033	1071	ugpC_1	COG3839	sn-glycerol-3-phosphate import ATP-binding protein UgpC	ATGGCTGGTTTAAAACTACAGGCAGTAAGCAAAAGCTGGGATGGCAAAACCCAGGTGATTCAACCGCTGACGCTGGACGTGGCGGACGGGGAATTTATCGTCATGGTCGGCCCGTCGGGCTGCGGGAAATCAACGCTGCTGCGGATGGTCGCCGGACTGGAGCGGGTGACCAGCGGCGATATCTGGATCGACCGCAAGCGGGTCACCGAGATGGAGCCGAAGGATCGCGGCATCGCCATGGTGTTCCAGAACTATGCCCTTTATCCGCATATGAGCGTGGAAGAGAACATGGCGTGGGGGCTGAAGATCCGCGGCATGGGTAAGGGATTGATCGCCGAGCGGGTGCAGGAGGCGGCGCGTATTCTAGAGCTGGACGGCCTGCTCAAGCGCCGCCCGCGCGAGCTCTCCGGCGGCCAGCGCCAGCGCGTGGCGATGGGCCGCGCCATCGTGCGTGACCCGGCGGTATTCCTCTTCGACGAACCGTTGTCAAACCTCGACGCCAAGCTGCGCGTGCAGATGCGTCTTGAGCTGCAACAGCTGCATCGCCGCCTGAAAACCACCTCGCTGTACGTTACCCATGACCAGGTGGAGGCGATGACCCTCGCCCAGCGGGTGATGGTGATGAATAAAGGCGTTGCCGAGCAGATCGGCACCCCGGTGGAAGTGTATGAGAAGCCGGCCAGCCGCTTTGTGGCGAGCTTTATCGGCAGCCCGGCCATGAACCTGCTGGAAGGGCGCATCAGCGATGACGGCGGTCGCTTTGAGCTGGCGGGCGGCATCCAGCTGCCGACGAATCATGAGCACCGGCGCCACGCCGGGCGTAAAATGACCCTCGGTATCCGCCCGGAGCATTTTATCTTAAGCTCGCAGGCGCAAGGCGGCATTCCGCTGCTGATGGACTCCCTGGAAATTTTAGGCGCCGATAACCTTGCCCACGGGCGCTGGGGCGAACAGAAGCTGGTGGTCAGGCTGCCGCACCAGCAGCGCCCGGCGGCAGGCAGCACGCTATGGCTGCATCTGCCTTTGGAACATCTGCACCTCTTTGATGGTGAAACAGGACAACGCGCATGA	MAGLKLQAVSKSWDGKTQVIQPLTLDVADGEFIVMVGPSGCGKSTLLRMVAGLERVTSGDIWIDRKRVTEMEPKDRGIAMVFQNYALYPHMSVEENMAWGLKIRGMGKGLIAERVQEAARILELDGLLKRRPRELSGGQRQRVAMGRAIVRDPAVFLFDEPLSNLDAKLRVQMRLELQQLHRRLKTTSLYVTHDQVEAMTLAQRVMVMNKGVAEQIGTPVEVYEKPASRFVASFIGSPAMNLLEGRISDDGGRFELAGGIQLPTNHEHRRHAGRKMTLGIRPEHFILSSQAQGGIPLLMDSLEILGADNLAHGRWGEQKLVVRLPHQQRPAAGSTLWLHLPLEHLHLFDGETGQRA	PGPT0016850_352	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
BMS020_03034	846	lacG		Lactose transport system permease protein LacG	ATGATTGAGAACCGTCGCGGGCTGACGATTTTCAGCCACACCATGCTGATTCTGGGCATCGCCGTCATTTTATTCCCGCTGTACGTCGCCTTCGTGGCGGCGACGCTGGATAACCAATCGGTGTTCGAAACGCCGATGACGCTGATCCCCGGCGGACATCTGCTGGAGAACATGAAGACCATCTGGGTGAACGGCGTTGGCGTCAACAGCGCGCCGTTCTGGCTGATGATGCTCAACAGCTTCATCATGGCGTTCGCCATTACGGTGGGCAAAATCGTCGTGTCGATGCTGTCGGCGTTCGCCATCGTCTGGTTCCGCTTTCCGCTGCGTAACCTGTTCTTCTGGATGATCTTTATCACGCTAATGCTGCCGGTCGAGGTGCGTATTTTCCCGACGGTGGAAGTGATCGCCAATCTCAACATGCTCGACAGCTACGCCGGGCTTACGCTGCCGCTAATGGCCTCGGCCACCGCCACCTTCCTGTTCCGCCAGTTCTTTATGACCCTGCCGGACGAGCTGATTGAAGCAGCGCGTATCGATGGCGCTTCGCCGATGCGCTTCTTTCGCGACATCGTGCTGCCGCTGTCGAAAACCAACCTCGCGGCGCTGTTCGTCATCACTTTTATCTACGGCTGGAACCAGTATCTGTGGCCGTTGCTGATTATTCAGGATGTGAATCTTGGCACCGCCGTCGCCGGCATCAAAGGCATGATCGCCACCGGCGAAGGCACTACCCAGTGGAATCAGGTGATGGCGGCGATGCTGCTGACCCTGATCCCGCCGGTTGTCATCGTTTTAGCCATGCAGCGCGCATTTGTGCGTGGCCTGGTCGATAGTGAGAAATAA	MIENRRGLTIFSHTMLILGIAVILFPLYVAFVAATLDNQSVFETPMTLIPGGHLLENMKTIWVNGVGVNSAPFWLMMLNSFIMAFAITVGKIVVSMLSAFAIVWFRFPLRNLFFWMIFITLMLPVEVRIFPTVEVIANLNMLDSYAGLTLPLMASATATFLFRQFFMTLPDELIEAARIDGASPMRFFRDIVLPLSKTNLAALFVITFIYGWNQYLWPLLIIQDVNLGTAVAGIKGMIATGEGTTQWNQVMAAMLLTLIPPVVIVLAMQRAFVRGLVDSEK	PGPT0016845_1000	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
BMS020_03035	888	ugpA_1	COG1175	sn-glycerol-3-phosphate transport system permease protein UgpA	ATGTCATCATCCCGTCCGGTATTCCGCTCGCGCTGGCTGCCCTATGTCCTGGTCGCGCCGCAGCTGATTATCACGCTGATTTTCTTTATCTGGCCCGCGGGCGAAGCGCTGTGGTATTCGCTGCAGAGCGTCGATCCGTTTGGCCTGTCCAGCCAGTTTGTCGGCCTGGATAACTTCGTGGCGCTGTTCCATGACCCGTACTATCTGGACTCGTTCTGGACCACTATCAAATTCAGCACCCTGGTGACCGTCAGCGGCCTGCTTATTTCGCTCTTTTTCGCTGCGCTGGTCGACTACGTGGTGCGCGGCAGCCGCTTCTATCAGACTCTGATGCTGCTGCCGTATGCCGTGGCCCCCGCGGTGGCGGCGGTGCTGTGGATCTTCCTCTTTAACCCCGGGCGCGGGCTGATCACCCATTTCCTCGGCGAGCTGGGCTACGACTGGAACCACGCGCAGAACAGCGGCCAGGCGATGTTCCTGGTGGTCTTCGCCTCGGTATGGAAGCAGATAAGCTACAACTTCCTGTTTTTCTTCGCCGCGCTGCAGTCGATCCCGCGTTCGCTGGTTGAGGCTGCCGCTATCGACGGCGCCGGGCCAATCCGCCGCTTCTTCAGGCTGGCGCTGCCGCTGATTGCGCCGGTGAGTTTCTTCCTGCTGGTGGTCAACCTGGTTTACGCCTTCTTCGACACCTTCCCGGTGATCGATGCCGCCACCGCCGGCGGCCCGGTGCAGGCGACCACTACCCTGATTTACAAAATCTATCGCGAAGGTTTCGCCGGGCTCGATCTTTCCGCTTCCGCCGCGCAGTCGGTGGTGCTGATGTTCCTCGTCATTATCCTGACGGTGGTGCAGTTCCGTTACGTTGAAAGTAAGGTGCGTTACCAATGA	MSSSRPVFRSRWLPYVLVAPQLIITLIFFIWPAGEALWYSLQSVDPFGLSSQFVGLDNFVALFHDPYYLDSFWTTIKFSTLVTVSGLLISLFFAALVDYVVRGSRFYQTLMLLPYAVAPAVAAVLWIFLFNPGRGLITHFLGELGYDWNHAQNSGQAMFLVVFASVWKQISYNFLFFFAALQSIPRSLVEAAAIDGAGPIRRFFRLALPLIAPVSFFLLVVNLVYAFFDTFPVIDAATAGGPVQATTTLIYKIYREGFAGLDLSASAAQSVVLMFLVIILTVVQFRYVESKVRYQ	PGPT0016840_647	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
BMS020_03036	1317	ugpB_1	COG1653	sn-glycerol-3-phosphate-binding periplasmic protein UgpB	ATGATATCGTTACGACATACAGCTTTAGGACTGGCGCTGAGCCTGGCTTTTGCCGGTCAGGCCCTGGCGGTTACCACCATCCCGTTCTGGCACTCAATGGAAGGCGAACTGGGTAAAGAAGTGGATTCTCTGGCGCAACGCTTTAACGCGGCCAATCCTGATTACAAAATCGTTCCGGTATACAAGGGCAACTATGAACAGAGCCTGAGCGCCGGTATCGCCGCCTTCCGTACCGGCAATGCGCCGGCGATCCTGCAGGTGTATGAAGTGGGTACCGCCACCATGATGGCGTCAAAAGCCATTAAGCCGGTCTACCAGGTGTTCAGCGAGGCGGGCATCACGTTTGATGAATCGCAGTTTGTGCCGACGGTCGCCGGGTATTACACCGATTCGAAAACCGGCCATCTGCTCTCCCAGCCGTTTAACAGCTCCACGCCGGTGCTGTACTACAACAAAGACGCCTTCAAAAAAGCCGGTTTAGATCCAGAGCAGCCGCCGAAGACCTGGCAGGATCTGGCGGCCTACACCGCGAAGCTGAAAGCCGCCGGAATGAAGTGCGGCTACGCCAGCGGCTGGCAGGGCTGGATCCAGATTGAGAACTTCAGCGCCTGGCACGGCCTGCCGGTGGCGACGAAAAACAATGGCTTTGACGGCACCGACGCGGTTCTTGAGTTCAACAAGCCGGAGCAGGTGAAGCATATCGCGCTGCTCGAAGAGATGAACAAGAAGGGCGATTTCAGCTACTTCGGGCGTAAAGACGAGTCCACCGAAAAGTTCTATAACGGCGACTGCGCCATTACCACTGCCTCGTCCGGCTCGCTGGCCGATATCCGCCAGTACGCCAAATTTAACTACGGCGTCGGGATGATGCCCTACGATGCCGACGTGAAAGGCGCGCCGCAGAACGCCATCATCGGCGGGGCCAGCCTGTGGGTGATGCAGGGTAAAGACAAAGAGACCTACACCGGCGTGGCGAAGTTCCTCGACTTCCTGACCAAACCGGAAAATGCCGCCGAATGGCACCAGAAAACCGGCTATCTGCCGATCACCACCGCGGCCTACGATCTGACTCGCCAGCAGGGCTTCTATGATAAGAACCCGGGCGCCGATATCGCCACGCGCCAGATGCTGAACAAGCCGCCGTTGCCGTTCACCAAAGGCCTGCGTCTGGGCAACATGCCGCAAATCCGCACCATCGTCGATGAAGAGCTGGAGAGCGTGTGGACCGGCAAGAAAACCCCGCAACAGGCGCTGGATTCCGCCGTTCAGCGTGGGAATCAGCTGCTGCGCCGCTTCGAACAAGCGACCAAATCGTAA	MISLRHTALGLALSLAFAGQALAVTTIPFWHSMEGELGKEVDSLAQRFNAANPDYKIVPVYKGNYEQSLSAGIAAFRTGNAPAILQVYEVGTATMMASKAIKPVYQVFSEAGITFDESQFVPTVAGYYTDSKTGHLLSQPFNSSTPVLYYNKDAFKKAGLDPEQPPKTWQDLAAYTAKLKAAGMKCGYASGWQGWIQIENFSAWHGLPVATKNNGFDGTDAVLEFNKPEQVKHIALLEEMNKKGDFSYFGRKDESTEKFYNGDCAITTASSGSLADIRQYAKFNYGVGMMPYDADVKGAPQNAIIGGASLWVMQGKDKETYTGVAKFLDFLTKPENAAEWHQKTGYLPITTAAYDLTRQQGFYDKNPGADIATRQMLNKPPLPFTKGLRLGNMPQIRTIVDEELESVWTGKKTPQQALDSAVQRGNQLLRRFEQATKS	PGPT0016835_915	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
BMS020_03037	714	livF_5	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGGAAAACGCGATGTTAACTTTTGACAACGTCAGCGCCCACTACGGCAAGATTCAGGCGCTGCACAACGTCAGCCTGCATATCAAACAGGGCGAGATTGTCACGCTTATCGGCGCTAACGGCGCGGGGAAAACCACCCTGCTCGGCACGTTGTGCGGCGACCCGCGCGCCTCAAGCGGGCGTATTGTCTTTGACGGTAAGGATATTACCGACTGGCAGACGGCGAAGATCATGCGCGAGGCGGTGGCGATCGTCCCGGAAGGGCGGCGCGTCTTTTCGCGAATGACGGTGGAAGAGAACCTGGCGATGGGCGGTTTTTTTGCCGACCGCGATCAGTTCCAGACCCGCATCAAATGGGTGTATGAGCTGTTTCCGCGTCTGCACGAGCGCCGTATCCAGCGCGCCGGCACCATGTCCGGCGGCGAACAGCAGATGCTGGCCATCGGCCGCGCCCTGATGAGCCAGCCGCGTCTGCTGCTGCTGGATGAACCGTCGCTGGGGCTGGCGCCGATCATCATTCAGCAGATCTTCGATACCATCGAGCAGCTGCGCGAGCAGGGGATGACTATCTTCCTGGTTGAGCAGAACGCCAACCAGGCGCTGAAGCTGGCCGATCGCGGCTACGTGCTGGAGAACGGCCACGTGGTGCTGGAGGATACCGGCGACGCGCTGCTGGCCAACGAGGCGGTGCGCAGCGCCTATCTCGGCGGTTAA	MENAMLTFDNVSAHYGKIQALHNVSLHIKQGEIVTLIGANGAGKTTLLGTLCGDPRASSGRIVFDGKDITDWQTAKIMREAVAIVPEGRRVFSRMTVEENLAMGGFFADRDQFQTRIKWVYELFPRLHERRIQRAGTMSGGEQQMLAIGRALMSQPRLLLLDEPSLGLAPIIIQQIFDTIEQLREQGMTIFLVEQNANQALKLADRGYVLENGHVVLEDTGDALLANEAVRSAYLGG	PGPT0020785_3490	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020785-livF-K01996	NA	NA
BMS020_03038	768	lptB_2	COG1137	Lipopolysaccharide export system ATP-binding protein LptB	ATGAGTCAGCCATTATTATCCGTCAGCGGCCTGATGATGCGTTTCGGCGGTCTGCTGGCCGTCAACAATGTGTCGCTGGAGCTCAAAGAGCGCGAGATCGTCTCGCTGATCGGCCCCAACGGCGCCGGGAAGACCACCGTCTTTAACTGCCTGACCGGTTTTTACAAGCCCACCGGCGGCACCATTCTGCTGCGCGACCAGCATCTGGAAGGGCTGCCAGGCCAGCAGATTGCCCGGATGGGCGTGGTGCGGACCTTCCAGCACGTGCGCCTGTTCCGCGAAATGACGGTCATTGAAAACCTGCTGGTGGCGCAACATCAGCAGCTGAAAACCGGGCTCTTCTCCGGCCTGCTGAAAACGCCGGCCTTCCGTCGGGCGCAGAGCGAAGCGCTGGACCGCGCGGCCACCTGGCTTGAGCGTATCGGCCTGCTGGAGCACGCTAACCGGCAGGCCAGCAACCTGGCCTATGGCGACCAGCGCCGGCTGGAGATTGCCCGCTGCATGGTCACCCAGCCGGAAATTCTGATGCTCGATGAACCGGCGGCGGGGCTGAACCCGAAAGAGACCAAAGAGCTGGACGAGCTTATCGCCGAGCTGCGTAACCATCACAACACCACCATCCTGCTTATCGAACACGATATGAAGCTGGTGATGGGCATTTCCGATCGCATCTACGTCGTGAACCAGGGGACACCGCTGGCCAACGGGACGCCGGAAGAGATTCGTAATAACCCGGACGTGATCCGCGCATACCTTGGTGAGGCATAA	MSQPLLSVSGLMMRFGGLLAVNNVSLELKEREIVSLIGPNGAGKTTVFNCLTGFYKPTGGTILLRDQHLEGLPGQQIARMGVVRTFQHVRLFREMTVIENLLVAQHQQLKTGLFSGLLKTPAFRRAQSEALDRAATWLERIGLLEHANRQASNLAYGDQRRLEIARCMVTQPEILMLDEPAAGLNPKETKELDELIAELRNHHNTTILLIEHDMKLVMGISDRIYVVNQGTPLANGTPEEIRNNPDVIRAYLGEA	PGPT0020780_6556	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020780-livG-K01995	NA	NA
BMS020_03039	1278			hypothetical protein	ATGAAACCGATGCAAATTGCAATGGCGCTGCTCTCTGCTGCGATGTTCTTCATTCTGGCGGGCGTCTTTATGGGCGTGCAGCTGGAGCTGAACGGCACCAAACTGGTGGTGGATACCGCCGCCGATATTCGTTGGCAGTGGATCTTCATCGGCACCGCGGTGGTCTTTTTCTTCCAGCTGCTGCGGCCGCTGTTCCAGAAAGCGGTTAAGAACGTCTCCGGGCCGAAGTTTATTATGCCGGCGATTGACGGCTCGACGGTGAAGCAGAAGTTGTTCCTGATAGCCCTGCTGGTGATTGCCGTGGCCTGGCCGTTTATGGTGTCGCGCGGTACGGTGGATATCGCCACCCTGACGATGATCTATATCATTCTCGGCCTTGGGCTGAACGTGGTGGTCGGCCTTTCCGGCCTGCTGGTCCTGGGCTACGGCGGGTTCTACGCCATCGGCGCGTATACCTTCGCGCTGCTGAACCACTATTACGGTCTCGGCTTCTGGACCTGTCTGCCGCTGGCCGGCCTGGTCTCCGCGGCGGCTGGCTTCCTGCTTGGCTTCCCGGTGCTGCGTCTGCGCGGCGACTACCTGGCGATCGTGACCTTAGGCTTCGGCGAGATCGTGCGTATTCTGCTGCTCAACAATACCGAAATCACCGGCGGGCCAAACGGCATCAGCCAGATCCCGAAACCGACCTTCTTTGGCCTCGAATTCAGCCGCAGCGCCCGCGAAGGCGGCTGGGATACCTTCAGCAACTTCTTCGGCGTCAAATACGATCCCTCCGACCGGGTCATTTTCCTCTATCTGGTGGCGCTGCTGCTGGTGGTGCTGAGCCTGTTCGTTATCAACCGCCTGCTGCGGATGCCGCTGGGTCGGGCGTGGGAAGCGCTGCGTGAAGATGAGATCGCCTGTCGTTCGCTGGGCCTGAGCCCGACGCGCATCAAGCTGACCGCCTTTACCATCAGCGCCGCGTTTGCCGGCTTCGCCGGGACGCTGTTCGCCGCGCGCCAGGGCTTCGTCAGCCCGGAATCCTTTACCTTCGCCGAGTCCGCCTTTGTACTGGCGATCGTCGTGCTGGGCGGGATGGGCTCGCAGTTTGCGGTGATCCTGGCGGCTATTCTGCTGGTGGTGTCGCGTGAGCTGATGCGTGACTTTAACGAATACAGCATGTTAATGCTCGGCGGTCTGATGGTGCTGATGATGATCTGGCGTCCGCAGGGGCTTCTGCCAATGACGCGCGTGCAGTTGAAGCTGAAAAACGGTCAGGCGAAAGGAGAGCAGGCATGA	MKPMQIAMALLSAAMFFILAGVFMGVQLELNGTKLVVDTAADIRWQWIFIGTAVVFFFQLLRPLFQKAVKNVSGPKFIMPAIDGSTVKQKLFLIALLVIAVAWPFMVSRGTVDIATLTMIYIILGLGLNVVVGLSGLLVLGYGGFYAIGAYTFALLNHYYGLGFWTCLPLAGLVSAAAGFLLGFPVLRLRGDYLAIVTLGFGEIVRILLLNNTEITGGPNGISQIPKPTFFGLEFSRSAREGGWDTFSNFFGVKYDPSDRVIFLYLVALLLVVLSLFVINRLLRMPLGRAWEALREDEIACRSLGLSPTRIKLTAFTISAAFAGFAGTLFAARQGFVSPESFTFAESAFVLAIVVLGGMGSQFAVILAAILLVVSRELMRDFNEYSMLMLGGLMVLMMIWRPQGLLPMTRVQLKLKNGQAKGEQA	PGPT0020775_2338	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020775-livM-K01998	NA	NA
BMS020_03040	927	livH_2	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	ATGTCCGAGCAGTTTCTCTATTTTCTGCAGCAGATGTTTAACGGCGTCACGCTGGGCAGTACCTACGCGCTGATCGCCATCGGCTATACGATGGTGTACGGCATTATAGGCATGATCAACTTCGCCCATGGCGAGGTCTACATGATTGGCAGCTATGTCTCCTTCATGATCATCGCCGCGCTGATGATGATGGGTATCGACACCAGCTGGCTGCTGGTCGCCGCCGGCTTCGTGGGCGCCATTGTGATTGCCAGCGCCTACGGCTGGAGCATTGAGCGCGTGGCCTATCGGCCGGTGCGTAATTCCAAGCGTCTGATTGCGCTGATCTCCGCTATCGGGATGTCTATCTTCCTGCAGAACTACGTCAGCCTGACCCAGGGCTCCCGCGACGTGGCGCTGCCGAGCCTGTTTAACGGCCAGTGGGTCGTCGGCCACAGCGACAGCTTCTCCGCGACGATCACCACCATGCAGCTGGTGATCTGGGTGGTGACCTTTATCGCCATGCTGGCCCTGACGCTATTCATTCGCTACTCGCGGATGGGGCGCGCCTGCCGCGCCTGTGCCGAAGACCTGAAAATGGCGAGCCTGCTCGGCATTAACACCGATCGCGTCATTGCCCTGACCTTTGTCATCGGCGCAGCGATGGCGGCGGTGGCGGGCGTGCTGCTGGGTCAGTTCTACGGCGTGATTAACCCCTACATCGGCTTTATGGCCGGGATGAAGGCCTTCACCGCCGCCGTGCTCGGCGGTATCGGCAGTATCCCCGGCGCGATGATCGGCGGCCTGATCCTGGGTATTGCCGAGGCGCTCTCTTCTGCCTATCTCAGCACCGAATATAAGGATGTGGTTTCCTTTGCGCTGCTGATTCTGGTGCTGTTAGTGATGCCGACCGGCATTCTGGGCCGCCCGGAGGTGGAAAAAGTATGA	MSEQFLYFLQQMFNGVTLGSTYALIAIGYTMVYGIIGMINFAHGEVYMIGSYVSFMIIAALMMMGIDTSWLLVAAGFVGAIVIASAYGWSIERVAYRPVRNSKRLIALISAIGMSIFLQNYVSLTQGSRDVALPSLFNGQWVVGHSDSFSATITTMQLVIWVVTFIAMLALTLFIRYSRMGRACRACAEDLKMASLLGINTDRVIALTFVIGAAMAAVAGVLLGQFYGVINPYIGFMAGMKAFTAAVLGGIGSIPGAMIGGLILGIAEALSSAYLSTEYKDVVSFALLILVLLVMPTGILGRPEVEKV	PGPT0020770_2922	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020770-livH-K01997	NA	NA
BMS020_03041	1110	livK	COG0683	Leucine-specific-binding protein	ATGAAAAGGAACGCGAAAACCATCGTCGCGGGCATTGTCGCATTAGCGATGTCGCACGCGGCGATGGCCAAGGATATTAAGGTCGCCGTGGTCGGCGCGATGTCGGGTCCGGTGGCCCAGTGGGGCGACATGGAGTTCAACGGCGCGCGTCAGGCGATTAAAGACATCAACGCCAGCGGCGGTATTAAGGGCGACAAGCTGGTGGCCGTCGAATATGACGACGCCTGCGATCCGAAGCAAGCGGTCGCGGTGGCCAACAAAATCGTCAACGACGGTATTCAGTACGTTATCGGCCACCTGTGCTCCTCTTCCACCCAGCCGGCTTCCGATATCTATGAGGATGAAGGCATCCTGATGATCTCCCCGGGAGCGACCAACCCGGAGCTGACCCAGCGCGGCTATCAGTACATCATGCGTACCGCCGGCCTCGACTCCTCGCAGGGGCCGACCGCGGCGAAATATATCGTCGAGAAAGTCAAACCGCAGCGTATCGCCATCATTCATGACAAGCAGCAGTACGGCGAAGGGCTGGCGCGTTCGGTGCAGGACAACCTGAAAAAAGCCGGGGCCAACATCGTCTTCTTTGACGGTATCACCGCGGGCGAGAAAGATTTCTCCGCGCTGCTGGCGCGCCTGAAGAAAGAGAACATCGACTTCGTCTACTACGGCGGTTACTACCCGGAAATGGGCCAAATGCTGCGCCAGGCGCGCTCCGTGGGGCTGAAAACCGTGTTTATGGGGCCGGAAGGGGTCGGCAACGCCTCGCTGTCCAATATCGCGGGCGCCGCGGCGGAAGGGATGCTGGTGACGATGCCAAAACGCTACGATCAGGACCCTGCCAACAGCGCCATCGTCAACGCGCTGAAAGCGGAGAAGAAAGATCCGAGCGGGCCGTATGTCTGGATCACTTACGCCGCGGTTCAGTCGCTGGCGCAGGCGATGGACAGAACCGGCAGCCAGCAGCCGCTGGATTTAATCAAAGATTTGAAAGCGCACGGGGCGAAAACCGTGATTGGGCCGCTGACCTGGGATGAAAAAGGCGATCTGAAGGGATTTGAGTTTGGTGTCTTCCAGTGGCACGCCGACGGCTCTTCGAGCGCGGCGAAATAA	MKRNAKTIVAGIVALAMSHAAMAKDIKVAVVGAMSGPVAQWGDMEFNGARQAIKDINASGGIKGDKLVAVEYDDACDPKQAVAVANKIVNDGIQYVIGHLCSSSTQPASDIYEDEGILMISPGATNPELTQRGYQYIMRTAGLDSSQGPTAAKYIVEKVKPQRIAIIHDKQQYGEGLARSVQDNLKKAGANIVFFDGITAGEKDFSALLARLKKENIDFVYYGGYYPEMGQMLRQARSVGLKTVFMGPEGVGNASLSNIAGAAAEGMLVTMPKRYDQDPANSAIVNALKAEKKDPSGPYVWITYAAVQSLAQAMDRTGSQQPLDLIKDLKAHGAKTVIGPLTWDEKGDLKGFEFGVFQWHADGSSSAAK	PGPT0020765_5998	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020765-livK-K01999	NA	NA
BMS020_03042	384	panM		PanD regulatory factor	ATGAAACTGACTATTATCCGTTTACAGCACTTCAGCGATCAGGATCGCATTGATCTGGGGAAAATCTGGCCGTCGCAGGATCTGTCGACGCTGACCCTGGATGAAAACCATCGTCTCTATGCCGCCCGCTTTAACGAGCGCCTGTTGGGCGCTGTGCGCGTTACCCTGCGCGGCGTCGAAGGTGAGCTCAGCGATCTGTGCGTGCGTGAAGTGACCCGCCGCCGCGGCGTCGGGCAATATTTAGTGGAAGAGACATTGCGTGATAACCCGGCGATCAATAGCTGGCGCATCGCCGACCGCGGGGTGGAAGACCGCGGCGTGATGGCGGCCTTTATGCAGGCACTCGGCTTTAGCGCCCAGCAGACCGGTTGGGAAAAGCATTAA	MKLTIIRLQHFSDQDRIDLGKIWPSQDLSTLTLDENHRLYAARFNERLLGAVRVTLRGVEGELSDLCVREVTRRRGVGQYLVEETLRDNPAINSWRIADRGVEDRGVMAAFMQALGFSAQQTGWEKH				NA	NA	NA	NA	NA
BMS020_03043	1098	livJ_2	COG0683	Leu/Ile/Val-binding protein	ATGAAGGGTAAAGCGTTACTGGCAGGATGTATTGCCTTAGTTATGAGCAGCGCGGCGCTGGCGGAAGATATCAAAATCGCGGTAGTCGGGGCGATGTCCGGCCCGGTGGCCCAGTACGGCGATCAGGAGTTTACCGGCGCCGAGCAGGCGGTAGCGGATATCAACGCGAAGGGCGGCATTAAGGGCAATAAGCTGCAGATCGTAAAATATGATGACGCTTGCGACCCGAAACAGGCGGTAGCGGTCGCCAACAAAGTGGTCAACGACGGAATCAAATACGTTATCGGCCACCTGTGCTCCTCTTCCACTCAGCCGGCGTCTGACATCTATGAAGACGAAGGCATTCTGATGATCACCCCCGCTGCGACCGCGCCGGAGCTGACCGCGCGCGGCTATAAGCTGATCCTGCGCACCACCGGTCTGGACTCCGACCAGGGACCAACCGCGGCGAAATACATTCTCGACAAAGTGAAGCCGCAGCGTATCGCAGTCGTGCATGACAAACAGCAGTACGGCGAAGGTTTGGCCCGTGCGGTGCAGGATGGCTTGAAAAAAGGCGGGGCGAACGTGGTCTTCTTCGACGGGATCACCGCTGGTGAGAAAGATTTCTCCACTCTGGTGGCGCGCCTGAAGAAAGAGAATATCGACTTCGTCTACTACGGCGGTTACCACCCGGAAATGGGCCAGATCCTGCGTCAGGCCCGGGCTGCCGGTCTGAAAACCCAGTTTATGGGCCCGGAAGGCGTAGCGAACGTCTCCCTGTCTAACATCGCCGGCGAGTCGGCGGAAGGCCTGCTGGTGACCAAGCCGAAGAACTACGACCAGGTGCCGGCGAACAAACCGATCGTGGATGCGATCAAGGCGAAGAAACAGGATCCGAGCGGCGCCTTCGTCTGGACCACCTACGCGGCGCTGCAGTCGCTGCAGGCGGGCCTGAATCAGTCTGACGATCCGGCGGAAATCGCTAAATACCTGAAAGGCGCGACGGTAGACACCGTGATGGGCCCGCTGTCGTGGGATCAGAAAGGCGACCTGAAAGGCTTCGAGTTCGGTGTCTTTACCTGGCATGCTAACGGTACGGCGACCGACGCCAAATAA	MKGKALLAGCIALVMSSAALAEDIKIAVVGAMSGPVAQYGDQEFTGAEQAVADINAKGGIKGNKLQIVKYDDACDPKQAVAVANKVVNDGIKYVIGHLCSSSTQPASDIYEDEGILMITPAATAPELTARGYKLILRTTGLDSDQGPTAAKYILDKVKPQRIAVVHDKQQYGEGLARAVQDGLKKGGANVVFFDGITAGEKDFSTLVARLKKENIDFVYYGGYHPEMGQILRQARAAGLKTQFMGPEGVANVSLSNIAGESAEGLLVTKPKNYDQVPANKPIVDAIKAKKQDPSGAFVWTTYAALQSLQAGLNQSDDPAEIAKYLKGATVDTVMGPLSWDQKGDLKGFEFGVFTWHANGTATDAK	PGPT0020765_13403	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020765-livK-K01999	NA	NA
BMS020_03044	1245			hypothetical protein	ATGTCTGAAAACTCCACCTTTTCTCCCGCCCTCACCGGCCGGGAACGTACGGCTGTCCCTGCAAAATCTCTGAGCTTCGTCGAAGGGGTATCGATGATTGTCGGTACCAATATCGGCGCGGGTGTCCTCTCCATCGCCTATGCGTCAAGCAAAGCAGGCTTCTTACCGCTGCTGTTCTGGCTGGTGCTGGTGGGCAGCCTGACCACGGTGACCATGCTCTATGTCGCGGAATCTACGCTCCGCACGCGTAAACATCTGCAGCTCAGCGGATTATCAAAGCGCTACGTCGGCGGCTTTGGCGCGCTGATGATGTTCCTCTCCGTCTGCGTCAACAGCGTCGGCGCATTGACGGCTTATATGACCGGCAGCGGCAAGCTGCTCTACTCCCTGTTTGGCATTTCGCCGGCGCTGGGCAGCGTGCTGTTTTTCGTCCCGGCGGCAGGGGTGCTTTATCTGGGGCTGAAGGCGATCGGCCGCGGCGAGAAATTTATCAGCATCGGTATGGTGGTGATGATCTCGGTGCTGGTGATTGCCACGCTGCTGAAAGAGACCACCCGCGTGGGCTATCTGCTCGACGGCAACTGGCTGTATATGGTTCCGGTCTTCAACGTCGTGGCGTTCTGCTTCTCGGCACAGTATATCGTCCCGGAAATGGCGCGAGGCTTCGCCGACAAACCGGAAAAATTGCCTAAAGCCATTATGGTCGGTATGGCGCTGACCTTTACCCTGCTGGCGCTGGTGCCGCTGTCGGTGATCTCGCTTAATGGCCTGGACAATATTTCGGATGTGGCCACCATCTCCTGGGGCAGGGCGCTTGGCGAATGGGCCTTCTTCTCCGCCAACCTGTTTGCGCTGTGCGCGATGTTGACCTCCTACTGGGGACTGGGCGGCAGCTTCCTGACCAATATCTTCGATCAGTTCCGCCTGGGGAATGATGAACAGCCTGCCCGCCGCTTGATGGTGCTGCTGGTGGTGGCGATCCCGCCGTTCGTGCTGGCCTACAGCGGTATGGTCTCTTTCGTCAACGCGCTCTATTTTGCCGGGGTGTTCAGCGGCGTTATTTTATCGATTATGCCGATCCTGATGCTCAAGGGCGCCCGCCAACGTGGCGACCTGACGCCGGGCTGGACCTGTCCGGCCTGGATGACCCATCCGCTTATCCAATGCTTCATTGTGTTGTTGTATCTTTGCAGCGCCGTCTACGCGGTAGCGTCCGCGGTAGGCTACCTGCCCGCTGGCTGGTAA	MSENSTFSPALTGRERTAVPAKSLSFVEGVSMIVGTNIGAGVLSIAYASSKAGFLPLLFWLVLVGSLTTVTMLYVAESTLRTRKHLQLSGLSKRYVGGFGALMMFLSVCVNSVGALTAYMTGSGKLLYSLFGISPALGSVLFFVPAAGVLYLGLKAIGRGEKFISIGMVVMISVLVIATLLKETTRVGYLLDGNWLYMVPVFNVVAFCFSAQYIVPEMARGFADKPEKLPKAIMVGMALTFTLLALVPLSVISLNGLDNISDVATISWGRALGEWAFFSANLFALCAMLTSYWGLGGSFLTNIFDQFRLGNDEQPARRLMVLLVVAIPPFVLAYSGMVSFVNALYFAGVFSGVILSIMPILMLKGARQRGDLTPGWTCPAWMTHPLIQCFIVLLYLCSAVYAVASAVGYLPAGW				NA	NA	NA	NA	NA
BMS020_03045	1266	puuE	COG0160	4-aminobutyrate aminotransferase PuuE	GTGAAAAGCTCAGAACTGAATCAACGTCGCCAGCAGGCGACGCCGCGCGGCGTAGGCGTAATGTGTAACTACTTTGTCGAGAAGGCGGAGAACGCCACGCTGTGGGATATCGAAGGCAATGAGGTGATCGATTTCGCCGCCGGTATCGCCGTGTTAAATACCGGTCACCGTCATCCGAAGGTGGTTGCCGCGGTCGCTGACCAGCTGCAGGCGTTCACCCACACCGCCTATCAGATTGTGCCGTACGAAAGCTATGTCACGCTGGCGGAACGTATCAACGATCTGGCGCCGATTGACGGGCCGGCAAAAACGGCCTTCTTCACCACCGGCGCGGAAGCGGTCGAGAACGCGGTGAAAATTGCCCGCGCTTACACCGGCCGTCCGGGGCTGATTACTTTCGGCGGCGGCTTCCACGGCCGTACCTTTATGACCATGGCGCTCACCGGTAAGGTCGCGCCCTACAAAATCGGCTTCGGCCCCTTCCCGGGCTCGGTGTATCACGGTGTCTACCCGAATGCGGCGCACGGCGTCTCCACCGCGGATGCGCTGAAAAGCCTGGAGCGCATTTTCAAAGCGGATATTGCGCCGGATCAGGTCGCGGCCATCATCCTCGAGCCGATCCAGGGAGAAGGCGGCTTTAACGTCGCGCCAGCCGATTTCATGCAGGCGTTGCGCGATCTGTGCGATACCCACGGCATTCTGCTGATCGCCGATGAAGTGCAGACCGGTTTCGCCCGTACCGGCAAGCTGTTCGCCATGCAGCACTATGATGTGAAACCGGATCTGATGACGATGGCGAAAAGCCTCGCCGGCGGTTTCCCGCTGTCGGGCGTCGTTGGTCGCGCCGAGGTGATGGATGCCCCAGCGCCAGGCGGCCTGGGCGGAACCTATGCCGGTAACCCGCTGGCGGTAGCCGCGGCGCACGCGGTGCTGGATGTGATTGCTGAAGAGCAGCTGTGCCAGCGTGCTGAACAGCTGGGTAGCCATCTGCAGGAAGTGCTCAACCAGGCGCGCGCCACCTGTCCGGCGATTGTCGATGTCCGCGGTCGGGGGTCGATGGTGGCGGTGGAGTTTAACGATCCGCAAACTGGCGAGCCGTCGCCGGAGTTTACCCGCCAGGTGCAACAGAAAGCGCAGGAGAACGGCCTGCTGCTGCTGAGCTGCGGCGTCTACGGCAACGTGATCCGCTTCCTCTATCCGTTGACGATTCCGGACGCCCAGTTCTCGAAAGCGCTGGATATTCTGGCGCGCGTACTGAAGAGCTAA	MKSSELNQRRQQATPRGVGVMCNYFVEKAENATLWDIEGNEVIDFAAGIAVLNTGHRHPKVVAAVADQLQAFTHTAYQIVPYESYVTLAERINDLAPIDGPAKTAFFTTGAEAVENAVKIARAYTGRPGLITFGGGFHGRTFMTMALTGKVAPYKIGFGPFPGSVYHGVYPNAAHGVSTADALKSLERIFKADIAPDQVAAIILEPIQGEGGFNVAPADFMQALRDLCDTHGILLIADEVQTGFARTGKLFAMQHYDVKPDLMTMAKSLAGGFPLSGVVGRAEVMDAPAPGGLGGTYAGNPLAVAAAHAVLDVIAEEQLCQRAEQLGSHLQEVLNQARATCPAIVDVRGRGSMVAVEFNDPQTGEPSPEFTRQVQQKAQENGLLLLSCGVYGNVIRFLYPLTIPDAQFSKALDILARVLKS	PGPT0007140_1307	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007140-puuE-K00823	NA	NA
BMS020_03046	1524	gabR_2	COG1167	HTH-type transcriptional regulatory protein GabR	TTGCGTTCGCTGGTGGGTGACCTGGTGCTGGTCCGTCTGCAGGAAGAGCGCGACCCTCTTCTGCACAAACGCTTATACAACGCGCTTCGCCGCGCGATCCTTGACGGTTCGCTGGCGCCGCAAAGCCGCCTGCCGCCGTCGCGGGACCTGGCGGGAGAACTCGGCGTATCAAGAAACACCATATTAACAACTTATGAACAATTACTGGCGGAAGGATATGTGGTTTCCCGTCGGGGAAGCGGAACATTCGTTGCCCAAACCGCGCCTGAAAGTTCATTGACCGCTAAGGGGAAGCGGGAAAACAGCAGTATCGCGACTTCGACGGCGCACCTTTCACGCCGCGGCCAGCACCTGCTCGGCCAGGTCAGCGCCAGCCCACGCCAGTGGGGAGCGTTTATTCCCGGCGTACCGGACGTTAACGCCTTTCCCCATCCGCTGTTCAGCAAGATCCAGGCCCGCATCAGCCGTCGGCCAAAGCCGGAGCGGCTCAGCTACAGCTGCAACGGCGGTACCCCGGAGCTACAGCAGGCGCTGGTGGATTATCTGCGGGTATCGCGCGGCGTCCACTGTCAGGCAGATCAAATTCTTATCACCGAGGGGATCCACCAGGCGATTGACCTGGTCACTCGCATGCTGTGCGACAACGGCGATCTGGCGTGGGTGGAGGAGCCTTCCTACTGGGGCATTCGCCATGTGCTGGCGATGAACGACGTCCGGGCGGCCCCCATCACCGTCGATGCCAATGGGCTGTGCCCGCCAGAAACGGTTGACGATGCGCCGCGGCTCATCTTCGTCACCCCCTCTCACCAGTATCCGCTGGGTGCGGTGATGAGCCTTGAACGCCGTCAGCGGCTGCTGGCGCTCGCCCGCCAGCAGGGCAGCTGGATCGTCGAAGATGATTATGACAGCGAGTTTCGCTTTTCCGGGCAGCCCATCCCCGCCCTGCAGGGGCTGGTGGCCGATGCGCCGGTGGTCTATATCGGCACCTTCAGCAAGACGCTCTATCCCGGCCTGCGCCTGGGCTATGTGGTGATCCCCCGCCCGCTGGTCAGCGATCTGAAGCACGCCCACGCCGAGCTTTATCGCGGCGGCCATTCGCTGATCCAGATGGCGCTGGCGGAGTTTATTACCGCTGGTCACTACTCGGCGCATATCCGCCGCATGCGGCTGCTCTACAGCCGTCGTCGCGCCTTTTTAACCGAGCTGATTCAGCGGCACTGTATGCACGACGCCCTGTCGGACTTCAGCGATAATGCCGGACTGCATTTGATCCTAAATTTACCGGAGGAGGCGGACGATGTGGCGATCGCCCGCGAGGCCAATGCGCGCCACATTCTGGTGCGGCCGCTCTCGCGCTACTACCTGACGGCGGCGCGTAAGAAAGGATTATTGATGGGATTTGCCAGCCAGCCCGAGGAGCAGATGGCGCCGGCGTTCAGCGTGCTGATAGGGTGCCTGCGGACGCACTGTCCAGAGGTGCTGCTGCCCATGGATGGCGTAGAAAAACAAAACGCCCCAACCTGA	MRSLVGDLVLVRLQEERDPLLHKRLYNALRRAILDGSLAPQSRLPPSRDLAGELGVSRNTILTTYEQLLAEGYVVSRRGSGTFVAQTAPESSLTAKGKRENSSIATSTAHLSRRGQHLLGQVSASPRQWGAFIPGVPDVNAFPHPLFSKIQARISRRPKPERLSYSCNGGTPELQQALVDYLRVSRGVHCQADQILITEGIHQAIDLVTRMLCDNGDLAWVEEPSYWGIRHVLAMNDVRAAPITVDANGLCPPETVDDAPRLIFVTPSHQYPLGAVMSLERRQRLLALARQQGSWIVEDDYDSEFRFSGQPIPALQGLVADAPVVYIGTFSKTLYPGLRLGYVVIPRPLVSDLKHAHAELYRGGHSLIQMALAEFITAGHYSAHIRRMRLLYSRRRAFLTELIQRHCMHDALSDFSDNAGLHLILNLPEEADDVAIAREANARHILVRPLSRYYLTAARKKGLLMGFASQPEEQMAPAFSVLIGCLRTHCPEVLLPMDGVEKQNAPT	PGPT0016790_627	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
BMS020_03047	855	rpoH_1	COG0568	RNA polymerase sigma factor RpoH	ATGACCAAAGAAATGCAAACTTTAGCTTTAGCCCCCGTTGGTAACCTGGAATCGTACATCCGGGCCGCTAACACTTGGCCGATGCTGTCGGCTGATGAAGAGCGGGAGCTTGCTGAAAAGCTGCATTACCAGGGCGATCTGGAAGCAGCGAAAAAGCTGATTCTGTCTCACCTGCGCTTTGTTGTTCACATTGCTCGTAACTACTCGGGCTATGGCCTGCCGCAGGCGGATCTGATCCAGGAAGGCAATATCGGCCTGATGAAAGCCGTGCGTCGCTTCAACCCGGAAGTGGGTGTGCGCCTGGTCTCCTTCGCCGTGCACTGGATTAAAGCCGAAATTCACGAATACGTGCTGCGCAACTGGCGTATCGTGAAGGTCGCTACCACCAAAGCACAGCGTAAGCTGTTCTTTAACCTGCGTAAAACCAAACAGCGTCTGGGTTGGTTCAACCAGGATGAAGTGGAAATGGTGGCCCGTGAGCTGGGCGTGTCGAGCAAAGACGTCCGCGAGATGGAATCCCGTATGGCGGCCCAGGACATGACGTTCGACATGTCGTCGGACGATGAATCCGACAGCCAGCCGATGGCGCCGGTTCTTTATCTGCAGGACAAAACGTCAAACTTTGCCGACGGCATCGAAGACGACAACTGGGAAGAGCAGGCGGCGAATAAGCTGACTGACGCGATGCAGGGCCTGGACGAGCGTAGCCAGGATATCATCCGCGCCCGCTGGCTGGACGAAGACAACAAGTCCACGCTGCAGGAGCTGGCTGACCGCTACGGCGTCTCCGCAGAGCGCGTGCGTCAGCTGGAAAAGAACGCCATGAAAAAACTGCGTGCCGCGATCGAAGCCTGA	MTKEMQTLALAPVGNLESYIRAANTWPMLSADEERELAEKLHYQGDLEAAKKLILSHLRFVVHIARNYSGYGLPQADLIQEGNIGLMKAVRRFNPEVGVRLVSFAVHWIKAEIHEYVLRNWRIVKVATTKAQRKLFFNLRKTKQRLGWFNQDEVEMVARELGVSSKDVREMESRMAAQDMTFDMSSDDESDSQPMAPVLYLQDKTSNFADGIEDDNWEEQAANKLTDAMQGLDERSQDIIRARWLDEDNKSTLQELADRYGVSAERVRQLEKNAMKKLRAAIEA				NA	NA	NA	NA	NA
BMS020_03048	1056	ftsX_1	COG2177	Cell division protein FtsX	GTGAATAAGCGCGACGCAATGAACCAAATCCGCCAGTTCGGCAGCAAGTTCGATCGCCTGCGCAACGCGGCGGGCGGCGGCGGCGGCGGGCGCAATGCGCCAAAACGGCCGAAAGCGGCGCCTAACCCGGCCTCGCGTAAGAGCAACGTGTTCAACGAGCAGGTGCGCTACGCCTGGCACGGCGCGCTCCAGGATTTAAAAAGCACGCCGCTGGCGACCTTCCTGACGGTGATGGTTATCGCCATCTCGTTGACCCTGCCAAGCGTCTGCTACATGGTCTACAAAAACGTCAGCAGCGCGGCGTCACAGTACTATCCCTCGCCGCAGATCACCGTGTATCTGGAAAAAACGCTGGATGACGATGCCGCGGCGCGGGTGGTCGGCCAGCTGCAGGCGGAGCAGGGCGTCGACAAGGTGAACTATTTGTCACGTGACGAGGCATTGGGTGAATTCCGTAACTGGTCCGGCTTTGGCGGCGCCCTGGATATGCTGGAAGAGAACCCGCTGCCGGCGGTCGCCATCGTGGTGCCGAAGCTGGATTTCCAGAGCACGGAAGCGCTGAACACCCTGCGCGAGCGGGTATCGCGGATCCAGGGGGTCGATGAAGTACGGATGGACGACAGCTGGTTTGCCCGCCTCTCCTCGCTCACCGGGCTGGTGGGCCGCGTGTCGGCGATGATCGGCGTGCTGATGGTGGCGGCGGTGTTCCTGGTGATCGGCAACAGCGTGCGCCTGAGCATCTTCGCCCGCCGCGATACCATTAACGTGCAGAAACTGATCGGCGCCACCGACGGCTTTATCCTGCGTCCGTTCCTCTACGGCGGGGCGATGCTGGGCTTCTCCGGCGCGTTTTTATCGCTGATCCTGTCGGAGATTCTGGTGATGCGCCTCTCGTCGGCAGTGACCGAGGTGGCGAAGGTGTTCGGCACCCAGTTTGAGCTGAGCGGCTTAGGCTTTGACGAGTGTCTGCTGATGCTGATCGTCTGCTCGATGATCGGGTGGGTGGCCGCCTGGCTGGCGACAGTGCAACATTTACGTCACTTTACTCCCGATTAA	MNKRDAMNQIRQFGSKFDRLRNAAGGGGGGRNAPKRPKAAPNPASRKSNVFNEQVRYAWHGALQDLKSTPLATFLTVMVIAISLTLPSVCYMVYKNVSSAASQYYPSPQITVYLEKTLDDDAAARVVGQLQAEQGVDKVNYLSRDEALGEFRNWSGFGGALDMLEENPLPAVAIVVPKLDFQSTEALNTLRERVSRIQGVDEVRMDDSWFARLSSLTGLVGRVSAMIGVLMVAAVFLVIGNSVRLSIFARRDTINVQKLIGATDGFILRPFLYGGAMLGFSGAFLSLILSEILVMRLSSAVTEVAKVFGTQFELSGLGFDECLLMLIVCSMIGWVAAWLATVQHLRHFTPD				NA	NA	NA	NA	NA
BMS020_03049	669	ftsE_1	COG2884	Cell division ATP-binding protein FtsE	ATGATTCGCTTTGAACAAGTCAGCAAAGCCTATCTCGGTGGGAGACAAGCGCTGCAGGGGGTGAACTTCCACCTGCAGCCGGGCGAGATGGCGTTTCTGACCGGCCACTCCGGCGCAGGGAAAAGTACCCTGCTGAAGCTTATCTGTGGTATCGAACGGCCCAGCGCCGGGAAAATCTTCTTCAGCGGTCATGAAATCAGCCGCCTGAAGAGCCGTGAGGTGCCGTTCCTGCGCCGCCAGATCGGCATGATTTTCCAGGACCACCATTTGCTGATGGATCGTACCGTGTATGACAACGTGGCGATCCCGCTGATTATCGCCGGCGCCAGCGGCGATGACATTCGTCGCCGGGTCTCGGCGGCGCTGGATAAGGTCGGGCTGCTGGACAAAGCGAAGAACTTTCCGATTCAGCTCTCCGGCGGCGAGCAGCAGCGCGTGGGGATCGCTCGCGCGGTGGTCAACAAGCCGGCGGTGCTGCTGGCGGATGAACCGACCGGTAACCTCGACGAGGCGCTCTCGGAGGGGATTTTACGTCTGTTTGAAGAGTTTAACCGCGTCGGGGTGACGGTACTGATGGCCACGCACGATCTGGGGCTTATCTCCAGCCGTCCGTACCGCGTGCTGACGCTCAGCGACGGCCATCTGCATGGAGGCATTCGGGGTGAATAA	MIRFEQVSKAYLGGRQALQGVNFHLQPGEMAFLTGHSGAGKSTLLKLICGIERPSAGKIFFSGHEISRLKSREVPFLRRQIGMIFQDHHLLMDRTVYDNVAIPLIIAGASGDDIRRRVSAALDKVGLLDKAKNFPIQLSGGEQQRVGIARAVVNKPAVLLADEPTGNLDEALSEGILRLFEEFNRVGVTVLMATHDLGLISSRPYRVLTLSDGHLHGGIRGE	PGPT0020520_775	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
BMS020_03050	1533	ftsY_1	COG0552	Signal recognition particle receptor FtsY	ATGGCAAAAGAGAAAAAACGTGGCTTCTTTTCCTGGCTGGGCTTTGGACAGAAAGAGCAGGCACAGGAAACCGAGACTGAACAAAAAGTAGAAGAACAACAAGCGGTTGCCCAGGAGACGCCGGCGGCGGAAACCCCTGCTGAGCCGAGCGCGCCGAAAGCGGACCCGGAGGCGTTTGCCGAAGAGGTCGTCGAAGTCACCGAGACGGTGGTCGAAAGCGAAAAGGCCCACCTCGCGGAGCCTGCCAGCGCGCAGGAAGAAGAGGCGGCGCCAGCGCCTGCTTTGGTTGAAGAGGCGCCGGTCGTCGCGCCGGAGCCTGCGGTCAGCGAACCGCTGAAGGCGGAGGAACAGCCGGCAGTGGTTGAGTCGCTGGTGGAGGACGTTATCGCCGAACCGGTGGCGGCGGAGGCCGTGGCTGAGCAGCCTGTAGAGGATGTCGTCGCCCAACCTCAGGAGACGGAAGCGCCGGAAGAGGACGCGCCGTTAAGCGATGAAGAGCTGGAAGCGCAGGCGCTGGCGGCCGAGGCGGCGGAAGAGGCGGCAGTGGTGGTGCCGGCGCCAGAGGAAGAGGCGCCGGTGGAAGCGCTGGTCCAGGAGCAGGAAAAACCGACGAAAGAAGGCTTTTTCGCCCGCCTTAAGCGTAGCCTGCTGAAAACCAAACAAAATCTCGGTTCCGGATTTATCAGCCTGTTCCGCGGTAAGAAGATTGACGACGATCTGTTTGAAGAGCTGGAAGAGCAGCTGCTGATCGCCGACGTCGGGGTGGAAACCACCCGCAAGATCATTACTCATCTCACCGAGGGCGCCAGCCGTAAGCAGCTGCGCGATGCGGAAGCGCTGTACGGCCTGCTGAAAGAAGAGATGGGCGATATCCTCGCCAAAGTGGATGAGCCGCTGAATGTTGAAGGCAAAACGCCATTTGTTATTCTGATGGTCGGCGTGAACGGGGTGGGGAAAACCACCACCATCGGTAAGCTGGCGCGTCAGTTTGAGCAGCAGGGCAAATCGGTGATGCTGGCGGCGGGGGATACCTTCCGTGCGGCGGCGGTGGAACAGCTGCAAGTCTGGGGCCAGCGTAACAATATCCCGGTGATCGCCCAGCACACCGGCGCCGATTCCGCCTCGGTGATTTTCGACGCCATTCAGGCGGCGAAGGCGCGCCATGTTGATGTGCTGATTGCCGATACCGCCGGGCGTCTGCAGAATAAATCGCACCTGATGGAAGAGCTGAAGAAGATCGTCCGGGTGATGAAAAAGCTGGACGTCGACGCGCCGCATGAGGTGATGTTAACCATCGACGCCAGCACCGGGCAGAATGCCATTAGCCAGGCCAAACTGTTCCATGAAGCGGTAGGTTTGACCGGGATCACCCTGACCAAGCTGGATGGCACCGCCAAAGGCGGCGTGATCTTCTCGGTGGCCGACCAGTTCGGCATTCCGATTCGCTATATTGGCGTCGGCGAGCGTATTGAGGATCTGCGTCCGTTTAATGCGGGCGACTTTATTGAGGCACTTTTTGCCCGAGAGGATTAA	MAKEKKRGFFSWLGFGQKEQAQETETEQKVEEQQAVAQETPAAETPAEPSAPKADPEAFAEEVVEVTETVVESEKAHLAEPASAQEEEAAPAPALVEEAPVVAPEPAVSEPLKAEEQPAVVESLVEDVIAEPVAAEAVAEQPVEDVVAQPQETEAPEEDAPLSDEELEAQALAAEAAEEAAVVVPAPEEEAPVEALVQEQEKPTKEGFFARLKRSLLKTKQNLGSGFISLFRGKKIDDDLFEELEEQLLIADVGVETTRKIITHLTEGASRKQLRDAEALYGLLKEEMGDILAKVDEPLNVEGKTPFVILMVGVNGVGKTTTIGKLARQFEQQGKSVMLAAGDTFRAAAVEQLQVWGQRNNIPVIAQHTGADSASVIFDAIQAAKARHVDVLIADTAGRLQNKSHLMEELKKIVRVMKKLDVDAPHEVMLTIDASTGQNAISQAKLFHEAVGLTGITLTKLDGTAKGGVIFSVADQFGIPIRYIGVGERIEDLRPFNAGDFIEALFARED	PGPT0025740_659	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025740-ftsY-K03110	NA	NA
BMS020_03051	597	rsmD_1	COG0742	Ribosomal RNA small subunit methyltransferase D	ATGAAAAAACCAAACCACGCGGGCAGCGGCCAGATCCGCATCATCGGCGGGCAATGGCGCGGCCGTAAATTACCGGTGCCGGAGAGCCCGGGCCTGCGGCCGACCACTGACCGGGTTCGCGAAACCCTTTTTAACTGGCTGGCGCCGTCCATCGTTGACGCGCACTGCCTCGACTGCTTTGCTGGCAGCGGCGCGCTGGGGCTTGAGGCGCTGTCCCGCTATGCGGCCAGCACCACGCTACTGGAGATGGAGCGCGGCGTCGCTCAGCAGTTGCAAAAAAACCTGGCCACCCTGAAAGCGGATCGCGGCAAGGTGATCGCGACTAACACCCTCAGCTTCCTGAGCCAACCGGGCACGCCGCATCAGATTGTGTTTGTCGACCCGCCGTTCCGTCAGGGGCTGCTGGAGGAGACGCTGCGCCTGCTGGAAACGCAGGGCTGGCTGGCCGACGAGGCCCTGGTGTACGTCGAAAGCGAAGTCGAAAACGGTTTACCGCCGGTACCGGCGAACTGGCATCTGTATCGTGAAAAAGTGGCCGGACAGGTCGCGTATCGTCTTTACCAACGTGAGGCCCAAGGAGAGAACCATGCTGATTAA	MKKPNHAGSGQIRIIGGQWRGRKLPVPESPGLRPTTDRVRETLFNWLAPSIVDAHCLDCFAGSGALGLEALSRYAASTTLLEMERGVAQQLQKNLATLKADRGKVIATNTLSFLSQPGTPHQIVFVDPPFRQGLLEETLRLLETQGWLADEALVYVESEVENGLPPVPANWHLYREKVAGQVAYRLYQREAQGENHAD				NA	NA	NA	NA	NA
BMS020_03052	276			hypothetical protein	ATGCTGATTAATTTAGGCCGCCTGCTGATGCTGTGCGTCTGGGCCTTTCTGTTATTGAATCTGTTTCAGCCCTTCCCGAAGCCGCTGAATATCTTCGTCAACGTCGCGCTGATTTTTATGATCCTGATGCACGGTCTGCAGCTGACGCTGCTCAAGGCGACGCAGCCGAAGGATGCCCCGCCGCTGGGCCGCTTTGAGCAAATCCGCATTTTTATCTTCGGCGTGTTTGAGCTCGTCGCCTGGCAGAAAAAACTGAAGGCGACGCTGAAGAAATAG	MLINLGRLLMLCVWAFLLLNLFQPFPKPLNIFVNVALIFMILMHGLQLTLLKATQPKDAPPLGRFEQIRIFIFGVFELVAWQKKLKATLKK				NA	NA	NA	NA	NA
BMS020_03053	351			hypothetical protein	ATGCCGCTCTTTTTTGTTCTGGTCGTCGCGGTGATTGTGGTGGCGGCTTCGTTTCGCTATGTGCAGCAGCGCCGCGAAAAACTGGCGAACGACGCCGCGCCGGTGTTGCAAAAGCGGGTGATCGTCAGCAATAAGCGGGAAAAAGTGATTAACGATCGGCGTTCGCGGCAGCAGACGGTGACGCCTGCGGGCAGCGAGATGCGCTATGAAGCGAGCTTTCGCCCTGAGAACGGCGGGCTGGAGGTGGTGTTTCGCCTTGACGCGCCGCAGTATCATGCGCTGAGCGTCGGCGATCGCGGGATGTTGAGTTATAAGGGCACAGCGTTCGTGGCGTTCACGCCCGATCCCTGA	MPLFFVLVVAVIVVAASFRYVQQRREKLANDAAPVLQKRVIVSNKREKVINDRRSRQQTVTPAGSEMRYEASFRPENGGLEVVFRLDAPQYHALSVGDRGMLSYKGTAFVAFTPDP				NA	NA	NA	NA	NA
BMS020_03054	627			hypothetical protein	ATGCTTTGGTCATTTATTGCTGTCTGTTTCTCCGCATGGCTTTATGTCGATGCATCCTATCGCGGGCCGGCCTGGCGACGCTGGGTATTTAAACCTGTCACCCTGATTCTGTTGCTGTTGCTGGCCTGGCAGGCGCCGATGTTCAATGCCATCAGCTACCTGGTGCTGGCCGGCCTGTGCGCCTCCCTGCTCGGCGACGCCCTGACCCTGCTGCCGCGCCAGCGGATGATGTACGCGGTGGGCGCCTTCTTCCTGTCGCATCTGCTGTATACCATCTGGTTCGCCAGCCAGCTGACGCTGTCGTTCTTCTGGCCGCTGCCGCTGGTGCTGCTGGTATTCGGCGCCCTGCTGATGGCGGTGATCTGGAGCCGGCTGGAAGAGATGAAAATGCCGGTGCTGACCTTTATCGGCATGACGCTGGTGATGGTCTGGCTGGCCGGTGAGCTGTGGTTTGCCCGCCCTACCAACACCGCGCTGTCCGGATTCGCCGGCGCCGCTCTGCTGCTGCTGAGCAATGCCGTGTGGCTGGTGAGCCACTATCGCCGCCGTTTCCGCGCCGATAACGCCATTGCCGCCGCGTTTTACTTTGCCGGCCACTTCCTCATCGTGCGCGCGCTGTACCTGTAA	MLWSFIAVCFSAWLYVDASYRGPAWRRWVFKPVTLILLLLLAWQAPMFNAISYLVLAGLCASLLGDALTLLPRQRMMYAVGAFFLSHLLYTIWFASQLTLSFFWPLPLVLLVFGALLMAVIWSRLEEMKMPVLTFIGMTLVMVWLAGELWFARPTNTALSGFAGAALLLLSNAVWLVSHYRRRFRADNAIAAAFYFAGHFLIVRALYL				NA	NA	NA	NA	NA
BMS020_03055	2211	zntA		Zinc/cadmium/lead-transporting P-type ATPase	ATGTCGACTCCAGACGCGCAGGATAAAAAAGTCCCACAATTCTCGTCATTCACCATGCGGCCAGCGCCCGCCCCGGCGGAAAGCTGCTGCACAGACCACGCCTGCGCCGCAGAGACCGCGCCTGCCGCCGAAGCGCTCAGCGACGCCCGCTACAGCTGGCAGGTTGCAGGCATGGACTGCGCCGCCTGCGCCCGCAAGGTGGAAACGGCGGTTCGTCAGGTGCCCGGCGTCAGTCAGGTTCAGGTGCTGTTCGCCACTGAAAAATTATTGGTTAACGCCGAGGGCGACGTTCGGGCTCAGGTTGAGCAGGCGGTACGTCAGGCAGGCTATACGCTGCGCGATGCCGATGCCCCCGCGTCAGAGAAAACTCAAGGCTCGCGACTGCGCGACAATTTACCGTTGCTGACGCTGATCATTATGATGGCCCTGAGCTGGGGGCTGGAGCAGGCCAACCACCCTGCCGGTCAGTTAGCCTTTATTGCCACCACCCTGGTCGGCCTGTGGCCGGTTGCCCGCCAGGCGCTGCGCCTGATCAAGAGCGGGAGCTGGTTCGCCATTGAAACGCTGATGAGCGTCGCCGCCATCGGGGCGCTGTTTATCGGCGCCACCGCAGAGGCGGCGATGGTCCTGCTGCTGTTCCTGATCGGCGAGCGTCTCGAAGGCTGGGCCGCCAGCCGCGCGCGGCAGGGGGTGAGCGCGCTGATGGCGCTGAAGCCCGACACCGCCATTCGCCTGCGCAACGGCGTGCGGGAAACCGTCGCCCAGCGCGATCTGCGCCCCGGGGATGTGATCGAAGTGGCCGCCGGCGGGCGTCTGCCGGCGGATGGTCAGCTGCTGTCGCCATTTGCCAGCTTTGATGAAAGCGCTCTATCCGGCGAGTCGGTGCCGGTGGAGCGCCTGGCCGGAGAACGCGTAGCGGCGGGCGCCACCAGCGTCGACCGCCTGGTGCAGCTGACCGTGATCTCCGAACCGGGCGACAGCGCCATCGACCGCATCCTGAAGCTGATTGAAGAGGCGGAGGAGCGTCGGGCGCCGATCGAGCGTTTTATCGATCGCTTCAGCCGGATCTACACTCCGGCCATTATGGTGGTGGCCCTGTTGGTCGCCATTGTCCCGCCCCTGCTCTTCGCCAGCGCCTGGCTGCCGTGGATTTATAAAGGGCTGACGCTGCTGCTGATCGGCTGCCCGTGCGCGCTGGTTATCTCCACCCCGGCAGCCATCACTTCCGGCCTGGCGGTCGCCGCCCGACGCGGAGCGTTAATTAAAGGCGGCGCGGCGCTGGAACAGCTGGGCCAGGTGCGCCAGGTGGCGTTCGACAAAACCGGCACCCTGACCGTCGGCCAGCCGCAGGTGACCACGGTCATCGCCACGGCTGAGAATGACGATAACACGCTGCTGGCGCTGGCGGCGGCGGTTGAGCAAGGCTCCAGCCATCCGCTGGCGCAGGCTATCGTCCGCGAAGCGCAGCGGCGTCAGCTGAGTATTCCGCAGGCCAGCGGCCAGCGGGCGCTGGCCGGCTCCGGTATTGAAGCCGAGGTCAACGGCAGCCGTATCGTAATCTGCGCGGCCAGCAAAGCCGCCCCGTCAGAGCATGAGGCGCAGATCCAGCAGCTGGAGAGCGCCGGTCAAACGGTGGTGCTGGTCATGCGCGGCGAGACGCTTCTCGGCATCCTGGCGCTGCGCGACACCCTGCGCGACGACGCGCGTCAGGCAGTGGATGCCTTACACCAGCTGGGGGTGCAGGGGGTGATCCTTACCGGGGATAACCCGCGCGCCGCGGCGGCCATCGCCAGCGAACTGGGTCTGGAATTCCGCGCCGGCCTGCTGCCGGCGGACAAAGTCGAAGCGGTGATGGCGCTGAATGCCGATGCGCCGCTGGCGATGGTCGGGGACGGCATCAACGACGCCCCGGCGATGAAGGCGGCGACCATCGGCATCGCCATGGGCAGCGGCACCGACGTGGCGCTGGAGACCGCCGACGCCGCGCTGACCCACAACCGTCTGACCGGCCTGGCGCAGATGATCTCCCTGGCGCGGGCGACCCACGCGAATATTCGCCAGAACATCGCGATTGCCTTAGGGCTGAAGGGGATTTTCCTTGTCACCACCCTACTCGGCCTGACCGGCCTGTGGCTGGCGGTGCTGGCGGATACCGGCGCCACCGTACTGGTAACGGCTAACGCGCTGCGGTTATTGCGTAAGAAGTTGTAG	MSTPDAQDKKVPQFSSFTMRPAPAPAESCCTDHACAAETAPAAEALSDARYSWQVAGMDCAACARKVETAVRQVPGVSQVQVLFATEKLLVNAEGDVRAQVEQAVRQAGYTLRDADAPASEKTQGSRLRDNLPLLTLIIMMALSWGLEQANHPAGQLAFIATTLVGLWPVARQALRLIKSGSWFAIETLMSVAAIGALFIGATAEAAMVLLLFLIGERLEGWAASRARQGVSALMALKPDTAIRLRNGVRETVAQRDLRPGDVIEVAAGGRLPADGQLLSPFASFDESALSGESVPVERLAGERVAAGATSVDRLVQLTVISEPGDSAIDRILKLIEEAEERRAPIERFIDRFSRIYTPAIMVVALLVAIVPPLLFASAWLPWIYKGLTLLLIGCPCALVISTPAAITSGLAVAARRGALIKGGAALEQLGQVRQVAFDKTGTLTVGQPQVTTVIATAENDDNTLLALAAAVEQGSSHPLAQAIVREAQRRQLSIPQASGQRALAGSGIEAEVNGSRIVICAASKAAPSEHEAQIQQLESAGQTVVLVMRGETLLGILALRDTLRDDARQAVDALHQLGVQGVILTGDNPRAAAAIASELGLEFRAGLLPADKVEAVMALNADAPLAMVGDGINDAPAMKAATIGIAMGSGTDVALETADAALTHNRLTGLAQMISLARATHANIRQNIAIALGLKGIFLVTTLLGLTGLWLAVLADTGATVLVTANALRLLRKKL	PGPT0004200_1800	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004200-zntA|cadA-K01534	NA	NA
BMS020_03056	246	tusA	COG0425	Sulfur carrier protein TusA	ATGAGCGAACTTTTCTCCACTCCAGACCACACTCTGGATGCCCTGGGACTGCGCTGCCCGGAGCCGGTCATGATGGTGCGTAAAACCGTGCGGACAATGCCCGTCGGCGAGACGCTGCTGATTATTGCTGACGATCCGGCCACCACCCGCGATATCCCGGGATTCTGCCGCTTTATGGAGCATGAGCTGGTGGCCCAGCAAACCGAAGCTCTGCCGTACCGCTACCTGATCCGCAAAAGCCACTGA	MSELFSTPDHTLDALGLRCPEPVMMVRKTVRTMPVGETLLIIADDPATTRDIPGFCRFMEHELVAQQTEALPYRYLIRKSH				NA	NA	NA	NA	NA
BMS020_03057	666	yhhQ_1	COG1738	Queuosine precursor transporter	ATGAATCCGTTTACTACCGTACAGCGCAAAAAAGCGCTCGTCTGGCTTTCGCTATTTCATCTGCTGGTGATCACCTCCAGCAACTATCTGGTTCAGCTACCGATCTCCATCTTTGGTTTCCATACCACCTGGGGGGCGTTCAGTTTTCCGTTTATCTTCCTCGCCACCGATCTGACGGTGCGAATTTTTGGCGCGCCGCTGGCGCGACGCATTATTTTTGCGGTGATGGTCCCGGCGCTGGTCATCTCCTACGCCATCTCCGCCCTGTTTTACATGGGCGAGTGGCAGGGTTTCGCGGCGCTGGGCACCTTTAATCTCTTCGTCGCGCGTATCGCCATCGCCAGCTTTATGGCCTATGCGCTGGGGCAGATCCTCGACGTCCACGTCTTCAACCGCCTGCGGCAGAGCCGCCGCTGGTGGCTGGCCCCCACCGCCTCGACGCTGTTCGGCAACATCAGCGATACCATGGCGTTCTTCTTCATCGCCTTCTGGCGCAGCCCGGATCCGTTTATGGCCGCCCACTGGGGGGAAATCGCCCTCGTCGACTACAGCTTTAAAGTGCTTATCAGCATCATTTTCTTCCTGCCGATGTACGGCGTACTGTTAAATATGCTGTTGAAAAGGCTGGCGGATAAATCTGATTTGTCGGCATTGCAGCCGAGTTAA	MNPFTTVQRKKALVWLSLFHLLVITSSNYLVQLPISIFGFHTTWGAFSFPFIFLATDLTVRIFGAPLARRIIFAVMVPALVISYAISALFYMGEWQGFAALGTFNLFVARIAIASFMAYALGQILDVHVFNRLRQSRRWWLAPTASTLFGNISDTMAFFFIAFWRSPDPFMAAHWGEIALVDYSFKVLISIIFFLPMYGVLLNMLLKRLADKSDLSALQPS				NA	NA	NA	NA	NA
BMS020_03058	558			hypothetical protein	ATGCGCAATTTGGTTAAATATGTCGGTATTGGCCTGCTGGTGATGGGGCTTGCCGCCTGCGATAACAGCGATTCAAAAGCGCCAACCGTTGGGGCAGCAGCGGAGAGCAACACCAGCGGCCAGGCGATCAGCCTGCTGGATGGCAAACTGAGCTTCACCCTGCCTGCGGGCATGGCCGACCAGAGCGGCAAACTGGGTACTCAGGCGAACAACATGCACGTCTATTCTGACGCCACCGGCCAGAAAGCAGTCATCGTCATCGTCGGCGACAGCACCAATGAAGACCTGGCGGTGCTGGCGAAACGCCTGGAAGATCAGCAGCGTAGCCGCGACCCGCAGCTGCAGGTGGTGAGCAATAAATCGCTGGAGATCAAAGGTCACACCCTGCAGCAGCTGGACAGCATCATCTCCGCCAAGGGGCAGACCGCCTGGTCTTCCGTGCTCCTCGGCAAAGTGGATGACAAACTGCTGACCCTGCAGGTCACCCTGCCGGCGGACAACCAGCAGCAGGCGCAGACCGAAGCGGAAAGCATCATCAGCACCCTCACCATCCAGTAA	MRNLVKYVGIGLLVMGLAACDNSDSKAPTVGAAAESNTSGQAISLLDGKLSFTLPAGMADQSGKLGTQANNMHVYSDATGQKAVIVIVGDSTNEDLAVLAKRLEDQQRSRDPQLQVVSNKSLEIKGHTLQQLDSIISAKGQTAWSSVLLGKVDDKLLTLQVTLPADNQQQAQTEAESIISTLTIQ				NA	NA	NA	NA	NA
BMS020_03059	1221	yhhS_3		putative MFS-type transporter YhhS	ATGCCCGAATCCGTCGCCGAACCGGCGCTCAATGGACTGCGCCTCAATCTGCGGATTGTCTCCGTGGTTATTTTTAACTTTGCCAGCTACCTCACCATCGGCTTGCCGCTGGCGGTACTTCCTGGCTATGTGCATGATGTAATGGGCTTTAGCGCTTTCTGGGCTGGCCTGGTGATTAGTCTGCAATATTTCGCCACGCTGCTCAGCCGCCCGCACGCCGGGCGCTACGCTGACCTGCTGGGGCCCAAAAAGATTGTCGTCTTCGGCCTCTGCGGCTGCTTTTTAAGCGGTCTGAGCTATCTGCTGGCCGCCTGGAGCAGCGGCTGGCCGCTGGTTAGCCTGCTGCTGCTATGCCTCGGGCGGGTCATTCTCGGCATCGGCCAGAGCTTTGCCGGCACCGGCTCGACGCTGTGGGGCGTCGGCGTTGTTGGGTCGCTGCATATCGGGCGGGTGATCTCATGGAACGGCATTGTGACCTACGGGGCGATGGCGATGGGCGCCCCGCTCGGCGTGCTGTGCTATTCGCAAATTGGCCTCAGCGGCCTGGCCGGGGTCATTATGGCGGTTGCGCTGGTGGCTATCCTCTGCGCGCTGCCCCGCGCAGCGGTGAAGGCGGCGAAAGGCAAAGCAATGTCGTTTCGCGCGGTGCTCGGGCGGGTGTGGCCCTACGGCATGGCGCTGGCCCTGGCCTCCGCCGGTTTCGGGGTTATCGCCACCTTTATCACGCTGTTTTATGACGCCAAAGGTTGGGACGGGGCGGCCTTCGCCCTGACGCTGTTCAGCTGCGCGTTCGTTGGCGCGCGGCTGCTGTTTCCCAACGCCATTAACCGCCTCGGCGGGCTGAACGTGGCGATGCTCTGCTTTAGCGTGGAGATCATCGGCCTGCTGCTGGTCGGCTTTGCCGATACGCCGCTGCTGGCGAAAATCGGCACTTTTCTTACCGGGGCCGGGTTCTCACTGGTCTTTCCGGCGCTGGGCGTGGTGGCGGTGAAAGCGGTGCCGCAGCATAACCAGGGGTCGGCGCTGGCCACCTATACCGTGTTTATGGATTTGTCGTTAGGCGTCACCGGGCCGCTGGCCGGCTTGCTGATGGCGTGGACCGGGATCCCGGTGATATATCTGGCGGCGGCAGGTCTGGTGATGGCGGCGCTGCTGCTGGGCTGGCGGTTAAAAAAACGGCCCCCGGTCAGCGAACCGGAGGCCGTCGCACCAGGCCAGTAA	MPESVAEPALNGLRLNLRIVSVVIFNFASYLTIGLPLAVLPGYVHDVMGFSAFWAGLVISLQYFATLLSRPHAGRYADLLGPKKIVVFGLCGCFLSGLSYLLAAWSSGWPLVSLLLLCLGRVILGIGQSFAGTGSTLWGVGVVGSLHIGRVISWNGIVTYGAMAMGAPLGVLCYSQIGLSGLAGVIMAVALVAILCALPRAAVKAAKGKAMSFRAVLGRVWPYGMALALASAGFGVIATFITLFYDAKGWDGAAFALTLFSCAFVGARLLFPNAINRLGGLNVAMLCFSVEIIGLLLVGFADTPLLAKIGTFLTGAGFSLVFPALGVVAVKAVPQHNQGSALATYTVFMDLSLGVTGPLAGLLMAWTGIPVIYLAAAGLVMAALLLGWRLKKRPPVSEPEAVAPGQ				NA	NA	NA	NA	NA
BMS020_03060	396			hypothetical protein	ATGAAAAAAATTATTCACTGGATGATTGTCGCTACGGTTGTCGGTGCGCTCGCCGGTTGCGCACGGACAGCCCCTATTGAACAGGTCAATGCGATAGTGAGCGCCGGCCATACGGAAGCGCAGGTCAAGGATGCCATTATCAAAGCAGGTGCTCAGCGCCAATGGATTATGTCTGACGCGGGCCCTGGCGTCATAAAAGGTAAATTGCAAAATCGCGACCATGTCGCGGATATTAAAATTAACTACTCCGCAACAAGTTATTCTATTGTCTATGTGAGTAGCATTAATCTCATGGCCTCCAACGGAAAAATTCATAGAAACTATAACCGCTGGGTACACAACCTCGATAAAGATATTCAGGTTACGCTGGCAGCAAACACCGCTCTGCAACAATAA	MKKIIHWMIVATVVGALAGCARTAPIEQVNAIVSAGHTEAQVKDAIIKAGAQRQWIMSDAGPGVIKGKLQNRDHVADIKINYSATSYSIVYVSSINLMASNGKIHRNYNRWVHNLDKDIQVTLAANTALQQ				NA	NA	NA	NA	NA
BMS020_03061	312			hypothetical protein	ATGAGTCAGTTCCTGGACTGTTTCTCGCCAGAACAAATCATCACCATACTCAGTAACGTGGCACAGGTCATGAAACCTGGCGCCCGCCTGTACATTCTGGAATTGTTCTGGGATGCGCAGAAATTTGAAGCAGCATCATTTAGTCTGAATGCGTCTTCACTCTATTTTACCTGTATGGCCAACGGCAACAGCCGTTTCTACAGCGTAGAGAAGTTTTACCGCTATCTTGAAATGGCGGGGTTCGAAGTAGAACAGCGTCACGATAATTTAGGCGTTGGGCATACCTTGTTGATATGCCACAAGAATAATTGA	MSQFLDCFSPEQIITILSNVAQVMKPGARLYILELFWDAQKFEAASFSLNASSLYFTCMANGNSRFYSVEKFYRYLEMAGFEVEQRHDNLGVGHTLLICHKNN				NA	NA	NA	NA	NA
BMS020_03062	723			hypothetical protein	ATGACATTTTCATTTAACATTGTTGATTGGCAGGCCTTCGCGCCTGGCGTCAGTGGCCCCGAGCAATGGCAACGGTGGTCACAGCATTTGCACGCCATCGATCCCGCCGCGGCGCCACCCAAACTCAGCGAATTGCCGATGATGACCGCACGCCGACTCAGTTCGGGAAGTAAGCTGGCTGTGGAATGCGGTCTGGCTATGCTCCGTCGCCATGAAATCGATGCCGTTCTTTATACCAGCCGTCACGGCGAACTGGAGCGCAACTATCGGATCCTCCATGCGCTGGCTATGGAACAAGCGATCTCGCCGACCGATTTCGCCTTATCGGTGCATAATTCCGCCGTGGGTAATCTGACGATTGCTGCAAAAAAAGCGATTATGTCGTCATCCCTTTCTGCCGGACGCGATACGTTTCAGCAGGGATTATACGAAGTGATGGGCCTGCTACAGGCGGGTTATCAGCGCGTGTTGATGGTTGATTTCGACGGTTTTCTCCCTGAGTTTTACCACGCTCAGTTGCCGCCAGGTATCACCACCTGGCCCTATGCGGCAGCCTGGGTGATTGAGCCCGGTCGCCAGTGGCAATGCCACTCCCAGCCTCATGCAGCCGTTGCTGAAAGTCCATTACCGCAAAGTTTACTGTTCTTGCAGTACTATTTGCAGAATGCCCGCACGTTCACGCTTCCCGGCGATCGCGTGCAATGGCAATGGAGCCGCGCATGA	MTFSFNIVDWQAFAPGVSGPEQWQRWSQHLHAIDPAAAPPKLSELPMMTARRLSSGSKLAVECGLAMLRRHEIDAVLYTSRHGELERNYRILHALAMEQAISPTDFALSVHNSAVGNLTIAAKKAIMSSSLSAGRDTFQQGLYEVMGLLQAGYQRVLMVDFDGFLPEFYHAQLPPGITTWPYAAAWVIEPGRQWQCHSQPHAAVAESPLPQSLLFLQYYLQNARTFTLPGDRVQWQWSRA				NA	NA	NA	NA	NA
BMS020_03063	816			hypothetical protein	ATGAAGCCGTTTTTCCACCGGCTTAATCGGCTCTGGCGCGCAGCGATGACCGGTTTCTGCTTCGCACTGTTTGGCATTGGCGGCCTGCTGCTCTCGCTCATCTGGTTTAATCTGCTGCTGGTTTTGGTACGTAATAAAACCCGCCGACGCCGTATCGCGCGGCGCAGCATTTCCGTTAGCTTTCGCGTATTCCTCAGCGTGGTGAAAAGCGTCGGCGTTCTCGATTACCGTATCGATGGCCGCGATATTTTGCGCGCGGAGCGCGGTTGCCTGGTGGTCGCCAATCACCCCAGCCTTATTGACTATGTGATGCTGGCCTCGGTGATGCCGGAGACCGACTGCATGGTAAAAAGCGCGCTGCTGAAAAATCCATTCGTCAGCGGCGTGATCCGCGCCGCCGATTATCTGATTAACGATCAGGCCGATGCCCTGCTGCCGGCAAGCCGGCAGCGTTTACAGCAAGGCGATACGATTTTGATTTTCCCTGAAGGCACGCGCACCGTGCCGGGGAAAAAAATGCAGCTACAGCGAGGGGCGGCTAATATCGCGGTACGCTGCGGCAGCGATTTACGCATTGTCGTCATCCGCTGTACCGAGCATATGCTGGGTAAACAAAGCAAATGGTACGACGCGCCGCCAACTAAGCCGCGGTTTACCGTCGAGGTTGGAGAACGGCTGCCAATACATCAGTTTTATGATGCCAATAAACAAGAACCGGCGCTGGCCGCAAGACAGTTGAACCGTCATATTTTGCTTAAATTAGAAACAGGCACTCTCCCTGAAACAGGAATGAATGATGCAAGCGCTCTATCTTGA	MKPFFHRLNRLWRAAMTGFCFALFGIGGLLLSLIWFNLLLVLVRNKTRRRRIARRSISVSFRVFLSVVKSVGVLDYRIDGRDILRAERGCLVVANHPSLIDYVMLASVMPETDCMVKSALLKNPFVSGVIRAADYLINDQADALLPASRQRLQQGDTILIFPEGTRTVPGKKMQLQRGAANIAVRCGSDLRIVVIRCTEHMLGKQSKWYDAPPTKPRFTVEVGERLPIHQFYDANKQEPALAARQLNRHILLKLETGTLPETGMNDASALS				NA	NA	NA	NA	NA
BMS020_03064	258			hypothetical protein	ATGCAAGCGCTCTATCTTGAAATTAAAAATCTGATCATCAGTACATTGAACCTGGACGAGCTGTCCGCTGATGATATCGACACCGACGCCGCGCTTTTTGGCGATGGTCTGGGTCTGGACTCAATTGATGCGCTGGAGCTGGGTCTGGCGGTGAAAAATCAGTACGGCGTGGTGCTGTCGGCTGAAAGTGAAGAGATGCGTCAGCATTTCTACTCTGTCGCCACGCTGGCGGCATTTATTCAAGCACAGCGCGCCTGA	MQALYLEIKNLIISTLNLDELSADDIDTDAALFGDGLGLDSIDALELGLAVKNQYGVVLSAESEEMRQHFYSVATLAAFIQAQRA	PGPT0011375_2431	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
BMS020_03065	252	acpP_2	COG0236	Acyl carrier protein	ATGAATGAACAACAAGCCATTTACGAAGAAATCTCCGCGCTGCTGGTGAACGTGTTTGAAATCGATCCGCAGGATATTACGCCTGAGGCCCGCCTGTACGAAGATCTCGAACTGGACAGTATCGACGCCATCGACATGATCGTCCATCTGCAAAAGAAAATTGGTAAGAAAATCAAGCCAGAAGAGTTCAAAACTGTCCGCACCGTGCAGGATGTGGTCGATGCGGTAGAACGCCTGTTCAAAGAAGAATAA	MNEQQAIYEEISALLVNVFEIDPQDITPEARLYEDLELDSIDAIDMIVHLQKKIGKKIKPEEFKTVRTVQDVVDAVERLFKEE	PGPT0011375_3425	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
BMS020_03066	582			hypothetical protein	GTGTCGGGCATTCGCTCACTGCCAGTTGTGCCATTGCTGACGGGCATATTGCTGCTGGCCTGGCCGTTTATCATCTGGTTCGGCCTCGCGCATAACAGCCTGCAAGGGTTGTTACCGCTCATGGCGCTGATGTTGTTTTTACGCTTTCGTCAGACCCGGCGACGGGCGGGAGCGCTGAGCGTGGTCACTCAGATTGTGGCGGTGGCCGGCATGACGCTGTGTATTGCCAGCTACCTGCTGAAAACCCATCAGTTACTGCTATTTTACCCGGTGGTGGTGAACAGCGTGATGCTGGCGGTGTTTGGCGGTTCGCTATGGTCCACGATGCCGATAATCGAGCGTCTGGCGCGACTGCGTGAACCGGATCTTCCGGAGCAGGCTGTACGCTATACCCGGCGCGTCACCCAAATCTGGTGCGCCTTTTTCATCATTAACGGTGGCATTGCGCTTTTTACCGCGCTGTATGGCGATCTGTCCCTGTGGACGGCGTGGAACGGCATGATTTCCTATCTGCTGATGGGCACGCTCATGGCCGGCGAGTGGCTGGTGCGCCAGCGGGTGATAAAACGAGATAAACCATGA	MSGIRSLPVVPLLTGILLLAWPFIIWFGLAHNSLQGLLPLMALMLFLRFRQTRRRAGALSVVTQIVAVAGMTLCIASYLLKTHQLLLFYPVVVNSVMLAVFGGSLWSTMPIIERLARLREPDLPEQAVRYTRRVTQIWCAFFIINGGIALFTALYGDLSLWTAWNGMISYLLMGTLMAGEWLVRQRVIKRDKP				NA	NA	NA	NA	NA
BMS020_03067	1350			hypothetical protein	ATGAAGCAGCCTCTCCCGTTGGACCAGTGGCTCAGCGCCGCGCGTTCGCCGGAAACGCCGATCGCCTGGCAGGACACGCACCTCTGGACGCTTGCACATCTGCGCCATGATGTCGCCCACCTGCTCACGCACTTGCGTCAGCAGCCAGCCATGCGCTGGGCGTTGTGCATTGAAAATAGCTACTTGTTTATCGTCGCTCTGCTGGCAACCCTGCATGCCGGCAAAACGCCGGTCCTTCCCGGCCACGGCCGTATTTCGCTGTTAAATGAGCAGAAGGCGCTGTTTGACGGCATTCTCAGCGATAAAGCGCTGGCATGGGATGGCGCGCTGGTGATTGTCGAGTCCACGATGACGGTAACGAGCGGCCAGATGCATTTTCCCGCGCCAGGCAAAGAGGCTTGCATTGAGTTATTCACCTCCGGTTCCACCGGTCAACCGAAGCGAATTTGCAAACCGATCGGATCGCTCGACCGCGAGGCGGCGCTGTTATCCGCCTGCTATGCCGGGCGTCTGGCAGGCTGTCGGGTGGTGGCATCCGTAGCGCCGCAGCATCTGTATGGCCTGACGTTTCGACTGTTCTTGCCAATGGCGTTGGGTTTACCGCTTCACGCGGACATGCTGGAGTACACCGAGCAGTTAACGGCGTTAAGCCGGAAGCATCGCTATCTGTTTATTAGTAGTCCGGCCTTCCTCAAACGTCTCGACCACCGGCTTACCCCTCCGCCGATCGAAATGATCGTGTCCGCAGGCGGCAAGCTGCTTTGGCAGGATGCCGTGCAAACGGCCCGCTGGTGCAATACCTGGCCGGATGAAATTTACGGCAGTACGGAAAGCGGCGTCATCGCCTGCCGCCAGCGCGTGCAGGATGAGGTGCCATGGCAACCGTTTCCCGGCATCCGCTTTCAGCCAGAAGGTGATGCGTTCCGCCTTTTTTCTCCGCTTATTACCGATAACCGCGGCCAGCTGCTCGAGGATATTTTGCATTTTCGCGAGAGTGGCCACTTCCATTTGGCAGGCCGTCGGGATCGCGTGGTCAAAATTGAAGAGAAGCGCATATCGCTGAGCGAAGTGGAGCAGCGCCTGCTGGAACTTGAAGGCATCATTGATGCCGCCGTGTTACCCATCACCCGCGGCAGCCGTCAGAGTATTGGCGTATTGCTGGTGCTGGATAACCATGCCCGCCAGCGCTGGGGAAAAAGCCAGGAGACTCATTGGCGAAAAGCACTGCGCCCTCTGCTGGAACCGGTCGCCATTCCCCGCTACTGGCGGGTTATCGACGAGATCCCCGTCAATAGTATGAACAAGCGTGTCTACGCGCAGTTACAGGAGTTATTTCATGCAGCCCCATGA	MKQPLPLDQWLSAARSPETPIAWQDTHLWTLAHLRHDVAHLLTHLRQQPAMRWALCIENSYLFIVALLATLHAGKTPVLPGHGRISLLNEQKALFDGILSDKALAWDGALVIVESTMTVTSGQMHFPAPGKEACIELFTSGSTGQPKRICKPIGSLDREAALLSACYAGRLAGCRVVASVAPQHLYGLTFRLFLPMALGLPLHADMLEYTEQLTALSRKHRYLFISSPAFLKRLDHRLTPPPIEMIVSAGGKLLWQDAVQTARWCNTWPDEIYGSTESGVIACRQRVQDEVPWQPFPGIRFQPEGDAFRLFSPLITDNRGQLLEDILHFRESGHFHLAGRRDRVVKIEEKRISLSEVEQRLLELEGIIDAAVLPITRGSRQSIGVLLVLDNHARQRWGKSQETHWRKALRPLLEPVAIPRYWRVIDEIPVNSMNKRVYAQLQELFHAAP				NA	NA	NA	NA	NA
BMS020_03068	354			hypothetical protein	ATGCAGCCCCATGAAATTGAGCGCCGTCAGCCACAAGCCGATCGGGTTGAAATCATTTTATCGGTGGATCCGGCGTTATTCTGGTTTCGCGGCCACTTTGCCGTTCAGCCCTTGTTGCCAGGCGTCGCGCAGATTGACTGGGCGATGCATTACGCCACCACCTTGCTGGCGCCCGGTTGGCGCTTTCACGATATTCACAATGTGAAATTCCAGTCGCCGCTCCTGCCGGGGGCGATCGTGACGCTCACTCTTAGCTGGCAGGAGGCGCGTCAGCTCATCACCTTCAGCTATCAGCGCCACGATGGCGAAACACGACATACCGCCAGCAGCGGGAAGATTCGCTTATGTCGCTAA	MQPHEIERRQPQADRVEIILSVDPALFWFRGHFAVQPLLPGVAQIDWAMHYATTLLAPGWRFHDIHNVKFQSPLLPGAIVTLTLSWQEARQLITFSYQRHDGETRHTASSGKIRLCR				NA	NA	NA	NA	NA
BMS020_03069	1692			hypothetical protein	ATGTCGCTAACCTTTTCCCCCTGCGTGGTGATCCCGTGCTATAACCACGGCGCGATGATGTCGCGGGTGCTGGCGCGCCTGCAGCCGTTTGATCTTCCCTGTATCGTGGTGGACGACGGCAGCGACAGTCGCACACAGCTGGAGCTGGAGCGACTGGCGCTGGAAAACCCGGATCTGACGTTGATCCGCTTACCGCAGAACGCCGGAAAAGGCGCCGCGGTCATCTGCGGATTACAGGCCGCAGCGCAAGCCGGGTTCAGCCACGCGGTGCAGGTCGATGCCGATGGACAGCACGCCATCGAAGATATTCCGCAGCTGCTGGCGCTGGCGCAGAAGCATCCCGAGGCGCTGATCTCCGGCCAGCCGGTTTACGACGACTCAATCCCGCGCTCGCGCCTGTACGGACGCTGGATCACCCACGTCTGGGTATGGATTGAAACGCTATCGCTGCAGCTAAAAGACAGCATGTGCGGCTTTCGCGTCTATCCGCTGGCGCCGACGCTGCAGCTGGCTAAGCGCGTGCCCCTCGGCAAGCGGATGGATTTTGATACCGAAGTGATGGTGCGCCTCTACTGGCAGGGGAACACCAGCTACTTTGTCCCGACCCGCGTGACCTATCCGCCGGACGGTTTGTCACATTTCGATGCCCTCAGAGATAACTGCCGCATCTCGCTGATGCATACCCGACTGTTCCTCGGCATGTTGCCGCGGATCCCCTCGCTGCTGTTTCGCCGCGCTTCGCCGCACTGGGCGCGTCAGAAGGAGGTTAAAGGCTTATGGGGCATGCGCCTGATGCTGTTGGTGTGGCGGCTGTTGGGACGACACGCGTTTTCACTGGTGCTCTACCCGGTGGTCGGCGTCTACTGGCTAACGGCCAGCACCGCGCGCCGCGCTTCACAAAACTGGCTTACCCGCGTGCGCGACCAGTTAGCCGCTCGTCAGTTGCCGGAGCCGGGCGAACTCAGTAGCTATCGTCACTTCCTGCGCTTTGGCAACGCGATGCTGGATAAAATCGCCAGCTGGCGCGGCGAACTGCAGTTTGGTCGCGATGTGGTGTTTGCCGCAGGTGCCGAAGAGACGCTCAATATCGACGATCCGCGCGGCAAACTACTGCTGGCCTCACATCTCGGCGATGTTGAAGCCTGCCGTGCGCTGGCGCAGCTGCAGGGCAGCAAGACCATCAACGCGCTGGTGTTCAGCGACAATGCCCAACGCTTTAAGCAGATTATGGCGGAGATGGCCCCGCAGGCCGGACTCAACCTGCTGCCGGTCACCGATATCGGCCCGGAGACCGCCATGCTGCTGCAGGAAAAACTGGATCGCGGAGAATGGATCGCCATTGTCGGCGATCGTATTGCGGTCAATCCGCAGCGCGGCGGCGAGTGGCGCGTCTGCTGGAGCCGTTTTATGGGGCAACCGGCCCCCTTCCCGCAGGGGCCCTTTATCCTCGCGGCTATTTTGCGCTGCCCGGTCAATTTGATGTTCGCTCTGCGTCAGCAGGGCAAGCTGCGCATTTACTGTGAGCCGTTCGCTGACCCGCTGCCGCTGCCGCGCGCCAATCGCCAGCAGGCACTGCAACATATCATCGATCGCTACGCCGAACGGCTGGAATATTACGCGCTGCAGTCGCCGCTCGACTGGTTTAACTTTTTCGATTTCTGGCGTTTGCCGGAGCCCAAAGATAAGGAGTAA	MSLTFSPCVVIPCYNHGAMMSRVLARLQPFDLPCIVVDDGSDSRTQLELERLALENPDLTLIRLPQNAGKGAAVICGLQAAAQAGFSHAVQVDADGQHAIEDIPQLLALAQKHPEALISGQPVYDDSIPRSRLYGRWITHVWVWIETLSLQLKDSMCGFRVYPLAPTLQLAKRVPLGKRMDFDTEVMVRLYWQGNTSYFVPTRVTYPPDGLSHFDALRDNCRISLMHTRLFLGMLPRIPSLLFRRASPHWARQKEVKGLWGMRLMLLVWRLLGRHAFSLVLYPVVGVYWLTASTARRASQNWLTRVRDQLAARQLPEPGELSSYRHFLRFGNAMLDKIASWRGELQFGRDVVFAAGAEETLNIDDPRGKLLLASHLGDVEACRALAQLQGSKTINALVFSDNAQRFKQIMAEMAPQAGLNLLPVTDIGPETAMLLQEKLDRGEWIAIVGDRIAVNPQRGGEWRVCWSRFMGQPAPFPQGPFILAAILRCPVNLMFALRQQGKLRIYCEPFADPLPLPRANRQQALQHIIDRYAERLEYYALQSPLDWFNFFDFWRLPEPKDKE				NA	NA	NA	NA	NA
BMS020_03070	423			hypothetical protein	GTGCTTAACGATCCCCGTTTTACTGCTGAAGTAGAGCTAACCATTCCCTTTCACGACGTCGATATGATGGGCGTCGTCTGGCATGGCAACTATTTCCGCTACTTCGAAATTGCCCGCGAGGCGCTGCTTAACCAGTTCAACTACGGCTACCGGCAGATGAAAGCCTCCGGCTATCTGTGGCCGGTGGTGGATACCCGCGTGAAGTACCGGGACGTTATCACCTTCGAGCAGCGTATTCGCGTCCGCGCGCGTCTGGAAGAGTTCGAAAACCGCCTGCGCATTGGCTATGAAATTTTTGCCGCCGAGAGCGGCAAACGCACCACCACCGGCTACACCATCCAGGTCGCGGTGGACGAAAAAAGCGGCGAGATGTGTTTTGTCAGCCCGCAAGTTCTGTTTGAACGCATGGGGGTCACGCCATGA	MLNDPRFTAEVELTIPFHDVDMMGVVWHGNYFRYFEIAREALLNQFNYGYRQMKASGYLWPVVDTRVKYRDVITFEQRIRVRARLEEFENRLRIGYEIFAAESGKRTTTGYTIQVAVDEKSGEMCFVSPQVLFERMGVTP	PGPT0001850_5832	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
BMS020_03071	606	lolA_2		Outer-membrane lipoprotein carrier protein	ATGAGATTGCTGCTGTTGGTGGGACTGTTCATCAGTCCGTTGGTCAGCGCGCTGACGCTCGATGACCTGCAAAAACAATTTAGCGAACAGCCGGTGGTGCGCGCCCACTTCGATCAAACCCGCACCATAAAGGATCTTCCGCAGCCGCTGCGATCCCAGGGGCGGATGTTGATCGCCCGCGACCAGGGCTTGCTGTGGGATCAAACCTCACCGTTCCCGATGCAACTGCTGCTGGATGACAAACGGATGGTGCAGGCGATTAACGGCCAGCCGCCGCAGACCGTCACCGCCGAAAACAACCCGCAGATGTTCCAGTTCAACCATCTGCTGCGCGCGCTGTTCCAGGCCGATCGTAACGTGCTGGAGGAGAACTTCCGCGTGGAATTCGCCGATAAAGGCGACGGGCGATGGACGCTGCGCCTGACGCCTGTCACCACGCCGCTGGATAAGATTTTCGCCAGCATCGATCTCGCCGGAAAAACCTACCTGGAGCATATTCAACTCAACGATAAACAAGGCGATCGCACCGATATCGCCCTTTCCCAACATCAACTGACGCCAGCGCAACTGACCGATGACGAACGCCAACGCTTTGCCGCCCAGTAA	MRLLLLVGLFISPLVSALTLDDLQKQFSEQPVVRAHFDQTRTIKDLPQPLRSQGRMLIARDQGLLWDQTSPFPMQLLLDDKRMVQAINGQPPQTVTAENNPQMFQFNHLLRALFQADRNVLEENFRVEFADKGDGRWTLRLTPVTTPLDKIFASIDLAGKTYLEHIQLNDKQGDRTDIALSQHQLTPAQLTDDERQRFAAQ				NA	NA	NA	NA	NA
BMS020_03072	2319			hypothetical protein	ATGACGAACGCCAACGCTTTGCCGCCCAGTAAACGTCCTGCGCTGATCTGGGGCGTCGTCTGCCTGATACTGGCGGGCGCGCTGCTGGCGCTGTTGCCGCAGGCCCGGCTCAACAGCAGCGTGCTGGCGATGCTGCCCAAACAGACGCTCGGCGCGATCCCCCCGGCGCTGAACGACGGCTTTATGCAGCGTCTGGATCGCCAGCTGGTCTGGCTGGTCAGCCCCGGTAAACAGGCCGACCCGCAGGTGGCTCGCGACTGGCTGCGGTTGCTGCAAACCTCAGACGCGCTGGCCGAGGTCAAAGGCCCAATGGATGCCGCCAGTCAGCAGGCCTGGGGAACGTTTTTCTGGCAACATCGCAATGCGTTAATCGACCCCGCCACCCGCGCGCGTCTGCAGGAGGGCGGCGAAGCGCAGGCCCAGTGGATCCTTTCGCAGCTCTATTCGGCGTTTTCCGGGGTCAGCGGTAAAGAGTTACAAAACGACCCGCTGATGCTGATGCGCGGCTCACAGCTGGCGATGGCGAATAGCGGCCAGCGGATGCAGCTGCAGGACGGGTGGCTGACCAGCAAAGACGCGCAAGGAAACGTCTGGTATCTGCTGCACGGCGAGCTGGCGGGTTCGTCGTTCGATATGCGACAGACGCACCGCCTGGTGACCACCCTCGCGCAGCTTGAAAAGGAATTAAAAGCGCGCCACTCGCAGGCGCAGCTGCTGTCGCGCGGCACCGTATTTTACAGTGATTACGCCAGCCAGCAGGCGAAGCGCGATATCTCCACTCTCGGCGCGGCCACCCTGTTCGGCGTCATCCTGTTGATCGTGGCCGTGTTCCGCTCGCTGCGTCCGCTGCTGTTATGCGCGATCTCTATCGCTATCGGCGCACTGGCCGGCACCGTTGCCACGCTGCTGCTGTTTGGCGAGCTGCATCTGATGACCCTGGTGATGAGCATGAGCATTATTGGCATTTCCGCAGATTACACGCTCTATTACCTGACCGAACGGATGGTCCATGGCGCAGCGGCTTCACCGTGGCAAAGCCTTGTTAAAGTACGGAAAGCGCTGCTGCTGGCGCTGCTTACCACCGTGGCGGCTTATTTAATCATGATGCTGGCCCCCTTCCCGGCCATTCGCCAGATGGCGCTATTTGCGGCCGTGGGGCTAAGCGCCTCATGCCTGACGGTGATTTTCTGGCAGCCATGGCTGTGCCATGGGCTCCCGGTGCGTCCCGTTCCAGCGATGGTGCTGATGTCGCGCTGGCTCGCGGCATGGCGGCGTAACAAAAAACTCGCCATCGGTCTGCCGGTGGTTCTGGCCATTTTCTCCCTGACGGGGCTCGCTCTCCTGCGGGTGGATGACGATATCTCACAGCTGCAGGCGCTGCCGCAGAATATCCTCTCCCAGGAGCATGCCATCACCGCGCTCACTGGCCAAAGCGTCGATCAAAAGTGGTTCGTGGTTTACGGCGACACGGCGCAACAAACGCTGCAGCGGCTTGAAGCCTTTATGCCCGCACTGGCTAAAGCGCAAACCGACGGTATGCTTGGCGGGTATCGCGCCATTCCGCTCAATTCACTGGCCCGCCAGCAGCAGGATCTGGCCCTGCTGAAGCAGGCGGCGCCGGCCATCGGCCAGGCGCTGAATAACGCCGGACTCACCGCTGTTCACCCCGACCTGCGGCCGATGCCGGTGACAGTCGGCGACTGGCTTGCCAGTCCGGCCAGCGAAGGCTGGCGGCTGCTATGGCTGACGCTGCCGGATGGCGAAAGCGGCGTACTGGTGCCAGTGAGCGGGGTGAAAGAAAGCCCGGCGCTGAAGGCGCTCAGCACAACCCAGACTGGCGTGGCGTGGGTCGATCGTAAAAGCGATTTCGACCAGCTTTTCGCGCTCTACCGTCATATTTTAACCGGGCTGCTCGGCGTTGCGCTGGCGGTGATTGCCTGCGGCGCCGCTATCCGCCTTGGCTGGCGCAAGGGCTTAATAAGCCTGGTGCCGTCGGTATTGTCGCTGGGATGCGGCCTGGGGGCGTTGGCGCTCACCGGCCACGCCGTTAACCTGTTCTCCTTACTGGCGCTGGTGCTGGTACTTGGGATTGGCATCAACTACACCCTGTTTTTCAGCAACCCGCGCGGCACGCCGCTGACATCGCTGCTGGCGGTTACCCTGGCGATGATGACCACCTTATTAACGCTTGGCATGCTGGTGTTTAGCGCCACCCAGGCCATCAGCAGCTTTGGCACTGTCCTGGTCAGCGGTATTTTCACCGCTTTCCTGCTGTCGCCGCTGGCGATGCCGAGCAAAAAAGAGAAAAAAAGACGATGA	MTNANALPPSKRPALIWGVVCLILAGALLALLPQARLNSSVLAMLPKQTLGAIPPALNDGFMQRLDRQLVWLVSPGKQADPQVARDWLRLLQTSDALAEVKGPMDAASQQAWGTFFWQHRNALIDPATRARLQEGGEAQAQWILSQLYSAFSGVSGKELQNDPLMLMRGSQLAMANSGQRMQLQDGWLTSKDAQGNVWYLLHGELAGSSFDMRQTHRLVTTLAQLEKELKARHSQAQLLSRGTVFYSDYASQQAKRDISTLGAATLFGVILLIVAVFRSLRPLLLCAISIAIGALAGTVATLLLFGELHLMTLVMSMSIIGISADYTLYYLTERMVHGAAASPWQSLVKVRKALLLALLTTVAAYLIMMLAPFPAIRQMALFAAVGLSASCLTVIFWQPWLCHGLPVRPVPAMVLMSRWLAAWRRNKKLAIGLPVVLAIFSLTGLALLRVDDDISQLQALPQNILSQEHAITALTGQSVDQKWFVVYGDTAQQTLQRLEAFMPALAKAQTDGMLGGYRAIPLNSLARQQQDLALLKQAAPAIGQALNNAGLTAVHPDLRPMPVTVGDWLASPASEGWRLLWLTLPDGESGVLVPVSGVKESPALKALSTTQTGVAWVDRKSDFDQLFALYRHILTGLLGVALAVIACGAAIRLGWRKGLISLVPSVLSLGCGLGALALTGHAVNLFSLLALVLVLGIGINYTLFFSNPRGTPLTSLLAVTLAMMTTLLTLGMLVFSATQAISSFGTVLVSGIFTAFLLSPLAMPSKKEKKRR				NA	NA	NA	NA	NA
BMS020_03073	585			hypothetical protein	ATGAGAAGACCATCATTCTGGCGCGCCTTCGCGCTCTTCGCCGCCTTATTGCTGGCCGGCTGCAGTCATTCGCCGCCGGAGCCGCAAGGCCGTCCGCAGGCGTGGCTGGAACCGGGTACGCGCGTCACGTTGCCGCCGCCGGGCATCTCGCCGGCCATCAGTTCCCAGCAGTTATTGACCGGCCGCTTCAACGGCCAAACCCAGTCGCTGCTGGTGCTGCTCAATGCCGATGATAAAAAGCTCACGCTGGCGGGCCTGTCGTCCGTCGGTATCCGCCTGTTCTTGGTGACCTATGATCAACAAGGGCTGCGCGCGGAACAGTCGATGGTGATCCCGCAACTGCCGCCCGCCAGCCAGGTGCTGGCCGATGTGATGCTCAGCCACTGGCCGCTTAGCGCATGGCTGCCGCAGCTGCCGAAAGGCTGGACGCTAACCGACCGCGGCGACAAACGCGAACTGCGTAACGCGCGCGGAAAACTGGTCACCGACATCACCTATATCAACCGCAAAGGCAAGCGCGTGCCGATTAGCATCGAGCAGCACGTCTTTAAATACCACATCACCATTCAATACCTGGGTGACTGA	MRRPSFWRAFALFAALLLAGCSHSPPEPQGRPQAWLEPGTRVTLPPPGISPAISSQQLLTGRFNGQTQSLLVLLNADDKKLTLAGLSSVGIRLFLVTYDQQGLRAEQSMVIPQLPPASQVLADVMLSHWPLSAWLPQLPKGWTLTDRGDKRELRNARGKLVTDITYINRKGKRVPISIEQHVFKYHITIQYLGD	PGPT0013310_10	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0013310-fabB-K00647	NA	NA
BMS020_03074	1170	fabF_3	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGATCTTCATTTCTGCTGTCGGCATGATTAACGCCCTGGGACGCGATAATGATGAAATCGCCGCCAATCTGGCCCGCGGTATAGCGCCCGGCATGCGCCCGCGTGAAGGGTGGTTACAGGGGCATCCGCAGGCGATTTTCGCGGGGGTGGACGGCGAACTACCCGCCATTCCCGATACCTTTCGCGACCATCGTTCGCGCAATAATCAGCTGCTGCTGGCGGCGCTGGCGCAGATCCAGCCGCAGGTGGATCGCGCCATCGCCCGCTATGGCCGGGCTCGGGTCGCCGTGGTGTTGGGCACCAGTACGTCAGGGCTGGATGAAGGCGACGTACACGTTAATTTGACGCTTAACGGCAAGGCGAGCGAGGCCTGGCGCTATCCACAGCAGGAGCTGGGCGACCCGTCGCGTTTTCTCAGCCGCTGGCTGGCGCTGGATGGTCCGGCATATACCCTGTCAACCGCCTGCTCCTCCAGCGCGCGGGCGATAATCAGCGGACGGCGGCTCATTGAGGCGGGGCTGGCGGATGTGGCAATCGTCGGCGGCGCGGATACCCTTAGCCGGATGCCCATCAACGGCTTTCACAGCCTGGAGTCGCTCTCCACGACGCAGTGCCAGCCGTTTAGCCGCGACCGCTGCGGGATCACCATCGGCGAAGGGGCGGCGCTGATGCTGCTGACCCGCGAGCCGCAGCCCATCGCGCTGCTGGGTATCGGCGAATCCAGCGACGCCTGGCATATTTCCGCCCCGCACCCCCAAGGAGAAGGGGCGATGCGCGCCATTCAGCAGGCGCTGGACGACGCGGGCATCACGCCGGAACAGGTGGGTTACATTAACCTGCACGGCACCGCTACGCGGCTTAACGACCAGATAGAAGCCCGGGTGATCAACGCGCTGTTTGGCGAAAGGGTGCCCTGTAGTTCCACCAAACATCTGACCGGACATACGCTGGGTGCGGCGGGGATCACCGAGGCCGCCATCGGCATGCTGATCCTGCAACGCAATCTGTTGTTACCGGCACAGGATTTCAGTCAGTCTCCGCAGGATGACACGCTACCGCCGTGCGGGCTCATTGAACATCCGCAGCCGCTGTCGCGGCCAGTTATCCTGTCGAACTCTTTTGCCTTTGGCGGCAATAACACCAGCATCCTGCTCGGGAGAATGTCATGA	MIFISAVGMINALGRDNDEIAANLARGIAPGMRPREGWLQGHPQAIFAGVDGELPAIPDTFRDHRSRNNQLLLAALAQIQPQVDRAIARYGRARVAVVLGTSTSGLDEGDVHVNLTLNGKASEAWRYPQQELGDPSRFLSRWLALDGPAYTLSTACSSSARAIISGRRLIEAGLADVAIVGGADTLSRMPINGFHSLESLSTTQCQPFSRDRCGITIGEGAALMLLTREPQPIALLGIGESSDAWHISAPHPQGEGAMRAIQQALDDAGITPEQVGYINLHGTATRLNDQIEARVINALFGERVPCSSTKHLTGHTLGAAGITEAAIGMLILQRNLLLPAQDFSQSPQDDTLPPCGLIEHPQPLSRPVILSNSFAFGGNNTSILLGRMS	PGPT0013310_2336	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0013310-fabB-K00647	NA	NA
BMS020_03075	477			hypothetical protein	ATGAGCCACTTTTTATCACCCGGCAGTTACCTGCCGCACGACGCGCCGATGCTGCTGCTGGAAGAGGTCGAGGCGGTGACTGCCGACACCGCCACCTGCCGCGTCGCGGTCTCACCCGGCAGCGTTCTGGCGCCATTTCTCGATACCAACGGCGATCTTCCCGGCTGGTTCGCCCTTGAATTAATGGCGCAGACCGTCGGCGTCTGGTCCGGCTGGCACCGCCAGCAGCAAGGACAAACATCGCTCGCTTTAGGCATGGTGCTGGGCGCGCGCGAACTGGTTTGCGCGGCCGGGAGCCTGCCGGGCGGAAAGACGCTGTCCATCAGCGTGAAGCTCTTGATGCAGGATGAGCGTTTCGGCAGCTTCGAAGGCACCATTATGGTGGATGATGACGTCCTGGCCAGCGGGCGGGTCAACACCTTCCAGCCCACAACAGAAGAACTTAGCACTTTATTTCAACAAGGAGCGTCAGAATGA	MSHFLSPGSYLPHDAPMLLLEEVEAVTADTATCRVAVSPGSVLAPFLDTNGDLPGWFALELMAQTVGVWSGWHRQQQGQTSLALGMVLGARELVCAAGSLPGGKTLSISVKLLMQDERFGSFEGTIMVDDDVLASGRVNTFQPTTEELSTLFQQGASE				NA	NA	NA	NA	NA
BMS020_03076	732	fabG_6		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAGTCGTTCAGTTTTGGTTACCGGCGCCAGCAAAGGCATCGGTCGCGCTATCGCCTGCCAGCTGGCAGCGGACGGTTTTGTGGTGGGCGTCCACTTTCATCGCGACCGCGCGGGGGCGCAACAGACGCTGGAGGCGATAACCGCCGCCGGCGGCGACGGCCGGCTACTGAGTTTTGACGTCGCCGATCGTCAGCAATGCCGCGAGGTACTGGAGCAGGATATGGCCGACCATGGCGCATGGTATGGCATTGTCAGCAACGCCGGCATCGCCCGCGACGGCGCCTTCCCGGCGCTTGGCGATGACGACTGGGACGCCGTGATCCACACCAACCTCGACAGTTTTTATAACGTCATTCATCCCTGCATCATGCCGATGATTAGCGCGCGCCAGGGCGGACGTATCATCACCCTCTCCTCGGTTTCCGGCGTCATGGGCAACCGCGGCCAGGTCAACTACAGCGCCGCCAAGGCGGGCATTATCGGCGCCACCAAAGCGCTGGCGATAGAACTGGCAAAACGCAAAATCACCGTTAACTGTATTGCGCCGGGTCTTATCGACACCGGGATGATTGACATGGAAGAGCGCGCGCTGCAAGAGGCGATGACCATGATCCCGATGAAACGCATGGGTCAGGCCGACGAGGTGGCCGGGCTTGCCAGCTATTTAATGTCGGATATCGCGGGCTACGTCACCCGCCAGGTCATTTCCATCAACGGGGGGATGCTATGA	MSRSVLVTGASKGIGRAIACQLAADGFVVGVHFHRDRAGAQQTLEAITAAGGDGRLLSFDVADRQQCREVLEQDMADHGAWYGIVSNAGIARDGAFPALGDDDWDAVIHTNLDSFYNVIHPCIMPMISARQGGRIITLSSVSGVMGNRGQVNYSAAKAGIIGATKALAIELAKRKITVNCIAPGLIDTGMIDMEERALQEAMTMIPMKRMGQADEVAGLASYLMSDIAGYVTRQVISINGGML	PGPT0003180_19593	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
BMS020_03077	1230	fabF_4		3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGATACGCCGGGTGGTCATTACAGGGATGGGCGGGGTGACCGCGTTTGGCGAAAACTGGCAGGATGTCGCCACCAGGCTGCGGGAATATAAAAATGCGGTGCGTAAGATGCCGGAATGGCTGGCGTATGATGGACTGCATACGCTGCTGGGGGCGCCAATCGACGATTTCACCCTGCCGGAGCATTATACCCGCAAGCGTATCCGCGCGATGGGGCGGGTATCGCGACTCTCCACCCGCGCCACTGAGCTCGCGCTGGAGCAGGCCGGGCTTATCGGCGACACCGTGCTGACCAACGGCCAAACCGGCATCGCTTACGGCTCGTCAACCGGTAGTACCGGTCCGGTGAGCGAGTTCGCCACCATGTTGACGGAGAAACATACCAACAATATCACCGGCACTACCTATGTGCAGATGATGCCGCATACTACCGCGGTGAATACCGGATTATTCTTCGGTCTGCGGGGGCGCGTGATCCCCACCTCCAGCGCCTGCACCTCCGGCAGCCAGGCAATTGGCTACGCCTGGGAAGCCATTCGCCATGGTTACCAAACGGTGATGGTGGCCGGCGGTGCCGAGGAGCTCTGCCCTTCGGAAGCCGCGGTATTCGATACTCTCTTCGCCACCAGCCAACGCAATGACGAACCGGCCCTCACCCCCTCTCCGTTCGATGAACAGCGAGATGGTCTGGTGATTGGCGAAGGCGCCGGCACGCTGATCCTTGAAGATCTCGAGCATGCCAAAGCGCGCGGCGCAACCATCTACGGTGAAATCGTCGGGTTCGCCACTAACTGCGATGCGGCCCATATTACCCAGCCGCAGCGCGAAACCATGCAGATCTGCATGGAACAATCGCTAAACATGGCGGGCTTAAGCCCCCGGGATATCGGCTATATTTCGGCCCACGGCACCGCCACCGATCGCGGCGATATCGCGGAAAGCCAGGCAACGGCGGCCGTTTACGGCGACAGCGTGCCGATCTCTTCGCTGAAAAGCTATTTCGGCCATACGCTTGGCGCTTGCGGGGCGTTAGAAGCGTGGATGAGCCTGCAGATGATGCGCGAAGGCTGGTTTACGCCAACGCTGAATCTCCATAAACCGGACGCCAACTGTGGCGAACTGGATTACATCATGGGGGAAAAGCGCAAACTGGAGTGTGAATTCCTGCAGAGCAACAACTTCGCCTTCGGCGGCATTAACACCTCAATCATTATTCGACGCTGGCCTTGA	MIRRVVITGMGGVTAFGENWQDVATRLREYKNAVRKMPEWLAYDGLHTLLGAPIDDFTLPEHYTRKRIRAMGRVSRLSTRATELALEQAGLIGDTVLTNGQTGIAYGSSTGSTGPVSEFATMLTEKHTNNITGTTYVQMMPHTTAVNTGLFFGLRGRVIPTSSACTSGSQAIGYAWEAIRHGYQTVMVAGGAEELCPSEAAVFDTLFATSQRNDEPALTPSPFDEQRDGLVIGEGAGTLILEDLEHAKARGATIYGEIVGFATNCDAAHITQPQRETMQICMEQSLNMAGLSPRDIGYISAHGTATDRGDIAESQATAAVYGDSVPISSLKSYFGHTLGACGALEAWMSLQMMREGWFTPTLNLHKPDANCGELDYIMGEKRKLECEFLQSNNFAFGGINTSIIIRRWP	PGPT0008360_7119	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
BMS020_03078	588			hypothetical protein	ATGTATCAGCTTTTTCTGGGTAAGATCTCCGCCCTTAGCGCCCTGCCGTTACCGCCTGCGTTGATGGCGCAGGCGCCGAACGGACCGCGACGAGCCAGCTGGCTTGCCGGCCGCGCGCTGCTGGCGCAGGCGGCTGCCCCGCTGACGGATATTCAGCTTGGCGAACAGGGCAAGCCTGCCTTCCCCGCCGCGCGCGGGCTGTGGTTTAACCTTAGCCACAGCGGCGACGATATTGCCCTGCTGCTCAGCGATAAAGGCGAGGTGGGTTGCGACATCGAAGTGATTCGCCCGCGCGAAGGCTGGCGCCGCCTGGCTAACGCCCTGTTCAGCGAAAGCGAGCACCAGGAACTGGCGCAGGCTTCGCCGGCGCAGCAGCTCACGGTCTTCTGGCGTATCTGGACGCGCAAAGAGGCGCTGGTGAAACAGCGCGGCGGCAGCGCCTGGCAGATGGCCTCCGTTGACAGCGCCTGTCACGGCCCGCTGTCGCTCAGCCAGATTCTGCACGATGGGTTAAGTATTGCGGTCTGTACGCCGACGCCGTTCACGCTGACGGACGCGCGCATTCAACATTTCAGCGGCGCGGTTTAA	MYQLFLGKISALSALPLPPALMAQAPNGPRRASWLAGRALLAQAAAPLTDIQLGEQGKPAFPAARGLWFNLSHSGDDIALLLSDKGEVGCDIEVIRPREGWRRLANALFSESEHQELAQASPAQQLTVFWRIWTRKEALVKQRGGSAWQMASVDSACHGPLSLSQILHDGLSIAVCTPTPFTLTDARIQHFSGAV	PGPT0008845_3006	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
BMS020_03079	1050	yhhT_1	COG0628	Putative transport protein YhhT	ATGTCCCCTCCGCAGGCTGATAAAGCCGGGCTCCATATTTTACTTAAGCTGGCAGCGCTGGTGATTATCCTCGCCGGGATCCACGCCGCCGCCGATATTCTGGTGCAGCTCCTGCTGGCGCTGTTTTTCGCTATCGTCCTCAACCCGCTGGTCACCTGGTTCATTCGCCGCGGGGTGCGGCGCCCGTTCGCCATTACGCTGGTGGTGACGGCAATGCTGGTCATGCTGACCGCGCTGCTTGGCGTGCTGGCGGCGTCGCTCAATGACTTTGTCGCCATGCTGCCCGATTTCAACCGCGCCCTGACGCGTAAGATCGTCCAGCTCCAGGAGTATCTCCCCTTTCTCAACCTGCATATCAATCCGGAGCGCATGCTGCGACGTATGGATTCAGAACGGCTGATGACCTGGGCCACGACGCTAATGACCCAGCTTTCCGGGGCGATGGCCAGCATTGTGCTGCTGGTGATGACGGTGATCTTTATGCTGTTTGAGGTTCGCCACCTGCCCTACAAACTGCGTTTTGCCCTCAATAACCCTCGCCTGCATATCGCCGGGCTGCACCGGGCGCTGAAAGGCGTCACCCACTATCTGGCGCTGAAAACGCTGATCAGCCTGTGGACCGGCCTGATTGTCTGGCTGGGGCTGCTGGCGATGGGGGTGCAGTTCGCGCTGATGTGGGGGGTGCTGGCGTTCCTGTTGAACTATGTGCCGAATATCGGATCCGCCATCTCCGCCATCCCGCCTATGCTGCAGGCGCTGCTGTTCAGCGGCATCTATGAGTGCCTGCTGGTCGGGGCGCTGTTTCTGGTGGTGCATATGGTGTTGGGCAACATGGTGGAGCCGCGCATGATGGGCCACCGGCTGGGGATGTCGACCCTGGTGGTGTTCCTGTCGCTGCTGGTCTGGGGCTGGCTGCTGGGGCCGGTGGGAATGCTGCTCTCGGTGCCGTTAACCAGCGTCTGTAAAATCTGGATGGAGACCACCGTCGGGGGCAGCAAGCTGGCGATCCTGCTCGGCCCGGGGCGCCCCAAAAGCCGGCTCCCCGGCTAG	MSPPQADKAGLHILLKLAALVIILAGIHAAADILVQLLLALFFAIVLNPLVTWFIRRGVRRPFAITLVVTAMLVMLTALLGVLAASLNDFVAMLPDFNRALTRKIVQLQEYLPFLNLHINPERMLRRMDSERLMTWATTLMTQLSGAMASIVLLVMTVIFMLFEVRHLPYKLRFALNNPRLHIAGLHRALKGVTHYLALKTLISLWTGLIVWLGLLAMGVQFALMWGVLAFLLNYVPNIGSAISAIPPMLQALLFSGIYECLLVGALFLVVHMVLGNMVEPRMMGHRLGMSTLVVFLSLLVWGWLLGPVGMLLSVPLTSVCKIWMETTVGGSKLAILLGPGRPKSRLPG	PGPT0025496_455	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-BF-RELATED-AI-2_TRANSPORT,PGPT0025496-tqsA|ydgG-K11744	NA	NA
BMS020_03080	381	arnF	COG0697	putative 4-amino-4-deoxy-L-arabinose-phosphoundecaprenol flippase subunit ArnF	ATGGGCTTCCTCTGGGCATTATTCAGCGTCGGCCTCGTCAGCGGCGCGCAGCTGCTGCTGCGCAGCGCCATGGTGGTGTTGCCGCCGCTGACCGATATTCTGGCGTTTCTCCAGCATCTGCTGCATCTCCAGCCCGGCACCTTCGGCCTGTTTTTCGGCCTGCTGGGCTACCTGCTGTCGATGGTCTGCTGGTACTTTGCCCTCCACCGTCTGCCGCTGTCGAAAGCGTATGCGCTGCTGAGCCTGAGCTATATCCTCGTTTGGGCCGCCGCCATCTGGCTGCCCGGCTGGCATGAGCCGTTCCACTGGCAATCGCTTCTGGGCGTGGCGATTATCGTCGCCGGCGTATTGACCATCTTCTGGCCGGTGAAACGCCGCTAG	MGFLWALFSVGLVSGAQLLLRSAMVVLPPLTDILAFLQHLLHLQPGTFGLFFGLLGYLLSMVCWYFALHRLPLSKAYALLSLSYILVWAAAIWLPGWHEPFHWQSLLGVAIIVAGVLTIFWPVKRR	PGPT0022830_276	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_L_Ara4N_MODIFICATION,PGPT0022830-arnF-K12963	NA	NA
BMS020_03081	339	arnE	COG0697	putative 4-amino-4-deoxy-L-arabinose-phosphoundecaprenol flippase subunit ArnE	ATGAGCGTCTGGATCTGTCTGGTGTTCGCCAGCCTGCTGAGCTGCGCCGGACAGCTGTGCCAGAAACAGGCGACCCGCCCGTCCCGTCGCGGACGGCGGAGTCGTCATATACTTTTCTGGCTGGGGATGGCGCTGTTATGCCTCGGCTGCGGCATGCTGCTGTGGCTGAGCGTCCTGCAGTCAATTCCGGTGAGCATCGCCTATCCGATGCTGAGTCTGAACTTCGTCTGGGTCACCCTCGCGGGCTGGGGCATCTGGCATGAGCCGGTCGCTCCCCGCCACTGGTTTGGCGTCGGGTTGATCGTCGTGGGCATTGTCATTCTGGGGACCAGCGTCTGA	MSVWICLVFASLLSCAGQLCQKQATRPSRRGRRSRHILFWLGMALLCLGCGMLLWLSVLQSIPVSIAYPMLSLNFVWVTLAGWGIWHEPVAPRHWFGVGLIVVGIVILGTSV	PGPT0022825_166	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_L_Ara4N_MODIFICATION,PGPT0022825-arnE-K12962	NA	NA
BMS020_03082	1656	arnT_1	COG1807	Undecaprenyl phosphate-alpha-4-amino-4-deoxy-L-arabinose arabinosyl transferase	ATGAAAAGCATTCGCTATGGCGTCTCTCTGATTGCGCTGTTTGCGCTGTATTACCTGCTGCCGCTTAATTTCCGTTTGCTCTGGCAACCCGATGAAACCCGCTACGCGGAGATCAGCCGTGAAATGCTGGCCACCGGCGACTGGGTGGTGCCGCATTTTCTCGGATTGCGCTATTTCGAAAAGCCGATTGCCGGTTACTGGATCAACAGTATCGGTCAATGGCTGTTTGGCCATAATAACTTCGGCGTACGCTTTGGGTCGGTCTTCGCCATCACCATGACCGCCGTGCTGGTGGCCTGGCTGGCGTGGCGCGTCTTTCGCGACAAAAAGGTAGCTGTCCTGTCGCCGGTGATTTTTCTCACCGCGATGCTGGTGTATGCGATTGGCACCTATGCGGTGCTGGACCCGATGATCACCCTGTGGCTGGCGCTGGCGATGTGCAGTTTCTGGGGCGCGACGCAGGCGCAGAGCCGCAGCGGCAAAATACTGGGTTACGCGCTGCTGGGCGTCGCCTGCGGTATGGGGGTGATGACCAAAGGCTTCCTTGCGCTGGCGGTGCCGGTAGTGGGCGTTCTGCCGTGGGTGATCGCCCGTCGACGCTGGCGTGAAGTGCTGACCTACGGTTGGCTGGCGGTGGTCGTCTGTACGCTGGTGGTGCTGCCCTGGGGGCTGGCTATCGCCCAGCGCGAGCCGGACTTCTGGCGCTACTTCTTCTGGGTCGAGCATATTCAGCGTTTCGCCGAAAAAGACGCCCAGCACAAAGCGCCGTTCTGGTACTACATCCCGTTCCTGATCGCCGGCAGCCTGCCGTGGCTGGCCCTGCTGCCGGGGGCGCTGAAGCGCGGTTGGCTTGAGCGCGATGAGGCCCGCGGCGCGCTGTATCTGTTAGGCTGGGTGGCGATGCCGCTCCTGTTCTTCAGTATCGCCAAAGGCAAACTGCCGACCTATATTCTGCCGTGCTTTGCGCCGCTGTCGATCCTGATGGCGCGCTACGCGCTGGAGGCGGCGAAGACCGGCGCGAAAGCGTTACGGGTCAACGGGATGATCAACCTGGGCGTCGGCCTGCTGGGGCTGATCGCCGTGCTGGTGGTCTCGCCCTGGGGCGTGATGCACAAGCCGGTGTGGACCAAGATTGAGCTGTATAAATGCCTGCTGGCGGCCATCGCCTTCGCCGTCTGGGCGCTGATGGGCTGGCTGGCGATGAAAGACGCTGGCCGCCGCTGGAGCCTGGCGGCGCTTTGCCCGCTCGGCCTGGCGCTGCTGGTGGGCTTCGCCATCCCGGACCGGGTTATCGACAGCAAACAGCCGCAGTTCCTCGTGGATATCGTCAGCGAATCCCTGCAGCCCAGCCGCTACGTCCTGACCAACAACGTCGGGATCGCCGGCGGCCTGGCCTGGGAGCTGAAGCGAAGCGATATTATTATGTTCGACAAACAGGGTGAGCTGAAGTACGGTCTCGACTGGCCGGACGCTCAGGGAAGCTTTGTCAGCCAGGCCGGGTTTGCCGACTGGCTGGCCGCGCATCGTCAGCAGGGGCCGGTCTCGCTGGTGCTGTTGATGGATAAAGGAGAGAGTATGCTCGACTTACCGTTACCGAAACCCGATAACGCTTACGAGCTGGGGCGGGTCGTTTTCCTTCAGTATCTGCCGCAATGA	MKSIRYGVSLIALFALYYLLPLNFRLLWQPDETRYAEISREMLATGDWVVPHFLGLRYFEKPIAGYWINSIGQWLFGHNNFGVRFGSVFAITMTAVLVAWLAWRVFRDKKVAVLSPVIFLTAMLVYAIGTYAVLDPMITLWLALAMCSFWGATQAQSRSGKILGYALLGVACGMGVMTKGFLALAVPVVGVLPWVIARRRWREVLTYGWLAVVVCTLVVLPWGLAIAQREPDFWRYFFWVEHIQRFAEKDAQHKAPFWYYIPFLIAGSLPWLALLPGALKRGWLERDEARGALYLLGWVAMPLLFFSIAKGKLPTYILPCFAPLSILMARYALEAAKTGAKALRVNGMINLGVGLLGLIAVLVVSPWGVMHKPVWTKIELYKCLLAAIAFAVWALMGWLAMKDAGRRWSLAALCPLGLALLVGFAIPDRVIDSKQPQFLVDIVSESLQPSRYVLTNNVGIAGGLAWELKRSDIIMFDKQGELKYGLDWPDAQGSFVSQAGFADWLAAHRQQGPVSLVLLMDKGESMLDLPLPKPDNAYELGRVVFLQYLPQ	PGPT0022425_220	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0022425-arnT|pmrK-K07264	NA	NA
BMS020_03083	903	arnD	COG0726	putative 4-deoxy-4-formamido-L-arabinose-phosphoundecaprenol deformylase ArnD	ATGAAACAGGTCGGCTTACGCATAGATGTCGATACCTTTCGCGGCACGCGGGACGGCGTTCCGCGGCTGCTGGACCTGCTGGGTCAGCACGGGATCCAGGCAAGCTTCTTCTTCAGCGTCGGGCCGGACAATATGGGGCGCCACCTGTGGCGCCTGGTAAAACCGAAGTTTCTGTGGAAGATGCTGCGCTCCAGAGCGGCCTCGCTGTACGGCTGGGATATTCTGCTGGCCGGCACCGCGTGGCCGGGACGCCGCATCGGCGCGGGGAACGAGGCGGTGATCCGCGCCGCCGCCGAGTCTCATGAAGTGGGCCTGCACGCCTGGGACCACTACAGCTGGCAGGCGTGGAGCGGCGTCTGGCCGCAGGAACGGCTGACGCTGGAGGTTGAGCGCGGCCTGCTGGAGCTCGAACGCATTATCGGCCGGCCGGTCACCTGCTCGGCTGTCGCCGGCTGGCGCGCCGATCAGCGAGTGGTGAAAGCCAAAGAATCCTTCGATTTCCTCTACAACAGCGACTGTCGCGGCACGCGGCCGTTTCTGCCCCAGCTCGGCAGCGGTGTCTCCGGTACGGTGCAGATCCCGGTCACGCTGCCGACCTGGGACGAGGCGGTGGGCACGGCGGTGGAAATCGCCGGCTTTAACCGCTATCTCCTCGACTGCATCCATCGCGACCCGGGCGTGCCGGTCTATACCATTCACGCCGAAGTGGAAGGCATTGCCTACGCGGATCAGTTCAATGAACTGCTGACCATGGCGGCGGAAGAAGAAATTCAGTTTTGCCCACTGAGCCAGCTGTTGCCCGCTGACTTTAGCGAGCTGCCGTCTGGCAAAGTGGTTCGGGGTGAACTGGCTGGCCGGGAAGGCTGGCTCGGACGTGAACAATTACTGACTTCGGGTGTTTGA	MKQVGLRIDVDTFRGTRDGVPRLLDLLGQHGIQASFFFSVGPDNMGRHLWRLVKPKFLWKMLRSRAASLYGWDILLAGTAWPGRRIGAGNEAVIRAAAESHEVGLHAWDHYSWQAWSGVWPQERLTLEVERGLLELERIIGRPVTCSAVAGWRADQRVVKAKESFDFLYNSDCRGTRPFLPQLGSGVSGTVQIPVTLPTWDEAVGTAVEIAGFNRYLLDCIHRDPGVPVYTIHAEVEGIAYADQFNELLTMAAEEEIQFCPLSQLLPADFSELPSGKVVRGELAGREGWLGREQLLTSGV	PGPT0022820_183	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_L_Ara4N_MODIFICATION,PGPT0022820-arnD-K13014	NA	NA
BMS020_03084	1986	arnA	COG0223	Bifunctional polymyxin resistance protein ArnA	ATGAAAGCCGTAGTCTTCGCTTATCACGATATGGGCTGCACCGGTATCCAGGCTCTGCTGGACGCCGGGTATGATATCGCTGCTATTTTCACCCACCCGGATAACCCTGGCGAAAACCATTTCTTTGGCTCCGTGGCGCGCCTTGCTGCCGAGCAGGGCATTCCGGTGTGGGCGCCGGAAGACGTGAACCATCCGTTGTGGATTGAGCGTATCCGCGAGATGAAGCCGGACGTGCTGTTCTCCTTCTACTACCGCAATCTGCTGGGCGATGAGATCCTCCGTCTCGCGCCGAAAGGGGCGTTTAACCTGCACGGTTCGCTGCTGCCGAAATATCGCGGCCGCGCGCCGCTGAACTGGGTGCTGGTCAATGGCGAAAGCGAAACCGGCGTCACCCTGCACCGAATGGTGAACCGCGCCGACGCGGGCGATATCGTCGCCCAGCAGGCCGTGGCGATTGGCCCGGATGACGCCGCCCTGACGCTGCACCGCAAGCTGTGCGCCGCCGCCACCGGGCTGCTGGGCCAGGCGCTGCCGGCGATCCTCGCCGGAACCACCGATGAACGTCCGCAGGATCACAGCCAGGCGACCTATGTGGGGCGTCGTACCCCGGAAGATGGCCGCCTCGACTGGGAGCAGCCGGCGCAGACCCTGCACAATCTGGTGCGCGCGGTCTCCGATCCGTGGCCGGGCGCCTTCGGCTACGCCGGCGCGAACAAGTTTATCGTCTGGAAATCCCGCGTCCGTCATGATCTGCCGGCAGCCAAACCGGGTACCGTTATCTCCGTTGCGCCGCTGATCGTGGCGTGCCAGGAGGGGGCGCTGGAGATTGTCACCGGCCAGACCGAACGCGGGGTGTACATGCAGGGCGCCCAGCTGGCGCAGGGGCTGGGCCTGGTGTCCGGGGCGGTGATCAGCAGCAAACCGGTGGTGGCGGTTAAGCGTCGCACCCGGGTGCTGATCCTCGGCGTCAATGGCTTTATCGGTAACCATCTGACCGAACGCCTGCTGCAGGACGACAACTATGAGATTTACGGCCTGGATATCGGCTCCGACGCCATCAGCCGTTTCCTCGACTGCCCGCGTTTCCACTTTGTGGAAGGCGATATCAGCATTCACTCCGAGTGGATCGAATATCACATTAAGAAATGTGACGTGGTGCTGCCGCTGGTGGCCATCGCCACCCCTATCGAGTACACCCGCAACCCGCTGCGCGTCTTCGAGCTGGATTTCGAAGAGAACCTGAAGATCATCCGCGACTGCGTGAAATACAATAAGCGCATCATCTTCCCGTCGACCTCGGAAGTGTACGGCATGTGCACTGATAAAAACTTCGACGAAGACACTTCCAATCTGGTGGTCGGGCCGATCAACAAACAGCGCTGGATCTACTCGGTCTCCAAGCAGCTGCTGGACCGCGTGATCTGGGCCTACGGCGATAAGAATGGCCTGAAGTTCACCCTGTTCCGTCCGTTCAACTGGATGGGGCCGCGTCTGGATAACCTCAACGCCGCGCGTATCGGCAGCTCCCGCGCCATCACCCAGCTGATCCTCAACCTGGTGGAAGGCTCGCCGATCAAGCTCATCGAAGGCGGTAAGCAGAAGCGCTGCTTCACCGACATCAGCGATGGTATCGAAGCGCTGTTCCGCATCATCGAGAACAAAGACGGCCGCTGCGACGGGCAGATCATCAACATCGGTAACCCGGATAACGAAGCAAGCATCAAAGAGCTGGCGGAGATGCTGCTGGCCTGCTTCGAACGCCATCCGCTGCGCGATCGCTTCCCGCCGTTTGCCGGCTTCCGCGAAGTGGAAAGCAGCGACTACTACGGCAAGGGCTATCAGGACGTTGAGCATCGCAAACCGAGCATCCGCAACGCCAAACGCTGCCTGAACTGGGAGCCGAAGGTGGAGATGGAAGAGACCGTTGAGCATACGCTGGACTTCTTCCTGCGCACGGTTGAACTGGTGGACGCTAAACATCCATGA	MKAVVFAYHDMGCTGIQALLDAGYDIAAIFTHPDNPGENHFFGSVARLAAEQGIPVWAPEDVNHPLWIERIREMKPDVLFSFYYRNLLGDEILRLAPKGAFNLHGSLLPKYRGRAPLNWVLVNGESETGVTLHRMVNRADAGDIVAQQAVAIGPDDAALTLHRKLCAAATGLLGQALPAILAGTTDERPQDHSQATYVGRRTPEDGRLDWEQPAQTLHNLVRAVSDPWPGAFGYAGANKFIVWKSRVRHDLPAAKPGTVISVAPLIVACQEGALEIVTGQTERGVYMQGAQLAQGLGLVSGAVISSKPVVAVKRRTRVLILGVNGFIGNHLTERLLQDDNYEIYGLDIGSDAISRFLDCPRFHFVEGDISIHSEWIEYHIKKCDVVLPLVAIATPIEYTRNPLRVFELDFEENLKIIRDCVKYNKRIIFPSTSEVYGMCTDKNFDEDTSNLVVGPINKQRWIYSVSKQLLDRVIWAYGDKNGLKFTLFRPFNWMGPRLDNLNAARIGSSRAITQLILNLVEGSPIKLIEGGKQKRCFTDISDGIEALFRIIENKDGRCDGQIINIGNPDNEASIKELAEMLLACFERHPLRDRFPPFAGFREVESSDYYGKGYQDVEHRKPSIRNAKRCLNWEPKVEMEETVEHTLDFFLRTVELVDAKHP	PGPT0022815_114	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_L_Ara4N_MODIFICATION,PGPT0022815-arnA|pmrI-K10011	NA	NA
BMS020_03085	984	arnC_1	COG0463	Undecaprenyl-phosphate 4-deoxy-4-formamido-L-arabinose transferase	ATGCTTACTTACCCTCCCGTGAAGAAGGTCTCGGTGGTTATCCCGGTTTATAACGAACAGGATAGCCTGCCGGAGCTGCTTCGTCGTACGGAAACCGCCTGCGCCACGCTGGGGCGGCAATATGAAATTCTGCTGATCGACGATGGCAGCAGCGACGATTCCGCGCGCATGCTCACCGAAGCCGCCGAGGCGGAAGGCAGTCACGTCGTCGCCGTGCTGTTAAACCGTAACTACGGCCAGCACTCGGCGATCATGGCCGGCTTCAGCCATGTGACGGGCGATCTGATTATTACCCTTGATGCCGACCTGCAAAACCCGCCGGAAGAGATCCCGCGGCTGGTGGCGAAGGCGGATGAAGGTTACGACGTGGTGGGCACCGTCCGTCAGAACCGTCAGGACAGCATCTTCCGCAAAACCGCCTCGAAGATGATCAACCGCCTGATCCAGCGCACCACCGGCAAAGCGATGGGCGACTACGGCTGCATGCTGCGCGCCTACCGTCGCCACATTATCGACGCGATGCTCAACTGCCACGAGCGCAGCACCTTTATCCCGATTCTGGCGAATACCTTCGCCCGTCGCGCGGTGGAGATCCCGGTGATGCACGCCGAGCGTGAATTCGGCGACTCCAAATACAGCTTTATGCGCCTGATCAACCTGATGTACGACCTGGTGACCTGTCTGACCACCACGCCGCTGCGTCTGCTCAGCATTTTCGGCAGCGTGATAGCCCTGCTGGGCTTCGCCTTCGGCCTGCTGCTGGTGGTGCTGCGTCTGGCCTTTGGCCCGCAGTGGGCGGCGGAAGGGGTGTTTATGCTCTTCGCCGTGCTGTTTATGTTTATCGGCGCTCAGTTTATCGGTATGGGCCTGCTCGGGGAGTATATCGGACGCATCTATAACGACGTGCGCGCGCGTCCCCGCTACTTTATTCAACGTGTTGTTCGCCAGCCGGAAACGGCATCTAAAGAGGAAGATCGTTCATGA	MLTYPPVKKVSVVIPVYNEQDSLPELLRRTETACATLGRQYEILLIDDGSSDDSARMLTEAAEAEGSHVVAVLLNRNYGQHSAIMAGFSHVTGDLIITLDADLQNPPEEIPRLVAKADEGYDVVGTVRQNRQDSIFRKTASKMINRLIQRTTGKAMGDYGCMLRAYRRHIIDAMLNCHERSTFIPILANTFARRAVEIPVMHAEREFGDSKYSFMRLINLMYDLVTCLTTTPLRLLSIFGSVIALLGFAFGLLLVVLRLAFGPQWAAEGVFMLFAVLFMFIGAQFIGMGLLGEYIGRIYNDVRARPRYFIQRVVRQPETASKEEDRS	PGPT0018850_284	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_L_Ara4N_MODIFICATION,PGPT0018850-arnC|pmrF-K10012	NA	NA
BMS020_03086	1140	arnB	COG0399	UDP-4-amino-4-deoxy-L-arabinose--oxoglutarate aminotransferase	ATGAGCGATTTTTTGCCTTTTTCGCGCCCGTCGATGGGCGACGCAGAGCTGGCAGCGCTGCGTGAAGTTTTAGCGTCGGGCTGGATCACCACCGGGCCGAAGAATCAGGCACTTGAAGCGGCATTCTGCCAGTTGACCGGCAACCGCCACGCGATTGCCGTCAGTTCAGCGACCGGCGGGATGCACGTGACCCTGATGGCGCTGGGTATTGGCCCCGGCGATGAAGTCATTACGCCGTCCCAGACCTGGGTCTCCACCCTCAATATGATCTGCCTGCTGGGCGCCACGCCGGTGATGATCGATGTCGATAACGACAATCTGATGATCACCCCTGAGGCGGTGGCAGCGGCGATCACCTCGCGGACCAAAGCGATTATTCCTGTGCACTACGCGGGGGCGCCAGCCGATATCGACGCCATTCGCGCGGTGGGCGAGCGCCATGGCATTCCGGTGATCGAAGACGCCGCCCATGCGGCGGGGACCCACTATAAAGGCCGCCACGTAGGCTGGCAGGGGACCGCGATTTTCTCGTTCCACGCGATCAAAAATATGACCTGCGCTGAAGGCGGGCTGGTTGTCACCGACGACGACGAGCTGGCCTCCCGCATCCGTAGCCTGAAATTCCATGGCCTCGGCGTGGACGCCTATGACCGCCAGACCCACGGCCGCGCGCCGCAGGCGGAGGTGATCGCTCCGGGCTTTAAATACAACCTTGCCGACATCAACGCCGCGCTGGCGCTGGTCCAGCTGGAAAAACTGCCTTACGCCAACCAGCGCCGGGCGGAAATTGCCCAGCGCTATCTGCGCGAACTGGCGGACACGCCGTTTACGCCCCTGACCGTCCCGGCCTGGGATCACCAGCACGCCTGGCATCTGTTTATCATCCGCGTCGATGAGGCTGCGTGCGGCATCAGCCGCGACGCGTTGATGGAAAAGCTGAAGGCGATGGGTATCGGCACCGGTCTGCACTTCCGTGCGGCCCATACGCAAAAATATTACCGCGAGCGCTTCCCTGAGGTTTCCCTGCCGAATACCGAATGGAACAGCGCCCGCATCTGTTCTCTCCCGTTGTTCCCGGACATGACCGATGACGATGTCACTCGCGTCATTTCCGCACTGCGCCAGCTGTCAGGACGTTGA	MSDFLPFSRPSMGDAELAALREVLASGWITTGPKNQALEAAFCQLTGNRHAIAVSSATGGMHVTLMALGIGPGDEVITPSQTWVSTLNMICLLGATPVMIDVDNDNLMITPEAVAAAITSRTKAIIPVHYAGAPADIDAIRAVGERHGIPVIEDAAHAAGTHYKGRHVGWQGTAIFSFHAIKNMTCAEGGLVVTDDDELASRIRSLKFHGLGVDAYDRQTHGRAPQAEVIAPGFKYNLADINAALALVQLEKLPYANQRRAEIAQRYLRELADTPFTPLTVPAWDHQHAWHLFIIRVDEAACGISRDALMEKLKAMGIGTGLHFRAAHTQKYYRERFPEVSLPNTEWNSARICSLPLFPDMTDDDVTRVISALRQLSGR	PGPT0003995_251	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_L_Ara4N_MODIFICATION,PGPT0003995-arnB|pmrH-K07806	NA	NA
BMS020_03087	507	padC	COG3479	Phenolic acid decarboxylase PadC	ATGATGAGCACTTTCGACAAACATGACCTCAGCGGCTTTATCGGTAAACATCTGGTCTACACCTACGACAACGGCTGGAACTACGAAATTTACGTCAAAAACGGCCATACCCTCGACTACCGTATTCACAGCGGCATCGTCGGCAATCGCTGGGTGAAAGATCAGGAAGCGTACATCGTGCGGGTGGGGGAAAGTATCTACAAAATCTCCTGGACCGAACCGACCGGTACCGACGTGAGCCTGATCGTCAACCTGGGCGATAAACTGTTCCACGGCACCATCTTCTTCCCGCGCTGGATCATGAATAACCCGGAAAAAACCGTCTGCTTCCAGAACGATCACATTCCGCTGATGAATTCTTACCGCGATGCCGGCCCGGCCTACCCGACAGAAGTGATTGACGAGTTCGCCACCATCACCTTCATTCGCGACTGTGGCGCAGATAATGATGAGGTAATTAATTGCCCTGCGAGTGAATTGCCTGCGGATTTTCCTGCAAATTTGTAA	MMSTFDKHDLSGFIGKHLVYTYDNGWNYEIYVKNGHTLDYRIHSGIVGNRWVKDQEAYIVRVGESIYKISWTEPTGTDVSLIVNLGDKLFHGTIFFPRWIMNNPEKTVCFQNDHIPLMNSYRDAGPAYPTEVIDEFATITFIRDCGADNDEVINCPASELPADFPANL	PGPT0019910_203	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZENE|PHENOL_DEGRADATION,PGPT0019910-pdc-K13727	NA	NA
BMS020_03088	861	allS_1		HTH-type transcriptional activator AllS	ATGCACAAGACAACCCTGGAGCAGTGGGCATTACTTGAAAAGGTCGTGGAACTCGGGAGCTTTGCCAGAGCGGCGGAGGAGACCAACCGCAGTCAGTCTTCGGTGAGCTATAACCTCGCGCTGCTGCAGGAGCGCTTAGGGGTGGCGCTGCTGGCGCCGTCCGGTCGGCGGGCGGTGCTGACCCCGGCCGGCGAACTGCTGCTGAATCAGGTCAAACCGTTGCTGCAGGCCTTCGCCTACGTTGAAACGCATGCTGCCACTCTGCGCAACGGGGCGCGCACCCGTCTGGACCTGGTGGTCGACAGCATTTTCCCGCGCCAGCGGCTGTTCGCCATTTTGCGCCAGTTTCAGCAGCGTTATCCGCAGACTCAGGTCAGACTCACCGAAGTGCTGGAAAATATTGATGACGAGGGCGCGGCGCGAACGGAAGCCGATGTCATGGTTCTGACCCGCCGCCAGGATATTACCGGCCGCGGAGAGTGGCTGATGAATATTGATTTTATCGCCGTCGCCCACCGCGACCATCCTCTCGCCGCCCTCGACGGTCCGCTGGAGGATAGCGCGCTGGCGCCATGGCCGCTGGTGCGCATTGCCGACCAGACCGGCGATGGCCAGGCGACGCGTGACGCCTGGACCTTCTCCACCATTGACGCGGCCATTGATGCGGTGATGTATCAGGTCGGCTTCGGCTGGCTGCCGGAAGAGCGCATTCGTTCCCATCTCGATCAGGGCGTGCTGAAGCGGCTGCCCCTCAGCCACGGCGCGCGCCGCGCGACGCCGCTGCATCTGATCGTCAAGCGGGATCTGGCGCCGATCGACGAACAGGTGGCCACGCTGCTGGGGTTGTTCCGGACGCCCTGA	MHKTTLEQWALLEKVVELGSFARAAEETNRSQSSVSYNLALLQERLGVALLAPSGRRAVLTPAGELLLNQVKPLLQAFAYVETHAATLRNGARTRLDLVVDSIFPRQRLFAILRQFQQRYPQTQVRLTEVLENIDDEGAARTEADVMVLTRRQDITGRGEWLMNIDFIAVAHRDHPLAALDGPLEDSALAPWPLVRIADQTGDGQATRDAWTFSTIDAAIDAVMYQVGFGWLPEERIRSHLDQGVLKRLPLSHGARRATPLHLIVKRDLAPIDEQVATLLGLFRTP				NA	NA	NA	NA	NA
BMS020_03089	1569	nikA	COG0747	Nickel-binding periplasmic protein	TTGTCTATTTTCCGCCTCACTCTGCTGGCGCTGGTCGCCTGCGCCCCTCTGCTGGCTCAGGCCGCGCAGCACTCGCTTACTACCGCCTGGCCGGTGAACGTCGGCCCGCTGAATCCGCATCTCTATACGCCCAACCAGATGTTTGCCCAAAGCATGGTCTATGAACCGCTGGTGAAGTATCAGGCTGAAGGCAGCGTGCAGCCCTGGCTGGCGACCCGCTGGCGCCACTCCGCCGATGGTAAAACCTGGTGGTTTACCCTGCGCGAGGATGTGACCTTCTCCAACGGCGAACCCTTTAACGCCCAGGCCGCGGCGGCTAATTTCCAGGCGGTGCTCGCCAACCGCCAACGCCACGCCTGGCTTGAGCTCGCCAATCAGATAACCGACGTGCGGGCGCTCAGCGCCAGCGAGCTGCAGCTCACTCTGAAAAGCGCCTACGCCCCCTTACTACAAGAGCTGGCCCTGCCGCGCCCGTTCCGCTTTATCGCCCCCTCGCAGTTTATCGATGGCGGCACCGCCAACGGCATCAAAGCCCCGATCGGCACCGGGCCGTGGCGACTAGCGAGTTCGCAGCTCAATCAGCGCGACGTGCTGGTACGCAACGAACGCTACTGGGGTAATCAACCCGCGCTACAGCAAATCACCATCAAAGTGATCCCCGACGCCACCAGCCGCGCGGTGGCGTTCGAAACCGGGGAAATCGACATGCTCTACGGCGACGAGGGGCTGCTGCCGCTGGATACCTTCGAACGCTTTCGTCATCACCCCGGCTACGCGGCTCGTCTCTCCGCCCCGGCGGAGACGGTGATGCTGGCGCTGAACGCCAGCCAGGGCCCGACCCGCGAGCAGGCGGTGCGCGAGGCGCTCAACTACGCCGTGGACAAGCAGACCCTCGTCGATAGCGTGCTCTACGGCACCCAGCAGGTTGCCGACACCCTGTTTGCGCCCTCGGTCCCCTACGCCCCGCAGGATCTGACGCCGCGCCGTTACGACCCGGCAAAAGCCCGCGCCCTGCTGGCGCAGGCCGGCTGGCAGCAACCGGAAGGCCAGCCCTGGCGACAAAAGGCCGGGCAACCGCTGGCGATTGAGCTGGCGTTTATCGGCACCGACGCGCTGGCTAAATCGATGGCCGAAATTATTCAGGCCAATCTGCGGGAGGTCGGCGTCCGCGTCACCCTGGTCGGCGAGGAGGAGAGCAGCATCTATGCGCGCCAGCGCGAAGGGCGGTTCGGCATGATCTTCAATCGCACCTGGGGCGCCCCCTACGATCCGCATGCCTTTTTAAGCTCGATGCGCGTGCCCTCCCATGCCGATTATCAGGCCCAGCGCGGCCTGCCCGACAAGGGGCTGATTGATAAAGAGATTAGCGAGGTGCTGACCACCAGCGACGAGGCGCAGCGGAAACGGCTGTACCACGATGTGCTGAGCCGCCTGCATCAGGACGCGGTGTACCTGCCCATCAGCTATGTCTCGCTGATGTCGGTTGCGCGCCAGGAGGTCGGGGAGATCCCGTTCGCGCCGGTGAGCACCGAGATCCCTTTCGACCAGATTAAACCGGTAACGCCATAA	MSIFRLTLLALVACAPLLAQAAQHSLTTAWPVNVGPLNPHLYTPNQMFAQSMVYEPLVKYQAEGSVQPWLATRWRHSADGKTWWFTLREDVTFSNGEPFNAQAAAANFQAVLANRQRHAWLELANQITDVRALSASELQLTLKSAYAPLLQELALPRPFRFIAPSQFIDGGTANGIKAPIGTGPWRLASSQLNQRDVLVRNERYWGNQPALQQITIKVIPDATSRAVAFETGEIDMLYGDEGLLPLDTFERFRHHPGYAARLSAPAETVMLALNASQGPTREQAVREALNYAVDKQTLVDSVLYGTQQVADTLFAPSVPYAPQDLTPRRYDPAKARALLAQAGWQQPEGQPWRQKAGQPLAIELAFIGTDALAKSMAEIIQANLREVGVRVTLVGEEESSIYARQREGRFGMIFNRTWGAPYDPHAFLSSMRVPSHADYQAQRGLPDKGLIDKEISEVLTTSDEAQRKRLYHDVLSRLHQDAVYLPISYVSLMSVARQEVGEIPFAPVSTEIPFDQIKPVTP	PGPT0004405_387	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_NICKEL_RESISTANCE	NICKEL_RESISTANCE-NIK-CNT_TRANSPORT_SYSTEM,PGPT0004405-nikA|cntA-K15584	NA	NA
BMS020_03090	945	nikB	COG0601	Nickel transport system permease protein NikB	ATGCTACGCTATATTTTACGCCGCCTGCTGCTGCTGATCCCGCTGCTGCTCGCCGCCTCCGCCATCATCTTTCTGCTGCTGCGGCTCGGCACCGGCGACCCGGCGCTGGATTATTTACGCCTGTCGAACCTGCCGCCCACTGAAGAGATGGTCGCCTCGACCCGCGAACTGCTGGGGCTCAACCAGCCGCTGGCGATGCAGTATCTGCACTGGCTGTGGCGGGCGCTGCACCTGGACTTTGGCCTCTCCTATGCCACCCGGCGCCCGGTGCTGGATGACCTGCTGCACTTCCTGCCGGCCACCCTGCTGCTCACCGGCGCGGCGCTGGCGCTGATCCTCGTCACCTCGCTGCCGCTGGGGATCTGGGCGGCGCGCCATCGCGATCGCCTGCCGGACTTTGCTGTGCGGCTGATTGCCTTCCTCGGCGTGTCGATGCCGAACTTCTGGCTGGCCTTTCTGCTGGTGATGCTTTTTTCCGTGCATCTGCAGTGGCTTCCGGCGATGGGGTACGGCGACTGGCAGCACCTGATATTGCCCGCCGTCTCCATCGCCTTTATGTCGCTGGCGATCAACGCCCGTCTGCTGCGCGCCAGCATGCTGGAGGTCTCCAGCCAGCGTCACGTGGTGTGGGCGCGGCTGCGCGGCTTGAGCGCGCGCCAGGTGGAGCGGCGGCATATCCTGCGCAACGCCACCCTGCCGGTGGTGACCGCCATGGGCATGCACATTGGCGAGCTGATCGGCGGCACCATGATTATTGAAAATATCTTTGCCTGGCCGGGGGTCGGCCGCTACGCGGTTTCCGCGATCTTCAATCGCGATTACCCGGTGATTCAGTGCTTTACGCTGATGATGGTCACGGTGTTCGTGCTGGCTAACCTGGCGGTGGATGTGCTCAACGCGGCGCTCGACCCGCGCCTGCGCCGCCATGAGGAGGTGAGCGTATGA	MLRYILRRLLLLIPLLLAASAIIFLLLRLGTGDPALDYLRLSNLPPTEEMVASTRELLGLNQPLAMQYLHWLWRALHLDFGLSYATRRPVLDDLLHFLPATLLLTGAALALILVTSLPLGIWAARHRDRLPDFAVRLIAFLGVSMPNFWLAFLLVMLFSVHLQWLPAMGYGDWQHLILPAVSIAFMSLAINARLLRASMLEVSSQRHVVWARLRGLSARQVERRHILRNATLPVVTAMGMHIGELIGGTMIIENIFAWPGVGRYAVSAIFNRDYPVIQCFTLMMVTVFVLANLAVDVLNAALDPRLRRHEEVSV	PGPT0004410_60	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_NICKEL_RESISTANCE	NICKEL_RESISTANCE-NIK-CNT_TRANSPORT_SYSTEM,PGPT0004410-nikB|cntB-K15585	NA	NA
BMS020_03091	834	nikC	COG1173	Nickel transport system permease protein NikC	ATGAGATGGCTGCGAAACTTCCGCTGGCCGGTGAAACTGGCCCTGCTGGTTATTGCGCTGCTGGCGGTCATCGCCATCGGCAGCGGCTGGTGGCTACCCTGGGATCCGGCGGCGATTAACCTGCAGCAGCGGCTGCTGCCGCCAGGGGCAGCGCACTGGCTGGGGACCGATCATCTAGGACGGGATATTTTCTCGCGCCTGCTGGCCGCTACCCGTGTCTCGCTGGGGGCGGTAATGGCCTGCCTGCTGCTGGTGCTGCTGATCGGTCTGGCGGTTGGCGGCAGCGCCGGGCTGCTGGGCGGCCGCGCCGACCGCGGCCTGATGCGCCTCGCCGAACTGTTTATGACCTTTCCAACCTCGATCCTGTCGTTCTTTATGGTGGGGGTGCTCGGCACCGGGCTGACCAACGTGATCCTCGCCATTGCGCTATCGCACTGGGCCTGGTACGCCAGAATGGTGCGTAATCTGGTGGTCTCCCTGCGCCAGCGCGAATTTATCCTCGCCGCCCGCCTGAGCGGCGCCAGCCAGTGGCGGCTGTTCAGCGACCATCTGGCAGGGGCGGTGATCCCCTCGCTGCTGGTGCTCGCCTCACTGGATATCGGCCATATGATGCTTCACGTGGCCGGTATGTCGTTCCTTGGCCTCGGCGTCAGCGCGCCGACGGCGGAATGGGGGGTGATGATCAACGACGCCCGGCAGTATATCTGGACCCAGCCGCTGCAGATGGTCTGGCCGGGGCTGGCGCTGTTCATCAGCGTGATGGCCTTTAACCTGCTGGGCGACGCGCTGCGCGATCGCCTCGATCCTCACCTGATCGCGGAGCATAGCCACTGA	MRWLRNFRWPVKLALLVIALLAVIAIGSGWWLPWDPAAINLQQRLLPPGAAHWLGTDHLGRDIFSRLLAATRVSLGAVMACLLLVLLIGLAVGGSAGLLGGRADRGLMRLAELFMTFPTSILSFFMVGVLGTGLTNVILAIALSHWAWYARMVRNLVVSLRQREFILAARLSGASQWRLFSDHLAGAVIPSLLVLASLDIGHMMLHVAGMSFLGLGVSAPTAEWGVMINDARQYIWTQPLQMVWPGLALFISVMAFNLLGDALRDRLDPHLIAEHSH	PGPT0004415_212	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_NICKEL_RESISTANCE	NICKEL_RESISTANCE-NIK-CNT_TRANSPORT_SYSTEM,PGPT0004415-nikC|cntC-K15586	NA	NA
BMS020_03092	765	nikD		Nickel import ATP-binding protein NikD	ATGCCGCAAAAGATCCAACTGCAACAGATCGCCCTTGCCGCCGACCGCCCGCTGGTCAGCGACGTCTCTCTTACCCTGCGCCGCGGCAAGGTGCTGGCGCTGCTCGGCAGCAGCGGCAGCGGGAAATCGCTTACCTGCGCCGCCGCGCTGGGCCTGCTGCCGCCCGGCGTCAGCCAGACCGCCGGCCGGGTGTTGCTTGACGGCATGCCGGTGCACGGCGAACCGCTGCGCGGCGCGACTATCGCTACCATCATGCAGAACCCACGCAGCGCCTTTAATCCGCTGCATACCATGGCCGCCCACGCCCGGGAAACTTGCCGGGCGGCGGGACGCGAAGCGAATGACGCCGCCCTGCTGGCGGTGATGGAAGAGGTGGGTCTGGATAATCCGCGCTCGCTGCTCAGCCGCTATCCCTTCGAGATGAGCGGCGGCATGCTGCAGCGGATGATGATCGCCCTCGCCCTGCTCAGCCGCGCGCCCTTTATCATCGCCGACGAGCCGACCACCGACCTCGATGCCATCGCCCAGGCGCGGATCCTCGATCTGCTGGCGGATATCGTCGCCAGCCGCGGTCTGGGGCTGCTGCTGGTGACGCATGACATGGGCGTTGTGGCGCGGCTGGCGGATGACGTGACGGTCATGGAGAACGGTCGCCTCGTTGAACAGTGCGATGTAAACACGCTGTTCAGCGCCCCACAGCACCCGCTGAGCCAGCACCTGCTGGCGGCGCATCTGGCGCTGTACGGACTGGAGAAAACAGCATGA	MPQKIQLQQIALAADRPLVSDVSLTLRRGKVLALLGSSGSGKSLTCAAALGLLPPGVSQTAGRVLLDGMPVHGEPLRGATIATIMQNPRSAFNPLHTMAAHARETCRAAGREANDAALLAVMEEVGLDNPRSLLSRYPFEMSGGMLQRMMIALALLSRAPFIIADEPTTDLDAIAQARILDLLADIVASRGLGLLLVTHDMGVVARLADDVTVMENGRLVEQCDVNTLFSAPQHPLSQHLLAAHLALYGLEKTA	PGPT0004420_285	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_NICKEL_RESISTANCE	NICKEL_RESISTANCE-NIK-CNT_TRANSPORT_SYSTEM,PGPT0004420-nikD|cntD-K15587	NA	NA
BMS020_03093	792	nikE		Nickel import ATP-binding protein NikE	ATGAATTTACTCAGCGTCAACGGGGTGAGCCACGATTACCCCCGCCACGGCAGGGTCCTGCACGAGATCCAACTCGCCATCGCCCCCGGCGAAACGGTGGCCCTGCTCGGGCGCAGCGGCTGCGGCAAGAGCACCCTGGCGCGGATGCTGGTGGGCCTGGAAACGCCGCAGCACGGCGATATTGTCTGGCGCGGCACACCGCTGACCGCCCTGAAGGGCGAGGCCGTCGGCGCCTTCCGCCGTGATATTCAGCTGGTGTTTCAGGACGCCTTCAGCGCGGTGAATCCGCGCAAAACGGTGCGCGAGATCGTCAGCGAGCCGCTGCGCCATCTGTTCCGCTTGTCGCGCGAGGAACGCGCACGGCGGGTAGAAGAGATGCTGCACGCGGTCGACCTTTCCACGACGCTGCTCGATAAACGCCCGGCGCAGCTCAGCGGCGGACAGCTGCAGCGCGTCTGCCTGGCTCGCGCCCTGGCGGTGCGGCCGCAGCTGTTGATCCTGGATGAAGCGGTCTCGAATCTCGATCTGCTGCTGCAGGCGGAGATTATCGCCCTGCTGAAGCGCCTGCAGGCCCGGTTTGGCACCGCCTGCCTGTTCATTACCCACGACCTGCGGCTGGTGGAGCGCTTTTGCCAGCGGGTGCTGGTGATGGAGCACGGACGCATCGTCGAAACCGCAACGGTCAGTCTACCGCTGCGCCTGCGCTCTCCTGCCGGACAGGCGCTCCAGCAGGCGGTGCTGCCACCTTTTCCTGCCACTCTGCTCAACGAGGCCATGCCATGCAGCGCGTAA	MNLLSVNGVSHDYPRHGRVLHEIQLAIAPGETVALLGRSGCGKSTLARMLVGLETPQHGDIVWRGTPLTALKGEAVGAFRRDIQLVFQDAFSAVNPRKTVREIVSEPLRHLFRLSREERARRVEEMLHAVDLSTTLLDKRPAQLSGGQLQRVCLARALAVRPQLLILDEAVSNLDLLLQAEIIALLKRLQARFGTACLFITHDLRLVERFCQRVLVMEHGRIVETATVSLPLRLRSPAGQALQQAVLPPFPATLLNEAMPCSA	PGPT0004425_178	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_NICKEL_RESISTANCE	NICKEL_RESISTANCE-NIK-CNT_TRANSPORT_SYSTEM,PGPT0004425-nikE|cntF-K10824	NA	NA
BMS020_03094	399	nikR	COG0864	Nickel-responsive regulator	ATGCAGCGCGTAACCCTGACCCTTGATGATGACCTGCTGGCCGCTCTCGATGCGCTCAGCGCCCGCCGCGGCTACCACAACCGTTCGGAGGCGGTACGCGATATTCTGCGCGACGCCCTCAACCAGGATCCCGCACCGTCGGAGCCGCGGCGCGGTTATGCCGTCCTGTCATATGTCTACGAGCATGAAAAACGCGAACTGGCGAGCCGGCTGGTGGCAACCCAGCATCATCATCACGATCTCTCCGTCGCCACGCTGCATGTGCATATCAGCCATGACGACTGCCTGGAGATTGCGGTGCTGAAGGGAGACATGGCCGAGGTGCAGCATTTTGCCGACGACGTGATTGCCCAGCGCGGTGTGCGCCATGGGCATTTGCAGTGTTTAGCGGATGATTAA	MQRVTLTLDDDLLAALDALSARRGYHNRSEAVRDILRDALNQDPAPSEPRRGYAVLSYVYEHEKRELASRLVATQHHHHDLSVATLHVHISHDDCLEIAVLKGDMAEVQHFADDVIAQRGVRHGHLQCLADD	PGPT0004395_928	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_NICKEL_RESISTANCE	NICKEL_RESISTANCE-NICKEL_HOMEOSTASIS,PGPT0004395-nikR-K07722	NA	NA
BMS020_03096	1014		COG2239	Magnesium transporter MgtE	ATGTCTTCCATTCAACTCTGCGCCGCCCATCAGGCGACCTCTGGCTTCGACGGCGATGCCATCGCCCAGTACATGCGTACCGACTTTATTACGCTGCAGGAACATCTCAGCGTCCATGAAGCGCGGGAGCACTTTATCTCACAGCTCACCAGCGATGATATTCCCGGCCAGGTGTTTGTGGTCGCCGGCAAGAAGCTGCGCGGCAGCCTGTCGGTCAAAAAGCTACTGCAGGAAGGGGATGTCGGGCAGTCTATCCGCTACCTGATGGACAGCTGCCTGTTCCGCGTCAAACCTGACGATGAACGCCCGCAGGTGATAGCCGAGCTCAACGAGCGCGGCCTCGACCTGGTTCCCGTCGTCGATAAAGGCGAGCTGGTCGGCTGCCTGATGGAAAAGGAGATCGCCCATTTGCTGGAGGATGACGTCACCGAGGACGCCCAGCTGCAGGGGGCGACGCTGCCGCTGGAAAAACCGTATCTGGACATCAGCCCCTGGACGCTGTGGAAGAAACGCTCGGTGTGGCTGCTGCTGCTGTTCGTGGCCGAAGCCTACACCAGCAGCGTGCTGCAGCATTTTGAAGAGGCGCTGGAATCGGCCATCGCGCTGGCCTTCTTTATTCCGCTGCTCATCGGTACCGGCGGCAACAGCGGAACGCAGATCACCTCGACGCTGGTGCGCTCGATGGCGCTGGGAGAAGTACGGCTGCGCGATATGGGGCGGGTGATCCGCAAAGAGGTATCGACCTCGTTTCTGATTGCCTTAACGCTGGGGCTGGCGGGCTGCCTGCGCGCCTGGATGATGGGCATCGGCATGGAAATCACGCTGATCGTCAGCCTGACGCTGGTATGCATTACCCTGTGGAGCGCGATTGTCTCGTCGGTCATCCCGATGGTGCTTAAACGGATCGGCATCGACCCGGCGGTGGTTTCCGCGCCGTTTATCGCCACGCTGATCGATGGCACCGGACTGATCATCTATTTCAAAATCGCCCAGTATTTTCTTGGGTTGAACTAA	MSSIQLCAAHQATSGFDGDAIAQYMRTDFITLQEHLSVHEAREHFISQLTSDDIPGQVFVVAGKKLRGSLSVKKLLQEGDVGQSIRYLMDSCLFRVKPDDERPQVIAELNERGLDLVPVVDKGELVGCLMEKEIAHLLEDDVTEDAQLQGATLPLEKPYLDISPWTLWKKRSVWLLLLFVAEAYTSSVLQHFEEALESAIALAFFIPLLIGTGGNSGTQITSTLVRSMALGEVRLRDMGRVIRKEVSTSFLIALTLGLAGCLRAWMMGIGMEITLIVSLTLVCITLWSAIVSSVIPMVLKRIGIDPAVVSAPFIATLIDGTGLIIYFKIAQYFLGLN	PGPT0013995_3986	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0013995-mgtE-K06213	NA	NA
BMS020_03097	1149		COG2081	putative protein	ATGTTTTGCGCAGCGCAGGCGGGGCAGCTCGGCTGTCGCGTTCTGCTGCTCGACAACGGCAAAAAGCCGGGACGAAAAATTCTGATGTCCGGCGGCGGTCGCTGCAACTTTACCAATATGTATGTTGAGCCGGCGGCCTATTTGAGCCAAAACCCGCATTTTTGCAAATCTGCCCTGGCGCGCTACACCCAGTGGGACTTTATCGAGCTGGTCGGCAAATATGGCATCGCCTGGCATGAGAAAACCCTCGGTCAGCTGTTTTGCGATGATTCGGCGGAACAGATCGTCAATCTGTTGCTGGCGGAATGCGAAAAGGGCGGCGTGCAGATCCGCCTGCGCAGCGAAATCCTCAGCGTCGAGCGCGACGAGCAAGGCTACCGGCTCCAGGTGAATGGCGAAACGCTGGCGACCAAAAAGCTGGTGATCGCCTCCGGCGGCTTGTCGATGCCGGGTCTTGGCGCCTCGCCGTTCGGCTATAAAATCGCCGAACAGTTCGGCCTGAAGGTACTGCCGACCCGTGCGGGTCTGGTGCCGTTTACCCTGCACAAGCCGCTGCTTGAGCAGCTGCAGGTTCTCTCCGGCGTCTCGGTGCCGTCGACCATCACCGCCGAGAACGGCACCCTGTTCCGCGAAAATCTGCTGTTCACCCATCGCGGCCTTTCCGGACCGGCGGTGCTGCAAATTTCCAGCTACTGGCAGCCCGGCGAGTTCGTCACCGTGAATCTGCTGCCGGACTGCAATCTTGAAGACTTCCTTAACGAGCAGCGCGGCGCGCATCCCAACCAGAGCCTGAAAAACACCCTCGCGATGCAGTTGCCGAAGCGGCTGGTGGAGTGCCTGCAGCAGCTGGGGCAAATTCCTGATGTCACGCTGAAGCAGCTGAACGTTCGCGACCAGCAGGCGCTGGTGGAGACGCTGACCGCCTGGCGCGTGCAGCCGAACGGCACCGAAGGCTACCGGACGGCGGAGGTGACCCTCGGCGGCGTGGACACCAATGAGCTCTCGTCGCGTACTATGGAGGCGCGCAAGGCGCCGGGCCTCTACTTTATCGGCGAAGTGATGGACGTCACCGGCTGGCTCGGCGGGTATAACTTCCAGTGGGCGTGGTCAAGCGCCTGGGCCTGCGCGCAGGCGCTGGTGGACGCTTAA	MFCAAQAGQLGCRVLLLDNGKKPGRKILMSGGGRCNFTNMYVEPAAYLSQNPHFCKSALARYTQWDFIELVGKYGIAWHEKTLGQLFCDDSAEQIVNLLLAECEKGGVQIRLRSEILSVERDEQGYRLQVNGETLATKKLVIASGGLSMPGLGASPFGYKIAEQFGLKVLPTRAGLVPFTLHKPLLEQLQVLSGVSVPSTITAENGTLFRENLLFTHRGLSGPAVLQISSYWQPGEFVTVNLLPDCNLEDFLNEQRGAHPNQSLKNTLAMQLPKRLVECLQQLGQIPDVTLKQLNVRDQQALVETLTAWRVQPNGTEGYRTAEVTLGGVDTNELSSRTMEARKAPGLYFIGEVMDVTGWLGGYNFQWAWSSAWACAQALVDA				NA	NA	NA	NA	NA
BMS020_03098	1449	pitA_1	COG0306	Low-affinity inorganic phosphate transporter 1	TTGCTTGCTTTAGCTTTTGTACTGTTTTACGAAGCGATTAACGGTTTCCATGATACCGCAAACGCGGTGGCTACGGTTATCTACACTCGCGCTATGCGCTCACAGCTCGCTGTGGCGATGGCGGCGCTCTTCAACTTCTTCGGCGTTCTGCTGGGGGGTCTCAGCGTAGCCTATGCCATCGTGCATATGCTGCCGACCGATCTGCTGCTTAACATGGGTTCCGCACATGGCCTCGCCATGGTGTTTTCTATGCTGCTGGCGGCGATCATCTGGAACCTCGGCACCTGGTACTTCGGTCTGCCGGCATCCAGTTCCCATACGCTGATCGGCGCTATCATCGGGATCGGTCTCACCAATGCCTTAATGACCGGTACGTCGGTCGTTGACGCGCTGAATATCCCGAAAGTCATCGGCATTTTTGGATCGCTGATTATCTCGCCTATCGTCGGCCTGGTGATCGCGGGCGGCCTGATTTTCCTGCTGCGTCGCTACTGGAGCGGCACCAAGAAACGGGCGCGTATCCACCTGACCCCAGCGGAGCGTGAAAAGAAAGACGGCAAGAAAAAGCCGCCGTTCTGGACCCGTATCGCCCTGATCCTGTCCGCTATCGGCGTGTCGTTCTCTCACGGCGCTAACGATGGACAGAAAGGCATTGGTCTGGTGATGCTGGTCCTGATTGGCGTCGCCCCGGCGGGCTTCGTGGTGAATATGAACGCCTCCGGTTACGAAATCACCCGTACCCGCGATGCGGTCAACAACGTGGAAACCTTCTTCCAGCAGCGCCCTGACCTGCTGAAGAAAGCCACCGGCGTTGACCAGCTGGTTCCCTCTCCGGACACCAATACCGCGGCCAACGGCGAGTTTCATTGTCATCCGGCGAACACCATCAACGCCCTTGACCGCGTGAAGACCATGCTGACCGGCGTTGAGAACTACGAGTCGCTAAAACCGGAACAGCGCGGCCAGCTGCGTCGTATCATGCTCTGCATCTCCGACACCACCGACAAAGTGGCGAAACTGCCGGACGTGAGCGCTGACGACCAGCGTCTGCTGAAGAAACTGAAAACCGATATGCTGAGCACCATCGAGTACGCGCCAATCTGGATTATCATGGCGGTCGCACTGGCGCTGGGTATTGGCACCATGATCGGCTGGCGCCGCGTGGCGACCACTATCGGTGAGAAGATTGGTAAGAAGGGCATGACCTACGCCCAGGGGATGTCGGCGCAGATGACCGCGGCGGTCTCTATCGGTCTGGCGAGCTACACCGGGATGCCGGTCTCCACCACCCACGTACTCTCCTCCTCGGTAGCGGGGACGATGCTGGTGGATGGCGGTGGTCTGCAGAAAAAGACGGTGACGAGCATTCTGATGGCCTGGGTGCTGACCCTGCCGGCAGCGATTATCCTTTCAGGCGTCCTTTACTGGCTCTCCCTGAAGCTGATTTAA	MLALAFVLFYEAINGFHDTANAVATVIYTRAMRSQLAVAMAALFNFFGVLLGGLSVAYAIVHMLPTDLLLNMGSAHGLAMVFSMLLAAIIWNLGTWYFGLPASSSHTLIGAIIGIGLTNALMTGTSVVDALNIPKVIGIFGSLIISPIVGLVIAGGLIFLLRRYWSGTKKRARIHLTPAEREKKDGKKKPPFWTRIALILSAIGVSFSHGANDGQKGIGLVMLVLIGVAPAGFVVNMNASGYEITRTRDAVNNVETFFQQRPDLLKKATGVDQLVPSPDTNTAANGEFHCHPANTINALDRVKTMLTGVENYESLKPEQRGQLRRIMLCISDTTDKVAKLPDVSADDQRLLKKLKTDMLSTIEYAPIWIIMAVALALGIGTMIGWRRVATTIGEKIGKKGMTYAQGMSAQMTAAVSIGLASYTGMPVSTTHVLSSSVAGTMLVDGGGLQKKTVTSILMAWVLTLPAAIILSGVLYWLSLKLI	PGPT0002645_242	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002645-pitA|pit-K16322	NA	NA
BMS020_03099	336	uspB		Universal stress protein B	ATGATCAGCACTATTGCGCTGTTTTGGGCCCTGTGTGTCGTTTGTGTGGTGAATATGGCACGCTACTTCTCATCGTTGCGTGCATTATTGGTTGTGCTACGTGGTTGCGATCCCTTGCTCTATCAGTACGTCGATGGCGGCGGCTTTTTTACCTCGCACGGGCAGCCCAGCAAACAGATGCGCCTGGTGTGGTATATCTATGCCCAGCGCTACCGTGACCATCATGACGATGAATTTATTCGTCGCTGCGAACGTGTTCGTCGCCAGTTTATTCTGACCAGCGCCCTGTGCGGCCTGGTGGTGGTGAGCCTGATTGCGTTGATGATCTGGCACTGA	MISTIALFWALCVVCVVNMARYFSSLRALLVVLRGCDPLLYQYVDGGGFFTSHGQPSKQMRLVWYIYAQRYRDHHDDEFIRRCERVRRQFILTSALCGLVVVSLIALMIWH	PGPT0014835_66	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-STRINGENT_STRESS_RESPONSE,PGPT0014835-uspB-K06144	NA	NA
BMS020_03100	438	uspA	COG0589	Universal stress protein A	ATGGCTTACAAACATATTCTGATTGCAGTAGACCTGTCCCCGGAGAGTAAAGTACTGGTTGAAAAAGCCGTTTCTATGGCCCGCCCGTATAATGCGAAAGTCTCCCTGATCCACGTGGATGTGAATTACTCCGACCTCTACACCGGGCTGATTGACGTGAACCTCGGCGACATGCAAAAACGCATCTCCGAAGAGACCCATCACGCGCTGACCGAGCTCTCGACCAACGCCGGCTACCCGATCACCGAGACCCTGAGCGGCAGCGGCGACCTGGGCCAGGTGCTGGTCGATGCGATTAAAAAATATGATATGGACCTGGTGGTCTGCGGCCACCATCAGGACTTCTGGAGCAAGCTGATGTCCTCTGCCCGTCAGCTGATCAACACCGTCCATGTCGACATGCTGATTGTCCCGCTACGCGACGAAGAAGACGAATAA	MAYKHILIAVDLSPESKVLVEKAVSMARPYNAKVSLIHVDVNYSDLYTGLIDVNLGDMQKRISEETHHALTELSTNAGYPITETLSGSGDLGQVLVDAIKKYDMDLVVCGHHQDFWSKLMSSARQLINTVHVDMLIVPLRDEEDE	PGPT0014970_342	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014970-uspA-K06149	NA	NA
BMS020_03101	1476	dtpB	COG3104	Dipeptide and tripeptide permease B	ATGAATACAACTGCACCTACGGGCTTGCTGCAGCAACCTCGTCCGTTCTTTATGATCTTCTTTGTGGAGCTCTGGGAACGTTTTGGCTATTACGGCGTTCAGGGGATCCTGGCGGTCTTCTTTGTGAAACAGTTGGGCTTCTCTCAGGAACAGGCCTTTATCACCTTCGGCGCCTTCGCGGCGCTGGTTTACGGTCTGATCTCCATCGGCGGCTACGTGGGCGACCATCTGCTGGGGACCAAACGCACGCTGGTGCTCGGCGCGATTGTGCTGGCCATCGGCTACTTTATGACCGGGATGTCGCTGCTGAAACCGCAGCTGATCTTTATCGCCCTCGGCACCATCGCCGTCGGCAACGGTTTGTTTAAAGCCAACCCGGCGAGCCTGCTGTCAAAATGCTATCCGCCGAAGGATGCCCGTCTCGACGGGGCGTTTACCCTGTTTTATATGTCGATAAACATCGGTTCGCTGCTGTCGCTGTCGCTGGCGCCGGTGATCGCGGAAAAGTTTGGCTACGCGGTGACCTATAACCTGTGCGGCGCGGGGCTGATTATCGCGCTGCTGGTCTACCTCGCCTGCCGCGGGATGGTGAAAGAGATTGGTTCCGAGCCCGATCATCGCCCCCTCAGCCTGCGCAATCTGGCGCTGGTGCTGGCCGGTACGGTGGTAATGATTTTTCTCTGCGCCTGGCTGATGCATAACGTGATGATCGCCAACCTGGTGCTTATTGTCCTGTCGGTCGTGGTCATTGCGTTCTTTTTCCGCGAGGCGTTTCGCCTTGATAAAACCGGGCGCAACAAAATGTTCGTCGCCTTTATCCTGATGATCGAGGCGGTGCTGTTTTACATTCTCTACGCCCAGATGCCGACCTCGCTGAACTTCTTCGCCATCAATAACGTCCATCATCAGATCCTGGGTTTTACCATCAACCCGGTCAGTTTCCAGGCCCTGAACCCCTTCTGGGTGGTGGTGGCCAGCCCGGTGCTGGCGGCGATCTACACCCATCTCGGCCACAAGGGTAAAGACCTGACCATGCCGGTGAAATTTACCCTCGGGATGTTCCTCTGCGCGCTGGGCTTCCTTACCGCCGCGGCCGCCGGGATGTGGTTCGCCGACGCCCAGGGATTAACCTCGCCGTGGTTTATTGTGCTGGTTTATCTGTTCCAGAGCCTGGGCGAGTTGCTGATCAGCGCCCTTGGGCTGGCGATGGTCGCCGCGCTGGTGCCGCAGCATCTGATGGGCTTTATTCTGGGGATGTGGTTCCTGACCCAGGCCGCCGCGTTCCTGCTCGGCGGCTATGTGGCGACCTTCACCGCGGTGCCGGAAGATATCACCGACCCGCTGCAGACGCTGCCCGTTTACACCAGCGTGTTCAGTAAAATTGGCCTGGTGACCCTGGGGGTCACGGTAGTGATGGCGCTGATGGTGCCGTGGCTGAACCGGATGATTAATACCCCGGGGGAAGCTAACCGGTAG	MNTTAPTGLLQQPRPFFMIFFVELWERFGYYGVQGILAVFFVKQLGFSQEQAFITFGAFAALVYGLISIGGYVGDHLLGTKRTLVLGAIVLAIGYFMTGMSLLKPQLIFIALGTIAVGNGLFKANPASLLSKCYPPKDARLDGAFTLFYMSINIGSLLSLSLAPVIAEKFGYAVTYNLCGAGLIIALLVYLACRGMVKEIGSEPDHRPLSLRNLALVLAGTVVMIFLCAWLMHNVMIANLVLIVLSVVVIAFFFREAFRLDKTGRNKMFVAFILMIEAVLFYILYAQMPTSLNFFAINNVHHQILGFTINPVSFQALNPFWVVVASPVLAAIYTHLGHKGKDLTMPVKFTLGMFLCALGFLTAAAAGMWFADAQGLTSPWFIVLVYLFQSLGELLISALGLAMVAALVPQHLMGFILGMWFLTQAAAFLLGGYVATFTAVPEDITDPLQTLPVYTSVFSKIGLVTLGVTVVMALMVPWLNRMINTPGEANR	PGPT0021010_3116	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021010-TC_POT-K03305	NA	NA
BMS020_03102	795	rsmJ		Ribosomal RNA small subunit methyltransferase J	ATGCGATGCTGGAGCATTACGGGATCAAGGGTTAAGTCTGCGGTGAAGATCTGCTTAATTGATGAAACGGGCGCCGGAGACGGCGCCTTATCTGTTTTAGCCGCCCGCTGGGGGCTGGAGCAGGATGACGATAACCTGATGGCGCTGGTGCTGACCGCTGAGCATCTGGAGCTGCGTAAGCGCGATGAGCCCAAACTCGGCGGTATCTTCGTCGATTTCGTCGGCGGGGCGATGGCCCACCGGCGCAAGTTTGGCGGCGGCCGCGGTGAAGCGGTGGCCAAAGCGGTCGGTATTAAAGGCGATTATCTGCCGGATGTCGTCGATGCCACCGCCGGATTGGGGCGTGACGCCTTTGTGCTGGCGTCGGTCGGCTGTCGCGTGCGGATGCTGGAGCGTAATCCGGTGGTCGCCGCGCTGCTCGACGATGGCCTGGCCCGCGGCTATGCCGATGCGGAAATCGGCGGCTGGCTGCAGGAGCGGCTGCAGCTGATCCACGCCTCCAGCCTGACGGCGCTGACCGATATTACCCCGCGTCCGCAGGTGGTCTACCTCGACCCGATGTTCCCGCATAAGCAGAAAAGCGCGCTGGTGAAGAAAGAGATGCGCGTCTTTCAGTCGCTGGTGGGGCCCGATTTAGACGCCGATGGCCTGCTGGCCCCGGCGCGCCAGCTGGCGACCAAACGGGTGGTGGTGAAGCGCCCGGATTACGCGCCGCCGCTGGCGGAAGTCGCCACGCCGAACGCGGTGGTGACCAAAGGGCATCGGTTTGATATTTACGCCGGCACGCCGGCGTAA	MRCWSITGSRVKSAVKICLIDETGAGDGALSVLAARWGLEQDDDNLMALVLTAEHLELRKRDEPKLGGIFVDFVGGAMAHRRKFGGGRGEAVAKAVGIKGDYLPDVVDATAGLGRDAFVLASVGCRVRMLERNPVVAALLDDGLARGYADAEIGGWLQERLQLIHASSLTALTDITPRPQVVYLDPMFPHKQKSALVKKEMRVFQSLVGPDLDADGLLAPARQLATKRVVVKRPDYAPPLAEVATPNAVVTKGHRFDIYAGTPA				NA	NA	NA	NA	NA
BMS020_03103	2043	prlC_1	COG0339	Oligopeptidase A	ATGACCAATCCATTACTGACGCCTTTTTCCCTGCCGCCTTTTTCTGCGATCAAACCAGAGCACGTGGTCCCAGCGGTCACCAAAGCGCTGGAGGATTGCCGGGCCGCGGTGGAAAGCGCAGTGGCGCACGGCGCGCCGTATAGCTGGGAAAATCTTTGCCAGCCGCTGGCGGAAGTGGACGATGTGCTGGGACGCATCTTCTCGCCTGTCAGCCATCTCAATTCGGTAAAAAACAGCCCGGAACTGCGTGAGGCCTACGAACAGACGCTGCCGCTGCTCTCCGAGTACAGCACCTGGGTCGGCCAGCATGAAGGCCTGTATAAAGCCTACCGCGATCTTCGCGATGGCGATAACTACGCCACGCTGAATACCGCGCAGAAAAAAGCGGTGGATAACGCGCTGCGCGATTTCGAATTATCCGGTATTGGCCTGCCGCCGGAGGCGCAGAAACGCTACGGTGAAATCGCCGCGCGCCTCTCTGAGCTGGGCAACCAGTACAGCAACAACGTCCTTGACGCCACCATGGGCTGGAACAAGCTGGTGACCGACGTCGCCGATCTGGCCGGTATGCCGGAAAGCGCGCTGGCCGCCGCTCAGGCGCAGGCCCAGGCCAAAGAGCAGGAAGGGTATCTGCTGACCCTGGATATCCCGAGCTACCTGCCGGTGATGACCTACTGCGACAATCAGGCGCTGCGCGAAGAGATGTACCGCGCCTACTCCACGCGCGCCTCCGACCAGGGGCCAAACGCCGGTAAATGGGATAACAGCCCGGTGATGGCGGAGATCCTCGCCCTGCGCCACGAGCTGGCGCAGCTGCTGGGCTTTGACAGCTACGCCTTTAAATCCCTCGCCACCAAAATGGCGGAGGATCCGCAGCAGGTGCTCGACTTCCTCACCGACCTGGCAAAACGCGCCCGTCCGCAGGGCGAAAAAGAGCTGGCCCAGCTGCGCGCTTTCGCTAAAGCCGAGTTCGGCGTCGAAGAGCTGCAGCCGTGGGACATCGCTTACTACAGCGAAAAACAGAAACAGCATCTCTACAGCATCAGCGATGAACAGCTGCGCCCCTATTTCCCGGAAAACAGAGCCGTTAACGGTCTGTTCGAAGTGGTGAAGCGCATTTACGGCATTACCGCCAAAGAGCGTACCGATGTCGACGTGTGGCATCCGGAAGTGCGCTTCTTCGAGCTGTATGACGAACACAACGAGCTGCGCGGCAGCTTCTATCTCGACCTGTATGCCCGCGAGCACAAGCGCGGCGGGGCGTGGATGGACGACTGCGTCGGCCAGATGCGTAAGCTGGATGGTTCCCTGCAGAAGCCGGTCGCCTACCTGACCTGTAACTTCAACCGTCCGGTCAACGGCAAACCGGCGCTGTTCACCCACGACGAAGTGATCACTCTGTTCCATGAGTTCGGCCACGGTCTGCACCACATGCTGACCCGCATCGATACCGCCGGGGTTTCCGGCATCAGCGGAGTGCCGTGGGATGCGGTCGAGCTGCCGAGCCAGTTTATGGAAAACTGGTGCTGGGAGCCGGAAGCGCTGGCCTTTATCTCCGGTCATTATGAAACCGGTGAACCGCTGCCGCAGGCGCTGCTGGAGAAAATGCTGGCGGCGAAAAACTACCAGGCGGCGATGTTTATTCTGCGCCAGCTGGAGTTCGGCCTGTTCGATTTCCGCCTGCACGCGGAGTACAAGCCGGAGCAGGGGGCGAAAATCCTTGAGACCCTCGCGGAGATTAAAAAGCAGGTCGCCGTGGTGCCGGGCCCAACCTGGGGCCGCTTCCCGCACGCCTTCAGCCATATCTTCGCCGGCGGTTACGCGGCGGGTTACTACAGCTACCTGTGGGCTGACGTGCTGGCGGCAGACGCCTTCTCACGCTTCGAAGAAGAGGGGATCTTCAACCGTGAAACCGGTCAGTCGTTCCTCGATAACATCCTGAGTCGCGGCGGTTCTGAAGAGCCGATGGTGCTGTTCAAACGCTTCCGCGGGCGCGAGCCGCAGCTGGATGCGATGCTGGAGCATTACGGGATCAAGGGTTAA	MTNPLLTPFSLPPFSAIKPEHVVPAVTKALEDCRAAVESAVAHGAPYSWENLCQPLAEVDDVLGRIFSPVSHLNSVKNSPELREAYEQTLPLLSEYSTWVGQHEGLYKAYRDLRDGDNYATLNTAQKKAVDNALRDFELSGIGLPPEAQKRYGEIAARLSELGNQYSNNVLDATMGWNKLVTDVADLAGMPESALAAAQAQAQAKEQEGYLLTLDIPSYLPVMTYCDNQALREEMYRAYSTRASDQGPNAGKWDNSPVMAEILALRHELAQLLGFDSYAFKSLATKMAEDPQQVLDFLTDLAKRARPQGEKELAQLRAFAKAEFGVEELQPWDIAYYSEKQKQHLYSISDEQLRPYFPENRAVNGLFEVVKRIYGITAKERTDVDVWHPEVRFFELYDEHNELRGSFYLDLYAREHKRGGAWMDDCVGQMRKLDGSLQKPVAYLTCNFNRPVNGKPALFTHDEVITLFHEFGHGLHHMLTRIDTAGVSGISGVPWDAVELPSQFMENWCWEPEALAFISGHYETGEPLPQALLEKMLAAKNYQAAMFILRQLEFGLFDFRLHAEYKPEQGAKILETLAEIKKQVAVVPGPTWGRFPHAFSHIFAGGYAAGYYSYLWADVLAADAFSRFEEEGIFNRETGQSFLDNILSRGGSEEPMVLFKRFRGREPQLDAMLEHYGIKG	PGPT0020985_1439	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020985-prlC-K01414	NA	NA
BMS020_03104	1272			hypothetical protein	ATGAAAAAGCAACTCTCGCTGCTGGCCGTCGCGCTGCTGCTGGCGCAACCGGTTCTGGCTAAAGACATCCCGCTGAACAAGGCGGCGGCCCTCGCCAATAGCGTGACGCCGGCTGCCTCCAGTCAGGCGTATGACGATCTTGAGCAACAGGCGCTGGCGCAGTTGCGCCACGCGCTGCAAGGGGATGCCGCGACGCTGACCCGCGATCGGTTGGCGCACACGAAACAAAACAAAACCCAGGCCGATACCGCCTGGCTGAAGGCCAGCGGCTACGACTTCCAGACCCGGGCAAACCAGCAGGCGGATATTGCGCTATTGTCGGCGTTCAGCAGTCTGCCGGAGACCGTCGTGAAGCAGAATCTGGCGACGGTGACCGCCATCAACCGCGACGCCGTGCAGACCACCCGCCGTCAGGCGCTGGCCGATGCGCAAGGGATTAGCTACCTCTATTTCCTCAGCGACGCGCTGGGGCCTCGTCTGGGCAACGCGTTTCTGACCGCCTATGACCAGGGCGCGCTGGGGAAAGCGGCGGCGCTGATCAAAGCCTCGGAAGTCAGCACCGGCGAGGCGAAAAAGCACTTCCACAATCCGCGGCCGTTCCTGGTCCAGGGCAACACCATTCACCTGGTGCCGGACGACGTGGTGGTGAAGGATAACCAGCCCTATACCGCCGACGGCGGCTCGTTCCCCAGCGGCCACACCAACACTGGCTATACCGATGCGCTGCTGCTGGCGGCGATGATCCCGGAGCGCTACGACGCGCTGGTGGCGCGCGGCGCCCGCTATGGCTACTCGCGCATTGTGCTGGGCGTCCACTATCCGCTGGACGTGATCGGCTCGCGGATGGTGGCCGAGCGCAACGTGGCCCATTATCTTAACGATCCGCGCTACCGGGTATTATTTAACGAAGCCCGCGATCAGCTGCGCGCCGCGCTGGCGAAAGCCTGCGGTACGTCGCTTGCCGAGTGCGCGAAGAGCAGCGTGAAAGACGATCCCTGGCGCGATCCGGCGATGCGTGATTTCACTCGTTTCGCCATGACCTACGACCTGCCGCGGCAGAAGGGGCCGCAGCCGCGCCTGCAGGCGCCGGAGGGGGCGGAAGTGCTGCTGGAGGCTGCTCTGCCGCAGCTGTCAGCGGCCCAGCGTCGGGCGCTGATGGTCAACACCGCGCTGCCGGCGGGCTACCCGCTGTCCGGCGCCACCCCCGAACAGCAGTTCTGGCAGCGGTTGAATCTGTCGGCGGCCTGGGAGATGGCGCAAAAAAGACATTAA	MKKQLSLLAVALLLAQPVLAKDIPLNKAAALANSVTPAASSQAYDDLEQQALAQLRHALQGDAATLTRDRLAHTKQNKTQADTAWLKASGYDFQTRANQQADIALLSAFSSLPETVVKQNLATVTAINRDAVQTTRRQALADAQGISYLYFLSDALGPRLGNAFLTAYDQGALGKAAALIKASEVSTGEAKKHFHNPRPFLVQGNTIHLVPDDVVVKDNQPYTADGGSFPSGHTNTGYTDALLLAAMIPERYDALVARGARYGYSRIVLGVHYPLDVIGSRMVAERNVAHYLNDPRYRVLFNEARDQLRAALAKACGTSLAECAKSSVKDDPWRDPAMRDFTRFAMTYDLPRQKGPQPRLQAPEGAEVLLEAALPQLSAAQRRALMVNTALPAGYPLSGATPEQQFWQRLNLSAAWEMAQKRH				NA	NA	NA	NA	NA
BMS020_03105	843	rlmJ_1	COG2961	Ribosomal RNA large subunit methyltransferase J	ATGCTCAGTTATCGCCACAGCTTTCACGCAGGCAACCACGCCGACGTCCTCAAACACACCGTTCAGAGCCTGATCATTGAAGCGCTGAAAGAGAAAGAAAAACCGTTTCTCTACCTGGACACCCACGCCGGCGCGGGCCGCTATCAGCTGAGCGGCGAGCACGCCGAGCGTACCGGCGAGTATCTCGAAGGCATCGCCCGCATCTGGCAGCAGGACGACCTGCCGGCAGAGCTTGAGCCCTATATTTCGGTGGTCGAACACTTCAACCGTAACGGCCAGCTGCGCTACTACCCGGGTTCTCCGCTGATCGCCCGCCAGCTGCTGCGCGAGCAGGACAGCCTGCAGATGACCGAGCTGCACCCGAGCGACTTCCCGCTGCTGCGCGCCGAGTTTCAGAAAGACAGCCGCGCGCGCGTCGATAAAGCCGATGGCTACCAGCAGCTGAAAGCCAAACTGCCGCCGGTCTCGCGCCGCGGTCTGATTCTGATCGACCCGCCGTACGAAATTAAAACCGACTATCAGGCGGTGGTGACCGGAATTAACGAAGGCTACAAACGCTTCGCCACCGGCACCTACGCGCTGTGGTACCCGGTGGTGCTGCGCGCGCAGATCAAACGCATGATCAAAGACTTAGAAGCCACTGGCATTCGCAAGATTCTGCAGATTGAGCTGGCGGTACGTCCTGACAGCGACCAGCGCGGCATGACCGCCTCCGGGATGATCGTCATCAACCCGCCGTGGAAGCTGGAGCAGCAGATGAACAATGTGCTGCCGTGGCTGCACAGCAAGCTGGTGCCGGCCGGTACCGGTCACACGACCGTCAGCTGGATCGTGCCGGAGTAA	MLSYRHSFHAGNHADVLKHTVQSLIIEALKEKEKPFLYLDTHAGAGRYQLSGEHAERTGEYLEGIARIWQQDDLPAELEPYISVVEHFNRNGQLRYYPGSPLIARQLLREQDSLQMTELHPSDFPLLRAEFQKDSRARVDKADGYQQLKAKLPPVSRRGLILIDPPYEIKTDYQAVVTGINEGYKRFATGTYALWYPVVLRAQIKRMIKDLEATGIRKILQIELAVRPDSDQRGMTASGMIVINPPWKLEQQMNNVLPWLHSKLVPAGTGHTTVSWIVPE				NA	NA	NA	NA	NA
BMS020_03106	1353	gor	COG1249	Glutathione reductase	ATGAGCAAACATTATGATTACCTCGCCATCGGCGGCGGTAGCGGCGGTATCGCCTCGATTAACCGTGCGGCCATGTACGGCCAGAAGTGCGCGCTGATTGAAGCCAAAGCGCTGGGCGGCACCTGCGTCAACGTCGGCTGCGTGCCGAAAAAAGTGATGTGGCATGCGGCGCAGATCCGCGAAGCGATTCATCTTTACGGCCCGGACTACGGTTTCGATACCACCATCAACCATTTCGACTGGGAGAAGCTGGTCGCCAGCCGCAGCGCCTATATCGACCGCATTCATACCTCCTACGACAACGTGCTGGGTAAGAACAACGTCGACGTGATCAAAGGCTTTGCGCGCTTTGTCGATGCCCACACCGTGGAAGTGAACGGCGAGACCATTACGGCCGATCATATCCTGATCGCCACCGGCGGCCGTCCGAGCCACCCGACCATTCCGGGCGTGGAATACGGTATTGATTCCGACGGTTTCTTCGAACTGCCGGCGCTGCCGAAGCGCGTGGCGGTGGTCGGCGCGGGCTACATCGCCGTTGAGCTGGCGGGGGTGATTAACGGCCTCGGCGCTGAAACCCACCTGTTCGTGCGCAAGCACGCGCCGCTGCGCAGCTTCGATCCGCTGATCGTCGAAACGCTGGTGGAAGTGATGAACGCCGAAGGTCCGCAGCTGCATACCAACGCCATCCCGAAAGCGGTGGTGAAGCATGCCGACGGCAGCCTGACCCTTGAGCTGGAAGATGGCCGCAGCCAGACCGTTGATTGCCTGATCTGGGCGATTGGCCGCGAACCGGCGACCGATAACTTCAACCTGGCGGCTACCGGCGTGAAAACTGACGATAAAGGCTACATCGTCGTCGATAAGTTCCAGAACACCAGCGTGCCGGGCATCTACGCCGTGGGCGATAACACCGGCGCCGTTGAGCTGACCCCGGTGGCCGTGGCCGCAGGCCGTCGTCTCTCCGAACGCCTGTTTAACAACAAACCGGAAGAGCATCTGGACTACAACAACATTCCGACCGTGGTCTTCAGCCACCCGCCTATCGGCACCGTCGGCTTAACCGAGCCGCAGGCGCGCGAGCAGTATGGCGACGACGCCGTGAAGGTCTACAAATCCTCCTTCACCGCGATGTACACCGCTGTCACCTCGCACCGCCAGCCGTGCCGCATGAAGCTGGTGTGCGTCGGCCCGGAAGAGAAGATTGTCGGTATCCATGGCATCGGCTTCGGGATGGATGAGATGCTGCAGGGCTTTGCGGTGGCGTTGAAGATGGGCGCCACCAAAAAAGACTTCGACAACACCGTCGCCATTCACCCAACGGCGGCAGAAGAGTTTGTCACCATGCGCTAA	MSKHYDYLAIGGGSGGIASINRAAMYGQKCALIEAKALGGTCVNVGCVPKKVMWHAAQIREAIHLYGPDYGFDTTINHFDWEKLVASRSAYIDRIHTSYDNVLGKNNVDVIKGFARFVDAHTVEVNGETITADHILIATGGRPSHPTIPGVEYGIDSDGFFELPALPKRVAVVGAGYIAVELAGVINGLGAETHLFVRKHAPLRSFDPLIVETLVEVMNAEGPQLHTNAIPKAVVKHADGSLTLELEDGRSQTVDCLIWAIGREPATDNFNLAATGVKTDDKGYIVVDKFQNTSVPGIYAVGDNTGAVELTPVAVAAGRRLSERLFNNKPEEHLDYNNIPTVVFSHPPIGTVGLTEPQAREQYGDDAVKVYKSSFTAMYTAVTSHRQPCRMKLVCVGPEEKIVGIHGIGFGMDEMLQGFAVALKMGATKKDFDNTVAIHPTAAEEFVTMR	PGPT0013175_2394	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013175-gor-K00383	NA	NA
BMS020_03107	1011	ampC		Beta-lactamase	ATGCGCGAGAAGCAGGTCAGCGGCATGGTGGTGGCAATTATTCATCATAACGGCCCGGCGGAGTTTCACTGCTTCGGCGTGACCGATGACCAACATCGCTACCCGATAACCCCGCATACGCTGTTTGCCCTCGGCTCGCTGAGCAAAGGGGTTACCGCCGAAGTGGTCACGATGCTGGTGAACGAAGGCCGTTTCCACTGGCACGACACGCTGCAGACCCTGCTGCCGCCGGGTACCGCGCTGAGTGAGGATGCCCGTAAGATAACCTTGCTGCAGCTGGTGACGCATACCTCAGGGCTGCCGCGGCAACCGATGAATATGCTGTCGCTTGAGCACCTGCTGGCCTATCTCAACGATGGCGAAAACTTCTACCATGAGCTCGATGCCGATGGCGTACTGAGTTATCTGCAGCATTTCCAGGCCCCGGCGGAACCGGCGCCGAGTTACTCCAACCTCGGCTACGCGATCCTCGGCTATCTTCTCCAGTACCAGACTGGCGAATCGATTGAGACGCTGGCCTCGCGGATGATCTTCCGCCCGCTGGCGATGGGGAACACCAGCTTCCTGCCGCAAACGCTGCGTGATTATCCGTGGCGGGCGCTGGGCCATGCTGGCGATCAGCCGAAATTTAAACCCCGCGGCGCGCTGACGCCGGACTGGCAGTTCCGTCATAACATGGTCGGCGCGGCGAGTTTGTACAGCGACGCAGGGGATCTGATTCACTATGCCCGCGCCCACTTCGCGCCCACCGGTCAGGCGGCGCTGGATCAGGCGTTCCGCGACGTTAGCGTCGACTATTATCCGCGACGGATTGAAGCGGCGAATATCGCCTGGGTAACAGACACGTTCGGCGAGCAGCAATTAACCTATCAGGTGGGGTACATCGGCGGCTATTCGAGCTATATCGGTTTTGATAAAGCGAATCAGAATGCGGTGGTGGTGCTGCAAAACAGCTTTAACTGGAGCAACTATATCGGCCACCAGATCCTGCGTCACCTGGCGGCGCAATAA	MREKQVSGMVVAIIHHNGPAEFHCFGVTDDQHRYPITPHTLFALGSLSKGVTAEVVTMLVNEGRFHWHDTLQTLLPPGTALSEDARKITLLQLVTHTSGLPRQPMNMLSLEHLLAYLNDGENFYHELDADGVLSYLQHFQAPAEPAPSYSNLGYAILGYLLQYQTGESIETLASRMIFRPLAMGNTSFLPQTLRDYPWRALGHAGDQPKFKPRGALTPDWQFRHNMVGAASLYSDAGDLIHYARAHFAPTGQAALDQAFRDVSVDYYPRRIEAANIAWVTDTFGEQQLTYQVGYIGGYSSYIGFDKANQNAVVVLQNSFNWSNYIGHQILRHLAAQ				NA	NA	NA	NA	NA
BMS020_03108	624	gstB_4	COG0625	Glutathione S-transferase GstB	ATGCTAACAATTCTGGGCAAACGCTCTTCAATCAATGTACGGAAAGTGCTGTGGACCTGCGAGGAGATCGGGCTGGCGTACCAGCAGGAGGATTACGGCAGCGGGTTTAAGCCCCTGGACACCCCCGAATTTCAGCGCCTGAATCCTAACAGCCTGGTGCCGGTGCTGCTGGACGATGACTTTGTGCTCTGGGAGTCGAACAGTATCTGCCGCTATCTGGCGCGAAAAGCGGAGCGCTGGGATCTGCTGCCCGCCGGGCCGCAGCCCGCCGCCGAGGTGGAGCACTGGATGGACTGGCAGGCGACCGAGTTCAATAATGCCTGGCGCCATGCTTTTATGGGGCTGGTGCGTAAAGATCCCCGCTTTCAGGATCCGGCGGCGATTAAAGAGAGCATTGCCGCCTGGACCCACTGCGTGCGCATTGTCGAAGCGCAGCTGCAGCGGACCGGGGCGTGGGTCGCCGGCGAGCGCTTCACCCTGGCTGATATTGTGCTGGGCCTGTCGGTGCATCGCTGGAAGATGACGCCCTTTGCCCATCCGGAAATGCCGGCCGTGGAGCGCTGGTATATGGCGCTCAATCAGCGCCCGGCGTTTATGCGCCATGGAAATAACGGCGTGGCGTAG	MLTILGKRSSINVRKVLWTCEEIGLAYQQEDYGSGFKPLDTPEFQRLNPNSLVPVLLDDDFVLWESNSICRYLARKAERWDLLPAGPQPAAEVEHWMDWQATEFNNAWRHAFMGLVRKDPRFQDPAAIKESIAAWTHCVRIVEAQLQRTGAWVAGERFTLADIVLGLSVHRWKMTPFAHPEMPAVERWYMALNQRPAFMRHGNNGVA	PGPT0013170_17579	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS020_03109	1194	mdh_2		NAD-dependent methanol dehydrogenase	ATGTGTATAGTTGATTCCAGCCTGTTTGCCGAAAAGGAACCCGACATGTTGACCCCTTTTACCGTTTTGATGCCTGCAAATATTCGTTTTGGCCGCGGTCAGGCCCAGAGCGCCGCCCCCTGGCTGGCGCAGCAGGGCGGTCCAGTTCTGCTGGTGCATGGCGCCAGCCCGCAGCGGGCGGCGTTTCTCCGCCATCAGCTGGAGGCGCTGCAGCTGGCGGTCACGACGCTGGCGATAAGCCGCGAACCCTGGCTTATCGATATTGAGCAGGGCGTCCAGCTGGCGCGCGAGAAAGGGATCAGGGCGGTGGTCAGCCTCGGCGGCGGCGCGGTGATTGACGCCGGTAAGGCGATTGCGGCGCTGGCGCCCGCCACCGGCCCGCTGGTCGACTATCTGGAAGTCGTGGGAACCGGCCGTCAGCTGGAAGCCAGCCCGCTGCCGTTCGTGGCGATCCCCACCACCGCGGGCACAGGCGCGGAAGTCACTAAAAACGCGGTGATCAACGTCGTGGAACAGCAGCGGAAAGTGAGCCTGCGCGACGACCGGATGCTGCCTGACCTGGCCATTGTCGACCCGGCGCTAACCGACAACGCGCCGCGCAGCATCACCCTGAGCTCCGGCCTCGACGCCCTGACCCAGGTGATCGAGCCCTGGCTCTGCAGCCGGGCCACCCCTTTCACCGACGCCCTCTGTCAGCAGGCGATCCCGCGCGGCATCCGCGCGCTGAAGGTTTTGATGGAAAAAGAGTGCCCGGCCAGCCGCGACGAGATGGCCTGGGTCAGCCTGTGCGGCGGAGTGGCGCTGGCGAACGCCGGGCTGGGGGTGATCCACGGCCTCGCCGGCCCGCTGGGCGGCCTGAGCCGCGCCTCGCACGGCGCCTTATGCGGCAGCCTGCTGCCGTTTGGGCTGGCGCTGAATGAGTCGCAGATAAACGACCCCGCCCTGCGCCAGCGCTTCAACGACGTTCGCCGCTGGCTGGCCGAGGGGCTGGAGGTCCCGGCGGATCGGGTCTGGGACAGCCTGCGGGAATGGAGCCATCGCGCCGGTCTCGGCACCCTGCGCGACCTCGGCGTGGCGCGCGACGCCCTGGAGCCGGCGGCGCTGGCCGCCAGCACCTCCTCGTCGATGAAGGCTAATCCGGTCAGCCTGAGCAGCGAACAGCTGCTGGAGATGCTGGAGGCGGCGTGGGAGTGA	MCIVDSSLFAEKEPDMLTPFTVLMPANIRFGRGQAQSAAPWLAQQGGPVLLVHGASPQRAAFLRHQLEALQLAVTTLAISREPWLIDIEQGVQLAREKGIRAVVSLGGGAVIDAGKAIAALAPATGPLVDYLEVVGTGRQLEASPLPFVAIPTTAGTGAEVTKNAVINVVEQQRKVSLRDDRMLPDLAIVDPALTDNAPRSITLSSGLDALTQVIEPWLCSRATPFTDALCQQAIPRGIRALKVLMEKECPASRDEMAWVSLCGGVALANAGLGVIHGLAGPLGGLSRASHGALCGSLLPFGLALNESQINDPALRQRFNDVRRWLAEGLEVPADRVWDSLREWSHRAGLGTLRDLGVARDALEPAALAASTSSSMKANPVSLSSEQLLEMLEAAWE				NA	NA	NA	NA	NA
BMS020_03110	1653	treF	COG1626	Cytoplasmic trehalase	ATGTTCAGCCAGAAATTACGCCACGTTGAAGACGACGAGTTAAGGATCGACATCGATCCCTGCTACGAAGCCGATCCGTACGAATTAAAGCTGGATGAGATGATTGACGCTGAACCGGAGCCTGAGGTGATCGAGGGGCTTCCGGCCTCCGATGCCCTCACCCCGGCGGATCGCTATCTTGAGCTGTTTACCAACGTGCAAAAATCACGCATTTTTGCCGACAGCAAAACTTTTCCCGACTGCGCGCCGAAACACGACCCGCTGGACATCCTGCGGAATTACCGGAAGGTCAAACGCCAGCCCGATTTCGACCTGCGGCAGTTCGTTGAGGATAATTTCTGGCTGCCGGAGAGCCATACCGACGTCTACACCTCCGACCCCAGCCTGACGCTGAAAGAGCATATCGATAAGCTATGGCCGGTGTTGACCCGCGAGCCTCAGGATCATATCCCCTGGTCATCGCTGCTGGCGCTGCCGCAGGCCTATATCGTGCCCGGCGGTCGCTTTAGCGAAACCTATTACTGGGACTCTTATTTCACCATGCTGGGGCTGGCGGAGAGCGGCCGGGAAGATCTGCTGAAATGCATGGCCGATAACTTCGCCTGGCTGATTGAAACCTACGGTCACATTCCGAACGGCAACCGCACCTACTACCTCAGCCGCTCGCAGCCCCCGGTGTTCGCCCTGATGGTCGAACTCTTTGAAGAGGACGGCGTGCGCGGCGCGAAGCGCTATCTGGATCATCTGAAGATGGAGCATGCCTTCTGGATGGACGGCGCCGAGTCGCTGATCCCGCATCAGGCGTATCGGCACGTGGTGCGCATGCCGGATGGCTCCCTGCTCAATCGCTACTGGGACGACCGGGACACGCCGCGGGATGAATCGTGGCGCGAGGACGTGGAGACCGCCCGACACTCCGGACGGCCGGCCAATGAAGTCTACCGCGACCTGCGGGCGGGCGCCGCGTCCGGCTGGGACTACTCCAGCCGCTGGCTGCGGGATATCACGCGACTGGCCAGTATCCGCACCACGCAGTTTATCCCCATCGACCTGAACGCCTTCCTGTTCAAGCTGGAGACGACCATCGCCAACCTCTCCGGCCTGAAGGGCGATCGCGAGACGGAAGCGGCCTTCCGCCAGAAGGCTCAGGATCGGCGGGCGGCGGTTAACCGCTATCTGTGGGACGATGAGAACGGCTGTTTTCGCGATTATGACTGGCGCCGCGAACAGCTGGCGCTGTTTTCCGCCGCCAGCATTGTCACCCTTTACGTCGGCCTGGCGACCCACGAACAGGCGGAACGCCTTGCCGATGCGGTGCGGGCCCGCCTGCTCACCCCCGGCGGGATCATGGCCACCGAATACGAGAGCGGCGAGCAGTGGGATAAACCCAACGGCTGGGCGCCGCTGCAGTGGATGGCGGTGCAGGGATTTAAACGCTACGGCCAGGATCCGCTGGGCGATGAGATCGCCTGGAGCTGGCTGCAGACGGTCAACCACTTCTACAAGCAGCACCACAAGCTGATTGAGAAATACCACATCGCCACCGGCGTTCCGCATGAGGGCGGCGGCGGGGAGTATCCCCTGCAGGATGGCTTCGGCTGGACCAACGGCGTCGTGCGCCGGCTGATTGGCCTCTACGGCGAGCCAACCTAG	MFSQKLRHVEDDELRIDIDPCYEADPYELKLDEMIDAEPEPEVIEGLPASDALTPADRYLELFTNVQKSRIFADSKTFPDCAPKHDPLDILRNYRKVKRQPDFDLRQFVEDNFWLPESHTDVYTSDPSLTLKEHIDKLWPVLTREPQDHIPWSSLLALPQAYIVPGGRFSETYYWDSYFTMLGLAESGREDLLKCMADNFAWLIETYGHIPNGNRTYYLSRSQPPVFALMVELFEEDGVRGAKRYLDHLKMEHAFWMDGAESLIPHQAYRHVVRMPDGSLLNRYWDDRDTPRDESWREDVETARHSGRPANEVYRDLRAGAASGWDYSSRWLRDITRLASIRTTQFIPIDLNAFLFKLETTIANLSGLKGDRETEAAFRQKAQDRRAAVNRYLWDDENGCFRDYDWRREQLALFSAASIVTLYVGLATHEQAERLADAVRARLLTPGGIMATEYESGEQWDKPNGWAPLQWMAVQGFKRYGQDPLGDEIAWSWLQTVNHFYKQHHKLIEKYHIATGVPHEGGGGEYPLQDGFGWTNGVVRRLIGLYGEPT	PGPT0019170_1154	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-TREHALASE,PGPT0019170-treA|treF-K01194	NA	NA
BMS020_03111	534			hypothetical protein	ATGCCTGAACTTCTGACGCCGCGCCTGCGCTGCTCACCGCTGCAGCTGGACGACTGGTCGTTTTTTCTTTCCCTGCAGCAGGATCCGCAGGTCATGCTTTACGTGGCCGACCCCAGGCCGCAGGCGGCCATCCGCGAGGCGTTCGATTCACGGCTGCCGCCGTGGACGCCCGGGGATGAACACTGGCTGTGCCTGGTGGTGCGCGACAGGCTGACCCATACCCCGCTCGGCCTCACCGGTTACCAACATCATCAGCGCGACATTGCCGAGGTCGGCTTTCTCTTCGCTCCGGCGGCGCAGGGTCGTGGCTACGGCTACGAATCGCTGCGCGCGCTGTGCGACTACGCCTTCACTACCGGCGGCGTCCGCCGCCTGACCGCCAGCGTCACCGCCGGCAACGAGGCGTCCAAGCAGTTACTGCTCAAAGCCGGGTTCAGGCTGGAGGGGGAGCTGCGGGAGAACTACTGGCTCAACGGGCGCTGGCACAATGACTGGCTGTTCGGTCGGCTGCGCGCGGAGGGCGATGCGCCCTAG	MPELLTPRLRCSPLQLDDWSFFLSLQQDPQVMLYVADPRPQAAIREAFDSRLPPWTPGDEHWLCLVVRDRLTHTPLGLTGYQHHQRDIAEVGFLFAPAAQGRGYGYESLRALCDYAFTTGGVRRLTASVTAGNEASKQLLLKAGFRLEGELRENYWLNGRWHNDWLFGRLRAEGDAP				NA	NA	NA	NA	NA
BMS020_03112	759	fabG_7		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGACACAACGTATCGCTTTAGTGACTGGCGGCAGCCGCGGTCTGGGTAAAAACGCCGCGTTGAAGCTGGCGGCGAAGGGAACCGACATTCTTCTGACCTATCACAGCAACCGCCAGGCGGCGCTCGAGGTGGTGGCGGAGATTGAGCAAAAAGGGGTGAAGGCGGCAGCATTGGCGCTGAACGTCGGCGATCCTTCAACATTCGACGCTTTCGCCAGCGAGGTGGCGCAGGTGCTGGCGCAGAAATGGGGACGCACCACCTTTGATTATTTACTGAACAACGCCGGGATCGGCCTCAACGTCCCCTTCGCCGAGACCAGCGAAGCGCAGTTTGACGAGCTGATGAACATCCAGTTCAAAGGCCCGTTTTTCCTGACCCAGCGGCTGCTGCCCCTCCTGCAGGACGGGGGGCGCATCCTCAACGTTTCCAGCGGCCTGGCGCGCTTTGCCCTGCCGGGCTATGCGGCCTACGCCGCGATGAAGGGGGCGATGGAGGTTCTGACCCGCTATCAGGCGAAAGAGCTGGGCGGACGGGGGATATCGGTGAACATCATCGCGCCGGGGGCCATTGAGACCGACTTTGGCGGCGGGGTGGTGCGCGATAACGCCGAGGTGAATCGGCATATCGCCGCCCAGACCGCGCTGGGGCGCGTCGGGCTGCCGGATGATATCGGCGACGCCATCGCCGCCCTGCTCAGCGATGAGCTGGCGTGGATGAACGCGCAGCGCGTGGAAGTCTCGGGAGGGATGTTCCTCTGA	MTQRIALVTGGSRGLGKNAALKLAAKGTDILLTYHSNRQAALEVVAEIEQKGVKAAALALNVGDPSTFDAFASEVAQVLAQKWGRTTFDYLLNNAGIGLNVPFAETSEAQFDELMNIQFKGPFFLTQRLLPLLQDGGRILNVSSGLARFALPGYAAYAAMKGAMEVLTRYQAKELGGRGISVNIIAPGAIETDFGGGVVRDNAEVNRHIAAQTALGRVGLPDDIGDAIAALLSDELAWMNAQRVEVSGGMFL	PGPT0003180_8442	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
BMS020_03113	900	dmlR_21		HTH-type transcriptional regulator DmlR	ATGGATAAAATTCATGCAATGCAGTTATTCATTCGCGTAGCGGATCTGGAGAGTTTCTCCCGCGCCGCCGAGACCCTGGCGCTGCCGAAAGGCAGCGTCTCGCGGCAGATTCAGGCTCTGGAAAGCCATCTTGGCGTGCGCCTCCTGCACCGCACCACCCGCCGGGTTCAGCTCACCCAGGATGGAATGGTCTACTACGAGCGGGCGAAGGATCTGCTGAGCAACCTCGACGAACTGGACGGTATGTTCCAGCACGATCCGGCGAGCATCAGCGGCCGGCTGCGGGTGGATATGCCGGTCGGTTTTGCCAAAAAGCTGGTGATCCCGCACCTGCCGGCTTTTTTGCAGCAGTATCCGGGCATCGAACTGGAGCTGAGCAGCAGCGACCGGCTGGTGGACGTGATCCGCGAGGGGTTTGACTGCGTGGTGCGCGTCGGCGCGCTCAAAGACTCCGGGCTTATCGCCCGCCCGCTGGGCAAGCTGACGCAAATTAACTGCGCCAGCCCGGACTACCTGACCCGTTTTGGCTACCCGCAATCCCTGGAGGATCTGGCGGATCACGCCCTGATCCACTACGCCAGCACCCTCGGGGTCCGTCCTTCCGGCTTCGAGGTGGTGATCGACGGCGCCGTGCGCTGGGTAAAAAGCGGCGGCATATTGACGGTCAACAGCACGGAAACCTATCAGGCGGCCTGTATCGCCGGGCTGGGAATTATTCAGGTGCCACGCACCGGCGTGCGCGAGGCGTTACGCGCCGGCGAACTGATTGAGATCCTGCCCCAGTACCGCGCTGAGCCGCTGCCGGTCTCGCTTATCTACCCGCACCGGCGCAATCTCTCCCGCCGCGTGCATCTGTTTATGGAGTGGCTGGGCGGGCTGATGAAAGATTACGTCGATTGA	MDKIHAMQLFIRVADLESFSRAAETLALPKGSVSRQIQALESHLGVRLLHRTTRRVQLTQDGMVYYERAKDLLSNLDELDGMFQHDPASISGRLRVDMPVGFAKKLVIPHLPAFLQQYPGIELELSSSDRLVDVIREGFDCVVRVGALKDSGLIARPLGKLTQINCASPDYLTRFGYPQSLEDLADHALIHYASTLGVRPSGFEVVIDGAVRWVKSGGILTVNSTETYQAACIAGLGIIQVPRTGVREALRAGELIEILPQYRAEPLPVSLIYPHRRNLSRRVHLFMEWLGGLMKDYVD	PGPT0028940_516	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
BMS020_03114	1032	yhjD	COG1295	Inner membrane protein YhjD	ATGACGCCGGAAAACGACGATCGACGCCCCCCACAGGAACCGGACACGCAGCCGGAGAAAAACAAAAGCCCCCTCGACGCTCTCAATGACACGGCCGTCGGGCAAAAAGCCAGCCAGGCGCTGAAGACCGTCACCGGAACGGCGGCCAAAGTGCAGCGCAACCCGGTGATCGCCCACCTGATACGCGCCGCAGAGCGCTTCAACGACCGGCTGGGCAATCAGTTCGGCGCGGCCATCACCTACTTCTCGTTCCTGTCGATGATCCCGATCCTGATGGTCTCGTTTGCCGCCGCCGGCTTCGTGCTGGCCTGGCATCCGACCCTGCTGCAGGACATTTTCGACAAAATTCTGCAAAACGTCAGCGACCCGACGCTGGCGGCGACGCTGAAAAACACCATCAACACCGCGGTGCAGCAGCGCACCGCCGTCGGCCTCGTCGGCCTGCTGGTGGCGCTCTATTCCGGTATTAACTGGATGGGCAACCTGCGCGAAGCGATCCGCGCTCAGTCGCGCGACGTCTGGGAACGCCGGCCGCAGGACGAGGAGAAAATCTGGATAAAATACTTCCGCGATCTTATCTCGCTGATCGGTCTGCTGGTGGCGCTGATTATTACGCTGTCGATCACCTCTGTCGCCGGTTCCGCCCAGCAGTTGATTATCTCCGCGCTGTATCTGGACAATATTGAATGGCTGAAACCCGCCTGGCGGCTGATCGGTCTCGCCATCTCGATTTTTGCCAACTATCTGCTCTTTTTCTGGATCTTCTGGCGGCTGCCGCGCCACCGTCCGCGGCGCAAAGCCCTGTTTCGCGGCACGCTTATCGCGGCGATTGGCTTTGAAATCATCAAAATCGTCATGACCTGGACGCTGCCGGCGCTGGTGAAATCCCCTTCCGGGGCGGCGTTCGGATCGGTGCTGGGGCTGATGGCCTTTTTCTATTTCTTTGCCCGCCTGACGCTGTTCTGCGCCGCGTGGATCGCCACCGCGGAGTATAAAGACGACCGGCGGATGCCGGGCAAAACCCACCGCTGA	MTPENDDRRPPQEPDTQPEKNKSPLDALNDTAVGQKASQALKTVTGTAAKVQRNPVIAHLIRAAERFNDRLGNQFGAAITYFSFLSMIPILMVSFAAAGFVLAWHPTLLQDIFDKILQNVSDPTLAATLKNTINTAVQQRTAVGLVGLLVALYSGINWMGNLREAIRAQSRDVWERRPQDEEKIWIKYFRDLISLIGLLVALIITLSITSVAGSAQQLIISALYLDNIEWLKPAWRLIGLAISIFANYLLFFWIFWRLPRHRPRRKALFRGTLIAAIGFEIIKIVMTWTLPALVKSPSGAAFGSVLGLMAFFYFFARLTLFCAAWIATAEYKDDRRMPGKTHR	PGPT0014525_2577	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
BMS020_03115	1323	yhjE_1		Inner membrane metabolite transport protein YhjE	ATGCAAGCCACAGCCACCACACTCGAAAACACGCAGGAAACCGCCCCGGTCAACTCACGCAATAAAGTCGTTGTCGCCTCGCTCATTGGCACCGCCATTGAGTTTTTCGACTTCTACATCTATGCCACTGCCGCGGTCATCGTCTTCCCGCATATCTTCTTCCCGCAGGGCGATGCCGCCGCGGCCACCCTGCAGTCGCTGGCCACCTTCGCCATCGCCTTCGTCGCCCGGCCAATCGGCTCCGCGCTGTTTGGCCACTTCGGCGATCGCGTCGGCCGGAAGGTCACCCTGGTGGCCTCGCTGTTAACCATGGGGATCTCCACTGTGGTGATCGGCCTGCTGCCCGGCTATGAAAGCATTGGCATTGTCGCGCCGATGCTGCTGGCGCTGGCGCGCTTCGGTCAGGGACTTGGCCTCGGAGGGGAGTGGGGCGGCGCAGCGCTGCTGGCAACGGAAAACGCCCCGGCGCGCAAGCGCGCCCTGTATGGCTCCTTCCCGCAGCTGGGCGCGCCGATCGGCTTCTTCTTCGCCAACGGCACCTTCCTGCTGCTCTCCTGGCTGTTAACCGATCAGCAGTTTATGGAGTGGGGCTGGCGCGTGCCGTTTATCTTCTCCGCGGTGCTGGTGATCATCGGTCTGTATGTTCGCGTTTCGCTGCATGAGACCCCGGTCTTCGCCAAAGTGGCGGCGGCGAAAAAACAGGTCAAAATCCCGCTGGGTACCCTGTTGACCAAACACGTCCGCGTGACGGTGCTGGGCACCTTCATCATGCTGGCAACCTATACCCTGTTCTACATCATGACCGTCTACTCGATGACCTTCAGCACCGGCGCGGCGCCGAATGGCCTGGGCCTGCCGCGTAACGAAGTGCTGTGGATGCTGATGATGGCGGTGATTGGCTTTGGCGTAATGGTGCCGATCGCCGGCCTGCTGGCGGACGCCTTTGGTCGTCGTAAGAGCATGATTATCATCACCACGATGATTATTTTGTTCGCCCTGTTCGCCTTTAAACCGCTGCTGGGTTCCGGTAACCCGCTGCTGGTCTTTGCCTTCCTGCTGCTGGGCTTAAGCCTGATGGGACTGACCTTTGGCCCGATGGGCGCGCTGCTGCCGGAGCTGTTCCCGACGGAAGTGCGCTACACCGGGGCGTCGTTCTCCTATAACGTGTCGTCGATCCTCGGCGCCTCGGTCGCGCCGTACATTGCCGCCTGGCTGCAGGGCAACTATGGCCTCGCGGCGGTCGGCACCTATCTGGCGGCGATGGCGGCGCTGACGCTGATCGCCCTGCTGCTGACCCACGAGACCCGCCACCAGTCGTTGTGA	MQATATTLENTQETAPVNSRNKVVVASLIGTAIEFFDFYIYATAAVIVFPHIFFPQGDAAAATLQSLATFAIAFVARPIGSALFGHFGDRVGRKVTLVASLLTMGISTVVIGLLPGYESIGIVAPMLLALARFGQGLGLGGEWGGAALLATENAPARKRALYGSFPQLGAPIGFFFANGTFLLLSWLLTDQQFMEWGWRVPFIFSAVLVIIGLYVRVSLHETPVFAKVAAAKKQVKIPLGTLLTKHVRVTVLGTFIMLATYTLFYIMTVYSMTFSTGAAPNGLGLPRNEVLWMLMMAVIGFGVMVPIAGLLADAFGRRKSMIIITTMIILFALFAFKPLLGSGNPLLVFAFLLLGLSLMGLTFGPMGALLPELFPTEVRYTGASFSYNVSSILGASVAPYIAAWLQGNYGLAAVGTYLAAMAALTLIALLLTHETRHQSL	PGPT0002956_40	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_SHIKIMATE_TRANSPORT,PGPT0002956-shiA-K08172	NA	NA
BMS020_03116	2052			hypothetical protein	ATGAGCAGAACCCGTAAAACGTTGGTTATCATCACAGGAACGATACTGTTGCTGATCGTTCTCTTCTTTATCGTGTTGGCCACCTTCGACTGGAACCGGCTGAAGCCGACGATTAATCAGAAAGTGTCTGCCGAGCTGAACCGCCCGTTCGCCATCCGCGGCGATCTCGGTGTGGTCTGGGAGCGGCAGCCGGAGGAGCGCGGCTGGCGCAGCTGGATCCCGTGGCCCCATGTGCACGCGGAAGATATCGTGCTGGGCAACCCGCCGGCCATTCCCCAGGTGACCATGATCCACCTGCCGCGGGTGGAGGCGACCCTCGCCCCGCTGGCGCTGCTGAGCAAAACGGTGTATCTGCCGTGGATCAAGCTGGAACAGCCCGACGTGCGGCTGATCCGCCTGGCGGAAGACAACAATAACTGGACCTTTCAGCTGGCTGGCGATCAGCGTGCCGCGGGGGACAGCGCCCCCTCCAGCTGGTCTTTCCGCCTCGATAACATTCTCTTCGATCGCGGGACTATCGCCATTGATGACAAGATCACCCGCAGCGATATCACCATCCTCGTCGATCCCCTCGGCAAACCGCTGCCGTTCAGCGAAGTCACTGGCACGAAGGATCGGCATAGCGCGGCGAAACCAGGCGACTACGTCTTTGGCCTGTCGCTGAAGGGCCGCTATAAGGACCAGCCGGTCACCGGCAACGGTAAAATCGGCGGCATGCTGGCTCTGCGCAGCGCAAGCACGCCTTTCCCGCTGCAGGGCGACTTCCGCTCCGGCAATACGCGGGTGGCGTTCAGCGGCACGGTCAGCGATCCGCTCAACGTCGGCGGCATTGACCTGCGGCTGAAATTCGCCGGCGATTCGCTGCGCGATCTCTACGACCTGACCGGCGTGCTGCTGCCGGAGACACCGTCGTTCTCCACCGACGGCCGTCTGCGCGCCGACTTTAAGCAGAAAAACAGCATGCGCTTTGACTATCAGAATTTTAACGGCCGTATCGGCGATAGCGACATTCATGGCTCCCTGACCTATACCACTGGCAAACCGCGGCCGAAGCTCAGCGGCGACATGGAGTCGAAGCAGCTGCGGCTGGCGGATCTCGGGCCGTTAATCGGCGTCGACTCCGGCAAAGGGACGAAGAAAAGCGCTGCGCGCCAGGCGGGCGATCGGCCGCAGCCGGCGGGTAAAGTGCTGCCGGCGGACCGCTTTGAAACCGATAAATGGCAGGTGATGGATGCCGATGTGCGCTTTAAGGGCCGGAGAATTGAGCACGGCGGTACGCTGCCGATCAGCGATCTGGCGACCCACGTGATCCTGGAGGATGGCGACCTGCGCCTGCAGCCGGTGCGCTTTGGCCTGGCCAACGGGTCGATTGCCGGCAGCGTGCACCTGCAGGGCGATAAAAAGCCGCTGCAGGGTGAGGCCAATCTGCAGGCGCGGCGACTGAAGCTGAAGGCGCTGATGCCGAACGTCGAGATGATGCAGAAAACCCTCGGCGAGATGAATGGCGACGTTCAGCTGCGCGGCAGCGGCAACTCGGTGGCGGCCCTGCTCGGCAACAGCAACGGCAACCTGAAGCTGCTGATGAATGACGGCCTGATCAGTCGCAACCTGATGGAAATTCTCGGCCTTAACGTCGGCAACTACCTGATCGGCCAGATTTTTGGCGATGAGGAGGTTCGGGTGAACTGCGCGGCGGCCAATATCGACGTGACCAACGGCGTCGCCCGGCCGCAGATTTTTGCCTTCGATACGGAAAACGCGCTGATCAATGTGACCGGGACCGCCAGCTTCGCCTCCGAGCAGCTGGACCTGACCATCGATCCGGAAAGCAAAGGCTTTCGGGTGATCACTCTGCGTTCCCCGCTGTATGTTCGCGGCACCTTTAAATCGCCGCAGGCGGGGGTGAAGGCCGGGCCGCTGATTGTCCGCGGCGCGGTAGCGGCGGCGCTGGCTACTCTGGTGACGCCGGCTGCCGCGCTGCTGGCGCTGATCTCCCCGGCGGAGGGCGATAGCAACCAGTGCCGGACCATATTGTCGCAGATGAAAAAGTAG	MSRTRKTLVIITGTILLLIVLFFIVLATFDWNRLKPTINQKVSAELNRPFAIRGDLGVVWERQPEERGWRSWIPWPHVHAEDIVLGNPPAIPQVTMIHLPRVEATLAPLALLSKTVYLPWIKLEQPDVRLIRLAEDNNNWTFQLAGDQRAAGDSAPSSWSFRLDNILFDRGTIAIDDKITRSDITILVDPLGKPLPFSEVTGTKDRHSAAKPGDYVFGLSLKGRYKDQPVTGNGKIGGMLALRSASTPFPLQGDFRSGNTRVAFSGTVSDPLNVGGIDLRLKFAGDSLRDLYDLTGVLLPETPSFSTDGRLRADFKQKNSMRFDYQNFNGRIGDSDIHGSLTYTTGKPRPKLSGDMESKQLRLADLGPLIGVDSGKGTKKSAARQAGDRPQPAGKVLPADRFETDKWQVMDADVRFKGRRIEHGGTLPISDLATHVILEDGDLRLQPVRFGLANGSIAGSVHLQGDKKPLQGEANLQARRLKLKALMPNVEMMQKTLGEMNGDVQLRGSGNSVAALLGNSNGNLKLLMNDGLISRNLMEILGLNVGNYLIGQIFGDEEVRVNCAAANIDVTNGVARPQIFAFDTENALINVTGTASFASEQLDLTIDPESKGFRVITLRSPLYVRGTFKSPQAGVKAGPLIVRGAVAAALATLVTPAAALLALISPAEGDSNQCRTILSQMKK				NA	NA	NA	NA	NA
BMS020_03117	930	kdgK_2		2-dehydro-3-deoxygluconokinase	ATGTCTAAAAAAATTGCCGTCATTGGCGAATGCATGATTGAGCTGTCAGAGAAGAACGGGGCCGTTAACCGCGGCTTTGGCGGCGATACCTTAAACACCTCGGTCTATATCGCGCGGCAGACGGATGCCAGCGCGCTGAGCGTCCACTACGTCACCGCGCTGGGAACCGATGCGTTCAGCCAGCAGATGCTCGACAGTTGGCAGCAGGAAAACGTCAACACCAGCCTGATCCAGCGGATGGCCGACCGCCTGCCGGGGCTGTATTACATTGAAACCGATGACGCCGGCGAGCGCACCTTCTACTACTGGCGCAACGAGGCGGCGGCAAAATTCTGGCTGGAGAGCGATCGCGCGGCGGCGATTTGCGAAGAGCTGGCCACGTTCGACTATCTCTACCTGAGCGGCATCAGCCTCGCCATTCTCAGCCCGGCCAGTCGTGCCAGGCTGTTCACGCTGCTGCGTGAGTGCCGCGGCAACGGCGGCAAGGTGATCTTCGACAACAACTATCGCCCGCGCCTGTGGGCCAGCCAGGCGGAGACGCAGCAGGTCTATCAGGAGATGCTCGCCTGCACCGATATCGCGTTTCTGACCCTCGATGATGAAGACGCGCTGTGGGGGGAAAAACCGGTCGCCGAGGTGATCGCCCGCACCCACGCCGCCGGCGTGGAAGAGGTGGTGGTGAAGCGCGGAGCGGATGCCTGCCTGGTCTCGGTGAGCGGGCAACCGCTGCGGGAAGTGCCGGCCGTCAAGCTGGCCAAAGAGAAAGTGGTGGATACCACCGCCGCCGGCGACTCCTTCAGCGCCGGCTATCTGGCCGTGCGCCTGACCGGCGGCGATGCTGAATCCGCCGCCAGACGCGGACATCTGACCGCCAGCACGGTGATCCAGTATCGCGGGGCGATTATCCCCCGGGAAGCAATGCCGCAATAA	MSKKIAVIGECMIELSEKNGAVNRGFGGDTLNTSVYIARQTDASALSVHYVTALGTDAFSQQMLDSWQQENVNTSLIQRMADRLPGLYYIETDDAGERTFYYWRNEAAAKFWLESDRAAAICEELATFDYLYLSGISLAILSPASRARLFTLLRECRGNGGKVIFDNNYRPRLWASQAETQQVYQEMLACTDIAFLTLDDEDALWGEKPVAEVIARTHAAGVEEVVVKRGADACLVSVSGQPLREVPAVKLAKEKVVDTTAAGDSFSAGYLAVRLTGGDAESAARRGHLTASTVIQYRGAIIPREAMPQ	PGPT0018060_2347	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
BMS020_03118	1503	yhjJ	COG0612	Protein YhjJ	ATGCAGGGCACAACAATTAAACTCTTAACGGGCGGTTTGCTGATGGTAGCGGCGGCCGGTTATGTGCAGGCAGAAGCGCTCCAGCCTGATCCGGCCTGGCAACAAGGGACCTTAGCGAATGGGTTGTCGTGGCAGGTGCTGGCCACGCCGCAGCGTCCCAGCGACCGTATCGAAGTCCGTCTGTCCGTGAATATTGGCTCGCTGAGCGAAAGCACTCAGCAGAGCGGTTTCAGCCGTTTTATTCCCCGTCTGGCGTTGACGCAAAGCGGCAGCCTGCCGACGATGCAGGCGCGCTCGCTGTGGCAGCAGAGTATTGACCCGAAGCGTCCTCTGCCGCCGGCCATCGTCTCCTACGATTACACGATGTTTAATCTCAGCCTGCCGAATAACCGCAACGATCTGCTGAAAGAGGCGCTGAGCTGGCTGGCGGACGCCAGCGGTAAACTGACCATTACGCCTGAATCGATCAATCACGCGCTGCAGGGCAACGACATGGTGGCGACCTGGCCGCTGGATACCAAAGAGGGCTGGTGGCGCTATCGCCTCAAGGGCTCCACCATGCTGGGCCACGATCCTGCCGCGCCGCTGAAGCAGCCGATCGACGTGGCGCATCTGAAAGACTTTTATCAAAAATGGTACACCCCCGACGCCATGACGCTGATCGTGGTGGGTAACGTCGACAGCCGCAGCGTCGCTGAGCAAATCAGCAAAACCTTTGGCGATCTGAAGGGCAAGCGGGAAACGCCCGCGGCGGTGCCGACCTTATCGCCGCTGCCCACCGTGCCGGTCAGCATCATGACCAGCGCCGTGCGCCAGGACAAACTGTCCATCATGTGGGACGCCCCCTGGCAGCCGATCCGCGACTCCGCGGCGCTGCAGCGCTACTGGCGCGACGACCTCGCCCGCGAAGCGCTGTTCTGGCACGTGCAGCAGAGCCTGAGCAAAAATAACGTCAAGGATATTGGTCTTGGTTTTGACTGCCGGGTGCTCTATCAGCGCGCGCAGTGCGCCATCAATATCGAATCGCCGGGCGAGCGCCTGAATAACAACCTGAGCGTGGTCTCGCGCGAGCTGGCGAAAGTGCGCGACAACGGCCTGCCGCAGGAGGAGTTTGATGCGCTTATCGCTCAGAAAAGCCTCGAGCTGCAGAAGCTGTTTGCCACCTATGCGCGCACCGATACCGACATTCTGATGAGCCAGCGCATGCGCTCCCTGCAAAATCAGGTGGTGGATATCGCGCCGGAGCAGTACCAGAAGCTGCGTCAGGAGTTCCTCAACTCCCTGACGGTGGACATGCTGAACCAGTACCTGCGTCAGCAACTGTCTCAGGATATGGCGCTGGTGTTGCAGCAGCCGAAAGGCGAACCGGAATACAACATGAAGGAGCTGCAGGCCACGTGGGAAAAACTGATGGCGCCGAGTCCGGCGACCGCAGCGACCAGCGGCAGCGCCGATACGGTTGACGCCCACAGCGAGGCCAGCGACATCCCGTCGGGGCAGTAA	MQGTTIKLLTGGLLMVAAAGYVQAEALQPDPAWQQGTLANGLSWQVLATPQRPSDRIEVRLSVNIGSLSESTQQSGFSRFIPRLALTQSGSLPTMQARSLWQQSIDPKRPLPPAIVSYDYTMFNLSLPNNRNDLLKEALSWLADASGKLTITPESINHALQGNDMVATWPLDTKEGWWRYRLKGSTMLGHDPAAPLKQPIDVAHLKDFYQKWYTPDAMTLIVVGNVDSRSVAEQISKTFGDLKGKRETPAAVPTLSPLPTVPVSIMTSAVRQDKLSIMWDAPWQPIRDSAALQRYWRDDLAREALFWHVQQSLSKNNVKDIGLGFDCRVLYQRAQCAINIESPGERLNNNLSVVSRELAKVRDNGLPQEEFDALIAQKSLELQKLFATYARTDTDILMSQRMRSLQNQVVDIAPEQYQKLRQEFLNSLTVDMLNQYLRQQLSQDMALVLQQPKGEPEYNMKELQATWEKLMAPSPATAATSGSADTVDAHSEASDIPSGQ	PGPT0001280_2672	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001280-pqqL|yddC-K07263	NA	NA
BMS020_03119	1287	dctA_2	COG1301	Aerobic C4-dicarboxylate transport protein	ATGAAAACCTCTATCTTTAAAAGCCTCTATGTCCAGGTTCTGACGGCCATAGCGATCGGTATTCTGCTGGGCCATTTTTACCCGGAACTGGGCGCGCAAATGAAACCCTTCGGCGACGCCTTCGTTAAGCTGATTAAAATGGTGATTGCTCCGGTTATCTTCTGTACCGTCGTGACGGGGATCGCCGGAATGGAGAGCATGAAAGCCGTTGGCCGTACCGGGGCGGTGGCGTTGCTCTATTTCGAAGTGGTCAGCACCATCGCGCTGATTATCGGTCTGGTTATTGTCAACGTGGTGCAGCCGGGGGCCGGGATGAACGTCGACCCGTCGACGCTCGATGCGAAAGCGGTGGCGGTGTACGCTGAGCAGGCGAAAGACCAGGGGGTGGTGGCCTTTTTACTGGATGTGATCCCGGGCAGCGTCATTGGCGCCTTCGCCAGCGGCAACATCCTTCAGGTTCTGCTGTTCGCCGTTCTGTTTGGTTTTGCCCTGCATCGTCTGGGCAGCAAGGGCCAGCTGATTTTCAACGTCATTGAAAGTTTCTCGCAGGTCATCTTTGGCATCATCAATATGATCATGCGCCTGGCGCCGATCGGCGCCTTCGGGGCCATGGCCTTCACCATCGGTAAATATGGCGTCGGCACCCTGGTGCAGCTGGGCCAGCTGATCATCTGCTTCTATATCACCTGTATCCTGTTCGTGGTGGTGGTGCTGGGGTCAATCGCCAAAGCCACCGGCTTCAGCATCTTTAAATTTATCCGCTATATCCGCGAAGAGCTGTTGATCGTGCTGGGGACTTCCTCATCCGAATCGGCGCTGCCGCGCATGCTCGACAAGATGGAGAAGCTCGGCTGTCGTAAATCGGTGGTGGGCCTGGTGATCCCGACCGGCTATTCGTTCAACCTCGACGGCACCTCTATCTATCTGACGATGGCGGCGGTCTTTATCGCCCAGGCGACCAACAGCCATATGGATATTTTCCATCAAATCACCCTGCTGGTGGTGCTGCTGCTCTCCTCGAAAGGGGCGGCGGGAGTGACCGGCAGCGGCTTCATCGTGCTGGCGGCGACCATCTCGGCCGTCGGGCATTTGCCGGTGGCTGGCCTGGCGCTGATCCTCGGTATTGACCGCTTTATGTCCGAAGCCCGTGCGCTGACTAACCTGGTGGGTAACGGCGTCGCCACGGTGGTGGTCGCGAAATGGGTTAAAGAACTCGATGCCAAACAGATGGATGATGTGCTGAATAACCGTGTTCCCGCGAACAAAACGCACGAATTATCCTCTTAA	MKTSIFKSLYVQVLTAIAIGILLGHFYPELGAQMKPFGDAFVKLIKMVIAPVIFCTVVTGIAGMESMKAVGRTGAVALLYFEVVSTIALIIGLVIVNVVQPGAGMNVDPSTLDAKAVAVYAEQAKDQGVVAFLLDVIPGSVIGAFASGNILQVLLFAVLFGFALHRLGSKGQLIFNVIESFSQVIFGIINMIMRLAPIGAFGAMAFTIGKYGVGTLVQLGQLIICFYITCILFVVVVLGSIAKATGFSIFKFIRYIREELLIVLGTSSSESALPRMLDKMEKLGCRKSVVGLVIPTGYSFNLDGTSIYLTMAAVFIAQATNSHMDIFHQITLLVVLLLSSKGAAGVTGSGFIVLAATISAVGHLPVAGLALILGIDRFMSEARALTNLVGNGVATVVVAKWVKELDAKQMDDVLNNRVPANKTHELSS	PGPT0001450_1695	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0001450-dctA-K11103	NA	NA
BMS020_03120	2007	pdeK		putative cyclic di-GMP phosphodiesterase PdeK	TTGCGCGTCAGCCGTTCACTTACAATCAAACAGATGGCGATGGTCGCGAGCGTGTCCATGGCCTTTGTATTGGTTTTTTGCACTATTTTGCTGTTTCACTTTGTGCAACAGAGTCGCTTTACCACGGCCACGCAGTTAGAAAGTATCGCGCGATCCGTTCGCGAACCGCTGTCTGCGGCTATTCTGAAAGCCGATATTCCGGAAGCGGAAGCCATTTTAAGCCGTATCCAGCCTGCTGGCATCGTCAGCCGGGCGGATGTCGTCTTGCCCAACCAGTTCCAGGCGCTGCGGATGCGGTTTATCCCTGAGCGGTCGGTGCCGGTGACCATCACCCGGCTGTTTGAGCTGCCGGTGCAGATTTCCCTGCCCATTTATTCGCTGGAGCGGCCGGCCAACCCGCAGCCGCTGGCCTATCTGGTGCTGCAGGCCGACTCCTATCGCATGTATAAATTCGTCATGAGCGCCCTTGCTACGTTAGTGACTGCTTACTTACTTCTGGTGCTGATGCTAACGGTGGCGCTCACCTGGTGCATCAACCGGCTGATGGTTCGCCCCCTGCGGCGTATCGCCCGCGAGCTGAACGATCTCTCCCAGCAGGAGCGTCTTGGCCATCAGCTGACCCTCCCGCGCCTGCACCATGACGACGAGATCGGCATGCTGGTGCGCAGCTATAACCGCAACCAGCAGAGCCTGGTGCGCCAGCATGATGAGCTGTCCATCCAGTCGACCCGCTTCCCGATCTCCGAGCTGCCGAATAAAGCCTTTTTGCTGGCGATGCTGGAGCAGACGGTGGCCCGCCCGCAGAGCGCCGCGCTGATCGTCGTCGCCTGTGAAACCCTGCAGGACGCCGCCGGCGTGCTCAAGGAGAGCCAGCGCGAAATGCTGCTCCTGACGCTGGTGGAGAAGCTGCGCGCCGCGATCCCGCCGCAGATGGTGCTGGCCCAGGTAAGCGGCTATGACTTCGCCATTCTCGCCGATGGCCTCGCCGAATCCTGGCAGGCGGTGACGATAAGTAAGCAAGTGCTCACTATTATTAATGAACGTTTACCGCTGCATGGTCTGCAGCTGCGGCCCTACGCCAGCGTCGGGATCGCCATGTTCCACCCCGGTCTCAGCGCCGAACAGTTTTACCGGCGCGCGGTCTCGGCCGCGGTCACCGCAAGACGCAAAGGTAAAAATCAGATTGAGTTCTTCGATCCCGAGCAGATGGAAAAGGCTCAGCGCCGCCTGATGGAAGAGCACGAAATTATGACCGCCCTCGACAACCAGCAGTTCGCGATCTGGCTGCAGCCGCAGGTGGCCTGCGCCAGCGGCGAGCTCTGCGGCGCCGAGGTGCTGCTGCGCCAGCGGCAGGCGGATGGCAGCTGGTCGCTACCGCCGGCGCTGATTGAGCGCATTGAGTCCTGCGGGCTGATTATCCCGGTCGGCTACTGGGTGATGGAAGAGGCCTGCCGCCAGCTGGCCGCCTGGCAAAGCCAGGGCATTATGCTGCCGCTGTCGGTCAATGTTTCTCTGCTCCAGCTGCTGGAGCACGACCGTGGCGAGGAGATGCTGAAGCTGATCGCCCGCTACCGCATTGCGCCGGGCACCCTCATCCTTGAGGTGACGGAGAGCTGCCGGATGGACGATCCGCAGGATGTGATGGCGCGGTTGCGGCCTCTGCGCGAGGCCGGCGTGCGGATTGCGCTGGATGATTTTGGCATGGGTTATGCCGGGTTGCACCAGCTGCAGCAGATGAAGGCTCTGCCGGTGGATATTCTGAAAATTGATAAGGTATTCATCGATATGCTGCCGGAGGATGTCAGCATGGTGCCGGCGATAATCCAGCTCGCGCGCGGCCTGTCGCTGCGCATTGTGGCGGAAGGGGTGGAAACGGAAGACCAGTCTCGCTGGTTGCAAGCCGCCGGCGTCGAGGTGCTCCAGGGCCACCTGTTCGGTTGCGCTTTACCGCAGGAGGCGTTCAGCGCCCGCTATTTATCCCCGGTCCGGGAAGATGCAAATTTGTAA	MRVSRSLTIKQMAMVASVSMAFVLVFCTILLFHFVQQSRFTTATQLESIARSVREPLSAAILKADIPEAEAILSRIQPAGIVSRADVVLPNQFQALRMRFIPERSVPVTITRLFELPVQISLPIYSLERPANPQPLAYLVLQADSYRMYKFVMSALATLVTAYLLLVLMLTVALTWCINRLMVRPLRRIARELNDLSQQERLGHQLTLPRLHHDDEIGMLVRSYNRNQQSLVRQHDELSIQSTRFPISELPNKAFLLAMLEQTVARPQSAALIVVACETLQDAAGVLKESQREMLLLTLVEKLRAAIPPQMVLAQVSGYDFAILADGLAESWQAVTISKQVLTIINERLPLHGLQLRPYASVGIAMFHPGLSAEQFYRRAVSAAVTARRKGKNQIEFFDPEQMEKAQRRLMEEHEIMTALDNQQFAIWLQPQVACASGELCGAEVLLRQRQADGSWSLPPALIERIESCGLIIPVGYWVMEEACRQLAAWQSQGIMLPLSVNVSLLQLLEHDRGEEMLKLIARYRIAPGTLILEVTESCRMDDPQDVMARLRPLREAGVRIALDDFGMGYAGLHQLQQMKALPVDILKIDKVFIDMLPEDVSMVPAIIQLARGLSLRIVAEGVETEDQSRWLQAAGVEVLQGHLFGCALPQEAFSARYLSPVREDANL				NA	NA	NA	NA	NA
BMS020_03121	3480	bcsC	COG0457	Cellulose synthase operon protein C	ATGCGCAAGCTCTCACTAAGTTTACTCACGCTGTCCCTCGGCGTCGCGCTGCTGCCGTTAGCGCAGGCGGCGACGACGCCCGCCCAGGAACATCTGCTGGAGCAGGTGCGCCTCGGCGAGGCCAGCAATCGTGAAGACCTGGTGCGCCAGTCGCTATACCGTCTGGAGCTGATCGACCCCAACAACCCGGACCTGATTGCCGCGCGGATGCGCTATCTGCTGCGCCAGGGGGATACCGCCGGGGCGCAAAAAGAGCTGGAGCGACTGACGAAGCTGGCGCCGGATTCCCCTGAGCTGAAGGCGTCGCGCAATGAGATGAAAAGCAACACCGGCGAGGGCCGTCAGGCGCTGCAGCAGGCGCGACTGCTGGGCGTGGCCGGGAAGGTCGATGAAGCCATCGCCGCCTATGAAAAACTGTTCGGCGGCGTGCCGGATGATGTCGATGCCGCTATTGAATACTGGACGCTGGTGGCGCGCCTGCCGGCCCGTCATAGCGAAGGCGTCAGCCAGCTGAAAAAACTGAACGCCAGCGCGCCGGGCAACGTCAGCCTGCTGACGGCGCTGGCGAAGCAGATGTTTGCCGATAACAAACCGCAGGAAGGGTTCGCCTATCTGGCGGAAATGGCCCGCTCAGCCTCAGGACGCGGTATCGCCGCCGAAATGTGGTTCAGCGAAGTGAAAAGCATGCCGGTGAGCAAAGCCAGCGTGCAGGCGTTGCAGCAATTCCTGCTGCAGTTTCCTACCGGCTCGGTGGCGGCGAACGCCCGCGTCCTGCTTGACCAGCAGCAGGCGCAGCTGCAGGATCCGACGTTCCGCGCCCGCTCGGAAGGGCTGGCGGCGGTCAAATCCGGAAATACCTCGCAGGCGGTGGCGGATCTGCAGAAAGCCGTTCAGGCCGACAGCCGCGACAGCGATGCGGTGGGCGCCCTCGGCCAGGCCTATTCCCAGCGCGGCGACCGCGCGCGGGCGGTGGCCCAGCTCAATAAAGCGATTGCCATGGATCCCGACAGCCCGAATCGTGGCAAATGGGACAGCCTGCTGCAAACCAACCGCTACTGGCTGCTGATCAAGCAGGGGGATAACGCCCTGAAGGCCGGTCAGCTTTCACAGGCGCAGAATTATTATGCCCAGGCGCAGCGGGTCGATCGGACCGACAGCTATGCCGTGCTGGGGCTGGGCGACGTCGCGGCGGCGCGCAAAGCGTCGGCGGCGGCGGAGCGCTATTATCAGCAGGCGTTGCGCCTGGATCGCGGGAATAATCTGGCGGTGCGCGGCCTGGCCAACCTCTATCGCGCTGAATCGCCCGAGAAAGCCAGCGCCTGGATCGCTGGTCTTCCTGCCGCCCAGCGGCGCAGCATCGATGATATCGAACGCAGCCTGAACAACGACCGGCTGGAGAAACAGGCGCAGGCTCTGGAGAGTCAGGGCAACTGGGCGCAGGCGGCGGAAGTTCAGCGTCGGCGCCTGGCGCTCGAGCCGGACAGCGTGTGGATCACCTATCGTCTGGCGCGGGATCTGGTCAGCGCCGGCGAGCGCCAGGAAGCCGATGCGCTGATGCGGGCGATGGTCAACCGCCAGCCGCAGGATGCTGAACGGATCTACGCCTCGGGGCTTTACCTGTCGGGGAACGACCAGGACGATCTGGCGCTGGCGCAAATCGCCGCCCTGCCGCGTAGCGCATGGACGGATAACATTCGTGAACTGGAGGCGCGTCTGCAAAGCGACCGGGTGCTGCGCCAGGCGAACCAGCTGCGCGACAGCGACGAGGAAGCGCAGGCGATCGCCCTCATCAAACAGCAGCCGGCCTCGGTGCGCTATGACCTGACGCTGGCCGACTGGGCCCAGCAGCGCGGGGACAACCAGACGGCGATTGCCGACTATCAGCGGGTGCTGCGTCAGGAAGCCGACAACGGCGATGCGCGCCTCGGCCTTGCGGAAGTCTATCTGGCCGAGGGCGATAAACAGGCCGCCCGGGCGCAGGTCATGCAGCTGAAAGGCGCAGAGGCCGAATCCATGAATATGCAGCGGCGGGTCGCCCTGGCGCGAGCTGGCCTTGGCGATACCGCGGACGCCCAACAGATTTTTAACCAGATTGTGCCGCAGGCGAAGGCGCAGCCGCCCTCGATGGAGAGCGCGCTGGTGCTGCGCGATGCCGCGCGTTTTGCCACCCGGAACGGGGAGCCGCAGCAGGCGCTGACCCACTACCGGGAGGCGATGGTGGCCTCCGGAATCACCCCCGCGCCGCCGCAGGATAACGATACCTTTACCCGGCTGACGCGCAACGACAGCCGGGATGACTGGCTGAAGCGCGGGATCCGCAGCGATGCCGCCGACCTTTATCGCCAGCAGGATCTGAACGTCACCCTGGAACACGACTTTTGGGGATCCAGCGGCACCGGCGGCTATTCCGACCTCAAGGCGCATACCACCATGCTGCAGGTGGATGCCCCGCTGGCGGATGGCCGGATGTTCTTCCGCACCGACCTGGTCAATATGGATGCCGGCAGCTTTTCCACCCACAGCGACGGGAGCTACTCGCCCAGCTGGGGCACCTGCGGGGAGATCGCCTGTACCAGCGGCAGTAAAAATCAGACCGACAGCGGGGCCAGCGTGGCGGTCGGCTGGAAGAATGACACCTGGAGCGGCGATATCGGCACCACGCCGATGGGCTTCAATGTCGTCGATGTGGTCGGCGGCCTGAGCTACAGTAGCGACGTCGGGCCGGTGGGGTACACGGTCAACGTGCACCGGCGGCCCATCTCCAGCTCGCTGCTCTCCTTTGGCGGGCAGAAAGACAGCAACAGCCATACCGGCACCACCTGGGGCGGCGTTCGCGCCGACGGCGGCGGTGTGAGCCTCAGCTATGACCGGGGCGAAGCGCACGGTATCTGGTCCTCGCTGGGGGCCGACTCGCTGACCGGTAAAAACGTGGCGGATAACTGGCGCGTGCGCTGGATGACCGGCTACTACTATAAGGTGATTAACGAGAATAATCGTCGCGTCACCGTCGGCCTCAACAATATGATCTGGCACTACGACAAAGATCTCAGCGGTTACACCCTCGGCCAGGGCGGCTATTACAGCCCGCAGGAGTATCTCTCGTTCGCTGTGCCGGTGACCTGGCGTCAGCGCACGGAGAACTGGTCCTGGGAACTCGGCGGATCGGTCTCATGGTCCCATTCGCGTACCCAGACGCAAGCCCGCTATCCGCTGCTGAACCTGATCCCGTCCGACTACCGGCAGCGCGCCAGCGAACTGACGGAGGAGGGCGGCAGCAGCCAGGGATTCGGTTACACCGCCAGAGCGCTGGTGGAGCGGCGGGTGACCAGCAACTGGTTCGTTGGCGCCGCGGTCGATATTCAGCAGGCGAAGGACTACACCCCGAGCCATGCGCTGCTTTACGTGCGCTATTCGGCGGCCGGCTGGCAGGGGGATCTGGATATGCCGCCCCAGCCGCTGGTGCCTTACGCCGACTGGTAG	MRKLSLSLLTLSLGVALLPLAQAATTPAQEHLLEQVRLGEASNREDLVRQSLYRLELIDPNNPDLIAARMRYLLRQGDTAGAQKELERLTKLAPDSPELKASRNEMKSNTGEGRQALQQARLLGVAGKVDEAIAAYEKLFGGVPDDVDAAIEYWTLVARLPARHSEGVSQLKKLNASAPGNVSLLTALAKQMFADNKPQEGFAYLAEMARSASGRGIAAEMWFSEVKSMPVSKASVQALQQFLLQFPTGSVAANARVLLDQQQAQLQDPTFRARSEGLAAVKSGNTSQAVADLQKAVQADSRDSDAVGALGQAYSQRGDRARAVAQLNKAIAMDPDSPNRGKWDSLLQTNRYWLLIKQGDNALKAGQLSQAQNYYAQAQRVDRTDSYAVLGLGDVAAARKASAAAERYYQQALRLDRGNNLAVRGLANLYRAESPEKASAWIAGLPAAQRRSIDDIERSLNNDRLEKQAQALESQGNWAQAAEVQRRRLALEPDSVWITYRLARDLVSAGERQEADALMRAMVNRQPQDAERIYASGLYLSGNDQDDLALAQIAALPRSAWTDNIRELEARLQSDRVLRQANQLRDSDEEAQAIALIKQQPASVRYDLTLADWAQQRGDNQTAIADYQRVLRQEADNGDARLGLAEVYLAEGDKQAARAQVMQLKGAEAESMNMQRRVALARAGLGDTADAQQIFNQIVPQAKAQPPSMESALVLRDAARFATRNGEPQQALTHYREAMVASGITPAPPQDNDTFTRLTRNDSRDDWLKRGIRSDAADLYRQQDLNVTLEHDFWGSSGTGGYSDLKAHTTMLQVDAPLADGRMFFRTDLVNMDAGSFSTHSDGSYSPSWGTCGEIACTSGSKNQTDSGASVAVGWKNDTWSGDIGTTPMGFNVVDVVGGLSYSSDVGPVGYTVNVHRRPISSSLLSFGGQKDSNSHTGTTWGGVRADGGGVSLSYDRGEAHGIWSSLGADSLTGKNVADNWRVRWMTGYYYKVINENNRRVTVGLNNMIWHYDKDLSGYTLGQGGYYSPQEYLSFAVPVTWRQRTENWSWELGGSVSWSHSRTQTQARYPLLNLIPSDYRQRASELTEEGGSSQGFGYTARALVERRVTSNWFVGAAVDIQQAKDYTPSHALLYVRYSAAGWQGDLDMPPQPLVPYADW	PGPT0022285_760	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0022285-bcsC-K20543	NA	NA
BMS020_03122	1110	bcsZ_1	COG3405	Endoglucanase	ATGATGAAAGTACTTTGCGGCGCGGTGCTCTCCGCGCTGGTACTGGCGGCGGGCCAGGCGAGCGCCGCTTGCCAGTGGCCCGCCTGGGAGCAGTTTAAGAAAGCGTACGTCAGCCCCGAGGGGCGGGTGATCGACCCCAGCGATGCGCGCAAAATTTCCACTTCCGAAGGACAGAGCTATGGCCTGTTCTTTGCCCTGGCGGCCAACGATCGCGCGGGGTTCGACAAGCTGCTGACCTGGACGCAGAACAACCTGGCGGAGGGCGACCTGCGGCAGCATCTGCCGGGCTGGCTGTGGGGGAAAAAGGACGACGAACAGTGGACGCTGCTGGACAGCAATTCGGCATCCGACTCGGATCTGTGGATAGCCTGGGCGCTGCTGGAGGCGGGGCGCCTGTGGCAGCAGCCGCAGTACACCGAGACCGGGAAAGCGCTGCTGGCGCGGATTGTCGACGAAGAGACGGTGGCGGTGCCGGGCCTTGGCACGATGCTGCTGCCGGGAAAAGTCGGTTTTGCCGACGACAGCGGCTGGCGGTTTAACCCCAGCTATCTTCCGCCGCAGCTGGCCACCTATTTTGTGCGTTTTGGCGCGCCGTGGCCCACCCTGCGCGACACGAACCTGCGTCTGCTGCTGGAGACCGCGCCGAAAGGCTTTACCCCGGACTGGGTGCGCTATGAGAAAGGGAAAGGCTGGCAGCTGAAAACGGAGAAGCCGCTGATCGGCAGCTATGACGCGATTCGCGTCTACCTGTGGGTGGGCATGCTTCATGATGGCGATAAGCAAAAAGCGCGTCTGCTGGCCCGCTTTGCGCCGATGGCGGCGCAGACCACGGAGCAGGGGGTACCGCCGGAGAAAGTGAATATCGCCACCGGTAAAACCAGCGGCCAGGGGCCGGTGGGCTTCTCCGCGGTGATGCTGCCGTTTTTACAGAACGACGAGGCCCGGTCGGTGCAACGACAGCGCGTCGCCGATAACTATCCCGGCGCGGATGCCTACTACAGCGCGGTCCTGACGCTGTTCGGTCAGGGTTGGGATCAACACCGTTTTCGTTTCACTGCGGGTGGCGAATTACAACCTGACTGGAACCAGGAATGCGCAAGCTCTCACTAA	MMKVLCGAVLSALVLAAGQASAACQWPAWEQFKKAYVSPEGRVIDPSDARKISTSEGQSYGLFFALAANDRAGFDKLLTWTQNNLAEGDLRQHLPGWLWGKKDDEQWTLLDSNSASDSDLWIAWALLEAGRLWQQPQYTETGKALLARIVDEETVAVPGLGTMLLPGKVGFADDSGWRFNPSYLPPQLATYFVRFGAPWPTLRDTNLRLLLETAPKGFTPDWVRYEKGKGWQLKTEKPLIGSYDAIRVYLWVGMLHDGDKQKARLLARFAPMAAQTTEQGVPPEKVNIATGKTSGQGPVGFSAVMLPFLQNDEARSVQRQRVADNYPGADAYYSAVLTLFGQGWDQHRFRFTAGGELQPDWNQECASSH	PGPT0012170_466	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CELLULASES,PGPT0012170-bcsZ|wssD|yhjM-K20542	NA	NA
BMS020_03123	2304	bcsB_1		Cyclic di-GMP-binding protein	ATGTGCAGCTGGTATCCGCTGGCCTCTTACGCGGCACCGGCCGCCGTGGTGAACCCGGCTCCTGGCGTTCAGCCGCAGGCGGCCACCCCGCCCGCGCCGGTGACGATTGGCGAGCCGACGGCGACCCTCGCCGAACCGACCGCTCCGGCGGTGGTCGCCGAGAATATCCCGCAGCGGGAGGTGAAGCTGAACTTTGCCACCATCGCGCCGCCTCCGGGCAGCATTGTGCTGCGCGGCTCACGGCCTGACGCCTCGGTCGAATTCGGCATGCGCAGCGATGAGCTGGTCGCCAACGCGCTGCTCAATCTGGAATATACCCCGTCGCCCTCGCTGCTGCCCGTGCAGTCGCAGCTGAAAGTCTATCTCAACGATGAGCTGATGGGCGTTCTGCCCGTCACCAAAGAGCAGCTGGGGAAAAAGATCCGCGCGCAGCTGCCGATTGACCCGCTGTATATCACCGACTTCAACCGCATACGGCTGGAGTTTGTCGGCCACTATCGCGATGTCTGCGAAAACCCGGCCAGCAGCACGCTGTGGCTGGACGTCGGGCGCGAAAGCTATCTGGATCTCACCTACCAGTCGCTGAAGGTGCATAACGATCTGTCGCACTTCCCGGTGCCGTTCTACGATCCGCGCGACAACCGCCCGCTGACGCTGCCGATGATTTTCCCGGGTTCGCCGGCGGTGGCCCAGCAGCAGGCGGCGGCGATTATCGCCTCATGGTTCGGCAGCAAGGCCGGCTGGCGCGGCCAGCAGTTCCCGGTCTATTTCAACGAACTGCCGGATCGTAACGCCATTGTCTTCGCCACCAACGACAAGCGTCCGGATTTCCTGCGCGATCATCCGCCGGTCAACGCGCCGACCATCGAAATGATCGACAACCCGAACGATCCTTACGTCAAGCTGCTGGTGATTTTCGGCCGCGATGATAAAGACCTGCTGCTGGCGGCGAAGGGGATTGCCCAGGGCAATATTCTGTTCCGCGGCAGCAGCGTCACCGTGGACGGCATCAAAACCCTGCAGCCGCGGCAGCCATACGATGCGCCAAACTGGGTGCGCACCGACCGCTCGGTCACCTTTGCTGAGCTGAAAACCTATGAGCAACAGCTGCAGTCCAGCGGGCTGGTGCCGGATGCCATCACCGTGGCGCTTAACCTGCCGCCGGATCTCTATCTGCTGCGGGCCAACGGCATCGATATGGATCTGAAATATCGCTACACCATGCCGCCGGTGAAGGACAGCTCGCGGATGGATATCAGCCTCAACGACCAGTTCCTGCAGTCGTTCAGCCTTAACAGCTCCCAGGACGTGAACAAACTGATCCTGCGCCTGCCGGTGCTGCAGGGGCTGCTGGACGGCAAATCGGAGGTCACCATCCCCGCGCTGCGTCTTGGGGCGGTGAACCAGCTGCGCTTTGACTTCCAGTACATGAACCCGATGCCCGGCGGCTCCATCGACAACTGTATTACCTTCCAGCCGGTGCAGAACCATGTGGTGATCGGCGACGATTCGACCATCGACTTCTCGAAGTATTATCACTTTATTGCGCTGCCGGACCTGCGCGTCTTCGCCAATGCGGGCTTCCCTTACAGCCGAATGGCTGACCTCGCCGACACCCTGGTGGTGGTGCCGAAGGCGCCGACCCAGGGCCAGGTGGCGACGCTGCTGCAGGCGCTGGGCGGCATCGGTTCGCAGACCGGCCTGGCGGCGATTAATCTGCAAATGACCGACGATGGCAACCAGATCAAGAATAAAGACGCGGATCTGCTGCTGATCGGCGCGATCCCCTCGTCTCTCAAGGACGATACCAAAATCAACCTGCTGGTCGAGGCGACCAAAAGCTGGGTGAAAATGCCGATGCGCCACTATGACCTGGCGAGCATTTATCCCGATGACGAGGCCCGCACGCCCAACACCCGCACCGACATCACCTCTTCCGGACCGATGGCGGCGGTGATTGGCTTCCAGTCGCCCTACAACGATCAGCGTAGCGTGGTGGCCCTGCTGGCCGACAGCCCGCGCGGTAATGAATTGCTGACCAACGCCCTCAACGACAGCGGTAAGCGGGCGGCGATGTTTGGCTCGGTGGCGGTGATCCGTGAATCCGGCGTCAACAGCCTGCGGGTGGGCGATGTTTACTATGTCGGCCATCTGCCCTGGTTCGAGCGCATCTGGTTCGCGCTCTCTAACCACCCGATACTGCTGGCGATCTTCGCCGCGGTCAGTATCGTGCTGCTGGCGTGGGTGCTGTGGCGCATGCTGCGCATTATCAGCCGCCGCCGCCTTAGCCTGGATGATGAATAA	MCSWYPLASYAAPAAVVNPAPGVQPQAATPPAPVTIGEPTATLAEPTAPAVVAENIPQREVKLNFATIAPPPGSIVLRGSRPDASVEFGMRSDELVANALLNLEYTPSPSLLPVQSQLKVYLNDELMGVLPVTKEQLGKKIRAQLPIDPLYITDFNRIRLEFVGHYRDVCENPASSTLWLDVGRESYLDLTYQSLKVHNDLSHFPVPFYDPRDNRPLTLPMIFPGSPAVAQQQAAAIIASWFGSKAGWRGQQFPVYFNELPDRNAIVFATNDKRPDFLRDHPPVNAPTIEMIDNPNDPYVKLLVIFGRDDKDLLLAAKGIAQGNILFRGSSVTVDGIKTLQPRQPYDAPNWVRTDRSVTFAELKTYEQQLQSSGLVPDAITVALNLPPDLYLLRANGIDMDLKYRYTMPPVKDSSRMDISLNDQFLQSFSLNSSQDVNKLILRLPVLQGLLDGKSEVTIPALRLGAVNQLRFDFQYMNPMPGGSIDNCITFQPVQNHVVIGDDSTIDFSKYYHFIALPDLRVFANAGFPYSRMADLADTLVVVPKAPTQGQVATLLQALGGIGSQTGLAAINLQMTDDGNQIKNKDADLLLIGAIPSSLKDDTKINLLVEATKSWVKMPMRHYDLASIYPDDEARTPNTRTDITSSGPMAAVIGFQSPYNDQRSVVALLADSPRGNELLTNALNDSGKRAAMFGSVAVIRESGVNSLRVGDVYYVGHLPWFERIWFALSNHPILLAIFAAVSIVLLAWVLWRMLRIISRRRLSLDDE	PGPT0022280_373	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0022280-bcsB|celB-K20541	NA	NA
BMS020_03124	2619	bcsA_1	COG1215	Cellulose synthase catalytic subunit [UDP-forming]	ATGATCCGCCTCAGCACGCTGCTGTTGGCCCCGCCGGTGGGGGAACGGCTGCGCGCGCGCTATGACGATTACCGGCAGCATGGCGCCTCCTGGCTGTCGGCGTCGCTTGGCTGCCTGTGGGCATCGCTGGTCTGGGCGCTCATGCCGCTGGAGACGCCGCGCTGGCAGGCGATTCTGGCGCACCATGACACCTATTTCCCCCATATTAATCCGCACCGGCCACGGCTCCTGGATCCGCTGCGCTATCTGTTGCAATCCCTGTGGCTGCTGGCGACCCGCGTGCCGGAGCCGGAGAAAAAGGTCAACTGGCGTTCGCTGGCGGCGCTGGAAGGGGTGCATGGTCGCTACGCGCAATGGATGGAGAAACTGCCTGAGCAGGTTAACGCCCGCACCCGCCATCTGGATAAACAGAAAGAGCTGGCGCACCTCAATCCTAAACTGCGCCGGGCGATCCTCGGAGTGGTGACCTGCTGCTCGCTGGTGCTGGCGCTGATGTGTATTACGCAGCCCTTTAACCCGCTGTCGCAATTTATCTTCCTGATGCTGCTGTGGGGCGTGGCGCTGCTGGTGCGGCGCATCCCCGGCCGCTTCTCGGCGCTGATGCTGATCGTGCTGTCGCTGACGGTCTCGTGCCGCTATATCTGGTGGCGCTACACCTCGACGCTGAACTGGAACGACCCGGTAAGCCTGGTGTGCGGGATTATTTTGCTGTTCGCCGAAACCTACGCCTGGGTGGTGCTGGTGCTGGGCTACTTCCAGGTGGTCTGGCCGTTGAACCGCCAACCGGTGCCGTTGCCGGAGGACATGGATCTGTGGCCGACGGTGGATATCTTTGTCCCCACCTACAACGAAGATCTCAACGTGGTGAAAAACACCATCTATGCCTCGCAGGGCATCGACTGGCCGAAGGACAAGCTCAACATCTGGATCCTCGACGACGGCGGACGGGAAGCGTTTCGCCAGTTTGCCAAAGATGTCGGGGTGCACTACATCGCCCGTACCAGCCATGAGCACGCCAAGGCCGGTAACATCAACAATGCGCTGAAATACGCCAAAGGGGAATTTGTCTCGATCTTTGACTGCGACCACGTGCCGACGCGCTCGTTTCTGCAGATGACCATGGGCTGGTTCCTGAAAGAGAAAGAGCTGGCGATGATGCAGACCCCGCACCATTTCTTCTCGCCTGACCCCTTTGAGCGCAACCTTGGCCGTTTTCGCAAAACGCCGAACGAAGGCACCCTGTTCTACGGCCTGGTGCAGGACGGGAACGATATGTGGGACGCCACCTTCTTCTGCGGCTCCTGCGCCGTGATCCGCCGCGGCCCGCTGGACGAGATTGGCGGCATCGCCGTCGAAACGGTAACCGAAGATGCCCACACCTCGCTGCGCCTGCACCGACGCGGCTACACCTCCGCCTATATGCGTATTCCGCAGGCGGCGGGGCTGGCGACGGAGAGTTTGTCGGCGCACATTGGCCAGCGCATCCGCTGGGCGCGCGGCATGGTGCAGATTTTCCGTCTCGATAACCCGCTGTTTGGCAAGGGGCTGAAGCTGGCGCAGCGCGTCTGCTACGCCAACGCCATGCTCCACTTCCTCTCCGGTATTCCGCGCCTCATCTTCCTCACGGCGCCGCTGGCCTTTTTGCTGCTCCATGCCTATATCATTTATGCGCCGGCGCTGATGATCGCGCTGTTCGTGCTGCCGCATATGATCCACGCCAGCCTGACCAACTCGAAGATTCAGGGCAAATACCGCCATTCGTTCTGGAGTGAAATCTACGAGACGGTGCTCGCCTGGTATATCGCGCCGCCCACCTTTGTGGCGTTGATTAACCCGCATAAAGGCAAATTCAACGTCACCGCGAAGGGTGGGCTGGTGGAAGAGGAGTATGTCGACTGGGTGATCTCCCGGCCCTATATCTACCTCGTGCTGCTCAACCTGGTCGGCGTCGCGGTGGGGATCTGGCGCTTTATGTACGGCCCGGAAAACGAAATTCTCACCGTCTGGGTGAGTATTGTCTGGGTGTTTTACAACCTGATTATTCTTGGCGGCGCGGTGGCGGTCTCGGTTGAAAGCAAGCAGGTACGCCGGTCGCATCGTGTCGAAATGAGCATGCCGGCGGCCATCGCCCGCGATGACGGCCATCTGTTCTCCTGCACCGTTCACGACTATTCCGACGGCGGCCTGGGGATCAAAATTCACAGCGACGCGCAGGTGCTGGAGGGGCAGAACGCCAGGCTGCTGCTCAAACGGGGACAGCAGGAGTATGTCTTCCCGGTGCGGGTCGCGCGGGTAAACGGCAACGAAGTGGGATTGCAGCTGCTGCCGTTGACCAACCAGCAGCATATCGATTTTGTGCAGTGTACGTTTGCCCGCGCCGATACGTGGGCGCTTTGGCAGGATAGCTTCCCGGAAGATAAGCCGATGGAAAGCCTGCTGGATATCCTCAAGCTGGGATTCCGTGGTTACCGTCACCTGGCGGAGTTTTCGCCGCCGTCGGTGAAGGTCATTTTCCGCGCGCTCACCTCGCTGGTGGCATGGATAGTGTCGTTTGTACCCCGACGCCCTGAACGCGCCGCGCCGACGCTCTCCGCAGACCCGGCAATGGCTCAACAATGA	MIRLSTLLLAPPVGERLRARYDDYRQHGASWLSASLGCLWASLVWALMPLETPRWQAILAHHDTYFPHINPHRPRLLDPLRYLLQSLWLLATRVPEPEKKVNWRSLAALEGVHGRYAQWMEKLPEQVNARTRHLDKQKELAHLNPKLRRAILGVVTCCSLVLALMCITQPFNPLSQFIFLMLLWGVALLVRRIPGRFSALMLIVLSLTVSCRYIWWRYTSTLNWNDPVSLVCGIILLFAETYAWVVLVLGYFQVVWPLNRQPVPLPEDMDLWPTVDIFVPTYNEDLNVVKNTIYASQGIDWPKDKLNIWILDDGGREAFRQFAKDVGVHYIARTSHEHAKAGNINNALKYAKGEFVSIFDCDHVPTRSFLQMTMGWFLKEKELAMMQTPHHFFSPDPFERNLGRFRKTPNEGTLFYGLVQDGNDMWDATFFCGSCAVIRRGPLDEIGGIAVETVTEDAHTSLRLHRRGYTSAYMRIPQAAGLATESLSAHIGQRIRWARGMVQIFRLDNPLFGKGLKLAQRVCYANAMLHFLSGIPRLIFLTAPLAFLLLHAYIIYAPALMIALFVLPHMIHASLTNSKIQGKYRHSFWSEIYETVLAWYIAPPTFVALINPHKGKFNVTAKGGLVEEEYVDWVISRPYIYLVLLNLVGVAVGIWRFMYGPENEILTVWVSIVWVFYNLIILGGAVAVSVESKQVRRSHRVEMSMPAAIARDDGHLFSCTVHDYSDGGLGIKIHSDAQVLEGQNARLLLKRGQQEYVFPVRVARVNGNEVGLQLLPLTNQQHIDFVQCTFARADTWALWQDSFPEDKPMESLLDILKLGFRGYRHLAEFSPPSVKVIFRALTSLVAWIVSFVPRRPERAAPTLSADPAMAQQ	PGPT0022275_231	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0022275-bcsA|yhjN|celA-K00694	NA	NA
BMS020_03125	732	bcsQ_1		Cellulose biosynthesis protein BcsQ	ATGGCTATTCTGGGATTACAGGGCGTGCGCGGGGGAACTGGCGTCACGTCCATTACGGCTGCACTCGCCTGGGCGCTGCAATTGCTCGGTGAAAGCGTGCTGGCGATCGACGCCAGCCCGGATAATATGCTGCGCTTTTTTTTCAACACCGATATCCATCATCAGGACGGCTGGGCCCGGTCGCTGCTTGACGGCCGTGACTGGCGCGACGCGGGTCTGCGCTATACGCAACATATCGATCTGCTGCCGTTTGGCCAGCTCAGCGCGGGCGAAAGAGAAAACGTCGACCAGCTGCTGCCCACCCTGGGAGCGATGACGGAAGCGGTACAGCAGCTGCAGGGCCAGTACCGCTGGCTGCTGCTGGATCTGCCGGCGGGCTATTCGCCGTTGACCCGCGAGCTGCTGACGCTCTGCGACCGCTCGCTGGTGGTGGTCCATCCCGACGCCAACAGCCATATCCGTTTGCACCAGCAGCCCTTTCCGGCCAACAGCGATATTCTGATTAACGATCTGCGGGTCGGCAGCCAGCTGCAGGAAGATCTCTACCAGCTGTGGCTCGAGAGCCAGCCGCGGATCCTGCCGGTGACCATTCACCGCGACGAGGCGATGGCCGAGTGCCTGGCGGCGAAACAGCCCCTTGGGGAGTATCGCCAGGACTCTCTGGCGGCGGAAGAGGTGCTGACCCTGGCGAACTGGTGCCTGATCCACTATGCCGGCGGGAGGGCGGTATGA	MAILGLQGVRGGTGVTSITAALAWALQLLGESVLAIDASPDNMLRFFFNTDIHHQDGWARSLLDGRDWRDAGLRYTQHIDLLPFGQLSAGERENVDQLLPTLGAMTEAVQQLQGQYRWLLLDLPAGYSPLTRELLTLCDRSLVVVHPDANSHIRLHQQPFPANSDILINDLRVGSQLQEDLYQLWLESQPRILPVTIHRDEAMAECLAAKQPLGEYRQDSLAAEEVLTLANWCLIHYAGGRAV				NA	NA	NA	NA	NA
BMS020_03126	189	yhjR		Protein YhjR	ATGCCAGCAAAAGATCCTGTCGTACCCACGGACGCCACGCTGGGGTACACCTTTCAAAATGATTTTTTGGCGCTAAGCCGGGCATTTTCCCTGCCGGATATTGATTATCATGATATTTCGAGGCGTGAACAGCTGAACGCAGCGCTGAAGCGCTGGCCGCTGCTGGCAGAGTTTGCAGAGAAAAAATAA	MPAKDPVVPTDATLGYTFQNDFLALSRAFSLPDIDYHDISRREQLNAALKRWPLLAEFAEKK				NA	NA	NA	NA	NA
BMS020_03127	1554	bcsE		Cyclic di-GMP binding protein BcsE	GTGGATAGTGTATTTACTTTGGGTATTTCATCATTATGGGATGAAGTGTGCCATATGCCGGTCGGCGGGGTATGGTGGCTCAACGTTGACCGTTATGCCGATGCCGTCAGTCTGGTTAATCAGACGCTGGCCGCGCAGGCGAAAAACAGCGAAGTTGCCGCGCTGGTCATGGGTGATAAACCTGATGATATCATTTCATTAGATAGCATTCATGGCCCGAATAATATCGCGCTGTTTACCCTGCCGAATCGCCCGGAGGCGCTGGAAGAAATACATCGTGATTTAGTCTGCTCCCTCGAGCCTGGCAATTATTTGTTTATTCTGCTATGCGCTGAAAATGCCTGGCAAAATATAAATAATGAAAAGTTATGCGCCTGGGTGGAAAAAACCAGTCGCTGGGCGCAATATCATCGCTGCACGTTCTTAGCGATCAATCCCGCCCAGGATATCGATCGGCAGCTCACCCCGTTATTACGCGCGTACCGATCCCTTTCCGGTCTGGCAAGTATTCGCTACCAGGGCGACCGCCATCTTTTTGATATTGCCTGGTGGGGAAGCGATAAAGGCATCAGCGCCCAGCAGCAGCTGATGGTGCAACACGACGACGCCGGCTGGCGATTAGCGCAGGATGCTGAAACCAGCGTGCAGCCGCGTAGCGACGAAAAAGCGATCCTCAGCCATGTGCGCGTCCTCGAAGGCGCCCCGCCGCTCTCGGAATACTGGACCCTGTTCGATACCAATGACGAGGTCTTCAACGCCGGGCGCACTGCGCAGGCGGCGACGATCCTCTTCTCCATTACCCAGAATACGCAAATTGAACAGCTGGGGCGCTATATTCATACCCTGCGTCGTCAGCGCGGCACCGCGCTGAAAATTATTGTCCGCGAACAAACCCCCAGCCTGCGCGCGACCGATGAGCGGCTGCTGCTCAGCAGCGGCGCCAGCCTGGTGATCCCCAACAGCGCGTCGCTTTCCCGCTGCCTGACGCTGATTGAAAGCGTACAGAACCAAAAGTTCTCCCGGCGTATCCCGGAAGATTTTGCCACCCTGCTCACCTGGAGCCAGCCGTTAAAGCTGCGGGGCTATCAGAAATGGGACGCCTTTTGCGAAGCGGTGCACAACGTGATGACCAATACCCTGCTGCCGGCCGACAGCAAAGGCGTGATGGTGGCCCTGCGCCCGGCGCCGGGGCTGCGCGTCGAGCAGGCGCTGACGTTATGCAAACCCAACCGGATGGGCGACATTATGACCATCGGCAATAACCGGCTGGTGCTGTTCTTGTCATTTTGCCGAATCAATGACCTCGACACCGCGCTAAATCATATTTTCCCGCTGCCGACCGGCGATATTTTTTCTAACCGTATGGTGTGGTTTGAAGACAAACAGATCCTCTCGGAAATCGTGATCATGCGCGGCGTCGAGCCGGCGCGCTGGAACACGCCGCTGCCCCTCTCGGTCGGTAAAAACGAAACCATCAACGCCACCCACGATGGACGCCACTGGCGACGCTATCCCGAACCACACCGGTTAACCACCCGTGAGGAGCAAGCCTGA	MDSVFTLGISSLWDEVCHMPVGGVWWLNVDRYADAVSLVNQTLAAQAKNSEVAALVMGDKPDDIISLDSIHGPNNIALFTLPNRPEALEEIHRDLVCSLEPGNYLFILLCAENAWQNINNEKLCAWVEKTSRWAQYHRCTFLAINPAQDIDRQLTPLLRAYRSLSGLASIRYQGDRHLFDIAWWGSDKGISAQQQLMVQHDDAGWRLAQDAETSVQPRSDEKAILSHVRVLEGAPPLSEYWTLFDTNDEVFNAGRTAQAATILFSITQNTQIEQLGRYIHTLRRQRGTALKIIVREQTPSLRATDERLLLSSGASLVIPNSASLSRCLTLIESVQNQKFSRRIPEDFATLLTWSQPLKLRGYQKWDAFCEAVHNVMTNTLLPADSKGVMVALRPAPGLRVEQALTLCKPNRMGDIMTIGNNRLVLFLSFCRINDLDTALNHIFPLPTGDIFSNRMVWFEDKQILSEIVIMRGVEPARWNTPLPLSVGKNETINATHDGRHWRRYPEPHRLTTREEQA				NA	NA	NA	NA	NA
BMS020_03128	198			hypothetical protein	ATGATGTCTATCGCCGATATTCTGCAACTGGTGGTGCTCTGCGCCCTGCTGTTTTTTCCGCTGGGCTACCTGACGCGCCACTATCAGCGCCGGATCCGCACGACGTTAAGATTGATGTTCTTTAAACCCCGTTACGTGAAACCGGCAGGGGTATTACGCCGGGGAACAACGGTTAAGCAAGGCAAAGCGAATAAATGA	MMSIADILQLVVLCALLFFPLGYLTRHYQRRIRTTLRLMFFKPRYVKPAGVLRRGTTVKQGKANK	PGPT0027300_30	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-Ldr-Rdl_TOXIN-ANTITOXIN_SYSTEM,PGPT0027300-toxin_ldrA|ldrB|ldrC|ldrD-K18862	NA	NA
BMS020_03129	1686	bcsG		Cellulose biosynthesis protein BcsG	ATGACAAATAAAAAAACGACCGCGGCACCGCTTCCGCTCTGGCAGTACTGGCGCGGCCTTGGCGGCTGGAACTTATACTTTCTGGTCAAGTTTGCCCTGCTGTGGGCCGGGTATCTCAATTTCCACCCGATGCTGAACCTGGTGTTTCTCGCCTTTCTGCTGGTGCCGATCCCGCGTGAAAAGCTGCACCGCATCCGCCACTGGATCGCCATTCCGCTCGGCTTCGCGCTGTTCTGGCATGATACCTGGCTGCCCGGGCCGGAGACGCTTCTTAGCCAGGGCTCGCAAATCGCCGGCTTCAGCGCCAGCTATATCTGGGATCTGATTGTCCGCTTTATCAACTGGAGCATGGTCGGCGCCTTCTTTGTTTTACTGGTGCTATGGCTGTTTATCAGCCAGTGGCTGCGCGTTACCGTGTTTGTCTCCGCGATGGTCGTCTGGCAGGCGGTCAGCCCGTTGCTGCCGGCCTTTACCATTTGGCCTGCCGGTCAGCCCACCACCGCCGCCGCCACCGCGCCGGCCAACGTCGGGACCAACGCCGCCGCTGGCGCCGCGTCCAGCCCGGCCAGCCCGGCCAGCAGCGATATTCCGCCGCAGACCGAGCCGCCGACCTCGGCCAATCTCACCAACTGGCTGAACGGTTTCTATGCCGCCGAGCAGAAGCGCAAGACGCCGTTCCCGGACCAGCTGCCGGCGGATGCGCAGCCGTTTGACCTGCTGGTGATCAATATCTGCTCGCTCTCCTGGTCGGATATTGAAGCCGCCGGGCTGATGGACCACCCGCTGTGGAAGCATTTCGATATCGTCTTCAAAAACTTTAACTCCGCGACCTCCTACAGCGGACCGGCGGCGGTGCGCCTGCTGCGCGCCAGCTGCGGCCAGCTGTCGCATACCAACCTGTATCAGCCGTCCGGCGCCGATTGCTACCTGTTTGAAAACCTGGCGAAACTCGGCTTCAACCAGCAGCTGATGCTCGGCCACAACGGCCTGTTCGGCGACTTCCTGAAAGAGCTGCGTTCGCTGGGCGGCATGCAGAGCCCGCTGATGGACCAGAGCGGTCTGCCGGTCAGCCTGCAGGCGTTTGACGGCTCGCCGGTGTACGAGGATCTGGCGGTCCTCAACCGCTGGCTGAAGACCGAAGAGGCCAGCAGCAATCCGCGGAGCGCCACCTTCTATAACACCCTGCCGCTGCATGACGGCAACCACTTCCCGGGACAAAGCAAAACCGCGGACTACAAAGTGCGCGCGCAAAAGCTGTTTGACGACCTGGATAACTTCTTCACCGAGCTGGAAAAATCGGGGCGGAAGGTGATGGTGGTGGTGGTGCCGGAACACGGCGGCGCGCTGAAGGGCGATAAGATGCAGGTGTCTGGCCTGCGGGATATCCCGAGCCCGTCGATCACTAACGTCCCGACGGCGGTGAAATTCTTCGGCATGAAGGCGCCGCATGAAGGCGCGCCGATTATCATCGATCAGCCCAGCAGCTACCTGGCGGTGTCGGAGCTGGTGGTGCGCGCCCTCGACGGCAAAATGTTCAGCGAAGAGAGCGTCAACTGGCAGCAGTATGTCGCCAACCTGCCGCAGAGCGCGGCGGTGTCCGAAAACGCCAACGCCATCGTTATCCAGTATCAGGGCAAGCCGTATGTCCAGCTGAATGGCGGAAGCTGGGTGCCTTATCCGCAATAA	MTNKKTTAAPLPLWQYWRGLGGWNLYFLVKFALLWAGYLNFHPMLNLVFLAFLLVPIPREKLHRIRHWIAIPLGFALFWHDTWLPGPETLLSQGSQIAGFSASYIWDLIVRFINWSMVGAFFVLLVLWLFISQWLRVTVFVSAMVVWQAVSPLLPAFTIWPAGQPTTAAATAPANVGTNAAAGAASSPASPASSDIPPQTEPPTSANLTNWLNGFYAAEQKRKTPFPDQLPADAQPFDLLVINICSLSWSDIEAAGLMDHPLWKHFDIVFKNFNSATSYSGPAAVRLLRASCGQLSHTNLYQPSGADCYLFENLAKLGFNQQLMLGHNGLFGDFLKELRSLGGMQSPLMDQSGLPVSLQAFDGSPVYEDLAVLNRWLKTEEASSNPRSATFYNTLPLHDGNHFPGQSKTADYKVRAQKLFDDLDNFFTELEKSGRKVMVVVVPEHGGALKGDKMQVSGLRDIPSPSITNVPTAVKFFGMKAPHEGAPIIIDQPSSYLAVSELVVRALDGKMFSEESVNWQQYVANLPQSAAVSENANAIVIQYQGKPYVQLNGGSWVPYPQ				NA	NA	NA	NA	NA
BMS020_03130	1002			Endoglucanase	ATGCCCCTGCGTGCTTTAGTGGCGGTGATAGTGACAACGGCAGTGATGCTGGTGCCCCGGGCGTGGGCGGATACGGCATGGGAGCGCTATAAGGCCCGTTTTATGATGCCGGACGGCCGTATCATTGATACCGCCAATGGCAATGTGTCGCATACGGAAGGCCAGGGCTTCGCCATGCTCCTGGCGGTGGCGAATAACGATCGCCCGGCGTTCGACAAACTGTGGCAGTGGACGGACAGTACCCTGCGCGACAAGTCTAACGGGCTGTTTTACTGGCGCTATAACCCGGTGGCGCCGGACCCGATCGCCGATAAAAACAACGCCACCGATGGCGATACCCTGATCGCCTGGGCGCTGCTGCGCGCGCAAAAGCAGTGGCAGGACAAGCGCTACGCGACGGCCTCCGATGCCATCACCGCCTCCCTGCTGAAATATACGGTGGTGACTTTCGCCGGTCGCCAGGTGATGCTCCCGGGGGTGAAGGGGTTCAACCGCAACGACCACCTGAACCTTAACCCCTCCTATTTCATCTTTCCGGCCTGGCGCGCCTTTGCGGAGCGGACGCACCTGACCGCCTGGCGGACATTGCAGAGTGACGGGCAGGCGCTGCTGGGGCAGATGGGCTGGGGGAAATCGCACCTGCCCAGCGACTGGGTGGCGCTGCGGGCGGATGGCAAGATGCTGCCGGCCAAAGAGTGGCCGCCGCGGATGAGTTTCGATGCGATCCGTATTCCGCTGTATATCTCGTGGGTCGATCCGCATAGCGCCTTGCTCGCGCCATGGAAAGCCTGGATGCAGAGTTACCCGCGTCTGCAAACCCCGGCGTGGATCAACGTTAGCACCAACGAGGTCGCCCCGTGGAATATGGCCGGCGGCCTGCTGGCGGTGCGTGATTTAACGCTTGGCGAACCGCAGGAAGCGCCGCAGATTGACGACAAGGATGATTATTACTCCGCCAGCCTCAAGCTGCTGGTCTGGCTGGCGAAACAGGATCAGCGCTAG	MPLRALVAVIVTTAVMLVPRAWADTAWERYKARFMMPDGRIIDTANGNVSHTEGQGFAMLLAVANNDRPAFDKLWQWTDSTLRDKSNGLFYWRYNPVAPDPIADKNNATDGDTLIAWALLRAQKQWQDKRYATASDAITASLLKYTVVTFAGRQVMLPGVKGFNRNDHLNLNPSYFIFPAWRAFAERTHLTAWRTLQSDGQALLGQMGWGKSHLPSDWVALRADGKMLPAKEWPPRMSFDAIRIPLYISWVDPHSALLAPWKAWMQSYPRLQTPAWINVSTNEVAPWNMAGGLLAVRDLTLGEPQEAPQIDDKDDYYSASLKLLVWLAKQDQR	PGPT0012170_858	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CELLULASES,PGPT0012170-bcsZ|wssD|yhjM-K20542	NA	NA
BMS020_03131	477			hypothetical protein	ATGATGACGGAGAACAATAACCCGGTGGTGATGACCTGGTTTCAGCAGCAGCAGACGCCTGCCGGATGGTTCGATCTGTTGATTATTATGGTCGAAGGTATGCTCAATAATGCCGGCGAGCTGGAGAGCCAGCCTTTCCTGCGTCAGATGGGCGCTTCGCTGGCGGAGACCCATCCGCTGCCAGCGTCGGAGACCGTGGGGGAGCTGGAGGCGAATATCAACCGGCTGCTGACCCATTTCCACTGGGGGGTGGTGACCATCGACGTCGGCGAGGACGGCCTGCGCCTGCGCCATCAGGCGTTGCCGGTCAGCCGCGACGACGCGGGGCGCGTGCGCTGGTGCAACGCGTTCTGTGCCATACTCGAGGGGTTATATTCTCGCTGGCTGCAGAGTCAGGGAGGCAGTGCTCACGTGATATTGCAGCGTGAGCGGGTGTTCTCCGTCTCTGACGTTCAGTTTCTTTACTACCATCCATAA	MMTENNNPVVMTWFQQQQTPAGWFDLLIIMVEGMLNNAGELESQPFLRQMGASLAETHPLPASETVGELEANINRLLTHFHWGVVTIDVGEDGLRLRHQALPVSRDDAGRVRWCNAFCAILEGLYSRWLQSQGGSAHVILQRERVFSVSDVQFLYYHP				NA	NA	NA	NA	NA
BMS020_03132	4053	lapB_1		Lipopolysaccharide assembly protein B	ATGAAAAGAAAGATAACGATAACGATGAAAAGCTCCCGGCGGCTCACCACATTCTGCCTCACCGGCGCCCTGGCTCTCGGCGCCTCTGGCGGCGCGCTGGCGGCGGGTAACGACGCGGCGCTGCAGGCGCTGTTCGCCCAGGCCAACTATTGGCATGAGAAATCCCATGACGAGCTGGCGATGGAGTCCCTGCAGAAGGTGCTCTCGGTGGATGCCAACAACACCCAGGCGCTGTATCTGATGGCGCTCTGGTCGCAGCAGGGCGGCGATATGCAGGCGGCGGCGCAGTGGCGCGCGCGGCTGGCGAAAGCGGCGCCGGATAGCCCGGGTCTGCAGGATCTGGACAACGCCAAAAAGATGTCGCAGGTGCCGCAGGGCCAGCTCAGCCTGGCCCGCCAGCAGGCGCGCGGCGGCAATATCCCCGGGGCGCTGGCGACCTGGCGCAGCATGTTCAATGGCAATACGCCGCCTGCCGGGCTGGCGGCGGAATATTACCTGACCATGGCCAGCGACAAATCGCTTTATCCGCAGGCCATCAGCGAACTGCGGCAGTACGTGGCGCAGCATCCGCAGGAGAACGCCCCGCGGGTGGCGCTGGGCAAAGCGTTAACCTGGCGGGAAGAGACCCGTCGGGAAGGGATCGCCCTGCTCGAGCCGATGGCCAGCGGCAATAAAGAGGCGGACAGCGGCTTGCGTCAGGCCTTGCTCTGGCTGGGCCCGCAGGCCGGGGATGAGCAGTATTACGATACCTGGATGCAGCGGCATCCACAGGATAGCGAAGTTCAGAATTACTTTCGTGAACGGCGCAGCGGTCAGGCCCGCGGCCAGGGCTACGCCAATCTCAACAGCGGCAATACCGCTGCCGCGAAACAGCAGTTTGAAGAGGTATTGCAGACCAACCCGCAGGATGCCGATGCGCTGGCGGGCATGGGCTATATCGCCCAGCGCAGCGGCGACTACCAGGCCGCGTCACAATATCTGAGCCGGGCGGCCGATCTCGGCGGCGACGCCTCGGCGACCCGCCGTCAGCAGGCGGCCGATGCCCTGTTCTACGGCCAGCTGGCGCAGGCCCAGCAGGCCTATAAGCAGGGCAATATCAGCCAGGCGCTGGCGCTCTCCGCGCCGCTGGCGCAGCAGAGCGGGGCGCGGGGCGCCTCGGCGAAGCTGTTTCGCGCCGATGTGCTGCGGCATAACAAAGATTTACCCCAGGCCGAGCAAACGCTGCGCTCACTGTTAAACGACGATCCGCAGAATGCGGCGGCGCGGGAAAACCTCTACTACGTGCTGCGCGAGCAGAATAAATCCGCCGAGGCGCAGGCGATGCTGCAGACGCTGCCGCAGAGTCTGCAGCAAAAACTGCAGCCGCGAGTGGTGGCCGGCGTCCCGGGCGACGCCCTGCGCCGTCAGGCCCAGGCGCAGGTCAGCAGCGGTAACCCAGCCGGCGCCATTGCCACCCTGCGGCAAGGCGTCGCCCGCTATCCGGACGATCCCTGGCTGCGTCTCGATCTGGCCCGACTGCTGCAAAAATCGGGTAACGCCAGCGAGGCCTCTTCGCTGATGTCGGCGGCCTATCGCCCCGGCGCCAGCAACAGCGCGCTGTATGCCGCCGCGCTGTTCGCCAGCGAAAATGGCGCCTGGCAGCAGGCGCAGACGCTGCTGTCGCGCATTCCCGGCGGCAGCCAGACCAGCGACATGCGCGATTTACGTCAGCGGGTGAACTACAACCTGCAGCTGGTGACGGCCGAAAACTACCTGGCGCAGGGCAATACCATCGCCGCCAGCAATACCCTGCGGGCGATGGCCTCTACGCCGCCGAAAGCCCCGGCGGACGCCGGCAAGCTGGCGCGGCTGCTGGCCGAGAGCGGCGACCTGACCACCGCGGTATCGCTGGTGCGCAACAATATCAGCGGCGGGGTGTCCGGCAACGCCGGCGATTACGCCGATCAGATCGCCGTCCTGAACCAGGCCGGGCTGACCGGCGAGGCGCAGAACCTGATCAGCAATCCGCAGCTGCAGGCCAGCAGTACGCCGACGCAGCTGGCGAGCATTCGCAATGGCTATGTGATCAACGAGGCCGATCGCCTGCGCGAGCAGGGCAATTACGCCGCGGCGTATGACAAGCTGATCCGCGCCATGCAAAGCGATCCGCAAAACACCGATCTGATGTTCGCCATGGCGCGGCTGTACCAGAGCGGCAAAATGAACAAAGAGGCCGGGGTGGTCTATGACTACCTGATGACGCGCGATACGCCGAACCAGGATGCGCGCGCCGGGGCCATCGACGTGGCGCTGTCGGCGGGGAACAACGATCGCGCTGAACAGCTGGCCGGCGGCTTGCGTCAGGATAACTCCCCGGATCGCCTGCTGCTGCTGGCGAGAGTGGCGGAGGCCCAGGGTCATCATCAGCAGGCGATGACCTACCTGCGCAGCGCCCGCGGCAAACTGCTGGGCATGCAAAGCACCAACAGCAGCGAAACGCCGACCGTCGGCGGGGTGCTGGCGGCGGATAACCCCTTTATCGGCGTGTCGCAAACGTCGGCGCCGACGCGGACGGCCTCCGCCTACGGCCAGTATATGCCGTGGCAGGTAGCCCAGTCGGCCGCCGCACCCGGCTCCTCGCTGCTGGGGATCCAGCGCACCGACCTGCCGGTGGACACCGCCCAGACGCGGATGCTGCGTCAGGTGGACACCATGATGGAGTCGCTGCAGGAGAAAACCGGCAGCTGGCTGCAGGGGGGAATGGACGTGCGCGGACGCGACGGCGAATCGGGCACCAGCAAGCTGACGGAGCTCAGAACGCCGCTGACCTGGTCCTCCTCGCCGTTTGGCGACTCGCGCTTTGACTTTACCGTCACCCCGGTGTCGTTAAACGCCGGGACCGCCAGCGGCGACGCCTGGCGTCGCTACGGCGCCAACCCGCTGGCCAATGCGGTCTCCAATATGGTGAGTACCGCCACCAGCGAACAGGCGGCGATCGCCGCGATGACCGAGGCGGAGCGGACGGCCTATTTTGCCAGCAATCCGGGCGCGGAGGCGTTAAGCGGCCTCGGCACCCTGAACGCGGCGGATTTCAATCCGACCACCAGCAGCGGGATGGAAAACCTGGCCAAGCTCGGGAGCTATGATTCGGGGCAGGTGGCCAGCTATCTCTCCTCGTCCAGCCGCAAGCCGAACGTTGACCAGACCAGCGGCTCGACCGATTCGCAGAAGGCCAACGGCGTCGAACTGGCGCTGGCGCTAAGCGGCGACGATTACCGGGTCGATATCGGCAGCACGCCGCTGGGCCAGGATCTTAATACCGTTGTCGGCGGGGTGAAATGGTCGCCCAAGCTGACCAACTATCTGTCGCTGATCCTCACCGGTGAACGCCGCTCGCTGACCGACAGCCTGCTTTCTTATGTCGGTCTGAAGGATGCCTATTCCGGGAAAAACTGGGGGCAGGTGACGAAAAACGGCGGCACCCTGCAGCTGAGCTATGACGACGGCGATGCAGGCTTCTACGTTGGCGGCGGCGGATACAGCTATCTCGGACAGAACGTCGCCAGCAACACCAGCATCAATGCCAATGCCGGGGTCTATCTGCGGCCCTATCATGACGAATACCGCCAGCTGCAGGCCGGGTTGAGCATGAGCTATATGGATTACTCCAAAAACCTCAGCTACTTCACCTATGGCCAGGGGGGCTACTTCAGTCCGCAAAACTACGTCAGCGTGTCGCTGCCGGTCAGTCTGACGGAGAAATATGATAACTGGACCATGAAGCTCGGCGGCTCGGTGGGCTACCAGTCTTACAGCCAGGATAAGAGCGCCTATTTCCCGACCAATTCGGAGTGGCAGCAAACCCTGGAGACGGCGGTAAGCAACGGGTTTGCCAAGGAAGCCTACTATTCCGCGACCTCGAAGAGCGGCATCGGCTATACCCTGCGCGCCGGGGCGGATTACAAGGTCAACAAACAGATGACGCTGGGGGGCCAGATTGGCTATGACACCTTCGGGGATTATAACGAAAGCACCGCCGGGCTCTATATTCGCTATATGTTAGGAGATCATTGA	MKRKITITMKSSRRLTTFCLTGALALGASGGALAAGNDAALQALFAQANYWHEKSHDELAMESLQKVLSVDANNTQALYLMALWSQQGGDMQAAAQWRARLAKAAPDSPGLQDLDNAKKMSQVPQGQLSLARQQARGGNIPGALATWRSMFNGNTPPAGLAAEYYLTMASDKSLYPQAISELRQYVAQHPQENAPRVALGKALTWREETRREGIALLEPMASGNKEADSGLRQALLWLGPQAGDEQYYDTWMQRHPQDSEVQNYFRERRSGQARGQGYANLNSGNTAAAKQQFEEVLQTNPQDADALAGMGYIAQRSGDYQAASQYLSRAADLGGDASATRRQQAADALFYGQLAQAQQAYKQGNISQALALSAPLAQQSGARGASAKLFRADVLRHNKDLPQAEQTLRSLLNDDPQNAAARENLYYVLREQNKSAEAQAMLQTLPQSLQQKLQPRVVAGVPGDALRRQAQAQVSSGNPAGAIATLRQGVARYPDDPWLRLDLARLLQKSGNASEASSLMSAAYRPGASNSALYAAALFASENGAWQQAQTLLSRIPGGSQTSDMRDLRQRVNYNLQLVTAENYLAQGNTIAASNTLRAMASTPPKAPADAGKLARLLAESGDLTTAVSLVRNNISGGVSGNAGDYADQIAVLNQAGLTGEAQNLISNPQLQASSTPTQLASIRNGYVINEADRLREQGNYAAAYDKLIRAMQSDPQNTDLMFAMARLYQSGKMNKEAGVVYDYLMTRDTPNQDARAGAIDVALSAGNNDRAEQLAGGLRQDNSPDRLLLLARVAEAQGHHQQAMTYLRSARGKLLGMQSTNSSETPTVGGVLAADNPFIGVSQTSAPTRTASAYGQYMPWQVAQSAAAPGSSLLGIQRTDLPVDTAQTRMLRQVDTMMESLQEKTGSWLQGGMDVRGRDGESGTSKLTELRTPLTWSSSPFGDSRFDFTVTPVSLNAGTASGDAWRRYGANPLANAVSNMVSTATSEQAAIAAMTEAERTAYFASNPGAEALSGLGTLNAADFNPTTSSGMENLAKLGSYDSGQVASYLSSSSRKPNVDQTSGSTDSQKANGVELALALSGDDYRVDIGSTPLGQDLNTVVGGVKWSPKLTNYLSLILTGERRSLTDSLLSYVGLKDAYSGKNWGQVTKNGGTLQLSYDDGDAGFYVGGGGYSYLGQNVASNTSINANAGVYLRPYHDEYRQLQAGLSMSYMDYSKNLSYFTYGQGGYFSPQNYVSVSLPVSLTEKYDNWTMKLGGSVGYQSYSQDKSAYFPTNSEWQQTLETAVSNGFAKEAYYSATSKSGIGYTLRAGADYKVNKQMTLGGQIGYDTFGDYNESTAGLYIRYMLGDH	PGPT0022285_285	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0022285-bcsC-K20543	NA	NA
BMS020_03133	2430	bcsB_2		Cyclic di-GMP-binding protein	ATGAAGCGATTAACGACGCTGGCGCTGCTGGCAGGGATGCTCTCTGCGCCTGCGCTGCACAGTGAAGAACCGGGCGCCGCCGCCCCGCTGAGCTTCCCGCAGCTCAACGGCGCGGCGGACAGCGAGCCAGGCGACGAACCCCCGGCTGCCTCGCCGGAGGAGGGCGCCTCTCCGGCAGCCCCCGCCACCGACGGCGATGCGGCGGCGACGGCCCCTGCGCCGGATATGCCGGACTTACCCCCGCCGGTGAGCGCTACGGCCGCGCCGGAGGTCATTCCTGTCGCCCCGGTCTGGGGAGGCGACCTGAATCTGGCGCAGATGGGGATGCCGGACGGCATTATCCTCAGCGGCGGTCAGCGGCAGGGGGGCGTCAGCTTTACCCTGCCTTCCGATCAGGTGGTGATCCATTCGCAGCTCAGCCTTGCCGTTCGCGTATCGCCGGAAATGGCGAGCCGCAACGCCACCCTGCAGCTGATGCTCAACGGTCAACCGCTCGGCACCCTGCCGCTGGGCGCCGATGGCGAGGATATCTCCCATTATCAGCTGGATATCCCGCCCGCGCTGATGGTCTCCAGCAATAATCTGAGCGTGAAGATCAACGATGGCGATACCCTGCAGTGCCAGCGTGACATTCATGATTCGTCGCGGGTCACGGTGCTGCCCACGTCGCATTTCAGCTGGGAAAGCCAGCAGTTGAACATCAGCGACGACCTGAGCCACTTCCCGCGTCCCTTCTTCGACAGCATGCAGATGACGCCGGCGGACATCGCCGTTTCCTATGGAGCGAAGCCGTCGGCCGACGTCTTCAGCGCCGCGGCGCTGGTCTCCTCCTGGCTGGGTATCCAGGCGGACTATCGCGGCATCGCCTTCAGCGCGCTGCGCGACCGCCTGCCGGAACGCCATGGCATCGTGATTGGCCATCCGGGCGAGCAGGTGGGCGGTATGACGCTGCCGGAAACCGATAAGCCGCTGCTGCGCATCATCGCCAATCCCGCCAATCCGGCCTATAAGCTGCTGTTGATCGTCGGCAAAAACGATACCGCGCTGCGCATGGCAGCCTGGCGGTTAACCCGCGGCAACTTTGCGCCGCAAACCGCGACGCTGGATGTCGAACCGCAGACCATCCCGGTTGGCAAAGCGTATGATGCCCCGCGCTGGATCCCCACCGATCGTCCGGTCAGGCTCAGCGAACTGTTGCGTAAGGATCAAAGCCCGACCGTCAGCGGCGTCTGGCATGAACCTTTACGTATCGCCTTCCGCGCCGCCCCGGACCTCTATCTGTGGGATGGCGAGACGATCCCGCTGCAGGTTGGCTACCGCTTCCCGTCGGAAAACTGGATCAATGAGGATAAGTCCCTGCTGAGCGTCACGCTCAATGGCACCTTCCTCAACAACCTGCCGATGAACAAGCAGGGGCCGCTGGAGAAAGTCTGGCGCCACCTCGGCGGGGATGCGCGCCAGGAGCGCTTTACCATCCCGCTGGCCCCCTACCTGATCTACGGCGATAACCAGCTGTCGATGTACTTCAATGTGGTGCCGAAGGACGATGTTCCGTGCCAGGTGCTGCTGAATAACAATATCAAGAGCCGCATCACTGACGACTCCTGGATTGATTTGAGCAAGACGCGACACTTCTCGCTGCTGCCAAACCTCTCCTATTTCGTCGGCGCCTCGTTCCCCTTCTCGCGGCTGGCGGACTATTCGCAAACGACGCTCCTGCTGCCGGCGGAACCGTCTGAGACCCAGGTGGCGACCCTGCTGAATCTGGCCGCGCGCTCCGGGAATGCGACCGGCACCGCGCTGGCGAATAACCGCGTCGTTCTCGGGATGCCCACCGGCGGCGGGGATTTGCAGTCGCTGCGCGAACGTGACGTGCTGGCGGTCACCGCTCTCGATCAGCAGGCCTTCAACCAGAGCCTGCTGGCTGATTCACCCTACCGCCCGGTGGATAATGTGCTGAGCGTCCGCGAGCCCGATCTGTGGCAAAAAGCGCAGCGCCGGCTCACCGGCGACTGGACCTCCGCCAGCCTCGACGCCGATCGCTACTTCTCGTCCAGCAGCGCCTGGCGCGGGTTTATCAGCTATCGTTCGCCGTGGAACCCCGCCCGGCTGGTGGTGGTGGCGATGGCCAGCAATGATGATCAGCTGGCGCGACTGAAAAACGATCTGGACTCACCGCGCATCAACGCCGGGATCCGTGGCGATACCGCGGTGATCACCAGCGATAACGGGGTGCGCAGTTTCCAGGTGAGTACGCCGTTCCCCAGCGGTCAGATGCCGTGGTACATGATGGCGGTCTGGTATGCCAGCCAGCACTCCGGTTTCCTCGCCCTGCTGGGGCTGATTGCCACCTCGATAATGGGACTGGCGCTGACCGCGATGTTTAAACGTCACGCCCGTAAGCGTCTGGGTTCGGGGGATAACCAATGA	MKRLTTLALLAGMLSAPALHSEEPGAAAPLSFPQLNGAADSEPGDEPPAASPEEGASPAAPATDGDAAATAPAPDMPDLPPPVSATAAPEVIPVAPVWGGDLNLAQMGMPDGIILSGGQRQGGVSFTLPSDQVVIHSQLSLAVRVSPEMASRNATLQLMLNGQPLGTLPLGADGEDISHYQLDIPPALMVSSNNLSVKINDGDTLQCQRDIHDSSRVTVLPTSHFSWESQQLNISDDLSHFPRPFFDSMQMTPADIAVSYGAKPSADVFSAAALVSSWLGIQADYRGIAFSALRDRLPERHGIVIGHPGEQVGGMTLPETDKPLLRIIANPANPAYKLLLIVGKNDTALRMAAWRLTRGNFAPQTATLDVEPQTIPVGKAYDAPRWIPTDRPVRLSELLRKDQSPTVSGVWHEPLRIAFRAAPDLYLWDGETIPLQVGYRFPSENWINEDKSLLSVTLNGTFLNNLPMNKQGPLEKVWRHLGGDARQERFTIPLAPYLIYGDNQLSMYFNVVPKDDVPCQVLLNNNIKSRITDDSWIDLSKTRHFSLLPNLSYFVGASFPFSRLADYSQTTLLLPAEPSETQVATLLNLAARSGNATGTALANNRVVLGMPTGGGDLQSLRERDVLAVTALDQQAFNQSLLADSPYRPVDNVLSVREPDLWQKAQRRLTGDWTSASLDADRYFSSSSAWRGFISYRSPWNPARLVVVAMASNDDQLARLKNDLDSPRINAGIRGDTAVITSDNGVRSFQVSTPFPSGQMPWYMMAVWYASQHSGFLALLGLIATSIMGLALTAMFKRHARKRLGSGDNQ	PGPT0022280_186	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0022280-bcsB|celB-K20541	NA	NA
BMS020_03134	2112	acsAB	COG1215	Cellulose synthase 1	ATGAAAAAATCTCTTTTTTGGTTGCTGGCGCTGGTGCTCTCTCCGGTCGCCGTGCTGGTAGTGATCACGCCGATGGACAGCCAGAAGCAGTACATCTTTGGTCTGCTGAGCATTGGTATTCTGTTTCTGATGGGTTTCAGCAAACGGCGCAGCATCTCGGTGATTATGGTCGTCGCTTCGCTGCTGATGTCCACCCGTTACATGTATTTTCGCCTCACGCAGACCCTGCACTTCAACTCAGCCATTGAAACCATTCTCGGCATGGGGCTCTTTCTGGCGGAAGTCTATATCTGGGTGATGCTGCTGCTTAACTATCTGCAGACGGTCTGGCCGCTGAAGCGCGGCATTGTTCCGCTGCCGGATGATATGAGCAAGTGGCCGACGGTTGATATCTATATTCCGAGCTATAACGAACCGCTGGAGGTGGTGCGTGACACCGTCCTCGCGGCGCAATGTATTGATTATCCAAAAGATAAAATGAAAATCTATCTTCTGGATGACGGTAAGCGCAGCGAGTTTGCCGTGTTCGCCGCCGACGTCGGGGTGGGCTATATTACCCGCAACGACAACAAGCACGCCAAAGCGGGGAACCTCAACCACGCGCTGACCCTGACCCAGGGAGAGCTTATCTGCGTCTTCGACTGCGACCACGTCGCCACGCGTGTGTTTCTGCAGGCCACCGTCGGCGGCTTTCTGAAAGATCCGATGCTGGCGCTGGTGCAGACGCCGCACTACTTCTATTCCCCGGATCCGTTCGAGCGCAACCTCTCCGTCGGGCGCAATATCCCGAACGAAGGGATGCTGTTCTATGGCCCGATTCAGCAGGGCAACGATAACTGGAACGCCACCTTTTTCTGCGGCTCCTGCGCGGTGATCCGCCGCGAGGCGCTGGCGCAGATCGGCGGTTTCGCCGTCGAAACGGTCACCGAGGACGCCCATACGGCGCTCAAGTTCCAGCGCCTTGGGTGGAAATCGGCCTTTCTCGATATTCCGCTGGCGGCTGGCCTCGCCACCGAGCGCCTGGTGGTGCACGTTATCCAGCGTACCCGCTGGGCGCGCGGGATGACGCAGATTTTTCGCGTTGATAACCCGCTGTTTGGCCGCGGGCTGACCTTCCAGCAGCGCTTGTGCTATCTCAGCGCCATGCTCTACTACCAGTTCGCGCTACCGAGGGTGGTGTTTGTCACCGCCCCGCTGGCTTACCTGCTGTTTAACCTCAATATTATTTACTCATCAGCGAGCCTGATCGTCTCTTATGCGCTGCCGCACCTGTTTCTCGCCATCTACGTCGGTTCGCGAATGAACGGCCGCTATCGCTACAGCTTCTGGGGGGAAATCTACGATATTGTGCTGGCTTTCCACCTGGTGCTGCCGACCCTGGTGACGATGATTTTCCCCAAGCGCGGCAAATTCAACGTCACCGATAAGGGCGGCCTGCTGGACGTCGGCTACTTCGATTTCACCGTGGTGCGCCCGCATCTGGTGGTGGCCTGCCTGCTGGCGCTGGGGGTGATCGTCGGCATCGTCCGGGCGATTGGCCATGACTACTTTGGCTCGGACCCCAACGTTATCGCCCTCAACGTCGGATGGGGGATCTACAGTCTGATCTTCCTGCTGGCGGCGATTGCCGTAGCGCGCGAAACGCGGCAGGTGCGCAAAACCATTCGTATCGATGTCGATATTCCGGTGGTGATCCATTACGCCAGCGGCATCGTTTCCCGCAGCCATACCGAGGATCTGTCGATGGGCGGCTGCCGCGTGGTGGCGCCAGATACGCGCCATCTGGAGGATGATATCGAAGAGATTGAGCTGATCCTGCAGTCCGGGGCTATTTCGATCCCGGCGCAGCTGGTCACCTCTGACGAGCGCTTCCTGCGCCTCAAGTTTGATGAAGATATTCCGCTTTCGCGCCGCCGTGAACTGGTGCGCGTGGTGCTGGCCCGCGCGGATGCCTGGATTAATCCGCCGCGCCCGCAGGATAACCCGTTCCGCTCCTTCTTCACCATTTTACGCTGCGTGTTCGAACTGTTCTGGCTGACGTGGAAAACCCGTCGCAGCCAGCGCAATCGGGCAACAGTGGCGAAAACGGCGCAGGAGGATGGCACGTTATGA	MKKSLFWLLALVLSPVAVLVVITPMDSQKQYIFGLLSIGILFLMGFSKRRSISVIMVVASLLMSTRYMYFRLTQTLHFNSAIETILGMGLFLAEVYIWVMLLLNYLQTVWPLKRGIVPLPDDMSKWPTVDIYIPSYNEPLEVVRDTVLAAQCIDYPKDKMKIYLLDDGKRSEFAVFAADVGVGYITRNDNKHAKAGNLNHALTLTQGELICVFDCDHVATRVFLQATVGGFLKDPMLALVQTPHYFYSPDPFERNLSVGRNIPNEGMLFYGPIQQGNDNWNATFFCGSCAVIRREALAQIGGFAVETVTEDAHTALKFQRLGWKSAFLDIPLAAGLATERLVVHVIQRTRWARGMTQIFRVDNPLFGRGLTFQQRLCYLSAMLYYQFALPRVVFVTAPLAYLLFNLNIIYSSASLIVSYALPHLFLAIYVGSRMNGRYRYSFWGEIYDIVLAFHLVLPTLVTMIFPKRGKFNVTDKGGLLDVGYFDFTVVRPHLVVACLLALGVIVGIVRAIGHDYFGSDPNVIALNVGWGIYSLIFLLAAIAVARETRQVRKTIRIDVDIPVVIHYASGIVSRSHTEDLSMGGCRVVAPDTRHLEDDIEEIELILQSGAISIPAQLVTSDERFLRLKFDEDIPLSRRRELVRVVLARADAWINPPRPQDNPFRSFFTILRCVFELFWLTWKTRRSQRNRATVAKTAQEDGTL	PGPT0022275_988	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0022275-bcsA|yhjN|celA-K00694	NA	NA
BMS020_03135	804	bcsQ_2		Cellulose biosynthesis protein BcsQ	ATGCCGTTGATTTGCGTCTGTTCACCGAAAGGTGGCGTAGGGAAAACGACCCTGGCGGCCAATTTAGCCTATGCGCTGGCGCGGACCGGCAGCAAAGTTCTGGCGCTGGATTTTGACGTCCAGAACGCCCTGCGTTTGCATTTTGGCGTACCGCTGAACGATGAGCGCGGCTACGTGGCGAAGGCGCTGGAAATGCACGACTGGAGCCAGTGCGTGCTGAGCGCCGGCAGCAATATTTTCGTCCTGCCGTATGGCGAAGTGAGCGAAGCGCAGCGTCAGGCGTTTGATGAGCAACTGACTCACAACGACCATTTTCTCCAGCGCGGTCTCTCCGCGCTGCTGAATTATCCCGGGCTGATCACCATCGCCGATATGCCGCCAGGGCCTTCGCCGGCGCTAAAGGCGCTGACGGGTCTGGCGGACCTGCATCTGATCCCGCTGCTGGCGGATACCGCCTCGATGTCGACCCTGGCGCACGTGGAAAAACAGCGCCTGACCGGCGCGGCGCTGAATCACAAGCATGGGCACTATTTCGTCATTAACCAAAGCGATAGCCGTCGCCAGGTCAGCCGGGACGTCACCAGCCTGATGGAAGAAAAACTGGGCGAACGACTGCTTGGCATTGTCCATCGTGATGAAAGCGTGGTGGAGGCCAATGCGTCGCAGAAGTCGATTCTGGACTTTAACGCCTCCTCGGCAGCGGCCTTCGATATTGAAATTATTGCTAAAAAAATATCTTCGCTGTTGGGTATCCATATTGGCGATGGCACGGTGCACAGCCAGCCACGCATGTCAGGGCTTTAA	MPLICVCSPKGGVGKTTLAANLAYALARTGSKVLALDFDVQNALRLHFGVPLNDERGYVAKALEMHDWSQCVLSAGSNIFVLPYGEVSEAQRQAFDEQLTHNDHFLQRGLSALLNYPGLITIADMPPGPSPALKALTGLADLHLIPLLADTASMSTLAHVEKQRLTGAALNHKHGHYFVINQSDSRRQVSRDVTSLMEEKLGERLLGIVHRDESVVEANASQKSILDFNASSAAAFDIEIIAKKISSLLGIHIGDGTVHSQPRMSGL				NA	NA	NA	NA	NA
BMS020_03136	531			hypothetical protein	ATGAACCATTATGATGATCTGCAGCGCTTTCAGGAAAAAACGCGGACGCAAAACCTCAAATTTCAGGATCTTTCATCGCAAGCCGCCACGCGGGAGCATGGAGACTGGGCGATCCTCAATCAGCTGAATCCCGGCGCAGAGAAACCCTCTTCCCTGGCGCTGGGAGGCTCGGTCTCCGCGCCGTTGCCGCAGTCGGTGCCTGCGGATCTGTTCCGGCAGGTAGAGGCGGCCGTAGCAGCGGCGCCAGCCTCTGATCCTGTTGCGTCTGCCGCGCCAGCGGCCCCGCAGCCGGTCGTGGAGACCGCCGCAGCCGCGCCGGAGCCGGTCAGGCAGGAGCCTGCGGTGGCCCCTGCGCCTCCCATCCCGGCGCCTGAACCGGCAATGGCTCCGCCGCCGAGAATGGCCCCCCGACCCGCGCCCGCCGCCGAGAACTATGCCCACCTGTTCGCGGCGAAAAGCGCAGAGCCGGTGACGAAAAATAAAGACCAGCCTTTGAAATCACTTCTGGAAAGGATCGCAACATGCCGTTGA	MNHYDDLQRFQEKTRTQNLKFQDLSSQAATREHGDWAILNQLNPGAEKPSSLALGGSVSAPLPQSVPADLFRQVEAAVAAAPASDPVASAAPAAPQPVVETAAAAPEPVRQEPAVAPAPPIPAPEPAMAPPPRMAPRPAPAAENYAHLFAAKSAEPVTKNKDQPLKSLLERIATCR				NA	NA	NA	NA	NA
BMS020_03137	1014	oppF_2	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGAGTACGCAAAAGGCCGCCACGCCACAACCGCTGTTGCAGGCCATTGATCTGAAAAAACACTACCCGGTGAAGAAGGGGTTATTCGCCCCGGAACGGCTGGTGAAGGCGCTGGACGGCGTCTCCTTTACCCTTGAGCGCGGTAAAACGCTGGCGGTGGTGGGGGAGTCGGGCTGCGGTAAATCGACCCTCGGTCGTCTGCTGACGATGATTGAAATTCCCACCGGCGGCGAGCTCTATTATCAGGGGCAGGATCTGCTTAAGCACGACCCGCAGGCGCAGAAGCTGCGGCGGCAAAAAATCCAGATTGTGTTCCAGAACCCCTACGGTTCTCTGAACCCGCGTAAAAAAGTGGGGCAGATTCTGGAAGAGCCGCTGCTGATTAACAGCAGCCTGAGCAAAGAGCAGCGCCGCGAAAAAGCGCTGGCGATGATGGCGAAAGTGGGCCTGAAAACAGAGCATTACGATCGCTATCCGCATATGTTCTCCGGCGGTCAGCGCCAGCGTATCGCCATTGCCCGCGGGCTGATGCTCGATCCGGACGTGGTGATTGCCGATGAGCCGGTCTCCGCGCTGGACGTTTCGGTACGCGCTCAGGTGCTGAACCTGATGATGGATCTGCAGCAGGATTTAGGACTGTCCTACGTGTTTATCTCCCACGACCTGTCGGTCGTCGAGCATATCGCTGATGAAGTGATGGTGATGTATCTCGGCCGCTGCGTGGAGAAGGGCACCAAGGAGCAGATCTTTAACAATCCGCGTCATCCATACACCCAGGCGCTGTTGTCGGCGACGCCGCGTCTGAACCCGGACGACCGTCGCGAGCGGATTAAGCTGACCGGCGAGCTGCCGAGCCCGCTGAATCCGCCGCCGGGCTGCGCCTTCAACGCGCGCTGCCGCCGGCGCTTCGGCCCCTGCACCCAGCTTCAGCCGCAGCTGAAGGATTACGGCGGCCAGCTGGTGGCCTGCTTTGCCGTCGACCAGGATGAGAATCCGCAAAAGCCCCACGCCTGA	MSTQKAATPQPLLQAIDLKKHYPVKKGLFAPERLVKALDGVSFTLERGKTLAVVGESGCGKSTLGRLLTMIEIPTGGELYYQGQDLLKHDPQAQKLRRQKIQIVFQNPYGSLNPRKKVGQILEEPLLINSSLSKEQRREKALAMMAKVGLKTEHYDRYPHMFSGGQRQRIAIARGLMLDPDVVIADEPVSALDVSVRAQVLNLMMDLQQDLGLSYVFISHDLSVVEHIADEVMVMYLGRCVEKGTKEQIFNNPRHPYTQALLSATPRLNPDDRRERIKLTGELPSPLNPPPGCAFNARCRRRFGPCTQLQPQLKDYGGQLVACFAVDQDENPQKPHA	PGPT0004520_172	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004520-dppF-K12372	NA	NA
BMS020_03138	984	dppD_1	COG0444	Dipeptide transport ATP-binding protein DppD	ATGGCGTTATTGAATGTAGATAAATTATCGGTGCATTTCGGCGATGAAAACGCGCCGTTCCGCGCCGTGGACCGCATCAGCTATAGCGTGAAGCAGGGCGAAGTGGTCGGCATCGTCGGGGAGTCTGGATCCGGTAAATCCGTCAGCTCGCTGGCGATTATGGGCCTGATTGATTACCCCGGCCGGGTGATGGCGGACAAACTGGAGTTTAACGGCCGCGATCTGCAGCGCATCTCTGAAAAAGAGCGGCGCCAGCTGGTGGGGGCGGAGGTGGCGATGATCTTCCAGGATCCGATGACCAGCCTCAATCCGTGCTATACCGTCGGCTACCAGATTATGGAAGCGATTAAAGTCCATCAGGGCGGCAATAAGCAAACCCGCCGCCAGCGGGCCATCGACCTGCTGAACCTGGTGGGCATTCCCGATCCGGCGTCGCGGCTGGACGTCTATCCGCATCAGCTTTCCGGCGGGATGAGCCAGCGCGTGATGATCGCGATGGCCATCGCCTGTCGGCCAAAACTGCTGATTGCCGATGAACCGACCACCGCGCTGGACGTGACCATTCAGGCGCAGATCATCGAGCTGCTGCTGGATCTGCAGCAGCAGGAGAATATGGCGCTGGTGCTGATCACCCACGACCTGGCGCTGGTGGCCGAGGCCGCGCATAAAATTATCGTTATGTATGCCGGTCAGGTGGTGGAGACTGGCGATGCGAAGGATATTTTCCGCGCGCCGCGCCATCCATACACCCAGGCGCTGCTGCGCGCGCTGCCGGAGTTCGCCCAGGATAAAGCGCGTCTGGCGTCGCTGCCGGGCGTGGTGCCGGGGAAATATGACCGTCCCAACGGCTGCCTGCTGAACCCGCGCTGCCCCTATGCTACGGATAAATGTCGTAGTGAAGAGCCGGCGCTCGCGGATCTCACTGGCGGCCGCCAGTCTAAATGTCACTACCCACTCGATGATGCCGGGAGGCCTGGATTATGA	MALLNVDKLSVHFGDENAPFRAVDRISYSVKQGEVVGIVGESGSGKSVSSLAIMGLIDYPGRVMADKLEFNGRDLQRISEKERRQLVGAEVAMIFQDPMTSLNPCYTVGYQIMEAIKVHQGGNKQTRRQRAIDLLNLVGIPDPASRLDVYPHQLSGGMSQRVMIAMAIACRPKLLIADEPTTALDVTIQAQIIELLLDLQQQENMALVLITHDLALVAEAAHKIIVMYAGQVVETGDAKDIFRAPRHPYTQALLRALPEFAQDKARLASLPGVVPGKYDRPNGCLLNPRCPYATDKCRSEEPALADLTGGRQSKCHYPLDDAGRPGL	PGPT0004515_286	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004515-dppD-K12371	NA	NA
BMS020_03139	903	dppC	COG1173	Dipeptide transport system permease protein DppC	ATGTCACAAGTTACTGAAAATAAAGTTATCGCTGCGCCGGTGCCCATGACCCCGCTGCAGGAGTTCTGGCACTATTTCAAGCGCAATAAAGGGGCGGTGGTTGGTCTGGTGTACGTGGCGGTGATGATCATTATCGCCGTGTTCGCCAACTTCCTCGCCCCGTATAACCCGGCGGATCAGTTCCGTGATTCACTGCTGGCGCCCCCGTTCTGGCAGGAGGGCGGCAGCCTGGCGCATCTGCTCGGCACTGACGACGTGGGCCGCGATATTCTGTCTCGCCTGATGTATGGCGCGCGCCTGTCGCTGTTGGTGGGCTGCCTGGTGGTGGTCCTGTCGCTGATCCTCGGCGTGGTGCTCGGCCTGGTGGCGGGCTATTTCGGCGGGGTGGTGGACTCGATCATCATGCGCGTCGTCGATATTATGCTGGCGCTGCCGAGTCTGCTGCTGGCGCTGGTGCTGGTGGCTATCTTCGGGCCCTCCATCGTCAACGCCTCGCTGGCGCTCACCTTCGTGGCGCTCCCGCACTATGTGCGTCTGACGCGCGCGGCGGTGCTGGTGGAGGTCAACCGCGACTACGTGACCGCCTCCCGCGTGGCGGGCGCCGGGGCGATGCGCCAGATGTTCGTCAATATTCTGCCTAACTGTCTCGCGCCGCTGATCGTTCAGGCGTCGCTGGGCTTCTCTAACGCCATTCTCGACATGGCCGCGCTGGGGTTCCTCGGCATGGGCGCGCAGCCGCCGACGCCGGAGTGGGGCACCATGCTCTCCGACGTATTGCAGTTCGCACAGAGCGCCTGGTGGGTGGTGACCTTCCCGGGCGTGGCGATCCTGCTGACGGTGCTGGCATTTAACCTGATGGGTGACGGTCTGCGTGACGCGCTCGATCCCAAACTGAAGCAGTAA	MSQVTENKVIAAPVPMTPLQEFWHYFKRNKGAVVGLVYVAVMIIIAVFANFLAPYNPADQFRDSLLAPPFWQEGGSLAHLLGTDDVGRDILSRLMYGARLSLLVGCLVVVLSLILGVVLGLVAGYFGGVVDSIIMRVVDIMLALPSLLLALVLVAIFGPSIVNASLALTFVALPHYVRLTRAAVLVEVNRDYVTASRVAGAGAMRQMFVNILPNCLAPLIVQASLGFSNAILDMAALGFLGMGAQPPTPEWGTMLSDVLQFAQSAWWVVTFPGVAILLTVLAFNLMGDGLRDALDPKLKQ	PGPT0004510_529	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004510-dppC-K12370	NA	NA
BMS020_03140	1020	dppB_1	COG0601	Dipeptide transport system permease protein DppB	ATGTTGCAGTTTATTCTCCGACGTCTGGGACTTGTCATCCCGACATTTATCGGTATCACCCTTCTCACCTTTGCCTTCGTCCATATGATCCCCGGCGATCCGGTGATGATTATGGCGGGCGAACGTGGTATTTCCCCCGAACGTCACGCGCAGCTGCTGGCCGAAATGGGCCTTGATAAGCCGCTGTGGCAGCAATATGCCCACTATATCTGGGGCGTGCTGCACGGCGATTTAGGCATCTCGCTGAAAAGCCGCATTCCCGTGTGGCAGGAGTTTGTCCCGCGCTTTAAAGCCACCCTTGAGCTGGGCGTCTGCGCGATGATCTTCGCCGTCGCCGTCGGTATTCCGGTGGGCGTGCTGGCTGCGGTAAAACGCGGCTCCATCTTTGACCACACCGCGGTGGGCCTGGCGCTGACCGGCTACTCGATGCCTATCTTCTGGTGGGGCATGATGTTGATTATGCTGGTTTCGGTACAGCTGAACCTGACGCCGGTCTCCGGGCGCATCAGCGATACGGTGTTCCTTGACGATACCCTGCCGCTGACCGGCTTTATGCTGATCGACACCGCCATCTGGGGCGAGCAGGGCGACTTTATTGACGCCTTAATGCATATGATCCTGCCCGCCATCGTGCTGGGCACCATTCCGCTGGCGGTGATCGTGCGTATGACCCGGTCGTCGATGCTGGAAGTGCTCGGCGAAGACTACATCCGTACCGCGCGCGCCAAAGGCCTGACCCGGATGCGGGTGATTGTGATCCACGCGCTGCGTAACGCGATGCTGCCGGTGGTCACGGTGATTGGCCTGCAGGTGGGCACGCTGCTGGCGGGCGCCATCCTGACGGAAACCATTTTCTCATGGCCTGGTTTAGGCCGCTGGCTGATCGACGCGCTGCAGCGTCGCGATTATCCGGTGGTGCAGGGCGGGGTGCTGCTGGTGGCGACGATGATTATCCTCGTCAACCTGCTGGTCGACCTGCTGTACGGCGTGGTGAACCCGCGTATCCGGCATAAGAAGTAA	MLQFILRRLGLVIPTFIGITLLTFAFVHMIPGDPVMIMAGERGISPERHAQLLAEMGLDKPLWQQYAHYIWGVLHGDLGISLKSRIPVWQEFVPRFKATLELGVCAMIFAVAVGIPVGVLAAVKRGSIFDHTAVGLALTGYSMPIFWWGMMLIMLVSVQLNLTPVSGRISDTVFLDDTLPLTGFMLIDTAIWGEQGDFIDALMHMILPAIVLGTIPLAVIVRMTRSSMLEVLGEDYIRTARAKGLTRMRVIVIHALRNAMLPVVTVIGLQVGTLLAGAILTETIFSWPGLGRWLIDALQRRDYPVVQGGVLLVATMIILVNLLVDLLYGVVNPRIRHKK	PGPT0004505_113	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004505-dppB-K12369	NA	NA
BMS020_03141	1608	dppA_2	COG0747	Periplasmic dipeptide transport protein	ATGAGTATTTCCTTGAAGAAATCAGGGATGCTGAAGCTTGGTCTGAGCCTGGTCGCCATGACCGTCGCCGCCAGCGTGCAAGCGAAAACCCTGGTTTATTGTTCAGAAGGCTCGCCGGAAGGCTTTAACCCACAGCTCTTCACCTCTGGCACCACCTATGACGCCAGTTCCGTACCCATCTACAACCGCCTGGTCGAATTCAAAACCGGTACGACGGAAGTTATTCCGGGGCTGGCTGAGAAATGGGAAGTTAGTGCGGACGGTAAAACCTATACTTTCCACCTGCGTCAGGGCGTGAAGTGGCAGGATAATAAAGACTTTAAACCAACCCGTGACCTGAACGCCGATGACGTGGTGTTCTCCTTCGATCGTCAGAAGAATACCAATAACCCGTACCATAAAGTTTCTGGCGGCAGCTATGAATACTTTGAAGGGATGGGGTTACCAGACCTGATTAGCGAAGTGAAGAAAGTGGACGATAAAACCGTCCAGTTCGTCCTGACCCGCCCGGAAGCGCCGTTCCTCGCTGACCTGGCCATGGACTTCGCTTCCATTCTTTCTAAAGAGTATGCCGACAACATGCTGAAAGCCGGCACGCCGGAAAAAGTAGACCTCAATCCTATCGGTACCGGTCCATTCCAGCTGCTGCAGTACCAGAAAGATTCCCGCATTCTGTATAAAGCCTTCCCGGGCTACTGGGGCACCAAGCCGAAGATCGATCGTCTGGTCTTCTCCATCACCCCGGATGCCTCCGTGCGCTACGCCAAGCTGCAGAAAAATGAGTGCCAGGTGATGCCGTATCCTAACCCGGCGGACATCGCGCGCATGAAGGAAGATAAAAACATTACCCTGCTGGAACAGCCGGGTCTGAACGTCGGTTATCTCTCCTTCAACACCGAGAAGAAACCGCTGGACGATGTGAAAGTTCGTCAGGCGCTGACCTACGCGGTTAACAAAGAAGCGATCATCAAAGCGGTTTACCAGGGCGCAGGCCAGGCGGCGAAGAACCTGATCCCGCCGACCATGTGGGGCTATAACGACGACGTCAAAGACTACACCTACGATCCGGAGAAGGCGAAGCAGCTGCTGAAAGAAGCGGGCCTGGAAAAAGGCTTCACTATCGACCTGTGGGCGATGCCGGTACAGCGTCCGTATAACCCGAACGCCCGCCGTATGGCGGAGATGATCCAGGCCGACTGGGCCAAGATTGGCGTCCAGGCCAAGATCGTCACCTACGAGTGGGGCGAGTATCTGAAACGCGCGAAAGCGGGCGAGCACCAGACCGTCATGATGGGCTGGACCGGCGACAACGGGGATCCGGATAACTTCTTCGCGACCCTGTTCAGCTGCGCCGCGGCGAAAGACGGCTCCAACTACTCGCGCTGGTGCTATAAGCCGTTTGAAGATCTGATTCAGCCGGCCCGCGCCACCGACGACCACAACAAGCGTATTGAACTGTACAAACAGGCTCAGGTAGTGATGCATGACCAGGCTCCGGCGCTGATCATCGCTCACTCCACCGTTTACGAGCCAGTGCGTAAAGAAGTCAAAGGCTATGTGGTGGATCCGCTGGGTAAACACCACTTCGATAACGTCTCTGTCGAATAA	MSISLKKSGMLKLGLSLVAMTVAASVQAKTLVYCSEGSPEGFNPQLFTSGTTYDASSVPIYNRLVEFKTGTTEVIPGLAEKWEVSADGKTYTFHLRQGVKWQDNKDFKPTRDLNADDVVFSFDRQKNTNNPYHKVSGGSYEYFEGMGLPDLISEVKKVDDKTVQFVLTRPEAPFLADLAMDFASILSKEYADNMLKAGTPEKVDLNPIGTGPFQLLQYQKDSRILYKAFPGYWGTKPKIDRLVFSITPDASVRYAKLQKNECQVMPYPNPADIARMKEDKNITLLEQPGLNVGYLSFNTEKKPLDDVKVRQALTYAVNKEAIIKAVYQGAGQAAKNLIPPTMWGYNDDVKDYTYDPEKAKQLLKEAGLEKGFTIDLWAMPVQRPYNPNARRMAEMIQADWAKIGVQAKIVTYEWGEYLKRAKAGEHQTVMMGWTGDNGDPDNFFATLFSCAAAKDGSNYSRWCYKPFEDLIQPARATDDHNKRIELYKQAQVVMHDQAPALIIAHSTVYEPVRKEVKGYVVDPLGKHHFDNVSVE	PGPT0004500_471	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004500-dppA-K12368	NA	NA
BMS020_03143	1695	eptB	COG2194	Kdo(2)-lipid A phosphoethanolamine 7''-transferase	ATGAAATATATTAGAACGATGACGCAGCAGAAGCTTAGTTTTTGGCTGGCGCTGTACATCGGCTGGTTTATGAACGTCGCCGTTTTTTTTCGGCGTTTCGATGGTTATGCTCAAGAGTTCACTTTCTGGAAAGGGCTTTCCGGTGTCGTTGAACTGGTGGCCACGGTCTTTGTCACCTTCTTCCTGTTACGTCTTCTGTCGCTGTTCGGCCGCCGTATCTGGCGCATTCTGGCGACGCTGATTGTTCTGTTTTCCGCCGCCGCCAGTTATTACATGACGTTCCTCAACGTGGTGATTGGCTACGGGATTATCGCCTCGGTGATGACCACCGATATCGACCTGTCGAAAGAGGTCATCGGCTGGCATTTGATCCTCTGGCTGGCGGCGGTGAGCGCCCCGCCGCTGCTGTTTATCTGGAGCAACCGTTGCCGTCATACGCTGCTGCGCCAACTGCGTACCCCGGGCCAGCGGGTTAAAAACGTGCTGATCGTGGTGCTGGCCGGCCTCATCGTCTGGGGTCCCATCCGCCTGCTTGAGCTGCGCCAACACGATGTAGAGCGCCATTCAGAAGTGGATATGCCGAGCTACGGCGGGGTAATCGCCAACTCCTACCTGCCATCGAACTGGCTGTCGGCGCTGGGGCTGTACGCCTGGGCGCAGGTGGATGAATCCTCAGACAACAAATCGCTGATTAACCCGGCGAAGAAATTTACCTACGTCGCCCCGGAAGGGCTCGATGACACCTACGTGGTGTTTATCATTGGCGAAACCACCCGCTGGGATCATATGGGCATCCTCGGCTATAGCCGCAACACCACGCCAGAGCTGGCGAAAGAGAAGAATCTGGTCGCCTTCCGCGGCTACTCGTGCGATACCGCCACCAAGCTGTCGTTACGCTGCATGTTTGTGCGTCAGGGCGGGGCAGAGGATAATCCGCAGCGGACCCTCAAAGAGCAGAACGTCTTTGCGGTGCTGCATCAACTGGGCTTCAGCGGCAATCTGTACGCCATGCAGAGTGAGATGTGGTTCTACAGCAATACGATGGCCAACAATATCGCCTATCGCGAGCAGATTGGCGCCGAACCGCGTAACCGCGGCAAGAGCGTTGACGATATGCTGCTGGTGGATGAGATGAAGCGCGGTATGGCGCAGGGCAACGCCTCCGGTAAGCACCTGATCATCCTCCATACTAAAGGCTCGCACTTTAACTATACCCAACGCTATCCGCGCAGCTTCGCCCAGTGGAAGCCGGAGTGTGTCGGCGTCGACAACAAATGTTCTAAAGCGGAGCTGATTAACTCCTACGACAACAGCGTGACCTATGTCGATCACTTTATCGTCAGCGTCCTCGACCAGCTGCGGGATAAGAAAGCGATTGTCTTCTATGCCGCCGACCATGGCGAGTCGATTAACGAGCGCGAACATCTGCACGGTACGCCGCGCAAGATGGCGCCGCCGGAACAGTTCCGTGTGCCGATGATGGTCTGGATGTCGGATAAATATCTGGAGAATCCCGATCATGCCGCTGCGTTCGCCCATCTGCAGCAGCAGGCCGCGATGAAGGTGCCGCGACGCCACGTCGAGCTGTACGACACCATTATGGGCTGCCTCGGCTATACCTCGCCGGATGGCGGGATCAACGAGAACAACAACTGGTGCCGCGTGCCGGCTTCGAAGAAAGCGGCGAAGGAATAG	MKYIRTMTQQKLSFWLALYIGWFMNVAVFFRRFDGYAQEFTFWKGLSGVVELVATVFVTFFLLRLLSLFGRRIWRILATLIVLFSAAASYYMTFLNVVIGYGIIASVMTTDIDLSKEVIGWHLILWLAAVSAPPLLFIWSNRCRHTLLRQLRTPGQRVKNVLIVVLAGLIVWGPIRLLELRQHDVERHSEVDMPSYGGVIANSYLPSNWLSALGLYAWAQVDESSDNKSLINPAKKFTYVAPEGLDDTYVVFIIGETTRWDHMGILGYSRNTTPELAKEKNLVAFRGYSCDTATKLSLRCMFVRQGGAEDNPQRTLKEQNVFAVLHQLGFSGNLYAMQSEMWFYSNTMANNIAYREQIGAEPRNRGKSVDDMLLVDEMKRGMAQGNASGKHLIILHTKGSHFNYTQRYPRSFAQWKPECVGVDNKCSKAELINSYDNSVTYVDHFIVSVLDQLRDKKAIVFYAADHGESINEREHLHGTPRKMAPPEQFRVPMMVWMSDKYLENPDHAAAFAHLQQQAAMKVPRRHVELYDTIMGCLGYTSPDGGINENNNWCRVPASKKAAKE	PGPT0022450_9	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0022450-eptB-K12975	NA	NA
BMS020_03144	1206	yhjX		putative MFS-type transporter YhjX	ATGAACGCTGCAAACCGTCAATCGACCCGCTGGCTTACGCTTATCGGCACCATCATCACCCAATTCGCTCTCGGTTCGGTTTATACCTGGAGCCTGTTTAACAGTTCACTGTCTGACAAACTGGGCGAACCGGTCAGCCAGGTCGCCTTCTCCTTTGGCCTGCTGAGCCTCGGGCTGGCGCTCTCCTCGTCGGTCGCCGGCAAGCTGCAGGAGCGTTTCGGCGTGAAGCGCGTCACCATGGCCTCCGGGATCCTGCTCGGACTGGGCTTCTTCCTGACCGCGCACTCCAACAGCCTGATGATGCTGTGGCTGAGCGCGGGCGTGCTGGTGGGGCTGGCGGACGGCGCCGGTTATCTGCTGACCCTGTCGAACTGCGTGAAGTGGTTCCCGGAACGCAAAGGGCTGATTTCCGCCTTCTCCATCGGTTCCTATGGCCTCGGCAGCCTGGGGTTCAAATTCATTGATACTCATCTGCTGGCCACCGTCGGTCTGGAAAAAACCTTCGTCATCTGGGGCGCTATCGTGCTGGTGATGATCGTCTTTGGCGCGACCCTGATGAAAGATGCGCCAAATCATACGGCGACCACCGCGGCCAACGGCGTCGTGGAAAATGACTTTACTCTCGCCGAATCGATGCGTAAACCGCAGTACTGGATGCTGGCGGTGATGTTCCTGACGGCCTGCATGAGCGGTCTGTATGTGATTGGCGTGGCGAAAGATATCGCGCAGGGGATGGTCCATCTGGATGTCGCCACGGCGGCCAATGCGGTAACGGTTATCTCAATCGCTAACCTTAGCGGTCGCCTGGTGTTAGGTATCCTGTCCGATAAAATCTCCCGCATTCGCGTGATCACCCTCGGTCAGGTGGTGTCGCTGGTGGGGATGGCCGCGCTGCTGTTCGCTCCGCTGAATGCCATGACCTTTTTCGCCGCGATTGCCTGCGTCGCCTTTAACTTCGGCGGAACCATCACCGTCTTCCCGTCGCTGGTCAGTGAATTCTTCGGTCTGAACAACCTGGCGAAAAACTATGGCGTCATTTATCTGGGCTTTGGTATCGGCAGCATCTGTGGTTCCCTCATCGCTTCGCTGTTCGGGGGCTTCTACGTCACCTTCTGCGTGATCTTCGCTCTGCTGATTATTTCGCTGGCGCTTTCCACCACCATTCGTCAGCCGAAAGGCAGTGTCTATAGCGAGGCGCACGCCTGA	MNAANRQSTRWLTLIGTIITQFALGSVYTWSLFNSSLSDKLGEPVSQVAFSFGLLSLGLALSSSVAGKLQERFGVKRVTMASGILLGLGFFLTAHSNSLMMLWLSAGVLVGLADGAGYLLTLSNCVKWFPERKGLISAFSIGSYGLGSLGFKFIDTHLLATVGLEKTFVIWGAIVLVMIVFGATLMKDAPNHTATTAANGVVENDFTLAESMRKPQYWMLAVMFLTACMSGLYVIGVAKDIAQGMVHLDVATAANAVTVISIANLSGRLVLGILSDKISRIRVITLGQVVSLVGMAALLFAPLNAMTFFAAIACVAFNFGGTITVFPSLVSEFFGLNNLAKNYGVIYLGFGIGSICGSLIASLFGGFYVTFCVIFALLIISLALSTTIRQPKGSVYSEAHA	PGPT0017235_1466	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OXALATE_TRANSPORT,PGPT0017235-oxlT-K08177	NA	NA
BMS020_03145	645			hypothetical protein	ATGATAATAAAGAAATGCAATGGCCTCCGGGGGTTCTTGTTCCCGGTGTGCGTATCCGTCTGGGTATCGTGTGTCTCTGGAGCGAATGCCTGGCAACAGGAATATATCGCTATCGATACAAAAAGTAATACGTCGGAACGTTATACATGGGATAGCGATCACCAACCACGCTATGAAGATATCCTCGCCGAGCGGATGAAGTCGTCTGAAACGCCGGGCGGACTGACTTTAAACCAGGGGCTGGCGCCGCCGGACAGCAGCCGGGGGATGAGCGTCGGCTGGAATTATCTGCTGGCAAACGGTATGACCTCCGGGCCGGTGGCCAGCCTGCGCAGCGACTACAGCGCGCCGGCGACGAAAAGCGTTGGCGAGACGGGATATGTCAACACGCTCGGCTGGCGTATGGATTATCAGCCGCTGTGGGGCGTGCACCCCTGGGCTCAGGTGAGCTATAACCAGTCGCTCGCCAGCGATGCCTGGTCGCCGACCACTCGCGCCAGAGAGGGCGGCTGGAGTGATGTCACCCTGGGCGCCGATATGCCGCTGGGATCGCATGTGGCGGCATGGGCCACCCTGTCGCAGGCGGATAATGTCCCGTCGGGGGAAAATACGCTCTATCTGATGGGGGTCAGCGCCAACTTTTGA	MIIKKCNGLRGFLFPVCVSVWVSCVSGANAWQQEYIAIDTKSNTSERYTWDSDHQPRYEDILAERMKSSETPGGLTLNQGLAPPDSSRGMSVGWNYLLANGMTSGPVASLRSDYSAPATKSVGETGYVNTLGWRMDYQPLWGVHPWAQVSYNQSLASDAWSPTTRAREGGWSDVTLGADMPLGSHVAAWATLSQADNVPSGENTLYLMGVSANF				NA	NA	NA	NA	NA
BMS020_03146	582	tag_1	COG2818	DNA-3-methyladenine glycosylase 1	ATGCAGCGTTGCGGATGGGTGAGTCAGGATCCGTTATATATCGAGTATCACGATACCGAATGGGGTGTCGCGCAAAAAGCGTCCCAGCGGCTGTTTGAAATGATCTGCCTTGAAGGCCAGCAGGCCGGGTTGTCGTGGATCACGGTGTTAAAAAAACGGCAGAACTATCGCCAGGCTTTTCACCAGTTCGATCCGGTGCGCGTGGCGGCGATGGGGGACGATGATGTCGAGCGGCTGCTACAGGATACCGGGATTATCCGCCATCGGGGAAAAATCCAGGCCATTATCGGCAACGCCCGGGCGTATCTGGCGATGGAGGAAAATGGCGAGTCGTTCACTGATTTTGTCTGGTCTTTCGTCGACAATGCGCCGCAGGTCACCCGCGCGGCGACGCTGGCGGAGATCCCGACCACGACGCCGGCCTCTGATGCGCTTTCTAAAGCGTTGAAAAAACGCGGCTTTAAGTTTGTCGGTTCGACAATCTGTTACTCTTTTATGCAGGCCTGCGGGCTGGTCAACGACCATGTCACCGGCTGCTTCTGTCACCCGGGAGGTCAGGATGATCCGCAAGTGGGTCGCTAA	MQRCGWVSQDPLYIEYHDTEWGVAQKASQRLFEMICLEGQQAGLSWITVLKKRQNYRQAFHQFDPVRVAAMGDDDVERLLQDTGIIRHRGKIQAIIGNARAYLAMEENGESFTDFVWSFVDNAPQVTRAATLAEIPTTTPASDALSKALKKRGFKFVGSTICYSFMQACGLVNDHVTGCFCHPGGQDDPQVGR				NA	NA	NA	NA	NA
BMS020_03147	441	yiaC	COG0454	Peptidyl-lysine N-acetyltransferase YiaC	ATGATCCGCAAGTGGGTCGCTAAAGATAATACACCGCTGCTGGCCCTGTGGCTGGATAGTACGATCCATGCCCATCCCTTTATCAGCGAAAGCTACTGGCGCGACAGCGTCGCGGTGGTACGGGACGTCTATCTTCCCGCCGCCAGCACCTGGGTCTGGGAGCGCGACGGAGAGCTAAAAGGCTTTGTCAGCGTGCTGGAGTCCCGCTTCGTCGGTGCGCTGTTCGTCGCGCCGGACGCCATCCGCCAGGGCATTGGCCGGGCGCTGCTGGATGAAGTCAAGCAGCACTACGCCTGGCTTAGCCTTGAGGTTTATCAGAAAAACGAATCAGCGGTCAGTTTCTACCATGCGCAAGGCTTCCGCATTGAAGATTGCGCATGGCAGGACGATACTCAGCACCCCACCTGGATTATGCGCTGGCCGGCGGATCAAATGCTGTAA	MIRKWVAKDNTPLLALWLDSTIHAHPFISESYWRDSVAVVRDVYLPAASTWVWERDGELKGFVSVLESRFVGALFVAPDAIRQGIGRALLDEVKQHYAWLSLEVYQKNESAVSFYHAQGFRIEDCAWQDDTQHPTWIMRWPADQML				NA	NA	NA	NA	NA
BMS020_03148	2331	bisC	COG0243	Biotin sulfoxide reductase	TTGCCAACCTCATCTGCAACCAAAACCATTTTAACCGCCGCCCACTGGGGACCGATGCTGGTGGAAACGGACGGGGAAAACGTCCTCTCCTCCCGCGGCGCGCTGGCGACGCCGTTTGCCAATTCGCTGCAAACGGCGGTGCGCGACCAGGTGCACAGCAAAACCCGCGTGCGCTACCCGATGGTGCGCAAAGGCTTTCTCGCCTCTCCGGACAAGCCCCTGGGGGTCCGCGGTCACGATGAATTTGTGCGGGTGAGCTGGGAGCAGGCGCTGGATCTGATCGATGCCCAGCATCGTCGGATCCGCGAAAGCTACGGACCGGCCTCCATTTTTGCCGGCTCCTACGGCTGGCGTTCTAACGGCGTCCTGCATAAGGCGGCCACCCTGCTGCAGCGCTATATGAGCCTGGCGGGCGGCTACACCGGCCATCTCGGGGATTACTCCACCGGCGCGGCGCAGGCGATCATGCCTTACGTCGTGGGCGGCAATGAGGTGTATCAGCAGCAGACCAGCTGGCCGCTGGTGCTGGAGCACAGCGAGGTAGTGGTGCTGTGGAGCGCCAACCCGCTGAACACGCTGAAAATTGCCTGGAACGCCTCCGACGAGCAGGGTATCCCGTGGTTCGACCGGCTGCGCCAGAGCGGAAAGCGCTTGATCTGCATCGATCCGATGCGATCGGAAACGGTCGATTTCTTTGGCGATTCGATGGAGTGGATCGCGCCGCATATGGGCACCGACGTCGCGTTGATGCTGGGTATCGCCCATACGCTGGTGGAGAATGGCTGGCAGGACGACGAGTTTCTTGCCCGCTGCGCCAGCGGCTACGAGATTTTTGCCCGCTATCTGACCGGCGAAAGCGACGGCGTGGCGAAAACCGCGGACTGGGCGGCGGCTATTTGCGGCGTCTCAGCTGATAAGATCCGCGAACTGGCGAAACTTTTCCACGAAAACACCACCATGCTGATGTCTGGCTGGGGCATGCAGCGCCAGCAGTATGGCGAGCAGAAACACTGGATGTTGGTCACCCTGGCCGCGATGCTGGGGCAGATTGGCACCCCCGGGGGCGGGTTTGGGCTTTCCTACCATTTCGCCAACGGCGGCAACCCGACCCGCCGCGCGGCGGTGCTGGGCTCGATGCAGGGGAGCGTGGCCGGAGGCGTGGACGCCGTGGAGAAGATCCCGGTCGCGCGGATTGTCGAGGCGCTGGAGAAACCGGGTGCGGAGTATCAGCACAACGGCATGGCGCGGCGCTTCCCCGATATTCGCTTTATCTGGTGGGCCGGCGGCGCCAACTTTACCCATCACCAGGATACCAATCGCCTGATTCAGGCCTGGCAGAAACCAGAGCTTATCGTCATCTCCGAATGCTTCTGGACCGCCGCCGCGCGTCATGCCGATATCGTTCTGCCGGCGACCACCTCGTTTGAGCGCAACGATCTGACGATGACCGGGGACTACAGCAATCAGCATCTGGTGCCGATGAAACAGGTGGTCGCCCCGCGGGGTGAAGCGCGCGATGATTTCGCGGTCTTTGCCGACCTCAGCGAACGTTGGGAGGCGGGCGGCCGCGAGCGCTTTACCGAAGGGAAGAGCGATCTGCAGTGGCTGGAGACCTTCTATCAGATGGCCGCCCGGCGCGGCGCCCAGCAGCAGGTGATGCTGCCGCCGTTTGCCGAATTCTGGCAGGCTAACCAGCTGATTGAGATGCCGGAGGCGCCGGAGAATGCCCGTTTCATCCGCTTCGCCGCCTTCCGCGACGATCCCCTGGCCAACCCGCTGAAAACGGCGAGCGGTAAAATTGAGATCCACTCGCCGACCATCGCCGCCTTTGGCTACGCCGACTGCCCGCCGCACCCGATGTGGCTGGAGCCCGACGAGTGGCATGGCAACGCCGAGGCGGGGCAGCTGCAGCTGCTGTCGGCCCATCCGGCACACCGTCTGCACAGTCAACTGAACTACTCCGCGCTGCGCGAATGCTATGCCGTCGCCGGACGCGAACCGTTGACTATTCATCCGCAGGATGCCCGGGCGCGGGGGATTGCCGATGGCGATCTGGTGCGGGTGTGGAACGCCCGCGGTCAGGTGCTGGCCGGCGCGGTGGTGACGGAGGGGATCCGCCCGGGGGTGATATGCCTGCATGAAGGGGCGTGGCCCGACCTGGATCCGGTGGCGGGCATCTGCAAAAACGGGGCGGTGAACGTCTTAACCAAAGATATCCCGACATCCCGGCTGGGCAACGGCTGTGCCGGGAACACCGCCCTGGCGTGGCTGGAGAAATATACCGGCCCGGCGCTGCCGCTTACAGCATTTGATCCGCCGGCCAGCGCATAA	MPTSSATKTILTAAHWGPMLVETDGENVLSSRGALATPFANSLQTAVRDQVHSKTRVRYPMVRKGFLASPDKPLGVRGHDEFVRVSWEQALDLIDAQHRRIRESYGPASIFAGSYGWRSNGVLHKAATLLQRYMSLAGGYTGHLGDYSTGAAQAIMPYVVGGNEVYQQQTSWPLVLEHSEVVVLWSANPLNTLKIAWNASDEQGIPWFDRLRQSGKRLICIDPMRSETVDFFGDSMEWIAPHMGTDVALMLGIAHTLVENGWQDDEFLARCASGYEIFARYLTGESDGVAKTADWAAAICGVSADKIRELAKLFHENTTMLMSGWGMQRQQYGEQKHWMLVTLAAMLGQIGTPGGGFGLSYHFANGGNPTRRAAVLGSMQGSVAGGVDAVEKIPVARIVEALEKPGAEYQHNGMARRFPDIRFIWWAGGANFTHHQDTNRLIQAWQKPELIVISECFWTAAARHADIVLPATTSFERNDLTMTGDYSNQHLVPMKQVVAPRGEARDDFAVFADLSERWEAGGRERFTEGKSDLQWLETFYQMAARRGAQQQVMLPPFAEFWQANQLIEMPEAPENARFIRFAAFRDDPLANPLKTASGKIEIHSPTIAAFGYADCPPHPMWLEPDEWHGNAEAGQLQLLSAHPAHRLHSQLNYSALRECYAVAGREPLTIHPQDARARGIADGDLVRVWNARGQVLAGAVVTEGIRPGVICLHEGAWPDLDPVAGICKNGAVNVLTKDIPTSRLGNGCAGNTALAWLEKYTGPALPLTAFDPPASA	PGPT0022135_209	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022135-bisC-K08351	NA	NA
BMS020_03149	663	yiaD_1	COG2885	putative lipoprotein YiaD	ATGAAAAAACGCGTACTTATGATTGCGGCTCTGGTCAGCGGCACCCTGGCCGTTTCCGGCTGCACCACCAACCCCTATACCGGTGAGCGTGAAGCTGGCAAATCCGGTATTGGCGCAGGTATTGGCTCCTTAGTGGGCGCTGGCGTCGGCGCGCTTTCCTCCTCCAAACACGACCGCGGCAAAGGCGCGCTGATTGGCGCAGCGGCAGGCGCGGCGCTGGGCGGCGGCATTGGCTACTACATGGACGTGCAGGAAGCGAAGCTGCGCGACAAAATGCAGGGAACCGGGGTCAGCGTGACGCGAAATGGTGACAACATCGTGCTGAACATGCCGAATAACGTCACTTTCGACAGCAACAGCGCCAACCTGAAACCGGCCGGCGCCAACACCCTGACCGGCGTGGCCATGGTGCTGAAAGAGTATGAGAAAACCGCCGTTAACGTCGTCGGCTACACCGACAGCACCGGCAGTAAGGACCTGAATATGCGTCTGTCGCAGCAGCGTGCTGACAGCGTCGCCAGCGCGCTGATCACCCAGGGCGTGGCGGCCAACCGCATTCGCACCACCGGCATGGGCCCGGCGAACCCCATCGCCAGCAACAGCACGGCGGAAGGCAAGGCGCAGAACCGTCGCGTGGAAATCACCCTCAGCCCGCTGCAATAA	MKKRVLMIAALVSGTLAVSGCTTNPYTGEREAGKSGIGAGIGSLVGAGVGALSSSKHDRGKGALIGAAAGAALGGGIGYYMDVQEAKLRDKMQGTGVSVTRNGDNIVLNMPNNVTFDSNSANLKPAGANTLTGVAMVLKEYEKTAVNVVGYTDSTGSKDLNMRLSQQRADSVASALITQGVAANRIRTTGMGPANPIASNSTAEGKAQNRRVEITLSPLQ				NA	NA	NA	NA	NA
BMS020_03150	1017	kdgR_2	COG1609	HTH-type transcriptional regulator KdgR	ATGGCGAAAGCGGCGCGTGCAACCATTAGCGATGTGGCGAAAGCCGCAAAGACCGGCAAAACCAGCATTTCACGGTATCTTAACGGCGAGAAGCATTTGCTTTCCGACGATCTGTTATCACGTATTGAACAAGCCATTGCCGAACTCGACTACCGCCCCAGCCTGATGGCCCGCGGCCTCAAGCACGGCCGAACCCGCCTCATCGGCCTGATCATCGCCGATATCACCAACCCCTATTCGGTCAACGTTATGAGCGGCATTGAAGCGGCTTGCCGGGAAAAGGGCTTCACCCTGCTGGTGTGTAACACCAATAACGAGCTGGATCAGGAGCTGCACTACCTCGACCTGCTGCGCAGCTACCAGGTGGAAGGCATCGTCGTCAACGCGGTCGGCATGCGGGAGGATGGCCTGAACCGGCTGCAGCAGTCGGCCCTGCCGATGGTGCTGATTGACCGTAAAATCCCCGATTTCGCCTGCGATGTGGTCGGGCTTGATAACGCCCAGGCCGCCACCACCGCCACCGAACACCTGGTGGAGAAAGGCTTTGAGGCCATCCTGTTTCTTAGCGAACCGCTGGGGTCGGTCAATACCCGCCGCGAGCGCCTGAGCGCCTTCCGCGCCACGCTCACCCGCCACCACGGCGTGGTGGCCGAAAACGCCGAAGTGCAGCTCAACGACGGCGCGATGATGGACAACGTCCTGCGCCAGTTCCACGCCCGCCACCGCGGGATGCGCAAAGCGGTGATCTCCGCCAACGGCGCACTGACGCTGCAGGTGGCCCGCGCCCTGAAGCGCGTCGGCCTGATCTGGGGCAGCGATATCGGCCTGCTGGGCTTCGACGAACTGGAGTGGGCGGAGCTGGCTGGCGTCGGCATCACCACCCTCAAACAGCCGACGTGGCAGATCGGCTACGCGGCGGTGGAACAGGTGATTCGGCGCATTGCTGGCAGTAACGACCCCATCTGCGAGCGGGTCTTCTCCGGCGAGCTTATCGTCCGCGGATCAACTTCCCGTTAA	MAKAARATISDVAKAAKTGKTSISRYLNGEKHLLSDDLLSRIEQAIAELDYRPSLMARGLKHGRTRLIGLIIADITNPYSVNVMSGIEAACREKGFTLLVCNTNNELDQELHYLDLLRSYQVEGIVVNAVGMREDGLNRLQQSALPMVLIDRKIPDFACDVVGLDNAQAATTATEHLVEKGFEAILFLSEPLGSVNTRRERLSAFRATLTRHHGVVAENAEVQLNDGAMMDNVLRQFHARHRGMRKAVISANGALTLQVARALKRVGLIWGSDIGLLGFDELEWAELAGVGITTLKQPTWQIGYAAVEQVIRRIAGSNDPICERVFSGELIVRGSTSR				NA	NA	NA	NA	NA
BMS020_03151	750			hypothetical protein	ATGGCCAGAAAAATTATTGTCGTTACCGCTGCGTATGGTAATGACCATGTTAAATCCTTAGGCGGCCAGGCCGCCGTCCTGCCGTTTATCGCCGACGCCGGCGCGGACGGCGTCGAAATCCGCCGCGAGCTGTTCAGCGCCGAAGAGCTCAACGCCCTGCCGACGCTGGCCGCCACCATTGAGCGCCACGGCCTGCTGGCCTGCTACTCCGCGCCCCAAGCGCTGTTCGCCGACAACGGCGAGCTTAACCCGCATCTCCCGACGCTGCTCGCGGAAGCGCAGACTCTTAACGCCCTGTGGCTGAAGCTCTCCCTTGGCCATTTCCGCCACAACCAGCAGCTCGACGAACTGCGCCATATCCTCAGCGACAGCGGCATGGCGCTGGTGGTGGAGAATGACCAGACCGACTGCGGCCAGCTGGCGCCGATGCAGCGCTTCAAAGCCGCCTGTCGGGTCCATCAGCTGCCGATCACCTTAACGTTTGATATGGGCAACTGGCTGTGGGTCGGCGATTCACCGGAAGAGGCCGCCCGCCATCTTGCGCCGGCGGTCAGCTATATTCATGTAAAAGCGGCGGAGCCTCATCAGGAGAAGTTCCGCGCTGTGCCGCCGGATCAGGCCGCCGACCGCTGGCTGGCCCTGCTCGATAATCTTCCCGCCGACGCGCCGCGTGGAATCGAGTTTCCGCTGACTGGCCATGACCTGACGGCCGTGACCCGCCGCTACGTCAACCTGTTACGCGAGGAATAA	MARKIIVVTAAYGNDHVKSLGGQAAVLPFIADAGADGVEIRRELFSAEELNALPTLAATIERHGLLACYSAPQALFADNGELNPHLPTLLAEAQTLNALWLKLSLGHFRHNQQLDELRHILSDSGMALVVENDQTDCGQLAPMQRFKAACRVHQLPITLTFDMGNWLWVGDSPEEAARHLAPAVSYIHVKAAEPHQEKFRAVPPDQAADRWLALLDNLPADAPRGIEFPLTGHDLTAVTRRYVNLLREE				NA	NA	NA	NA	NA
BMS020_03152	936	kdgK_3	COG0524	2-dehydro-3-deoxygluconokinase	GTGGAAAATTTAGATGTCATCACCATCGGCGAAGCTATGGCCATGTTTGTCGCCACCGAAACCGGCGATCTGGCCGAGGTGGAGCATTTTATGAAACGTGTCGCCGGCGCTGAGCTGAACGTCGCCACCGGCCTGGCGCGCCTGGGTCTGAAGGTCGGCTGGGTCAGCCGCGTCGGCAACGACAGCTTTGGCCGCTTCGTACTGCAATCGCTGGCGAAAGAGGGGATCGATAGCCACGCTGTCGCCATCGACAACCGCTTCGCTACCGGTTTCCAGATGAAATCGAAAGTCGAAAATGGAACCGATCCCATTGTGGAATATTTCCGTAAAGGTTCTGCCGCCAGCCATCTGTCGCCGGACGATTTTCGCGCCGACTACTTCACCAGCGCCCGTCATCTGCACCTGAGCGGTGTGGCCGCCGCGCTCTCTGAAAGCTCATATGCGCTGCTGGAGCATGCGGCGAAGGTCATGAAAGCCGAGGGCAAAACCCTCTCTTTCGACCCCAATCTGCGGCCGGTGCTGTGGAAAAGCGAAGCCGAGATGGTGGAGAAACTCAACCGTCTCGCCTTCCAGGCTGACTGGGTTTTGCCAGGCTTAAAAGAGGGCGTCATCCTCACCGGCCAGCAGACCCCGGAGGGGATCGCCGATTTCTATCTCTCGCGCGGCGTCAAGGCGGTGGTCATTAAAACCGGCTGCGACGGCGCCTGGTTCAAGAGCGCCTGCGGCGAACAGGGAACGGTTGATGCCATCAAAGTCGAAAACGTCGTCGATACCGTCGGCGCCGGCGATGGCTTTGCCGTCGGGGTGATTAGCGCCCTGCTGGAAGGCAAAACCCTGCTTCAGGCGGTGAACCGCGGCAATAAAATCGGTTCGCTGGCCATTCAGGTCCAGGGCGACAGCGAGGGGCTGCCCACCCGCGACGCGCTGGGCGAATAA	MENLDVITIGEAMAMFVATETGDLAEVEHFMKRVAGAELNVATGLARLGLKVGWVSRVGNDSFGRFVLQSLAKEGIDSHAVAIDNRFATGFQMKSKVENGTDPIVEYFRKGSAASHLSPDDFRADYFTSARHLHLSGVAAALSESSYALLEHAAKVMKAEGKTLSFDPNLRPVLWKSEAEMVEKLNRLAFQADWVLPGLKEGVILTGQQTPEGIADFYLSRGVKAVVIKTGCDGAWFKSACGEQGTVDAIKVENVVDTVGAGDGFAVGVISALLEGKTLLQAVNRGNKIGSLAIQVQGDSEGLPTRDALGE	PGPT0018060_2638	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
BMS020_03153	1281	ttuB_2		Putative tartrate transporter	ATGAATAGCTCAACAAATGCAACGAAACGCTGGTGGTACATCATGCCTATCGTGTTTATCACGTATAGCCTGGCGTACCTCGACCGCGCCAACTTCAGCTTCGCCTCCGCGGCAGGCATTACCGAAGACCTGGGCATCACCAAGGGGATCTCCTCCCTGCTGGGGGCCCTGTTCTTCCTCGGCTACTTCTTCTTCCAGATCCCCGGCGCTATCTATGCGGAGCGCCGCAGCGTTCGCAAACTGATCTTTATCTGCCTGATCCTGTGGGGCGGCTGCGCCTCCCTGACCGGGATTGTGCATAATATCCCGGCGCTGGCGGCCATTCGCTTTATCCTCGGCGTCGTCGAAGCGGCGGTGATGCCGGCGATGCTGATCTATATCAGCAACTGGTTCACCAAATCCGAGCGCTCAAGGGCCAACACCTTCCTGATCCTCGGCAACCCGGTGACGGTCCTGTGGATGTCGGTGGTCTCCGGCTACCTGATTCAGGCCTTCGGCTGGCGGGAAATGTTCATCATCGAAGGGGTGCCGGCGGTGATCTGGGCCTTCTGCTGGTGGGTGCTGGTGAAAGATAAACCGTCGCAGGTATCCTGGCTGGCGGAGAGTGAAAAAGCCGCGCTGCAGGAACAACTGGATCGTGAACAGCAGGGCATCAAAGCGGTGCGTAACTATGGCGAGGCCTTCCGCTCCCGCAACGTGATCCTGCTCTGCGCTCAGTACTTTGCCTGGAGCATCGGCGTGTACGGTTTTGTACTGTGGCTGCCGTCGATTATCCGCAGCGGCGGCGAAAATATGGGGATGGTGGAAGTGGGCTGGCTCTCTTCGGTTCCGTACCTGGCGGCGACTATCGCCATGATCGTGGTCTCCTGGGCCTCCGATAAAATGCAGAACCGTAAACTGTTCGTCTGGCCGCTGCTGCTGATTGGCGGACTGGCCTTCATCGGCTCCTGGGCGGTCGGCGCCAACCACTTCTGGGTCTCTTACACCCTGCTGGTGGTGGCTGGTGCGGCAATGTATGCGCCTTACGGCCCCTTCTTCGCCATTATTCCGGAAATGCTGCCACGCAACGTCGCCGGCGGCGCGATGGCGCTGATCAACAGCATGGGCGCCCTGGGCTCCTTCTGCGGCTCGTGGTTTGTCGGCTACCTGAACGGCGCCACCGGCAGCCCCGCAGCTTCCTATATTTTTATGGGGGTGGCGCTTTTCGCCTCAGTATGGCTGACTTTGATTGTTAAGCCTGCTAATAATCAAAACCTTCCACTTGGCGCTCATCACGCCTGA	MNSSTNATKRWWYIMPIVFITYSLAYLDRANFSFASAAGITEDLGITKGISSLLGALFFLGYFFFQIPGAIYAERRSVRKLIFICLILWGGCASLTGIVHNIPALAAIRFILGVVEAAVMPAMLIYISNWFTKSERSRANTFLILGNPVTVLWMSVVSGYLIQAFGWREMFIIEGVPAVIWAFCWWVLVKDKPSQVSWLAESEKAALQEQLDREQQGIKAVRNYGEAFRSRNVILLCAQYFAWSIGVYGFVLWLPSIIRSGGENMGMVEVGWLSSVPYLAATIAMIVVSWASDKMQNRKLFVWPLLLIGGLAFIGSWAVGANHFWVSYTLLVVAGAAMYAPYGPFFAIIPEMLPRNVAGGAMALINSMGALGSFCGSWFVGYLNGATGSPAASYIFMGVALFASVWLTLIVKPANNQNLPLGAHHA				NA	NA	NA	NA	NA
BMS020_03154	972	ghrB_2	COG1052	Glyoxylate/hydroxypyruvate reductase B	ATGAAGCCGTCTGTCATTCTCTATAAAACGCTTCCCGACGACCTGCTACAGCGTCTGGAGGAGCACTTTTCCGTCACTCAGGTGAAAAACCTGCGGCCGGAGACCGTTTCGCAGCACGCTGAGGCCTTCGCCCAGGCTGAGGGCCTGCTGGGCTCCAGCGAAAAGGTTGACGCCGCGCTGCTGGAGAAGATGCCGAAGCTGCGTGCGACCTCCACCGTGTCCGTTGGCTATGACAACTTCGACGTCGAGGCGCTGAACGCCCGCCGGGTGCTGCTGATGCATACCCCGACCGTGCTGACCGAGACCGTCGCCGACACGATCATGGCGCTGGTGCTGAGCACCGCCCGCCGGGTGGTGGAAGTGGCGGAGCGCGTCAAAGCGGGCGAGTGGACGAAGAGCATTGGGCCAGACTGGTTCGGCACCGACGTACACCATAAAACCTTAGGTATCGTCGGCATGGGCCGCATCGGCATGGCGCTGGCGCAGCGCGCCCACTTCGGGTTCGGCATGCCGATCCTGTACAACGCGCGCCGCCAGCATCCACAGGCAGAAGAGCGCTTCAACGCCCGCTATTGCGATCTCGATACCCTGCTGCAGGAAGCCGATTTTGTCTGCCTGATCCTGCCCCTGAGCGAAGAGACCCATCATCTGTTCGGTCAGGCGCAGTTCGCCAAAATGAAATCTTCCGCCATCTTTATTAACGCCGGGCGCGGCCCGGTAGTCGATGAGCAGGCGCTGATCGCCGCCCTGCAGGCGGGGGAGATTCACGCTGCCGGCCTTGATGTCTTCGAGCACGAGCCGCTGGCTAAAGATTCGCCGCTGCTGAGCCTGCCGAACGTCGTCGCGCTGCCGCATATCGGCTCCGCCACCCATGAGACGCGCTACAACATGGCGGCCTGCGCGGTGGATAACCTGATCGATGCCCTGAACGGCAAGGTCGAGAAAAACTGCGTCAATCCGCAGGTAAAATAA	MKPSVILYKTLPDDLLQRLEEHFSVTQVKNLRPETVSQHAEAFAQAEGLLGSSEKVDAALLEKMPKLRATSTVSVGYDNFDVEALNARRVLLMHTPTVLTETVADTIMALVLSTARRVVEVAERVKAGEWTKSIGPDWFGTDVHHKTLGIVGMGRIGMALAQRAHFGFGMPILYNARRQHPQAEERFNARYCDLDTLLQEADFVCLILPLSEETHHLFGQAQFAKMKSSAIFINAGRGPVVDEQALIAALQAGEIHAAGLDVFEHEPLAKDSPLLSLPNVVALPHIGSATHETRYNMAACAVDNLIDALNGKVEKNCVNPQVK	PGPT0001310_697	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0001310-ghrB-K00090	NA	NA
BMS020_03155	711			hypothetical protein	ATGGCGACAGGAAAGTCCTGCTCTCGCTGGTTTGCGGCTATGGCGGCCTTATTAATGGTGGTTAGCCTGAGTGGGTGTTTTGATAAAGAGGGCGATCAGCGCAAAGCGTTTATCGACTTCCTGCAGAATACGGCGATGCGTAGCGGTGAACGACTGCCGACGCTGACCGCCGATCAGAAAAAACAGTTTGGGCCGTTTGTCTCTGACTACGCGGTGATCTACGGCTACTCGCAGCAGGTGAGCCAGGCGATGGACGCAGGTCTGCGCCCGGTGGTGGATAGCGTCAATGCGATCCGCGTTCCGCAGGACTATATGACCCAGCGCGAGCCGCTGCGTCAGGCGAACGGCGCGCTGGGCGTGCTCAGCCAGCAGCTGCAGAATGCCAAAATGCAGGCTGATGCCGCGCATGGCGCTCTGAAGCAGGCTGACGATCTCAAGCCGGTCTTCGATCAGGTTTACGCCAAGGTCGTCACCGCGCCAGCCGACGCGCTGCAGCCGCTGATCCCGGCCGCGCAGATCTTTACCCAGCAGCTGGTTCAGGTGGGGGATTTTGTCGCCCAGCAGGGGACCCAGGTGAGCTTTGTGGCCAACGGCATTCAGTTCCCGACCTCGCAGCAGGCCAGCCAGTATAATGCGCTGATTGGGCCGCTGGCGGCGCAGCATCAGGCGTTTAATCAGGCATGGACGGCGGCGGTGAACGCCACCCGCTAA	MATGKSCSRWFAAMAALLMVVSLSGCFDKEGDQRKAFIDFLQNTAMRSGERLPTLTADQKKQFGPFVSDYAVIYGYSQQVSQAMDAGLRPVVDSVNAIRVPQDYMTQREPLRQANGALGVLSQQLQNAKMQADAAHGALKQADDLKPVFDQVYAKVVTAPADALQPLIPAAQIFTQQLVQVGDFVAQQGTQVSFVANGIQFPTSQQASQYNALIGPLAAQHQAFNQAWTAAVNATR				NA	NA	NA	NA	NA
BMS020_03156	1356	pcaK_1	COG0477	4-hydroxybenzoate transporter PcaK	ATGACTAAGACAACCATCGACATTCAGGCCTTTATCAACGAGCACCCCTTCACCCGCTACCAGTGGATGATCCTCGCGCTCTGCTTCATCACCGTCGCGATGGACGGGTTCGACACCGCGATCATCGGATTCATCGCCTCCGACCTGGTCCAGGAGTGGGGCGTGGAAAAATCCGCCCTCGGCCCGGTGATGAGCGCCGCGCTGGTGGGCCTGGCCGTCGGCGCGTTAACCGCGGGACCGCTGGCTGATCGTATCGGCCGCAAGAAAGTGCTGATTATGTCGATCGTGGTGTTCGGCGGATTCAGCCTGCTCACCGCCTTTGCCACCAGCCTTAACCAACTGACGCTGCTGCGCTTTCTGACCGGCCTGGGCCTTGGCGCAGCGATGCCCAATGCCGCCACGTTAATGAGCGAATATGCGCCGGAGCGCCGTCGGGCGCTGCTGGTGAACCTGATGTTCGTCGGCTTTCCGATGGGATCGTCGCTGGGCGGCTTTTTATCCGCCTGGATGATCCCGCACTATGGCTGGCAGAGCGTGCTGGTGCTGGGCGGCGTGATGCCTCTCCTGCTGGCGGTGGCTTTAATTTTCCTGCTGCCGGAGTCCGCCCGCTATCTGGTGGTGAAGCGTCAGCCGGCGCAGCGCATTGCCGCCATCCTGCGGCGTATCGCGCCGCTGCCGGAGGCGGTGGAATTTGAGCTGCGCGAAGCAGGCCAGGTGAAAGAGAAGTCGGCTATCGGCGTCATTTTCTCCCCGCGCTACGCAGTGGGTACCGTGATGCTGTGCCTGACCTACTTCATGGGTCTGCTGATCTTCTATCTCCTGACCAGCTGGCTGCCGCTGCTGATCCGTGAAACCGGCGCATCGATGAGTCAGGCCTCCATTATCACCGCTCTGTTCCCGCTCGGCGGCGGAATTGGCGTGCTGATCCTTGGCGCCCTGATGGACAAGATCAACCCCAATAAGGTAGTGGCCGTCGGCTGGCTGCTGACCGGCGTTTTCGTCTGTCTGGTCGGCTTCTCCACCAGCAGCCTGGCGCTGATGGGAGTGATGGTGTTTATCGCCGGCAGTATTATGAACGGCGCGCAGTCGTCGATGCCGGCGCTGGCGGCAGGCTTCTACCCGACGCAAGGGCGCGCCACCGGCGTCGCCTGGATGCTGGGTATCGGCCGCTTCGGCGGGATCCTCGGTGCGTTCAGCGGCGCCTTCCTGATGCAGGCCCAGCTCTCTTTTGAGACCATTTTCACCCTGCTGGCCATCCCGGCGTTCCTGTCAGCCATCGCGCTGCTGATTAAATACAGGGTCAGTAAATCAGCGCCCGTGGCGACAGAGGACGCGAGAGGTCTGCAGAAAGCCTGA	MTKTTIDIQAFINEHPFTRYQWMILALCFITVAMDGFDTAIIGFIASDLVQEWGVEKSALGPVMSAALVGLAVGALTAGPLADRIGRKKVLIMSIVVFGGFSLLTAFATSLNQLTLLRFLTGLGLGAAMPNAATLMSEYAPERRRALLVNLMFVGFPMGSSLGGFLSAWMIPHYGWQSVLVLGGVMPLLLAVALIFLLPESARYLVVKRQPAQRIAAILRRIAPLPEAVEFELREAGQVKEKSAIGVIFSPRYAVGTVMLCLTYFMGLLIFYLLTSWLPLLIRETGASMSQASIITALFPLGGGIGVLILGALMDKINPNKVVAVGWLLTGVFVCLVGFSTSSLALMGVMVFIAGSIMNGAQSSMPALAAGFYPTQGRATGVAWMLGIGRFGGILGAFSGAFLMQAQLSFETIFTLLAIPAFLSAIALLIKYRVSKSAPVATEDARGLQKA	PGPT0005400_711	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-HYDROXYBENZOATE_METABOLISM,PGPT0005400-pcaK-K08195	NA	NA
BMS020_03157	291			hypothetical protein	ATGGAATATAAAGATCCCGTGTTTGAACTGCTGAGCAGCCTGGAACACATCGTTTTTAAGGACGATAATCAGACACTTACCTCAAACCGTAAGTCCACTGTGTTTAGTGAATTTGAACAGCTGCGTAAAGGCACTGGACTTAAGATTGACGACTTCGCCAACGCCATGGGCGTGAGCGTCGCCATGGTAAGAGAGTGGGAGTCGAGACGGGTAAGACCGTCCCCCACAGAGCTGAAATTAATGCGCCTGATTCAGGCCAATCCGCAGCTTTCAAGACAGTTACTCGATTAA	MEYKDPVFELLSSLEHIVFKDDNQTLTSNRKSTVFSEFEQLRKGTGLKIDDFANAMGVSVAMVREWESRRVRPSPTELKLMRLIQANPQLSRQLLD				NA	NA	NA	NA	NA
BMS020_03159	213	cspA_1	COG1278	Cold shock protein CspA	ATGTCCGGTAAAATGACTGGTATCGTAAAATGGTTCAACGCTGACAAAGGCTTCGGCTTCATCACTCCTGACGATGGCTCTAAAGACGTGTTCGTACACTTCTCTGCTATCCAGAACGATGGCTACAAATCCCTGGATGAAGGTCAGAAAGTCTCCTTCACCATCGAAAGCGGCGCTAAAGGCCCGGCAGCTGGCAACGTAACTTCTCTGTAA	MSGKMTGIVKWFNADKGFGFITPDDGSKDVFVHFSAIQNDGYKSLDEGQKVSFTIESGAKGPAAGNVTSL	PGPT0014675_3098	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
BMS020_03160	1620	yheS_3	COG0488	putative ABC transporter ATP-binding protein YheS	ATGGCTCATTGCGCCCACATCCCCGCTTTTGTTTTACATCAGGTCACCTGTCAGTTTGCGACGGGGCAGACCCTGTTTGGTCCTCTCAACGTCTCGCTGGAACCGTCCCTTTGCGGTCTGGTCGGCCGGAACGGCGTCGGTAAGTCGCGTCTGTTGCGCCTGCTGGCGGGCCTTGATTCTCCTGCCGGTGGCCATATCGAGCGCGCGGCTTCCATTGCCTGGGTGGCGCAGCAGCCGACGCTTACGCCGGAGACCACCCTCGCTACGCTGCTGGGCTATGCGCCGGTCTTTGACGCCTTGTACCGCCTTGAACAGGGTCATGGACTGGCCGACGATTTCGAGCTATTGGATGGCCACTGGGATCTCCCCGATCGGCTGAGTTTAGCTTTCCGTGATGCCGGTCTCCCGCCGTTCTCTGCCGATCGTCCCGCTTTTTCACTCAGCGGCGGCGAGCGGATGAAGGCCCTGCTGTGCGGCGCCTTTGTTTCGAGCGCCGATTATCTGCTGCTGGATGAGCCCACCAACCATCTGGACAGTGAGGGGCGAGAGTGGCTCTATCAGCAACTGGAAAACTGGCACGGCGGAGCTTTGATCGCCAGCCACGATCGTCAACTGCTGGCGCGGATGCCGAGGATCATCGAGCTGACGCCGACGGCGCTGCGCAGCTACGGCGGCAACTATGACGAATATCAGCGGCAGCGCGAGGCGGAGCAGCAGGCCGCGCGCGCGGCGCTGGACCATGCGACGACCGAGCGGCGACGCACCCGCGCGCGAATGCAAAAAGAGCATGATGCTGCCCAGCGGCGCTCGGCGCAGACACTGCGTACCGTTGATACCCTGAATATCGCCTCTTTCGAACGCGTGAAGTACAAAGGCGCGGCAAAAGAGCGTCCGGGAACGCTGCGCCGTCAGCATCGTGAACAGAACAGCAGTCTGAATGGCGCTGTGCAGCAGGCGCGAGAGCGGGTGGAAGAGGATACGCCGGTGATGTTCACCCTGCCAGGCAGCGAAGTGGCGGCGGGCAAGCAGGTGCTGGTCGTGGAAGCATTGCAGCTCGCCCATTCCCCCGCTGCGCCGCTGGACTGGCGCGTGGATGGTCCGATGCGCGTCGCGCTGCGAGGGCCGAACGGCTGCGGCAAAACTACCTTGCTGAAAACGCTGCTGGGGCTGGAGCAGGCCGCCTCAGGCGATGTCCGGCTGTCGGTGAGCGCCGCTTATCTGGATCAACATCTGACGCAGCTGGATCTGTCGTTATCGGTGATAACGCATCTGAGCCTGGACGATACTCCGCTGGATGAGGGGCTGCTGCGGACCCGTCTGGCGCAGCTGCAGCTGGGCGCCGATAAGGTCAACCTGCCGCTGGCGGCGCTCAGCGGCGGCGAACGCCTGAAAGCGGCCCTGGCCTGCGTGCTCTGGCGACGCGATCCTGCCCAGCTGCTGTTGCTCGATGAGCCGACCAACCATCTCGATTTAGCGTCGACACAGGCCATTGAGTGTGCGCTGGCTACGTTTCCCGGCGCGTTGGTGGTGGTGTCGCATGACGAGGCGTTTCTGCAGGGGTTGAAACTCACCCACAGCCTGACGTGGGGGGAAACGGGCTGGCACGATACCCGACTCTGA	MAHCAHIPAFVLHQVTCQFATGQTLFGPLNVSLEPSLCGLVGRNGVGKSRLLRLLAGLDSPAGGHIERAASIAWVAQQPTLTPETTLATLLGYAPVFDALYRLEQGHGLADDFELLDGHWDLPDRLSLAFRDAGLPPFSADRPAFSLSGGERMKALLCGAFVSSADYLLLDEPTNHLDSEGREWLYQQLENWHGGALIASHDRQLLARMPRIIELTPTALRSYGGNYDEYQRQREAEQQAARAALDHATTERRRTRARMQKEHDAAQRRSAQTLRTVDTLNIASFERVKYKGAAKERPGTLRRQHREQNSSLNGAVQQARERVEEDTPVMFTLPGSEVAAGKQVLVVEALQLAHSPAAPLDWRVDGPMRVALRGPNGCGKTTLLKTLLGLEQAASGDVRLSVSAAYLDQHLTQLDLSLSVITHLSLDDTPLDEGLLRTRLAQLQLGADKVNLPLAALSGGERLKAALACVLWRRDPAQLLLLDEPTNHLDLASTQAIECALATFPGALVVVSHDEAFLQGLKLTHSLTWGETGWHDTRL				NA	NA	NA	NA	NA
BMS020_03163	2070	glyS_1	COG0751	Glycine--tRNA ligase beta subunit	ATGTCTGAGAATACTTTTCTGGTGGAAATCGGCACTGAAGAGCTGCCACCAAAAGCGCTGCGCAGCCTGGCGGAATCTTTTGCTGCGAACGTGACCGCGGAGCTGGATAACGCCGGCCTCGCGCACGGTAAAGTGGAATGGTTTGCCGCCCCGCGTCGTCTGGCGCTGAAGGTGGCCAACCTGGCGGCGGCGCAAGCCGATCGCGAAGTGGAAAAACGCGGCCCGGCCGTTGCCCAGGCGTTCGATGCCGAAGGCAAGCCAAGCAAAGCGGCCGAAGGCTGGGCGCGCGGCTGCGGTATTACCGTCGATCAGGCCGAACGTCTGACTACGGACAAAGGCGAGTGGCTGCTGTATCGCGCCCATGTGAAGGGCGAAAGCACCGAAGCGCTGCTGCCGAACATGATTGCCAGCTCGCTGGCGAAGCTGCCCATCCCGAAACTGATGCGCTGGGGCGCGTCTGACGTCCACTTCGTGCGCCCGGTTCACACCGTCACGCTGCTGCTGGGCGACAAGGTGATCCCGGCTACTATCCTCGGTATCCCGTCCGATCGCGTGATCCGCGGCCATCGCTTTATGGGCGAGCCGGAATTCACCATCGACCATGCCGACCAGTACCCGCAGATCCTGCTGGAGCGCGGTAAAGTCATCGCCGATTACGAACAGCGTAAAGCCAAAATCAAAGCCGATGCGGAAGAGGCGGCGCGTAAGATTGGCGGTCAAGCCGATCTGAGCGAAAGCCTGCTGGAAGAAGTCACCTCGCTGGTGGAATGGCCGGTGGTGCTGACGGCGAAGTTCGAAGAAAAATTCCTCGCGGTACCGTCTGAAGCGCTGGTTTACACCATGAAGGGCGACCAGAAGTACTTCCCGGTTTACGACAACGCCGGTAAGCTGCTGCCGAACTTCATCTTCGTCGCCAACATCGAGTCGAAAGATCCGCAGCAGATCATCTCCGGTAACGAGAAGGTGGTCCGTCCGCGTCTGGCCGACGCCGAGTTCTTCTTCAACACCGACCGTAAAAAACGTCTGGAAGACAACCTGCCGCGTCTGGAAACCGTGCTGTTCCAGCAGCAGCTGGGTACGCTGCGCGACAAGACCGATCGCATTCAGGCGCTGGCGGGCTGGATTGCCGAGCAGATTGGCGCTGACGTGAACCACGCGACCCGCGCGGGCCTGCTGTCCAAGTGCGACCTGATGACCAACATGGTCTTCGAGTTCACCGACACCCAGGGCGTGATGGGGATGCACTACGCGCGCCACGATGGCGAAGCGGAAGATGTGGCCGTGGCGCTGAACGAACAGTATCAGCCGCGCTTTGCCGGCGACGCGCTGCCGTCTAACCCGGTGGCCTGCGCGGTGGCGATTGCCGATAAGATGGACACCCTCGCGGGTATCTTCGGTATCGGCCAGCACCCGAAAGGCGATAAAGACCCGTTTGCGCTGCGCCGCGCCGCGCTGGGCGTCCTGCGTATCATCGTCGAGAAGAACCTGAACCTCGATCTGCAAACGCTGACCGAAGAAGCGGTGCGTCTGTACGGTGAGAAGCTGACCAACGCCAACGTGGTTGATGACGTGATCGACTTTATGCTGGGCCGCTTCCGCGCCTGGTATCAGGACGAAGGCTACGGCGTCGACACTATCCAGGCGGTACTGGCGCGTCGTCCAACCCGCCCGGCGGATTTCGATGCGCGCATGAAAGCCGTATCGCACTTCCGTACCCTGGAAGAGTCCTCTGCGCTGGCGGCGGCGAACAAACGTGTCTCCAACATCCTCGCGAAATCCGACGAGACGCTGAACGACATCGTTCACGCTTCCGTGCTGAAAGAAGCGGCGGAAATTAAGCTGGCGGGCAATCTGGTGGTGCTGCGCGACAAGCTGCAGCCGTACTTCGCCGCAGGCCGCTATCAGGATGCGCTGATTGAGCTGGCCGCCCTGCGCGAGCCGGTGGATGAGTTCTTCGAAAACGTGATGGTCAACGCCGAAGACAAAGATGTCCGCATCAACCGTCTGACGCTGCTGTCCAAACTGCGTGAACTGTTCCTGCAGGTGGCGGATATTTCTCTGCTGCAGTAA	MSENTFLVEIGTEELPPKALRSLAESFAANVTAELDNAGLAHGKVEWFAAPRRLALKVANLAAAQADREVEKRGPAVAQAFDAEGKPSKAAEGWARGCGITVDQAERLTTDKGEWLLYRAHVKGESTEALLPNMIASSLAKLPIPKLMRWGASDVHFVRPVHTVTLLLGDKVIPATILGIPSDRVIRGHRFMGEPEFTIDHADQYPQILLERGKVIADYEQRKAKIKADAEEAARKIGGQADLSESLLEEVTSLVEWPVVLTAKFEEKFLAVPSEALVYTMKGDQKYFPVYDNAGKLLPNFIFVANIESKDPQQIISGNEKVVRPRLADAEFFFNTDRKKRLEDNLPRLETVLFQQQLGTLRDKTDRIQALAGWIAEQIGADVNHATRAGLLSKCDLMTNMVFEFTDTQGVMGMHYARHDGEAEDVAVALNEQYQPRFAGDALPSNPVACAVAIADKMDTLAGIFGIGQHPKGDKDPFALRRAALGVLRIIVEKNLNLDLQTLTEEAVRLYGEKLTNANVVDDVIDFMLGRFRAWYQDEGYGVDTIQAVLARRPTRPADFDARMKAVSHFRTLEESSALAAANKRVSNILAKSDETLNDIVHASVLKEAAEIKLAGNLVVLRDKLQPYFAAGRYQDALIELAALREPVDEFFENVMVNAEDKDVRINRLTLLSKLRELFLQVADISLLQ				NA	NA	NA	NA	NA
BMS020_03164	912	glyQ_1	COG0752	Glycine--tRNA ligase alpha subunit	ATGCAAAAGTTTGATACCAGGACCTTCCAGGGCCTGATCCTGACCTTACAGGATTACTGGGCTCGTCAGGGCTGCACCATTGTTCAACCACTGGACATGGAAGTCGGCGCCGGCACCTCTCACCCGATGACCTGCCTGCGCGCGTTAGGGCCGGAGCCGATGGCGACCGCCTACGTACAGCCTTCCCGTCGTCCAACCGATGGCCGCTATGGCGAAAACCCGAACCGTTTACAGCATTACTATCAGTTCCAGGTGGTGATTAAGCCTTCTCCGGACAACATCCAGGAGCTGTACCTCGGGTCGCTGAAAGAGCTGGGTATGGACCCGACCATTCACGACATTCGCTTCGTCGAAGACAACTGGGAAAACCCGACGCTGGGGGCCTGGGGTCTGGGTTGGGAAGTGTGGCTCAACGGCATGGAAGTGACGCAGTTCACCTACTTCCAGCAGGTGGGCGGCCTGGAGTGTAAGCCGGTGACCGGCGAGATCACCTACGGCCTGGAGCGTCTGGCGATGTACATCCAGGGCGTCGACAGCGTCTACGACCTGGTCTGGAGCGATGGCCCGCTGGGTAAAACCACTTACGGCGACGTGTTCCACCAGAACGAAGTGGAGCAGTCCACCTATAACTTTGAATACGCCGACGTCGATTTCCTCTTCTCCTGCTTCGAGCAGTATGAGAAAGAGGCCCAGCATCTGCTGGCGCTGGAGACCCCGCTGCCGCTGCCGGCCTACGAGCGCATTCTGAAAGCGGCTCACAGCTTCAACCTGCTGGATGCGCGTAAAGCCATCTCCGTCACCGAGCGTCAGCGCTATATCCTGCGCATTCGCACCCTGACGAAAGCAGTGGCGGAAGCGTACTACGCTTCCCGTGAAGCGCTCGGCTTCCCGATGTGCAACAAGAATAAATAA	MQKFDTRTFQGLILTLQDYWARQGCTIVQPLDMEVGAGTSHPMTCLRALGPEPMATAYVQPSRRPTDGRYGENPNRLQHYYQFQVVIKPSPDNIQELYLGSLKELGMDPTIHDIRFVEDNWENPTLGAWGLGWEVWLNGMEVTQFTYFQQVGGLECKPVTGEITYGLERLAMYIQGVDSVYDLVWSDGPLGKTTYGDVFHQNEVEQSTYNFEYADVDFLFSCFEQYEKEAQHLLALETPLPLPAYERILKAAHSFNLLDARKAISVTERQRYILRIRTLTKAVAEAYYASREALGFPMCNKNK				NA	NA	NA	NA	NA
BMS020_03165	303			hypothetical protein	GTGGTGAAAGGTGTCGTTTCCATAATGCTGGCGCTGCTCCTTGCGGGCTGCAGCGAGACCGTTTCCCCGCCGGCGCAAAAGGCGCAGCGCGCGCATATTACACCGCAAACTACGCTCAATATGGCGCAGCTTTGCAAGGATCAGGCCGCTATCCGCTATAACACGCAAACGCAGTTAGTTGACGTGAACCATCTTGAACAATTCCAGGCGAGCTATGAGCTGTCGGGTCGTACCGGCAAGAATGAACGTTTCATCTGTTCCTTTGACCCCGACGGCCAGTTTATGCATCTTTCGATGCGCTGA	MVKGVVSIMLALLLAGCSETVSPPAQKAQRAHITPQTTLNMAQLCKDQAAIRYNTQTQLVDVNHLEQFQASYELSGRTGKNERFICSFDPDGQFMHLSMR				NA	NA	NA	NA	NA
BMS020_03166	996	wecH	COG3274	O-acetyltransferase WecH	ATGCAAGAAAAGATACACTGGATCACCAACCTGCGCGGCATTGCCTGCATGATGGTGGTGATGATCCATAGTACCAGCTGGTATATCACTCATCCGCATACGATTACCCTGCTGCAATGGGATATCGCCAATCTGCTCAATTCCGCCTCCCGCGTCAGCGTGCCGCTGTTTTTTATGATCTCGGGGTATCTGTTTTTTGGGGAACGCAGCGCCCAGCCGCGCCATTTCTGGCGGATTGGCCTGTGCATTGCGTTCTATAGCGCGCTGTCTCTGCTGTATATCGCGCTGTTTACCCATATTAACGTCGGGCTGTCGTTAAAGAATTTGCTGCAGAAGCCCGTCTTCTACCACCTGTGGTTTTTCTTTGCTATCGCCGTTATCTATCTGCTCTCGCCGCTTATTCAGGTTAAATCCGTCAACGGCAAAATGCTGCTGGCGCTGATGGCGATCCTCGGCATTCTGGCCAACCCCAACATGGTTGGCGTCAAAGCCGCCGGGATTGAGTGGCTGCCGGTCAACCTCTATATCAATGGCGACACCTTTTATTACGTGCTCTACGGCGTGCTGGGCAGGGCTATTGGCACCCTGGATACCGATAAAAAATGGCTGACCCCGCTCTGCGCCGCGCTGTTCCTCGCCGCCGTGTGGGTCATCTCCCGCGGCACGCTGCATGAGCTGCGCTGGCGCGGAGACTTCGGCGACACCTGGTATCTCTACTGCGGGCCGGCGGTGTTCGTTTGCGCGGTCGCCCTGCTGACGCTCGCCAAAAACTGGCTGAACGCGCGTCCCCTGCCCGGTATCGAATGTATTGCACGTCATTCTCTGGGAATTTACGGCTTCCATGCCCTGATTGTGCATGCGCTGCGCGCCAGCCATCTGGAACTGAGCCGCTGGCCGCTGCTGGATATTGTGTGGATTTTCAGCGCCGCCCTGCTCGGCAGCCTGCTGCTGTCCGGCCTGGTGCAGCGGGTTGATAGCCGGCGGCTGGTCAGTTAA	MQEKIHWITNLRGIACMMVVMIHSTSWYITHPHTITLLQWDIANLLNSASRVSVPLFFMISGYLFFGERSAQPRHFWRIGLCIAFYSALSLLYIALFTHINVGLSLKNLLQKPVFYHLWFFFAIAVIYLLSPLIQVKSVNGKMLLALMAILGILANPNMVGVKAAGIEWLPVNLYINGDTFYYVLYGVLGRAIGTLDTDKKWLTPLCAALFLAAVWVISRGTLHELRWRGDFGDTWYLYCGPAVFVCAVALLTLAKNWLNARPLPGIECIARHSLGIYGFHALIVHALRASHLELSRWPLLDIVWIFSAALLGSLLLSGLVQRVDSRRLVS				NA	NA	NA	NA	NA
BMS020_03167	444	yiaA_1	COG4682	Inner membrane protein YiaA	ATGGAAAACAAGCACGCGACGTATTCTCCGGCCTTTCATTTAATCTCCTGGATTGCCCTGATCGGCGGCATCGCCACCTATCTGGTCGGCCTGTGGAATGCGGATATGCAGTTGAATGAAAAAGGCTATTATTTTGCTGTCCTGGTGCTGGGGCTGTTTGCCGCAGCGTCTTATCAGAAGACGGTGCGCGATAAATATGAAGCCATTCCGACCACCGCGCTGTACTACACCACCTGTCTGGTGGCCTTCGTCATCGCCGTTGGCCTGCTGGTTATCGGGTTGTGGAATGCCAGTCTGCTGCTCAGCGAGAAAGGGTTCTATGGACTGGCGTACTTTTTGAGCCTGTTTGGCGCCGTTGCGGTGCAGAAAAACGTGCGTGATGCCTGGGACCCGACCCGTGTAAGAGAGCCTCTCAGCGTGCCGGAAGAGGGGCCTGAACTGTGA	MENKHATYSPAFHLISWIALIGGIATYLVGLWNADMQLNEKGYYFAVLVLGLFAAASYQKTVRDKYEAIPTTALYYTTCLVAFVIAVGLLVIGLWNASLLLSEKGFYGLAYFLSLFGAVAVQKNVRDAWDPTRVREPLSVPEEGPEL				NA	NA	NA	NA	NA
BMS020_03168	372	yiaB	COG4682	Inner membrane protein YiaB	ATGAACACAAAACGCAATATTGCCAGGGTGATGATGGCAGCAGGATCGCTGGTTTATCTGCTCGGTATCTGGCGAACCTGCCCGTTGTTTAGCGGTAAAGGTTATTTTCTCGGCGTACTGGTGATGGGGATGTTTGCCGTCCTCGCCCATCAGCGCGCCAGACGGTGGCAGGAACAGGACGACGGTTTTATTGCCTTATGCCGGTTGGTGCTGCTGCTATCGGTCGGCCTGCTGCTGGTGGGCGCCTGGTATGTGCCGGCAGGCTGGCATGAAAAAGCCGTCTATATCGCGGCATGGTTTGTCTGCTTATATGGCGCATCGGCAACCCCCGAACGGATCCGCGTCGCCTGCGCGATGCAAAAAACGGAATAA	MNTKRNIARVMMAAGSLVYLLGIWRTCPLFSGKGYFLGVLVMGMFAVLAHQRARRWQEQDDGFIALCRLVLLLSVGLLLVGAWYVPAGWHEKAVYIAAWFVCLYGASATPERIRVACAMQKTE				NA	NA	NA	NA	NA
BMS020_03169	1455	xylB_2	COG1070	Xylulose kinase	ATGTATATCGGCATCGATCTGGGGACATCGGGCGTCAAAGCCATTCTGCTCAATGAGCAGGGTGATGTGGTGGCATCGCATACCGAAAAACTCACCGTCTCGCGTCCGCATCCGCTGTGGTCGGAACAAGATCCCGAGCAGTGGTGGCAGGCTACGGACACGGCGATGAAAGCCCTGGGCGCGCAGCATAGTCTGCGCGACGTGAAGGCGCTGGGGATCGCCGGGCAGATGCACGGCGCCACCCTGCTGGATAAATCGCTACAGGTGCTGCGTCCTGCCATTTTATGGAATGACGGCCGCTGCGGCGAAGAGTGCCAGCTGCTGGAGGAAAAAGTCAGCGCTTCCCGGCAAATCACAGGCAACCTGATGATGCCGGGCTTTACGGCGCCGAAGCTCTTGTGGGTGCAGCGCCACGAGGCGGCGGTGTTCAGCCAGGTCGATAAAGTGCTGTTGCCGAAGGATTATCTGCGTCTGCGGATGACCGGCGAGCTTGCCAGCGATATGTCTGACGCCGCCGGTACCCTGTGGATGGACGTCGCCCGACGCGACTGGAGCGATGAGATGCTCGCCGCCTGCGATCTCAGCCGGGACGCGATGCCGGCGCTGTTTGAAGGCAGCGACGTCACCGGGCAGCTGCGTCCGGAGGTGGCGCAGGCGTGGAATATGCCACAGGCGCTGGTGGTAGGGGGCGGCGGCGACAACGCCGCCGGCGCGGTCGGGGTCGGCATGGCCGATGCCGGTCAGGCGATGCTGTCGCTGGGCACTTCAGGTGTGTATTTCGCGGTCAGCGAAGGGTTCCTCAGCAAGCCTGAAAGCGCAGTGCATAGCTTTTGCCATGCGCTGCCGGGCCGCTGGCATCTGATGTCGGTGATGCTCAGCGCGGCTTCCTGTCTGGACTGGGCGGCGAAATTAACCGGTCTCGCCAGCGTGCCGGCGCTGATTGCGGCGGCGCAGTCAGCCGACGAGAGCGCTGGTCCGGTGTGGTTCCTGCCCTATCTGTCGGGCGAACGCACGCCGCACAACAACCCGCAGGCCAAGGGCGTCTTCTTCGGCCTGACGCATCAGCATGGGCCGGCAGAGCTGGCGCGGGCGGTGCTGGAGGGGGTGGGCTATGCGCTGGCGGACGGCATGGACGTGGTTCACGCCTGCGGCATCAAGCCGCAGAGCATCACCCTTATCGGCGGCGGGGCGCGTAGCGCTTACTGGCGACAAATGCTGGCGGATATCAGCGGCCAGCAGCTCGATTATCGTACCGGGGGCGACGTCGGCCCGGCGCTGGGGGCGGCCAGGCTGGCGCAGCTGGCGGTGCACGGCGAAGCCAACCGCGCCGGGCTGTTGACGCCGCTGCCGCTTGAGCAAGCGCATCGCCCGGACGATCGCCGAGTGGCCCACTATGCGCCACAGCGGGAAACCTTCCGCCAGATTTATCAGCAGCTGAAACCGCTGATGTCATAG	MYIGIDLGTSGVKAILLNEQGDVVASHTEKLTVSRPHPLWSEQDPEQWWQATDTAMKALGAQHSLRDVKALGIAGQMHGATLLDKSLQVLRPAILWNDGRCGEECQLLEEKVSASRQITGNLMMPGFTAPKLLWVQRHEAAVFSQVDKVLLPKDYLRLRMTGELASDMSDAAGTLWMDVARRDWSDEMLAACDLSRDAMPALFEGSDVTGQLRPEVAQAWNMPQALVVGGGGDNAAGAVGVGMADAGQAMLSLGTSGVYFAVSEGFLSKPESAVHSFCHALPGRWHLMSVMLSAASCLDWAAKLTGLASVPALIAAAQSADESAGPVWFLPYLSGERTPHNNPQAKGVFFGLTHQHGPAELARAVLEGVGYALADGMDVVHACGIKPQSITLIGGGARSAYWRQMLADISGQQLDYRTGGDVGPALGAARLAQLAVHGEANRAGLLTPLPLEQAHRPDDRRVAHYAPQRETFRQIYQQLKPLMS	PGPT0017535_3144	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
BMS020_03170	1323	xylA_1		Xylose isomerase	ATGCAGACCTATTTCGATCAACTCGATCGCGTTCGTTACGAAGGCCCGAAATCCGCTAACCCGCTGGCTTTCCGTCATTACAACCCGGATGAACTGGTGCTGGGCAAACGGATGGAAGATCATCTGCGTTTTGCGGCCTGTTACTGGCACACCTTCTGCTGGAATGGCGCCGATATGTTTGGCGTGGGCTCCTTCGACCGCCCATGGCAGCAGCCTGGCGACGCCCTGGAGATGGCCAAACGCAAAGCCGATGTGGCGTTCGAATTTTTCCATAAACTCAACGTGCCTTACTACTGCTTCCACGACGTTGACGTCTCGCCGGAAGGGAGTTCGCTCAAGGAGTACAGCAATAACTTCGCCCGGATGGTCGAGGTGCTGGCGGAGAAGCAGCAGCAGAGCGGCGTCAAGCTCCTGTGGGGGACCGCAAACTGCTTCACCAACCCGCGCTACGGCGCCGGCGCGGCCACCAACCCGGACCCGGAAGTGTTTAGCTGGGCGGCCACCCAGGTGGTTACCGCCATGAATGCCACCCATCAGCTGGGCGGCGAAAACTATGTCCTGTGGGGCGGTCGCGAGGGCTATGAAACCCTGCTGAATACCGACCTGCGCCAGGAGCGTGAACAGATTGGCCGCTTTATGCAGCTGGTGGTGGAGCATAAGCATAAAATCGGCTTTAAAGGCACGCTGCTGATCGAGCCCAAACCGCAGGAGCCTACCAAGCATCAGTATGATTATGACGCCTCTACCGTGTACGGCTTCCTCAAGCAGTTTGGTCTGGAAAAAGAGATTAAACTGAACATTGAAGCCAACCATGCGACCCTTGCCGGCCACTCGTTCCATCATGAGATCGCGACGGCCATCGCGCTGGGGCTGTTCGGTTCCGTCGACGCCAACCGCGGCGATCCGCAGCTGGGCTGGGATACCGACCAGTTCCCGAACAGCGTCGAAGAGAACGCGCTGGTGATGTATGAAATTCTCAAAGCGGGCGGCTTCACCACCGGCGGCCTCAATTTTGATGCGAAAGTGCGCCGTCAGAGCACCGACAAATACGATCTGTTCTACGGCCATATCGGCGCGATGGATACCATGGCGCTGTCGCTGAAGGTCGCGGCGCGGATGATCGAAGACGGTGAGCTGGATAAACGCGTGGCCAAACGCTACGCCGGCTGGAACGGCGAGCTGGGGCAGCAGATCCTTAACGGGCAGATGGCCCTCAGCGACATTGCCCAGTACGCCGCTCAGCATCAGCTGGCGCCGCAGCATCGCAGCGGCCAGCAGGAACAACTGGAAAACCTGGTCAACCATTATCTGTTTGACAAGTAA	MQTYFDQLDRVRYEGPKSANPLAFRHYNPDELVLGKRMEDHLRFAACYWHTFCWNGADMFGVGSFDRPWQQPGDALEMAKRKADVAFEFFHKLNVPYYCFHDVDVSPEGSSLKEYSNNFARMVEVLAEKQQQSGVKLLWGTANCFTNPRYGAGAATNPDPEVFSWAATQVVTAMNATHQLGGENYVLWGGREGYETLLNTDLRQEREQIGRFMQLVVEHKHKIGFKGTLLIEPKPQEPTKHQYDYDASTVYGFLKQFGLEKEIKLNIEANHATLAGHSFHHEIATAIALGLFGSVDANRGDPQLGWDTDQFPNSVEENALVMYEILKAGGFTTGGLNFDAKVRRQSTDKYDLFYGHIGAMDTMALSLKVAARMIEDGELDKRVAKRYAGWNGELGQQILNGQMALSDIAQYAAQHQLAPQHRSGQQEQLENLVNHYLFDK	PGPT0017550_621	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
BMS020_03171	996	xylF	COG4213	D-xylose-binding periplasmic protein	ATGAAGATAAAGAACCTTTGCCTTACGCTTTGCGCCAGCTCCCTCCTGCTCGCCAGCATGGCGGGGATGGCGAAAGAAGTGAAGATTGGCATGGCCATCGACGATCTGCGTCTGGAACGCTGGCAGAAAGACCGCGATATTTTCGTCAATAAAGCGGAATCCTTAGGCGCCAAAGTTTTTGTCCAGTCCGCCAATGGCAATGAAGAAACGCAGATGTCGCAAATTGAAAACATGATCAACCGCGGCGTCGATGTCTTGGTCATTATTCCTTATAACGGTCAGGTGCTCAGTAACGTTATTAAAGAGGCCAAGCAGGAAGGTATTAAAGTGCTGGCCTATGATCGCATGATTAATAATGCCGATATTGATTTCTATATTTCTTTCGACAATGAAAAAGTCGGCGAAATGCAGGCGCAAAGCCTGGTCGACAAAGTGCCGCAGGGTAATTATTTTCTGATGGGCGGCTCGCCGGTGGATAATAACGCCAAGCTGTTCCGCGCCGGCCAGATGAAGATCCTCAAGCCGTATGTCGATGAGGGCAAAATTAAGATTGTCGGCGATCAGTGGGTTGACGGCTGGCTGCCGGAAAACGCGCTGAAAATAATGGAAAACGCGCTGACGGCGAATAATAACAAAATCGATGCCGTGGTGGCCTCCAATGACGCAACCGCCGGCGGCGCCATCCAGGCCTTAACCGCCCAGGGGCTGGCAGGCAAAGTGGCGATCTCCGGTCAGGATGCTGACCTGGCGGGCGTGAAGCGTATTATTTCCGGTACCCAGACGATGACCGTCTATAAACCGATTACCACCCTGGCCACCAATGCCGCCGAAATCGCCGTTGAGCTGGGCAACGATAAGCAGCCGAAGTCTGACACCACGCTGAATAACGGCTTAAAAGATGTCCCTTCGCGCCTGTTAACGCCAATTGAAGTGAATAAAGAGAATATCGACGCCACGGTGATTAAAGACGGTTTCCATAAAAAGAGTGAACTGTAA	MKIKNLCLTLCASSLLLASMAGMAKEVKIGMAIDDLRLERWQKDRDIFVNKAESLGAKVFVQSANGNEETQMSQIENMINRGVDVLVIIPYNGQVLSNVIKEAKQEGIKVLAYDRMINNADIDFYISFDNEKVGEMQAQSLVDKVPQGNYFLMGGSPVDNNAKLFRAGQMKILKPYVDEGKIKIVGDQWVDGWLPENALKIMENALTANNNKIDAVVASNDATAGGAIQALTAQGLAGKVAISGQDADLAGVKRIISGTQTMTVYKPITTLATNAAEIAVELGNDKQPKSDTTLNNGLKDVPSRLLTPIEVNKENIDATVIKDGFHKKSEL	PGPT0016650_1146	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_XYLOSE_TRANSPORT_I,PGPT0016650-xylF-K10543	NA	NA
BMS020_03172	1542	xylG_1	COG1129	Xylose import ATP-binding protein XylG	ATGGCCTGGCTACTCGAAATGAAGAACATCACCAAAACCTTCGGCGCCGTTAAGGCCGTGGATAATGTCAGCCTGCGCCTGAACGCTGGCGAGGTGGCCTCGTTATGCGGTGAAAATGGTTCGGGAAAATCGACGCTGATGAAGGTGCTGTGCGGTATCTATCCGCACGGAAGCTATGAGGGCGAGATTATTTTTGCCGGCGAAACGCTGCAGGCAAACCATATTCGCGATACCGAACGTAAAGGCATCGCCATTATTCATCAGGAGCTGGCGCTGGTGAAACATCTCACCGTGCTGGAGAACATTTTCCTCGGCGCCGAAATATCCCGCCACGGCCTGCTGGATTATGAAACCATGACGCTGCGCTGCCAGAAGCTGCTGGAGCAGGTCAATCTGCCCATTTCGCCCGACACCCGCGTCGGCGACCTCGGCCTCGGTCAGCAGCAGCTGGTGGAGATCGCCAAGGCGCTGAATAAACAGGTGCGCCTGCTGATCCTCGACGAACCAACCGCCTCCTTAACCGAACAAGAGACCGCGACGCTGCTGGCGATCGTTCGCGATCTGCAAAACCACGATATCGCCTGCATCTATATTTCGCACAAGCTCAATGAGGTCAAAGCGATCTCCGATACGATCTGCGTGATCCGCGACGGCCAGCATATCGGCACCCGCGACGCCAGCGGCATGAGCGAAGACGACATCATCACCATGATGGTTGGCCGGGAGCTCACCGCGCTCTATCCCAGCGAACCGCACGCCCACGGCGAGGAGATCCTGCGGGTCGAACATTTAACCGCCTGGCACCCGGTAAACCGTCATATTAAACGGGTCAACGACGTCTCGTTTTCCCTGCATCGCGGGGAGATCCTCGGCATCGCCGGGCTGGTCGGCGCCGGACGGACCGAGGCGGTGCAGTGCCTGTTCGGCGTCTGGCCGGGGCGCTGGCAGGGGGAGATCTTCATTGATGGCCAGCCGGTCAGCATCACTAACTGTCAGCAGGCCATTGGCCACGGCATCGCCATGGTGCCGGAAGACCGCAAAAAAGACGGCATCGTGCCGGTGATGGCGGTGGGTAAGAACATTACCCTGGCGGCGCTCAGCCAGTTCACCGGCGCGATGAGCAGCCTGGACGACGCCGCCGAGCAGCACTGTATTGAGCAGTCCATTCAGCGATTGAAAATTAAAACCTCCTCGCCGGAGCTGGCGATTGGCCGCCTGAGCGGCGGCAACCAGCAAAAGGCGATTCTGGCCCGCTGTCTGCTGCTGAATCCGCGCATTCTGATCCTCGACGAACCCACCCGCGGCATCGATATCGGGGCGAAGTATGAAATTTATAAACTGATTAACCAGCTGGTGCAGCAGGGCATCGCGGTCATTGTCATTTCATCCGAACTGCCCGAGGTGCTTGGTCTTAGCGATCGGGTGCTGGTCATGCACGAAGGCAGGCTAAAAGCCAATTTGGTTAATCAACATCTGACCCAGGAACAGGTGATGGAAGCCGCGCTGAGGAGCGAACGCCATGTCGAAGAACACGTCGTCTGA	MAWLLEMKNITKTFGAVKAVDNVSLRLNAGEVASLCGENGSGKSTLMKVLCGIYPHGSYEGEIIFAGETLQANHIRDTERKGIAIIHQELALVKHLTVLENIFLGAEISRHGLLDYETMTLRCQKLLEQVNLPISPDTRVGDLGLGQQQLVEIAKALNKQVRLLILDEPTASLTEQETATLLAIVRDLQNHDIACIYISHKLNEVKAISDTICVIRDGQHIGTRDASGMSEDDIITMMVGRELTALYPSEPHAHGEEILRVEHLTAWHPVNRHIKRVNDVSFSLHRGEILGIAGLVGAGRTEAVQCLFGVWPGRWQGEIFIDGQPVSITNCQQAIGHGIAMVPEDRKKDGIVPVMAVGKNITLAALSQFTGAMSSLDDAAEQHCIEQSIQRLKIKTSSPELAIGRLSGGNQQKAILARCLLLNPRILILDEPTRGIDIGAKYEIYKLINQLVQQGIAVIVISSELPEVLGLSDRVLVMHEGRLKANLVNQHLTQEQVMEAALRSERHVEEHVV	PGPT0016660_152	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_XYLOSE_TRANSPORT_I,PGPT0016660-xylG-K10545	NA	NA
BMS020_03173	1182	xylH	COG4214	Xylose transport system permease protein XylH	ATGTCGAAGAACACGTCGTCTGAAATCAAACTTACCCCAACCGCCCCCACCGCCCTGCCGGCGCTGAAGGGGCTGAACCTCCAGGTCTTCGTGATGATCGCCGCGATCGTCGTCATTATGCTGTTTTTCACCTGGGTTACCGATGGCGCCTACCTGAGCGCGCGCAATATTTCCAACCTGCTGCGCCAGACGGCCATCACCGGCATCCTCGCCGTCGGCATGGTGTTTGTGATTATTTCGGCAGAAATCGACCTGTCCGTCGGCTCGATGATGGGGCTGTTGGGCGGCGCCGCGGCGATCTTTGACGTCTGGCTCGGCTGGCCGCTGCCGCTCACCATTCTGGTGACGCTGGTGATGGGGCTACTGCTCGGCGCATGGAACGGATGGTGGGTGGCCTATCGCAAGGTCCCCTCGTTTATCGTCACCCTCGCCGGGATGCTGGCGTTTCGCGGCATTCTGATCGGCATCACCAACGGGACCACCGTCTCGCCCACCAGCCCGGCGATGGCGCAGATCGGCCAAAGCTACCTGCCAGATGGCATTGGCTTTGGCATCGGCGTTGTCGGCATGGCGGCGTTCATTATCTGGCAGTGGCGCGGACGGATGCGTCGGCAGGCGTTAGGTCTGGCGACCGCATCCTCCACCGCGGCCGTTGGCCGCCAGGCCATTACCGCGGTGATTGTGCTGGGCGCAATCTGGCTGCTCAATGACTATCGCGGCGTGCCGACGCCGGTACTGATCCTCGCCGCCCTGCTGCTGGCAGGCCTGTTCATGGCCACTCGCACCGCCTTTGGCCGCCGCATCTACGCCATCGGCGGCAACCTGGAGGCGGCACGTCTGTCCGGGATTAACGTCGAGCGTACCAAGCTGGCGGTGTTTGCCATTAACGGCCTGATGGTCGCCATTGCCGGACTGATCCTCAGCTCGCGCCTTGGCGCGGGCTCCCCCTCGGCGGGCAACATCGCCGAACTGGACGCCATCGCCGCCTGCGTCATCGGCGGTACCAGCCTGGCGGGCGGTATCGGCAGTGTCGCCGGGGCGGTAATGGGGGCGTTTATTATGTCGGCCCTGGATAACGGCATGAGCATGATGGACGTCGCCACCTTCTGGCAATATATCGTCAAAGGCGCCATTTTGCTGCTGGCGGTGTGGATGGACTCCGCCACCAAGCGGCGCGCGTAA	MSKNTSSEIKLTPTAPTALPALKGLNLQVFVMIAAIVVIMLFFTWVTDGAYLSARNISNLLRQTAITGILAVGMVFVIISAEIDLSVGSMMGLLGGAAAIFDVWLGWPLPLTILVTLVMGLLLGAWNGWWVAYRKVPSFIVTLAGMLAFRGILIGITNGTTVSPTSPAMAQIGQSYLPDGIGFGIGVVGMAAFIIWQWRGRMRRQALGLATASSTAAVGRQAITAVIVLGAIWLLNDYRGVPTPVLILAALLLAGLFMATRTAFGRRIYAIGGNLEAARLSGINVERTKLAVFAINGLMVAIAGLILSSRLGAGSPSAGNIAELDAIAACVIGGTSLAGGIGSVAGAVMGAFIMSALDNGMSMMDVATFWQYIVKGAILLLAVWMDSATKRRA	PGPT0016655_792	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_XYLOSE_TRANSPORT_I,PGPT0016655-xylH-K10544	NA	NA
BMS020_03174	1179	xylR		Xylose operon regulatory protein	ATGTTTGAAAAGCGTCACCGTATTACGCTGTTATTTAACGCCAACAAAGCTTATGACCGCCAGGTGGTTGAGGGTGTCGGCGAGTATCTGCAGGCCTCTCAGCTGGAGTGGGATATCTTTATTGAAGAGGATTTTCGGGCACGAATCGAAAACATCAAAGAGTGGCTAGGCGATGGCGTTATCGCCGACTATGACGATCCCGAAATCGAAAAGCTACTGGCCGATGTCAACGTCCCCATCGTCGGCGTCGGCGGCTCTTATCATCAGCCAGAGCAGTACCCGCCGGTCCACTATATCGCCACGGACAACACCGCGCTGGTGGAAAGCGCCTTTCTTCATCTGAAGGAAAAAGGGGTACACCGCTTCGCGTTTTACGGACTGCCCACCTCCAGCGGTAAACGCTGGGCGGTAGAGCGCGAGTATGCCTTCTGCCAGCTGGTGGCGAAGGAGAAGTACCGCGGCGTGGTCTACCAGGGGCTGGAGACGGCGCCGGAAAACTGGCAGCACGCGCAAAACCGGCTCGCCGACTGGCTGCAAACGCTGCCGCCGCAAACCGGCATTATCGCCGTCACCGACGCGCGCGCCCGCCACGTCCTGCAGGCCTGCGAGCTGCTGCATATCCCGGTGCCCGAGAAACTGTGCGTTATTGGCATCGATAATGAGGAGCTGACCCGCTACCTCTCGCGCGTCGCCCTCTCCTCCGTCGCCCAGGGCACCCGCCAGATGGGTTATCAGGCGGCAAAATTGCTCCACCGGCTGCTGAATAACGAGGCGCTCCCGCTGCAGCGCCAGCTGATCCCGCCGATGCGCGTCGTTGAACGACGTTCCACCGACTACCGGTCGTTAAACGATCCTTCCGTGATTCAGGCGATGCATTACATTCGCAACAACGCCTGCAAAGGCATCAAGGTGGAGCAGGTGCTCGACGCCGTCGGCATTTCACGTTCCAACCTGGAGAAACGCTTTAAAGAGGAGGTCGGGGAGACCATCCACACGGTGATCCACAGCGAGAAACTGGAAAAGGCGCGCAGCCTGCTGGTATCCACCAGCCTGTCGATCAATGAAATTTCACAGATGTGCGGCTACCCGTCGCTGCAATATTTCTATTCGGTGTTTAAGAAAGAGTACGACGTGACGCCGAAGGAGTACCGTGACCGGCACAGTGAAGTCATGATGTAG	MFEKRHRITLLFNANKAYDRQVVEGVGEYLQASQLEWDIFIEEDFRARIENIKEWLGDGVIADYDDPEIEKLLADVNVPIVGVGGSYHQPEQYPPVHYIATDNTALVESAFLHLKEKGVHRFAFYGLPTSSGKRWAVEREYAFCQLVAKEKYRGVVYQGLETAPENWQHAQNRLADWLQTLPPQTGIIAVTDARARHVLQACELLHIPVPEKLCVIGIDNEELTRYLSRVALSSVAQGTRQMGYQAAKLLHRLLNNEALPLQRQLIPPMRVVERRSTDYRSLNDPSVIQAMHYIRNNACKGIKVEQVLDAVGISRSNLEKRFKEEVGETIHTVIHSEKLEKARSLLVSTSLSINEISQMCGYPSLQYFYSVFKKEYDVTPKEYRDRHSEVMM	PGPT0017992_393	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
BMS020_03175	564			hypothetical protein	ATGCCTTATATTACCAAGCAGAATCAGGCGATTACTGCGGATCGTAACTGGCTTGTATCCAAGCAGTACGATGCTCGCTGGTCGCCGAGCGAAAAGGCGCGCCTGAAAGACATCGCGACACGTTATAAGGTGAAGTGGTCAGGTAATACGCGTCATGTGCCCTGGAACACGCTGCTTGAGCGTGTCGACATTATTCCGAACAGCATGGTCGCGACCATGGCGGCGGCGGAAAGTGGCTGGGGTACTTCCAAGCTGGCGCGTGAGAACAACAATCTGTTCGGCATGAAGTGCGGCGCTGGTCGCTGCCGCGGCGCGATGAAAGGCTACTCGCAGTTTGAGTCGGTGGAGCAGTCGGTGCAGGCTTACGTCACAAACCTGAACACTCACCCGGCCTATTCCTCTTTCCGCAAATCGCGCCTGCAGCTGCGCAAGGCGGATCAGGAAGTAACGGCCAGCACCATGATTCATAAGCTGAAGGGCTATTCGACCAGAGGGTCGAGCTACAACAACTATCTCTTCGCGATGTATCAGGATAACCAGCGGTTAATTGCCGCGCACATGTAA	MPYITKQNQAITADRNWLVSKQYDARWSPSEKARLKDIATRYKVKWSGNTRHVPWNTLLERVDIIPNSMVATMAAAESGWGTSKLARENNNLFGMKCGAGRCRGAMKGYSQFESVEQSVQAYVTNLNTHPAYSSFRKSRLQLRKADQEVTASTMIHKLKGYSTRGSSYNNYLFAMYQDNQRLIAAHM				NA	NA	NA	NA	NA
BMS020_03176	2034	malS	COG0366	Periplasmic alpha-amylase	ATGAAACTCGCTGCGCTTGCCACGTTATTCGTGCCTGGGATGGCCTTTGCCGCCTGGACTACCGCCGACTTCCCTGCTTTTACCGAAGAAGGGACGGGTCGCTTCATCAGCCAGAAAGTGGTTGAGAAGGGTACACGTCCCCTGCAGCTAAATTTTGACCAACAGTGCTGGCAGCCTTCCGGCGGCATTAAGCTCAACCAGATGCTCTCCATGGAACCCTGTCGCGGCACGCCGCCGCAATGGCGCATCTTCCGCCAGGGTCTGTATACCCTGGAAGTGGATACCCGCTCCGGCACGCCGACGATGATGATTTCGCTGGAAGAAAAAGAGGCCAGCGCCGCGGCGCCGCAGATCCGCCAGTGTCCGAAGTGGGATGGAAAACCTCTCACCCTCGACGTCAGTAAAACCTTCCCCGAGGGCAGCAAAGTTCGCGATTTCTACAGCGGCAATGTCGCGACCGTCAGCGGCGGCAAAATCACGCTGCAGCCCGCCTTCGGCAGCAATGGTCTGCTGCTGCTCGAGCGCGCCGAGACGGCCGCGCCGGCGCCGTTCGACTGGCACAACGCCACCGTCTACTTCGTCCTGACCGACCGCTTCGTGAACGGTAATCCGGCCAACGACAATAGCTATGGCCGACACAAAGACGGCATGCAGGAGATCGGCACCTTCCACGGCGGCGACCTGCAGGGATTAACCAGCAAGCTGGATTATCTGCAGCAGATGGGGGTCAATGCCCTGTGGATCAGCTCCCCGCTCGAGCAGATCCACGGCTGGGTCGGCGGCGGGACGAAAGGCGATTTTCCACACTACGCCTACCACGGCTATTACACCCAGGACTGGTCGAAACTGGACGCCAATATGGGGACCGAAGCCGATCTCCGTCGGCTGGTGGATGAAGCGCATAAGCGCGGAATACGTATTCTGTTCGACGTGGTGATGAACCATACCGGTTACGCCACCCTGGCCGACATGCAGGAGTTCCAGTTCGGCTCTCTGTATCTGCAAGGGGATGAGCTGAAAAAAACCCTCGGCGAGCGCTGGACGGACTGGAAGCCCGGCGCGGGCCAGACCTGGCACAGCTTTAACGACTATATCAACTTCAGCGATAAAGCCGGGTGGGAGAAATGGTGGGGCAAGAAGTGGATCCGCACCGATATCGGCGATTACGACAACCCGGGCTATGACGATCTCACCATGTCACTGGCCTTCCTGCCGGATCTGAAAACCGAATCGAAGGAGGCGTCGGGCCTGCCGAACTTCTACAGCCATAAACCGGACACTGCGGCGAAAGCGATCCCGGGCTATACGCCGCGCGACTACCTGACGCACTGGCTGAGCCAGTGGGTGCGCGACTACGGCATCGACGGCTTCCGCGTCGATACCGCTAAACATGTGGAGATGGACGCCTGGCAGCAGTTAAAAACCCAGGCCACCGCCGCGCTGGCGGAGTGGAAGAAAGCCAATCCGGATAAAGCGCTGGATGCGGCGCCGTTCTGGATGACCGGCGAAGCCTGGGGACACGGGGTGATGGAGAGCGATTACTATCGCCACGGTTTTGATGCGATGATCAATTTCGACTACCAGGACCAGGCGGCGAAAGCGGCTAACTGCATGGCCAATATTGACCTCACCTGGCAGCAAATGGCGGACAAGCTGCAGAGCTTTAACGTCCTGAGCTACCTCTCCTCGCACGATACGCGCCTGTTCCGCGAAGGCGGCACCACGGCGGCAGAGCTGCTGCTGCTGGCCCCTGGCGCCGTGCAGATCTTCTATGGTGACGAGTCGTCGCGCCCGTTCGGCCCCACCGGCTCGGACCCGCTGCAGGGCACCCGTTCAGAGATGAACTGGCAGGATGTCAACGGTAAAGCGGCCCGCAGCGTTACCCACTGGCAGAAGATCGGCCAGTTCCGCGCGCGCCATCCGGCGATCGGTATGGGCAAACAGACAACGCTGTCGATGCCGCGGGGTTACGGATTCGTGCGCGAGAGCGGTGAAGACAAAGTGATGGTCATCTGGGCCGGACAACAGCAGTAA	MKLAALATLFVPGMAFAAWTTADFPAFTEEGTGRFISQKVVEKGTRPLQLNFDQQCWQPSGGIKLNQMLSMEPCRGTPPQWRIFRQGLYTLEVDTRSGTPTMMISLEEKEASAAAPQIRQCPKWDGKPLTLDVSKTFPEGSKVRDFYSGNVATVSGGKITLQPAFGSNGLLLLERAETAAPAPFDWHNATVYFVLTDRFVNGNPANDNSYGRHKDGMQEIGTFHGGDLQGLTSKLDYLQQMGVNALWISSPLEQIHGWVGGGTKGDFPHYAYHGYYTQDWSKLDANMGTEADLRRLVDEAHKRGIRILFDVVMNHTGYATLADMQEFQFGSLYLQGDELKKTLGERWTDWKPGAGQTWHSFNDYINFSDKAGWEKWWGKKWIRTDIGDYDNPGYDDLTMSLAFLPDLKTESKEASGLPNFYSHKPDTAAKAIPGYTPRDYLTHWLSQWVRDYGIDGFRVDTAKHVEMDAWQQLKTQATAALAEWKKANPDKALDAAPFWMTGEAWGHGVMESDYYRHGFDAMINFDYQDQAAKAANCMANIDLTWQQMADKLQSFNVLSYLSSHDTRLFREGGTTAAELLLLAPGAVQIFYGDESSRPFGPTGSDPLQGTRSEMNWQDVNGKAARSVTHWQKIGQFRARHPAIGMGKQTTLSMPRGYGFVRESGEDKVMVIWAGQQQ	PGPT0018575_620	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0018575-amyA|malS-K01176	NA	NA
BMS020_03177	1257	avtA	COG3977	Valine--pyruvate aminotransferase	ATGACATTTTCCCTTTTCGGCGACAAATTCACCCGTCATTCAGGCATTACCCGCCTGATGGAAGACCTTAATGACGGTCTGCGCACGCCGGGCGCTATTATGCTGGGCGGCGGCAACCCCGCTCAGATCCCGGAGATGAATGACTACTTCCAGCGGCTGCTCTCCGACATGCTGGATAATGGCAAAGCCCTTGATGCGCTTTGTAATTATGATGGTCCGCAGGGCAAAAGCGAGCTGCTGAGCCTGCTGGCGAAGATGCTGCGCGACGAGCTGGGCTGGGAGATCGAACCACAGAATATTGCGCTAACAAATGGCAGTCAGAGCGCATTTTTCTACTTGTTTAATCTGTTCGCAGGCCGTCGGGCAGATGGCACCACCCGTAAGGTGCTGTTCCCGCTGACGCCGGAATATATCGGCTATGCCGATGCCGGCCTGGAAGAGGATCTGTTCGTTGCCACCCGGCCGAATATCGAACTGCTGCCGGAAGGCCAGTTCAAGTACCACGTTGATTTTGAGCATCTGCAGGTGACGGAAGAGACCGGGATGATCTGCGTCTCGCGTCCCACCAACCCGACCGGCAACGTCATCACTGATGAAGAGCTGATCAAACTGGATGCGCTGGCGAATCAGCATGGGGTCCCGCTGGTGATTGATAACGCCTACGGCGTGCCGTTCCCGGGCATTATTTTCAGCGACGCCCGACCGCTGTGGAATCCGAACATCGTGCTGTGTATGAGCCTGTCCAAGCTGGGCCTGCCGGGCAGCCGCTGCGGGATTATCATCGCCAACGAGAAAATCATCACCGCCATCAGCAACATGAACGGCATTATCAGCCTCGCGCCCGGCGGTATCGGGCCGGCAATGATGTGTGAAATGATTAAACGTCAGGATCTGCTGCGCCTGTCAGAGACAGTGATCAAACCCTTCTATTACCAGCGGGTGCAGGAGACCATCGCCATTATTCGCCGCTATTTGCCGGAGGAGCGCTGCCTTATTCACAAACCGGAGGGGGCGATCTTCCTCTGGCTGTGGTTTAAGGATCTGCCGATCTCCACCGAGCTGCTGTATCAGCGGCTGAAAAAGCGCGGCGTGCTGATGGTGCCGGGGGATTTCTTCTTCCCGGGACTCGATAAACCGTGGCCGCATACCCACCAGTGCATGCGCATGAACTATGTGCCGGACCCGCAAAAAATCGAGGCCGGGGTGAAAATTCTCGCCGAAGAGGTTGAATTCGCCTGGCGCGAACAGGAAGCCTAA	MTFSLFGDKFTRHSGITRLMEDLNDGLRTPGAIMLGGGNPAQIPEMNDYFQRLLSDMLDNGKALDALCNYDGPQGKSELLSLLAKMLRDELGWEIEPQNIALTNGSQSAFFYLFNLFAGRRADGTTRKVLFPLTPEYIGYADAGLEEDLFVATRPNIELLPEGQFKYHVDFEHLQVTEETGMICVSRPTNPTGNVITDEELIKLDALANQHGVPLVIDNAYGVPFPGIIFSDARPLWNPNIVLCMSLSKLGLPGSRCGIIIANEKIITAISNMNGIISLAPGGIGPAMMCEMIKRQDLLRLSETVIKPFYYQRVQETIAIIRRYLPEERCLIHKPEGAIFLWLWFKDLPISTELLYQRLKKRGVLMVPGDFFFPGLDKPWPHTHQCMRMNYVPDPQKIEAGVKILAEEVEFAWREQEA	PGPT0001885_234	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_VALINE_DEGRADATION,PGPT0001885-actA-K00835	NA	NA
BMS020_03178	486	hyfA_2	COG1142	Hydrogenase-4 component A	ATGAACCGGTTTCTTATTGCCAATGCCCAGCAGTGTATTGGCTGTCGTACCTGTGAAGTGGCCTGCGCGGTGGCGCACCAGCAGGCGCAGGATGTCTCCATGCTGTCGACAGGCCATTTCACGCCGCGTATCCGGGTGGTGAAAAGCGGCGAGATATCAACGGCGACGGCCTGTCGGCAGTGCGAGGATGCGCCTTGCGCCAGCGTCTGCCCGCAGGGGGCGATTCGTCGGGAGGAGGACGTCTGGTGGGTCGATCAGCGCCGCTGCATCGGCTGTAAAAGCTGCATGGTGGCCTGCCCGTACGGCGCAATGACCGTCACGGTGGTGAACCAGCAGGCGCAGGCGCTGAAATGCGATTTATGTCACCACCGCGCCGAGGGGCCGGCCTGCGTAGCCGCCTGCCCGACGCAGGCGCTGCGGGTGATGGCTCCCGCGGAGCTGGAGGCGCTATGCGCGCAAAAACGCCAGCGGCTGGCGCTGGCGTGA	MNRFLIANAQQCIGCRTCEVACAVAHQQAQDVSMLSTGHFTPRIRVVKSGEISTATACRQCEDAPCASVCPQGAIRREEDVWWVDQRRCIGCKSCMVACPYGAMTVTVVNQQAQALKCDLCHHRAEGPACVAACPTQALRVMAPAELEALCAQKRQRLALA	PGPT0001225_161	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-ALTERNATIVE_PAHTWAYS	CO2_FIXATION-WOOD-LJUNGDAHL_PATHWAY,PGPT0001225-cooF|porE|porF-K00196	NA	NA
BMS020_03179	801	rhaR_3		HTH-type transcriptional activator RhaR	ATGCCTCTCCCGATTCGCGTACAAAATGGCGGCTTATTTATTTCCCGTGGCGTCGGCAGTCATCCGGCACGTAAACTGCAGTCCTGGGAAATTATTTTTGTCGAAAAGGGGACGTTAACGATTTGCGAGGAGGGTGAAATATTTAACGTTAATGCAGGGGAGAGTTTACTGCTGTGGCCAGAACGTTCTCATGTTGGGGTGGGGGAATTTCCCGCCGACCTGAAATTTTATTGGCTGCATTTTGAAGTACTGACGGAGAGTGTCCGGTCTCTGCCGCCTGCGCTGCTTAACGTTCCGCAACATACCCGCGTCAGCGATCCACAATACATTATTTCGCTGTTTCGCCAGTTTCTTCGTGAACAGGAGAATATTCACCGCAGCCTGGCGCTGGAGCTCCTGTTATTGCTGATACTGCAGCAGATTGCCGCGGCGGCAAGCGAAAAACCGGACGACAGTCCCGGCGCTGCGCTGGCCTGGAAAGCGCAGCAGATCATCCATACCCGTTACCACTTGCCTGTTTCAGCATCGACGTTGGCGAAAGAGCTGCACTGTAATGCGGACTATTTAGGACGCGTCTATCGTCACGTTTTTCGCGTGACGTTGACCGAAGCGCTGCATCGTCAGCGGGTCAGAGCGGCGGAAAAGCTATTGATCAGTGATTCACTGTCGTTGACCGAAGTCGCGAGCCAGTGCGGCTTTAATGACGTCGGTTATTTTCGCAAGATCTTTCGCAAGCACACCAGCCTCACGCCTGCAGCCTGGAAGCGCCGCTACTGTAAGGAGCACATTAATTCAGCGTAA	MPLPIRVQNGGLFISRGVGSHPARKLQSWEIIFVEKGTLTICEEGEIFNVNAGESLLLWPERSHVGVGEFPADLKFYWLHFEVLTESVRSLPPALLNVPQHTRVSDPQYIISLFRQFLREQENIHRSLALELLLLLILQQIAAAASEKPDDSPGAALAWKAQQIIHTRYHLPVSASTLAKELHCNADYLGRVYRHVFRVTLTEALHRQRVRAAEKLLISDSLSLTEVASQCGFNDVGYFRKIFRKHTSLTPAAWKRRYCKEHINSA	PGPT0014658_38	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA	NA	NA
BMS020_03180	1401	yicJ_1	COG2211	Inner membrane symporter YicJ	ATGACTACGGCTCCGATTACGACAAGCGACCTCACGAAGCACGTGCAGGACGCCAAATTATCTCTCCGTGAAAAAATAGGCTATGGTCTGGGCGACGCCGGTGGAACGGTCATCACCTGCCTGATCATGAACTTTCTCACTTTTTTCTATACTGACGTCTTTGGGCTCACCCCGGCGCTGGTCGGTACTCTGTTCCTTGCGCTGCGCGTGTTTGATGCTATTTCCGATCCGATCATGGGCGTCCTCGCCGATCGGACCCAAAGCCGATGGGGACGTTTTCGCCCCTGGCAGCTATGGATTGCGGTTCCTATTGCAGCGATCGGGGTGCTGACCTTTACCGTGCCGGATGCCGGCATGGGGGTAAAAATCGCCTGGGCCTTCGGCACTTACCTGCTGCTTTCAGTCAGCTATACCGCGATTAACGTCCCCTACTGCGCGCTCATTAATACGATGACCACTCGCCATAGCGAGGTGATATCCTGCCAGGCATGGCGCTTTGTACTGTGCGGCGTGGCAGGATTCCTGGTCTCCGTGGGCCTGCCGTGGTTGGTTAAAGCGCTCGGTCAGGGGAATACCGCCCAGGGTTATCAGTATGGTGTCGGCGTACTCTGCGCCATCGCGGCGGTGATGTTTTTGTGCTGCTTTTTCTGGGTACGTGAGCGTGTTTCCCTGGAGATGCTCGGCAAATTCACCCTGCGCGAACATATCGCCGGTCTGCGTAAAAACGATCAGTTGTTACTCATGCTGGCGATGTCATTCCTGTTGATCAACGTGTTTAACATTCGCGGTGGCGGCTACATGTACTTTATTACCTATGTACTGGGCGGCTCTACTGGCTATACATCGCTGTTTTTCACCATGGTCACCTTTTCCTCGATTCTGGGCGCCGCGATCGTCAATTGGCTGTCGCGCCACGTTGATACCGTCAAGCTCTATTACTACACCAATCTGGTATTGGCCTTACTGGCGGTGGGGATGTGGTTCCTGCCAACCGGTCCGTCCTGGCAAACGCTATGGCTGGTGGTCATTCTCGGCAATGGCATCATCCTGGGCTTTACCCTACCGCTGCATTTTTCGTTGATGGCCTTCTCTGATGATTATGGTGAATGGAAGACGGGTGTCCGTTCGTCAGGGATGAACTTTGCTTTCAACCTGTTCTTTATCAAGCTGGCATGGGCCTCCAGTGCGGGCATTATCAGCCTGGTATTTATCTACGTTGCTTATCAACCCGGCGCCAGCAACCAGACTCCATCCTCACTATCGGGGATCACGGCGATGGAAACCCTGCTGCCCGCGCTGTTCCATCTGTTGCTGGCCTTCGCTATCCGCGCCTGTAAGCTCAACAATCCCATGATGTCGCGCATTGCAACCGATCTGCGCGCACGTCACATTCAGTCTTAA	MTTAPITTSDLTKHVQDAKLSLREKIGYGLGDAGGTVITCLIMNFLTFFYTDVFGLTPALVGTLFLALRVFDAISDPIMGVLADRTQSRWGRFRPWQLWIAVPIAAIGVLTFTVPDAGMGVKIAWAFGTYLLLSVSYTAINVPYCALINTMTTRHSEVISCQAWRFVLCGVAGFLVSVGLPWLVKALGQGNTAQGYQYGVGVLCAIAAVMFLCCFFWVRERVSLEMLGKFTLREHIAGLRKNDQLLLMLAMSFLLINVFNIRGGGYMYFITYVLGGSTGYTSLFFTMVTFSSILGAAIVNWLSRHVDTVKLYYYTNLVLALLAVGMWFLPTGPSWQTLWLVVILGNGIILGFTLPLHFSLMAFSDDYGEWKTGVRSSGMNFAFNLFFIKLAWASSAGIISLVFIYVAYQPGASNQTPSSLSGITAMETLLPALFHLLLAFAIRACKLNNPMMSRIATDLRARHIQS	PGPT0014410_1387	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
BMS020_03181	1950	hypBA1		Non-reducing end beta-L-arabinofuranosidase	ATGGAAGTCGATCTGCACAAACTGAAAGTTAACGATCCGTTTCTGGGTCAGTATCAGCAACTGGTGCGTGATGTCGTCATTCCCTATCAGTGGGATGCCCTCAATGACCGGATCGCCGAGGCTGAACCCAGCCATGCGATAGAAAACTTCCGTATCGCCGCAGGTCAGCAGGCAGGGGAATTCTACGGAATGGTGTTCCAGGACAGCGATGTGGCGAAATGGCTGGAGGCAGTCGCCTGGTCATTGTGTCAGAAGCCAGATGCGGAACTGGAAAAAACCGCCGACGAGGTGATTGAGCTGATTGCCGCCGCGCAATGTGAAGATGGTTATCTGAACACCTATTTTACGGTGAAAGCGCCCGGGGAACGCTGGACCAATCTCGCCGAATGCCATGAATTGTACTGTGCCGGTCACTTGATTGAGGCTGGGGTGGCATTCTTCCAGGCAACCAGTAAACGCCGCCTGCTGGAGGTGGTATGTCGCCTCGCCGATCATATCGACAGCGTCTTTGGTCCGGACGGCAATCAGCTGCACGGCTACCCGGGACACCCTGAAATAGAGCTGGCGTTAATGCGTTTGTACGATGTGACTCAGGAACCACGCTATATGGCGCTGGCTAATTACTTCGTTGAACAGCGTGGGACACAGCCGCATTTCTATGACATCGAATATGAAAAACGCGGCAAAACCTCCTTCTGGAATACCTATGGGCCGGCGTGGATGGTGATGGATAAACCCTACAGCCAGGCGCATTTGCCGCTTGCCGAACAGACCACCGCTGTGGGTCACGCGGTTCGCTTTGTTTATTTAATGGCCGGCGTAGCGCACCTTGCACGCCTGAGCAAGAACGAAGGCAAACGCCAGGACTGCCTGCGGTTATGGAAAAACATGGTCCAGCGTCAGTTGTATATTACGGGCGGCATTGGCTCACAGAGCAGCGGGGAAGCCTTCAGCAGCGATTACGATCTGCCGAATGATACCGTTTATGCGGAAAGCTGCGCCTCTATCGGGCTGATGATGTTCGCGCGCCGCATGCTGGAACTGGAAGCCGACAGCCAATATGCTGATGTGATGGAGCGCGCGCTTTACAATACCGTTCTGGGCGGTATGGCGATGGACGGTAAACATTTCTTCTACGTCAACCCACTGGAAGTGCAGCCCAAGGCTTTAAAATTCAATCATATTTATGACCATGTTAAGCCTGTTCGTCAGCGCTGGTTCGGCTGTGCCTGTTGCCCACCGAATATCGCTCGTCTCCTGACCTCGCTGGGACATTATATCTATACGCCACGCGAAGAGGCGTTGTATATCAATCTCTACGTCGGTAATCAGGCTGAGATCCCGGTAGGAGAAAAGACGTTACGTCTGCGTATCAGCGGTGACTATCCCTGGCAGGAACAGGTCAAAATTGTCATCGAGTCTCCGTCAGCATTGAACCATACGCTGGCGCTGCGTCTCCCGGACTGGTGCGAGGGGGCACAGCTCACCCTGAACGGCGCGCCGGTCACGCAGGATATACGCCAGGGCTATCTGCATATCCAACATCTCTGGCAGGAAGGCGACACCCTGATGCTAACGTTGCCGATGCCGGTTCGCCGGGTATATGGTAATCCGCTGGTTCGCCACCAGGCAGGCCAGGTGGCGCTGCAACGCGGTCCACTGGTTTATTGTCTTGAACAAGCTGATAACGGTGAGGCGCTGCATAACCTACTGCTGCCACGCGATGCCAGGTTCACGGTGTTTGAAGGAAAGGGGCTGTTTGCTCACAAAATGTTGATTCAGGCCCCAGGCTATAGAAAACATGCAGAAAACGCCGATGCGCAGAAGCTGTGGAGCTACGATCACCCTCTGGCCACCCCCCATTCACAGACGTTGACCTTTATTCCCTGGTTTAGCTGGGCAAACCGCGGAGAAGGCGAAATGCGTATCTGGGTTCGGGAAGCCGAATAA	MEVDLHKLKVNDPFLGQYQQLVRDVVIPYQWDALNDRIAEAEPSHAIENFRIAAGQQAGEFYGMVFQDSDVAKWLEAVAWSLCQKPDAELEKTADEVIELIAAAQCEDGYLNTYFTVKAPGERWTNLAECHELYCAGHLIEAGVAFFQATSKRRLLEVVCRLADHIDSVFGPDGNQLHGYPGHPEIELALMRLYDVTQEPRYMALANYFVEQRGTQPHFYDIEYEKRGKTSFWNTYGPAWMVMDKPYSQAHLPLAEQTTAVGHAVRFVYLMAGVAHLARLSKNEGKRQDCLRLWKNMVQRQLYITGGIGSQSSGEAFSSDYDLPNDTVYAESCASIGLMMFARRMLELEADSQYADVMERALYNTVLGGMAMDGKHFFYVNPLEVQPKALKFNHIYDHVKPVRQRWFGCACCPPNIARLLTSLGHYIYTPREEALYINLYVGNQAEIPVGEKTLRLRISGDYPWQEQVKIVIESPSALNHTLALRLPDWCEGAQLTLNGAPVTQDIRQGYLHIQHLWQEGDTLMLTLPMPVRRVYGNPLVRHQAGQVALQRGPLVYCLEQADNGEALHNLLLPRDARFTVFEGKGLFAHKMLIQAPGYRKHAENADAQKLWSYDHPLATPHSQTLTFIPWFSWANRGEGEMRIWVREAE	PGPT0019100_1263	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
BMS020_03182	1842	selB	COG3276	Selenocysteine-specific elongation factor	ATGATTATTGCCACCGCTGGACATGTTGACCACGGCAAAACGACGCTGCTGCAGGCGATAACCGGCGTGAATGCCGATCGTCTGCCGGAAGAGAAAGCGCGGGGAATGACGATCGATCTCGGCTATGCCTACTGGCCGCAGCCGGACGGGCGGGTGCTGGGATTTATTGACGTGCCCGGGCACGAAAAGTTTTTGTCCAACATGCTGGCGGGGGTGGGAGGGATCGACCATGCGCTGCTGGTGGTGGCCTGCGATGACGGCGTGATGGCGCAAACCCGCGAACACCTGGCGATCCTGCAGCTGACCGGAAAGCCGACGCTGACGGTAGCGCTCACCAAGACGGACCGCGTGGCGGCCGCCAGGGTGGCGGAGGTTCAGGCGGAGGTCGAGCAGACCCTGCGCGAACTGGGCTTTGACGCCGCCGCTTTCTTCCCCACCGCGGCGGTGGATAACATCGGTATTGCCGAACTGCGCAGCCATCTGCTGCAGCTTGCGGAGCGCCCCCATCCACAGCAGCGGCGTTTTCGCCTGGCGCTGGATCGCGCCTTTACCGTCAAAGGGGCGGGGCTGGTGGTCACCGGGACGGCGCTCTCCGGCGAAGTTCGGGTCGGGGATACTTTGTGGCTCACCGGCGTCAACACGCCGATGCGCGTCCGCGGCCTGCATGCCCAGAATCAAGCGGTTGAGCAGGCGCACGCCGGGCAGCGCATTGCGCTGAATATTGTCGGTGATGCGCAGAAAGGTGCATTGCACCGCGGCGACTGGCTGCTCTCCTCACCGCCGCCGGAGCCTGCAGAGCGGGTGATTGTCGAACTGCAGTGCCATACGCCGCTCAGCCAGTGGCAGCCGCTGCATATTCACCACGCTGCCAGCCACATCACCGGCCGGGTGTCGCTCCTGGAGGGCGGCCTGGCGGAGCTGGTGCTGGATACTCCGCTGTGGCTGGCGGATAACGACCGGCTGGTGCTCCGCGATATCTCCGCTCGCTTGACGCTGGCCGGCGCACGGGTGGTGACGCTGGATCCCCCGCGCCGCGGCAAGCGTAAACCGGAGTATCTGCAGTGGCTGCACGCCCTGGCGGCGGTCGGCGCTGACGATGCGCAGGCCCTGGAGCTGCATCTGCAGCGGGACGCCGTCCGGCTTGAGCGCTTCGCCTGGGCGCGGCAGCTGAGTGAAGCCGGAATGGCGGCCTTGATCCAGCGACCGGACTATCTGCAGGCCGGACAGCGCCTGCTTAGTGCGCCGCTTGCCGCCCGCTGGCAGCGAAAATTGCTGGATGCCCTGGCGCGCTACCATGAGCAGCATCGCGACGAGCCGGGCCCTGGCCGGGAGCGCCTGCGCCGCATTGCGCTGCCGATGGAAGAGGAAGCGCTGGTGCTGCTGCTGATTGAGCAGATGCGCGAGAGCGGATTAGTCCACAGCCATCACGGCTGGCTGCATCTGCCCGAGCATAAAGCCGGGTTTACCGACGAGCAGCAGGCGGTCTGGCGGAAGGTGGAGACCCTGTTCGGCGATGATCCCTGGTGGGTGCGCGATCTCGCGCGCGAAGTCCATGTTGAAGAGTCCCTGATGCGAGCGGTGCTGCGCCAGGCGGCGCAGCAGGGGATGATTACCGCGATCGTCAAAGATCGTTACTACCGCAACGATCGCATTGTGCAGTTCGCCCAGCGGGTGCGCGAGCTGGATCAGCTGCGCGGCTCAACCTGCGCGGCGGATTTTCGCGATACCTTAAACGTAGGGCGGAAGCTGGCGATCCAGATCCTCGAGTATTTCGATCGGATTGGCTACACCCGTCGTCGCGGCAACGATCATATCCTGCGCGATAAAGCATTGTTTCTTTAA	MIIATAGHVDHGKTTLLQAITGVNADRLPEEKARGMTIDLGYAYWPQPDGRVLGFIDVPGHEKFLSNMLAGVGGIDHALLVVACDDGVMAQTREHLAILQLTGKPTLTVALTKTDRVAAARVAEVQAEVEQTLRELGFDAAAFFPTAAVDNIGIAELRSHLLQLAERPHPQQRRFRLALDRAFTVKGAGLVVTGTALSGEVRVGDTLWLTGVNTPMRVRGLHAQNQAVEQAHAGQRIALNIVGDAQKGALHRGDWLLSSPPPEPAERVIVELQCHTPLSQWQPLHIHHAASHITGRVSLLEGGLAELVLDTPLWLADNDRLVLRDISARLTLAGARVVTLDPPRRGKRKPEYLQWLHALAAVGADDAQALELHLQRDAVRLERFAWARQLSEAGMAALIQRPDYLQAGQRLLSAPLAARWQRKLLDALARYHEQHRDEPGPGRERLRRIALPMEEEALVLLLIEQMRESGLVHSHHGWLHLPEHKAGFTDEQQAVWRKVETLFGDDPWWVRDLAREVHVEESLMRAVLRQAAQQGMITAIVKDRYYRNDRIVQFAQRVRELDQLRGSTCAADFRDTLNVGRKLAIQILEYFDRIGYTRRRGNDHILRDKALFL	PGPT0004825_1040	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004825-selB-K03833	NA	NA
BMS020_03183	1389	selA	COG1921	L-seryl-tRNA(Sec) selenium transferase	ATGACTACCGAAATTCGTGCGCTTTATACCCGGCTTCCGGCCATTGACCGCTTACTCCGCGACCCCGCTTTTTCCTCCCTGCTGACGCAGCACGGCCATTCGCAGGTGGTGACGCAGCTGCGCCAGATGCTGGACGAGGCGCGGGAACAGATCCGCCAGTGTCAGACACTGCCTGACTGGAGCCATGACTGGCTGAGCGCCTGCGCGCAGCGGCTGACCGCCAGAAGGCAGAGCGCCCTGCGTCCGGTGTTTAATCTCACCGGTACGGTGCTGCACACCAATCTCGGGCGCGCCATCCAGGCTGAGGCGGCGGTGGAGGCGGTCGCCAGCGCGATGCGCGCGCCGGTGACGCTCGAATATGATCTCGACGACGCCGGGCGTGGCCATCGCGATCGCGCCATTGCCGATCTGCTGTGCCAGATCACCGGCGCGGAAGATGCCTGTATCGTGAACAACAACGCGGCGGCCGTTCTGCTGATGCTGGCGGCTACCGCCAGCGGCAGGGAGGTGGTGGTCTCCCGCGGCGAGCTGGTGGAGATCGGCGGGGCGTTCCGCATCCCCGACGTGATGCGCCAGGCGGGTTGTCAGCTGCACGAAGTGGGCACCACCAACCGCACCCATGCCAAAGACTATCGCCAGGCGGTGAATGACAATACCGCCCTGCTGATGAAGGTCCACACCAGCAACTACAGCATTGAAGGCTTTACCAAAGCCGTCGACGAAGCGGAGCTGGCGGTCATCGGCCGCGAGCTGGACGTCCCGGTGGTGGCCGACCTGGGGAGCGGGTCGCTGGTGGATCTCAGTCAGTATGGCCTGCCCAAGGAGCCGATGCCGCAGGAGATGATCGCCGCCGGGGTGAGCCTGGTCAGTTTCTCCGGCGACAAACTGCTTGGCGGCCCGCAGGCCGGAATTATCGTCGGCAAACGCGCGCTGATTGCCCGCCTGCAAAGCCATCCGCTGAAGCGGGCCCTGCGCGCGGATAAAATGACCCTCGCGGCGCTGGAAGCCACGCTGCGCCTCTATCAGCATCCGGAAGCGCTGCGGGACACCTTACCGACGCTGCGCCTGCTTACCCGCCCGGCGGACGAAATCCGCCGGCAGGCCGAACGTCTGCAGCCTGCCCTGGCGGCATACTATGCTGATTTTGCCGTCAACGTGGCAGCCTGCCAGTCGCAGATTGGCAGCGGCTCGTTACCTGTCGACCGTCTGCCTGGCGCGGCGTTGACCTTTACCCCGCATGACGGCCGCGGCAGCCGGCTGGAGGCGCTGGCGGCCCGCTGGCGCGCGCTGCCGTGCCCGGTGATTGGCCGCATTTATGACGGTCGGCTCTGGCTGGACCTGCGCTGTCTGGAAGATGAAACCCGGTTTATGGAGATGTTGTTACGATGA	MTTEIRALYTRLPAIDRLLRDPAFSSLLTQHGHSQVVTQLRQMLDEAREQIRQCQTLPDWSHDWLSACAQRLTARRQSALRPVFNLTGTVLHTNLGRAIQAEAAVEAVASAMRAPVTLEYDLDDAGRGHRDRAIADLLCQITGAEDACIVNNNAAAVLLMLAATASGREVVVSRGELVEIGGAFRIPDVMRQAGCQLHEVGTTNRTHAKDYRQAVNDNTALLMKVHTSNYSIEGFTKAVDEAELAVIGRELDVPVVADLGSGSLVDLSQYGLPKEPMPQEMIAAGVSLVSFSGDKLLGGPQAGIIVGKRALIARLQSHPLKRALRADKMTLAALEATLRLYQHPEALRDTLPTLRLLTRPADEIRRQAERLQPALAAYYADFAVNVAACQSQIGSGSLPVDRLPGAALTFTPHDGRGSRLEALAARWRALPCPVIGRIYDGRLWLDLRCLEDETRFMEMLLR	PGPT0004815_798	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004815-selA-K01042	NA	NA
BMS020_03184	609	yibF	COG0625	putative GST-like protein YibF	ATGAAACTGATCGGCAGCTACACCAGTCCCTTTGTGCGCAAAATATCGGTGATCCTGCTGGAAAAGCGCATCCCTTTTGAGTTTGTCAACGAATCCCCCTACAGCGAAAGCAACGGCGTGGCGCGCTATAACCCGCTGGGCAAAGTGCCGGCGCTGGTGACGGATGACGGCGAATGCTGGTTTGACTCCCCGGTTATCGCCCAGTATCTCGAGCTGCTGGGCGTGGCGCCGCCGATGATCCCCGCCGATCCCAGAGCCGCTCTCAGGATGCGCCAGCTAGAGGCGCTGGCGGATGGGGTGATGGAGGCCGCCCAGGCGCTGGTGCGCGAAAAGGCTCGCCCCGCGGCCCAACAGTCAGAGCAAGAGCTGCTCCGCCAGCGGGAGAAAGTGGCGCGCGGCCTCGACAGGCTGGAAGCCTGCGCGGCGGACGGGACGCTGCGCGGCGACGAGGTCAATCTGGCGACCATCTCCACGGCCTGCGCCATCGCCTACCTGAACTTTCGCCGGGTGGCGCCGGGCTGGTGCGCCACCCGGCCGCAGCTGGTGAAGCTGGTGGATGCGCTGTTCCAGCGCGCCAGCTTTGCGCGCACCGAACCGCCGCGGACTTGA	MKLIGSYTSPFVRKISVILLEKRIPFEFVNESPYSESNGVARYNPLGKVPALVTDDGECWFDSPVIAQYLELLGVAPPMIPADPRAALRMRQLEALADGVMEAAQALVREKARPAAQQSEQELLRQREKVARGLDRLEACAADGTLRGDEVNLATISTACAIAYLNFRRVAPGWCATRPQLVKLVDALFQRASFARTEPPRT	PGPT0013170_20104	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS020_03185	1137	yibH_1	COG1566	Inner membrane protein YibH	ATGGATCTGTTGATCATTTTGACCTACGTGGCCATCGCTTGGTCGATATTTAAAATCTTCAAAATACCGGTTAATAAATGGACGGTTCCCACCGCGGCGCTGGGGGGCGTATTTATTGTTAGCGCGCTTATTTTATTAATGAACTATAACCACCCTTACACCTTTCTGGCGCAAAAGGCGGTAATATCTATTCCTATTACGCCGCAGGTGACCGGGGTTGTCAGCAGCGTCACCGACAAAGCGAATCAGCGCGTCGAAAAGGGCGAGGTGTTATTTACCATTGACCCGGCGCGCTATCAGGCGCGGGTCGATCGCCTGCAGGCCGACCTGGTGACAGCGCTGCACAGTATTAACACCCTCAAGGCGCAGCTCTCTGAAGCCCAGGCCAACACCACCCGCGTGTCGGCGGAACGCGATCGCTTATACAAGGACTATCAGCGCTACCTGAAAGGCAGCCAGGCGCGGGTGAATCCGTTCTCGGAAAGCGACATCGATAACGCCAGGCAGAATTATCTGGCCCAGGACGCGCTGGTCAAAGCGTCGGTGGCGGAGCAGGCGCAGATCCAGAGCCAGCTGGATAGCATGATCAACGGCGAACAGTCGCAAGTGGCCAGCCTGCGCGCCCAGCTGGCGGAGGCGAAATATAATCTCGATCAGACCACCGTGCGGGCGCCCAGCGATGGGTATATCACTCAGGTGTTGATCCGTCCGGGGACCTACGCCGCCTCGCTGCCGCTACGGCCGGTGATGGTGTTTATCCCCGAGCAAAAACGGCTGATCGTCGCCCAGTTCAGGCAAAATTCGCTGTTAAGGCTGGAGAAGGGCGACGACGCGGAAGCGGTGTTTAATGCCCTGCCCGGACAGGTGTTCCACGGTAAACTGGTGAGCATTTTACCGGTGGTGCCCGGGGGGACCTATCAGGCGCAGGGGGCGTTGCAGTCGCTGACCGTGACGCCGGGCAGCGATGGCGTGCTGGCGACCATCGAGCTCGATCCGAATGCTGAAATTGATGCGCTACCCGATGGCATCTACGCTCAGGTGGCGGTCTACTCCGACCATTTCGCCCACGTTTCGGTGATGCGTAAAGTGCTGCTGCGCATGACCAGCTGGATGCACTACCTCTATCTCGACCATTAA	MDLLIILTYVAIAWSIFKIFKIPVNKWTVPTAALGGVFIVSALILLMNYNHPYTFLAQKAVISIPITPQVTGVVSSVTDKANQRVEKGEVLFTIDPARYQARVDRLQADLVTALHSINTLKAQLSEAQANTTRVSAERDRLYKDYQRYLKGSQARVNPFSESDIDNARQNYLAQDALVKASVAEQAQIQSQLDSMINGEQSQVASLRAQLAEAKYNLDQTTVRAPSDGYITQVLIRPGTYAASLPLRPVMVFIPEQKRLIVAQFRQNSLLRLEKGDDAEAVFNALPGQVFHGKLVSILPVVPGGTYQAQGALQSLTVTPGSDGVLATIELDPNAEIDALPDGIYAQVAVYSDHFAHVSVMRKVLLRMTSWMHYLYLDH				NA	NA	NA	NA	NA
BMS020_03186	369	yiaW_2		Inner membrane protein YiaW	ATGTTTCTCAATTATTTTGCGCTGGGCGTTCTGATCTTCGTTTTTCTGGTCATTTTTTATGGAATTATCATTATTCACGATATTCCTTATTTGATTGCCAAAAAACGCAACCACCCCCATTCCGATGCTATTCATGTCGCCGGATGGGTCAGTCTTTTTACTCTCCACGTCATCTGGCCGTTTTTATGGATATGGGCCACGCTGTACCAGCCTGAGCGCGGTTGGGGCATGCAGCATAAGGCGAATACGGACCCCGACGAACCTGAAAAAGAGACGGATATACAACAGCTTCGCCAACGACTGAGCGACCTTGAACATCAGGTGGCGGCCATCCAGCGGCCACAGTCCACCGCTGCGGCGGAGAAATAA	MFLNYFALGVLIFVFLVIFYGIIIIHDIPYLIAKKRNHPHSDAIHVAGWVSLFTLHVIWPFLWIWATLYQPERGWGMQHKANTDPDEPEKETDIQQLRQRLSDLEHQVAAIQRPQSTAAAEK				NA	NA	NA	NA	NA
BMS020_03187	1908	mtlA	COG2213	PTS system mannitol-specific EIICBA component	ATGTCATCCGATATCAAGATCAAAGTGCAAAGCTTTGGTCGTTTTCTCAGCAATATGGTGATGCCGAATATCGGCGCGTTTATCGCGTGGGGTATCATCACCGCGCTTTTCATTCCGACAGGGTGGTTGCCAAACGAAACGCTGGCGAAGCTGGTCGGTCCGATGATCACCTACCTGCTGCCGCTGCTGATCGGTTACACCGGCGGTAAATTAGTCGGCGGCGAACGTGGCGGCGTGGTCGGGGCGATCACCACCATGGGCGTTATCGTCGGCGCGGATATGCCGATGTTCCTCGGCTCCATGATCGCCGGCCCGCTGGGCGGCTACTGCATCAAGAAATTCGATAACTGGGTAGACGGTAAGATCAAATCCGGTTTTGAAATGCTGGTGAATAACTTCTCCGCCGGCATCATCGGGATGATCCTCGCCATTCTCGCCTTCCTCGGCATCGGCCCGGCGGTAGAAGTTCTGTCGAAAATTCTGGCGGCTGGCGTTAACTTCATGGTGGCGCACGACATGCTGCCGCTGGCGTCTATCTTCGTGGAACCGGCAAAAATCCTGTTCCTCAATAACGCCATCAACCACGGTATCTTCTCGCCGCTGGGTATTCAGCAGTCCCACGAGCTGGGTAAATCCATCTTCTTCCTGATTGAAGCTAACCCGGGTCCGGGGATGGGCGTTCTGCTGGCGTACATGTTCTTTGGCCGCGGCAGCGCTAAACAGTCTGCAGGCGGGGCGGCTATCATCCACTTCCTGGGGGGTATCCATGAAATCTACTTCCCGTACGTGCTGATGAACCCACGTCTGATCCTGGCCGTTATCCTCGGCGGGATGACCGGTGTCTTCACCCTGACCATCCTCAACGGCGGTCTGGTCTCTCCGGCTTCCCCGGGCTCTATCCTGGCGGTGCTGGCGATGACGCCGAAAGGGGCCTACTTCGCGAACATCGCAGCCATTATCGCCGCGATGGCGGTCTCCTTCGTCGTCTCTGCGGTTCTGCTCAAGACCAGCAAAGTCAAAGAAGAAGACGATATCGAAGCCGCAACCCGTCGTATGCATGACATGAAAGCGGAATCCAAAGGCGCCAACCCGCTGGCGGCTGGCAATGTCACCAACGACCTGAGCCATGTGCGTAAAATCATCGTCGCCTGCGACGCCGGGATGGGCTCCAGCGCCATGGGCGCCGGGGTACTGCGCAAGAAAGTGCAGGATGCCGGCCTGAGCAACATCTCGGTCACCAACAGCGCCATTAATAATCTGCCGCCGGATGTTGACCTGGTGATCACCCACCGCGACCTGACCGAGCGCGCCATGCGCCAGGTACCGCAGGCGCAGCATATTTCGCTGACCAACTTCCTCGACAGCGGTCTGTACACCAGCCTGACCGAGCGTCTGGTGGCGGCCCAGCGCCACATCGACAACGAAGTTAAAGTCACCGATAGCCTGAAAGACAGCTTTGATGATACGGACAAAAACCTGTTCAAGCTGGGTGCGGATAACATCTTCCTCGGTCGCAAAGCGGCCACCAAAGAAGAAGCCATTCGCTTCGCCGGCGAGCAGCTGGTGAAAGGCGGCTACGTCGAACCGGAATATGTGCAGGCGATGCTGGACCGCGAAAAACTGACCTCGACCTATCTCGGCGAGTCCATCGCGGTGCCGCACGGCACCATCGAAGCGAAAGACCGCGTGCTGAAAACCGGCGTCGTCTTCTGCCAGTACCCGGAAGGAGTGCGCTTTGGGGAAGATGAAGACGATGTTGCCCGCCTGGTGATCGGCATCGCCGCCCGCAACAACGAGCACATTCAGGTGATTACCAGCCTGACCAATGCGCTGGATGACGAAACGGTGATTGAGCGCCTGGCGAAAACCACCAGCGTCGACGACGTACTGGCGCTGCTGAATAAATAA	MSSDIKIKVQSFGRFLSNMVMPNIGAFIAWGIITALFIPTGWLPNETLAKLVGPMITYLLPLLIGYTGGKLVGGERGGVVGAITTMGVIVGADMPMFLGSMIAGPLGGYCIKKFDNWVDGKIKSGFEMLVNNFSAGIIGMILAILAFLGIGPAVEVLSKILAAGVNFMVAHDMLPLASIFVEPAKILFLNNAINHGIFSPLGIQQSHELGKSIFFLIEANPGPGMGVLLAYMFFGRGSAKQSAGGAAIIHFLGGIHEIYFPYVLMNPRLILAVILGGMTGVFTLTILNGGLVSPASPGSILAVLAMTPKGAYFANIAAIIAAMAVSFVVSAVLLKTSKVKEEDDIEAATRRMHDMKAESKGANPLAAGNVTNDLSHVRKIIVACDAGMGSSAMGAGVLRKKVQDAGLSNISVTNSAINNLPPDVDLVITHRDLTERAMRQVPQAQHISLTNFLDSGLYTSLTERLVAAQRHIDNEVKVTDSLKDSFDDTDKNLFKLGADNIFLGRKAATKEEAIRFAGEQLVKGGYVEPEYVQAMLDREKLTSTYLGESIAVPHGTIEAKDRVLKTGVVFCQYPEGVRFGEDEDDVARLVIGIAARNNEHIQVITSLTNALDDETVIERLAKTTSVDDVLALLNK	PGPT0016945_395	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
BMS020_03188	1149	mtlD	COG0246	Mannitol-1-phosphate 5-dehydrogenase	ATGAAAGCATTACATTTTGGCGCAGGTAATATCGGACGTGGCTTTATCGGTAAACTGCTGGCCGACGCGGGCATCGACCTGACGTTTGCCGATGTCAATCAGACCGTACTTGATGCCCTGAATGCCCGTCATAGCTACCAGGTTCACGTCGTTGGCGAAAATGAGCAGGTGGATACCGTCTCCGGCGTGAATGCCGTCAGCAGCATTGGCGACGAGGTAGTGGAGTTGATCGCCAGCGTCGACCTGGTGACCACCGCCGTCGGTCCCGTCGTTCTTGAGCGCATCGCCCCGGCCATCGCCAGAGGGCTGGCGAAGCGCAAGGCGCAGGGCACCGAACGCCCGCTGAACATTATCGCCTGCGAAAACATGGTGCGCGGCACCACGCAGTTAAAAGGCCACGTATTTAACGCCCTGGCGGAGGAAGATAAGGCCTGGGTGGAAACCCATATCGGCTTCGTCGACTCCGCCGTTGACCGTATTGTGCCGCCATCGGCGTCCGCTACCCATGACCCGCTGGAAGTCACCGTGGAAACCTTCAGCGAATGGATCGTCGATAAAACCCAGTTCAAGGGCGAACTGCCGACCATCCCGGGAATGGAATTAACTGATAACCTGATGGCATTTGTCGAACGCAAGCTCTTCACCTTGAACACCGGGCATGCTATAACCGCCTACCTCGGAAAACTGGCGGGCCACCAGACGATTCGCGACGCGATACTCGACGAGAAAATTCGGGCCGTCGTGCAGGGCGCGATGGAGGAGAGCGGCGCGGTGCTGATCAAACGCTACGCCTTTGACCCGCAGAAGCACGCGGCTTATATCCAGAAAATTCTTGGCCGTTTCGAGAACCCGTACCTGAAAGACGATGTCGAGCGCGTTGGCCGTCAGCCGCTGCGCAAACTGAGCGCCGGCGACCGTTTAATTAAGCCGCTGCTGGGTACGCTGGAATACGGCCTGCCGCACCGCAATCTGGTGAAAGGGATTGCGGCGGCGATGCATTTCCGTAGCGAAGACGATCCGCAGGCGCAGGAGCTGGCGACACTGATCGCCGACAAAGGGCCGCAGGCCGCGCTGGCGCAGATTTCCGGCCTTGACGCGGCAAGCGATGTCGTCGCGGAGGCCGTTAACGACTACAACGCGGTAAAATGA	MKALHFGAGNIGRGFIGKLLADAGIDLTFADVNQTVLDALNARHSYQVHVVGENEQVDTVSGVNAVSSIGDEVVELIASVDLVTTAVGPVVLERIAPAIARGLAKRKAQGTERPLNIIACENMVRGTTQLKGHVFNALAEEDKAWVETHIGFVDSAVDRIVPPSASATHDPLEVTVETFSEWIVDKTQFKGELPTIPGMELTDNLMAFVERKLFTLNTGHAITAYLGKLAGHQTIRDAILDEKIRAVVQGAMEESGAVLIKRYAFDPQKHAAYIQKILGRFENPYLKDDVERVGRQPLRKLSAGDRLIKPLLGTLEYGLPHRNLVKGIAAAMHFRSEDDPQAQELATLIADKGPQAALAQISGLDAASDVVAEAVNDYNAVK	PGPT0013700_640	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_MANNITOL_DEGRADATION,PGPT0013700-mtlD-K00009	NA	NA
BMS020_03189	600	mtlR	COG3722	Mannitol operon repressor	ATGATGCACAACCTGGCGCGGCCGACGTCGCGCCCATTACGACTCCTGTCAGATATGCAGGCAATGATGGAAGAAACACAAGCATTTGAAAACCGTGTGCTTGAGCGTCTGAATGCTGGCAAAACCGTACGAAGCTTCCTGATCGCCACCGTCGAGCTGTTAACGGAAGCGGTCAATATTCTGGTGCTTCAGGTGTTCCGTAAAGACGACTACGCGGTGAAATACGCCGTCGAGCCCTTGCTGGAGGGCAGCGGGCCGCTCGGCGATCTCTCAGTACGCCTGAAGCTGATTTATGGCCTTGGGGTGATAAGTCGTGCCGAATATGAAGACGCCGAGCTGCTGATGGCCCTGCGCGAAGAGCTTAATCACGACGGCAATGAGTACAGCTTTACCGACGACGAAATTATCGGTCCGTTCGGCGAACTGCACTGCGTCGCCGCCCTGCCGCCAACGCCGCAGTTTGATGACAGCGACGCCGAACTGCTGGCAATGCAGAAACTGCGTTACCAGCAGATGGTGCGTTCAACGATGGTGTTGTCCTTGACTGAGCTGATTTCACGAATCAGCTTAAAAAAAGCCTTCCAGAAATCAACGCTCTGA	MMHNLARPTSRPLRLLSDMQAMMEETQAFENRVLERLNAGKTVRSFLIATVELLTEAVNILVLQVFRKDDYAVKYAVEPLLEGSGPLGDLSVRLKLIYGLGVISRAEYEDAELLMALREELNHDGNEYSFTDDEIIGPFGELHCVAALPPTPQFDDSDAELLAMQKLRYQQMVRSTMVLSLTELISRISLKKAFQKSTL				NA	NA	NA	NA	NA
BMS020_03190	225	glgS_2		Surface composition regulator	ATGGCAAAGATCGGCGACGGCGTACCACGTTTAATCGACAAAGCGGTTGATTTTATGGCTTCCAGTCAGGCGTTTATGGAGTATTTGAAAAAGTCTCCGCGGCTGCAGCATGTACCGCGAGATATCCCTCAGGATAAGGAAGCGTTGTTTCTGCAGCGTCTGGAATATTATCGTCAGCTTTACCGGCCGACCTGCGACCAGACGGAGCCGGAATCAGAGCGTTGA	MAKIGDGVPRLIDKAVDFMASSQAFMEYLKKSPRLQHVPRDIPQDKEALFLQRLEYYRQLYRPTCDQTEPESER				NA	NA	NA	NA	NA
BMS020_03191	363	yibL		putative protein YibL	ATGAAAGAAGTCGAAAAGAATGAAATCAAACGTCTGAGCGATCGTCTCGACGCCATCCGCCACCAGCAGGCCGAGCTGTCGCTGGTGGAAGCTGCCGATAAATACGCGGAGCTGGAGAAAGAAAAAGCCACTCTGGAAACGGAGATTGAACGTCTGCGTTCCGTCCAGAGCCAGAAGCTGAGCAAAGAGGCGCAGAAGCTGATGAGCCTGCCGTTCCGCCGCGCGATTACCAAAAAAGAGCAGGCCGATATGGGCAAGCTGAAGAAAAGCGTCCGCGGCCTGGTGGTCGTCCATCCGATGACCGCCCTGGGCCGGGAAATGGGCCTGAAAGAGATGACCGGTTTCGCCCGCAGCGAATTCTGA	MKEVEKNEIKRLSDRLDAIRHQQAELSLVEAADKYAELEKEKATLETEIERLRSVQSQKLSKEAQKLMSLPFRRAITKKEQADMGKLKKSVRGLVVVHPMTALGREMGLKEMTGFARSEF				NA	NA	NA	NA	NA
BMS020_03192	1656	lldP_2	COG1620	L-lactate permease	ATGAATCTCTGGCAACAAAACTACGATCCCGCCGGTAATATCTGGTTATCCAGTCTTATCGCATCGCTACCGATTCTGTTTTTCTTTTTTGCGCTGATAAAGCTCAAACTGAAAGGCTATCTCGCCGCTACCTGGACCGTTGCGATCGCCCTGGCCGTCGCATTGCTGTTCTATAAAATGCCGGTGGACCGCGCCCTGGCCTCGGTGGTGTATGGCTTCTTCTACGGACTGTGGCCCATCGCCTGGATTATTATTGCCGCAGTCTTCGTCTATAAAATCTCGGTGAAGACCGGACAGTTCGACATCATCCGCTCGTCGATCCTGTCGATTACGCCTGACCAGCGCCTGCAGATGCTGATCGTCGGCTTCTCGTTCGGCGCCTTTCTCGAAGGGGCGGCGGGATTTGGCGCGCCGGTGGCGATTACCGCGGCGCTGCTGGTCGGCCTCGGGTTTAACCCGCTGTATGCCGCAGGCCTGTGCCTGATCGTCAATACCGCGCCGGTGGCCTTCGGCGCGATGGGCATCCCGATCCTGGTGGCCGGTCAGGTGACCGGTATCGACAGCTTCGCCATCGGCCAGATGGTGGGTCGCCAGCTGCCGTTCCTGACCATTATCGTGCTGTTCTGGATCATGGCGATTATGGACGGCTGGCGGGGCATCAAAGAGACCTGGCCGGCGGTGATGGTCGCAGGCGGCTCGTTCGCTATCGCCCAGTACCTCAGCTCTAACTTCCTTGGCCCGGAGCTGCCGGACATCATCTCATCGCTGGTCTCCCTGGTCTGCCTGACCCTGTTCCTCAAACGCTGGCAGCCGGCGCGCATCTTCCGCTTTGGCGATATCGGCGCCTCGCAGGTGGATATGACGCTGGCCCGCACGCGCTACACCGCGGGACAAGTGATCCGCGCCTGGTCGCCGTTCCTGTTCCTGACCGCCACCGTGACCCTGTGGAGCGTGCCGCCGTTCAAAGCGCTGTTCGCACCGGGCGGCGCGATGTATGACTTCGTCATCAATATTTCGGTGCCGTTCCTCGACAAAATGGTCGCCCGCATGCCGCCGGTGGTCAGCGCCGCGACGCCTTACGCCGCCATCTATAAGTTTGACTGGCTGTCGGCAACCGGCACCGCCATTCTGTTCGCCGCCCTGCTGTCCATCGTCTGGCTGCGCATGAAGCCGAAAGACGCGCTGACCACCTTCGCCGGAACGCTGAAGGACCTGGCGCTGCCGATCTACTCTATCGGCATGGTGCTGGCGTTCGCCTTTATCTCCAACTACTCCGGGCTGTCGTCGACCCTGGCCCTGGCGCTGGCCCATACCGGCCACGCGTTTACTTTCTTCTCGCCGTTCCTGGGCTGGCTGGGGGTATTCCTGACCGGTTCGGACACCTCGTCTAACGCCCTGTTCGCCGCGCTGCAGGCAACGGCGGCGCAGCAGATTGGCGTCTCCGATATCCTGCTGGTCGCGGCCAATACCACCGGCGGCGTCACCGGCAAGATGATTTCCCCGCAGTCGATCGCCATCGCCTGCGCCGCGGTAGGCCTGGTGGGTAAAGAGTCGGATCTGTTCCGCTTTACCGTCAAACACAGCCTGATCTTCACCTGCATGGTGGGTCTGATCACTACGCTGCAGGCCTACGTTTTAACCTGGATGATACCGTGA	MNLWQQNYDPAGNIWLSSLIASLPILFFFFALIKLKLKGYLAATWTVAIALAVALLFYKMPVDRALASVVYGFFYGLWPIAWIIIAAVFVYKISVKTGQFDIIRSSILSITPDQRLQMLIVGFSFGAFLEGAAGFGAPVAITAALLVGLGFNPLYAAGLCLIVNTAPVAFGAMGIPILVAGQVTGIDSFAIGQMVGRQLPFLTIIVLFWIMAIMDGWRGIKETWPAVMVAGGSFAIAQYLSSNFLGPELPDIISSLVSLVCLTLFLKRWQPARIFRFGDIGASQVDMTLARTRYTAGQVIRAWSPFLFLTATVTLWSVPPFKALFAPGGAMYDFVINISVPFLDKMVARMPPVVSAATPYAAIYKFDWLSATGTAILFAALLSIVWLRMKPKDALTTFAGTLKDLALPIYSIGMVLAFAFISNYSGLSSTLALALAHTGHAFTFFSPFLGWLGVFLTGSDTSSNALFAALQATAAQQIGVSDILLVAANTTGGVTGKMISPQSIAIACAAVGLVGKESDLFRFTVKHSLIFTCMVGLITTLQAYVLTWMIP	PGPT0001805_85	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_LACTATE_TRANSPORT,PGPT0001805-ldlP|lctP-K00427	NA	NA
BMS020_03193	765	lldR_4	COG2186	Putative L-lactate dehydrogenase operon regulatory protein	ATGCCTAAACGCCTGGCCGACGACGTGGCGCGTCGCGTCCGGGCGCTGATTGAAGAACAACAGCTGGAGGCGGGCATGCGACTGCCCGCCGAGCGCCAGCTCGCCGCTCAGCTCGGCGTCTCGCGCAATTCCCTGCGCGAAGCGCTGGCGATGCTGGTCAATGAAGGGGTGCTGCTGAGCCGTCGCGGCGGCGGCACTTTCGTCCGCTTTCAGCATGAGCCGTGGTCGGAGCAAAACATCGTCCAGCCGCTGAAGACGCTGCTGGCCGATGACCCTGACTACAGCTTCGACATCCTCGAGGCCCGCCACGCCATCGAGGCCAGCACCGCGTGGCACGCGGCGATGCGGGCCACCGACGCCGATAAAGAAAAAATACGCCTGTGCTTTGAAGCGACCCAGAGCGAAGACCCGGATATCGCCTCGCAGGCGGACGTCCGCTTTCATCTGGCCATCGCCGAAGCCTCGCATAACGTGGTGCTCCTGCAAACCATGCGCGGCTTTTTCGACCTGCTGCACTCCTCCGTCAAGCAGAGCCGTCAGCGGATGTATCTGGTGCCGCCGGTTTTTGCCCGCCTGACCGAACAGCACCAGGCCGTCATGGAGGCGATTGTCGCCGGCGACGCCGAGGCGGCGCGCCAGGCGATGATGGCCCACTTAGGTTTTGTCCACGCCACCATTAAACGTTTTGATGAAGACCAGGCCCGCCAGGCGCGAATTACCCGCCTGCCCGGCGATGCTATTGATAATTCCAGGGAGAATTCGTGA	MPKRLADDVARRVRALIEEQQLEAGMRLPAERQLAAQLGVSRNSLREALAMLVNEGVLLSRRGGGTFVRFQHEPWSEQNIVQPLKTLLADDPDYSFDILEARHAIEASTAWHAAMRATDADKEKIRLCFEATQSEDPDIASQADVRFHLAIAEASHNVVLLQTMRGFFDLLHSSVKQSRQRMYLVPPVFARLTEQHQAVMEAIVAGDAEAARQAMMAHLGFVHATIKRFDEDQARQARITRLPGDAIDNSRENS	PGPT0018120_119	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018120-lldR-K14348	NA	NA
BMS020_03194	1185	lldD_3	COG1304	L-lactate dehydrogenase	ATGATTATTTCCGCCGCCAGCGACTATCGCGCCGCCGCCCAGCGTATCCTGCCGCCGTTCCTGTTCCACTATATCGACGGCGGGGCTTACGCCGAACATACCCTGCGCCGCAACGTCGAGGACCTTTCCGACGTGGCGCTGCGCCAGCGTATTCTGCGCAATATGTCGGACCTGAGCCTCGAGACCACCCTCTTCAACGAGAAGCTGGCGATGCCGACGGCGCTGGCGCCGGTGGGGCTGTGCGGAATGTACGCCCGCCGCGGCGAAGTGCAGGCCGCCGGCGCAGCGGATGACAAAGGCATTCCGTTTACCCTCTCCACCGTTTCCGTCTGTCCGATCGAAGAGGTCGCCCCCACCATCAAGCGGCCGATGTGGTTCCAGCTGTATGTTCTGCGCGACCGCGGCTTTATGCGTAATGCGCTGGAGCGCGCGAAGGCGGCGGGTTGTTCAACGCTGGTCTTTACCGTCGATATGCCGACTCCCGGCGCCCGCTACCGCGACGCCCATTCCGGCATGAGCGGCCCGAACGCCGCCCTGCGCCGCTACTGGCAGGCGGTCACCCATCCGCAGTGGGCATGGGACGTTGGCCTCAACGGCCGTCCGCACGATCTGGGGAATATCTCCGCCTATCTCGGCCAGCCGACCGGCCTGGAGGATTACATCGGCTGGCTGGCGAATAACTTCGATCCGTCGATTTCATGGAAAGACCTCGAGTGGATCCGTGATTTCTGGGACGGACCGATGGTGATCAAAGGGATCCTCGACCCGGAGGACGCCCGCGACGCGGTGCGCTTCGGCGCCGACGGCATTGTGGTCTCCAACCACGGCGGCCGCCAGCTTGACGGCGTGCTCTCCTCCGCCCGCGCCCTGCCGGCGATTGCCGACGCGGTGAAAGGCGACATTACCATTCTCGCCGACAGCGGCATCCGCAACGGTCTCGACGTCGTGCGAATGATCGCCCTGGGCGCCGACAGCGTTCTGCTGGGCCGCGCTTACCTGTACGCCCTGGCAACCCACGGCAAGCAGGGGGTGGCGAATCTGCTGAATCTGATCGAGAAAGAGATGAAGGTGGCGATGACCCTGACCGGCGCAAAAACCATCGCGGACATTAGCCGTGATTCGCTGGTGCAGAACGCGGAGGCGCTGCAGACCTTCGATGCGCTGAAGCAGCATAACGCGGCATAA	MIISAASDYRAAAQRILPPFLFHYIDGGAYAEHTLRRNVEDLSDVALRQRILRNMSDLSLETTLFNEKLAMPTALAPVGLCGMYARRGEVQAAGAADDKGIPFTLSTVSVCPIEEVAPTIKRPMWFQLYVLRDRGFMRNALERAKAAGCSTLVFTVDMPTPGARYRDAHSGMSGPNAALRRYWQAVTHPQWAWDVGLNGRPHDLGNISAYLGQPTGLEDYIGWLANNFDPSISWKDLEWIRDFWDGPMVIKGILDPEDARDAVRFGADGIVVSNHGGRQLDGVLSSARALPAIADAVKGDITILADSGIRNGLDVVRMIALGADSVLLGRAYLYALATHGKQGVANLLNLIEKEMKVAMTLTGAKTIADISRDSLVQNAEALQTFDALKQHNAA	PGPT0001765_1082	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0001765-lldD-K00101	NA	NA
BMS020_03195	474	trmL_2	COG0219	tRNA (cytidine(34)-2'-O)-methyltransferase	ATGCTGAACATCGTGTTATTCGAACCAGAGATCCCGCCGAACACCGGGAATATTATCCGCCTGTGCGCCAACACGGGCTTCAGTCTGCATATCATTGAGCCCATGGGCTTCACCTGGGACGATAAGCGCCTGAGACGCGCCGGACTGGACTATCACGAGTTCACCGCCGTGCAGCGCCACGCCGATTACGCGGCGTTTATCGCCAGCGCGCAGCCGCAGCGTCTGTTCGCCCTGACCACCAAAGGTACGCCGGCGCACAGCGCGGTGAGCTATCAGGATGGCGATTTCTTGATGTTTGGTCCGGAAACCCGCGGTCTGCCGGCCAGCATCCTTGATGCCCTGCCGCCGGAGCAGAAAATTCGGATTCCGATGATGCCGGACAGCCGCAGCATGAACCTGTCAAACGCGGTGTCGGTGGTGGTGTACGAGGCCTGGCGGCAGCTGGGGTATCCAGGCGCCGTGCTGCGCAGCTAA	MLNIVLFEPEIPPNTGNIIRLCANTGFSLHIIEPMGFTWDDKRLRRAGLDYHEFTAVQRHADYAAFIASAQPQRLFALTTKGTPAHSAVSYQDGDFLMFGPETRGLPASILDALPPEQKIRIPMMPDSRSMNLSNAVSVVVYEAWRQLGYPGAVLRS				NA	NA	NA	NA	NA
BMS020_03196	822	cysE	COG1045	Serine acetyltransferase	ATGCCGTGTGAAGAACTGGATATCGTCTGGAATAATATTAAAGCCGAAGCCCGGGCTCTGGCGGACTGTGAGCCAATGCTCGCCAGTTTTTACCACGCAACGCTACTCAAGCATGAAAATCTGGGCAGCGCGCTGAGCTATATGCTGGCCAACAAGCTGGCTTCCCCGATTATGCCGGCTATCGCCATTCGCGAAGTGGTGGAAGAAGCCTACGCCGCCGACCCGGAAATGATCGCCTCGGCGGCCTGCGATATTCAGGCGGTGCGCACGCGTGACCCGGCGGTGGATAAATACTCGACGCCGTTGCTCTATCTGAAGGGTTTCCATGCCCTGCAGGCCTATCGTATCGGCCACTGGCTGTGGACTCAGGGCCGGCGTGCGCTGGCGATTTTCCTGCAAAACCAGGTGTCCGTCTCTTTCCAGGTGGATATCCACCCGGCGGCGAAAATCGGCCGCGGGATTATGCTCGACCACGCCACCGGTATTGTGGTTGGCGAAACGGCGGTGATTGAGGATGACGTCTCTATTCTGCAGTCGGTCACCCTCGGCGGTACCGGTAAAACCAGCGGCGACCGTCACCCGAAAATTCGCGAAGGCGTGATGATTGGCGCCGGGGCGAAAATCCTCGGCAATATCGAAGTCGGGCGTGGGGCGAAGATTGGCGCCGGTTCGGTGGTATTGCAGCCGGTTCCGCCGCACACCACCGCCGCAGGCGTGCCGGCGCGTATCGTCGGCAAGCCGGAGAGCGACAAGCCGGCGATGGATATGGATCAGCATTTCAACGGCATCCACCACACTTTCGAGTACGGCGACGGGATTTAA	MPCEELDIVWNNIKAEARALADCEPMLASFYHATLLKHENLGSALSYMLANKLASPIMPAIAIREVVEEAYAADPEMIASAACDIQAVRTRDPAVDKYSTPLLYLKGFHALQAYRIGHWLWTQGRRALAIFLQNQVSVSFQVDIHPAAKIGRGIMLDHATGIVVGETAVIEDDVSILQSVTLGGTGKTSGDRHPKIREGVMIGAGAKILGNIEVGRGAKIGAGSVVLQPVPPHTTAAGVPARIVGKPESDKPAMDMDQHFNGIHHTFEYGDGI	PGPT0020265_1890	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
BMS020_03197	1020	gpsA_2	COG0240	Glycerol-3-phosphate dehydrogenase [NAD(P)+]	ATGAACGCACTTAATGCTGCAATGACTGTGATCGGTGCCGGCTCTTACGGCACCGCTCTTGCCATCACCCTGGCAAGAAATGGCCACCACGTTGTGCTCTGGGGCCATGACCCGAAACATATCGCGACGCTGCAACACGATCGCTGCAACGCCGCGTTCCTTCCCGATGTGCCTTTCCCGGATACGCTGCATCTTGAAAGCGACCTGGCCACCGCCCTGGCCGCCAGCCGCGATATTCTGGTGGTGGTGCCAAGCCATGTGTTTGGTCAGGTGTTACGCCAGATTAAACCGCTGATGCGTCCTGACGCGCGTCTGGTATGGGCGACCAAAGGTCTCGAGGCCGAAACCGGTCGTCTGCTGCAGGACGTGGCGCGTGAAGCGCTGGGCGATGATATCCCGCTGGCGGTGATCTCCGGGCCAACCTTCGCCAAAGAGCTGGCCGCCGGCCTGCCGACGGCGATTTCGCTGGCGGCGACGGATCCGCAGTTTGCCGAGGATCTGCAGCACCTGCTGCACTGCGGCAAGAGCTTTCGCGTCTACATCAATCCGGACTTTATCGGCGTCCAGCTCGGCGGCGCGGTGAAAAACGTCATCGCCATCGGGGCGGGGATGTCGGACGGCATCGGCTTCGGCGCCAATGCGCGGACGGCGCTGATTACCCGTGGCCTGGTGGAAATGTCTCGCCTTGGCGCGGCGCTGGGCGCCGACCCGGAAACCTTTATGGGCATGGCCGGCCTCGGTGACCTGGTGCTCACCTGCACCGACAACCAGTCCCGTAACCGTCGCTTCGGCATGATGCTCGGCCAGGGGATGGACGTGCAAAGCGCCCAGGAAAAGATTGGCCAGGTGGTTGAAGGCTACCGCAATACCAAGGAAGTTCGCGTTCTGGCACAGCGTTTAGGTGTCGAAATGCCAATAACCGAGGAAATTTATCAGGTATTGTATTGCGGAAAAATTGCGCGCGAGGCAGCATTGACCTTATTGGGTCGCGCCCGCAAGGACGAGCGCAGCAGCAATTAG	MNALNAAMTVIGAGSYGTALAITLARNGHHVVLWGHDPKHIATLQHDRCNAAFLPDVPFPDTLHLESDLATALAASRDILVVVPSHVFGQVLRQIKPLMRPDARLVWATKGLEAETGRLLQDVAREALGDDIPLAVISGPTFAKELAAGLPTAISLAATDPQFAEDLQHLLHCGKSFRVYINPDFIGVQLGGAVKNVIAIGAGMSDGIGFGANARTALITRGLVEMSRLGAALGADPETFMGMAGLGDLVLTCTDNQSRNRRFGMMLGQGMDVQSAQEKIGQVVEGYRNTKEVRVLAQRLGVEMPITEEIYQVLYCGKIAREAALTLLGRARKDERSSN	PGPT0024330_1539	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024330-gpsA-K00057	NA	NA
BMS020_03198	468	secB_2	COG1952	Protein-export protein SecB	ATGTCAGAACAAAACAGCACCGAAATGACCTTCCAGATCCAGCGTATCTATACCAAAGATATCTCTTTTGAAGCGCCGAACGCGCCGCAAGTTTTCCAGAAAGACTGGCAGCCGGAAGTTAAACTTGATCTGGATACCGCCTCCACCCAGCTGGCTGAAGGCGTTTATGAAGTGGTGCTGCGTGTAACCGTGACCGCCGCGCTGGGCGAAGAGACCGCGTTCCTCTGCGAAGTACAGCAGGGCGGTATTTTCTCCATCGACGGCATTGAAGGCACCCAGATGGCGCACTGCCTTGGCGCATACTGCCCGAACATTCTGTTCCCGTACGCGCGCGAGTGCATCACCAGCCTGGTTTCCCGCGGTACCTTCCCGCAACTTAACCTTGCGCCAGTGAACTTCGATGCGCTGTTTATGAACTATCTGCAGCAGCAGGCTGGCGAAGGTGCAGAACAACATCAGGATGCCTGA	MSEQNSTEMTFQIQRIYTKDISFEAPNAPQVFQKDWQPEVKLDLDTASTQLAEGVYEVVLRVTVTAALGEETAFLCEVQQGGIFSIDGIEGTQMAHCLGAYCPNILFPYARECITSLVSRGTFPQLNLAPVNFDALFMNYLQQQAGEGAEQHQDA	PGPT0025745_147	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025745-secB-K03071	NA	NA
BMS020_03199	252	grxC_1	COG0695	Glutaredoxin 3	ATGGCCAATATTGAGATCTACACCAAAGCGACCTGCCCGTTCTGCATCCGCGCGAAAGCGCTGCTGAACAGCAAAGGCGTAACGTTCCATGAGTTGCCGATCGATGGCGATGCCGCGAAGCGTGAGGAGATGATCCAGCGCAGCGGACGGACGACGGTTCCGCAGATTTTTATTGATGCGCAGCACATTGGCGGCTGTGACGACTTGTATGCGCTTGATTCACGTGGTGGACTTGATCCCCTCTTGCGCTAA	MANIEIYTKATCPFCIRAKALLNSKGVTFHELPIDGDAAKREEMIQRSGRTTVPQIFIDAQHIGGCDDLYALDSRGGLDPLLR	PGPT0013201_4472	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CHAPERONES,PGPT0013201-grxC-K03676	NA	NA
BMS020_03200	432	yibN_2	COG0607	putative protein YibN	ATGCAAGAAATTATGCAATTCATCGGCCGTCACCCTGTTCTGAGCATCGCGTGGATCGCGCTGCTGGGGGCGGTGCTGTTTACCACCTTCAAGGGCCTGATGTCGAAAGTTAAAGTCATCACCCGTGGTGAAGCGACGCGTCTTATCAATAAAGAAGACGCGGTGGTGGTCGACCTGCGTCAGCGTGACGATTTCCGTAAAGGCCATATTGCCGGCGCCATCAACCTGCTGCCCAGCGATATCAAAGCGAATAACGTCGGCGAGTTGGAAAAACACAAATCGCAACCCATTATTGTGGTAGACGGTTCCGGCATGCAGGCGCAAGAGCCAGCCAGCGCGCTGAACAAAGCCGGGTTTGAAAAAGTCTTTGTACTGAAAGAGGGCATTGCTGGCTGGAGCGGCGAAAACCTCCCTCTGGTACGCGGCAAATAA	MQEIMQFIGRHPVLSIAWIALLGAVLFTTFKGLMSKVKVITRGEATRLINKEDAVVVDLRQRDDFRKGHIAGAINLLPSDIKANNVGELEKHKSQPIIVVDGSGMQAQEPASALNKAGFEKVFVLKEGIAGWSGENLPLVRGK				NA	NA	NA	NA	NA
BMS020_03201	1545	gpmI	COG0696	2,3-bisphosphoglycerate-independent phosphoglycerate mutase	ATGTCGGTTACTAAAAAACCTATGGTACTGGTGATTCTGGATGGCTACGGCTATCGCGAAGACCAACAGGATAACGCCATTTACAGCGCTAAAACGCCGGTAATGGACGCCCTGTGGGCCAAACGTCCGCATACCCTGATCGATGCATCCGGCCTGGAAGTTGGCCTGCCGGACCGTCAGATGGGGAACTCCGAAGTGGGCCACGTCAACCTGGGCGCCGGTCGTATCGTCTATCAGGACCTGACCCGTCTCGATGTGGAAATTAAAGAACGCACCTTCTTCGCCAACCCGGTACTGACCGCCGCGGTCGATAAAGCGGTTGCCGCGGGTAAAGCGGTACATATCATGGGTCTGATGTCGCCGGGCGGCGTTCACAGCCATGAAGATCACATCATGGCGATGGTGGAGCTGGCGGCAGAGCGCGGCGCTGAGAAGATCTACCTGCACGCTTTCCTCGACGGTCGTGACACCCCGCCGCGCAGCGCGGAAAAAACGCTGGCAAAATTCGAAGCCAAATTTGCCGCGCTGGGCAAGGGCCGCATCGCGTCGCTCATTGGCCGCTACTACGCCATGGACCGCGACAACCGCTGGGATCGCGTTGAGCAGGCTTACGATCTGATGACGCTGGCGAAAGGCGAATTCCAGGCCGATACCGCCGTCGCCGGCCTGCAGGCTGCCTACGCCCGTGACGAAAACGACGAGTTCGTGAAAGCGACCGTGATCCGCGCCGCCGGCCAGGCCGATGCCGCGATGGAAGATGGCGATGCGCTGATCTTCATGAACTTCCGTGCTGACCGCGCACGCGAAATCACCCGTGCCTTCGTCAACGCCGACTTCGACGGCTTTGCGCGTAAGAAAGTGGTTAACCTCGACTTCGTGATGCTCACCGAATATGCCGCCGACATCAAAGTGGCCTGCGCCTACCCGCCCGCCTCGCTGGCCAATACCTTCGGCGAGTGGATGGCGAAGCACGATAAAACCCAGCTGCGCATCTCCGAAACTGAGAAATACGCCCACGTCACCTTCTTCTTCAACGGCGGCGTAGAAGAGCCGTTCAAAGGCGAAGAGCGGATTCTGATTAACTCGCCGAAAGTGGCGACCTACGATCTGCAGCCGGAAATGAGCTCCGCCGAGCTGACCGAAAAACTGGTCGCGGCCATCAAAGGCGGCCAGTACGACACCATCATCTGTAACTACCCGAACGGCGATATGGTTGGCCATACCGGCGTGATGGAAGCGGCAGTGAAAGCCGTTGAAGCGCTGGATCACTGTATCGATCAGGTGGCGCAGGCGGTGGAATCCGTTGGCGGCCAGCTGCTGATCACCGCCGACCACGGTAACGCCGAACAGATGCGCGATCCGGCCACCGGTCAGGCGCACACCGCCCACACCAACCTGCCGGTTCCGCTGATTTACGTCGGTAACAAAGCGGTTAAAGCGGTCAATGGCGGCAAACTTTCCGACATCGCCCCGACCATGCTGTCGCTGATGGGAATGGAAATCCCGCAAGAGATGACTGGCAAGCCGCTGTTCATCGTGGAATAA	MSVTKKPMVLVILDGYGYREDQQDNAIYSAKTPVMDALWAKRPHTLIDASGLEVGLPDRQMGNSEVGHVNLGAGRIVYQDLTRLDVEIKERTFFANPVLTAAVDKAVAAGKAVHIMGLMSPGGVHSHEDHIMAMVELAAERGAEKIYLHAFLDGRDTPPRSAEKTLAKFEAKFAALGKGRIASLIGRYYAMDRDNRWDRVEQAYDLMTLAKGEFQADTAVAGLQAAYARDENDEFVKATVIRAAGQADAAMEDGDALIFMNFRADRAREITRAFVNADFDGFARKKVVNLDFVMLTEYAADIKVACAYPPASLANTFGEWMAKHDKTQLRISETEKYAHVTFFFNGGVEEPFKGEERILINSPKVATYDLQPEMSSAELTEKLVAAIKGGQYDTIICNYPNGDMVGHTGVMEAAVKAVEALDHCIDQVAQAVESVGGQLLITADHGNAEQMRDPATGQAHTAHTNLPVPLIYVGNKAVKAVNGGKLSDIAPTMLSLMGMEIPQEMTGKPLFIVE	PGPT0018040_1338	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
BMS020_03202	1272	envC_2	COG4942	Murein hydrolase activator EnvC	ATGAGGGGAAAGGCGACGTATTCAACTACATGGATCGCAACGGCAGTTCGATCCGTCCTTTACGCCAGCGCGCTCAGCGCTGGCGTATTACTGTGCGCGTCATCTGCGCACGCCGACGATCGCGATCAGCTAAAGTCCATCCAGGCCGACATCGCCGCCAGACAGCGGGCGATTAAGCAACAGCAGCAGCAGCGCGCAAGCCTGCTCGCCCAACTCAAAGCGCAGGAAGAGGCGATCGCCGCCGCGGCCCGCAAACTGCGCGAAACCCAGGACAGCCTGAACCAGCTCAATAAGCAGATTGACGAGATGAACGCTTCTCTCGCGAAGCTGGAGCGCCAGCGCGCGTCTCAGGAGCGTAACCTCGCCGCGCAGCTTGACGCGGCGTTCCGCCAGGGGCCGCATACCGGCATCCAGATGGTGCTGAGCGGTGAAGAGGGTCAGCGCAATCAGCGGATGCAGGTCTATTTCAGCTATTTCAACCAGGCCCGCCAGGAAACCATCGCGGAACTGAAGAAAACGCGCGAAGAGATGGCGGTGCAAAAGTCGATGCTCGAAGAGAAGCAGAGCCAGCAGCAGACGCTGGTCTACGAGCAAAAAGCCCAGCAGGCGAAGCTGGAGCAGGCGCGTAACGAACGGAAAAAGACCCTTTCCGGCCTGGAGTCCTCCATTCAGCGGGGTCAGCAACAGTTAAGTGAATTGCGGGCTAACGAATCGCGCCTACGCGGTCGTATCGCCCAGGCGGAGGCTGCCGCCAAAGCCCGTGCCGATCGGGAAGCTCGCGATGCGCAGGCGGTGCGCGACCGCCAGCAGGAAGCATCGCGCAAAGGCACCACCTATAAACCAACGGAAAGCGAGCGTTCGCTGATGTCACGCACCGGTGGGCTGGGCTCGCCGCGCGGTCAGGCGTTCTGGCCAGTTCGCGGTCCGCTCCTTCATCGATATGGCGAACAGCTGCAAGGTGAACTACGTTGGAAAGGGATGGTTATCGCCGCGTCTGAAGGCACCGAAGTCAGAGCGATTGCCGATGGTCGGGTCATTCTGGCCGACTGGCTGCAGGGCTATGGTCTGGTGGTGGTGGTCGAGCATGGTAAAGGCGACATGAGCCTGTATGGCTATAACCAAAGCGCGCTGGTCAGCGTCGGTACGCAGGTGCGTGCCGGTCAGCCTATCGCGCTCGTAGGCAGCAGCGGCGGTCAGGGCCGTCCGTCGCTCTATTTCGAAATTCGCCGCCAGGGTCAGGCGGTCAATCCACAGCCGTGGTTGGGAAGATAA	MRGKATYSTTWIATAVRSVLYASALSAGVLLCASSAHADDRDQLKSIQADIAARQRAIKQQQQQRASLLAQLKAQEEAIAAAARKLRETQDSLNQLNKQIDEMNASLAKLERQRASQERNLAAQLDAAFRQGPHTGIQMVLSGEEGQRNQRMQVYFSYFNQARQETIAELKKTREEMAVQKSMLEEKQSQQQTLVYEQKAQQAKLEQARNERKKTLSGLESSIQRGQQQLSELRANESRLRGRIAQAEAAAKARADREARDAQAVRDRQQEASRKGTTYKPTESERSLMSRTGGLGSPRGQAFWPVRGPLLHRYGEQLQGELRWKGMVIAASEGTEVRAIADGRVILADWLQGYGLVVVVEHGKGDMSLYGYNQSALVSVGTQVRAGQPIALVGSSGGQGRPSLYFEIRRQGQAVNPQPWLGR	PGPT0023855_1032	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN-ENDOPEPTIDASE_ACTIVITY|LIPOPROTEIN,PGPT0023855-envC-K22719	NA	NA
BMS020_03203	957			hypothetical protein	TTGCTTCAATTTCGCGCAATTGCTCTTGCCGTAGCCGGTTCGCTGGCTCTGGCGGCGCCAGCGTTCGCTGGCAAACTCTCCATCGTTATTGACGATTTTGGCTACCGCCCGCAGACCGAAAATCAGGTGCTGGCGCTGCCGTCCACTATCTCCGTCGCCGTGCTGCCGAACGCGCCGCACGCCCGGGAAATGGCCACGAAAGCGCATAATCTGGGCCATGAAGTGCTCATCCACCTGCCGATGGCGCCGCTCAGCAAACAGCCGCTGGAAAAAGACACCCTGCGTCCCGAAATGAGCAGCGAGGAGATCGAGCGCATCATCCGCGAGGCCTATGGCAAAGTCCCCTACGCCGTCGGGCTGAATAACCATATGGGCAGCGCGATGACCTCCAACCTGTTTGGCATGCAGAAGGTGATGCAGGCCCTGGAGCGCTACAATCTCTATTTTCTCGACAGCGTGACCATCGGCAATACCCAGGCCATGCGTGCCGCGCAGGGCACCGGGGTGAAGGTGATTAAGCGTAAGGTGTTTCTGGACGATACGCAGAATGAAGCCGATATCCGCACTCAGTTCAACCGCGCCATCGCCCTGGCGCGGCGTAACGGTTCGGCGATAGCCATTGGCCATCCGCATCCGACGACGGTGCGGGTGCTGCAGCAGATGGTCTATAACCTGCCGCCGGATATCACGCTGGTGCGCCCGAGCAGCCTGCTCAACGAGCCACAGGTCGACAACTCGACGCCAAACTACGCTCAGCCGCCTGCGCAACAAACGCCGCCGCAGCAGCAGAAGCCGCGTAATCCGTTCCACGGCGTGAAGTATTGCAAGCCGAAGCGCCCGCTGGAGCCCGTGAACGCCAGCCGCTTCTTCACTATCCTCAGCGACAGCATCAGCCAGAGCGCGCTGGTCCAGTACTATCGCCTCAAATGGCAGGGCTGGGACAATCCCGGCAGCTAG	MLQFRAIALAVAGSLALAAPAFAGKLSIVIDDFGYRPQTENQVLALPSTISVAVLPNAPHAREMATKAHNLGHEVLIHLPMAPLSKQPLEKDTLRPEMSSEEIERIIREAYGKVPYAVGLNNHMGSAMTSNLFGMQKVMQALERYNLYFLDSVTIGNTQAMRAAQGTGVKVIKRKVFLDDTQNEADIRTQFNRAIALARRNGSAIAIGHPHPTTVRVLQQMVYNLPPDITLVRPSSLLNEPQVDNSTPNYAQPPAQQTPPQQQKPRNPFHGVKYCKPKRPLEPVNASRFFTILSDSISQSALVQYYRLKWQGWDNPGS				NA	NA	NA	NA	NA
BMS020_03204	738			hypothetical protein	ATGGAGGTGCTGCCCCCGCTGCTGAAGGTGGCTGATGAGTGTATTGTCGTCGACTCCGGTAGCACCGACGAAACGGTCTCTATTTGTCAGCAGTTTGGTCTCACCGTCCATCACCATGCCTATAAAGCCCACGGCGCGCAGATGAACTATGCCATCGGGCTGGCCAGCCATGACTGGGTGCTGTGCATGGACAGCGATGAAATTCTTGATAACGACGTCGTGGCGGCCATTCAGGCGTTAAAAGCGGGGGAGGAGCCTGACCCAGCCTGCGCCTGGCGTTTGCCGCGCTACTGGTTTGTCCTCGGCACGCAGGTGCGGACGATCTACCCCATTTCCTCGCCGGATTACCCGGTGCGCCTCTTTAACCGCCAGCAGGCGCGGTTTAACGACCGGCCGGTGGATGACCAGGTGGTCGGACACGCGCGCTCCGTCAGGCTGCCGGGCTTTGTACGCCATGACACCTTTTATTCGCTGCATGAAGTGTTTAATAAGCTGAACAGCTATACCACCCGGCTGGTGAAGCACCAGCAGATCACACCTTCGCTGACGCGGGGGATCGTCAGCGCCATTGGCGCTTTCTTTAAGTGGTATCTGTTCAGCGGGGCGTGGCGCTATGGCAAAGTCGGCGTGGTCACCGGCCTGTACGCCACGTTTTACAGCTTTCTCAAATATTTTAAGGCGTGGTACGCCCACGAAGATAACCAGGCGCCCGTCGCGCAAAAGCGAACGGACCCCTGA	MEVLPPLLKVADECIVVDSGSTDETVSICQQFGLTVHHHAYKAHGAQMNYAIGLASHDWVLCMDSDEILDNDVVAAIQALKAGEEPDPACAWRLPRYWFVLGTQVRTIYPISSPDYPVRLFNRQQARFNDRPVDDQVVGHARSVRLPGFVRHDTFYSLHEVFNKLNSYTTRLVKHQQITPSLTRGIVSAIGAFFKWYLFSGAWRYGKVGVVTGLYATFYSFLKYFKAWYAHEDNQAPVAQKRTDP				NA	NA	NA	NA	NA
BMS020_03205	1026	tdh_1	COG1063	L-threonine 3-dehydrogenase	ATGAAAGCGTTATCCAAACTGAAAGCGGAAGAAGGCATCTGGATGACCGACGTACCGGAACCGGAAGTCGGCCATAACGATCTGCTGATTAAAATCCGCAAGACCGCCATTTGCGGGACCGACGTGCACATCTACAACTGGGATGAGTGGTCGCAGAAGACTATTCCGGTACCGATGGTGGTCGGGCACGAATATGTCGGCGAAGTGGTGGGGATTGGCCAGGAAGTGCGCGGCTTTAAGATTGGCGACCGCGTCTCCGGCGAAGGGCATATCACCTGCGGCCACTGCCGTAACTGCCGCGCAGGCCGTACCCACCTGTGCCGCAACACCATCGGCGTGGGCGTCAACCGCCCGGGCTGCTTTGCCGAGTATCTGGTGATCCCGGCCTTTAACGCCTTTAAAATTCCCGACAATATCTCTGATGACCTGGCGTCCATCTTCGACCCATTCGGCAACGCCGTGCACACCGCGCTCTCCTTCGATCTGGTGGGGGAAGACGTGCTGGTCTCCGGCGCCGGTCCGATCGGCGTGATGGCGGCGGCGGTGGCGAAACACGTCGGCGCGCGTAACGTGGTGATCACTGACGTTAACGAGTACCGTCTCGAGCTGGCGCGCAAAATGGGCGTCACCCGCGCGGTGAACGTGGCGAAAGAGAACCTCAACGACGTGATGGCCGAGCTGGGGATGACCGAAGGTTTCGACGTGGGTCTTGAGATGTCCGGCGCGCCGCCGGCGTTCCGCAGCATGCTGGATACCATGAACCACGGCGGCCGTATCGCGATGCTGGGTATCCCGCCGTCGGATATGTCCATCGACTGGACCAAGGTCATCTTCAAGGGGCTGTTTATCAAAGGGATCTATGGTCGCGAAATGTTCGAAACCTGGTACAAGATGGCGGCGCTGATCCAGTCTGGCCTGGATCTTTCGCCGATCATCACCCACCGCTTCGGCATTGACGACTTCCAGAAGGGCTTTGACGCCATGCGCTCCGGTCAGTCCGGTAAAGTGGTTCTGAGCTGGGAATAA	MKALSKLKAEEGIWMTDVPEPEVGHNDLLIKIRKTAICGTDVHIYNWDEWSQKTIPVPMVVGHEYVGEVVGIGQEVRGFKIGDRVSGEGHITCGHCRNCRAGRTHLCRNTIGVGVNRPGCFAEYLVIPAFNAFKIPDNISDDLASIFDPFGNAVHTALSFDLVGEDVLVSGAGPIGVMAAAVAKHVGARNVVITDVNEYRLELARKMGVTRAVNVAKENLNDVMAELGMTEGFDVGLEMSGAPPAFRSMLDTMNHGGRIAMLGIPPSDMSIDWTKVIFKGLFIKGIYGREMFETWYKMAALIQSGLDLSPIITHRFGIDDFQKGFDAMRSGQSGKVVLSWE	PGPT0020460_1071	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_THREONINE_DEGRADATION,PGPT0020460-tdh-K00060	NA	NA
BMS020_03206	1194	kbl_1	COG0156	2-amino-3-ketobutyrate coenzyme A ligase	ATGCGTGGTGATTTCTACAAACAGTTAACTAGCAATCTGGAGACCGCTCGGGCCGAAGGCTTGTTTAAAGAAGAGCGCATCATCACCTCGGCGCAGCAGGCGGACATTACCGTCGGCGACAGCCACGTGATTAACTTCTGCGCCAATAACTATCTGGGTCTGGCCAACCACCCGGCGCTGATCGACGCGGCGAAATCCGGTATGGACAGCCACGGCTTCGGGATGGCCTCGGTACGCTTCATCTGCGGCACCCAGGATACGCACAAGCAGCTGGAGAAGAAGCTGGCGGATTTCCTCGGTATGGAAGACGCAATCCTCTACTCCTCCTGCTTCGACGCCAACGGCGGCCTGTTTGAAACGCTGCTCGGCCCGGAAGACGCCATTATCTCCGACGCCCTGAACCATGCCTCGATCATCGACGGCGTGCGCCTGTGTAAAGCGAAGCGCTTCCGCTATGCCAACAACGATATGCAGGAACTGGAAGCGCGTCTGAAAGAAGCCCGCGACGCTGGCGCGCGTCACGTGCTGATCGCCACCGACGGCGTCTTCTCGATGGACGGCGTGATCGCCAACCTGAAAGGCGTTTGCGACCTGGCGGATAAATACGATGCGCTGGTGATGGTCGATGACTCCCACGCCGTCGGCTTCGTCGGCGAAAACGGCCGCGGCTCCCACGAATACTGCGATGTGATGGGGCGCGTCGACATCATCACCGGCACGCTGGGTAAAGCGCTGGGCGGCGCCTCCGGCGGCTACACCGCCGCACGCAAAGAGGTGGTCGAGTGGCTGCGCCAGCGTTCCCGTCCGTATCTGTTCTCCAACTCTCTGGCGCCGGCCATCGTGGCCGCCTCCATCAAAGTGCTGGAGATGGTCGAAGAGGGCGCAGACCTGCGCGATCGCCTGTGGGCCAACGCGCGTCTGTTCCGTGAAAAAATGACTGCGGCAGGCTTCACCCTGGCGGGCGCCGACCACGCCATCATTCCGGTGATGCTGGGTGAAGCGGTGGTGGCGCAGAACTTTGCCCGCGAACTGCAGAAAGAAGGGATCTATGTCACCGGCTTCTTCTATCCGGTGGTACCGAAAGGCCAGGCGCGTATTCGCACCCAGATGTCGGCGGCGCATACCCCTGAACAAATTGAGCGTGCGGTAGAAGCCTTTACCCGCATCGGCAAACAACTGGGCGTCATCGCCTAA	MRGDFYKQLTSNLETARAEGLFKEERIITSAQQADITVGDSHVINFCANNYLGLANHPALIDAAKSGMDSHGFGMASVRFICGTQDTHKQLEKKLADFLGMEDAILYSSCFDANGGLFETLLGPEDAIISDALNHASIIDGVRLCKAKRFRYANNDMQELEARLKEARDAGARHVLIATDGVFSMDGVIANLKGVCDLADKYDALVMVDDSHAVGFVGENGRGSHEYCDVMGRVDIITGTLGKALGGASGGYTAARKEVVEWLRQRSRPYLFSNSLAPAIVAASIKVLEMVEEGADLRDRLWANARLFREKMTAAGFTLAGADHAIIPVMLGEAVVAQNFARELQKEGIYVTGFFYPVVPKGQARIRTQMSAAHTPEQIERAVEAFTRIGKQLGVIA	PGPT0020495_1650	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020495-kbl-K00639	NA	NA
BMS020_03207	933	hldD_1	COG0451	ADP-L-glycero-D-manno-heptose-6-epimerase	ATGATCATCGTAACCGGCGGCGCAGGCTTTATCGGCAGCAACATCGTTAAAGCGCTGAATGACAAGGGCATTACCGACATTCTGGTTGTCGACAATCTGAAAGACGGCACCAAGTTTGTGAACCTGGTTGACCTGAACATCGCTGACTACATGGATAAAGAAGACTTTCTGATCCAGATTATGGCAGGCGAAGAGTTCGGCGACATTGACGCTATCTTCCACGAAGGCGCGTGCTCTTCCACCACGGAGTGGGACGGCAAGTACATGATGGACAACAACTATCAGTACTCCAAAGAGCTGCTGCACTACTGCCTGGAGCGCGAAATTCCGTTCCTGTACGCCTCTTCGGCGGCCACCTACGGTGGGCGCACCAGCGATTTCATCGAGTCTCGCGAGTATGAGCAGCCGCTAAACGTCTACGGCTACTCCAAATTCCTGTTCGATGAATACGTTCGTCAGATCCTGCCGGAAGCCAATTCGCAGATCGTCGGCTTCCGCTACTTCAACGTCTACGGGCCGCGCGAAGGCCACAAAGGCAGCATGGCAAGCGTCGCTTTCCACCTCAACACCCAGCTGAATAATGGCGAAAGTCCGAAACTGTTCGAAGGCAGCGACGGCTTCAAGCGCGACTTCGTCTACGTCGGCGACGTGGCTGACGTCAACCTGTGGTTCTGGGAAAACGGCGTTTCCGGCATCTTCAACCTCGGCACTGGCCGCGCGGAATCCTTCCAGGCCGTCGCCGACGCGACCCTGGCGTACCACAAAAAAGGCAGCATCGAGTACATCCCATTCCCGGACAAACTGAAAGGCCGCTACCAGGCGTTCACCCAGGCGGATCTGACTAACCTGCGTAAAGCGGGCTATGACAAACCGTTCAAAACCGTTGCCGAAGGCGTAACGGAGTATATGGCCTGGCTGAATCGGGATGCGTAA	MIIVTGGAGFIGSNIVKALNDKGITDILVVDNLKDGTKFVNLVDLNIADYMDKEDFLIQIMAGEEFGDIDAIFHEGACSSTTEWDGKYMMDNNYQYSKELLHYCLEREIPFLYASSAATYGGRTSDFIESREYEQPLNVYGYSKFLFDEYVRQILPEANSQIVGFRYFNVYGPREGHKGSMASVAFHLNTQLNNGESPKLFEGSDGFKRDFVYVGDVADVNLWFWENGVSGIFNLGTGRAESFQAVADATLAYHKKGSIEYIPFPDKLKGRYQAFTQADLTNLRKAGYDKPFKTVAEGVTEYMAWLNRDA	PGPT0023045_1259	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-MANNO-HEPTOSE|-PHOSPHATE_MODIFICATION,PGPT0023045-gmhD|hldD|rfaD-K03274	NA	NA
BMS020_03208	1059	rfaF	COG0859	ADP-heptose--LPS heptosyltransferase 2	ATGAAAATTCTGGTGGTAGGCCCGTCTTGGGTGGGCGACATGATGATGTCGCAAAGTCTTTATCGTACGCTCAGGGCGCGCTATCCCCAGGCGATTATCGACGTGATGGCGCCAGCCTGGTGTCGTCCGTTGTTATCGCGCATGCCGGAAGTGAACGAAGCGATCCCGATGCCGCTGGGCCACGGCGCGCTGGCTATCGGCGAACGCCGCAAGCTCGGCCACAGCCTGCGCGAGCGTCGCTACGATCGCGCTTACGTGCTGCCAAACTCGTTTAAATCGGCATTAGTTCCCTTCTTTGCCAACATCCCGCTGCGCACCGGCTGGCGCGGCGAGATGCGCTACGGCCTGCTCAACGACGCCCGGGTGCTGGACAAAGACGCCTGGCCGCTGATGGTGGAACGCTACGTGGCGCTGGCCTACGACAACGGCGTGATGCGCTGCGCCAAAGATCTGCCGCAGCCGCTGCTATGGCCGCAACTGCAGGTCAACGAAGGGGAAAAGTCGCAGGCCTGCAGCGCCTTTAACCTGTCCAACGATCGGCCGATCATCGGCTTTTGCCCCGGCGCGGAGTTCGGCCCGGCAAAACGCTGGCCGCACTATCACTATGCTGCGCTGGCGAAAAAGCTCATCGACGATGGTTATCAGATTGCGCTATTTGGCTCGGCAAAAGATAACGAGGCCGGCAAAGAGATCATCGCCGCCCTCAGCAGCGAGCAGCAGGCCTGGTGCCGGAATCTGGCGGGTGAAACCCAGCTGGAGCAGGCGGTGATCCTGATTGCCGCCTGTAAAGCGGTGGTGACTAACGATTCGGGGCTGATGCACGTCGCCGCAGCGCTGGACCGCCCGCTGGTGGCGCTGTATGGCCCGAGCAGTCCGGACTTTACCCCGCCGCTGTCGCATAAAGCGCGCGTGATCCGTCTGATTACCGGCTACCACAAGGTGCGCAAAGGCGATGCCGCGGAAGGTTATCATCAGAGCCTGATCGACATTACGCCAGAGCGCGTCCTGCAAGAGCTGAACGAATTGCTGACGGAAAAAACCGGGCACGAGGAAGCGTAG	MKILVVGPSWVGDMMMSQSLYRTLRARYPQAIIDVMAPAWCRPLLSRMPEVNEAIPMPLGHGALAIGERRKLGHSLRERRYDRAYVLPNSFKSALVPFFANIPLRTGWRGEMRYGLLNDARVLDKDAWPLMVERYVALAYDNGVMRCAKDLPQPLLWPQLQVNEGEKSQACSAFNLSNDRPIIGFCPGAEFGPAKRWPHYHYAALAKKLIDDGYQIALFGSAKDNEAGKEIIAALSSEQQAWCRNLAGETQLEQAVILIAACKAVVTNDSGLMHVAAALDRPLVALYGPSSPDFTPPLSHKARVIRLITGYHKVRKGDAAEGYHQSLIDITPERVLQELNELLTEKTGHEEA	PGPT0022510_358	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022510-waaF|rfaF-K02843	NA	NA
BMS020_03209	972	rfaC	COG0859	Lipopolysaccharide heptosyltransferase 1	ATGCGGGTATTGATTGTAAAAACCTCATCGATGGGGGACGTGCTGCACACGCTGCCCGCGCTGACCGACGCCGCGCAGGCCATCCCCGGCATCCGCTTCGACTGGGTTGTGGAAGAAGGCTTCGCGCAGATCCCCTCCTGGCATGACAGCGTCGAGCGGGTGATCCCGGTGGCGATCCGCCGCTGGCGTAAAGCCTGGCTCTCCGCGCCGATCAAAGCGGAGCGTAAAGCCTTTCGCGAGGCCGTCCAGGCGGTCAAGTATGACGCCATTATCGACGCCCAGGGGCTGGTGAAAAGCGCTGCGCTGGTCACCCGTCTGGCGCACGGCGTCAAGCATGGTATGGACTGGCAAACGGCCCGCGAGCCGCTGGCCAGCCTGTTTTACAACCGCCGCCACCACATTGCGAAACAGCAGCACGCGGTGGAGCGTACCCGCGAGCTGTTCGCCAAAAGCCTCGGCTACGCGAAACCCCAAACCCAGGGGGATTACGCCATTGCGCGCCATTTCCTGCAGCACGAGGCTAGCGCTGCCGCCCCCTATCTGGTGTTTCTGCATGCCACCACCCGCGACGATAAGCACTGGCCGGAAAACCGCTGGCAGGAACTGCTCGATCTGCTGGCCGACAGCGGCGTCCGCATTAAGCTGCCGTGGGGCGCCCCGCACGAAGAGGCGCGGGCGAAGCGGCTGGCGGAAGGCCGGGAGTATGTTGAAGTGCTGCCGCGCATGAGCCTTGAGCAGGTGGCGCAGGTTCTGGCCAGCGCCCGGGCCGTCGTCTCGGTCGATACCGGCCTGAGTCATCTGACCGCCGCGCTGGATAAACCGAACTTCACGCTCTACGGCCCGACCGATCCGGGGCTGATTGGCGGATACGGTAAAAACCAGCACATCGTGCGGCCGGAAAACAGCGCCAGCACCGGCGATATTACCGCCAGCCGGGTTCATCTTCTTCTGCAAAATCAGGGGCTGCTCTGA	MRVLIVKTSSMGDVLHTLPALTDAAQAIPGIRFDWVVEEGFAQIPSWHDSVERVIPVAIRRWRKAWLSAPIKAERKAFREAVQAVKYDAIIDAQGLVKSAALVTRLAHGVKHGMDWQTAREPLASLFYNRRHHIAKQQHAVERTRELFAKSLGYAKPQTQGDYAIARHFLQHEASAAAPYLVFLHATTRDDKHWPENRWQELLDLLADSGVRIKLPWGAPHEEARAKRLAEGREYVEVLPRMSLEQVAQVLASARAVVSVDTGLSHLTAALDKPNFTLYGPTDPGLIGGYGKNQHIVRPENSASTGDITASRVHLLLQNQGLL	PGPT0022495_959	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022495-waaC|rfaC-K02841	NA	NA
BMS020_03210	909			hypothetical protein	ATGGGATCCCTGTTTAAGCAGATCTATCGCTACACCCGCCCTCGCGCTTATCGTCACAATGAAAATCTGTGGCCTTTTACCCGCATCACCCGCGCGCCGAGCGGCGAAATCAGCGCGTTGCGTTATAAAGGGAAAACGGTGCCGCTGGTCAGCCTGAGCGCGCTGAAAAACAGCATGCAGGGCGAAGTCCTGCTGACCGCCACTGGCCCTTCGACCCGCAATATCGATTTTTCCCTGTTGTCGAAAACGATCCCGGTGATGGGCGTCAATGGCGCCTGGCATCTTGCCGACCGACTGCACTTTTCGCTCTATACCATCGTCGACATGGAGTTTTTCGATAAGAAGCCGGACATTATCCGCGCCATCGTCAGTCAGCCGGACATTCTGCTGTTCACCACCATGCATGGGATCGCCAAAATCGTCGATCGCCATGCGGACGCGCTGCGCTGCCGTTTGGCGTTGATTGAGGACGGTTGCTATAAGATTTACCAGCCGAAAGTCGCCAGCGAAGCGATAAAGCGCACTTACCAGCAGAATCCGGCGATGTGCTTTCATCCCCAGCGCCCGGATATCTGTTTTAGCACCGATATTCGCCAGGGCGTCTTTGATGCCGGCACGGTGGTCTACTGGGCGCTGCAGATCCTCGCCTGGCTGGGCTTCAGCACTATCCTGGTGAGCGGTCTGGATATGACTAACTTCAACCAGCCGCGATTCTACGAAACACAACAAGAAAAATTGCCTTCGTACCTGGCAACAAAAGTGGATACCCTCGTCATGCCCTCCTTTGCGCATGCCGCGCAGGTACTGCAGCAACGCCAGATCCGGGTCATTAATTTTTCACCAGAAAGCGCTGTGCCGGACACTATTTTCGAAAAGGTTGCGTTTAATGAGTACTTTAAAAATGAGTAA	MGSLFKQIYRYTRPRAYRHNENLWPFTRITRAPSGEISALRYKGKTVPLVSLSALKNSMQGEVLLTATGPSTRNIDFSLLSKTIPVMGVNGAWHLADRLHFSLYTIVDMEFFDKKPDIIRAIVSQPDILLFTTMHGIAKIVDRHADALRCRLALIEDGCYKIYQPKVASEAIKRTYQQNPAMCFHPQRPDICFSTDIRQGVFDAGTVVYWALQILAWLGFSTILVSGLDMTNFNQPRFYETQQEKLPSYLATKVDTLVMPSFAHAAQVLQQRQIRVINFSPESAVPDTIFEKVAFNEYFKNE				NA	NA	NA	NA	NA
BMS020_03211	1155			hypothetical protein	ATGAGTAACTACGCCAGACAGGGTTACTCGATTGTTTTTCCTTTGTTTTTATTTTTCAGCGCGATTTTTTGCATGTCCACCCGGACCAATAACCTGCTGCATTTATCGATCCTGCTGCTCTTGCTCTCGCTGGTACGCCCGGAAAACCGCCAGGCGCTGGCCGGCGTGTTACGCGAACAGTGGCAGACCTGGGCGCTGCTGGCGGTCTTCTTTATCTATTACGCCCTCAGTAACCTGTGGGGCCATACGCCGCAGCATATCGACTCGCCGATCACCCACGGCGTGTACCTGACGGGCTATCTGTTGCTGATGGCGATGCTGCTCAGCGACGAACGAACCCGCCGCCTGGCCATGCTGGCGGTGGTTGGCGGGATCACTGTGCTCTCGCTGTGGACGCTGATGTTCGACCACACCCTGGTCCTCACCGAACGGGCGGTCTCCCCCGAGAACCCCGGGCCAACAAACGTTATCGACCTTGCCGGATACTGCGGCATCGGCATCTTAATCTGCGGCATGCTGCTGAAAGAAAAAGCCAGCCACTGGCTCTATCTGCCAGTGGCCATCATGCTGGTGATGATGCTGCTGACCCAAAGCCGCGGGCCGATCATCGCCCTGGTGCTGGCGGTCGGCTGTACGCTGCACCTGCACGTCTTCACCCGCCGCAACCTGCTGATCGCCGCGGCGCTGGCCGTGCTGGTGGCTCTGCTTTTGGTCATGACGCCGGTGGGCGACATGCTGCTCGCCCGTTTCGAAGAGTTGGGCACCCAAAGCGGACTGCGCCTGAGCATCTGGCACCATACACTGTCGGAGATGGCCAGCCAGCCCTGGCTGGGACGCGGTTTCAGCTATGAACTGGATTTCATCAACTACAGCGGCGAACACATCACCACCACCCACAGTGTATATATGGGCGCCCTGCTGAAAGGCGGCATCGTAGGTTTACTGCTGTTGCTGGCGGTCATTGCCTGCGGACTGTGGCAGGCGTGGCGCAAGCGCCGCTCCGACAGCCGCTACAGTCTGGCGATCCTGTTTTACGCGCTGGTATTTATGGCCTCGCAGGGGATGTTTATCATCAGCAACCCCCGGGAAACCTGGGTGCTGTTCTGGCTGCCGCTGGGCATTGCGCTCAGCAAAGGGCTGGCGGAAAAGCGTTAA	MSNYARQGYSIVFPLFLFFSAIFCMSTRTNNLLHLSILLLLLSLVRPENRQALAGVLREQWQTWALLAVFFIYYALSNLWGHTPQHIDSPITHGVYLTGYLLLMAMLLSDERTRRLAMLAVVGGITVLSLWTLMFDHTLVLTERAVSPENPGPTNVIDLAGYCGIGILICGMLLKEKASHWLYLPVAIMLVMMLLTQSRGPIIALVLAVGCTLHLHVFTRRNLLIAAALAVLVALLLVMTPVGDMLLARFEELGTQSGLRLSIWHHTLSEMASQPWLGRGFSYELDFINYSGEHITTTHSVYMGALLKGGIVGLLLLLAVIACGLWQAWRKRRSDSRYSLAILFYALVFMASQGMFIISNPRETWVLFWLPLGIALSKGLAEKR	PGPT0023135_1461	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023135-waaL|rfaL-K02847	NA	NA
BMS020_03212	1080			hypothetical protein	ATGCGTATCCTTAAACAATTGACGCGGAAAAAGAACGCTTTTTTCCGCGGTATTAAATTTAATTTAATTAACTATCGATACAGAAATAAGCCGGCGCGCAAACCCTTCGACCCGGCCCCCGTGCGCCGCGTGCTGCTATTGCGCCTGGACGATAAAGTCGGCGATATGGTGGTGACCACCGGCTGCGCCAGAATACTGGCCGAACGGGGATATCAGGTTTCGGTGTTAACCGGACCAATATGCTGCGAAATATTAGCCGGCTCAGAATTCATTGAGCAAGTATATTTATATCGACCACGCATGTCCTTAAATACGTTACGGGCGGCGGGTTTTGATGCGGTTATCGATTTTGATGACGTGACCAGCTATGAACGCTTTAAATTACTCGCCGATTTACGGGCGACCAGCGTGATTGGCTTTAATAAAGAGCCCTATAAACTTTACGATCATTCGATCGCTTTTTTTGACAGCAACAGCCATATTTCCCTGCGCTATCAACAGGTGGTGAAGCTTTTTGGCGTCGTTGACGACCAGCCATACGACTATCATCTCCCCGGCTGTCGCCATGAGCGGGAGAAAGTGGCGCGCTTGCTTTCCCAGGCCGGAGAGGTCGCACTGCGCATCGCCATTAACCCTTTTACCGCCTCCGAGGATAAAGACTTCTGTCGTCATCAGGTGGCGACCCTGGTCGAGCGGCTACATGCTCTGCCTTACCGGGTCTGTATCGTGATGGTGGGTCGCAGCGAGAAAATTCAACAGCTGGGGCTGGATATGGCGCTGTACGTCGCCGACAGCACTATCAACTCCGCCGTGGAGGTGATTCGCAGCTGTGATTTAGTCATTACGCCGGACACCTCGATCGTGCATATCGCCCGCGCTTTCGATAAACCGATGGTGGCGGTCTATAACAAACGCAAACTCAAGGATACCGGGCTGCCCGGCTATCATATCTGGGCGCCGGGCTATGACAAAGCGAGGCAGATCGTTTGTGAAGAAGCGAATGTCGCCGATGTGGCGATTGAGTCGGTATGGCCGGTGATTAAAGAGCAGGCCGACCGGCTGGTCGCCGCCCGCAGTTAA	MRILKQLTRKKNAFFRGIKFNLINYRYRNKPARKPFDPAPVRRVLLLRLDDKVGDMVVTTGCARILAERGYQVSVLTGPICCEILAGSEFIEQVYLYRPRMSLNTLRAAGFDAVIDFDDVTSYERFKLLADLRATSVIGFNKEPYKLYDHSIAFFDSNSHISLRYQQVVKLFGVVDDQPYDYHLPGCRHEREKVARLLSQAGEVALRIAINPFTASEDKDFCRHQVATLVERLHALPYRVCIVMVGRSEKIQQLGLDMALYVADSTINSAVEVIRSCDLVITPDTSIVHIARAFDKPMVAVYNKRKLKDTGLPGYHIWAPGYDKARQIVCEEANVADVAIESVWPVIKEQADRLVAARS				NA	NA	NA	NA	NA
BMS020_03213	963			hypothetical protein	GTGCACAATCCCGCATTTCTCATCACGATTGATACAGAGGGCGATAACCTCTGGCAAAAACATGACAGCATCACCACCGAGAATGCGCGTTATCTCCCGCGTTTTCAGCAGCTTTGCGAAAAGTATGGCTTTAAACCGGTCTATTTGACCAATTATGAAATGGCCATCGATCCCTTTTATATCGAATTCGCCAGAGACGTGATTGCCCGCGGCACCGCGGAAGTCGGTATGCATCTGCATGCCTGGAACAGCCCGCCGACCGAGCCGCTGACCGCCGATGACTGGCGGCATAAGCCTTATCTCATTGAATATAGCGATGCCATGATGCGTGAGAAGGTCGACTATATGACGCGTCTGCTGGAGGACACCTTCCAGACCAAAATGGTTAGTCATCGCGCCGGGCGCTGGGCCTTTGACGAGCGCTATGCGCGTCTGCTGGTGGAGTACGGGTATCAGGTGGATTGCTCGGTGACCCCGCGGGTGAACTGGAAGACCGCAAAGGGGGCGCCGCAGGGCGATGGCGGGACCGATTATCGTCGCTTCCCGCAGCATGCCTATTTCCTCGATGAAAATGACATCAGCCGCGAGGGCCGCTCGCCGCTGCTGGAAGTGCCGATGAGCATTCAGTACAAGCACTCCGCGTGGATGAACAGCGTGAAGCAGGGCTACGACCGCCTGCGCGGCAAAGTGCGTTCCCCCTCCGTGCACTGGCTGCGTCCGATGGGCGGCAACGTGGAGACGATGAAAAAAGTCGTCGAACAAACGTTGACGCAGGGCAATGACTACGTGGAATATATGCTCCACTCTTCAGAATATATGCCCGGCGGCAGCCCCACGTTCCAGAATGAACGGGATATTGAGCGTTTATACGCTGACCTTGAAGCCTTTTTTAGCTGGCTGGCGCCGCAGGTGAAGGGCATGACGTTGGCAGAATATTACCAGCGGAAAATCACACAGCGCTAA	MHNPAFLITIDTEGDNLWQKHDSITTENARYLPRFQQLCEKYGFKPVYLTNYEMAIDPFYIEFARDVIARGTAEVGMHLHAWNSPPTEPLTADDWRHKPYLIEYSDAMMREKVDYMTRLLEDTFQTKMVSHRAGRWAFDERYARLLVEYGYQVDCSVTPRVNWKTAKGAPQGDGGTDYRRFPQHAYFLDENDISREGRSPLLEVPMSIQYKHSAWMNSVKQGYDRLRGKVRSPSVHWLRPMGGNVETMKKVVEQTLTQGNDYVEYMLHSSEYMPGGSPTFQNERDIERLYADLEAFFSWLAPQVKGMTLAEYYQRKITQR				NA	NA	NA	NA	NA
BMS020_03214	1077	rfaQ	COG0859	Lipopolysaccharide core heptosyltransferase RfaQ	ATGACGCCTGAAACCCTCTCCCACAGCCCCTTGAACCCGGCGCGGATCCTGGTCATTAAGCTGCGCCATCATGGCGACATGCTGCTGATCACCCCGCTTATTCACGCGCTGAAACAGCAGTATCCCGCCGCCAGCGTGGATGTCCTGCTGTATGAAGAGACCCGGGATATGCTCGCCGCCAACCCCGATATCCACCATATTTATGGTCTCGACCGCCGCTGGAAAAAGCAGGGGAAAAAGCATCAGCTGAAGATGCAATGGCAGCTCATTCAGACGCTGCGCCAGCAGCGATACGATATGGTGCTCAACCTTGCCGACCAGTGGCCGAGCGCGATTATCAGCAAACTGACCGGCGCCGCGACGCGGATCGGCTTTGATTTTCCGAAGCGTCGCCACCCATTCTGGCGCTATTGCCACACCGCGCTGGCCGCCACCCAACAGCATAATCAGCTGCATACGGTACAGCAGAATCTCTCTATCCTCGCTCCGCTCGGTATCCAGTTGAACGACGCCCCGGCGCGGATGGGCTACAGCGAAGCAGACTGGGCCACCAGCCGCGCCCTGCTGCCGGAGGACTTCCGGGATAACTACATCGTCATCCAGCCAACGTCGCGTTGGTTCTTTAAATGCTGGCGCGAAGACAGGATGAGCGCGCTGATCAACGCGCTGTCCGCCGAAGGGTACGCGGTGGTACTCACCTCCGGCCCCGACGATAGAGAGAAGAAGATGGTGGAGACCATCATCGCCGGCTGCCCGCAGGCGCGGCTGCACTCTTTAGCCGGCCAGTTAACGCTGCGCCAGCTGGCGGCGGTGATCGATCACGCCCGGCTGTTTATCGGCGTCGACTCGGTGCCGATGCATATGGCTGCGGCTCTCGGCACCCCGCTGGTCGCCCTGTTCGGCCCCTCGAAGCTGACCTTCTGGCGTCCATGGCAGGCGAAAGGCGAGGTGATCTGGGCAGGCGACTTCGGTCCGCTGCCCGACCCGGACGCCATCAACACCAACACCGACGAACGTTATCTCGATTTAATTCCTACCGACGCCGTGATCGCGGCGGCGAAAAAGGTACTGGCATGA	MTPETLSHSPLNPARILVIKLRHHGDMLLITPLIHALKQQYPAASVDVLLYEETRDMLAANPDIHHIYGLDRRWKKQGKKHQLKMQWQLIQTLRQQRYDMVLNLADQWPSAIISKLTGAATRIGFDFPKRRHPFWRYCHTALAATQQHNQLHTVQQNLSILAPLGIQLNDAPARMGYSEADWATSRALLPEDFRDNYIVIQPTSRWFFKCWREDRMSALINALSAEGYAVVLTSGPDDREKKMVETIIAGCPQARLHSLAGQLTLRQLAAVIDHARLFIGVDSVPMHMAAALGTPLVALFGPSKLTFWRPWQAKGEVIWAGDFGPLPDPDAINTNTDERYLDLIPTDAVIAAAKKVLA	PGPT0022550_443	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022550-waaQ|rfaQ-K02849	NA	NA
BMS020_03215	1128	rfaG		Lipopolysaccharide core biosynthesis protein RfaG	ATGAGTAAATTCAGGCTGGCTCTGGTGCGGCAGAAGTACCGCCCGGACGGCGGCGCAGAACGGTTTGTCTCCCGCGCGCTGGAAGCCCTCGACAGCAGTCATCTGCAGCTGAACGTCATCACCCGCGAATGGCAGGGGCCGGTGAAACCGGACTGGCAGATCCATATCTGTAATCCGCGCAAATGGGGGCGCATCAGCCGCGAGCGCGGGTTTGCCAACGCCGCGCGGGCGCTCTGGCAGCGCGAATCTTTCGACCTGGTGCAGAGCCATGAGCGTATTCCCGGCTGCGATCTCTACCGCGCCGGCGACGGCGTTCATCGCCGCTGGCTGCAACAGCGCTCGCGCATTTTACCGGCCTGGAAAAGCCGCCTGCTGTTCGCCGACCGCTACCACCGTTATGTGATGCAAGCGGAACGGGAGATGTACGAAGACCCGCATCTGCGCGGGGTGATCTGCAACGCCGAGATGATCAAACGCGAGATCATCGAAGACTTTGGCCTGCCGGCGGACAAGATCCACGTTATCTATAACGCCATTGATAACCAGCGTTTCCTGCCGCCGGGCGAAGAAACTTTTGCCGCCTTACGCGCCAAATGGCAGTTGCCGCTGCAGGCAACGTGTCTGATTTACGTCGGCTCCGGCTTTGAGCGTAAAGGGCTGGCGGCGGCGATCCGCGCCATCGCCCCGACCGATCGCTATCTGCTGGTGGTTGGCAAAGATAAAGATCAGCCGCGCTATCAGGCGCTGGCGAAGAGTCTCGGCTGCGAAGCGCGGGTGCGCTTCTTCGGCATGCAGTCGGAGACGCTGCCGTTCTATCAGATGGCTGATGGCCTGCTGCTGCCGACCCTCTACGATCCGTTCCCCAACGTCATCCTTGAGGCAATGGCCTGCGGTCTGCCGGTGATCACCACCACCGGCTGCGGCGGGGCGGAGTTTATCGTCAACGGCCACAACGGTTACGTCTGCGACGCCCTGGATATCCCGGCGCTGCAGCAGGCGGTGATGGCCCTGCCTGCCCGCGCGCTGGGCTCCGCGGAAGGCGACCGCGCCCGCGAGCGCATCATGGCCTGCACCAGCGAGCGCCTCTCAACCCAGCTGCTTTCCCTTTATCAGGATCTGGTGAAATAA	MSKFRLALVRQKYRPDGGAERFVSRALEALDSSHLQLNVITREWQGPVKPDWQIHICNPRKWGRISRERGFANAARALWQRESFDLVQSHERIPGCDLYRAGDGVHRRWLQQRSRILPAWKSRLLFADRYHRYVMQAEREMYEDPHLRGVICNAEMIKREIIEDFGLPADKIHVIYNAIDNQRFLPPGEETFAALRAKWQLPLQATCLIYVGSGFERKGLAAAIRAIAPTDRYLLVVGKDKDQPRYQALAKSLGCEARVRFFGMQSETLPFYQMADGLLLPTLYDPFPNVILEAMACGLPVITTTGCGGAEFIVNGHNGYVCDALDIPALQQAVMALPARALGSAEGDRARERIMACTSERLSTQLLSLYQDLVK	PGPT0022515_228	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022515-waaG|rfaG-K02844	NA	NA
BMS020_03216	1095	pglJ	COG0438	N-acetylgalactosamine-N,N'-diacetylbacillosaminyl-diphospho-undecaprenol 4-alpha-N-acetylgalactosaminyltransferase	ATGCGCATCTTATTTGTGATTGACGGATTGCCCGGCGGCGGCGCGGAGAAAGTGGTTCTCACCCTGGCGGCGCAGTTCCTGCGCGACGGCGATCGGGTCTCGCTCATTTCGCTACGCGACGTCTGCGAGTACCCATTGCCCGAGGGGCTCGACTACCAGGTGGTGGCCGATCGCTGCCGCAAACCGTGGCGCAAGCTGACCGAGCTGTCCCGCCGCGCCCGCCAGCTGGACGCCGCGGTCATCCGGGCCGAGCAGCAGGGACAATTTGACCTTGTGCTCTCCAACCTGCACAAAACCGACCGCATCGTCGCCCGCAGCCGGGCGCTGCGCGAGCGCAACGTCTGGTTCTGCCTGCACGGCGTCTTCTCGGCCTCTTATCTTGGTCACCGTACCGGCTTTGATCGCTGGATGAAGCAGCAGAAAATTAAGCGGATTTACCAGGGGCGCAACGTGGTGGCGGTTTCCGACGCCGTGGGGCGCGATCTGGTGGACGCTTTCGCCCTGCGCCCGGCGCAGCTGAAAACCATCTATAACCCCTTCGATATCGCCGCCCTGCGCGCCGGGGCGGAAGCCGACAGCGAGCGCCCGGACGGCGACTACCTGATTCACGTCGGCCGCTTCCATCCCGGCAAACGCCACGACCGCCTGCTCGAAGCCTACGCGCAAAGCGGCATCGACGCGCCGCTGGTGCTGTTAGGCCAGGGGAAACCGGAGCAAGAGCAGCGCCTGCGCCAGCTGGCCAAAACGCTGCAGATTGACGACCGGGTGTGGTTCAAAGGTTTTCAGGAAAACCCCTTACCGTGGATCAAAGGCGCGCGGATGCTGGTTTTGAGCTCGGATAGCGAAGGATTCGGCAATGTGGTGGTGGAGGCGCTGCTGTTGCATACCCCGGTCGCCAGCACCCGCTGCCCCGGCGGCGTCACCGAGATCCTCACCGGCGAACTTGCCCGCGGTCTGGCGGATCTCACCAGTCCGGCGCTGGCTCAGACGATGCAAAGCATTTACCATAACCCGCCGGCCATCGACGATGCCGCGCTGGAAAAATTCAGCGTCGTGTCCATTTGTCAGCAGTACCGTCAGCTGCAGCGCATCTGA	MRILFVIDGLPGGGAEKVVLTLAAQFLRDGDRVSLISLRDVCEYPLPEGLDYQVVADRCRKPWRKLTELSRRARQLDAAVIRAEQQGQFDLVLSNLHKTDRIVARSRALRERNVWFCLHGVFSASYLGHRTGFDRWMKQQKIKRIYQGRNVVAVSDAVGRDLVDAFALRPAQLKTIYNPFDIAALRAGAEADSERPDGDYLIHVGRFHPGKRHDRLLEAYAQSGIDAPLVLLGQGKPEQEQRLRQLAKTLQIDDRVWFKGFQENPLPWIKGARMLVLSSDSEGFGNVVVEALLLHTPVASTRCPGGVTEILTGELARGLADLTSPALAQTMQSIYHNPPAIDDAALEKFSVVSICQQYRQLQRI				NA	NA	NA	NA	NA
BMS020_03217	990			hypothetical protein	ATGAGTCAAACGCCTTTACTGAGCATCGTGGCTGCCGTCTACAACGGTGAGAAATTTCTTGCGCAATTCTTTGAGTGCATTGAACAGCAGCAGCTGGACAGCTATGAACTGATCCTGGTGAACGATGGGTCGACGGACAACAGCCTGGCGGTGATCGCCGAATGGCGGGATCGGCTGCAGAACGTCCAGGTGCTGGAGCAGGAAAACCAGGGCGTCTCGGTCGCGCGCAATACCGGCCTGGCGGTTGCCAGCGGCAAGTACCTCGCGTTTCCGGACATCGACGATAAACTCTATCCGGGCATGTATCGCACGCTGCTGGAGATGGCGGAGAAAGCACATCTCGATGTCGCCACCTGCAACGGCACCTACGTGTACGAAAAGCGCCGCGAGAGCCACCCGATCTTTCCGCTGGATCGCTTGCCCTCGACCGGTGTGCTGCCGGGCCATGTCTGGCTCAAGCAGGCCCTGGACTCGCGGAAATTTCTGCACGTCACCTGGCTCAATATCTATCGCCACGATTTTATCCGCCAGCATCACTTCCATTTCGAACCCGGCCTGCGCCATCAGGATATCCCGTGGACCACAGAGGCGCTGCTGGCCGCGGAGCGCGTGCAGTACACCAGTCAGCAATTCTATGATTACTACATCCACTCTGAGTCGGTGTCGCATAAGCCGGACAACGACGACACGCTGATGCGTTCGGCGCGCCATTACATGAAAATTCTGGAGATGCTGGAGGCGATCAACCAGCGTTACCCGGACAAAGTGCGCCATATCGCCGCCTGTCGCTGGCAGATCGCCAAAGAAGGCCTGGGGATCATCCACACCTTCGACAGTATGAAAGATGAGTCGAAAAAGCATGTTATCATTAAAGAATTCTTCGACCGCGGTATCTGGCGGTTAATCTGGAAAAACGCCTGTACTTTCCGTTTACGCTGGCGCCTGGGACGCCGTTATCTGCGTATTAAGCGTTATCGCCACGCGGGATAG	MSQTPLLSIVAAVYNGEKFLAQFFECIEQQQLDSYELILVNDGSTDNSLAVIAEWRDRLQNVQVLEQENQGVSVARNTGLAVASGKYLAFPDIDDKLYPGMYRTLLEMAEKAHLDVATCNGTYVYEKRRESHPIFPLDRLPSTGVLPGHVWLKQALDSRKFLHVTWLNIYRHDFIRQHHFHFEPGLRHQDIPWTTEALLAAERVQYTSQQFYDYYIHSESVSHKPDNDDTLMRSARHYMKILEMLEAINQRYPDKVRHIAACRWQIAKEGLGIIHTFDSMKDESKKHVIIKEFFDRGIWRLIWKNACTFRLRWRLGRRYLRIKRYRHAG	PGPT0022520_124	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022520-waaH-K19354	NA	NA
BMS020_03218	1275	waaA_1	COG1519	3-deoxy-D-manno-octulosonic acid transferase	TTGGAATTGCTTTATACCACCCTACTTTACCTTATTCAGCCGCTGGTGTGGCTGCGGCTGCTGCTGCGCAGTCGTAAGGCTCCTGCCTACCGTAAACGCTGGGCGGAACGCTATGGCTTCTGTCAGAACAAGGTAGAGCCGGATGGCATTCTGCTGCACTCCGTTTCCGTCGGCGAGACCTTAGCCGCCATCCCGCTGGTTCGCGCCCTGCGCCACCGCTACCCTTCTCTGCCGATCACCGTCACCACCATGACGCCGACCGGCTCCGAGCGCGCCATGTCGGCCTTCGGCAAAGATGTCCATCACGTCTATCTGCCCTACGATCTGCCCGGCGCCATGAACCGCTTCCTGGACACCGTTCAGCCGAAGCTGGTGATCGTCATGGAGACCGAACTGTGGCCGAATATGGTAGCCGCGCTGCATAAGCGTAAGATCCCGCTGGTGATTGCCAACGCCCGCCTGTCCGAACGTTCCGCCAAAGGCTATGCCAAACTGGGCGGCTTTATGCGCCGCCTGTTGAGCCGTATTACGCTTATCGCCGCGCAGAATGAAGAAGATGGCAACCGCTTCCTCGCGCTGGGACTGAAGCGCAACCAGCTGGCGGTCACCGGCAGCCTGAAATTCGATATCTCCGTCACGCCAGAACTGGCGGCCCGCGCGGTGACGCTGCGCCGGCAATGGGCGCCGCACCGCAAAGTCTGGATTGCCACCAGCACCCACGATGGCGAAGAGCAAATTATCCTCCAGGCGCATAAAAAGCTGCTGGAGACCTTTCCGAACCTGCTGCTGATCCTTGTTCCTCGCCATCCGGAGCGCTTCCCTGACGCCCGCGACATGGTGCAAAAAGCCGGAATGAGCTTCACTCTGCGCAGCACCGGCGAGATCCCCTCCTCCAGTACCCAGGTGGTCATTGGCGATACCATGGGCGAACTGATGCTGCTCTACGGCATTGCCGACCTCGCTTTCGTCGGCGGCAGCCTGGTGGAGCGCGGCGGCCATAACCCGCTCGAGCCAGCGGCGCACGCCATTCCGGTGCTGATGGGGCCGCATACCTTCAATTTCAAAGATATCTGCGCCAAGCTGCAGCAGGACGATGGCCTGATCACCGTCACCGACGCTAACTCGCTGGTCAAAGAGGTTTCCACGCTGCTGACCGATGAAGACTACCGCCTGTGGTATGGCCGTCACGCGGTGGAAGTGCTGCACCAAAACCAGGGCGCGCTGTCGCGTCTGCTACAGTTACTGCAACCTTACCTGCCGCAGCGGAGTCATTAA	MELLYTTLLYLIQPLVWLRLLLRSRKAPAYRKRWAERYGFCQNKVEPDGILLHSVSVGETLAAIPLVRALRHRYPSLPITVTTMTPTGSERAMSAFGKDVHHVYLPYDLPGAMNRFLDTVQPKLVIVMETELWPNMVAALHKRKIPLVIANARLSERSAKGYAKLGGFMRRLLSRITLIAAQNEEDGNRFLALGLKRNQLAVTGSLKFDISVTPELAARAVTLRRQWAPHRKVWIATSTHDGEEQIILQAHKKLLETFPNLLLILVPRHPERFPDARDMVQKAGMSFTLRSTGEIPSSSTQVVIGDTMGELMLLYGIADLAFVGGSLVERGGHNPLEPAAHAIPVLMGPHTFNFKDICAKLQQDDGLITVTDANSLVKEVSTLLTDEDYRLWYGRHAVEVLHQNQGALSRLLQLLQPYLPQRSH	PGPT0022485_1834	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022485-waaA|kdtA-K02527	NA	NA
BMS020_03219	777			hypothetical protein	ATGTCGAACCGGCTTTCCGTGGTGATGATCGCCAAAAACGCAGTGGACCTGCTGCCGGATTGTCTGGACTCCGTTAGCTGGGCGGATGAAATTATCGTCCTCGACTCCGGCAGTACCGACGGCACCGTCGAGCTGGCTCGCCGCCTCGGGGCGCAGGTCTATACCCATACCGACTGGCGAGGCTATGGCATTCAGCGCCAGCGCGCGCAGGACTACGCCACCGGCGACTGGGTGTTGATGATCGATACCGATGAGCGCGTCACGTCGGAACTCAGGCAGGCTATTCTTACGGTACTGGCAGCCCCGCAGCGCGGCGCCATCTACAGCATCGCCCGCCGTAACTATTTTCTCGGACGCTTTATGCGCCACAGCGGTTGGTACCCCGATCGCGTCCTGCGCCTGTACGAACGCGCCCGTTACCGCTATAACGATAATCTGGTCCATGAATCGCTGGATAGCCTGGGCGCCGAGGTCATTCCGTTGACCGGCGATCTCCTGCATCTGACGTGCCGCGACTTCGCTGGCTTTCAGCAAAAACAGCTGGCGTATGCCGCCGCATGGGCGCTAGAACGCCACCAGAAGGGCAAGAAGACCTCGATGGCGGGGATATTCAGCCACACGCTGGGCGCGTTCCTGAAAACGCTGCTGCTGCGCGGTGGGGTGCTGGACGGTAAGCAGGGCTGGTTACTGGCGATGGTCAACGCGCAGTATACGTTTACGAAATATACCGAGCTGTGGGCGCTGAGCCACGGCTACTCGGAGAAAGAGTCATCATGA	MSNRLSVVMIAKNAVDLLPDCLDSVSWADEIIVLDSGSTDGTVELARRLGAQVYTHTDWRGYGIQRQRAQDYATGDWVLMIDTDERVTSELRQAILTVLAAPQRGAIYSIARRNYFLGRFMRHSGWYPDRVLRLYERARYRYNDNLVHESLDSLGAEVIPLTGDLLHLTCRDFAGFQQKQLAYAAAWALERHQKGKKTSMAGIFSHTLGAFLKTLLLRGGVLDGKQGWLLAMVNAQYTFTKYTELWALSHGYSEKESS	PGPT0022505_134	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022505-waaE|kdtX-K12984	NA	NA
BMS020_03220	480	coaD_1	COG0669	Phosphopantetheine adenylyltransferase	ATGAGCACAAAAGCGATCTATCCGGGTACCTTCGATCCCATCACCAATGGCCATATCGATATCGTCACCCGCGCGGCGAGTATGTTCGATAAAGTGGTGCTGGCTATCGCCGCCAGCCCGAGTAAAAAGCCGATGTTCAGCCTTGATGAACGTATTGCGCTGGCGGAGCAGGCGACGGCCCACCTGGTGAATGTTCAGGTGGTCGGCTTCAGCGACCTGATGGCCAGCTTCGCGCGCGCGCAGCAGGCCAATATCCTGATCCGCGGCCTGCGGGCGGTGGCGGATTTCGAATATGAGATGCAGCTGGCCCATATGAACCGCCATTTGATGCCCACCCTTGAGAGCGTGTTCCTGATGCCGTGCAAAGAGTGGTCGTTTATCTCCTCTTCGCTGGTCAAAGAAGTCGCGCGCCACCAGGGCGATGTCTCTCACTTCCTGCCAGCCAACGTCCACCAGGCGCTGTTGAATAAGCTGAAGTAA	MSTKAIYPGTFDPITNGHIDIVTRAASMFDKVVLAIAASPSKKPMFSLDERIALAEQATAHLVNVQVVGFSDLMASFARAQQANILIRGLRAVADFEYEMQLAHMNRHLMPTLESVFLMPCKEWSFISSSLVKEVARHQGDVSHFLPANVHQALLNKLK	PGPT0008825_3314	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
BMS020_03221	810	mutM_1	COG0266	Formamidopyrimidine-DNA glycosylase	ATGCCTGAATTACCAGAGGTTGAAACCAGCCGCCGCGGCATTGAGCCGCACCTGGTTGGCGCAACCATTCTGCACGCCGTCGTGCGCAACGGACGGCTGCGCTGGCCGGTTTCTGAAGAGATTTATCGCCTGAGCGACGTTCCGGTGCTCAGCGTGCGTCGTCGCGCCAAATACCTGCTTCTGGAACTCCCGAACGGCTGGATCATTGTCCATCTCGGGATGTCGGGAAGCCTGCGCATCCTGAGCGAAGAGCTGCCTGCGGAAAAACACGATCACGTTGATCTGGTTATGAGTAACGGTAAAGTCCTGCGCTATACCGATCCGCGCCGCTTTGGCGCCTGGCTGTGGACCAAAGAGCTGGAAGGCCACCCGGTGCTGGCGCATCTGGGGCCGGAGCCGCTGAGCGACGCCTTCAACGCCGATTATCTCCAGCAGAAATGCGCGAAGAAGAAAACCGCGATCAAACCCTGGCTGATGGATAACAAGCTGGTGGTGGGCGTCGGCAATATCTACGCCAGTGAATCGCTGTTCTCCGCCGGGATCCACCCTGACAGGCTGGCGTCCTCACTGTCGCGGGACGAGTGCGAGCAGCTGGTGAAGGTGATTAAGCTGGTCCTGCTGCGTTCGATAGAGCAGGGCGGCACCACGTTGAAGGACTTCCTGCAAAGCGATGGCAAGCCCGGCTATTTTGCCCAGGAGCTACAGGTCTATGGCCGCAAGGGCGAACCCTGCCGGATCTGCGGCACGCCGGTTGTCGGGACCAAGCATGCCCAGCGGGCGACCTTTTATTGCCGCCAGTGTCAGAAATAG	MPELPEVETSRRGIEPHLVGATILHAVVRNGRLRWPVSEEIYRLSDVPVLSVRRRAKYLLLELPNGWIIVHLGMSGSLRILSEELPAEKHDHVDLVMSNGKVLRYTDPRRFGAWLWTKELEGHPVLAHLGPEPLSDAFNADYLQQKCAKKKTAIKPWLMDNKLVVGVGNIYASESLFSAGIHPDRLASSLSRDECEQLVKVIKLVLLRSIEQGGTTLKDFLQSDGKPGYFAQELQVYGRKGEPCRICGTPVVGTKHAQRATFYCRQCQK	PGPT0021790_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021790-ECHS1-K07511	NA	NA
BMS020_03222	168	rpmG_1	COG0267	50S ribosomal protein L33	ATGGCTAAAGGTATTCGTGAGAAAATCAAGCTGGTTTCTTCCGCTGGTACTGGTCACTTCTACACCACCACGAAGAACAAACGTACCAAACCGGAAAAAATGGAACTGAAAAAGTACGATCCGGTTGTACGTCAGCACGTTATCTACAAAGAAGCTAAAATCAAATAA	MAKGIREKIKLVSSAGTGHFYTTTKNKRTKPEKMELKKYDPVVRQHVIYKEAKIK				NA	NA	NA	NA	NA
BMS020_03223	237	rpmB_1	COG0227	50S ribosomal protein L28	ATGTCCCGAGTCTGCCAAGTTACTGGCAAGCGTCCGGTGACCGGTAACAACCGTTCCCACGCACTGAACGCGACTAAACGCCGTTTCCTGCCGAACCTGCACTCTCACCGTTTCTGGGTTGAGAGCGAGAAGCGTTTTGTCACCCTGCGCGTATCTGCTAAAGGTATGCGTGTAATCGATAAGAAAGGCATCGATACAGTTCTGGCTGAACTGCGTGCCCGTGGCGAAAAGTACTAA	MSRVCQVTGKRPVTGNNRSHALNATKRRFLPNLHSHRFWVESEKRFVTLRVSAKGMRVIDKKGIDTVLAELRARGEKY				NA	NA	NA	NA	NA
BMS020_03224	666			hypothetical protein	ATGGACGGAACGGAAAATCTGATGCCACGGGAGAAGATGCTGCAATTCGGCATCGAGGCGCTGACGGACGTTGAGCTACTGGCGCTGTTTCTGCGCATTGGCACACGCCGTCAGGATGTGCTGAGCTACGCCCAGGCGTTATTGCAGCGTTTTGGTTCGCTCTACGCTCTGCTTTCCGCTGATAAAGCGCAACTGGTTGCCGTTGACGGGCTGGGGCTGGCGAAATATGCGCAACTGAAGGGGATTGCCGAGCTGGCGCGGCGCTATTTTAGTTCGCAGCTGGTTGAGGAGGCCGCGCTGGTCACCCCCTCGATGACGCGGGAATTTTTGCAAAGCCAGCTGACGGAAGAGGAGCGCGAGATCTTTATGGTGATCTTTTTAGATAATCAGAACCGCGTGTTGAAACATAGCCGCCTTTTTTCTGGTACTCTTAGCCACGTTGAGGTGCATCCGCGAGAAATTGTACGCGAAGCCATCAAAGTGAACGCCGCCGCCGTGATCCTTGCGCATAATCATCCCTCCGGTAGTCCGGAGCCGAGTCAGGCTGACAGGCTGATTACCGAAAGGGTGGTAAAGTGTTGTCGATTCATGGAGATACGTGTGCTTGACCATCTGGTTATCGGCCGCGGTGCGTATGTATCTTTTGCCGAACGTGGCTGGATTTAG	MDGTENLMPREKMLQFGIEALTDVELLALFLRIGTRRQDVLSYAQALLQRFGSLYALLSADKAQLVAVDGLGLAKYAQLKGIAELARRYFSSQLVEEAALVTPSMTREFLQSQLTEEEREIFMVIFLDNQNRVLKHSRLFSGTLSHVEVHPREIVREAIKVNAAAVILAHNHPSGSPEPSQADRLITERVVKCCRFMEIRVLDHLVIGRGAYVSFAERGWI				NA	NA	NA	NA	NA
BMS020_03225	1218	coaBC_1	COG0452	Coenzyme A biosynthesis bifunctional protein CoaBC	ATGATGACTCTGGCGGGTAAAAAAATCGTCCTGGGCGTCAGCGGCGGTATCGCGGCGTATAAAACCCCGGAACTGGTACGGCGACTACGTGAACGCGGCGCGGAAGTGCGTGTCGCAATGACGGAGGCGGCAAAAGCGTTCATCACCCCACTCAGCCTGCAGGCGGTATCCGGCTATCCGGTTTCCGACAGCCTGCTCGATCCGGCGGCGGAAGCGGCCATGGGCCATATTGAGCTCGGAAAATGGGCCGACCTGGTGATCCTCGCCCCGGCGACCGCCGATTTGATCGCCCGCGTGGCGGCAGGCATGGCCAATGATTTGGTGTCGACGATCTGTCTCGCCACCCCTTCCCCGGTTGCCGTCTTGCCCGCCATGAACCAGCAGATGTATCGCGCGCAGGCCACCCAGCATAATCTGCAGACGCTCGCATCCCGCGGCCTGCTGCTGTGGGGACCGGACAGCGGTAGCCAGGCCTGCGGCGACGTCGGCCCGGGGCGAATGCTCGATCCGTTAACCATCGTGGAGATGGTCGCACAGCATTTCGCCTCCCCTGTCAAAGATTTGCAACATCTCAACCTCATGATTACCGCGGGCCCGACCCGTGAGCCGTTGGATCCGGTACGTTACATCTCAAACCACAGCTCCGGTAAGATGGGCTTCGCGATTGCCGCCGCCGCCGCACAGCGCGGCGCGAACGTGACCCTGGTCAGCGGACCGGTATCGCTACCGACACCGCCCTTTGTGCAGCGCATTGATGTCACTACCGCGCTGGAAATGGAAGCGGCCGTCCAGGCCAGCGCTCAGCAGCAGCACATTTTTATTGGCTGCGCCGCGGTGGCGGATTACCGCGCCGCCGCCATCGCCGAAGATAAAATAAAAAAACAAGGTGATGAATTAACAATAAAAATGGTTAAAAACCCGGATATCGTCGCCGGGGTTGCAGCGCTAAAATCGCATCGCCCCTACGTCGTTGGGTTTGCCGCCGAAACGAATAATGTGGAAGAATATGCGCGGCAAAAACGTGCCCGCAAAAACCTCGACCTGATTTGCGCCAACGATGTTTCCCAGCCTAATCAGGGATTTAACAGCGATAGCAACGCATTACACCTTTTCTGGCAGGATGGGGAAAAGCGCTTACCACTTGAGCGCAAGGAACTCCTGGGCCAATTATTACTCGACGAGATCGTGACCCGTTATGATGAAAAAAATCGACGTTAA	MMTLAGKKIVLGVSGGIAAYKTPELVRRLRERGAEVRVAMTEAAKAFITPLSLQAVSGYPVSDSLLDPAAEAAMGHIELGKWADLVILAPATADLIARVAAGMANDLVSTICLATPSPVAVLPAMNQQMYRAQATQHNLQTLASRGLLLWGPDSGSQACGDVGPGRMLDPLTIVEMVAQHFASPVKDLQHLNLMITAGPTREPLDPVRYISNHSSGKMGFAIAAAAAQRGANVTLVSGPVSLPTPPFVQRIDVTTALEMEAAVQASAQQQHIFIGCAAVADYRAAAIAEDKIKKQGDELTIKMVKNPDIVAGVAALKSHRPYVVGFAAETNNVEEYARQKRARKNLDLICANDVSQPNQGFNSDSNALHLFWQDGEKRLPLERKELLGQLLLDEIVTRYDEKNRR	PGPT0008815_2240	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
BMS020_03226	459	dut_1	COG0756	Deoxyuridine 5'-triphosphate nucleotidohydrolase	ATGATGAAAAAAATCGACGTTAAGATTCTGGACCCGCGTGTCGGCCAGCAATTTCCGCTGCCGACCTATGCCACCTCCGGCTCCGCCGGACTTGACCTGCGAGCCTGTCTCGACGACGCCGTAGAGCTGGCGCCGGGCGCAACCACGCTGTTGCCGACCGGCCTTGCGATTCATATCGCCGATCCCTCTCTGGCGGCGGTGATCCTGCCGCGCTCGGGCCTGGGTCATAAGCACGGCGTGGTGCTGGGCAACCTGGTGGGCCTTATCGACTCCGATTACCAGGGGCAACTGATGGTGTCCGTCTGGAACCGCGGTCAGCAGAGCTTTATTATCGAGCCGGGCGAACGTATCGCGCAGATGGTCTTTGTGCCGGTCGTGCAGGCGGAATTTAACCTGGTGGAATCTTTCGATGCCACCGACCGCGGCGAAGGCGGCTTCGGTCACTCAGGGCGTAAATAA	MMKKIDVKILDPRVGQQFPLPTYATSGSAGLDLRACLDDAVELAPGATTLLPTGLAIHIADPSLAAVILPRSGLGHKHGVVLGNLVGLIDSDYQGQLMVSVWNRGQQSFIIEPGERIAQMVFVPVVQAEFNLVESFDATDRGEGGFGHSGRK	PGPT0021355_2165	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021355-dut-K01520	NA	NA
BMS020_03227	534	slmA_2	COG1309	Nucleoid occlusion factor SlmA	ATGCTGGAATCCAGCGATGGTAGCCAACGTATTACCACCGCGAAACTGGCGGCTTCCGTCGGCGTTTCTGAAGCCGCGCTGTATCGCCATTTTCCCAGCAAAACCCGCATGTTTGACAGCCTGATCGAGTTCATTGAAGACAGTCTGATTACGCGCATCAATTTGATTCTGAAAGATGAGAAGGACACATCCGCGCGCCTGCGCCTGATTGTTCTGTTGATTCTTGGGTTTGGCGAGCGTAATCCTGGGCTGACGCGCATCCTCACCGGACACGCGCTGATGTTCGAACAGGATCGGCTGCAGGGCCGTATCAACCAGCTTTTTGAACGCATCGAAGTGCAGCTGCGTCAGGTGATGCGCGAGAAAAAAATGCGCGAAGGCGAAGGCTACACTCTCGACGAAACGCTGCTGGCCAGCCAGCTGCTGGCCTTCTGCGAGGGCATGCTGTCGCGCTTTGTGCGCAGCGAGTTCAAATACCGTCCGACGGATGATTTCGACGCCCGCTGGCCGCTGGTCGCCGCACAGCTGCAGTAG	MLESSDGSQRITTAKLAASVGVSEAALYRHFPSKTRMFDSLIEFIEDSLITRINLILKDEKDTSARLRLIVLLILGFGERNPGLTRILTGHALMFEQDRLQGRINQLFERIEVQLRQVMREKKMREGEGYTLDETLLASQLLAFCEGMLSRFVRSEFKYRPTDDFDARWPLVAAQLQ				NA	NA	NA	NA	NA
BMS020_03228	642	pyrE_1	COG0461	Orotate phosphoribosyltransferase	ATGAAGCCGTATCAGCGCCAGTTTATTGAGTTTGCGCTTAGCAAGCAGGTTCTTAAGTTTGGCGAGTTCACGCTGAAATCCGGGCGTAAGAGCCCCTATTTCTTTAACGCCGGCCTGTTTAACACCGGGCGCGATCTGGCTCTGCTGGGCCGTTTTTATGCCGAGGCGCTGGTGGATTCCGGGATTGAGTTCGACCTGCTGTTTGGCCCGGCCTACAAAGGGATCCCGATTGCCACCACCACCGCGGTGGCGTTAGCCGAACACCATGACCGCGACCTGCCTTACTGCTTTAACCGTAAAGAGGCAAAGACTCACGGCGAAGGCGGCAATCTGGTCGGTAGTCCACTGCAGGGCCGGGTCATGCTGGTGGATGATGTGATCACCGCCGGTACGGCGATTCGCGAATCCATGGAGATCATCCAGGCCAACGGCGCGCAGCTGGCGGGTGTGCTGATCTCCCTGGATCGTCAGGAGCGTGGCCGCGGCGAAATCTCCGCCATTCAGGAAGTGGAGCGGGATTACGGCTGCCAGGTTATCTCGATCGTCACCCTGAAAGAGCTGATCGCTTACCTGGAAGAGAAACCGGAGATGGCGGAACACCTGGCGGCAGTTCGCGCTTATCGCGAAGCCTACGGCGTGTAA	MKPYQRQFIEFALSKQVLKFGEFTLKSGRKSPYFFNAGLFNTGRDLALLGRFYAEALVDSGIEFDLLFGPAYKGIPIATTTAVALAEHHDRDLPYCFNRKEAKTHGEGGNLVGSPLQGRVMLVDDVITAGTAIRESMEIIQANGAQLAGVLISLDRQERGRGEISAIQEVERDYGCQVISIVTLKELIAYLEEKPEMAEHLAAVRAYREAYGV	PGPT0021200_1819	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021200-pyrE-K00762	NA	NA
BMS020_03229	717	rph_1		Ribonuclease PH	ATGCGTCCAGCAGGTCGTAGCGCCAACCAGGTGCGCCCCGTTACCCTGACCCGTAATTACACAAAACACGCTGAAGGCTCTGTGCTGGTTGAATTCGGTGATACCAAAGTGCTGTGCACCGCCTCCATTGACGAAGGCGTACCGCGTTTCCTGAAAGGACAGGGACAGGGGTGGATCACCGCTGAATATGGCATGCTGCCGCGTTCAACGCACACGCGTAACGCGCGTGAAGCGGCAAAAGGCAAACAGGGCGGCCGGACGATGGAAATTCAGCGCCTGATCGCTCGTGCGCTGCGCGCGGCGGTTGATCTGAAAGCGCTGGGCGAGTTTACCATCACCCTCGACTGCGATGTGCTGCAGGCCGACGGCGGCACCCGCACCGCGTCTATTACCGGTGCCTGCGTGGCGCTGGCCGACGCGCTGAATAAACTGGTGGCGGCCGGCAAGCTGAAAACTAACCCGATGAAAGGGATGGTGGCGGCGGTCTCTGTTGGGATCGTTAATGGCGAAGCCATCTGCGATCTGGAGTACATCGAAGACTCTGCCGCGGAAACCGATATGAACGTGGTGATGACCGAAGATGGTCGCATCATCGAGGTGCAGGGTACGGCAGAAGGCGAGCCGTTCACCCATGAAGAGCTCCTCACTCTCCTGGCGTTAGCCCGAGGGGGGATCGAATCCATTATTACGACGCAGAAGGCGGCGTTAGCAGATTAG	MRPAGRSANQVRPVTLTRNYTKHAEGSVLVEFGDTKVLCTASIDEGVPRFLKGQGQGWITAEYGMLPRSTHTRNAREAAKGKQGGRTMEIQRLIARALRAAVDLKALGEFTITLDCDVLQADGGTRTASITGACVALADALNKLVAAGKLKTNPMKGMVAAVSVGIVNGEAICDLEYIEDSAAETDMNVVMTEDGRIIEVQGTAEGEPFTHEELLTLLALARGGIESIITTQKAALAD	PGPT0021590_9	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
BMS020_03230	864			hypothetical protein	ATGATCCGCAGTATGACCGCCTATGCCCGCCGTGAAATCAAGGGTGACTGGGGTAGCGCCGCATGGGAGCTGCGCTCGGTAAACCAGCGCTATCTGGAAACGTACTTCCGCCTGCCGGAGCAGTTCCGTAGCCTGGAGCCCGTGGTACGCGAGCGCATTCGCGCCCGCCTGACTCGCGGTAAAGTCGAATGCACCCTGCGTTTTGAACAAGACCCCAGCGCTCAGGGCGAACTGATTCTCAACGAAAAGCTGGCTAAACAGCTGGTTAACGCCGCCAACTGGGTAAAAATGCAGAGCGATGAAGGGGAAATCAATCCGGTTGATATCCTGCGCTGGCCGGGCGTGATGGCCGCCAAAGAACAGGATCTTGACGCCATCGCCGCCGACATTCTGGCAGCCCTTGACGGCGCGCTGGATGACTTCATCGTCGCTCGCGAAACGGAAGGCCAGGCGCTGAAAGCGCTTATCGAGCAGCGTCTTGAAGGCGTGAGCGGCGAAGTGGCGAAAGTTCGCGCCCATATGCCGGAAATTCTCCAGTGGCAGCGCGAGCGTCTGGTCGCCAAGCTGGAAGATGCGGAAGTGCAGCTGGAGAATAACCGTCTCGAGCAAGAGCTGGTGCTGATGGCGCAGCGTATCGACGTTGCCGAAGAGCTGGACCGCCTCGAAGCCCACGTAAAAGAGACCTACAACATTCTGAAAAAGAAAGAGGCTGTGGGTCGCCGTCTCGACTTTATGATGCAGGAGTTCAACCGTGAGTCGAACACCCTGGCGTCAAAATCGATCAATGCCGAGGTCACCAACTCTGCGATTGAGCTGAAAGTGCTGATCGAGCAAATGCGCGAGCAGATCCAGAATATCGAGTAA	MIRSMTAYARREIKGDWGSAAWELRSVNQRYLETYFRLPEQFRSLEPVVRERIRARLTRGKVECTLRFEQDPSAQGELILNEKLAKQLVNAANWVKMQSDEGEINPVDILRWPGVMAAKEQDLDAIAADILAALDGALDDFIVARETEGQALKALIEQRLEGVSGEVAKVRAHMPEILQWQRERLVAKLEDAEVQLENNRLEQELVLMAQRIDVAEELDRLEAHVKETYNILKKKEAVGRRLDFMMQEFNRESNTLASKSINAEVTNSAIELKVLIEQMREQIQNIE				NA	NA	NA	NA	NA
BMS020_03231	1251	clcB_2		Voltage-gated ClC-type chloride channel ClcB	ATGCATGTCGCCGCCGGGAACAAACATTCTCTGACTCGCCTGATGGCCGTGGTATTAACCGGGATTCTGGCCGGTCTGTCCGGTATGGCGCTGGCGCTGATTTTACATGCCATTCAGCACCTGGCTTTTGGCTACAGTCCAGCGCATATCGTCGATTCGGTGTCATTTTTACAGGGCGTCACGGCGTCGCCCTGGCCACGTCGCATCGCGGCAATCGTGGCCGGCGGCATCGTCGCCGGATTTGGCTGGTGGCTGCTTGGTCGCTATGGGCAGAAGCGGGTTTCCATTGCCGCGGCGGTGGCTAACCCTTCCGTCCCCATGCCCGCGGGCACCACGACGATCCACGCTCTGCTGCAGATCGTCACCGTAGCGCTGGGGTCCCCGCTTGGCCGCGAAGTGGCTCCTCGGGAAATGGGCGCGCTGGGAGCGGGGATGGTGGCGCGTAAGCTGCGCCTGCTGGAGGATGAAACCCGTACGCTGATTGCCTGTGGGGCGGGCGCGGGCCTGGCGGCGGTGTATAACGTCCCGCTGGCAGGGGCGTTGTTCACCCTCGAGGTCATGCTGCTGTCGTTTAGCTGGGAAAAAACGCTGGCGGCGATAATGACCTCGGCGATTGCCGCCTGGACGGCCACCCTCGGGTTAGGGGATGAATCGCAATACCATTTTGTTTCCAGCGCGCTTCCGCACACCTTTCTCTGGTGGGCGATTCTGGCGGGCCCGATTCTTGGCGCCGGCGCCTGGCTCTTTCGCAAAGCGACCAGCGCAGCGCGTTCACGCGTGCGAAGTAACTGGCAGATGCCGGTGTTCTGTCTTCTGGCGTTTTCGCTTCTGGCCGTCCTTAGCCTCTGGTTCCCTGCGCTACCGGGCAATGGCAAGGGGCCGATGCAGCTGGCGCTCAGCGACGGGCTGCCTCACTCCATGGTCGCGATCCTGTTAGGGCTGAAGCTGGTGGTGATCCTGGCGGTGTTGCGCGGCGGCGCGGAAGGCGGGTTGTTAACTCCGGGGCTGGCGGTGGGCGGGCTGGCCAGCCTGCTGCTCTGCGCGCTCTGGCAATCAGGGTTCCCTGGCGGAGATGAAAGCAGTTTCGCCCTGGTGGGGGCAGCCGCTTTTCTCGCCGCCTCCATGCAGATGCCGCTGACGGCGGTGGTGCTGGTGATGGAGTTCACCCACATGGATCACAGCTATCTGGCCCCGACGCTGCTGTGCGCGGCAGGGGCGTTTTTGACCTGCCGGGTACTGGATAAAAAATAG	MHVAAGNKHSLTRLMAVVLTGILAGLSGMALALILHAIQHLAFGYSPAHIVDSVSFLQGVTASPWPRRIAAIVAGGIVAGFGWWLLGRYGQKRVSIAAAVANPSVPMPAGTTTIHALLQIVTVALGSPLGREVAPREMGALGAGMVARKLRLLEDETRTLIACGAGAGLAAVYNVPLAGALFTLEVMLLSFSWEKTLAAIMTSAIAAWTATLGLGDESQYHFVSSALPHTFLWWAILAGPILGAGAWLFRKATSAARSRVRSNWQMPVFCLLAFSLLAVLSLWFPALPGNGKGPMQLALSDGLPHSMVAILLGLKLVVILAVLRGGAEGGLLTPGLAVGGLASLLLCALWQSGFPGGDESSFALVGAAAFLAASMQMPLTAVVLVMEFTHMDHSYLAPTLLCAAGAFLTCRVLDKK	PGPT0004990_2628	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0004990-TC_CIC|eriC-K03281	NA	NA
BMS020_03232	618			hypothetical protein	ATGCTGCTTCATGTTCTGTATTTAATCGGTATCACCGCGGAAGCCATGACCGGAGCGCTGGCTGCCGGTCGTCGGCGGATGGATACGTTTGGCGTCATTATTATCGCCACCGCGACCGCGCTGGGCGGGGGTTCTGTTCGCGATATCCTGCTGGGACACTATCCTCTCGGCTGGGTGAAGCATCCGGAATACGTCATTATCGTCGCCGTCGCCGCCGTCCTTACCACAATTGCCGCCCCGGTAATGCCGCACCTTCGCCGGCTTTTCCTGGTGCTGGATGCGCTGGGGCTGATCGTGTTTTCCATCATCGGCGCGCAGATCGCCCTGGATATGGGCGAAGGCCCGGTTATCGCCTCTATTGCTGCGGTCATCACCGGCGTTTTCGGCGGCGTACTGCGCGATATGTTCTGCAAGCGCATTCCGCTGGTCTTCCAGAAAGAGCTGTATGCCGGGATCTCGTTTGCCGCAGCGGTACTCTATATAGCGCTGCAACACTACGTCAGCAGCCACGATGTGGTGGTCCTGGCCACGCTGCTGTTCGGCTTTACCGCCCGCATGCTGGCGCTGCGCTGGAAGCTCGGGCTACCGGTCTTCCACTACACCCACGACGCCCACTAA	MLLHVLYLIGITAEAMTGALAAGRRRMDTFGVIIIATATALGGGSVRDILLGHYPLGWVKHPEYVIIVAVAAVLTTIAAPVMPHLRRLFLVLDALGLIVFSIIGAQIALDMGEGPVIASIAAVITGVFGGVLRDMFCKRIPLVFQKELYAGISFAAAVLYIALQHYVSSHDVVVLATLLFGFTARMLALRWKLGLPVFHYTHDAH				NA	NA	NA	NA	NA
BMS020_03233	1680	ligB	COG0272	DNA ligase B	ATGCGTAAAGGAGGAGGGTGGCTGGCGATAGGGATGTTCTCCGCCAGCGCGCTGGCGACGTGTCCGGACTGGCCGCCGGCCAAAGGCAGACAGGAGATCGCACGTCTACATCAGCAGATTGACGCCTGGAACGAGGCTTACTGGCGACAGGGCGCCAGCGAGGTGAGCGATGACGTTTACGACCAGCTCACCCTGCGCCTGGCGCAGTGGCGGCAATGCTTTCCGGGCGCGACGCCGGAGGATGACGATCTGCCTCCGCCGACCGGCGATACGCGTCATCCGGTCGCCCATACTGGCGTGCGCAAGCTGGCGGATGGGGCCAGCGTGGCCCGCTGGATGAAAAATAAAGCCGACCTGTGGGTACAGCCTAAAGTGGACGGCGTGGCGGTCACCCTGGTCTATCGCCAGGGGCATCTGGTTCAGGCTATTAGCCGCGGGGATGGCCTGCGCGGTGAGTTGTGGACCGCCCGAGCGCGGCAGATCCCGGCGCTGGCGAAGCAGACGACCGGCGAACTGGCCAACAGCGTGCTGCAGGGGGAGCTATTTCTGCGTCGGGAGGGGCATATTCAGGAGCAGGCTGGCGGAATGAACGCGCGGGCGAAAGTCGCCGGGTTGATGATGCGGGCTGACGCGGCGGCGGCGCCGCTCAGCCAGCTGGACGTTTTTATCTGGGCCTGGCCAGACGGTCCCTCGGATATGCGCCGTCGGCAGCAGCTGCTGGCGCAGGCGGGGTTCGGCTACAGCGGACAATACACCCATTCGATAACGCGCGTTGAGCAGGTGGCGGAGTGGCGCCAGCGCTGGTATCGCTCGCCGCTCCCCTTCGTCAGCGATGGCGTGATTGTGCGTGAAGGACGCGAACCTTCGGGGCGCGTCTGGTCACCGGGAAGGGGCGAGTGGCTGGCAGCCTGGAAATATCCTCCGGCATCGCGGGTGATGGAGGTGCGGGCGATCCATTTCAGTACTGGCCGCAGCGGCAGACTCAACGTAGTGGCTGAGCTTGAGCCCCAGCGGCTGGATGACAAACGCGTGCAGCGGGTTAACGTTGGCTCTGTGAGCCGCTGGCAGGCGCTGGATATTGGGGTTGGCGATCAGCTGCAGATCAGTCTGGCTGGCCAGGGTATTCCACGGATCGACGCTGTTGTCTGGCGGACGGTCGAGCGCCATAAACCGACGCCGCCGGCGGCGAAATTCAATGCGCTAACCTGCTATTTCGCCACCCCCGAGTGCAGCGAACAGTTTCTTTCCCGGTTGGTCTGGTTGTCATCAAAGTCGGCGCTGGATATCGATGGCGTAGGGGAAAGCGTATGGCGCGTTATTCAGCAGCAGCACCCGATGGAGCATCTTTTTTCCTGGCTGGCGCTCACGCCGGAGCAGCTGCAGGCGATGCCGGGGATCTCGGCTGCCCGCGGGCAGCACCTCTGGCATCAGTTTGATCTTATTCGTAAACGGCCTTTTATACGCTGGGTGCTGGCGATGGGGATCCCGGTGCCCCAGGGGGCGCTGGCGCAGCCTGGCAGTGAAAACTGGCGCCTCCTCACGGCAAAGAGTGAAGCGCAATGGCGCACGCTGCCGGGCGTGGGGGCGATCAGAGCCCGACAGTTAGTGGCTTTCCTGCATGACCCTGACGTGGCGGCGCTGGCGCAATGGCTTAGCAGGCAGCGCATCCCCGGGTTTTAA	MRKGGGWLAIGMFSASALATCPDWPPAKGRQEIARLHQQIDAWNEAYWRQGASEVSDDVYDQLTLRLAQWRQCFPGATPEDDDLPPPTGDTRHPVAHTGVRKLADGASVARWMKNKADLWVQPKVDGVAVTLVYRQGHLVQAISRGDGLRGELWTARARQIPALAKQTTGELANSVLQGELFLRREGHIQEQAGGMNARAKVAGLMMRADAAAAPLSQLDVFIWAWPDGPSDMRRRQQLLAQAGFGYSGQYTHSITRVEQVAEWRQRWYRSPLPFVSDGVIVREGREPSGRVWSPGRGEWLAAWKYPPASRVMEVRAIHFSTGRSGRLNVVAELEPQRLDDKRVQRVNVGSVSRWQALDIGVGDQLQISLAGQGIPRIDAVVWRTVERHKPTPPAAKFNALTCYFATPECSEQFLSRLVWLSSKSALDIDGVGESVWRVIQQQHPMEHLFSWLALTPEQLQAMPGISAARGQHLWHQFDLIRKRPFIRWVLAMGIPVPQGALAQPGSENWRLLTAKSEAQWRTLPGVGAIRARQLVAFLHDPDVAALAQWLSRQRIPGF				NA	NA	NA	NA	NA
BMS020_03234	624	gmk_1	COG0194	Guanylate kinase	ATGGCTCAAGGCACGCTTTATATTGTTTCCGCCCCTAGCGGCGCGGGTAAATCCAGCCTGATTCAGGCTTTATTAAAAACCCAACCGTTGTATGACACCCAGGTATCGGTTTCCCATACCACGCGGGCGCCGCGTCCGGGTGAAGTGCACGGCGAACATTATTTCTTCGTGAATCACGACGAATTCCGCTCGATGATTGGCGAAAACGCGTTTCTGGAACATGCAGAGGTCTTTGGCAACTATTACGGCACGTCGCGTAAAGCGATCGAGCAGGTGCTGGCGACCGGCGTTGATGTCTTCCTCGATATCGACTGGCAGGGCGCGCAGCAGATCCGTAAAAGCATGCCTGGCGCACGCAGCATTTTTATTCTGCCGCCGTCAAAAGATGAACTGGACCGTCGCCTGCGCGGCCGCGGCCAGGACAGCGAAGAGGTGATCGCGAAGCGAATGGCCCAGGCCGTTGCGGAAATGAGCCATTACGCCGAATATGATTACCTGATTGTGAACGATGATTTTGACACCGCCCTGAGCGACCTGAAAAATATCATCCGCGCTGAACGTCTGCGCATGAGCCGCCAAAAGCAGCGACATGGCGCTTTAATCACCAAACTATTGGCAGACTGA	MAQGTLYIVSAPSGAGKSSLIQALLKTQPLYDTQVSVSHTTRAPRPGEVHGEHYFFVNHDEFRSMIGENAFLEHAEVFGNYYGTSRKAIEQVLATGVDVFLDIDWQGAQQIRKSMPGARSIFILPPSKDELDRRLRGRGQDSEEVIAKRMAQAVAEMSHYAEYDYLIVNDDFDTALSDLKNIIRAERLRMSRQKQRHGALITKLLAD	PGPT0021475_743	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942	NA	NA
BMS020_03235	276	rpoZ_1	COG1758	DNA-directed RNA polymerase subunit omega	ATGGCACGCGTAACTGTTCAGGACGCTGTAGAGAAAATTGGTAACCGTTTTGACCTGGTACTGGTCGCCGCGCGTCGCGCTCGTCAGATGCAGGTAGGCGGAAAGGATCCGCTGGTACCGGAAGAAAACGATAAAACCACCGTAATCGCACTGCGCGAAATCGAAGAAGGTCTGATCAACAACCAGATCCTCGACGTACGTGAGCGCCAGGAACAGCAAGAGCAGGAAGCCGCTGAATTACAAGCCGTTACCGCGATTGCTGAAGGTCGTCGTTAA	MARVTVQDAVEKIGNRFDLVLVAARRARQMQVGGKDPLVPEENDKTTVIALREIEEGLINNQILDVRERQEQQEQEAAELQAVTAIAEGRR				NA	NA	NA	NA	NA
BMS020_03236	2121	spoT_1	COG0317	Bifunctional (p)ppGpp synthase/hydrolase SpoT	TTGTATCTGTTTGAAAGCCTGAATCAGCTGATTCAAAACTACCTGCCGGAAGACCAGATCAAACGTCTGCGGCAGGCGTATCTCGTTGCACGTGACGCTCACGAGGGTCAGACACGTTCAAGCGGTGAACCTTATATCACGCACCCGGTCGCGGTAGCCTGTATTCTGGCCGAGATGAAGCTCGACTACGAAACGCTGATGGCCGCGCTGCTGCATGATGTGATTGAAGATACTCCCGCCACCTACCAGGACATGGAACAGCTTTTTGGTAAAAGCGTCGCCGAACTGGTAGAGGGGGTATCGAAACTTGATAAGCTCAAGTTCCGCGATAAGAAAGAGGCACAGGCCGAAAACTTTCGCAAAATGATCATGGCGATGGTGCAGGACATCCGCGTCATCCTCATCAAGCTTGCCGACCGCACCCACAACATGCGTACCCTGGGCTCGCTACGCCCGGATAAACGCCGCCGCATCGCCCGCGAAACGCTGGAAATCTACAGCCCGCTGGCGCACCGTTTAGGTATCCATCACATCAAAACCGAGCTCGAAGAGCTGGGCTTTGAGGCGCTGTACCCGAACCGCTACCGCGTCATTAAAGAGGTGGTCAAAGCGGCGCGCGGCAACCGTAAAGAGATGATCCAAAAGATTCTCTCGGAAATCGAAGGGCGTTTGCAGGAAGCGGGGATCCCCTGCCGCGTTAGCGGTCGCGAAAAGCATCTGTACTCGATCTACTGCAAAATGGTGCTTAAAGAGCAGCGTTTTCACTCGATCATGGATATCTACGCCTTCCGCGTTATCGTCCATGATGCCGATGTCTGCTACCGCGTGCTTGGCCAGATGCACAGCCTCTATAAACCGCGTCCAGGTCGTTTCAAAGATTACATCGCTATTCCGAAAGCGAACGGCTATCAGTCTTTGCACACCTCGATGATCGGCCCCCACGGCGTCCCGGTCGAGGTACAAATTCGTACCGAAGACATGGACCAGATGGCGGAGATGGGGGTCGCGGCGCACTGGGCTTATAAAGAGCACGGCGGCGAAAGCAGCACCACCGCGCAAATCCGCGCCCAGCGCTGGATGCAGAGCCTGCTGGAGCTGCAGCAGAGCGCCGGCAGCTCGTTTGAATTTATCGAGAGCGTTAAATCCGATCTGTTCCCCGATGAGATTTACGTTTTCACCCCGGAAGGGCGCATTGTCGAACTGCCCGCTGGCGCCACGCCGGTGGACTTCGCCTATGCGGTGCATACCGATATCGGCCATGCCTGCGTCGGCGCGCGCGTCGACCGCCAGCCCTATCCGCTGTCGCAGCCGCTCTCCAGCGGTCAGACTGTCGAAATTATTACCGCGCCGGGCGCACGTCCGAATGCCGCCTGGCTGAACTTTGTCGTCAGCTCGAAGGCGCGCGCCAAGATCCGTCAGTTGCTGAAAAACCTCAAGCGCGATGACTCGGTCAGCCTTGGCCGTCGTCTGCTCAACCACGCGCTGGGCGGTAGCCGCAAACTCGCCGAGATCCCGCCGGAGAATATCCAGCGCGAGCTCGACCGGATGAAGCTGGCCTCGCTTGACGATCTGCTGGCGGAGATCGGTCTGGGCAACGCCATGAGCGTGGTGGTGGCGAAAAACCTGCAGCAGGGCGAAGCCGCTGCGGCGCCGGTGCCGGCCAATGCCTCAAACCACGGCCATCTGCCGATCAAAGGCGCCGATGGCGTGCTGATCACTTTCGCCAAGTGCTGTCGCCCGATCCCCGGTGACCCGATTATCGCCCACGTCAGTCCCGGCAAAGGGCTGGTTATCCATCATGAATCCTGTCGTAACATCCGCGGCTACCAGAAAGAGCCGGAGAAATTTATGGCGGTTGAGTGGGATAAAGAGACCGCTCAGGAGTTCATTACGGAGATCAAGGTGGATATGTTTAACCACCAGGGCGCACTGGCTAACCTGACGGCGGCGATCAACACCGCCTCTTCCAATATCCAGAGCCTGAATACGGAAGAGAAAGATGGCCGCGTATACAGCGCCTTTATCCGCCTGACCGCCCGCGACCGCGTGCATCTGGCGAATATCATGCGCAAAATACGCGTCATGCCGGACGTGATTAAAGTCACCCGTAACCGAAATTAG	MYLFESLNQLIQNYLPEDQIKRLRQAYLVARDAHEGQTRSSGEPYITHPVAVACILAEMKLDYETLMAALLHDVIEDTPATYQDMEQLFGKSVAELVEGVSKLDKLKFRDKKEAQAENFRKMIMAMVQDIRVILIKLADRTHNMRTLGSLRPDKRRRIARETLEIYSPLAHRLGIHHIKTELEELGFEALYPNRYRVIKEVVKAARGNRKEMIQKILSEIEGRLQEAGIPCRVSGREKHLYSIYCKMVLKEQRFHSIMDIYAFRVIVHDADVCYRVLGQMHSLYKPRPGRFKDYIAIPKANGYQSLHTSMIGPHGVPVEVQIRTEDMDQMAEMGVAAHWAYKEHGGESSTTAQIRAQRWMQSLLELQQSAGSSFEFIESVKSDLFPDEIYVFTPEGRIVELPAGATPVDFAYAVHTDIGHACVGARVDRQPYPLSQPLSSGQTVEIITAPGARPNAAWLNFVVSSKARAKIRQLLKNLKRDDSVSLGRRLLNHALGGSRKLAEIPPENIQRELDRMKLASLDDLLAEIGLGNAMSVVVAKNLQQGEAAAAPVPANASNHGHLPIKGADGVLITFAKCCRPIPGDPIIAHVSPGKGLVIHHESCRNIRGYQKEPEKFMAVEWDKETAQEFITEIKVDMFNHQGALANLTAAINTASSNIQSLNTEEKDGRVYSAFIRLTARDRVHLANIMRKIRVMPDVIKVTRNRN	PGPT0014310_3921	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014310-spoT-K01139	NA	NA
BMS020_03237	690	trmH	COG0566	tRNA (guanosine(18)-2'-O)-methyltransferase	ATGAATTCACAGCGTTATGCGCGTATCTGCGAGATGCTCGCCAGGCGTCAGCCTGACCTGACGGTCTGCATGGAGCAGGTCCATAAGCCCCATAACGTCTCTGCGGTCATCCGGACCGCAGACGCCGTTGGCGTACACGAGGTGCACGCGGTCTGGCCGAGCAGCCGGATGCGCACCATGGCCTCCGCCGCCGCGGGCAGCAACAGCTGGGTGCAGGTGAAAACCCACCGTACCATCGCAGATGCCGTCGGCCACCTCAAAGGCCAGGGTATGCAAATCCTCGCCACCCATCTTTCCGACAAAGCCATCGATTTCCGTGAAATCGACTATACGCGCCCAACCTGCATCCTGATGGGTCAGGAGAAAACCGGCATCACTCAGGAAGCGCTGGCCCTGGCGGATCAGGACATTATTATCCCGATGATCGGCATGGTGCAGTCGCTGAACGTCTCCGTCGCCTCGGCGCTGATCCTGTATGAAGCCCAGCGGCAGCGACAGAATGCCGGGATGTACCAACGCGCCAACAGCATGCTGCCGCCGGAAGAGCAACAGCGTCTGCTGTTTGAAGGCGGCTATCCGGTGCTGGCCCGCGTCGCGAGACAAAAAGGGCTGCCTTACCCCCACGTTAACGAGCAGGGCGAAGTGGAAGCCGATGCCGCGTGGTGGGCCACCATGCAGGCTGCGAGGTAA	MNSQRYARICEMLARRQPDLTVCMEQVHKPHNVSAVIRTADAVGVHEVHAVWPSSRMRTMASAAAGSNSWVQVKTHRTIADAVGHLKGQGMQILATHLSDKAIDFREIDYTRPTCILMGQEKTGITQEALALADQDIIIPMIGMVQSLNVSVASALILYEAQRQRQNAGMYQRANSMLPPEEQQRLLFEGGYPVLARVARQKGLPYPHVNEQGEVEADAAWWATMQAAR				NA	NA	NA	NA	NA
BMS020_03238	2082	recG_1	COG1200	ATP-dependent DNA helicase RecG	ATGTCAGGCCGCCTGTTAGATGCCGTTCCGCTCAGTTCACTCACCGGCGTCGGGGCTGCGCAGAGCAGCAAGCTGGCGAAGATCGGCCTGCATACGGTACAGGATCTGCTGCTGCACCTGCCTTTGCGCTACGAAGATCGCACCCATCTTTATCCGATAGCCGATCTGCTTCCCGGCGTTTATGCCACCGTGGAAGGCGAAGTGCTCAACAGCAATATCACCTTCGGCGGCCGCCGAATGATGACCTGCCAGATCAGCGACGGCACCGGCATCCTCACCATGCGCTTTTTCAACTTCAACGCGGCGATGAAAAACAGCCTCGCGACCGGTCGACGCGTGCTGGCCTACGGTGAAGCTAAACGCGGGAAGTACGGCGCCGAAATGATCCACCCGGAATATCGCGTCCAGGGCGATATGAGCACCCCGGAGCTGCAGGAGACCCTAACGCCGGTCTATCCGACTACCGAGGGCATTAAGCAGGCGACCCTGCGCAAGCTCACCGATCAGGCGCTCGAACTGCTGGAGACCTGCGCTATCGGGGAACTCCTGCCGCCGGAGCTGGCGCAGGGAATGATGAGCTTGCCGGAGGCGCTGCGCACTCTGCATCGTCCGCCGCCATCGTTATTGCTTAGCGAGCTGGAAAGCGGCAAGCACCCGGCGCAGCAGCGCCTGATTCTGGAAGAGCTGCTGGCGCACAACCTCAGCATGCTGGCGCTGCGGGCAGGCGCCCAGCGCTATCACGCCCTGCCGCTCGGCGCCAACGATACCCTGAAAAATCAGCTGCTGGCCTCCCTGCCCTTTAAGCCCACCGGCGCGCAGGCGCGGGTCACCGCCGAGATCGAGCGCGATATGGCGCTGGACGTGCCAATGATGCGCCTGGTGCAGGGCGACGTCGGCTCCGGTAAAACGCTGGTCGCCGCCCTGGCCGCGTTGCGCGCTATCGCCCACGGCAAACAGGTGGCGCTGATGGCGCCCACCGAACTGCTCGCCGAGCAGCACGCTAATAACTTCCGCAGCTGGTTTGCACCGCTGGGCATTGAAGTCGGCTGGCTGGCGGGCAAACAGAAAGGCAAAGCCCGCCAGGCGCAGCAGGACGCGATCGCCAGCGGCGAGGTGCAGATGATTGTCGGCACCCACGCCATCTTCCAGGAACAGGTGCAGTTTAATGGCCTGGCGCTGGTGATTATCGACGAACAGCACCGCTTCGGCGTACACCAGCGGCTGGCGCTGTGGGAGAAAGGTCAGCAGCAGGGTTTCCATCCGCATCAGCTGATCATGACCGCCACGCCGATCCCGCGCACCCTGGCGATGACCGCCTACGCCGACCTGGATACCTCGGTTATCGACGAGCTGCCGCCGGGCCGAACCCCGGTGACCACCGTCGCTATCCCGGACACCCGGCGCAGCGATATTATCGACCGCGTGCGCAACGCCTGCACCCACGAAGGCCGCCAGGCCTATTGGGTCTGTACCCTCATCGAAGAGTCCGATCTGCTGGAGGCCCAGGCGGCGGAAGCCACCTGGGAGGAGCTCAAGCTGGCGCTGCCGGAGCTGAATATCGGTCTGGTGCACGGGCGGATGAAACCGGCGGAAAAGCAGGCGGTGATGCAGGCTTTCAAGCAGGGCGAAATGCACCTGCTGGTCGCCACGACGGTCATTGAAGTCGGTGTCGACGTGCCGAACTCGAGCCTGATGATTATCGAAAACCCGGAACGTCTGGGTCTGGCGCAGCTGCACCAGCTCAGAGGGCGCGTCGGGCGCGGCGCGGTCGCTTCCCACTGCGTGCTACTCTATAAATCGCCGCTCTCTAAAACGGCGCAGAAGCGTCTGCAGGTGCTACGCGACAGCAACGACGGTTTCGTCATCGCCCAGAAAGACCTTGAAATTCGCGGTCCCGGCGAGCTGCTCGGCACCCGCCAGACCGGCAACGCCGAGTTTAAAGTGGCGGATTTACTGCGCGATCAGGCGATGATCCCCGACGTTCAGCGCATTGCGCGCCACATTCATGAACGCTATCCGCTGCAGGCCCAGGCGCTGATCGAGCGCTGGATGCCGGAAACCGAACGCTATTCCAACGCGTAG	MSGRLLDAVPLSSLTGVGAAQSSKLAKIGLHTVQDLLLHLPLRYEDRTHLYPIADLLPGVYATVEGEVLNSNITFGGRRMMTCQISDGTGILTMRFFNFNAAMKNSLATGRRVLAYGEAKRGKYGAEMIHPEYRVQGDMSTPELQETLTPVYPTTEGIKQATLRKLTDQALELLETCAIGELLPPELAQGMMSLPEALRTLHRPPPSLLLSELESGKHPAQQRLILEELLAHNLSMLALRAGAQRYHALPLGANDTLKNQLLASLPFKPTGAQARVTAEIERDMALDVPMMRLVQGDVGSGKTLVAALAALRAIAHGKQVALMAPTELLAEQHANNFRSWFAPLGIEVGWLAGKQKGKARQAQQDAIASGEVQMIVGTHAIFQEQVQFNGLALVIIDEQHRFGVHQRLALWEKGQQQGFHPHQLIMTATPIPRTLAMTAYADLDTSVIDELPPGRTPVTTVAIPDTRRSDIIDRVRNACTHEGRQAYWVCTLIEESDLLEAQAAEATWEELKLALPELNIGLVHGRMKPAEKQAVMQAFKQGEMHLLVATTVIEVGVDVPNSSLMIIENPERLGLAQLHQLRGRVGRGAVASHCVLLYKSPLSKTAQKRLQVLRDSNDGFVIAQKDLEIRGPGELLGTRQTGNAEFKVADLLRDQAMIPDVQRIARHIHERYPLQAQALIERWMPETERYSNA				NA	NA	NA	NA	NA
BMS020_03239	1011	glpX	COG1494	Fructose-1,6-bisphosphatase 1 class 2	ATGAAACGAGAACTGGCCATCGAATTTTCGCGTGTCACCGAAGCCGCCGCGCTGGCGGGCTATAAATGGCTGGGCCGCGGCGATAAAAACTCCGCCGACGGCGCCGCGGTGAACGCCATGCGCATTATGCTTAACCTCGTCAATATCGACGGCACCATCGTCATCGGCGAGGGCGAAATCGATGAAGCGCCGATGCTCTATATCGGCGAAAAAGTGGGCACCGGCAAGGGCGATGCGGTGGATATCGCCGTCGATCCCATCGAAGGCACCCGGATGACGGCGATGGGCCAGGCTAACGCCCTGGCGGTGATGGCGGTCGGCGATAAAGGCTGCTTCCTCAACGCGCCGGATATGTATATGGAAAAGCTGATTGTCGGCCCGGGCGCTAAAGGCGCTATCGACCTCAGTCTGCCGCTGGAAGAGAACCTGCGCAATATCGCCCGCGCGCTGAACAAGCCGCTGGGCGAGCTGACCGTCACCGTGCTGGCGAAACCGCGCCACGACGCGGTGATTGCTCAGCTGCAGCAGCTGGGCGTGCGCGTGTTCGCCATTCCCGATGGCGACGTCGCGGCCTCCATTCTCACCTGCATGCCGGATAGCGAAGTCGACGTGCTGTACGGCATCGGCGGCGCGCCGGAAGGGGTGGTTTCCGCCGCGGTGATCCGCGCGCTCGACGGCGATATGCAGGGCCGCCTGCTGGCTCGTCACCACGTGAAGGGCGACAGCGAAGAGAATCGTCGCATCGGTGAAAACGAGCTGGCGCGCTGCAAAACCATGGGCATCGAAGCGGGTAAAGTGCTGCGCCTTGATGAAATGGCGCGCAGCGATAACGTCGTCTTCTCCGCCACCGGCATCACCAAAGGCGATCTGCTGGACGGCATCACCCGTAAGGGCAATATGGCCACCACCGAGACGCTGCTGATCCGCGGCAAGTCGCGCACCATCCGTCGGATCCAGTCGATTCATTACCTCGACCGTAAAGATCCGGACGTCCAGCAGCACATCCTGTAA	MKRELAIEFSRVTEAAALAGYKWLGRGDKNSADGAAVNAMRIMLNLVNIDGTIVIGEGEIDEAPMLYIGEKVGTGKGDAVDIAVDPIEGTRMTAMGQANALAVMAVGDKGCFLNAPDMYMEKLIVGPGAKGAIDLSLPLEENLRNIARALNKPLGELTVTVLAKPRHDAVIAQLQQLGVRVFAIPDGDVAASILTCMPDSEVDVLYGIGGAPEGVVSAAVIRALDGDMQGRLLARHHVKGDSEENRRIGENELARCKTMGIEAGKVLRLDEMARSDNVVFSATGITKGDLLDGITRKGNMATTETLLIRGKSRTIRRIQSIHYLDRKDPDVQQHIL	PGPT0017655_731	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
BMS020_03240	747	fpr_1	COG1018	Flavodoxin/ferredoxin--NADP reductase	ATGGCGGACTGGGTTAGCGGCAAAGTGACAAAAGTGGAGTACTGGACGGACGCCTTGTTCAGTTTATACGTGCGGGCGCCGGTTCAGCCGTTTACCGCCGGGCAATTTACCAAGCTCGGGCTGGAAATCGACGGCGAACGCGTGCAGCGCGCCTACTCCTACGTCAACGCTCCCGGCAATCCCGATCTCGAGTTCTATCTGGTCACCGTCCCAGAAGGCAAGCTGAGCCCGCGTCTGGCGGCGCTGAAGCCGGGCGATGAGGTCCAGGTGGTGAGCGAAGCGGCTGGCTTCTTCGTCCTCGAGGAAGTACCGGATTGCGATACCCTGTGGATGCTGGCGACCGGCACCGCGCTTGGGCCTTACCTGTCGATTCTCCAGGAAGGCAAAGATCTTGAGCGTTTTAACCATCTGGTGCTGGTCCATGCCGTGCGCTACGCCGCGGACCTGAGCTATCTGCCGCTGATGCGCGAGCTTGAGCAGCGCTACGCCGGCAAATTACTCATCCAGACGGTGGTCAGTCGCGAAACCGTGGCAGGCTCGCTGACCGGCCGGGTGCCGTTCCTGATTGAAACCGGGGCGCTGGAGGAGGCGGTCGGCCTGCCGATGACCAACGACACCAGCCATGTGATGCTGTGCGGCAACCCGCAGATGGTGCGCGATACCCAACAGCTGTTAAAAGAGACCCGGCAGATGACCAAACATCTGCGTCGCCGGCCGGGCCACATGACGGCGGAGCATTACTGGTAA	MADWVSGKVTKVEYWTDALFSLYVRAPVQPFTAGQFTKLGLEIDGERVQRAYSYVNAPGNPDLEFYLVTVPEGKLSPRLAALKPGDEVQVVSEAAGFFVLEEVPDCDTLWMLATGTALGPYLSILQEGKDLERFNHLVLVHAVRYAADLSYLPLMRELEQRYAGKLLIQTVVSRETVAGSLTGRVPFLIETGALEEAVGLPMTNDTSHVMLCGNPQMVRDTQQLLKETRQMTKHLRRRPGHMTAEHYW	PGPT0013215_3492	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528	NA	NA
BMS020_03241	429			hypothetical protein	ATGACCCTACAGCAGTGGTTATTCTCAATTAAAGGGCGCATTGGCCGCCGCGATTTCTGGATCTGGATTGCCATCTGGCTGGTGACCATGAGCGCTCTGTTCACCCTGGCAGGCAGCAATCTGCTTAATCTGCAGACGGCGGCGTTTATTATCGTCTGCCTGCTGTGGCCGACGGCGGCGGTGGTGGTGAAGCGACTGCACGATCGCGGCAAATCCGGACTGTGGGCGCTGCTGATGATTTTGGCGTGGATGCTGCTGGCGGGGAACTGGGCGATGCTGCCGCAGGTCTGGCAGTGGGGCGTCGGGCGCTTTGTGCCGACGCTGATTATCGTCATGATGCTGATCGACCTGGGGGCGTTTGTCGGCACCCAGGGCGAGAATAAGTTCGGCAAGGAGACCCAGGACGTGCGCTGGAAAGCGGACGCCTGA	MTLQQWLFSIKGRIGRRDFWIWIAIWLVTMSALFTLAGSNLLNLQTAAFIIVCLLWPTAAVVVKRLHDRGKSGLWALLMILAWMLLAGNWAMLPQVWQWGVGRFVPTLIIVMMLIDLGAFVGTQGENKFGKETQDVRWKADA				NA	NA	NA	NA	NA
BMS020_03242	600			hypothetical protein	ATGAAGAAGTGGACAATCTTGTGTTTCAGTGGGCTGATGGGCCTTGCCGTCGGCCCGCACGCGTTGTCCGCAGAAAGCGAATCGACGACCGCTGCCCCCTACCTGCTCGCCGGCGCGCCGAGCTTTGACCTGTCGATCAGCCAGTTCCGGGAAAAATTTAACGCCGATAACCCGAAGCTGCCTCTGAATGAATTCCGTTCCATATCAACCAGCCGCGATCGGGCTAACCTGACCCGCGCCGCCAGCAAGATAAACGAAAATCTCTATGCCTCCACCGCGCTGGAGCGCGGCACGCTGAAGATCAAATCCATGCAGATCACCTGGCTACCGATCCAGGGGCCGGAGCAAAAAGCGGCGAAGGCCAAAGCGCTGGAGTATATGAGCGCCATGATCCGCGCCTTCGTGCCCACCCTTAGCCCGGCGCAGAGCCAGCAAAAACTGCAGAAACTCCTGACCGCCGGCAAAGGCAAACGCTACTTCGCCGACACCGAGGGCGCCGTGCGCTATGTGGTGGCAGATCATGGCGAAAAGGGTCTGACCTTCGCTATTGAACCGATTAAGCTGGCGCTATCTGAAACGCTGGAAGGTAACAATAAATGA	MKKWTILCFSGLMGLAVGPHALSAESESTTAAPYLLAGAPSFDLSISQFREKFNADNPKLPLNEFRSISTSRDRANLTRAASKINENLYASTALERGTLKIKSMQITWLPIQGPEQKAAKAKALEYMSAMIRAFVPTLSPAQSQQKLQKLLTAGKGKRYFADTEGAVRYVVADHGEKGLTFAIEPIKLALSETLEGNNK				NA	NA	NA	NA	NA
BMS020_03243	768	tpiA_1	COG0149	Triosephosphate isomerase	ATGCGACATCCTTTAGTGATGGGTAACTGGAAACTGAACGGCAGCCGCCACATGGTAAACGAACTGGTTGCGAACCTGCGTACCGAGCTGGCTGGCGTAAGCGGCTGTGCAGTTGCCATCGCCCCGCCGGAAATGTATCTGGACCTGGCTAAGCGTGCGGCAGAAGGCAGCCACATCCACCTGGGCGCGCAGAACGTTGACGTGAACCTGTCCGGCGCTTTCACCGGTGAAACCTCCGCCGAAATGCTGAAAGATATCGGCGCGCAGTACATCATCATCGGCCACTCCGAGCGTCGTACCTACCACAAAGAATCCGACGAGCTGATCGCGAAGAAATTCGCCGTGCTGAAAGAGCAGGGTCTGACTCCGGTACTGTGCATCGGTGAAACCGAAGCGGAAAACGAAGCGGGCAAAACGGAAGAAGTTTGCGCACGTCAGATCGACGCGGTACTGAAAACACAGGGCGCTGCCGCTTTCGAAGGCGTGGTTATCGCTTACGAACCCGTATGGGCTATCGGTACCGGCAAATCCGCGACCCCGGCTCAGGCTCAGGCGGTGCACAAATTCATCCGTGACCACATTGCTAAAGCTGACGCCAAAATCGCTGAGCAAGTGATCATCCAGTACGGCGGTTCCGTTAACGCTGGCAACGCAGCAGAGCTGTTCACCCAGCCGGACATCGACGGCGCGCTGGTTGGCGGCGCTTCCCTGAAAGCAGACGCTTTCGCGGTGATCGTGAAAGCTGCAGAAGCGGCGAAAAAAGCCTAA	MRHPLVMGNWKLNGSRHMVNELVANLRTELAGVSGCAVAIAPPEMYLDLAKRAAEGSHIHLGAQNVDVNLSGAFTGETSAEMLKDIGAQYIIIGHSERRTYHKESDELIAKKFAVLKEQGLTPVLCIGETEAENEAGKTEEVCARQIDAVLKTQGAAAFEGVVIAYEPVWAIGTGKSATPAQAQAVHKFIRDHIAKADAKIAEQVIIQYGGSVNAGNAAELFTQPDIDGALVGGASLKADAFAVIVKAAEAAKKA	PGPT0017995_1999	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
BMS020_03244	1305			hypothetical protein	ATGTCGCTCTGGCTTACCCACCCGCTGTTCCTCCCTTCACTGATTGTCGGCGTCACCATTGTGCTCTGGGCGACATCGCTGCTGCCGGAGTTTATCACCGCGCTGCTGTTTTTCGCTGCGGCGATGATGGCGAAAATCGCCCCGCCGGAGGTGATCTTTGGCGGCTTTGCCTCCTCGGCCTTCTGGCTGGTGTTCAGCGGCTTTGTGCTCGGCATCGCGATCCGTAAAACCGGGCTGGCGGACCGGGCGGCGCAGGCGTTGTCGGCGCGGCTAACCGACTCCTGGCCGCGGATGGTCGCCAGCGTTGTACTCCTGAGCTACGCCCTGGCGTTCGTGATGCCTTCCAACATGGGGCGCATCGCGCTGCTGATGCCGATCGTGGCGGCGATGGCCCGCCGGGCGGGCATTGCCGACGGTAGCCGCGGCTGGTTCGGCCTGGCGCTGGCGGTGGGATTCGGCACCTTTCAGCTGTCGGCGACCATTCTGCCCGCCAACGTGCCGAATCTGGTGATGAGCGGCGCGGCGGAAGGCTCGTACGGTATCCACCTGAATTATGTCCCCTATTTACTGCTGCATACGCCGGTGCTTGGCTGGCTGAAAGGGGCGGCGCTGGTGGCGCTAATCTGCTGGCTGTTTCCTGGTAAGCCGCATCCGCCGCGCGACCTGGCGCCGCTGCCGGCGATGAGCCGCGACGAGAAGCGTCTGGCGTGGCTGCTGGCGGTGGTCCTCACGCTGTGGGTGACCGAGAGCTGGCACGGCGTTGGCCCAGCGTGGACCGGCCTGGCGGCGGCGGTGGTAACGCTGCTGCCGCGGGTGGGCTTTATCAGCGGCGAGGAGTTTGCCAGCGGCGTGAATATGCGCACCTGCATCTACGTCGCCGGGATTCTGGGGCTGGCGATCACCGTCACCCAAACCGGGATTGGCGGCGTGGTGGGCAATGCGCTGCTGGAAGTGATGCCCCTGGATAAAGACAATCCTTTCACCAGCTTTCTCGCTCTGACCGGGATAACCAGCGCGCTGAACTTTATTATGACCGCCAACGGCGTGCCGGCGCTCTACACCACCTTTGCCCAGAGCTTTGCCGACGCCACCGGCTTCCCGTTGCTGAGCGTAATTATGATTCAGGTGCTGGGCTATTCCACGCCGCTGCTGCCGTATCAAGCGTCGCCGATCGTGGTCGCGATGGGGTTAGGCAAGGTCCCGGCGAGGGCGGGGATGCTGCTGTGTCTGGCGCTGGCGGCGGTGAGCTATTTGATTTTGCTGCCGCTGGACTACGCCTGGTATCAGCTGTTGGGGAAACTGTAG	MSLWLTHPLFLPSLIVGVTIVLWATSLLPEFITALLFFAAAMMAKIAPPEVIFGGFASSAFWLVFSGFVLGIAIRKTGLADRAAQALSARLTDSWPRMVASVVLLSYALAFVMPSNMGRIALLMPIVAAMARRAGIADGSRGWFGLALAVGFGTFQLSATILPANVPNLVMSGAAEGSYGIHLNYVPYLLLHTPVLGWLKGAALVALICWLFPGKPHPPRDLAPLPAMSRDEKRLAWLLAVVLTLWVTESWHGVGPAWTGLAAAVVTLLPRVGFISGEEFASGVNMRTCIYVAGILGLAITVTQTGIGGVVGNALLEVMPLDKDNPFTSFLALTGITSALNFIMTANGVPALYTTFAQSFADATGFPLLSVIMIQVLGYSTPLLPYQASPIVVAMGLGKVPARAGMLLCLALAAVSYLILLPLDYAWYQLLGKL				NA	NA	NA	NA	NA
BMS020_03245	765	cdh_1	COG2134	CDP-diacylglycerol pyrophosphatase	ATGAGAAGAGTAAGATACTTTTTGCTGGCGCTGCTGGTGGCGATCCTCGCGGCGCTGGCCGGCGGCTACTACTGGCTGCACTCTGGCAACCCGGACGCGTTGCGCAAGATTGTTCTGCAGCAGTGCGTTCCCCATCAGCAACAGCAGCAAAACCCGTCGCCGTGCGCCGAAGTGAACCTCAAGGGCGGCTATGTGCTGTTTAAAGACCGTAACGGCCCGCTGCAGTATTTGCTGATGCCGACCTACCGCATTAACGGCACCGAAAGCCCGCTGCTGTTGGATCCGCTGACGCCCAACTTCTTCTGGCAGGCCTGGCAGGGGCGTGAAATCATGAGCCAGCGCCACGGCGCGCCGGTTCCGGATAACGCGGTATCGCTGGCAATCAACTCGCGCAGCGGACGCACGCAAAACCATTTCCATATTCATATCTCTTGCCTGCGCCCCGATGTGCGCGCGCAGTTAGATAAGGATGCGGCGGCGATCAGCAGCCGCTGGCTGCCGCTACCGGGTGGGCTTGAGGGCCATGAATACCTGGCGCGCCGGGTGACGGAGGCGGAGCTGGCCCAGCGCAGCCCATTCCTGATGCTGGCGGAAGAGGTGCCGGAGGCCCGTCAGCATATGGGACGCTTCGCGCTGGCGATGGCCCAGCAGAGCGACGGCTCGCTGGTGCTGCTGGCGACGGAGCGTAACCTGCTCTCCCTGAACCGGGCCTCGGCGGAAGAGATTCAGGATCATCGCTGCGCCATCCTTAACGCAAACCACTAG	MRRVRYFLLALLVAILAALAGGYYWLHSGNPDALRKIVLQQCVPHQQQQQNPSPCAEVNLKGGYVLFKDRNGPLQYLLMPTYRINGTESPLLLDPLTPNFFWQAWQGREIMSQRHGAPVPDNAVSLAINSRSGRTQNHFHIHISCLRPDVRAQLDKDAAAISSRWLPLPGGLEGHEYLARRVTEAELAQRSPFLMLAEEVPEARQHMGRFALAMAQQSDGSLVLLATERNLLSLNRASAEEIQDHRCAILNANH	PGPT0024400_233	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PYROPHOSPHATASE_ACTIVITY,PGPT0024400-cdh-K01521	NA	NA
BMS020_03246	990	sbp_1	COG1613	Sulfate-binding protein	ATGAATAAGTGGGGCGTAGGGTTAACTCTGTTGCTGGCATCCGCCAGCGTTCTGGCAAAAGACATTCAGCTATTAAACGTATCTTATGATCCAACGCGCGAGCTGTACGAACAGTACAACAAAGCGTTCAGCGCGCACTGGAAGCAGGAGACCGGCGACAACGTGGTGATCCGCCAGTCGCACGGCGGCTCCGGCAAGCAGGCGACCTCGGTGATTAACGGTATTGAAGCGGATGTGGTTACGCTGGCGCTGGCCTACGACGTCGACGCGATCGCCGAGCGCGGCCGTATCGATAAAAACTGGCTGAAGCGCCTGCCGGATAACTCCGCGCCCTATACTTCCACCATCGTGTTCCTCGTCCGTAAGGGCAACCCGAAACAGATCCATGACTGGAACGACCTGATCAAACCGGGCGTGTCGGTCATTACCCCGAACCCGAAAAGCTCCGGCGGCGCTCGCTGGAACTACCTGGCGGCCTGGGGCTATGCCCTGCATCAGAACCATGGCGACCAGGCGAAAGCCCAGGAGTTCGTCAAGGCGCTGTATAAAAACGTGGAAGTGCTGGACTCCGGCGCGCGCGGTTCGACCAATACCTTCGTAGAACGCGGGATCGGCGATGTGCTGATCGCCTGGGAAAACGAAGCGCTGCTGGCGACCAACGAACTGGGCAAAGACAAGTTTGAAATCGTGACTCCGAGTGAGTCGATTCTGGCTGAGCCAACCGTTTCGGTGGTCGATAAAGTCGTGGATAAGAAAGGCACCCGCCAGGTGGCGGAAGCGTACCTGAAGTATCTCTACTCGCCGGAAGGCCAGGAGATTGCGGCGAAGAACTTCTACCGTCCGCGCGATCCGAACGTGGCGAAGAAATATGCTAATGAATTCCCGAAACTGAAGCTGTTCACCATCGATCAGGAGTTCGGCGGCTGGACGAAAGCGCAGAAAGCGCACTTCTCCAACGGCGGCACCTTCGACCAGATTAGCCAGCGTTAA	MNKWGVGLTLLLASASVLAKDIQLLNVSYDPTRELYEQYNKAFSAHWKQETGDNVVIRQSHGGSGKQATSVINGIEADVVTLALAYDVDAIAERGRIDKNWLKRLPDNSAPYTSTIVFLVRKGNPKQIHDWNDLIKPGVSVITPNPKSSGGARWNYLAAWGYALHQNHGDQAKAQEFVKALYKNVEVLDSGARGSTNTFVERGIGDVLIAWENEALLATNELGKDKFEIVTPSESILAEPTVSVVDKVVDKKGTRQVAEAYLKYLYSPEGQEIAAKNFYRPRDPNVAKKYANEFPKLKLFTIDQEFGGWTKAQKAHFSNGGTFDQISQR	PGPT0003015_1788	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003015-sbp-K23163	NA	NA
BMS020_03247	240	zapB	COG3074	Cell division protein ZapB	ATGTCATTAGAAGTGTTTGAGAAATTAGAATCTAAGGTTCAGCAGGCGATTGATACCATCACTCTGTTGCAGATGGAAATCGAAGAGCTGAAAGAAAAGAACAACACCCTGGCGCAGGAAGTTCAGAGCGCGCAGCATGGTCGTGAAGAGCTGGAGCGCGAAAACAGCCAGCTGAAAGAGCAGCAGCAGGGCTGGCAGGAGCGTCTGCAGGCGCTGCTGGGCCGCATGGAAGAAGTCTAA	MSLEVFEKLESKVQQAIDTITLLQMEIEELKEKNNTLAQEVQSAQHGREELERENSQLKEQQQGWQERLQALLGRMEEV				NA	NA	NA	NA	NA
BMS020_03248	852	glpF_2	COG0580	Glycerol uptake facilitator protein	ATGAGCCAAACATCAACCTTAAAAGGCCAGTGCATCGCAGAGTTCCTCGGTACCGGGTTGTTGATCTTTTTCGGCGTTGGGTGCGTGGCTGCGCTCAAGGTCGCGGGAGCCAGCTTCGGACAATGGGAAATCAGCATCATCTGGGGTCTGGGCGTCGCCATGGCGATCTACCTGACCGCCGGGGTATCCGGTGCGCACCTTAACCCTGCGGTGACCATCGCGCTCTGGCTGTTCGCCTGCTTCGATGGCCGCAAAGTGGTTCCTTTTATTATTTCGCAATTCGCTGGCGCCTTTTGCGCTGCGGCATTAGTTTACGGGCTTTATTACAATCTTTTCCTCGATTATGAAACCACCCACCATATGGTACGCGGCAGCGTGGAAAGCCTTGATCTGGCTGGCATCTTCTCCACTTACCCGAACCCGCATATCAATTTTGTGCAGGCCTTCGCGGTAGAGATGGTGATTACCGCTATCCTGATGGGCGTCATCCTGGCGCTGACCGACGATGGCAACGGCGTGCCGCGCGGTCCGCTGGCGCCGCTGCTGATCGGCCTGCTGATCGCGGTGATTGGCGCCTCCATGGGCCCGCTGACCGGCTTCGCCATGAACCCGGCGCGTGATATCGGCCCGAAAGCCTTCGCCTGGCTGGCCGGCTGGGGTGATGTCGCCTTCACCGGCGGCAAAGATATACCTTATTTCCTGGTGCCGCTGTGCGCACCGGTGGTCGGCGCGGCGCTGGGCGCGTTCAGCTATCGTAAGCTGATTGGCCGCCACCTGCCTTGCGACACCTGCGTGGACGAAGAGCAACAGAGCCCCTCCTCTTCCACCACTCAACATAAAGCTTCGCTGTAA	MSQTSTLKGQCIAEFLGTGLLIFFGVGCVAALKVAGASFGQWEISIIWGLGVAMAIYLTAGVSGAHLNPAVTIALWLFACFDGRKVVPFIISQFAGAFCAAALVYGLYYNLFLDYETTHHMVRGSVESLDLAGIFSTYPNPHINFVQAFAVEMVITAILMGVILALTDDGNGVPRGPLAPLLIGLLIAVIGASMGPLTGFAMNPARDIGPKAFAWLAGWGDVAFTGGKDIPYFLVPLCAPVVGAALGAFSYRKLIGRHLPCDTCVDEEQQSPSSSTTQHKASL	PGPT0004760_290	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLYCEROL_UPTAKE,PGPT0004760-glpF|pduF-K02440	NA	NA
BMS020_03249	1512	glpK	COG0554	Glycerol kinase	ATGACCGACAAAAAATATATCGTTGCGCTTGACCAGGGCACTACCAGCTCCCGGGCCGTTGTGATGGATCATGATGCCAATATCGTCAGCGTCTCCCAGCGAGAATTCGAACAAATTTATCCTAAGCCAGGCTGGGTCGAACACGACCCGATGGAAATCTGGGCGTCCCAAAGCTCGACGCTGGTCGAAGCGCTGGCCAAAGCGGATATCAACTCCGATCAGATCGCGGCCATCGGTATCACCAACCAGCGTGAGACCGTGGTGGTGTGGGAGCGTGAGACCGGCAAACCGATCTATAACGCCATCGTCTGGCAGTGCCGCCGCACCGCAGAGATCTGCGAGCAGCTCAAGCGTGACGGGATGGAGGAGTATATCCGCAAGGCCACTGGCCTGGTGGTGGACCCCTACTTCTCCGGCACCAAGGTGAAATGGATCCTCGACCATGTCGAAGGTTCCCGTGAGCGTGCGAAGCGCGGTGAGCTGCTGTTTGGCACCGTGGACACCTGGCTTATCTGGAAGATGACCCAGGGTCGCGTGCACGTCACCGACTACACCAACGCCTCGCGCACCATGCTGTTCAACATCCACGACCTGGACTGGGACGATAAGATGCTCGACGCGCTGGATATTCCGCGCGCCATGCTGCCGGAAGTGCGCAAGTCGTCCGAAGTGTACGGCCAGACCAACATCGGTGGTAAAGGCGGGACCCGTATTCCTATCGCCGGGATCGCCGGTGACCAGCAGGCGGCCCTGTTCGGCCAGCTGTGCGTCAAGGAAGGGATGGCAAAAAATACCTATGGCACCGGCTGCTTTATGCTGATGAACACCGGCGAAAAAGCAGTGACCTCCACTCACGGTTTGCTGACCACCATCGCCTGCGGTCCGCGCGGCGAGGTGAACTACGCTCTGGAAGGGGCGGTGTTTATGGCTGGCGCCTCCATTCAGTGGCTGCGCGACGAGATGAAGCTCATCAGCGATGCGTTCGACTCCGAGTACTTCGCCACCAAAGTGAAGGACACCAACGGCGTGTATGTCGTGCCCGCGTTCACCGGTCTTGGCGCGCCTTACTGGGACCCGTATGCCCGCGGCGCGATTTTCGGCCTCACCCGCGGCGTGAACTCGAACCACATTATCCGTGCGACGCTGGAGTCCATCGCCTATCAGACCCGCGACGTGCTGGAAGCAATGCAGGCTGACTCCGGTATCCGTCTGCACGCCCTGCGCGTGGACGGCGGCGCAGTGGCCAACAACTTCCTGATGCAGTTCCAGTCCGATATCCTCGGCACCCGTGTGGAGCGTCCGGAAGTGCGCGAAGTCACAGCCCTGGGCGCCGCCTATCTGGCCGGGCTGGCGGTCGGCTTCTGGCAGAACCTTGATGAGCTGCAGGAGAAAGCGGTGATTGAGCGCGAATTCCGCCCGGGCATTGAAACCACCGAGCGCAACTATCGCTACAGCGGCTGGAAGAAAGCAGTGAAACGCGCCCTGGCGTGGGAAGAGCACGACGAAGCGTAA	MTDKKYIVALDQGTTSSRAVVMDHDANIVSVSQREFEQIYPKPGWVEHDPMEIWASQSSTLVEALAKADINSDQIAAIGITNQRETVVVWERETGKPIYNAIVWQCRRTAEICEQLKRDGMEEYIRKATGLVVDPYFSGTKVKWILDHVEGSRERAKRGELLFGTVDTWLIWKMTQGRVHVTDYTNASRTMLFNIHDLDWDDKMLDALDIPRAMLPEVRKSSEVYGQTNIGGKGGTRIPIAGIAGDQQAALFGQLCVKEGMAKNTYGTGCFMLMNTGEKAVTSTHGLLTTIACGPRGEVNYALEGAVFMAGASIQWLRDEMKLISDAFDSEYFATKVKDTNGVYVVPAFTGLGAPYWDPYARGAIFGLTRGVNSNHIIRATLESIAYQTRDVLEAMQADSGIRLHALRVDGGAVANNFLMQFQSDILGTRVERPEVREVTALGAAYLAGLAVGFWQNLDELQEKAVIEREFRPGIETTERNYRYSGWKKAVKRALAWEEHDEA	PGPT0018435_2335	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018435-glpK-K00864	NA	NA
BMS020_03250	1203	gltS	COG0786	Sodium/glutamate symporter	ATGTTTCATCTCGATACCTTATCGACGCTCGTTGCCGCAACGCTTGTGCTGTTACTCGGCAGAAAACTCGTCCAAACCGTTCCCCTCCTCAAGCAATACACCATTCCTGAACCTGTTGCCGGCGGTCTGCTGGTGGCGCTGGCGCTGCTGGTGCTGAAAAAAAGTATGGATATCGAAATTGATTTCGATATGAGCCTCAAAGATCCGCTGATGCTGGCGTTCTTCGCCACCATCGGGCTTAACGCCAACCTCGCCAGCCTGCGGGCGGGCGGCAAGGTGCTGGGTACCTTTCTGATTGTGGTGGTTGGTCTGCTGCTGCTGCAGAACGCCCTCGGTATCGGTATGGCGAAGCTGCTGGGGCTGGATCCGCTGATGGGTCTGCTGGCCGGCACTATCACCCTTTCCGGCGGCCACGGCACCGGCGCGGCGTGGAGCAAGCTGTTCATTGAGCGCTATGGTTTTGCCAATGCCACGGAGGTGGCGATGGCCTGCGCGACCTTCGGCCTGGTGCTCGGCGGTCTGATCGGCGGCCCGGTGGCGCGTTACCTGGTGAAGCACTCTTCCTCTCCTGACGGGACGCCGGACGATCAGGTGGCGCCGACCGCCTTTGAAAAGCCGGACGTGGGGCGTGTCATCACGTCGCTGGTGCTGATCGAGAGTATCGCCCTGATCGCCATCTGTCTGACGCTGGGCAAGGTGGTTGCGCAACTGCTGGCGGGCAGCGTCTTTGAGCTGCCGACCTTCGTCTGCGTGCTGTTTATCGGCGTGATCCTTAGCAACAGCCTGGCGCTGGCGGGGTTGTATCGGGTGTTCGATCGCGCGGTGTCGGTGCTGGGCAACGTCAGCCTGTCGCTGTTCCTCGCCATGGCGCTGATGAGCCTCAAACTGTGGGAGTTGGCCTCCCTGGCGCTGCCGATGATTATTATCCTGGCGGTCCAGGCGTTGGCGATGGCGCTGTATGCGGTGTTCGTCACCTACCGGATGATGGGCAAAAACTACGATGCCGCGGTGCTGGCGGCGGGCCACTGTGGGTTTGGTCTGGGGGCAACGCCGACGGCGATTGCCAATATGCAGGCGATTACCGACCGTTTTGGCCCGTCGCACATGGCCTTCCTGGTGGTGCCGATGGTGGGGGCGTTCTTTATCGATATCGTCAACGCGCTGGTGATTAAGCTGTTTCTGCTGCTGCCGGTGTTTGGCTGA	MFHLDTLSTLVAATLVLLLGRKLVQTVPLLKQYTIPEPVAGGLLVALALLVLKKSMDIEIDFDMSLKDPLMLAFFATIGLNANLASLRAGGKVLGTFLIVVVGLLLLQNALGIGMAKLLGLDPLMGLLAGTITLSGGHGTGAAWSKLFIERYGFANATEVAMACATFGLVLGGLIGGPVARYLVKHSSSPDGTPDDQVAPTAFEKPDVGRVITSLVLIESIALIAICLTLGKVVAQLLAGSVFELPTFVCVLFIGVILSNSLALAGLYRVFDRAVSVLGNVSLSLFLAMALMSLKLWELASLALPMIIILAVQALAMALYAVFVTYRMMGKNYDAAVLAAGHCGFGLGATPTAIANMQAITDRFGPSHMAFLVVPMVGAFFIDIVNALVIKLFLLLPVFG	PGPT0000810_1152	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000810-gltS-K03312	NA	NA
BMS020_03251	1392	xanP_2	COG2233	Xanthine permease XanP	ATGTCCGTTAACACCGCAGAGTCAGAAAATGCGCAACCGGTTGCGCATAAACCAGCCAGCGAATTAATCTACCGCCTCGAAGATCGCCCACCGCTACCGCAAACCCTGTTCGCCGCCTTCCAGCACCTGCTGGCGATGTTTGTCGCGGTGATCACCCCGGCGCTGTTAATCTGCCAGGCTCTCGGTCTCCCGGCGCAAGATACCCAACATATCATCAGCATGTCGCTGTTCGCCTCGGGCGTGGCCTCCATTATTCAGATCAAAGCCTGGGGCCCGGTCGGTTCCGGACTGCTCTCCATCCAGGGCACCAGCTTCAACTTTGTCGCCCCGCTCATCATGGGCGGCACCGCGCTGAAAACCGGCGGCGCCGACGTCCCGACAATGATGGCCGCCCTGTTCGGCACCCTGATGCTGGCCAGCTGCACGGAAATGGTTCTCTCCCGCGTCCTGCATCTGGCGCGCCGCATCATTACCCCGCTGGTCTCCGGCGTGGTGGTGATGATTATCGGCCTGTCGTTGATTCAGGTCGGATTGACCTCCATCGGCGGCGGCTACGCGGCGATGGCCGACCACACCTTCGGCGCGCCGAAGAACCTGCTGCTGGCGGGCATCGTGCTGGCGCTGATCATCATTCTCAACCGCCAGCGTAATCCCTATTTGCGCATCGCTTCGCTGGTGATTGCCATGGCGGCGGGCTATCTGGCGGCGTGGTTCCTCGATATGCTGCCGGCCAACACCGCCCCGACCAACAGCAGCCTCATCACCGTTCCGACGCCGCTGTACTATGGCCTCGGCATCGACTGGAGCCTCCTGCTGCCGCTGATGCTGGTGTTTATGATCACCTCCCTTGAAACCATCGGCGATATCACCGCCACCTCCGATGTCTCCGAGCAGCCGGTCTCCGGTCCGCTGTATATGAAACGCCTGAAAGGCGGCGTGCTGGCTAACGGCCTCAACTCCTTTGTTTCCGCGGTCTTCAACACCTTCCCGAACTCCTGCTTCGGCCAGAACAACGGCGTGATCCAGCTGACCGGCGTCGCCAGCCGCTACGTCGGCTTTGTGGTAGCGCTGATGCTGATCGTCCTCGGGCTGTTCCCGGCGGTGAGCGGTTTCGTACAGCATATCCCTGAGCCGGTGCTTGGCGGCGCCACGCTGGTGATGTTCGGCACCATCGCCGCGTCCGGCGTGCGCATCGTCTCCCGCGAGCCGCTGAATCGCCGGGCGATCCTGATTATCGCCCTGTCGCTGGCGGTGGGCCTCGGCGTGTCGCAACAGCCGTTGATCCTGCAGTTCGCACCGGACTGGCTGAAGAATCTGCTCTCCTCCGGCATCGCCGCCGGCGGTATCACGGCGATTGTTCTGAATTTAATTTTCCCGCCGGAAAAAGCCTGA	MSVNTAESENAQPVAHKPASELIYRLEDRPPLPQTLFAAFQHLLAMFVAVITPALLICQALGLPAQDTQHIISMSLFASGVASIIQIKAWGPVGSGLLSIQGTSFNFVAPLIMGGTALKTGGADVPTMMAALFGTLMLASCTEMVLSRVLHLARRIITPLVSGVVVMIIGLSLIQVGLTSIGGGYAAMADHTFGAPKNLLLAGIVLALIIILNRQRNPYLRIASLVIAMAAGYLAAWFLDMLPANTAPTNSSLITVPTPLYYGLGIDWSLLLPLMLVFMITSLETIGDITATSDVSEQPVSGPLYMKRLKGGVLANGLNSFVSAVFNTFPNSCFGQNNGVIQLTGVASRYVGFVVALMLIVLGLFPAVSGFVQHIPEPVLGGATLVMFGTIAASGVRIVSREPLNRRAILIIALSLAVGLGVSQQPLILQFAPDWLKNLLSSGIAAGGITAIVLNLIFPPEKA	PGPT0007335_319	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_TRANSPORT,PGPT0007335-xanP-K16345	NA	NA
BMS020_03252	1716			hypothetical protein	ATGAAATTTCTTGGAAAGCTGATTCTCTGGCTGCTAGTCGCTCTGCTGCTCGTCATGGTTGGCGCGTGGTTCCTGCTGCAAACCCACTGGGGCGCCCGCCAGGCCAGCGCCTGGCTCAGCAATGGCACCGGCTGGCAGGTCTCCTTCGATGCGATGGATCATGATTTCTCCTCCCCTCTTCATGTGCAGTTGCAAAACGTCACCTTTGGCCGGGAAGGCAAGCCGGCAACCCTGGTGGCGAAAACGGTCGATATTGGCTTCAGCACCCGCCAGTTTAGCGACCCGCTGCATGCGGATGAGATTGTCCTTAACGACGGCACCCTGAATCTGTCCCCCCACTCTGCCGACCTGCCGTTCGCTGCCGACCGGCTGATGTTGCGCAATATGGCTTTCAATAGTCCGGAAACCGGCTGGGCGCTCAGCGCGCAGCGCGTCACCGGCGGCGTCAGCCCATGGGCGCCGGAGGCAGGCAATGTGCTGGGGAAAACGGCGCAGATCCAGATGAGCGCGGGTTCAATGACGCTCAACGGCGTCGAAGCCAGCAACGTCCTGATTCAGGGCAAGATTGATCAGGGCGAAGTCACCCTCTCCACCCTCGGCGCCGATGTCGCCCGCGGCACCTTAACCGGCAATGCGAAACGCAGCGCCGACGGCAGCTGGCTGGTGGATAACCTTCAGCTAAATGAGATCCGACTGCAGAGCGCCGCCTCGCTGGCCGACTTTTTCGCGCCGTTAACCACGGTCCCCTCTCTGCAGATTGGCCGCCTGGATATCACCGACGCCCGCCTGCAGGGGCCGGACTGGGCGGTAACCGACCTCGACCTGAACCTGCGCAACCTGACGCTCAGTCACGGCGGCTGGCAGAGCCAGGACGGCACGCTGTCGATGAATGCCAGCGAATTTATCTACGGCTCGCTGCACTTTTTCGACCCGATCGTGAATGCCGAATTTTCACCCCAGGGTATTGCCCTGCGCCAGTTCTCCTCGCGCTGGGAGGGCGGCATGGTGCGAACCTCCGGCAACTGGCTGCGCGCCGGTAACGCGCTGGTGCTCGACGACACCGCCTTCGCCGGGCTGGAGTACACGCTGCCGGCGAACTGGAAGCCGCTGTGGATGACGCCGCTGCCGGCCTGGCTGCAAAGCCTGACGCTGAAAAAATTCAGCGCCAGCCGCAACCTGATCATCGATGTGGACCCTGCCTTCCCATGGCAAATTACCGCTCTCGATGGCTATGGCGGCGAGCTTCAGCTGGTGAAAAACGGCAGCTGGGGGGTGTGGAACGGTAGTGCGACGCTGAACGCCGCGGCGGCGACTTTTAACCGAATTGACGTGCGCCGCCCTTCACTCAAGCTGAGCGCCACGGCGTCGACGCTCAATATCACTGAGCTCAGCGCGTTCACCGAGCGCGGTATCCTGCAGGCCACCGCCGCGGTATCCCAGCTGCCGCAGCGCCAGGTCAATCTGAGCTTGAACGGCCGCGGCGTGCCGCTGAATATTCTGCAGGCCTGGGGCTGGCCTTCGCTCCCCATCAGCGGGGATGGCAATCTCCAGCTGACCGCCAGCGGCAGCGTGCAGGCCGATGCCCCGCTCAAGCCGACGGTCAACGCACAGCTTAGCGCCGTGAACATGGAGAAACAGCAGGTGGCGCAAACGATGCGCAACGGCGAGGTCAATACCGCCCCCGCCGCGCCAGCGCCCGCTCCCGTCACGCCATAG	MKFLGKLILWLLVALLLVMVGAWFLLQTHWGARQASAWLSNGTGWQVSFDAMDHDFSSPLHVQLQNVTFGREGKPATLVAKTVDIGFSTRQFSDPLHADEIVLNDGTLNLSPHSADLPFAADRLMLRNMAFNSPETGWALSAQRVTGGVSPWAPEAGNVLGKTAQIQMSAGSMTLNGVEASNVLIQGKIDQGEVTLSTLGADVARGTLTGNAKRSADGSWLVDNLQLNEIRLQSAASLADFFAPLTTVPSLQIGRLDITDARLQGPDWAVTDLDLNLRNLTLSHGGWQSQDGTLSMNASEFIYGSLHFFDPIVNAEFSPQGIALRQFSSRWEGGMVRTSGNWLRAGNALVLDDTAFAGLEYTLPANWKPLWMTPLPAWLQSLTLKKFSASRNLIIDVDPAFPWQITALDGYGGELQLVKNGSWGVWNGSATLNAAAATFNRIDVRRPSLKLSATASTLNITELSAFTERGILQATAAVSQLPQRQVNLSLNGRGVPLNILQAWGWPSLPISGDGNLQLTASGSVQADAPLKPTVNAQLSAVNMEKQQVAQTMRNGEVNTAPAAPAPAPVTP				NA	NA	NA	NA	NA
BMS020_03253	1560	malP_4	COG1263	PTS system maltose-specific EIICB component	ATGCCTGAAATACGTCAGCGTATTCTGGAGAATATGCAAAAATTCTCCCGGGCCATGATCGGCGCCGTATTGTTCTTGCCGGTCATTGGCTTAATTCTGGCCCTCAGTTCAGTATTAACTAATCCGACATTAATTGCTGAAACCAGTTTCCTGCACCAGCTTGGGCAGATGCTCGGCGACACCTTTTGGCCTTTATTTGGCAACCTCGGCTTATTATTTTGCGTCGGCATTAGCTATGGTCTGGCAAAAGATAAAAAAACCGAAGTCGCGCTGGTTGCGGTGATGTGCTTCATTATGTTTCTTGGCGCCAACCACTCCTGGCTGGAACACACCCACGGACTCGCCGAAAAAATTAACGGTGAATATTATGGCACCGGGCAAACCCAGCTGCTGGGCTTTGTGGTGGTGGATATGGGCGTTTTCCTTGGCATTATTCTCGGCTGCACCATCGCGTGGGTGCACAATAAAGTCTCTACCATTGACCTGCCCGGCGCGCTGTCGATGTACGGCGGCGCCAAGCTGACGCTGGTGGCGATGACGCCGGTGGTTATCTTCTACGCCATCGCCTTTACCTGGATTTGGCCGTTTATGACCCACGGCATCTCCGCCCTCACCGGCTTTATGAAAAATGCCGGGGTCGCCGGGGTCTTCGTCTATGGTTTCTTTGAAAAATTTCTTATCCCGACCGGCCTGCACCATTTTGTCTGGTCCCCCTTCCAGCTCACCCAGATTGGCGGCACCCTGAACGTGGACGGCCAGGTGGTCTCGGGTACCCAGGCCATTTTCCTCGCCTATATGCGCCACCCGGATCTGACCCCGGTGATGAATGAGGCCCTACGCTTCTCACAGCAAGGGATGACCACCATCTTCGGCCTCGCCGGCGCCTCGCTGGCGTTCTACCACACCGCGAAGCCGGAGAAAAAAGTCATGGCTAAGGCGATTCTGCTGCCGGCGATTATCACCTCCATGCTGACCGGCATCACCGAGCCGATTGAGTTCACCTTTTTGTTTGTCTCGCCGCTGCTGTGGGTGATCCATGCGACGTTAACCGCCGCCTCGCAGGCCATTTGCGACCTCTTCACCGTACGCCCCTGGGGCGCATCGGGCCTGATCGAATTTCTGATCTATAACCTGCCGCTGCCGGTCTCCTTAACGCGCTGGCCGGGATATGTCCTTATCGGGATCGGCCAGTTCGCCGTCTACTACGTGATTTTCCGCACCCTGGTGGTGAAGCTGAATCTGAAAACGCCGGGCCGGGAAGATGACGAGAACGTGAAGCTCTACAGCAAAGCGGAGTACCGCCAGAAAGTCGCGCAGCCGCAGTCGATTACCGATGACATTATCCGCGGCCTCGGGGGCAAGGAGAATATTCTCTCCGTCGATAATTGTTTTACACGTCTGCGCGTAGCCGTGCGCGATATGGCGCAAGTTGATGACGCGCAATTAAAAAATACTGGCGCCAACGGCGTGGTGCGCAATCGTAATGAAGTTCAGGTTATTTATGGCGTAAAAGTGGGACAGGTACGTTCCCGGGTTGATAACTGGTTAGCAGAAAATTAA	MPEIRQRILENMQKFSRAMIGAVLFLPVIGLILALSSVLTNPTLIAETSFLHQLGQMLGDTFWPLFGNLGLLFCVGISYGLAKDKKTEVALVAVMCFIMFLGANHSWLEHTHGLAEKINGEYYGTGQTQLLGFVVVDMGVFLGIILGCTIAWVHNKVSTIDLPGALSMYGGAKLTLVAMTPVVIFYAIAFTWIWPFMTHGISALTGFMKNAGVAGVFVYGFFEKFLIPTGLHHFVWSPFQLTQIGGTLNVDGQVVSGTQAIFLAYMRHPDLTPVMNEALRFSQQGMTTIFGLAGASLAFYHTAKPEKKVMAKAILLPAIITSMLTGITEPIEFTFLFVSPLLWVIHATLTAASQAICDLFTVRPWGASGLIEFLIYNLPLPVSLTRWPGYVLIGIGQFAVYYVIFRTLVVKLNLKTPGREDDENVKLYSKAEYRQKVAQPQSITDDIIRGLGGKENILSVDNCFTRLRVAVRDMAQVDDAQLKNTGANGVVRNRNEVQVIYGVKVGQVRSRVDNWLAEN	PGPT0016930_393	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0016930-glvC|malP|aglA-K02750	NA	NA
BMS020_03254	1380	pagL	COG1486	Phospho-alpha-glucosidase PagL	ATGAAATTAACCGTATTAGGCGGGGGCGGCGTTCGCTCTGCATTTTTAGCGAAATCGCTGGCCTATAATGCTCACCGCATTGGTTTAACGGAGGTGGTTTTTCTCGATAACTCTGCGGATAATCTGGCGATATTCGGCGAAATTGCCCGCTATGTATTTACGACCATTCGCCCGGATATTCATTTCACGACCACCACCGACCCGGTCGCGGCGCTGCAAAACGCCAATTATATTATTACCACCCTGCGGGTCGGCGGCGATGAAAGCCGCATTCGCGACGAGCGCATTGCGCTGCAGCATAACACCCTCGGCCAGGAGACCACCGGCGCCGGCGGCTTCGCGATGGCCATGCGCTCGATCCCGGCGATCCTCGACTATTGCCGGCTGATCGAAGCCCATGCCGCCGAAGACGCCATTCTGTTTAACTTTACCAACCCGTCAGGTCTGGTGACGGAAGCGATCGTCAAGTCCGGCTTTAAGCGTCGGGTCTATGGGATCTGCGATGCGCCTTCCGAGCTGATTCGTGAACTGCCGGCGATCCTCGGCTGTGAGGAGCGCGACCTGAGCGTGGAATGCTATGGGCTGAACCATTTCTCCTGGTTTACCCACTTCACCGTGCGCGGGGAAGCGGTGACCGAGCGGCTGATCGCCAGCCCGGCGCTGTACCAGAAGACCGCGATGCAGTACTTCTCACCCGAGCTGGTGCGGCTGTGCGATAACCAGTTACTCAACGAATATCTCTATTATTACTACTATCGCGACGAGGCGCTGAAGGCGATTCAGGGGGCAGGTGAAACGCGCGGGGAGCAGATCGCCCGTATCAATCAGGAGATGCGCCAGGCGCTGCGCACCGTGGATGCCAGAACGCAGCCGGAAGCCGCCTTCAATATCTGGATGCAGCACTACCTGCGCCGGGAAAACAGCTATATGCAGAACGAATCCCGGCAGGAGAAATTTCATACCCGCGAGCCGCTGACGCTGCGGCAGTTTATCGAAGAGCCGGACACCGGCGGCTATGCCGGGGTGGCGCTGGATATTCTGGAAGCGGTGAACAGCACCACCACCAAGCGGATCGTGGTGTCGATCCAGAATAATGGCACGCTCGACTTTTTGCGCCCTGACGACGTGATTGAGATCAGCTGCGACCTGAGCCGGGAGGGCCTCAGGCCGGTCACGCCGACGAAGGTGCCGACGGCGCAGAAGAATATGATTTCCTGCGTGAAAGAGTATGAGCGGCTGGCGGTAGCGGCGATCCTGCAGCAGGATAAGTCGCTGGCGGTGCGGGCGCTGATGGCGCACCCGCTGATCGGTTCCTGGTCGCTGGCGAAAACCCTGGTCGAAGCTTATCTCGACGATAAGCAGTTCGCCGCCTGGCGGTAA	MKLTVLGGGGVRSAFLAKSLAYNAHRIGLTEVVFLDNSADNLAIFGEIARYVFTTIRPDIHFTTTTDPVAALQNANYIITTLRVGGDESRIRDERIALQHNTLGQETTGAGGFAMAMRSIPAILDYCRLIEAHAAEDAILFNFTNPSGLVTEAIVKSGFKRRVYGICDAPSELIRELPAILGCEERDLSVECYGLNHFSWFTHFTVRGEAVTERLIASPALYQKTAMQYFSPELVRLCDNQLLNEYLYYYYYRDEALKAIQGAGETRGEQIARINQEMRQALRTVDARTQPEAAFNIWMQHYLRRENSYMQNESRQEKFHTREPLTLRQFIEEPDTGGYAGVALDILEAVNSTTTKRIVVSIQNNGTLDFLRPDDVIEISCDLSREGLRPVTPTKVPTAQKNMISCVKEYERLAVAAILQQDKSLAVRALMAHPLIGSWSLAKTLVEAYLDDKQFAAWR	PGPT0019105_168	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CARRAGEENASE,PGPT0019105-celF|licH|chbF-K01222	NA	NA
BMS020_03255	723			hypothetical protein	ATGGACTTAGAAAATATCTTTCGTGACGTGAAGCTAAGCAAAACGGAAATGACCGTGCTGCGCTTTATCCAGAACGACCCGGAGCTGTGTATCCGCCAGGGGATCCGCGCCGTGGCGGAGCAGTGCTACAGTAACCCCTCCTCGCTGGTGCGGTTGGCGAAAAAGCTTAAGTTCAGCGGCTGGCTGGAGCTGGTCTATTTCATCAAGTTCAATATCACCATGCCGAAGCTCGATGTCACCAACGATATCGACTATATGAGCATTCAGCCGGCGGAGGCGCTGACGCCGCTGCTGGCAAGCCTCGCGCAGCAGCGCGTCCTGATCCACGGCAGCGGCTTTTCGCAGCTGATTGCCCAGTATATTTATAACAAGTTTCTCGTCACTGGGGTGAATGCCAGCCTGGCGCTGTGGCCGGATTACGAAATCCTTGAGCAGAAAAACGCCGCTCGCTTCGACTCCATCTGGATCATTTCTAAATCCGGGCGCAGCAGCTCGGCGCTCAACTGGGTGAAGGCCATGGAGGGGAAGGAGATCAACCTGGTCTGCTTTACCGGTGATTATCAGAGCCCGCTGGCGCAGGCTGCGGATACGGCGTTTATCATTCACGATCCGCAGAAGTTCGACGATGATATTTACTGGAGCAACCCGTTTTTCGGCTACTGCATCCTAGGCTTTGAGCGGCTACTGAAGATGTGGTTTACCCGCGCACCTGGCAATAGGTAG	MDLENIFRDVKLSKTEMTVLRFIQNDPELCIRQGIRAVAEQCYSNPSSLVRLAKKLKFSGWLELVYFIKFNITMPKLDVTNDIDYMSIQPAEALTPLLASLAQQRVLIHGSGFSQLIAQYIYNKFLVTGVNASLALWPDYEILEQKNAARFDSIWIISKSGRSSSALNWVKAMEGKEINLVCFTGDYQSPLAQAADTAFIIHDPQKFDDDIYWSNPFFGYCILGFERLLKMWFTRAPGNR				NA	NA	NA	NA	NA
BMS020_03256	195			hypothetical protein	ATGAAAGATCCTGTTTTGTCCGTCAAAGAGAAAATTGGCTACGGCATCATGGGCGACGGCGCCACCCTCCCCATTATTCTCGCTTTGTTCACCCTCGTTCCGGGGGAGAGGGTTTTTTTATTCCATTTTTGTACAAAAAGTAACATTCATTTCAGTCTGGTGACTCAGGCCGCAGACGCTATTCCTGAACGGTGA	MKDPVLSVKEKIGYGIMGDGATLPIILALFTLVPGERVFLFHFCTKSNIHFSLVTQAADAIPER				NA	NA	NA	NA	NA
BMS020_03257	141			hypothetical protein	ATGGGCACAATTCCCTTGGCGGCACCACAGATGGGTACCGGTTACATTTTTTATCAGCCTTTGCCGCAGGAAGATGAATTAGGTCATTATCAGAATATGTTTCATGTATTTTGCGATCGCGTTAGCCTGAAAAGAGTATGA	MGTIPLAAPQMGTGYIFYQPLPQEDELGHYQNMFHVFCDRVSLKRV				NA	NA	NA	NA	NA
BMS020_03259	1095	intS_1	COG0582	Prophage integrase IntS	TTGCTTATCAATCCCGATGGCTCGAAGGGCTGGCGTTTCCGTTTCCGCTTTGCCGGAAAAGCACGGTTAATGTCATTTGGTAGCTACGACCTTGTGAGTCTCGCAGAAGCACGAGATAAACGAGATACGGCCCGTAAGCAGGTCGCAAATGGCATTGATCCGGTCGAAGAACGTAAAGCCCAAAAGCAGGCACAGCAACTCTCAACAGAGAACTCATTCGAAGCCATATGTCGAGAATGGCACGCCAACAAATCTGACCGCTGGACAGTGGCCTATCGCGAAGAAATCATTAAGACATTCGAGCAAGATGTGTTCCCGTTCATTGGTAAACGCCCAATCAGTGAAATCAAACCGTTAGAGCTGCTTGAAGTATTACGACGAATCGAAAAACGTGGAGCACTAGAGAAAACACGCAAGGTGCGTCAAAGATGCGGTGAGGTTTATCGCTATGCAATCATCACTGGCCGTGCTGAGTACAATCCTGCGCCTGATTTAGCTATCGCGCTGGCCGTTCCCAAGCAAAAGCACCATCCATTTTTATCCGCTGAAGAGTTGCCTCATTTTATTCGAGATCTTGAAGCGTATACCGGTAGCATCATCACCAAAAATGCTACGAAGATAGTCATGCTGACTGGTGTTAGAACGCAGGAGATGCGCTTTGCTACGTGGGAAGAAGTAGACCTCGAAAAAGGTATATGGGAGATACCAGCGGAACGTATGAAAATGCGTAGACCTCACATTGTTCCTTTATCTACTCAGGTAGTTGACCTTTTCAAACAGCTCGAACCTATTACCGGCCATTACCCTTACATCTTTGTTGGCAGGAACAACCGCAGCAAGCCAATCTCAAAAGAAAGTGTTTCACAAGTGATTGAGTTACTTGGTTACAAAGGGCGTGCTACAGGTCACGGTTTTCGCCATACCATGTCGACAATATTGCATGAACAGGGATTTGATAGTGCTTGGATTGAAATGCAACTGGCGCATGTTGATAAGAATAGTATTCGAGGAACGTATAATCATGCGCAATACATTGAAAAAAGAAAAAAGATGCTTCAATGGTATGCATCCTACATATATGCACAATACATTTAA	MLINPDGSKGWRFRFRFAGKARLMSFGSYDLVSLAEARDKRDTARKQVANGIDPVEERKAQKQAQQLSTENSFEAICREWHANKSDRWTVAYREEIIKTFEQDVFPFIGKRPISEIKPLELLEVLRRIEKRGALEKTRKVRQRCGEVYRYAIITGRAEYNPAPDLAIALAVPKQKHHPFLSAEELPHFIRDLEAYTGSIITKNATKIVMLTGVRTQEMRFATWEEVDLEKGIWEIPAERMKMRRPHIVPLSTQVVDLFKQLEPITGHYPYIFVGRNNRSKPISKESVSQVIELLGYKGRATGHGFRHTMSTILHEQGFDSAWIEMQLAHVDKNSIRGTYNHAQYIEKRKKMLQWYASYIYAQYI				NA	NA	NA	NA	NA
BMS020_03260	102			hypothetical protein	ATGTTCTTCATTAAATGGTTTAAAGGGGAAGTTATTGTCTACTTCTATTTTATTAATGGTGGCGAATTTTGCTTCATTTATTTTTTTATATGTAGATATTAA	MFFIKWFKGEVIVYFYFINGGEFCFIYFFICRY				NA	NA	NA	NA	NA
BMS020_03261	927			hypothetical protein	ATGAACATAATTGAGATAATTTCTAAAAAAACCATGCTGGCATCTTCGAACGTAATCACATTTATACATACGGCCCCTTATCGCTACAAAAAATATTATTTACCAAAGAATAATGGCGGTTCACGTGAAATTGCGCAACCTTCACGTGAGCTTAAAATTATGCAACGATTAATCTTACAGCTACTACTACCATATTTGCCAGTGCATGAAAATGCCTTTGCATATGTAGAAGGGAAAAGTATAAAACGCAATGCCTTAATGCATCGCAATAATGAATATTTCCTTAAAATGGATTTTTCTGACTTCTTTAATAGTATTAAGCCTATAGATCTGCGCAATGTTTTGCTTAAGAATGGGTATGAAACCATCCCTCTCAACTTAAATTTGATTGACAATCTTTTCTTTTATAAAAAAACAAAAAAAAGCGGTCTGTCATTGAGTGTTGGTGCACCTAGTTCGCCATTAATATCAAATGCAGTATTGTATGATTTCGATGTAAGAGTTTCGGAATTGTGCAAACAAGAAGATATTACATATACAAGGTATGCGGATGACCTGACTTTTTCATGTAATGAAAAGGGTAAGTTACTTGTATTTCAGAAGGAAATCGCCAAGATTTTACGTAAAATACAATCTCCTAAACTTAAATTAAATGATAAAAAAACAATCTATGCTTCCAGATCCGTCAGTCGTAGGGTGACGGGCATAGTGATTAATAATAATGGTGAGTTGTCCCTCGGGCGTCATAAAAAAAGAATGATTAGTAGTTTAGTTCATCGTTACACTTTAGGTAAATTAATCCCTGACGATATTCATAAGCTAAAAGGATATCTGGCATACGCTAAACACATTGAGAGTGGCTTCATTGTGTCAATGCGAAATAAATATGGAGCGGATGTGATCGACTCCATACTTAAATATAACTAA	MNIIEIISKKTMLASSNVITFIHTAPYRYKKYYLPKNNGGSREIAQPSRELKIMQRLILQLLLPYLPVHENAFAYVEGKSIKRNALMHRNNEYFLKMDFSDFFNSIKPIDLRNVLLKNGYETIPLNLNLIDNLFFYKKTKKSGLSLSVGAPSSPLISNAVLYDFDVRVSELCKQEDITYTRYADDLTFSCNEKGKLLVFQKEIAKILRKIQSPKLKLNDKKTIYASRSVSRRVTGIVINNNGELSLGRHKKRMISSLVHRYTLGKLIPDDIHKLKGYLAYAKHIESGFIVSMRNKYGADVIDSILKYN				NA	NA	NA	NA	NA
BMS020_03262	981			hypothetical protein	ATGGAAAAAAATCAGAAAGAAAAATATGAGGAAAAACTAAAGGGCCATGTTTCGAAGTGGGAACTTAAAAATTTTCGTGTTTGCTATGATGAACAAATAATATTCCTTTGTGGAGCAAAGGTTGCTCCCTTAGAAGATGCTCAGACCTCAATGAGAGGTATGTTTTATAAATACTGTAAAGAAAATGATTCAAGGTTATTCAATAAATTACTTCTCGCTGAAGCATTCAAAAATTATTTAAAAGATAGTCATTATCCAGATCTTATTTCATTTGAAAAAGACATTGCCAATATATCATCATTAATTGTTATATTTTTAGAAAGTAGTGGTTCTATTGCGGAATTAGGACTTTTTTGTAATTTGGTGGATATCAATAAGAAACTCTTAGTTATTGTCCCCGAGCATGAAGTCAAAGGCAGTAAGAAAGAATCATTTATATATTTAGGGCCATTATCATATCTAAGAGAAAAAATTAATAAACAATCTTATCGTGTCTACCCTGGCCCCACAGAAGGTGAGGATTATAATGAGCACCTAGAGCTCATCCTTGGCGATGTTAATGGAATGGCACCTTCTGAAGGAAAGGATTATAAATTTGATGCAAATAACACGGGGCATTTGGCTTTTTTGCTAACTCATATAATATCGATCGCCATGCCAATTCGATTGAAAGAAATAATGATGTGCATTAAAGAAATAGGGATAAATGAAACCCTTCAAAGTGATGTTGAGAGAATGCTTTTCCTTCTTGAAACGTTTTTCCATATTGAAATTTATGAGTATGGCGGCACGAAATATTATTATACCAAAAGTTCAAAAGGAAGTGTTCGGATGGGTAAGAATAAAGCTGGCGTGACTGTAGACGAAATTGGTATCAAAACAGATTTATTATTTTTCATTAATGATGAAACTAGAAGTGATGATAAAAGAAGAAGGCTTGCATTAAGAGGGATTAAGGAGATGATTCATGAACATAATTGA	MEKNQKEKYEEKLKGHVSKWELKNFRVCYDEQIIFLCGAKVAPLEDAQTSMRGMFYKYCKENDSRLFNKLLLAEAFKNYLKDSHYPDLISFEKDIANISSLIVIFLESSGSIAELGLFCNLVDINKKLLVIVPEHEVKGSKKESFIYLGPLSYLREKINKQSYRVYPGPTEGEDYNEHLELILGDVNGMAPSEGKDYKFDANNTGHLAFLLTHIISIAMPIRLKEIMMCIKEIGINETLQSDVERMLFLLETFFHIEIYEYGGTKYYYTKSSKGSVRMGKNKAGVTVDEIGIKTDLLFFINDETRSDDKRRRLALRGIKEMIHEHN				NA	NA	NA	NA	NA
BMS020_03263	564			hypothetical protein	GTGACCACACTGACGCTACAGAAAGCCTTTGAGGCCTGTCAGGCAAACAAATCCGCCTGGCTGCAACGCAGGGAAAAACTGACGCAGGCCGAGCAGACATACCGCGAACAGCTTGCCGGCAGTGGCCACAGCGGTCGGAGCCTGCAAACGCTGCGCGAGATTATCGACGTGAAAAAGTGGGAAATAAATCAGGCTTCCGGACGTTATATCCGCTCGCATGAGGAGGTGCAGCGCATCAGCATACGTAACCGTCTGAATGATTTTATGCAGGCGCATGGCGCGGAGCTGGCCGCCGCCCTTGCCCCTGAGCTGATGAATTATTCCGGGCAACATGCCGCCGTTCAGCGCTGCGCCATGCAGCACTCACTCGACTGTCTGCGGGAGGCGCTACAGCTCTGGCTGTCCGCGGGTGAAAAAATTAATTATTCGGTGCAGGATAATGACATTTTAACGGCCATAGGGTTCAGGCCTGACGCGGCTTCGCGCGATGATAATCGTGAAAAATTCACGCCTGCACAGAACCTGAATTACACCCGCCGCCGTACAGAACTGGCCGTGCAGTAG	MTTLTLQKAFEACQANKSAWLQRREKLTQAEQTYREQLAGSGHSGRSLQTLREIIDVKKWEINQASGRYIRSHEEVQRISIRNRLNDFMQAHGAELAAALAPELMNYSGQHAAVQRCAMQHSLDCLREALQLWLSAGEKINYSVQDNDILTAIGFRPDAASRDDNREKFTPAQNLNYTRRRTELAVQ				NA	NA	NA	NA	NA
BMS020_03264	219			hypothetical protein	ATGTTTCACTGTCCGTTCTGCAAAACCAGCGCGCATTCCCGCACCAGCCGGTATCTGTCCGATAACGTCAAACAGCGCTATCACCAGTGTATGAACATCGAGTGCTCGGCCACGTTCCGCACGCTTGAATCCATCGACGGGGTGATTCGTTCACCGGCGACAGAGCCGGTTATCCCGGTACCCGCACCGACGACCACCGTTAACCGTGCCGGTGCGTAA	MFHCPFCKTSAHSRTSRYLSDNVKQRYHQCMNIECSATFRTLESIDGVIRSPATEPVIPVPAPTTTVNRAGA				NA	NA	NA	NA	NA
BMS020_03265	384			hypothetical protein	ATGCTGAATGCCTGCTCCACCGGCAATAAATACCTTTCAGCGCATGAAGATGCCTTTACCGCTTACGCCGGTGCGGAATGGGCTCAGGCTGTCAATGCGGTTCCTGTCGCCCTCATCCGCGCTTTCCTGCTGCGCATTCGTGCCCTCGAAATGAAGGGAGAAAGCGCTCCTCAGTCCGTGGCCATGGGCGAGCTGCGCGATGCGCTGAGCCGTCAGGGCAGCCTGTATCACTTCGATATGACGCAGGAGCGGGTGTTGTCCGTGACGGGCATGCACCGGCCGCAGATTACCGGCGTTGATACGGAGCTGTTACGCAGCCCTGCAAAGAGAATGATGCTTGCCAGAAAGCTGGCTGAGAATGTCGAGACAAAAGCGGAGGAGTAA	MLNACSTGNKYLSAHEDAFTAYAGAEWAQAVNAVPVALIRAFLLRIRALEMKGESAPQSVAMGELRDALSRQGSLYHFDMTQERVLSVTGMHRPQITGVDTELLRSPAKRMMLARKLAENVETKAEE				NA	NA	NA	NA	NA
BMS020_03266	789			hypothetical protein	ATGCTCGCCGAGGAGGACAACGCCACGTCAGCGACCATTGAGACGCTGGAATCACCACGTGAGCGCGCGGCGCTGATTGGCTTCTCGCTGATACGCCTGCCTGACCAGGAGAAATGGAGCGGAGACGGTGCAGGACTTAAGGCTATCACCGGCGGCGATGCCGTGTCAGTTGACCCGAAATACCGCGATGCCTATTCGGCCTATATCCCGGCGGTGATTCTGGCCGTGAATAATAACCCGATGCGCTTTACCGACCGCAGCGGCGGCGTATCCCGTCGCCGTGTCATTATTCATTTCCCGGAGCAAATCGCCCCGGAGGAACGCGACCCGCAGCTTAAGGATAAAATCGCGCGCGAGCTCGCCGTCATCGTACGCCAGCTTATGCAGCAGTTCAGCGATCCGATGACAGCGCTCTCCCTGCTCCAGTCGCAGCAGAACTCCGATGAAGCACTCAGCATCAAGCGCGACGCTGACCCGACGTTTGATTTTTGCGGCTATCTGGAAGCGCTGCCGCAGACGAACGGGATGTTTATGGGGAACGCTAATATTATCCCGCGACAGCCACGTAACTATCTCTATCATGCCTATCTGGTCTATATGGAGGCCAACGGTTACAAACATGTGCTGAGCCTGAAAATGTTCGGGCTGGGGCTGCCGATGATGCTGAAAGAGTACGGGATGAACTACGAGAAGCGGCACACCAAACACGGCACGCAAACCAACCTGACGCTCAGGGAGGACAGCAACGGCGACTGGCTGCCGAAGTGCGACGAAACCACAGCGATATAG	MLAEEDNATSATIETLESPRERAALIGFSLIRLPDQEKWSGDGAGLKAITGGDAVSVDPKYRDAYSAYIPAVILAVNNNPMRFTDRSGGVSRRRVIIHFPEQIAPEERDPQLKDKIARELAVIVRQLMQQFSDPMTALSLLQSQQNSDEALSIKRDADPTFDFCGYLEALPQTNGMFMGNANIIPRQPRNYLYHAYLVYMEANGYKHVLSLKMFGLGLPMMLKEYGMNYEKRHTKHGTQTNLTLREDSNGDWLPKCDETTAI				NA	NA	NA	NA	NA
BMS020_03267	840			hypothetical protein	ATGGAAAACACTGTAGGGATAAAAATTGATTACTTAAAGGAAAGAGAGAATCCTGAGCAAATTTTTATAGCTATGGCTCACTATATTTCCGCTTATAAGGAATTTGGCGAACTGTTAGCTGAAGCCACCGGGCATATTTTCAAATACGACTTACTCCTAAAAGATATAGAAACTGGTTCTATAAAAGCGGTTCTAGGCTCAATTGCAAACGGTTTTTCTTCCTTTCTTGAGAAACAATCCTCTGAATTTCTCAATGATTTAATTTTTACCAATGAAATAATCTCACCAGAGCAAGTTAACGATTTGGCAGAAAAACAAGAAAGAAGAATAGAAAAAGAAAATATCAATATTTCTCCTTATATTAACAGGGTATCGCTCGCTAAAATTTTACAAGAATTATCTGCTGCAAATGAAATGTTGAACCCCGAAGAGAAAGCAGAAATAGAAAACATAACAGCCGCAGGTAGTAATGTAATAAACATAAATACAAACATGCGATTCCTTGGTGATCCAGAAACTATGTTTGATGAACACAACCCAATGCAGTACAGAGGTAAGGATTGTTTAGACATTATAAAGCCAGTAAATTTCGGTGATGCACAATGGCAAGTTCGTAGCCGTACAACTCATAAAACTTTCATGGCTACAATTGGGCATAAAGATTGGTTAAAAAAATATCAAAATGGTGATCTCCCCATCATTACAGCAAAACACTGTATGTTGGTAGAAATATATTACGAATTAGATAATAAGCATAAAAAATTACCAATAAAGAAAGCAATTATAACTAAAGTGCTAAAGCTTATTCCAAGCTCAGAGGTTCAGGATGCCCTTCTCTAA	MENTVGIKIDYLKERENPEQIFIAMAHYISAYKEFGELLAEATGHIFKYDLLLKDIETGSIKAVLGSIANGFSSFLEKQSSEFLNDLIFTNEIISPEQVNDLAEKQERRIEKENINISPYINRVSLAKILQELSAANEMLNPEEKAEIENITAAGSNVININTNMRFLGDPETMFDEHNPMQYRGKDCLDIIKPVNFGDAQWQVRSRTTHKTFMATIGHKDWLKKYQNGDLPIITAKHCMLVEIYYELDNKHKKLPIKKAIITKVLKLIPSSEVQDALL				NA	NA	NA	NA	NA
BMS020_03268	468			hypothetical protein	ATGACCCCCGAACTGAGACACTGTTTTTCCATTACCATCCAGGTTGATAAACCGGTGATAGTCTCCCGCAGTCCGCAGACCGGCAAGCGCCAGCTGATCCCGATTCTCGGCGGCAGCGTCTCGGGTCAACTGCGCGGCCACGTGCTGCCCGGCGGCGTCGATAGCCAGATTATCGGGCCCGACGGCACATGCAGGCTATCCGCCCGCTATGCCCTGCAGGTGGAGGAAGGGACGGTGTACGTGGAAAACAACGGTATCCGCCGGGTGCCGGCCCACTATCATGACCAACTGTTCGCCGACGATATGCGCTTTTTTAGCACTATTCCGCCGGAAGATATCTATTTTCGCACCGTCCCCACCTTCGAGGTGGATACCCCCGCGCTCAGCTGGCTAACCACCTCGCTGTTTATCTGCTCTGGCGGGCGTACTCAGGATGGGGTGATGCTCGATTTCTATCAGGTGGGCTGA	MTPELRHCFSITIQVDKPVIVSRSPQTGKRQLIPILGGSVSGQLRGHVLPGGVDSQIIGPDGTCRLSARYALQVEEGTVYVENNGIRRVPAHYHDQLFADDMRFFSTIPPEDIYFRTVPTFEVDTPALSWLTTSLFICSGGRTQDGVMLDFYQVG				NA	NA	NA	NA	NA
BMS020_03269	1008			Zinc-type alcohol dehydrogenase-like protein	ATGAAAGCTATCGCCATTACTCAAGCCGCCGCTGACGGCGACAATATCCCCTTTTTAACCGAGATCGACCTGCCGGTCCCCTCCGCCCACGGGCGTGACCTGCTGGTTGCCGTGAAGGCGGTCTCGGTCAATCCGGTAGACACCAAAGTGCGCGCCGGCTTCCAGGGCAACACGCCGCGGGTGCTGGGCTGGGACGCCGTTGGCGTGGTGCAGTCCGTCGGCGAGGAAGTGACGCTGTTCGCGCCAGGCGATGAGGTCTGGTACGCCGGCGCCCTGGGCCGGGCCGGCAGCAACAGTGAATATCAGCTGGTGGATGAGCGCCTGGTGGCGCACAAACCGCGCACCCTCGATAACGCCTCCGCCGCCGCGCTGCCGCTGACGGCGATCACCGCCTGGGAGCTGCTGTTTCACCGTCTCGGCGTCACGGAAGGCGGTAACGCGGGCGACACGCTGCTGATCGTCGGCGCGGCGGGCGGCGTGGGCTCGATCCTGACCCAGCTGGCCAGCAAACTGACCGCCATGACGGTGATCGGCACCGCCTCGCGTCCGGAGAGTCAACGGTGGGTCCGCGAGGCGGGCGCGCACCATGTTATCGATCACAGCAAGCCGCTCGCCGACGAGCTGGCGCGTATCGGCATCAACGCGGTGACCCATGTCGCCAGCCTGACCAACACCGACCAGCACTTCAACGCGCTGATTGACGCCCTCGCCCCGCAGGGCAAGCTGGCGCTGATTGATGATCCGGAGACCCTGGACGTGGTGCCGCTGAAAGCCAAAAGCCTCTCCCTGCACTGGGAATTTATGTTCACCCGCTCAATGTTTGAGACGGATGACATGATCGCCCAGCATCAGCTGCTGACCCGCGTGGCGGCCCTGATCGACAACCACACAATCAAAACCACCCTCGGCGAACACTACGGCGCCATCACTGCCGACAATCTGCAGAAAGCGCATCGCCAGCTGGAAACCGGACGCGCGGTGGGCAAGATTGTGCTGGAGGGATTTTAA	MKAIAITQAAADGDNIPFLTEIDLPVPSAHGRDLLVAVKAVSVNPVDTKVRAGFQGNTPRVLGWDAVGVVQSVGEEVTLFAPGDEVWYAGALGRAGSNSEYQLVDERLVAHKPRTLDNASAAALPLTAITAWELLFHRLGVTEGGNAGDTLLIVGAAGGVGSILTQLASKLTAMTVIGTASRPESQRWVREAGAHHVIDHSKPLADELARIGINAVTHVASLTNTDQHFNALIDALAPQGKLALIDDPETLDVVPLKAKSLSLHWEFMFTRSMFETDDMIAQHQLLTRVAALIDNHTIKTTLGEHYGAITADNLQKAHRQLETGRAVGKIVLEGF	PGPT0019417_433	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
BMS020_03270	291	ycnE	COG1359	Putative monooxygenase YcnE	ATGATAACCCTGCTCGCCGTGCTCAAGGCGAAACCAGGCCAAACGGACGCGCTGCGCCAGGCCCTGCAGAAGCTGCTCCTGCCGACGAGACAGGAGCCGGGCAATCTCGACTACGCGCTGTTCCAGCTGCGCGACGCGCCGGACACTTTCTACATGCGCGAAGCGTGGCGTGGGCAGGACGCCCTTGATGCGCATGTAGAGATGCCCTATTTTCAGGCGTTTGTTATGCAGATGGAGCGTCTGCTGGCTGAGCCGCTGCGGCTGGACTACCTGACGGCGATTGAGCCCTAA	MITLLAVLKAKPGQTDALRQALQKLLLPTRQEPGNLDYALFQLRDAPDTFYMREAWRGQDALDAHVEMPYFQAFVMQMERLLAEPLRLDYLTAIEP				NA	NA	NA	NA	NA
BMS020_03271	615	iprA_6		Inhibitor of hydrogen peroxide resistance	GTGGAATCCTTATTATCCGCGTTCCGGCCTGTCAGCACCCCTTTTGAACTGGCGCAGTCAAACTATTACCATTTTCCCTTGGCCCAAAGCGAATCCGGCTTCATTCTCCTCGAAGAAGGCGTGGCTTCAGTTTGCTTTGCGGAAAATCAACTGGTGATATCGACGATCCTCGCCCCGGCAATATTGGGATTAATTGATAATTATGGCGTGTTTAACGGGCTCCCGGATAAACGCCACTGTTCTCTGTTTGCTGAGACGGATTTAAGCGGGCGCTGGATAGCGCATCAGGCCGCGGTCAATATCCTGAATGAGAAAAACCTGTGGCAGGAGATGGCCCATATTCTGACGCAGCGGTTGATGGTGTTGAGCATGCGCGAGCGGGAGCTGCTGGGGGTGGACTCTTACCAGATGGTGCGCATCCTGTTAATGGAACTGGCGGTCTATTCGGAGACGTACCGTAGACAGATCAATGTATTAAGGTTTATCCAGCGGCGTACCAACCTGTCGCGTAGCCGCATTATGTCGATTCTGTCGGAGCTGCGCAAAGGCGGTTATATTATTATCCACCGCGGGGTGTTGATGACTATCGCCCAACCGCTTCCCGCCAATTTTTGA	MESLLSAFRPVSTPFELAQSNYYHFPLAQSESGFILLEEGVASVCFAENQLVISTILAPAILGLIDNYGVFNGLPDKRHCSLFAETDLSGRWIAHQAAVNILNEKNLWQEMAHILTQRLMVLSMRERELLGVDSYQMVRILLMELAVYSETYRRQINVLRFIQRRTNLSRSRIMSILSELRKGGYIIIHRGVLMTIAQPLPANF				NA	NA	NA	NA	NA
BMS020_03272	1050	yahK_2	COG1064	Aldehyde reductase YahK	ATGCTGATCAACGCTATAGGTACCTACTCCGCCAGCCAGCCGCTGGAATCAATGGCCATCACCCGCCGCGAACCGGGGCCGCAGGATGTGCAGATCGCCATCGCCTACTGCGGCGTCTGCCACTCCGATCTCCACCAGGCGCGATCGGAATGGGCGGGAACGCTCTATCCCTGCGTGCCGGGGCATGAAATTGTGGGCCGGGTCACCGCGGTCGGCGACGCTGTCTCGCGCTACGCCGTCGGCGATCTGGTGGGCGTCGGCTGCATGGTCGATAGCTGTCAACAGTGCGAGGAGTGCGCTGAGGGGCTGGAGAACTACTGCGACCATATGGTGCTGACCTACAACGGACCGACCCAGGACGCGCCGGGCCACACCCTGGGCGGCTATTCACAGCAGATCGTGGTTAAAGAACACTACGTGCTGCGGATAACCCATCCCGAAGCGCAGCTGGCCGCCGTCGCGCCGCTGCTGTGCGCCGGGATCACGACGTACTCGCCGCTGCGCCACTGGCACGCCGGGCCGGGTAAAAAAGTCGGCGTGGTCGGCATCGGCGGCCTTGGGCATATGGGAATCAAGTTGGCCCACGCCATGGGGGCTCACGTGGTGGCCTTTACCACCTCCGAATCCAAGCGTAATGCGGCCAGAGCGCTGGGCGCCGATGAGGTGGTGGTGTCGCGTAACGAAGACGAAATGGCGGCCCACGTCAAAAGCTTCGATTTCATCCTCAACACCGTGGCGGCGCCGCATAATCTCGATGCCTTCACCACGCTGCTGAAGCGCGATGGCACCATGACGCTGGTGGGCGCTCCGGCCACGCCGCATCCGTCGCCGGAAGTGTTCAATCTGATCATCCGCCGCCGGTCGATTGCCGGGTCGATGATTGGCGGGATCGCGGAAACTCAGGAGATGCTCGACTTCTGCGCTGAACACGGCATCGTCGCCGATATCGAACTGATCCGCGGCGATGAGATCAACGAAGCCTGGGAAAGAATGGTCAAGGGCGACGTGAAATACCGCTTCGTGATCGACAGCGCGACCCTCGCCGGCTAA	MLINAIGTYSASQPLESMAITRREPGPQDVQIAIAYCGVCHSDLHQARSEWAGTLYPCVPGHEIVGRVTAVGDAVSRYAVGDLVGVGCMVDSCQQCEECAEGLENYCDHMVLTYNGPTQDAPGHTLGGYSQQIVVKEHYVLRITHPEAQLAAVAPLLCAGITTYSPLRHWHAGPGKKVGVVGIGGLGHMGIKLAHAMGAHVVAFTTSESKRNAARALGADEVVVSRNEDEMAAHVKSFDFILNTVAAPHNLDAFTTLLKRDGTMTLVGAPATPHPSPEVFNLIIRRRSIAGSMIGGIAETQEMLDFCAEHGIVADIELIRGDEINEAWERMVKGDVKYRFVIDSATLAG	PGPT0024430_1292	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0024430-yahK-K13979	NA	NA
BMS020_03273	954	cdhR	COG4977	HTH-type transcriptional regulator CdhR	ATGAAACTCACCGACGTGGCGATTGTTGCCGTAGAGGGCTTTAGCCCGTTTCATTACGCCGTTCCCTGCATGCTGTTTGGCGATTCGGTCTCTGAAAGCAAACGCTTTAACCTGCACATTTGCGCCGAGCGGCCGGGGCTACTGCGCGCCCGCGACGGCTTTGCGCTGTACGCCAGCGGCGATTTCGCCGTGCTGGAACAGGCGGATATCGTGGTGGTGCCTTACTGGGGCGAGGTTGACCGGCGCCCGCCGCAGGCGCTGCTTGATAGCCTGGTGCGGGCCCGGAATAACGGCGCAGAAATCGTCGGTCTGTGCCTCGGCGCGTTCGTCCTGGGCTACGCCGGGCTGCTGGACGGGAAACGCGCGGCGACCCACTGGGAGTTTGAGCAGGATTTTCAGCGTCGGTTTCCGCAGGTGCGGCTGGATATCAACGCCCTGTATGTCGACGACCAGCGGATCATTACTTCGGCGGGCACCGCGGCGGCGCTGGACTGTTGCCTCTACATCATTCGCCAGCGTTTCGGCAGCCTCGCGGCCAACCAGATCGCCCGGCGGCTGATTGTTTCGCCGCACCGTGAGGGCGGCCAGGCGCAGTTCATCGCCCAGCCGGTGCCGAAAAACACCCGCGATGCGCGAATCAACTGCCTGCTGGATTATCTGCAGCAGCATATTGCCGAGCCGCATAATCTCGATTCGCTGGCCCGGGTGGTAGCGATGAGCCGCCGCAGCCTGACCCGCCACTTCGCCCGGGCGACCGGGATGAGCATTACCGACTGGCTGACCGCCGAACGCCTGCGCCGCAGCCAGAGCCTGCTTGAGGCGGGCGATCTGCCGGTTGAGCAGGTGGCGGAGGCGGTGGGTTATCTCTCTGCCGTCACCTGGCGTCAGCAGTTTAAAGCGCGCTTTGGCGTCAGTCCGACCGAATGGCGGCGCACTTTTCGCCGCGGCGCTTAG	MKLTDVAIVAVEGFSPFHYAVPCMLFGDSVSESKRFNLHICAERPGLLRARDGFALYASGDFAVLEQADIVVVPYWGEVDRRPPQALLDSLVRARNNGAEIVGLCLGAFVLGYAGLLDGKRAATHWEFEQDFQRRFPQVRLDINALYVDDQRIITSAGTAAALDCCLYIIRQRFGSLAANQIARRLIVSPHREGGQAQFIAQPVPKNTRDARINCLLDYLQQHIAEPHNLDSLARVVAMSRRSLTRHFARATGMSITDWLTAERLRRSQSLLEAGDLPVEQVAEAVGYLSAVTWRQQFKARFGVSPTEWRRTFRRGA				NA	NA	NA	NA	NA
BMS020_03274	780			hypothetical protein	ATGAACATCACCCATATCCGTAACGCGACCCAGATTATTGAATACGCCGGGAAAAAGTTTCTGATCGATCCGATGCTGGCGGACAAGGGCGCCTGGCCGGGTTTCCCGGGCACCGCGCGCAGCGAGCTGCGCAACCCACTGGTGGCGCTGCCTTTTTCCCGCGATAAAATCATCGACGTTGACGCGGTGATCGTCACCCATACCCATGACGATCACTGGGACGAGGCGGCGATCGCCGCGATCCCGAAAACCCTGCCGGTGTTCGTCCAGCACGAAGCCGACGGCGCGTTGCTGCGCAGCCAGGGTTTCCAGGATATCCGCTTGCTGACGGCAGACAGCGAATTTGCCGGCGTGCGCCTGCTGAAAACCACCTCCGGCCAGCACGGCAGCGATCGCACCTACGCGGTGCCGGCGATGGCCGAACGCCTGGGCGAGGCCTGCGGCGTGCTGTTTCGCCATCCGCAGGAGAAGACGCTGTGGCTGGTGGGGGATACCATCTGGCGTGATGAAATTGCAGCCGACCTGCTGAAGCTGCGCCCGGACGTGGTGGTCCTCAACGCCGGCTACGCCCACGTCATCGGCTTTGGCCCGATTATCATGGGCAAAGAGGATCTCCTGAACGTACACTTCACCCTGCCGGAAGCGAAAATCATGGCGATTCACCTGGAAGCGGTCAACCACTGCCTGGTGAGCCGGGAAGAGATGCGCCAGTATGCGCTGGATAATCAGATAGCCGAGGTAGTGTGTATCCCGCAGGATGGGGAAACCGTGGTTTATTAA	MNITHIRNATQIIEYAGKKFLIDPMLADKGAWPGFPGTARSELRNPLVALPFSRDKIIDVDAVIVTHTHDDHWDEAAIAAIPKTLPVFVQHEADGALLRSQGFQDIRLLTADSEFAGVRLLKTTSGQHGSDRTYAVPAMAERLGEACGVLFRHPQEKTLWLVGDTIWRDEIAADLLKLRPDVVVLNAGYAHVIGFGPIIMGKEDLLNVHFTLPEAKIMAIHLEAVNHCLVSREEMRQYALDNQIAEVVCIPQDGETVVY				NA	NA	NA	NA	NA
BMS020_03275	561	act		Methanol dehydrogenase activator	ATGAAGAAAAAACTGACCGCCGCCGATATGCACGACCCGCAGGTCATCGCCGAGACGCCGTGGTTCAGCATGCGCAAGGTGGGTATTGATATCGCCCCCGGCGAGCGCCGCGACTTTTACGCCATTCACTATCCGCGCCCGGCGGTGGGGATTGTAGCTATCCAGGATGACAAAGTGCTGCTGATTCGCCACTACCGCTACCTGATCGACAAGGTGGTGTGGGCCATTCCGTCAGGCGGCGTTGACGAAGGGGAAGATCCGGCGGCGGCCGCGCTGCGCGAGCTGCGGGAAGAGACCGGCTGGCAGGCGCAACGCGTCGAGGAGATCATGCGCTTCAACCCCTCCTACGGCAGCAGCGACCAGCTGTTTATCACCTGGCTGGCCACCGGTTTACGCTGGGTGGGGATGGATGCGGATCAGGATGAAGTGATGGAAACCGGCTGGTTTACCTTTGAGGAGATAAACCAGCTGATCGCCCGCGGCGAAATGCCGGACGGGCTGTCGCTGGTGCCGCTGCTGCAATTGATGGCGCAACCGCGCACCGGGCAGGCTACGGCTTAA	MKKKLTAADMHDPQVIAETPWFSMRKVGIDIAPGERRDFYAIHYPRPAVGIVAIQDDKVLLIRHYRYLIDKVVWAIPSGGVDEGEDPAAAALRELREETGWQAQRVEEIMRFNPSYGSSDQLFITWLATGLRWVGMDADQDEVMETGWFTFEEINQLIARGEMPDGLSLVPLLQLMAQPRTGQATA	PGPT0021525_2128	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021525-nudF-K01515	NA	NA
BMS020_03276	855			hypothetical protein	ATGGTACGCCAACGGCAGGCCGATCTGCTGCTGATTGCCGCGACGGTGATTGCCGCCTGCGGCTGGATTTTTTCCCGCGAGGCGATCGCCGGCATGCCGGTATTCGCGTTCCTTGGGCTGCGCTTTTTCTTCGCCGCGCTGCTGCTGCTGCCGTTTTGCCGCGGGTTTCGCCCGCAAAAGCAGCACTGGCCAAAGCTCATCATCAGCGGGCTATGGTTTGCGCTCAACCTCTGCCTGTGGATCTACTCGGTCTCCACGACGGCGTCGCTCGGCGAAGGGGCGTTTATCATGAGCCTGTCGATGATGTTCGTCCCGCTGACCGCGTGGGTGATGATGAAGGTGCGTCCGCCGCGGGCCTGGTGGGAGTGCCTGCCGATCGCGGTGGTGGGCCTGGGCCTGCTCAGCCTGCACATGCCGATAGTCTTCCATCCCAGCCAGGGCTGGTTTTTGCTGACGGCGCTGGTGCAGTCCATCTGGTTCTGTTACACCAGCCGCTGCGCGCGCGAAGTACCGCTGATCCCCCTGACCACCGTGCAGCTGGCGATCACTGGTATCGTCGGGTTGACCCTCTCCGCTGCCGTTGAACGCTGGGACCAGCCGATGACCCTGCCGACCTTCGGCTGGCTGGTGGCCAGCATTGTCATCGCCACCAGCCTGCGCTTCGGTCTGCAGATGAAGGGGCAGAAGTACGCGGCGGTGGCCAGCGCGGCGATCATTATGGTGCTCGAACCGCTGCTGACGGTCATTGCCGCCGCGCTGTGGTATGGCGAACAGCTGCCGCTGCAGAAGATTATCGGCGGCGTGCTGATCCTGGTTGCCCAGCTGTGGTTCCGCTGGCGGATGCTTAAGCCGTAG	MVRQRQADLLLIAATVIAACGWIFSREAIAGMPVFAFLGLRFFFAALLLLPFCRGFRPQKQHWPKLIISGLWFALNLCLWIYSVSTTASLGEGAFIMSLSMMFVPLTAWVMMKVRPPRAWWECLPIAVVGLGLLSLHMPIVFHPSQGWFLLTALVQSIWFCYTSRCAREVPLIPLTTVQLAITGIVGLTLSAAVERWDQPMTLPTFGWLVASIVIATSLRFGLQMKGQKYAAVASAAIIMVLEPLLTVIAAALWYGEQLPLQKIIGGVLILVAQLWFRWRMLKP				NA	NA	NA	NA	NA
BMS020_03277	810	nlpA	COG1464	Lipoprotein 28	ATGAGATTACGTTTACGTGCCGCCGCCGCGGTAATGCTGGCGGGTCTGGCGCTGGTCGGCTGCGACCAAAAGGGTAATGAAGCGAAGCACATTAAGGTCGGCGTGATTAACGGCGCTGAACAGGATGTGGCGGAAGTGGCGAAGAAAGTGGCCAAAGAGAAGTATGGTCTGGAGGTTGAGCTGGTGGGGTTCAGCGGCTCGCTGTTGCCTAACGAATCGACCAACGCCGGGGATCTGGACGCCAACGTCTTCCAGCATCGGCCTTTCCTTGAGCAGGACAACAAAGCGCATAACTACCATCTGGTGGCGGTAGGCAATACTTTCGTCTTCCCGATGGCCGGCTATTCGCGCAAGATAAAGTCAGTCGCCGAACTGAAAGACGGCGCGACGATCGCTATCCCCAACGACCCGACCAACCTCGGGCGGGCGCTGCTGCTGCTGCAAAAAGAGAAGCTGATAACCCTCAAAGCCGGTACCGGCCTGCTGCCGACGGCGGTGGATATCACCGACAACCCGCATCATCTGAAAATTATGGAGCTGGAAGGGGCGCAACTGCCGCGCGTACTCGACGATCCTAAAGTCGACGTGGCCATCATCAGCACCACCTACCTGCAGCAAACCGGGCTGTCGCCGGTTCGCGATGGCATCTTTATCGAAGATAAAAACTCGCCCTACGTGAACATCATCGTGACTCGTGAAGACAATAAAGACGCGGAAAACGTGAAAGAGTTTATGCAGTCGTACCAGACGCCGGAGGTGGCGAAGGCGGCAGAGACTATTTTCAACGGCGGCGCGGTGCCGGGCTGGTAA	MRLRLRAAAAVMLAGLALVGCDQKGNEAKHIKVGVINGAEQDVAEVAKKVAKEKYGLEVELVGFSGSLLPNESTNAGDLDANVFQHRPFLEQDNKAHNYHLVAVGNTFVFPMAGYSRKIKSVAELKDGATIAIPNDPTNLGRALLLLQKEKLITLKAGTGLLPTAVDITDNPHHLKIMELEGAQLPRVLDDPKVDVAIISTTYLQQTGLSPVRDGIFIEDKNSPYVNIIVTREDNKDAENVKEFMQSYQTPEVAKAAETIFNGGAVPGW	PGPT0020510_4084	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
BMS020_03278	906	mtrA		HTH-type transcriptional regulator MtrA	ATGGACAGTCTCAGTCATCTGCTGGCGCTGCTGGCGCCGCGCTGCGAAGTGAACCTGCACTGTCGCTTCGGCGGCCGCTGGCAGGCCGGGCACCAGCAAATGCGCACCGGCGTGGTGCCATGGCACGTGGTGCTGCGCGGCGAGGGGCGGCTCAACGTCGGCGGCCAGACCCATCACCTGCGCGCGGGAGATGTGGTCCTCCTGCCGCACGGTTCGCCGCACCTGATGGAGAGCCTGGTGGAGTGGGGCCAGGTGCTGCCGGTGGCGCATCGCTTTAACGGCACGGTGACGGAAATGCGCGCCGGCCCGGCGGAGGGGGCGCTGGAGATGCTGTGCGGCGAATTCTATTTTGGTCCGCACGTCAGCTGGCTGTTCACTGAGGCATCGACGCTGATCCATCTCCATACCGATGCGCGCGAAGACTGCCCGGAGCTGCAGCCGTTGCTTAACATACTGGTCCGCGAAAGTCTGGCGCAGCGTCCCGGCGGCAGCGCTATCGTGCGCAGCCTCGGCGATACGCTGCTGGTGCTGCTGCTGCGCATGCTGCTTGGCGAGCAGCAGCCGCCAGGCGGGCTGCTGCGTCTGATGAGCGATGAGCGCCTGATGCCGGCGGTGCTGGCGGTGATGGCGACCCCGGAGCAGCCGTGGACGCTGGAAACCATGGCCGCCCGCGCCTTTCTGTCGCGGGCCACCTTTGCCCGCCATTTTGCCCGCGTTTATCACCTGACGCCGCAGGCGTGGCTGTCGCAGCTGCGAATGGCGCTGGCCGCACGGCTGCTGCGCCTGGAGCGTCAGACCAACCTCGAGGTCATTGCCGAACGCTGTGGCTTTCAGTCGCTGGCGTCCTTCTCGAAGCGCTTCAAAATGCGCTATGGCGTGACGCCGGGCGAGTGGCGACGGGGCTAG	MDSLSHLLALLAPRCEVNLHCRFGGRWQAGHQQMRTGVVPWHVVLRGEGRLNVGGQTHHLRAGDVVLLPHGSPHLMESLVEWGQVLPVAHRFNGTVTEMRAGPAEGALEMLCGEFYFGPHVSWLFTEASTLIHLHTDAREDCPELQPLLNILVRESLAQRPGGSAIVRSLGDTLLVLLLRMLLGEQQPPGGLLRLMSDERLMPAVLAVMATPEQPWTLETMAARAFLSRATFARHFARVYHLTPQAWLSQLRMALAARLLRLERQTNLEVIAERCGFQSLASFSKRFKMRYGVTPGEWRRG				NA	NA	NA	NA	NA
BMS020_03279	537			hypothetical protein	ATGAGCCGTTTAGCTGATATCCGTGAACAAGACGCCACCGGCAAAGCCGCCGATATTTTCGCCGGGATCAAAAAAGCGATGGGCAAAGTGCCAAATGCCTACCTGACCATCGGCGGCCACTCGCCGGCCGCGCTGCAGCAGGCGCTGGCGCACAATGCGATGCTACATAAAGGCAGCCTCAGCGCCCAACAGCTGGAAGCCATTAACCTGTCGGTCAGCGAAGCCACCGGCTGTGACTACTGCCTGGCCGCACATACGCTGATGGCGAAAAAAGCCGGCTTCAGCAGCGAACAGATCCACGCCCTGCGCCGCGGGGAGTATGCGGAAGAGGCACAGCTTGATGCGCTGGTGAAATTTGCGCAGACGCTGGTGACCACCACCGGCACGCTGCCGGAAGCCGACGTCGCCGCGCTGCGCAACGCCGGTTTTAGCGACCAGCAGGTGATTGAGATTATCAGCGCCATCAGCGCGATCCTGTTCACCAATATGGTGAACCGGGTTAACGACACGGTGGTCGACTTCCCGAAAGCCGATTAA	MSRLADIREQDATGKAADIFAGIKKAMGKVPNAYLTIGGHSPAALQQALAHNAMLHKGSLSAQQLEAINLSVSEATGCDYCLAAHTLMAKKAGFSSEQIHALRRGEYAEEAQLDALVKFAQTLVTTTGTLPEADVAALRNAGFSDQQVIEIISAISAILFTNMVNRVNDTVVDFPKAD				NA	NA	NA	NA	NA
BMS020_03280	471			hypothetical protein	ATGACTGAACAACGTCCCCCGTTACCGCCGTTTACCCGCGATAGCGCTATTCAGAAGGTCCGCGCCGCGGAAGATGGCTGGAACAGCCGCGATGCCGAAAAGGTCGCTCTGGCCTACACCATGGACAGCGAATGGCGCAACCGCAGCGAGTTTGTCCATGGCAGGGGGCAAATTGTCGAATTCCTGCAGCGAAAATGGCGTAAGGAGCAGCAATATCGGCTGATTAAGGAGCTGTGGGCATGGCAGGAAAATCGCATCGCCGTGCGCTTCGCCTATGAGTGGTGCGACGACAGCGGCAACTGGTTTCGCTCGTACGGCAATGAAAACTGGGAGTTTGATCAGCACGGGCTGATGCAGACGCGCTACGCCTGCATCAACGACCTGCCGATCGCCGAAAGCGAGCGCCTGTTCCACTGGCCCCAGGGGCGTCGCCCGGACGATCATCCGGGGCTCAGCGACCTGGGGCTGTAA	MTEQRPPLPPFTRDSAIQKVRAAEDGWNSRDAEKVALAYTMDSEWRNRSEFVHGRGQIVEFLQRKWRKEQQYRLIKELWAWQENRIAVRFAYEWCDDSGNWFRSYGNENWEFDQHGLMQTRYACINDLPIAESERLFHWPQGRRPDDHPGLSDLGL				NA	NA	NA	NA	NA
BMS020_03281	633			hypothetical protein	ATGGCAGCAACCTTTCTCGATATCGCCATCACCCCGGACGTGATGGATGTGCAGCATGAAATGGGCAGCGACCAGCTGTGGCAAACGCCGCACAGCCGCCGCCAGGCCGACCGCTTCGGCGACAGCGAAGCGGGGATGATCGCCACCCGCGACAGCTTTTATCTGGCGACGGTGTCGCAGAGCGGCTGGCCCTACATTCAGCATCGCGGCGGCCCGCCGGGGTTTCTGCATCTGCTGGACGATACCACCCTGGCGATGGCGGATTTCGGCGGCAACCGTCAGTACATCACCACCGGCAACCTGCGCGGCAGCGACCGGGCCTGCCTGTTTTTGATGGATTATCCGCGCCGTGCCAGGCTGAAAATCTACGCCACCGTCGAGGTCGTGGCGGCAGAGAACCACCCGCCGCTGCTGGCGCAGGTGGCGCCGGCCAACTATCGCGCCCGCATCGAGCGCCTGTTTCTTTTTCATCTGCAGGCGTTTGACTGGAACTGCCCGCAGCACATTACGCCGCGCTACAGCGCGCAGCAGGTGGCGGAGTACAGCCAGAACCTGCAGCAACGTATTCATGACCTGGAGCAGGAGAATCAGCGCCTGCAGCAGCAATTAGCCCGCAGAGGAGAGTCAGCATGA	MAATFLDIAITPDVMDVQHEMGSDQLWQTPHSRRQADRFGDSEAGMIATRDSFYLATVSQSGWPYIQHRGGPPGFLHLLDDTTLAMADFGGNRQYITTGNLRGSDRACLFLMDYPRRARLKIYATVEVVAAENHPPLLAQVAPANYRARIERLFLFHLQAFDWNCPQHITPRYSAQQVAEYSQNLQQRIHDLEQENQRLQQQLARRGESA				NA	NA	NA	NA	NA
BMS020_03282	915	dmlR_22		HTH-type transcriptional regulator DmlR	ATGGATCGATTAAGCGCGATGGCGCTGCTGGTGAAAGTGACCGAGCTGGGGAGTATGTCGGCGGCGGCGCGGGCGCTGAATATGCCGCTGACCACCGTCAGCCGCCATATCGGCGAGCTGGAGAACGCGCTGGGGGTGCGCCTGCTGGCGCGGACCACCCGCAAACTGACGCTCACCGACGCCGGGGTCGATTATGTCGCTGCCGCGCGGCGGATCCTTGAGGAGGTGGAAAACGCCGAACGCCAGGCGACGGGCGAGTATCAGGAACCGAAAGGCGAGCTGGTGATCTCTGCGCCGACAATGTTTGGACGCCAGCACGTTCTCCCGGTGATCGCTGAATTTATCGCCCGTTACCCGCAGATTCACGTCCGTTTGCTGCTCAGCGATCGTAACGCCGACCTGGTGGGCGACCATATCGATCTGGCGGTGCGGATAGGCGACCTGGCGGACAGCAGCATGGTGGCCACCCGCCTCGGCAGGATGCGCATCGTGGCCTGCGCCCATCCGGCGCTGCTGGCGAAATACGGCGAGCCGCAGCGGCCGCGCGATCTGGCGGCGCTGCCGATCATCCGCATTGAATCGCCGATGCCCTATCGCGGCTGGCGCTTTCGCGCCGCTGAGCGCGAGGACCAGTTGATTAACCTGCCGCCGGCGTTATCGGTCACCACGCCGGAGAGCGCTGCCGATGCCGCGCGGCTGGGGGTGGGCGTAGCTCGCTTACTGCACTATCAGGCGCTGGACGGCCTGCGACAGGGTGAGCTCCGTCTGCTGCTGGAGCGCGTCGAGCCGGAGCCGGCGCCGGTCCATTTGCTGTATACCGCCCGGGACCTGGCGCCGCTTAAGCTGCGAAAATTTATCGATTTTGCCGCGCCGGCGCTGCGTCAGGCGCTGCTGCGCATCGCCGGGGCCGCTTAG	MDRLSAMALLVKVTELGSMSAAARALNMPLTTVSRHIGELENALGVRLLARTTRKLTLTDAGVDYVAAARRILEEVENAERQATGEYQEPKGELVISAPTMFGRQHVLPVIAEFIARYPQIHVRLLLSDRNADLVGDHIDLAVRIGDLADSSMVATRLGRMRIVACAHPALLAKYGEPQRPRDLAALPIIRIESPMPYRGWRFRAAEREDQLINLPPALSVTTPESAADAARLGVGVARLLHYQALDGLRQGELRLLLERVEPEPAPVHLLYTARDLAPLKLRKFIDFAAPALRQALLRIAGAA				NA	NA	NA	NA	NA
BMS020_03283	1494	bmr3		Multidrug resistance protein 3	ATGACTTCTCAAGTCGCGAACCCACCGGTGCAGTCGATACGCCTGCTGTTTAGCGCCTTGCTGCTGGTGATGCTCCTCTCCGCGCTGGATCAGACCATTGTCTCCACCGCGCTGCCGACGATTGTCGGCGAACTGGGCGGGCTGGACAAGCTTTCCTGGGTGGTTACCGCCTATATCCTCAGCTCCACCATCGCGGTGCCGCTGTACGGTAAATTTGGCGATCTGTTCGGCCGCAAAATCGTGCTGCAGGTGGCGATTGGACTGTTTCTTGTCGGCTCCGCCCTCTGCGGGCTGGCGCAGAACATGACCCAGCTGGTGCTGATGCGCGGCCTGCAGGGGCTCGGCGGCGGCGGCCTGATGGTCATCAGCATGGCGGCGGTGGCCGACGTCATCCCGCCCGCCAGCCGTGGCCGCTATCAGGGGCTGTTCGGCGGCGTTTTTGGCCTGGCGACGGTGATCGGCCCGCTGATCGGCGGCTTTTTGGTGCAGCACGCCTCCTGGCGCTGGATCTTCTACATCAACCTGCCGCTGGGCCTCTTCGCGCTGCTGGTGATCGGCGCGGTATTCCACAGCAGCAATAAACGCAGCCAGCATGAGATTGACTGGCTGGGGGCGATTTACCTCAGCATGGCGCTGCTGTGCATCATCCTGTTTACCTCGGAAGGGGGCAGCGTTCATGCGTGGAATGACCCGCAGCTGTGGTGCATTCTGGCCTTCGGCATCGTGGGGGTCATCGGTTTTATCTACGAAGAGCGAATGGCCGCCGAGCCGATTATTCCGCTGTCGCTGTTCCGCAACCGCAGCTTCCTGCTGTGCAGTCTGATCGGCTTCGTTATCGGCATGTCGCTGTTTGGATCAGTCACCTTCCTGCCGCTCTATCTGCAGGTGGTGAAGGAGGCGACCCCCACCGAGGCCGGGCTGCAGCTGATCCCCCTGATGGGCGGCCTGCTGCTGACCTCGATTATCAGCGGGCGGATTATCAGCCGTACCGGTAAATATCGCCTGTTTCCGATCCTCGGTACCCTGCTTGGCGTGACCGGCATGGTGCTGCTGACCCGGATCACCATTCACTCACCGCTGTGGCAGCTGTACCTGTTTACCGGTGTGCTGGGGGCGGGTCTGGGGCTGGTGATGCAGGTGCTGGTCCTGGCGGTACAGAACGCGATGCCGGCGAAGCTTTACGGCGTCGCCACCTCCGGCGTGACCCTGTTCCGCTCGATCGGCGGCTCCATCGGCGTGGCGCTGTTTGGCGCGGTGTTCACGCACGTGCTGCAGAGCAACCTGCAAAAGCTGTTGCCGGAAGGCGCGGTACTGCCGCCGGGAATGAATCCGGTGGCGGTGCAGCACCTGCCCGCGGATATCCGCCTCGACTATCTCGACGCCTTCGGCGCGGCGATCCACGCGGCGTTCCTCATGGCGGCCTGCATTATGGCGGTGGCGTTTGTCCTCTCCTGGCTGTTAAAGGAGGCGCCGCTGAAGACTGCGACGCACTAA	MTSQVANPPVQSIRLLFSALLLVMLLSALDQTIVSTALPTIVGELGGLDKLSWVVTAYILSSTIAVPLYGKFGDLFGRKIVLQVAIGLFLVGSALCGLAQNMTQLVLMRGLQGLGGGGLMVISMAAVADVIPPASRGRYQGLFGGVFGLATVIGPLIGGFLVQHASWRWIFYINLPLGLFALLVIGAVFHSSNKRSQHEIDWLGAIYLSMALLCIILFTSEGGSVHAWNDPQLWCILAFGIVGVIGFIYEERMAAEPIIPLSLFRNRSFLLCSLIGFVIGMSLFGSVTFLPLYLQVVKEATPTEAGLQLIPLMGGLLLTSIISGRIISRTGKYRLFPILGTLLGVTGMVLLTRITIHSPLWQLYLFTGVLGAGLGLVMQVLVLAVQNAMPAKLYGVATSGVTLFRSIGGSIGVALFGAVFTHVLQSNLQKLLPEGAVLPPGMNPVAVQHLPADIRLDYLDAFGAAIHAAFLMAACIMAVAFVLSWLLKEAPLKTATH				NA	NA	NA	NA	NA
BMS020_03284	648	betI_4		HTH-type transcriptional regulator BetI	ATGACAGCACAAAAGGATCAGGATACCCCCCGCCGCCCGGGGCGGCCGCGCGGTAAAAAACCGGGTACCGCCAACCGCGAACAGCTGATGGACATCGCCCTGACGCTGTTTGCCCGCGACGGCGCGGCCCGCGTGTCGTTGAATGCCATCGCCAAAGAGGCCGGGGTGACGCCGGCGATGCTGCATTACTATTTCAGTTCGCGGGATGCGCTGGTGACGCAGCTGATCGAAGAGCGCTTTATGCCGCTGCGCAACCACATCAGCCGCATCTTTGTCGACCATCCGCAGGACCCGGTGCTGGCGCTGACGATGATGGTCGAGACGCTGGCGCACATGGCGGAGAAAAACGCCTGGTTCGCGCCGCTGTGGATGCAGGAGATCATCGGCGAGATGCCGATCCTGCGTCAGCATATGGACGCCCGCTTCGGCGAGGAGCGTTTTCAGGTGATGCTGGAGGCGGTGCGCCGCTGGCAGCGGGAGGGCAAGATTAACCCGGCGCTGTCGCCGGAGCTGCTGTTTACCACGGTGATTAGCCTGGTGCTGGTGCCGTTTTCGCGCATCCACAGCGATCCGCGTTTACAGGCGGTCGACCGCCAGACCATCGTCAGCCACGCGCTGGCGTTAATGGGCCATGGCGTCGGGGGTTAA	MTAQKDQDTPRRPGRPRGKKPGTANREQLMDIALTLFARDGAARVSLNAIAKEAGVTPAMLHYYFSSRDALVTQLIEERFMPLRNHISRIFVDHPQDPVLALTMMVETLAHMAEKNAWFAPLWMQEIIGEMPILRQHMDARFGEERFQVMLEAVRRWQREGKINPALSPELLFTTVISLVLVPFSRIHSDPRLQAVDRQTIVSHALALMGHGVGG				NA	NA	NA	NA	NA
BMS020_03285	417			Acetyltransferase	ATGGCGTTAATCATTACAAAAAGCATTAATCCCGACGACCAACAAGAATTGTTTGCCGGTCTGCGGCACTATAATCAGCAGTATCTTGATGCGGCGCAGTTTGGCGATCTGGGCGTTTACTCCCGCGATGCGCAAGGGGTGATGCAGGGCGGGCTGATTGCCAAACGTAAGGGTAACTGGCTGTGCATTGAGTATCTGTGGGTCAGCGAAGCGACGCGCGGTCGCGGACTGGGGAGCGAGCTGATGCAGGAGGCGGAGCGGCAGGCGCAGGCGCTGGGCTGCAGCCATCTGCTGGTGGATACCTTTAGCTTCCAGGCGCTGCCGTTTTATCAGAAATTAGGCTATCAGCTGCAGATGTCGCTGCCCGACTTCCCGCACGCGGGGATGCAGCGTCACTATTTGTCGAAGGCGCTGTAA	MALIITKSINPDDQQELFAGLRHYNQQYLDAAQFGDLGVYSRDAQGVMQGGLIAKRKGNWLCIEYLWVSEATRGRGLGSELMQEAERQAQALGCSHLLVDTFSFQALPFYQKLGYQLQMSLPDFPHAGMQRHYLSKAL				NA	NA	NA	NA	NA
BMS020_03286	1125	mexA_1		Multidrug resistance protein MexA	ATGAAATACATCATAGCTCCCATCGCGACAGCATTATTTCTCCTCAGCGGATGCGATAATGCGCAGACATCTGCCCCGCAGCAACCCACGCCGGAAGTGGGCGTGGTCACTCTGCAAAGCCAGCCGGTTCCGGTAGTCAGCCAGCTCACCGGCCGCACCACCGCCTCGCTCAGCGCCGAAGTACGCCCGCAGGTGGGCGGCATCATCCAGAAGCGCCTGTTTACCGAAGGCGATATGGTGAAGGCCGGGCAGGCCCTTTACCAGATCGATCCCTCCAGCTATCGCGCGACCTGGAATGAAGCGGCGGCGGCGCTGAAACAGGCCCAGGCGCTGGTGGTCTCCGATTGCCAGAAGGCTCAGCGCTACGCGTCGCTGGTCCGGGATAACGGCGTCTCCCGCCAGGATGCCGACGACGCCGCCTCCACCTGTGCCCAGGACAAGGCCAGCGTGGCATCGAAGAAAGCGGCGCTGGAGAGCGCACGCATCAACCTGAACTGGACCACTGTCACCGCGCCGATTGCCGGGCGCATCGGCATCTCGTCGGTCACGCCGGGGGCGCTGGTCTCCGCCGATCAGGATACCGCGCTGGCGACGATCCGCGGGCTCGACACCATGTATGTCGATCTGACGCGATCCAGCGTCGATCTCCTGCGTTTACGCAAACAAAGCCTGGCCAGCAACAGCGATACCCTCAGCGTGACGTTAATCCTTGAAGATGGCAGCACCTACAGCGAAAAAGGGCGTCTGGCGCTCACCGAAGTCGCCGTCGATGAATCCACCGGCTCGGTAACCCTGCGCGCCATCTTCCCCAACCCGCAGCACGTCCTGCTGCCGGGGATGTTTGTCCGCGCGCGCATCGATGAAGGCATCATGAACGACGCGATCCTCGCCCCGCAGCAGGGGATTACCCGCGATGCCAAAGGCGACGCCACGGCGCTGGTGGTCGATGCCGACAACAAAGTTGCGCAGCGCGCCGTGGAAACCGGCGACACCTACGGCGATAAATGGCTGGTGCTGAGCGGCCTGAAAGCGGGCGACAAGCTGATCGTCGAAGGCACGGGTAAAGTGGCCCCAGGCCAGACGGTGAAGGCCGTTGCCGTCAACAATAACGGAGGCAACGCCTGA	MKYIIAPIATALFLLSGCDNAQTSAPQQPTPEVGVVTLQSQPVPVVSQLTGRTTASLSAEVRPQVGGIIQKRLFTEGDMVKAGQALYQIDPSSYRATWNEAAAALKQAQALVVSDCQKAQRYASLVRDNGVSRQDADDAASTCAQDKASVASKKAALESARINLNWTTVTAPIAGRIGISSVTPGALVSADQDTALATIRGLDTMYVDLTRSSVDLLRLRKQSLASNSDTLSVTLILEDGSTYSEKGRLALTEVAVDESTGSVTLRAIFPNPQHVLLPGMFVRARIDEGIMNDAILAPQQGITRDAKGDATALVVDADNKVAQRAVETGDTYGDKWLVLSGLKAGDKLIVEGTGKVAPGQTVKAVAVNNNGGNA	PGPT0003275_4216	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585	NA	NA
BMS020_03287	3108	mexB_1	COG0841	Multidrug resistance protein MexB	ATGTTCTCCCGTTTCTTCGTGCGTCGCCCGGTCTTTGCCTGGGTGATCGCCATTCTGATTATGCTCGCCGGCGTGATGGCGATCCGCACTCTGCCGGTGGGCCAGTACCCGGACGTCGCCCCGCCGGCGGTGAAAATCTCCGCCACCTACACCGGCGCCTCCGCCGAAACCCTGGAGAACAGCGTCACCCAGGTGATCGAGCAGCAGCTTACCGGCCTCGACCATCTGCTCTACTTCAGCTCCACCAGCAGCTCCGACGGCTCGGTCAGCATCACCGTCACCTTTGAGCAGGGGACCGACCCGGACACCGCCCAGGTGCAGGTGCAGAACAAAGTCCAGCAGGCGGAATCGCGGCTGCCGAGCGAAGTCCAGCAGTCCGGCGTGACGGTGGAAAAATCGCAGAGCAGCTTCCTGCTGATCCTCGCGGTGTATGACAAAACCGACCGCGCCACCAGCTCCGATATCTCCGACTGGCTGGTCAGCAACCTGCAGGACCCGCTGGCGCGCGTAGAGGGCGTCGGCAGCCTGCAAGTGTTCGGCGCCGAATACGCGATGCGCGTCTGGATGGACCCGACCAAACTCGCCTCCTACTCGCTGATGCCTTCCGACGTCCAGTCGGCGATTGAGGCGCAGAACGTGCAGGTCTCCGCCGGTAAAATCGGCGCCCTGCCATCGTCCAGCGCCCAGCAGCTGACCGCCACCGTGCGCGCGCAGTCGCGGCTGCAAACCCCTGACCAGTTCAAAGCGATCATTGTGAAAAGCCAGGCAGACGGTTCGGTGGTGCGCCTGAGCGATGTCGCGCGGGTGGAGATGGGCAGCGAGGATTACACCGCTACCGCCAATCTCAACGGCCACCCGGCCGCCGGGATCGCGGTGATGATGGCCCCCGGCGCCAACGCGCTGGACACCGCGACCCTGGTGAAAAGCAAAATCGCCGAATTCCAGCGTCAGATGCCGCAGGGCTACGATATCGCCTATCCAAAGGACAGCACCGAGTTCATCAAAATCTCGGTCGAAGACGTGATTCAGACCCTTTTCGAAGCGATTATCCTCGTGGTCTGCGTGATGTATCTGTTCCTGCAGAACTTCCGCGCCACGCTGATCCCGGCGGTGGCTGTCCCGGTGGTGCTGCTCGGCACCTTCGGCGTGCTGGCGCTGTTCGGCTACTCGATTAACACCCTGACGCTGTTCGCCATGGTGCTGGCGATCGGCCTGCTGGTGGACGACGCCATTGTGGTGGTGGAGAACGTCGAGCGCATTATGCGCGACGAAGGGCTGCCCGCCCGGGAAGCCACCGAAAAATCGATGGGCGAAATCTCCGGCGCGCTGGTGGCGATCGCCCTGGTGCTGTCGGCGGTCTTTCTGCCGATGGCCTTCTTCGGCGGCTCGACCGGGGTCATTTATCGCCAGTTCTCGGTGACCATTATCTCGGCGATGATGCTGTCGGTGGTGGTGGCCCTGACCCTCACCCCGGCGCTGTGCGGCGCGCTGCTTAGCCACTCCAGGCCTCATACTAAAGGGTTCTTCGGCGCGTTTAACCGCCTGTGGGGGCGCACGGAAGCGGGCTACCAGCGCCGCGTGCTCGGCGGCCTGCGCCGTGGCGCGGTGATGATGGGCGCTTACGTCCTGATTTGCGGGGCGATGGCGCTGGCGATGTGGAAACTGCCGGGCAGCTTTCTGCCGGTGGAGGACCAGGGCGAGATCATGGTCCAGTACACCCTGCCCGCCGGGGCCACCGCGGTGCGTACCGCCGAGGTGCGTCGCCAGGTCACCGACTGGTTCCTGACCAAAGAGAAAGCCAATACCAACGTCATTTTCACCGTCGACGGCTTTAGCTTTAGCGGCAGCGGTCAGAACGCCGGGATGGCCTTCGTGTCGCTGAACAACTGGTCGCAGCGCAAAGGCGACGACAATACCGCCCAGGCCATCGCCCTGCGCGCCAATAAAGAGCTGGGGACGATCCGCGACGCCACCCTGTTCGCCATGACCCCGCCGTCGGTGGACGGTCTCGGACAGAGCAACGGCTTCACCTTCGAGCTGATGGCCAGCGGCGGTACCGACCGCGACAGCCTGATGAAGCTGCGCAGTCAGCTGCTGGCGGCGGCCAACCAGAGCGGCGAGCTGCAGTCGGTGCGCGCCAACGACCTGCCGCAGATGCCGCAGCTGCAGGTGGATATCGATAACAACAAAGCGGTCTCGCTGGGGCTGTCGCTGAGCGACGTGACCGATACCCTCTCCAGCGCCTGGGGCGGTACCTACGTGAATGACTTTATCGACCGCGGCCGGGTGAAGAAGGTGTACATCCAGGGCGAGAGCGACGCGCGCGCCGTGCCCTCCGACCTCGGCAAATGGTTCGTTCGCGGCAGCGATAACAGCATGACGCCCTTCTCCGCCTTCGCCACCATCCACTGGCAATACGGTCCGGAAAGCCTGGTGCGCTACAACGGCTCCGCCGCCTTTGAGATCCAGGGCGAAAACGCCGCCGGCTTCAGCTCCGGCGCGGCGATGGACAAGATGGAAAAGCTGGCCGACAGCCTGCCGGCGGGCTCCACCTGGGCGTGGAGCGGCATTTCGCTGCAGGAAAAGCTGGCCAGCGGCCAGGCGATGAGCCTGTACGCCATCTCGATTCTGGTGGTGTTCCTGTGCCTGGCGGCGCTGTATGAGAGCTGGTCGGTGCCGTTCTCGGTGATCATGGTCATCCCGCTCGGCCTGCTCGGCGCGGCGCTGGCGGCGACGCTGCGAGGCTTAAGCAACGACGTCTACTTCCAGGTGGCGCTGCTGACCACCATCGGCCTGTCGTCGAAGAACGCCATCCTGATCGTGGAGTTCGCTGAATCCGCAGCGGATGAGGGTTATTCGCTCTCCCGGGCGGCGATCCGCGCCGCGCAGACCCGTCTGCGCCCAATTGTCATGACCTCGCTGGCGTTTATCGCCGGGGTGCTGCCGCTGGCCATCGCCACCGGCGCCGGGGCCAACAGCCGCGTGGCGATCGGCACCGGCATCATCGGCGGCACCCTGACGGCCACCCTGCTGGCGGTGTTCTTCGTACCGCTGTTCTTCGTGCTGGTGAAACGCTTCTTCACCCGCCAACGTCCTTCTCAGGAGTAA	MFSRFFVRRPVFAWVIAILIMLAGVMAIRTLPVGQYPDVAPPAVKISATYTGASAETLENSVTQVIEQQLTGLDHLLYFSSTSSSDGSVSITVTFEQGTDPDTAQVQVQNKVQQAESRLPSEVQQSGVTVEKSQSSFLLILAVYDKTDRATSSDISDWLVSNLQDPLARVEGVGSLQVFGAEYAMRVWMDPTKLASYSLMPSDVQSAIEAQNVQVSAGKIGALPSSSAQQLTATVRAQSRLQTPDQFKAIIVKSQADGSVVRLSDVARVEMGSEDYTATANLNGHPAAGIAVMMAPGANALDTATLVKSKIAEFQRQMPQGYDIAYPKDSTEFIKISVEDVIQTLFEAIILVVCVMYLFLQNFRATLIPAVAVPVVLLGTFGVLALFGYSINTLTLFAMVLAIGLLVDDAIVVVENVERIMRDEGLPAREATEKSMGEISGALVAIALVLSAVFLPMAFFGGSTGVIYRQFSVTIISAMMLSVVVALTLTPALCGALLSHSRPHTKGFFGAFNRLWGRTEAGYQRRVLGGLRRGAVMMGAYVLICGAMALAMWKLPGSFLPVEDQGEIMVQYTLPAGATAVRTAEVRRQVTDWFLTKEKANTNVIFTVDGFSFSGSGQNAGMAFVSLNNWSQRKGDDNTAQAIALRANKELGTIRDATLFAMTPPSVDGLGQSNGFTFELMASGGTDRDSLMKLRSQLLAAANQSGELQSVRANDLPQMPQLQVDIDNNKAVSLGLSLSDVTDTLSSAWGGTYVNDFIDRGRVKKVYIQGESDARAVPSDLGKWFVRGSDNSMTPFSAFATIHWQYGPESLVRYNGSAAFEIQGENAAGFSSGAAMDKMEKLADSLPAGSTWAWSGISLQEKLASGQAMSLYAISILVVFLCLAALYESWSVPFSVIMVIPLGLLGAALAATLRGLSNDVYFQVALLTTIGLSSKNAILIVEFAESAADEGYSLSRAAIRAAQTRLRPIVMTSLAFIAGVLPLAIATGAGANSRVAIGTGIIGGTLTATLLAVFFVPLFFVLVKRFFTRQRPSQE	PGPT0003280_2788	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003280-acrB|acrE|mexB|adeJ|smeE|mtrD|cmeB-K18138	NA	NA
BMS020_03288	1365	oprM_2	COG1538	Outer membrane protein OprM	ATGTTTCGTTTGAGTTTTATGTTTATCGCGCTCCTGACCGCGGGCTGCGTCTCGCTTGACCCGCATTATGATCGCCCGGCCGCGCCGGTGCCGGCTACCCTGCCCGGGGCGCACGGCGAATCGACGGCGGTGGTCGGCGACTGGCAGAAAGTGGTCAATGACGCGCGGCTGAAAAAAGTGGTCAGTATCGCGCTGAACAGCAACCGCGATGTGCAAAAGGCGCTGGCCGATATCGAGGCCGCGCGCGCCCAGTACGGCGAGACGCGGGCGTCGCAGTTCCCCACCGTCGATGCCGAGCTGAGCCATACGCGCAGCAAAACGGTGGCCAGCGGCCTGAGCTCCGCTTCGCAGGCCGACGGGGCGGTCTCCAGCTTCGAGCTGGATCTGTTTGGCAAGAACCAGAGCCTGTCGCGCGCGGCACGCGAAACCTGGCTTGCCAGCGAATTCACCGCGCAGAATACCCGGCTGACGATGATTGCCGATTTGACCACCGCCTGGGTGACGCTGGCGACGGATAACAGCAATCTGGCGCTGGCGCAGCAGACCATGGACAGCGCAGCAAACTCGCGCAACATCGTCGCCCGTCAGATGGCGGTGGGCACCGCCTCCGCCGGCGATTTAAGCTCGGCGGAAAGCGTCTATCAGCAGGCGCGCGCCAGCGTCGCCAGCTACCGCACGCTGGTGGCGCAGGATAAAAACGCTATTAACCTGCTGGCGGGGGAAACCGTGCCGGAGAGCCTGCTGCCCGGCACCCTCGACAGTCTCGGGGATAACTGCATCGCCCTGGTGCCGGCGGGGGTGTCATCGTCGGTGCTGCTGCGCCGGCCGGATATTCAGGAAGCGGAGCATAATCTGAAGAGCGCCAATGCCGATATCGGCGCGGCGCGGGCGAACTTCTTCCCGTCGATTTCCCTGACCGCCAGCGCCGGCGTCGGCAGCGACTCGCTGTCGTCGCTGTTCAGCCACGGGATGCAGGTGTGGTCGTTCGCCCCCTCCATCAGCCTGCCGCTGTTCACCGGCGGCAGCAACCTGGCGCAGTTGCGCTATGCGGAAGCGGAGAAGAAGGGGCTGATCGCCACCTACGAGAAATCGATTCAGAGCGCCTTTAAGGACGTTGCCGATGCGCTGGCGCGCCGGGAAACGCTAAATGAAGAGCTCGATGCCCAGCAACAGTATGTCGCCGCCGAGCAGACCTCGCTGGATATCGCCATGAAGAGCTATCAGGCTGGGGTCGGCGATTATCTGTCGGTGCTCACCGCCCAGCGCACGCTGTGGTCGGCGAAGACGACGCTGCTGTCCCTGCAGCAAACCGACCTCAATAACCGGATCACCCTCTGGCAGTCGCTGGGCGGCGGCGCCAGTTAA	MFRLSFMFIALLTAGCVSLDPHYDRPAAPVPATLPGAHGESTAVVGDWQKVVNDARLKKVVSIALNSNRDVQKALADIEAARAQYGETRASQFPTVDAELSHTRSKTVASGLSSASQADGAVSSFELDLFGKNQSLSRAARETWLASEFTAQNTRLTMIADLTTAWVTLATDNSNLALAQQTMDSAANSRNIVARQMAVGTASAGDLSSAESVYQQARASVASYRTLVAQDKNAINLLAGETVPESLLPGTLDSLGDNCIALVPAGVSSSVLLRRPDIQEAEHNLKSANADIGAARANFFPSISLTASAGVGSDSLSSLFSHGMQVWSFAPSISLPLFTGGSNLAQLRYAEAEKKGLIATYEKSIQSAFKDVADALARRETLNEELDAQQQYVAAEQTSLDIAMKSYQAGVGDYLSVLTAQRTLWSAKTTLLSLQQTDLNNRITLWQSLGGGAS	PGPT0009810_3264	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexXY-OprM,PGPT0009810-toxI|oprM|oprM|emhC|ttgC|cusC|adeK|smeF|mtrE|cmeC|gesC-K18139	NA	NA
BMS020_03289	1164	bcr_2		Bicyclomycin resistance protein	ATGCCACGTGTTTCCCTCTCCTGGGCGCTGATCCTCGGCCTGCTGTCGGGCATTGGGCCGCTGTGCACGGATTTTTATCTGCCGGCTCTGCCGGAGATCACTCAGCAGCTGCAGGCCACCAGCACCCAGACCCAGCTGTCGCTGACCGCCGCGCTGATTGGCCTCGGCCTGGGTCAGCTGTTTTTCGGCCCGCTGAGCGACCGCATTGGCCGCCTGAAACCGCTGGCGCTGTCCCTGCTGTTGTTTATCTTCTCTTCGGCGATGTGCGCCCTGACCCGGGATATCAACATGCTGATTGTCTGGCGCTTTTTACAGGGCTTCGCCGGCGCCGGCGGCTCGGTGCTGTCGCGCTCCATCGCCCGCGATAAATATCAGGGCACCCTGCTGACCCAGTTTTTCGCCCTGCTGATGACGGTGAACGGCATTGCGCCGGTCCTGTCCCCGGTGCTGGGCGGCTACGTGATCACCGCCTTCGACTGGCGAATTCTCTTCTGGACGATGGCCGCCATTGGCGGCGCGCTGCTGGTCATGAGCCTGACTATCCTGCGGGAAACGCGCCCGGCCGCGGCGACCCATGCCGCCCGCCAGCGGCCCGGCCAGCCGGTGCTGAAGAATCGTCGTTTTCTGCGCTTCTGCCTGATTCAGGCGTTTATGATGGCCGGGCTGTTCTCCTACATCGGCTCCTCTTCCTTCGTAATGCAGAGCGAATACGGCATGAGCGCCATGCAGTTCAGCCTGCTGTTTGGTCTGAACGGTATCGGGCTGATTATCGCGGCGATGATCTTTTCCCGTCTGGCGCGCCGCTTCAGCGCCGAAGGCCTGCTGCGCGGCGGCCTGACGCTGGCGGTGGGCTGCGCGGCGATCATGCTGCTGTTTGCCTGGCTGCAGCTGCCGGTTCTGGCGCTGGTCGGCCTGTTTTTTACCGTGTCGCTGATGAGCGGCATCAGTACCGTCGCCGGCGCGGAAGCGATGAGCGCCGTCGATGCCGCCCAGTCCGGGACCGCGTCCGCGCTGATGGGCACCCTGATGTTTGTTTTCGGCGGCATCGCCGCGCCGTTGGCGGGCCTCGGCGGCGAAACGATGCTGAAGATGAGCCTCGCGATGGCGATCTGCTACCTGCTGGCGCTGCTGATGGGCCTCAGCCAGCCGCGCGGCGCGCGCTAA	MPRVSLSWALILGLLSGIGPLCTDFYLPALPEITQQLQATSTQTQLSLTAALIGLGLGQLFFGPLSDRIGRLKPLALSLLLFIFSSAMCALTRDINMLIVWRFLQGFAGAGGSVLSRSIARDKYQGTLLTQFFALLMTVNGIAPVLSPVLGGYVITAFDWRILFWTMAAIGGALLVMSLTILRETRPAAATHAARQRPGQPVLKNRRFLRFCLIQAFMMAGLFSYIGSSSFVMQSEYGMSAMQFSLLFGLNGIGLIIAAMIFSRLARRFSAEGLLRGGLTLAVGCAAIMLLFAWLQLPVLALVGLFFTVSLMSGISTVAGAEAMSAVDAAQSGTASALMGTLMFVFGGIAAPLAGLGGETMLKMSLAMAICYLLALLMGLSQPRGAR	PGPT0029005_5375	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
BMS020_03290	903	murQ_2	COG2103	N-acetylmuramic acid 6-phosphate etherase	ATGAGTATTGACCTGAGCAAACTGCTGACCGAGCGACGCAACGCCAACAGCGCCAACATTGACACCCTTTCCACCCTCGAGATGCTGACGGTGATAAACCAGGAAGACCAGCAGGTGGCCCAGGCGATTACGCCCTATCTGCCGCAGATTGCCGAGGTGGTAGATAAGATCGCGACGGCGCTGCAGGCCGGTGGCCGCTTGATTTATATCGGCGCTGGCACCTCAGGGCGTCTGGGGATCCTCGATGCCAGCGAATGCCCGCCGACTTTTGGCACCCGCCCGGAGCAGGTGGTGGGGATCATCGCCGGCGGACATAAAGCGATTCTCAGCGCCGTGGAAAACGTGGAAGACAACAAAGCGCAGGGGGCGATGGATCTGCAGAACCTGAACTTCAGCAACCGCGATGTACTGGTGGGGCTGGCGGCCAGCGGACGCACGCCGTACGTCATTGGCGCCATGGAGTATGCCCATCGTCAGAATGCCTTTGTCGCCATCGTCAGCTGTAACCCGCATGGCGAAATGGCTCAGTTGGCGGACGTCGCCATCACCCCGGTGGTCGGCCCGGAGGTAGTGACCGGCTCGACCCGCCTGAAAGCCGGTACCGCGCAGAAGCTGGTGCTGAACATGATCTCCACCGGGGCGATGATCCGCGTCGGCAAGGTCTACAGCAACCTGATGGTCGACGTCGAAGCGACCAACGCCAAGCTGATTGAGCGCCAGGTGTCCATCGTGATGGAGGCGACCGACTGCGATCGTCCCACTGCCCAGAAGGCGCTGGAGGCCTGCGGCCGCCACTGTAAAACGGCAATCGTGATGGTGCTGGCGGACTTAAGCGCCGAAGCGGCGCAGTCGCTGCTGGCGAAGAACAACGGCTATATCCGCAAGGCGCTCAGCAATACCTGA	MSIDLSKLLTERRNANSANIDTLSTLEMLTVINQEDQQVAQAITPYLPQIAEVVDKIATALQAGGRLIYIGAGTSGRLGILDASECPPTFGTRPEQVVGIIAGGHKAILSAVENVEDNKAQGAMDLQNLNFSNRDVLVGLAASGRTPYVIGAMEYAHRQNAFVAIVSCNPHGEMAQLADVAITPVVGPEVVTGSTRLKAGTAQKLVLNMISTGAMIRVGKVYSNLMVDVEATNAKLIERQVSIVMEATDCDRPTAQKALEACGRHCKTAIVMVLADLSAEAAQSLLAKNNGYIRKALSNT	PGPT0019040_1227	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
BMS020_03291	1431	murP	COG2190	PTS system N-acetylmuramic acid-specific EIIBC component	ATGGCAAAAATAACGAAAGAGATGATAGCGCGGATCCTCGCCCACGTAGGCGGCGCCGCTAACGTCGCGCAGGCAGGCAACTGCATGACGCGCCTGCGCTTGACCCTGCGCGATGAAGGCCTGGCCGACACCGCCGCCATCCGCCAGATTGACGGCGTGATGGGGGTGATCGTCAGCGACGAGCAGTTCCAGGTGGTGCTCGGCCCCGGCAAGGCGCAAACCGCCGCCGAGATGATGAACGGCCTGCTGGAGGAGGCGCCCGCCGCGCCGACGCTGGCCGACGTCGCGGCGGAGAAAAAACAGGCGCTGAAGGGCAAGCAGACCAGCGCGGTGCAGAAGTTTCTCGCCAAATTCGCCACCATTTTTACGCCGCTGATCCCCGGCTTTATCGCCGTCGGGCTGCTGCTGGGCTTCGCCACCCTGGCGGAACAGGTTTTCGTGCTGGAGAACGCCCATCCGAACGCCAGCCTGGTGGCGCTGATTGGCTATATGAAGGTATTCAGCAAAGGGATGTTCACCTTCCTGAGTATCCTGATTGGCTATAACGCCCAGAAGGCGTTCGGCGGCTCCGGCGTGAACGGCGCGATTATCGCCTCGCTGTTCGTGCTGGGCTACAACCCGGAGGCGACCAGCGGCGTCTACGCCGGGATCTCCACCTTCTTCGGCAACGGTATCGATCCGCGCGGCAATATCATCGGCGTATTGATCGCCGCCATCCTTGGGGCGTGGGTTGAACGCCAGGTGCGGCGGGTCATGCCGGCCAACCTCGATATGATCCTCACCTCGGCGGTGACGCTGCTGATCATGGGCGCGGTGACCTTTACGGTGATCATGCCGATTGGCGGCTGGTTGTTTACCGGCATGTCGTGGCTGTTCCTGCATCTTAACGGCAATCCGTTTGGCTCGGCGGTGCTGGCCGGCCTGTTCCTGCTGGCGGTGATGTTCGGCGTCCATCAGGGGTTTGTCCCGGTCTATTTTGCGCTGGTGGATGCCCAGGGCTTTAACTCGCTGTTCCCAATCCTGGCGATGGCCGGGGCCGGGCAGGTGGGGGCGGCGCTGGCGCTGTTCTGGCGGGCGAAGCGCGATTCGCTGCTGCGAACCCAGATTAAGGGGGCGATTATTCCGGGCTTCCTCGGGATTGGCGAGCCGCTAATCTACGGCGTCACCCTGCCGCGGATGAAGCCGTTTGTCACCGCCTGCCTCGGCGGCGCCTGCGGCGGCTTCTTCGTCGGGCTGATCGCCTGGCTGGGGCTGCCGGTCGGCCTGAACACGGTGTTTGGTCCGTCCGGCCTGGTGGCGCTGCCGCTGATGACCTCCGGCAGCGGGATTTACGCCGGGATGGCGGTCTACGCCGGCGGACTGGCGGTCTCCTACCTGTGCGGCTTTGCGCTCACCTGGCTGTTCGGCAGTAAAAATGTCGATTTAAGTTAG	MAKITKEMIARILAHVGGAANVAQAGNCMTRLRLTLRDEGLADTAAIRQIDGVMGVIVSDEQFQVVLGPGKAQTAAEMMNGLLEEAPAAPTLADVAAEKKQALKGKQTSAVQKFLAKFATIFTPLIPGFIAVGLLLGFATLAEQVFVLENAHPNASLVALIGYMKVFSKGMFTFLSILIGYNAQKAFGGSGVNGAIIASLFVLGYNPEATSGVYAGISTFFGNGIDPRGNIIGVLIAAILGAWVERQVRRVMPANLDMILTSAVTLLIMGAVTFTVIMPIGGWLFTGMSWLFLHLNGNPFGSAVLAGLFLLAVMFGVHQGFVPVYFALVDAQGFNSLFPILAMAGAGQVGAALALFWRAKRDSLLRTQIKGAIIPGFLGIGEPLIYGVTLPRMKPFVTACLGGACGGFFVGLIAWLGLPVGLNTVFGPSGLVALPLMTSGSGIYAGMAVYAGGLAVSYLCGFALTWLFGSKNVDLS	PGPT0016935_142	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MURAMATE_PTS_SYSTEM,PGPT0016935-murP-K11192	NA	NA
BMS020_03292	903	yicL	COG0697	putative inner membrane transporter YicL	ATGGGCTCCAGCAAAAAAGGGATGCTGAACGTACTGATTGCCGCCGTGCTGTGGGGCAGTTCCGGGGTGTGCGCGCAGTTTATTATGCAGGAAAGCCAGATGTCGTCGCCGTTTCTGACCATGACGCGTCTGCTGTTCGCCGGGCTGATCCTGTTGATGCTCGGCTTTGTTCACGGCGACCGCATTTTCCGCGTGCTGCAAAACCGCCGCGACGCCGTCAGCCTGCTGTTTTTCTCGCTGTTTGGCGCGTTAACCGTGCAGTTCACCTTTCTGATGACCATTGAAAAATCGAATGCCGCCACGGCCACGGTGCTGCAGTTCCTGTCCCCGACGATCATCGTCGCCTGGTTCGCCCTCGCCCGTAAAGCGCGCCCCACTCCGCTGGTGCTGGGGGCTATCTGCACCTCGCTGGCAGGCACCTTTCTGCTGGTGACCCACGGCAACCCGACGACGCTGTCGATTTCGCCGGCGGCGCTGTTCTGGGGGATCGCCTCGGCGTTTGCCGCCGCGTTTTATACCACCTATCCCTCGACGCTGATTGCCCGCTACGGGACGCTGCCGATCGTGGGATGGAGCATGCTGTTCGGCGGCGCGATGCTGCTGCCGTTTTATGGCGGCCAGGGCACCGATTTTGTGGTTAACGGCAGCCTGCTGTTAGCCTTTTTCTACCTGGTGGTGATCGGTACTTCGCTGACCTTCAGCCTTTATCTTAACGGCGCGCAGAAGATTGGCGGCGCCAAAGCCGGGATCCTCAGCTGCGCCGAACCGCTGAGCAGCGCCCTGCTGTCGCTTCTGCTGCTGGGGATCACCTTCACGCTGCCGGACTGGCTGGGCACGCTGCTGATCCTGGCCTCGGTGGTGCTGATCGCCATCGACTCGCGGCGGCGGGTGAGAGCCGCCTGA	MGSSKKGMLNVLIAAVLWGSSGVCAQFIMQESQMSSPFLTMTRLLFAGLILLMLGFVHGDRIFRVLQNRRDAVSLLFFSLFGALTVQFTFLMTIEKSNAATATVLQFLSPTIIVAWFALARKARPTPLVLGAICTSLAGTFLLVTHGNPTTLSISPAALFWGIASAFAAAFYTTYPSTLIARYGTLPIVGWSMLFGGAMLLPFYGGQGTDFVVNGSLLLAFFYLVVIGTSLTFSLYLNGAQKIGGAKAGILSCAEPLSSALLSLLLLGITFTLPDWLGTLLILASVVLIAIDSRRRVRAA				NA	NA	NA	NA	NA
BMS020_03293	291			hypothetical protein	ATGAAAGCATGTTGGATGGTATGCCTGGTCACCGCCCTGAGCGCCACGTCGGCGTGGGCTGAATCACCGCTGCAAAGCCTGCAGTTCGAACAGCAAAAGCAGCAGGTGCTTAAAGCGGTGAAGGAAAAATGCGCGCCAGCAAGCCACCTCAGCGACAACGATTTTGCCAATAACGTGCTGGCGACCGACGGCAACAAGAACGCGGTCCGCGAAGCAACGCTGGCGAAAGAGCGCAATAACCAGAAAAGCTACCAGGCCGCGATCGACAAAATCGTCTGTCCGGCCAAATAG	MKACWMVCLVTALSATSAWAESPLQSLQFEQQKQQVLKAVKEKCAPASHLSDNDFANNVLATDGNKNAVREATLAKERNNQKSYQAAIDKIVCPAK				NA	NA	NA	NA	NA
BMS020_03294	945		COG1609	HTH-type transcriptional regulator	ATGATGTCGACAATCAATGATGTTTCACGACTTGCCGGGGTTTCCAAAGCCACGGTGTCGCGAGTGTTGAGCGGCTCACGTGGCGTGAAGGAGGCCAGTCGTCAGGCGGTGCTGCAGGCGGCGGAAACGCTCAATTACCGGCCAAACATGATAGCCCAGTCGTTGCTTAGCCAGTCCACCGGCTGCATCGGCGTCATCTGCGCCCAGGACAATATCAATCAAACCACCAGCTATCTCTACGCCCTGGAAAAACAGCTCAGCCAGCACCAGAAGCACCTGCTGCTGCGCTTCGCCAACACCAGCAGCGGCGTGATGAACTCGCTGGAGGAGTTGACCTGCGGGCTGTGCGATAACGTGCTGATCATCGGCGCGCGTTTTCCTCTGAATATTAACCGCCCGGACGTGGTGCTGGTGGACTGCCTCGACAGCGAGGGCGAAAACAGCATTCAGTTCGATCACGCCTTCGCCGCCGAAACCGCCTGTCACTATCTGATAAGCCAGGGCAGAAGGCAGATTGCGCTGATCCATCCCCAGAGCAGCGGCTTCGCCGATCAGGTGCTGCTGGGCTACAAGCACGCGCTGGAAAAAAACTTTTTGCCGTTTAATCGCAATCTGGTGTTTTTGGATAACACCTCGCCGTCGGTGGCGGTGCAGGAGCTGGTCAATAACGCCACGACGCTGAACTTTAACGCGCTGCTGGTGAGCGATGAACAGCAGGCGCAGCGCGTGGTGCCGCAGCTGCAGGCGTTTAACCGCGCCGTTCCGCAAAATGTGATGGTGTTTAGCCTCGCCGGATCGTTACAGCTGCCCGGTATCCCGACTATCCCGGCGATTGAATATTCCATGGACGCGATGGCGTCGCGGATCGTCAACTGGTTGACCGAGAAAACGGACAACCCGGGCGGCAGCCCGCTGCGCGGCGATTTAATTATTCCGAAGCACTAA	MMSTINDVSRLAGVSKATVSRVLSGSRGVKEASRQAVLQAAETLNYRPNMIAQSLLSQSTGCIGVICAQDNINQTTSYLYALEKQLSQHQKHLLLRFANTSSGVMNSLEELTCGLCDNVLIIGARFPLNINRPDVVLVDCLDSEGENSIQFDHAFAAETACHYLISQGRRQIALIHPQSSGFADQVLLGYKHALEKNFLPFNRNLVFLDNTSPSVAVQELVNNATTLNFNALLVSDEQQAQRVVPQLQAFNRAVPQNVMVFSLAGSLQLPGIPTIPAIEYSMDAMASRIVNWLTEKTDNPGGSPLRGDLIIPKH	PGPT0014791_453	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA	NA	NA
BMS020_03295	315	celA_1		PTS system cellobiose-specific EIIB component	ATGTACAAGATTATGCTGTGCTGTTCTGCCGGAATGTCCACCAGTCTGCTGGTCAGAAAGATGGTGGAGGCGGCGAATGAACGTGATCTGCCGGTGCAGATTGACGCCTATGGCGTTTCCGAATTTGACATCCAGTTTCCGCAGTATCAGGTGGTTTTGCTTGGCCCCCAGGTGAAATACATGTTGAAAACCCTGTCTGACAAAGCGGCTTCCCTGAACATTCCGGTTCAGCCCATCGATACGATGGACTACGGCATGCAGCGGGGAGACAACGTCCTGAATTATGCTCTGTCGCTGATCCCAGCGGCGCACTGA	MYKIMLCCSAGMSTSLLVRKMVEAANERDLPVQIDAYGVSEFDIQFPQYQVVLLGPQVKYMLKTLSDKAASLNIPVQPIDTMDYGMQRGDNVLNYALSLIPAAH	PGPT0016975_722	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_BETA-GLYCOSIDE_DEGRADATION,PGPT0016975-celA|chbB-K02760	NA	NA
BMS020_03296	1323	licC_2	COG1455	Lichenan permease IIC component	ATGAGTTCTCTGTATCAGTCCATGATTGCCGTGATCGAGCAATCTATTACTCCGCTGGCAGGACGCCTTGGGCAGCAGAAATATGTTATCGCTATCCGCGATGGCTTCACTGCCGCATTGCCGTTTATGATCATCGGCTCTTTCATGCTGGTATTTATCTTTCCGCCGTTTTCACCCGATACCACCAACGGCTTTGCCCGCGGCTGGCTCGATTTCTCCCAGCACTACCGCGAACAGCTGATGCTGCCGTTTAACCTCAGCATGGGCGTAATGACCTTCTTTATCTCGGTCGGCATTGGCGCCAGCCTCGGTCGTCAGTTTCAGCTCGATCCGGTGATGTCCGGTCTGCTGGCGTTTATGGCCTTCCTGCTGGTCGCCGCGCCCTATGCCGATGGTAAAATTTCCACTCAGTATCTGTCCGGCCAGGGCATTTTTACCGCCCTGATCACCGCCATCTACTCCACCCGCGTCTACGCGTGGCTGAAGCAAAACAACATCACCATCCGTCTGCCGAAAGAGGTGCCGACCGGCGTCGCCCGTTCATTTGAAATCCTGATCCCGGTGCTGGTGGTGATTGGTACTTTGCATCCGCTGAACCTGTTTATCGAAGCGCAGACCGGGATGATCCTGCCGCAGGCGATCATGCATCTGCTGGAGCCGCTGGTTTCCGCCTCCGACTCGCTGCCGGCGATTTTGCTCTCCGTTCTGATGTGCCAGATTTTCTGGTTCGCCGGGATCCACGGCTCGCTGATTGTCACCGGCATTATGAACCCGTTCTGGATGGCCAACCTGTCGGCAAACCAGGCGGCGCTGGCGGCCGGCACGGTGCTGCCGCACGTCTATCTGCAGGGTTTCTGGGATCACTATCTGCTGATTGGCGGCGTCGGTTCGACCCTGCCGCTGGCCTTCCTGCTGCTGCGTAGCCGGGCCACTCATCTGCGCACCATCGGCAAGATGGGCATCGTGCCGAGCTTCTTTAATATCAACGAGCCGATCCTGTTCGGGGCGCCGATCATCATGAACCCGATGATGTTTATCCCCTTCGTCTGCGTACCGATGGTCAACGCGGTGCTGGCTTACGGCGCGACGCGTCTTGGCTGGCTGAGCCAGGTGGTGTCTCTCACTCCGTGGACCACGCCGGCACCGATTGGCGCCTCGTGGGCGGCCAACTGGACGCTGAGCCCGGTAGTGATGTGCCTTATCTGCATGGTGATGTCGGCGGTGATTTACCTGCCGTTCCTGCGCGCCTATGAACGTTCCTTAATGAAAACCGAAGTTGAGAAAACCAAAAATAGCGTTCCGGTGGCAGAAACCGTTAGCTAA	MSSLYQSMIAVIEQSITPLAGRLGQQKYVIAIRDGFTAALPFMIIGSFMLVFIFPPFSPDTTNGFARGWLDFSQHYREQLMLPFNLSMGVMTFFISVGIGASLGRQFQLDPVMSGLLAFMAFLLVAAPYADGKISTQYLSGQGIFTALITAIYSTRVYAWLKQNNITIRLPKEVPTGVARSFEILIPVLVVIGTLHPLNLFIEAQTGMILPQAIMHLLEPLVSASDSLPAILLSVLMCQIFWFAGIHGSLIVTGIMNPFWMANLSANQAALAAGTVLPHVYLQGFWDHYLLIGGVGSTLPLAFLLLRSRATHLRTIGKMGIVPSFFNINEPILFGAPIIMNPMMFIPFVCVPMVNAVLAYGATRLGWLSQVVSLTPWTTPAPIGASWAANWTLSPVVMCLICMVMSAVIYLPFLRAYERSLMKTEVEKTKNSVPVAETVS	PGPT0016970_1629	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_BETA-GLYCOSIDE_DEGRADATION,PGPT0016970-celB|chbC-K02761	NA	NA
BMS020_03297	303	chbA_1	COG1447	PTS system N,N'-diacetylchitobiose-specific EIIA component	ATGATTGAATTAGAAGATGCGGTAATGGAAATTATCGTCAATGCGGGACAGTCACGCTCATTATGTTTTGAAGCGCTGCATGCGGCCCGAACCGGAAATATCGACGAAGCGCGTTTACTCTTAAATGAGGCCGACGGTTACGCCCGCCGGGCGCATCAGATGCAGACCCAGCTCATCGAGCAGGATGCCGGTGAAGCGCGTCAGCCTATGACGCTTATTATGGTACATGCCCAGGATCATCTGATGAATTCGCTGCTGGCCCGCGAGTTCTCAGAAGAATTAATCCATCTGTACCAGCGTTAA	MIELEDAVMEIIVNAGQSRSLCFEALHAARTGNIDEARLLLNEADGYARRAHQMQTQLIEQDAGEARQPMTLIMVHAQDHLMNSLLAREFSEELIHLYQR	PGPT0016980_1584	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_BETA-GLYCOSIDE_DEGRADATION,PGPT0016980-celC|chbA-K02759	NA	NA
BMS020_03298	249			hypothetical protein	ATGGGCGCCATAGCGGGCATAGCCGCTGAACTTGAGGCCGAACGGAATCGCCACATCCGGCGAGGCGGCGGTGGTCTGCGGGTTGGTAATGACGTCGACCTTTTTGTCGGCCGCGGCGTCAATTTTCGCCTGGCGGTCGGCCAGCGCTTTATCAACGGCTTTGGCGACAATGGCGTCGATCTGTTCCTGAGTAAATTCTTGCGCCATTACGGAAATTGGGCACAGCGCGGCGACAACCGCCATGGCTAA	MGAIAGIAAELEAERNRHIRRGGGGLRVGNDVDLFVGRGVNFRLAVGQRFINGFGDNGVDLFLSKFLRHYGNWAQRGDNRHG				NA	NA	NA	NA	NA
BMS020_03301	804	dkgB	COG0656	2,5-diketo-D-gluconic acid reductase B	ATGGCAATCCCTGCATTTGGTCTTGGCACCTTCCGTCTGAAAGATGATGTTGTTATCGCATCCGTAAAAACCGCGCTGGAGCTGGGCTATCGTACTATCGACACCGCGCAAATCTACGACAACGAAGCCGCGGTGGGTCAGGCTCTCGCTGAAAGCGGCGTGCCGCGTGATGAGCTGTTCATCACAACCAAAATCTGGATCGAAAACCTGAGCAAAGACAAGCTGATCGCCAGCCTGCAAGAGAGCCTGCAGAAGCTACGCACTGACTATGTTGATCTGACGCTGATCCACTGGCCGTCACCGAATGATGCGGTAGCTGTTGAAGAGTTTATGGCTGCTCTGATGGAAGCGAAGGCGCTCGGCCTGACCCGTCAGATCGGTATCTCCAACTTCACTATTCCACTGATGGAGCGCGCGATTGCCGCCGTTGGCGCTGAAAACATTGCTACCAATCAGATTGAGATTTCGCCGTATCTGCAAAACCGTAAAGTCGTCGATTGGGCGCGTGAGCACGGTATCCATATCACCTCCTACATGACCCTGGCCTACGGTAAGGCGCTGAAAGATGAGGTGATTGCCCGTATCGCGGCGAAACATAATGCGACTCCGGCGCAGGTTATCCTGGCATGGGCGATGGGCGAGGGGTACGCGGTGATCCCGTCCTCGACGAAGCGTGAGAACCTGGCCAGCAACCTGAAAGCTCTGGATCTGAAGCTGGATGATGAAGATCGCCAGGCGATCGCCGCACTGGATTGCAACGATCGGCTGGTGAGCCCGGAAGGTCTGGCGCCGCAGTGGGATTAA	MAIPAFGLGTFRLKDDVVIASVKTALELGYRTIDTAQIYDNEAAVGQALAESGVPRDELFITTKIWIENLSKDKLIASLQESLQKLRTDYVDLTLIHWPSPNDAVAVEEFMAALMEAKALGLTRQIGISNFTIPLMERAIAAVGAENIATNQIEISPYLQNRKVVDWAREHGIHITSYMTLAYGKALKDEVIARIAAKHNATPAQVILAWAMGEGYAVIPSSTKRENLASNLKALDLKLDDEDRQAIAALDCNDRLVSPEGLAPQWD	PGPT0001325_921	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0001325-dkgB-K06222	NA	NA
BMS020_03302	906	dmlR_23		HTH-type transcriptional regulator DmlR	ATGAGAGCCACATCCGAGGAGATCGCCATCTTTGTGGCGGTAGTGGAAAGCGGGAGTTTCAGCCGGGCGGCCGAACAGCTGGGTCAGGCCAACTCTGCCGTCAGCCGGGCAGTCAAAAAGCTCGAGTCCAAGCTTGGTGTTAGCCTGCTCAATCGGACCACCCGTCAGCTCAGTCTGACAGAGGAAGGCGAGCGCTATTTTCGCCGGATGCAGGTGGTATTGCAGGAGATGGCGGCGGCAGAAAACGACCTGCTGGAAACGCGCACGACGCCGCGAGGCCTGCTGCGGGTGGATGCCGCGACGCCGGTGATGCTGCATTTTCTCATGCCGCTGGTGAAGCCATTTCGCGAGCGTTACCCGGAAATGACGCTGTCGCTCGTGTCGTCAGAAACATTTATTAATCTGATTGAACGAAAAGTGGATGTGGCTATTCGGGCCGGAACCTTAACCGATTCCAGCCTGCGCGCCCGACCGCTGTTCACCAGCTATCGGAAGATCGTCGCCTCGCCAGAGTATGTTTCGCGCTACGGCGTGCCGCAGCATCCGTCAGATCTGAAACAACATCAATGTCTGGGCTTTACTGAACCCGTCTCTCTGAACACCTGGCCGGTATCCTGTTGCGATGGTCAGTTGTTAGAGATTGAGGCGGCGGTATCATCGAACAGTGGGGAAACGCTCAAGCAACTGTGTCTGACCGGGAACGGTATTGCCTGCCTGTCGGATTATATGGTGGATAAAGAGATAGCCAGTGGGGAGTTTGTTGAACTACTGGCCGACAAACGTTTGCCGGTGGAGATGCCCTTCAGCGCGGTGTACTACAGCGATAGAGCCGTCAGCACACGTATCAGGGCGTTTATTGATTTTCTGAGCGAACACGTAAAACAGCTCCCGAAGGAGCTGTCGTAG	MRATSEEIAIFVAVVESGSFSRAAEQLGQANSAVSRAVKKLESKLGVSLLNRTTRQLSLTEEGERYFRRMQVVLQEMAAAENDLLETRTTPRGLLRVDAATPVMLHFLMPLVKPFRERYPEMTLSLVSSETFINLIERKVDVAIRAGTLTDSSLRARPLFTSYRKIVASPEYVSRYGVPQHPSDLKQHQCLGFTEPVSLNTWPVSCCDGQLLEIEAAVSSNSGETLKQLCLTGNGIACLSDYMVDKEIASGEFVELLADKRLPVEMPFSAVYYSDRAVSTRIRAFIDFLSEHVKQLPKELS				NA	NA	NA	NA	NA
BMS020_03303	1191	ydhP_4	COG2814	Inner membrane transport protein YdhP	ATGCCACTGGCGCTATTTGCCTTAACCATCGGTGCCTTCGCAATTGGCACCACTGAATTCGTGATTGTCGGCCTGGTCCCGACGATTGCCCAACAACTCTCTATTTCGCTGCCGTCGGCAGGCCTGCTGGTTTCTATCTACGCGCTGGGCGTGGCGATCGGCGCCCCGGTGCTGACGGCGTTAACGGGGCGTATGCCGCGTAAACAGCTGCTGCTGGCGTTGATGGTCCTGTTTACGGCGGGTAATGTGCTGGCCTGGCAGGCCCCAGGCTATGAAACGCTGATCCTGGCGCGCCTGCTGACCGGTCTGGCACACGGCGTGTTCTTCTCTATTGGCTCGACAATCGCCACCAGCCTGGTGGCAAAAGAGAAAGCAGCCTCGGCTATCGCCATTATGTTCGGCGGCCTGACGGTCGCGCTGGTAACCGGGGTGCCATTCGGGACTTTCATCGGTCAGCATTTTGGCTGGCGGGAAACGTTCCTCGCGGTATCGATTCTGGGGGTGATTGCGCTTATCAGCAGTCTGATTCTGGTGCCGAATAATATCCCGGGCCGCGCCAGCGCCAGCCTGCGCGATCAGCTGAAAGTCTTAACCCATCCGCGCTTGCTGATGATCTATGCCATTACCGCGCTGGGCTATGGCGGCGTGTTTACCGCCTTTACCTTCCTTGCGCCGATGATGCAGGAGCTGGCCGGCTTCAGCCCGTCAGCCGTGAGCTGGATCCTGCTGGGCTATGGCGTCTCGGTGGCTATTGGCAACGTATGGGGCGGCAAACTGGCTGATAGGCATGGCGCCGTCTCCGCGCTGAAGTTTATCTTCGCCGCGCTGGTTGTGCTGCTGCTGGTGTTCCAGCTGACCGCCAGCATTCACTATGCCGCGCTGGCAACGGTGCTGGTGATGGGCGTTTTCGCCTTCGGCAACGTGCCGGGCCTGCAGGTGTACGTGGTGCAAAAAGCAGAGCAGTACACCCCCGGGGCTGTCGACATCGCATCCGGCCTGAATATTGCCGCCTTCAACGTCGGCATCGCGCTGGGGTCGATCGTCGGCGGACAGACGGTCGAGCGGTACGGTCTGGCGCAGACGCCGTGGATTGGCGCGGTGATTGTGCTGGTCGCTTTGCTGTTGGTGGCCCTGAGCGGACGTTTAGATAAATTGCCACGCCGTTCGGCAGCGCTTTCTCCCGAAGGCTAA	MPLALFALTIGAFAIGTTEFVIVGLVPTIAQQLSISLPSAGLLVSIYALGVAIGAPVLTALTGRMPRKQLLLALMVLFTAGNVLAWQAPGYETLILARLLTGLAHGVFFSIGSTIATSLVAKEKAASAIAIMFGGLTVALVTGVPFGTFIGQHFGWRETFLAVSILGVIALISSLILVPNNIPGRASASLRDQLKVLTHPRLLMIYAITALGYGGVFTAFTFLAPMMQELAGFSPSAVSWILLGYGVSVAIGNVWGGKLADRHGAVSALKFIFAALVVLLLVFQLTASIHYAALATVLVMGVFAFGNVPGLQVYVVQKAEQYTPGAVDIASGLNIAAFNVGIALGSIVGGQTVERYGLAQTPWIGAVIVLVALLLVALSGRLDKLPRRSAALSPEG	PGPT0028991_2274	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
BMS020_03304	807			hypothetical protein	ATGCCCAAATTGCGAAAGAACACCTACGCCATGCGCTATGTCGCCGGACAACCTGCGGAGAGAATATTGCCTCCGGGGGCGTTTGCGGGCGTGAGTCCGGTTTATCCCGCCGGCACACCGTTGAGCAGCGATGAGAAAATCCGCGTGCTGGTGTGGAATATCTTCAAACAGCAGCGCGCAGAGTGGCAGTCGGTCCTTAAGAATTTTGGCAAAGACGCGCACTTAGTCCTGTTGCAGGAGGCGCAGACGACGCCGGAGCTGGTCAGGTTCGCGACCACCAACTATCTGGCCGCCGATCAGGTGCCTGCGCTGGTGCTGCCGCAGCATCCTTCCGGCGTGATGACGCTGGCTTCCGCCCATCCTATCTATTGCTGCCCATTGCGCGAACGTGAACCTATTTTGCGTCTGCCTAAATCAGCATTAGTGACTGTCTATCCGCTGCCCGATGCGCGGCTGTTAATGGTGGTCAATATCCATGCCGTTAACTTCAGCCTTGGCGTCGACGTCTACAGCAAACAGCTGCTGCCGATTGGCGATCAGATCGCCCATCACAGCGGGCCGGTGATCATGGCCGGCGACTTCAATGCCTGGAGCCGCCCGCGGATGAACGCCCTGTACCGCTTTGCACGCGAGATGTCGCTGCGTGAAGTTCGTTTCCCGGACGATCAGCGCCGCCGCGCGTTTGGTCGCCCGCTCGATTTTGTGTTCTACCGTGGGTTAAGCGTGCACGATGCTTCCGTGCTGGTAACTCGCGCCTCCGACCACAACCCGCTACTAGTCGAATTCAGTCCCGGCAAGCCTGATTAA	MPKLRKNTYAMRYVAGQPAERILPPGAFAGVSPVYPAGTPLSSDEKIRVLVWNIFKQQRAEWQSVLKNFGKDAHLVLLQEAQTTPELVRFATTNYLAADQVPALVLPQHPSGVMTLASAHPIYCCPLREREPILRLPKSALVTVYPLPDARLLMVVNIHAVNFSLGVDVYSKQLLPIGDQIAHHSGPVIMAGDFNAWSRPRMNALYRFAREMSLREVRFPDDQRRRAFGRPLDFVFYRGLSVHDASVLVTRASDHNPLLVEFSPGKPD				NA	NA	NA	NA	NA
BMS020_03305	771	ycgJ_1		putative methyltransferase YcgJ	ATGACAACACGCTCTCACCATGACAACGTCGAAAAGCAGTTCGGCTCCCAGGCCAGCGCCTATCTGACCAGCGCCGTGCACGCCTCTGGTCGCGATCTGCAGCGGCTGGCGGAACGACTGGCTGATTTTCCTCAGGCGAAAGTGCTGGATATGGGCTGCGGGGCAGGGCACGCCAGCTTTACCGCGGCGGGACAGGTTGCCGAGGTGACCGCCTATGATTTATCGAGCCAGATGCTGGAGGTCGTTGCCGCCGCGGCAAAGGAGAAAGGTTTTAGCAATATCGTGACCCAGCAGGGGTATGCCGAAACGCTGCCGTTCGCTGATGCCAGCTTTGATATCGTTATCAGCCGCTATTCTGCTCATCACTGGCATGACGTTGGCCAGGCGCTGCGCGAGGTGAAACGTGTCCTCAAGCCGGGTGGGGTGATGATCGTGATGGACGTGATGTCGCCGGGCCATGTGGTGCGTGATGTCTGGCTGCAGACGGTGGAAGCTCTGCGCGATACCTCGCACGTGCGTAATTATTCCAGCGGCGAGTGGCTGACGCTGGCGACGGAGGCGGGGCTGGTGATTAATCAACTGTTGACCGATCGCCTGCCGCTGGAGTTCAGTTCGTGGGTGGCGCGGATGCGTACCCCTGAGCCGCTGGTGGAGGCGATTCGTTTATACCAGCAGAGCGCCTCGGCGGAGGTGAAAGCCTACTTTGAGTTACAGCAGGATGGTTCCTTTACCAGCGATACCATCATGTTTGAAGCGCATAAAGCGGTTTAA	MTTRSHHDNVEKQFGSQASAYLTSAVHASGRDLQRLAERLADFPQAKVLDMGCGAGHASFTAAGQVAEVTAYDLSSQMLEVVAAAAKEKGFSNIVTQQGYAETLPFADASFDIVISRYSAHHWHDVGQALREVKRVLKPGGVMIVMDVMSPGHVVRDVWLQTVEALRDTSHVRNYSSGEWLTLATEAGLVINQLLTDRLPLEFSSWVARMRTPEPLVEAIRLYQQSASAEVKAYFELQQDGSFTSDTIMFEAHKAV				NA	NA	NA	NA	NA
BMS020_03306	1155	mltD	COG0741	Membrane-bound lytic murein transglycosylase D	ATGGGAATACCGGATAACCCCCGGATTCGCGAGCAAAAACAGAAGTACTTAAGAAATAAGAGCTATCTCCACGATGTAACTTTACGGGCAGAGCCGTATATGTACTGGATAGCCGGGCAGGTTAAGAAACGTAACATGCCAATGGAACTGGTATTACTACCCATAGTGGAGAGCGCTTTTGACCCACACGCGACGTCTGGCGCCAATGCCGCAGGCATCTGGCAGATCATTCCGAGCACAGGGCGCAATTATGGTTTAAAACAGACCCGCAGTTACGATGCGCGTCGTGACGTTGTCGCATCGACTACCGCGGCGCTGGACATGATGCAACGTCTGAACAAAATGTTCGACGGCGACTGGTTGTTAACGGTCGCGGCATATAACAGCGGCGAAGGTCGGGTCATGAAGGCAGTGAAAGCGAACCGTTCGCGTGGCAAACCCACCGATTTCTGGTCGCTGTCTCTGCCGCATGAAACGAAAGTCTACGTACCGAAAATGCTGGCATTGAGCGACATCCTCAAAAACAGCAAACGTTACGGCGTAAAGTTGCCTACGGCTGATGAAAGCCGTGCGCTGGCGCGCGTTCGCCTCGACAGTCCGGTTGATATTTCTCAGCTCGCGGATATGGCCGGTATGCCGGTCAGCAAGCTGAAGACCTTCAACGCCGGCGTAAAGGGGTCAACGCTGGGCGCTAGCGGGCCAAAGTACGTCATGGTGCCGCAGAAACACGCAGCCCAGTTGCGTGAATCGCTGGCCTCTGGCGACATTGCCGCCGTACAGCCGACGCAGCTCGCGGATAATACGCCGCTGACCAGCCGAAGCTATAAGGTGCGTTCCGGCGATACCATTTCCGGGATTGCTTCCCGTCTCGGCGTCACGACCCGCGATCTGCAGCAGTGGAATAACCTGCGCGGCTCTGGATTGAAGGTTGGACAGAACCTGGTTATCGGCGCCGGCAGCAGCGCGCAGCGTCTGGCGAATAACAGCGATAGCATCACCTATCGCGTTCGCAAAGGTGATTCGCTGTCGAGCATCGCCAAACGTCATGGCGTTAATATTCGCGACGTCATGCGCTGGAACAGCGATACCGACAATCTGCGGCCTGGCGATCAGCTAACGCTATTTGTGAAAAACAGCGATCGACCAGAGTCCTGA	MGIPDNPRIREQKQKYLRNKSYLHDVTLRAEPYMYWIAGQVKKRNMPMELVLLPIVESAFDPHATSGANAAGIWQIIPSTGRNYGLKQTRSYDARRDVVASTTAALDMMQRLNKMFDGDWLLTVAAYNSGEGRVMKAVKANRSRGKPTDFWSLSLPHETKVYVPKMLALSDILKNSKRYGVKLPTADESRALARVRLDSPVDISQLADMAGMPVSKLKTFNAGVKGSTLGASGPKYVMVPQKHAAQLRESLASGDIAAVQPTQLADNTPLTSRSYKVRSGDTISGIASRLGVTTRDLQQWNNLRGSGLKVGQNLVIGAGSSAQRLANNSDSITYRVRKGDSLSSIAKRHGVNIRDVMRWNSDTDNLRPGDQLTLFVKNSDRPES	PGPT0023795_1586	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023795-mltD|dniR-K08307	NA	NA
BMS020_03307	756	gloB_1	COG0491	Hydroxyacylglutathione hydrolase	ATGAATCTTATCAGTATTCCCGCGTTTCAGGACAACTACATCTGGGTTCTCACTGAGAATCACGGCCGCTGCATCATCGTTGACCCGGGCGAGGCCGCGCCGGTTCTGGCGGCAATCGAGGAAAACCAGTGGCAGCCCGAGGCCATTTTACTGACCCATCACCATCAGGATCACGTCGGCGGCGTAAAACAATTACGTGAAAAATTCCCCTCTCTGGTGGTTTACGGGCCGGTAGAAACCCAGGATAAGGGGGTTACTCAGGTAGTAGACGATGGCGATCGGCTGTCAATTCTCGGGGTCGATTTTTCCATTTTCTCCACGCCAGGTCACACATTAGGACATATCTGTTACTACAGCGAACCTTATCTGTTTTGCGGCGACACGATGTTCTCCGGCGGCTGCGGAAAGCTGTTCGAAGGCACTGCAGAGCAGATGTATCAATCATTTATGAAGATTAACGCCCTTCCTGAAGAAACCCTTATATGTTGCGCACATGAATATACGTTAGCGAATATGAAGTTTGCGTTGAGTATCCTGCCTGATGATAGGGACATAAACGATTACTATCATAAAGTTAATGAGTTACGTGCAAAAAAACAAAAGACACTACCCGTAATTCTGAAAAACGAGCGGCGTATAAATTTATTTTTACGGGTAAATGATGTTGATTTAATTGACAAAATTAACAAAGAAACAAAATTGCAACACTCTGTGGCGCGATTTGCGTGGTTAAGGTCAAAGAAAGACGAATTCTGA	MNLISIPAFQDNYIWVLTENHGRCIIVDPGEAAPVLAAIEENQWQPEAILLTHHHQDHVGGVKQLREKFPSLVVYGPVETQDKGVTQVVDDGDRLSILGVDFSIFSTPGHTLGHICYYSEPYLFCGDTMFSGGCGKLFEGTAEQMYQSFMKINALPEETLICCAHEYTLANMKFALSILPDDRDINDYYHKVNELRAKKQKTLPVILKNERRINLFLRVNDVDLIDKINKETKLQHSVARFAWLRSKKDEF	PGPT0001770_4047	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
BMS020_03308	669			hypothetical protein	ATGCCGTGGGGCGAATACTATCGCGAAACGCTGGAGCAGCAGATGAAGCCGTGGCTGGCTAAATTATATGGCTTTCATCTGCTTAAGATTGGCAATCTGAGCGCGGAAATCAATACCGAAGCTTGCGCCATCTCGCACCAGGTGAATGTCTCGCTGGCGGGAAACCCAATGCAGGTCCGGGCCGACCCGCTGCATTTGCCCTTTGCCGAAAAGTCCGTCGACGCCTGCCTGCTGGCGCATACCCTGCCGTGGTGCAGCGATCCGCATCGCCTGCTACGGGAGGCCGATCGCGTCCTGATCGATGATGGCTGGATGATCCTGACCGGGTTTAATCCTGTCAGCCTGATGGGGTTGCGTAAGCTGGTGCCGGTGCTGCGCAAAGGCACGCCGTACAACAGCCGTATGTTTACGTTGATGCGCCAGCTGGACTGGCTGTCGCTGCTCAACTTTGAAGTGCTGCATTATGGGCGTTATCAGGTTTTACCCTGGTCGCGGCATGGCGGCAAACTGCTGAGCACCCATCTGCCAGCGCTGGGCTGTTTGCAATTAATTGTCGCCCGCAAACGGACTATTCCGCTCACCCTTAATCCGATGAAGTCAGGGAAAGCGAAAACCCAGCTACGGCCGGCAGTCGGCGCCACCCGGCAGTGGCGCAAGGGGCAGAATTAG	MPWGEYYRETLEQQMKPWLAKLYGFHLLKIGNLSAEINTEACAISHQVNVSLAGNPMQVRADPLHLPFAEKSVDACLLAHTLPWCSDPHRLLREADRVLIDDGWMILTGFNPVSLMGLRKLVPVLRKGTPYNSRMFTLMRQLDWLSLLNFEVLHYGRYQVLPWSRHGGKLLSTHLPALGCLQLIVARKRTIPLTLNPMKSGKAKTQLRPAVGATRQWRKGQN				NA	NA	NA	NA	NA
BMS020_03309	468	rnhA_1	COG0328	Ribonuclease HI	ATGCTCAAACAGGTAGAAATTTTCACCGACGGCTCTTGCCTGGGAAATCCAGGACCCGGCGGTTACGGCGCCATTATGCGCTACCGCCAGCACGAAAAAACCTTTAGCGCCGGCTACCGTCTGACCACCAATAACCGCATGGAACTGATGGCGGCGATCGTCGCCCTCGAAGCGTTAAAAGAGCATTGCGAGGTGGTGCTCAGCACCGACAGCCAGTATGTCCGCCAGGGGATCACCCAGTGGATCCACAACTGGAAAAAGCGCGGCTGGAAAACGGCAGAGAAAAAACCGGTAAAGAATGTCGACCTCTGGCAGAGGCTGGACGCCGCGCTTGGCCAGCATAAGATCAAATGGGAGTGGGTGAAGGGCCACGCCGGCCATCCAGAAAACGAACGCTGCGACGAGCTGGCCCGCGCGGCGGCCTCCCATCCCACTCAGGACGACATCGGCTACCAGCCGGAGAGCTAA	MLKQVEIFTDGSCLGNPGPGGYGAIMRYRQHEKTFSAGYRLTTNNRMELMAAIVALEALKEHCEVVLSTDSQYVRQGITQWIHNWKKRGWKTAEKKPVKNVDLWQRLDAALGQHKIKWEWVKGHAGHPENERCDELARAAASHPTQDDIGYQPES	PGPT0017445_20	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_RIBOSE_METABOLISM|DEGRADATION,PGPT0017445-deoC-K01619	NA	NA
BMS020_03310	741	dnaQ_1	COG0847	DNA polymerase III subunit epsilon	ATGACCGCGATGAGCACTGCAATTACGCGCCAGATTGTTCTCGATACCGAAACCACCGGTATGAACCAGATCGGGGCGCACTACGAAGGACATAAGATCATTGAGATCGGCGCCGTGGAGGTGATTAACCGCCGCCTGACCGGTAACAATTTCCACGTCTATCTCAAGCCCGATCGGCTGGTGGATCCGGAGGCGTTCGGCGTGCACGGGATCGCCGACGAATTCCTGCTGGATAAACCCACCTTTGCCGACGTGGCCGATGAATTTATGGATTACATCCGCGGCGCGGAGCTGGTGATCCATAACGCCTCGTTCGATATCGGTTTTATGGATTATGAGTTCGGTAAGCTGAACCGCGGGATCGGGAAAACCGAGACCTTCTGTAAAATCACCGACAGTCTGGCGCTGGCGCGGAAAATGTTTCCCGGCAAGCGCAACAGTCTGGATGCGCTATGTTCGCGCTACGAAATAGACAACAGCAAGCGTACGCTGCACGGGGCACTGCTCGATGCCCAGATCCTTGCCGATGTCTATCTGATGATGACCGGCGGCCAGACGTCGATGGCGTTCTCTATGGAAGGCGAAAGCCAGCAGCAGGCAGGCGAGATGGGGATTCAGCGCGTCGTTCGCGCCGCCAGCCAGTTACGGGTGGTTTATGCCTCTGATGAAGAGCTGGTGAACCATGAATCCCGCCTCGATCTGGTGCAAAAGAAAGGCGGAAGCTGCCTGTGGCGTGCCTGA	MTAMSTAITRQIVLDTETTGMNQIGAHYEGHKIIEIGAVEVINRRLTGNNFHVYLKPDRLVDPEAFGVHGIADEFLLDKPTFADVADEFMDYIRGAELVIHNASFDIGFMDYEFGKLNRGIGKTETFCKITDSLALARKMFPGKRNSLDALCSRYEIDNSKRTLHGALLDAQILADVYLMMTGGQTSMAFSMEGESQQQAGEMGIQRVVRAASQLRVVYASDEELVNHESRLDLVQKKGGSCLWRA				NA	NA	NA	NA	NA
BMS020_03312	132			hypothetical protein	ATGGTCGAGCTACCGTTCAGCGAGACGCCGCTGACGATCCATGCGCTCTGCGCCCACCACGCCGGGAAGGCAATCAGTCCGGCAATGCGGGTATTCATGCAGTGTATGCAGGAGGAACAAGAGGCGCGCTGA	MVELPFSETPLTIHALCAHHAGKAISPAMRVFMQCMQEEQEAR				NA	NA	NA	NA	NA
BMS020_03313	1101	ydiK_2	COG0628	Putative transport protein YdiK	ATGGATAATAATAATCTTCAGTTAATAGAAAAACGGCTGGTCACCCGCTTTCTCGATATGTTTATTCGGTTCAGTCTTATTCTGGCGCTGGCCTCATTCTGTTTTACCGTCTTTTCTCCCTTCGTCAATATGATGCTCTGGGCGTTGATTCTGGCCGTGGCGCTCTATCCTTTACATCAATATTTTGCCGGGCTTTTCGCCGGTAAACAGGGGCTGGCGTCGGTGGTGCTGGTGCTGTTAGGTATTTTACTGATTATTATCCCCACGGTGCTGATGATCACCTCGCTGGCGGAAAGCGCCAGCGCGATGATCGACCGAATGGGCAGCCAGAGCTTTACCATTCCCCCACCCTCTTCACGAATTGCCTCTTTACCGATCGTTGGCGAACGGCTTAGCGCTCTGTGGATGCGGGCATCCGTGGATCTGCCAGGATTGCTCAGCAATTACCGTTCGCAAATTGGCGATATTGCCAAACAGTTGCTCAGCATATTAGCCAGCATGGGCGGCGGGCTGATTGGCTTTATTATTTCGTTTATCGTCTCGGGCATTATGATGGCCTGGGGCGCGGCGGGCGCCATCAGCGCGCAGCGTATTGCCATCCGTATTACCGATGAGAATAAAGGCGTGACCCTAACCCGCCTGTGCACCAGCACCATCCGCGCGGTCGCCCAGGGCGTCATCGGGGTGGCACTGATCCAGGCGCTGCTGGTCGGCGTGATCATGCTGATGGCCAGCATCCCCGCCGTCGGGATCTTCTTTATACTTGCCCTGATCCTCGGCATTGCACAGGTGCCGGTGATCCTGGTGACGGCCCCGGCCATCGCGCTGATGTGGAGTCTCGGCACCCACAGTACCGGAATGGATATCTTCTACACTGTCCTGCTGATCGTCGCCGGTATGGCCGATAACGTCCTCAAACCACTGCTGCTGGGGCGCGGAGTCGATGCGCCAATGCCGGTGGTGCTGCTGGGCGCCCTCGGCGGAATGGCCTCTAACGGCATTCTCGGTATGTTCCTCGGCGCCACCCTGCTGGCCATCGGTTACCGGATCTTTATGACCTGGGTAAATGAAGGGCAACCCGCCCTGCCGCAGGATAAATAA	MDNNNLQLIEKRLVTRFLDMFIRFSLILALASFCFTVFSPFVNMMLWALILAVALYPLHQYFAGLFAGKQGLASVVLVLLGILLIIIPTVLMITSLAESASAMIDRMGSQSFTIPPPSSRIASLPIVGERLSALWMRASVDLPGLLSNYRSQIGDIAKQLLSILASMGGGLIGFIISFIVSGIMMAWGAAGAISAQRIAIRITDENKGVTLTRLCTSTIRAVAQGVIGVALIQALLVGVIMLMASIPAVGIFFILALILGIAQVPVILVTAPAIALMWSLGTHSTGMDIFYTVLLIVAGMADNVLKPLLLGRGVDAPMPVVLLGALGGMASNGILGMFLGATLLAIGYRIFMTWVNEGQPALPQDK				NA	NA	NA	NA	NA
BMS020_03314	771	yafV_1		Omega-amidase YafV	GTGCCTGGCCTGAAAATTACGCTGTTGCAACAACCGCTGGTCTGGATGGACGGCCCTGCTAACCTGCGCCATTTTGATCGCCAACTGGAAGGGATTGTCGGGCGCGATATCATTGTTTTACCTGAGATGTTTACCACCGGCTTTGCGATGGAAGCGGCAAAACAATCTTTACCCGAGGCCGAGGTGGTAGCGTGGATGCATGCCCGGGCGGCGCAAACCCAGGCGCTGATCGCCGGCAGCGCGGCGCTGCAAACTGAGCGCGGGGCCGTTAACCGCTTCCTGCTGGTCGAGCCTGACGGCACGGTCCATCATTATGATAAACGTCACCTGTTTCGTATGGCGGATGAACACCATCACTATGAGGCCGGAGACAAGCGCGTGGTCTTTGAATGGCGCGGATGGCGGATCCTGCCGCTGGTCTGTTACGACCTGCGCTTTCCGGTATGGTCGCGTAACCTTAACGACTATGATTTGGCGCTGTATGTGGCGAACTGGCCGGCGCCGCGCTCGCTGCACTGGCAGTCGCTGCTGGTCGCCCGCGCGATTGAGAACCAGGCCTACGTCGCCGGCTGTAACCGGGTCGGCACCGACGGCAACGGTCATCATTACCGCGGTGATAGCCGGATTATCAGTCCCCAGGGGGAGATTGTCGCCACCGCCGATCCGCATCAGGCCACTCGTCTTGACGCCGAACTGTCGCTGAGCGCCCTCCAGGAATATCGTGAAAAATTCCCCGCCTGGCGCGATGCCGATCCTTTTACTCTGGATTAA	MPGLKITLLQQPLVWMDGPANLRHFDRQLEGIVGRDIIVLPEMFTTGFAMEAAKQSLPEAEVVAWMHARAAQTQALIAGSAALQTERGAVNRFLLVEPDGTVHHYDKRHLFRMADEHHHYEAGDKRVVFEWRGWRILPLVCYDLRFPVWSRNLNDYDLALYVANWPAPRSLHWQSLLVARAIENQAYVAGCNRVGTDGNGHHYRGDSRIISPQGEIVATADPHQATRLDAELSLSALQEYREKFPAWRDADPFTLD				NA	NA	NA	NA	NA
BMS020_03315	2445	fadE_1	COG1960	Acyl-coenzyme A dehydrogenase	ATGATGATTTTGAGTATTGTTGCAACCGTTGTTTTACTCGGTGCGCTCTTCTATCACCGGGTCAGCCTGCTGCTCAGCAGCGTGATCTTGCTCGCCTGGACCGCAGCGCTCGGCGCGGCCGGTCTGTGGAATATCTGGCTGCTGCTGCCGCTGGCGATCATTCTGTTGCCGTTTAACTTTGCGCCTATGCGTAAATCCATGATTTCCGCACCGGCGTTTCGCGCCTTCCGCAAGGTCATGCCGCCGATGTCGCGTACCGAAAAAGAGGCCATCGACGCCGGGACCACCTGGTGGGAGGGGGATCTGTTTCGCGGTAATCCTGACTGGCATAAGCTGCATAACTATCCGCAGCCGCGTCTGACCGCCGAAGAGCAAGCCTTCCTCGACGGCCCGGTGGAAGAAGCCTGCCGGATGGCTAACGACTTCGCCATCACCCACGAAATGGCCGATCTGCCGCCGGAGCTGTGGGCGTATCTGAAAGAACACCGCTTCTTCGCGATGATCATCAAGAAAGAGTATGGCGGGCTTGAATTCTCCGCTTATGCCCAGTCGCGGGTGCTGCAGAAGCTCTCTGGCGTCTCCGGCATTCTGGCGATCACCGTCGGCGTCCCGAACTCACTGGGCCCGGGCGAGCTGCTGCAGCATTACGGTACTGAAGAGCAGAAAAACCATTACCTGCCGCGTCTGGCGCGCGGGCTGGAGATCCCCTGCTTCGCACTCACCAGCCCGGAAGCGGGCTCCGACGCCGGCGCCATCCCGGATACCGGCGTGGTCTGCATGGGCGACTGGCAGGGCCAGCAGGTGCTGGGTATGCGCCTGACATGGAACAAACGCTACATTACGCTGGCGCCTATCGCCACCGTGCTGGGATTGGCCTTTAAACTTTCTGACCCGGATCGTCTGCTGGGCGGGGAAGAAGAGCTGGGCATCACCTGCGCGCTGATCCCGACCTCCACTCCGGGCGTGGAAATTGGCCGTCGCCACTTCCCGCTTAACGTCCCGTTCCAGAACGGCCCAACCCGCGGCAAAGATATCTTCGTGCCGATCGATTACATCATCGGTGGGCCGGGGATGGCCGGTCAGGGTTGGCGCATGCTGGTTGAATGTCTGTCGGTGGGCCGCGGTATTACGCTGCCGTCCAACTCCACCGGCGGCCTGAAATCGGTGGCTATGGCGACCGGGGCTTACGCCCATATTCGCCGCCAGTTCAAAATCTCGATCGGTAAAATGGAAGGCATTGAAGAGGCGCTGGCGCGCATTGCCGGTAATGCTTATGTGATGGATGCTGCGGCGTCGCTGATCACCTACGGCATTATGCTCGGCGAGAAACCGGCGGTGCTCTCCGCGATCGTGAAATATCACTGCACCCACCGCGGCCAGCGCTCCATTATCGACGCAATGGATATTACCGGCGGGAAAGGCATTATGCTGGGCGAAGGCAACTTCCTCGCCCGGGCATATCAGGGCGCGCCTATCGCCATCACCGTGGAAGGTGCGAATATTCTGACCCGTAGCATGATGATCTTCGGTCAGGGTGCGATTCGCTGTCATCCGTACGTGCTGGAGGAGATGGCTGCCGCGCAGAACAACGACCTGAACGCCTATGACAAGCTGCTGTTCAAACATATCGGCCATGTCGGCAGTAACAAAGTACGGAGTTTCTGGTTGGGCCTGACCGGCGGACGCACCAGCAGCGCGCCGACCCGCGACGTCACCCGCCGCTACTATCAGCAAATGAACCGTCTGAGCGCTAACCTGGCGCTGCTGTCAGACGTCTCGATGGCGGTGCTGGGGGGCAGTCTCAAGCGTCGCGAACGTATCTCCGCGCGTCTGGGGGATGTGTTAAGCCAGCTGTACCTGGCCTCGGCGGTGCTGAAACGCTATGACGATGAAGGACGCAATGAAGCCGATCTGCCGCTGGTTCACTGGGGGGTGCAAGATGCGCTGCATCAGGCCGAGCAGGCCATCGACGATCTGCTGAAAAACTTCCCCAATCGTCTGGTGGCTGGCGCAATGCGCCTGGTCATCTTCCCGACCGGTCGTCATCATCATGCGCCGTCGGATAAGCTGGACCATAAAGTCGCTAAAATTCTGCAGGTGCCCAGCGCCACCCGCTCCCGCATCGGTCGCGGTCAGTACCTGACGCCGAGCGAGCATAACCCGGTCGGCCTGCTGGAAGAGGCGCTGCTGGAAGTGATGGCGGCCGATCCTATCCACCAGCGTATCTGCAAAGAGTTGGGTAAAAATCTGCCGTTCACCCGTCTCGACGAACTGGCCGCCCATGCCCTGGCGAAAGGCTTAATCAGTCAGGATGAAGCCGCCATTTTGACCCGAGCAGAGCACAGTCGCTTGCGCAGCATTAACGTTGACGACTTTGCGCCAGAGGAGCTGGCTACCCAGCCGGTAAAGCTGCCGGAAAAAGTTCGCAACGTTGAAGCCGCATAA	MMILSIVATVVLLGALFYHRVSLLLSSVILLAWTAALGAAGLWNIWLLLPLAIILLPFNFAPMRKSMISAPAFRAFRKVMPPMSRTEKEAIDAGTTWWEGDLFRGNPDWHKLHNYPQPRLTAEEQAFLDGPVEEACRMANDFAITHEMADLPPELWAYLKEHRFFAMIIKKEYGGLEFSAYAQSRVLQKLSGVSGILAITVGVPNSLGPGELLQHYGTEEQKNHYLPRLARGLEIPCFALTSPEAGSDAGAIPDTGVVCMGDWQGQQVLGMRLTWNKRYITLAPIATVLGLAFKLSDPDRLLGGEEELGITCALIPTSTPGVEIGRRHFPLNVPFQNGPTRGKDIFVPIDYIIGGPGMAGQGWRMLVECLSVGRGITLPSNSTGGLKSVAMATGAYAHIRRQFKISIGKMEGIEEALARIAGNAYVMDAAASLITYGIMLGEKPAVLSAIVKYHCTHRGQRSIIDAMDITGGKGIMLGEGNFLARAYQGAPIAITVEGANILTRSMMIFGQGAIRCHPYVLEEMAAAQNNDLNAYDKLLFKHIGHVGSNKVRSFWLGLTGGRTSSAPTRDVTRRYYQQMNRLSANLALLSDVSMAVLGGSLKRRERISARLGDVLSQLYLASAVLKRYDDEGRNEADLPLVHWGVQDALHQAEQAIDDLLKNFPNRLVAGAMRLVIFPTGRHHHAPSDKLDHKVAKILQVPSATRSRIGRGQYLTPSEHNPVGLLEEALLEVMAADPIHQRICKELGKNLPFTRLDELAAHALAKGLISQDEAAILTRAEHSRLRSINVDDFAPEELATQPVKLPEKVRNVEAA	PGPT0021800_916	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021800-fadE-K06445	NA	NA
BMS020_03316	582	gmhA	COG0279	Phosphoheptose isomerase	ATGTACCAGGATCTTATTCGTAACGAACTGAACGAAGCCGCGGAAACGCTGGCTAACTTTCTGCAGGACGAAGCCAATATCCATGCTATCCAGCGTGCCGCTGTCCTGCTGGCGGATAGCTTTAAGGCGGGTGGTAAAGTGCTGTCCTGCGGCAACGGCGGTTCCCATTGCGATGCGATGCATTTTGCGGAAGAACTGACCGGACGTTATCGCGAAAACCGCCCGGGATATCCGGCCATTGCGATCTCCGACGTCAGCCATCTCTCCTGCGTGAGCAATGATTTTGGCTATGAGTATGTCTTCTCCCGCTACGTTGAATCCGTCGGCCGCGCGGGCGATGTGCTGCTCGGCATCTCCACCTCCGGCAACTCCGGCAACGTAATCAAGGCCATTGAGGCCGCGCGGGCGCAGGGGATGAAAGTGATCACCCTGACCGGTAAGGACGGCGGTAAAATGGCCGGTAGCGCCGATGTGGAAATTCGCGTGCCGCACTTTGGCTACGCCGACCGCATTCAGGAGATCCACATCAAAGTGATCCATATCCTGATTATGCTGATCGAAAAAGAGATGGCGAAAGGCTAA	MYQDLIRNELNEAAETLANFLQDEANIHAIQRAAVLLADSFKAGGKVLSCGNGGSHCDAMHFAEELTGRYRENRPGYPAIAISDVSHLSCVSNDFGYEYVFSRYVESVGRAGDVLLGISTSGNSGNVIKAIEAARAQGMKVITLTGKDGGKMAGSADVEIRVPHFGYADRIQEIHIKVIHILIMLIEKEMAKG	PGPT0023030_1603	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-MANNO-HEPTOSE|-PHOSPHATE_MODIFICATION,PGPT0023030-gmhA|lpcA-K03271	NA	NA
BMS020_03317	768	yafJ	COG0121	Putative glutamine amidotransferase YafJ	ATGTGCGAACTGCTCGGGATGAGCGCCAATGTGCCAACAGATATCTGTTTTAGCTTTACCGGGCTGGTACAGCGCGGAGGCGGGACGGGGCCGCATAAAGACGGCTGGGGCATCACCTTCTATGAAGGCAAAGGTTGTCGCACATTCAAAGATCCGCAGCCGAGCTTTCAGTCGCCGATCGCGAAACTGGTCCAGGATTACCCCATTAAGTCCTGTTCCGTCGTCGCGCATATCCGCCAGGCCAATCGCGGGATGGTGGCCCTGGAGAATACGCATCCGTTCACCCGCGAGCTGTGGGGGCGTAACTGGACCTACGCGCACAACGGGCAGCTCAAAGGCTATAAATCGCTGAAAACCGGCAATTTCCACCCGGTAGGTGAAACCGACAGTGAAAAGGCCTTCTGCTGGCTGCTGCACCGCTTAACCGAGCGCTACCCGCGTACGCCGGGCAATATGCTGGGAGTATTTAAGTATATCGCCACCCTGGCGGGGGAACTGCGTGAGAAAGGGGTGTTCAACATGCTGCTGTCGGACGGACGCTATGTGATGGCGTTCTGCTCGACCAACCTGCACTGGATCACCCGGCGGGCGCCGTTCGGCGTGGCAAAACTGCTGGACCAGGATGTGGAGATCGACTTTCAACGCGAGACCACACCCAACGATGTGGTCACAGTTATCGCCACGCAGCCGCTGACGGCCAATGAGACCTGGCATAAGATCATGCCAGGCGAGTGGGCGTTATTTTGTCTCGGGGAGCGTATAGTTTGA	MCELLGMSANVPTDICFSFTGLVQRGGGTGPHKDGWGITFYEGKGCRTFKDPQPSFQSPIAKLVQDYPIKSCSVVAHIRQANRGMVALENTHPFTRELWGRNWTYAHNGQLKGYKSLKTGNFHPVGETDSEKAFCWLLHRLTERYPRTPGNMLGVFKYIATLAGELREKGVFNMLLSDGRYVMAFCSTNLHWITRRAPFGVAKLLDQDVEIDFQRETTPNDVVTVIATQPLTANETWHKIMPGEWALFCLGERIV				NA	NA	NA	NA	NA
BMS020_03318	741			hypothetical protein	ATGCGCAAAATCGCATTATTTATTGCGATGCTTCTGCTGCCGTGCATGTCATTTGCCGGGCTGCTCAGCAGCAACAGCCCGACGACGCCGGTTAGCAAAGAATATAAGCAGCAATTAATGGGTTCACCGGTTTACATTGAGATCTTTAAAGAAGAGCGCATGCTCGACCTTTACGTCAAAATGGGTGAGACCTACCAGCTCCTCGACAGCTATCGGATCTGCAACTACTCCGGTGGCCTGGGCCCGAAACAGCGCCAGGGCGATTTCAAGAGCCCGGAAGGGTTCTATAACGTCACCCGCAGCCAGCTCAAACCCGACAGCCGCTTCTATAAAGCGATCAATATCGGCTTCCCGAACGCCTACGATCGCGCCCATGGTTATGAAGGGAAATACCTGATGATCCACGGCGACTGCGTCTCTGTCGGCTGCTACGCCATGACCGACAGCGGGATCGATGAGATCTTCCAGTTCGTGACCGGCGCCTTAGTCTTCGGTCAGCCAAGCGTGCAGGTGAGTATCTATCCGTTCCGCATGACCAACGCCAATATGGAACGCCACAAATACTCCTACTATGCGGATTTCTGGAAACAGCTGAAGCCTGGCTATGATTATTTCCAGCAAACCCACAAACCGCCGGTCGTATCAGTGACCGACGGCCGCTATGTGGTGAGCAAGCCGCTCAGCCACGAGGTTGTCCAGCCGCAGCTGGCCTCAAACTATACGCTCCCCGAGACAAAATAA	MRKIALFIAMLLLPCMSFAGLLSSNSPTTPVSKEYKQQLMGSPVYIEIFKEERMLDLYVKMGETYQLLDSYRICNYSGGLGPKQRQGDFKSPEGFYNVTRSQLKPDSRFYKAINIGFPNAYDRAHGYEGKYLMIHGDCVSVGCYAMTDSGIDEIFQFVTGALVFGQPSVQVSIYPFRMTNANMERHKYSYYADFWKQLKPGYDYFQQTHKPPVVSVTDGRYVVSKPLSHEVVQPQLASNYTLPETK				NA	NA	NA	NA	NA
BMS020_03319	1344	nqrA	COG1726	Na(+)-translocating NADH-quinone reductase subunit A	ATGATTAAAATCACAAAAGGGCTGGATTTGCCCATAGCTGGCATGCCATTACAGCAGATTTCTCCCGCGCCAGCGGTGAAGCGCGTCGCGCTACTCGGCGAAGAGTACGTCGGCATGCGTCCCGCCATGGCGGTCAAAGAAGGCGATCGGGTCAAAAAAGGTCAGATCCTGTTCGAAGATAAAAAGAACCCCGGCGTCTGCTTTACCGCCCCGGCGAGCGGGGTCGTCAGCGCGATCCACCGCGGTGAACGGCGCGTGTTGCAGTCGGTGGTGATTGATATCGAGGGCAATGACGCGGTGGCGTTTACGCGTTACGCCGCGGACGCGCTGGCTGAACTGCCGCGCGACACCGTGCAGCAGCAGCTGCTGGCGTCGGGCCAGTGGACCGCGCTGCGCACACGGCCATTCAGTAAAACGCCGCTCCCGGGCAGCGTGCCGGCCGCCATCTTTGTCAACGCCATGGATACCAATCCGCTGGCGGCGGAGCCGCAGCCGATTATTCTGGCCGAACGGGCCGCTTTCGACGCTGGCCTTACCGTGCTTACGCGTCTGACCGACGGGAAAGTCCACGTCTGCCAGCCCAGCGGCGGCAAGCTCGGCGGTCATCCTGTCGGCCAGGTCAGTTTTAACCAGTTCAGCGGGCCGCACCCGGCGGGGCTGCCGGGAACGCATATTCATTTCCTCGAGCCGGTGAGCCTGAATAAGCAGGTCTGGCACCTCAATTATCAGGACGCGATCGCCATTGGTAAGCTTTTCCTCGACGGGGAGCTCTACTGCGAACGGGTGATCGCGCTCGGCGGCCCGCAGGTGATATCGCCGCGACTGGTCAAGACGACGCTGGGCGCCAGCCTGGACGATCTGCTGGCAGGGGAGTTGCAGGAGGGGGAAAACCGGGTCATTTCCGGCTCGGTGCTCAGCGGCACCCGCGCCCATGGCCCTCACGCCTTCCTCGGGCGCTTCCATCTGCAGGTGAGCGTGGTTAAAGAAGGGCGGGAAAAAGAGCTCTTCGGCTGGGTGATGCCGGGCAAAGAGAAATTCTCGATTACCCGCACCACGCTGGGCCATTTCTTCAGGCGCAAGCGCTTTCATTTCTCTACCGATACCCACGGCGGCGAGCGGGCGATGGTGCCGATCGGCAACTACGAGCGGGTGATGCCGCTGGATATCCTGCCGACCGTACTGCTGCGCGATCTGCTGGCCGGGGATACCGACAGCGCTCAGGCGCTGGGCTGTCTGGAGCTGGATGAAGAAGATCTGGCGCTGTGCACCTACGTCTGCCCCGGTAAGTATGAATATGGCCCTGCGCTGCGCAGCGTATTAACCCGGATTGAGCAGGAAGGATAA	MIKITKGLDLPIAGMPLQQISPAPAVKRVALLGEEYVGMRPAMAVKEGDRVKKGQILFEDKKNPGVCFTAPASGVVSAIHRGERRVLQSVVIDIEGNDAVAFTRYAADALAELPRDTVQQQLLASGQWTALRTRPFSKTPLPGSVPAAIFVNAMDTNPLAAEPQPIILAERAAFDAGLTVLTRLTDGKVHVCQPSGGKLGGHPVGQVSFNQFSGPHPAGLPGTHIHFLEPVSLNKQVWHLNYQDAIAIGKLFLDGELYCERVIALGGPQVISPRLVKTTLGASLDDLLAGELQEGENRVISGSVLSGTRAHGPHAFLGRFHLQVSVVKEGREKELFGWVMPGKEKFSITRTTLGHFFRRKRFHFSTDTHGGERAMVPIGNYERVMPLDILPTVLLRDLLAGDTDSAQALGCLELDEEDLALCTYVCPGKYEYGPALRSVLTRIEQEG	PGPT0013975_601	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CATION_TRANSPORT,PGPT0013975-nqrA-K00346	NA	NA
BMS020_03320	1239	nqrB	COG1805	Na(+)-translocating NADH-quinone reductase subunit B	ATGGGCTTAAAGCATCTGATTGAAAAAATTGAGCCGCATTTCACGCACGGCGGCAAGCTGGAAAAATATTACCCGCTGTATGAAGCGGCGGCGACCATCTTCTACACACCAGGCCAAGTCACCCGCGGCGCGGCGCATGTGCGCGACGCCATCGACCTCAAGCGGTTGATGATCCTCGTGTGGTTTGCCGTCTTTCCGGCGATGTTCTGGGGGATGTATAACGTCGGGCTGCAGACCATACCGGCGCTGCATAAGCTTTACGGCGCCGAACAACTGCAGCAGGCGATCGCCAACAACTGGCACTATAGCGTCGCCCAGTGGTTAGGGGTGAGCTTCAGCGCCGACGCCGGCTGGCTGAGCATGATGACCCTGGGGGCGGTCTTTTTCCTGCCGATCTATATCACCGTCTTTATCGTCGGCGGCTTCTGGGAAGTGCTGTTCGCTATCGTGCGCAAGCATGAAATCAACGAAGGCTTCTTTGTCACCTCGATTCTGTTCGCGCTGATCGTCCCGCCCACGCTGCCGCTGTGGCAGGCGGCGCTGGGGATCTCCTTCGGGGTGGTGATCGCTAAAGAGATTTTCGGCGGTACCGGGCGCAACTTCCTCAACCCGGCGCTGGCAGGGCGCGCGTTCCTGTTCTTCGCCTATCCGGCGCAAATCTCCGGCGACCTGGTGTGGACGGCGGCGGACGGTTTTTCCGGCGCTACGCCGCTCTCCCAGTGGGCCAGCGGCGGCGGTGAAGCGCTGGTTAACGTCGCTACCGGCATCCCGGTGAGCTGGATGGACGCCTTCCTCGGCAATATTCCGGGCTCGATTGGCGAAGTCTCCACGCTAATGATCCTGATCGGCGGCGCGATCATCCTCTTTGGCCGCGTCGCGTCCTGGCGCATCGTCGCCGGGGTGATGATCGGCATGGTCGCCACCGCTACCCTGTTTAACGTTATCGGCTCCGACACCAACCCGATGTTCGCTATGCCATGGTACTGGCATCTGGTACTCGGCGGCTTCGCCTTCGGCATGATGTTTATGGCGACGGACCCGGTATCCGCCTCGTTTACCGATAAAGGAAAATGGAGTTACGGCGTGCTGATCGGCGTGATGTGCGTGCTGATCCGCGTGGTGAACCCGGCTTATCCGGAAGGGATGATGCTGGCGATCCTCTTCGCCAACCTCTTCGCACCGCTGTTCGATTACCTGGTGGTGCAGGCCAATATTAAGCGGAGGAAGTCGCGTGGCTGA	MGLKHLIEKIEPHFTHGGKLEKYYPLYEAAATIFYTPGQVTRGAAHVRDAIDLKRLMILVWFAVFPAMFWGMYNVGLQTIPALHKLYGAEQLQQAIANNWHYSVAQWLGVSFSADAGWLSMMTLGAVFFLPIYITVFIVGGFWEVLFAIVRKHEINEGFFVTSILFALIVPPTLPLWQAALGISFGVVIAKEIFGGTGRNFLNPALAGRAFLFFAYPAQISGDLVWTAADGFSGATPLSQWASGGGEALVNVATGIPVSWMDAFLGNIPGSIGEVSTLMILIGGAIILFGRVASWRIVAGVMIGMVATATLFNVIGSDTNPMFAMPWYWHLVLGGFAFGMMFMATDPVSASFTDKGKWSYGVLIGVMCVLIRVVNPAYPEGMMLAILFANLFAPLFDYLVVQANIKRRKSRG				NA	NA	NA	NA	NA
BMS020_03321	795	nqrC	COG2869	Na(+)-translocating NADH-quinone reductase subunit C	GTGGCTGAGAAGAAAAGTAACGATAGCATCGGCAAAACGCTGCTGGTGGTGCTGGTGCTTTGTCTGGTCTGCTCCATCGTGGTAGCGGGCTCGGCCGTGGGGCTGAAATCCCGCCAGCAGGCGCAGCGGGCGTTGGATAAGCAGCGTAATATCCTGGCGGTGTCCGGCCTGATGCAGCCCGGCATGGATGCTGATGCGGTCGCCGACACCTTCGCGGCGCGCATTTCGCCGCGACTGGTGAATCTTGCGACCGGCGAGCTGCTGGAGAAAGACCCGGCAAAATTCAATCAGGCCCAGGCGCTGAAGGATCCGCAGCAGAGTATGGCGCTGGATGCCAGCCAGGATCCGGCGGGGATTAAACGCCGCAGCAATCTGGCGGAAATCTACCTGGTGCGCGACGCGCAGCAGAAGATTGAGCAGGTGGTGTTGCCCATTTATGGCAATGGCCTGTGGTCGATGATGTACGCCTTCGTGGCGCTGGACATCGATGGCCGCACGGTGAAAGGCATTACCTACTATGACCAGGGGGAGACCCCGGGGCTGGGCGGCGAAGTGGAGAACCCGAACTGGCGCCAGCAGTTTGTCGGCAAGCAGGTGCTGGATGACAACGGCATGCCGGCGCTGAGAGTGGTCAAAGGCGGCGCGCGCGCTGGTGACCTGCATGCGGTTGATGGCTTATCGGGCGCCACGCTGACGTCAAATGGCGTACAGCACAGCTTTGATTTCTGGATGGGTGAACTGGGCTTTGGTCCGTTCCTGAAAAAGGTGCGTGAAGGAGGGCTGAACAATGGCTGA	MAEKKSNDSIGKTLLVVLVLCLVCSIVVAGSAVGLKSRQQAQRALDKQRNILAVSGLMQPGMDADAVADTFAARISPRLVNLATGELLEKDPAKFNQAQALKDPQQSMALDASQDPAGIKRRSNLAEIYLVRDAQQKIEQVVLPIYGNGLWSMMYAFVALDIDGRTVKGITYYDQGETPGLGGEVENPNWRQQFVGKQVLDDNGMPALRVVKGGARAGDLHAVDGLSGATLTSNGVQHSFDFWMGELGFGPFLKKVREGGLNNG				NA	NA	NA	NA	NA
BMS020_03322	639	nqrD	COG1347	Na(+)-translocating NADH-quinone reductase subunit D	ATGGCTGAACAGAGCGAGATGAAAGAGGTGAAGCGCGTGCTGGTGGGGCCGCTCATCGCCAATAACCCCATCGCCCTGCAGGTGCTGGGCGTCTGCTCCGCGCTGGCGGTCACCACTAAACTGGAAACCGCCTTCGTGATGACCATTGCGGTGACCCTGGTGACGGCGTTCTCCAGCATGTTTATCTCGATGATCCGCCACCACATTCCCAACAGCGTGCGCATCATCGTGCAGATGGCGATCATCGCCTCGCTGGTTATCGTGGTGGATCAGCTACTGCGGGCTTTCGCCTATGAGACTTCCAAGCAGCTGTCGGTATTCGTCGGGCTTATCATCACCAACTGCATCGTGATGGGGCGCGCTGAAGCTTACGCCATGAAGTCGCCGCCGCTGGCCAGCTTTATGGACGGTATCGGCAACGGTCTCGGCTACGGCGCGATCCTGATTATCGTCGGCTTCCTGCGCGAGCTTATCGGCAGCGGCAAGCTGTTCGGTATCACGGTGCTGGAGACGGTGCAGAACGGCGGCTGGTATCAGCCGAACGGCCTGTTCCTGCTGGCGCCGAGCGCGTTCTTCATTATCGGTTTACTGATTTGGGCCCTGCGTAGCTGGAAGCCTGAACAGCAGGAAAAGGAGTAA	MAEQSEMKEVKRVLVGPLIANNPIALQVLGVCSALAVTTKLETAFVMTIAVTLVTAFSSMFISMIRHHIPNSVRIIVQMAIIASLVIVVDQLLRAFAYETSKQLSVFVGLIITNCIVMGRAEAYAMKSPPLASFMDGIGNGLGYGAILIIVGFLRELIGSGKLFGITVLETVQNGGWYQPNGLFLLAPSAFFIIGLLIWALRSWKPEQQEKE	PGPT0013280_1084	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013280-rnfE|rsxE-K03613	NA	NA
BMS020_03323	600	nqrE	COG2209	Na(+)-translocating NADH-quinone reductase subunit E	ATGATGGCTCATTACATTAGCCTGTTTGTCCGCGCGGTGTTTGTTGAGAACATGGCGCTGGCCTTTTTCCTCGGGATGTGTACCTTCCTCGCAGTGTCGAAAAAGGTCTCCACCGCCTTCGGCCTCGGCGTTGCGGTGACGGTGGTGCTGGGTCTTGCCGTACCGATCAACAACCTGGTGTATAACCTGGTGCTGCGCGATGGCGCGCTGGTGGAGGGGGTAGACCTCAGCTTCCTGAACTTCATCACCTTTATCGGGGTGATCGCCGCGCTGGTGCAGATCCTCGAGATGATCCTCGATAAGTACTTCCCGGCGCTATACAACGCGCTGGGGATCTTCCTGCCGCTGATTGCGGTTAACTGCGCGATTTTCGGCGGTGTGTCGTTCATGGTGCAGCGTGATTACAACTTCCCGGAATCCATCGTTTACGGCTTCGGCTCCGGCATCGGCTGGATGCTGGCGATCGTGGCGATGGCGGGGATCCGCGAAAAGATGAAGTACGCCAACGTGCCTGCCGGTTTGCGCGGGTTAGGGATCACCTTTATCACTACCGGGTTGATGGCGCTGGGCTTTATGTCCTTCTCCGGCGTGCAGCTATAA	MMAHYISLFVRAVFVENMALAFFLGMCTFLAVSKKVSTAFGLGVAVTVVLGLAVPINNLVYNLVLRDGALVEGVDLSFLNFITFIGVIAALVQILEMILDKYFPALYNALGIFLPLIAVNCAIFGGVSFMVQRDYNFPESIVYGFGSGIGWMLAIVAMAGIREKMKYANVPAGLRGLGITFITTGLMALGFMSFSGVQL	PGPT0013260_1052	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013260-rnfA|rsxA-K03617	NA	NA
BMS020_03324	1224	nqrF	COG2871	Na(+)-translocating NADH-quinone reductase subunit F	ATGGAAATTATTCTTGGCGTCGTGATGTTCACGCTGATTGTGCTGGTGCTGTCGGGGCTTATCCTGGCAGCGCGCTCAAAGCTGGTGAACGCGGGCGACGTGGTTATTGAGATCAATAACGAAGCGGATAAGCAGATCCGTACCCCGGCGGGGGATAAGCTGCTGAACACGCTGTCCAGCAACGGGATTTTTGTCTCCTCCGCCTGCGGCGGCGGCGGCTCCTGCGGCCAGTGTCGGGTGACTATCAAAGAGGGTGGCGGCGATATCCTGCCGACCGAGCTTTCGCATATTACCAAACGCGAAGCCAAAGCCGGCTGCCGTCTGGCCTGCCAGGTCGCGGTGAAGCAAAACATGAAGATTGAGCTACCGGAAGAAATCTTCGGCGTCAAAAAATGGGAATGCGAAGTTATCTCCAATGATAACAAAGCCACTTTCATTAAAGAGCTCAAGCTGCGGATCCCCGAGGGGGAGGTGGTGCCGTTCCGCGCCGGGGGCTATATTCAGATCGAATGCCCACCGCATAAAGTGGCCTATGCTGACTTCGATGTCCCGGATGAATACCGCTCGGACTGGGACAAGTTCAACCTGTTCCGCTACGTCTCTGAGGTGAAAGAGCCGACCCTGCGCGCCTACTCGATGGCTAACTATCCGGAAGAGAAGGGCATCATTATGCTCAACGTGCGCATTGCGACGCCGCCGCCGAAGGTGCCGGATGCCCCGCCGGGGATCATGTCGTCCTATATCTGGTCGCTGAAGCCGGGCGATAAGGTGACGATTTCGGGGCCGTTCGGCGAGTTCTTTGCCAAAGAGACCGACGCCGAGATGGTGTTTATCGGCGGCGGCGCCGGGATGGCGCCGATGCGTTCGCATATTTTCGACCAGCTCAAGCGCCTGCACAGCACACGTAAAATCAGCTTCTGGTACGGAGCGCGCTCGCTGCGCGAGATGTTCTACGATGATGAGTTTGAACAGCTGGCGCGGGATAACCCGAACTTTACCTTCCACGTTGCGCTCTCCGATCCGCTGCCGGAAGATAACTGGACGGGGCATACCGGCTTTATCCATAACGTTCTGTACGAGAACTATCTTCGCGATCATCCGGCACCGGAAGACTGCGAGTTCTACATGTGCGGGCCGCCGGTAATGAATGCCGCGGTGATTAAGATGCTGAAGGATCTGGGCGTCGAGGACGAGAATATTCTGCTCGACGACTTTGGAGGCTGA	MEIILGVVMFTLIVLVLSGLILAARSKLVNAGDVVIEINNEADKQIRTPAGDKLLNTLSSNGIFVSSACGGGGSCGQCRVTIKEGGGDILPTELSHITKREAKAGCRLACQVAVKQNMKIELPEEIFGVKKWECEVISNDNKATFIKELKLRIPEGEVVPFRAGGYIQIECPPHKVAYADFDVPDEYRSDWDKFNLFRYVSEVKEPTLRAYSMANYPEEKGIIMLNVRIATPPPKVPDAPPGIMSSYIWSLKPGDKVTISGPFGEFFAKETDAEMVFIGGGAGMAPMRSHIFDQLKRLHSTRKISFWYGARSLREMFYDDEFEQLARDNPNFTFHVALSDPLPEDNWTGHTGFIHNVLYENYLRDHPAPEDCEFYMCGPPVMNAAVIKMLKDLGVEDENILLDDFGG				NA	NA	NA	NA	NA
BMS020_03325	216			hypothetical protein	ATGCTGACGGTGTTTGTCGCAACCTTTGTGATTTTTGCGCTGGTGATCCTCGGGATGTCGCTGGGCTACCTGGTGAAGCGCAAGAGCATTCAGGGCAGCTGCGGCGGGATCTCCTCGCTGGGACTGGAGAAAGTCTGCGACTGTCCTGAGCCCTGCGACGCGCGTAAGAAACGTCTCGCCCGCGAGGCGCAGCGCCAGCAGCGGCGCATTTTGTAA	MLTVFVATFVIFALVILGMSLGYLVKRKSIQGSCGGISSLGLEKVCDCPEPCDARKKRLAREAQRQQRRIL				NA	NA	NA	NA	NA
BMS020_03326	861		COG0584	putative protein	ATGAAGAAAATACTTACCGCACTTTGCCTGCTGGCCTCCGCCGGCGCCTGGGCCGCCCCGCAGCTGATTGCCCATCGCGGCGGCACCGGCGATGCGCCAGAAAATACCCTGCCGGCCATTAAGCTGGCGCTGGAGAATAACGCCGAGGCCATCTGGGTCACGGTGCAGTTAAGCCACGACGGCGTGCCGGTGCTCTACCGGTCAAGCGATCTTTCCGCATTGACCAATAGCGAGGGCAACGTTTCCAGTTTGACCGCCGCCGAGCTGGCGAAAGTCGATGCCGGCTGGAAATGGGGTGATGACAGCCACCCCTGGCGCGGCAGGCAGGCCACCATTCCCACGCTGCAAGCCGTTTTGCAGCAATGGCCGCACACGTTCTTCTACATCGACATTAAATCTCCGGATGCCGACCCGACCGTGATGGGCGAGCGCCTGCTTGCGGTGTTAAAAGCTACGCACAGCCTCGATCGCGTGCGGGTCTATTCCACCGAAGACCGCTATATCGCCGCGCTGCCGCCGGCTATTCCCCGCTTCGTCACCCGCAGCGAAACCCGCACCAGACTTGCCAGCATTTCGCTCAGCCATCAGTGCCAGCCTGCCAGCCAGCACGAAGGCGAGCAATGGTATGGGCTGGAGCTGAAGCGCAAGGTAGAGGTGGTGGAGAAATTCACCCTTGGGGTAGGGGTCTCCCCGGCGACGCTCACCTGGGATAAAGAGGCGATGGATTGCTTCCGCTCGCAGGGTAAAGCGCACATTATCTTCTTCGGCATCAACAGTGCGGAAGATTACCGCACGGCGAAAGAGCTGGGCGCTGACGGCGTGATGGTCGATTCCCCGGCGCAGGCGAAAAGCTGGCAGTAA	MKKILTALCLLASAGAWAAPQLIAHRGGTGDAPENTLPAIKLALENNAEAIWVTVQLSHDGVPVLYRSSDLSALTNSEGNVSSLTAAELAKVDAGWKWGDDSHPWRGRQATIPTLQAVLQQWPHTFFYIDIKSPDADPTVMGERLLAVLKATHSLDRVRVYSTEDRYIAALPPAIPRFVTRSETRTRLASISLSHQCQPASQHEGEQWYGLELKRKVEVVEKFTLGVGVSPATLTWDKEAMDCFRSQGKAHIIFFGINSAEDYRTAKELGADGVMVDSPAQAKSWQ	PGPT0018470_4148	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
BMS020_03327	1089	dinB_1	COG0389	DNA polymerase IV	ATGCTGTATGGGTATACAGTATTGAGTCTGACGATGCGTAAAATTATCCATGTCGATATGGACTGTTTCTTTGCGGCGGTGGAGATGCGCGACAACCCGGCGTTGCGCGATATACCTCTCGCGATAGGCGGCAGTCGGGTACAGCGTGGCGTGATTAGTACCGCGAACTATCCTGCGCGTAAGTTTGGCGTGCGTAGCGCCATGCCGACGGCGACGGCGCTCAAGCTGTGCCCGCATCTCACGCTGCTTCCCGGCCGCTTTGATGCCTACAAAGAAGCCTCGAACCATATCCGCGAAATTTTCTCCCGCTATACCTCGCGCATTGAGCCGCTGTCGCTGGATGAAGCCTATCTTGATGTCAGCGACAGCGTGCATTGTCACGGGTCGGCCACCCTGATCGCCCAGGAGATCCGCGAAACCATCGAACGGGAGCTGCGCCTCACCGCCTCGGCGGGGGTAGCGCCGGTAAAGTTTCTTGCCAAAATCGCCTCCGACATGAATAAACCCAACGGCCAGTTCGTTATCGCTCCCCATCAGGTGGCTGAGTTTGTACGGGCGCTGCCGCTGGCGAAAATACCCGGCGTCGGAAAGGTATCGGCGGCGAAGCTGGAAAATATGGGCCTGCGTACCTGTGGCGATGTACAGAACAGCGATCTGGCCATGCTGCTTAAGCGCTTCGGTAAATTCGGCCGTATTTTGTGGGAGCGCAGCCACGGGATTGATGAGCGGGAAATCCATAACGACCGGCAGCGCAAGTCAGTGGGGGTAGAGCGGACATTAGCGGAAGATATCCATGAATGGTCAGAGTGCGAAGCGATTATCGAAAATCTCTATCCCGAACTGGAGCGCCGGCTGGCGAAGGTCAAACCGGACCTGCTGATCGCCCGTCAGGGTATTAAACTGAAATTCAATGACTTCCAGCTGACCACCCAGGAGCACGTCTGGCCGCAGCTGAACAAAGCGGATCTGATTGCCACCGCGCACAAGGCCTGGGATGAGCGCCGCGGCGGACGTGGCGTGCGCCTGGTTGGGCTCCACGTGACGCTGCTCGATCCGCAGCTGGAAAGGCAGCTTTTATTAGGGATTTAA	MLYGYTVLSLTMRKIIHVDMDCFFAAVEMRDNPALRDIPLAIGGSRVQRGVISTANYPARKFGVRSAMPTATALKLCPHLTLLPGRFDAYKEASNHIREIFSRYTSRIEPLSLDEAYLDVSDSVHCHGSATLIAQEIRETIERELRLTASAGVAPVKFLAKIASDMNKPNGQFVIAPHQVAEFVRALPLAKIPGVGKVSAAKLENMGLRTCGDVQNSDLAMLLKRFGKFGRILWERSHGIDEREIHNDRQRKSVGVERTLAEDIHEWSECEAIIENLYPELERRLAKVKPDLLIARQGIKLKFNDFQLTTQEHVWPQLNKADLIATAHKAWDERRGGRGVRLVGLHVTLLDPQLERQLLLGI	PGPT0014881_3666	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
BMS020_03328	447	yafP	COG0454	putative N-acetyltransferase YafP	ATGCACATTCGTCCTTACCGCGACAACGATTTACCACTGCTCTGTCGGATATTCCTGCGCGCGGTGCGGGAAACGGCCTGCCGGGACTATACTCCGGCGCAGATTGCGGCCTGGGCGCAGGTGGATGAGACACGCTGGCGGCAAAAGCTGGCTGATGCAAACGGGCTGGTGGCGGAGATAGAGAATCAACCGGTTGGCTTTATCACCGCCATCGGGACGCATATCGATTTGCTCTTTGTCTCGCCGGATCACGGCCGGCAGGGTATCGGCGGCGCGCTTATCGAGGCGCTCTGCGCTCAGTATCCTGCGCAAATCCTGACGGTGGACGCCAGCATTACCGCGAGACCCTGTTTTACGGCCCATGGCTTTAAGGTGGTGGCTGAGCAGCGGGTGGCGGCGCGCGGGGAGTGGTTTATTAACTACCGGATGGAAAGCGCGGGACGCTAA	MHIRPYRDNDLPLLCRIFLRAVRETACRDYTPAQIAAWAQVDETRWRQKLADANGLVAEIENQPVGFITAIGTHIDLLFVSPDHGRQGIGGALIEALCAQYPAQILTVDASITARPCFTAHGFKVVAEQRVAARGEWFINYRMESAGR	PGPT0002145_1	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0002145-fwdC|fmdC-K00202	NA	NA
BMS020_03329	1458	pepD	COG2195	Cytosol non-specific dipeptidase	GTGTCTGAACTGTCTCAACTATCCCCGCAGCCGCTTTGGGATATTTTCGCCAAGATTTGCTCCATCCCGCACCCGTCCTATCACGAAGAACAGCTCGCCGAGCACATTATGGGTTGGGCAAAAGAAAAAGGCTTACACGCGGAACGCGACCAGGTTGGCAACATTCTGATTCGTAAAGGCGCGACTGCCGGTATGGAAAACCGTAAGCCGGTAGCGCTGCAGGCGCACCTCGATATGGTGCCGCAGAAAAATAACGACACCGTCCACGACTTCGCCAAAGATCCGATCCAGCCGTACATTGACGGCGAATGGGTGAAAGCGCGCGGCACCACGCTGGGCGCAGACAACGGTATCGGGATGGCGTCCGCACTGGCGGTACTGGCCGACGACAGCGTCGCTCACGGCCCGCTGGAAGTGCTGCTGACCATGACCGAAGAAGCCGGTATGGACGGCGCCTTCGGTCTGCAGGCCAACTGGCTGCAGGCCGATATCCTGATCAACACCGACTCCGAAGAAGAAGGCGAAATCTATATGGGTTGCGCCGGCGGGATCGATTTCACCTCTAACCTGGCGCTGACCCGCGAAGCGATTCCGGCCGGTTTCCAGAGCTTTAAAGTGACCTTAAAAGGGCTGAAGGGCGGCCACTCCGGCGGTGACATCCATCTCGGTCTGGGTAACGCCAACAAGCTGCTGTCGCGCTTCCTTGCCGGTCATGCCGATGAGCTGGATCTGCGTCTGGTCGATTTCAACGGCGGTACGTTGCGCAACGCCATCCCGCGTGAAGCGTACGCTACTGTCGCCGTCGCCGCGGATAAAGCCGATGCGCTGAAAGCGCTGGTGAATACTTACCAGGCGCTGCTGCAAAACGAGCTGGCGGCCAAAGAGAAGAACCTGGCGGTGCTCCTGGAAGCGGTAGAGAACGACAAAGCGGCGCTGACTCAGGCCTCCCGCGACGGTTTCATCCGCCTGCTTAACGCCACGCCGAACGGGGTTATCCGCAACTCTGACGTGGCGAAAGGCGTAGTAGAAACCTCGCTGAACGTCGGCGTCGTCACCATGACCGATGACAACGTGCAGATCCACTGCCTGATCCGCTCGCTGATCGACAGCGGCAAAGACTACGTGGTCAGCATGCTGGATTCTCTGGGTAAACTGGCGGGGGCGAAAACCGAAGCCAAAGGCGCTTACCCTGGCTGGCAGCCGGACGCCAACTCGCCGGTGATGCACCTGGTGCGCGAGACTTACCAGCGTCTGTTCAACAAGACGCCGAACATCCAGATCATCCACGCCGGCCTGGAATGCGGCCTGTTCAAAAAACCGTATCCGGAGATGGACATGGTCTCCATCGGGCCAACCATTACCGGTCCGCATTCCCCGGATGAGCAGGTCCATATCGAGAGCGTCGGCCAGTACTGGACGCTGCTGACCGAGCTGCTGAAAGCCATTCCGGCTAAATAA	MSELSQLSPQPLWDIFAKICSIPHPSYHEEQLAEHIMGWAKEKGLHAERDQVGNILIRKGATAGMENRKPVALQAHLDMVPQKNNDTVHDFAKDPIQPYIDGEWVKARGTTLGADNGIGMASALAVLADDSVAHGPLEVLLTMTEEAGMDGAFGLQANWLQADILINTDSEEEGEIYMGCAGGIDFTSNLALTREAIPAGFQSFKVTLKGLKGGHSGGDIHLGLGNANKLLSRFLAGHADELDLRLVDFNGGTLRNAIPREAYATVAVAADKADALKALVNTYQALLQNELAAKEKNLAVLLEAVENDKAALTQASRDGFIRLLNATPNGVIRNSDVAKGVVETSLNVGVVTMTDDNVQIHCLIRSLIDSGKDYVVSMLDSLGKLAGAKTEAKGAYPGWQPDANSPVMHLVRETYQRLFNKTPNIQIIHAGLECGLFKKPYPEMDMVSIGPTITGPHSPDEQVHIESVGQYWTLLTELLKAIPAK	PGPT0020955_992	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020955-pepD-K01270	NA	NA
BMS020_03330	459	gpt	COG0503	Xanthine phosphoribosyltransferase	ATGAGCGAAAAATACGTCGTCACCTGGGACATGTTGCAGATTCACGCCCGCAAACTGGCCAGCCGTCTGCTGCCGGTTGAGCAATGGAAAGGCATTATTGCCGTTAGCCGCGGTGGACTGGTACCGGGGGCCTTACTGGCGCGTGAACTGGGCATTCGTCATGTTGATACCGTATGCATCTCCAGCTACGACCATGATAACCAGCGCGAGCTGAAAGTGCTGAAACGTGCGGAAGGCGATGGCGAAGGCTTTATCGTTATCGACGATCTGGTGGATACCGGTGGTACCGCCGTGGCGATCCGCGAAATGTATCCCAAAGCGCACTTTGTCACCATTTTCGCCAAGCCGGCAGGCCGTCCGCTGGTGGATGATTACGTGGTTGATATTCCGCAGGATACCTGGATTGAACAGCCGTGGGATATGGGCGTGGTGTTTGTTCCGCCTATCGCAGGTCGTTAA	MSEKYVVTWDMLQIHARKLASRLLPVEQWKGIIAVSRGGLVPGALLARELGIRHVDTVCISSYDHDNQRELKVLKRAEGDGEGFIVIDDLVDTGGTAVAIREMYPKAHFVTIFAKPAGRPLVDDYVVDIPQDTWIEQPWDMGVVFVPPIAGR	PGPT0007300_610	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007300-gpt-K00769	NA	NA
BMS020_03331	1245			hypothetical protein	ATGTCACAGGCTAACCTCAGCGAAACGCTGTTTAAACCTCGCTTCAAACATCCCGAAACCTCTACGCTGGTGCGCCGGTTTTCTGCCGGAAAACCCCAGGCGATGCAGTCAGCGCTGAGCGGCAATCACGTCGAACACTGGTACCGTCTGATCAATCGCTTAATGTGGATCTGGCGCGGCGTAACCCCGCAGGAGATCCTTGATGTGCAAGCGCGCATTGTGATGAGCGAGGCCGAACGAACGGATCCCGAGCTGTTCGATACCGTCATCGGCTATCGCGGCGGCAACTGGATCTTTGAGTGGGCGAAAGAGGCGATGCAGTGGCAGCAAAAGGCCGGCCAGGAAGCCGATCCTTTGCTGAGCGGCCGCCACTGGCTGCATGCTTCGAACCTGTACAGCATTGCCGCTTATCCGCATATTAAAGGCGATGAGCTGGCGGAACAGGCGCAGGCTTTAGCCAACCGGGCGTATGAAGAGGCCGCCCAGCGGCTGCCTGGCGCCCTGCGCGAGCTGGAGTTCACCATCCCTGGCGGTTCGCCGATCACCGGCTTTTTGCATATGCCGAAAGGCGAGGGGCCGTTTCCGACGGTGCTGATGTGCGGGGGGCTGGACTCGCTGCAGACGGATTATTACAACCTGTATGAGAACTACTTCTCACCGCTCGGCATTGCCATGCTGACCATTGATATGCCCTCCATCGGCTTCTCGTCAAAATGGACGCTGAATCAGGACACCAGCCTGCTGCATCAGCACGCGCTGCGCCATCTGGAAAATGTGCCATGGATCGACCATACCCGGGTCGCCGCCTTCGGCTTCCGTTTTGGCGCCAATATCGCGGTGCGTCTCGGTTACCTGGAGCCGCAGCGGCTGAAGGCCGTAGCCTGTCTGGGGCCGGTGGTCCACGGTCTGCTGGTGGATCCTCTGCATCAGGGGCGCGTGCCGGAGATGTACCTCGACGTGCTGGCCTCGCGGCTGGGCATGCATGACGCGTCCGATGAAGCGCTGCGCGTGGAGCTCAACCGCTACTCGTTAAAAACCCAGGGACTGCTGGGACGCCGTTGCCCGACGCCGATGCTTTCCGGCTTCTGGAAGGACGATCCGTTCAGCCCCGAAGAGGAGTCGCGGTTAATCACCTCGTCATCTGCCGATGGCAAACTGCTGGAGATCCCGTTTAACCCGGTGTATCGCAATTTTGATCACGCATTGCGACAGATCGCCCGCTGGATCAACCATAGATTTGGTTAA	MSQANLSETLFKPRFKHPETSTLVRRFSAGKPQAMQSALSGNHVEHWYRLINRLMWIWRGVTPQEILDVQARIVMSEAERTDPELFDTVIGYRGGNWIFEWAKEAMQWQQKAGQEADPLLSGRHWLHASNLYSIAAYPHIKGDELAEQAQALANRAYEEAAQRLPGALRELEFTIPGGSPITGFLHMPKGEGPFPTVLMCGGLDSLQTDYYNLYENYFSPLGIAMLTIDMPSIGFSSKWTLNQDTSLLHQHALRHLENVPWIDHTRVAAFGFRFGANIAVRLGYLEPQRLKAVACLGPVVHGLLVDPLHQGRVPEMYLDVLASRLGMHDASDEALRVELNRYSLKTQGLLGRRCPTPMLSGFWKDDPFSPEEESRLITSSSADGKLLEIPFNPVYRNFDHALRQIARWINHRFG				NA	NA	NA	NA	NA
BMS020_03332	399	crl		Sigma factor-binding protein Crl	ATGACGTTACCGAGTGGACACCTGAAAAGTAAGTTGATCAAGAAATTCACGGCGCTAGGGCCTTACATTCGCGAAGAGCAGTGCCATGACAACCGTTTCTTTTTCGATTGCCTGGCAGTTTGCGTCAACGTTAAGCCCGCACCGGAGAAGCGTGAATTCTGGGGCTGGTGGATGGAAATGGAAGCACAAGAGTCACGTTTCACCTATAGCTACCAGTTTGGCCTGTTCAATAAAGAAGGGTCATGGCAGGCGGTCGACATTGACGACCCGGAAGTGAGCGACAGACTGGAAAAAACGCTGCGCGAGTTTCACGAGCGCGCCGCAGCGCTGCTGACCACCTTTAATCTGAAGCTGGAACCGGCCGACGATTTCAGCGAGCCGGTTCGCCTGCGCGCCTGA	MTLPSGHLKSKLIKKFTALGPYIREEQCHDNRFFFDCLAVCVNVKPAPEKREFWGWWMEMEAQESRFTYSYQFGLFNKEGSWQAVDIDDPEVSDRLEKTLREFHERAAALLTTFNLKLEPADDFSEPVRLRA				NA	NA	NA	NA	NA
BMS020_03333	693	glaR	COG1802	HTH-type transcriptional repressor GlaR	ATGACCGCCATTTCCCAGGCGACGGCCATTGACGGGTACCGTTGGTTAAAAAACGACATCATCCGCGGGGTCTACCAACCCGATGAGAAGCTGCGGATGAGCCTGTTGACCTCGCGCTATGCCCTGGGGGTCGGTCCGCTGCGCGAGGCGCTTTCGCAGCTGGTGGCCGAGCGGCTGGTGACGGTGGTCAATCAGAAAGGCTATCGGGTGGCGCCCATGTCGGAACAGGAGCTTCTCGATATCTTCGACGCGCGCGCCAACATGGAAGCCATGCTGGTGCGCCTCGCCATCGAGCGCGGCGGCGATGAGTGGGAGGCGGAGCTGCTGGCCCGCGCCCATCTGCTCAACAAGCTGGAGTCGTGCGAGGCAAGTGAGCGCTTACTCGATGAGTGGGACCAGCGCCATCAGGCGTTTCACACCGCCATCGTCGCCGGCTGCGGTTCGCAGTATCTGCTGCAAATGCGCGAGCGGCTCTTCGATCTGGCGGCCCGCTACCGTTTTATCTGGCTGCGCACCACCGTCCTGTCGGTGGAGATGCTGGAAGATAAGCATGTCCAGCATCAGACCCTGGTGGACGCTATTCTGGCGCGCGACGCCGAGCAGGCCAGCGCGCTGATGCGCGAGCACTTACTGACGCCGATCCCGATTATTCAGCAGGCGATGGCCGGCAAGCTGCAGCCGCAGGCAGTGTGA	MTAISQATAIDGYRWLKNDIIRGVYQPDEKLRMSLLTSRYALGVGPLREALSQLVAERLVTVVNQKGYRVAPMSEQELLDIFDARANMEAMLVRLAIERGGDEWEAELLARAHLLNKLESCEASERLLDEWDQRHQAFHTAIVAGCGSQYLLQMRERLFDLAARYRFIWLRTTVLSVEMLEDKHVQHQTLVDAILARDAEQASALMREHLLTPIPIIQQAMAGKLQPQAV				NA	NA	NA	NA	NA
BMS020_03334	1401	gabP_1	COG1113	GABA permease	ATGGGGCAACTGTCGCAATCACAGGATTTAGGGGCGGGGCTGAAGTCGCGCCACGTCACGATGTTATCTATCGCCGGGGTGATCGGCGCGAGTTTATTTGTCGGATCCAGCGTCGCCATTGCCGAGGCGGGCCCGGCGGTGCTGCTGGCCTATCTGTTTGCCGGGCTACTGGTGGTGATGATTATGCGTATGCTGGCCGAAATGGCGGTCGCCACGCCGGATACCGGCTCTTTTTCCACCTACGCCGATAAAGCCATCGGCCGCTGGGCGGGGTATACCATCGGCTGGCTGTACTGGTGGTTTTGGGTATTGGTTATTCCGCTGGAAGCCAATATCGCGGCGATTATTTTGCATTCATGGGTTCCGGGCGTCCCGGTGTGGTTGTTCTCTCTGGTCATCACCCTCGCCCTCACCGGCAGTAACCTGCTGAGCGTCAAAAACTACGGCGAATTCGAGTTCTGGCTGGCGCTGTGCAAAGTGGTCGCTATTCTGGCGTTTATCATACTGGGCGCGGTCGCCATTACCGGCTTTTATCCGTATGCCGAAGTGAGCGGCATTTCGCGTCTGTGGGATCACGGCGGCTTTATGCCCAACGGCTTCGGCGCGGTGCTGAGCGCGATGCTGATCACCATGTTCTCGTTTATGGGCGCGGAGATTGTCACTATTGCCGCCGCCGAATCGGATACCCCGGATAAACATATCGTGCGCGCCACCAACTCGGTGATCTGGCGTATCTCTATTTTTTATCTGTGCTCGATCTTTATCGTCGTCGCTCTCATCCCATGGAATATGCCGGGGCTGAAGAGCATTGGCTCCTACCGCTCGGTGCTCGAGCTGCTGCATATTCCCTATGCCAAGCTGATTATGGACGGCGTGATCCTCCTGTCGGTCACCAGCTGTCTGAACTCGGCGCTGTATACCGCCTCGCGGATGCTCTACTCCCTGAGCCGCCGCGGCGATGCGCCGGCCTTCATGGGGCGGACCAACCGCAGCAAAACGCCGTACGTGGCGGTGCTCCTCTCCACCGGCGCGGCGTTCCTCACCGTGGTGGTGAACTACTACGCGCCTGCCAAGGTGTTTAAATTCCTCATCGACAGCTCCGGCGCCATCGCCCTGCTGGTCTATCTGGTGATCGCCGTTTCGCAACTGCGGATGCGTAAAATCCTTCAGGCGCAAGGCGGCGAGATCCGTCTCAGAATGTGGCTCTATCCGTACCTGACCTGGCTGGTGATCGCCTTTATCACCTTCGTGCTGGTGGTGATGCTGTTCCGTCCGGCGCAGCAGCTGGAGGTGATCTCTACCGGCCTGTTAGCATTGGGAATTATTTGTACGGTACCGATTATGTCGCGCTGGAAAAAGCTGGTATTGTGGCAAAAACTGCCGCTGCAAAATACGCGTTAA	MGQLSQSQDLGAGLKSRHVTMLSIAGVIGASLFVGSSVAIAEAGPAVLLAYLFAGLLVVMIMRMLAEMAVATPDTGSFSTYADKAIGRWAGYTIGWLYWWFWVLVIPLEANIAAIILHSWVPGVPVWLFSLVITLALTGSNLLSVKNYGEFEFWLALCKVVAILAFIILGAVAITGFYPYAEVSGISRLWDHGGFMPNGFGAVLSAMLITMFSFMGAEIVTIAAAESDTPDKHIVRATNSVIWRISIFYLCSIFIVVALIPWNMPGLKSIGSYRSVLELLHIPYAKLIMDGVILLSVTSCLNSALYTASRMLYSLSRRGDAPAFMGRTNRSKTPYVAVLLSTGAAFLTVVVNYYAPAKVFKFLIDSSGAIALLVYLVIAVSQLRMRKILQAQGGEIRLRMWLYPYLTWLVIAFITFVLVVMLFRPAQQLEVISTGLLALGIICTVPIMSRWKKLVLWQKLPLQNTR	PGPT0007665_515	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007665-gabP-K11735	NA	NA
BMS020_03335	1284	gabT	COG0160	4-aminobutyrate aminotransferase GabT	ATGAACAGCAATAAAGCAATGATGGCGCGTCGCAACGACGCGGTCCCGCGCGGCGTCGGCCAGATCCATCCTGTCTTCGCCGAGCGCGCGGAAAACTGCCGGGTGTGGGACGTCGAAGGGCGGGAATATCTCGATTTTGCCGGCGGTATCGCGGTGCTCAATACCGGCCACCTGCATCCGCAGATTGTCGCCGCCGTGGAGGACCAGCTGAAAAAGCTGTCCCATACCTGCTTCCAGGTGCTGGCCTACGAGCCCTACCTGGCGCTGTGCGAAAAGATGAACCAGAAGGTGCCTGGTGATTTCGCCAAGAAAACCCTGCTGGTGACCACCGGGTCGGAAGCGGTGGAGAACGCAGTGAAGATCGCCCGCGCGGCAACCGGGCGCAGCGGCGCGATCGCCTTCACCGGCGCCTATCACGGCCGCACTCACTACACCCTGTCGCTGACCGGTAAAGTGAATCCATACTCCGCCGGTATGGGCTTAATGCCGGGTCACGTCTATCGCGCCCTCTATCCGTGCGCGCTGCACGGCGTCAGTGATGAAGAGGCGATCGCCAGCATCCATCGCATCTTCAAAAACGATGCCGCGCCGGAAGATATCGCCGCCATCATTATCGAGCCGGTGCAGGGTGAAGGCGGATTCTATGCCGCCTCCCCGGCCTTTATGCAGCGCCTGCGCGCCCTGTGCGACGAGCACGGCATTATGCTCATCGCCGATGAAGTACAGAGCGGCGCGGGCCGCACCGGTACCCTGTTCGCCATGGAGCAGATGGGCGTCGCGGCGGATATCACCACCTTCGCCAAATCCATCGCCGGCGGTTTCCCGCTGGCGGGCGTCACCGGCCGCGCGGAGGTGATGGACGCCATCGCCCCGGGCGGACTGGGCGGCACCTACGCCGGCAACCCCATCGCCTGCGCCGCCGCCCTGGCGGTATTGCAGATTTTCGAGCAGGAGAATCTGCTGGAAAAAGCCAACCAGCTCGGCGATACCCTGCGCCAGGGCCTGCTGGCGATCGCAGAAGATCATCCGGAGATCGGCGACGTGCGCGGTCTGGGAGCGATGATCGCCATTGAGCTGTTTGAAGAGGGCGACCACAGCAGGCCGAACGCCAGGCTGACGGCGGATATTATCGCCCGGGCGCGCGACAAAGGTCTGATCCTGCTCTCCTGCGGGCCGTACTACAACGTGCTGCGCATCCTGGTGCCGCTGACCATCGAAGAGGCGCAGATCGAGCAGGGGCTGAAGATCATCGCCGACTGCTTTACCGAGGCGAAACAGGCATAG	MNSNKAMMARRNDAVPRGVGQIHPVFAERAENCRVWDVEGREYLDFAGGIAVLNTGHLHPQIVAAVEDQLKKLSHTCFQVLAYEPYLALCEKMNQKVPGDFAKKTLLVTTGSEAVENAVKIARAATGRSGAIAFTGAYHGRTHYTLSLTGKVNPYSAGMGLMPGHVYRALYPCALHGVSDEEAIASIHRIFKNDAAPEDIAAIIIEPVQGEGGFYAASPAFMQRLRALCDEHGIMLIADEVQSGAGRTGTLFAMEQMGVAADITTFAKSIAGGFPLAGVTGRAEVMDAIAPGGLGGTYAGNPIACAAALAVLQIFEQENLLEKANQLGDTLRQGLLAIAEDHPEIGDVRGLGAMIAIELFEEGDHSRPNARLTADIIARARDKGLILLSCGPYYNVLRILVPLTIEEAQIEQGLKIIADCFTEAKQA	PGPT0007660_1221	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007660-gabT-K07250	NA	NA
BMS020_03336	1449	gabD	COG1012	Succinate-semialdehyde dehydrogenase [NADP(+)] GabD	ATGCAACTCAACGATATGACTCTGTTTCGCCAGCAGGCGCTGATTGATGGTCAGTGGCGCGATGCGCCCAACGGCGACGTGATTGCGGTGACCAACCCCGCCAACGGCGAGCAGCTCGGCAGCGTGCCGAAAATGGGCGCTGATGAAACCCGACAAGCGATCGAAGCCGCTAACCGCGCCCTTCCCGCCTGGCGCGCCCTCACCGCCAAAGAGCGGGCGAATATTCTGCGCCGCTGGTTCGATCTCATGCTGGAGAACCAGGACGATCTCGCCCGTCTGATGACCCTCGAGCAGGGGAAACCGCTGGCGGAAGCCAAAGGCGAAATCAGCTACGCCGCCTCCTTTATTGAATGGTTCGCCGAAGAAGGTAAACGCATTTACGGCGACACCATTCCGGGCCACCAGGCCGACAAGCGCCTGCTGGTGATTAAGCAGCCCATCGGCGTCACCGCCGCCATCACCCCGTGGAACTTCCCGGCGGCGATGATCACCCGCAAAGCGGGCCCGGCGCTGGCCGCGGGCTGCACCATGGTCCTGAAACCGGCCAGCCAGACGCCGTTTTCCGCGCTGGCGCTGGCCGAACTGGCGAATCGCGCCGGGATCCCCGCCGGGGTGTTCAACGTCGTCACCGGCTCAGCCGGCGCGGTCGGCGGCGAACTGACCAGCAACCCGCTGGTACGCAAGCTCTCCTTTACCGGCTCGACCGAGATTGGCCGCCAGCTGATGGAGCAGTGCGCGAAAGACATCAAAAAAGTCTCCCTGGAGCTGGGCGGCAACGCGCCGTTTATCGTCTTCGACGATGCCGATCTCGATAAAGCCGTCGAGGGGGCGCTGGCGTCGAAGTTCCGCAACGCCGGGCAAACCTGCGTCTGCGCCAACCGCCTGTACGTCCAGGACGGGGTGTATGACCGTTTCGCCGAGAAGCTGCAGCAGGCGGTGGAAAAACTACGCATCGGCGACGGCCTGCAGGAGGGCGTCACGACCGGCCCGCTGATCGACGAGAAAGCCGTCGCCAAAGTTGAAGAACACATTGCCGACGCCATCGCCAAAGGCGCAAAGGTGGTCACCGGCGGCAAACCGCACGCCCTGGGCGGCAACTTCTTCCAGCCCACCATCCTGGTCAACGTGCCCGACAGCGCCAAAGTGGCGAAAGAGGAGACCTTCGGCCCGCTGGCCCCGCTGTTCCGCTTTAAAGATGAAGCCGACGTCATTGCCCAGGCCAACGATACCGAGTTCGGTCTCGCCGCCTATTTCTACGCCCGCGATCTGAGCCGTGTGTTCCGCGTCGGCGAAGCGCTGGAGTACGGCATCATCGGCATCAATACCGGAATTATCTCCACCGAAGTCGCTCCGTTCGGCGGCGTTAAGGCCTCCGGCCTCGGCCGCGAAGGGTCGAAGTACGGCATCGAAGACTACTTAGAAATCAAATACATGTGTATTGGCCTTTAA	MQLNDMTLFRQQALIDGQWRDAPNGDVIAVTNPANGEQLGSVPKMGADETRQAIEAANRALPAWRALTAKERANILRRWFDLMLENQDDLARLMTLEQGKPLAEAKGEISYAASFIEWFAEEGKRIYGDTIPGHQADKRLLVIKQPIGVTAAITPWNFPAAMITRKAGPALAAGCTMVLKPASQTPFSALALAELANRAGIPAGVFNVVTGSAGAVGGELTSNPLVRKLSFTGSTEIGRQLMEQCAKDIKKVSLELGGNAPFIVFDDADLDKAVEGALASKFRNAGQTCVCANRLYVQDGVYDRFAEKLQQAVEKLRIGDGLQEGVTTGPLIDEKAVAKVEEHIADAIAKGAKVVTGGKPHALGGNFFQPTILVNVPDSAKVAKEETFGPLAPLFRFKDEADVIAQANDTEFGLAAYFYARDLSRVFRVGEALEYGIIGINTGIISTEVAPFGGVKASGLGREGSKYGIEDYLEIKYMCIGL	PGPT0001580_3911	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
BMS020_03337	1269	lhgD	COG0579	L-2-hydroxyglutarate dehydrogenase	ATGTATGATTTCGTGATTATCGGCGGCGGCATCATCGGTATGTCGACCGCCATGCAGTTAATTGAGATTTACCCGGACGCCCGCATTGCGCTGCTGGAAAAAGAGGCCGGCCCGGCCTGCCATCAGACCGGCCATAACAGCGGCGTGATCCACGCCGGGGTGTACTACACGCCCGGCAGCCTCAAGGCGCAGTTTTGCCTCGCCGGCAACCGCGCCACCAAAGCCTTTTGCGAGCAGAACGGCATCCGCTACGACGTCTGCGGCAAGATGCTGGTCGCCACCTCGCCGCTGGAGATGGAGCGGATGCGCGCCCTGTGGGATCGCACCGCCGCCAACGGCCTGCAGCGGGAATGGCTGAGCGCCGGGGAGCTGCGCGAGCGCGAACCGAACATCAGCGGACTCGGCGGGATCTTCGTCCCTTCCAGCGGCATAGTCAGCTACCGCGACGTGGCGGCGGCGATGGCGAAGAACTTCGAATCGAAAGGCGGCGCCATCGTCTACAACGCCGAAGTCAGCGCCCTGAAAGAACATGCCAGCGGCGTGGTCGTCCACACCCGCCAGGGCGGCGAGTATGAGGCCTCGACGCTGATTACCTGTTCCGGGCTGATGGCCGATCGACTGGTGAAAATGCTCGGCGTCGATCCCGGGTTTATCATCTGCCCGTTCCGCGGGGAGTATTTTCAGCTCGCTGCGCAGCACAATCAGATCGTCAACCATCTGATCTATCCGATCCCCGATCCGGCGATGCCGTTCCTCGGCGTCCACCTGACCCGCATGATCGACGGCAGCGTCACCGTCGGCCCCAACGCCGTGCTGGCCCTGAAGCGCGAAGGCTATCGCAAGCGCGATATTTCGCTGGCCGATACCCTGGAGATCCTCACCTCGCCCGGCATTCGCCGGGTACTGCAAAACAACCTGCGCTCCGGGCTGGGCGAAATGAAAAATTCGCTGTGCCGAAGCGGCTATCTGCGGCTGGTGCAGAAATACTGCCCGAGCCTGACATTAAGCGATTTGCGCCCGTGGCCGGCCGGCGTGCGGGCGCAGGCGGTATCGCCGCAGGGCAAACTGATCGACGATTTTCTCTTCGTCACCACCGCGCGTTCCATTCACACCTGTAACGCGCCGTCACCCGCGGCGACGTCGGCTATCCCGATCGGCGCGCATATCGTCAGCAAGGTGCAGACCCTGCTGGCCAGCCAGAGCAATCCCGGACGCACGCTGCGTGCGGCACGTAGCGTGGAGACACTACACGCCGCTTTTACCCGTTAA	MYDFVIIGGGIIGMSTAMQLIEIYPDARIALLEKEAGPACHQTGHNSGVIHAGVYYTPGSLKAQFCLAGNRATKAFCEQNGIRYDVCGKMLVATSPLEMERMRALWDRTAANGLQREWLSAGELREREPNISGLGGIFVPSSGIVSYRDVAAAMAKNFESKGGAIVYNAEVSALKEHASGVVVHTRQGGEYEASTLITCSGLMADRLVKMLGVDPGFIICPFRGEYFQLAAQHNQIVNHLIYPIPDPAMPFLGVHLTRMIDGSVTVGPNAVLALKREGYRKRDISLADTLEILTSPGIRRVLQNNLRSGLGEMKNSLCRSGYLRLVQKYCPSLTLSDLRPWPAGVRAQAVSPQGKLIDDFLFVTTARSIHTCNAPSPAATSAIPIGAHIVSKVQTLLASQSNPGRTLRAARSVETLHAAFTR	PGPT0013225_138	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_GLUTARATE_UTILIZATION,PGPT0013225-lhgO|ygaF-K15736	NA	NA
BMS020_03338	978	glaH		Glutarate 2-hydroxylase	ATGAACGCCCTGACCGCAGTAAAACCGACATCCGCGCCGTTAGCTCAACACTTCCCTGGCTTTACCGTCGCCCCTTCCGCCCAGTCGCCGCGCCTGCTGGAGCTCACCTTTTCCGCCGACACCACCGCCCAGTTTCTGCAGCAGGTCGCGCAGTGGCCGGTGCAGGCGCTGGAGTACAAATCTTTCTTACGCTTTCAGGTGGGCAAGATCCTCGACGATCTGTGCGGCAACCAGCTGCAGCCGCTGCTGATCAAAACGCTGCTCGACCGCGCGGAAGGCGCGCTGCTGATCAACGGCGAAGGGATCGATAACGTTAGCCAGGCCGAGGAGATGGTCAAGCTGGCCACCGCCGTGGCGCACCTGATTGGCCGTTCCAATTTCGACGCCATGAGCGGCCAGTATTACGCCCGTTTCGTGGTGAAAAACGTCGATAACTCCGACAGCTATCTGCGCCAGCCGCACCGGGTGATGGAGCTGCACAACGACGGCACCTACGTCGAAGAGCAAACCGACTATGTGCTGATGATGAAGATCGACGAGCAGAACATGCAGGGCGGCAATTCCCTGCTGCTGCATCTCGACGACTGGGAGCACCTCGACGAATTCTTCCGCGACCCGCTCGCCCGCCGCCCGATGCGCTGGGCCGCGCCGCCGAGCAAAAACGTCAGCAAAGATGTCTTCCACCCGGTATTCGACGTCGACCAGTTAGGTCGCCCGGTGATGCGCTATATCGACCAGTTCGTCCAGCCGAAAGATTTCGAAGAAGGCACCTGGCTGAGCCGCCTCTCCGACGCGCTGGAGACCAGCAAAAACATTCTTTCAGTACCGGTTCCGGTAGGCAAATTTCTGTTGATAAACAACCTGTTCTGGCTGCACGGCCGCGACCGCTTTACGCCGCACCCGGACCTGCGCCGCGAGCTGATGCGCCAGCGCGGCTACTTTGCGTATTCCACGAATCATTACCAGACTCATCAATAA	MNALTAVKPTSAPLAQHFPGFTVAPSAQSPRLLELTFSADTTAQFLQQVAQWPVQALEYKSFLRFQVGKILDDLCGNQLQPLLIKTLLDRAEGALLINGEGIDNVSQAEEMVKLATAVAHLIGRSNFDAMSGQYYARFVVKNVDNSDSYLRQPHRVMELHNDGTYVEEQTDYVLMMKIDEQNMQGGNSLLLHLDDWEHLDEFFRDPLARRPMRWAAPPSKNVSKDVFHPVFDVDQLGRPVMRYIDQFVQPKDFEEGTWLSRLSDALETSKNILSVPVPVGKFLLINNLFWLHGRDRFTPHPDLRRELMRQRGYFAYSTNHYQTHQ	PGPT0019545_25	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_GLUTARATE_UTILIZATION,PGPT0019545-glaH|csiD-K15737	NA	NA
BMS020_03339	258			hypothetical protein	ATGAATTTATCCCGTCAGGAACAACGGACCTTACACGTACTCGCCAAAGGTGGCCGTATTGCGCACGTCCGTGATACCTCCGGCCGCATTACCGCCGTCGAATGCTACACCCGGGAAGGGCTGTTGCTGAGCGACTGCACCCTCGCGGTCTTCAAAAAGCTCAAAACCAAAAAGCTGATTAAGTCGGTGAATGGCCAGCCGTACCGGATCAACATCACCGGTTTGACCAACGTTCGCGCGCAGGCGGACAACCGCTGA	MNLSRQEQRTLHVLAKGGRIAHVRDTSGRITAVECYTREGLLLSDCTLAVFKKLKTKKLIKSVNGQPYRINITGLTNVRAQADNR				NA	NA	NA	NA	NA
BMS020_03340	750	yjhP		putative protein YjhP	ATGATCGATATCCCTCGCATTTTTACTATCAGTGAAAGCGAACACCGTATTCATAACCCTTTTACCCCGGAAAAGTACGCCACGCTGGGGCGGGCGCTGCGAATGGCGCCGGGCGCCTCCATTCTTGACCTCGGCAGCGGCTCCGGAGAGATGCTCTGTAGCTGGGCGCGCGATCATCAGATCGTCGGCACCGGGGTGGACATGAGCCTGCTGTTCAGCCAGCAGGCGGCCGCCCGGGCAGAGGCGCTCGGGGTGAGCGACCGGGTGACCTTTGTGCACCAGGATGCCAGCGGGTATGTCGCCAGTCAGCCGTGCGATATTGCCGCCTGCGTGGGGGCAACGTGGATCGGCGGCGGCGTGGCAGGCACGATTGCGCTGCTGAAGCAGAGCCTTAATCCAGGCGGCATGCTGATGATCGGCGAGCCATGGTGGCGCAAACGCCCCGCCACGGCGGAAGAGGCGGTTGCCTGCGGCGCGCACTCTCCCGACGACTTCCTGACGCTGCCGGCGCTGGTCGCCCACTTCGGCGAACTGGGCTATGACGTAGTGGAGATGGTGCTGGCGGACCAGGAGGGCTGGGATCGTTATGAAGCGGCGAAATGGCTGACGATGCGCCGCTGGCTGGAGGCCAATCCGCACGATGACTTCGCGCCGGAGGTTCGCCAGCAGTTGACCACCGCGCCGCTGCACCATGTCACCTGGACCCGGGAATATCTCGGCTGGGGCGTGTTTGTCCTGATGGCGCGTTAA	MIDIPRIFTISESEHRIHNPFTPEKYATLGRALRMAPGASILDLGSGSGEMLCSWARDHQIVGTGVDMSLLFSQQAAARAEALGVSDRVTFVHQDASGYVASQPCDIAACVGATWIGGGVAGTIALLKQSLNPGGMLMIGEPWWRKRPATAEEAVACGAHSPDDFLTLPALVAHFGELGYDVVEMVLADQEGWDRYEAAKWLTMRRWLEANPHDDFAPEVRQQLTTAPLHHVTWTREYLGWGVFVLMAR				NA	NA	NA	NA	NA
BMS020_03341	639	gstB_5	COG0625	Glutathione S-transferase GstB	ATGCTGACTATCTGGGGCCGAAAAACTTCCTCTAACGTGCAGGCGCTGATGTGGTGTGTTGGCGAGCTTGGGCTGGACTATCTCCGCTTCGACGTGGGCCATCGCTATGGCGGTACCGACAGCGAGGCGTTTTATCAGCTCAATCCCAATCGTACGGTGCCAGTGCTGCAGGATGGCGATAATCCGCCGCTGTGGGAAACCGGCGCGATCCTTCGCTATTTAGCCAGTCGCTACGCCGACGACGCCTTCTGGCCGGGCGACCTGCTGGCTCGTACTGAGATTGATCGCTGGGCCGAGTGGTCAAAGCAGAATATTGCCCTCGGCTTTACGGCGCCGGTGTTCTGGCGCGTGGTGCGCACGCCCGCCGCCGAGCGGGATCCGCAGGCCATCGCCGCGGCGGTGACGGCCCTGGAGCAAAAGCTGGCGATTGCCGAGGCACGTCTCGCCGGCAGTCGCTATCTGGCGGGCGATACGCTCACCCTGGCCGACATCCAGTTTGGTCATGTGCTGTACCGCTACTTTGCAATCGATATACCCCGTCGTTCCCTCCCCCATCTTGCGGCCTATTATGCACGGCTAACCGCACGGCCCGCCTTTCGCCAACACGTCATGGTCAGCTACGACGAGCTGAAGGTCTGA	MLTIWGRKTSSNVQALMWCVGELGLDYLRFDVGHRYGGTDSEAFYQLNPNRTVPVLQDGDNPPLWETGAILRYLASRYADDAFWPGDLLARTEIDRWAEWSKQNIALGFTAPVFWRVVRTPAAERDPQAIAAAVTALEQKLAIAEARLAGSRYLAGDTLTLADIQFGHVLYRYFAIDIPRRSLPHLAAYYARLTARPAFRQHVMVSYDELKV	PGPT0013170_15682	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS020_03342	1263	gatC	COG3775	PTS system galactitol-specific EIIC component	ATGGATATTATCAACAGCATTATTAGTCTGGGGGCATCAGTAATGATGCCAGTAATATTCTTTATTATCGCGCTTTGCTTTGGCGTTAAAATCGGTACGGCATTTAAAGCAGGGATGCTGGTCGGCATTGGTTTTGAAGGGGTGGGGCTGGTGATTGGCCTGCTGCTGACAAACCTGGGCCCGGCATCGCAGGCGATGGTTGAGCGTATCGGCCTGCAGTTAACGGTCGTTGATACCGGTTGGCCTACCGCATCGACTATTGGCTGGGGTTCGCCGCTGATGCTGCCCGTCGTGGTGGGCTTTATCGTCATCAACCTGGCCATGCTTCTGTTGAAATTAACCAAAACGGTGAATATCGATATTTTTAATTACTGGATTTTCCTGATCATGGGGTCTGTGGTCTATGCCGGAACGGGAAATTACTGGCTTTCTGTCGGTATTACTTTCGCTATTTTTGTGTTGACGCTATTGGCCGCAGATTTAACGGCGCCGTATTTACAAAAAAACTATAATCTTAAAGGGATATCATTCCCACATCTTACCTGTATAGCTTACGTGCCGTTTGGCATTGCCTGTAATTACATCATTGATAAGATCCCGCTCATCAATAAAATCAATTTCGATCCGGAAAGTATTAATAAAAAATTCGGCGTTTTTGGCGAGCCTCTTACCCTGGGGTTTGTGCTGGGACTGCTGTTGGCTTTCCTGGCTGGATATGACATTTCCGCTGCCGTTTCACTGGCCATTAAGGTTTCAGCCGCCATGCTGCTGCTGCCGAAAATGATTGAAATTCTGGTGCAGGGATTGTTGATTGTTCGTGATGCCGCTGAAGCAAAACTGAAGGCTAAATTTCCGGGGCGCGATTTTTACATCGGGATGGATACGGCGTTATTGATCGGTGAACCTTCGGTACTGGCGACCGGTCTGCTGTTAATCCCTATGGCTGTGGTGCTGTCTATCATTCTGCCCGGCAACCGCGTACTGCCCTTTGTCGATCTGGCTTCGTTAATGTTCCTGCTGGCAATGGTCACGCCGTTCTGTAAACGAAATATGTTCCGCATGTTCATAACCGGAACCCTGATCGTGACCTGCATCCTGTATGTCGGGACGGACATTTCGCAAGAATATACTCAGGCGGCGGTGAACTCACATATTCCGGTACCGGAAGGGATGGCCGAGATCACCAATATCGTCGGCGGCGCCACGACGCCTGTCGGCTGGCTGGCCGTCAAATTTGGCGAGTTTTTTAGCGCCACACCTTAG	MDIINSIISLGASVMMPVIFFIIALCFGVKIGTAFKAGMLVGIGFEGVGLVIGLLLTNLGPASQAMVERIGLQLTVVDTGWPTASTIGWGSPLMLPVVVGFIVINLAMLLLKLTKTVNIDIFNYWIFLIMGSVVYAGTGNYWLSVGITFAIFVLTLLAADLTAPYLQKNYNLKGISFPHLTCIAYVPFGIACNYIIDKIPLINKINFDPESINKKFGVFGEPLTLGFVLGLLLAFLAGYDISAAVSLAIKVSAAMLLLPKMIEILVQGLLIVRDAAEAKLKAKFPGRDFYIGMDTALLIGEPSVLATGLLLIPMAVVLSIILPGNRVLPFVDLASLMFLLAMVTPFCKRNMFRMFITGTLIVTCILYVGTDISQEYTQAAVNSHIPVPEGMAEITNIVGGATTPVGWLAVKFGEFFSATP	PGPT0016948_608	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALACTITOL_PTS_SYSTEM,PGPT0016948-gatC|sgcc-K02775	NA	NA
BMS020_03343	996			Formate dehydrogenase, mitochondrial	ATGAAATGTCTGGCAATTGCCGATCTGTTTATCAATGCAGCAATGATGGAATCAGGACTGAAAGCGCTCAGGGATAACGGGATTGAAGTCGAAGTACGCGAGTGGTCACATGACTCCATTGAGAAACTTCAGGAAGATAATCTGCGGATTGAACAGGAAGGCGCGGAAGCCGTGGCCTTACCGGAAGATCTGCTTCAGGGAGCGGGTGATATTGACATCCTGATCACTCAGTTTGCCCCCGTCAATACTGCGGTGTTCGATAAACTACCCACGCTGAAATATGTAGGCGTACTCCGCGGTGGCGTGGAAAACGTGAATCTTGAGGTGGCGAACGCCCGGGGCGTTGAGGTGATGAACACCCCGGGGCGTAACGCTCGCAGCGTCGCTGAATTCACGGTCGGCATGATCCTGGCGGAAATGCGCAATATCGCCCGGTCACACGATGCCCTGCGTGACAAATACTGGCGTAAAGACAGCCCGAACCATCAGGCGATCCCGGAGCTTGGCGGAAAAGTCGTGGGGCTGGTTGGCCTCGGCCATATTGCCCAACTGGTCGCGGGATTTCTCCGCGGCTTTGGCACGGAGATTATCTTTTACGATAAGTACGTTGCAGGCCATGAACGTTATGAGAAAGTCGATTCACTGGACGAACTGGTACAACGCGCCGACGTTATCTCGTTACATGCTCGCCTGACGCCGGAAACCGAAAATCTGATTAACGCACACCATTTCGCGCTGATGAAGCGCAGTGCCATCATTGTTAACACGGCACGCTCCGGGTTAATCAATGAAAAAGAGATGATTGATGCGCTCAGATCCGGGCAAATTATGGGCGCCGCGCTTGATACCTTTGATGACGAACCGCTTCCTGACGACAGTGCATTCTATACCCTGAATAACGTGACCATTACGCCGCATATTGCCGGGAGTACCATTGACGCATTCAGTAATTCGCCCAAACGCTTCGCTGAGATCCTTTTAAAGAAACTCAGTTAA	MKCLAIADLFINAAMMESGLKALRDNGIEVEVREWSHDSIEKLQEDNLRIEQEGAEAVALPEDLLQGAGDIDILITQFAPVNTAVFDKLPTLKYVGVLRGGVENVNLEVANARGVEVMNTPGRNARSVAEFTVGMILAEMRNIARSHDALRDKYWRKDSPNHQAIPELGGKVVGLVGLGHIAQLVAGFLRGFGTEIIFYDKYVAGHERYEKVDSLDELVQRADVISLHARLTPETENLINAHHFALMKRSAIIVNTARSGLINEKEMIDALRSGQIMGAALDTFDDEPLPDDSAFYTLNNVTITPHIAGSTIDAFSNSPKRFAEILLKKLS	PGPT0009155_5741	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
BMS020_03344	762	fabG_8		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGGATCTGAATTTAACGAATCGTACGGCCATCGTGACAGGCGGCGCAACCGGCCTGGGGAAAGAGTTTGTTCTTTCTCTCGCCAAAGAAGGCGTCAATATCTGCTTTACCTATATGCGGGAAGAAGAGCATCCCGAACGGCTGATCGAAACGGTGAAGGCCAGCGCGAACGTAGAGATCATCGCGGTTAAAACCGATCTCTCTGACGAACAGAGCCGGGAAAATCTGTTTGCCACCTGTATCGACAGACTGGGCAAAGCCGACATTCTGGTGAATAACGCCGGGATCTGGCTGAGCGGCTACGTCACCGAGATCAGCCCGCAGGACTGGGATCTGGTGATGAATGTCAATCTGAAAGCCATCTTCCATCTCAGCCAGCTATTTGTAAATCACTGCCTGCAGCATGACCGGATGGGCAGCATTCTGAATATTACCTCGCAGGCCGCGTTCCACGGCTCCACGACGGGACATGCGCACTACGCGGCAAGTAAGGCCGGTCTGGTCGCCTTTGCTATCTCTCTGGCGCGGGAAGTCGCCAAACAAAAAATCAATGTGAACAATATCGCCGTCGGGATCATGGATACTGCGATGATCCGTAAGAACATTGAGCAAAACCCTGACTATTACGTCAGTCGTATTCCGGTGGGCCGCGTGGCCCAGCCTCAGGAAATTGCCGACATCGGTGTCTTCATGGTTTCTCCTAAAACCAGCTATATGACGGGAGCAACTCTGGACGTTACCGGCGGTATGTTGATGCGTTAA	MDLNLTNRTAIVTGGATGLGKEFVLSLAKEGVNICFTYMREEEHPERLIETVKASANVEIIAVKTDLSDEQSRENLFATCIDRLGKADILVNNAGIWLSGYVTEISPQDWDLVMNVNLKAIFHLSQLFVNHCLQHDRMGSILNITSQAAFHGSTTGHAHYAASKAGLVAFAISLAREVAKQKINVNNIAVGIMDTAMIRKNIEQNPDYYVSRIPVGRVAQPQEIADIGVFMVSPKTSYMTGATLDVTGGMLMR	PGPT0003180_2504	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
BMS020_03345	1539	lyx_1	COG1070	L-xylulose/3-keto-L-gulonate kinase	ATGAAAGATGAATACGTCATGGGCATCGACAATGGTGGAACCGTCACCAAGGCAGCCATCTATGACCGTAAAGGACAGGTGCTCGCGATCGCCTCAAAATCCACGCAGATGCTGACACCCCGGGAATTCCACACAGAGCGCAGTATCGATGAGCTGTGGGCCGCGAATGTCGAAGTGATTAAAAAAGCGATTGAGCAATCAGGTATTGATGCCAGCCAGATAAAAGGAGTGGCCGTCACCGGTCATGGTAACGGTCTGTATCTGGTTGACGAAGAAGGTCACCCTGTGCGTAACGGCATTATATCCACCGACAGCCGGGCAAAAGAGTACGTTGAGAGATGGCAACGCTCGCCTGAATTCCTTACCGACATTTTGCCAAAAACAATGCAGTCCATCTGGGCCGGACAACCTGTCGCCTTGTTGGCATGGCTGAAGGACTTCGAGCCCGAGACGCTGCAAAAAGCGCGTTATATTTTTATGGTCAAGGACCTGATCCGTTTTTACCTGACCGGAGAGGCTTTTCTTGAGCTGACCGATATCTCAGGCACCAACCTGATCAACGTACGTGACTGCAAGTATGACGATGAACTACTGGCATGGTGGGGACTTGATGAACTGCGGGACAAATTGCCCCCCATCAAACGCTCAACGGAATGCTGCGGAAAAATCACTGACGACGTGGCCCGTCTGACCGGTTTATGCGCAGGTACGCCGGTTTCTGGCGGGGTGTTTGATATCTCGGCCTCTTCCATTGCCTCGGGGATCAACAGTCTCGATAAGATGGCGATCGTCACCGGCACCTGGAGCATAAACGAATACGTTACCGACCACCCGGTTATTGATAAAGACCTGTTTATGACCTCCATTTATCCCATTGAGGGTAAATGGCTCATCACCGAGGCCAGCCCCACCTCCGCGAGCAACCTGGAGTGGTTTATTAACAACTTTATGGAGAGCGATCGGAAAACCTCCGCCGAACAAGGATCGTCGGTCTATGACCTGTGCAATAAGCTGGTTTCGTCAACGACGCCGGATGAAAGCCACCTGCTGTTCTTTCCGTTCGTGTTTGGCTCTAACACCATTCCCGACGCCTCGGCCGGCTTTATCGGTGTAAACAGCTTTCATAAAAAAGCCCATTTTCTGCGGGCGATTTATGAGGGCGTGGCCTTTAGCCATCTCTACCACACCGAGCGCTTGCGCAATATTAACCCGAAGTTAAGCCGCACAATTCGTATTGCCGGCGGTGTCACGAACTCCCCGGTCTGGCTACAGATATTCGCCGATATCTTCCAGGCCACGCTGGAAATCGTTGACGTCAAAGAGCACGGGACCCTGGGTACCGCGATGACCGCAGCCGTCATGGTGGGCTGGTTTGCAGAGGTATTTGCTGCCTCAAACGAAATGGTCCATGTCTCACGCACCGTCTCCCCTAATCCGGAAAATCACCGGGTCTACCAGACCAAATACCAGCTTTATAAAAACCTGTTATCAGAAATGCAGTCGCCGTGGAAAAGCTGCAGCAACTACATCGCGCACTAA	MKDEYVMGIDNGGTVTKAAIYDRKGQVLAIASKSTQMLTPREFHTERSIDELWAANVEVIKKAIEQSGIDASQIKGVAVTGHGNGLYLVDEEGHPVRNGIISTDSRAKEYVERWQRSPEFLTDILPKTMQSIWAGQPVALLAWLKDFEPETLQKARYIFMVKDLIRFYLTGEAFLELTDISGTNLINVRDCKYDDELLAWWGLDELRDKLPPIKRSTECCGKITDDVARLTGLCAGTPVSGGVFDISASSIASGINSLDKMAIVTGTWSINEYVTDHPVIDKDLFMTSIYPIEGKWLITEASPTSASNLEWFINNFMESDRKTSAEQGSSVYDLCNKLVSSTTPDESHLLFFPFVFGSNTIPDASAGFIGVNSFHKKAHFLRAIYEGVAFSHLYHTERLRNINPKLSRTIRIAGGVTNSPVWLQIFADIFQATLEIVDVKEHGTLGTAMTAAVMVGWFAEVFAASNEMVHVSRTVSPNPENHRVYQTKYQLYKNLLSEMQSPWKSCSNYIAH	PGPT0017520_14	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ASCORBATE_UTILIZATION,PGPT0017520-lyxK-K00880	NA	NA
BMS020_03346	552	glpP	COG1954	Glycerol uptake operon antiterminator regulatory protein	ATGATTTCAAATAACACCATCATCCCTTCCATCAGGAAGTATAAATACTTTGAGAAAGCATTATCCTGCCAGTCAGAATATGTGCTGCTATCCGAAGCGAATATCGGCAATCTGCAGTCGCTAATTGGCAAATGCCATCAAAGCGGTAAGAAGGTCCTCGTTCATCTTGAATTACTGGGTGGTTTTAAACCGGATCTGGCGGGGATCAATCTACTGAAAAATTATTATAAGGTTGATGGTGTTATTTCTTCCAATCTCTCCGCGCTACGCTACGCCAAAAAAGAGGGATTGCTGACCGTATATCGGGTTTTACTTATCGATTCGCGATCGCTTGATCAGTCGCTCGATATTGTTAAACACAGTCCACCGGACGCAATTGAAATCTTACCTGCTGAATATGCCTGCCAGTGTCTGGAGTTGATTAGCCGAAATTTGAAAGGCTTTGATGTGGTATTCATCGCCGGAGGCTTTGTTAAGCGCAAATACCTTGTAGATAAAATATTCCATGCCGGATTTAAAGGGATAACCACCAGCGAGCCCGGCTTATGGTAA	MISNNTIIPSIRKYKYFEKALSCQSEYVLLSEANIGNLQSLIGKCHQSGKKVLVHLELLGGFKPDLAGINLLKNYYKVDGVISSNLSALRYAKKEGLLTVYRVLLIDSRSLDQSLDIVKHSPPDAIEILPAEYACQCLELISRNLKGFDVVFIAGGFVKRKYLVDKIFHAGFKGITTSEPGLW	PGPT0022030_510	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULE_REGULATION,PGPT0022030-nodX-K02443	NA	NA
BMS020_03347	792	lsrF_2	COG1830	3-hydroxy-5-phosphonooxypentane-2,4-dione thiolase	ATGTCTAAAGAACGTCGTCTCTCAAGAATATTCGCAAAAGATGGTAAATCCGTGACCTTAGCGCTGGATGGCTACTATTTTTCCACGAAAACAAATGGTATTGATAATACGATAAATCAGCTCCCTGCTCTGGTGGAACACGGCCTGGATTGCGCGCTCGTCACGTACGGCATGTTGAAGAATTATCGTGAAGCGCTGAACAGCGTTCCCGTTGTGTTACGCGTCGACAGCACGGTCAGTATCTTTGACAATACCGTTCCCGATACTACCCCCGTTTTTTCCGTCGAAGATGCGCTTAAAGTCGCTGCCGAGGGAGTGGTCTGCATGACCTTCCCCGGCGCCTTCAATGAAGAAAAAACCCACATTATGGCGATGCAACTCGCGCAGGCAGCGGATCGCTGGAACGTACCGCTGATTGTCGAATCGCTCCCGTATGGTTATCCCGTCACCAGCGATGACTCTAACAATCCGGCCATCATCGCTGCATCGGCCCGCGCAGCGGTGGAGCTGGGCGCGGACGTCATCAAAACGCGTTTTACCGGTTCACCAGAGGACCGACTGATCGTTGAAGCTGCTGGCGTGCCGGTGCTTGCCTTAGGGGGGCCAAAAACCGGCATCGATGGTTACTTCAAATTTGTTCAGCACTGTATGCAGATGGGTGCGAAAGGCGTGGCTGTGGGACGAAACATTACCCAGGATCCGCAGCCGGCGAAAGTGGTAGCAGGTCTGAATGCCATCATCCATGAAAACGCAACAGCGGAAGATGCATACAGCCTCTACATGGCTAAATAA	MSKERRLSRIFAKDGKSVTLALDGYYFSTKTNGIDNTINQLPALVEHGLDCALVTYGMLKNYREALNSVPVVLRVDSTVSIFDNTVPDTTPVFSVEDALKVAAEGVVCMTFPGAFNEEKTHIMAMQLAQAADRWNVPLIVESLPYGYPVTSDDSNNPAIIAASARAAVELGADVIKTRFTGSPEDRLIVEAAGVPVLALGGPKTGIDGYFKFVQHCMQMGAKGVAVGRNITQDPQPAKVVAGLNAIIHENATAEDAYSLYMAK	PGPT0017620_1062	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017620-fbaB|dhnA-K11645	NA	NA
BMS020_03348	252			hypothetical protein	ATGACACAGCACGAACGGTTTTGCCAGGCCTGCGGAATGCCGATGTCCGCACCCGATGCGCAAGGGGCCAGCGATAAATATTGCGCGTATTGCAGCGACAGCGACGGTAATCTGAAATCCTGGGAAGAGGCCGTATCCGGTCTGGCGGCTTTTCTCGACTCCTGGCAAAAGGTGGGCGTAGCGGAATCACGGAAACGGGCAAAACGTTACCTGACGGCGATGCCTGCCTGGGCGCACAAAGCGGACGAGTAA	MTQHERFCQACGMPMSAPDAQGASDKYCAYCSDSDGNLKSWEEAVSGLAAFLDSWQKVGVAESRKRAKRYLTAMPAWAHKADE				NA	NA	NA	NA	NA
BMS020_03349	1398	lpd_1	COG1249	Dihydrolipoyl dehydrogenase	ATGCACGATAAATACGATGTGCTGATCATCGGCGGTGGTCCTGGGGGATATGTGGCCGCCATCCGTGCCGGCCAGCTAGGGCTTCGTACCGCATTAGTGGAAAAACAACATCTGGGCGGCATCTGCCTGAACTGGGGATGCATTCCAACCAAGGCGCTGTTGCATGGCGCTGAGGTCGCGCACAGTATCACCCATGCCAGTCAGCTGGGCATCAGCGTGGGTGAGGTGAACATCGATCTGCAGAAACTGGTGCAGTTTAGCCGTACCGTATCGCAACAGCTCACCGGCGGGGTGGCGTACCTGTTGAAGAAAAATGGCGTGCAGGTCATTGATGGCACCGCGCGGCTGCGCGGCAAGGGGCAAATAACGGTCGAGGATGCCCGGGGGGAGACGCGCGATTACCGGGCCGATCACGTGATCCTGGCCACGGGCGCCCGACCACGCGCATTACCAGGCATCGCGCCAGATGGCGAATATATCTGGACCTATTTCGAGGCGCTGCGGCCTAAGCTATTGCCCAGGTCGCTATTAATCATCGGTTCAGGGGCGATTGGCGTCGAGTTCGCCAGCCTTTATAACGATCTGGGCTGTAAGGTGACGCTGGTCGAGCTAGCGTCGCAGATTTTGCCAGTGGAAGATGCCGAGGTGTCTGCAGCAGTGCGTAAGTCATTCGAAAAACGCGGGATTCAGGTCCATACCCAGACTCTGGTGACGCAAGTACAGCTCACCGGGAGCGGGGTGCGCTGCACCATGAAAAACACCGGCGCCGAATATTCTCAGGACGTCGAACGTGTGCTGCTGGCGGTCGGCGTACAGCCGAATATTGAAGATCTGGGGCTGGAAACGCTGGGCGTCGAGTTAGACCGCGGTTTTATCAAGACGGACACCGCTTGTCGCACTAACGTATTCGGGCTTTATGCCATCGGCGATGTAGCCGGCCCGCCGTGCCTGGCGCACAAGGCCAGCCACGAAGGCGTGATCTGCGTTGAGACACTGGCTGGTGTCGAAGGCGCCCACCCGCTTGATCGCGACTATGTGCCCGGTTGCACGTATGCCCGGCCCCAGGTTGCCAGTCTGGGCTTGACGGAATCGACGGCCCTGGCCAGGGGACGGCCCGTCAGAATCGGTAAGTTCTCCTGGCAGAATAATGGTAAGGCGCTGGCCAGCGGCGAGACAGAGGGTTTTGTGAAGACGATTTTCGATGCTGAAACCGGCGAGTTGCTGGGCGCGCATATGGTTGGCGCACAGGTCACGGAACTGATCCAGGGGTTTGGCATCGCCCGTCACCTGGAGGCCACAGATGAAAGTCTCCTGTCGATGATCTTCGCGCATCCAACACTTTCCGAAGCGATGCATGAATCCATCCTCGCGGCCTGCGATCAACCATTGCACCAATAA	MHDKYDVLIIGGGPGGYVAAIRAGQLGLRTALVEKQHLGGICLNWGCIPTKALLHGAEVAHSITHASQLGISVGEVNIDLQKLVQFSRTVSQQLTGGVAYLLKKNGVQVIDGTARLRGKGQITVEDARGETRDYRADHVILATGARPRALPGIAPDGEYIWTYFEALRPKLLPRSLLIIGSGAIGVEFASLYNDLGCKVTLVELASQILPVEDAEVSAAVRKSFEKRGIQVHTQTLVTQVQLTGSGVRCTMKNTGAEYSQDVERVLLAVGVQPNIEDLGLETLGVELDRGFIKTDTACRTNVFGLYAIGDVAGPPCLAHKASHEGVICVETLAGVEGAHPLDRDYVPGCTYARPQVASLGLTESTALARGRPVRIGKFSWQNNGKALASGETEGFVKTIFDAETGELLGAHMVGAQVTELIQGFGIARHLEATDESLLSMIFAHPTLSEAMHESILAACDQPLHQ	PGPT0001380_6795	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
BMS020_03350	1536	pdhC_1		Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	ATGAGCGAAATCAAGACGCTTGAAATGCCAAAGTGGGGGCTTTCCATGGAAGAAGGCTTGCTCGCTCGGTGGGCAATCCAGGAGGGTGACAGCTTCACCCCAGGGCAGGAAATCTGTGAGATTGAAACCAGTAAAATCGTCAATGTGCTGGAGGCCCCCTTTGCCGGTACGTTACGTCGGATACTCGCCCGAGAGGGTGAGACGCTTCAGGTAGGCGCCGTGCTGGCCCTGGCGGCTGACGCTTCGGTCAGCGATGCTGACCTGGACGAATTCGCTGCCACTCTGGCTACGGCGAAACCCGCAGCCCCTGGCACGGAGGCTGCCGCGCCGGACGTAGCGGCACAGGCAGGCGCTAAGCCACCTTCCGTTGTTTCGCCGCCATCCAACAGCCCCGAGCCCCCCGTTGGGCAGACCGACATCCCCATCAGTCTGCAAGGCGTGACCGATGTGACTCAGGTTAATGCCACGCCCCATGCGTTACGACTCTCTGCCCGCTGGGGTGTCGACCTGAAAAAAGTCCGCGGCAGCGGGCGCGGGGATCGTATCTCAGTTTCTGATCTGGAAAGCGCGATCCTTGCCGCCGGCGGTCGCCTGGCCTCTCCGACGCCCCCTGTTCGTCGCAGCAAAGCGCCCCGCTCGCATGCCGATGACAGCCAGGTATCGGCCACCCCGCTGGCGCGCCGTCTGGCCGGCAAGCTGGGTATCAACTTGCATGACTGCCGAAGCAGCGGTTCACGCGGCCGGGTGAGTCGCGATGATGTGCTGGCCGCGGCGTTGTTACTCGACGAGCACCCGCAGACCAGCCCGGTACAGGAGAGTACCCCGGTACCCTATGAAAGCATCCCCATGTCCGGTATGCGCCGGGCTATCGCCTCTCGCCTGCAAACGTCCAAGCAACAGTCTCCCCATTTCCGTTTGAGCGTCGATCTCGATCTGGAAAGACTGTTAGCGCTACGTCAGGAAATTAACCGCGAAGTACCCGGCGTCAAGATTTCGGTTAATGACCTGCTGGTGAAGGCCTGCGCCCTGGCGCTGGTGGCCGTGCCTGACGTCAACATTCAGTTTGATGAAGCGACACAAAGTATCCGCCGCTTTGCGGATGCCGACATTTCAGTGGCCGTTGCGCTGCCTGCCGGGCTAATTACCCCTATTGTTCGCTCGGCGAACCGGAAATCAATTAGCGACATATCGAACGAAATTCACTCGCTGGTGACCAGGGCCAAAGCGGGCACGCTGAAGCCGGAAGAGTTCCAGGGGGGGACCTTTAGCGTGTCAAATCTGGGGATGCTCGGCGTCCGGCAGTTTGACGCCATCATCAATCCACCGCAAAGCGCAATCCTCGCCATTGGCGCCGGCGAAATGCGGGCGGTAGTACGCGACGGGCAAATCGTCGCGCGCCAGCAAATGACGGTATCGCTATCCTGCGATCACCGGGTTATCGATGGCGCGGCAGGTGCGGCTTTTCTCCGGGAACTCAGGCGACTGACGGAAACCCCAACCTTGATGTTTATCCAGGAGACGAGCTATGCACGATAA	MSEIKTLEMPKWGLSMEEGLLARWAIQEGDSFTPGQEICEIETSKIVNVLEAPFAGTLRRILAREGETLQVGAVLALAADASVSDADLDEFAATLATAKPAAPGTEAAAPDVAAQAGAKPPSVVSPPSNSPEPPVGQTDIPISLQGVTDVTQVNATPHALRLSARWGVDLKKVRGSGRGDRISVSDLESAILAAGGRLASPTPPVRRSKAPRSHADDSQVSATPLARRLAGKLGINLHDCRSSGSRGRVSRDDVLAAALLLDEHPQTSPVQESTPVPYESIPMSGMRRAIASRLQTSKQQSPHFRLSVDLDLERLLALRQEINREVPGVKISVNDLLVKACALALVAVPDVNIQFDEATQSIRRFADADISVAVALPAGLITPIVRSANRKSISDISNEIHSLVTRAKAGTLKPEEFQGGTFSVSNLGMLGVRQFDAIINPPQSAILAIGAGEMRAVVRDGQIVARQQMTVSLSCDHRVIDGAAGAAFLRELRRLTETPTLMFIQETSYAR	PGPT0001390_2977	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
BMS020_03351	1020	acoB	COG0022	Acetoin:2,6-dichlorophenolindophenol oxidoreductase subunit beta	ATGGCGATTAAAACCTATCGTGAAGCGGTCAAGGAAGCCCTGGCTCAGGAAATGGAACGCGATGAACGCGTGGTGCTCATCGGTGAAGATTTGCGTGGCGGTCATGGCGGAAATGCGCCCGAAGAGGCGAAGATAGAAGCCTTTGGCGGTGTGCTCGGCGTCACTAAAGGGCTGTGGACGCAGTTCGGCTCCGGTCGGGTGATCGACACGCCCATTACCGAGTCGGCCATCATCGGTATGGCGGCGGGCGCCGCAGCGACGGGTCTGCGGCCGGTCGCGGAATTGATGTTCATGGATTTTTTTGGCGTGAGTCACGATGCGCTGTACAACCAGGCGGCCAAGTTCCGCTACATGTTTGGTGGCAAAGCCAGAGCCCCGCTGGTGATGCGAGGGATGATCGGCGCGGGGTTTTCCGCCGCGGCCCAGCATTCACAGTCACCCTATAATATCTTTGCCACCACGCCAGGGCTGAAGGTGGTGGTGCCCTCGACGCCTTATGACGTCAAAGGTCTGTTAATCCAGTCAATTCGCGACGACGACCCGGTGGTTTTCTGCGAGCATAAAATGCTGTACGACCTCAAGGGCGAGGTACCGGACGAGAGCTATACCATCCCGCTAGGTGTAGCCAACTATACCCGCGAAGGAGAAGACGTCACCATCATTGCGTTGTCGGCAATGGTGCATAAAGCCAATCAGGTGGCGGACAAACTGGCCAGAGAGGGGATCTCGGTCGAGGTGGTCGACCCGCGGACCATTTCGCCGCTGGATGAGGAAGGGATTCTGGAATCGGTGGCGTCCACGGGGCGGGTAGTGATTGTCGACGAATCCGCGGCACGCTTCGGTTTTGCGCATGATGTCGCGGCGCTGATCGCGTCCCAGGCATTCCATTTCCTCAAAGCGCCCGTTCTGCTGGTGACGCCGCCACACACGCCGGTCCCGTTCTCCCCTGCTCTCGAAAAACTCTGGATCCCTGGCGTAGAACGTATCGAAGCCGCCGTCCGTCAAGTGCTGGAGGATTAA	MAIKTYREAVKEALAQEMERDERVVLIGEDLRGGHGGNAPEEAKIEAFGGVLGVTKGLWTQFGSGRVIDTPITESAIIGMAAGAAATGLRPVAELMFMDFFGVSHDALYNQAAKFRYMFGGKARAPLVMRGMIGAGFSAAAQHSQSPYNIFATTPGLKVVVPSTPYDVKGLLIQSIRDDDPVVFCEHKMLYDLKGEVPDESYTIPLGVANYTREGEDVTIIALSAMVHKANQVADKLAREGISVEVVDPRTISPLDEEGILESVASTGRVVIVDESAARFGFAHDVAALIASQAFHFLKAPVLLVTPPHTPVPFSPALEKLWIPGVERIEAAVRQVLED	PGPT0008235_406	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008235-acoB-K21417	NA	NA
BMS020_03352	960	acoA	COG1071	Acetoin:2,6-dichlorophenolindophenol oxidoreductase subunit alpha	ATGCTCAGCAAACAGGCGTTATTGCAGGCTTACCGCAAGATGCGGGAGATCAGGACCTTTGAAGAGCGGTTGCATCAGGAAAATACCAGCGGTGATATTCCCGGCTTCATTCACCTTTACACCGGTGAGGAGGCCATCGCGGTGGGGGTCTGCGAAAATTTAACGAGCGCAGATTTTATTGGTTCAACACACCGTGGACATGGCCACTGTATTGCTAAAGGGTGTGACATTCACGGCATGATGGCCGAAATATTCGGTAAGGACAGCGGGTTATGTCGCGGTAAGGGTGGGTCGATGCACATTGCCGATCTGTCGAAAGGAATGCTGGGAGCGAACGCTATCGTTGGGGGAGCCCCTCCCCTGGCCATCGGCGCCGCGCTAACGGCAAAGACGCTAAAAACCGGCAACGTCGGTGTCTCTTTTACGGGCGATGGGGGTTCTAATCAGGGCCTGGTCTTTGAAGCCATCAATATGGCCGTCGTGCTCCAGCTTCCGGCCGTCTTTATTTTCGAGAACAACGGTTACGGCGAAGGGACCGGTCATGACTACGCCGTGGGTGGGCGTGATATCGCCCGACGTGCCGCTGGCTTCGGCCTGCCGGCAGTGACCGTTGATGGCACCGATTTCTTTGCCGTTTATGAGGCCACTTCAGAGGCGGTCAAACGTGCGCGAGAAGGCGGTGGCCCAAGCGTCATTGAGGCCAAAGCCTTCCGCTGGCACGGTCATTTTGAGGGGGATCCCGCGCTATACCGCGCGGAAGGTGAAGTGCAACGCCTGCGTGAACAACATGATCCGCTGAAGATTTTCACCGCTAAGGTCAAACAGCATATCACCCCGGAAGAACTGGCGGCGATTGACGAGGAAGTAGAAGCCCTTGTCAACGATGCGGTATTGAAGGCCCGCGCCGCTGCCTATCCGGCTCCGGAAGACCTGCTGACAGACGTTTATGTCTCATACTGA	MLSKQALLQAYRKMREIRTFEERLHQENTSGDIPGFIHLYTGEEAIAVGVCENLTSADFIGSTHRGHGHCIAKGCDIHGMMAEIFGKDSGLCRGKGGSMHIADLSKGMLGANAIVGGAPPLAIGAALTAKTLKTGNVGVSFTGDGGSNQGLVFEAINMAVVLQLPAVFIFENNGYGEGTGHDYAVGGRDIARRAAGFGLPAVTVDGTDFFAVYEATSEAVKRAREGGGPSVIEAKAFRWHGHFEGDPALYRAEGEVQRLREQHDPLKIFTAKVKQHITPEELAAIDEEVEALVNDAVLKARAAAYPAPEDLLTDVYVSY	PGPT0008230_979	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008230-acoA-K21416	NA	NA
BMS020_03353	2526	malT_2	COG2909	HTH-type transcriptional regulator MalT	ATGGTCGCCCAGGGGGAACGTATCGCCTGGCTGAGCCTCGATGAGGATGATGATGACGTATGGCAGTTTATTCCTTACCTGCTGCAAGCATTGCGTCCACTTTATGCTGACTGGGACGCCGATTTCTGGCGTGATATGGAAGAACAGAAGCTCTCCAGCTCCGAGCAGCTGCTGGCCGGGCTCATTAACCAGCTACACTACTGCCCGCATGACATATACCTGATTATCGACGACTTCCACGTGATTAACGATCGTGGGGTCTATGAAGCGCTGGGGTATTTACTCAAGCATGCGCCTGCCGCCTTGCATCTGATCATTGGCAGCCGTTTCCACCCGAATCTTGCGCTGAGCCAGCTGCAGGCCCAGGACCAACTGGTGGAGATCTATGATCGAGACCTGCAATTCACGCTCGAAGAAACGAAACACTATTTTAGCCGCACGGTTGCGTTACCCCTCAGCAACCACCATGCACAGCGGCTGCAGTCCGTGACTGAGGGCTGGATCGCAGGGATGAAGATCGCTTCATTGTCCGCAGAATTACAGCATGATCCCGAGCATCTGTTGCGCAATATGCATGGAGGAACACGGTCCATTGCCCGCTATCTTAAAGAGGTGGTCCTGGACCCGCTGCCGGAAGCGGTGCTTGATTTCCTGGTGAAAACGTCCTTCCTCAGTCGGTTAAATGCCGAACTATGCAATGCAGTGACAGGACGAGATGACAGCCAAGCAATGCTGGCATGGATTGAGCGACACAACCTTTTTTTGTCAGCCCTTGACGAACAAGGCTACTGGTTCCGCTACCATCCTCTGTTGCAGGAAAATCTTCGGACCATGCTGCAGCAGAACAACGCTATTGATCGCAAACAGCTACATGAATTAGCCAGTCATTGGTTCGTCGAACAGAAGCTGTGGTCTGAGGCGGTACGCCATGCGCTCAGCGCAGGCAAGCCGGTGCATAGCCCCGGGCAGGACGGCGCAAGCGCTCAGTCACTGGCGGAAGAAGGGGATATCGATACCCTGATCTCATGGATGCATCATTTACCGCCCAGCACCGATCCTGCGCGCATTGACCTGCAAATTAACCTGGCCTGGGCACTGGCGCATTATTTCCACTTTGATGAGTCGAGGCAGCTGCTTGATAACCTCGATCAGATGGTGCTTCATCACCGTGATGATTTAACCCGCAGCACCTGGTGTAAATTGCGCGTTGTGCGGGCAATTTGCGAAGCCTTTGCTGAAAACATCCCGGAGAGTCTGGCTATTGTTCAGCCGTTGCTGGCCGAAGTGCCCTGTGGCGACACCTGGGTTGATGGTCTGATATGCAATATTCTCAGCTATTGCCATGTTGTTAACCAGCGCTATCACGACGCGCTGGAGGTTCAACAGCATATGCCCTCTCCGGAAAGCCCTTTAGATAATCTGTTTGTCTCGGTATATCGCGCTTTTATCATTGCCCAGTGCCATCTATGTCAGGGCGATCTGGGAAAAGCCGGGTGGTACGCAGAGAAAACGTTGCGCCAGGCTGAATGTTATACCGGCACCCAGTCGACCAGTGGCGCGACGCTGGCGCCGCTGCTGGCGGAGATAGCATATGAATGTCAGAGGGCTGACTCGCCCGAGCATCTGTTAGCCGACCGGCTCGAATTCATCGACCGGTTCAGTCCACCCGACGCGCTGAGTCGTTGCTATACCTATCTCGCGCGTCAGGCCTTAGATAGCGATATGCCCTATGAGGCCGAGCGATTGCTGGAGCATGCGCAGCGCCTTGCGGTGTCTCGCGGCTGGCAACGGCTCCAGGCCATGTTGTTAGCCGAGCAGGTGAGGGGGCGCCTGCAGCGCGGCAATTTCACCGGCGCAGAGCAACTGCAACGGCAGCTTGAACAAATGGCCGCCAGCTTCAGAATGGATGCCGAACATCCCTGCCAACGCGCCATCGTTATGTCTGCATCCCTTAGCCGCAGCCGGCTTCTTCTCGCCAGAGGCCAGGCGCCGCAAGCCTGCATTTTACTGGCTGAGATGGTCTCCGATCAGGAAAGCCGGGGGGACAGGTTAACCGCAGCGCGTCTGCGTACGCTCTGGTCATTAGCCTTGTGGAACAGCGGCGAAACTGCCGCTGCGCGCATGACATTTCAACCAGTGCTGCAGCTGGCTGAACAACAGCATCTCAAGGGCCTCTTTCTTGACGCTGGCGATACCTTGCAACCTTTGCTTGCCGGTATGAATGAAACCTCTTCGGCTTGTACAGAGGAAGGGATAGTCCATGAACCCTGGGCAGACAAGCGCGCGCCTGCAGACAGAACACCGCTAAATAGTGGAAGCCCCGATATTCATGAGGAGCTCAGCGAGCGAGAGTTGCAGATATTACAGCTGATCGCTGAAGGTCAGATGAACAAAGAAATCGCCCGCTCCCTCGCTATTTCTGCCGAGACGGTCAAATGGCACATCAAAAACATCTACGCGAAGCTTAAAGTGAATAGCCGCACTCAAGCGATGAGCCGGGCGCTGGAGATGAAATTACTGGATTAA	MVAQGERIAWLSLDEDDDDVWQFIPYLLQALRPLYADWDADFWRDMEEQKLSSSEQLLAGLINQLHYCPHDIYLIIDDFHVINDRGVYEALGYLLKHAPAALHLIIGSRFHPNLALSQLQAQDQLVEIYDRDLQFTLEETKHYFSRTVALPLSNHHAQRLQSVTEGWIAGMKIASLSAELQHDPEHLLRNMHGGTRSIARYLKEVVLDPLPEAVLDFLVKTSFLSRLNAELCNAVTGRDDSQAMLAWIERHNLFLSALDEQGYWFRYHPLLQENLRTMLQQNNAIDRKQLHELASHWFVEQKLWSEAVRHALSAGKPVHSPGQDGASAQSLAEEGDIDTLISWMHHLPPSTDPARIDLQINLAWALAHYFHFDESRQLLDNLDQMVLHHRDDLTRSTWCKLRVVRAICEAFAENIPESLAIVQPLLAEVPCGDTWVDGLICNILSYCHVVNQRYHDALEVQQHMPSPESPLDNLFVSVYRAFIIAQCHLCQGDLGKAGWYAEKTLRQAECYTGTQSTSGATLAPLLAEIAYECQRADSPEHLLADRLEFIDRFSPPDALSRCYTYLARQALDSDMPYEAERLLEHAQRLAVSRGWQRLQAMLLAEQVRGRLQRGNFTGAEQLQRQLEQMAASFRMDAEHPCQRAIVMSASLSRSRLLLARGQAPQACILLAEMVSDQESRGDRLTAARLRTLWSLALWNSGETAAARMTFQPVLQLAEQQHLKGLFLDAGDTLQPLLAGMNETSSACTEEGIVHEPWADKRAPADRTPLNSGSPDIHEELSERELQILQLIAEGQMNKEIARSLAISAETVKWHIKNIYAKLKVNSRTQAMSRALEMKLLD	PGPT0018616_342	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018616-malT-K03556	NA	NA
BMS020_03354	903			hypothetical protein	ATGTTTCAAATGGCAAGAACGAAAAAATTAACTTATGGGGCTGTGAACATTACTATGCATCCTCACTCCCCAGAAAAGTATGTAGAGCTATTCAGGATGGCTAGAAAAAACTCGGAAAATATTAATTTAAGAGGCGATTCTTATGCAACTTTATCATTTTTTTATCCTTATAAAAAAGGACAATCAGAAAATGAACCTTTCGAAGGTGAGGTCTTAAAATTTACTGACATTGATGTTGAGGGAGATTGGTTCAATATTGTAAAAAAAGACGTGGCTTCTGATGAGGAAAAAGGAAAGATTGTAATACCAGAAAATTTAAAACCTAATGTAGCTCGATTCTCTTTTGTATTTTTACCTGCAAGTCATCTTTTAGTTTATGAAATGCAGGATAAAAGTCGAAACCTTACACCAAGACAGATGTCATCATTTATAACCGGTATATTCTCCAACGAAAAAATAATCAAGAAATTTGGTAAAATCAATGTCACTATATTAACTGAACCAGAAAGTGTTCAGCGAATGCTTGCCCTTAAGGGGATTACATGTATAAACATGGTGACTCGGCGTCCAAACCCCGATGATCTTGCTTCTGCGGAAAGTATAATGCAAAAAAGATTCAAACGTATTGGGGTTATTGAAGAAGACAAGACATATAAATCTGAGAGAGGCCAAGAAATTAAACCGGATGTCGAATTAAAACAAGATGCTCTAATTGCATCTAGAAATGGTGAAGTAAGCATCCGTAGAGTTAATGAATTTGGGTTAGTAGAAGTTCATGCCTCAAGTGACACCCCGCTTCAGCGCGTTGAGCCTTACGACCCAGATGTAACATCAGTTACAGATTTATTATTATTGAGAGCAAAATCATTAGCAGGCGAATTTAAGAGGTTACTGACAAGGTAA	MFQMARTKKLTYGAVNITMHPHSPEKYVELFRMARKNSENINLRGDSYATLSFFYPYKKGQSENEPFEGEVLKFTDIDVEGDWFNIVKKDVASDEEKGKIVIPENLKPNVARFSFVFLPASHLLVYEMQDKSRNLTPRQMSSFITGIFSNEKIIKKFGKINVTILTEPESVQRMLALKGITCINMVTRRPNPDDLASAESIMQKRFKRIGVIEEDKTYKSERGQEIKPDVELKQDALIASRNGEVSIRRVNEFGLVEVHASSDTPLQRVEPYDPDVTSVTDLLLLRAKSLAGEFKRLLTR				NA	NA	NA	NA	NA
BMS020_03355	621			hypothetical protein	ATGAGCAAAAAGAAAGAATCAACCAGTGCATTAGCCAGATACTGGAAAATATATGGTGGAACTGGGGCTATATTTAAAAGCTGCTATTTTTGGTCTGCTTTACTTATGACTGTGATTCTTTACCCATCTTGGTCTCATAAAGGATGGTGGAATGATATTTTATCATTGATGCCAAACCTACTTGGATTTTCGTTAGGTGGTTTTGCTATGTGGATAGCAATTGGTGATGAAGCATTTAAAAAAATAATAACTGGTGATGAGGTAAATGAGAATGGAGAAATGGAAAGCTCACCGTACATGTCAGTAAATGCAACTTTTGTACATTTTATATTATTGCAGTTGTTAACAATAATTACTGCGCTTATTACAAAAGCATACAGTTCTATTCTTATTGATAATGCGTTTATGTATTATTATATTGGGATTAGTTATAAGTACATCTTGTTGGGTTTTAGCTTTTTTGCCTACTTTATATTTATATACTCTGTTTTCTCTGCATTAGCTGCTGTCTTGGCTATTTTTAGAGTTTCAAGCTGGTATGATAAATTTATGACACTACGAAATATACAGGAGGAATCTAAGAAAAACAAAGAAGATACTATCTCAGAGAAATCTAGCTAA	MSKKKESTSALARYWKIYGGTGAIFKSCYFWSALLMTVILYPSWSHKGWWNDILSLMPNLLGFSLGGFAMWIAIGDEAFKKIITGDEVNENGEMESSPYMSVNATFVHFILLQLLTIITALITKAYSSILIDNAFMYYYIGISYKYILLGFSFFAYFIFIYSVFSALAAVLAIFRVSSWYDKFMTLRNIQEESKKNKEDTISEKSS				NA	NA	NA	NA	NA
BMS020_03356	699			hypothetical protein	ATGCCTCTGAATTGCATTGTGTATGAAGGTGAGGATCTTGAAACATATAGAGATTATAATGCGCTGCCTAACGACAATAAAGATGGAAGAATATGGGATTCGGAAGAGCGTAAGATTTGTAGAATTAAAAAATCAATTAAAGACTATTATATTATTGCTCAGGATTACACATGTCCTTATTGTAAACAAAGGATTGAGGTTGACCATAATGGTGCTTGGGATGCCGAACATATAATACCTAAAAGTAGTCACCCAAACTTTGTTTTTGATCCTTTAAATTTATGTGTTTCATGCAAGGATTGTAATAATGAAAAAAGGGACAAGACTGTATTAGAGAATAATAACAGGAGAAGACTTCCTATTAGAAGTGAAGATTACATTATTGTCCATCCTCATTTTGACGATTATGATGAGCATATTAAAGTAATTGAGGTTGCGGGTTATTATATACCACGAACAGATAAAGGTAGAAAAACAATAGAAAAATGTGGTTTATTAAGATTTGCATATAAATACGCAAACTATGGAGGAACTTCTCAGGAAAATAAAGAAACCATTCTAACTTTAGCTAATGGTCTATTAGGTGCTAATACTCCGGCTGATGAACATGCCTTTTTAGGTGTGATTTCAGATGCAGTGGAAACTGGAAAGAAACTATCAAAAACAGCATTTCTGCAGCAATTTGCAGTAAGGGAATAA	MPLNCIVYEGEDLETYRDYNALPNDNKDGRIWDSEERKICRIKKSIKDYYIIAQDYTCPYCKQRIEVDHNGAWDAEHIIPKSSHPNFVFDPLNLCVSCKDCNNEKRDKTVLENNNRRRLPIRSEDYIIVHPHFDDYDEHIKVIEVAGYYIPRTDKGRKTIEKCGLLRFAYKYANYGGTSQENKETILTLANGLLGANTPADEHAFLGVISDAVETGKKLSKTAFLQQFAVRE				NA	NA	NA	NA	NA
BMS020_03357	1242			hypothetical protein	ATGTTTTTTGAAAAAGAAATTAATGCTAGGTATTTTCTAGGAAGGGTTAAACAAGCTCATTATAACACTTCAGTTGTAATTCTTGGTCAAAATGGAGAAGGGAAAAGTAGGCTGCTAGTTGATATAATAGGGTATGCCAAAGATAACAACTATACCAATGTCATAGCTGTATCTACGAGCCCTTTTGATAAATTTCCGATAAGGAAAAAGTTTAGCGGTATAGATTACAGCTATGTCGGTGTGAAAGGAGGCGCGACAGGTAACTCTATATTGTCTTTAATCGGTTCGGCTTCATTGGGGTTATTGAATCAAAATAAATTTAATGGCATTTATGTAGAACGAATTCTGTCTTTTTTAGGTGCTTCCTCTGAAGTTGAATATGTATTCAAAGTTAATCAGAAAATATTTCAAAAGCAAAATTACTCAGATGAGATTAATGGTCCAGATATCCATCATTTTCATCATAATGGATTTTTTGGAAAAGACTTGCATTTTTCTGACAATGAACTTTATAACATTAATAAAGCTATAGACTTATTAACGTACTTAGTTGATAGCAATAAAAACTTCAAAGTGAGATTGAAGATTGGTAGTGAAGGTTACATAAAAACTAAAGATGTTTTCATTGATAATCTTAATAGTAAGCTTTTAACATTACTTGATCATGATCTCATAAAGTTAATTGATTTTAGAATAGAAAAAAAAGAGTTTGGTTGGATGTCGTTGAGGCTTGCAAGTTCAGGGGAGCAATGTATTCTATTATCGATGCTAGGCATTGCCACAAATATCACTGATAACTCTTTAATTCTTATAGATGAGCCTGAGATCAGTCTCCATCCTGAGTGGCAAGAGAGATATATATCACTTCTGATGAGGATTTTTGAGAGATATAATTCATGCCTTTTTATCATTGCTACTCATTCTCCACAAATAGTATCGAAACTTGATGCCTATAGATCATATATTTACACTATTAAAAATGATGAACTAGTAAGTGCTTCTGAGTATGTGAAAAGATCTTCAGACTTTCAATTAGCCAACCTATTTCTAGCTCCTGGTTATAAAAATGAATATTTAACAAGAGAGCTAATAACATTCCTCACGTCTCCGCAAGAATACTATGCAGATAAAGGCTATGCAGAAATAATAAAAATTATCTCTTTGAGGGATAATATTGATAAAGATGATCCTGTATTTAAGTTGATTGAATTGGCTCGTAAAGTAATTGCGGAGATATCGTAA	MFFEKEINARYFLGRVKQAHYNTSVVILGQNGEGKSRLLVDIIGYAKDNNYTNVIAVSTSPFDKFPIRKKFSGIDYSYVGVKGGATGNSILSLIGSASLGLLNQNKFNGIYVERILSFLGASSEVEYVFKVNQKIFQKQNYSDEINGPDIHHFHHNGFFGKDLHFSDNELYNINKAIDLLTYLVDSNKNFKVRLKIGSEGYIKTKDVFIDNLNSKLLTLLDHDLIKLIDFRIEKKEFGWMSLRLASSGEQCILLSMLGIATNITDNSLILIDEPEISLHPEWQERYISLLMRIFERYNSCLFIIATHSPQIVSKLDAYRSYIYTIKNDELVSASEYVKRSSDFQLANLFLAPGYKNEYLTRELITFLTSPQEYYADKGYAEIIKIISLRDNIDKDDPVFKLIELARKVIAEIS				NA	NA	NA	NA	NA
BMS020_03358	246			hypothetical protein	ATGCGCAGGTCACATCTTGTGCCATTGTCGACTCAGGCGTTAGATTTACTCAATGAACTGAAGATCATGACTGGGAACTATCGTCATGTTTTTCCGGGGCGGAACGATCCGAGTAAGCCAATGAGGGAGGCCAGTATCAATCAGGTTATCAAGCGAATTGGCTTTGGGGAAAAGTTACGGGACATGGTTTTAGACATATGCTATCAACGATTTTACATGAAGAAGGTTTTGATTCATCATATATAG	MRRSHLVPLSTQALDLLNELKIMTGNYRHVFPGRNDPSKPMREASINQVIKRIGFGEKLRDMVLDICYQRFYMKKVLIHHI				NA	NA	NA	NA	NA
BMS020_03359	540	intS_2	COG0582	Prophage integrase IntS	ATGCCTTTAAATGATATGCAGATTCGCTGCACTAAGCCCGAAGATAAACCCTATACGCTTAGGGATCGGCAAGGCTTGTCATTGTTTATAGAACCTAATGGAAGCAAAAGCTGGCTGTTCCTCTATCGCTATGTCGGTAAGCCCAAAATGATCTCGCCTGGTGTGTATCCGACGATCAACCTTGCCGATGCTCGCCCTCATCACGACGATACCCGAAAGCTGGTCGCGGAAGGAAAGAACCCGAATGAGGTTCGAAAAGAGCAGAAGGTCGCTTTGCAAACGGAATCCGGAAGTGCGTTCGAAAAGATAGCTAGAGAGTGGCATCACATGAAGACCGCCAAATGGTCGGCAGGATATGTGTTAGATGTCATAGAAGCGTTTAAAAACAACATTTTCCCTTATGTTGGAACAAGGAAAGTGGGAAAGATAAAACCGCTGGAGCTGCTTAACGTACTGCGTAAAATTGAAAACGCGGGGCGTTGGAGAAAATGCGGAAAGTGCATCAGCGTTGCTCCGAAGTGTTTCTCTACGCAATTGTAA	MPLNDMQIRCTKPEDKPYTLRDRQGLSLFIEPNGSKSWLFLYRYVGKPKMISPGVYPTINLADARPHHDDTRKLVAEGKNPNEVRKEQKVALQTESGSAFEKIAREWHHMKTAKWSAGYVLDVIEAFKNNIFPYVGTRKVGKIKPLELLNVLRKIENAGRWRKCGKCISVAPKCFSTQL				NA	NA	NA	NA	NA
BMS020_03361	1254	proA_1	COG0014	Gamma-glutamyl phosphate reductase	ATGCTGGAACAAATGGGCATTGCCGCCAAAGCGGCCTCCTGGCAGCTGGCGTTACTCTCCAGCCGGGAAAAGAACCAGGTACTGGAAAAGATCGCCGATTATCTGGAAGCGCAGACCGACGATATTCTACGCGCCAACGCGGAAGATTTAGCGGAAGCTCGCGCCAATGGTCTGAGTGAAGCGATGCTCGATCGCCTTGCGCTGACCCCGGCGCGTCTGAGCGGCATCGCCAGCGATGTGCGCCAGGTGTGCAATCTGGCCGACCCGGTCGGCCAGGTGATCGACGGCGGGCTGCTGGACAGCGGTCTGCGTATTGAACGTCGCCGCGTCCCGCTGGGGGTGATTGGCGTGATTTATGAAGCGCGTCCCAACGTGACGGTCGACGTCGCCTCCCTGTGCCTGAAAACCGGCAACGCAGCGATCCTGCGCGGCGGGAAAGAGACCTGGCGCACCAACGCCGCCACGGTGAAGGTGATCCAGCAGGCGCTGCAGGAGTGCGGTCTGCCGGCCGCCGCGGTACAGGCTATCGAGAGCCCGGATCGCGCGCTGGTGGGAGAAATGCTGAAGATGGATAAATACATCGATATGCTGATCCCCCGCGGCGGCGCGGGCCTGCACAAGCTGTGCCGCGAGCAGTCAACGATCCCGGTAATCACCGGCGGGATTGGCGTGTGCCATATCTTCGTTGATGAAACCGCCGAGATCGCCCCTGCGCTGAAGATCATTGTCAACGCCAAGACCCAGCGGCCGAGCACCTGCAACACCGTGGAAACGCTGCTGGTACACCGCAACATCGCCGACACCTTCCTGCCGGCGTTAAGCAAGCAGATGGCCGAGAGCGGCGTCACCCTGCACGCCGCCCCCTCCGCCCTGCCCGCGCTGCAAAATGGCCCTGCAAAGGTCGAGCCGGTGAAAGCGGAGCAGTATGACGACGAGTATCTGTCGCTGGATCTGAACGTCAAAGTCGTGGCCGATATGGATGAGGCTATCGCCCATATCCGCGAGCATGGCACCCAGCACTCCGACGCCATCCTGACCCGCACCCTGCGTAACGCCAACCGCTTTATCAATGAAGTGGACTCTTCCGCGGTCTACGTGAACGCCTCCACGCGCTTCACCGACGGCGGCCAGTTCGGCCTCGGCGCGGAGGTGGCGGTCAGCACCCAGAAGCTGCACGCCCGCGGCCCGATGGGGCTGGAAGCGTTAACCACTTATAAGTGGATTGGTTTTGGCGACGATACCATTCGTGCGTAA	MLEQMGIAAKAASWQLALLSSREKNQVLEKIADYLEAQTDDILRANAEDLAEARANGLSEAMLDRLALTPARLSGIASDVRQVCNLADPVGQVIDGGLLDSGLRIERRRVPLGVIGVIYEARPNVTVDVASLCLKTGNAAILRGGKETWRTNAATVKVIQQALQECGLPAAAVQAIESPDRALVGEMLKMDKYIDMLIPRGGAGLHKLCREQSTIPVITGGIGVCHIFVDETAEIAPALKIIVNAKTQRPSTCNTVETLLVHRNIADTFLPALSKQMAESGVTLHAAPSALPALQNGPAKVEPVKAEQYDDEYLSLDLNVKVVADMDEAIAHIREHGTQHSDAILTRTLRNANRFINEVDSSAVYVNASTRFTDGGQFGLGAEVAVSTQKLHARGPMGLEALTTYKWIGFGDDTIRA	PGPT0014215_3230	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014215-proA-K00147	NA	NA
BMS020_03362	1104	proB_1	COG0263	Glutamate 5-kinase	ATGAGTGAAAGCCAGACGCTGGTGGTAAAACTGGGCACCAGTGTTTTAACAGGCGGGTCCCGTCGCCTGAACCGCGCCCATATCGTCGAGCTCGTGCGCCAGTGCGCACAGCTGCACGCCATGGGACACCGTATTGTCATCGTGACCTCCGGGGCCATTGCCGCCGGGCGCGAGCACCTTGGTTACCCGGAACTGCCCGCCACCATCGCCTCCAAGCAGCTGCTGGCGGCGGTGGGACAAAGCCGTCTGATCCAGCTGTGGGAACAGCTGTTTTCTATCTATGGCATTCACGTTGGCCAGATGCTGCTGACCCGCGCCGACATGGAAGACAGAGAACGGTTCCTCAACGCCCGCGACACCCTGCGCGCCCTGCTGGATAACAGCATCGTCCCGGTCATTAACGAAAATGACGCCGTCGCCACCGCGGAAATCAAAGTGGGCGATAACGACAATCTCTCCGCGCTGGCCGCGATCCTCGCCGGGGCGGATAAGCTGCTGCTGTTAACCGACCAGCCTGGTCTGTTCACCGCCGACCCGCGCAGCAACCCGCAGGCGGAGCTGATTAAAGACGTCTACGGCATCGACGACGCGCTGCGCGCCATCGCCGGCGACAGCGTCTCCGGTCTCGGCACCGGCGGCATGGGCACCAAGCTGCAGGCCGCGGACGTCGCCTGCCGCGCGGGGATTGATACTATTATCGCCGCCGGCAACCGCCCGGACGTCATCGGCCACGCGATGGAAGGTCTGCCGGTAGGCACCTGCTTCCACGCGCAGGAGTCTCCGCTGGAGAACCGTAAGCGCTGGATCTTTGGCGCCCCGCCGGCCGGTGAACTCACCGTCGATGCGGGCGCGACCCAGGCGATCCTCGAACGAGGCAGCTCGCTGCTGCCAAAAGGCATCAAAATCGTCAGCGGCAACTTCTCCCGCGGCGAAGTGATCCGCATCCGCAATAGCGAAGGACGCGATATCGCGCACGGCGTCAGCCGCTACAACAGCGACGCGCTGCGCCTTATCGCCGGCCAGCACTCGCAGCAAATCGATGCCATTCTGGGCTATGAATACGGCCCGGTGGCCGTCCACCGCGATGATATGATCATCCGTTAA	MSESQTLVVKLGTSVLTGGSRRLNRAHIVELVRQCAQLHAMGHRIVIVTSGAIAAGREHLGYPELPATIASKQLLAAVGQSRLIQLWEQLFSIYGIHVGQMLLTRADMEDRERFLNARDTLRALLDNSIVPVINENDAVATAEIKVGDNDNLSALAAILAGADKLLLLTDQPGLFTADPRSNPQAELIKDVYGIDDALRAIAGDSVSGLGTGGMGTKLQAADVACRAGIDTIIAAGNRPDVIGHAMEGLPVGTCFHAQESPLENRKRWIFGAPPAGELTVDAGATQAILERGSSLLPKGIKIVSGNFSRGEVIRIRNSEGRDIAHGVSRYNSDALRLIAGQHSQQIDAILGYEYGPVAVHRDDMIIR	PGPT0014220_2832	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014220-proB-K00931	NA	NA
BMS020_03363	1053	phoE	COG3203	Outer membrane porin PhoE	ATGAAAAAGAGTACTCTGGCATTAATGATGATGGGCTTTGTGGCTTCAACGGCGACGCAGGCAGCGGAAGTTTATAATAAGAACGCGAACAAGCTGGATGTGTACGGCAAGATTAAAGCCATGCATTACTTCAGCGACTATGACAGCAAGGATGGCGATCAGACCTACGTGCGTTTCGGTATTAAAGGCGAAACGCAGATTAACGAAGACCTGACCGGCTATGGCCGTTGGGAATCTGAATTCTCCGGTAACAAAACCGAGAGCGACTCCAGCCAGAAGACTCGTCTGGCGTTCGCCGGGCTGAAGCTGAAGAACTACGGCTCCTTCGACTACGGCCGTAACCTTGGCGCCCTGTACGACGTGGAAGCCTGGACCGATATGTTCCCGGAATTCGGCGGCGATTCCTCTGCTCAGACCGATAACTTTATGACCAAGCGCGCCAGCGGTCTGGCGACCTACCGCAACACCGACTTCTTCGGTCTGGTGGATGGCCTGGATATGACCCTGCAGTACCAGGGTAAAAACGAAGGTCGTGAAGCGAAGAAACAGAACGGCGACGGCGTTGGGACCTCGTTAAGCTATGACTTCGGCGGCAGCGACTTCGCCGTCAGCGCGGCCTACACCAGCTCCGACCGTACCAACGATCAGAACCTGCTGGCCCGCGGCCAGGGTTCGAAAGCGGAAGCCTGGGCGACCGGCCTGAAATATGACGCCAACAACATCTATCTGGCGACCATGTACTCTGAAACCCGCAAGATGACCCCGATCAGCGGCGGCTTTGCCAACAAAGCGCAGAACTTTGAAGCGGTGGCGCAGTATCAGTTCGACTTCGGTCTGCGTCCGTCCCTCGGCTATGTGCTGTCGAAAGGGAAGGATATCGAAGGGGTGGGGAGCGAAGATCTGGTTAACTACATTGACGTGGGCCTGACCTACTACTTCAACAAAAACATGAACGCCTTCGTGGATTACAAAATCAACCAGCTGAAAAGCGATAACAAACTCGGCATCAACGATGACGACATCGTCGCGCTGGGCATGACCTACCAGTTCTGA	MKKSTLALMMMGFVASTATQAAEVYNKNANKLDVYGKIKAMHYFSDYDSKDGDQTYVRFGIKGETQINEDLTGYGRWESEFSGNKTESDSSQKTRLAFAGLKLKNYGSFDYGRNLGALYDVEAWTDMFPEFGGDSSAQTDNFMTKRASGLATYRNTDFFGLVDGLDMTLQYQGKNEGREAKKQNGDGVGTSLSYDFGGSDFAVSAAYTSSDRTNDQNLLARGQGSKAEAWATGLKYDANNIYLATMYSETRKMTPISGGFANKAQNFEAVAQYQFDFGLRPSLGYVLSKGKDIEGVGSEDLVNYIDVGLTYYFNKNMNAFVDYKINQLKSDNKLGINDDDIVALGMTYQF	PGPT0002635_188	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPHATE_TRANSPORT,PGPT0002635-phoE-K11929	NA	NA
BMS020_03364	462			hypothetical protein	ATGACCATTGACGGCGGATCGGACGATCTGATCCCGGTGGTGGCGGCCCTGCATGACCAGATGCACACCTGGCAGGGAACCCCCTATGAATGGGGCGGGACTGAACAAAGCGGCGTCGACTGCTCGGGTTTCGTCTGGCGCACGCTGAAGGATCGCTTTAACCTGCCGATGGAGCGGATCACCACCCGCGAGCTGCTGCACATGGGCGTGCGGGTCGATAAGCGTGATTTACGTCCCGGCGATCTGGTCTTCTTCCGCACCCGAGCCGGCATGCACGTCGGCTTTTACGATACCGATCATAATTTCCTTCACGCCTCGAGCAGCCAGGGCGTGATGCGCTCTTCGCTGGACAACCCTTACTGGGAGTCGGCGTTCTATCAGGCGCGTCGTCTGCCGAAGGAGTATAACGCGCAGATCACCATGAACAGCGACACCCTGCATCTGGCGAAGAACCGCCGCTAA	MTIDGGSDDLIPVVAALHDQMHTWQGTPYEWGGTEQSGVDCSGFVWRTLKDRFNLPMERITTRELLHMGVRVDKRDLRPGDLVFFRTRAGMHVGFYDTDHNFLHASSSQGVMRSSLDNPYWESAFYQARRLPKEYNAQITMNSDTLHLAKNRR	PGPT0023820_648	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
BMS020_03365	870			hypothetical protein	ATGCACGTTCGCTATTCTCTGCTCGCCTCGCAGGCGACAACGGCCACCTTTGTGCTGCTGTGGGGCAGCGCGGCCATTTTTACCCGCTGGGGACTGGACAACGCCTCGCCGATGGCGCTGCTGGTCTTTCGTTTTCTGGTTGCCCTGGTCGCGCTGGCGCCGCTGGCCATCGCCCGTCAACGCTGGCTGCCCGCGCCGGGCACTCGCCTGCAGACAGCGGCCACCGGCCTGATGCTGATTGGCGGCTATTCGGTCTGTTACTTCGAGGCGATGGCCAACGGCGTGACGCCGGGGCTTATCGCCACCATCATGGGGATCCAGCCCATCCTTACGCTTTGCGTGGTGGAGCGCCGCCTGCAGGGGCGGCGGCTGTTGGGGCTGCTGATTGCCCTGGCGGGGCTGGTGCTGCTGGTGTGGCGCAGCCTGGCGGCGTCGCCCATGGCGATGACAGGGATCCTGTTTGCGCTGGCGGCTCTGCTGCTGATGACCTTTGGCGCGCTGTGGCAAAAGCGCAGCCGCCAGTCGCCGGCGGATGTCCTGCCGCTGCAGTATGCCGTTAGTCTGGGGCTGTGCCTGTTGATCGCCCCGGTCAGCGGCTTCCGGTTTACCGTTAACGCCGGGTTGATTATTCCGGTGCTGTTTCTCGGGCTGCTGATTTCGGTGGTCGCCCAACTGCTGCTGTACCATCTGCTGAGCGCGGGGAATATCGTCAATGTCACCAGCCTCTTTTATCTGGTGCCAGCGATCACGGCGCTGCTGGATTATCTGCTGCTGGGCAATCGGCTGCCGGCGGCGGCGATGGTCGGTATGGTGGCGATCGTCGGCGGGATTGTGCTGGTGTTCCGCACCGGCAAGGTCCGCGCCGGCTGA	MHVRYSLLASQATTATFVLLWGSAAIFTRWGLDNASPMALLVFRFLVALVALAPLAIARQRWLPAPGTRLQTAATGLMLIGGYSVCYFEAMANGVTPGLIATIMGIQPILTLCVVERRLQGRRLLGLLIALAGLVLLVWRSLAASPMAMTGILFALAALLLMTFGALWQKRSRQSPADVLPLQYAVSLGLCLLIAPVSGFRFTVNAGLIIPVLFLGLLISVVAQLLLYHLLSAGNIVNVTSLFYLVPAITALLDYLLLGNRLPAAAMVGMVAIVGGIVLVFRTGKVRAG				NA	NA	NA	NA	NA
BMS020_03366	666		COG0560	putative phosphatase	ATGGGCAACACGCTGACGATTTTCGATCTCGATAACACCCTGATACAGGGCGATAGCAGTACGATCTGGAGCCAGTTTATGGTTCGCGAAGGGCTGGCGACGCAGAAGGGGTATCTTGCCCGCGAGGCGCGGCTGATGGCGGATTATGACCGGGGAGAGATGAATATCGCCGATTATGTGGCCCTGATCCAGGCCCCGCTGGCCGGAATACCGAAATCGGACGTAGACGCGCTGGTGGCCCGCTGCGTGCGCGAGGCGATCCTGCCCCGGGTCTATCCGAAGGCGTGGGAACTGATTCGTCGTCTGCGGGCCGAGGGGGAGCAGATGCTGATTATCTCCGCCTCGGTTAGCCTGCTGGTGCAGGCGGTGGCCGCCGCGCTGGAGATTGAGCAGGCGCTGGGCATTGACGTGGCGATGGTCGACGGCGGCTACAGCGGGGCGATTGCCGGGATCCCCAGCTATCAGCAGGGAAAGGTGGCGCGTCTGGCGCAGTGGCGCAAGGCGCATCCGCAGTATGACGGCGAGGTGACTTTTTACACCGATTCCATTAACGATCTGCCGCTGTGCCTGCATGCGGATCGCGTGCGGCTGGTCAATCCCTGTCCGCAGCTGCAGGCGGCCAGTGCCGAATATGGCTGGCCGGTGCTGAGCTGGCGGCTGGAATAG	MGNTLTIFDLDNTLIQGDSSTIWSQFMVREGLATQKGYLAREARLMADYDRGEMNIADYVALIQAPLAGIPKSDVDALVARCVREAILPRVYPKAWELIRRLRAEGEQMLIISASVSLLVQAVAAALEIEQALGIDVAMVDGGYSGAIAGIPSYQQGKVARLAQWRKAHPQYDGEVTFYTDSINDLPLCLHADRVRLVNPCPQLQAASAEYGWPVLSWRLE				NA	NA	NA	NA	NA
BMS020_03367	885			hypothetical protein	ATGAGCGTCTGGCACATGCAACCGGATATCGCCGCCAGCCGTCGGCAGCATAAACAGCTCTATCAGGTCCAGGGGCGCTACCTGCGCTACGTCGGGTTGGTGGCGCTGGCCTGCGTGCTCTATTACGTCTGGTTTTTTCTGCAGTTCGGCATCAGCGGCGAACAGCTGACCACCGGCCTGCAGCAGATTGGCCGCTATCTGGCGCGGATGTTCGTCTGGCACGACTTCTGGAACTGGCCGTTTGGCTATTACTTCACGCAAATCGGCATCACTCTGGCTATCGTCTTCGCCGGGACGCTCACCGCCACGGTGCTGGCGCTGCTGCTCTCCTTCTTCGCCGCCCGCAACATCATGCGCGGCGTGGTGCTGGGGACCCTCGCCCTGCTGATGCGCCGCCTGTTTGATGTGCTGCGCGGGATCGACATGGCTATCTGGGGGCTGATTTTCGTGCGCGCGGTAGGCCTCGGGCCGCTGGCCGGGGTGCTGGCGATCATCATGCAGGACACCGGTCTGCTGGGACGGCTGTACGCGGAAGGACACGAAGCCGTGGACCGCTCCCCCGGGCGCGGGCTGACCGCCGTGGGCGCGAACGGCCTGCAAAAGCATCGTTTTGGCATTTTTACCCAGTCGTTCCCGACCTTCCTCGCGCTGAGCCTGTACCAGATTGAATCCAACACCCGCTCCGCGGCGGTGCTGGGCTTCGTCGGCGCCGGCGGTATCGGGCTTATCTATGCCGAGAATATGCGCCTGTGGAACTGGGATGTGGTGATGTTTATCACGCTGCTGCTGGTGGCGGTGGTGATGATCATGGACACCCTCTCCGCCTGGCTGCGCCGTCGCTATATCGGCGGCGCCGTAGTGCCGCTGTATCAGGAGGAACGCTAG	MSVWHMQPDIAASRRQHKQLYQVQGRYLRYVGLVALACVLYYVWFFLQFGISGEQLTTGLQQIGRYLARMFVWHDFWNWPFGYYFTQIGITLAIVFAGTLTATVLALLLSFFAARNIMRGVVLGTLALLMRRLFDVLRGIDMAIWGLIFVRAVGLGPLAGVLAIIMQDTGLLGRLYAEGHEAVDRSPGRGLTAVGANGLQKHRFGIFTQSFPTFLALSLYQIESNTRSAAVLGFVGAGGIGLIYAENMRLWNWDVVMFITLLLVAVVMIMDTLSAWLRRRYIGGAVVPLYQEER	PGPT0002530_951	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042	NA	NA
BMS020_03368	873			hypothetical protein	ATGAAGACGACCCACATCGAATTTGAACGCTATTACCAGCAGATACGCTCGCGGCAAAAACGCGATGCCGTCTGCTGGTCCCTGCTGTTGCTGGCGCTCTATTTTGCCGCCGGCAGCGCCGCGGAATTTAATCTGCTGACTATCTGGCACTCGCTGCCCCACTTCCTGGACTATATGGCAGAGACTATTCCGCCCCTGAGCGCCGGCAACCTGTTCGCCGACGTGCAGACCAAAGGGTCGCTGGCCTGGTGGGGCTATCGCCTGCCGATCCAGCTGCCGCTGATCTGGGAAACCCTGCAGCTGGCGCTGGCCTCAACCCTGGTGGCGGTCGCCATTGCCACGGTTTTCGCGTTTCTCGCCGCCAATAACGCTTGGTCCCCGGCGCCGGTGCGCTTTGCCATTCGCGTGCTGGTGGCGTTTTTGCGCACCATGCCCGAGCTGGCGTGGGCGGTGATCTTTGTGATGGCGTTCGGCATCGGCGCGATCCCGGGCTTTCTGGCGCTCATGCTGCATACCGTCGGCAGTCTGACCAAACTGTTCTACGAGGCGGTGGAAAGCGCGCAAAACAAACCGGTACGCGGCCTGGCGGCCTGCGGCGCATCGCCGCTGCAAAAAATTCGCTTCGCCCTGTGGCCGCAGGTGAAACCGCTGTTTCTCTCCTACGGCTTTATGCGGCTTGAAATCAACTTCCGCTCGTCGACCATTCTCGGGCTGGTGGGCGCGGGCGGCATCGGCCAGGAGCTGATGACCAACATCAAGCTCGACCGCTACGATCAGGTGAGCATCACCCTGCTGCTGATCATTCTGGTGGTGTCGGCGCTGGACATGCTGTCCGGTCGTCTGCGCCTGTGGGTACTGGAGGGTAAGAAATGA	MKTTHIEFERYYQQIRSRQKRDAVCWSLLLLALYFAAGSAAEFNLLTIWHSLPHFLDYMAETIPPLSAGNLFADVQTKGSLAWWGYRLPIQLPLIWETLQLALASTLVAVAIATVFAFLAANNAWSPAPVRFAIRVLVAFLRTMPELAWAVIFVMAFGIGAIPGFLALMLHTVGSLTKLFYEAVESAQNKPVRGLAACGASPLQKIRFALWPQVKPLFLSYGFMRLEINFRSSTILGLVGAGGIGQELMTNIKLDRYDQVSITLLLIILVVSALDMLSGRLRLWVLEGKK	PGPT0002530_778	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042	NA	NA
BMS020_03369	984			hypothetical protein	ATGACGTTAGCCAATTGCATTAATTTCACTCACACGGGCAAGATAATGAAAAAATATATGACTGGCGCAGTTCGTTTATCCGCAATGGTCGCGGGCATGATGATGGCATGGCAGGCAGCGGCGGCGCAGCCGAAAGAGCTGAATCTGGGCATTCTCGGCGGCCAGAACGCCACCCAGCAAATCGGCGATAACCAGTGCGTGAAGACCTTCCTCGATAAAGAGCTGAACGTGGATACCAAACTGCGTAACTCTTCCGACTATTCCGGGGTGATTCAGGGTCTGCTGGGGGGTAAAGTCGACGTGGTGCTGAGCATGTCCCCCTCCTCTTACGCCTCGGTTTATCTCAATAACCCGAAAGCGGTGGATATCGTCGGCATCGCCGTGGACGACAAAGATCAGTCTCGCGGCTATCACTCGGTGGTGATTGTCAAAGCCGACTCCCCGTATAAAACGCTGGACGATTTAAAAGGCAAAGCCTTTGGCTTCGCCGACCCGGATTCCACTTCCGGGTATCTGATCCCTAACCATGCGTTTAAAGAAAAATTTGGCGGCAACGCCGACAATAAATACAACAACACCTTCTCCAGCGTCACCTTCTCCGGTGGCCACGAGCAGGACATCCTCGGCGTGCTGAATGGCCAGTTCGCCGGGGCGGTGACCTGGGCCTCGATGGTTGGCGATTACAACACCGGCTACACCACCGGCGCGTTCAACCGCCTGATTCGCATGGATCATCCGGATCTGATGAAGCAGATCCGCATTATCTGGCAATCGCCGCTGATCCCGAACGGCCCGATCCTGGTGAGCAATGCGCTGCCGGCGGACTTTAAGGCGAAGGTCGTGGCGGCGGTGAAAAAACTGGATACTGAGGATCACGCCTGCTTTATCAAAGCGATGGGCGGTACGCAGCACATCGGCCCGGGCAGCGTGGCTGATTTCCAGCAGATTATCGATATGAAACGCGAGCTGGTGAGCGCGCGTTAA	MTLANCINFTHTGKIMKKYMTGAVRLSAMVAGMMMAWQAAAAQPKELNLGILGGQNATQQIGDNQCVKTFLDKELNVDTKLRNSSDYSGVIQGLLGGKVDVVLSMSPSSYASVYLNNPKAVDIVGIAVDDKDQSRGYHSVVIVKADSPYKTLDDLKGKAFGFADPDSTSGYLIPNHAFKEKFGGNADNKYNNTFSSVTFSGGHEQDILGVLNGQFAGAVTWASMVGDYNTGYTTGAFNRLIRMDHPDLMKQIRIIWQSPLIPNGPILVSNALPADFKAKVVAAVKKLDTEDHACFIKAMGGTQHIGPGSVADFQQIIDMKRELVSAR	PGPT0002525_530	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002525-phnD-K02044	NA	NA
BMS020_03370	843	phnC	COG3638	Phosphate-import ATP-binding protein PhnC	ATGAACAGCTCTCTTGCCGCGGTGGCCGAAACTGATTTCCAGCCGTTCACCGATCTCAATGCCGGCCGGCAGCGGAAGGTCTTAAGCGTGCGTAACCTGAGTAAAGCCTACGAGGCTCAGCACAAGGTGCTGGACAGCATCAGCTTTGATCTGCACGCCGGTGAAATGGTCGGGGTTATTGGCCGCTCCGGCGCCGGTAAATCGACGCTCCTGCATGTTCTCAATGGCACCCACAGCGCCAGCGGCGGCGAAATTCTTAGCTACCCGGAAGTCGGTACCCCGCACGATGTCTCCCGGCTGAAAGGCCGCGCGCTCAACGCCTGGCGCAGCCACTGCGGGATGATCTTCCAGGACTTCTGCCTGGTGCCGCGCCTCGACGTACTCACCAACGTTCTGCTGGGCCGCCTCAGCCAGACTTCAACCCTGAAATCGCTGTTTAAAATCTTTCCCGCAGCCGACCGGGCGCGCGCCATTGCGCTGCTTGAATGGATGAACATGCTGCCGCACGCGCTGCAGCGGGCGGAGAACCTCTCCGGCGGGCAGATGCAGCGGGTGGCGATCTGCCGGGCGCTGATGCAAAACCCCGGGATCTTGCTCGCCGACGAGCCTGTCGCCTCGCTGGATCCGAAAAACACTCAGCGCATCATGGATGTGCTGCGCGAGATTAGCGAGCAGGGCATCAGCGTGATGGTCAACCTGCATTCGGTGGAGCTGGTCAGGACCTACTGCACCCGGGTTATCGGCGTCGCCAACGGACAGCTTATTTTTGACGATCACCCCGCCCGACTGACGCAGGATGTACTGCAGCAGCTGTACGGCGATGACGTTAGCCAATTGCATTAA	MNSSLAAVAETDFQPFTDLNAGRQRKVLSVRNLSKAYEAQHKVLDSISFDLHAGEMVGVIGRSGAGKSTLLHVLNGTHSASGGEILSYPEVGTPHDVSRLKGRALNAWRSHCGMIFQDFCLVPRLDVLTNVLLGRLSQTSTLKSLFKIFPAADRARAIALLEWMNMLPHALQRAENLSGGQMQRVAICRALMQNPGILLADEPVASLDPKNTQRIMDVLREISEQGISVMVNLHSVELVRTYCTRVIGVANGQLIFDDHPARLTQDVLQQLYGDDVSQLH	PGPT0002520_316	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002520-phnC-K02041	NA	NA
BMS020_03371	543	ecpR		HTH-type transcriptional regulator EcpR	ATGGAATATAAAAGCTGTTCCGATAAGTATATTTGGTCTGCCCATGACTCCTACTTCTATAAAGGATTATCCGAACTGATTGTAGATATCGACGAATTAATTTATCTGTCGCTAGAGAAAATCAGAAGAGATTTCGTGTTTATCAATCTCAATACGGCTTCGTTAAACGAATTTATCAGGCGCGACAGCGAATGGCTATCCGCGGTAAAGGGGAAACAGGTCGTATTAATTGCGGCCAGAAAGTCAGAGGCCTTAGCGAATTACTGGTATTACAATAGCGATATTCGCGGCGTGGTATATGTTGGCCTGAGTCGCGATATTCGAAAAGAGCTGGCCTATGTGATTAATGGCAGGTTTCTCCGTAAAGATATTAAGAAAGATAAAATTACAGACCGGGAAATGAAAATTATCCGCATGACCGCCCAGGGCATGCAGCCGAAATCGATCGCCAGAATTGAAAATTGTAGCGTGAAGACAGTGTATACCCATCGGCGCAATGCTGAGGCCAAGCTGTATTCCAAAATATATAAGTTAGTTCAGTAA	MEYKSCSDKYIWSAHDSYFYKGLSELIVDIDELIYLSLEKIRRDFVFINLNTASLNEFIRRDSEWLSAVKGKQVVLIAARKSEALANYWYYNSDIRGVVYVGLSRDIRKELAYVINGRFLRKDIKKDKITDREMKIIRMTAQGMQPKSIARIENCSVKTVYTHRRNAEAKLYSKIYKLVQ				NA	NA	NA	NA	NA
BMS020_03372	588	ecpA		Common pilus major fimbrillin subunit EcpA	ATGAAAAAAAAGGTTCTGGCAATAGCTCTGGTAACGGCGTTTACCGGTATGGGTGTGGCGCAGGCTGCTGACGTAACGGCTCAGGCTGTAGCGACCTGGTCTGCGACCGCCAAAAAAGACACCACCAGCAAACTGGTCGTCACCCCGCTCGGCAGCCTGGCGTTCCAGTATGCCGAAGGCGTGAAAGGTTTTAACTCACAGAAAGGTCTGTTTGACGTGGCAATTGAGGGTGACGCAACGGCGACCGCCTTTAAGCTGACCTCGCGTCTTATCACCAACACCTTAACCCAGCTGGATACCTCCGGCTCCACGCTGAGCGTGGGCGTGGATTATAACGGCGCAGCGGTGGAAAAAACCGGTGATACCGTGATGATCGATACCGCCAACAACATTCTGGGCGGCAACCTCAGCGCGCTGGCTAATGGCTACAACGCCAGCGGCCGCACCACCGCGCAGGATGGTTTCACCTTCTCTATCATCAGCGGCACCACTGACGGCACCACCGCCGTGACCGATTACAGCACCCTGCCGGAAGGGATCTGGAGCGGCGACGTTAGCGTCCAGTTCGACGCCACCTGGACCAGCTGA	MKKKVLAIALVTAFTGMGVAQAADVTAQAVATWSATAKKDTTSKLVVTPLGSLAFQYAEGVKGFNSQKGLFDVAIEGDATATAFKLTSRLITNTLTQLDTSGSTLSVGVDYNGAAVEKTGDTVMIDTANNILGGNLSALANGYNASGRTTAQDGFTFSIISGTTDGTTAVTDYSTLPEGIWSGDVSVQFDATWTS	PGPT0029335_61	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-Mat|Ecp_FIMBRIAE_ASSEMBLY,PGPT0029335-ecpA|matB-K21964	NA	NA
BMS020_03373	669	ecpB		putative fimbrial chaperone EcpB	ATGAAAAAGCACCTTCTGGCCCTCGGGCTGCTGCTTGCCGGAGTATCGCCGGCGCAGGCGCTGGATGTCGGCGATATCTCATCTTTTATGAACAGCGGCAGCAGCACGCTGAGCAAAACGATCAAGAACAGCACCGACAGCGGCCGGCTGATCAATATCCATCTCGAACGGCTCTCTTCCCCGCTGGATGACGGACAGGTTATCCCGATGGATAAACCGGATGAGGTGCTGCTCACTCCTGCCAGCCTGCTGTTACCCGCCCAGGCCAGCGATGTGATCCGCTTCTTCTACAAAGGCCCGGCGGATGACAAAGAGCGCTATTACCGCATTGTCTGGTTCGACCAGGCGCTCAGCGATGCCCAGCGCGATAACGCCACCCGCAGCGCGGTGGCCACCGCTTCCGCCCGCATCGGCACCATCCTGGTGGTGGCGCCCCGGCAGGTGAACTACCGCTTTCAGTACGCCAACGGCTCCCTGACCAACACCGGGAACGCGACGCTGCGGATCCTCGCCTATGGCCCTTGCCTGAAGGCCGCCGAGGGTAAGGAGTGTAAAGAGAACTACTACCTGATGCCGGGTAAATCACGCCGTTTTACGCGCGTGGACACGGCGGATAAAAAAGGACGGGTTGCGCTTTGGCAGGGTGAGCAGTTTGTTCCCGTGAAATAG	MKKHLLALGLLLAGVSPAQALDVGDISSFMNSGSSTLSKTIKNSTDSGRLINIHLERLSSPLDDGQVIPMDKPDEVLLTPASLLLPAQASDVIRFFYKGPADDKERYYRIVWFDQALSDAQRDNATRSAVATASARIGTILVVAPRQVNYRFQYANGSLTNTGNATLRILAYGPCLKAAEGKECKENYYLMPGKSRRFTRVDTADKKGRVALWQGEQFVPVK	PGPT0029340_188	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-Mat|Ecp_FIMBRIAE_ASSEMBLY,PGPT0029340-ecpB|matC-K21965	NA	NA
BMS020_03374	2526	ecpC		putative outer membrane usher protein EcpC	ATGCCTCTACAACGGATTTCCCCAGGACTGAAAACACGGCTTGCCTTCGGCATGTTTTTTTTGTTCGTTCAGCCCGACGCCAGCGCGGCTGCCCCAGGGGCGCAGCAGATTGGCGGGGTGATTATTCCGCAGGCCTTCAGCCAGGCGCTGCAGGACGGCATGAGCGTTCCGCTCTATATTCATCTTACCGGCAGCCAGGACACCCGGGACGATCAGCGGATCGGCAGCGCCTTTATCTGGCTGGACGGCGGCCAGCTGCGCGTTCGGCAGATCCGGCTGGAGGACAATGAGGGTAACGCCAGCGTCAGCGAACAGACCCGCCAGCAGCTGACTGGCCTCGCCAACGCCCCGTTCAGCGAGGCGCTCACCATCACGCTGACCGACAGCGCGCAGCTGGATCTCAGCCTGCGCCAGCTGCTGCTGCAGCTGGTGGTCAAGCGCGAGGCGCTGGGCACCGTGCTGCGCTCGCGCAGCGAAGACATCGGCCAGTCGAGCGTCAACGCCCTCAGCAGCAACCTGAGCTATAACCTCGGCGTCTATAACAACCAGATGCGCAACGGCGGGAGCAACACCTCCAGCTATCTGTCGCTGAACAACGTCACGGCGCTGCGTGAGCATCATGTGGTGCTCGACGGCTCACTGTACGGGATCGGCAGCGGTCAGCAGGACAGTGAATTATATAAGGCCATGTATGAACGCGATTTCGCCGGCCACCGCTTTGCCGGCGGGATGCTTGACACCTGGAACCTGCAGTCCCTGGGGCCGATGACCGCTATTTCGGCGGGCAAGATTTACGGCCTTTCCTGGGGGAACCAGGCCAGCTCCACCGTCTTCGACAACAGCCAGTCCGCCACGCCGGTGATCGCCTTTCTGCCGGCGGCGGGCGAGGTGCATCTCACTCGTGACGGCCGGTTGCTGAGCGTCCAGAACTTCGCCATGGGGAACCATGAAGTGGATACCCGAGGCCTGCCGTACGGTATTTACGACGTGGAGGTGGAGGTGATCGTCAACGGGCGGGTGGTCAGCAAACGCACCCAGCGGGTCAATAAGCTGTTCAGCCGGGGACGCGGCGCCGGCGCGCCGCTGGCGTGGCAGGTGTGGGGCGGCAGTTTTCATATGGATCGCTGGTCGGAGAGCGGGAAAAAGACCCGGCCGACGAAAGAGAGCTGGCTGGCGGGCCTCTCGGCCTCCGGGTCGCTCAGCACCCTGAGCTGGGCGGCAACGGGCTATGGCTACGACAACCAGGCGGTGGGAGAAACCCGCCTGACGCTGCCGCTGGGCGAGTCGATCAACGTTAACCTGCAAAATATGCTGGCCAGCGACAGCTCGTGGAGCAGCGTCGGCAGCATCAGCGCCACGCTGCCGGGGGGCTTTAGTTCAGTGTGGGTCAACCAGGAGAGAACCCGCATTGGCGATCAGTTGCGGCGCAGCGATGCCGACAACCGGGCGATCGGCGGCACCCTCAACCTCAACGCGTTGTGGTCGAAGCTGGGGACGTTCAGCGTCAGCTACAACGATGACCGTCGCTACAACAGCCATTACTACACCGCGGATTACTATCAGACGGTCTACAGCGGCGCCTTTGGATCGCTCGGCCTGCGGGCAGGGATCCAGCGCTATAACAATGGCGACAGCAGCGCCAACACCGGGAAATATATCGCCCTCGATCTGTCGCTGCCGCTGGGCAACTGGTTCAGCGCCGGGATGACCCATCAGAACGGCTACACCATGGCTAACCTCTCAGCGCGCAAGCAGTTTGATGAAGGCACCATTCGCACCATCGGCGCCAATCTGTCGCGGGCCATCTCTGGCGATACCGGGGATGACAAAACCCTCAGCGGCGGGGCGTATGCCCAGTTCGACGCCCGCTACGCCAGCGGCACGCTGAACGTTAACAGCGCGGCGGACGGCTACGTCAACACCAACCTCACCGCCAGCGGCAGCGTCGGCTGGCAGGGCAAAAACATCGCCGCCAGCGGACGAACCGACGGCAACGCCGGGGTGATCTTCAACACCGGGCTGGAGGATGACGGTCAGATCAGCGCCAGGGTCAACGGGCGAATCTTCCCGCTCAGCGGCAAGCGTAACTATCTGCCGCTCTCACCCTATGGCCGCTATGAGGTGGAGCTGCAAAACAGCAAAAACTCGCTCGACAGTTACGACATCGTCAGCGGGCGCAAGAGTCATCTGACCCTCTATCCCGGCAACGTGGCGGTGGTTGAGCCTGAGGTGAAGCAGATGGTCACCGTCTCCGGTCGTATTCGGGCGGAAGACGGCACGCTGCTGGCGAATGCGCGGATTAACAACCATATCGGCCGTACCCGCACCGATGAAAACGGCGAGTTCGTCATGGATGTGGATAAGAAATACCCCACGATCGATTTCAGCTACGGCGGCAATAAAACCTGCGAAGTGGCGCTGGAGCTCAGCCAGGCGCGCGGCGCCGTCTGGGTGGGGGATGTGGTTTGCAGCGGCCTCTCGTCGTGGGCGGCGGCGCAGCAGACAGGAGAAGAGAATGAAAGTTAA	MPLQRISPGLKTRLAFGMFFLFVQPDASAAAPGAQQIGGVIIPQAFSQALQDGMSVPLYIHLTGSQDTRDDQRIGSAFIWLDGGQLRVRQIRLEDNEGNASVSEQTRQQLTGLANAPFSEALTITLTDSAQLDLSLRQLLLQLVVKREALGTVLRSRSEDIGQSSVNALSSNLSYNLGVYNNQMRNGGSNTSSYLSLNNVTALREHHVVLDGSLYGIGSGQQDSELYKAMYERDFAGHRFAGGMLDTWNLQSLGPMTAISAGKIYGLSWGNQASSTVFDNSQSATPVIAFLPAAGEVHLTRDGRLLSVQNFAMGNHEVDTRGLPYGIYDVEVEVIVNGRVVSKRTQRVNKLFSRGRGAGAPLAWQVWGGSFHMDRWSESGKKTRPTKESWLAGLSASGSLSTLSWAATGYGYDNQAVGETRLTLPLGESINVNLQNMLASDSSWSSVGSISATLPGGFSSVWVNQERTRIGDQLRRSDADNRAIGGTLNLNALWSKLGTFSVSYNDDRRYNSHYYTADYYQTVYSGAFGSLGLRAGIQRYNNGDSSANTGKYIALDLSLPLGNWFSAGMTHQNGYTMANLSARKQFDEGTIRTIGANLSRAISGDTGDDKTLSGGAYAQFDARYASGTLNVNSAADGYVNTNLTASGSVGWQGKNIAASGRTDGNAGVIFNTGLEDDGQISARVNGRIFPLSGKRNYLPLSPYGRYEVELQNSKNSLDSYDIVSGRKSHLTLYPGNVAVVEPEVKQMVTVSGRIRAEDGTLLANARINNHIGRTRTDENGEFVMDVDKKYPTIDFSYGGNKTCEVALELSQARGAVWVGDVVCSGLSSWAAAQQTGEENES	PGPT0029345_147	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-Mat|Ecp_FIMBRIAE_ASSEMBLY,PGPT0029345-ecpC|matD-K21966	NA	NA
BMS020_03375	1644	ecpD		Fimbria adhesin EcpD	ATGAAAGTTAACCCCTTAATCGCCCTGGCGATCCTCGCGCTGCTCTGGCCGGCGGCCGCGCTCAGGGCGGCGGTGTCGAAGACCACCTGGTCGGATGCGCCGGCGCGCGAGTTTGTGTTTGTGGAAAACAACTCCGACGACAACTTTTTCGTCACCCCCGGCGGGGCGCTGGATCCGCGCATGACCGGCGCCAACCGCTGGACCGGCTTAAAATACACCGGCTCCGGGACCATCTATCAGCAGAGTCTCGGCTATATCGATAACGGCTACAACACCGGGCTCAATGCCAACTGGAAGTTTGATATGTGGCTGGAAAACTCGCCGGTTTCGCACCCCTTAACCGGCCTGCGCTGCATCAACTGGTACGCCGGGTGCGATATGGCCACCAGTCTGATCCTGCCGCAAACCACCGACGCCAGCGGGTTCTATGGCGCGACGGTGACCAGCGGCGGCGCGAAGTGGATGCACGGTATGATGTCGGACGCCTTCTATCAGTATCTGCAGCAGATGCCGGTCGGCGGCAGCTTCACGATGACCATCAATGCCTGCCAGACCTCGGTGAACTACGACGCCAGCAGCGGCGCGCGCTGTAAGGATCAGGCCTCCGGCAACTGGTATGTGCGCAACGTCACCCACACCAAAGCCGCGAGCCTGCGGTTGATAAACACCCACTCGCTGGCGGAGGTGTTTATCAACAGCGATGGCGTGCCGACCCTCGGGGAAGGGAACGCCGACTGCCGGACGCAGACCATCGGCAGCCGCTCAGGATTAAGCTGTAAGATGGTTAACTATACCTTGCAGACCAATGGGTTAAGCAACACCTCGATCCATATTTTCCCGGCGATCGCCAACTCGTCGCTGGCCTCGGCCGTCGGGGCGTACGATATGCAGTTCAGCCTCAACGGCAGCTCATGGAAGCCGGTGAGCAATACCGCCTATTACTACACCTTCAACGAGATGAAGAGCTCAGACGCGATCTATGTGTTCTTCTCCAGCAACTTCTTTAAGCAGATGGTGAATCTCGGGATCAGCGATATCAATACCAAGGATCTGTTCAACTTTCGCTTCCAGAATACCACCTCGCCGGAGTCAGGCTGGTATGAGTTTTCCACCTCCAACACGCTGATTATCAAGCCCCGTGATTTCAGCATCAGCATTATCTCCGACGAATATACCTCGGCGCCGTCGCGGGAGGGGTATGTCGGCAGCGGCGAACCGGCGCTCGATTTCGGCTACATCGTCACCACCAGCGGTAAAACGGCCGCCGACGAAGTGCTGATCAAAGTGACCGGACCGGCGCAGGTGATTGGCGGGCGCTCCTACTGTCTCTTTAGCTCCGATGACGGTACGGCGAAAGTGCCGTTCCCGGCGACGCTCTCTTTTATCACCCGCAGCGGCGCGACGCAGACCTACGACGCCGGGTGCGATGACAGCTGGCGGGATATGACCGATGCGCTGTGGCTGACCACGCCGTGGACCGATATCTCCGGCGAAGTGGGGCAGATGGATAAGACCACGGTGAAATTCTCGATTCCGATGGATAACGCCATTTCGCTGCGGACGGTAGACGATAACGGCTGGTTTGGCGAAGTCAGCGCTTCAGGAGAGATTCATGTCCAGGCGACGTGGCGCAACATTAACTAA	MKVNPLIALAILALLWPAAALRAAVSKTTWSDAPAREFVFVENNSDDNFFVTPGGALDPRMTGANRWTGLKYTGSGTIYQQSLGYIDNGYNTGLNANWKFDMWLENSPVSHPLTGLRCINWYAGCDMATSLILPQTTDASGFYGATVTSGGAKWMHGMMSDAFYQYLQQMPVGGSFTMTINACQTSVNYDASSGARCKDQASGNWYVRNVTHTKAASLRLINTHSLAEVFINSDGVPTLGEGNADCRTQTIGSRSGLSCKMVNYTLQTNGLSNTSIHIFPAIANSSLASAVGAYDMQFSLNGSSWKPVSNTAYYYTFNEMKSSDAIYVFFSSNFFKQMVNLGISDINTKDLFNFRFQNTTSPESGWYEFSTSNTLIIKPRDFSISIISDEYTSAPSREGYVGSGEPALDFGYIVTTSGKTAADEVLIKVTGPAQVIGGRSYCLFSSDDGTAKVPFPATLSFITRSGATQTYDAGCDDSWRDMTDALWLTTPWTDISGEVGQMDKTTVKFSIPMDNAISLRTVDDNGWFGEVSASGEIHVQATWRNIN	PGPT0029350_23	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-Mat|Ecp_FIMBRIAE_ASSEMBLY,PGPT0029350-ecpD|matE-K21967	NA	NA
BMS020_03376	711	ecpE		putative fimbrial chaperone EcpE	ATGTCCAGGCGACGTGGCGCAACATTAACTAAGGCCCTGCTGACGGTGGGCTGCCTGATGGTGGCTCCGCTGGCGCAGGCTATCTCGGTCGGCAACCTGACCTTTTCCCTGCCGGCTGAAGCGGATTTCGCCAGCAAACGGGTGGTGAACAACAATAAAAGCGCGCGGCTGTACCGCATCGCCGTCAGCGCCATCGATCGCCCGGGCGGCAGCGAAGTGCGCTCCCGGCCGGTGGATGGCGAGCTGCTGTTCGCCCCCCGTCAGCTGGCGCTGCAGGCCGGGGAGAGCGAATACTTCAAATTTTACTATCATGGCCCGCGGGACAATCGCGAGCGCTATTATCGGGTCTCGTTTCGCGAAATCCCCACCCGCAACCTGACGAGGCGCAGCCCGACCGGCGGCGAGGTCAGCATGGAGCCGGTGGTGGTGATGGATACCATTCTGGTGGTGCGCCCGCGCGAGGTGCAGTTTAAATGGTCTTTCGATAAGGTGGCCGGGACGGTGAGCAATACCGGCAATACCTGGTTTAAGCTGCTGATTAAGCCAGGATGCGATTCGACCGAAGAGGAGGGGGACGCGTGGTATCTGCGTCCCGGGGACGTGGTTCGCCAGCCGGCGCTGCGCCAGCCGGGGAACCACTATCTGGTCTATAACGACAAATTTATTAAGATCAGCGATACCTGCCCGCTGAAGCCCCGCCCTGCGGAGTGA	MSRRRGATLTKALLTVGCLMVAPLAQAISVGNLTFSLPAEADFASKRVVNNNKSARLYRIAVSAIDRPGGSEVRSRPVDGELLFAPRQLALQAGESEYFKFYYHGPRDNRERYYRVSFREIPTRNLTRRSPTGGEVSMEPVVVMDTILVVRPREVQFKWSFDKVAGTVSNTGNTWFKLLIKPGCDSTEEEGDAWYLRPGDVVRQPALRQPGNHYLVYNDKFIKISDTCPLKPRPAE	PGPT0029355_11	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-Mat|Ecp_FIMBRIAE_ASSEMBLY,PGPT0029355-ecpE|matF-K21968	NA	NA
BMS020_03377	690	glnP_2	COG0765	putative glutamine ABC transporter permease protein GlnP	ATGAACGCTAATCTGGCGGTGATCGCCGATAACCTTGATTACCTGCTGTGGGGCCGGCTGGCGGAGGGCCAGCCCGGCGGCGTGGCCCTGACCCTGCTGATGGCTATCGGCGCCACGCTGCTGGCGCTGCCGGGAGGCATTGCGCTGGCGGGCCTGGCCTGGCGCTACGGCGGACTGACGCGGCGTCTGCTGTTTCTGTGGGCGGAAATTATCCGCGGCATCCCGCTGATATTTGTCATCTTCTGGCTGTGGTATCTGCTGCCGATGCTGACCGGCGGCGATCTGCCCGGCGCGGTGACCGTGACCCTGGCGCTGGCGTGGTTTACCGCCGCCTCGGTGATGCACTCGGTGCTGGCCGGGCTGCAGTCGCTGCCGAAAGGTCAGTATGAGGCGGCGCTGACTCAGGGCTTCGCCCCCGGGCAAACGCTGCGCCTGGTGCTGCTCCCGCAGGCGCTGCGCAACGTTCAGCCTTCGCTGGTGGGGATCTTTATCGGCCTGCTGAAGGACACTTCGCTGGCGTTTATCGTCAACGTCCCGGAGCTGACCACCGTGGCCGGCCAGGTCAACAACCGGGTGCAGATCTATCCCCTGGCGATCTTCGTCTTCACCGGCGCGGTGTACTACCTGCTGTGCTGCGGTCTGAGCCTGCTGGCCAGCCGGCGCTTTACCCGCCGCGCGACCGCCGGATAA	MNANLAVIADNLDYLLWGRLAEGQPGGVALTLLMAIGATLLALPGGIALAGLAWRYGGLTRRLLFLWAEIIRGIPLIFVIFWLWYLLPMLTGGDLPGAVTVTLALAWFTAASVMHSVLAGLQSLPKGQYEAALTQGFAPGQTLRLVLLPQALRNVQPSLVGIFIGLLKDTSLAFIVNVPELTTVAGQVNNRVQIYPLAIFVFTGAVYYLLCCGLSLLASRRFTRRATAG	PGPT0020795_6235	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
BMS020_03378	753	gltJ_1	COG0765	Glutamate/aspartate import permease protein GltJ	GTGACGCCGATGCTTGACTGGCACGGCGTCCTGAGCGGACAGCCGTTGCAATGGATTATCTCTGGTTTTCTCACCACCGTCTGGGTCAGCGTCGCCGGGATCCTGCTCGCCACCCTGCTGGCGGTTCTGCTGCTGGCCCTGCGTCTCGGCGGCGGCCGCGCGGGGCGCGGGCTGGTGGCCGCGTGGGTCTCGCTGTTTCGCAACACCCCGCTGCTGGTCCAGCTGCTGTTCTGGTACTTTGCCGCCTGGAACCTGCTGCCGCTGGCGGTGAAGAACGTGGTGAACGACGAGCACGCCTGGTCCATTCTGCCGGGCAACGTCTGGTGGCTGACGCCGGAGTTCCTCTGCTCAATGTGGGGGCTGGGGGTCTTTACCTCCGCCTTTCTGGTGGAAGAGATCGCCTCCGGACTGCGCGCCGTCAGCCACGGGCAGCGGGAAGCCGCGCTGTCGCAGGGCTTTACGCCGTGGCAGGAGCTGCGCTTTATCCTTCTGCCGCAGGGGCTGGCCAACGCCTGGCAGCCGATTGTCGGCCAGTATCTCAACCTGATGAAACTCTCATCGCTGGCCAGCGGCATCGGCTTTGCGGAACTGACCTATCAGGTGCGGCAGATTGAGAGCTATAACGCGCACGCCCTGGAGGCTTTTGCCGTCGGCACCGCGCTGTACCTGGCGCTGGGGGTGGCGATGGGCGTGGCGCTAACGCGTCTCGGCCCGGGAAGAAAACTGCAACGGAGCGCCCAACATGAACGCTAA	MTPMLDWHGVLSGQPLQWIISGFLTTVWVSVAGILLATLLAVLLLALRLGGGRAGRGLVAAWVSLFRNTPLLVQLLFWYFAAWNLLPLAVKNVVNDEHAWSILPGNVWWLTPEFLCSMWGLGVFTSAFLVEEIASGLRAVSHGQREAALSQGFTPWQELRFILLPQGLANAWQPIVGQYLNLMKLSSLASGIGFAELTYQVRQIESYNAHALEAFAVGTALYLALGVAMGVALTRLGPGRKLQRSAQHER	PGPT0020795_4100	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
BMS020_03379	819	glnQ_6		Glutamine transport ATP-binding protein GlnQ	ATGTTCTCGGGTTTATTCTCCCACTCCGCGGCTCCGGCCGCGGATTTTTCACGTCTGCAGCGCGCCAGCATTACCTTTCGTGAGGTGGCCAAGCGCTACGGCGATCATCAGGTGCTCAACGCCATCAACCTGCAGGTCGATCCCGGCGAAGTAGTGGCGATCCTCGGCCCTTCCGGATCGGGAAAATCGACGCTGATCCGCCTGATCAACCAGCTCGAATCCTTAAGCGGCGGCGAGATCCTGATCGACGGCAAACCCACCAGCCGGCTGAGCGGCAGCGCCTTGCGCCAGCTGCGCAGCCGCGTCGGCTTTGTCTTCCAGCAGTTCAACCTTTACGCCCACCTGACGGCGCAGGAGAACATCACGCTGGCGCTGGAGCGCGTCCACGGCTGGGGAAAAAGCGCGGCACAGGAGCGGGCGCTGGCGCTGCTGCGTCAGGTTGGGCTGGAGGAGAAAGCGCAGCAGATGCCGGCGCAGCTCTCCGGCGGCCAGCAGCAGCGGGTGGCGATCGCCCGCGCCCTGGCCTCCTCGCCGCAGATTATCCTGTTCGATGAGCCCACTTCGGCGCTCGACCCGGAGATGATCGGCGAAGTGCTGCAGGTGATGAAAAACCTCGCCCACAGCGGGATCACCATGCTGGTGGTGACCCACGAGATGCAGTTTGCCCGCGAAATTGCCGACCGGGTGGTGTTTATCGACGGCGGCGACATTCTCGAGGTCGCCCCGCCGGCTGAGTTTTTCGCCCATCCGCAGCATGCCCGTGCGCGGCGTTTTCTGCAGAAGGTGCTGGATCCGCTGCACCAGGAGAGCCTCGAGTGA	MFSGLFSHSAAPAADFSRLQRASITFREVAKRYGDHQVLNAINLQVDPGEVVAILGPSGSGKSTLIRLINQLESLSGGEILIDGKPTSRLSGSALRQLRSRVGFVFQQFNLYAHLTAQENITLALERVHGWGKSAAQERALALLRQVGLEEKAQQMPAQLSGGQQQRVAIARALASSPQIILFDEPTSALDPEMIGEVLQVMKNLAHSGITMLVVTHEMQFAREIADRVVFIDGGDILEVAPPAEFFAHPQHARARRFLQKVLDPLHQESLE	PGPT0020790_775	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
BMS020_03380	810	glnH_3	COG0834	ABC transporter glutamine-binding protein GlnH	ATGCGCAACAAAACCACAAAAATCGCACTGGCGCTGGGTATGCTGCTGCTCGCCTCGCAGGCGCAGGCCGACCAGCTGGCTGACATCAAAGCCGCCGGCGTCGTGAAAGTCGCCACCTTTGACGCCAACCCGCCGTTCGGCTCCGTGGACGCCAAAACCCACCATATCGTCGGCTACGACGTCGACTTTGCCCAGGCGCTGGCGAAAGCGCTCGGCGTCAAACTCGAACTGGTGGCCACTAACCCGGCCAACCGTATTCCGCTGCTGCAGTCCGGCAAAGCCGACCTGATCGTCGCCGACATTACCATCACCACGGAGCGGGCCCAGGTTATTGATTTCTCAACGCCGTATTTCGTCACCGGCCAGCAGTTCCTCGTGCCGGCCGGCTCTCCGGATAAGCTTGATGAGTACAGCAAAGCGCGCATCGGCGCGGTAAAAGGCACCACCGGCGAACAGGCGCTGCACCAGCGTTTCCCGCAGGCTCGCGTCCTCTCCTATGACGATATTCCGCTGGCCCTGACCGCCCTGCGCAACGGCAACGTCCAGGCCATCACCCAGGACAGCACCATCCTTGCCGGTCTGCTGGCGGAAGCGCCGGATAAAGCCAAGTTTAAAATTCTGCCCGACCTGCTCAGCAAAGAAGAGATTGGCGTGGGGGTGAAGAAAGGCGAACCGGCCCTGCTGAAGGCCGTCAACGATGAGCTGGTGAAGCTGGAGAAAACCGGCGAAGCCGCGAAAATTTACGATGTCTGGTTTGGCCCTGCCACTAAAACGCCGCAGCCGCGCGCCTTTACCATAGAAGCGAAATAA	MRNKTTKIALALGMLLLASQAQADQLADIKAAGVVKVATFDANPPFGSVDAKTHHIVGYDVDFAQALAKALGVKLELVATNPANRIPLLQSGKADLIVADITITTERAQVIDFSTPYFVTGQQFLVPAGSPDKLDEYSKARIGAVKGTTGEQALHQRFPQARVLSYDDIPLALTALRNGNVQAITQDSTILAGLLAEAPDKAKFKILPDLLSKEEIGVGVKKGEPALLKAVNDELVKLEKTGEAAKIYDVWFGPATKTPQPRAFTIEAK	PGPT0020800_5121	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
BMS020_03381	171			hypothetical protein	GTGGCATTGTGGCAACGGTTAACGGGCTGGCTGGCTTTTTTGTCCAACGGTGAAGCCGGACAGCAAGATACTCAACGCGTCATGGAGGCGATCCTGCCGGTGGCCAGCCTCTACGGCGTGGACATTGGCAACGTGGAAACCCGGTGGTTCCGTCATGATAAGACATACTGA	MALWQRLTGWLAFLSNGEAGQQDTQRVMEAILPVASLYGVDIGNVETRWFRHDKTY				NA	NA	NA	NA	NA
BMS020_03382	696	livF_6	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGCTTAACGCCAGAGAACTGAAGGTCTTTTACGGCGTGATCCAGGGGTTGAAAGGCGTCGATATCGATGTTTATGACCGGGAGATCGTCACCCTGATCGGCAGCAATGGCGCCGGTAAAACCTCTACCCTCAATGGGATCGTCAACCTGGTGCGCTCCAGCGGGCGCGTCAGCTTCCTCAACGACGATATCTCGCGCAGCCAGACCCACCAGATCGTACGTCGCGGGCTGGCGCTGGTGCCGGAGGGACGCCGGGTCTTTACCAACCTGACCATCGAAGAGAACCTGCGCATGGGCGCTTACAATAATCTCGCCGGCTACACCCGCCTGCGCGATCGTATGTACGCCCTCTTTCCACGCCTCAAGGAGCGGCGCCATCAGATGGCGGGCACCATGAGCGGCGGCGAGCAGCAGATGCTGGCCATCGCCCGGGCGCTGATGAGCGAGCCGGTGTTATTGATGCTGGATGAACCAAGCCTCGGGCTGGCGCCGAAAATTGTCGGCGAGCTGTTCGGCATCATTAAGCAACTGCGCGATGAGAATATGACGGTGCTGCTGGTGGAGCAGAATGCGACGGCCGCGCTGGCGATCGCCGATCGGGCGTATGTCCTGGAGAATGGCCGGATCACCTTGTCAGGCGCGGCGCGGGAGATGCTGACTAATCCGGAAATTAAGCGGATGTATCTGGGGGGATAA	MLNARELKVFYGVIQGLKGVDIDVYDREIVTLIGSNGAGKTSTLNGIVNLVRSSGRVSFLNDDISRSQTHQIVRRGLALVPEGRRVFTNLTIEENLRMGAYNNLAGYTRLRDRMYALFPRLKERRHQMAGTMSGGEQQMLAIARALMSEPVLLMLDEPSLGLAPKIVGELFGIIKQLRDENMTVLLVEQNATAALAIADRAYVLENGRITLSGAAREMLTNPEIKRMYLGG	PGPT0020785_9245	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020785-livF-K01996	NA	NA
BMS020_03383	783	lptB_3	COG1137	Lipopolysaccharide export system ATP-binding protein LptB	ATGGCGGAAAATAAAATCATCCTGCAGGTGCAGGACGTCACCATGCAGTTTGGCGGCCTGCGGGCCATCGACAACGTCAGCTTCCATGTTGACGAAGCGGAGATCTTTGGCCTTATCGGCCCGAACGGCGCGGGCAAAACGACCCTGTTTAACGTCATCACCGCCAACTATAAGCCCACCAGCGGCAGCGTCACCCTCGCGGGCGCCTCGCTGAAGGGGCTAAAGCCCAACCAGGTGGTCAACGCCGGGATCGCCCGCACCTTCCAGAATATCCGGCTGTTTAACTCGATGACGGTGCTGGAGAACGTGATGGTTGGACTCGACCGCGCCAGCCGCTACTCGCTGCTGGAGGCGGCCCTGCACATTGGCCGCTATTTTCCGGCCGAGCGGGCGGCGAAGGCCAAAGCGATGGCCATTCTGGAAGACATCGGCATCGCCCACTTCGCCCATATGCAGGCCACGAACCTGAGCTATGGCAACCAGCGCAAAGTGGAGATCGCCCGCGCGCTGGCCACCTCGCCGAAGCTGCTGCTGCTCGATGAGCCGGCCGCCGGGATGAACCCGAAGGAGACCGAGGATCTGGCGGAGCTGATCTTCCGCATGCGCCATGACTATCAGCTCAGCGTCCTGTTAATCGAGCACGATATGCCCTTCGTCAACCGTCTGTGCGAACGGGTGATGGTCCTGGAGTATGGTAAGCCATTGTTCAGCGGCCTGATGGCCGAGGCGATCCAGCATCCGGACGTCATTTCCGCTTATCTGGGAGAAGCCAATTATGCTTAA	MAENKIILQVQDVTMQFGGLRAIDNVSFHVDEAEIFGLIGPNGAGKTTLFNVITANYKPTSGSVTLAGASLKGLKPNQVVNAGIARTFQNIRLFNSMTVLENVMVGLDRASRYSLLEAALHIGRYFPAERAAKAKAMAILEDIGIAHFAHMQATNLSYGNQRKVEIARALATSPKLLLLDEPAAGMNPKETEDLAELIFRMRHDYQLSVLLIEHDMPFVNRLCERVMVLEYGKPLFSGLMAEAIQHPDVISAYLGEANYA	PGPT0020780_4398	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020780-livG-K01995	NA	NA
BMS020_03384	1050			hypothetical protein	ATGCTCAACGCGACGACCACCGCCGGGGCGCAGCTGCGCAACCTGGCCATTATTGTCATCTGTATCGCGCTGCTGGCCGGAATCAACGTGGTTTTCAATGACTACATTGTTCGCGTCATCAGCACCATTTTTATCTTTATGATCCTCGCGGTCAGCTACAACCTGATCAACGGCGTGACCGGCCAGCTGTCGCTGGAGCCGAACGGCTTCGTGGCGGTGGGCGCCTACGTCACCGCCCTGCTGATCCTCTCCAGCGACAGCAAGGTAGACATGTTTGAAATGGCCGCCCCCAGCCCGTGGCTCCTCAGCCTGCACGCGGGCTTCCTCCCCGCCCTGCTGATAAGCGGCCTGTGCGCGGCGGCGCTGGCGGTGTGCCTCGCCGTGCCGGTCTTCCGGGTGCGCGGCGACTACCTGGCCATCGTCACCCTCGGCTTCGGGTTTATCATCAAGATCCTCGCCATTAACAACCCGCAAATCACCAACGGCGCCATCGGGCTGAACGATATTCCGCAGCAGCCGCATCTCCTGTTCTGGTGCGGCCTGTTCGCCCTGCTGGCTACCGGCATGATCCTCCAGCTGGTGTGGTCGAAGTATGGCCGGATGATGAAAGCCATTCGCGACGATGAAGATGCGGCGATCGCCATGGGGGTCAACACCTTCCGCATTAAAACCTGCGCCTTCGCCACCAGCGCCTTCTTCGAAGGGATCGGCGGCGGTCTGCTGGCTTCGCTGCTGACCACCATTTCCCCGGGGCTGTTCGACTTTATGCTCACCTTCCAGCTGCTGATTATTATCGTCCTCGGCGGGCTCGGCAGCACCACCGGCGCCCTGCTCGGCACCGTGCTGGTGGTCGGCAGCGGCGAGTGGCTGCGCTTTCTCGATCAGCCGCTGCAGTTCTTCGGTCATGATCTCGGCGCCTATCCGGGCCTGAGAATGGTGGTCTTCTCCCTGCTGCTGCTGATCATCATGCTTTTCGCCCGCGAAGGGCTGCTGGGGAAAAAAGAGATTTGGCAGATGGGAAGAAGGAACAGCAGCTATGGCGGAAAATAA	MLNATTTAGAQLRNLAIIVICIALLAGINVVFNDYIVRVISTIFIFMILAVSYNLINGVTGQLSLEPNGFVAVGAYVTALLILSSDSKVDMFEMAAPSPWLLSLHAGFLPALLISGLCAAALAVCLAVPVFRVRGDYLAIVTLGFGFIIKILAINNPQITNGAIGLNDIPQQPHLLFWCGLFALLATGMILQLVWSKYGRMMKAIRDDEDAAIAMGVNTFRIKTCAFATSAFFEGIGGGLLASLLTTISPGLFDFMLTFQLLIIIVLGGLGSTTGALLGTVLVVGSGEWLRFLDQPLQFFGHDLGAYPGLRMVVFSLLLLIIMLFAREGLLGKKEIWQMGRRNSSYGGK	PGPT0020775_5227	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020775-livM-K01998	NA	NA
BMS020_03385	900	livH_3	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	ATGGACGGCGCCATTTTTCTCCAGCAAGTGGTCAATGGAATGAGTCTTGGGGGCATGTACGCCCTGATTGCCATCGGTTATACGATGGTTTATGGCGTGCTAAGGCTGATCAACTTCGCCCATGCGGACGTGATGATGGTCGGCGCGTTTAGTACGCTGTTTTTATTTTCTTCGGTTGGGCTGCCCTTCGGGGTAGCCGTTTTCCTGACCCTCGGGCTGTGCGGCCTGTTTGGCATGCTGATTGACCGGGTCGCCTATCGTCCGCTGCGCCAGGCCTCGAAAATCTCCATGCTGATCACCGCCATCGGCGTCAGCTTCTTCCTCGAAAACCTGTTTAACGTGCTGTTCGGCGGCAGCTCGCGCTTCTTCTCCGCCCCTGACTTTTTCAACCAGACCCGGGCCTTCGGCAGCGTCATCATTACCAACGTGGCGTGGATTGTGCCGCTGATCACCGTCCTGCTGCTGCTGGCGATCCTCTGGCTGCTGTACCGCACCCGCTATGGAATGGCGATCCGCGCGGTAGCCTTTGACGTCAACACCGTGCGTCTGATGGGCATTGACGCCAACCGGATCATCTCCCTGGTCTTCGCCCTCGGCAGCAGCCTCGCGGCGCTCGGCGGCGTGTTCTACTCCATCAGCTACCCGACGATCGATCCCCTGATGGGCGTGCTTATCGGCCTGAAGGCCTTCGCCGCCGCCGTGCTGGGCGGGATCGGCAGCGTCACCGGCGCGGTGCTGGGCGGCTTTATCCTCGGTTTTACCGAGGTGGTCGCGGTGGCGATCTTCCCCGAACTGGGCGGCTATAAAGACGCTTTCGCCTTCCTGTTCTTGATTCTGGTCCTCTTGTTCCGCCCGGTCGGCATTATGGGCGACGAACGTCTGGAAAGGAGCCGTTTCTGA	MDGAIFLQQVVNGMSLGGMYALIAIGYTMVYGVLRLINFAHADVMMVGAFSTLFLFSSVGLPFGVAVFLTLGLCGLFGMLIDRVAYRPLRQASKISMLITAIGVSFFLENLFNVLFGGSSRFFSAPDFFNQTRAFGSVIITNVAWIVPLITVLLLLAILWLLYRTRYGMAIRAVAFDVNTVRLMGIDANRIISLVFALGSSLAALGGVFYSISYPTIDPLMGVLIGLKAFAAAVLGGIGSVTGAVLGGFILGFTEVVAVAIFPELGGYKDAFAFLFLILVLLFRPVGIMGDERLERSRF	PGPT0020770_4582	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020770-livH-K01997	NA	NA
BMS020_03386	1137	braC	COG0683	Leucine-, isoleucine-, valine-, threonine-, and alanine-binding protein	ATGAAATCGTTTTCCGGGAAAGCGTCTTTAATGGCCACGCTGGTAGCCGCGCTGGCCGGCGCGAGCAGCGCGCAGGCAGCGGAAATTAAAATCGGGGTGGTATTACCCCTGAGCGGCGCCCTCAGCGGCTATGGTCAGCCGTCGCAGAAAGGGCTGGACATTATTCAGACCATCACCCCGACGTTAAAAAATGGCGATACCATCAAGCTTATCGTTATCGATGATAAAAGCGACAAAGTCGAAGCGGCCAACGCCATGCAGCGGCTGGTCTCCAGCGATAAAGTGGATGCCGTGATCGGGGAAGTCACCTCCTCCAACACCCTGGCGATGACCAAGATCGCCGACGACAGCAAAACGCCGCTGGTCTCCTCCACCGCCACCAACGACCGCGTCACCCGTAACCATCCGTACGTCAGCCGGGTCTGCTTCTCGGACAGCTTCCAGGGGGTAGTCGGGGCCAATCTGGCCTCCCGCGATCTGAAAGCCAAAACCGCCGCCATCGTGTTTGACAGTAGCAACGATTACTCCGTCGGCCTGGCGAAAGCGTTCCGCACCCAGTTCCTGAAAAACGGCGGCACCATTCCCATCGAGGTACAGGCCCCGGGCGGCAGCAAGGACTTTAAAGCCCAGCTGGCGAGCGTCAAGGCGAAGAATGTCGACATGATTTATATGCCGATCTACTACACCGAAGGGGCGCTGATTGCCGTGCAGTCAAAACAGCTGGGGCTCAACAAACCGGTGGTCGGCGGCGACGGTCTGGCCGCGGATCAGGTCTTCTTCGATGTGGGTAAAGACGCGGTCAACGGCTATATGACCACCGATTACTACTCGCCGAACGCCAAAGAGCAGACCCCGGCCGGGGAAACCTTCATCAAAGCCTGGGAAGCCAAATACCAGCAGCCGACCCATACCTGGGGCGCAATGGCGGCGGACGCCTATAACGTCATCGTCAACGCCATGAACCAGTGCAGCGATCCCCACGATCGGGTCTGCGTGAATGAAAAAATCCGCGCCACCAAAGATTTCCAGGGCGTGACCGGCACGCTGACGTTACAGAACGGCGACGCCATTCGCAGCGCGGTCATCAACGAAGTGAAAGATGGCAAGCTGGCGTTTCGTACCGTGGTTAACCCTTAA	MKSFSGKASLMATLVAALAGASSAQAAEIKIGVVLPLSGALSGYGQPSQKGLDIIQTITPTLKNGDTIKLIVIDDKSDKVEAANAMQRLVSSDKVDAVIGEVTSSNTLAMTKIADDSKTPLVSSTATNDRVTRNHPYVSRVCFSDSFQGVVGANLASRDLKAKTAAIVFDSSNDYSVGLAKAFRTQFLKNGGTIPIEVQAPGGSKDFKAQLASVKAKNVDMIYMPIYYTEGALIAVQSKQLGLNKPVVGGDGLAADQVFFDVGKDAVNGYMTTDYYSPNAKEQTPAGETFIKAWEAKYQQPTHTWGAMAADAYNVIVNAMNQCSDPHDRVCVNEKIRATKDFQGVTGTLTLQNGDAIRSAVINEVKDGKLAFRTVVNP	PGPT0020765_12235	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020765-livK-K01999	NA	NA
BMS020_03387	777	eutC_1	COG4302	Ethanolamine ammonia-lyase light chain	ATGAACCGTCCCGACGCCTGGAACCCGCTGCGTGAATTTACCGATGCGCGGATCGCCCTGGGCCGCAGCGGCGCCAGCCTGCCGACCCGCGAAGTCCTTAACTTTGGTCTGGCCCACGCCAGAGCGCGGGACGCCATTCATCAGCCGTTCGCCAGCCAGCAGCTGGTGGCGCCGCTGGCGGCGCTCGGCCTCGACACCCTGACGGTGCACAGCGCCGCGCCGGACCGTCATACCTATCTGCGGCGCCCGGATCTCGGGCGGCAGCTCGCCGACGAGAGTCGCGCCGACCTCGCCGCCAGCGGCGTCCGCCCCGCCGACCTGCTGCTGGTGATCGGCGACGGCCTCTCTTCCTGGGCGGTAGAGCGCCAGGCGGTGCCGTTGATCCGCGCCCTGCTGCCCTGGCTGCAGACGCTGGGGATCGGCCTCGCGCCGGTGGTGCTGGCCCATCAGTCGCGGGTGGCGCTGGGGGATGATATTGGCGAAACCCTGAAAGCCCGCGCGGTGGCGATCCTGATTGGCGAACGACCGGGCCTCTCCTCGCCGGACAGCCTCGGCGTCTACCTCACCTGGCAGCCCCATCGGCAGCGGCTGGAGTCAGAGCGCAACTGTATCTCCAATATTCGCCCGGAAGGGCTGAGCCATGACGCCGCCGCCTTTAAACTGGCCTGGCTGCTGGAGCAGGCTTTTTTACGACGGCTTACCGGCGTGCGCCTGAAAGATGAAAGCGATAATCCGGCGCTGCATGGAAAAATAAAACCATTGCCCCCTTTAAAATAA	MNRPDAWNPLREFTDARIALGRSGASLPTREVLNFGLAHARARDAIHQPFASQQLVAPLAALGLDTLTVHSAAPDRHTYLRRPDLGRQLADESRADLAASGVRPADLLLVIGDGLSSWAVERQAVPLIRALLPWLQTLGIGLAPVVLAHQSRVALGDDIGETLKARAVAILIGERPGLSSPDSLGVYLTWQPHRQRLESERNCISNIRPEGLSHDAAAFKLAWLLEQAFLRRLTGVRLKDESDNPALHGKIKPLPPLK	PGPT0000610_871	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_GLYCEROPHOSPHOLIPID-ETHANOLAMINE_AMMONIA-LYASE_ACTIVITY,PGPT0000610-eutC-K03736	NA	NA
BMS020_03388	1389	eutB_1	COG4303	Ethanolamine ammonia-lyase heavy chain	ATGTATAAAACCACGCTATCGGGCCAGGTATGGCGCTTTGATAGTCTGAAAACGCTGATGGCGAAAGCGTCGCCGGCCCGCTCCGGCGACGCCCTGGCGGGCGTTATCGCCCACTCGGCCGAAGAGCGGATGGCGGCGAAAATGACCCTCGCCGAGGTGCCGCTGACCGACATTCTCGACAACCCGCTTATCCCCTACGAGCAGGACGAAGTGACCCGCCTGATCCTCGACACCCATGATGCGCAGGGCTTTACCGCCCTGCGTCACCTGACGGTCGGCGATTTCCGCGACTGGCTGCTGGACGATGCCACCGATACCGCCACGCTGCAGCGGGTCGCCCGCGCTATCACCCCGGAGATGGCGGCGGCGGTAAGCAAGCTGATGCGCAATCAGGATCTGATCCTCGCCGCCAGCAAATGTCAGGTGGTGACGCGCTTTCGCAACACCATCGGCCTGCCCGGCCACCTCAGCGTGCGCCTGCAGCCCAATCATCCCACCGATGACCTGAAAGGCATCGCCGCCAGTATGCTCGACGGACTGCTGTACGGCGCCGGGGATGCGGTGATCGGCATCAACCCGGCCAGCGACAGCTTACCGGTGCTGGCGCAGCTGAACGTGATGCTGGACGATATTATCCAGCGCTTCGCCATTCCCACCCAGTCCTGCATTCTGACCCACGTCACCAATACGCTGCAGCTGATTGAGCGCGGCGCGCCGGTGGATCTGGTGTTTCAGTCGGTGGCGGGAACCGAAGCGGCCAACAGCGGCTTCGGCATCAACCTTGCCATGCTGCAGGAGGCCCGCGAGGCGGCCCTCAGCCTCGGTCGCGGCACCCTCGGCAACAATGTAATGTATTTTGAGACCGGCCAGGGGAGCTGCCTGTCGGCCAACGCCCACCACGGCGTCGACCAGCAGACCTGCGAGGCGCGGGCCTACGCCGTCGCCCGCCACTTTGAACCGCTGCTGGTCAATACGGTGGTCGGCTTTATCGGTCCGGAGTATCTCTACGACGGCAAGCAGATTATTCGCGCCGGGCTGGAGGATCACTTCTGCGGCAAGCTGATGGGCCTGCCGATCGGCTGCGACGTCTGCTATACCAACCACGCGGAAGCGGATCAGGATGATATGGACACCCTGCTGACCCTGCTGTGCGCCGCCGGGCTCACCTTCCTGATCGGCGTGCCAGGGGCGGACGATATCATGCTTAATTACCAGAGCACCTCGTTCCATGACGCGCTCTACGCCCGTCGTCTGCTGGGCTTAAAGCATGCCCCGGAGTTCGCCGACTGGCTGGCGAAGATGCAAATTATCGATCCGCACGGCGCGCTGCGGCTCACCGACGCCCGCCATCCGCTGCTGTCCGTTCTGCCGCAAGGAGCCCCCGTATGA	MYKTTLSGQVWRFDSLKTLMAKASPARSGDALAGVIAHSAEERMAAKMTLAEVPLTDILDNPLIPYEQDEVTRLILDTHDAQGFTALRHLTVGDFRDWLLDDATDTATLQRVARAITPEMAAAVSKLMRNQDLILAASKCQVVTRFRNTIGLPGHLSVRLQPNHPTDDLKGIAASMLDGLLYGAGDAVIGINPASDSLPVLAQLNVMLDDIIQRFAIPTQSCILTHVTNTLQLIERGAPVDLVFQSVAGTEAANSGFGINLAMLQEAREAALSLGRGTLGNNVMYFETGQGSCLSANAHHGVDQQTCEARAYAVARHFEPLLVNTVVGFIGPEYLYDGKQIIRAGLEDHFCGKLMGLPIGCDVCYTNHAEADQDDMDTLLTLLCAAGLTFLIGVPGADDIMLNYQSTSFHDALYARRLLGLKHAPEFADWLAKMQIIDPHGALRLTDARHPLLSVLPQGAPV	PGPT0000605_596	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_GLYCEROPHOSPHOLIPID-ETHANOLAMINE_AMMONIA-LYASE_ACTIVITY,PGPT0000605-eutB-K03735	NA	NA
BMS020_03389	1380	yhdG_2	COG0531	putative amino acid permease YhdG	ATGACAGAGCACACCACCACCTTAAAAAGAACGCTCGGCAGTTTTCGTTTATGGGGGATCGCCGTCGGACTGGTGATATCCGGGGAGTACTTCGGCTGGAGCTACGGCTGGTCGCAGGCGGGCACGATGGGGTTTATGGTCGTCGCCCTGGCGGTCGCCGCCATGTACTGCGCCTTTATTTTCAGCTTTACCGAGCTGACCACCGCCATCCCGCACGCTGGCGGCCCTTTCGCCTACGCCTACCGCGCCTTCGGGCCCACCGGCGGCTTTATCGCCGGTTTTGCCACTCTGATTGAATTCGTCTTCGCCCCGCCGGCCATCGCCATGGCCATCGGCGCCTACCTCAACGTGCAGTTTCCGGCGCTGGATCCGAAGTGGGTCGCCTGCGGCGCTTACGTGATCTTTATGACGCTCAATATCCTCGGCGTCGGCATCGCCGCCACCTTCGAGCTGATCGTCACCCTGCTGGCCATCTTCGAGCTGCTGGTGTTTATGGGCGTGGTCGCCCCCGGCTTCTCCTGGAGCCACTTCACCGCCAACGGCTGGGCGGGCGCGGAAAGCTTTAGCGGCCTGGCGCTGCCGGGGATGTTCGCCGCCATTCCGTTCGCTATCTGGTTTTTTCTCGCCATTGAGGGGGCTTCCATGGCCGCCGAAGAGGCCAAAGATCCGCAGCGCACCATTCCGCGCGCCCTGGGCGGCGGCATTCTGACGCTGACGGTGCTGGCGATCGGCGTGATGGTCTTCGCCGGCGGCGTCGGCGACTGGCGCGCGCTGTCCAATATCAACGACCCGCTGCCTCAGGCGATGAAGACGGTGGTGGGCAACGGCAGCGGCTGGCTGCATATGCTGGTGTGGCTGGGGCTGTTTGGCCTCGTCGCCTCCTTCCACGGCATCATTATGGGCTACTCGCGGCAGATCTACTCCCTCGCCCGCGCCGGCTATCTGCCCGCCGGGCTGGCCTCCCTCAACCGCCGCACCCGCACCCCGCATCTGGCGATCCTCGCCGGCGGCGTGGTGGGTATCGCCGCGATCTTCTCCGACTCGCTGATCACCATCAGCGGCATGCCGTTGACCGCCTGCATCGTCACCATGTCGGTATTTGGGGCTATTGTTATGTATATCACTTCCATGGCGGCGTTGTTCAAACTGCGCCGTAGCGAGCCGAAGCTGATCCGTCCGTTCCGCGCGCCGCTCTACCCGCTGGCGCCGGCCTTTGCCCTCGGCATGGCGGTGATCTGCCTGGTGGCGATGGTCTGGTATAACCTGCTGCTGGCGCTGATTTTCGCGGCGATGATGCTCGGCGGCTACCTGTGGTTCCGCAAAACCGCAGCGGCCCGTGAACGGGCGCCAGTGGATCCTCAACTGCGCACGGTCTCCTGA	MTEHTTTLKRTLGSFRLWGIAVGLVISGEYFGWSYGWSQAGTMGFMVVALAVAAMYCAFIFSFTELTTAIPHAGGPFAYAYRAFGPTGGFIAGFATLIEFVFAPPAIAMAIGAYLNVQFPALDPKWVACGAYVIFMTLNILGVGIAATFELIVTLLAIFELLVFMGVVAPGFSWSHFTANGWAGAESFSGLALPGMFAAIPFAIWFFLAIEGASMAAEEAKDPQRTIPRALGGGILTLTVLAIGVMVFAGGVGDWRALSNINDPLPQAMKTVVGNGSGWLHMLVWLGLFGLVASFHGIIMGYSRQIYSLARAGYLPAGLASLNRRTRTPHLAILAGGVVGIAAIFSDSLITISGMPLTACIVTMSVFGAIVMYITSMAALFKLRRSEPKLIRPFRAPLYPLAPAFALGMAVICLVAMVWYNLLLALIFAAMMLGGYLWFRKTAAARERAPVDPQLRTVS				NA	NA	NA	NA	NA
BMS020_03390	1410	rocC	COG0833	Amino-acid permease RocC	ATGCAAAGCACAACACAACAACAAGGTGGGCAACTGAAGCGCACCATGAAAACGCGCCATCTGATCATGCTGTCGCTCGGCGGCGTGATTGGCACCGGCCTGTTCTTTAATACCGGCTATATCATCTCCACCACCGGCGCGGCCGGAACGCTGCTGGCGTATCTGATTGGCGCCCTGGTGGTCTGGCTGGTGATGCAGTGCCTCGGCGAACTGTCGGTGGCGATGCCGGAGACCGGCGCCTTCCATGTTTACGCGGCGCGCTACCTTGGCCCGGCGACGGGCTATACCGTGGCGTGGCTCTACTGGCTGACGTGGACGGTGGCGCTGGGTTCGAGCTTCACCGCCGCCGGCTTCTGTATGCAGTACTGGTTCCCGCAGGTGCCGGTCTGGATCTGGTGCGTGGTGTTCTGCGCGGTGATTTTCGGTCTTAACATCATTTCGACCCGCTTCTTCGCCGAAGGCGAGTTCTGGTTCTCGCTGGTGAAAGTGATCACCATCATCGCGTTTATTATTCTCGGCGGCGCGGCCATTTTCGGCATCATTCCGATGCAGGATGGCTCCCCGGCGCCGGGCCTGCGCAATCTCACCGCCGAAGGCTGGTTCCCGCACGGCGGCCTGCCGATCCTGATGACCATGGTGGCGGTGAACTTCGCCTTCTCCGGGACGGAGCTTATCGGCATTGCCGCCGGAGAGACGGAAAACCCGCATAAGGTTATTCCGGTCGCCATCCGCACCACCATCGCCCGGCTGATTATTTTCTTTATCGGCACCGTGTTTGTGCTGGCGGCGCTGATCCCAATGCAGCAGGCGGGGGTGGAGAAAAGCCCCTTCGTGCTGGTGTTTGAAAAGGTGGGCATCCCTTACGCGGCGGATATTTTCAACTTCGTGATCCTGACGGCGATCCTCTCGGCGGCCAACTCCGGCCTGTACGCTTCCGGGCGGATGCTGTGGTCGCTGTCGAACGAGAAGACGCTGCCGGCCTGCTTTACCAAAGTCAATAAACGGGGCGTGCCGGTGACCGCGCTGTCGGTGAGTATGCTGGGCGGCGTGCTGGCGCTGTTCTCCAGCGTGGTGGCGCCCGATACGGTGTTTGTGGCGCTGTCGGCGATCTCCGGCTTTGCGGTGGTGGCGGTGTGGTTGAGCATTTGCGCCTCGCACTTTATGTTCCGCCGCCGCCATCTGCAGCAGGGTAAGGCGCTGAGCGATCTGCAGTATCGCGCCCCCTGGTATCCGGTGGTGCCGATTCTGGGCTTTGTGCTGTGCCTGGTGGCCTGCGTGGGCCTCGCTTTTGACCCGAGCCAGAGAATTGCGCTGTGGTGCGGGATCCCCTTTGTGGCCCTGTGCTATGGTGCCTGGTATCTTACTCGTTCACGGAAAATGACTCAGGAGCCTCAACATGTCGCAGACTAA	MQSTTQQQGGQLKRTMKTRHLIMLSLGGVIGTGLFFNTGYIISTTGAAGTLLAYLIGALVVWLVMQCLGELSVAMPETGAFHVYAARYLGPATGYTVAWLYWLTWTVALGSSFTAAGFCMQYWFPQVPVWIWCVVFCAVIFGLNIISTRFFAEGEFWFSLVKVITIIAFIILGGAAIFGIIPMQDGSPAPGLRNLTAEGWFPHGGLPILMTMVAVNFAFSGTELIGIAAGETENPHKVIPVAIRTTIARLIIFFIGTVFVLAALIPMQQAGVEKSPFVLVFEKVGIPYAADIFNFVILTAILSAANSGLYASGRMLWSLSNEKTLPACFTKVNKRGVPVTALSVSMLGGVLALFSSVVAPDTVFVALSAISGFAVVAVWLSICASHFMFRRRHLQQGKALSDLQYRAPWYPVVPILGFVLCLVACVGLAFDPSQRIALWCGIPFVALCYGAWYLTRSRKMTQEPQHVAD	PGPT0020525_289	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020525-mmuP-K16235	NA	NA
BMS020_03391	933	mmuM	COG2040	Homocysteine S-methyltransferase	ATGTCGCAGACTAATCCGTTTACCGCCCTGCTTGCCGCCCAGCCTTTTGTGCTGCTGGACGGCGCCATGGCCACCGAGCTGGAGGCCCGCGGCTGCGATCTGGCTGACAGCCTGTGGTCGGCGAAAGTGCTGCTGGAGAACCCGCAGCTGATCCGCGATGTGCATCTCGACTACTTTCGCGCCGGAGCGCAGGTGGCGATCACCGCCAGCTATCAGGCCACTCCCGCCGGCTTTGCCGCGCGCGGCCTGGATGATGCGCAGTCCCGGGCGCTGATCGGCAAAAGCGTCGAGCTGGCGCGCAAAGCGCGCGAGGCGTACCTCGCCGAGAATCCACACGCCGGCACGCTGCTGGTTGCCGGTTCGGTGGGGCCGTATGGCGCCTTTCTCGCCGACGGCTCGGAGTATCGCGGCGATTATCAGCGCAGCGCGGCAGAGTTCCAGGCCTTCCACCGCCCGCGCGTCGAAGCGCTGCTGGATGCGGGCGCCGACCTGCTGGCCTGTGAAACCCTGCCGTCATTCGCCGAGATCCAGGCCCTGACAGCCCTGCTGCAGGAGTATCCCCGCGCCCGCGCCTGGTACTCCTTCACGCTGCGCGACGCCGAACATCTCAGCGATGGCACGCCGCTGCGCGAGGTGATGGCCGCCCTGGCGGATAACCCGCAGGTGGTGGCGGTGGGCATCAACTGTATCGCGCTGGAAAATACGCCCGCGGCGCTGGCGCATCTGCACAGCCTGACGGCGCTGCCGCTGGTGGTCTATCCTAACTCCGGCGAACATTATGATGCGGTGAGCAAGACCTGGCACCATCATGGCGAAGCCTGCGCCAGCCTGACGGATTATCTGCCGCAGTGGCTGGCGGCCGGGGCGAGGCTGATCGGCGGCTGCTGCCGCACCACGCCGAAGGATATCGCTGAGCTTAACGCGAAGCGCTGA	MSQTNPFTALLAAQPFVLLDGAMATELEARGCDLADSLWSAKVLLENPQLIRDVHLDYFRAGAQVAITASYQATPAGFAARGLDDAQSRALIGKSVELARKAREAYLAENPHAGTLLVAGSVGPYGAFLADGSEYRGDYQRSAAEFQAFHRPRVEALLDAGADLLACETLPSFAEIQALTALLQEYPRARAWYSFTLRDAEHLSDGTPLREVMAALADNPQVVAVGINCIALENTPAALAHLHSLTALPLVVYPNSGEHYDAVSKTWHHHGEACASLTDYLPQWLAAGARLIGGCCRTTPKDIAELNAKR	PGPT0017810_252	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017810-lacZ-K01190	NA	NA
BMS020_03392	963	tauA	COG4521	Taurine-binding periplasmic protein	ATGGCATTCACATCGCGAATTACTCTTCTGGCGGCGCTGGCCGTCGCCGCCTTCCAGGCGCAGGCGGTCAATGTGACCGTGGCGTATCAAACCTCCGCTGAGCCGGCGAAAGTCGCCCAGGCGGACAACACCTTCGCCAAAACCAGCGGGGCGACCGTCGACTGGCGGAAATTTGACAGCGGCGCCAGCGTGGTGCGCGCCCTGGCCTCCGGCGATGTGCAGATCGGCAATATCGGCTCCAGCCCGCTGGCGGTGGCCGCCAGCCAGCAGGTGCCGATTGAAGTGTTCCTGCTCGCCTCAAAGCTCGGCAACTCCGAAGCGCTGGTGGTGAAGAAAAGCATCACCAAACCGGAAGATCTGATCGGCAAGCGCATCGCCGTGCCGTTTATCTCCACCACCCACTACAGCCTGCTGTCGGCGCTCAAACACTGGGGCATCAAGCCGGGCCAGGTGCAGATTATTAACCTGCAGCCGCCGGCGATTATCGCCGCCTGGCAGCGCGGGGATATCGACGGGGCTTACGTCTGGGCGCCAGCGGTTAACGAACTGGAAAAAGAGGGCAAGGTGCTGACCGATTCCGCGCAGGTCGGGGAGTGGGGCGCACCGACCCTCGACGTCTGGGTGGTCCGTAAGGACTTCGCCGAGCAGCATCCGGAGATCGTCAAAGCGTTTGCTAAAAGCGCCATCGACGCCCAGCAGCCCTACATCGCCAACCCGGATGAGTGGCTGAAGCAGCCGGACAACATCAGCAAGCTGGCGCCCCTGAGCGGCGTGCCGGAAGCCGATGTCCCCGGGCTGGTGAAGGGGAACACCTACCTGACCGCCGCTGAGCAGGCGCAGGCGCTGAACGGGCCGGTCAATCAGGCCATCGTCGATACCGCGCGCTTTCTGAAAGAGCAGGGCAAAGTGCCCGCGGCGGGAACCGATTATCGTCAGTACGTTACTGACCGTTTCGTGAAGTAA	MAFTSRITLLAALAVAAFQAQAVNVTVAYQTSAEPAKVAQADNTFAKTSGATVDWRKFDSGASVVRALASGDVQIGNIGSSPLAVAASQQVPIEVFLLASKLGNSEALVVKKSITKPEDLIGKRIAVPFISTTHYSLLSALKHWGIKPGQVQIINLQPPAIIAAWQRGDIDGAYVWAPAVNELEKEGKVLTDSAQVGEWGAPTLDVWVVRKDFAEQHPEIVKAFAKSAIDAQQPYIANPDEWLKQPDNISKLAPLSGVPEADVPGLVKGNTYLTAAEQAQALNGPVNQAIVDTARFLKEQGKVPAAGTDYRQYVTDRFVK	PGPT0002945_831	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TAURINE_TRANSPORT,PGPT0002945-tauA-K15551	NA	NA
BMS020_03393	768	tauB	COG4525	Taurine import ATP-binding protein TauB	ATGCTGCAAATCTCGCATCTTTCCGCCGACTACGGCGGTAAACCGGCGCTGGCGGATATCAACCTGACGCTGGAGAGTGGGGAGCTGCTGGTGGTGCTGGGGCCTTCGGGCTGCGGTAAAACTACCCTGCTGAACCTGATTGCCGGATTCGTGCCCTATCAGCACGGCAGCATCACCCTCGAAGGTCAGCGGGTGACCGGGCCGGGCGCAGAGCGCGGCGTGGTCTTCCAGAACGAAGGCCTGCTGCCATGGCGCAATGTGCAGGATAACGTGGCGCTGGGGCTGCAGCTGGCGGGCGTGGATAAAGCGCAGCGGCGGCAAGCGGCGGCGCAGATGCTGAAAAAGGTCGGCCTCGAAGGGGCGGAAAAGCGCTTTATCTGGCAGCTGTCCGGCGGTCAACGCCAGCGGGTGGGCATCGCCCGGGCGCTGGCGGCGAATCCGCAGCTGTTGCTGCTGGATGAGCCCTTCGGCGCGCTTGACGCCTTTACCCGCGAGCAGATGCAAACGCTGCTGCTGACGCTCTGGCATGAGACCGGCAAACAGGTGCTGCTCATCACCCATGACATTGAAGAGGCCATCTTTATGGCGACCGAGCTGGTGCTGCTGTCGCCGGGGCCGGGGCGGGTGGTGGAGCGGCTGCCGCTGGATTTCAGCCGCCGCTTTGTCGCGGGCGAACCCTGCCGCAGCATCAAATCCGACCCGCGGTTTATTGAACAGCGGGAATACATTCTGAGCCGGGTGTTTGACCAACGGGAGGCTTTCTCATGA	MLQISHLSADYGGKPALADINLTLESGELLVVLGPSGCGKTTLLNLIAGFVPYQHGSITLEGQRVTGPGAERGVVFQNEGLLPWRNVQDNVALGLQLAGVDKAQRRQAAAQMLKKVGLEGAEKRFIWQLSGGQRQRVGIARALAANPQLLLLDEPFGALDAFTREQMQTLLLTLWHETGKQVLLITHDIEEAIFMATELVLLSPGPGRVVERLPLDFSRRFVAGEPCRSIKSDPRFIEQREYILSRVFDQREAFS	PGPT0002955_691	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TAURINE_TRANSPORT,PGPT0002955-tauC-K10831	NA	NA
BMS020_03394	828	ssuC_2	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGAGCGTGGTACTGAACGACAAACCGCGTCAACTGACGCTGAAGTGGCGCTGGCCGCTCTCCCGTCAGCTCACCCTCAGCGTGGCGACCCTGGCGGTGTTGCTGGCCGTCTGGTGGGCGGTCGCGGCGCTGCAGCTGATTAGCCCGCTATTTCTGCCGCCGCCGGGCCAGGTGCTGCAGAAGCTTATCACTATCGCCGGGCCGCAGGGCTTTATGGATGCGACGCTCTGGCAGCACCTGGCGGCGAGCCTGACGCGGATCGTTATCGCTCTGCTGGCGGCGGTGCTGATCGGCGTGCCGGTGGGGATCGCCATGGGGCTCAACTCAACGGTGCGCGGGATCCTCGATCCGCTGATCGAGCTTTATCGTCCGGTGCCGCCGCTGGCCTACTTACCGCTGATGGTGATCTGGTTTGGCATCGGTGAAACGTCGAAGATCCTGCTGATCTACCTGGCGATTTTCGCCCCGGTAGCGATGTCGGCGCTGGCGGGGGTAAAAAGCGCGCAGCAGGTGCGGATTCGCGCCGCCCGTTCGCTGGGCGCCAGCCGGGCGCAGGTGCTGTGGCTGGTGATCCTGCCCGGCGCGCTGCCGGAGATCCTCACCGGGCTGCGCATTGGTCTTGGCGTCGGTTGGTCAACGCTGGTGGCCGCTGAGCTGATCGCCGCCACCCGCGGGTTAGGATTTATGGTGCAGTCCGCCGGCGAGTTTCTCGCCACCGATGTGGTGCTGGCGGGGATCGCGGTGATTGCCATTATCGCCTTTTTACTGGAACTGGGTCTGCGCGCGCTGCAGCGGCGCCTGACGCCCTGGCATGGAGAAGTACAATGA	MSVVLNDKPRQLTLKWRWPLSRQLTLSVATLAVLLAVWWAVAALQLISPLFLPPPGQVLQKLITIAGPQGFMDATLWQHLAASLTRIVIALLAAVLIGVPVGIAMGLNSTVRGILDPLIELYRPVPPLAYLPLMVIWFGIGETSKILLIYLAIFAPVAMSALAGVKSAQQVRIRAARSLGASRAQVLWLVILPGALPEILTGLRIGLGVGWSTLVAAELIAATRGLGFMVQSAGEFLATDVVLAGIAVIAIIAFLLELGLRALQRRLTPWHGEVQ	PGPT0002950_580	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TAURINE_TRANSPORT,PGPT0002950-tauB-K15552	NA	NA
BMS020_03395	852	tauD	COG2175	Alpha-ketoglutarate-dependent taurine dioxygenase	ATGAGTGAACGTCTGAGCATTACCCCGCTGGGGCCGTATATTGGCGCGCAGGTGACCGGGGCGGATTTAACCCGTCCGCTGAGCGACAACCAGTTTGAGCAGCTGTATCACGCGGTGCTGCGTCATCAGGTGGTATTCCTGCGCGAGCAAAATATCACCCCGGCGCAACAGCGCGACCTGGCGCTGCGGTTTGGCGACCTGCATATTCATCCGGTCTACCCTCACGCCCCAGGCGTCGAGGAGATTATCGTCCTCGATACCCACAACGATAATCCGCCGGATAATGACAACTGGCATACCGATGTCACCTTTATCGACACGCCGCCCGCCGGCGCTATTCTGGCGGCGAAAGAGTTGCCGACGACCGGCGGGGACACTCTGTGGACCAGCGGTATCGCCGCCTGGGAGGCGCTGTCAGAGCCCTTCCGGCAGCTGCTGAGCGGCCTGCATGCGGAACACGATTTCCGTAAATCGTTCCAGGAGTATAAGTACAACCACACGGAAGCCGAGCATCGGCGCTGGCAGGAGGCGGTGGCGAAGCATCCGCCGCTGCTGCACCCGGTGGTGCGTACCCACCCGGTGACCGGCAAGCAGGCGCTGTTCGTTAACGAAGGCTTTACCACGCGGATTGTCGACGTGACCGAGAAAGAGAGCGCGGCGCTGCTGAGCTTCCTGTTTGCCCATATCACCAAACCGGAGTTTCAGGTGCGCTGGCGCTGGCAGCCGAACGATGTCGCTATCTGGGATAACCGGGTAACCCAGCATTACGCCAACGCCGACTATCTGCCGCAGCGGCGGATCATGCACCGGGCGACGATCCTTGGCGATAAGCCGTATTACCGGGCGGGGTAA	MSERLSITPLGPYIGAQVTGADLTRPLSDNQFEQLYHAVLRHQVVFLREQNITPAQQRDLALRFGDLHIHPVYPHAPGVEEIIVLDTHNDNPPDNDNWHTDVTFIDTPPAGAILAAKELPTTGGDTLWTSGIAAWEALSEPFRQLLSGLHAEHDFRKSFQEYKYNHTEAEHRRWQEAVAKHPPLLHPVVRTHPVTGKQALFVNEGFTTRIVDVTEKESAALLSFLFAHITKPEFQVRWRWQPNDVAIWDNRVTQHYANADYLPQRRIMHRATILGDKPYYRAG	PGPT0002940_840	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002940-tauD-K03119	NA	NA
BMS020_03396	1719			hypothetical protein	ATGTTTAGTCTCGACAACGTACTCGATGACCTGTGGCCTCAGGCGAGGCCCGCCCCCTGGCAAAAGAAACTGTTAAAAAAGCTATTTTATGAGGAAGAGTTTCAACAATTTGCCGACCGTCACCGCCACCTGAAGGGGCTTGATACGGTCGAACAGGTGCTGGAATACCTCAATATCCGCTGCGCTATCCCGGCGCACGATCTCGAACAAATCCCCGAATATGGCCCGCTGGTCATTATCGCCAACCACCCCACCGGCACCCTCGACGGCCTGGCGCTCCTGTATGCGGTATCCCGCGTGCGCCGCGATGTCAAAGTGGTCACCAACCGCATGCTCACCCACCTTGAGCCCCTGAGCTCGCTGTTTATCCCGGTGGATAATATTCATGGCCGCACCGCTAAAACGGCGCTGCAGCAGATGGACCAGCAGCTGCAGGCCGGCGGGGTGCTGATCTTCTTCCCGGCGGGGGAAGTCTCCCGCCTCACCCGTCGCGGCATCCGCGATAAAAAATGGCACTCGGGCTTTATTAAGCTGGCGGCAAAATATCGCGCCCCGCTGCTGCCGGCGTGGATTAACGCCCACAACAGCGCCCTGTTTTACGCCAGCACCCTGGTCTCCGACAACCTGCCGATGCTCCTGCTGATGCAACAGATGTTTCGCCGGCGCAACAGCAGCCTGCCGGTGCGTATCGGCCAGCAGATCCCCTGGTCGAGCTGGTTCGATGCCCAGTCCAGCGCTCGCGAGCTTACCGGCCGCTGCTATCAGCACCTTGACCAGCTGCGCAAAGGGCTGCCGGGGCGGTTTAAAACCGAAAGCGCCATCGCCCGTCCGGAAGACCGGGCGCGGCTTAAACGCGAACTGCACAAGGCCGAATGCCTGGGCCGCACCGCCGACGGCAAAGTGATTTACCTCTGGCAGCGCAACGGCCAGGAGGAGGCGCCGCTGCTGCGCGAGCTGGGACGCCTGCGGGAAATCGCCTTCCGCGCGGTCGGGGAAGGCAGCGGCAAACGGCGGGATATCGACCGGTATGACGACGACTATCTGCATCTGATCCTGTGGGATGAAGAAGATTTGGAAATCGTCGGCGCTTACCGCTTTATGCCGACGGCTATACAGCTGGCAAAGCGCGGCCTCGAGGGGATCTACAGCTCCAGTCTCTTCCACTACGACGGGCGGATGGACGACATCCTGCAGCACGGCATTGAGCTGGGGCGCAGCTTTATCCAGCCGCGCTACTGGGGTCGACGCGGGCTGGACTATCTGTGGTCCGGCATCGGCGCTTATCTGGCGCGCTATCCGCACTATCGCTATCTGTTTGGCCCGGTGTCGATTTCTGGCGGGCTGCCGCCCGCCGCTCGCGATCTGCTGGTGGCGTTCTACCGGCTGTGGTTCCCGGCGACGCATCCGCTGGCGGAGTCGCGTCGCCCTTATCCGGCCTCGCTGCCCGACGTGCTGGCGCAGTTTGGCGGGGAGGATTACAACGACGACCTGGCCCGGCTGAAGTCCCTGCTGGGCAATCTCGGCTGCGCGATCCCGCCGCTGTATAAGCAGTACTCGGAAGTGTGCGAGCCGGGCGGAGTGCAGTTTATCGATTTCGGCAGCGATCCGGATTTCAATAACTGCGTGGATGGTCTGGTGCTGGTGGATCTCACCTACCTGAAGGCCAATCGCTATCAGCGCTATATTGGCGCGCATCTGGGTGCGCAAAAATCGGCATAA	MFSLDNVLDDLWPQARPAPWQKKLLKKLFYEEEFQQFADRHRHLKGLDTVEQVLEYLNIRCAIPAHDLEQIPEYGPLVIIANHPTGTLDGLALLYAVSRVRRDVKVVTNRMLTHLEPLSSLFIPVDNIHGRTAKTALQQMDQQLQAGGVLIFFPAGEVSRLTRRGIRDKKWHSGFIKLAAKYRAPLLPAWINAHNSALFYASTLVSDNLPMLLLMQQMFRRRNSSLPVRIGQQIPWSSWFDAQSSARELTGRCYQHLDQLRKGLPGRFKTESAIARPEDRARLKRELHKAECLGRTADGKVIYLWQRNGQEEAPLLRELGRLREIAFRAVGEGSGKRRDIDRYDDDYLHLILWDEEDLEIVGAYRFMPTAIQLAKRGLEGIYSSSLFHYDGRMDDILQHGIELGRSFIQPRYWGRRGLDYLWSGIGAYLARYPHYRYLFGPVSISGGLPPAARDLLVAFYRLWFPATHPLAESRRPYPASLPDVLAQFGGEDYNDDLARLKSLLGNLGCAIPPLYKQYSEVCEPGGVQFIDFGSDPDFNNCVDGLVLVDLTYLKANRYQRYIGAHLGAQKSA				NA	NA	NA	NA	NA
BMS020_03397	975	hemB_1	COG0113	Delta-aminolevulinic acid dehydratase	ATGACAGATTTAATCACTCGCCCCCGCCGCCTGCGTCAATCCGCTGCGCTGCGCGCCCTGTTTGAAGAGACAACACTGAGTTTGAACGACCTGGTGTTGCCGATCTTTGTTGAAGAAGAAATTGATGATTACAAAGCGATCGAGGCTATGCCCGGCGTGATGCGTATTCCGGAAAAATATCTGGCGCGTGAGATCGAACGCATCGCCAATGCCGGCATTCGCTCGGTGATGACCTTTGGCATTTCTCATCACACCGACGCCACCGGCAGCGATACCTGGAATGAAAATGGTCTGGTGGCGCGTATGTCGCGGATCTGTAAGTCCACGGTGCCGGAGATGATCGTCATGTCCGATACCTGCTTCTGCGAATACACCTCCCACGGCCACTGTGGCGTGCTGTGCGACCACGGGGTGGACAACGACGCGACCCTGGAAAACCTCGGCAAACAGGCCGTTGTCGCCGCCGCCGCCGGCGCGGACTTCATCGCCCCTTCCGCCGCGATGGATGGTCAGGTGCAGGCGATTCGCCGCTCGCTGGACGCTGCCGGCTTCACCAATACGGCGATCATGTCCTACTCGACCAAGTTCGCGTCTTCCTTCTACGGCCCGTTCCGCGAAGCGGCCGGTACCGCGCTGAAGGGCGATCGTAAAACCTATCAGATGAGCCCGATGAACCGCCGGGAAGCCATTCGCGAGTCGCTGCTCGATGAAGCCCAGGGCGCCGACTGCCTGATGGTGAAACCGGCCGGCGCCTACCTGGATATTCTGCGCGATATCCGCGAGCGCAGCGATCTGCCGCTCGGCGCGTATCAGGTCAGCGGGGAGTACGCGATGATCAAATTCGCCGCCCAGGCGGGCGCTATCGATGAAGAGAAAGTGGTTCTGGAAAGCCTTGGCGCGATCAAACGCGCGGGCGCCGACCTGATCTTCAGCTATTTCGCCCTCGACCTGGCCGAGAAAAAAATCCTCCGTTAA	MTDLITRPRRLRQSAALRALFEETTLSLNDLVLPIFVEEEIDDYKAIEAMPGVMRIPEKYLAREIERIANAGIRSVMTFGISHHTDATGSDTWNENGLVARMSRICKSTVPEMIVMSDTCFCEYTSHGHCGVLCDHGVDNDATLENLGKQAVVAAAAGADFIAPSAAMDGQVQAIRRSLDAAGFTNTAIMSYSTKFASSFYGPFREAAGTALKGDRKTYQMSPMNRREAIRESLLDEAQGADCLMVKPAGAYLDILRDIRERSDLPLGAYQVSGEYAMIKFAAQAGAIDEEKVVLESLGAIKRAGADLIFSYFALDLAEKKILR	PGPT0003655_4118	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003655-hemB-K01698	NA	NA
BMS020_03398	1161	ampH_1	COG1680	D-alanyl-D-alanine-carboxypeptidase/endopeptidase AmpH	TTGAAACGTAGTTTGCTCATTTTTGCTGCGCTGTGCGCGGCGTCGTGGACCTCGGCGCAGGCCGCACAGCCCACCGTTGACCCGGTTTTCGCCTCGGATGTGGTCGATCGTTACGCCAATCATATCTACTACGGCAGCGGCGCCACCGGCATGGCGCTGGTGGTGATCGATGGCAATCAGCGTGTGTTTCGCAGCTTTGGCGAAACCCGCCCCGGGAATAATCAGCACCCGCAGCTCGACTCGGTGATCCGTATCGCCTCCCTCAGCAAACTGATGACCAGCGAGATGCTGGTGAAGCTGCTCGACCAGGGGGTGGTGAAACTCGACGATCCGCTGAGCAAATACGCCCCGCCGGGCGCCCGGGTGCCTGACTGGCAGGGAAAACCGATCACCCTGGTGAATCTCGCGACCCATACCAGCGCCCTGCCGCGCGAACAGCCTGGCGGCGCCGCCCATCGCCCGGTGTTTGTCTGGCCGACCCGCCAGCAGCGCTGGAGCTGGCTCTCTACCGCGACCCTGAAGACCGCGCCAGGCTCGCAGGCGGCCTACTCCAACCTGGCCTTCGATTTGCTGGCGGACGCGCTCTCCACCGCCGCCGGCAAACCTTATCCGCAGCTATTTGAAGAGCAGATCACCCGACCGCTGGGGATGAAGGACACCACCTTTACCCCGTCGCCGGACCAGTGCCAGCGGCTGATGATCCCGGAAAAAGGCGCCAGCCCGTGCAACAACACCCTGGCGGCGATCGGCAGCGGCGGAGTCTACTCGACGCCGGGGGATATGATGCGCTGGATGCAGCAGTTCCTGTCATCCGATTTCTATACCCGCGGCCAGCAGGCCGACCGGATGCAGACGCTGATTTATCAGCGTAACCAGCTGACCCGGGTGATCGGTATGGACGTGCCGGGCCGCGCCGACGCGCTGGGGCTTGGCTGGGTGTATATGAAGCCGAAGAATGGCCATCCGGGGATTATTCAGAAAACCGGCGGCGGCGGCGGGTTTATCACCTATATGGCGATGAATCCGCAGGCTAACGTCGGCGCTTTTGTGGTGGTGACCCGCTCGCCGTTAACCCGCTTCAACAATATGAGCGATGGCATCAACGACCTGGTCAGCGAGCTGAGCGGCGCGCAGCCCAACATGCAGACGGCCAGCCAGTAA	MKRSLLIFAALCAASWTSAQAAQPTVDPVFASDVVDRYANHIYYGSGATGMALVVIDGNQRVFRSFGETRPGNNQHPQLDSVIRIASLSKLMTSEMLVKLLDQGVVKLDDPLSKYAPPGARVPDWQGKPITLVNLATHTSALPREQPGGAAHRPVFVWPTRQQRWSWLSTATLKTAPGSQAAYSNLAFDLLADALSTAAGKPYPQLFEEQITRPLGMKDTTFTPSPDQCQRLMIPEKGASPCNNTLAAIGSGGVYSTPGDMMRWMQQFLSSDFYTRGQQADRMQTLIYQRNQLTRVIGMDVPGRADALGLGWVYMKPKNGHPGIIQKTGGGGGFITYMAMNPQANVGAFVVVTRSPLTRFNNMSDGINDLVSELSGAQPNMQTASQ	PGPT0024060_211	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024060-ampH-K18988	NA	NA
BMS020_03399	534	rutB_2		Peroxyureidoacrylate/ureidoacrylate amidohydrolase RutB	ATGGCGGCTCAACGGGTAGTGATGGTCGTGGATATGCAAAACGGCGTGTTCGCCACGCCGCGTCTGGCGCGCGAGCGCTGCGTCGCGCAAATTAATCGTCTGGTGCGCGCGGCGGATAAGGTTATTTTTATTCAGCATGATGAGGCCGGCGGCCTCGAAGCCGGCAGCGAAGGCTTCGCCCTGCTCCCTGAGCTGGAGCAGCCGGCCGGCGCGCTCTATGTCACTAAAACCGCCTGCGACGCCTTCTACCACACCTCGCTGGAGCAGGTGCTGCGGGAACACGACATTCAGCAGTTTGTCATCTGCGGTTGCGCCACCGACTACTGCCTCGACACCACCATTAAAAACGGCGCCAGCCGCGGATACGGCATTGTTATCGCGGAAGATGCCCACACCACCGCCAACCGCCCCGCCGCGCAGGCCGCGACGCTCATCGCCCACTACAATGAGGTGTGGCGTACGCTGACCGTTCCTGGCAATCCTTTACAGGTGAAACCCACAGAAACAATTCTGCACGCCTGGCAGCAGAACTAA	MAAQRVVMVVDMQNGVFATPRLARERCVAQINRLVRAADKVIFIQHDEAGGLEAGSEGFALLPELEQPAGALYVTKTACDAFYHTSLEQVLREHDIQQFVICGCATDYCLDTTIKNGASRGYGIVIAEDAHTTANRPAAQAATLIAHYNEVWRTLTVPGNPLQVKPTETILHAWQQN				NA	NA	NA	NA	NA
BMS020_03400	1221	sbmA	COG1133	Peptide antibiotic transporter SbmA	ATGTTTAAATCTTTTTTCCCCAAACCGGGGCCGTTTTTTATTTCTGCCTTTATCTGGTCGCTGCTGGCGGTGATCTTTTGGCAGGCGGGCGGCGGCGACTGGCTGCTGCGGGTCACCGGGGCATCGCAGGATGTGGCGATCAGCGCGGCGCGCTTCTGGTCGCTCAACTATCTGGTGTTCTACGCTTACTATCTGTTTTGCGTCGGCGTGTTTGCGCTGTTCTGGTTTGTCTACTGCCCGCATCGCTGGCAGTACTGGTCGATTCTCGGCACGTCGCTCATCATCTTCGTCACCTGGTTTCTGGTGGAAGTGGGGGTGGCGATCAACGCCTGGTATGCGCCGTTCTATGACCTGATCCAGAGCGCGCTGGCCACCCCGCATAAGGTCAGCATCAACCAGTTTTATCATGAGATCGGCATCTTTCTCGGCATCGCGCTCATCGCGGTGATCATCGGCGTGATGAACAACTTTTTCGTCAGCCACTACGTCTTCCGCTGGCGCACGGCGATGAACGAACACTACATGGCCCACTGGCAGCATCTGCGCCATATCGAAGGCGCCGCGCAGCGTGTGCAGGAAGACACCATGCGCTTTGCCTCCACCCTGGAGGATATGGGCGTGAGCTTTATCAACGCGGTGATGACCCTGATCGCCTTCCTGCCGGTGCTGGTGACGCTCTCGCAACACGTTCCCGACCTGCCCATCGTCGGTCACTTGCCGTATGGCCTGGTGATTGCCGCGATCGTCTGGTCGCTGATGGGGACCGGCCTGCTGGCGGTGGTGGGGATTAAGCTGCCGGGTCTGGAGTTTAAAAACCAGCGCGTGGAAGCGGCCTATCGTAAAGAGCTGGTCTACGGCGAGGACGATGAAACCCGCGCCACGCCGCCGACGGTGCGCGAGCTGTTCAGCGCGGTGCGTCGCAACTATTTCCGTCTCTATTTCCACTATATGTATTTCAATATCGCCCGCATTCTCTATCTGCAGGTGGATAACGTTTTCGGCCTTTTCCTGCTGTTTCCGTCGATCGTTGCCGGTACGATTACCCTCGGGCTGATGACGCAAATTACCAACGTTTTCGGCCAGGTGCGCGGTTCGTTCCAGTACCTGATCAGCTCGTGGACGACGCTGGTGGAACTGATGTCCATCTACAAACGTCTGCGCAGCTTTGAGCGCGAACTGGACGGCAAGCCGCTGCAGGAAGCGATCCCGACATTACGTTAA	MFKSFFPKPGPFFISAFIWSLLAVIFWQAGGGDWLLRVTGASQDVAISAARFWSLNYLVFYAYYLFCVGVFALFWFVYCPHRWQYWSILGTSLIIFVTWFLVEVGVAINAWYAPFYDLIQSALATPHKVSINQFYHEIGIFLGIALIAVIIGVMNNFFVSHYVFRWRTAMNEHYMAHWQHLRHIEGAAQRVQEDTMRFASTLEDMGVSFINAVMTLIAFLPVLVTLSQHVPDLPIVGHLPYGLVIAAIVWSLMGTGLLAVVGIKLPGLEFKNQRVEAAYRKELVYGEDDETRATPPTVRELFSAVRRNYFRLYFHYMYFNIARILYLQVDNVFGLFLLFPSIVAGTITLGLMTQITNVFGQVRGSFQYLISSWTTLVELMSIYKRLRSFERELDGKPLQEAIPTLR	PGPT0011645_171	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACTERIOCIN_RESISTANCE,PGPT0011645-sbmA|bacA-K17938	NA	NA
BMS020_03401	1107			hypothetical protein	ATGGCCGCACGTTTATCGCGCATTATACCCGGTTCATTGACGCTGCTGGCGGCCGTGGTGCTAAGCGCCTGTACCAGCCAACAGGCGCCGGTGTTGAAAGAGGGCGAGAAGCCCGTTGACGTGGCGTCGGTGGTGCGGCAGAAAATGCCCGCCAGCGTGAAGGATCGGGAGGCCTGGGCGCAAGCCATCGCCACCGCCTTTGACAGCCAGAAGCTGGCGCCGACGGAAGAGAACGTCTGCTCGGTGCTGGCGGTCGCGCAGCAGGAGTCCAATTATCAGTCCGACCCGGTGGTGCCGGGGCTGAATAAAATCGCCTGGCAGGAGATCGACCGCCGGGCGGAAAAAATGCACATTCCGCTGTTTCTGGTCCATACCACGCTGAAGATCACCTCGCCAAACGGCAAAAGCTACAGCGACCGTCTGGACAACGTGAAGACGGAAAAGCAGCTGAGCGCTATTTTTGATGACTTTATCGGGATGGTGCCGATGGGGCAGAAGCTGTTCGGCTCCCTGAACCCGGTGCACACCGGCGGCCCAATGCAGGTCAGCATCGCCTTTGCCGAGCAGCACACCTCCGGCTACCCGTGGAAAATGAACGGTACGGTGCGCCAGGAGGTCTTCAGCCTGCGCGGCGGCCTGTGGTTTGGCACCTATCATCTGCTGAACTACCCGGCCAGCTACAGCGTGCCGCTGTACCGTTTTGCCGACTTTAACGCCGGCTGGTATGCCAGCCGTAACGCCGCCTTCCAGAACGCGGTGGTGAAAGCCAGCGGGGTGAAACTGGCGCTCGACGGCGACCTTATCCGCTATGACAGCGATGAGCCGGGCAGCACCGAGCTGGCGGTGCGCCGCCTGGCGGGCCAGCTGGGGATGAGCGACAGCGAGATCCATAGCCAGCTGAAAAAGGGCGACAGCCTGGCGTTTGAGAAGACTGACCTCTATCAACAGGTTTTCCGCCTCGCGGATAAAAAAGCGGGCAAAACCCTGCCGCGGGAGATGTTGCCGGGGATCCAGCTTGAGAGTCCGAAAATCACCCGTAATCTGACGACGGCGTGGTTTGCGAAACGGGTCGATGAGCGGCGGGCAAGCTGTATGGCGCGGCGTTAA	MAARLSRIIPGSLTLLAAVVLSACTSQQAPVLKEGEKPVDVASVVRQKMPASVKDREAWAQAIATAFDSQKLAPTEENVCSVLAVAQQESNYQSDPVVPGLNKIAWQEIDRRAEKMHIPLFLVHTTLKITSPNGKSYSDRLDNVKTEKQLSAIFDDFIGMVPMGQKLFGSLNPVHTGGPMQVSIAFAEQHTSGYPWKMNGTVRQEVFSLRGGLWFGTYHLLNYPASYSVPLYRFADFNAGWYASRNAAFQNAVVKASGVKLALDGDLIRYDSDEPGSTELAVRRLAGQLGMSDSEIHSQLKKGDSLAFEKTDLYQQVFRLADKKAGKTLPREMLPGIQLESPKITRNLTTAWFAKRVDERRASCMARR				NA	NA	NA	NA	NA
BMS020_03402	303	yaiY		Inner membrane protein YaiY	ATGGCTGAATTCAGTTTTTCAAAATCGCTTTTGGGAAATAAAAAAAGAGGGGCGCTGACCGGCAGCCATGTCGCTTACGGACTGTTCGTCCTGATCTGCTGCTGGGCCGGCGCGCAGATGCTCAGCATGCTGATCCACGCCCCGGGAGTCTTTGAGCGCCTGATGCAGGCCCAGGACGCCAGCCGTCCGCAGGTCGATATCAGCCTCGCCGTTGGCACCCTCTTTGGCCTGATCCCTTTTCTGATCGGCTGCTCGTTCATCGGGCTGCTGGCGCTCATTGTGCGCTGGCGTCGGCGCCGTTAA	MAEFSFSKSLLGNKKRGALTGSHVAYGLFVLICCWAGAQMLSMLIHAPGVFERLMQAQDASRPQVDISLAVGTLFGLIPFLIGCSFIGLLALIVRWRRRR				NA	NA	NA	NA	NA
BMS020_03403	204			hypothetical protein	ATGAAGCTCACTGATAAAATTCGCCGCGACTGGCACTACTACGCGGTGGCGCTGGGGTTAATTTTTATTCTAAATGGCGTGGTGGGGCTGCTGGGGTTTGAGACGCAGGGCTGGCAATCTTACGCCGTCGGTCTGGTCACCTGGGTGATAAGCTTCTGGATCGCGGGCTTTGTGATCCGCCGCCGCCCGGCAGAAGAGGCCTGA	MKLTDKIRRDWHYYAVALGLIFILNGVVGLLGFETQGWQSYAVGLVTWVISFWIAGFVIRRRPAEEA				NA	NA	NA	NA	NA
BMS020_03404	1098	ddlA	COG1181	D-alanine--D-alanine ligase A	ATGGCAAAGATGAGGGTTGGGATCGTTTTTGGCGGTAAGTCGGCAGAGCATGAAGTGTCGCTGCAGTCAGCGAAGAATATCGTGGAAGCGATTGATAAATCACGCTTCGATGTGGTTCTGTTGGGGATTGATAAACAGGGGCTATGGCACATCAACGACGCCGGCAACTACCTGCTCAATGCTCAGGATCCTGCCCGCATCGCCCTGCGCCCTTCAACAGTGACTCTGGCGCAGATCCCGGGCCGTGAAGCGCAGCAGCTGATTAACGCCGAAAGCGGCCAGCCGCTGGCGGCCATCGATGTGATTTTCCCCATCGTCCACGGCACGCTGGGCGAAGACGGCTCCCTGCAGGGGATGCTGCGCATGGCCAATCTGCCTTTCGTCGGATCCGATGTGCTGGGCTCTGCGGCCTGTATGGACAAAGATGTGACCAAACGCCTGCTGCGCGACGCCGGGCTCGCCGTCGCCCCGTTTATCACCCTGACCCGCGCCAACCGCGCGCAGTTTAGCTTTGCCGATGTCGAAGCGAAGCTGGGCCTGCCGCTGTTCGTTAAGCCGGCCAACCAGGGATCGTCGGTTGGCGTCAGCAAAGTTAAAAACGAAGAGCAGTACCATCAGGCGGTGGCCCTGGCCTTTGAATTTGACCATAAAGTGGTGGTAGAGCAAGGCATTCAAGGCCGGGAAATTGAGTGTGCGGTGCTGGGTAACGACCACCCGCAGGCCAGTACCTGCGGCGAAATTGTCCTCAACAGCGAGTTTTACGCTTACGACACCAAATATATCGACGACCAGGGCGCGCAGGTGGTGGTCCCCGCCGCTATCGCCCCGGAGATCAACGACAAGATCCGCGCTATCGCGGTGCAGGCTTACCAGGCCCTGGGCTGCAGCGGCATGGCCCGCGTCGACGTCTTCCTCACCGCCGACAACGAGGTGGTGATCAACGAGATCAACACCCTGCCGGGCTTCACCAACATCAGCATGTATCCGAAGCTGTGGCAGGCCAGCGGCCTCGATTACACCAGTCTGATCACTCGCCTGATTGAGCTGGCGCTGGAGCGCCATGCCGCGGACCGGGCGCTGAAAACCTCCATGAACTAA	MAKMRVGIVFGGKSAEHEVSLQSAKNIVEAIDKSRFDVVLLGIDKQGLWHINDAGNYLLNAQDPARIALRPSTVTLAQIPGREAQQLINAESGQPLAAIDVIFPIVHGTLGEDGSLQGMLRMANLPFVGSDVLGSAACMDKDVTKRLLRDAGLAVAPFITLTRANRAQFSFADVEAKLGLPLFVKPANQGSSVGVSKVKNEEQYHQAVALAFEFDHKVVVEQGIQGREIECAVLGNDHPQASTCGEIVLNSEFYAYDTKYIDDQGAQVVVPAAIAPEINDKIRAIAVQAYQALGCSGMARVDVFLTADNEVVINEINTLPGFTNISMYPKLWQASGLDYTSLITRLIELALERHAADRALKTSMN	PGPT0020050_663	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
BMS020_03405	684			hypothetical protein	GTGAGAGGAAAGACGCTGCTGGTGCTGGCCGGGCTGCTCGGCGCGGGCCTGGTGGGATATCGCTATCTGCCGCCACACCTGAATCCGCTGGCGCCGCTGGCCCTTGACGATCCCCCGGGCTGGCTGACGTCGTTCAAGTTGCGCAGCCTGACGGCCGACCAGTGCGCCTCTCTGCTGGCGGAGGCCAACCGCCGGCGGCTCATCGCCAGCCAGCCAGTGGCCGACAGCGAGGGCGCCTGCCCGCTGCGTAACGTGGTGCGGGTAGCTAATTTTGGCTCGGTGCAGCTGAGCAGCAGTTTCCTCGCCAGCTGCCCGCTGGCGCTCAGCAGCGCGCTGTACGTCGAACAGCAGGCGAAGCCGCTGACCCGTCAGCTGATGGCCAGCGATCTGCGCCAGATCGATCATCTGGGCAGCTTCGCCTGCCGTAATATCTACCATCGGGAACAGGCGCGGCGCAGTGAGCACGCGACGGCGGATGCCCTTGATGTCAGCGGCTTCCGCCTGACGGACGGCAGACGCATCAGCGTCCTGCAGGGCTGGCGCAGCGAGCGCTCTCACCCCTGGCTGGCGGCGCTGTTGAGCAACAGCTGCCCTTACTTCGGCAACGCGCTGGGGCCGGAGTACAACGCGGCGCACGCCAACCATTTTCACTTTGGCATGCGCGGGCAGGGCTTCTGCTTTTGA	MRGKTLLVLAGLLGAGLVGYRYLPPHLNPLAPLALDDPPGWLTSFKLRSLTADQCASLLAEANRRRLIASQPVADSEGACPLRNVVRVANFGSVQLSSSFLASCPLALSSALYVEQQAKPLTRQLMASDLRQIDHLGSFACRNIYHREQARRSEHATADALDVSGFRLTDGRRISVLQGWRSERSHPWLAALLSNSCPYFGNALGPEYNAAHANHFHFGMRGQGFCF				NA	NA	NA	NA	NA
BMS020_03406	1200	sbnD_2		Staphyloferrin B transporter	ATGGAATCCTGGAAGGTTAATCTCATCTCCGTCTGGTTTGGGTGCTTTTTTACCGGCCTGGCGATCAGTCAAATTCTCCCCTTTTTACCCCTCTACGTCTCCCAGCTGGGCGTCACCTCGCATGAAGCGCTGTCGATGTGGTCGGGGCTGACCTTCAGCGTCACCTTCCTGGTCTCGGCGATCGTCTCGCCGATGTGGGGGAGCCTCGCGGACCGCAAAGGCCGCAAGCTGATGCTGCTGCGCGCCTCGCTGGGAATGGCGATCGCCATTTTACTCCAGGCCTTCGCCACCAACGTCTGGCAGTTGTTTATCCTGCGGGCGATCATGGGCTTAACCTCCGGTTATATCCCCAACGCCATGGCGCTGGTGGCCTCCCAGGTGCCGCGCGAGCGTAGCGGCTGGGCGCTGAGCACCCTGTCGACGGCGCAAATCAGCGGGGTGATCGGCGGCCCGCTGCTGGGCGGTTTCCTGGCGGACCACGTCGGGCTGCGGATGGTCTTTTTTATTACGGCGATCCTGCTGACCATCAGTTTTCTGGTCACCCTGTTTCTGATCAAAGAGGGGGGCCGCCCGCCGGTCAGCAAAACCGATCGTCTCACCGGGAAACAGGTCTTTGCCTCCTTGCCCTATCCGGGGCTGGTGATCAGCCTCTTTTTCACCACCCTGGTGATCCAGTTGTGCAACGGCTCAATTGGCCCGATCCTGGCGCTGTTTATCAAGTCGATGGCGCCGGACAGCAACAATATCGCTTTTCTGGCCGGGATGATCGCCGCGGTGCCCGGGGTGTCGGCGCTGATCTCTGCCCCACGGCTGGGTAAGCTTGGCGACCGCATCGGCACTTCGCGGATCCTGCTGGCGACGCTCTGTTGCGCGGTGGTGATGTTCTTTGCCATGTCCTTTGTCACCACCCCGCTGCAGCTGGGGACGCTACGTTTTCTGCTCGGCTTTGCCGATGGCGCGATGCTTCCGGCGGTGCAGACCCTGCTGCTGAAATACAGTAGCGACAGCGTCACCGGGCGCATCTTTGGCTATAACCAGTCGTTTATGTATCTGGGCAACGTCGCCGGGCCGCTGATTGGCGCCTCCGTATCGGCGATGGCCGGCTTCCGCTGGGTATTTATTGCCACCGCCATTATCGTCTTCATCAACCTCTGGCAGCTGGCATGGATGCTGCGCCGCACCCGCCGGGCGAAGGCCTGA	MESWKVNLISVWFGCFFTGLAISQILPFLPLYVSQLGVTSHEALSMWSGLTFSVTFLVSAIVSPMWGSLADRKGRKLMLLRASLGMAIAILLQAFATNVWQLFILRAIMGLTSGYIPNAMALVASQVPRERSGWALSTLSTAQISGVIGGPLLGGFLADHVGLRMVFFITAILLTISFLVTLFLIKEGGRPPVSKTDRLTGKQVFASLPYPGLVISLFFTTLVIQLCNGSIGPILALFIKSMAPDSNNIAFLAGMIAAVPGVSALISAPRLGKLGDRIGTSRILLATLCCAVVMFFAMSFVTTPLQLGTLRFLLGFADGAMLPAVQTLLLKYSSDSVTGRIFGYNQSFMYLGNVAGPLIGASVSAMAGFRWVFIATAIIVFINLWQLAWMLRRTRRAKA	PGPT0029185_936	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
BMS020_03407	261	iraP		Anti-adapter protein IraP	ATGAAGAATCTCATTGCTGAGTTACTGGTTAAACTGGCGCAAAAGGAAGAAGAAGCAAAGGAACTGACGGTGCAGGTTGAAGCGCTGGAGATCGTGGTCACCGCATTATTGCGCCATATGGAGCATGATGCCCAGCAGGCATTGATTCAGGATATTGAGCAGGCGATAGACCAGGTGACGCCCTGTCCGCCGGTCAACGACCAGGATGCCATCCTGCTGCAGCAATATCTAAAGAAGCTGTTGCGGCATCCTCGTAGCTAA	MKNLIAELLVKLAQKEEEAKELTVQVEALEIVVTALLRHMEHDAQQALIQDIEQAIDQVTPCPPVNDQDAILLQQYLKKLLRHPRS	PGPT0015091_341	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0015091-iraP|yaiB-NA	NA	NA
BMS020_03408	1416	phoA	COG1785	Alkaline phosphatase	GTGAAATTAAGCGCCCTGTTTATTGCCCTGCTGCCTCTGCTGGGCTCGCCGGTTATTCATGCGGAAACTACTGCCGCGCCGGTTCTGGAAAATCGCGCTGCCCAGGGAGATATCACCACTCCCGGCGGCGCGCGTCGTTTAACGGGCGATCAAACCGAAGCGCTGCGCGCCTCGATAATCAATAAGCCGGCCAAAAACGTTATTTTGCTGATTGGCGATGGCATGGGTGATTCTGAAATTACCGCTGCGCGAAATTATGCGGAAGGGGCGGGCGGTTTCTTTAAAGGCATTGACGCCCTGCCGTTAACCGGGCAGTACACGCACTATTCGCTGGATAAAAAAACCGGTAAACCGGACTACGTCACCGACTCGGCGGCCTCCGCCACCGCCTGGACCACCGGCGTGAAGACCTATAACGGCGCGCTGGGCGTCGATATTCATGAGAACGCGCATCAGACCATCCTCGAGCTGGCGAAAGCGGCGGGCCTGGCCACCGGCAACGTTTCTACTGCCGAGCTGCAGGACGCCACCCCTGCGGCGCTGGTGGCGCATGTGACATCGCGTAAATGCTACGGCCCCACGGTCACCAGCGAAAAATGCCCCAGCAATGCGCTGGAGAAAGGGGGCAAAGGCTCCATTACCGAACAGCTGCTGAACGCCCGGCCGGATGTCACCCTGGGCGGCGGCGCGAAGACCTTTGCCGAAACGGCGACGGCGGGCGAGTGGCAGGGCAAAACCCTGCGCGAGCAGGCGGAAGCGCGCGGCTACCAGATTGTGACCGACGCGGCCTCTCTTGCCGCCGCGACGGCAGCCAGCCAGGATAAACCGCTGCTGGGACTCTTCGCCGACGGCAATATGCCGGTACGCTGGGAAGGGCCGAAGGCGTCTTATCACGGTAATATCGATAAGCCGCCGGTGACCTGTACGCCAAACCCGAAACGCGACGCCTCGGTGCCGACGCTGGCGCAGATGACAGAGAAAGCGATTGACCTGCTGAGCCGCAACGAGAAAGGCTTCTTCCTGCAGGTGGAAGGCGCCTCCATCGATAAGCAGGATCATGCGGCGAATCCGTGCGGCCAGATCGGCGAAACCGTGGACCTCGACGAGGCGGTGCAGAAGGCGCTGGAATTTGCCAAAAAAGACGGCAATACCCTGGTGATCGTCACCGCCGACCATGCGCACGCCAGCCAGATTATCCCTGCGGATAGCAAAGCCCCGGGGCTGACCCAGGCCCTGAACACGCACGATGGCGCGGTGATGGTGATGAGTTACGGTAACTCCGAGGAAGAGTCGATGGAGCACACCGGCACCCAGCTGCGCATTGCGGCCTACGGTCCGCATGCGGCTAACGTCGTCGGCCTGACCGACCAGACCGACCTCTTCTCGACCATGAAAGCGGCCCTGAGTCTCAAATAA	MKLSALFIALLPLLGSPVIHAETTAAPVLENRAAQGDITTPGGARRLTGDQTEALRASIINKPAKNVILLIGDGMGDSEITAARNYAEGAGGFFKGIDALPLTGQYTHYSLDKKTGKPDYVTDSAASATAWTTGVKTYNGALGVDIHENAHQTILELAKAAGLATGNVSTAELQDATPAALVAHVTSRKCYGPTVTSEKCPSNALEKGGKGSITEQLLNARPDVTLGGGAKTFAETATAGEWQGKTLREQAEARGYQIVTDAASLAAATAASQDKPLLGLFADGNMPVRWEGPKASYHGNIDKPPVTCTPNPKRDASVPTLAQMTEKAIDLLSRNEKGFFLQVEGASIDKQDHAANPCGQIGETVDLDEAVQKALEFAKKDGNTLVIVTADHAHASQIIPADSKAPGLTQALNTHDGAVMVMSYGNSEEESMEHTGTQLRIAAYGPHAANVVGLTDQTDLFSTMKAALSLK	PGPT0002570_2709	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
BMS020_03409	318	psiF		Phosphate starvation-inducible protein PsiF	ATGAAAATAACCTTACTGATGACCCTACTGTTTGGCTTGATCTTTATCAGCGCGGTTGGCGCGGCAGAAAAAACGCCTACTCCCCAGCAGCAAAAGATGACGGACTGCAATCAGCAAGCGTCAGCCAAGGCGCTGAAGGGGGATGAGCGCAAAACCTTTATGAGCCAGTGCCTGAAAAAAGAGACCACCACGCCGCAAGGAAAGACCCTCACGCCTCAGCAGCAGAAGATGAGCGACTGCAACAAAGCGGCTTCGGCAAAATCACTGAAGGGCGATGAACGCAACACCTTCATGAGTAGCTGCCTGAAGAAAGCCTGA	MKITLLMTLLFGLIFISAVGAAEKTPTPQQQKMTDCNQQASAKALKGDERKTFMSQCLKKETTTPQGKTLTPQQQKMSDCNKAASAKSLKGDERNTFMSSCLKKA				NA	NA	NA	NA	NA
BMS020_03410	810	proC_1	COG0345	Pyrroline-5-carboxylate reductase	ATGGATAAGAAAATTGGCTTTATCGGCTGCGGCAATATGGGTAAGGCCATTCTGGGTGGACTGATCGCCAGCGGCCAGGTACAGCCGGGACAAATCTGGGTCTACACCCCGTCGCCGGACAAGGTTGCGGCTCTGCGCGACCAGTACGGCATCAACGCCGCCGATAGCGCCCAGGAAGTGGCGCAGATTGCCGATATCGTCTTCGGCGCGGTGAAGCCGGGGATCATGACCAAAGTGCTGGGCGATATCGCCTCCAGCCTGAATAAAGAGTCTCTGGTGGTCTCTATCGCCGCCGGCGTCACGCTTGACCAGCTGGCGCGCGCGCTCGGCCACGATCGCAAAATTATTCGCGCGATGCCCAATACGCCGTCGCTGGTTAACGCCGGCATGACCTCCGTTACGCCAAATGCGCTGGTGAGCAGCGAAGATGTAGCGGAAGTGCTGACCATTTTCCGCTGCTTTGGCCAGGCGGAGCAAATTGCCGAACCGATGATCCATCCGGTGGTCGGCGTTAGCGGCTCGGCGCCGGCCTATGTCTTTATGTTTATCGAAGCGATGGCCGATGCCGCCGTGCTCGGCGGAATGCCGCGCGCTCAGGCTTACAAATTCGCCGCTCAGGCGGTGATGGGCTCCGCCAAAATGGTGATGGAGAGCGGTGAGCATCCGGGGGCGCTGAAAGATATGGTCTGCTCTCCTGGCGGGACCACCATCGAAGCCGTGCGCGTGCTGGAAGAGAAAGGCTTCCGCTCCGCGGTGATCGAAGCCATCACCCAGTGCATGGAAAAATCAGAGAAACTGAGCCGCTCCTGA	MDKKIGFIGCGNMGKAILGGLIASGQVQPGQIWVYTPSPDKVAALRDQYGINAADSAQEVAQIADIVFGAVKPGIMTKVLGDIASSLNKESLVVSIAAGVTLDQLARALGHDRKIIRAMPNTPSLVNAGMTSVTPNALVSSEDVAEVLTIFRCFGQAEQIAEPMIHPVVGVSGSAPAYVFMFIEAMADAAVLGGMPRAQAYKFAAQAVMGSAKMVMESGEHPGALKDMVCSPGGTTIEAVRVLEEKGFRSAVIEAITQCMEKSEKLSRS	PGPT0014225_4130	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
BMS020_03411	459			hypothetical protein	ATGGCCATTTGGGTGGATGCAGACGCGTGTCCGAACGTGATTAAAGAGATATTGTTCCGCGCGGCAGAGCGGACCCAGACGCCGCTGACGCTGGTGGCGAACCAGCCGCTGCGCGTACCGCCGTCGCGTTTCATCCGCACCCTGCGGGTTGAGCAGGGTTTTGACGTGGCGGATAACGAAATCGTCCGTCAGTGCGCGGCGGGGGATTTAGTGATCACCGCCGATATACCGCTGGCGGCGGAGGTGCTGGCGAAGGGCGGGGCGGCGCTCAATCCGCGCGGAGAGCGCTACAGCGAGGCGACGATCCGCGAGCGGCTGACGATGCGGGATTTTATGGAGACATTACGGGCCAGCGGCGTTCAGACCGGCGGCCCGGATAGTTTATCGCAGCGCGATCGGCAACAGTTTGCCGCCGAGCTGGAGAAGTGGTTGCTGGCGGTTAAACGACAGCAGGGTTAA	MAIWVDADACPNVIKEILFRAAERTQTPLTLVANQPLRVPPSRFIRTLRVEQGFDVADNEIVRQCAAGDLVITADIPLAAEVLAKGGAALNPRGERYSEATIRERLTMRDFMETLRASGVQTGGPDSLSQRDRQQFAAELEKWLLAVKRQQG				NA	NA	NA	NA	NA
BMS020_03412	693			hypothetical protein	ATGCAATCTGAAGAACAACGCCTTATTGATGGACTGTTTTCCCGGCTGAAAGAGGCTGAGGCGCACAGTGCATCGCGCGATGCCAGCGCCGAGGAGCGGATTGCCCAACACGTGAGCGCGCAGCCGGCGGCCCCCTACTATATGGCGCAAACCATTCTTATCCAGGAAGCCGCGATTAAACAGCTCAACGATCGCATTCAGGCGCTGGAGAGCCAGGTCAGCCAGCTGCAGGCGGCGAAGCCCAGCAGCGGCGGATTCCTCTCCGGCCTGTTTGGCGGCGGCGGCTCGTCACGCGGTTCTGACCCGATCCCGGGCGCGGAGCAATACGGTCGCCCGCAGGCCAGCGCGCAGCCGCAGTATGCCCCACAGCAGCAGCAGAGCTATGCCCCGCAGGCTGCCGCACGCGGCGGCGGCTTTATGGCGGGCGCGCTGCAAACGGCCGCAGGCGTAGCGGGCGGCGTGGTGCTGGGCAATATGCTGACCAATATGTTCAGCGGCTCGCACCCGCAGGAGATTGTTAATATCATCGAAGAGAAGCCGCAGCCTGATGCCGCCGCGCAGGACGCCGCCGCAGGTGACGATCCGTTCCGTCAGGGAGACGATCAGTTCCTTGCCGACAACACCTGGAACGACGACTTCGACGCCGGCTTTGGCGATGATGATATCGGCAGCGATGACGACAGCTGGGTTTAA	MQSEEQRLIDGLFSRLKEAEAHSASRDASAEERIAQHVSAQPAAPYYMAQTILIQEAAIKQLNDRIQALESQVSQLQAAKPSSGGFLSGLFGGGGSSRGSDPIPGAEQYGRPQASAQPQYAPQQQQSYAPQAAARGGGFMAGALQTAAGVAGGVVLGNMLTNMFSGSHPQEIVNIIEEKPQPDAAAQDAAAGDDPFRQGDDQFLADNTWNDDFDAGFGDDDIGSDDDSWV				NA	NA	NA	NA	NA
BMS020_03413	534	aroL	COG0703	Shikimate kinase 2	ATGACACAGCCAATCTTTCTCATCGGGCCACGCGGCTGCGGTAAAACCACCGTCGGCCATGCGCTGGCGCGAGCGCGGCATTTTCAGTTCTCCGATACCGATCATCGGCTGCAGGCCCATGAGCAGCGGACGGTGGCGGAGATCGTGCAGGCGGAAGGATGGGCGCGCTTTCGCGAGCTGGAGACTCTGTCGCTGAAGGCCGTGACCCTGCCGAATACGGTGATCGCCACCGGCGGCGGCATCATTCTTGCGGAATGTAACCGCCAGTTTATGCGGGAGAACGGTGTGGTGATCTATCTGCAGGCGTCGGTATCGGCGCTGATTGACCGTCTGGAAGCCTACCCGAAAGCCGAACAGCGGCCGACGCTCACCGGGAAACCGGTGCGTGAGGAAGTGGGCGAGGTGCTGGCGCAGCGTGAAGCGTTATACCGTGACGCTGCCCATCATATTGTCGATGCTACGGCCGCCCCGGATCGGGTGGTGGAACAGATTATGACCATGCTGTGCGGCGCGGCGGCCACCCCGGTAAGTTAA	MTQPIFLIGPRGCGKTTVGHALARARHFQFSDTDHRLQAHEQRTVAEIVQAEGWARFRELETLSLKAVTLPNTVIATGGGIILAECNRQFMRENGVVIYLQASVSALIDRLEAYPKAEQRPTLTGKPVREEVGEVLAQREALYRDAAHHIVDATAAPDRVVEQIMTMLCGAAATPVS	PGPT0012900_2368	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
BMS020_03414	192	yaiA		putative protein YaiA	ATGCCAAACAGGCCCCCATATCCGAGAGAAGCGCGCGTGGTTGCGGTAGAGAAAGGCCCGCAGGGTCAGACGGTCACCTGGTATCAACTTCGCGCGGACTATCCTGAACCCAATTCGCTGATCAGCGAACATCCTACCGAGCAGGAAGCCGTGGATGCCAAGCGGCGCTACGAAGATCCTGACAAGTCGTAA	MPNRPPYPREARVVAVEKGPQGQTVTWYQLRADYPEPNSLISEHPTEQEAVDAKRRYEDPDKS	PGPT0004255_3756	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004255-czcD|zitB|yrdO-K16264	NA	NA
BMS020_03415	666			hypothetical protein	ATGGCAATTTTGACCATCGGCGTTGTGCCGCTGGCGGGAGTATTACCGCTCCTGACCGAACATATCAGGGAAGAACAGATCGCTCACATCAGCCTGCTGGGCGAGATGACGCGTGATGACGTGATGGCAGAGTACGCCGTGGGTGACGGCGAACAGGGTCTCTTGACCCTGCTCAGCGATAACCAGCTGGTGATGGTGTCGCGACAAAAAATTGAACGTGATGTTCGCAGCGTGATCGCCATGCTGGATCGACAGCATTTTGATGTGATCCTGCTGCTCAGCTCCGAACAGCTGACCGGTTTTACCACCCACCACGCGATCCTCCTCGAGCCGCAGCGGATCATTCCGCCGCTGGTGGCGTCGATCGTTGATGGGCACCAGGTCGGGGTGATCGTGCCGGTGGAAGAGATCATGCCCATGCAGCGACAAAAGTGGCATTCACTGGAGAAGTCGCCGTACTACGCGCTGGCCAACCCGTTTACCGGTAGCGACAGCGAGCTGTTAACCGCCGGTAAAGCGCTGCTGGAGCAGGGCGCCGACGTGCTGGTCCTCGACTGTCTTGGTTACTATCAGCATCATCGCGATGTGTTACAAAAAGCCCTTGATGTCCCGGTTTTGCTGTCGAATGTGCTGGTTTCCCGACTGGCGGCAGAACTATTAGTCTAA	MAILTIGVVPLAGVLPLLTEHIREEQIAHISLLGEMTRDDVMAEYAVGDGEQGLLTLLSDNQLVMVSRQKIERDVRSVIAMLDRQHFDVILLLSSEQLTGFTTHHAILLEPQRIIPPLVASIVDGHQVGVIVPVEEIMPMQRQKWHSLEKSPYYALANPFTGSDSELLTAGKALLEQGADVLVLDCLGYYQHHRDVLQKALDVPVLLSNVLVSRLAAELLV	PGPT0019715_73	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0019715-aroM-K14591	NA	NA
BMS020_03416	285	ppnP	COG3123	Pyrimidine/purine nucleoside phosphorylase	ATGCTTCAAAGCAATGAATACTTTGACGGAAAAGTGAAATCCATTGGCTTCACCAGCAGCAGTACCGGTCGCGCCAGCGTTGGCGTGATGGCGGAAGGGGAATACACCTTTGGTACGGCGCAGCCGGAAGAGATGACGGTGGTCAGCGGGGCGCTGAATGTCCTGCTGCCGGGTGAGACTGAGTGGAAAGTTTACGCCGCCGGCGAAGTCTTCAATGTGCCAGGCAACAGCGAATTCCATCTGCAGGTGGCTGAGCCAACCTCTTATCTGTGCCGCTATCTGTAA	MLQSNEYFDGKVKSIGFTSSSTGRASVGVMAEGEYTFGTAQPEEMTVVSGALNVLLPGETEWKVYAAGEVFNVPGNSEFHLQVAEPTSYLCRYL	PGPT0021300_12	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021300-ppnP|yaiE-K09913	NA	NA
BMS020_03417	912	rdgC_1	COG2974	Recombination-associated protein RdgC	ATGCTGTGGTTCAAAAATTTAATGGTTTACCGTCTCAGCCGCGATATCGAATTGCGCGCCGAGGAGATGGAAAAACAGCTGGCCGAGCTGACATTTACCCCTTGTGGCAGCCAGGATATGGCGAAAACCGGTTGGGTATCGCCGATGGGATCGCACAGCGACGCGCTGACGCATACGGCGAACGGCCAGATCATTATCTGCGCGCGTAAAGAAGAAAAGATCCTGCCGTCGCCGGTGATCAAGCAGGCGCTGGAGGCGAAGATCCAGAAGCTGGAAGCCGATCAGGGGCGCAAGCTGAAGAAAACTGAGAAAGATTCCCTGAAAGATGAAGTGCTGCACTCGCTGCTGCCGCGCGCCTTCAGCCGCTTCAGCCAGACGATGATGTGGATCGACACCGTCAACGGCCTGATCATGGTGGACTGCGCCAGCGCGAAGAAAGCGGAAGATACCCTGGCCCTGCTGCGTAAAACCCTCGGCTCGCTGCCGGTGGTGCCGCTGACCCTGGAGAATCCGATTGAGCTGACGCTGACCGAGTGGGTCCGCTCCGGCACCGTGGCGCAGGGCTTCCAGCTGCTGGACGAAGCCGAGCTGAAAGCGATGCTGGAAGATGGCGGCGTGATCCGCGCCAAGAAGCAGGATCTGGTGAGCGACGAAATCGCTGTGCATATTGAGGCCGGGAAGGTCGTCACCAAGCTGGCGCTGGACTGGCAGCAGCGTATTCAGTTTGTGATCTGCGACGACGCGTCAATTAAGCGCCTCAAGTTCTGCGATGAATTACGCGACCAAAACGAAGATATCGATCGGGAAGATTTCGCCCAGCGCTTTGACGCCGACTTTATCTTAATGACCGGCGAACTGGCTGCCCTGATCCAAAGCCTGGTGGAAGGGCTCGGCGGCGAAGCACAGCGCTAA	MLWFKNLMVYRLSRDIELRAEEMEKQLAELTFTPCGSQDMAKTGWVSPMGSHSDALTHTANGQIIICARKEEKILPSPVIKQALEAKIQKLEADQGRKLKKTEKDSLKDEVLHSLLPRAFSRFSQTMMWIDTVNGLIMVDCASAKKAEDTLALLRKTLGSLPVVPLTLENPIELTLTEWVRSGTVAQGFQLLDEAELKAMLEDGGVIRAKKQDLVSDEIAVHIEAGKVVTKLALDWQQRIQFVICDDASIKRLKFCDELRDQNEDIDREDFAQRFDADFILMTGELAALIQSLVEGLGGEAQR				NA	NA	NA	NA	NA
BMS020_03418	915	mak	COG1940	Fructokinase	GTGCGTATTGGTATTGATTTAGGTGGCACAAAAACCGAAGTGATAGCCCTGAGCGACCAGGGAGAGCAGCTGTTTCGCCATCGGTTACCCACGCCGCGGGAGGATTACCGGCAAACCATCGAGACTATCGCCACCCTGGTGGCGATGGCCGAGCAGGCGACCGGACAGCGTGGCACCGTGGGGATGGGGATCCCGGGCACGATTTCGCCCTATACCGGGGTGGTGAAAAACGCCAACTCGACCTGGCTCAACGGCCAGCCCTTTGATAAGGACCTCAGCCTGCGCCTCGACCGTGAAGTGCGGCTGGCTAACGACGCCAACTGTCTGGCGGTGTCGGAAGCGGTGGACGGCGCGGCGGCGGGGGCGCACACGGTGTTCGCGGTGATTATCGGCACCGGCTGCGGCGCGGGCGTGGCGCTCAACGGGCGGGCGCATATCGGCGGCAATGGTAACGCCGGCGAGTGGGGACATAACCCATTGCCGTGGATGAACGACGATGAGTTGCGCTACCGTGCGGAAGTGCCTTGCTACTGCGGTAAACAGGGATGTATCGAAACCTTTATCTCCGGCACCGGCTTTGCCACTGACTACCAGCGGCTGAGTGGCAAGGGGTTAACCGGCAGCGAGATTATGCGCCTGGTGGGGGAAGGTGACGAAAAAGCCGAACTGGCGCTGAGCCGCTACGAGCAGCGGCTGGCGAAATCGCTGGCCCACGTGGTGAATCTCCTCGACCCGGACGTTATCGTGCTGGGCGGCGGGATGAGCAACGTCGAGCGGCTGTATCAGACGGTGCCGGACCTGGTGAAACAGTGGGTCTTCGGCGGCGAGTGTGCAACGCCGATCCGCAAAGCGATGCACGGCGACTCCAGCGGAGTACGCGGCGCGGCATGGCTGTGGCCGCTCCAGGGGACCTGA	MRIGIDLGGTKTEVIALSDQGEQLFRHRLPTPREDYRQTIETIATLVAMAEQATGQRGTVGMGIPGTISPYTGVVKNANSTWLNGQPFDKDLSLRLDREVRLANDANCLAVSEAVDGAAAGAHTVFAVIIGTGCGAGVALNGRAHIGGNGNAGEWGHNPLPWMNDDELRYRAEVPCYCGKQGCIETFISGTGFATDYQRLSGKGLTGSEIMRLVGEGDEKAELALSRYEQRLAKSLAHVVNLLDPDVIVLGGGMSNVERLYQTVPDLVKQWVFGGECATPIRKAMHGDSSGVRGAAWLWPLQGT	PGPT0017625_3517	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
BMS020_03420	1206	sbcD	COG0420	Nuclease SbcCD subunit D	ATGCGCATCCTTCACACCTCCGACTGGCACCTGGGCCAGAATTTTTACAGCAAAAGCCGTGCGGCCGAACATGACGCCTTCCTGACCTGGCTGCTGGCCCGCGCGCAGGAGCATGAAGTCGACGCCATCATCGTGGCCGGCGATATTTTTGATACCGGATCGCCGCCGAGCTACGCTCGCGAACTGTATAACCGCTTTGTCGTCCAGCTGCAGCAGACCGGCTGTCGCCTGGTGGTGCTGGCGGGCAACCATGATTCGGTGGCGATGCTCAATGAATCCCGCGATATCCTCGCCTTTTTACACACCACCGTCGTGGCGAACGCCGGCTGCCCGCCCATTGAGCTGCCGCGGCGCGACGGCACCCCAGGCGCTATCTTCTGCCCGGTGCCGTTTTTACGCCCGCGCGAGCTGGTCACCAGCCAGGCCGGCCACTCCGGTCGGGAAAAACAGCAGCAGCTGCTGCACGCCATCAGCGACTATTATCAGGAGCAGTATCAGCAGGCCTGCGCCCTGCGCGGCGATCGGCCGCTGCCCGTGATTGCCAGCGGCCATCTGACCACCGTCGGCGCCAGCAAAAGCGATGCCGTTCGCGACATTTATATTGGCACGCTGGATGCCTTCCCGGCGCAGCACTTCCCCCCTGCCGACTACATTGCGCTGGGCCATATTCACCGGGCGCAGGTGGTTGGCGGCTGCGAGCACATCCGCTACAGCGGCTCGCCGCTGCCGCTGAGCTTTGATGAAACCGGTAAAGCGAAATCGGTGCATCTGGTGAGCTTTAGCGATGGGCGACTCAGCGCCGTGGAGACCCTTGAGGTGCCCGTCACCCAGCCGCTGGCGGTCATCAAAGGCGATCTGGCCGCCATCACCGCCCAGCTGGCGCAGTGGCGCGGCGTTGAACAGGACCCGCCGGTGTGGCTGGATATCGAAATCACCACCGAGGAGTACCTGCACGATATTCAGCGTCATATTCAGGCGCTGACGGAGGATCTGCCGGTGGAAGTCTTGCTGGTGCGCCGCAGCCGCGAGCAGCGCGAGAAAATACTGCTCAACGCCCAGCGGGAGACCCTCAGCGAACTGAAGGTGGAAGAGGTGTTCGAGCGCCGGCTGGCGCTGACCGAGATTGACGATGAGAAGCGCGCCCGGCTGCACGAGCTGTTCGCTCATACGCTGCATACGCTCACCGCGGAGGACGAAAACGCATGA	MRILHTSDWHLGQNFYSKSRAAEHDAFLTWLLARAQEHEVDAIIVAGDIFDTGSPPSYARELYNRFVVQLQQTGCRLVVLAGNHDSVAMLNESRDILAFLHTTVVANAGCPPIELPRRDGTPGAIFCPVPFLRPRELVTSQAGHSGREKQQQLLHAISDYYQEQYQQACALRGDRPLPVIASGHLTTVGASKSDAVRDIYIGTLDAFPAQHFPPADYIALGHIHRAQVVGGCEHIRYSGSPLPLSFDETGKAKSVHLVSFSDGRLSAVETLEVPVTQPLAVIKGDLAAITAQLAQWRGVEQDPPVWLDIEITTEEYLHDIQRHIQALTEDLPVEVLLVRRSREQREKILLNAQRETLSELKVEEVFERRLALTEIDDEKRARLHELFAHTLHTLTAEDENA				NA	NA	NA	NA	NA
BMS020_03421	690	phoB_1	COG0745	Phosphate regulon transcriptional regulatory protein PhoB	ATGGCGAGAAGAATTCTGGTCGTTGAAGATGAAGCTCCAATCCGCGAAATGGTCTGCTTTGTTCTGGAGCAAAATGGCTTTCAGCCTGTCGAAGCGGAAGATTATGACAGCGCGGTGAATCAACTCAATGAACCCTGGCCTGATTTGATTCTCCTTGACTGGATGCTGCCGGGCGGTTCGGGGCTGCAGTTTATTAAGCTGCTCAAGCGCGAGGCGATGACCCGGGATATTCCGGTGGTGATGCTGACCGCGCGCGGAGAAGAAGAGGATCGCGTTCGCGGCCTGGAGACCGGGGCGGACGACTACATTACCAAGCCTTTCTCACCGAAGGAGCTGGTGGCGCGAATCAAAGCGGTGATGCGCCGTATTTCGCCGATGGCGGTGGAAGAGGTGATTGAAATGCAGGGGCTGAGCCTCGATCCCTCATCGCACCGGGTGATGACCGGCGAAAGTCCGCTGGACATGGGGCCAACGGAATTTAAATTATTGCACTTCTTTATGACCCATCCGGAGCGGGTGTACAGCCGCGAGCAGCTGCTGAACCACGTCTGGGGAACCAACGTCTATGTGGAAGACCGCACGGTAGACGTCCATATTCGCCGCCTGCGTAAAGCGCTGGAACACAGTGGCCATGATCGCATGGTGCAAACGGTTCGCGGCACGGGGTATCGTTTCTCCGCCCGTTTCTGA	MARRILVVEDEAPIREMVCFVLEQNGFQPVEAEDYDSAVNQLNEPWPDLILLDWMLPGGSGLQFIKLLKREAMTRDIPVVMLTARGEEEDRVRGLETGADDYITKPFSPKELVARIKAVMRRISPMAVEEVIEMQGLSLDPSSHRVMTGESPLDMGPTEFKLLHFFMTHPERVYSREQLLNHVWGTNVYVEDRTVDVHIRRLRKALEHSGHDRMVQTVRGTGYRFSARF	PGPT0002660_1248	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002660-phoB-K07657	NA	NA
BMS020_03422	1296	phoR_1		Phosphate regulon sensor protein PhoR	GTGCTGGAACGGCTGTCATGGAAAAGGCTGGCGCTGGAGCTCTTTTTAGCGTGTATTCCGGCCCTGATTCTGGGGGCGTTTGTGGGTCATTTGCCGTGGTTTTTACTGGCGGCAGTGACCGGTTTGTTGATTTGGCATTTCTGGAATTTGATGCGCCTGTCGTGGTGGCTGTGGGTGGACCGGAGCATGACCCCTCCGCCCGGCCGCGGCAGCTGGGAGCCGCTGCTGTATGGTCTGCACCAGATGCAGATGCGTAATAAAAAGCGTCGACGTGAGCTGGGAAGCCTGATCAAACGCTTTCGCAGCGGGGCGGAATCCCTGCCGGACGCGGTGGTCCTGACCACGGAAGAGGGGGCCATTTTCTGGTGCAACGGCCTGGCGCAGCAGATTTTAAACCTGCGCTGGCCGGACGACAGTGGGCAAAACATTCTTAACCTTCTGCGCTATCCTGAATTCGCCAACTACCTGAAACAGCGTGATTTTTCAAAGCCGCTCAATCTGGTGCTGAATAATGCCCGTCATCTGGAAATTCGCGTGATGCCCTACAGCGACAAACAGTGGCTGATGGTGGCGCGCGACGTGACGCAGATGCATCAGCTGGAAGGGGCGCGGCGTAACTTTTTCGCCAACGTCAGCCATGAGCTGCGCACCCCGCTGACGGTGCTGCAGGGCTATCTGGAGATGATGCAGGAGCAGGTGCTGGAAGGGGCGACCCGTGAAAAGGCCCTGCACACCATGCGTGAGCAAACCCAGCGTATGGAGGGGCTGGTGAAGCAGTTGCTCACGCTGTCGCGTATTGAAGCCGCGCCGGCGCTGGCGATGAATGACTGCATCGACGTGCCGATGATGCTGCGGGTCGTGGAGCGCGAGGCGCAGACCCTCAGCCAGGATAAGCAGACGCTGATTTTTACCGTCGATGAGCAGCTCAAGGTGCTGGGCAACGAGGAACAACTGCGCAGCGCCATTTCTAACCTGGTCTATAACGCGGTGAACCACACCCCGCCGGGCACCGAAATTCGCGTCAGCTGGCAGCGAACGCCCCAGGGGGCGCTGTTCAGCGTCGAGGATAATGGGCCGGGCATTGCGCCGGAGCATATTCCCCGTCTGACCGAGCGCTTCTATCGGGTGGATAAGGCTCGCTCCCGGCAAACCGGGGGCAGCGGCCTGGGGCTGGCGATCGTCAAACACGCGGTCAACCATCATGACAGCCGGCTGGAGATCGACAGCACGGTGGGCAAGGGAACCCGTTTTAGCTTCCTGCTCCCGGAACGATTAATTGCCAGAAACGACGCCTGA	MLERLSWKRLALELFLACIPALILGAFVGHLPWFLLAAVTGLLIWHFWNLMRLSWWLWVDRSMTPPPGRGSWEPLLYGLHQMQMRNKKRRRELGSLIKRFRSGAESLPDAVVLTTEEGAIFWCNGLAQQILNLRWPDDSGQNILNLLRYPEFANYLKQRDFSKPLNLVLNNARHLEIRVMPYSDKQWLMVARDVTQMHQLEGARRNFFANVSHELRTPLTVLQGYLEMMQEQVLEGATREKALHTMREQTQRMEGLVKQLLTLSRIEAAPALAMNDCIDVPMMLRVVEREAQTLSQDKQTLIFTVDEQLKVLGNEEQLRSAISNLVYNAVNHTPPGTEIRVSWQRTPQGALFSVEDNGPGIAPEHIPRLTERFYRVDKARSRQTGGSGLGLAIVKHAVNHHDSRLEIDSTVGKGTRFSFLLPERLIARNDA	PGPT0002705_3265	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
BMS020_03423	1320	brnQ	COG1114	Branched-chain amino acid transport system 2 carrier protein	ATGACCCATCAGTTAAAATCTCGCGACATCATAGCGTTGGGCTTTATGACCTTCGCGTTGTTCGTTGGCGCAGGCAACATTATTTTCCCGCCGATGGTTGGCTTACAGGCGGGCGAGCACGTCTGGACGGCGGCGATCGGCTTCCTGATCACCGCGGTGGGTCTGCCGGTGCTGACGGTGGTGGCGCTGGCGAAAGTCGGCGGCGGCGTTGAAAGCCTGAGCACCCCGATTGGTAAAGTGGCTGGTATCCTGCTGGCGGTGGTGTGTTATCTCGCGGTGGGACCGCTGTTCGCGACCCCGCGCACCGCGACCGTCTCTTTTGAAGTCGGGATTGCGCCGCTGACCGGCGACGGCCCGCTGCCGCTGCTGATCTACAGCGTTATCTACTTCGCGCTGGTGATCCTGGTCTCGCTCTATCCGGGCAAACTGCTGGATACGGTGGGCAATTTCCTGGCGCCGCTGAAAATTATCGCCCTGATTGTGCTGGCGGTCGCCGCTATTGTCTGGCCGGCAGGCCCGATCAGCGACGCGCTGGAAGCGTATCGTACCGCGCCATTCTCCAATGGCTTCGTCAACGGCTACCTGACCATGGACACCCTCGGCGCGATGGTGTTCGGGATCGTGATTGTCAATGCCGCACGCTCCCGCGGCGTCAGCGAAGCGCGTCTGTTGACCCGCTACACCGTCTGGGCGGGCCTGATGGCAGGCGTCGGTCTGACCCTGCTGTATCTGGCGCTGTTCCGTCTGGGCTCTGATAGCGCCACCCTCGTGGACCAGTCCGCTAACGGCGCGGCGATCCTCCACGCCTACGTGCAGCATACCTTCGGCGGGGCGGGCAGCTTCCTGCTGGCGGCGCTGATCTTCATCGCCTGCCTGGTGACGGCGGTGGGCCTGACCTGCGCCTGCGCCGAATTCTTTGCCCAGTATCTGCCGTTCTCCTATCGCACGCTGGTCTTTATCCTCGGCCTGTTCTCGATGGCGGTCTCCAACCTCGGTCTGAGCCACCTGATTCAGGTGTCGATTCCGGTGCTGACCGCTATCTACCCGCCGTGTATCGCACTGGTTGTATTAAGCTTTACCCGCAGTTGGTGGCATAATTCGTCCCGTGTTATCGCGCCGGCCATGTTTATCAGTCTGATGTTTGGTATCATTGACGGGATTAAGTCATCGGCGTTTGCCGCTATCCTGCCGGCCTGGACCGCGCGTCTGCCGCTGGCGGAGCAGGGCCTGGCCTGGCTGATGCCGACCGCCGTGATGGCAATTCTCGCGGTGATCTGGGACCGTGCCGCCGGACGTCAGGTGACCTCCAGCGCGCACTAA	MTHQLKSRDIIALGFMTFALFVGAGNIIFPPMVGLQAGEHVWTAAIGFLITAVGLPVLTVVALAKVGGGVESLSTPIGKVAGILLAVVCYLAVGPLFATPRTATVSFEVGIAPLTGDGPLPLLIYSVIYFALVILVSLYPGKLLDTVGNFLAPLKIIALIVLAVAAIVWPAGPISDALEAYRTAPFSNGFVNGYLTMDTLGAMVFGIVIVNAARSRGVSEARLLTRYTVWAGLMAGVGLTLLYLALFRLGSDSATLVDQSANGAAILHAYVQHTFGGAGSFLLAALIFIACLVTAVGLTCACAEFFAQYLPFSYRTLVFILGLFSMAVSNLGLSHLIQVSIPVLTAIYPPCIALVVLSFTRSWWHNSSRVIAPAMFISLMFGIIDGIKSSAFAAILPAWTARLPLAEQGLAWLMPTAVMAILAVIWDRAAGRQVTSSAH	PGPT0014385_1389	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_BRANCHED-CHAIN_AMINO_ACID_TRANSPORT,PGPT0014385-TC_LIVCS|brnQ-K03311	NA	NA
BMS020_03424	1374	proY_1	COG1113	Proline-specific permease ProY	ATGGAAAGTAGTAACAAGCTTAAGCGCGGGCTAAGCACCCGGCACATTCGCTTTATGGCCCTGGGTTCCGCCATCGGCACCGGGCTTTTTTACGGTTCAGCCGACGCGATTAAAATGGCCGGACCCAGCGTACTGTTGGCCTACATTATCGGCGGCGTCGCGGCATATATCATTATGCGCGCGCTCGGTGAGATGTCGGTGCATAACCCTTCCGCCAGCTCATTCTCCCGCTATGCCCAGGAAAACCTCGGCGGACTGGCGGGGTATATCACCGGCTGGACCTACTGCTTTGAAATCCTGATTGTCGCCATCGCCGACGTCACCGCCTTCGGGATCTACATGGGCGTCTGGTTCCCGACGGTGCCGCACTGGATCTGGGTGCTCAGCGTGGTGCTGATCATCTGCGCCGTCAACCTGATGAGCGTCAAGGTGTTTGGTGAGCTGGAGTTCTGGTTCTCGTTCTTCAAAGTGGCCACCATCATCATCATGATCCTCGCCGGGTTCGGCATCATTATCTGGGGGATCGGCAACGGCGGCCAGCCGACGGGGATTCATAACCTGTGGAGCAACGGCGGCTTCTTCAGCAACGGTTGGCTGGGAATGGTGATGTCGCTGCAGATGGTGATGTTCGCCTACGGCGGTATTGAAATCATCGGCATTACCGCCGGCGAGGCGAAAGATCCGGAGAAATCCATTCCACGCGCCATCAACTCGGTGCCGATGCGCATTCTGGTGTTCTATGTCGGCACGCTGTTCGTCATTATGTCTATCTATCCGTGGAATCAGGTGGGTACCGACGGCAGCCCCTTTGTCCTGACCTTCCAGCATCTGGGCATTACCTTCGCGGCCAGCATTCTTAACTTCGTGGTCCTGACGGCCTCGCTGTCGGCGATTAACTCCGACGTGTTCGGCGTGGGCCGTATGCTGCACGGCATGGCCGAGCAGGGGAGCGCGCCGAAGGTGTTCGCCAAAACCTCGCGTCGCGGTATTCCGTGGGTGACGGTGATGGTGATGACCATTGCGCTGCTGTTTGCGGTATACCTCAATTACATCATGCCGGAAAACGTCTTCCTGGTGATCGCCTCGCTGGCCACCTTCGCCACCGTGTGGGTGTGGATTATGATCCTGCTGTCGCAGATTGCCTTCCGCCGCCGTCTGTCGCCGGAGGAGGTCAAGGCCCTGAAATTCAAAGTCCCCGGCGGGGTGGCGACCACGATTGTCGGCCTGGTGTTCCTGGCGTTTATTATCGCCCTGATCGGCTATCATCCGGACACCCGCATTTCGTTGTATGTCGGTATGGCGTGGATTGCGCTGCTGCTGCTGGGCTGGGTCTTTAAGACCCGTCGCGATCGCCGCCTGGCGCAGGCTCAGTAA	MESSNKLKRGLSTRHIRFMALGSAIGTGLFYGSADAIKMAGPSVLLAYIIGGVAAYIIMRALGEMSVHNPSASSFSRYAQENLGGLAGYITGWTYCFEILIVAIADVTAFGIYMGVWFPTVPHWIWVLSVVLIICAVNLMSVKVFGELEFWFSFFKVATIIIMILAGFGIIIWGIGNGGQPTGIHNLWSNGGFFSNGWLGMVMSLQMVMFAYGGIEIIGITAGEAKDPEKSIPRAINSVPMRILVFYVGTLFVIMSIYPWNQVGTDGSPFVLTFQHLGITFAASILNFVVLTASLSAINSDVFGVGRMLHGMAEQGSAPKVFAKTSRRGIPWVTVMVMTIALLFAVYLNYIMPENVFLVIASLATFATVWVWIMILLSQIAFRRRLSPEEVKALKFKVPGGVATTIVGLVFLAFIIALIGYHPDTRISLYVGMAWIALLLLGWVFKTRRDRRLAQAQ	PGPT0014230_135	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0014230-proY-K11736	NA	NA
BMS020_03425	1818	malZ	COG0366	Maltodextrin glucosidase	ATGTTGAAGGCATGGCACCTTCCGGTTGCACCCTTTATCAAGGTGCAACAGGACCGACTGTTTATTACCCTGTGGTTAAGCGGTGAGTCGCTGCCGCAGCGGATCACGCTGCGCGCGGAAGAAGATAACGAAGAGCTGTCGCTGCCGATGCAGCGCCTCCGCCAGGCGCCGAGGCCGGGGGTGGTGGCATGGCGCGGTGAAATCCATCTCGCCAGCGGTCAGCCGCGCCGCCGCTACAGCTTTAAGCTGCTGTGGGCCGACCATCAGCGCTGGTTTACGCCGCAGGGCTTCAGCCGTTTCCCGCCGGCCAGGCTGGAGCAGTTCGCCGTCGACCTGCCGGACGCCGGCCCGCAGTGGGTGGCCGATCAGGTTTTCTATCAGATTTTCCCCGATCGCTTTGCCCGCAGCGCTGCGCGTGACGCCGAACAGGACGCGGTCTATTACCATCACGCGGCGGGACGGGAGATTGTGCGCAAGGCGTGGGACGAACCGCTTACCGGCGAGGCGGGCGGTTCGACGTTCTACGGCGGCGATCTCGACGGCATCAGCGAAAAACTGCCGTACCTGAAGCAGCTCGGCGTGACCGCCCTGTATCTGAACCCGGTCTTTGCCGCCCCCAGCGTGCATAAATATGACACGGAGGATTATCGGCGCGTCGATCCGCAGTTTGGCGGCGACGCGGCGCTGCTCCGCTTGCGCCATAACACCCAGCGGGCGGGAATGCGCATGATCCTCGACGGCGTGTTCAACCATACCGGCGATTCCCATCCCTGGTTCGACCGTCACCAGCAGGGCAGCGGCGGCGCCGGCCATCATCCGGACTCCCCGTGGCGCGACTGGTTTACCTTCTCCGGGGAGGGGCAGGCGCACAACTGGCTGGGTTATGCCAGTCTGCCGAAGCTCGACTATCGGTCGACCAGCCTGGTCAACGAGATCTATGCCGGCGAGGACAGCATCGTACGCCACTGGCTGAAGGCGCCGTGGAGCATGGACGGCTGGCGTCTGGACGTGGTGCATATGCTCGGCGAAGGCGGCGGGGCGCGAAATAACCTGCGGCATATCGCCGGCATCACCCAGGCGGCGAAGCAAACGCAGCCGGAAGCCTTTGTCTTTGGCGAACATTTTGGCGACGCGCGCCAGTGGCTGCAGGCGGATGCCGAAGATTCGGCAATGAACTACCGCGGCTTCACTTTCCCGATCTGGGGATTCCTTGCCAATACCGATATCTCTTACGATCCGCAGAAGATAGACGCCCAGACCTGTATGGCGTGGATGGATAATTATCGCGCCGGGCTGTCGCATCAGCAGCAGCTACGGATGTTCAATCAGCTCGACAGCCATGATACGGCGCGTTTTAAATCTCTCCTTGGCAAAGACGTAGCGCGCCTGCCGCTGGCGGTGGTGTGGCTGTTCAGCTGGCCGGGGGTACCGTGCATCTACTACGGCGACGAGGTGGGCGTGGATGGCAATAACGATCCGTTCTGCCGTAAACCGTTCCCGTGGGATCCGGCGCTGCAGGATACCCAGCTGCTGGCGCTGTATCAGCGGATGGCGAAACTGCGTAAAGCCCAGCAGGCGCTGCGCTACGGCGGCTGCCAGGTGATTTACGCCGAGGATAACGTGGTGGTGTTTGTCCGCGTTTATAAACAGCAGCGGGTGCTGGTGGCGATTAACCGCGGCGAAGCCTGCGAGGTGGTTATCGAGGATTCGCCGCTGCTGGACGTGGGGGCCTGGACGCTGCAGGAAGGCGCTGGCGCCTTCCATGACGGGGTGCTGACCCTCCCGGCTATCTCCGCCTGCGTCTGGTCAGGCCGTTAA	MLKAWHLPVAPFIKVQQDRLFITLWLSGESLPQRITLRAEEDNEELSLPMQRLRQAPRPGVVAWRGEIHLASGQPRRRYSFKLLWADHQRWFTPQGFSRFPPARLEQFAVDLPDAGPQWVADQVFYQIFPDRFARSAARDAEQDAVYYHHAAGREIVRKAWDEPLTGEAGGSTFYGGDLDGISEKLPYLKQLGVTALYLNPVFAAPSVHKYDTEDYRRVDPQFGGDAALLRLRHNTQRAGMRMILDGVFNHTGDSHPWFDRHQQGSGGAGHHPDSPWRDWFTFSGEGQAHNWLGYASLPKLDYRSTSLVNEIYAGEDSIVRHWLKAPWSMDGWRLDVVHMLGEGGGARNNLRHIAGITQAAKQTQPEAFVFGEHFGDARQWLQADAEDSAMNYRGFTFPIWGFLANTDISYDPQKIDAQTCMAWMDNYRAGLSHQQQLRMFNQLDSHDTARFKSLLGKDVARLPLAVVWLFSWPGVPCIYYGDEVGVDGNNDPFCRKPFPWDPALQDTQLLALYQRMAKLRKAQQALRYGGCQVIYAEDNVVVFVRVYKQQRVLVAINRGEACEVVIEDSPLLDVGAWTLQEGAGAFHDGVLTLPAISACVWSGR	PGPT0018560_2733	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
BMS020_03426	903	yhaJ_3		HTH-type transcriptional regulator YhaJ	ATGCGCGTAAACTTTGATGTTCTGATGATCCTTGATGCGCTGGACCGACACGGATCCTTCGCCACCGCCGCGGAGTCGCTGTATAAAACCCCCGCCGCGCTGAGCTATATGATCCAGAAGCTGGAGAACGATCTGGACATTGTCTTATTGGATCGCTCCGGTCACCGGGCGAAGTTTACCGATACCGGGCGATTGATGCTCGAGAAAGGACGCCAGCTGTTGAGCGCCGCCAGAGATCTGGAAAAGCAGGCCCAGCAGCTAAGCGCCGGCTGGGAGCGAGAGCTGGCGATCGCCCTCGACGCCTCGTTTCCCTTTTCAGCCCTGCTGCCGCTGATCGCCGAGTTCTACGCGCAAAACCCGCAGACGCGGCTGAACTTCAGTCATCACACCCTCGCCGGTTCGTGGGAAGAGCTGACCCACCATGGCGCAGATATTATCCTCGGCGCCATCAATGAGCCGCCTACCTCCGCCGAGTGGTCATGGCAAACCCTTGGCGCGCTGGATAACATTTTCGTGGTCGCCCCGACCCACCCGCTGGCCGGCGCGGAAGCGCCGCTCAGCAATAAGCAGCTCAGCCAGCACCGGGCGGTAGTGATCCGCGACAGCGCCCGCTATTGCCATCCGCTGAACAGCAACCTGCTTGATGAACAACCGCAAATCGGCGTCGATGATTTCGCCAGCAAAGTCGAACTGCTGTGCGCCGGGCTGGGCTGCGGCTTTCTGCCGCGTCATATCGCCCGCCCGTGGCTGGAAAAAGGCTGTCTGGTGGAGAAAAGCGTCGCCTGCTGGCGGGAAAAAGATATCACCTACATGGCCTGGCGCAGCGGGAATGACGGGCTGGCTCAGCGCTGGTGGCGGGAGGCGCTCCTCCGCGACGGCCTGCTGAGCCAGCTCTATCGTTAA	MRVNFDVLMILDALDRHGSFATAAESLYKTPAALSYMIQKLENDLDIVLLDRSGHRAKFTDTGRLMLEKGRQLLSAARDLEKQAQQLSAGWERELAIALDASFPFSALLPLIAEFYAQNPQTRLNFSHHTLAGSWEELTHHGADIILGAINEPPTSAEWSWQTLGALDNIFVVAPTHPLAGAEAPLSNKQLSQHRAVVIRDSARYCHPLNSNLLDEQPQIGVDDFASKVELLCAGLGCGFLPRHIARPWLEKGCLVEKSVACWREKDITYMAWRSGNDGLAQRWWREALLRDGLLSQLYR				NA	NA	NA	NA	NA
BMS020_03427	642			hypothetical protein	ATGTCTATTCGTGAACTGCTCGATCCCACTAATTCCGCCCTTATCTTTATTGATCATCAACCACAGATGTCATTTGGCGTGGCGAATATCGATCGCCAGACCCTCAAAAATAACACCGTGGCGCTGGCCAAAGCCGGCAAAATTTTTAATGTACCGGTGATTTACACTTCCGTAGAGACCAAAAGCTTCAGCGGTTATATCTGGCCGGAATTATTGGCCGTGCATCCTGACGTCAAGCCGATTGAGCGTACTTCAATGAACTCCTGGGAAGACGATGCCTTCGTTGCGGCGGTGAAAGCGACCGGCCGTAAAAAGCTGGTGATCTCCGCTCTGTGGACCGAAGTTTGCCTGACGTTTCCGGCGCTGATGGCCCTGGAGGCGGGCTACGAAGTGTATGTGGTCACCGATACCTCCGGCGGTACCTCTGTCGACGCCCATGAGCGTTCTATTGACCGGATGGTGCAGGCGGGTGCGGTGCCGGTGACCTGGCAGCAGGTGTTGCTGGAGTACCAGCGCGACTGGTCGCGCAAAGCGACTTACGATGCGGTCATGGACCTGGTGCGCGAACACAGCGGCGCCTACGGGATGGGCGTGGATTACGCTTATACCATGGTGCACGGCGCGCCAGAGCGTAAAGCGTAA	MSIRELLDPTNSALIFIDHQPQMSFGVANIDRQTLKNNTVALAKAGKIFNVPVIYTSVETKSFSGYIWPELLAVHPDVKPIERTSMNSWEDDAFVAAVKATGRKKLVISALWTEVCLTFPALMALEAGYEVYVVTDTSGGTSVDAHERSIDRMVQAGAVPVTWQQVLLEYQRDWSRKATYDAVMDLVREHSGAYGMGVDYAYTMVHGAPERKA				NA	NA	NA	NA	NA
BMS020_03428	546			hypothetical protein	ATGGCGCAGCAAAAATCGGTGACCCTGGTCATCAGCCATCTGCTCGATCCGCAACACGGCCAGCGCTACGAAGAGTGGCTCGGCAAAATCATGCCCATCGCGGCTGAATTTCCCGGCCATCTCGGGGCGAATGTGATCCGGCCCGCCGCAGGGCAGAATCTGTGGAGCGTGATTATCCGCTTCGACACCCTGGAGCATCTCTACGCCTGGACGCAGTCGGAAACCCGTCGTCAGCTGGTGGCGGAGATTGCCCCGCTGCTGACGGAGGGCGATCGGACGGAGGTGCGGACCGAGCCGGCCTTCTGGTTTACCCCGCCGGTGGCGAATGTGCGCCAGCCGCGGCGCTGGAAACAGTTTCTGATCACCCTGCTGGTGATTTTCCCCAGCACCAACCTGGTGCCGGCGGTGACCGGCATGCTGTTGCCGTCGCTTAAGGGGAGCCTGCTGCTGCACCTGATCAATGATGCCTGCGTGGTTGCGCTGGTGGTCTGGTTCTGGATGCCCATCGTGACCCGCCTGTTTGCTGGCTGGTTGAAGAAAAACTGA	MAQQKSVTLVISHLLDPQHGQRYEEWLGKIMPIAAEFPGHLGANVIRPAAGQNLWSVIIRFDTLEHLYAWTQSETRRQLVAEIAPLLTEGDRTEVRTEPAFWFTPPVANVRQPRRWKQFLITLLVIFPSTNLVPAVTGMLLPSLKGSLLLHLINDACVVALVVWFWMPIVTRLFAGWLKKN				NA	NA	NA	NA	NA
BMS020_03429	1869	nfdA		N-substituted formamide deformylase	ATGTCGCAAACTGCCACACTGATTCTGACCCACGGCCAGATTCATACCCTCGATCGCGCGAATCCGCTGGCGGAAGCCGTGGCCATCGCCGACGGAAAAATTGTTGCCACCGGAAGCCACGATCGGATCATGAGCTTTGCCGCCGAGGGGACGCAGATCGTCGATCTCAAAGGGCATACGGTGATCCCGGGCCTCAACGATTCTCACCTGCACCTGATCCGCGGTGGGTTGAACTACAACCTTGAGCTCCGCTGGGAGGGGGTGCCCTCGCTGGCCGATGCGCTGCGAATGCTCAAGGAGCAAGCGGATCGCACACCCTCCCCGCAGTGGGTGCGGGTGGTCGGCGGCTGGAGCGAATTCCAGTTCGCCGAACGACGGATGCCGACCCTGGAAGAGCTAAACGACGCGGCGCCCGATACGCCGGTGTTTGTGCTGCATCTCTACGATCGCGCGCTGCTGAACCGCGCGGCGCTGAAAGCTGTGGGATATACCAAAGAGACGCCGGATCCGGCGGGCGGCGAGATCGTCCGCGATAGCCACGGCAACCCGACCGGGATGCTGATCGCCAAACCAAACGCCATGATCCTCTACGCCACCCTGGCCAAAGGGCCGAAGCTGCCGCTGGATCTGCAGGTGAACTCCACCCGCCAGTTTATGCGCGAGCTGAACCGGCTGGGGCTGACCAGCGCCATCGACGCCGGGGGCGGTTTCCAGAACTACCCTGAAGATTACGAAATTATCGAACAGCTGCACGCGAAAGAGCAAATGACCGTGCGCATCGCCTACAACCTGTTTACCCAGCGGCCGAAGCAGGAGCTGGAGGACTTCGAACGCTGGACCGACATGCTGAAGCCGGGGCAGGGGACCGACTTCTATCGCGCCAACGGCGCCGGCGAGATGCTGGTGTTTTCGGCGGCGGATTTTGAAGATTTCCTGCAGCCGCGGCCGGATCTGCCGCAAGGCATGGAGGATGAGCTGGAGCGGGTGGTGCGCCACCTGGTGGAACATCGCTGGCCGTTCCGCCTGCATGCCACCTACGACGAGTCCATCAGCCGGATGCTGGACGTGTTTGAGAAGGTGAACCGCGACATTCCGTTTAATGGCCTGCACTGGTTCTTCGACCATGCCGAGACCATTACCGAGCGCAACATTGAGCGGGTGAAGGCGCTGGGGGGCGGCATTGCGGTGCAGCACCGGATGGCCTTCCAGGGCGAATATTTTGTCGATCGCTACGGCAAAGAGGCGGTGAAACATACGCCGCCGGTGGCGAAAATGCTGGAGCTGGACGTACCGGTAGGGTTGGGAACCGATGCCACCCGCGTCGCCAGCTATAACCCGTGGACCGCGCTGTACTGGCTGGTCTCCGGGCGCACCGTCGGCGGGATGGCGATGTATGACGATAACAACCGGCTGCCGCGCGATGTCGCGCTGGAGCTGTGGACGGCGGGCAGCGCCTGGTTCTCCAGCGAGCAGGGGAAAAAGGGCCGTCTGGCCGCCGGTCAGCTTGCCGATCTGGTGGTGCTGTCGAAGGACTATTTCAGCGTCGCGGAAGAGGAGATCAAAGGCATTGAGTCGGTGCTGACGGTGGTTGACGGCAAAGTGGTGTATGCCGCCGGTCACTTCTCGCCGCTGGCGCCGCCGCCGATTCCGGTGCTGCCGGAGTGGTCGCCGGTGGTGAAGGTCCCGGGCCATTACCGTTCCGCTCCGCCGGCGGCGGCTAAAATTGGCGCCATGGTACAGATGCACCAGTGCTGCGGTAGCTGCGGCGTTCACGGCCATCAGCATGATATCGCGCGGAAATCGTCGATCCCGGTTGCCGACGAGCAGGCCTTCTGGGGCGTGCTGGGCTGCTCCTGCTTTGCCTTCTGA	MSQTATLILTHGQIHTLDRANPLAEAVAIADGKIVATGSHDRIMSFAAEGTQIVDLKGHTVIPGLNDSHLHLIRGGLNYNLELRWEGVPSLADALRMLKEQADRTPSPQWVRVVGGWSEFQFAERRMPTLEELNDAAPDTPVFVLHLYDRALLNRAALKAVGYTKETPDPAGGEIVRDSHGNPTGMLIAKPNAMILYATLAKGPKLPLDLQVNSTRQFMRELNRLGLTSAIDAGGGFQNYPEDYEIIEQLHAKEQMTVRIAYNLFTQRPKQELEDFERWTDMLKPGQGTDFYRANGAGEMLVFSAADFEDFLQPRPDLPQGMEDELERVVRHLVEHRWPFRLHATYDESISRMLDVFEKVNRDIPFNGLHWFFDHAETITERNIERVKALGGGIAVQHRMAFQGEYFVDRYGKEAVKHTPPVAKMLELDVPVGLGTDATRVASYNPWTALYWLVSGRTVGGMAMYDDNNRLPRDVALELWTAGSAWFSSEQGKKGRLAAGQLADLVVLSKDYFSVAEEEIKGIESVLTVVDGKVVYAAGHFSPLAPPPIPVLPEWSPVVKVPGHYRSAPPAAAKIGAMVQMHQCCGSCGVHGHQHDIARKSSIPVADEQAFWGVLGCSCFAF				NA	NA	NA	NA	NA
BMS020_03430	861	fba		Fructose-bisphosphate aldolase	ATGTTAGTGTCGATGAAGGACATGCTTCAGCATGCCCTGAGGGACGGCTACGCCGTCGGTCAGTTCAACATTAATAATCTGGAATGGGTTGGCGCCGTATTAAGCACCGCCCAGCAGTGCCGCTCACCGGTTATTTTGGGCGTGTCCGGCGGCACGGTTAAGCATATGCTCGGGTTAAAATGTATTCATGACATCGTGGTTAACGCCATGGAGTATTTACATATTGATGTTCCGGTGGCGCTGCATCTGGATCATGGCACCACCCGGGAGGCCTGCGAAGCGGCGATCGCCGCCGGCTTCAGTTCCATTATGTTTGATGGCTCGCATCTGCCGTTCAGGGAAAACCTGGCCATTACCCGCCACCTGGTGACGCTGGCGCACAGCAAAGGTATCTCCGTGGAGGCCGAACTGGGGACTATCGCCGGTAGCGAAGACGGCATTGTCAATTCCGAAGTCATCTATGCCGATCCGCAGGAGTGCTACACCCTGGTGACAGAAACCCAGGTGGACTGCCTCGCCGCCGCGCTGGGCTCCACCCATGGCCTGTATAAAGGCAAAGCCAGGCTGGGATTTAGCGAGATGAAAGCCATTGCCGAGCGGGTGAAGGTTCCGCTGGTACTGCATGGCGGCACCGGTATTGCCGATGAGGATATGCGCCGGGCGATTGCCTGCGGCACCGCCAAGATTAACGTTAATACCGAAAATATGTACGCCTGGTGCCAGCAGGTGAAGGCGATCTTCGCTGCCGACACCGGGCACGATGTGAACGATCCGCGGAAAGTGATCGCCCAGGGACTGCAGCCGGTACGCGAGATGATTGCCCGCCGCATGGCGCTATTTGGCTCACAGCAGCGCTATTGA	MLVSMKDMLQHALRDGYAVGQFNINNLEWVGAVLSTAQQCRSPVILGVSGGTVKHMLGLKCIHDIVVNAMEYLHIDVPVALHLDHGTTREACEAAIAAGFSSIMFDGSHLPFRENLAITRHLVTLAHSKGISVEAELGTIAGSEDGIVNSEVIYADPQECYTLVTETQVDCLAAALGSTHGLYKGKARLGFSEMKAIAERVKVPLVLHGGTGIADEDMRRAIACGTAKINVNTENMYAWCQQVKAIFAADTGHDVNDPRKVIAQGLQPVREMIARRMALFGSQQRY	PGPT0017615_4403	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
BMS020_03431	963	yihV		Sulfofructose kinase	ATGGCTATTTTGTCCATTGGATTTGCTTGTTTCGATCAGTTTTTCTTTCTCAATGAATGGCCCCAGGAGAATACTAAAAACTTTTGTCATGATTTTATCGAAAGCGGCGGCGGCCCGGCGGCCAATGCGGCCTGGCTGCTGGGATTATGGGGGGAGGAGGTCTATTACATCGGCCATCTGCATCAGGATCTTTACGGTCAGCGCATTATCGATGAGTTTGCCGAAGCGGGCGTGGATACCAGCCAGGTGGTTTTCTCCGATGACATGATCACCCCGCTGGCCTCGGTGCTCGTCAATCGCTTAACGGGTTCGCGGACGATTATTACCCGCAAGATGCAAACACCGCCTTCCCTGACCTACGATCAAAAGCTCAAACTGGACGATCTCGCCGAGCGACTGATTGCCGCCGAGGAGCCAGTCACTATTTTAATTGACGGCCATGAGGCGGAAATCAGTGAATATTTAATTAAGAAACTGCCCAACGCCAGAGTCGTGATGGACGGTGGGTCACTGCGTGCCAGCAATATTAAACTGGCGGCCTGGACCGACTATTTTGTGGTGAGCGAACATTTTGCCCGCGACTATATGAGCTATCGCTCGCTGAGCACCGAAGCAGAAATTAAAGCAGCGCTGATTGAGCTGAATAAAATTTGCCGCGGCGAGGCATTTATTACCCTTGGCGAAAAAGGCTGCGCTTTTTTAAAAAGCGGTATGCTGCAGATCGTTCCTTCCTGGCTGTGCAATGCCGTGGATACCACCGGAGCCGGGGATGTATTTCACGGCGCCTTCACCTATGGCGTCCACTATTCATGGCACATAGATAATATTATTTTATTTGCCAGCCTCACCGCCGCCATTTCTATTGAGAAAAAAGGGGTACGGGAATCTATGCCGGACCTGGCGGTCGTCCACCACTCGTTAAATAGCTACGAGAGAAACTTAAAGCAATATTTTGAAGAATAA	MAILSIGFACFDQFFFLNEWPQENTKNFCHDFIESGGGPAANAAWLLGLWGEEVYYIGHLHQDLYGQRIIDEFAEAGVDTSQVVFSDDMITPLASVLVNRLTGSRTIITRKMQTPPSLTYDQKLKLDDLAERLIAAEEPVTILIDGHEAEISEYLIKKLPNARVVMDGGSLRASNIKLAAWTDYFVVSEHFARDYMSYRSLSTEAEIKAALIELNKICRGEAFITLGEKGCAFLKSGMLQIVPSWLCNAVDTTGAGDVFHGAFTYGVHYSWHIDNIILFASLTAAISIEKKGVRESMPDLAVVHHSLNSYERNLKQYFEE				NA	NA	NA	NA	NA
BMS020_03432	1392	ulaA_1	COG3037	Ascorbate-specific PTS system EIIC component	ATGCAGGCTATTCTTAGTTTCTTAACGGAAATATTCAGTCAACCCGCTTTTTTAATGGGGCTTATCGCCTTCGTTGGCTTAGTGGCGCTGCGCTCCCCCGGCAACAAACTCCTTACCGGCACATTAAAGCCGATTTTAGGCTATTTGATGTTGAGCGCTGGCGCAGGCGTTATCGTTGCCAATCTCAACCCGTTGGGCGGCATTATCGAAGCGGGATTTAATATCCGCGGCGTTATTCCGAACAATGAAGCCATTGTCTCCGTCGCCCAGAAGATGCTGGGCGTGGAAACCATGAGTATTTTGCTGTTGGGCTTTATTTTCAATCTGATCATTGCCCGCTGCACAAAATATAAATATATCTTTCTCACCGGTCATCACTCATTCTTTCTCGCCTGCCTGTTCTCCGCCGTCCTGCAGGCGGCGGAGTTCCAGGGCTGGATGTTGATCCTGATCGGCGGATTCCTGCTGGGCTCATGGTCGGCCATCTCCCCCGCCATTGGCCAGCGTTACACCAGGCAGGTAACCGAGGACGGCGGGATCGCCATGGGCCATTTCGGCTCACTGGGCTACTACCTCTCGGCGTGGATCGCCAGCCGGACCGGTAATCCGGCAAACTCCTTCGCCGATACCGAAATCTCAGAGAAATGGGGTTTTCTGCGCGATACCACCGTCACCACCGGTATCGTGATGTTTGTCATCTACTTTGTCTGCAGCGCTGTCGCCGGGTCGGCGTACCTGAGCACCATCACCGACCAGAACATGCTGATCTTCTCCGTGCTGACCGGTCTGCAGTTCGCCGTTGGCGTAGCCATTGTCTACAACGGCGTGCGCTTGATCCTGGGCGATCTGGTGCCGGCATTCCAGGGCATCAGCCAGAAACTGATCCCAGACTCCATCCCGGCCGTTGACTGCGCGGTGTTCTTCACCTTTAGCCCCACCGCGGTGGTGGTGGGATTCATCAGCTCCTTTGTGGGCGGGCTGGTCGGGATGCTCATGCTCGGCGGACTGGGCATGGCGCTGATTATTCCCGGCATGGTGCCGCACTTCTTCTGCGGCGGTACCTCCGGGGTCTTTGCCGACAAGCTGGGCGGTAAGCGCGGTTGTATCATCGCCGCCTTTATCGGCGGGATCTTCCTGGCCTTCCTGCCGGCGATGCTGCTGCCGGCGCTCGGCAACCTCGGGTTTGAAAACAGCACCTTCGCCGATTTCGACTTCGCGGTGTGGGGCATCATTATCGGTAACGCGTTTACCCAGTTTGGCCAGGTCACTATCTACCTGATTTGTCTGGCGCTGCTCGTCGCGCTGCTGGCGCCTTTCTGCTTCCGTCAGGTACGGGTGGTGGGCAACACGCTCAGCTATGAGGAGCTTATCGCCAAGCAGAAAAATGAATAA	MQAILSFLTEIFSQPAFLMGLIAFVGLVALRSPGNKLLTGTLKPILGYLMLSAGAGVIVANLNPLGGIIEAGFNIRGVIPNNEAIVSVAQKMLGVETMSILLLGFIFNLIIARCTKYKYIFLTGHHSFFLACLFSAVLQAAEFQGWMLILIGGFLLGSWSAISPAIGQRYTRQVTEDGGIAMGHFGSLGYYLSAWIASRTGNPANSFADTEISEKWGFLRDTTVTTGIVMFVIYFVCSAVAGSAYLSTITDQNMLIFSVLTGLQFAVGVAIVYNGVRLILGDLVPAFQGISQKLIPDSIPAVDCAVFFTFSPTAVVVGFISSFVGGLVGMLMLGGLGMALIIPGMVPHFFCGGTSGVFADKLGGKRGCIIAAFIGGIFLAFLPAMLLPALGNLGFENSTFADFDFAVWGIIIGNAFTQFGQVTIYLICLALLVALLAPFCFRQVRVVGNTLSYEELIAKQKNE	PGPT0017105_551	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
BMS020_03433	288			hypothetical protein	ATGTTAGTTATCAGAACGGTTTGTGGTAACGGTATTGGCAGTTCATTGATGGCTGCGAATAATGTGAAGAAGATTTGTGAAGAATTAGGTATCAAAGCGGACGTCGCCTCGGTCGATTTTGCTAACGCCGTCGGGGAAAAAGCCGACCTTTATGTCACGATCAAAGAACTGGCAAATCAATTTCCGGCCCACTGTCATGTCGCCATTATTCGCAGCTATGTCCATAAAGCAAAAATCGCCGAGGATATTACCGACGCGCTGATGAAAATTGCTGCGACTCACTCTTAA	MLVIRTVCGNGIGSSLMAANNVKKICEELGIKADVASVDFANAVGEKADLYVTIKELANQFPAHCHVAIIRSYVHKAKIAEDITDALMKIAATHS	PGPT0017110_536	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
BMS020_03434	444			hypothetical protein	ATGGATATTATTTTTGACCCGACGTTAATCGCCCTGAAGCAGAATATTTCCCATGCGGAAGAGGCCATCGAACTGGCGGGTTCATTACTCGCCAGGCGTCAGATTTGCAGCGCCGAATATGTCAACGAGATGCTGACGGTATACGAAGATTTTGGCGCCGCCATCGTGATAGATGACGGGATTGCCATGCCGCACGCCCGCCCGGAAAAAGGGGCATTGCAGACCGGATTTTCGCTTGTCACCACCGCCACGCCAGTGACCTTCGGCCACGATGAGTTCGATCCGGTTACCGTCGTCATCGCCATCGCCGGCGCCGATGCTGACAGTCATATCAAAATGATCCAACTGATAGCCTCGCTGATCGAGTCAGATATCGTGACCTTTCTTCAGCAGGAAACTGACGTGAATTCAGTCTTACATTTCATCCAAAAACAAATGGAGTAG	MDIIFDPTLIALKQNISHAEEAIELAGSLLARRQICSAEYVNEMLTVYEDFGAAIVIDDGIAMPHARPEKGALQTGFSLVTTATPVTFGHDEFDPVTVVIAIAGADADSHIKMIQLIASLIESDIVTFLQQETDVNSVLHFIQKQME	PGPT0017115_806	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
BMS020_03435	603	ahpC_1	COG0450	Alkyl hydroperoxide reductase C	ATGGTTCTGGTCACTCGTCAAGCGCCGGATTTTACTGCAGCCGCTGTGCTGGGTAATGGTGAGATCGTTGAGAAATTCAATTTCAAACAGCACACCAACGGTAAACCTACCGTTCTGTTCTTCTGGCCGATGGACTTCACCTTCGTTTGCCCGTCTGAGCTGATCGCGTTCGACAAACGTTACGAAGAATTCCAGAAACGCGGCGTGGAAGTGGTTGGCGTTTCCTTCGACTCCGAGTTCGTGCACAACGCATGGCGTAACACCCCGGTAGACCAGGGCGGTATCGGCCCGGTTAAATACGCGATGGTTGCTGACATCAAACGTGAAATCCAGAAAGCTTACGGTATCGAGCATCCGGACGAAGGCGTTGCTCTGCGTGGTTCCTTCCTGATCGACGCTAACGGCGTGGTTCGCCACCAGGTGGTTAACGACCTGCCGCTGGGCCGTAACATCGACGAAATGCTGCGCATGGTTGACGCGCTGCAGTTCCACGAAGAGCACGGCGAAGTTTGCCCGGCGCAGTGGGAAAAAGGAAAAGAAGGTATGGCTGCCTCTCCGGAAGGCGTTGCAAAATACCTGACCGAAAACGTCTCCAGCCTGTAA	MVLVTRQAPDFTAAAVLGNGEIVEKFNFKQHTNGKPTVLFFWPMDFTFVCPSELIAFDKRYEEFQKRGVEVVGVSFDSEFVHNAWRNTPVDQGGIGPVKYAMVADIKREIQKAYGIEHPDEGVALRGSFLIDANGVVRHQVVNDLPLGRNIDEMLRMVDALQFHEEHGEVCPAQWEKGKEGMAASPEGVAKYLTENVSSL	PGPT0013130_1785	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
BMS020_03436	582	acpH	COG3124	Acyl carrier protein phosphodiesterase	ATGAATTTTCTCGCCCACCTGCACCTGGCCCATCTCGCCGACAGTTCGCTGCCCGGCAATCTGATGGCCGACTTTGTGCGCGGCAACCCGCAGGGCGACTATCCGGCGGAGATTGTTGACGGCATCTATATGCATCGGCGGATTGACGTGCTGACTGACAACCTGGCGGAAGTCAAAGAGGCGCGGGAGTGGTTTCGCCCGCAGACCCGCCGCGTCGCCCCGATCACCCTCGACGTCATGTGGGATCATTTCCTGTCGCAGCACTGGGCGCAGCTCTCCCCTGACCTGCCGCTGGAGGAGTTCGTGCGCTACGCCGAGCGGCAGATCGTCCCCATCCTGCCCGACTCGCCGCCCCGCTTCGTCAATCTCAACCAATATCTGTGGTCGGAGCGCTGGCTGGAGCGCTATCAGGAGATGGATTTTATTCAGCGCGTGCTTAACGGCATGGCCAGCCGCCGCCCGCGTCTCGAGGCGCTGCGCGACTCCTGGCAGGATCTGGATACCCACTATGACCGGCTGGAGGGGCAGTTCTGGCGCTTTTATCCGCAGATGATGCGTCAGGCGAAAAACAAACAGCTGTAA	MNFLAHLHLAHLADSSLPGNLMADFVRGNPQGDYPAEIVDGIYMHRRIDVLTDNLAEVKEAREWFRPQTRRVAPITLDVMWDHFLSQHWAQLSPDLPLEEFVRYAERQIVPILPDSPPRFVNLNQYLWSERWLERYQEMDFIQRVLNGMASRRPRLEALRDSWQDLDTHYDRLEGQFWRFYPQMMRQAKNKQL	PGPT0008850_878	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008850-acpH-K08682	NA	NA
BMS020_03437	1065	queA_1	COG0809	S-adenosylmethionine:tRNA ribosyltransferase-isomerase	ATGCGCGTTACCGATTTTGCTTTTGAACTACCCGAATCCCTGATCGCCCACTATCCGATGCCTGAGCGCAGTAGCTGCCGCTTACTCTCCCTGGACGGGCCGACGGGCGCGCTGACGCATGGCACCTTCACCGACATCCTCGATAAGCTCAATCCCGGCGATCTGCTGGTGTTTAACAACACCCGGGTGATCCCGGCGCGTCTGTTCGGCCGCAAGGCCAGCGGCGGCAAGATTGAAGTGCTGGTGGAGCGGATGCTGGATGATAAGCGCATCCTCGCCCATATTCGCGCCTCGAAAGCGCCGAAGCCGGGCGCCGAGCTGCTGCTGGGCGACGACGAGAGCATTCAGGCCACTATGCTGGCGCGTCACGGCGCGCTGTTTGAAGTGGAATTTAACGACGAGCGCCCGGTGCTGGAGATCCTAAACGGGATCGGCCATATGCCGCTGCCGCCCTACATTGATCGCCCGGACGAAGACGCTGACCGCGAGCTCTATCAAACCGTCTACGGTACCCGGCCGGGCGCGGTAGCCGCCCCGACCGCGGGTCTGCACTTCGACGAACCGCTGCTGGATAAACTGCGCGCTAAAGGCGTTGAGATGGCGTTTGTCACCCTGCACGTGGGCGCGGGTACCTTCCAGCCGGTGCGCGTCGACAGCATTGAAGAGCACACTATGCACTCAGAATATGCGGAAGTGCCGCAGGAGGTGGTTGATGCGGTGCTGGCGGCGAAAGCGCGCGGCAATCGCGTGATCGCGGTGGGCACCACCTCGGTACGCTCGCTGGAGAGCGCGGCGCAGGCGGCGAAAGACGCCCTGATCGCGCCGTTCTTCGACGATACGCAGATTTTCATCTATCCGGGTTATCAGTACCAGGTGATCGATGCGCTGGTGACCAACTTCCATCTCCCTGAATCCACACTGATTATGCTGGTGTCGGCGTTTGCGGGTTATCAGCACACCATGAACGCCTATAAGGTAGCGGTAGAGCAGAAATATCGCTTTTTTAGCTACGGGGATGCGATGTTTATCACGTACAATCCGCAGGCTATTTCTGAGCGTCCCTGA	MRVTDFAFELPESLIAHYPMPERSSCRLLSLDGPTGALTHGTFTDILDKLNPGDLLVFNNTRVIPARLFGRKASGGKIEVLVERMLDDKRILAHIRASKAPKPGAELLLGDDESIQATMLARHGALFEVEFNDERPVLEILNGIGHMPLPPYIDRPDEDADRELYQTVYGTRPGAVAAPTAGLHFDEPLLDKLRAKGVEMAFVTLHVGAGTFQPVRVDSIEEHTMHSEYAEVPQEVVDAVLAAKARGNRVIAVGTTSVRSLESAAQAAKDALIAPFFDDTQIFIYPGYQYQVIDALVTNFHLPESTLIMLVSAFAGYQHTMNAYKVAVEQKYRFFSYGDAMFITYNPQAISERP	PGPT0023660_1436	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023660-queA-K07568	NA	NA
BMS020_03438	1128	tgt_1	COG0343	Queuine tRNA-ribosyltransferase	ATGAAATTTGAACTGGATACCACCGACGGTCGCGCCCGCCGCGGTCGCCTGGTGTTTGAGCGCGGCGTGGTGGAAACACCGGCCTTTATGCCCGTTGGCACCTACGGCACCGTCAAAGGGATGACGCCGGAAGAGGTGGAAGCCACCGGCGCGCAGATTATTCTCGGCAACACCTTCCACCTGTGGCTGCGCCCGGGTCAGGAGATCATGAAGCTGCACGGCGATCTGCACGATTTTATGCAGTGGAAAGGACCGATCCTGACCGACTCCGGCGGCTTCCAGGTGTTCAGCCTTGGCGATATCCGTAAGATCACCGAGCAGGGCGTCCACTTCCGTAACCCGATCAACGGCGATCCGATTTTCCTCGATCCGGAAAAATCCATGGAGATTCAGTACGATCTCGGTTCCGACATCGTGATGATCTTCGACGAATGTACGCCGTACCCGGCGGACTGGGATTACGCCAAGCGCTCGATGGAGATGTCTCTGCGCTGGGCGAAGCGCAGCCGCGACCGTTTCGATAGCCTTGGCAATAAAAATGCGCTGTTCGGCATCATTCAGGGCAGCGTTTACGAAGATTTACGTGATATCTCGGTGAAAGGTCTGGTAGAGATTGGCTTTGATGGCTACGCTGTCGGCGGTTTGGCGGTCGGCGAGCCGAAGGAAGACATGCACCGTATTCTGGAGCACGTCTGCCCGCAGATCCCGGCCGATAAACCACGATACCTGATGGGCGTCGGGAAGCCGGAAGATCTGGTGGAAGGGGTACGTCGCGGTATCGATATGTTCGACTGCGTCATGCCGACGCGCAACGCGCGTAACGGCCACCTGTTCGTCACCGACGGCGTGGTGAAAATCCGCAACGCGAAGCACAAAAGCGATACCGCGCCGCTGGACGCCGAGTGTGATTGCTATACATGTCGCAATTATTCACGCGCTTACTTGCATCACCTTGACCGTTGCAACGAAATATTGGGCGCGCGTCTCAATACCATTCATAACCTGCGCTACTATCAGCGTTTAATGGCTGGTTTACGCAAGGCTATCGAAGAGGGTAAATTAGAGAGCTTCGTGACCGATTTTTACCAACGTCAGGGGCGCACCGTGCCTCCTTTGAACGTTGATTAA	MKFELDTTDGRARRGRLVFERGVVETPAFMPVGTYGTVKGMTPEEVEATGAQIILGNTFHLWLRPGQEIMKLHGDLHDFMQWKGPILTDSGGFQVFSLGDIRKITEQGVHFRNPINGDPIFLDPEKSMEIQYDLGSDIVMIFDECTPYPADWDYAKRSMEMSLRWAKRSRDRFDSLGNKNALFGIIQGSVYEDLRDISVKGLVEIGFDGYAVGGLAVGEPKEDMHRILEHVCPQIPADKPRYLMGVGKPEDLVEGVRRGIDMFDCVMPTRNARNGHLFVTDGVVKIRNAKHKSDTAPLDAECDCYTCRNYSRAYLHHLDRCNEILGARLNTIHNLRYYQRLMAGLRKAIEEGKLESFVTDFYQRQGRTVPPLNVD				NA	NA	NA	NA	NA
BMS020_03439	333	yajC_1	COG1862	Sec translocon accessory complex subunit YajC	ATGAGCTTTTTTATTTCTGATGCGGTAGCGGCAACGGGTGCACCGGCGCAGGGCAGCCCGATGTCTCTGATTCTGATGCTGGTGGTGTTCGGTCTGATTTTTTACTTCATGATCCTGCGTCCACAGCAGAAGCGCACCAAGGAACATAAGAACCTGATGAACTCCATCGCCAAAGGTGATGAAGTGCTGACCAACGGCGGTCTGGTCGGTCGCGTGACCAAAGTAGCGGAAACTGGCTACATTGCTATCGCGCTGAACGATACCACTGAAGTGGTTATCAAACGTGACTTCGTTGCTGCCGTTCTGCCGAAAGGCACCATGAAGGCGCTGTAA	MSFFISDAVAATGAPAQGSPMSLILMLVVFGLIFYFMILRPQQKRTKEHKNLMNSIAKGDEVLTNGGLVGRVTKVAETGYIAIALNDTTEVVIKRDFVAAVLPKGTMKAL	PGPT0025730_1024	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025730-yajC-K03210	NA	NA
BMS020_03440	1815	secD_1	COG0342	Protein translocase subunit SecD	ATGCTGGTCGTCGTCATTGTCGTCGGCCTGATCTATGCGCTTCCCAACCTGTATGGTGAGGATCCGGCTGTTCAAATCACTGGCGCGCGCGGCGTCGCCGCCAGTGAGCAAACGCTGATCCAGGTCCAGAAAACTTTACAAGAAGAAAAAATTACCGCGAAGTCTGTGGCACTGGAAGAGGGCGCTATTCTTGCGCGCTTCGACACCACTGATACCCAGCTGCGCGCGCGTGAAGCGCTGCTTACCGTGTTGGGTGACAAATACGTCGTGGCGCTAAACCTTGCTCCGGCAACCCCACGCTGGCTGGCGGCACTCTATGCCGAGCCGATGAAGCTGGGTCTTGATCTGCGCGGCGGCGTGCACTTCCTGATGGAAGTCGACATGGACACCGCGTTAGGCAAACTGCAGGAACAGAACATCGATAGCCTGCGCAGCGAGCTGCGCGACAAAGGCATTCCTTACGCGACCGTGCGTAAGGAAGACAACTATGGTCTGAGCATCGTCTTCCGCGACAGCGCGGCGCGCGACCAGGCTATCTCTTATCTCAGCCCTCGCCATCGCGATCTGGTGATCTCCTCTCAGGGTGACAACAGCCTGAAAGCGGTGATGACCGATGAGCGCCTGAAAGAAGCTCGTGAGTATGCGGTCCAGCAGAACATTAACATTCTGCGTAACCGTGTGAACCAGCTGGGCGTCGCCGAACCGCTGGTTCAGCGTCAGGGCGCTGACCGCATCGTGGTTGAGCTGCCGGGTATCCAGGATACCGCGCGGGCGAAGGAGATCCTTGGCGCGACCGCGACCCTCGAGTTCCGTCTGGTCAATACCAACGTGGACCAGTCCGCCGCCGCCTCAGGCCGCGTGCCGGGCGACTCGGAAGTGAAAGAGACGCGTGAAGGCCAGCCGGTGGTGCTGTACAAGCGGGTGATCCTGACCGGTGACCATATCACCGACTCGACCTCCAGCATGGATGAGTACAACCAGCCGCAGGTCAACATCTCGCTGGACAGCGCGGGCGGCAACATCATGTCCAACTTCACCAAGGACAACATCGGCAAGCCGATGGCGACCCTGTTCGTGGAGTATAAAGACAGCGGTAAGAAAGACGCCAACGGTCGCGCTATCCTGGCGAAAGAGGAAGAGGTGATTAACATCGCCAACATCCAGTCGCGCTTGGGCAACAGCTTCCGTATTACCGGTATCAGCAACCCGAACGAAGCTCGCCAGCTGTCGCTGCTGCTGCGTGCCGGCGCGTTGATTGCGCCGATTCAGATCGTCGAAGAGCGGACTATCGGCCCAACCCTTGGCATGCAGAACATCAAGCAGGGTCTGGAAGCCTGTCTGGCCGGTCTGGTGGTCTCTATCCTGTTCATGATCCTCTTCTATAAGAAGTTCGGTCTGATTGCGACCTCGGCGCTGATTGCCAACCTGGTGCTGATTGTCGGCATTATGTCCCTGATCCCGGGGGCGACGCTGACCATGCCGGGCATCGCGGGTATCGTGTTAACCCTTGCGGTGGCGGTCGATGCTAACGTTCTGATCAACGAGCGTATCAAAGAAGAGCTGAGCAACGGGCGTACCGTTCAGCAGGCGATTGACGAAGGTTATCGCGGCGCGTTCAGCTCGATCTTCGACGCCAACGTGACGACGCTTATCAAAGTGATCATCCTGTACGCGGTCGGTACCGGTGCCATTAAAGGGTTTGCGATTACCACCGGTATCGGTATCGCGACCTCAATGTTTACCGCTATCGTCGGCACCCGTGCCATCGTGAACCTGCTGTACGGCGGCAAGCGCGTTAAAAAGCTGTCTATCTGA	MLVVVIVVGLIYALPNLYGEDPAVQITGARGVAASEQTLIQVQKTLQEEKITAKSVALEEGAILARFDTTDTQLRAREALLTVLGDKYVVALNLAPATPRWLAALYAEPMKLGLDLRGGVHFLMEVDMDTALGKLQEQNIDSLRSELRDKGIPYATVRKEDNYGLSIVFRDSAARDQAISYLSPRHRDLVISSQGDNSLKAVMTDERLKEAREYAVQQNINILRNRVNQLGVAEPLVQRQGADRIVVELPGIQDTARAKEILGATATLEFRLVNTNVDQSAAASGRVPGDSEVKETREGQPVVLYKRVILTGDHITDSTSSMDEYNQPQVNISLDSAGGNIMSNFTKDNIGKPMATLFVEYKDSGKKDANGRAILAKEEEVINIANIQSRLGNSFRITGISNPNEARQLSLLLRAGALIAPIQIVEERTIGPTLGMQNIKQGLEACLAGLVVSILFMILFYKKFGLIATSALIANLVLIVGIMSLIPGATLTMPGIAGIVLTLAVAVDANVLINERIKEELSNGRTVQQAIDEGYRGAFSSIFDANVTTLIKVIILYAVGTGAIKGFAITTGIGIATSMFTAIVGTRAIVNLLYGGKRVKKLSI	PGPT0029260_1160	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0029260-secD-K03072	NA	NA
BMS020_03441	972	secF_1	COG0341	Protein translocase subunit SecF	GTGGCACAGGAATATACTGTTGAACAATTGAACCACGGCCGTAAAGTCTGGGACTTTATGCGCTGGGACTACTGGGCCTTCGGCATTTCAGGCTTTCTGCTGATTGTGTCGATCGCCATCATCGGCGTCCGCGGCTTTAACTGGGGTCTCGATTTCACCGGCGGTACGGTGATCGAAATTACCCTTGAGAAGCCGGTCGATTTGGACCAGATGCGCGATTCCCTGCAGAAAGCGGGCTTTGAAGAGCCGCAGGTGCAGAACTTTGGCAGCAGCCGCGACATCATGGTACGTATGCCGCCGGTGCATGACGCCAACGTCAGCCAGGAGCTGGGCAGCAAGGTCGTGACGGTGATTAACGAATCGACCAGTCAGAACGCGGCGGTGAAGCGTATTGAGTTTGTCGGCCCGAGCGTCGGCGCGGACCTTGCGCAAACCGGCGCCCTGGCGCTGATTGCCGCGCTGGTCTGTATCCTGATCTACGTCGGCTTCCGCTTCGAATGGCGTCTGGCGGCGGGAGTGGTTATCGCCCTGGCGCACGACGTGGTGATCACCATGGGGGTGCTGTCGCTATTCCATATCGAGATCGACCTGACCATTGTGGCCTCGTTGATGTCGGTTATCGGCTACTCGCTGAACGACAGTATCGTGGTATCGGACCGTATCCGTGAAAACTTCCGTAAGATCCGCCGCGGTACGCCGTACGAGATCTTCAACGTGTCGTTGACCCAGACGCTGCACCGTACCTTGATCACCTCCGGGACCACCCTGATGGTGATCCTGATGCTGTTCCTGTTCGGCGGCCCGATTCTGGAAGGCTTCTCGCTGACCATGCTGATCGGTGTCTCCATCGGTACGGCTTCTTCTATCTACGTCGCCTCCGCGCTGGCGTTGAAGCTGGGCATGAAGCGCGAGCATTTGCTGCAGCAGAAGGTCGAAAAAGAAGGGGCGGACCAGCCGTCTATTCTGCCGTAA	MAQEYTVEQLNHGRKVWDFMRWDYWAFGISGFLLIVSIAIIGVRGFNWGLDFTGGTVIEITLEKPVDLDQMRDSLQKAGFEEPQVQNFGSSRDIMVRMPPVHDANVSQELGSKVVTVINESTSQNAAVKRIEFVGPSVGADLAQTGALALIAALVCILIYVGFRFEWRLAAGVVIALAHDVVITMGVLSLFHIEIDLTIVASLMSVIGYSLNDSIVVSDRIRENFRKIRRGTPYEIFNVSLTQTLHRTLITSGTTLMVILMLFLFGGPILEGFSLTMLIGVSIGTASSIYVASALALKLGMKREHLLQQKVEKEGADQPSILP	PGPT0029265_1264	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0029265-secF-K03074	NA	NA
BMS020_03442	366			hypothetical protein	ATGAATAACGTGATTAACTGGTTTGAAATTCCGGTCGCCGATATGGATCGCGCCGTCGCGTTTTATGAGCCGGTGATGCAGGTGACGCTGCGTCGCGAAACCATGGACTGCGCCGAGCTGGCGGTGTTCCCGCATCAGGATCCGGCCCCCGGCGGCGCGCTGGCCAAATTTGAGGGTATCGCGCCCTCTGCGCAGGGCGCTATTATTTACCTGCATACAGACCATCTTGCCGCCACCCTCGACCGCGTTGCCTCGGCGGGTGGGGCATGCGTTTTCGGGCCGCTGACGCTGCCGAATGATATTGGCACCATCGCGCTGTTTACTGACAGCGAGGGCAACCGCGTCGGCCTGCACCAACCGGCTTAA	MNNVINWFEIPVADMDRAVAFYEPVMQVTLRRETMDCAELAVFPHQDPAPGGALAKFEGIAPSAQGAIIYLHTDHLAATLDRVASAGGACVFGPLTLPNDIGTIALFTDSEGNRVGLHQPA	PGPT0013170_395	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS020_03443	696			hypothetical protein	ATGACCCGACGCGCCGACCGTTTATTTCAGATTGTGCAGATCCTGCGCGGCAGGCGGCTCACCACCGCCGCGCTGCTGGCGGAGCGGCTGGGCGTGTCGGAGCGCACCGTGTATCGCGATATTCGCGATCTCTCCCTCTCCGGCGTGCCGGTGGAGGGCGAGGCGGGGAGTGGTTATCGCCTGCTGGCGGGCTACGATCTGCCGCCGCTGATGCTGACCACCAAAGAATCCGAAGCGCTGATCGCCGCGATCCGGCTGCTGAAAACCTGGGGCGGCGAGGCGCTGTCGTACTCGCTGGAGTCTGCCCAGGAGAAGATGCTGGCGATCCTGCCGGAGGCGCGCCGGCGCCAGGCGGAGCAGACCCGCCTGTTTGCCCCGGATCTCGGCGCCCATCGCTATGCCAAAACCTTCTTTGACGTCATTCATCAGGCGGTCTCCGGCCAGCAGGTGCTGGCGCTGCGCTATCAGGATGAGTCCGGTCGGGTGACCGAGCGCGACGTGCTGCCGCTGGGGCTGTTTTTCTGGGGGGAGCGCTGGCTGCTGGTGGCCTGGTGCGAGCTGCGCAATGATTATCGCAACTTTCGCCTCGACCGCTGTCTGGCGGTCAGGGCGACCGAGCGTCGATTCAGCGAGTGCGCCGACCGCTCGTTAAGCGATTTTCTGCGCAAGGTCCGCTGCGACGTGTGGGAGAAATAA	MTRRADRLFQIVQILRGRRLTTAALLAERLGVSERTVYRDIRDLSLSGVPVEGEAGSGYRLLAGYDLPPLMLTTKESEALIAAIRLLKTWGGEALSYSLESAQEKMLAILPEARRRQAEQTRLFAPDLGAHRYAKTFFDVIHQAVSGQQVLALRYQDESGRVTERDVLPLGLFFWGERWLLVAWCELRNDYRNFRLDRCLAVRATERRFSECADRSLSDFLRKVRCDVWEK				NA	NA	NA	NA	NA
BMS020_03444	885	tsx	COG3248	Nucleoside-specific channel-forming protein Tsx	ATGAAAAAAACATTACTGGCAGCGGGTGCGGTTGTGGCGCTCTCCACTTCTTTTACCGCGGGCGCGGCAGAAAACGACAAACCGCAGTATCTGTCTGACTGGTGGCACCAGAGTGTTAACGTGGTGGGCAGCTACCACACCCGTTTTGGACCGCAGATCCGTAACGATACCTACCTGGAATACGAAGCGTTCGCCAAAAAAGACTGGTTTGATTTCTACGGTTATATTGATGCCCCGGTATTCTTCGGCGGCAACAGCACGGCAAAAGGTATCTGGAACAACGGCTCCCCGCTGTTTATGGAGATCGAACCGCGCTTCTCTATCGATAAGCTGACCAACACCGACCTGAGCTTCGGGCCGTTCAAAGAGTGGTATTTCGCGAACAACTATATCTACGATATGGGCCGCAATGACTCCCAGGAGCAGAGCACCTGGTATATGGGTCTGGGTACCGATATCGACACCGGCCTGCCGATGAGCCTGTCGCTGAACGTCTACGCCAAATACCAGTGGCAGAACTACGGCGCGTCCAACGAAAACGAGTGGGACGGCTACCGCTTCAAAGTGAAATACTTTGTGCCGCTGACCGACCTGTGGGGCGGTTCGCTGAGCTACATCGGCTTCACCAACTTCGACTGGGGCTCTGACCTCGGCGATGACAACTTCTACGATCTGAACGGGAAGCACGCGCGCACCAGCAACTCCATCGCCTCCAGCCATATCCTGGCGCTGAACTACGCGCACTGGCACTACTCGGTGGTGGCCCGTTACTTCCATAACGGCGGCCAGTGGGCTGACGATGCCAAGCTGAACTTCGGCGATGGCGATTTCAGCGTCCGCTCAACCGGTTGGGGTGGTTACTTCGTGGTTGGTTACAACTTCTGA	MKKTLLAAGAVVALSTSFTAGAAENDKPQYLSDWWHQSVNVVGSYHTRFGPQIRNDTYLEYEAFAKKDWFDFYGYIDAPVFFGGNSTAKGIWNNGSPLFMEIEPRFSIDKLTNTDLSFGPFKEWYFANNYIYDMGRNDSQEQSTWYMGLGTDIDTGLPMSLSLNVYAKYQWQNYGASNENEWDGYRFKVKYFVPLTDLWGGSLSYIGFTNFDWGSDLGDDNFYDLNGKHARTSNSIASSHILALNYAHWHYSVVARYFHNGGQWADDAKLNFGDGDFSVRSTGWGGYFVVGYNF				NA	NA	NA	NA	NA
BMS020_03445	540	yajI		putative lipoprotein YajI	ATGACAAGACGTTACCTGAAACTCGCCATCGCGGGCAGCCTGTTTACCCTGACCGCCTGCGCCCAGCAAAGCGAAATCCGCCAGATGCACCAGAGCGTGAGTACGCTGAGCCAGGAGATGACCCAGCTCAATCAGCAAACGATCAAAATTACCCAGCAAAACGCGCTGAACGCGAAATCCACCCGCGGCGTCTATCTGCTGCCGGAGGCGAAAACCCCGGCGCGGCTGGAGAGCCAGATCGGCACCCTGCGCATGTCGGTGGCGAGCATTACGCCGGATGGCGACGGGTCACGCCTGACCTTACGTATTCAGGGCGAATCCAACGATCCGCTGCCGGCCTTTACCGCCACCGTCGCCTCCGGACAGATCACCGGCACTACCCACAGCTACCAGGAAGTGAATGTTCAGGATCAATTGATCAGCGCCCCGGCCAGCATTCTCGCCCCCAGCGATGTCGATATCCCGCTGCGCCTGAACGTGACGCCGGACAAAGTCGGTTTTATTCGCGTCCACGATATCCAGCCAGCCGCCGCGCAGTAA	MTRRYLKLAIAGSLFTLTACAQQSEIRQMHQSVSTLSQEMTQLNQQTIKITQQNALNAKSTRGVYLLPEAKTPARLESQIGTLRMSVASITPDGDGSRLTLRIQGESNDPLPAFTATVASGQITGTTHSYQEVNVQDQLISAPASILAPSDVDIPLRLNVTPDKVGFIRVHDIQPAAAQ				NA	NA	NA	NA	NA
BMS020_03446	450	nrdR_1	COG1327	Transcriptional repressor NrdR	ATGCATTGCCCTTTCTGTTTCGCCGTGGATACCAAAGTGATCGACTCTCGTCTGGTAGGGGAAGGCTCTTCCGTGCGTCGCCGTCGGCAGTGTCTGGTCTGTAATGAGCGCTTTACCACCTTCGAAGTGGCGGAGCTGGTCATGCCGCGGGTGGTGAAGAGTAACGATGTGCGTGAACCCTTCAACGAAGACAAGCTGCGCAGTGGGATGCTGAAAGCGCTGGAGAAACGTCCGGTCAGCGCCGATGACGTCGAAATGGCGGTCAACCATATCAAAACCCATCTGCGCGGCACCGGCGAGCGCGAAGTGGCCAGCAAAATGATCGGCAACCTGGTGATGGAGCAGCTGAAAAAACTGGATAAAGTCGCCTATATTCGCTTCGCGTCGGTCTATCGCAGCTTCGAAGATATCAAAGAATTCGGCGAAGAGATCGCCCGCTTACAGGACTAA	MHCPFCFAVDTKVIDSRLVGEGSSVRRRRQCLVCNERFTTFEVAELVMPRVVKSNDVREPFNEDKLRSGMLKALEKRPVSADDVEMAVNHIKTHLRGTGEREVASKMIGNLVMEQLKKLDKVAYIRFASVYRSFEDIKEFGEEIARLQD				NA	NA	NA	NA	NA
BMS020_03447	1104	ribD_1	COG0117	Riboflavin biosynthesis protein RibD	ATGCAGGACGAAATGTACATGGCGCGTGCGCTCAAGCTCGCCGCCCGCGGTCGCTTTACCACCCATCCTAACCCTAACGTTGGCTGCGTCATTGTCAAAGACGGCGAGATCGTCGGCGAAGGGTTCCACTATCGCGCCGGCGAGCCGCATGCCGAAGTGCACGCCTTGCGGATGGCCGGGGAAAAGGCGCGCGGCGCCACCGCCTACGTCACCCTCGAGCCCTGCAGCCACCACGGTCGTACGCCGCCGTGCTGCGACGCCCTGATTGCCGCCGGCGTCAGCCGCGTGGTCGCCGCGATGCAGGATCCGAACCCGCAGGTGGCGGGGCGCGGCCTGTACCGTCTGCAGCAGGCCGGTATTGACGTCAGCCACGGGCTGATGATGAACGAGGCGGAAGCGCTGAATAAGGGCTTCCTGAAGCGGATGCGCACCGGTTTTCCCTGGGTCCAGCTCAAGCTGGGCGCCTCGCTGGACGGCCGCACGGCGATGGCCAGCGGCGAAAGCCAGTGGATCACCTCCCCGCAGGCGCGACGCGACGTGCAGCGTTTGCGCGCCCAGAGCCATGCTATCCTGACCAGCAGCGCCACCGTGCTGGCGGACGATCCGGCGCTGACCGTGCGCTGGCAGGAGCTGAGCGCCGATACCCAGGCGCTGTATCCCGAAGCGAATTTGCGCCAGCCGCTGCGCGTCGTTATCGACAGCCAGAACCGCGTCACGCCCGAGCATCGTATTGTGCAGCAGGCGGGGGAAACGCTGTTTGCCCGCCTGAGCGCCGATGAGCGCCAGTGGCCGGACAGCGTGCGCACGCTGCTGGTTCCGGAACATAACGGCCATCTCGATCTGGTGCTGCTGATGATGCTGCTCGGCAAACAGCAGATCAACAGCGTCTGGGTGGAGGCGGGGGCCACGCTTGCCGGGGCGCTGCTGCAGGCGGGCCTGGTCGACGAGCTTATCGTCTATATTGCGCCTAAACTGTTAGGCAATGCGGCGCGTGGATTATGCGCGCTGCCGGGGCTTGAAGAACTGAGTCAGGCGCCCCATTTCAAATTCAATGAGATACGTCAGGTTGGCCCGGATGTCTGCCTGCATTTAACCACTGCGTGA	MQDEMYMARALKLAARGRFTTHPNPNVGCVIVKDGEIVGEGFHYRAGEPHAEVHALRMAGEKARGATAYVTLEPCSHHGRTPPCCDALIAAGVSRVVAAMQDPNPQVAGRGLYRLQQAGIDVSHGLMMNEAEALNKGFLKRMRTGFPWVQLKLGASLDGRTAMASGESQWITSPQARRDVQRLRAQSHAILTSSATVLADDPALTVRWQELSADTQALYPEANLRQPLRVVIDSQNRVTPEHRIVQQAGETLFARLSADERQWPDSVRTLLVPEHNGHLDLVLLMMLLGKQQINSVWVEAGATLAGALLQAGLVDELIVYIAPKLLGNAARGLCALPGLEELSQAPHFKFNEIRQVGPDVCLHLTTA	PGPT0008555_2240	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
BMS020_03448	471	ribE_1	COG0054	6,7-dimethyl-8-ribityllumazine synthase	ATGAACATTATTGAAGCTAACGTTGCTACCCCGGACGCTCGCGTCGCCATCACCATTGCGCGTTTCAACAACTTTATCAATGACAGCCTGCTGGAAGGTGCGATTGACGCCCTGAAACGCATTGGTCAGGTAAAAGATGAAAACATCACCGTTGTTTGGGTTCCAGGCGCGTACGAGCTGCCGCTGGCGGCTGGCGCACTGGCGAAAACCGGTAAATATGACGCGGTGATTGCGCTGGGTACGGTGATTCGCGGCGGTACCGCCCACTTTGAATATGTGGCTGGCGGTGCCAGCAATGGCCTGGCGCACGTCGCTCAGGACAGCGAAATCCCGGTAGCCTTTGGTGTTCTGACCACTGAAAGTATTGAACAAGCCATCGAGCGCGCTGGCACCAAAGCCGGTAACAAAGGCGCAGAAGCTGCGCTGACCGCGCTGGAAATGATTAACGTATTGAAAGCCATCAAGGCCTGA	MNIIEANVATPDARVAITIARFNNFINDSLLEGAIDALKRIGQVKDENITVVWVPGAYELPLAAGALAKTGKYDAVIALGTVIRGGTAHFEYVAGGASNGLAHVAQDSEIPVAFGVLTTESIEQAIERAGTKAGNKGAEAALTALEMINVLKAIKA	PGPT0008605_2626	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
BMS020_03449	420	nusB_1	COG0781	Transcription antitermination protein NusB	GTGAAACCTGCTGCTCGTCGCCGCGCCCGTGAGTGTGCCGTTCAGGCGCTCTACTCCTGGCAGTTGTCCCACAACGACATCGCTGATGTCGAATACCAGTTCCTGGCGGAACAGGACGTAAAAGATGTTGATGTTCTGTATTTCCGCGAACTGCTGTCCGGAGTGGCGACTAACAGCGCGTACCTCGACGGCCTGATGAAGCCCTACCTGTCCCGTCAGCTGGAAGAGCTGGGTCAGGTGGAAAAAGCGGTGCTGCGTATCGCGCTGTTTGAGCTATCCAAACGTGATGACGTACCGTATAAAGTGGCCATCAATGAAGCTATCGAACTGGCGAAAACCTTCGGCGCTGAAGATAGCCACAAGTTCGTCAACGGCGTGCTGGACAAAGCGGCTCCGGTAATTCGTCCCCACAAGAAGTAA	MKPAARRRARECAVQALYSWQLSHNDIADVEYQFLAEQDVKDVDVLYFRELLSGVATNSAYLDGLMKPYLSRQLEELGQVEKAVLRIALFELSKRDDVPYKVAINEAIELAKTFGAEDSHKFVNGVLDKAAPVIRPHKK	PGPT0009010_3	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0009010-thiL-K00946	NA	NA
BMS020_03450	972	thiL_1	COG0611	Thiamine-monophosphate kinase	ATGGCATGTGGCGAATTCTCCCTGATTGCCCGTTATTTTGATCGCGTTAAAAGCGCTCGTCTTGATGTCGAAACCGGTATCGGCGACGACTGCGCTCTCCTGAATATTCCCGAGAAAAAAACGCTGGCAATCAGCACCGACACTCTGGTGGCGGGCAATCACTTCTTACCCGATATCGACCCGGCCGACCTCGCCTATAAAGCGCTGGCGGTAAACCTGAGCGACCTCGCGGCGATGGGCGCGGAGCCGGCGTGGCTCACCCTGGCGCTGACCTTGCCGGAGGTGGATGAAGCCTGGCTGGAAGCCTTCAGCGACAGCCTGTTTGTCCAGCTTGACTACTACGATATGCAGCTGATTGGCGGCGACACCACCCGCGGCCCGCTCGCCATGACCCTGGGTATCCACGGCTTTGTGCCGCCAGGGCGCGCCATGAAACGTTCAGGCGCGAAGCCGGGAGACTGGATCTATGTCACCGGCACTCCAGGGGACAGCGCCGCCGGCCTGGCGCTGTTGCAGAACCGTCTGACGGTGGATGCGCCGACGGATGCCGATTACCTGCTGGCCCGTCACCTGCGTCCGATGCCCCGCGTGCTGCAGGGCCAGGCGCTGCGCGACCTGGCGACGTCGGCCATCGATCTCTCCGACGGCCTGATCTCCGATCTGGGTCATATTCTCAAAGCCAGCGACTGCGGCGCGCGCATCGATCTTGATGCCATGCCGTACTCTGACGCCATGCTGCGCCAGGTTGAGCCCGAGCAGGCGCTGCGCTGGGCGCTCGCAGGTGGAGAAGATTACGAACTGTGCTTTACCGTACCGGAACTGAACCGCGGGGCGTTGGACGTGGCCCTTGGCCATCTAGGCGCGCGTTTTACCTGTATCGGACAGATTGCGCCGGAGAGCGAAGGTTTGCAGTTTATCCGTGACGGTAAGCCGGTCATGCTTGATTTAAAGGGATACGATCACTTTGCGTAG	MACGEFSLIARYFDRVKSARLDVETGIGDDCALLNIPEKKTLAISTDTLVAGNHFLPDIDPADLAYKALAVNLSDLAAMGAEPAWLTLALTLPEVDEAWLEAFSDSLFVQLDYYDMQLIGGDTTRGPLAMTLGIHGFVPPGRAMKRSGAKPGDWIYVTGTPGDSAAGLALLQNRLTVDAPTDADYLLARHLRPMPRVLQGQALRDLATSAIDLSDGLISDLGHILKASDCGARIDLDAMPYSDAMLRQVEPEQALRWALAGGEDYELCFTVPELNRGALDVALGHLGARFTCIGQIAPESEGLQFIRDGKPVMLDLKGYDHFA	PGPT0009010_2156	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0009010-thiL-K00946	NA	NA
BMS020_03451	468	pgpA	COG1267	Phosphatidylglycerophosphatase A	ATGCGTAATCCGTGGCATCTGCTGGCGACCGGCTTTGGCAGCGGCTTAAGCCCGGTGGTGCCGGGGACGATGGGCTCGCTGGCGGCGATCCCGTTCTGGTATCTGATGACTTTTCTCCCCTGGCAGCTCTACTCGCTGGTGGTGATGATGAGCATCTGTATCGGAGTCTATCTGTGCCATCGCACGGCCAAAGATATGGGCACCCATGACCACGGCAGCATCGTCTGGGACGAGTTCGTCGGGATGTGGATCACCCTGATGGCGCTGCCGACCCTGGACTGGCAGTGGGTGGCCGCCGGCTTCGTCATTTTCCGTATTTTCGATATGTGGAAACCGTGGCCGATTCGCTGGTTTGACCGCAATATTCACGGTGGAATGGGGATCATGGTGGACGATATCGTCGCCGGGGTGATCTCCGCCGGCGTGCTGTATGTTATTGGCCATCACTGGCCGATCGGTCTGCTTTGA	MRNPWHLLATGFGSGLSPVVPGTMGSLAAIPFWYLMTFLPWQLYSLVVMMSICIGVYLCHRTAKDMGTHDHGSIVWDEFVGMWITLMALPTLDWQWVAAGFVIFRIFDMWKPWPIRWFDRNIHGGMGIMVDDIVAGVISAGVLYVIGHHWPIGLL	PGPT0007710_643	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATASE_ACTIVITY,PGPT0007710-pgpA-K01095	NA	NA
BMS020_03452	975	yajO_4	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGCACTATATCCCCCTCGGCGATACTGCCTTACGTGTTTCCCGACTCTGCCTCGGCTGCATGACCTTCGGCGAGCCGGACCGCGGCAGGCACGCCTGGACGCTTCCGGAAGAGAGCAGTCGCCCGCTCATTCAGCACGCCATTGAAGGCGGCATCAACTTCTTCGATACCGCAAACAGCTACTCCGACGGCAGCAGCGAAGAGATCGTCGGCCGCGCCCTGCGCGACTTTGCCCGCCGCGATGAGGTGATTGTCGCCACCAAGGTCTATCACCAGGTCGGCGATCTGGCGGAAGGGCTTTCCCGGGCGCAGATCCTGCGCTCCATCGACGACAGCCTGCGCCGTCTCGGGATGGACTATGTCGACCTGCTGCAGATCCACCGCTGGGACTACAGCACCCCGATTGAAGAGACGCTCGAAGCGCTGGACGAGGTGGTGAAAGCCGGCAAAGCGCGCTATATCGGCGCCTCGTCCATGCATGCCCGGCAGTTTGCCCAGGCGCTGGCGCTTCAGCAGCAGAACGGCTGGGCGCGCTTCGTCACCATGCAGGATCACTACAACCTGATTTACCGGGAAGAAGAGAATGAGATGCTGCCCCTGTGCCAGCGTAACGGCGTGGCGGTGATCCCGTGGAGCCCGCTGGCGCGCGGCAGACTGACCCGCCCATGGGGTGAGACCACCGCCCGGCTGGTCTCGGATGAGTTCGGCAAATCGCTTTACAGCACCAGCGAAGAGAACGACGCGCAGATCGCCGGGAATCTCGCGGACGTGGCGGAAGAGCTCGACGCCAGTCGCGCGCAGGTCGCCCTCGCCTGGCTGTTAAGCAAGCCCGGCGTCGCCGCGCCGATTATCGGTCCGTCGCGCCAGGAGCAGCTCGATGACCTGCTGCAGGCGGTGGATTTGACGCTATCTTCGGAACAGATCGACAAACTGGAGGCGCCCTATCAGCCGCATCCGGTGGTGGGATTTAAGTGA	MHYIPLGDTALRVSRLCLGCMTFGEPDRGRHAWTLPEESSRPLIQHAIEGGINFFDTANSYSDGSSEEIVGRALRDFARRDEVIVATKVYHQVGDLAEGLSRAQILRSIDDSLRRLGMDYVDLLQIHRWDYSTPIEETLEALDEVVKAGKARYIGASSMHARQFAQALALQQQNGWARFVTMQDHYNLIYREEENEMLPLCQRNGVAVIPWSPLARGRLTRPWGETTARLVSDEFGKSLYSTSEENDAQIAGNLADVAEELDASRAQVALAWLLSKPGVAAPIIGPSRQEQLDDLLQAVDLTLSSEQIDKLEAPYQPHPVVGFK	PGPT0017540_974	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
BMS020_03453	1863	dxs_1	COG1154	1-deoxy-D-xylulose-5-phosphate synthase	ATGAGTTTTGATATTGCCAAATACCCGACCCTGGCGCTGGTAGATTCCACCCAGGAGTTGCGCCTGTTGCCAAAAGAGAGCCTGCCGAAGCTGTGTGATGAGCTGCGGCGCTACCTGCTGGACAGCGTCAGCCGCTCCAGCGGTCACTTTGCCTCTGGCCTCGGCACCGTGGAACTGACCGTGGCGCTGCACTACGTCTATAACACGCCCTTCGATCGCCTGATCTGGGACGTCGGCCACCAGGCCTACCCGCATAAAATTCTGACCGGCCGCCGCGACAAAATCGGCACCATTCGCCAGAAAGGCGGCCTGCACCCCTTCCCGTGGCGCGGTGAGAGCGAGTACGACGTACTGAGCGTCGGTCACTCCTCCACCTCCATTTCCGCTGGCATCGGGGTGGCTATCGCCGCCGCGAAAGAGGATAAGCAGCGGCGCGCGGTGTGCGTGATTGGCGACGGGGCGATCACCGCCGGCATGGCGTTTGAGGCGATGAACCACGCCGGAGATATCAAACCCGATCTGCTGGTGGTGCTGAATGACAATGAAATGTCGATCTCTGAGAACGTCGGCGCGCTGAACAATCATCTGGCGCAGCTGCTCTCCGGTAAGCTCTACTCCACCCTGCGCGAAGGCGGCAAAAAGGTCTTCTCCGGCGTACCGCCGATTAAAGAGCTGCTTAAGCGGACCGAAGAGCATATCAAAGGCATGGTGGTGCCAGGGACGCTGTTTGAAGAGCTGGGCTTTAACTACATCGGCCCGGTGGATGGCCACGATGTGCTCGGTCTGGTCAGCACTCTGAAGAACATGCGCGACCTGAAGGGCCCGCAGTTCCTGCATATTATGACCAAAAAAGGCCGCGGCTATGAGCCCGCCGAGAAAGACCCGATCACTTTCCACGCGGTGCCGAAGTTCGACCATACCAGCGGCGTGCTGCCCAAAAGCAGCGGCGGTCTCCCCTCCTACTCGAAAATCTTCGGCGACTGGCTGTGCGAAACGGCGGCCAAAGACAGCAAGCTGATGGCTATCACCCCGGCGATGCGCGAAGGATCAGGGATGGTGGAATTTTCGAAGAAATTCCCCGATCAGTACTTTGACGTCGCCATCGCCGAGCAGCATGCGGTCACTTTCGCCGCCGGACTGGCGATTGGCGACTACAAGCCCGTCGTCGCCATCTACTCCACGTTCCTGCAGCGAGCCTACGATCAGGTGATCCACGATGTGGCTATTCAGAAGCTGCCGGTGCTGTTTGCCATCGACCGCGCCGGGATTGTCGGCGCAGACGGCCAGACGCATCAGGGTGCGTTCGATCTCTCCTTCCTGCGCTGTATTCCGGATATGGTGGTGATGACGCCGAGCGATGAAAATGAATGCCGCCAGATGCTGCACACCGGCTACCACTACAGCGACGGACCCTGCGCGGTGCGCTATCCGCGCGGCAGCGGCACCGGCGCGACGCTGGAGCCGCTGGCATCGCTGCCGATCGGCAAAGGGGTCGTGAAGCGCCAGGGCGAGAAGGTCGCGATCCTTAACTTCGGCACCCTGCTGCCGGAAGCCGCGGCGGTGGCGGACAAACTCAACGCCACCCTGGTGGATATGCGCTTTGTGAAGCCGCTGGATACCGCGCTGATCCTGCAGCTGGCAGGCGAGCACGACGTTCTGGTGACGCTGGAAGAGAACGCCATTATGGGCGGCGCCGGCAGCGGCGTGAATGAAGTGCTGATGGCCCATCGCCGGGCGGTACCGGTACTCAATATTGGCCTGCCGGATGTCTTTATTCCGCAGGGCACTCAGGAAGAGATCCGCGCCGACCTCGGCCTTGATGCCGCCGGCATTGAAGCCAAAATCCTCGACTGGCTGGCATAA	MSFDIAKYPTLALVDSTQELRLLPKESLPKLCDELRRYLLDSVSRSSGHFASGLGTVELTVALHYVYNTPFDRLIWDVGHQAYPHKILTGRRDKIGTIRQKGGLHPFPWRGESEYDVLSVGHSSTSISAGIGVAIAAAKEDKQRRAVCVIGDGAITAGMAFEAMNHAGDIKPDLLVVLNDNEMSISENVGALNNHLAQLLSGKLYSTLREGGKKVFSGVPPIKELLKRTEEHIKGMVVPGTLFEELGFNYIGPVDGHDVLGLVSTLKNMRDLKGPQFLHIMTKKGRGYEPAEKDPITFHAVPKFDHTSGVLPKSSGGLPSYSKIFGDWLCETAAKDSKLMAITPAMREGSGMVEFSKKFPDQYFDVAIAEQHAVTFAAGLAIGDYKPVVAIYSTFLQRAYDQVIHDVAIQKLPVLFAIDRAGIVGADGQTHQGAFDLSFLRCIPDMVVMTPSDENECRQMLHTGYHYSDGPCAVRYPRGSGTGATLEPLASLPIGKGVVKRQGEKVAILNFGTLLPEAAAVADKLNATLVDMRFVKPLDTALILQLAGEHDVLVTLEENAIMGGAGSGVNEVLMAHRRAVPVLNIGLPDVFIPQGTQEEIRADLGLDAAGIEAKILDWLA	PGPT0008960_4164	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
BMS020_03454	900	ispA_1	COG0142	Farnesyl diphosphate synthase	ATGGATTTCCCGCAACAATTGCAGGCCTGTGTGGAACAGGCTAACGAGGCGCTGCGCCGTTTTATCGCGCCGCAGCCCTTTCAGAACACTCCGCTGGTGGAAGCGATGCATTATGGCGCACTCTTAGGCGGTAAACGCCTGCGTCCCTTCCTTGTCTACGCTACCGGCGAGATGTTCGGCGTGAGCCGTACCACGCTGGACGCCCCTGCCGCCGCGGTCGAATGCATTCATGCTTATTCCCTGATGCATGATGATTTGCCGGCGATGGATGATGACGATCTGCGTCGCGGACTGCCGACCTGCCATATTAAATTTGGCGAAGCCAACGCAATTCTTGCGGGAGATGCCCTGCAAACGCTGGCGTTTTCTATACTCAGTGATGCGCCGATGACGGACGTCCCTGACCGGGATCGTCTGGCGATGGTTTCCGAACTGGCGCAGGCCAGCGGCGTGGCGGGCATGTGCGGCGGCCAGGCGCTGGATCTGCAGGCGGAAGGACAGCAGGTGAATCTGCAGGCGCTGGAGCGTATCCACCGCCACAAAACGGGCGCGCTGATCCGCGCCGCCGTCCGCATGGGGGCGCTGAGCGCTGGCGAACATGGGCGCGCCGCCCTTCCCGCGCTGGATCGCTATGCGGAAAATATCGGCCTGGCCTTCCAGGTCCAGGATGACATTCTCGACGTGGTAGGGGATACTGCGACCCTTGGCAAACGTCAGGGTGCCGACCAGCAATTGGGTAAAAGCACCTATCCCGCCCTCCTGGGCCTTGAGCAAGCCCGGAAGAAAGCGCACGACCTGATCGCTGATGCCCGCCGGTCGTTAGATGAACTGGCCGCACAATCTCTGGATACTTCGGCACTGGAAGCGCTCGCGAATTACATTATTCAGCGCGATAAATAA	MDFPQQLQACVEQANEALRRFIAPQPFQNTPLVEAMHYGALLGGKRLRPFLVYATGEMFGVSRTTLDAPAAAVECIHAYSLMHDDLPAMDDDDLRRGLPTCHIKFGEANAILAGDALQTLAFSILSDAPMTDVPDRDRLAMVSELAQASGVAGMCGGQALDLQAEGQQVNLQALERIHRHKTGALIRAAVRMGALSAGEHGRAALPALDRYAENIGLAFQVQDDILDVVGDTATLGKRQGADQQLGKSTYPALLGLEQARKKAHDLIADARRSLDELAAQSLDTSALEALANYIIQRDK	PGPT0007520_860	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007520-ispA-K00795	NA	NA
BMS020_03455	243	xseB_1	COG1722	Exodeoxyribonuclease 7 small subunit	ATGCCAAAGAAAAATGAGGCCCCGGCCAGCTTTGAAACTGCGCTGGGCGAACTGGAGCAGATCGTTAACCGTCTGGAAAGCGGCGATTTGCCGTTAGAAGAAGCGCTCAGCGAATTTGAGCGCGGGGTCCAGCTGGCCCGCCAGGGGCAAAGCCAGCTACAGCAGGCCGAACAGCGCGTGCAGATCCTGCTGGCGGATAGTGAAGATTCCCCGACCACGCCTTTTACGCCGGACGCTGAATAA	MPKKNEAPASFETALGELEQIVNRLESGDLPLEEALSEFERGVQLARQGQSQLQQAEQRVQILLADSEDSPTTPFTPDAE				NA	NA	NA	NA	NA
BMS020_03456	1449	thiI	COG0301	tRNA sulfurtransferase	ATGAAGTTTATCATTAAATTGTTCCCGGAAATCACCATCAAAAGCCAATCTGTGCGGTTGCGCTTCATTAAAATCTTAACCGGGAACATTCGTAACGTTCTCAAAAACTATGACGAGACGCTGGCCGTCGTTCGTCATTGGGATCATATCGAAGTTCGCGCGAAAGATGAAAATCAGCGCCCGGCTATTCGCGATGCGCTGACCCGTATTCCCGGCATCCACCATATTCTGGAAGTCGAAGACGTACCGTTCACCTCGCTGCACGATATTTTTGAGCAGACGCTGCCGCTGTGGCGCGAGGCGCTGGAAGGCAAAACCTTCTGCGTGCGGGTGAAGCGTCGCGGCAAACATGAATTCACCTCAATTGAGGTGGAGCGCTACGTCGGCGGCGGCCTGAATCAGCATATTGAAACGGCGCGCGTGAAGCTGACCGACCCGGACGTCACCGTCAATCTTGAGATTGAAAACGATCGCCTGCTGCTGGTGAAAGGCCGCTATGAAGGTATCGGCGGCTTCCCGATCGGCACGCAGGAAGATGTGCTGTCGCTGATTTCCGGCGGCTTTGACTCCGGCGTCTCCAGCTACATGCTGATGCGCCGCGGCTGCCGTGTGCACTACTGCTTCTTTAACCTTGGCGGCGCCGCCCATGAGATTGGCGTCCGCCAGGTCGCGCATTATCTGTGGAACCGCTTCGGCAGCTCGCACCGCGTTCGCTTTGTGGCGATTAACTTTGAGCCGGTGGTCGGCGAAATCCTCGAAAAAGTGGATGACGGTCAGATGGGCGTGGTGCTCAAGCGCATGATGGTCCGCGCCGCGTCAAAGGTCGCGGAACGCTACGGCGTGCAGGCGCTGGTCACCGGCGAAGCGCTGGGCCAGGTCTCCAGTCAGACTCTCACCAACCTGCGCCTGATCGACAACGTCTCCGATACCCTGATCCTGCGTCCGCTGATTTCGCACGATAAAGAGCACATCATCGACCTGGCCCGCGAGATCGGCACGGAAGATTTCGCCCGCACCATGCCGGAGTACTGCGGCGTGATCTCCAAAAGCCCGACCGTGAAGGCGGTGAAGGCGAAGATTGAAGCGGAAGAAGAACACTTCGATTTCAGCATCCTCGATAAAGTGGTGGAAGAGGCGAGCAATATCGATATTCGCGAAATCGCCCAGCAGACGGAAGAGACGGTGGTGGAAGTGGAAACCGTGACCGGCTTTGGCGCCAACGATGCGATCCTCGACATTCGCTCCATCGACGAGCAGGAAGACAAGCCGCTGAAGGTCGAGGGGGTTGAGGTCGTTTCCCTGCCGTTCTACAAGCTGAGCACCAAATTTGGCGATCTCGATCAGAGCAAAACCTGGCTGCTGTGGTGCGAACGCGGGGTGATGAGCCGTCTGCAGGCGCTTTATCTGCGCGAGCAGGGTTTCAGCAACGTAAAAGTTTATCGCCCGTAA	MKFIIKLFPEITIKSQSVRLRFIKILTGNIRNVLKNYDETLAVVRHWDHIEVRAKDENQRPAIRDALTRIPGIHHILEVEDVPFTSLHDIFEQTLPLWREALEGKTFCVRVKRRGKHEFTSIEVERYVGGGLNQHIETARVKLTDPDVTVNLEIENDRLLLVKGRYEGIGGFPIGTQEDVLSLISGGFDSGVSSYMLMRRGCRVHYCFFNLGGAAHEIGVRQVAHYLWNRFGSSHRVRFVAINFEPVVGEILEKVDDGQMGVVLKRMMVRAASKVAERYGVQALVTGEALGQVSSQTLTNLRLIDNVSDTLILRPLISHDKEHIIDLAREIGTEDFARTMPEYCGVISKSPTVKAVKAKIEAEEEHFDFSILDKVVEEASNIDIREIAQQTEETVVEVETVTGFGANDAILDIRSIDEQEDKPLKVEGVEVVSLPFYKLSTKFGDLDQSKTWLLWCERGVMSRLQALYLREQGFSNVKVYRP	PGPT0008940_467	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
BMS020_03457	477			hypothetical protein	ATGTCCCGAAGCGCAACCGATTCTCGCGATCTTGTTATCAGCCGCCTGCTCAGCGCGCCCGTCCCTGCCCTGTGGCGCGCGTGGGCCGACCCGGCATTACTCAAAACCTGGTGGTGCCCGAAGCCCTGGCAAACCGAGGTGCTGGCCTTTGATTTTCGCGCCGGCGGGGCCTTTCACACCGTGATGCACGGCCCTGACGGTGAACGCAGCGATAACCCCGGCTGTTTTCTTGAGGTTATCCCGCAACAAAAAATCGTCATGACCTCGATGCTGACGGCGGATTATCGTCCCGCCGTTTCCCCCTTCGCGATGACGGCCATCATCACCTTTGCCGATGAACAGGGCGGGTGTCGCTATACGGCCACGGTGCTGCATGCCGACGATGAAACCCGCGAGCAGCATGAGCAGATGGGATTTTTCGAGGGCTGGAATATTGTCATCGATCAGCTGAATGACCTGGCGCTGACCCTGCGCTAA	MSRSATDSRDLVISRLLSAPVPALWRAWADPALLKTWWCPKPWQTEVLAFDFRAGGAFHTVMHGPDGERSDNPGCFLEVIPQQKIVMTSMLTADYRPAVSPFAMTAIITFADEQGGCRYTATVLHADDETREQHEQMGFFEGWNIVIDQLNDLALTLR				NA	NA	NA	NA	NA
BMS020_03458	594	yajL	COG0693	Protein/nucleic acid deglycase 3	ATGAGCGCGTCGGCACTGATTTGCCTCGCCCCTGGTAGCGAAGAGACCGAAGCGGTCACCACCATCGACCTGCTGGTCCGCGGCGGAGTCAAAGTGACCACCGCCAGCGTCGCCAGCGACGGCAATCTGACCATCGTCTGCTCGCGCGGCGTCAAACTGCTGGCGGATGCCCCGCTGGTCGAGGTGGCCGATGGCGATTTCGATATCATCGTCCTCCCGGGCGGTATCAAGGGCGCAGAGTGCTTCCGCGACAGCCCGTTGCTGGTGGAAACCGTCCGACAGTTCCATCTCTCCGGGCGCATTGTGGCCGCCATCTGTGCCGCCCCGGCGACCGTGCTGGTGCCCCATCAGCTGTTCCCGATCGGCAACATGACCGGTTTTCCGGCGCTGAAGGATCATATCCCCGCCGATCAGTGGCAGGATAAACGGGTGGTCTGGGATCCACGGGTGAATCTATTAACCAGCCAGGCGCCGGGAACATCGATTGATTTCGCCCTGAAAATGATCGATCTGCTGGTGGGGCGCGAGAAAGCGTATGAGGTCGCCTCGCAGCTGGTGATGGCCGCCGGCATCTATAATTACTACGAAGCCTGA	MSASALICLAPGSEETEAVTTIDLLVRGGVKVTTASVASDGNLTIVCSRGVKLLADAPLVEVADGDFDIIVLPGGIKGAECFRDSPLLVETVRQFHLSGRIVAAICAAPATVLVPHQLFPIGNMTGFPALKDHIPADQWQDKRVVWDPRVNLLTSQAPGTSIDFALKMIDLLVGREKAYEVASQLVMAAGIYNYYEA	PGPT0008945_419	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B1|THIAMIN_METABOLISM	PLANT_VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008945-thiJ-K03152	NA	NA
BMS020_03459	912	panE_1	COG1893	2-dehydropantoate 2-reductase	ATGAAAGTAACCGTACTGGGATGCGGTGCACTGGGACAACTATGGCTGACCGCGTTGTGCAAACAGGGACATGAAGTCCAGGGCTGGTTACGCGTACCGCAGCCATTCTGTAGCGTCAACGTCATTGAAACCGACGGCTCGGTGTTCAACGAGTCGCTGACGGCCAACGACCCCGATTTTCTTGCCAGCAGCGAGCTGCTGATTGTCACCTTAAAAGCCTGGCAGGTTTCAAACGCGGTGAAGCACCTGGCCGCGATCCTGCCGGTCACCACGCCGATTGTGCTGGTGCATAACGGCATGGGAACCGTCGAGGAGCTGCGCAGCGTGAAACAGCCGTTGCTGCTGGCCTCCACCACCCAGGCGGCGCGCCGCGACGGGAATGTCATCATCCACGTCGCCCAGGGCACCACGCATATCGGGCCGGCGAAAAGCTACGAAGAGGACTACAGCTACCTCGCTGAAGTACTGCAGAGCGTGCTGCCGGATGTCGCCTGGCACAACAATATCTTCTCGGCCACCTGGCGCAAGCTGGCGGTTAACTGCGTGATTAACCCCCTGACCGCGCTAAAAGGATGTAAAAACGGCGATCTGCGCGACTATCCGCAGGAAGTTGCGGCCATTTGTCGCGAGGTGGCGGCAGTGATGGAGCGCGAAGGTATTCATACCTCGGCGGAAAACCTGCTATTTTATGTCGAACAGGTGATTGAAAGTACGGCAGAAAATATCTCATCCATGCTGCAGGACGTTCGCGCCCAGCGGCACACGGAGATCGACTATATCACCGGTTTTCTGCTCAACCGCGCCCGCGCCCACGGCGTTGCCGTACCGGAAAACGCCCGCTTATTTGAACTGGTCAAGCGTAAGGAGAATGAATATGAGCGCGTCGGCACTGATTTGCCTCGCCCCTGGTAG	MKVTVLGCGALGQLWLTALCKQGHEVQGWLRVPQPFCSVNVIETDGSVFNESLTANDPDFLASSELLIVTLKAWQVSNAVKHLAAILPVTTPIVLVHNGMGTVEELRSVKQPLLLASTTQAARRDGNVIIHVAQGTTHIGPAKSYEEDYSYLAEVLQSVLPDVAWHNNIFSATWRKLAVNCVINPLTALKGCKNGDLRDYPQEVAAICREVAAVMEREGIHTSAENLLFYVEQVIESTAENISSMLQDVRAQRHTEIDYITGFLLNRARAHGVAVPENARLFELVKRKENEYERVGTDLPRPW	PGPT0008745_4246	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
BMS020_03460	492			hypothetical protein	ATGCCATCTTTCGATATTGTCTCTGAAGTTGATCTTCAGGAAGCCCGTAACGCGGTGGACAACGCGAGCCGCGAAGTCGAGTCGCGTTTTGATTTTCGTGGCGTTGAAGCCACGTTTGAATTAAACGACGCCAACAAGACCATTAAAGTGCTGAGCGAGTCTGACTTCCAGGTGAATCAGCTGCTGGATATCCTGCGCGCCAAGCTGCTCAAGCGCGGCATTGAAGGCACCTCCCTCGACGTGCCGGAAGATATCGTACACAGCGGTAAAACCTGGTTTGTTGAAGCGAAGCTGAAACAGGGCATTGAAAGCGCGGTGCAGAAGAAGATCGTTAAACTGATCAAAGACAGCAAGCTGAAAGTGCAGGCCCAGATTCAGGGCGAAGAGATCCGCGTGACCGGTAAGTCCCGCGACGATCTGCAGTCGGTGATGGCGCTGGTGCGCGGTGGCGATCTGGGACAACCGTTCCAGTTCAAAAACTTCCGCGACTAA	MPSFDIVSEVDLQEARNAVDNASREVESRFDFRGVEATFELNDANKTIKVLSESDFQVNQLLDILRAKLLKRGIEGTSLDVPEDIVHSGKTWFVEAKLKQGIESAVQKKIVKLIKDSKLKVQAQIQGEEIRVTGKSRDDLQSVMALVRGGDLGQPFQFKNFRD	PGPT0012210_528	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0012210-yajQ-K09767	NA	NA
BMS020_03461	1365	yajR	COG0477	Inner membrane transport protein YajR	ATGAACGATAACAAAATGACGCCAGGGGAACTGCGCGCGACCTGGGGTTTGGGGACGGTATTCTCCCTGCGCATGCTTGGCATGTTTATGGTCCTGCCGGTTCTGACCACGTATGGCATGGCATTGCAGGGCGCCAGTGAAGCGCTGATTGGCCTGGCGATCGGCATCTACGGTCTGGCGCAGGCGGTGTTCCAGATCCCCTTCGGACTGTTATCTGACCGTATTGGCCGTAAGCCGTTGATCGTCGGCGGCCTGCTTATCTTCGTGCTCGGCAGCGTCATCGCCGCGCTCACCGACTCCATTTGGGGCATCATTCTTGGCCGCGCCCTGCAGGGTTCCGGCGCCATCGCCGCCGCGGTCATGGCCCTGCTCTCCGATCTCACCCGCGAACAGAACCGCACCAAAGCGATGGCGTTTATTGGCGTCAGCTTCGGCGTCACTTTCGCTATCGCCATGGTGCTGGGGCCGATTATTACCCATCAGCTGGGCCTGCACGCCCTGTTCTGGATGATCGCCATCCTGGCGACCGTCGGCATCCTGCTCACCCTGTGGGTGGTTCCCAACAGCCAGAATCATGTGCTTAACCGCGAATCCGGGATGGTGAAAGGCTGCTTTAGCAAGGTGCTGGCGGAGCCGCGCCTGCTGAAGCTCAACTTTGGCATCATGTGCCTGCACATCATGCTGATGTCCACGTTTGTCGCGCTGCCCGGACAGCTGGAGGCCGCCGGCTTCCCGGCCGCCGAGCACTGGAAGATTTACCTGGTCACCATGGTTATCTCCTTCATCTCGGTGGTGCCGTTTATTATCTACGCCGAAGTGAAGCGCAAGATGAAGCGCGTCTTTTTGCTCTGCGTGGCCATCCTGCTGATTGCGGAAATTGTCCTCTGGGGCGCCGGAGGCTACTTCTGGGAGCTGGTAGCGGGCGTTCAGCTCTTTTTCCTGGCGTTTAACCTGCTGGAAGCGCTACTGCCGTCATTGATTAGCAAAGAGTCGCCGGCGGGCTATAAAGGCACCGCGATGGGCGTCTACTCCACCAGCCAGTTCCTCGGGGTGGCGATTGGCGGCGCCCTTGGCGGCTGGGTCGATGGTTTCTTTGATTCACAGACCGTGTTTCTGCTGGGCGCGCTGCTGGCGATGCTGTGGCTGCTGGTGGCCAGCACCATGAGCGAGCCGCCCTACGTCAGCAGTCTGCGGGTGGAGGTACCGGACGGCGTGGTGGTCGACAGCGCGCTGCAGGCGCGTCTGCTCAGCGCCAGCGGGGTTCATCAGGCGCTGGTGGTGCCCGAGGAGCGCTCGGTGTATATCAAAATCGACAGCAAGGTCACCAACCGCTTCGAGATAGAGCAGCTCATCAAAGGGGTATAA	MNDNKMTPGELRATWGLGTVFSLRMLGMFMVLPVLTTYGMALQGASEALIGLAIGIYGLAQAVFQIPFGLLSDRIGRKPLIVGGLLIFVLGSVIAALTDSIWGIILGRALQGSGAIAAAVMALLSDLTREQNRTKAMAFIGVSFGVTFAIAMVLGPIITHQLGLHALFWMIAILATVGILLTLWVVPNSQNHVLNRESGMVKGCFSKVLAEPRLLKLNFGIMCLHIMLMSTFVALPGQLEAAGFPAAEHWKIYLVTMVISFISVVPFIIYAEVKRKMKRVFLLCVAILLIAEIVLWGAGGYFWELVAGVQLFFLAFNLLEALLPSLISKESPAGYKGTAMGVYSTSQFLGVAIGGALGGWVDGFFDSQTVFLLGALLAMLWLLVASTMSEPPYVSSLRVEVPDGVVVDSALQARLLSASGVHQALVVPEERSVYIKIDSKVTNRFEIEQLIKGV				NA	NA	NA	NA	NA
BMS020_03462	1179	iolG_2		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGTTAAACGGTCTGAAACCCTTATCCCGTTCCCTGCGTTGGGGCATGGTAGGCGGCGGGGGAACCAGCCAGATCGGCTACAGCCACCGCTGTGCGGCGCTGCGTGACAATGTTTACACCCTGCTGGCCGGCGCGCTTGACGTTGATGCCGAGCGCGGGCGCGCGTTTGGTGAACAGCTGGGCATCGCGCCGGAGCGCTGCTACGCCGACTACCAGACCCTGTTTCGTGAAGAAGCCCGCCGTCCTGACGGGATCGAGGTCGTCTCGGTCACCACCCCGAACAATACCCATTTCGCCATCACCAAAGCGGCGCTGGAAGCGGGCCTCCACGTCATCTGTGAAAAGCCCCTCTGCTTTACCGCCGAAGAGGCGCGCGAGCTGGTGGACCTGAGCAAAAAACAGAACAAAATCGTCGGCGTCACCTACGGCTACGCCGGCTATCAGATGATCCAGCAGGCGCGGCAGATGATTGCCGATGGGCTGCTCGGCGAGATCCGCATCGTCAATATGCAGTTCGCCCACGGCTTTCATAACCAGGCCGTCGAGCTGCAGGCAGAATCAACCCGCTGGCGCGTAACGCCGAAGTTCGCCGGGCCCAGCTATGTGCTGGGGGATCTGGCCACCCATCCGCTGTTTGTCGCCGAGACCATGGCGCCGCAGCTCAATATCAAACGGCTGATGTGCTCCCGCCAGAGCTTTGTCCCCTCCCGCGCGCCGCTGGAAGATAACGCCTTTGTCCTGATGGAGTATGACAACGGCGCGGTTGGCTCGATGTGGACCAGCGCGGTGAACAGCGGCGCCATGCACTCGCAAAAAGTGCGCATCGTCGGCGAAAAGGCGAGTATCGAATGGTGGGATGAGCATCCTAACCAGCTCAGCTATGAGGTGCAGGGCGAGCCGGCGCGCATTCTGGAACGCGGGATGCCCTACCTGAGCGCAAACGCGCTGGCGGACGATCGCATCGGCGGCGGCCACCCGGAAGGGCTGTTTGAAGCCTGGGCCAATCTCTATCGCCGCTATGCGCAGGCGATTGACGCCACGGACCGTGACGATCGCGCCTTCCTGCAAGACTTCTGGTATCCGGACGTCGAAGCCGGGCTGCACGGCGTCTACTGGGTCGAGCAGTGCGTCAAATCGGCTGATGCCGGCAGCCAGTGGGTTGACTTTACTTTACCTTAA	MLNGLKPLSRSLRWGMVGGGGTSQIGYSHRCAALRDNVYTLLAGALDVDAERGRAFGEQLGIAPERCYADYQTLFREEARRPDGIEVVSVTTPNNTHFAITKAALEAGLHVICEKPLCFTAEEARELVDLSKKQNKIVGVTYGYAGYQMIQQARQMIADGLLGEIRIVNMQFAHGFHNQAVELQAESTRWRVTPKFAGPSYVLGDLATHPLFVAETMAPQLNIKRLMCSRQSFVPSRAPLEDNAFVLMEYDNGAVGSMWTSAVNSGAMHSQKVRIVGEKASIEWWDEHPNQLSYEVQGEPARILERGMPYLSANALADDRIGGGHPEGLFEAWANLYRRYAQAIDATDRDDRAFLQDFWYPDVEAGLHGVYWVEQCVKSADAGSQWVDFTLP				NA	NA	NA	NA	NA
BMS020_03463	1362	pcaK_2	COG0477	4-hydroxybenzoate transporter PcaK	ATGACACAGACTCAACGCCTGGATGTCAGAGAGTTAATTAACCGTAACCCGCTGAGCCGCTTTCAAAAGCAGATTATTTTTCTCGGCTTTTGCGTTATCGCTCTCGATGGGTTTGATATCGCGATCATGGGCTTTATCGCCCCGACGCTGAAGCTGGAGTGGGGGGTAAGCAACCACCAGCTGGGCCTGGTGATCAGCGCCGCGCTGATCGGCCTCGCGCTGGGCGCTATTTTCTCTGGCCCGCTCGCCGACTGGCTGGGACGCAAAAAGATCATCATCAACAGCGTCTTCTTCTTCGGCTTCTGGACCATCGCCACCGCCTTCTCGCACAACATTGAGCAGATGATGTTCTTCCGCTTTATGACCGGCCTTGGACTGGGCGCCGCGATGCCGAACATCGGGACGCTGGTGTCGGAATACGCTCCGGAACGCCAGCGCTCATTTATTATTACCGTCATCTTCTGCGGCTTCACCTTCGGCGCGGCGGCCGGAGGATTCACCGCCTCATGGCTGATCCCGCAGTTTGGCTGGCACTCGCTGATGGCGCTCGGCGGCATTCTGCCGCTGCTGTTTGCCCCCCTGCTTATCTGGCGGCTGCCGGAATCGGTTCGTTTTCTGGTGATCAAACAAGCGCCAGCGGCGCGCATTCGCGCCATCCTTAATCGTCTTTATCCCGGACAAATCAGCGACAACGTGACGTTTATCCTGCCGGCGCAGCCGGCGGCCGGCAACGCGATGCGCATTGTGCTCTCCCGCCAGTACGGCTTTGGCTCGTTGATGCTATGGCTGGTCTATTTTATGGGGCTGTTCCTGGTCTATATTCTCGGCAGCTGGCTGCCAACGCTGGTTAAGGAGGTCGGGCTTACCGTCAGCCAGGCGGCCGTGATGACGGCGATCTACCAGGCGGGAGGCACCCTCGGCTCGCTGTTTGCCGGCTGGCTGATGGACCGCATCAATCCCCATCGCGCGCTGGGAATGATCTACGCCGTCGGCGGACTGTTTACCATGGCGATGGGCTACGCCGCGGGCAGCTTTGCCTTGCTCTGCATGCTGGCGTTTATCAGCGGCGCCTGCCTGAACGGCGCCAATACGGGCATGAACGCCCTCTCCGCCCGTTACTACCCCACGCAGGCGCGGGCGACCGGCTCCAGTTGGATGCACGGCGTCGGGCGGATCGGCGCGATCCTCAGCGCCTTTGCCGGCGCTGAGATGATGGCGCTCAACCTGCCCTTCGAAAGCGTCTTTTTGATCCTCGGCATCCCGGCTGCCCTCACCGTCGCAGGCCTGGCGGCGAAGGGCATCTTCGCCGCAGGTAATCCTCCCGCCGCTTCGCCAGCCCCCGCGTCTGTGCGCGGAGCGTAA	MTQTQRLDVRELINRNPLSRFQKQIIFLGFCVIALDGFDIAIMGFIAPTLKLEWGVSNHQLGLVISAALIGLALGAIFSGPLADWLGRKKIIINSVFFFGFWTIATAFSHNIEQMMFFRFMTGLGLGAAMPNIGTLVSEYAPERQRSFIITVIFCGFTFGAAAGGFTASWLIPQFGWHSLMALGGILPLLFAPLLIWRLPESVRFLVIKQAPAARIRAILNRLYPGQISDNVTFILPAQPAAGNAMRIVLSRQYGFGSLMLWLVYFMGLFLVYILGSWLPTLVKEVGLTVSQAAVMTAIYQAGGTLGSLFAGWLMDRINPHRALGMIYAVGGLFTMAMGYAAGSFALLCMLAFISGACLNGANTGMNALSARYYPTQARATGSSWMHGVGRIGAILSAFAGAEMMALNLPFESVFLILGIPAALTVAGLAAKGIFAAGNPPAASPAPASVRGA	PGPT0005400_528	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-HYDROXYBENZOATE_METABOLISM,PGPT0005400-pcaK-K08195	NA	NA
BMS020_03464	819			hypothetical protein	ATGAACATGCGTACCCTATCGCTCGCCGCGCTGAGCCTGCTCGATGTCTCTCCCCCCGAACAGGTGCGGATAGCGGCCAGAACCGGTTTTACCCACGTGGGTCTGCGGCTGCTGCCCGCCACCCCCGCCGACCCGGACTACGATATGCTGGGCGATACCCCCGCCGTCCGCGCGACCCTGGCCGCGCTGATGGAAACCGGCATCCGCGTCTCGGACGTGGAGATCGTCCGCCTGAGCCCGGGGTTTACCCTCGACGATCGGCTGCAGCGCTTTATGGAGACCGCCGCGCGGCTTGGCGCCGGGCAGGTGTTAGTCGCCGGGAATGACGACAACCTGCAGCGCAGCGCCGACAACCTGGCCACTCTCGCCGCGGCCGGCCGCCCGTTTGGCCTGACCATGAACCTTGAGCCAATGCCCTGGACCCAGCTGCGCACGATCGCCGATGCGCAGGTGCTGATCGCCGCCAGCGGGCGGGAGGATATCGGCATCCTGGTGGACGCCCTTCATTTCTGGCGCGCGGGAGAATCGCTCGCCGCCCTCTCCAGCCTGCCCGCGCATCATCTGAACTATATGCAGCTCTGCGATGGCGCGGCGCAGCGGCCGGAAAGCGAGCAGGAGCTCATCCGCCAGGCCCGCTCAGCGCGCAACGTGCCGGGGGAAGGCGGTTTGGATCTGCACGGTCTGATGTCGGCTCTGCCGGCGACGCTGCCGGTCTCCCTCGAGGTGCCGCTCGACGGCGAGCAGGGCGCCCTGCCGCCCCTCCAGCGGGCGCAATTACTGTTCACTGCCGCGCAGCCCTACCTGCGCTCCTGCGCATAA	MNMRTLSLAALSLLDVSPPEQVRIAARTGFTHVGLRLLPATPADPDYDMLGDTPAVRATLAALMETGIRVSDVEIVRLSPGFTLDDRLQRFMETAARLGAGQVLVAGNDDNLQRSADNLATLAAAGRPFGLTMNLEPMPWTQLRTIADAQVLIAASGREDIGILVDALHFWRAGESLAALSSLPAHHLNYMQLCDGAAQRPESEQELIRQARSARNVPGEGGLDLHGLMSALPATLPVSLEVPLDGEQGALPPLQRAQLLFTAAQPYLRSCA				NA	NA	NA	NA	NA
BMS020_03465	1692	ksdD_2	COG1053	3-oxosteroid 1-dehydrogenase	ATGAGCGGGCCTGTGAAGGTGGATATGCTGGTGGTCGGCTCCGGCGCGGCGGGACTCTCTGCCGCGGTCACCGCGGCAATGCACGGCGCCAGCGTCATGGTGGCGGAGAAGGCGTCAGTGCTCGGCGGAACCAGCGCCTGGTCCGGCGGCTGGCTGTGGATCCCCCGCAACCCGCTGGCGCGGGCGGAGGGCATCGACGAAGCGGCCGATGCTCCGCTGACCTATCTGCAGCATGAGATGGGGGGCGAAGCCGCCGACGAACGGCTGCAGACTTTCCTCCGTCACGGGCCGGAAATGGTGGATTTTTTTCATCAGCGGACGGCGGTGAAGTTTCTGTCGGGCAGCGCCATGCCGGACTTTCACGCGTCGCCGGGCGCGGCGAACGGTGGGCGGTCGGTGACCGCTCAGCCCTACGATGGCCGCCTGCTCGGCGACTGGCTCCACCGACTGCGCCCGCCGCTGGAGACCATCAGCCTGGCCGGGATGGGCATCGCCGGCGGCGCGGACATGGCGCATTTTTTTAACGCCACCCGCTCGCCGCGCTCCGCGCTGTATGCCGCCCGCCGCCTGCTGCGCCACGGCTGGCAGCGGCTGCGCGCCGGACGGGGGCAGCATCTGGTCAATGGCAATGCGCTGGTCGCCCGTCTGCTGCGATCCGCCCTCGACGCCGGAGTGCGCTTTCAACTCAATGCGCCTGCGGTTCGGCTGCTGCAGGGGCCGCAGGGCGTGTCCGGCGCGGTGCTGCGCAGCGATGACGGGGAGATGCACGTCGAAGCGGGTGCCGTGGTGCTGGCCTGCGGCGGTTTTCCCCACGATCGGCAGCGCCTGGCGCAGGTGGTGCCTCACGCCGCGGAGGGCTACGGCCATTTCTCCGCCGCGCCGCCTGACAATCAGGGCGAGGGGATCCGCCTTGGCGAATCCGTCGGCGGCCAGTTCGATACCCGCCTGCGCCACCCGCTGGCCTGGGCGCCGGTGTCCCGCGTCACCCTCGCCAGCGGCCAGCAGCTGATGTTTCCCCATCTGGTGGAGCGAGCCAAGCCCGGGGTGATCGCCGTCCTGCCTAACGGCCAACGCTTTGTTAACGAGGCCGACTCCTATCACGACTTTATCGCCGCCCTGCTGGCGGCGACGCCCGTGGGCGACACGCCGCAGGCCTGGCTGCTGGCCGATCGGCGCGCGCTGCGCCGCTATGGCCTGGGCCACGCCAGGCCCTTTCCGTTCACCCCTACCGCCTGGCTGCGTACCGGCTATCTGCTGCGAGGAAACACCCTGGCCGAGCTGGCGAAACTTTGCGCCATCGATACCGATGCGCTGGCGGAAACCGTAGAACGCTTTAATCACTTCGCCAGCACCGGTGAAGACGTCGATTTTCACCGCGGCTCATCGGCCTATAACCGCGCGCAGGGTGACCATCAGGTCACGCTCGGACCGCTGCGCGAAGGGCCGTTCTACGCGGTGCGCATTCTGCCCGGCTCGCTGGGCACCTTCAGCGGATTGCAAACCGACGAACACGCTCGGGTGCTGGACGGGCAGCAGCAGCCGATACCGGGCCTGTTCGCCATCGGCAACGACATGTCGAGCGTGATGCGCGGCTATTACCCCAGCGGAGGGATCACCCTCGGGCCGGCGATGACCTTCGGCTACCTGGTGGGCAAAAAACTGGCTGAAAACACAATAAAAACAGAGCAATAA	MSGPVKVDMLVVGSGAAGLSAAVTAAMHGASVMVAEKASVLGGTSAWSGGWLWIPRNPLARAEGIDEAADAPLTYLQHEMGGEAADERLQTFLRHGPEMVDFFHQRTAVKFLSGSAMPDFHASPGAANGGRSVTAQPYDGRLLGDWLHRLRPPLETISLAGMGIAGGADMAHFFNATRSPRSALYAARRLLRHGWQRLRAGRGQHLVNGNALVARLLRSALDAGVRFQLNAPAVRLLQGPQGVSGAVLRSDDGEMHVEAGAVVLACGGFPHDRQRLAQVVPHAAEGYGHFSAAPPDNQGEGIRLGESVGGQFDTRLRHPLAWAPVSRVTLASGQQLMFPHLVERAKPGVIAVLPNGQRFVNEADSYHDFIAALLAATPVGDTPQAWLLADRRALRRYGLGHARPFPFTPTAWLRTGYLLRGNTLAELAKLCAIDTDALAETVERFNHFASTGEDVDFHRGSSAYNRAQGDHQVTLGPLREGPFYAVRILPGSLGTFSGLQTDEHARVLDGQQQPIPGLFAIGNDMSSVMRGYYPSGGITLGPAMTFGYLVGKKLAENTIKTEQ	PGPT0006680_60	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STEROID|DERIVATE_DEGRADATION	XENOBIOTIC_ADROSTENEDIONE_DEGRADATION,PGPT0006680-kstD-K05898	NA	NA
BMS020_03466	321			hypothetical protein	ATGATCTATGAAAAACGCACCTACACCATCAATCCGCTGAAAATGGCCGACTGGCTGGCGCTGTACCAAAGCGATGCCCTGGCGGTGCAAACTGACCATCTCGGCAAACTGATCGGCTTCTTTTTTACCGAGATCGGCGTGGTCAATCAGGTAGTGCACATCTGGGCTTACGAAAGCCTGGACGATCGCCTGGTACGCCGCGCGCGGATGGCCCAGGACGAGCGCTGGCAGACCTTCTCGCGGAAAAATCGCGAACTGGCCGCCGTGGAGCGCCTCGAGTCGGTGCTGATGCGCCCCACCGCTTTTTCACCATTGCAGTAA	MIYEKRTYTINPLKMADWLALYQSDALAVQTDHLGKLIGFFFTEIGVVNQVVHIWAYESLDDRLVRRARMAQDERWQTFSRKNRELAAVERLESVLMRPTAFSPLQ				NA	NA	NA	NA	NA
BMS020_03467	1677	kstD	COG1053	3-oxosteroid 1-dehydrogenase	ATGAAGAGCTGGGACGTGATCGTCATCGGCAGCGGCGCCGCTGGCTTTGCCGCCGCGGTCACCGCCAGCTGCAAAGGGCTGTCGGTGCTGATGCTGGAGAAAGCCGGTCAGTTCGGCGGCACCTCGGCCATCTCTGGCGGCGCCGTGTGGCTGCATGATACCGACCAGGCGCGCGCCGAGGGCAAAAGCGGTAGCGCCGAAGCGATCAAAACCTATCTGCGAACCATTATCGGCGAGGCCCACTACCGCGAAGATATCGCCGAGGCGTTTGTCAGCGCCGGGCGAGAGGCCCTCGCCTTTCTGGAGCGCGAGGGGGCGGTGAAATATAGCCTGCGCCCACTCTCACCTGATTACTATCCGGATGAGCCCGGCGCTGTCGACGTCGGTCGGGCGCTGGAGGTGGTGGAGTATGACGGCCGTGAACTGGGTGACGCGTTTCGCGACCTGCGTTCGCCGCCGCCGGGGATGCTGCTGTTTGGCGGAATGATGGTCAACCGCGTCGACATTCAACATTTTCTCGATATGCGTCGCTCGCTGCGCTCCCTGGCCCATTGCACCCGACTGCTGCTGCGCTACGCCCGCGACCGGGTGACATACCCTCGCGGCACCCGCCTGGCGATGGGCAATGCGCTGATTGCCCGCATGGCGACCACGGCGCTGCGTAAAGGCATGAGCCTGCGGCTGAATGTCAATGTTCTGGCGCTGTGCGAAGCGCAAGGCGCGGTCACCGGGGTAGAGATCGAGTGTCAGGGGCAAAGAGAGACGCTGCACGCCCGGCGCGGAGTGGTGCTGGCGGCAGGCGGTTTTGCCGCTGGCGCGCTGGCGGCGCGCTATCGGCCTGACACCCGAGAGCACTTCACCATGTCGCCGCCGGCCAATGATGGCGCCGCGCTGCGTCTCGCGGCGGCGCTTAACGCTCGCGAGGGAGCCGATCGGGCATCCAACTTTTTCTGGGCGCCGGTATCGGTGCTGACCCGGTCCGACGGCAGCGAGGAGCGCTTCCCCCACCTGGTGACCGACCGGGCCAAGCCGGGCGTGATTGCCGTCAATCAGCGGGCGGTACGCTTCATTAATGAGTCCAGCTCCTATCACCATTTTGCCAGCGCGATGCAGCGTGCTGCGGAGAATGCCCCCTGCTTTTTACTGTGCGACGCCCAGGCGATGAAGCGTTACGGCCTCGGGCTGGCGCGTCCGGCCCCGGTGAACAATGACGCCCTGATCGCCGCCGGCTATCTGCACAAAGCCGACACCCTGGCCGCGCTGGCGCAGCAGCTTGGGCTGGATGCCCACACCCTGAGCGAGACGGTCGCCCGCTACAATCGTGACGCCGCGCAGGGCGTGGACCGTGAGTTTGCCAAAGGCGGCAACAGCTATAACCGGGCGATGGGCGATCCGGGCCATCACCCTGACGCCTGCAACGCTCCCCTGCTCAGCGCGCCGTTCTATGCCATCAAACTCTATACCGGCGATCTGGGGACTTCCCGGGGTCTGGTCACCACCGCCGATGCCCAGGTCGTCAACGCCGAAGGAAACCCTATCGCGGGGCTGTACGCGGTGGGAAACGACATGGATTCGCTGATGGCCGGCACCTACCCGGGTCCCGGCATCACCCTTGGCCCGGGGCTGACGTTTGGCTACCTCGCCGCCTGCCATCTGGCGCAACCCGCCACCCACTAA	MKSWDVIVIGSGAAGFAAAVTASCKGLSVLMLEKAGQFGGTSAISGGAVWLHDTDQARAEGKSGSAEAIKTYLRTIIGEAHYREDIAEAFVSAGREALAFLEREGAVKYSLRPLSPDYYPDEPGAVDVGRALEVVEYDGRELGDAFRDLRSPPPGMLLFGGMMVNRVDIQHFLDMRRSLRSLAHCTRLLLRYARDRVTYPRGTRLAMGNALIARMATTALRKGMSLRLNVNVLALCEAQGAVTGVEIECQGQRETLHARRGVVLAAGGFAAGALAARYRPDTREHFTMSPPANDGAALRLAAALNAREGADRASNFFWAPVSVLTRSDGSEERFPHLVTDRAKPGVIAVNQRAVRFINESSSYHHFASAMQRAAENAPCFLLCDAQAMKRYGLGLARPAPVNNDALIAAGYLHKADTLAALAQQLGLDAHTLSETVARYNRDAAQGVDREFAKGGNSYNRAMGDPGHHPDACNAPLLSAPFYAIKLYTGDLGTSRGLVTTADAQVVNAEGNPIAGLYAVGNDMDSLMAGTYPGPGITLGPGLTFGYLAACHLAQPATH	PGPT0006680_406	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STEROID|DERIVATE_DEGRADATION	XENOBIOTIC_ADROSTENEDIONE_DEGRADATION,PGPT0006680-kstD-K05898	NA	NA
BMS020_03468	822	ydiB_2	COG0169	Quinate/shikimate dehydrogenase	ATGGTCAGTGGAACTACCCAGGTTGTCGCCGTGATTGGTCATCCGATTGCCCAGGTGAAATCACCGGATAACTTCAACCGCTACTTTGCCGAACAGCACATGGACAGCGTCATGATCCCGGTGGATATCGCCCCGGACGCGGTGGCCGCCTACCTCAACGCCCTGCGCGGCTGGCAGAACATGAGCGGCGTGCTGGTGACGGTGCCGCATAAACAACGCGCCGCCGCGCTGGTCGACGAGCTTACGCCGCGCGCCCGCCGACTCAACGCCATCAATGTGATCCGCAAGCTGGCGGATGGCCGGTTACAGGGCGATATGCTGGACGGCGTCGGCTTTCTGCTCGCCGCCGAGGCACAGGGTTTTCAGCCGGCGGGTAAGCAGGCGTTGCTCTCCGGTTGCGGCGGCGTCGGCAGCGCCATCGCCTGGGGATTGTGCGAGGCGGGGCTCCGTCAGCTGGCTCTGCACGATCAAAACCCCGCCACCCGGCAACGCCTGCACGATCTTCTGGCTGAAGCCTTTCCGGCGGTGCGACTGAGCGCGCTGCCGGACACCCTGCACGGCGTCGATCTGCTGGTCAACGGCTCGCCGGCCGGCATGGCCGGATTTGATGCGCTGCCCCTGCCGCAGGCGCTGCTGGAGACCCTCGACAGCGCCACCCACGTGGCTGACGTTGTCACCGCCCCGGTGATGACGCCGTTGCTCACCTTCGCCGCCGCCCGCGGCTGCCGGGTACAGACCGGGCCGGAAATGGCGCTGGCGCAGATGACGCTGATGGGCCAGTTTATCGGCGCCATCCCGCCGGCGCAGGGAGCGGCGGCATGA	MVSGTTQVVAVIGHPIAQVKSPDNFNRYFAEQHMDSVMIPVDIAPDAVAAYLNALRGWQNMSGVLVTVPHKQRAAALVDELTPRARRLNAINVIRKLADGRLQGDMLDGVGFLLAAEAQGFQPAGKQALLSGCGGVGSAIAWGLCEAGLRQLALHDQNPATRQRLHDLLAEAFPAVRLSALPDTLHGVDLLVNGSPAGMAGFDALPLPQALLETLDSATHVADVVTAPVMTPLLTFAAARGCRVQTGPEMALAQMTLMGQFIGAIPPAQGAAA	PGPT0012890_4269	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
BMS020_03469	759	pcaR_3	COG1414	Pca regulon regulatory protein	ATGCAAAACACCATTCATCCTCGCGATCTGATCGTCGGTTTACAAAAAGGGTTGGCGCTCATCCAGCTTTTTTCTAAAACCTGCCCAAAGCTCACCGTCGCTCAGGCGGCGAAAATGAGCGGCCTGACGCAAAGTGCGGCACGACGTTTTCTGTTGACGCTGCTGCATGAGCGCTATTTGCAAACCGATGGGCGCTATTACTGGCTTACCCCGAAGACGCTGCGGCTTGGTCAGGCCTACGTCGATTCGGCGCAGTTTCCCCGCATGGTGCGGCCGATTGTCGAATACATCGCCAGCCGGACCGAGGAGCACGCCTCGGTGGGGGTGGTGGATGAAGATGAACTGGTCTATATCGCCCGCAGCCGTCACACGCCATTTAACTCCACGTCGGTTAGGCTTGGGGAGCGGGTGCCCATCTTTTGTACCGCCGGGGGGCGGTTATGGCTGGCTTCGCTGCCGGAAGCAGAGTGTGAAGCGGTTCTACAGCGCATTACCCGGGAACAACGCACGCCCTATACGGTGACCGACGTCGCGTCGTTGATGGAGAAGATTGCCCAGGTGCGGCGTCAGGGTTATGCCACTATCGAGCAGGAGTTTGAGATTGGTATGCTGGTGCTGGCGGTACCGTTAACCGACAGGGAAGGGACCTGGTGGGGAGCGTTAAGTCTGACCAGTCATCAATCACGGACTTCGCTGGACGCGTTATGCCGCGACCACCTTGATCTGCTCTATAGCGCGCAGGCGATGCTGGTGGGTTAA	MQNTIHPRDLIVGLQKGLALIQLFSKTCPKLTVAQAAKMSGLTQSAARRFLLTLLHERYLQTDGRYYWLTPKTLRLGQAYVDSAQFPRMVRPIVEYIASRTEEHASVGVVDEDELVYIARSRHTPFNSTSVRLGERVPIFCTAGGRLWLASLPEAECEAVLQRITREQRTPYTVTDVASLMEKIAQVRRQGYATIEQEFEIGMLVLAVPLTDREGTWWGALSLTSHQSRTSLDALCRDHLDLLYSAQAMLVG				NA	NA	NA	NA	NA
BMS020_03470	333			hypothetical protein	ATGAAAGAATTAACACTGAACGAAATGGAGTACATCTCCGGCGGCTTTAACCTGTTCGGCGCGGCCAACGGCTTCGCCAGCTTTGTCGCCAACTCTGCCGTCGGCTTCACCTCGTTTGTACTCACCTCCGGTACCGCCTTCGCCTCATTCGTTGGCGACAGCGCGATGGCGTTTGGTTCCTTCCTGACCGGTCAGACAAACTGGGAAACCTTTGTGACCACCGGTAAGGAAAACTGGGGTAGCTTCGTCAATACCGCCGGCACCAGCTGGAACACCTTTGTCGATAACGCCGCCAGCGACTGGAGCAGCTTCCTCAACAAAGCGTCAGCCTAA	MKELTLNEMEYISGGFNLFGAANGFASFVANSAVGFTSFVLTSGTAFASFVGDSAMAFGSFLTGQTNWETFVTTGKENWGSFVNTAGTSWNTFVDNAASDWSSFLNKASA				NA	NA	NA	NA	NA
BMS020_03471	888	cyoE_1	COG0109	Protoheme IX farnesyltransferase	ATGTTTAAGCAATACCTGCAAGTTACGAAACCAGGCATTATTTTTGGCAACCTGATCTCCGTGATCGGCGGTTTCCTGCTGGCCTCCAAAGGCCACATCGACTATCCGCTGTTCGTCTGGACGCTCCTTGGAGTATCCCTGGTGGTCGCCTCGGGTTGTGTATTCAACAACTACATCGACCGGGACATCGATCGTAAGATGGAACGGACGAAAAACCGGGTGCTGGTCAAAGGGCTGATCTCGCCAGAAGCTTCGCTGGTGTACGCCACCTTGCTGGGTATTGCTGGCTTTATGCTGCTGTGGTTCGGCGCAAATCCGCTGGCCTGCTGGCTGGGGGTGATGGGGTTCGTGGTTTATGTCGGCGTCTACAGCCTGTACATGAAACGTCACTCTGTCTACGGCACGCTGATTGGCTCACTCTCCGGCGCCGCGCCGCCGGTGATTGGCTACTGCGCGGTCACCGGTGATTTCGACAGCGGTGCGGCGATCCTGCTGGCTATCTTTAGCCTGTGGCAGATGCCTCACTCCTACGCCATCGCGATTTTCCGCTTTAAGGATTATCAGGCGGCGAATATTCCGGTGCTGCCGGTGGTGAAAGGCATTTCGGTCGCCAAAAACCATATTACGCTGTACATCGTCGCCTTTGCCGTTGCGACCCTGATGCTCTCGCTGGGCGGCTACGCCGGGTATAAATACCTGGTCGTGGCGGCTGCGGTCAGCGTCTGGTGGCTGGGCATGGCGCTGCGTGGCTACAAAGTGGCAGATGACAAAGTCTGGGCGCGCAAGCTGTTCGTCTTTTCCATCGTCGCCATCACTGCGCTGTCCGTGATGATGTCCGTTGACTTTATGGTGCCGGATTCACATAGCCTGCTGGCTTACGTGAGATAA	MFKQYLQVTKPGIIFGNLISVIGGFLLASKGHIDYPLFVWTLLGVSLVVASGCVFNNYIDRDIDRKMERTKNRVLVKGLISPEASLVYATLLGIAGFMLLWFGANPLACWLGVMGFVVYVGVYSLYMKRHSVYGTLIGSLSGAAPPVIGYCAVTGDFDSGAAILLAIFSLWQMPHSYAIAIFRFKDYQAANIPVLPVVKGISVAKNHITLYIVAFAVATLMLSLGGYAGYKYLVVAAAVSVWWLGMALRGYKVADDKVWARKLFVFSIVAITALSVMMSVDFMVPDSHSLLAYVR	PGPT0008520_1759	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
BMS020_03472	330	cyoD_1	COG3125	Cytochrome bo(3) ubiquinol oxidase subunit 4	ATGAGTCATTCTACCGATCATAGCGGCGCTTCTCACGGCAGCGTGAAGAGCTACATGACAGGATTTATCCTGTCCATCATCCTGACGGTCATTCCGTTCGCCATGGTGATGAGTGGCTCCGCCTCGCATGCGGTTATCCTTGGCACCATTCTGGTGACCGCTGTGGTGCAGATCGTGGTACACCTCGTGTACTTCCTGCATATGAACAGCAAGTCCGATGAAGGCTGGAACCTGACCGCATTTATCTTCACCGTAATCATCATTGCGATCGTGGTTGTCGGCTCCATCTGGATTATGTGGAACCTGAACTACAACATGATGATGCACTAA	MSHSTDHSGASHGSVKSYMTGFILSIILTVIPFAMVMSGSASHAVILGTILVTAVVQIVVHLVYFLHMNSKSDEGWNLTAFIFTVIIIAIVVVGSIWIMWNLNYNMMMH				NA	NA	NA	NA	NA
BMS020_03473	612	cyoC_1	COG1845	Cytochrome bo(3) ubiquinol oxidase subunit 3	ATGGCAACTGATACTCTTGCGCATACTGCCCACGCGCATGAACACGGGCACCATGATACAGGACCGATGAAGGTATTCGGTTTCTGGATCTACCTGATGAGCGACTGCATTATCTTCGCTACGCTGTTTGCTACCTATGCCGTTCTGGTGAACGGCACGGCCGGCGGACCGACTGGCAAAGATATTTTCGAACTGCCGTTCGTTCTGGTTGAAACCGCACTGCTGCTGTTCAGCTCCATCACCTACGGCATGGCGGCTATCGCCATGTACAAAAACAACAAGAGCCAGGTGGTTTCCTGGCTGGCGTTGACCTGGCTGTTTGGCGCCGGATTTATCGGGATGGAAATCTATGAATTCCATCACCTGATCATGGAAGGCTTTGGTCCGGATCGTAGTGGCTTCCTGTCCGCGTTCTTCGCGCTGGTCGGCACCCACGGTCTGCACGTGACCTCTGGCCTTATCTGGATGGCGGTGCTGATGTTCCAGGTTTCACGTCGTGGCCTGACCAGCACTAACCGCACGCGTATCCTGTGCCTGAGCCTGTTCTGGCACTTCCTGGACGTCGTGTGGATCTGCGTGTTCTCGGTTGTCTATCTGATGGGGGCGATGTAA	MATDTLAHTAHAHEHGHHDTGPMKVFGFWIYLMSDCIIFATLFATYAVLVNGTAGGPTGKDIFELPFVLVETALLLFSSITYGMAAIAMYKNNKSQVVSWLALTWLFGAGFIGMEIYEFHHLIMEGFGPDRSGFLSAFFALVGTHGLHVTSGLIWMAVLMFQVSRRGLTSTNRTRILCLSLFWHFLDVVWICVFSVVYLMGAM	PGPT0004035_2584	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
BMS020_03474	1992	cyoB_1	COG0843	Cytochrome bo(3) ubiquinol oxidase subunit 1	ATGTTCGGAAAACTTACACTGGATGCAGTGCCCTACCACGAACCTATTATCGTGGTAACGGTGGCTGCGATTATCATTGGGGGACTGGCGCTTCTGGCGGCCATCACTTACTTCGGTAAGTGGTCCTACCTATGGAACGAGTGGCTGACCTCTGTCGACCACAAACGTCTCGGTATCATGTACGTTATCGTGGCAATCGTCATGCTGCTGCGTGGCTTTGCTGACGCCATCATGATGCGTAGCCAGCAGGTGCTGGCCTCGGCCGGGGAAGCAGGCTTCCTGCCGCCTCATCACTACGATCAGATCTTTACCGCCCACGGCGTTATCATGATCTTCTTCGTGGCGATGCCGTTCGTTATCGGTCTGATGAACCTGGTGGTTCCGCTTCAGCTCGGCGCACGCGACGTAGCCTTCCCGTTCCTCAACAACCTGAGCTTCTGGTTCACCGTTGTGGGCGTGATTCTGGTTAACCTGTCTCTGGGCGTCGGTGAGTTCGCGCAGACCGGTTGGCTGGCCTATCCGCCGCTGTCGGGAATTGAGTACAGTCCTGGCGTAGGGGTCGACTACTGGATTTGGGCGCTGCAGCTCTCCGGTATCGGTACTACCCTGACCGGTATTAACTTCTTCGTAACCATTATCAAGATGCGCGCCCCGGGCATGACCATGTTCAAGATGCCGGTATTCTCCTGGGCATCTCTGTGCGCTAACATCCTGATTATCGCCTCTTTCCCAATTCTGACCGTCACCATCGCGCTGCTGACCCTGGATCGTTACCTGGGCACCCATTTCTTTACCAACGATATGGGTGGCAACATGATGATGTACATCAACCTGATTTGGGCCTGGGGTCACCCGGAAGTGTACATCCTGGTTCTGCCGGTGTTCGGGGTCTTCTCCGAAATCGCCGCGACCTTCTCGCGTAAGCGTCTGTTCGGTTACACCTCTCTGGTGTGGGCAACCGTCTGTATTACCGTTCTGTCGTTCATCGTTTGGCTGCACCACTTCTTCACCATGGGTGCCGGCGCGAACGTAAACGCCTTCTTCGGTATTACCACCATGATTATCGCGATCCCGACCGGGGTTAAGATCTTCAACTGGCTGTTCACCATGTATCAGGGTCGCATCGTCTTCAACTCGGCGATGATGTGGACTATCGGCTTTATCGTGACCTTCTCCGTAGGTGGGATGACCGGCGTGCTGCTGGCGGTACCGGGCGCGGACTTCGTTCTGCACAACAGCCTGTTCCTGATCGCGCACTTCCATAACGTTATCATCGGCGGCGTGGTATTCGGTTGCTTCGCAGGTCTGACCTACTGGTGGCCGAAAGCCTTTGGCTTCACCCTGAACGAAACCTGGGGCAAACGCGCTTTCTGGTTCTGGATCATCGGCTTCTTCGTAGCATTTATGCCGCTGTACGTGCTGGGCTTCATGGGGATGACCCGTCGTCTGAGCCAGCAGATCGATCCGCAGTTCCACCCGATGCTGGTTGTTGCAGCTTGCGGTGCGGCGCTGATCGCCTGCGGTATCCTGTGCCAGCTGATTCAGTTCTACGTCTCTATTCGCGACCGCGATCAGAACCGTGACCTGACCGGTGACCCGTGGGGTGGCCGTACGCTGGAGTGGGCAACCTCTTCTCCACCGCCGTTCTACAACTTCGCTATCGTTCCTCAGGTTCACGAGCGTGACGCCTTCTGGGAAATGAAAGAGAAAGGTGAAGCGTACAAACAGCCTGCTCACTATGAAGAAATTCATATGCCGAAAAACAGCGGCGCCGGCATCGTCATTGCCGCCTTCGCGACGGTATTTGGTTTCGCCATGATCTGGCATATCTGGTGGATGGCGATCGCCAGCTTCATCGGCATCGTAGCGACCTGGATTATTAAGAGCTTTGACGAGGACGTGGATTACTACGTACCGGTTGCAGAAGTCGAAAAACTGGAAAAACAGCATTTCGATGAGATTAACAAAGCAGGGCTGAAAAATGGCAACTGA	MFGKLTLDAVPYHEPIIVVTVAAIIIGGLALLAAITYFGKWSYLWNEWLTSVDHKRLGIMYVIVAIVMLLRGFADAIMMRSQQVLASAGEAGFLPPHHYDQIFTAHGVIMIFFVAMPFVIGLMNLVVPLQLGARDVAFPFLNNLSFWFTVVGVILVNLSLGVGEFAQTGWLAYPPLSGIEYSPGVGVDYWIWALQLSGIGTTLTGINFFVTIIKMRAPGMTMFKMPVFSWASLCANILIIASFPILTVTIALLTLDRYLGTHFFTNDMGGNMMMYINLIWAWGHPEVYILVLPVFGVFSEIAATFSRKRLFGYTSLVWATVCITVLSFIVWLHHFFTMGAGANVNAFFGITTMIIAIPTGVKIFNWLFTMYQGRIVFNSAMMWTIGFIVTFSVGGMTGVLLAVPGADFVLHNSLFLIAHFHNVIIGGVVFGCFAGLTYWWPKAFGFTLNETWGKRAFWFWIIGFFVAFMPLYVLGFMGMTRRLSQQIDPQFHPMLVVAACGAALIACGILCQLIQFYVSIRDRDQNRDLTGDPWGGRTLEWATSSPPPFYNFAIVPQVHERDAFWEMKEKGEAYKQPAHYEEIHMPKNSGAGIVIAAFATVFGFAMIWHIWWMAIASFIGIVATWIIKSFDEDVDYYVPVAEVEKLEKQHFDEINKAGLKNGN	PGPT0004025_465	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
BMS020_03475	945	cyoA_1	COG1622	Cytochrome bo(3) ubiquinol oxidase subunit 2	ATGAGACTCAGGAAATACAATAAAAGTTTGGGATGGATGTCATTAATCGCAGGTACTGTATTACTCAGTGGTTGTGATTCTGCACTCCTTGACCCAAAAGGACAGATTGGACTGGAGCAACGCTCTTTGATTCTGACGGCCTTCGGCCTGATGATGATTGTCGTTATTCCCGCCGTCTTGATGGCAGTAGGATTTGCCTGGAAGTATCGCGCGAGCAATAAAGATGCGAAGTATAGCCCGAACTGGTCACACTCCAATAAAGTGGAAGCTGTGGTCTGGACGGTACCTATTCTGATCATCCTGTTCCTGGCCGTTCTGACCTGGAAAACCACTCACGCACTGGAGCCAAGCAAACCGCTTGTCCATGACGAGAAACCAATCACCATCGAAGTCGTATCGATGGACTGGAAATGGTTCTTTATCTATCCGGAACAGGGTATTGCTACCGTTAACGAAATCGCCTTCCCGGCGAACGTACCGGTACACTTCAAAGTGACCTCTAACTCGGTGATGAACTCGTTCTTTATTCCGCGCTTAGGCAGCCAGATCTACGCAATGGCCGGGATGCAGACTCAGCTGCACCTCATTGCTGACGAAGCTGGTACTTATGACGGTATCTCCGCTAGCTACAGTGGCCCGGGCTTCTCTGGTATGAAGTTCAAAGCGATTGCTACCCCGGATCGTGCAACTTTCGATCAGTGGGTTGAAAAAGCGAAACAGTCTCCGAACGCTATGGACTCTATGGCCGCGTTCGAGAAAGTGGCTGTGCCTAGCGAATATAACAAAGTGGAATACTTCTCTAACGTGAAGCCGGATCTGTTCAAAGATGTTGTGAACAAATTCATGTCTCACGAGAGCATGAACATGTCCAAACCTGAAGGCGAGCATGCCGCTCACGACGGGATGGAAGGCATGGACATGAGCCACGCGGAAACCGCTCACTAA	MRLRKYNKSLGWMSLIAGTVLLSGCDSALLDPKGQIGLEQRSLILTAFGLMMIVVIPAVLMAVGFAWKYRASNKDAKYSPNWSHSNKVEAVVWTVPILIILFLAVLTWKTTHALEPSKPLVHDEKPITIEVVSMDWKWFFIYPEQGIATVNEIAFPANVPVHFKVTSNSVMNSFFIPRLGSQIYAMAGMQTQLHLIADEAGTYDGISASYSGPGFSGMKFKAIATPDRATFDQWVEKAKQSPNAMDSMAAFEKVAVPSEYNKVEYFSNVKPDLFKDVVNKFMSHESMNMSKPEGEHAAHDGMEGMDMSHAETAH				NA	NA	NA	NA	NA
BMS020_03476	1476	ampG_1	COG0477	Anhydromuropeptide permease	ATGTCCAGTCACTACTTACGCATTTTTCAGCAGCCTAAATCAGCGATTTTGCTGATCCTCGGCTTCGCCTCCGGTCTGCCGCTGGCCCTCACCTCCGGTACCCTGCAGGCCTGGATGACGGTGGAAAATATCGATCTGAAAACGATCGGTTTTTTCTCGCTGGTCGGCCAGGCCTATGTCTTTAAATTTCTCTGGTCCCCGCTGATGGACCGCTACACGCCGCCGTTTCTCGGCCGACGTCGCGGCTGGCTGGTCACCACCCAGATCCTGCTCCTGTTGGCCATCGCGGCGATGGGCTTTCTTGAACCCGTCTCCCAGCTGCGCTGGATGGCGGCGCTGGCGGTGGTGATCGCTTTCTGTTCAGCGTCGCAGGATATTGTCTTTGACGCCTGGAAAACCGACGTTCTGCCGGCGGAAGAGCGCGGTGCCGGCGCCGCGATCAGCGTGCTGGGCTATCGCCTCGGGATGCTGGTCTCCGGCGGTCTGGCCCTGTGGCTCGCCGACCGCTATCTCGGCTGGCAGGGGATGTACTGGCTGATGGCGGCGCTGCTGGTGCCCTGCATCATCGCCACGCTGCTGGCGCCCGAGCCGAGCGACGTCATCCCGGTTCCCCGATCGCTGGAGCAGGCGGTGGTTGCGCCGCTGCGTGATTTTTTCGGCCGTAACAACGCCTGGCTTATTCTGTTGCTCATCGTTCTTTATAAGCTTGGCGATGCGTTTGCCATGAGCCTGACCACCACCTTTCTCATCCGCGGCGTCGGTTTTGACGCCGGTGAAGTGGGGATGGTGAACAAAACCTTAGGCCTGTTCGCCACCATTCTCGGCGCCCTGTACGGCGGCGTACTGATGCAGCGGCTGACGCTGTTCCGGGCGCTGCTGATCTTCGGTCTGCTGCAGGGGGTCTCCAACGCCGGCTACTGGCTGCTGTCGATTACCGATAAGCACCTCTATTCCATGGCGACCGCGGTATTCTTTGAGAACCTGTGCGGGGGAATGGGCACGGCGGCGTTTGTGGCGCTGCTGATGACGCTGTGCAACAAGTCGTTCTCCGCCACCCAGTTCGCGCTGCTCTCGGCGCTGTCCGCGGTTGGCCGCGTGTACGTCGGGCCGATCGCCGGCTGGTTCGTCGAGGCCCACGGCTGGTCCACCTTCTATCTCTTCTCTGTGGTCGCGGCGGTGCCGGGGATCGCGCTGCTGCTGCTGTGCCGGCAAACGCTCGAGCATACCCAACGCACGGCAAGCTTTATACCGCGTAGCGAATATCCGCAGGCCTATACGCTGGCGCTGGGGATCCTGACGCTGGGCTGCCTGCTGCTGGCGGTATGGCTGGGTCTGCTGATCCTCAACGCGCTGGATTATACGTCGTTCAGCTTCCTGTCCGGCCTGCTGGAGGTTGCCGCGCTGACGGCCGTTGGCGGTATTTTGCTCGGCGGCCTGCTCGACTACCTGGCGCTGCGTAAAACCCACCTGATTTAA	MSSHYLRIFQQPKSAILLILGFASGLPLALTSGTLQAWMTVENIDLKTIGFFSLVGQAYVFKFLWSPLMDRYTPPFLGRRRGWLVTTQILLLLAIAAMGFLEPVSQLRWMAALAVVIAFCSASQDIVFDAWKTDVLPAEERGAGAAISVLGYRLGMLVSGGLALWLADRYLGWQGMYWLMAALLVPCIIATLLAPEPSDVIPVPRSLEQAVVAPLRDFFGRNNAWLILLLIVLYKLGDAFAMSLTTTFLIRGVGFDAGEVGMVNKTLGLFATILGALYGGVLMQRLTLFRALLIFGLLQGVSNAGYWLLSITDKHLYSMATAVFFENLCGGMGTAAFVALLMTLCNKSFSATQFALLSALSAVGRVYVGPIAGWFVEAHGWSTFYLFSVVAAVPGIALLLLCRQTLEHTQRTASFIPRSEYPQAYTLALGILTLGCLLLAVWLGLLILNALDYTSFSFLSGLLEVAALTAVGGILLGGLLDYLALRKTHLI	PGPT0028125_552	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028125-ampG-K08218	NA	NA
BMS020_03477	579			hypothetical protein	ATGCTTAAGAAGATCCTTTTCCCGTTGGTCGCCATGTTTATGCTGGCAGGATGCGCCACGCCGCCGACCACCATTGAAGTATCGCCGAAAATCACGCTGCCGCAGCAGGATCCGAGCCTGATGGGCGTGACCGTCAGCATCAACGGCGCCGACCAGCGTCCGGACCAGGCGCTGGCGAAAGTGACGCGCGACAACCAACAGGTCACCCTCACCGCCTCCCGCGACCTGCGCTTCCTGCTGCAGGAAGTGCTGGAGAAACAAATGACCGCGCGCGGCTATATGATTGGCCCGAACGGCGCAGTCGATCTGCAGATCATCGTCAACAAACTTTACGCTGACGTCTCCCAGGGCAACGTGCGCTACAACATCGCCACCAAAGCCGATATCGCCATCATCGCCACCGCGGCAAACGGCACGAAGATGACCAAAAACTACCGCGCCAGCTACTCGGTTGAAGGCGCCTTCCAGGCCTCGAACAAAAACATCGCTGATGCCGTTAACAGCGTCCTGACCGATACCATCGCCGATATGGCGCAGGACACCAGCATTCACGATTTCATCAAGCAAAACGCGCGTTAA	MLKKILFPLVAMFMLAGCATPPTTIEVSPKITLPQQDPSLMGVTVSINGADQRPDQALAKVTRDNQQVTLTASRDLRFLLQEVLEKQMTARGYMIGPNGAVDLQIIVNKLYADVSQGNVRYNIATKADIAIIATAANGTKMTKNYRASYSVEGAFQASNKNIADAVNSVLTDTIADMAQDTSIHDFIKQNAR	PGPT0024500_291	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024500-yajG-K07286	NA	NA
BMS020_03478	315	bolA_1	COG0271	DNA-binding transcriptional regulator BolA	ATGATACGTGAACAGATCGAAGCAAAACTTAGAGCAGCGTTCGACCCGATGTATCTCGAAGTCGTGGATGAAAGTTATCGTCACAACGTCCCTGCGGGCTCTGAAAGTCATTTTAAAGTGGTGTTAGTGAGCGATCGCTTCACTGGCGAGCGTTTCCTTAATCGCCACCGTATGATCTACGGCACGCTAACCGAGGAGCTGTCGAATACGGTGCACGCCCTGGCGTTGCACACCTACACGATTAAAGAATGGGAAGCGCTACAGGATACGGTTTTCGCCTCGCCGCCGTGCCGCGGCGCGGGGAGCATCGCCTAG	MIREQIEAKLRAAFDPMYLEVVDESYRHNVPAGSESHFKVVLVSDRFTGERFLNRHRMIYGTLTEELSNTVHALALHTYTIKEWEALQDTVFASPPCRGAGSIA	PGPT0014930_34	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014930-bolA-K05527	NA	NA
BMS020_03479	1299	tig_1	COG0544	Trigger factor	ATGCAAGTTTCAGTTGAAACCACTCAGGGCCTTGGGCGCCGTGTAACGATTACTATCGCCGCTGACAGCATCGAGAATGCTGTCAAAAGCGAGCTGGTCAACGTAGCGAAAAAAGTTCGCATTGACGGCTTCCGTAAAGGCAAAGTGCCGATGAATGTTGTTGCTCAGCGTTATGGCGCATCCGTTCGCCAGGACGTGCTGGGCGACCTGATGAGCCGTCATTTCGTTGACGCGATCATCAAAGAAAAAATCAATCCGGCCGGCGCGCCGAACTACGTTCCGGGCGAATACAAACTGGGCGAAGACTTCACCTACGCGGTAGAGTTCGAAGTGTACCCGGAAGTTGAACTGCAGGGTCTGGAAGCGATCGAAGTAGAAAAACCGGTTGTTGAAGTGACCGACGCTGACGTTGACACCATGCTGGAAACCCTGCGCAAGCAGCAGGCCACCTGGAAAGACAAAGAAGGCGCAGTTGACGCTGAAGATCGCGTAACCATTGACTTCACCGGTTCCGTAGACGGCGAAGAGTTCGAAGGCGGCAAAGCGTCTGACTTCGTACTGGCGATGGGTCAGGGTCGTATGATCCCGGGCTTCGAAGACGGTATCAAAGGCCACAAAGCGGGTGACGAGTTCACCATCGACGTGACCTTCCCGGAAGAGTACCACGCTGAAAACCTGAAAGGTAAAGCGGCTAAGTTCGTTATCAACCTGAAGAAAGTTGAAGAACGTGAACTGCCGGAGCTGACCGAAGAATTCATCAAACGTTTCGGCGTGGAAGATGGTTCCGTCGCTGGCCTGCGCGCTGAAGTGCGTAAAAACATGGAACGCGAGCTGAAAGGCGCTGTGCGTAACCGTGTGAAGTCTCAGGCTATCGAAGGTCTGGTTAAAGCTAACGAAATCGACGTTCCGGCGGCCCTGATCGACAGCGAAATCGACGTGCTGCGTCGCCAAGCTGCTCAGCGTTTCGGTGGCAACGAGAAACAGGCTCTGGAACTGCCGCGTGAGCTGTTCGAAGAGCAGGCTAAACGCCGCGTAGTGGTTGGCCTGCTGCTGGGCGAAGTGATTCGCACCAACGAGCTGAAAGCTGACGAAGAGCGCGTGAAAGGCCTGATCGAAGAGATGGCTTCTGCTTACGAAGATCCGTCAGAAGTGGTTGAGTTCTACAGCAAGAACAAAGAGCTGATGGACAACATGCGCAACGTGGCGCTGGAAGAGCAGGCTGTTGAAGCCGTGCTGGCGAAAGCCAAAGTGTCTGAAAAAGCCACTTCCTTCAACGAACTGATGAACCAGCAGGCGTAA	MQVSVETTQGLGRRVTITIAADSIENAVKSELVNVAKKVRIDGFRKGKVPMNVVAQRYGASVRQDVLGDLMSRHFVDAIIKEKINPAGAPNYVPGEYKLGEDFTYAVEFEVYPEVELQGLEAIEVEKPVVEVTDADVDTMLETLRKQQATWKDKEGAVDAEDRVTIDFTGSVDGEEFEGGKASDFVLAMGQGRMIPGFEDGIKGHKAGDEFTIDVTFPEEYHAENLKGKAAKFVINLKKVEERELPELTEEFIKRFGVEDGSVAGLRAEVRKNMERELKGAVRNRVKSQAIEGLVKANEIDVPAALIDSEIDVLRRQAAQRFGGNEKQALELPRELFEEQAKRRVVVGLLLGEVIRTNELKADEERVKGLIEEMASAYEDPSEVVEFYSKNKELMDNMRNVALEEQAVEAVLAKAKVSEKATSFNELMNQQA				NA	NA	NA	NA	NA
BMS020_03480	624	clpP_1	COG0740	ATP-dependent Clp protease proteolytic subunit	ATGTCATACAGTGGCGAACGAGACAACTTTGCACCCCATATGGCCCTGGTGCCGATGGTCATTGAACAGACCTCACGCGGTGAACGTTCTTTTGATATCTACTCCCGTCTGCTTAAGGAACGCGTCATTTTTCTGACCGGCCAGGTCGAAGACCACATGGCAAACCTGATCGTGGCGCAGATGCTGTTTCTGGAAGCGGAAAACCCGGAAAAAGACATTTACCTGTACATTAACTCTCCGGGCGGAGTGATCACCGCCGGGATGTCGATCTATGACACCATGCAGTTCATCAAGCCGGACGTCAGCACCATCTGTATGGGACAGGCCGCGTCCATGGGCGCGTTCCTATTGACCGCCGGGGCGAAGGGCAAGCGTTTCTGCCTGCCGAACTCCCGCGTGATGATCCACCAGCCGCTGGGCGGCTATCAGGGGCAGGCGACGGATATTGAGATCCACGCCCGTGAAATCCTGAAGGTGAAAGGACGCATGAATGAGCTGATGGCGCATCATACCGGCCAGTCTCTTGAGCAGATTGAGCGTGACACTGAGCGTGACCGCTTCCTCTCTGCTGCGGAAGCCGTGGAGTACGGACTGGTCGACTCTATTTTGACCCATCGTAATTGA	MSYSGERDNFAPHMALVPMVIEQTSRGERSFDIYSRLLKERVIFLTGQVEDHMANLIVAQMLFLEAENPEKDIYLYINSPGGVITAGMSIYDTMQFIKPDVSTICMGQAASMGAFLLTAGAKGKRFCLPNSRVMIHQPLGGYQGQATDIEIHAREILKVKGRMNELMAHHTGQSLEQIERDTERDRFLSAAEAVEYGLVDSILTHRN	PGPT0014595_4995	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
BMS020_03481	1275	clpX_1	COG1219	ATP-dependent Clp protease ATP-binding subunit ClpX	ATGACAGATAAACGCAAAGATGGATCGGGCAAATTGTTGTATTGCTCTTTTTGCGGCAAAAGCCAGCATGAAGTGCGTAAGCTGATCGCCGGGCCATCCGTGTATATCTGCGACGAATGCGTTGATTTATGTAACGACATCATTCGCGAAGAGATTAAAGAAGTTGCGCCGCACCGCGAGCGCAGCGCGCTGCCGACGCCGCACGAGATTCGCCACCACCTTGATGACTACGTCATCGGTCAGGAACAGGCGAAAAAAGTGTTGGCGGTCGCGGTATACAACCACTACAAACGTCTGCGCAATGGCGATACCAGCAATGGCGTAGAGCTGGGTAAAAGTAACATTCTGCTGATCGGGCCGACCGGCTCCGGTAAAACGCTGCTGGCGGAAACGCTGGCGCGCCTGCTGGATGTGCCGTTTACCATGGCGGACGCCACCACCCTGACCGAAGCCGGTTATGTGGGTGAGGACGTCGAAAATATCATTCAGAAACTGCTGCAGAAGTGCGACTACGACGTGCAGAAAGCGCAGCGCGGTATCGTCTATATCGACGAAATCGACAAAATTTCGCGTAAATCCGACAACCCGTCGATTACCCGCGACGTCTCCGGCGAAGGCGTGCAGCAGGCGCTGCTGAAGCTTATCGAAGGCACCGTCGCCGCCGTTCCGCCGCAGGGCGGGCGTAAACACCCGCAGCAGGAGTTCCTGCAGGTTGATACCTCCAAGATCCTGTTTATCTGCGGCGGCGCGTTTGCCGGTCTGGATAAAGTGATTTCCCACCGTGTGGAAACCGGCTCCGGCATTGGTTTTGGCGCGACGGTTAAAGCGAAGTCCGACAAAGCGAGCGAAGGCGAACTGCTGGCCCAGGTCGAGCCGGAAGATCTGATCAAGTTTGGTTTGATTCCGGAATTCATTGGCCGTCTGCCGGTAGTGGCAACCCTGAACGAGCTGAGCGAAGAAGCGCTGATCCAGATCCTGAAAGAGCCGAAAAACGCCCTGACCAAGCAGTATCAGGCGCTGTTTAGCCTGGAAGGCGCAGAGCTTGAATTCCGCGACGAAGCGCTGGATGCCATCGCCAAGAAAGCGATGGCGCGTAAAACCGGCGCCCGTGGCCTGCGTTCCATTGTGGAAGCGGCGCTGCTGGACACCATGTATGACCTGCCTTCGATGGAAGATGTCGAAAAAGTGGTCATTGATGAGTCGGTTATCGCCGGGCAGAGCAAACCGTTGCTGATCTACGGCAAACCGGAAGCTCAGCAGGCATCTGGCGAATAA	MTDKRKDGSGKLLYCSFCGKSQHEVRKLIAGPSVYICDECVDLCNDIIREEIKEVAPHRERSALPTPHEIRHHLDDYVIGQEQAKKVLAVAVYNHYKRLRNGDTSNGVELGKSNILLIGPTGSGKTLLAETLARLLDVPFTMADATTLTEAGYVGEDVENIIQKLLQKCDYDVQKAQRGIVYIDEIDKISRKSDNPSITRDVSGEGVQQALLKLIEGTVAAVPPQGGRKHPQQEFLQVDTSKILFICGGAFAGLDKVISHRVETGSGIGFGATVKAKSDKASEGELLAQVEPEDLIKFGLIPEFIGRLPVVATLNELSEEALIQILKEPKNALTKQYQALFSLEGAELEFRDEALDAIAKKAMARKTGARGLRSIVEAALLDTMYDLPSMEDVEKVVIDESVIAGQSKPLLIYGKPEAQQASGE	PGPT0014600_1081	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014600-clpX-K03544	NA	NA
BMS020_03483	2355	lon_2	COG0466	Lon protease	ATGAATCCTGAGCGTTCTGAACGCATTGAAATCCCCGTATTGCCGTTGCGCGATGTGGTGGTTTATCCGCACATGGTCATACCCCTGTTCGTAGGGCGGGAAAAATCTATCCGTTGCCTCGAAGCGGCCATGGACCATGATAAAAAAATCATGCTGGTTGCGCAGAAAGAAGCGTCGACGGATGAGCCGGGTGTAAACGATCTTTTCACCGTTGGAACCGTGGCGTCTATTTTGCAGATGCTGAAGCTGCCGGACGGCACCGTGAAGGTGCTGGTCGAAGGGCTACAGCGTGCACGCATTTCTGCGCTGTCTGATAATGGCGAACATTTCTCGGCGAAAGCGGAGTATCTCGACTCGCCGGCGATTGACGAACGTGAGCAGGAAGTGCTGGTTCGTACCGCTATCAGCCAGTTTGAAGGCTATATCAAGCTGAATAAAAAGATCCCACCGGAAGTGCTGACGTCGCTGAACAGCATCGACGATCCGGCGCGCCTGGCGGATACCATCGCGGCGCATATGCCGCTGAAGCTGGCGGACAAGCAGTCCGTGCTGGAGATGTCCGACGTCAACGAACGTCTGGAATATCTGATGGCGATGATGGAATCGGAAATCGATCTGCTGCAGGTTGAGAAGCGCATTCGCAACCGCGTCAAAAAGCAGATGGAGAAATCCCAGCGCGAGTACTATCTGAACGAGCAAATGAAAGCGATTCAGAAAGAACTCGGCGAGATGGACGACGCCCCGGACGAAAACGAAGCGCTGAAGCGCAAGATCGACGCGGCGAAAATGCCGAAAGAGGCGAAAGAGAAAACCGAAGCGGAACTGCAGAAACTGAAGATGATGTCGCCGATGTCTGCGGAAGCGACCGTCGTGCGTGGCTACATCGACTGGATGGTGCAGGTGCCGTGGAATGCGCGCAGTAAGGTCAAGAAAGACCTGCGTCAGGCCCAGGAGATCCTCGATACCGATCACTATGGTCTGGAGCGCGTGAAGGACCGCATCCTTGAGTATCTCGCGGTGCAGAGCCGGGTGAACAAAATCAAGGGGCCGATCCTCTGCCTGGTGGGACCGCCGGGGGTAGGTAAAACCTCATTGGGTCAATCTATCGCCAAAGCGACCGGCCGGAAATACGTCCGCATGGCGCTGGGCGGCGTGCGCGATGAAGCGGAAATTCGCGGTCATCGTCGGACCTATATTGGCTCGATGCCGGGCAAACTGATCCAGAAAATGGCGAAAGTGGGGGTGAAAAACCCGCTGTTCCTGCTGGATGAGATCGACAAAATGTCTTCCGACATGCGCGGCGACCCGGCTTCCGCGTTGCTTGAGGTGCTGGATCCGGAACAGAACGTGGCCTTTAACGACCACTATCTGGAAGTGGATTACGATCTCAGCGACGTGATGTTCGTGGCGACGTCCAACTCCATGAACATTCCGGCGCCGCTGCTGGACCGTATGGAAGTAATTCGCCTCTCGGGTTACACCGAAGATGAAAAACTGAACATCGCCAAGCGTCACCTGCTGCCGAAGCAGATCGAACGCAACGCGCTGAAGAAAGGCGAACTGACCGTCGACGATAGCGCCATTATCGGCATTATTCGTTACTACACCCGTGAAGCGGGCGTTCGTAGCCTGGAGCGTGAAATCTCCAAGCTGTGCCGTAAGGCCGTTAAGCAGCTGTTGCTGGATAAAACGCTGAAACACATCGAAATTAACGGTGAGAATCTGCATGATTATCTCGGCGTGCAGCGCTTCGACTATGGCCGCGCCGATAGTGAGAACCGCGTCGGTCAGGTGACCGGTCTGGCGTGGACGGAAGTGGGCGGCGATCTGCTGACCATCGAAACCGCCTGCGTACCGGGTAAAGGCAAACTGACCTACACCGGCTCGCTGGGCGAGGTGATGCAGGAGTCGATTCAGGCTGCGCTGACCGTGGTACGTTCGCGGGCGGACAAGCTGGGCATTAACGCCGACTTCTACGAGAAGCGTGATATTCACGTCCACGTACCGGAAGGGGCGACGCCGAAGGATGGTCCGAGCGCGGGTATCGCCATGTGTACGGCGCTGGTCTCCTGCCTGACCGGCAACCCGGTTCGCGCCGATGTGGCGATGACCGGGGAGATTACGCTGCGTGGTCAGGTGCTGCCGATCGGCGGTCTGAAGGAAAAACTGCTGGCGGCGCATCGCGGCGGTATTAAGACTGTTCTGATTCCTGATGAGAACAAACGCGACCTTGAAGAAATTCCGGATAACGTTATCGCCGATTTGGATATCCATCCGGTGAAACGAATCGAGGAAGTTCTGACACTTGCGCTGCAGAACGAACCGTTCGGCATGCAGGTTGTGACCGCGAAATAG	MNPERSERIEIPVLPLRDVVVYPHMVIPLFVGREKSIRCLEAAMDHDKKIMLVAQKEASTDEPGVNDLFTVGTVASILQMLKLPDGTVKVLVEGLQRARISALSDNGEHFSAKAEYLDSPAIDEREQEVLVRTAISQFEGYIKLNKKIPPEVLTSLNSIDDPARLADTIAAHMPLKLADKQSVLEMSDVNERLEYLMAMMESEIDLLQVEKRIRNRVKKQMEKSQREYYLNEQMKAIQKELGEMDDAPDENEALKRKIDAAKMPKEAKEKTEAELQKLKMMSPMSAEATVVRGYIDWMVQVPWNARSKVKKDLRQAQEILDTDHYGLERVKDRILEYLAVQSRVNKIKGPILCLVGPPGVGKTSLGQSIAKATGRKYVRMALGGVRDEAEIRGHRRTYIGSMPGKLIQKMAKVGVKNPLFLLDEIDKMSSDMRGDPASALLEVLDPEQNVAFNDHYLEVDYDLSDVMFVATSNSMNIPAPLLDRMEVIRLSGYTEDEKLNIAKRHLLPKQIERNALKKGELTVDDSAIIGIIRYYTREAGVRSLEREISKLCRKAVKQLLLDKTLKHIEINGENLHDYLGVQRFDYGRADSENRVGQVTGLAWTEVGGDLLTIETACVPGKGKLTYTGSLGEVMQESIQAALTVVRSRADKLGINADFYEKRDIHVHVPEGATPKDGPSAGIAMCTALVSCLTGNPVRADVAMTGEITLRGQVLPIGGLKEKLLAAHRGGIKTVLIPDENKRDLEEIPDNVIADLDIHPVKRIEEVLTLALQNEPFGMQVVTAK	PGPT0014315_4005	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014315-lon-K01338	NA	NA
BMS020_03484	1875	ppiD_1	COG0760	Peptidyl-prolyl cis-trans isomerase D	ATGATGGACAACCTACGCACGGCCGCCAACAGCGTCGTGCTCAAGATTATTTTCGGTATCATTATCGTCTCGTTCATTTTGACCGGGGTGAGTGGTTACCTGATTGGCGGTGGCAAAAACTATGCCGCAAAAGTGAATGGCCAGGAGATTGGCCGTGGGCAGTTTGAAAACGCCGTCGCCAGCGAACGTAACCGTATGCAGCAGCAGCTTGGCGACCAGTTCTCCGAGCTGGCGGCGAACGAAAACTACATGAAAACCATGCGCCAGCAGGTGCTGAACCGCCTGATCGATGAGTCTCTTCTGGATCAGTATGCCCGCGAGCTGGGCCTCAGCATCAGCGATGAGCAGGTGAAGCAGGCGATCTTCCAGACCCAGGCGTTCCAGACGAACGGTAAGTTCGACAACCAGCGTTTCAGCGGTATTGTCGCCCAGATGGGAATGACCACCGATCAGTACGCCCAGGCGCTGCGTAACCAGCTGACCACGCAGCAGCTGATTAACGCCATTGCGGGTACCGACTTCATGCTGCCGGGTGAGTCCGATCAGCTGGCGGCGCTGGTGTCTCAGCAGCGTGTCGTCCGCGAAGCGACCATCAACGTCAACGCTCTGGCGGCAAAACAGACCGCCAGCGATGAGGAAATCAACGCTTTCTGGCAGCAGAATCAGGCCCGTTTTATGGCGCCGGAGCAGTTCCGCGTGAGCTACATCAAGATGGATGCCGCCAGCATGCAGGAAAACGCCTCTGACGAAGAAATCCAGTCATGGTATGACCAGCATAAAGATCAGTTCACTCAGCCGCAGCGTAATCGTTACAGCGTGATTCAGACTAAAACTGAAGCCGACGCGAAAGCGGTGCTGGCCGAGCTGCAAAAAGGCGCTGATTTCGCCACGCTGGCAAAAGAAAAATCGACCGATATTATCTCTGCCCGCAACGGCGGCGATATGGGGTGGATGGAAGATGCCTCTACCGTGCCTGAGCTGAAAGAGGCCGGCCTGAAAGAGAAAGGCCAGCTCTCCGGGGTGATCAAATCCTCGGTTGGCTTCCTGGTGGCCCGTCTGGACGACGTCCAGCCGGCGCAGGTCAAACCGCTGGCTGACGTGCGCAATGACATTGCGGCGAAAGTGAAGCAGGAGAAAGCGCTGGATGCTTACTATGCGCTGCAGCAGAAGGTGAGCGATGCGGCCAGCAACGATAATGAATCGCTGGCGGGCGCGGCGCAGGTCGCCGGAGTGCAGGTGGTGGAAACCGGCTGGTTTGGCCGCGATAACCTGCCGGAAGAGCTGAACTTTAAACCGGTCGCTGACGCTATCTTCAACGGCGGTCTGGTCGGTGTGAACGGCGCGCCGGGCAGCAACTCTGACATCATTACCGTTGATGGCGATCGCGCTTTTGTTCTGCGTATCAGCGAGCACAAAGCCGAGGCGGTGAAACCGCTGGCCGAAGTGAAGGCGCAGGTCAGCGATATCGTTAAGCACAATAAAGCGGAACAGCAGGCGAAGCTGGATGCCGATAAGCTGCTGGCGGCGCTGAAAGACGGCAAAGGCGATGAGGCGATGAAGGCGGCTGGCCTGAGCTTTGGCGCGCCGCAGACGCTTTCCCGTACCGGCCAGGATCCGCTGAGCCAGCTGGCATTCACTCTGCCGCTGCCGCAGCAGGGCAAACCGGTCTATGGCGTTGGTAGCAACATGCAAGGCGATGTGGTGCTGGTGGCGCTGGATGAAGTGAAAGCAGGCAGCATGCCGGAAGAGCAAAAGAAGGCTATGGTTCAGGGGATTACCCAGAACAATGCCCAAATCGCTTTCGAAGCGCTGATGAGCAACCTGCGCAAGGCGGCGAAAATTAAGCTGGGCGACAGCATCGACCAGCAGCAGTAA	MMDNLRTAANSVVLKIIFGIIIVSFILTGVSGYLIGGGKNYAAKVNGQEIGRGQFENAVASERNRMQQQLGDQFSELAANENYMKTMRQQVLNRLIDESLLDQYARELGLSISDEQVKQAIFQTQAFQTNGKFDNQRFSGIVAQMGMTTDQYAQALRNQLTTQQLINAIAGTDFMLPGESDQLAALVSQQRVVREATINVNALAAKQTASDEEINAFWQQNQARFMAPEQFRVSYIKMDAASMQENASDEEIQSWYDQHKDQFTQPQRNRYSVIQTKTEADAKAVLAELQKGADFATLAKEKSTDIISARNGGDMGWMEDASTVPELKEAGLKEKGQLSGVIKSSVGFLVARLDDVQPAQVKPLADVRNDIAAKVKQEKALDAYYALQQKVSDAASNDNESLAGAAQVAGVQVVETGWFGRDNLPEELNFKPVADAIFNGGLVGVNGAPGSNSDIITVDGDRAFVLRISEHKAEAVKPLAEVKAQVSDIVKHNKAEQQAKLDADKLLAALKDGKGDEAMKAAGLSFGAPQTLSRTGQDPLSQLAFTLPLPQQGKPVYGVGSNMQGDVVLVALDEVKAGSMPEEQKKAMVQGITQNNAQIAFEALMSNLRKAAKIKLGDSIDQQQ				NA	NA	NA	NA	NA
BMS020_03485	369		COG1555	putative protein	ATGAAATATGGAATAAAAGCACTGATGGCCGCGGGCGTTCTGGTTTTCGCGGTAGGCGCACAGGGTGCGCTGGCCGCCCCCGCCAGCGGCAAAGCGGTAGTAACCAAAGAGCATGTCCCGGTGTCCTCTTCGGCGAAAGCGAAAGCGGAACCCGGCGAGGCCGACAACGGGGCGACCAAAGTCAGCATTAACCACGCCAGCGCCGAGCAGCTGGCGCAGGCTCTGAATGGCGTGGGGTTGAAAAAAGCCCAGGCGATTGTCAGCTACCGTGAGGAGTACGGGCCGTTTAAAACCCTTGATGACCTGAAGCAGGTCCCGGGGATGGGCAGTGCGCTGGTGGAGCGGAATTTAGCCCATCTGACGCTGTAA	MKYGIKALMAAGVLVFAVGAQGALAAPASGKAVVTKEHVPVSSSAKAKAEPGEADNGATKVSINHASAEQLAQALNGVGLKKAQAIVSYREEYGPFKTLDDLKQVPGMGSALVERNLAHLTL	PGPT0029410_2679	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
BMS020_03486	402	fadM_1	COG0824	Long-chain acyl-CoA thioesterase FadM	ATGCAAACACAAATTAAAGTTCGCGGCTATCATCTGGACGTCTACCAGCATGTGAATAACGCACGCTACCTGGAGTTCCTTGAGGAGGCCCGCTGGGATGGTCTGGAAAATAGCCCGGCGTTTCAGTGGATGACCGAGAAAAACATCGCCTTCGTGGTGGTGAATATTAATATCAACTACCGCCGTCCGGCGGTCCTGGGCGATGTGCTGACGGTGAGCAGCAAACTGGAGCAACTCAACGGCAAAAGCGGCACGCTCAGCCAGGTGGTCACCCTCAACCCCAATGGCGAGGTGGTGGCCGATGCGCTGATCACCTTCGTCTGTATTGATTTGAAAACCCAGAAGGCGCTGCCGCTGGAAGGGGAACTGCGTGAGAAACTCGACCAGATGAACTTGCGCTGA	MQTQIKVRGYHLDVYQHVNNARYLEFLEEARWDGLENSPAFQWMTEKNIAFVVVNININYRRPAVLGDVLTVSSKLEQLNGKSGTLSQVVTLNPNGEVVADALITFVCIDLKTQKALPLEGELREKLDQMNLR				NA	NA	NA	NA	NA
BMS020_03487	702	queC_1	COG0603	7-cyano-7-deazaguanine synthase	ATGAAACGCGCCGTAGTTGTCTTCAGCGGAGGACAAGATTCAACCACCTGTCTGGTGCAGGCTCTGCAACAGTATGATGAAGTGCATTGCGTCACTTTTGATTATGGCCAACGCCACCGCGCGGAAATCGACGTTGCGCGCGAACTCGCCCTGAAACTTGGCGCCGTCGCGCATAAAGTGCTGGACGTTACCCTGCTCAATGAACTGGCGGTCAGCAGCCTGACCCGCGATAACATTCCGGTACCGGACTATCAGCCTGATGCCGAGGGCATTCCCAATACTTTTGTCCCGGGGCGCAATATTCTGTTTTTAACCCTGACGGCAATCTACGCCTATCAGGTAAAAGCCGAGGCTATCATCACCGGCGTGTGCGAGACCGATTTCTCCGGCTACCCGGACTGCCGCGATGAGTTTGTCAAAGCGCTGCACCACGCCGTCAGCCTTGGGATGGCGAAAGACATTCGCTTTGAAACCCCGCTGATGTGGCTGAACAAAGCCGAGACCTGGGCGCTGGCCGACTACTGGGGTCAGCTGGATCTGGTGCGCCGGGAAACCCTCACCTGCTACAACGGCATTAAGGGCGATGGCTGCGGCCAGTGCGCCGCCTGCAACCTGCGCGCTAACGGGCTCAACCAGTATCTGGCCGATAAGGTCGGGGTAATGGCGGTGATGAAGCAAAAAACCGGCTTGACACAGGCATAG	MKRAVVVFSGGQDSTTCLVQALQQYDEVHCVTFDYGQRHRAEIDVARELALKLGAVAHKVLDVTLLNELAVSSLTRDNIPVPDYQPDAEGIPNTFVPGRNILFLTLTAIYAYQVKAEAIITGVCETDFSGYPDCRDEFVKALHHAVSLGMAKDIRFETPLMWLNKAETWALADYWGQLDLVRRETLTCYNGIKGDGCGQCAACNLRANGLNQYLADKVGVMAVMKQKTGLTQA				NA	NA	NA	NA	NA
BMS020_03488	1698	sgrR_1	COG4533	HTH-type transcriptional regulator SgrR	ATGCGACTCTTACACCGTTTAAATCAGTACCAGCGGCTGTGGCAACCCTCAGCCGGGGCGCCGCAGCAGGTCACCGTCGGCGAACTGGCGGAACGCTGTTTTTGCAGCGAACGCCATGTCCGTACCCTGCTGCGTCAGGCGCAAGAGGCCGGATGGTTAAGCTGGCAGGCCCGCTCCGGGCGCGGCAAGCGCGGACTGCTCTCTTTTTATAAAACGCCGGAACGTCTGCGCAATGAGATGATGGAGCTGGCGCTGCATAAAGGTCAGCAGCAAAACGCGCTGGAGCTGGCGCAGCTGGCCCCGGTGGAGCTGAAAGCCCTGCTCCACCCCTTTCTGGGCGGTCAGTGGCAAAACAATACCCCAACGCTGCGTATTCCATACTATCGCCCGCTGGAGCCGCTACGCCCCGGCTTTCTGCCCGGACGCGCCGAGCAGCATCTGGCCGGGCAGATCTATGCCGGGCTGACGCGCTTCGACGAAGGCGACACTATGCCGATCGGCGATCTGGCGCACCACTGGCAGGTCTCCCCTGACGGCCTGCGCTGGCAGTTTTATATCCGCTCCACGCTGTGCTGGCACAACGGCGATGCAGTGGAAACCGCACAGCTGCGGCAGCGCTTACTGCTGCTGCTGGATCTGCCCGCCTTGCGGACCCTCTTCGCCAGCATCAGCCACATCAATGTCACTCACGCCCAGTGCCTCACCATCACGCTGCATCGCCCTGACTACTGGCTGCCGTTCCGCCTCGCCAGCTATTGCAGCGTGCTGGCCCATCCTGACGATCCTGCCATCGGCTGCGGACCGTTCCGCCTGAAGCGGTTTAGTCCGGAACTCGTCCGCCTGGAGAACCATCCCCGCTACCATCTGCGGCATCCGCTGATCCAGGCGGTGGAGTACTGGATCACCCCCCAGCTCTTCGATCGCGATCTCGGGACCAGCTGCCGCCACCCGGTGCAGATCACGATTGGCGATCGCGAAGAGCTCCATAACCTGCGCCAGGTCAGCAACAGCATCAGTCTTGGCTTCTGCTATCTGACCCTGCGTCACAGCCCTCGGCTTAGCAAAGCGCAGGCCCAGCGGCTGGTATCGATAATTCACCGCTCGTCGTTGCTGGAAACGCTGCCGCTCGACGAGGATCTGATTACGCCAAGCCATGAGGTGTTGCCGGGATGGTCCATCCCGCAGGGGCCGGAAAACAGCGCGGTGCCGCTGCCGGCCAGGCTCACGCTGCTCTACCATCTGCCGGTCGAACTCCACGCCATGGCCGAACAGCTGAGACAGCGGCTGGCTGTGCTGGGCTGCGAGCTGACGCTTCTGTTTCATGACGCCAAAAACTGGGAGGGCTGCCAGCATCTGGGGCAGGCCGACCTGATGATGGGCGACCGCCTGATCGGCGAAGCACCAGAGTATGCCCTGGAGCAGTGGCTGCGCTGCGATATGCTGTGGCCCAATTTGCTGACCGGGGCGCAATATGCCCATCTGCAGGCGACATTAGACGCGGTACAGGCGCAGCCGGAAGCCCGCAGCCGCAACGATGCGCTGCGCAACGTATTCAACACCCTGATGGAAGACGCCATCATGACGCCGCTGTTTAAATACAACTATCGGATCAGCGCCCCGCCGGGTGTCAATGGCTTGCGCCTCAACGCCCGCGGCTGGTTCGACTTCGCCAGCGCCTGGCTGCCGGCGTCGACGTGA	MRLLHRLNQYQRLWQPSAGAPQQVTVGELAERCFCSERHVRTLLRQAQEAGWLSWQARSGRGKRGLLSFYKTPERLRNEMMELALHKGQQQNALELAQLAPVELKALLHPFLGGQWQNNTPTLRIPYYRPLEPLRPGFLPGRAEQHLAGQIYAGLTRFDEGDTMPIGDLAHHWQVSPDGLRWQFYIRSTLCWHNGDAVETAQLRQRLLLLLDLPALRTLFASISHINVTHAQCLTITLHRPDYWLPFRLASYCSVLAHPDDPAIGCGPFRLKRFSPELVRLENHPRYHLRHPLIQAVEYWITPQLFDRDLGTSCRHPVQITIGDREELHNLRQVSNSISLGFCYLTLRHSPRLSKAQAQRLVSIIHRSSLLETLPLDEDLITPSHEVLPGWSIPQGPENSAVPLPARLTLLYHLPVELHAMAEQLRQRLAVLGCELTLLFHDAKNWEGCQHLGQADLMMGDRLIGEAPEYALEQWLRCDMLWPNLLTGAQYAHLQATLDAVQAQPEARSRNDALRNVFNTLMEDAIMTPLFKYNYRISAPPGVNGLRLNARGWFDFASAWLPAST				NA	NA	NA	NA	NA
BMS020_03489	819	cof	COG0561	HMP-PP phosphatase	ATGGCAAAACTGGCAGCATTTGATATGGACGGCACCTTGCTGATGCCGGACCATCGTCTCGGAGAAAAGACGCTCACCGCGCTTAAACGGCTGCGGGAACGCGATATCACCCTGACGTTCGCCACCGGCCGCCATGCGCTGGAGATGCACCATGTGATCGGTGAGTTTTCCCTGGACGCCTTTCTGATCACGGGCAACGGGACGCGCATCCACTCGCTGGAAGGGGAGGAGCTGTACCGTCAGGATCTCAATCCCGAGGTAGCGGAAGAAGTGCTGCATAGTCGATGGGATACCCGGGCCAGCATGCACGTGTTTAATGACGGCGGTTGGTTCACCGGCCAGGCAAGGCCTGAGCTGCTGAAGGCGCATGTCTTTAGCGGGTTTCGCTATCAACTGTGCGATCCGAAACGTATGTCGGCGCATCATGTCACCAAGATCTGCTTCTGCGGCGATCATGACGATCTGCGCTGCCTGCGGATCCAACTGAATGAGGCGCTGGGCCAGCGCGCGTTTCTCTGCTTCTCGGCGATGGACTGTCTGGAAGTGCTGCCGGTTGGCTGCAATAAAGGCGCGGCGCTGGCGAGGCTGAGCCAGCACCTGGGCCTCACCCTACAGGAGTGCATGGCCTTCGGCGATGCGATGAACGATCGCGAGATGCTTCGCAGCGTCGGGCGGGGGTTCATCATGGGCAACGCGATGCCGCAGCTGAAAGCCGAGCTGCCGCATCTCCCGGTTATCGGCGACTGCCGGCATCAGGCGGTCTCCCATTTTTTAACGCATTGGCTGGATAATCCTGATCTTCCTTATTCCCCCGAATAG	MAKLAAFDMDGTLLMPDHRLGEKTLTALKRLRERDITLTFATGRHALEMHHVIGEFSLDAFLITGNGTRIHSLEGEELYRQDLNPEVAEEVLHSRWDTRASMHVFNDGGWFTGQARPELLKAHVFSGFRYQLCDPKRMSAHHVTKICFCGDHDDLRCLRIQLNEALGQRAFLCFSAMDCLEVLPVGCNKGAALARLSQHLGLTLQECMAFGDAMNDREMLRSVGRGFIMGNAMPQLKAELPHLPVIGDCRHQAVSHFLTHWLDNPDLPYSPE	PGPT0028065_156	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACIMETHRIN|CF3-HMP_DETOXIFICATION,PGPT0028065-cof-K11938	NA	NA
BMS020_03490	1053	sbnA		N-(2-amino-2-carboxyethyl)-L-glutamate synthase	ATGAATAGCGCCTGGGTAAAACACGCCATTAGTGAAATTAACGCCGACTATCAGCGTTCCGCCGATACACACCTGATTCGCCTGGCGCTGCCTGGTTTTCCCGGGATCCCGATTTATCTGAAGGATGAAAGTACGCATCCGACCGGTAGCCTCAAACACCGTCTGGCGCGGTCGCTGTTTCTCTATGGCCTGTGCAACGGCTGGATCAAAGAAGGCACCACGATTATCGAATCGTCTTCGGGTTCGACCGCGGTTTCTGAAGCCTATTTCGCCCGCCTGCTGGGGCTGCCGTTTATCGCCGTGATGCCCTCCTGCACCGCCAGACGCAAAATCGAACAGATCGAGTTCTACGGCGGACGCTGCCATTTTGTGCAGAACGCCTGCGAAATCTACGCGGCTTCCGAAACGCTGGCGCGCGAGCTGAACGGTCACTATATGGATCAGTTTACCTTCGCCGAGCGGGCCACCGACTGGCGCGGCAATAACAATATCGCCGACAGTATTTTCCGCCAGATGAGCCATGAGCCGCACCCGCAGCCATCGTGGATCGTGATGAGCGCCGGCACCGGCGGCACCTCAGCGACCATTGGCCGCTATATTCGCAGCCAGGGTTACGAGACGCAGCTGATGGTTGTCGACCCGCAAAATTCGGTGTTCCTCGATTACTGGCAGACTCGCGACGCCAGCCTGCGCAGCCCGGTTGGCAGCAAAATTGAAGGCATCGGCCGCCCGCGCGTCGAGCCATCATTTATTCCCGACGTTGTCGATGAGATGCTGCGCGTGCCGGATGCGGCGAGCGTGGCCACTGCTTTGTGGCTGGAAACGCAGCTTGGACGAAAAGTCGGCGCCTCGACCGGGACAAATATGTGGGGGGTGCTGCAGCTGGCCGCGCGGATGCGCGAGGAAGGACGCACGGGTTCTCTCGTGACCCTGCTGTGCGACAGCGGCGAGCGTTATCTGGAAAGCTATTACAACCCACAGTGGGTGGCGGCCAACATCGGCGATATCGCCCCCTGGCAGGCGGAGCTCGCCCGGCTGGTCGGCAGAACATAA	MNSAWVKHAISEINADYQRSADTHLIRLALPGFPGIPIYLKDESTHPTGSLKHRLARSLFLYGLCNGWIKEGTTIIESSSGSTAVSEAYFARLLGLPFIAVMPSCTARRKIEQIEFYGGRCHFVQNACEIYAASETLARELNGHYMDQFTFAERATDWRGNNNIADSIFRQMSHEPHPQPSWIVMSAGTGGTSATIGRYIRSQGYETQLMVVDPQNSVFLDYWQTRDASLRSPVGSKIEGIGRPRVEPSFIPDVVDEMLRVPDAASVATALWLETQLGRKVGASTGTNMWGVLQLAARMREEGRTGSLVTLLCDSGERYLESYYNPQWVAANIGDIAPWQAELARLVGRT	PGPT0002810_1642	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
BMS020_03491	459	decR_2	COG1522	DNA-binding transcriptional activator DecR	ATGTTAGATAAAATTGACCGTAAGCTGCTGGCGCTGCTGCAGGAAGATTGCACCCTCTCTTTGCAGGCGCTGGCTGATGCCGTTAATCTGACCACGACCCCTTGCTGGAAACGCCTGAAACGACTCGAGGATGAGGGTATTCTCCGCGGGCGCGTCGCCTTACTGGATGCGGAAAAGGTGGGGCTGGGGCTGACGGCGTTTGTCCTGATCAAGACCCAACATCACAGCAGCGACTGGTATTGCCATTTTGTGAGCGAAGTGACGCAGATGGCTGAAGTGCTCGGCTTCTGGCGGATGGCGGGGGAGTATGACTATTTGCTGCGGGTGCAGGTGGCCGATATGAAGCGCTATGACGACTTTTATAAACGTTTGGTGAACAGCGTGCCGGGGCTGTCGGATGTCACTTCGAGTTTTGCCATGGAACAGATAAAATACACCACCGCCTTGCCTGTCGAATAA	MLDKIDRKLLALLQEDCTLSLQALADAVNLTTTPCWKRLKRLEDEGILRGRVALLDAEKVGLGLTAFVLIKTQHHSSDWYCHFVSEVTQMAEVLGFWRMAGEYDYLLRVQVADMKRYDDFYKRLVNSVPGLSDVTSSFAMEQIKYTTALPVE				NA	NA	NA	NA	NA
BMS020_03492	1773	yheI	COG1132	putative multidrug resistance ABC transporter ATP-binding/permease protein YheI	TTGCGATTATTTGCACAACTCAGCTGGTATTTCCGCCGGGAGTGGCGCCGCTATCTTGGTGCCATTGCCCTGCTGGCCATTATTGCCGTCCTGCAGCTTGTTCCGCCGAAGGTGGTGGGCATTGTGGTCGACGGCGTGACGCAACAACATTACACCGCGGAGAAGGTGTGGATGTGGATCGGCGCGCTGGTGCTGATCGCGGTGATGGTTTACCTGCTGCGCTATGTCTGGCGCGTGCTGCTGTTCGGCGCCTCTTACCAGCTGGCGGTTGAACTGCGGGAAGACTTTTACCGGCAGCTGAGCCGCCAGCATCCGGCGTTCTATTTGCGCCATCGCACCGGGGATCTGATCGCCCGCGCCACCAACGACGTGGACCGGGTGGTGTTTGCCGCCGGTGAAGGGGTGTTAACCCTGGTGGATTCCCTGGTGATGGGCTGTGCGGTGTTGATTGTGATGTCGACGCAGATTAGCTGGCAGCTCACCCTGCTGGCGCTGCTGCCGATGCCGCTGATGGCCCTGGCGATCAAACGCAACGGCGATGCCCTTCACGAACGTTTTCGCGTTGCCCAGGCGGCCTTTTCCAGCCTCAACGATCGCACGCAGGAGAGTCTGACCAGCATCCGCATGATTAAGGCGTTCGGGCTGGAGGATCGCCAGTCGGCGCAGTTTGCCGCCGATGCGGCCGATACCGGAGCGAAAAATATGCGCGTGGCGCGCATTGACGCTCGCTTCGACCCTACTATCTATATCGCCATCGGGGCGGCGAATCTGCTGGCCATCGGCGGCGGCAGCTGGATGGTGATCCACGGTAGCCTGACGCTGGGTCAGCTCACCAGCTTTGTGATGTACCTTGGTCTGATGATCTGGCCGATGCTGGCGCTGGCGTGGATGTTTAACATCGTGGAGCGCGGTAGCGCGGCCTATGGCCGTATTCGCACCATGCTCGAAGAGGCACCGGCGGTGGACGACGGGACCGAGACGGTACCGGCTGGCCGCGGCGTCCTGCAGGTCGCTATCCGCGATTTCATCTATCCGCAGGCGAGCAAGCCTTCGCTGGAACAGGTTAATTTTACCCTGCAGCCGGGGCAAATGCTGGGCATCTGCGGGCCGACGGGCGCTGGCAAAAGCACCATTCTGGCCCTGCTGCAGCGCCATTTTGACGTCACCAGCGGCGAGATCCGCTTTCACGATCTGCCGCTACCGCGTCTGCAGCTCGACAGCTGGCGCGAACGGCTGGCGGTGGTCAATCAGACGCCGTTTTTATTCTCCGATACCGTCGCCAATAATATCGCGCTGGGAAAACCGGACGCGACGCCGGAACAGATTGAGCGGGTGGCGCGGCTGGCCAGCGTGCATGACGACATTCTGCGTCTGCCCCAGGGGTACGATACCGAAGTGGGCGAGCGCGGCGTGATGCTCTCCGGCGGCCAGAAACAGCGCATCTCGATTGCCCGCGCCCTGCTGCTGGAGGCCGAAATTCTGATCCTTGATGATGCTTTATCCGCGGTGGATGGCCGCACCGAACACCAGATCCTGCATAACCTGCGCCAGTGGGGAGAGGGGCGGACGGTGATCATCAGCGCCCACCGCCTGTCGGCGCTGACTGAGGCCAGCGAAATCCTGGTGCTGCAGCATGGGCATGTCGCCCAGCGCGGCCGCCATGAGGCGCTGGCGGTGCAGCCCGGCTGGTACCGCGACATGTACCGGTATCAGCAGCTGGAAGCCGCGCTCGACGAGGTTCCCCAGGAGCAAGAGGAGGCCCTGGATGCGTAG	MRLFAQLSWYFRREWRRYLGAIALLAIIAVLQLVPPKVVGIVVDGVTQQHYTAEKVWMWIGALVLIAVMVYLLRYVWRVLLFGASYQLAVELREDFYRQLSRQHPAFYLRHRTGDLIARATNDVDRVVFAAGEGVLTLVDSLVMGCAVLIVMSTQISWQLTLLALLPMPLMALAIKRNGDALHERFRVAQAAFSSLNDRTQESLTSIRMIKAFGLEDRQSAQFAADAADTGAKNMRVARIDARFDPTIYIAIGAANLLAIGGGSWMVIHGSLTLGQLTSFVMYLGLMIWPMLALAWMFNIVERGSAAYGRIRTMLEEAPAVDDGTETVPAGRGVLQVAIRDFIYPQASKPSLEQVNFTLQPGQMLGICGPTGAGKSTILALLQRHFDVTSGEIRFHDLPLPRLQLDSWRERLAVVNQTPFLFSDTVANNIALGKPDATPEQIERVARLASVHDDILRLPQGYDTEVGERGVMLSGGQKQRISIARALLLEAEILILDDALSAVDGRTEHQILHNLRQWGEGRTVIISAHRLSALTEASEILVLQHGHVAQRGRHEALAVQPGWYRDMYRYQQLEAALDEVPQEQEEALDA	PGPT0029040_555	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
BMS020_03493	1779	mdlB	COG1132	Multidrug resistance-like ATP-binding protein MdlB	ATGCGTAGCTTTACCGAACTCTGGCCGACGCTTAAACGCCTGCTGGCCTATGGTTCACCGTGGCGTAAGCCGCTGGCCATCGCGGTGGCGATGATGTGGATCGCGGCGGCGGCGGAGGTGAGCGGCCCGCTGCTTATCAGCTATTTCATCGACAATATGGTGGCGAAACAGACTCTGCCGCTGAAGCTGGTGGCAGGCCTGGCGGCAGCCTATATCGGTCTGCAGCTGCTGGCGGCGCTACTGCATTATAACCAGTCGCTGCTGTTTAACCGCGCCGCGGTCGGCGTGGTCCAGCAGTTACGCAGCGATGTGATGGATGCCGCCCTGCATCAGCCGCTCAGCGAGTTTGATACTCAGCCGGTCGGGCAGCTGATCTCACGCGTGACCAACGATACCGAAGTCATTCGTGACCTGTATGTGACGGTAGTGGCGACGGTGCTGCGCAGCGCGGCGCTGATCGGCGCGATGCTGGTGGCGATGTTTAGCCTCGACTGGCGGATGGCGCTGGTGGCGATCGCGATTTTCCCGGCGGTGCTGATCGTGATGATCATTTATCAGCGCTATAGCACGCCGATCGTGCGCCGGGTGCGCGCCTGGCTTGCCGACATCAACGATGGCTTTAACGAAGTGATCAACGGCATGGGGGTTATCCAGCAGTTCCGCCAGCAGGCGCGCTTTGGCGAACGGATGCGCGAGGCCAGCTACGCCCACTACCTGGCGCGGATGCAGACGCTGCGCCTGGACGGTTTTCTGCTGCGTCCGCTGCTGAGCCTCTTTTCCTCGCTGGTGCTGTGCGGGCTGCTGATGCTGTTCGGCTTTAGCGCGGCGGGCACGATTGAGGTCGGGGTGCTGTACGCGTTTATCAGCTATCTCGGACGCCTCAACGAGCCGCTCATTGAGCTGACCACCCAGCAGTCGATGCTGCAGCAGGCGGTGGTCGCTGGCGAACGCGTTTTCGAACTGATGGACCGTCCGCGCCAGGCGTGGGGCGCCGATGACGCGCCGCTGAGCAGCGGTCGGGTGGAAATCGACCATCTCTCCTTTGCCTACCGCGGGGATCGTCTGGTCCTCCAGGATATCACGCTGGATATACCGTCCCGCAGTTTTGTGGCGCTGGTCGGGCATACCGGCAGTGGGAAGAGTACCCTCGCCAGTCTGATGATGGGCTATTACCCGTTAACCCACGGGGAGATCCGCATCGATGGCCGGCCGCTCTCTTCTCTCAGCCACAGCGCGTTGCGTCGGGGCATCGCGATGGTGCAACAGGATCCGGTGGTGCTGGCGGATACCTTCTACGCCAACGTCGCGCTGGGCCGGGACATCAGCGAAACACAGGTCTGGGAAGCGCTGGAGGCGGTGCAGCTGGCGGCGGTGGCGCGCAGCATGCGCGACGGCCTGTACACCCAGCTGGGCGAGCAGGGCAATAATCTCTCCGTCGGACAGAAGCAGCTGCTGGCGCTGGCGCGCGTGCTGGTGGAGACCCCGCAGGTTCTGATTCTGGATGAGGCGACGGCGAACATCGACTCCGGCACCGAGCAGGCGATCCAGCAGGCGCTGGCGAAGGTTCGCCAGCATACCACTCTGGTGGTCATTGCCCATCGCCTGTCGACCATCGTTGAGGCGGATACCATTCTGGTCCTGCATCGCGGTCAGGCCGTCGAGCGGGGCAACCATCAGCAACTGCTGGCGGCGAAAGGCCGCTACTGGCAGATGTATCAGCTACAGCTGGCTGGTGAAGAGCTGGCGGCCAGCGCCAGAGAAGAGTCGCTCAGCGCCTGA	MRSFTELWPTLKRLLAYGSPWRKPLAIAVAMMWIAAAAEVSGPLLISYFIDNMVAKQTLPLKLVAGLAAAYIGLQLLAALLHYNQSLLFNRAAVGVVQQLRSDVMDAALHQPLSEFDTQPVGQLISRVTNDTEVIRDLYVTVVATVLRSAALIGAMLVAMFSLDWRMALVAIAIFPAVLIVMIIYQRYSTPIVRRVRAWLADINDGFNEVINGMGVIQQFRQQARFGERMREASYAHYLARMQTLRLDGFLLRPLLSLFSSLVLCGLLMLFGFSAAGTIEVGVLYAFISYLGRLNEPLIELTTQQSMLQQAVVAGERVFELMDRPRQAWGADDAPLSSGRVEIDHLSFAYRGDRLVLQDITLDIPSRSFVALVGHTGSGKSTLASLMMGYYPLTHGEIRIDGRPLSSLSHSALRRGIAMVQQDPVVLADTFYANVALGRDISETQVWEALEAVQLAAVARSMRDGLYTQLGEQGNNLSVGQKQLLALARVLVETPQVLILDEATANIDSGTEQAIQQALAKVRQHTTLVVIAHRLSTIVEADTILVLHRGQAVERGNHQQLLAAKGRYWQMYQLQLAGEELAASAREESLSA	PGPT0029045_1344	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
BMS020_03494	339	glnK	COG0347	Nitrogen regulatory protein P-II 2	ATGAAGCTGGTTACCGTGGTAATCAAACCATTCAAACTGGAAGACGTGCGTGAAGCCTTGTCTTCCATCGGCATTCAGGGCCTGACGGTCACTGAAGTCAAAGGATTTGGCCGTCAGAAAGGTCATGCGGAGCTCTACCGCGGCGCCGAGTATAGCGTCAACTTTCTGCCAAAAGTGAAGATTGATGTGGCGATCGCCGACGATCAGCTGGATGAAGTTATCGATGTCATCAGCAAAGCGGCTTACACCGGAAAAATTGGCGACGGCAAAATTTTTGTCGCTGAATTGCAGCGCGTCATTCGCATCCGTACCGGCGAAGCTGACGAAGCGGCACTGTAA	MKLVTVVIKPFKLEDVREALSSIGIQGLTVTEVKGFGRQKGHAELYRGAEYSVNFLPKVKIDVAIADDQLDEVIDVISKAAYTGKIGDGKIFVAELQRVIRIRTGEADEAAL	PGPT0000675_423	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000675-glnK|glnZ-K04752	NA	NA
BMS020_03495	1287	amtB_2		Ammonia channel	ATGAAAATGGCAACAATGAAATCGGGTCTGGGGGCGTTAGCCCTTCTTCCGGGGCTGGCGATGGCCGCGCCTGCGGTGGCGGACAAAGCCGATAATGCGTTTATGATGATTTGCACCGCGCTGGTTCTGTTTATGACTATCCCGGGGATTGCGCTGTTTTACGGCGGGCTGATCCGCGGTAAGAACGTTCTTTCCATGCTGACGCAGGTGATTGTCACCTTTGGCCTCGTCTGCGTACTGTGGGTCATTTATGGCTATACCCTGGCCTTCGGCACCGGCGGCAGCTTCTTCGGCAGCTTTGACTGGGTAATGCTGAAAAATATTGAACTGAAAGCGCTGATGGGCACCTTCTATCAGTATATCCACGTCGCCTTCCAGGGCTCGTTCGCCTGCATCACCGTCGGGCTGATCGTCGGCGCGCTGGCTGAACGTATCCGTTTCTCCGCGGTGCTGATTTTCGTGGTGGTGTGGATGACGCTCTCCTACGTGCCGATTGCGCATATGGTCTGGGGCGGCGGTCTGCTGGCGACCCATGGCGCGCTGGATTTCGCCGGCGGCACCGTTGTGCACATCAACGCCGCGGTCGCCGGGCTGGTGGGCGCCTATATGATGGGCAAACGCGTGGGCTTCGGCAAAGAAGCGTTCAAACCGCATAACCTGCCGATGGTGTTCACCGGCACCGCTATCCTCTATGTGGGCTGGTTCGGCTTCAACGCCGGCTCTGCCAGCGCAGCGAATGAAATCGCGGCCCTGGCGTTCGTTAACACCGTCGTGGCGACCGCCGCGGCTATCCTGGCGTGGACCTTTGGCGAATGGGCTCTGCGCGGCAAACCTTCACTGCTGGGCGCCTGCTCCGGGGCAATTGCCGGTCTGGTTGGCGTTACGCCGGCGTGTGGTTATATCGGTGTCGGCGGCGCGCTGATCGTCGGTATCGCCTCTGGCCTGGCGGGTATCTGGGGCGTGACTGCGCTGAAACGCTGGCTGCGTGTGGATGACCCTTGCGACGTCTTCGGCGTCCACGGCGTCTGCGGCATCGTCGGCTGTATCCTGACCGGTATCTTCGCTGCGACTTCACTGGGCGGCGTCGGTTATGCGGAAGGCGTCACCATGGGCCATCAGCTGCTGGTGCAGCTGGAAAGTATCGGCATTACCGTGGTCTGGTCCGGCGTCGTCGCTTTCATCGGCTACAAAGTGGCGGATATGACCGTAGGGCTGCGTGTACCGGAAGAGCAGGAGCGCGAAGGGCTGGACGTCAACAGCCATGGCGAAAACGCCTACAACGCCTGA	MKMATMKSGLGALALLPGLAMAAPAVADKADNAFMMICTALVLFMTIPGIALFYGGLIRGKNVLSMLTQVIVTFGLVCVLWVIYGYTLAFGTGGSFFGSFDWVMLKNIELKALMGTFYQYIHVAFQGSFACITVGLIVGALAERIRFSAVLIFVVVWMTLSYVPIAHMVWGGGLLATHGALDFAGGTVVHINAAVAGLVGAYMMGKRVGFGKEAFKPHNLPMVFTGTAILYVGWFGFNAGSASAANEIAALAFVNTVVATAAAILAWTFGEWALRGKPSLLGACSGAIAGLVGVTPACGYIGVGGALIVGIASGLAGIWGVTALKRWLRVDDPCDVFGVHGVCGIVGCILTGIFAATSLGGVGYAEGVTMGHQLLVQLESIGITVVWSGVVAFIGYKVADMTVGLRVPEEQEREGLDVNSHGENAYNA	PGPT0000840_5372	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320	NA	NA
BMS020_03496	864	tesB_1	COG1946	Acyl-CoA thioesterase 2	ATGAGTCAGGCACTCTCTAACCTGCTGGCATTATTAGATCTGGAAAAAATTGAGGAAGGGTTGTTCCGTGGACAGAGCGAAGACCTGGGATTGCGCCAGGTTTTTGGCGGCCAGGTGGTGGGCCAGGCGCTGTATGCCGCAAAAGAGACCGTGCCCGTTGAACGTCTGGTGCATTCGTTTCACAGCTACTTTCTGCGCCCCGGCGACAGTCAAAAACCGATCGTCTACGATGTGGAGGTCCTGCGCGACGGCAACAGCTTTAGCGCCCGCCGGGTCGCCGCCATCCAGAACGGGAAGCCGATCTTCTATATGACCGCCTCCTTCCAGGCGCCAGAGCACGGCTATGAGCATCAGAAAGCGATGCCGGCCGCCCCCTCCCCTGACGGACTGCCTTCGGAAACCGACATCGCCCGCAAGCTGGCGCATCTCCTGCCGCCGCAGGTGAAAGACAAATTCCTCTGCGATAAGCCACTGGAGATCCGACCGGTGGAATTTCATAACCCGATGAAAGGCCATATCGCCGAGCCGGCGCGCCAGGTCTGGCTGCGCGCCAACGGCGCCGTTCCCGACGATCTGCGCATTCATCAGTATCTGCTGGGCTATGCCTCGGACTTTAACTTCCTGCCGGTGGCGCTGCAGCCGCACGGCGTTGGTTTCCTTGAGCCCGGCATGCAGGTCGCCACCATCGACCACTCAATGTGGTTCCATCGGCCGTTTAATATCAATGAGTGGCTGCTGTACAGCGTTGAAAGCACCTCGGCCTCCAGCGCCCGCGGCTTCGTTCGCGGCGAGTTTTACACGCAGGATGGCACGCTGGTTGCCTCAACGGTCCAGGAAGGGGTGATGCGCAACCGCAACGCATAA	MSQALSNLLALLDLEKIEEGLFRGQSEDLGLRQVFGGQVVGQALYAAKETVPVERLVHSFHSYFLRPGDSQKPIVYDVEVLRDGNSFSARRVAAIQNGKPIFYMTASFQAPEHGYEHQKAMPAAPSPDGLPSETDIARKLAHLLPPQVKDKFLCDKPLEIRPVEFHNPMKGHIAEPARQVWLRANGAVPDDLRIHQYLLGYASDFNFLPVALQPHGVGFLEPGMQVATIDHSMWFHRPFNINEWLLYSVESTSASSARGFVRGEFYTQDGTLVASTVQEGVMRNRNA	PGPT0001835_1615	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001835-tesB-K10805	NA	NA
BMS020_03497	492	ybaY	COG3126	putative lipoprotein YbaY	ATGAAATTTGCCTATATGTTTAGTGCCTTAGCCGTCGCCGCGACGCTGACCGCCTGTGCTAATCACCACTCCACCAGTTCTTCCGCTCAGGCAGCCGCACCCGACCCTTACGGTATTGCGACGCTGAGCGTGGCGCAGCAGCAGCCGAGCGTCACGGGGACGATTAATATCCGCCAGAGAATCGCATTACCGCCGGATGCGGTGCTGACGGTGACCCTGTCGGATGCTTCTCTGGCAGATGCGCCAGCCCGCGTATTGTCGCAAAAAGCGGTGCGTACCGAAGGCAAGCAGGCGCCATTTAACTTTGCCCTGCCTTACAACCCGGCAGATATTCAACCGAACGCCCGCATTCTGTTGAGTGCAGCGATTACGGTTAATGGCCAGCTGATGTTCATTACCGATACCGTGCAGACGGTGATCAATCAGGGGGGCACCCATGCCGACCTGACGCTGGTTCCGGTTCAGCAGACCGCCGTACCTGTCGCACAGTAA	MKFAYMFSALAVAATLTACANHHSTSSSAQAAAPDPYGIATLSVAQQQPSVTGTINIRQRIALPPDAVLTVTLSDASLADAPARVLSQKAVRTEGKQAPFNFALPYNPADIQPNARILLSAAITVNGQLMFITDTVQTVINQGGTHADLTLVPVQQTAVPVAQ				NA	NA	NA	NA	NA
BMS020_03498	312	atl	COG3695	DNA base-flipping protein	ATGGATCCGCTCGATACATTTCCCCAACGTGTCTGGCACATTGTGGCGTCAATACCGGAAGGGTATGTCACGACCTATGGCGATGTCGCCAGGCTGGCCGGTTCTCCGCGCGCGGCGCGCCAGGTGGGCGGTGTGCTGAAGCGTCTGCCGGAAGGGTCCACTCTGCCCTGGCATCGGGTGGTCAATCGCCATGGCGATATCTCCCTCACCGGCCCCGATCTGCAGCGGCAGCGTCAGGCATTGCTGGCCGAAGGGGTACAGGTCTCCGGCAGCGGCCATATCGATCTCCAGCACTATCGCTGGGTTTACTGA	MDPLDTFPQRVWHIVASIPEGYVTTYGDVARLAGSPRAARQVGGVLKRLPEGSTLPWHRVVNRHGDISLTGPDLQRQRQALLAEGVQVSGSGHIDLQHYRWVY				NA	NA	NA	NA	NA
BMS020_03499	408			hypothetical protein	ATGACTGACTCATCACCACAGACCATCACTCTGCCTTTGCCCGCCATTGAAGGGATGACCATCGCCTTTCAGGGGGTGAATTATCTGCGCCCTGAAAAAATGCTCAACTTCGTGACTATCAGTCAGGCGCCGGTGCGGGCGGTCACGCCGCTGGCGCTGCTCTATTCCACCGTCGGCGTGCTGCGTCAGGTGGAACTGCGCAAGCTACCGGTCTACATCAGCGGTCGGGTGGTCTACCCCATCTCGTCGCTGACCATGCCGGGCCTGCGCGCGAAGCTGATCATCAACGCCACCTCGCAGCGGTTAAAATTCCTGGAGAGCCTCATCGCCAGTTCACCTTCCGACAATGTCCATGGCATGCAGATCCTCGGCCTGGCCCTGACGTTCACCGTCGAACAGCCCGCCTGA	MTDSSPQTITLPLPAIEGMTIAFQGVNYLRPEKMLNFVTISQAPVRAVTPLALLYSTVGVLRQVELRKLPVYISGRVVYPISSLTMPGLRAKLIINATSQRLKFLESLIASSPSDNVHGMQILGLALTFTVEQPA				NA	NA	NA	NA	NA
BMS020_03501	258			hypothetical protein	ATGACCACAGTGGTTTTGAATGTAAAAATTGACGCTGAGTTAAAAGAGAAGTTGCGTCATTATGCGGAAGTGAATAACGAGAACCTGGGTACGGCAACGGAAAAGCTGCTGCAGCTGGCTTTTCAGCTGGAGGCATCAGCAGGTGAGGCGGGGGTGACGGAAGAGGACATTGACAGCCAGCATACCGAAGAGGAAGCGACGCCATTAACCCCTAAAGAAATCAAAGCATTAAGAAAACTTCTGAAGAAGAAAAAATGA	MTTVVLNVKIDAELKEKLRHYAEVNNENLGTATEKLLQLAFQLEASAGEAGVTEEDIDSQHTEEEATPLTPKEIKALRKLLKKKK				NA	NA	NA	NA	NA
BMS020_03502	216			hypothetical protein	ATGAAACAACAATTCTCTACAGCCAGCAACTATAGCGAAGCCTGCGATATGTTGCGCTCAGGATACGTAAAACACGTTCGCCTGAACTGGAATATCGGTAGTGATGAGTTCTTTCGCATTGCCTCCGACTGGTGTGACACCGGCGCTAAAATTAAAAAAGATGAAGATGGCTTTATTATTTCCCTGAAAGGGTTTCCTATTCCGCGCCAGCATTAA	MKQQFSTASNYSEACDMLRSGYVKHVRLNWNIGSDEFFRIASDWCDTGAKIKKDEDGFIISLKGFPIPRQH				NA	NA	NA	NA	NA
BMS020_03503	1428	norG_1	COG1167	HTH-type transcriptional regulator NorG	ATGTCAGCCCGACGCTTTGGAACACAGTCCCTGGTACGCCTGCTTGGCAACTGGCAGGAGTCCAGTTCCCGCACACCGCTATGGCGCCAGCTGGCGGAAGCGCTCCGCCTGCTGATCCTCGATGGCCGTCTGACGCTACAGACGCGCCTGCCCGGCGAGCGCGAGCTGGCGGCAGCCCTCAACGTCAGCCGGACGACCATCGCCAGCGCCCTCGGCCAGCTGCGGGAGGAGGGGTTTCTCCATAGCCGCCAGGGGAGCGGGTCGCGCATTGTCCTGCCGGAACGCCCTGCCGATCTGCCGCCGCCCTCTGCGACCCCCTCGACGATCAATCTCTCTACCGCTGCCCTCAGCGCCGGTCCGGAGGTCCATCAGGCCTTCCAGCACGCCATGACCCTGCTGCCGCCCTATCTCACCCAGACCGGCTACGATCAGCAGGGGCTCCCGGTGCTGCGGGAAGCGATTGCCCGGCGATACAGCGAACGTGGCCTGCCGACGCGGCCCGATGAAGTGATGGTGGTCAACGGCGCGCTCAGCGCCTTCGCGCTGATCCTGCGTCTGTTCACCGGCCCCGGTGACCGGGTGGTCATTGACGCCCCGACCTATCCAATGGCCATCAGCGCCATTCAGGGCGCCTCCTGCCGGCCCGTCGGGGTCGCACTCCCCCAGCAGGGATGGGACTGCGATGGATTAGCGGCGACCATTGCGCAGACCGCGCCGCGTCTGGCATGGCTGATGCCGGATTTTCACAACCCTACCGGGCGCTGTATGGATGCCCCTACCCGCCAGCGGGTCGCGGACATCGCGGCCAGGACGCGAACAACGCTGGTGATCGATGAGACCATGGTCGACCTCTGGTATAACGCCCCGCCCCCGCCGCCGCTGGCCTGCTTTAATCCCGACGCCGCGGTGATCACTATCGGTTCGGCCGGGAAAAGTTTCTGGGGGGGACTGCGCATCGGCTGGATCCGCGCCAGCGCGCGAACGATCGCCTCGCTGATTCAGGCCCGCGACTCTCTGGACCTGGGTACGCCGCTGCTGGAGCAGTTGGCCTGCAGCTGGCTGCTGGCAAACGCCGCCACGCTGCTACCGCCGCGACGGGAGATGCTGCAGGCGCGCCGGGACATGTGCGAAGTGCTGATGAAAGAGTATTTTCCCCGCTGGCGCTTTACGCCACCGGAAGGCGGACTCTCTTTTTGGGTGGAACTCCCTGACATGCTGGCCACCCTGTTCTCTGCGCGGGCGGAAAGCCAGGGGATCCATATCGGCACCGGGACGCGGTTTGGTCTGGAGGGCGCGTTCGATCGCTATTTACGTCTGCCGTTTACCTTGCCGGACGAAGCATTGCGCCAGGCCTTCTCCACGCTACAACCATTGTGGCATAGCCTTGCAGAACAGCGGGAAAATACGCGTTTGCGGAAAATAATATAA	MSARRFGTQSLVRLLGNWQESSSRTPLWRQLAEALRLLILDGRLTLQTRLPGERELAAALNVSRTTIASALGQLREEGFLHSRQGSGSRIVLPERPADLPPPSATPSTINLSTAALSAGPEVHQAFQHAMTLLPPYLTQTGYDQQGLPVLREAIARRYSERGLPTRPDEVMVVNGALSAFALILRLFTGPGDRVVIDAPTYPMAISAIQGASCRPVGVALPQQGWDCDGLAATIAQTAPRLAWLMPDFHNPTGRCMDAPTRQRVADIAARTRTTLVIDETMVDLWYNAPPPPPLACFNPDAAVITIGSAGKSFWGGLRIGWIRASARTIASLIQARDSLDLGTPLLEQLACSWLLANAATLLPPRREMLQARRDMCEVLMKEYFPRWRFTPPEGGLSFWVELPDMLATLFSARAESQGIHIGTGTRFGLEGAFDRYLRLPFTLPDEALRQAFSTLQPLWHSLAEQRENTRLRKII				NA	NA	NA	NA	NA
BMS020_03504	615			hypothetical protein	ATGCTTCGTCGCCTGCTGCAGTTATATATCGGTCTGGTGCTCTACGGCGTGTCCACGGCGCTCTTCGTGCATGCTAATCTCGGCGCCGATCCGTGGGACGTTTTTCATCTTGGGGTGGCTAAACAGCTGGGGATCAGTTTCGGGACCGTGATTATCCTGACCGGCGCCGCGGTGCTGCTGCTATGGATCCCGATTCGGCAGATGCCGGGGCTCGGCACGGTGAGTAATGTTATCGTGCTGGGGCTGGCGGCGGACGCCACGCTGGCCGTCCTGCCTCCGCTGGAGTCGCTGGTGGCGCGCAGTGCGCTGCTGGTGGTGGCGATTGTGATGAACGCTATCGCCACCGGGATGTACATTGGCGCGGGCTTTGGCCCGGGTCCGCGCGATGGCCTGATGACCGGCCTGCACGCTCGCACCGGCTGGTCATTGCGCGGTATCCGTACGGCGATCGAGCTCTCCGTGCTGCTGATTGGCTGTCTGCTGGGGGGCAAGTTTGGCGTCGGAACCGTCATTTACGCGCTGTCGATTGGGCCGCTGATCCAGCTGTGCCTGCCGTGGTTCAGCCAGCCCGTCCGCCGCCGGGCGGTCAGCACTCCCCGGGAGAGCGTCTCCTGA	MLRRLLQLYIGLVLYGVSTALFVHANLGADPWDVFHLGVAKQLGISFGTVIILTGAAVLLLWIPIRQMPGLGTVSNVIVLGLAADATLAVLPPLESLVARSALLVVAIVMNAIATGMYIGAGFGPGPRDGLMTGLHARTGWSLRGIRTAIELSVLLIGCLLGGKFGVGTVIYALSIGPLIQLCLPWFSQPVRRRAVSTPRESVS	PGPT0026395_859	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-SURFACE_PROTEIN,PGPT0026395-yczE|yyaS-K07149	NA	NA
BMS020_03505	855	rcnA	COG2215	Nickel/cobalt efflux system RcnA	ATGAACGATTTCACTTCCCTTCTGCAGCAGGGCAATGCCTGGCTGTTTATTCCCAGCGCGATACTGCTCGGCGCGCTGCACGGCCTTGAACCCGGCCACTCAAAAACGATGATGGCCGCCTTTATCGTGGCGGTACGGGGAACCTTAAAGCAGGCGGTTCTGTTAGGGCTGGCGGCGACGGTCTCGCATACCGCGGTGGTCTGGCTGATCGCCATGGCCGGCCTGTGGTTTGGCCGCGGCTGGAACGCCCAGACTTCTGAGCCCTGGTTTCAGCTGATCTCGGGGATTGTCATTGTGTTGATTGCCTGCTGGATGCTCTGGCGCACCTGGCGCGAATCGCGGCCCCACGCCCACCACCATCATCCTCAGCACGGGCACGACCATGACCATGACCATGACCATGACCATGACCATCATCATCATGAACATCATGACCACCATCATTCTCACTCCCCTGGCGCGCCGCTGGTGGCGGAGGAGTGGCAGGACGCGCATCAGCGGGCCCATGCTCAGGAGATTAACCGGCGCTTCGATGGCCGCCAGGTGACGACCGGGCAGATTGTGATGTTTGGCCTGACCGGCGGGCTGATCCCCTGCCCGGCGTCCATTACCGTGCTGCTTATCTGTTTACAGCTGAAGAAATTCTCGCTGGGCGCCACGCTGGTACTCGGCTTTAGCGTCGGTCTGGCGCTGACGCTGGTGGCTTCCGGGGCTATCGCCGCCCTGAGCATAAAACATGCCACCCGCCGCTGGCCATGGCTTAACGACATCTCGCGCAAAGCGCCCTGGATCTCAGGCTTACTGATTATTGTGGTGGGGATCTACATGATGCTTCATGGCCTGAGCGGCCTGTAA	MNDFTSLLQQGNAWLFIPSAILLGALHGLEPGHSKTMMAAFIVAVRGTLKQAVLLGLAATVSHTAVVWLIAMAGLWFGRGWNAQTSEPWFQLISGIVIVLIACWMLWRTWRESRPHAHHHHPQHGHDHDHDHDHDHDHHHHEHHDHHHSHSPGAPLVAEEWQDAHQRAHAQEINRRFDGRQVTTGQIVMFGLTGGLIPCPASITVLLICLQLKKFSLGATLVLGFSVGLALTLVASGAIAALSIKHATRRWPWLNDISRKAPWISGLLIIVVGIYMMLHGLSGL	PGPT0004550_1285	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004550-rcnA-K08970	NA	NA
BMS020_03506	273	rcnR_1	COG1937	Transcriptional repressor RcnR	ATGTCACACACAGTGAGAGACAAAAAGAAGTTACTGACCCGGCTGAAGAAAATTCAGGGGCAGAGTACCGCATTAGAGAAAATGCTTAATCGCGAGCATGAGTGCGCTGAGGTGCTACAGCAGCTGGCGGCGATCCGCGGCGCGGTCAATGGCATGATGCTGCAGGTTATCCAGGGGCATTTGACCGACCATGTGGTGAAAGAGCCAGATGAGACGCAGCGTGAAGCGGATCTGGAGACGGTGATGCAGGTGATTAAATCCTATCTGAAGTAG	MSHTVRDKKKLLTRLKKIQGQSTALEKMLNREHECAEVLQQLAAIRGAVNGMMLQVIQGHLTDHVVKEPDETQREADLETVMQVIKSYLK				NA	NA	NA	NA	NA
BMS020_03507	1560	pdeB_1	COG4943	putative cyclic di-GMP phosphodiesterase PdeB	ATGAGGACCCGGCATCTGATGGCGCTGTTTACAGGGGTGCTGATACTGGCCATCATCCTGCCCATCTCGCTCAGCATCTGGCAGGCGGCGCGGCAGGCCAAAATGCAGTTCTATCGTGAACTGGATGATTATTCCAACCGCATCGTCGTCCGCACGCTGCAGGTCGCCGATCAGGCCCGGGAAGCGCTGCGGGAGGCCGATGCACATACAGCCTCGTCCTGTAGCCCTGAACATCTGCTCATGCTCCGCCGGATCGCCTATACCCACCGCTACGTTCAGGAAGTGCTCTGGCTGCAGGATTCCGTGCCGCAATGCTCCTCCCTGGAAGACCATAGCGTCGCGGTGACCTTCCCGCCACCGGACCACATTGCCTCCGACGGCTATCGCACCTGGCTGACCTCGATTAACGATCTTGGCCTCAATCACCAGATGACGGCCATGGCCAGCCAGCAGCATATGGTAATGATCGATCCCATCTCCTTCATTGATGTGGCGCCCGTCAGCGAGGAGAAGATCCATAGCATGCTGTTTGGTTTGGACCATCTGAAAATGGTGATCAGCAGCCAGCCGCTGCCGGCGAAGGCCTGGCAACGGATTAAAGACCCGCACCTGAATATGCTTACCCTGGATAATACGGTCTACCGGATCCAGCGCATTCCCGAGCTGGGATCCGGCATTGTGACCTGGTCATCCACCCTGCCGCTGCAGCAGCACATACGACAGCAGTTGATTTTCTGGCTCCCGGCCGGCATCTTCACCAGCCTGCTTGCCACCTGGCTGCTGCTGCGCCTGCTGAGACACCTGCGTTCACCGCGCAACAGTATGCTGGACGCCCTCCATTCCCAGGCGATTCAGGTTCACTATCAGCCGATTATTTCATTGCAGGACGGGAAAATCGCCGGAGCCGAAGCGCTGGCGCGCTGGCAGCAACCCGACGGTACCTATTTATCGCCGGATATCTTTATTCCCCTGGCCGAGCAGACCGGACTGATCACCCAGCTGACGGAAGATATCGTCAGGAAAATTTTCGCCGATCTGGGCCCCTGGCTGAGGCAGCGGCCGGAAGTGCATATCTCCATCAACCTGTCGGTGGATGACTTACGCTCTCCCACCCTGCCCATGCTGTTACGCGATCAGCTGCAGCACTGGGGGATCGCCGCCGAACAGATCATCCTTGAGATCACCGAGCGCGGGTTTGTCGACCCGGAGACCACCATGCCGGTGATCGCTCACTACCGTCAGGCTGGCCATCGGATCTCGATTGACGATTTCGGTACCGGCTACTCCAGTCTGAGCTATCTGCAGAAGCTGGACGTCGACACGCTGAAAATCGATAAATCCTTTGTCGATACCCTCGAGTACCGGCCGCTGACACCGCACATTATTGAAATGGCCAAGGCGCTCAATCTGACCACCGTCGCCGAAGGGGTGGAAACCGAAAGCCAGCGCGACTGGCTGCGACAGCATGGCGTTCAGTACGCCCAGGGGTGGCTGTACAGCAAAGCGCTGCCAAAAGAGTCATTTATTCAGTGGGCGGAAGATAATCTCCATGCGCATTAA	MRTRHLMALFTGVLILAIILPISLSIWQAARQAKMQFYRELDDYSNRIVVRTLQVADQAREALREADAHTASSCSPEHLLMLRRIAYTHRYVQEVLWLQDSVPQCSSLEDHSVAVTFPPPDHIASDGYRTWLTSINDLGLNHQMTAMASQQHMVMIDPISFIDVAPVSEEKIHSMLFGLDHLKMVISSQPLPAKAWQRIKDPHLNMLTLDNTVYRIQRIPELGSGIVTWSSTLPLQQHIRQQLIFWLPAGIFTSLLATWLLLRLLRHLRSPRNSMLDALHSQAIQVHYQPIISLQDGKIAGAEALARWQQPDGTYLSPDIFIPLAEQTGLITQLTEDIVRKIFADLGPWLRQRPEVHISINLSVDDLRSPTLPMLLRDQLQHWGIAAEQIILEITERGFVDPETTMPVIAHYRQAGHRISIDDFGTGYSSLSYLQKLDVDTLKIDKSFVDTLEYRPLTPHIIEMAKALNLTTVAEGVETESQRDWLRQHGVQYAQGWLYSKALPKESFIQWAEDNLHAH				NA	NA	NA	NA	NA
BMS020_03508	1110	malK_1	COG3839	Maltose/maltodextrin import ATP-binding protein MalK	ATGTCCAATATACGACTGAGGAATGTCACCAAAAGGTTCGGCAGCACGGTGACGCTGCACCAGGTCAATCTCGATATTGAAGATGGCGAGTTTGCGGTCTTCGTCGGCCCTTCCGGCTGTGGAAAATCGACGCTGTTACGTATGATTGCCGGGCTGGAAGAGGTTAGCGACGGGGAAGTGCTGATCGGCGATGAGGTGATGAACGATGTGGTCCCCGCCCGCCGCGGCGTGGCGATGGTTTTTCAGTCCTATGCGCTCTACCCACACATGACGGTGGCGGAGAATATGGGCTACGGGCTGAAGGTGAATAAAGTGCCGAAAGCGGAGATCCGTCGCCAGGTGGAAATGGTGGCCAAAACGCTGCAGCTCTCTCACCTGCTGGACCGTAAACCGAAGCAGCTCTCCGGCGGCCAGCGGCAGCGCGTGGCCATTGGCCGCGCTATCGTGCGTAATCCCCGGGTGTTTATGTTCGATGAGCCGCTTTCTAACCTCGACGCGGAACTGCGCGTCGATATGCGCCTGCATATTGCCCGCCTGCACCAGGAGCTGAAGACCACCATGGTGTATGTCACGCACGATCAGGTGGAGGCGATGACTCTCGCTGATAAAATCGTGGTCATGAACTACGGAAAGGTTGAACAAATGGGTTCGCCGATGGCGCTTTACTACAATCCGGTCAACAAATTCGTCGCCGGTTTTATCGGCTCGCCAAAGATGAACTTTTTACCCGCCACCGTCAGCGACTGGCAGCCAGAGCGTTTAACGGTCACCCTCGCCCAGGACCATCAGCTCACCCTGAACGTTGCCACCCAACCGCTTAACCCCGGCGCCGCGGTAACGCTGGGGATCCGGCCAGAGCACCTCACGCCTGAAGTCTCCACCGGTACCGTGGTGGAGTTTCAATGTGAAGTGGTGGAACGTCTGGGCAACAATACCTACCTGTTCGGCCAGTGCTATGGTCACGATAACGTCAAGGTTCTGCTGCCCGGCGACGTCCATTTCCGCCCGTGGCAGAAGATTAATCTGGCCTTCGATGACCGCTTCTGCATGGTGTTTGATGAGAACGATCTGCGCATCAGCGCCGATATCACGGCGCCAGACGCGCACTAA	MSNIRLRNVTKRFGSTVTLHQVNLDIEDGEFAVFVGPSGCGKSTLLRMIAGLEEVSDGEVLIGDEVMNDVVPARRGVAMVFQSYALYPHMTVAENMGYGLKVNKVPKAEIRRQVEMVAKTLQLSHLLDRKPKQLSGGQRQRVAIGRAIVRNPRVFMFDEPLSNLDAELRVDMRLHIARLHQELKTTMVYVTHDQVEAMTLADKIVVMNYGKVEQMGSPMALYYNPVNKFVAGFIGSPKMNFLPATVSDWQPERLTVTLAQDHQLTLNVATQPLNPGAAVTLGIRPEHLTPEVSTGTVVEFQCEVVERLGNNTYLFGQCYGHDNVKVLLPGDVHFRPWQKINLAFDDRFCMVFDENDLRISADITAPDAH	PGPT0014160_904	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0014160-malK|mtlK|thuK-K10111	NA	NA
BMS020_03509	1233	cycB	COG2182	Cyclodextrin-binding protein	ATGAAAAAGAACACGCTTGCTGCACTGATCCTTACCACCCTCGCGGCGGGGCAACTTACCAGCCTGCAGGCGCATGCCGCCGGGCAGCTCAACGTTTGGGAAGACATTAAAAAATCCACTGGCATCAAAACCGCGGTCAGCGATTTTGAGAAGCAGTACAACGTGAAGGTCAATCTGCAGGAGATGCCTTATGCCCAGCAGCTGGAAAAGCTGCGCCTCGACGGCCCGGCGGGCATTGGGCCGGACGTGCTGGTGATCCCGAATGACCAGCTCGGCGGCGCCGTCGTTCAGGGGCTTCTCTCGCCGCTCAACGTCGAGCAGGCGAAACAGGATGCCTTTACGCCAGCCTCTATCAATGCCTTCCGCATGGACAACGCGCTGTACGGCATCCCGAAAGCGGTGGAAACCCTGGTGCTTATCTACAACAAGGACCTGATCGACAAGCCGCTGGACAGCCTGCAGGCCTGGCTGGACTACTCGAAGACCCAGCGCGAGCAGAACAAATACGGCCTGCTGGCGAAGTTTGATCAGATCTACTACAGCTGGGGAGCCATTGGCCCGATGGGCGGCTATATCTTCGCGAAGAACGACGGCGGCGGTTTCAACCCGCAGCAGGTGGGGCTCAATACTCCCGGCGCCGTGGAAGCCGTGACCTTCCTGAAAAAATTCTATGCCGAGAAGGCTTTCCCTGCAGGGATCCTCGGCGATAACGGGCTGAACGCCATTGATTCGCTGTTTACCGAGAAAAAAGCGGCGGCGGTGATCAACGGCCCCTGGGCCTTCCAGCCGTATGAAGCCGCCGGTATCAACTATGGCGTGGTGCCGCTGCCGACCCTGCCGGACGGCAAGCCGATGAGCTCCTTCCTCGGCGTTAAGGGCTACGTGGTATCGACCTGGAGTAAAGACAAGGCGCTGGCGCAACAGTTTATCGAGTTCATCAACCAGCCGCAGTATGTAAAAGCCCGCTATGTCGCCACCGGCGAAATCCCGCCGCTGAAGGCGATGATTGACGACCCGGTGATTAAAAATGACGAAAAGGCCAGCGCCGTCGCCGTACAGTCGGCGCGGGCGATGGCCATGCCGGGCATTCCGGAGATGGGGGAAGTGTGGGGGCCGGCTAATGCCGCGCTTGAACTGAGCCTCACCGGCAAGCAGGCGCCGCAGGCCGCGCTCGATAACGCGGTGAAACAGATCAAGATGCAGATCGAAGCGATGCAGGCCAGCAATCAGTAA	MKKNTLAALILTTLAAGQLTSLQAHAAGQLNVWEDIKKSTGIKTAVSDFEKQYNVKVNLQEMPYAQQLEKLRLDGPAGIGPDVLVIPNDQLGGAVVQGLLSPLNVEQAKQDAFTPASINAFRMDNALYGIPKAVETLVLIYNKDLIDKPLDSLQAWLDYSKTQREQNKYGLLAKFDQIYYSWGAIGPMGGYIFAKNDGGGFNPQQVGLNTPGAVEAVTFLKKFYAEKAFPAGILGDNGLNAIDSLFTEKKAAAVINGPWAFQPYEAAGINYGVVPLPTLPDGKPMSSFLGVKGYVVSTWSKDKALAQQFIEFINQPQYVKARYVATGEIPPLKAMIDDPVIKNDEKASAVAVQSARAMAMPGIPEMGEVWGPANAALELSLTGKQAPQAALDNAVKQIKMQIEAMQASNQ	PGPT0016315_1016	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
BMS020_03510	1308			hypothetical protein	GTGAGCATCCATTCCAGCGAAAATTATAGCGACGCGTGCGGGCCCGGGCGCCATGCGTGGTGCGGCCTGCTGCTGGCAATCGTGCCGGGTTTCGGTCAGTTTTATCATCGCCAGTGGCTGAAGGGGCTGGTCTTCCTGGTGTTGTTGAGCAGCTTTCTGGGTATTTTTTATGACTTCCTGCGCGAGGGGCTGTGGGGGCTCTATACCCTGGGTGAAGAGGTGCCCCGGGATAACTCTATCTTCCTGTTAGCGGAGGGGATTATCAGCGTGCTGATCGTCGCTTTTGGCGTGCTGATCTATTTTCTCTCGCTGCGGGACGCGTGGCTGAACGGCAAAAAACGCGATGAGGGGGGCGCCCTGAACAGCGTGCGTAAGCAGTACCAGATGTTGCTGAGCGATGGCTTCCCGTACCTGATGATCACGCCAGGCTTTATTCTGCTGGTCTTTGTGGTGATCTTTCCCATTCTGTTTGGTTTCGCCATCGCCTTCACCAACTATAACCTGTACCACACGCCGCCGGCGAAGCTGGTGGACTGGGTGGGCCTGAAAAACTTCGTCAATATTTTCACCCTCTCCATCTGGCGCTCCACCTTCCTGGATGTGCTGCAGTGGACCGTGGTGTGGACGCTGCTGGCGACCACCCTGCAATGTACGGTGGGCGTGCTGTTGGCGATTCTGGTGAACCAAAAAGATCTGCGCTTTAAGCCGCTGATCCGCACTATCTTTATTTTGCCGTGGGCGGTGCCGGGGTTTGTCACCATCCTCGTCTTTGCCGGGATGTTCAATGACTCCTTCGGGGTGATTAACAACGCGATCCTGTCATTCTTCGGCATCAGTCCAAAGGCATGGCTGACCGACCCGTTCTGGACCAAAACCGCGCTGATCATGATGCAGACCTGGCTTGGCTTCCCGTTTGTCTTTGCCATGACCACCGGCGTGCTGCAGGCGATCCCGGACGATCTGTATGAAGCGGCGACGATGGACGGCGCCAGCGCCTTTACCCGCCTGCGCACCATCACCCTGCCGCTGGTGCTGTACGCGATCGCGCCGATCATCATCACCCAGTACACCTTCAACTTTAATAATTTCAACATCATTTATCTGTTTAACAACGGCGGCCCTGCAGTGGCGGGATCTAACGCCGGCGGGACGGATATTCTGGTGTCGTGGATCTATAAGCTGACGATGTCCTCGTCGCAGTACGCCATCGCGGCGACCATCACTATCCTGCTGTCGATCTTCGTCGTCGGCCTGGCGCTGTGGCAGTTCCGCGCCACCAAATCCTTCAAAAATGACGACATGGCGTAA	MSIHSSENYSDACGPGRHAWCGLLLAIVPGFGQFYHRQWLKGLVFLVLLSSFLGIFYDFLREGLWGLYTLGEEVPRDNSIFLLAEGIISVLIVAFGVLIYFLSLRDAWLNGKKRDEGGALNSVRKQYQMLLSDGFPYLMITPGFILLVFVVIFPILFGFAIAFTNYNLYHTPPAKLVDWVGLKNFVNIFTLSIWRSTFLDVLQWTVVWTLLATTLQCTVGVLLAILVNQKDLRFKPLIRTIFILPWAVPGFVTILVFAGMFNDSFGVINNAILSFFGISPKAWLTDPFWTKTALIMMQTWLGFPFVFAMTTGVLQAIPDDLYEAATMDGASAFTRLRTITLPLVLYAIAPIIITQYTFNFNNFNIIYLFNNGGPAVAGSNAGGTDILVSWIYKLTMSSSQYAIAATITILLSIFVVGLALWQFRATKSFKNDDMA	PGPT0016320_669	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
BMS020_03511	852	malG_1	COG3833	Maltose/maltodextrin transport system permease protein MalG	ATGGCTCAATCACCCAGTATTAAACGCGAAAAGTGGATCCGACTCTCTCTCACCTGGCTGGTGGTTATCCTGGTCTCGGTGGTGATTATCTATCCGCTGGTCTGGACCGTCGGGGCGTCGCTGAACGCCGGCAATAGCCTGCTGAGTACCTCGATCATTCCGGAAAATCTGTCGTTCCAGCACTATGCCGATCTGTTCAATGGCAATGTGAATTACCTTACCTGGTACTGGAACTCGATGAAAATCAGCTTCCTGACCATGGTGCTGACCCTGATTAGCGTCAGCTTTACCGCCTACGCCTTCTCCCGCTTCCGCTTTAAAGGGCGGCAGAACGGGCTGATGCTGTTCCTGCTGCTGCAGATGATCCCGCAGTTTTCCGCGCTGATTGCCATCTTTGTGCTGTCGCAACTGCTTGGCCTGATTAACAGCCATCTGGCGCTGGTGCTGATCTACGTCGGGGGAATGATCCCGATGAACACCTGGCTGATGAAGGGGTATCTCGACGCGATCCCCAAAGATCTGGATGAGTCCGCCCGCATGGACGGCGCCAGCAGCTTTCGCATCTTTATCGAGATCATCATGCCGTTGTCGAGGCCGATCCTCGCGGTGGTGGCGCTGTTCTCCTTCACCGGCCCGCTGGGGGATTTCATCCTCTCCAGCACCATCCTGCGTACCCCGGATAAATACACCCTGCCTATCGGTCTGTATAACCTGGTGGCGCAAAAAATGGGGGCCAGCTACACCACCTACGCGGCGGGGGCGGTGCTGATTGCCGTGCCGGTCGCGATCCTCTATCTGGCGTTACAAAAATACTTCGTCTCCGGCCTGACCTCGGGCAGTACTAAAGGATAA	MAQSPSIKREKWIRLSLTWLVVILVSVVIIYPLVWTVGASLNAGNSLLSTSIIPENLSFQHYADLFNGNVNYLTWYWNSMKISFLTMVLTLISVSFTAYAFSRFRFKGRQNGLMLFLLLQMIPQFSALIAIFVLSQLLGLINSHLALVLIYVGGMIPMNTWLMKGYLDAIPKDLDESARMDGASSFRIFIEIIMPLSRPILAVVALFSFTGPLGDFILSSTILRTPDKYTLPIGLYNLVAQKMGASYTTYAAGAVLIAVPVAILYLALQKYFVSGLTSGSTKG	PGPT0016325_678	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
BMS020_03512	1203	ganB	COG3867	Arabinogalactan endo-beta-1,4-galactanase	ATGAAAAGATTTACACCCGCATGGCTTGCGGTTTGTCTGGCATGCAGTTTTTCCCCCCCTTCGCTGGCGGCGGACGCGCTTGAAACCCGCGCCTTTCAGGGCATGCCGGCGGACTTTATTAAAGGCGCGGATATCTCCACGCTGCTGGATGCTGAAAAGCACAGGGCGACCTTCTACGACCAGAATAACCAGCGTAAGGATCCGATCGCCATTCTGAAAGAGAACGGCGTCAACTATGTTCGCCTCCGCCTGTGGGTGGATCCGCAATCGGCAAGCGGCGAGGGCTATGGCGGCGGGAATAACGATCTGGCCACGACCCTGGCGCTGGCGAAACGCGCGAAAGCCCAGGGAATGAAGCTGCTGCTCGACTTTCATTACAGCGATTTCTGGACCGATCCCGGCAAGCAGTTCAAACCGAAGGCCTGGGAAAAGATGGATTACCCGCAGCTGAAAACGGCGATTCATGACTATACCCGGGATACCATCGCCCGCTTTAAGCAGGCGGGCGTCCTGCCGGATATGGTGCAGATCGGCAATGAGATCAATGGCGGTATGCTGTGGCCGGAAGGGAAAAGCTGGGGGCAGGGGGGCGGAGAGTTCGACCGGCTGGCTGGTCTGCTGAACGCGGCCATTGATGGCCTGAAGGCGAACCTGCACAACGGCGAGCAGGTGAAAATCATGCTGCATCTGGCTGAAGGTACCAAAAACGATACCTTCCGCTGGTGGTTTGACGAAATAGAGAAACGCCATGTGCCGTATGACGTGATCGGTTTGTCGATGTACACCTACTGGAACGGGCCGATCAGCGCCCTGAAGGCCAATATGGATGACATCAGCAAACGCTATAACAAAGACGTTATTGTCGTCGAGGCGGCCTATGCCTATACCCTGGCCAATTGCGATAACGCGGAAAATAGTTTCCAGGCCAAAGAGGAAAAGGATGGGGGATATCCCGCCAGCGTGCAGGGACAATATCGCTATATCCACGATCTGATGCAGGCGGTCATCGATGTTCCCGACCAGCGCGGCAAAGGGATTTTTTACTGGGAGCCCACGTGGATTGCCGTTCCGGGAAATACCTGGGCCACCCCGGCGGGGATGAAATATATCCATGACGAATGGAAAGAGGGCAATGCGCGTGAAAATCAGGCGCTATTTGATTGCCAGGGAAAAGTATTGCCGTCGGTAAAAGTATTTAATTAA	MKRFTPAWLAVCLACSFSPPSLAADALETRAFQGMPADFIKGADISTLLDAEKHRATFYDQNNQRKDPIAILKENGVNYVRLRLWVDPQSASGEGYGGGNNDLATTLALAKRAKAQGMKLLLDFHYSDFWTDPGKQFKPKAWEKMDYPQLKTAIHDYTRDTIARFKQAGVLPDMVQIGNEINGGMLWPEGKSWGQGGGEFDRLAGLLNAAIDGLKANLHNGEQVKIMLHLAEGTKNDTFRWWFDEIEKRHVPYDVIGLSMYTYWNGPISALKANMDDISKRYNKDVIVVEAAYAYTLANCDNAENSFQAKEEKDGGYPASVQGQYRYIHDLMQAVIDVPDQRGKGIFYWEPTWIAVPGNTWATPAGMKYIHDEWKEGNARENQALFDCQGKVLPSVKVFN	PGPT0023570_308	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
BMS020_03513	2058	bglY_1	COG1874	Beta-galactosidase BglY	ATGAATAAATTTGCACCTTTACATCCAAAGGTTAATACGCTGCTGCATGGCGCAGATTATAACCCGGAACAATGGGAGAATGACCCCGATATTATTGATAAAGACATTGCCATGATGCAGCAGGCAAAATGTAATGTGATGTCGGTGGGAATATTTAGCTGGGCGAAACTTGAGCCGTGCGAAGGGGTATTTGATTTCGCCTGGCTGGATACTATCCTCGATAAACTGTATGCCGCCGGCATTCATGTTTTTCTGGCCACGCCGAGCGGCGCGCGTCCGGCGTGGATGTCACAGCGCTATCCGCAGGTTCTGCGGGTGGGGCGCGATCGGGTGCCAGCCCTGCACGGCGGCCGTCACAACCACTGTATGTCATCGCCGGTGTATCGTGAGAAGACCCTTAAAATCAATACTCTGTTGGCGGAGCGCTATTCTGCGCATCCGGCGGTGCTGGGCTGGCATATTTCCAATGAATATGGCGGCGAATGTCATTGCGAGCGCTGCCAGACTCGCTTTCGCGACTGGCTGAAGGCGCGGTACCAGACCCTGGAGAATCTCAACCAGGCCTGGTGGAGCACTTTCTGGAGCCATACCTACAGCGACTGGTCGCAGATTGAATCGCCTGCGCCGCAGGGCGAGGTGTCGATCCACGGCCTGAATCTGGACTGGCATCGCTTTAATACCGCCCAGGTGACCGATTTCTGCCGCCATGAAATCGCCCCGCTGAAGGCGGCGAATGCCTCCCTGCCGGTGACCACCAACTTTATGGAGTATTTTTACGATTACGACTACTGGCAGCTGGCGGAGGTGCTGGACTTTATCTCCTGGGACAGCTATCCGATGTGGCACCGCGACAAAGACGAAACCGCGCTGGCCTGTTATACCGCGATGTATCACGACATGATGCGCAGCCTGAAGGGCGGCCAGCCGTTTGTGCTGATGGAGTCCACGCCGGGCGCCACCAACTGGCAGCCGACCAGCAAACTGAAGAAACCGGGGATGCATATTCTCTCTTCGCTGCAGGCGGTGGCGCATGGCGCCGACTCGGTGCAGTATTTCCAGTGGCGCAAGAGCCGTGGTTCGGTTGAGAAATTCCACGGCGCGGTGGTCGACCACGTTGGGCATATTGATACCCGCATTGGCCGTGAAGTCAGCCAGCTCGGCGAGATCCTCAGCAAGCTGCCGGCGGTGAGGGGGTGTCGCACCGAGGCGAAAGTGGCGATTATTTTCGACCAGCAGAACCGCTGGGCGCTTGATGACGCCCAGGGGCCGCGCAATCTGGGTATGGAGTATGAGAAGACGGTCAATGAGCACTACCGTCCGTTCTGGGAGCAGGGCATCGCCGTCGATGTGATTGACGCCGACGCTGATTTAACGCCGTATCGGCTGGTGATCGCCCCGATGTTATACATGGTGCGCGACGGCTTTGCCGGGCGGGCGGAGGCGTTCGTCGCCAGCGGCGGCCATCTGGTGACCACCTACTGGACCGGCATCGTCAACGAGTCCGATCTCTGCTATCTCGGCGGCTTCCCGGGCCCGCTGCGCAATCTTCTGGGCATCTGGGCGGAAGAGATCGACTGTCTGAATGACGGCGAGTTTAATCTGGTGCAGGGCCTGGCCGGGAATCAGTGCGGTCTTCAGGGCCCCTATCAGGTGCGCCATCTCTGTGAACTGATCCATACCGAAAGCGCGCAGACGCTGGCCACCTACCGGGATGATTTTTATGCCGGAAGGCCAGCGGTGACGGTGAACGGCTTCGGGAAAGGTAAAGCCTGGCATGTGGCCTCCCGCAACGATTTGGCCTTCCAGCGCGACTTTTTTGCCGCCCTGAGCAAGGAGCTGGCGCTGCCGCGGGCGATCGCGGCGGATTTACCGCCCGGAGTGGTGGCCACCGCGCGCACCGACGGTGAGAGTACGTTTGTCTTCCTGCAGAACTACAGCGCGCAAAGCCATACCCTGAGCCTGCCGCCAGGGTATCGGGATTGCCTGACCGACGCGGCGGTGTCGGACCCGCTGACCCTGTCAGCATGGGATTGTCGTATTCTCCGTCGCCACGCGTAA	MNKFAPLHPKVNTLLHGADYNPEQWENDPDIIDKDIAMMQQAKCNVMSVGIFSWAKLEPCEGVFDFAWLDTILDKLYAAGIHVFLATPSGARPAWMSQRYPQVLRVGRDRVPALHGGRHNHCMSSPVYREKTLKINTLLAERYSAHPAVLGWHISNEYGGECHCERCQTRFRDWLKARYQTLENLNQAWWSTFWSHTYSDWSQIESPAPQGEVSIHGLNLDWHRFNTAQVTDFCRHEIAPLKAANASLPVTTNFMEYFYDYDYWQLAEVLDFISWDSYPMWHRDKDETALACYTAMYHDMMRSLKGGQPFVLMESTPGATNWQPTSKLKKPGMHILSSLQAVAHGADSVQYFQWRKSRGSVEKFHGAVVDHVGHIDTRIGREVSQLGEILSKLPAVRGCRTEAKVAIIFDQQNRWALDDAQGPRNLGMEYEKTVNEHYRPFWEQGIAVDVIDADADLTPYRLVIAPMLYMVRDGFAGRAEAFVASGGHLVTTYWTGIVNESDLCYLGGFPGPLRNLLGIWAEEIDCLNDGEFNLVQGLAGNQCGLQGPYQVRHLCELIHTESAQTLATYRDDFYAGRPAVTVNGFGKGKAWHVASRNDLAFQRDFFAALSKELALPRAIAADLPPGVVATARTDGESTFVFLQNYSAQSHTLSLPPGYRDCLTDAAVSDPLTLSAWDCRILRRHA	PGPT0017815_839	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308	NA	NA
BMS020_03514	315			hypothetical protein	ATGGTGAGTTTAAAATCTTTCCTGCACTATTTCTCGCCTGCGCGTCCGGCACAGCCGTTAAGCGAAGCGGAAAAACAGCAAATCGAGGCGCTGATTCAGGCCTTCGGCGGTGAAGCGAATATTACCCAAGTGGACGCCTGTATTACCCGTCTGCGGGTAACGGTTCGTCATCTGGCGGCCGTGGACTCTGACGCATTACAGCAGCAGGGCGCGCTGGGCGTCATTATTCTTGGTCAGCAGGTTCATGCTATTTTCGGTAAGCAGTCCGATGCGCTACGTCAATTGCTGGATGACCATTTTGCCGCGCGGAAATAA	MVSLKSFLHYFSPARPAQPLSEAEKQQIEALIQAFGGEANITQVDACITRLRVTVRHLAAVDSDALQQQGALGVIILGQQVHAIFGKQSDALRQLLDDHFAARK	PGPT0016880_58	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0016880-ptsGb|ganC-K02778	NA	NA
BMS020_03515	1272	lamB_1	COG4580	Maltoporin	ATGAATACGACACTGCGCGCCCTTTCCACAGCATTAGCCGCTGCGCTAATCACCCCTTCCGCCTTTGCGGCTACCGCTGCGATCCCGACCGTTGATTTTCATGGCTATTTGCGCGCCGGGGTTGGGGTCTCCGGCGACGGTAGCGAAGCGGAATGGCAAAAGAACAAGCTGGGCCGGTTGGGGAACGAATCGGATACCTATGGCGAACTGGAATTGGGCTCCGAGGTCTACAAAAAAGATGATGTCAGTTTCTATCTCGACAGCATGGTCAGCATGGTCTCCGATGGCTCTAACGATAATGAAACCACGTTGAACGATGACGCGCAGTTCGGCTTACGTCAGCTGAATCTGCAGATCAAAGGGCTGATCCCGGGCGATCCGAATGCGGTGATCTGGGGCGGCAAACGTTACTATCAGCGTCACGATCTGCACATCATCGATACCAAATACTGGAACATTTCCGGCTCCGGGGCCGGGGTGGAAAACTACACCCTTGGCCCGGGCGCCGTCTCGCTGGCGTGGATCCGCGGCGATGCCAACGACGTTGACTATCGCGTCGATGGCGACAGCAACGTCAATATCAACTATATCGATTTACGCTATGCGGGATGGAAGCCGTGGTCCGGGTCGTGGACCGAATTCGGCATCGACTACGCCATGCCGAACACCACCAAAAAACAGGACAGCTACGGCGGGCTGTACGATGCCGAAAATGGCGTGATGCTAACCGGTGAAATCAGTCAGGATATGCTGGGCGGCTATAACAAAACCGTGCTGCAGTATGCCAACAAAGGGCTGGCGCAGAATATGGTCTCCCAGGGCGGCGGCTGGTACGATATGTGGAACTACGTGAATGACGCCACCGGCTATCGCGTGATTAACACCGGTCTGATCCCCATTACCGAGAAGTTCTCCATCAACCACGTTCTGACCTGGGGCTCGGCGGATGATATTACCGACTACACCGACAAAACGCGGATGCTGTCGCTGGTCGCCCGCGGGCAGTATCAGTTCACCGACTACGTGCGCCTGATTGGCGAAGTCGGCGGTTTCTATCAGAAAGACAGCTACAACAATGGCACCAGTTACAAACAGGCCGGTGAGAAATATACCATTGCGCTGGGTCTGGCGGACGGGCCGGACTTTATGTCACGTCCGGAATTACGTATTTTCGCGTCGTATCTGAATGATTCCGAAGATGGTAAACCATTTGAAGACCAGACGGCGAATAATACCTGGAATTTCGGCGTGCAGGTTGAAGCCTGGTGGTAA	MNTTLRALSTALAAALITPSAFAATAAIPTVDFHGYLRAGVGVSGDGSEAEWQKNKLGRLGNESDTYGELELGSEVYKKDDVSFYLDSMVSMVSDGSNDNETTLNDDAQFGLRQLNLQIKGLIPGDPNAVIWGGKRYYQRHDLHIIDTKYWNISGSGAGVENYTLGPGAVSLAWIRGDANDVDYRVDGDSNVNINYIDLRYAGWKPWSGSWTEFGIDYAMPNTTKKQDSYGGLYDAENGVMLTGEISQDMLGGYNKTVLQYANKGLAQNMVSQGGGWYDMWNYVNDATGYRVINTGLIPITEKFSINHVLTWGSADDITDYTDKTRMLSLVARGQYQFTDYVRLIGEVGGFYQKDSYNNGTSYKQAGEKYTIALGLADGPDFMSRPELRIFASYLNDSEDGKPFEDQTANNTWNFGVQVEAWW	PGPT0016830_556	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTODEXTRIN_TRANSPORT,PGPT0016830-lamB-K02024	NA	NA
BMS020_03516	1071	lacI_2	COG1609	Lactose operon repressor	ATGAAGTCTAAAAGCGCTACTCTGGAAGACGTCGCACGTCATGCGGGTGTCTCTTACCAGACCGTGTCCAGGGTACTCAACAAATCTGCCAATGTATCCGAAGCGACGCGCCGCAAGGTGGAGAAATCGATAGAGGCTCTACGCTATGTGCCCAACCGGCTGGCGCAGCAGCTGGTGGGGAAGGAGAGCCAGACGGTGGGGCTGGTGACGATTTCGCTGGCCTGGCATGCCCCCTCCCAGGTGGCGGCGGCGGTAAAACGCTATGCCAACCTGGAAGGTTACCAGGTCCTGATTTCGATGATCGATGAGAGCGTCAACCAAAGCATCCAGGATTCCATCAATGAGCTGAAGTCTCAGCGGGTGGATAAGGTCATTATCAACGTGCCGCTGGAGACCGAACAGGCGCAGAAAATCGCCGCTGACAACGATGATATCGTCTGCCTGTTTCTCGATGTTGATCCCTACAGCTCTGTGTTTAACGTTTCGTTTAACCCGGCGGACGGCACCCGGGCCAGCGTCAAATATCTCTACGAGATGGGGCATCGGGAGATCGCGCTGCTGGCGGGGCCGGACAGCTCCGTATCGGCCAAACTGCGGCTGAAAAGCTGGCTGGAGACCCTGGATGGCTACGGTCTGAAGCCGGTGACCGTCCTGCACGGCAACTGGGATGCGCAAAGCGGCTACGCCGGCGCGCTGCAGATGCTGCGTGAAACGCCGAACTTCAGCGCTGTGCTGGTGGGCAATGACCAGATGGCGCTGGGGGTGCTCAGCGCCTTCCATCAGCATCAGGTGGCGGTGCCGGGAGAGAAATCGGTGATTGGCTATGACGATACCTATGAAAGCTCCTTTTTCTATCCGGCATTGAGTACGGTATCGCTGGACCTCGACCTGCAGGGTAAAGAGGCGGTGCGGCGGATCCTCGCCAGTACCAGCGGCGCGGCGCATACCTCATCCATCCTGCCGGCGCGCCTGGTGATTCGCCATTCCAGCGGCGCCAGAGTCGAGCAGGGGAAAGATCTGCAGGCTATCGCGGAGCAACTTCGCGCTATCGCCCACCGTCTGGCGCCCTGA	MKSKSATLEDVARHAGVSYQTVSRVLNKSANVSEATRRKVEKSIEALRYVPNRLAQQLVGKESQTVGLVTISLAWHAPSQVAAAVKRYANLEGYQVLISMIDESVNQSIQDSINELKSQRVDKVIINVPLETEQAQKIAADNDDIVCLFLDVDPYSSVFNVSFNPADGTRASVKYLYEMGHREIALLAGPDSSVSAKLRLKSWLETLDGYGLKPVTVLHGNWDAQSGYAGALQMLRETPNFSAVLVGNDQMALGVLSAFHQHQVAVPGEKSVIGYDDTYESSFFYPALSTVSLDLDLQGKEAVRRILASTSGAAHTSSILPARLVIRHSSGARVEQGKDLQAIAEQLRAIAHRLAP				NA	NA	NA	NA	NA
BMS020_03517	264	rpmE2_1	COG0254	50S ribosomal protein L31 type B	ATGAAAGCCCATATCCATCCTCCCTATCGCACGGTGGTGTTTCACGACACCAGCGCCAATGAATATTTTAAAGTTGGCTCAACCATCCGCACCGAACGCGTGATTGAGCTCGACGGTGAGACGTATCCGTATGTGACGATCGATGTCTCATCGAAATCGCATCCTTACTACACCGGCAAACAAAAAACGTTCGCCAGCGAGGGTAGCGCGGCCCGTTTCCGCCAGCGCTTCGGCGGCTTTATTGATGCAAAAAGGAAGGCATGA	MKAHIHPPYRTVVFHDTSANEYFKVGSTIRTERVIELDGETYPYVTIDVSSKSHPYYTGKQKTFASEGSAARFRQRFGGFIDAKRKA	PGPT0014325_882	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014325-rpmEB-K02909	NA	NA
BMS020_03518	141	ykgO_1	COG0257	50S ribosomal protein L36 2	ATGCAGGTCGTTAACTCATTACGCAGCGCCAAACAGCGCCACCCGGATTGCCAGCTGGTCAAACGCAAAGGGCGGCTGTACGTGATCTGTAAGAGCAACCCCCGCTTTAAAGCGGTGCAGGGGCGCAAAAAACGTCGTTAA	MQVVNSLRSAKQRHPDCQLVKRKGRLYVICKSNPRFKAVQGRKKRR				NA	NA	NA	NA	NA
BMS020_03519	699			hypothetical protein	ATGTGTGAATATAATCAGTTTGGACAGGCGCTCGGCGCCGCGCTGCCCGACTGGCAACCCCGCCCCTGGCCAACGCGGCAGGTACTTCAGGGCAGCCGCTGTCGGCTCGAACCGCTCACCCTCGCCCACGCCAGCGATCTGTTTGCTGCCCACCAGCTGGCGCCCGACGCCCGCAGCTGGACGTGGCTGCTGCGCGAACCGGAAAGCAGTCTGGCTGAATTTAGCGCCTGGGTGGCGCAGGTTGCGACGCTGACCGATCCTATCCATTTCGCCGTCGTTGACCAGCAGCGCGGGACGGCGGTCGGGTCGCTGGCGTTAATGCGCATCGATGCCAACCACGGCGTGGTCGAGGTGGGGCATGTCCATTTCTCTCCGTTGCTGAGCCGAACGGCTATGGCCACCGAAGCGCACTGGCTGTTGATGCAGTATGTTTTCGGGACGCTCGGCTACCGTCGCTATGAATGGAAATGCAATAGCCTCAATACGCCGTCAGGCCGGGCGGCAAGGCGACTGGGATTTCAGTACGAAGGACGTTTTCGTCAGGCGCTGGTGAGCAAAGGACACAACCGGGACACGGACTGGTTTTCAGTGATTGATGGCGAATGGCCGGAGCTGGATAGCGCCATGCGCCAATGGCTGGCCGCCGACAATTTTACCGCCGACGGCCAGCAGCGCCGTCCCCTGGAAAGCTTCCGTTAA	MCEYNQFGQALGAALPDWQPRPWPTRQVLQGSRCRLEPLTLAHASDLFAAHQLAPDARSWTWLLREPESSLAEFSAWVAQVATLTDPIHFAVVDQQRGTAVGSLALMRIDANHGVVEVGHVHFSPLLSRTAMATEAHWLLMQYVFGTLGYRRYEWKCNSLNTPSGRAARRLGFQYEGRFRQALVSKGHNRDTDWFSVIDGEWPELDSAMRQWLAADNFTADGQQRRPLESFR				NA	NA	NA	NA	NA
BMS020_03520	1458	gabR_3	COG1167	HTH-type transcriptional regulatory protein GabR	ATGAACATACCGGACGATGCGTTTTATGGATTGGTGACGCAGGGGATGCGGCAGCGAACGGACGAAACCCTGCAGCGCGCCCTTTACCACACTTTGCGCCATGCCATCCTGCAGGGAACCCTGGCGGCCAGCTGCCGTTTGCCAGGATCGCGCGTGATTGCCGGTCGACTGCATCTGTCGCGCAATACGGTGAATGCCGCACTGGAGCAGCTGACGCTGGAAGGATACCTGACGCGAAGCCGTCAGGGGACGCAGGTTGTGCCGCTCGCCGCCAGCCGCCGGCAGGAGGTAAACGCGCCACCCGTTGTGCTGTCTGAGAGGCTGCAGGGGCTGCCAGCCGCTATGCGCCGTGACTCGCCGGCGCTGCCGTTTACGCCTGGCATGCCGGCGGTGAACTATTTCCCGCTGCCGCTGTGGCGGCGGTTAATGGATAAAGCATTGCGCGACGAGGGCAGCACGCTGCTGGGCTACGGTGAGGCCGCGGGCGATCCCCAACTGCGGGAGGCGATCGCTCGCCATCTGGCGCTCTCCCGGGGTATTCAGTGCGATATCCGGCAGATCGTCATCACCGAGGGGGCGCTGGAAGGGGTCAACTTATGCGCCTCGTTGTTGACCAACCCGGGCGACACCGTGTGGCAGGAAGAGCCGGGATACCTGGGCGCCAGGAGTGGTTTCCAGCGGGCGGGGCTGCAGGTCTGCGGGATGGCCGTCGATCATGAAGGGATGTGTATGGCCAACGGCGCGGCAGAGCCACCCCGGCTGATTTTCACCTCTCCCTCTCATCAGTATCCCCTTGGGAGCGTTATGAGCGCCGCGCGGCGTCTGGCGCTGGTGGAGTATGCCCATCGGCACGGCGCGTGGATTGTGGAGGATGACTACGACAGCGAGTTTCGCCACAGCGGAGAGCCGATCCCGGCGATGCTGGGAATGGTCCCGGATGCCCCGGTGGTCTATCTCGGCACCTTCAGCAAAACCCTTTTTCCGGCGCTGCGTATCGGTTTTATGGTAATGCCGCCCGCGCTGGCGGATGCCGCTCAGGAGGCCATTGGCGCGCTGCTGCGCGGGGGGCACCGCGCTGAACAGCGGGCGCTGGCCAGCTTTATCGAGAAGGGGCACTATGCGCGTCATCTGGCGGCGATGCGTCGTCTGTACCGCAAACGTCAGCAGCTGCTGCGCGAGGCGCTGGCGCAAGAGATCACCGTGCCGTGCGAAGTCCTTGGTGGGGAAGGGGGGCTCCATCTGACGCTGGCCATCGAGGGGATCGACGATCGCGCGATAGCGCAGCAGGCGCGTCAGTTTCAGCTGGCGCCCGCTGCGCTAAGTCATTTCTATCTCGACCCGCGGCGGGGGCGGAGCGGGCTGGTGCTGGGGTATGGCAATACTTCTGCTTCCCGCTATCCGCTGGCGCTGCGGACGCTGAATCGTCTTATTGCGCAGTACCGGCTCGGGTCAGCGTAA	MNIPDDAFYGLVTQGMRQRTDETLQRALYHTLRHAILQGTLAASCRLPGSRVIAGRLHLSRNTVNAALEQLTLEGYLTRSRQGTQVVPLAASRRQEVNAPPVVLSERLQGLPAAMRRDSPALPFTPGMPAVNYFPLPLWRRLMDKALRDEGSTLLGYGEAAGDPQLREAIARHLALSRGIQCDIRQIVITEGALEGVNLCASLLTNPGDTVWQEEPGYLGARSGFQRAGLQVCGMAVDHEGMCMANGAAEPPRLIFTSPSHQYPLGSVMSAARRLALVEYAHRHGAWIVEDDYDSEFRHSGEPIPAMLGMVPDAPVVYLGTFSKTLFPALRIGFMVMPPALADAAQEAIGALLRGGHRAEQRALASFIEKGHYARHLAAMRRLYRKRQQLLREALAQEITVPCEVLGGEGGLHLTLAIEGIDDRAIAQQARQFQLAPAALSHFYLDPRRGRSGLVLGYGNTSASRYPLALRTLNRLIAQYRLGSA	PGPT0016790_2701	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
BMS020_03521	471	ylaC		Inner membrane protein YlaC	ATGACAGAAATACAACGCCTGCTTACTCACACCATTGACGAACTGAACGTGCAGGAAAAACGCGATAATCGCCCGCGTTTTAGCATCAGTTTTATCCGTAACCATCCGGGCCTGTTTGTTGCCATGTATGCCGCGTTTCTGGCGACGCTGGTGGTGATGCTGCGCTCTGAAACGCTGGTGGATTCGGTCTGGTTGTTGGTGGTGCTGTTCATCCTGTTCAACGCTTTTTTCTTCTTTGACGTCTATCCACGCTATCGTTACGAAGATATCGATGTCCTCGACTTTCGCGTGTGTTACAACGGCGAATGGTACAACACCCGCTTTGTCCCCCGACAGCTGATCGACCGTATTCTGCAGTCGCCGGACGTCGATAGCGAGCAGAAGGCGCAGCTTAAAAAAATGGTCGACACCAAAGGCGATCTCTCCTTTTACGATGTCTTTACGCTGACCCGAGCCGGTACTGCGCAATAA	MTEIQRLLTHTIDELNVQEKRDNRPRFSISFIRNHPGLFVAMYAAFLATLVVMLRSETLVDSVWLLVVLFILFNAFFFFDVYPRYRYEDIDVLDFRVCYNGEWYNTRFVPRQLIDRILQSPDVDSEQKAQLKKMVDTKGDLSFYDVFTLTRAGTAQ				NA	NA	NA	NA	NA
BMS020_03522	567	maa	COG0110	Maltose O-acetyltransferase	ATGAGTGAAGAAAAACGCAAAATGATCGCCGGTGAGCTCTATTTATCTGGCGACCCAACGCTACGCGCCGATCGTCTGCGCGCCAGACAGCTGCTGCACCGTTACAATCATTCCGCCCCGGATGCGCAGGAAGAACGTCAGCGTATTCTCGCCGAGCTGCTCGGTCGCGCTGGCGATGCGTATATCGAGCCAAGCTTTCGCTGCGACTACGGCTACAATATCTTTCTCGGCGCCGGTTTTTACGCCAATTTTGACTGCGTGATGCTGGACGTCTGCCCTATCCATATTGGCGATAACTGCATGCTGGCCCCGGGTGTCCATATCTATACCGCCACCCATCCGCTGGATGCTGAGGCCCGAAACAGCGGCCAGGAATATGGCAAACCGGTGACCATTGGCCACAATGTGTGGATTGGCGGTCGGGCGGTGATCAATCCCGGGGTGACCATTGGCGATAATGCGGTCATCGCGTCCGGAGCGGTGGTCACTAAAGACGTCCCCGCCAGTACCGTTGTCGGCGGCAACCCGGCGCAGATCATCAAGCGCCTTCCGCCGCCAAATGCGTAA	MSEEKRKMIAGELYLSGDPTLRADRLRARQLLHRYNHSAPDAQEERQRILAELLGRAGDAYIEPSFRCDYGYNIFLGAGFYANFDCVMLDVCPIHIGDNCMLAPGVHIYTATHPLDAEARNSGQEYGKPVTIGHNVWIGGRAVINPGVTIGDNAVIASGAVVTKDVPASTVVGGNPAQIIKRLPPPNA	PGPT0018611_1052	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0018611-maa|nodL-K00661	NA	NA
BMS020_03523	219	hha		Hemolysin expression-modulating protein Hha	ATGTCTGATAAGCCATTAACTAAAACAGACTATTTGATGCGCTTACGCCGTTGCCAGACAATTGACACGCTGGAGCGCGTCATTGAAAAAAACAAATATGAACTTTCTGATAATGAGCTGGCGGTATTTTACTCAGCCGCCGATCATCGTCTGGCTGAACTGACCATGAATAAGCTGTACGATAAGATCCCGACGTCCGTCTGGAAATTTATCCGCTAA	MSDKPLTKTDYLMRLRRCQTIDTLERVIEKNKYELSDNELAVFYSAADHRLAELTMNKLYDKIPTSVWKFIR	PGPT0027510_10	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-Hha-TomB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027510-toxin_hha-K05839	NA	NA
BMS020_03524	375	tomB		Hha toxicity modulator TomB	ATGGACGAATACTCGCCAAAAAGACATGATATCGCACAACTACGCTTTCTCTGCGAAACGCTGTATCATGACTGCCTTGCAAACCTGGAAGAGAGCAACCATGGCTGGGTCAATGACCCGACATCGGCTGTCAATCTCCAGTTAAATGAACTGATCGAGCACATTGCCACATTCGCCCTTAATTATAAAATTAAGTACGCTGAGGATAATAAGCTGATCGCTCAGGTTGACGAATATCTGGACGATACATTTACGTTGTTCAGTAACTACGGCATTAACTCTACGGATTTGCAAAAGTGGAAAAAATCCGGTAATCGGTTATTTCGTTGTTTTGTCAACGCCAGCCGGGAAAATCCGGCCAGTCTTTCGTGTTAG	MDEYSPKRHDIAQLRFLCETLYHDCLANLEESNHGWVNDPTSAVNLQLNELIEHIATFALNYKIKYAEDNKLIAQVDEYLDDTFTLFSNYGINSTDLQKWKKSGNRLFRCFVNASRENPASLSC	PGPT0027515_42	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-Hha-TomB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027515-REGULATION_tomB-K19162	NA	NA
BMS020_03525	3147	acrB_2	COG0841	Multidrug efflux pump subunit AcrB	ATGCCTAATTTCTTTATCGATCGCCCCATATTTGCATGGGTGATCGCCATCATCATCATGCTGGCTGGGGGATTATCGATCCTCAAATTGCCGGTGGCGCAATATCCGACGATTGCGCCGCCAGCAATTTCCATTACCGCCATGTACCCCGGTGCTGACGCCGAAACCGTGCAGAACACCGTGACTCAGGTTATCGAACAGAATATGAACGGTATCGATCACCTGATGTACATGTCCTCGAATGGCGACTCCACCGGTACGGCGACCATCACCCTGACCTTCGAATCCGGTACCGATCCGGACATCGCCCAGGTTCAGGTTCAGAACAAGCTGGCCCTGGCCACCCCTCTGCTGCCGCAAGAAGTACAGCAGCAAGGGATCAGCGTTGAGAAAGCGTCCAGCAGCTTCCTGATGGTTGTCGGCGTCATTAACACCAACGGCACCATGAACCAGGACGACATTTCGGACTACGTGGCGGCCAACATGAAGGACCCGATCAGCCGTACCAGCGGCGTCGGCGACGTTCAGCTGTTCGGTTCCCAGTACGCGATGCGTATCTGGATGGATCCGAATAAACTGAATAACTTCCAGCTCACGCCGGTGGATGTGATCAGCGCGCTGAAAGCGCAGAACGCCCAGGTAGCCGCTGGTCAGTTAGGCGGTACGCCGCCGGTGAAAGGCCAGCAGCTCAACGCCTCCATCGTCGCGCAGACGCGTCTGACCAATACGGAAGAGTTTGGCAACATCCTGTTGAAGGTGAACCAGGATGGTTCCCAGGTTCGTCTGCGTGATGTCGCCAAAATTGAACTGGGTGGCGAAAGCTATGACGTGGTGGCGAAGTATAACGGCCAGCCTGCGTCCGGTCTGGGTATTAAACTGGCTACCGGCGCGAACGCGCTGGATACCGCCAACGCGATCCGCGCTGAACTGGCGAAGATGGAGCCGTTTTTCCCGTCGGGGATGAAAATCGTTTACCCGTATGACACCACCCCGTTCGTGAAAATCTCTATTCACGAAGTGGTTAAAACGCTGGTGGAAGCGATCATCCTGGTCTTCCTGGTGATGTACCTGTTCCTGCAGAACTTCCGCGCCACCCTGATCCCGACCATCGCGGTGCCGGTGGTCCTGTTAGGGACCTTCGCGGTGCTGGCGGCGTTTGGCTTCTCGATAAACACCCTGACGATGTTCGGGATGGTGCTCGCCATCGGCCTGCTGGTGGATGACGCCATCGTGGTGGTCGAGAACGTCGAGCGCGTTATGGCCGAAGAAGGCCTGCCGCCGAAAGAAGCGACGCGTAAATCGATGGGTCAGATTCAGGGCGCGCTGGTAGGTATCGCCATGGTGCTGTCGGCGGTATTTATCCCGATGGCGTTCTTCGGCGGCTCAACCGGGGCCATCTATCGCCAGTTCTCCATCACCATCGTTTCCGCGATGGCGCTATCGGTACTGGTCGCGCTGATCCTGACGCCGGCGCTGTGCGCCACGATGCTGAAGCCTATTCAGAAAGGCAGCCATGGCGCGACCACGGGTTTCTTCGGCTGGTTTAACCGCATGTTCGATAAGAGCACGCACCATTACACCGACAGCGTAGGCAACATTCTGCGCAGCACCGGTCGTTATCTGGTGCTGTATCTGATCATCGTGGTGGGTATGGCGTGGCTGTTCGTTCGTCTGCCGAGCTCGTTCCTGCCAGACGAAGACCAGGGGGTGTTCCTGAGTATGGCCCAGCTGCCTGCCGGCGCCACCCAGGAGCGCACGCAGAAAGTGCTGGATGAGATGACGAATTACTATCTCACTAAAGAGAAGGACAACGTGGAATCCGTGTTTGCGGTTAACGGCTTCGGCTTCGCCGGCCGCGGCCAGAACACCGGTATCGCGTTCGTCTCGCTGAAAGACTGGAGTCAGCGTCCAGGCGACGAAAACAAAGTTGAAGCGATCACCGGTCGGGCGATGGGCTATTTCTCGCAGATTAAAGACGCGATGGTCTTCGCCTTTAACCTGCCGGCTATCGTTGAACTGGGTACCGCGACCGGCTTTGACTTCCAGCTGATTGACCAGGGCGGCCTGGGACACGAAAAACTGACCCAGGCACGTAACCAGCTGTTTGGCATGGTGGCGCAGCATCCTGACGTGCTGACCGGCGTGCGTCCTAACGGTCTGGAAGATACACCGCAGTTCAAAGTCGATATCGATCAGGAAAAAGCCCAGGCGCTGGGCGTCTCCATCAGCGACATTAACACCACGCTGGGCGCCGCCTGGGGCGGAAGCTATGTCAACGACTTTATCGACCGCGGCCGTGTGAAGAAAGTGTACATCATGTCCGAAGCGAAATACCGTATGCTGCCGGAAGACATCGGCAAGTGGTATGTTCGCGGCAGTGATGGCCAGATGGTGCCGTTCTCCGCCTTCTCCACCTCACGTTGGGAATACGGTTCGCCGCGTCTGGAACGCTACAACGGTCTGCCATCAATGGAAATTCTTGGCCAGGCAGCGCCAGGCAAGAGTACCGGTGAGGCGATGAGCCTGATGGAAGAGCTGGCGGGTAAACTGCCGTCGGGTATTGGCTACGACTGGACCGGGATGTCTTATCAGGAGCGGCTGTCCGGTAACCAGGCCCCTGCCCTGTATGCCATCTCGCTGATTGTCGTCTTCCTGTGTCTGGCAGCGCTGTATGAGAGCTGGTCGATTCCGTTCTCGGTCATGCTGGTCGTACCGTTGGGTGTGGTCGGCGCGCTGTTAGCCGCCACCTTCCGCGGTTTAACCAATGACGTTTACTTCCAGGTTGGCCTGTTGACCACCATCGGCCTGTCGGCGAAGAACGCGATACTGATCGTTGAATTCGCCAAGGACCTGATGGAGAAAGAGGGCAAAGGGCTGATTGAGGCGACGCTTGAAGCGGTACGTATGCGTCTGCGTCCAATCCTGATGACCTCCCTGGCGTTTATCCTTGGGGTTATGCCGCTGGTTATCAGCTCCGGAGCGGGCTCCGGTGCGCAGAACGCCGTAGGTACAGGCGTAATGGGCGGGATGGTGACCGCGACGATCCTGGCAATCTTCTTCGTGCCGGTGTTCTTTGTGGTGGTGCGACGCCGCTTTAGTAAGAAATCGGAAGATATTGAGCACAGCCATCAGGTTGAGCATCATTAA	MPNFFIDRPIFAWVIAIIIMLAGGLSILKLPVAQYPTIAPPAISITAMYPGADAETVQNTVTQVIEQNMNGIDHLMYMSSNGDSTGTATITLTFESGTDPDIAQVQVQNKLALATPLLPQEVQQQGISVEKASSSFLMVVGVINTNGTMNQDDISDYVAANMKDPISRTSGVGDVQLFGSQYAMRIWMDPNKLNNFQLTPVDVISALKAQNAQVAAGQLGGTPPVKGQQLNASIVAQTRLTNTEEFGNILLKVNQDGSQVRLRDVAKIELGGESYDVVAKYNGQPASGLGIKLATGANALDTANAIRAELAKMEPFFPSGMKIVYPYDTTPFVKISIHEVVKTLVEAIILVFLVMYLFLQNFRATLIPTIAVPVVLLGTFAVLAAFGFSINTLTMFGMVLAIGLLVDDAIVVVENVERVMAEEGLPPKEATRKSMGQIQGALVGIAMVLSAVFIPMAFFGGSTGAIYRQFSITIVSAMALSVLVALILTPALCATMLKPIQKGSHGATTGFFGWFNRMFDKSTHHYTDSVGNILRSTGRYLVLYLIIVVGMAWLFVRLPSSFLPDEDQGVFLSMAQLPAGATQERTQKVLDEMTNYYLTKEKDNVESVFAVNGFGFAGRGQNTGIAFVSLKDWSQRPGDENKVEAITGRAMGYFSQIKDAMVFAFNLPAIVELGTATGFDFQLIDQGGLGHEKLTQARNQLFGMVAQHPDVLTGVRPNGLEDTPQFKVDIDQEKAQALGVSISDINTTLGAAWGGSYVNDFIDRGRVKKVYIMSEAKYRMLPEDIGKWYVRGSDGQMVPFSAFSTSRWEYGSPRLERYNGLPSMEILGQAAPGKSTGEAMSLMEELAGKLPSGIGYDWTGMSYQERLSGNQAPALYAISLIVVFLCLAALYESWSIPFSVMLVVPLGVVGALLAATFRGLTNDVYFQVGLLTTIGLSAKNAILIVEFAKDLMEKEGKGLIEATLEAVRMRLRPILMTSLAFILGVMPLVISSGAGSGAQNAVGTGVMGGMVTATILAIFFVPVFFVVVRRRFSKKSEDIEHSHQVEHH	PGPT0003280_1503	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003280-acrB|acrE|mexB|adeJ|smeE|mtrD|cmeB-K18138	NA	NA
BMS020_03526	1086	acrA_1		Multidrug efflux pump subunit AcrA	ATGCCGGAAGTCGGTATTGTGACGCTCAAATCCGCACCTCTACAAATGACCACCGAACTGCCAGGCCGCACCAGCGCCTATCGCATTGCGGAAGTCCGCCCTCAGGTCAGTGGCATTATTTTGAAACGTAACTTCGTCGAAGGTAGCGATATCCAGGCCGGCGTCTCCCTGTATCAGATCGATCCAGCCACCTATCAGGCCAGCTATGACAGCGCCAAAGGCGACCTGGCAAAAGCCCAGGCGGCGGCAAACATGGATCAACTGACGGTCAAGCGTTATCAGAAACTGTTAGGCACTAAGTATATCAGTCAACAAGACTACGATACCGCCGTCGCGACGGCGCAGCAGAGCAATGCGGCCGTGGTCGCGGCGAAAGCGGCCGTGGAAACCGCGCGCATCAATCTGGCCTACACCAAAGTCACCTCGCCGATCAGCGGCCGCATTGGTAAATCCGCGGTGACCGAAGGGGCGCTGGTGCAGAATGGTCAGTCAACCGCTCTGGCAACCGTTCAGCAGCTGGATCCGATCTATGTTGACGTCACCCAGTCGAGCAATGATTTCCTGCGCCTGAAACAGGAGCTGGCCGATGGCCGTCTGAAACAGGAAAACGGTAAAGCGAAAGTGGAGCTGGTGACTAACGACGGTCTTAAGTATCCGCAGTCCGGCACCCTGGAGTTCTCGGATGTGACCGTCGACCAGACCACCGGCTCTATCACGCTGCGCGCCATTTTCCCCAACCCGGATCACACCCTGTTACCGGGGATGTTTGTCCGCGCGCGTCTGGAAGAAGGGGTTAACCCTGACGCCCTGCTGGTGCCGCAACAGGGCGTGACCCGTACGCCGCGCGGTGACGCCAGCGTCATGGTAGTGGGTGAAGGCGATAAGGTCGAAGTCCGCCAGGTCACTGCTTCTCAAGCGATTGGCGATAAATGGCTGGTCACTGACGGTCTGAAATCCGGCGATCGCGTTATCGTCACCGGCCTGCAAAAAATCAAACCAGGCGTGCAGGTAAAAGCGCAGGAAGTAGCTTCTGATGATAAACAGCAAGCCGCAGGCAACGCGCCATCAGAACAAACCAAGTCTTAA	MPEVGIVTLKSAPLQMTTELPGRTSAYRIAEVRPQVSGIILKRNFVEGSDIQAGVSLYQIDPATYQASYDSAKGDLAKAQAAANMDQLTVKRYQKLLGTKYISQQDYDTAVATAQQSNAAVVAAKAAVETARINLAYTKVTSPISGRIGKSAVTEGALVQNGQSTALATVQQLDPIYVDVTQSSNDFLRLKQELADGRLKQENGKAKVELVTNDGLKYPQSGTLEFSDVTVDQTTGSITLRAIFPNPDHTLLPGMFVRARLEEGVNPDALLVPQQGVTRTPRGDASVMVVGEGDKVEVRQVTASQAIGDKWLVTDGLKSGDRVIVTGLQKIKPGVQVKAQEVASDDKQQAAGNAPSEQTKS	PGPT0003275_1737	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585	NA	NA
BMS020_03527	327	acrR_2	COG1309	HTH-type transcriptional regulator AcrR	ATGATGGAGATTATCTTCCATAAGTGTGAATTCGTCGGTGAAATGACCGTGGTGCAGCAGGCCCAGCGGCAGTTATCCCTGGCGAGCTACGAGCGCATCGAGCAGACCTTGAAAGAGTGCATCGCCGCGAAGCTGTTGCCCGCCAATTTACTCACCCGGCGAGCGGCGATTTTAATGCGCAGCTACCTTTCCGGCCTGATGGAGAACTGGCTGTTTGCCCCCGACTCGTTCGACCTGCATGCGGAAGCGCGCGACTATGTCGCCATCCTGCTGGAGATGTATCAGTTCTGCCCCACGCTGCGCGGCCCGGAGAACCTGTCAGCGTAA	MMEIIFHKCEFVGEMTVVQQAQRQLSLASYERIEQTLKECIAAKLLPANLLTRRAAILMRSYLSGLMENWLFAPDSFDLHAEARDYVAILLEMYQFCPTLRGPENLSA	PGPT0003255_766	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003255-acrR|smeT-K03577	NA	NA
BMS020_03528	3348	mscK	COG3264	Mechanosensitive channel MscK	ATGCTGCACACGATCTCCAGGCAACGCGCCACGTTCATCTTTATCATTATGCTGCTCTGTTTTATTGGCCTTTTCAGTCCAGTTCAGGGCCGCGCCGCGGACCTCCCTGACCGGGCGGAGGTGCAGAGTCAGCTCAATACCTTAAACAAGCAAAAAGAACTGACTCCGCAGGACAAACTGGTCCAGCAGGATTTGACCCAGACCCTGGAAACGCTGGATAAAATCGATCGCATCAAGAGCGAGACGACGCAGCTCCGCCAGCAGGTCGAGCAAGCCCCGGCGAAGCTGCGCCAGGCGGTGGACAGCCTTAACAATCTGAGCGATGTCCCGAACGACGACGCGACGCGCAAAACGCTGAGCACGCTCTCCCTGCGTCAGCTGGAATCGCGCGTCACCCAAACGCTGGACGATCTGCAGAATGCGCAAAACGATCTGGCGACCTACAACAGCCAGTTGGTTTCCCTGCAAACGCAGCCGGAACGCGTGCAAAATGCGATGTACAAAGCCTCCCAGCAGCTGCAGCAGATCCGCAATCGTCTGAATGGCACCTCGGTGGGGGATGAGACTCTGCGTCCGACCCAGCAGGTGCTGCTGCAGGCCCAGCAGGCGTTGCTTAACGCGCAGATCGAGCAGCAGCGCAAGAGCCTCGAAGGCAATACGGTGCTGCAGGATACCCTGCAGAAGCAGCGTGACTACGTCACCGCCTGGAGCAACCGGCTGGAGCATCAGCTGCAGCTGCTGCAGGAGGCGGTGAACAGCAAGCGGCTGACGCTGACTGAGAAAACCGCCCAGGAGGCGGTCACGCCCGACGAAACGGCGCGTATTCAGGCCAACCCGCTGGTCAAGCAGGAGCTGGATATCAACCACCAGCTGAGCGAGAAACTGATTCAGGCGACGGAGAACGGCAACCAGCTGGTGCAGCGCAATATTCAGGTGAAGAACTGGCTCGACCGCGCCCTGCAGTCTGAGCGGGATATTAAAGAGCAAATTTCCGTGCTCAAGGGCAGCCTGCTGCTGTCGCGCATTCTCTACCAGCAGCAGCAGACGCTGCCGTCGGCGGATGAGCTGCAGGATATGACCAATCGCATTGCCGATCTGCGGCTCGAACAGTTCGAGGTGAATCAGAAACGCGACGCGCTGTTCCAGAGCGATGCCTATGTCGCTAAGCTGGAAGAGGGGCACAGCGCTGAAGTAAACGATGAAGTGCACGCCGCGCTGCTGGAAGTGATCGACATGCGCCGGGAGCTGCTCGACCAGTTCAATAAACAGCTGGGGAATCAGCTGATGATGGCCATCAACCTGCAGATCAACCAGCAGCAGCTGATGAGCGTCTCGAGCAGCCTGAAAGAAATTCTGACCCAGCAAATTTTCTGGGTGAACAGCAATAAACCGATGGACTGGGAGTGGATTAAGGCCTTCCCGGAAGCGCTGAAAGGTCAGTTTAAGGCGATGAAAATCACCGTGAACTGGGAAAAAGCGTGGCCAGCGGTGTTTGTCGCTTTTCTTGCCGGATTACCGCTGCTGCTGATTGCCGGCCTGATCCGCTGGCGTTTGCAGTGGCTCAAGGATTATCAGGCAAAGCTTGCCTCCCAGGTAGGCCAGCTGCGCAATGATACCCAACTGCATACGCCGAAGGCGATCCTTATCGACCTGATCCGCGCCTTACCGGTGGTGCTGGTGATTCTGGCGATTGGCCTGATCTTACTCACCATGCAGCTCAATATCAGTGCTCTACTGTGGGCATACAGTAAAAAGCTGGCGATGTTCTGGCTGGTGTTTGGCCTGTGCTGGAAAGTGCTGGAAAAGAACGGTGTAGCGGTCAGCCACTTTAATATGCCGGCGCAATTGACCAGCCACTGGCGGCGGCAGATTGTTCGCGTCAGCCTGGCGCTGCTGCCGCTGAATTTCTGGTCGGTGATTTCCGAGCTGTCGCCGCTGAACCTGATGGACGACGTGCTGGGGCAGCTGGTGATTTTCTTCAACTTACTGCTGATAGCGGTGCTGGTCTGGCCGATGTGCCGGGAAAGCTGGCGCGATAAAGAGTCGCACAGCCTGCGCCTGCTGACGATCACTGTGCTGTCTATCGTTCCGGTGGCCCTGATGGTGCTAACGGCGACCGGCTACTTCTACACCACGCTGCGCCTGGCGGGACGCTGGATCGAGACCGTCTATCTGGTCATGATCTGGAACCTGCTGTACCAGACTGTGCTGCGCGGCCTGAGCGTGGCGGCGCGGCGCATCGCCTGGCGCCGGGCGCTGGCGCGCCGTCAGCATCTGGTGAAGGAAGGCGCGGAAGGCGCCGAGCCGCAGGAGGAGCCGACTATCGCCCTCGAGCAGGTCAACCAGCAGACGTTACGCATCACCATGCTGGTGATGATCGCGCTGTTCGCGGTCATGTTCTGGGCGATTTGGTCGGATTTGATCACCGTTTTCGCCTATCTCGACAGCATTACCCTCTGGCATTACAACGGCACCGAGGCAGGGGCCAGCGTGGTGCGCAGCGTCACGATGGGCAGCCTGCTGTTTGCCATTGTGGCGTCGATGGTTGCCTGGGCGCTGATCCGCAACCTGCCGGGGCTGCTGGAGGTGCTGGTCCTGTCGCGGCTTAACATGCGCCAGGGGACTTCCTACGCCATCACCACCATTCTTAACTATGCGATTATCGCCATCGGGGCGATGACGGTATTCGGGTCGCTGGGCGTCTCATGGGATAAACTGCAGTGGCTGGCGGCCGCGCTGTCGGTTGGTTTAGGTTTTGGTCTGCAGGAGATCTTCGGTAACTTCGTCTCCGGCCTGATTATTCTGTTCGAACGTCCGGTGCGCATTGGGGATACGGTGACAATCGGCACCTTCTCCGGTACGGTAAGCAAAATCCGCATTCGCGCCACCACCATCACCGACTTCGATCGTAAAGAGGTGATCATCCCGAACAAGGCGTTCGTTACCGAGCGCTTGATCAACTGGTCGCTCTCCGACACCGTGACCCGCGTGGTGATCCGCCTCGGCGTCGCCTACGGTTCCGATCTGGATAAGGTGAAGGAGGTGCTCCTGAAGGTCGCGCACGATCATCCGAAAGTGATGCAGGAGCCAGCGCCAGCGGTCTTCTTCACCACCTTCGGGGCCAGTACCCTGGATCATGAACTGCGTCTGTATGTCCGTGAACTGCGCGATCGCAGCTACACGGTGGATGAGCTCAACCGCGCCATCGACCGTCTGTGCCGGGAGAATGACATCAACATTGCCTTTAACCAGCTGGAAGTCCATCTGCGAAATGAAAAGGGCGACGAGGTCACGGAAGTGAAGCGGGACGGAAAGGGTGACGATTTAGCTCCCTCCGTCGCGTCTTAA	MLHTISRQRATFIFIIMLLCFIGLFSPVQGRAADLPDRAEVQSQLNTLNKQKELTPQDKLVQQDLTQTLETLDKIDRIKSETTQLRQQVEQAPAKLRQAVDSLNNLSDVPNDDATRKTLSTLSLRQLESRVTQTLDDLQNAQNDLATYNSQLVSLQTQPERVQNAMYKASQQLQQIRNRLNGTSVGDETLRPTQQVLLQAQQALLNAQIEQQRKSLEGNTVLQDTLQKQRDYVTAWSNRLEHQLQLLQEAVNSKRLTLTEKTAQEAVTPDETARIQANPLVKQELDINHQLSEKLIQATENGNQLVQRNIQVKNWLDRALQSERDIKEQISVLKGSLLLSRILYQQQQTLPSADELQDMTNRIADLRLEQFEVNQKRDALFQSDAYVAKLEEGHSAEVNDEVHAALLEVIDMRRELLDQFNKQLGNQLMMAINLQINQQQLMSVSSSLKEILTQQIFWVNSNKPMDWEWIKAFPEALKGQFKAMKITVNWEKAWPAVFVAFLAGLPLLLIAGLIRWRLQWLKDYQAKLASQVGQLRNDTQLHTPKAILIDLIRALPVVLVILAIGLILLTMQLNISALLWAYSKKLAMFWLVFGLCWKVLEKNGVAVSHFNMPAQLTSHWRRQIVRVSLALLPLNFWSVISELSPLNLMDDVLGQLVIFFNLLLIAVLVWPMCRESWRDKESHSLRLLTITVLSIVPVALMVLTATGYFYTTLRLAGRWIETVYLVMIWNLLYQTVLRGLSVAARRIAWRRALARRQHLVKEGAEGAEPQEEPTIALEQVNQQTLRITMLVMIALFAVMFWAIWSDLITVFAYLDSITLWHYNGTEAGASVVRSVTMGSLLFAIVASMVAWALIRNLPGLLEVLVLSRLNMRQGTSYAITTILNYAIIAIGAMTVFGSLGVSWDKLQWLAAALSVGLGFGLQEIFGNFVSGLIILFERPVRIGDTVTIGTFSGTVSKIRIRATTITDFDRKEVIIPNKAFVTERLINWSLSDTVTRVVIRLGVAYGSDLDKVKEVLLKVAHDHPKVMQEPAPAVFFTTFGASTLDHELRLYVRELRDRSYTVDELNRAIDRLCRENDINIAFNQLEVHLRNEKGDEVTEVKRDGKGDDLAPSVAS	PGPT0013825_376	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013825-mscK|kefA|aefA-K05802	NA	NA
BMS020_03529	900			ISNCY family transposase ISSen7	ATGGAAAAAGTCAGTCAAACCCCGCACGATGCGGTTTTTCGCCAGATGCTGATGCATCAGGCGGTGGCGAAGGATTTCCTGCAGCTGTATCTGCCCGCGCCGTTTCTGGCAATTTGCGAGCTGGATTCACTGCAGCTGGTCTCCGGTAGCTTTGTTGAAGAGGACCTGCGCGCCAGCTATTCCGATATCCTTTACTCACTGCGCACCCGCCACGGACCGGGCTATGTTTACGCGCTGATTGAGCACCAGAGTACCCCGGACAAGCTGATGGCGTTTCGCCTGCTGCGCTACGCGCTGGCCGCCATGCAGCGTCATCTGGACGATGGCCACGACACGCTGCCGCTGGTGGTGCCAATTCTGTTTTATCACGGCAAGGTCAGCCCCTGGCCCTGGCCCCGCAACTGGCAACAGCTATTCGCCGAACCGGCGCTGGCGAAGGCGCTCTATAGTGGTGGTTTTCCGCTGGTGGACCTCACCGTTATGCCAGATAATCAGATCGTCCGTCATCGGCGTATGGCCATGCTGGAGCTGTTGCAAAAGCATATCCGCCATCGCGATCTGGCCGAGCTGCAGGTGCCGCTGATTGCGCTGATGACGCAAGGCTATCTGACAGAAGCGCAGTTAAATACGCTGCTGCGCTATATGTTGCAGGCGGGTACCACGGAACATCCGGGGGCGCTGATCCGCGCGCTGGCGGCGCAGTCGCCCAGACATAAGGAGCTGATGATGACCATTGCCGAATGGCTGGAAGAGAAAGGCCGTAAACAGGGGCAGCAGGAGGGCGAACAGGAAGCCACTCGCAGCATCGCCGCCAGAATGCTGGCGCGCGGCCTCGAACGTCAAATCGTGCGGGAACTCACCGGGCTTAGCGACGAAGAGCTCGCCGCGCTGACGCCCTGA	MEKVSQTPHDAVFRQMLMHQAVAKDFLQLYLPAPFLAICELDSLQLVSGSFVEEDLRASYSDILYSLRTRHGPGYVYALIEHQSTPDKLMAFRLLRYALAAMQRHLDDGHDTLPLVVPILFYHGKVSPWPWPRNWQQLFAEPALAKALYSGGFPLVDLTVMPDNQIVRHRRMAMLELLQKHIRHRDLAELQVPLIALMTQGYLTEAQLNTLLRYMLQAGTTEHPGALIRALAAQSPRHKELMMTIAEWLEEKGRKQGQQEGEQEATRSIAARMLARGLERQIVRELTGLSDEELAALTP				NA	NA	NA	NA	NA
BMS020_03530	174			hypothetical protein	ATGTCGCTGGAAAAAGCCCCCGATGAGGTCAAACTGGCCGTCGATTTAATCATGTTGCTGGAGTCGCATCAGATCCCGGCGCAAACGGTGCTGGACGCGCTGGAAATTGTCAGGCGGGATTATGCAAACAAGTTAAAAAACGCGGAAAGCGCCTCGCAAACGCCGCAGAAGTAA	MSLEKAPDEVKLAVDLIMLLESHQIPAQTVLDALEIVRRDYANKLKNAESASQTPQK				NA	NA	NA	NA	NA
BMS020_03531	528	priC	COG3923	Primosomal replication protein N''	GTGAAAACAGCTCAACTTTTACAAACGCTGAACAATCAGCTCAGCGAGCTGGCCGCGCTGGTGGCGCCGCTGGCGGAGCACGCGACCCTCAGCCCGCGCTTTGACCGCCAGCTCTTCCACACCCGCAGCACGCTGATGCAGGCCTATCTGGCGGAAGCCCAACACAACTTTAACCAGCTCCGCCAGGCCGTCGAGCGCCAGCAGCTGCCGCAGGTAGCCTGGATCGCCGAGCGGCTGGCGGCGCAAATCGCCGCGCTGCGTCGCGAAACCGCCACCTGGTCGCTGCGCAGTTGGGACCATGCCTCGCCAACGCTGAGCCGCTGGCAGCGCCGTCGCCTGCAGCATCAGGAGTATGAGCGCCGCCTGCTGGCGATGCGCGACCAACGCCAGCGCCAGCTGACGCAGGCTACCAGCCTTGACGAGCAGCAGCGGCTGGCCAGCGAAGTCGAGGTCTACAGCGGACGGCTGGCGCGCTGTCGACAGGCGCTGGACAAGATTGAAAACGTACTGGCGCGGCTGACGCGCTAA	MKTAQLLQTLNNQLSELAALVAPLAEHATLSPRFDRQLFHTRSTLMQAYLAEAQHNFNQLRQAVERQQLPQVAWIAERLAAQIAALRRETATWSLRSWDHASPTLSRWQRRRLQHQEYERRLLAMRDQRQRQLTQATSLDEQQRLASEVEVYSGRLARCRQALDKIENVLARLTR				NA	NA	NA	NA	NA
BMS020_03532	378	ybaN_1	COG2832	Inner membrane protein YbaN	ATGCCACCTGTTATTTTAACCATTATCGGCTGGCTGGCGGTAGCGCTGGGTACGCTGGGTGTTTTCTTACCGTTGCTGCCGACGACGCCGTTTATTCTGCTCGCCGCCTGGTGCTTTGCCCGCTCATCGCCGCGCTTTCACCAGTGGCTGCTGTATCGCTCATGGTTCGGCGGCTATCTTCGCCACTGGCAGCAGTACCGCGCCATGCCCCGCGGCGCCAAACCGCGCGCCATTGCCATGATCGTGGCGACTTTTGCTATTTCACTGTGGCTGGTTAAGCTTACGTGGGTGCGCATTATGCTGTTGGTCATTTTGGCCTGTCTGCTGATCTTTATGTGGCGCATTCCGGTGGTTGACGCAAAGCAACAAAAGCACTGA	MPPVILTIIGWLAVALGTLGVFLPLLPTTPFILLAAWCFARSSPRFHQWLLYRSWFGGYLRHWQQYRAMPRGAKPRAIAMIVATFAISLWLVKLTWVRIMLLVILACLLIFMWRIPVVDAKQQKH	PGPT0009435_7	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009435-mqnB-K11783	NA	NA
BMS020_03533	552	apt_1	COG0503	Adenine phosphoribosyltransferase	ATGACCGCAACTGCACAGCAGCTTGAATATCTGAAGAACAGCATCCAGAGTATCGAGGATTATCCAAAACCTGGCATTCTTTTCCGCGATGTCACCAGTTTACTGGAAGACCCGAAAGCTTACGCGCTCAGCATTGAACTGCTGACCGAGCGCTACAAAGACGCGGGAATTACCAAAGTGGTAGGGACTGAGGCGCGTGGCTTCCTTTTCGGCGCACCGGTTGCGCTGGCGCTGGGCGTGGGCTTTGTTCCGGTACGCAAGCCGCGTAAGTTGCCGCGTGAAACCATCGCTGAGAGCTATGAGCTGGAGTACGGCACCGATCAGCTGGAGATCCACGTTGACGCCATCAAACCGGGCGACAAAGTGCTGGTGGTGGACGATCTGCTGGCGACCGGCGGAACCATCGACGCGACGGTCAAACTGATCCGCCGTCTCGGCGGCGAAGTACAGGATGCCGCTTTCATTATCAATCTCTTCGATCTGGGCGGCGAACAGCGCCTGGAGAAGCTGGGGGTCCACTGCTACAGTCTGGTGCCGTTCCCGGGCCACTAA	MTATAQQLEYLKNSIQSIEDYPKPGILFRDVTSLLEDPKAYALSIELLTERYKDAGITKVVGTEARGFLFGAPVALALGVGFVPVRKPRKLPRETIAESYELEYGTDQLEIHVDAIKPGDKVLVVDDLLATGGTIDATVKLIRRLGGEVQDAAFIINLFDLGGEQRLEKLGVHCYSLVPFPGH	PGPT0021455_1833	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021455-apt-K00759	NA	NA
BMS020_03534	1908	dnaX	COG2812	DNA polymerase III subunit tau	ATGAGTTATCAGGTCTTAGCCCGTAAATGGCGCCCACAAACCTTTGCTGACGTCGTCGGCCAGGAACATGTGCTGACCGCACTGGCGAACGGCTTGTCGTTAGGGCGCATTCATCACGCTTATCTCTTTTCCGGTACCCGCGGGGTCGGTAAGACTTCCATCGCCCGCCTGCTGGCGAAAGGGTTAAACTGTGAAACCGGCATCACCGCCACCCCCTGCGGCGTGTGTGATAACTGCCGGGAAATAGAACAGGGGCGCTTTGTCGATCTGATTGAGATTGACGCCGCCTCGCGAACCAAAGTCGAAGATACTCGCGACCTGCTGGATAACGTCCAGTACGCGCCGGCCCGCGGCCGCTTTAAGGTCTATCTCATCGACGAAGTCCATATGCTGTCGCGCCACAGCTTCAACGCGTTATTAAAGACGCTGGAGGAGCCGCCGGCGCACGTCAAATTCCTGCTGGCGACGACGGATCCGCAGAAGCTGCCGGTGACGATCTTATCCCGCTGCCTGCAGTTCCACCTGAAGGCGCTGGACGTTGAACAGATCCGCCATCAGCTGGAGCATATTCTTGGCGAAGAGCAGATTGCCTTCGAGCCCCGCGCGCTGCAGCTTCTGTCGCGCGCCGCCGACGGCAGCCTGCGTGATGCCTTAAGTCTGACCGATCAGGCTATTGCCAGTGGAGAAGGGCAACTGACGGCGGCGTCGGTGAGCGCCATGCTCGGCACCCTCGATGACGATCAGGCGCTGTCGCTGATTGAAGCCCTGGTCGCCGCCGATGGCGAGCGGGTCATGGCGGGCGTCAATGACGCCGCCGCGCGCGGCGTTGAATGGGAGGCGCTGCTGGTGGAGATGCAGAGCCTGCTGCACCGCATCGCCATGGTTCAGCTGTCCCCTTCGGCGCTGGGCGCCGACATGGCCGCGGTCGAAGTGCGAATGCGCGAACTGGCGCGCACCGTACCGCCGGGCGACGTTCAGCTCTACTACCAAACGCTGCTGATTGGCCGCAAAGAGCTGCCCTATGCCCCGGACCGGCGGATGGGCGTCGAAATGACGCTGCTGCGCGCCCTGGCGTTTCATCCGCGTAAGCCGCTGCCCGAGCCGGAGGTGCAGCCGGCACTGGCCGCCGCGCCCGCGCCGCGCCAGCAGGTTTCCCCCGCAGCGCCGCCGCCGCAGCCGTCGCAGAGTTTGCCGCCGACCACCAGCCAGGTGCTGGCGGCCCGCAGCCACCTGCAGCGCAGCCAGGGAGCAACCACCCCAAAAAAGAGTGAACCGGCAGCCGCTTCCCGCGCGCGGCCGGTGAATAACGCTGCGCTGGAGCGACTGAGTTCGATTACCGAGCGCGTCCAGGCTCGTCCGGCCGCGGCGGCGCTGGAGCAGGCCCCGGCGAAGAAAGAGGCCTATCGCTGGAAGGCGACGACGGTGGTTGAAGAGACCAAAGTCGAAGTCGCCACGCCTAAAGCGCTGAAAAAAGCGCTGGAGCATGAAAAAACGCCGGAGCTGGCGGCTAAGCTTGCCGTTGAAGCGGTCGAGCGCGACAGCTGGGCGGCGGAAGTGAGCCAGCTGGCGGTACCGAAGCTGGTCGAGCAGGTGGCGCTCAACGCGTGGAAAGAGCAGGAGGGCAATCGCGTCTGTCTGCATCTGCGCCCCAGCCAGCGCCACCTCAATTCCGCCGGCGCGCAGCAAAAGCTGGCTGAAGCGCTGGGGGTGTTGTACGGTACGCCGGTTGAATTGACCATCGTGGAAGACGATAATCCCGCGATGCGCACGCCGCTGGAGTGGCGGCAGGCTATTTATGAAGAGAAGCTCGCGCAGGCGCGCGACGCGATTATTGCGGATAATAACATTCAGACCCTGCGTCGTTTCTTCGACGCCGATCTGGATGAAGAGAGTATCCGCCCCATTTGA	MSYQVLARKWRPQTFADVVGQEHVLTALANGLSLGRIHHAYLFSGTRGVGKTSIARLLAKGLNCETGITATPCGVCDNCREIEQGRFVDLIEIDAASRTKVEDTRDLLDNVQYAPARGRFKVYLIDEVHMLSRHSFNALLKTLEEPPAHVKFLLATTDPQKLPVTILSRCLQFHLKALDVEQIRHQLEHILGEEQIAFEPRALQLLSRAADGSLRDALSLTDQAIASGEGQLTAASVSAMLGTLDDDQALSLIEALVAADGERVMAGVNDAAARGVEWEALLVEMQSLLHRIAMVQLSPSALGADMAAVEVRMRELARTVPPGDVQLYYQTLLIGRKELPYAPDRRMGVEMTLLRALAFHPRKPLPEPEVQPALAAAPAPRQQVSPAAPPPQPSQSLPPTTSQVLAARSHLQRSQGATTPKKSEPAAASRARPVNNAALERLSSITERVQARPAAAALEQAPAKKEAYRWKATTVVEETKVEVATPKALKKALEHEKTPELAAKLAVEAVERDSWAAEVSQLAVPKLVEQVALNAWKEQEGNRVCLHLRPSQRHLNSAGAQQKLAEALGVLYGTPVELTIVEDDNPAMRTPLEWRQAIYEEKLAQARDAIIADNNIQTLRRFFDADLDEESIRPI				NA	NA	NA	NA	NA
BMS020_03536	333	ybaB_1	COG0718	Nucleoid-associated protein YbaB	ATGTTTGGTGGAAAAGGCGGCCTGGGTAACCTGATGAAGCAGGCCCAGCAGATGCAAGACAAAATGCAGAAGATGCAGGAAGAGATCGCTCAGCTGGAAGTGACCGGCGAGTCCGGCGCGGGTCTGGTGAAAGTGACCATCAACGGCGCGCACAACTGCCGCCGCGTGGAGATCGACCCAAGCCTGCTGGAAGATGACAAAGAGATGCTGGAAGATCTGGTGGCTGCCGCGTTCAACGACGCCGCGCGCCGTATCGAAGAGACCCAGAAAGAGAAGATGGCTTCCGTCTCTGCCGGTATGCAGCTGCCGCCAGGCTTCAAGATGCCGTTCTGA	MFGGKGGLGNLMKQAQQMQDKMQKMQEEIAQLEVTGESGAGLVKVTINGAHNCRRVEIDPSLLEDDKEMLEDLVAAAFNDAARRIEETQKEKMASVSAGMQLPPGFKMPF				NA	NA	NA	NA	NA
BMS020_03537	606	recR_1	COG0353	Recombination protein RecR	ATGCAAACCAGCCCGCTGTTAACTCAGCTTATGGAAGCGCTGCGCTGTCTGCCGGGCGTCGGCCCGAAGTCCGCGCAGCGCATGGCGTTTACCCTGCTGCAGCGCGATCGCAGCGGCGGGATGCGTCTGGCGCAGGCGCTGACGCGCGCGATGTCGGAGATCGGCCACTGCGCCGATTGCCGCACCTTCACCGAGCAGGAGGTGTGCAATATCTGCAGCAACCCGCGTCGCCAGGAAAACGGCCAAATCTGCGTAGTGGAGAGTCCGGCGGACATCTACGCCATTGAGCAGACCGGGCAGTATTCCGGCCGCTACTTCGTGCTGATGGGGCACCTGTCGCCGCTCGACGGCATCGGGCCTGACGACATCGGGCTCGATCGCCTGGAACAACGGCTGGAGGCGGAGTCGATCACCGAGGTGATCCTTGCCACCAACCCGACCGTTGAGGGCGAGGCGACGGCCAACTACATCGCAGAGCTGTGCGCGCAGTATGGCGTCGACGCCAGCCGAATCGCCCACGGCGTGCCGGTGGGCGGCGAGCTGGAGATGGTCGATGGCACCACGCTGTCCCACTCGCTGGCCGGTCGCCACAAGATTACTTTCTGA	MQTSPLLTQLMEALRCLPGVGPKSAQRMAFTLLQRDRSGGMRLAQALTRAMSEIGHCADCRTFTEQEVCNICSNPRRQENGQICVVESPADIYAIEQTGQYSGRYFVLMGHLSPLDGIGPDDIGLDRLEQRLEAESITEVILATNPTVEGEATANYIAELCAQYGVDASRIAHGVPVGGELEMVDGTTLSHSLAGRHKITF				NA	NA	NA	NA	NA
BMS020_03538	1875	htpG_1	COG0326	Chaperone protein HtpG	ATGAAAGGACAAGAAACTCGTGGTTTTCAGTCAGAAGTAAAACAGCTTCTGCACCTGATGATCCATTCCCTCTATTCCAACAAAGAAATCTTTCTGCGTGAGCTGATTTCCAACGCCTCTGATGCGGCCGATAAGCTGCGTTTCCGCGCGCTGTCGCAGCCGGATTTGTATGAGGGAGACGGCGAGCTGCGCGTGCGGGTTTCGTTTGATAAAGACAACCGTACCCTGACCATCGCCGATAACGGTATCGGCATGAACCGGGAAGAGGTTATCGATCATCTCGGCACCATCGCCAAATCCGGCACCAAAGCGTTCCTGGAATCCATGGGTTCCGACCAGGCAAAAGATAGCCAGCTGATTGGCCAGTTCGGTGTCGGCTTCTATTCGGCCTTCATCGTGGCGGATAAAGTGACCGTGCGCACCCGTGCGGCAGGCGATAAACCTGAAAACGGCGTGTTCTGGGAATCCGCCGGCGAAGGGGAATATACCGTGGCCGACATCACCAAAGCCGATCGCGGGACCGAAATCACCCTGCATCTGCGCGAAGGTGAGGACGATTTCCTCAACGACTGGCGCGTGCGCTCCATCATCAGCAAGTATTCCGACCACATCGCGCTGCCGGTTGAGATTGAAAAACAGGAAGAGAAAGACGGCGAAACCGTTATCAGCTGGGAAAAAATCAACAAGGCGCAGGCCCTGTGGACCCGCAGCAAGTCTGAAGTTAACGACGACGAGTACAAAGAGTTCTATAAGCACATTGCCCATGACTACAGCGACCCGCTGACCTGGAGCCACAACCGCGTGGAAGGTAAGCAGGAGTACACCAGCCTGCTGTATATCCCGTCGCAGGCGCCGTGGGATATGTGGAACCGCGATCATAAACACGGCCTGAAGCTGTACGTCCAGCGTGTGTTCATTATGGATGACGCCGAGCAGTTTATGCCGAACTACCTGCGCTTCGTACGCGGCCTGATAGATTCCAACGATCTGCCGCTGAACGTCTCCCGTGAAATCCTGCAGGACAGCAGCGTGACCCGTAACCTGCGCACCGCGCTGACCAAACGCGCGCTGCAGATGCTGGATAAGCTGGCGAAAGACGACGCCGAAAAATATCAGACTTTCTGGAAACAGTTCGGCCTGGTGTTGAAAGAGGGCCCGGCGGAAGATCCGAGCAACCAGGAGGCGATCGCCAAACTGCTGCGCTTCGCGACCACCCATACCGACTCCTCCGCGCAGACCGTGTCGCTGGAAGAGTACGTCTCGCGTATGAAAGACGGTCAGGAGAAGATCTACTACATCACTGCCGACAGCTATGCGGCGGCGAAAAGCAGCCCACACCTCGAACTGCTGCGTAAGAAAGGGATCGAAGTGCTGCTGCTCTCCGATCGCATCGACGAGTGGATGATGAGCTACCTGACCGAATTCGACGGCAAAGCGTTCCAGTCTGTCGCTAAAGCCGACGAGTCGCTGGACAAACTGGCGGACGAAGTGGACGAGTCCACCAAAGAAGCCGAAAAAGCGCTGGAGCCGTTCGTTGAGCGTGTGAAAAACCTGCTTGGCGACCGGGTCAAAGAGGTGCGTCTGACCCATCGTCTGACCGATACCCCGGCGATTGTCACCACCGATGCCGACGAGATGAGCACCCAGATGGCGAAGCTGTTCGCGGCTGCGGGCCAGGCGGCGCCGGAAGTGAAATACATCTTCGAACTGAACCCGGCGCATCTGCTGGTGAAACGCGCAGCCGATACCCAGGATGACGCGCAGTTCGGCGAATGGGTGGAATTGCTGCTGGATCAGGCGCTGCTGGCCGAGCGCGGCACGCTGGAAGATCCGAACCAGTTTATCCGCCGTATGAACCAGCTGCTGGCTTCCTGA	MKGQETRGFQSEVKQLLHLMIHSLYSNKEIFLRELISNASDAADKLRFRALSQPDLYEGDGELRVRVSFDKDNRTLTIADNGIGMNREEVIDHLGTIAKSGTKAFLESMGSDQAKDSQLIGQFGVGFYSAFIVADKVTVRTRAAGDKPENGVFWESAGEGEYTVADITKADRGTEITLHLREGEDDFLNDWRVRSIISKYSDHIALPVEIEKQEEKDGETVISWEKINKAQALWTRSKSEVNDDEYKEFYKHIAHDYSDPLTWSHNRVEGKQEYTSLLYIPSQAPWDMWNRDHKHGLKLYVQRVFIMDDAEQFMPNYLRFVRGLIDSNDLPLNVSREILQDSSVTRNLRTALTKRALQMLDKLAKDDAEKYQTFWKQFGLVLKEGPAEDPSNQEAIAKLLRFATTHTDSSAQTVSLEEYVSRMKDGQEKIYYITADSYAAAKSSPHLELLRKKGIEVLLLSDRIDEWMMSYLTEFDGKAFQSVAKADESLDKLADEVDESTKEAEKALEPFVERVKNLLGDRVKEVRLTHRLTDTPAIVTTDADEMSTQMAKLFAAAGQAAPEVKYIFELNPAHLLVKRAADTQDDAQFGEWVELLLDQALLAERGTLEDPNQFIRRMNQLLAS	PGPT0014640_3556	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-PR1_LIKE_PROTEINS,PGPT0014640-hptG-K04079	NA	NA
BMS020_03539	645	adk_1	COG0563	Adenylate kinase	ATGCGTATTATTCTGCTTGGCGCTCCGGGCGCGGGTAAAGGAACTCAGGCTCAGTTCATCATGGAGAAATACGGTATTCCGCAAATCTCCACCGGCGATATGCTGCGCGCTGCGGTAAAATCCGGCTCCGAACTCGGTAAGCAAGCGAAAGACATCATGGACGCCGGCAAGCTGGTGACCGATGAGCTGGTTATCGCGCTGGTCAAAGAGCGTATCGCCCAGGAAGATTGCCGTAACGGCTTCCTGCTGGACGGCTTCCCGCGCACTATTCCGCAGGCTGACGCCATGAAAGAAGCGGGCATTACCGTTGATTACGTGCTGGAATTCGATGTGCCGGACGAACTGATCGTCGACCGCATCGTTGGCCGTCGCGTTCACGCGGCATCCGGTCGCGTATACCACATCAAATTTAATCCGCCGAAGGTGGAAGGCAAAGACGACGTGACCGGCGAAGAGCTGACCACCCGTAAAGACGACCAGGAAGAGACCGTGCGTAAGCGTCTGGTGGAATATCATCAGATGACGGCGCCGTTGATCGGCTACTACACCAAAGAAGCGCAGGCGGGCAACACCAAATACGCCAAAGTCGACGGCACCAAAGCGGTGGCTGACGTGCGCGCCGAACTGGAAAAAATCCTCGGCTGA	MRIILLGAPGAGKGTQAQFIMEKYGIPQISTGDMLRAAVKSGSELGKQAKDIMDAGKLVTDELVIALVKERIAQEDCRNGFLLDGFPRTIPQADAMKEAGITVDYVLEFDVPDELIVDRIVGRRVHAASGRVYHIKFNPPKVEGKDDVTGEELTTRKDDQEETVRKRLVEYHQMTAPLIGYYTKEAQAGNTKYAKVDGTKAVADVRAELEKILG	PGPT0009040_4893	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0009040-adk|AK-K00939	NA	NA
BMS020_03540	963	hemH_1	COG0276	Ferrochelatase	ATGCATCAGACGAAAACAGGTATCTTGCTGGCCAATTTAGGCACTCCCGATGCGCCCACCCCCGGTGCGGTGAAGCGCTATCTGCGACAATTCCTCAGCGACAAACGGGTGGTGGATACGTCTCGTCTGCTATGGTGGCCGCTGCTGCGCGGCGTCATACTGCCGATTCGCTCTCCCCGCGTGGCTAAACTCTATCAGTCCGTCTGGATGGAAGAGGGGTCGCCGCTGATGGTATACAGCCGTCGCCAGCAGCAGGCGCTGGCCGCCAGACTGCCGGATACCCCGGTGGCGCTGGGCATGAGCTATGGATCGCCGTCGCTGGCCAGCGCGGTGGATGATTTACTGGCGCAGGGGGTGGGGCACATCGTAGTGCTGCCGCTGTATCCGCAATATTCCTGCTCGACGGTGGCTGCCGTCTGGGATGAGCTGGCGCGGATCCTCGCGAAGAAACGCGCCATTCCCGGTATCTCGTTTATTCGCGATTACGCCGGGCACCCGGACTATATCCATGCCCTGGCGGCCAGCGTGCGCGCCTCGTTTGCCGTTCATGGGGAACCGGATCTGCTGCTGCTCTCCTATCATGGGATCCCGCAGCGCTATGCCAATCAGGGGGATGATTATCCTCAGCGCTGTCGCGATACCACGCGGGAACTGGTCTCCGCGCTGGGGCTGCCGCCGGAGCGGGTGATGATGACCTTCCAGTCGCGCTTTGGTCGGGAACCCTGGCTGACGCCGTACACCGATGAGACGCTGAAGATGCTCGGCGAGAAAGGGACGAAGCATATTCAGGTGCTGTGCCCGGGGTTTGCCGCCGACTGTCTCGAAACGCTGGAAGAGATCGCCGTCCAGAACCGGGAAATATTCCTCGAAGCGGGCGGAAAGCAATATGAATACATTCCGGCGCTTAACGCGGACGCCGCGCATATTGAGATGATGGTCAACCTGACGGCGCCTTATCGCTGA	MHQTKTGILLANLGTPDAPTPGAVKRYLRQFLSDKRVVDTSRLLWWPLLRGVILPIRSPRVAKLYQSVWMEEGSPLMVYSRRQQQALAARLPDTPVALGMSYGSPSLASAVDDLLAQGVGHIVVLPLYPQYSCSTVAAVWDELARILAKKRAIPGISFIRDYAGHPDYIHALAASVRASFAVHGEPDLLLLSYHGIPQRYANQGDDYPQRCRDTTRELVSALGLPPERVMMTFQSRFGREPWLTPYTDETLKMLGEKGTKHIQVLCPGFAADCLETLEEIAVQNREIFLEAGGKQYEYIPALNADAAHIEMMVNLTAPYR	PGPT0008485_4136	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
BMS020_03541	1305	gsk	COG0524	Inosine-guanosine kinase	ATGAAATTTCCCGGTAAACGCAAATCCAAACACTATTTTCCCGTTAACGCCCGCGACCCGCTGCTGCAGCAAATTCAGCCGGAGAATGAATCCAGCGTCTCCTGGGTGGTGGGTATCGACCAGACGCTGGTGGATATCGAAGCGAAAGTGGATGAGGCGTTTATCGTGCGCTACGGCCTGAGCGCGGGCCACTCGCTGGTGATTGAAGATGACGTCGCTGAGGCGCTGTACCAGGAGCTGGTGCGCAATAATCTTATTACCCATCAGTTTGCCGGCGGCACGATCGGCAATACCATGCACAACTACTCGGTGCTGGCGGACGATCGCTCGGTGCTGCTTGGCGTCATGTGCAGCAATATCGAAATCGGCGGCTATGCCTATCGCTACCTGTGCAATACCTCCAGCCGTACCGATCTGAACTATCTGCAGGGCGTCGACGGCGCCATTGGCCGCTGCTTCACCCTGATCAGCGACAGCGGCGAGCGCACCTTCGCCATCAGCCCGGGTCATATGAACAAGCTGCGCCCGGAAAGCATTCCGGAAGCGGTGATCGCCGGCGCCTCGGCGCTGGTGCTGACCTCCTACCTGGTACGCTGCAAGCCGGGCGAGCCGATGCCGGACGCGACGATGAAAGCCATCGAGTATGCCAAAAAGCATGATGTGCCGGTGGTGTTAACTCTTGGAACCAAATACGTGATTGCCGATAACCCGGCGTGGTGGCAGCAGTTCCTGCAGGAGCATGTCTCGATTCTGGCGATGAATGAAGAGGAAGGGGAAGCGCTGACCGGCTTTGCCGATCCGCTGTCGGCGGCGGATAAAGCGCTGGACTGGGTCGACCTGGTGCTGTGCACCGCCGGACCGGCGGGGCTGTATATGGCGGGCTTCACTGAAGAAGAGACGAAGCGTAAGACCCAGCATCCGCTGCTGCCGGGGGCGATCCCGGAATTTAACCAGTTCGAATTCAGTCGCGCGATGCGTCACCAGGACTGCGTCAATCCGCTGCGGATTTATTCGCATATTGCGCCGTATATGGGCGGCCCGGAGAAGATCATGAACACCAACGGCGCAGGGGACGGCGCGCTGGCGGCGCTGCTGCATGACATCACCGCCAATAACTACCATCGCAATAACGTCCCCAACTCCAGCAAACACAAATGCAAATGGCTGACCTACTCCTCGCTGGCGCAGGTGTGTAAATATGCCAACCGCGTGAGCTATCAGGTGCTGAACCAGCACTCGCCGCGCTTAACCCGCGGCCTGCCGGAACGTGAGGACAGCCTGGAAGAGGCGTACTGGGATCGGTAA	MKFPGKRKSKHYFPVNARDPLLQQIQPENESSVSWVVGIDQTLVDIEAKVDEAFIVRYGLSAGHSLVIEDDVAEALYQELVRNNLITHQFAGGTIGNTMHNYSVLADDRSVLLGVMCSNIEIGGYAYRYLCNTSSRTDLNYLQGVDGAIGRCFTLISDSGERTFAISPGHMNKLRPESIPEAVIAGASALVLTSYLVRCKPGEPMPDATMKAIEYAKKHDVPVVLTLGTKYVIADNPAWWQQFLQEHVSILAMNEEEGEALTGFADPLSAADKALDWVDLVLCTAGPAGLYMAGFTEEETKRKTQHPLLPGAIPEFNQFEFSRAMRHQDCVNPLRIYSHIAPYMGGPEKIMNTNGAGDGALAALLHDITANNYHRNNVPNSSKHKCKWLTYSSLAQVCKYANRVSYQVLNQHSPRLTRGLPEREDSLEEAYWDR	PGPT0021470_283	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021470-gsk-K00892	NA	NA
BMS020_03542	1677	ybaL_1	COG1226	Putative cation/proton antiporter YbaL	ATGCACCACGCAACACCGCTAATCACCACCATTGTCGGCGGCCTCGTGCTCGCCTTTATTCTCGGCATGATTGCCAATAAGCTACGTATTTCTCCTCTGGTGGGATATCTCTTAGCGGGCGTGCTGTCCGGACCTTTCACCCCTGGCTTTGTTGCTGACACCAAACTGGCTCCGGAACTGGCGGAGCTCGGCGTGATCCTGCTGATGTTCGGCGTCGGCCTGCATTTCTCCCTCAAGGATCTGATGGCGGTAAAGTCGATCGCCATTCCCGGGGCCATCGCCCAGATAGCCGTGGCGACGCTGTTGGGTATGGCGCTCTCCGCCGCCCTTGGCTGGTCGCTGATGACCGGCATCGTCTTTGGTCTGTGCCTCTCCACCGCCAGTACCGTGGTGCTGCTGCGCGCCCTGGAGGAACGACAGCTGATTGACAGTCAGCGCGGGCAGATCGCCATCGGCTGGCTGATTGTGGAAGACCTGGTGATGGTCCTGACGCTGGTCCTGCTGCCGGCGGTGGCCGGTATGGCGGAGAAAGGCAACCTCGGCTTCGCTTCCCTGGCCCTCGACCTCGGGATCACCATTGGCAAAGTGGTGGCCTTTATCGCCATTATGATGCTGGTCGGCCGTCGGCTGGTGCCGTGGATCATGTCGCGCAGCGCGGCCACCGGCTCGCGCGAGCTGTTCACCCTGTCGGTGCTGGCCCTGGCGCTGGGCATCGCCTTCGGCGCCGTGGAGCTGTTTGATGTCTCCTTCGCCCTCGGCGCCTTCTTTGCCGGCATGGTGCTTAACGAATCCGAGCTGAGCCACCGTGCCGCTCATGACACCCTGCCGCTGCGCGACGCCTTCGCGGTGCTGTTCTTTGTCTCCGTCGGCATGCTGTTTGACCCGATGGTGCTGGTCCAGCAGCCGCTGGCGGTGCTGGCGACGCTGGCGATCATTATCTTTGGTAAATCCGCAGCCGCCTTTTTCCTCGTGCGTATGTTTGGCCACTCGCCGCGTACCGCACTGACCATTGCCGCCAGCCTGGCGCAGATAGGTGAATTTGCCTTTATTCTTGCCGGCCTGGGGATGGCGCTTAACCTGCTGCCGCAGGCCGGGCAAAACCTGGTGCTGGCTGGAGCGATCATCTCGATTATGCTCAACCCGGTACTGTTCACTCTGCTGGAGAAATATCTCGATAAAACCGAAACCCTCGACGAGCAGACCCTGGAAGAGGTGCTGGAAGACGAGAAGCAGGTGCCGGTCGATATCTGCAACCACGCGCTGCTGGTCGGATTTGGCCGCGTCGGCAGCCTGCTGGGCGAGAAGCTGATGGCCCAGGGGATCCCGCTGGTGGTGGTTGAAACCTCGCGCACCCGCGTGGATGAGCTACGCGAGCGCGGGATCAGCGCGGTGCTGGGCAATGCCGCCAATGAAGAGATCATGGAGCTGGCGCATCTCGACTGCGCCCGCTGGCTGCTGCTGACCATTCCCAACGGCTATGAGGCCGGCGAGATTGTCGCTTCCGCACGGGAAAAATGTCCGCATATCGAGATTATCGCCCGCGCCCATTATGATGACGAAGTGGATTACATTATCGACCGTGGGGCCAATCAGGTGGTGATGGGCGAGCGGGAAATTGCCCGCGCCATGCTGCAGCTTCTGGAAACGCCACCCGCCGGTGAAGTGGTCACCGGCTGA	MHHATPLITTIVGGLVLAFILGMIANKLRISPLVGYLLAGVLSGPFTPGFVADTKLAPELAELGVILLMFGVGLHFSLKDLMAVKSIAIPGAIAQIAVATLLGMALSAALGWSLMTGIVFGLCLSTASTVVLLRALEERQLIDSQRGQIAIGWLIVEDLVMVLTLVLLPAVAGMAEKGNLGFASLALDLGITIGKVVAFIAIMMLVGRRLVPWIMSRSAATGSRELFTLSVLALALGIAFGAVELFDVSFALGAFFAGMVLNESELSHRAAHDTLPLRDAFAVLFFVSVGMLFDPMVLVQQPLAVLATLAIIIFGKSAAAFFLVRMFGHSPRTALTIAASLAQIGEFAFILAGLGMALNLLPQAGQNLVLAGAIISIMLNPVLFTLLEKYLDKTETLDEQTLEEVLEDEKQVPVDICNHALLVGFGRVGSLLGEKLMAQGIPLVVVETSRTRVDELRERGISAVLGNAANEEIMELAHLDCARWLLLTIPNGYEAGEIVASAREKCPHIEIIARAHYDDEVDYIIDRGANQVVMGEREIARAMLQLLETPPAGEVVTG	PGPT0014395_2911	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014395-ybaL|TC_KEF-K03455	NA	NA
BMS020_03543	1221	fsr_1		Fosmidomycin resistance protein	ATGACAACCAACCAATCCGCTCAGACCTTACCCAGTACCGACGCGCCGCCGCAAAAAGCGCGCACCTCGTTTGGCATCTTAGGCGCGATCAGCCTGTCCCATTTGCTTAACGATATGATCCAGTCGCTCATACTCGCTATCTACCCGCTGCTGCAGGCCGAGTTCTCCCTTACCTTCGTGCAGATTGGGATGATCACCCTCACCTTCCAGCTCACCTCATCGCTGTTCCAACCGGTGATTGGCTACATCACCGATAAACGATCGATGCCGTGGTCGCTGCCGGTGGGCATGTGCTTTACCCTCTGCGGTTTGATCCTGCTGGCGCTGGCCGGTAGCTTCGGTATGGTGCTGCTGGCCGCCGCGCTGGTGGGTACCGGCTCCTCGGTTTTCCATCCGGAATCATCCCGCGTGGCGCGGATGGCCTCCGGCGGCCGTCACGGCCTGGCCCAGTCGCTGTTCCAGGTCGGCGGCAACTTCGGAAGTTCGCTTGGCCCGCTGCTGGCGGCGGTGATCATCGCCCCGTATGGTAAAGGCAACGTCGCCTGGTTCGTGCTGGCCGCCCTGCTGGCTATCGTCGTGCTGTCGCAAATCAGCCGCTGGTACGCCGCGCAGCACCGGATGAATAAGGGCAAACCGAAGCCGGCGATCGTCAATCCGCTGCCGCGCAATAAGGTGATTCTGGCGGTAGGTATTCTGCTGATGCTGATTTTCTCGAAATACTTCTATATGGCGAGCATCAGCAGCTATTACACCTTTTATCTGATGCATAAGTTCGGCTTATCGGTGCAAAATGCCCAGCTGCATCTGTTTGCCTTCCTGTTCGCGGTGGCCGCCGGGACGGTGATTGGCGGGCCCGTTGGCGATAAGATTGGACGAAAATATGTTATTTGGGGCTCTATCCTCGGCGTGGCGCCTTTCACCCTTGTTTTACCCTATGCCAGCCTTGAATGGACCGGAATTTTAACGGTGATCATTGGTTTTATCCTCGCCTCGGCCTTCTCCGCTATTCTGGTCTATGCCCAGGAGCTGCTACCGGGACGTATCGGCATGGTTTCTGGCCTGTTTTTCGGCTTCGCCTTTGGTATGGGCGGCCTTGGCGCCGCGGTCCTGGGCCTGCTGGCGGACCATACCAGCATCGACCTGGTATATAAAATCTGCGCCTTCCTGCCGCTGCTGGGATTCCTGACGATATTTCTTCCTGATAACCGGCAAAAAGCCTGA	MTTNQSAQTLPSTDAPPQKARTSFGILGAISLSHLLNDMIQSLILAIYPLLQAEFSLTFVQIGMITLTFQLTSSLFQPVIGYITDKRSMPWSLPVGMCFTLCGLILLALAGSFGMVLLAAALVGTGSSVFHPESSRVARMASGGRHGLAQSLFQVGGNFGSSLGPLLAAVIIAPYGKGNVAWFVLAALLAIVVLSQISRWYAAQHRMNKGKPKPAIVNPLPRNKVILAVGILLMLIFSKYFYMASISSYYTFYLMHKFGLSVQNAQLHLFAFLFAVAAGTVIGGPVGDKIGRKYVIWGSILGVAPFTLVLPYASLEWTGILTVIIGFILASAFSAILVYAQELLPGRIGMVSGLFFGFAFGMGGLGAAVLGLLADHTSIDLVYKICAFLPLLGFLTIFLPDNRQKA				NA	NA	NA	NA	NA
BMS020_03544	1653	ushA	COG0737	Protein UshA	ATGCATTATTTCAAACACAGCGTGGCGCTGGCGTTATTCGCCGCTTTATCGCTGGGCAGCCTGTCCGCGCAGGCCTATGAGCAGGATAAAACCTATAAAATTACCATCCTGCACACCAACGATCACCACGGCCATTTCTGGCGCAATGACTACGGCGAATATGGCCTGGCGGCGCAGAAAACGCTGGTGGACGGTATTCGTAAAGAGGTGGCGGCCGAAGGCGGTAGCGTTCTGCTGCTGTCCGGCGGGGATATCAATACCGGGGTGCCGGAGTCTGATTTACAGGATGCAGAGCCCGATTTTCGCGGCATGAACTTGATCGGCTACGACGCGATGGCGGTGGGGAACCATGAGTTTGATAATCCGCTGAGCGTGCTGCGCCAGCAGGAAAAGTGGGCGAAGTTCCCGTTCCTGTCGGCCAATATTTATCAGAAAAGCACCGGCGAACGGCTGTTCAAACCCTGGGCGCTGTTTAAACGCGGCGGGTTAAAAATCGCGGTAATTGGCTTAACCACTGACGATACGGCCAAGATTGGCAATCCGGAATATTTCACTGATATCGAATTCCGCAAACCGGCGGAAGAGGCGAAGCTGGTGATCCAGGAGCTGCAGCAGAATGAAAAGCCGGACGTGATCCTGGCCACCACCCATATGGGCCACTATGACAACGGCAACCACGGGTCTAACGCGCCGGGGGATGTCGAGATGGCACGCAGTTTACCCGCGGGCTCGCTGGCGATGATCGTCGGCGGTCACTCGCAGGATCCGGTGTGCATGGCGTCGGAAAATAAAAAACAGGTCGACTATGTGCCAGGGACGCCGTGCGCCCCGGATCGCCAGAATGGCATCTGGATCGTCCAGGCGCATGAGTGGGGCAAATACGTCGGCCGCGCCGATTTTGAGTTCCGCAACGGTGAGATGAAGCTGGTGCACTATCAGCTGATCCCGGTCAACCTGAAGAAAAAAGTGACATACGATAACGGCCAAAGCGAGCGGGTGCTGTATACGCCGCAGATCGCGGAGAACCCGCAGATGATGTCGCTGCTGACGCCGTTCCAGAACAAAGGTAAAGCGCAACTGCAGGTCAAGATCGGCAGCGTGAATGGCCATCTGGAGGGCGATCGCAGTAAAGTGCGCTTCGTACAGACCAATATGGGCCACCTGCTGCTGGCGGCGCAGATGGCGCGCAGTAACGCGGATTTCGCGGTGATGAGCGGCGGCGGGATCCGCGACTCCATCGAGGCGGGCGATATCACCTACAAGGATGTGATGAAGGTCCAGCCGTTCGGCAATGTGCTGACCTATGTCGATATGAGCGGCAAAGAGGTGGTGGATTACCTGACCGCCGTCGCGCAGATGAAGCCGGATTCCGGCGCCTATCCGCAGTTTGCGAACATCAGCTTTGTGGCCAAAGACGGCAAGTTGAACGATCTGAAAATCAAAGGCGAACCGGTGGATCCGGCGAAGACCTACCGGATGGCGACGCTGAGCTTTAACGCCACCGGCGGCGATGGCTATCCGAACATCGCCGATAAACCCGGGTATGTGAATACCGGCTTTATCGATGCCGAAGTGCTGAAAGAGTATATTGAGAAGAACTCGCCGCTGGATGCCGCCGCCTATGAGCCGAAAGGCGAGGTGAGCTGGCAGTAA	MHYFKHSVALALFAALSLGSLSAQAYEQDKTYKITILHTNDHHGHFWRNDYGEYGLAAQKTLVDGIRKEVAAEGGSVLLLSGGDINTGVPESDLQDAEPDFRGMNLIGYDAMAVGNHEFDNPLSVLRQQEKWAKFPFLSANIYQKSTGERLFKPWALFKRGGLKIAVIGLTTDDTAKIGNPEYFTDIEFRKPAEEAKLVIQELQQNEKPDVILATTHMGHYDNGNHGSNAPGDVEMARSLPAGSLAMIVGGHSQDPVCMASENKKQVDYVPGTPCAPDRQNGIWIVQAHEWGKYVGRADFEFRNGEMKLVHYQLIPVNLKKKVTYDNGQSERVLYTPQIAENPQMMSLLTPFQNKGKAQLQVKIGSVNGHLEGDRSKVRFVQTNMGHLLLAAQMARSNADFAVMSGGGIRDSIEAGDITYKDVMKVQPFGNVLTYVDMSGKEVVDYLTAVAQMKPDSGAYPQFANISFVAKDGKLNDLKIKGEPVDPAKTYRMATLSFNATGGDGYPNIADKPGYVNTGFIDAEVLKEYIEKNSPLDAAAYEPKGEVSWQ	PGPT0013400_962	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013400-ushA-K11751	NA	NA
BMS020_03545	480	ybaK_1	COG2606	Cys-tRNA(Pro)/Cys-tRNA(Cys) deacylase YbaK	ATGACTCCCGCCGTTAAATTACTCGAAAAAAACAAAATCCCCTTTCAGATCCACAGTTACGATCACGATCCCAATGAGACCAACTTCGGTGATGAAGTGGTGCGCAAGCTCGGCCTCAATGCCGACCAGGTATACAAGACCCTGCTGGTCGCCGTAAATGGCGATATGAAGCATCTGGCGGTCGCCGTCACCCCGGTCGCCGGGCAGCTGGATTTGAAGAAAGTGGCGAAAGCGCTGGGCGCCAAGAAAGTCGACATGGCCGACCCGATGGTGGCGCAGCGTATCACCGGCTATCTGGTGGGCGGTATCAGTCCGCTGGGGCAGAAGAAGCGCCTGCCGACGGTGATTGACGCCCCGGCGCAGGAATTTGCCACCATTTACATTTCCGGCGGCAAACGCGGGCTGGATATTGAGCTGGCGGCCAGCGATCTGGCGCAGCTGCTGGATGCGAAGTTCGCCGATATCGCCCGCCGCGATTGA	MTPAVKLLEKNKIPFQIHSYDHDPNETNFGDEVVRKLGLNADQVYKTLLVAVNGDMKHLAVAVTPVAGQLDLKKVAKALGAKKVDMADPMVAQRITGYLVGGISPLGQKKRLPTVIDAPAQEFATIYISGGKRGLDIELAASDLAQLLDAKFADIARRD				NA	NA	NA	NA	NA
BMS020_03547	795			hypothetical protein	ATGGGCCTGTTAAACCGGATAAAAATGCTGTGGCGAGCCGCCGTCGGCTCGTCTTATTCCTGGCCTGCGATGGATATCGTCCTGCCCGGCGAACGCTATCTGCACCTCGTCGGCAGCATCCATATGGGCACCCGCGATATGGCGCCGCCGCCAGCGAAGCTGCTGAAAAAAATACGCCAGGCCGATGCGTTAATCGTTGAGGCCGATATCAGCGGCAATGAAACCCCGTTTAGCCATCTCCCCGCTTATCCGCCTCTGGCGGAGCGCCTGAGCGACGCGCAGCTGAGCGAGCTACAGACGCGAGCCGGTGAACTCGGCCTGTCGGTCGCGCTATTCGACAGCCAGCCGCTGTGGCAGGTGGCGATGGTTCTGCAGGCCACCCAGGCGCAGAAGCTGGGGCTGCGGCCGGATTACGGTATCGATTATCAGTTGCTGATGGCCGCCCGCGAGAGCAACATAGCAGTGATGGAGCTGGAAGGCGCCGACAGCCAGATCGCGCTGCTGCGCGACCTGCCCGATGGCGGAATGGCGCTGCTGGAGGATACGCTGACCCACTGGCGCACCAACGCCCGTTTACTGCAGGTCATGATCGGCTGGTGGCTGGAGCAACCGCCGTCGCGCGGCGCGGTATCGCTGCCGACGACCTTCAGCCAGTCGTTATATGATGTGCTGATGCACCAGCGCAATCTCGCCTGGCGCGAGACGCTGCTGGCCCTGCCGCCGGGCCGCTACGTGGTCGCCGTCGGCGCGCTGCATCTGTATGGCGAAGGGAATCTGCCGGATATGCTGACATAA	MGLLNRIKMLWRAAVGSSYSWPAMDIVLPGERYLHLVGSIHMGTRDMAPPPAKLLKKIRQADALIVEADISGNETPFSHLPAYPPLAERLSDAQLSELQTRAGELGLSVALFDSQPLWQVAMVLQATQAQKLGLRPDYGIDYQLLMAARESNIAVMELEGADSQIALLRDLPDGGMALLEDTLTHWRTNARLLQVMIGWWLEQPPSRGAVSLPTTFSQSLYDVLMHQRNLAWRETLLALPPGRYVVAVGALHLYGEGNLPDMLT				NA	NA	NA	NA	NA
BMS020_03548	2502	copA_1	COG2217	Copper-exporting P-type ATPase	ATGTCTAACACTATCGACCTGACGCTGGATGGCCTCTCCTGCGGCCACTGCGTTAAACGCGTGAAAGAGAGTCTGGAGCAGCGTCCTGACGTTGAGCAAGCGGAAGTCACCCTCACTGAAGCCCATGTGACGGGCAGCGCCAGCGCACAAGCGCTGATTGAAACCGTTAAACAAGCCGGATACGGCGCGGAGCTCAGCCACCCAAAGGCTAAACCGCTGGCAGAATCATCAATCCCGTCGGAAGCACTGACAGCGGCCACTCCTGAGCTTCCGGCAGCCCATGACGAAGATGACAGTCAACAGCTGCTGATCAACGGCATGAGCTGCGCCAGCTGCGTCTCCCGGGTACAGAACGCGCTTGCCGCGGTGCCGGGCGTCTCACAGGCGCGGGTTAACCTGGCGGAACGCACGGCGCTGGTGATGGGCAGTGCGTCCGCCGCAGAATTAGTGCAGGCGGTGGAGAAAGCGGGCTACGGCGCGGAGGCGATCGAGGACGATCTGGAACGCCGCGAACGGCAGCAGGAAACCGCCATCGCCACCATGAAACGTTTTCGCTGGCAGGCGATTGTCGCCCTGCTGGTCGGCGTGCCGGTGATGGTCTGGGGCATGATCGGCGATAACATGATGGTCAGCGACGACAACCGTTCGCTGTGGCTGGTCATCGGCCTCGTCACCCTGGCGGTAATGGTCTTCGCCGGCGGCCACTTCTACCGCAGCGCGTGGAAAAGCCTGAAAAACGGCACCGCCACCATGGATACGCTGGTGGCGCTCGGTACCGGCGTCGCCTGGCTGTACTCGATGAGCGTCAACCTGTGGCCACAGTGGTTCCCGATGGAAGCCCGCCATCTCTATTACGAAGCCAGCGCAATGATTATCGGCCTGATTAACCTCGGCCATATGCTGGAGGCCCGCGCCCGCCAGCGCTCCTCAAAAGCGCTGGAAAAACTGCTCGACCTGACGCCGCCTTCGGCGCGGGTCGTTACGCCCGAGGGCGAGAAAGATCTGCCGCTCGCTGAAGTTCAGGCCGGCATGACGCTGCGCCTGACGACCGGCGACCGCGTCCCGGTCGACGGCGTGATAAGCCAGGGGGAAGCCTGGTTTGATGAAGCGATGCTCACCGGCGAACCGGTACCGCAGCAAAAAGGCGATGGCGACACCATTCACGCCGGCACCGTAGTGCAGGACGGCAGCGTGCTGTTCACCGCCAGCGCCGTCGGCAGCCAGACCACGCTGGCGCGTATTATCCGCATGGTGCGCCAGGCGCAGAGCAGCAAGCCGGAGATCGGCCAGCTGGCGGATAAAATCTCCGCGGTGTTTGTCCCGGCGGTGGTCGCCATTGCGCTGATTAGCGCTGCGATCTGGTACTTCTTCGGCCCGGCGCCGCAGATCGTCTATACCCTGGTGATCGCCACCACGGTACTGATTATCGCCTGTCCGTGCGCCTTAGGCCTGGCGACGCCGATGTCGATTATCTCCGGCGTTGGCCGGGCGGCGGAGTACGGCGTACTGGTGCGCGACGCCGATGCTCTGCAGCGCGCCAGTGAACTCGACACCCTGGTATTCGATAAAACCGGCACCCTGACCGAAGGCAAGCCGCAGGTGGTGGCGGTGAAAACTTTCGCAGACGTTGATGAGATGACCGCGCTGCGTCTTGCCGCCGCGCTTGAGCAGGGTTCAAGCCATCCGCTGGCGCGAGCGATCCTTGATAAAGCCGGAGACAGCCCGTTTCCGGAAGTGAGCGGCTTCCGCACCCTGCGCGGCCTGGGCGTCAGCGGCGAAGCGGAAGGCCATCGCCTGCTGCTCGGTAACCAGGCGCTGCTCAACGAGCAACATATCGCCACCGGCGATATAGAAAGCGAGATGATGGCGCAGGCCTCGCGCGGGGCTACGCCGGTGCTGCTGGCGGTAGATGGTCAGGCGGCCGCGCTGTTCGCCATCCGTGACCCGCTACGCGAAGACAGCGTCGACGCTCTGGCGCGCCTGCATCGTCAGGGCTACCGCCTGGTGATGCTCACCGGGGATAACCCCACTACCGCGAATGCTATCGCCAAAGAAGCCGGTATTGATGAAGTGATTGCCGGCGTGCTGCCGGACGGTAAAGCCGACGCCATTAAGCGTCTGCAGAGCCAGGGGCACAAAGTGGCGATGGTGGGCGATGGGATTAACGACGCCCCGGCGCTGGCGCAGGCGGATGTCGGGATCGCCATGGGCGGCGGCAGCGATGTCGCCATTGAAACGGCGGCGATCACCCTGATGCGCCATAGTCTTCACGGCGTGGCCGATGCGCTGGCGATTTCGAAGGCGACCTTACGCAATATGAAGCAGAACCTGCTGGGGGCCTTTGTCTACAACTCGCTGGGCATCCCGATTGCCGCCGGGATCCTCTGGCCGCTGACCGGCACGTTGCTCAATCCGGTGGTCGCCGGCGCGGCGATGGCGCTGTCGTCGATTACCGTGGTGAGTAACGCTAACCGCCTGCTGCGCTTTAAACCAAAAGCGTAA	MSNTIDLTLDGLSCGHCVKRVKESLEQRPDVEQAEVTLTEAHVTGSASAQALIETVKQAGYGAELSHPKAKPLAESSIPSEALTAATPELPAAHDEDDSQQLLINGMSCASCVSRVQNALAAVPGVSQARVNLAERTALVMGSASAAELVQAVEKAGYGAEAIEDDLERRERQQETAIATMKRFRWQAIVALLVGVPVMVWGMIGDNMMVSDDNRSLWLVIGLVTLAVMVFAGGHFYRSAWKSLKNGTATMDTLVALGTGVAWLYSMSVNLWPQWFPMEARHLYYEASAMIIGLINLGHMLEARARQRSSKALEKLLDLTPPSARVVTPEGEKDLPLAEVQAGMTLRLTTGDRVPVDGVISQGEAWFDEAMLTGEPVPQQKGDGDTIHAGTVVQDGSVLFTASAVGSQTTLARIIRMVRQAQSSKPEIGQLADKISAVFVPAVVAIALISAAIWYFFGPAPQIVYTLVIATTVLIIACPCALGLATPMSIISGVGRAAEYGVLVRDADALQRASELDTLVFDKTGTLTEGKPQVVAVKTFADVDEMTALRLAAALEQGSSHPLARAILDKAGDSPFPEVSGFRTLRGLGVSGEAEGHRLLLGNQALLNEQHIATGDIESEMMAQASRGATPVLLAVDGQAAALFAIRDPLREDSVDALARLHRQGYRLVMLTGDNPTTANAIAKEAGIDEVIAGVLPDGKADAIKRLQSQGHKVAMVGDGINDAPALAQADVGIAMGGGSDVAIETAAITLMRHSLHGVADALAISKATLRNMKQNLLGAFVYNSLGIPIAAGILWPLTGTLLNPVVAGAAMALSSITVVSNANRLLRFKPKA	PGPT0004090_2578	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
BMS020_03549	411	cueR	COG0789	HTH-type transcriptional regulator CueR	ATGAATATCAGCGATGTGGCGAAAAAAACCGGCTTAACCAGCAAAGCGATTCGTTTTTACGAAGAGAAGGGGCTGGTGACGCCGCCGTTGCGGAGCGAAAACGGCTACCGCACCTACGGTCAGCAGCATCTCGATGAGCTGACGCTGCTGCGCCAGGCGCGGCAGGTGGGGTTTAATCTGGAAGAGTGCCGCGAGCTGGTGGCGCTATTCAACGACCCGTCACGGCACAGCGCCGATGTGAAAAAACGCACGCTGGAGAAAGTGGCGGATATCGAGAACCATATCCGCGAGCTGCAAAATATGCGCGCGCACCTGCTGGCGCTGGCTGAATCCTGCCCCGGCGACGACAGCGCGGAGTGCCCGATTATCGATAATCTTTCCGGCTGCTGTCATCGCAAGGCGCAGGCTTAA	MNISDVAKKTGLTSKAIRFYEEKGLVTPPLRSENGYRTYGQQHLDELTLLRQARQVGFNLEECRELVALFNDPSRHSADVKKRTLEKVADIENHIRELQNMRAHLLALAESCPGDDSAECPIIDNLSGCCHRKAQA	PGPT0004135_961	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
BMS020_03550	459	ybbJ_1	COG1585	Inner membrane protein YbbJ	ATGATCGACCTGATCCTCGCCCACCCCCATCTATTCTGGCTTAGCCTCGGCGGGCTGCTGCTGGCGGCCGAGATGCTGGGCGGCAGCGGATACCTGCTATGGAGCGGCGTCGCCGGCGTGGTGACCGGCGCCCTGACCTGGCTCCTGCCGCTGAGCTGGGAATGGCAAGGCACGCTGTTTGCCGTCCTCACTCTGCTGGCGGCGTGGCTGTGGTCGAAGTGGCTGCGCAAGCGCGTCAAACTGCAGCGTCCTGCCGATGCTCAACTCAACCAGCGCGGGCTACAGCTGATTGGCCGCCGTCTGACGCTGGATACCCCGCTGGTAAACGGCCGCGGCCACGTACGCGTGGGCGACAGCTCCTGGCCGGTGATGGCTGACGAGGACCTCGCCGCGGGCAGCAAGGTCGAAGTGGTCGCCGTGGAAGGGATTACGCTGCGGATCAGACCCGTTGTTCGTTAA	MIDLILAHPHLFWLSLGGLLLAAEMLGGSGYLLWSGVAGVVTGALTWLLPLSWEWQGTLFAVLTLLAAWLWSKWLRKRVKLQRPADAQLNQRGLQLIGRRLTLDTPLVNGRGHVRVGDSSWPVMADEDLAAGSKVEVVAVEGITLRIRPVVR	PGPT0024505_449	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024505-ybbJ-K07340	NA	NA
BMS020_03551	918	qmcA_1	COG0330	Protein QmcA	ATGCTGATTTTTATTCCTATCCTTATTTTCGTCGCGCTGGTCATTGTGGCCGCGGCGGTGAAAATCGTCCCGCAGGGCTACCAGTGGACGGTGGAGCGCTTCGGGCGTTTTACCCAGACGCTGCAGCCGGGATTAAGCTTAGTCGTGCCGTTTATGGACCGCATCGGCCGCAAAGTGAACATGATGGAGCAGGTGCTCGACATCCCGTCACAGGAGGTGATCTCCCGGGATAACGCCAACGTCACTATCGACGCCGTTTGCTTTATTCAGGTGGTTGACGCGCCAAAGGCCGCCTACGAGGTCAGCAATCTTGAGCAGGCGATCGTCAACCTGACGATGACCAACATCCGTACCGTGCTCGGCTCGATGGAGCTGGACGAAATGCTCTCCCAGCGCGACAGCATTAACACCCGTCTGCTGCATATCGTTGACGACGCCACCAACCCGTGGGGGGTGAAAATCACCCGCGTCGAAATTCGCGACGTTCGCCCACCGGCGGAACTTATCGCCTCGATGAACGCCCAGATGAAAGCCGAACGAACCAAGCGCGCTTATATTCTCGAGGCCGAAGGGGTGCGTCAGGCGGAAATACTGAAAGCGGAAGGGGAAAAGCAGTCGCAGATCCTCAAGGCGGAGGGCGAGCGGCAGTCCGCGTTCCTGCAGGCGGAGGCCCGCGAGCGTTCCGCTGAAGCGGAAGCCCGCGCCACCCAGATGGTCTCCTCGGCGATCGCCTCAGGCGATATTCAGGCGATCAACTACTTCGTGGCGCAGAAATACACCGATGCGCTGCAGCAGATTGGCGCCGCCAACAACAGTAAAGTGGTGCTGATGCCGCTGGACGCCAGCAGCCTGATGGGATCGATCGCCGGGATCAGCGAGCTGATCAAAGAAGGCGCTGGCGATCGGAAAAAATCATGA	MLIFIPILIFVALVIVAAAVKIVPQGYQWTVERFGRFTQTLQPGLSLVVPFMDRIGRKVNMMEQVLDIPSQEVISRDNANVTIDAVCFIQVVDAPKAAYEVSNLEQAIVNLTMTNIRTVLGSMELDEMLSQRDSINTRLLHIVDDATNPWGVKITRVEIRDVRPPAELIASMNAQMKAERTKRAYILEAEGVRQAEILKAEGEKQSQILKAEGERQSAFLQAEARERSAEAEARATQMVSSAIASGDIQAINYFVAQKYTDALQQIGAANNSKVVLMPLDASSLMGSIAGISELIKEGAGDRKKS				NA	NA	NA	NA	NA
BMS020_03552	678	fetA	COG4619	putative iron export ATP-binding protein FetA	ATGAAGGAAAATAACGCGCTTTTGCGTCTCGAGGATGTGGGATTTAAGACCGACGACGCAGTTATTTTACATAATATCAACCTTCAGCTCAGACCCGGGGAATTCAAGTTGATTACCGGGCCTTCCGGCTGCGGGAAAAGCACCTTGCTGAAAATTATCGCCTCGCTGCTCAGCCCGACCTCCGGACGTCTGTTTTTCGACGATGCCGATGTCGCGACGCTGTCGCCGGAAAGGTATCGCCAGCAGGTCTCTTATTGTGCGCAGACGCCGGCGCTGTTCGGGGATTCGGTTTACGATAACCTGATTTTTCCGTGGCAGATCCGTAATAAACAACCGGATCCGCAGGCGCTGGTGGCCGATCTGCAGCGCTTTGGTCTTGGCGAAAATATGCTGGAAAAATCGATTAACGAACTGTCGGGCGGTGAAAAGCAGCGCGTATCGCTGATTCGCAATTTACAATTTCTGCCGCGCGTGCTGCTGCTGGACGAAATTACCAGCGCGCTGGATGACAGTAATAAACAGAATGTGAATGACATTATTCATGGCTACGCGACGGAAAAACAGGTCGCTGTTCTATGGGTCACCCACGATCGCAATGAAATTTCGCATGCCGATGAAGTAATTACGCTGCAACCTGCCGGCGGAAACATGCAGGAGGCACAGCATGAACGGGCATAA	MKENNALLRLEDVGFKTDDAVILHNINLQLRPGEFKLITGPSGCGKSTLLKIIASLLSPTSGRLFFDDADVATLSPERYRQQVSYCAQTPALFGDSVYDNLIFPWQIRNKQPDPQALVADLQRFGLGENMLEKSINELSGGEKQRVSLIRNLQFLPRVLLLDEITSALDDSNKQNVNDIIHGYATEKQVAVLWVTHDRNEISHADEVITLQPAGGNMQEAQHERA				NA	NA	NA	NA	NA
BMS020_03553	783	fetB	COG0390	putative iron export permease protein FetB	ATGAACGGGCATAACATTACGAACGAATCGCTGGCGCTGTCGATGGTGCTGGTGCTGATCGCTATTCTGGTGAGCTATCGGGAAAAGCTGGCGCTGGAAAAAGATATTCTCTGGAGCATCTGCCGGGCGATCGTGCAGCTGATTATCGTCGGCTATGTGCTGAAATATATCTTTAACGTCAACCATGCGGTTCTGACGCTGTTGATGGTGCTGTTTATCTGCTTTAACGCGGCGTGGAATGCCAAAAAGCGCAGTAAATATATCGATAAGGCGTTTGTCTCGTCATTTATCGCCATCACCACCGGCGCCGGGCTGACGCTGGCGGTGCTGGTGTTCTCCGGCTCGATAGCCTTCGTGCCGATGCAGGTGATCCCGATTGCCGGGATGGTGGCCGGGAACGCCATGGTGGCGGTGGGGCTGTGCTACAACAATATGGGCCAGCGCTTCAGCAGCGAGCAGCAGCAGATTCAGGAGAAGCTCAGCCTCGGCGCGACGCCGAAGATGGCCTCGGCGCGGCTGATCCGCGACAGCATCCGCGCGTCATTGATTCCCACCGTCGATTCAGCGAAAACGGTCGGCCTGGTGAGTTTGCCAGGGATGATGTCGGGACTAATTTTTGCCGGTATTGACCCGGTGAAGGCGATTAAGTACCAGATCATGGTAACTTTTATGCTGCTGTCGACCGCCAGCCTGTCGACGATTATCGCCGGCTATCTGACCTACCGGAAGTTCTTCAACGCCCGCCATCAGCTGGTGGTGACGCAGCTGAAAAAACGCCCGTGA	MNGHNITNESLALSMVLVLIAILVSYREKLALEKDILWSICRAIVQLIIVGYVLKYIFNVNHAVLTLLMVLFICFNAAWNAKKRSKYIDKAFVSSFIAITTGAGLTLAVLVFSGSIAFVPMQVIPIAGMVAGNAMVAVGLCYNNMGQRFSSEQQQIQEKLSLGATPKMASARLIRDSIRASLIPTVDSAKTVGLVSLPGMMSGLIFAGIDPVKAIKYQIMVTFMLLSTASLSTIIAGYLTYRKFFNARHQLVVTQLKKRP				NA	NA	NA	NA	NA
BMS020_03554	855	cnoX_1	COG3118	Chaperedoxin	ATGTCCGAACAGAATATTGTCAACATTAGCGAAGCGAACCTGCAGCAGACGCTACAGCAGTCTATGAACGTCCCGGTGCTGTTTTACTTCTGGTCTGCCCGCAGCCAGCACTGCGAACAGCTGACCCCGGTTCTTGAGCGTCTGGCCGCGCAATACAATGGCCAGTTTACGCTGGCGAAGGTCGATTGCGACGCTGAGCAGATGCTCGCTTCACAGTTTGGTCTGCGCGCCATCCCTACGGTTTATCTGTTCCAGAACGGCCAGCCGGTGGACGGTTTTGAAGGCCCGCAGCCGGAAGAAGCGATCCGCGCCCTGCTGGATAAAGTCCTGCCCCGCGAAGAGGAGCTGAAAGCTCAGCAGGCGCTGGCCCTGATGCAGGAAGAAAAATACGCCGATGCCCTGCCGCTGCTGAAGGAAGCCTGGCAGCTGTCGAATCAGGAGAGCCAGATTGGCCTGCTGCTGGCGGAAACGCTGATTGCCCTGCACCGTTCCGATGAAGCGGAAAGCGTGCTGAAAACCATCCCGCTGCAGGATCAGGATACCCACTATCAGGGTCTGGTGGCGCAGATTGAGCTGCTCAAACAGGCCGCCGACACGCCGGAAATCCAGCAGCTGCAGCAGCAGGTGGAACAGAATCCGGAGGATGCGCTGCTGGCCTCCCAGCTGGCGCTACAGCTGCATCAGGTCGGGCGTAACGAAGAAGCGCTGGCGCTGCTGTTCAGCCATCTGCAGAAGGATTTAGGCGCCGGCGACGGCCAGGCGCGCAAGATGCTGCAGGAGATCCTCGCCGCCCTCGGTACCGGCGATGCGCTGGCCGCCAAATACCGCCGTCAGCTCTATTCGCTGCTGTACTAA	MSEQNIVNISEANLQQTLQQSMNVPVLFYFWSARSQHCEQLTPVLERLAAQYNGQFTLAKVDCDAEQMLASQFGLRAIPTVYLFQNGQPVDGFEGPQPEEAIRALLDKVLPREEELKAQQALALMQEEKYADALPLLKEAWQLSNQESQIGLLLAETLIALHRSDEAESVLKTIPLQDQDTHYQGLVAQIELLKQAADTPEIQQLQQQVEQNPEDALLASQLALQLHQVGRNEEALALLFSHLQKDLGAGDGQARKMLQEILAALGTGDALAAKYRRQLYSLLY				NA	NA	NA	NA	NA
BMS020_03555	771			hypothetical protein	ATGCAAAAAACGGTTTTAGTGACAGGCTGTTCCAGCGGAATTGGTCTGGAAAGCGCGCTGGATTTAACCCGCGAGGGCTTTCGCGTGCTGGCGGCCTGCCGCAAAGCGGAGGACGTGGCGCGAATGCAGGAGCTGGGGCTAACCGGTATTTTGCTCGATCTGGACGACCCGCAGAGCGTGGAGCGCGCGGCGGTGGAAGTGATTGCGCTGACCGATAATCGTCTCTACGGCTTGTTCAATAACGCCGGATATGGCGTCTATGGCCCGCTGAACACCATCAGCCGCCAGCAGATGGAACAGCAGTTTTCCGCCAACTTTTTTGGCGCCCATCAGCTCACCATGCTGCTGCTGCCGGCGATGATCCCGCACGGCGAAGGGCGCATCGTGATGACCTCCTCGGTGATGGGGCTTATCGCCAGCCCCGGCCGCGGCGCCTACGCCGCCAGCAAATATGCCCTTGAGGCATGGTCCGATGCGCTGCGCATGGAGCTGCGCCACAGCGGTATTCAGGTCAGCCTGATTGAACCGGGCCCGATCCGCACCCGCTTTACCGATAACGTCAACCAGACGCAAAGCGACAAGCCCGTTGAAAACCCGGGCATCGCCGCCCGTTTTACCCTCGGGCCGGAGGCGGTGGTGGAAAAAGTGCGCCACGCTTTTACCAGCGATAAGCCGAAGCTGCGCTACCCGGTCACCCTGGTCACCCACGCGGTGGCGCTGCTCAAACGCCTGCTGCCAGCCCGCGCGATGGACAAAATTATCCACGGCTGA	MQKTVLVTGCSSGIGLESALDLTREGFRVLAACRKAEDVARMQELGLTGILLDLDDPQSVERAAVEVIALTDNRLYGLFNNAGYGVYGPLNTISRQQMEQQFSANFFGAHQLTMLLLPAMIPHGEGRIVMTSSVMGLIASPGRGAYAASKYALEAWSDALRMELRHSGIQVSLIEPGPIRTRFTDNVNQTQSDKPVENPGIAARFTLGPEAVVEKVRHAFTSDKPKLRYPVTLVTHAVALLKRLLPARAMDKIIHG				NA	NA	NA	NA	NA
BMS020_03556	657	tesA_1	COG2755	Thioesterase 1/protease 1/lysophospholipase L1	ATGCTCCCCCTGACCGACGGACTTCTTAAGATGATGAACTTCAAGTATGTTTTCCGCTGGCATGTGCCTTTCCTGTTTTTGTTCCTGTTTACCTGCCGCGCGATGGCGGCGGACACGCTGCTGATCCTCGGCGACAGCCTGAGCGCTGGCTATCGGATGGCGGCCAACGCCGCGTGGCCTGCGCTGCTCAATGAGAAGTGGCAGGCGAAAACGCCGGTGGTGAACGCCAGCATCAGCGGCGATACCTCTCAGCAGGGACTGGCCCGTCTGCCAGCGCTGCTTCAGCAGCATCAGCCGCGCTGGGTGCTGGTTGAGCTCGGCGGCAACGACGGGCTGCGCGGCTTTGCGCCGCAGCAGACCGAGCAGACGCTGCGCACCATCATTCAGACGATCAAAGCGGCCAACGCCGAACCGCTGCTGATGCAAATTCACCTGCCGGCGAACTATGGCCGCCGCTATAATGAAGCCTTCGGCGCGATTTACCCGGCCCTGGCCAAAGAGTTCGCTATTCCTCTCCTGCCCTTTTTTATGGAGGAGGTGTATCTGAAACCCCAGTGGATGCAGGACGACGGCATTCACCCGAATCGCGACGCGCAGCCGTTTATCGCCGACTGGATGGCGAACCGGCTGGCTCCCTTAGTTAATCATGACTCCTGA	MLPLTDGLLKMMNFKYVFRWHVPFLFLFLFTCRAMAADTLLILGDSLSAGYRMAANAAWPALLNEKWQAKTPVVNASISGDTSQQGLARLPALLQQHQPRWVLVELGGNDGLRGFAPQQTEQTLRTIIQTIKAANAEPLLMQIHLPANYGRRYNEAFGAIYPALAKEFAIPLLPFFMEEVYLKPQWMQDDGIHPNRDAQPFIADWMANRLAPLVNHDS	PGPT0001840_1218	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804	NA	NA
BMS020_03557	483		COG1136	putative ABC transporter ATP-binding protein	ATGCTGGGCAAACCGCTGCATCGAATGGATGAGGAGGCGCGGGCGGCGCTGCGGGCGCAGCACGTCGGTTTTGTATTTCAGTCGTTTATGCTGATCCCAACGCTCAACGCCCTGGAGAACGTCGAGCTGCCGGCGCTGCTGCGCGGCGCCAGCGATAGCCAGAGCCGGGGCGATGCCCGGGCGCTGCTTGAGCAGCTGGGGCTTGGCAAACGCCTGCACCACCTGCCGGCGCAGCTCTCCGGCGGCGAACAGCAGCGGGTGGCGCTGGCCCGGGCCTTCAATGGGCGTCCGGCCATTCTGTTCGCCGATGAGCCCACCGGCAACCTCGATCGCCAGACCGGGGACAAAATTGCCGATCTGCTGTTCTCGCTTAATCGCGAACACGGCACCACCCTGATCCTCGTCACTCACGATCCGCTGCTGGCGGCGCGCTGCGACCGCCGTCTGCGCCTGGTGGATGGCCAGCTGCGGGAGGAAGCATGA	MLGKPLHRMDEEARAALRAQHVGFVFQSFMLIPTLNALENVELPALLRGASDSQSRGDARALLEQLGLGKRLHHLPAQLSGGEQQRVALARAFNGRPAILFADEPTGNLDRQTGDKIADLLFSLNREHGTTLILVTHDPLLAARCDRRLRLVDGQLREEA	PGPT0013345_12667	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
BMS020_03558	2415			hypothetical protein	ATGATTGCCCGCTGGTTCTGGCGCGAATGGCGCTCGCCGTCGCTGCTGATCGTCTGGCTGGCGTTAAGCCTCGCCGTGGCCTGCGTGCTGGCCCTGGGGTCGATAAGCGATCGAATGGAGAAAGGCCTCAGCCAGCAAAGCCGTGAGTTTATGGCGGGCGACCGGACGCTGCGCAGTTCGCGCGAGGTGCCCGCTGAGTGGATCGCGCAAGCGCGGAAGTCAGGGCTGAGCGTCGGCGAACAGCTGAGCTTCGCCACCATGACCTTTGCGGGCGATACGCCGCAGCTGGCGGACGTCAAGGCAGTGGATGACCGCTATCCGCTGTATGGCACTCTCGAGACGCAGCCGCCGGGGCTGAAGCCCCGGGCGGGCAGCGTCCTGCTGGCGCCAAGGCTGATGGCGCTGCTGAACCTGAAAATCGGCGATACGATTGACGTTGGCGACGCCACGCTGCGCATTGCCGGGGAAGTGATTCAGGAACCGGATGCGGGGTTTAACCCCTTCCAGATGGCGCCGCGGCTGATGATGAATATGGCCGACGTGGCAAAGACCGGCGCCGTACAGCCCGGCAGTCGCGTCGCATGGCGATATAAGTTCGCCGGCGACGCTGAACAGCTGGCCCGTTATGAGCAGTGGCTGCTGCCGAAACTCGGCCCGGAGCATCGCTGGATTGGTCTTGAACAGGACGACAGCGCACTGGGCAAATCCCTCGAACGCTCGCAGCAATTCCTGTTGTTATCCGCGCTGTTGACGCTGCTGCTGGCCGTCGCGGCGGTGGCCGTGGCGATGGGCCACTACTGCCGCAGCCGCTACGATCTGGTCGCCATACTCAAGACGCTGGGCGCCGGACGGGCGCAGCTGCGCAAGCTGATTGTCGGTCAGTGGCTGCTGCTGCTGGCGCTGTCGGTGATAACCGGCGGGGTGGCGGGGCTGGCGCTGGAGCGCCTGCTGCTGCTGGTGCTCAAACCGGTTCTTCCCGCCGCGCTCCCGCCGGCCAGCGGCTGGCCGTGGCTGTGGGCGGTGGGCGCGACCGGCGTGATTTCCCTGCTGGTGGGCCTGCGGCCGTATCGGCTGCTGCTGGCGACCCTGCCGCTGCGAGTGCTGCGCCAGGACGTGGTGGCCAGCGTCTGGCCGTTAAAAATCTGGATCCCGACGGTCAGCGCCGTGGTGGTGGGCCTGCTGGCGTGGCTGATGGGCGGCAGTCCGCTGCTGTGGTCAGTGCTGGCCGGGGCGGTGGTGCTGGCGTTGCTGTGCGGCCTGGTGGGCTGGGGATTGCTGTGGCTGCTCAAACGCCTGACGCTCAGAGCCTTGCCGCTGCGTCTGGCGGTGAATCGCCTGCTGCGCCAGCCGTGGTCGACCCTCAGCCAACTGGCGGCGTTTTCCCTGTCGTTTATGCTGCTGGCGCTCCTGCTGGTGCTGCGCGGCGATCTGCTCGACCGCTGGCAGCAGCAACTGCCCCCGGAGAGCCCGAACTACTTCCTGATCAATATCGCCCCTGAGCAGATAATGCCGGTGAAGACCTTCCTCGCCGAACATCAGACGCGGGCGGCGGAATTCTATCCGATCGTCCGGGCTCGTCTGACGCAGATCAACGGCCAGTCCACGGACGGGAATAAAGACGAAGCGCTGAATCGCGAGCTTAATCTCACCTGGAGCGAACAGCGTCCGGATCATAATCCGCTGGTGGCCGGCAGCTGGCCGCCGAAGCAGGGCGAGGTATCGATTGAGGAGGGGCTGGCGCAGCGATTGGGAGTGACAATCGGCGATACGGTGACCTTTACCGGCGATACGCAGGAGTTCAGCGCGAAGGTAAGCAGCGTGCGCAAAGTCGACTGGGAGAGCCTGCGGCCAAACTTCTTCTTTATTTTCCCCACCGGGGCGCTGGACGGGCAGCCGCAGAGCTGGCTCACCAGCTTCCGCTGGGATAACGGTCCTGCGATGTTGACCCAGCTGAACCGCGAGTTTCCCACCGTCAGTCTGCTGGATATTGGCGCTATCCTGCGTCAGGTCGGCCAGGTGCTCTCCCAGGTCAGCCGGGCGCTGGAGGTGATGGTGGGCCTGGTGACGGCCTGCGGCGTGCTGCTGTTGCTGGCGCAGGTGCAGGTCGGTATGCGTCAGCGTCATCAGGAGCTGGTGGTCTGGCGCACGCTGGGGGCCGGGAAATCGCTGCTGCGCGCCACGCTGTGGGCGGAGTTTGCCCTGCTGGGGCTGGTCTCCGGCCTGGTGGCGGCGATAGGCGCCGAAGTGGCGCTGGCGATGCTGCAGACCAAAGTCTTTGATTTTCCCTGGGCGCCGGACTGGCGGCTGTGGGTGATGCTGCCGCTGACGGGAGCGGTGTTGTTATCCCTGTGCGGCGGCGGGCTGGGGCTGCGTTTATTAAAAGGGAAAGCGCTATTCCGTCAGTTTAGCCAGTAA	MIARWFWREWRSPSLLIVWLALSLAVACVLALGSISDRMEKGLSQQSREFMAGDRTLRSSREVPAEWIAQARKSGLSVGEQLSFATMTFAGDTPQLADVKAVDDRYPLYGTLETQPPGLKPRAGSVLLAPRLMALLNLKIGDTIDVGDATLRIAGEVIQEPDAGFNPFQMAPRLMMNMADVAKTGAVQPGSRVAWRYKFAGDAEQLARYEQWLLPKLGPEHRWIGLEQDDSALGKSLERSQQFLLLSALLTLLLAVAAVAVAMGHYCRSRYDLVAILKTLGAGRAQLRKLIVGQWLLLLALSVITGGVAGLALERLLLLVLKPVLPAALPPASGWPWLWAVGATGVISLLVGLRPYRLLLATLPLRVLRQDVVASVWPLKIWIPTVSAVVVGLLAWLMGGSPLLWSVLAGAVVLALLCGLVGWGLLWLLKRLTLRALPLRLAVNRLLRQPWSTLSQLAAFSLSFMLLALLLVLRGDLLDRWQQQLPPESPNYFLINIAPEQIMPVKTFLAEHQTRAAEFYPIVRARLTQINGQSTDGNKDEALNRELNLTWSEQRPDHNPLVAGSWPPKQGEVSIEEGLAQRLGVTIGDTVTFTGDTQEFSAKVSSVRKVDWESLRPNFFFIFPTGALDGQPQSWLTSFRWDNGPAMLTQLNREFPTVSLLDIGAILRQVGQVLSQVSRALEVMVGLVTACGVLLLLAQVQVGMRQRHQELVVWRTLGAGKSLLRATLWAEFALLGLVSGLVAAIGAEVALAMLQTKVFDFPWAPDWRLWVMLPLTGAVLLSLCGGGLGLRLLKGKALFRQFSQ	PGPT0013350_7010	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
BMS020_03559	1146			hypothetical protein	ATGGCACACACAATAAAAACGCTGGCGATCTCGATCGGCGCAGCATTAGCGTTAACGTCATTGGCTGCCCACGCGGAGATCACCCTGCTAAAACAGGATCCGCAGGCGGGGGATCCGTTAAGCCGGCTTAACTTTACCGTCGGCGGAAGTATCCGCCCGCAGTTCAATATGATGACCGGCGACGGGGATAAAGGCTCCTATAAGCGCAACGGTTTCGACGGCGGCACCCGCTTTCGTTTCGCCGCGGACTACTATCTGTTCGATGATATTAGCTGGATCAGCTACTACGAGCTGGGGGTGAATATTCCGGCGCTGTTCGACTGGGATAATCACTACGCGGAAGGGGCAAACAATACCACCCGCCGCATGCTGTATACCGGCCTGAAAAGCGATACCTGGGGGACGTTAACCTACGGTCAGCAAAACAGTATTTACTATGATGTGGTCGGGGTGAAAACCGATATCTGGGACTACGATATGATTGCCCAGGCGCCGGGCAACGGTATTAACGGCGATTACGATGGTTCTTATCGTTCCCGTAATATGCTGAAATATAAGAAAACCGTTGGCGATGTCGATCTTTACGGCTCCTATCTGTTCGAAGACAGCGAATACCTGCCGGGTAATGGTCTGCGCTATAAACGTAAAGGCGGCGGTTCTGTTGGCGCGGACTACCACATCATGAAGGATCTGACCTGGGGGACCGCGTGGAACTACACCCGCGCCGAAATGCGCAACCCGTCAAGTTCCGACAGCAAAACCTATGACCAGAACATCGTCGGTACCGCGCTGAGCTGGACCCCGGATAACTGGACTTTCTCCTTCGGCGGCGGCTGGTATCAGAACTTCCTCACTACCAAAAAAACCGATGTCCATAATTACTTCGCCGGCGACGCCTGGGGGATTGAATATTTTGCGGGCTATAAATTCCCGATCAATCAATATGCCGTTAAATCTATTCAGCCGTACTTTATGGGCGACCGTCTGGAATATGTGAACGGCCGTAACTACCAGCGTATTGATAACGGTCTGGGGATCAGCTTCCAGCTGGATTATGGTTTCCGCGTTGACTACGAGCACGTGTTTACCTCCAGCACCGACAACCTGGGCGATATGAACCTGGTGCGTCTGCGCTACGACTTCTAA	MAHTIKTLAISIGAALALTSLAAHAEITLLKQDPQAGDPLSRLNFTVGGSIRPQFNMMTGDGDKGSYKRNGFDGGTRFRFAADYYLFDDISWISYYELGVNIPALFDWDNHYAEGANNTTRRMLYTGLKSDTWGTLTYGQQNSIYYDVVGVKTDIWDYDMIAQAPGNGINGDYDGSYRSRNMLKYKKTVGDVDLYGSYLFEDSEYLPGNGLRYKRKGGGSVGADYHIMKDLTWGTAWNYTRAEMRNPSSSDSKTYDQNIVGTALSWTPDNWTFSFGGGWYQNFLTTKKTDVHNYFAGDAWGIEYFAGYKFPINQYAVKSIQPYFMGDRLEYVNGRNYQRIDNGLGISFQLDYGFRVDYEHVFTSSTDNLGDMNLVRLRYDF				NA	NA	NA	NA	NA
BMS020_03560	1083	selU	COG2603	tRNA 2-selenouridine synthase	ATGATGGAATCAGTACCAAAAAATATTCTGCAGATCCTTGCCAGCGATACGCCACTGATTGACGTGCGCGCCCCGGTGGAGTTTAGCCAAAGCGCGATGCCGGCGGCGATCAACCTGCCGCTGATGAATGATGAAGAACGCGCCGCGGTCGGCACCTGCTACAAGCGCCAGGGGCCGGAAGCGGCGCTGGCGCTCGGCCATAAGCTGGTCCAGGGCGACCTGCGCGCCAGCCGGATCCAGGCCTGGCTGGAAGCGTGCGCCCGTTACCCGCACGGTTTCCTGTGCTGCGCTCGCGGCGGCCAGCGCTCGCATATCGTCCAGCAGTGGCTGAAAGAAGCTGGTGTGGATTACCCCCTGATCGTCGGCGGCTATAAAGCGCTGCGCCAGGCGGCGATCCAGGCCACCGACGCGCTGGTACAGCGACCGATCGTGCTGATTGGCGGCTGCACCGGCAACGGCAAAACCCAGCTGGTCTGCTCGCGCCCGGACGGTATCGATCTGGAAGGCCATGCCCACCACCGCGGCTCTTCGTTTGGCCGCACGCTACAGCCGCAGCATCCGCAGGCCACCTTTGAAAACCATCTGGCGGTTAGCCTGCTCAAAAAAGCCGAACAGCAGACGCGCTGGGTGCTGGAAGATGAAGGCCACATGATCGGCGCCAACCATCTGCCGGAGTGCCTGCGCATCCGCATGGCGCAATCGCCGCTGGCGGTGGTGGAAGATCCGTTTGACGTTCGCCTCGAACGGCTGCGCGAGGAGTATTTCGATCGCATGTATCGCGACTTTATCGCCGCCTATGGCGAAGAGAAAGGCTGGCAGGCATATGGCGAGTATCTGCATCACGGCCTGTTCGCCATCCGTCGTCGCCTGGGACTGCAGCGTTTTGCTCAGCTCACTGCCAGGCTTGATGAAGCGCTGCTTGAACAGCAGCGAACCGCCGACACCGAAGCGCACTTCAGCTGGCTGGTTCCCCTGCTGAATGAGTATTACGATCCGATGTACCGCTACCAGCTCGGCAAAAAAGCGGAGAAAATTATTTTCCGCGGCAGCTGGCAGGAAGTTGCCGCCTGGCTGGCGGAGTAA	MMESVPKNILQILASDTPLIDVRAPVEFSQSAMPAAINLPLMNDEERAAVGTCYKRQGPEAALALGHKLVQGDLRASRIQAWLEACARYPHGFLCCARGGQRSHIVQQWLKEAGVDYPLIVGGYKALRQAAIQATDALVQRPIVLIGGCTGNGKTQLVCSRPDGIDLEGHAHHRGSSFGRTLQPQHPQATFENHLAVSLLKKAEQQTRWVLEDEGHMIGANHLPECLRIRMAQSPLAVVEDPFDVRLERLREEYFDRMYRDFIAAYGEEKGWQAYGEYLHHGLFAIRRRLGLQRFAQLTARLDEALLEQQRTADTEAHFSWLVPLLNEYYDPMYRYQLGKKAEKIIFRGSWQEVAAWLAE	PGPT0004830_573	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004830-selU|mnmH-K06917	NA	NA
BMS020_03561	924	allS_2		HTH-type transcriptional activator AllS	ATGCTCGATCCCGAAACATTACGCACCTTTGTCAGCGTCGCTGAGACCGGCAGCTTCTCAAGAGCAGCGGAAAAACTTTATAAAACAACCGCCACCATCAGCTATCGCATCAAATTACTGGAGGACAACACCGGTGTCGCACTCTTTTCCCGTACAACGCGCAGCGTATTGCTAACGCCGGCCGGGATGCACCTGCTGGCGCAAGCCAGAGAGTGGCTGGGGTGGATTGATAGTATGCCCGGCGAGCTTCAGCAGATAAATGACGGGGTAGAGCGTCAGGTCAATATTGTGGTGAATAACCTGATGTACGACCCGCAGGCCATTGCCCGGCTGCTGGCCTGGCTCACCCAGCGCTACCCTTTTACGCAATTTCATTTTTCACGACAAATCTATATGGGCGTCTGGGATACGCTACTGCATGACGACTTTTCGCTGGCCATCGGCGTGACCGGCACCGAACCGTTAGCGGAAAATATGGCGGTTTACCCACTGGGTGAGGTGACCTGGCTGTTCGTGATGTCGCCACATCACCCGCTAAGCCAGCAAACCGACCCGCTATCAGAGGCTCAATTGCGGCGCTATCCGGCAGTGAATATTGAGGACAGCGCCCGAAGGCTGACGAAGCGCGTCGCCTGGCGTCTGCCCGGGCAAAAAGAGATAGTGGTTCCCGATATCGAAACCAAAGTTGCCGCCCATCTCGCCGGCGTCGGCATCGGCTTTTTACCAGAACCGCTGTGCCTGCCGCTTATCGCTCAGGGCAAGCTAATCGCCCGACACATTCCGACCATGCGCCCTCCTTCGCCATTGAGTCTCGCCTGGCGTAAAGATCATCATGGTAAAGCGGTGCAGGACATCGCTTCATTGTTCAGCCATTCTGCACCGGAAATTGAGGGATTCCTGACGCTATTCAGCAATACACCGTGA	MLDPETLRTFVSVAETGSFSRAAEKLYKTTATISYRIKLLEDNTGVALFSRTTRSVLLTPAGMHLLAQAREWLGWIDSMPGELQQINDGVERQVNIVVNNLMYDPQAIARLLAWLTQRYPFTQFHFSRQIYMGVWDTLLHDDFSLAIGVTGTEPLAENMAVYPLGEVTWLFVMSPHHPLSQQTDPLSEAQLRRYPAVNIEDSARRLTKRVAWRLPGQKEIVVPDIETKVAAHLAGVGIGFLPEPLCLPLIAQGKLIARHIPTMRPPSPLSLAWRKDHHGKAVQDIASLFSHSAPEIEGFLTLFSNTP				NA	NA	NA	NA	NA
BMS020_03562	501	allA	COG3194	Ureidoglycolate lyase	ATGAATAAGGAACTGGTCATGAAGCTTGAAGTATTGCCCCTGACGCGAGATGCATTCCGCCCGTATGGGGATGTTATCGAAACGGAAGGACAGGATTTTTTTCACATCAATGATGGCAAAGTACAGCGTTTTCACGATCTGGCGATGGTGGAGACATTACAGCAGGATCGTACGCTCATCAGCATTAATCGGGCCCAGCCGGCGGTATTGCCGATTGTCGTCACCGAGCTGGAACGTCATCCGCTGGGTACCCAGGCATTTGTGCCGATGCGGGGGGAGACTTTTGTCGTGGTGGTTGCGGCAGGAGGCGATGAGCCGGACATGACCACGCTGCGCGCGTTTATCTCCAATGGCCGCCAGGGGGTAAATTATCATCGCAATGTCTGGCATCATCCGCTGTTTGCCTGGCAGAGCGAAACCGATTTTTTAACCGTCGATCGCGGTGGAAAAGATAACTGCGATGTCGTGGAGATCCCGACCGTGGAGCTGAGCTTTGCGTGA	MNKELVMKLEVLPLTRDAFRPYGDVIETEGQDFFHINDGKVQRFHDLAMVETLQQDRTLISINRAQPAVLPIVVTELERHPLGTQAFVPMRGETFVVVVAAGGDEPDMTTLRAFISNGRQGVNYHRNVWHHPLFAWQSETDFLTVDRGGKDNCDVVEIPTVELSFA	PGPT0021505_934	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021505-allA-K01483	NA	NA
BMS020_03563	819	allR	COG1414	HTH-type transcriptional repressor AllR	ATGACAGAAGTGAGAAGGCGTGGAAGGCCTGGCCAGCAGGAGCCTTCCGCGCAAAAAGGCGCACAGGCGCTGGAGAGAGGGATCGCGATATTGCAATACCTTGAGAAGAGCGGCGGCAGCTCGTCGGTTAGCGATATTTCCCTGAATCTGGACTTACCGTTATCGACCACCTTTCGCCTGCTAAAAGTGCTGGAAGGCGCGGATTTTGTCTATCAGGACGCGCAGCTAGGCTGGTGGCACATCGGGCTTGGCGCATTCAATATCGGCTCGGCGTACATCCATAACCGGGATGTTTTATCCGTCGGCGGACCTTTTATGCGGCGGCTGATGCTGATGTCGGGGGAGACAGTCAACGTGGCGATTCGCAACGGCAACGAAGCGGTGCTGATTGGCCAGCAGGAGTGCAAGTCGATGGTGCGAATGTGCGCGCCGCTCGGCAGTCGACTCCCGCTGCATGCTTCAGGCGCGGGGAAAGCGCTGTTGTATCCGCTGTCTGCGGAAGAGCTGGTGGATGTGATTGTGAAGACTGGCCTGCAGCGGTTTACGCCGACGACGATTGTGGATTTACCGGTCCTGCAGCGAAATCTGGATGAGGCGCGAGCCTGCGGCTACAGCATTGACCAGGAGGAGCATGTTACAGGATTAAACTGTATTGCTTCAGCGGTTTACGATGATGTGGGCTCCGTGGTAGCGGCCATTTCGATTTCCGGACCTGCGTCCAGGTTAACCCCGGACCGTTTTGTCAGTCAGGGCGAGCTGGTAAGGGAGACGGCAAGGAATATCAGTACCGCGCTGGGCCTTAAACCCCAGGCCGACTGA	MTEVRRRGRPGQQEPSAQKGAQALERGIAILQYLEKSGGSSSVSDISLNLDLPLSTTFRLLKVLEGADFVYQDAQLGWWHIGLGAFNIGSAYIHNRDVLSVGGPFMRRLMLMSGETVNVAIRNGNEAVLIGQQECKSMVRMCAPLGSRLPLHASGAGKALLYPLSAEELVDVIVKTGLQRFTPTTIVDLPVLQRNLDEARACGYSIDQEEHVTGLNCIASAVYDDVGSVVAAISISGPASRLTPDRFVSQGELVRETARNISTALGLKPQAD	PGPT0000860_17	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ALLANTOIN_USAGE	N-AQUISITION-ALLANTOIN_METABOLISM,PGPT0000860-allR-K10973	NA	NA
BMS020_03564	1782	gcl	COG3960	Glyoxylate carboligase	ATGGCAAAAATGAGAGCCGTTGACGCGGCAATGTATGTTCTCGAAAAAGAAGGGGTTAACACTGCATTTGGCGTGCCTGGCGCGGCAATTAACCCATTCTATTCTGCGATGCGTAAGCACGGCGGGATCCGTCATATTCTTGCCCGCCATGTTGAAGGCGCGTCTCATATGGCTGAAGGCTATACTCGTGCGACCGCCGGTAATATCGGGGTTTGTCTGGGGACCTCCGGTCCGGCCGGTACGGATATGATCACCGCGCTGTATTCTGCCTCCGCGGACTCGATTCCCATTCTGTGCATCACCGGCCAGGCACCGCGTGCGCGCCTGCATAAAGAGGATTTTCAGGCGGTGGATATTGAATCCATTGCTAAACCGGTCACCAAGATGGCGGTGACTGTGCGTGAGGCGGCGCTGGTTCCGGGCGTGCTACAGCAGGCTTTCCATCTGATGCGCTCCGGCAGGCCGGGACCAGTGCTCATCGATCTGCCTTATGATGTCCAGGTGGCAGAAATCGAATTCGATCCTGAGCTTTACTCGCCGCTTCCGGCTTATAAACCGGTCGCCACGCGTCCGCAAATCGAAAAGGCATTGACGCTGTTAGCTCAGGCTGAACGCCCGGTGATTGTTGCCGGTGGCGGGGTGATTAACGCCGATGCCGCTGCGCTGCTGCAACAATTTGCGGAAATCACCCATGTCCCGGTGATCCCGACCCTGATGGGCTGGGGCTGTATCCCGGATGACCACGAACTGATGGCCGGAATGGTCGGTTTACAAACCGCGCATCGCTACGGTAACGCCACGCTGTTGGCCTCAGATCTGGTATTCGGGATTGGCAACCGCTTTGCGAATCGTCATACCGGCTCGGTTGAGAAGTACACCGCAGGCCGCAAAATTATTCATATCGACATTGAACCGACGCAAATTGGCCGTGTGCTGTGCCCGGATTTAGGCATTGTCTCCGATGCCAAAGCGGCGTTAATTCAGCTGGTAGATATTGCGCAGCAGATGCAAAAAGAAGGGCGCCTGCCGCGCCGCGAGAGCTGGGTTAGCGAGTGCCAAGCGCGCAAGCGTACGCTGCTGCGTAAAACCCACTTTGATAACGTGCCGGTTAAACCGCAGCGCGTCTATGAAGAGATGAACAAAGCGTTTGGCCGGGACGTATGCTATGTCACCACCATCGGCCTGTCGCAAATCGCCGCCGCCCAGATGCTGCACGTGTTCAAAGACCGCCACTGGATCAACTGCGGCCAGGCGGGACCGCTGGGCTGGACGCTTCCCGCTGCGCTGGGCGTTTGCGCTGCCGATCCTGAGCGCAACGTGGTCGCGATTTCCGGTGATTTTGACTTCCAGTTTCTGATTGAAGAGCTGGCGGTAGGCGCCCAGTTCAATATTCCGTATATCCATGTTCTGGTAAACAACGCCTATCTCGGCTTGATCCGTCAGTCGCAACGCGCCTTTGACATGGATTACTGCGTTCAGCTGGCGTTTGAAAATATTAACTCTAGCGAAGTAAACGGCTACGGCGTCGATCATGTGAAGGTCGCGGAGGGACTCGGTTGTAAAGCGATTCGCGTCTTCAAGCCTGAGGATATTGCCCCGGCGTTTGAGCAGGCCAAAGCCTGGATGAAAGCCTATCGCGTGCCGGTTGTTGTGGAAGTGATCCTTGAGCGGGTCACCAATATCTCCATGGGTAGCGAGCTGGATAACGTGATGGAATTTGAAGATGTTGCCGATAGCGCCATCGATGCGCCAACCGAAACCTGCTTTATGAAATATGAATAA	MAKMRAVDAAMYVLEKEGVNTAFGVPGAAINPFYSAMRKHGGIRHILARHVEGASHMAEGYTRATAGNIGVCLGTSGPAGTDMITALYSASADSIPILCITGQAPRARLHKEDFQAVDIESIAKPVTKMAVTVREAALVPGVLQQAFHLMRSGRPGPVLIDLPYDVQVAEIEFDPELYSPLPAYKPVATRPQIEKALTLLAQAERPVIVAGGGVINADAAALLQQFAEITHVPVIPTLMGWGCIPDDHELMAGMVGLQTAHRYGNATLLASDLVFGIGNRFANRHTGSVEKYTAGRKIIHIDIEPTQIGRVLCPDLGIVSDAKAALIQLVDIAQQMQKEGRLPRRESWVSECQARKRTLLRKTHFDNVPVKPQRVYEEMNKAFGRDVCYVTTIGLSQIAAAQMLHVFKDRHWINCGQAGPLGWTLPAALGVCAADPERNVVAISGDFDFQFLIEELAVGAQFNIPYIHVLVNNAYLGLIRQSQRAFDMDYCVQLAFENINSSEVNGYGVDHVKVAEGLGCKAIRVFKPEDIAPAFEQAKAWMKAYRVPVVVEVILERVTNISMGSELDNVMEFEDVADSAIDAPTETCFMKYE	PGPT0008185_676	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
BMS020_03565	777	hyi_2	COG3622	Hydroxypyruvate isomerase	ATGTTGCGCTTTTCTGCCAATCTTTCCATGTTATTTCAGGAATATGATTTTCTGGAGCGCTTTGAGAAAGCGGCGGCCTGTGGTTTTCGTGCTGTTGAATTTATGTTTCCGTATGACTATGCGCCCGAGGTATTAAAGCAAAAGCTGAGAGACAACCAGCTGGAGCATACTTTACATAATTTACCCGCTGGCGACTGGGCGGCAGGGGAACGCGGCATCGCCTGTATTCCAGGCCGCGAAGCGGAGTTTCGCGAAGGTGTCGATGCCGCAATCCGCTACGCCAAAGCGCTGGGCAATTGTAAAATTAACTGCCTGGTCGGCAAAACTCCGGTGGGCTATCGCGAAGAACATATTCGCTCAACGCTGGTGGCGAATTTACGTTTTGCCGCCGCCGCGCTGGCCCAGGAAGGTATTCTGCTGCTAATTGAGCCGATCAATTACTTCGATATGCCGGGCTTTTATCTGAATACCACGCATCAGGCGTTAGCGCTGATTGATGAAGTGGGTAATGATAATCTGAAAATCCAGTACGATATTTACCATATGCAGCGTATGGAGGGGGAATTAACCCATACGATGCAAACTTACGCTAATCGTATTGGCCATTTACAGATCGCGGACAATCCGAATCGAGGTGAGCCCGGGACCGGTGAAATTAATTATGAATATCTTTTTAATTTCATCGATAAATCCAACTATGACGGTTGGGTAGGTTGTGAATATAAACCATTGACCACCACCGAAGCGGGACTAACATGGTTTAATCGTTACCGCTAA	MLRFSANLSMLFQEYDFLERFEKAAACGFRAVEFMFPYDYAPEVLKQKLRDNQLEHTLHNLPAGDWAAGERGIACIPGREAEFREGVDAAIRYAKALGNCKINCLVGKTPVGYREEHIRSTLVANLRFAAAALAQEGILLLIEPINYFDMPGFYLNTTHQALALIDEVGNDNLKIQYDIYHMQRMEGELTHTMQTYANRIGHLQIADNPNRGEPGTGEINYEYLFNFIDKSNYDGWVGCEYKPLTTTEAGLTWFNRYR	PGPT0018150_348	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0018150-otnI|ygbM-K22131	NA	NA
BMS020_03566	879	glxR	COG2084	2-hydroxy-3-oxopropionate reductase	ATGAAACTGGGATTTATTGGTCTGGGTATTATGGGCACCCCGATGGCGCTCCGACTTGCCAGGGCAGGCCACGCACTGCACGTTACTACCATTGGGCCTGTTGCTGACGAATTGCTCAAGCACGGGGCACAACATCTGGCCTGCGCAGAACAGGTGGCGGAGCAGTCAGACATTATTTTTATCATGGTACCCGATACCCCGCAGGTTGCCGAAGTGCTGTTTGGCGAACATGGTTGTGCTAAAGCGGCGCTGAAGGGCAAAATTATCGTGGATATGAGCTCTATCTCGCCGATAGAAACGAAACGTTTTGCGCAGCAGGTGCGGGATCTCGGCGCCGATTACCTTGATGCGCCGGTCTCGGGCGGTGAAATTGGCGCACGTGAAGGCACGCTCTCCATTATGGTTGGCGGCGATGAAAACATCTTTGCCCGCGTGAAACCGCTGTTTGATATTTTGGGTAAAAATATCACCCTCGTCGGCGGGAACGGCGACGGTCAGACATGTAAAGTCGCCAATCAAATTATCGTCGCGCTGAATATTGAAGCGGTGTCCGAAGCGCTGGTTTTTGCCTCTAAAGCTGGGGCGGACCCTGCTCGCGTTCGTCAGGCTTTGATGGGCGGTTTCGCTTCCTCTCGTATTCTGGAAGTGCACGGTGAAAGAATGCTCAACCGTACCTTTAATCCAGGCTTTAAAATTTCTCTGCACCAGAAGGATCTCAATCTGGCTCTGCAGAGCGCTAAAGCCCTGGCGCTTAATCTGCCGAATACTGCTACCTGTCAGGAACTGTTTAATACTTGTGCCGCCAATGGTGGTAGCGAGTTAGATCATTCGTCTCTGATTCAGGCTCTGGAATTAATGGCAAATCATCAAATAGCGTAA	MKLGFIGLGIMGTPMALRLARAGHALHVTTIGPVADELLKHGAQHLACAEQVAEQSDIIFIMVPDTPQVAEVLFGEHGCAKAALKGKIIVDMSSISPIETKRFAQQVRDLGADYLDAPVSGGEIGAREGTLSIMVGGDENIFARVKPLFDILGKNITLVGGNGDGQTCKVANQIIVALNIEAVSEALVFASKAGADPARVRQALMGGFASSRILEVHGERMLNRTFNPGFKISLHQKDLNLALQSAKALALNLPNTATCQELFNTCAANGGSELDHSSLIQALELMANHQIA	PGPT0018170_812	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
BMS020_03567	1257	sauU		putative sulfoacetate transporter SauU	ATGGATACGATCAATAACAAAGGTGTCGACTATTGGAAAAAAATAGTCGTGGTAATGAGTCTGGGCTGGGTGGCAATTTGGATCTATCGTACCGTATTAACGCCGATTTATCCGGAGATTCAGGCGTCATTAGGTAACGTCAGTAATGCTGAAATTGGCGCGATTGCCAGCTTCTATTTTTTGGCCTACTGCGGCATGCAGATCCCCTGCGGCATTCTGGTGGATAAACTGGGCCAGAAAATTATGCTGATGTGCGGTTTTTCGCTATTTATTATCGGTACCCTGAGTATCGCTAATGCCGGAAATCTGACGTTGATTTATATCGGCTCACTACTGGCCGGCGCCGGTTGTGCCTCCTTCTTTAGTTCCGCCTATTCGCTCTCCTCAGCCAACGTGCCGCAAGAACGCCGTGCGCTGGCGAACGCCATCATCAACAGCGGCTCTGCCATTGGTATGGGGATTGGCCTGATTGGTTCAAGTATTCTGGTCAAAAGCATGCACATGGCCTGGCAAAACGTGTTGTTTATCGTCGCTGCGATTCTGCTGGTGATGCTCTGCGTGTTTACCCTGGTTATTCGCCGCAAACTGAAAGCACCCGCTGCAGCGGAAAATAAAACGAGTGCAGCGGCGTCAGCGCCGGTTGCAGAAGAGAAATCGGCGCCGCTATTCTCGCCATTACTGTGCAGCGTGTATTTCCTCTATTTCTGCACCTGCTACGGCTACTATCTGATTGTGACCTGGCTACCCTCTTATCTTCAGACCGAACGCGGGTTTGACGGTGGGGCGATTGGTTTTGCTTCCGCGCTGGTGGCGGTGGTCGGGGTCCCGGGCGCGCTGTTCTTTAGCCATCTCTCGGATAAATTCCGCGACAGTAAAGTCAAAGTTATTCTCGGGCTGGAGATAGTCGCGGCGGCCATGTTGATGTTTACCGTTCTGTCGCCGAATACCACCATGCTGATGATTAGCCTGGTACTGTACGGGTTGCTGGGCAAAATGGCCGTTGATCCGATTCTTATCTCGTTCGTCTCCGAGCAGGCGTCAGCGAAAACGTTAGGCCGCGCCTTCAGCTTATTTAATTTCTTTGGTATGAGTTCTGCAGTAGTTGCACCGACGCTCACCGGTTTTATTTCCGACCTGACCGGATCGAAAGAAATTAGTTTTGTGATGTCTGCTGGACTGGTTGTTACCGGGACGATACTTTTTGCCCTGATCACCTTGCGCAAGAATAAAATACCGTCAAAGACCATCACCGTATAA	MDTINNKGVDYWKKIVVVMSLGWVAIWIYRTVLTPIYPEIQASLGNVSNAEIGAIASFYFLAYCGMQIPCGILVDKLGQKIMLMCGFSLFIIGTLSIANAGNLTLIYIGSLLAGAGCASFFSSAYSLSSANVPQERRALANAIINSGSAIGMGIGLIGSSILVKSMHMAWQNVLFIVAAILLVMLCVFTLVIRRKLKAPAAAENKTSAAASAPVAEEKSAPLFSPLLCSVYFLYFCTCYGYYLIVTWLPSYLQTERGFDGGAIGFASALVAVVGVPGALFFSHLSDKFRDSKVKVILGLEIVAAAMLMFTVLSPNTTMLMISLVLYGLLGKMAVDPILISFVSEQASAKTLGRAFSLFNFFGMSSAVVAPTLTGFISDLTGSKEISFVMSAGLVVTGTILFALITLRKNKIPSKTITV				NA	NA	NA	NA	NA
BMS020_03568	1455	ybbW	COG1953	Putative allantoin permease	ATGGAACAAACTCAAGACCTGTACAAAGCCAGGGGCTATAGTGATGATCTATTGCCGAAATCAGACACACAGCGTAACTGGAAAACATTCAACTATTTCACGTTGTGGATGGGTTCTGTACACAACGTACCAAATTATGTGATGGTTGGTGGTTTTTTTATCCTTGGTCTTTCCACCTTTAGCATTATGATGGCGATAATATTAAGTGCCTTTATAATTGCCCTGGTTATGGTGTTTAATGGTGCAGCCGGAAGTAAGTATGGCGTACCCTTCGCGATGATATTAAGAGCCTCATATGGAGTACGCGGTGCATTATTACCCGGACTGCTCAGAGGCGGTATCGCAGCGATTATGTGGTTTGGCTTGCAATGCTACGCCGGATCGTTGGCATTTTTGATCTTATTAGGCAAATTATGGCCTGCGTTTCTGACGCTTGGCGGTGATTTTAAGCTGCTGGGGTTGTCGTTGCCGGGGTTGATCGCCTTTCTGGTGTTCTGGTTGATTAACGTCGGGATTGGCTTTGGCGGCGGAAAAGTGCTGAATAAATTTACCGCAATCCTCAACCCCTGCATCTATATCGTCTTCGGCGGGATGGCTATCTGGGCCATTTCGCTGGTAGGATTCGGCCCGATCCTCGACTACCTGCCGACCGGGGTGGCAAAAGCGGAACATACCGGTTTCTTGTTCCTGGTGGTGATCAATGCGGTGGTGGCCGTCTGGGCCGCTCCGGCAGTCAGCGCCTCGGATTTCACCCAGAACGCGCGTTCGTTTCGCGAGCAGGCTATTGGTCAGACGCTTGGACTCGTGGTGGCCTATATTCTGTTTGCGGTCGCCGGCGTCTGTATTATCGCCGGCGCCAGTATCCATTACGGTATGGATACCTGGAACGTACTGGATATTGTGCAGAAATGGGACAGCCTGTTTGCCTCGTTCTTTGCGGTGCTGGTGATATTAATGACCACGATCTCCACCAACGCCACCGGTAATATTATTCCTGCGGGCTATCAAATTGCGGCGATTGCTCCCACGAAACTGACCTATAAAAACGGCGTGCTCATCGCCAGTATTATTAGCCTGCTGATCTGCCCCTGGAAATTAATGGAAAATCAGGACAGTATTTATCTTTTTCTCGATATTATCGGCGGCATGCTGGGTCCGGTTATTGGCGTAATGATGGCGCACTATTTTATCGTCATGCGTGGGCAAATTAATCTTGATGAACTTTACACCGCGGCAGGAGATTATAAATATTTCGATAATGGATTTAACGTTACCGCATTCCTGGTAACGATTGTGGCGGTTATTTTATCGCTCGGCGGAAAATTTATCCCGCTGCTCGAACCGTTCTCCCGCGTGTCATGGTTTGTCGGTGTTATTGTCGCTTTTGTCGCATACGCTTTGCTGAAGAAACGGACGCAACCCAATAATCTGACGCGGCCAAATACTGTTAGTTAA	MEQTQDLYKARGYSDDLLPKSDTQRNWKTFNYFTLWMGSVHNVPNYVMVGGFFILGLSTFSIMMAIILSAFIIALVMVFNGAAGSKYGVPFAMILRASYGVRGALLPGLLRGGIAAIMWFGLQCYAGSLAFLILLGKLWPAFLTLGGDFKLLGLSLPGLIAFLVFWLINVGIGFGGGKVLNKFTAILNPCIYIVFGGMAIWAISLVGFGPILDYLPTGVAKAEHTGFLFLVVINAVVAVWAAPAVSASDFTQNARSFREQAIGQTLGLVVAYILFAVAGVCIIAGASIHYGMDTWNVLDIVQKWDSLFASFFAVLVILMTTISTNATGNIIPAGYQIAAIAPTKLTYKNGVLIASIISLLICPWKLMENQDSIYLFLDIIGGMLGPVIGVMMAHYFIVMRGQINLDELYTAAGDYKYFDNGFNVTAFLVTIVAVILSLGGKFIPLLEPFSRVSWFVGVIVAFVAYALLKKRTQPNNLTRPNTVS	PGPT0000890_60	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ALLANTOIN_USAGE	N-AQUISITION-ALLANTOIN_TRANSPORT,PGPT0000890-allP-K10975	NA	NA
BMS020_03569	117			hypothetical protein	ATGGATGAAGCATTACCGGCCAAAGCCATTGTTATTGCGGCACGCATTGTCGCAGCAGAAGTATGGCGGCTGACCCATCTGTACACATACAAGGAGTTATTATGTCTTTTGATTTAA	MDEALPAKAIVIAARIVAAEVWRLTHLYTYKELLCLLI				NA	NA	NA	NA	NA
BMS020_03570	1362	allB	COG0044	Allantoinase	ATGTCTTTTGATTTAATCATTAAAAACGGCACTGTTATTCTGGAAAACGAATCCCGGGTAGTCGATATCGCGGTGAGCGACGGCAAAATCGCCGCTATCGGTGAACACCTGGGCGAGGCGAAGCAGGTCATGGATGCCACGGGCCTGATCGTTTCGCCGGGCATGGTCGATGCGCATACGCACATCTCTGAGCCGGGCCGTACCCACTGGGAAGGTTACGAAACCGGAACCCGCGCGGCGGCAAAAGGCGGCATCACCACGATGATCGAAATGCCGCTGAATCAGCTACCGGCCACCGTTGACCGGCAGACCATTGAGCTGAAGTTCGACGCGGCGAAAGGCAAACTGACCATCGATGCCGCGCAGCTTGGCGGCCTGGTCTCTTATAACCTCGACCGGCTGCATGAACTGGATGAAGTGGGGGTGGTAGGTTTTAAATGCTTTGTCGCCACCTGCGGTGACCGGGGGATCGATAACGATTTCCGCGACGTCAACGATTGGCAGTTCTTCAAAGGCATACAAAAGCTGGCCGAAATGAAGCAGACCGTGCTGGTGCACTGCGAAAACGCGCTGATCTGCGATGAGCTGGGCGAAGAGGCGAAAAGAGAAGGGCGCGTGACTGCCCATGATTACGTCGCCTCTCGGCCGGTCTTCACCGAAGTGGAAGCTATTCGCCGCGTTCTGTATCTGGCGAAAGTCGCCGGTTGCCGCTTGCACGTGTGTCATGTCAGCAGCCCGGAAGGGGTCGCCGAAGTGACCCGCGCCCGTCAGGAAGGGCAGGATGTCACCTGCGAATCTTGCCCGCACTACTTTGTCCTGGATACCGATCAGTTTGAAGAGATCGGTACCCTGGCGAAGTGCTCTCCGCCGATCCGCGATGCGGAAAACCAGAAAGGCATGTGGGAAAAGCTGTTCAACGGAGAAATCGACTGCCTGGTCTCCGACCATTCGCCGTGCCCACCGGAAATGAAGGCTGGCAATATCATGCAGGCCTGGGGCGGGATTGCCGGTCTGCAAAACTGCATGGACGTGATGTTCGATGAAGCGGTGCAGAAACGCGGTATGTCTCTGCCGCAGTTTGCCCGTCTGATGGCGACCAACGCCGCGGATATTTTCGGCCTGAAGCATAAGGGCCGCATCGCGCCGGGTAAAGACGCCGACCTGGTGTTTATTCAGCCGAACAGCAGCTACGTCTTACGGGCAGAAGACCTCGAATATCGCCATAAAGTCAGCCCTTACGTTGGGCGCAAGATTGGCGCTCGGATTGCTAAAACCATCCTGCGCGGCGAGGTGATCTATGACATCGAGCAGGGCTTCCCACGCGCGCCTAAGGGGAAATTTATCCTTAAGCATCAGCAGTAA	MSFDLIIKNGTVILENESRVVDIAVSDGKIAAIGEHLGEAKQVMDATGLIVSPGMVDAHTHISEPGRTHWEGYETGTRAAAKGGITTMIEMPLNQLPATVDRQTIELKFDAAKGKLTIDAAQLGGLVSYNLDRLHELDEVGVVGFKCFVATCGDRGIDNDFRDVNDWQFFKGIQKLAEMKQTVLVHCENALICDELGEEAKREGRVTAHDYVASRPVFTEVEAIRRVLYLAKVAGCRLHVCHVSSPEGVAEVTRARQEGQDVTCESCPHYFVLDTDQFEEIGTLAKCSPPIRDAENQKGMWEKLFNGEIDCLVSDHSPCPPEMKAGNIMQAWGGIAGLQNCMDVMFDEAVQKRGMSLPQFARLMATNAADIFGLKHKGRIAPGKDADLVFIQPNSSYVLRAEDLEYRHKVSPYVGRKIGARIAKTILRGEVIYDIEQGFPRAPKGKFILKHQQ	PGPT0000870_819	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0000870-allB-K01466	NA	NA
BMS020_03571	1311	ybbY	COG2233	Putative purine permease YbbY	ATGGTGGTATTGCCGCTAAATAAACGTAACACCCTGGCGGGATTTCAATGGTTCTTCTTTATTTTCTGCAACACCGTTGTGGTACCGCCAACATTACAGTCTGCTTTTCAGCTCCCTGCCAGCGCGTTAATTACGCTTACCCAGTACGGGTTTATCACCACCGGGTTGGCCTGTCTGGCGCAGGCGCTGCTGGGACATCGTCGGGCGATTATGGAAGGACCGACGGGCCTGTGGTGGAGCACCATTCTGACGGTCACCGTGGGCGAAGCCGCACGAGGGACGCCGTTCGACAGCATCGCCTCCAGCCTGGCTGTCGGCATATTTTTCTCGGCGGCGCTCACCATCATCATCGGCGTGAGCGGCATTGGCCATCGCCTGGCGAAGCTCTTCAGCCCAACGGTCATGGTCTTTTTCATGCTGCTGCTGGGGGCCCAGCTGACTACCATCTTTTTTAAAGGCATGCTTGGGCTGCCCTTTAGTTCAACGCAGGTCAATCCGGGTATTCAGCTGGCGCCATTTTGCCTGGCGCTGATGGTGATGATTCTGGTGCTGGGAATGATCATTTTTCTCCCGGATGGTATCGCTCGCTACGCCCTGCTGATCGGAACCCTGGCGGGTTGGGCTGGCTGGTATCTGCTGTTTCGCACTCCGCCTGCCACGATGGCATCCGGGCCGATTCACTGGCAGTGGTTCCCGCTGGGTTACGGCGGCCAGCTACGGCCCGGCATCATCTTAACCGCACTGCTGGCGGGACTGGTGAATATTACCAATACCTATGGCGCCATTCGCAGCACCGATGTTTTTTACCCCGAACAAGGGGCCAGTAATACCCGCTATCGACGCAGCTTTATGATCTCCGGTTTGATAACATTAATAACGGTTCCGCTCAACGTGGTGCCATTTTCTCCCTTTGTTTCGTCGACAGCTTTATTAACTCAAACTGGCGACACCTCGCGCCGGCCATTTATTATCGGCTGCTTGTGCTGTCTGCTGGTTGGATTATTTACGCCGCTGACCCACTTTTTTACCACCCTGCCTTTACCGATCAGCAGCGCGGTCATGCTGGTCTCTTATTTGCCGTTGTTATATTCCAGTTTATCTTTCAGTAAGCAAATTACCTTTACCGCACGAAATATCTACCGGCTGGCGCTGCCGTTATTTGTCGGCATTTTTTTGATGGGTCTGCCGCCGGTTTATCTCCAGACGTTGCCTCTGACAATCAGACCCCTTGTAGGTAACGGCTTACTAATCGGGGTGCTGCTGGCGGTAGCCATGGAGAATCTCATTCCCTGGGATCGTATTAAGTCATGA	MVVLPLNKRNTLAGFQWFFFIFCNTVVVPPTLQSAFQLPASALITLTQYGFITTGLACLAQALLGHRRAIMEGPTGLWWSTILTVTVGEAARGTPFDSIASSLAVGIFFSAALTIIIGVSGIGHRLAKLFSPTVMVFFMLLLGAQLTTIFFKGMLGLPFSSTQVNPGIQLAPFCLALMVMILVLGMIIFLPDGIARYALLIGTLAGWAGWYLLFRTPPATMASGPIHWQWFPLGYGGQLRPGIILTALLAGLVNITNTYGAIRSTDVFYPEQGASNTRYRRSFMISGLITLITVPLNVVPFSPFVSSTALLTQTGDTSRRPFIIGCLCCLLVGLFTPLTHFFTTLPLPISSAVMLVSYLPLLYSSLSFSKQITFTARNIYRLALPLFVGIFLMGLPPVYLQTLPLTIRPLVGNGLLIGVLLAVAMENLIPWDRIKS				NA	NA	NA	NA	NA
BMS020_03572	1146	glxK	COG1929	Glycerate 3-kinase	ATGAAAATTATTATTGCACCGGACTCGTTCAAAGAAAGCGTCAGCGCCAGCCGCTGCGCCCAGGCGATTAAGGCGGGCTTTACCTCTATTTTCCCGCAGGCGGAGTGCATCTGTCTGCCGATCGCCGACGGCGGCGAGGGGACGGTGGAGGCAATGGTTGAGGCCACCGAGGGTAAAATGGTGATGCTGCCGGTCATGGGGCCGATGGGCGATTTTGTCGGCGCCTTCTATGGCCTGAGCGGCGACGGACACACCGCGTTTATTGAGATGGCGGCGGCCAGCGGACTCATGCTGGTTCCCCCCGACGAACGCAACCCCCTGCAGGCCACCAGCTACGGCACCGGTGAGCTGATTCGCCATGCGCTGGACGCCGGCGTCCGTCACATCATTCTCGGTATTGGCGGCAGCGCCACGGTGGATGGCGGAATGGGGATGGCTCAGGCGCTGGGAGCACGCTTTGTTGATGAACGCGGCGATAGCGTCGGGCTCGGCGGCGGAGCGTTAGAGCGGCTGGTCAACGTTGATTTACGCGATCTCGACCCGCGACTTCGCGAGTGCCGGATTGACGTAGCCTGCGATGTGGATAATCCGCTGCTCGGCGAGCGCGGCGCGGCGGCGGTCTTTGGCCCGCAAAAAGGAGCCAGCGCTGAGATGGTCGCTGCCCTCGAGCGCGGTTTGCAAAATTACGCTCAGGTGTTGCTAATGGCAACGGGTGTGGAGGTGACGGCGATAGTCGGCGGCGGCGCGGCCGGCGGGATGGGCGTGGCGGCCTGCGTATTCCTTAACGCGGCGCTGAAGCCGGGCATCGATATCGTGATTGAGGCGATGAAACTGGAGGAGGCGCTGCGCGACGCGGACCTGGTGATTACCGGTGAAGGGCGAATGGATTCACAAACCGTCGGCGGCAAAGCGCCGATTGGCGTGGCGCGGCTCGCGAAAAAGCATGGCATCCCGGTGATCGGTATCGCAGGCGTGCTGGGGGACGGCGTGGAAGCGGTGCATCAGCATGGTATTGATGCGGTATTTAGCATTCTGCCCGCGCTGGCGCCGCTGGCCGAGGTGCTGGATCGCGGCGAGCAAAATCTGTATGCCTGCGCGCGCAATATCGCCTGTGCTATCAAGATCGGTCAGAACATTCCCGCCTGA	MKIIIAPDSFKESVSASRCAQAIKAGFTSIFPQAECICLPIADGGEGTVEAMVEATEGKMVMLPVMGPMGDFVGAFYGLSGDGHTAFIEMAAASGLMLVPPDERNPLQATSYGTGELIRHALDAGVRHIILGIGGSATVDGGMGMAQALGARFVDERGDSVGLGGGALERLVNVDLRDLDPRLRECRIDVACDVDNPLLGERGAAAVFGPQKGASAEMVAALERGLQNYAQVLLMATGVEVTAIVGGGAAGGMGVAACVFLNAALKPGIDIVIEAMKLEEALRDADLVITGEGRMDSQTVGGKAPIGVARLAKKHGIPVIGIAGVLGDGVEAVHQHGIDAVFSILPALAPLAEVLDRGEQNLYACARNIACAIKIGQNIPA	PGPT0018175_1303	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018175-garK|glxK-K00865	NA	NA
BMS020_03574	783	allE	COG3257	(S)-ureidoglycine aminohydrolase	ATGGGTTATTTAAACAATGTGGTTGGCTATCGCGATGATTTACTGGCCAGCCGTTCCATCGTGCGCCACGGCAATTACGCGCTGCTGACGCCGGACGGTCTGGTCAAGAACGTTATTCCGGGTTTTGAACATTGCGATGTGACTATTTTGTCAACGCCGAAATTAGGCGCCACCTTTGTTGATTATCTGGTCACGCTGCATGAAAACGGCGGTCATCAAAGCGGTTTTGGCGGCGAAGGCATCGAGACCTTCCTGTATGTGATTAAGGGAGAAATCATCGCCGGGGCTCAGGGTAAATCCTTCGCGCTGACCGAAGGCGGTTATCTTTACTGCCCGCCGGGTGAGCGGATGACTTTCAGTAATAACCATTCAGCCGATAGCCAGCTCTTCCTCTATAAGCGCCGCTATATTCCGACAGAGGGACATGCGCCTTATCTGGTCACCGGCAACGTCAGCCAGCTGGAGCGTATTCATTATGAAGGAATGGAAGACGTTATCCTGATCGATTTCCTGCCAAAAGAGCTGGGCTTCGATATGAATATGCATATTCTCTCTTTCGCACCGGGGGCCAGCCACGGCTACATTGAAACCCACGTCCAGGAGCATGGCGCCTATATTCTCTCCGGCCAGGGAGTGTATAACCTCGACAACCACTGGGTTCCGGTCAAGCAAGGCGATTATATCTTTATGGGCGCTTACTCCCTGCAGGCGGGATACGGCGTCGGACGGGAAACGTTCAGCTACATCTATTCGAAAGACTGCAACCGCGACGTTGAGATCTGA	MGYLNNVVGYRDDLLASRSIVRHGNYALLTPDGLVKNVIPGFEHCDVTILSTPKLGATFVDYLVTLHENGGHQSGFGGEGIETFLYVIKGEIIAGAQGKSFALTEGGYLYCPPGERMTFSNNHSADSQLFLYKRRYIPTEGHAPYLVTGNVSQLERIHYEGMEDVILIDFLPKELGFDMNMHILSFAPGASHGYIETHVQEHGAYILSGQGVYNLDNHWVPVKQGDYIFMGAYSLQAGYGVGRETFSYIYSKDCNRDVEI	PGPT0021650_665	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021650-ylbA-K14977	NA	NA
BMS020_03575	1236	allC	COG0624	Allantoate amidohydrolase	ATGGCTCATTATTTTCGACAGGCAATAGAAGAGACATTGCCCTGGTTTTCCGCTTTCGGCGCCGACCCGACCGGGGGCATAACCCGCCTGCTCTATTCGCCAGAATGGCTGCAGGCGCAGCAGGCATTCAAACAAAGAATGAGCGAAAGCGGACTAGAAACGCGCTTTGATGAAGTGGGTAACCTCTATGGTCGTCTGCCCGGCACGCGCTTTCCCGATGAAGTTATCCTCAGCGGTTCGCATATTGATAGCGTCGTTAACGGCGGCAATCTTGACGGCCAGTTCGGCGCGCTGGCGGCCTGGCTGGCGGTTCGCTGGCTAAAAGAGACCTACGGGGCGCCGCTGCGCACCGTGGAAGTGCTGGCGTTAGCGGAAGAAGAAGGTAGCCGCTTCCCTTACGTCTTCTGGGGCAGCAAAAATATCGTCGGCATCGCTAACCCGGCGGACGTGCGTGAGATTAAAGACGCCAAAGGCGTGGCGTTTATCGATGCCATGAAGCAGTGCGGTTTCAGCCTACCCGCCGCCCCGCTGGCGCCGCGCCGGGATATTAAAGCCTTCGTGGAGCTGCATATTGAGCAGGGTCGCGTGCTGGAAACCAACAAGCAGTCTATCGGCGTGGTCAACGCTATTGTCGGACAGCGTCGCTACACCATCACCCTCACCGGCGAGTCTAACCATGCCGGCACGACGCCAATGGGCTACCGTCGCGACACCGTCCATGCCTTTAGCCGTATCTGCTGCGAATCTATCGCCAAAGCAAAAGCCCACGGCGACCCGCTGGTGCTCACCTTCGGTAAAGTCGACCCGCAGCCGAATACGGTCAACGTGGTGCCGGGCAAAACCGTCTTCACTATGGACTGCCGCCATACCGATGCGCTGGAGTTAACGGCATTTACTGAGGTCATTGAGGCCGATATGCGGCGGATCTGTCAGGAGATGGATATTGGCATTGAGGTCGATCTGTGGATGGATGAGGCGCCGGTTCCCATGGATAAGAAGCTGGTGGCCCAGCTCACCGCGCTTTGTGAAAAAGAGAAGGTGAATTTCCGTGTGATGCACAGCGGCGCGGGACACGACGCGCAGATATTCGCGCCCTGCTTTCCGACCTGCATGATCTTTATGCCGAGCATCAAAGGCATCAGCCATAACCCGGCGGAAAGCACGCATATCGAGGATCTGGCGGAAGGCGTAAAAACGCTCGCCTTAATGTTGCATCAACTGGCCTGGACTGAATAA	MAHYFRQAIEETLPWFSAFGADPTGGITRLLYSPEWLQAQQAFKQRMSESGLETRFDEVGNLYGRLPGTRFPDEVILSGSHIDSVVNGGNLDGQFGALAAWLAVRWLKETYGAPLRTVEVLALAEEEGSRFPYVFWGSKNIVGIANPADVREIKDAKGVAFIDAMKQCGFSLPAAPLAPRRDIKAFVELHIEQGRVLETNKQSIGVVNAIVGQRRYTITLTGESNHAGTTPMGYRRDTVHAFSRICCESIAKAKAHGDPLVLTFGKVDPQPNTVNVVPGKTVFTMDCRHTDALELTAFTEVIEADMRRICQEMDIGIEVDLWMDEAPVPMDKKLVAQLTALCEKEKVNFRVMHSGAGHDAQIFAPCFPTCMIFMPSIKGISHNPAESTHIEDLAEGVKTLALMLHQLAWTE	PGPT0000875_888	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000875-allC-K02083	NA	NA
BMS020_03576	1050	allD	COG2055	Ureidoglycolate dehydrogenase (NAD(+))	ATGAAAGTCAGTCGGGAAACACTACATCAGCTTATTGCTAATAAGCTGAACGCAGCAGGACTTACTCATAATCACGCGGATATTATTGCCGATGTGTTGGTTTATGCCGATGCCAGAGGCATTCATTCCCACGGCGCGGTTCGCGTTGAATATTATGCGGAACGTATTTCAAAAGGCGGAACCAATCGTCATCCCACCTTCACCTTTGAAAAGAACGGCCCCTGCAGCGGTATTTTGCATGCCGATAATGCCGCCGGTCAGGTGGCCGCCAAAATGGGCATGGAGCACGCGATAGAATTGGCCAGGGAAAACGGCGTGGCCGTGGTCGGCATCCGGCGTATGGGCCACAGCGGAGCGATCTCTTACTTCACCCGGCAGGCCGCCCGAGCCGGGCTAATCGGGATTTCGCTATGCCAGTCGGACCCGATGGTCGTGCCTTTTGGCGGGGCGGAAATCTATTACGGAACCAACCCGCTGGCCTTTGCCGCGCCCGGCGAGGGCGATGATATCATCACCTTCGACATGGCCACCACGGTGCAGGCATGGGGGAAAATTCTCGACGCCCGCTCGCGCCATGAAACCATTCCCGATAGCTGGGCGGTGGATAAAAACGGCGCGCCGACCCGCGATCCTTTTGCCGTTCACGCCCTGCTTCCGGCAGCCGGCCCGAAAGGCTACGGCCTGATGATGATGATCGACGTCCTCTCCGGCATTTTGCTCAATCTCCCCTTCGGCCGCCAGGTCAGCTCTATGTACGACAACCTGAGCCAGGGACGCGAGCTGGGCCAGCTGCATATCGTCATCAACCCGGCATTTTTCTCCTCCAGCGCGCTATTCCGCCAGCATATCAGCGACACCATGCGTGAATTAAACGCCATTACGCCAGCGCCCGGATTTAACCAGGTTTATTACCCCGGGCAGAACCTGGATATCAATGAGAAAAACAGCGCCGTCAACGGAATCGAGATCGTTGATGAGATTTATGACTATCTGGTTTCGGACGCTTTATATAACCGCTCTTATGAAACCAATTCCCCATTTGCTCAATAA	MKVSRETLHQLIANKLNAAGLTHNHADIIADVLVYADARGIHSHGAVRVEYYAERISKGGTNRHPTFTFEKNGPCSGILHADNAAGQVAAKMGMEHAIELARENGVAVVGIRRMGHSGAISYFTRQAARAGLIGISLCQSDPMVVPFGGAEIYYGTNPLAFAAPGEGDDIITFDMATTVQAWGKILDARSRHETIPDSWAVDKNGAPTRDPFAVHALLPAAGPKGYGLMMMIDVLSGILLNLPFGRQVSSMYDNLSQGRELGQLHIVINPAFFSSSALFRQHISDTMRELNAITPAPGFNQVYYPGQNLDINEKNSAVNGIEIVDEIYDYLVSDALYNRSYETNSPFAQ	PGPT0021440_119	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021440-allD-K00073	NA	NA
BMS020_03577	1668	fdrA	COG0074	Protein FdrA	ATGATCCATGCCTTTATTAAAAAGGGCTGTTTTCAGGATTCCGTCAGTTTAATGATTATTTCACGTAAGCTGAGTGAGTCAGAAAATGTCGACGATGTTTCGGTCATGATGGGCACGCCGGCAAATAAAGCGCTGCTGGAAACTACCGGTTTTTGGCATGACGATTTTGCCACGGCGACGCCGAATGATATTTGCGTGGCGATCCGTACCGATTGCGCAGATGCGACGGTGACGGAAATGATTATCGCCCGTCTGGATGACGCCTTATCCGCCCTGGCGCAGGGAAGTGGGCAAAGTCTGAGTCTGAACGTGGTTCGCCGCTGGCAAAGTGCGATGCAAAAACTGCCGCAGGCCAATATGACCTTAATTTCCGTTGCCGGAGAATATGCCGCGGAACTGGCCCATCAGGCGCTCAGTAGCGAGAAAAGCGTCATGATTTTCTCCGACAACGTCACCCTGGAAGATGAAATCGCGCTCAAAACCCGCGCCCGCGATAAAGGGTTGCTGGTCATGGGGCCGGACTGCGGCACCGCCATGATTGCTGGCACCCCGCTGGCCTTCGCCAACGTCGCACCGGAGGGCAATATCGGGGTGATTGGCGCCTCCGGTACCGGCATTCAGGAACTTGTCTCGCAGATTGTCCTCGGCGGGGAAGGGATCAGCCATGCGATAGGTCTCGGCGGCCGCGATCTGAGCGCGGAAGTGGGGGGCCTTAGTGCACAAACGGCGCTGGAAATGCTGACCCAGGATGCGCAGAGCCAGGTATTGGCCTTTGTTTCCAAGCCACCTGCTGAGGCGGTGCGCCTGAAGATAATTAACGCAATGAAACGCAGTGCTAAACCGGTGGTGGCGCTGTTTCTTGGCTATGTCTCGCCAGTCGACCGCGATGAAAACGTCTGGTTTGCCCGCACGCTGGACGAGGCCGGTCGGCTGGCGTGTCTGTTGGCGCGAGTGGTACGCCATCAGGAAAATCTGACCGCCGTCGCGGGTAAGCATATCCGCGGTTTATACACCGGCGGCACGCTGGCGGCGGAATCCGCCGGGCTGCTGGCTGAGCGCCTGAACATCACTCCCGATGAGCATCACCCGCAGGGCATGATGCTCAACGCGATGGGCCACCAGGTCGTCGACCTCGGCGATGATTTCTACACCGTCGGTCGTCCACACCCGATGATTGATCCCTCCCTGCGTAACCAACTGATTGCCGACCTCGGCGAGCAAACGCAGGTGGGCGTATTGCTGCTGGATGTGGTGATTGGTTATGGCGCCACCGCCGAACCGGCGGGCTCGCTGGTCGAAGCATGCCAGCGGGCGTGGGCGACCAGGGCCGACGATAGTCCGCTGCACGTTATCGCGACAGTAACCGGTACCGAAAATGACCCGCAGTGTCGTTCCCGTCAAATTGCCGAGCTGGAAGATGCCGGCGTGGTGGTGGTCGATAGCCTCCCGGAAGCCGCGCTGCTTGCTGTTGCGCTGATTAGCCCTCAGCGGCTGGCGGAGCCCGCACCGCGTTCCAGTCTGCTGGACGGAGTGGCGGTAATTAATGCCGGTCTGCGCAGTTTTGCGATCGATTTACAGTCCGCCGGAACGCCGGTTGTTCACTATCAGTGGGCGCCGATTGCCGGAGGAAATAAAAAACTGGCTCGTTTATTAGAGCGTTTGCAATAA	MIHAFIKKGCFQDSVSLMIISRKLSESENVDDVSVMMGTPANKALLETTGFWHDDFATATPNDICVAIRTDCADATVTEMIIARLDDALSALAQGSGQSLSLNVVRRWQSAMQKLPQANMTLISVAGEYAAELAHQALSSEKSVMIFSDNVTLEDEIALKTRARDKGLLVMGPDCGTAMIAGTPLAFANVAPEGNIGVIGASGTGIQELVSQIVLGGEGISHAIGLGGRDLSAEVGGLSAQTALEMLTQDAQSQVLAFVSKPPAEAVRLKIINAMKRSAKPVVALFLGYVSPVDRDENVWFARTLDEAGRLACLLARVVRHQENLTAVAGKHIRGLYTGGTLAAESAGLLAERLNITPDEHHPQGMMLNAMGHQVVDLGDDFYTVGRPHPMIDPSLRNQLIADLGEQTQVGVLLLDVVIGYGATAEPAGSLVEACQRAWATRADDSPLHVIATVTGTENDPQCRSRQIAELEDAGVVVVDSLPEAALLAVALISPQRLAEPAPRSSLLDGVAVINAGLRSFAIDLQSAGTPVVHYQWAPIAGGNKKLARLLERLQ				NA	NA	NA	NA	NA
BMS020_03578	1260			hypothetical protein	ATGTTTACATCAGTGGCGCAGGCCAATGAGGCTGTAATTGAACGAATTCGTAATGCACGTCCGCACTGGCTGGATGTGAAGCCGGCAGGTGCGCTAATCGGGGCGCTGAATCAGAACAAATCGTTGCTCCACGCCGGGCCGCCGATGCGCTGGCAGGCGATGACCGGCCCAATGAAAGGAGCCTGCATTGGCGCATGCCTGTTCGAAGGCTGGGCGCAGGATGAAAAAACCGCCCATGCAATGCTGGAAAGCGGCGAAATTACCTTTATCCCATGCCATCACGTTAACGCCGTGGGGCCTATGGGCGGCATTACTTCGCCGAACATGCCGATGCTGGTGGTGGAAAACATCGCTGAAGGCAACCGCGCCTATTGCAACCTGAACGAAGGGATTGGCAAGGTGATGCGTTTTGGCGCTTACGGTGAAGATGTGCAGCAGCGCTTGCGCTGGATGCGCGATGTGCTGATGCCAGTTCTTAGCGCAGCGCTGAAACAGATGGAGCGCGGCATCGATTTGACGGCGATGATGGCACAGGGCATTACCATGGGTGATGAGTTCCACCAGCGTAATATCGCCACCTCCGCGCTGCTAATGCGCACGCTGGCGCCGCATCTGGCGCGCCTCAATCACGACAAACAGCAGATTGCTGAAGTGATGGATTTTCTCGCCATCACCGATCAGTTCTTCCTCAACCTGGCGATGGCCTACTGCAAATCAGCGATGGATGCCGGGGCGCAGATCCGCGCGGGCAGTATTGTCACCGCGATGACCCGTAACGGCGATATGTTCGGTATTCGCGTCAGCGGGCTGGGCGACCGTTGGTTCACCGCGCCGGTCAATACGCCGCAGGGGCTGTTTTTCACTGGTTTTTCGCAGGAGCAGGCTAACCCGGATATGGGCGATAGCGCCATCACTGAAACCTTCGGCATCGGCGGGGCGGCGATGATCGCGGCCCCGGGCGTCACTCGCTTTGTTGGCGCGGGTGGGATGGAAGCGGCGAAATCGGTCTCCGAAGAGATGGCGGAAATCTTCCTTGAACGCAATATGCAACTGCTAATTCCGGGCTGGGATTTCCAGGGCGCCTGTTTGGGGTTGGATATTCGCCGGGTGGTTGAAACTGGCATTACACCGCTTATCAACACCGGTATTGCGCATAAAGAGGCGGGGATCGGCCAGATTGGCGCCGGAACCGTCAGAGCCCCACTGGCCTGCTTTGAACTGGCGCTGGAAGCGCTGGCGGACGAGCTGGGCGTGAGCTGA	MFTSVAQANEAVIERIRNARPHWLDVKPAGALIGALNQNKSLLHAGPPMRWQAMTGPMKGACIGACLFEGWAQDEKTAHAMLESGEITFIPCHHVNAVGPMGGITSPNMPMLVVENIAEGNRAYCNLNEGIGKVMRFGAYGEDVQQRLRWMRDVLMPVLSAALKQMERGIDLTAMMAQGITMGDEFHQRNIATSALLMRTLAPHLARLNHDKQQIAEVMDFLAITDQFFLNLAMAYCKSAMDAGAQIRAGSIVTAMTRNGDMFGIRVSGLGDRWFTAPVNTPQGLFFTGFSQEQANPDMGDSAITETFGIGGAAMIAAPGVTRFVGAGGMEAAKSVSEEMAEIFLERNMQLLIPGWDFQGACLGLDIRRVVETGITPLINTGIAHKEAGIGQIGAGTVRAPLACFELALEALADELGVS				NA	NA	NA	NA	NA
BMS020_03579	804			hypothetical protein	ATGGATAAGATCCGTCCGCTGACAGGCAGCATTGACGCGCCGGACCATCGCCAGCCATGGCGAACCGGCGGCCTCTGGCAGCGCACCATCAATCTCTATGTTGCAGGCGGCGCGCTGCTGACGCTGCATCATCGGGGACAAGGCGTGAGCCCCGGCGGATGGGTATTACGTCACCGTGATTTTATCCGTTTACACGCGGCGCTGAAGGCGGGGGGGATGCCGATAGCGCGGGATGACGGCATTCAGGTCGATAACCTTTTGCTGTTACCACCGCGCAGACGCTGCTCCCTGCGGCCTCGATATCAGCCAGATGGCCCTTATCTGCCGACAGCGCTTATGAAGCGTCCGGAAGAGACGGGCCTGTTTGGGCCGCTGTCGCAGGCTATCGAACTGCAGCAGCATCCCGAGCTGCGCCAGCTTCGCCACTGTTTTGCCTCCGCGCTGGCTGGCAACGCTGTCGACTGGCGGCTGTGGCTGGGGAAGGGGCCAGGCCTGACGCCGAGCATGGACGATATGCTGATCGGCATGATGCTGTTCGCGTGGTGTTCTGGACTGATGTCGCGCAACAGCGGACACCATTTCTTTCGTGCCTCCGGCGATCTGCATGCCGCCACAACGCAGGTCAGCGTCAACTATTTACGCTACGCCAGCGCGGGATGCTTCGCTTCACCGCTACTGCATGTTGTTAACGCGCTTCAGTGCGGACGACGAATTGAACCTGCCGTCGAAGCCCTGCTGGCGATGGGGCACACCTCTGGTGCCGATACGCTTCTGGGATTCTGGCTGGCGCAACAAATAATGTAA	MDKIRPLTGSIDAPDHRQPWRTGGLWQRTINLYVAGGALLTLHHRGQGVSPGGWVLRHRDFIRLHAALKAGGMPIARDDGIQVDNLLLLPPRRRCSLRPRYQPDGPYLPTALMKRPEETGLFGPLSQAIELQQHPELRQLRHCFASALAGNAVDWRLWLGKGPGLTPSMDDMLIGMMLFAWCSGLMSRNSGHHFFRASGDLHAATTQVSVNYLRYASAGCFASPLLHVVNALQCGRRIEPAVEALLAMGHTSGADTLLGFWLAQQIM				NA	NA	NA	NA	NA
BMS020_03580	894	arcC2		Carbamate kinase 2	ATGAAAACGCTGGTAGTTGCCCTCGGGGGTAACGCTTTATTACAGCGCGGCGAAGCGCTGACGGTAGAAAATCAGTATCGCAATATTCACAGTGCCGTTCCCGCGCTGGCGCGCCTGGCGCAGCATTACCGGTTGGCCATTGTGCACGGCAACGGGCCGCAGGTAGGTCTGCTGGCGCTGCAAAATCTGGCCTATAGCGACGTCGAACCTTACCCGCTGGACGTGCTGGTCGCGGAGAGCCAGGGCATGATTGGTTATATGCTGGCCCAATGTCTGGCGCAGGAATCATCGGTACCGCCGGTATCGACAGTGATGACGCGTATTACTGTGGCATCGAACGATCCGGCCTTTTCGGCGCCGGAGAAATTTATCGGTCCGGTCTATGACCCTGAGTTACAGCAGCAGCTGGAAGAGGAGTATGGCTGGACGATGAAGCGCGACGGCAAATACTTGCGTCGGGTCGTCGCCTCGCCAAGGCCGGTGAAAATTGCGGAGAGCGACTCGATTGAGCGCCTGCTGGGCGAGGGACATGTCGTGATCTGCTGTGGCGGCGGAGGCATTCCGGTGCTCGAGAGCGGACAGGGCGCAGAGGCGGTTATCGATAAAGATTTGGCCGCAGCGCTACTGGCGGAACAGATTGATGCCGATGGTTTGGTGATCCTCACCGATGCGGATGCGGTATATGAACACTGGGGCACCCCAATGCAGCGACCGATCCGTGAAGCGACTCCGGAAGCGCTGGCGCCTTTTGCTCGCGACGATGGGGCGATGGGGCCGAAAATTTCGGCAGTCAGCAGCTATGTTAGCCGCAGGGGCAAGCGGGCGTGGATTGGCGCACTATCACGCATTGAGGATACCCTTGCCGGGCGGGCGGGAACCTGCATTAAGCCCTGA	MKTLVVALGGNALLQRGEALTVENQYRNIHSAVPALARLAQHYRLAIVHGNGPQVGLLALQNLAYSDVEPYPLDVLVAESQGMIGYMLAQCLAQESSVPPVSTVMTRITVASNDPAFSAPEKFIGPVYDPELQQQLEEEYGWTMKRDGKYLRRVVASPRPVKIAESDSIERLLGEGHVVICCGGGGIPVLESGQGAEAVIDKDLAAALLAEQIDADGLVILTDADAVYEHWGTPMQRPIREATPEALAPFARDDGAMGPKISAVSSYVSRRGKRAWIGALSRIEDTLAGRAGTCIKP	PGPT0020085_1646	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020085-arcC-K00926	NA	NA
BMS020_03581	1068	purK_1	COG0026	N5-carboxyaminoimidazole ribonucleotide synthase	ATGAAACAGGTATGCGTGCTCGGTAACGGCCAGTTAGGCCGTATGCTGCGCCAGGCCGGCGAGCCGCTGGGTATCGCCGTCTGGCCGGTGGGGCTGGAAGCCGATCCGGAAGCGGTGCCGTTCCAGCAGAGCGTCATCACCGCAGAAATTGAACGCTGGCCGGAAACCGCTCTCACCCGCGAGCTGGCCCGCCACCCGGCGTTCGTCAACCGCGACGTCTTCCCGATTATCGCCGATCGCCTGACGCAAAAGCAGCTGTTCGATAAGCTGGGCCTCGCCACTGCCCCGTGGCAGCTGCTGGCGGATAAAAGCGAGTGGCCGGCGGTGTTTGCCCGCCTTGGCGAACTGGCGATCGTTAAGCGTCGCGTCGGCGGCTACGACGGCCGCGGCCAGTGGCGTCTGCGGGAAAACGAGATCGATCAGCTACCGGACGATAACTACGGCGAGTGCATCGTCGAGCAGGGGATTAACTTCTCCGGCGAAGTGTCGCTGGTAGGCGCCCGCGCCCAGGACGGCAGCACCGTCTTCTACCCGCTGACCCGCAACCTGCATCAGGACGGTATTCTGCGCGCCAGCGTCGCCTTCCCGCAGGCCAATGCCCGCCAGCAGGAGCAAGCGGAAAGCATGCTGACGGCGATCATGAACGAGCTGAACTACGTCGGCGTGATGGCGATGGAGTGCTTCGTCACCGCCGAGGGGCTGCTGATCAACGAGCTGGCGCCGCGCGTACACAACAGCGGCCACTGGACGCAAAATGGCGCCTCCATCAGCCAGTTTGAGCTGCATCTGCGAGCGATGACCGACCTTCCTCTGCCGCCGCCGGTGGTTAACAGCCCGTCGGTGATGATCAACCTGATCGGCACCGATCTCAATTACGACTGGCTGAAGCTGCCGCTGGTCCACCTGCACTGGTACGATAAAGAAGTGCGCCAGGGTCGTAAAGTCGGCCACCTGAACCTGACCGACAGCGATACAGACCGTCTGAGCGCGACGCTGGAAGCGTTGAAGCCGCTGCTGCCAGCGGAATACGCCAGCGGTATCGTCTGGGCGCAGGCGCAGCTGGCGTAA	MKQVCVLGNGQLGRMLRQAGEPLGIAVWPVGLEADPEAVPFQQSVITAEIERWPETALTRELARHPAFVNRDVFPIIADRLTQKQLFDKLGLATAPWQLLADKSEWPAVFARLGELAIVKRRVGGYDGRGQWRLRENEIDQLPDDNYGECIVEQGINFSGEVSLVGARAQDGSTVFYPLTRNLHQDGILRASVAFPQANARQQEQAESMLTAIMNELNYVGVMAMECFVTAEGLLINELAPRVHNSGHWTQNGASISQFELHLRAMTDLPLPPPVVNSPSVMINLIGTDLNYDWLKLPLVHLHWYDKEVRQGRKVGHLNLTDSDTDRLSATLEALKPLLPAEYASGIVWAQAQLA	PGPT0021550_4054	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021550-purK-K01589	NA	NA
BMS020_03582	510	purE_1	COG0041	N5-carboxyaminoimidazole ribonucleotide mutase	ATGTCTTCCCGCAATAATTCGGCGCGTATCGCCATCGTGATGGGGTCCAAAAGCGACTGGGCTACCATGCAGTTTACCGCAGAAATCCTTGATGCCCTGAACGTTCCGTACCATGTCGAAGTGGTCTCCGCCCATCGCACGCCCGATAAGCTGTTCAGCTTCGCTGAAAGCGCCGAAAGCCACGGTTATCAGGTGATTATTGCAGGGGCAGGCGGCGCGGCGCATCTGCCGGGCATGATTGCGGCGAAAACCCTGGTGCCGGTGCTCGGCGTACCGGTTCAGAGCGCGGCCTTAAGCGGTGTCGACAGCCTCTACTCCATTGTGCAGATGCCGCGCGGTATTCCGGTCGGTACCCTGGCCATCGGCAAAGCCGGGGCTGCAAACGCCGGTCTGCTCGCCGCGCAGATCCTCGCCCAGCATGATGCTGAACTCCACCAGCGCCTGAGCGCCTGGCGTCAGGCGCAAACCGATGAAGTGCTGGATAACCCGGACCCGCGGGGTGCGGCATGA	MSSRNNSARIAIVMGSKSDWATMQFTAEILDALNVPYHVEVVSAHRTPDKLFSFAESAESHGYQVIIAGAGGAAHLPGMIAAKTLVPVLGVPVQSAALSGVDSLYSIVQMPRGIPVGTLAIGKAGAANAGLLAAQILAQHDAELHQRLSAWRQAQTDEVLDNPDPRGAA	PGPT0021545_1432	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021545-purE-K01588	NA	NA
BMS020_03583	339			hypothetical protein	ATGAACAGGAAAAAGTGGAGCCAGCCGCTGATCTGGGGAATGATCCTCGCGTTCCTCAATCCGTTAGGGATAAGCTATATCGCCTTAATCGGCGTCGCTCTCGGCAACACGCTGACGTTTGTCTGGTGCGCCCTGCTGGCGTGGGCCATCTATTTCTATGCCATTTATTTGCTCTGCACCCGCCCTCACGAGAGCCGGTCAGTACAGATCTTTTTACTGATCATGGGCACCCTGATGCTCCCCTGGGGGCTCGTGCTGCTAATCACCTGTATCATGAATGAGAGAAGTGTCGATAAGCCGCGATCGCCGTCCTCGATAAGCGAGACAAAAGACGGCTAA	MNRKKWSQPLIWGMILAFLNPLGISYIALIGVALGNTLTFVWCALLAWAIYFYAIYLLCTRPHESRSVQIFLLIMGTLMLPWGLVLLITCIMNERSVDKPRSPSSISETKDG				NA	NA	NA	NA	NA
BMS020_03584	723	lpxH_1	COG2908	UDP-2,3-diacylglucosamine hydrolase	GTGGCGACACTTTTTATTGCAGATTTGCACCTGCAAACAGAAGAACCGGCGATCACCGCCGGTTTTCTGCGTTTTTTACAGGGGGAAGCCCGTCAGGCGGACGCCCTGTATATCCTTGGCGATCTGTTCGAGGCATGGATCGGCGATGACGATCCGAACCCGTTGCATCAGCAAATCGCTACGGCAATCAAAGCCGTCGTCGACGCCGGCGTGCCCTGCTACTTCATTCACGGCAACCGCGATTTTCTCGTCGGCCAGCGCTTCGCCCGCCAGAGCGGGATGCTCCTGCTCGCCGAAGAAGAGCGACTGAACCTCTATGGCCGTGAAGTCTTGATTATGCATGGCGATACGCTGTGCACCGATGACCCGGGCTATCTGGCGTTTCGCGCGAAAGTCCACACCCCGTGGATCCAGCGCCTGTTCCTGGCCATGCCGCTGTTTATCCGCCGCCGTATCGCCGCCCGCATGCGCGCCGACAGCAAAGCCGCCAACAGCAGCAAATCAATGGAAATTATGGATGTGAATCCGCAGGCGGTGGTTGACGCGATGGAGCGGCATCACGTGCAGTGGCTGATCCATGGCCATACCCATCGCCCGGCGGTCCATGACCTGCAGGCCAACGGCCAGCCCGCATGGCGCGTGGTGCTCGGCGCCTGGCACAGCGAAGGATCGATGGTCAAGGTGACGCCGGACGACGTCGAACTGATCCATTTTCCGTTCTAA	MATLFIADLHLQTEEPAITAGFLRFLQGEARQADALYILGDLFEAWIGDDDPNPLHQQIATAIKAVVDAGVPCYFIHGNRDFLVGQRFARQSGMLLLAEEERLNLYGREVLIMHGDTLCTDDPGYLAFRAKVHTPWIQRLFLAMPLFIRRRIAARMRADSKAANSSKSMEIMDVNPQAVVDAMERHHVQWLIHGHTHRPAVHDLQANGQPAWRVVLGAWHSEGSMVKVTPDDVELIHFPF	PGPT0022370_1612	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022370-lpxH-K03269	NA	NA
BMS020_03585	495	ppiB_1	COG0652	Peptidyl-prolyl cis-trans isomerase B	ATGGTTACTTTCCACACCAATCATGGCGATATCGTAATCAAAACGTTTGACGACAAAGCGCCGGAAACAGTTAAAAACTTCCTGGACTACTGCCGCGAAGGTTTCTACGACAACACCATTTTCCACCGTGTTATCAACGGCTTCATGATTCAGGGCGGCGGTTTTGAACCTGGCATGAAACAAAAAGCGACCAAATCTCCGATTCAGAACGAAGCGAACAACGGTCTGAAAAACACCCGCGGCACGCTGGCGATGGCCCGTACTCAGGCGCCGCACTCTGCAACCGCGCAGTTCTTCATCAACGTGGTTGACAACGACTTCCTGAACTTCTCCGGCGAAAGCCTGCAGGGCTGGGGCTACTGCGTCTTCGCGGAAGTGGTTGAAGGCATGGATGTGGTTGATAAAATCAAAGCGGTTGCCACCGGCCGCAGCGGCATGCACCAGGATGTGCCGAAAGACGATGTGATCATCAAAAGCGTCACCGTCAGCGAGTAA	MVTFHTNHGDIVIKTFDDKAPETVKNFLDYCREGFYDNTIFHRVINGFMIQGGGFEPGMKQKATKSPIQNEANNGLKNTRGTLAMARTQAPHSATAQFFINVVDNDFLNFSGESLQGWGYCVFAEVVEGMDVVDKIKAVATGRSGMHQDVPKDDVIIKSVTVSE	PGPT0015111_2752	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
BMS020_03586	1386	cysS_1	COG0215	Cysteine--tRNA ligase	ATGTTAAAAATTTTTAATACACTGACGCGCCAGAAAGAGGAATTTAAACCTATCCATGCCGGGGAAGTCGGCATGTACGTGTGTGGTATTACCGTTTACGATCTCTGTCACATCGGCCATGGGCGTACCTTCGTCTCCTTTGACGTTGTGGCGCGTTATCTGCGTTTTCTCGGCTATAAGCTGAAGTACGTGCGCAATATCACCGATATCGATGACAAAATCATTAAGCGCGCTAATGAAAACGGCGAAAGCTTTGTCGCGCTGGTCGATCGGATGATCGCCGAAATGCACAAGGATTTTGACGCCCTGAATATTTTGCGTCCCGACAGCGAGCCGCGCGCGACGCATCATATTGCGGAAATCATCGAGATTACCGAGCAGCTGATCGCCAAGGGCCATGCCTATGTGGCGGATAACGGCGACGTGATGTTCGATGTGCCGACGGACCCGAACTACGGTTTGCTGTCGCGTCAGGATCTCGATCAGCTGCAGGCGGGGGCGCGCGTCGACGTGGTTGACGTCAAGCGTAACCCGATGGACTTCGTTCTGTGGAAGATGTCGAAAGAGGGCGAGCCAAGCTGGCCGTCGCCGTGGGGCGCGGGCCGTCCGGGCTGGCATATCGAGTGCTCGGCGATGAACTGCAAACAGCTGGGCAACCATTTTGACATCCACGGCGGCGGTTCCGATCTGATGTTCCCGCATCACGAAAACGAAATCGCTCAGTCCACCTGCGCCCATGACGGCGAGTACGTTAACTACTGGATGCACTCCGGCATGGTGATGGTCGACCGCGAGAAGATGTCGAAATCGCTGGGCAACTTCTTTACCGTACGCGACGTGCTGAAGTATTACGATGCGGAGACGATTCGCTACTTCCTGATGTCTGGCCACTATCGCAGCCAGCTGAACTACAGCGAAGAGAACCTCAAGCAGGCGCGCTCGGCGCTGGAGCGTCTGTACACCGCGCTGCGCGGTACCGACAAATCCGTCGACGCGGCGGGCGGCGAAGCCTTCGAAGCACGCTTTATCGAGGCGATGGACGATGACTTCAACACCCCGGAAGCCTACTCGGTGCTGTTCGATATGGCGCGCGAAGTAAACCGCCTGAAAACTGAGGACGCGGCCGCGGCGAACGCCATGGCGGCCCACCTGCGTAAGCTTGCGTCGGTGCTGGGGCTGCTGGAGCAGGAGCCGGACGCCTTCCTGCAGAGCGGCGCGCAGGCTGACGACGCGGAAGTGGCGGAAATTGAATCGCTTATCCAGCAGCGTCTGGACGCGCGTAAAGCGAAAGACTGGGCGGCGGCGGATGCGGCGCGCGATCGTCTTAACGAGATGGGGATCGTGCTGGAAGATGGCCCGCAGGGCACCACCTGGCGCCGGAAGTAA	MLKIFNTLTRQKEEFKPIHAGEVGMYVCGITVYDLCHIGHGRTFVSFDVVARYLRFLGYKLKYVRNITDIDDKIIKRANENGESFVALVDRMIAEMHKDFDALNILRPDSEPRATHHIAEIIEITEQLIAKGHAYVADNGDVMFDVPTDPNYGLLSRQDLDQLQAGARVDVVDVKRNPMDFVLWKMSKEGEPSWPSPWGAGRPGWHIECSAMNCKQLGNHFDIHGGGSDLMFPHHENEIAQSTCAHDGEYVNYWMHSGMVMVDREKMSKSLGNFFTVRDVLKYYDAETIRYFLMSGHYRSQLNYSEENLKQARSALERLYTALRGTDKSVDAAGGEAFEARFIEAMDDDFNTPEAYSVLFDMAREVNRLKTEDAAAANAMAAHLRKLASVLGLLEQEPDAFLQSGAQADDAEVAEIESLIQQRLDARKAKDWAAADAARDRLNEMGIVLEDGPQGTTWRRK	PGPT0002985_4882	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002985-cysS-K01883	NA	NA
BMS020_03587	213	ybcJ_1	COG2501	putative protein YbcJ	ATGGCGACATTTTCCTTAGGAAAACACCCGCACGTTGAGCTGTGCGATCTGCTGAAGCTGGAAGGCTGGAGCGAAAGCGGCGCCCAGGCGAAGATCGCCATCGCCGACGGGCTGGTAAAAGTCGACGGCGCGGTGGAAACCCGCAAACGCTGCAAAATCGTCGCCGGTCAGACGGTGAGCTTTGAAGGCCAGAGCGTAACCGTCACGGCCTGA	MATFSLGKHPHVELCDLLKLEGWSESGAQAKIAIADGLVKVDGAVETRKRCKIVAGQTVSFEGQSVTVTA				NA	NA	NA	NA	NA
BMS020_03588	867	folD_1	COG0190	Bifunctional protein FolD protein	ATGGCAGCAAAAATTATTGACGGTAAAACGATTGCGCAGCAGGTACGCTCTGAGGTTGCGGAAAAAGTGAAGGCTCGCGTTGCGGCCGGAAAACGCGCCCCTGGGCTGGCCGTCGTGCTGGTCGGCAGCAACCCGGCCTCGCAGATTTATGTCGGCAGCAAGCGCAAAGCATGTGAAGAAGTGGGCTTCGTCTCCCGCTCTTACGATCTCCCGGAAACCACCAGCGAAGCCGAGCTGCTGGAGCTTATCGACACCCTGAATGCCGATAAGACCATCGACGGTATTCTGGTTCAGCTGCCCCTGCCGGCAGGGATCGATAACGTCAAAGTTCTCGAGCGCATCGCGCCGGATAAAGACGTCGACGGCTTCCATCCTTACAACGTTGGCCGCCTGTGCCAGCGGGCGCCGCGCCTGCGTCCGTGCACCCCGCGCGGTATCGTGACGCTGCTGGAGCGCTACAATATCGACACCTACGGCCTGAATGCGGTGGTCATTGGCGCGTCCAATATCGTCGGCCGCCCGATGAGCATGGAGCTGCTGCTGGCCGGCTGCACCACCACCGTCACCCACCGCTTTACCAAAAACCTGCGCCATCATGTCGAAAACGCCGACCTGCTGATCGTCGCGGTGGGTAAACCGGGCTTTATTCCTGGCGAATGGATCAAAGAAGGGGCGATTGTGGTCGATGTCGGCATTAACCGTCTGGAAAGCGGCAAAGTGGTCGGCGACGTGGTGTATGAAGATGCCGCTGAACGCGCCTCCTACATCACCCCGGTGCCCGGCGGCGTTGGCCCGATGACCGTCGCCACCCTGATTCAGAACACGCTGCAGGCGTGCGAAGAGTACCACGACGTTGAGGAGGCCTGA	MAAKIIDGKTIAQQVRSEVAEKVKARVAAGKRAPGLAVVLVGSNPASQIYVGSKRKACEEVGFVSRSYDLPETTSEAELLELIDTLNADKTIDGILVQLPLPAGIDNVKVLERIAPDKDVDGFHPYNVGRLCQRAPRLRPCTPRGIVTLLERYNIDTYGLNAVVIGASNIVGRPMSMELLLAGCTTTVTHRFTKNLRHHVENADLLIVAVGKPGFIPGEWIKEGAIVVDVGINRLESGKVVGDVVYEDAAERASYITPVPGGVGPMTVATLIQNTLQACEEYHDVEEA	PGPT0008075_2437	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008075-folD-K01491	NA	NA
BMS020_03590	294			hypothetical protein	ATGAACATCAAATTCGTCACCATCTCCGTATTCGCTGTTGTGTTTGTCTTTGTATCAGACATTTCTATCGCCAAATCGAATGCCTTAAGCGATGATCAGGTCAGGCAAAGAATTATTGATGACTCTGTCGCATCCTACCCCGGCACCTGTGCCTGTCCCTTCAATACCGCGCGGAACGGCAGCTCGTGCGGTGGCCGCAGTGCCTGGAGCAAAGCGGGTGGGTATTCACCCATTTGCTACAAGAAAGAGGTAACAAAGGAGATGGTGAAGGCGTGGCGACAAGAGAATCAATGA	MNIKFVTISVFAVVFVFVSDISIAKSNALSDDQVRQRIIDDSVASYPGTCACPFNTARNGSSCGGRSAWSKAGGYSPICYKKEVTKEMVKAWRQENQ				NA	NA	NA	NA	NA
BMS020_03591	402	hiuH_2	COG2351	5-hydroxyisourate hydrolase	ATGAAATTAGTTATCGCCTCCGTAATTTCCCTGCTCAGCTTCAGCGCGCTGGCGGCGCCAGAGGGCACGCTCAGCGTACACATTCTTAATCAGCAAACCGGGCTCCCTTCGCCGGGGGTGCAGATTGAGCTGGATAAGCAGCAAGGGGAGAGCTGGCAGCATATCGCCACCGGCAAAACGGATGCCGATGGGCGGATTAAATCGCTCTATCCGCAGGCGGAAAATATGGAGCCGGGGGTGTATAAAGTGACGTTTAAAACCGGTGACTATTTTAAAAGCCAAAACATGAATACGTTCTTCCCGGTGGTTCCGGTTATTTTCAATGTCACAAAGCAAAATCAAAAACTGCATATCCCGCTGCTGCTCAGTCAGTACGGATACTCTACCTACCGCGGCAGCTGA	MKLVIASVISLLSFSALAAPEGTLSVHILNQQTGLPSPGVQIELDKQQGESWQHIATGKTDADGRIKSLYPQAENMEPGVYKVTFKTGDYFKSQNMNTFFPVVPVIFNVTKQNQKLHIPLLLSQYGYSTYRGS	PGPT0021125_505	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021125-uraH|pucM|hiuH-K07127	NA	NA
BMS020_03592	171			hypothetical protein	ATGTCTGGACTGATCAACCCACATGCGGCCCCGGAAGAAGCAGCCTATGCGCTGATAATTGAGCTCGTTCGCGCCCAGCGCGTGCCGCAATATGAAGGCGATATTTCCGGCCTGCTGGCGATGTACGACGAAGCCGTTAACCATTTTAAAGAGAAAGAGACCAAGCGTTAA	MSGLINPHAAPEEAAYALIIELVRAQRVPQYEGDISGLLAMYDEAVNHFKEKETKR				NA	NA	NA	NA	NA
BMS020_03593	1305	gltA_1	COG0372	Citrate synthase	ATGAGCACCACACCGTTAACGCTTTCTATTGCCGGGCAACCGACGCCCATCACCCTGCCGCAGGTGCCGGGAAGCCGGGGCCATGTGGGGGTCGACATACGCGAGCTGAATCAGTCCGGATTCTGCAGCTACGACCCCGGCTTCGCTAACACAGCCGGATGCCAGTCGGCGATCTCGTGGATCGATACGGAAAACAGCGTGCTGCTGCACCGCGGCTATCCGGTGGACCAGCTGGCCCGCCAGTGTGATTTTCTCGAGGTGGCGTACATTATGCTGCGGGGCGACGCGCCGGATGAGGCCAGCTATCAAACGTTTCGCGAAACCATCACCCGCCATACCCTGGTGCATGAGCAGATAGCCCGCATGTGCAGCGGCTTTCGTCGCGATTCGCACCCGATGGCGCTGATGTGTGCCCTGGTGGGGGCGCTGGCGGCGTTCTATCATGATGTCCTGGATGTGGAAAATCCGGAGCACCGGGCGCTGGCCGCCACGCGGCTGCTGTCGAAAATGCCCACTATCGCCGCCATGAGCTACAAGTACACCATTGAACAACCCGCCGCGTATCCGCGCAACGATCTCTCCTATGCCGGCAATTTCCTGCAGATGCTGTTTGCTATCCCGGCCGAGAAGTACGTCCTCAATCCGGTCATCGAACAGGCGATGAACCAGATCCTGGTCCTGCATGCCGATCACGGGCAGTGCGCCTCCACCACCACGGTGCGCGCGGCGGGCTCCTCCGGGGCGAACTTATTCGCCTGCGTCGCCGCCGGGCTAGCGTCGCTGTGGGGACCGATGCACGGCGGCGCCAATGAGTCGAGCATGCGGATGCTGGAAGAGATTGAAAGCGTCGATCAGGTTCCGGCGTTTCTGCGTCAGGCAAAACGCGACCCGCAGGCATTTCGCCGCCTCGGTTTTGGCAACTCACGCTACCGTCACCGCGACCCGCGCGCCGATATCCTGCGTGAAACCAGCCATCGGGTACTGGCGGAGGTAGGAATGTCCGACCGTCTGCTGCAGGTGGCGATGGCCCTTGAGGACGTGGCGCTGACCGACCCCTACTTTGTGGAAAATGGCCTGTCGCCGAGCGTGGATTTTTATACCGCGGTGATCCTCAAGGCGATGAATCTGCCTTCGTCGATGTTTGCGGTGGTCACCGCGGTCGGACGGACGGTCGGCTGGGTGGCGCACTGGAACGAGATGCACCAGGCGCCGCTGACCATCTACCGGCCACGGCAGATTTATGTTGGCGAGGACTATCGGGATTACGTCTCACGGCGCGGCGAGCCGTCTGCTAACCCAAGGTAA	MSTTPLTLSIAGQPTPITLPQVPGSRGHVGVDIRELNQSGFCSYDPGFANTAGCQSAISWIDTENSVLLHRGYPVDQLARQCDFLEVAYIMLRGDAPDEASYQTFRETITRHTLVHEQIARMCSGFRRDSHPMALMCALVGALAAFYHDVLDVENPEHRALAATRLLSKMPTIAAMSYKYTIEQPAAYPRNDLSYAGNFLQMLFAIPAEKYVLNPVIEQAMNQILVLHADHGQCASTTTVRAAGSSGANLFACVAAGLASLWGPMHGGANESSMRMLEEIESVDQVPAFLRQAKRDPQAFRRLGFGNSRYRHRDPRADILRETSHRVLAEVGMSDRLLQVAMALEDVALTDPYFVENGLSPSVDFYTAVILKAMNLPSSMFAVVTAVGRTVGWVAHWNEMHQAPLTIYRPRQIYVGEDYRDYVSRRGEPSANPR	PGPT0001455_1789	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
BMS020_03594	306			hypothetical protein	ATGAAATCGTATCTCTACGCTAAAGATCGCCTCATGCTGATGATCCTGAGCTGGCTTAACGCCGACGAGACGCTCCCGTCTTGCCACGATTTTCATCAGGCCGAGGCCCTGCTCTGCACGCTACATATTCCCTATGTGCTGAAGCCCGACCTGGAACAGCTAAGGGCTACGCTGCAGCCGTTACTCACCACCGCCGGGCCGCAGGTCGGTGAGGTTAACGCATTTATAAGCGCCTTGCTGACGCTGTATACCCGACTCACCGAATATACCGCCGTTGAGCACTACCTGCTCTCCCGGCACCTCTGA	MKSYLYAKDRLMLMILSWLNADETLPSCHDFHQAEALLCTLHIPYVLKPDLEQLRATLQPLLTTAGPQVGEVNAFISALLTLYTRLTEYTAVEHYLLSRHL				NA	NA	NA	NA	NA
BMS020_03595	663			hypothetical protein	ATGTTGATCTGCATTACGGATTCAGAATATTTTAATATTGCGCTGAAGGCGTATATTAATGAGCCCCACAGCAAGCCTCTGGATATTAAAGAATTGATCTGTTACCCATTTAGCGGGCAGAGTGAGATGTTTTATACGTTTTTTGCGACCGATGCCGGTGCCCGATTAAGCACCATCCTGATCGATTACAGCCGCGCCAGCATCGAAGTGCTGCAGGTCGCACTGAGCCTTAAAGCATTTAATCCCCTGCTCCGTATCTTTCTTTTTACCAGGCCTGGCTACACGCTGAGCGAACTGGAAAGCAGCCTGGCCATCGTGGTCGGCGCGGAGTTTATTACCTGCTTTGCCGGGCTCAGCGCGGCGCTGGCCCGCTGGCCGCTACGGTCACCCCCGCCGGCAAACAAACTTTATATCGCGATCCCGGACAGCTATAACCTGACCCGTAAGGAGACCTTTTTAATCAGCCTGCTGATGGGGGGGATGCCGTTGTGCCACGTGGCCAGCACCATGCAGCTCACGATCAAACGGGTCTACTATTATCGTTCACGCGTGCTCAGCAAGCTGGCGGTAAAAAATAACGTGGAATTGGTCACGAAAGTTCAGGGAATGGTATTGCGCCACTATCGACAGGAGACTGGCCATGAAATCGTATCTCTACGCTAA	MLICITDSEYFNIALKAYINEPHSKPLDIKELICYPFSGQSEMFYTFFATDAGARLSTILIDYSRASIEVLQVALSLKAFNPLLRIFLFTRPGYTLSELESSLAIVVGAEFITCFAGLSAALARWPLRSPPPANKLYIAIPDSYNLTRKETFLISLLMGGMPLCHVASTMQLTIKRVYYYRSRVLSKLAVKNNVELVTKVQGMVLRHYRQETGHEIVSLR				NA	NA	NA	NA	NA
BMS020_03596	561	hifA		Major fimbrial subunit	ATGAAAAAATATAGCAAAGGAACGGCATCTTTCGTCGCGATGATGATGCTTTCTCCGGTAGCGGCGCAGGCTGCTGATGGCAAAGTCACCTTTAATGGTGAAGTTATCGAAAATACCTGTACGGTAGTGAATAAAGACAAGACGGTGACTCTGCCGACGGTCCAGCGTTCGGCGCTCAGCAGCGCGGGCGAGACGGCGGGCGTCGTTCCCTTCACCATCGATCTAATGAGCTGTACCCCGGGATCCGATGTCTCGGTGTACTTCGAGAAGGATCAATTCGTTTCCACGGAGGGGCGACTAAAAAACACTCTGTCTGACGGCACGGAAGCAGAAAATGTCGATGTGGAGCTGCTGAACACCCGGTTTACGGCGATTAACCTCGCGGAGAGCCCGACGATTGCTGTGGACGGCACCGTTGCCCGCCCTTCGGTGATCCCGGTGGCGGTCGCTGAGCAGGATGGTTCCGCTTCGCTGCCTTTCTACGCCCGCTACTATGCGACCGACGCCGCTACGGCTGGAAAAGTCGCGACCTACGTCAACTTTACGGTGGTCTATCCGTAA	MKKYSKGTASFVAMMMLSPVAAQAADGKVTFNGEVIENTCTVVNKDKTVTLPTVQRSALSSAGETAGVVPFTIDLMSCTPGSDVSVYFEKDQFVSTEGRLKNTLSDGTEAENVDVELLNTRFTAINLAESPTIAVDGTVARPSVIPVAVAEQDGSASLPFYARYYATDAATAGKVATYVNFTVVYP	PGPT0016030_895	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016030-fimA-K07345	NA	NA
BMS020_03597	696	yadV_3		putative fimbrial chaperone YadV	ATGCGGCGTATGGTTCTGGCATGGCTGCTTTCCAGCATTTTACCCTCGGCGGACGCCAGCATGGTTATTGACGGCACACGGATCGTTTTTCCCGGCGACAAAAAAGAGATCGCGGTCAGGGCCACCAATGTGGGGGAGACGCCGTCGCTGACCCAGGTCTGGGTCGACGATGGCCGCGTGCAAAATCGACCGGAAAAAGATTCGGCGCCGTTTATTGTGCTGCCGCCGATTGTGCGCATTGAGCCGGGAAAAGGCCAAAGCTGGCGCCTGGTGTTCAACGGCAGCCGTCTGCCCCAGGATCGGGAATCGCTATTCTGGTTCAATCTGCTGGACATCCCGCCTGAGCCGAAAAACGGTACGGCAATCAATTATCTGCAACTCGCGATACGGTCGCGCATCAAGCTGTTTTACCGTCCGGCAGGCGTGGCGGCGGACAAAATAGCGCCTGACAAAGCGCTGAGCTGGGCGCTGGCTCCCGCAGGCGGTGGTCTGCGGGTGAGTAATGCCTCATCGCGCTATATCACCATCGACAGCATCACCCTTAACGGACAAAAACAGTCCGCTGGCATGGTCGCCCCTTTTTCCTCGCTGGTTATCACGCCTAAAGGGGCCGCGCTGCACATGCTGCCAGCGAGATTCAGCTTCACCACCATCAATGATTACGGCGCGGTAGTGAATCATAATTATCCTCAGTAA	MRRMVLAWLLSSILPSADASMVIDGTRIVFPGDKKEIAVRATNVGETPSLTQVWVDDGRVQNRPEKDSAPFIVLPPIVRIEPGKGQSWRLVFNGSRLPQDRESLFWFNLLDIPPEPKNGTAINYLQLAIRSRIKLFYRPAGVAADKIAPDKALSWALAPAGGGLRVSNASSRYITIDSITLNGQKQSAGMVAPFSSLVITPKGAALHMLPARFSFTTINDYGAVVNHNYPQ	PGPT0016035_113	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016035-fimC-K07346	NA	NA
BMS020_03598	2436	htrE_3	COG3188	Outer membrane usher protein HtrE	ATGAAACTCAGGGAGATCAAGTTTGGGTTAATGCTCCTCCTCCCCTGGCAAGAGGCATGGGCGGCAGAAGCGTTTAGTTTTAACCGTGCCCATTTGCACGGCGCCGCGCCGGTTGATCTCCAGAAATATCAATACGGTAATCCGCTGCACCCCGGACAGTATCGCAGCCTCCTCTCGGTTAATGGCCGGGACATGGCGGAAGAGACGTTTGTTATCCAGGAATACGATGGCCAGCTCGAGCCCTGCATCTCGCCCTCGCTGTTCGACGCCCTGCAGCTTAAGGACGCTCAATGGCCGGCGGCGGCCACCTGCCTGCGCTTTGCGCAAATCGATAAGGCGATTGCCTGGGAGTATGACAGCGGAGAAAATGTCCTGCGGGTGAATATGCCCCAGGCGCTGCTGCAATCCCCTTATCGCGCGGCGGTGAATTTGAAGAAGGTAGACAGCGGCGTGCCCGCCGCGGTGCTGCGCTATCAGGCCAACAGCTATCAGAGCATCGTCGACGGGGATAGCAGCAGCCATCATTACCTCGGCCTGGATGCCAGCCTGCGCGCCTTTGGCTGGCGGTTACATCACCAGTCCAGCTACCAGGCTCAGGCCGGGGATAAGCATTGGGATAGCATCGCTACCTGGGCAGAGAGAAGTCTGGTGAACTGGGCTTCCACCTTACGGCTGGGTCAGGGGTGGACCGACGGGACCTTCTTTGACAGCGTCAGTTTTATCGGCGGCAGACTGGCCACCGATATCCGCATGCTGCCGGGCTCCCGTCGCGGCTTTGCGCCGTCGATAAGCGGGGTGGCGCGCACTAATGCTCGCGTGACGGTCACCCAGAACGGTGCCCTGTTGTACGAGGCAACGGTTCCGCCGGGTAAGTTCACCTTCGACGATCTCTATCCCACCAACGCCGGCGGCGATTTACAGGTGACGATCCATGAGGCGGACGGCAGTCAGGACACCTTTACCGTGCCTTACGCTGTGCTACCTGGTCTGGTGCGGGCCGGCGCCGTCTATTATGACCTGTCGCTGGGCTATCTGGATGAGAACGGGATCGCCGGGCGGCCGGGATTTGGCGAAGCAACGGTGCAGTACGGCTTCAATGATTATGTCAGCGGCTACACCGGGGCCAACGCGACGACGGATTATTACTCGACGCTGGTCGGCAGCGCCTTCAACACTTACTGGGGGGCGCTGGCGGTCGATCTTTCTCGTTCTGCGGCCAGGGGCAGGGAACGTGGCTGGCAGGAGGGCTATCGCTGGCGGGTGTCCGCATCAAAATCCTTCTCCTCTGACACGCGAATGCTGGTGTCGATGAGCCACAGCAACGACGGCAACTATCGATCCATTCGCGATGCCGCCTGGGAGCATGACAGTCATCCCAATGACTGGCGGGAGATGACGCGCTACAGCGCGACATTGTCCCAGCAGGCAGGTAGCGGCAGTCTGTCGTTTAACGGAATATGGAGTGAGGACGTCCGTCACCACCGCTGGCGCTCCTATCAGCTGGGGTACGCCAATCGTTATGGTCGGCTCAATTACTATCTGTACGCCCAGCAGAGTCAGGATATTCATCACCGCAATAATCAGGTGGTGGGGGCCTCTTTCTCGCTGACGTTCGGCCCGGCGGGCAGCCTGACCACCCGCTTTAACCACGATAAGAACTACGGCAGCCAGCTGCAGTCCAGCTATACCGGCAGCGCTGGCGCTAAAAACGCCTTCAGCTACGGCCTGACAGCCAGCTACGACATGCCGCGGCAGAACCCGCATGAAGCCAGCGTGGGGGCCAACGGCAATCTGCGGACGGATTATGCGTACCTGAATGCCAGCGCCAGCGCGGGTCGACATCAGCAGCAGTATTCGCTGGGGGCATCGGGTGCCCTGGTGGCGCATCAGGGCGGAATGACCGCCACTCCCGAGCTGGGTGAGACCTTTGCGATTGTGGAAGCGCCCGGCGCGGCGGGGGCCAGGGTGGCGAACCGCCTCGGACAGCCGATTAATCGGCAGGGTTTCACGATTATCCCTTACCTCGATCCCTTTACCGATAACTGGCTCGATCTCGATCCGCAGGGCATGAACGACCATGTGGAGATCGTTTCCAGCAGCACGACGGTGGTGCCCGATTCGGGCGCTGCGGTGAAGGTAAAATTTGTCACGCGCACCGGCTACCCGTGGTTTGCCCACGTCACGCTGTCCGATGGCGCGGCGCCGCCACTGGGCGCAGAAGTATTAGACGACAGCGACCGGGCGATTGGCGCTGTCGGTCAGGGCGGGCTGCTGTATGCCCGGGTGCCGCAGGTCCGCGGTAGCGTCTCGGTAGTCTGGGGGGAACGCAGCGGGCAGCGCTGCCGGTTGGACTATGCCATCCACGGCGAGGCGGCGCAGCAGGATAGCAGCGGTACGTCGCACCAGGTCTGCCGTCCGGGATTAAAGGAGAAATAA	MKLREIKFGLMLLLPWQEAWAAEAFSFNRAHLHGAAPVDLQKYQYGNPLHPGQYRSLLSVNGRDMAEETFVIQEYDGQLEPCISPSLFDALQLKDAQWPAAATCLRFAQIDKAIAWEYDSGENVLRVNMPQALLQSPYRAAVNLKKVDSGVPAAVLRYQANSYQSIVDGDSSSHHYLGLDASLRAFGWRLHHQSSYQAQAGDKHWDSIATWAERSLVNWASTLRLGQGWTDGTFFDSVSFIGGRLATDIRMLPGSRRGFAPSISGVARTNARVTVTQNGALLYEATVPPGKFTFDDLYPTNAGGDLQVTIHEADGSQDTFTVPYAVLPGLVRAGAVYYDLSLGYLDENGIAGRPGFGEATVQYGFNDYVSGYTGANATTDYYSTLVGSAFNTYWGALAVDLSRSAARGRERGWQEGYRWRVSASKSFSSDTRMLVSMSHSNDGNYRSIRDAAWEHDSHPNDWREMTRYSATLSQQAGSGSLSFNGIWSEDVRHHRWRSYQLGYANRYGRLNYYLYAQQSQDIHHRNNQVVGASFSLTFGPAGSLTTRFNHDKNYGSQLQSSYTGSAGAKNAFSYGLTASYDMPRQNPHEASVGANGNLRTDYAYLNASASAGRHQQQYSLGASGALVAHQGGMTATPELGETFAIVEAPGAAGARVANRLGQPINRQGFTIIPYLDPFTDNWLDLDPQGMNDHVEIVSSSTTVVPDSGAAVKVKFVTRTGYPWFAHVTLSDGAAPPLGAEVLDDSDRAIGAVGQGGLLYARVPQVRGSVSVVWGERSGQRCRLDYAIHGEAAQQDSSGTSHQVCRPGLKEK				NA	NA	NA	NA	NA
BMS020_03599	1026			hypothetical protein	ATGAAAAAAATCATCGCATCAGGGGGAGCCCTCTTACTGGCCTGGGGCTATTGCGCCTCGCCGTCGGCGGCGTGCCAGATGGTGAGTGGTAAAACTATCGAGTATTCGGTCAACGTCAGCCAGGCCAGTATCAACCTTGACGTCAGCAATCGCCCCGTCGGCTCCCTGCTGTACAGTTACGGCGGAATGATAATCACCAATAATGAGCGCTGGGAGATCGCCTGCAGCGGCAGTGAGTCCGGCGGGTTTCAGAGCATTGGCGGCTCCCGGGTCGGCCCGGCGGGAAACGGCAAGCCGGGGGATATCTATAGCATCGACCGCCTGCCGGGCATCGGCTACAGCTTTCAGATGGGGGAACAGGATGGCATTAATTTCGATCCCCTGTTCACGGCCTGGCCTTCCGCGCCGGTATTTTCCGGCCAGCGCGCATTTCAGGCGGAAAATAAAAAACCGACCATCTATTTCTGGCGTATTGCCGACAACGGCGGCCTGCCGCCACCAGGCGAGTATTGTCTTAACGATTACCTCGGCGATATTTTTCTGGGCGGCGTGCAGGCGATGCGTTTTAGCGTCAGCGGGCTCTGTATCCATATCAAATCGCCCACCTGCAAGATTACAGACGACAGTAAAAATATTTACGTCTTTCTCGGGCGGCATAATAAAACGGCGTTTACCGGACTCAACAGCACTACCGCCCCGATCCCCTTTAACATCAACCTGACGGAGTGTGAAAATGTCGGCAGCGTGTTTATGCAGTTTAACGCGACGGCGGACAGCGCCATGGCAGCCAACGAGGTGATTAAAATCGATGACCAACCTGAAGGCGCATCCGGGCTTGGCGTGCAGATCCTCACCGCCGGCGGCGCGCTGGTGCCGCTAAACCAGGTGAGCCAGATCTGGGCCGGAAGCAAGGGTAGCCAGACGAATTACCGTTTTGCCTATCAGGCCCGTTATATCCAGACCCAACCATTGGTGACAGCGGGCGAGGCGAACGCCAGCGCGACCTTCGTGGTGACCTATAACTGA	MKKIIASGGALLLAWGYCASPSAACQMVSGKTIEYSVNVSQASINLDVSNRPVGSLLYSYGGMIITNNERWEIACSGSESGGFQSIGGSRVGPAGNGKPGDIYSIDRLPGIGYSFQMGEQDGINFDPLFTAWPSAPVFSGQRAFQAENKKPTIYFWRIADNGGLPPPGEYCLNDYLGDIFLGGVQAMRFSVSGLCIHIKSPTCKITDDSKNIYVFLGRHNKTAFTGLNSTTAPIPFNINLTECENVGSVFMQFNATADSAMAANEVIKIDDQPEGASGLGVQILTAGGALVPLNQVSQIWAGSKGSQTNYRFAYQARYIQTQPLVTAGEANASATFVVTYN				NA	NA	NA	NA	NA
BMS020_03600	867			hypothetical protein	ATGAATTATCAATTAGTGAAGCAAGTCAGAGAAAATAACACATTAAGAAAAAGCTTCATTGACCTTGCCGTTAAGACTTTCGACCTGTCTTTTGAAGAGTGGTATCAACAAGGTTACTGGACTGACGCCTATATCCCCTACGCCTTTGTCGAACGTAATAAAATTATCGCTAACGCCTCGGCCAACATCATCGATCTGCGCTGGCAGGGCGAACCCCGGCGTTATATTCAGATTGGCACCGTGATGACCGAACCGGACCACCGTAATAAGGGACTAGCCGGTCAGCTTATCCATCACATCCTGCAGGACTGGCAGCAGGAGGCAGACGCCTTCTTTTTATTTGCCAATCCCACCACGGTGGATTTTTACCCCAAATTTGGTTTCACCCGCAGCGAAGAGCATCAATATATTATGCCGGTCTCTCCGCGCGCCGGTGATTTTCGCAAACTGGATATGGACCGCGCGGACGATGTCGCCCTGCTCCGCCATTACTATGAAAAATCCAACCCGTTCTCACCGCTGCGGGTGGAGCACAACTTTGGCCTGCTGATGTTTTACTGCTCCGCCTTTATGAAGCATTTCGTTTACTATTCGGCAAAAAATGAGGCGGTGGTTATCGCCATGCAAAACGGCCCGGTGCTGATCTGCTTTGACCTGTTCTGCGACACGGGCAAAAGCCTGTCGACGCTGGTCAACGAGCTGGCCGATGACCATGTTTACCAGGCCATCCTCGGTTTTACCCCCAATGAAGACCGGCTCGGCGAGTACGAGAAGATTGAGGGAGAAGATATCCTCTTTGTCTATGACCACAAGGAAAACCTGTTTAAAGACAGGAAGTTGATGTTTCCTTTACTGGCGCATGCCTGA	MNYQLVKQVRENNTLRKSFIDLAVKTFDLSFEEWYQQGYWTDAYIPYAFVERNKIIANASANIIDLRWQGEPRRYIQIGTVMTEPDHRNKGLAGQLIHHILQDWQQEADAFFLFANPTTVDFYPKFGFTRSEEHQYIMPVSPRAGDFRKLDMDRADDVALLRHYYEKSNPFSPLRVEHNFGLLMFYCSAFMKHFVYYSAKNEAVVIAMQNGPVLICFDLFCDTGKSLSTLVNELADDHVYQAILGFTPNEDRLGEYEKIEGEDILFVYDHKENLFKDRKLMFPLLAHA				NA	NA	NA	NA	NA
BMS020_03601	921	lpxL_2	COG1560	Lipid A biosynthesis lauroyltransferase	ATGTCAAATTTACCCAAATTTTCCCGCGCGCTATTGCACCCGCGTTACTGGCTATTATGGCTGGGAATTGGCTTGTTATGGCTGCTGGTGCAATTACCGTATCCGGTGATCTACCGACTGGGCACGGCGCTCGGGCGGCTGGCAATGCGGGTGATGAAAAGTCGCGCGCGGATTGCCAGACGTAATCTGGAACTCTGTTTTCCCGCGATGAGCGTCGCCGAGCGTGAGGCGCTGCTGGTGAAAAACTTTGAATCGCTGGGCATGGGGCTGATGGAGACCGGCATGGCCTGGTTCTGGCCGACGCACCGGGTGGCGCGCTGGACCGAGACCAGCGGCGTGAACGAGGTGGTCGACCTCCTCGAACAAAAGCAGGGCATCTTACTGATCGGCATTCATTTTCTCACCCTCGAGATGGGGGCGCGGATGTATGGCATGTTTACCCCGGGCATCGGCGTCTACCGGCCCAATGATAACCCGCTGATTGACTGGCTGCAGACCTGGGGACGCTTGCGCTCGAACAAGACCATGCTGGATCGAAAAAATCTGAAAGGGATGGTCAGGGCGCTGAAAGAGGGGGAGATCCTCTGGTACGCGCCGGATCATGATTACGGCCCGGCCAGCAGCGTTTTTGCGCCGCTGTTTGCCGTCGAGCAGGCGGCGACCACCACCGGCACCTGGATGCTGGCGAAAATGTCCGGGGCGACGATTGTGCCGTTTGTTCCCCGACGCAAGCCCAACGGTAGGGGATATGAATTGATCTCCCTGACGCCGGAGCGCACGCCGCCGCTGGCAAGCGCCGAGGCGACGGCGGCGTGGATGAACCAGATTATCGAACAGTGCATCCTGATGGCGCCCGAGCAATATATGTGGCTGCACCGGCGTTTTAAGACCCGCCCGGAAGGGGTACCGCCGCGTTACTAA	MSNLPKFSRALLHPRYWLLWLGIGLLWLLVQLPYPVIYRLGTALGRLAMRVMKSRARIARRNLELCFPAMSVAEREALLVKNFESLGMGLMETGMAWFWPTHRVARWTETSGVNEVVDLLEQKQGILLIGIHFLTLEMGARMYGMFTPGIGVYRPNDNPLIDWLQTWGRLRSNKTMLDRKNLKGMVRALKEGEILWYAPDHDYGPASSVFAPLFAVEQAATTTGTWMLAKMSGATIVPFVPRRKPNGRGYELISLTPERTPPLASAEATAAWMNQIIEQCILMAPEQYMWLHRRFKTRPEGVPPRY	PGPT0013315_1514	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0013315-lpxL|htrB-K02517	NA	NA
BMS020_03602	273			hypothetical protein	ATGAAAAAAGTGATAGTCGCGTTAGCCCTTTCAGCCGTTGCATTTGGCGCCTCCGCCGCGCAGTTGATCACCAAAGAAGAAGTGAAACACTTCAAACTGACCAAGGTCGGACCGATCTCGGTGGGGCCGTCCGGCGGTGAGTTCTCTTCGCCCTCCGATCTGCACGATCAGCTCTCTAAGCTGGCCGATGAGAAAGGCGGAAAGTACTACGTGATTACTGCTGCGCGTGAGCATGGCCCTAACTTTGAAGCCACAGCGGAAGTGTATAAATAA	MKKVIVALALSAVAFGASAAQLITKEEVKHFKLTKVGPISVGPSGGEFSSPSDLHDQLSKLADEKGGKYYVITAAREHGPNFEATAEVYK				NA	NA	NA	NA	NA
BMS020_03603	1569	cadC	COG3710	Transcriptional activator CadC	ATGCTACAACCTGTTGTTCGCGTCGGTGAATGGCTGGTAACCCCCTCTGTAAACCAAATCAGCAGGAAGGGGCGCCAGCTTACCCTTGAACCGCGTTTAATCGACCTCCTGGTCTTTTTTGCTCGCCATCCGGGGGAAGTGCTTAGCCGGGACGAGCTTATCGAAAACGTCTGGACCCGGAACGTTGTGACCAGCCACGTCGTCACGCAGAGTATTTCCGAACTGCGCAAGTCGCTCAAAGACGGCGACGACGTTAGCCTTGAGTATATCGCGACGGTACCCAAACGGGGGTATAAGCTCACGGTGCCGGTGATCTGGTGCACCGAAGAGGGGGAGGAACTCGCCCCGCAGATGGAGGCGCTGACGCCTTCGCCATCGGTCGCCGCTCCCGCGCCGCCGGCTGCCGGTGCGCCGCCGGACGCGCCCGTCTCCACCGCCGATCCCGCCGCGCCAGCTCCCGCGCCGACAGGTGCCAGCGCGCCGTCAGTGCGTAAACGGCTCACCACCGCCCTGGTGTGGGGGCTGTTTCTGCTGGCGCTGGGCACCTGCGTGGCGCTGGTGGCGCTGTCGAGCATGGAATCGCGGCCGCCGGTCAACAAGGCGCGCCTGCTACTCAACCCGCGCGATATCGATATCCACCTGGTCAATGGTAACTCCTGCACCAACTGGTCTTCGCAGCACTCCTACGCGGTCGGCCTGGCCAGCCTGATCACCACCTCGCTGAACACCTTCTCGACCTTTATGGTGCATGACAAAACAGACTACAACATCAATGAGCCGAGCAGTTCCGGTAAAACGCTGACCATTGAATTCGTCAATCAGCGCCACTACCGGGCGCAGCAATGCTTTATGTCGGTCCAGCTGGTGGATAACGCCGACAGCTCGACGATGCTCGATAAGCGCTACTTTGTGACCAATGACAACCAGCTCACCATCCAGAACGATCTGATGAACAGTCTGTCGGACGCGCTGGCGCAGCCGTGGCCGGCGCGAATGCAGGCGATGCTCAGGCAATATCAGCCCTCGCAAAGCGTGGCGTTAACCTATTTCTACCAGTCGCATCAGCTGTTAATGAAGGGCGATGTTGACTCATTAAGCAAGGCCAGCAGCCTGCTGGATGATGTGATTAAGCGGGCGCCTGATTTTATTTACGCGTATGCCGAAAAAACGCTGGTGGATGTATTACGCCATTCGCAACAGCCGCTGGATGATAAACAACTGGCAGCCCTTTACAGCGAAGTTGAGCGGGTAGGGGAGATGCCGGGTATAAAAGATATGGCGATTTATTATCAAATAAACGCAGTGGATTTGCTGGGGAAAGGAAAAGTTGACGAAGCGAACACAGCGATTAACCATGCGATCGATTTAGAGATGTCGTGGCTGAATTATGTGCTGTTAGGCAAAGTCTATGAGATGAAAGGTGAGAACCGGCTGGCAGCGGATTCTTACATTACGGCGTTTAATTTACGACCCGGTGGAGACACATTGTACTGGATTGAAAACGGAGTTTTCCAGACGTCGGTCAACCGGGTTGTTCCGTATCTCGATAATTTCCTCTCTTCAGAATAA	MLQPVVRVGEWLVTPSVNQISRKGRQLTLEPRLIDLLVFFARHPGEVLSRDELIENVWTRNVVTSHVVTQSISELRKSLKDGDDVSLEYIATVPKRGYKLTVPVIWCTEEGEELAPQMEALTPSPSVAAPAPPAAGAPPDAPVSTADPAAPAPAPTGASAPSVRKRLTTALVWGLFLLALGTCVALVALSSMESRPPVNKARLLLNPRDIDIHLVNGNSCTNWSSQHSYAVGLASLITTSLNTFSTFMVHDKTDYNINEPSSSGKTLTIEFVNQRHYRAQQCFMSVQLVDNADSSTMLDKRYFVTNDNQLTIQNDLMNSLSDALAQPWPARMQAMLRQYQPSQSVALTYFYQSHQLLMKGDVDSLSKASSLLDDVIKRAPDFIYAYAEKTLVDVLRHSQQPLDDKQLAALYSEVERVGEMPGIKDMAIYYQINAVDLLGKGKVDEANTAINHAIDLEMSWLNYVLLGKVYEMKGENRLAADSYITAFNLRPGGDTLYWIENGVFQTSVNRVVPYLDNFLSSE				NA	NA	NA	NA	NA
BMS020_03604	1335	cadB	COG0531	putative cadaverine/lysine antiporter	ATGAGTTCTGCCAAGAAGATCGGGCTATTTGCCTGTACCGGTGTCGTCGCCGGTAATATGATGGGGAGCGGTATTGCATTATTACCTGCGAACCTGGCCAGCATCGGTGGTATTGCCATTTGGGGCTGGGTAATTTCAATTATTGGTGCGATGTCTCTGGCTTATGTTTATGCCCGACTGGCCACTAAAAACCCGCAGCAGGGTGGTCCAATTGCTTACGCAGGGGAAATATCTCCGGCATTCGGTTTCCAGACCGGTGTACTTTATTATCATGCAAACTGGATTGGTAACCTGGCTATCGGGATTACCGCAGTTTCTTATCTGTCTACGTTCTTCCCTATTTTAAATAACCCGGTGCCAGCAGGGATTGCCTGTATTGCCATCGTGTGGATCTTTACTTTCGTTAATATGCTCGGCGGGACCTGGGTCAGCCGTCTGACCACCATTGGTCTGGTGCTGGTGCTTATTCCGGTAGTCATGACCGCGGTCGTCGGCTGGCACTGGTTTGATGTCGCTACCTATCAGGCGAACTGGAACACCTCCAGCACCACCGATAGCCACGCGGTCATCAAAAGTATCCTGCTCTGCCTGTGGGCCTTCGTTGGCGTAGAATCCGCCGCCGTGAGTACCGGGATGGTGAAAAACCCGAAACGTACCGTGCCGCTGGCCACCATGCTGGGTACCGCGATGGCCGGTATCGTCTACATCGCCGCGACTCAGGTTATCGCCGGTATGTATCCTGCTTCTCAGATGGCAGCGTCCGGTGCGCCGTTCGCGATTAGCGCCTCCACCATCCTCGGCGGCTGGGCTGCGCCGATGGTATCCGCTTTCACCGCCTTCGCCTGCCTGACGTCTCTGGGCTCGTGGATGATGCTGGTTGGCCAGGCCGGTGTACGTGCCGCTAACGACGGTAACTTCCCGAAAGTGTATGGCGAAGTCGATAGCAACGGTATCCCGAAAAAAGGCCTGCTGCTGGCCGCGGTGAAAATGACCGCGCTGATGGTGCTGATTACCCTGATGAACTCCGCCGGTGGTAAAGCCTCTGACCTGTTCGGCGAACTGACCGGTATCGCGGTACTGCTGACCATGCTGCCTTACTTCTACTCCTGTGTTGACCTGATTCGTTTCGAAGGCATCAACATCCGTAACTTCGTCAGCCTGATTTGTTCGGTACTGGGTTGCGTGTTCTGCTTCATCGCGCTGATGGGCGCAAGCTCCTTCGAACTGGCCGGCACCTTTATCGTTAGCCTGATTATCCTGATGTTCTACGGTCGCAAAATGCACCAGCGCCAGAGCAACGCATCGGATAGCAACAGCCCCGCTAACGCGCACTAA	MSSAKKIGLFACTGVVAGNMMGSGIALLPANLASIGGIAIWGWVISIIGAMSLAYVYARLATKNPQQGGPIAYAGEISPAFGFQTGVLYYHANWIGNLAIGITAVSYLSTFFPILNNPVPAGIACIAIVWIFTFVNMLGGTWVSRLTTIGLVLVLIPVVMTAVVGWHWFDVATYQANWNTSSTTDSHAVIKSILLCLWAFVGVESAAVSTGMVKNPKRTVPLATMLGTAMAGIVYIAATQVIAGMYPASQMAASGAPFAISASTILGGWAAPMVSAFTAFACLTSLGSWMMLVGQAGVRAANDGNFPKVYGEVDSNGIPKKGLLLAAVKMTALMVLITLMNSAGGKASDLFGELTGIAVLLTMLPYFYSCVDLIRFEGINIRNFVSLICSVLGCVFCFIALMGASSFELAGTFIVSLIILMFYGRKMHQRQSNASDSNSPANAH	PGPT0020625_69	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_LYSINE_TRANSPORT,PGPT0020625-cadB-K03757	NA	NA
BMS020_03605	2148	cadA	COG1982	Inducible lysine decarboxylase	ATGAACGTTATTGCAATCATGAATCACATGGGGGTTTACTTCAAAGAAGAACCCATCCGTGAACTGCATCGTGCTCTCGAACGCCTGGACTTCCGCATTGTCTACCCGAACGACCGTGACGACTTATTAAAACTGATCGAAAACAACTCTCGTCTGTGCGGCGTGATCTTCGACTGGGATAAATACAATCTCGAGCTGTGCGAAGAAATCAGCAAAATGAACGAGTACATGCCGCTGTATGCGTTCGCTAACACCTACTCCACGCTGGACGTTAGCCTGAACGATCTGCGCATGCAGGTTCGCTTCTTCGAATATGCGCTGGGCGCTGCGGAAGATATCGCGAACAAAATCAAACAGAACACTGACGAATACATCGACACCATTCTGCCGCCGCTGACCAAAGCGCTGTTCAAATATGTGCGTGAAGGCAAATACACCTTCTGTACCCCGGGCCACATGGGCGGTACCGCCTTCCAGAAAAGCCCGGTAGGCAGCATCTTCTACGATTTCTTTGGCTCCAACACCATGAAATCCGATATCTCGATTTCAGTTTCTGAACTCGGTTCCCTGCTGGACCACAGCGGCCCGCACAAAGAAGCGGAAGAGTATATCGCTCGCGTATTTAACGCCGAACGCAGCTACATGGTGACCAACGGCACCTCGACCGCCAACAAAATCGTCGGTATGTACTCCGCGCCGGCCGGCAGCACCGTGCTGATTGACCGTAACTGCCACAAATCGCTGACCCATCTGATGATGATGAGCGACATTACGCCGATCTACTTCCGTCCGACCCGTAACGCCTACGGCATCCTCGGCGGTATCCCGCAGAGCGAATTCCAGCACGCGACTATCGCCAAGCGTGTGAAAGAGACGCCGAACGCGACCTGGCCGGTACACGCCGTTATCACCAACTCGACTTACGATGGTCTGCTGTACAACACTGACTTCATCAAGAAAACCCTGGATGTGAAATCCATCCACTTTGACTCCGCATGGGTGCCTTACACCAACTTCTCGCCGATCTATGAAGGCAAATGCGGGATGAGCGGCGGCCGCGTCGAAGGGAAAGTGATTTACGAAACCCAGTCCACGCACAAACTGCTGGCGGCGTTCTCTCAGGCATCGATGATCCATGTGAAAGGCGATGTTAACGAAGAGACCTTTAACGAAGCCTACATGATGCACACCACCACCTCCCCGCACTACGGGATCGTGGCGTCCACCGAAACCGCGGCGGCGATGATGAAAGGCAACGCCGGTAAGCGCCTGATCGACGGCTCTATCGAACGTTCCATCAAGTTCCGTAAAGAGATCAAACGTCTGAAAGGCGAGTCTGAAGGCTGGTTCTTCGACGTATGGCAGCCGGAACATATCGACGGTCCTGAATGCTGGCCGCTGCGCTCCGACAGCGCATGGCACGGTTTCAAAAACATCGACAACGAGCACATGTATCTCGACCCGATCAAAGTCACTCTGCTGACCCCGGGGATGAAGAAAGACGGCACCATGGATGAGTTCGGTATTCCGGCCAGCATCGTGGCGAAGTATCTCGACGAACACGGCATCGTGGTGGAGAAAACCGGTCCGTACAACCTGCTGTTCCTGTTCAGCATCGGTATCGACAAAACCAAAGCGCTGAGCCTGCTGCGTGCGCTGACCGACTTCAAACGCGCGTTCGACCTGAACCTGCGGGTGAAAAACATGTTGCCGTCGCTGTACCGTGAAGATCCTGAATTCTATGAAAACATGCGTATTCAGGACCTGGCGCAGAATATTCACAAACTGGTTGAGCATCACAACCTGCCGGACCTGATGTTCCGCGCGTTTGAAGTGCTGCCATCCATGGTGATGACCCCGTATGCCGCGTTCCAGAAAGAGCTGCACGGTCAGACGGAAGAAGTGTACCTCGAAGAGATGGTCGGCCGCGTCAACGCCAACATGATCCTGCCGTATCCTCCGGGAGTGCCGCTGGTGATGCCGGGTGAAATGATCACCGAAGAGAGCCGTCCGGTGCTGGAGTTCCTGCAGATGCTGTGCGAAATCGGCGCCCACTATCCGGGCTTCGAAACCGATATCCACGGCGCCTATCGTCAGGCGGATGGTCGTTACACCGTTAAAGTGCTGAAAGAAGAGAATAACAAGTAA	MNVIAIMNHMGVYFKEEPIRELHRALERLDFRIVYPNDRDDLLKLIENNSRLCGVIFDWDKYNLELCEEISKMNEYMPLYAFANTYSTLDVSLNDLRMQVRFFEYALGAAEDIANKIKQNTDEYIDTILPPLTKALFKYVREGKYTFCTPGHMGGTAFQKSPVGSIFYDFFGSNTMKSDISISVSELGSLLDHSGPHKEAEEYIARVFNAERSYMVTNGTSTANKIVGMYSAPAGSTVLIDRNCHKSLTHLMMMSDITPIYFRPTRNAYGILGGIPQSEFQHATIAKRVKETPNATWPVHAVITNSTYDGLLYNTDFIKKTLDVKSIHFDSAWVPYTNFSPIYEGKCGMSGGRVEGKVIYETQSTHKLLAAFSQASMIHVKGDVNEETFNEAYMMHTTTSPHYGIVASTETAAAMMKGNAGKRLIDGSIERSIKFRKEIKRLKGESEGWFFDVWQPEHIDGPECWPLRSDSAWHGFKNIDNEHMYLDPIKVTLLTPGMKKDGTMDEFGIPASIVAKYLDEHGIVVEKTGPYNLLFLFSIGIDKTKALSLLRALTDFKRAFDLNLRVKNMLPSLYREDPEFYENMRIQDLAQNIHKLVEHHNLPDLMFRAFEVLPSMVMTPYAAFQKELHGQTEEVYLEEMVGRVNANMILPYPPGVPLVMPGEMITEESRPVLEFLQMLCEIGAHYPGFETDIHGAYRQADGRYTVKVLKEENNK	PGPT0007780_42	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007780-ldcC|cadA-K01582	NA	NA
BMS020_03606	1476	dtpC	COG3104	Dipeptide and tripeptide permease C	ATGAAAACACCCTCACAGCCGCGCGCGATTTACTACATCGTTGCGATCCAGATCTGGGAGTACTTCAGCTTTTACGGCATGCGCGCCTTACTCATCCTCTACCTCACCCACCAGCTTGGCTTCGACGACAGCCACGCCATCAGCCTGTTCAGCGCTTACGCCTCTCTGGTTTACGTTACCCCTATTCTTGGCGGCTGGCTTGCCGACCGCCTGCTCGGCAACCGCACGGCGGTGATTGCCGGGGCGCTGTTGATGACCCTCGGCCACGTGGTGCTGGGCGTTGAGTCGACCTCCGCATGGAGCCTGTACGTCGCGCTGGCGATCATTATCTGCGGCTACGGCCTGTTCAAATCCAATATCAGCTGCCTGCTTGGCGAACTTTACGCCCACGACGATCCGCGTCGCGACGGCGGCTTCTCGCTGCTGTACGCCGCCGGCAACGTCGGCTCCATCGCCGCGCCCATCGCCTGCGGGCTGGCGGCCCAGTGGTACGGCTGGCATATCGGCTTCGCCCTGGCGGGGATCGGGATGTTCATCGGCCTGATGATTTTCTTAAGCGGCAGCCGCCACTTCCGGCATACCCGCGGCGTCGATAAACCGGCGCTGCGGGCGGTGAAATTCGTGCTGCCGACCTGGGGCTGGCTGCTGGTGATGCTCTGCCTGGCGCCGGTGTTCTTCACGCTGCTGCTGCAAAACAACTGGTCCGGCTATCTGCTGGCGGTCGTCTGCCTGTTCGCCGCCCAGATGGTGGCGCGGATCATGATCAAAGCCCCGGAGCATCGTCGCGCGCTGTGGCAGATCGTCCTGCTGATGCTTGCCGGGACGCTGTTCTGGGTGCTGGCGCAGCAGGGGGGAAGCTCGATTAGCCTGTTTATCGATCACTTTGTTAACCGCCGCCTGCTGAACTGGGACGTGCCGACGGCGCTGTTCCAGTCGGTTAACGCGGTGGCGGTGATGGCGGCCGGCGTGGCGCTGGCGTGGCTGATGCGCCCGGAAGGCAGCGCGCGTTCGGTGCTGCGCGTCTGGTTGAAATTCGCTTTTGGCCTGCTGCTGATGGGCGGCGGCTTTATGCTGCTGGCGCTCAACGCCCGCCACGGCGCCGCTGAGGGTCAGGCCTCGATGGGCATGATGGTCGCTGGACTGGCGATGATGGGCTTTGCCGAACTGTTTATCGACCCGGTCGCGATGGCACAAATCACCCGCCTGAACATGCCCGGCGTCACCGGGGTATTGACCGGTATTTATATGCTGGCCACCGGCGCGGTGGCCAACTGGCTGGCGGGCGTGGTCGCCCAGCAGACCACCGAATCGCAAATCAGCGATACGGCGATTGCCGCCTATCAGCATTTCTTCTCGCAGATGGGGGAATGGACCCTCGGCTGCGTGGCGGTGATGGTGGTTATCGCCTTTGCCGCAGCCTGTAGCGTCGGCAAACGCCGCGCGGCGGCTGGCGAGCTTCCCGGCGGCGGCGCCTAG	MKTPSQPRAIYYIVAIQIWEYFSFYGMRALLILYLTHQLGFDDSHAISLFSAYASLVYVTPILGGWLADRLLGNRTAVIAGALLMTLGHVVLGVESTSAWSLYVALAIIICGYGLFKSNISCLLGELYAHDDPRRDGGFSLLYAAGNVGSIAAPIACGLAAQWYGWHIGFALAGIGMFIGLMIFLSGSRHFRHTRGVDKPALRAVKFVLPTWGWLLVMLCLAPVFFTLLLQNNWSGYLLAVVCLFAAQMVARIMIKAPEHRRALWQIVLLMLAGTLFWVLAQQGGSSISLFIDHFVNRRLLNWDVPTALFQSVNAVAVMAAGVALAWLMRPEGSARSVLRVWLKFAFGLLLMGGGFMLLALNARHGAAEGQASMGMMVAGLAMMGFAELFIDPVAMAQITRLNMPGVTGVLTGIYMLATGAVANWLAGVVAQQTTESQISDTAIAAYQHFFSQMGEWTLGCVAVMVVIAFAAACSVGKRRAAAGELPGGGA	PGPT0021010_3018	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021010-TC_POT-K03305	NA	NA
BMS020_03607	1518	lysU	COG1190	Lysine--tRNA ligase, heat inducible	ATGTCTGAACAACAAGCACAAGGTGCCGATGAGGCCATTGACCTTAATAATGAACTGAAAACTCGTCGCGAAAAACTGGCTGCGCTGCGTGAGCAGGGCGTAGCTTTCCCCAACGATTTCCGTCGCGATCATACCTCTGACCAATTGCACGCTGAATTCGATGCGAAGGATAACGATGAACTCGCTTCCCTGAACGTTGAAGTTGCGGTGGCCGGCCGGATGATGACCCGCCGCGTGATGGGCAAAGCCTCCTTCGTCACCCTGCAGGACGTCGGCGGCCGTATCCAGCTGTACGTGGCCCGCGATGACCTGCCGGAAGGCGTCTACAACGAACAGTTTAAGAAATGGGACCTTGGCGACATCATCGCCGCCCGCGGCAAGCTGTTCAAAACGCAAACCGGCGAACTCTCCATCCACTGCACCGAGCTGCGCCTGCTGACCAAAGCCCTGCGCCCGCTGCCGGATAAATTCCACGGCCTGCAGGATCAGGAAGTCCGCTATCGCCAGCGCTATCTGGATCTGATCGCGAACGAAGAGTCGCGCCATACGTTCCGCATCCGCTCGCAGATCCTCGCGACCATGCGTCAGTTCATGGTAGCCCGCGGCTTTATGGAAGTGGAAACCCCGATGATGCAGGTGATCCCCGGCGGCGCTTCCGCCCGTCCGTTTATCACGCATCACAACGCGCTGGATCTCGATATGTACCTGCGCATCGCGCCGGAACTGTATCTGAAACGTCTGGTGGTCGGCGGCTTCGAACGCGTGTTTGAGATCAACCGTAACTTCCGCAACGAAGGGATCTCGGTACGCCATAACCCAGAGTTCACCATGATGGAACTGTACATGGCGTACGCGGACTACAAAGACCTGATCGAACTGACCGAGTCGCTGTTCCGCACCCTGGCGCAGACGGTGCTGGGCAAAACCGAGGTGCCGTATGGCGACCAGGTGTTTGACTTCGGCAAGCCGTTTGAAAAACTGACCATGCGCGAGGCGATCAAAAAACATCGTCCGGAAACCAACATGGCGGATCTGGATAACTTCGACGCGGCGAAAGCGCTGGCGGAATCTCTCGGTATTCAGCTAGAGAAAAGCTGGGGTCTGGGGCGCATCGTCACCGAAATCTTCGACGAAGTGGCGGAAGCGCACCTCATCCAGCCGACCTTCATCACCGAATACCCGGCGGAAGTCTCCCCGCTGGCGCGCCGTAACGACGTCAACCCGGAAATCACCGACCGCTTCGAGTTCTTCATCGGCGGCCGCGAAATCGGTAACGGTTTCAGCGAGCTGAACGACGCCGAAGACCAGGCGCAGCGTTTCCAGGATCAGGTTAACGCCAAAGCGGCGGGCGATGACGAAGCGATGTTCTATGACGAAGACTACGTCACCGCGCTGGAGTACGGTCTGCCGCCGACCGCCGGTCTGGGCATCGGTATCGACCGGATGGTGATGCTGTTTACCAACAGCCACACCATCCGCGACGTGATCCTCTTCCCGGCGATGCGTCCGCAGAAGTAA	MSEQQAQGADEAIDLNNELKTRREKLAALREQGVAFPNDFRRDHTSDQLHAEFDAKDNDELASLNVEVAVAGRMMTRRVMGKASFVTLQDVGGRIQLYVARDDLPEGVYNEQFKKWDLGDIIAARGKLFKTQTGELSIHCTELRLLTKALRPLPDKFHGLQDQEVRYRQRYLDLIANEESRHTFRIRSQILATMRQFMVARGFMEVETPMMQVIPGGASARPFITHHNALDLDMYLRIAPELYLKRLVVGGFERVFEINRNFRNEGISVRHNPEFTMMELYMAYADYKDLIELTESLFRTLAQTVLGKTEVPYGDQVFDFGKPFEKLTMREAIKKHRPETNMADLDNFDAAKALAESLGIQLEKSWGLGRIVTEIFDEVAEAHLIQPTFITEYPAEVSPLARRNDVNPEITDRFEFFIGGREIGNGFSELNDAEDQAQRFQDQVNAKAAGDDEAMFYDEDYVTALEYGLPPTAGLGIGIDRMVMLFTNSHTIRDVILFPAMRPQK	PGPT0012225_3342	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
BMS020_03608	426			hypothetical protein	ATGAATAAGACCTGGCTTTTCACCACCCTCACCCTGGCGCTGGTCGCCGCCGCGCCGGCCCACGCCATTAGCGCGAAATACCGGGAACAGCTTGAACGCTCCGGTTGCACGCAGATGACCGACGGAACCACCTGCGATATTCATAAAACCAAAGCCGAGAATGCCGCCGCCGCGCAGCAGGCCAGCAGCGGCTTCGGCCCCTGGGTGGGCACCTGGTATGTTTATACTGACTATGGCAATAAAATTGATGAGATTACCGTCACCGCTAAAACGGTGAAAACCCATGGTCATCTGGTCGAGGAGGCGAAAGCCAGCCAGGGTAAATTGACGTTCCGGGTGAAAAGCTCAGCCTTTACGCTGAACGACGCCTTTAACGGCGTATGGGCAAACGGCAGCCAGCGCGGCACGTTGCAAAAAGTCCTGTAA	MNKTWLFTTLTLALVAAAPAHAISAKYREQLERSGCTQMTDGTTCDIHKTKAENAAAAQQASSGFGPWVGTWYVYTDYGNKIDEITVTAKTVKTHGHLVEEAKASQGKLTFRVKSSAFTLNDAFNGVWANGSQRGTLQKVL				NA	NA	NA	NA	NA
BMS020_03609	921	iolE_2	COG1082	Inosose dehydratase	ATGGCGACAGAGCACCTGCAGTGGGGCATTAGCCCCCTGTGCTGGACCAACGATGTGCTGGAGGATTTAGGCGGCGATATCCCTCTCGACACGTGTCTGCGCGAGGCGCGGGAGGCGGGGTTTCAGGGAATTGAGTTAGGGCGGAAGTTTCCCCGCCAGGCGGAGACATTGGGGCCTCTGCTGGCGGCGGCTGACCTGCGCCTGGCGTCAGGCTGGTACAGCGGCTTGCTGGCCGACCGCAGCGTGGAAGCGGAGCTGGAGGCGGTGCGGGGCCACGCGCAGCTCCTGCAGCAGCTCGGCGCCAGGGTAATGGTCTATGGCGAGTGCGGGCAACTGCCCGGTGAAACGCCGCTTGATGAGCCGATCTCGCTCTCGCCGCCGTTAAGCCGCGTCAGCCTGACGGCGTATTGCCATAAGCTAAATACCTTTGCCGACCTGCTGCTGCGCGACTACGGCCTCCGGCTGGCCTATCACCACCATCTGATGATGCTGGTGGAGCACGACGACGAGCTGGAGCGGTTTCTGTCCCAGACCCATGACAACGTCGGGCTGGCGTTTGATACCGGACACGCCTTCGTCGCCGGGGTCGATATCCCGCGCGTGCTGGAGAAATATGGCCACCGTATCCGCCATCTGCATCTGAAAGACGTCCGTCCGCAGGTGCTGGGGCGCCTGTATCGCGAAAACCTGAGCTTTAACGAGGCGGTGCGCGCCGGGCTGTTTACCATCCCTGGCGACGGCTGCATCGACTATGCGCCGATCCTCAACTTTGCCCGGGACAGCGACTACCGCGGCTGGCTGATTATCGAAGCAGAGCAGGACCCGGCGATGGCGCCGCCGTTTGCCACCGCTCGCCGCGCCTTCGCCTGGCTGGCGCACCACTTTTCGTCCCCGTCATCATCAGAGGAGCACGCATCATGA	MATEHLQWGISPLCWTNDVLEDLGGDIPLDTCLREAREAGFQGIELGRKFPRQAETLGPLLAAADLRLASGWYSGLLADRSVEAELEAVRGHAQLLQQLGARVMVYGECGQLPGETPLDEPISLSPPLSRVSLTAYCHKLNTFADLLLRDYGLRLAYHHHLMMLVEHDDELERFLSQTHDNVGLAFDTGHAFVAGVDIPRVLEKYGHRIRHLHLKDVRPQVLGRLYRENLSFNEAVRAGLFTIPGDGCIDYAPILNFARDSDYRGWLIIEAEQDPAMAPPFATARRAFAWLAHHFSSPSSSEEHAS	PGPT0016785_498	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016785-mocC-K03335	NA	NA
BMS020_03610	1173	iolG_3		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGAGCGCGCGGTTAAATATTGGTCTTATCGGCTCCGGTTTTATGGGCCAGGCGCACGCCGACGCTTACCGTCGCGCGGCCATGTTCTATCCCGGTCTGCCGAAGCGCCCCTATCTTTACGCGCTGGCGGATCAGGATCAGGCTTTGGCTGAACGTCATGCGGTGAAGCTGGGGGCGGAGAAAGCTTACGGTGACTGGCGCGAACTGGTGAACGATCCGCTGGTGGACGTGGTGGATATTACCTCGCCGAACCATCTGCACTACACGATGGCGATGGCGGCGATCGCGGCGGGTAAACATGTCTATTGCGAGAAACCGCTGGCGGTTAACGAGCAGCAGGCGCAGGAGATGGCGCAGGCGGCCCGGCGCGCGGGGGTGAAGACCATGGTGGCCTTTAACAACATTAAAACCCCGGCGGCGCTGCTGGCAAAGCAGCTTATCGCCCGGGGCGATATTGGCGAACCGGTGCGCTTTCGCGGCACCTTTGATCAGGGGTTTTATAACGACCCGAACCTGCCCTGGTCCTGGCGCTGCTCGAAAACCCTCGGCGGTAGCGGGGCGCTTGGCGACCTCGGCGCCCATATCCTGTCCGTCGCCCAGTTTTTGATGGGCGGGATCCGTGAAGTGACCGCCAGCGCGCAAACCTGCCTGCGCCAGCGTCCGGTGCCACAGACCGATGCCGGGTATGCCAGCCGGGTCGCGGCCGATGCCGAGTGGCGGGAAGTGGAAAATGACGATCAGGTTCAGTGCCTGGTCAATTTCGACAGCGGCGCCGCGGGGGTGATTGAGGCCTCGCGCATCGCCGCCGGGCGCATCTTCGGCGTGTTCTGGGAGGTCTCCGGCACCGAAGGCACGCTGTATATGGACGGGGAGCGCTTTAACGAACTGCAGGTGTATCGCTTCCGGGATGACAAACACGACCGCGGCTTTAAAACGCTGTATGCCGGGAGCCAGATCCCGGCCTATGCCGGCTTCTTCGGCTTCGATTTTGGCGGCGGCGGGCTGGGCTATTTTGACGTCAAGGTGATGGAAGTGCATGACCTGGTGCAGGGGATTTGTGGGGACGACGACTGCTATCCCAGCTTTGAATTTGGTTTACAGAATCAGCGCGTGCTGTCGGCGATTGAAGCCTCGATGGTCAGCCGTCGCTGGGTTAACGTGGTTAAGGATTAA	MSARLNIGLIGSGFMGQAHADAYRRAAMFYPGLPKRPYLYALADQDQALAERHAVKLGAEKAYGDWRELVNDPLVDVVDITSPNHLHYTMAMAAIAAGKHVYCEKPLAVNEQQAQEMAQAARRAGVKTMVAFNNIKTPAALLAKQLIARGDIGEPVRFRGTFDQGFYNDPNLPWSWRCSKTLGGSGALGDLGAHILSVAQFLMGGIREVTASAQTCLRQRPVPQTDAGYASRVAADAEWREVENDDQVQCLVNFDSGAAGVIEASRIAAGRIFGVFWEVSGTEGTLYMDGERFNELQVYRFRDDKHDRGFKTLYAGSQIPAYAGFFGFDFGGGGLGYFDVKVMEVHDLVQGICGDDDCYPSFEFGLQNQRVLSAIEASMVSRRWVNVVKD				NA	NA	NA	NA	NA
BMS020_03611	1032	iolU_2	COG0673	scyllo-inositol 2-dehydrogenase (NADP(+)) IolU	ATGTTTCCCTCACAATTACCGACCCCGCGCCGCCCGGCGGCGCAGAGCATTCCCTCCCTGCGCTGGGGCATCATTGGTCCGGGCTGGATCGCCGAGCGCTTTGTGCACGCATTGAAAACCCAGAGCCGGCAGCAGGTGGTGGCCGTTGCCTCCCGCAGCCAGGCGAAGGCCGACCGGGTAGCCGCGGAATGGGGGATCCCCCAGGCTTACGGCCGGGTGGAGGAGATGCTGGCGCGTCCGGATATTGATGCGGTCTATATTGCGACGCCGCACAACCATCACTTTCCCGACGGCATGCAGGCGCTGAAGGCGGGCAAACACGTGCTGATAGAGAAGCCCTTCGCGCTCAACCTCGGCGAAGGAGGTGAACTGCAGGCCGAAGCCGCCCGCCAGGGGAAGCTGGCGCTGGAGGCGATGTGGTGCGATTACGCGCCGAAGTATGATGTGATCCGCCAGCTGCTGGAGGATGGGGTACTCGGCGACCTGCATACCCTGCTGGCCGATCACGGCGAGTATTTCACTACCGATCACCGCATCTTTAACGCCGACCTTGCCGGCGGGCCGATGATGGATCTCGGCAGCTATTTGACCTCGTTTGCGCTGATGGTGGGCGGCATGCCGCAGGAGATTGTCGCCCGCGGCCGCGCGACGGCGGAGGGGCTTAACGGCCAGACGTCAATGCTGTTCAGCTGGCGGAACGGGATGCAGGGGCTGTTAAACACGACGTTGTTCAGCAACACGCCGGGCGGGGCGGTGGTGGCCGGACGCCAGGCGACCCTGACGATCGACGGTCAGTTTTACGCCCCCGGCGGGTTCACGCTCGCCGCCAGCCAGGGCGGGCAGGCGCTGCGCTGGGAAGAGCCGCGCAATCGCTACGACCAGCTGTTCTGGCAGGCGGAGCATTTTGCCTGGTGCATCGGTCAGGGGCTGCGGGACTCGCCGCTGCGGCCGCTCAGTCAGGTGCTGCAGAATCTGCAGGTGATGGATGAGGTGCGGCGCCAGGTGGGCGCGGTGTTTAACGAAGAACGTTAA	MFPSQLPTPRRPAAQSIPSLRWGIIGPGWIAERFVHALKTQSRQQVVAVASRSQAKADRVAAEWGIPQAYGRVEEMLARPDIDAVYIATPHNHHFPDGMQALKAGKHVLIEKPFALNLGEGGELQAEAARQGKLALEAMWCDYAPKYDVIRQLLEDGVLGDLHTLLADHGEYFTTDHRIFNADLAGGPMMDLGSYLTSFALMVGGMPQEIVARGRATAEGLNGQTSMLFSWRNGMQGLLNTTLFSNTPGGAVVAGRQATLTIDGQFYAPGGFTLAASQGGQALRWEEPRNRYDQLFWQAEHFAWCIGQGLRDSPLRPLSQVLQNLQVMDEVRRQVGAVFNEER				NA	NA	NA	NA	NA
BMS020_03612	1008	idhA		Inositol 2-dehydrogenase	ATGAAGTGCAAACGTTTTGCCCTGGTAGGCAGTGGTTTTATCGGTCAGGTTCATGCCGCCAGCCTCGCCCGTCACGACGGGAGCGAGTTGACGATGGTGGCCGATGCCGCGCCGGAGCACGCCCAGGCGCTGGCCGCCCGCTATGGCGCCCGGGCGGTGACGGTGAGCGAGGCTCTCCGTAGCGACGCCATCGACGCTGTGCTGATCGCCAGCTCGACCCCGTCGCATGCCGAACTGCTGGAAGCCGCCGCCCGGGCGGGCAAGGCGGTCTATTGCGAAAAACCGATCGACCTTTCCCTGGCGCGCGCCCGCGAGGTGGTGGAGCGGGTGCTTCCCCTTAAGGTGCCGGTCACCGTCGGCTTTAACCGGCGCTTTGACAGCAGCCATCAGCAGTTGCGCCGCCAGCTGGAGCAGGGAGCGATCGGCAGGGTCGAGCTGGTGCAGATGGTCTGTCGCGCCTCCAGCATGCCGCCGCTCGACTATCTGCGCAGCTCCGGCGGTCAGATGCGCGATCAGGCGATCCATTTCTTCGATCTTCTGCGCTTTCTCACCGGCGATGAAGTGCATACCGTAGCGGCGATGGGCGCGGCGCTGGCCCTGCCGGAAATCGCCGAATTTGGCGATGTCGACACCTCCATCCTGATGATGCAGATGCGCGGCGGCGCGCTGGCGCAGCTGGACAACACCCGCCGCACCGGCCACGGGTATGATGAAAGGATCACCCTGCTGGGGGCAGAGGGCGCGCTGGAGTCCGGCAGCCAGTCGCCGGCGGGCCCTACCCTGTGGCGCGGCAATCAGCGCATTGAGCCAGGCCTGTGGCCGGACTGGTTCAGCCGGGTGCAAGGATCTTATTACCAGCATCTCGACGCCTTTATCCGCTCTCTGAATGGTGAAACCGTGGCCGACCTGCCCGGCCTGGTGGACGGCCTGCAGGCGCAGGCCATTGCCGAAGCGGCGGTTCAGTCTCTGCAGCGCGGCCAGTTTGTCGCCGTTGACGACTGTCGGTGA	MKCKRFALVGSGFIGQVHAASLARHDGSELTMVADAAPEHAQALAARYGARAVTVSEALRSDAIDAVLIASSTPSHAELLEAAARAGKAVYCEKPIDLSLARAREVVERVLPLKVPVTVGFNRRFDSSHQQLRRQLEQGAIGRVELVQMVCRASSMPPLDYLRSSGGQMRDQAIHFFDLLRFLTGDEVHTVAAMGAALALPEIAEFGDVDTSILMMQMRGGALAQLDNTRRTGHGYDERITLLGAEGALESGSQSPAGPTLWRGNQRIEPGLWPDWFSRVQGSYYQHLDAFIRSLNGETVADLPGLVDGLQAQAIAEAAVQSLQRGQFVAVDDCR				NA	NA	NA	NA	NA
BMS020_03613	1020			hypothetical protein	ATGAAAAACATGTCACTGGCGATGCTGGCCAGACAGATTGGCGTCGGCGTGGCCACCGTTGACCGGGTGCTGAACGAACGCGGCGGCGTATCGCCGCAGACCACGCGCAAAGTGCTGCAGGCGGCGCGGGAGGCGGGGCTGAAGCGGATCCTGCCGGAGGAGCACCGCTTTCCCTGGCAGATTGAGCTCTTTCTCAGCAGCAATGACTCTTTCTTTTTTCCGCAGCTGGCGCAGGATTTCGCCGCCGTCGCGGATAGCCTCGGCTATCGTCGTCTGACCCTGCACCGCACCTTTGTCCCGGAGTCGCAGCCGGCGACCCTGGCCCGGCGCATTATGCGCAGCGGCCAGCAGCGTCAGGGGATCATCGTTTTCGGCAATGACCATCCTGTGGTGCATGACGCGCTGCGACGCTGTCGGGAAGCGGGCGTCCCCGTCATTACCCTGGCGACAGATCTGCCCGGCGCCGACCGGCTCTGCCACGTCGGGATCAATCAGTTGCAGGCTGGCCGCACGGCGGGGTTAATGATGGGGAGAATGACGCCGCGGCCCGGGGAGGTGCTGATGGTGAGCGGCCGGGAGGATTACAGTGCGCATCGCCTGCGCATCCAGGGGTTCCGCGAGGTGCTGAGCCAGCGCTTTCCCCATCTGCAGCTCAACGAGGTGCTGGCGGGCGAAGAGCGGCGGGAGCAGATCACCCGCCTGCTGGAGCAGGCCCTGTGCCGCAGCCGGCATATTGTCGGGATCTATAACACCGGACTTGGCAATACTCAGATTGCCGAGGCGCTGGCACGCCACCGCCGCGAAGGCGACGTCTGCTGGATCACCCATGAGCGCTACAATACCACCCGCCAGCAGCTGGCCAGGGGCAGCCTGGCGTTAACGCTCGATCAGAACACCCGCCAGCACGCCCAGCTGGCGATCGACCTGATGCTGCGCCATCTGGAGTCCGGCTATCAGCCGCAAACCTATGCCGACGGGAAAGTCGACTTTATCCTCTACAGCGCCGAGAACGTCGACTAA	MKNMSLAMLARQIGVGVATVDRVLNERGGVSPQTTRKVLQAAREAGLKRILPEEHRFPWQIELFLSSNDSFFFPQLAQDFAAVADSLGYRRLTLHRTFVPESQPATLARRIMRSGQQRQGIIVFGNDHPVVHDALRRCREAGVPVITLATDLPGADRLCHVGINQLQAGRTAGLMMGRMTPRPGEVLMVSGREDYSAHRLRIQGFREVLSQRFPHLQLNEVLAGEERREQITRLLEQALCRSRHIVGIYNTGLGNTQIAEALARHRREGDVCWITHERYNTTRQQLARGSLALTLDQNTRQHAQLAIDLMLRHLESGYQPQTYADGKVDFILYSAENVD	PGPT0017992_8998	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
BMS020_03614	924	thpA_2	COG1879	D-threitol-binding protein	ATGAATATTAAGAAAACGATTGTTGCCTCTTTGTTAGCCTGCATGCTGCCTGCGGTGGTTATGGCAAAAGATGTCTCCATTGGCGTCTCGATGGCGCTGTTTGACGATAACTTCCTGACGATCCTGCGTACCTCGATGCAAAAAGAGATGAAAAAAGACGGGGTGAAATCGCAGATCGAGGACGCGAAAGGGGATGTATCCCAGCAGCTGCAGCAGGTGCAGAACTTTATCGGCCAGGGCGTGGACGCCATTATCGTCAACCCGGTGGATACCAACGCGGTCAAACCGATCATGGATCAGGCCACCAAAGCCGGGATCCCGCTGGTGTTTGTAAACCGTCGCCCGCAGGCGGAGCTGACCGACAAGATGGCCTATGTGGGGTCGGATTCAATTCTCGCCGGCCGTCTGCAGATGGAAGCGCTGGCGAAAGCGATGAACGGCAAGGGCAATGTGGCGATCCTGCTCGGCGACCTGGCGAATGAATCCACTCGCGACCGCACCAAAGGGGTGGAAGAGGTCGTGGCGAAATACCCGAACATCAAAATCGTGCAGAAGCAGACCGCGAAATTTACCCGCAATGACGCCGTGGATGTGGTCAGCAACTGGATGACCAGCGGCGAGGATATCCAGGCCATCGCCTCCAACAACGATGAAATGGCGATCGGCGCCCTGCAGGCGCTGGGTAAAAACCCGAACCATATTCTCATCGCCGGCGTGGATGGCACCCCGGATGCGCTGCAGATGCTGAAGAGCGGCAAGATGATCGCCACCATCTTCCAGGATGCGAAAGGCCAGGGCGAGGGCGCCGTAGACGCGGCCATTAAGCTGGCGAACGGCGAGAAAGTGGAAAAGATCATCGACGTGCCGTATCAGCTGATCACCAAAGAGAACATGGCTGAATTTACCAATCGTAATCAGAAATAA	MNIKKTIVASLLACMLPAVVMAKDVSIGVSMALFDDNFLTILRTSMQKEMKKDGVKSQIEDAKGDVSQQLQQVQNFIGQGVDAIIVNPVDTNAVKPIMDQATKAGIPLVFVNRRPQAELTDKMAYVGSDSILAGRLQMEALAKAMNGKGNVAILLGDLANESTRDRTKGVEEVVAKYPNIKIVQKQTAKFTRNDAVDVVSNWMTSGEDIQAIASNNDEMAIGALQALGKNPNHILIAGVDGTPDALQMLKSGKMIATIFQDAKGQGEGAVDAAIKLANGEKVEKIIDVPYQLITKENMAEFTNRNQK	PGPT0016780_78	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_TRANSPORT,PGPT0016780-rbsB|mocB|mglB-K17213	NA	NA
BMS020_03615	1485	mglA_2	COG1129	Galactose/methyl galactoside import ATP-binding protein MglA	ATGAACGCTTTTGCCCTTGAAGCCGAAGGTATCAGTAAGTTCTTCCCCGGCGTGAAGGCGCTCGACAATGTCTCATTACGCGTGCGCCCGGGAACGGTGCACGCCCTGATGGGCGAGAACGGCGCCGGTAAATCCACGCTAATGAAGTGCCTGATCGGTATCTATCGCCCGGATAAAGGATCGATTCGCGTGAAAGGTGAGCCGGTGGAGTTTACCGACACCATGGATGCGCTGCGCTCGGGGATCTCGATGATTCACCAGGAGCTGAATCTGGTGCCGCATATGACGGTGGCGGAGAATATCTGGCTGGGGCGCGAGCCGATGAAGTACGGCTTTGTCGACCACGGCCAGCTGACCCGCCAGACCCAGGCGCTGCTGGATAAGCTGAATATTCGCTTAACTGCCGACCGGCTGGTGGGCGACCTGAGCATCGCCGCCCAGCAGATGGTGGAGATTGCCAAAGCGGTCTCATGGAACGCGGATATTGTGATCATGGATGAGCCCACTTCGGCGCTGACCGAAGGCGAGGTGGCTCACCTGTTCACCATCATCCGCGACCTGCGGGCCCAGGGCAAAGCGATCATCTATATCAGCCATAAAATGGATGAGATCTTCGCGATCACCGATGAGATCAGCGTCTTTCGCGACGGCACCTGGGTGGGGAGCAAAAACACCACCGAATTTACCCGCCAGTCGCTGATCACCCAGATGGTGGGCCGCGAATTAACCCAGCTGTTCCCGAAATTTAATAACACCATCGGCGAAGAGGTGCTGACGGTGCGCAACCTGACGCGCCAGGGCGTGTTCCATGACGTCAGCTTTACCGTGCGTCGCGGCGAGATCCTCGGCGTGGCCGGGTTGGTGGGCGCCGGGCGCAGCGAGGTGATGGAAAGCCTGTTCGGTATGGAACGCTTCGACAGCGGCGAAGTGCTGATCGACGGGGCGCCGGTGACCATTGATTCTCCCTCCGTGGCGATTGAAAAGGGGATGGCGTTATTAACCGAAGACCGCAAAAAGTCGGGCCTGTTTCTGGTGCTGTCGGTGCTGGAAAATATGAGTATCGTCAAAATGCCGGAATATATCGGCAAGAGCGGTTTTGTCCAGCACGTGAAAATGGCCGAAGACTGCATGGAGCAAATCCGCCGGCTCAATATTAAAACGCCGACGATGGATCAAATTATTAATAACCTCAGCGGGGGGAATCAGCAAAAAGTCCTGATTGCGCGCTGGCTGTTAGCGCAACCGAAAATCTTAATTCTCGATGAGCCGACCCGCGGCATCGACGTCGGGGCGAAGGCGGAAATTTATCATCTTATCAGTGAACTGGCGAACCGGGGGGTGGCGGTCATTATGGTCTCCTCTGAGCTGCCGGAAATCCTTGGCATGAGTGACCGGGTCATGGTGATGCATGAAGGTCGTATCACCGGCATCCTGGAAAAAGACGAAGCCGACCAGGAAACCATTTTGTCGTTGGCATCCCATTGA	MNAFALEAEGISKFFPGVKALDNVSLRVRPGTVHALMGENGAGKSTLMKCLIGIYRPDKGSIRVKGEPVEFTDTMDALRSGISMIHQELNLVPHMTVAENIWLGREPMKYGFVDHGQLTRQTQALLDKLNIRLTADRLVGDLSIAAQQMVEIAKAVSWNADIVIMDEPTSALTEGEVAHLFTIIRDLRAQGKAIIYISHKMDEIFAITDEISVFRDGTWVGSKNTTEFTRQSLITQMVGRELTQLFPKFNNTIGEEVLTVRNLTRQGVFHDVSFTVRRGEILGVAGLVGAGRSEVMESLFGMERFDSGEVLIDGAPVTIDSPSVAIEKGMALLTEDRKKSGLFLVLSVLENMSIVKMPEYIGKSGFVQHVKMAEDCMEQIRRLNIKTPTMDQIINNLSGGNQQKVLIARWLLAQPKILILDEPTRGIDVGAKAEIYHLISELANRGVAVIMVSSELPEILGMSDRVMVMHEGRITGILEKDEADQETILSLASH	PGPT0016795_310	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_lNOSITOL_TRANSPORT_1,PGPT0016795-rbsA|mglA-K17215	NA	NA
BMS020_03616	1032	rbsC_2	COG1172	Ribose import permease protein RbsC	ATGAGTAATATGAAATTAACGGCGGCTCCGGCCAGCGAGGGTTCCTCCTTCTTCGCTAATTTGCGGCATAAAATGCCGAAAGATACCGGCATCTTTGTGGTGATGCTGGTGATTGCCCTGACATTTGAAATCGCCGGCTGGTATGTTCGCGACCAGTCGTTCCTGCTCAATACCAACCGCCTGGTGCTGATTGTGCTGCAGGTGGCGATCATCGGCATCATCGCCGTCGGCGTCACCCAGGTGATCATCACCACCGGGATTGACCTCTCCTCCGGCTCGGTTATCGCCCTCGCGGCGGTGGTGGCGGCGAGCCTGGCGCAAACCTCCGACAGCCTGTCGCCGATGTTCCCGGCGCTGGTCAACCTGCCGGCGGTGATCCCGATTTGCGCGGGGATCGGCGTCGGCCTGCTGTGCGGGCTGACCAACGGTTTCCTGGTGACGCGAACCGGTATCCCGCCGTTTATCGCCACCCTCGGGATGATGGTCTCGGCGCGCGGTCTGGCGCAGTATTACACTCAGGGCAATCCGATAAGCTTCCTCTCCGACAGCTTTACGGCGATAGGCCAGGGGGCGATGCCGGTGATCATCTTCTTCGTGATCGCCGCGGTGTTTCACATTGCGCTGAAGCATACCCGGTATGGCAAATATGTGTATGCCATCGGCGGCAACATGACCTCGGCCAAAGTGTCCGGCATCAACGTGAATAAGTACCTGGTGATTGTCTACACCATCGCCGGGGCGCTCTCCGGGCTGGCGGGGGTGGTGCTGGCGGCGCGCGTCAGCAGCGGCCAGTCCAGCATGGGGATGTCCTACGAGCTGGACGCGATTGCCGCAGCGGTGATCGGCGGCAGCAGCTTAATGGGCGGGGTGGGGCGCATTACCGGCACCCTGATTGGCGCGATGATCCTTGGCCTGATCAAGAGCGGCTTTACCTTTGTCGGCGTCGATGCCTACGTGCAGGATATTATTAAAGGGATCATTATCGTCGCGGCGGTGACCATCGACATGCGCCGCAACCGGAAAAAACACTAA	MSNMKLTAAPASEGSSFFANLRHKMPKDTGIFVVMLVIALTFEIAGWYVRDQSFLLNTNRLVLIVLQVAIIGIIAVGVTQVIITTGIDLSSGSVIALAAVVAASLAQTSDSLSPMFPALVNLPAVIPICAGIGVGLLCGLTNGFLVTRTGIPPFIATLGMMVSARGLAQYYTQGNPISFLSDSFTAIGQGAMPVIIFFVIAAVFHIALKHTRYGKYVYAIGGNMTSAKVSGINVNKYLVIVYTIAGALSGLAGVVLAARVSSGQSSMGMSYELDAIAAAVIGGSSLMGGVGRITGTLIGAMILGLIKSGFTFVGVDAYVQDIIKGIIIVAAVTIDMRRNRKKH	PGPT0016800_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_lNOSITOL_TRANSPORT_1,PGPT0016800-rbsC|mglC-K17214	NA	NA
BMS020_03617	642			hypothetical protein	ATGAATACACCATCCATAGGCAAATCCTCGCCGGTCTGGCGACCGGGAAGAAGGGGCGTGATCGTCACGCTGCTCGTTGGCCTGGCGATCCTGATCATCGGCCGGGGCGGGCATTTTCTGGCCAGAGAGGTTTGCCGCGAAATGTATACCCGTCAGCTGGAGAAGGATGCGCAGTGGGTGGCGTCACGCCTCGAACGGCGGATGAACACGCCGGCGCGGCAGCGGGAAGCCACCTGGCCGCTGGCGGTGATGCGCGCGGATCTCTATGCCCTGGCCCGGCAGCGACATTATCAGCTGCTGCTGGTAAATAGCGACGGGCATCTGCTGGCGGCATCGCATGCGCTGCCGGCCAGCGTGCTGGCCCAGGTTCAGGCGCAATTTCCCAGGGAGATGCAGCCGCCGCTGTTCGGCAGCCATTACCAGACCATTCAGCCCTTCGCCCCGCATCAGCGGATGTTAAGCCGGGCGCTGAACGGCAATGCAGGCCTGGCGGGCTGGAATCTCGTGATGCTGGCGCCGGACGGCGGTTTGCCCTCGCTGCTGATGGCTTACCGTTGGCCAGTCACGATTGGCCTCGGCGCGGTGCTCGCCGGCACGCTGCTGGCGGTGAGGCGGGCGGCGCGCGCCCGGCGAAAACGCTAA	MNTPSIGKSSPVWRPGRRGVIVTLLVGLAILIIGRGGHFLAREVCREMYTRQLEKDAQWVASRLERRMNTPARQREATWPLAVMRADLYALARQRHYQLLLVNSDGHLLAASHALPASVLAQVQAQFPREMQPPLFGSHYQTIQPFAPHQRMLSRALNGNAGLAGWNLVMLAPDGGLPSLLMAYRWPVTIGLGAVLAGTLLAVRRAARARRKR				NA	NA	NA	NA	NA
BMS020_03618	1005	cra_1	COG1609	Catabolite repressor/activator	ATGAAAACCAAACGCGTAACTATCAAAGATATCGCCGAACTGGCGGGCGTCTCCAAAGCGACCGCCAGTCTGGTGCTTAACGGTCGTGGCAAAGAGCTGCGCGTGGCGCAGGAGACGCGCGAGCGCGTGCTGGCGATCGCCCGCGAGCAGCACTATCAACCCAGCATTCACGCGCGCTCGCTGCGCGATAACCGCAGCCATACCATTGGCCTGGTGGTGCCGGAAATCACCAACTACGGGTTTGCCGTTTTCTCCCATGAGCTTGAGACGCTCTGCCGGGAAGCCGGCGTGCAGCTGCTTATCTCCTGCACCGACGAAAACCCCGGCCAGGAGAGCGTGGTGGTCAATAACATGATTGCTCGCCAGGTCGACGGCCTGATCGTCGCCTCGTGCATGCACAGCGATGCCGACTACCTGAAGCTCAGCGAACAGCTGCCGGTGGTGCTGTTTGACCGCTCCCCCAGCGACAGCGCCCTGCCGCTGGTGATGACCGACTCGGTCACCCCAACGGCCGAGCTGATCTCCCGCATCGCCCCTCAGCATGCGGACGAGTTCTGGTTTCTCGGCGGCCAGCCGCGTCTATCGCCATCGCGCGACCGGCTGGCGGGATTCACCCAGGGCCTGGCTCAGGCGGGGGTCACGCTGCGTCCCGAGTGGGTGATCAACGGCAACTATCACCCCAGCTCCGGCTATGAGATGTTCGCCGCGCTCTGCGCGCGGCTGGGCCGGCCGCCGAAAGCGCTGTTCACAGCGGCCTGCGGCCTGCTCGAAGGGGTCCTGCGCTATATGAGCCAGCACCATCTGCTGGACTCCAATATTCATCTCGCCAGCTTCGACGATCACTATCTGTACGATTCACTTTCCCTGCGCATTGATACCGTGCAACAGGATAATCGACAGCTGGCCTGGCACTGTTACGATCTGCTCAGCCAGCTGATCGACGGCCAGGCGCCGGAGCCGCTCCAGCGCTATCTGCCCGCCACCCTGCAGTTTCGCCATGCCTGA	MKTKRVTIKDIAELAGVSKATASLVLNGRGKELRVAQETRERVLAIAREQHYQPSIHARSLRDNRSHTIGLVVPEITNYGFAVFSHELETLCREAGVQLLISCTDENPGQESVVVNNMIARQVDGLIVASCMHSDADYLKLSEQLPVVLFDRSPSDSALPLVMTDSVTPTAELISRIAPQHADEFWFLGGQPRLSPSRDRLAGFTQGLAQAGVTLRPEWVINGNYHPSSGYEMFAALCARLGRPPKALFTAACGLLEGVLRYMSQHHLLDSNIHLASFDDHYLYDSLSLRIDTVQQDNRQLAWHCYDLLSQLIDGQAPEPLQRYLPATLQFRHA	PGPT0018830_335	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
BMS020_03619	1401	scrB	COG1621	Sucrose-6-phosphate hydrolase	ATGTCATTACCGTCACGCCTGCCTGCGATCCTGCAGGCCGTTATGCAGGGCCAGCCGCAGGCGCTGGCCGACAGCCATTACCCGCAATGGCATCTGGCGCCGGTCAGCGGACTGCTGAACGATCCCAACGGCTTTTGCCAGGTCGCCGGGCGTTACCACCTGTTTTATCAGTGGAATCCGCTCGCCTGCGACCACACCTACAAGTGCTGGGGACACTGGAGCTCAGCCGATCTGCTGCACTGGCGGCATGAACCTATCGCCCTGATGCCGGATGAAGAGTATGACCGCAACGGCTGCTACTCCGGCAGCGCGGTCGAGTTCGAGGGCGCCCTGACCCTTTGCTATACCGGCAACGTGAAATTCCCCGACGGCGGGCGCACCGCCTGGCAATGTCTGGCGACGGAAAATGCCGATGGCACCTTCCGCAAGCTGGGGCCGGTGCTGCCGCTGCCGGAAGGCTATACCGGCCATGTGCGCGACCCTAAAGTGTGGCGACAGGACGGGCGCTGGTACATGGTCCTCGGGGCGCAGGATGTGCAACAGCGCGGCAAAGTGCTGCTGTTTACCGCCAGCGACCTGCGGGATTGGCGCCTGGTGGGCGAGATAGCCGGGCATGAGGTTAACGGCCTGGCGAACGGCGGCTACATGTGGGAGTGCCCGGACCTGTTTCCGCTGGCGGACACCCACCTGCTGATCTGCTGCCCGCAGGGGCTGGCCCGCGAAGCGCAGCGCTTTCTCAATACCTATCCGGCGGTGTGGATGGCAGGCCGTTTCGACGCCGAACGCGGCGCCTTCGACCATGGTCCGCTGCACGAGCTGGACAGCGGATTTGAGTTCTACGCGCCGCAAACCATGCTGGCCGAGGATGGCCGCCGCCTGCTGGTCGGCTGGATGGGCGTCCCGGATGGGGAAGAGATGCATCAACCCACCCGCGCGCAGGGGTGGATCCACCAGATGACCTGCGTGCGCGAGCTGGAGTGGCAGGCGGGCACCCTGTATCAGCGCCCGCTGCGCGAGCTGGCCGCCCTGCGCGGCGAAGCCGAGGGCTGGCGCGGACAGACCCTTCCCCTCGCCCCGATGGAGCTGGCCTTTGACATCGCCCCCAACAGCACGCTGGGGCTGGATTTTGCCGGCGCCCTGCAGCTCACCGTCAACCGCGACGGCCTGCGTCTGTCGCGCCGCGGGCTGCAGACGGCGGAGATGCATCACCGCTACTGGCGCGGCGAGGCGCGGCGCCTGCAGATCTTTATCGACCGCTCCAGCGTGGAGATTTTCATCAACGATGGCGAAGGGGTGATGAGCAGCCGCTTCTTCCCGGGCTATCCGGGGCAGTTAATCTTCAGCGGTGCGACGCCGGTGGCATTCTGCCGCTGGCTGCTGCGGCCATGCATGGTAGAATAA	MSLPSRLPAILQAVMQGQPQALADSHYPQWHLAPVSGLLNDPNGFCQVAGRYHLFYQWNPLACDHTYKCWGHWSSADLLHWRHEPIALMPDEEYDRNGCYSGSAVEFEGALTLCYTGNVKFPDGGRTAWQCLATENADGTFRKLGPVLPLPEGYTGHVRDPKVWRQDGRWYMVLGAQDVQQRGKVLLFTASDLRDWRLVGEIAGHEVNGLANGGYMWECPDLFPLADTHLLICCPQGLAREAQRFLNTYPAVWMAGRFDAERGAFDHGPLHELDSGFEFYAPQTMLAEDGRRLLVGWMGVPDGEEMHQPTRAQGWIHQMTCVRELEWQAGTLYQRPLRELAALRGEAEGWRGQTLPLAPMELAFDIAPNSTLGLDFAGALQLTVNRDGLRLSRRGLQTAEMHHRYWRGEARRLQIFIDRSSVEIFINDGEGVMSSRFFPGYPGQLIFSGATPVAFCRWLLRPCMVE	PGPT0018815_2716	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOFURANOSIDASE,PGPT0018815-sacA-K01193	NA	NA
BMS020_03620	1371	sacX	COG1263	Negative regulator of SacY activity	ATGGATTTTGAACAGATTTCCCGCTCACTGCTTCCCCTGCTGGGCGGCAAGGAAAATATCGCCAGCGCCGCGCACTGCGCCACCCGCCTGCGGCTGGTGCTGGTCGACGACGCGCTCGCCGACCAGCAGGCGATTGGCAAAATCGACGGCGTGAAAGGCTGCTTTCGCAATGCCGGCCAGATGCAGATCATCTTCGGCACCGGGGTGGTCAATAAAGTCTATGCCGCCTTTATCCAGGCGGCGGGCATCAGCGAATCGAGCAAATCCGAAGCCGCCGACCTGGCGGCGAAAAAGCTGAACCCGTTCCAGCGCATCGCCCGCCTGCTGTCCAACATCTTCGTGCCGATTATTCCGGCCATCGTCGCCTCCGGCCTGCTGATGGGCCTGCTGGGGATGGTGAAAACCTACGGCTGGGTCGACCCGGGCAACGCTATCTATATCATGCTGGATATGTGCAGCTCGGCGGCGTTTATCATTCTGCCGATCCTGATCGGCTTTACCGCCGCCCGCGAATTTGGCGGTAACCCTTATCTGGGCGCGACCCTCGGCGGGATCCTCACCCACCCGGCGTTGACCAACGCCTGGGGCGTCGCCGCCGGCTTCCACACCATGAATTTCTTCGGCATCGAAGTGGCGATGATCGGCTATCAGGGCACGGTCTTCCCGGTGCTGCTGGCGGTGTGGTTTATGAGCCTTGTCGAGAAACGGCTGCGCCGCATTATCCCTGACGCGCTGGATCTGATCCTCACGCCGTTCCTGACGGTGATTATCTCCGGCTTTATCGCCCTGCTGCTAATCGGCCCGGCCGGCCGCGCGCTCGGCGACGGCATTTCGTTTATCCTCAGCACGCTTATCAGCCACGCCGGCTGGCTGGCGGGCCTGCTGTTTGGCGGCCTCTATTCGGTGATCGTCATTACCGGTATCCATCACAGCTTCCATGCCATCGAGGCGGGCCTGCTCGGCAATCCGTCGATCGGCGTCAACTTCCTGCTGCCGATCTGGGCCATGGCCAACGTCGCCCAGGGCGGCGCCTGCTTTGCGGTGTGGTTTAAAACCAAAGATGCCAAAATCAAAGCTATCACCCTGCCGTCGGCGTTTTCGGCGATGCTGGGGATCACCGAGGCGGCAATCTTCGGGATTAACCTGCGCTTTGTGAAACCGTTCATCGCCGCGCTGGTGGGCGGTGCCGCCGGCGGCGCCTGGGTGGTATCGATGCACGTCTACATGACCGCGGTGGGCCTGACGGCGATCCCGGGAATGGCCATCGTGCAGGCCAGCTCGCTGCTGAACTACATTATCGGGATGGCGATCGCCTTCGCCGTGGCCTTCACGCTTTCTCTGACGCTGAAATACAAAACGGACGCTGAATAA	MDFEQISRSLLPLLGGKENIASAAHCATRLRLVLVDDALADQQAIGKIDGVKGCFRNAGQMQIIFGTGVVNKVYAAFIQAAGISESSKSEAADLAAKKLNPFQRIARLLSNIFVPIIPAIVASGLLMGLLGMVKTYGWVDPGNAIYIMLDMCSSAAFIILPILIGFTAAREFGGNPYLGATLGGILTHPALTNAWGVAAGFHTMNFFGIEVAMIGYQGTVFPVLLAVWFMSLVEKRLRRIIPDALDLILTPFLTVIISGFIALLLIGPAGRALGDGISFILSTLISHAGWLAGLLFGGLYSVIVITGIHHSFHAIEAGLLGNPSIGVNFLLPIWAMANVAQGGACFAVWFKTKDAKIKAITLPSAFSAMLGITEAAIFGINLRFVKPFIAALVGGAAGGAWVVSMHVYMTAVGLTAIPGMAIVQASSLLNYIIGMAIAFAVAFTLSLTLKYKTDAE	PGPT0014190_1188	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
BMS020_03621	1518	scrY_2		Sucrose porin	ATGTATAAAAAACGGAAGTTAGCCATTCTTATTGCTTTGCTAACCGGCGCCGCCGCCGCCCATGGGCAGACAGACCTGAACAGCATTGAAGCGCGTCTCGCCGCCCTGGAAAAACGTCTGCAGGATGCCGAGACCCGCGCCAGTACCGCCGAAAGCCGCGCCGCCTCAGCGGAGCAGAAAGTTCAGCAGCTAACCCAGCAGCAGCAGCAAACCCAGGCCACCACCCAGCAGGTGGCCAAGCGCACCACCCAACTGGAAGAAAAAGCCGAACGGCCCGGCGGCTTTGAGTTCCACGGCTACGCCCGCTCCGGGGTGATCATGAACGACTCCGCCGCCAGCACGAAATCCGGGGCCTATATGACCCCCGCCGGGGAGACCGGCGGCGCCATTGGTCGTCTTGGCAACCAGGCCGACACCTATGTGGAAATGAACCTCGAACATAAGCAGACCCTGGACAACGGGGCGACCACCCGTTTTAAAGTGATGGTGGCCGACGGGCAAACTACCTATAACGACTGGACGGCGAGCAGCAGCGACCTGAACGTGCGCCAGGCGTTCGTCGAGCTGGGCAACCTGCCGACCTTCGAGGGTCCGTTCAAAGGCTCGACCCTGTGGGCCGGGAAACGCTTTGACCGCGACAACTTCGACATCCACTGGGTTGACTCGGATGTGGTGTTCCTCGCCGGGACCGGCGGCGGGATCTACGACGTGAAGTGGAACGACAGCCTGCGCAGCAACTTCTCGTTATATGGCCGCAACTTTGGCGATATCGCCGACAGCAGCAACAGCGTGCAGAACTATATCGTCAGCATGAATAACTTTGCCGGCCCGGTGCAGATGATGGTCAGCGGGATGCGGGCGAAAGATAATGACGACCGCCAGGACGCGAACGGCAATCTGGTGAAAGGCGATGCCGCTAACACCGGGGTTCATGCCCTGCTGGGTCTGCACAATGAGAGCTTCTATGGCCTGCGCGACGGGACCAGCAAAACGGCCCTGCTGTATGGCCACGGACTGGGCGCCGAGGTTAAAGGCATCGGCTCCGACGGCGCGCTGCGACCGGGGGCCAATACCTGGCGTTTCGCCAGCTACGGCACCACGCCGCTGAGCGATCGCTGGTTTATTGCCCCGGCCGTGCTGGCGCAGAGCAGTAAAGACCGCTATGTCGATGGCGACAGCTATCAGTGGGCCACTCTCAACCTGCGTCTGATTCAGGAGGTCACGCAGAACTTCGCCCTCGCCTGGGAGGGCAGCTATCAGTACATGGATCTGCAGCCTGAAGGCTACAACGATCGCCATGCGGTCAACGGCAGCTTCTACAAGCTGACCTTCGCCCCGACCTTCAAGGTCGGCAGCATCGGTGACTTCTTCTCGCGTCCGGAGATCCGCTTCTACACCTCGTGGATGGACTGGAGCAAAAAGCTGGATAACTACGCCAACGACGACGCGTTAGGCAGCAACGGATTCAAATCGGGCGGCGAATGGTCGTTCGGTATGCAAATGGAGACCTGGTTCTGA	MYKKRKLAILIALLTGAAAAHGQTDLNSIEARLAALEKRLQDAETRASTAESRAASAEQKVQQLTQQQQQTQATTQQVAKRTTQLEEKAERPGGFEFHGYARSGVIMNDSAASTKSGAYMTPAGETGGAIGRLGNQADTYVEMNLEHKQTLDNGATTRFKVMVADGQTTYNDWTASSSDLNVRQAFVELGNLPTFEGPFKGSTLWAGKRFDRDNFDIHWVDSDVVFLAGTGGGIYDVKWNDSLRSNFSLYGRNFGDIADSSNSVQNYIVSMNNFAGPVQMMVSGMRAKDNDDRQDANGNLVKGDAANTGVHALLGLHNESFYGLRDGTSKTALLYGHGLGAEVKGIGSDGALRPGANTWRFASYGTTPLSDRWFIAPAVLAQSSKDRYVDGDSYQWATLNLRLIQEVTQNFALAWEGSYQYMDLQPEGYNDRHAVNGSFYKLTFAPTFKVGSIGDFFSRPEIRFYTSWMDWSKKLDNYANDDALGSNGFKSGGEWSFGMQMETWF	PGPT0014185_160	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_SUCROSE_TRANSPORT,PGPT0014185-scrY-K16077	NA	NA
BMS020_03622	924	scrK_1	COG0524	Fructokinase	ATGAATGGTAAAATCTGGGTACTCGGCGATGCGGTCGTCGATCTCCTGCCCGACGGAGAGGGCCGCCTGCTGCAATGCCCCGGCGGCGCGCCGGCCAACGTCGCGGTCGGCGTGGCGCGGCTCGGCGGCGACAGCGGGTTTATCGGCCGCGTCGGCGACGATCCGTTCGGTCGCTTTATGCGCCACACCCTGGCGCAGGAGCAGGTCGATGTGGATTTTATGCGCCTCGACGCGACGCAGCGCACCTCCACGGTGGTGGTCGATCTCGATCGGCACGGGGAGCGCACCTTTACCTTTATGGTCCGCCCGAGCGCCGACCTGTTTCTTGCGCCTGAGGATCTTCCGCCGTTCGCCGCCGGCCAGTGGCTGCACGTCTGCTCTATCGCCCTCAGCGCGGAACCGAGCCGCAGCACGGCATTCGCGGCGATGGAGGCGATAAAGCGCGCCGGGGGCTATGTCAGCTTCGACCCCAATATCCGTAGCGACCTGTGGCAGGATCCGCAGGAGCTGCGCGACTGTCTCGACCGGGCGCTGGCCCTCGCCGACGCCATAAAACTGTCGGAAGAGGAGCTGGCTTTTATCAGCGGCAGCGACGACATCGTCAGCGGCATCGCCCGGCTGAACGCCCGCTTCCAGCCGACGCTGCTGTTGGTCACCCAGGGCAAAGCGGGAGTCCAGGCCGCGCTGCGCGGGCAGGTTAGCCACTTCCCCGCCCGCCCGGTAGTGGCCGTCGATACCACCGGCGCCGGCGATGCCTTTGTCGCCGGGCTGCTCGCCGGGCTCGCCGCCCACGGCATCCCTGACAACCTCGCCGCCCTGGCGCCGGACCTCGCGCTGGCGCAAACCTGCGGCGCGCTGGCCACCACCGCCAAAGGCGCCATGACCGCCCTGCCCTACAGGGAGGATCTTCAGCGCTCGCTGTGA	MNGKIWVLGDAVVDLLPDGEGRLLQCPGGAPANVAVGVARLGGDSGFIGRVGDDPFGRFMRHTLAQEQVDVDFMRLDATQRTSTVVVDLDRHGERTFTFMVRPSADLFLAPEDLPPFAAGQWLHVCSIALSAEPSRSTAFAAMEAIKRAGGYVSFDPNIRSDLWQDPQELRDCLDRALALADAIKLSEEELAFISGSDDIVSGIARLNARFQPTLLLVTQGKAGVQAALRGQVSHFPARPVVAVDTTGAGDAFVAGLLAGLAAHGIPDNLAALAPDLALAQTCGALATTAKGAMTALPYREDLQRSL	PGPT0017625_3039	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
BMS020_03623	768	iprA_7		Inhibitor of hydrogen peroxide resistance	GTGAGCCAGGCGGAATATTTCGCCACTCCAGATCTGGACTTTTCCTTCCTGACCCGCTTAGGTATAGTTCCACAGGCCGCGGTTAACCCCACCGCGGTGATAAAAGGTGAAGGAGTGCGTAGCGCGATGAACCCCAGTTTTGGCGATATTTACGATCGGTACCAGAAGCTGTCGCTGACCACGCACCTGCCGGCGGTCATCGCCTGCAGTGAAACCCTGAGCCTGAGTAAAGACCAGCCATTTCTGCCGCAGCCGGGCTATCTCTATTTTTTGCTGCAGGGGCAAATGACGTTGGCCTTTGGTGATGAGCAGAACCTGCTCGGGATTGTTATCGCGCATATGCCGTTAGGGCTGCTTGAACATTATTGTCCGTCGGTGGCGCTCTATTATCGGTGTCTGGGCGAATGCCAGCTGGCGAAAATATCCGCCAGCGATTTTGAACGGATATTCTTTCATTCGTCGCCGGGCTATATGCAAGAGCTGACCACGATCCTGGCCTATATGGGCATATTTGCCCTTGATGCCCACTATGAACGCGGCAGCCAGACCAGCTTTCAGACCATTAAATCAATGCTGTCGCGCTATTTATATCGTGGAGGAATCGATGGTGGTCAGCATGAAAGCCTGTCGGCATTTATTATTAAACGAACCAATCTTTCGCGCAGCTATGTTTATCAGGTGCTGGCCGCCCTGCGCGAGGGAGGATATATCACGGTGAAAAAAGGCAAACTGATTTCCATCGACCGTCATATTCCTGAGAAATTCTGA	MSQAEYFATPDLDFSFLTRLGIVPQAAVNPTAVIKGEGVRSAMNPSFGDIYDRYQKLSLTTHLPAVIACSETLSLSKDQPFLPQPGYLYFLLQGQMTLAFGDEQNLLGIVIAHMPLGLLEHYCPSVALYYRCLGECQLAKISASDFERIFFHSSPGYMQELTTILAYMGIFALDAHYERGSQTSFQTIKSMLSRYLYRGGIDGGQHESLSAFIIKRTNLSRSYVYQVLAALREGGYITVKKGKLISIDRHIPEKF				NA	NA	NA	NA	NA
BMS020_03624	345	yiaW_3		Inner membrane protein YiaW	ATGACCCTGGACTATGTGGCGCTGGCCATTCTCATCGCCGTGGCCTTAATACTTTTTTATGGCGTGATTGTTATTCACGATATTCCTTATGAAATCGCCAAAGAGCGGCGCCATCCTCATCAGGATGCGATTCATTATGCCGGCTGGGTCAGCTTATTTACCCTGCATGCCCTGTGGCCCTTGTTGTGGATCTGGGCGACGCTGTGGCGCGAAGACCGCGGATGGGGAATGCGCCGCATCGCCGACGATCAGCAGGCCCTGCATCAGCGTCTGGAGACGGTCGTTCAGCGACTGGAGCAGGTGCAGCGCGAGGTCGAGGAACTTAAAGCGAAGGAGGCAGAATAA	MTLDYVALAILIAVALILFYGVIVIHDIPYEIAKERRHPHQDAIHYAGWVSLFTLHALWPLLWIWATLWREDRGWGMRRIADDQQALHQRLETVVQRLEQVQREVEELKAKEAE				NA	NA	NA	NA	NA
BMS020_03625	1143	yiaV_2	COG1566	Inner membrane protein YiaV	ATGGAAACGTTAATGTTGCTGACCTACGCCGCGCTATGCATCGTGGTGTTTAAAGTTTTCCGCATTCCGCTCAATAAGTGGACCGTGCCGACGGCGGTGCTCGGCGGTATCGCCCTGATTGGCGCGGTGATCTTCGGGATGAACTACAACTTCCCCTATACCGACGTCGGTAATCAGGTGTTTCGCACCGTGCCGATTGTGTCGCAGGTACGCGGTCGGGTGCAGACCGTACCGGTGAAGCCTAACCAGAGGCTGCATAAGGGTGATGTGCTGTTTACTCTCGACCCGACGCCGTTCCAGGCAAAGGTGGACGATCTGCAGGCGCAAATTAAAGCGGCCAGTCAGGATGCGCTCTCCCTCAACGCCGCGTTAAGCCAGGCGGAGGCCGAGCTGAGCAGAGCGGTGGCCCAGCGCGACCAGTCGCGGCGGGAGTATGCCCGCTTTCGGGAGGGGCATGCTCAGGGCGCCTTCTCCGATCAAATGGTCGATACCCGTCTGCAGACGTGGAAAGCCGATGAAGCCAGCGTCAGCGCGGCTCAGGCGAACGTGGTTCAGGCGCGTAACGCGCTGGACTCGGTGGTGAAGGGCAAAAATACCACCGTGGCCTCCCTGCTGGCGCAGTTGCAGAAGGCGCAGTTTCAGCTGGATAACACCGTCGTCCGCGCCCCGGAAGACGGCTATGTCAGCACCGTCGGCTTACGGCCAGGCACCATGTCCACCGCGCTGGGGATGCTGCCGGTGATGACCTTTGTGCCGGTGGAGGGCGACGCCTCGCGGGAGTATGTCGCGGCATTTCGCCAGAACGCCCTGCAGCGTCTGCACAAAGGCGAGCCCGCGGAGCTGATGTTTCCGGCCATTCCGGGCACCGTCTTCCGCGGGGAAGTGGCCGACGTGCTGCCGGCGATTGGCGAGAGTCAGTTTCAGGGCCAGGGCAAACTGCTGACCACGGACGCGCTCAATACCCATGGCCGGGCGCTGGTGGTGCTGAAGGTGACCGATCCGCGATTTGCCGAATACGCTCTACCGCAGGGGGCCACCCTCGAGGCGGCGGTCTACTCGGATCACCTGAAAGAGCTGTCGCTGATCCGGAAGATCTTGATCCGCATGAAGAGCTGGGAAAACTATATCTATCTCGATCACTAA	METLMLLTYAALCIVVFKVFRIPLNKWTVPTAVLGGIALIGAVIFGMNYNFPYTDVGNQVFRTVPIVSQVRGRVQTVPVKPNQRLHKGDVLFTLDPTPFQAKVDDLQAQIKAASQDALSLNAALSQAEAELSRAVAQRDQSRREYARFREGHAQGAFSDQMVDTRLQTWKADEASVSAAQANVVQARNALDSVVKGKNTTVASLLAQLQKAQFQLDNTVVRAPEDGYVSTVGLRPGTMSTALGMLPVMTFVPVEGDASREYVAAFRQNALQRLHKGEPAELMFPAIPGTVFRGEVADVLPAIGESQFQGQGKLLTTDALNTHGRALVVLKVTDPRFAEYALPQGATLEAAVYSDHLKELSLIRKILIRMKSWENYIYLDH				NA	NA	NA	NA	NA
BMS020_03626	798	fhuC_1	COG1120	Iron(3+)-hydroxamate import ATP-binding protein FhuC	ATGAGCGACCAGACGTTATCCGGGCTGTCGCTGTCTCACTTCAGCGCCGGCTACCCCAGACGCAAGGTGATCGAGAACCTGACGGTTCCCCATCTACCGCGGGGGAAAATCACCGCGCTGCTGGGGCCAAACGGCAGCGGTAAATCGACGTTAATGCGGGCGATGGCGGGTCTGGGCCCCTGCCGCGGCGAGCTGCTGCTGGAGGGGGAAAATCTGCTGACGCAGCCGTTCGCACGTCGCGCGGAACAGGTGGTTTATCTTCCGCAGACGCTGCCCGCCGGCGTGCATCTGCATGTGCTGGAGTCGATTATCGTGGCCCAGCGCGCCGCCGGAGGACGCCACAGTCCGCAGCACCAGGAGGAGGTGATGGCGCTGCTGCGCCAGCTGGGAATTGCCCATCTGGCGATGAGCTACCTCGATCAGCTCTCCGGCGGGCAAAAACAGCTGGTGGGTCTCGCCCAGTCGCTGATTCGCCAGCCGCGCCTGCTACTGCTCGACGAACCGCTCAGCGCGCTTGATCTCAACTATCAATTTCACGTGATGGATCTGGTGCGCCGGGAGACCCGACGGCGCAACATCGTGACCCTGGTGGTGGTGCACGATATCAATATTGCCCTGCGTCACGCCGACCACGTGCTGATGCTCAAAGCGGGCCAGCTGCTCGGCGACGGCACCCCGGCCGCGGTCATCACCCCCGAGACCCTGGCGGCCGTCTATGGCGTGCGCGGGCGTATTGAACCCTGTTCGCAGGGGGTGCGGCAGGTGATTATTGACGGGCTGGTGGACAGCGAGGCCTGA	MSDQTLSGLSLSHFSAGYPRRKVIENLTVPHLPRGKITALLGPNGSGKSTLMRAMAGLGPCRGELLLEGENLLTQPFARRAEQVVYLPQTLPAGVHLHVLESIIVAQRAAGGRHSPQHQEEVMALLRQLGIAHLAMSYLDQLSGGQKQLVGLAQSLIRQPRLLLLDEPLSALDLNYQFHVMDLVRRETRRRNIVTLVVVHDINIALRHADHVLMLKAGQLLGDGTPAAVITPETLAAVYGVRGRIEPCSQGVRQVIIDGLVDSEA	PGPT0003760_3635	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
BMS020_03627	1083	hmuU_2	COG0609	Hemin transport system permease protein HmuU	ATGCGTTTAACTTCCGACTCCGTTCTGGACGGGCTGCCCGCCGGGACGCCTGGCGTGATGGATCATTATCGCCATATCGTGCGTCGCCGCCTGCTGCTGATGCTGCTGCTGGCGCTGTTGATTGTCGCTTCGCTGCTGCTCGATTTTATGCTCGGCCCCTCCGGACTGCCGCTGCAGAGCCTGTGGCAGACGTTAACCGATCCGGCCAGCGCCGATCCGGGCACTCGCGCCATCGTCTGGGACATCCGGCTGCCCTATGCGGTGATGGCGATTATCGTCGGTCTGGCGCTGGGACTGGCCGGTGCCGAAATGCAGACCATCCTCAATAACCCGCTGGCCAGTCCGTTTACCCTGGGCGTCTCCTCGGCTGCGGCGTTTGGCGCCGCGCTGGCGATTGTGCTGGGCATTGGCCTGCCCGGTATTCCCGGCCAGTGGTTTATCTCGGCCAACGCCTTTATCTTCGCCCTGCTGGCGGCCCTGCTGCTGGACGGCATTACCCGCTGGACCCAGGTGGCCACCTCCGGCGTCATTCTGTTCGGCATCGCGCTGGTCTTTACCTTTAACGCCCTGGTCTCGATGCTGCAGTTTATCGCCAATGAAGACACGCTGCAGGGGCTGGTGTTCTGGACCATGGGCAGCATCGACCGCGCCTCCTGGAGCAAAGTCGCCATCCTGCTGGTCGCCCTGGCGCTGGTGATGCCCCTGTCGCTGCGCAGCGCGTGGAAGCTGACCGCCCTGCGTCTGGGCGAGGACCGGGCCCTCAGCTTTGGCATTAACGTTCGCCGTCTGCGCCTGGCCACACTGCTGCGGATCAGCATTTTGTCGGCGCTTTCGGTGGCCTTTGTCGGGCCAATCGGCTTTATCGGCCTGGTGGCGCCGCATATTGCGCGGATGCTCTTCGGCGAAGACCATCGCTTTTACCTGCCCGCCAGCGCGCTGATCGGCGCCCTGGTGCTCTCCCTGGCCTCCATCGCCTCGAAGAACCTGATCCCGGGGGCCATTATTCCGGTGGGGATCGTCACTTCCCTGGTAGGGGTCCCGTTCTTTTTAAGCATTATTTTACGTCACCGGGGGCAGGTATGA	MRLTSDSVLDGLPAGTPGVMDHYRHIVRRRLLLMLLLALLIVASLLLDFMLGPSGLPLQSLWQTLTDPASADPGTRAIVWDIRLPYAVMAIIVGLALGLAGAEMQTILNNPLASPFTLGVSSAAAFGAALAIVLGIGLPGIPGQWFISANAFIFALLAALLLDGITRWTQVATSGVILFGIALVFTFNALVSMLQFIANEDTLQGLVFWTMGSIDRASWSKVAILLVALALVMPLSLRSAWKLTALRLGEDRALSFGINVRRLRLATLLRISILSALSVAFVGPIGFIGLVAPHIARMLFGEDHRFYLPASALIGALVLSLASIASKNLIPGAIIPVGIVTSLVGVPFFLSIILRHRGQV	PGPT0003770_1370	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
BMS020_03628	1119	btuF_1		Vitamin B12-binding protein	ATGGCAAGAAAATCAGTAAGATCGCTGTTGCTTACTGCGCTGATCGCGACGCCCTTCCTCAGCTATGCGACCCAATATCCGCTGACGGTTACCGACCTTGACGGCCGGCAGGTCACCCTGGTCAAAGAGCCGCAGCGTATTATTTTGCAGGATGGTCGCGACATTATGACCCTCGCCCTGCTGGACCGGGACAATCCGTTTAAGCGGCTGGTGGCATGGAATAATCTGGCGAAAAAGCAGGATGTTGCCACCTGGCAGATGCTGAAAACGGCGTGGCCGCAGTCGGCTACGATTCTGGACATGGGCTTCAGCGACAAGGGGAACGTCGATCTTGAAAGCGTCATCGCCCGCCAGCCGGATCTGATGATCGCCCAGCTGCGCGCCAGGCCTGCGCTGATGGAGAGCGGGGTCATTGACAAGCTTAGCGCCCTGCACGTTCCGGTGCTGTTTGTCGACTATGAGATCGACCCGGCGAAAGATACCGCCCCCAGCATCGACCTGCTGGGCAAAGTGCTTAACCGCGAGAGCCAGGCCAAAGCCTTTACCGATTACTATCGCCATCAGCTGCAGACGATTCGTCAGAAAACCGCAGCCATCACGCCGAAGGCCAACGTCTTCGTGGAAGCGCTGGCCGGCAACAGCGACGCCTGCTGCTTTACTCACGGCCACAGCGGCTGGGGCGGGCTGGTGGAGGCGGTCGGGGCGAACAATATCGGTTCGCAGCTGCTGCCGGGCGCCTCCGGGTTCGTCTCGCTGGAGAAAATCATCAGCATGAAGCCCGACGCCTGGATCATGACCGGCTCGAAGCGTGGCAACAGCCAGGTGCTGCCCCTGGGCTATGAAGTCAAGCCGGAGGCGGTGAAGGCCCAGGCGCAGACGCTGCTGGCGCGGCCAGGGGTCAGCCAGATCCCGGCGGTCCAGGAAAAGCGGGCCTATGGCGTCTATCACCACTTCTATAATCACCCGTGGAATATTGTCGGCATGGAGTATCTGGCGAAAGATATCTATCCGCAGGCCTTCCGCGATCTCAACCCGGATGAGACTTATCATTATATCGTGCGCCATTTCACCGACCTGCCGGACCAGCCGTTCGTCTTTTCCTGGCAGCAGAGCGAGTAA	MARKSVRSLLLTALIATPFLSYATQYPLTVTDLDGRQVTLVKEPQRIILQDGRDIMTLALLDRDNPFKRLVAWNNLAKKQDVATWQMLKTAWPQSATILDMGFSDKGNVDLESVIARQPDLMIAQLRARPALMESGVIDKLSALHVPVLFVDYEIDPAKDTAPSIDLLGKVLNRESQAKAFTDYYRHQLQTIRQKTAAITPKANVFVEALAGNSDACCFTHGHSGWGGLVEAVGANNIGSQLLPGASGFVSLEKIISMKPDAWIMTGSKRGNSQVLPLGYEVKPEAVKAQAQTLLARPGVSQIPAVQEKRAYGVYHHFYNHPWNIVGMEYLAKDIYPQAFRDLNPDETYHYIVRHFTDLPDQPFVFSWQQSE	PGPT0003765_1431	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
BMS020_03629	390			hypothetical protein	ATGAAAAAAGCAATGATTGCGTTATCGGCTATTCTGGTTGCGGCTCCGGTTTTTGCTGCGACAACACATGCAACAGATGATACCGTCGCGGCGGCCAATGCCAACGCCAACACCGCCAAAGAGAAGTTGCACCAGGCCCAGCACGAGGGCGAAGAGCAGCAGCTGAAGGCGAAACATGCGGCCGAAGGCAAACAGGATAGCGTCGGCAGCCAGGTGAGCGAAGGCGCGCAGAAGACCTGGAACAAGACCAAAGAAGGGACTGAGAAAGGTTGGGATAAGACCAAAGAGGTCAGCGAAAAAGGCTGGAACGCCACCAAATCCGGCGCAGAAAAGGGCTGGGATAAAACCAAATCCGGCGCTGAAGAGTTAAAAAATAAAGTGACTGAGTAA	MKKAMIALSAILVAAPVFAATTHATDDTVAAANANANTAKEKLHQAQHEGEEQQLKAKHAAEGKQDSVGSQVSEGAQKTWNKTKEGTEKGWDKTKEVSEKGWNATKSGAEKGWDKTKSGAEELKNKVTE				NA	NA	NA	NA	NA
BMS020_03630	456			hypothetical protein	ATGAAAAAGATGATTTCTCTGGCGGTAATGTTATCCACTGTGCTGAGCGTCCCGGCCTTTGCCGATGGCCCGAACGACGGCCATCGCCCGGGGCAGCCAACGGTGTGGCAGAACGGTCCGGATCATAATGGGCATGCGCCGCAGGGCGGACCTGACGCGCATCATCAGGGTGACCATGACCAGCGTGGCCCGGATCGTGACGGTCATGACAAACGCGATCAGGCACGTCATGAGCAGGACCATTTCGCCTGGCGCGGTAACGATTTCCGCAAAGGCCACCCGGCTCCGGCGCCGTTCCGTGGCGATGAGTATCGCGTCCGTGACTGGAGCGACCGCGGCCTGCCGCCCCCGCCGGAGGGCCATCACTGGTCCTATATCGACGGTAACTATGTGCTGATCGCCGCGGCGACCGGGATCATCACCTCGATTCTGGTGAGCGGCGCCCTCGGCCACTAA	MKKMISLAVMLSTVLSVPAFADGPNDGHRPGQPTVWQNGPDHNGHAPQGGPDAHHQGDHDQRGPDRDGHDKRDQARHEQDHFAWRGNDFRKGHPAPAPFRGDEYRVRDWSDRGLPPPPEGHHWSYIDGNYVLIAAATGIITSILVSGALGH	PGPT0004560_17	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_HOMEOSTASIS,PGPT0004560-rcnB-K23243	NA	NA
BMS020_03631	588			hypothetical protein	ATGAAATTACAGACGCTTTTCCTCGTCGCCATGACCGCGCTGGCGGGCTGCAGCGCGCAGGGCGATACCGCCAGCCAGCAGCGGGCCAGCATTCAGAAGATGCGCAACGAAACCCTCAATAAACTGTACACCCTGCAGCCCGAGGCCCGCAGCGATATTCAGCATGCGAAGGGTTATGCGGTATTCGCCAATAACAGCAGCAAGATCCTGCTGTTCGGATTTGGCAGCGGCTACGGCGTGGTGCGGGATACGGCCTCCGGGAAGGACACCTATATGAAAATGGCCCAGGGCGGCGCCGGTCTGGGAATAGGGATCAAGCAGCAGCGCACGGTGCTGGTCTTCCATGATAAAGCGGCCCTGGATCACTTTATCCGCCAGGGATATATGGTCGGCGCCGATGCGAACGCCGCGGCGAAATATGATGACAAAGGCATCGCGCCGATCGCCGCCTCCGCGAACGGCGTAGCGAAGGACACCTCCTCGCTGCCGTCGAAAGTGAACGTCTATGAAATCACCGACAAGGGGCTGGCCGCCCAGGCGATGGTCAATGGCTATAAATACTGGCCGGATGACGAACTGAACCCGTAG	MKLQTLFLVAMTALAGCSAQGDTASQQRASIQKMRNETLNKLYTLQPEARSDIQHAKGYAVFANNSSKILLFGFGSGYGVVRDTASGKDTYMKMAQGGAGLGIGIKQQRTVLVFHDKAALDHFIRQGYMVGADANAAAKYDDKGIAPIAASANGVAKDTSSLPSKVNVYEITDKGLAAQAMVNGYKYWPDDELNP				NA	NA	NA	NA	NA
BMS020_03632	1179	hipO_2	COG1473	Hippurate hydrolase	ATGAGTGATTATGTAATTCCAGAAATTAAAGCGACGGAAGCGGAAATGATTTCTCTGCGTCATTATTTACATGCCAATCCGGAATTAAGTCTGGAAGAGTTTAATACCAGCGAACTGGTTGCCGGCAAGCTGACCGAGTGGGGCTACCAGGTGACGCGCGGCCTCGGCAAGACCGGGGTGGTCGGCAGCCTGAGCAAAGGCGACTCGCCGCGCACCATCGGTCTGCGCGCCGATATGGACGCTCTGCCGATTCATGAAACCACTGGTTTACCCTGGGCCAGCACGGTGTCGGGGAAAATGCACGCCTGCGGTCATGACGGTCATACCACCATTCTGCTGGCGGCGGCGAAATATATCGCCTCGCCGGCCTGTCAGTTCAACGGCACGGTGCATCTGATTTTTCAGCCGGCGGAAGAGGCTATCGGCGGCGCCGATTTAATGATTAAAGACGGCCTGTTCGAGCAGTTCCCCTGCGAACGCATTTTCGGTCTGCACAACATGCCGGGGCTGCCGGTGGGCAAGCTGGGCTTCTACGCCGGTAACTTTATGGCCTCGGCGGACACCGTCAAAATCACCCTTACCGGCTACGGCGGCCACGGCGCCCATCCGGAGCGCACCGTCGACCCGATCGTCGCCGGCGCGGCGCTGGTGATGGCTCTGCAGAGCATCGTGGCGCGCAACGTGCCGCCGGGCGAAACGGCGGTGGTCAGCGTCGGCACCTTCCAGGCCGGTATCGCCTCCAACGTTATTCCGGAGAGCGTGGTGATGGAACTCAGCGTGCGGGCGATGAAGCCGGAAATCCGCGACCTGCTGATCAAACGTATTCACGAGCTCAGCGAATTTACCGCCAAAAGCTATGGCGCCAGCAGCGCAGTAGAGGTTTACGACTCCTACCCGGTATTAACCAACAGCCCCGAAGAGACTGATTTCGCCCGGGCGCTGGCGCTGGAGGTGTTTGGTCGCGAGGGGGTGCTGGAGTCGGTCTCGCCGATGAACGCCAGCGAGGACTTCGCCTTTATGCTGCGCGAACGTCCGGGCTGCTACTTCCTGCTGGGCAACGGCGAGCAGGGGGAGAAGGGCGGCTGCATGGTGCATAACCCCGGCTACGACTTCAACGATGACATTATCACCACCGGCGCGACGCTGTTCGCCCGCCTGGTGGAAAAGCACTGCCGTTAA	MSDYVIPEIKATEAEMISLRHYLHANPELSLEEFNTSELVAGKLTEWGYQVTRGLGKTGVVGSLSKGDSPRTIGLRADMDALPIHETTGLPWASTVSGKMHACGHDGHTTILLAAAKYIASPACQFNGTVHLIFQPAEEAIGGADLMIKDGLFEQFPCERIFGLHNMPGLPVGKLGFYAGNFMASADTVKITLTGYGGHGAHPERTVDPIVAGAALVMALQSIVARNVPPGETAVVSVGTFQAGIASNVIPESVVMELSVRAMKPEIRDLLIKRIHELSEFTAKSYGASSAVEVYDSYPVLTNSPEETDFARALALEVFGREGVLESVSPMNASEDFAFMLRERPGCYFLLGNGEQGEKGGCMVHNPGYDFNDDIITTGATLFARLVEKHCR				NA	NA	NA	NA	NA
BMS020_03633	777	hisJ_2	COG0834	Histidine-binding periplasmic protein	ATGAAAAAATCACTGTTGCTATGGCTGGCGTTAATGGCGTCGACGTCGGCGCTGGCCGAAGGGGGAAAGGCGATCCGCTTCGGCGTCGACCCGACCTTCGCGCCGTTTGAATGGAAGGATCCGCAGGGCAAGCTGGCGGGGTTTGATATCGATCTAGGCAACGCCATTTGCCAGCAGCTGCAGGCGAAATGCGTGTGGGTGGAAAGCAATTTCGACGGCATTATCCCGGCGCTGAAGGCGCGGAAATTCGACGCTATCCTTTCCGGGATGTACATGACCGAGAAGCGTAAAGCGCAGATTGCCTTTAGCGACAAGCTGTATAACGGGCCGGTGTTCCTCGTGGCGCGTAAAAATACCCTGCAAGGCAATACGCCGGCGCAGCTGAAAGGCAAAACCATCGGCGTCGAGCAGGGTTCGGCGCAGGAGACTTACGTCAATCAGCACTGGCGTCCGCAGGGGATCAACATTGTGGCCTACCAGGGGGCCGATAGCGTGGTGCGCGATCTGGAGTCCGGGCGCATCGACGGCGCGGTGCTTTCCGGGATGATGGCCGACTACAGCTTCCTGCAGCAGCCGCAGGGTAAGGCATTCACCTTTGTCGGCGGCCATCTGCAGGATGATACGCTGTTTGGCGCCGGGGCGGCGATCGGCTTGCGTAAAGACGATGAGGCGCTGCGTCAGGAAATAAATGGCGCGATTGCGAAGATCCTTGCCGACGGCACCTATAAAAAATTAGCCAGCAAATATTTTAGCTTTGATGTTTATTCCGGGACATAA	MKKSLLLWLALMASTSALAEGGKAIRFGVDPTFAPFEWKDPQGKLAGFDIDLGNAICQQLQAKCVWVESNFDGIIPALKARKFDAILSGMYMTEKRKAQIAFSDKLYNGPVFLVARKNTLQGNTPAQLKGKTIGVEQGSAQETYVNQHWRPQGINIVAYQGADSVVRDLESGRIDGAVLSGMMADYSFLQQPQGKAFTFVGGHLQDDTLFGAGAAIGLRKDDEALRQEINGAIAKILADGTYKKLASKYFSFDVYSGT	PGPT0020650_560	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020650-argT-K10013	NA	NA
BMS020_03634	954	yajO_5	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGATGACACGTCCCTTGGGCAAAACCGGATTTTCCATCGCCCCGTTAGTGTTTGGCGGTAACGTCTTTGGCTGGACCATTGATGAAAAAACCAGTTTTGCCCTTCTTGATGCTTTTGTTGACCATGGTTTTGACGCTATCGACACGGCGGATGTTTATTCCCGTTGGGCGGAGGGCAACCAGGGCGGCGAATCCGAAACCATTATCGGCCGCTGGCTGCAGGCGCGTCCCGGCATGCGCGATAAGGTCAAAATCTTCACTAAAGTCGGCTCCGATCTCGGCCTTCCTGGCCATAAGGGACTCAGCAAAGCCTGGATCCAGCAGGCGGTAGACGACTCCCTGCGCCGCCTTAATACCGACTACATCGACCTCTACTTTTCCCACTGGCCGGATCCGCAAACTCCGGTAGCGGAAACGCTGGAGGCTTTCCACAGCCTGCAGCAGGCGGGGAAAATTCGCGCGATGGGGGCCTCTAACCTCGATGCGATGCAGCTGGCGGGGGCGCTGGAGGTGGCGCGCAAGGGAGGCTTGCCTGCCTGGCAGGTGCTGCAGCCGGAATATAACCTCTACCACCGCTCCGCCTTTGAAGGCGCACTGTGCGATCTCTGCGTCAGCCGTGATATCGGGGTGGTGACCTACTACAGCCTGGCCTCGGGGTTCTTAACCGGTAAGTACCGTCAGCCGTCGGATCTGGCGCAGAGTCAGCGCGGAGGAAAGATTGGTAAGTACCTGAATCCGCGCGGGATGCGGATTATCGATACCCTGGTGGCGGTCGCGGAGGAGCTGGGGGCGAAGCCGGCGGAAGTGGCCCTGGCGTGGCTGATCGGCCGCGAAGGGGTGACCGCGCCGATCGCCAGCGCCACCAGCGTGGCCCAGGTGGAAAGTTTTGCCCGCGCGGCGGCGCTGAGCCTGAGCGCGGAGCAGGTGGCGCGGCTGGACAGCGCCAGCGCCTGA	MMTRPLGKTGFSIAPLVFGGNVFGWTIDEKTSFALLDAFVDHGFDAIDTADVYSRWAEGNQGGESETIIGRWLQARPGMRDKVKIFTKVGSDLGLPGHKGLSKAWIQQAVDDSLRRLNTDYIDLYFSHWPDPQTPVAETLEAFHSLQQAGKIRAMGASNLDAMQLAGALEVARKGGLPAWQVLQPEYNLYHRSAFEGALCDLCVSRDIGVVTYYSLASGFLTGKYRQPSDLAQSQRGGKIGKYLNPRGMRIIDTLVAVAEELGAKPAEVALAWLIGREGVTAPIASATSVAQVESFARAAALSLSAEQVARLDSASA	PGPT0016784_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016784-mocA-NA	NA	NA
BMS020_03635	1716			hypothetical protein	GTGCCGGCGCCGGTGGCGACGCTGCCGGCCGCCGGCGTGGTCGCCCAACCGCTGCCGCTGCGTCGTTCCGGCAACACCGTGCTCGACGAACTGCGTGAGGTGCAGTCGGAGAACAGCAGCAACCTCGCCGGTGCCGCGGTCTACCGCTCGCGCGATGGCGAGGCGGGGCTGGGGCAGATGGACGATATCGAGATGCCGCTGCAGGCCGAGTTCGCGGTCGGCGAGGGCAAGCTCGGGATCACCGTGACCCCGACCCTGGTCGACGCCGGCGATGTCGACGGCAGCGACTATGCGCTGTCCAGCCGCTTCGGCGCCGGTCCGTCGGCGTCGCTGGCCGACGCGCTGGCCAGCGACAGCAGCTCGATCGACACCCTGGTCGGCTCCTCGCTGTATGGCCTGCTGCTCAGCGAGGGCAACACCACCGCGACGCAGAACCTGCTGTACGCCTATGCGCTGGATACCGGGCTGTACAACACCCTGTACAACCAGACCGATTCGACCCTGACCAGCGCCGAGCGCAAGGCCGCCGCGCTCGAACTGCTGTACGACGAGCCGCTGTACGCCTACTTCCTGGAGACGGTGAACGCCTCGACCACGACGATCGGCGCGCTGGCCTCGGCGATCCTCGGCAACAGCGCACTGTCCTCGGAGCTGAGCAGTACCGATGCGGCCACGCTCAAGGCGCTGGCCGCCAGCGACGCGGCCGCCTCGCTGACCGCATCGCAGCTGTCGGACACGCTGTACGGCATGGCCGCCAACGGCAGCGCCTCGCGCCGCCTGGACCAGAGCGACAGCGGCGTCGGCGTGGCGGTGAGCTACCGCAACGGCGGCTTCAGCGCCGACCTGGGCAGCACCCCGATCGGCTTCCAGGAGCAGAACATCGTCGGCGGCGCCGGCTACCGCCTGCAGCCCAACGACACCCTGACCCTGCAGGGCCAGGTGTCGCGGCGCGCGGTCACCGACAGCGTGCTGTCGTTCGCCGGCACCACCGATGCGCGCAACGGCCGCGAGTGGGGCGGGGTGGTCAGCAACGGCGCGGCGCTGTCGGGCACGCTCGACAACGGCCTGCTCGGTGGTTACGCCAACCTGGCCGCGCACCGCATCACCGGCCGCAACGTCGCCGACAACGACCACCAGCAGGTCGACCTGGGCTTCTACGTGCATGCGCTGGAGACCGACAACCAGTCGTTGACCGCGGGCATCAACCTGACCGCGATGCAGTACGACAAGAACCTGAGCGGCTTCACCTACGGCCACGGCGGCTACTTCAGCCCGCAGGAATACTTCGACCTCGGCTTCCCGGTGCACTGGAGCGGCCGCTCGGCCAACCAGAAGGTCAACTGGAAGCTCGATGCCAGCGTCGGCGTGCAGCACTTCCGCACCGACAGCATCGATTACTTCCCGACCGACGCGGCGCTGCAGGCCCAGGCCTACGACGCGGCGTCGCTGGCGTCGCTGCTCGGCCTGGTCGACAGCTACACCGCGCCGGTGTACGTCGGCGAGAGCAAGACCGGCGTGTCCTACAACCTCACCGGCGCGGCCGAGTGGCAGGTGGCGCCGCAGCTGTTCCTGGGCGGGCGCATGACCTTCAACAACGCACGCGACTACAACCAGTTCAACACCAACATCTACCTGCGCTTCGTGCTCGACCGCCTCGGCGCGGCGCTGGGCCGCGCGCCGCGGGTGGTGGCCTCGCCGTACGCCAGCGAGTTCTGA	MPAPVATLPAAGVVAQPLPLRRSGNTVLDELREVQSENSSNLAGAAVYRSRDGEAGLGQMDDIEMPLQAEFAVGEGKLGITVTPTLVDAGDVDGSDYALSSRFGAGPSASLADALASDSSSIDTLVGSSLYGLLLSEGNTTATQNLLYAYALDTGLYNTLYNQTDSTLTSAERKAAALELLYDEPLYAYFLETVNASTTTIGALASAILGNSALSSELSSTDAATLKALAASDAAASLTASQLSDTLYGMAANGSASRRLDQSDSGVGVAVSYRNGGFSADLGSTPIGFQEQNIVGGAGYRLQPNDTLTLQGQVSRRAVTDSVLSFAGTTDARNGREWGGVVSNGAALSGTLDNGLLGGYANLAAHRITGRNVADNDHQQVDLGFYVHALETDNQSLTAGINLTAMQYDKNLSGFTYGHGGYFSPQEYFDLGFPVHWSGRSANQKVNWKLDASVGVQHFRTDSIDYFPTDAALQAQAYDAASLASLLGLVDSYTAPVYVGESKTGVSYNLTGAAEWQVAPQLFLGGRMTFNNARDYNQFNTNIYLRFVLDRLGAALGRAPRVVASPYASEF	PGPT0022285_134	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0022285-bcsC-K20543	NA	NA
BMS020_03636	711	def_1		Peptide deformylase	ATGCTCCGCCAGATCATCCGCATGGGCGATCCGCGCCTGCTGCGCGTCGCCCCACCGGTCGAGGCGTTCGATACCCCGCAGCTGCACGCGTTGGTCGCCGACATGTTCGAGACCATGGACGCCGCGCGCGGCGTGGGCCTAGCCGCGCCGCAGATCGCGGTGGACCTGCAGCTGATGGTGTTCGGCTTCGAGCGCAGCGAGCGCTATCCCGATGCGCCGCCGGTGCCGCGCACCGCGCTGGCCAACGTCGTCATCGAGCCGCTCACCGACGAGGAGGAGGACGGCTGGGAAGGCTGCCTGTCGATTCCCGGCCTGCGCGCGCTGATCCCGCGCTGGCGGCATATCCGCTACTGCGGCGTGCTGCCCGACGGTAGCGCGCTGGAGCGCGAGGCCGAAGGCTTCCATGCGCGCGTGGTGCAGCATGAGTACGACCACCTGATCGGCCGGCTGTATCCGTCGCGGATCCGCGACTTCGGCAAGTTCGGCTTCGAGGACGTGCTGTCGTACGCGGGGGGGGGGGGGGGCCGCACACGTGGCGGGGGCCGCACCACGTGTGGGAGCGACTTCAGTCGCGACGGGCCGTACCGGCAATGTCCGTTCGCGACTGAAGTCGCTCCCACAAGGTGCTGTTCCGTTGGTCCGGGACTGATGTCCCGGCAAAACCGGGGCCGCCAGGCGACCCCGGTCCAGCCTGTTACTTCAACGCCTTGA	MLRQIIRMGDPRLLRVAPPVEAFDTPQLHALVADMFETMDAARGVGLAAPQIAVDLQLMVFGFERSERYPDAPPVPRTALANVVIEPLTDEEEDGWEGCLSIPGLRALIPRWRHIRYCGVLPDGSALEREAEGFHARVVQHEYDHLIGRLYPSRIRDFGKFGFEDVLSYAGGGGGRTRGGGRTTCGSDFSRDGPYRQCPFATEVAPTRCCSVGPGLMSRQNRGRQATPVQPVTSTP				NA	NA	NA	NA	NA
BMS020_03637	1665	ettA_1	COG0488	Energy-dependent translational throttle protein EttA	ATGTCCTCGCAATACATCTACACCATGAACCGGGTCAGCAAGGTGGTCCCGCCCAAGCGGCAGATCATCAAGGACATCTCGCTGAGCTTCTTCCCGGGCGCGAAGATCGGCCTGCTCGGCCTGAACGGCGCCGGCAAGTCGACCGTGCTGAAGATCATGGCCGGCGTGGACACCGACTTCGAGGGCGAAGCCCGCCCGCAGGCCGGCATCAAGGTCGGCTACCTGGCCCAGGAGCCGGAGCTGGACCCGAACAAGACCGTGCGCGAGTCGGTCGAGGAAGGCGTCGGCGAGGTGCTGCAGGCCCAGGCCGCGCTCGAGGCGGTCTATGCCGCCTATGCCGAGGAAGGCGCCGATTTCGACGCGCTGGCCAAGGAACAGGAGCGCCTGGAGGCGATTCTGGCCGCCGGTGATTCGCACACGCTGGAAAACCAGCTCGACGTCGCCGCCGATGCGCTGCGTCTGCCGCCGTGGGACGCCAAGATCGCCAACCTGTCCGGTGGTGAGAAGCGCCGCGTCGCGCTGTGCCGCCTGCTGCTGCAGAAGCCGGACATGCTGCTGCTCGACGAACCGACCAACCACCTCGACGCCGAGTCGGTCGAATGGCTGGAGCAGTTCCTGGCGCGCTACACCGGCACCGTCGTGGCGGTCACCCATGATCGCTACTTCCTCGACAACGCCGCCGAGTGGATCCTCGAACTCGACCGCGGCCGCGGCATTCCGTGGAAGGGCAACTACACCGAATGGTTGATGCAGAAGGACGAGCGCCTGAAGCAGGAAGACAACCAGGAAAAGGCCCGCCAGAAGGCGATCCAGAAGGAACTGGAGTGGTCGCGGCAGAACGCCAAGGGCGGCCGCACCAAGGGCAAGGCGCGCCTGGCCCGCCTGGAAGAGCTGCAGTCGGTCGATTACCAGAAGCGCAACGAGACCAATGAAATCTTCATCCCGCCGGGCGAGCGCCTGGGCAATGCGGTGATGGAGTTCAAGAACGTCTCCAAGAAGTTCGGCGACCGCCTGCTGATCGACAACCTGTCGATGATCATCCCGCCGGGCGCGATCGTCGGCATCATCGGCCCGAACGGCGCCGGCAAGTCGACGCTGTTCAAGATGATCACCGGCCAGGAGAAGCCCGATTCGGGCGAGATCGTGGTCGGCCCGACCGTGCAGCTGTCCTACGTGGACCAGAGCCGCGAGAAGCTGGAAGGCAACCACAACGTGTTCCAGGAGATCTCCGGCGGCCTGGACATCCTCAACATCAACGGCGTGGAAATCCAGTCGCGCGCCTACATCGGCCGCTTCAACTTCAAGGGCCAGGACCAGCAGAAGATGGTCGGCTCGCTGTCCGGTGGTGAGCGTGGCCGCCTGCACATGGCCAAGACCCTGCTGCAGGGTGGCAACGTGCTGCTGCTCGACGAACCGTCCAACGACCTGGACATCGAGACCCTGCGTGCGCTCGAAGACGCGCTGCTGGAGTTCCCCGGCAACACCTTCGTGATCTCGCACGACCGCTGGTTCCTGGACCGCATCGCCACCCACATCATCGCCTTCGAAGGCGATTCGCACGTGGAGTTCTTCCAGGGCAACTACCGCGAGTACGAGGAAGACAAGAAGCGCCGCATGGGCGACGATGCCGCGCCGAAGCGGCTGCGCTTCAAGGCGTTGAAGTAA	MSSQYIYTMNRVSKVVPPKRQIIKDISLSFFPGAKIGLLGLNGAGKSTVLKIMAGVDTDFEGEARPQAGIKVGYLAQEPELDPNKTVRESVEEGVGEVLQAQAALEAVYAAYAEEGADFDALAKEQERLEAILAAGDSHTLENQLDVAADALRLPPWDAKIANLSGGEKRRVALCRLLLQKPDMLLLDEPTNHLDAESVEWLEQFLARYTGTVVAVTHDRYFLDNAAEWILELDRGRGIPWKGNYTEWLMQKDERLKQEDNQEKARQKAIQKELEWSRQNAKGGRTKGKARLARLEELQSVDYQKRNETNEIFIPPGERLGNAVMEFKNVSKKFGDRLLIDNLSMIIPPGAIVGIIGPNGAGKSTLFKMITGQEKPDSGEIVVGPTVQLSYVDQSREKLEGNHNVFQEISGGLDILNINGVEIQSRAYIGRFNFKGQDQQKMVGSLSGGERGRLHMAKTLLQGGNVLLLDEPSNDLDIETLRALEDALLEFPGNTFVISHDRWFLDRIATHIIAFEGDSHVEFFQGNYREYEEDKKRRMGDDAAPKRLRFKALK				NA	NA	NA	NA	NA
BMS020_03638	432			hypothetical protein	ATGAAGCGCAATAAGCTGACACTGATCGCCCTGACCTCGCTGCTGGCCCTGGGCACGGCCGCGCCGGCGGCGTTCGCCGACGACCATGGCTGGGACCGTGACCGTCACGACCGCCATGACCACCGCGACCGCCACGACGATCGTCGTGACGACCGCCGCCACTACGACAACGGCTACCGCGAGGGCTACCACGATGCCCGTCACGACGACCGCCGCTACGGCTACCGCCCCGGCCCGCCGCCGCATGCCTGGGCCCGTGGCCAGCGCTACCGCGATTACTACCGCGGCCCGGTCTACGTGGTGAACGACTACCCGCGCTACGAGCTGCGCCGTCCGCCCCGCGGCTACCACTGGGTGCGCGACGACCGCGGCAACATGCTGATGGTCGCCATCGCCACCGGCATCATCGCCGACCTGGTGCTGCATCACTAA	MKRNKLTLIALTSLLALGTAAPAAFADDHGWDRDRHDRHDHRDRHDDRRDDRRHYDNGYREGYHDARHDDRRYGYRPGPPPHAWARGQRYRDYYRGPVYVVNDYPRYELRRPPRGYHWVRDDRGNMLMVAIATGIIADLVLHH				NA	NA	NA	NA	NA
BMS020_03639	1827			hypothetical protein	ATGCCGGCGCCGCCGCGCCCACGCTGGCTGGCCACCTGGCTGCTGCTGATCGCCTGCATCGCCCTGCCCGGGCACGCCTCGCCGGCGGTCCGCACCCTGGCCGCTGCCGAGGCGGTGGCCGGCGACTGGCAGCAGCAGGCGCCACCGCAGGCCGGCTGGACGCCGGTGGCGTTGCCGGACGACTGGTCGCGGCGCTGGCGCGCCCACGACGGCGTGGTCTGGTACAGCCTGCACTGGGAGCAGGCGAGGCCCGGACCGGTCGGGCTGCTGGTGCCGTACGTCTGCCTGGCCAGCACGATCTACGTCAACGGCGCGCAGATCCAGCGCGACCCGCAGCTGGTGGAGCCGCTCAGCCGCGGTTGGACCCAGCCGCGCTACTTCGTCATCGACGCACCGCTGCTGCGCCAGGGCCGCAACGAGATCCTGGTGCGCGTGGCCGGCCTGGCCGCCTACCAGCCGGGCATGGGCGTGGTGAAAACCGGCGACCCGGCGCTGCTGCAGGCCGAGTACCGGCGCGAGTTCCTGCTGCGCCACGACGTGCAACTGGTCAGCCGCTGCGTCGGCGGCGTGCTCGGGGTGCTGTTCGGCATGCTCTGGCTGCTCGGCCGGCGCCGCGCGATGTATGGCTGGTTCGCGCTGAGTTCGCTGTTCTCGGCGCTGTACGGTTGGAATTTCGTCGCCACCAGCCCGTGGCCGTTCACCAGCTCCGACCTGTGGTCGGCGCTGAACATCGCGGTGTTCTTCTGCGGCTCGACCTGCATGGCGATGTTCCTGCTGCGCTACAGCGAACGACGCTGGCCACGCACCGAGCGGCTGCTGCTGGCGGCGAGCGCGCTGTCGCTGCTGCTGGCGGTGGTCGCGCCCGGCTACCTCGGCCCCGGGCGGATGCCCTGGGCGCTGGCCGGCACCGCGATCTACTACCTGGCGATGCTGCTGTTCATGGTCCACGCGCTGCGCGGCGAGCAACGCGACCAGCAGCTGCTGGCGCTGTGCTTCGCGGTGCAGATGGCGGTGTCGCTGCACGACCTGGCGCTGTTCCTGGGCTGGTTGGACGACCAGGTCTACCTGTTGTCGCTGACCTCGCCGTTGACCCTGCTCGGCATCGGCTTCGCGCTCGCCTACCGCTACGCGCAGCTGCTGCGCCGGGTCGAGGGCTTCAACGCCGAGCTGCATGCCGAGGTCGAACGCGCGACCGCGCAGCTGACCGGCACGCTGGCGCGCGAGCATGCGCTGGCGCTGGACAACACCCGCATCAACGAGCGTCTGAACCTGGTCCGCGACCTGCACGACGGCTTCGGCGGCACCCTGCTCGGCACCATCGCGGCGCTGGAGCAGCCCGACGCCACACGCGCGCCGGCGCAGCTGGCCGCGATCCTGCGCGACATGCGCGACGACCTGCGGCTGGTGGTCGATTCCACCAGCCATGCGCCGGACGGCGACCTGCTGGCGCTGCTGGCGCCGTTGCGCCATCGCTGGAGCACCCGCCTGGAGGCGGTCGGAATCGACGCGCACTGGCGGCTGGAGGCGCTGGCCGGGCTGCATCCGCCGCCTGCCGCCTGCCTCGACGTGACCCGGCTGCTGCAGGAAGCGCTGACCAACGTGCTCAAGCACAGCGGCGCGCGCCGGGTCGAGATCCAGGCCCAGAGCGATGACGGACGGGTGCGGGTGCGGGTGCAGGACGACGGCCGCGGGCTGGCCGACGGCCCCGCCCCGACCGGCATGGGCCTGGGCAACATGCGCGCGCGGGCGTTCCGGCTCGGCGGCCGCCTGGAGATCGGCACCGCCCCTGGCAGCGGCACCCGGGTGGAATTCTCGCTGCCGGCCTGA	MPAPPRPRWLATWLLLIACIALPGHASPAVRTLAAAEAVAGDWQQQAPPQAGWTPVALPDDWSRRWRAHDGVVWYSLHWEQARPGPVGLLVPYVCLASTIYVNGAQIQRDPQLVEPLSRGWTQPRYFVIDAPLLRQGRNEILVRVAGLAAYQPGMGVVKTGDPALLQAEYRREFLLRHDVQLVSRCVGGVLGVLFGMLWLLGRRRAMYGWFALSSLFSALYGWNFVATSPWPFTSSDLWSALNIAVFFCGSTCMAMFLLRYSERRWPRTERLLLAASALSLLLAVVAPGYLGPGRMPWALAGTAIYYLAMLLFMVHALRGEQRDQQLLALCFAVQMAVSLHDLALFLGWLDDQVYLLSLTSPLTLLGIGFALAYRYAQLLRRVEGFNAELHAEVERATAQLTGTLAREHALALDNTRINERLNLVRDLHDGFGGTLLGTIAALEQPDATRAPAQLAAILRDMRDDLRLVVDSTSHAPDGDLLALLAPLRHRWSTRLEAVGIDAHWRLEALAGLHPPPAACLDVTRLLQEALTNVLKHSGARRVEIQAQSDDGRVRVRVQDDGRGLADGPAPTGMGLGNMRARAFRLGGRLEIGTAPGSGTRVEFSLPA				NA	NA	NA	NA	NA
BMS020_03640	678	devR	COG2197	DNA-binding transcriptional activator DevR/DosR	ATGGAGATCGACAAGCGGGCCCCGGTGGCGCTGGCGCCCGCCCTGATCGTGGAAGACGACGTCGCGGTCCAGCAGCGCCTGTCCCGGCTGCTGGCGGCCTTCACCCCCGATCACCCACCGCCCCGCCTGGCCGGCAGCCTGGCCGAGGCGCGCCAGGCGCTGGTCCTGGCCCCGGCGGCCTTCGCCCTGGTCGACATCGGCCTGCCCGACGGCAACGGCGTGGCACTGATCGCCGAACTGGCCGCCGCGCATCCACACACCACCTGCATGGTGGTGTCGGCCTGGGGCCAGGAGGACGTGGTGCTGGGCGCGCTGCGCGCCGGCGCGGTCGGCTACCTGCTCAAGGAGCGCGAGGACATCGAGCTGGAACTGTCGCTGCGCAGCGTCCAGCGCGGCGGCGCGCCGATCGACCCGAGCATCGCCGGGCGGATCCTGCGCACCCTGGCCGAGGAGCCACCGGCCGCAGCCCCGGACGAGGAGCCCTCGCCGCTGTCCGAACGCGAACAGCAGATCCTGTCGCTGGTCGCGCGCGGCTTCAGCAACCGCGAGATCGCCGAGCTGATGGCGCTGTCGCGCTTCACCATCGAGGGCTACACCAAGAGCATCTACCGCAAGCTGGCGGTGCGCTCGCGGACCGCGGCGGTGTTCGAGGCGAAGGCCAAGGGCCTGTTGTACTGA	MEIDKRAPVALAPALIVEDDVAVQQRLSRLLAAFTPDHPPPRLAGSLAEARQALVLAPAAFALVDIGLPDGNGVALIAELAAAHPHTTCMVVSAWGQEDVVLGALRAGAVGYLLKEREDIELELSLRSVQRGGAPIDPSIAGRILRTLAEEPPAAAPDEEPSPLSEREQQILSLVARGFSNREIAELMALSRFTIEGYTKSIYRKLAVRSRTAAVFEAKAKGLLY				NA	NA	NA	NA	NA
BMS020_03641	1269	glyA_1	COG0112	Serine hydroxymethyltransferase	ATGTTCCCGCGCAATGTCCGCATCGAAAGCTACGATCCCGAACTGGCCCAGGCCATCGCCAATGAGGTCCGCCGCCAGGAGGACCATGTCGAGCTGATCGCGAGCGAGAACTACACCAGCCCGGCGGTGATGGAAGCCCAGGGCAGCCAGCTGACCAACAAGTACGCCGAGGGCTACCCGGGCAAGCGCTACTACGGCGGCTGTGAATATGTCGATGTCGCCGAGCAGCTGGCGATCGACCGGCTCAAGCAGCTGTTCGGTGCCGACTACGCCAACGTGCAGCCGCACAGCGGCTCGCAGGCCAACCAGGCGGTGTACTTCGCGCTGCTGCAGCCGGGCGACACCATCCTGGGCATGTCGCTGGCGCACGGCGGGCACCTGACCCACGGCGCCAAGGTCAATGCCTCGGGCAAGATCTTCAACGCGGTGCAGTACGGCGTGAACGACGCCGGCCTGATCGACTACGACGAGGTCGAGAAGCTGGCGCTGGAGCACAAGCCGAAGATGGTCGTGGCCGGGTTCTCGGCGTACTCGCAGAAGATCGACTGGGCGCGCTTCCGCGCGATCGCCGACAAGGTCGGTGCCTGGCTGTTCGTCGACATGGCACACGTCGCCGGCCTGGTTGCCGCCGGCGTCTACCCGAGTCCGCTGGAACACGCCCACGTGGTCACCTCGACCACCCACAAGACCCTGCGCGGCCCGCGCGGCGGCATCATCATCGCCAGCGCTGCCGGTGCCGGTGACAAGCTCGAAGAGCTGAGCAAGAAGCTGCAGTCGATCGTGTTCCCGGGCATCCAGGGCGGTCCGCTGATGCACGTGATCGCGGCCAAGGCGGTGGCGTTCAAGGAAGCGCTGGAGCCGGGCTTCACCGCCTACCAGCAGCAGGTGGTCAAGAACGCCCAGGCGATGGCCACCACGCTGATCGCGCGCGGCTACAAGATCGTCTCTGGCGGCACCGAGAACCACCTGATGCTGGTCGACATGATCGGCAAGGACGTCTCGGGCAAGGATGCGGAAGCCGCGCTCGGCAAGGCCCACATCACCGTCAACAAGAACTCGGTGCCGAACGATCCGCGTTCGCCGTTCGTGACCTCGGGCCTGCGCCTGGGCACCCCGGCGATCACCACCCGCGGCTATGTCGAACAGGACTGCGTGGACCTGGCCAACTGGATCGCCGACGTGCTCGACGCGCCGGCCGACGAGGCGGTGATCGCCAAGGTCCGCGACGCCGTCACCGCGCAGTGCAAGAAGTACCCGGTCTACGGCTGA	MFPRNVRIESYDPELAQAIANEVRRQEDHVELIASENYTSPAVMEAQGSQLTNKYAEGYPGKRYYGGCEYVDVAEQLAIDRLKQLFGADYANVQPHSGSQANQAVYFALLQPGDTILGMSLAHGGHLTHGAKVNASGKIFNAVQYGVNDAGLIDYDEVEKLALEHKPKMVVAGFSAYSQKIDWARFRAIADKVGAWLFVDMAHVAGLVAAGVYPSPLEHAHVVTSTTHKTLRGPRGGIIIASAAGAGDKLEELSKKLQSIVFPGIQGGPLMHVIAAKAVAFKEALEPGFTAYQQQVVKNAQAMATTLIARGYKIVSGGTENHLMLVDMIGKDVSGKDAEAALGKAHITVNKNSVPNDPRSPFVTSGLRLGTPAITTRGYVEQDCVDLANWIADVLDAPADEAVIAKVRDAVTAQCKKYPVYG	PGPT0008090_5396	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
BMS020_03642	516			hypothetical protein	ATGAAGCTGATTGCACGCAGGCTGGGCGCGTCGTCGAAGTACGACCGCTTGGCCTGTGTGCGTAGCGATGGCACGCGGTGCGAGGTCGACCTGCCACGGCAGGGCATCCTGCCGCATGACCTGATCCACCTGCTGGTCGAGAGCCGGCTTGGCATGAGCGACGGATTCATCGGGCTGGTCGCCAAGGGCGCTGACATCGACTTCGCCGGCAAGGAACTGCATCGCCATGTAGATCCCGAGCGGCAGATGCAGGCCGGTCAGGCCGAGTCGGTCGTCGAGGCACTGCAATCGCAGCTGTGGGCAGGGCAATTCGACGAGGCGCTGTTCCGATACGGCGTTGTCCAGGCCTGTGGCATGCGCGGGGTGGAACCGCCGGAATTCGGCGTGGCAGTGCTGGACGCGGTGCTGTTCGCACCGGCGCTGGCACTCGGCGCGGCTTGGAATGCGCTGCCGGCCGACGCCGAGTGGCAGCTGGAGTTCCCGTTGCAGCACGGGATGTTGGAAGGAAAAGTCTGA	MKLIARRLGASSKYDRLACVRSDGTRCEVDLPRQGILPHDLIHLLVESRLGMSDGFIGLVAKGADIDFAGKELHRHVDPERQMQAGQAESVVEALQSQLWAGQFDEALFRYGVVQACGMRGVEPPEFGVAVLDAVLFAPALALGAAWNALPADAEWQLEFPLQHGMLEGKV				NA	NA	NA	NA	NA
BMS020_03643	525	nrdR_2	COG1327	Transcriptional repressor NrdR	ATGCACTGCCCGTTCTGCCAGCACAACGACACCCGCGTGATCGATTCGCGCGTTTCCGAAGATGGCGCCACGATCCGCCGGCGGCGCGAGTGCGAGGCCTGCGGCGAGCGTTTCAGCACGCTGGAGACGATCGAACTGAAGCTGCCGACGGTGATCAAGACCGATGGCGGCCGCGAGGCGTTCGACGCGCGCAAGCTGCGCACCAGCTTCGACCGCGCGCTGCAGAAGCGGCCGGTGTCGGAGGAGCAGATCGAGACCGCGGTACGCGCGGTGGTGCACCAGCTGCGCATGAGCGGCGAGCGCGAGGTGCCGTCGATCCGCGTCGGCGAGTACGTGATGGCCGAACTGCGCAAGCTCGACCATGTCGGCTACGTGCGCTTCGCCTCGGTGTACCGCAGCTTCCAGGACGTGGCCGATTTCCGCGAGGAGATCGAGAAGCTGGAGCGCGAGCTGCCGGTCGGTAGCGAACAGCTGCCGCTGCTGGAAGCGGCGCTTGGCCGCGCGGGGAAGACCGGCAAGCGGTGA	MHCPFCQHNDTRVIDSRVSEDGATIRRRRECEACGERFSTLETIELKLPTVIKTDGGREAFDARKLRTSFDRALQKRPVSEEQIETAVRAVVHQLRMSGEREVPSIRVGEYVMAELRKLDHVGYVRFASVYRSFQDVADFREEIEKLERELPVGSEQLPLLEAALGRAGKTGKR				NA	NA	NA	NA	NA
BMS020_03644	315			hypothetical protein	GTGGCGATCGATGGCCCGCACTGGCAGGGCTCGGTCAGCCTGCTGCACGAGGATCATCCGCGCATCCACGGGCTCACGCCGTGGCTGGCCTCGCTGTACGTGCGGCCACGTGCGCGCGGGCAGGGGCTCGGCGCGGCGCTGGTCGCGCATGCGCGCGCGGTCGCCGACGCCAGCGGCGTGGCGCGGTTGTATCTGTATTGCGCACCGGAGCTGGCGCCGTGGTACGCCCGGCTCGGCTGGCAGCTGCATGCCGAGCTGGACCTGGCGCCCTGCCCGCCGGTGCGGGTGATGGCCTGCACGCCGCGGAGGCGCTGA	MAIDGPHWQGSVSLLHEDHPRIHGLTPWLASLYVRPRARGQGLGAALVAHARAVADASGVARLYLYCAPELAPWYARLGWQLHAELDLAPCPPVRVMACTPRRR				NA	NA	NA	NA	NA
BMS020_03645	1098	ribD_2	COG0117	Riboflavin biosynthesis protein RibD	ATGCACGACGCCGCCTCCTTCACCGCCGACGATCACCGCTGGATGGCGCATGCGCTGCAGCTGGCCGAGCAGGGGCGCTACACCACACGGCCGAACCCGATGGTGGGGTGCGTGCTGGTGCGCGATGGCGACGTGGTCGGCGAGGGCTGGCACCAGCGCAAGGGCGGTCCACACGCGGAAGTGTTCGCACTGCGTGCCGCTGGGGAGCGCGCACGCGGTGCCACCGCCTACGTGACGTTGGAGCCGTGCGCGCATTTCGGCAGCACGCCGCCGTGCGCCGATGCGCTGGTCGCGGCCGGCGTGGCGCGGGTGGTGGCGGCGATGGCCGATCCGTTTCCGCAGGTCAACGGTGGCGGGTTCGCGCGGCTGCGCGCGGCCGGGATCGCCGTCGCCTACGGCCTGATGCAGGCGCAGGCGCGCGAGTTGAACCTGGGCTTCCTGTCGCGGGTGGAGCGCGGCCGGCCGTGGCTGCGGCTGAAGTTCGGTGCCAGCCTGGACGGGCGCACCGCGCTGGCCAGCGGCGAATCGAAGTGGATCACCGGCGAGGCCGCGCGCGCCGACGTGCAGCGCTGGCGCGCGCGTGCCGGCGCGATCCTGACCGGCGCCGGCACGGTGCTCGCCGACGATCCGGCGCTGACCGCGCGGATCGGCGCGGAGATCGACTGCGTGGCGCCGCTGCGGGTGGTGCTGGACCGCACGCTGCGGTCGCTGGCGCGCACCAAGGTCCGCGATGGCGCCGCGCCGACGCTGTACCTGCATGGGCCGGACGTGGTCGCGCCGGCGCTGGACGGCGCCGAGTTCGCCGCGGTGCCGCTGCACGACGGGCGGCTCGACCTCGGCGCGGTGCTGGCGCTGCTCGGCGAACGCGGCATCAACGAGGTCCAGGTCGAGGCCGGTGCGGTGCTCGGTGGCGCGCTGCTGAAGGCCAGGCTGGTCGACGAACTGCTGCTGTACCAGGCCCCGCTGCTGCTGGGCGGCGAGGCGCGCGGCCTGCTCGACGGGCTGGGCATCGGGACGATGGCGCAGCGGCTGGTGCTGCGCTGGCACGACGTGCGCCAGGTCGGCGACGACCTGCGCCTGCTGCTGCGGCCGGCCTGA	MHDAASFTADDHRWMAHALQLAEQGRYTTRPNPMVGCVLVRDGDVVGEGWHQRKGGPHAEVFALRAAGERARGATAYVTLEPCAHFGSTPPCADALVAAGVARVVAAMADPFPQVNGGGFARLRAAGIAVAYGLMQAQARELNLGFLSRVERGRPWLRLKFGASLDGRTALASGESKWITGEAARADVQRWRARAGAILTGAGTVLADDPALTARIGAEIDCVAPLRVVLDRTLRSLARTKVRDGAAPTLYLHGPDVVAPALDGAEFAAVPLHDGRLDLGAVLALLGERGINEVQVEAGAVLGGALLKARLVDELLLYQAPLLLGGEARGLLDGLGIGTMAQRLVLRWHDVRQVGDDLRLLLRPA	PGPT0008555_959	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
BMS020_03647	276			hypothetical protein	ATGCCGACGCAGGTCAGCAGATCCGGTCCAATGCCGGAGCCGACGGTGAGAGTCCGGATGAAAGAAGACGGCAACCGCAACGGCCGGCAACGGCCGCGCGTGCGCCTGTTTTGCCTTGTGGCGTTTTTCGCTGATGTCCAACATGCGAGAAACGTGATGAATAAGTACCCGCAGATCCCTCTGCAAACGCCCGCACCCGCCTGTGCGGGGATGCAGGCCTCCACCGCACCGCGATACCTGTGCGTTCGCCTGAACGCCGCAGCGGGGGTGCGCTGA	MPTQVSRSGPMPEPTVRVRMKEDGNRNGRQRPRVRLFCLVAFFADVQHARNVMNKYPQIPLQTPAPACAGMQASTAPRYLCVRLNAAAGVR				NA	NA	NA	NA	NA
BMS020_03648	621	ribE_2		Riboflavin synthase	ATGTTCACCGGCATCATCGAAGGCGTCGGCCGCCTGGCCGCCGCGCAGCCGCTGGGCGGCGATACCCGTTTCAGCTTCGAGGTCGGCAGCCTGCCGTTCGACGGCGTGCAGCTTGGTGAGAGCATCGCGGTCAATGGCGTGTGCCTGACCGTGATTTCCTCCGACGCGGCCAGTTTCCAGGCCGACGCCTCCACCGAGACGCTGGCCTTGACCACGCTGGGCGGCCTAGCGGTCGGTGCCGTGCTGAACCTGGAGCGCGCGATGCGCCCGACCGACCGCCTCGGCGGCCACCTGGTCAGCGGCCACGTCGATGGCGTCGGCCGCGTGCTGTCGATCCACGACGATGCACGCGCGCAGCGCTGGCGCTTCGCCGCGCCGGCCGCGCTGCTCAAGTACATCGCCAAGAAGGGCTCGATCTGCGTCGATGGCGTCAGCCTGACCGTCAACGCGGTCGATGGCGACGGCTTCGAGGTTGCGCTGATCCCGCACACCGTCGCGCACACCCGCTTCGCCCACACCGGCGTCGGTGATGCGGTGAACCTGGAGATCGACCTGGTGGCGCGCTATGTCGAACGCCTGCTCGGCGCCCGAGCCGATGAAAACGGGGAGGTGGCGCTGTGA	MFTGIIEGVGRLAAAQPLGGDTRFSFEVGSLPFDGVQLGESIAVNGVCLTVISSDAASFQADASTETLALTTLGGLAVGAVLNLERAMRPTDRLGGHLVSGHVDGVGRVLSIHDDARAQRWRFAAPAALLKYIAKKGSICVDGVSLTVNAVDGDGFEVALIPHTVAHTRFAHTGVGDAVNLEIDLVARYVERLLGARADENGEVAL	PGPT0008610_3914	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
BMS020_03649	1116	ribBA	COG0108	Riboflavin biosynthesis protein RibBA	GTGAACTTCGCCCCCGTCCCCGAACTGCTGGAAGAAATCCGCCTGGGCCGCATGGTGGTCATCGTCGATGACGAGGACCGCGAGAACGAAGGCGACCTGATCATGGCCGCCGAGCTGGTCAAGGCCAGCGACATCAACTTCATGGTCACCCACGGCCGCGGCCTGGTGTGCCTGCCGATGTCGCCGGCGCGCTGCGTGCAGCTCGGCCTGGCGCCGATGGTGCAGGCCAACACCGCACAGTTCCAGACCAACTTCACCGTCAGCATCGAAGCCGCCGAAGGCGTCACCACCGGCATCTCGGCCGCCGACCGCGCCCACACCATCCGCACCGCGGTGCGTCCGGATGCCAAGCCGACCGACCTGAGCCGCCCGGGCCACATCTTCCCGCTGATCGCCCAGGCCGGCGGCGTGCTGACCCGCGCCGGCCACACCGAGGCGGCCACCGACCTGGCCGAGCTGGCCGGGCTGGAGCCGGCCGGCGTGCTGGTCGAGATCCTCAACCCCGACGGCACCATGGCGCGCCGCCCGGAGCTGGAGCTGTTCGCGCGCGAGCACGGGCTGAAGATGGGCTCGATCGCCGACCTGATCGCCTATCGGCTGGCCACCGAGCACACCGTCGAGCGCGTGGACGAGCGCGAGATCGATACCGAGTTCGGCCCGTTCAAGCTGGTCACCTACCGCGACCGCATCGCCCACGACCTGCACTTCGCGCTGGTCAAGGGCCAGCCCGACGCGGCCACCCCGACCCTGGTGCGGGTGCACGTCGAGAACCCGCTGTCCGACCTGCTGCACTGGCGTCGCGACGACTTTGGCGTGGCCCAGACCGATGCGCTGCGGGCGATCGCCGCCGAGGGCAAGGGCGTGATGGTGGTGCTGTCGGCGCCGCGCGACGGCGAGGCGCTGCTGGCACGGCTGCGCCGCGAGACCGTGGTGCGCCCGGCCGGCAAGGACAAGGATGTCGGCCAGTGGCGCCGCAACGGCGCCGGCGCGCAGATCCTGGCCGAACTCGGCCTGGGCAAGCTGCGCGTGCTCGGCACGCCGCGCCGCCAGGTCGCGCTGGCCGGCTATGGGCTGGAGATCGTCGAGACGATCGAACGCCCGCTCGACGCCGCCTGA	MNFAPVPELLEEIRLGRMVVIVDDEDRENEGDLIMAAELVKASDINFMVTHGRGLVCLPMSPARCVQLGLAPMVQANTAQFQTNFTVSIEAAEGVTTGISAADRAHTIRTAVRPDAKPTDLSRPGHIFPLIAQAGGVLTRAGHTEAATDLAELAGLEPAGVLVEILNPDGTMARRPELELFAREHGLKMGSIADLIAYRLATEHTVERVDEREIDTEFGPFKLVTYRDRIAHDLHFALVKGQPDAATPTLVRVHVENPLSDLLHWRRDDFGVAQTDALRAIAAEGKGVMVVLSAPRDGEALLARLRRETVVRPAGKDKDVGQWRRNGAGAQILAELGLGKLRVLGTPRRQVALAGYGLEIVETIERPLDAA	PGPT0007990_3922	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
BMS020_03650	465	ribH		6,7-dimethyl-8-ribityllumazine synthase	ATGACCCATTACGAAGGCGACCTTCGCCCCAACGCCGCGCGCTTCGCGATCATCGCCAGCCGCTGGAACGCCCGCATCACCGACGTGCTGGTCGCCGGTGCCCGCCAGAGCCTGGCCGGCAACGGGATCCCTGAAAGCGCGGTGGACGTGGTCCGCGTGCCCGGCGCGTGGGAAATCCCGATGGCCGCCAACCGCATCGCCCAGGGCGGCCAGCATGCGGCGATCGTCGCGCTGGGCTGCGTGATCCGCGGCGACACCCGGCACTACGAACACGTCGCCGACCTGTGCGCCGAAGGCCTGATGAGCGTGCAGCTGCAGACCGGCGTGCCGGTGCTGAACGGCGTGCTGGCGGTGGAGCGGGTCGAGGATGCCGAGGCCCGTGCCGGCGGCAGCCATGGCAACAAGGGCGAGGAAGCCGCGCTGGCGGCGCTGGAAATGGTCAATCTGCTGGAACAACTGCCATGA	MTHYEGDLRPNAARFAIIASRWNARITDVLVAGARQSLAGNGIPESAVDVVRVPGAWEIPMAANRIAQGGQHAAIVALGCVIRGDTRHYEHVADLCAEGLMSVQLQTGVPVLNGVLAVERVEDAEARAGGSHGNKGEEAALAALEMVNLLEQLP	PGPT0008605_3767	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
BMS020_03651	468	nusB_2	COG0781	Transcription antitermination protein NusB	ATGAACAAGCCTGCCGGTCATTCCAAGCATGTGCGCCGCGACGGCGTTGATCCGGTGCTGCGTTCGCGCGCGCGCCGCCGTGCGCTGCAGGCGGTCTACGCCTGGCAGATCTCCGGCGGCTTCGCCAAGCAGGTGATCGCGCAGTTCGCCCATGAGCAGGCCCACGAAGTGGCCGACCTGGGCTACTTCGAGAACCTGGTCGAAGGCGTGCTGGCGCACCGCAAGGAACTGGACGAGGCGCTGGCGCCGTACCTGGACCGCGCGGTCGAGGACGTCGATGCGATCGAGCGCGCGGTGCTGCGCCTGGCCGCCTACGAGCTGCTGTACCGCCAGGACGTGCCGTACCGGGTGGTGATCAACGAAGCGATCGAGACCGCCAAGCGCTTCGGTTCCGAACACGGCCACACCTACGTCAACGGCGTGCTGGACCGGGCTGCGGTGTGGCGCAAGGTCGAGGCCGGCGGCTGA	MNKPAGHSKHVRRDGVDPVLRSRARRRALQAVYAWQISGGFAKQVIAQFAHEQAHEVADLGYFENLVEGVLAHRKELDEALAPYLDRAVEDVDAIERAVLRLAAYELLYRQDVPYRVVINEAIETAKRFGSEHGHTYVNGVLDRAAVWRKVEAGG				NA	NA	NA	NA	NA
BMS020_03652	975	thiL_2	COG0611	Thiamine-monophosphate kinase	ATGACCGAATTCGCCCTGATCGACCGCATCCGTGCCCGCAGCGGCGGCCGCGACGACATCGCGCTGGGCATCGGTGACGATGCCGCGCTGCTGCAGCCGCCTGCCGGCGAGCAGCTGGTGGTGACGATGGACACGCTCAACGCCGGGGTGCATTTCCCGCCGGAGAGCGCCCCGACCGACATCGGCTGGAAGACCCTGGCGGTGAACCTGTCCGACCTGGCAGCGATGGGCGCGCGACCGGCCTGGTGCACGCTGTCGCTGTCGTTGCCGCAGGTCGATCCGGCCTGGATCGACGGCTTCGCCGATGGCTTCTTCGCGCTCGCCGATGCGCACGGTTTCGCCCTGGTCGGCGGTGACACCACGCGCGGGCCGTTGTCGTTGTCGGTGACCGCGATGGGCCTGGTCGCCGCCGGCAGCGCGCTGCGCCGCGACGGCGCCCAGGTCGGCGACGATGTCTGGGTCACCGGCACGCTCGGCGATGCCGCCGCGGCGCTGCGCGACTGGCAGGCCGGCACGCTCGATGTCGCCCTGCCTGCCGCCGCCGCGCTGGAGCCGCTGCGGCAGCGCCTGCAGCGGCCGACGCCGCGCGTGCAGGCCGGTCTGCGCCTGGTCGGCCTGGCCAGCGCCGCGGTCGATGTCTCCGATGGGCTGTTGGCCGATCTCGGCCACGTGTGCCGGCGCAGCCGGGTCGGCGCGCAGCTGTGGAGCGAGGCATTGCCGGCGTCGCCGGCGCTGCGCGCCGCGGTGCCCGACGCTGCCGCCCGGCACCTGCTGCAATGCGCCGGCGGCGACGATTACGAGCTGTGCTTCACCGCGCCGCCGCGGCACCGCGACGCGGTCGCGCTGGCGCTGCAGTTCGCCGGGGTCGAAGGCAGCCGGATCGGTCGCATCGTTGCCGGCGATGGCGTGGCGGTGCTCGATGCCGTCGGCCAACCGTGGCAACCGGGCCGGACCGGCTACCAGCACTTCGCCTGA	MTEFALIDRIRARSGGRDDIALGIGDDAALLQPPAGEQLVVTMDTLNAGVHFPPESAPTDIGWKTLAVNLSDLAAMGARPAWCTLSLSLPQVDPAWIDGFADGFFALADAHGFALVGGDTTRGPLSLSVTAMGLVAAGSALRRDGAQVGDDVWVTGTLGDAAAALRDWQAGTLDVALPAAAALEPLRQRLQRPTPRVQAGLRLVGLASAAVDVSDGLLADLGHVCRRSRVGAQLWSEALPASPALRAAVPDAAARHLLQCAGGDDYELCFTAPPRHRDAVALALQFAGVEGSRIGRIVAGDGVAVLDAVGQPWQPGRTGYQHFA	PGPT0009010_1952	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0009010-thiL-K00946	NA	NA
BMS020_03653	606			hypothetical protein	ATGGCCGACGCGGTGATCGAGGCGGGAACCCGTCCGGGGGGAGAAGGGCGGATGCGACCGTACCAGCGAGTACGGTTCTCGCCACGCTGCGCTGCGGCATCGGTGGGGCCGCCGACGGCGATGCCGGCGCCGATCCATCGGCTGCCGCGGCGGATACGTTGGGCACGCCTCCGGCGACGCCCCGGCCTCGCCCCGGTTGCGACGGCGGCAACGGCGCTGCCGTGGAGACGGGGGCACGCGGCGGATCGACCGCGCGGATCGATGCAGGCCAGCGCAGGCGCCACGTCCTCTGCGGTCATCACGCTTCGGCCAGCAGCGTCCGCTCGGAACCACGTCCGCACCGGTGCAGCACCCGCGATGCAGCGCCGCTCAGGCGCTCAGGACAGCGGCCGTTCCGACCGCCGACTGGCCATAGGCACCAGCACGGCGCGCACCGCGCTCAGGCGAAGTGCTGGTAGCCGGTCCGGCCCGGTTGCCACGGTTGGCCGACGGCATCGAGCACCGCCACGCCATCGCCGGCAACGATGCGACCGATCCGGCTGCCTTCGACCCCGGCGAACTGCAGCGCCAGCGCGACCGCGTCGCGGTGCCGCGGCGGCGCGGTGA	MADAVIEAGTRPGGEGRMRPYQRVRFSPRCAAASVGPPTAMPAPIHRLPRRIRWARLRRRPGLAPVATAATALPWRRGHAADRPRGSMQASAGATSSAVITLRPAASARNHVRTGAAPAMQRRSGAQDSGRSDRRLAIGTSTARTALRRSAGSRSGPVATVGRRHRAPPRHRRQRCDRSGCLRPRRTAAPARPRRGAAAAR				NA	NA	NA	NA	NA
BMS020_03654	1581			hypothetical protein	ATGAGCAGGTACGCCTGTCGCTGTCTGGTCCTGACGCTGTTGCTGCTGTCCGCCGCCGCCGCGTCCGCGGCCGGGTTCGGCAAACGCTATGAACGCATTCCGAGCTGGGACGGCACCGAGCTCGGGGCCGTGGTGCTGGTGCCGCAGGGGCAGGGCAGCGGCCCGTTCCCGCTGGTGGTGATGCCGGCCAGCTGGTCGCTGCCGAACCTGGAGTACGTCGGCCGCGCCGCGCAGATGGCCAGCGACGGCTACGTGGTGGTCAGCTACACCTCGCGCGGCTTCTGGGATTCGGCCGGGCAGATCGACATCGCCGGCCCGGCCACGGTCGAGGACGTCAGCGCGGTGATCGACTGGGCGTTGACCAATACCCCGGCCGACCCGGCGCGGATCGGTGCCTCCGGCATCTCCTACGGTGCCGGCACCAGCCTGCTCGCGGCCGCGCGCGATCCGCGGATCAAGGCGGTGGCCGCGCTGAGCGGCTGGGCCGACCTGGAGGCCTCGCTGTACGCCAACCAGACCGTCAGCCAGCAGGGCGTGGCGCTGCTGGTGGCCGCCGGCGCGTTGACCGGGCGTCCCGGGCCGGAGCTGCAGGCGATCACCGCGCGCGCCGCGCTCGGCGACTATGACGGCGCAGTGCAGGGCTTCCTGCCGCAGGCCGCCAGCCGTGGCGTGGTGCACGAGGTCGCCGCGCTCAACCGCAACGGCACCGCGGTGCTGCTGGCCAACGCATTCAACGACGGCCTGTTTCCGCCCAACCAGTACATCGACCTGTTCCAGCGCCTGGACGGCCCCAAGCGCCTGCTGCTGAGCCAGGGCGATCACGCCACCGCCGAGCTGCCCGGCGCGCTCGGGCTGCCCAACGCGGTCTACGACGCGACGCTGCAATGGTTCGACCATGTGCTGAAGGGCGAGGACACCGGCGCCGACAGCGCCGCCGCGGTGCGCCTGGCCACGCTCGACGGGCAGTGGCTGGACTATCCGGACTGGGCCCAGGTGCAGGCCGGCGCCACCCGCTATGCGCTGGGCAAGCCGAGCGGCCTGCTGCTGCCGACCGGGACCCTGGCCGAAGGCGATGCCAGCGGCTGGAGCGCGCGCATCGGCACCGCGGTGCCGACCGTGGCCGACTCCGGCGTGGTGCTGGCCAGCGGCCTGCTGCAGGGCTTCGGCCTGCCGGCCACGGCGTCGATCCCGCTGGTCGCGCGGGTCGGTGCCGGGGTCTGGATGGGACCGGTCTACAGCAGCGCACGCACGCTGGCCGGCGCGCCGTCGCTGCAGCTGACGGTGACCCCGAGCCAGTCGCAGCTGTCGCTGTTCGCCTATCTCTACAGCGTCGATGCGCTCGGCCAGGGCGAGCTGCTCAGCCACAAGCCGTACAGCCTGCGCGGGGCGACGCCGGGCGTGGCGCAGCGCGTGGACATCGCGTTGGAGGCCAGCGCGGCGACGATCGCCGCCGGGCGCAGGCTGGTGCTGGTGGTGGACACGCTGGACCCGCGCTACACCGATGCGACCCGTGCCGGCGGCAGCGTGACGTTCGCCTCGCCGCTGGCGACGCCGGCCTATCTGGACGTGCCGCTGCATTGA	MSRYACRCLVLTLLLLSAAAASAAGFGKRYERIPSWDGTELGAVVLVPQGQGSGPFPLVVMPASWSLPNLEYVGRAAQMASDGYVVVSYTSRGFWDSAGQIDIAGPATVEDVSAVIDWALTNTPADPARIGASGISYGAGTSLLAAARDPRIKAVAALSGWADLEASLYANQTVSQQGVALLVAAGALTGRPGPELQAITARAALGDYDGAVQGFLPQAASRGVVHEVAALNRNGTAVLLANAFNDGLFPPNQYIDLFQRLDGPKRLLLSQGDHATAELPGALGLPNAVYDATLQWFDHVLKGEDTGADSAAAVRLATLDGQWLDYPDWAQVQAGATRYALGKPSGLLLPTGTLAEGDASGWSARIGTAVPTVADSGVVLASGLLQGFGLPATASIPLVARVGAGVWMGPVYSSARTLAGAPSLQLTVTPSQSQLSLFAYLYSVDALGQGELLSHKPYSLRGATPGVAQRVDIALEASAATIAAGRRLVLVVDTLDPRYTDATRAGGSVTFASPLATPAYLDVPLH				NA	NA	NA	NA	NA
BMS020_03655	705			hypothetical protein	ATGGTCTCCCATGTTCGAATTCCGGCGGCGCTGCGTGGCGTCGCCCTGCTTGGCCTGTGCGCGGCGATGCCGCTGGCGCAGGCCATCACCGTTGGCGGCAATGCCGCGCTCACCAGCGACTACGTCTGGCGCGGCTCCAGCCAGAACCAGGGCAATGCCGCGATCCAGGGCGGGCTGAAGGCCAGCGCCGACACTGGGTTCTACGCGTCGCTGTGGGGCGCGTCGGTGGACTTCGGTCCGGACGTCGATGCCAGCACCGAACTCGATGGCGTGATCGGCTGGAGCGGCGCGCTGGCGCCGGACTGGGTGCTCGACGCCAACCTCACCCGCTACCAGTACCCGGGCAGCGCGGCCGACCTCAACTGGAACGAGCTCGGCGCCACCGTCACCTGGAAGCAGGCCTACTGGCTGCAGCTGGGCGTCTCCGACGATGCGCTGGCCGGCGGCCATGCCGGCACCTACGCGCAGCTCGGTGCGCGGCTGCCGGTCAACGACGCGCTGCGCTTCGAAGCCGCGGCTGGCCGCTACGTCCTGTCCAGCGCCTATGCCGACGACTACACGCACGGCCAGCTGAGCGCGGTGTGGGCGTTCGCCAAGCCGCTGGAACTGCGGGTCAGCGGCCACTTCACCGATGCCGCCGCCAAGCGGCTGTTCCCGGGCCAGGCCGGCTCGCGGCTGGAAGTCGCGCTGCAGGGCGCGTTCTGA	MVSHVRIPAALRGVALLGLCAAMPLAQAITVGGNAALTSDYVWRGSSQNQGNAAIQGGLKASADTGFYASLWGASVDFGPDVDASTELDGVIGWSGALAPDWVLDANLTRYQYPGSAADLNWNELGATVTWKQAYWLQLGVSDDALAGGHAGTYAQLGARLPVNDALRFEAAAGRYVLSSAYADDYTHGQLSAVWAFAKPLELRVSGHFTDAAAKRLFPGQAGSRLEVALQGAF				NA	NA	NA	NA	NA
BMS020_03656	93			hypothetical protein	ATGAGCGGCTGGCTTTCCTTCCTGTGCGGCATCGCCGTGCTGATCGCGGCGGCGTACCTGCTGTACGTCGTGCTGCGTCCTGAAGATTTCTGA	MSGWLSFLCGIAVLIAAAYLLYVVLRPEDF				NA	NA	NA	NA	NA
BMS020_03657	1782	kdpA_1	COG2060	Potassium-transporting ATPase potassium-binding subunit	ATGATCGAGACCATTCTTGTCTACGCGCTGGCGATCGTGCTGGCGCTGCCGCTGGGGCGCTACCTGGCGACGGTGATGCGCGGCGCGCCGATGCGCGGCGATGGCCTGTTCGGCCTGGTCGAGCGCCCGCTGTACGCGCTGTTCGGCGTGCGCCCGCAGCAGGGCATGGGCTGGCGCGGCTACGTGCTGGCGTTCCTGGCCAGCAACCTGGTGGTCGGCGCGCTGGTGTTCGGCGTGTTCATGACCCAGGCCTGGCTGCCGCTCAATCCCGACGGCGTGCCGAACATGTCGTGGGACCTGGCGCTGCACACCGCGATCTCGTTCCTGACCAACACCAACCAGCAGCACTATTCCGGCCAGGCGCAGCTGTCCTACCTGGCGCAGGCCGCGGCGATCGTCGGCCTGCAGGTGGTGACGCCGATGATGGGCCTGGCGCTGGTGGTGGCGACGCTGCGCGCGCTGTTTGGTGGGCGAGCGGCCGCGCGCCAGGGCGATGCCCGATCGGCATCGTCTGCACCCGTGGCGGATGCTGCGGAGCAGGCGACGCAGCGCCATGGCGAACGCGTCCCGTCAGATCGCGCCGACGCCGTCGATGTCGGCAACTACTGGGCCGACGTGGTGCGTGGCAGCGTGCGCGTGATGCTGCCGCTGGGCCTGCTGTGGGCGCTGCTGCTGGGCTGGCAGGGCGTGCCGTCGACGCTGCACGGCGCGGCCACCGCGACCCCGATCGACGCCAGTGCCGGCATGGCCGAGCAGAAGATCCCGGTCGGTCCGGTCGCGGCGATGGTCGCGGTCAAGCAGCTCGGCACCAATGGCGGCGGCTGGTACGGCCCCAACAGTGCGGTGCCGCTGGAGAACCCCACGCCGCTGAGCAACCTGCTGGAAACGCTGGCGATCATCCTGCTGCCGATCGCGGTGGTGGTGATGATCGCCTCGTTGACCGGGCGCAGGCGGCTGGCTGGGCTGGTGTTCGGCACGATGCTGCTGATGTCGGCGGCGTCCACCGGATTGACGCTGTGGTCCGAAGGCCATTCGGCCAGCACCGCGTCGGCGGCGTTGATGGAAGGCAAAGAAGTGCGCTTCGGGGCCGATGCCTCGGCGTTGTGGGCCGCCCTGACCACCCAGACCTCGAACGGTTCGGTCAACGCGATGCACGACTCGCTGAGCCCGCTGAGCGGTCTGGTCGCGCTGGTCAACATGCTGATCAACGGCATCTGGGGCGGCATCGGCTGCGGCCTGCAGCAGTTCATCGTCTACCTGATGCTCGGCGTGTTCCTGGCCGGGCTGATGACCGGGCGCACGCCGGAGCTGCTCGGGCGCAAGATCGAGGCGCGCGAAGTGCAGTTGCTGGCGCTGCTGATCCTGCTGCAGCCGCTGGTGCTGCTGTGCCTGACCGCGCTGACGCTGGCGCTGCCGGCGATCACCGGCAATTCCAATCCCGGCTTCCATGGCATCAGCCAGGTGTTCTACGAGTACGCCTCGGCGTTCGCCAACAACGGCTCCGGTTTCGAGGGCCTGGGAGACGCCACGCCGTGGTGGAACCTGAGCTGCGCGGCGGTGCTGCTGCTGGGACGCTACCCGGCGCTGATCGTGCCGCTGATCGTCGCCGCGCGGCTGGGCGCCAAGCGCCGCGCGCCGGAATCGGCCGGCAGCCTGCAGATCGAAACCCCTACCTTCGCGCTGACGCTGGTCGCCGTGATCGTCGTCCTCACCGTGCTGCAGTTCATGCCTGCACTGGTGCTGGGCCCGGTCGCCGAACACCTGACGTTGGCCGTGCGCTGA	MIETILVYALAIVLALPLGRYLATVMRGAPMRGDGLFGLVERPLYALFGVRPQQGMGWRGYVLAFLASNLVVGALVFGVFMTQAWLPLNPDGVPNMSWDLALHTAISFLTNTNQQHYSGQAQLSYLAQAAAIVGLQVVTPMMGLALVVATLRALFGGRAAARQGDARSASSAPVADAAEQATQRHGERVPSDRADAVDVGNYWADVVRGSVRVMLPLGLLWALLLGWQGVPSTLHGAATATPIDASAGMAEQKIPVGPVAAMVAVKQLGTNGGGWYGPNSAVPLENPTPLSNLLETLAIILLPIAVVVMIASLTGRRRLAGLVFGTMLLMSAASTGLTLWSEGHSASTASAALMEGKEVRFGADASALWAALTTQTSNGSVNAMHDSLSPLSGLVALVNMLINGIWGGIGCGLQQFIVYLMLGVFLAGLMTGRTPELLGRKIEAREVQLLALLILLQPLVLLCLTALTLALPAITGNSNPGFHGISQVFYEYASAFANNGSGFEGLGDATPWWNLSCAAVLLLGRYPALIVPLIVAARLGAKRRAPESAGSLQIETPTFALTLVAVIVVLTVLQFMPALVLGPVAEHLTLAVR	PGPT0002740_212	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002740-kdpA-K01546	NA	NA
BMS020_03658	2055	kdpB_1	COG2216	Potassium-transporting ATPase ATP-binding subunit	ATGAGTACGATGGAATACAACGACAAGCGCCAGCGCACCGACGTGCGGCTGTTCGACGGCGCGATCCTGCTGGCCGCCAGCCGCGCCGCGTTCGTCAAGCTGGCCCCGCGCCACCTGCTGCGCAGCCCGGTGATGGCGGTGGTGATGGCCGGTACCTTGCTGGCGGCGGTGATCACCGCCGCCAGCCACGCCCAGCCGGGCTTCGGCTGGACGGTGACCGCGATCCTGCTGGTCACGGTGCTGTTCGGCAACTTCGCCGAGGCGATCGCCGAAGCGCGCGGCCGCGGCCAGGCCGCCTCGTTGCGGCGCGCGCGCAAGGACCTGGTCGCGCGCCGCGTCGACACCGCGCTAGGTGGCGGCCGCGAGACCAGCGTGCCGGCCGCCGAGCTGCGCCCGGGCGACTACGTGATCGTCTCCGAAGGCGAGTTCGTGCCCGCCGACGGCGAGATCGTGCGCGGGCTGGCGACGATCAACGAAGCGGCGGTGACCGGCGAATCGGCGCCGGTGCTGCGCGAGGCCGGTACCGACCGCAGCGGCGTGATCGGCGGCACCCGCGTGCTGTCCGACGAGATCGTGTTCAAGGTCACCGCCGAGCCTGGCCACAGTTTCCTCGACCGCATGATCGCGCTGGTCGAAGGCGCCAACCGGCAGAAGACCCCGAACGAGATCGCGCTGACGCTGCTGCTGGCGGCGATGACGCTGACCTTCCTGATCGTGGTCGCCACGCTGCCGGCGATCGCCGGTTTCGTCGGCGCGAAGATCGATCCGCTGCTGCTGATCGCGCTGCTGGTGTGCCTGATCCCGACCACGATCGGTGGCCTGCTGCCAGCGATCGGCATCTCCGGCATGAACCGCGCGCTGGCCGCCAACGTGCTGGCGAAGTCGGGCAAGGCGGTGGAGGTCGCTGGCGACGTCGACGTGCTGCTGCTCGACAAGACCGGCACCATCACCCACGGCGACCGCCAGGCGACCGCGTTCCACCCGCTGGCCGGGATCGACCGCAGCCAGCTGCGCGACGCGGCGATGCTGGCGTCGCTGGCCGACCCGACCCCGGAAGGCAAGTCGATCGTCAAGCTGGCGCGCGAGCAGGGCGCGGCGGCATCCAGCGAACCCGATGGTGCGCACTTCATCGCCTTTACCGCGCAGACCCGCATGTCTGGCGTCGACGTCGACGGCCGCAGCATCCGCAAGGGCGCCGGCGATGCGATCGCCGCGTTCGTGCAGGCCCAGGGTGGGATGGTGTCGCCGGAGCTGGCCGGGCGGATCGAACAGGTCGCGCGCGGCGGCGCCACGCCGCTGGTGGTCGCCGAAGGCCGCCACGTGCTCGGCGTGGTCGAGCTCAGCGACGTGGTCAAGCACGGCATCAAGGAGAAGTTCGCGCAGCTGCGGGCGATGGGCATCAAGACCGTGATGATCACCGGCGACAACCCGCTGACCGCCGCGGCGATCGCCGCCGAGGCCGGCGTCGACGACTACATCGCCGAGGCGCGCCCGGAAGACAAGCTGGCGCGCATCCGTGCCGAGCAGGCCGGCGGGCGGCTGGTGGCGATGGTTGGTGACGGCACCAACGATGCACCGGCGCTGGCGCAGGCCGACGTCGGCCTGGCGATGAACTCCGGCACCCAGGCGGCCAAGGAGGCCGGCAACATGGTCGATCTGGATTCGGATCCGGCCAAGCTGCTCGCGGTGGTGGAAGTGGGCAAGCAGCAGCTGATCACCCGCGGCGCGCTGACCACGTTCTCGCTGGCCAACGACGTCTCGAAGTATTTCGCGATCCTGCCGGCGATGTTCGCCGCGGCGCTGCCCTCGGTGGCGGCGTTGAACGTGATGCAGCTGTCGAGCCCGCGCAACGCGGTGCTGGCGGCGCTGATCTTCAATGCGTTGATCATTCCCGCGCTGATCCCGCTCGCCCTGCGTGGCGTGCGCTTCCGTCCGGCCGGCGCGACCGCGCTGCTGCGCCGGAACATGCTGGTCTACGGCGTCGGCGGCGTGTTGCTGCCGTTCGTCGCCATCAAACTGATCGACCTGGTGCTGGCCGCCACGGTCGGTGCCTGA	MSTMEYNDKRQRTDVRLFDGAILLAASRAAFVKLAPRHLLRSPVMAVVMAGTLLAAVITAASHAQPGFGWTVTAILLVTVLFGNFAEAIAEARGRGQAASLRRARKDLVARRVDTALGGGRETSVPAAELRPGDYVIVSEGEFVPADGEIVRGLATINEAAVTGESAPVLREAGTDRSGVIGGTRVLSDEIVFKVTAEPGHSFLDRMIALVEGANRQKTPNEIALTLLLAAMTLTFLIVVATLPAIAGFVGAKIDPLLLIALLVCLIPTTIGGLLPAIGISGMNRALAANVLAKSGKAVEVAGDVDVLLLDKTGTITHGDRQATAFHPLAGIDRSQLRDAAMLASLADPTPEGKSIVKLAREQGAAASSEPDGAHFIAFTAQTRMSGVDVDGRSIRKGAGDAIAAFVQAQGGMVSPELAGRIEQVARGGATPLVVAEGRHVLGVVELSDVVKHGIKEKFAQLRAMGIKTVMITGDNPLTAAAIAAEAGVDDYIAEARPEDKLARIRAEQAGGRLVAMVGDGTNDAPALAQADVGLAMNSGTQAAKEAGNMVDLDSDPAKLLAVVEVGKQQLITRGALTTFSLANDVSKYFAILPAMFAAALPSVAALNVMQLSSPRNAVLAALIFNALIIPALIPLALRGVRFRPAGATALLRRNMLVYGVGGVLLPFVAIKLIDLVLAATVGA	PGPT0002745_1593	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002745-kdpB-K01547	NA	NA
BMS020_03659	624	kdpC_1	COG2156	Potassium-transporting ATPase KdpC subunit	ATGTCTTCGCACTCCATTTCCGCGTCGTCCGCTTCGGTGGCCTCCGTCGCGCGGTTGCAGGGCCACCCCGTACTCCGGCCGGCGATCGGGCTGGCGCTGTTCGCCGTGTTCGGTGCCGGGTTGGCGTACTCGCTGGTCGCCACCGGCCTGGTCGGCGCGCTGTTCCCGGCGCAGGCCACCGGCTCGCTGCTGCAGCGCGATGGGCGGGTGGTCGGCTCGGCGCTGGTGGCGCAGCCGTTCGCCGCGGCCAAGTACTTCCAGCCGCGCCCATCGGCGGCCAAGTACGACCCGACCGCGTTGGCCGGCAGCAACCAGGCGCGCTCCAATCCTGACCTGATCGCGCGCATCGCACAGACCCGCGCCGAGGTCGCCGCGCGCGACGGCATCGCGCCGGAGGCGGTCGCCGACGACTTGCTGACCCAGTCCGGCGGCGGCATCGATCCGCATATCAGCGTCGCCGCCGCGCGCCAGCAGGTGGCACGGGTGGCGCAGGCGCGCGGCCTGCCGGCCGAGCGCGTGCAGGGGCTGGTCGACGCGCAGACCGACGGCCCGCAGTTCGGCCTGCTCGGCCAGCCGCGGGTCAACGTGCTGCAGCTGAACCTGGCACTGGACGCGTTGCACTGA	MSSHSISASSASVASVARLQGHPVLRPAIGLALFAVFGAGLAYSLVATGLVGALFPAQATGSLLQRDGRVVGSALVAQPFAAAKYFQPRPSAAKYDPTALAGSNQARSNPDLIARIAQTRAEVAARDGIAPEAVADDLLTQSGGGIDPHISVAAARQQVARVAQARGLPAERVQGLVDAQTDGPQFGLLGQPRVNVLQLNLALDALH	PGPT0002750_280	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002750-kdpC-K01548	NA	NA
BMS020_03660	2664	kdpD_1	COG2205	Sensor protein KdpD	ATGAGCGACGCCCGCACCCAACAGGCCGATGCGCTGATCGGCGAACTGCAGCGCGACCGCGGCGGGCGCCTGACCGTGTTCCTCGGTGCCGCGCCCGGCGTCGGCAAAACCTATGCGATGCTGTCGCGCGCCCGCGAGCGGCTGCGCCAGGGCGTCGATGTCGTCGCCGGCATCGTCGAGACGCACGGCCGCAGCGACACCGCGGCGCTGCTCGACGGCATGCCGGTGCTGGCACGCAAGCGCGTGCCCTACCAGGGCCGCACGCTGGAGGAACTCGACCTCGACGCACTGCTGGCGCGCAAGCCGAAGGTCGCGCTGGTCGACGAGCTGGCCCACCGCAATGCGCCGGGCAGCCGCCACGAACGGCGCTGGCAGGATGTCGGCGAGCTGCTCGATGCCGGCATCGACGTCTACACCACGATCAACATCCAGCACCTGGAAAGCCTCAACGACGTCGTCCACCGCATCACCGGCGTGCGCGTGTCCGAGACCGTACCCGACGCGGTGTTCGACCGCCTGCGCGACATCGTGCTGGTCGACCTGCCGCCGCGCGAGCTGATCGAGCGCCTGCAGCAGGGCAAGGTCTACCTGCCCGAGCAGGCCACGCAGGCGCTGCAGGCGTTCTTCTCGCCGTCCAACCTGACCGCGCTGCGCGAATTGGCGATGCAGACCGCGGCCGATCGCGTCGACAGCGACCTGCGCGATGCCCAGGCCGCGCGCGGCCTGCCCGGCACCGCGGCGCTGCGTCGGCGCGTGGTGGTGGCGATCGACGGCCGCGGCAGTTCCGATTACCTGGTGCGCGTCGCGCGGCGGCTGTCCGAGCGCCGCGATGCGCCGTGGACGGTGGTGACGGTGCAGACCGCCACGCTGCCCGACGCCGACTGGCAGCTGGAGATCGACCGCGCGTTCGCGCTGGCGCGCCGGCTCGGCGGCGACACCGCGCTGCTGCACGGCGGCAACGTCGTCGACGCGCTGCTCGACTACGCCGCGCAGAACGGCGTGTCCACGCTGGTGCTCGGGCGCACCCGCGAACGCCCGCTGGCGCGCATGTTCAACCGCACGCTGACCCAGCAGCTGCTGCAGCGTGGCGCGCACTACGAACTGGTGATCATCAGCTCGCCCGACGCACGTGCGCGTGCGCGTCGGCGTTGGCATGGCCCCGGCTACTGGCTGCGCCGCGACGAGTACGGCTACGCCGCCGCGTCCGCCGCCGCCGCGGTGGCGGTGGCCTGGCTGCTGCAGCGCTGGACCGACATCGACGACCTGTCGATGGTGTTCATCGTCGCGGTGGTGCTGGTGGCCGCGCGCACCCGCATGAGCGCGGCGGTGCTGGCGGCGCTGCTGAGCTTCTTCGCCTACAACTTCTTCTTCATCGAGCCGCGCTTCACCTTCAACATCGCCGCCAGCGCCGGCCTGGTGACGGTGTGCCTGTTCCTGATCGCCGCGCTGGTGGCCGGGCGGCTCGCCTCGAAGCTGCGCAGCCAGGTGCTGGCGCTGCGCGCCGCCAACGCGCATGCCGATGCGCTGCAGGCGCTGGGCCGGCGCCTGGCCAGCGCGGCCGACATCGGCCAGGTGCTCGCCGCCGGGCGGCAGGCGCTGGAAACCGCGCTGGAGGCCGATGCCTGGTTGCGCCTGGGCGAGCACGAAAGTGACGGCGGCAACGGCATGGCCGCGCTCGATCGCAACGCCGCCGAATGGAGCCAGCGCCACGGCCAGCCGGCCGGCCGCTACACCGACACGCTGGCCGCGGCGCAGTGGTGGTGCCTGCCGGTGCGGCACGAGCGCGGCACGCTCGGCGTGGTCGCGCTGCGCTTCCCGGAAACGCGGCAGCGGCCCGGCCTGGAACAGCGCCGGCTGGCCGAGGCGATGGTCGAAGACATCGGCCAGGCCGCGCTGCGCACCCGTCTGGTCGCCGACCTGGAAAGCGCCCGCGTCAGCGGCGAGACCGAACGGCTGCGCTCGGCGCTGCTGTCGTCGGTGTCGCACGACCTGCGTTCGCCGTTGGCCTCGATGATCGGCTCGGCCAGCAGCTTGGCCAGCTACGGCGAACAGATGGATGCCGACGATCGCCGCAGCCTGTTGGAAACGATCCAGCTCGAAGGCGAACGGCTCGACCGCTACATCCAGAACCTGCTCGACATGACCCGGCTCGGCCACACCGGGCTGACCCTCAACCGCGACTGGATCGGCGTCGATGAACTGCTCGGCTCGGCCCGGCGGCGGCTGCAGCGCTACCAGCCGCAGGTGCAGGTCGAGCTGCGCCTGCAGCCGGCGCTGCCGCCGATCTGGGTGCACCCGGCACTGGTCGAGCAGGCGGTGTTCAACGTGATCGAGAACGCGGCCAAGTTCTCCCCGCCGGGCGAGCCGGTGGTGGTGGACGCGCGCCTGCACGAGGGCGCCTTGCGGATCGATGTGGTCGATCGCGGCCCGGGCATTCCCGCCGACGAGCGCGCGCGCATCTTCGACATGTTCTACAGCGTCGAGCGCGGCGACCGCGGCCGTCACGGCACGGGATTGGGGCTGACGATCTGCCAGGGCATGATCGGCGCGCATGGCGGCAGCGTCGAGGCGCTGGCCGGCGACGGTGGCCGCGGCACGCGGATCCGCATTACCCTGCCGCTGCTGCAGCCCGTGCCACCGCCGCCACGTCCCGATGCCGACTGA	MSDARTQQADALIGELQRDRGGRLTVFLGAAPGVGKTYAMLSRARERLRQGVDVVAGIVETHGRSDTAALLDGMPVLARKRVPYQGRTLEELDLDALLARKPKVALVDELAHRNAPGSRHERRWQDVGELLDAGIDVYTTINIQHLESLNDVVHRITGVRVSETVPDAVFDRLRDIVLVDLPPRELIERLQQGKVYLPEQATQALQAFFSPSNLTALRELAMQTAADRVDSDLRDAQAARGLPGTAALRRRVVVAIDGRGSSDYLVRVARRLSERRDAPWTVVTVQTATLPDADWQLEIDRAFALARRLGGDTALLHGGNVVDALLDYAAQNGVSTLVLGRTRERPLARMFNRTLTQQLLQRGAHYELVIISSPDARARARRRWHGPGYWLRRDEYGYAAASAAAAVAVAWLLQRWTDIDDLSMVFIVAVVLVAARTRMSAAVLAALLSFFAYNFFFIEPRFTFNIAASAGLVTVCLFLIAALVAGRLASKLRSQVLALRAANAHADALQALGRRLASAADIGQVLAAGRQALETALEADAWLRLGEHESDGGNGMAALDRNAAEWSQRHGQPAGRYTDTLAAAQWWCLPVRHERGTLGVVALRFPETRQRPGLEQRRLAEAMVEDIGQAALRTRLVADLESARVSGETERLRSALLSSVSHDLRSPLASMIGSASSLASYGEQMDADDRRSLLETIQLEGERLDRYIQNLLDMTRLGHTGLTLNRDWIGVDELLGSARRRLQRYQPQVQVELRLQPALPPIWVHPALVEQAVFNVIENAAKFSPPGEPVVVDARLHEGALRIDVVDRGPGIPADERARIFDMFYSVERGDRGRHGTGLGLTICQGMIGAHGGSVEALAGDGGRGTRIRITLPLLQPVPPPPRPDAD	PGPT0002755_1162	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0002755-kdpD-K07646	NA	NA
BMS020_03661	720	kdpE_1	COG0745	KDP operon transcriptional regulatory protein KdpE	ATGCCGACTGAGTCCGCTTCCGCCATTCCGCCTCCGCGCGTGCTCGTCATCGACGACGAGCCGCAGATCCGCCGCTTCCTCGACATCAGCCTGCGTGCGCAGGGCTACCGGGTGCTGCAGGCCGGCACCGGCGAGGAGGGGCTGGCCCTGCTGGCCGGGCAGGGCGCCGAGCTGGTGGTGCTCGACATCGGCTTGCCCGACCTGGATGGCCACGAGGTGCTGCGCGCGATCCGCGAATGGTCGGCGGTGCCGGTGATCATGCTGACCGTGCGCGCCGGCGAGGCCGAGAAGGTCGCCGCGCTCGATGCCGGTGCCAACGACTACGTGACCAAGCCGTTCGGCGTGCAGGAGCTGATGGCGCGCATCCGCGTGCTGCTGCGCCAGCATGCGGCCACCACGTCGGTCGAGGAGGCGGTGTTCGACGACGGGCACCTGCATGTGCACCTGGGCTTGCGCGAGGTCACGCTGGACGGCGAGGCGCTGGCGCTGAGCCGTAAGGAATACGCGCTGCTGGCGCTGCTGCTCAAGCATGCCGGGCGTGTGGTCACCCAGCCGCAGCTGCTGCGCGAGCTGTGGGGGCCGACCCACGAGGACGACACCCACTATCTGCGCATCCTGGTCGGCAAGCTGCGGCAGAAGCTGCACGACGACGCCGCCGCACCGCGCTACATCGTCACCGAACCCGGCGTGGGGCTGCGCTTCATCGGCACCGCCCGGTGA	MPTESASAIPPPRVLVIDDEPQIRRFLDISLRAQGYRVLQAGTGEEGLALLAGQGAELVVLDIGLPDLDGHEVLRAIREWSAVPVIMLTVRAGEAEKVAALDAGANDYVTKPFGVQELMARIRVLLRQHAATTSVEEAVFDDGHLHVHLGLREVTLDGEALALSRKEYALLALLLKHAGRVVTQPQLLRELWGPTHEDDTHYLRILVGKLRQKLHDDAAAPRYIVTEPGVGLRFIGTAR	PGPT0002760_226	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0002760-kdpE-K07667	NA	NA
BMS020_03662	477			hypothetical protein	ATGAGTCCCGAGGACAGCAGCGGGCCGCGCATCTGGGTGGATGCCGACGCCTGCCCGGTGGTGATCAAGGAGATCCTGTTCCGCGGCGCCGAACGCCTGCGCATCCCGCTGACGCTGGTCGCCAACCAGTGGCTGCGCTGCCCGCGCTCGCCCTACCTGCAGGCGCTGCAGGTCCCCGGCGGCCCGGACGCGGCCGACGATGCGATCGCCGAACGCGTCGCCGCCGGCGACCTGGTGGTCACCCAGGACATCCCGCTGGCCGCGCGCGTGCTGGAAAAGGGCGGCGTGGCGCTGGGCCCACGCGGCGAGCTGCACACCACCGGCAACATCGCCGAGCGGTTGTCGATCCGCAACTTCATGGAAGAACTGCGCGGCGCCGGCGTGCAGACCGGCGGCCCGGCGGCGTTGAACGCGCGCGACAGGCAGGCCTTCGCCGCGCAGTTCGACCGCTGGCTGGCGCGGCTGCCGCCGCGCTGA	MSPEDSSGPRIWVDADACPVVIKEILFRGAERLRIPLTLVANQWLRCPRSPYLQALQVPGGPDAADDAIAERVAAGDLVVTQDIPLAARVLEKGGVALGPRGELHTTGNIAERLSIRNFMEELRGAGVQTGGPAALNARDRQAFAAQFDRWLARLPPR				NA	NA	NA	NA	NA
BMS020_03663	1377		COG0277	putative FAD-linked oxidoreductase	ATGCCTGCCCTGCCCCAACCCCTGGTGTCCGAATTGTCCGCCCTGCTCGGCGCGGACGGCTGGCGCGATGACGCCGACAGCCGCCGCCGTTATGGCGAGGACGACTCGCGGCGCTGGGCGCTGGCCGACGCGGTGGCGCTGCCGCGCAGCGTCGACGAGGTGGTGGCGATCGTACGCGCCTGCCGCGTCCACAGGATTCCCCTGGTGGCGCGTGGCGCCGGCACCGCCACCACCGCCGCGGCGGTGCCATTCGCCGGCGGCGTGGTGTTGTCGCTGGCGCGGATGAACCGCATCCTGGCGCTGCGCCCGGACGACCGCTGCGCGGTGGTCGAGCCCGGCGTGCTCAACGAGCAGCTGCAGCAGGCACTGCAACCGCATGGCCTGTTCTGGCCGCCGGACCCCTCCAGCGCGGCGCTGTGCAGCATCGGCGGCAATCTGGCCACCAACGCCGGCGGGCCGCGCGCGGTGAAGTACGGCGCGACCCGCGACAACGTGCTCGGCCTGGTCGCGGTGACCGGCACCGGCGAGGTGATCCGCTGCGGTGGCGCCTACACCAAGGACGCCACCGGCTACGACCTGACCCACCTGATCATCGGCAGCGAAGGCACGCTGGCGATCGTGGTCGAGGCCACGTTGAAACTGGCGCCGCGGCCGCAGGCCGAGGCCGGGCTGCGCGCGTTCTACCGTGATGCGGCCAGCGCGGCGGCGGCGGTGTCGCGGATCATGGCGCGGCCGACCACGCCGGCGCGCCTGGAATTCATGGACCGCAACGCAATCGCGCTGCTGCGCCGCAACGGCAGCGAGGTGCCCGAGGCCGGCGCGATGCTGCTGGTCGAGGCCGATGGCGACCACGACACCCTGCCCTACGCGCTGCAGGCGCTGGCTGACGCCGCCGATGGCGACGGTCTGCTCGACCTGGATGTCGCCGCCGACGGTGCCGCGCGCGACAAGCTGTGGGCCGCGCGCAAGGCGCTGTCGCCGGCGCTGCGCACGATCAAGCCGGGCAAGATCAACGAGGACGTGGTGGTGCCGGTGTCACGCATCCCCGACCTGGTCGCCGGCGTCGAGGCGCTGGCGGAGGAATTCGCGCTGCCGATCGTCAGCTTCGGCCACGCCGGCAACGGCAACCTGCACGTCAACATCATGTATGACGACACCGATGCGGCCGAGACCGCGCGCGCGCAGGCGGCCTTGCCGCGGGTGTTCGCGCTGGTGCTGGCGCTGGAAGGCACGTTGTCCGGCGAGCACGGCATCGGCGTGGCCAAGCGCGACTACATGGCACAGGCGTTCTCGCCGGCGACGCTGGCAGCGATGCGCGCGATCAAGGCGGCGCTGGACCCGGACGGCATCCTCAACCCGGGCAAGGTGCTGCCATGA	MPALPQPLVSELSALLGADGWRDDADSRRRYGEDDSRRWALADAVALPRSVDEVVAIVRACRVHRIPLVARGAGTATTAAAVPFAGGVVLSLARMNRILALRPDDRCAVVEPGVLNEQLQQALQPHGLFWPPDPSSAALCSIGGNLATNAGGPRAVKYGATRDNVLGLVAVTGTGEVIRCGGAYTKDATGYDLTHLIIGSEGTLAIVVEATLKLAPRPQAEAGLRAFYRDAASAAAAVSRIMARPTTPARLEFMDRNAIALLRRNGSEVPEAGAMLLVEADGDHDTLPYALQALADAADGDGLLDLDVAADGAARDKLWAARKALSPALRTIKPGKINEDVVVPVSRIPDLVAGVEALAEEFALPIVSFGHAGNGNLHVNIMYDDTDAAETARAQAALPRVFALVLALEGTLSGEHGIGVAKRDYMAQAFSPATLAAMRAIKAALDPDGILNPGKVLP	PGPT0001890_1121	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001890-dld-K00102	NA	NA
BMS020_03664	546	ybcI	COG1988	Inner membrane protein YbcI	ATGCCCACTGTCATCACCCACGCGGCGGTGCCGCTGGCGCTGTGGTGCGCCAGCGCGCGCGGACGGATCTCGCCGCGCCTGCTGGCCGCCGGCGTCGTCGCGGCGATGCTGCCCGATGCCGATGTCGCCGCGTTCGCGCTGCACATTCCCTATGCCGATGCGTTCGGCCATCGCGGCGCCAGCCATTCGCTGCTGTTCGCCGCGCTGATCGCCCTGCTCGGCGCCTGCGGCCACCGCTGGCTGCAGGCACGCCCATGGCAGGCCGCGACCTGGCTGCTGGTCTGCGCCGCTTCGCATCCGCTCCTGGACGCGATGACCTCCGGCGGGCTCGGTGTGGCGCTGGCCTGGCCGTGGAGCGAGACGCGCTGGTTCGCGCCATGGCGGCCGATCCGGGTCTCGCCATTCGTCAACGGTTTCTTCAACGCGCGCGGACTGGCCACGCTGGGCTCGGAACTGCGCTGGGTGTGGCTGCCGCTTGCGCTGGCCGCGTGCGGGTGGAGACTGATCCAGTCCGCACCTCCTTCCTCCGATCGCGCCCCACGCTGA	MPTVITHAAVPLALWCASARGRISPRLLAAGVVAAMLPDADVAAFALHIPYADAFGHRGASHSLLFAALIALLGACGHRWLQARPWQAATWLLVCAASHPLLDAMTSGGLGVALAWPWSETRWFAPWRPIRVSPFVNGFFNARGLATLGSELRWVWLPLALAACGWRLIQSAPPSSDRAPR				NA	NA	NA	NA	NA
BMS020_03665	372			hypothetical protein	ATGCCACACAGCCGCCGCGCCCGCGGCGACGCCGTGGAAGCGGCGGCGCTGCAGCTGCTGCGCGGGCACGGGCTGGCGCCGCTGGCCAGCAATGCCGGCTTCCGCGCCGGCGAGCTGGACCTGGTGATGCGCACGCCCGACGGCACCGTGGTGTTCGTCGAGGTGCGCTACCGGCGTGACGCCGCGTTCGGCGGCGGCGCCGCCTCGGTCGACCTGCGCAAGCGCCGCAAGCTCGCCACCGCCGCGCAGCTGTTCCTTGCCGCGCACCCCGCGCTGGCGCAGGCGCCGTGCCGGTTCGACGTGGTAGAAGCGCATGGTGAACCGCCGCAACTGCACTGGATCCGCGACGCTTTTCGATTGGACGATTGCTGA	MPHSRRARGDAVEAAALQLLRGHGLAPLASNAGFRAGELDLVMRTPDGTVVFVEVRYRRDAAFGGGAASVDLRKRRKLATAAQLFLAAHPALAQAPCRFDVVEAHGEPPQLHWIRDAFRLDDC				NA	NA	NA	NA	NA
BMS020_03666	1728	lpoA_2		Penicillin-binding protein activator LpoA	ATGAAGAAGCGCTTCGCAAGGATTTCCGCCGTATCGCTGCTGGCCCTGGCCCTTGCCGGCTGCGTCACCCCCGGCCAGGTGCAGCAGCCCGCCAGCCCGGCCCAGTCCGCCGCGATGGCCCTGCTGGAGCAGGGCAAGCCGCGCGAAGCGGCGCAACAGCTCGAAGCCGCGGCCGGCCAAGCGCGCGGTGCCGAACGCAACCGCCTGCTGTCCGACGCCGCCTTCGCCTGGCACGCCGCCGGCGACGATGCGCGCGCCCGCAGCCTGCTCGGCCAGGTCACCCCGCGCCAGCTGGGTGGCGACAGCCGCGCCCGCCATGGCTTGCTGACCGCGGAACTGGCGCTGGCCGACAAGCAGCCGGCGCAGGCGCTGGCCGCGCTCGGCGACGCCCCGACCGGGCTGTCGCAGACGCTGCAGCCACGCTGGTACCTGACCCGCGCGCAGGCGCTGCAGGCCAGTGGCGATGCGTTCGGTGCGGCCGAGGCGCGCGCGCGCGCCGACGTCGCGCTGACCGGCCAGGCCCGCGCCGACAACCGCCGCGCGATCGCCCAGACCCTGGCCGCGCTCGACGACGCCACATTGACCAGCCGTGCCGCCGCGCTGCCGGCCGGCGACCCGCTGTACAACTTCGCCGGGCGCGCCCTGCTCAGCCGCGGCAAGCCGCTGCCGCGCCCGTTCGACCGCGAGGACTGGGGCTTCGACACCAGCAAGCGTCCCGCCGCCGACCGCGACGGCTACCGTCCGCCGCTGAAGCTGGCGGTACTGCTGCCGCTGACCGGCAACCTGGCCACCGCCGCCGCGCCGGTGCGCGACGGCCTGCTGGCCGGCTACTACGCCGAGAGCCGACGCCGCCCGCAGATCGACTTCTTCGATACCTCCGGCACCCCGCAGGGGGCGACCGCGGCCTACGACAAGGCGGTCGCCGCTGGTGCCGACTACGTGGTCGGCCCGCTCGGCCGCGACCAGGTCAGCGCGCTGTTCGCACGCGAATCGCTGCAGGTGCCGGTGCTGGCGCTGAACCGGCCGCTCGACGGCCACGCGCCGCCGCCCGGCAGCGCCGGCTTCTCGCTGGCGCCGGAAGACGACGGCATCATGGCGGCCGAATACCTGCTCGCCCACGAGCGCCGCAACGTGCTGGTGGTCGGCAGCAACGACGACACCGGCCGGCGTGCGATCGAAGCCTTCCGTGAACGCCTGCGCGAGCGTGGCGGCCAGGTCGCCGGCGTGGTCAACGTGGCCGATGCGCCTGGCGATGTCGGCGCGCAACTGCGCAACTACAGCAGCGCCGATGCGGTGTTCCTGGCAGTCCGCGGCAACACCGCGCGCGCGCTGGCGCCGCAGCTGGCGCTGGCCGGGTTCGCCGCCAAGACCCGCGTGGGCACCTCGCAGCTGGTGCTGGGCACCGGCAAGCCCGAGGACGACATCGTGCTCGACGGCATCGCCTATCCGAGCGAGGCGTGGAGCGCGCGCGGCGTGTCCGGGCTGCCGCCGGCGCCGAGCGCGGCGGGCATGCTGCCGACCGCGCGTGGACCGGCCGCGCGCCTGTTCGCGTTCGGCTTCGATGCATGGACCATCACCGCCTACCTGGAAAAGCTCGCCACCGGCAGCGACGGCGGCCTGCCCGGCGCGACCGGCACGCTGCACCTGGACGGGTTCGGCAATGTACTGCGCACGCCGACCTGGTCGACCTTCCGCCAGGGCATGCCGGCGGCGATCCTGGAGCGCTGA	MKKRFARISAVSLLALALAGCVTPGQVQQPASPAQSAAMALLEQGKPREAAQQLEAAAGQARGAERNRLLSDAAFAWHAAGDDARARSLLGQVTPRQLGGDSRARHGLLTAELALADKQPAQALAALGDAPTGLSQTLQPRWYLTRAQALQASGDAFGAAEARARADVALTGQARADNRRAIAQTLAALDDATLTSRAAALPAGDPLYNFAGRALLSRGKPLPRPFDREDWGFDTSKRPAADRDGYRPPLKLAVLLPLTGNLATAAAPVRDGLLAGYYAESRRRPQIDFFDTSGTPQGATAAYDKAVAAGADYVVGPLGRDQVSALFARESLQVPVLALNRPLDGHAPPPGSAGFSLAPEDDGIMAAEYLLAHERRNVLVVGSNDDTGRRAIEAFRERLRERGGQVAGVVNVADAPGDVGAQLRNYSSADAVFLAVRGNTARALAPQLALAGFAAKTRVGTSQLVLGTGKPEDDIVLDGIAYPSEAWSARGVSGLPPAPSAAGMLPTARGPAARLFAFGFDAWTITAYLEKLATGSDGGLPGATGTLHLDGFGNVLRTPTWSTFRQGMPAAILER				NA	NA	NA	NA	NA
BMS020_03667	822	rsmI_2	COG0313	Ribosomal RNA small subunit methyltransferase I	ATGAACACCCCAGGCACCCTGCACGTCGTCGCCACCCCGATCGGCAACCTGGCCGACCTTTCGCCGCGTGCCCAGCAAGTACTGCGTGAGGTCGCCGCGGTCTGCGCCGAGGACACCCGTCACAGCAAGCAGCTGCTGGCGCACTTCGGGATCGAGCGGCCGCTGCTGGCGCTGCACGAGCACAACGAGGATGCGATCGCGGAAAAGATGGTCGGCCGCCTGCTGGCCGGCGAGTCGCTGGCGCTGGTGTCCGACGCCGGCACCCCGCTGGTCAGCGATCCCGGCTTCCGCCTGGTCCGCGCGGCGCGTGCGGCCGGGGTGAAGGTCAGCCCGGTGCCGGGGCCGAGCGCGGTGATCGCCGCGCTCAGCGTGGCCGGCCTGCCCAGCGACCGCTTCGCGTTCGAGGGGTTCCTGCCGGCCAAGGCCTCGGCGCGGCGCGAGCGGCTGTCACGGTTGGCCGGGGAGACCCGGACCCTGGTGTTCTACGAATCCTCGCACCGCATCGCCGAGTCGCTCGACGACCTGCGCATGGCGTTCGGCGATGAGCGCCCGGCGGTGATCGCCCGCGAGCTGACCAAGCTGTTCGAGACCGTGCTCGACGGCAGCCTGGCCACGCTGCTGGCGCGGGTCCAGGCGGACGAGAACCAGCGCAAGGGCGAATTCGTGGTGATGGTGCAGGGCGCCGGCGACGACGAGGCCGCCCGCATCGCCGAGGGCCGGCGCCTGTACGCCAAACTCAACGAACACCTGCCGCCGTCGACCGCGGCCAAGCTGGCCGCGGAGATCTCGGGGGCGCCGCGCAAGGCGTTGTACGGCAGCTGA	MNTPGTLHVVATPIGNLADLSPRAQQVLREVAAVCAEDTRHSKQLLAHFGIERPLLALHEHNEDAIAEKMVGRLLAGESLALVSDAGTPLVSDPGFRLVRAARAAGVKVSPVPGPSAVIAALSVAGLPSDRFAFEGFLPAKASARRERLSRLAGETRTLVFYESSHRIAESLDDLRMAFGDERPAVIARELTKLFETVLDGSLATLLARVQADENQRKGEFVVMVQGAGDDEAARIAEGRRLYAKLNEHLPPSTAAKLAAEISGAPRKALYGS				NA	NA	NA	NA	NA
BMS020_03668	567			hypothetical protein	ATGGCGACCGCCGACGAACTACAGGAACTGGCGCTGCGCCTGAGCGCCTTCACCGACACCCTCACCCGCCACGCCGAACGGTTGGTCCAGGACAACCAGCAGGCAGCGCAAGGCCTGCTGGAGACGAGCCGGCAATTTTCCGCGCAGTCGGCGACGCTGGCGCGCCAGCTCGTGCAAACCATCGCCACGGAAAGCCGCTCCGCCATCGAGCGTGGCAGCGCCGAAGGCATGCGCGGCGCCAGCGATCAATTGCAGCGCGCCAGCGCCGAAATCGGCCGCTCCGCCGCGGCACTGGAGCGGCAGCGCGAGCAGCTGGCCGCGGCGCAACGGTCCCTGGTGTGGAAGGCCGGGCTCGCGCTGGTGCTGGGCAGCCTGCTCGCCACCGGCACCTGCGCCTTCACCGCGTGGCGGACACAGCAGTTCATGGCCAGCAACGCGCTTCCGCGCGAGCTCATCGAAGCGACCCAGAACGGCACGCTGTCGCGCTGCGGCAATGCGCTGTGCGCCCGGATCGGCGCAAAGCCGCGCCTGCATGGCGACGACGGCCAGTACGCCGAACTTCGTTGA	MATADELQELALRLSAFTDTLTRHAERLVQDNQQAAQGLLETSRQFSAQSATLARQLVQTIATESRSAIERGSAEGMRGASDQLQRASAEIGRSAAALERQREQLAAAQRSLVWKAGLALVLGSLLATGTCAFTAWRTQQFMASNALPRELIEATQNGTLSRCGNALCARIGAKPRLHGDDGQYAELR				NA	NA	NA	NA	NA
BMS020_03669	1539			hypothetical protein	ATGACCACCCCGCCCAAGGGCGCCCAGACCTGGCCGGATGGCGTCGAGGTCGACCCGATCAGCCCAGCCGGCCTGGCCGGCTACGCGCAAGCACGCGAGCAGTTGCAGCAGTTCCAGGTGCCGAAGCTGGTCGAAAGCTCCAACCCGCATGCGCGGATGTATGTCGCAAACTTCGACGGCACCGGCAACGACAAGTACGCCGACCCTCAGCACATCACCAACATCGGAATTGTTGACGATCAAATCCTGGCGGCACGGCGCAAGAACCATGATCTTCCCATCGCGTCAGGCTACGTCACCGGCGTCGGCTCCAGTCCCGACTGGGCCTCGAAAAATCTCGATGGCGGGTTGGGCTACACCTATGGCCCACGCATGGAAGAGATGTATCTCAAGTTCATCACCCAGGCCAAGGAATGGCGCGATAGCGACCCCAAGGCCCAGATCAGCCTGCTGTCGACCGGTTTCAGCCGCGGCGCGGTGACCGCGGCGATGTTCACCCGCATGATCGAGGAACGCGGGATCCAAGACCCGATAGGCATGCACATCGAGCGCGACGACCAGGGGCGCATTCTCAAGCTGACGCCGACCAGACCCGATCTGGTCCCACCCGGCCAGACCCGGCAGGCCGTCGTGCTGTTAGACCCGGTCGCCACCGGGGTAATGAACATGAAGGATGTGCGGCTGCCGCCGTCGGTCGTCTCCGGCCTGCAGATCACCGCCAACAACGAGTTCCGCGACGAGTTCTACGGCAAGCCGATCATTTCCCCCGGCATCTCCGCCGACGGGCGCTTCGCCAACCTGGCGGTGGATGCGGCGCATTGCGACATCGGCGGTTCCTACCTGCTCAACGGCCTGTCGACCCGCAACTTCAACCTGATGGCCGGTTACGTCAACGCGCTCAGCGACAGACCCTTCGCGCAGGCACGTACCGTGCCCAGCGCACCTGAGATGAACGTCATCCACCACTCCGAGCAGCACCGGAACTTCTACACCACCCTGGCCGCCGACGTGATTGGGCAGCGCGTGCATAACCCCGAACTCGCCGGCTCGGCGATCACGTTCAACCGTTTCGACGCCGAACCGGCAAACCCGGCGCTGATGCGCGGACTGCACCGGGCCCCGGTTCACCTGCCCCCGGAACAGCTGGACCCGCGGCTGCCCGATTTTTTCAAGGACAAGCCACAGCCCGCCCCGATCCCCCCACATATCGACAGCTGGACGCCGCTGTTCAACAACGCGCCCATGTCGATGCGCGACCAGCACGATGCCCAGCCGGTCGCCTCCGCCCCCCAGGCCGAGCAGCCCGGCATCCGTTGGGACCCCAGGTTCCTGGCGGCGACCGACGCCGGCCTGCGCGGCGACGCGCAGGGCATCGCCTTGGCCGGCCATCAATATGCGAGCGCCGGCGACGGGCAGCAGTGGCTGCAGCAGGGACAGGCGCTGAACCAGCAGGTCGAGCGCCAGGCGGAACTGGATCGCCAGGCCCAGCTGCAGGCCCAACCGCCGGCGCACGATGCGCCGGTCATGCGGATCGGTTGA	MTTPPKGAQTWPDGVEVDPISPAGLAGYAQAREQLQQFQVPKLVESSNPHARMYVANFDGTGNDKYADPQHITNIGIVDDQILAARRKNHDLPIASGYVTGVGSSPDWASKNLDGGLGYTYGPRMEEMYLKFITQAKEWRDSDPKAQISLLSTGFSRGAVTAAMFTRMIEERGIQDPIGMHIERDDQGRILKLTPTRPDLVPPGQTRQAVVLLDPVATGVMNMKDVRLPPSVVSGLQITANNEFRDEFYGKPIISPGISADGRFANLAVDAAHCDIGGSYLLNGLSTRNFNLMAGYVNALSDRPFAQARTVPSAPEMNVIHHSEQHRNFYTTLAADVIGQRVHNPELAGSAITFNRFDAEPANPALMRGLHRAPVHLPPEQLDPRLPDFFKDKPQPAPIPPHIDSWTPLFNNAPMSMRDQHDAQPVASAPQAEQPGIRWDPRFLAATDAGLRGDAQGIALAGHQYASAGDGQQWLQQGQALNQQVERQAELDRQAQLQAQPPAHDAPVMRIG				NA	NA	NA	NA	NA
BMS020_03670	570			hypothetical protein	ATGAGCACCACTCCCGACAAGACCAACTACAGCAGCACCAACGTGCCGCAGGATGCCAACGGCCTCGTCACCATCCGCACCGACAAGCCGATCCCGTTCGATCAGCACAATTTCGGCGCAGGCTGCTATGACACCTATGGGTGCACGGTGCTGTACAACAACTACTACATGGCCAACGATCCGGATGACGAAAAGCAGATGCCGTCGTCCGAGCTGGGAGATGCGTTCCCGCAGAACCTGGGGGCCTCACACATCAACATCCACAACTACCCGCACTTTCCGCCACCCGCACAGGTCAACTGGCGCTCGGCCGACGGCCAGCCGCATCACGCCGAGGTGGATCTCGAGCAGATCTTCAAGGACAAGACCGTGGTCCACAAGGTGTCGCAGGACCAGCTTCCGCCAATCCTGCATGCGCCAATTTTCCCTGACATCGTGCTGGTGGTCGATGACCGCACCATCGATGTTTATATGAGTGCGATGATCGAAACCACCACATTGCAGAAGCCGGGTAATCCAAACAGCAATTTCCGCAAAGACATGATCAAGGTCTACAGCAAGACCTACTGA	MSTTPDKTNYSSTNVPQDANGLVTIRTDKPIPFDQHNFGAGCYDTYGCTVLYNNYYMANDPDDEKQMPSSELGDAFPQNLGASHINIHNYPHFPPPAQVNWRSADGQPHHAEVDLEQIFKDKTVVHKVSQDQLPPILHAPIFPDIVLVVDDRTIDVYMSAMIETTTLQKPGNPNSNFRKDMIKVYSKTY				NA	NA	NA	NA	NA
BMS020_03672	249			hypothetical protein	ATGCACGCGAACGTCCCGGGGCTGCGCTTGCCGCCGTTGGTGATCTTCTATCTGCACGATGCCGACCTGCGGCTCAAGGATCCTGCCTGTCGTGAGTCTCAGGAGGGGGCTCTGGACGCGCTCATTGCCGATCTTGAGAGGGAGGTGATGCCAGAGCATCGTGGCATTTCCATCTCGCTGCATCCCCGCTGGCTTGGAGTGGCGGCATTGGTCGTGTTGGCAGTGGCGCTCTTCTGCATCGCGAGCTGA	MHANVPGLRLPPLVIFYLHDADLRLKDPACRESQEGALDALIADLEREVMPEHRGISISLHPRWLGVAALVVLAVALFCIAS				NA	NA	NA	NA	NA
BMS020_03673	756			hypothetical protein	ATGTGCCTGGTCGCCCTTTCCTGGATGTCGCACCCACGTTGGCGGCTGCTGCTGGCGGGCAACCGCGACGAGTTCCATGCCCGCCCGACCGCGGCGCTGGCGGCCTGGCCGGCGCCGTATGCCGGCGTGCTCGCCGGACGCGACCTGCGCTCCGGCGGCAGCTGGGTCGGGCTTGGCGCTGGCGGCCGAGCGGCGGTGGCCACCAACGTGCGCGATCCACTGGCCAGCATGTCCGGCCCCTCGCGCGGGGCGCTGATCGCCGACTACCTGGGCGGCAGCGCCGATGCCGGCGCCTATGCCGCGGTGATGCACGGCCAGGCCGCGGAGTACCCGCCGTTCAACCTGCTGCTGGCCGACGCCACGCGCTGCGAGTACCTGGGCAACCATCCGCTGGCGGCGCGGCCGCTGGAGCCAGGCCTGCACGGCATGTCCAATGGTCCGCTGGATGCCCCCTGGCCCAAGACCCGGCGCCTGCTTGAACGCCTGGACGCCTGGCTGGCCGGACCTACCGACGAACCCAGCGCGCTCTGGCAGGCGCTGGCCGACGAGCATGTCGCCGGCGATGCCGAACTGCCCGACACCGGCATCGGCCTGGAACTGGAACGCCGACTGTCGCCGGCCTTCATCCGTGGCCGCGACTACGGCACCCGCGCCAGCACCCTGGTGGCGATCGACCACGACGGCCATGGCTGGATCCACGAACGCCGCTTCGGCCCGGACGGCGTGTTCCTGGGCGAAACGCGGCTGGAAATCTGA	MCLVALSWMSHPRWRLLLAGNRDEFHARPTAALAAWPAPYAGVLAGRDLRSGGSWVGLGAGGRAAVATNVRDPLASMSGPSRGALIADYLGGSADAGAYAAVMHGQAAEYPPFNLLLADATRCEYLGNHPLAARPLEPGLHGMSNGPLDAPWPKTRRLLERLDAWLAGPTDEPSALWQALADEHVAGDAELPDTGIGLELERRLSPAFIRGRDYGTRASTLVAIDHDGHGWIHERRFGPDGVFLGETRLEI				NA	NA	NA	NA	NA
BMS020_03674	447	mraZ_1	COG2001	Transcriptional regulator MraZ	GTGTTCCAGGGCGAGACGGCCATCACAGTGGACGACAAGGGGCGAATGGCGGTTCCGACCGCGTATCGCGACCTGGTCGCGCGCGTGAGTGGCAACCGCCTGGTGCTCACCTACAACCCGTTCGAAGCCGGCTGCCTGTGGCTGTACGCCGAAAAGGAGTGGGAGCGGGTCCGTGACGATGTCATGGGCAAGCCCAACACCCAGCGCGTGGTGCGCGTCCTCCAGCAGAAGCTGGTCGGCTCGTCCGCAGTGCTGGAGCTGGACGCCAACGGTCGCATCAGCATCCCGGCGAGCCACCGCGGCGCGGTCGGCATCGAGAAGAAGGCGGTGCTGCTTGGTATGGGCGACAAGTTCGAACTGTGGAGCGAGCAGGCTCATCGCGCATTGATCCAGCAGACCTTGTCTGACGGGGATCTGGGCGATGGATTGCTCGACCTCAGGTTGTGA	MFQGETAITVDDKGRMAVPTAYRDLVARVSGNRLVLTYNPFEAGCLWLYAEKEWERVRDDVMGKPNTQRVVRVLQQKLVGSSAVLELDANGRISIPASHRGAVGIEKKAVLLGMGDKFELWSEQAHRALIQQTLSDGDLGDGLLDLRL				NA	NA	NA	NA	NA
BMS020_03675	960	rsmH_1	COG0275	Ribosomal RNA small subunit methyltransferase H	ATGCGCGGTGAAGCGCAGCCCGGTCACCCGGTGTCGCAGCCGCCGGCCCACGTGCCGGTGCTGTACACGCAGGTCCTGGACGGCCTGCAGGTGATCGAAGGCGGAACCTATCTCGATGGCACGTTCGGGCGTGGCGGTCACGCGCGCGGCGTGCTGGAACGTCTTGGCCCGGGAGGCCGGTTGCAGGTGATGGACAAGGATCCCGACGCGATCGCCGTCGCCGAACAGTCGTTCGGCGCCGATCCGCGGGTGTCGATCCAACGCGGCAGCTTCGCCACGCTGGCGCAGGTCGCTGCGCCGGGGTCGCTGGACGGCATCCTGCTCGACCTCGGCGTGTCCTCGCCGCAGCTGGACGTGGCCGCGCGCGGCTTCTCGTTCGGCAAGGACGGCCCGCTGGACATGCGCATGGATCCGGAGTCCGGTGAGAGCGCCGCGGCCTGGCTGGCGCGCGCCGACGAGCGCGAGATCGCCGACGTGCTGTGGACCTACGGCGAAGAGAAGCAGAGCCGCCGCATCGCCCGCGCGATCGTCGCCCGCCGCGGCGAGCAGGCACTGGTGCGCACCGCACAGCTGGCCGACCTGATCGCCTCGGTGATGCCGCGCGGCAAGGACAAGATCCACCCGGCCACGCGCAGCTTCCAGGCGATCCGCATCCACGTGAACCGCGAGCTGGCCGACCTCGAGGCCGGCCTCGATGCGGCGCTGGTCGCGCTCAAGCCCGGCGGCCGGCTGGCGGTGATCAGCTTCCACTCGCTGGAAGACCGCATCGTCAAGCAGTTCATCAATCGCCACGCCAAGGCCCCGCCGAGCAATCGCCGGCTGCCGCAGGTGCAGGACTTCGTGCCGAGCCTGGAAGCCGTCAGCGGCGCGATCAAGGCCGACGACGACGAACTGGCGGTCAATCCACGCGCCCGCAGCGCGGTGCTGCGTGTGGCGCGCAAGCCCGGCGGTGCCGCATGA	MRGEAQPGHPVSQPPAHVPVLYTQVLDGLQVIEGGTYLDGTFGRGGHARGVLERLGPGGRLQVMDKDPDAIAVAEQSFGADPRVSIQRGSFATLAQVAAPGSLDGILLDLGVSSPQLDVAARGFSFGKDGPLDMRMDPESGESAAAWLARADEREIADVLWTYGEEKQSRRIARAIVARRGEQALVRTAQLADLIASVMPRGKDKIHPATRSFQAIRIHVNRELADLEAGLDAALVALKPGGRLAVISFHSLEDRIVKQFINRHAKAPPSNRRLPQVQDFVPSLEAVSGAIKADDDELAVNPRARSAVLRVARKPGGAA				NA	NA	NA	NA	NA
BMS020_03676	264	ftsL_1		Cell division protein FtsL	ATGAGCCGGCTGCTGCTGGTGGTCCTGCTCGCCTGCAGCATCGCCTCGGCGATCGGCGTGGTCTACATGCGCCACATGCACCGCAAGCTGTTCGTCGAGCTGTCCAAGCTCGAGCGCGAGCGCGACGACCTCAACATCGAATTCGGCCGGCTGCAGCTGGAGCAGGCGACCTGGGCTGAGAGCAACCGCGTCGACCAGATCGCGCGCGAGCGGCTGGGGATGAAATTCCCGGAAACCAGCGACATCGTGGTGGTGCGTCCATGA	MSRLLLVVLLACSIASAIGVVYMRHMHRKLFVELSKLERERDDLNIEFGRLQLEQATWAESNRVDQIARERLGMKFPETSDIVVVRP				NA	NA	NA	NA	NA
BMS020_03677	1854	ftsI_2	COG0768	Peptidoglycan D,D-transpeptidase FtsI	ATGAAGGCCGGTCGCAACCGCCCCCGCAGCAACTTCAACCTGCGCGGCCGCGTCGCGCTGGTCGGCGCCGCGCTGGGCCTGTGCTCGGTGACGCTGATCGGCCGCGCCGCCTATGTGCAGCTGGTCAACAGCGACTTCTACCAGCGCCAGGGCGAGGCGCGCTACCTGCGCGAACTGCCGATCGCGACTTCGCGCGGCATGATCACCGACCGCAACGGCGAGCCGCTGGCGGTGTCCACGCCGGTCGAGTCGATCTGGGTCAACCCGCAGGAGCTGCTGCGTGCGCAGGACCGGATCCCGGAGCTGGCCAAGGCGCTGGGGCTGTCGCTGGACGAGCTGACCACGCGCCTGTCGCAGAAGTCGGACAAGGAGTTCATGTACCTGCAGCGCCGGATGAATCCGGACAAGGCGCATGCGATCGTCGCGTTGAAGATCCCCGGCGTGTTCTCGCAGCGCGAGTTCCGTCGCTTCTACCCGCAGGGTGAGGCGATGGCGCATGTGCTGGGCTTCACCAACATCGACGATCGCGGCCAGGAAGGCCTGGAGCTGGTGTTCGACGACTGGTTGCGCGGCAAGCCCGGCTCCAAGCGCGTGGTGCGCGATGCGCGCGGCGCGATCGTGGAGAGCGTGGACCTGGTGCGTCCGGCCGAGCCGGGTAAGGACCTGACGCTGAGCATCGACCGCCGTATCCAGTTCCTGGCCTACAAGGAACTGCGCAACGCGCTGGTGGAGAACAAGGCCGCGGCCGGCTCGATGGTGGTGATGGACGTCGCCACCGGCGAGATCCTGGCCATGGTCAACCTGCCGACCTACAACCCGAACGCGGTGAGCGGGCAGAACCCGGCGGCGCGGCGCAACCGCGCGGTCACCGACCTGGTCGAGCCGGGCTCGACGATGAAGCCGCTGACCATCGCCACCGCGCTGCAGGCCGGCGTGGTCACCCCGAATACGGTGATCGACACCAACCCCGGCTACATGGCGCTGAAGGGCGGCTACGTGATCCACGACGTGCCGCGCAACAACGGCGTGCTCAACGTCACCGGCGTGATCACCCGCAGTTCCAACATCGGCGCGGCCAAGATCGCCGACAAGCTGTCGGACCAGGCCTTCTACCAGTCGGTGCACAACTTCGGTTACGGCAGCACGCCCAAGAGCGGCTTCCCGGGCGAGTCGGCCGGCGTGGTACCGGCGCCGGGCAGCCCGAGCTGGTATGGCACCACCAAGACCACGATGTCCTACGGCTACGGCCTGTCGGTGACGCCGCTGCAGATCGCCACCGCCTATACCGCGCTCGGCAATGGCGGCAAGTTGATGCAGCCGACCTTCGTCAAGGGCCAGCACGAGGACGGCCGGCAGGTGATCAGCCCGGAAGTCGCACGCGAAGTGGTCGGCATGATGGAGACCGTGGTCACCCAGGGTGGCGCCAAGGGCGCGTCGGTGCTGGGCTACCACGTCGCCGGCAAGACCGGCACCGCGCGTCTGAACGGTCCGGGCGGTTACATCCGTGGCCACTACAACGCGCTGTTCGCCGGCCTGGTGCCGGCGACCCACCCGCGCTTCGTCACCGTGATCGTGATCAGCGATCCGACCGCCGGCAAGATCTACGGCGGCCTGGTTTCGGCGCCGGTGTTCCACAACGTGATGGAGGGCGTGCTGCGGCTGATGGACGTGCCGCCGGACGACATCCAGTCGTGGCTGGCCGCGCAGGCCGCGGGCAAGGCTGGCAAGGCGCCGGTGCGGCCGGCGCCGGAGCCGGATCCGGCCGCGCTTCCCGATGGCGCCGACGAAGTCGACGCGGCGATCCCGACTGCCAGCGCGGCCGCGCCGGCGCCGTTGCGGGAGAGCCATCAGTGA	MKAGRNRPRSNFNLRGRVALVGAALGLCSVTLIGRAAYVQLVNSDFYQRQGEARYLRELPIATSRGMITDRNGEPLAVSTPVESIWVNPQELLRAQDRIPELAKALGLSLDELTTRLSQKSDKEFMYLQRRMNPDKAHAIVALKIPGVFSQREFRRFYPQGEAMAHVLGFTNIDDRGQEGLELVFDDWLRGKPGSKRVVRDARGAIVESVDLVRPAEPGKDLTLSIDRRIQFLAYKELRNALVENKAAAGSMVVMDVATGEILAMVNLPTYNPNAVSGQNPAARRNRAVTDLVEPGSTMKPLTIATALQAGVVTPNTVIDTNPGYMALKGGYVIHDVPRNNGVLNVTGVITRSSNIGAAKIADKLSDQAFYQSVHNFGYGSTPKSGFPGESAGVVPAPGSPSWYGTTKTTMSYGYGLSVTPLQIATAYTALGNGGKLMQPTFVKGQHEDGRQVISPEVAREVVGMMETVVTQGGAKGASVLGYHVAGKTGTARLNGPGGYIRGHYNALFAGLVPATHPRFVTVIVISDPTAGKIYGGLVSAPVFHNVMEGVLRLMDVPPDDIQSWLAAQAAGKAGKAPVRPAPEPDPAALPDGADEVDAAIPTASAAAPAPLRESHQ	PGPT0023865_1171	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023865-ftsI-K03587	NA	NA
BMS020_03678	1497	murE_1	COG0769	UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase	ATGCATCTGTCCCAGTTGATCCCCGACGTGCCGCTGGCGCACGACATCCTCATTTCCGGCCTGGTGCTGGACAGCCGCCAGGTGCGTCCGGGCGATGCGTTCGTCGCGATCGCCGGCTTTGGCGCGCACGGGCTGGGCTTCGTCGAACAGGCGCGCGCCAACGGCGCCGCGGCGATCCTGTTCGAGCCGCCGGCCCCGGCCGACCTGCCGGCGCCGGCCGACGCGATCGCCGTGCCGCACCTGCGCACGCGCATGGGCGCGATGGCCGACCGCTTCCACGCCCATCCGTCGCAGACGATGACGATGGTCGGGGTCACCGGGACCAACGGCAAGACCTCCACGGTGCAGTTGCTGGCCCAGGCCTGGAAGCTGCTCGGCATCGAGAGCGGTAGCATCGGTACGCTCGGGGTCGGCCTGTACGGCCACGTCGTGCCGACCGGCTTCACCACGCCGCTGGTGCTGCAGATGCACGAGGCGCTGGCGCAGTTGCGCGACGCCGGTGCGCACGCGGTAGCGATGGAGGTCAGCTCGCACGCGCTCGATCAGGGGCGTGTCGACGCTGTCCACTACGACGTCGGGGTGTTCACCAACCTCACCCGCGATCACCTCGATTACCACGGTGACATGGCCAGTTACGGCGCCGCCAAGGCCAAGCTGTTCTCCCGTGCCGGGATGAAGGCGGCAGTAGTCAATCTCGACGATGCCTATGGCCGCGAACTGTTTGACAGGATCGATCCGGCGCTGGCGCACATCGGCTACAGCTCGCGCGGCCAGGCGGAGGCCGAGGTGCGCGCCGAAGCGCTGCGCCTGGACCATCGTGGCATCGGCTTCGACCTGGTGCTGGAAGGTCATGCCTATCCGGTGGCTTCGCCGCTGCTGGGGCGCTTCAACGTCGACAACCTGCTGGCGGTGGCCGCGACGCTGCACACGCTCGGCCATGCCGGCGAGCACATCGCTGCGCTGCTGGCGCGGCTGCAGCCCATCGCCGGGCGCATGAACCGCCTCGGCGGCGACGGCACGCGGCCGCTGGTCGTGGTCGACTACGCGCACACCCCCGACGCGCTGGAGCAGGCGCTGGACAGCCTGCGTGCGCACACCGCCGGGCGCCTGGTCTGCGTGTTCGGCTGCGGCGGCGAGCGCGATAGCGGCAAGCGTCCGCAGATGGCGGCGATCGCCGAAGCGCGTGCCGACGTGGTGATCGTCACCGACGACAATCCGCGCCATGAGGATGGCGATGCGATCGTCGCCGACATCGTCGCCGGCTTCGCCCATCCGCAAGCGGTGCACGTGCAGCGCGATCGCGCCGCAGCGATCGCCGCAGCGATCGCCCAGGCCGGTCCGCACGACGTGGTGCTGATCGCCGGCAAGGGCCACGAGCCCTACCAGGACGTGGCCGGGGTGAAGCATCCGTTCGACGACACCGAGGTCGCCTCGCGCGTGCTCGGCGTCCAGGACGCATCCACGGCGCAGCCGCGGGATGCGGAGGGGCAGGCATGA	MHLSQLIPDVPLAHDILISGLVLDSRQVRPGDAFVAIAGFGAHGLGFVEQARANGAAAILFEPPAPADLPAPADAIAVPHLRTRMGAMADRFHAHPSQTMTMVGVTGTNGKTSTVQLLAQAWKLLGIESGSIGTLGVGLYGHVVPTGFTTPLVLQMHEALAQLRDAGAHAVAMEVSSHALDQGRVDAVHYDVGVFTNLTRDHLDYHGDMASYGAAKAKLFSRAGMKAAVVNLDDAYGRELFDRIDPALAHIGYSSRGQAEAEVRAEALRLDHRGIGFDLVLEGHAYPVASPLLGRFNVDNLLAVAATLHTLGHAGEHIAALLARLQPIAGRMNRLGGDGTRPLVVVDYAHTPDALEQALDSLRAHTAGRLVCVFGCGGERDSGKRPQMAAIAEARADVVIVTDDNPRHEDGDAIVADIVAGFAHPQAVHVQRDRAAAIAAAIAQAGPHDVVLIAGKGHEPYQDVAGVKHPFDDTEVASRVLGVQDASTAQPRDAEGQA	PGPT0024130_1555	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024130-murE-K01928	NA	NA
BMS020_03679	1401	murF_1	COG0770	UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase	ATGAAGCGCACCCCACTGTCGCTGATCGCGCACTGGGCCGGCGGCGAGCTGCACGGCGACGACGTGGCGATCGACGCGATCTCCAACGATTCGCGCGCGCAGGCGCCGGGCGGCCTGTACGTCGCACTGCGTGGCGAGCGATTCGATGGCCACGACTTCGCCGCCGATGCCGCCGCACGCGGTGCCAGCGCGCTGCTGGTCGAGCGCGTGCTGGCCGACATCGAACTGCCGCAGGTGCTGGTCGCCGATGCCCAGCTGGCGCTGGCGCGCATCGCCCGCGGCATGCAGCGCGACCGCGCTACCAATGTGTTCGCGGTGACCGGGTCCAACGGCAAGACCAGCGTGAAGTCGCTGCTGCTGGCGATCCTGGAGCACGCCGCGCGCGTGGCCGGGACCACGGTCTACGCCAACCCCGGCAACCGCAACAACGAGATCGGCCTGCCGCTGGCGGTGATCGATGCGCCTGAGGACGCCGACTACGCGATCTACGAAATGGGCGCCGGCAAGCCGGGCGACATCGCCTACCTGACCGAGATCGTGCGGCCGGATTACGCGCTGGTGAACAACATCGCGCCGGCGCACCTGGAGCGCATGGGCAGCCTGCTCGGCGTGGCGCGCACCAAGGGCGCGATCTACGCCGCGCTGCCGGCGCACGGCGTGGCCGCGCTGAATGCCGACGACGCCTTCGGGCTGTGGTTCGAACAACACTTCCTGGCGGTGCCGGGCGTGCCGCGGCAGCTGCTGCGCTACGGCCTGGAGGCCAGCGCCGAGCTGCGCGCGCGCGCGCTGGTGCTGGGTGAGGACGGCAGCCGCTTCACCCTGGTCGCGCCGCAGGGCGAGGCTGAGGTGGTGCTGGCGTTGCCCGGCCGCCACAACGTGCGCAATGCGCTGGCTGCTGCCGCGCTGACGCTGGGCGCGGGCATTCCGCTGGCGCAGGTCGCCGCCGGCCTGGGCGAGGCCCGTCCGGTCGCTGGCCGGCAGATCCGCCACGTGCTGGGCAGCGGTGCGGTGCTGATCGACGACAGCTACAACGCCAACCCGGGCTCGCTCGGCGCGGCGATCGATGCATTGGCTGCCGGCCCGGGCGAGGCCTGGCTGGTGCTCGGCGACATGCGCGAACTGGGGCCGGAAGGGCAGGCGCTGCATGCCGCCGCCGGCGTCCGCGCGCGCGCCGCCGGGCTCAAGCGCCTGTATGCGCTGGGACCGCTGAGCGCGGCCGCGGCGGCTGCGTTCGGCGAGGGCGGGCACGTGTTCGACACGCATGCCGCGCTCGCCGCCGCCCTGCGGCAAGAACTGCATGCTGGCGTGCGCTGCCTGGTCAAGGGCTCGCGCGGCAGCGCCATGGACAAGATCGTGACCGCGCTGCTGGCGCATGGGGAGGAAACCTCGGATGTTGCTTGA	MKRTPLSLIAHWAGGELHGDDVAIDAISNDSRAQAPGGLYVALRGERFDGHDFAADAAARGASALLVERVLADIELPQVLVADAQLALARIARGMQRDRATNVFAVTGSNGKTSVKSLLLAILEHAARVAGTTVYANPGNRNNEIGLPLAVIDAPEDADYAIYEMGAGKPGDIAYLTEIVRPDYALVNNIAPAHLERMGSLLGVARTKGAIYAALPAHGVAALNADDAFGLWFEQHFLAVPGVPRQLLRYGLEASAELRARALVLGEDGSRFTLVAPQGEAEVVLALPGRHNVRNALAAAALTLGAGIPLAQVAAGLGEARPVAGRQIRHVLGSGAVLIDDSYNANPGSLGAAIDALAAGPGEAWLVLGDMRELGPEGQALHAAAGVRARAAGLKRLYALGPLSAAAAAAFGEGGHVFDTHAALAAALRQELHAGVRCLVKGSRGSAMDKIVTALLAHGEETSDVA	PGPT0024145_2310	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024145-murF-K01929	NA	NA
BMS020_03680	1086	mraY_1	COG0472	Phospho-N-acetylmuramoyl-pentapeptide-transferase	ATGTTGCTTGAGTTGGCCCGCTGGCTGCAGCAACTGGAGAGCCTGTTCGGGCTGTTCAACTATTTGACCTTCCGCGGCATCCTGGCCGCGCTGACGGCGCTGTTCCTGTCGCTGTGGCTGGGCCCGGCGGCGATCCGGCGGCTCGCCCAGTTCAAGGGCGGTCAGCCGATCCGCCAGGACGGTCCGCAGACCCACTTCTCCAAGGCCGGCACGCCGACCATGGGCGGCGGGCTGATCCTGACCACCGTCACCGCCTCGGTGCTGCTGTGGGGCGACCTGCGCAACCGCTACGTGTGGCTGGTGCTGGCGGTGATGCTGTGCTTCGGCGCGATCGGCTGGTACGACGACTGGATCAAGATCGTGCGCCGCGACCCGAACGGACTGAAGTCGCGCTGGAAGTACCTGCTGCAGTCGATCTTCGGACTCGCCGCCGGCCTGTTCCTGCTCTACACCGCCAAGGTGCCGGCCGAGCTGACCTTCTACATCCCGATGTTCAAGGCGGTGGCATTGCCGCTGGCCGGCATCAGCTTCGTGGTGATCGCCTACTTCTGGATCGTCGGCTTCTCCAATGCGGTCAACCTGACCGACGGCCTGGACGGCCTGGCGATCATGCCGACGGTGCTGGTGGCCTGCGCGCTGGGCGTGTTCGCCTATGCCTCGGGCAACGTGGTGTTCGCCGAGTACCTGAAGATCCCGACCATCCCCGGCGCGGGCGAGCTGATCATCATCTGCGCGGCGATCGCCGGCGCAGGCCTGGGCTTTTTGTGGTTCAACACCTACCCGGCGATGGTGTTCATGGGCGACATCGGCGCGCTGGCGCTGGGCGCCGTGCTCGGCACCATCGCGGTGATCGTGCGCCAGGAGCTGGTGCTGGTGATCATGGGCGGCGTGTTCGTCATCGAGACGCTGTCGGTGATGATCCAGGTGGCCAGCTTCAAGCTGACCGGCAAGCGCGTGTTCCGGATGGCGCCGATCCACCACCACTTCGAGCTCAAGGGCTGGCCGGAGCCGCGCGTGATCGTGCGCTTCTGGATCATCTCGGTGGTGCTGGTGCTGATCGGCCTGGCGACGTTGAAGGTGCGCTGA	MLLELARWLQQLESLFGLFNYLTFRGILAALTALFLSLWLGPAAIRRLAQFKGGQPIRQDGPQTHFSKAGTPTMGGGLILTTVTASVLLWGDLRNRYVWLVLAVMLCFGAIGWYDDWIKIVRRDPNGLKSRWKYLLQSIFGLAAGLFLLYTAKVPAELTFYIPMFKAVALPLAGISFVVIAYFWIVGFSNAVNLTDGLDGLAIMPTVLVACALGVFAYASGNVVFAEYLKIPTIPGAGELIIICAAIAGAGLGFLWFNTYPAMVFMGDIGALALGAVLGTIAVIVRQELVLVIMGGVFVIETLSVMIQVASFKLTGKRVFRMAPIHHHFELKGWPEPRVIVRFWIISVVLVLIGLATLKVR	PGPT0024105_1716	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024105-mraY-K01000	NA	NA
BMS020_03681	1347	ftsW_1	COG0772	putative peptidoglycan glycosyltransferase FtsW	ATGAACGACCTCGCGCGCCAGGCGACCCGACTGGAGGCCATCGGTGGCCGCTTCGACCCGTGGCTGCTCGGCGCTGCCGTCGCGCTGGCCTCGATCGGCGTGGTCATGGTGGCGTCCAGCTCGATCGAACTGACCGCGAGCCCGTTCTACTACCTGACCCGCCACCTGATGCTGCTCGGCGTCGGCTGCGGCCTGGCGTTCTGGGCGATGCGCACCGAACTGAAGACCATCGAGCAGCACAACCAGATGCTGCTGCTGGCGTGCTTCGGCCTGCTGATCGTGGTGTTCGTGCCGGGCCTGGGCAGCAGCGTCAACGGCGCGCGCCGCTGGATCAACCTGGGCATCTCCAAGTTCCAGACCGTCGAGGCGGTCAAGGTGCTGTACATCGTGTGGCTGTCGAGCTACCTGGTGCGCTTCCGCGACGAGGTCAACGCGACCTGGGGCGCGCTGATCAAGGCGATCGGCGTGGTGCTGGCGCTGATCGCGCTGCTGCTGCTGCAGCCGGACTTCGGTTCGTCCACGCTGCTGCTGGGCATCACCGCCGGCATGCTGATCCTCGGCGGCGCCAACCTGCCGCGCATGACCATGCCGGTGCTGGCGCTGCTGCCGGCGCTGGTCGCGCTGGTCGTGTTCGAGCCGTACCGCATGCGCCGGGTGACCTCGTTCCTGGATCCGTGGGCGGACCAGCTCGGCTCCGGCTACCAGCTGTCCAACGCATTGATGGCGATCGGCCGTGGCGGCTGGGACGGCGTCGGCCTGGGCGGCTCGGTGCAGAAGCTCAACTACCTGCCCGAGGCGCATACCGACTTCATCTTCTCGGTGATCGCCGAGGAGCTGGGCTTCGTCGGCGTCTGCCTGATCGTGGCGCTGTACGCGCTGCTGGTCGGCCGCGCGTTCCACCTCGGCATGCGCTGCGTGGAGATGAAGCGGCACTTCTCCGGCTACATCGCCTTCGGCATCGCGCTGTGGATCGCGATGCAGAGTTTCGTTTCGATCGGGGTGAACCTTGGCATCCTGCCGACCAAGGGCCTGACCCTGCCGCTGATCTCCTCGGGCGGTTCCTCGGTGATGATGACCTGCGTGGCGATGGGCCTGCTGCTGCGCGTGTCCTATGAACTGGATCGCGCCGAACGCCTGCGCACCAAGCTGTCGCCGAGCGCGCAGGCGCCGGGCGAGGCGGGCGAGAGCGTGCCAGTCGCCACGGCGCCGGTCGCGCCGGCCGCGGTGCCGCCGCGCGAAGGGTTCAGCGCCACCGCGATCGCCGCCTCGATGCAGCCGGCCGTCCCGGCGCGCGGCACCAGCCGCATGCGCGAGCGGGTCGAGCCGACCTTCGGGAGGCCGGCATGA	MNDLARQATRLEAIGGRFDPWLLGAAVALASIGVVMVASSSIELTASPFYYLTRHLMLLGVGCGLAFWAMRTELKTIEQHNQMLLLACFGLLIVVFVPGLGSSVNGARRWINLGISKFQTVEAVKVLYIVWLSSYLVRFRDEVNATWGALIKAIGVVLALIALLLLQPDFGSSTLLLGITAGMLILGGANLPRMTMPVLALLPALVALVVFEPYRMRRVTSFLDPWADQLGSGYQLSNALMAIGRGGWDGVGLGGSVQKLNYLPEAHTDFIFSVIAEELGFVGVCLIVALYALLVGRAFHLGMRCVEMKRHFSGYIAFGIALWIAMQSFVSIGVNLGILPTKGLTLPLISSGGSSVMMTCVAMGLLLRVSYELDRAERLRTKLSPSAQAPGEAGESVPVATAPVAPAAVPPREGFSATAIAASMQPAVPARGTSRMRERVEPTFGRPA	PGPT0014810_459	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588	NA	NA
BMS020_03682	1116	murG_1	COG0707	UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase	ATGAGCGCGCAGGTGCAGTCCGTTGCCGGTCGTCCGGTGATGATCCTCGCCGGTGGCACCGGCGGGCACATCTTCCCGGGCCTGGCCGTGGCCAAGGTGCTGCGCGCGCGTGGCGTGTCGGTGGCCTGGCTGGGCGCGGTCGGCAAGATGGAAACCCGGCTGGTGCCGGAGCACGGCATCGAGATCGACGCGATCGAGATCGCCGGCCTGCGCGGCAAGGGCACGCTGGCCCTGCTGGGCGCGCCGATGCGGGTGCTGCGCGCGATCCGCGCCGCCGGCTTCGTGCTGCGCCAGCGCCAGCCGCGCGCGGTAGTCAGCTTCGGCGGCTTCGCCGCTGGTCCGGGCGGCATCGCCGCGCGGTTGATGGGGCTGCCGCTGATCGTGCACGAACAGAACCGCGCGCCGGGCATGACCAACAAGGTGCTGTCGCGTGTGGCGCGCCGCGTGTTGACCGGGTTCCCGGGCAGCTTCGCCGGCCACCGCGAGGAGCCGGTCGGCAATCCGGTGCGCGAGGAGATCGCCGCACTGCCGGCACCGGCTGCGCGCTTTGCCGGCCGCACCGGCCCGGTGCGGGTGCTGGTGCTCGGCGGCAGCCAGGGCGCCCGCGCGCTCAACGAGGCAGTGCCGGCCGCACTGGCCGCGCTCGCTCGTCACGACGTGCAGGTGCGCCACCAGTGCGGCGAAGCGCTGCGCGCCGAGGCCGAAGCGGCCTACGCCAAGGCCGGCGTGGCCGCCAGCGTCGAGCCGTTCATCGCCGACATGGCCGCCGCCTATGCCTGGGCCGACCTGGTGCTGTGCCGTTCGGGCGCCTCGACCCTGGGTGAACTGTGTGCGGTCGGCATCGGCAGCGTGCTGGTGCCGTTCGCCGCCGCGGTCGACGACCACCAGACCCGCAACGCCGAATACCTGGTCGATGCCGGCGCCGCCGTGCTGCTGAAGCAGGACGCCGCGCTCGCCGCGAACCTGCAGGCCACGCTGCCGGCGCTGCTCGACGATGCCGGCCGCCGCCTGGCGATGGCGCAGGCCGCGCGTGGCCTGGCCCGTGTCGATGCCGCCGAGCGCATCGCCGACATCATTCTCGAAGAATCTGCTGTAGCAGAAAGGAAGTCCGCATGA	MSAQVQSVAGRPVMILAGGTGGHIFPGLAVAKVLRARGVSVAWLGAVGKMETRLVPEHGIEIDAIEIAGLRGKGTLALLGAPMRVLRAIRAAGFVLRQRQPRAVVSFGGFAAGPGGIAARLMGLPLIVHEQNRAPGMTNKVLSRVARRVLTGFPGSFAGHREEPVGNPVREEIAALPAPAARFAGRTGPVRVLVLGGSQGARALNEAVPAALAALARHDVQVRHQCGEALRAEAEAAYAKAGVAASVEPFIADMAAAYAWADLVLCRSGASTLGELCAVGIGSVLVPFAAAVDDHQTRNAEYLVDAGAAVLLKQDAALAANLQATLPALLDDAGRRLAMAQAARGLARVDAAERIADIILEESAVAERKSA	PGPT0024150_118	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024150-murG-K02563	NA	NA
BMS020_03683	1434	murC_1	COG0773	UDP-N-acetylmuramate--L-alanine ligase	ATGATCCGCCGTCTGCACGACACCGGCGACCTGGTCCGCGCGTTCCCGCGCGTGCATTTCGTCGGCATCGGCGGCACCGGCATGAGCGGCATCGCCGAGGTGATGCTGACGCTCGGCTACGAGGTGTCCGGCTCGGACAACGCCGACAACGCCGCGACCCGTCGCCTGGCCAAGCTCGGCGCGCGGGTCATGCGCGGGCATTCGGCCGCCAACGTGCTCGGTACCGACTGCGTGGTGGTGTCCAGCGCGATCCGCGAGGACAACCCGGAGCTGATGGAAGCGCGCAGCCAGCGCATCCCGATCATGCCGCGCGCGGCGATGCTGGCCGAGCTGATGCGCTTCCGCCGCGGCATCGCCGTGGCCGGAACGCATGGCAAGACCACCACCACCAGCCTGACCGCGGCGGTGCTGAGCGAAGGCGGGCTGGACCCGACCTTCGTGATCGGCGGGCAGCTGCTCGCCGCCGGCGCCAATGCCAAGCTCGGTGGCGGCCAGTGGCTGGTCGCCGAGGCCGACGAGAGCGATGGCAGCTTCCTGCGGCTGAACCCGCTGGTGGCGGTGATCACCAACATCGACGCCGATCACCTGGAGAACTACGGCAACGACTTCGCCCGCGTGCAGGCCGCGTTCGCCGAATTCCTGCAGCGCCTGCCGTTCTACGGCCTGGCGCTGCTGTGCATCGACGATCCGGAAGTGGCCGCGCTCGCCGCCAAGACCCCGCGCCACGTGATGAGTTACGGCATGAGCGGCAACGCCGACGTGCGCGCCGAGGACGTGGTCCAGGACGGCCCGCGCATGCGCTTCACCCTGCGCCTGCCGGAAGGCAGCACCACGCCGGTGACGCTGGCGCTGCCGGGGCGCCACAACGTGCTCAACGCCCTGGCCGCCGCGGCGGTGGGCTGGCAGCTCGGCGTGGCGCCTGAGGTGATCGCGCGCGCCTTGGAAAACTTCGCCGGCATCGGTCGCCGCTTCAACGATCTGGGTGAAGTGGCCACCGCGACCGGCGCCAAGGTGCGCATCGTCGACGACTACGGCCACCATCCGCGCGAACTGGAGGCGGTGTTTGCCGCGGCGCGCGGCGGCTGGCCGGACAAGCGCCTGGTGGTGGCGTTCCAGCCGCACCGCTACAGCCGCACCCGCGACCAGTTCGATGCATTCGCCGCGGTGCTCAGCAGCGTCGACGCGCTGGTGCTCAGCGAGGTCTACCCGGCCGGCGAGCAGCCGATTCCCGGCGCCGATTCCAAGTCGCTGGCGCGGGCGATCCGCGCGCGCGGGCGCAGCGAACCGGTGGTGGTCAGCCAGGTCGCGCAGCTGGCGCAGGTCCTGCCTGACGTGCTCCAGGACGGCGACCTGCTGCTGATGATGGGGGCTGGCGATATCGGGTACGTGGCCCAGCAGATCGTCGCTGAAGGATTCAAGGGAGGTGTGGCATGA	MIRRLHDTGDLVRAFPRVHFVGIGGTGMSGIAEVMLTLGYEVSGSDNADNAATRRLAKLGARVMRGHSAANVLGTDCVVVSSAIREDNPELMEARSQRIPIMPRAAMLAELMRFRRGIAVAGTHGKTTTTSLTAAVLSEGGLDPTFVIGGQLLAAGANAKLGGGQWLVAEADESDGSFLRLNPLVAVITNIDADHLENYGNDFARVQAAFAEFLQRLPFYGLALLCIDDPEVAALAAKTPRHVMSYGMSGNADVRAEDVVQDGPRMRFTLRLPEGSTTPVTLALPGRHNVLNALAAAAVGWQLGVAPEVIARALENFAGIGRRFNDLGEVATATGAKVRIVDDYGHHPRELEAVFAAARGGWPDKRLVVAFQPHRYSRTRDQFDAFAAVLSSVDALVLSEVYPAGEQPIPGADSKSLARAIRARGRSEPVVVSQVAQLAQVLPDVLQDGDLLLMMGAGDIGYVAQQIVAEGFKGGVA	PGPT0024120_1614	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024120-murC-K01924	NA	NA
BMS020_03684	966	ddlB_1	COG1181	D-alanine--D-alanine ligase B	ATGAGCGCGCTGGGCGTGGCGAAGTTGCAGGATCCGGCCGTGTTCGGCCGCGTCGCGGTGCTGCTGGGTGGCAGTTCGTCCGAGCGCGAGGTGTCGCTGGATTCCGGTCGCAACGTGCTCGAGGCGCTGCGCGCGCGCGGGGTCGATGCGCAGCCGGTCGACGGCATCGCGGCGCTTGCGCAGGCGCTGGTCGAGAAGAAGTTCGACCGCGTGTTCAACGTGCTGCACGGCCATAACGGCGGCGGCGAGGACGGCATCGTGCAGGGCCTGATGGAGGCCTTCGGCGTGCCGTACACCGGCTCCGGCGTGCTCGGCTCGGCATTGAGCATGGACAAGGTCCGCACCAAGCAGGTGTGGCTGTCGCTGGGCCTGCCGACGCCGCGCTACGTGCGCCTGGCGGCGACCGCCAGCGCCGCCGACGTGCGTGCGGCCGCGGCCCAGCTCGGCCTGCCGGTGATCGTCAAGCCGGCCAACGAAGGCTCCAGCGTCGGCGTCAGCCGGGTGTTCGACGACGCCCAGCTCGACGACGCGGTGGCGCTGGCCGCGCGCTACGACGGCGAGCTGCTGATGGAGCAGCTGATCGAAGGCGACGAGCTGACCGTGGCGATCCTCGGCGACACCGCGCTGCCGTCGATCCGTATCGTGCCCAAGGGCCAGTGGTACGACTACAACGCCAAGTACCTGGCCGAGGACACCCAGTACCTGTGCCCGGGCCTGGACGGCGCCGACGAGGCCGAGATCGGCCGTATCGCGCTGGCCGCGTTCCAGGCCGCCGGCTGTCGCGGCTGGGGCCGCGTCGACGTGATGCGCGACCGCGCCAGCGGCGGCTTCTTCCTGCTCGAGGTCAACACCGCGCCGGGCATGACCAGCCACTCGCTGGTGCCCAAGGCCGCGCGCCAGCTCGGCGTGTCGTTCGAGGAGCTGGTCTGGCGCGTGCTGGAACAGACCGTGGAGGCCACGGGCTGA	MSALGVAKLQDPAVFGRVAVLLGGSSSEREVSLDSGRNVLEALRARGVDAQPVDGIAALAQALVEKKFDRVFNVLHGHNGGGEDGIVQGLMEAFGVPYTGSGVLGSALSMDKVRTKQVWLSLGLPTPRYVRLAATASAADVRAAAAQLGLPVIVKPANEGSSVGVSRVFDDAQLDDAVALAARYDGELLMEQLIEGDELTVAILGDTALPSIRIVPKGQWYDYNAKYLAEDTQYLCPGLDGADEAEIGRIALAAFQAAGCRGWGRVDVMRDRASGGFFLLEVNTAPGMTSHSLVPKAARQLGVSFEELVWRVLEQTVEATG	PGPT0020050_4251	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
BMS020_03685	837	ftsQ_1		Cell division protein FtsQ	ATGCTCAACACCTCGCTGCGCATCCTGGCATGGCTGCTCGCGGTGGCGCTGGTCGCGCTGCCGGTGGTGGCCGTGCTCAACGGCTGGGTCGGCGCCGAGCGCTGGCCGCTCAGCCGGCTGCGCGTGAGCGGGGATTTCAAGCGGGTTTCGCCGGAGCAGCTGCGCGCGGTGGTGCTGCCGTACGCCAAGGCCGGCTTCTTCGCGGTGAAGCTGCAGGACGCGCAGGACGCGATCGAGCGGCTGCCGTGGGTGGCCGGCGCGCAGGTGCGCAAGAGCTGGCCGGACGTGCTGGAAGTGAGCGTGGTCGAGCATCGCCCGTTCGCCCGCTGGGGCAAGGACCGCATGCTGTCCGAGCAGGGCCGCCTGTTCCCGGTGCCGCCGCGGCTGAAGGATCTCAAGCTGCCGCAGCTCGGCGGTCCCGATGCCAAGACCGGCGAGGTGGTCGCGCTCTACAACGAGTCGCGCGCGCTGTTCGCGCCGGCCGGCGTCGACGTCGACCGGCTGGAGCTGGATGCGCGCGGCAGCTGGTCGCTCGGCCTCAGCGACGGGACCGAGATCGTGGTCGGCCGCGACGACGCCAAGGCGCGCCTGCAGCGCTTCGCGCGGGTGCTGCCGCAGCTGAAGGATCCGGCGCAGCCGATCGAACGCGCCGACCTGCGCTACACCAACGGCTTCACCGTGGAGCGGGGCACCGGCGACGGCGGCGCGGCTGCGACCCGGGCGCCAGCGCCGCCCCCCACCCACCGCCTGACGCTCGCGGCTTCATCACCGGAGGCAGTCATCCCGCATTTCGCGGCCTTCCATTCCCCACTTTCTATTCCCGGCATCACCACATGA	MLNTSLRILAWLLAVALVALPVVAVLNGWVGAERWPLSRLRVSGDFKRVSPEQLRAVVLPYAKAGFFAVKLQDAQDAIERLPWVAGAQVRKSWPDVLEVSVVEHRPFARWGKDRMLSEQGRLFPVPPRLKDLKLPQLGGPDAKTGEVVALYNESRALFAPAGVDVDRLELDARGSWSLGLSDGTEIVVGRDDAKARLQRFARVLPQLKDPAQPIERADLRYTNGFTVERGTGDGGAAATRAPAPPPTHRLTLAASSPEAVIPHFAAFHSPLSIPGITT				NA	NA	NA	NA	NA
BMS020_03686	1236	ftsA_1	COG0849	Cell division protein FtsA	ATGAACCGCAAAGGCGACAAATCCCTCATCGTCGGACTGGACATCGGCACCTCCAAGGTGACGGCCCTGGTCGGCGAATACTCGCCCGGCAATCCGATCGAGGTGATCGGCATCGGCTCGCATGAATCGCGCGGGCTCAAGCGCGGCGTGGTGGTGGACATCGAATCCACGGTGCAGTCGATCCAGCGCGCGGTCGAGGAAGCCGAGCTGATGGCCGGCTGCGAGATCCGCTCGGTCTACGCCTCGATCTCCGGCAACCACGTGCAGTGCCGCAACTCGCAGGGCATCCAGCCGATCCGCGACGGCGAGGTCACCTGGGGCGACCTGGAGCGCGTGCTGGACGCGGCCAAGGCGGTGGCGATCCCGGCCGACCAGCGCATCCTGCACGCGATCCCGCGCGAGTACGTGCTGGACGATTCGCAGGAGGGCATCCGCAATCCGGTCGGCATGACCGGCGTGCGCCTGGAGGTGCATGCGCACCTGGTCACCTGCGCGCAGTCGGCCGCGGCCAACATCAGCAAGTGCGTGCAGAAGTGCGGGCTGCAGGTCGACGATCTGGTGCTGTCGTCGCTGGCGTCCTCGGTCGCGGTGCTGACCGCCGACGAGCGCGAGCTGGGCGTGGTGCTGGTCGACATCGGCGCCGGCACCACCGACATCACCGTCTACGTGCAGGGCGCGATCAGCCACACCGCATCGCTGCCGATCGCCGGCGACCACGTCACCAACGACATCGCGCACATGCTGCGCACGCCGACCCCGGAAGCCGAGCAGATCAAGGTGCGCTACGCCTGCGCGCTGGCGCAGCTGGCCACCGCCGAGGAATCGATCCAGGTGCCGAGCGTCGGCGACCGGCCGCCGCGGCGCATGCCGCGCGCCTCGCTGGCGCAGGCGGTGCAGGGCCGCTACGAGGAGATCTTCGAGATGGTCCAGGCCGAGCTGCGCCGCTCCGGCTTCGAGGAACTGGTGCGCGCCGGCATGGTGCTGACCGGTGGCGCTTCGAAGATGGAAGGCGTGATCGAGCTGGCCGAGGAAATGCTGCAGATGCCGGTGCGCGTGGGCATCCCGCAGCACGTCACCGGACTGGGCGAAGTGGTCGGCAACCCGGTCCACGCCACCGGCGTGGGCCTGCTGCTGATGGGCAGCCAGATCGAACATCCGCGGCGTCCGTCGATCCCGACCGGACGCGCGGGCAGCTTGTTCCGCCGGTTGAAGAACTGGTATCGCGGCGAGTTTTGA	MNRKGDKSLIVGLDIGTSKVTALVGEYSPGNPIEVIGIGSHESRGLKRGVVVDIESTVQSIQRAVEEAELMAGCEIRSVYASISGNHVQCRNSQGIQPIRDGEVTWGDLERVLDAAKAVAIPADQRILHAIPREYVLDDSQEGIRNPVGMTGVRLEVHAHLVTCAQSAAANISKCVQKCGLQVDDLVLSSLASSVAVLTADERELGVVLVDIGAGTTDITVYVQGAISHTASLPIAGDHVTNDIAHMLRTPTPEAEQIKVRYACALAQLATAEESIQVPSVGDRPPRRMPRASLAQAVQGRYEEIFEMVQAELRRSGFEELVRAGMVLTGGASKMEGVIELAEEMLQMPVRVGIPQHVTGLGEVVGNPVHATGVGLLLMGSQIEHPRRPSIPTGRAGSLFRRLKNWYRGEF				NA	NA	NA	NA	NA
BMS020_03687	1248	ftsZ_1	COG0206	Cell division protein FtsZ	ATGGCACATTTCGAACTGATCGAGAAGATGGCACCGAACGCGGTGATCAAGGTCGTCGGCGTCGGCGGCGGCGGCGGCAACGCGGTCGCGCACATGGTCAACAGCAGCGTGGAAGGCGTTGAGTTCATCACCGCCAACACCGACTCGCAGGCGATCAAGAACAACGGCGCCAAGCTGCAGCTGCAGCTCGGCAGCAACGTCACCAAGGGCCTGGGCGCAGGCGCCAATCCGGAAGTCGGCCGCCAGGCCGCGCTGGAAGACCGCGAGCGCATCATGGACGCGCTGCAGGGTGCGGACATGGTGTTCATCACCGCCGGCATGGGCGGCGGTACCGGCACCGGCGCCGCGCCGGTGGTGGCGCAGCTGGCCAAGGAGATGGGCATCCTGACCGTCGCCGTGGTCACCAAGCCGTTCCCGTTCGAAGGCCGTCGCCGCATGCAGGTGGCGCTGAAGGGCATCGAGGAACTGTCGGCGCACTGCGATTCGCTGATCACCATCCCGAACGAGAAGCTGATCACCGTGCTCGGCCGCAACGCCACGATGATCCAGGCGTTCCGCGCCGCCAACGACGTGCTGCAGGGCGCGGTGCAGGGCATCGCCGACCTGATCGTGCGTCCGGGCCTGATCAACGTCGACTTCGCCGACGTGCGGACCGTGATGAGCGAGATGGGCCTGGCGATGATGGGCACCGGCTCGGCGCGTGGCGACGACCGCGCCCAGGCCGCGGCCGAGGCGGCGATCCAGAACCCGCTGCTGGATGACGTCAACCTGGCCGGTGCCAACGGCATCCTGGTCAACATCACCGCCGGCCCGGACTTCACCATGGCCGAGTTCGACGAGATCGGCCGTACCGTCGAGGGCTTCGCCTCGGAGGACGCGACCGTCGTGGTCGGCACCGTGCTCGACCCGGACATGCAGGACGAAGTCCGCGTGACCGTGGTCGCCACCGGCCTGAACCGTGCGGTGTCGCGCTCGGCGCAGCGTCCGGAGCAGCGCGCGCCGATCAAGCTGGTGCGCAACGCGACCACCGGCCAGGCCGAGTTCGGCGGCGAGTACGACAATGGCGGCGACGCCGTGTCGCGCGCGGTGGGTGGTTCGATGGGGCTGGGCCTGCGTCGTCCGAGCAGCGACACCGCTGCCGCCGGTGCCGGCAGCGCCTCCAGCGCTGGCAGTGCCTCGACCGGCGCCGCCGAGCTGCCGAGCGACTACCTGGACATCCCGGCGTTCCTGCGTCGCCAGGCCGACTGA	MAHFELIEKMAPNAVIKVVGVGGGGGNAVAHMVNSSVEGVEFITANTDSQAIKNNGAKLQLQLGSNVTKGLGAGANPEVGRQAALEDRERIMDALQGADMVFITAGMGGGTGTGAAPVVAQLAKEMGILTVAVVTKPFPFEGRRRMQVALKGIEELSAHCDSLITIPNEKLITVLGRNATMIQAFRAANDVLQGAVQGIADLIVRPGLINVDFADVRTVMSEMGLAMMGTGSARGDDRAQAAAEAAIQNPLLDDVNLAGANGILVNITAGPDFTMAEFDEIGRTVEGFASEDATVVVGTVLDPDMQDEVRVTVVATGLNRAVSRSAQRPEQRAPIKLVRNATTGQAEFGGEYDNGGDAVSRAVGGSMGLGLRRPSSDTAAAGAGSASSAGSASTGAAELPSDYLDIPAFLRRQAD	PGPT0027695_2361	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027695-ftsZ-K03531	NA	NA
BMS020_03689	912	lpxC_1	COG0774	UDP-3-O-acyl-N-acetylglucosamine deacetylase	ATGACCCAGCAACGCACCCTCAAGAACACCATCCGCGCCACCGGCGTCGGCCTGCACAGCGGCGACAAGGTCTACATGACCCTGCGTCCGGCGCCGGTCAACCATGGCGTGGTGTTCCGTCGGGTCGACCTGGAGCCGGTGGTCGAGGTGCCCGCCAGCGGCGAGCTGGTCACCGAGGTCACCCTGTGCACCGGTTTGACCTGCAACGGCGCCAAGATCCAGACCGTGGAGCACCTGATGTCGGCGCTGGCCGGCCTGGGCATCGACAACGTGATCGTCGAGCTGTCCTCGGCCGAGCTGCCGATCATGGACGGCTCCTCCGGTCCGTTCGTGTTCCTGCTGCAGTCCGCCGGCATCGTCGAGCAGGACGCGGCCAAGCGCTTCATCCGCATCAAGCGCACGATCGAAGTGCGCGAGGGCGACAAGGTCGCCCGCTTCGAGCCCTACGAGGGCTACAAGCTCGGCTTCACCATCGAATTCGACCACCCGATGATCCCGGCACGGCAGTCGCGCCAGGAGATCGAGTTTTCGACCGCGTCCTACATCAAGGAAATCTCGCGCGCCCGCACCTTCGGCTTCATGCGCGACCTGGAGTACATGCGCGAGCGCAACCTCGGCCTCGGCGGCTCGATGGACAACGCGATCGTGCTGGACGAGTTCCGCGTGCTCAACGAGGACGGCCTGCGTTACACGAATGAATTCGTGCGCCACAAGATCCTCGACGCGATCGGCGACCTGTATCTGGCCGGCGGCCCGGTGCTGGGGGCTTACGAGGGCTACAAGTCCGGGCACGCGCTCAACAACAAGCTGGTCCGCGCGCTGCTCGCCGACCAGACCGCCTGGGAGTGGGTCAGCTTCCCGAAGGGCTCGATCGAGCCGCCGGTGACCTACGCCTCCCCGGTCTATGCCTGA	MTQQRTLKNTIRATGVGLHSGDKVYMTLRPAPVNHGVVFRRVDLEPVVEVPASGELVTEVTLCTGLTCNGAKIQTVEHLMSALAGLGIDNVIVELSSAELPIMDGSSGPFVFLLQSAGIVEQDAAKRFIRIKRTIEVREGDKVARFEPYEGYKLGFTIEFDHPMIPARQSRQEIEFSTASYIKEISRARTFGFMRDLEYMRERNLGLGGSMDNAIVLDEFRVLNEDGLRYTNEFVRHKILDAIGDLYLAGGPVLGAYEGYKSGHALNNKLVRALLADQTAWEWVSFPKGSIEPPVTYASPVYA	PGPT0022330_1536	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022330-lpxC-K02535	NA	NA
BMS020_03690	552			hypothetical protein	ATGGCGGCTAGGATGCGTCCGGTCGCCTGTGTCCTTCGCATCGTCTTCACGCTTGCGAGCGAGGCATCAGGCGGGGGTCATCGCCGGGTTTTCCCGGGTTCGATGTCCTGCAGGGAAGCCAGAGCCTCGCGCAGACCTTTGTGCGTGGCGTCGGAGACAGGTCGTGGCCGGGGTTGGTCCTGTTGCGTTGGGGAACGCAGCACGGTGGTCGCGGTCTTGATGGTCACTCGCGTGGCCGTCAGCCCGAGGGACCGGGCAGCTTGGAGAAGCTGGTGTTCGGCAAGCCGCAGCTTGGCGTGCCAGACCGGCGACTCGACGAGGAAAACGAGCTGTTCGTCCTTCACGTTGGCAAGCCGGCAACGGTTGGCCAGGTGGGGCGGCAGATGGGGGCGCAACTGCCGATCCAGCGCATCGAGCCAGAGGGCTCGACGCAAGGGGTCGCCAGTCTTTCCCGCCATCACGGCCTCCAAGGCCGGTTGGAACTGGGAAGGGCTGCGTGTGCTGGACTTCGGCTTGGACATGACACTCAAATGGCTTTCAAGAAGATCGTAA	MAARMRPVACVLRIVFTLASEASGGGHRRVFPGSMSCREARASRRPLCVASETGRGRGWSCCVGERSTVVAVLMVTRVAVSPRDRAAWRSWCSASRSLACQTGDSTRKTSCSSFTLASRQRLARWGGRWGRNCRSSASSQRARRKGSPVFPAITASKAGWNWEGLRVLDFGLDMTLKWLSRRS				NA	NA	NA	NA	NA
BMS020_03691	942			hypothetical protein	ATGGCTTTCAAGAAGATCGTAATCAAATCGCGCGAAACCCGGGGCCAACGCCTGGCCCGACAGATCCGCGGTTTCGGCGAGGATCGCCCGTTGACCGTTCTGGGCGTGGTGCTGGGGGTCGGCCTGATGGCCGGCTTCGGCGTCCACGCCGGGTTGGGGATGGTGACCAATTCCGGCCTCCAGGCCAAGCTCGACGCGCAACAGGCCGAACTGGCCAAGGTGCAGCGCGAATCCCAGGCCCAGGTCAACGCGATGGCGGCCCGGCTGGGCGAGCTGCAGGCCCAGGCGACGCGCCTGAACGCGCTTGGCGAGCGCCTGACCGAGATGGGCAAGCTGAAGGACGGCGAGTTCGACTTTGGCGAGCCGGTCGGCGTCGGTGGCGGCGACGAGCCGCTGCAGGACATGCCGGCGGCCCAGCTCAAGGACAGTCTAGGGCAACTCGAAAAGCAGTTCTCAGGCTCCGGGCAACAACTGAACGTGCTGGCCTCGCTGATGTTCGACCACCAGCTCGAGCAGAATGCGGTGCCGTCGCGGATGCCGATCCGCAACAGCTACATCACCTCCGGCTTCGGCGGCCGCGCCGACCCGATCAATGGCGGCGCCGGCAACCACAAGGGCATCGATTTCCATGCCAACGTCGGCGATCCGGTGATGGCGGTGGCCGATGGCGTGGTCAGCTTCTCCGGCGTGCGCAGCGGCTACGGCAACGTGGTGGAGATCGACCACGGCAACGGCTACGTGACCCGCTACGCGCACAACTCGCGGCTGGTGGTCCGGGTGAACGACCTGGTCCGGGCCGGGCAGGAGATCGCCAAGGCCGGTTCGACCGGGCGTTCGACCGGCGCCCACGTGCACTTCGAGGTCTGGCAGGATGGGCGGGTGGTCAATCCGCGCAAGTTCCTCGGCGAGAACATCCCGGTGGGGCGCCGCGGCCGGGGTTGA	MAFKKIVIKSRETRGQRLARQIRGFGEDRPLTVLGVVLGVGLMAGFGVHAGLGMVTNSGLQAKLDAQQAELAKVQRESQAQVNAMAARLGELQAQATRLNALGERLTEMGKLKDGEFDFGEPVGVGGGDEPLQDMPAAQLKDSLGQLEKQFSGSGQQLNVLASLMFDHQLEQNAVPSRMPIRNSYITSGFGGRADPINGGAGNHKGIDFHANVGDPVMAVADGVVSFSGVRSGYGNVVEIDHGNGYVTRYAHNSRLVVRVNDLVRAGQEIAKAGSTGRSTGAHVHFEVWQDGRVVNPRKFLGENIPVGRRGRG				NA	NA	NA	NA	NA
BMS020_03692	2730	secA_1	COG0653	Protein translocase subunit SecA	ATGATCAACAGTCTGCTTACCCGTGTCTTCGGCAGTCGCAACGAACGCCAGCTGCGCCAGCTCAACCGCATCGTCGCCAAGATCAACGCCCTCGAGCCGGAGATGGAGAAGCTCTCCGACGCGGAGCTGCAGGCCAAGACCCCGGAGTTCAAGCAGCGCATCGCCGGCGGCGAGTCGCTGGACAAGGTGCTGCCCGAGGCCTTCGCGGTCTGCCGCGAGGCCAGCAAGCGCGTGCTCGGCATGCGCCACTACGACGTGCAGCTGATCGGCGGCATGGTGCTGCACCTGGGCAAGATCGCCGAGATGCGCACCGGCGAGGGCAAGACCCTGGTCGCGACCCTGCCGGTCTACCTCAACGCGCTGGAAGACCAGGGCGTGCACGTGGTCACCGTCAACGACTACCTGGCCCGCCGCGACTCGGCGCAGATGGGCAAGCTGTACAACTGGCTGGGCCTGAGCGTCGGCGTGGTCTACCCGGGCATGCCGCACAGCGACAAGCACGCCGCCTACGGCGCCGACATCACCTACGGCACCAACAACGAATTCGGCTTCGACTACCTGCGCGACAACATGGCGCTGAGCAAGGCCGACCGTTACCAGCGCGGCCTGCACTACGCGATCGTCGACGAAGTCGACTCGATCCTGATCGACGAGGCGCGTACTCCGCTGATCATCTCCGGCCCGGCCGACGAATCGCCGGAGCTGTACATCAAGGTCAACCGCATCGTCCCGCACCTGACCAAGCAGGAGTCGGAAGAGGGCGAGGGCGATTTCTGGGTCGACGAGAAGGGCAAGCAGGTGCACCTGTCCGAAGCGGGCATGGAGCACGCCGAGGAACTGCTGCGCCAGGCCGGCATTATCACCGACGAGGACGGCCTGTACGCCGCGCAGAACCTCAGCGTGGTGCACCACCTCAACGCGGCGATGCGCGCGCATGCGATCTACCAGCGCGACGTGGACTACATCGTCCGCGATGGCGAGGTGGTGATCGTCGACGAGTTCACCGGCCGCACCCTGGCCGGCCGGCGCTGGTCCGACGGCCTGCACCAGGCGGTCGAGGCGAAGGAGGGCGTGCCGGTCCAGCGCGAGAACCAGACGCTGGCGAGCATCACCTTCCAGAACCTGTTCCGCATGTACAAGAAGCTGTCCGGCATGACCGGTACGGCCGATACGGAAGCCTACGAGTTCCAGAGCATCTACGGCCTGGAAGTGGTGGTGATCCCGACCAACAAGCCGACCGTGCGCAAGGACCACCCGGACCAGGTGTTCCTCAACCGCAAGGGCAAGTTCAATGCGGTGCTGGCCGACATCGAGGACTGCGCCAAGCGTGGCCAGCCGGTGCTGGTCGGCACGACCTCGATCGAGACCTCGGAGATGCTGTCCGAGCACCTGCGCAAGGCCGGGGTGAAGCACGAGGTGCTCAACGCCAAGCAGCACGAGCGCGAGGCGACCATCGTCGCCAATGCCGGTATGCCGGGCGCGGTGACCATCGCCACCAACATGGCCGGCCGCGGTACCGACATCGTGCTCGGCGGTTCGCTCGAGGCCGAGCTGCATGCGCTCGGCGAAGAGGCCAACGAGGACCAGCGTTTCCGCGCCAAGACCGAGTGGCAGCGCCGCCACGAGGCGGTCAAGGCTGCCGGCGGCCTGCACATCATCGGTACCGAGCGCCATGAGAGCCGCCGTATCGACAACCAGCTGCGTGGCCGTTCCGGCCGTCAGGGCGACCCGGGTTCTTCGCGCTTCTACCTGTCGCTGGAAGACAACCTGATGCGCATCTTCGCCTCCGACTGGGTGCAGAAGGCGATGCGCCTGATGGGCATGAAGGAAGACGACGTCATCGAGGACCGCCTGGTCAGCCGCCAGATCGAGAAGGCGCAGCGCAAGGTCGAGGCGCACAACTTCGACATCCGCAAGAACCTGCTGGACTTCGACGACGTCAACAACGACCAGCGCAAGGTGATCTACGCCCAGCGCGACGAGCTGCTGGATGCCGAGTCGGTCAAGGACAACGTCGACGGCATCCGCGAGGACGTGGTGTACGACCTGGTCGCGCGCTTCGTGCCGCCCAATTCGGTGGACGAGCAGTGGGACCTGAAGGGCCTGGAAGCGACGCTGGAGGCCGAGCTTGGCGTGGAACTGGCGCTGGCCCGGATCGCCGCCGAGCACGAGGAACTGGATGCCGAGCAGATCGCCGGCAAGGTCCAGGATGCGGTCGCCGAGCACTTCACCGCCAAGGAGACCTCGGTCGGCGGCGAGACCATGCGCGCGCTGGAGAAGCACGTGATGCTGACCGTGCTCGACCAGGGCTGGAAGGAGCACCTGGCCAAGATGGATTACCTGCGCCAGGGCATCTACCTTCGCGGTTACGCGCAGAAGCAGCCCAAGCAGGAATACAAGAAGGAAGCCTTCGAGCTGTTCTCGGAGATGCTCGAGCACGTCAAGCGCGAGGTGGTGAACCTGCTGTCGCGTGTGCGCATCCGCAGCGAGGAGGAAGTGGCCGCGCTGGAGGAACAGGAGCGCCGGATGGCCGAAGCGCGCCTGCAGGCCTCGCAGTTCCAGCACCAGGACGCCGGCGGCTATGGCGCCGACGAGGAAGCGGCGCAGGTCGAAGGCCAGGCGGCGGGCGTGGCCCAGGTCACCCGCGACGCGCCCAAGGTCGGCCGCAACGAGCGGGGCCCGTGGGGCTGCGGCATTATGTTCATGCACTGCCACGGTCTGCTCTGCTGA	MINSLLTRVFGSRNERQLRQLNRIVAKINALEPEMEKLSDAELQAKTPEFKQRIAGGESLDKVLPEAFAVCREASKRVLGMRHYDVQLIGGMVLHLGKIAEMRTGEGKTLVATLPVYLNALEDQGVHVVTVNDYLARRDSAQMGKLYNWLGLSVGVVYPGMPHSDKHAAYGADITYGTNNEFGFDYLRDNMALSKADRYQRGLHYAIVDEVDSILIDEARTPLIISGPADESPELYIKVNRIVPHLTKQESEEGEGDFWVDEKGKQVHLSEAGMEHAEELLRQAGIITDEDGLYAAQNLSVVHHLNAAMRAHAIYQRDVDYIVRDGEVVIVDEFTGRTLAGRRWSDGLHQAVEAKEGVPVQRENQTLASITFQNLFRMYKKLSGMTGTADTEAYEFQSIYGLEVVVIPTNKPTVRKDHPDQVFLNRKGKFNAVLADIEDCAKRGQPVLVGTTSIETSEMLSEHLRKAGVKHEVLNAKQHEREATIVANAGMPGAVTIATNMAGRGTDIVLGGSLEAELHALGEEANEDQRFRAKTEWQRRHEAVKAAGGLHIIGTERHESRRIDNQLRGRSGRQGDPGSSRFYLSLEDNLMRIFASDWVQKAMRLMGMKEDDVIEDRLVSRQIEKAQRKVEAHNFDIRKNLLDFDDVNNDQRKVIYAQRDELLDAESVKDNVDGIREDVVYDLVARFVPPNSVDEQWDLKGLEATLEAELGVELALARIAAEHEELDAEQIAGKVQDAVAEHFTAKETSVGGETMRALEKHVMLTVLDQGWKEHLAKMDYLRQGIYLRGYAQKQPKQEYKKEAFELFSEMLEHVKREVVNLLSRVRIRSEEEVAALEEQERRMAEARLQASQFQHQDAGGYGADEEAAQVEGQAAGVAQVTRDAPKVGRNERGPWGCGIMFMHCHGLLC	PGPT0025735_2379	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025735-secA-K03070	NA	NA
BMS020_03693	936	thiE_1		Thiamine-phosphate synthase	ATGCCCGATTCCCTACGCTCCATCCACGTCGTCGCCGGTGTGATCACCGACGCCCGCGGCCGCATTCTGCTCACGCGGCGCGCCGAAACCCGCGACATGCCCGGCCTGTGGGAATTCCCCGGCGGCAAGCGCGAACCCGGCGAAAGCTCCGAGGACGCGCTGGTGCGCGAGCTGCACGAGGAGCTCGGCATCGAGGCCGAGGTCGGCGACTGGCTGATGGACGTGCCGCAGCTGTATCCGGACAAGCGCCTGCGCCTGGAGGTTCGGAGGATCGCCGGCTGGAAAGGCCAGCCGCGCGGCCGCGAGGGCCAGGCGCTGACCTGGGTCGCGCCGGACAAGCTGGATCGCTATTCGATGCCGCCGGCGGACCTGCCGGTGGTGGCGCGGCTGCGCCACCCGGAGCAGTACCTGGCCGCGCCAGAGCCCGGCGACGACGTCGACCATTGGCTGGAGCACATCGAGCAGACGCTGCGCGATGGCGCCCAGCGCCTGCAGCTGGGCGTCCATGCCCACGACCAAGCGCGCTGGCCGGCGCTGCTGGAACAGGTGCTGGAACGGCGCGGTCGGCGCCCGGTGCAGCTGCTGCTGCGCCAGGACCTGGCGCTGGCGCGCACGCTGGGGCTGGGCGTGCACCTGCACGGCGAGCAGCTGGGCACGCTGGAAGCCCGGCCGTTGCCGCGCGAACAAGCGGTGGCGGCAAGCTGCAGCAGCCTGGACGAACTGCGCCACGCGCAGCGCATCGGCTGCGACTTCGCGGTGCTCGGGCCGGTGCTCGGCGACGGCGCCGCGCTGGGCTGGGAGGCGTTCGAACGCCTGCGTGAGCAGGTGTCGCTCCCGATCTACGCCTGCGGCGGCCTCGGGGCCGAGCATCTGCTTGAGGCGCGCCGGCATGGCGCACAGGGCATCGCGGCCGACCTGGCCACACGCGCCGGGTGA	MPDSLRSIHVVAGVITDARGRILLTRRAETRDMPGLWEFPGGKREPGESSEDALVRELHEELGIEAEVGDWLMDVPQLYPDKRLRLEVRRIAGWKGQPRGREGQALTWVAPDKLDRYSMPPADLPVVARLRHPEQYLAAPEPGDDVDHWLEHIEQTLRDGAQRLQLGVHAHDQARWPALLEQVLERRGRRPVQLLLRQDLALARTLGLGVHLHGEQLGTLEARPLPREQAVAASCSSLDELRHAQRIGCDFAVLGPVLGDGAALGWEAFERLREQVSLPIYACGGLGAEHLLEARRHGAQGIAADLATRAG				NA	NA	NA	NA	NA
BMS020_03694	627			hypothetical protein	GTGCGGACGCTGCTGCCCCCATCGCTGCTGTTGATCGTGCTGGCCCCGTGGCCGGCCGCGCCGGCGTACGCGCAGCAGGTCAACCGCTGTACCGGGCCGGACGGCAGCACCGTGTTCAGCGACCGCCGCTGCGAGGATGTCGGCGCGATGGCGCGGCTGCCACCGGCGGCGCATCGCGACGGCGACGCCGGGCTGTACCGCTACGGCTGCCCGCGCCGGCTCAGCGAGCTGGTCGCGCAGCTGCGCAGCGCGATCGACGCCCATGACGTCAACCGGCTGTCCAGCATCTACCTGTGGAGCAACCTGTCCGACGCCGCTGCCAACCAGGTGCTGAGCCGGCTGGAAGGCATCGTCGACCGGCCGCTGGTCGACATCGCGCCGATGTACCCGGAAGCGGACCCGCTGCCTGTGCCGGCGCAGGTCCCGGCACAGGAGCTACTGCCGGCCGCTGCCGGCGCCGGCAGCCCCCCGCTCGCCGCGTCGCCGGCGCAGATGCCGCCGGAGCCGCCACCGCGGCCACGTCCCTGGGGGCTGCGGCTGGAACAGACCCTGGGCGGGACCGCCACGCCCTCGCGCACCGTGCTGACCCTGCGCCGCCAGTACAACTGTTTCTGGGTCAGCTTCTAG	MRTLLPPSLLLIVLAPWPAAPAYAQQVNRCTGPDGSTVFSDRRCEDVGAMARLPPAAHRDGDAGLYRYGCPRRLSELVAQLRSAIDAHDVNRLSSIYLWSNLSDAAANQVLSRLEGIVDRPLVDIAPMYPEADPLPVPAQVPAQELLPAAAGAGSPPLAASPAQMPPEPPPRPRPWGLRLEQTLGGTATPSRTVLTLRRQYNCFWVSF				NA	NA	NA	NA	NA
BMS020_03695	414	ybaN_2	COG2832	Inner membrane protein YbaN	ATGAGCGATTCCGATCCGGCCCCGATCCCGCCACCGCGGCTGGCCCGCCACCGCAGCGTGCGCGTGCTGCTGCGGCTGCTGGCACTGCTCAGCCTGGGCACCGCGGTGCTCGGGCTGTTCCTGCCTGGCGTGCCCAGCACCGAGTTCGTGATCCTCGCCGCGTGGGCGGCCGCACGCAGCTCACCGCGCCTGCACCTGTGGCTGATGCAGCACCCGCGCCTGGGGCCGCCATTGCGGGCCTGGCACGATGGCCATCGGGTCAGCCTGCGCGGCAAGTGGGTCTCGACCGTCTCGATGGGCGCCTGCGCGGTGCTGCTGTGGTTCGCGCCGCATCCGTGGATCCGCTGGAGCGGCTGGGTCGGCATGGCGATCGGCGCCGCCTGGCTGTGGCGGCGCCCGCTGCCGCGGCGCTGA	MSDSDPAPIPPPRLARHRSVRVLLRLLALLSLGTAVLGLFLPGVPSTEFVILAAWAAARSSPRLHLWLMQHPRLGPPLRAWHDGHRVSLRGKWVSTVSMGACAVLLWFAPHPWIRWSGWVGMAIGAAWLWRRPLPRR				NA	NA	NA	NA	NA
BMS020_03696	588	pigA	COG3230	Heme oxygenase PigA	ATGTCCAGCACGACCCTCTCCACGCCGCTGTCGCAGCGGCTCAAGCACGAGACCGACACCCAGCATCAGCGCATGCACGCGCTGATGGAGCGCGCGCAGCCGTTCGCCAGCCGCGAGCGCTACGCCGGCTTCGTCGCGATCCAGTACTTGTTCCAGCGCGACGTGATGTACCTGTTCGACGACCCGCGCGTGCGCGCGGTGGTCGACGACCTCGACTGCCGCGGCCGCGTCGAAGCCGCGCACGCCGACCTGCACGATCTCGGCGCCGCCGTTCCCGACGCGCCGCTGGCCACCACCGCGGTGAAGATGCCCGAGGCGCTGGGCTGGCTGTATGTGTCGGAGGGCTCCACCCTCGGCGCGGCGTTCCTGCTGAAGGAAGCGCAACAGCAGCTCGGCCTGGGCGCCACGTTCGGCGCACGCAACCTGGCCGCCTACCCGGACGGGCGCGCGCGGGTGTGGAAGCGCTTCGTCGCCAGCCTCGACAGCGACGCGCTGGCCGACACCGAGCACGACGCGGTGCTGGCCGGCGCCAACGCCGCCTACGACCGCTTCGGCGCGCTGCTGCAGGCCCACTTCGGCCTGCAATGA	MSSTTLSTPLSQRLKHETDTQHQRMHALMERAQPFASRERYAGFVAIQYLFQRDVMYLFDDPRVRAVVDDLDCRGRVEAAHADLHDLGAAVPDAPLATTAVKMPEALGWLYVSEGSTLGAAFLLKEAQQQLGLGATFGARNLAAYPDGRARVWKRFVASLDSDALADTEHDAVLAGANAAYDRFGALLQAHFGLQ	PGPT0003620_10	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_UTILISATION,PGPT0003620-hemO|pigA-K07215	NA	NA
BMS020_03697	2295	hxuC	COG1629	Heme/hemopexin utilization protein C	ATGCGCTTCGCGACCCCCATATCCCCCCTGGCCCTGACCATCGCCCTGGCCCTGGCTTCGCAGGCCCACGCCGCCGACGGCGGCGACGCCACCACGCTGCCGCAGGTCGAGGTCACCGCGATCGGCTCGGCGATCAAGCTCGACACCGCCGGCACCGTGTCGACGATCAGCCGCGAGCAGATCGACAAGTACATGGTGCAGAACATCCGCGACCTGGTGCGCTACGAGCCGGGCGTGTCGGTGATCGGCACCGCCGGCCGCTTCGGCCTGGACAGCTTCAACATCCGCGGCCTGTCCGGCAACCGCACCCGCATCGAGGTCGACGGCGCCTCGCTGCCGGCCTCGTTCGGCGCCAGCGTCGCCGGCAGCAGCTACCGCGCCGGCCGCAACCAGATCGACATGGACAACATCAAGGACGTGGAGATCATCCGCGGCCCGGTGTCGGCGCTGTACGCCTCCGACGCGCTCGGCGGCATGGTCGCGCTGCGCACCAAGGACCCGAGCGACTACCTGCAGCCGGGCAGCCCGTTCGGTGGCATGCTCAAGCAGTCCTACGACAGCAGCGACGACAGCCTCGGCAGCACCGCCACGCTGGCATTCGGCGATGCCCGCGACAGCGTGTTGGTGCAGGCCAACTACCGCCACGGCCACGAGACCGACAACATGGGCGAGGTCGGCGGCAGCGGTTCCAGCCGCACCCGCCCGGATCCGCTCACTTACACGCAGAGTGGCTTCCTGGCCAAGTACGTGCACCTCGCCGACAGTGGCCGCCGCGACCATGTCGGCATCGAGAGCGCGCGCACCGATACCGACAGCAACAGCCTGACCAGCATCACCTCCAGCGCCGGCTACTACCGCTCCCAGGACAGCACCCAGCGCTTCAAGCTCGACCTCGGCCAGTCCTACACCGAGCTCGACAGCGCGCTGGCCGACACCCTGGACTGGACCGGCTATTGGCAGAAGAGCGCGACCCGCACCCATACCCAGACCGAAACCGCCAGCGTCTGGCGCTACTACGACAGCCTGCCGAGCCAGGAGACCGTCTATGGCGGCAAGCTGGTCGCCAGCAAGCACCTCGGCGCAGCCAGCGACGTGACGCAGACGATCAGCTACGGCGTCGAGCTGTCGCGCACCGAAGCGAAGGCCTACGTCGGCGGCTACGGCGTCAACAAGACCACCGGCGCCAGCGGCAGCACCTCGGCCTACCTGCCCGGCAACTACCCACTGCATCTGTACCCGAGCAGCGACAGCGACCGCTACGCGCTGTTCGCGCAGGACGCGATCGGCCTGTTCGATGGCCGCCTGACCATCACCCCGGGCGTGCGCATGGACCGCTACGCATACCGCCCCGACAACGACACCCTGTACTACAGCCAGACCGGCTCGACCCGCAGCAACTACAGCGCCACCGGCGTGTCGCCCAAGCTCGGCGTGCAGTGGAAATTCAACGAGGCGCTGAGCGCGTACTTCAACTATGCCGAAGGCTTCCGCCCGCCGCTGTACAACGAGCTCGACGGCGCCTGGGCCGAGCGCTCCTCGTTCTACAACATCGCCTATGTGCCGAACCCGGACCTGAAGGAAGAGACCAGCCGCGGTGGCGAGATCGGCCTGCGCGGCAGCGGCGCGGCCGGCTGGTTCAACCTCAGCGGCTATTACACCTACTACGACAACTTCATCTGGAACGGCTACCAGCTCGACAGCGCCGACATCCCGGCCTGGGTCACCGCGCTGGCGCCGAACGCGTTCCTGACGATGGCCTACCAGGCGGTCAACGCCGAGCACGCGATCATCAAGGGCATCGAGGCCAGCGGCCGCCTGCAGCTGGGCTGGTTCAACGATGCGCTGGACGGCTGGAGCGTCAACGCCAGCGCCTCGATCGCCAACGGCCGCCTGATCGAGCCGGGCAACAGCGGCTACACCCCGCTCAACACCGTCGACCCGGCCAAGGCGGTGCTGGGCGTGGCCTACGACGCCGAGCGCTGGGGCGCCGAGGTGGTCGGCACCGGCGTGCGCCGCCACAGCCAGCTCAGCCAGACCACGTATTTCCGCCCGCCCGGCTACGGCAAGATCGATGCGTACGCGCACTTCCGCCCGACCGCCAACCTCGAGTTCAACCTCGGCCTGAACAACCTCACCGACCGCAAGTACTGGGACTGGGGCAACCTGCAGGGCGGCAAGCTCGGCAACCTGGTCAGCGGCAACGGCCTCAACGACGCGGTCAGCGCCAGCAGCGCGGTCGATCTGTACACGATGCCCGGCCGCAGCGTCAGCGCCTCGCTGCGCTACACGTTCTGA	MRFATPISPLALTIALALASQAHAADGGDATTLPQVEVTAIGSAIKLDTAGTVSTISREQIDKYMVQNIRDLVRYEPGVSVIGTAGRFGLDSFNIRGLSGNRTRIEVDGASLPASFGASVAGSSYRAGRNQIDMDNIKDVEIIRGPVSALYASDALGGMVALRTKDPSDYLQPGSPFGGMLKQSYDSSDDSLGSTATLAFGDARDSVLVQANYRHGHETDNMGEVGGSGSSRTRPDPLTYTQSGFLAKYVHLADSGRRDHVGIESARTDTDSNSLTSITSSAGYYRSQDSTQRFKLDLGQSYTELDSALADTLDWTGYWQKSATRTHTQTETASVWRYYDSLPSQETVYGGKLVASKHLGAASDVTQTISYGVELSRTEAKAYVGGYGVNKTTGASGSTSAYLPGNYPLHLYPSSDSDRYALFAQDAIGLFDGRLTITPGVRMDRYAYRPDNDTLYYSQTGSTRSNYSATGVSPKLGVQWKFNEALSAYFNYAEGFRPPLYNELDGAWAERSSFYNIAYVPNPDLKEETSRGGEIGLRGSGAAGWFNLSGYYTYYDNFIWNGYQLDSADIPAWVTALAPNAFLTMAYQAVNAEHAIIKGIEASGRLQLGWFNDALDGWSVNASASIANGRLIEPGNSGYTPLNTVDPAKAVLGVAYDAERWGAEVVGTGVRRHSQLSQTTYFRPPGYGKIDAYAHFRPTANLEFNLGLNNLTDRKYWDWGNLQGGKLGNLVSGNGLNDAVSASSAVDLYTMPGRSVSASLRYTF	PGPT0003785_674	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_COMPLEX_RECEPTOR,PGPT0003785-TC_FEV_OM3|tbpA|hemR|lbpA|hpuB|bhuR|hugA|hmbR-K16087	NA	NA
BMS020_03698	825	metF_1	COG0685	5,10-methylenetetrahydrofolate reductase	ATGACCCCGATCAGCCTCGAGTTCTATCCGCCCAAGACCGACGAGCAGCGCGCCCAGCTGGACCGCGCCGCCGACAAGCTCAAGGCCTGGGCGCCGGAGTACGTCTCGTGCACCTTCGGCGCCGGCGGCTCCACCCTCAGCTACACCTCCGAGACGGTGCGCCACCTCAACCAGCACCACGGCTTCGACGCCGCGCCGCATCTGTCGTGCGTCGGCGGCAGCCGCGAGGAGATCCGCGAGCTGCTCAAGCTGTACCGTGCGATCGGCTGCAGGCGCGTCGTCGCGCTGCGCGGCGACCTGCCCTCCGGCATGGGTCATCCCGGCACGCTGCGCTACGCCTCCGACCTGATCGAGCTGATCCGCGCCGAACACGGCGACCACTTCCACATCGAGGTCGGCGCCTATCCGGAAACGCACCCGCAGGCGGCCGACGCGCTCAGCGACCTGAAGTACTTCAAGGCCAAGATCGACGCCGGCGCCGATGCGGCAATCACCCAGTATTTCTACAACGCCGACGCCTATTTCCACTTCGTCGACGCGGTGCGCGCGCTCGGCGTGCAGGTGCCGATCGTGCCGGGGATCATGCCGATCTCCAACTTCAGCCAGCTGCGGCGCTTCTCCGAGCAATGCGGCGCGGAGATCCCGCGCTGGATCGCCAAGAAGATGCAGGCCTACGGCGACGACGCCGAGTCGGTGCGCGCCTTCGGCGCCGACGTGGTCGCCGCGCTGTGCGAGCGCCTGGTCGCCGGCGGCGCGCCGGCGCTGCACTTCTACACGCTCAACCTGGCCAAGCCCACCGCCGCGGTGCTGCAGCGGCTGGCCTGA	MTPISLEFYPPKTDEQRAQLDRAADKLKAWAPEYVSCTFGAGGSTLSYTSETVRHLNQHHGFDAAPHLSCVGGSREEIRELLKLYRAIGCRRVVALRGDLPSGMGHPGTLRYASDLIELIRAEHGDHFHIEVGAYPETHPQAADALSDLKYFKAKIDAGADAAITQYFYNADAYFHFVDAVRALGVQVPIVPGIMPISNFSQLRRFSEQCGAEIPRWIAKKMQAYGDDAESVRAFGADVVAALCERLVAGGAPALHFYTLNLAKPTAAVLQRLA	PGPT0008160_3998	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008160-metF-K00297	NA	NA
BMS020_03699	2514			hypothetical protein	ATGCGCCCGATCACAGGACTGATCGCAGCACTGTTCACCAGCCTCGCCATGGCCGTCGTACCCGCGCATGCGCAGGATGGCGGCGCCGCAGCCGCGCCGGCGGCGACCACGCAGGAACCGGCCAAGCAGCAGCCCGACGCGATCGACATCGCCGGCATCCCCGACCGCGCCGATGCCGACGAGCGCTTCGCCGAGGCGATCCGCCTGCGCAGCATCGCGGTCGGCCCGATCACCGAGCTGCGCGCGCAGCTGGACGCGATCGCGCGCTCGATCGAGCGCAACATCGCCAACCTCAGCACCGACGAACTGCGCACCCTGCCGGTGGTCCGGCTGGAGAGCCTGGCCCGCCACTGGCAGTTCAACGCGCGCCGCTTCGGCCGCTGGCAGGACGACATGCGCCGCGTGGTCGGTCCGTATGCGCAGGACGCCGCCGAGCTGGCGCACCGGCGCAGCCAATGGCAGGCCACGCGCACCGCGCTCGGCGACCAGCTGCCGCCGGCCCTGGCCGGGCGCATCGACAGCGTGGTCGAGCAGCTGCGCCAGGCCGAGGACGCACTCGCCGGCCCGCTCGAACAGCAGATCGCGTTGGGCCGCCAGGCCAATGCGCTGGATGCGCGCATCCAGGCCGGGCAACGCGCGGTGGCGGGCGCGATCGACACCATCGACCGCGGCCTGCTGCGCATCGACGCGCCGCCGCTGTGGGCGGTGCGCCCGACCTGGTCGACCGAGGACGGTGCGCTGTCCACGTTGCGCGACGGGTTCGACATCGAGGCGCGGTTCGCCGGCGAGTACAGCGCCTCTTCCGCCGGCGGCCGGCGCCTGCTGCTGGTGTTCGAGCTGCTGCTGTTGCCGCTGCTGCTGTGGCTGGCGATCCGCAACCGGCGCACCCTGGCCACTGCCGCCGAGGCCGGCGATGCCGCCGCACGGGTGCTGCGCCGGCCGCTGTCGACCTGGCTGCTGCTGTCGATGATGGCCAGCCTCGCGCTGGAGCCGGATGCCCCGCTGATGCTGCAGCAGACGGCGATGCTGCTGGCCCTGGTCCCGGTACTGCGGCTGCTGCCACCAGAGGGCCGGCGCCTGCTCGACTGGTGGCCATATGTCGCCAGCGCGCTGTACCTGCTGCAGCGGCTGGCCTTCCTGTTCCTGGCCAACAGCCTGATGTACCGGCTGTACTGCGTCGGGCTGACCCTGCTGGCACTGGCGGCGACGCTGTGGCTGCTGGCACGCGCGCACCGCCGCGGCCTGCCCCACCGCAGGCTGCACCAGTGGTTGCGGCTGGGTGCATGGGCGGCGGTGGCGCTGTTCCTGCTCTCGCTGGCCTGCAACCTGCTCGGCAACGTCTCGCTCGCGGAGATGCTGACCAGCGGCGTCATCGACAGCGCGTACTTCGGACTGGTGGTGTACGCCGGCGTCAACGTGCTGCTGGCGCTGCTGCAGCTGTTGATGGCGCGCCCCGGGGTGAGCCGGCTGCGCATGGCGCGCGAGCGCGGCGCGCCGCTGGCGCAGATGCTGCAGCGGCTGCTGGTGCTCGCCTCGGCCTGCGCCTGGCTGCTGTATTCGGCCGACCGCTTCCGCATCCTGCGCCCGCTGCAGGCGGCGTTGTCCGGGGTGCTGTCCTACAAGATCACGCTCGGCGAGATCACCATCACCCCCGGGCACATGCTGGTGTTCGTCGTGGCGGTGTTCGTGTCGTTCTGGGCCGCCAAGGCGGTACGGCTGGTGCTGCGCGAGGAGGTGCTGGTCCGCATGCCGCTGCCGCGCGGCGTCGGCAACAGCATCGCCTCGCTGAGCTACTACGCGGTGCTGCTGCTGGGCGTGCTGGTGGCGCTGTCGGCGGCCGGGCTGAAGATCACCCAGCTCGCCTTCGTCGCCGGCGCGCTCGGCGTCGGCATCGGCTTCGGCCTGCAGAACGTGGTCAACAATTTCGTGTCCGGCCTGATCCTGATGTTCGAGCGGCCGATCCAACCCGGCGACGTGATCGAGGTCGACGGCGTGGCCGGCAGCGTGCGCGAGATCGGCATGCGCGCGACCACGATCAAGACCTTCGATGGTGCCGACGTGGTGGTCCCCAACGGCACGCTGCTGTCGGAGAAGCTGACCAACTGGACCCTGTTCGACCGCCACCGGCGCCTGGAGGTCATGCTCGGCGTGGCCTATGGCAGCGACCCGGCGGCGGTGCTGGCGCTGCTCGAGCAGACCGTCAAGAACGCGCCGGACATCGCCGCCGATCCGGCGCCAGTGGTGCTGTTCTCCGGCTTCGGCGCCAGCTCGCTGGATTTCAGCGTGCGCGCCTGGACCTACGACTACGATCGCTGGGTGCAGGTGCGCAGCACGCTGGTGCTGCGCCTGCATGCGGCACTGGCGCAGGCAGGCATCGAGATCCCGTTCCCGCAGCAGGACCTGCACCTGCGCAGCATCGCCCCGGAGGTCGGCGCGGCATTGCGCGGCGCCGGCACCACCGGGTCCGGCGGTGCTGACGGTGCTGCCGACACCGGCGCGCCCGCGCCCGGCTGA	MRPITGLIAALFTSLAMAVVPAHAQDGGAAAAPAATTQEPAKQQPDAIDIAGIPDRADADERFAEAIRLRSIAVGPITELRAQLDAIARSIERNIANLSTDELRTLPVVRLESLARHWQFNARRFGRWQDDMRRVVGPYAQDAAELAHRRSQWQATRTALGDQLPPALAGRIDSVVEQLRQAEDALAGPLEQQIALGRQANALDARIQAGQRAVAGAIDTIDRGLLRIDAPPLWAVRPTWSTEDGALSTLRDGFDIEARFAGEYSASSAGGRRLLLVFELLLLPLLLWLAIRNRRTLATAAEAGDAAARVLRRPLSTWLLLSMMASLALEPDAPLMLQQTAMLLALVPVLRLLPPEGRRLLDWWPYVASALYLLQRLAFLFLANSLMYRLYCVGLTLLALAATLWLLARAHRRGLPHRRLHQWLRLGAWAAVALFLLSLACNLLGNVSLAEMLTSGVIDSAYFGLVVYAGVNVLLALLQLLMARPGVSRLRMARERGAPLAQMLQRLLVLASACAWLLYSADRFRILRPLQAALSGVLSYKITLGEITITPGHMLVFVVAVFVSFWAAKAVRLVLREEVLVRMPLPRGVGNSIASLSYYAVLLLGVLVALSAAGLKITQLAFVAGALGVGIGFGLQNVVNNFVSGLILMFERPIQPGDVIEVDGVAGSVREIGMRATTIKTFDGADVVVPNGTLLSEKLTNWTLFDRHRRLEVMLGVAYGSDPAAVLALLEQTVKNAPDIAADPAPVVLFSGFGASSLDFSVRAWTYDYDRWVQVRSTLVLRLHAALAQAGIEIPFPQQDLHLRSIAPEVGAALRGAGTTGSGGADGAADTGAPAPG	PGPT0013825_835	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013825-mscK|kefA|aefA-K05802	NA	NA
BMS020_03700	747			putative oxidoreductase	ATGAACGACAACATCCGCGACAAGGTGGTGGTCATCACCGGCGCCAGCAGCGGGCTCGGCGAAGCCAGCGCGCGCATGCTCGCCGCGCGGGGCGCCCAGGTGGTGCTCGGCGCGCGCCGGGTCGAGCGCATCGACGCGCTCGCCGCCGACATCCAGGCCGGCGGCGGGCGGGCGCTGGCGCGGGCCACCGACGTCACCGACGCGGCGCAGGTGCAGGCGCTGGTCGACGCAGCGATCGCCCGCTTCGGCACCGTCGACGTGCTCGTCAACAATGCCGGGCTGATGCCGCAGGCGCCGCTCGAGCGCCGCACCATCGCCGACTGGGACCGCACCATCGACGTCAACATCAAGGGCGTGCTGTACGGCATCGCCGCGGTGCTGCCGCACATGCAGGCGCGCAAGGCCGGCCACATCATCACCGTGTCCTCGGTGGCCGGGCACAAGGTGCGCGCCGGCGGTGCGGTGTATTCGGCGACCAAGCACGCGGTGCGGGTGATCTCCGAAGGCCTGCGCCAGGAGGTCAAGCCCTACGGCATCCGCACCACGGTGATCTCGCCCGGCGCGGTGGACACCGAGCTGCCGGCCAGCTCGACCGAGCCGGACGTGCGCGAGGCGATGCAGCGCTTCTACGCCGAGATGGCAATCCCGGCCGATTCCTTCGCCCGCGCACTGGTGTTCGCGATGGAACAGCCGGCCGACGTGGACATCAACGAGATCCTGTTCCGCCCGACCCGGCAGGAGTACTGA	MNDNIRDKVVVITGASSGLGEASARMLAARGAQVVLGARRVERIDALAADIQAGGGRALARATDVTDAAQVQALVDAAIARFGTVDVLVNNAGLMPQAPLERRTIADWDRTIDVNIKGVLYGIAAVLPHMQARKAGHIITVSSVAGHKVRAGGAVYSATKHAVRVISEGLRQEVKPYGIRTTVISPGAVDTELPASSTEPDVREAMQRFYAEMAIPADSFARALVFAMEQPADVDINEILFRPTRQEY	PGPT0021285_348	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021285-ydfG-K16066	NA	NA
BMS020_03701	462			hypothetical protein	ATGAACCTGCTTGCCAGCACCCTGCTGTCGATGGCCGCCGCGACCGGCGCCGACGCCGGCGCGATCACCGTCACTCCCGCCGGCAGCGCCGCTTCGGCGGCCGGCCCCGCCGACTACTTCACCGGTCGCGTGCGCATCGACGCGCCGTTCCAGGGCAGTGCCCCGGCCCGCGTCGGCGGCGCCACCGTCACCTTCGAGCCCGGCGCGCGCACCGCCTGGCACACCCACCCGCTCGGCCAGACCCTGATCGTCACCGCCGGCGTCGGCCTGGTGCAGGAGCTGGGCAAGCCGGCGCGCACGATCCGCCCCGGCGACATCGTCTGGATCCCGCCGCAGGTCAAGCATTGGCACGGCGCCACGGCGACCACCGCCATGACCCACATCGCCATCGCCGAAGCCGTGGACGGTTCGCCGGTGACCTGGATGGAACAGGTCTCCGACGCCGACTACCGCGGCCAGTAA	MNLLASTLLSMAAATGADAGAITVTPAGSAASAAGPADYFTGRVRIDAPFQGSAPARVGGATVTFEPGARTAWHTHPLGQTLIVTAGVGLVQELGKPARTIRPGDIVWIPPQVKHWHGATATTAMTHIAIAEAVDGSPVTWMEQVSDADYRGQ	PGPT0005005_127	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005005-pcaC-K01607	NA	NA
BMS020_03702	984	pgrR_7		HTH-type transcriptional regulator PgrR	GTGGTCATCAATCAGCGATTGCCGCGCCCGCAGCCGGCCCCGATCATGGAGCGGCATGATTCCCATGCCTGCCGGCGCGCCGTGATGCCCCGCGAGAACTTCAACGACCTGCTGGTGTTCGTGACCGTCGCCCGCGAGGGCAGCTTCACCCGCGCGGCGGCGCAGCTGGGCGTGTCGCAATCGGCGCTCAGCCACACCGTGCGCGCGCTGGAGGCGCGGCTCGGCATCCGCCTGCTGACCCGTACCACCCGCAGCGTGTCGATGACCGAGGCTGGCGAGCGGCTGTACGACACGGTGTCGCCGCGCTTCGAGGAGATCGAGTCGGAACTGGCGGCGATCAGCGAGTTCCGCGACCGTCCGGCCGGCACCGTGCGCATCACTACCGCCGGCCACGCCGCCGATGCGTACGTGTGGCCACGGCTGTCCAAGGTGCTGCCGGACTACCCGGACCTGAAGGTCGAGCTGACCCTGGATTACGGCCTGGCCGACATCGTCGCCCAGCGCTACGACATCGGTATCCGGCTGGGCGACCAGGTCGCGCGCGACATGATCGCGGTGCCGATCAGCCCGCGGTTGCGGATGGCGGTGGCCGCCACGCCGGCCTACTTCCAGCGCTACGGCGTGCCGCAGGCACCGGCCGACCTGGCCGCGCACAACTGCATCGGCCTGCGCCTGCCGACCTACGGCGGGTTGCTGCCGTGGGAGTTCGACCGCGACGGCCAGGAGCTGAAGGTGCGCGTGGACGGGCAGTGGACCTTCAATGGCAGCGCGCCGATCCAGCGTGCCGCGCTGGCTGGCGCCGGCCTGGCCTACCTGCCCGAGGACATGCTGCTGCCGTACATCGAGCAAGGCCAGTTGCAGCGGGTGCTCGAGGACTGGTGCGAACCGTTCGAGGGCTATTACGCCTATTACCCGAGCCGGCGGCAGTCCTCCAGCGCGCTGCGCGTGGTGATCGATGCGCTGCGCCACGTGCCGGGCGGTTGA	MVINQRLPRPQPAPIMERHDSHACRRAVMPRENFNDLLVFVTVAREGSFTRAAAQLGVSQSALSHTVRALEARLGIRLLTRTTRSVSMTEAGERLYDTVSPRFEEIESELAAISEFRDRPAGTVRITTAGHAADAYVWPRLSKVLPDYPDLKVELTLDYGLADIVAQRYDIGIRLGDQVARDMIAVPISPRLRMAVAATPAYFQRYGVPQAPADLAAHNCIGLRLPTYGGLLPWEFDRDGQELKVRVDGQWTFNGSAPIQRAALAGAGLAYLPEDMLLPYIEQGQLQRVLEDWCEPFEGYYAYYPSRRQSSSALRVVIDALRHVPGG				NA	NA	NA	NA	NA
BMS020_03703	1056	adhC2_2	COG1064	NADP-dependent alcohol dehydrogenase C 2	ATGCAGACCTTCGGCTATGCCGCTTTCGATCCCGCCAGCCCGCTGGCCCCGTATGCATTCGAGCGGCGCGCACTGCGCGGCAACGATGTCGCGATGGAGGTGCTGTACTGCGGCGTCTGCCATTCGGACCTGCACACCGCGCGCAACGACTGGGGCTGGAGTTACTACCCGATCGTGCCCGGGCACGAGATCGTCGGCCGCGTGATCGAGGTCGGCCCTGACGTGACCGCCTATCAGGTGGGCGACCATGTCGCGGTCGGCTGCATGGTCGACAGCTGCCAGGCCTGCGACCAGTGCCACGCCGGCGAAGAGCAGCTGTGCCGCGAAGGCATGACCGGCACCTATGCCGGCGCCGATCGCATCACCGGCGAACACACCCATGGCGGCTATTCCAAGCACCTGGTGGTGCGCGAGGAGTTCTGCCTGCGCGTGCCCGACGGACTGGACCTGGCCAAGGCGGCGCCGCTGCTGTGCGCGGGCATCACCACCTACTCGCCGCTGCGCACCTGGGGCGTCGGCCCGGGCAGCCGCGTCGGCGTGATCGGCCTGGGCGGGCTCGGCCACATGGCGGTCAAGCTGGCGGTCGGGCTCGGCGCCGACGTCACCGTGATGAGCCGCACGCCGGACAAGCAGGCCGATGCGCTGGCGCTGGGCGCCGACCGGCTGCTGGTGTCGAGCGACGTCGATGCGATGAGCGAGGCCGAATCCAGCTTCGACCTGATCATCGACACCGTGCCGGTCAAGCACGCGCTGGATCCGTATCTGCCGCTGCTCGATGTCGATGGCACCCTGGTGATCGTCGGCCAGGTCGGGCCGATGGACGAGATGAGCAGCGTGCCGCTGCTGCTCGGCCGCCGCCGCATCGCCGGCTCGCCGATCGGCGGCATCGCCGAAACACAGGAGCTGCTCGATTTCTGCGCCAAGAAGAACATCCTGCCGGACTGCGAAATGATCCGCATGGATGAAATCAACGAGGCCTACGCGCGCATGGAGAAGTCCGACGTGCGCTACCGCTTCGTCATCGACATGGCCTCGCTGCAACCGGCAGCGGCCTGA	MQTFGYAAFDPASPLAPYAFERRALRGNDVAMEVLYCGVCHSDLHTARNDWGWSYYPIVPGHEIVGRVIEVGPDVTAYQVGDHVAVGCMVDSCQACDQCHAGEEQLCREGMTGTYAGADRITGEHTHGGYSKHLVVREEFCLRVPDGLDLAKAAPLLCAGITTYSPLRTWGVGPGSRVGVIGLGGLGHMAVKLAVGLGADVTVMSRTPDKQADALALGADRLLVSSDVDAMSEAESSFDLIIDTVPVKHALDPYLPLLDVDGTLVIVGQVGPMDEMSSVPLLLGRRRIAGSPIGGIAETQELLDFCAKKNILPDCEMIRMDEINEAYARMEKSDVRYRFVIDMASLQPAAA	PGPT0024430_636	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0024430-yahK-K13979	NA	NA
BMS020_03704	984	iolS_2	COG0667	Aldo-keto reductase IolS	ATGTATACCCGCACGCTCGGCAACAGTGGTCTTGAAGTCTCGGCGATCGGCCTGGGCTGCATGGGCCTGAGCTATGGCTATGGTCCGGCGGTCGACAAGGCCGACGGCATCGCGCTGATCCGCGCCGCGTTCGAGCGCGGCGTGACCTTCTTCGACACCGCCGAAGCCTATGGCCCGTTCGCCAACGAGGAACTGCTCGGCGAGGCGCTGGCACCGTTCCGCGAGCAGGTGGTGATCGCCACCAAGTTCGGCTTCCCCGGTGGTGAGGTCAGCAAGGGCGTGGACAGCCGCCCGGAGACCATCCGCGCGGTTGCCGAGGCCTCGCTCAAGCGCCTGCGCACCGACCGCATCGACCTGTTCTACCAGCACCGGGTGGACCCGAACGTGCCGATCGAGGATGTCGCCGGCACCGTCAAGGCGCTGATCGCCGAGGGCAAGGTCAAGCACTTCGGCATGTCCGAGGCCGGCGCCGAATCGATCCGCTGCGCGCATGCAGTGCAGCCGGTGGCGGCGCTGCAGAGCGAGTACTCGCTGTGGTGGCGCGAGCCGGAGCAGGAGATCCTGCCGCTGCTGCAGGAACTCGGCATCGGCTTCGTGCCGTTCAGTCCGCTCGGCAAGGGCTTCCTGACTGGCGCGATCGACGCCAGTACCACCTTCGACAAGAGCGATTTCCGCAACGTCGTGCCGCGCTTCTCCGAACAGAATCGGGCCGCCAACGCGGCGCTGGTCCAGGTGCTGGGGGCCATCGCCGCCGGCAAGGGCGCGACCCGCGCGCAGATCGCCATCGCCTGGCTGCTGGCGCAGCAGCCTTGGATCGCGCCGATCCCCGGCACCACCAAGCTGCATCGGCTGGAGGAGAACATCGGTGCCGCCGAGGTGGTGCTCGATGCCGGCGACCTGGCGACCATTGCCGATGCGCTGGCACGCATCACCATCGTCGGCGAGCGCTATCCGGCGCACCTGCAGCAGCGCGTCGGCCGCTGA	MYTRTLGNSGLEVSAIGLGCMGLSYGYGPAVDKADGIALIRAAFERGVTFFDTAEAYGPFANEELLGEALAPFREQVVIATKFGFPGGEVSKGVDSRPETIRAVAEASLKRLRTDRIDLFYQHRVDPNVPIEDVAGTVKALIAEGKVKHFGMSEAGAESIRCAHAVQPVAALQSEYSLWWREPEQEILPLLQELGIGFVPFSPLGKGFLTGAIDASTTFDKSDFRNVVPRFSEQNRAANAALVQVLGAIAAGKGATRAQIAIAWLLAQQPWIAPIPGTTKLHRLEENIGAAEVVLDAGDLATIADALARITIVGERYPAHLQQRVGR	PGPT0009140_363	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009140-ydbC-K05275	NA	NA
BMS020_03705	993	ppsC		Phthiocerol synthesis polyketide synthase type I PpsC	ATGTCCGAGCCGATGATGACCGCGATCGCCATTGCCGATGGCAAGGGGCCGGCCGAGGCGCTGCACGCGGTGCAGGTGCCCAGGCCGCGGCCGCAGCCGGGGCAGATCGTGGTGCGCGTGCATGCCGCCGGGGTGAACCGCCCGGACCTGCTGCAGCGGGCCGGGCATTACCCGCCGCCGCCGGGCGCGCCGGACACACTGGGGCTGGAGATCGCCGGCGAGGTGGTCGAGGCCGCCGGGCGCTGGCAGGTCGGCGACCGCGTCTGCGCGCTGCTCGGCGGCGGTGGCTACGCTGAGTACGCGGTGGTCGATGCGCGCCACGCGCTGCCGATTCCCGACGGCCTGGACTACGCGCAGGCCGCGGCGCTGCCGGAGACGGTGTTCACCGTCTACGCCAACGTGTTCGAACACGGCCGGCTTGCCGCCGGCGAGTGGCTGCTGCTGCACGGCGCGACCTCAGGCATCGGCGTCACCGCGATCCAGATGGCCAAGGCCGCCGGCGCGCATGTGCTGGCGACCGCGCGCTCGGCCGCGAAAGCCACGCAGGCACGTGCGCTCGGTGCCGATGTCGCGGTCGATTCCAGCAGCGCCTCGTTCGTCGAAGCAGCCAAGGCGCATGGCGGCGTCGATGTGGCGCTGGACATGGTCGGCGCCTCGGTGTTCGCCGATACGCTGGAGGCGCTCAATCCGCGCGGGCGCATCGTCTACATCGCCGCGCAGGGCGGCAACACGTTGCAGGTGCCGGTGATGCAGCTGATGCGCAAGCAGGCGGTGCTGACCGGTTCGACCCTGCGGCCGCGCGATGCCGACGAGAAGGCGCGGTTGGCACAGGAGGTCGAGCGCGTGGTGTGGCCGTGGATCGCCCAGGGCCGGCTCAAGGTGCAGCTCGACCGCCGCTTCGCGCTGGCCGATGCGGCGCAGGCGCATGCCTGGCTGGAGCAGGGCAGCCACCTCGGCAAGGTGGTGCTGGAGACCGCCGCCGCGCAGGCCTGA	MSEPMMTAIAIADGKGPAEALHAVQVPRPRPQPGQIVVRVHAAGVNRPDLLQRAGHYPPPPGAPDTLGLEIAGEVVEAAGRWQVGDRVCALLGGGGYAEYAVVDARHALPIPDGLDYAQAAALPETVFTVYANVFEHGRLAAGEWLLLHGATSGIGVTAIQMAKAAGAHVLATARSAAKATQARALGADVAVDSSSASFVEAAKAHGGVDVALDMVGASVFADTLEALNPRGRIVYIAAQGGNTLQVPVMQLMRKQAVLTGSTLRPRDADEKARLAQEVERVVWPWIAQGRLKVQLDRRFALADAAQAHAWLEQGSHLGKVVLETAAAQA	PGPT0013255_6299	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
BMS020_03706	921	syrM1_1		HTH-type transcriptional regulator SyrM 1	ATGACCGATCCCGCCTCGCTCGACCTCAACCTGCTCAAGGCGCTGGACGCGCTGCTCGACGAACGCCACGTCACCCGCGCGGCGGCACGCCTCGGCGTCACCCAGCCGGCGATGAGCGGCATGCTGACGCGGCTGCGCGAGGCCTTCGGCGATCCGCTGTTCGTGCGTGGCCAGCGCGGCATCGTGCCGACCGGGCGTGCGCTGGAACTGCAGCCGCAGGTGCGCCAGGTGATGGGCGGCGTCGCCGCGTTGCTGCAGCCGCCGGCGTTCGATCCGGCCGAGGCGCGGCTGACCTTCACCCTGGCCGCGACCGACTATGCGCTGCGCGCGGTGGCGGTGCCGTTCCTGGCGGCGCTGGCGCGGCGCGCGCCGCAGCTGCGCACCGCGCTGGTGGCGGTCGACCACGCGTTGGTGGAGCGCCAGCTCGAACGCGGCGAAGTCGACCTGGCACTGTTGACGCCGGAGAGCACGCCGCCGGACCTGCATGCGCGGCGCCTGTTCGACGAGCACTACGTGTGCGTGATGCGCGCCGATCATCCGGCCGCGCGCAGCCGCCGGCTTGGGTTGAAGCAGTTCTGCGCGCTCGAGCATGCGCTGGTGTCGTATGCCGGCAGCCGCTTCCGCGGCGTCACCGATGCGGCGCTGGAAGCGTTGGGCCGGCAGCGCCGGGTGGCGCTGTCGGTGGAGAGCTTCCTGGTGCTGCCGGACCTGCTGCGCGCCAGCGACCTGGTGGCGACGGTGCCGAGCCGGCTGGTCGCCGGCTTGCCCGGGCTGGTCACGCTGGCACCGCCGCTGCCGGTGCCCGGTTTCACCAAGACCATGGCCTGGCATGCGCGCACCCACCGCGACCCGGCGCAGCGCTGGCTGCGCGCCTTGCTGGTGGAAACCTGCGGCGACGCGCGGGCACGCGGCGAGGCGTGA	MTDPASLDLNLLKALDALLDERHVTRAAARLGVTQPAMSGMLTRLREAFGDPLFVRGQRGIVPTGRALELQPQVRQVMGGVAALLQPPAFDPAEARLTFTLAATDYALRAVAVPFLAALARRAPQLRTALVAVDHALVERQLERGEVDLALLTPESTPPDLHARRLFDEHYVCVMRADHPAARSRRLGLKQFCALEHALVSYAGSRFRGVTDAALEALGRQRRVALSVESFLVLPDLLRASDLVATVPSRLVAGLPGLVTLAPPLPVPGFTKTMAWHARTHRDPAQRWLRALLVETCGDARARGEA				NA	NA	NA	NA	NA
BMS020_03707	1122	namA_3	COG1902	NADPH dehydrogenase	ATGTCTGCCCTGTTCCAACCGTTCACGCTCAAGGGCGTGACCCTGCGCAACCGCATCGCGGTGCCGCCGATGTGCCAGTACAGCGCCGTCGACGGCGTGCCCAACGCCTGGCACCAGGTGCACTACCCGGCCATCGCCCGCGGCGGCGCCGGCCTGCTGGTGGTGGAAGCCACCGCGGTCTCGGCCGATGGCCGCATCACCCCGGGTTGCACCGGGCTGTGGAACGACGCGCAGGCCGACGCCTTCGCCGGCATCGCCGCCGGGATCAAGGCCGCCGGCGCGGTGCCCGGCATCCAGATCGGCCATGCCGGCCGCAAGGCCAGCGCCAACCTGCCGTGGCAGGGCGACGACCACATCGCCGAGGGCGACCCACGCGGCTGGCAGACCATCGCGCCGTCGGCGCTCGCCTTCGGCGGCGGCCTGCCCAAGGTGCCGAAGGCGATGACGCTGGAGGACATCCAGCGCGTGCAGGCCGATTTCGCCGCCGCGGCCAGGCGCGCGCGCGATGCCGGCTTCGAGTGGCTGGAGCTGCACTTCGCCCATGGGTATCTGGCGCAGAGCTTCTTCTCCGCCTACAGCAACCAGCGCGAAGACCAGTACGGCGGCAGCGTCGACAACCGTGGCCGCTTCCTGCTGGAGACCGTGGCCGCGGTGCGCGAGGTGTGGCCCGAGCACCTGCCGCTGACCGCGCGCTTCGGCGTGATCGAGTACGACGGTCGCGATGAGCAAACCCTGGCCGAATCGATCGCGCTGGTGCAGCAGATGCGTGCGCGCGGTCTGGACCTGCTCAACGTCAGCATGAATTTCGTGATCCCCGACGTGCAGGTGCCGTGGGGCAGCGAGGCGTTCCTGGCGCCGGTGTCGGCGCGGGTGCGCCGCGAGGCCGGGCTGCCGGTCGCGGTGGGCTGGTGCGTGGATGGCGCCAGCGTCGCCGAACGCATCGTCGCCGGGCAGCAGGCCGACCTGGTGATGATCGGCCGCGCGCACCTGGCCAATCCGCACTACCCGTACCAGCTGGCGCAGGAACTGGGCGTCGACACCCCCGCCTGGGCGACGCTGCCGGCGCCGTACGCGCACTGGCTGGCACGCTACCGCGGCCCGGGCCAGGCTTCGGCGCAGTAA	MSALFQPFTLKGVTLRNRIAVPPMCQYSAVDGVPNAWHQVHYPAIARGGAGLLVVEATAVSADGRITPGCTGLWNDAQADAFAGIAAGIKAAGAVPGIQIGHAGRKASANLPWQGDDHIAEGDPRGWQTIAPSALAFGGGLPKVPKAMTLEDIQRVQADFAAAARRARDAGFEWLELHFAHGYLAQSFFSAYSNQREDQYGGSVDNRGRFLLETVAAVREVWPEHLPLTARFGVIEYDGRDEQTLAESIALVQQMRARGLDLLNVSMNFVIPDVQVPWGSEAFLAPVSARVRREAGLPVAVGWCVDGASVAERIVAGQQADLVMIGRAHLANPHYPYQLAQELGVDTPAWATLPAPYAHWLARYRGPGQASAQ	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
BMS020_03708	702	hchA		Protein/nucleic acid deglycase HchA	ATGCGCCTGCCGATCAAGATCCTGATGGTCCTCACCTCGCATGCCAGCATGGGCCAGCCGCCGCAGCCGACCGGCGTGTGGTTCGAGGAACTGACCACGCCGTACTACGCCTTCGTCGATGCCGGCGCGGAGGTGGACCTGGCGTCCATCGCCGGCGGCAGGATCCCGGTCGATCCGCACTCGCTGCAGGGCGCCGACCAGCAGCTGCCCAGCGTGCAGCGCTTCCTGCACGACCCGGTCGCGATGGCCAAACTGGAAGGCTCGATCACGCTCGAAGCCGTGCACGAGGACGGCTACGCGGCGGTGTTCCTGCCCGGTGGCCACGGCACCATGTGGGACCTGCCGGCCAGCACCCGCCTGGCCGACCTGCTGAGCAAGGCCTGGGCCGACGGCAAGGTGGTCGCGGCGGTCTGCCACGGCCCGGCCGGGCTGCTCAACGCCCGCGACGTCAACGGCCAGCCGCTGCTTGCCGGGCGCCGCGTCGCCGCCTTCAGCAATGCCGAGGAAGTGGCCGCCGGCCTCGACAAGACCGTGCCGTTCGCGCTGGAAACCCGCATCCGCGCACTCGGCGCCGATTACCAGCACGGCCCGGCGTTCCAGCCGTTCGCGCTGCGCGACGGCAACCTGGTCAGCGGGCAGAACCCGATGTCCTCGGCCGAGGTCGCCAGGCTGGTGCTGGAGGCGGTGCGCGACGCGCGCTGA	MRLPIKILMVLTSHASMGQPPQPTGVWFEELTTPYYAFVDAGAEVDLASIAGGRIPVDPHSLQGADQQLPSVQRFLHDPVAMAKLEGSITLEAVHEDGYAAVFLPGGHGTMWDLPASTRLADLLSKAWADGKVVAAVCHGPAGLLNARDVNGQPLLAGRRVAAFSNAEEVAAGLDKTVPFALETRIRALGADYQHGPAFQPFALRDGNLVSGQNPMSSAEVARLVLEAVRDAR				NA	NA	NA	NA	NA
BMS020_03709	573			hypothetical protein	ATGGCCGGCACCCGCGGCAGCGTGCCGCCCCGTGACGAGCGCAACCCCATGCAGATGAACGCCATCCTCTGGCCCGAAGGCTACCTGCCGGGCACCACCGAGAACTTCGCCTCCAACGAAGTCATCGTCGCCGACCTCAGCGCACGCCAGGTGTGGCCGCTGCTGGCGATGCCGGCACGCTGGCCGGGCTACTACGCCAATTCCGCCAACGTGCGCCTGCCGGGCGATGACAGCACCATGCTCGCCGAGGGCATGCGCTTCTACTTCGAAACCTTCGGCTTCCCGGTCGATGCGCAGGTCACCGAATACGTCGCGCCGGTCGACGGCCAACCCGGGCGGGTGGCCTGGCACGGCTGGGCCGGCGAGGAAGGCAGCGATGCGCGCCTGGACGTGATCCACGCCTGGCTGGTCGAAGACCTCGACGGCGGTCGCGTGCGCGTGCTGACCCAGGAAGTGCAGAAGGGCAAGCCGGCGCAGGCACTGCACGAGGCGCGACCGAACCCGATGATCAACGGCCACCAGGACTGGCTGGACGGCCTGGTCACCGCCGCGCGTGCCGCCAGCGCCGCGTAA	MAGTRGSVPPRDERNPMQMNAILWPEGYLPGTTENFASNEVIVADLSARQVWPLLAMPARWPGYYANSANVRLPGDDSTMLAEGMRFYFETFGFPVDAQVTEYVAPVDGQPGRVAWHGWAGEEGSDARLDVIHAWLVEDLDGGRVRVLTQEVQKGKPAQALHEARPNPMINGHQDWLDGLVTAARAASAA				NA	NA	NA	NA	NA
BMS020_03710	501			hypothetical protein	ATGGCCCTGCCCTACCCCCGCGCCTTCTCCCACATCGGCCTGTCGGTCACCGATCTCGACGCCGCGGTGACGTTCTATACCGAGGTGATGGGCTGGTACCTGATCATGCCGCCGACCACGATCGAGGAAGACGACAGCGCCATCGGGGTGATGTGCAGCGACGTGTTCGGCCCTGGCTGGTCGTCGTTCCGCATCGCCCACCTGTCCACCGGCGACCGCATCGGCGTGGAGATCTTCCAGTTCAAGAACGCGCAGCGCCGCGAGGACAACTTCGAGTACTGGAAAAGCGGCGTGTTCCACTTCTGCGTGCAGGACCCGGACGTGGAAGGCCTGGCGGCGAAGATCGTCGCCGCCGGCGGCCGCCAGCGCATGCCGGTGCGCGAGTATTTCCCCGGCGAGAAGCCCTACCGCATGGTCTACATGGAAGACCCGTTCGGCAACATCCTGGAGATCTACAGCCACAGCTACGAGCTGACCTATTCGGCCGGCGCGTATGGCTAA	MALPYPRAFSHIGLSVTDLDAAVTFYTEVMGWYLIMPPTTIEEDDSAIGVMCSDVFGPGWSSFRIAHLSTGDRIGVEIFQFKNAQRREDNFEYWKSGVFHFCVQDPDVEGLAAKIVAAGGRQRMPVREYFPGEKPYRMVYMEDPFGNILEIYSHSYELTYSAGAYG				NA	NA	NA	NA	NA
BMS020_03711	885	cmpR_4		HTH-type transcriptional activator CmpR	ATGTTGAATCCGCAGTGGCTGCGCTCCTTCGTCGAGGTGGTGCGGTTGGGCAGCTTCACCCGCGCCGCCGACCACCTGGACCTGACCCAGGCCGCGGTCAGCCAGCACCTGCGCCAGCTCGAAACCCGGCTGGGGCCGCTGCTGATCCGGCGTGGGCGCGGGCTGGAATGCACCCCGGCCGGCGCGGCGGTGCTGGCCTATGCGCGCGAGCTGGAGCAGGCCACGCGGCGGCTCGACCTGCGCCTGGCCAGCGATGCCGACGATGCCGGCGAGGTCGGCCTGATCAGTCCCGGCAGCGTCGGCCTGGCCTTGTACCCGGCCTTGCTGGAACTGCAGCGCCAGCACCCGGGGCTGGTGCTGCGGCACCGCTTCGCGCCCGATCCGGAGGTGCTCGACGCGGTACTGCACAACCGCTACGAACTCGGCATCGTCACCGCACGCCCGGACGATCCGCGGCTGGCGGCGGAAGCCTTCGCCGAGGAGCCACTGGAATTGGTGGTCCCGGCCGGGCGCGCGGCCGCGCGCTGGGACGACCTGTGCGCGCTAGGCTTCATCGACCATCCGGACGGCCAGGCGATGGCGATGCGGTTGCTGAGCCGGCGCTTCCCCGGCCAGGCGCGGCTGCGTGAGGTGCCGGTGCACGGGTTCACCAACCAGATCGCGCTGATCCTGGAGCCGGTCGCGCGCGGGCTGGGCTTCACCGTGCTGCCGCGGTATGCGCGGCAGGCGTTCGCGCGCCAGCAGGCGGTCGAGGTGGTCGCCGGCGGGCCGGCGGTGGTCGATACGTTGTGGTTGATCCATCGCGCCGAATGGCCGCTGTCGGCGCGTGCGCGGCGTGTCGCGGCGCTGGCTGCCAGCGTGCTGCGTGCCGATGCCGCGCGCTGA	MLNPQWLRSFVEVVRLGSFTRAADHLDLTQAAVSQHLRQLETRLGPLLIRRGRGLECTPAGAAVLAYARELEQATRRLDLRLASDADDAGEVGLISPGSVGLALYPALLELQRQHPGLVLRHRFAPDPEVLDAVLHNRYELGIVTARPDDPRLAAEAFAEEPLELVVPAGRAAARWDDLCALGFIDHPDGQAMAMRLLSRRFPGQARLREVPVHGFTNQIALILEPVARGLGFTVLPRYARQAFARQQAVEVVAGGPAVVDTLWLIHRAEWPLSARARRVAALAASVLRADAAR				NA	NA	NA	NA	NA
BMS020_03712	921			hypothetical protein	ATGACGACCCAGGCCTTCCATTCGATCGGTACGCCCGGCCAGCCGTGGGGCGCGGCCGAACGCGCGCAGTGGCTAGCCACGCAGCAGCGCCGGCGCAGCTACCACGACGAGGTGCTGGCGCAGGTCGAGGCCTTGCGCGGGCGCTTGGACGTGGTCGAATACGGCGCGTTGGACTACGCCGGCGAGCAGTTCCCGCTGCTGGCGCTGCGCAGCCATGGGTGGGACGCGGCGTTGCCGGTGATGCTGGTGACCGGCGGCGTGCACGGCTACGAGACCAGCGGCGTGCAGGGCGCGCTGCAGTTCGCGCGCGAGCATGCGCAGGCCTATGCCGGCCGCGCCAACCTGCTGATCGCGCCGTGCGTGAGCCCGTGGGCGTACGAGCGCATCCAGCGCTGGAACGCCGATGCGATCGATCCCAACCGCGCGTTCCGCGCCGACAGCCCAGCGGCGGAATCGGCCGCGCTGCTGGCGCTGGTGGCGCCGCTGCGCGGGCAGGTGCTGATGCACATCGACCTGCACGAAACCACCGACAGTGACGAGAGCGAGTTCCGCCCGGCGCTGGCCGCGCGCGACGGCAAGCCGTTCGAGCCCGGCACCATTCCCGATGGCTTCTACCTGGTCGACGACAGCGCCAACCCGCAGCCGGCGTTCCAGCAGGCGGTGATCGTCGCGGTGGCGCAGGTCACCCATATCGCGCCGGCCGATCCGGACGGCACGCTGATCGGCTCGCCGCAGGTGGCGCCAGGGGTGATCGAGTACCCGCTGGTCGAGCTCGGCCTGTGCGCCGGCATCAGCGGCGCGCGTTACACCACCACCACCGAGGTCTACCCGGACAGCCCGCGGGCGACGCCGCAGCAGTGCAACGACGCGCAGGTGGCGGCGATCGTCGCGGCGATCGACTTCGCGCTGGCGGCACGATGA	MTTQAFHSIGTPGQPWGAAERAQWLATQQRRRSYHDEVLAQVEALRGRLDVVEYGALDYAGEQFPLLALRSHGWDAALPVMLVTGGVHGYETSGVQGALQFAREHAQAYAGRANLLIAPCVSPWAYERIQRWNADAIDPNRAFRADSPAAESAALLALVAPLRGQVLMHIDLHETTDSDESEFRPALAARDGKPFEPGTIPDGFYLVDDSANPQPAFQQAVIVAVAQVTHIAPADPDGTLIGSPQVAPGVIEYPLVELGLCAGISGARYTTTTEVYPDSPRATPQQCNDAQVAAIVAAIDFALAAR				NA	NA	NA	NA	NA
BMS020_03713	558			hypothetical protein	ATGTCGATCGAACTGACCGCGTTCGCGCGCACCCGGCTGTTCCCGCGCGATCGCCGCATCACCGCGATCCAGGACTGCAGCGCCGAGGAGTTCGAGGCACGCCTGAACGCCGAGGCGCCGCTGCGCGTGCTCGACGGCTACGCGCCGTTCTGCAAGCTGCATGTGCACCGCAACTGGACCTCGACGCGCTGCTCGGTGATCGCGCTCGATGAGGGCAACCGCGGCCAGCTGCGCAGCGCCTACGAGGCGCGCAGTCGCGAGGAACTGCCGGTGCTGGTGCGCTGGTTCGAGGGCATCGAGGCGCCACGCGCCGAGTACCTGGTGCCGATCCTCTACAGCCGCGCGCAGATGGCCAGGGAAGGCAGCCCGATCCAGGCCGACTGGGGCGTGGTCGGTTGCCTGTACACGCTGGCGCCGGAGGAGATCCCGATGGCGCCGATCACGATGATGCGCAACGCGCTCGGCGTGGAGGAGGGCGGCTCCGGCGTGCCGCTGGACCGCGAGGCCTACCGCCGCAGCGTGGCGTTCTGGGACGCGCACGCCAACTGGCGGCCGTGA	MSIELTAFARTRLFPRDRRITAIQDCSAEEFEARLNAEAPLRVLDGYAPFCKLHVHRNWTSTRCSVIALDEGNRGQLRSAYEARSREELPVLVRWFEGIEAPRAEYLVPILYSRAQMAREGSPIQADWGVVGCLYTLAPEEIPMAPITMMRNALGVEEGGSGVPLDREAYRRSVAFWDAHANWRP				NA	NA	NA	NA	NA
BMS020_03714	723	arsH	COG0431	NADPH-dependent FMN reductase ArsH	GTGTCTGATCCGCGCGACACGCTGCCGCAGCTGGACCCGGCCAGCTTCCACGCGCCCGACCTGCAGGCGCTGTTCGCGCCGCCGCGGGCGACGCATGCGCCGCGCTTCCTGCTGCTGTACGGCTCGCTGCGCGAACGCTCCTTCAGCCGCCTGGCGGTAGAGGAGGCCGGGCGCGTCCTGCGCGCGCTCGGCGGCGAAACACGCATGTTCAATCCTTCCGGACTGCCGCTGGTGGATGATGCCGGCAGCGACCATCCCAAGGTCGCCGAGCTGCATGCGCTGGTGCAATGGGCCGAGGGCATGGTGTGGAGTTCGCCCGAGCGCCATGGCGCGATGACCGGGCTGATGAAGACCCAGATCGACTGGATCCCGCTGTCGGTGGGCGCGGTGCGCCCGACCCAGGGCAAGACGCTGGCGGTGATGCAGGTCAGCGGCGGCTCGCAGTCGTTCAACGCGGTCAACCAGATGCGCGTGCTCGGGCGCTGGATGCGGATGCTGACCATCCCCAACCAGTCCTCGATCGCCAAGGCCTACCAGGAGTTCGACGCCGCCGGCCGCATGCAGCCCTCGCCCTATTACGACCGCGTGGTGGACGTGATGGAGGAGCTGATGAAGTTCACCCTGCTCACCCGCGATGCCGCGCCGTACCTGGTGGACCGCTACAGCGAACGCCGTGAGGCGGCGCAGGCATTGGCGCAGCGCGTGCGCCAGGACGCGCTGTGA	MSDPRDTLPQLDPASFHAPDLQALFAPPRATHAPRFLLLYGSLRERSFSRLAVEEAGRVLRALGGETRMFNPSGLPLVDDAGSDHPKVAELHALVQWAEGMVWSSPERHGAMTGLMKTQIDWIPLSVGAVRPTQGKTLAVMQVSGGSQSFNAVNQMRVLGRWMRMLTIPNQSSIAKAYQEFDAAGRMQPSPYYDRVVDVMEELMKFTLLTRDAAPYLVDRYSERREAAQALAQRVRQDAL	PGPT0004730_464	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004730-arsH-K11811	NA	NA
BMS020_03715	423	arsC_3		Arsenate reductase	ATGAGCGCCATCACCATCTACCACAACCCCGACTGCGGCACCTCGCGCAACGTGCTCGGCCTGATCCGCAACAGCGGCGAGGAACCGACCGTGATCGAATACCTGAAGACGCCGCCGGACCGCGCCACGCTCACCGCGCTGATCGCGGCGATGGGTACCCCCGTGCGCGCACTGCTGCGCGAGAAGGGCACGCCCTACGCCGAACTGGGCCTGGACGATCCGGCGCTGGACGACGCCCGGCTGATCGATGCGATGCTCGCGCATCCGATCCTGATCAACCGCCCGATCGTGGTCACGCCGCTGGGCACGCGCCTGTGCCGGCCGTCAGAAGCGGTGCTCGCGCTGCTGCCGCACGCCCAGCGCGGCGCGTTCGCCAAGGAAGACGGCCAGGCCGTGGTGGACGCGGACGGTCGCCGTGTCTGA	MSAITIYHNPDCGTSRNVLGLIRNSGEEPTVIEYLKTPPDRATLTALIAAMGTPVRALLREKGTPYAELGLDDPALDDARLIDAMLAHPILINRPIVVTPLGTRLCRPSEAVLALLPHAQRGAFAKEDGQAVVDADGRRV	PGPT0004720_759	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004720-arsC1-K00537	NA	NA
BMS020_03716	1032	acr3	COG0798	Arsenical-resistance protein Acr3	ATGAACGGCTTCGAGCGCTACCTCAGCCTCTGGGTGGCGCTGTGCATCGTCGCCGGCATCGCCCTAGGCCAACTTGCGCCTTCGCTGTTCCAGGCCGTCGGCCGCATGCAGATCGCCCAGGTCAACCTGCCGGTCGGTGCGCTGATCTGGGTGATGATCGTGCCGATGCTGTTGAAGGTGGACTTCGCCGCACTCGGCCAGGTGCGCCAGCACTGGCGCGGGATCGGCGTCACGCTGTTCGTGAACTGGGCGGTGAAGCCGTTTTCGATGGCGCTGCTGGCGTGGCTGTTCGTGCGCCACCTCTTCGCCGCATGGCTGCCGGCCGCGCAGCTGGACAGCTACGTCGCCGGCCTGATCCTGCTGGCGGCGGCACCATGCACCGCGATGGTGTTCGTGTGGAGCAGGCTGACCGGTGGCGACCCGGCGTTCACCCTGTCGCAGGTGGCGCTCAACGACACCATCATGGTGTTCGCGTTCGCGCCGATCGTCGGGCTGCTGCTGGGCCTGTCCGCGATCAGCGTGCCGTGGGCGACGCTGCTGGTGTCGGTGCTGCTGTACATCGTGCTCCCGGTGGTGCTGGCCCAGCTGTGGCGGCGCGCGCTGCTGCGCCGCAGCCAGGCCACGTTCGAACGCACGCTGGCGCGGCTTGGCCCGCTGTCGATCGCCGCGCTGCTGCTGACCCTGGTGCTGCTGTTCGCGTTCCAGGGCGAGGCGATCCTGCGCCAACCGCTGGTGATCGCGCTGCTGGCGGTGCCGATCCTGATCCAGGTGTTCTTCAACGCCGGACTTGCGTACTGGCTCAATCGCCGCTGCGGCGAGCAGCACGCCATCGCCTGCCCCTCGGCGCTGATCGGCGCGAGCAACTTCTTCGAACTGGCGGTGGCCGCGGCGATCAGCTTGTTCGGCTTCGACTCCGGCGCGGCGCTGGCCACCGTGGTCGGCGTGCTGATCGAAGTGCCAGTGATGCTGCTGGTCGTGCGCGTGGTCAATCGCACCCGCGGCTGGTACCAACGCCACCCTGCCAACGCCTGA	MNGFERYLSLWVALCIVAGIALGQLAPSLFQAVGRMQIAQVNLPVGALIWVMIVPMLLKVDFAALGQVRQHWRGIGVTLFVNWAVKPFSMALLAWLFVRHLFAAWLPAAQLDSYVAGLILLAAAPCTAMVFVWSRLTGGDPAFTLSQVALNDTIMVFAFAPIVGLLLGLSAISVPWATLLVSVLLYIVLPVVLAQLWRRALLRRSQATFERTLARLGPLSIAALLLTLVLLFAFQGEAILRQPLVIALLAVPILIQVFFNAGLAYWLNRRCGEQHAIACPSALIGASNFFELAVAAAISLFGFDSGAALATVVGVLIEVPVMLLVVRVVNRTRGWYQRHPANA	PGPT0004705_691	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004705-arsB|arsenite_transporter-K03325	NA	NA
BMS020_03717	330			hypothetical protein	ATGCTCGAAGCCCACGCCATCGCCGCACTCGCCGCGCTCGCCCATCCACAGCGCCTGCGGGTATTCCGCGCCCTGGTCGTCGCCGGTCCGGACGGGCTGCTGCCCAGCGTGCTGGCCGAGCGCCTGGAGGTGGCCCGCAACACGCTCTCCTTCCACCTCAAGGCGCTGGCACACGCCGGCCTGGTCAGCGTCGAACAGCAGGGGCGCAACCTGATCTACCGCGCCGGCTATCCGCAGATGAATGCCTTGATCGGCTACCTGACCGAACACTGCTGCGAAGGCGCGCCCTGCGAGGCCAGCACTGCCACCGGCGCCGCGCGCTGCTGCTGA	MLEAHAIAALAALAHPQRLRVFRALVVAGPDGLLPSVLAERLEVARNTLSFHLKALAHAGLVSVEQQGRNLIYRAGYPQMNALIGYLTEHCCEGAPCEASTATGAARCC	PGPT0004735_3768	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
BMS020_03718	594			hypothetical protein	ATGATACAAGAGTTGTTGAACTATATGGCAATGGCGCCATTGCCGGTCGTGGTTGGTGTGGATATGGTTGGCACTAGCAACCAATTGTCGAAGCCCATGCCTGCGACCGCCGTCCCCGCGCTGGATCACGACGCCCTGGCACTCAGCGAGGCGGTGGCCGATCTGGTCCGGCTGTACCAGTTCCGCGACCGCGACCAGGTGAGCTGCTTCGGTGTCTCGGTGACCCAGTGCTATGCGCTGGAAGCGCTGACCGTGGATGGGCCGCTGCGCGCGCAGGCGTTGGCCGGGCGCCTGTTCCTCAACAAGAGCACGGTGAGCCGGGTGGTCGACGCGCTGCAGCGCAAGGGGCTTGTCGAGCGCCTGCCCGACCCGGACGACCAGCGTGCCTGGCTGCTCCACGTCACCGCCGAAGGGCGCGCGCTGCATGCGCGCATCCAGGCCGACCTGCTCCGGCAACACGTGGCGATCGTGGCCGACCTCGACGCATCGACGCGGGCCGCCGCCACCGAGGTGATCCGCCGGTTTGCCGCGGCGGCGGCCCAGCGCTTCCGCCCGCCGCCCGCCGATCGCGGCCCGCCATCCGGCGCGCGCTGA	MIQELLNYMAMAPLPVVVGVDMVGTSNQLSKPMPATAVPALDHDALALSEAVADLVRLYQFRDRDQVSCFGVSVTQCYALEALTVDGPLRAQALAGRLFLNKSTVSRVVDALQRKGLVERLPDPDDQRAWLLHVTAEGRALHARIQADLLRQHVAIVADLDASTRAAATEVIRRFAAAAAQRFRPPPADRGPPSGAR				NA	NA	NA	NA	NA
BMS020_03719	555	ywnH	COG1247	Putative phosphinothricin acetyltransferase YwnH	ATGCACATCCGAGCGGCCACCGACGACGATGCCGAGGCCATCACCGCGATCTACAACCTGGGCATCGCCGAACGCGCCTCCACCTTCGAGACCGCGCCACGCACGGTCGCGGAGATCCGCGGCAAGCTCGCCGCACCGGGATTGATGCCCTACCTGGTCGCCACCGATCCGGCGGGCGCGGTGCTGGGATGGGCCAGCATCAGCAGCTACCGCCCGCGTGCGTGCTACGCCGGCATCGGCGAGTTCTCGATCTACCTCGATCGCGCGGCGCGCGGGCGTGGCATCGGCACGGTGCTGCTCGAGGCCCTGGTCGTGGATGCGCGCCGCCTGGGCTACTGGAAGCTGCTCTCACGCGTGTTCCTCGACAACGCGGCCAGCCGTGCGCTGTGCGCGCGTTGCGGCTTCCGCGAAGTCGGCATCTACGAAAAGCATGGCCAGCTCGATGGCCGATGGCTGGACGTGGTGATCGTCGAGCGGCTGATCGCCGAGAACCTTGCCGCCGAGCGCGTGGCGGAGATCACTGCGCAGGCGGGCTACTGCCACGGCGCCTGCTGA	MHIRAATDDDAEAITAIYNLGIAERASTFETAPRTVAEIRGKLAAPGLMPYLVATDPAGAVLGWASISSYRPRACYAGIGEFSIYLDRAARGRGIGTVLLEALVVDARRLGYWKLLSRVFLDNAASRALCARCGFREVGIYEKHGQLDGRWLDVVIVERLIAENLAAERVAEITAQAGYCHGAC				NA	NA	NA	NA	NA
BMS020_03720	273	rcnR_2	COG1937	Transcriptional repressor RcnR	ATGGCGCACGTGATCCACGACAAGAAGAAGCTGCTGGCCCGGGTCCGGCGCATTGCCGGCCAGGTCGCCGCGCTGGAGAGCGCCCTGCAGGCCGACGGCGACTGCATCGCGATCCTGGTGCAGATGGCCGCGGCCAAGGGCGCGATGCACGCACTGATGATGGAAGTGCTGTCCGGCCACCTCGCCGAGCACGTCGCCGCCGAGCCGGACCCCGCCAAGCGCAGCACTGAAGCCGCGGTGCTGATCGACCTGCTGCGCGGCTACGCGAAATAG	MAHVIHDKKKLLARVRRIAGQVAALESALQADGDCIAILVQMAAAKGAMHALMMEVLSGHLAEHVAAEPDPAKRSTEAAVLIDLLRGYAK				NA	NA	NA	NA	NA
BMS020_03721	1071	zitB_1		Zinc transporter ZitB	ATGGGGGTATTCGGCCAATCCGCGAAATCGCCCATGAACCTTGAACTTGCCGCGGCCGAACGCCGCCACGCCCACGCCTTCGCCCAGGGCAACCCGATGGCCGAACGCAGCACCCGCCGCGCGATGGTGCTGACCCTGGCGATGATGGTGGTGGAGATCGCCGGCGGCTGGTGGTTCAACTCGATGGCGGTGCTGGCCGACGGCTGGCACATGAGTTCGCATGCACTGGCGCTGGGGCTGGCGGCGTTCGCCTATGTCTGCGCACGCCGCTATGCCAACGACCACCGGTTCGCCTTCGGTACCTGGAAGATCGAGATCCTCGGCGGCTATACCAGCGCGATCCTGCTGCTGGGGGTCGCGGCATTGATGGCATTCCAGTCGGTGGAGCGGCTGTTCACTCCGGGCGATATCCACTATCCGGAAGCGATCGGCATCGCGATCGCCGGCCTGGCGGTGAACCTGCTGTGCGCGTGGTGGCTACGCGACCAGCACCACCATCACCATCACCACGGCCACGGACATGATCATGGGCACGCCGCGCATCATCGTCACGAGCACGAGCACGAGCACGAGCACGAGCACGAGCACGACCATCACGAGCACGACCATCACGATCACGATCACGATGCACACGGACACCACGCCCATGATCTGAACCAGCGCGCGGCCTATCTGCACGTACTCGCCGATGCGGCGACCTCGGTGCTGGCGATCGTCGCGCTGCTCGGTGGCATGCTGCTGGGCTGGGCGTGGCTGGACCCGGTGATGGGCCTGGTCGGCGCGGCGCTGGTGTCGGTGTGGGCCTGGGGGCTGATCCGCGCCTGCGGACGGATTCTGCTCGATGCGCAGATGGACCAGCCGGTGGTCGCCGAGGTCCGCGAGGTGATCGAGCAGGGCGCGGTGCCGGCGCGGATCAGTGACCTGCACGTCTGGCAGGTCGGCCAGGGCCGGTTCGCCTGCGTGGTCGAAGTGGTGACTGCTGCCGACGTCGACGGTGCGCATTTCCGTGATGCGCTGGCGGTCCACGAAGAGCTGGTGCACGTGACCGTCGAAGTCGTCCGGGCGCGCTGA	MGVFGQSAKSPMNLELAAAERRHAHAFAQGNPMAERSTRRAMVLTLAMMVVEIAGGWWFNSMAVLADGWHMSSHALALGLAAFAYVCARRYANDHRFAFGTWKIEILGGYTSAILLLGVAALMAFQSVERLFTPGDIHYPEAIGIAIAGLAVNLLCAWWLRDQHHHHHHHGHGHDHGHAAHHRHEHEHEHEHEHEHDHHEHDHHDHDHDAHGHHAHDLNQRAAYLHVLADAATSVLAIVALLGGMLLGWAWLDPVMGLVGAALVSVWAWGLIRACGRILLDAQMDQPVVAEVREVIEQGAVPARISDLHVWQVGQGRFACVVEVVTAADVDGAHFRDALAVHEELVHVTVEVVRAR				NA	NA	NA	NA	NA
BMS020_03722	1128			hypothetical protein	ATGGACGCCATGGAAACGCTTTTCGCACGCCTCCGTCGCAGGGCGACGCCGCGCGCCGAGCGCGCGGCGGTCGCGCCGAACCGCCGCTGGGTCCTGCTCGCATCGGAGCTGTACTCGCTGGCCATCCTCAGGCCATTGGCCAGCGAGGCCCTGTCCCGCGGCCACGCCGTCGCCTGGATCGCCAATGACGCCCTGGCCCGGCACCTGACCGCCGACGAGCGCCGCCTTCGGAGCTGGCGGGCCTTGAAGAGATTTGCCCCCGACGCGGTGTTTTCCACCGTCAACCGAATTCCAGCCGTGCTGCCCGGCCTGCAGGTGCAGCTCTTCCACGGGCTCAACCTGCACAAGCGCGATCCCCGTCTGGGCCAGTTCCGGATCCAGCACCTGTTCGATCTGTACTGCACGCACGGCCCGGCCACGACCGCTCCGTTGCGCGCCCTGGCGGAGCAGCATGGAACCTTCGCGGTCATCGAGACCGGCTGGCCCAAGCTGGACCTGCTGTTTTCCGGCCCCAGCGAGGGCGCCGACGCATTGCGCAGGGCCGCCAATGGACGGCCGCTGGTGATGTATGCATCCACCTTCAACGCCCCGCTGAGCCAGGCACACGCGTGTCTTCCGGTGCTGCAACAGCTCATTGCACGCGGCGACCGCTTCTGGTTGCTGACCCTGCACCCGATGTCGCCGCCGGAGCTGGTCGCGCGCTACCGGCAGCTGGCCGGCGCACATGCGCTCTATCTGGAGACTGAGCGGCTTGCCGACATGCTGCACGCAGCCGATGCCCTGGTCTGCGACACCTCATCGGTCGTGGAGGAATTCGCCCTGCTCGGCAAGCCCGTGCTCACCGTCCGCCATCGGCAACCGCAACCGTTCATGCATGACCTCGACGATCCGGAACGGATCGACGCCACGCTGACCCAGGTACTGGCCGATCCGCAGGCACGCCGCGCGGCGATGGACGCCTACGCCGATGGCATCCATCCCGCACGCGATGGGCGCTCTTCCGCACGCATCCTCGATGCGGTCGGCACCCACCTGGAGCAGCGCTCCGGCCTGCGCCGGCGTCCACGCAAGCCGTGGCGACGCTGGTGGCGCACCTGGACGATGCTCAGGGAGCTGCTTCCGGGATAG	MDAMETLFARLRRRATPRAERAAVAPNRRWVLLASELYSLAILRPLASEALSRGHAVAWIANDALARHLTADERRLRSWRALKRFAPDAVFSTVNRIPAVLPGLQVQLFHGLNLHKRDPRLGQFRIQHLFDLYCTHGPATTAPLRALAEQHGTFAVIETGWPKLDLLFSGPSEGADALRRAANGRPLVMYASTFNAPLSQAHACLPVLQQLIARGDRFWLLTLHPMSPPELVARYRQLAGAHALYLETERLADMLHAADALVCDTSSVVEEFALLGKPVLTVRHRQPQPFMHDLDDPERIDATLTQVLADPQARRAAMDAYADGIHPARDGRSSARILDAVGTHLEQRSGLRRRPRKPWRRWWRTWTMLRELLPG				NA	NA	NA	NA	NA
BMS020_03723	1446	ahcY_2		Adenosylhomocysteinase	ATGAATGCCGTCGCCAAGACCTTCTCGACCGAAGGTGACTACAAGATCGCCGATATCGGCCTCGCCGACTGGGGCCGCAAGGAAATCGACATCGCCGAGCACGAGATGCCGGGCCTGATGTCGATCCGCCGCAAGTACCAGGCCACGGCCCCGCTCAAGGGCGTGCGCGTGACTGGCTCGCTGCACATGACCATCCAGACCGCGGTGCTGATCGAGACGCTCAAGGACATCGGCGCCGACGTGCGCTGGGCCTCGTGCAACATCTTCTCGACCCAGGACCAGGCCGCCGCGGCGATCGCCGCCACCGGCACCCCGGTGTTCGCCTGGAAGGGCGAGACGCTGGAGGAGTACTGGGACTGCACGCTGGAAGCGCTGACCTTCACCCTGGCCGACGGCACCCTGACCGGCCCGGAGCTGGTGGTCGACGACGGCGGCGACGTGACCCTGCTGATCCACAAGGGCTATGAGCTGGAGAACGGCTCGACGTGGGTCGACGAGCCGGCCTCCTCGCACGAGGAAGGCGTGATCAAGGCGCTGCTCAAGCGCGTCGCCGTCGAGCGCCCGGGCTACTGGACCCGCGTGGTCAAGGACTGGAAGGGCGTCTCCGAGGAGACCACCACCGGCGTGCACCGCCTGTACCAGATCGCCGAGGCCGGCAAGCTGCTGATCCCGGCGATCAACGTCAACGACTCGGTCACCAAGTCCAAGTTCGACAACCTGTACGGCTGCCGCGAGTCGCTGGCCGACGGCCTCAAGCGCGCGATGGACGTGATGCTGGCCGGCAAGGTCGCGGTGGTCTGCGGCTACGGCGACGTCGGCAAGGGCTCGGCGCACAGCCTGCGTGCCTACGGCGCGCGCGTGATCGTCACCGAGATCGACCCGATCTGCGCGCTGCAGGCGGCGATGGAAGGCTTCGAGGTCAATACCGTCGAGAACAGCCTCGGCGTGGCCGACATCTACGTCACCACCACCGGCAACAAGGACATCATCCGCGTCGAGCACCTGACCGCGATGAAGGACCAGGCGATCGTCTGCAACATCGGCCACTTCGACAACGAGATCCAGGTCGAAGGCCTGTACAAGGTGCCGGGCGTGCAGAAGATCAACATCAAGCCGCAGGTGGACAAGTTCGTGTTCGCCAACGGCAACGCGATCTTCCTGCTGGCCGAAGGCCGCCTGGTCAACCTGGGCTGCGCCACCGGCCACCCGAGCTTCGTGATGTCCAACAGCTTCGCCAACCAGACCCTGGCGCAGATCGACCTGTGGGCGAACAAGGACGTCTACGAGAAGACCGTGTACCGCCTGCCCAAGCAGCTCGACGAGGAAGTGGCGCGCCTGCACCTGGAGAAGATCGGCGTGAAGCTGACCACGCTGAGCAAGGACCAGGCCGACTACCTTGGCGTACCGGTCGAAGGCCCGTACAAGCCGGACCACTACCGCTACTGA	MNAVAKTFSTEGDYKIADIGLADWGRKEIDIAEHEMPGLMSIRRKYQATAPLKGVRVTGSLHMTIQTAVLIETLKDIGADVRWASCNIFSTQDQAAAAIAATGTPVFAWKGETLEEYWDCTLEALTFTLADGTLTGPELVVDDGGDVTLLIHKGYELENGSTWVDEPASSHEEGVIKALLKRVAVERPGYWTRVVKDWKGVSEETTTGVHRLYQIAEAGKLLIPAINVNDSVTKSKFDNLYGCRESLADGLKRAMDVMLAGKVAVVCGYGDVGKGSAHSLRAYGARVIVTEIDPICALQAAMEGFEVNTVENSLGVADIYVTTTGNKDIIRVEHLTAMKDQAIVCNIGHFDNEIQVEGLYKVPGVQKINIKPQVDKFVFANGNAIFLLAEGRLVNLGCATGHPSFVMSNSFANQTLAQIDLWANKDVYEKTVYRLPKQLDEEVARLHLEKIGVKLTTLSKDQADYLGVPVEGPYKPDHYRY				NA	NA	NA	NA	NA
BMS020_03725	2715	ppc_1	COG2352	Phosphoenolpyruvate carboxylase	ATGAACGAGTACCGCAGCAGCCTGGTCTTCGCCACTCCCGACATCCCCCTGCGCGACGACGTGCGGCGTCTTGGCGCGCTGGTCGGCGACCTGCTCGCCGAGCAGGTGTCGGAGGCCTTCCTCGGCGAGATCGAGCAGGTCCGCACCACCGCGATCGCGCGCCGCGAGCGCGACACCCCGCCCGAATCGCTGAGCGCGCTGCTCGACGCCCGCGCGCCGCGCGACGCCGAGGCGCTGGTGCGCGCCTTCAGTACCTACTTCCAGGTGGTCAACATCGCCGAGCGCGTGCACCGCATCCGCCGCCGCCGCGACTACCAGCGCAGTGGTACCGACACCCCGCAGCCGGACGGGCTGCACGACGCGCTGCGTCGGCTCAAGGCACAGGGCGTAACCCTGGAGGAACTGGCCGACTGGCTGCCGCGCATCGACATCGAGCCGGTGTTCACCGCGCACCCGACCGAGGCGGTGCGGCGCGCGCTGCTGGAGAAGGAGCAGCTGATGGTGGCCAGCCTGGTCGACAACCTCGACGGGCTGCGCACCCCGGGCGAGCAGGCGGTGGACCAGGCGCGCTTCCGCATGGCGCTGACCGCGGCCTGGCAGACCGCCGATTCCTCGCCGGTGCGGCCGACCGTGGAGGACGAGCGCGAGCACGTCGGCTTCTACCTCACCCAGGTGCTGTACCGGATCATCCCGGCGCTGTACGAGACCCTGGAGCATGCGATCGAGGAGACCTGGGGCCGCGGGCTGCCGTTGCCGCGGCTGCTGCGCTTCGGCACCTGGGTCGGCGGCGACATGGACGGCAACCCGAACGTGGATGCGCGTACCGTCACCGCCACGCTCGACGCGCAGCGCCGCGCGGTGCTGGACCGCTATCTCAAGGAACTGTGGCAGCTGGCCAGCCTGCTCAGCCAGTCCACCACGCTGGTGACGGTCAGCGATGCGCTGCAGGCGCGGCTGGGCGAGTACCAGGCGCTGCTGCCGCAGGCCGCCGCGCGTTCGCGCCCGCGCCATGGCGACATGCCGTACCGGCTGCTCAACGACCTGATGCGCGCGCGCCTGCAGGCCACGCTCGACGACGCCCCCGGCGCCTACGCCGCGCCGGCCGAGTTCGAGCGCGACATCCAGCTGATCCTCGACAGCCTGGAGGCCAACAAGGGCCTGCACGCCGGCTGGTTCGCGGTGCGCCGGCTGCTGTGGCGGGTGCGCACCTTCGGCTTCCACCTGGCACGGCTGGATGTGCGCCAGGAATCCAGCGTGCATGCGCGCGCGGTGGCCGGCGCGCTTGGCGACGCCGCATGGGAAGACAAGGACTACGCGACCCGCGCCGACGCATTGCAGCCGTTCGCTGCCGGTGCGCAGGTCCTGCCGGCCGGCGGCGACGACGGCAATGCGCGGCTCGACGCGGTGTTCGGCGCGCTCGCCGACGCGCGTCGCCGCCACGGCGCCGATGCGCTCGGCAGCTACATCATCTCGATGGCGCACAACCGCGCCGACGTGCTGACCGTGCTGGCGCTGGCGCGCCGCGGCGGGCTGGTCGACCAGAGCGGGGCGGTGCCGCTGGACATCGTGCCGCTGTTCGAGACCGTGGACGACCTGCGCGGCAGCATCGCCACGCTGCGCGACCTGCTCGCCGACCCGGTCTACCGCGGCCACCTGGCCGCGCGCAACGACGTGCAGATGGTGATGCTGGGCTATTCCGACAGCGGCAAGGACGGCGGCATCGCCGCCTCGCGCTGGGGCCTGCAGCGCGCCCAGGTCGAACTGCTGGAAGCGGCCGAGCAGCTCGGCATCCGCCTGACCTTCTTCCACGGCCGCGGTGGTTCGATCGTGCGCGGCGGCGGCAAGACCACCACCGCGCTCGATGCCGCCCCGCGCGGCAGTGTCGACGGCCGCCTGCGGGTGACCGAGCAGGGCGAGGTGATCCACCGCAAATACGGCATCCGCGCGCTGGCGCTGCGGTCGCTGGAGCAGATGGCCGGCGCGGTGCTGCGCTCCAGCCTGCGCCCGCGCGCACCCGAGCCGCGCGAGGCGCAGTGGCGCGAGGTGATGGACCTGGTCGCCGAACACAGCTCGCAGGCCTACCGCGGCTTCGTCGGTGCACCGGACTTCATGGCCTATTTCCGCCAGGCCACGCCGATCGACGTGATCGAGCGCATGACCCTGGGTTCGCGTCCGTCGCGCCGGCTTGGCCAGGACGCGGCGCTGTCCAACCTGCGGGCGATTCCGTGGGTGTTCGCCTGGAGCCAGGCGCGCGCGGTGATCCCCGGCTGGTACGGCGTCGGCAGCGGCCTGCAGGCGGCGGTGGACGCCGGCCACGAGGACACGCTGCGCGAGATGGCGGCGGAGTGGCCGTTTTTCCGTACCTTCCTCGACGACATCGCGATGGTGCTGTCCAAGGGCGACCTCAACATCGCCGAGCTGTTCTCGCGCCTGTCCGGACCGCTGCACGAACGGTTCTTCCCGCGGATCCGCGACGAACTGGCATTGACCAAGGGCTGGGTGAAGGCGCTGAGCAACCAGCAGTCGCTGCTGCAGCACGACCCGCGGCTGGCGCTGTCGATCCGCCTGCGCAACCCGTACATCGACCCGATCAGCGTGCTGCAGGTCGACCTGCTGCGGCGCTGGCGCGCCACCGGTGGTGAGGACGAGGACCTGCTGCGGGCGCTGGTGGCCTGCGTCAACGGCGTCTCGCAAGGTGTGCAGAACACCGGTTGA	MNEYRSSLVFATPDIPLRDDVRRLGALVGDLLAEQVSEAFLGEIEQVRTTAIARRERDTPPESLSALLDARAPRDAEALVRAFSTYFQVVNIAERVHRIRRRRDYQRSGTDTPQPDGLHDALRRLKAQGVTLEELADWLPRIDIEPVFTAHPTEAVRRALLEKEQLMVASLVDNLDGLRTPGEQAVDQARFRMALTAAWQTADSSPVRPTVEDEREHVGFYLTQVLYRIIPALYETLEHAIEETWGRGLPLPRLLRFGTWVGGDMDGNPNVDARTVTATLDAQRRAVLDRYLKELWQLASLLSQSTTLVTVSDALQARLGEYQALLPQAAARSRPRHGDMPYRLLNDLMRARLQATLDDAPGAYAAPAEFERDIQLILDSLEANKGLHAGWFAVRRLLWRVRTFGFHLARLDVRQESSVHARAVAGALGDAAWEDKDYATRADALQPFAAGAQVLPAGGDDGNARLDAVFGALADARRRHGADALGSYIISMAHNRADVLTVLALARRGGLVDQSGAVPLDIVPLFETVDDLRGSIATLRDLLADPVYRGHLAARNDVQMVMLGYSDSGKDGGIAASRWGLQRAQVELLEAAEQLGIRLTFFHGRGGSIVRGGGKTTTALDAAPRGSVDGRLRVTEQGEVIHRKYGIRALALRSLEQMAGAVLRSSLRPRAPEPREAQWREVMDLVAEHSSQAYRGFVGAPDFMAYFRQATPIDVIERMTLGSRPSRRLGQDAALSNLRAIPWVFAWSQARAVIPGWYGVGSGLQAAVDAGHEDTLREMAAEWPFFRTFLDDIAMVLSKGDLNIAELFSRLSGPLHERFFPRIRDELALTKGWVKALSNQQSLLQHDPRLALSIRLRNPYIDPISVLQVDLLRRWRATGGEDEDLLRALVACVNGVSQGVQNTG	PGPT0001165_2047	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-ALTERNATIVE_PAHTWAYS	CO2_FIXATION-PHOSPHOENOLPYRUVATE_CARBOXYLASE_BIOSYNTHESIS,PGPT0001165-ppc-K01595	NA	NA
BMS020_03726	585			hypothetical protein	ATGACCTCTCCCCGCACCGATGCCGCGCTGCGCCGCCGGCAGCTCCTCGACGCCGCCGACGATGTGTTCACCGAACACGGCGTGCATGCCCCGCTGGAACTGGTGGTGGAGCGTTCCGGCCTCGGCCGGGCCACGCTCTACCGCAACTTCCCCGACCGCACCGCGCTGATGACCGCGCTGCTCGAGCGAGGGCTGGATGCGTTCGCGGCCGCCGCGCGCGACCTGGGCGAGCGTGCGGATGGCCTGGCGGTGTTGTTGCACGACGCCGCCGAGCACATGGCCGAGGCCGCGCCGCTGGTGGATTTCTGGCGCGCGATGGAACGCGACCATCCGGCGATCGAAGCGGCCGACCAGCGTGCGCTGGCGATCTTCATGCCATTCGTGCGTCGCGCGGCGGCAGCCGGTCTGTGCCGTGGAGATGTCGACGAAGAGCAGATGCTGCTGGTGATGGACATGTTGAGCGGCTGCGTGCGCGGCGTCGATGCGCGCGAGCGGCGTCGTCTCGCGCACCGTTCCGCCGACCTGTTGATGCTGGCGCTGGGCATGGCGCCCGAGCTGCTCGCCCCGGCGCGCGGCCAGGCATGA	MTSPRTDAALRRRQLLDAADDVFTEHGVHAPLELVVERSGLGRATLYRNFPDRTALMTALLERGLDAFAAAARDLGERADGLAVLLHDAAEHMAEAAPLVDFWRAMERDHPAIEAADQRALAIFMPFVRRAAAAGLCRGDVDEEQMLLVMDMLSGCVRGVDARERRRLAHRSADLLMLALGMAPELLAPARGQA				NA	NA	NA	NA	NA
BMS020_03727	1023			hypothetical protein	ATGAGCGCGCCGATCGGGCGTTTGCTCCGGGCACTCCTGCTGCTGGGCGTGGCCTGCGCCGCGGGCTGGGGCGCGCTGGCGTTGTATTTCCTGCTCGACAACCGCCCGCTGGTGGTCTGGGCATTGATCGCCAGCTGGCTCGGCCTCGGTGCCGCGGCCGCCTGGGGCCTGCGCCGTGGACGCGAGAACTGGGCGCTGCCCGGTGTGTTCACGCTGGCGTTCGCGGCGATGCAGCTGGGCTGGTGGTCGATGGCGCCGCAGCAGGACCGCGACTGGGCCGACGATGTCGCCGAGCGGCTGCACGCCGAGGTGCGCGGCAGCACCGTGGTGCTGCACAACGTGCGCGACTTCGACTGGCGCAGCGACGAGGACTACCGCGTGCGCTGGGAGACCCGCCGCTATGACCTGGACCGGCTGGTCAGCGCCGATCTGGTGCTGTCGTACTGGATGGGGCCGGCGATCGCCCACACGCTGGTGTCGTTCGGCTTCGACGATGGCTCGCAGGTGGTGTTCTCGCTGGAGATCCGCAAGCAGCGCGGCGAGCAGTTCTCGGCGTTGGGCGGCTTCTTCCGTACCTTCGAGGAAACCCTGGTCGCCGCCGACGAGCGCGACATCCTGCGCGTGCGCACCAACGCGCGCGGCGAGGACATGTACCTCTACCGCCTGGCGATTCCGCGCGAGGCGCTGCGGCGGATGTTCCTGGGCTACGTCGCCAAGGCGCGGCAACTGGACCGTGCGCCGGCGTTCTACAACACGTTGACCAGCAACTGCACCACCATCGTGTTCGAGCTGGCGCGCCAGCTGCAGCCGCGCTTGCCGCTGGACTGGCGGTTGCTGCTGTCCGGCTACCTGGCCGAATACGCCTACGACCAGCATGGCCTGTTGCCGGGCTACGACTTCGCCACCCTCAAGCACGGCGGCCACGTCACCGCGCGTGCGCGCGCCGCCGACGCCGACCCGGCGTTCTCGGCGCGGATCCGCACCGGCATGCCGCTGGCGCCGGTCGCGCCGGTGGCCCGATGA	MSAPIGRLLRALLLLGVACAAGWGALALYFLLDNRPLVVWALIASWLGLGAAAAWGLRRGRENWALPGVFTLAFAAMQLGWWSMAPQQDRDWADDVAERLHAEVRGSTVVLHNVRDFDWRSDEDYRVRWETRRYDLDRLVSADLVLSYWMGPAIAHTLVSFGFDDGSQVVFSLEIRKQRGEQFSALGGFFRTFEETLVAADERDILRVRTNARGEDMYLYRLAIPREALRRMFLGYVAKARQLDRAPAFYNTLTSNCTTIVFELARQLQPRLPLDWRLLLSGYLAEYAYDQHGLLPGYDFATLKHGGHVTARARAADADPAFSARIRTGMPLAPVAPVAR				NA	NA	NA	NA	NA
BMS020_03728	1962			hypothetical protein	ATGATGCTGGTCCGGCGCCTGTGGCGCGTGGCGCTGCCGTTGCTGCTGGTGGCGACCAGCGGCTGTGCGATGGTGACGGTGGAGTCGCGCAAGAGCGGCGACTACGTGGCGTTGACCCGTGGCGATGTGCTCAGCAGCGGCCAGCTCAGCCAGGCCGGGCTGGAGACGCTGCGCGTGGCCGGCATCGAGCCCAAGCCCTGCCGCGAGCAGGCCGCCAGCTGCGCGGCGCAACTGGCCGCGGTGGATGGCATTGGCGTCGAACGCCGCCTGGCGACCCAGGCCGAGCTGTGGACCGCCGACGCGCTGGCGCGTGGCAAGCACGATCCGCGCAGCGTCGACGACGCGACCCTGCACGCGTGGCTGGAGGCGGCGCGGCATGCCTACGCCTACCTGTTCTTCACTGCGCGCACGCCGGGCGAGCGCGCGTTCGAGAACCGCCAGACCCAGGTGCGCGATTACTACAACTATGCCGTGCAGCACGTGGTCGAGCAGATCTTCGCGCGCTGGCGCGTGGCCGGCCAGACGCGTGGCGACGGCAGCGTGGCGATCGACGGCTGGGCGGTGACGCCTGACCTGAGCGGGTTCCGCCTGCCCGGCGGCAGTGCGGTGCCGGTCGCGGTCTACGCCGCATCCTCGCTGCGCTTCGACGGCCTGCGCAGTACCTATCGCCGCGATGGCTTCGGTGCCGAACTGGTCGCCGAAGTCGCCGCCGAATCCGGCGATCCCACCGCTGTGGTCGAGGATGCCGCTGCCGCTGCAGCGCCGCAGCCGCCGGCGGACAAGGGCACGCGCCGGCGCGGGGGCAGCTTCAGCGAGATGCCTTACGCACCGGCGACCGCGTTGCTGCGCTTCGACGGCGATACGCTGGAGCAGGTGCTGGCCACGCACGCCGTGACCCTGGTGCCGTACGACCCGTACCGGACCGCCGAAGTGACCTTGCATGGCCAGCGCGTGCCGCTGGCGGCGAACTTCACCGCGGCCTACGGCCTGTGGCTCGCGCGCTCGGGCTTCGCCACGCAGTCGTTGCGCTCGATGCTCGGCCGCGAGCGCGGCATCGATCGCCCGCATCTGTACCTGATGCAGCCCTACGATCCCAACCGCCGCATCCTGCTGATGCTGCACGGACTGGCCTCCAGTCCGGAGGCGTGGGTCAACGTCGCCAACGAGGTGATGGGCGACGAGGCGCTGCGCCAGCACTACCAGATCTGGCAGGTGTACTACCCGACCAATGCGCCGATCGCCTTCAACCGCGCCGAGATCGACGCGCTGCTCGAGCAGGCCCTGCGTCGCTTCGATCCGGACGGCCGCGCCGCCGCCTCGCAGCACATGGTGCTGGTCGGGCACAGCATGGGCGGGGTGATCGGGCGGCTGCTGGTGTCCTCGTCCGGCGAGCAGGTCTGGCAGGCATTGATGGCCGATCGCAAGCTGGACGGCGAGCGCGGCCGGCGCATCCGCGCGCGGCTGTCGCCGATGCTGCATTTCGGCCCGCTGCCGCAGGTCGACCGGGCGATCTTCATCGCCGCGCCGCATCGCGGCACCCCGGCCGCGGAAGGGCGCCTCGGGCGCTTCGTCGGCAAGCTGGTCAAGCTGCCGTTGACGCTGGTGCAGCGCTTCGGCGACGTGATGCAGGAGCTGGCCGGTGGCGACGGTCGCGGCGACACCAAGGTGGCGCTGCCGACCAGCATCGACAACCTGCGCGATACCGATCCGTTCGTGCGCGCCACCGCAGACCTGCCGATCTCGCCGCGGGTGCGCTACCACACCATCGTCGGCAAGGATGACGACCTGCCGCTGCTGGAATCCAGCGACGGCGTGGTGCCGTACCGTAGCGCGCACCTGGACGGCGCCGAGTCGGAGAAGGTGATCCCGTCCTGGCACAGCGTGCAGGAAACGCCGCAAGCGATCCTGGAGATCCGCCGCATCCTGCACGAGCAGATCGCCAGCGAGGGCACGGTGCGCTGA	MMLVRRLWRVALPLLLVATSGCAMVTVESRKSGDYVALTRGDVLSSGQLSQAGLETLRVAGIEPKPCREQAASCAAQLAAVDGIGVERRLATQAELWTADALARGKHDPRSVDDATLHAWLEAARHAYAYLFFTARTPGERAFENRQTQVRDYYNYAVQHVVEQIFARWRVAGQTRGDGSVAIDGWAVTPDLSGFRLPGGSAVPVAVYAASSLRFDGLRSTYRRDGFGAELVAEVAAESGDPTAVVEDAAAAAAPQPPADKGTRRRGGSFSEMPYAPATALLRFDGDTLEQVLATHAVTLVPYDPYRTAEVTLHGQRVPLAANFTAAYGLWLARSGFATQSLRSMLGRERGIDRPHLYLMQPYDPNRRILLMLHGLASSPEAWVNVANEVMGDEALRQHYQIWQVYYPTNAPIAFNRAEIDALLEQALRRFDPDGRAAASQHMVLVGHSMGGVIGRLLVSSSGEQVWQALMADRKLDGERGRRIRARLSPMLHFGPLPQVDRAIFIAAPHRGTPAAEGRLGRFVGKLVKLPLTLVQRFGDVMQELAGGDGRGDTKVALPTSIDNLRDTDPFVRATADLPISPRVRYHTIVGKDDDLPLLESSDGVVPYRSAHLDGAESEKVIPSWHSVQETPQAILEIRRILHEQIASEGTVR				NA	NA	NA	NA	NA
BMS020_03729	828		COG0656	putative oxidoreductase/MSMEI_2347	ATGGCCCAGATCCCCACCCTCGCCCTCAACGACGGCCGCAGCATCCCGCAGTTCGGCCTCGGCGTGTGGCAGACCCCGGCCGACGAGACCGCGCGCGTGGTCGGCACCGCGTTCGAGCTCGGCTACCGCCATATCGATACCGCCGCGATCTACGGCAACGAGGCCGGCGTCGGCCAGGCGATCGCGCGCTCCGGGCTGCCGCGCGAGGAGCTGTTCATCACCACCAAGCTGTGGAACGCCGAGCAGGGCTACGACACGGCGCTGAAGGCACTCGACGCCAGCCTGGCCAAGCTCGGCCTGCAGCAGGTCGACCTGTACCTGATCCATTGGCCGTGCCCGGGCAAGGGCCTGTTCGTCGACAGCTGGAAGGCGCTGGTGCAGGCGCAGCGCGACGGCAAGATCGGCTCGATCGGCGTGTCCAACTTCCGCAGCGAGGACATCGACCGCATCGTCGACGCCACCGGCGTGGTACCGGCGGTCAACCAGATCGAACTGCACCCGCTGCTGCAGCAGGCCGCGTTGCGCGCCGACAACGCCGCCCGCGGCATCGTCACCGAGTCGTGGAGCCCGCTGGCGCAGGGCGGCACGCTGCTGGCGCATCCGACGCTGCAGGCGATCGCCGCCAAGCACGGCAAGAGCGTGGCGCAGGTGATCCTGCGCTGGCACGTGCAGCTGGGGCTGGTGGTGTTCCCGAAGTCGGCCACCCCGACGCGCATCGCCGAGAACATGGCGATCTTCGATGTCGCGCTGGACCAGGACGACATGGCCGCGATCGCCGCGCTCGACGCCGGCCAGCGGCTGGGTCCGGATCCGGCGACGCTGGACTGA	MAQIPTLALNDGRSIPQFGLGVWQTPADETARVVGTAFELGYRHIDTAAIYGNEAGVGQAIARSGLPREELFITTKLWNAEQGYDTALKALDASLAKLGLQQVDLYLIHWPCPGKGLFVDSWKALVQAQRDGKIGSIGVSNFRSEDIDRIVDATGVVPAVNQIELHPLLQQAALRADNAARGIVTESWSPLAQGGTLLAHPTLQAIAAKHGKSVAQVILRWHVQLGLVVFPKSATPTRIAENMAIFDVALDQDDMAAIAALDAGQRLGPDPATLD	PGPT0001320_1941	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
BMS020_03730	972			hypothetical protein	ATGGACGTGTTTCCGCTCAACGGCTTCATCCGCAGCGCGATCGCGCAGGCGCCGGCCAAGTTCTGGTGGATGATCGGCGGGGTGATCGTGCTGCTGGTGGTGGCCTCGGCGATCGGCTGGGTGCTGGGCCGGCGCCGGCCTTCGGCGGTGGTGGACAACCTCAACGCGCGCATCAACGCCTGGTGGGTGATGGTGGCGGTGCTGCTGGTGTGCTTCCTGGTCGGCAAGGTCGCCACGCTGGTGCTGTATGCGCTGCTGTCGTTCTTCGCGCTGCGCGAATTCCTGACCCTGACCCCGACCCGGCGCGGCGACCACCTCGCGCTGTGCCTGTGCTTCTACATCGCCATCCCGCTGCAGTACTGGCTGATCGGCATCGGCTGGTACGGGCTGTTCGTCATCTGCATCCCGGTCTATGGCTTCCTGCTGCTGCCGGCGGTGACCGCGCTGCAGGGCGATACCGAGGAATTCCTCGCCCGCAGCACCAAGGTGCAGTGGGGCTTGATGCTGACGGTGTACTGCCTCAGCCACGCGCCGGCGTTGATGATGCTGTCCATCCCCGGCTACGAGGGGCAGAACCTGATGCTGCTGTTCTACCTGCTGCTGGTGGTGCAGTTGTCCGACGTGCTGCAGTACGTGTTCGGCAAGCTGTTCGGGCGCCACCTGCTGGCGCCGAAGGTGAGCCCGTCCAAGACCGTCGAGGGCCTGGTCGGCGGTGGTCTGTCGGCAGCGGCGATCGGCGCGGCGGTGTGGTGGGCGACGCCGTTCACGCCGCTGCAGTCGGCGCTGCTGTCGCTGCTGATCGTGCTGTGCGGCTTCCTCGGCGGGCTGGCGCTGTCGGCGGTCAAGCGCAGCATGGGCGCCAAGGACTGGGGCCAGATGATCGAAGGCCACGGCGGCGCGCTGGACCGGCTCGATTCGGTGGTGTTCGCCGCGCCGATCTTCTTCCACGTGGTGCGCTACGGCTTCCAGTAG	MDVFPLNGFIRSAIAQAPAKFWWMIGGVIVLLVVASAIGWVLGRRRPSAVVDNLNARINAWWVMVAVLLVCFLVGKVATLVLYALLSFFALREFLTLTPTRRGDHLALCLCFYIAIPLQYWLIGIGWYGLFVICIPVYGFLLLPAVTALQGDTEEFLARSTKVQWGLMLTVYCLSHAPALMMLSIPGYEGQNLMLLFYLLLVVQLSDVLQYVFGKLFGRHLLAPKVSPSKTVEGLVGGGLSAAAIGAAVWWATPFTPLQSALLSLLIVLCGFLGGLALSAVKRSMGAKDWGQMIEGHGGALDRLDSVVFAAPIFFHVVRYGFQ	PGPT0007685_1311	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE_ACTIVITY,PGPT0007685-cdsA|ynbB-K00981	NA	NA
BMS020_03731	600			hypothetical protein	ATGATCGTCGACACGCTGCTGGTGCTGGCAAGCAAGGCGCTGGTGGGCGCCTATCCGCAGTGGATCGGCAGCCAGCCGCTGCCGGTCCAGCGGATCTACTTCGCCAACCACAGCAGCCACATCGATACCGTCGCACTGTGGTCGGCGCTGCCGGCCGCGCTGCGCCGCCAGACCCGCCCGGTCGCGGCGCGCGACTACTGGGGCGGCGGTGGACTGAAGGGCCTGATCGCCGGCCCCGGCTTGAACGTGGTGCTGATCGATCGCCACCACGGCCCCGACACCGATCCGCTGCAGCCGCTGTACGCGGCGCTGGAGGCCGGCCAGTCGCTGATCCTGTTCCCCGAAGGCACCCGCAACCCGGGCGAGGAACTGCTGCCGTTCAAGTCCGGCCTGTACCACCTGGCGCAGCGCTTCCCGCAGGTCGAACTGGTCGCGGTCTACCTCGACAACGCCCGCCGCAGCATGCCCAAGGGCAGCGTGCTGCCGGTGCCGCTGATCTGCACCGTAAGCTTCGGCGCGCCGCTGGCCCGGCACGACGGCGAGGACAAGCCCACCTTCCTGGCCCGCGCGCGCGAGGCGGTGCGCGCGCTCGCACCCTAG	MIVDTLLVLASKALVGAYPQWIGSQPLPVQRIYFANHSSHIDTVALWSALPAALRRQTRPVAARDYWGGGGLKGLIAGPGLNVVLIDRHHGPDTDPLQPLYAALEAGQSLILFPEGTRNPGEELLPFKSGLYHLAQRFPQVELVAVYLDNARRSMPKGSVLPVPLICTVSFGAPLARHDGEDKPTFLARAREAVRALAP	PGPT0007685_27	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE_ACTIVITY,PGPT0007685-cdsA|ynbB-K00981	NA	NA
BMS020_03732	630			hypothetical protein	ATGCCCCAGGATGACAACCGCCGGCCGATCGCGGCCCGCGCCAGTGGATGGGCCCGTTCGACCAGCGCCGCCCTGGCGCGCTCGTCCATCACCCCCAACCAGATTTCGCTGCTCAGCATCGTCTTCGCCGCAGCCGGCGGCGGCCTGCTGTGGCTCGCCTCCCCTGCCGCACTGGTCGGTGCCGCGGCGTGCATCCAGCTGCGGCTGGTCTGCAACCTGCTCGACGGCATGGTGGCGATGGAGGGCGGCAAGAAGACCGCCACCGGCGCGCTGTACAACGAGTTTCCCGACCGCGTCGCCGATTCGCTGCTGATCGTCGCGCTCGGTTACGCCTGCGCCGCGCCGTGGCTGGGCTGGCTGGGCGCGCTTGCCGCGGCGTTGACCGCCTACGTCCGGCTGGCCGGCGGCAGCCTGGGGCTGGCGCAGGATTTCCGCGGCCCGATGGCCAAGCAACACCGCATGGCGGTGCTGACCATGGCCTGCCTGCTGGGTGCGGCCGAACTTGCCTTCCTGCACAGTGGCTGGGCGCTGCGCGTCGCGGCATGGGTCATCGCGCTGGGCGCGCTGCTGACCTGCGCCACCCGCAGCCGCGCGATCGCCGCCGCGCTGCACGCGCGCGACCACGCATGA	MPQDDNRRPIAARASGWARSTSAALARSSITPNQISLLSIVFAAAGGGLLWLASPAALVGAAACIQLRLVCNLLDGMVAMEGGKKTATGALYNEFPDRVADSLLIVALGYACAAPWLGWLGALAAALTAYVRLAGGSLGLAQDFRGPMAKQHRMAVLTMACLLGAAELAFLHSGWALRVAAWVIALGALLTCATRSRAIAAALHARDHA	PGPT0007705_1739	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995	NA	NA
BMS020_03733	657			hypothetical protein	ATGAAGCAGGGACCGATGTCGGAGGTGGCGCTGGAGCGCCTGGAGGCGCTCCTGGACGAGGCCGTGCCGCACGGCGGCATGCCGCTGGAAATGCTGGATGGCTATTTCTCCGCGCTGGTGGTGAGCCCTGAACTGGTGATGCCCAGCGAATACCTGCCGCTGGTCTGGGGCGAGTCGCAGGCCGCCGACCTGGCGCAGGCGCAGGCCAGGACGGAACTGGTCATGCAGCTGTGGAACCACATCGCCTGGCGCGTGCAGCAGCCGGTCGAGGACGACGACAGCGCCATCCAGGCGGTGGTGATGCCGTTGCTGCTGATGCCCGAAGGCGATGGCGACGAAGACGATCCGTTTGCCGGCATTCCCGAGGATTTCCCGCTTGGCGTCGCCTGGGCGAGCGGCTTCCTGCACGGTGTGGCAATGCGCGGCGATGCATGGAAGGCATGGCTGGCCGACGATGAGGACTTCCTCGACGACATGTCCATGGTGCTGGCGATGTCGGTCATCGACGCCGAGCACGCCGAGCAGATGGAGATGGACGCCGGCAGCATCATGACGCTGGAAGAGCGGATGCAGTCGGTCGTGGAGCTGCCGGGCATGCTGCACGACCTCAACCTGCTGCGGCTGCAGGGCGGCGTGGGCGACCAGATCCTGCACTGA	MKQGPMSEVALERLEALLDEAVPHGGMPLEMLDGYFSALVVSPELVMPSEYLPLVWGESQAADLAQAQARTELVMQLWNHIAWRVQQPVEDDDSAIQAVVMPLLLMPEGDGDEDDPFAGIPEDFPLGVAWASGFLHGVAMRGDAWKAWLADDEDFLDDMSMVLAMSVIDAEHAEQMEMDAGSIMTLEERMQSVVELPGMLHDLNLLRLQGGVGDQILH				NA	NA	NA	NA	NA
BMS020_03734	1212	metK_2	COG0192	S-adenosylmethionine synthase	ATGTCCAGCTACCTGTTCACGTCCGAATCGGTCTCCGAAGGCCATCCGGACAAGATCGCCGACCAGATCTCCGATGCGGTGCTGGACGCCATCCTGGCCCAGGACAAGCGCGCCCGCGTCGCCTGCGAGACCCTGGTCAAGACCGGCGTGGCCATCGTCGCCGGCGAAGTGACCACCAGCGCCTGGATCGATCTGGAAGCGCTGACCCGCAAGGTGATCCTGGACATCGGCTACAACAGCTCCGACGTCGGCTTCGACGGCGAGACCTGCGGCGTGCTGAACCTGATCGGCAAGCAGTCGCCGGACATCAACCAGGGCGTGGACCGCAAGAACCCGGAACAGCAGGGTGCCGGCGACCAGGGCCTGATGTTCGGCTACGCCACCAACGAGACCGACAGCTTCATGCCGGCGGCGATCCACCTGTCGCACCGTCTGGTCGAGCGCCAGGCGCAGATCCGCAAGAAGAAGAACTCGCCGCTGTCGTGGCTGCGTCCGGACGCCAAGTCGCAGGTCACCCTGCGCTATGAGAACGGCAAGGCGACCGCGATCGACGCGGTGGTGCTGTCGACCCAGCACGATCCGGGCGTGAAGCAGAAGGACCTGATCGAAGCGGTGCGCGAAGAGATCATCCGTCCGGTGCTGCCGGCGAAGTGGCTGCACAAGGGCACCAAGTTCCACATCAACCCGACCGGCAAGTTCATCATCGGCGGCCCGGTGGGCGACTGCGGCCTGACCGGCCGCAAGATCATCGTCGACACCTACGGCGGCTGGGCCCGTCACGGTGGTGGCGCGTTCTCCGGCAAGGATCCGTCCAAGGTCGACCGTTCGGCCGCCTACGCCGCGCGCTACGTCGCCAAGAACGTCGTCGCCGCCGGCCTGGCCGACCGTTGCGAAGTGCAGGTCTCCTACGCCATCGGCGTGGCCGAGCCGACCTCGATCTCGGTCACCACCTTCGGCACCGGCAAGATTCCGGACGAGAAGATCGAGAAGCTGATCCGCAAGCACTTCGACCTGCGCCCGTACGGCATCATCAAGATGCTCGACCTGATCCACCCGATGTACCAGGCCACCGCCTCGTACGGCCACTTCGGCCGCAAGCCGAAGGAATTCACCTACACCGACGGCGCCGGCAAGCAGCACACCGCCACCGCGTTCTCGTGGGAGAAGACCGACCGCGCCGACGCGCTGCGTGCCGATGCCAAGCTGAAGTAA	MSSYLFTSESVSEGHPDKIADQISDAVLDAILAQDKRARVACETLVKTGVAIVAGEVTTSAWIDLEALTRKVILDIGYNSSDVGFDGETCGVLNLIGKQSPDINQGVDRKNPEQQGAGDQGLMFGYATNETDSFMPAAIHLSHRLVERQAQIRKKKNSPLSWLRPDAKSQVTLRYENGKATAIDAVVLSTQHDPGVKQKDLIEAVREEIIRPVLPAKWLHKGTKFHINPTGKFIIGGPVGDCGLTGRKIIVDTYGGWARHGGGAFSGKDPSKVDRSAAYAARYVAKNVVAAGLADRCEVQVSYAIGVAEPTSISVTTFGTGKIPDEKIEKLIRKHFDLRPYGIIKMLDLIHPMYQATASYGHFGRKPKEFTYTDGAGKQHTATAFSWEKTDRADALRADAKLK	PGPT0020000_1521	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
BMS020_03735	1710			hypothetical protein	GTGAGCACATTGCTGGAACAGACCCTGCGGCAGCACTCGCCGGCCTGGCTGGGCGGGCGCCGGGGGCGGCTGCTGCGCCCGCTGCTGCGCGGATTCGGGCGCTGGTCGGGGATGGAGCGCGCCGAGCGCTTCCTGGCCGAGTGCGGCGATGCCCGCGGCCTGGCCTTCGTCGACGCGGCGCTGCGCTTCCTGCAGGTGGAACCGATGGTCGATGCCGCCGCGCTGGCGCGGATCCCGCGAAACGGGCGCCTGCTGGTGCTGGCCAACCACCCGTCGGGTGGCCGCGATGCGCTGGCCCTGCTGGCGGCGCTGGGGCGGCTGCGGCCGGACGTCTGCATCGTCGCCAACGACTGGCTGGGCGCGGTGGAACCGCTGCGTGAGCTGCTGCTGCCGGTGCGCATCCTCGGCGGCCAGCCCTCGCGGGCCAGCATCGTCGCGGTCGAGCGCGCACTGCGCGAGGAGCGCTGCGTGGTGGTGTTCCCGGCCGGCGAGGTGTCGCGGCTCGGGTTGCGTGGGGTGCGCGACGGGCGCTGGCGCCGCGGGGTGCTGCACTTCGCCCGTCGCACCGATGCCCCGGTGCTGCCGGTCCGGGTGGAGGCACGCAATTCGGCCCTGTTCTACGGCGCCGCGGCGGTGTTCCCGCCGGTCGGTACCGCGCTGCTGGCGCGCGAGACCCTGCTGCCGCGTCGGCCGCAGCGGATGCAGCTGCACATCGGCGAGGTGCGCCGCCTGCCCGACCTGGGCGGCGACGGGCGGGCCGCGCTGCAGGCGCTGCGGCGCGAGCTGTACGCGCTGGCGCAGGCGCCGCAGCGCCAGGTCGCGGTCGCCGACGCGGTGGAGCCGGACCAGGTCGAGGCCGGGGTGCAGACGCTGGAACTGCTCGGGCATACCCTGGACGGCAAGCAGGTACGGGTCGGCACGCTTGGCGAGGCGGCGCCGCTGCTGCGCGAGATCGGCCGGTTGCGCGAGCTGACCTTCCGCGAGGTCGGCGAGGGCAGCGGCCAGGCGCTGGACCTGGACCGCTACGACACCCGCTACGAACACATCGTGCTGTGGGACCCGCAGCCGCGCAGGATCGTCGGCGCCTACCGGGTCGCGCGCTGCGCCGGGCTGCTGGCGCGGCATGGCCTGTCCGGCCTGTATACCGCCAGCCTGTTCGACTACGACGACGCGATGGTGCCGCGGCTGGCGCAGGCGCTGGAGCTGGGGCGCAGCTTCGTGGTGCCCGAGTACTGGGGCAGCCGCAGCATCGACTACCTGTGGCAGGGCATCGGCGCCTATCTGCGCCGGCATCCGCAGCTGCGCTACCTGGTCGGCGCGGTGTCGATCAGTGCCGCGCTGCCGGCGTCGGCGCGCGCGCAGATCGTCGCCTACTACGGCCGCTACCACGCCGAGGGCAGCACGCCCGTGGCGGCCAAGCGGCCGTTCGCCGGCGCGCGGCCGGATGAGCTGTTCGCCGATCTCGATGCCGCCACCGCGATGCGCGTGCTCAAGGGCAACCTGGACGCGCTCGGCACCACCGTGCCGATGCTCTACAAACAATATGTTGACCTGTGCGAGCCGGGCGGCGCGCGCTTCCTCGCCTTCGGCATCGATCCTGATTTCAGCGACGCGGTGGACGGCCTGATCGAGGTCGACCTGCACCGGCTCAAGCCGAAGAAGCGCGACCGCTACCTCGGAACTCCCGCCGAACAGGAAGCCCCCGCATGA	MSTLLEQTLRQHSPAWLGGRRGRLLRPLLRGFGRWSGMERAERFLAECGDARGLAFVDAALRFLQVEPMVDAAALARIPRNGRLLVLANHPSGGRDALALLAALGRLRPDVCIVANDWLGAVEPLRELLLPVRILGGQPSRASIVAVERALREERCVVVFPAGEVSRLGLRGVRDGRWRRGVLHFARRTDAPVLPVRVEARNSALFYGAAAVFPPVGTALLARETLLPRRPQRMQLHIGEVRRLPDLGGDGRAALQALRRELYALAQAPQRQVAVADAVEPDQVEAGVQTLELLGHTLDGKQVRVGTLGEAAPLLREIGRLRELTFREVGEGSGQALDLDRYDTRYEHIVLWDPQPRRIVGAYRVARCAGLLARHGLSGLYTASLFDYDDAMVPRLAQALELGRSFVVPEYWGSRSIDYLWQGIGAYLRRHPQLRYLVGAVSISAALPASARAQIVAYYGRYHAEGSTPVAAKRPFAGARPDELFADLDAATAMRVLKGNLDALGTTVPMLYKQYVDLCEPGGARFLAFGIDPDFSDAVDGLIEVDLHRLKPKKRDRYLGTPAEQEAPA				NA	NA	NA	NA	NA
BMS020_03736	810	lpxH_2		UDP-2,3-diacylglucosamine hydrolase	ATGACCGTCCATCCGCTGGAACCGATGCGCCGCGCGGTGTTCATCTCCGACCTGCACCTGGGATCGCGGCACTGCCATGCCGGCGACATCGCCGACTTCCTGGCGCGCCAGCGCTGCCGCACGCTGTACCTGGTCGGCGACGTGGTCGACCTGTGGTGGATGTCGCAGCGCCGCGCCTGCTGGGACGCCGCGCACCAGCGCGTGCTGGAGGCGCTGCACGCGCAGGCCCGTGCCGGCACCGAGATCGTCTACGTGCCGGGCAACCACGACCGGGCGATCCGGCGCTTCTGCGGGCTGATGATGCCGACCATGCAGGTGCGCCGGCGCAGCATCCACACCCTGCTCGACGGGCGCAGGTTGCTGGTCACCCACGGCGACGACTACGACGCGGTGACCCACTTCGGCGGCCTGCAGGAGAAGCTCGGCGACTGGCTGTACTACCGCATCCTCACCGGCAACCAGCTGACCAACCGCGTGCGCCGCCGGCTCGGCATGCGCTACTGGTCGCTGGCCGAATACCTCAAGCGCCAGAGCAGCGCCGCCGAGCGCTATATCGGCCGCTTCGTCGAGGCGGGGCTGGCCGATGCGCGCCGCCGCGGCCTGGACGGCATCGTCTGCGGCCACATCCACCGCGCCGCGCTGCTGCAGCGCGACGGCCTGCTATACGCCAATACCGGCGACTGGGTCGAGAGCCTGACCGCGGTGCAGGAAACGCTCGATGGCCGCCTGCAGCTGGTCGATCACACCGGTGCGGTGCTGGCGGAGGTCGCTGCCGCGCCTGCGCAGGCCGCCCTGACGCGCGCGGCCTAG	MTVHPLEPMRRAVFISDLHLGSRHCHAGDIADFLARQRCRTLYLVGDVVDLWWMSQRRACWDAAHQRVLEALHAQARAGTEIVYVPGNHDRAIRRFCGLMMPTMQVRRRSIHTLLDGRRLLVTHGDDYDAVTHFGGLQEKLGDWLYYRILTGNQLTNRVRRRLGMRYWSLAEYLKRQSSAAERYIGRFVEAGLADARRRGLDGIVCGHIHRAALLQRDGLLYANTGDWVESLTAVQETLDGRLQLVDHTGAVLAEVAAAPAQAALTRAA				NA	NA	NA	NA	NA
BMS020_03737	999	dusB_2	COG0042	tRNA-dihydrouridine synthase B	ATGCGCATCGGCCCCTACCTGATCGAACCGAACGTGGTGCTGGCCCCGATGGCCGGGGTCACCGACAAGCCGTTCCGCCAGCTGTGCAAGCAGCTCGGCGCGGGGTTGGCGGTGTCGGAGATGACCACCAGCGACCCACGGTTCTGGAACACCCGCAAGTCGCTGACGCGGATGGACCACGACGGCGAGCCGGCGCCGATCAGCGTGCAGATCGCCGGCACCGAGCCGCAGCAGCTGGCCGACGCGGCGCGTTACAACGTCGACCACGGCGCGCAGATCGTCGACATCAACATGGGCTGCCCGGCCAAGAAGGTCTGCAACGCCTGGGCCGGCTCGGCGCTGATGCGCGACGAGGCGCTGGTGGCGCGCATCCTCGAAGCGGTGGTCGGCGCGGTCGACGTGCCGGTGACGCTGAAGATCCGCACCGGCTGGGACTGCGACCACCGCAACGGCCCGCGCATCGCGCGCATCGCGCAGGATTGCGGCATCGCCGCGCTGGCCGTGCACGGGCGCACCCGCGACCAGCAGTACACCGGCACCGCCGAATACCAGACCATCGCCGCGATCAAGGCCCAGCTGGCGATCCCGGTGCTGGCCAACGGTGACATCGACTCGCCGCGCAAGGCCGCGCAGGTGCTGGCCGAAACCGGCTGCGATGCGGTGATGGTCGGCCGCGCCGCGCAGGGGCGGCCGTGGATCTTCGGCCAGATCGCGCATTACCTGGCCACTGGCGAGGAGCTGCCGGCACCGCCGCTGCAGGCGATCCGCGACATCCTGCTCGGCCACCTGCAGGCGCTGCACGGCTTCTACGGCGAGCCGCAGGGCGTGCGCATCGCGCGCAAGCACCTGGGCTGGTACGCCAAGGATCATCCGGAAAGCGGCGCGTTCCGCGCCGTGGTCAACCGTGCCGAGACGCCCGAGCAGCAGCTGGCGATCACCCGCGACTATTTCGACGCGTTGATCGCCGGGGTCGCCCCGGACCTGTCCGCCGCCGCCTGA	MRIGPYLIEPNVVLAPMAGVTDKPFRQLCKQLGAGLAVSEMTTSDPRFWNTRKSLTRMDHDGEPAPISVQIAGTEPQQLADAARYNVDHGAQIVDINMGCPAKKVCNAWAGSALMRDEALVARILEAVVGAVDVPVTLKIRTGWDCDHRNGPRIARIAQDCGIAALAVHGRTRDQQYTGTAEYQTIAAIKAQLAIPVLANGDIDSPRKAAQVLAETGCDAVMVGRAAQGRPWIFGQIAHYLATGEELPAPPLQAIRDILLGHLQALHGFYGEPQGVRIARKHLGWYAKDHPESGAFRAVVNRAETPEQQLAITRDYFDALIAGVAPDLSAAA	PGPT0001030_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001030-acoR-K21405	NA	NA
BMS020_03738	624			hypothetical protein	ATGCCCCGCTTCTCCGCCCTCCTGCTGCTGGCCGCCTGCGTGGCCAGCGGCCACGCTGCCGAGCGCTGCGACTGGCGCAGCCACCTGCTCGACGAGGACCGCGCCAGCGCGGCACTGCAGCCGCAGACCGCGCTGGCGCTGATCGCCGCGCGCTATGACGATGCCGAGCAGGATGCCGGTGCGGCACTGGCACGTTCGCTGCTGCAGCGCGCCGCCGACAACGCGCTGCCGCTCGGCGACATCGCCGGGCACTGGAAGATCCGCTCGATCCAGGTCAGCGCCGGCGACATGCCGTTCGCCTACGCCTACCCGGCCTTCGCCGCGACGATCAGCGCCGATGTCTGCGGCTTCCGCTTCAGCAAGGACACCGGCTCGCAGCGCCACGGCGGCCTGCTGTACCGGGTGCAGGGCCACGACGACACGCTGGCCTTCCTCGGCACCGCGGTGGTCAACCGGCAGCCGCTGCGCGACTACGGCCCGGACAACCTCAGCTCGGCCGCGTCCGGCGACGGCGAGCACGCCAGCAACAGCACCGGCAAGGCGTGGCGCGTCGGCGCCGACACCCTGGTGCTGCTGGTCGACACGAACCGCGCCGGCTTCACCCTGTACCAGCTGACGCGCTGA	MPRFSALLLLAACVASGHAAERCDWRSHLLDEDRASAALQPQTALALIAARYDDAEQDAGAALARSLLQRAADNALPLGDIAGHWKIRSIQVSAGDMPFAYAYPAFAATISADVCGFRFSKDTGSQRHGGLLYRVQGHDDTLAFLGTAVVNRQPLRDYGPDNLSSAASGDGEHASNSTGKAWRVGADTLVLLVDTNRAGFTLYQLTR				NA	NA	NA	NA	NA
BMS020_03739	954	rbsK_2	COG0524	Ribokinase	ATGAGTTCGGTTGTCGTCGTCGGTTCCTTCAATGTCGATCATGTCTGGCGCTGCGACGCGTTGCCCGCGCCGGGCGCGACGATCGCCGGCCGCTACAGCACCGGCCCGGGTGGCAAGGGGTTCAACCAGGCAGTGGCCGCCAAGCGCGCCGGTGCCGATGCGCACTTCCTGTGCGCGCTCGGCGACGATGCCGGCGGCGCGATGGCGCGCGGTCTGGCCGCCGATGACGGCTTCGCGCTGATCGCCGAGCCGAGCAGCGAGCCGACCGGCACCGGCGGCATCTACGTCGACACGCACGGCCGCAACACCATCGTCATCGGTGCCGGCGCGAACGCGATCCTCAGCCGCGAGTTCATCGAACGCCAGCGCGCGCTGATCGGCGGCGCCAGGGTGCTGCTGGCGCAGCTGGAATCGCCGGTCGACACGATAGAGGCCGCGCTCGCGCTGGCGCGCGAGGCCGGCGTGCTGACCGTGCTCAACGCGGCCCCGGCCAATGCGCAGAGCACCATCGGCCTGCTCAAGGCCACCGACGTGCTGACGCCGAACGAAACCGAGTTCGCCGCCCTGCTCGGCCGCCACGTCGGCGAACGCATCAACGCCGACGACGTCGCCGCACTGGACGGCAATACGCTGCACGCGCTGTGCCGCAAGCTGCTGCCCGGCGGCACGGTCATCGTCACGCTCGGCTCGGTCGGCGCCTTCATCTCGCACGACGACGACAACCTGCGCGGCGACAGCCAGCCCTATTACCGGGTCGGCGCCGAACCGGCGCAGACGATCGACACCACCGGTGCCGGCGATGCCTTCAACGGCGCGCTGGTGGCGTCGCTGGCGCGGCTGCCGGCGGCGCCGTTCGCCTCGCACGTGCGCTTCGCCAACCGCTACGCCGCACGCTCGACCGAGGGCGAAGGCGCCGCCGCGTCGATGCCGCACCTGGTGCCGGAGCCGGCCTGA	MSSVVVVGSFNVDHVWRCDALPAPGATIAGRYSTGPGGKGFNQAVAAKRAGADAHFLCALGDDAGGAMARGLAADDGFALIAEPSSEPTGTGGIYVDTHGRNTIVIGAGANAILSREFIERQRALIGGARVLLAQLESPVDTIEAALALAREAGVLTVLNAAPANAQSTIGLLKATDVLTPNETEFAALLGRHVGERINADDVAALDGNTLHALCRKLLPGGTVIVTLGSVGAFISHDDDNLRGDSQPYYRVGAEPAQTIDTTGAGDAFNGALVASLARLPAAPFASHVRFANRYAARSTEGEGAAASMPHLVPEPA	PGPT0017405_1026	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
BMS020_03740	1299	nupX_1	COG1972	Putative nucleoside permease NupX	ATGGTCGAGGGTTTGTGGAGGGTCGGCTTCGGCCTGTTCGGACTTGCGGTTCTGCTCGGCATCACCTGGCTGTTCTCCAACAACCGCCGCGCGGTCGACTGGAAACTGGTCGGCACCGGCGTGGCGCTGCAGATCGGCTTCGCCGCCCTGGTGCTGCTGGTGCCGGGTGGCCGCACCGCGTTCGACTGGCTCAGCAAGGGCTTCGTCAAGGTGCTCAGCTTCGTCAATGAAGGCTCGACCTTCATTTTCGGCAGCCTGATGGACACCAAGACCTACGGCTTCATCTTCGCCTTCCAGGTGCTGCCGACGATCATCTTCTTCTCGGCGCTGATGGGCGTGCTGTACCACCTCGGGGTGATGCAGGCGGTGGTGCGCGCGATGGCCTGGGCGATCACCAAGGTGATGAAGGTCTCCGGCGCGGAAACCACCAGCGTCTGCGCCAGCGTGTTCATCGGCCAGACCGAGGCGCCGCTAACGGTACGCCCGTACATCGCCAAGATGACCCAGTCCGAGCTGATCACGATGATGATCGGCGGCATGGCGCACATCGCCGGCGGCGTGCTGGCCGCCTACGTCGGCATGCTCGGCGGCGGCGACCCGGCGCAGCAGGCGTTCTATGCCAAGCACCTGCTGGCGGCCTCGATCATGGCCGCGCCGGCGACCCTGGTGGTGGCCAAGCTGCTGGTTCCGGAAACCGGCACGCCGCTGACCCGCGGCACGGTCAAGATGGAAGTGGAGAAGACCACCAGCAACATCATCGATGCGGCCGCCGCTGGCGCCGGCGACGGCCTGCGGCTGGCGCTGAACATCGGCGCGATGCTGCTGGCCTTCATCGCGCTGATCGCGCTGATCAATGCGCCGCTGACCTGGTTCGGCGACGTGTCCGGGATCGCCGCGGCGATCGGCAAGCCGACCAACCTGTCGACGATCTTCGGCTACGTGCTGGCGCCGGTGGCCTGGGTGATCGGCACGCCGTGGGCGGACGCGACCACGGTCGGCGCGCTGATCGGCCAGAAGGTGGTGATCAACGAATTCGTCGCCTATACCGAGCTGTCGCAGATCGTGAACGGCCAGGTGCCGGGCATGATGCTGAGCCGCGAGGGCGCGCTGATCGCGACCTACGCGCTGTGCGGCTTCGCCAACTTCAGCTCGATCGCGATCCAGCTCGGCGGCATCGGCGGGCTCGCCCCGGAGCGCCGCCACGACCTGGCCAAGTTCGGCCTGCGGGCGGTGCTCGGCGGCTCGATCGCGACCTTCATGACCGCGACCATCGCCGGCGTGCTCTCGCATTTCGGTTGA	MVEGLWRVGFGLFGLAVLLGITWLFSNNRRAVDWKLVGTGVALQIGFAALVLLVPGGRTAFDWLSKGFVKVLSFVNEGSTFIFGSLMDTKTYGFIFAFQVLPTIIFFSALMGVLYHLGVMQAVVRAMAWAITKVMKVSGAETTSVCASVFIGQTEAPLTVRPYIAKMTQSELITMMIGGMAHIAGGVLAAYVGMLGGGDPAQQAFYAKHLLAASIMAAPATLVVAKLLVPETGTPLTRGTVKMEVEKTTSNIIDAAAAGAGDGLRLALNIGAMLLAFIALIALINAPLTWFGDVSGIAAAIGKPTNLSTIFGYVLAPVAWVIGTPWADATTVGALIGQKVVINEFVAYTELSQIVNGQVPGMMLSREGALIATYALCGFANFSSIAIQLGGIGGLAPERRHDLAKFGLRAVLGGSIATFMTATIAGVLSHFG	PGPT0021070_371	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021070-TC_CNT|nupX-K03317	NA	NA
BMS020_03741	969	gpr_1	COG0667	L-glyceraldehyde 3-phosphate reductase	ATGCTTTACCGCCGCCTCGGTTCCACCGGCCTGCAGTTGTCCGCGTTGTCCTTCGGCGCCTGGGTGACCTTCGGCCAGCAGGTCGCCCGCGACGAGGCCCGCAACCTGGTCGCCTGCGCCTGGGACCACGGGGTCAACTTCTTCGACAACGCCGAGACCTATGCCAACGGCCGCGCCGAGCAGGTCATGGGCGACGTGATCGCCGACCTGCGGCTGCCGCGCGACGGCTACTGCGTGTCGAGCAAGGTGTTCTTCGGTGCGGTCGACAACCCGGCGCCGACCCAGCGCGGGCTGTCGCGCAAGCATGTGGTCGACGCCTGCGAGGCGGCGCTGCGGCGGCTGCGGGTGGACTACCTGGACCTGTATTACTGCCACCGCCCGGACCCGGACACCCCGATCGAGGAGACCGTGCGGGCGATGGACCTGCTGGTGCGCCAGGGCAAGGTGCTCTATTGGGGAACCTCGGAATGGTCGGCCGCGCAGATCGGCGAGGCGCTGGCCCTGGCGCGCGCCGAGCGGCTGTTCGGGCCGTCGATGGAGCAGCCGCAGTACAACCTGCTGCACCGGCAGCGGGTCGAGCGCGAATATGCCGAGCTGCTGCAGCAGGGGCTGGGCACCACGATCTGGTCGCCGTTGGCGTCGGGCCTGTTGACCGGCAAGTACGACGACGGCGTGGGCGAGGGCACGCGCCTGGCGCAGCCGGGCTACGAATGGCTGCGCGACGCGGTCCTGCACGGCGAGGATGGGCGGCGCCTGCAGCGGGCGCAGCGCTTCTCGGCGGTGGCCCGCGAGCTGGGCGAAGCGCCGGCGGCGTTGGCGATCGCCTGGTGCCTGCGCAATCCGCAGGTGTCCAGCGTGATCCTCGGCGCCAGCCGGGTCGGCCAGCTCGAGCAGAACCTGCAGGCGCTGGATGTGTTCGCACGCTGCGACGCGACGACCTGGACCAGGCTGGAGGCGGCGGTGGCCTGA	MLYRRLGSTGLQLSALSFGAWVTFGQQVARDEARNLVACAWDHGVNFFDNAETYANGRAEQVMGDVIADLRLPRDGYCVSSKVFFGAVDNPAPTQRGLSRKHVVDACEAALRRLRVDYLDLYYCHRPDPDTPIEETVRAMDLLVRQGKVLYWGTSEWSAAQIGEALALARAERLFGPSMEQPQYNLLHRQRVEREYAELLQQGLGTTIWSPLASGLLTGKYDDGVGEGTRLAQPGYEWLRDAVLHGEDGRRLQRAQRFSAVARELGEAPAALAIAWCLRNPQVSSVILGASRVGQLEQNLQALDVFARCDATTWTRLEAAVA	PGPT0008285_1820	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-HYDROXYACETONE_VOLATILE_BIOSYNTHESIS,PGPT0008285-yghZ-K19265	NA	NA
BMS020_03742	195			hypothetical protein	ATGACCGCACACCCTGTTCTGCTTCGCCCGGAAACCCTGAGCCTGCGCGAGCGCCCGATGCGCGCGGTGCCCGCCGAGGAAACGCTGAGCAGCGAGGCCCTGCTGAAAGGCCGTCGCGAGGTGCTCATCCAGCACGGCGACCGGGTCTACCGGCTGCGCCACACCAGCAACGACAAGCTGATCCTCACCAAGTAA	MTAHPVLLRPETLSLRERPMRAVPAEETLSSEALLKGRREVLIQHGDRVYRLRHTSNDKLILTK				NA	NA	NA	NA	NA
BMS020_03743	609			hypothetical protein	ATGTTCGGCGTTCCCTTGGAAGTCGCAACCCTCTCTCCCCCCTGGTCGCCAGGCGAGGCGCCCGCTGCCGCGGGTTCGCCGGGGCCGGGGGCTCTCCACCGTCTGCCGCACCCGCGCCAGCTGGCCGCGCTCGGCAGCGTGCTTTGCCTGTTCCGGCCCGGACTGGGCGGCGAACTGGCCGGCTGGGCGAACGCACGGTCGGTCGCCTCGCAGGTGCTGATGGACAGCGACGGCCTGCACGAGAGCCTGTGGTTCCTCGATGCGCAGGGCCAGTGCTGCTGGAGGTTGCACCTGCTGCCGGACAGCGATTTCCTGGCCTGGGACCAGCTGGCCTCGCAGCTGCCGGTGCTGGCCGGGGAGGCCGCGGCCACCGCCACCGGCAGCCATGTCGGCGAGCGCCTGTGGCGACGCCTGGCCGGGCGGCTGAAGAGCGGCCAATGGTTGGCCAGCCCGCTGCGGCTGCACGCGGTCGGTAACGGCGGCGGGCAGCTCGCGCTGGGGCCGGCGGCGCTGTCGACGTGTGGGTGGGAGCGGATGCAGCGCATCGCCCAGGGCGAGGGCGCGGAATGGGCGATGCCGCTCGCGCCAGGGCGCGCCGCTATTCCTTGA	MFGVPLEVATLSPPWSPGEAPAAAGSPGPGALHRLPHPRQLAALGSVLCLFRPGLGGELAGWANARSVASQVLMDSDGLHESLWFLDAQGQCCWRLHLLPDSDFLAWDQLASQLPVLAGEAAATATGSHVGERLWRRLAGRLKSGQWLASPLRLHAVGNGGGQLALGPAALSTCGWERMQRIAQGEGAEWAMPLAPGRAAIP				NA	NA	NA	NA	NA
BMS020_03744	351			hypothetical protein	ATGCCCGCCCCGCTCACCGCCTACCTGTACCCGGTCCTGCTGCTGCTCGCCAGCAACGTGTTCATGACCATCGCCTGGTACGGACACCTGAAGTTCAAGAGCGCCCCGCTGCTGCTGGTGATCTTCGCCAGCTGGGGCATCGCCTTCTTCGAATACTGCCTGCAGGTACCGGGCAACCGCCTGGGCAGCGCGGTGTACTCGGCGCCGCAGCTGAAAGGCATCCAGGAGGTGATCACGCTGCTGGTGTTCGCCGGCTTTTCCGCCAGCTACCTGGGACAGCCGCTGCGGTGGAACCATTGGGCGGCATTCGCACTGATCGTGGTTGCCGCGGTGCTGATGTTCAAGGAATAG	MPAPLTAYLYPVLLLLASNVFMTIAWYGHLKFKSAPLLLVIFASWGIAFFEYCLQVPGNRLGSAVYSAPQLKGIQEVITLLVFAGFSASYLGQPLRWNHWAAFALIVVAAVLMFKE				NA	NA	NA	NA	NA
BMS020_03745	2481			hypothetical protein	ATGAACGTGATGCGCCAGGCGCTGCGGGCGGTGCGGCGCGAATTCCTCGCCGGCGACCTGCTGACGGTATTCGCCGCCCTGGTCCTGGGTGTGGCGGTGATGACCGCGGTCGGCACCCTGGTCGACCGCGTCACCCTCGCGCTCACCTCGAGCGCCGCCGAAGTGCTCGGCGGCGACCTCGGCGTCACCGGGCGCGAGGACATCCCCGATGCCTTCGCCGAGGAAGCCGCGCGGCGCGGCCTGCGCAGCACGCGCATGGTCGCCTTCCCCAGCGTGCTGTTCCACGGCGACGCCAGCCAGATGGCCAACATCCGCGCGGTCGCCGCCGGCTACCCGCTGCGCGGCGCGTTGCTGGTGGCGCACGCCGCCAACGCCCCTGCGACTCCGTCCGGTCCGCCACCGCCGGGCCAAGCCTATGCCGACCCGCGCCTGCTCGAAGCGCTCGGCCTGCAACTGGGCGACGCGCTGGAATTCGGCGCCGGCACGCTCAAGGTCAGCGGCATCCTGCGCGCCGAACCGGACGCCTCCGGCGAGCTGCTGCAGTTGTCGCCACCGCTGATGGTCAACCGCGCCGACGTCGACGCAGCCGGCCTGCTCGGTCCCGGCAGCCGCGCCTCGTACCGGCTGATGTTCGCCGGCGACGCCGGCGCGATCGCCGCGCTGCGCGACTGGCTCAAGCCGCGCGCCAGCGCCTTCCGCCTGGTCGGCATCGAGGACACCCAGCGCGGGCTGCGGGCGGCGTTCGATCGCGCCGGGCGTTTCCTGTCGCTGTCGGCGCTGCTGGCGGTGCTGCTGTCCGGCGTCGCCACGGCGCTGGCGGCAAACCGCTTCGCGCTGCGCCGGATCGACACGGTGGCGGTGCTGCGCTGCCTCGGCGCCCGCCAGCGCGACGTGCTGGCGACGTTGGCACTGCAGCTGCTGCTGGTGGCGCTACCGGCCTGCCTGCTCGGCATCGTGCTGGGCATGCTCGCGCAGGAGGGCCTGGTGCAGGCGCTCGGCAGCCTGGTGCCCGATCGCCTGCCGCTGCCGCAGGCCACGCCCGCCCTGGCGGGCGCCGGCATCGGCCTGCTGTTGCTGTTCGGCTTCGGCCTGCCGCCGCTGTTGCGGCTGCGCGGCGTGCCGCCGATGCGCGTGCTCAACCGCAGCTTCGCGAGCACGCCACCGACCTCGATCCTGGCCTATGTCGCTGCCTTGGCGGCGACCGTGGCACTGGCGGTGCATGCCACCGGCGACGCGACACTGGCGGCCTGGGTGCTGGGCGGACTGGCGGCGCTGGCACTGGTCGCCGCGCTGGCCGGCGCGACGCTGCTGGCCGCGCTACGCCTGCTGCAACACCGGTTGCATGGCGCCTGGCGGCTGGGCCTGGCCTCGCTGACCCGCCGTCGCGCGCTTGGCGTGGTCCAGCTGGTCGGCCTGTCGCTGTCGCTGTGCGCGCTGTTGCTGCTGGCGGTGATCGGGCCCGGCCTGCTCGCGCAGTGGCGCGAACGCCTGCCGGCCGATACGCCGAACTACTTCCTGATGAACATCCAGCCGGACCAGGCTGGACATGTGCTGGCGCACCTGCGCGGGCTTGGCGTGGACGATGCCGACGCCGAGCCGTTCAGCACCGGGCGCCTGGTGGCGATCAACGGCAAGCCGCCACGACGCCTGGATCGCGCCCCGGACGACGATGGCGAGGGCGACAACCGGCCGGTGAACTATTCCTGGCGCAGTCGTTTCCCCGCCGCCAACAGCCTGGTCGCCGGCCGTTTCTGGAGCGCCGACAGCACGGCCGCCGAGGCCTCGGTCGAGGAAGGCTGGGCGCAGCGCTACGGGCTGGCGCTGGGCGACCGCATCACCTTGCTGATGGGCGAGCAGCAGCGCAGCTTCACCGTGACCAGCCTGCGCAAGGCCAACTGGGACTCGTTCCGGGTCAACTTCTTCCTGCTGCTCAACCAGGGGGCGGTCGGCGATGCGCCGTACAACCTGATCTCCAGTTTCCATCTGCCGCCGGCCCAGGCGCCGCAACTGGCCACGCTCACCCGCACCTACCCCAACGTCTCGGTGCTCGACATCGACGCGATCCTGAGCCGCGTGCGCGACGTGATGGAACGGGTCGGCCAGGCGGTGCAGCTGGTGATGGGCTTCAGCCTGCTCGCCGGCCTGCTGGTGCTGCTGGCCGCGCTGCAGGCCACCGCCGGCGAACGCCGCTACGACAGCGCGGTGCTGCGCACGCTCGGTGCCAGCAGCGCGCAGTTGCGCGGCGCGATGCTGGTCGAATTCGGCGTGCTCGGCGCCTGCGCCTCGCTGCTGGCGGTGGCCGCCGCTGCGGCGATCGGCGTGGCGATCGCCGACCGCGCCTTCAGCCTGATCCTGTCGCCGCCCTGGCTGCTGCTGCTGGCATGCGGCATCGGCGGCACCGCACTGAGCATGTTCGCCGGCTGGTGGGGCACGCGATCGATCCTGCGGGTACCGCCGGCGCTGGCGCTGCGCGAGAGCTGA	MNVMRQALRAVRREFLAGDLLTVFAALVLGVAVMTAVGTLVDRVTLALTSSAAEVLGGDLGVTGREDIPDAFAEEAARRGLRSTRMVAFPSVLFHGDASQMANIRAVAAGYPLRGALLVAHAANAPATPSGPPPPGQAYADPRLLEALGLQLGDALEFGAGTLKVSGILRAEPDASGELLQLSPPLMVNRADVDAAGLLGPGSRASYRLMFAGDAGAIAALRDWLKPRASAFRLVGIEDTQRGLRAAFDRAGRFLSLSALLAVLLSGVATALAANRFALRRIDTVAVLRCLGARQRDVLATLALQLLLVALPACLLGIVLGMLAQEGLVQALGSLVPDRLPLPQATPALAGAGIGLLLLFGFGLPPLLRLRGVPPMRVLNRSFASTPPTSILAYVAALAATVALAVHATGDATLAAWVLGGLAALALVAALAGATLLAALRLLQHRLHGAWRLGLASLTRRRALGVVQLVGLSLSLCALLLLAVIGPGLLAQWRERLPADTPNYFLMNIQPDQAGHVLAHLRGLGVDDADAEPFSTGRLVAINGKPPRRLDRAPDDDGEGDNRPVNYSWRSRFPAANSLVAGRFWSADSTAAEASVEEGWAQRYGLALGDRITLLMGEQQRSFTVTSLRKANWDSFRVNFFLLLNQGAVGDAPYNLISSFHLPPAQAPQLATLTRTYPNVSVLDIDAILSRVRDVMERVGQAVQLVMGFSLLAGLLVLLAALQATAGERRYDSAVLRTLGASSAQLRGAMLVEFGVLGACASLLAVAAAAAIGVAIADRAFSLILSPPWLLLLACGIGGTALSMFAGWWGTRSILRVPPALALRES	PGPT0013350_4906	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
BMS020_03746	606	lolD_2	COG1136	Lipoprotein-releasing system ATP-binding protein LolD	GTGGACTTGACGATCAATGAAGGCGACAGCGTCGCCATCGTCGGCGCCTCCGGCTCGGGCAAGACCACCCTGCTCGGCCTGCTCGCCGGGCTCGATCTTCCCTCGCGCGGACGCGTGGTACTGGCCGGGCACGACCTCGGCGCGCTGGACGAGGAGGCGCGCGCGGCGCTGCGCGCGCGCGAGGTCGGCTTCGTGTTCCAGAGCTTCCACCTGCTGCCGGCGCTGACTGCCGAGGAGAACGTCGCGCTGCCGCTGGAACTGGCCGGGCGCGAGGATCCGGCGCGGGTGCGCGAGGTGCTGGCGGCGGTCGGGCTGGACAAGCGCGCCCGCCATTACCCGCGCCAGCTGTCCGGCGGCGAGCAGCAGCGCGTGGCGCTGGCGCGTGCCTTCGTGGCGCGGCCGCGGATCCTGTTCGCCGACGAACCCACCGGCAGCCTCGACCAGCGCACCGGCCAGCAGGTCAGCGACCTGCTGTTCGCGCTCAACGCCGACAACGCCACCACGCTGGTGCTGGTGACCCACGACATGGCGCTGGCCCGGCGCTGCCACCACGTGCACCGCATCGACGGCGGCCGCCTGCATCCGCGCCAGGGCCTGCCGGCATGA	MDLTINEGDSVAIVGASGSGKTTLLGLLAGLDLPSRGRVVLAGHDLGALDEEARAALRAREVGFVFQSFHLLPALTAEENVALPLELAGREDPARVREVLAAVGLDKRARHYPRQLSGGEQQRVALARAFVARPRILFADEPTGSLDQRTGQQVSDLLFALNADNATTLVLVTHDMALARRCHHVHRIDGGRLHPRQGLPA	PGPT0013345_17560	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
BMS020_03747	642	tesA_2	COG2755	Esterase TesA	ATGGGATCAGGTCGTTCGTGTCGCCGGCTGCGTGGCTGGCTGGTGCTGCTTGCATGCTGGCTGCTCGTGCCGGCCTTCGCCTATGCCAAAGGTCCGGTGCTGGTGGTCGGCGACAGTCTCAGCGCCGCCCACAACATCGCGGTGCAGGAGGGCTGGGTCAGTCTGCTCGAACAGCGCCTGCAGGCACAGGTGAAGGCGCCGCCGGCGGTCGTCAATGCCAGCATCAGCGGCGAGACCACGTCCGGGGCGCTGACCCGCCTGCCGGGTCTGCTCGGCAAGCACCGTCCAGGCGTGGTGGTGATCGAGCTTGGCGGCAACGACGCGCTGCGCGGGCTGTCCCCGGCGCAGCTGCAGGCCAACCTGGACCGCATGATCCGGCTCAGCCGCGAGGCCGGGGCCTCGGTGCTGCTGCTGGGCATCGACGTGCCGCCGAACTACGGGCCGGCCTACCGCGCGCGCCTGCGCAAGGTCTACGCCGACCTCGCCGCCCAGCATGGGGTCGGACTGGTGCCGTTCCTGCTGGAAGGCGTGGCGCTGCAGCCGGGGATGATGCAGGCCGATGGCCTGCACCCGACCGCCGCCGGGGAGCCGCGGGTGCTGGAGAACGTCTGGCCAGCCCTGAGCAAGCTGCTAACTGACTGA	MGSGRSCRRLRGWLVLLACWLLVPAFAYAKGPVLVVGDSLSAAHNIAVQEGWVSLLEQRLQAQVKAPPAVVNASISGETTSGALTRLPGLLGKHRPGVVVIELGGNDALRGLSPAQLQANLDRMIRLSREAGASVLLLGIDVPPNYGPAYRARLRKVYADLAAQHGVGLVPFLLEGVALQPGMMQADGLHPTAAGEPRVLENVWPALSKLLTD	PGPT0001840_1092	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804	NA	NA
BMS020_03748	714	czcR_1		Transcriptional activator protein CzcR	ATGCGTCAGACCAAGGAAACGTCCGGACTCGTGCTGGTCGTCGAGGACAACCGCAACATCTCCGAAATGATCGGCGAATACCTGGAAGGGCGCGGCTTCGAGGTCGATTACGCCGTCGATGGCCTGGATGGCTACCGCCTGGCCGCCGAGAACAGCTACGACGTGGTGGTGCTGGACCTGATGCTGCCGCGGCTGGACGGCATCGAGGTCTGTCGCCGGCTGCGCAACGATGCGCGCAAGTCGACCCCGGTACTGATGCTGACCGCGCGCGACACGCTCGACGACAAGCTCACCGGGCTTGGCTTCGGCGCCGACGACTACCTGACCAAGCCGTTCGCGATCCAGGAACTGGAAGCGCGGCTGCGCGCGCTGATCCGCCGCGAGCGGCGCCAGGTTGGCTCGGAAGTGCTCAAGGTCGCCGACCTGGTGCTGGACCCGGTCAGCATGCGCGCCACCCGCGCCGGCACCGAGCTGCAGCTGTCGCCGATCGGCCTGCGCCTGCTGACCATCCTGATGCGCGAATCGCCGCGCGTGGTCAGCCGCCAGGAGATCGAGCGCGAGATCTGGGGCAACGGGCTGCCGGATTCGGACACGCTGCGCAGCCACCTCTACAACCTGCGCAAGATCATCGACAAGCCGTTCGACCGGCCGCTGCTGCACACCGTGCAGAGCGCCGGCTACCGCATCGCCGATATCGCCCAGCCGATGGGCTGA	MRQTKETSGLVLVVEDNRNISEMIGEYLEGRGFEVDYAVDGLDGYRLAAENSYDVVVLDLMLPRLDGIEVCRRLRNDARKSTPVLMLTARDTLDDKLTGLGFGADDYLTKPFAIQELEARLRALIRRERRQVGSEVLKVADLVLDPVSMRATRAGTELQLSPIGLRLLTILMRESPRVVSRQEIEREIWGNGLPDSDTLRSHLYNLRKIIDKPFDRPLLHTVQSAGYRIADIAQPMG	PGPT0004105_627	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
BMS020_03749	1272	sasA_5		Adaptive-response sensory-kinase SasA	ATGCCGTACGGGCTCCCCCGAAAAATCCGCATCGCCTTCATCGTGCAGGCCGCGCTGGCAAGCCTGGCCGTGGTGTTCGGTGCCTATCTGATCACCATCGTCGTCAAGCACAGCCTGATCCGCACCGTGCTCGCCGACGAGGCCGCGCATTTCTGGCAGCTGTACGCTGCCTCGCCGGCGCAGCCGCCGCCCAATACCTCCAACATGCGCGGATATCTGGTGCAGCCGGGCGAATCGCCGCTGGTGCTGCCGGACGATCTGCGCATGTTGCCGCCGGGCTTCCACGAGCTGCCCGTGGCCGACGAACTGGTGCTGGTCGATCGCCGCCAGAGCGGCACGCTGTACCTGGTGTTCCTGCGCTCGCAGGCGCAGCGGCTGGCGTTCTGGTTCGGCGTGGTACCGGTGCTGTTGATCCTGCTGGCGGTGTATGCGGTGTCGTGGGTGACCTACCGCATGTCCAAGCGCCTGGTGTCGCCGGTGAACTGGCTGGCGCGGCGCATCGCGCAGTGGGATCCGCGCCGCCCGGATGCCGACGAGCTGGCGCCGGAGCGGCTTCCGGCCGACCTGCAGGGCGAGACCCGGCAGCTGGCGCTGGCGCTGCATGCGCTGGCCACGCGCGTCGCCGAGCATGTCGCGCGCGAACGCAACTTCACCCGCGATGCCAGCCACGAGCTGCGCACGCCGCTGACCGTGGTGCGGGTGGCGACCGACATGGCACTGGCCGACGACGAGGTGCCGCCGCGGATGCAGCGCAGCCTGCGCCGCATCCAGCGTGCCGGGCGCGACATGGAGGCGGTGATCGACGCGTTCCTGATCCTGGCGCGCGAGGCCGAGGTGGAGCCGCAGAGCGAGACCTTCGAGGTGGCCGCGCTGGTCGAGGAAGAGGCCGACAACGCGCGCGAGCTGCTCGGCGAGAAGCCGGTGCGGGTGGACGTCGCGATCGGCACCGCGCTGCAGCTGCACGCCCCGCCGCGGGTGTTGCGGGTGGTGCTGAGCAACCTGTTGCGCAATGCCTGCGCCTACACCGATCGCGGCAGCGTGACCGTGGAGGTGCACGCCGATGCGGTAGTGGTGCGCGACACCGGCATCGGCATGAGCGAGGAGGCGCGGGCCAAGGCGTTCGAGCCGTTCTTCCGCGCCGACCCGAGCCGGCCGCAGGGTTCCGGGCTGGGGCTGTCGATCGTGCGACGGCTGTGCGACCGCTTCGGCTGGCGGATCGAACTGGAGAGCGAGCCTGGCGTCGGCACCGCGGTGGCGATCCGCTTCGTCTAG	MPYGLPRKIRIAFIVQAALASLAVVFGAYLITIVVKHSLIRTVLADEAAHFWQLYAASPAQPPPNTSNMRGYLVQPGESPLVLPDDLRMLPPGFHELPVADELVLVDRRQSGTLYLVFLRSQAQRLAFWFGVVPVLLILLAVYAVSWVTYRMSKRLVSPVNWLARRIAQWDPRRPDADELAPERLPADLQGETRQLALALHALATRVAEHVARERNFTRDASHELRTPLTVVRVATDMALADDEVPPRMQRSLRRIQRAGRDMEAVIDAFLILAREAEVEPQSETFEVAALVEEEADNARELLGEKPVRVDVAIGTALQLHAPPRVLRVVLSNLLRNACAYTDRGSVTVEVHADAVVVRDTGIGMSEEARAKAFEPFFRADPSRPQGSGLGLSIVRRLCDRFGWRIELESEPGVGTAVAIRFV				NA	NA	NA	NA	NA
BMS020_03750	843			hypothetical protein	ATGCAACGGACGACCGTCATCGGTACGGGGCAGCACGGGAAGGCCTGCGATTTTGCCACATCCGTGCCCCAACCGGCCCGCGGTTTGCCGCCGGCGCGCGCCGCGGGCACCATGGCAGGCCTGTTCCGCCTGACAGGATTGCCCGTGAAACACGCGTTCCTCCGCTCCGCCAGCCTCGCCCTCGTGCTGTTGGCCGGCCATGCCGGTGCCGCCCAGGCTGGCGCACCGCTGATCCCCGAACAGGTGTCCAACCCGGCCTGGCAGGCCGACATGCAGCGCTTTGCCGCGGCCGACGCCAAGGCGCCGCCGCCCAAGCACGGCATCCTGTTCATCGGCAGCTCGTCGATCCGCTTCTGGGAAAGCCTGGCGCAGGACTTCCCCGGCCAGCCGGTGATCAACCGCGGCTTCGGCGGCTCCGAGGTCCGCGACAGCACCTGGTACGCCGACCGCATCGTGGTGCCGTATGCGCCGCGCCTGGTGGTGTTCTACGCCGGCGACAACGACCTCGCCGCCGGCCGCTCGCCGGCGCAGGTGCGCGACGACTTCCTGGATTTCGTCCAGCGCGTGCGCCGCGACCTGCCGCAGACCCGCATCGCCTACATCTCGATCAAGCCGAGTCCGTCGCGCGCCGAGCTGATGCCGAAGATGGCCGAAGCCAACGCGCTGATCCGCGATGTCGCCGCGCGCCTGCCGCAGGTGGACTACATCGACGTCTACAACCGCATGCTGGATCCGCAGGGCCACGCCCGCCCGGAACTGTTCCGCCAAGACCAGCTGCACATGACCGCGGACGGCTATGCGATCTGGCGCGATGCGGTCGCCCCGGAACTGACCCGCCGCTGA	MQRTTVIGTGQHGKACDFATSVPQPARGLPPARAAGTMAGLFRLTGLPVKHAFLRSASLALVLLAGHAGAAQAGAPLIPEQVSNPAWQADMQRFAAADAKAPPPKHGILFIGSSSIRFWESLAQDFPGQPVINRGFGGSEVRDSTWYADRIVVPYAPRLVVFYAGDNDLAAGRSPAQVRDDFLDFVQRVRRDLPQTRIAYISIKPSPSRAELMPKMAEANALIRDVAARLPQVDYIDVYNRMLDPQGHARPELFRQDQLHMTADGYAIWRDAVAPELTRR				NA	NA	NA	NA	NA
BMS020_03751	381	dgkA_1	COG0818	Diacylglycerol kinase	ATGGCCGATCAGCTCGGGCACCTGCCGCGTGGCCCCCGCCGCATCGTCAAGGCCGCACAGTGGTCGTGGCAGGGGTTGAAGGCGGCATGGCTGCATGAATCCTCGTTCCGCCTCGAAGTCTGCCTGAGCCTGGTGCTGGCGCCGTTGGCGCTGTGGCTGGGGCAGGGCGCGGTCGAACGCATCCTGCTGATCGGCAGCCTGTTGCTGGTGATGGCCGCGGAGCTGCTCAATTCGGCGATCGAAGCGGTGATCGAACGCTACGGTCCGGAACACCATGAACTGGCCGGACGCGCCAAGGACATGGGATCGGCGGCGGTGTTCATGCTGATGATGAACGTGGTGCTGTGCTGGGGCCTGATCCTGGTTCCCAGGTTGTTCTAA	MADQLGHLPRGPRRIVKAAQWSWQGLKAAWLHESSFRLEVCLSLVLAPLALWLGQGAVERILLIGSLLLVMAAELLNSAIEAVIERYGPEHHELAGRAKDMGSAAVFMLMMNVVLCWGLILVPRLF	PGPT0024340_3896	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024340-dgkA|DGK-K00901	NA	NA
BMS020_03752	750			hypothetical protein	ATGCTGCTCGAGCTGCTCACCGACCCCAATGCCTGGCTGACCCTGATGACGCTGAGCGCGCTCGAGATCGTGCTGGGCATCGACAACCTGGTGTTCATCTCGATCGCGGTGAGCAAGCTGCCCGAGGAGCGCCGCCCGTTCGCGCGCCGGCTCGGCATCGCCGTGGCCTGCATCACCCGCATCGCGCTGCTGGTGTCGTTGGCCTACCTGGCGCACATGGAGGCGAACCTGTTCCACGTCGGGACGCTGGGCATCTCGATCCGCGACCTGGTGCTGATCATCGGCGGCGTGTTCCTGTTCGTGAAGGGCGCCATGGAGATCCGCGAAATGCTCTCCGGCGGCGAGGACCATGACCCGACCACCGGCAAGGCGACCGGCGTGTTCGGCCTGGTGATCCTGCAGATCGCGATCATCGACATCGTGTTCTCGCTGGATTCGGTGATCACCGCGGTCGGCATCGCCGAGCACGTGCCGGTGATGATCGGCGCGATCCTGCTGTCGGTGGCGGTGATGCTGCTGGCGGCCAATCCGCTCGGTCGCTTCATCGATGCCAACCCGACCGTGAAGATGCTGGCGCTGGCCTTCATCCTGATGATCGGCGTGGTGCTGGTGCTCGACGGCCTCGACGTGCACGTGCCCAAGCCCTACATCTACAGCGCCATGGGCTTCTCGGTGCTGGTGGAGTGGTTGAACCTGCTGATGCGCCGCCGCGCGGCCGCGCACGACGTGCCCGGCGCCGGCAAGTGGTGA	MLLELLTDPNAWLTLMTLSALEIVLGIDNLVFISIAVSKLPEERRPFARRLGIAVACITRIALLVSLAYLAHMEANLFHVGTLGISIRDLVLIIGGVFLFVKGAMEIREMLSGGEDHDPTTGKATGVFGLVILQIAIIDIVFSLDSVITAVGIAEHVPVMIGAILLSVAVMLLAANPLGRFIDANPTVKMLALAFILMIGVVLVLDGLDVHVPKPYIYSAMGFSVLVEWLNLLMRRRAAAHDVPGAGKW				NA	NA	NA	NA	NA
BMS020_03753	624	lemA	COG1704	Protein LemA	ATGCGTCTGTTGATTCGCGCGCTGCTGCTGTCGGTGCTCGTCGCCGGCCTGGCGGGCTGCGGCTACAACACGATCCAGCAGAAGGACGAAGCGGTGAAGGCCGGTTGGTCCGAGGTGCTCAACCAGTACCAGCGCCGGTACGACCTGATTCCGAACCTGGTCAACACGGTGAAGGGCTATGCGCAGCATGAGCAACAGGTGCTGACCCAGGTCACCGAGGCGCGCGCCAAGGTCGGGCAGATCAAGGTCGATGCCGCGGACGCACAGTCGCTGGCGCAGTTCCAGCAGGCGCAGGGCGAGCTCGGTGGCGCGCTGCAGCGGCTGATGGTGGTCAGCGAGAACTACCCGCAGCTCAAGGCCGATGGCTCCTTCCGCGACCTGCAGGCGCAGCTGGAAGGTACCGAGAACCGCATCGCCGTCGCCCGCGGGCGCTACATCCAGTCGGTGCAGGACTACAACACCTACATCCGCCAGTTTCCGCAGGTGCTGACCGCCAAGGTCACCGGCGCCAAGGAAAAGCCCAACTTCAGCATTGCCAACGAGGCCGAGGTGACGCGCGCGCCGAGCGTGGATTTCGGTACGCCGCAGAGCGCCCCGCAGCCGGCGCCGCAGCCCGGCAACTGA	MRLLIRALLLSVLVAGLAGCGYNTIQQKDEAVKAGWSEVLNQYQRRYDLIPNLVNTVKGYAQHEQQVLTQVTEARAKVGQIKVDAADAQSLAQFQQAQGELGGALQRLMVVSENYPQLKADGSFRDLQAQLEGTENRIAVARGRYIQSVQDYNTYIRQFPQVLTAKVTGAKEKPNFSIANEAEVTRAPSVDFGTPQSAPQPAPQPGN				NA	NA	NA	NA	NA
BMS020_03754	918			hypothetical protein	ATGGTCGCAGCCAAGCCGGTCGCGCGCTGGATCGCCGTGGCGGCGCTGTGGCTGGCACTGCTGCTGCCGGTCGCGGCCAGCGCCGAGGTGGCGGTGCCGACGCTGGATGCACCGGTGGTCGACACCACCGGCACCCTGGATGACGCGCAGACACGGCAACTGGTGCAGCAGGCGCTGGAGCTGCAGCAACGCAAGGGCAGCCAGCTGCAGGTGCTGGTGGTGGCGACGACCCAGCCGGAGACGATCGAGCAATACACCCAGCGCGTGTTCGATGCGTGGAAGCTGGGGCGCAAGGGCGTGGACGACGGCGTGCTGCTGGTCGTGGCCAAGGACGACCGAAGGGTGCGGATCCAGCCGGGCTACGGGCTGGAGGGCGCGATCCCCGACGCGATCGCCAGCCGGATCATCCAGGAATATCTGGTGCCGCGGTTCCGCCAGGGCGATTACGCCGGCGGCATCGCCGAGGCCAGCGCGGTGCTGGTCAAACTGATCGACGGCGAGCCGTTGCCGGCGCCGGCGAGTACCCATGTGGCAGAGCCGGAGCGACGTTCCGGTGGCAGCTGGCTGATCGCGCTGGTGGTCGGGCTGATCGCCGCGAACGTCGCCCGCGGGCTGTTCGCACGGGCGCCGCGCCCGTTGCGCGCGCTGCTCAGTGGCGGCGCGGCCGGCGCCGCGGCGTTGATCGTGACCTCGCTGGTCGCCGCCAGCGGCGTCGCCGCCGTGCTTGGCCTGCTCATCGGCCTCTCTTCGGCCTCGGCCGGGCGGGCGGTCCGCGATGGTGGCTGGGGCAGCTGGGGCGGCGGCGGTTTCGGCGGTGGCGGCGGCTGGGGTGGAGGGGGCTTCGGCGGTGGTGGGGGTGGTGGTTGGGGCGGTGGCGGTGGATCGTCGGGAGGCGGTGGCGCCTCGGGGGGCTGGTGA	MVAAKPVARWIAVAALWLALLLPVAASAEVAVPTLDAPVVDTTGTLDDAQTRQLVQQALELQQRKGSQLQVLVVATTQPETIEQYTQRVFDAWKLGRKGVDDGVLLVVAKDDRRVRIQPGYGLEGAIPDAIASRIIQEYLVPRFRQGDYAGGIAEASAVLVKLIDGEPLPAPASTHVAEPERRSGGSWLIALVVGLIAANVARGLFARAPRPLRALLSGGAAGAAALIVTSLVAASGVAAVLGLLIGLSSASAGRAVRDGGWGSWGGGGFGGGGGWGGGGFGGGGGGGWGGGGGSSGGGGASGGW				NA	NA	NA	NA	NA
BMS020_03755	489			hypothetical protein	ATGCGGCTGTTGCGGCACCTGTTCGCGCCGTCGGCCCGGCGCCTGTTCCCGGCCGGGCGGCTGGACGCGATCGCGGCGGTGATCGGTGAGTGCGAGCGCGCCCATCACGGCGAGATCATGTTCGCAGTCGAAGCCGACCTGTCCGCGCTGGACGTCCTGCGCGGGGTCAGCCCGCGCCAGCGCGCCGAGCTGGCGTTCGCGCGGCTGCGGACCTGGGACACCGAGGCCAACAACGGCGTGCTGATCTACCTGCTGCTGGCCGACCACGCGATCGAGATCGTCGCCGACCGTGGCCTGCGCGGTCGCGTGGCGCCGGCGCAGTGGTGCCAGGTCTGCGAGCGGATGCAGGTTGGGCTGCGCGCCGGCGAGGTCGAGGCGGCGGTGGTGGCGGGCATCCGCGCGGTGTCGGCATTGCTGGAACAGCATTTTCCACGTGCGGCCGGCGCGGTCGACGAGGACGAGCTGCCGAACCGCCCACGCCTGCTCTGA	MRLLRHLFAPSARRLFPAGRLDAIAAVIGECERAHHGEIMFAVEADLSALDVLRGVSPRQRAELAFARLRTWDTEANNGVLIYLLLADHAIEIVADRGLRGRVAPAQWCQVCERMQVGLRAGEVEAAVVAGIRAVSALLEQHFPRAAGAVDEDELPNRPRLL				NA	NA	NA	NA	NA
BMS020_03756	906	lgt_2	COG0682	Phosphatidylglycerol--prolipoprotein diacylglyceryl transferase	ATGATCTATCTCCACCGCATCGATCCCATCGCCTTCTCGCTCGGTCCGGTGCAGGTGCACTGGTACGGCCTGATGTATCTGGCCGGGTTCGCCGCGGCCTGGTTGCTGGGCCGCCACCGCGTGCAGCAAGGGCGCCTGCCGGGCGTGGATGCCAATGGTTTCTCCGACCTGCTGTTCTACGCGATGCTGGGCGTGGTGCTCGGTGGGCGCGTCGGCTACATGCTGTTCTACGCGTTCGATGCGCTGCTGCAGAACCCGCTGGCGCTGTTCAAGGTGTGGGAAGGCGGCATGAGCTTCCATGGCGGCCTGCTCGGCGTGTTGGTCGCGCTGGCCTGGTGGGCGCGCAAGCACCGCACCCACGTCTTCGACGTGGTCGATTTCGTCGCGCCGCTGGTGCCGCTGGGGCTGGGATTCGGCCGGCTCGGCAATTTCGTCGGCGGTGAGTTGTGGGGCAAGTTCACCCAGGCCGGCTGGGGGGTGATCTTCCCGCATGCGCCGCTGTCGGACGTGCCCAGTGGCCAGCCGGCGATGGAGCAGCTGCTGTCGGCCGCGCAGATCCAGCAGCAGTACGCCGCCGGCCTGCTCGACCGCTATGCGCGCCATCCCTCGCAGCTGTACGAAGCGGCGCTGGAGGGCGTGGTGATGTTCGCAGTGCTGTGGACGTTCTCGCTGAAGCCGCGCGCGCGCTACGCGGTGTCCGGCATGTTCGCGCTGCTGTACGGCATATTCCGCTTCTGCGTGGAGTTCGTGCGCATGCCCGACAACGGCGTCTACGTCGCCTTCGACTGGCTGACCCGCGGGCAGATCCTGAGCCTGCCGCTGGTCGCGGTTGGCCTGTTCCTGCTGTGGCTGTCGCGCCGCGCGCCGGTGCTGCAGCCCGTTCCCACCGCCGAGGCGGCCAAGTGA	MIYLHRIDPIAFSLGPVQVHWYGLMYLAGFAAAWLLGRHRVQQGRLPGVDANGFSDLLFYAMLGVVLGGRVGYMLFYAFDALLQNPLALFKVWEGGMSFHGGLLGVLVALAWWARKHRTHVFDVVDFVAPLVPLGLGFGRLGNFVGGELWGKFTQAGWGVIFPHAPLSDVPSGQPAMEQLLSAAQIQQQYAAGLLDRYARHPSQLYEAALEGVVMFAVLWTFSLKPRARYAVSGMFALLYGIFRFCVEFVRMPDNGVYVAFDWLTRGQILSLPLVAVGLFLLWLSRRAPVLQPVPTAEAAK				NA	NA	NA	NA	NA
BMS020_03757	795	thyA_2	COG0207	Thymidylate synthase	ATGAAGCAATACCTGGATCTGCTCGGCCACGTGCTCGAGCATGGCGCCGAGAAATCCGACCGCACCGGCACCGGCACGCGCAGCGTGTTCGGCTGGCAGATGCGCTTCGACCTCAATGCCGGCTTCCCGCTGGTCACCACCAAGAAACTGCACCTGCGCTCGATCATCCACGAGCTGCTGTGGTTCCTGAAGGGCGAGACCAACATCGCCTACCTCAAGGACAACAACGTCAGCATCTGGGACGAGTGGGCCGACGCCAACGGCGACCTCGGCCCGGTCTACGGCAAGCAGTGGCGCAGCTGGGAAGGCGCCGACGGCCAGGTCATCGACCAGATGCAGTGGCTGGTGGAGGAGATCAAGCGCAATCCGGATTCGCGCCGGCTGGTGATCAGCGCCTGGAACGTGGCCGAGCTGCCGAAGATGGCGCTGATGCCGTGCCACAGCCTGTTCCAGTTCTACGTGGTCGACGGCAAGCTCAGCTGCCAGCTGTACCAGCGCAGCGGCGACATCTTCCTCGGCGTGCCGTTCAACATCGCCAGCTACGCGCTGCTGACCCACATGGTGGCGCAGGCGACCGGGCTGGGCGTGGGCGATTTCGTGCACACGCTCGGCGATGCGCACCTGTATTCGAACCACTACGAGCAGGCGCGCGAGCAGCTGGCGCGCGCGCCGCGCGCGCTGCCGACGCTGCGCCTGAATCCGCAGGTCACCGACCTGTTCGGGTTCCGCTTCGAGGACATCGCGATCGAAGGCTACGACCCGCTTCCGGCGATCAAGGCGCCGGTGGCGGTCTAG	MKQYLDLLGHVLEHGAEKSDRTGTGTRSVFGWQMRFDLNAGFPLVTTKKLHLRSIIHELLWFLKGETNIAYLKDNNVSIWDEWADANGDLGPVYGKQWRSWEGADGQVIDQMQWLVEEIKRNPDSRRLVISAWNVAELPKMALMPCHSLFQFYVVDGKLSCQLYQRSGDIFLGVPFNIASYALLTHMVAQATGLGVGDFVHTLGDAHLYSNHYEQAREQLARAPRALPTLRLNPQVTDLFGFRFEDIAIEGYDPLPAIKAPVAV	PGPT0008145_3873	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560	NA	NA
BMS020_03758	1041			hypothetical protein	ATGAGCAGGCGTTTGAGTGTGCTGCTGACCGTCGCAGCGCTGGCTGCGGCCAGCGGCATGGCGAGCGCCGGCACGGTCAGTGGACCCGCTGGCCGGCTGGTGCTGCCGGATGACATCACGGCCGTGGTCAGGCCGGCGAACGGGAATGCGGAGGTGAGCGTGGTGGTCGCGCTCACCCAGGCGTCGTCCGCGGCCTCGGGCCCGGCTGCGTTGGAGATGAGCTGCCTGCCCGCGTTCGGCCGGCTGGCGGAAAAGGGCGGCATGGAGCGCCTGTCCGCGGCGACGCTGAAGGTGGAGACGTCGCTCACGCTGGACAAGCCCGGTGAGTGGATCGAGATCGATGGGCTGCCGGCGTTCCATACCGACGCGTCGCGCCGGGACGGTACCCGGCTGACCCAGTGGATGATCACCCGTGGCAACGCGATTGCCTGGGTGAAGTTCGACCGACCGCGTGGCCTGCCGATGGAGCACGGCGTGCTTCAGGCCGTGTCCGCGATGACGGTCGGATGCGATGCCTCGGCTGCTGCTGCGGTGCGGGGCGAGATCGCGCGCGCCGCGTCGATGCATGCGCGGGCTGCGAAGCTGGCGCTGCCTGAGGGTGTCAGCGTGACGGAGGCTGCTGGTCTGCCGGAACTTCCCGGTCTTGCGCCGAGCACCGTGCTCACCCTGACCGGCGCCGAGCCGGATGCCGTGCCGGTCACCGTCGCGATGACCTGTGAGCGGGCCGTCGGCCGGCTCGAACCCATGGGGACGATGAAAGGGATCGAGCGGATGGCGTCGATGAGCTATTCGGCCAACAAGACACTGAAGCGTGAGCGGGGCAGCACCTGGATCAAGGTCGGGCGGCTGCCGGTCTATCGCACGCAGGGCGTGTACGAGGATGGTCGCCGCCTCACGCAATGGATGATGCCGCTGATCACGGCGTTCGTCTGGATCAAGTTCGAGCGGCCGGAGGGTGCGCCGCTGGAGCAGACGGTGACGGATGCCATCGAGGGCATGACCGTGCTGTGCGGCCCGATGGCCCCCTCGAAGGGCGCATGA	MSRRLSVLLTVAALAAASGMASAGTVSGPAGRLVLPDDITAVVRPANGNAEVSVVVALTQASSAASGPAALEMSCLPAFGRLAEKGGMERLSAATLKVETSLTLDKPGEWIEIDGLPAFHTDASRRDGTRLTQWMITRGNAIAWVKFDRPRGLPMEHGVLQAVSAMTVGCDASAAAAVRGEIARAASMHARAAKLALPEGVSVTEAAGLPELPGLAPSTVLTLTGAEPDAVPVTVAMTCERAVGRLEPMGTMKGIERMASMSYSANKTLKRERGSTWIKVGRLPVYRTQGVYEDGRRLTQWMMPLITAFVWIKFERPEGAPLEQTVTDAIEGMTVLCGPMAPSKGA				NA	NA	NA	NA	NA
BMS020_03759	501	dhfrIII		Dihydrofolate reductase type 3	ATGTTGAACCTCACGCTGATCGCCGCACTCGACCGCCGCAACGCCATTGGCCGCGACAACGCGATGCCGTGGCACCTGCCCGACGACTTCGCCCATTTCAAGGCGCTGACCATGGGCAAGCCGATCCTGATGGGGCGCAAGACCGCCGAATCGCTCGGGCGCGCACTGCCGGGGCGGACCAACCTGGTGCTGACCCGCTCCGGACAGGTGCCGTTCGCCGGGATGCAGGCGGTGGATTCGCTCGAAGCGGCGCTGGCGCAGGCGCGTGCCGAGGCGGCCACGGAACTGTGCGTGATCGGCGGCGGCGAGATCTACGCGCTGCTGCTGCCGCATGCCGAGGTGCTGCAGCTGACCCACGTCGACACGCAGATCGACGGCGCCGACGCGTACTTTCCGAAGCTCGATGCACAGCAGTGGCAGGAGGTCGCGCGGACCGCGCATCCAGCCGATGCGCGCCATGCGTTCGCGTTCGCGTTCGTCGAGTACCGGCGCCGCCGCTGA	MLNLTLIAALDRRNAIGRDNAMPWHLPDDFAHFKALTMGKPILMGRKTAESLGRALPGRTNLVLTRSGQVPFAGMQAVDSLEAALAQARAEAATELCVIGGGEIYALLLPHAEVLQLTHVDTQIDGADAYFPKLDAQQWQEVARTAHPADARHAFAFAFVEYRRRR	PGPT0007945_693	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007945-folA-K00287	NA	NA
BMS020_03760	993	apaH_1	COG0639	Bis(5'-nucleosyl)-tetraphosphatase, symmetrical	ATGAGCGTCTGGGCGATCGGTGACCTGCAGGGCTGCTACGACGCCACCCAACGGCTGCTGGAGAAGCTGCGCTTCGATCCGGCCCGCGACCGCCTGTGGTTCTGCGGCGACCTGGTCAACCGCGGCGGGCAGTCGCTGGAAACGCTGCGGCTGGTGCACTCGCTGCGCGAGAGCAGCGTGGTGGTGCTCGGCAACCACGACCTGTCGCTGCTGGCGATCGGCGCGCGTACCGAGGAAGAGCAGCGCAAGGTCAACCCCGACCTGCAGCGCGTGGTGCTGGCCGAGGACCGCGACGTGCTGCTGGACTGGCTGCGCATGCAGAAGCTGGTGCACGCCGACCGCGAGCTTGGCTGGATGATGATCCATGCCGGCCTCGCGCCGCGCTGGAGCACCGAGCAGGCCGAGCAGTACGCGCGCGAAGTCGAGCAGCAGCTGCAGGGTCCGGGCTACCGCAAGCTGCTGCGCAACATGTACGGCGACAAGCCGGGCTGGGCGCCGAACCTGACCGGCCACGACCGCTGGCGCGCGATCATCAACGTGCTGACCCGCATGCGCTACTGCACCCCGCGCGGACGCATCGCCACCGAGGACAAGGGCACGCCTGGCACCCAGGCGCAGGGCCTGTACCCGTGGTTCGAGGTGCCGGGGCGCCTGGAGCGCGACCTGAAGATCGTCTGCGGGCACTGGTCCACGCTGGGCCTGACCATCACCCAGGGCGTGCATGCGATCGACACCGGCGCGGTCTGGGGCGGCAAGCTCACCGCGCTGCAGCTGGACAGCGAGGACCTGCACCTGGTGCAGGTGGCCGGGCGCGAAGTCGATGGCCCACCGCCGGTCGCCCGCGCGCCCCGCCCCGGCCGTCCGCCGGCGCCAACGCCGACGGCCTCCGAACGCCCGCGCGCCGCACGTCGCAACCGCGGCCGTCGCCGTCGTGCACGCGGCGGCCAGGGCCAGGGCGGCGACACGCCGCCATCCGGCGGCAACCAGGACTGA	MSVWAIGDLQGCYDATQRLLEKLRFDPARDRLWFCGDLVNRGGQSLETLRLVHSLRESSVVVLGNHDLSLLAIGARTEEEQRKVNPDLQRVVLAEDRDVLLDWLRMQKLVHADRELGWMMIHAGLAPRWSTEQAEQYAREVEQQLQGPGYRKLLRNMYGDKPGWAPNLTGHDRWRAIINVLTRMRYCTPRGRIATEDKGTPGTQAQGLYPWFEVPGRLERDLKIVCGHWSTLGLTITQGVHAIDTGAVWGGKLTALQLDSEDLHLVQVAGREVDGPPPVARAPRPGRPPAPTPTASERPRAARRNRGRRRRARGGQGQGGDTPPSGGNQD	PGPT0021535_31	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021535-apaH-K01525	NA	NA
BMS020_03761	384	apaG_1	COG2967	Protein ApaG	ATGCACGATGCTTCCCGCTACCGGATCGAGGTCGAGGTCTCGCCCCGCTTCCTCGAACAGCAGTCCGCGCCGGCCGACGGCCGCTACGCGTTCGCCTATACGATCCGCATCCACAACCGCGGCGCGGTGGCCGCGCGCCTGATCGCGCGCCACTGGCAGATCACCGACGGCAACGGCCGGGTCGAGCACGTCGACGGCGAAGGCGTGATCGGCGAACAGCCGCGGCTGCGTCCGGGCGAGGACTACCAGTACACCTCCGGGGTGATGCTGGACACCGAACACGGCCAGATGCAGGGCCACTACGACATGGTCGCCGACGACGGTACCGAGTTCACCGCACCGATCTCCGCCTTCGTGCTGAGCGTGCCCAGGACGCTGCACTGA	MHDASRYRIEVEVSPRFLEQQSAPADGRYAFAYTIRIHNRGAVAARLIARHWQITDGNGRVEHVDGEGVIGEQPRLRPGEDYQYTSGVMLDTEHGQMQGHYDMVADDGTEFTAPISAFVLSVPRTLH	PGPT0004665_999	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-RELATED_ROTEINS,PGPT0004665-apaG-K06195	NA	NA
BMS020_03762	804	rsmA_1	COG0030	Ribosomal RNA small subunit methyltransferase A	GTGAATACCCGTCCGCCCGCCACCGAATTCGGCGCCGCCAAGAAGCAGTTCGGCCAGCACTTCCTGCACGAACGCGCCTACATCGACCGCATCGTGCAGGCGGTCAATCCACTGCCGGGCGAACGCGTGGTCGAGATCGGCCCCGGCCAGGGCGCGATCACCCTGCCGCTGCTGCGCCGCCATGGTGCGCTGACCGTGATCGAGTTCGACCGCGACCTGATCGCGCCGCTGACCGCAGCCGCGGCGCCGCTCGGCGAGCTGACCATCATCCACCGCGACGTGCTGACCGTGGACTTCGGCGCGCTCGGCGAGAACGGCAAGCCGATCCGGCTGGTCGGCAACCTGCCCTACAACATCTCCTCGCCGATCCTGTTCCACACGCTCGAACACGCCGCGGCGATCGCCGACATGGTGTTCATGCTGCAGAAGGAAGTGGTCGATCGCATGGCCGCCGGCCCCGGCAGCAAGGTCTATGGGCGGCTCAGCGTGATGCTGCAGGCCTACTGCCAGGTGCAGCCGCTGTTCGTGGTGCCGCCGGGCGCGTTCCGGCCGCCGCCGAAGGTCGATTCGGCAGTGGTGCGGCTGGTGCCACGCGATCCGGCCAGCATCGGCATCGACGACCGCAAGCGGTTTGCCGACGTGGTGCGCGCCGCGTTCGGGCAGCGCCGCAAGACGCTGCGCAACGCACTGTCCACGGTCTGCGATGCGCGCCATTTCGAAGCCGCCGGCGTGCGTGCCGACGCGCGCGCCGAACAGCTGGATGTCGCCGACTTCATCGCCCTGGCCAACGTCGTGGTGGATTGA	MNTRPPATEFGAAKKQFGQHFLHERAYIDRIVQAVNPLPGERVVEIGPGQGAITLPLLRRHGALTVIEFDRDLIAPLTAAAAPLGELTIIHRDVLTVDFGALGENGKPIRLVGNLPYNISSPILFHTLEHAAAIADMVFMLQKEVVDRMAAGPGSKVYGRLSVMLQAYCQVQPLFVVPPGAFRPPPKVDSAVVRLVPRDPASIGIDDRKRFADVVRAAFGQRRKTLRNALSTVCDARHFEAAGVRADARAEQLDVADFIALANVVVD				NA	NA	NA	NA	NA
BMS020_03763	981	pdxA_1	COG1995	4-hydroxythreonine-4-phosphate dehydrogenase	ATGACGGTACCGGCGCTCGCGCTGGTTCCCGGCGAACCCGCCGGCATCGGCCCGGAGCTGGTGGTCCAGCTCGCCCAGCAGCCGCGCAGCGATGCGCGGCTGCTTGCGTTTGCCGATCCCGACAACCTGCACCAGGCCGCCGCCGCGCTGTCGCTGCCACTGCGCCTGCTGGCACCCGACCAGCAGGCGCGCGCCCCCGGCGACCTGTGCCTGCATGAGGTCCGCCTGGCCGCCCCCAGCCGCTTCGGACAAGCCGACCCGCGCAATGCGGCGGCGGTGATCGAAGCGCTGCATGCCGGCGCCGCGGCCTGCCTGCGGGGCGAGCTGCACGGCATCGTCACCGGCCCGGTCCACAAGGCGGTGATCAACCAGGGCGGCATCGCCTATACCGGCACCACCGAGCTGCTCGCGCAGCAGGCCGGCTGCGAGGTGGTGATGATGCTGGCCAACGCCATCGTCCGCGTCGCCCTGGTCACCACCCACCTGCCGCTGCGCGCGGTCCCCGATGCGATCACCGCCGACGCCCTGACACGCTGCCTGCGCATCACCGACGCGGCGATGCGCCGCGACTTCGGCATCGCGCGCCCGCGCCTGGCGGTGCTCGGGCTGAACCCGCATGCCGGCGAGGACGGCCACCTCGGCCGCGAGGAACTGGACCTGGTCATTCCGGTGCTGGAACGCCTGCGCAGCGAGGGCCTGGACCTGCGCGGCCCGCTGCCGGCCGATACCGCGTTCCTGCCGCAGAAGCTGCACGACGTCGACGCGGTGGTCGCGATGTACCACGACCAGGGCCTGCCGGTACTGAAATACAGTGGCTTCGAGCAGGCCGTGAACATCACCCTCGGCCTCCCCTACCCGCGCGTGGCGGTCGACCACGGCACCGCACTGGACCTGGCCGGCAAGGGCATCGCCGACCCGTCGAGCCTGTTCGCCGCCACCGCCACCTGCGCCCGGTTCGCCGCCGCCCGCCGCGCCGGCTGA	MTVPALALVPGEPAGIGPELVVQLAQQPRSDARLLAFADPDNLHQAAAALSLPLRLLAPDQQARAPGDLCLHEVRLAAPSRFGQADPRNAAAVIEALHAGAAACLRGELHGIVTGPVHKAVINQGGIAYTGTTELLAQQAGCEVVMMLANAIVRVALVTTHLPLRAVPDAITADALTRCLRITDAAMRRDFGIARPRLAVLGLNPHAGEDGHLGREELDLVIPVLERLRSEGLDLRGPLPADTAFLPQKLHDVDAVVAMYHDQGLPVLKYSGFEQAVNITLGLPYPRVAVDHGTALDLAGKGIADPSSLFAATATCARFAAARRAG	PGPT0009165_2240	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009165-pdxA-K00097	NA	NA
BMS020_03764	1374	surA_2	COG0760	Chaperone SurA	ATGACCAAGCCTTTCTCTGCCCTCCTCGCTTCGCTGCTGGTCGTTTCCAGCGCCTTCGCGCCCGCTGCCCGGGCGCAGCAGACCCAGCCGCTGGATCGCATCGCCGCAATCGTCGACGAGGACGTGGTGCTGCAGAGCGAACTGGATCGTGCCATCCACAACGTCAAGGCCCAGTACGCCGGCCGCGAGAACCAGCTGCCGCCGGATGATGTGCTGCAGCGCCAGGTGCTCGAGCGCCTGATCCTGGTCAAGCTGCAGGTCGCCCGTGCCCAGGACAGCGGCATCCGCGTCGGCGACGAGGAGCTCAACCGCGCCATCGGCACCATCGCCCAGCAGAACGGCACCGACGTCAACGGCCTGCGCCAGAAGCTCGCCGCCGACGGCATGTCCTTTGACGACTTCCGCAACTCGGTGCGCGACGAGATCACCGTGCAGCGCCTGCGCCAGAGCTTCGCCCAGAGCCGCATCAGCGTCAGCGAAGGCGAGGTCGACGCGGCGATGGCCCAGCAGGCCAGCAGCGGCAGCCAGTACCACCTGGCGCACATCCTGATCGGCCTGCCCGACGGCGCCAGCGCCGAGCAGATCGCCACGGGCCAGAAGAAGGTCGATGGCGTGAAGCAGCTGATCGACAAGGGCGAGCTGGATTTCGCTGCCGCCGCGGTGCGCTACTCCGACAGCCCCAACGCGCTGGAAGGCGGCGACCTGGGCTGGCGCAGCCTGGACGAGATCCCGAACGCGTTCGCGCAGATGATCCGCGACATGAAGCCCGGCCAGGTGGTCGGCCCGCTGCGCGGCCCGAGCGGCTTCCAGCTGCTGAAGCTGGTCGAGATCCGCGACGGCGGTTCCGATGCGCAGAAGCAGCTGGTGACCGAGTACCACGCCCGCCACATCCTGGTCCGCGTCAACGAAAGCCAGAGCGCCGACGCCGCCAAGGCCAAGATCGACACGCTGCGCGCGCGCATCGTCGGCGGCGCCGACTTCCAGACTGTGGCCAAGGAGTCCTCCGAGGACGCCAACAGCCGCGGCCAGGGCGGCGACCTGGGCTGGTTCCCGGCCGACGCGTTCGGCCCGGACTTCGGCAAGCAGGTCGAGTCGCTGCAGGACGGCGGCGTCTCCGAGCCGTTCCGCACCCAGGCCGGCTGGCACATCGTGCAGCGCGTGACCACCCGCCAGACCGACGTCAGCGCCCAGAACCAGCGCGCCCAGGTCCGCGAGACCATCGGCCGCCGCAAGCTGGAAGAGGAATACAACCGCTTCCTGCAGGAGCTGCGTGGCGAAGCCTTCGTCAGCTTCCGCAGCGGCGACCGCGCCGACCAGGATGCCAGCGCCGCGCCGACCACGCCGCCGCCGGCCACGCCGCAGCAACAGCAGTAA	MTKPFSALLASLLVVSSAFAPAARAQQTQPLDRIAAIVDEDVVLQSELDRAIHNVKAQYAGRENQLPPDDVLQRQVLERLILVKLQVARAQDSGIRVGDEELNRAIGTIAQQNGTDVNGLRQKLAADGMSFDDFRNSVRDEITVQRLRQSFAQSRISVSEGEVDAAMAQQASSGSQYHLAHILIGLPDGASAEQIATGQKKVDGVKQLIDKGELDFAAAAVRYSDSPNALEGGDLGWRSLDEIPNAFAQMIRDMKPGQVVGPLRGPSGFQLLKLVEIRDGGSDAQKQLVTEYHARHILVRVNESQSADAAKAKIDTLRARIVGGADFQTVAKESSEDANSRGQGGDLGWFPADAFGPDFGKQVESLQDGGVSEPFRTQAGWHIVQRVTTRQTDVSAQNQRAQVRETIGRRKLEEEYNRFLQELRGEAFVSFRSGDRADQDASAAPTTPPPATPQQQQ	PGPT0014978_595	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014978-surA-K03771	NA	NA
BMS020_03765	2355	lptD_1	COG1452	LPS-assembly protein LptD	ATGTGCCTGCCGGCCATGGCCGCCGAGAAGCCCATGAACTGGGGGCTGTGCCCGGCCACCGAGCCATTGCCGGGCTTCGACCAGGCACCGCCGGCGGACCCGAAGGCGGCCGAGAACCGGCAGAACCTGCCCACCGACATCGAGGGTGACCAGCTCAACGGCACCACCGTAACCCCGCAGTACCAGGGCAACGTGGCGCTGACCCGCGGCGACCAGTTCCTTGGCGCCGACAGCCTGCGTTTCGACACCGAGAGCAGCAACTACATCGCCGAGGGCAACGTCCGCTACCAGGACTCCTCGATCCGCATGGTCGCCGACCGCGCCGAGGGCAACCAGGAGACCGACACCCACAAGGTCACCAACATCAAGTACCAGCTGGTGGACCGCCGCGGCAACGGCGGCGCCAGTTCGGTCGACCTGCAGGGCTCGGTCGGGCAGATGCACCACTCGACCTACACCACCTGTGACCCGTCGCAGCCGCTGTGGCGAGTGCGCGCGCCGGAGATCGACGTCGACAACGAAGAGGGCTTCGGCACTGCCCGCCACGCGGTGCTGCAGATCGGCAAGGTGCCGGTTCTGTACATGCCATGGTTCAAGTTCCCGATCGACGATCGCCGCCAGACCGGCCTGCTGTACCCGGAGCTGGGCTTGTCCGGGCGCAACGGCTTCGACTACACCCAGCCGATCTACCTCAACCTGGCGCCGAACTACGACGACACCCTGTATCCGCGCTACATGAGTTCGCGCGGCTGGATGCTGGGCAACGAATTCCGCTACCTGTACGACGGCGGCAAGGGCACCACCACCGCCACCTACATGCCGGACGACAAGCTGCGCGACAAGGATCGCGGCAGCTTCAGCTTCAGCGGCTACCACAACCTGGACAAGCACTGGCAGGCACGCGCGGCGCTGAACTGGGTCAGCGACACGCGCTATGTCGAGGATTTCTCCAGCCGCCTCGGCGGGCTGTCCTCGGCCTCCAGCATCCAGAGCACGATCGGCCTGTACGGCACCGGCGACACCTGGACCGCGGGCATCCTGGCCGACCGCTGGCAGCTGACCGACTACACGCTCGACGAGCAGTCGCTGCAGTACAACCGCCAGCCGCGGCTGTACTTCACCTGGGACAAGCCGTTCGCGCGCTGGTTCGAAGCCGGCATCAACACCGAGCTGGTGCGCTTCACCCACGACGATTCCTATGCGGTCGCACAGGACGGCGACGGCGAGTACTACCGCACCAATACGATCAACAAGTACTACTACGGCGGCAGCCGGCTCGACGTCAAACCCTACGTGACGATGCCATTCAGCGGCGCGGCGTGGTTCATCACCCCGACCCTGGCCTGGCGCTACACCGCGTATCAGCTCGACAAGGAACTGGCCGAACAGCTGCGCTCCAGCGGCGGCAGCGGCGATCGCAGCCCGACCCGCAGCATGCCGATCGCCAGCCTGGACGCCGGGTTGTACTTCGACCGCGAAACCACCATCTTCGGCACGCATTACCTCAACACGCTGGAGCCGCGCCTCTACTATCTGTACGCGCCGTACCGCGACCAGAGCGATCTGCCGATCTTCGACACCCGCGCGGCCACCTTCAGCTGGGGCCAGCTGTTCCGCGACAGCCGCTACACCGGCGCCGACCGGCAGAACGACGCCAACCAGCTGACCTTGGCGGTCAGCTCGCGCTGGCTGCGCCAGAGCGACGGCGTGGAGAAGCTGACGCTCAGCGCCGGCCAGATCCTGTACTTCCAGGACTCCAAGGTCTCGCTGGGCGACGGCAGCGAGCAGGCGATCGAGGAAGGCAAGTCGGCCTGGGTCGCCGATGCCAGCTACATGATCAACGACCGCTGGTCGCTGGGCGCCACCTACCAGTGGAACCCCAACTTCCGCCGCGAGGACCTGGCCAGCTTCCGCACCCGCTACCTGCTCAAGGACGACGGCATCATCAACCTGGCCTACCGCTACCGGCGCAACGTCTCCAGCGGCGATGACCAGCTCGAGCAGGCCGACTTCTCCTTCCTGTACCCGATCAACCCCACCTGGAGCGTGGTCGGGCGCTATTACTACTCGCTGCTGGACAGCAAGCCGCTGGAGATCATCGGCGGCGTGCAGTGGGATAGCTGCTGTCTGGCGGTGCGCACGGTGGTGCGGCGCTACGTGCGCAACCGCGAAGGCGAGATGAACAATTCGATCCAGGTGGAGTTCGTCCTCAAGGGATTGAGCTCGCTCGGCCAGGACACGGACCGCACTTTGCGCCGTGCTATCCTCGGCTATTACCGCGACGATCTGTACCTGGTCCCGCCCAGCAACACCACGACCGATCCGGACGATTACGATCCGAACCAGATTCCATGA	MCLPAMAAEKPMNWGLCPATEPLPGFDQAPPADPKAAENRQNLPTDIEGDQLNGTTVTPQYQGNVALTRGDQFLGADSLRFDTESSNYIAEGNVRYQDSSIRMVADRAEGNQETDTHKVTNIKYQLVDRRGNGGASSVDLQGSVGQMHHSTYTTCDPSQPLWRVRAPEIDVDNEEGFGTARHAVLQIGKVPVLYMPWFKFPIDDRRQTGLLYPELGLSGRNGFDYTQPIYLNLAPNYDDTLYPRYMSSRGWMLGNEFRYLYDGGKGTTTATYMPDDKLRDKDRGSFSFSGYHNLDKHWQARAALNWVSDTRYVEDFSSRLGGLSSASSIQSTIGLYGTGDTWTAGILADRWQLTDYTLDEQSLQYNRQPRLYFTWDKPFARWFEAGINTELVRFTHDDSYAVAQDGDGEYYRTNTINKYYYGGSRLDVKPYVTMPFSGAAWFITPTLAWRYTAYQLDKELAEQLRSSGGSGDRSPTRSMPIASLDAGLYFDRETTIFGTHYLNTLEPRLYYLYAPYRDQSDLPIFDTRAATFSWGQLFRDSRYTGADRQNDANQLTLAVSSRWLRQSDGVEKLTLSAGQILYFQDSKVSLGDGSEQAIEEGKSAWVADASYMINDRWSLGATYQWNPNFRREDLASFRTRYLLKDDGIINLAYRYRRNVSSGDDQLEQADFSFLYPINPTWSVVGRYYYSLLDSKPLEIIGGVQWDSCCLAVRTVVRRYVRNREGEMNNSIQVEFVLKGLSSLGQDTDRTLRRAILGYYRDDLYLVPPSNTTTDPDDYDPNQIP	PGPT0023298_500	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023298-lptD|imp|ostA-K04744	NA	NA
BMS020_03766	915		COG0123	Histone deacetylase-like amidohydrolase	ATGCTCGTCTTCACCCATCCGGCCTGCCTGGACCACGACCCCGGCCCCGACCACCCCGAGCGCCCCGCGCGCCTGCAGGCGGTCACCGAGGCGCTGCGCGCCGCCTTCCCGGGCGATGCGCTGGACTGGCGCGAAGCGCCGCCGGCCAAGCTCGGCGACCTGTGCCGGGTGCACGACCGCGAGCAGATCGACGCGATCCTCGAACCGCGCTTCGAGGGCCACCGCATGGTCGACGTGGACACGGTGATGTCGCCCGGCTCGCGCGGGGCCGCGCTGCGCGCCGCCGGCGCCGGCATCGCCGCGGTCGACGCGGTGATGAACGGCCCCGATCGCATCGCCTTCTGCGCGGTGCGCCCGCCTGGCCACCACGCCACCGGCCAGGCCTCGATGGGCTTCTGCCTGTTCAACAACATCGCCGTTGCCGCCGCCCACGCCCGCGACGTGCATGGGCTGGAGCGGATCTCGATCGTCGACTTCGACGTCCACCACGGCAACGGCACCCAGGCAATCTTCGAACGCGACCCGCGGGTGCAGTACCTGAGCAGCCACGAGTCCGGGCTGTACCCCTATTCCGGCGGGGTCTACGAGCGCGGGGTCGGCAACGTCCACAACGCCTTGCTGCCGCCCGGCAGCGGCGGCTTCCGCTTCCGCAACCTGTGGGCCGACCAGATGCTGCCGCTGGTGGCGGCCTTCAAACCGCAGCTAGTGCTGGTCTCGGCCGGCTTCGACGCCCACCTGCGCGACCCCCAGGCCGACCTGATGCTGGAAGGAGAGGATTTCGCCTGGCTGACCACCGAGCTGCGGCGGATCGCCGAGCGCCATGCCGACGGCCGCCTGGTGTCGATGCTGGAAGGCGGCTACGACCTCGAGGCCCTGCGCGAATGCAGCGTCGCCCATGTCCAGGCCCTGCGCTGA	MLVFTHPACLDHDPGPDHPERPARLQAVTEALRAAFPGDALDWREAPPAKLGDLCRVHDREQIDAILEPRFEGHRMVDVDTVMSPGSRGAALRAAGAGIAAVDAVMNGPDRIAFCAVRPPGHHATGQASMGFCLFNNIAVAAAHARDVHGLERISIVDFDVHHGNGTQAIFERDPRVQYLSSHESGLYPYSGGVYERGVGNVHNALLPPGSGGFRFRNLWADQMLPLVAAFKPQLVLVSAGFDAHLRDPQADLMLEGEDFAWLTTELRRIAERHADGRLVSMLEGGYDLEALRECSVAHVQALR				NA	NA	NA	NA	NA
BMS020_03767	555	cobO	COG2096	Cobalamin adenosyltransferase	ATGGGACACCGGCTGTCGCGGATCTACACCCGCACCGGCGACGACGGCAGCACCGGGCTGGGCGACGGCAGCCGCACCGGCAAGGATGCGGCTCGGGTCTGCGCCTACGGCAGCGTCGACGAGGCCAATTCGGCGCTCGGCCTGCTGCTGGCGGTGCCGACGCTGCCAGCCGAGGTGCGCACGCTGCTGGTCGCCCTGCAGCACCAGTTGTTCGACCTCGGCGGCGAGCTGTGCATCCCCGGCCACGCCGCGATCCACGCCGACGACGTCGCCCGCCTGGAACGCCACCTGGACCATTTCAACGCCGCGCTGCCGCCCTTGAAGGACTTCATCCTGCCGGCCGGCGGCGAGGCCGCCGCGCGCTGCCACCTGGCCCGCACCATCGTGCGCCGGGCCGAACGCGAAACGGTCGCCCTGGCCCGGCTCGAGCCGGTGCGCGCCGAGGCACTGGGCTACCTCAACCGGCTGTCGGACCTGCTGTTCGTGCTGGCCCGGGTGCTGGCCCGGGCCTCCGGCCACGGCGAGGTGCTGTGGCAGCGCGACCTGCGCAGCTGA	MGHRLSRIYTRTGDDGSTGLGDGSRTGKDAARVCAYGSVDEANSALGLLLAVPTLPAEVRTLLVALQHQLFDLGGELCIPGHAAIHADDVARLERHLDHFNAALPPLKDFILPAGGEAAARCHLARTIVRRAERETVALARLEPVRAEALGYLNRLSDLLFVLARVLARASGHGEVLWQRDLRS				NA	NA	NA	NA	NA
BMS020_03768	579			hypothetical protein	ATGACCGAACGCACCCGCAGCACGCTGGTCCTCGCCCTGCTGGCCCTGGCCATGGCCGCGACCCGCATCAACCATTTCGCGCCGCTGCCGGATGCGTCCTGGGCGGTGTTCTTCGTCGGCGGTTTCCAGCTGCGCCGCTGGACCCGCACCGCGTTCCCGTTGCTGATGCTGCTGGCGGTGGTGATCGACTGGCTGGTGATCCGCGCGCAAGGCATCGATTTCTGGCAGCACTACTGCGTGTCGGCGGCCTACTGGTGCCTGGTTCCGGCGTATTTCGCGCTGTGGGCCGGCGGCGCCTGGTTGCGCGGCCAGTACCGCCATGCCGGCCTGCGCGAACTCGGCTGCTGTGCCGTGGCGCTGGTCGCGGCGGTGGCCCTGTGCCACCTGATCGCCCAGGGCAGCTTTTATTGGGTCAGTGCCAGCGTGGCCGCGCCGACCGTGGCCGGCTGGGCCGGCAACTACGCCGACTGGTTCCCGCTCTACCTGCGCAGCGCGGCGATCTACGTCGCGATCGCGGCCGCCGCGCAATGGCTGGTCGAACGCGCCACCGGCGGCGCCGCCACCCCGGCGCTGCGCTGA	MTERTRSTLVLALLALAMAATRINHFAPLPDASWAVFFVGGFQLRRWTRTAFPLLMLLAVVIDWLVIRAQGIDFWQHYCVSAAYWCLVPAYFALWAGGAWLRGQYRHAGLRELGCCAVALVAAVALCHLIAQGSFYWVSASVAAPTVAGWAGNYADWFPLYLRSAAIYVAIAAAAQWLVERATGGAATPALR				NA	NA	NA	NA	NA
BMS020_03769	567			hypothetical protein	ATGGGGACGCGACTCGCCCGTGCCGGCAAGTTGCGCGGGTTCACGCTGGTTGAACTAATGGTGGCGATCACCGTGCTGGGGATCACCCTGGCCATGGCCGTGCCCAGCTTCCAGGGATTGATCAACGGCAACCGCCTGGTCACCCACTCCAATGAGATGGTCGCCTCGCTGCAGGTCGCGCGCTCGGAGGCGATCCGCCGCAACGCGCGGGTGGAAGTCTGCGCCAGCAGCGACGGCAGCAGCTGCGACAGCAGTGCCGCCACCTGGAGCCAGTGGCTGGTGGTGGTGGTCTCCAGCGCCGAGGTGCTGCGGGTCAATGCCGTGCGCAGCAGCGTGCAGGTCACGCCGAGCGCGGCGCTCAGCGACAACGGCAATGCGGTGGTGTTTTCCCCCGATGGCCTGGCCCGCGACGCCACCGGCGCGCTGCTGGTCGGCAGCATCGCCTTCTGCATGGAGACGGCGCGGCCGGCCGAGAACACCCGCCGGGTGTCGGTCGCCGGCGGCAGCCGTATCCGCACCCTCGCCGAGGACACCTCGGCCACCTGCGAGACGCCCGACGATGAATGA	MGTRLARAGKLRGFTLVELMVAITVLGITLAMAVPSFQGLINGNRLVTHSNEMVASLQVARSEAIRRNARVEVCASSDGSSCDSSAATWSQWLVVVVSSAEVLRVNAVRSSVQVTPSAALSDNGNAVVFSPDGLARDATGALLVGSIAFCMETARPAENTRRVSVAGGSRIRTLAEDTSATCETPDDE	PGPT0016065_246	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0016065-fimT-K08084	NA	NA
BMS020_03770	483			hypothetical protein	ATGAATGAGTTCCGCCGCCGCCCGCCCTCACGGCCCACGCTGCAGCGGGGCGACCTGCTGATCGAGGTGCTGATTGCCGTGCTGGTGCTGGCGATCGGCCTGCTCGGCATCGCCGCGATGCAGGCCACCGCGTTGCGCAACAGCCACGGCGCGCTGCAGCGCAGCCAGGCCGCGACCCAGGTCCATGCGATCTTCGATGCGATGCGCGCCAACCGCACCGTCGCGCTGGCCGGTGGCTATGCGCTGGCGCGCACCTGCACCGCGTCGGCCGGCAGCGACCTGGCCGGCGCCGACATCGCGCGCTGGATCGGCGACCTGCAGGACACCCTCGGCGAGGGCGCCTGCGGCACCATCACCTGCACCAGCCCGAGCTGCACCGTCACCGTCGACTGGGATGACAGCCGCGCCACCGACGCGACCGAGGACGGCGTCGCCGGCGCCGGCGATGCCAGCTACTCGATCAGCGTGGAGGCCCGTCTGTGA	MNEFRRRPPSRPTLQRGDLLIEVLIAVLVLAIGLLGIAAMQATALRNSHGALQRSQAATQVHAIFDAMRANRTVALAGGYALARTCTASAGSDLAGADIARWIGDLQDTLGEGACGTITCTSPSCTVTVDWDDSRATDATEDGVAGAGDASYSISVEARL	PGPT0015975_891	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015975-pilV-K02671	NA	NA
BMS020_03771	939			hypothetical protein	GTGAGCCGCGCCATCCGTGTGCCGGCGCGTCGCCGCGTCGCCGGCTTCAGCCTGATCGAACTGATGGTCGGCATGCTGCTCGGCCTGTTGGTCACCGTCGCGGCGATCGGCATCTTCCTGTCGAACCAGCAGACCTACCGCTCCACCGAGGGCCTTGGGCGGATCCAGGAGAACCTGCGTACCGCCTACGAACTGATGGCGCGCGACCTGCGCGCGGCCGGCGGCAACGCCTGCAACGCCAACAGCGGCAATTTCGCCGACAAACTCACCAGCGGCACCAGCGATTGGTGGGGCAGCCTGGCCAGCAGCGGCTGGGCCAGCGTGGTCAAGGGCTTCGGCAGCACCAGCGGGTTCGATGTCGGCGGGCCGGCGTTCGGCACCGACGAGGGCGCGCGGCTGAGCGGCAGTGCCGCGCTGGAAGTGCTGTCGGCCGGAAGCGGCGTGGCCAGCGTGGTCTCCGACGGCGGCAGCACCTTCGTGGTCAACGCCTCCGATCATGGTCTGGTCGCCGGCGACGCGGTGCTGGTCTGCGACACCAACAACTCGGCGTTGTTCAACGCCACCTCGGTATCGGGCACCACCATCGGCCACCCGACCAGCATTTCCTTCGCCGCCAACTCCACGTTGTCGCGGCTCAATGCGGTGCGCTGGTACATCGCCTACAACGGCAACGATGGCACCTCGCTGTACCGCGCCCGGGTCTACGCCGGCAGCGAGCAGCGCGAGGAAGTGGCCGAGAACGTCAGCGCGCTGGCGCTGGAGTACCTGGTCGACGGCGCCAGCGACTACGTCGATGCCACCGCGGTCAGCGACTGGTCGGCGGTCACCGCGGTGCGGGTGAGCATCACCGTGGACAGCCCGGACAAGGTCGGCACCGACGGCAAGGTGCTGCAGCGCACCCTCGCGCACGTGGTCGAACTGAGGAACCGCAACACATGA	MSRAIRVPARRRVAGFSLIELMVGMLLGLLVTVAAIGIFLSNQQTYRSTEGLGRIQENLRTAYELMARDLRAAGGNACNANSGNFADKLTSGTSDWWGSLASSGWASVVKGFGSTSGFDVGGPAFGTDEGARLSGSAALEVLSAGSGVASVVSDGGSTFVVNASDHGLVAGDAVLVCDTNNSALFNATSVSGTTIGHPTSISFAANSTLSRLNAVRWYIAYNGNDGTSLYRARVYAGSEQREEVAENVSALALEYLVDGASDYVDATAVSDWSAVTAVRVSITVDSPDKVGTDGKVLQRTLAHVVELRNRNT	PGPT0015980_579	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015980-pilW-K02672	NA	NA
BMS020_03772	540			hypothetical protein	ATGAAGCCCATTCCGATGCGCACCATGCCGCGCCAGCAGCGCGGCGTCTCGCTGCTGGTGGCACTGCTCCTGCTGCTGATGATGACCCTGCTGGGCCTGGCGGTGCTGCGCAACACCACGCTGGAGGAACGCATGAGCGCCAACATGCTCGACCGCACCTACCAGTTCCAGTCCGCCGAATCAGGGCTGCGCGAAGGCGAGGCGCTGATCGATGCCGGCGTCACCGTGCCCGACAGCGGCTGCGGCAGCGGCGTCTGCGCCACGCCGGTAGCCGGCGACGCCGACCGCTGGCTCGACGACAGCTTCAGTGGCTGGCGTACCGGCACCGACACCGGCAACCACGACGATGCGGTGACCACCCAGTACGTCATCGAATACATGGGCGATGGCGCCCACGGCCCCAGCTGCACGACCGCCAAGTCGACCTCGTCCTCCACCGATCCCCACTGCTCGATGCTGCGCTATCGCGTGAGCGCGCGCAGCCAGGCCGACGCCCGCGCGTCGGTGATCCTGCAGAGCAACTACCTGACCGCCCAATGA	MKPIPMRTMPRQQRGVSLLVALLLLLMMTLLGLAVLRNTTLEERMSANMLDRTYQFQSAESGLREGEALIDAGVTVPDSGCGSGVCATPVAGDADRWLDDSFSGWRTGTDTGNHDDAVTTQYVIEYMGDGAHGPSCTTAKSTSSSTDPHCSMLRYRVSARSQADARASVILQSNYLTAQ	PGPT0015985_472	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015985-pilX-K02673	NA	NA
BMS020_03773	3780			hypothetical protein	ATGAGCCAGCGCCCCGCATTCTCCTGGAAGACGTCGTTGCCGCGCCCGGCGGTGTTCGCCGGCGCCACCGTGCTGGCCGCGGCGGTCGTGCTGCTGGCGCGGCCGGTCGGTGCCGACACCACCACCACCGGCCTGGACATCCCCGACAGCCCGTTGATCACCGATGCGCAGGTCGCGCCGAACATCCTGTTCGTGCTCGACGACTCCGGCTCGATGACCTACGAGTACATGCCCGACAGCGTGCCTGCCGTGGGGACCACCAGTGCCGGATCGGGCACGCTGTCGTGCAGTGGCAACACCAACTCGACCAGCACCACCTACATCGGCTGCAGCGCCTATCCCCGCAACACGCTGTACTACAACCCGGCCACCACCTACGAGCCGTGGACTCTGCCGGACGGCACGCTGATGACCGGTGGCACCAGCTACACCTCGGTGTACTCCAACACGATGTACGTGCCGTACAGCGCCACCGGTCCGGCCGGCAACGGTACCGTCACCACGACCAGCGCGACCACCAGCCTGGCTGGCAGCGTGCAGACGTTCTACGTGCCCAAGGACACCACCAGCACCGACGACGACACCTATCTGGCGACCGGCAGCAACTACTACCGCTACCAGATCCTCACCGACGGCACCGTCTGGCGCAGCGAATACGGCAGTGTCACTGGCACCAGCACCGCGCTGACGGTCAGTCCGTCCAGCGGCAGCCTGACCGGCTCGACGGTCAGCGCGACGGTGGCCAGCGTCAGCGCCGGACTGTCGCTGACCATCACCATCACCTCGAGCAACAACCAGACCGTCACCTATGTGGTGAAGAATCCGTCCGGCACCAGCGTGTGCAGCAGCAGCGTGCGCAACGCCAGCGCCACCTGTACTGTCAGCAGCACCGCGTCCGGTTCGTACACGGTCAGCCTGTCCGGCGGCAGCAGCCGCAACTCGGCCAGCTACAGTCTTTCGGCGACGTCCTCGACCAGCAACCGCTGCGCGGTCGGCACCGGTACCGGCTCGTCCAGCAGTGACTGGATCAACTGTACCGAGACCACCCCGACCGGGCGCACCGAGGCGGCGGAGCTGGTCAACTTCGCCACCTGGTACTCCTACCACCGCACCCGCAACAAGGCGGCCAAGGCCGGTGCCAGCCAGGCCTTCGCCGAGCTTGGCAGCGACGTGCGGGTGGGCTTCCGCACCATCTGGGGGCGCGCGGCCTGTGGCGGCAGCAGCAGCGGCAACTGCACCTACAGCTATTCCAGCACCTACAACATGCCGACCCAGGACATCCCGATCCCGGTCAACTACAACGACGGGCGCTTCTCCGATACCGGGTCGAGCAGCAACAGCAGTGCCTTCAACAACCGCACCCAGTGGTACAACCGCCTGTTCACCGCCACCGCCAGCAGCAGCACGCCGCTGCGCAGCGCGCTGGCCAACGCCGGTGCCTACTTCAGCAGCAGCAGCGCCACCGGTCCGTATGGCCCGGAGTCCAGCAGTGACCAGTACGCCTGCCGGCAGAACTTCACCATCCTGACCACCGACGGCTACTGGAACGAAACCTACAGCAACAGCACGATCGCCAACGCCGACAACACCGCCGGCAGCGCGATCACCAATTCCAGCGGCAGCAGCTACACCTACAGCCCGGCCGATCCGTACAAGGACAGCTACTCCTCCACGCTGGCCGACGTGGCGATGTACTACTGGAAGAACGACCTGCGTGCCGGCAGCAGCGACGGGCTGGAGAACTCGGTGCCGACCAGTACCGACGATCCGGCGTTCTGGCAGCACATGACCACCTTCAGCCTGTCGCTGGGCATGAGTGGCACCGTGGACCAGAGCAGCGTCGACGAAGTGCTGAGCACCGGCTATGCCAGCGTGGATGGCAAGGCCGGCTGGCCGGAACCGAAGAACAACACCTCCACCACCATCGACGACCTGCTGCATGCGGCGGTCAACGGCCACGGCGAGTTCGTCGCGGCCAGCAGCCCGGATGAATTCACCAGCGGCCTGACCAAGGCGCTGGCGGCGATCACCGAGCGCACCGGCGCGTTCTCCAACGTCACCGCCGAGAGCAGCAGCGTCAGCACCGACAACTATCTGTTCTCGGCGACCTATGTCTCCGGCGTGTGGACCGGCCAGCTGATGGCGTGTCCGTCGACCGAGAGCACCTGCTCGTCCAGCGTGGCCAACTGGACCGCGACCAGCACGCTGTCGGGGGTGACCGCCAGCAGTCGCAGCATCTACACCTACGAAAGCGGTGCCGGCGCCACCTTCCCCACCACCACGCAGAAGACCGCGCTGGGCGGCTCGGACATCACCGACTACCTGCGCGGCGACCAGAGCAACGAAATCCAGAACGGCGGCACGCTGCGCAACCGCAGCACCATCCTCGGCGACATCGTCGATTCCTCGCCGACCTACGTCAGTGCCACCGATACCGTTTACGTCGGCGCCAACGACGGCATGCTGCACGCCTTCGATGCCAGCAGCGGCGAGGAACTGTTCGGCTACGTGCCCGGTGGGCTGGACATGGACGACCTGGCCAGCTACGCCGACAGCGACTACTCGCACCGGTACTTCGTCGACGGCCCGATCACCGTGTCGACCCGGTCCCAGACCACCAGCCAGAACATCCTGGTCGGCGCGCTCGGCCGCGGCGGCAAGGGGCTGTATGCGCTGGATGTGACCAGTCCGTCCAGCTTCAGCGCCAGCAAGGTGCTGTGGGAAGTCAGCGAGACCACCAACGGCAACATGGGCAAGATCTTCGGCCAGCCGTTCATCGCCAAGCTCAACAATGGCGTGACCGCGCTGGTGACCGGCAACGGCGTCAACAGTGCCAGCGGCCATGCGGTGCTGCTGGTCTACAACCTGAGCACCGGCGCTCTGATCAGGGAGATCGACACCGGCTCCGGCGGCGCCACCGCGGCGACCACCAACGGGCTGTTCGCGCCCACCGGCTGGGACGAGGACAGCAGCGGCACGGTCGACTACGTCTATGCCGGCGACCTGCAGGGGCACATCTGGAAGTTCGACCTGTCGGCCACCGCGTCGGCGAGCTGGGAGGTCGGCAACGATGGCGACGCGCTGTTCAGCGCCACCGACGACGACGGCACCGCGCAGCCGATCACCGGCGGCGTGCTGCTGGCGGAAAAGGCCAGCACCGGCGACACCTGGGTGTTCTTCGGCACCGGCAAGTACATCGAGAGCGACGACATCGAGGACGACGCGGTGCAGACGCTGTACGGGGTGATCGACGGCGGCGCCACCGTCGCCCGCAGCGACCTGACCGCGCGCACCGTCAGCGAGAGCACCGCCAGTTCCACCGGCGCCACGGTGCGCACCTTCGAGGAGAATGCCGCGCTGCCGAGCGGGTCCAAGGGCTGGTACGTCAACCTGGTCGTCGATGACGAGGCCGAAGGCGAGCGCGTGGTCAGCACGCCGCTGTCCTACGGCAGCTACCTGGTGGTCAGCAGCATCATTCCCAGCGGTGACGGCTGCCAGTCCAACGGCACCGGGTGGGTGTATGCGCTGGACATGTTCACCGGCACCAGCGGCAGCAGCTCGTATTTCGACCTGGACGGCGACGGCAGCACCAGCGACGACACCACCACCGCCGGTACCGCGGTCGGCGGCGTCGGCATCAGCACCGGCATGGCCTCGGTCGCCGCGCTGTTGAACGGCAAGCTGATGGTGGGCGATTCCAGCGGTACCACCACTTCCATCTCGACCACGGCGGTCAGTTCCAGCCGGGTGTCCTGGCGCGAAGTGATCAAGGAGCAGTGA	MSQRPAFSWKTSLPRPAVFAGATVLAAAVVLLARPVGADTTTTGLDIPDSPLITDAQVAPNILFVLDDSGSMTYEYMPDSVPAVGTTSAGSGTLSCSGNTNSTSTTYIGCSAYPRNTLYYNPATTYEPWTLPDGTLMTGGTSYTSVYSNTMYVPYSATGPAGNGTVTTTSATTSLAGSVQTFYVPKDTTSTDDDTYLATGSNYYRYQILTDGTVWRSEYGSVTGTSTALTVSPSSGSLTGSTVSATVASVSAGLSLTITITSSNNQTVTYVVKNPSGTSVCSSSVRNASATCTVSSTASGSYTVSLSGGSSRNSASYSLSATSSTSNRCAVGTGTGSSSSDWINCTETTPTGRTEAAELVNFATWYSYHRTRNKAAKAGASQAFAELGSDVRVGFRTIWGRAACGGSSSGNCTYSYSSTYNMPTQDIPIPVNYNDGRFSDTGSSSNSSAFNNRTQWYNRLFTATASSSTPLRSALANAGAYFSSSSATGPYGPESSSDQYACRQNFTILTTDGYWNETYSNSTIANADNTAGSAITNSSGSSYTYSPADPYKDSYSSTLADVAMYYWKNDLRAGSSDGLENSVPTSTDDPAFWQHMTTFSLSLGMSGTVDQSSVDEVLSTGYASVDGKAGWPEPKNNTSTTIDDLLHAAVNGHGEFVAASSPDEFTSGLTKALAAITERTGAFSNVTAESSSVSTDNYLFSATYVSGVWTGQLMACPSTESTCSSSVANWTATSTLSGVTASSRSIYTYESGAGATFPTTTQKTALGGSDITDYLRGDQSNEIQNGGTLRNRSTILGDIVDSSPTYVSATDTVYVGANDGMLHAFDASSGEELFGYVPGGLDMDDLASYADSDYSHRYFVDGPITVSTRSQTTSQNILVGALGRGGKGLYALDVTSPSSFSASKVLWEVSETTNGNMGKIFGQPFIAKLNNGVTALVTGNGVNSASGHAVLLVYNLSTGALIREIDTGSGGATAATTNGLFAPTGWDEDSSGTVDYVYAGDLQGHIWKFDLSATASASWEVGNDGDALFSATDDDGTAQPITGGVLLAEKASTGDTWVFFGTGKYIESDDIEDDAVQTLYGVIDGGATVARSDLTARTVSESTASSTGATVRTFEENAALPSGSKGWYVNLVVDDEAEGERVVSTPLSYGSYLVVSSIIPSGDGCQSNGTGWVYALDMFTGTSGSSSYFDLDGDGSTSDDTTTAGTAVGGVGISTGMASVAALLNGKLMVGDSSGTTTSISTTAVSSSRVSWREVIKEQ	PGPT0015990_465	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015990-pilY1-K02674	NA	NA
BMS020_03774	426			hypothetical protein	ATGACGTCTGCACGTATGGGGCGGCGCCGCGGCGCCGCCGGTTTCACCCTGATCGAAGTGATGATCGTGGTGGTGGTGATCGCGGTGCTGGCCGGTATCGCCTATGCCAGCTACCAGTCGGCGGTGGTCAAGGGGCGGCGCAGCACCGTGGCCTCGTGCCTGCAGCAGCGCGCGCAGTTCATGGAGCGCTACTACACCACCAACATGACCTATGCCGACGCAGCCGAGCCGGCGCAGTGCGACGAAGTGTCCAACTTCTACACCATCGCCTTCGATGGCGACCCGGATGCGACCAGCTTCACCATCACCGCCACGCCGCTGGGCGCGCAGGCGCGTGCGGATACCACCTGCGCGACGCTGTCGATCAACCAGCGCGGCGAGCGCACCGCCAGCGGTACCGCCAGCGACGCCACCCAGTGCTGGTGA	MTSARMGRRRGAAGFTLIEVMIVVVVIAVLAGIAYASYQSAVVKGRRSTVASCLQQRAQFMERYYTTNMTYADAAEPAQCDEVSNFYTIAFDGDPDATSFTITATPLGAQARADTTCATLSINQRGERTASGTASDATQCW	PGPT0015930_724	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015930-pilE-K02655	NA	NA
BMS020_03775	1209	ubiH_2	COG0654	2-octaprenyl-6-methoxyphenol hydroxylase	ATGAATGGCACACATGACGTAGTCATCGTCGGCGGCGGGCTGGTCGGCGCCAGCCTGGCGATCGCCCTGGACCGCATCGGCGTCGATGTCGGCCTGGTCGAGGCCGCGCCGGCCGGCGACCTGCCGGCGGTCTTCGACCAGCGCAACCTCAGCTTCGCCGCGGCCACCGTCAACGCGCTGACCGCGCTGGGCGTGATGGCCCGGCTGCGCGCGCCGACCGGACCGATCCGGCGCATCCACGTCAGCCGCGCCGGCGATTTCGGCCGGGTCCAGCTGGACGCCGCCGACTACGGTCGCGACAGTTTCGGCCAGGTGGTGGTGGCGCGCGATTTCGGCGAGGCGCTGGAGGCGCGACTGGGCGAACTGACCCATCTGACCCGCTACCGGCCGGCGCGCTTCATCGGTCTGGAGCCGGTGGCCGATGGCCTGCGCGCGCTGCGCATCGCCGACGCCGACGGCGAGCACACGCTGCAGGCGCGGCTGGTGGTCGGTGCCGACGGCACCCGCAGCGCGGTGCGCGAGTTGCTGCACATCGACACCGACGAACACGACTACGGCCAGACCCTGTTCGTGGCGCGCGTGCGCGCCGCGCAGGCGCCGGACGGCACCGCCTGGGAGCGCTTCGGCGACCACGGACCGACCGCGCTGCTGCCGCGCGGCGACCGCCACTACGGCGTGGTCCACGGGGTCGCCCGCGGCCAGGCCGAGGCGGTCGCCGCGCTGGACGAGGCGGGATGGCTGGCGCGGCTCCAGCAGGTCTTCGGCTGGCGCGCCGGGCGGCTGCTGGCGAGCGGCCCGCGCAGTGCCTACCCGTTGGTGCAGGTGCTGGCGCGCAGCCTGTCCGCCGAGCGCGTGCTGCTGCTCGGCAATGCCGCACAGACCATCCATCCGGTCGGCGCGCAGGGCTTCAACCTCGGACTGCGCGATGCGTTGACCCTGGCCGAGCTGATCGAGCGCGACCGCGCCGATGCGGGCGCGGCGGCGCTGCTGGCCGCCTACGTGGCGCGGCGCCAGCCGGACCGCGAGCAGACCATCGAATTCTCCAGCGGCCTGGCCCGGCTGACCGCGAACCCGGCGCCGCTGCTGCGGCCGCTGCGCAGTGCCGGGCTGCTGGCCGCGGCCCAGGTGTCCGGGCTGCAGGCGCTGCTGGTCGGCGGCGCGATGGGCTTCCGCGGCGAGGTGCCGCAGCTGTGCCGGGGCGTGGCATGA	MNGTHDVVIVGGGLVGASLAIALDRIGVDVGLVEAAPAGDLPAVFDQRNLSFAAATVNALTALGVMARLRAPTGPIRRIHVSRAGDFGRVQLDAADYGRDSFGQVVVARDFGEALEARLGELTHLTRYRPARFIGLEPVADGLRALRIADADGEHTLQARLVVGADGTRSAVRELLHIDTDEHDYGQTLFVARVRAAQAPDGTAWERFGDHGPTALLPRGDRHYGVVHGVARGQAEAVAALDEAGWLARLQQVFGWRAGRLLASGPRSAYPLVQVLARSLSAERVLLLGNAAQTIHPVGAQGFNLGLRDALTLAELIERDRADAGAAALLAAYVARRQPDREQTIEFSSGLARLTANPAPLLRPLRSAGLLAAAQVSGLQALLVGGAMGFRGEVPQLCRGVA	PGPT0009550_1310	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009550-ubiH-K03185	NA	NA
BMS020_03776	1185	ubiI_2	COG0654	2-octaprenylphenol hydroxylase	ATGAGCCGGCGCGGGCAGCGCGATGTGGTGATCGCCGGCGGCGGCGTGGTCGGCGCGGCCTGCGCGCTGGCGCTGGCCGAGGCCGGGCTCGATGTCGCCCTGGTCGAGGGCCGCGAGCCGGCGCCGTGGCGGCGCGATGCGCCGGATCTGCGCGTATACGCCTTCGCTGGCGACAACGCCGCATTGCTGCAGGCGCTGGGCGTGTGGCCGCAGGTGCGCGCCGGTCGTGCCCAGCCGTACCGGCGCATGCGGGTGTGGGATGCGGCCGGCGGCGGTGAGCTGGCCTTCGATGCCGATGCGTTCGGGCGCGAACAGCTCGGCTGGATCGTCGAGAACGGATTGCTGGTGGATCGCCTGTGGGCGGCGCTGCCGGCGGCCGGGGTGCATGTGCAGTGCCCGGCCCGGGTCGAGGCGCTGGAGCAGGATGAACACGGCGTGCGCCTGCGTCTGGACGACGGCAGCCGGCTGGACGCGGCGCTGGCGATCGCCGCCGACGGCGCCGAATCGACCCTGCGCGGCCTGGCCGGGCTGCCGGTCGCGCGCCACGACTACGGCCAGCGCGGCGTGGTCGCCTTCGTCGAGACCGAACGCCCGCACGAGGACACCGCCTGGCAGCGCTTCCTGGTCGGCGGCCCGCTGGCGTTCCTGCCGTTCGAGCAGGGCCGCAGTTCGATCGTCTGGACCCTGCCCGACGCCGAGGCCGAGCGCGTGCTGGCGCTGGACGAGGCCGCGTTCGCGCGCGAACTGACCACGGCTTTCGCCGGCCGGCTGGGCCAGGTGCGGCCGGTGTCGGCGCGCGCGGCGTTTCCGCTGCGCCGCCAGCTGGCGGCCGACTACCTGGCCGGGCGGGTGCTGGCGCTGGGCGATGCCGCGCACGTGGTGCATCCGCTGGCCGGGCAGGGCGTCAACCTCGGCCTGCGCGATGTGGCCACGCTGCAGGCCACGGTACAGGCCGCGCGCGCGCGCCGCGCCGACTGGAGCGCCCCGCACCGGCTGCGGCGCTGGGCGCGCCAGCAGCGCAGCGACAACACCGTGGCGGCCTACGGCTTCGACGCGATCAACACGGTGTTCTCCAGCGACGAGATGCACCTGACCCTGCTGCGTGGCGCCGCGCTCGGCGCCGCCGGGCGGTTGCCGCCGCTGGTGGACCTGCTGTGGCGGCGCGCCGGAGGCCTGCAGCGCTGA	MSRRGQRDVVIAGGGVVGAACALALAEAGLDVALVEGREPAPWRRDAPDLRVYAFAGDNAALLQALGVWPQVRAGRAQPYRRMRVWDAAGGGELAFDADAFGREQLGWIVENGLLVDRLWAALPAAGVHVQCPARVEALEQDEHGVRLRLDDGSRLDAALAIAADGAESTLRGLAGLPVARHDYGQRGVVAFVETERPHEDTAWQRFLVGGPLAFLPFEQGRSSIVWTLPDAEAERVLALDEAAFARELTTAFAGRLGQVRPVSARAAFPLRRQLAADYLAGRVLALGDAAHVVHPLAGQGVNLGLRDVATLQATVQAARARRADWSAPHRLRRWARQQRSDNTVAAYGFDAINTVFSSDEMHLTLLRGAALGAAGRLPPLVDLLWRRAGGLQR	PGPT0009540_205	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009540-ubiF-K03184	NA	NA
BMS020_03777	1107	gfo		Glucose--fructose oxidoreductase	ATGCACCAAGGGCATGGTTCGCGCCGGGACTTCCTGCGCACCGCACTGCTGGCCGCCGCGGCCGGCACGCTTCCCGGCCCGGTCCGGGCCGCCGCCAGCCGGTGTCCGCTGGGCGTGGCGCTGGTCGGGCTCGGCGGCTACAGCGCCGGGCGACTGGCGCCGGCGCTGCAGCTGACCCGGCACTGCCGGCTGGCCGGCGTGGTCAGCGGCACGCCAGCCAAGATCGCCGACTGGCAGGCGCGCTACCGGCTGCCGGATCGCAGCTGCTACAGCTACGACGACTTCGCACGCATCGCCGACAACCCCGACATCGACGTGGTCTATGTCGTGCTGCCGAACCACCTGCATGCCAAGTACAGCATCGCCGCCGCGCGCGCCGGCAAGCATGTGTGGTGCGAGAAGCCGATGGCGATGCATGCCGGCGAGGCGCAGCAGATGATCGACGCGGCCAGGGCGGCCAAGGTGCAGCTGGCGATCGGCTACCGCATGCAGCACGAGCCGAACACCCGCCGCATCATCGGGTTTGCCGCGCAGCGCCCGTACGGGGCGATCCGCAGCGTGCACGCCGAAGCAGGGTTCAACGCGTTCGGGCCCGGCGATGTCGGCCGCAACTGGCGGCTGGACCCGGCCTGTGGGGGCGGTGCGATGTACGACATGGGCGTGTATTCGCTCAACGGTGCGCGCTATGCGATGCAGGCCGAGCCGATCGCGGTCAGCGCCCGCCACGAGGTGCGGCGCCCGGAGATCTTCAAGGGCGTCGACGAGACCACCCGCTTCACCCTCGCGTTTCCCGGCGGCGTCAGCGCCCACTGCGCCACCAGCTTCGGCGAGAACATGAACCTGCTGCGGGTGGACTGCGAACGCGGCTGGTACGAGCTGTCGCCGTTCCAGTCCTACGATGGCATCCGCGGCCGTACCAGCGACGGCATCCAGCTCGACGCGACCGTGCAGCACCAGCAGGCGCTGCAGATGGACGAGGACGCACTGGCGATCATCGAGGGCCGTCGCCCGCGTGCGCCGGGCGAGGAAGGCCTGGCCGACATGCGGGTGGTCGACGCGATCTTCGCCTCGGCCCGCGCCGGCGGGAAGAGCATCGCACTGGCATAG	MHQGHGSRRDFLRTALLAAAAGTLPGPVRAAASRCPLGVALVGLGGYSAGRLAPALQLTRHCRLAGVVSGTPAKIADWQARYRLPDRSCYSYDDFARIADNPDIDVVYVVLPNHLHAKYSIAAARAGKHVWCEKPMAMHAGEAQQMIDAARAAKVQLAIGYRMQHEPNTRRIIGFAAQRPYGAIRSVHAEAGFNAFGPGDVGRNWRLDPACGGGAMYDMGVYSLNGARYAMQAEPIAVSARHEVRRPEIFKGVDETTRFTLAFPGGVSAHCATSFGENMNLLRVDCERGWYELSPFQSYDGIRGRTSDGIQLDATVQHQQALQMDEDALAIIEGRRPRAPGEEGLADMRVVDAIFASARAGGKSIALA				NA	NA	NA	NA	NA
BMS020_03778	414			hypothetical protein	ATGCATCCGATGTCCATCATCCGCCTTGCCGCGTGCGCGGCGTTCTGCGTGGCCGGCAATGCCGCCGCGCAGAGTTACGCCACGCTGCCGCCGGACAGCGCCAGCAGCGCGCCACTGCGCGACGTGCCCGCCAACGTGCGTACCCAGCCGCTGGCCGCCGGCCAGGTCACCCATGCGGTGCAGGTCGCCACGCCGCCCGGCCAGGCCGCGGTGACGGTGCGTTCGATCCAGCCCAGCGCCGTGCTCGGCGACTACCACATCGACTTCGCCGCGCTCGATACCGACGGCGATGGCTTCATCAGCCGCGCCGAAGCCCAGGCCAATCCGTCGCTGGCGGCGGAATTCGACGCGCTCGACAGCGCCCACCGCGGCAAGCTGGCGCGCGCGCAACTGGCCGGTTGGCTACGCGACTGA	MHPMSIIRLAACAAFCVAGNAAAQSYATLPPDSASSAPLRDVPANVRTQPLAAGQVTHAVQVATPPGQAAVTVRSIQPSAVLGDYHIDFAALDTDGDGFISRAEAQANPSLAAEFDALDSAHRGKLARAQLAGWLRD				NA	NA	NA	NA	NA
BMS020_03779	723			hypothetical protein	ATGCAACCGATCGAACTGAGGGACCCGGCCGGGTTCGCCAACGAATTCCTGCGTCTGACCCTGTTGCAGGGCTTCCAGTCGCTGACCAAGCGCGACCTGGAACTGCTGATGTTCGTGCTGCTCGAACGCGACGGCGCGGTGGCGCGCGCCGCCTCCAACGCCGAGGTGGCGCTGCTGCTGCGGGTCACTCCGGCCAAGGTGAAGAGCCTGCGCCGCGACGGCTACGCGCGCTGGCGCGCACTGGTGCCGGAGGAACGCGAGGCCGCGCTGCAGCGCATCGTCGCCAGCGTGCTGACCGAGGCCAACCTGCGCTCGGGGGCAAAGCATGTCAGCGAACGCAGCCGCAAGGACGGCTTCCTGGCGATCCGCGTCGAGCATCCCGACGACGCGCAGCAGTTCGAACAGGCGATCCTCGAAGTCGGCGCGCTGCCGGTGTACGAGCGCAACCGCGAGGTGGTGGCAGTGCGCTTCGACACGCTGCTGAAGATCGCCGAGCGCTGGGGCTACCTGCAGGCCGACCCGCAGGCCACGCTGCGCGAACTGCGCAAGCTGGCGCCGGCGGCCGAGGAAGTGGCCGACCTGCTGAAGAAGGACGTGACCCAGCTGCATTGGGACGAGGTGCGCCGCGCGCTCAACAGCCTGGGCGCCAAGGCCGTGGCCAGCACCGCCGAAGGTGGGCTGAAGGGGCTGCTGAAGCTGGTGTTCCCGTTCATCCCCGGCTGA	MQPIELRDPAGFANEFLRLTLLQGFQSLTKRDLELLMFVLLERDGAVARAASNAEVALLLRVTPAKVKSLRRDGYARWRALVPEEREAALQRIVASVLTEANLRSGAKHVSERSRKDGFLAIRVEHPDDAQQFEQAILEVGALPVYERNREVVAVRFDTLLKIAERWGYLQADPQATLRELRKLAPAAEEVADLLKKDVTQLHWDEVRRALNSLGAKAVASTAEGGLKGLLKLVFPFIPG				NA	NA	NA	NA	NA
BMS020_03780	903			hypothetical protein	ATGTCGCGCATGCCCCTGTGGTTGGCCCTGCTGTCGCTGGCGTTGCCCGGCGCCGCGCAAGCCGGCACTGAACAGACCCCGTTCGTCGCCCGCGACTACGTCGGCGACGGCGCCTTCACCCACAACATCGAAGGCCCGGCCTACCTGCACGGCGCCCTGTACGTGGTGAATTACGGCCGCGACGGCACCATCGCGCGGATCACCACCGGCGCCGACGGGCGCGGCAACGCCGAGTTGTTCGTCACCCTGCCCGCCGGCAGCCGCGGCAATGCGATCCGGGTCGCCGCCGACGGCAGCCTGCGCGTGGCCGATACCGACGGCCGCAAGCTGCTGCGCATCGACCCGGCCACCCGCGCGGTGAGCACCTACGCCGCACTGCCGGCCAGCACCGGCCCGAACGACCTGGCCCTGGCCGCCGACGGCACCACCTATGTCAGCGATCCGGACTGGCGCGACAACAGCGGCCGGCTGTGGCGGGTCGACCCGCATGGCCAGGTCGAGCTGCTGGAGGACGGCATGACCACGCCGAACGGCGTGGAGGTGTCTCCGGACGGGCAGCAGCTGTACGTCAACGAGAGCATGGCGCGCAAGATCTGGGTCTACGACCTGGTCGACGGCCGCCCGCGCAACAAGCGCCTGCTGATCGGCTTCGACGACTTCGGCCTGGACGGCATGCGCTGCGACGCCCGGGGCAACCTGTACGTGGCGCGCTACGACGCCGGGCAGATCGCGGTGGTGTCGCCAGACGGCGTGGTGCTGCGCACGGTGGCGATCAAGGGCCGCAAGACCAGCAACGTGGCCTTCGGCGGCGCCGACGGCCGCCAGGTGTTCGTGACCCTGCAGGACCGCGGCGCGATCGAGACCTTCCGCAGCGACACCCCCGGGCGCGAAGCCGGGCCGTAG	MSRMPLWLALLSLALPGAAQAGTEQTPFVARDYVGDGAFTHNIEGPAYLHGALYVVNYGRDGTIARITTGADGRGNAELFVTLPAGSRGNAIRVAADGSLRVADTDGRKLLRIDPATRAVSTYAALPASTGPNDLALAADGTTYVSDPDWRDNSGRLWRVDPHGQVELLEDGMTTPNGVEVSPDGQQLYVNESMARKIWVYDLVDGRPRNKRLLIGFDDFGLDGMRCDARGNLYVARYDAGQIAVVSPDGVVLRTVAIKGRKTSNVAFGGADGRQVFVTLQDRGAIETFRSDTPGREAGP	PGPT0001285_1999	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION_D_GLUCONATE_BIOSYNTHESIS,PGPT0001285-gnl-K01053	NA	NA
BMS020_03781	1044	rlmM_2	COG2933	Ribosomal RNA large subunit methyltransferase M	ATGAGCGGCCTGCTGTGCTACTGCCGCCAGGGCTTCGAACCGGAACTGGCGGCCGAACTGTCGACCCGCGCCGGCGAGGCCGGTTTCGCCGGCTACGCGCGTACCCAGCGCAACGATGGCCACGTGCTGTTCCTGTGCGATGACGCGGCGGCGCTGGCCGCGGCGCTGCCGTGGCGCGAGCTGATCTTCGCCCGGCAGAAGCTGCAGCTGCTGGCCGAGCTGCGCGGGCTGGACCCGAAGGACCGCATCACCCCGATCCTGGCCGCGCTGCAGGGCCAGCCGCGCTTCGGCGACCTGTGGGTCGAGCACCCCGATTCCGACGCCGGCAAGCCGCTGGCCGGGCTGGCGCGCAGCTTCGGCAACGCGCTGCGCCCGGCGCTGCGCAAGGCCGGCCTGCTCAGCGACAAGCCGCAGGCGAAACTGCCGCGCCTGCACGTGTGCTTCATCGACGGCGACCACGCCCTGCTCGCGATCGCCGACCCGCGCGACAGCGCGCCATGGCAGCTGGGCATCCCGCGGCTGAAGCTGCTGCCGGACGCCCCCTCGCGCTCGGCGTTGAAGCTGGAGGAAGCGCTGCTGGCGCTGCTGTCGCCGGAAGAACACGAGGCACTGGTGAAGCCGGGCATGCGTGCGGCCGACCTCGGTGCCGCGCCGGGCGGCTGGACCTGGGTGCTGACCCGCGAACACCTGCAGGTGACCAGCGTCGACAACGGTCCGCTGCGCCAGCACGTGCTCGATACCGGCCTGGTCGAACACCTGCGCGCCGACGGTTTCCACTGGAAGCCGGAGCGCGCGCTGGACTGGATGGTCTGCGACATGGTCGAGCAGCCGCGCCGCGTCGCCGAGCGCATGGCGACCTGGTTCCGCGAGGGCTGGTGCCGGCACGCGATCTTCAACCTCAAACTGCCGATGAAGAAGCGCTGGGACGAGACCGCGCTGTGCCTGGAGCTGTTCCAGGATCAGGCCGGCAAGCCGCTGCGGGTGCGCGCCAAGCAGCTGTACCACGATCGCGAAGAGATCACCGTGTTCGCCACACCGCGCTGA	MSGLLCYCRQGFEPELAAELSTRAGEAGFAGYARTQRNDGHVLFLCDDAAALAAALPWRELIFARQKLQLLAELRGLDPKDRITPILAALQGQPRFGDLWVEHPDSDAGKPLAGLARSFGNALRPALRKAGLLSDKPQAKLPRLHVCFIDGDHALLAIADPRDSAPWQLGIPRLKLLPDAPSRSALKLEEALLALLSPEEHEALVKPGMRAADLGAAPGGWTWVLTREHLQVTSVDNGPLRQHVLDTGLVEHLRADGFHWKPERALDWMVCDMVEQPRRVAERMATWFREGWCRHAIFNLKLPMKKRWDETALCLELFQDQAGKPLRVRAKQLYHDREEITVFATPR				NA	NA	NA	NA	NA
BMS020_03782	561	tadA_1		tRNA-specific adenosine deaminase	ATGCTCTACGCGCAAGTCCACCTCACCCTGCCCGCCTGGGTCCACGACCACGTCGACATGGCCATCGCCTATCCCGGCGATGAGGCCAAGGTCGCGCTGGCGATCGCACTGTCGCGGCAGAACGTGCTGGCCCACAGCGGCGGCCCGTTCGGCGCCGCGGTCTTCGGCCCGGACGACCGCATCATCGCGGTCGGCGTCAACCGCGTGGTGCCGCATACCACCTCGCTGGCGCATGCCGAGAACATGGCCTACATGCTGGCCCAGCAGCGCCTGCAGACCCATCGCCTGAACGACGTGCTGAAGCCGGTCACCCTGGCGACGTCGTCGCAGCCGTGCTGCCAGTGCTATGGCGCGACGATCTGGGCCGGCATCGACCGCCTGCTGATCGGCGCCAGCGCCGAGGACGTGATGGCGCTGACCAGCTTCGACGAAGGCCCGCTGCCGGCCGACTGGGTCGGCGAGCTGAACAAGCGCGACATCGAGGTCGTGCAGGGCCTGCACCGCGACGACGCGCGTGCGGTGCTGCGCAGCTACGGAGAGGGCGGTGGCGATCATTACTGA	MLYAQVHLTLPAWVHDHVDMAIAYPGDEAKVALAIALSRQNVLAHSGGPFGAAVFGPDDRIIAVGVNRVVPHTTSLAHAENMAYMLAQQRLQTHRLNDVLKPVTLATSSQPCCQCYGATIWAGIDRLLIGASAEDVMALTSFDEGPLPADWVGELNKRDIEVVQGLHRDDARAVLRSYGEGGGDHY				NA	NA	NA	NA	NA
BMS020_03783	375			hypothetical protein	ATGCACCGCCTGATCCTGGCCTTCGCCCTGCTGCTGGCCGGCTGCGCCGCCCCGGCAGCCTCCACTCAGGCCCAGACCCCGGCCGCGCCCGCCAGCGGCACACCGGTGCTGGTCGATACCCGCTGCCACAGCGATGCCGACTGCGCGGTCAAGAACGTCGGCAACTGCTGCGGCGCCTACCCGGCGTGCGTGAACGTCGCCAGCCCGACCGATCCCGCCGCGGTGATGGCGCAGTGCCAGGCCAGCGGGCGGATGAGCGTGTGCGGCGCGCGCCAGATCGCCGGCTGCAGCTGCGTCGCCGGCCAGTGCACCGCAAAGCCGGCCAAGGCCGATACACTGCCCGGTTCGTCAGACTCTCCCGCTCCCGTCCGCTGA	MHRLILAFALLLAGCAAPAASTQAQTPAAPASGTPVLVDTRCHSDADCAVKNVGNCCGAYPACVNVASPTDPAAVMAQCQASGRMSVCGARQIAGCSCVAGQCTAKPAKADTLPGSSDSPAPVR				NA	NA	NA	NA	NA
BMS020_03784	945	ytfF_1		Inner membrane protein YtfF	ATGCGTGAACGCTTGATCGCGGGGCTGGCCAATGGGGTTGGCGCCGGCGCGCTGTGGGGGCTGGTGTTCCTGGCACCGCTGCTGCTGCACGATTTCAGCCCGGTGCAGCTGGCCGCATCGCGCTACCTCGGTTACGGCGTGGTTGCCGCGGCAGTGCTGCTGCCGCGCTGGCGCCACGTGCGTGGGCTGCTGCATGCGCGCGAATGGGGCGCGCTGGTGTGGCTGAGCCTGCTCGGCAACATCATCTATTACGTGCTGCTCGGCGCCGCGGTGCAGTGGGCCGGCAGCGCCGCGACCGCGCTGATCATCGGCCTGATCCCGGTGGTGGTGACGCTGTACGGCGCGCGCGGCGCCGGTGCGGTGTCGCTGTCGCGGCTGCTGGCGCCGTGCGCGCTGTGCGTGGCCGGGGTGGTGCTGGTGGCGCTGGCGTCGCTGCACGGCGGCAGCGGGCCGCAGCAGCCGCTGGCCACGCGCGCGGCCGGGCTGGCCTGCGCGTTCGGCGCGCTGCTGTCGTGGTCGGCGTATTCGATCGGCAACGCGCACTGGCTGTCGCGGCGCCCGGACCTGTCCGGCGGCGACTGGTCGTTGCTCACCGGCGTGGTCACCGGCGCGCTGGCGCTGCTGCTGGTCCCGGCCGCGTTCGCTTTCGATGCGGCCACGCATGCACCGGCCGACTGGCTGCGCTTCTGGGGCGTGGCGAGCGCGCTGGCGGTGCTGGCCTCGGTGGTCGGCAACGCCTGCTGGAACCGTGCCAGCCGGTTGCTGCCGCTGACCCTGATCGGGCAGATGATCGTATTCGAGACCGTGTTCGCATTGCTGTACGGCTTCGCCTGGGAATGGCGCCTGCCCAGCGCGCTGGAAGCGGTGGCGATCGCCTGCCTGCTCGGCGGCGTGCTGTGGTGCGCCTCGGCGCACGTGGAGCGCCGCCGCCCGGCTGCAGCCTGA	MRERLIAGLANGVGAGALWGLVFLAPLLLHDFSPVQLAASRYLGYGVVAAAVLLPRWRHVRGLLHAREWGALVWLSLLGNIIYYVLLGAAVQWAGSAATALIIGLIPVVVTLYGARGAGAVSLSRLLAPCALCVAGVVLVALASLHGGSGPQQPLATRAAGLACAFGALLSWSAYSIGNAHWLSRRPDLSGGDWSLLTGVVTGALALLLVPAAFAFDAATHAPADWLRFWGVASALAVLASVVGNACWNRASRLLPLTLIGQMIVFETVFALLYGFAWEWRLPSALEAVAIACLLGGVLWCASAHVERRRPAAA				NA	NA	NA	NA	NA
BMS020_03785	795	rhaR_4		HTH-type transcriptional activator RhaR	GTGAGCCAGCGACGCGCCGTGTCCACGGGATTCGGCGCGTCGGTCGAGGCGCCGCTGCGCGAGCGCGGCGCCCTGCACCTGCGGCGCTATGGCCGCGACAGCCACCTCCACCACCACCACCACGTGCAGGTGGTGGTGCCGGTCTTGGGGACGCTGGACGTGGAGGTCGGCGGCCGCGGCGGGCGTGTCGACCTGCGCCGCGCGGTGGTGATCGCGCCCGGCACCGACCACGACCAGACCACCCCGGACGACAACCGTTTCCTGATCGTCGACCTGGACGTCGCCGCGCTCGGCGAAGTCCGCGTCGAGCAGCTGCAGCGGCGCCCGTTCGTCGCCACCACGCCGCGGATGCTGGCACTGGCGGCGTTCGTCGACCGCCACTGCCACGCCAGCGAAGACGTGCCCGCCACGCTCGCCCGCCACTGCCTGCCGCCACTGCTGCAGGCCCTGGGCAGCGATCCGGCACCGCTGCGACGCCTGCAGCAGCTGTGCGATGCGATCAGCGCCGCACCCGGCCAGGCGTGGACGGTGGCGCGCATGGCCGCACATGCCGGGCTCGGCGAGAGCCGCCTGCACGCACTGTTTCGCAGCGCCTTCGACCAGAGCCCGCAGCAATGGCTGGCGGCGCTGCGGCTGCGGCGCGCCTGCCAACAGCTGGCCGAGACCACCACCCCGATCGCGCAGCTGGCGATCGACAACGGCTGGTCCGACCAGACCGCACTGACCCGGGCGATGAAGCGCGCCACCGGCTGCACGCCGGCGGCATGGCGACGCGAGCGTTCCGGCTGCGGCTGA	MSQRRAVSTGFGASVEAPLRERGALHLRRYGRDSHLHHHHHVQVVVPVLGTLDVEVGGRGGRVDLRRAVVIAPGTDHDQTTPDDNRFLIVDLDVAALGEVRVEQLQRRPFVATTPRMLALAAFVDRHCHASEDVPATLARHCLPPLLQALGSDPAPLRRLQQLCDAISAAPGQAWTVARMAAHAGLGESRLHALFRSAFDQSPQQWLAALRLRRACQQLAETTTPIAQLAIDNGWSDQTALTRAMKRATGCTPAAWRRERSGCG				NA	NA	NA	NA	NA
BMS020_03786	1782	glnS_1	COG0008	Glutamine--tRNA ligase	ATGTCCGAGACCCCCGATACCGCTGCCCCGGCCGACGCCGGCTCCGCCGAAAAGCGCCCCGACGACGCCTCGGCGTCGCCGGAAAAGCGGGATTTCATCCGCCAGATCGTCCGCGAGGACCTGGCCAGCGGCAAGCACGGCGCGATCAAGACCCGCTTCCCGCCCGAGCCCAACGGCTACCTGCACATCGGCCACGCCAAGGCGATCTGCCTGGACTTCGGCGTCGCCGCCGAGTTCGGCGGCGTGTGCAACCTGCGCCTGGACGACACCAACCCGGCCAAGGAAGACCCCGAGTTCGTCGCCGCGATCCAGGACGACGTGCGCTGGCTGGGCTTCGACTGGGCCAGCCTGCGCCACGCCTCGGACTATTTCGAGGTGCTGTACCTGGCCGCCGAGAAGCTGGTGCGCGACGGCAAGGCGTTCGTCTGCGACCTGTCAGCCGAGCAGGTGCGCGAATACCGCGGCACGCTGACCGAACCCGGCCGCAACTCGCCGTTCCGCGAGCGCAGCGTCGAGGAGAACCTGGACCTGCTGCGGCGCATGCGCGCCGGCGAGTTCCCGGATGGTGCGCGCACGCTGCGCGCCAAGATCGACATGGCCAGCGGCAACATCAACCTGCGCGACCCGGCGCTGTACCGGATCAAGCACGTCGAGCACCAGAACACCGGCAGCGCGTGGCCGATCTACCCGATGTACGACTTCGCGCATTCGCTGAGCGATTCGATCGAGGGCATCACCCACTCGCTATGCACGCTGGAGTTCGAGGACCACCGCCCGCTGTATGACTGGTGCGTGGACCACGTCGACCTGGCCGGCAACCCGGAGCTGCTGGCGCCGCTGGCCGCCAAGGGCCTGCCGCGCGAAGCGGCCAAGCCACGCCAGATCGAGTTCTCGCGTTTGAACATCAACTACACGGTGATGAGCAAGCGCAAGCTGACCCAGCTGGTCACCGAAGGGCTGGTCGACGGCTGGGACGACCCGCGCATGTACACGCTGCAGGGTCTGCGCCGGCGCGGCTACACGCCGGCCAGCCTGCGCCTGCTGGTCGATCGCGTCGGCATCTCCAAGCAGAACTCGGTGATCGACTTCTCGGTGCTGGAAGGCTGCCTGCGCGACGACCTCGACGCCAGCGCGCCGCGCCGGATGGCGGTGGTCGATCCGCTCAAGTTCGTGCTGACCAACCTGCCGGAAGGCCATGCCGAGTCGCTGACGTTCTCCAACCATCCCAAGGACGAGAGCTTCGGCGAGCGCCAGGTGCCGTTCTCGCGCGAGCTGTGGATCGAGCGCGAGGACTTCGCCGAAGTCCCGCCGAAGGGCTGGAAGCGACTGGTGCCGGGCGGCGAAGTGCGACTGCGTGGCGCCGGCATCGCCCGCGTCGACGAGGTCATCAAGAACGATGCCGGCGAGATCGTCGAGCTGCGCGGCTGGCTGGATCCGGAATCGCGTCCGGGCATGGAAGGCGCCAACCGCAAGGTCAAGGGCACGATCCACTGGGTCAGCGCCGCGCATGCGGTGGCCGCCGAGATCCGCCTGTACGACCGGCTGTTCTCGGTCGAGAAGCCCGACGACGAATCCGACGGCAAGACCTACCAGGACCATCTGAATCCGGAGTCCAAGCGCAGCGTGCAGGGCTGGGTCGAACCGGCCGCGGCCGAGGCGGCGCCGGAGCAGGCGTTCCAGTTCGAGCGCACCGGTTACTTCGTCGCCGACCGCCGCGACCACAGCGCCGCCACGCCGGTGTTCAACCGCAGCGTGACGCTGCGCGACACCTGGGCCAAGTGA	MSETPDTAAPADAGSAEKRPDDASASPEKRDFIRQIVREDLASGKHGAIKTRFPPEPNGYLHIGHAKAICLDFGVAAEFGGVCNLRLDDTNPAKEDPEFVAAIQDDVRWLGFDWASLRHASDYFEVLYLAAEKLVRDGKAFVCDLSAEQVREYRGTLTEPGRNSPFRERSVEENLDLLRRMRAGEFPDGARTLRAKIDMASGNINLRDPALYRIKHVEHQNTGSAWPIYPMYDFAHSLSDSIEGITHSLCTLEFEDHRPLYDWCVDHVDLAGNPELLAPLAAKGLPREAAKPRQIEFSRLNINYTVMSKRKLTQLVTEGLVDGWDDPRMYTLQGLRRRGYTPASLRLLVDRVGISKQNSVIDFSVLEGCLRDDLDASAPRRMAVVDPLKFVLTNLPEGHAESLTFSNHPKDESFGERQVPFSRELWIEREDFAEVPPKGWKRLVPGGEVRLRGAGIARVDEVIKNDAGEIVELRGWLDPESRPGMEGANRKVKGTIHWVSAAHAVAAEIRLYDRLFSVEKPDDESDGKTYQDHLNPESKRSVQGWVEPAAAEAAPEQAFQFERTGYFVADRRDHSAATPVFNRSVTLRDTWAK				NA	NA	NA	NA	NA
BMS020_03787	642			hypothetical protein	ATGCCGCATCCCCGCCTGGTCATTGGCGACAAGAACCTCTCCTCCTGGTCGCTGCGCCCGTGGCTGCTGCTGCGGCACTTCGAGGTGGCCTTCGACGAGGTGCCGCTGCCGCTGGATACCCCGGAGTTCGCCGCCCGCATCGGCGACTACTCGCCGACCGGCCAGGTGCCGGCGCTGTGGGACGGCGACCTGCAGGTCTGGGACTCGCTGGCGATCTGCGAATACGCCAACGAGCGCTGGCTGGACGGGCGCGGCTGGCCGGCCGATCCGGATGTCCGTGCGTTGGCGCGCTCGGCGGCCTCGGAGATGCATTCCGGCTTCGCCGCGCTGCGCCGGCAGCTGCCGATGCAGACCTGCCGGCAGCCGGGCGGGGCCAGCTGGGATGCAGCCGCGCAGCGCGACATCGACCGGATCCAGGCGCTGTGGGCATGGATGCGCGCGCGCTGCGAGGAAGACGGCCCGTTCCTGTGCGGTGGCTTCGGCATCGTCGATGCGATGTTCGCCCCGGTCGCGCTGCGTTTCGCCGGCTACGGCGTGCCGGTCGACGCGGTCGCCGCCGACTACATGGCCGCGCTGGAAGCGTTGCCGGCGCTGCGCCAGTGGCGCGCCGACGCGGCCGCCGAGATCGCTTCCCACACCTGA	MPHPRLVIGDKNLSSWSLRPWLLLRHFEVAFDEVPLPLDTPEFAARIGDYSPTGQVPALWDGDLQVWDSLAICEYANERWLDGRGWPADPDVRALARSAASEMHSGFAALRRQLPMQTCRQPGGASWDAAAQRDIDRIQALWAWMRARCEEDGPFLCGGFGIVDAMFAPVALRFAGYGVPVDAVAADYMAALEALPALRQWRADAAAEIASHT	PGPT0013170_14755	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS020_03788	261			hypothetical protein	ATGCAGGTCGCCTACCGCGCCGACAACCTGTTCGATGCCCACCTGGTCAAGCATGCGCTGGAGGATGCCGGCATCCCGGCGTTCGTGTTCGGCGAATCGCTGCTCGGCGCCGGCGGCGAGCTGCCGCTGTTCGGCGTGCTGCGGGTCTGCGTGCCGGACCCGCTGCTGCCGCGGGCGCAGGACGTGGTGGCGGGCTTGGCGCTGGGCGAGGCTGCCCCCATCTCCGAAGACGACGAAGACCCCGGCTTCCTGCCGGCCTGA	MQVAYRADNLFDAHLVKHALEDAGIPAFVFGESLLGAGGELPLFGVLRVCVPDPLLPRAQDVVAGLALGEAAPISEDDEDPGFLPA				NA	NA	NA	NA	NA
BMS020_03789	681	msrA_1	COG0225	Peptide methionine sulfoxide reductase MsrA	ATGCTTGGAATTTCCGCCGCGTTCGACAAGCTCGGCATCGGTGCGTTCAAACAGCGCCTGCCGCGTGAAGGCGAGGCGCTGCCTGGCCGCGACACCCCGCTGCCGCTGAACAACCTGCACTACGTCAACGGCCAGCCGCTGCGTGGTGATTTCGCCGGGCTGGAAGTGCTGGACGTGGGCATGGGTTGCTTCTGGGGCGCCGAGCGCAAGTTCTGGCAGCTGCCGGGCGTGGTCACCACCGCGGTCGGCTACCAGGGCGGGCAGACCCCGAACCCGACCTACGAGGAGGCCTGCTCGGGCCTGACCGGCCACACCGAGGTGGTGCGGATCGTGTTCGACCCGGCCAGGGTGTCGCGCGCGCAGGTGCTGCAGACCTTCTGGGAGAATCACGACCCGACCCAGGGCATGCGCCAGGGCAACGACACTGGCACCCAGTACCGCTCGGCGGTCTATTGCCACAGCCAGGCCCAGTACGACGCGGTGCTGGCCAGCCGCGATGCCTACCAGCAGCAGCTGCGTGCGGCCGGCTACGGCGACATCACCACCGAGATCGTGTTTCCGGCGCCACCGTTCTACTACGCCGAGGACTACCACCAGCAGTACCTGGCGAAGAATCCCGGCGGCTACTGCGGCATCGGTGGGACCGGCGTGAGCTGCCCGATCGGCCTGGCCGCGCCCTGA	MLGISAAFDKLGIGAFKQRLPREGEALPGRDTPLPLNNLHYVNGQPLRGDFAGLEVLDVGMGCFWGAERKFWQLPGVVTTAVGYQGGQTPNPTYEEACSGLTGHTEVVRIVFDPARVSRAQVLQTFWENHDPTQGMRQGNDTGTQYRSAVYCHSQAQYDAVLASRDAYQQQLRAAGYGDITTEIVFPAPPFYYAEDYHQQYLAKNPGGYCGIGGTGVSCPIGLAAP	PGPT0013065_1342	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013065-msrA-K07304	NA	NA
BMS020_03790	570	ydeA	COG0693	putative protease YdeA	ATGGCGAAGATCGCGGTGGTGATGGTCGATGGCGTGGCGGATTGGGAGATCGGCCCGGTACTGCCTGCGGCGCGAGACTGGTTCGGCGACGAGGTCGTCGTCTCCAGCATCGATGGCCGTGCCGTCACCTTGATCGGCGGCCTGCACATCGTGCCGGCGTCCGCGCTGCCCGACCTGGCGCCGCTCGAGGCCGACCTGTGGCTGCTGCCCGGCAGCGAACGCTGGCAGGACAGCGAGGTTCCAGGCCTGAGCCATCGGCTACGCCAGCGCCAGGCGGCCGGACGCGACATCGCCGCGATCTGCGGTGCCACGCTTGCCCTGGCCCACGCCGGCCTGCTCCAGTCCCGGCCGCATACCAGCAATTCGCTCGCATTCCTGCGCCACCACGTCGCCGGGTATGCCGGTGCCGAGTCCTACCGTGAGGACAGGGTGGTCGACGACGCCGGGCTGATCACGGCACCGGGCACCAGCCCGGTCCATTTCGCCCTGGCCTGTCTGGGCCGGCTGCATCCGGAGCGGGTCGACGACCTCGCGCAGGCACGAGCAATGTTCAGCGGCGAGTTCGCCTGA	MAKIAVVMVDGVADWEIGPVLPAARDWFGDEVVVSSIDGRAVTLIGGLHIVPASALPDLAPLEADLWLLPGSERWQDSEVPGLSHRLRQRQAAGRDIAAICGATLALAHAGLLQSRPHTSNSLAFLRHHVAGYAGAESYREDRVVDDAGLITAPGTSPVHFALACLGRLHPERVDDLAQARAMFSGEFA				NA	NA	NA	NA	NA
BMS020_03791	972	tal_1		Transaldolase	ATGACTGCTTCGCATCCTTCCAAACTCGCCCAGCTGCGCGACCTGTCGGTGGTTGTGGCCGACACCGGCGACTACGACGCGATCAAGCGCCTGAAGCCGGTGGACTGCACCACCAACCCGACCCTGGTGAAGAAGGCGCTGGACCTGCCGGTCTATGCCGCGCTGATCGAGCGCGAACTGGCCTGGGGCCGCACCCAGGCCGAACCGACCTCCGCCGCGGTGGTCGACGAAGTGGCCGACCGCCTCACCGTCGGCGTCGGCGCGATGCTGGCCGAGCTGGTGCCGGGCCGCGTCTCGACCGAGGTCGACGCCGACCAGGCCCACGACACTGCCGCCACGATCGCCAAGGCGCACAAGTTCATCGCCATGTACGCCGAGCGCGGCGTGGCCAAGGACAAGGTGCTGATCAAGGTCGCCGCGACCTGGGAAGGCGTGGAGGCCGCGCGCCAGCTGCAGAAGGATGGCATCGACTGCAACCTGACGCTGATCTTCAACCAGACCCAGGCGCTGGCCTGCGCCGAGGCCGGGGTGTTCCTGATTTCGCCGTTCGTCGGCCGCATCCTCGACTGGTACGTCGCCGCCGGCCAGACGCCGGCGAACATCGACGAGGACCCGGGCGTGGTGTTCGTGCGCGGCGTCTATGCCGAGTTCAAGAAGCGCGGCTCGCAGACCGTGGTGATGGGCGCCTCGTTCCGCTCCACCGCGCAGATCGAGGCGCTGGCCGGCTGCGACCGCCTGACGATCTCGCCGGACCTGCTGGAGAAGCTCGACGCCGACCACGGCGAGCTGCCGCGCAAGCTGGCCCCGGGCGCCGCCGACGGCGCGGCGATCACCCCGATCGACGCTGCGCGCTTCGCCGCCGACCTCGCCGCCGACCCGATGGCGACCGAGAAGCTGGGCGGCGGCATCGATACCTTCGCCAAGGACCTCAACGCCCTGCGCGAGACCATCCGGCAGAAGCTGGCGGGCTGA	MTASHPSKLAQLRDLSVVVADTGDYDAIKRLKPVDCTTNPTLVKKALDLPVYAALIERELAWGRTQAEPTSAAVVDEVADRLTVGVGAMLAELVPGRVSTEVDADQAHDTAATIAKAHKFIAMYAERGVAKDKVLIKVAATWEGVEAARQLQKDGIDCNLTLIFNQTQALACAEAGVFLISPFVGRILDWYVAAGQTPANIDEDPGVVFVRGVYAEFKKRGSQTVVMGASFRSTAQIEALAGCDRLTISPDLLEKLDADHGELPRKLAPGAADGAAITPIDAARFAADLAADPMATEKLGGGIDTFAKDLNALRETIRQKLAG	PGPT0017375_2331	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_PENTOSE_METABOLISM,PGPT0017375-talA|talB-K00616	NA	NA
BMS020_03792	456	rnk_1	COG0782	Regulator of nucleoside diphosphate kinase	ATGACCACGTCCCTGCCCGCCAGCGGCCTGCCGCCGTCGGCCGCCCCCGCCACCCCGCCGATCACCGTCTCCAGCCGCGACCTCGCGCGCCTGGAAGCCCTGCTTGAATCCCCCGCGCTGAGCCGCCATCCCGCTGCGCTCGCGCTGTCCGCCGAACTCGAGCGCGCCCAGGTGCTGGCGCCCGAACAGATGCCCGGCGACGTCGTCACGATGCACTCGCGGGTCGAATGCCGCGACGAGCTGCACGACGACCATCACGCCTTCACCCTGGTCTATCCGCACGAGGCCGATGTCGAGCGCCAGCGCGTCTCGGTGCTCGCACCGGTCGGCAGTGCGCTGCTCGGGCTGTCGCTCGGCCAGGTAATCGACTGGCAGGCGCCCGCGGGCCGCAACCTGCGCCTGCGCGTCACCGCGATCCACTACCAACCCGAGGCCGCGGGCGACTTCCACCGCTGA	MTTSLPASGLPPSAAPATPPITVSSRDLARLEALLESPALSRHPAALALSAELERAQVLAPEQMPGDVVTMHSRVECRDELHDDHHAFTLVYPHEADVERQRVSVLAPVGSALLGLSLGQVIDWQAPAGRNLRLRVTAIHYQPEAAGDFHR				NA	NA	NA	NA	NA
BMS020_03793	945	oxyR_4		Hydrogen peroxide-inducible genes activator	ATGAACCTGCGTGACCTGAAGTACCTGGTGGCCCTGGCCGACCACAAGCATTTCGGTCGCGCCGCGGCGGCGTGTTTCGTCAGCCAGCCAACCCTGTCGACCCAGATCAAGAAGCTCGAGGACGAGCTGGGCGTGCCGCTGGTCGAACGGGCCCCGCGCAAGGTGATGCTGACTCCGGCCGGGCGCGAGGCCGCGGCGCGTGCACGCGGCATCGTCGCCGAGGTCGAGCAGATGAAGGAGGCCGCGCGACGCAGCCAGGACCCCGAGGCCGGCACCGTGCGGCTGGGCATCTTCCCCACGCTCGGCCCCTACCTGCTGCCGCACATGGTGCCGCGCATCCGCCAGCGCTTCCCCCAGCTGGAGCTGCTGCTGGTGGAGGAAAAGAGCGACCAGCTGCTGCGCCAGCTGCGCGAAGGCCGGCTCGATGCGGCGCTGCTGGCGCTGCCGCTGCACGATGACCAGCTGCATACCGAATTCCTGTTCGAGGAGCCCTTCGTGCTGGCCGTGCCGGAAGGGCATGCGCTGGCGCGGCGCGAGGGTCTGACCCTGGACGAGCTGTCCGACCAGCGCCTGCTGCTGCTCGAGGACGGCCACTGCCTGCGCGAGCAGGCGCTGGACGTGTGCCACCTGTCCGGCGCGCTGGAGAAGTCCGAATTCCAGGCCACCAGCCTGGAGACGCTGCGGCAGATGGTCGCCGCCAACGTCGGCGTGACCCTGCTGCCGTTGCTGGCGGTGAAGCCGCCGGTGGCCAGGTCCGAGAGCATCCGCCTGCTCGGCTTCCGCGAGGACAAGCAACCGAGCCGGCGCATCGCGATGGTGTGGCGGCGCAGCTCGGCGATGTCCGGTTTCCTGGAGCAGCTGGCCGCGCTGTTCAAGCAGCTGCCACCGGAGCTGCTGCGGGTGGATACCGCCAGCGGGCGCCGGCGCAATGTCGAGGCGGCCTGA	MNLRDLKYLVALADHKHFGRAAAACFVSQPTLSTQIKKLEDELGVPLVERAPRKVMLTPAGREAAARARGIVAEVEQMKEAARRSQDPEAGTVRLGIFPTLGPYLLPHMVPRIRQRFPQLELLLVEEKSDQLLRQLREGRLDAALLALPLHDDQLHTEFLFEEPFVLAVPEGHALARREGLTLDELSDQRLLLLEDGHCLREQALDVCHLSGALEKSEFQATSLETLRQMVAANVGVTLLPLLAVKPPVARSESIRLLGFREDKQPSRRIAMVWRRSSAMSGFLEQLAALFKQLPPELLRVDTASGRRRNVEAA	PGPT0012965_922	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
BMS020_03794	1593	ahpF_1	COG3634	Alkyl hydroperoxide reductase subunit F	ATGTTGGACGCCAACCTCCAGACCCAGCTCAAGGCCTACCTGGAAAAGGTCACCCGCCCGATCCAGATCGACGCCTCGGTCGACGACAGCGACGGTTCGCAGCAGATGCTGGAACTGCTCAACGAGCTCGACGCGCTGAGCGACAAGATCAGCCTCAACGTCTGGCGCGACGACGCCGAGCGCAAGCCGTCGTTCGGCCTGACCTCGCCCGGCCACGACATCAAGCTGCGCTTCGCCGGCCTGCCGATGGGCCACGAGTTCACCTCGCTGGTGCTGGCGCTGCTGCAGGTCGGCGGGCATCCGTCCAAGGCCGCGCCGGAGCTGCTGGAGCAGGTGCGCAACCTCGAGGGCGAGTACAAGTTCGAGACCTATTTCTCGCTGTCGTGCCAGAACTGCCCGGACGTAGTGCAGGCGCTGAACCTGGCCGCGGTGCTGAACCCGAACATCAGCCACGAGGCGATCGACGGCGCGTTCTTCCAGGAGGAAGTGGAAGCGCGCGAGATCATGTCGGTGCCGACCGTGTTCCTCAACGGCACGCTGTTCGACCAGGGCCGCATGAGCCTGGAGCAGATCGTCGCCAAGCTCGACACCGGCGCGTCCGACCGCACCGCCAAGCAGATCGCGCAGAAGGCCGCGTTCGACGTGCTGGTGGTCGGCGGCGGCCCGGCCGGCGCGGCGGCGGCGGTGTATGCCGCGCGCAAGGGCATCCGCACCGGCGTGGCGGCCGAGCGCTTCGGCGGCCAGGTGCTGGACACGATGGCGATCGAGAACTTCATCTCGGTGCCGGAGACCGAAGGCCCGAAGATGGCCGCGGCGCTGGAACAGCACGTGCGCCACTACGACGTCGACATCATGAACCTGCAGCGCGCCGAGAAGCTGGTGCCGGCCGGTGCCGATGGCCTGATCGAGGTCAAGCTGGAGAACGGCGCGTCGCTGAAGTCCAAGAGCGTGATCCTGTCCACCGGCGCGCGCTGGCGGCAGATGAACGTGCCGGGCGAGAACGAGTACCGCAACAAGGGCGTGGCCTACTGCCCGCACTGCGACGGCCCGCTGTTCAAGGGCAAGCGCGTGGCGGTGATCGGCGGCGGCAACTCCGGCGTCGAGGCCGCGATCGACCTGGCCGGCATCGTCGCCCACGTCACCCTGGTCGAGTTCGATGCGCAGCTGCGCGCCGACGAGGTCCTGCAGCGCAAGCTGCGCAGCCTGCCGAACGTGCGCATCATCACCAGCGCACAGACCACCGAGGTGCTCGGCGACGGCAGCAAGGTCACCGGCCTGGTCTACAAGGACCGCACCGGCGGCGACAGCCATCGGGTCGAGCTGGAAGGCGTGTTCGTGCAGATCGGCCTGCTGCCCAACACCGAGTGGTTGAAGGGCGTGGTGGCGCTGTCGCCGCGCGGCGAGATCATCATCGACGACCGCGGCCAGACCAGCGTGCCGGGCGTGTTCGCCGCCGGCGATGCGACCACGGTGCCGTACAAGCAGATCGTGATCGCGATGGGTGCCGGCGCCACCGCGGCGCTGAGCGCCTTCGATCACCTGATCCGCAGCAGCGCACCGACCAACACCGGCGCGGTTGCCGAGGCAGCCTGA	MLDANLQTQLKAYLEKVTRPIQIDASVDDSDGSQQMLELLNELDALSDKISLNVWRDDAERKPSFGLTSPGHDIKLRFAGLPMGHEFTSLVLALLQVGGHPSKAAPELLEQVRNLEGEYKFETYFSLSCQNCPDVVQALNLAAVLNPNISHEAIDGAFFQEEVEAREIMSVPTVFLNGTLFDQGRMSLEQIVAKLDTGASDRTAKQIAQKAAFDVLVVGGGPAGAAAAVYAARKGIRTGVAAERFGGQVLDTMAIENFISVPETEGPKMAAALEQHVRHYDVDIMNLQRAEKLVPAGADGLIEVKLENGASLKSKSVILSTGARWRQMNVPGENEYRNKGVAYCPHCDGPLFKGKRVAVIGGGNSGVEAAIDLAGIVAHVTLVEFDAQLRADEVLQRKLRSLPNVRIITSAQTTEVLGDGSKVTGLVYKDRTGGDSHRVELEGVFVQIGLLPNTEWLKGVVALSPRGEIIIDDRGQTSVPGVFAAGDATTVPYKQIVIAMGAGATAALSAFDHLIRSSAPTNTGAVAEAA	PGPT0013150_192	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013150-ahpF-K03387	NA	NA
BMS020_03795	564	ahpC_2		Alkyl hydroperoxide reductase C	ATGTCCCTGATCAACACCCAGGTCCAGCCGTTCAAGGCCAACGCTTACCAGAACGGTGAGTTCATCGAAGTCTCCGACGCCAGCCTGAAGGGCAAGTGGTCGGTCCTGATCTTCATGCCGGCCGCCTTCACCTTCAACTGCCCGACCGAGGTCGAGGACGCCGCCGACAACTACGCCGAGTTCCAGAAGGCCGGCGCCGAGGTCTACATCGTCACCACCGACACCCACTTCTCGCACAAGGTGTGGCACGAGACCTCCCCGGCGGTGGGCAAGGCCCAGTTCCCGCTGGTCGGCGACCCGACCCACCAGCTGACCCGCGCCTTCGGCGTGCACATCGAGGAAGAAGGCCTGGCCCTGCGCGGCACCTTCATCATCAACCCGGAAGGCGTGATCAAGACGCTGGAGATCCACGACAACGCGATCGCCCGCGACGTCTCCGAGACCCTGCGCAAGCTCAAGGCCGCCCAGTTCGTCGCCGCCAACCCGAACCAGGTGTGCCCGGCGAAGTGGAAGGAAGGCGCCAAGACCATCGCGCCGTCGCTGGACCTGGTCGGCAAGATCTAA	MSLINTQVQPFKANAYQNGEFIEVSDASLKGKWSVLIFMPAAFTFNCPTEVEDAADNYAEFQKAGAEVYIVTTDTHFSHKVWHETSPAVGKAQFPLVGDPTHQLTRAFGVHIEEEGLALRGTFIINPEGVIKTLEIHDNAIARDVSETLRKLKAAQFVAANPNQVCPAKWKEGAKTIAPSLDLVGKI	PGPT0003260_746	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0003260-ahpC-K24119	NA	NA
BMS020_03796	876	prmC_2	COG2890	Release factor glutamine methyltransferase	ATGGCCCACCGTCATGTCGCCACGGTGAAGCCGCTGTCCTGTCCCGACCCGATCATCGCGCCAGAGGCGCTGCTGCGCGCGGCCGCCGCGCGCATCGGCCGCACCGATGCCGAGCCCCTGTTGCTGCACGCGCTGCAGCGCGACCGGGCGTGGCTGTTCGCGCACGGCCGCGATCCGGTCGACGCCGCGGTGGCCGCCCGGTTCGAGGCGCTGGTGGCGCGGCGCGAGGCTGGCGAGCCGGTGGCCTATCTGATCGGCCGGCGCGGCTTCTGGACCCTGGACCTGCGGGTCACCCCGGCGACGTTGATCCCGCGCCCGGAAACCGAGCTGCTGGTGGAACTGGCGCTGGCCCGGCTCGACCAACAGCCGGGACGACGCGCGGCCGATCTCGGTACCGGCAGCGGCGCGATCGCGCTGGCGCTGGCCAGCGAGCGGCCGCAGGCGCAGGTGGTCGCCACCGATCTCAGCGCGGCGGCGCTGGAGGTCGCACGCGGCAACGCCAACGACAACGGCATCGCCAACGTCGTGTTCCGCCACGGCAGCTGGCTGGCCCCGCTGGCTGGCGAACGCTTCAACCTGATTGCCAGCAACCCGCCGTACATCGCCGCTGACGATCCGCATCTGATGCAGGGCGACCTGCGTCACGAGCCGGCCAGCGCGCTGGCCTCCGGCGCCGACGGGCTGGACGACATCCGCCTGATCGTCGCGGCCGCCCCCGATCATTTGCATGCCGGCGGCTGGCTGCTGTTCGAGCACGGCTGGGATCAGGGCGAGGCGGTGGCCGCGCTGCTGCGCGCGCGCGGCTTCGCACAGGTCGCCACCGAACGTGACCTCGAAGACCGCGACCGGGTGACGCTGGGGTGCTGGCCGCAGTGA	MAHRHVATVKPLSCPDPIIAPEALLRAAAARIGRTDAEPLLLHALQRDRAWLFAHGRDPVDAAVAARFEALVARREAGEPVAYLIGRRGFWTLDLRVTPATLIPRPETELLVELALARLDQQPGRRAADLGTGSGAIALALASERPQAQVVATDLSAAALEVARGNANDNGIANVVFRHGSWLAPLAGERFNLIASNPPYIAADDPHLMQGDLRHEPASALASGADGLDDIRLIVAAAPDHLHAGGWLLFEHGWDQGEAVAALLRARGFAQVATERDLEDRDRVTLGCWPQ				NA	NA	NA	NA	NA
BMS020_03797	942	pip		Proline iminopeptidase	ATGCGCACGCTCTATCCCGAGATCGAACCGTTCAACACCGGCACGCTGAAGGTCGATGACCGCCACACCCTGTATTTCGAGGAGTGCGGCAATCCGCAGGGCAAGCCGGTGGTGCTGCTGCACGGTGGTCCGGGCGGCGGCATCAGCGCCAAGATGCGGCGCTTCCACGATTCGGCCAAGTACCGCATCGTGCTGTTCGACCAGCGTGGCTCCGGGCGTTCGACCCCGCATGCCGACCTGATCGACAACACCACCTGGGACCTGGTCGCCGACATCGAGAAGCTGCGCAGCACGCTCGGCATCGAGCGCTGGCAGGTGTTCGGCGGCAGCTGGGGCTCGACGCTGGCGCTGGCCTACGCCGAAGCCCACCCCGGGCGCGTCACCGAGCTGGTGCTGCGCGGCATCTTCATGCTGCGCCGCTGGGAACTGGAGTGGTTCTACCAGGAAGGCGCCAACCGGCTGTTCCCGGATGCGTGGGAGCACTACATCGGCGCGATCCCGCCGGTCGAGCGCCACGATCTGATCTCGGCATTCCATCGCCGCCTGACCAGCGACGACGAGGCGACCCGGCTGGCCGCGGCCAAGGCGTGGAGCGTGTGGGAAGGCGCGACCAGCTTCCTGCATGTGGACGACGACTTCGTCAACAGCCATGAAGACCCGCGCTTCGCGCTGGCGTTCGCGCGCATCGAGAACCACTACTTCGTCAACGGCGGCTTCTTCGAGGTCGAGGACCAGCTGCTGCGCGACGCGCCGAAGATCGCCGACATCCCCGGTGTGATCGTGCATGGCCGCTACGACGTGGTGTGCCCGCTGCAGAACGCCTGGGACCTGCACAAGGCCTGGCCGAAGGCGCAGCTGCAGATCACCGCGGCCTCGGGGCACTCGGCGTTCGAGGCCGAAAACGTCGACGCGCTGGTGCGTGCCACCGACCGCTTCGCCTGA	MRTLYPEIEPFNTGTLKVDDRHTLYFEECGNPQGKPVVLLHGGPGGGISAKMRRFHDSAKYRIVLFDQRGSGRSTPHADLIDNTTWDLVADIEKLRSTLGIERWQVFGGSWGSTLALAYAEAHPGRVTELVLRGIFMLRRWELEWFYQEGANRLFPDAWEHYIGAIPPVERHDLISAFHRRLTSDDEATRLAAAKAWSVWEGATSFLHVDDDFVNSHEDPRFALAFARIENHYFVNGGFFEVEDQLLRDAPKIADIPGVIVHGRYDVVCPLQNAWDLHKAWPKAQLQITAASGHSAFEAENVDALVRATDRFA				NA	NA	NA	NA	NA
BMS020_03798	723			hypothetical protein	GTGCTGCATCGTCGTTCGTGGTTGTTCTCCCTGCTCCTGCCGCTGGCTTGGCCGCTGGCGGCCCAGCAGATCGCCTCCGACCCGCCGGTGGAGTGGCAGGCCGACGTGAAGGCCAACAAGCAGGCCGAACGCGCCGCCGAGAAGGCGGCCGAGCAGGCAGCGCCGCCGCGCGGCGGCAAGGACGGCGGCGGTCCCAAGCCGGACGGCGGCAATGGTGGGCCGCCCGGGGGCGGCATGGGCCCTGACGGGAATGGCGGTCCGCCGACCGATGGCATGGGCGATGGCATGGGCGGTCCCGGCGGCGGTGGCCCGGGTGGTCCCGATGGCGGGAAAGGTGGCGGCAAGGGCGGCGGTTCGCGGGTGACCGCGGCGTCGCTGCTGCGTCCGGAAATGGAGTTCGCCGCGCCGCTGAAGGACACGCTGGTGCTGTACCGCACCCGCGAGGCGGTGGTGTTCGGGAGGCGCAAATCCGATGCGGTGGTGGTGCTGCCGCTGTCCGGCGAAGCGATCGAGATCGCGCCCGGCGCGCAGGCCTCGCTGCACGAGGATGCGCAGGGGCTGCGGGTGAGCATCGTCACCAGCAACGGCATCCACGCCGAATTCCACTACAGCCAGCCGCAAGCCGGCGTGCTGAAGGTGAAGTTGCACGCCGAGGGGCCGGTGCCGCGCCCTGGCAGCACGTTCGAGGTCGAACGCGTCTACCGCGGCGCCGACGCGCGCTGA	MLHRRSWLFSLLLPLAWPLAAQQIASDPPVEWQADVKANKQAERAAEKAAEQAAPPRGGKDGGGPKPDGGNGGPPGGGMGPDGNGGPPTDGMGDGMGGPGGGGPGGPDGGKGGGKGGGSRVTAASLLRPEMEFAAPLKDTLVLYRTREAVVFGRRKSDAVVVLPLSGEAIEIAPGAQASLHEDAQGLRVSIVTSNGIHAEFHYSQPQAGVLKVKLHAEGPVPRPGSTFEVERVYRGADAR				NA	NA	NA	NA	NA
BMS020_03799	783			hypothetical protein	GTGGCTGAGCCGGGGGTACCGCGCCTGCTGGGAGCGGACGACCCGGCCCCGTTCGAGGTGCTCCACCCGCAGGGCAGATCGCCGTGGCTGCTGCTGGCCGACCATGCCGGCCAGCGCGTGCCGCAGGCGCTGGCCGGGCTGGGCCTGGCCCAGCCCGAGCTGGACCGGCACATCGGCTGGGACATCGGCGTGGCCGGGGTGACCCGGCGCCTGGCCGCGCTGCTCGACGCATGGGCGATCACCCAGACCTATTCGCGGCTGGTGATCGACTGCAACCGCCCGCATGCCTCGCCGACGCTGATCGCCCCGACCAGCGACGGCACCCATGTGCCGGGCAACCAGCAGCTGGCGCCCTGGCAGCGGCAGCAGCGCATCGACGAGATCTTCGCGCCCTACCACGCGCGCATCGCTGCCGAGCTGGATGCGCGACGCGCGGCGGCGCGACCGACCCTGCTGGCGATGATGCACAGCTTCACCCCGTCGATGGGCGGCAGCGACCGGCCCTGGCATGCCGGCGTGCTGTACCACCGCGACACGCGATTGGCGCATGCGCTGCTGGCGGCGCTGCGCGCCGAAGGCGACCTGGAGGTCGGCGACAACCAGCCGTATTCGGTCAGCGCGACCAGCGACTACGCCGTCCCGGTGCACGGCGAGGGCCGCGCGCTGCCGCACGTCGAACTGGAGATCCGCCAGGACCTGATCGCCGACGCCGCCGGCCAGCAGGCCTGGGCCGAACGGCTGGCGCGGATCTTCGTGGCGCTGCAGCCGGCCTTCGCCGGCTGA	MAEPGVPRLLGADDPAPFEVLHPQGRSPWLLLADHAGQRVPQALAGLGLAQPELDRHIGWDIGVAGVTRRLAALLDAWAITQTYSRLVIDCNRPHASPTLIAPTSDGTHVPGNQQLAPWQRQQRIDEIFAPYHARIAAELDARRAAARPTLLAMMHSFTPSMGGSDRPWHAGVLYHRDTRLAHALLAALRAEGDLEVGDNQPYSVSATSDYAVPVHGEGRALPHVELEIRQDLIADAAGQQAWAERLARIFVALQPAFAG				NA	NA	NA	NA	NA
BMS020_03800	558			hypothetical protein	ATGAGCGCATCCACGCAGGAAGCCGCCCCCCGCGTCGTCTACGAAGGCAAGTACCAGCGCATGGTGGTGCGCGGCACCTGGGAATACTCCGAGCGCGTCCATGCCGGCGGGCTGGCCGCGATCATCATCGCGGTGACGCCGGAGGACAACGTGCTGTTCGTCGAGCAGTTCCGCGTGCCGCTGCAGGCGCGCACGATCGAGATGCCGGCCGGACTGGTCGGCGACATCGACGCCGGCGAGTCGATCGAGGTCTCGGCGGTGCGCGAGCTGGAAGAGGAAACCGGCTGGACCGCCGAGCACGCCGAGGTGCTGATGATCGGCCCGACCTCCTCCGGCGCCAGCAACGAGAAGATCGCCTTCGTCCGCGCCACCGGCCTGCGCCGGGTCGGCAGCGGTGGCGGCGACGCCAGCGAGGACATCACCGTGCATGAAGTGCCGCGCATCCGCGCGGCGGCCTGGCTGGTGGAGAAGATGCAGGCCGGCTTCGAGATGGATGCCAAGCTGTGGGCCGGGCTGTGGATGATCGAGCACCAGCTGGACGGCACCCCGCGTGGCTGA	MSASTQEAAPRVVYEGKYQRMVVRGTWEYSERVHAGGLAAIIIAVTPEDNVLFVEQFRVPLQARTIEMPAGLVGDIDAGESIEVSAVRELEEETGWTAEHAEVLMIGPTSSGASNEKIAFVRATGLRRVGSGGGDASEDITVHEVPRIRAAAWLVEKMQAGFEMDAKLWAGLWMIEHQLDGTPRG	PGPT0021525_2642	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021525-nudF-K01515	NA	NA
BMS020_03801	933	polA_1	COG0258	DNA polymerase I	ATGAGCGCGACCGCGCCGCTGTATCTGGTCGATGCCAGCCTGTACGTGTTCCGGGCCTGGCATTCGGTCCCCGACGAGTTCCAGGATGCCCAGGGCTGGCCGAGCAACGCGGTGCACGGCTTCGCCCGCTTCCTGCTCGACCTGCTCGAACGCGAACGCCCGCAGCAGCTGGCGATCGCCTTCGACGAGGCGCTGGACAGCTGCTTCCGCCATGCGTTGTACCCGGCCTACAAGGCCAACCGCGCGCCGGCGCCGGACGAACTGCGGCGCCAGTTCGCACATTGCAAGGCGCTGTGCGCGGCGCTCGGCCTGGTGGTGCTGGCCGACGCCCACTACGAGGCCGACGACCTGATCGGCAGCGCGCTGCATGCCGCGCGGCCGGGCGGCGCGCACGGGGTGATCGTCTCGGCCGACAAGGATCTTTCGCAGCTGCTGCTGGAGCACGACCAGCAGTGGGACTACGCACGCAACCAGCGCTGGGGCGCGGACGGGGTCAAGGCCCGCCACGGCGTGCACGCGCACCAGATCGCCGACTACCTGGCGCTGTGCGGCGACGCGGTCGACAACATCCCCGGCGTGACCGGCATCGGCGCCAAGACCGCGGCGGTGCTGCTGGGCCACTTCGGCAGCCTCGATGCACTGCTCGCCCGCATCGACGAGGTGCCGTTCCTGCGCCTGCGCGGCGCCGCCCAGGCCGCCGCACGCCTGCGCGAACAGCGCGAACAGGCCTTGCTGTGGCGGCAGCTGTCGACGATCGCGCTGGATGCCCCGCTGCCGCGGGCCGCAGCAGGATTCGCCCGCCAGCCGGCCGATGCCGGCATGCTGTCCGGCCTGTGCGAGGCACTGCGTTTCGGCCCGCTGACCCGGCGCCGCCTGCATGCCGCGGCCGGCCTGGCCGCCCCCCTTACCGACACCCACGAGACCGTCCCATGA	MSATAPLYLVDASLYVFRAWHSVPDEFQDAQGWPSNAVHGFARFLLDLLERERPQQLAIAFDEALDSCFRHALYPAYKANRAPAPDELRRQFAHCKALCAALGLVVLADAHYEADDLIGSALHAARPGGAHGVIVSADKDLSQLLLEHDQQWDYARNQRWGADGVKARHGVHAHQIADYLALCGDAVDNIPGVTGIGAKTAAVLLGHFGSLDALLARIDEVPFLRLRGAAQAAARLREQREQALLWRQLSTIALDAPLPRAAAGFARQPADAGMLSGLCEALRFGPLTRRRLHAAAGLAAPLTDTHETVP				NA	NA	NA	NA	NA
BMS020_03802	618	ydjA_1	COG0778	Putative NAD(P)H nitroreductase YdjA	ATGGCCGTCTATAATCGGCCGGAAACATCTGAAATTGAGAATATGCACACACTTTATTCGCTGCAAGCGCTGGATGAGCGGCGGTCCGTTCCCTCCAGGCAGCTGGGCGAACCGGGCCCGGACGAAGCCACCCTGCTGCGCATGCTGCGCGCGGCGGTGCGCGTGCCGGACCACGGCAAGCTGGTGCCGTTCCGCTTCCTGCGCATCGCCGGTCCGGCGCGCGCGGCGCTCGGCGAGTTCCTGGCCGCACGCAGCCGCCAGCGCGACCCGCAGACATCGGAGGCGGCGATCGAGAAGGACCGCCAGCGGTTCGCGCATGCGCCGCTGGTGGTCACGGTGATCGCGCGGCTGCAGCCGGAGCACAAGGTGCCCGAGCAGGAGCAGCTGCTGACCGCCGGCTGCGTCTGCTTCGCCCTGCTGCAGGCCGCCCAGGCCCATGGCTTCGGTGCGCAATGGCTGACCGCCTGGATGGCCTACGATCCGGCGGTGGCGGCGCACCTGGGCCTGGCCGAACACGAGCGCATCGTCGGCTTCATCCATATCGGCACCGCCGGCATGCAGGCTCCGGAGCGCGAACGTCCGGACCCGGTCGCGCTGCTGGCGGACTGGACGCCATGA	MAVYNRPETSEIENMHTLYSLQALDERRSVPSRQLGEPGPDEATLLRMLRAAVRVPDHGKLVPFRFLRIAGPARAALGEFLAARSRQRDPQTSEAAIEKDRQRFAHAPLVVTVIARLQPEHKVPEQEQLLTAGCVCFALLQAAQAHGFGAQWLTAWMAYDPAVAAHLGLAEHERIVGFIHIGTAGMQAPERERPDPVALLADWTP				NA	NA	NA	NA	NA
BMS020_03803	2232			hypothetical protein	ATGAACAGCCCTGTCCCCGTCGACGAGCTCCCCAGCCGCAACCCGCACCTGCTCGACCAGGTCCGCGAGGTCGTGCTGGTGCCGTTGGCCGCCGCCTTCATTGAAGTCCAGGACGTGCTCGCCGACGGGCTGTTCCGTGTCGCCGAGCGCGCCGAGCGCGGCCAGGGTGATTACCTCGACGCGATCGCCGCGCTGCGCCGCCAGCGCGAGCCGGTCACCGCGCGCTTCCGTGCCCACCTGGCCAAGGCCTGGCAGGCGCTGGAGGCGGGGCGGCCGCTGTCGGTCGAGCGCAGCCTGACCCGCAGCCAGCCCGACATGAGCCTGGTCGCCGAGCAGGAACTGGACATCCGCCTGGCGGTGCGCAACCTCGCCGGTGCGGTGCAGCATCAATGGCGCCCGGAACTGATGCGGCTCAACCGCTACCTGGGGTTCATCTCCGGCGGCCTGCGCATCGATGCCGACACCAACCCGTTCGGTCCCGAACATCTGGGCGTGGCCGTGTACGAGGCGTTCGCCGGGCTGCCGCTGGCGCCGCGCGCGCACCTGGCGGTGATCAAGCTGTGCGAACAGCAACTGGTGGAGCGGGTCGGCCAGCTGTACGCGAACCTGGAGCAGGCGCTGGCACAGGTCACCCGCCTGCGCGACCTGCCGGTGCCGCGCGCGCGCCGGCGTGGGATCCCGCGGGTCGCCGATGCCGGCCCGGCGGAGCACGACGACACCCCGGACTGGATCAGCCGCTTCTTCGCCGAATGGAGCGGTGGGCGTGCCGGCGGCAGCCCGGTCGCTGCGGTCGACGCGCATGCGCGTGGCGAAGACGACGTGCTGCCGCCGGCACTGCGCGAGCTGCTGCAGCGTGCCCGCCGCCAGGGCGAGGCCAGCCAGGCCGGCGCCGCGCCGCGCCGACCGCTGTCGCCGCGCGAGCTGCTGTCGGCGCTGTCGTTGCTGCAGACCACGCCGCATGCCGGCTTCGATGCGATCCAGGACGGACGTACGCTCGGCCAGGGGCTGCGCACCGAGGTGCTGCGTGCGGCGGCCTCGCTCGGCGTCGACCCGCAGGCCAGTCGCCTCGACCCGGCCGACGAGGACACCCTCGACCTGGTCGGCATGCTGTTCGAGGTGGTGCTCAAGGAAAGCCACCTGCTGCCCTGGCAGCGCGCGCTGCTGGGCCAGCTACTGGTGCCGATCGCCAAGGTCGCGGTGCTGGACGGGCGCCTGTTCGTGCGCGACAGCCACCCGGCCCGGCGCGTGCTGAACCTGCTGGCCGATGCCTGTGACGGCAACCGTGGCGAGACCAGTGCCGAGCAGGCGCTGCTGGCGCAGGTGCAGACCGCGGTCGAGGAGGTGGTGCGCGACTTCGACGAGCACATGGCGGTGTTCCTGTCGCTGGAGGCCGAGTTCGGCGCCGGCTACGAGCAGTACCGCCGCCGCATCGAGATCGCCGAGCGGCGTGCCAACGAGCTGCAGCGCGCCGAGGAGCGCCGCGAGCGCGCCCGCACGCTGGCGACCGAGGCGCTGGCGACGCGGCTGGCGGTCGGTGCGTTGCCGCCGGCGATCGAACACTTCCTGTCGCGGGTCTGGTACCAGCAGGTGCAGCAGGCCGCGCTGCGTGGCGACGGCCAGGGCCAGGCACTGCAGGAGAGCCTGGCGCTCGGCGACGAGGTGCTGGCGCAATGGGCCGCGGCCAGCCGCCAGGCGACGCCACAGGGCGCCTGGCTGGAGGCGCCGCGCAGCGCGCTGATCCAGGCCTTCCAGCAGGCGGCGGTGCCGCCGCGGGACGCCGAGGCGGCCTTCGCCGGGATGCGCCGCAGCCTGGAGGGACTGGCCAGTCCGGCACCGGCCGCACCGATGGTGGTCGCCGAGCCGGACATCCCGCGCATTCCCGACCCGCCCGAACCGGTCGCCGAGGCGCTGACCCCGATGCTGGACGAGCAGGCCGACGCCGAGTTCGACCGGGTCACCGCCGACTACTTCCGTGGCCTGGCGATCGGCACCTGGCTGGATTTCATCGACCGCGAGGGCCGCATCCAGCCCGGCAAGCTGTCCTGGGTCAGCCCGATCTCCGGGCGGCTGATGTTCGTCAACCGGCGTGGCGGGCGGCTGTGCGTCGCCTCGGCCGAGGAACTGGCGATGATGGTGTGGCTGGACCGGCTGCGCCTGCATCGCACCGAAGACGCGTTCTACAGTGCGATGCAGGGTGTCGTCGACCACCTGGAACGTGCCGGCGCCGCCTGA	MNSPVPVDELPSRNPHLLDQVREVVLVPLAAAFIEVQDVLADGLFRVAERAERGQGDYLDAIAALRRQREPVTARFRAHLAKAWQALEAGRPLSVERSLTRSQPDMSLVAEQELDIRLAVRNLAGAVQHQWRPELMRLNRYLGFISGGLRIDADTNPFGPEHLGVAVYEAFAGLPLAPRAHLAVIKLCEQQLVERVGQLYANLEQALAQVTRLRDLPVPRARRRGIPRVADAGPAEHDDTPDWISRFFAEWSGGRAGGSPVAAVDAHARGEDDVLPPALRELLQRARRQGEASQAGAAPRRPLSPRELLSALSLLQTTPHAGFDAIQDGRTLGQGLRTEVLRAAASLGVDPQASRLDPADEDTLDLVGMLFEVVLKESHLLPWQRALLGQLLVPIAKVAVLDGRLFVRDSHPARRVLNLLADACDGNRGETSAEQALLAQVQTAVEEVVRDFDEHMAVFLSLEAEFGAGYEQYRRRIEIAERRANELQRAEERRERARTLATEALATRLAVGALPPAIEHFLSRVWYQQVQQAALRGDGQGQALQESLALGDEVLAQWAAASRQATPQGAWLEAPRSALIQAFQQAAVPPRDAEAAFAGMRRSLEGLASPAPAAPMVVAEPDIPRIPDPPEPVAEALTPMLDEQADAEFDRVTADYFRGLAIGTWLDFIDREGRIQPGKLSWVSPISGRLMFVNRRGGRLCVASAEELAMMVWLDRLRLHRTEDAFYSAMQGVVDHLERAGAA				NA	NA	NA	NA	NA
BMS020_03804	2316			hypothetical protein	ATGATGTCCACACCGAACCCGCTGGGTCACCCGGCGCGTGATCCGCGCCTGCTCGCACAGGCACGCGACGCGTTCCTGCCGGCGTTCGCGCAGGTGTTCGCCGGCGCGGTGGCGCGCTACGACGATGTGCTGTTCGACCGCGCCGAGGGCGCCGGTGCCTCGCAGCTGCTGTTCCTGGACGGGATGCGCGAACTGCGCCGTCGCCGCGACGAGATCGCCGCGCGCCTGCGCGCCCAGCTCGACCAGGCCTGGAGCGCGCTCGAGCAGGGCACGCCGTTGTCGGCCGAGGTGGTGCTGGCCGGACATCCGCAGGGCGGCACGCTGAGCCTGGTCCCCGAGCACGAACTGGAATCGCGCCTGGCGGTCCGCAACCTGGCCTCGGTGCTGTTGCGCGACTGCAAGCCGGTGCTGGGCCGGCTCGATCGCCGCCTGGGCTGGGTCGCCGGCGGCATGGAACTGGATGCCGACAGCAATCCGATCGGTCCTGAACACATCGGCGTGGCGATCCACGAAGCATTCGCGACCAGCGAGCTGGCCCCCGAGGTCCGCCTGGTGCTGATCAAGCTGTGTGAGCGCGATCTCGCCGAGCCGCTGGCCAAGCTCTACCACACGCTCGACGAGCAGTTCGCGCGGGCCGGGGTGATGCCCGAGATCGGCCAGCCGCCGCGGCGGCCGCCGCCGATGCGCCCCGAGCGCGCCGCCGAGGACGAGGCGTTCGCCACCGGTGGCAGCAACGAGGACGAATACGGCGACTACGCCGCGCCGGCGTGGGCCAACCGCTTCGTCAACCGCTGGGCGCAGAGCCGGGGCCGTGCCCAGGCCGCCCAGCGCGGGCGTGAATCGATGATGGCCGACGGCGGCGAGGACTTCGCCGGCGGCGGCCAGGGCGTGCTGCTCGAGGCGCTGCACGAGCTGCTGCAGCAGACCCGTACCGCGCGCGAGACCGCGACCGCGGCGGCGTCGGTCGCAGCCGGCCAGCAGCGCCCGCTGAGCCAGCGCGAGATGCTGTCGGTGCTGTCACTGCTGCAGGCCACGCCGAGCGCGACGTTGAGCGCGGCGATGGGCGAGGAGGGCGAGTCGCTGGCGCAGCGGCTCAAGAGCGAGGTGCTGTCCGGTGCGACCCGGTTGGGCGTGGATCCATCCAGCGCCCGCCTCGATCCGATGGACGAGGACGCCATCGACCTGGTCGGCATGCTGTTCGACGTGATGCTCGACGAGCGCGAGCTGGAAGGCCGCTCGCGCGAGCTGATGAGCCGGCTGGTGGTGCCGTTCGTCAAGGTGGCGATGCTCGACCGCAAGATGTTCGTGCAGAAGACCCATCCGGCGCGGCGGCTGCTCAATTCGCTGGCCGAGGCGGTCGAGGGCAATACCGGCGACAGCCCGGCCGAACGGGTGATGATGACCAAGGTCGAGGAGATCGTTGAGCGGCTGGTGGCCGAGTTCAACGAGAACCTGGCGATCTTCCTGACCCTGGAAGAAGAATTCCGCGATTTCCTGGCGCAGCACCGTCGCCGCATCGAGATCGCCGAGCGGCGTGCCGCCGAGACCCAGCGCGGCCAGGAGAAGCTGGAGCTGGCGCGCACCCGCGCCGCCGGCGAGCTGGACGCGCGGCTGGCCGCGGACCTGCCGGTGGCGGTGCAGGAGTTCCTGCGCCAGCCCTGGCAGCACTACCTGACCATGTCGATCCTGCGCGAAGGCGAGGATGGCGCAGCGATGGGCGAGGCGCTGGCCGTCGCCGATGGCGTGCTCGAGGAACTGGCCGAGGCGCGCCGGCATATCGTCGGCAAGCCGTGGCTGCAGGCCTGGCAGGAGCCGTTGCAGAAGGTGTTCGCCAGCGTCGGCCTGCATGGCGATGCCTCGCTGGGCGCGATCGGCGCGCTGCACGACACCCTGCAGGCGATCGCCGAAGCCCGCCCGGAGCTGGAGAAGCCGCTGCCTGAGCTGCCGCAGGTGGCGTTGCCGCAGCCGACCCCGGAGACCCCGCCGGTCGACCTCGGCGTGGAAGCCACGATCGAGGATTTCGACAACGCCGATGCCGACCGCTTCCGCGGCATGGCGATCGGCACCTGGCTGGATTTCGTCGACAAGGACGGCAAGGTCCAGGCTGGCAAGCTGTCCTGGATCAGCCCGATTTCCTCGCGGCTGCTGTTCGTCAACCGCCGCGGCGTGCGCTTCTGCGTGGCCTCGCCGGAAGAACTGGCGGTGATGGTGCGGCTGGACCGGCTGCGCGCGCACTCCAACGACGGCGCCTTCGACAGCGCGATGCAGGGCGTGATCGACAAGCTCGATCCGCAGGCGGCACCGGCCGAATCCTGA	MMSTPNPLGHPARDPRLLAQARDAFLPAFAQVFAGAVARYDDVLFDRAEGAGASQLLFLDGMRELRRRRDEIAARLRAQLDQAWSALEQGTPLSAEVVLAGHPQGGTLSLVPEHELESRLAVRNLASVLLRDCKPVLGRLDRRLGWVAGGMELDADSNPIGPEHIGVAIHEAFATSELAPEVRLVLIKLCERDLAEPLAKLYHTLDEQFARAGVMPEIGQPPRRPPPMRPERAAEDEAFATGGSNEDEYGDYAAPAWANRFVNRWAQSRGRAQAAQRGRESMMADGGEDFAGGGQGVLLEALHELLQQTRTARETATAAASVAAGQQRPLSQREMLSVLSLLQATPSATLSAAMGEEGESLAQRLKSEVLSGATRLGVDPSSARLDPMDEDAIDLVGMLFDVMLDERELEGRSRELMSRLVVPFVKVAMLDRKMFVQKTHPARRLLNSLAEAVEGNTGDSPAERVMMTKVEEIVERLVAEFNENLAIFLTLEEEFRDFLAQHRRRIEIAERRAAETQRGQEKLELARTRAAGELDARLAADLPVAVQEFLRQPWQHYLTMSILREGEDGAAMGEALAVADGVLEELAEARRHIVGKPWLQAWQEPLQKVFASVGLHGDASLGAIGALHDTLQAIAEARPELEKPLPELPQVALPQPTPETPPVDLGVEATIEDFDNADADRFRGMAIGTWLDFVDKDGKVQAGKLSWISPISSRLLFVNRRGVRFCVASPEELAVMVRLDRLRAHSNDGAFDSAMQGVIDKLDPQAAPAES				NA	NA	NA	NA	NA
BMS020_03805	1080	pntA_2	COG3288	NAD(P) transhydrogenase subunit alpha	ATGGCTGTACAGGCAGGGGTGTTGAAGGAACGCGCGCCCGGCGAACGCCGCGTCGCGGTGACGCCGGAAACGGTCAGGAAGCTGGTCGCGCTCGGTGCCGGGGTCCGGATCGAGCAGGGCGCCGGCGCGGCATCCGGATTCCTCGATGAGGCGTATCGCCAGGCGGGGGCCGGGATCGTCGGGATCGACGAGGTGCTGGGCGCCGAGCTGCTGCTGTGCGTGCAGGCGCCGCCGCCACCGCTGCTGGCACGGCTGGCCGAGGGCACCGCCCTGGTCGGCATGCTGCAGCCGGACGCCGACCCCGCGCGTGCCGAGACGATCCGTCAGCGCGGGCTGCTCGCCTTCCCGCTGGAGCGGCTGCCGCGCACCACGCGTGCGCAGGCGATGGACGTGCTCAGTTCGCAGGCCGGCATGGCCGGCTACAAGGCCGCGCTGATCGCCGCCGAACTGGCGCCGCGCTTCTTCCCGATGCTGACCACCGCGGCCGGCACGATCCGCCCGAGCAAGGTGCTGGTGGTCGGCGCCGGCGTGGCGGGGCTGCAGGCGATCGCCACGGCCCGGCGCCTGGGCGCGCAGGTCGAAGGCTTTGACGTGCGCCCGGAAACGCGCGAGCAGATCGAGTCGCTGGGAGGCCGCTTCCTCGACCTGGGCGTCAACGCGGTCGGCGAGGGCGGCTACGCGCGTGCGCTGAACGACGACGAGCGCGCCGAGCAGCAGCGCCGGCTCGCCGAGCACCTCAAGGGCATCGATGCGGTGGTATGCACCGCGGCGGTGCCTGGGCGGCGCGCACCGACCATCATCAGCGCGGCGATGGTGGCCGGGATGAAGCCGGGCAGCGTGATCGTCGACCTGGCTGCGGAAACCGGCGGTAACTGCGAATCCACCAGGCCCGGGCAGACGGTCGAGGTCGGCGGCGTGGTCGTGGCCGGGCCGCTGGACCTGGCCAGCATGGGCGCGGTGCATGCCAGCGAGATGTACGCGCGCAACGTCTGCAATTTCATCGCGCTGTGCGTGAAGGACGGCGCGCTGGCATTCGACTGGAACGACGAGCTGCTGGCGAAGACGCGCTGGCCGGCCTGA	MAVQAGVLKERAPGERRVAVTPETVRKLVALGAGVRIEQGAGAASGFLDEAYRQAGAGIVGIDEVLGAELLLCVQAPPPPLLARLAEGTALVGMLQPDADPARAETIRQRGLLAFPLERLPRTTRAQAMDVLSSQAGMAGYKAALIAAELAPRFFPMLTTAAGTIRPSKVLVVGAGVAGLQAIATARRLGAQVEGFDVRPETREQIESLGGRFLDLGVNAVGEGGYARALNDDERAEQQRRLAEHLKGIDAVVCTAAVPGRRAPTIISAAMVAGMKPGSVIVDLAAETGGNCESTRPGQTVEVGGVVVAGPLDLASMGAVHASEMYARNVCNFIALCVKDGALAFDWNDELLAKTRWPA	PGPT0013500_2487	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013500-pntA-K00324	NA	NA
BMS020_03806	450			hypothetical protein	ATGAAACGCGCCACCCGCCTGCTGCTGGTCCTCCTGCTCGCGGCCGCGCCGCTGCCGGCGGCATTCGCCCAGTCGCGCCCTGCCGACGCCACCGACACCGCTCCGCTGCCGGACTGGGAACACCTCAGCCCGAAGCAGCGCGAGGTGCTGATCGGCGCGCTGCGGCAGAAGTGGAACGACATCCCCGACCAGCGCGCGCGCACCCTGCACCACGCCGAACGCTGGCAGGCGATGACCCCCGAACAGCGCCAGCGCGCCGCCGACGGCATGCGCCGCTACGAGCACATGAATCCCGAGCAGCGACGCCAGGCCAAGGTGCTGTTCGGCGAGATGCACAAGCTGCCGCCGGCGCAGCGCGACGCGCTCCGCGCCCGCTGGAAGACCATGAGCCCGCAGCAGCGCGACGAATGGGTGCGCGCGCACGCCATCGACGCCGACCAGGACGACTGA	MKRATRLLLVLLLAAAPLPAAFAQSRPADATDTAPLPDWEHLSPKQREVLIGALRQKWNDIPDQRARTLHHAERWQAMTPEQRQRAADGMRRYEHMNPEQRRQAKVLFGEMHKLPPAQRDALRARWKTMSPQQRDEWVRAHAIDADQDD				NA	NA	NA	NA	NA
BMS020_03807	354			hypothetical protein	GTGAACACCGCCCCCCCGCATGACATCGACGCCCGCGCCCGCCAGCTGCATGCCGGCGCACTGGAGACGCTGAGCCCGACCACGCTGGCACGGCTGCGCCAGGCGCGCCAAGCCGCCTCATCCGCCTCATCCGCATCGCGCCGCCGTACGCCGGGCTGGCTGCTGGCGACCGCCTGCAGCACCGTGCTGGCGGTCGGCGTGGGCGTGCACCTGCTGCGCCCGCCGGCATCCGCACCGGCGACGCCGGCGGACAGCGTCGCCACCACCACCGCCGGCGATGCCGACGAACTGTTCGACCAGAATCCCGACCTGTATGTCTGGCTGGGATCCGATACCGCCCTGGCCATGGAATGA	MNTAPPHDIDARARQLHAGALETLSPTTLARLRQARQAASSASSASRRRTPGWLLATACSTVLAVGVGVHLLRPPASAPATPADSVATTTAGDADELFDQNPDLYVWLGSDTALAME				NA	NA	NA	NA	NA
BMS020_03808	564			hypothetical protein	GTGCTGGTGGGTACCCCTTTCGATCCTCAGGTTGCGCTCGCGCCCGCCCCGGCGCCGGCCTCGCTGGACGCGTTCCTGGCGGGCATCGGTCCGCGTGCGTTCCGCTTCGCCGAGGCCGGCCTGCGCCATCGCGAGGACGCGCTGGACGCGGTGCAGGACGCGATGATCAAGCTGCTCGGCTACCGCGACCGCCCGGCGGCGGAATGGACGCCGCTGTTCTGGAGCATCCTGCGCAGCCGCATCATCGACCTGCAGCGCCGGCGCGGCTTCCGGCTCAAGTTCTGGGCCCCGGCCGAAGAGCGCGACGAGGACAGCCGCATCGACTGGGCCGACCACGCCGCCGGACCGGAACGCCAGCAGGAGCAGCAGCAGGCCTACGCCGGGCTGGTCCGAGCACTGCGCGGGCTGCCGGCGCGCCAGCGCGAAGCCTTCACCCTGCGCATCCTGGAAGACCTGGACGTCGCCACCACCGCGCGGATCATGGGCTGCTCCGAAGGCTCGGTGAAGACCCATCTGTCGCGCGCCCGCGAGGCGCTGCAGCATCAACTCGAGGACCACCGGTGA	MLVGTPFDPQVALAPAPAPASLDAFLAGIGPRAFRFAEAGLRHREDALDAVQDAMIKLLGYRDRPAAEWTPLFWSILRSRIIDLQRRRGFRLKFWAPAEERDEDSRIDWADHAAGPERQQEQQQAYAGLVRALRGLPARQREAFTLRILEDLDVATTARIMGCSEGSVKTHLSRAREALQHQLEDHR	PGPT0014960_3475	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS020_03809	306	pntA_3	COG3288	NAD(P) transhydrogenase subunit alpha	ATGGGCGACGGGTTCGTGGCGCTGTACATCTTCATGCTGGCGGCGATCGCCGGCCACGTGATCATCTCGCGGGTGCCGGTGATCCTGCACACCCCGCTGATGTCGGGATCCAACTTCATCCACGGCATCGTGCTGATCGGCGCGATGGTGGTGCTTGGCCATGCCGACACCACGCTGGAGAAGGTGCTTGGCTTCATCGCGGTGGCGCTTGGCGCCGGCAATGCCGCCGGCGGCTACGTGGTGACCGCGCGGATGCTGGAGATGTTCAAGTCCAGCCGCAAACCGGGCACCGGGGGCAAGGCTTGA	MGDGFVALYIFMLAAIAGHVIISRVPVILHTPLMSGSNFIHGIVLIGAMVVLGHADTTLEKVLGFIAVALGAGNAAGGYVVTARMLEMFKSSRKPGTGGKA	PGPT0013500_3361	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013500-pntA-K00324	NA	NA
BMS020_03810	1461	pntB_2	COG1282	NAD(P) transhydrogenase subunit beta	TTGAACGGCGCCGGCGTGGAGCTGGTGGCGTGGCTGGTCAAGGCCAGCTACCTGGTCGCGGCGACGCTGTTCCTGCTGGGCCTGCAGCGCATGGCGTCGCCGCTGACCGCGCGCAGCGGCATCCGCTGGGCCGGGCTGGGCATGCTGATCGCCACGGTGGCGACGTTCTTCCTGCCGCAACTGCACAACGTGCCGCTGATCATTGCCGCAGTGGCGATCGGCACCGCGCTGGCGTGGACCTCGGCCAACAAGGTCGCGATCACCGACATGCCGCAGATGGTGGCGCTGTACAACGGCATGGGCGGCGGGTCGGCTGCGGCGATCGGCGCGGTCGAGCTGCTGCGCTATGCGTTCCTCGCCAACCGCGATACCCGCCATTGGAGCGCGCAGGCGATCGCCGAGCTGGCCGCGCGCCAGCCGGCCACCACCACGGTGGTGCTGGCGGTGATCGGCGCGGCGATTGGCGCGGTGTCGCTGTCCGGCTCGGTGATCGCCTGGGCCAAGCTCGACGGCCGGCTCGACCGCCGCGTGACCTTCGCGGGACAGCAGCCCTTCAACCTGCTGCTCGCGCTGGCGATGCTCGCGCTCGGCGCGTGGGCGGCGTGGAGCCTGCAGCCGCTGGCGATCATCGCGTTCTTCGCGCTGGCGCTGGCGCTGGGCGTGCTGATGACGTTGCCGATCGGCGGCGCCGACATGCCGGTGGTGATCTCGCTGTACAACGCCTTCACCGGGCTGGCGGTGGCGTTCGAGGGCTACGTGCTCGGCAACGAGGCGCTGATCATCGCCGGCATGATGGTCGGCGCGGCCGGCATCCTGCTGACCCGGCTGATGGCCAAGGCGATGAACCGGCCGATCAGCGGCGTGCTGTTCTCCAACTTCGGTGGCGGCGGGCAGGGAACGGCGGCGATCGCCGGCAGCCAGAAGCCGATCGAGGCGACCGACGTCGCGGCGATCATGGCCTTCGCCGAACGCGTGGTGATCGTGCCCGGCTACGGCATGGCGGTGGCGCAGGCCCAGCACAAGATCTGGGAACTGGCGCAGCGGCTGATCGCGCGCGGGGTCAAGGTGAAGTTCGCGATCCACCCGGTGGCCGGGCGCATGCCGGGCCACATGAACGTGCTGCTGGCCGAGGCCGGCGTGCCCTACGACCTGATCGCCGACATGGACGACATCAATGCCGAATTCCCGGTCATCGACGTGGCGCTGGTGATCGGCGCCAACGACGTGGTCAATCCGGTCGCCAAGACCGACCCGGGCAGCCCGATCTACGGCATGCCGATCCTCGACGTGGTCGAGGCGAAGAACGTGGTGGTGATCAAGCGCGGCAAGGGCACCGGCTTTGCCGGCATCGAGAATGCGCTGTTCTACGCCGACAACACGCGGATGCTCTACGGCGATGGGGCCGAGGCGGCCAGCGCGCTGGTCAGCGAGCTGAAGGCGCTGGACGGCGGCGGCCACTGA	MNGAGVELVAWLVKASYLVAATLFLLGLQRMASPLTARSGIRWAGLGMLIATVATFFLPQLHNVPLIIAAVAIGTALAWTSANKVAITDMPQMVALYNGMGGGSAAAIGAVELLRYAFLANRDTRHWSAQAIAELAARQPATTTVVLAVIGAAIGAVSLSGSVIAWAKLDGRLDRRVTFAGQQPFNLLLALAMLALGAWAAWSLQPLAIIAFFALALALGVLMTLPIGGADMPVVISLYNAFTGLAVAFEGYVLGNEALIIAGMMVGAAGILLTRLMAKAMNRPISGVLFSNFGGGGQGTAAIAGSQKPIEATDVAAIMAFAERVVIVPGYGMAVAQAQHKIWELAQRLIARGVKVKFAIHPVAGRMPGHMNVLLAEAGVPYDLIADMDDINAEFPVIDVALVIGANDVVNPVAKTDPGSPIYGMPILDVVEAKNVVVIKRGKGTGFAGIENALFYADNTRMLYGDGAEAASALVSELKALDGGGH	PGPT0013505_282	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013505-pntB-K00325	NA	NA
BMS020_03811	420			hypothetical protein	ATGTCCAACCGATCCCCTTCCGCCAAGGCCTCGCACTGGCTCTGGCCGCCGTTGCTGTTGTTGGGTTGCGTCACCGCCGTGATCGCCTGGATGCTGGTCGCGCTGAGCCTTGGCCTGCAGTCGGGCTGGATGGCGGTCCTGGCGGCGCTGGAAGTGGTCTGGATGCTGCGCCTGGGCAACCTGGCCGGCGGCCCGCTGCGCGTGGCCGTGGCCCTGGCCGGCACCACCGCGATCATCGCACTGGCCAACTGGGGCATCGCCGCGGCCCAGATCGGTGCCGGGTTCGGCATGGACCCGTGGACCTCGGCCCTCAAGCTCGGGCCCGGGCTGGCCTGGACCCTGCTGTCGCTGGCCAACGGCGCGCTCGACCTGGCCTGTTACACCGCCGCGCTGGTGCTGGCCTGGGTGCTGGCGCGCTGA	MSNRSPSAKASHWLWPPLLLLGCVTAVIAWMLVALSLGLQSGWMAVLAALEVVWMLRLGNLAGGPLRVAVALAGTTAIIALANWGIAAAQIGAGFGMDPWTSALKLGPGLAWTLLSLANGALDLACYTAALVLAWVLAR				NA	NA	NA	NA	NA
BMS020_03812	504			hypothetical protein	ATGGTCCCGCAGGGCGATTCGGTCGTCCTTCCCGCCGGCAGTTACGGCTACATCACCCAGGCGCTGGGCGGCAGCTACACGGTGTTCGTGGAAGGCAACCTGTTCCGCATCGCCGGCAAGGATGGCGATGCGATCGGCAAAGAGCCGCCGCCGGGGCTGGAACTGCCCGACAACGCCAGTGACGAAGAGGTCGAGGCGCTGGTGTGGCAGCAGTTGCGGACCTGCTTCGACCCGGAGATCCCGTTCAACATCGTCGACCTCGGCCTGGTCTACGACGTGGCGATCGGCCACCAGGGCGAGGACGCGGCCAAGCGCCGGGTCGAGGTCAAGATGACCCTGACCGCACCCGGCTGCGGCATGGGCGAAATCCTGGTCGATGACGTGCGCAGCAAGCTGGAAATGATCCCCACCGTGGCCGACGCCGACGTCGACCTGGTCTTCGACCCGCCGTGGGGCCGGCATATGATGTCCGAGGCCGCCCGGCTCGAAACCGGGATGCTCTGA	MVPQGDSVVLPAGSYGYITQALGGSYTVFVEGNLFRIAGKDGDAIGKEPPPGLELPDNASDEEVEALVWQQLRTCFDPEIPFNIVDLGLVYDVAIGHQGEDAAKRRVEVKMTLTAPGCGMGEILVDDVRSKLEMIPTVADADVDLVFDPPWGRHMMSEAARLETGML				NA	NA	NA	NA	NA
BMS020_03813	1086	ilvE_1	COG0115	Branched-chain-amino-acid aminotransferase	GTGTCCGTTTCCTTCCGTTCGACCCGCTCCCCGTCGCCGCGCACCGCCGACGAGCTGTCCGTGATCCTCGCCGCGCCCGGCTTCGGCGTGCATTTCACCGACCACATGGTGGCCATCTCCTGGAACAAAGAGCAGGGCTGGCATGATGCCGAAGTGCGCCCGTACGGCCCGTTGGCGCTGGATCCGGCCGCCTCGGTGCTGCACTACGGCCAGGAGATCTTCGAAGGCATCAAGGCCTACCGCCATGCCGACGGTTCGATCTGGACCTTCCGCCCGGAAGCCAACGGCGCGCGCCTGCAGCGTTCGGCCAAGCGCCTGGCGCTGCCGGAACTGCCGGTCGAGCTGTTCACCGAATCGCTGAAGCAGCTGGTCGCGGTCGATGCGCACTGGGTGCCGTCGGCGGTGGAGACCAGCCTGTACTTCCGCCCGTTCATGATCGCCGACGAAGCCTTCCTCGGCGTGCGTGCGGCGCAGAAGGCTACCTACTACGTGATCGCCAGCCCGGCCGGGGCGTATTTCGCCAAGGGCGTGGCGCCGGTGTCGATCTGGCTGTCGACCGACTATGCGCGCGCGGCCAAGGGCGGCACCGGTGCGGCCAAGTGCGGTGGCAACTACGCCGCCTCGCTGCTGCCGCAGCAGCAGGCCTACGCCAATGGCTGCTCGCAGGTGCTGTTCCTCGACCCGGTCGAGGGCAAGTACATCGAGGAACTGGGCGGCATGAACGTGTTCCTGGTCTACAAGGACGGCACCCTGGTGACCCCGGAACTGTCCGGCAGCATCCTCGAGGGCATCACCCGTGACAGCATCCTGCAGCTGGCCCGCGACCGCGGCATGAAGGTCGAAGAGCGCAAGGTCACGATCGAGGAGTGGAAGAGCGGCGTCGCCTCCGGTGACATCGCCGAAGTGTTCGCCTGCGGCACCGCCGCGGTGGTGACCCCGATCGGCGAGCTCAAGGGCGAAGGCTTCAGCGTCGGCGACATCAATGCGCCGGCCGGCGAGGTGACGATGTCGCTGCGCCAGGAGCTGACCGACATCCAGTACGGCCGCCTGCCGGACCGCCATGGCTGGCTGGTGCGCCTGGGCTGA	MSVSFRSTRSPSPRTADELSVILAAPGFGVHFTDHMVAISWNKEQGWHDAEVRPYGPLALDPAASVLHYGQEIFEGIKAYRHADGSIWTFRPEANGARLQRSAKRLALPELPVELFTESLKQLVAVDAHWVPSAVETSLYFRPFMIADEAFLGVRAAQKATYYVIASPAGAYFAKGVAPVSIWLSTDYARAAKGGTGAAKCGGNYAASLLPQQQAYANGCSQVLFLDPVEGKYIEELGGMNVFLVYKDGTLVTPELSGSILEGITRDSILQLARDRGMKVEERKVTIEEWKSGVASGDIAEVFACGTAAVVTPIGELKGEGFSVGDINAPAGEVTMSLRQELTDIQYGRLPDRHGWLVRLG	PGPT0008860_2169	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826	NA	NA
BMS020_03814	1746			hypothetical protein	ATGTCCAACGACCAACAGCGCACGCGTTCGCGTGCTTGGGTTGTCCTCGGTGCCAGCGCACTGACGTCCCTGCTTCTCGCGGTGCCGGCCTTCGCCGGCGAAGTCCACCTGGATGGCCTGGCCTCGGCGCCGAGCCACCAGCGCTTCATCGTCACCTACCGCGACGGCAGCAGCCAGCTGACCAGCGCGACCGCGCTGTCGTCCTCGCTGACGGACGCCGCCCGCGCGCTGCCGGCCAAGAACGGCCGTGCCCTCGGGCTGAGCAAGACGCGCCGGCTGGCGCTCGGGCCGGAGCTGGTCAAGGCCGACCGTCCGCTCGACCGTAGCGAAGCCGAGACCCTGATGCGGCAGATCGCCGCCGATCCGAACGTGCTGAGCGTCGAGGTTGACCAGCTGATGAAGGCGACGCTGACCCCGAACGACACCCGCCTGTCCGAGCAGTGGGCGTTCGGCACCACCACCGCCGGCATCAACGCGCCTGCGGCCTGGGACCAGGCCACCGGCAGCGGCGTGGTGGTGGCGGTGATCGACACCGGCATCACCAGTCATCCGGATCTCAATGCCAACATCCTGCCCGGCTACGACTTCATCAGCGATGCCGACATGGCGCGCGATGGCGATGGCCGCGACGACGATCCGTCCGACGAGGGCGATTGGTACGCCGCCAATGAGTGCGGTTCCGGGTATCCGGCTTCCGATTCGAGCTGGCACGGCACCCATGTGGCCGGCACCATCGCCGCGGTCACCAACAACAGCACCGGCGTGGCCGGCACCGCGTATAACGCCAAGGTCGTGCCGGTGCGCGTGCTCGGCAAGTGCGGCGGTTACACCTCCGACATCGCCGACGCGATCGTCTGGGCCTCCGGCGGCACCGTCAGCGGCGTGCCGGCCAATCCGTACCCGGCCGAGGTGATCAACATGTCGCTGGGCGGTAGCGGCAGCTGCTCGAGCACCTACCAGAACGCGATCAACAGCGCGGTCTCGCGCGGCACCACCGTGGTGGTCGCGGCCGGCAACAGCGCCACCAACGTCTCCAGCGCGGTGCCGGCGAACTGCCCGAACGTGATCGCGGTGGCGGCCACCACCTCCGCACGTGCCAAGGCCAGCTACTCCAACTACGGCACCGGTATCGACATCTCCGCGCCGGGCTCGAGCATCCTGTCCACGCTCAACACCGGCACCACCGTGCCGGCCAGCGCCACGTACGCCTCGTACAACGGCACCTCGATGGCGACCCCGCACGTGGCTGGCGTGGTCGCGCTGATGCAGTCGGTGGCGCCGACGCCGCTGACCCCGGCGCAGGTCGAAGCGACGATCAAGAGCAGCGCGGCCAGCTTCACCTGCAGCCAGGGCTGCGGCGCCGGCCTGCTGGACGCCAATGCGGCGGTGACCGCGGCCAAGGCCGGTGGCGACGACGGCGGTGACGATGGCAGCGACGACTCGGTGCTGAGCAGCGGCGTGCCGGTGACCGGCCTGGGCGCGAGCACCGGCAACTCGCTGAACTACACCATCGCGGTGCCGGCCGGCCGCACCACGCTGACGGTGAAGATCAGCGGCGGCAGCGGCGACGCCGACCTGTACGTGCGCCAGGGCAGCGCACCGACCGACACCAGCTACGCCTGCCGTCCGTACCTGTCGGGCAACACCGAGACCTGCACGATCAGCTCGCCGGCCAACGCAACCTACTACATCCGCGTGAAGGCCTACAGCACGTTCTCGGGCGTGACCCTGACCGCGACCTACTGA	MSNDQQRTRSRAWVVLGASALTSLLLAVPAFAGEVHLDGLASAPSHQRFIVTYRDGSSQLTSATALSSSLTDAARALPAKNGRALGLSKTRRLALGPELVKADRPLDRSEAETLMRQIAADPNVLSVEVDQLMKATLTPNDTRLSEQWAFGTTTAGINAPAAWDQATGSGVVVAVIDTGITSHPDLNANILPGYDFISDADMARDGDGRDDDPSDEGDWYAANECGSGYPASDSSWHGTHVAGTIAAVTNNSTGVAGTAYNAKVVPVRVLGKCGGYTSDIADAIVWASGGTVSGVPANPYPAEVINMSLGGSGSCSSTYQNAINSAVSRGTTVVVAAGNSATNVSSAVPANCPNVIAVAATTSARAKASYSNYGTGIDISAPGSSILSTLNTGTTVPASATYASYNGTSMATPHVAGVVALMQSVAPTPLTPAQVEATIKSSAASFTCSQGCGAGLLDANAAVTAAKAGGDDGGDDGSDDSVLSSGVPVTGLGASTGNSLNYTIAVPAGRTTLTVKISGGSGDADLYVRQGSAPTDTSYACRPYLSGNTETCTISSPANATYYIRVKAYSTFSGVTLTATY				NA	NA	NA	NA	NA
BMS020_03815	474	ybaK_2	COG2606	Cys-tRNA(Pro)/Cys-tRNA(Cys) deacylase YbaK	ATGTCCAAGGCGACCCGCGCCACCCGCCAGCTGGATGCGGCCGGCGTCGCCTACCGCCTGCACAGCTACGACTATCACGCCGACGCCGAACACAAGGGCGTCCAGGCTGCGACCGCGCTGGGATTGCCGCCGGCGCGCGTGCTCAAGAGCCTGATGACCTGGGTCGACGCGCGTGCGGTGTGCGTGGTGATCCCGTCCGACCGGCGCCTGCAGCTGAAGAAGCTGGCCAGCGCCTGCGGTGGCCGCTCGGCGCGGATGATGGACGTCGCCGACGCGGAGCGCCGCACCGGCTACAAGGTCGGCGGCATCAGCCCGCTCGGCCAGCAGCGTCCGTCCACGGTGCTGCTCGAACGCGCCACGCTGCGCGAAGAGAGCCTGCTGTTCAACGCCGGCCAGCGCGGCCTGCTGCTGGAAATCCCGGCCGCGCAGGCGCTGCAGATCCTGCAGGCCAGCGCCGCGGACCTGTGCGAATGA	MSKATRATRQLDAAGVAYRLHSYDYHADAEHKGVQAATALGLPPARVLKSLMTWVDARAVCVVIPSDRRLQLKKLASACGGRSARMMDVADAERRTGYKVGGISPLGQQRPSTVLLERATLREESLLFNAGQRGLLLEIPAAQALQILQASAADLCE				NA	NA	NA	NA	NA
BMS020_03816	486			hypothetical protein	ATGGATGAGCTTCTGATCGTCACCACCGGTGGCACCATCGACAAGATCTATTTCGACGACAAGTCCGATTACCAGATCGGCGATCCGCAGATCGGCATGATCCTGCGCGAGCTCGGCGTGACGTTCCGTTTCAGCGTGATCCCGATCCTGCGCAAGGACTCGCTGCACATCAGCGACGACGACCGCGAGCTGATCCGCGCCACCATCGCCGCACAGCCGACCCGCCACGTGCTGGTCACCCACGGCACCGACAGCATGGTGCAGACCGGCAAGGTGCTGGCCACGATCCCCGGCAAGACCATCGTGATGACCGGCGCGCTGAGCCCGGCGCGCTTCCGCGGGTCGGATGCCGAATTCAACATCGGCTGCGCGATCGGTGCGGTGCAGTCGCTGCCGGCAGGCGTCTACATCGCGATGAACGGGCGCATCTGGGACCCGGAAAAGGTCCGCAAGAACGTCGCCGCGAACCGCTTCGAGGCCGCCTGA	MDELLIVTTGGTIDKIYFDDKSDYQIGDPQIGMILRELGVTFRFSVIPILRKDSLHISDDDRELIRATIAAQPTRHVLVTHGTDSMVQTGKVLATIPGKTIVMTGALSPARFRGSDAEFNIGCAIGAVQSLPAGVYIAMNGRIWDPEKVRKNVAANRFEAA	PGPT0020180_4592	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
BMS020_03817	345			hypothetical protein	GTGAGCCCACGCCCGGCGCGGATCGTGCTGTGCGCGGCGCTGCTGGCGCTGGCGGCGCTGTACCTGGGCTGGTTCGCCGGCGACCGCGACCGGATCGCCGCGTGGCTGGTGTTCGCGCTGCCACCGCTGCTGCTGGCCCCCCTAGCCTGGCGCGGCGCGCGGGCCCGCTTCTGGGCCGCGGTGCTGGCGCTGGGCTGGTTCAGCCACGGGGTGATGTCGGCCTGGAGCCACGCCGACACCCGCGTGCTGGCCTTGGCCGAACTCGCCTTGGCGCTGGTGGTGATCGCCGCCGCCAGCGGTCCGGGACTGGCCGCGCGGTTCGCCCGCGGCAAGCGCACGGCGTAA	MSPRPARIVLCAALLALAALYLGWFAGDRDRIAAWLVFALPPLLLAPLAWRGARARFWAAVLALGWFSHGVMSAWSHADTRVLALAELALALVVIAAASGPGLAARFARGKRTA				NA	NA	NA	NA	NA
BMS020_03818	597		COG0655	NAD(P)H dehydrogenase (quinone)	ATGGCGGACATCCTGGTGCTGTACTACAGCCGCGGCGGCTCGGTCGCGCGCCTGGCCCGGCAGATCGCCCGCGGCATCGGCGAGGTGCCGGGCATGCAGGCCCGCCTGCGCACCGTGCCACCGGTGTCCGCGGTGACCCAGGCGCTCGCCCCGGCCGTGCCCGATGACGGCGCACCCTACGTCGAGCCGGCCGACCTGGTCGAATGCGCCGGGCTGGTGCTCGGCAGCCCGACCCGCTTCGGCAACATGGCCGCGCCGGTGAAGCACTACCTGGACGGGCTCGGCGCCGAATGGGCCAGCGGCACGCTGGCCGGCAAGCCCGCGGCGGTTTTCACCTCCACCGCCTCGCTGCACGGCGGCCAGGAGTCGACGCTGCTGTCGATGCAGCTGCCGCTGCTGCACCACGGCTGCCTGATCGTCGGCATCCCCTTCACCGAACAGGCGCTGAGCCACACCCGCAGCGGCGGCACGCCCTACGGCGCCAGCCACGTCGCCGGCGCGATGGACGATCCGCAGCCGAGCGAGGAAGAAGCCCTGCTGGCGCGTGCGCTGGGGCGCCGGCTGGCCGATATCGCGCGCCGGCTGGCCACGCCGTGA	MADILVLYYSRGGSVARLARQIARGIGEVPGMQARLRTVPPVSAVTQALAPAVPDDGAPYVEPADLVECAGLVLGSPTRFGNMAAPVKHYLDGLGAEWASGTLAGKPAAVFTSTASLHGGQESTLLSMQLPLLHHGCLIVGIPFTEQALSHTRSGGTPYGASHVAGAMDDPQPSEEEALLARALGRRLADIARRLATP	PGPT0009460_2676	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009460-wrbA-K03809	NA	NA
BMS020_03819	1314			hypothetical protein	ATGCGGCCGGCGCCGTGCATCGGGTACGCTTGCGCGATGGCGCCGATGGACACGATGAACCAATGGAAGGAGCGGCTCAGCGATCGCGCGCGCGCGGTGAGCTTCGGCCGTTTCCTGTGGCATCGGTTCCTCGACGACCGGCTGTTCCAGGCCGCGGCCTCGCTGGCCTACACCACGGTGTTCGCGCTGGTGCCGCTGGCGATCGTCGTGTTCGGCATCCTCTCGGCGTTCCCGGCGTTCGAACAATGGCGCGGGGCGCTGACCGATTTCATCTTCACCAACTTCGTGCCGGGTGCTGCGCGCTCGGTGCAGGACTTCATCAACAACTCGCTCGACGACGTCGGCACTTTCACCGTGGCCGGCCTGGTCGCGCTGGTGGTGTCGCTGCTGATCACCCTGCACAGCGTCGAGCAGACCTTCAACCGGATCTGGCGCGTGGCCACCGCGCGGCCGAAGTTCACCCGCTTCCTGATCTACTGGACCGTGCTGACGCTGGGCACGATGCTGGCGGCGGCCTCGATGGCGATGGCCGCGTACGTGTTCGCGCTGCCGCTGTTCCACACCACCGAGGGGCGCTGGCTGGCACAGGCGGCGTGGCGGCTGGCGCCGATGCTGGTGGAATTCGTCTCGATCCTGATGATCTACCGCGTGGTGCCGCAGCACACCGTGCGCCTGCGCCATGCCGCGCCGGGGGCGTTGCTGGCGGTGGTGATCCTGGAACTGGTGAAGTGGGGCCTGGGCCTGTACCTGGGCAATTTCCAGACCTACCAGCGCATCTACGGCGCGCTGTCGGCACTGCCGATCCTGCTGCTGTGGATCTACCTGAGCTGGGTGTCGGTGTTGCTGGGGGCCTCGCTGGCCTCGTCGATCGCTGCGTTCCGCTATCAGCCGGCGGCGATGCGCCTGCCGCCGGGCTATGAGTTCTACGCGCTGCTGCGCCTGCTGGGGCGGGTGCAGCTGGCGCGCCGCGGCGGTCGCGGGCTGGACGAGGACGCGATGCTGGCGCTGGAGCCGATGCTGACCGACACGCTGCTGCAGCAGATCCTGTGCGAGTTGGAACGGATCCGCCTGCTGCGTCGCGACGAGCGCGGCGAGTGGCTGCTCGCGCGCGACCTCGACGAGGTCACGCTGGCCGAGCTGTACGAAAGCTGCCAGTTGCGCGTGCCGGTCGCCGAACAGCGCCTGCCGTGCCGCGACGACGCGCTCGGCTGCGCGGCCGGCGACGCGCTGGACGAACTTCGCCTGCCGCTGCGCGCGCTGCTCAAGCGCCGTGTCGGCGATATCTACAGGGACCTGCCCGGAGAACCAGCATGA	MRPAPCIGYACAMAPMDTMNQWKERLSDRARAVSFGRFLWHRFLDDRLFQAAASLAYTTVFALVPLAIVVFGILSAFPAFEQWRGALTDFIFTNFVPGAARSVQDFINNSLDDVGTFTVAGLVALVVSLLITLHSVEQTFNRIWRVATARPKFTRFLIYWTVLTLGTMLAAASMAMAAYVFALPLFHTTEGRWLAQAAWRLAPMLVEFVSILMIYRVVPQHTVRLRHAAPGALLAVVILELVKWGLGLYLGNFQTYQRIYGALSALPILLLWIYLSWVSVLLGASLASSIAAFRYQPAAMRLPPGYEFYALLRLLGRVQLARRGGRGLDEDAMLALEPMLTDTLLQQILCELERIRLLRRDERGEWLLARDLDEVTLAELYESCQLRVPVAEQRLPCRDDALGCAAGDALDELRLPLRALLKRRVGDIYRDLPGEPA	PGPT0014525_816	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
BMS020_03820	549	resA_2		Thiol-disulfide oxidoreductase ResA	ATGAAGATCCATCCCCTGAGTGTTCCGCTGCTGCTGGCGCTGGCCGCATGCAGCCGCAGTCCCGAACCGGCCGCGCCGGCGCAGGCTCCCGCCCCGGCGGCACCGGCCGCCGCCACGGTCGGCGTGGTGCAGCAGACCGCGCAGGTGCCCACGCTCGATCTTCCGACCGTGGATGGCGGCCGCTACGTGCTGGCCGAGCACCGCGGCAAGTGGGTGGTGGTCAATTTCTGGGCGACCTGGTGCGCGCCGTGCCTGAAGGAAATGCCAGAACTGTCCGAGCTCAACGCCAAGCGCGACGACGTCGACGTGGTCGGCCTGGCCTACGAGGACATCGAGCCGGCCGAGATGCAGGCGTTCCTGAAGGAACACCCGGTGTCCTACCCGGTGGCGATCCTCGACACCTACCAGCCGCCGCGCGATTTCGCCACGCCGCGCGGCCTGCCGATGACCTACCTGATCGCGCCGGACGGGCAGGTGGCCAAGCAGTTCCTTGGGCCGGTCACCACCGCCGAGATCGACGCGGTGATCGCAGGCGGCAAGGCCGGCTGA	MKIHPLSVPLLLALAACSRSPEPAAPAQAPAPAAPAAATVGVVQQTAQVPTLDLPTVDGGRYVLAEHRGKWVVVNFWATWCAPCLKEMPELSELNAKRDDVDVVGLAYEDIEPAEMQAFLKEHPVSYPVAILDTYQPPRDFATPRGLPMTYLIAPDGQVAKQFLGPVTTAEIDAVIAGGKAG				NA	NA	NA	NA	NA
BMS020_03821	270	acyP	COG1254	Acylphosphatase	ATGGCGACGCGCCGGTTCCTGGTCCGCGGGCGGGTGCAGGGCGTGGGCTTCCGCGCCGCCACCGCGCGCCAGGCCGTGGCGCTGGGCCTGGCCGGCGCTGCACTGAACCTGCCCGATGGCCGGGTCCTGGTCCGGGTGGACGGCGAGGCCGCGGCGATCGCGGCGCTGGAAGCCTGGCTGCGCCAGGGGCCGCCGCTGGCCCGGGTGGAGGCGGTCGAGGCCGGCGAGGACGATGGCAGCGGCCTCGGCGCCGGTTTCGTCACCGGCTGA	MATRRFLVRGRVQGVGFRAATARQAVALGLAGAALNLPDGRVLVRVDGEAAAIAALEAWLRQGPPLARVEAVEAGEDDGSGLGAGFVTG	PGPT0001372_432	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACETIC_ACID_BIOSYNTHESIS,PGPT0001372-acyP|yccX-K01512	NA	NA
BMS020_03822	1134			hypothetical protein	ATGGATCACGAGCACGGGCCTGCGCCGACGGCGCGCAGCACCGGTCTGCCGGGTGCCATCGGCTGGCTGTATGCCGGCGGTGTGTTGCTGTCGGGTTGGCTGTTGTTCGATCGCTTCCGCCCGGCGTTCCTGCCGGTGCCGCGGACCGGGATCGACCCGGGCTGGCTGGCCTGGAGCCTGTGCGGGCTTGGCCTGGGCTGGTGGTTGTGGGGTCGGCGCGCAGCCGCCCCGCGTGCGCCGCTGGCCGATGCGGTGCCGCGGCTGCCGGCGCAGCTGAATCTGCGCGTGGAGGCCCCGCCGCCGCCTTCGACGATCTGGAACCGTTACGGCCAGGGCATGCTCGACCCGTTGGCCATCGAGCCGGCCGATCTTTGCGCCGAACCGCCTGGGCTGGGCTGGCAGGCCTGCATCGACCGGCTTGCGGCGCTGCGTGGGCCCTGGCAGGCCGCGCGCGGCGAGCGCGAGCTGCGCACCCGGCGGCTGCTGTGGCTGGACGCGGCCCTGTTGCTGCTCGATCGCGGCGTGGTGCGCCCGCTGCATGACGGAGCGCTGCCGGATGTGGCCAGCCTGCGGACCGAACGCCTGCTGCTGGGCGCCGATGCCGGGCCGGCGGTGCTGGCCGAGGTGCCGGCGTTGTTCGCGCGGCGCATCGCCTGCGCGCTGGACAGCCTGCCGCCGCAGCAGCGGGGCGCCGCCGAAGTGCATGTGCAGCGGCTGCGCGCGCTGCAGCCGCTGCTGGCCCGCGAGCGTGCGCTGGAGCGCCATTCGCAGGTGATTCTGGCGCTGGCCTGGAACCCGGAGGTGGACCTGGACCAGGTCGAGGTGGCCTATGCGCTGGCCGACGAATACCGTGCCGAAACGCGCGACTGGCTGCTGCAGGCCGCGGCGCTGACGATGCCCAACGGCAGCACGTCGCTGGCGAACTTCCTGTTGTCGCGCTGCGAGCGCCTGGCCGACGACGGCGGCGATGCGATCGGCTACGTCGAGGCGCTGCGCCCGATGCACGTGGGCATGCGCCAGCTGATGCACGATGCGGTGTCGGTGCTGGTCACGCTCGCCGACGGCGTGGAGCGCAGCCGTGGCGTGGTTCCGCTGGCCGCGCTCGAAGGCGGCGCTCAGCGCTCCACGACGTAG	MDHEHGPAPTARSTGLPGAIGWLYAGGVLLSGWLLFDRFRPAFLPVPRTGIDPGWLAWSLCGLGLGWWLWGRRAAAPRAPLADAVPRLPAQLNLRVEAPPPPSTIWNRYGQGMLDPLAIEPADLCAEPPGLGWQACIDRLAALRGPWQAARGERELRTRRLLWLDAALLLLDRGVVRPLHDGALPDVASLRTERLLLGADAGPAVLAEVPALFARRIACALDSLPPQQRGAAEVHVQRLRALQPLLARERALERHSQVILALAWNPEVDLDQVEVAYALADEYRAETRDWLLQAAALTMPNGSTSLANFLLSRCERLADDGGDAIGYVEALRPMHVGMRQLMHDAVSVLVTLADGVERSRGVVPLAALEGGAQRSTT				NA	NA	NA	NA	NA
BMS020_03823	783		COG2326	Polyphosphate:ADP phosphotransferase	ATGGCATCGCTCAAACGCAAGGACTACAAGCGGCTGATCGAGCCGATGCAGCTGGAACTGGTGGCGATGGCGCGCTGGCTGCAGCACACCGGCAAGCGCGCACTGGTGCTGTTCGAGGGTCGCGACACCGCCGGCAAGGGCGGCGCGATCCAGGCGATCTCCGAACACCTCAACCCGCGCCAGTGCCGCGTGGTGGCGCTGCCCAAGCCCAATGACCGCGAGGCCACGCAGTGGTATTTCCAGCGCTACGTGGCGCACCTGCCGGCCGCCGGCGAGCTCGTGCTGATGGACCGCAGCTGGTACAACCGCGCCGGCGTGGAAAAGGTGATGGGCTACTGCGACGAGGCGCAGTACCGGCTGTTCCTGCAGCAGGCGCCGCGCTTCGAGCAGTTGCTGGTCGAGGACGGCATCCTGTTGTTCAAGTACTGGCTGACGGTCGACCAGAAGGCGCAGGAACAGCGTTTCGCCGAGCGCCACGAAGACCCGTTGAAGGGCTGGAAGCTGTCGCCGGTGGACCTGCAGTCGCGCGAACACTACGCCGACTACACCCACGCCCGCGAGACCATGCTTGAAGCCACCCATACCGCCCAGGCGCCATGGACGCTGGTCGACTTCAACGACCAGAAGCTCGGCCGCCTGACCCTGGTGCGCGACCTGCTCGATCGCATGCCCGACACCAACGTGCCCGACGACGAAGCGGCGCTGCCGCGCCTGCGCGGCAAGCTGCACAAGGAAAAGTTCGGCGCGCTGGCGCCGATCGCGTCCTACGTCGTGGAGCGCTGA	MASLKRKDYKRLIEPMQLELVAMARWLQHTGKRALVLFEGRDTAGKGGAIQAISEHLNPRQCRVVALPKPNDREATQWYFQRYVAHLPAAGELVLMDRSWYNRAGVEKVMGYCDEAQYRLFLQQAPRFEQLLVEDGILLFKYWLTVDQKAQEQRFAERHEDPLKGWKLSPVDLQSREHYADYTHARETMLEATHTAQAPWTLVDFNDQKLGRLTLVRDLLDRMPDTNVPDDEAALPRLRGKLHKEKFGALAPIASYVVER	PGPT0002690_2214	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002690-ppk2-K22468	NA	NA
BMS020_03824	519	moaB_2	COG0521	Molybdenum cofactor biosynthesis protein B	ATGAGCGCCCTCACCGATTTCATCCCGCTGCGGCTGTGCGTGCTGACCGTGTCCGATTCGCGCACACCGGCCGACGACGCCTCCGGCGACTACCTCGCAAGCGCGCTGGCCGAGGCCGGCCATCAGCTGCATGCGCGCGCACTGGCGCCGGACGACCGCTACCAGCTGCGCGCGATCGTCTCGGCGTGGATCGCCGATGCCGACGTCGACGGCATCCTGGTCACCGGCGGCACCGGCTTCACCGGCCGCGACAGCACCCCTGAGGCGATCGCCCCGCTGCTGGACAAGACCATGCCCGGCTTCGGCGAGCTGTTCCGCGCGATCAGCGTCGAGGAGATCGGCACCTCCTCGCTGCAGTCGCGCGCGTTCGCCGGGCTGGCCAATGCCACCTTCGTGTTCTGCCTGCCCGGCTCGCGCTCGGCCTGCCGCACCGCCTGGGAGCGGATCATCCAGGCCCAGCTGGACGCGCGCACCCGCCCGTGCAATCTCGCCACGCTGCGCCCACGCCTGCGCGAGTAA	MSALTDFIPLRLCVLTVSDSRTPADDASGDYLASALAEAGHQLHARALAPDDRYQLRAIVSAWIADADVDGILVTGGTGFTGRDSTPEAIAPLLDKTMPGFGELFRAISVEEIGTSSLQSRAFAGLANATFVFCLPGSRSACRTAWERIIQAQLDARTRPCNLATLRPRLRE	PGPT0008420_1101	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008420-moaB-K03638	NA	NA
BMS020_03825	1695			hypothetical protein	ATGAGCCATTCCCCCCAGACCCCCGCCCTGCAGCAGCTACGCGCCGCCGTGCAGCGCGATCCCGCCGACTTCGTCGCCTGGCTGATGCTGGCCGACGAGGAGATGGGCGCCAACGCCGCCAGCGCCGGCGAAGCCGCGGTGCAGCGCGCGCTGGCGCTGCGTCCCGGGCATCCGGAGGCGCTGGCCCGGCTTGGTCGGGTGCGCTGGATGCAGGGCCGGCACCACGAATCGGCCGGGCTGCTGCGCCAGGCCGCGGCGCTGGCGCCGCAGCACCCGGGCATCGCGCTGTGGCTGGGCCATGCGCTGGAGGACGCCGGCGAGGCCGAAGCCGCCGCGCAGGCCTACGCACATGCGCACCGGCTGCTGCCGGACGAGCCCTATTTCGCCGCGCAGCTGTTGAACTGGCGCCGCAAGCTGTGCGACTGGCGCGAGCTCGACGCGCTGGCGCAACAGGTGCGCGGCGCGGTCGCGCGGCGCCAGCCGGGCGTTGAGCCGTTCGCCTTCCTCAGCGAGGACGCCGCCCCGGCCGAACAACTGGGCTGCGCGCGCCTGCGCGCGGCGGCGCTGGCGCAGGCGATCCGGCCGTTGCCGCCGGCCACCACGCGCGCGCCGGGCCCGCTGCGGCTCGGCTTCTTGTCCAACGGCTTCGGCGCCCATCCCACCGGCCTGCTGACCGTGGCGCTGTTCGAAGCGCTCCGCGTGCGCGCGCCCGATCTCGCGCTGCACCTGTTCGCGCTCACCGGCGACGACGGCAGCACCATCCGCGCGCGCCTGGCCGCGGCCGGCCAGCTGCACGACGTCTCCGCGCTGGACCATGGCACGACCGCCGCGGCGATCCGCGCGCGCGGCATCGACATCCTGTTCGATCTGCGCGGCTGGGGCGGCGGCGGCGCACCGGAAGTGCTGGCGCTGCGCCCGGCACCGGTGCAGGTGAACTGGCTGGCGTTCCCGGGCACCAGCGGCGCACCGTGGATCGACTGGGTGCTCGCCGACGCCTTCGTGCTGCCGCCGGCGCTGGAAGCGCATTACAGCGAACGCGTGCTGCGACTGCCGCGGGCGTTCCAGCCTTCGGACACGCAGCGCGCGGTGGAGGCACCGCCGTCGCGCCAGGCCTGCGGACTGCCGGACGCAGCCACGGTGTTCTGCAGCTTCAACAACAGCTACAAGCTCAATCCGCGCAGCATCGGACGCATGTTCGCGGTGCTGCGCGAGGTGCCCGACAGCGTGCTGTGGCTGTTGTCCGGCCCGGGCCAGGCCGACCAGCGCTTGCGTGCAGCCGCGCAGGCCGCGGGGCTGGATCCGGCGCGGTTGGTGTTCATGGCCAAGCTGCCGCACGCGCAGTACCTGGCGCGCTACCGCCACGCCGACCTGTTCCTGGACACCTCGCCGTACAACGCCCACACCACCGCATCGGACGCGCTGTGGGCAGGCTGCCCGGTCCTGACCGTCCCGGGCGCCAGCTTCGCTGCGCGGGTCGCCGGCTGCCTCAACCATCACCTCGGCCTGGAGGCGATGAACGCCGCCGACGATGCCGCGTTCGTCGCCCGCGCGGTCGCGCTGGCGCGGACGCCGGGCGCGCTGGCCGCCGTGCGTGCGCAGCTCGCCGCCGCGCGCGCCCAGCCCGGCGGGCTGTTCGACATGGACGCCTTCGCCGACGACTTGGCCGCGCTGCTGCGGCGCCTGCCAGCGGCGTAA	MSHSPQTPALQQLRAAVQRDPADFVAWLMLADEEMGANAASAGEAAVQRALALRPGHPEALARLGRVRWMQGRHHESAGLLRQAAALAPQHPGIALWLGHALEDAGEAEAAAQAYAHAHRLLPDEPYFAAQLLNWRRKLCDWRELDALAQQVRGAVARRQPGVEPFAFLSEDAAPAEQLGCARLRAAALAQAIRPLPPATTRAPGPLRLGFLSNGFGAHPTGLLTVALFEALRVRAPDLALHLFALTGDDGSTIRARLAAAGQLHDVSALDHGTTAAAIRARGIDILFDLRGWGGGGAPEVLALRPAPVQVNWLAFPGTSGAPWIDWVLADAFVLPPALEAHYSERVLRLPRAFQPSDTQRAVEAPPSRQACGLPDAATVFCSFNNSYKLNPRSIGRMFAVLREVPDSVLWLLSGPGQADQRLRAAAQAAGLDPARLVFMAKLPHAQYLARYRHADLFLDTSPYNAHTTASDALWAGCPVLTVPGASFAARVAGCLNHHLGLEAMNAADDAAFVARAVALARTPGALAAVRAQLAAARAQPGGLFDMDAFADDLAALLRRLPAA				NA	NA	NA	NA	NA
BMS020_03826	1086	prfA_2	COG0216	Peptide chain release factor RF1	ATGACGCCGACGCTGCGCCGCAAGCTTGAAGCGCTGGCCGAGCGCCGCGAGGAACTCGAACGCCTGCTTGCCGACCCGGACGTGGTCGGCGACAACGCCCGTTTCCGCAGCCTGTCGCGCGAATTCGCCCAGCTCGAACCGGTCGCCAGCGCGCTGGCCGACGAGGCGCGCGCCAAGGCCGACCTCGGCGCCGCGCAGGCGCTGCGCGACGATCCGGAGATGCGCGAGCTGGCCGAGGAAGAGATCGCCGCCGCACAGGCGCGCCTGGCCACGCTCGAGGAGCAGCTGATGCTGCTGCTGGTCCCGCAGGACCCGCGCGACGACGGCAACCTGTTCCTGGAAGTGCGCGCCGGCACCGGCGGCGACGAGGCGGCGATCTTCGCCGGCGACCTGTTCCGCATGTACGCCCGTTTCGCCGAGCGCCAGGGCTGGAAGGTGGAGGTCGAATCGGACAACCCCGGCGAGCACGGCGGCTACAAGGAGATCGTCGCGCGCGTGGTCGGCCGCGGCGCCTACTCCAAGCTGAAGTTCGAGTCCGGTACCCACCGCGTGCAGCGCGTGCCGGCGACCGAATCGCAGGGCCGCATCCACACTTCGGCGGCGACCGTGGCGATCATCCCCGAGGCCGATGAGGTCGAGGAGATCGAGATCAACCCGGCCGACCTGAAGGTCGACACCTTCCGCTCCTCCGGCGCCGGCGGCCAGCACGTCAACAAGACCGAATCGGCGATCCGCATCACCCACGTGCCGAGCGGCGTGGTGGTCGAATGCCAGACCGAGCGCAGCCAGCACGCCAACCGCGACAAGGCGATGAAGCGCCTGAAGGCGCAGCTGATCGATGCCGAGCGCAGCCGCCAGGCCGCCGCCGAGGCGCAGACCCGCAAGCTGCAGGTCGGCAGCGGCGACCGCAGCCAGCGCATCCGCACCTACAACTTCCCGCAGGGCCGGATCACCGACCACCGCGTCGAGGGGCTGACCGTGTACGACCTGCCGAACGTGATCGAGGGCGACCTCGACGCGCTGGTCGGGCGCCTGCTGCACGAGCACCAGGCCGACGAACTGGCGCGGCTGGGCGAAGGCGTGTGA	MTPTLRRKLEALAERREELERLLADPDVVGDNARFRSLSREFAQLEPVASALADEARAKADLGAAQALRDDPEMRELAEEEIAAAQARLATLEEQLMLLLVPQDPRDDGNLFLEVRAGTGGDEAAIFAGDLFRMYARFAERQGWKVEVESDNPGEHGGYKEIVARVVGRGAYSKLKFESGTHRVQRVPATESQGRIHTSAATVAIIPEADEVEEIEINPADLKVDTFRSSGAGGQHVNKTESAIRITHVPSGVVVECQTERSQHANRDKAMKRLKAQLIDAERSRQAAAEAQTRKLQVGSGDRSQRIRTYNFPQGRITDHRVEGLTVYDLPNVIEGDLDALVGRLLHEHQADELARLGEGV				NA	NA	NA	NA	NA
BMS020_03827	1344	hemA_2	COG0373	Glutamyl-tRNA reductase	ATGGCCAGCAGCTTATCGCAAGCGACTGAACAGATGACGTTGTGGGTGCTCGGACTGAACCACCAGACCGCGCCGGTGGAGCTGCGCGAGCGCGCGGCGTTCGCCGGCGAGGCGCTGCCGCATGCGCTGTCGGCGCTGCGCGGACTGCCGCAGGTCAGCGAGGTCGCGCTGCTGTCCACCTGCAACCGCACCGAGCTGTACGCGGTGGCCGAAGGCGCCGCACCGCTGGCCGACTGGCTGGACGGGCACGCGCCTGGGCTGTCGGGCTACCTGTACCAGCACCAGGACGCCGATGCGGTGCGCCACCTGTTCCGGGTCGCCACCGGCCTGGACTCGATGGTGCTGGGCGAGCCGCAGATCCTTGGCCAGGTGAAGGACGCCTGGTCGTTGGCGCGCGAACAGGGCGCGCTCGGCAGCCGCCTGGACCGGCTGTTCCAGCAGAGCTTCTCGGTCGCCAAGCGCGCCCGCACCGATACCCGGGTCGGCGCCAATCCGATCTCGGTGGCCTCCACCGCGGTGCGCCTGGCGCAGGAATCCTTCGCACGGCTCAGTGACTCCACGGTGCTGCTGGTCGGCGCCGGCGAGACCATCGAGCTGGCCGCCAAGCATCTCAGCGAAGGCCGCGTGCGCCGGCTGCTGATCGCCAACCGCACCCTCGCCCATGCGCAGACGCTGGCCAGCCAGCACGGCGGCTACGCGCTGCCGCTGGCCGAGCTGGAGCGCCACCTGGCCGAAGCCGACGTGGTGTTCTCGGCCACCGCCGCGCGCGAACCGGTGGTGACCCGCCCCCAGGTCGAGCAGGCGCTGCGGCAGCGCAAGCGCAAGCCGATGCTGCTGTTCGACCTGGCCGTGCCGCGCGACATCGAGGCCGAGGTCGCGCAGCTGGCCGATGCCTATCTGTACACCGTCGACGACCTAGAGCGCGCGGTCGAGGACAACCGGCGCAGCCGCCGCGAGGCCGCCGACGCCGCCGAGGCGATCATCGACCTGCAGGTCGCCCGCTACGTCGAGACCCAGCAGGCGACTACGCGCCAGGCCCCGTTGAAGCGGCTGCGCGCCTTCGGCGACGCCACCCGCGACGAACTGCTGGCCAAGGCCCGGCAGCAGCTGGCCAACGGCAAGCCGGCCGACGAAGTGCTGGAACTGCTGGCGCACTCGCTGACCAATCGCCTGCTGCACCCGCCCACCGCGGCGCTGCGCGAAGCCGCGCTGGCCGACGACGCCGAGCTGGCGCGCGCGGCCGACCGGCTGTTCCCGGCCGCGCCGGGCTATCGCCACCCCGCCACCACGACCACCACCCCGATCGTGAGGAACGATGACGCCGACGCTGCGCCGCAAGCTTGA	MASSLSQATEQMTLWVLGLNHQTAPVELRERAAFAGEALPHALSALRGLPQVSEVALLSTCNRTELYAVAEGAAPLADWLDGHAPGLSGYLYQHQDADAVRHLFRVATGLDSMVLGEPQILGQVKDAWSLAREQGALGSRLDRLFQQSFSVAKRARTDTRVGANPISVASTAVRLAQESFARLSDSTVLLVGAGETIELAAKHLSEGRVRRLLIANRTLAHAQTLASQHGGYALPLAELERHLAEADVVFSATAAREPVVTRPQVEQALRQRKRKPMLLFDLAVPRDIEAEVAQLADAYLYTVDDLERAVEDNRRSRREAADAAEAIIDLQVARYVETQQATTRQAPLKRLRAFGDATRDELLAKARQQLANGKPADEVLELLAHSLTNRLLHPPTAALREAALADDAELARAADRLFPAAPGYRHPATTTTTPIVRNDDADAAPQA	PGPT0003650_1932	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003650-hemA-K02492	NA	NA
BMS020_03828	1674	bepA_3		Beta-barrel assembly-enhancing protease	ATGCCCGTCTTGATTCGCACCTTGTGCGTTCTTCTGCTGTCGTCAGTGGCCCTGTCGTCGCCCGCCGCCCCGGCGCAGGCGCCTTCGGCGGGGTCGATCGAGCCGGTCCTGGCCGGCGAATTCGCCCTGCAAGCGGGCCAGCTCGGCGGGGCGGCCGACTGGTACCTGCAGGCGGCCCGGGCCGAGCCCGGCGATGCCGGGCTGGCCGAGCGCGCGGCGCGCATCGCGATGCTGGCCAACGACGATGCCAGGGCCGCCGCGGCGCTGGCGCTGTGGCGCGAGCGTGCGCCGCAGTCGCTGGCGATGCGCAGCACCGAGGCGTCCCTGGCGTTGCGTCGCGGCCAGCTGCGCGCGGCGCGGCGCGGCGTGCTGGGGCTGTTGCGCGACCCGGATCCGCGTGGCTGGCGCTTCGCGCTGGTGGCGCTGGCAGGTGGTGCGCGCGATGTCGACGGTGTCGCCAAGGTGCTTGGCGACGCGGTCGATGCCGGCGCGATCCCCAACCAGGTCGAGGCCTGGCAGGAGTTCGGGCGGCTGGCGATCCGCATGGAGCGGCCGGCGCTGACCAAGCGCATCGTCGACGAGGTGGTGCGGCGCTTCCCGCAGGAACCACGCGTCGCGCTGCTGCATGCGACGCAGCTTGACCAGGCTGGCAAGCGCCCGGAGGCGTTGGCGATGCTGAAGGAGGTCGAGCCCAAGGCGGTCGACGACTCCGAGCTGCGCGGCGCGCTGGCGCTGGCCTACGACGCGATGGGCGAACCGCACGCCGCCGCGCGGGTGCTGGCCACCGGCCCGCAGGACACCCAGACCTACGGGCTGCGCGCCTCGATGCTGGCCAAGGAGCAGGACGACGCGGCGCTGCAGGCGCTGCAGGCGCTGTACGCCGAACTGAAGGCGGCCTCGCCGCAGCCGGAGCCGGATCGCCAGCTGCTGTTGGGCAAGATCGCTGAATACCTCAAACAGTATGCCGAGGCGGTGGGCTGGTACCGCGGCGTGCCCGACGGCCCGCTGCACAGCGAGGCGCAGTTGCGGGTGGCCAGCGCGCTGTTCGAACTCGGCCGCAAGCCCGAGGCGTTCGATGCGGTGCATGCGCTGCAGGCCGATGCCGAGGCGGTGGACGATGCCCGCCGCGATGCCTACCTGCTCGAGGCCGAGCTGCGCCAGCGCGATAACGACGATGCCGGCGAGCTGGACGTGTTCGCGCGTGGGCTGGCAGCGTATCCGGACGATGGCGCGCTGCTGTATGCGCGCGGCCTGGCCTGGGAACGTCGCGACCAGATCGATCGCGCCGAGGCCGACCTGCGCAAGGCGCTGGTCACCGAGCCGGAGAACGTCGCCGCGCTGAACGCGCTGGGCTACACCCTGGCCGACCGTACCAGTCGCTACAAGGAGGCGCTGGCGCTGATCGACCGCGCCCGCACCGCCGATCCGGACAATCCGGCGATCATCGACAGCTATGGCTGGGTGCTGTACCGCATGGGGCGCACGCGCGAGGCGCTGATCCAGCTGCGCCGTGCCTGGACCTTGTTCAAGGACCCGGAGATCGCCGCGCATATCGGCGAGGTGCTGTGGGAGCAGGGGCAGCGCGACGAGGCGCGCCGCTACTTCGACGAGGCGCGCAAGCTCGACCCGGACAGCCGGGCGCTGCAGCGCGCACTGGAGAAGGTGGGCGCATGA	MPVLIRTLCVLLLSSVALSSPAAPAQAPSAGSIEPVLAGEFALQAGQLGGAADWYLQAARAEPGDAGLAERAARIAMLANDDARAAAALALWRERAPQSLAMRSTEASLALRRGQLRAARRGVLGLLRDPDPRGWRFALVALAGGARDVDGVAKVLGDAVDAGAIPNQVEAWQEFGRLAIRMERPALTKRIVDEVVRRFPQEPRVALLHATQLDQAGKRPEALAMLKEVEPKAVDDSELRGALALAYDAMGEPHAAARVLATGPQDTQTYGLRASMLAKEQDDAALQALQALYAELKAASPQPEPDRQLLLGKIAEYLKQYAEAVGWYRGVPDGPLHSEAQLRVASALFELGRKPEAFDAVHALQADAEAVDDARRDAYLLEAELRQRDNDDAGELDVFARGLAAYPDDGALLYARGLAWERRDQIDRAEADLRKALVTEPENVAALNALGYTLADRTSRYKEALALIDRARTADPDNPAIIDSYGWVLYRMGRTREALIQLRRAWTLFKDPEIAAHIGEVLWEQGQRDEARRYFDEARKLDPDSRALQRALEKVGA				NA	NA	NA	NA	NA
BMS020_03829	651	lolB_2	COG3017	Outer-membrane lipoprotein LolB	ATGAACAAGCAAGTGTGGCGGCACGGCGCTGCCGTGCTGATGGCGTGCGCGCTGTCGGCCTGTGGCGCCTTGCCGTCGCGGCAGGCGCCGCCGGTGGCGGTGCCGGTCGAGGTCAGCGCCGCAGCGCGCCAGGCCGAGGCGGCGCGCCAGGCCTGGCTGATGGCGCATCCGGACTGGAACTTCCAGGGCCGCGCGGCGATCGCCAAGGGTCGCAACGGTGGCAGTGGCCGGGTCGACTGGCAGCAGCAGGGGGATCGCTACCGGGTCCAGCTGAGTGCGCCGGTGACCCGCCAGAGCTGGGTGCTGGAAGGCGATGCCGGCACCGGTGCCGGCCGCCTCGATGGCCTGGAGGGCGGCCCGCGTGCCGGCGACGATGCCGAGCAGGTGCTGCTGGAGGCCACGGGCTGGTGGATCCCGGTCAACCGCCTGCCGGACTGGGTGCGTGGCCGGGTCGCCGAGGGCGACAGCGGTGTGCAGCTCGATGCCGAAGGGCGCCCGCGCACGCTGCAGGAGCAGGGGTGGACGGTGGAGTTCCTGGAGTGGTCCCCGGCTGCCGAAGGGCGTCCGGCTTTGCCGCGGCGCATCGAGGCCCGCAATGGCGACGCCAAGGTGCGGCTGATGTTCGACCAGTGGGACGTGGTGCAGCCGTGA	MNKQVWRHGAAVLMACALSACGALPSRQAPPVAVPVEVSAAARQAEAARQAWLMAHPDWNFQGRAAIAKGRNGGSGRVDWQQQGDRYRVQLSAPVTRQSWVLEGDAGTGAGRLDGLEGGPRAGDDAEQVLLEATGWWIPVNRLPDWVRGRVAEGDSGVQLDAEGRPRTLQEQGWTVEFLEWSPAAEGRPALPRRIEARNGDAKVRLMFDQWDVVQP	PGPT0024480_143	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024480-lolB-K02494	NA	NA
BMS020_03830	873	ispE_2	COG1947	4-diphosphocytidyl-2-C-methyl-D-erythritol kinase	GTGAGCGCGCTGGAACCGGGCTGGAGCGCCTGGCCGGCGCCGGCCAAGCTGAACCTGTTCCTGCAGATCGTCGGCCGCCGCGCCGATGGCTACCACCTCTTGCAGACCGTGTTCAGGATCCTGGATTGGGGTGACACGGTCCATCTGCGGCCGCGCGCGGATGGCGTGATCCGGCGCGAAGGGGCCTCCGTGGCCGGCGTCGAAGAGGCCGACGACCTGATGGTGCGCGCTGCCCGTCTCCTGCAGGGCGAGGCAAATGTCGGCCAAGGTGCGGACATCCGCGTCGAAAAACGCATTCCGGCCGGTGGTGGCTTCGGTGGCGGCTCGTCCGACGCGGCGACGGTGCTGGTTGCGCTGAATGCGCTGTGGGGCCTGGGTCTGGGTGTCGAACGGCTGGCTGCGCTGGGCGTGCGCCTCGGTGCCGACGTGCCGGTGTTCGTGCATGGCCACAATGCCTGGGCCGAGGGCGTCGGCGAGCGGTTGCAGCCGCTGGCGTTGCCGGAGGCCGTCTACCTGCTGGTCAGTCCGGGCGTCCATGTGCCGACCCCGGAGCTGTTTCGTTCCCCGGATTTGACGCGCGATGCCGCGCCCGCGAAAATAGCGGACTTCGCTTCCGGAACCCAGCTCGGCAACGCGTTCGAGCCGGTCCTGCGACGCCGGGAACCTGCGGTCGAAGCCGCGTTCCAGGCATTGGCCAGGGTCGGCAGGCCGCGACTGACCGGGTCGGGGAGCGGGTGTTTCGTCGAGTTCGCCACGCGCGCCGCTGCAGAGCAGGCGCGCGCGGCCTTGCCGGATGGCCTGCGGGCATGGGTAGTGGAGGGCGCGTCGCGCTCGCCGCTGCTCGATGCGCTGGAGGCGATGGAAGGTTTTTGA	MSALEPGWSAWPAPAKLNLFLQIVGRRADGYHLLQTVFRILDWGDTVHLRPRADGVIRREGASVAGVEEADDLMVRAARLLQGEANVGQGADIRVEKRIPAGGGFGGGSSDAATVLVALNALWGLGLGVERLAALGVRLGADVPVFVHGHNAWAEGVGERLQPLALPEAVYLLVSPGVHVPTPELFRSPDLTRDAAPAKIADFASGTQLGNAFEPVLRRREPAVEAAFQALARVGRPRLTGSGSGCFVEFATRAAAEQARAALPDGLRAWVVEGASRSPLLDALEAMEGF	PGPT0007605_1625	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007605-ispE-K00919	NA	NA
BMS020_03832	960	prs_2	COG0462	Ribose-phosphate pyrophosphokinase	ATGCAAGACGAACGCAACCTGCTGGTCTTTTCCGGCAATGCGAACAAGCCCCTCACCCAGAGCATCTGCAAGGAGCTCGGTGTGCGCATGGGCAAGGCGCTGGTGTCGACCTTCTCCGACGGCGAAGTGCAGGTCGAGATCGAGGAGAGCGTGCGCCGGCAGGAAGTGTTCGTGGTGCAGCCGACCTGCGCGCCGAGCGCGGAGAACCTGATGGAGTTGCTGGTGCTGGTCGATGCGCTCAAGCGCGCCAGCGCCGCCAGCGTCACCGCGGTGATCCCGTACTTCGGCTACTCGCGCCAGGATCGCCGCATGCGCTCCTCGCGCGTGCCGATCACCGCCAAGGTCGCCGCCAAGATGATCAGTGCGATCGGCGCCGACCGCGTGCTGACCGTCGATCTGCATGCCGACCAGATCCAGGGCTTCTTCGATGTCCCGGTCGACAACGTCTATGCCTCGCCGCTGCTGCTGGCCGACATCTGGCGCGCCTACGGCACCGACAACCTGATCGTGGTCTCGCCGGACGTCGGCGGCGTGGTGCGCGCCCGCGCGGTCGCCAAGCGCCTGGACGATGCCGACCTGGCGATCATCGACAAGCGCCGCCCGCGCGCCAACGTCGCCACGGTGATGAACATCATCGGCGACGTGCAGGGCAAGACCTGTGTACTGGTCGATGACCTGGTCGATACCGCCGGCACGCTGTGCGCGGCCGCTGCGGCGCTGAAGCAGCGCGGCGCAACCAAGGTCGTGGCCTACATCACCCATCCGGTGCTGTCTGGCCCGGCCGTGGACAACATCACCAACTCCCAGCTCGACGAGCTGGTGGTGACCGACACCATCCCGCTGTCCGACCAGGCGCGGGTGTGCACCAAGATCCGTCAGCTCAGCGTCGCCGAGCTGCTGGCCGAGACCATCCGTCGCATCGCCTTCGGTGAGTCGGTCAGCTCGCTGTACGTCGACTGA	MQDERNLLVFSGNANKPLTQSICKELGVRMGKALVSTFSDGEVQVEIEESVRRQEVFVVQPTCAPSAENLMELLVLVDALKRASAASVTAVIPYFGYSRQDRRMRSSRVPITAKVAAKMISAIGADRVLTVDLHADQIQGFFDVPVDNVYASPLLLADIWRAYGTDNLIVVSPDVGGVVRARAVAKRLDDADLAIIDKRRPRANVATVMNIIGDVQGKTCVLVDDLVDTAGTLCAAAAALKQRGATKVVAYITHPVLSGPAVDNITNSQLDELVVTDTIPLSDQARVCTKIRQLSVAELLAETIRRIAFGESVSSLYVD	PGPT0021480_3243	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021480-prsA-K00948	NA	NA
BMS020_03833	615	rplY_2		50S ribosomal protein L25	ATGGCAAAGACTCATGAAATCAAGGTCGAGCGCCGCGCGGACGAGGGTAAGGGTGCGAGCCGCCGCCTGCGTCACGCTGGCCTGATCCCGGCGATCGTCTACGGTGGCGATCTGAAGCCCGTCAGCATCCAGCTCGACCACGAGCAGATCTGGCTGGCCCAGCAGAACGAGTGGTTCTACTCCTCGATCCTGGACCTGAACCTCAATGGCGACGTGCAGAAGGTGCTGCTGCGTGACCTGCAGCGTCACCCGTACAAGCAGCTGATCATGCACATCGACTTCCAGCGCGTGAACGACAACGAGGCGCTGAGCGCCGCGGTGCCGCTGCACTTCGTCAACGAAGCCGGTTCGCCGGCCGGCAAGGCCGCGGGCGTCGTGATCACCCACGAGCTGAACGAAGTCCACGTGCAGTGCCTGCCGAAGGACCTGCCGGAGTTCGTCGAGATCGACCTGTCGGCGCTGGCCGTGGGCCAGGTCCTGCACCTGTCCGACCTGAAGCTGCCGGCCGGCGTGGAAATTCCGGCGCTGAAGCTGGGCAAGGAGCATGACGTGGCGGTGGTCATCGCCAAGCACGCTGCCGGCCAGGAAGAGGCTGCTGAGGGCGCTGCCGAGTAA	MAKTHEIKVERRADEGKGASRRLRHAGLIPAIVYGGDLKPVSIQLDHEQIWLAQQNEWFYSSILDLNLNGDVQKVLLRDLQRHPYKQLIMHIDFQRVNDNEALSAAVPLHFVNEAGSPAGKAAGVVITHELNEVHVQCLPKDLPEFVEIDLSALAVGQVLHLSDLKLPAGVEIPALKLGKEHDVAVVIAKHAAGQEEAAEGAAE				NA	NA	NA	NA	NA
BMS020_03834	579	pth_2	COG0193	Peptidyl-tRNA hydrolase	ATGTCAGGACTGCGTCTGATCGTTGGGCTCGGCAATCCGGGTCCGGAACACGCCCAAACCCGGCACAACGCCGGGTTTCATTTCGTCGAGGCCCTGGCCGCGCGCGAAGGTGTGCGCTGGAGCCTGGAGTCCAAGCTGTTCGGCGAGGTGGCCAAGGTGGTCATTGCCGGCCAGTCGGTGTGGCTGCTGAAGCCGGCCACGTTCATGAACCTCAGTGGCAAGTCGATCACCGCCGCGCTGCGGTTCTGGAAGATCGAGCCGGAGCAGATGCTGGTCGCGCACGACGAGCTGGACATACCGCCCGGCACCGTGAGGCTGAAGTTCGATGGCGGCCATGGTGGCCAGAACGGTCTGCGCGACACGATCCGCCTGCTCGGGCACGCGCGGTTCCACCGCCTGCGGATCGGCATCGGCCACCCGGGGCACAAGGATCGTGTGGTGGGGTGGGTGCTGGGGCGTCCTGGCGCCGCGGAAGGTGTGCTGGTGGCGCGCGCGATCGACGAGGCGCTGGATGTGCTGCCGCTGGCGGTCGCCGGCGATTTCAACGAGGCGATGAAGCGCCTGCACACGAAGGTTTGA	MSGLRLIVGLGNPGPEHAQTRHNAGFHFVEALAAREGVRWSLESKLFGEVAKVVIAGQSVWLLKPATFMNLSGKSITAALRFWKIEPEQMLVAHDELDIPPGTVRLKFDGGHGGQNGLRDTIRLLGHARFHRLRIGIGHPGHKDRVVGWVLGRPGAAEGVLVARAIDEALDVLPLAVAGDFNEAMKRLHTKV				NA	NA	NA	NA	NA
BMS020_03835	1092	ychF_2	COG0012	Ribosome-binding ATPase YchF	ATGGGTATCAAATGCGGCATCGTCGGCCTGCCCAACGTCGGCAAGTCGACCCTGTTCAATGCACTGACCAAGGCGGGTATCGCCGCGGCCAACTTCCCGTTCTGCACCATCGAGCCGAATGTCGGCATCGTGCCGGTGCCGGATCCGCGCCTGGGCCAGCTGGCCGAGATCGTGAAGCCGCAGAAGGTCGTGCCGACGGCGGTCGAGTTCGTCGACATCGCCGGCCTGGTCGCCGGCGCGGCCAGTGGCGAGGGCCTGGGCAACAAGTTCCTGGCGCACATCCGCGAGGTCGACGCGATCACCCACGTGGTGCGCTGCTTCGAGCACGGCGACATCATCCATGTGAACAACAAGGTTGATCCGATCTCCGACATCGAGACCATCGACACCGAGCTGGCCCTGGCCGACCTGGACAGCGTCGAGAAGGCGCTGAATCGCGCCGAGCGCGGCGCCAAGGGTGGCGATAAGGAAATGATCGCGCGCAAGCCGGTGCTGGAGAAGCTGCAGAAGGCGCTCAACGACGGCATCCCCGGGCGCGGTGCTGGCCTGGATGAGGAGGAAAAGGCGATCGTCCGCGACCTGTTCCTGCTCACGCTCAAGCCGGTGATGTACATCGCCAACGTGCTCGAGGACGGGTTCGAGAACAATCCGCACCTGGAGGCGGTGCGCGCGCGCGCGGAGAAGGAGGGGGCGCAGGTGGTGCCGGTGTCGGCGGCGATCGAGGAGGAGCTGTCGCAGCTCGATGACGCTGATCGCGATACGTTCCTGGCCGACCTGGGCCTGGACGAGCCGGGCCTGAACCGGGTGATCCGCGCGGCCTACAAGCTGCTCGGCCTGCAGACCTACTTCACCGCCGGCGTGCAGGAAGTACGCGCGTGGACGGTGAAGGCGGGGGCGACCGCGCCGAAGGCGGCGGCGGTGATCCATACCGACTTCGAGAAGGGCTTCATCCGCGCCGAGACGATCGCCTTCGACGACTTCATCAAGTACAAGGGCGAGGCGGGCGCCAAGGAAGCCGGGCGGCTGCGCCTGGAGGGCAAGGAATACCGTGTTCAGGAAGGCGACGTGCTGCACTTCCGCTTCAACGTGTGA	MGIKCGIVGLPNVGKSTLFNALTKAGIAAANFPFCTIEPNVGIVPVPDPRLGQLAEIVKPQKVVPTAVEFVDIAGLVAGAASGEGLGNKFLAHIREVDAITHVVRCFEHGDIIHVNNKVDPISDIETIDTELALADLDSVEKALNRAERGAKGGDKEMIARKPVLEKLQKALNDGIPGRGAGLDEEEKAIVRDLFLLTLKPVMYIANVLEDGFENNPHLEAVRARAEKEGAQVVPVSAAIEEELSQLDDADRDTFLADLGLDEPGLNRVIRAAYKLLGLQTYFTAGVQEVRAWTVKAGATAPKAAAVIHTDFEKGFIRAETIAFDDFIKYKGEAGAKEAGRLRLEGKEYRVQEGDVLHFRFNV				NA	NA	NA	NA	NA
BMS020_03839	1191	tufA_1	COG0050	Elongation factor Tu	ATGTCCAAGGGTAAGTTCGAACGTACCAAGCCGCACGTCAACGTCGGCACCATCGGCCACGTCGACCATGGCAAGACCACGCTGACCGCCGCGCTGACCAAGATCGGCGCCGAGCGTTTCGGCGGCGAGTTCAAGGCGTACGACGCGATCGACGCAGCGCCGGAAGAGAAGGCGCGCGGCATCACGATCTCGACCGCGCACGTCGAGTACGAATCCCCGACCCGTCACTACGCCCACGTTGACTGCCCGGGCCACGCCGACTACGTCAAGAACATGATCACCGGTGCCGCGCAGATGGACGGCGCGATCCTGGTGTGCTCGGCCGCTGACGGCCCGATGCCGCAGACCCGCGAGCACATCCTGCTGTCGCGTCAGGTCGGCGTGCCGTACATCGTGGTGTTCCTGAACAAGGCCGACATGGTCGACGACGCCGAGCTGCTCGAGCTGGTCGAGATGGAAGTGCGTGAGCTGCTGAGCAAGTACGACTTCCCGGGCGACGACACCCCGATCATCCACGGTTCGGCCCGTCTGGCGCTGGAAGGCGACCAGAGCGACATCGGCGTGCCGGCGATCATCAAGCTGGTCGAGGCGCTGGACACCTGGATCCCGGAGCCGGAGCGTGCGATCGACAAGCCGTTCCTGATGCCGGTGGAAGACGTGTTCTCGATCTCGGGCCGCGGCACCGTGGTGACCGGTCGTATCGAGCGCGGCGTGATCAAGGTGGGCGAGGAAATCGAAATCGTCGGTATCCGTCCGACCGCCAAGACCACCGTGACCGGCGTGGAAATGTTCCGCAAGCTGCTGGATCAGGGCCAGGCGGGCGACAACGCGGGCCTGCTGCTGCGCGGCACCAAGCGTGATGAAGTCGAGCGCGGCCAGGTGCTGGCCAAGCCGGGTTCGATCACCCCGCACACCGAGTTCGAAGCCGAGGTGTACGTGCTGTCGAAGGACGAGGGCGGCCGCCACACCCCGTTCTTCAAGGGCTACCGTCCGCAGTTCTACTTCCGCACCACCGACATCACCGGTGCGATCCAGCTGCCGGAAGGCGTCGAGATGGTCATGCCGGGCGACAACATCAAGATGTCGGTCACGCTGATCAACCCGGTGGCCATGGACGACGGCCTGCGCTTCGCGATCCGCGAAGGTGGCCGTACCGTCGGCGCCGGCGTGGTCGCCAAGATCACCAAGTAA	MSKGKFERTKPHVNVGTIGHVDHGKTTLTAALTKIGAERFGGEFKAYDAIDAAPEEKARGITISTAHVEYESPTRHYAHVDCPGHADYVKNMITGAAQMDGAILVCSAADGPMPQTREHILLSRQVGVPYIVVFLNKADMVDDAELLELVEMEVRELLSKYDFPGDDTPIIHGSARLALEGDQSDIGVPAIIKLVEALDTWIPEPERAIDKPFLMPVEDVFSISGRGTVVTGRIERGVIKVGEEIEIVGIRPTAKTTVTGVEMFRKLLDQGQAGDNAGLLLRGTKRDEVERGQVLAKPGSITPHTEFEAEVYVLSKDEGGRHTPFFKGYRPQFYFRTTDITGAIQLPEGVEMVMPGDNIKMSVTLINPVAMDDGLRFAIREGGRTVGAGVVAKITK	PGPT0015245_2668	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358	NA	NA
BMS020_03841	408	secE_1		Protein translocase subunit SecE	ATGAACAGCAAAATCGAACCTTCCAAGGGCGCCGCTTCCGGTGGCGATATCGCCAAGTACGTCATCTCCGCGCTGCTGTTGCTGGCGGGCTTGTTCGTGTGGTTCTGGTTCGAGGCTCCCGAGCGCTCCGCCCAGTTCGGTGCTTGGGCTACCCCGCTGCGCGCGCTGGCCGTGATCATCGGCCTGGCTGCTGGCGCCGCGGTGTTCTTCGGCACCGGCAAGGGGCGCGATACCCGCGAGTTCCTGTCTGAGTCGCGCTTCGAGCTGCGCAAGGTGGTGTGGCCGACCCGTCAGGAGTCGATCCGTACTACGTGGGTGGTGATCGTTGCGGTGATCATCCTGAGTTTGCTGTTGGGCGGCTTCGATTTTGTGATCCAGAAGCTCACGCAGTGGTTCCTGGCGCGCTGA	MNSKIEPSKGAASGGDIAKYVISALLLLAGLFVWFWFEAPERSAQFGAWATPLRALAVIIGLAAGAAVFFGTGKGRDTREFLSESRFELRKVVWPTRQESIRTTWVVIVAVIILSLLLGGFDFVIQKLTQWFLAR	PGPT0025715_375	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025715-secE-K03073	NA	NA
BMS020_03842	558	nusG_1	COG0250	Transcription termination/antitermination protein NusG	GTGAAGCGTTGGTACGTCGTTCACGCCTATTCAGGCTTTGAGAAGTCGGTTGCGCAGGCGCTGCGTGATCGCATCGCCCGTAACGAGATGCAGGAGCGCTTCGGCGACGTCCTGGTCCCCACCGAAGAGGTGGTGGAGATGCGTGCGGGCCAGAAGCGCCGTTCCGAGCGCAAGTTCTTCCCGGGCTACGTGCTGGTCCAGATCGAGACCCACGAAGAGGCGGGCATTCCGCGCATCGACAACGAGAGCTGGCACCTGGTCAAGGAAACCCCGAAGGTCATGGGGTTCATCGGCGGCACCGCCGATCGGCCGCTGCCGATCCGTGATGAAGAGGCTGCTGCGATCCTGGATCGCGTGCAGGAAGGCGTCGAGAAGCCGCGTCCGAAGGTGCTGTTCGAGCCGGGCCAGATGGTCCGCGTCATCGACGGCCCGTTCAACGACTTCAATGGCGTGGTCGAGGAAGTCAATTACGAGAAGAGCAGGCTGCGCGTCGCGGTGCTGATCTTCGGCCGGTCCACCCCGGTCGAGCTCGAATTCGGTCAGGTCGAGAAGAACTGA	MKRWYVVHAYSGFEKSVAQALRDRIARNEMQERFGDVLVPTEEVVEMRAGQKRRSERKFFPGYVLVQIETHEEAGIPRIDNESWHLVKETPKVMGFIGGTADRPLPIRDEEAAAILDRVQEGVEKPRPKVLFEPGQMVRVIDGPFNDFNGVVEEVNYEKSRLRVAVLIFGRSTPVELEFGQVEKN				NA	NA	NA	NA	NA
BMS020_03843	429	rplK_1	COG0080	50S ribosomal protein L11	ATGGCAAAGAAAGTTGTCGGTTACATCAAGCTGCAGGTGAAGGCCGGTCAGGCCAACCCCTCGCCGCCGGTCGGTCCTGCGCTGGGTCAGCGCGGCCTGAACATCATGGAGTTCTGCAAGGCGTTCAATGCCGCTACGCAGAAGCTCGAGCCGGGTCTGCCGACCCCGGTCATCATCACGGCCTATTCGGACCGTACCTTCACCTTCGTGACCAAGTCGACCCCGGCTTCGGTGCTGCTGAAGAAGGCCGTGGGCATCACCTCCGGCTCCAAGCGCCCGAACACCGAGAAGGTGGGCAAGGTAACCCGCAAGCAGCTGGAAGACATCGCCAAGGCGAAGGAGCCGGATCTGACTGCTGCAGACCTGGACGCCGCTGTGCGTACGATCGCGGGCTCGGCCCGTTCCATGGGCCTTGTGGTGGAGGGTTAA	MAKKVVGYIKLQVKAGQANPSPPVGPALGQRGLNIMEFCKAFNAATQKLEPGLPTPVIITAYSDRTFTFVTKSTPASVLLKKAVGITSGSKRPNTEKVGKVTRKQLEDIAKAKEPDLTAADLDAAVRTIAGSARSMGLVVEG				NA	NA	NA	NA	NA
BMS020_03844	699	rplA_1	COG0081	50S ribosomal protein L1	ATGGCACAGACCAAGCGTGAGAAGGCCATCAAGGCCGCCGTCGTTCCGGGCAAGTCCTACGGCTTCGAAGAAGCGATCCAGATCCTGAAGTCCGCCACCAAGGCCAAGTTCGTCGAATCGATCGACGTCGCCGTGCGCCTGGGCGTGGACGCGAAGAAGTCCGACCAGCAGGTGCGCGGTTCCACCGTGCTGCCGGCCGGTACCGGCAAGTCGGTGCGCGTGGCGGTGTTCGCCCCGGCTGGTGCCAAGGCTGACGAAGCCCTGGCCGCTGGCGCCGAAGCCGTTGGCATGGACGACTTGGCCGAGAAGATGCAGGCCGGTGACCTGAACTATGACGTCGTGATCGCGACCCCGGACGCGATGCGCGTCGTCGGTAAGCTCGGCACCGTGCTGGGTCCGCGCGGCCTGATGCCGAACCCGAAGGTTGGCACCGTCTCCCCGAACCCGGGTGAGGCCGTGAAGAACGCCAAGTCGGGTCAGGTCCGTTACCGCACCGACAAGGCCGGCATCATTCACTGCACCATCGGCAAGGCCAGCTTCGACGACGCGTCGCTGAAGTCGAACCTGACCGCGCTGCTGCTGGACCTGATCAAGGCCAAGCCGGCCACATCGAAGGGCACCTACCTGCAGAAGGTTTCGGTCAGCTCGACGATGGGCCCGGGCGTCACCGTCGACCAGTCGTCGCTGACCCTGAAGTAA	MAQTKREKAIKAAVVPGKSYGFEEAIQILKSATKAKFVESIDVAVRLGVDAKKSDQQVRGSTVLPAGTGKSVRVAVFAPAGAKADEALAAGAEAVGMDDLAEKMQAGDLNYDVVIATPDAMRVVGKLGTVLGPRGLMPNPKVGTVSPNPGEAVKNAKSGQVRYRTDKAGIIHCTIGKASFDDASLKSNLTALLLDLIKAKPATSKGTYLQKVSVSSTMGPGVTVDQSSLTLK				NA	NA	NA	NA	NA
BMS020_03845	534	rplJ_1	COG0244	50S ribosomal protein L10	ATGGCTCTCAATCTGTCCCAGAAGCAAGAAGTCGTCGCCGAACTGGCAGACGTCGCCGCCAAGGCCCACTCCTTGATCGCAGCCGAATACGCTGGCACCACGGTCGCTCAGATGACCGCGATGCGTAAGCAGGCCCGCGAGACCGGTGTGTTCTTGAAAGTTGTCAAGAACACCCTGGCTTCGCGTGCCGTTGAAGGCACCGAGTTCGCATGCGCGCAGGACAAGATGGTTGGTCCGCTGCTGTATGCGTTCTCGCTTGAGGAGCCCGGCGCCGCCGGTCGCCTGATCAAGGACGCTGCCAAGGGCAACGACAAGCTGCAGGCGAAAATCGTGGCAATCGGCGGGGAAGTGTTCCCGGCCAGCCACGTGGAAGTGCTGGCGTCGCTGCCGACCCGTGATCAGGCCCTGGCCATGCTGGCCCGCGTCCTGTCCGAGCCGGCTGCCATGTTCGCGCGTGCCGTCAAGGCCGTGGCCGACAAGCAGGGTGGTGGCGAAGAAGCCCCCGCTGCCGAGCCGGCTGCCGAAACCGCCTAA	MALNLSQKQEVVAELADVAAKAHSLIAAEYAGTTVAQMTAMRKQARETGVFLKVVKNTLASRAVEGTEFACAQDKMVGPLLYAFSLEEPGAAGRLIKDAAKGNDKLQAKIVAIGGEVFPASHVEVLASLPTRDQALAMLARVLSEPAAMFARAVKAVADKQGGGEEAPAAEPAAETA				NA	NA	NA	NA	NA
BMS020_03846	369	rplL	COG0222	50S ribosomal protein L7/L12	ATGTCCCTTACCAACGAGCAGATCGTCGACGCCATCGCCGAGAAGTCCCTGATGGAAGTGATGGAGCTGGTCAAGGCCATCGAAGAGAAGTTCGGCGTTTCCGCCGCCGCTCCGGTCATGGCTGCTGGCCCGGCCGTCGCTGCCGCCGCCGTCGAAGAGCAGACCGAGTTCAACGTCGTGCTGATCGACGCCGGCGCCAAGAAGGTCGACGTCATCAAGGCTGTCCGCGCCATCACCGGCCTGGGCCTGAAGGAAGCCAAGGACCTCACCGAGGCCGGTGGCGTGCTGAAGGAAGCCGTCTCGAAGGACGACGCTGCCAAGATGAAGGCCGACCTCGAAGCCGCTGGCGCCAAGGTCGAAGTCAAGTAA	MSLTNEQIVDAIAEKSLMEVMELVKAIEEKFGVSAAAPVMAAGPAVAAAAVEEQTEFNVVLIDAGAKKVDVIKAVRAITGLGLKEAKDLTEAGGVLKEAVSKDDAAKMKADLEAAGAKVEVK				NA	NA	NA	NA	NA
BMS020_03847	4188	rpoB_1		DNA-directed RNA polymerase subunit beta	ATGACGTCCTATTCGTTCACCGAAAAGAAGCGTATCCGCAAGGACTTCGGCAAGCAGCGCTCGATCCTCGAAGTGCCGTTCCTGCTGGCGATCCAGGTGGATTCCTATCGCGAGTTTCTGCAGGAAAACATTGATCCGGCCAAACGCAAGGATCTCGGCCTGCACGCCGCACTGAAATCGGTGTTCCCGATCTCCAGCTACAGCGGCAACGCCGCGCTGGAATACGTCGGCTACAAGCTGGGCGACCCGGTGTTCGATGAGCGCGAATGCCGCCAGCGCGGCATGAGCTACGGCGCGCCGCTGCGCGTGACCGTGCGCCTGGTGATCTACGACCGCGAGTCGTCGACCAAGGCGATCAAGTACGTGAAGGAGCAGGAGGTCTACCTCGGCGAGATCCCGCTGATGACCGACAACGGCACGTTCATCGTGAACGGCACCGAGCGCGTCATCGTCTCGCAGCTGCACCGTTCGCCGGGCGTGTTCTTCGACCACGACCGTGGCAAGACCCACAGCTCGGGCAAGCTGCTGTACAGCGCCCGCATCATTCCTTACCGCGGCTCGTGGCTGGACTTCGAGTTCGACCCGAAGGACGCGCTGTTCACCCGTATCGACCGTCGCCGCAAGCTGCCGGTGTCGATCCTGCTGCGCGCGCTCGGCTACTCCAACGAGGAGATGCTGAACGAGTTCTTCGAGATCAACACGTTCCACATCAATCCGGACGAGGGCGTCCAGCTCGAGCTGGTGCCCGAGCGCCTGCGCGGCGAGACGCTGAACTTCGACCTGGCCGATGGCGACAAGGTCATCGTCGAGGCTGGCAAGCGCATCACCGCGCGCCACGTCAAGCAGCTTGAGGCCGCCGGCGTCGCCGCGCTGGCCGTGCCGGACGACTACCTGGTCGGCCGCATCCTCTCGCACGACGTGATCGACGCCTCGACCGGCGAACTGCTGGCCAACGCCAACGACGAGATCAGCGACGAGCAGCTGCAGAACTTCCGCAAGGCCGGCGTGGATTCGGTCGGCACCCTGTGGGTGAACGACCTGGACCGCGGTCCGTACCTGTCCAACACCCTGCGCATCGACCCGACCAAGACCCAGCTCGAAGCGCTGGTCGAGATCTACCGCATGATGCGTCCGGGCGAGCCGCCGACCAAGGACGCCGCGCAGAACCTGTTCCACAACCTGTTCTTCACCTTCGAGCGCTACGACCTGTCCACGGTCGGCCGCATGAAGTTCAACCGTCGTGTGGGCCGCAAGGAAACCACCGGCGAAGCCGTGCTGTACGACCAGAAGTACTTCGGCGAGCGTAATGACGACGAGGCCAAGCGCCTGGTCGCCACGCATGGGCAGAGCAGCGACATCCTCGACGTGATCAAGGTCCTGACCGAGATCCGCAACGGCCGCGGCGTGGTCGACGACATCGACCACCTGGGCAACCGGCGCGTGCGTTCGGTCGGCGAAATGGCCGAGAACGTGTTCCGCGTCGGCCTGGTCCGCGTCGAGCGCGCGGTCAAGGAGCGCCTGTCGATGGCCGAGTCTGAAGGCCTGACCCCGCAGGAACTGATCAACGCCAAGCCGGTGGCGGCCGCGATCAAGGAGTTCTTCGGCTCCTCGCAGCTGTCGCAGTTCATGGACCAGAACAACCCGCTGTCGGAAGTGACGCACAAGCGTCGCGTCTCGGCGCTGGGCCCGGGTGGCCTGACCCGCGAGCGTGCCGGCTTCGAAGTGCGCGACGTGCACCCGACCCATTACGGCCGCGTCTGCACCATCGAAACCCCGGAAGGCCCGAACATCGGCCTGATCAACTCGCTGGCGGTGTTCGCCCGCACCAACGCCTACGGTTTCCTCGAGACGCCGTACCGCAAGGTGCTGGACGGCAAGGTGACCGACGAGGTCGAGTACCTGTCGGCGATCGAAGAGAACGAGTACGTCATCGCGCAGGCCAATGCGCTGACCGACCAGCAGAGCCGCCTGACCGAGCAGTTCGTGCCGTGCCGCTTCCAGGGCGAATCGCTGCTGAAGCCGCCGCATGAAGTGCACTTCATGGACGTGTCGCCGATGCAGACCGTGTCGGTCGCGGCGGCGCTGGTGCCGTTCCTGGAGCACGACGACGCCAACCGCGCACTGATGGGCGCGAACATGCAGCGCCAGGCCGTGCCGACGCTGCGTGCGCAGAAGCCGCTGGTCGGTACCGGCATCGAGCGCGCCGTGGCGCGCGACTCGGGCGTGACCGTGAACGCGGTGCGTGGTGGCGTGATCGAGCAGATCGACGCGGCGCGCGTGGTGGTCAAGGTCAACGAGGACGAGATCGTCGGTGCCACCGACGCCGGCGTCGACATCTACAACCTGATCAAGTACACCCGTTCGAACCAGAACACCTGCATCAACCAGCGTCCGCTGGTGAACGTGGGCGACGTGATCGCGCGCGGCGACGTGCTGGCTGACGGCCCGTCGACCGACATCGGCGAGCTGGCCCTGGGCCAGAACATGCTGATCGCGTTCATGCCGTGGAACGGCTACAACTTCGAAGACTCCATCCTGCTCTCCGAGCGCGTGGTGGAAGAGGATCGCTACACCACGATCCACATCGAAGAGCTGACCTGCGTCGCGCGCGACACCAAGCTGGGGCCGGAGGAAATCTCCGCCGACATCCCGAACGTCTCCGAGCAGGCGCTGAACCGCCTCGACGAGTCGGGCGTGGTGTACATCGGTGCCGAAGTGCGCGCCGGCGACATCCTGGTCGGCAAGGTCACGCCGAAGGGCGAGAGCCAGCTGACCCCGGAAGAGAAGCTGCTGCGCGCGATCTTCGGCGAGAAGGCTTCGGACGTGAAGGACAGCTCGCTGCGCGTGCCGCCGGGCATGGACGGCACCGTCATCGACGTGCAGGTCTTCACCCGCGACGGCATCGAGAAGGACAAGCGCGCGCGCCAGATCGAGGAAAACGAGATCAAGCGCGTCAAGAAGGACTTCGACGACCAGTTCCGCATCCTGGAAGCGGCGATCTACGCGCGTCTGCGTTCGCAGATCGTCGGCAAGGTCGCCAACGGTGGTGCCGGCCTGAAGAAGGGCGACACGATCTCCGACGCCTACCTGGACGGTCTGAAGAAGTCCGACTGGTTCGCTATCCGCATGAAGGATGACGACGCCGCCGACGCGATCGAGCGCGCGCAGAAGCAGATCCAGGTCCACGAGAAGGAGTTCGAGGCCCGTTTCGCCGACAAGCGCGGCAAGATCACCCAGGGCGACGACCTTGCCCCGGGCGTGCTGAAGATGGTCAAGGTGTTCATGGCGGTGAAGCGCCGCATCCAGCCGGGCGACAAGATGGCAGGCCGCCACGGCAACAAGGGTGTGGTCTCCAACGTGGTGCCGGTCGAGGACATGCCGTACATGGCCGACGGTACCTCCGTCGACATCTGCCTCAACCCGCTGGGCGTGCCGTCGCGTATGAACATCGGCCAGATCCTCGAGGTGCACCTGGGCTGGGCCGCGAAGGGCCTGGGCAAGCGCATCCAGAAGATGCTGGAGCAGCAGCGCGCTGTGAGCGAGCTGCGCGAGTTCCTCGGCGAGATCTACAACCACGACACCAAGGCTGTGGGCGATCGCGTCGACCTGTCGCAGTTCAGCGACGAGGAGCTGCTGGGCCTGGCCAAGAACCTGACCGACGGCGTGCCGATGGCCACCCCGGTGTTCGACGGTGCGCATGAGGACGAGATCCGCCGCATGCTCAACCTAGCCTACCCGGACGGTGCCGCGGAAACCGAGCTGCTCGGCTTCAACGCCAGCAAGACCCAGATGCAGCTGCACGACGGCCGCACCGGCGAGGCGTTTGATCGCAAGACCACGGTCGGCTACATGCACTACCTGAAGCTGAACCACCTGGTCGACGACAAGATGCACGCGCGTTCGACCGGTCCGTACTCGCTCGTCACCCAGCAGCCGCTGGGCGGCAAGGCGCAGTTCGGCGGCCAGCGCTTCGGTGAGATGGAAGTCTGGGCGCTGGAAGCCTACGGCGCGGCCTACACCCTGCAGGAAATGCTGACGGTGAAGTCCGACGACGTGCAGGGCCGCAACCAGATGTACAAGAACATCGTCGACGGCGAGCACGAGATGGTCGCGGGCATGCCGGAATCCTTCAACGTGTTGGTGAAGGAAATCCGCTCCCTGGCCATCAACATGGAACTGGAAGACTGA	MTSYSFTEKKRIRKDFGKQRSILEVPFLLAIQVDSYREFLQENIDPAKRKDLGLHAALKSVFPISSYSGNAALEYVGYKLGDPVFDERECRQRGMSYGAPLRVTVRLVIYDRESSTKAIKYVKEQEVYLGEIPLMTDNGTFIVNGTERVIVSQLHRSPGVFFDHDRGKTHSSGKLLYSARIIPYRGSWLDFEFDPKDALFTRIDRRRKLPVSILLRALGYSNEEMLNEFFEINTFHINPDEGVQLELVPERLRGETLNFDLADGDKVIVEAGKRITARHVKQLEAAGVAALAVPDDYLVGRILSHDVIDASTGELLANANDEISDEQLQNFRKAGVDSVGTLWVNDLDRGPYLSNTLRIDPTKTQLEALVEIYRMMRPGEPPTKDAAQNLFHNLFFTFERYDLSTVGRMKFNRRVGRKETTGEAVLYDQKYFGERNDDEAKRLVATHGQSSDILDVIKVLTEIRNGRGVVDDIDHLGNRRVRSVGEMAENVFRVGLVRVERAVKERLSMAESEGLTPQELINAKPVAAAIKEFFGSSQLSQFMDQNNPLSEVTHKRRVSALGPGGLTRERAGFEVRDVHPTHYGRVCTIETPEGPNIGLINSLAVFARTNAYGFLETPYRKVLDGKVTDEVEYLSAIEENEYVIAQANALTDQQSRLTEQFVPCRFQGESLLKPPHEVHFMDVSPMQTVSVAAALVPFLEHDDANRALMGANMQRQAVPTLRAQKPLVGTGIERAVARDSGVTVNAVRGGVIEQIDAARVVVKVNEDEIVGATDAGVDIYNLIKYTRSNQNTCINQRPLVNVGDVIARGDVLADGPSTDIGELALGQNMLIAFMPWNGYNFEDSILLSERVVEEDRYTTIHIEELTCVARDTKLGPEEISADIPNVSEQALNRLDESGVVYIGAEVRAGDILVGKVTPKGESQLTPEEKLLRAIFGEKASDVKDSSLRVPPGMDGTVIDVQVFTRDGIEKDKRARQIEENEIKRVKKDFDDQFRILEAAIYARLRSQIVGKVANGGAGLKKGDTISDAYLDGLKKSDWFAIRMKDDDAADAIERAQKQIQVHEKEFEARFADKRGKITQGDDLAPGVLKMVKVFMAVKRRIQPGDKMAGRHGNKGVVSNVVPVEDMPYMADGTSVDICLNPLGVPSRMNIGQILEVHLGWAAKGLGKRIQKMLEQQRAVSELREFLGEIYNHDTKAVGDRVDLSQFSDEELLGLAKNLTDGVPMATPVFDGAHEDEIRRMLNLAYPDGAAETELLGFNASKTQMQLHDGRTGEAFDRKTTVGYMHYLKLNHLVDDKMHARSTGPYSLVTQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQEMLTVKSDDVQGRNQMYKNIVDGEHEMVAGMPESFNVLVKEIRSLAINMELED				NA	NA	NA	NA	NA
BMS020_03848	4221	rpoC_1		DNA-directed RNA polymerase subunit beta'	ATGAAAGACCTGCTCAACCTCTTCAACCAGCAGCGCCAGACGCTGGACTTCGACGCGATCAAGATCGGTCTGGCTTCGCCGGACCTGATCCGTTCGTGGTCGTTCGGCGAAGTGAAGAAGCCCGAGACCATCAACTACCGCACCTTCAAGCCGGAGCGTGACGGCCTGTTCTGCGCCGCGATCTTCGGCCCGATCAAGGACTACGAGTGCCTGTGCGGCAAGTACAAGCGCATGAAGCACCGCGGTGTGGTCTGCGAGAAGTGCGGCACCGAAGTGACGCTGGCCAAGGTGCGCCGCGAGCGCATGGGCCACATCGACCTGGCCTCGCCGGTCGCGCACATCTGGTTCCTCAAGTCGCTGCCGTCGCGTATCGGCCTGATGCTGGACATGACCCTGCGCGACATCGAGCGCGTGCTGTACTTCGAAGCCTACGTGGTGACCGAGCCGGGCCTGACCGCGCTTGAGCGCCGCCAGCTGCTCAACGAAGAGCAGTACCTGACCGCGCGCCAGGAACACGGCGACGACTTCGACGCCGCGATGGGTGCCGAGGCCGTGTACGAGCTGCTGCGCACGATCGACCTGCAGTCGGAAATGACCCGCCTGCGCGAAGAGATCGCCGCGACCGGTTCGGAGACCAAGCTCAAGCGTCTGACCAAGCGCATCAAGCTGATCGAGGCGTTCATCGAGTCCGGCAACCGTCCGGAGTGGATGGTCATGACCGTGCTGCCGGTGCTGCCGCCGGACCTGCGTCCGCTGGTTCCGCTGGACGGCGGCCGCTTCGCGACCTCCGATCTGAACGATCTGTACCGTCGCGTCATCAACCGCAACAACCGTCTGCGCCGCCTGCTGGAGCTCAACGCTCCGGACATCATCGTGCGCAACGAAAAGCGCATGCTGCAGGAATCGGTCGACGCGCTGCTGGACAACGGCCGTCGTGGCCGTGCCATCACCGGCACCAACAAGCGCCCGCTGAAGTCGCTGGCCGACATGATCAAGGGCAAGCAGGGCCGGTTCCGCCAGAACCTGCTCGGCAAGCGCGTTGACTACTCCGGCCGTTCGGTCATCACCGTCGGTCCGTACCTGAAGCTGCACCAGTGCGGCCTGCCGAAGAAGATGGCGCTGGAGCTGTTCAAGCCGTTCGTGTTCGCCAAGCTGCAGCGTCGCGGCCTGGCCACCACGATCAAGGCCGCCAAGAAGCTGGTCGAGCGCGAAGAAGGCGACGTCTGGGACATCCTGGAAGAAGTCATCCGCGAGCATCCGGTGCTGCTGAACCGTGCGCCGACGCTGCATCGCCTGGGCATCCAGGCGTTCGAGCCGGTGCTGATCGAGGGCAAGGCGATCCAGCTGCACCCGCTGGTCTGCACCGCGTTCAACGCCGACTTCGACGGTGACCAGATGGCCGTCCACGTGCCGCTTTCGCTGGAAGCCCAGCTGGAAGCGCGTGCGCTGATGATGTCCACCAACAACATCCTGTCGCCGGCCAACGGCGAGCCGATCATCGTGCCGTCGCAGGACGTGGTGTTGGGCCTGTACTACATGAGCCGCGCCCTGGAGAACAAGAAGGGCGAGGGCATGGTGTTCGCCAGCACCGACGAGGTGAAGCGCGCCTACGACAACCGCGTCGTCGAGCTGCACGCCAAGGTCAAGGTCCGCATCACGCAGACCGAGATCGATGCCGACGGCGGCCGCACCAAGAAGACCTCGATCGTGGACACCACGGTCGGTCGCGCCCTGCTGAGCGAGATCCTGCCGGAAGGCTTCCCGTTCGAGCTGGCCAACACCGAGATGAGCAAGAAGAACATCTCGCGCCTGATCAACTCCAGCTACCGTCTGCTTGGCCTGAAGGACACCGTGGTGTTCGCCGACAAGCTGATGTACACCGGTTACGCCTACGCGACCCGCGCCGGCGTGTCGATCGGCATCGACGACATGCTGATCCCGGACGAGAAGAAGGACATCCTGGGCGAAGCCGAGCAGGAAGTGCTGGAAATCCAGGAGCAGTACCAGTCGGGTCTGGTCACCGCCGGCGAGCGCTACAACAAGGTGGTCGACATCTGGTCGCGCACCAACGAGCGCATCGCCAAGGCGATGATGGACACCATCGGCACCGAGAAGGTGGTCAACGCCAAGGGCGAGACCATTGACCAGAAGTCGATGAACTCGCTGTACATCATGGCCGACTCCGGTGCGCGTGGTAGTCAGGCGCAGATCCGTCAGCTGGCCGGTATGCGTGGCCTGATGGCCCGCCCGGACGGCTCGATCATCGAGACCCCGATTAAGGCGAACTTCCGCGAAGGCCTGAACGTGCAGGAGTACTTCAACTCCACCCACGGTGCCCGTAAGGGTCTGGCCGATACCGCGCTGAAGACCGCCAACTCGGGTTACCTGACCCGTCGTCTGGTCGACGTGGCGCAGGACGTGGTGATCACCGAGGTCGACTGCGGTACCACCGAAGGCCTGACCATGATCCCGATCGTGGAAGGCGGCGACGTGGTCGAGCCGCTGAAGGACCGCGTGCTGGGCCGCGTCGTGGCCGAGGACGTGTTCCTGCCGGGCAACGACGAGGAGCCGATCGTCACCCGCAACACCCTGCTCGACGAGCAGTGGGTGGCCAAGCTGGAAGAAGCCGGCGTGCAGACCATCAAGGTCCGCTCGACGATCACCTGTGCGTCCTCGTTCGGCGTCTGCGGCCACTGCTATGGCCGTGACCTGGCGCGTGGCCACCTGGTCAACATCGGCGAAGCGGTTGGCGTCATCGCCGCGCAGTCGATCGGTGAGCCGGGTACCCAGCTGACGATGCGTACGTTCCACATCGGTGGTGCTGCGTCGCGTGCGGCTGCGGTCGACAACATCACCGTCAAGACCACCGGTTCGGTGAAGTTCAACAACCTGAAGTCGGTCGAGCACGCCAACGGCACGCTGGTTGCGGTGTCGCGTTCGGGCGAAATCTCGGTGCTCGACGGCCACGGCCGCGAGCGCGAGCGCTACAAGCTGCCGTACGGTGCGACCGTCAACGTCAAGGACGCGGCCGAGATCAAGGCTGGCCAGACCGTGGCCAACTGGGATCCGCATAACCACCCGATCGTGTCGGAAGTGGCCGGTTTCGTCCGCTTCGTCGACTTCGTCGACGGCATCACCGTCATCGAGAAGACCGACGAACTGACCGGCCTGGCCTCGCGCGAGATCACCGATCCGAAGCGTCGTGGTTCGCAGGGCAAGGACCTGCGTCCGCTGGTGCGCATCGTCGACAAGGCCGGCAACGACCTGTCGATCCCGGGCACCGACCTGCCGGCGCAGTACCTGCTGCCGCCGCGCTCGGTGGTGAACCTGCAGGATGGCGCGCCGGTGGGCGTGGGCGACGTGGTTGCCAAGATCCCGCAGGAAGCGTCCAAGACCCGCGACATCACCGGTGGTCTGCCGCGCGTGGCCGACCTGTTCGAAGCGCGCAAGCCGAAGGATCCGGCGGTGCTGGCCGAGCGTTCGGGCATCATCAGCTTCGGCAAGGACACCAAGGGCAAGCAGCGCCTGATCATCAAGGACACCGACGGGACCGAGCACGAAGAGCTGATCCCGAAGTATCGCCAGATCATCGTGTTCGAAGGCGAGCACGTGACCAAGGGCGAGACCGTGGTGGACGGCGAGCCGAGCCCGCAGGACATCCTGCGCCTGCTGGGTGTCGAGCCGCTGGCTGCCTACCTGGTCAAGGAAATCCAGGACGTGTACCGCCTGCAGGGCGTGAAGATCAACGACAAGCACATCGAGGTGATCACCCGCCAGATGCTGCGCAAAGTCGAGATCACCGACCAGGGCAACAGCAAGTTCCTCAACGGCGAGCAGGTCGAGCGTCAGCGCCTCATCGAGGAGAACGCCCGTCTGGTCGCGCGCCAGGAGCTGCCGGCGCAGTTCGATCCGGTGCTGCTGGGCATCACCAAGGCTTCGCTGGCGACCGAGTCGTTCATTTCGGCGGCGTCGTTCCAGGAGACCACCCGCGTCCTCACCGAGGCGGCGGTGCGTGGCACCAGCGACAACCTGCGCGGCCTGAAGGAAAACGTCATCGTCGGCCGCCTGATCCCGGCCGGTACCGGTCTGGCGTACCACAGCCAGCGCCGTCGTGGCGCCTCGGGCCTGACCGAGTCGGAGATGGAGACCCTGGCGGGTTCTGCTCCGGCCGCGGTCGAGCCGGTCGCCGAAGTCAGCGACGCGGCTGCCGACGAGGAGTGA	MKDLLNLFNQQRQTLDFDAIKIGLASPDLIRSWSFGEVKKPETINYRTFKPERDGLFCAAIFGPIKDYECLCGKYKRMKHRGVVCEKCGTEVTLAKVRRERMGHIDLASPVAHIWFLKSLPSRIGLMLDMTLRDIERVLYFEAYVVTEPGLTALERRQLLNEEQYLTARQEHGDDFDAAMGAEAVYELLRTIDLQSEMTRLREEIAATGSETKLKRLTKRIKLIEAFIESGNRPEWMVMTVLPVLPPDLRPLVPLDGGRFATSDLNDLYRRVINRNNRLRRLLELNAPDIIVRNEKRMLQESVDALLDNGRRGRAITGTNKRPLKSLADMIKGKQGRFRQNLLGKRVDYSGRSVITVGPYLKLHQCGLPKKMALELFKPFVFAKLQRRGLATTIKAAKKLVEREEGDVWDILEEVIREHPVLLNRAPTLHRLGIQAFEPVLIEGKAIQLHPLVCTAFNADFDGDQMAVHVPLSLEAQLEARALMMSTNNILSPANGEPIIVPSQDVVLGLYYMSRALENKKGEGMVFASTDEVKRAYDNRVVELHAKVKVRITQTEIDADGGRTKKTSIVDTTVGRALLSEILPEGFPFELANTEMSKKNISRLINSSYRLLGLKDTVVFADKLMYTGYAYATRAGVSIGIDDMLIPDEKKDILGEAEQEVLEIQEQYQSGLVTAGERYNKVVDIWSRTNERIAKAMMDTIGTEKVVNAKGETIDQKSMNSLYIMADSGARGSQAQIRQLAGMRGLMARPDGSIIETPIKANFREGLNVQEYFNSTHGARKGLADTALKTANSGYLTRRLVDVAQDVVITEVDCGTTEGLTMIPIVEGGDVVEPLKDRVLGRVVAEDVFLPGNDEEPIVTRNTLLDEQWVAKLEEAGVQTIKVRSTITCASSFGVCGHCYGRDLARGHLVNIGEAVGVIAAQSIGEPGTQLTMRTFHIGGAASRAAAVDNITVKTTGSVKFNNLKSVEHANGTLVAVSRSGEISVLDGHGRERERYKLPYGATVNVKDAAEIKAGQTVANWDPHNHPIVSEVAGFVRFVDFVDGITVIEKTDELTGLASREITDPKRRGSQGKDLRPLVRIVDKAGNDLSIPGTDLPAQYLLPPRSVVNLQDGAPVGVGDVVAKIPQEASKTRDITGGLPRVADLFEARKPKDPAVLAERSGIISFGKDTKGKQRLIIKDTDGTEHEELIPKYRQIIVFEGEHVTKGETVVDGEPSPQDILRLLGVEPLAAYLVKEIQDVYRLQGVKINDKHIEVITRQMLRKVEITDQGNSKFLNGEQVERQRLIEENARLVARQELPAQFDPVLLGITKASLATESFISAASFQETTRVLTEAAVRGTSDNLRGLKENVIVGRLIPAGTGLAYHSQRRRGASGLTESEMETLAGSAPAAVEPVAEVSDAAADEE				NA	NA	NA	NA	NA
BMS020_03849	375	rpsL_2	COG0048	30S ribosomal protein S12	ATGGCGACGATCAATCAGCTGGTCCGCAAGCCTCGGCAGGCGACCACCTACAAGAGTGCTTCCCCGGCGCTGGACAAGTGTCCGCAGCGTCGTGGTGTTTGCACCCGCGTTTACACCACCACCCCGAAGAAGCCGAACTCGGCCCTCCGTAAGGTTGCGAAGGTTCGCCTGACCAACCAGGAAGAGGTCATCAGCTACATCGGCGGCGAAGGCCACAACCTGCAGGAGCACTCCGTGGTCCTGATCCGTGGTGGCCGCGTCAAGGACCTCCCGGGTGTGCGTTACCACACCGTCCGTGGCTCGCTGGACGCCGCCGGCGTTGCCAAGCGCCGCCAGGCCCGTTCCAAGTACGGCGCCAAGCGCCCGAAGAGCTAA	MATINQLVRKPRQATTYKSASPALDKCPQRRGVCTRVYTTTPKKPNSALRKVAKVRLTNQEEVISYIGGEGHNLQEHSVVLIRGGRVKDLPGVRYHTVRGSLDAAGVAKRRQARSKYGAKRPKS				NA	NA	NA	NA	NA
BMS020_03850	468	rpsG_2	COG0049	30S ribosomal protein S7	ATGTCTCGTAAAGGTTCTACTCCGCAGCGCACCGTCCTGCCTGATCCCAAGCATGGCAGCGAAACCATTGCCCGCTTCATCAATATGGTGATGCAGAGTGGCAAGAAGTCGGTTGCAGAGAAAATCGTGTATGGCGCAATGGACGTCATCGGCGAAAAGAATCCGAATGCCGTAGAGCTGGTGCAGAAGGCGCTGGATAACGTGGCCCCCTCGGTTGAGGTGAAGTCGCGTCGCGTCGGTGGTGCCACCTACCAGGTGCCGGTCGAAGTGCGCGCATCGCGCAAGATGGCCCTGGCCATGCGTTGGTTGATCGATTCCGCCCGCAAGCGCGGCGAGAACTCGATGCCGCGCAAGCTGGCCGCCGAACTGCTGGACGCCTCGGAAAACCGTGGCGGCGCCATCAAGAAGCGTGAAGAAACCCACCGTATGGCGGAAGCGAACAAGGCGTTCGCCCACTACCGCTGGTGA	MSRKGSTPQRTVLPDPKHGSETIARFINMVMQSGKKSVAEKIVYGAMDVIGEKNPNAVELVQKALDNVAPSVEVKSRRVGGATYQVPVEVRASRKMALAMRWLIDSARKRGENSMPRKLAAELLDASENRGGAIKKREETHRMAEANKAFAHYRW	PGPT0026715_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026715-ndhB-K05573	NA	NA
BMS020_03851	2124	fusA_3	COG0480	Elongation factor G	GTGGCCCGTACCACTCCCATCGAGCGTTACCGCAACTTCGGCATCATGGCTCACATCGATGCCGGCAAGACCACCACGTCCGAGCGCATCCTGTTCTACACCGGCGTCAGTCACAAGATCGGCGAAGTCCATGACGGCGCCGCGGTGATGGACTGGATGGAGCAGGAGCAGGAGCGTGGCATCACGATCCAGTCCGCCGCGACCACCGCGTTCTGGAAGGGCATGGACAAGTCGATGGAGGAGCACCGCTTCAACATCATCGACACCCCCGGGCACGTCGACTTCACCATCGAAGTGGAGCGCTCGCTGCGCGTGCTCGACGGCGCCGTGTTTGTGCTGTGCGCGGTCGGCGGCGTCCAGCCGCAGTCCGAGACCGTGTGGCGCCAGGCCAACAAGTACCACGTGCCGCGCATCGCGTTCGTCAACAAGATGGACCGCACCGGCGCCAACTTCGAGAAGGTCCGTGACCAGCTGAAGGCCCGCCTTGGTGCGGTTGCCGTGCCGATGCAGGTGCCGATCGGCGCCGAAGACGGCTTCGAGGGCGTGGTCGACCTGCTGAAGATGAAGGCGATCCACTGGGATGCCGCCAACCAGGGCACCACCTTCGAGTACCGCGACATTCCGGCCGACCTGGTCCAGAAGGCGACCGAGGCGCGTGCGTTCATGGTCGAGACCGCGGCTGAGGCCAGCGAAGAGCTGATGGACAAGTACCTCGGCGGCGAAGAGCTGAGCGAGGCCGAGATCATCGAAGCGCTGCGCGTGCGTACGCTGGCGGTCGAGATCGTCCCGATGTTCTGTGGCTCGGCGTTCAAGAACAAGGGTGTGCAGGCCATGCTCGACGGCGTCGTGCGCCTGCTGCCGTCGCCGGTCGACGTGCCGGCGGTGAAGGGTACCGACGTGGACGACGAGTCCAAGCAGATCACCCGCGAGTCGGACGACAAGGCGCCGTTCTCTTCGCTGGCGTTCAAGATCATCACCGATCCGTTCGTCGGCGCGCTGACCTTCTTCCGCGTCTACTCGGGCGTGCTCAATGCCGGCGACCAGGTGCTGAACTCGGTCAAGGGCAAGAAGGAGCGCATCGGCCGCCTGCTGCAGATGCACTCCAACGATCGCACCGAGATCAAGGAAGTGCGCGCGGGCGACATCGCCGCGGCGGTGGGTCTGAAGGACGTCACCACTGGCGACACGATGTGCTCGCTGGATCACCCGATCATCCTCGAGCGCATGACGTTCCCGGAGCCGGTGATCTCGATGGCCGTCGAGCCGAAGACCAAGTCGGACCAGGAAAAGATGGGCATGGCCCTCGGCCGTCTGGCCCAGGAAGATCCCTCGTTCCGCGTCAAGACCGACGAAGAGTCGGGCCAGACCATCATCTCGGGCATGGGCGAGCTGCACCTCGACATCATCGTCGACCGCATGAAGCGCGAGTTCAACGTCGAAGCCAACGTCGGCAAGCCGCAGGTGGCTTACCGCGAGACGATCCAGGCCTCGGACGTGAAGTCGGACTACAAGCACGCCAAGCAGTCGGGTGGTAAGGGTCAGTACGGCCACGTCGTGATCGAGCTGTCGCCGGCGTCGGACGAAGACAAGGCCAACAAGGACTACAAGGACGACTTCCTGTTCGTCAACGACATCACCGGTGGCGTGATTCCGAAGGAATTCATCCCGTCGGTCGAGAAGGGCCTGCGCGAAACCATCACCAGCGGTCCGCTGGCGGGCTTCCCGGTCGTGGGCGTCAAGGTCAAGCTGGTGTTCGGCTCGTACCATGACGTCGACTCGTCGGAAATGGCGTTCAAGCTGGCCGCCTCGATGGCGTTCAAGCAGGGCTTCGCCAAGGCCAAGCCGGTGCTGCTCGAGCCGATCATGAAGGTCGAGATCGTGACCCCGGAGGATTACCTGGGTGACGTGATGGGCGACGTGAGCCGTCGTCGCGGCGTGCTGCAGGGTTCGGACGAAACCCCGTCGGGCAAGATCATCAACGCGATGATCCCGCTGGGTGAAATGTTCGGCTACGCCACCTCGCTGCGTTCGCAGACCCAGGGTCGCGCGACGTTCACGATGGAGTTCGACCACTACGAGCCGGCGCCGAGCAACATCGCCGACACCGTGGTCAAGAAGGCCTAA	MARTTPIERYRNFGIMAHIDAGKTTTSERILFYTGVSHKIGEVHDGAAVMDWMEQEQERGITIQSAATTAFWKGMDKSMEEHRFNIIDTPGHVDFTIEVERSLRVLDGAVFVLCAVGGVQPQSETVWRQANKYHVPRIAFVNKMDRTGANFEKVRDQLKARLGAVAVPMQVPIGAEDGFEGVVDLLKMKAIHWDAANQGTTFEYRDIPADLVQKATEARAFMVETAAEASEELMDKYLGGEELSEAEIIEALRVRTLAVEIVPMFCGSAFKNKGVQAMLDGVVRLLPSPVDVPAVKGTDVDDESKQITRESDDKAPFSSLAFKIITDPFVGALTFFRVYSGVLNAGDQVLNSVKGKKERIGRLLQMHSNDRTEIKEVRAGDIAAAVGLKDVTTGDTMCSLDHPIILERMTFPEPVISMAVEPKTKSDQEKMGMALGRLAQEDPSFRVKTDEESGQTIISGMGELHLDIIVDRMKREFNVEANVGKPQVAYRETIQASDVKSDYKHAKQSGGKGQYGHVVIELSPASDEDKANKDYKDDFLFVNDITGGVIPKEFIPSVEKGLRETITSGPLAGFPVVGVKVKLVFGSYHDVDSSEMAFKLAASMAFKQGFAKAKPVLLEPIMKVEIVTPEDYLGDVMGDVSRRRGVLQGSDETPSGKIINAMIPLGEMFGYATSLRSQTQGRATFTMEFDHYEPAPSNIADTVVKKA				NA	NA	NA	NA	NA
BMS020_03852	1191	tufA_2	COG0050	Elongation factor Tu	ATGTCCAAGGGTAAGTTCGAACGTACCAAGCCGCACGTCAACGTCGGCACCATCGGCCACGTCGACCATGGCAAGACCACGCTGACCGCCGCGCTGACCAAGATCGGCGCCGAGCGTTTCGGCGGCGAGTTCAAGGCGTACGACGCGATCGACGCAGCGCCGGAAGAGAAGGCGCGCGGCATCACGATCTCGACCGCGCACGTCGAGTACGAATCCCCGACCCGTCACTACGCCCACGTTGACTGCCCGGGCCACGCCGACTACGTCAAGAACATGATCACCGGTGCCGCGCAGATGGACGGCGCGATCCTGGTGTGCTCGGCCGCTGACGGCCCGATGCCGCAGACCCGCGAGCACATCCTGCTGTCGCGTCAGGTCGGCGTGCCGTACATCGTGGTGTTCCTGAACAAGGCCGACATGGTCGACGACGCCGAGCTGCTCGAGCTGGTCGAGATGGAAGTGCGTGAGCTGCTGAGCAAGTACGACTTCCCGGGCGACGACACCCCGATCATCCACGGTTCGGCCCGTCTGGCGCTGGAAGGCGACCAGAGCGACATCGGCGTGCCGGCGATCATCAAGCTGGTCGAGGCGCTGGACACCTGGATCCCGGAGCCGGAGCGTGCGATCGACAAGCCGTTCCTGATGCCGGTGGAAGACGTGTTCTCGATCTCGGGCCGCGGCACCGTGGTGACCGGTCGTATCGAGCGCGGCGTGATCAAGGTGGGCGAGGAAATCGAAATCGTCGGTATCCGTCCGACCGCCAAGACCACCGTGACCGGCGTGGAAATGTTCCGCAAGCTGCTGGATCAGGGCCAGGCGGGCGACAACGCGGGCCTGCTGCTGCGCGGCACCAAGCGTGATGAAGTCGAGCGCGGCCAGGTGCTGGCCAAGCCGGGTTCGATCACCCCGCACACCGAGTTCGAAGCCGAGGTGTACGTGCTGTCGAAGGACGAGGGCGGCCGCCACACCCCGTTCTTCAAGGGCTACCGTCCGCAGTTCTACTTCCGCACCACCGACATCACCGGTGCGATCCAGCTGCCGGAAGGCGTCGAGATGGTCATGCCGGGCGACAACATCAAGATGTCGGTCACGCTGATCAACCCGGTGGCCATGGACGACGGCCTGCGCTTCGCGATCCGCGAAGGTGGCCGTACCGTCGGCGCCGGCGTGGTCGCCAAGATCACCAAGTAA	MSKGKFERTKPHVNVGTIGHVDHGKTTLTAALTKIGAERFGGEFKAYDAIDAAPEEKARGITISTAHVEYESPTRHYAHVDCPGHADYVKNMITGAAQMDGAILVCSAADGPMPQTREHILLSRQVGVPYIVVFLNKADMVDDAELLELVEMEVRELLSKYDFPGDDTPIIHGSARLALEGDQSDIGVPAIIKLVEALDTWIPEPERAIDKPFLMPVEDVFSISGRGTVVTGRIERGVIKVGEEIEIVGIRPTAKTTVTGVEMFRKLLDQGQAGDNAGLLLRGTKRDEVERGQVLAKPGSITPHTEFEAEVYVLSKDEGGRHTPFFKGYRPQFYFRTTDITGAIQLPEGVEMVMPGDNIKMSVTLINPVAMDDGLRFAIREGGRTVGAGVVAKITK	PGPT0015245_2668	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358	NA	NA
BMS020_03853	312	rpsJ_1	COG0051	30S ribosomal protein S10	ATGGCGGACCAAAAGATCCGGATTCGGCTGAAGGCGTTCGATCATCGTCTGATCGACCGTTCGGCCAGTGAGATCGTTGAGACGGCCAAGCGGACCGGCGCGCAAGTGCGCGGCCCGATCCCGCTGCCGACCAAGATTGAACGTTACACCGTGCTCGTCTCCCCGCACGCCGACAAGGATGCGCGTGACCAGTACGAAACCCGCACGCACAAGCGTGTGCTCGATATCGTCGATCCCAACGACAAGACCGTGGACGCGCTGATGAAGCTCGAGCTCGCGGCTGGCGTCGACGTGCAGATCAAGTTGACCTGA	MADQKIRIRLKAFDHRLIDRSASEIVETAKRTGAQVRGPIPLPTKIERYTVLVSPHADKDARDQYETRTHKRVLDIVDPNDKTVDALMKLELAAGVDVQIKLT	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
BMS020_03854	651	rplC	COG0087	50S ribosomal protein L3	ATGACGAAGAAGTATTCGTTGGGCTTCGTGGGCCGCAAGGCCGGTATGAGCCGCGTCTTCATGGAAGACGGCCGCTCGGTGCCGGTCACCCTGATCGAAGCCACCCCGAACCGCATCGCGCAGATCAAGACCGTCGAAACCGACGGCTACAGCGCCGTGCAGGTGACCGTCGGCGCCCGTCGCGCCGCGCTGGTGAACAAGCCGGAAGCCGGCCACTTCGCTAAGGCGAAGGTGGAAGCTGGTCGCGGCCTGTGGGAATTCCGCGTCGAAGACGACAAGCTGGGTGAGTTCGCCGTTGGTGGCGAAGTCAAGGCTGACATCTTCGAAGTCGGCCAGATTGTTGACGTCCAGGGCGTCACCAAGGGTAAGGGCTTCCAGGGCACCATCAAGCGCCACAACTTCCGTATGGGTGATGCCACCCACGGTAACTCGCTGTCGCATCGCGCCCCCGGCTCGATTGGTCAGCGCCAGACCCCGGGTCGCGTTTTCCCGGGCAAGAAGATGTCGGGCCACATGGGTGCCGTGCAGCAGAGCACGCAGAACCTGGAAGTGGTCAAGGTCGACGTCGAGCGTGGTCTGATCGCGGTTCGCGGTGCCGTTCCCGGCGCGGCGGGTGGCGACGTGATCGTGCGTCCGGCCAGCAAGGCATAA	MTKKYSLGFVGRKAGMSRVFMEDGRSVPVTLIEATPNRIAQIKTVETDGYSAVQVTVGARRAALVNKPEAGHFAKAKVEAGRGLWEFRVEDDKLGEFAVGGEVKADIFEVGQIVDVQGVTKGKGFQGTIKRHNFRMGDATHGNSLSHRAPGSIGQRQTPGRVFPGKKMSGHMGAVQQSTQNLEVVKVDVERGLIAVRGAVPGAAGGDVIVRPASKA				NA	NA	NA	NA	NA
BMS020_03855	606	rplD_1	COG0088	50S ribosomal protein L4	ATGGAACTCGCCATCACCGGTAGCAACAACAAGGTCTCGGTCTCCGACGCCGTGTTCGGGCGCGAATTCAGCGAAGATCTGGTCCACCAGGTCGTCGTTGCCTATCGCAATGCCGGCCGCGCCGGCACCAAGGCCCAGAAGACCCGTTCGGAAGTGAACGGCACCACCAAGAAGTCGAAGAAGCAGAAGGGCGGCGGCGCGCGTCACGGCGCGCTGACGGCTCCGATCTTCGTCGGCGGCGGCGTGACCTTCGCGGCCAAGCCGCGCAGCTTCGCGCAGAAGGTGAACCGCAAGATGTACCGTGCGGCGATCTGCGCGATCTTCTCGGAGCTGAACCGCCAGGGTCGTCTGATGATCGTCGACGCGTTCGACGTCGAGGCCAGCAAGACCAAGGGCCTGATCGAGAAGCTGAAGGGTCTGGAAGTGGGCAAGCGTCCGCTGATCGTGACCGAAGAGGCTTCCGAGCACCTGTATCTGTCGGCCCGCAACCTGCCGTACGTCGAAGTGCGTGACGTGCAGGGTCTGGATCCGGTCGCTCTGGTCGGGGCCGACACGGTCGTGATCACCGCCGATGCGGTCAAGAAGGTCGAGGAGTGGCTGGCATGA	MELAITGSNNKVSVSDAVFGREFSEDLVHQVVVAYRNAGRAGTKAQKTRSEVNGTTKKSKKQKGGGARHGALTAPIFVGGGVTFAAKPRSFAQKVNRKMYRAAICAIFSELNRQGRLMIVDAFDVEASKTKGLIEKLKGLEVGKRPLIVTEEASEHLYLSARNLPYVEVRDVQGLDPVALVGADTVVITADAVKKVEEWLA				NA	NA	NA	NA	NA
BMS020_03856	300	rplW_1	COG0089	50S ribosomal protein L23	ATGAGCAGCAACGAAAAAATCTTCAGCGTGCTGCGCGCTCCGCGAGTCTCCGAAAAGACCGCGCGCCTGCAGGAAGTCTCCAACCAGTACGTCTTCGAAGTCTCGAACGATGCCACCAAGGCCGATGTGAAGGCCGCGGTTGAGCAGCTGTTCGACGTCAAGGTCGAGGCCGTCAACGTGGTCAACGTCAAGGGCAAGAACAAGTCCTTCCGTAACCGCGCTGGCCGTCGCGGCGATTGGCGCAAGGCGTATGTCCGCCTGGTCGATGGTCAGTCCATCGACGTCACGGCCAAGGCCTGA	MSSNEKIFSVLRAPRVSEKTARLQEVSNQYVFEVSNDATKADVKAAVEQLFDVKVEAVNVVNVKGKNKSFRNRAGRRGDWRKAYVRLVDGQSIDVTAKA				NA	NA	NA	NA	NA
BMS020_03857	828	rplB_1	COG0090	50S ribosomal protein L2	ATGCCATTGATGAAATTCAAGCCCACCTCCGCAGGCCGCCGTTCGGCCGTGCGCGTGGTCACGCCCGACCTGCACAAGGGTGCTCCGCACGCTGCGCTGGTTGAGTCGCAGAGCAAGTCCGGTGGTCGCAACCACCACGGCCGCATCACCACCCGTCACGTTGGTGGTGGCCACAAGCAGCACTACCGCCTGATCGACTTCAAGCGCAACAAGGAAGGTATCCCGGCGCGCGTGGAGCGGATCGAATACGATCCGAACCGCACCGCCCATATCGCCCTGCTGTGCTACGTCGACGGCGAGCGCCGCTACATCATCGCCCCGAAGGGCCTGAAGGCGGGTGACCAGGTCATCGCCGGCGCCAACGCGCCGATCAAGACCGGCAACACCCTGCCGCTGCGCAACATCCCGGTCGGCACCACGGTGCATTGCATCGAGCTGAAGCCGGGCAAGGGCGCCCAGATCGCCCGCGCTGCCGGTGCTGCCGTCCAGCTGGTCGCTCGCGAAGGCGTCTACGCCACGCTGCGCCTGCGTTCGGGTGAAATGCGCAAGGTTCCGGCCGAGTGCTGCGCCACCATCGGCGAAGTCGGCAACGACGAGCACAACCTGGAAAAGCTGGGCAAGGCTGGCGCCAAGCGCTGGCGCGGCGTCCGCCCGACCGTTCGTGGTGCTGCCATGAACCCGGTCGACCACCCGCACGGTGGTGGTGAGGCGAAGGCCGGTCAGGGTAATCCGCATCCGGTCACCCCGTGGGGTGTCCCGACCAAGGGTTACAAGACGCGCAAGAACAAGCGCACCCAGCAGTTCATCGTCCGCGATCGTAGGGGCTAA	MPLMKFKPTSAGRRSAVRVVTPDLHKGAPHAALVESQSKSGGRNHHGRITTRHVGGGHKQHYRLIDFKRNKEGIPARVERIEYDPNRTAHIALLCYVDGERRYIIAPKGLKAGDQVIAGANAPIKTGNTLPLRNIPVGTTVHCIELKPGKGAQIARAAGAAVQLVAREGVYATLRLRSGEMRKVPAECCATIGEVGNDEHNLEKLGKAGAKRWRGVRPTVRGAAMNPVDHPHGGGEAKAGQGNPHPVTPWGVPTKGYKTRKNKRTQQFIVRDRRG				NA	NA	NA	NA	NA
BMS020_03858	267	rpsS_1	COG0185	30S ribosomal protein S19	ATGGCACGTTCACTCAAGAAAGGCCCGTTCGTCGATCACCACCTCGTCAAGAAGGTGGAGGCCGCTGCGGGCAGCAAGAAGCCGATCAAGACCTGGTCGCGCCGCTCCATGATCCTGCCGGAAATGGTGGGTATCACCATCGCCGTGCACAACGGCAAGAACCACGTTCCGGTGCTCGTCAACGAGAACATGGTCGGCCACAAGCTCGGCGAGTTCGCCATCACCAGGACCTTCAAGGGTCATGGTGGCGACAAGAAGTCGAAGTAA	MARSLKKGPFVDHHLVKKVEAAAGSKKPIKTWSRRSMILPEMVGITIAVHNGKNHVPVLVNENMVGHKLGEFAITRTFKGHGGDKKSK				NA	NA	NA	NA	NA
BMS020_03859	336	rplV_1	COG0091	50S ribosomal protein L22	ATGGAAGCGAAAGCAATCCTGCGCACCGCGCGCATCTCCCCGCAGAAGGCCCGCCTGGTCGCTGACCAGGTGCGTGGGCTGTCCGCCGAGCGTGCGGTCAACCTGCTGAAGTTCTCGGACAAGAAGGCTGCCCACCTGATCAAGAAGGTGGTGGAGTCGGCGATCGCCAATGCCGAGAACAATCAGGGCGCCGATGTCGACGAGCTGAAGGTCAAGACCATCATGGTTGATGAGGGTCCGACCCTGAAGCGTTTCATGGCGCGGGCGAAAGGCCGCGGTACCCGCATCCTCAAGCGCACCAGCCACATCACTGTGGTTGTGGGCGCCGGCAAGTAA	MEAKAILRTARISPQKARLVADQVRGLSAERAVNLLKFSDKKAAHLIKKVVESAIANAENNQGADVDELKVKTIMVDEGPTLKRFMARAKGRGTRILKRTSHITVVVGAGK				NA	NA	NA	NA	NA
BMS020_03860	735	rpsC_1	COG0092	30S ribosomal protein S3	ATGGGTCATAAAGTTCATCCGATTGGAATCCGCCTGGGTATCGCCAAGGACTGGAACTCCAAGTGGTACGCCAACAAGGCCGAGTTCGCCAGCTACCTGGCTGCCGACCTCAAGGTCCGTGAAATGCTGCGCAAGAAGCTGGCGCAGGCGGGCATCAGCAAGATCCTGATCGAGCGTCCGGCCAAGACCGCGCGCGTGACGATCCACACCGCCCGCCCGGGCGTGGTGATCGGCAAGCGTGGTGAGGACATCGAGAAGCTGCGCAAGGAAGTGAGCGAAATGATGGGCGTCCCGGCGCACATCAACGTCTCCGAAGTGCGCAAGCCGGAGCTGGACGCGCAGCTGGTCGCCGAGTCGATCGCGCAGCAGCTGGAGCGTCGCATCATGTTCCGCCGCGCGATGAAGCGTGCGGTCGGCAATGCGATGCGCCTGGGTGCGCTGGGCATCAAGGTCAACGTCGCTGGCCGCCTCAACGGTGCGGAAATCGCCCGTTCGGAGTGGTACCGCGAAGGCCGCGTGCCGCTGCACACCCTGCGTGCCGACATCGACTACGGCTTCGCCGAGGCGTCGACCACCTACGGTGTGATCGGCATCAAGGTGTGGATCTACAAGGGCGAGGTCTTCGACTTCTCCCAGGTTGGCCAGGAGAAGCAGGACGACAGCCCGCGCAACGATCGCAATGATCGTGGCGACCGCGGCGACCGTCCGTCGCGCCCGGCTCGTGAAGCGAGGTAA	MGHKVHPIGIRLGIAKDWNSKWYANKAEFASYLAADLKVREMLRKKLAQAGISKILIERPAKTARVTIHTARPGVVIGKRGEDIEKLRKEVSEMMGVPAHINVSEVRKPELDAQLVAESIAQQLERRIMFRRAMKRAVGNAMRLGALGIKVNVAGRLNGAEIARSEWYREGRVPLHTLRADIDYGFAEASTTYGVIGIKVWIYKGEVFDFSQVGQEKQDDSPRNDRNDRGDRGDRPSRPAREAR				NA	NA	NA	NA	NA
BMS020_03861	414	rplP_1	COG0197	50S ribosomal protein L16	ATGTTGCAACCCAAGCGAACCAAATACCGCAAGATGCACAAGGGCCGTAACGAAGGCCTGAGCTGGAGTGCCAACGCTGTCAGCTTCGGCGAGTACGGCCTGAAGGCAACCGCGCACGGTCAGCTGACCGCGCGCCAGATCGAAGCGGCTCGCCGCTCGATCAGCCGCTACGTCAAGCGCGGCGGCAAGATGTGGATCCGTGTGTTCCCCGACAAGCCGATCACCCAGAAGCCGATCGAAGTCCGAATGGGCTCGGGTAAGGGTAACGTGGAGTACTGGGTCGCCCAGATCCAGCCGGGCCGCATGATCTATGAAATCGAGGGTGTTACCGAAGAAATCGCACGCGAGGCGTTCCGCCTGGCTGCCGCGAAGCTGTCGGTCACCACCACTTTCGTGACCCGGACGGTGCGCTGA	MLQPKRTKYRKMHKGRNEGLSWSANAVSFGEYGLKATAHGQLTARQIEAARRSISRYVKRGGKMWIRVFPDKPITQKPIEVRMGSGKGNVEYWVAQIQPGRMIYEIEGVTEEIAREAFRLAAAKLSVTTTFVTRTVR				NA	NA	NA	NA	NA
BMS020_03862	186	rpmC_1	COG0255	50S ribosomal protein L29	ATGGACATCAAACAACTCCGCGAGAAGTCGGCCGACGAGCTGAAGGCCCACCTGACCGACCTGCGTAAGGAGCAGTTCTCGCTCCGCATGCAGCAGGTCACCGGCCAGCTGCCGAAGACCCACGAAACCCGCCGGGTGCGCCGCGAGATCGCTCGCGTCAAGCACCTGCTCGGCAGCACCAAGTAA	MDIKQLREKSADELKAHLTDLRKEQFSLRMQQVTGQLPKTHETRRVRREIARVKHLLGSTK				NA	NA	NA	NA	NA
BMS020_03863	270	rpsQ_1	COG0186	30S ribosomal protein S17	ATGAGCGACAACACTGAAAAGAAGACGCTGCGCACGGTCGAAGGCCGTGTGGTCAGCAACAAGATGGACAAGACGGTTACCGTCCTGGTGGAGCGTCAGGTCAAGCACGCGCTGTACGGCAAGTACATCAAGCGCTCGACCAAGCTCCACGCCCATGACGCCGACAATTCCTGCAAGGAAGGCGACGTGGTGCGCGTGACCGAGATTGCGCCGCTGTCCAAGACCAAGAACTGGCGGGTGGTGGAAATCGTCACCCGCGCGGCTGAATAA	MSDNTEKKTLRTVEGRVVSNKMDKTVTVLVERQVKHALYGKYIKRSTKLHAHDADNSCKEGDVVRVTEIAPLSKTKNWRVVEIVTRAAE				NA	NA	NA	NA	NA
BMS020_03864	369	rplN_1	COG0093	50S ribosomal protein L14	ATGATCCAGATGCAGAGCTACCTCGACGTCGCCGACAATTCCGGTGCCAAGGAAGTGATGTGCATCAAGGTGCTCGGCGGCTCCAAGCGCCGCTACGCGCACATTGGCGACATCATCAAGGTCACCGTGAAGGACGCGATCCCGCGCGGCAAGGTCAAGAAGGGCGAGGTTTACGACGCCGTCGTGGTTCGCACCCGTAAGGGTGTGCGCCGTCCGGACGGTTCGCTGATCCGCTTCGACGGCAATGCCGCCGTCCTGCTGAACAACAAGCAGGAGCCGATCGGCACCCGTATCTTCGGGCCGGTGACCCGTGAACTGCGTTCCGAGAAGTTCATGAAGATCGTCTCGCTCGCTCCCGAAGTGCTGTGA	MIQMQSYLDVADNSGAKEVMCIKVLGGSKRRYAHIGDIIKVTVKDAIPRGKVKKGEVYDAVVVRTRKGVRRPDGSLIRFDGNAAVLLNNKQEPIGTRIFGPVTRELRSEKFMKIVSLAPEVL				NA	NA	NA	NA	NA
BMS020_03865	318	rplX_1	COG0198	50S ribosomal protein L24	ATGGCTAACCGTATCAAGAAGGGCGACCAGGTCGTCGTCAACACCGGCAAGGACAAGGGCAAGCAGGGCGAAGTCGTCCGCGTTGATGGCGATCGCGTGATCGTCTCCAACGTGAACATCGTCAAGCGCCACACCAAGCCGAACCCGCAGGCAGGCGTTGCCGGCGGCGTGGTCGAGCGTGAAGCTTCGATCCATATCTCCAACGTGAATGTCGTCAACCCGGCCACGGGCAAGGGCGAGCGCGTTGGCTTCAAGGTGCTGGAGGATGGACGCAAACTGCGTGTGTTCCGCTCCAGCGGTGAGGCGCTCGACGCCTGA	MANRIKKGDQVVVNTGKDKGKQGEVVRVDGDRVIVSNVNIVKRHTKPNPQAGVAGGVVEREASIHISNVNVVNPATGKGERVGFKVLEDGRKLRVFRSSGEALDA				NA	NA	NA	NA	NA
BMS020_03866	543	rplE_1	COG0094	50S ribosomal protein L5	ATGACTTCTCGTCTCGAAAAGATTTACAAGGAAGAAGTGGTGCCGGCCCTGATGAAGGAGTTCGGCTACACCAATCCGATGGAAGTGCCGAAGCTGGTCAAGATCACGCTGAACATGGGCGTGGGCGAAGCGGCTACCAACAAGAAGATCCTGGAAAACGCCGTCGGCGACATGGCCAAGATCTCCGGCCAGAAGCCGGTGGTCACCAAGTCGCGCGTGTCGGTGGCTTCGTTCAAGATCCGCGACGGTTGGCCGATCGGCTGCAAGACCACGCTGCGTCGCCACAAGATGTTCGAGTTCCTTGACCGCCTGATCACGATCTCGCTGCCGCGCGTTCGTGACTTCCGCGGCATCTCGGGTCGTTCGTTCGACGGTCGCGGCAACTTCAACATGGGTGTGAAGGAGCAGATCATCTTCCCGGAAATCGACTTCGACGCCGTCGACGCGATCCGTGGCATGGATATCGCCATCACCACCACCGCCAAGACCGACGCGGAAGCGAAGGCGCTGCTCGCAGCGTTCAAGTTCCCGTTCCGCAACTGA	MTSRLEKIYKEEVVPALMKEFGYTNPMEVPKLVKITLNMGVGEAATNKKILENAVGDMAKISGQKPVVTKSRVSVASFKIRDGWPIGCKTTLRRHKMFEFLDRLITISLPRVRDFRGISGRSFDGRGNFNMGVKEQIIFPEIDFDAVDAIRGMDIAITTTAKTDAEAKALLAAFKFPFRN				NA	NA	NA	NA	NA
BMS020_03867	306	rpsN_1	COG0199	30S ribosomal protein S14	ATGGCAAAGACCTCCATGGTCAACCGCGACATCAAGCGGGAAAAGCTGGCCAAGAAGTACGCCGACAAGCGTGCGGCGCTGAAGAAGATCATCTCCAGTCAGGATGCGTCCTACGACGAGAAGATCGACGCGGCGACCAAGCTGCAGAAGCTGCCGCGCGATTCGTCGCCGAGCCGCCAGCGCAACCGTTGTGAGCTGTCGGGCCGTCCGCGCGGTGTCTACCGCAAGTTCGGTCTGGGCCGCAACAAGCTGCGCGAAGCCACCATGCGTGGCGACGTGCCGGGCCTGCGCAAGGCCAGCTGGTAA	MAKTSMVNRDIKREKLAKKYADKRAALKKIISSQDASYDEKIDAATKLQKLPRDSSPSRQRNRCELSGRPRGVYRKFGLGRNKLREATMRGDVPGLRKASW				NA	NA	NA	NA	NA
BMS020_03868	399	rpsH_1	COG0096	30S ribosomal protein S8	ATGAGCATGACTGATCCCATCGCCGACCTGCTGGTCCGCATCAAGAATGCGGCCGCGGTTGGCAAGCAGACGGTGAAGCTGCCGTCGTCCAAGATCAAGGTGGCGATTGCCCAGGTCCTGAAGGACGAGGGTTACATCACCGACCTGCGCGTGACCCAGATCGAGAACAACAAGTCCGAGCTGGAAATCGTGCTGAAGTATTTCGAAGGCCGTCCGGTCATCGAGACCCTGAAGCGTGTTTCGCGCTCGGGTCTGCGTCAGTACCGCGGCAAGGCCGAGCTGCCGAAGGTCCTGGGTGGCCTCGGTGTCGCCATCATCTCCACGTCCAAGGGCATCATGACCGATGCGCAGGCCCGTCAGGCCGGCGTGGGTGGTGAAGTCCTGTGCTTCGTGGCCTAA	MSMTDPIADLLVRIKNAAAVGKQTVKLPSSKIKVAIAQVLKDEGYITDLRVTQIENNKSELEIVLKYFEGRPVIETLKRVSRSGLRQYRGKAELPKVLGGLGVAIISTSKGIMTDAQARQAGVGGEVLCFVA				NA	NA	NA	NA	NA
BMS020_03869	528	rplF_1	COG0097	50S ribosomal protein L6	ATGTCCCGTGTAGCCAAGAAGCCGGTCAATCTGCCGAAGGGCGTCGAGCTGAACGTGCAGCCGGAGCAGGTGAGCGTGAAGGGGCCGAAGGGCACCCTGTCGCTGGCCAAGCCGGTCGGCGTGCAGATCGCCATCGACAACGGCGTCGCCACGCTGTCTCCGTCGGATGATTCGCAGATCGCGATCACCGGCACCGTGCGCGCCATCCTCGCCAACATGGTGAAGGGCGTTTCCGAAGGCTTCGAGCGCAAGCTCGAGCTGGTGGGCGTCGGTTACCGCGCCGCGATGCAGGGCAAGGACCTGAGCCTGTCGCTGGGCTTCTCGCACCCGCTGGTGTTCGAAGCGCCGGAAGGCATCACCCTGTCGACGCCGACCCAGACCGAGATCCTGGTCGCTGGTGCCGACAAGCAGCGCGTCGGCGAAGTCGCCGCCAAGATCCGCGGTTTCCGTCCGCCGGAGCCCTACAAGGGCAAGGGTGTGAAGTACGCCGGTGAAGTCATCATTCGCAAGGAAGCCAAGAAGGCGTAA	MSRVAKKPVNLPKGVELNVQPEQVSVKGPKGTLSLAKPVGVQIAIDNGVATLSPSDDSQIAITGTVRAILANMVKGVSEGFERKLELVGVGYRAAMQGKDLSLSLGFSHPLVFEAPEGITLSTPTQTEILVAGADKQRVGEVAAKIRGFRPPEPYKGKGVKYAGEVIIRKEAKKA				NA	NA	NA	NA	NA
BMS020_03870	360	rplR	COG0256	50S ribosomal protein L18	ATGAGCACCAACAAGAACATCGCCCGCCTGCGCCGCGCCAAGTCGACCCGCGCCCACATCCGTGAGCTGGGTGTCGCCCGCCTGTCCGTGCTGCGCACCGGTCAGCACCTGTATGCGCAGGTGTTCACCGCCGATGGCTCCAAGGTCATCGCCGCCGCCAACACCCTGCAGGCCGACGTCAAGGACGGCCTGAAGAACGGCAAGAACAGCGACGCCGCCGCCAAGGTCGGCAAGCTGATCGCCGAGCGCGCCAAGGCTGCGGGTATCGAGAAGGTCGCGTTCGACCGCTCGGGCTACCGCTACCACGGTCGCATCAAGGCGCTGGCCGACGCTGCGCGCGAAGGCGGCCTGCAGTTCTAA	MSTNKNIARLRRAKSTRAHIRELGVARLSVLRTGQHLYAQVFTADGSKVIAAANTLQADVKDGLKNGKNSDAAAKVGKLIAERAKAAGIEKVAFDRSGYRYHGRIKALADAAREGGLQF				NA	NA	NA	NA	NA
BMS020_03871	543	rpsE_1	COG0098	30S ribosomal protein S5	ATGGCAGAAGAACGTGCTCCGCGCGGCCGCGATCGTGATCGCAACCGCGAAGAGAAGATCGACGACGGCATGATCGAAAAGCTGGTCGCGGTGAACCGCGTCAGCAAGACCGTCAAGGGTGGCCGCCAGTTCACCTTCACCGCGCTGACCGTGGTCGGCGACGGCGAGGGCAAGGTCGGTTTCGGTTACGGCAAGGCGCGCGAAGTGCCGGTCGCGATCCAGAAGTCGATGGAACAGGCTCGCAAGAACCTGGCCAGCGTCGACCTGAACAACGGCACCCTGTGGCACCCGCTGAAGTCGGGCCACGGCGCTGCGCGCGTGTTCATGCAGCCGGCGTCGGAAGGTACCGGCGTGATCGCCGGTGGCGCGATGCGTGCGGTGCTGGAAGCGGTGGGCGTGAAGAACGTGCTGGCCAAGGCCACCGGTTCGCGCAACCCGATCAACCTGGTGCGTGCCACCGTCAAGGGCCTGACCGAGATGCAGTCGCCGGCCCGCATTGCGGCCAAGCGCGGCAAGAAGGTGGAGGAACTCAACCATGGCTAA	MAEERAPRGRDRDRNREEKIDDGMIEKLVAVNRVSKTVKGGRQFTFTALTVVGDGEGKVGFGYGKAREVPVAIQKSMEQARKNLASVDLNNGTLWHPLKSGHGAARVFMQPASEGTGVIAGGAMRAVLEAVGVKNVLAKATGSRNPINLVRATVKGLTEMQSPARIAAKRGKKVEELNHG				NA	NA	NA	NA	NA
BMS020_03872	192	rpmD_1	COG1841	50S ribosomal protein L30	ATGGCTAATGAGTCCAACAAGACCGTCAAGGTGCGCCTGGTGCGCGGCCTGCGTGGTGCCCAGTCGCGTCACCGCCTGTCGGTGAAGGCCCTGGGCCTGAACAAGCTCAACGATGTGCGTGAACTGAAGGACAGCCCGCAGGTTCGCGGCCTGATCAACACCGTTCACTACCTCGTCAAGGTTGAGGAGTAA	MANESNKTVKVRLVRGLRGAQSRHRLSVKALGLNKLNDVRELKDSPQVRGLINTVHYLVKVEE				NA	NA	NA	NA	NA
BMS020_03873	444	rplO_1	COG0200	50S ribosomal protein L15	ATGACCATGCGTCTCAATGACCTGAGCCCGGCACCGGGCGCCCGTACCGAGCGCACCCGCGTCGGTCGCGGTATCGGTTCCGGCCTGGGCAAGACCGCTGGCCGCGGCCACAAGGGTTCGTTCGCCCGTAAGGGTGGCGGCAAGATCAAGGCTGGCTTCGAAGGCGGCCAGACCCCGATGCAGCGTCGTCTGCCGAAGATCGGCTTCCGCTCGAAGCTGGCCAAGGACACCGCTGAAGTGCTGTCGTACCAGCTGGACAAGCTGGAAGCCGGCGAGATCGACTTCGCCGCGCTGCGTGCGGCCAAGCTGGTCCCGTCGACCGCGAAGAAGGCCAAGATCGTCAAGAAGGGCGAACTCACCAAGAAGTTCGTGCTGAAGGGCGTGGCTGCCACCGCCGGTGCCAAGGCGGCGATCGAAGCTGCCGGCGGCAGCGTACAGGAGTAA	MTMRLNDLSPAPGARTERTRVGRGIGSGLGKTAGRGHKGSFARKGGGKIKAGFEGGQTPMQRRLPKIGFRSKLAKDTAEVLSYQLDKLEAGEIDFAALRAAKLVPSTAKKAKIVKKGELTKKFVLKGVAATAGAKAAIEAAGGSVQE				NA	NA	NA	NA	NA
BMS020_03874	1356	secY_1	COG0201	Protein translocase subunit SecY	ATGGCGCAGGCTGGCATCGGAAACCTCGGCGGCGGGCTCGGCAAGTTCACTGAACTTCGCCAGCGCCTGTTGTTCGTCCTCGGGGCATTGATCGTCTATCGCATCGGTTGCTATGTGCCGGTGCCGGGGGTCAATCCCGATGCCATGCTTTCGTTGATGCAGGCGCAGGGTGGCGGCATCGTGGACATGTTCAACATGTTCTCGGGCGGCGCCCTGCACCGTTTCAGCATCTTCGCGCTGAACGTGATGCCGTACATCTCGGCATCGATCGTGATCCAGCTGGCGACGCACATCTTCCCCTCGCTGAAGGCGATGCAGAAGGAAGGTGAATCCGGGCGCCGCAAGATCACCCAGTATTCGCGCATCGGCGCCGTGCTGCTGGCGGTGGTGCAGGGCGGCAGCATCGCGCTCGCACTGCAGAACCAGACCGCACCTGGCGGTGCGCCGGTGGTGTATGCGCCGGGCATGGGCTTCGTGCTCACCGCGGTGGTCGCGCTGACCGCCGGTACCATCTTCCTGATGTGGATCGGCGAGCAGGTGACCGAGCGCGGCATCGGCAACGGTGTGTCGCTGATCATCTTCGCTGGCATCGTGGCCGGCCTGCCGGCGGCGGCGATCCAGACCGTCGAGGCCTACCGCGACGGCAACATGAGCTTCATCACGCTGTTGTTGATCGTGCTGGTGATCCTGGCCTTCACCTACTTCGTGGTGTTCGTCGAGCGCGGGCAGCGCCGGATCACCGTCAACTACGCGCGCCGCCAGGGTGGTCGCAGCGCGTACATGAACCAGACATCGTTCCTGCCGTTGAAGCTGAACATGGCTGGCGTGATTCCGCCGATCTTCGCCTCGTCGATCCTGGCGTTCCCGGCGACGCTGTCGATGTGGTCCGGCCAGGCCGCCTCGGCCACCTGGCTGCAGAAAGTCGCCAACGCGCTGGGCCCGGGCGAGCCGGTGCACATGCTGGTGTTCGCGGCGCTGATCATCGGCTTCGCGTTCTTCTATACCGCGCTGGTGTTCAATTCGCAGGAAACCGCCGACAACCTGAAGAAGTCGGGTGCGCTGATCCCGGGCATCCGCCCCGGCAAGGCGACCGCCGACTACATCGATGGCGTGCTGACCCGCCTGACCGCCGCCGGCTCGCTGTACCTGGTGATCGTGTGCCTGCTGCCGGAGGTGATGCGGACCCAGCTGGGGACCTCGTTCCACTTCGGTGGCACCTCGCTGCTGATCGCGGTGGTGGTGATCATGGACTTCATTGCCCAGATCCAGGCCCACCTGATGTCGCACCAGTACGAGAGCCTGCTGAAGAAGGCGAACCTGAAGGGTGGCTCGCGCGGCGGATTCGCCCGCGGCTGA	MAQAGIGNLGGGLGKFTELRQRLLFVLGALIVYRIGCYVPVPGVNPDAMLSLMQAQGGGIVDMFNMFSGGALHRFSIFALNVMPYISASIVIQLATHIFPSLKAMQKEGESGRRKITQYSRIGAVLLAVVQGGSIALALQNQTAPGGAPVVYAPGMGFVLTAVVALTAGTIFLMWIGEQVTERGIGNGVSLIIFAGIVAGLPAAAIQTVEAYRDGNMSFITLLLIVLVILAFTYFVVFVERGQRRITVNYARRQGGRSAYMNQTSFLPLKLNMAGVIPPIFASSILAFPATLSMWSGQAASATWLQKVANALGPGEPVHMLVFAALIIGFAFFYTALVFNSQETADNLKKSGALIPGIRPGKATADYIDGVLTRLTAAGSLYLVIVCLLPEVMRTQLGTSFHFGGTSLLIAVVVIMDFIAQIQAHLMSHQYESLLKKANLKGGSRGGFARG	PGPT0025725_701	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025725-secY-K03076	NA	NA
BMS020_03875	357	rpsM	COG0099	30S ribosomal protein S13	ATGGCGCGTATTGCAGGCGTCAACCTGCCAGCCCAGAAGCACGTCTGGGTCGGGTTGCAAAGCATCTACGGCATCGGCCGTACCCGTTCGAAGAAGGTCTGCGAAGTCGCAGGCGTGGCTTCGACCACCAAGATCCGCGATCTGTCGGAGCCGGAAATCGAGCGCCTGCGCGCCGAAGTCGGCAAGTACATCGTGGAAGGCGACCTGCGCCGTGAGGTCGGTATCGCCATCAAGCGTCTGATGGACCTGGGCTGCTACCGCGGCCTGCGTCACCGTCGTGGCCTGCCGCTGCGCGGCCAGCGCACCCGTACCAACGCCCGCACCCGCAAGGGACCGCGCAAGGCGATTCGGAAGTAA	MARIAGVNLPAQKHVWVGLQSIYGIGRTRSKKVCEVAGVASTTKIRDLSEPEIERLRAEVGKYIVEGDLRREVGIAIKRLMDLGCYRGLRHRRGLPLRGQRTRTNARTRKGPRKAIRK				NA	NA	NA	NA	NA
BMS020_03876	393	rpsK	COG0100	30S ribosomal protein S11	ATGGCTAAGCCAGCTGCTGCTAAGACCAAGAAGAAGGTCAAGCGCGTCGTCACCGACGGCGTCGCCCACGTCCACGCTTCGTTCAACAACACCATCGTGACCATCACCGACCGCCAGGGCAACGCCCTGTCCTGGGCCACCTCTGGTGGCGCCGGTTTCCGTGGTTCGCGCAAGTCGACTCCGTTCGCCGCCCAGGTTGCCGCCGAAAAGGCCGGCAAGGCTGCGCTGGACTACGGCGTGAAGTCGCTGGAAGTGCGTATCAAGGGCCCGGGTCCGGGTCGCGAATCGGCCGTGCGTTCGTTGAACAACGTCGGCTACAAGATCACCAACATCATCGACGTGACGCCTATCCCGCACAACGGGTGCCGTCCGCCGAAGAAGCGCCGCGTCTGA	MAKPAAAKTKKKVKRVVTDGVAHVHASFNNTIVTITDRQGNALSWATSGGAGFRGSRKSTPFAAQVAAEKAGKAALDYGVKSLEVRIKGPGPGRESAVRSLNNVGYKITNIIDVTPIPHNGCRPPKKRRV				NA	NA	NA	NA	NA
BMS020_03877	630	rpsD_1	COG0522	30S ribosomal protein S4	ATGGCTCGTTATATTGGTCCCACCTGTAAGCTCGCCCGTCGCGAAGGCGCCGATCTCTCCCTGAAGAGCCCGGCCCGCGCTTTGGATTCCAAGTGCAAGCTGGAGCAGAAGCCCGGCCAGCACGGCGCTACCGCCCGCAAGGGCAAGCTGTCCGACTACGCCACCCAGCTGCGTGAAAAGCAGAAGGTCAAGCGTATCTACGGCCTGCTGGAGCGTCAGTTCCGCAACTACTACAAGAAGGCCTCGACCAAGAAGGGCAACACCGGCGAGAACCTGCTGCAGCTGCTGGAAACCCGTCTGGACAACGTCGTCTACCGCATGGGCTTCGCCGTCACCCGTCCGGCCGCGCGCCAGCTGGTGTCGCACCGTGGCGTGCTGGTGAACGGCAAGTCGGTCAACCTGGCTTCGTACCAGGTCAAGGCCGGCGACGCCATCGCCCTGTCCGAGAAGGCTGCCAAGCAGCTGCGCGTGCAGGAAGCCCTGACCGTCGCTGCCCAGCATGACCTGAGCCCGTCGTGGGTCGAAGTGGATTCCGGTAAGTTCTCCGGCATCTTCAAGGCCGTGCCGGATCGCTCGGATCTGCCTGCGGACATCAACGAAGCGCTGATCGTCGAGTTGTATTCGAAGTAA	MARYIGPTCKLARREGADLSLKSPARALDSKCKLEQKPGQHGATARKGKLSDYATQLREKQKVKRIYGLLERQFRNYYKKASTKKGNTGENLLQLLETRLDNVVYRMGFAVTRPAARQLVSHRGVLVNGKSVNLASYQVKAGDAIALSEKAAKQLRVQEALTVAAQHDLSPSWVEVDSGKFSGIFKAVPDRSDLPADINEALIVELYSK				NA	NA	NA	NA	NA
BMS020_03878	999	rpoA_1		DNA-directed RNA polymerase subunit alpha	ATGACGGTTACCGCCAACCAGGTTCTGCGCCCGCGTGGGCCGCAGATCGAACGCCTTACCGACAACCGCGCCAAGGTCGTGATCGAGCCGTTGGAGCGCGGTTATGGCCATACGCTGGGCAATGCCCTGCGCCGCGTGCTGCTGTCGTCCATTCCCGGTTTCGCCGTCACCGAGGTCGAGATCGATGGCGTGTTGCATGAGTACACCACGGTCGAGGGCCTGCAGGAGGACGTGCTCGAAGTCCTGCTGAACCTCAAGGACGTGGCCATCCGCATGCACAGCGGCGACAGCGCGACCTTGTCGCTGTCGAAGCAGGGCCCTGGGATCGTCACCGCCGCCGACATCAAGACCGACCATAACGTCGAGATCGTCAACGGCGACCATGTGATCTGCCACCTGACCAAGGACACGGCGATCAACATGCGTCTGAAGATCGAGCGTGGTTTCGGCTACCAGCCGGCCGCCGCGCGTCGTCGTCCGGACGAGGAGACCCGTACCATCGGTCGCCTGATGCTGGATGCGTCGTTCTCGCCGGTCCGTCGCGTCGCCTACGCCGTCGAGGCTGCCCGCGTCGAACAGCGTACCGACCTGGACAAGCTGATCATCGATATCGAGACCAACGGCACGATCGATGCCGAGGAAGCCGTCCGCACTGCGGCCGACATCCTCAGCGATCAGCTGTCGGTGTTCGGCGACTTCACGCACCGCGATCGCGGCGCGCCGAAGCCGCAGACCGGTGGCGTGGATCCGGTGCTGCTGCGTCCGATCGACGACCTGGAGTTGACGGTGCGTTCGGCCAACTGCCTGAAGGCCGAGAGCATCTACTACATCGGCGACCTGATCCAGAAGACCGAGGTCGAGCTGCTCAAGACCCCGAACCTGGGCAAGAAGTCGCTGACCGAGATCAAGGAAGTGCTCGCCCAGCGCGGCCTTTCGCTCGGCATGAAGCTGGAGAACTGGCCGCCGGCCGGTATCGCCCAGCACGGCATGCTCGGTTAA	MTVTANQVLRPRGPQIERLTDNRAKVVIEPLERGYGHTLGNALRRVLLSSIPGFAVTEVEIDGVLHEYTTVEGLQEDVLEVLLNLKDVAIRMHSGDSATLSLSKQGPGIVTAADIKTDHNVEIVNGDHVICHLTKDTAINMRLKIERGFGYQPAAARRRPDEETRTIGRLMLDASFSPVRRVAYAVEAARVEQRTDLDKLIIDIETNGTIDAEEAVRTAADILSDQLSVFGDFTHRDRGAPKPQTGGVDPVLLRPIDDLELTVRSANCLKAESIYYIGDLIQKTEVELLKTPNLGKKSLTEIKEVLAQRGLSLGMKLENWPPAGIAQHGMLG				NA	NA	NA	NA	NA
BMS020_03879	387	rplQ_1	COG0203	50S ribosomal protein L17	ATGCGTCACCAGAAATCCGGCCGCAAGTTCAGCCGCACCAGCGCCCACCGCGAAGCGATGTTCAAGAACATGGCCGCGTCGCTGTTCAAGCACGAGCTGATCAAGACCACCCTGCCGAAGGCCAAGGAACTGCGCCGCGTCGCCGAGCCGCTGATCACCCTGGCCAAGGTCGACTCCGTCGCCAACCGCCGCCTGGCCTTCGCGCGCCTGCGCGACGCCGAGGCCGTCGGCAACCTGTTCACCATCCTCGGCCCGCGCTACGCCACCCGTCCGGGCGGCTACCTGCGCCTGCTGAAGTGCGGCTTCCGCGCTGGCGACAACGCGCCGATGGCCTACGTCGAGCTGGTCGATCGTCCGGCCGCCGTCGCCGAGGAAGTGGCCGAGTAA	MRHQKSGRKFSRTSAHREAMFKNMAASLFKHELIKTTLPKAKELRRVAEPLITLAKVDSVANRRLAFARLRDAEAVGNLFTILGPRYATRPGGYLRLLKCGFRAGDNAPMAYVELVDRPAAVAEEVAE				NA	NA	NA	NA	NA
BMS020_03880	519	dsbB_2	COG1495	Disulfide bond formation protein B	ATGAATCCATTCCGTTGGGGTTTCCGCGCGCAGTTCCTGCTGGGTTTCGCGATCTGCGCCGCGTTGCTGGGCTACGCCATCTTCATGCAGCTGCACGAAGGGCTGGAGCCGTGTCCGTTGTGTATCTTCCAGCGCATCGCGTTTGCCGCGCTCGGCGTGCTGTTCCTGCTCGCCGCGCTGCACGGCCCGCGCCGTAGCGGCGGGCGCAGCGTCTATGGGCTGCTGGCGTTCGTGGCCGCGGCCGTGGGCATCGGCATCGCCGGTCGCCATGTCTGGGTGCAGGTGATGCCGCGCGACGTGATGTCCTCGTGCGGGCCGCCGCTGAGCTTCCTCAGCGAGCAGATGGGGCCGTTCGAGGTGTTCCGCACCGTGCTGACCGGTACCGGCGATTGCGGCAACATCGATTGGCGCTTCCTGGGCCTGTCGATGCCGATGTGGAGCCTGGTGTGGTTCGTCGCGCTGGCGTTGTGGGCCCTGTACGCCGGCTTCAAGCGCCGCGGACCGCGCAAACTGTTCTGA	MNPFRWGFRAQFLLGFAICAALLGYAIFMQLHEGLEPCPLCIFQRIAFAALGVLFLLAALHGPRRSGGRSVYGLLAFVAAAVGIGIAGRHVWVQVMPRDVMSSCGPPLSFLSEQMGPFEVFRTVLTGTGDCGNIDWRFLGLSMPMWSLVWFVALALWALYAGFKRRGPRKLF				NA	NA	NA	NA	NA
BMS020_03881	1395	aroH_2	COG3200	Phospho-2-dehydro-3-deoxyheptonate aldolase	ATGCAATCCCCGCAGACCTCGCCGCACGCCGTGAATCTTCCGCAGGAGTGGTCGCCGCAGAGCTGGCGCGGGCGTCCGGCGCTGCAGATGCCGACCTATCCCGACCCGGGCGCGCTCGAGGGGGCGCTGGCCGAGCTGGGCCAGCTGCCGCCGCTGGTCACGTCCTGGGAGATCTTCGCGCTGAAGAAGCAGCTGGCCGAGGCACAGGAGGGCAAGCGCTTCCTGCTGCAGGGCGGCGACTGCGCGGAGAATTTCGTCGACTGCGAGTCGAACACGATCTCCAACCGGCTCAAGGTGCTGCTGCAGATGAGCCTGGTGCTGGTGCACGGCCTGCGCGTGCCGGTGGTGCGGGTGGGGCGCTTCGCCGGGCAATACGCCAAACCGCGCTCGGCCGATACCGAGACCCGCGATGGCGTCACGCTGCCCAGCTACCGCGGCGACGTGATCAATGCGCCGGCGTTCACCGCCGAGGCGCGCGTGCCGGACCCGCAGCGGATGATCGCCGCGCATTCGCGCTCGGCGATGACGATGAACTTCGTGCGGGCGCTGATCGACGGTGGCTTCGCCGACCTGCACCATCCGGAGTACTGGAACCTGAGCTGGGTCGGCTATTCGCCGCTGGCCGAGGACTACCAGAAGATGGTGGGCTCGATCGGCGACGCGGTGCGCTTCATGGAGACCCTGTCCGGCTCGGAAGTCCACAACCTCAATCGCATCGACTTCTACACCTCGCACGAAGCGCTGCTGTTGCCGTACGAGGAGGCGCTGACCCGGCAGGTGCCGCGGCAGTGGGGCTGGTTCAACCTGTCCACCCACTATCCGTGGATCGGCATGCGCACCGCCGCGCTGGAGGGCGCGCATGTGGAATACCTGCGCGGCGTGCGCAACCCGATCGCGATCAAGGTCGGGCCGTCGGTGCAGCCGGACCAGCTGCTGCGCCTGATCGACGTGCTCAACCCGGACGACGAGCCGGGGCGGCTGAGCTTCATCCACCGCATGGGCGCGGCGCACATCGCCGAGAAGCTGCCGCCGCTGCTGGACGCGGTCAAGCGCGACGGCCGGCGCGTGCTGTGGGTCTGCGATGCGATGCATGGCAACACCGAGAGCACCGGCAACGGCTTCAAGACGCGGCGGTTCGACAACGTCCGCAGCGAGGTGGAGCTGTCGTTCGACCTGCATGCTGCGGCGGGCACGCGCCTGGGCGGGGTGCATCTGGAGCTGACCGGCGAGGACGTCACCGAGTGCACCGGTGGCGCGCGCGAGCTGACCGAGCGCGACCTGGAGCGCTGCTACCGCTCCACCGTCGATCCGCGCTTGAACTATGAGCAGTCGCTGGAGATCGCGATGGCGATCGTGCGCAAGCAGCGGCAGCTGAGCTCCGCGATCGGCGGCTGA	MQSPQTSPHAVNLPQEWSPQSWRGRPALQMPTYPDPGALEGALAELGQLPPLVTSWEIFALKKQLAEAQEGKRFLLQGGDCAENFVDCESNTISNRLKVLLQMSLVLVHGLRVPVVRVGRFAGQYAKPRSADTETRDGVTLPSYRGDVINAPAFTAEARVPDPQRMIAAHSRSAMTMNFVRALIDGGFADLHHPEYWNLSWVGYSPLAEDYQKMVGSIGDAVRFMETLSGSEVHNLNRIDFYTSHEALLLPYEEALTRQVPRQWGWFNLSTHYPWIGMRTAALEGAHVEYLRGVRNPIAIKVGPSVQPDQLLRLIDVLNPDDEPGRLSFIHRMGAAHIAEKLPPLLDAVKRDGRRVLWVCDAMHGNTESTGNGFKTRRFDNVRSEVELSFDLHAAAGTRLGGVHLELTGEDVTECTGGARELTERDLERCYRSTVDPRLNYEQSLEIAMAIVRKQRQLSSAIGG	PGPT0012920_815	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012920-3_deoxy_7_phosphoheptulonate_synthase|aroF|aroG|aroH-K01626	NA	NA
BMS020_03882	1125			hypothetical protein	ATGTCCGACTGGTCATTGATGCGCGGTTACGTGGTGCCGCTCGGCGCGGCGGTACTGGCTGGATTCGTCGTCTGGTCGCTGCTGCGCTGGCTGTTCCGGCGCGCGGAGGGGCGCGACTATCGCCGCGCGCGGATCGTGCGGGTGGTGAGCCTGCCGCTGGCGTTCGCGATCCCGCTGCTGTTCCTCAACATGGCGATCGCGGCGACGCCGTTACGCGGCGAGGCCTTCGACGCGGTGCGCCACCTGCTGCACATCGGCGTGGTCGGGTGCCTGACCTGGCTGCTGGTCAGGGCGGTCGCGGCCGGGGAGCTGTGGATCCTGCGCAGCCATCCGATCGAGGTCGCCGACAACCTGGCCGCGCGGCGGATCCAGACCCAGACCAAGGTGCTGGCACGGGTGTTGATGGGCGCGATCATCCTGGTCGGCGTATCGGTGGTGCTGCTCAGCTTCGATCCGGTCAAGCAGCTCGGCCGGACCCTGCTGGCGTCCGCCGGCATCGTCGGCCTGGTGGCGGGCATGGCGGCCAAGCCGGTGTTCGGCAACCTGATCGCCGGCCTGCAGATCGCGCTGACCCAGCCGATCCGCCTCGACGACGTGGTGATCGTCGAGGGCGAGTGGGGCCGGATCGAGGAGATCGGAAGTTCCTACGTGGTGGTGCGGATCTGGGACGAGCGGCGGATGGTGGTGCCGTTGGCGTGGTTCATCGAGAACCCGTTCCAGAACTGGACGCGACGCAGTGCCGACCTGCTCGGCACCGCGTTCCTGTGGCTGGACTACCGCACGCCGATGGCCGAGGTGCGCGGCGAACTCGAGCGCATCTGCCGCGGCGAGCCGCTGTGGGATGGCCGGGTCTGCGTGACCCAGATCACCGAGACCAGCGAAAGCGCGATCCAGGTGCGGCTGCTGGTCAGCGCGCGCAATTCCGGCGATGCCTTCGACCTGCGCTGCATCGTGCGCGAACGCATGGTCGACTTCCTGATGCGGCAGCATCCCTACGCGCTGCCGCGGCTGCGCGCGGAACTTTCTTCCGAGGCCGAGCCGCCGCAGCGTGCGCCGCGACCGACTGCCGAGCGCATGCGCTCGCCGGGGGCCGAGGATGGCGAGCCGGCGGTGACGCCGGGCTGA	MSDWSLMRGYVVPLGAAVLAGFVVWSLLRWLFRRAEGRDYRRARIVRVVSLPLAFAIPLLFLNMAIAATPLRGEAFDAVRHLLHIGVVGCLTWLLVRAVAAGELWILRSHPIEVADNLAARRIQTQTKVLARVLMGAIILVGVSVVLLSFDPVKQLGRTLLASAGIVGLVAGMAAKPVFGNLIAGLQIALTQPIRLDDVVIVEGEWGRIEEIGSSYVVVRIWDERRMVVPLAWFIENPFQNWTRRSADLLGTAFLWLDYRTPMAEVRGELERICRGEPLWDGRVCVTQITETSESAIQVRLLVSARNSGDAFDLRCIVRERMVDFLMRQHPYALPRLRAELSSEAEPPQRAPRPTAERMRSPGAEDGEPAVTPG				NA	NA	NA	NA	NA
BMS020_03883	1620	gatA	COG0154	Glutamyl-tRNA(Gln) amidotransferase subunit A	ATGCGCACGACCGCGCCGCTACTGCTCGCGGCCACCCTGCTGCTTGCCGGTTGCTCGCCAGCGCCCGATGCCGGTAGCGCCGCCAGCCCGCCCGCCTCCCATCCGGCATCGCCCGACGAGGCGGCACCGTTCCTGTACGCCGAACTCGACATCGACGACCTGCAGGCCCGCATGGGTCGCGGCGAACTGGACAGCACGACGCTGGTGCGCGCCTATCTGGAACGCATCGCCCGTATCGATCGCGCCGGCCCCAGCCTCAACAGCATCATCGAGCTCAACCCCGATGCGCTGAAGGAAGCCGCCAGGCTGGATGCCGAGCGCCGCGCCGGCCACGTTCGCGGCCCGCTGCACGGCATTCCGTTGCTGCTGAAAGACAACATCGACGCCACGCCGATGGCCAACAGCGCCGGCTCGCTGGCGCTGGCGAGCTTCCATCCCGCGCGCGACGCATTCCTGGTCGCGCGCCTGCGCCGCGCCGGCGCGGTGATCCTCGGCAAGACCAACCTCAGCGAATGGGCCAACTTCCGCTCCAGCCAGTCCAGTTCGGGCTGGAGCGCGCGCGGCGGCCAGACCCGCAACCCTTACGTGCTCGGCCGCAGTCCGTGCGGTTCCAGCGCCGGCACCGCAGCGGCGATCGCCGCCAACCTGGCCAGCGCCGGCATCGGCACCGAGACCGACGGCAGCATTGTCTGTCCAGCCGCGGTCACCGCCCTGGTCGGGCTGAAACCGACCGTCGGCCTGGTCAGCCGCGACGGCATCATCCCGATCTCCTTCAGCCAGGACACCGCAGGACCGATGACGCGCAGCGTCGCCGACGCCGCCGCCCTGCTGTCGGCAATCGCCGGGCGCGACCCGGCCGATCCCGCCACCGATGCCCGCCCCGGCCTGGCCGTGTACGACTACACCGCCCGGCTCGATCCCGGACGCCTGCGCGGCGCCCGCATCGGCGTGCTCGACAACCCGTTGAACCAGCGCCCGGAGATCGCCGCGGCGATGGCCGAAGCCACCCGCGTGCTGCGTCAGGCCGGCGCCACCGTCATCGCCACCCGGCTCCCCACCGCCGGCCAGTGGGAGCAGGACGAACAGCTGGTGCTGCTGCACGAATTCAAGGCCGGCGTGGAGCGCTACCTGCGCAGCCACGATGCACCGATCACCTCGCTGGCCGGACTGATTGCCTTCAACCAGGCGCACGCCGCACGCGAGATGCCGACCTTCGGCCAGGACCTGTTCGAGAGCGCCGAAGCCACCGCCGGGCTCGGCGCCGCCGATTACATCGCCGCGCGCACCCGCGCGCGACGGCTGGCCGGCCCCGAAGGCATCGATGCCGCGCTGCAGGCCGACCAGCTCGATGCGCTGATCGTGCCGACCACCGGCCCGGCCTGGCCGATCGATCCGGTGCACGGCGACGCGTTCCCGGGCGCCGGCTATAGCGCGGCCGCGGTCGCCGGCTACCCGAGCCTGAGCGTGCCGATGGGCAGCGCCAACGGCCTGCCGCTGGGCCTGTTGTTCATCGGCACCGCGTGGAGCGAGCCGCGCCTGCTCGAGCTCGGCTACGCCTACGAGCAGCTGACCCGCGCACGCCGGCCGCCGCGGTTCCTGTTGGCCCTGCCGGCGCGCTGA	MRTTAPLLLAATLLLAGCSPAPDAGSAASPPASHPASPDEAAPFLYAELDIDDLQARMGRGELDSTTLVRAYLERIARIDRAGPSLNSIIELNPDALKEAARLDAERRAGHVRGPLHGIPLLLKDNIDATPMANSAGSLALASFHPARDAFLVARLRRAGAVILGKTNLSEWANFRSSQSSSGWSARGGQTRNPYVLGRSPCGSSAGTAAAIAANLASAGIGTETDGSIVCPAAVTALVGLKPTVGLVSRDGIIPISFSQDTAGPMTRSVADAAALLSAIAGRDPADPATDARPGLAVYDYTARLDPGRLRGARIGVLDNPLNQRPEIAAAMAEATRVLRQAGATVIATRLPTAGQWEQDEQLVLLHEFKAGVERYLRSHDAPITSLAGLIAFNQAHAAREMPTFGQDLFESAEATAGLGAADYIAARTRARRLAGPEGIDAALQADQLDALIVPTTGPAWPIDPVHGDAFPGAGYSAAAVAGYPSLSVPMGSANGLPLGLLFIGTAWSEPRLLELGYAYEQLTRARRPPRFLLALPAR	PGPT0006115_1342	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
BMS020_03884	519			hypothetical protein	GTGAAACCCGACCGGCCCTATAACCCGGATCCGCGTGCGCATCCGGGCCTGCATGCCATCGCATTGCTCGAGGCAAGCAAGGGTTTGCTCGCCCTGCTCGGGGCGACGGGGCTGGTCCTGCTCGGCCCCCTGCCATTGCAGGGGGCCGTGTCCAGCCTGATCCAGCACTTCCACCTCGACCCGGACCATGGCGCCCTGCCGTCCCTGCTGCGGATGATCGATCCGAGCATGGTGCACCTGGCGGCCGGGGTGATGCTCGGCTACGGCCTGCTGCACGTGGTCGAAGCCTGGGGCCTGTGGCGCGCCAAGGCCTGGGCCTCGCTGCTGGGCTGCCTGTCGGCGGCGATCTATCTGCCCTTCGACATCTACGCGATCGTCCGCCATCCCGGCTGGACGGCGTGGAGCGTGCTCGCGATCAACCTGCTGGTGGTCGGAGTCCTGGCGCGCGACCTGGTCCGCCGCCACTTCATCCGCATCCGTCGCCGCGCGCACATTGCCAGCCGGCACCAGCGCAGCTAG	MKPDRPYNPDPRAHPGLHAIALLEASKGLLALLGATGLVLLGPLPLQGAVSSLIQHFHLDPDHGALPSLLRMIDPSMVHLAAGVMLGYGLLHVVEAWGLWRAKAWASLLGCLSAAIYLPFDIYAIVRHPGWTAWSVLAINLLVVGVLARDLVRRHFIRIRRRAHIASRHQRS	PGPT0023720_4	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023720-typA|bipA-K06207	NA	NA
BMS020_03885	1830	typA_1	COG1217	GTP-binding protein TypA/BipA	ATGTCCATCGAAAACCTTCGCAACATCGCCATCGTCGCCCACGTCGACCACGGCAAGACCACCCTTGTCGACTGCCTGTTGAAGCAGTCCGGCACCTTCTCCGAGCGCGCCGTCATCGCCGAGCGCGTGATGGACAGCAACGACCAGGAAAAGGAACGCGGCATCACCATCCTGGCCAAGAACACCGCGATCAAGTGGAACGGCAACCGCATCAACATCGTCGACACCCCCGGGCACGCCGACTTCGGCGGTGAGGTCGAGCGCGTGCTGTCGATGGTCGACACCGTGCTGATCCTGGTCGACGCGATGGACGGCCCGATGCCGCAGACCCGCTTCGTGACCCAGAAGGCGTTCGCGATGGGCTTCAAACCGATCGTGGTGATCAACAAGATCGACCGCCCGGGCGCGCGTCCGGAATGGGTCGTGGAGCAGGTGTGGGACCTGTTCGACCGCCTCGGCGCCACGCCGGAGCAGATGGACTTCCCGATCGTCTACGCCTCGGCGCTGAACGGCTACGCCTCGCTCGACGAGAACGTGCGCGAAGGCGACATGACCCCGCTGTACGAAGCGATCATGCAGCACGCGCCGAAGCCGGAAGTGGACCCGGAAGGTCCGTTCCAGATGCGCATCAGCCAGCTGGACTACAACAACTTCGTCGGTGTCATCGGCATCGGCCGCATCCAGCGCGGCACCCTGAAGAAGAACATGCCGGTCGCCGTCATCGACCGCGAAGGCAAGAAGCGCCAGGGCAAGGTGCTGCAGGTGATGGGCTTCCTCGGCCTTGAGCGCATCGAGCAGGAATCGGCCGAAGCCGGCGACATCGTCGCCATCTCCGGCATCCAGGAGCTGACCATCTCCGACACCGTCTGCGCGCTGGAGAACCCGGAAGCGCTGCCGGCGCTGACCGTCGACGAGCCGACCATCTCGATGACCTTCCAGGTCAACAACTCGCCGTTCGCCGGCAACAAGGACCTGTCCGGCGGCAAGTTCCTGACCAGCCGCCAGCTGAAGGACCGCCTGGACCGCGAGACCGTGCACAACGTCGCGCTGAAGGTCGAGCAGCTGGAAGACGCGGACAAGTTCCTGGTCTCCGGCCGTGGCGAGCTGCACCTGTCGGTGCTGATCGAGAACATGCGTCGCGAAGGCTACGAGCTGGCCGTGTCGCGCCCGGAAGTGATCATCAAGGAGATCGACGGCCAGATGATGGAGCCGATCGAGCAGCTGGTCATCGACGTGGAGGAAATCCACCAGGGCGGCGTGATGGAGAAGCTGGGCACCCGCAAGGGCCAGCTGAAGAACATGGAGCCGGACGGCAAGGGCCGCGTGCGCCTGGACTATGAAATCCCGGCGCGTGGCCTGATCGGCTTCCAGAACGAGTTCAAGACCCTGACCCAGGGTGGCGGCCTGCTGTTCCACGTGTTCGACCACTACGGCCCGAAGGAACAGGGCGCGATCGCCAAGCGCCTGAACGGCGTGATGATCGCCAATGCCCCGGGCGCGACCCCGGCCTATGCGCTGGGCCCGCTGCAGGAGCGCGGCAAGCTGTTCGCCGCCGAAGGCGACAACGTGTACGAAGGCCAGCTGGTCGGCATCCACTCCAAGGACAACGACCTGACCGTCAACGCGATCAAGACCAAGCCGCTGACCAACATGCGCGCGTCGGGCAAGGACGATGCGATCCAGCTGACCCCGGCGATCAAGTTCTCGCTGGAACAGGCGCTGGACTTCATCGACGACGACGAGCTGGTCGAGATCACCCCGAAGGAAATCCGCCTGCGCAAGAAGCAGCTGACCGAGAGCGACCGCAAGCGCGCCAGCCGCGCCGGCTGA	MSIENLRNIAIVAHVDHGKTTLVDCLLKQSGTFSERAVIAERVMDSNDQEKERGITILAKNTAIKWNGNRINIVDTPGHADFGGEVERVLSMVDTVLILVDAMDGPMPQTRFVTQKAFAMGFKPIVVINKIDRPGARPEWVVEQVWDLFDRLGATPEQMDFPIVYASALNGYASLDENVREGDMTPLYEAIMQHAPKPEVDPEGPFQMRISQLDYNNFVGVIGIGRIQRGTLKKNMPVAVIDREGKKRQGKVLQVMGFLGLERIEQESAEAGDIVAISGIQELTISDTVCALENPEALPALTVDEPTISMTFQVNNSPFAGNKDLSGGKFLTSRQLKDRLDRETVHNVALKVEQLEDADKFLVSGRGELHLSVLIENMRREGYELAVSRPEVIIKEIDGQMMEPIEQLVIDVEEIHQGGVMEKLGTRKGQLKNMEPDGKGRVRLDYEIPARGLIGFQNEFKTLTQGGGLLFHVFDHYGPKEQGAIAKRLNGVMIANAPGATPAYALGPLQERGKLFAAEGDNVYEGQLVGIHSKDNDLTVNAIKTKPLTNMRASGKDDAIQLTPAIKFSLEQALDFIDDDELVEITPKEIRLRKKQLTESDRKRASRAG	PGPT0023720_2295	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023720-typA|bipA-K06207	NA	NA
BMS020_03886	495	ppiB_2	COG0652	putative peptidyl-prolyl cis-trans isomerase	ATGTCCCTGATCGCCAATTTCGACACCTCCCGCGGCCCGATCAAGATCGAGCTGTTCGCCGACAAGGCGCCGCTGACGGTGGCCAACTTCGTCAACCTGGCCAAGCGTGGTTTCTACGACGGCCTGAGCTTCCACCGCGTGATCGCCGATTTCATGATCCAGGGCGGTTGCCCGGAAGGCTCCGGCCGCGGCGGCCCGGGCTACCGCTTCGAGGACGAGACCAACAACGGCGTCGCGCATGACCGCGGCGTGCTGTCGATGGCCAATGCCGGCCCGAACACCAACGGCAGCCAGTTCTTCATCACCCACGTCGCCACCCCGTGGCTCGACGGCCGCCACACCGTGTTCGGCAAGGTGCTCGAAGGCCTGGAGACGGTCGATGCCGTGGCCCAGGGCGACACCATCACCAAGGTGACGATCGAGGGCGACGCCGACGCCGTGCTGGCCGCCAAGGCCGACCGCGTGGCCGAGTGGAACAAGATCCTCGCCGCCTGA	MSLIANFDTSRGPIKIELFADKAPLTVANFVNLAKRGFYDGLSFHRVIADFMIQGGCPEGSGRGGPGYRFEDETNNGVAHDRGVLSMANAGPNTNGSQFFITHVATPWLDGRHTVFGKVLEGLETVDAVAQGDTITKVTIEGDADAVLAAKADRVAEWNKILAA	PGPT0015111_3971	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
BMS020_03887	984	mdh_3		Malate dehydrogenase	ATGAAAGCACCTGTTCGTGTTGCCGTGACCGGCGCCGCCGGCCAGATCGGCTATGCCCTGCTGTTCCGCATCGCCTCCGGCGAGATGCTCGGCAAGGACCAGCCGGTGATCCTGCAGCTGCTCGAGCTGCCGATGGAGAAGGCCCAGGCCGCGCTGAAGGGCGTGATCATGGAGCTGGAAGACTGCGCGTTCCCGCTGCTGGCCGGCATCGTCGGCACCGCCGATCCGGAAGTGGCGTTCAAGGACGCCGACGTGGCGCTGCTGGTCGGCGCGATGCCGCGCGGCCCGGGCATGGAGCGCAAGGACCTGCTGCTGAAGAACGCCGAGATCTTCACCGTGCAGGGCAAGGCGCTGAACAAGGTCGCCTCGCGCGACGTGAAGGTGCTGGTGGTCGGCAACCCGGCCAACACCAACGCCTACATCGCGATGAAGTCGGCCCCGGACCTGAATCCGAACAACTTCACCGCGATGCTGCGCCTGGACCACAACCGCGCGCTGTCGCAGCTGTCCAACAAGGCCGGTGTGGCCGTGGGCGACATCGAGAAGTTCGTGGTGTGGGGCAACCACAGCCCGACCATGTACCCGGACTACCGCTTCGCCACCGTCGCCGGCGCCTCGCTGAAGGACAAGATCAACGACGCCGACTGGAACGCCAACGATTTCATCCCGAAGGTCGGCAAGCGCGGCGCGGCGATCATCGAGGCCCGTGGCCTGTCCTCGGCCGCGTCGGCCGCCAATGCCGCCATCGACCACATCCATGACTGGGTGCTGGGCAGCAACGGCAAGTGGACCACGATGGGCATCCCGTCGGACGGTTCCTACGGCATCCCGGAAGGCGTGATCTTCGGTTTCCCGGTCACCACCGAGAACGGCAAGTACACGATCATCAAGGACCTGCCGATCGACGAGTTCAGCCAGAAGGCGATCGACAAGACCCTGGCCGAGCTGGAAGAAGAGCGCGGCGGCGTGGCGCACCTGTTGTAA	MKAPVRVAVTGAAGQIGYALLFRIASGEMLGKDQPVILQLLELPMEKAQAALKGVIMELEDCAFPLLAGIVGTADPEVAFKDADVALLVGAMPRGPGMERKDLLLKNAEIFTVQGKALNKVASRDVKVLVVGNPANTNAYIAMKSAPDLNPNNFTAMLRLDHNRALSQLSNKAGVAVGDIEKFVVWGNHSPTMYPDYRFATVAGASLKDKINDADWNANDFIPKVGKRGAAIIEARGLSSAASAANAAIDHIHDWVLGSNGKWTTMGIPSDGSYGIPEGVIFGFPVTTENGKYTIIKDLPIDEFSQKAIDKTLAELEEERGGVAHLL	PGPT0001435_828	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
BMS020_03888	1884	acsA_1	COG0365	Acetyl-coenzyme A synthetase	GTGGACTACGAGTCGTTGTACCGCCGTTCGATCGAGCGGCCGGAGGAATTCTGGGCGGAGGCCGCGCAGGCCATCCACTGGCAGGTGCCGCCGCAGCAGATCCTGGAGTATTCCAATCCGCCGTTCCGCCGCTGGTTCGTCGGCGGGCGCACCAACCTCTGCTACAACGCAGTCGACCGCCACCTCGAGGCGCGCGGCGAGCAACTGGCGCTGGTGGCGATCTCCACCGAGACCGGGGTGACGCGCGAGATCAGCTACCGCGCGCTGCATCGCGAGGTGAATGCGTTCGCGGCGGTGCTGCAGCGGCTGGAGGTCGGTCGCGGCGATCGCGTGGTGATCTACATGCCGAACATGGCCGAGGCGGTGTTCGCGATGCTGGCCTGCGCGCGCATCGGGGCGATCCACTCGGTGGTGTTCGGTGGCTTCGCCGCGCACAACCTGGCGCTGCGCATCGATGACGCCAGGCCCAAGCTGCTGATCACCGCCGACGCCGGCAGTCGTGGCGGCAAGCTGATCCCGTACAAGCCGATGGTCGATGCGGCCTGCGCCGAGGCGGCCAATCCGCCGCCGAAGGTGCTGATCGTTTCGCGAGGGCTGGATCCGGCCGAGCCGCGCCTGCCTGGACGCGATGAGGATTACGCCGCGCTGCGCGCCGAGGTCGGCGATGCGCAGGTGGCGGTGGAATGGCTGGAATCCAACGAGCCCAGCTACCTGCTGTACACCTCCGGCACCACCGGCAAGCCCAAGGGCGTGCAGCGCGACGTGGGTGGCTATGCGGTGGCGATGGCGCTGTCGATGCGCACCGTGTTCGACTGCGCGCCGGGGCAGGTGATGTTCTCGACCTCGGACGTGGGCTGGGCGGTGGGGCACTCCTACAACGTCTACGGGCCGCTGATCGGCGGCTGCACGTCGCTGCTGTACGAAGGACTGCCGACCAATCCCGATCCGGGCATCTGGTGGGCGCTGTGCGAGCAGTACGGCGTGCGCACGATGTTCTCCTCGCCGACCGCGATCCGCGTGCTGAAGAAATCGGACGTGGACTTCATCCGTCGCCACGACCTGTTCGCGCTGAAGTACCTGTTCCTGGCCGGCGAGCCGTTGGACGAGCCGACTGCGACCTGGATCAACGGCGCGCTCGGCAAGCCGGTGATCGACAACTACTGGCAGACCGAGACCGGCTGGCCGGCGTTGACCCTGCTGCCGGGCGTGGAGATGAAGCCAGTGAAGTTCGGCTCGCCCGGGTTCCCCAACCTGGGCTACCGCATGAAGGTGATCGACGAGCAGAGCGGGGCGGAGGTCGCGCCGGGACAGAAGGGCGTGCTGGTGATGGTGCCGCCGCTGCCGCCGGGCTGCATGAGCACGGTGTGGAACGACGATGCGCGCTTCCTGGACAGTTACTTCGGCCATTTCAAGGAGCTGCTGTACAGCTCGCTGGACTGGGCGATCCGCGACGAGGACGGCTACACCTTCATCCTCGGCCGCACCGACGACGTGATCAATGTCGCCGGCCATCGCCTGGGGACGCGCGAGATCGAGGAGGTGGTATCCAGCCACCCGGGCGTTGCCGAGGCCGCGGTGATCGGGGTCAAGGACGAATTGAAGGGGCAGGTGCCGGTGGTGTTCGCGACGATGAAGCAGGCGCCGCAGGATCCGGCCGGTGTGGCGGGCGAGCTGCAGCAGTGCGTGGTCGCGCAGCTCGGTGCGGTCGCGCGCCCGGCACACATATATATAGTCAACGCGCTGCCGAAGACGCGTTCGGGCAAGCTGCTGCGGCGCTCGCTGCAGGCGCTGGCCGAGGATCGCGATCCGGGCGATCTGTCGACGCTCGACGACCCGGCCGCGCTGGACGAGGTGCGCCGGGCGCTGACCCGGAACCCGGCCTAG	MDYESLYRRSIERPEEFWAEAAQAIHWQVPPQQILEYSNPPFRRWFVGGRTNLCYNAVDRHLEARGEQLALVAISTETGVTREISYRALHREVNAFAAVLQRLEVGRGDRVVIYMPNMAEAVFAMLACARIGAIHSVVFGGFAAHNLALRIDDARPKLLITADAGSRGGKLIPYKPMVDAACAEAANPPPKVLIVSRGLDPAEPRLPGRDEDYAALRAEVGDAQVAVEWLESNEPSYLLYTSGTTGKPKGVQRDVGGYAVAMALSMRTVFDCAPGQVMFSTSDVGWAVGHSYNVYGPLIGGCTSLLYEGLPTNPDPGIWWALCEQYGVRTMFSSPTAIRVLKKSDVDFIRRHDLFALKYLFLAGEPLDEPTATWINGALGKPVIDNYWQTETGWPALTLLPGVEMKPVKFGSPGFPNLGYRMKVIDEQSGAEVAPGQKGVLVMVPPLPPGCMSTVWNDDARFLDSYFGHFKELLYSSLDWAIRDEDGYTFILGRTDDVINVAGHRLGTREIEEVVSSHPGVAEAAVIGVKDELKGQVPVVFATMKQAPQDPAGVAGELQQCVVAQLGAVARPAHIYIVNALPKTRSGKLLRRSLQALAEDRDPGDLSTLDDPAALDEVRRALTRNPA	PGPT0002270_1452	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0002270-prpE-K01908	NA	NA
BMS020_03889	612	gst_1	COG0625	Glutathione S-transferase GST-4.5	ATGAAGCTTTACACCAAGCCCGGCGCCTGCTCGCTGGCCGACCATATCGTGCTGCGCTGGTCCGGGCTGCCGTTCGAGCTGCAGGTCATGGACGCCGCCGGCATGAAGGCGCCGGACTACCTGGCGCTGAACCCCGCCGGCTCGGTTCCGGTGCTGGCCGTGGACGACTGGGCGCTGACCCAGAACGCGGCGATCCTGAACTACATCGCCGATATCGCCCCGCTCAGCGGACTGGGCGGCGATGGCAGCGCGCGTTCGCGCGCCGAGATCAACCGCTGGATCGCCTTCGTCAACGCCGACGTCCACCCGACCTTCAAGCCACTGTTCGGCAGCACCGCCTATCTCGGCGACGAGGCTGCGATCGCCCTGTCCAAGGACGATGCCCGGCAGAAGCTGCGCGTGCTGTACCAGCGTGCCGACGCGCATCTGCATGGCCGCAACTGGCTGGCCGCAGAGCGCTCCGGCGCCGATGCCTATCTGTTCGTCACCCTGCGCTGGGCGCGCCGGATCGGCGTCGACCTGTCCGGGCTGACGGCGCTGGATGCGTTCTTCGAGCGGATCAGCGCCGATGCCGACGTGCAGGCGGCACTGCAGGCCGAAGGCCTGAGCTGA	MKLYTKPGACSLADHIVLRWSGLPFELQVMDAAGMKAPDYLALNPAGSVPVLAVDDWALTQNAAILNYIADIAPLSGLGGDGSARSRAEINRWIAFVNADVHPTFKPLFGSTAYLGDEAAIALSKDDARQKLRVLYQRADAHLHGRNWLAAERSGADAYLFVTLRWARRIGVDLSGLTALDAFFERISADADVQAALQAEGLS	PGPT0013170_19326	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS020_03890	462			hypothetical protein	ATGAAACTGGCCTGGATTCTCTGGCTGTCGCAGTTGTTGCCGCAGCCGGCCGCCGATTCGCTGTGCCTGAGCACCACCGTCTACCTGGAAGCGCGCGACCAGACCGTGCGCGGCCAGCAGGCCGTCGCCGAGGTCGCCCTGCGCCGCCTCGACAGCGGGCTGTGGGGCGACTCGATGTGCGAGGTCGTGACCGCGCGCAAACAGTTCGCGCCGACCCTGGTGCCGCCGTCGACCCAGCTCAAGAACGACGAAGCCTGGAACAAGGCCGTCAACGTGGCGTTCGCCGCGGAGCAGAACTGGGCGCTCCCGGTCGGGCAGCGCAAGGAAATCGTGCCTGGCGCCAGCCACTTCGCCGCCAGCGCGATCGCCAGCCCGAGCTGGCGCAACGCCTACCAGGTGGCGACGATCGGCGACCACACGTTCTACCGCGTGCAGAAGCTGCGTCCGCGCACCGCCTCCTGA	MKLAWILWLSQLLPQPAADSLCLSTTVYLEARDQTVRGQQAVAEVALRRLDSGLWGDSMCEVVTARKQFAPTLVPPSTQLKNDEAWNKAVNVAFAAEQNWALPVGQRKEIVPGASHFAASAIASPSWRNAYQVATIGDHTFYRVQKLRPRTAS				NA	NA	NA	NA	NA
BMS020_03891	2034	fadH_2	COG0446	2,4-dienoyl-CoA reductase	ATGTCGCCAGCCACCGCGCCATCCGCCTACCCGCACCTGTTCTCGCCGCTGGACCTGGGCTTCACCACGCTGCGCAACCGCGTGTTGATGGGCTCGATGCACACCGGCCTGGAGGACCGCGCCAGGGATTTCCCGAAGCTGGCGGCCTATTTCGCCGAGCGCGCGGCCGGCGGCGTCGGCCTGATCGTCACCGGCGGTTTCGCGCCAAGCATGGTCGGCTGGCTCAAGCCGTTCGGCAGCAAGCTGTCATGGCCGTGGGAAGTGGCGCCGCACCGCCAGATCACCCGCGCGGTGCATGCGCACGACGCCAAGATCTGCCTGCAGCTGCTGCACGCCGGCCGCTACGGCTACCACCCGCTGCAGGTCGCACCCTCGAAGTTGAAGGCGCCGATCAATCCGTTCACGCCGCGCGCGTTGTCCTCCGCCGGCGTCGAGCGCCAGATCAACGCCTATGCCCGCGCCGCGCGCTATGCGCGCGAGGCCGGCTACGACGGCGTCGAGGTGATGGGCTCGGAAGGCTATCTGATCAACGAATTCATCGCCCCGCGCACCAACCGGCGCAACGACGCCTGGGGAGGCGACGCGACGCGGCGCATGCGTTTTGCGGTGGAGATCGTGCGCCGCATCCGCGAGGCCTGCGGACCGGATTTCATCATCGTCTACCGCCTGTCGCTGGTGGACCTGGTCGAGGACGGCAGCAACTGGGAGGAGATCGTGCAGCAGGCCCAGGCGGTCGAGGCCGCCGGCGCCACCCTGGTCAACTCCGGCATCGGCTGGCACGAGGCGCGGGTCCCGACCATCGCCACCTCGGTGCCGCGCGCGGCATTCGCCGGCGTGACCGCCAAGCTCAAGCCGTACCTGCGCGTGCCGGTGGTCGCCACCAACCGCATCAACATGCCCGAGGTGGCCGAGGGCATCCTGGCCGCAGGCGGCGCCGACATGGTCTCGCTGGCGCGCCCGCTGCTGGCCGATCCGCACTGGGCCAACAAGGCCAAGGCCGGCAAACCGCAGGCGATCAATACCTGCATCGCCTGCAACCAGGCCTGCCTGGACCATGTGTTCGACAACAAGCTCGCCAGCTGCCTGGTCAATCCGCGCGCCGCGCACGAGACCGAGCTGGTGTATGCCCCGGCCGCGGCGCGCCGCACGGTGGCGGTGGTCGGCGCCGGTCCGGCCGGACTGGCCTGCGCGACGGTGGCCGCCGAGCGCGGCCATGCGGTCACCCTGTTCGATGCGGCCGAGGAGATCGGCGGGCAGTTCAACGTCGCCAAGCGCATCCCCGGCAAGGAAGAATTCCACGAGACGCTGCGCTACTTCCGCCATCGGCTGGAGGAGACTGGCGTGACGCTGCGGCTCGGCACCCGGGTCGCCGCCGCCGACCTGGCCGGCTTCGACGAGATCGTGCTGGCCACCGGCATCAGTCCGCGCGCGGTGGAGTTTCCCGGCCACGACCACCCCAGCGTGGTGAGCTATCTCGACCTCCTGCTGGGCCGCGTGCAGGCCGCCGACAAGGTCGCCATCATCGGCGCCGGCGGGATCGGTTTCGACGTCGGCGAATTCCTGGTCCACCACGGCACCTCGCCGTCGCTGGACCTGCCGCGCTGGCAGGCCGAATGGGGCATCGATCCGGACTTCCAGGCCCGCGGGGCGCTGCAGCGGCCGCAACCGGAACCGCCGGCACGCCAGGTCTGGCTGCTGCAGCGCAGCCCCGGGCGCCCCGGCGCGCGGCTGGGCAAGACCACTGGCTGGATCCATCGCGCCACGCTGAAGGCCAAGGGCGTGAAGATGCTCGGCGGCGTGGAATACCTGGGCGTGGACGACGACGGCCTGCACATCCGCGTGGACGGCCAGGAGCAGACGCTCGATGTCGGCACCGTGGTGGTCTGCGCCGGCCAGGAACCGCGCCGCGAGCTGTTCGACGCGCTGCATGCGCAGGGCCGCAGCGCGCATCTGATCGGTGGCGCCGATGTCGCCGCCGAGCTGGACGCCAAGCGCGCGATCGACCAGGGCAGCCGGCTCGCGGCCCGGCTGTAA	MSPATAPSAYPHLFSPLDLGFTTLRNRVLMGSMHTGLEDRARDFPKLAAYFAERAAGGVGLIVTGGFAPSMVGWLKPFGSKLSWPWEVAPHRQITRAVHAHDAKICLQLLHAGRYGYHPLQVAPSKLKAPINPFTPRALSSAGVERQINAYARAARYAREAGYDGVEVMGSEGYLINEFIAPRTNRRNDAWGGDATRRMRFAVEIVRRIREACGPDFIIVYRLSLVDLVEDGSNWEEIVQQAQAVEAAGATLVNSGIGWHEARVPTIATSVPRAAFAGVTAKLKPYLRVPVVATNRINMPEVAEGILAAGGADMVSLARPLLADPHWANKAKAGKPQAINTCIACNQACLDHVFDNKLASCLVNPRAAHETELVYAPAAARRTVAVVGAGPAGLACATVAAERGHAVTLFDAAEEIGGQFNVAKRIPGKEEFHETLRYFRHRLEETGVTLRLGTRVAAADLAGFDEIVLATGISPRAVEFPGHDHPSVVSYLDLLLGRVQAADKVAIIGAGGIGFDVGEFLVHHGTSPSLDLPRWQAEWGIDPDFQARGALQRPQPEPPARQVWLLQRSPGRPGARLGKTTGWIHRATLKAKGVKMLGGVEYLGVDDDGLHIRVDGQEQTLDVGTVVVCAGQEPRRELFDALHAQGRSAHLIGGADVAAELDAKRAIDQGSRLAARL				NA	NA	NA	NA	NA
BMS020_03892	1098	pal_3		Peptidoglycan-associated lipoprotein	ATGAACAAGAAAATCCTCACTGCAGCGCTGCTGGGTGGCCTGGCTGTCGCCCAGGCAGCCTCCGCGCAGGAGTTCGATGATCGCTGGTATCTGACCGGTTCGGCCGGCTTCAACTTCCAGGACGGCGACCGCACCACCAACGATTCGCCGTTCGTCACCCTCGGCCTGGGCAAGTTCGTCAGCCCGAACTGGTCGATCGACGGTGAGCTGAACTACCAGAACCCGAATTTCGACGACAACCAGGATCTGAACTGGAGCCAGTACGGCGTCTCGTTCGACCTGCGCCGCCACTTCATCCAGGAAGGCCGCGGCTGGAACCCGTACCTGCTGTTCGGTCTGGGCTACCAGAAGACCGAGGAAGAGTACGACAACAACCCGAGCCCGGATTCCCCGGCTCAGCGTAAGGACGGCGAGTTCGCAGCCAAGGTTGGCGTCGGCGTGCAGACCACCTTCGAGAAGCGCGTCGCCGTGCGTGCCGAAGTGGCCTACCGTGCCGATTTCGACGACCAGAGCATCGCTGCTCCGGACGAAGACTGGTTCGGCGACGTGCTGGCTTCGGTCGGCGTCGTGATCCCGCTGGGCCCGGCCCCGGTTTCCGCTCCGCCGCCGGCCCCGGCGCCGGTTGCGCCGAGCTGCGCCGACCTGGATGACGACGGCGACGGCGTCAACAACTGCGACGACAAGTGCCCGGATTCGCAGCCCGGCCAGACCATCGGTCCGGACGGCTGCCCGGTGCCGGTGTCGATCGACCTGAAGGGCGTGAACTTCGACTTCGACAAGGCGACCCTGCGTCCGGACGCCGTGGCGATCCTGAGCGAAGCGACCCAGATCCTGGTCCGTTACCCGGACCTGAAGGTCGAAGTCGCCGGTCACACCGACTCGAAGGGCACCGACGCCTACAACCAGAAGCTGTCGGAGCGTCGCGCCACCGCGGTGTACGACTACCTGACCAGCAATGGCGTGGACGCTTCGCGTCTGGTCGGCCCGATCGGCTACGGCGAGAGCCGCCCGATCGCTCCGAACACCAACCCGGATGGTTCGGACAATCCGGAAGGCCGTGCGAAGAACCGTCGTACCGAGCTGAACGTCCAGAACTAA	MNKKILTAALLGGLAVAQAASAQEFDDRWYLTGSAGFNFQDGDRTTNDSPFVTLGLGKFVSPNWSIDGELNYQNPNFDDNQDLNWSQYGVSFDLRRHFIQEGRGWNPYLLFGLGYQKTEEEYDNNPSPDSPAQRKDGEFAAKVGVGVQTTFEKRVAVRAEVAYRADFDDQSIAAPDEDWFGDVLASVGVVIPLGPAPVSAPPPAPAPVAPSCADLDDDGDGVNNCDDKCPDSQPGQTIGPDGCPVPVSIDLKGVNFDFDKATLRPDAVAILSEATQILVRYPDLKVEVAGHTDSKGTDAYNQKLSERRATAVYDYLTSNGVDASRLVGPIGYGESRPIAPNTNPDGSDNPEGRAKNRRTELNVQN	PGPT0022215_2125	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022215-ompA_ompF_porin|oprF-K03286	NA	NA
BMS020_03893	498			hypothetical protein	ATGCTGCGTTTCGCCACGGCCGGATTGCTCGGTCTCGCCCTTGTTCCCGCCGCCCACGCCGCAACCGACTGCGCCGGCAGCACCGTCGCCAGGCCGCTGCCGTTGCCGGCCACGGTGATCGCCCCGGCGGCGTCGGAGTTCTATACCCGCAGCGTGCAGCTCGGCGTGCCCAGCGGCGTGCTGGTGCAGCCTTACAGCGACGAGCAGTCGGCCGACCGGGTGCTGCTGCGCCTGCGCGTGGAAGGCTGCCAGGACCTGGCCAAGGCGATCCCGGCCGGTGGTGCCGCCAAGCCAAACGATCCGGCGGCCTACAAGCCGCAGACCGCGTTCGACAACACCCCGTGGCGCTTCGACATGAGCCAGAACGGCAAGCGGATGACCGCCGAGGAATTCGACGCCTGGATGAAGGCGCGCGGCGTGCGCGTGGTCAAGGCGCGTCCGGCGCCGGCCGCTGCCGCGCAGCCGGCCGCCGACACCAAGCCGGCCGACGCGAAGTAA	MLRFATAGLLGLALVPAAHAATDCAGSTVARPLPLPATVIAPAASEFYTRSVQLGVPSGVLVQPYSDEQSADRVLLRLRVEGCQDLAKAIPAGGAAKPNDPAAYKPQTAFDNTPWRFDMSQNGKRMTAEEFDAWMKARGVRVVKARPAPAAAAQPAADTKPADAK				NA	NA	NA	NA	NA
BMS020_03894	801	rluB_1	COG1187	Ribosomal large subunit pseudouridine synthase B	ATGGATCGGGTGAGGCACCGGCGGCCCCCGTCGGCTCCCGCCCGGTCCCGGCATCCGGCGGGGCCGCGTCCCGCCGTTCCCCGCCATGGCGTGGCGCGGGTGCTGTCGCGGCAGGGGCTGTGCTCGCGCAGCGAGGCGGCGCGCTGGGTCGAGGCCGGGCGCGTCGCGGTCGACGGCCGCGTGGTGCGCGACCCGGAGTTTCCGGTCGCCGCCGGCCGCGAACACACGATCAGCATCGATGGCCAGCCGCTGGCGGGCGTGGCGCGCGTGTACATCGCGCTGAACAAGCCGCGCGGGCTGGTGACCACCGCCAGCGACGAGCGCGGGCGCGACACCGTCTACCGTTGCCTGGATGAGGCTGGGCTGCCGTGGCTGGCGCCGGTGGGGCGGCTGGACAAGGCCAGCGAGGGCCTGCTGCTGTTGTGCAACGACCCGGCCTGGGCCGCGGCGGTGACCGATCCGGACCGCGGGCCGGACAAGACCTATCACGTGCAGGTGGACTGCCTGCCGACACCGGCGCAGCTGCAGGCGCTGGAAGCCGGCGTCGCCTGCGATGGCGAATGGCTGCGCGCGCGGCGCGCCACGCTGCTGCGCGAAGGCACCCGCAATGCCTGGCTGGAGATCGTGCTGGAGGAGGGCCGCAACCGGCAGATCCGCCGCCTGCTCGCGGCGCAGGACATCGCGGTGCTGCGGCTGGTGCGGGTGGCGATCGGCACGCTGCAGCTGGGCACGCTGCCCAAGGGCGGCTGGCGGGTGCTGGCGCCGGCCGAGATCGCGGCGCTGGTCGCGGCGCCGGACTGA	MDRVRHRRPPSAPARSRHPAGPRPAVPRHGVARVLSRQGLCSRSEAARWVEAGRVAVDGRVVRDPEFPVAAGREHTISIDGQPLAGVARVYIALNKPRGLVTTASDERGRDTVYRCLDEAGLPWLAPVGRLDKASEGLLLLCNDPAWAAAVTDPDRGPDKTYHVQVDCLPTPAQLQALEAGVACDGEWLRARRATLLREGTRNAWLEIVLEEGRNRQIRRLLAAQDIAVLRLVRVAIGTLQLGTLPKGGWRVLAPAEIAALVAAPD				NA	NA	NA	NA	NA
BMS020_03895	420			hypothetical protein	ATGAAGACCACACAACGTCCGGCCGTGATGGCCGGTGCGATGGCGCTGTCCGCCTGCCTGCTGCTATCCGCCTGCGCCACGCGCGAAGCGAAGCCGGCTCCCGCCGCCGCGCTGCGCGGCGATGCCCGCGATGCCCGCGGCGCCTACCGGTTCGAGATGAGCCAGCACGGCAAGCGCATGAGCGCCGACGAATTCGATGCGTGGATGAAGGCCAACGGCATCCGCGTGGCCAAGGGCAAGCCGGGGGCGACCCGCCAGGCCGCCCCGGGCACCGCCAAGCCGGCGCCCAAGGCGGTCGCCAAGCCGGCGCCCAAGGCGGTCGCCAAGACCAGCAGCGGCAAGGCCAAGGCCAAGACCGGCAAAAAGACGGCCAAGAAGACGATCGCGCAGACCCGCGCGGCGACGTCCGGGGAAGGCTGA	MKTTQRPAVMAGAMALSACLLLSACATREAKPAPAAALRGDARDARGAYRFEMSQHGKRMSADEFDAWMKANGIRVAKGKPGATRQAAPGTAKPAPKAVAKPAPKAVAKTSSGKAKAKTGKKTAKKTIAQTRAATSGEG				NA	NA	NA	NA	NA
BMS020_03896	1203	kbl_2	COG0156	2-amino-3-ketobutyrate coenzyme A ligase	ATGACCGAGACCTCCACGACCCATCGCTATGCCGAGGAGCTGGACGCGATCCGCGCCCAGGGCCTGTTCAAGTCCGAGCGCATCATCACCGGCCCGCAGTCGGCCGAGATCACCCTCGCCGACGGCCGCACGGTGCTGAACTTCTGCGCCAACAACTACCTGGGTCTGGCCGACCACCCGGCGGTGATCCAGGCTGCCAAGGACGCGCTGGACAGCCACGGCTTCGGCATGGCCTCGGTGCGCTTCATCTGCGGCACCCAGGACCTGCACAAGCAGCTCGAACAGACCATCGCCGAGTTCTTCGGCACCGAGGACACCATCCTCTATGCGGCCTGCTTCGATGCCAACGGCGGCCTGTTCGAGCCGCTGCTCGGCGAGGACGACGCGATCATCTCCGACGCGCTCAACCACGCCTCGATCATCGACGGCGTGCGCCTGTGCAAGGCCAAGCGCTTCCGCTACGCCAACTGCGACATGGCCGACCTGGAAGCGCAGCTGCAGGCGGCCGATGCGGCCGGCTGCAAGACCAAGCTGATCACCAGCGACGGCGTGTTCTCGATGGACGGCTTCATCGCCCCGCTCGACGAGATCACCGCGCTGGCCAAGAAGTACAACGCGCTGGTGCACATCGACGAATGCCACGCCACTGGCTTCCTCGGCAAGACCGGCCGCGGCTCGGCCGAGGTCAAGGGCGTACTGGACAAGATCGACATCTTCACCGGCACGCTGGGCAAGGCGATGGGCGGCGCGCTCGGCGGCTTCACCACCGCCAGGAAGGAAGTGATCGAACTGCTGCGCCAGCGCTCGCGCCCTTACCTGTTCTCCAACTCGCTGCCGCCGCACGTGGTCGCCGCCGGCATCAAGGCATTCGAGATGCTCGACGCCGCCGGCGAGCTGCGCGAGCAGCTGGTCACCAACACCGCGTATTTCCGCGAGCAGATGGTCGCCGCCGGTTTCGACATCAAGCCCGGCGTGCACCCGATCAGCCCGGTGATGCTGTACGACGCGCCGCTGGCGCAGACGTTCGCCGAGCGCCTGCTGGAAGAAGGCATCTACGCGATCGGCTTCTTCTTCCCGGTGGTACCCAAGGGCCAGGCGCGGATCCGCACCCAGATCAGCGCTGCGCACACCCGTGAACACCTCGATCGCGCGATCGACGCCTTCACCCGCATCGGCCGCGAGCTGGGCGTGATCGGCGCCTGA	MTETSTTHRYAEELDAIRAQGLFKSERIITGPQSAEITLADGRTVLNFCANNYLGLADHPAVIQAAKDALDSHGFGMASVRFICGTQDLHKQLEQTIAEFFGTEDTILYAACFDANGGLFEPLLGEDDAIISDALNHASIIDGVRLCKAKRFRYANCDMADLEAQLQAADAAGCKTKLITSDGVFSMDGFIAPLDEITALAKKYNALVHIDECHATGFLGKTGRGSAEVKGVLDKIDIFTGTLGKAMGGALGGFTTARKEVIELLRQRSRPYLFSNSLPPHVVAAGIKAFEMLDAAGELREQLVTNTAYFREQMVAAGFDIKPGVHPISPVMLYDAPLAQTFAERLLEEGIYAIGFFFPVVPKGQARIRTQISAAHTREHLDRAIDAFTRIGRELGVIGA	PGPT0020495_832	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020495-kbl-K00639	NA	NA
BMS020_03897	597			hypothetical protein	ATGCGCAACGGCTATAAGCGCCTGAGGATTGGTCATTTCCGGCCGATGGTGTGCGCCTGCAGCATCGGCATCCCGGATGAACAGGGCTTCGTCCGTCGCCCCGAGACCCACGCCATGCAGCAGCCACAGGGAGAACGCCACGCCGCCGCACCGCGCCGCCTGCGTGCGCGGGCGACTGGCCGCGGCGTGCCCGGGCAGACGGGATGCATGCCGGCCGTGATCACCGCGGCGGAGTGGCGCGCCGGCGCGGGGCGGGTTGCCGGCCGCGGTCCGTCCCGTGGCGACGAGGCGGGATATCGCGGTGTTGTCAAACCTTCGCGGCTGTTTGTCGCGGCTGGCGAAGGGCGGGGGGCATGGGAACGGGTGGGACGGTATGGTGTAGCCGAGGTGGGCGACGCGGCGTTCCCGTCGTTCGCCGATGCCGCCACGTCGGCACGTCGCGCCGGGGCATGGAGGTCCGGCGCCACCGGGTTCCTCGCCAGCACCCTGAAGCTGGTCGTCAATTCTTCGCAGGCCCGCTTCGATGGCGGGGCTGTGGCTGGTGCAGGCCGGGAGGGCGAGAAGACGCTCTTCTCCCGGGTGCAGGTTTCCTTCTGA	MRNGYKRLRIGHFRPMVCACSIGIPDEQGFVRRPETHAMQQPQGERHAAAPRRLRARATGRGVPGQTGCMPAVITAAEWRAGAGRVAGRGPSRGDEAGYRGVVKPSRLFVAAGEGRGAWERVGRYGVAEVGDAAFPSFADAATSARRAGAWRSGATGFLASTLKLVVNSSQARFDGGAVAGAGREGEKTLFSRVQVSF				NA	NA	NA	NA	NA
BMS020_03898	1029	sbp_2	COG1613	Sulfate-binding protein	ATGAAGACATGGCTCGCATCCCCCCGCGTGATGCGCATCTGGGCCGGGGCGCTGCTGCTCGGCGCGGTCGTCGGTGGCGCCGCGGCGCGCGAGGTCCAGCTGCTCAACGTCTCCTACGACCCCACGCGCGAGCTCTACCGCGACTACAACGCCGCCTTCGCCAAGCACTGGCAGCAGAAGAGCGGCGACACCGTCACCGTGGAAACCTCGCATGGCGGATCGGGCAAGCAGGCGCGTTCGGTGATCGACGGCGTCGAGGCCGACGTGGTCACCCTGGCGCTGGCCTACGACGTGGATGCGGTGGCCGAGAAGGCCAAGCTGATCCAGCCGGGCTGGGAGAAGCGCCTGCCCGACAACAGCGCGCCGTACACCTCGACGATCGTGTTCCTGGTGCGCAAGGGCAACCCCAAGGGCGTCAAGGACTGGCCGGACCTGCTGCGCTCGGGCGTGTCGGTGGTGACGCCGAACCCGAAGACGTCCGGCGGCGCGCGCTGGAACTACCTGGCCGCATGGGCGTACTTCGACCGGATCTTCAAGGGCGACCAGGACAAGGTCCGCCGCAGCATGGTCGCGCTGTTCCGCAACGTGCCGGTGCTCGATACCGGCGCGCGCGGCGCCACCACCACCTTCGTCCAGCGTGGCATCGGCGACGTGCTGCTGGCCTGGGAGAACGAGGCGTTCCTGGCGCTGGAGGAACTGGGCCCGGACAAGTTCGAGATCGTGGTGCCGAAGCTGTCGATCCTGGCCGAGCCGTCGGTGGCGGTGGTCGACAAGAACGTCGACAAGCACGGCACCCGCGCCGCGGCGGAGGAATACCTGCGCTACCTGTATTCGCCGGAGGGGCAGAAGATCGCCGCCCGCCACTTCTACCGCCCGCGCCACCCCGAGTACGCCGACAAGGCCGATATCGCCCGGTTCCCCAAGGTCGAGCTGGTGACGATCGATCAGGTGTTCGGCTCGTGGCAGAAGGCCCAGGCCGAGCACTTCGCCGACGGCGGCGTGTTCGACCAGCTGCAGGCGAGCAAGTAA	MKTWLASPRVMRIWAGALLLGAVVGGAAAREVQLLNVSYDPTRELYRDYNAAFAKHWQQKSGDTVTVETSHGGSGKQARSVIDGVEADVVTLALAYDVDAVAEKAKLIQPGWEKRLPDNSAPYTSTIVFLVRKGNPKGVKDWPDLLRSGVSVVTPNPKTSGGARWNYLAAWAYFDRIFKGDQDKVRRSMVALFRNVPVLDTGARGATTTFVQRGIGDVLLAWENEAFLALEELGPDKFEIVVPKLSILAEPSVAVVDKNVDKHGTRAAAEEYLRYLYSPEGQKIAARHFYRPRHPEYADKADIARFPKVELVTIDQVFGSWQKAQAEHFADGGVFDQLQASK	PGPT0003015_938	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003015-sbp-K23163	NA	NA
BMS020_03899	855	cysT_1	COG0555	Sulfate transport system permease protein CysT	ATGTCGGCAGCGGTAGGAACCACGGCGCGCCGTCCGGCGCGTCGCCGCGTGATCCCCGGGCTCGGCCTGAGCCTGGGGATCACGCTTGCCTGGCTGGGCGTGATCGTGCTGATCCCGTTGCTGGGCGTGTTCGTCAAGACCAGCGGGCTGGGCCTGGACGGGATCTGGCGGGTCTGGAGCGAGCCGCGGGTGCTGTCGGCGCTGCAGCTGAGCTTCGCCACCGCGCTGGCCGCGGCGGCGTTCAACGCGCTGATGGGCACCTGGGTGGCCTGGGTGTTCGTGCGCTACCGGTTCCCGGGCAAGCGCCTGTTCGACGCGATGATCGACCTGCCGTTCGCGCTGCCGACCGCGGTGGCCGGCATCGCGCTGACCGCGCTGTACGGCGGCAACGGCTGGATCGGGCGCTGGCTGGAGCCGTTGGGGCTGAAGGTGGCCTACACCCAGCTCGGCATCGTCGTGGCGCTGGTGTTCGTCGGCCTGCCGTTCGTGGTGCGCGTGGTGCAGCCGGTGCTGGCCGAGAGCGAGCGCGAGCTGGAGGAGGCGTCGGCCACGCTCGGCGCCGGGCGCTGGCAGACCGTGTTCCGGGTGGTGCTGCCGCGGCTGTGGCCGGCAGTGCTGACCGGCTTCGCGCTGGCGTTCGCGCGCGGGGTCGGCGAATACGGCTCGGTGATCTTCATCGCCGGCAACATGCCCAACGCCACCGAGATCGCCCCGCTGTTGATCACCATCCGGCTGGAGGAGTTCGACTACGCCGGCGCCACCGCGATCGCCGCGGCGATGTTGCTGCTGTCGTTCGCGATCCTGCTGCTGGTGAACGGCCTGCAGGGCCGGCTGCAGCATCGGGGCCGGGAGTAG	MSAAVGTTARRPARRRVIPGLGLSLGITLAWLGVIVLIPLLGVFVKTSGLGLDGIWRVWSEPRVLSALQLSFATALAAAAFNALMGTWVAWVFVRYRFPGKRLFDAMIDLPFALPTAVAGIALTALYGGNGWIGRWLEPLGLKVAYTQLGIVVALVFVGLPFVVRVVQPVLAESERELEEASATLGAGRWQTVFRVVLPRLWPAVLTGFALAFARGVGEYGSVIFIAGNMPNATEIAPLLITIRLEEFDYAGATAIAAAMLLLSFAILLLVNGLQGRLQHRGRE	PGPT0003000_525	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003000-cysT|cysU-K02046	NA	NA
BMS020_03900	909	cysW_1	COG4208	Sulfate transport system permease protein CysW	ATGCCGGCCCGCCGGTCGCGCGAGATCGTCGCTGCCGCCACCACCGAGCCGCGCTGGGCGCGCTGGCTGTTGACCGGCGGCGCGCTGGCGTTCCTGCTGTTCTTCCTGCTGCTGCCGCTGGTGCTGGTGTTCGCCGAGGCGCTGCGCGGCGGCGCCGAGGTGTTCTGGAAGGCGATCAGCGATCCCGATGCGCTGGCGGCGATCAGGCTGACCCTGCTGGTCACCGCGATCGTGATTCCGCTGAACCTGGTGTTCGGCGTGGCCGCGGCGTGGGCGGTGAGCAAGCATCGCTTCCCCGGGCGCCGGCTGCTGGTCAGCCTGATCGACCTGCCGTTCTCGGTGTCGCCGGTCGTGGCCGGCCTGATCTTCATCCTGCTGTTCGGCCGCGAGGGTTGGTTCTGGCCGCTGATCGACGACGGCTGGACGCTGACCCTGCCGGTGCTGGGCGAAACCCTGGTGAAGCTGCCGCGGATCGTGTTCGCGCTGCCTGGCATCGTGCTGGCCACCACCTTCGTGACTTTCCCGTTCATCGCCCGCGAGCTGATGCCGCTGATGGAGCAGCAGGGCAGCGACGAGGAACTGGCCGCGCTGACCCTGGGCGCTGGCGGCTGGCAGACGTTCTGGCGGGTGACCCTGCCGAACATACGCTGGGGCCTGCTGTACGGCGTGCTGCTGTGCGGCGCGCGCGCGATGGGTGAATTCGGTGCGGTGTCGGTGGTGTCCGGGCACATCCGCGGGCGCACCAACACGCTGCCGCTGCACGTGGAGATCCTCTACAACGAATACGCCTACAGCGCCGCGTTCGCCTGCGCGTCGCTGCTGGCGCTGAGCGCGCTGCTGACGCTTGCGCTGAAGACCTACCTGGAATGGCGCCACGGCGAATCGCTGGCCGCCAACCACCGCCACTGA	MPARRSREIVAAATTEPRWARWLLTGGALAFLLFFLLLPLVLVFAEALRGGAEVFWKAISDPDALAAIRLTLLVTAIVIPLNLVFGVAAAWAVSKHRFPGRRLLVSLIDLPFSVSPVVAGLIFILLFGREGWFWPLIDDGWTLTLPVLGETLVKLPRIVFALPGIVLATTFVTFPFIARELMPLMEQQGSDEELAALTLGAGGWQTFWRVTLPNIRWGLLYGVLLCGARAMGEFGAVSVVSGHIRGRTNTLPLHVEILYNEYAYSAAFACASLLALSALLTLALKTYLEWRHGESLAANHRH	PGPT0003005_97	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003005-cysW-K02047	NA	NA
BMS020_03901	1041	btuD_8		Vitamin B12 import ATP-binding protein BtuD	ATGAGCATCGGCATCCGCATCCACGACCTGCACAAGCGCTTCGACCACTTCACCGCGCTGGACGCGATCGACCTGGACATCCGCCCCGGCGAACTGCTGGCGCTGCTGGGGCCGTCCGGCTCGGGCAAGACCACGCTGCTGCGGATCATCGCCGGCTTGGAATACGCCGACCGCGGCCGCGTGCTGTTCGGCAACGAGGAGGCGACCAGCATGAGCGTGCAGTCGCGCCGGGTCGGCTTCGTGTTCCAGCACTACGCGCTGTTCAAGCACATGACGGTGTTCGAGAACATCGCGTTCGGGCTGCGCGTGCGCCGCGGCGACGACCGCCTGGGCGAATCCAAGATCCGCGAGCGCGTGCACGAACTGCTGGCGCTGGTGCAGCTGCAGGGGCTGGAAAAGCGCTACCCGACCCAGCTGTCCGGTGGCCAACGCCAGCGTGTGGCGCTGGCGCGCGCGCTGGCGATCCAGCCGCGCGTGCTGCTGCTCGACGAGCCGTTCGGCGCGCTCGATGCGCAGGTGCGGCGCGACCTGCGGCGCTGGTTGCGCGAGCTGCACGAGCGGACCGGCTTGACCACGGTGTTCGTCACCCACGACCAGGAAGAGGCGCTGGAGCTGGCCGACCGGGTGGCGATCCTCAACGGTGGCCGGATCGAACAGCTCGACAGCCCGGCGCTGGTCTACGACCGCCCGGCGTCGCCCTTCGTGTATTCCTTCGTCGGCGCGGTCAACCGCATCGAGGGGCATGCCGCCGACGGCCAGCTGCAGGTGGCCGGGGCGCGGCTGCCGCTGCAGCCGGCGCAGGCCGCCGAGGGTCCGGTGGCGATGTTCGTGCGCCCGGAGGACCTGGTGCCGGACGCGGACGGGTGGGGCGCGACGGTGGTGTCCAGCCAGCGCAGTGGCCCGCGCACGCGCCTGCGCGCGCGCCTGGACACCGGCGGCCAGGAAGTGGAGGTCGAACTGCCGGCGTTCGACGGGCCATGGGCTGCCGGGCAGCGGCTGACCCTGGCGGCGCGGCGCTACGGGCTGTTTCCGGCGGCGTGA	MSIGIRIHDLHKRFDHFTALDAIDLDIRPGELLALLGPSGSGKTTLLRIIAGLEYADRGRVLFGNEEATSMSVQSRRVGFVFQHYALFKHMTVFENIAFGLRVRRGDDRLGESKIRERVHELLALVQLQGLEKRYPTQLSGGQRQRVALARALAIQPRVLLLDEPFGALDAQVRRDLRRWLRELHERTGLTTVFVTHDQEEALELADRVAILNGGRIEQLDSPALVYDRPASPFVYSFVGAVNRIEGHAADGQLQVAGARLPLQPAQAAEGPVAMFVRPEDLVPDADGWGATVVSSQRSGPRTRLRARLDTGGQEVEVELPAFDGPWAAGQRLTLAARRYGLFPAA	PGPT0002990_1156	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002990-cysA-K02045	NA	NA
BMS020_03902	708			hypothetical protein	ATGAAGTCGTACACGCTCGGTTGTGCCCTGCTGTTCGCGCTGTCCTCGATGTCTGCGCCCGCCTTCGCCCAGGACGAGGCCGAGGATGACTACAAGCCCTTCAGCGCCACCCTCGCCGTGACCAGCGACTATGTCTGGCGCGGTGCCTCCCAGACCAGTGAAGACCCGGCGTTCCAGGCCGGTGCCACCTATACCGCGCCGTTCGGCCTGTACCTGGGCGCGTGGACCTCGAACGTCGATTTCGGCGGTGGCGATCCCGATTGGGAACGCGACTACTACATCGGCTACAACACCGATTTCGGCCAGTACGTGAACTTCGACGTGATGGTCAACCGCTACACCTACGGCGGTGCCAGCGACCTGGACTGGAACGAGCTGATCACCAAGACCACGTTCTTCGAGAACTACAGCCTGACCCTGGCCTACTCGAACGATTCGTGGGCCACCGAGGAAGATGGTTACTACGCGGCGCTGGGCGGCAACTGGTCGCTGCCGCACGACTTCTCGATCGGCGCCAGCTACGGCCGCAGCATGTTCAGCAACAAGGCCGGGATCGAGGACTACTCGGACTACTCGGTCAGCGTGGGCAAGACCTTCGGGCCGCTGACGCTGTCGGTGGCCTACATCGATACCGACAAGGCCGGCGAGCGCGTCAATGGCAGCAACGGTGGCGATCGCGTGGTGGTGACCGCGACCGTGGGGCTGTAA	MKSYTLGCALLFALSSMSAPAFAQDEAEDDYKPFSATLAVTSDYVWRGASQTSEDPAFQAGATYTAPFGLYLGAWTSNVDFGGGDPDWERDYYIGYNTDFGQYVNFDVMVNRYTYGGASDLDWNELITKTTFFENYSLTLAYSNDSWATEEDGYYAALGGNWSLPHDFSIGASYGRSMFSNKAGIEDYSDYSVSVGKTFGPLTLSVAYIDTDKAGERVNGSNGGDRVVVTATVGL				NA	NA	NA	NA	NA
BMS020_03903	1035	tdh_2	COG1063	L-threonine 3-dehydrogenase	ATGGCAGAGATGATGAAGGCGCTGGTCAAGCGCGAGGCGGCCAAGGGCATCTGGCTGCAGGAAGTTCCCAAGCCCACGCCCGGCCCCAACGAGGTGCTGATCAAGCTGGAGAAGACCGCGATCTGCGGCACCGACCTGCACATCTACCTGTGGGACGACTGGAGCCAGCGCACGATCAAGCCGGGCCTGACCATCGGCCACGAGTTCGTCGGCCGCATCGCCGAGCTCGGCTCGGCGGTCACCGGCTACCAGATCGGCCAGCGCGTCTCGGCCGAGGGCCACATCGTCTGCGGGCACTGCCGCAACTGCCGCGGCGGCCGCCCGCACCTGTGCCCGAACACCGTCGGCATCGGCGTCAACGTCAACGGCGCGTTCGCCGAGTACATGGTGATGCCGGCCAGCAACCTGTGGCCGATCCCGGACCAGATCCCGTCCGAGCTGGCCGCGTTCTTCGACCCGTACGGCAACGCCGCGCACTGCGCGCTGGAGTTCGACGTGATCGGCGAGGACGTGCTGATCACCGGCGCCGGCCCGATCGGCATCATTGCCGCCGGCATCTGCAAGCACATCGGCGCGCGCAACGTGGTGGTCACCGACGTCAACGACTTCCGCCTGAAGCTGGCCGCCGACATGGGCGCCACCCGCGTGGTCAACGTCGCCAACACCTCGCTGAAGGACGTGATGGCCGAGCTGCACATGGAAGGCTTCGATGTCGGCCTGGAAATGAGCGGAAACCCGCGCGCGTTCAACGACATGCTCGACTGCATGTACCACGGCGGCAAGATCGCCATGCTCGGCATCATGCCCAAGGGCGCCGGTTGCGACTGGGACAAGATCATCTTCAAGGGCCTGACCGTGCAGGGCATCTACGGTCGCAAGATGTACGAGACCTGGTACAAGATGACCCAGCTGGTGCTGTCCGGCTTCCCGCTCGGCAAGGTGATGACCCACCAGCTGCCGATCGACGAGTTCCAGAAGGGCTTCGACCTGATGGAAGAAGGCAAGGCCGGCAAGGTCGTGCTGAGCTGGAATTGA	MAEMMKALVKREAAKGIWLQEVPKPTPGPNEVLIKLEKTAICGTDLHIYLWDDWSQRTIKPGLTIGHEFVGRIAELGSAVTGYQIGQRVSAEGHIVCGHCRNCRGGRPHLCPNTVGIGVNVNGAFAEYMVMPASNLWPIPDQIPSELAAFFDPYGNAAHCALEFDVIGEDVLITGAGPIGIIAAGICKHIGARNVVVTDVNDFRLKLAADMGATRVVNVANTSLKDVMAELHMEGFDVGLEMSGNPRAFNDMLDCMYHGGKIAMLGIMPKGAGCDWDKIIFKGLTVQGIYGRKMYETWYKMTQLVLSGFPLGKVMTHQLPIDEFQKGFDLMEEGKAGKVVLSWN	PGPT0020460_414	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_THREONINE_DEGRADATION,PGPT0020460-tdh-K00060	NA	NA
BMS020_03904	2322	btuB_1		Vitamin B12 transporter BtuB	ATGCCTTCCATTCGTGCCTGTCGTCCCGCCGTGCTGAGCGTCGCGCTCGGCCTGATCCTTCCCACCCTCGCCCATGCCGCCGACGCAGCTGACGCCAGTGCCGTCGCATCGCCGGCCGATGCCGACGCCAACACCAGCGCCACCCAGCTCGACACCGTATCGGTGGTCGCGCCCGGCACCACGCGCCAGGTGCAGAGCATCGGCCGCGAGGACATCCAGCGCCTGCCGGCCGGCAGCAGCGCATTGAAGGCGATCGACAAGTTGCCGGGCGTGCAGTTCCAGGCCGCCGATCCGTGGGGCGCGTACGAGTGGTCGACCTCGATCACCCTGCACGGCTTCGACCAGAGCCGGCTCGGTTTCACCCTCGACGGCATCCCGCTCGGCAACATGAGCTACGGCATCACCAACGGCCTGCAGGTGACCCGTGCGATCACCTCCGAGAACATCGGCTCGGTCGAACTGGCGCAGGGCGCCGGCGCGCTCGGCACGCCTTCGGCAACCAACCTCGGCGGTACCCTGCAGTTCTTCTCGGCCGATCCGGAATCCACGCCCGGCGCGCGGGTCAGCCAGACCTTCGGCTCGGACGCGACGCGCCGCACCTTCGTGCGCGCCGACAGCGGCGACCACGGCGGCTTCTCCGCCTACGCGTCCTACGCCAACGCCAGCACCGACAAGTGGAAGGGCTATGGCGACCAGACGTCCGAGCAGGCCAACCTCAAGGCGCTGTACCAGTGGGGCGACGGCAACCGCATCGCGCTGTTCCTGGACAGCTCGCGGCGCAAGGAATACGACTACATGGACCTGTCGCTGACCAGCCAGAAGGTGCTGGGCTGGGATTGGGACTACCTGCAGCCGAACTGGGATACCGCGGTGCAGATGGCCAACGCCTACCAGAGCACCGGCAGCTACGCCGGCGTCGCCAACGGCTACCCGGCCGCGCTGGCCGGGCTGCCGGCCGACTACGACTGGCTCGACGCGGTGTACTACGCCGGCGGCGGCATCCGTCGCGACAATCTGGCGGGCCTGAGCGGCAGCTTCAACGTCGGCGGCGCCACCCTCGACGCCACCGGCTACTACCACGGCGCGCGCGGCGAAGGCCAATGGGTCACGCCGTACGTCGCCAGCTCGGCCAGCGTGCCACTGGCGATGCGCACCACCGACTACGGCCTGGACCGCTTCGGCGCCGATGCCGCGCTGAAGTTCGCGCTCGGCAACCACGACATCGAGATCGGCGCCTGGGCCGAGAACGGCGGCACCAACCAGGAGCGCAACTACTTCGCGCTCGGCAGCAGCGGCTACACCTCGCTGTACAACTTCTACGAGAACGAACCGCTGCTGGCACGCGGCTTCCTGCAGCACTACGAAACCCAGACCCGGATGGTCTACGCCGAAGACAGCCTGCACCTGCTCGACGACCGCCTGACCATCAACTACGGCGCCAAGGCGCTGCGCGTCACCACCACCGCGCGCTCGCTGGTGGCCACCAGCTCGTTCGCCGAGGGCGAGATGCAGGCCAGCGACAACTTCCTGCCGCAGGTCGGCGCCGACTACCGGCTGGACGCGCACCAGGACATCTACGCCTCCTACAGCGAGAACATCGCCAACTACGGCTTCACTCCGTTCGCGACCTCGCAGGCGGCGTTCGACAGCAACAAGGCGGTGCTCAAGCCCGAGCAGTCCAAGACCCTGCAGATGGGCTACCGCGCCCAGGGCGAGACCGTGCAGGCCTCGGCCGGCATCTACTACACCCAGTTCTCCAACCGGCTGCTGACCACCTCGCCGTGCAGCGCGGTGCAGACCTGCGCCTCGATCCTCAGCAACGTCGGCGACGTGCGCAGCGTCGGCACCGACCTGGCGCTGGTGTGGAAGCCGGTCGACGGCCTGAGCTGGCTCAACACGCTGTCCTACAACAGCTCCAAGTACCAGGACGACTACCTCAACAACGGCGTGGTCGAGACCTCTGGCAAGTACGTGGTCGGCGTGCCGTCGTGGATGTTCTCCTCCAGCGCCAGCTACAGCGTCGCCGGCTGGACCTTCACCGTCGACGGCAAGTACACCGGTCGCCGCTACATCAGCTACCTCAACGATTCGGAGGTGCCGTCGTACTGGCTGTTCAACGCCGGGGTGCGCTACGACGCCGGCCGCATCGCCGACGTGGTCGACCTGAGCGTGGCGCTGAACGTGACCAACCTGGCCGACAAGCGCTACTTCGCCAGCACCGGCACCAACGGCTACGTCGCCTCCGACCCGGACGGCTACAACCAGACCCTGATGGCGGGCGCGCCGCGCCAGGCCTTCCTGACCCTGGACGCGCGGTTCTGA	MPSIRACRPAVLSVALGLILPTLAHAADAADASAVASPADADANTSATQLDTVSVVAPGTTRQVQSIGREDIQRLPAGSSALKAIDKLPGVQFQAADPWGAYEWSTSITLHGFDQSRLGFTLDGIPLGNMSYGITNGLQVTRAITSENIGSVELAQGAGALGTPSATNLGGTLQFFSADPESTPGARVSQTFGSDATRRTFVRADSGDHGGFSAYASYANASTDKWKGYGDQTSEQANLKALYQWGDGNRIALFLDSSRRKEYDYMDLSLTSQKVLGWDWDYLQPNWDTAVQMANAYQSTGSYAGVANGYPAALAGLPADYDWLDAVYYAGGGIRRDNLAGLSGSFNVGGATLDATGYYHGARGEGQWVTPYVASSASVPLAMRTTDYGLDRFGADAALKFALGNHDIEIGAWAENGGTNQERNYFALGSSGYTSLYNFYENEPLLARGFLQHYETQTRMVYAEDSLHLLDDRLTINYGAKALRVTTTARSLVATSSFAEGEMQASDNFLPQVGADYRLDAHQDIYASYSENIANYGFTPFATSQAAFDSNKAVLKPEQSKTLQMGYRAQGETVQASAGIYYTQFSNRLLTTSPCSAVQTCASILSNVGDVRSVGTDLALVWKPVDGLSWLNTLSYNSSKYQDDYLNNGVVETSGKYVVGVPSWMFSSSASYSVAGWTFTVDGKYTGRRYISYLNDSEVPSYWLFNAGVRYDAGRIADVVDLSVALNVTNLADKRYFASTGTNGYVASDPDGYNQTLMAGAPRQAFLTLDARF	PGPT0003790_9735	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_03905	2088	plcN	COG3511	Non-hemolytic phospholipase C	ATGCCCACGCTTTCCCGCCGCGCCTTCCTCGGCCGCGTCGCCGCGCTCGCCGCCGCCGGCAGCCTGCCGCCTTCCATCGCCCGCGCGTTGACGCTGCCGGTGCCATCGCGCACCGGCACGCTGGCCGACATCGAGCACGTGGTGGTGTTCATGCAGGAGAACCGCTCGTTCGACCACTATTTCGGCACCTTGCGCGGCGTGCGCGGCTACGGCGACACGCGCGCGATGACGCTGCGCGACGGCCGCCCGGTGTGGCGCCAGGCCGCGGCCGACGGGCGCGTGGTGGCGCCGTTCCGCTTCCGTCCCGATACTCGCGCGCCGCTGATCAAGAGCCTGGACCATTCCTGGAAAGGCGCCGCCGGTCAGGACCCGCGGCGCTGGCAGCACAACGACTGCTGGGTGCCGTACAAGGGCGAGCTGACGATGGGCTACTTCCAGCGCGAGGACATCCCGTACTACCACGCGCTGGCCGACGCGTTCACCATCTGCGACGGCTACTTCTGCTCGCTGCACGGGCCGACCAATCCGAACCGGATGTTCCTGTTCTCGGGCACCAGCGGGCTCAGCGCCGGCGATGCGCGCCTGCAGGCGGTGGAGAACGCCGACGACGGCAACTGGACCGCCGACATGGCGCGCGACAAACCCGGCTTCGCCGCTGCCGAATGGACCACCTACGCGCAGCGCCTGAGTGCGGCCGGCATCGACTGGCGCGTGTACCAGGAATACGACAACTTCGGCGACAACTCGCTGGCCTACTTCAGCCACTTCCGCGGGTTGGCGCACGAGGACGAGCGCTACCGCCGCGCGCGCGCCTGGGTCGAAGGCTCGACCGCGGAGAACGCCGCGCAGAGCACCGCCGACCACCTGGTCGCCGCGTTCGCCGCCGACGTGCGCAACGGGCGGCTGCCGCAGGTGTCGTGGGTGATCGCGCCGACCGCCTACAGCGAGCACCCGGAGGCACCGCCGGCCTACGGCGAGTCGCTGGCCGCGCGGCTGATCGATGCACTCACCGCCAATCCCGAGGTGTGGGCCAGGACCGCGTTGATCATCAACTACGACGAGAACGACGGCTTCTTCGACCACGTGCCGGCACCGCTGCCGGCGCTGGACGCACGCATGGGGCGCAGCGCGGTCGATGTGCGCGGCGAGGACTACCACGGCGTGCCGGTGGGGCTGGGCGTGCGCGTGCCGTTGCTGGTGGTGTCGCCGTGGACGCGGGGGGGCTGGGTCAATTCGCAGCTGTTCGACCACACCTCGGTGCTGCGCCTGCTGGAGGCGCGCTTCGGCGTGGCCGAACCGAACATCAGCCCATGGCGCCGCGCGGTGACCGGCGATCTGACCAGCGTGTTCGATTTCGCCGATCCCGATGGTGCGGCGTTGTCGGCGCTGCCCGACGTGTCCGACTACCGCGCGCGCACCGCGGCGATCGCCGGCCTGCCGGCACCGGTGGCGCCGACCGACGCGGCGCTGCCGCGCCAGGAGCCGGGCCAGCGCCCGGCGCGCGCGTTGCCGTACGCGCTGCAGGTGCATGGCGACGACGGCATCGAAGACGGCAGCGTGCGCCTGCGCCTGGCCAATGCCGGCCGTGTGGCGGCGGCGTTCAACGTCTATGCGCGCGGTGGCGGGACCGGGCCGTGGTACTACACCGTGCTGCCGGGGACGACGCTCGAGGATGCGCCGCATGGTCTCGACACGGGTGCTGCGTATGCGCTGGCAGTGCATGGTCCGAACGGATTCCTGCGCGAGCTGGACGGCGACCGCGCGCGTGCGGCGCAATGCGGTACGGCGCCGTGGCTGGAGGCGGACGCGGCGGGTGATGCGCTGCTGCTGCGCATCGGCAACCGCGGTCGTCAGGCCTGCCGTCTGCAGTTGCGCGCGCTGGACTACGCCAGCACCGCGCCACGCACGCTGCAGCTCGCGCCGGGAGCCGAACAGCAGCTGCGCATCGACGTGTCGGCCAGCGATCACTGGTACGACCTGGAGCTGGTCGAGCCCGCCAGCGGCTTCCGGCGCCGGCTTGCCGGGCACCTGGAAACCGGCAAGCCGAGCCGCAGCGATCCTGCGTTGGGACGCGCCGCGGCAGGCTGA	MPTLSRRAFLGRVAALAAAGSLPPSIARALTLPVPSRTGTLADIEHVVVFMQENRSFDHYFGTLRGVRGYGDTRAMTLRDGRPVWRQAAADGRVVAPFRFRPDTRAPLIKSLDHSWKGAAGQDPRRWQHNDCWVPYKGELTMGYFQREDIPYYHALADAFTICDGYFCSLHGPTNPNRMFLFSGTSGLSAGDARLQAVENADDGNWTADMARDKPGFAAAEWTTYAQRLSAAGIDWRVYQEYDNFGDNSLAYFSHFRGLAHEDERYRRARAWVEGSTAENAAQSTADHLVAAFAADVRNGRLPQVSWVIAPTAYSEHPEAPPAYGESLAARLIDALTANPEVWARTALIINYDENDGFFDHVPAPLPALDARMGRSAVDVRGEDYHGVPVGLGVRVPLLVVSPWTRGGWVNSQLFDHTSVLRLLEARFGVAEPNISPWRRAVTGDLTSVFDFADPDGAALSALPDVSDYRARTAAIAGLPAPVAPTDAALPRQEPGQRPARALPYALQVHGDDGIEDGSVRLRLANAGRVAAAFNVYARGGGTGPWYYTVLPGTTLEDAPHGLDTGAAYALAVHGPNGFLRELDGDRARAAQCGTAPWLEADAAGDALLLRIGNRGRQACRLQLRALDYASTAPRTLQLAPGAEQQLRIDVSASDHWYDLELVEPASGFRRRLAGHLETGKPSRSDPALGRAAAG	PGPT0023510_875	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHOLIPASE_ACTIVITY,PGPT0023510-plc-K01114	NA	NA
BMS020_03906	645	pspA_2	COG0406	Phosphoserine phosphatase 1	ATGCGCATCCTGCTTGCCCGCCACGGCGAGACGCCCTGGAACGCCGAAGGCCGCTACCAGGGCCAGATCGACATCCCGCTGTCGCCGGTTGGCGAAGGCCAGGCGCGCGCGCTCGGCCAGCGGCTGGCGGACGTGGAGATCGCGCGTGCGGTGGCCTCGCCGCTGTCGCGCGCGCAGGCCACCGCGAAGGCCGCACTCGGCCCGGCGCGCGTGGCGATGCTGCAGACCGATGCCGACCTGCAGGAAATCGCCCACGGCGAGTGGGAAGGGCTGCTGGCCAGCGAGATCCATGACAAGGACCCGGCGCGCCTGCGGGCCTGGCGCGAGGAGCCCGATACGGTGCTGATGCCCGGCGGCGAATCGCTGCGGCAGGTACTCGAGCGCAGCTGGCGCGGGCTGGCCCGCGCGTCCGAGGGACTCGGCGCGGAAGAGACGCTGTTGGTGGTCGCGCACGACGCGGTCAACCGGGTGATCCTGTGCAAGGTGCTGGGCATTCCGCTGTCGCGGCTGTGGACGTTCCGCCAGGCACCGACCACGCTCAACCTGCTCGAAGGCGAGGATGTCGAATCGCTTGAAGTGGTGCGCTTGAACGACTGCGCCCACCACACCCCGTTCTTCGGCGAGGCCAAGCACCGCGCGCTGTAA	MRILLARHGETPWNAEGRYQGQIDIPLSPVGEGQARALGQRLADVEIARAVASPLSRAQATAKAALGPARVAMLQTDADLQEIAHGEWEGLLASEIHDKDPARLRAWREEPDTVLMPGGESLRQVLERSWRGLARASEGLGAEETLLVVAHDAVNRVILCKVLGIPLSRLWTFRQAPTTLNLLEGEDVESLEVVRLNDCAHHTPFFGEAKHRAL				NA	NA	NA	NA	NA
BMS020_03907	585			hypothetical protein	ATGGGATGGAAGGCGGCGTGGTTCGTCTCCGATGATCCGAGCCGGGGGCGGGTGGTGACGATACTGGCGGTGTTCGCCGTGCTCGCACTCCTGCTGCTCGGCATGTGGGCGGATTTCGCCCCGGCGCCGTTCCTGTACGGCCGGCAATGGCTGCTGCCGATGCTGCTGCTCGGCGTGGTGCTGACCGCGTGGCTGTTCCTGCATGCGCACCGCCGCGGGCGCATGGAGCAGGTGCTCGGCAAGGGCAGGCTGCATGCGCTGTTGATGATCGTGATGATGCCTGTGCTGCTGGGCGGGAGCGTTTGGCTGCTCGTCGGCAAGACCCTGCCGTGGGCGTATACGCGCGTGCTCGGGGAAGTGTTTCGCGAACCGGCGGTGATGCGTACCCATTACAGCCACAGCCGGCACAGCTGCGATTACCGGCTCGAAGACGGGCCGATGGAACATGCGTTCCCGGGCTACGTCTGCATCGACGAGGGCTTCTATCGCGCGCATCCCGAACAGTCGGTGATCGTCGTCATCGCTGGTCGTCGCTCGCGCCTGGGCACCGCGATCAGCGACGTCTACGCGCTGTCGCCGCCGTGA	MGWKAAWFVSDDPSRGRVVTILAVFAVLALLLLGMWADFAPAPFLYGRQWLLPMLLLGVVLTAWLFLHAHRRGRMEQVLGKGRLHALLMIVMMPVLLGGSVWLLVGKTLPWAYTRVLGEVFREPAVMRTHYSHSRHSCDYRLEDGPMEHAFPGYVCIDEGFYRAHPEQSVIVVIAGRRSRLGTAISDVYALSPP				NA	NA	NA	NA	NA
BMS020_03908	1140	dgcC		putative diguanylate cyclase DgcC	ATGCGCTTCCCGCAGCGCGACGGTCGCGCGCGGTCCCCGGACCGATCATCCGTTTCCGTCATGCCTTATTTCGCCGCCGGCGGTTCTGGTCCACTTGCACGTGCGCAGGCCTTCGTGCGCCGGGTCTACCCGATGCGCATCCTCGGCACCGCGTTGCTGGTGCTGCCGTATGCCTCATTGTTCGCCGAGCGCGGCGCCGGTGCCTGGATCTGGGTGCTGATGGGGCTGAACGTGCTGGGCTGGCCGCACCTGGCGTTCTGGCTGGCGCGGCGCGCCCCCGATCCCAGCGTGGCCGAACATCGCAACCTGGTGCTGGACGTGGCATTCGGCGGCTTCTGGATCGCCGCCTCGGGGCTGTGCATCTTCCCGGCCGCGGCGATGCTCAGCATCCTGATCGCCGATCGCCTGGCCGCCGGTGGCTGGCGCCTGCTCGGCCGGGCGATGCTGCTCGGCGTGGTGGTGTTCCTGGGCTGTTGGGGCGTGCTGGGCTGGCCGCTGCAGCCGCAGGCCTCGACCCGCACCATGCTGCTGGCGCTGCCGCCGGTGCTGGTCTACATGCTCGCGCTCAGCCACGTGGGCTACCAGCTGGCGCGGCGCATCGTGCAGCAGAAGCGCGAACTGGACCGGCTGGCGCTGACCGACGTGGTGGTGAACCTGCCGAACCGGCGCTTCTTCAACGCGCGCGCCGAGGACCTGATCGCCTCGGCCCGGGCCGGGGGCGGCGAGGCGGTGCTGCTGCTGGTCGATGTCGACTGTTTCAAGGCGATCAACGACCGCTACGGCCATGGCGCCGGCGACCAGGCGCTGCGGGCGATCGCCCGCGTGCTGCGCGAGCATGCCGGCACCGGCGGCTTCCCGGCGCGGGTCGGCGGCGACGAGTTCGCCTTGCTGCTGCCGGCTACGCTGCCGCAGGGCGAGGCACTGGCCGCGCGCCTGCATGAGGCGGTGGCCGCGCTGGCGGTGCCGGGTTGCGACGGTCTGACGCTGCAGATCAGCGTCGGCGTGGCGCTGCTGGCCGAGCACCACCGCGGCCTGGACGACTGGCTGGGGGCCGCGGACCGGGCGATGTATGTGGCCAAGGCCGCCGGCAGCGTGCTGCGGCACGCCCGTCCCGGCGTGACGACGGTGGACGCGCGATAA	MRFPQRDGRARSPDRSSVSVMPYFAAGGSGPLARAQAFVRRVYPMRILGTALLVLPYASLFAERGAGAWIWVLMGLNVLGWPHLAFWLARRAPDPSVAEHRNLVLDVAFGGFWIAASGLCIFPAAAMLSILIADRLAAGGWRLLGRAMLLGVVVFLGCWGVLGWPLQPQASTRTMLLALPPVLVYMLALSHVGYQLARRIVQQKRELDRLALTDVVVNLPNRRFFNARAEDLIASARAGGGEAVLLLVDVDCFKAINDRYGHGAGDQALRAIARVLREHAGTGGFPARVGGDEFALLLPATLPQGEALAARLHEAVAALAVPGCDGLTLQISVGVALLAEHHRGLDDWLGAADRAMYVAKAAGSVLRHARPGVTTVDAR	PGPT0026210_242	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0026210-adrA-K18968	NA	NA
BMS020_03909	1269	folC_2	COG0285	Dihydrofolate synthase/folylpolyglutamate synthase	GTGAACCTTCCCAACACCCTTTCCGAATGGCTGGCCCACATCGAGGGCCAGCACCCGCAGGCGATCGCGATGGGCCTGGAGCGCGTGCGCGAGGTCGCCGCCCGGCTGGGGTTGGCGGCGCCGGCCAAGCGCACGATCGTCGTGGCCGGCACCAACGGCAAGGGCTCGACGGTGGCCTTCATCGAAGCGATCGCGCGCGCCGGCGGCTGGAAGACCGGCGCCTACACCTCGCCGCACCTGCACCGCTACAACGAGCGCGTGCGCATCGACGGCGAGGAGGCCAGCGACGCCGCATTGGTGGAGGCCTTCGCCGCGGTCGAGGCCGCGCGCGGCGCCACCGCGCTGACCTACTTCGAATACGGCACGCTGGCCGCGCTGTGGCTGTTCGGGCGCGCCGGGCTCGACCTGGCGGTGCTCGAGGTCGGCCTGGGCGGGCGGCTGGACGCGGTCAACATCGTCGATGCCGATGTCGCGGTCATCACCACGGTCGACATCGACCACACCGATTGGCTGGGCGACGACCGCGAGGATATCGGCGCCGAGAAGGCCGGGGTGATCCGCGGCTGGAAGCCGGTGGTGCTGGGCGAGATCGACCCGCCGTCGAGCGTGCTGCGCCGCGCCTACCTGCTGGGCGCCAACGCGCTGCGCTTCGGCAGCGACTTCTTCGCCGAGCCGATCGATGCCGACAGTTGGCGCTGGCGCGACGTGGCGCTGCGCATGGACCTGCCGATGCCGGCACTGCGTGGGCCGGTGCAGCTGGCCAACGCCGCCAGTGCGATCGCCGCGCTGCGCGCGCTGGGCCGGCCGTTGCCGCGCACGGCCTGGGCCGAGGGCATCGCCGGCGCCGGCGCCGCCGGGCGGCTGCAGGCGTTCGCGCGTGCGGGCGTGGAGGTGCTGGTCGACGTCGGCCACAACCCGCAGGCCGCGCGTGCGCTGGCCGCGGCGCTGCAGGCCCGGCCGGTGCCGGGGCGCACCCATGCGGTGTATGCGGCACTGGCGGACAAGGACGTGGCCGGCGTGGCCATGGCCCTGGGCGAGGCGGTCGACAGCTGGCGCATCGCTGGGCTCGACGGTGCGCGCGGGCAGGCGGTGGATGCGCTGGCGGTGCGCCTGCTCGGCACCCCGGCGGCGGAGGCGGCACGCTTTGCGACGGTCGCCGACGCGCTGCGCGCGGCGCTGGATGCCGCGGCGGCGGGCGACCGCGTGCTGGTGTTCGGCTCGTTCCACACCGTTGCCGACGCGTTGCCGTTGCTGCAGGCGCAGGACTGA	MNLPNTLSEWLAHIEGQHPQAIAMGLERVREVAARLGLAAPAKRTIVVAGTNGKGSTVAFIEAIARAGGWKTGAYTSPHLHRYNERVRIDGEEASDAALVEAFAAVEAARGATALTYFEYGTLAALWLFGRAGLDLAVLEVGLGGRLDAVNIVDADVAVITTVDIDHTDWLGDDREDIGAEKAGVIRGWKPVVLGEIDPPSSVLRRAYLLGANALRFGSDFFAEPIDADSWRWRDVALRMDLPMPALRGPVQLANAASAIAALRALGRPLPRTAWAEGIAGAGAAGRLQAFARAGVEVLVDVGHNPQAARALAAALQARPVPGRTHAVYAALADKDVAGVAMALGEAVDSWRIAGLDGARGQAVDALAVRLLGTPAAEAARFATVADALRAALDAAAAGDRVLVFGSFHTVADALPLLQAQD	PGPT0007975_3024	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007975-folC-K11754	NA	NA
BMS020_03910	1020	dedD_2		Cell division protein DedD	GTGGATACGACCCTGAAACAGCGCCTGATCGGCGCCGCCGTGCTGGTGGCGCTTGCCGTGATTTTCCTGCCGATGCTGGTGAAGGGCCCTGCGCCCGACAGTGGCGTCACCGACGTGCCGATCACCGCGCCGGCGGCGCCGTCCGACGGCGACATGGAAACCCGCGAACTGCCGCTGGTCGGTCCGGGCGAAGCCCCGGCCGGGGGCGCGGTCGGCATGACCACCACGGGCGCCGCGCCCGCGCCGGTACAGGACAACCCCGATGCCGCCGACCTGGCCGAGCCCGGGCAGGCGCTGCCGGCGGCGACCGCGGCCGGCAACTACGCGGTCAATTTCGGTGCCTATGCCAGCCAGGCCGATGCCGATGCGGTGATCGCGCGGCTGAAGCAGGCGCAGCTGCCCGGCTTCAGCCAGCAGACCCAGATCAATGGCCGCCCGGCGTGGCGGGTGCGGATTGGGCCGTATGCCGAGCAGGCCCAGGCCGAATCGGTGCGGCTGCAAGCGGTGAAGGTGCGCAGCGACGTCAACGCGCAGGTGGTCACGCTGGACGCGCAACCCGAAGCGCCTGCACCGGCCGCCAGCAGCGTCAGCACCGCGCCGGTCGCGGCCGCGCCGACCCGCAGCGAACCGCTGCCGCCGGAACCGGCCACGCCGGTGGCGAGCAGCCGCCCGGCGCCGACCCCGGCGAAGCCGGAGCCGGCCAAGGTCGAGACCAAGCCGGAGGCCAAGCCGCAGCCGAAGCCGGCCGCAGCGGTGACGGCGCCGTCGGCGCCGGCCGCCAGCGGGGTCGGGTTCGCGGTGCAGCTGGCCGCGTTCGGCCGCGTCGAGGACGCCAACGCGTTGCGCGACAAGGCGCGCGCGGCTGGGTTCAGCGCGTTCGTCGAGCAGGTGCGTACCGACAAGGGCGCGCTGAGCCGGGTCCGGGTCGGGCCGGTCGCCAGCCGTGCCGAAGCCGAGCAGCTCAAGGCCCAGGTGGCCGCGCGCATCGGCGTCGCCGGCATGGTGCGACCGCACCCGTGA	MDTTLKQRLIGAAVLVALAVIFLPMLVKGPAPDSGVTDVPITAPAAPSDGDMETRELPLVGPGEAPAGGAVGMTTTGAAPAPVQDNPDAADLAEPGQALPAATAAGNYAVNFGAYASQADADAVIARLKQAQLPGFSQQTQINGRPAWRVRIGPYAEQAQAESVRLQAVKVRSDVNAQVVTLDAQPEAPAPAASSVSTAPVAAAPTRSEPLPPEPATPVASSRPAPTPAKPEPAKVETKPEAKPQPKPAAAVTAPSAPAASGVGFAVQLAAFGRVEDANALRDKARAAGFSAFVEQVRTDKGALSRVRVGPVASRAEAEQLKAQVAARIGVAGMVRPHP				NA	NA	NA	NA	NA
BMS020_03911	714			hypothetical protein	ATGATCGACCTGCTGTTGCTGGTGGTGATCGGCGTCTCGGCCTTGCTTGGCCTGTTCCGCGGCTTCGTCGGCATCGTCGTGGGCACCGCGTCGTGGCTGCTGGCCGGCTGGGCCACGTTCCAGTTCGGTGGCGACGCCGGGCATTGGCTGGCCGAGGGCAGCCGCCCGAGCATGACCCAGTACCTGGGCGGCTACGCGCTGGTGTTCGTCTGCGTGCTGGTCGCGGTCGCGGTGATCGGCATGGTGATCCGGGCCGGGGTCGAGGCGGTCCGCCTGAACGGGATCGATCGCAGTCTCGGCTTCGCCCTCGGCGCGCTGCGCGGGGCGTTCTTCGCCTGCGTGCTGGTGCTGCTGATGGGCTTCACCCCGCTGACCTCGGAGCCGGCCTGGCGCGAGTCGCGGGTGCTGCCGCTGTTGCTGCCGGTGGCCAGCTGGATGCGCGCGCAGCTGCCGGACTGGTCTGTTCCGGAGGTGGATTTGGGCAAGCTGCCCCTGGCAGGCGATAATGCCGGCCTCGGTGGCGTGCTCTCGACCTCCTCGATGAAGGACACGGTGGAGCGCGCGCTGGGCCGGCAACCGCAGGGTGCGGTTCCTGCCGGACAGGATCCGGCACGGGTGTTGCCGCAGAACATCGATCCGGCGCAGGTCCGCGGCGGAGAACACGACCCGGCGCGGGTCGAATCGCAGGGCCAGGCACGGCCGCAATCACAGTGA	MIDLLLLVVIGVSALLGLFRGFVGIVVGTASWLLAGWATFQFGGDAGHWLAEGSRPSMTQYLGGYALVFVCVLVAVAVIGMVIRAGVEAVRLNGIDRSLGFALGALRGAFFACVLVLLMGFTPLTSEPAWRESRVLPLLLPVASWMRAQLPDWSVPEVDLGKLPLAGDNAGLGGVLSTSSMKDTVERALGRQPQGAVPAGQDPARVLPQNIDPAQVRGGEHDPARVESQGQARPQSQ	PGPT0011655_109	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|COLICINS,PGPT0011655-cvpA-K03558	NA	NA
BMS020_03912	1467	purF_2	COG0034	Amidophosphoribosyltransferase	ATGTGTGGCATCGTCGGTATCGTCGGCAACCAGAACGTCGCCGGGCAGCTTTATGACGGCCTGACCGTCCTGCAGCATCGTGGCCAGGACGCGGCGGGCATCGCCACCGCCGACGGCACCCGCCTGCGCGTGCAGAAGGCCAACGGCCTGGTCCGCGACGTGTTCGACGAGACCCGCATGGCGGTGCTGGAAGGCCGCGTCGGCATCGCCCACTGCCGCTACCCGACCGCCGGTTCGGAAGGCATGGACGAGGCGCAGCCGTTCTACGTCAACTCGCCGTACGGCATCGCGCTGGCGCACAACGGCAACCTGATCAACACCGAGGCGCTGCGCCAGCAGGTGTTCGAGGCCGACCGCCGCAACATCAACACCGATTCGGACAGCGAAGTGCTGCTGAACGTGTTCGCCTACGAGCTGGACGCGCAGCGCATGCTGACCCCGGAAGCGGCGATCCGCGCGGTGGCCGGCGTGCACCGCCGCTGCAAGGGCGGCTATGCGGTGGTCAGCGTGGTGCTGGGCCTGGGTCTGGTGGCGTTCCGCGACCCGCACGGCATCCGCCCGCTGGTACTGGGCAAGCGCGCCGGCGTGGAAGGCGACGAGTACGTGGTCGCCTCCGAGTCGTCGGTGCTGGACATCCTCGGCTTCCAGCGCGTGCGCGACGTGCGCCCGGGCGAGGCGATCGTGATCACCGCGCGCGGCGAGCTGTTCTCCGAGGTGTGCGCGACCAATACCCAGCAGTCGCCGTGCATCTTCGAGTACGTGTACTTCGCACGCCCGGACTCGATGATCGACAACGTCTCGGTGCACAAGGCGCGCATGCGCATGGGCATGAAGCTGGGCGAGAAGATCCTGCGCCTGAAGCCCGACCACGACATCGACACCATCATCCCGATCCCGGACACCTCGCGCGATGCCGCGCTGGAGATCTCCAACGTGCTCGGGGTGAAGTACCGCGAAGGCTTCGTCAAGAACCGCTACGTCGGCCGCACCTTCATCATGCCGGGGCAGGGCGAGCGGGTGAAGTCGGTGCGCCGTAAGCTCAACCCGATCCACCTGGAATTCCGCAACCGCGTGGTGCTGCTGGTCGACGATTCGATCGTGCGCGGCACCACCAGCCGGCAGATCGTGCAGATGGCGCGTGACGCCGGCGCGCGCAAGGTCTACCTGGCCAGCGCCGCGCCGCCGGTGCGTTACCCGAACATCTACGGCATCGACATGCCGGCCGCCGAGGAACTGGTGGCGCATGGCCGCAGCGAGCAGGAGATCCAGGAATTCCTCGGCTGCGACTGGCTGATCTACCAGGACCTGGACGACCTGGAGACCGCGGTGCGCGAGGGCAATCCCGAGCTGAAGCAGTTCGATTCCTCGTGCTTCAACGGCGACTACGTCACCGGCATCGAGCCGGGCTACTTCGAGCGCATCCAGCAGCTGCGTTCGGACGAGGCCAAGAAGAAGCGCCGTGCCTGA	MCGIVGIVGNQNVAGQLYDGLTVLQHRGQDAAGIATADGTRLRVQKANGLVRDVFDETRMAVLEGRVGIAHCRYPTAGSEGMDEAQPFYVNSPYGIALAHNGNLINTEALRQQVFEADRRNINTDSDSEVLLNVFAYELDAQRMLTPEAAIRAVAGVHRRCKGGYAVVSVVLGLGLVAFRDPHGIRPLVLGKRAGVEGDEYVVASESSVLDILGFQRVRDVRPGEAIVITARGELFSEVCATNTQQSPCIFEYVYFARPDSMIDNVSVHKARMRMGMKLGEKILRLKPDHDIDTIIPIPDTSRDAALEISNVLGVKYREGFVKNRYVGRTFIMPGQGERVKSVRRKLNPIHLEFRNRVVLLVDDSIVRGTTSRQIVQMARDAGARKVYLASAAPPVRYPNIYGIDMPAAEELVAHGRSEQEIQEFLGCDWLIYQDLDDLETAVREGNPELKQFDSSCFNGDYVTGIEPGYFERIQQLRSDEAKKKRRA	PGPT0020225_3566	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020225-purF-K00764	NA	NA
BMS020_03913	804			hypothetical protein	ATGACCTCGATCTTCGACGCCGCTCGTGAATGCCTGGACTGCGCCGATCCGGCGCAGAAGGTCGCGCTGACCCAGCGCCATGCCGCGGCGTTCCGCGCCGGCGAACTGAAGGTGCCGGCCGAGGCGCCCGCGCCGTTGCCGATCGGCATGCCCGGGCGGCCGCCACGGCCGCGGCTGGTGCATCCGCGCGAGCTGCCGCGGCGCGGGTTGGGATCGAGCGAGGGGCGCGCCGCGTTCCTGCATGCGATCGCGCATATCGAACTCAATGCGATCGACCTGGGCTGGGATGCGGTCTACCGCTTCCGTGGGCTGCCGCAGGCGTTCTACGCCGACTGGGTCAGTGTCGCTGACGACGAGTCGCGCCACTTCAGCCTGCTGCGCACGCGGCTGGGCGAGCTCGGCTTCGATTACGGCGACTTCGACGCCCACAACGGCCTGTGGGAAATGTGCGAGAAGACCGCGCACGACGGCCTGGCGCGGATGGCGCTGGTGCCGCGGGTGCTGGAGGCGCGCGGGCTGGACGTGACGCCGGGGATGATCGCCAAGCTGCGCGCGCTCGACGATGACCGCACCGCCGACCTGCTGGAGATCATCCTGCGCGAGGAGGTTGGCCATGTCGCCGCCGGTTCGCGCTGGTACCGCTGGTACTGCGCCCGCGCCGGGGTCGAGCCGCGCCCGCGCTTCCGCGAGTTGCTGCGCGAATACGCCGGCGGCTACCTGCACGGGCCGTTCAACATGGAGGCGCGGCTGCTGGCCGGCTTCGACGAGGACGAGCTGGTCAGCCTGGTCGAGCAGGCCGGCTGA	MTSIFDAARECLDCADPAQKVALTQRHAAAFRAGELKVPAEAPAPLPIGMPGRPPRPRLVHPRELPRRGLGSSEGRAAFLHAIAHIELNAIDLGWDAVYRFRGLPQAFYADWVSVADDESRHFSLLRTRLGELGFDYGDFDAHNGLWEMCEKTAHDGLARMALVPRVLEARGLDVTPGMIAKLRALDDDRTADLLEIILREEVGHVAAGSRWYRWYCARAGVEPRPRFRELLREYAGGYLHGPFNMEARLLAGFDEDELVSLVEQAG	PGPT0024440_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024440-gck|gckA-K11529	NA	NA
BMS020_03914	738	lpxH_3	COG2908	UDP-2,3-diacylglucosamine hydrolase	ATGACGACCCTCTTCATCTCCGACCTGCACCTGGACCCGGCACGCCCGGCGATCACCGAGCTGTTCCTGCGCTTCCTGCGCGAGGAAGCCGCCCACGCCGACGCGCTGTACATCCTCGGCGACCTGTTCGAAGCCTGGATCGGCGACGACACGCCCTCGCCGGCCGCCGACGCGGTCGCCAGCGCGCTGCACGCGCTGGCCGATGGCGGCGTGCCGCTGTTCTTCATGCCGGGCAACCGCGACTTCCTGGTCGGCGAGGACTACGCGCGCCGTGCCGGCTTCCGCATCCTGCCCGACCCGACCGTGATCGACCTGTACGGCCGCGCCACGCTGCTGATGCACGGCGACCTGCTGTGCACCGACGACGTGGCCTACCAGCAGTTCCGCGCGCAGACCCGCGACCCGGCCTTCATCGCGCAGTTCCTGTCCCAGCCGCTGGCCGCGCGCGTGGCGTTCGCGCAGCAGGCGCGCGCCGCCAGCCAGGCCCGGCAGTCGGAACTGAAGCAGGGTGACACCGCGCAGTTCGAGACCATCACCGACGTGGCCGCGGCCGAAGTGGATGCCACCTTCGCGCGCTACGGCGTGGACCGGATGATCCACGGCCACACCCACCGCCCGGCGGTGCATACGCTGCAGGTGGGCGAGCACAGCTGCACGCGCGTGGTGCTCGGCGACTGGTACGAACAGGGCTCGGTGCTGCGCGTCGACGCAGACGGCATGCGGCTGGAAGCGTTGTAA	MTTLFISDLHLDPARPAITELFLRFLREEAAHADALYILGDLFEAWIGDDTPSPAADAVASALHALADGGVPLFFMPGNRDFLVGEDYARRAGFRILPDPTVIDLYGRATLLMHGDLLCTDDVAYQQFRAQTRDPAFIAQFLSQPLAARVAFAQQARAASQARQSELKQGDTAQFETITDVAAAEVDATFARYGVDRMIHGHTHRPAVHTLQVGEHSCTRVVLGDWYEQGSVLRVDADGMRLEAL	PGPT0022370_972	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022370-lpxH-K03269	NA	NA
BMS020_03915	549			hypothetical protein	ATGTTGTCGACGCGGCTTGAGCTGCTGCGCGGGCGCGAAGCGCGCTGGTGCCGGCGCGCCAACCACTGGTGCCGGCGCCAGTCGGTGCGCCGCTTCTTCGCCGCGGTCAGCCGGCTGGGCGACGGGGTGTTCTGGTACGCACTGATGGGCCTGCTGGTGCTGGCCGACGGCCTCGACGGCGTCGCCGCCTCCGCGCACATGGCCGCCACCGGCGTGGTCGCGCTGACCCTGTACAAGACGCTCAAGCGCTGGACCCGCCGCCCGCGGCCGTATACGGCGCATCCGCGCATCCGCGCCTGGGTCGCCCCGCTGGACGAATTCAGCTTCCCCTCCGGGCACACCTTGCACGCGGTGTCCTTCAGCATCGTCGCGCTGGCCTATTACCCGTGGCTGGCGCCGCTGGTGGTGCCGTTCGCCGCCTGCGTGGCGCTGTCGCGCGTGGTGCTGGGGCTGCATTACCCGAGCGACGTGCTGGCCGCCACCGCGATCGGCAGCCTGCTGGCCAGCCTGTCGTTGTGGCTGCTGCCGGTGCCGGCGCTGTTCGCCTGA	MLSTRLELLRGREARWCRRANHWCRRQSVRRFFAAVSRLGDGVFWYALMGLLVLADGLDGVAASAHMAATGVVALTLYKTLKRWTRRPRPYTAHPRIRAWVAPLDEFSFPSGHTLHAVSFSIVALAYYPWLAPLVVPFAACVALSRVVLGLHYPSDVLAATAIGSLLASLSLWLLPVPALFA	PGPT0024170_2045	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024170-bcrC-K19302	NA	NA
BMS020_03916	1143	mgtA_1	COG0438	GDP-mannose-dependent alpha-mannosyltransferase	ATGCGCTACGCGATCGTCACCGAGACGTATCCCCCGGAGGTCAACGGCGTCGCCCTGACCGTCCATGGGCTGGAAACCGGCCTGCGCGCACGCGGCCACCATGTCGAGGTGGTGCGGCCGCGCCAGGAGCGCGACGGCGAGACCAGCGCGGCCGCGACCCTGCTGGTGCGCGGTGCGGCACTGCCGCGTTACCCGGGCCTGCGCTTCGGCCTGCCGGCCACCCAACGCCTCACCCGCCATTGGCGCCAGACACCGCCGGATGCGATCTATGTGGCCACGGAAGGCCCCCTGGGCTGGTCGGCGGTGCGCGCGGCGCGCCGGCTCGGCATCCCGGTCGCCACCGGCTTTCACACCCGCTTCGACGAATACCTGCCCGAGTACGGCGCGGCTTGGCTGCAGGGCGCCGCGCTGCGCTGGATGCGCCGCTTCCACAACCAGGCCCAGGCGACCCTGGTGCCGACCCGCGAACTGCACGACTTCCTCAGCGACAGTGGCTTCCAGCGCGTGCGCGTGCTGGCACGGGCAGTGGACAGCCTGCAGTTCGACCCGAGCCGGCGCGATGCGGCATTGCGCGCCGACTGGGGCATCGAGGGCGAAGGCTTCGCCGCGATCTATGTCGGCCGCATCGCCGGCGAGAAGAACCTGCCGCTGGCGGTGCGCGCGTTCCGACAGATCCAGCAGGTGCGGCCGAAGGCGCGCTTCGTCTGGGTCGGCGACGGCCCGATGCGCGACAAGCTGGCGCACGAGAACCCCGATTTCATCTTCTGCGGCGTGCAGCGCGGCGATGCGCTGGCGCGCCACTTCGCCAGCGGCGACCTGTTCCTGTTCCCCAGCCGCAGCGAGACCTTCGGCAACGTCACCCTGGAAGCGATGGCCAGCGGCGTGGCCACCGTCGCCTTCGATTACGGCGCCGCGCGCGAATACCTGCGCAACGGCATGACCGGCGCCGCGGTGGACAACGAGGACGCCTTCATCGAGGCTGCGGTGCGCCTGGCCGGCAACGACGAGATGCGTCGCACGCTCGGCGTGGCCGCCAGCGTGTCGATGAAGCGGCTGCAGCCGGACCGCGTGGTCGCCGATTTCGACGCGATGCTGCAGCAGCTGGGCGAGCACCGGAGGCACTATGTTGTCGACGCGGCTTGA	MRYAIVTETYPPEVNGVALTVHGLETGLRARGHHVEVVRPRQERDGETSAAATLLVRGAALPRYPGLRFGLPATQRLTRHWRQTPPDAIYVATEGPLGWSAVRAARRLGIPVATGFHTRFDEYLPEYGAAWLQGAALRWMRRFHNQAQATLVPTRELHDFLSDSGFQRVRVLARAVDSLQFDPSRRDAALRADWGIEGEGFAAIYVGRIAGEKNLPLAVRAFRQIQQVRPKARFVWVGDGPMRDKLAHENPDFIFCGVQRGDALARHFASGDLFLFPSRSETFGNVTLEAMASGVATVAFDYGAAREYLRNGMTGAAVDNEDAFIEAAVRLAGNDEMRRTLGVAASVSMKRLQPDRVVADFDAMLQQLGEHRRHYVVDAA	PGPT0017895_11	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_MANNOSE_METABOLISM|DEGRADATION,PGPT0017895-mgtA-K12583	NA	NA
BMS020_03917	1551	ppx_1	COG0248	Exopolyphosphatase	GTGGCCTTCGGCTACCATTTCGCCATGCCGAACACCTCACCGACCTATCCGCCGCTGCAGGACGGCGACCTGCTCGCGGCCATCGACCTGGGGTCCAACAGCTTCCACATGGTGATCGCGCGCTACCTGCTCGGGCAGCTGCGCGTGGTCGACCGCCTGCGCGAGACCGTGCGCATGGCCGACGGCCTGGACGGCAAGGGTGGCCTGTCGGCGGAGGCCCGCGAGCGCGCACTGGAGTGCCTGGCGCGCTTCGGCCAGCGCATCCGCGAGATCCCGACCGTGCGTGTGCGCGCGCTGGCCACCAACACGGTGCGCCAGCTGCGGTCGCCGCAGACCTTCCTGATGCCGGCGGAAACCGCGCTCGGCCACGCCATCGAGGTCGTCAGCGGGCGCGAGGAAGCGCGCCTGATCTACCTCGGCGTCGCCCACGCGCAGCCGCCCAAGCCGGACCAGAACCGGCTGGTCATCGACATCGGCGGCGGCTCGACCGAGTTCATCATCGGCCGCGGCTTCCAGACCTTGGAACGCGAGAGCCTGCAGGCCGGCTGCATCGCCAGCACCCGGCGCTTCTTCCCCGGCGGCAAGCTGTCGAAGAAGCGCTGGAAGGACGCGCTGACCGAGATCGGCGCCGAGTTCCAGCAGTTCGCCAGGCTGTACCGCACGATGGGCTGGCAGGAAGCGATCGGCTCGTCCGGCACGCACAAGGCGATCGGCGACATCTGCGCGGCGATGAAGCTGACCAAGGGCGCGATCACCGCCCAGGCGCTGCCGGCGCTGCGCGACGAGCTGCTGAAGGCCAAGCGCATCGAGGACATCCAGCTGCCGGGGCTGTCGCCGGAGCGGCGCCCGATCATCGCCGGTGGGATCCTGGTGCTGGAAGCGGCATTCCAGGCGCTGGGCCTGGAGAAGCTGATGGTCAGCAAGGCGGCGATGCGCGAAGGCATCCTCTACGACATGCTCGGCCGCGGCGGCGCCGACGACCCGCGCGATGGCTCGGTGGACGCGCTGATGCAGCGCTACGCCATCGATCCGGACCAGGCCGCGCGCGTCGAAGCCACCGCGCAGCGCCTGTTCGAGCAGGCCGCCGGCCCGTGGGGGCTGGAGGCCGACGATGCGCGCATGCTCGGCTGGGCCGCGCGCCTGCACGAGCTCGGGCTGATGATCGCGCACAGCCAGTACCACGTGCACGGCAGCTACGTGCTGGAGAACTCGGACATCGCCGGCTTCTCGCGGCAGGAGCAGCAGGTGCTGGCGGCGCTGGTGCGCACCCATCGCCGCAACGTGCCCAAGAGCGCGTTCGACGCCCTGCCCGACCGCCTGCTGCTGCCGACCAGGCGCAACGCCGCGCTGCTGCGGCTGGCGGTGCTGCTGCACCGTGCGCATGAGGCCGACCCGATCCCGACCCTGGAGCTGGAAGCCGAAGGCGAGCGGATGTCGCTGATCCTGTCGCAGAGCTGGATCGAATCGCGGCCGCTGCTGCGCGCGGACCTGCTGGGCGAGGTCGAAGGCATGGCCGGGCTGGGGATCGTGTTCAAGCCGTTCGTGGCCTGA	MAFGYHFAMPNTSPTYPPLQDGDLLAAIDLGSNSFHMVIARYLLGQLRVVDRLRETVRMADGLDGKGGLSAEARERALECLARFGQRIREIPTVRVRALATNTVRQLRSPQTFLMPAETALGHAIEVVSGREEARLIYLGVAHAQPPKPDQNRLVIDIGGGSTEFIIGRGFQTLERESLQAGCIASTRRFFPGGKLSKKRWKDALTEIGAEFQQFARLYRTMGWQEAIGSSGTHKAIGDICAAMKLTKGAITAQALPALRDELLKAKRIEDIQLPGLSPERRPIIAGGILVLEAAFQALGLEKLMVSKAAMREGILYDMLGRGGADDPRDGSVDALMQRYAIDPDQAARVEATAQRLFEQAAGPWGLEADDARMLGWAARLHELGLMIAHSQYHVHGSYVLENSDIAGFSRQEQQVLAALVRTHRRNVPKSAFDALPDRLLLPTRRNAALLRLAVLLHRAHEADPIPTLELEAEGERMSLILSQSWIESRPLLRADLLGEVEGMAGLGIVFKPFVA	PGPT0002595_1333	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002595-ppx|ppx_gppA-K01524	NA	NA
BMS020_03918	2163	ppk_1		Polyphosphate kinase	ATGACTTCGACGCCGGCCCGCGCCGGCGCCCATCTCCCCGTACCGACAAGATCCCGCTCCATGGCCCGCGCCAAGACTGCCGCACCCACCGCCGCGATCGCCGATCCCGGAGCCGATCCGCTTCGCGATCCCGCGCTGTTCCTGAACCGCGAGCTGTCCCAGCTCGACTTCAACTTCCGGGTGCTGGCACAGGCGCTGGACGAGAGCGTGCCGCTGCTGGAGCGGCTGCGCTTCCTGTGCATCTCCTGCACCAACCTGGACGAGTTCTTCGAGATCCGCGCCGCGACCGTGCGCCACGCGCAGGAGTTCGGCCTGCCGCCGGCGCCGGACGGGATGAGCCCGACCGCGATCCTCAACGCCGTGCACGACCGCGCCGCCGACCTGGTGGAGCGCCAGTACCACTGCTGGAACGAGATCCTGCGCCCGGCGCTGGCCGAGGCCGGGGTCGGCGTGCTCGGGCGCAACTCCTGGACCGCGCGCCAGCGCCGCTGGCTGCGCGCCTACTTCCGCAACGAGATCATGCCGGTGCTGTCGCCGCTGGGCCTGGACCCGGCGCATCCGTTCCCGAAGATCCTCAACAAGACCCTGAACATCGTCGTGGTGCTGGAAGGCATCGACGCGTTCGGCCGCGCCGGCCATCTGGCGATCGTGCGTGCGCCGCGCTCGCTGCCGCGCATCATCCAGCTGCCGCCGAGCCTGGCCGGCAAGGACGAGCAGCACTTCGTGTTCCTGTCCTCGGTGCTGTCGGCGTTCGTCGACGAGCTGTTCCCCGGCATGGAGGTCAAGGGCGCCTACCAGTTCCGCGTGACCCGCAACTCCGAGCTGGTGGTCGACGAGGAGGAAGTGGAGAACCTGGCGCTGGCGCTGCGCGACGAGCTGGTCGACCGCGGCTACCGGCCGGCGGTGCGGCTGGAAATCGCCCACGACTGCCCCAAGCCGATCGTGCGCACGCTGCTGCAGAACTTCGGCCTGCCCGACAACGCGGTGTATTCCATCGCCGGCCCGGTCAACCTGAGCCGCGTCAACCAGGTCTACGACCTGGTCCAGCGCCAGGACCTGAAGTACCCCGCCTTCAACCCGCGCACGCTGCGCGACAGCGACGGCATCTTCGAGATCGTCGCCAAGGGCGACGTGCTGCTGCACCACCCGTTCGATGCCTTCACCGCGGTCACCGACCTGATCCGCCAGGCCGCGGTCGACCCGAACGTGCTGGCGATCAAGCAGACCCTGTACCGCACCGGCAAGGACTCCGGGATCGTCGATGCGCTGGTGCTGGCCGCGCGCAACGGCAAGGACGTGACCGTGGTGGTCGAACTGCGCGCGCGCTTCGACGAGGAGGCCAACCTCGGCCTGGCCGACAAGCTGCAGGAGGCCGGCGTGCAGGTGGTGTACGGCGTGGTCGGCTACAAGACCCACGCCAAGATGCTGCTGATCGTGCGCCGCGAGGGCCGCAAGCTGCGCCGCTACGTGCACCTGGGCACCGGCAACTATCACAGCGGCACCGCGCGCGCCTACACCGACCTGAGCCTGATCACCGCCGACGCCGACATCGGCAACGACGTGCACCTGTTGTTCCAGCAGCTGTCCGGGCTGGCGCCGCGGATCCGCCTGAAGCGCCTGCTGCAGTCGCCGTTCACCCTGCACCCGGGCGTGCTTCAGCGGATCGAGCGCGAGACGCGGCTGGCGCGCGAGGGCCGCCCCGGGCGGATCATCGCCAAGATGAACGCCCTCAACGAGCCGCAGGTGGTGCGCGCGCTGTACAACGCCTCGCAGGCCGGGGTGCAGATCGACCTGATCGTGCGCGGCGCCTGCACGCTGCGTCCAGGCGTGCCGGGGGTGTCGGAGAACATCCGCGTGCGCTCGGTGGTCGGCCGCTTCCTCGAGCACAGCCGGGTCTACTGGTTCGGCAACGACGGCGCCCCGGAACTGTTCTGCGCCAGCGCCGACTGGCTGGAGCGCAACCTGCTGCGGCGGGTCGAGACCTGCTTCCCGATCCTCGACCCGGCGCTGGCCAAGCGCATCCACGAAGAGGTGCTGGAGAACTACCTGACCGACAACGTCAACGCGTGGGAACTGGACGCCGACGGCAGCTACCGCAAGCGCGTGCCGGCCGAGGGGGAGCGCGCGCATTCGGCGCAGATGGTGCTGCTCGCGAGGGTGTGA	MTSTPARAGAHLPVPTRSRSMARAKTAAPTAAIADPGADPLRDPALFLNRELSQLDFNFRVLAQALDESVPLLERLRFLCISCTNLDEFFEIRAATVRHAQEFGLPPAPDGMSPTAILNAVHDRAADLVERQYHCWNEILRPALAEAGVGVLGRNSWTARQRRWLRAYFRNEIMPVLSPLGLDPAHPFPKILNKTLNIVVVLEGIDAFGRAGHLAIVRAPRSLPRIIQLPPSLAGKDEQHFVFLSSVLSAFVDELFPGMEVKGAYQFRVTRNSELVVDEEEVENLALALRDELVDRGYRPAVRLEIAHDCPKPIVRTLLQNFGLPDNAVYSIAGPVNLSRVNQVYDLVQRQDLKYPAFNPRTLRDSDGIFEIVAKGDVLLHHPFDAFTAVTDLIRQAAVDPNVLAIKQTLYRTGKDSGIVDALVLAARNGKDVTVVVELRARFDEEANLGLADKLQEAGVQVVYGVVGYKTHAKMLLIVRREGRKLRRYVHLGTGNYHSGTARAYTDLSLITADADIGNDVHLLFQQLSGLAPRIRLKRLLQSPFTLHPGVLQRIERETRLAREGRPGRIIAKMNALNEPQVVRALYNASQAGVQIDLIVRGACTLRPGVPGVSENIRVRSVVGRFLEHSRVYWFGNDGAPELFCASADWLERNLLRRVETCFPILDPALAKRIHEEVLENYLTDNVNAWELDADGSYRKRVPAEGERAHSAQMVLLARV	PGPT0002685_2365	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002685-ppk-K00937	NA	NA
BMS020_03919	1389	phoR_2		Phosphate regulon sensor protein PhoR	ATGCGATCGTCCGGGCAGGATGCCCGTTCCAGCCGCCCCACCGTACCGCCGCGCCCGATGCCCGAACACATCCGCTCCGCCTGGTTCAAGACACTCGGGTCGCTGCTGCTGATCCTGCTGCTGGCCTGCCTGGCCGGCTGGGCGCTGGGCAACGCCTGGATGGCGCTGGCGCTGGCGGCGCTGGGCGCGCTCGGCTGGGATTACTGGCGGCTGCGGCGGGTGCTGCGCCGGCTGACCGCGCGCCAGCGCTGGGAACCGGCGCCCGGCACCGGCGTGTGGAACGAGCTCGACCGCCTGCTGCATCGCAGCCAGGCCGAAATGCGCAGCCGCAAGCGACGCTTGATGCAGATGCTGCGTACCTACCGCGCGGCGGCCGCGGCGCTGCCCGATGCGGTGGTGGTGGTCGATCGCAACAGCCAGCGGGTGCAGTGGTTCAACGAGGCCGCCGGCGGCCTGCTCGGCCTGCGCCACCCGGGCGACCTCGACGTGCCGGTGGTCGAACGCCTGCAGCCGTTGCCGCTGGCGCACTGGCTGGCGGCCGGACGCAATGCCGAGCCGATGCTCGACGCGCCCTCGCCGGTCGATCCGAACCTGCGCCTGAACCTGCGCCTGATCCCCTATTCCGACGACTACTGGCTGCTGATCGCGCGCGACGTCAGCAAGCTGCTGCGGTTGGAACAGGTGCGCCGCGACTTCGTGGCCAACGTCTCGCACGAGCTGCGCACCCCGCTGACCGTGGTGCATGGCTACCTGGACATGCTCGACCCGGAGGACTTCCCCGGCTCCGGGCAGATGCTGGAGGAGATGCGCAAGCAGAGCCAGCGCATGGCGCAGCTGGTCGAGGACCTGCTGACCCTGTCGCGGCTGGAATCACAGGACGAGCTGGGCGAGGAAACCGTGGCGATGGCACCGATGCTGGCCACGCTCAAGCGCGAGGCCGAGGCCCACAGCCAGGGCAAGCACCTGGTCGAGGTCAGCGACGAGGCCGGCTGCGACCTGCTCGGCTCCAACAAGGAGCTGCACAGCGCGTTCTCGAACCTGGTCACCAACGCGATCCGCTACACCCCGGCCGGCGGCACGGTACGGGTGCGCTTCGCCCGCGAAGGCGACGGTGTGGTGCTGGCGGTCCGCGACACCGGCTACGGCATCCCGGCCAACCACATCCCGCGCCTGACCGAACGCTTCTACCGGGTCTCCAGCAGCCGCTCGCGCGAGAGCGGCGGCACCGGCCTGGGCCTGTCGATCGTCAAGCACGTGCTGGGGCTGCACCAGGCGCGGCTGGACATCCGCAGCGAGGTCGGCAAGGGCAGCGAATTCTCCTGCCATTTCGGCCCGGCGCGGGTGATCGCGCGCGACGCCGCCACCGCTGTCACCGCCGGCGTGTTATGA	MRSSGQDARSSRPTVPPRPMPEHIRSAWFKTLGSLLLILLLACLAGWALGNAWMALALAALGALGWDYWRLRRVLRRLTARQRWEPAPGTGVWNELDRLLHRSQAEMRSRKRRLMQMLRTYRAAAAALPDAVVVVDRNSQRVQWFNEAAGGLLGLRHPGDLDVPVVERLQPLPLAHWLAAGRNAEPMLDAPSPVDPNLRLNLRLIPYSDDYWLLIARDVSKLLRLEQVRRDFVANVSHELRTPLTVVHGYLDMLDPEDFPGSGQMLEEMRKQSQRMAQLVEDLLTLSRLESQDELGEETVAMAPMLATLKREAEAHSQGKHLVEVSDEAGCDLLGSNKELHSAFSNLVTNAIRYTPAGGTVRVRFAREGDGVVLAVRDTGYGIPANHIPRLTERFYRVSSSRSRESGGTGLGLSIVKHVLGLHQARLDIRSEVGKGSEFSCHFGPARVIARDAATAVTAGVL	PGPT0002705_2166	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
BMS020_03920	699	phoB_2	COG0745	Phosphate regulon transcriptional regulatory protein PhoB	GTGTCCTGCGTGCAGAAACGCATTCTGATCGTCGATGACGAGCCCGCGATCCGCGACATGGTGGCCTTTGCCCTGCGCAAAGGCGAATTCGAGCCGGTGCATGCCGGCGACGCGCGCGAGGCGCAGACCGCGATCGCCGACCGCGTGCCCGACCTGATCCTGCTGGACTGGATGCTGCCCGGCACCAGCGGCCTGGACCTGGCCCGGCGCTGGCGCAAGGAATCGCTGACCCGCGAGGTCCCGATCATCATGCTGACCGCGCGCGGCGAAGAAAACGACCGCGTCGGCGGGCTCGAGGCCGGGGTCGACGACTACGTGGTCAAGCCGTTCTCGGCACGCGAGCTGCTGGCGCGGATCCGCGCGGTGATGCGCCGCACCCGCGAGGACGACGAGGACGGCAGCGTCGGCGTCGGCCAGCTGCGCATCGATGGCGCCGCGCACCGGGTGTTCGCCGGCGAGACGCCGGTGCCGATCGGCCCGACCGAATACCGCCTGCTGCACTTCTTCATGACCCATCCCGAGCGCGTCTACACCCGCACGCAGCTGCTGGACCATGTCTGGGGCGGCAGCGTGTACGTGGAAGAACGCACCATCGACGTGCACATCCGCCGCCTGCGCAAGACGCTGGAGCCGTTCGGGCTGGAAAACATGGTGCAGACCGTGCGCGGCGCCGGCTACCGGTTCTCGGCATCGACCTGA	MSCVQKRILIVDDEPAIRDMVAFALRKGEFEPVHAGDAREAQTAIADRVPDLILLDWMLPGTSGLDLARRWRKESLTREVPIIMLTARGEENDRVGGLEAGVDDYVVKPFSARELLARIRAVMRRTREDDEDGSVGVGQLRIDGAAHRVFAGETPVPIGPTEYRLLHFFMTHPERVYTRTQLLDHVWGGSVYVEERTIDVHIRRLRKTLEPFGLENMVQTVRGAGYRFSAST	PGPT0002660_1336	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002660-phoB-K07657	NA	NA
BMS020_03921	1671	bepA_4		Beta-barrel assembly-enhancing protease	ATGCTCGCGGCAGTCGCCCTGGAGCCCGTCGTGCGCCTCTTGCCGCTCGCCACCGCCCTGACCCTGGCCATCGCCGCCGGGGTCGCCCCCGCGCAGGACGCGCGGTTGCCCGACATCGGCTCGTCGGCCGGCGAACTGCTGACGCCGGCGCGCCAGGCCGAGTACGGGCGGATGATGCTGGCCGAGCTGCGCAACTACGGTTACGTGCTCGACGACCCGCTGATCGACGACTGGCTGCAGACGCTGGGCACCCGGCTCGGCGCCAACAGCGACCAGCCACGCCAGCGCTACACGTTCTTCATGCTGCGCGAGCGCCAGATCAACGCCTTCGCCACCCTCGGCGGCTACATCGCGGTCAACGCCGGCCTGGTGCTGACCGCCGAGCGCGAGGACGAGGTCGCCGCGGTGCTCTCGCACGAGATCGCCCATGTGACCCAGCAGCACGTGCTGCGCGCGGCCGAACGCGCCCAGCGCGACCAGATCCCGATCCTGCTGGGCATGCTGGCGGCGGTGATCGCCGCGCAGCAGGCCGGCGGCAGCTCCAGCGGCGATGCGACCATGGCCAGCGTCACCAGCGCGATGGGGCTGATGGCGCAGCGCCAGATCAACTACACCCGCTCCAACGAGTCGGAGGCCGACCGCCTCGGCATCCGCACGCTGGCGCGCAGCGGCTACGACGTCGACGCGATGGCCGGCTTCTTCGAACGCATGTCGCTGGCGATGCGCGGCAACTCCGGCGGCTACAGCGCACCGGACTATCTGCAGACCCACCCGGTCACCGCCACCCGCATCAGCGAGGCCAAGGCCCGCGCCGAGCAGATGAAGAAGGACACCGTGCTGCTGACCACCAGCACGCCGACCGGCTCCCGCCAGGAGCGCGTCGACCCGAGCGATCCGGCCTACGCCGAGCCGCTCGGCGCGATCGGCAATCCGCTGCTGCCGTACACGCTGCGGTTGTCGCCGGACAGCCTGTCGCGCGGTGCCAGCGGCCAGTTCGACTGGGCCCGCGAACGCCTGCGGGTGCTCAGCGCCAATACCGCCGGCGCGGCGGTGCGTGAATACGAGGGCATCCGCCGCGGCGCGCCGCGCGGGCTCACCGACGCCCAGCGTTACGGCCTGGCGCTGGCGCGACTGCGCGACAGCGGCAATGCGACCGAGGCGGTGCAGGCCTTCGGCGAACTGCTCGCCGACAACCCGGCCAACCTGTGGCTGGAACTGGCCCAGGGCGATGCCGAGTCGCGCGCCGGCCTGCATGCCCAGGCCAACCAGCGCTTCGACGCCCTGCTCAAGCGCCTGCCCAGCAACCGCGCCGTCGCACTGACCTATGCCGGGGTGCTCAACGCCCAGGCCACCCGCGCCTCCGGGCAGCGCGCGCGCGCGGTACTCGAGCCGCTGCTGCGCGCCGCCGGCGAGGACCCGGCGTTCCAGCAGGCCTATGCGCGCGCCTGCGAGCTGGCCGGCGACACCGCGCGCGCCAGCGAGGCCTATGCCGAGGCGGCCTACCTGAACGGGCGCCCGGAGCAGGCGCTGCTGCAGCTGCAGGCGCTGAAGCGCCAGGACCTGGACTACATCACCCGCTCGCGGGTGGACGCGCGCATCGCCGCGATCACCCCGACCGTGCTGGAGATGCAGCGCCAGGGCATCCAGGATCCGGACCTGCAGCGCCGCTAG	MLAAVALEPVVRLLPLATALTLAIAAGVAPAQDARLPDIGSSAGELLTPARQAEYGRMMLAELRNYGYVLDDPLIDDWLQTLGTRLGANSDQPRQRYTFFMLRERQINAFATLGGYIAVNAGLVLTAEREDEVAAVLSHEIAHVTQQHVLRAAERAQRDQIPILLGMLAAVIAAQQAGGSSSGDATMASVTSAMGLMAQRQINYTRSNESEADRLGIRTLARSGYDVDAMAGFFERMSLAMRGNSGGYSAPDYLQTHPVTATRISEAKARAEQMKKDTVLLTTSTPTGSRQERVDPSDPAYAEPLGAIGNPLLPYTLRLSPDSLSRGASGQFDWARERLRVLSANTAGAAVREYEGIRRGAPRGLTDAQRYGLALARLRDSGNATEAVQAFGELLADNPANLWLELAQGDAESRAGLHAQANQRFDALLKRLPSNRAVALTYAGVLNAQATRASGQRARAVLEPLLRAAGEDPAFQQAYARACELAGDTARASEAYAEAAYLNGRPEQALLQLQALKRQDLDYITRSRVDARIAAITPTVLEMQRQGIQDPDLQRR				NA	NA	NA	NA	NA
BMS020_03922	303	grxC_2	COG0695	Glutaredoxin 3	GTGACCGAACCATCCTCCGCCAGCGCCCCGGGCACCGCCCCGCGGATCACGCTGTATTCCACTGCCATCTGCCCGTACTGCGTGGCGGCCAAGAATTTCCTCAAGAGCAAGGGCCAGACCTGGACCGAGGTCCGTATCGACCTGGATCCGGCCGAGCGCGAGAAGATGGTCGCCCTGGCGCGCCGCACCAGCGTGCCGCAGATCTTCATCGGCGAGGTCCATGTCGGCGGCTACGACGACATGATGGCGCTGCACCGCGCCGGCGGCCTGGAGCCGCTGCTGGCCGGGGAGGGGCGCGCATGA	MTEPSSASAPGTAPRITLYSTAICPYCVAAKNFLKSKGQTWTEVRIDLDPAEREKMVALARRTSVPQIFIGEVHVGGYDDMMALHRAGGLEPLLAGEGRA	PGPT0013201_2821	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CHAPERONES,PGPT0013201-grxC-K03676	NA	NA
BMS020_03923	399			hypothetical protein	ATGAGCGAGGCCGGCAAGACCAGCGAGGACCGCGTGCGCGAGTTCACCGAATTCCGCCAGCGCATGAACAAGCGGATCCTGGATGAGCCCAACCAGGTCGTGCGGCGCTTCTTCGCGCTCGACACCCAGACCTACCAGGCCGGTGCGCTCGACGTGAAGACCAAGGAGCTGTTGGGTCTGGTGGCGTCGATGGTGCTGCGCTGCGACGACTGCATCAGCTACCACGTGGCCCAGTGCAAGGAGGCCGGGGTCAGTCGTGAGGAGTTCTTCGAGACCTTCTCGGTCGGCCTGGTGGTCGGCGGCTCGATCGTGATCCCGCACCTGCGCCGCGCGGTCGACTTCCTCGATCAGCTCGAAGGCGGGCAGGCCGAGGCGCCGGCCGGCCACAGCCACGGCTGA	MSEAGKTSEDRVREFTEFRQRMNKRILDEPNQVVRRFFALDTQTYQAGALDVKTKELLGLVASMVLRCDDCISYHVAQCKEAGVSREEFFETFSVGLVVGGSIVIPHLRRAVDFLDQLEGGQAEAPAGHSHG	PGPT0029295_195	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
BMS020_03924	1008	hicd	COG0473	Homoisocitrate dehydrogenase	ATGACGCAGACAATCACGGTCATCCGCGGCGACGGCATCGGCCCGGAGATCATGGATGCCACCCTGTTCGTGCTCGACGCGCTCAAGGCCGGTCTGACCTACGAAGAGGCCGATGCTGGTCTGGTCGCGCTGGAAAAGCACGGTGACCTGCTGCCGGAGGCCACCCTGGCCTCGATCAGCAAGAACAAGGTGGCGCTGAAGAGCCCGCTGACCACGCCGGTGGGCGAGGGCTTCAGCTCGATCAACGTGGCGCTGCGCCGCAAGTTCGACCTGTACGCGAACGTGCGCCCGGCCAAGTCGTTCCCGAACACCAAGTCGCGCTTCGCCGATGGCGTGGACCTGATCACGGTCCGCGAGAACACCGAAGGTGCCTACCTGAGCGAAGGCCAGACCGTGTCCGAGGACGGCGAGACCGCCTTCTCCGGCACCAAGATCACCCGCAAGGGCTCCGAGCGCATCGTGCGTTACGCCTTCGAGCTGGCCAAGAGCACCGGCCGCAAGAAGGTCACCGTGGTGCACAAGGCCAACATCATCAAGTCGACCTCGGGCCTCTTCCTGAAGGTCGCCCGCGAAGTGGCCGCGCAGTACCCGGACATCAAGTGCGAGGAGATGATCGTCGACAACGCCTGCATGCAGCTGGTGATGCGTCCGGAGCAGTTCGACATCATCGTCACCACCAACCTGTTCGGCGACATCATCTCCGACCTGTGCGCCGGCCTGGTCGGCGGTCTCGGCCTGGCGCCGGGTGCCAACATCGGCGTCGATGCGGCGATCTTCGAGGCCGTGCACGGCTCGGCGCCGGACATCGCCGGTCAGGGCAAGGCCAACCCGTGCGCGCTGCTGCTGGGCGCGGCGCAGATGCTGGACCACCTTGGCCAGCCGCAGAACGCCGAGCGCCTGCGCAACGCGATCGTCGCCACGCTGGAAGCCAAGGATTCGCTGACCCCGGATCTGGGCGGCAGCGGCAATACGATGGGCTTCGCCAAGGCGATCGCCAGCCGGCTCTGA	MTQTITVIRGDGIGPEIMDATLFVLDALKAGLTYEEADAGLVALEKHGDLLPEATLASISKNKVALKSPLTTPVGEGFSSINVALRRKFDLYANVRPAKSFPNTKSRFADGVDLITVRENTEGAYLSEGQTVSEDGETAFSGTKITRKGSERIVRYAFELAKSTGRKKVTVVHKANIIKSTSGLFLKVAREVAAQYPDIKCEEMIVDNACMQLVMRPEQFDIIVTTNLFGDIISDLCAGLVGGLGLAPGANIGVDAAIFEAVHGSAPDIAGQGKANPCALLLGAAQMLDHLGQPQNAERLRNAIVATLEAKDSLTPDLGGSGNTMGFAKAIASRL	PGPT0019510_1887	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0019510-icd2-K00030	NA	NA
BMS020_03925	762			hypothetical protein	ATGCGTAGCGGCAACCCCGCACTGAAGGAATCGACCTTCCTCGACCTCGGCACCGGCTCGGTCGTCACCCGCGACGCCGGCGCGATGACGATCAACGGCACCGTCAACCGCACCGGCATCCTGCTGCTGCTGGCACTGCTGACCGCCGCCTTCGCCTGGAGCCAGGCCGTCGGCGCCGATGGCGTGCCGCAGCCGGCCGCCGGCATGTATGCGCTGGTCGGCGCGATCGGCGGGCTGGTGTTCGCGCTGGTCACGGTGTTCAAGAAGGAATGGGCGCCGGTCACCGCGCCGCTGTACGCACTGCTGGAAGGCTTCTTCCTCGGCGCGATCTCGGCGGTGTACGAAGCACGCTTCAACGGCATCGTGTTCCAGGCAGTGCTGCTGACCTTCGGCACGCTGTTCGCGCTGCTGTTCGCCTACCGCAGCGGCATGATCAAGGCCACCGAGAACTTCAAGCTGGGCGTGGTCGCGGCCACCGGCGGCATCGCACTGGTGTACCTGGCGACGATGGTGCTGGGCTTCTTCAACATCGCCATCCCCTACATTCACCAGTCGGGCATGATCGGCATCGGCTTCAGCCTGTTCGTGGTGGTGGTCGCCGCGCTCAACCTGGTGCTGGACTTCGACTTCATCGAGAACGGCGTCGAGCACGGCGCACCGAAGTACATGGAGTGGTACGGCGCGTTCGGGCTGATGGTCACCCTGGTGTGGCTGTACGTCGAGTTCCTGCGCCTGCTGTCGAAGCTACAGTCGCGCAACTGA	MRSGNPALKESTFLDLGTGSVVTRDAGAMTINGTVNRTGILLLLALLTAAFAWSQAVGADGVPQPAAGMYALVGAIGGLVFALVTVFKKEWAPVTAPLYALLEGFFLGAISAVYEARFNGIVFQAVLLTFGTLFALLFAYRSGMIKATENFKLGVVAATGGIALVYLATMVLGFFNIAIPYIHQSGMIGIGFSLFVVVVAALNLVLDFDFIENGVEHGAPKYMEWYGAFGLMVTLVWLYVEFLRLLSKLQSRN				NA	NA	NA	NA	NA
BMS020_03931	1296	tig_2	COG0544	Trigger factor	ATGCAAGCTTCGATCGAATCGACCGGCAACCTGGAACGCCGACTGACCTTCACCCTGCCGGAAGATCGTCTGCAGTCCCATATCGGCGGCCGCCTCAGCGAGATCGCGCGCACCGCGCGCATCAAGGGCTTCCGCCCGGGCAAGGTGCCGGCCAAGGTGATCGAGCAGCGCTTCGGCCAACAGGTCCGCGCCGAGGCGCTGGACGGCCTGCTGCGCGAGACGCTGGACTCGGCGATCCGCGAACACGCGCTGCGCGTGGCCGGCCAGCCGCGCGTGGACCGTGCCGGCGAGGGCGAACTGGACTTCGTCGCCACGCTGGAGCTGGTTCCGGAGTTCGGCGACATCGACGTGACCAAGCTCAATGTCGTGCGCCACGTCGCCGAAGTGACCGATGCCGACATCGACCAGATGATCGAGAACCTGCGCCTGCAGCGCCGTACCTGGGCCGCCGTCGAGCGCGGCGCCAAGGCCGGCGACCTGGTCGCGCTGGAAACCTGGTCGCAGGCCGGCGACGAGCGCCTGCCGGCCGAAGGCGCCGAGAAGGGCAGCAGCATCCTCGGCTCGGGCGTGATGTTCGAGCAGATCGAGAAGGGCCTGGAAGGCCTGGCCGCCGGCGAGGAAAAGACCCTGAAGGTCGATTTCCCGGCCGACTGGCGCGTGCCGCAGCTGGCCGGCAAGACCGTCGACGTGCACGTCAAGGCGGTGCAGGTCTCCGAGCCGGTGCTGCCGGAAGTGAACAAGGAGTTCATCAAGAGCTTTGGCGTGAAGAGCGGCGATGCCGAGCAGTTCCGCGCCGACATCCGCACCAACCTGGAGCGCGAGCTCAAGGGCTCGCTGATGAACCGTCTGCGCCGCGAGGTTGGCGAGCAGCTGATCGCCGCCTATGCGCATGTCGAACTGCCGCCGCGCCTGGTCGAAGGCGAGGCCCGCTCGATGCTGGCCCAGCAGGTGGAGCAGGTGCGCCGCAGCGGGCGCGATCCGGGGCCGGTGCCGGCCGATGCCTTCCAGGGCTTCATGGATCCGGCGCGCAAGCGCGTGCTGGTCGGCCTGCTGGTTGGCGAGGTTGCCCGCCGCAACGAGCTGCGCCTGGATCCCAAGCGCGTCAGCGAGACGCTGCGTCTGATTGCCTCGACCTACGAAGAGCCCGAGCAGGTCATTGAGATGTACCGCAACGATCCCCAGTTGATGGGGGGGCTGCAGAGCCGCGTGATGGAAGAGCAGGTGATCGACTGGATCGCCGAGCGCGCCCAGCACACCGAGCAGGCCCTGTCGTTCCAGGACGCGATCCGCCAGTAA	MQASIESTGNLERRLTFTLPEDRLQSHIGGRLSEIARTARIKGFRPGKVPAKVIEQRFGQQVRAEALDGLLRETLDSAIREHALRVAGQPRVDRAGEGELDFVATLELVPEFGDIDVTKLNVVRHVAEVTDADIDQMIENLRLQRRTWAAVERGAKAGDLVALETWSQAGDERLPAEGAEKGSSILGSGVMFEQIEKGLEGLAAGEEKTLKVDFPADWRVPQLAGKTVDVHVKAVQVSEPVLPEVNKEFIKSFGVKSGDAEQFRADIRTNLERELKGSLMNRLRREVGEQLIAAYAHVELPPRLVEGEARSMLAQQVEQVRRSGRDPGPVPADAFQGFMDPARKRVLVGLLVGEVARRNELRLDPKRVSETLRLIASTYEEPEQVIEMYRNDPQLMGGLQSRVMEEQVIDWIAERAQHTEQALSFQDAIRQ				NA	NA	NA	NA	NA
BMS020_03932	627	clpP_2	COG0740	ATP-dependent Clp protease proteolytic subunit	ATGAGCATTCAGACCCAAGCCCTGAACCTGGTGCCGATGGTGGTCGAGCAGACCAGCCGCGGCGAGCGCGCGTACGACATCTATTCGCGCCTGCTGAAGGAGCGCCTGATCTTCCTGGTCGGCCCGATCGACGACCACATGGCCAACGTGATCGTGGCCCAGCTGCTGTTCCTCGAGGCCGAGAATCCCGAGAAGGACATCAGCATCTACATCAACTCGCCGGGCGGCGTGGTGACCGCCGGCATGGCGATCTACGACACCATGCAGTACATCAAGCCGGACGTCAGCACGATCTGCGTCGGCCAGGCCGCCTCGATGGGCGCGCTGCTGCTGGCGTCGGGCGCTGCCGGCAAGCGCTACGCGCTGCCGAACTCGCGGGTGATGATCCACCAGCCGCTGGGCGGCTTCCAGGGCCAGGCCACCGACATCGACATCCACGCGCGCGAGATCCTGACCCTGCGTTCGCGCCTGAATGAAGTGCTGGCCAAGCACACCGGCCAGTCGCTGGAGACGATCGCGCGCGATACCGAGCGCGACAACTTCAAGAGCGCGGTGGACGCGCAGGCCTATGGTCTGGTCGACCAGGTGCTGGAGCGGCGTCCGGACGAGTCGATCCAGCCTGCCTGA	MSIQTQALNLVPMVVEQTSRGERAYDIYSRLLKERLIFLVGPIDDHMANVIVAQLLFLEAENPEKDISIYINSPGGVVTAGMAIYDTMQYIKPDVSTICVGQAASMGALLLASGAAGKRYALPNSRVMIHQPLGGFQGQATDIDIHAREILTLRSRLNEVLAKHTGQSLETIARDTERDNFKSAVDAQAYGLVDQVLERRPDESIQPA	PGPT0014595_4701	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
BMS020_03933	1290	clpX_2	COG1219	ATP-dependent Clp protease ATP-binding subunit ClpX	ATGAGCGAAGACCGCCAAGGTCGTTCCGGCGACGGCACCAAGATCCTCTACTGCTCGTTCTGCGGTAAGAGCCAGCACGAGGTCCGCAAGCTGATTGCGGGTCCCAGCGTGTTCATCTGCGACGAGTGCGTCGAGCTCTGCAACGACATCATCCGCGAGGAACTGGAAGAGAAGGCCCAGTCGGCGCGCTCCAGCCTGCCCAAGCCGAAGGAAATCCTCGAGGTTCTGGACCAGTACGTGATCGGCCAGCAGCGCGCCAAGCGCACGCTCGCGGTCGCCGTGTACAACCATTACAAGCGCATCGAGAGCCGTCAGAAGAACGACGACGTCGAACTCGCCAAGTCCAACATCCTGCTGGTCGGTCCGACTGGTTCGGGCAAGACGCTGCTGGCCGAGACGCTGGCGCGCCTGCTCAACGTCCCGTTCACGATGGCCGATGCAACCACGCTGACCGAGGCCGGCTATGTCGGCGAGGACGTGGAGAACATCATCCAGAAGCTGCTGCAGAAGTGCGACTACGATGTCGACAAGGCGCAGCAGGGCATCGTCTACATCGACGAGATCGACAAGATCTCGCGCAAGAGCGAGAACCCGTCGATCACCCGCGACGTGTCCGGCGAAGGCGTGCAGCAGGCGCTGCTGAAGCTGATCGAGGGCACCGTGGCCAGCGTGCCGCCGCAGGGCGGACGCAAGCACCCGCAGCAGGAGTTCCTGCAGGTCGACACCAAGAACATCCTGTTCATCTGCGGCGGCGCGTTCGCCGGCCTGGACAAGGTGATCCAGCAGCGTTCGACCGAGGCCGGTGGCATCGGTTTCGGCGCCAAGGTGAAGAGTTCCGAGCGCAAGCAGGACATGGGCAAGGTGCTGGCCGAGGTCGAGCCGGAAGACCTGATCAAGTTCGGGCTGATCCCCGAGTTCGTCGGCCGCCTGCCGGTGGTCGCCACGCTCGAGGAACTCGACGAGCCGGCGCTGATCAAGATCCTGACCGAGCCGAAGAACGCGATCACCAAGCAGTTCAAGAAGCTGTTCGAGATGGAGAGCGTCGAGCTGGAGTTCCGCCCGGACGCGTTGTCGGCGATCGCCAAGAAGGCGCTCAAGCGCAAGACCGGCGCGCGCGGCCTGCGCACCATCGTCGAATCGGTGCTGCTGGACACGATGTACGAGCTGCCCTCGCAGGAGAACGTCAGCAAGGTGGTGGTCGACGAATCGGTGATCGAGCACAAGTCCGAGCCGTACCTGATCTACCAGACCCCGCCGCCGGCGCCGGCCAAGGCCGCTTCGGGCGATTGA	MSEDRQGRSGDGTKILYCSFCGKSQHEVRKLIAGPSVFICDECVELCNDIIREELEEKAQSARSSLPKPKEILEVLDQYVIGQQRAKRTLAVAVYNHYKRIESRQKNDDVELAKSNILLVGPTGSGKTLLAETLARLLNVPFTMADATTLTEAGYVGEDVENIIQKLLQKCDYDVDKAQQGIVYIDEIDKISRKSENPSITRDVSGEGVQQALLKLIEGTVASVPPQGGRKHPQQEFLQVDTKNILFICGGAFAGLDKVIQQRSTEAGGIGFGAKVKSSERKQDMGKVLAEVEPEDLIKFGLIPEFVGRLPVVATLEELDEPALIKILTEPKNAITKQFKKLFEMESVELEFRPDALSAIAKKALKRKTGARGLRTIVESVLLDTMYELPSQENVSKVVVDESVIEHKSEPYLIYQTPPPAPAKAASGD	PGPT0014600_1664	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014600-clpX-K03544	NA	NA
BMS020_03934	2490	lon_3	COG0466	Lon protease	ATGGCCCCCTCCCAACCCGAAGTCCTTGAACTGCCGGTCCTGCCGCTGCGCGACGTGGTGGTGTTCCCGCACATGGTGATCCCGCTGTTTGTCGGCCGCGACAAATCGATGCGCGCGCTGGAGCAGGCGATGGAGGCCGACAAGCGCATCCTGCTGGTCGCGCAGAAGTCGGCCGAGACCGACGATCCGGTCGCCTCCGATCTGTACGCGGTCGGCACGCTGGCGCAGGTGCTGCAGCTGCTGAAGCTGCCCGACGGCACCATCAAGGTGCTGGTCGAGGGCCTGTCGCGCGTCAACGTCGACCGGGTCGCCGAGCACGACGGCGCGCTGCAGGGGCGCGGCACCGAGATCGATTCGCTGGAGTCGCGCGAGCCGCGCGAGCCGCGCGAGCTCGAAGCGGTCGCGCGCTCGCTGATGTCGCTGTTCGAGCAGTACGTCAAGACCAACCGCAAGCTGCCGCCGGAGCTGTTGCAGACCTTGGCCGGGATCGAGGAGCCGGGCCGGCTGGCCGACACCATCGCCGCGCACATCGGCGTGCGCCTGGCCGACAAGCAGCGCCTGCTCGAGACCACCGAGGTCGGTGACCGGTTGGAGATGCTGGTCGGCCTGGTCGACGGCGAGATCGACGTGCAGCAGCTGGAGAAGCGCATCCGCGGCCGGGTGAAGTCGCAGATGGAGAAGAGCCAGCGCGAGTACTACCTCAACGAGCAGATGAAGGCGATCCAGAAGGAACTGGGCGACCTGGACGATGCGCCGGGCGAGCTGGAGGAACTGGCACGCAAGGTCGCCGAGGCCGGCATGCCCAAGCCGGTGGAGACCAAGGCCAAGAGCGAGCTCAACAAGCTCAAGCAGATGTCGCCGATGTCGGCCGAGGCCGCGGTGGTGCGCAACTACCTCGACTGGCTGCTCGGCGTGCCGTGGAAGAAGCGCACCAAGGTGCGTAAGGATCTCAAGGTCGCCCAGGACACGCTCGATGCCGATCACTACGGCCTGGAGAAGGTCAAGGAACGCATCCTCGAATACCTCGCGGTGCAGTCGCGGGTGAAGCAGATGAAGGGCCCGATCCTGTGCTTGGTCGGCCCGCCCGGCGTGGGCAAGACCTCGCTCGGCCAGTCGATCGCCAAGGCCACCAACCGCAAGTTCGTGCGCATGTCGCTCGGCGGCGTGCGCGACGAGGCCGAGATCCGCGGGCACCGCCGCACCTATGTCGGCTCGATGCCGGGCCGGATCGTGCAGAACCTCAACAAGGTCGGCAGCAAGAATCCGTTGTTCGTGCTCGACGAGATCGACAAGATGTCGATGGATTTCCGTGGCGACCCGTCTTCGGCGCTGCTGGAGGTGCTCGATCCGGAACAGAACAGCGCCTTCAACGACCACTACCTGGAAGTGGATCTGGACCTGTCCGAAGTGATGTTCGTGGCGACCTCCAACTCGCTGAACATCCCCGGCCCGCTGCTGGACCGCATGGAAGTGATCCGCATCCCGGGGTACACCGAGGACGAGAAGCTCAACATCGCGCTGCGCTACCTGGTGCCCAAGCAGCTCAAGGCCAATGGGCTGAAGCCGGAGGAGCTGGCGATCGAGGAACCGGCGATCCGCGACATCGTGCGTTACTACACGCGCGAGTCGGGCGTGCGCAACCTGGAGCGCGAGATCGCCAAGATCTGCCGCAAGGTGGTCAAGGAGATCGCGCTGGCGGGTCCGCAGCTGCAGGCGGCGAAGAAGCCGGCCGGCAAGAAGGCCGCGGCGAAGAAGCCCAAGGCGCTGGTGGTCGTCGACGGCACGAACGTCGACAAGTACCTGGGCGTGCGCCGCTTCGACTTTGGTCGCGCCGAGGAAGCCAACGAGATCGGCCTGGTCACCGGTCTGGCCTGGACCGAGGTCGGTGGCGATCTGCTGCAGATCGAGTCCACGCTGGTGCCGGGCAAGGGTCAGCTGATCCTGACCGGCCAGCTCGGCAACGTGATGAAGGAATCGGCGTCGGCCGCGCTGTCGGTGGTGCGCTCGCGCGCCGAGCGGCTCGGCATCGATGTCGACTTCCTGCAGAAGCAGGACGTGCACGTGCATGTGCCCGATGGCGCCACGCCGAAAGATGGCCCGAGTGCGGGCATCGCGATGGTCACCTCGCTGGTGTCGGTGTTGACCAAGGTGCCGGTGCGCGCCGATGTGGCGATGACTGGCGAGATCACCCTGCGCGGCCGCGTGTCGGCGATCGGCGGGCTGAAGGAGAAGCTGCTGGCGGCGCTGCGCGGCGGCATCCGCACCGTGCTGATCCCGGAGGAGAACCGCAAGGACCTCGCCGACATCCCGGCCAACGTGACGCGCGACCTCGACATCGTGCCGGTGAAGTGGATCGAGGAGGTGCTCGATCTCGCGCTCGAAGCACCGCTGCGACCCGGCAACGGCAAGCAGAAGGCGCGCAAGAGCAGCGCGCGCGTGGCGGTGCGCGGCAAGGCGAAACCGGCGTCCAACGCACGCGTCAAGCACTGA	MAPSQPEVLELPVLPLRDVVVFPHMVIPLFVGRDKSMRALEQAMEADKRILLVAQKSAETDDPVASDLYAVGTLAQVLQLLKLPDGTIKVLVEGLSRVNVDRVAEHDGALQGRGTEIDSLESREPREPRELEAVARSLMSLFEQYVKTNRKLPPELLQTLAGIEEPGRLADTIAAHIGVRLADKQRLLETTEVGDRLEMLVGLVDGEIDVQQLEKRIRGRVKSQMEKSQREYYLNEQMKAIQKELGDLDDAPGELEELARKVAEAGMPKPVETKAKSELNKLKQMSPMSAEAAVVRNYLDWLLGVPWKKRTKVRKDLKVAQDTLDADHYGLEKVKERILEYLAVQSRVKQMKGPILCLVGPPGVGKTSLGQSIAKATNRKFVRMSLGGVRDEAEIRGHRRTYVGSMPGRIVQNLNKVGSKNPLFVLDEIDKMSMDFRGDPSSALLEVLDPEQNSAFNDHYLEVDLDLSEVMFVATSNSLNIPGPLLDRMEVIRIPGYTEDEKLNIALRYLVPKQLKANGLKPEELAIEEPAIRDIVRYYTRESGVRNLEREIAKICRKVVKEIALAGPQLQAAKKPAGKKAAAKKPKALVVVDGTNVDKYLGVRRFDFGRAEEANEIGLVTGLAWTEVGGDLLQIESTLVPGKGQLILTGQLGNVMKESASAALSVVRSRAERLGIDVDFLQKQDVHVHVPDGATPKDGPSAGIAMVTSLVSVLTKVPVRADVAMTGEITLRGRVSAIGGLKEKLLAALRGGIRTVLIPEENRKDLADIPANVTRDLDIVPVKWIEEVLDLALEAPLRPGNGKQKARKSSARVAVRGKAKPASNARVKH	PGPT0014315_879	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014315-lon-K01338	NA	NA
BMS020_03935	273	hupB	COG0776	DNA-binding protein HU-beta	ATGAATAAAGCCGAATTGATCGATGGCGTCGCCGCTACCGCTGACCTGTCCAAGGCCGAAGCCGGCCGTGCCGTCGACGCGATCGTCAACGAAATCACCAAGGCCCTGAAGAAGGGTGACGCCGTGACCCTGGTGGGCTTCGGTACGTTCCAGGTCCGCGAGCGCGCCGAGCGCACCGGCCGCAACCCGAAGACCGGCGACACCATCAAGATCGCTGCTTCGAAGAATCCTTCGTTCAAGGCTGGCAAAGCCCTGAAGGACGCGGTAAACTAA	MNKAELIDGVAATADLSKAEAGRAVDAIVNEITKALKKGDAVTLVGFGTFQVRERAERTGRNPKTGDTIKIAASKNPSFKAGKALKDAVN				NA	NA	NA	NA	NA
BMS020_03940	1971	ppiD_2	COG0760	Peptidyl-prolyl cis-trans isomerase D	ATGCTGCAGAAACTCCGCGACAAGACCTCGGGATGGATCGCCACGGCCATTCTCGGGCTGCTGATGATTCCGTTCCTGTTCGTCATCGACAACAGCTACCTCGGTGGCGTCGGTGCGAACAACGTGGCCAAGGTGCAGGCGCCACCGACCTGGTGGAAGTCCGCGCCGTCGTGGTGGCCGGTCTCGCTGCTGTGGCAGCACCATGAGGTCAGCACCCAGGATTTCCGCACGCGCTTCGAACAGGTGCGCATGCAGGAGCGCCAGCAGCAGGGCGACGCCTTCGACCCGCGCAAGTTCGAGTCGCAGGAGAACAAGCTGAAGGTGCTGGACCAGATGATCGACGAGCAGGTCGTGCGCCTGGGCGCCGAAGATGCCGGCATCGTCATCGGCGATGCGACCGTGCGCGACTACATCGCCAGCATCCCGGCCTTCCAGGTCGACGGCAAGTTCAACGGCGACCAGTACCGCGCCGCGCTCGCCGCCGGCAATCCGCCGCGGACGCCGGAGCAGTTCGACGCGCTGGTGCGCAACGGCCTGCAGCAGTCGGTGATCCCGGGCGCGATCGCCGAATCGGCGTTCGTCACCAAGTCCGAGTTCGAGCGCACGCTGAAGCTGCTCGGCGAGACCCGCGACGTGGAGCTGGCCGCGCTGCCAGAGCCGGCCGCCGACACCGCCGCCGTCAGCGATGCGCAGATCAAGCAGTGGTACGACGGCCATGGTCAGGATTTCCGCCAGCCGGAGACCGTGTCGATCGAGTACGTCGACATCAACGCCGCCAACCTGCCGCCGGCGCAGGCTGCCGACGAGGCCACGCTGCGCAAGCGCTACGAGGACGAGAAGGCCCGCTTCGTCGAGCCCGAGCAGCGCCTGGCCTCGCACATCCTGATCAGCGCGGGCAGCGATGCCGCCGCGCAGAAGACCGCCGAGGCCAAGGCCGCCAAGCTGGCCGACGAAGCGCGCCAGCCGAATGCCGATTTCGCCGCGCTGGCCAAGGCCAACTCGGAGGATCCGGGCTCCAAGGACGCCGGTGGCGACCTGGGCTGGGTCGAGAAGGGTGTGATGGTGAAGCCGTTCGAGGACGCGTTGTTCGCGGCCAAGGCCGGTGAAGTGATCGGGCCGGTCAAGACCGAGTTCGGCTACCACGTGATCAAGCTGCGCGAGGTCAAGGGCGGCGAAGGCAAGGCGTTCGAGGCCGTGCGCGACCAGCTGGCCGCCGAGCAGCTGAAGAGCGATACCGAGAAGGCCTATTCGGACCTGAGCGGCCGCCTGGTCGACCTAGTCTACAAGAACCCGACCGAGCTGGCCGGCGCGGCCAAGGAAGTCGGCCTGCCGGTGCAGACCCTGGGGCCGTTCTCGCGCGCGGACGCGACCGGCATCGCCGCCGACGCCAACGTGCTGCGCGCGGCGTTCTCCGACGCGCTGGTGCAGGACGGCACGGTCAGCGACCCGATCGAACTCGGGCCGAACCATGCGGTGCTGCTGAAGGTCACCGCGCACACCGCCGAACAGGTGCTGCCGCTGGAGAAGGTGCGTGACCGCGTGATCGCGGCGATCCACGTCGATCGCGCCAACCAGGCCGCCGAGAAGGCCGCCGACGCGTTGCTGGCACGCTTGACCAAGGGCGAGACGCTGCAGGCGCTGGCCGAGGCCGAGCACCTGCAGGTGGCGCCGCTGCCGGGCCTGCCGCGCGGTGCGCCGGTGCCGACCGCGGCCGCCAACCGGGCGATCTTCAGCGCCCCGGCGCCGAAGGAAGGTGCGTCGTCGTTCGGCAAGGTCAAGCTGTCCGAGGGCCACTACGCGCTGTTCGCGCTGACCAAGGTGAGCCCGGGCGACCTGGCCAAGCTGCCGGTCGAACAGCAGTCGGGGCTGCGCGAGCAGCTCGGGCAGATGGAAGGCGACGCCGCCGCGCGGGCCTACATCAGCGCGATGCGCAAGCGCCTGAAGATCGCCATCCAGGAGTCGCAGCTGTAA	MLQKLRDKTSGWIATAILGLLMIPFLFVIDNSYLGGVGANNVAKVQAPPTWWKSAPSWWPVSLLWQHHEVSTQDFRTRFEQVRMQERQQQGDAFDPRKFESQENKLKVLDQMIDEQVVRLGAEDAGIVIGDATVRDYIASIPAFQVDGKFNGDQYRAALAAGNPPRTPEQFDALVRNGLQQSVIPGAIAESAFVTKSEFERTLKLLGETRDVELAALPEPAADTAAVSDAQIKQWYDGHGQDFRQPETVSIEYVDINAANLPPAQAADEATLRKRYEDEKARFVEPEQRLASHILISAGSDAAAQKTAEAKAAKLADEARQPNADFAALAKANSEDPGSKDAGGDLGWVEKGVMVKPFEDALFAAKAGEVIGPVKTEFGYHVIKLREVKGGEGKAFEAVRDQLAAEQLKSDTEKAYSDLSGRLVDLVYKNPTELAGAAKEVGLPVQTLGPFSRADATGIAADANVLRAAFSDALVQDGTVSDPIELGPNHAVLLKVTAHTAEQVLPLEKVRDRVIAAIHVDRANQAAEKAADALLARLTKGETLQALAEAEHLQVAPLPGLPRGAPVPTAAANRAIFSAPAPKEGASSFGKVKLSEGHYALFALTKVSPGDLAKLPVEQQSGLREQLGQMEGDAAARAYISAMRKRLKIAIQESQL				NA	NA	NA	NA	NA
BMS020_03941	1206			hypothetical protein	ATGAGGCGGCTGGCGCTCGCTGTGCTGGCCGGACTGACGGCCATCACGCTGCCCACCGCGGGAGTCGCTGTCGCCCAGGACGCTCCGGCGAGCCTGGCCAGCACGCCGGCAACCGCCGTCGAGCCGGTCCCGGGCGACGCCATGGCACTGCCGACCAGTCGCAACGGCCGCGAGATCTTCGACGCCTTCCTGGCCGGGCGTGCCGATCCGGGCTGCGACGACGCGGCCAGCAGCGCGCGCTGGGAGCGCCATTTCTCGCACGCCCCCTCGCGCCTGGCCAATGAGGACCAGGACGTGCTGCCGCTGTTCGGCTACGTGGTCGACCAGCTGCGCGACGCCGGCCTGCCCACCGAATTCGCACTGATTCCATTCGTCGAGAGCGGCTACCGCCCCGGCGCCCGCAACGGCAGCGGCCCGGCCGGCCTGTGGCAGTTCATCGCTGTCACCGCCCGCAACCACAAGGTTCCGGTCAGCAAGCAATACGATGGGCGGCTGTCGGCGGTCGATTCCACCGCTGCCGCGGTGCGCTACCTGAAGACGCTGTACGGCATGTTCGGCGGCGATTGGCGGCTGGCGGTGATGGCCTACAACGCCGGCGAGTACCGTGTGCTGCAGTCGATGCGCCAGGCCGGCATGAACGCGCAGAACGCCGACCCAACCAAGCTGCCCGGGCTGTCCAAGGTCAGCTACGCCTACGTCGAGAAGCTGCACGCGCTTGCGTGCGTGCTCGACCGCGCGCAGCAGCAGGGCCCGATGATGACCGGCCTGGACCGCGAGGTGCCGATCCTGGCCCCGCAGACCGTGCCGGCCGGAACCACGCTGCAACGCTGGAGCCGCGACCAGGACCTCGAACACGACCTGGTGGCGCGGCTGAACCCGGCGCTGCCGGCCACCCGCACCACGATCGCCCCGCGCCACGTGCTGGTGCCGCAGGGCACCGGCGGCAACGATGCGCTGGACGCGGCGCTGATGCCCGGCGAAACCACGCAGGTGCTTGCCGATACCGATCGGGCCGTATCGCCGGCCACCGCGGCGAACGCCGGCGACCGCCCCCGCCGTACCCATACCGTGCGCTCGGGCGAATCGGCCTGGAGCATCGCGCGCCGGTACGGCATCAGCGTCAAGGCATTGCTGGCCGACAACGGCCTGGAGCGCGCCAGCGTACTCAAGCCCGGCATGGTCCTGGCCTTCGACGACGTCCGTTGA	MRRLALAVLAGLTAITLPTAGVAVAQDAPASLASTPATAVEPVPGDAMALPTSRNGREIFDAFLAGRADPGCDDAASSARWERHFSHAPSRLANEDQDVLPLFGYVVDQLRDAGLPTEFALIPFVESGYRPGARNGSGPAGLWQFIAVTARNHKVPVSKQYDGRLSAVDSTAAAVRYLKTLYGMFGGDWRLAVMAYNAGEYRVLQSMRQAGMNAQNADPTKLPGLSKVSYAYVEKLHALACVLDRAQQQGPMMTGLDREVPILAPQTVPAGTTLQRWSRDQDLEHDLVARLNPALPATRTTIAPRHVLVPQGTGGNDALDAALMPGETTQVLADTDRAVSPATAANAGDRPRRTHTVRSGESAWSIARRYGISVKALLADNGLERASVLKPGMVLAFDDVR	PGPT0023795_2039	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023795-mltD|dniR-K08307	NA	NA
BMS020_03942	765	gloB_2	COG0491	Hydroxyacylglutathione hydrolase GloB	ATGCGACTGACCGCCCTGCCCGCATTCGAGGACAACTACATCTGGGCGCTGGCGGCGGCCGATGGCGCCGCGATCGTGGTCGATCCCGGCGATGCCGGCCCGGTGCTGGAGGCCGCCGCACACGGCCTGCGTCCGGCCGCGGTCCTGCTGACCCACCACCATGCCGACCACATCGGCGGCGTGGCGGCGCTGCGCGCACGCTGGCCCCAGCTGCCGGTCTACGGCCCGGATGACCCCCGCATCGCGTTCGCATATACCGAGCTGGCCGATGGCGCCGAACTGGACCTGCTCGGCAGCCGCTTCGCCGTGCTCGCCGTGCCCGGCCACACCCGCAGCCATCTGGCCTATGTCGGCGCCGGTGCGCTGTTCTGCGGCGACACCTTGTTCAGCCTGGGCTGTGGGCGGATGTTCGAAGGTACCCCGCCGCAGATGCTCGCATCCTTGCGGCGGCTGGCCGCCCTGCCCGGGGACACCCTGGTCTGCTGCGGCCACGAATACACCCTGTCCAACGCCCGTTTCGCGTTGCAGGTCGACCCCGCCAACGCGGCCCTGCGCCGCCGCCACGAGGAAGTCCAGGCCATGCGCACCGCCGCCCAGCCCACCTTGCCGGTCCCGCTCGCCAGCGAACTGGCCTGCAATCCGTTCCTGCGCATCGATACCGCCGAGGTCCGGGCCGCGATCGCCGCCCGCCTGGGGCGCACGCCGGTCGACGCGACCGAAGTCTTCGCCGAATTGCGGCGCTGGAAGGACGATTTCCGCGCATGA	MRLTALPAFEDNYIWALAAADGAAIVVDPGDAGPVLEAAAHGLRPAAVLLTHHHADHIGGVAALRARWPQLPVYGPDDPRIAFAYTELADGAELDLLGSRFAVLAVPGHTRSHLAYVGAGALFCGDTLFSLGCGRMFEGTPPQMLASLRRLAALPGDTLVCCGHEYTLSNARFALQVDPANAALRRRHEEVQAMRTAAQPTLPVPLASELACNPFLRIDTAEVRAAIAARLGRTPVDATEVFAELRRWKDDFRA	PGPT0001770_3373	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
BMS020_03943	579			hypothetical protein	TTGCTCCGCGCCGAACGCGATCTGGCGCGGCAGGCGCTGTCCGCGCGCCCGGTACAGCCGTGGCTGTGGATCGCCCCGCGCCCGGTCGGGCCGCTGACGCTCGACGGGCGCGGCATCCGGCTCTCGCTGCGCCGGGGCGGCGGTTTCGGCGGCGACCTGCGCTGCGGGCTGCCGCTTCCGCTGCCTTCGGAGAGCATGCAGGTGATCGTGGTGCAGCATGCGCTGGACGACGCCGGCGGCGCGCTGCTCGACGAATGTGCCCGGGTGCTGGCGCCCGGGGGGCGGCTGTGGCTGTTCGCGCTCAATCCCTACAGTCCGTACCGGGTGCGCTGGGCGCGGCGCCTGCCGGCCGGCATCGGTGGTGAAGCCTGGCGCGCGCGCGTGCGGCGCGCGGGCCTGCATTGTCCGGTCGATGCGCTGCGCTACCTCGGTCCGGTGCTGCGCGCACGCGGCGGTGAGCGTGCCGACCACCGGCCATGGCGTGCGGTGTGCGCGCTGGAGGCGGAAAAACGCACGGTCGCGCCGGTGGGACCGGTGGCGGCCAAGGTGGGCTGGCAACGGCCGGTCCCGACCCTTTGA	MLRAERDLARQALSARPVQPWLWIAPRPVGPLTLDGRGIRLSLRRGGGFGGDLRCGLPLPLPSESMQVIVVQHALDDAGGALLDECARVLAPGGRLWLFALNPYSPYRVRWARRLPAGIGGEAWRARVRRAGLHCPVDALRYLGPVLRARGGERADHRPWRAVCALEAEKRTVAPVGPVAAKVGWQRPVPTL				NA	NA	NA	NA	NA
BMS020_03944	441	rnhA_2	COG0328	Ribonuclease HI	TTGAAATCCATTGAAATCCACACCGACGGTTCCTGCCTCGGCAACCCGGGGCCGGGTGGCTGGGCGGCGTTGCTGCGCTACAACGGCAAGGAAAAGGAACTGGCTGGCGGCGAGGCGGACACCACCAACAACCGCATGGAGCTGATGGCGGCGATCATGGCGCTCGAGGCGCTGACCGAACCGTGCGCGATCGTGCTGCACACCGATTCGCAATATGTCCGCCAGGGCATCACCGAGTGGATGTCCGGCTGGCTGCGGCGCAACTGGAAGACCGCCGGCGGCGACCCGGTGAAGAACCGCGAGCTGTGGGAGCGCCTGCACGCGGCCACGCAGCGGCACAGCATCGAGTGGCGCTGGGTGAAGGGCCACAACGGCGACCCGGACAACGAGCGCGTGGATGTGCTGGCGCGCACCCAGGCACAGGCCGTGCGCGGCGGATGA	MKSIEIHTDGSCLGNPGPGGWAALLRYNGKEKELAGGEADTTNNRMELMAAIMALEALTEPCAIVLHTDSQYVRQGITEWMSGWLRRNWKTAGGDPVKNRELWERLHAATQRHSIEWRWVKGHNGDPDNERVDVLARTQAQAVRGG	PGPT0017445_20	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_RIBOSE_METABOLISM|DEGRADATION,PGPT0017445-deoC-K01619	NA	NA
BMS020_03945	729	dnaQ_2	COG0847	DNA polymerase III subunit epsilon	ATGCGTCAGATCGTCCTCGATACCGAAACCACCGGCCTGGAGTGGCGCAAGGGCAACCGCATCGTCGAAATCGGCTGCGTGGAGCTCATCAAGCGCCGCCCCACCGGCAACAACTACCACCAGTACATCCGCCCCGAATGCGAGTTCGAGCAGGGGGCGCAGGAAGTCACCGGGCTGACCCTGGACTTCCTGGCCGACAAGCCGCTGTTTGCCGAGATCGCCGAGGAGTTCCTGGCGTTCATCGACGGCGCGGAGCTGATCATCCACAACGCGTCGTTCGACCTGGGCTTCCTCGATTACGAGCTGTCGCTGCTCGGTGAAGGCTATGGGCGCATCACCGACCGCTGCACGGTGATCGATACCCTGGCGATGGCGCGCGAGCAGTACCCGGGTCAGCGCAATTCGCTGGACGCGCTATGCAAGCGCCTGGGCGTGGACAACGCGCACCGCCAGCTGCACGGCGGCCTGCTCGATGCGCAGATCCTCGGCGACGTCTACATCGCGCTGACATCGGGCCAGGAGGAGATCGGCTTCGGCTCCGCCGACGAGGACGCGGCGGGGAGCGCGGCGCTGGCCAGCTTCGATGCGTCGATGCTGCTGCCGCGGCCGCGCGTGGTCGCCACCGCCTCCGAGCTGGACGCGCATGGCGCGCGCCTGGAGCGCCTGCGCAAGAAAGCCGGGCGGGCGATCTGGGACGGTCCGGCGCCGGAGATCGTGGCCGAAGGCTGA	MRQIVLDTETTGLEWRKGNRIVEIGCVELIKRRPTGNNYHQYIRPECEFEQGAQEVTGLTLDFLADKPLFAEIAEEFLAFIDGAELIIHNASFDLGFLDYELSLLGEGYGRITDRCTVIDTLAMAREQYPGQRNSLDALCKRLGVDNAHRQLHGGLLDAQILGDVYIALTSGQEEIGFGSADEDAAGSAALASFDASMLLPRPRVVATASELDAHGARLERLRKKAGRAIWDGPAPEIVAEG				NA	NA	NA	NA	NA
BMS020_03946	705	prpC_1	COG0631	Protein phosphatase PrpC	ATGCTCGAATTCGGACACCTCAGCCACGTGGGCCTGCGCCGCGACCTCAACGAGGACACTTATTACGGCGATATCGAGCTGGGCCTGTGGCTGGTGGCCGACGGCATGGGCGGGCACGCCTGCGGCGAAGTCGCCAGCGCGCTGGCGCGCGAGACCATCGTGCGCGAGGTCCGCGAGGGCACCCCGCTGGCGCAGGCGATCCGCATCGCCGACGAGGAGATCATCCGCACCTCGCGGCGGCGCAACGACAGCCTGCCGATGGGCACCACCGTGGTCGCCGCGCGCGTGCATGGCCAACGGTTCGAGGTCGCCTGGGTCGGCGACAGCCGCGCCTACCTGTGGCGCGACGGGCGCCTGGCCCAGCTCAGCCAGGACCACAGCTACGTGCAGGAACTGGTGGCCCAGGGCACGTTGACCAGCGAACAGGCGCGCGCCCATCCGCACCGCAACGTGGTCACCCAGGCACTGGGGGTCACCGACCCGACCCATCTGAACGTCGCCACGATGACCGGCGAGCTCAAGCCGGGGATGCAGCTGCTGCTGTGCAGCGACGGACTGACCGAGGAAGTCGACGACCGCGGCATCGCCGAGGCGCTGGGCTTCCTCGACTGCAGCGCGCAGGAATGCGTGGATTCGCTGATCGCCGCCGCACTCGACGGCGGCGGCTCGGACAACGTCACCGCGATCCTGGTGCGCTGCCACTGA	MLEFGHLSHVGLRRDLNEDTYYGDIELGLWLVADGMGGHACGEVASALARETIVREVREGTPLAQAIRIADEEIIRTSRRRNDSLPMGTTVVAARVHGQRFEVAWVGDSRAYLWRDGRLAQLSQDHSYVQELVAQGTLTSEQARAHPHRNVVTQALGVTDPTHLNVATMTGELKPGMQLLLCSDGLTEEVDDRGIAEALGFLDCSAQECVDSLIAAALDGGGSDNVTAILVRCH	PGPT0002605_107	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_REGULATION,PGPT0002605-stp1|pppA-K11915	NA	NA
BMS020_03949	408			hypothetical protein	ATGTCCGAAATCCTGGTGCCGGTGTCCTACGGCGAGCTGCTCGACAAGATCGCGATCCTGCAGATCAAGTCCGAGCGCATGAGCGACGCGGCCAAGCTGGCCAACGTCCGCAACGAACTGTCGGCGCTGGAGAAGACCTGGATGGCGCACCCGGCGGCCAGCGGCGACGTGGCGCGCCTGCGCGGCGAGCTGAAGGCGGTCAACGAGCGGCTGTGGGTGATCGAGGACGAGATCCGGCTGAAGGAGAAGGCGCAGGCCTTCGACGAGGAGTTCATCCGCCTGGCGCGCAGCGTCTACTTCGAGAACGACGAGCGCGCGCGGATCAAGAAGGACATCAACCTGGCGCTGGGCTCGTCCTACGTCGAGGAAAAGTCCTACCAGGACTACCGGGCGCCGTCCGCCGGCTGA	MSEILVPVSYGELLDKIAILQIKSERMSDAAKLANVRNELSALEKTWMAHPAASGDVARLRGELKAVNERLWVIEDEIRLKEKAQAFDEEFIRLARSVYFENDERARIKKDINLALGSSYVEEKSYQDYRAPSAG				NA	NA	NA	NA	NA
BMS020_03950	669			hypothetical protein	ATGGCCGGGGAGCGGCAGGCCGCAGGCGCTGGGCGCGGGCGTTGGCTGTACGACGACCTGCTGGCCTGGCTGTGCCCCGGCGGCTTGCTGCTGACCGCGCTGGTGCTGCGGTTTCCCGCTCCGCTGCATGCGCTGCGGGCGTTGGCGCCGGAGCTGGTATTGCCGAGCTGGCTGGCCGCGACCTATGCGCTCGGCCTGGCGTTGAGCCCACTCGGGCGCCTGGCTTACGCCGCTGCGCAGGCGGTGGTCTGGCCCTGGCTGCGCCAGCCTTGGGCGCCGGCGTTGCAGTCGTTGGCCGCGCCGCTCGCGGCCGAAGGACGCCCGCTGCCGCCGGTCTCGGCGATCGGGGTCGGGCTGTTCCATGATCTCGACCGGCGCCTGCGCGAATGGGTCGAGGCGCACGATGCCGCCGCTGCCGCGGTGCTGGACCGCATGAAGGTGCTGTGCAGCCTGGCCTGCAACACCCTGGCCGCCTGCGTGGTCTTCGGTGTGGTCGACCTGCTGGCTGGCAACGCTGCGTACTGGACGGCGGCACAGGTCTCCGGCTACGCCGGATGCTGCGCGTTGGCCGCGGCGTCGGCGGTGTATCGCGAGCGTCGCCGCCAGCGGACCCAGTTGTCGGTCTGGCGGCGCCTGCAGTTGCGCGCTCAGGGCGTGCCGAGCGCCTGA	MAGERQAAGAGRGRWLYDDLLAWLCPGGLLLTALVLRFPAPLHALRALAPELVLPSWLAATYALGLALSPLGRLAYAAAQAVVWPWLRQPWAPALQSLAAPLAAEGRPLPPVSAIGVGLFHDLDRRLREWVEAHDAAAAAVLDRMKVLCSLACNTLAACVVFGVVDLLAGNAAYWTAAQVSGYAGCCALAAASAVYRERRRQRTQLSVWRRLQLRAQGVPSA				NA	NA	NA	NA	NA
BMS020_03951	1068			hypothetical protein	ATGGCTGCATCGTCCCGTTCCCTGTGCCTCCTGCGGTTGTCCGCACTCGGGGATGTCACCCATGTGGTGCCGCTGGTGCGCACCCTGCAGGCCGGCCTGCCCGGTGTGCGGCTGCACTGGATCATCGACAAGGCCGGGCACAAGCTGCTGGACGGCCTGGACGGAGTCCACTTCCACGTCTACGACAAGCGCAGCGGTGTGGCCGGCATGCGCGCGCTGCGAAGCGAACTGGGCCCCATGGGACGCTTCGACGCACTGCTGCAGATGCAGGTCGCGCTGCGTGCCAACCTGCTGTCGGCGTTCGTGCCGGCGCGACGCCGGATCGGCTACGACCGCAGCCGGTCCAAGGACCTGCACGGCCTGTTCGTCAACGAGCGCATCGCCGACCGTCCGGGCATCCACGTGCTGGACGCGATCGGCAGCTTCAGCGAACCGCTGGGCCTGCGCCAGGAACAGGTCCGCTGGGAACTGCCGGTGCCCACCGAGGCGCGCGACTGGGCCCGCGCCCAGTGGCAGGACGATGGCCGCCCGGTCCTGATGATCTCGCCGTGCTCCAGCCATGTCCGCCGCAACTGGTACCCCGACCGCCATGCGGCCCTGGCCAACCACGCCACCCGGCGCGGCTGGCGCGTGGTGCTGTGCGGCGGCCGCAGCGAGCTGGAGCGCAGCACCACCGATGCGATCCAGGCCCAGCTGGAAACCCCGGCGCTGGACCTGGTCGGCAAGGACACCCTGAAGCAGCTGCCCGCGCTGCTGGAACGCGCCGACCTGCTGGTCACGCCCGATTCCGGCCCGATGCACATCGCCAACGCGATGGGCACCAAGGTGCTGGGCCTGCATGCGGCCAGCAACCCCCACCGCAGCGGCCCGTACTCGGATCGCCGCTACTGCGTGGACCGCTACGACACGGCCGCGCGCAAGTTCCTCGGCAAGCCGGCCGAGGCGCTCAAGTGGGGCACCAAGATCGAATTCGACGACGTGATGACGCTGATCGGCGTGGACGACGCGGTCGCCGCGTTCGAACGCTACTGCGCCGACCACCGCCCTCAGGCGCTCGGCACGCCCTGA	MAASSRSLCLLRLSALGDVTHVVPLVRTLQAGLPGVRLHWIIDKAGHKLLDGLDGVHFHVYDKRSGVAGMRALRSELGPMGRFDALLQMQVALRANLLSAFVPARRRIGYDRSRSKDLHGLFVNERIADRPGIHVLDAIGSFSEPLGLRQEQVRWELPVPTEARDWARAQWQDDGRPVLMISPCSSHVRRNWYPDRHAALANHATRRGWRVVLCGGRSELERSTTDAIQAQLETPALDLVGKDTLKQLPALLERADLLVTPDSGPMHIANAMGTKVLGLHAASNPHRSGPYSDRRYCVDRYDTAARKFLGKPAEALKWGTKIEFDDVMTLIGVDDAVAAFERYCADHRPQALGTP	PGPT0022480_210	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022480-opsX-K12982	NA	NA
BMS020_03952	750	kdkA	COG0515	3-deoxy-D-manno-octulosonic acid kinase	ATGGTTGCCTTCGACGCCACTGAAGCGCTGACGCCGTACCGCGAAGGTCGCGGTTACGGGGCCATTTTGTTCGACCGCCAGAGACTGCGGCAAGCCGATGCCGGGCTGTTCTCGCCAGCGCGCTGGGCGGATAAGGCGCGGCCGGTGGACGAGGGTGGGCGCGGCAGCGCCTGGTTCGTCGACGCGCCATTCGGTCCGAGCGTGCTGCGGCACTACCTGCGCGGCGGGATGGCGGCCAAGCTCAGCCGCGAGAGCTACCTGTGGAAGGGCGCGAACCGCACCCGCAGTTTCGCCGAGTTCCGGCTGATGCGCGCGCTGGCCGCACGCAAGCTGCCGGTGCCGCGACCGATCGCCGCCTGCTACCTGCGCGAAGGGCTGCGCTATCGCGCGGCGATCCTGATGGAGCGGTTGGAAGGCGTGCGCTCGCTGGCCGACCGGGCGCTGGTCGCCGGCCGCGGTGCGCCCTGGGAGGAAACCGGTCGGCTGGTGGCGCGCTTCCACCGCGTCGGGCTGGATCATGCCGACCTCAACGCCCACAACATCCTGTTCGACGCCAACGGCCATGGCTGGCTGATCGACTTCGACCGCGGCGTGCTGCGCATCCCGGCCACGCGCTGGCGCGAGCGCAACCTGGCGCGGCTGCACCGGTCGCTGCTGAAGCTGCGCGGCGAGCGCAGCCGCGAGGACGTCGACAAGGATTTCGCGCGGCTGCGCCGCGCCTACGACCTGGCCTGGAACCGTGGCTACTGA	MVAFDATEALTPYREGRGYGAILFDRQRLRQADAGLFSPARWADKARPVDEGGRGSAWFVDAPFGPSVLRHYLRGGMAAKLSRESYLWKGANRTRSFAEFRLMRALAARKLPVPRPIAACYLREGLRYRAAILMERLEGVRSLADRALVAGRGAPWEETGRLVARFHRVGLDHADLNAHNILFDANGHGWLIDFDRGVLRIPATRWRERNLARLHRSLLKLRGERSREDVDKDFARLRRAYDLAWNRGY				NA	NA	NA	NA	NA
BMS020_03953	768			hypothetical protein	GTGGCTACTGAGCACGCCTGGGCGCTGCGCTTCCACGGCGTCGGCAATGCCTCCGCGGTGGAACTGGGCTCGCCGATGGCGACCATCGAACGCGACGGCGGCCCGTGGCTGACCATCGACTGCGGCAGCGAGGGGCTGACCCGGTTCGTTGCGCGTTATGCGGCGATGCCGGCCGCGCTGTTCGTCACCCATGTGCACCTGGACCACGTCGGTGGCTTCGAGCGCCTGTTCGTCGACAACTATTTTTCCGAGCGCCGCGGCCGTACCCGGCTGTACGTGCCGGCGCCGGTGGTGCCGTTGCTGCAGCGGCGCATCGCCGACTACCCCAACGTGCTGGCCGAGGGCGGGGCGAACTTCTGGGATGCCTTCCAGTTGATTCCGGTCGGCGATGCGTTCTGGCATGACGGGCTGCGCCTGGAGGTCTTCCCGGTGCGCCATCACTGGCCGGAAACCGCCTACGGCCTGCGCCTGCCCGGCGCGCTGACCTGGACCGGCGATACCCGGCCGATCCCGGAGATGCTGGCGCGTCATGCCGCGCGCGACGAGCTGATCGCGCACGACTGCGGATTGCATGGCAATCCCTCGCATACCGGCGTGGACGACCTCGAGCGCGAATACCCGCAGGCACTGCAGCAGCGCATGGTGCTGTACCACTACGCCAGCGCGCGTGACGGCGATGCGCTGCGCGCGCGCGGGCACCGGGTGGCGCGGCCGGACGAGGCGATCGGACTGCGCGCCCCGGATGCCGGCATGGTGGCGATGCCGTGA	MATEHAWALRFHGVGNASAVELGSPMATIERDGGPWLTIDCGSEGLTRFVARYAAMPAALFVTHVHLDHVGGFERLFVDNYFSERRGRTRLYVPAPVVPLLQRRIADYPNVLAEGGANFWDAFQLIPVGDAFWHDGLRLEVFPVRHHWPETAYGLRLPGALTWTGDTRPIPEMLARHAARDELIAHDCGLHGNPSHTGVDDLEREYPQALQQRMVLYHYASARDGDALRARGHRVARPDEAIGLRAPDAGMVAMP				NA	NA	NA	NA	NA
BMS020_03954	1038	moaA_2	COG2896	GTP 3',8-cyclase	GTGAACGCCATCGTGCGCCAGGGCGACCCTGCCGTGGCCGATGTGCTGGACCGGCGTGGGCGCCCGCTGCGCGACCTGCGGTTGTCGCTGATCGAGGCCTGCAACTTCCGCTGCGGCTACTGCATGCCGGCCGGGCAGGTGCCCGACGACCACGGGCTGGATGCGGCGTCGCGGCTGGATTTCGACCAGATCGAGACGCTGGTGCGGGCGTTCACCCGGCTCGGCGTGCGCAAGCTGCGCCTGACCGGCGGCGAGCCGCTGCTACGCAAGGGCGTGCCGGAGCTGGTGGCGCGGCTGGCGCGGATCGAGGGCATCGACGACTTGGCGATGACCACGAACGGCGCGTTGCTGGCCGGGCAGGCCGCGGCGCTGCGTGCGGCTGGGCTGGGGCGGTTGACGGTGAGCCTGGATGCGCTGGATCCGCAGGTGTTCCGGGCGATGTCAGGTGGTCGCGGCGAGGTGGCACAGGTGCTGGCCGGGATCGCGGCGGCCGAGCGCGCCGGGTTCGGCCCGCTGAAGATCAACTGCGTGGTGCTGCGCGGGGTCAACGAAGACCAGGTGCTGCCGCTGGTCGAGCGCTTCCGCGGCAGCGGCCACGTGCTGCGTTTCATCGAGTACATGGATGCCGGCAGCTGCAACGGCTGGAGCCGCGCGCAGGTGGTCGAGTCGGCCGAGCTGCGCGCGCGCATCGCCGCGCGCTGGCCGCTGCAGGCGTTGCCGCCGCGCTATACCGGCGAGGTCGCCAGCCGCCATGGCTTCGTCGATGGCCAGGGCGAGATCGGCTTCGTCAGCGCGGTCTCGCATGCGTTCTGCGGCGACTGCCATCGTGCGCGGGTGGCCGCCGACGGGCGCCTGTATACCTGTCTGTTCGCCAGCGCGGGGCATCCGTTGCGGCCGGCGCTGTTGCAGGGTGAGCAGGTGCTGGTGCAGGCGCTGGCGGGGATGTGGCGGCAGCGTGACGACCGCTACAGCGAGCTGCGCGGCAGCGCGCACGGGCGCAGCGGCAAGCCGGTGGAGATGTTCCTCGTCGGCGGCTGA	MNAIVRQGDPAVADVLDRRGRPLRDLRLSLIEACNFRCGYCMPAGQVPDDHGLDAASRLDFDQIETLVRAFTRLGVRKLRLTGGEPLLRKGVPELVARLARIEGIDDLAMTTNGALLAGQAAALRAAGLGRLTVSLDALDPQVFRAMSGGRGEVAQVLAGIAAAERAGFGPLKINCVVLRGVNEDQVLPLVERFRGSGHVLRFIEYMDAGSCNGWSRAQVVESAELRARIAARWPLQALPPRYTGEVASRHGFVDGQGEIGFVSAVSHAFCGDCHRARVAADGRLYTCLFASAGHPLRPALLQGEQVLVQALAGMWRQRDDRYSELRGSAHGRSGKPVEMFLVGG	PGPT0008410_1663	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639	NA	NA
BMS020_03955	486	moaC_2	COG0315	Cyclic pyranopterin monophosphate synthase	ATGAGCCAAGAACCACGCCTGACCCATCTCGATGCCGCCGGCCTGCCGGCGATGGTGGATGTCTCCGACAAGCCGGCGACGGCGCGCATGGCGGTCGCCGAAACGCGCGTGCGCTTCCCGCCGGAGGTGGCCGCGCAGCTGCGCGCCGATGGCCTGCGCAGCGCCAAGGGCGGCATCGTCGAGACCGCGGTGATCGCCGGCACCATGGCGGTGAAACGCACCCACGAGTTGATTCCGTTCTGTCACCCGCTGCCGATCGACGGCTGCCGCTTCGACGTCGACTGGGAGGGCGAGGATGCGCTGCGCATCGCCTGCTCGGTGCGAACCGTGCATCGCACCGGTGTGGAGATGGAGGCGCTGACCGGTGCCAGCGTCGCGGCGCTGACGGTCTACGACATGTGCAAGGCGTTGAGCCACGCGATCGTGATCGGCCCGCTGGCGCTGCGCGCCAAGCACGGCGGCAAGCGCGACGTGGGGGCAGCATGA	MSQEPRLTHLDAAGLPAMVDVSDKPATARMAVAETRVRFPPEVAAQLRADGLRSAKGGIVETAVIAGTMAVKRTHELIPFCHPLPIDGCRFDVDWEGEDALRIACSVRTVHRTGVEMEALTGASVAALTVYDMCKALSHAIVIGPLALRAKHGGKRDVGAA	PGPT0008405_1100	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008405-moaC_-K03637	NA	NA
BMS020_03956	243			hypothetical protein	ATGAGCACGGTGACGGTGCTGTACTTCGCCAGCCTGCAGGAGCAGGCCGGGCGCAGCCGCGAGCAGGTGCGCAGTGCGGCGGCGGATCTGGCCGGCCTGTACGCGGAGCTGGAGGCGCGGCATGGCCTGGGCTGGCCGCAGGCGCATCTGCGGGTGGCGCAGGACGGGCGCTTTGCGCAGTGGAGCGACCCGCTCCGCGACGGCGCCGAGATCGCCTTCATCCCGCCAGTGAGCGGTGGTTGA	MSTVTVLYFASLQEQAGRSREQVRSAAADLAGLYAELEARHGLGWPQAHLRVAQDGRFAQWSDPLRDGAEIAFIPPVSGG	PGPT0008415_158	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008415-moaX-K21142	NA	NA
BMS020_03957	420	moaE2	COG0314	Molybdopterin synthase catalytic subunit 2	GTGACCAGGTTCGAGCTGTCCGAGCTGGGGTTGGACGCGGCCGCGCTACGTGCCGGCATGGACGATCCACGCGCCGGCGCGTTCGCCGGCTTCGAGGGCTGGGTGCGCGACCACCACCAAGGGCGCGCGGTCCTGGGGTTGCGCTACGACGCCTACCGGCCGCTGGCCGAGAGCGAGGGGGTGCGGGTGCTGGAGGAGGCGCTGGCGCGCTTCGACGTGTTGCAGGTGGTCTGCGCGCACCGCATCGGTGTGCTCGGCATCGGCGAGATGGCGGTGTGGGTGGGGGTGACGGCGGCGCATCGCGATGCCGCGTTTGCGGCCTGCCGTTACGTGATCGACGAGATCAAGCTGCGTGTGCCGATCTGGAAGCATGAGCAGTACGCCGACGGCGCGCCGCAATGGCTGCATCCGCTGCCGTAG	MTRFELSELGLDAAALRAGMDDPRAGAFAGFEGWVRDHHQGRAVLGLRYDAYRPLAESEGVRVLEEALARFDVLQVVCAHRIGVLGIGEMAVWVGVTAAHRDAAFAACRYVIDEIKLRVPIWKHEQYADGAPQWLHPLP	PGPT0008415_89	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008415-moaX-K21142	NA	NA
BMS020_03960	1365	garB		Glutathione amide reductase	GTGAGCGCCGGATTCGACTACGACCTGGCGGTGCTCGGCGGTGGTTCCGGCGGGCTGGCCGCGGCATTCCGCGCCGCCGCGCACGGGGCGCGGGTGGTGATGCTGGAGCCCGGTGCGCTCGGCGGTACCTGCGTCAATGTCGGCTGCGTGCCGAAGAAGGCGATGTGGCTGGCTGCCGACGTGGCTGGCAAGGTCGCGCTGGCCGGCGCGCTCGGCTTCGCGCTGGAGACGGCGCGTCCGGCGCTGTCCTGGCCCGATCTGATCACCCTGCGCCAGCGCTACATCCACGGCATCCACGCCAGCTACCGGCGCCGGCTGGACGAGACCGGCGTGGCGGTGCTGCCGCAGCGCGGCACGCTGCGTGACGCGCACACGGTGGTCTGCGCGGACGGCGTGGCGGTCACCGCCGCGCAGATCCTGATCGCCACTGGTGCGCACCCGGCCCGGCCGGCCTTCGATGGCGCCGCGCTGGCCAGCGTGTCCGACGACTTCTTCAAGTTGTGCGCCGCGCCGGCGCGGGTCGGGGTGATCGGCGGTGGCTACATCGCGGTCGAGCTGGCCGGCCTGCTGCAGGCGCTCGGCAGTCGCGTCGACCTGTTCGTGCAGGGGCGGCAGCTGCTGCAGCGTTTCGATGCCGAGTTGACCGCGCAGCTGGCCGAGAACCTGCGCCAGCAGGGCGTGCGCATCCATTTCGAACACCGGGTGACGCGGCTGGCGCGCGAGGCCGACGGCGCGCTGCGCATGCAGGGCACCGGTGCCGCCGCCGATGGCGTGTTCGATGCGGTGTTCCTGGCCACCGGGCGCCGCGCCAATACCGCCGGACTCGGCCTGGAGGCACTGGGCGTGGCGCTGGGCGCGCATGGCGAGGTGGTGGTGGATGCCTGGCAGACCAGCCAGGTACGCAACATCCACGCGGTCGGCGACGTGGCCGGCAAGGTCGGGCTGACACCGGTGGCGATCGCCGCCGCGCGCACGCTGATGGACCGCCTGTTCGGCGGGCGCGCGCAGGCGCGCATGGACTACGAGAACGTGCCGACGGTGGTGTTCTCGCATCCGCCGCTGGGCATGGTCGGGCTAGGCGAGGAGGAGGCGCGTGCGCGCCATGGCGACGCGGTGCAGGTGTACCGCGCGCGCTTCCGGCCGATGCTGCACGCGCTGGCCGATTCGCCGCAGCAGAGCCTGTTCAAGCTGGTCTGCGTGGGCGAGGAGCAGCGCGTGGTCGGCGTGCATCTGCTGGGCGAGGGGGCCGACGAGATGCTGCAGGGCTTCGCGGTGGCGGTGAAGATGGGGGCCACCCTGGCGGACTTCCACGACACCGTGGCGATCCACCCGACCTCGGCCGAGGAAGTGGTGCTGATGCGCTGA	MSAGFDYDLAVLGGGSGGLAAAFRAAAHGARVVMLEPGALGGTCVNVGCVPKKAMWLAADVAGKVALAGALGFALETARPALSWPDLITLRQRYIHGIHASYRRRLDETGVAVLPQRGTLRDAHTVVCADGVAVTAAQILIATGAHPARPAFDGAALASVSDDFFKLCAAPARVGVIGGGYIAVELAGLLQALGSRVDLFVQGRQLLQRFDAELTAQLAENLRQQGVRIHFEHRVTRLAREADGALRMQGTGAAADGVFDAVFLATGRRANTAGLGLEALGVALGAHGEVVVDAWQTSQVRNIHAVGDVAGKVGLTPVAIAAARTLMDRLFGGRAQARMDYENVPTVVFSHPPLGMVGLGEEEARARHGDAVQVYRARFRPMLHALADSPQQSLFKLVCVGEEQRVVGVHLLGEGADEMLQGFAVAVKMGATLADFHDTVAIHPTSAEEVVLMR	PGPT0013175_1155	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013175-gor-K00383	NA	NA
BMS020_03961	1233			hypothetical protein	ATGAGCAGGCCATCCTTCCAGCCGGTCGCCCCGGGCGAGCGTATCGTCGCGATGGACGTGCTGCGCGGCTTCGCGCTGCTCGGCATCCTGCTGATGAACATCGAAGGCTTCGTCGGCCCGCTCAACGAGGCGCTGACCGGCATCGATCCGGCGCTGGCCGGCGCCGACCGCTGGGTCGACGCGCTGACCTACGTGCTGGTGCAGGGCAAGTTCTACACCTTGTTCTCGCTGCTGTTCGGCATGGGCTTTGCGGTGATGGACCAGCGCGCCAGCCGTGCCGGGCGGCCGTTCGTGGCGACCTACCTGCGGCGCAGCCTGGGCCTGCTGGCGATCGGCCTGCTGCATGCGCTGCTGCTGTGGTCCGGCGACGTGCTGGTCAGCTACGCGCTGCTGTCGCTGCCGTTGCTGCTGCTGCGCGCGCTGCCCACGCCGTGGTTGCCGGCGACGGCGCTGGTGGTCTACCTGGCGTCGCCGGCGCTGGTGATGCTGTACGGGGTGGCCGGGGCGATGACCGCGCAGCAGCCCGAGCACCACGCCGCGTTCACCCAGGCGCTGGCGCAGGCCGCCGAGCATGCCCAGCAGACCATCCAAGCGCAGCGCCAGGCCTTCGGCGCCGGCAGCTATGCCGAAGCGACCCGGCAGCGGCTGGCCGATCTGGGCGAAAGCGCCGGTGCGCTGCTGGTGAACGGGCCGACGATGCTGGGCATGTTCCTGCTCGGGGCCTGGTTCGTTCGGTCGGGCGTGATGCAGGCGCCGGAGCGGCATGCGCGGCTGTTCGCGCGCCTGCGCCGGTATGCCTGGCCGCTGGGGTTGGTGGCGATGCTGGCCAGTGTCGGGATCGAGCCATGGATCGATCCGGGCCGGCTCGATCTCGGCGTCGCCGCGGCCTACGCCTTGGCCAGCGTCGCCGGCGTACTGATGTGCCTGGGCTACGTCGGCTGGGTGCTGCGCTGGCAATCGCAGCTGGCCTGGCTGGCGCCGGCCGGGCGGATGGCGCTGAGCAACTACCTGGCGCAGTCGCTGGTGTGCACGCTGGTGTTCTACGGCTATGGATTGGGGTGGTTCGAGCAGCTGCCGCGGGCCTGGCAACCGCTGTTCGTGCTGGCGCTGTTCCTGGCGCAGGTGGCGCTCAGCCGCCTCTGGTTGCGCCGGTTCCGCTTCGGGCCGCTGGAATGGGCCTGGCGCGCCTTCACTTACCTGCGCCTGCCGCCGCTGCGCCGCGACGCTGGCTGA	MSRPSFQPVAPGERIVAMDVLRGFALLGILLMNIEGFVGPLNEALTGIDPALAGADRWVDALTYVLVQGKFYTLFSLLFGMGFAVMDQRASRAGRPFVATYLRRSLGLLAIGLLHALLLWSGDVLVSYALLSLPLLLLRALPTPWLPATALVVYLASPALVMLYGVAGAMTAQQPEHHAAFTQALAQAAEHAQQTIQAQRQAFGAGSYAEATRQRLADLGESAGALLVNGPTMLGMFLLGAWFVRSGVMQAPERHARLFARLRRYAWPLGLVAMLASVGIEPWIDPGRLDLGVAAAYALASVAGVLMCLGYVGWVLRWQSQLAWLAPAGRMALSNYLAQSLVCTLVFYGYGLGWFEQLPRAWQPLFVLALFLAQVALSRLWLRRFRFGPLEWAWRAFTYLRLPPLRRDAG				NA	NA	NA	NA	NA
BMS020_03962	480	slyD	COG1047	FKBP-type peptidyl-prolyl cis-trans isomerase SlyD	ATGAAGATCGAAAAAGACCGCGTCGTCCGTTTCCACTACACCGTTTCCGAAGTCGGCCAGGAGCCGATCGAGAGCTCCAAGGACCGTGACCCGCTGGCGATCCTGGTCGGCCACGGCAACATCATCCCGGGCCTGGAAGCGGCGATGATGGACAAGGAAGCCGGTGAGAGCTTCGGCGTCGACGTGAAGGCCGCCGATGCCTACGGCGAGCGTCGCGAAGGCCTGGGCCAGCGCATCCCGAAGAAGCATTTCGGCAACACCAAGCTGGTGCCGGGCATGCAGGTGGTGCTGCAGACCAATTTCGGCCCGCGCGCGGTCACCGTCGAGAAGGTCGGCATGAGCGTGGTCGACGTCGACCTGAACCATCCGATGGCCGGCAAGGACCTGCACTTCGACGTGGAAATCGTCGAAGTGCGCGAGGCCAGCGCCGAGGAAACCGAGCACGGCCACGTGCACGGCGACGGTGGCCACCACCACTGA	MKIEKDRVVRFHYTVSEVGQEPIESSKDRDPLAILVGHGNIIPGLEAAMMDKEAGESFGVDVKAADAYGERREGLGQRIPKKHFGNTKLVPGMQVVLQTNFGPRAVTVEKVGMSVVDVDLNHPMAGKDLHFDVEIVEVREASAEETEHGHVHGDGGHHH				NA	NA	NA	NA	NA
BMS020_03963	537			hypothetical protein	ATGCACAACAAGCCAGTTTCCGCGCCATCGCGCACCGCCGCCGGCCTCGCCGTCACCCTGCTCGCGCTGCTGCTGGCCGCCTGCAGCAGCGCCCCCACCGCCCGTCAGGCGCCGCCTGGCCCGCACCGGGCCTGGCCGCAGGTGGCCCCGTCCAATCCGGCGGCCGCCAACAACGTGCTGATGCGCGCGCTCGGCCTGGTCGGCACGCCCTACCGCTACGGCGGCAACACCCCGGAAGGGGGCTTCGACTGCAGCGGGCTGGTCACCTATGTGTACCGCGACGTCCTGGACCTGCGCCTGCCGCGCACCTCCGGCGAGCTGGCCGCGGTGCAGGGCCCGAAGATCGCGCCGGAGCGGCTGGCGGCCGGCGACCTGGTGTTTTTCGGCAGCCGCGGCACCGTGTCGCACGTCGGCATCTACGTCGGCGAGGGCCGGTTCGTGCACGCCCCGAGCACCGGTGGAACAGTGCGCCTGGATTCGCTGGATGGCGTCTACTGGCTGCAACATTACTCGGGCGCCAAACGGGTGCTGCACTGA	MHNKPVSAPSRTAAGLAVTLLALLLAACSSAPTARQAPPGPHRAWPQVAPSNPAAANNVLMRALGLVGTPYRYGGNTPEGGFDCSGLVTYVYRDVLDLRLPRTSGELAAVQGPKIAPERLAAGDLVFFGSRGTVSHVGIYVGEGRFVHAPSTGGTVRLDSLDGVYWLQHYSGAKRVLH				NA	NA	NA	NA	NA
BMS020_03964	702			hypothetical protein	ATGCTGCTCCGCCTGCTTTGTGCCGCTTCGGCCTGCCTGCTGACGCTGCCGGCCATGGCCCAGACGGCCCCCGAGTCCGCCGCCCCGGCCGCGGCCGCCTCGCCGTCCGAGCCCGCTGCGGCCAAGCCCGCCGTCCAGCGCAGCCGCACCGACGCCGCCGCCACCGCCGCCCTGGCCGCCCTGCTGCCGCGCCTGGCCGGCAACGACACGATTCCGCTGATGGACCGTTCGGCGATGTTCGCCGGCGATCTCGGCCGCGTCCTCGCCAACTACGACGTCTCGCAGAGCGCCCTGGGCGCCGCCGAGACCGCGGTTGCCGACAGCAAGGTCCAGGTCATCCTGAAGCGCGCGATGACCCTGCTTGGCACTCCGTACCGCTGGGGCGGCACCTCGCCCGACGGCTTCGACTGCAGCGGCCTGGTCGGCTACGTGTTCAAGACCGCGCTGGGCATCGAGCTGCCGCGCGTCTCCCGCGACATGGCCCACGACGGCAATGCCGAGCTGATCAAGGATCGCAATGCGCTCGCCGCCGGCGACCTGGTGTTCTTCGGCAAGCGCGGCCGCATCGACCACGTCGGCATCTACGTCGGCGAAGGTCGCTTCCTGCACGCGCCGAGCACCGGCAAGGACGTGCAGATCGACTCGCTGCTCAGCGGCTACTGGAGCGCCAAGTTCATGCAGGCGCGCCGGGTGTCGATGTAA	MLLRLLCAASACLLTLPAMAQTAPESAAPAAAASPSEPAAAKPAVQRSRTDAAATAALAALLPRLAGNDTIPLMDRSAMFAGDLGRVLANYDVSQSALGAAETAVADSKVQVILKRAMTLLGTPYRWGGTSPDGFDCSGLVGYVFKTALGIELPRVSRDMAHDGNAELIKDRNALAAGDLVFFGKRGRIDHVGIYVGEGRFLHAPSTGKDVQIDSLLSGYWSAKFMQARRVSM	PGPT0023830_307	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_DD-ENDOPEPTIDASE_ACTIVITY,PGPT0023830-mepH-K19303	NA	NA
BMS020_03965	495			hypothetical protein	TTGAGTGGTGAGCAGCGTGAAGTGACGTTCCGGTTCCTGGCCGAGCCCAGCGATGTGAATTTCGGCGGCAAGGTCCACGGCGGCGTGGTGATGAAATGGATCGACCAGGTCGGGTTCGCGGCCGCCGGCGGCTGGAGCAGCCGCTACTGCGTGACCGTGGCGGTCGGCGGGATCCGTTTCGTCGCGCCGATCCTGATCGGCGACGTGGTCACCGTGTCGGCCAAGCTGGTGCATACCGGGCGCACCAGCATGCACTTCGCCATCGACGTGCGCGCACGCAACCCGATGGGCGGCGGTTCGCGGCTGTGCACCCACTGCATCATCGTGTTCGTGGCGATGGGCATGGACAACATCACCCCGGTCGAGGTGCCGTCGTGGACCCCGTCCAGCGACGAGGACCGGCGCCTGGCCGAATACGCGCAGAAGGTGATGGAACTGAGCCGCGGGATCGAGGACACGATCGCGCACTACCAGCCGGTCGAGCGCGCCGGCTGA	MSGEQREVTFRFLAEPSDVNFGGKVHGGVVMKWIDQVGFAAAGGWSSRYCVTVAVGGIRFVAPILIGDVVTVSAKLVHTGRTSMHFAIDVRARNPMGGGSRLCTHCIIVFVAMGMDNITPVEVPSWTPSSDEDRRLAEYAQKVMELSRGIEDTIAHYQPVERAG				NA	NA	NA	NA	NA
BMS020_03966	1326	zraR_1	COG2204	Transcriptional regulatory protein ZraR	ATGGTGACCATGCCCGAAACATCGAGAAGGTGCCTGATCTGGTTCGGAGAACCGCATCGCCGTGAGCGTGAAGTGCTGGCGGCCGCCGGCTGGGGGCTGCGCGTGGTCGCGGCCGGCGACGACACCGGCATCGGCCTGCGCGGCAACGACCTGGTCGCCGCGCTGGTCGACCTGCGCGATCCGCTCGCCGACCTGGAACGGGTCGAGCAGCTGGTCGGCGAACACCATTACCTTTCACTGCTGGCGCTGACCGGCACGCCGGGGCGGCAATCGGCGGCCGCACGCCGCCTGCTCGACCAGTGCGTGGACACGTTCGACCAGCCCTTGGATGCGCGCGATCTGCTGCATGCGCTGCGCCGGCTCGAACAAGCCCCCTCGCAGCGCCCCGCCGAAGGGCTGGCCGGACTGGTCGGCGAAAGTTCGGTGATGCGAGCCACGCACGCTGCGCTGCGCAAGTTCGCCCCGGTCGACCTGCCGGTCCTGGTCACCGGCGAGACCGGCACCGGCAAGGAGCTGGCCGCACGCGCGATCCACCAGCTCTCGCCACGTGCCGGCGCCAGCTTCGCGGCGCTGAACTGCGGCGCCCTGCCCTCCAGCCTGGTGCAGTCCGAGCTGTTCGGCCACGAGCGCGGCGCCTTCACCGGTGCCGCCGCGCGCCGGCTCGGCCTGTTCGAATCGGCGCACGGCGGCACCGTGTTCCTCGACGAGATCGGCGACCTGCCGCTGGACGCGCAGACCAACCTGCTGCGGGTGCTGCAGGAAGGGACGATCGAGCGCGTCGGCAGCAACCAGGCGGTGAAGGTCGATGTGCGCGTCATCGCCGCGACCCACGTCGACCTGGAACTGGCCGTGGCCGAAGGGCGCTTCCGCCGCGACCTGTATTACCGGCTCAACGTGCTGCGCCTGCATATGCCGGCGCTGCGCGAGCGCGGCGCCGACATCGAGCTGCTCGCGCACCATTTCCTCGACTGCTTCCGCGCCTGCCACAACAGCCGCGCACGCGGCTTTTCGGCACCGGCGCGGCGCGCCATGGCCGAATTCGCCTGGCCAGGCAACGTGCGCGAACTGCTCAACCGGGTGCAGCGCGCGGCGGTGATCGCCGAGCAGGAGCTGATCGGCATCGCCGAACTCGATCTCGACGTCGATACCGATACCCGCGCGGCACTGGACGGCGTGCGCGCCCGTGCCGAGCGCGACAGCCTGGTCGAGAGCCTGCGCCAGAGCAACTACAACGTCAGCGCCTGCGCGCGCCGGATGCAGGTCTCGCGCGTCACCGTGTACCGGCTGTGCCGCAAGCACGGGCTCGACCTGGATGCGATGCGCTGA	MVTMPETSRRCLIWFGEPHRREREVLAAAGWGLRVVAAGDDTGIGLRGNDLVAALVDLRDPLADLERVEQLVGEHHYLSLLALTGTPGRQSAAARRLLDQCVDTFDQPLDARDLLHALRRLEQAPSQRPAEGLAGLVGESSVMRATHAALRKFAPVDLPVLVTGETGTGKELAARAIHQLSPRAGASFAALNCGALPSSLVQSELFGHERGAFTGAAARRLGLFESAHGGTVFLDEIGDLPLDAQTNLLRVLQEGTIERVGSNQAVKVDVRVIAATHVDLELAVAEGRFRRDLYYRLNVLRLHMPALRERGADIELLAHHFLDCFRACHNSRARGFSAPARRAMAEFAWPGNVRELLNRVQRAAVIAEQELIGIAELDLDVDTDTRAALDGVRARAERDSLVESLRQSNYNVSACARRMQVSRVTVYRLCRKHGLDLDAMR	PGPT0004315_1056	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004315-zraR|hydG-K07713	NA	NA
BMS020_03967	1302			hypothetical protein	ATGCAAGGGAAGATGCCATTGAATGGATTGGCGCTGGCCGTCGCGGCCGCGCTGTGGGGGGCGGCAGGGACTGCGCATGGCCAGGCGGCCTCGCCGCAGGATGCGGCCGAGGTCGGTGCGCTGATCCAGCAACTGGAGGCGCTCAAGGCCAGCTACGCGCAGGAGGTGCGGCGCCTGCGCGAGCTCGACATGCAGGTGCAGGCGATGCAGGCGCGGCTGTCGGGCAAGACCTTGCCATCCACGGCCGCCGCCGCGGCGCCGGAACCTGCGGCCGCGCCGGCAGCGCCGGCGGAAGGCTATGCCAGCAGCGCCAGCGAGGCGCAGGCGGCCAAGCAGGAAGGCCGGCGCAGCGTCAACGATGTCAAGCAGCAGCAGTCGGCGCTGTTCAACCAGCGACTGACGATCGAGAACAGCCTGACCTATGCGCGCTACGACCGGAAGATGCTCACGCTCAACGGCTTCCTGGCGCTGGATGCGATCTTCCTCGGCAACATCGCGATCGAGAACGTCGAGTCCGACTCGCTGACCTACAACCTGGCCGCGCGCTGGGGCATCACGCCGCGCTTCACGCTGAATGCCGATGTGCCGTTCCTGGAGCGCAAGACGCTCTACCAGAAGGGCGGCGCCGGCGGTTCGGCGGCGGCGATCGCGCAGGAGGAGACCCACGGCGGCGGTCTCGGCGACGTGACGCTCAGCGGCAACTACAAGCTGTTCTCCGAAGGCAGGCGACTGCCGGAGACGGTGCTGACCGTCGGCGTCACTGCGCCGACCGGGCGCGAGCCGTACGGGCTGGACTGGAAGGTGCTGGAGCGCGACGACGACGAGTTCATCCGCTTCGCGGTGCCAAGCAAGGAGCCGACCGGCAACGGCCTGTGGCAGGCCAACGTCGGCCTGTCGATGGTGCGTACCGCCGATCCGGCGATCCTGTTCGCCAATGTCGGCTACATCCGCTCGTTCGAACGCAGCTTCGACGATATCGACAGCAATCCGGACACGGTCAATCCCGGCGACGTGCGCCTGGGCGACGCGTATTACTTCGGTGCCGGCGTAGCGTTCGCGTTCAACGAGCGCACCAGCCTCAGCCTGTCCTTCAGCGACAAGCTCAGTGCGCGCGCATCCACGCGTTACCGCGGCGGCGAGTGGGTCAAGGTGATCGGCAGCGATGCCAATGCCGCCTCGCTGAACCTCGGCGTGACCTATGCGCTCAACCGCAACACCACCCTGGTCAGCCTGCTCGGCATCGGCCTGACCCCGGATGCGCCGGATTTCACCCTGGCATTCAAGGTGCCGTACATGCTGTGA	MQGKMPLNGLALAVAAALWGAAGTAHGQAASPQDAAEVGALIQQLEALKASYAQEVRRLRELDMQVQAMQARLSGKTLPSTAAAAAPEPAAAPAAPAEGYASSASEAQAAKQEGRRSVNDVKQQQSALFNQRLTIENSLTYARYDRKMLTLNGFLALDAIFLGNIAIENVESDSLTYNLAARWGITPRFTLNADVPFLERKTLYQKGGAGGSAAAIAQEETHGGGLGDVTLSGNYKLFSEGRRLPETVLTVGVTAPTGREPYGLDWKVLERDDDEFIRFAVPSKEPTGNGLWQANVGLSMVRTADPAILFANVGYIRSFERSFDDIDSNPDTVNPGDVRLGDAYYFGAGVAFAFNERTSLSLSFSDKLSARASTRYRGGEWVKVIGSDANAASLNLGVTYALNRNTTLVSLLGIGLTPDAPDFTLAFKVPYML				NA	NA	NA	NA	NA
BMS020_03968	777			hypothetical protein	ATGTGGATGCGACAACCGCTGCTGGCTGCGATCGGACTGGTGTTGCTGCAGCCGATCGCCGCGCGGGCGGCCGATGCCGGCAGCGTGCCTGCGCGCGGCATCCGTGAGATTCCCGATGCCGAGCTCAACCTGATGCGCGGCCGCTACACGGTCGGCGACAACACGGTGGCCTGGTTCGGCGTATCGATGATCTCGACCTGGCAGAACCAGGGGCAGCAGCTGCAGAGCACGCTGACCCTGGGCATGGATTTTTCCAAGAGCGCGGCGACGCCGCAGGTCAGCTTCACCCCGACCGTCAGCATCACCGCCAGCGACGCGCCGCTGCCGAGCATGGCCAGCAGTGGCACGCGCCAGGTCGACGCCAGCGGCCTGCAGAACGTCAGTGGCCTGGTGCAGAGCGTGCAGGTCGCCGGCGATGCCAATGCCGCGGTCAACGCCACCAAGCTCACCGTGCGCGACGGCGAGGTGCCGGCGACGCAGGCGGCCTCCACGCCCGCCGGCAGCACCAGCATCGCCGCCGGCAGCGCAACGGCCAGCGCCGGCTACCAGGAGGGTGCGGCCAGCGTGCTGCTGCAGATCGCCGGACAGGGCCAGGTGCAGCAGTGGATCCGCAACGGCAGCGTCGGCCAGAGCATCCAGCTCAGCAGCGACGGCCAGCAGGTCAGCAACCAGCTGCAGATCGATCTGGTCCGGCAGTCGATGTCGGGCAACACACCGCTGAGCCAGAACGTGGCGCAGGCGATCTCGCTGACGCGCGGTATCGGCGTCGGCTTATAA	MWMRQPLLAAIGLVLLQPIAARAADAGSVPARGIREIPDAELNLMRGRYTVGDNTVAWFGVSMISTWQNQGQQLQSTLTLGMDFSKSAATPQVSFTPTVSITASDAPLPSMASSGTRQVDASGLQNVSGLVQSVQVAGDANAAVNATKLTVRDGEVPATQAASTPAGSTSIAAGSATASAGYQEGAASVLLQIAGQGQVQQWIRNGSVGQSIQLSSDGQQVSNQLQIDLVRQSMSGNTPLSQNVAQAISLTRGIGVGL				NA	NA	NA	NA	NA
BMS020_03969	690			hypothetical protein	ATGCACCGCTTGCTTGCTTTGCCGTTGCTGTTGTCTGCCGCGTTCCCGCTGTACGCCGGCGACGTCGCGTTCAGTGGCGTGCTGCCGAACGGCATGCTCTACCACGGGCAGGTCGAGAGCATGCACGAAGCGCGCTTCCGCTTCGTGGTGCGCCAGCAGACCGACTACAGCTGCGCGGCGGCGGCGCTGGCGACGATCCTGCGCCATGCCTACCACCTGGACGTCGATGAGACCACGGTGATCCAGGGCATGATGGGCGTGTCCGATCCGGCGCTGGTGCAGCAACGCGGCTTTTCGCTGCTGGACATCAAGCGCTACGTCGAATCGATCGGCATGCGCGGACGCGGCTACCGCGTCAGCGAGGAGCGCCTGCGCGGCCTGCGCGTCCCGGCGATCGCCTTGATGGACGTGCGCGGGTTCCGCCATTTCGTCGTGCTCAAGCAGGTCATCGATGGCCGCGCCGAGATCGCCGACCCGATCCTCGGCAACCGCAACATCCCCTTGGCGGAATTCACTGAATCGTGGCCGTCGCAAGCCGTGTTCGTCGTCATCGGAAGTGACTTCGATCGCAACACGGTGCTGCTGCAGCCGAGCGAACGGCCGAGCGCGCGCGCCCTGTATGCGCGCCAGGGGCCGATCACCGAGGCCGAGCTGGTGGACTTCGGGTTCACCCATGCCGACCTGTTCTGA	MHRLLALPLLLSAAFPLYAGDVAFSGVLPNGMLYHGQVESMHEARFRFVVRQQTDYSCAAAALATILRHAYHLDVDETTVIQGMMGVSDPALVQQRGFSLLDIKRYVESIGMRGRGYRVSEERLRGLRVPAIALMDVRGFRHFVVLKQVIDGRAEIADPILGNRNIPLAEFTESWPSQAVFVVIGSDFDRNTVLLQPSERPSARALYARQGPITEAELVDFGFTHADLF				NA	NA	NA	NA	NA
BMS020_03970	1578			hypothetical protein	ATGAAAGCGAATGCAAAATGGACGGTACTCGCCATGGCGGTTTCCGCGCTGGTCTACAGCGCGGCAGCCAGTGCGGCGGACAACCAGAACGCGAGCGCCACCATCAACCATGACCACACGGTCACCGAGACGCGCACCAACACCAACACGAACACCAATACCTGGGACAACACCTACCGCACCACGGTCGAGAACCAGACCACCGACGTCAACACCGACGTCGACCTGAAGCTCGACGCGGCGGCCAAGCTGCGCCTGAACGCCACCGCCAACCTCAGTTACGACGGCAGCCGCACCGACGATGACACCAACATCACCTACGACAAGACGGTGAATGTGGACGTCAACAAGAACAAGACCGTGGTCGATACCGAGACCACCACGATCACCGCCGACGAGAAGAAGGAAAAGAACAACCACGGCCAGGATGCCAACGTCGAGCGTGATTCGCGCCTGAGCAGCGATATCTCGTTGAGCGGCGAGCCGACCGTGACCGGCGAGATCGAGATCGACTCGGCGGCCACCGCGATGATCGACAACCGCCAGAGCATCAGCGGCAACAAGGGGCTCAACGACAAGCTGACCAACGATGCGTCGATCAGCGACGACGTGGCCTCGGAAGGCTCGGGCAACCTCGGCTTCAACGTCGCCGCCGGCGACAACAACGCCCAGGACAACGCCGCCGCGCTCTCCGCCGCCGACAGCAGCTTCGCCTTCGGCATGGCCGATGCCGCGGTGTTCGTGAACCAGTCCGGCATGAGCAACGTGACCATCAACGAGGGCGTCACCAACGCCGCCAGCATCGGCGACAACGCCTTCAGCGGCGCCACCGGCAACATCGGCGTGAACGTGGCCTCGGGCAACAACAACGGGCAGAAGAACGCGCTGTCGGCCTCGGTCGCCACCAGCCGCCTGGCGTCCGCTGCGATCTCGTCCAACCAGGTCTCGTCCGGCAACTTCACCAAGAACGAAGGCACCGTCGAGAAATACACCGACACGACGGCGGTGACGTTGCGCGGCAGCGTGGACGGCTACACCGCCGCGGTGGGCTACGGTGGCTACAGCGGCAGCTCGCAGGGCAGCTTCAGCGGCACCAGCGAGACCTCGCTGTCGGGCACCGCCGACCAGATCGGCGATGTGTACCCGGAGATGTGGGCCAACAACGCCGACGACGATCCGTCCGCGCCGCATCCGGGCGGCGACCTGACCGGCCACATGGATCTGGACAGCGAAGTGCAGGGCGCCACCGACCTCAACGGCGATGGCGGTGCGCTCGCCTTCACCGTGGATGCGGATGGCGAGGGATCGGTCAGCGGTTCCACCAGCTCGCAGGAATCGGGCGAACTGGGCTTCATCGAACTCGGCGTGGCCGACCTGTACGCACAGCTGAGCGGCAGCGTGACGACCACCCGCTGGGTGGTGGTCGATGCGACCAACACCGCCAGCCTGTCCGGCAGTGCGTTCTCCACCGCGTCCGGCAACATCGGCGTGAACGTTGCCGCCGGCACCGGCAACCTGCAGGCCAACAGCCTGGCGCTGGCCGTGGCGCAGCCGTCCACCGGCGGCGGCGGCGAGTAA	MKANAKWTVLAMAVSALVYSAAASAADNQNASATINHDHTVTETRTNTNTNTNTWDNTYRTTVENQTTDVNTDVDLKLDAAAKLRLNATANLSYDGSRTDDDTNITYDKTVNVDVNKNKTVVDTETTTITADEKKEKNNHGQDANVERDSRLSSDISLSGEPTVTGEIEIDSAATAMIDNRQSISGNKGLNDKLTNDASISDDVASEGSGNLGFNVAAGDNNAQDNAAALSAADSSFAFGMADAAVFVNQSGMSNVTINEGVTNAASIGDNAFSGATGNIGVNVASGNNNGQKNALSASVATSRLASAAISSNQVSSGNFTKNEGTVEKYTDTTAVTLRGSVDGYTAAVGYGGYSGSSQGSFSGTSETSLSGTADQIGDVYPEMWANNADDDPSAPHPGGDLTGHMDLDSEVQGATDLNGDGGALAFTVDADGEGSVSGSTSSQESGELGFIELGVADLYAQLSGSVTTTRWVVVDATNTASLSGSAFSTASGNIGVNVAAGTGNLQANSLALAVAQPSTGGGGE				NA	NA	NA	NA	NA
BMS020_03971	615			hypothetical protein	ATGGACCGTCCACTGACCGCGCTCTTCGGCCTGCTGCTGCTCGTTGCTGCACCCAGCGCGCGCGCCGACGACTACGCGCAGATGCTCGGCTACCTCGCCGACAGCCGCATCGACGGCCGCGTGCTGTCCGCTGCCAGCGGCGCGATCGCGGTCAACCAGGCCGCGGGCGATCTCAACCTGCAGGCCAACCTGCGCGCGCTCGCCAACGGCGACCAAGCCCAGGTGCAGGTCCATTCCATCCAGATCCATGCAGGCGACCGCTACGACAGCCCGTCGCGCGCCACGGCCACGCTCGGTGGCCAGGCGCTGACCGGTGCCAGCGGCATCGCTTCCATCAACCAGGCCAGCGGCAGCGGCAACGCCGAGCTCAACGTGGTGAGCGCCGCGCTGGCCAGCACGGGCATACGCGAAACGAGCGATGACGCACTCGCTTCGTTCGCGTCGGCAGGGGGGCAGGACGTCGCCGGCGACGGCAAACCCGCGGAACACCGCAGCGTCGCGGTGGAACCGACGGCGCTGCGGGGATTCGAAGGCGTCCTGCAACTCAATCAGATCGCGGGGTCGGGCAATGCGACGGGCAACCAACTGAGTCTTTCCGTACAGGCCGTTCCGTGA	MDRPLTALFGLLLLVAAPSARADDYAQMLGYLADSRIDGRVLSAASGAIAVNQAAGDLNLQANLRALANGDQAQVQVHSIQIHAGDRYDSPSRATATLGGQALTGASGIASINQASGSGNAELNVVSAALASTGIRETSDDALASFASAGGQDVAGDGKPAEHRSVAVEPTALRGFEGVLQLNQIAGSGNATGNQLSLSVQAVP				NA	NA	NA	NA	NA
BMS020_03972	588			hypothetical protein	ATGGAACGCCCGACCCCGCGGCGGAGGCCGCAACTGCTGATCCTGGCGATCCTGTTCGCCAGCGCGCCCGGCCTGGCCGAGGAGTTCCCGAAGATCGCCCAGCCGGCCGACGCCGGCGAGCCGCTAGGTGCTGGTGCGCGCCAGGGCGTCTATCCGGTGGCCGGCGAGATGGTGCTGATCCGCGACGTCTCCGCGCGTCCGGCCTACCGCGCGGCGCCGCCGGGCGTGGCGACGATCGCCAACCCGTCGCCGCAACAGGAGCTGGCCCGCACCCTGGGCACCGACAGTGGCCTGGCCGAGTTGTCGGACGAGGAATACGCGGCGATGGGCTCGGGCGCCGGCGTGCAGGGCATGGGCGCTGCGGCGGGCGGCGGCGTGACCACCGTCGAACGGATGACCGGCAGTGCGGTCACCGGCACGCTGGGGCGCGTCACCGGCAGCGACGGCGTGCTCAACGGCGATGCGCTCAGCCGCAGCATCAATGGCCCGGTTGGCGCGGTCGGCAACGCCACCCGCGGCATCGGCGACCAGGTACTCGGGGCGCTGGCGCAGTTCCCGCTCGGCCAGGGCGCCGGGACCGGCAACTGA	MERPTPRRRPQLLILAILFASAPGLAEEFPKIAQPADAGEPLGAGARQGVYPVAGEMVLIRDVSARPAYRAAPPGVATIANPSPQQELARTLGTDSGLAELSDEEYAAMGSGAGVQGMGAAAGGGVTTVERMTGSAVTGTLGRVTGSDGVLNGDALSRSINGPVGAVGNATRGIGDQVLGALAQFPLGQGAGTGN				NA	NA	NA	NA	NA
BMS020_03973	426			hypothetical protein	GTGAGCGCGGCCGACGCCGACCTGCTGGAACCGGCCACGCCGGCGCTGCAGGACTACCTGCGGCTGCGCGTGGCCGCGGGCCTGTCGCCCAAGAGCGAAGCGGCTGCGCGGATCGGCCTGGCCAATGGCTGTTTCGCGGTCTGCGTGCGCCATGGTGCGCAGACCATCGGCATGGGCCGGGTGATCGGCGATGGTGGGTGCTTCTTCCAGATCGTCGATATCGCGGTGGCGCCCGAACACCAGGGACGAGGCCTCGGCAAGCGGATCATGGCGGCGCTGATGGCGTGGCTGGAGGCGCATGCCGAGGACGGCGCCTATGTCTCGTTGATCGCCGATGGCCAGGCCCGCCACCTGTATGCGCAATTCGGTTTCGTCGAGACCGCACCGGCCTCGGTCGGCATGGCCAGGGTGCTGCGCCGCGCGTAA	MSAADADLLEPATPALQDYLRLRVAAGLSPKSEAAARIGLANGCFAVCVRHGAQTIGMGRVIGDGGCFFQIVDIAVAPEHQGRGLGKRIMAALMAWLEAHAEDGAYVSLIADGQARHLYAQFGFVETAPASVGMARVLRRA				NA	NA	NA	NA	NA
BMS020_03974	1341	dctA2	COG1301	C4-dicarboxylate transport protein 2	ATGAAACTGGTCCAGGCCTGGTTCCGCATCCCGTTCTGGCAACGCGTGGTCGCCGGCTTCGTGCTCGGTGCATTGGCCGGCTGGCTGATGGGGCCGGCGGCCAAGACCTGGTTCGAGCCGCTCGGCGACCTGTACGTCACGCTGATCAAGATGATCGCGGTGCCGCTGGTGTTCTTCGCGGTGATCAACGCGATCTCGGCGCTGCACGGGCAGAAATCGGTGGCCGCGCTCGGCGGACGCACCTTCCTGTGGTTCATCGTCACCGCCGCGCTGGCGGTCTGCGTGGGCCTGGCGGTTGGCGCGGTGATGCAGCCGGGCGCCGGCCACTTCGGCCTGGCGGTGGATTCGGCGTGGAAGCCGCGCGATGTGCCCAGCCCGATCAAGGTGCTGCTGGACGTGGTGCCGGCCAATCCGTTCTACGCGCTGACCGGCATCGGCACCAAGACCAATGCCGCCGGCGAGACCGTGCTGGCAGCCGGGCGCGGCTCGATCCTGCCGGTGATCTTCTTCGCCGCGCTGCTCGGCTTTGCGATGGTCAAGCTCGGCGAGCGGGTGGCCGAGGCACGCAAGCTGGTCGGGCAGATGAGCGAGATCATGATCCAGGTCACCCGCTTCGTGCTCGAGGTGACCCCGATCGGTACCTTCGGCCTGATCGCCGGCCTGGTCGGCGCCTATGGCTTTGAGAAGCTGCTGCCGCTGGGCAACTTCGTCATGGCGCTGTACATCGCCTGCATCATCCACATCGTGTTCGTGTACGGCTCGCTGCTGCTGGTGCACGGGCTCAACCCATGGAAGTTCTTCCGCGGCGCCGCGCCGGGCATGCAGGTGGCGTTCGTCAGCTCGTCGAGCTTCGCGGCGATGCCGGTGGCGATGCGCTCGATCACCCACAACCTCGGCGTCAACAAGGACTACGCCGCGTTCGCGGTGCCGCTCGGCGCCAGCATCAAGATGGACGGCTGCGGCGCGATCTACCCGGCGCTGTGCGCGGTGTTCATCGCCCAGTACACCGGCGTGCCGCTGACCGCCGACCAGTACTTCGTCGTGCTGATCGCCTCGGTGCTGGGCAGCTTCGGCACCGCCGGCGTGCCGGGCACCGCGGTGGTGATGGCCACGGTGGTGCTGAGCGCGGCCAACCTGCCGCTGGAAGTGATCGGCTACCTGTACGCGATCGACCGCGTGCTCGACATGATGCGCACGCTGACCAACGTGACCGGGCAGATGCTGGTGCCGACCCTGGTCGCCAAGGAAACCGGCCTGCTCGACCGGGTGGTCTACGACACCGCCTCGACCAATGTGGGTCTCGAGGAACCGCCGGCCGACGGCTCGGGCCAGGCGCGGTGA	MKLVQAWFRIPFWQRVVAGFVLGALAGWLMGPAAKTWFEPLGDLYVTLIKMIAVPLVFFAVINAISALHGQKSVAALGGRTFLWFIVTAALAVCVGLAVGAVMQPGAGHFGLAVDSAWKPRDVPSPIKVLLDVVPANPFYALTGIGTKTNAAGETVLAAGRGSILPVIFFAALLGFAMVKLGERVAEARKLVGQMSEIMIQVTRFVLEVTPIGTFGLIAGLVGAYGFEKLLPLGNFVMALYIACIIHIVFVYGSLLLVHGLNPWKFFRGAAPGMQVAFVSSSSFAAMPVAMRSITHNLGVNKDYAAFAVPLGASIKMDGCGAIYPALCAVFIAQYTGVPLTADQYFVVLIASVLGSFGTAGVPGTAVVMATVVLSAANLPLEVIGYLYAIDRVLDMMRTLTNVTGQMLVPTLVAKETGLLDRVVYDTASTNVGLEEPPADGSGQAR				NA	NA	NA	NA	NA
BMS020_03975	1704			hypothetical protein	ATGCGCCATCGTTTGCCCGCCGTCGCCGTCCTCACCACGTTGCTGGCCGGCTGCGCCACGCCGTCCACCGCACCGCGCCAGGCAGCCTCCGCGGTCGCCGTGGACGTGCCCGCGGTCAGCCACCCGCAGGGCGAAACGCCGGACTGGTGGTACCGCAGCGGCGCTGCGCGCGCGGCCGCCAACGGCGCGATGGCCGGCAAGGCGAAGAACGTGATCCTGTTCCTCGGCGACGGCATGAGCCTGACCACGGTCGCCGCCGCGCGCATCCTCGACGGCCAGCGCAAGGGCGGTCCGGGCGAGGAGAACCTGCTGAGCTGGGAGCAGTTCCCGGCCACCGCCTTCAGCAAGACCTACAACACCGATTCGCAGACCCCGGATTCGGCCGGCACGATGACCGCGATCACCACCGGGGTGAAGACCCACATGGGCGCGATCGGGGTCAGCGCCGGCAACCGCAGCGACTGCGCCGACAGCCGCAGCAAGGGCCTGCTGAGCTGGCTGGCGCTGGCCGACAGCGCCGGGCTGGGCACCGGCATCGTCACCACCACCCGCATCACCCACGCCACCCCGGCCGCGACCTACGCCCATTCGCCCGAGCGCAACTGGGAGAACGACACCGACCTGCCGGAGCAGGCGCGTGCCGCCGGCTGCACCGACATCGCCCAGCAGCTGCTCGCCGCCGCGCGCTACGGCCGCGGCCCGCAGGTGGTGCTCGGCGGCGGCCGCAGCCAGTTCATGCCGGTGCAGGAGCGCGATCCGGAATACGACGACAAGGTCGGCCTGCGCCTGGACGGCCGCGACCTGGTCGGCGAGTGGAAGCAGGCGCATCCGCAGGGCGCCTACGTCTGGAACGAGCAGCAGCTGCAGGCCGCCGCCGATGCGCCGGCGCTGCTCGGCCTGTTCGAACCCGACCACATGCAGTACGACCACGACCGCACCCGCGGCCCCGGCGGCGAGCCGAGCCTGGCCGAGATGACCCGCACCGCGATCCGCACGCTGTCGCGCGATCCCAAGGGTTTCGTGCTGATGGTCGAGGGCGGCCGCATCGACCACGCCAACCACGCCGGCAACGCCTTCCGCGCGCTCGACGAGACCGTGGCGCTGTCCGATGCGGTGCGCGCCGCGGTCGAGAGCGCACCGAAGGACACCCTGATCGTGGTCACCGCCGACCATTCGCACACGCTGAACTTCGTCGGCTACCCGGTGCGCGGCAATCCGATCCTCGGCAAGGTGCGCGGCACCGGCGGCGAGGAAGGCGACCGCACCCAGTACGCACGCGACCTGGCCGGCCTGCCCTACACCACACTGAGCTACGCCAACGGCCCCGGCTATACCGGTGCCAGCAATGCCCAGGCAGCCGGGCCCAAGCGCTTCCCGCACGAGCCGACCAGCGTCGAGACCACCGATGGCCGCCCGGACCTGAGCGATGTCGATACCGAGGCGCCGGACTACATGCAGGAAGCACTGGTGCCGTTCAAGGCCGAATCGCATGGGGGCGAGGACGTCGGCATCTGGGCCACCGGCCCGGGCAGCGCGGCGTTCCGCGGCACCCTGGAGGAGAACGTGATCTACCACGTGATCGTGCAGGCGACCCCGGCGCTGCGCGCGCGGCTGTGCGCGGCCGGTACCTGCGACGCCGCCGGCGTGCCGGTCGAACTGCCGCGCGCGCAGGCGTTCGAGCGCAGCGCGACCAGCGCGCAATGA	MRHRLPAVAVLTTLLAGCATPSTAPRQAASAVAVDVPAVSHPQGETPDWWYRSGAARAAANGAMAGKAKNVILFLGDGMSLTTVAAARILDGQRKGGPGEENLLSWEQFPATAFSKTYNTDSQTPDSAGTMTAITTGVKTHMGAIGVSAGNRSDCADSRSKGLLSWLALADSAGLGTGIVTTTRITHATPAATYAHSPERNWENDTDLPEQARAAGCTDIAQQLLAAARYGRGPQVVLGGGRSQFMPVQERDPEYDDKVGLRLDGRDLVGEWKQAHPQGAYVWNEQQLQAAADAPALLGLFEPDHMQYDHDRTRGPGGEPSLAEMTRTAIRTLSRDPKGFVLMVEGGRIDHANHAGNAFRALDETVALSDAVRAAVESAPKDTLIVVTADHSHTLNFVGYPVRGNPILGKVRGTGGEEGDRTQYARDLAGLPYTTLSYANGPGYTGASNAQAAGPKRFPHEPTSVETTDGRPDLSDVDTEAPDYMQEALVPFKAESHGGEDVGIWATGPGSAAFRGTLEENVIYHVIVQATPALRARLCAAGTCDAAGVPVELPRAQAFERSATSAQ	PGPT0002570_537	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
BMS020_03976	540			hypothetical protein	ATGAGCCTGCGTCGCTGCGGCATCGCCGGCGCAGCGCTGCTGGCACTGTGCGCTGCAACCCCGACGTTCGCCGCCGGGGCCTGCATCGACCTGCGCGATTTCTCCGCGCTCGAAGGCTGCAGCGTACGCCCCGACGGCCAGCTGGAACTGAGCGCCAGGGCGCTGGCCGCGCTGCACTACGACGCAGACGGCAACGCCGGGCTCGGCAGCACCTCCGGCTTCCATTACGTCAAGCGCGACGGCCGCCAGCTGGCGGTGGTCGCCTACGACAACGGCCCGGACAGCTACGCGCAGGGCCTGGTCCGCGGCCGTACCGCGGACGGGCGCATCGCTTACTTCGACGCCGGCTTCGCCCAGGCGGTGCCCGGCAGCTTCGACTTCGCCTGGCCGTTCGAAGGGGATCGTGCCCAGGTCTGCCAGGGCTGCGCGCCGGCGCCGGCCACGCCCGATGGCGAACACGTGTCGGTGATCGGCGGGCGCTGGTTCCACATCGACCGCCGCGGCCAGCGCACCGACGCCGCCAGCACCGGCCCGCGCTGA	MSLRRCGIAGAALLALCAATPTFAAGACIDLRDFSALEGCSVRPDGQLELSARALAALHYDADGNAGLGSTSGFHYVKRDGRQLAVVAYDNGPDSYAQGLVRGRTADGRIAYFDAGFAQAVPGSFDFAWPFEGDRAQVCQGCAPAPATPDGEHVSVIGGRWFHIDRRGQRTDAASTGPR				NA	NA	NA	NA	NA
BMS020_03977	1290	tilS_1	COG0037	tRNA(Ile)-lysidine synthase	ATGTCGTCCGCGCTACCGCCCCCGCCCACCGCCCGGCCCGTGCTGGTCGGGTTCAGTGGCGGACTGGATTCCACCGTCCTGCTGCACTGGCTGGCCAGCGCGCCCGGCGCGCGTGCGCAGGGCCTGCGCGCCCTGCATGTGCACCATGGCCTGCAGGCCGATGCCGATGCCTGGGCCGACCACTGCGCCCGCGTCTGCGCCGCACTGCAGGTGCCGCTGCAGGTCGTGCGGGTGACCGTCGAGGATCGCCACGGCGAGGGCCTGGAGGCGGCGGCGCGCACCGCACGCCACGGCGCGTTCGCCGCGGCGCTGGGCGCGGGCGAAGCGTTGGCGCTGGCCCACCATCGCGACGACCAGGCCGAGACCTTCCTGTTGCGCGCACTGCGCGCCTCCGGCCCGGACGGGCTTGCGGCGATGGCCGTGCAACGCCCGTTCGCCGCCGGCACGCTGTGGCGGCCGCTGCTGGACCAGCCGCGCGTGGCGCTGCGCGCCCACGCCGAGGCGCACGCGCTGGACTGGATCGAAGACCCGTCCAACGCCGGCCTCGACCACGACCGCAATTTCCTGCGCCACCGCGTGTTGCCGGTGCTGGCCGAACGCTGGCCGCATGCCGCCGCGGCGCTGGCGCGCAGCGCCGCCCTCAGTGGCGAGGCCGCCGGCCTGCTCGGCGAGGACGATCCGGCGCTGTTGGCCGCGCTGCTGGCGCCCGATGGCGGCCTCGACCTGGAACGCCTGCGGCGGCACCCGCCCGCCCGCCGCGCCCGCCTGCTGCGGCACTGGGTCGCCGCCGCCGGACTGCCCGCACTGCCGGCCCAGGGCCTGGCGATGCTGGAGGGCGAACTCGACCAGGCCGCCGCCGATCGCGCCAGCTGCTTCGCCTGGCATGGCGTGCAGATCCAGCGCTGGCGGCACCGGCTGTACCTGCGCCGCCCGACGCCGGCCTGGCCGCAGGACTGGCAGACGCACTGGGATGGACGCACCCCGCTCGCGCTGCCCGACGGCGGCACGCTGCAGCTGCACGGAAGCGAGGGCTTCGACGCGCCACTGCGGGTGCGCGCACGGCGCGGCGGTGAGCGCCTGCTGCTGCCCGGCCGCACCCATTCGCACGCGCTCAAGCACCTGCTGCAGCAGGCCGGCCTGCCCCCGTGGCGGCGCGATGCACTGCCGCTGCTGTTCGCCGGCGAACGCCTGCAGGCCGCCGGCGACACGCTGCTGTCGGCCGATTTCGACGCCTGGCTGCAGGCTCGCCACGCGCGCCTGCAGCACACCGCCGGCGACCGCGCGAATTGA	MSSALPPPPTARPVLVGFSGGLDSTVLLHWLASAPGARAQGLRALHVHHGLQADADAWADHCARVCAALQVPLQVVRVTVEDRHGEGLEAAARTARHGAFAAALGAGEALALAHHRDDQAETFLLRALRASGPDGLAAMAVQRPFAAGTLWRPLLDQPRVALRAHAEAHALDWIEDPSNAGLDHDRNFLRHRVLPVLAERWPHAAAALARSAALSGEAAGLLGEDDPALLAALLAPDGGLDLERLRRHPPARRARLLRHWVAAAGLPALPAQGLAMLEGELDQAAADRASCFAWHGVQIQRWRHRLYLRRPTPAWPQDWQTHWDGRTPLALPDGGTLQLHGSEGFDAPLRVRARRGGERLLLPGRTHSHALKHLLQQAGLPPWRRDALPLLFAGERLQAAGDTLLSADFDAWLQARHARLQHTAGDRAN				NA	NA	NA	NA	NA
BMS020_03978	261	xseB_2	COG1722	Exodeoxyribonuclease 7 small subunit	ATGCCCAAGAAGTCCCCCAACGAAACCTCGCCGGTGGCCCGCTTCGAGCAGTCGCTCGAGGAACTGGAGCAGCTGGTCGAGAAGATGGAAGCCGGCGACCTGAGCCTGGAGCAGTCGCTCGGTGCCTACGAACGCGGCATCGGCCTGTATCGCGACTGCCAGCAGGCGCTGGAGCAGGCCGAACTGCGCGTCCGCCTGCTCAGCGACCCGGCCCGCCCCGACGCGGCGGTGCCGTTCGACGACCACGCGGACGACGCCTGA	MPKKSPNETSPVARFEQSLEELEQLVEKMEAGDLSLEQSLGAYERGIGLYRDCQQALEQAELRVRLLSDPARPDAAVPFDDHADDA				NA	NA	NA	NA	NA
BMS020_03979	876	ispA_2	COG0142	Farnesyl diphosphate synthase	GTGAGCGCGGCGCTGTTTGCGCGCTGGCAGGCGCATGTCGAGAGCTGCCTGGACGCCTGCCTGCCCGGCCCCGCCGTCGCCCCGCAGCGGTTGCATCAGGCGATGCGCCATGCGGTGCTCGGCGGCGGCAAGCGCATGCGCCCGCTGCTGGTCTATGCCGGCGGCTGGCTGCTGGGCGCCGACGAGGCGCGACTGGACGCCCCCGCCGCCGCGGTGGAACTGGTGCACGCCTATTCGCTGGTGCACGACGACTTGCCGGCAATGGACGATGACGACCTGCGCCGCGGCAAGCCGACCGTGCACATCGCCTACGACGAAGCCACCGCGATCCTCGCCGGCGATGCGCTGCAGACCCGCGCGTTCGAGCTGCTGGCCGATGCCCCGGTCGACGCCGCGCTGCGCGTGGCCTGGCTGCAGGCGCTGGCAAGCGCCAGCGGCGTGGCCGGGATGTGCGGCGGCCAGGCGCTGGACATCGACGCCACCGGCCAGCAGCAGAGCCTCGCCGCGCTGGAGCGCATGCACGCATTGAAGACCGGCGCGCTGATCCGCGCGGCGGTGCGCATGGGCGCGCTGGCCGGCGAGGCCGGCGATGCCGAACTGCGCCGGCTGGATGCATTCGCCGCCGATCTCGGCCTGGCCTTCCAGGTCCGCGACGACATCCTCGACGTTGAATCCAGCGCCGAAACCCTCGGCAAGACCGTCGGCAAGGACGCGGCCCAGGCCAAATCGACCTTCCCCGCCCTGCTCGGCATGGACGGCGCCAAACGGCGCCTGGCCGAACTGGCCGACGCGATGCAGCAGACGCTGGCCGGCCACGACGAACGCGCCGCCCCGCTGCGCGCGCTGGCGACGATGGCGGTCGAACGCAGCCACTGA	MSAALFARWQAHVESCLDACLPGPAVAPQRLHQAMRHAVLGGGKRMRPLLVYAGGWLLGADEARLDAPAAAVELVHAYSLVHDDLPAMDDDDLRRGKPTVHIAYDEATAILAGDALQTRAFELLADAPVDAALRVAWLQALASASGVAGMCGGQALDIDATGQQQSLAALERMHALKTGALIRAAVRMGALAGEAGDAELRRLDAFAADLGLAFQVRDDILDVESSAETLGKTVGKDAAQAKSTFPALLGMDGAKRRLAELADAMQQTLAGHDERAAPLRALATMAVERSH	PGPT0007520_1703	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007520-ispA-K00795	NA	NA
BMS020_03980	381			hypothetical protein	ATGAGCGACTTCGAGAACGTCACCGCCCCACCGCCGCCGCCGGTCGGCACTGCGCCGCAGGATGAGCGCACGCTGGCGCTGGTGGCGCACCTGCTGGGGATCTTCACCGGCTTCATCGGCGCGCTGATCATCTGGCTGGTCAACAAGGACGCCAACCCGGCCAAGCCGTTCGTGGTGGACCAGGCCAAGGAAGCGTTGAATTTCCAGATCACCGTGGCGATCGCCTGGGTGGCCTGTTTCATCCTGACCATCGTCTTCATCGGCGCGCTGCTGATGCCGTTGGTCGGCCTGGCCAGCCTGGTCTTCAGCATCATCGCCGCGGTCAAGGCCAACAACGGCGAGAGCTATCGCTACCCGTTCGCGCTGCGCCTGATCAAGTAA	MSDFENVTAPPPPPVGTAPQDERTLALVAHLLGIFTGFIGALIIWLVNKDANPAKPFVVDQAKEALNFQITVAIAWVACFILTIVFIGALLMPLVGLASLVFSIIAAVKANNGESYRYPFALRLIK				NA	NA	NA	NA	NA
BMS020_03981	1383	pmbA_1	COG0312	Metalloprotease PmbA	TTGAACGCCATCGCCCCCGAAACCCGCATCGACGACGACAGCCAGGTGCGCCTGGACGCGCTCGCCGACACCGCGCAGCGGCTGCTGCAGCGCGCCCGCGCGCTTGGCGCCAGCCAGGCCGAGGTCACCTGCAGCGAGGACTACGGCCTGGAGGTCAACGTACGCCTGGGCGAGGTGGAGACGGTCGAATCCACCCGCGACCGCGGCGTCGCGGTGACCGTCTACTTCGGCCAGCGCAAGGGCAGCGCCAGCACCGCCGACCTGCAGGATGCCAGCCTGGAGGCGACCGTCGCCCAGGCCTGCGCGATCGCCCGCTATACCGAGGACGACGCCGCCTCCGGGTTGGCCGACGCGGCGCTGATGGCGCACGCCCAGGCCGATTACGACGTCTGGCACCCGTGGGCGGTGGACGCCCAGCAGGCGGTGGACATCGCGCTGGCCTGCGAGGCCGCGGGCCGCGACGCCGATGCACGCATCAGCAATTCCGATGGCGCCTCGTTCGGCAGCGGTCGCAGCATGTCGGTGTACGCCAATTCGCACGGCTTCGTCGGCCGCGAGCGCGATACCCACCACTCGGTCGGCTGCGCGCTGATCGGCGGGCACGGCGACGGCATGCAACGCGACGGTTGGTACACCAGTGCGTTGGCGCGCGAGGATCTGTGGAGCCCGGTAGCGGTCGGGCGTCGCGCCGCCGAGCGCACCATCGCCCGGTTGCAGCCACGCTCGCTGCCCACCGGCGAGTACCCGGTGCTGTTCGCGCCGGAAGTGGCGCGCTCGCTGGTCGGTCACCTGGTCGGCGCGGTGTCTGGTGGCGCGCTGTACCGCAAGGCCAGCTTCCTGCTCGACAGCGCCGGCACGCGGCTGTTCCCGGACTGGCTGTCGATCGACGAGCTGCCGCACCTGCGCCGCGGGCTGCGCTCGACCGCGTTCGATGCCGAGGGCGTGGCGACCCGCGCCAACCCGCTGGTCACCGATGGCGTGCTGCAGCGCTACGTGCTCGGCAGCTATTCGGCGCGCCGGCTCGGCCTGGCCAGCACCGCCAACGCCGGTGGCGTGCACAACCTGCAGGTCTCGGCCAACGCCGAGGATCTGCAGGCGATCGCCCGCAACCTGCCGCGCGGCCTGCTGGTCACCGAGCTGATGGGGCAGGGCGTCAACGGCGTCACCGGCGACTATTCGCGCGGCGCCGGCGGGTTCTGGATCGAGAACGGCGAGATCGCCTATCCGGTCGACGGCATCACCATCGCCGGCAACCTTCGGCAGATGTTCCTGGGCATCGAGGCGGTGGGCCGCGACGTCGACGTGCGTTCGCACGTGGCGATCGGCGCGCTGCTGATCGGGCGGATGATGGTCGCTGGTGGCGAAGCGGGTGCCGAGGCCTGA	MNAIAPETRIDDDSQVRLDALADTAQRLLQRARALGASQAEVTCSEDYGLEVNVRLGEVETVESTRDRGVAVTVYFGQRKGSASTADLQDASLEATVAQACAIARYTEDDAASGLADAALMAHAQADYDVWHPWAVDAQQAVDIALACEAAGRDADARISNSDGASFGSGRSMSVYANSHGFVGRERDTHHSVGCALIGGHGDGMQRDGWYTSALAREDLWSPVAVGRRAAERTIARLQPRSLPTGEYPVLFAPEVARSLVGHLVGAVSGGALYRKASFLLDSAGTRLFPDWLSIDELPHLRRGLRSTAFDAEGVATRANPLVTDGVLQRYVLGSYSARRLGLASTANAGGVHNLQVSANAEDLQAIARNLPRGLLVTELMGQGVNGVTGDYSRGAGGFWIENGEIAYPVDGITIAGNLRQMFLGIEAVGRDVDVRSHVAIGALLIGRMMVAGGEAGAEA				NA	NA	NA	NA	NA
BMS020_03982	606			hypothetical protein	ATGCGCGGACGCGACGAAGATACCGGCGAATTCCTTGGCTCCAGCCGCAGCCAGAACCGGCGCGAGGCACTGGAAGTGCTGGCGCTGGGCGAGAAGCTGGTGGCGTTGACGCCGGCCCAGCTCGAGCGCCTGCCCATCCCCGAGGACCTGCTTCCGCACATCGCCGAGTGCAAGCGCATCACCGCGCACATCGCCCACAAGCGCCAGCTGGCGTTCCTGGCCAAGCACATGCGTCGCGAGGACGACGCGACGCTTGAGGCGATCCGCGATGCGCTGGACGCCAACAGCGAGACCTCGCGCCGCGAGGTGGCGGTGATGCACCGCATCGAGGCCTGGCGCGAGCGCCTGCTCGCCGACGGCGACGCGGCGCTGGCGCAGCTGCTCGACGAATACCCCGGCGCGGACCGCCAGCAGCTGCGCACGCTGGTGCGCAACGCCCAGGGCGAAAAAGCCCGCAACAAGCCGCCGCGCGCGTTCCGCGAGATCTTCCAGGTGCTGCGCGCGCTGATGCTGCCGGCCACCATCGGAGGGGTCGCCGCGGCCGATGCGGCCGGCGCCGACGACGACAGCGACGGGCATAGCGACGACGACGCCCTGCTCGACTGA	MRGRDEDTGEFLGSSRSQNRREALEVLALGEKLVALTPAQLERLPIPEDLLPHIAECKRITAHIAHKRQLAFLAKHMRREDDATLEAIRDALDANSETSRREVAVMHRIEAWRERLLADGDAALAQLLDEYPGADRQQLRTLVRNAQGEKARNKPPRAFREIFQVLRALMLPATIGGVAAADAAGADDDSDGHSDDDALLD				NA	NA	NA	NA	NA
BMS020_03983	1446	tldD_3	COG0312	Metalloprotease TldD	ATGACTGACAACGCACTCTCGCTGGCCGAATCGCGGCTGCTGCTCCCGGCCGGGCTCGACGCCGGGCAACTCGACCGCACCTTCGGCACCCTGCTGGGGCCGGGTATCGACTTCGGCGACCTGTATTTCCAGCATTCGCGGCGCGAGAGCTGGAGCGTGGAGGACGGCATCGTCAAGGACGGCGCGCATTCGATCGAGCAGGGCGTGGGTGTGCGCGCGATCGCCGGCGAGAAGACCGGTTTCGCCTATTCCGACGACATCCACCGCGATGCGCTGATCGAAGCGGCGCATTCGGCGCGCGCGATCTCGCGCGAGGGCGGCGCGACCAGCTCGCGTTCGCTGGTGCGCGGCAACGCGCGCGCGCTGTATCCGGCGCTGGACCCGGTCGATGCGATGGAGAACGCGGCCAAGATCGAGGTGCTGCGCCGTCTCGACGGCTTCCTGCGCGCGGCCGATCCGCGCGTGCAGCAGGTGATGGTGAGCCTGTCCGGCGGCGTCGACACGGTGCTGGTGGCGCGCAGCGACGGTGTGCTCGCCGCCGACGTGCGTCCGCTGGTGCGCATCAACGTGCAGGTGATCGTCGAACAGGCCGGCCGGCGCGAATCCGGCTACGCCGGCGGCGGTGGCCGCTACGGCTACGCCGAGCTGTTCGCCGACGGTCGCCCCGAGGCGTTCGCACGCGAGGCGCTGCGTCAGGCGCTGGTCAATCTGGACGCCGTGCCGGCACCGGCCGGAGTGATGCCGGTGGTGCTCGGCGCCGGCTGGCCGGGCGTGCTGCTGCACGAGGCGGTCGGCCATGGTCTGGAAGGCGACTTCAACCGCAAGGGCACCAGCGTCTACGCCGGCCGCATCGGCCAGCGCGTCGCTGCGCCCGGCGTCACCATCGTCGACGATGGCACGCTGGACGGTCGCCGCGGCTCGCTCAACGTCGATGACGAAGGCACCCCGACCCAGTGCACCACGCTGATCGAGGACGGCGTACTGGTCGGCTACATGCAGGACACGCTCAATGCGCGCCTGATGGGCGTGGCACCGACCGGCAACGGCCGTCGCGAATCGTTCGCGCACCTGACCATGCCGCGCATGACCAACACCTACATGCTGGCCGGCCAGCACGACCCGCAGGAGATGATCCGCTCGGTGAAGAAGGGCCTGTACGCGGTCAACTTCGGTGGCGGCCAGGTCGACATCACCAGCGGCAAGTACGTGTTCTCGGCCACCGAGGCCTACCTGATCGAGGACGGCAAGGTCACCGCGCCGGTGAAGGGCGCGACGCTGATCGGCAACGGCCCGGAAACCATGCAGAAGGTGCGCATGGTCGGGAATGACCTGGCGCTGGACGAAGGCGTCGGCGTCTGCGGCAAGGACGGCCAGAGCGTGCCGGTCGGCGTCGGCCAGCCGTCACTGCTGATCGAAGGATTGACTGTCGGCGGCACCCAGGCCTGA	MTDNALSLAESRLLLPAGLDAGQLDRTFGTLLGPGIDFGDLYFQHSRRESWSVEDGIVKDGAHSIEQGVGVRAIAGEKTGFAYSDDIHRDALIEAAHSARAISREGGATSSRSLVRGNARALYPALDPVDAMENAAKIEVLRRLDGFLRAADPRVQQVMVSLSGGVDTVLVARSDGVLAADVRPLVRINVQVIVEQAGRRESGYAGGGGRYGYAELFADGRPEAFAREALRQALVNLDAVPAPAGVMPVVLGAGWPGVLLHEAVGHGLEGDFNRKGTSVYAGRIGQRVAAPGVTIVDDGTLDGRRGSLNVDDEGTPTQCTTLIEDGVLVGYMQDTLNARLMGVAPTGNGRRESFAHLTMPRMTNTYMLAGQHDPQEMIRSVKKGLYAVNFGGGQVDITSGKYVFSATEAYLIEDGKVTAPVKGATLIGNGPETMQKVRMVGNDLALDEGVGVCGKDGQSVPVGVGQPSLLIEGLTVGGTQA				NA	NA	NA	NA	NA
BMS020_03984	1065			hypothetical protein	ATGCAGACAAGTCGCACGCGCGACCGGCTTCAGGAAGCACGCAATGAATGCGCTGCACGGCCCCGCCCGGATGCAACGCGACGCCAGCGCCGCCGGCAGCACGGCAACACCCTGGCAGCGGCCGCGGCGGGCCACGTCGCCCCTCCCCGGCGGCGCCCCCGCGCGCAGCCGTTGCGCGCAGTGCCCGGGCGGGCGGAGCACCGCAACAACCGCAGCAGCACCATGACGACAGCGAAGACCTCGGCCGAGCCCCGGCCCGATGCACGCCCGCGCCGCGGCGGCGTCCTATCATCGAAGTCCCTCCATCCGGCGCCCCGCATGAAGCTCACCGCCTACGTCCTGGACGGCCACACCCTCGACATCCGCCCGGCGCCGCGCGAACGCGACTGGATGGACGCCACCGACCAGCACTACGCCTACCGCTGCCTGCCATTGGCGATCGCCAACGCGCATGGGTGGGAGCTGCTGTGCCAGGGCGGCTTCATGGCCGACTGGAACGGCGGCAACGACCTCGATGCGATCCGCATCTACCCGCTCGGCGACGGTCCGGTCGCCGCGGTCAGCCACTTCGGCTACGGCGTGCTGACCTTCCACGTGCCCTGCCTGTTCCGCACCGACGCCGGCATCGACCTGATGGTCGGCGCCCCGCTCAACCGTCCCAAGGACGGCATCGCCGGACTGAGCGGCATCGTCGAGACCGACTGGAGCCCGTACACGTTCACCATGAACTGGCGCTTCACCCGTCCCGGGCGGGTGCGCTTCGATGCGGGCGAACCGTTCTGCCACCTGATGCCGCTGCAGCGCTCGCTGACCGAGCAGGTCGAAGCCGAATGGCGGCCGATCGCCGAGGCCCCGGAGCTGCAGCGCCTGCACGACGAGTGGACCCACAGCCGCGGCCGCTTCCTGCAGGAACTGGCCGACCCCGACTCGGAAGCGACCCGGCAGAAGTGGCAGCGCGGCTATTTCCGCGGCGTCAGCGGCGATGGCGACGCGCCCGCGTCCGGCCACCGCAGCAAGCTGCGGCTGCCAATGCTGGTGCGCGCACCGGCCGACGGCGCGGACTGA	MQTSRTRDRLQEARNECAARPRPDATRRQRRRQHGNTLAAAAAGHVAPPRRRPRAQPLRAVPGRAEHRNNRSSTMTTAKTSAEPRPDARPRRGGVLSSKSLHPAPRMKLTAYVLDGHTLDIRPAPRERDWMDATDQHYAYRCLPLAIANAHGWELLCQGGFMADWNGGNDLDAIRIYPLGDGPVAAVSHFGYGVLTFHVPCLFRTDAGIDLMVGAPLNRPKDGIAGLSGIVETDWSPYTFTMNWRFTRPGRVRFDAGEPFCHLMPLQRSLTEQVEAEWRPIAEAPELQRLHDEWTHSRGRFLQELADPDSEATRQKWQRGYFRGVSGDGDAPASGHRSKLRLPMLVRAPADGAD				NA	NA	NA	NA	NA
BMS020_03985	3918			hypothetical protein	ATGCCCACCCCGCTGCGCCGCCGCCTCCGCCTGACCCGCCGCTACGCGACCTACGCGTGCGCGCTGGCGCTGGTGCTGCTCGCGCTGGTGGTGGGGGCGTTGAGCCAGCTGTTGCCGCTGGCCGAGCGCAACCCGGAACGGGTGGCGGCCTGGCTGAGCGCGCGTGCCGGGCAGCCGGTGGGATTCGAGCGCCTGAGCACCCAATGGACCCGGCGCGGCCCGTTGCTGCGGCTGCAGGGGCTGCGGATCGGTGCCGGCGAAGGCCTGCGCATCGGCGAGGCCGAGGTGCTGGTGGCGATGTATTCCGGGTTGTTCCCGGGCAGTTCGCTGACCGAGCTGCGGCTGCGTGGGGTGGCGCTGACGCTGGTGCGTGCCGACGACGGCACCTGGTCGGTGCAGGGGTTGCCGGCCGGCGGCCACGGCGATCCGCTGGACGCGCTGCGCCGGCTCGGTGAGGTGCAGGTGATCGGCGGGCGGCTGCAGGTGCAGGCGCCGTCGATCGGGCTGCAGGCCACGCTGCCGCGCATCGACCTGCGCCTGCGGGTCAACGGCGAGCGGCTGCAGGTCGGCACCCGCAGCTGGATCGATCCGGCCAAGGCGCCGCTGCAGGCGGTGCTGGAGTTCGACCGTCGCCGCGGCGACGGTCATGCCTATCTGGCGGCCGACCCGGCCGACCTGGCGGCCTGGGCGCCGCTGCTGCAGGGGGCCGGGGTCCAGGTGCGTGGCGGCGAGGGCCGGCTGCAGGCCTGGGCACAGCTGCGCGGCAACCGCGTCGCCACGGTCACCGTCGATGCCGACCTGCGCCAGGTCGCGCTGGCCGGCGCCGCGCTGCCCGGCATGGCCAAGCCGCCGCAGCTGGCCTGGGAACACCTGCGCGCACGTGCGCGACTGAGCGAAATCGACGGCGGCTGGCGGCTGGACGTGCCGCTGCTGCGGATCGGCGACGCGGCAACGCCGCAGCGCATGGATGGCCTGGCGCTGGCCTGGGGCAGGCGCTTCGCACTGCGCGCATCGCGCATCGAGGCCGGCAACGCGATCGCCGCGCTGGCGCTGAGCGACCGCTTGCCGCCGGCGCTGCGGCGCTGGCTGGCGTTGGCACGGCCGGAGCTGGCGTTCGCCGGGCTGTCCGCCAGCGGGACCCCGGGCGGTGCGATGCAGGCCAGCGGGCAGCTGGCCGGGCTGTCGTTCAAGCCGGTCGGCGATGCCCCCGGCCTGAGCGGCCTGCAGGGGCGTTTCGACGGCGACGGGCAGGGCGTGCAGCTGGATTTCGATCCGCAGGCGCTGCTGCGCTTCGATTGGCCCACCGGCTTTGGCGTGGTGCACGAAGTCCACCTGGCCGGACGCATGGTCGCCTGGCGCCAGGGCGAGGGCGTGCAGGTGGCGACGCCGGCGCTGCGGGTGCAGGCCAGCGACTACGCCGCCGACGTGCGCGGCGGCATGTGGTTCCAGAACGACGGGACCCGCCCACGCATCGACCTGGCCGCCAAGCTCGACGATGCCCCGGTGCCGGTGGCCAAGAAGTTCTGGGTCCATTCCAAGATGAGCAAGGTCGCCACCGACTGGCTGGACATGGCGCTGGCCGGCGGCACGGTCACCGGTGGCGTCGGCCTGGCCAGCGGCGACCTCGACGACTGGCCGTTCGACGACCGTGACGGCCGCTTCGAGGCCAGCGGGCACATCCGCGATGGCGTGATCCGCTTCCAGGACGACTGGCCGCAGATGGAAAAGGTCGATGCCGACGTGGCCTTCATCGCCAATGGCTTCAGCCTGCACGGTCGCGGCGACCTGGCCGGGGTCGCGGTCGACCAGCTCGAGGCCGGCATCGCCGACTTCAAGGCCGGCGAACTGACGGTGCGCGCCAACACCCGCAGCGAGGCCGGCGCGATGCTGGCGATGCTGCGGCGCAGCCCATTGCAGCGCAGCTACGGCGACACGCTGACCCACGTCAGCGCCTCCGGTCCGGCCACCGCCAGTTTCGACATGCTGCTGCCGCTGCACGGCGATCGCGGCCAGGGCCACCTGCGTGGCGATGTCGGACTGGAAGGCATCAAGCTGGCCGACAAGCGCTGGGAGCTCGCGTTCGAGGGCGTGACCGGCTCCGCCCACTACAGCAACGCTGGCTTCGACGCCGAGGCACTGCAGGTGCTGCATCGCGGCCAGCCGGGCGCGTTGACGCTGCGCGCCGGCGATGCCGCGCGCGACCCGGCCCAGGCGTTCGAGGCCGAATTCGCCGCGACGCTGGACGCCAAGGAACTGTTCGACCGCGCGCCGCAGATGGAATGGCTGCGCCCGTACGTGCATGGCACCTCGTTGTGGAAGGTCGGCGTGGACCTGCCGCGCGCCCAGCCCGGCCAGCCGGAGGCACCGACCCACCTCAGCCTGGATTCGGACCTGGTCGGGACCACGCTGGACCTGCCGGCGCCGCTGGACAAGGACCCGGCCAAGCCGCTGGACACCCACGTCGACGTGGCACTGCCGTTCGGTAACGGCGATATCGACGTGGCGTTCGGCAAGCTGGTCGCGGTCAAGGCCAGTACCCACGACGACCGCACCGGCGTGCGCGTGGTGATGGGCAGCGACAGCGTGCACGAACGTCCGCCGGAGCACGGGCTGGCGGTGAGCGGGCGCACCGAGGCGCTGGATGCGATGGAATGGATCGGGCTGGCACGCGGTGCGCCGGCCGACGATGGCAGCGGGCGCGCCGATGCGCTGCCGCTGCAGCAGGTGGACGTGCAGGCCGACCGCCTGTTGATGCTCGGCGGGGTGTTCCCCAACACCCGGTTGCGGCTGAAGCCGTCGCGCGATGCGATCGCGGTGACCTTGGACGGGCCGTCGCTGGCCGGCCAGCTGGACGTGCCCAATGCCGATGGCGCGGTGCTGCGTGGCGACCTGCGCACCGTGCACTGGCAGCCGGCGACCGTGGCGGCTTCAGTGGACGCGCCCACGACCCCGGCGGCGACGGCCGGCGAGGGTGCCGCCGCGGCGCCGCCGCGCACCACCGCACTGGCCGAGGCGTTGCCGGAGCCGGCGCGCAAGGCGGTGGCCGAATTCGACCCGGCGGCGATCCCGCCGCTGTCGCTGGACGTGGACGACCTGCGCTTTGGCCGCATAAAGCTCGGCCATGCGGTGCTGCGCACCCGCCGGCTCACCGACGGCATGCAGGTCGACCAGCTGCAGCTCGGCTCGGACAAGCAGAAGATCGCGCTGACCGGGGCCTGGCGCGGCAAGGGCGCGGCGGCGACCACGCGGCTGTCGGCGCGTGCCGATTCGGAGAACCTCGGCGCGCTGATGCAGGACCTGGATTTCGGTGGCCAGCTGCGTGGCGGCGAGGGCCAGATCGAGCTCAATGTCGGCTGGCAGGGCGCGCCGACCACCTTCGAGCTGGCTTCGCTGGAAGGCGACCTGAAGGTCGCCGCGCGCAATGGCCAGTTGCTGGAAGTCGAACCCGGCGCCGGGCGCGTGCTCGGCCTGCTCAGCATCGCCCAGCTGCCGCGGCGGTTGATGTTCGATTTCCGCGATTTCTTCTCCAAGGGCCTGGCGTTCAACAAGGTCGACGGCGAGGTGCGCTTCGGCGAGGGCCTGGCCCGCACCGAGGCGATCCGCATCGAGGGTCCCGCGGTGGACATCAATATGCGGGGCCAGGCCGACCTGCGGCAGAAGACCTTCGACCAGACCGTCGATGTCTATCCCAAGTCCGGCAACCTGCTGACCGTGGTCGGCGCAGTTGCCGGCGGTCCGGTCGGCGCGGCGGTCGGCGCGGCGGCGAACGCGGTGCTGTCCAAGCCGTTGGGCGAGATCGGCGCGCGCACCTACCACGTGTCCGGGCCGTGGGCCGACCCCAAGGTCGACGTGGTCGAACGTAGCGAGGCGCGCAAGGACCGCGAGGCCGAGCGAGCCAGCAAGACCGACGGTGGTTGA	MPTPLRRRLRLTRRYATYACALALVLLALVVGALSQLLPLAERNPERVAAWLSARAGQPVGFERLSTQWTRRGPLLRLQGLRIGAGEGLRIGEAEVLVAMYSGLFPGSSLTELRLRGVALTLVRADDGTWSVQGLPAGGHGDPLDALRRLGEVQVIGGRLQVQAPSIGLQATLPRIDLRLRVNGERLQVGTRSWIDPAKAPLQAVLEFDRRRGDGHAYLAADPADLAAWAPLLQGAGVQVRGGEGRLQAWAQLRGNRVATVTVDADLRQVALAGAALPGMAKPPQLAWEHLRARARLSEIDGGWRLDVPLLRIGDAATPQRMDGLALAWGRRFALRASRIEAGNAIAALALSDRLPPALRRWLALARPELAFAGLSASGTPGGAMQASGQLAGLSFKPVGDAPGLSGLQGRFDGDGQGVQLDFDPQALLRFDWPTGFGVVHEVHLAGRMVAWRQGEGVQVATPALRVQASDYAADVRGGMWFQNDGTRPRIDLAAKLDDAPVPVAKKFWVHSKMSKVATDWLDMALAGGTVTGGVGLASGDLDDWPFDDRDGRFEASGHIRDGVIRFQDDWPQMEKVDADVAFIANGFSLHGRGDLAGVAVDQLEAGIADFKAGELTVRANTRSEAGAMLAMLRRSPLQRSYGDTLTHVSASGPATASFDMLLPLHGDRGQGHLRGDVGLEGIKLADKRWELAFEGVTGSAHYSNAGFDAEALQVLHRGQPGALTLRAGDAARDPAQAFEAEFAATLDAKELFDRAPQMEWLRPYVHGTSLWKVGVDLPRAQPGQPEAPTHLSLDSDLVGTTLDLPAPLDKDPAKPLDTHVDVALPFGNGDIDVAFGKLVAVKASTHDDRTGVRVVMGSDSVHERPPEHGLAVSGRTEALDAMEWIGLARGAPADDGSGRADALPLQQVDVQADRLLMLGGVFPNTRLRLKPSRDAIAVTLDGPSLAGQLDVPNADGAVLRGDLRTVHWQPATVAASVDAPTTPAATAGEGAAAAPPRTTALAEALPEPARKAVAEFDPAAIPPLSLDVDDLRFGRIKLGHAVLRTRRLTDGMQVDQLQLGSDKQKIALTGAWRGKGAAATTRLSARADSENLGALMQDLDFGGQLRGGEGQIELNVGWQGAPTTFELASLEGDLKVAARNGQLLEVEPGAGRVLGLLSIAQLPRRLMFDFRDFFSKGLAFNKVDGEVRFGEGLARTEAIRIEGPAVDINMRGQADLRQKTFDQTVDVYPKSGNLLTVVGAVAGGPVGAAVGAAANAVLSKPLGEIGARTYHVSGPWADPKVDVVERSEARKDREAERASKTDGG				NA	NA	NA	NA	NA
BMS020_03986	1500	rng_2	COG1530	Ribonuclease G	ATGTCTGAGGAAATCCTGGTCAACGTCACCCCGCGCGAAACCCGCGTGGCGGTCATCGAGAACGGCATGCTGCAGGAGCTGCACATCGAGCGCGGCTGGCGGCGCGGGGTGGTCGGCAACATCTACAAGGGCAAGGTGCAGCGGGTGATGCCGGGCATGCAGGCCGCGTTCGTCGAAGTCGGGCTGGAGCGCGCCGCGTTCCTGCACGCCAACGACGTGATCCGCCCGGCCCAGGCCGCCGCCAGCGCGGTGGACACCGACGAGACCACGCTGCCGCCGCCGTCGCCGGCGGTGGTGCCGATCGTCGAACTGCTGCGCGACGGCCAGGACGTGGTGGTGCAGGTGGTCAAGGACCCGATCGGCACCAAGGGCGCGCGCCTGACCACCCAGATCAGCATCCCCTCGCGTTACCTGGTGCTGCTGCCGCAGTCCAAGGTGGTCGGGGTGTCGGCGCGGATCGAGGACGAGGCTGAACGCCTGCGGCTGAAGACCCTGGTCACCGAGCTGTCGGCCCAGCACGGTGGCTACGGCTACATCATCCGCACCAATGCCGAGGGCCAGCCGGCCGAGGCACTGGCCGAGGACGTGTCCTACCTGTCGCGGGTCTGGAACGTGGTCGAGCGCCGCGGCCGCGAGGCGCCGCCGTGCAGCATGATCTACGAAGACCTGAGCCTGCCGCAGCGCGCGGTGCGCGACCTGATCCGCAAGGACGTGGACCGGGTCAAGGTGGATTCGCAGGAGACCTTCGCCAAGCTGCAGGCGTTCGTCGCCAAGTACATGCCGGTGCTGGCCGAGAAGCTGGAGCTGTACACCGGCGACCGGCCGATCTTCGACCTGTACGGGGTCGAAGACGAGATCGCCCGCGCGCTGGACAAGCAGGTGCCGCTGAAGTCCGGCGGCTACCTGGTGATCGACCAGACCGAGGCGATGACCACGGTCGACGTCAACACCGGCTCGTTCGTCGGCCAGCGCAACCTCGAGGAGACGGTATTCCGCACCAACCTGGAGGCGGCGCAGGCGGTGGCGCGGCAGCTGCGGCTGCGCAACCTCGGCGGGATCATCATCATCGACTTCATCGACATGGATGATCCCGAGCACCGCCGCCAGGTGCTGCGCACGCTGGAGAAGGCGCTGGCGCGCGACCATGCCAAGACCACGGTGTACGAGTTCTCGCCGCTGGGGCTGGTGGAGATGACCCGCAAGCGCACCGTCGAGAGCCTGGAGCGGCAGCTGTCCGAGCCGTGCCCGGAATGCAGCGGGCGCGGCACGATCAAGACCGCCGAGACGGTCACCTACGAGGTGTTCCGCGAGATCACCCGCCAGGTCCGCCAGTTCGACGCCGCGCGGCTGCTGGTGATCGCCTCGCCGAAGGTGGTGGCGCGGATCACCGAGGAGGAGTCCACCGCGGTGGCCGAGCTGGAGGAATTCCTCGGCAAGAGCATCAGCTTCCAGGCCGACGAGCAGTACCTGCAGGAGCAGTTCGACGTGGTGCTGCTTTGA	MSEEILVNVTPRETRVAVIENGMLQELHIERGWRRGVVGNIYKGKVQRVMPGMQAAFVEVGLERAAFLHANDVIRPAQAAASAVDTDETTLPPPSPAVVPIVELLRDGQDVVVQVVKDPIGTKGARLTTQISIPSRYLVLLPQSKVVGVSARIEDEAERLRLKTLVTELSAQHGGYGYIIRTNAEGQPAEALAEDVSYLSRVWNVVERRGREAPPCSMIYEDLSLPQRAVRDLIRKDVDRVKVDSQETFAKLQAFVAKYMPVLAEKLELYTGDRPIFDLYGVEDEIARALDKQVPLKSGGYLVIDQTEAMTTVDVNTGSFVGQRNLEETVFRTNLEAAQAVARQLRLRNLGGIIIIDFIDMDDPEHRRQVLRTLEKALARDHAKTTVYEFSPLGLVEMTRKRTVESLERQLSEPCPECSGRGTIKTAETVTYEVFREITRQVRQFDAARLLVIASPKVVARITEEESTAVAELEEFLGKSISFQADEQYLQEQFDVVLL				NA	NA	NA	NA	NA
BMS020_03987	573	yhdE_2	COG0424	dTTP/UTP pyrophosphatase	ATGCTCTATCTCGCCTCGCGCTCACCCCGGCGCAAAGACCTGCTGGCACGCCTGGATGTGGCGTTCGACACCCTCGACCTGGACGTGCCGGAAGTGCGCGCGGACGGCGAGGCGCCGGCCGACTACGTGCGCCGGGTCGCGCTGGACAAGGCCCAGGCCGGGCTGGCACAGGTCGCCGCCGCCGACCCGGCCGCCTGCGTGCTCGGTTCGGACACCGAGGTGGTGCTCGGCGAGCGGGTGTTCGGCAAGCCGCGCGACCGCGCCGACGCGATCGCGATGCTGCAGGCGCTGTCCGGACGCACCCACCAGGTGATCACCGCGGTGGCGCTGGTCGCCGCCGGGCGGGCGCCGGGGCAGGTCGAGGTGGTCTCGCAGGTCAGCTTCGCACCGCTGGACCAGGCGCTGATCGAGCGTTACGTCGATGGCGGCGAGCCGATGGGCAAGGCCGGGGCCTACGCGATCCAGGGCGGCGCCGAGCGCTTCGTGGTCCGCCTCGACGGCAGTTTCTCGGCGGTGATGGGCCTGCCGCTCCACCATACCGCACAGCTGCTGGCAGCCTTCGGGGCGCTGTGA	MLYLASRSPRRKDLLARLDVAFDTLDLDVPEVRADGEAPADYVRRVALDKAQAGLAQVAAADPAACVLGSDTEVVLGERVFGKPRDRADAIAMLQALSGRTHQVITAVALVAAGRAPGQVEVVSQVSFAPLDQALIERYVDGGEPMGKAGAYAIQGGAERFVVRLDGSFSAVMGLPLHHTAQLLAAFGAL				NA	NA	NA	NA	NA
BMS020_03988	735		COG2968	26 kDa periplasmic immunogenic protein	ATGCGCCTGTTCCGCACGACACCGCTGCTGCTCGCCCTGAGCCTCGCCACCGGAGCCACCATGCCTGCCCATGCCCAGACCCCGACCGTCTCGCCGGTAGCGGCCGACGGCACCCTGCTCAACGTCTCCGCCGAGGCCGAGGCACGGCGCGTGCCCGACGTGGCGACGATCTCCGCCGGCGTGGTCACCCAGGCCGCCGACGGCAGCGCGGCGATGCACGACAACGCCACCCGCATGCAGGCGGTGATGAAGGCGATCCACGCCGCCGGCATCGCCGACAAGGACATCCAGACCAGCGGCATCTCGCTCAACCCGCAGTACCGCTACAAGGAAGGCGAGGCGCCGGCGATCATCGGCTACCAGGCCAGCAACACCGTCAGCCTGAAGGTCCGCGATCTGGCCAGGCTCGGCCGGGTGCTGGAATCGCTCAGCGCCCAGGGTGCCAACCAGATCAACGGCCCCAGTTTCGAGGTCGACCAGCCCGAACCGGCCTACGACGAGGCCCGTCTGGCGGCGCTGCAGAAGGCCCAGGCCCGCGCCGCCACCTATGCCAAGGCACTCGGACTGAAGGTCCGCCGCATCGTCAGCATCTCCGAGAGCCGCAACGGCGGTGCCCCGGTGCCGATGCTGCGGATGCGTGCAATGGCCGCCGACGCCGCCCCCGCCCCGCCGGTCGCGCCGGGCGAAAGCGTGCTGGGGGTCAATCTGGAGGTGGCGTTCGAGCTAGGCAAATAA	MRLFRTTPLLLALSLATGATMPAHAQTPTVSPVAADGTLLNVSAEAEARRVPDVATISAGVVTQAADGSAAMHDNATRMQAVMKAIHAAGIADKDIQTSGISLNPQYRYKEGEAPAIIGYQASNTVSLKVRDLARLGRVLESLSAQGANQINGPSFEVDQPEPAYDEARLAALQKAQARAATYAKALGLKVRRIVSISESRNGGAPVPMLRMRAMAADAAPAPPVAPGESVLGVNLEVAFELGK	PGPT0012980_973	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012980-yggE-K09807	NA	NA
BMS020_03989	3018			hypothetical protein	GTGGCCATTCCGCACCAAACCCGAAGGGCTCTGCAGCGTTCCGCCTTGAGCCTCGCCCTCGGCATCTGCTTCGCCCCAACCCTGTACGCCCAGTCCAACACCTCCGGTGCCATCTTCGGCCAGGCCGCGGCCGGCTCCACGGTCCAGGTCCAGAACCCCTCGACCGGCTTCAACCGCAGCATCACGGTCGGCAACGACGGCACCTACCGCTTCTCGGCACTGCCCACCGGCACCTACAACGTCACCTACCAGGGCACCGATGGCAGCTCCACGACCCGCGAGGGCGTGGATGTCAGCGTCGGCACCGGCACCCCGGTGAACTTCACCTCCAGCACTGCCTCGACGCTGGACACGATCACCGTGCGCGCCTCGGCCAGCGTCAACCCGATCGACGTGTCCTCGGTGGAATCCACCTCGATCCTCACCGCCGAGCAGATCGCCAAGATGCCGGTGCTGCGCGACACCACCTCGGTGGCGCTGCTGGCCCCGGGCACCGTGCGCGGCGACAACGCCTTCGGCAACCTGGCCTCGTTCGGCGGCTCGTCGGTGGCCGAGAACCAGTACTACGTCAACGGCTTCAACGTCACCAACACCTTCCGCAACCTGGATTTCGCCCAGGTCCCGTTCGAGGCCATCGCCCAGTCGCAGGTCAAGACCGGCGGCTACGGCGCCGAGTTCGGCCGCTCCACCGGTGGCGTGATCAACCAGATCACCAAGCGCGGCACCAACGAGTTCCATGCCGGCGGCAACGTGTTCTGGTCGCCGAAGGACCTGCAGGCCGAACAGGTCAGCTATTACCTCAACAATCCGCTGGACCCCGGCTCGTCCGGCGAGCTGTATCGCGACAACTCGGACAATTCCGATGACATGTGGACCACTGCGCTTTGGGCCGGCGGCGCACTGATCAAGGACAAGCTCTTCGCTTACGGCCTGGTGCAGTACGGACGCGAGAAAAACGTGGACGGCGCCACGGCCTACACGGAGGGCAACGGCACCCAGGCGACGGTCAAGCGGCCCAACTGGCTGGTCAAGGTCGACTGGGACATCAACGACAGCAACAAGCTGGAGTTCACCGGCTTCAATTCCGAGAGCGAAAGCGAGGAAACCTCGTACCGCTACGGCACCGGGGAGAAGATCGGCGTCAACCACACCAAGGACGGCGGCAAGTTCTACATCGGCAAGTACACCGGCTATGTGACCGATACCTTCACGGTCTCGGCGCTGTATGGGCATGGCGAGTTCACGCGCGAGCAGTACCTGCGCACCGCCGACGGCCAGCTGGTCGAATACGGCGGCGACCTCAACGTGCCAGCCTCGGGCTGCCCGCGCATTACCGACGCGCGACCGACCTACCGCCAGGAAATCACCGGCACCTACAGCTCCAGCTGCAACATCACCGACGGCTCGATCGACCGCCGTGACGCCAACGACCAGCGCGACCAGTACCGCATCGATGCCGAATGGTCGCTCGGCGACCACCTGATCCGCTTCGGCTACGACCGCGACGACTTCGAGTCTGTGGCCGGCCAGTCGATCGAGGGTGGCCGGCTGTGGCGCTATTCGACGGTCAATCCGGACGGGGTGGCCAACTCCGGCGACGAGGTCGACATCGTGCGCGAGCAGATCGTCAACCAGGGCTCGACGGTCAAGCTGAAGCAATGGGCGGTCTATGTCGAGGACAGCTGGCGCATCACGCCCAACTTCCTCGCCTACTTCGGCGCCCGCTGGGACACCTTCGAGAACCTCAACGGCGAAGGCCAGAGCTACGTCAAGATCGACAAGCAGTTCGGGCCGCGCCTGGGCTTCTCGTGGGACGTCAATGGCGACTCCACGCTGAAGATCTACGGCAACGCCGGCCGCTACGCCCTGCCGCTCACCCCGAGCGTGGCGGTGCGCGGCGCCAGCGCCTCGCTGTTCACCCGGCAGAACTTCAACTACACCGGCGTCGACCCGACCACCGGCGCGCCGCTCGGCACCACCCCGCGCGGCAACCTGACCTACATCAACGGCGAATTCGGCGAGCCGAAGAACCCGGCCACCATCGCCGCCACCAACCTCGATCCGATGTACCAGGACGAGTTCATCCTCGGCTTCCAGCAACAGCTGACCGAACACCAGAACATCGGCGCGCGCGGCATCTACCGCAAGCTGAAGGCGGCGATCGACGACAACTGCGACTACACGCCGATCTACAACCAGGCCGTGGCCGACGGCTACGACCCGGTGCTGCCGAACAGCGGCTTCCCGTATTGCCGCATGTTCAACCCGGGCGAGGATTCGGTATTCCTCACCGATATCGAGGGCAACGGCCAGCTGACCGAGTACACCGTCGACGCCGACCTGCTCTCGCCGAAGGCCAAGCGCAGCTACAAGGCCGTGGAGCTGTTCTGGGACGGCAGCTGGGACCGCCTGTTCCTGCAGGGCTCGTGGACGATGTCCTGGAACAAGGGCAACACCGAGGGCGGCGTGAAGTCCGATATCGGCCAGGCCGATACCAGCGTCACCCAGGACTTCGACTACAAGGAGCTGATGGTCGACGCCTACGGCTACCTGCCCAACGACCGCCGCCACAGCTTCAAGCTGTTCGGCGCCTACCAGATCACCGACGAGTGGTCGCTCGGCGCCAACCTGCTGGTGCAGTCGGGCCGTCCGAAGAACTGCCTGGGCGTGCTGTATCCGTACAACGGCGGTATCCACCCGTACGGGTCGTCGTTCTTCCGCTGCGGCACGACCGAGGCCGGTGGCGCCGATGGCCCGGCCGTGGCGGTTCCGCGCGGCACCGCCGGTCGCCTGCCATGGACCAACACGCTCGACCTGAACATCGCCTACTTCCCGCAGTGGGCGCCGGGCCTGCAGTTCAAGATGGACGTGTTCAACGTCTTCGACAACCAGAAGGTCACCGCGATCAGCGAAGTCGCCGAGGACGGCACCACCGGCGCCCCGCTGGCGACCTACGGCCGCTGGCGTTCGACCCAGGCACCGCGCAGCTTCCGCTTCATGGTGCAGTACGACTTCTGA	MAIPHQTRRALQRSALSLALGICFAPTLYAQSNTSGAIFGQAAAGSTVQVQNPSTGFNRSITVGNDGTYRFSALPTGTYNVTYQGTDGSSTTREGVDVSVGTGTPVNFTSSTASTLDTITVRASASVNPIDVSSVESTSILTAEQIAKMPVLRDTTSVALLAPGTVRGDNAFGNLASFGGSSVAENQYYVNGFNVTNTFRNLDFAQVPFEAIAQSQVKTGGYGAEFGRSTGGVINQITKRGTNEFHAGGNVFWSPKDLQAEQVSYYLNNPLDPGSSGELYRDNSDNSDDMWTTALWAGGALIKDKLFAYGLVQYGREKNVDGATAYTEGNGTQATVKRPNWLVKVDWDINDSNKLEFTGFNSESESEETSYRYGTGEKIGVNHTKDGGKFYIGKYTGYVTDTFTVSALYGHGEFTREQYLRTADGQLVEYGGDLNVPASGCPRITDARPTYRQEITGTYSSSCNITDGSIDRRDANDQRDQYRIDAEWSLGDHLIRFGYDRDDFESVAGQSIEGGRLWRYSTVNPDGVANSGDEVDIVREQIVNQGSTVKLKQWAVYVEDSWRITPNFLAYFGARWDTFENLNGEGQSYVKIDKQFGPRLGFSWDVNGDSTLKIYGNAGRYALPLTPSVAVRGASASLFTRQNFNYTGVDPTTGAPLGTTPRGNLTYINGEFGEPKNPATIAATNLDPMYQDEFILGFQQQLTEHQNIGARGIYRKLKAAIDDNCDYTPIYNQAVADGYDPVLPNSGFPYCRMFNPGEDSVFLTDIEGNGQLTEYTVDADLLSPKAKRSYKAVELFWDGSWDRLFLQGSWTMSWNKGNTEGGVKSDIGQADTSVTQDFDYKELMVDAYGYLPNDRRHSFKLFGAYQITDEWSLGANLLVQSGRPKNCLGVLYPYNGGIHPYGSSFFRCGTTEAGGADGPAVAVPRGTAGRLPWTNTLDLNIAYFPQWAPGLQFKMDVFNVFDNQKVTAISEVAEDGTTGAPLATYGRWRSTQAPRSFRFMVQYDF				NA	NA	NA	NA	NA
BMS020_03990	1575			hypothetical protein	ATGCCCGACCCGACGCGACAGCCGACGCCCGAACAGCTCTGGGCGCGCGGCCGCGACCACGAGGAGCGCGGCGACCTGGACGCTGCCGCCAACGACTACACCAGCATCCTGCGCGACGCCCCCGGGCACATCCCGGCGCTGCTGCGCCTGTCGCGGTTCGCGCAGGCCCGTAATGACTACACGCTGGCCCACCGGCATGCGCTGGCTGCGGCCGATGCGTGCCGCCTGTCCGGCGACACCCGGCTGCTGCCGTATGTGACGCTGCGCCTGCTCGATTTCGCCGAGGAAAGCGAGCTCGCCTCGGTGGTGCTTTCGAGCGACTGGGCCAAGCCGGACGTGCTGCGCCAGTCCCCCAGCCTGGTCCAGCACCTGTGGCTGGCCGGGCGCTACGACGACGCACTGCGCCTGCTCGATGCGGTGGAGCCGCGCCTGCCCGCGCATCCGCTGCTCGCCTTCAGTCGCGGCCAGATCCAGCAGTTCCTCGGCAGGCTGGACGACGCCGAGGCCGGTTACGAACGGGCGCTGCAGCTGGATCCGCACCTGGCCGATGCGCACTGGGCGTTGGCCAAGCTGCGCCCGCGCGGCGACGGCACGCGCCTGGAGCGGATCGGACGGACCCTGGCCCGTGCCGGCGTTCACCCGGGCACCCGTGCGCAGCTGCTGTACGCGCTGTTCCATGAACTCGACGCCGTCGACGCGCGCGCGCCGGCCTGGGCCGCGCTCGCCGAAGCTGCTGCGCTGATGGCGGCAGCGGCCGCCCCGGCGCCGCACGCTCCGGCGATCCGGCTGATGGCATCGGACTGGCAGCCGGCCCCGCACGCGCCGCCCGGCGGACTCGGCCAGCCCCGCCCCACCTTCATCCTCGGCCTGCCGCGCTCGGGCACGACCCTGCTCGACCGCATGCTCGGCAACCACGGCTGGGTCACCAGCGTCGGCGAACGCAACGACCTGCGCGCGGCGGTGAACGAAACCAGCGGTCGCTTCGATGGCGTGCCGCTGCTGGACGCCGCTGCGCTGGAGGCCTTCGATGCCGAACGCGTCGGCCTGCGCTATCGCCAGCGCCTGCGTCGCGCCGCGCCAGCCACCGCGTTGGCGATCGACAAGCACCCGCAGAACCTCTACGCGATCCCGACCATCCTGGCCGCGTTGCCGGACGCGCGCATCCTCTGTGTCACCCGCGCCCCGATGGACCTGGCGTTCTCCAACTTCAAGGAGCTGTTCCAGGGCGGCGCCTACGGCTACAGCTATGCGTTCGCGCCGCTGGCCGCAGAGGTGCTGCATGCGACGCGCTGGATGCAGCACTGGGCCGCGCGCGCACCGCACGCGGTCCGCGTCGTGTCCTATGAATCGCTGGTGGCGACGCCGGAGGCCAGCGTCCAGGCGCTGCTCGGCTTCCTCGACCTGCCACCGTGGCCCGAGTTGTCGCGCATTGAGCGCAATACCGCACCGGTGACCACCGCCAGCAGCGTGCAGGTGCGCCACCCGGTCAGCAGTGCCGCACTGGGCGCGTGGCAGCGCTACGCGGCCCCGCTGGCGCCGCTGCATGAACTGCTCGCCACCGAGCACGGCGCATGA	MPDPTRQPTPEQLWARGRDHEERGDLDAAANDYTSILRDAPGHIPALLRLSRFAQARNDYTLAHRHALAAADACRLSGDTRLLPYVTLRLLDFAEESELASVVLSSDWAKPDVLRQSPSLVQHLWLAGRYDDALRLLDAVEPRLPAHPLLAFSRGQIQQFLGRLDDAEAGYERALQLDPHLADAHWALAKLRPRGDGTRLERIGRTLARAGVHPGTRAQLLYALFHELDAVDARAPAWAALAEAAALMAAAAAPAPHAPAIRLMASDWQPAPHAPPGGLGQPRPTFILGLPRSGTTLLDRMLGNHGWVTSVGERNDLRAAVNETSGRFDGVPLLDAAALEAFDAERVGLRYRQRLRRAAPATALAIDKHPQNLYAIPTILAALPDARILCVTRAPMDLAFSNFKELFQGGAYGYSYAFAPLAAEVLHATRWMQHWAARAPHAVRVVSYESLVATPEASVQALLGFLDLPPWPELSRIERNTAPVTTASSVQVRHPVSSAALGAWQRYAAPLAPLHELLATEHGA				NA	NA	NA	NA	NA
BMS020_03991	1563			hypothetical protein	ATGAGCGCGGCCACCACGCCCCTGCCGGCGTTGCACGCCGCCGCCGAAGCGCATGCCGCACGCGGCGACTTCGACGCGGCCATCGCCGTCTACCAGCAGGCGTGGGACGCCGGCCAGCAGCATCCAGCGATCCTGCTGCAGCTGTCGTACCTGTACTCGCTGGCCGGTCGCTACCGCCTGGCCCACGCGCACGCCTGCCGCGCGCACGCCTCGCCAGCATTGCGCGCGGACCTGCTGCCGGAGCTGATCCCGCGCCTGCGCACCTTCAACGAGATTCCGGCATTGCTGGCGCTGGCCGAGCGCATGGGACCATTGGATCGCATTCCGATTCCGCTGCTGCTGACCCTGGCCTCGCACCTGACCTACGCCAACCTGCCGCAGCAGGCCATCGCCTATCTGGACGAGGCGCGCCGCGGCGACCCCGATTACCCGCCGACGTTGCTCGCCCGCGGCCAGGTGCTGATCTATCTGGGCCGTTTCGACGAGGCGGGCACCGACATCGCCCGCGCCCTCAAGCGCGCACCGGAGCTCGCGCAGGGCTACTGGCTGCAGGCGGCACTGCGGCGCCAGACGCCGCAGTCGCATCACATCGACGCGCTCCGCCGCGAGCTGGCCCGTCCCGGCCGGCGTCCGATCGACATCGCCCTGCTGCAGTTCGCGCTGCACAAGGAACTGGACGACCTGGGCGACCACGACGCGGCCTGGCAGGCGCTGGCCGCCGGCTGCGCGGCCAAGCGCGCCACCCTCGATTACGCCGCCGCGCGCGATGCGGCGATCTTCGACGCGCTGGAACGCTTCGCGCCATCCGCGGTCGCGCCTCCGGCCGAGCCCCCCGCGCCGCCATGCCCGATCTTCATCGTCGGCATGCACCGCTCCGGAACCAGCCTGCTGGAGCAGATGCTCGACGGCTCGCCCGAGGTCATGGGCATCGGCGAGCTGTACGACTTCACCAGCGCGATGCGCCATGCCACCGACCACCACTGCCGCGGCGTGATCGACCTGGAACTGGTGCGGCGCGCCGCGCACGCCGATCTCTCCGCGGCCGGCAGGCGCTATCTGCAAGGGACCCGCTGGCGCCTCGGCGACGAGCGCTGCTTCACCGACAAGCTGCCCTCCAACTTCCTCAACATCGGCTTCATCGCCCAGGCGCTGCCGCAGGCGAAGATCCTGCACATGGTCCGCGACCCGCGCGAAACCTGCTTCTCCAACCTGCGCGAGCTGTTCTCCGAGGCCAATCCGTACAGCTACGCGCTGGACGAACTCGGCGCCTTCCAGCGCGGCTACCGCCGCCTGATGCGCCACTGGCACGCGACGCTGCCCGGCCGCATCCTCGACGTCGACTACGCGCGCCTGGTACGCGAGCCGGAATCGACGCTGCGCGAGGTCGCGGCGTTCAGCGGCATCGACTACACGCCGGCGATGCCGGACATCGGCACGCGCCGGCGCGCGGTCGTGACCGCCAGCGCGGTCCAGGTGCGCGCCGCGCCGGCATCGCCGCAGCAACCGAAATGGACCGCGTACGCCCGCCAGCTCGCGCCGCTGTTCGCCCAACTGGACGGCTGA	MSAATTPLPALHAAAEAHAARGDFDAAIAVYQQAWDAGQQHPAILLQLSYLYSLAGRYRLAHAHACRAHASPALRADLLPELIPRLRTFNEIPALLALAERMGPLDRIPIPLLLTLASHLTYANLPQQAIAYLDEARRGDPDYPPTLLARGQVLIYLGRFDEAGTDIARALKRAPELAQGYWLQAALRRQTPQSHHIDALRRELARPGRRPIDIALLQFALHKELDDLGDHDAAWQALAAGCAAKRATLDYAAARDAAIFDALERFAPSAVAPPAEPPAPPCPIFIVGMHRSGTSLLEQMLDGSPEVMGIGELYDFTSAMRHATDHHCRGVIDLELVRRAAHADLSAAGRRYLQGTRWRLGDERCFTDKLPSNFLNIGFIAQALPQAKILHMVRDPRETCFSNLRELFSEANPYSYALDELGAFQRGYRRLMRHWHATLPGRILDVDYARLVREPESTLREVAAFSGIDYTPAMPDIGTRRRAVVTASAVQVRAAPASPQQPKWTAYARQLAPLFAQLDG				NA	NA	NA	NA	NA
BMS020_03992	666			hypothetical protein	ATGGTTCGCACGCACCTGTCGTCCGATGCCTACCGCATCGCGCCCGCCCGCATCCTCGCGCTCAGCACCGCCATCGCCCTGCACGTGCTGGCCGCCGCGCTGCTGTTGATCCCCGCCACCTATCGCGCACCACCCGTCCAACACGAACGCATGCAGGTGCGCTGGCAGTTGCCCGACGTGATTCCGCCACCCACCCCGCCACCGCCGGTCGACCCGGTCCCGGTGCAGCATGCGCCACCGCCGGTGCCGCCAGCCGCGACGGCGCCGGTCGAAGTCCCGGTGCCGCAACCACTGCCGCTACTGGCCAGTGACACCAGCGGCGAGCCGGCACCGCCGGCCATCGATGCCGCGCCGACGCTCGCCCCGTTCGATACGGTTGCGCCGCCAATGGCCGGCGTCCAGCTGCAGTACCTGAAGGCGCCGCCGCCGCCGTACCCACGCGAGGCGCTGCGCGACCGGCTCGAAGGCACGGTGCTGCTGCGCGTGCTGGTCGGCGTCGACGGGCGCCCGCTGGAGGTGACGGTGGAGCGCAGCAGCGGCCATCGCACGCTCGATGCGGCCGCGCGCAGCCAGGTGCTGCGGCAGTGGCGCTTCAAACCGGCCACGCAGGCTGGCCAGCCGTCGCAGGCCTACGGACTGGTGCCCGTGGCGTTCTCGCTGAACTAG	MVRTHLSSDAYRIAPARILALSTAIALHVLAAALLLIPATYRAPPVQHERMQVRWQLPDVIPPPTPPPPVDPVPVQHAPPPVPPAATAPVEVPVPQPLPLLASDTSGEPAPPAIDAAPTLAPFDTVAPPMAGVQLQYLKAPPPPYPREALRDRLEGTVLLRVLVGVDGRPLEVTVERSSGHRTLDAAARSQVLRQWRFKPATQAGQPSQAYGLVPVAFSLN	PGPT0003745_5835	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003745-tonB-K03832	NA	NA
BMS020_03993	471	rlmH_1	COG1576	Ribosomal RNA large subunit methyltransferase H	ATGAAAGCCCGTTTGATCGCCACCGGTGAACGTGCGCCCGCGTGGGTCGCGCAGGGGTTCGCCGAATACCAGAAACGCCTCTCGCACTGGCTGCCGCTTGAGCTGGTCGAGATCGAGCCCGGCCTGCGCGGCAAGGGCCGCGATCCGCAGCGCGCGATCGAGGACGAGGGCCGCCGGGTACTGGCGGCGTTGCCGAAGCATCCGCTGGTGGTGGCGCTCGACGTGCCGGGGCGGCAGCTCAGCTCCGAGCAGCTGGCGCAGCGCATGGAGCACTGGCGCGGGCAGGGCCGCGACCTGGCGTTCCTGATCGGCGGGCCGGAAGGCCACGCCGCCGACGTGCTGAAGGTCGCCGACGAACGCTGGTCGATCGGGCCGCTGACCCTGCCGCACATGCTGGTGCGGCTGGTGGTGGCCGAGCAGCTGTATCGCGCGGCGGCGATGCTGGCCAACCACCCCTACCACCGGGCGTGA	MKARLIATGERAPAWVAQGFAEYQKRLSHWLPLELVEIEPGLRGKGRDPQRAIEDEGRRVLAALPKHPLVVALDVPGRQLSSEQLAQRMEHWRGQGRDLAFLIGGPEGHAADVLKVADERWSIGPLTLPHMLVRLVVAEQLYRAAAMLANHPYHRA				NA	NA	NA	NA	NA
BMS020_03994	1056			hypothetical protein	GTGAGTGAGCATGCGGACCGCGGGCTGCGCGTGATGCGCGGCGACGCGGGCCTGCCGGCGGTGCCTCGCGCCGCCGAATCGGAGCGGCACCGGCAGTTGCGCGAGGCGCTGGACGCATTGCGCGCCGAACATCGCGCCTGGGACGTCGCCGTCGAACGCTGGCACCTGCGCTACACCGGCCAGCTGCAGCCGTTGCTGCAGCGACGGCTGCAGCTCGATGCGGCGCTGGTCGAGCTGCTCGACCACGCCGACCTGACGATGCGGCTGTCGCTGGGCGAGCGTGAGGTGTTGTCCGAACTGGTGTGCGTGCTGGCGTCCGGGCTGGTCGATGCCGGCCGCATGGCGTTCGCGGGTGTGCTGGAACGGCACCGCGCTCCGGCGGCCGTGGGCGAGGACGATGCCGTGGCCGTGGACGCGCCGACTGCCGGCGAGGACGATGCGACGATGCGGCGGGTGATCGCCGAGGCCTTCGGGCTCGACGAGGCCGACGTCGCCGCATTGGAGGATCCGGCGGCGCTGTATGCGCAGGCGCTGGCCCGCGCGCAGCCGCGTGGCCCACGCGCGCGCCGTCCGCGCGGGGCACCGGTCGACGCACAGGTTGCGCCGCCGCCTCTACGCGTGCTGTTCCGGCGCCTGGCCGCGCGGGTGCACCCGGACCGCGCCGACGATGCCGAGGATGCGCATCGCCGCACCGGCCTGATGCAGCAGCTCAATGCCGCCAATGCCGCCGGCGACCTGGCCGCGCTGCTGGAGCTGCAGGCGCAGCTCGATCTGGCCCCGGCCGCCGCGGACGAGGATCCGGCGCGGTTGCTGCAGGCGCTGGAACAGCAGTGCGAGCAGCTGCGCGCACAGGTGCGGGCGCGCGCCGAACGCCTGCGCAGCGAGTACGGTCTGGCCGCCGATGCCGAGCTGCGCGCGGACACATTGGACAAGCTGATGGCCGGGCTCAAGCGCGCTGTCGCCGCGGAAATCGCCTGGCTGGAACAGGACCTGCGCACGCTCGGCGACCCGCGCGAGCTCAAGCAGTGGCTGAAATGGCAGCGGCAGGCCGACTGA	MSEHADRGLRVMRGDAGLPAVPRAAESERHRQLREALDALRAEHRAWDVAVERWHLRYTGQLQPLLQRRLQLDAALVELLDHADLTMRLSLGEREVLSELVCVLASGLVDAGRMAFAGVLERHRAPAAVGEDDAVAVDAPTAGEDDATMRRVIAEAFGLDEADVAALEDPAALYAQALARAQPRGPRARRPRGAPVDAQVAPPPLRVLFRRLAARVHPDRADDAEDAHRRTGLMQQLNAANAAGDLAALLELQAQLDLAPAAADEDPARLLQALEQQCEQLRAQVRARAERLRSEYGLAADAELRADTLDKLMAGLKRAVAAEIAWLEQDLRTLGDPRELKQWLKWQRQAD				NA	NA	NA	NA	NA
BMS020_03995	408	rsfS_1		Ribosomal silencing factor RsfS	TTGTCCAGCCAAGCCCAAGTCATCAAGACCCGCATTCCCACCCCGCCGCCGGCACTGCCGGTGTTGCTCGCGACCGTGCGCGACGCGGTCGAGGAGCTCAAGGCCAAGGACGTGGTCGAGATCGACGTGCGCGGCAAGTCCAGCGTGGCCGATTACCTGGTGATCGCGTCCGGCACCTCGACGCGCCACGTCAAGGCGATCGCCGACGAGGTGGTGAAGTTCGCCAAGAAGCTCGACGTGATGCCGCTGGGCGTTGAAGGCGAGCGCGAGGCCGAGTGGGTGCTGGTCGACCTGGGCGACGTGATCGTCCACGTGATGCTGCCGCGCGTGCGCGAGTTCTACGCGCTGGAGCGGCTGTGGACGGTCGGCGACCAGCCGCCGCCGGCCGGGGACGCCGACGAGGCGTGA	MSSQAQVIKTRIPTPPPALPVLLATVRDAVEELKAKDVVEIDVRGKSSVADYLVIASGTSTRHVKAIADEVVKFAKKLDVMPLGVEGEREAEWVLVDLGDVIVHVMLPRVREFYALERLWTVGDQPPPAGDADEA				NA	NA	NA	NA	NA
BMS020_03996	660	nadD_1	COG1057	Nicotinate-nucleotide adenylyltransferase	ATGCTTGAACTGTTCTACGGCGGGACCTTCGATCCGGTGCACGCCGGGCACCTGGCGATCGCGCGCGCCGCGCGCGATGAGTGCGGCGTGCCGGTGCGCCTGGTGCCGGCCGCCGATCCCCCCCACCGCGCGCTGCCCGGCGCCGATGCGGCGCAGCGGGTGCGGATGCTGGAACTGGCCATCGCCGACGAGCCTGGCCTGCTGGTCGATCCCCGCGAGCTGCAGCGCGCCGCGCTGAACGGACGACCGTCCTACACGGTCGATACCTTGCTCGACCTGCGCGCCGAGTACGGCGCGAACACGCCGCTGGCCTGGGTGCTGGGTGCCGACAGCCTGGTTGGCTTGCCCGGCTGGCATCGCTGGGAGCAGCTGCTCGAATTGACGCACCTGGTGGTCGCCGACCGTCCTGGCACCGCGCTGGCCGAGCGGTTGCCCGCACCGGTGCGGGCGCGGCTGGAAGGGTGCTGGGTGGACCGCCCCGAGGCCCTGGCGACGCGTCCGGCCGGGCTGGCCTGGCGGCTCGGCCAGCCGCTGCGCGAGGAATCGGCCAGCGAAGTGCGGCGCCGGATCGCACAGGGGGCGGGCTGGGCGTCGCTGGTGCCGGCGGCGGTCGCCGGCTACATCCGCGCGCACGGCCTGTACGGCGCCGACGCTTCCTGA	MLELFYGGTFDPVHAGHLAIARAARDECGVPVRLVPAADPPHRALPGADAAQRVRMLELAIADEPGLLVDPRELQRAALNGRPSYTVDTLLDLRAEYGANTPLAWVLGADSLVGLPGWHRWEQLLELTHLVVADRPGTALAERLPAPVRARLEGCWVDRPEALATRPAGLAWRLGQPLREESASEVRRRIAQGAGWASLVPAAVAGYIRAHGLYGADAS	PGPT0013435_533	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013435-nadD-K00969	NA	NA
BMS020_03997	1035	holA_1	COG1466	DNA polymerase III subunit delta	ATGGAACTGCGCCCGGAACAGCTGGCCACCCAGCCGGCCTCGCAGCCGCTGCAGCCGGTCTACCTGATCGCCGGCCCGGAGACGCTGCGCGTGCTCGAAGCGGCGGATGCGATCCGCGTCCGCGCCCGTGCCGAAGGCATCGACGAGCGCGAGGTGTTCGACGCCGACGGTCGTGACTTCGACTGGAACCAGCTCGACTCCAGCTTCAACGCGCCGAGCCTGTTCAGCGCGCGGCGGCTGGTCGAGGTGCGCCTGCCCAGCGGCAAGCCGGGCAAGGACGGCGGCGAGGTGATCAGCCGGTTCTGCGCCAATCCGCCGCCGGACGTGGTGCTGCTGATCACCGCCAACGACTGGAGCAAGGCCCATCACGGCAAGTGGGCCGACGCGGTGGCGCGCATCGGCACGATCGCGGTGGCCTGGGCGATCAAGCCGCACGAACTTTCGGACTGGATCGAGCGGCGCCTGCGCAGCAAGGGTGTGCGCGCCGAGCCCGAGGCGGTGCAGCGGCTCAGCGAGCGTGTCGAGGGCAACCTGCTGGCCGCCGCGCAGGAGATCGACAAGCTGGCCCTGCTGGCCGAAGGCCACACGCTGGACGTGGCGGCGATGGATGCGCTGGTGGCCGACGCCGCGCGCTACGACGTGTTCCGTCTCGCCGAAGCGATGCTGTCCGGGCAGCCGGTGGCGGTGGCGCGGATGCTGGCCGGGCTGCGCGCCGAAGGCGAGGCCGCCGCGGCGCTGATGCCGATCGTCATCAAGGAGCTCGTGCGCACGGCCGCGCTGGCGCGGGTGCAGGCTGGCGGCGGCAATCTTGGCGCCGAGATGAAGGCGCAGGGCATCTGGGAATCGCGCCAGGCGCCGTTCAAACGCGCGCTGCAACGGCATGCCGAGCCGCGTCGCTGGGAACGCTTCGTCACCGAGGCCGGGCGCGTGGACCGCATCGCCAAGGGGCGCGGCGATGGCGATGTCTGGGTCGCGCTGGAGCGCCTGCTGGTCGCGGTGGCCGACGCGCGCGCCGTGCGCCTGCTGGTCGCCTGA	MELRPEQLATQPASQPLQPVYLIAGPETLRVLEAADAIRVRARAEGIDEREVFDADGRDFDWNQLDSSFNAPSLFSARRLVEVRLPSGKPGKDGGEVISRFCANPPPDVVLLITANDWSKAHHGKWADAVARIGTIAVAWAIKPHELSDWIERRLRSKGVRAEPEAVQRLSERVEGNLLAAAQEIDKLALLAEGHTLDVAAMDALVADAARYDVFRLAEAMLSGQPVAVARMLAGLRAEGEAAAALMPIVIKELVRTAALARVQAGGGNLGAEMKAQGIWESRQAPFKRALQRHAEPRRWERFVTEAGRVDRIAKGRGDGDVWVALERLLVAVADARAVRLLVA				NA	NA	NA	NA	NA
BMS020_03998	633	lptE_1		LPS-assembly lipoprotein LptE	ATGATCCGACCCCTCATCGCTCTCGTCCTGGTCGCCGGGCTGACCGCCTGCGGTTTCCATCTGCGCAGCAAGCTCGCGCTGCCGCCCGATACGCCTGCGGTGAAGGTGACCTCGGCGTCGTCCTACAGCGAACTGGTCAAGCTGCTCAAGCGCGGCCTGGCGGCTTCCGGCGCGGCGATCGCCGACGAGGAGGCCAAGACCGGCTTCGCCCAGTTGAACGTGCTGTCCGAGCGTTGGGGCGATCTGCCGATCGCGATCGACGCCGAGGGCCGTGCGCAGGAATACAGCCTGCGCTACGCGGCGATCTTCACCGTCATCGCGGCCGACGGCTCGGTGCTGGTGCCGCAGCAGGTGATCGAGATGTCGCGTGATTACGTGGCACCGGCGACGGATTCCACCGGTACCGCCACCGAGCGCGAGATCCTCGCCGACGAGCTGCGCAAGGACATGTCCGCTTCGATCCTGCGCCGGATCGACAGCGTGGTGCGTGCGCGCCTTGAAAAGGGTACGCCGCTGGAATCCGGCGACGCGCAGCCGGCCTCCGCAGTGCCCGCAGACGGCAGTGCGCCGGCCGAGGCGAGCAAGCCGGCCGGCACCACCGAGCCGGTTCTGCAGCCGGCCGGGCAGCCCTGA	MIRPLIALVLVAGLTACGFHLRSKLALPPDTPAVKVTSASSYSELVKLLKRGLAASGAAIADEEAKTGFAQLNVLSERWGDLPIAIDAEGRAQEYSLRYAAIFTVIAADGSVLVPQQVIEMSRDYVAPATDSTGTATEREILADELRKDMSASILRRIDSVVRARLEKGTPLESGDAQPASAVPADGSAPAEASKPAGTTEPVLQPAGQP	PGPT0023297_107	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023297-lptE|rlpB-K03643	NA	NA
BMS020_03999	2643	leuS_1		Leucine--tRNA ligase	ATGTCCACCGCCGAAACCCACGCCTACGACCCGCAGCTGGTCGAGTCCGCCGCCCAGTCCTACTGGGAGTCCTCCCGCGCCTTCGAAGTGAACGAGGAGTCGGACAAGCCCAAGTACTACTGCCTGTCGATGCTGCCGTATCCGTCCGGCGCGCTGCACATGGGCCATGTGCGCAACTACACCATCGGCGACGTCATCAGCCGCTACAAGCGCATGACCGGCCACAACGTGCTGCAGCCGATGGGCTGGGACGCGTTCGGCCTGCCGGCCGAGAACGCCGCGATCAAGAACAAGACCGCGCCGGCCAAGTGGACCTACAAGAACATCGACCACATGCGCAGCCAGCTGAAATCGCTGGGCTACGCGATCGACTGGTCGCGCGAGTTCGCCACCTGCCGCCCGGAGTACTACGTCCACGAGCAGCGCATGTTCACCCGGCTGATGCGCAAGGGCATCGCCTATCGCCGCAACGCGGTGGTGAACTGGGACCCGGTCGACCAGACCGTGCTGGCCAACGAGCAGGTCATCGACGGCCGCGGCTGGCGCTCCGGCGCGCTGGTGGAAAAGCGCGAGATCCCGCAGTGGTTCCTGCGCATCACCGATTACGCCCAGGAACTGCTGGACGGCCTGGACACGCTGGACGGCTGGCCGGAATCGGTCAAGACCATGCAGCGCAACTGGATCGGTCGCTCGGAAGGGCTGGAGATCCAGTTCGACGTGCGCGACACCGACGGCAGTGCGCTGGACCCGCTGCGCGTGTTCACCACGCGCCCGGACACGGTGATGGGCGTCAGCTTCGTCTCCATCGCCGGCGAGCATCCGCTGGCGCTGCACGCGGCCAAGCGCAACCCGCAGCTGGCCGAGATGCTCGCCGAGCTGAAGAAGGGCGGCGTGTCCGAGGCCGAGCTGGAAACGCAGGAAAAACGCGGCATGGACACCGGCCTGAAGGCGGTGCATCCGATCACCGGCGAGGAAGTGGCGATCTGGATCGCCAACTTCGTGCTGATGGGCTACGGCACCGGCGCGGTGATGGCGGTGCCGGGCCATGACCAGCGCGACAACGAATTCGCGAACAAGTACGGCCTGCCGATCGCGCAGGTGATTGCGCTGAAGGCGCCGAAGAACGAGGCTGAAGCGCACTACGATCCGGCCGTGTGGCAGGACTGGTACGGCGACAAGACCCGCGAGACCGAGCTGGTCAATTCCGGCGAATTCGACGGCCTGGACTTCCAGGGCGCGTTCGAGGCGCTGGCCGAGCGCTTCGAGCGCAAGGGCCAGGGCCAGCGCCGGGTCAACTACCGCCTGCGCGACTGGGGCGTGAGCCGCCAGCGCTATTGGGGCTGCCCGATCCCGGTGATCTACTGCGCCGGCTGCGGCGCGGTGCCGGTGCCGGACGAACAGCTGCCGGTGGTGCTGCCGGAGGACGTGGAGTTCAGCGGCACCGGCTCGCCGATCAAGACCGATCCGGAATGGCGCAAGACCACCTGCCCGCAGTGCGGCGCGGCGGCCGAGCGCGAGACCGACACCTTCGACACCTTCATGGAGTCGAGTTGGTACTACGCGCGCTACACCTCGCCGGGCGCCAAGGACATGGTCGACAAGCGCGGCAACTACTGGCTGCCGGTCAACCAGTACATCGGCGGCATCGAGCACGCGATCCTGCACCTGATGTACTTCCGCTTCTATCACAAGCTGATGCGCGACGCGCGGCTGGTGGACAGCGACGAGCCGGCCACCAACCTGCTGACCCAGGGCATGGTGATCGCCGAGACCTACTACCGCCAGAACGAAGACGGCTCCAAGGACTGGATCAACCCGGCCGACGTCGACGTGCAGCGCGACGACAAGGCGCGCGTGACCGGCGCGGTGCTGCGCGCAGACGGCCTGCCGGTGGAGATCGGCGGCACCGAGAAGATGTCCAAGTCGAAGAACAACGGCGTCGATCCGCAGTCGATGGTCGGCAAGTACGGCGCCGACACGGTGCGCCTGTTCTCGATGTTCGCCGCGCCGCCGGAGCAGTCGCTGGAGTGGAACGAAGCCGGTGTCGACGGCATGGCGCGCTTCATGCGCCGGCTGTGGACCCAGGTGCAGAAGCATGCCGACGAGGGCGCTGCGCCGGCGCTCGACGCCGCCGCGCTCGATGCCGGGCAGAAGACCCTGCGCCGCAAGACCCACGAGACCATCGGCAAGGTCGGTGACGACTACGGGCGCCGCCACAGCTTCAACACCGCCATTGCCGCGGTGATGGAGCTGTCCAATGCGCTGGCGAAGTTCGACGACGCCAGCGCGCAGGGTCGTGCGGTCCGCCAGGAGGCGCTGGAAGCGATGGTGCTGCTGCTCAATCCGATCACCCCGCATGCCAGCCACGCGCTGTGGCAGCTGCTGGGTCATGAGCAGACGCTGCTGGAGGATCAGGCATTCCCGGTGGTCGACCAGGCCGCGCTGGTGCGCGATGCGCTGACGCTGGCGGTGCAGGTCAACGGCAAGCTGCGCGGCACGATCGAGGTCGCCGCCGATGCGGCCAAGGACCAGGTCGAGGCGCTGGCGCTGGCCGAGCCGAACGCGGCCAAGTTCCTGGAAGGCCTGACGGTGCGCAAGATCATCATCGTGCCGGGCAAGATCGTGAACATCGTCGCGGCCTGA	MSTAETHAYDPQLVESAAQSYWESSRAFEVNEESDKPKYYCLSMLPYPSGALHMGHVRNYTIGDVISRYKRMTGHNVLQPMGWDAFGLPAENAAIKNKTAPAKWTYKNIDHMRSQLKSLGYAIDWSREFATCRPEYYVHEQRMFTRLMRKGIAYRRNAVVNWDPVDQTVLANEQVIDGRGWRSGALVEKREIPQWFLRITDYAQELLDGLDTLDGWPESVKTMQRNWIGRSEGLEIQFDVRDTDGSALDPLRVFTTRPDTVMGVSFVSIAGEHPLALHAAKRNPQLAEMLAELKKGGVSEAELETQEKRGMDTGLKAVHPITGEEVAIWIANFVLMGYGTGAVMAVPGHDQRDNEFANKYGLPIAQVIALKAPKNEAEAHYDPAVWQDWYGDKTRETELVNSGEFDGLDFQGAFEALAERFERKGQGQRRVNYRLRDWGVSRQRYWGCPIPVIYCAGCGAVPVPDEQLPVVLPEDVEFSGTGSPIKTDPEWRKTTCPQCGAAAERETDTFDTFMESSWYYARYTSPGAKDMVDKRGNYWLPVNQYIGGIEHAILHLMYFRFYHKLMRDARLVDSDEPATNLLTQGMVIAETYYRQNEDGSKDWINPADVDVQRDDKARVTGAVLRADGLPVEIGGTEKMSKSKNNGVDPQSMVGKYGADTVRLFSMFAAPPEQSLEWNEAGVDGMARFMRRLWTQVQKHADEGAAPALDAAALDAGQKTLRRKTHETIGKVGDDYGRRHSFNTAIAAVMELSNALAKFDDASAQGRAVRQEALEAMVLLLNPITPHASHALWQLLGHEQTLLEDQAFPVVDQAALVRDALTLAVQVNGKLRGTIEVAADAAKDQVEALALAEPNAAKFLEGLTVRKIIIVPGKIVNIVAA				NA	NA	NA	NA	NA
BMS020_04000	639			hypothetical protein	ATGCAACACAACGCCAACACTGCCGCCGACGCAGTCGCCGCCACGATCGCGCGCTGGGCCGGGCCGCTGGCGCTGGTCGCCTTCGTTGCCGCGGTGGCCGGGTTCGGCGCCGCGCTGCCGGAGTTCGGCCAGCTCCGCCATCCGGTCGCGCTGCTCGGCGCGGAAGGGATCCCGCATGCGGCGGCGTTCAACCTCTGCGGGTTCCTGCTGGCAGGCCTGCTGGCGGCGATGCAGGCCGGCGCGCTGCTGAAGCGGTTGCCGGCCGGGGCGGCCTGGTCGTGGCGGATCGGGGCCCAACTGCTACTGCTGGCGGCGCTGGCGTTCGCGGCGATGGGGGTGTTCCCGCTGGACCCGAACGACCTGGACGACCGCGCAAGCCAGTACCACGCCACCGCCTGGCTGCTGTGGACGGTGGCCTTCGTCGCCGGCGCGGTGCTGCTGGCGGCGGGCCTGCGGCGCTGGCCGGGCGGGCGCCCGCTGGCGCTGGCCAGCCTGGTCGCCGGGCTGCTGGTGGGCCTGCTGGGCCTGGGGCCGGCGCAGTGGCTGCACCCGGCGCTGGCCCAGCGCGGGGCCTTCCTGGCCTGGTTGCTGTGGGCGGCGCTGGCCGGCCGGGCCTGGCCGGTGGCTGGGACCCGCTGA	MQHNANTAADAVAATIARWAGPLALVAFVAAVAGFGAALPEFGQLRHPVALLGAEGIPHAAAFNLCGFLLAGLLAAMQAGALLKRLPAGAAWSWRIGAQLLLLAALAFAAMGVFPLDPNDLDDRASQYHATAWLLWTVAFVAGAVLLAAGLRRWPGGRPLALASLVAGLLVGLLGLGPAQWLHPALAQRGAFLAWLLWAALAGRAWPVAGTR				NA	NA	NA	NA	NA
BMS020_04001	861	cnoX_2	COG3118	Chaperedoxin	ATGTCCGACCTGCCGCACGTTTTCGACGCCACCACCGACACCTTCGAGACCGAGGTCCTGCAGAAGTCGCTGCAGGTGCCGGTGCTGGTGGATTTCTGGGCCACCTGGTGTGGCCCGTGCAAGACCCTCGGCCCGATCCTGGAGAAGCTCGCCGGCGAGTACCACGGCGCGTTCGAGCTGGCCAAGGTCGACGTCGACAAGGAACAGCAGATCGCCGCGGCGTTCCAGATCCGCTCGGTGCCGACCGTGTTCCTGGTCAAGGGCGGCCAGCTGGTCGACGGCTTCCCCGGCGCACTGCCGGAAGGCCAGCTGCGCGAATTCCTGGCCCAGCACGGCATCGTGCCGGCCGATGCACCGGTCGAGGCCGAGGCGCTGCCGGCCGCGCCGCTGGACCCGCAGGAAGAGGTCGCGCGGCTGCGCGAGGCGATTGCCGCCGAGCCGGACAAGGACGAGTTCAAGCTCGACCTGGCGCTGGCGCTGCTGAAGACCGGCGCCGGCGAAGAAGCCGAGCGCCTGATCGACGCCCTGCCCGCCAACCTGGCCACCGACGACCGCACCGTGCGTGCCAAGGCCCGCCTGGGCTTCGCCAACGTGCTCAAGGACGCCCCGGCCAGCGAGGCGTTGCAGGCGGCGATCGCTGCCGACGGCAGCGACCTGCGCGCGCGCCACCTGCTCGGCGTGCGCCTGCTGCTGGACGGCCAGGACGAGGCCGCGCTGGAGCAGTTCATCGAGATGCTGCGGATCGACCGGACCTTCGCCGAGGGCCTGCCGCGCAAGGCGCTGATCGACGCCTTCCGCGTGGTCGAGGACGACGACCTGGTCGGCCGCTTCCGCCGCCGGATGGCCTCGCTGCTGTTCTGA	MSDLPHVFDATTDTFETEVLQKSLQVPVLVDFWATWCGPCKTLGPILEKLAGEYHGAFELAKVDVDKEQQIAAAFQIRSVPTVFLVKGGQLVDGFPGALPEGQLREFLAQHGIVPADAPVEAEALPAAPLDPQEEVARLREAIAAEPDKDEFKLDLALALLKTGAGEEAERLIDALPANLATDDRTVRAKARLGFANVLKDAPASEALQAAIAADGSDLRARHLLGVRLLLDGQDEAALEQFIEMLRIDRTFAEGLPRKALIDAFRVVEDDDLVGRFRRRMASLLF				NA	NA	NA	NA	NA
BMS020_04002	453			hypothetical protein	ATGAAAGCCTCGACTTTCCGCCTGGGCATCAACCTGTGGCCGCCGTACCTGTTCTCCGGCGTCCACGTGACCCGGCTGGACGCCGACTACCGGCATGCCCGGGTCGAGCTGCGCATGCGCCCGTGGAACCGCAACTACGTCGGCACCCACTTCGGCGGCAGCCTGTTCTCGATGACGGACCCGTTCTGGATGCTGCTGGCGCTGCACAACCTGGGCCGCGAGTACTTCGTCTGGGACAAGGCCGGCAGCATCGAGTTCGTCAAACCCGGCCGCGGCACCGTCGCCACCGAGTTCACCTTGGAGCCGGCGGTGCTCGAGGAGATCCGCCAGGCCACCGCCGGCGGCGAGAAATACCTGCGCTGGTTCGAGAACGAGGTCACCGACGCCGGCGGCGAGGTGGTCGCGCGGGTACGCAAGCAGCTCTACGTCAAACGCAAGCCGGCACACCGCTGA	MKASTFRLGINLWPPYLFSGVHVTRLDADYRHARVELRMRPWNRNYVGTHFGGSLFSMTDPFWMLLALHNLGREYFVWDKAGSIEFVKPGRGTVATEFTLEPAVLEEIRQATAGGEKYLRWFENEVTDAGGEVVARVRKQLYVKRKPAHR				NA	NA	NA	NA	NA
BMS020_04003	1659			hypothetical protein	ATGGCGGCACACGGCAGGGGCGCAGGCGCGGGCTGGCGGCATGCGGGGTGGCGACTGGCGGCGATGGCGCTGCTGGGGCTCGCCATGGGCAACGTGGTGGCGACGCCGGCGGCGCCGGAGCCCACCGCGGCGGACGGACAGACCAGCCGCGAAGCCACCGCGACGTTCTTCAACCGGCCGGTCCTGACCTTCCGCAGCACCGTGCTCGAACGCACGCCGAGCGAGCGCGCCGAAGCGGCCCAGGCCAATATCCGCCGCATCGTCGACCAGCCCGGCCACGCCGAGGTCAGCTTCCAGCCGGTGCCCCAGGGCACCGTGGTGAGCCTGGCCGGGCAATGGGTGGCACTGCTCACCCCGGCCGACCTGGACACGCTGCACAACCAGACCATGGAGCAGCTGCAGCGGCAGGTCGCGCACGACCTTGGCGAAGCCGTGAACGCGGTCGAACGCGAAACCTCGCCGCGCCAGCTGCTGCACGGCGCACTGTGGTCGCTGCTGGCGCTGGCGCTGGGCCTGGCCGTACTGGTGTTGCTGGCGCGGCTGAACCGGCGCCTGGACGCGCTGTTCGAGCATTGGTTCGACGCGCATATCGCCAGCATGCGCAACGAACCGGCACGCCACATCGTCAACGCCGCGCGCACCGGCGGGCGTTGGGTGCTGCGGGTGGCGAGCTGGGTGTTCGGACTGCTGGTCACCGAGGAGGTGCTGCGCTTCGTGCTCGGCCGCTTCAGCTTCAGCCGGCCATGGGCGCTGGCGATGACCGAATGGATCGCCGCCACCGCCGCCGCGTGGCTGCGCGGCTTCTTCCACGCGATCCCCGGCGTGCTTGCGGCGGTGCTGATCCTGCTGATGGCACGGGTGGTCACCCGCACCCTGAGTCTGACCTTCCGCGGCATCCAGAGCGGGCGGTTCTCGCTGTTCGGAATCGACGCGCAGCTGGCCGAACCCACCCGCAAGCTCACCGTCGCCGCGATCTGGCTGTTCGCGGTGGCGATGGCCTATCCCTACCTGCCAGGCGCGCAGACCGATGCGTTCAAGGGGTTGAGCGTGCTGGTCGGCCTGATGGTGTCATTGGGCGCGTCGAGCATCGTCGGCCAGGCCGCCGGCGGCTTCACCCTGCTCTACTCGCGCACGATGACCGTCGGCGACCTGGTGCGGATCGGCGACTACGAAGGCACGGTCGTGCAGATCGGGCTGTTCACCACGCGCCTGCGCACGCTCACCGGGGTCGAGGTCAGCGTGCCCAACAACGTCGCCCTGGGCGGGCAGATGGAGAACTTCTCGCGCAACCCGGAGGGGCGCGGGCTGTGGTTGAAGATCGGCATCACCATCGGCTACGACACGCCGTGGCGGCAGGTGCAGCGCTTGTTGCTGGAAGGCGCGCAGGCCACCGCCGACGTGCAGGACACGCCGGCGCCCTACGTGCTGCAGACCGCGCTGTCGGACTACTACGTCGCCTACGAGCTGCGCGCGCGCATCGCCGACCCGGCGCGGCGCGAACGCGCCAAGGCCGAGCTGATCAGCCACGTGCTGGATGCGTTCAACAACGCCGGCGTGCAGATCATGTCGCCGAACTACGTGGCCGACCCCGAACAGGCCAAGCTGGTGCCGATGGACCAGTGGGACCCGGCACCGCCGGAGCGCGGCGACCCGCCCTGA	MAAHGRGAGAGWRHAGWRLAAMALLGLAMGNVVATPAAPEPTAADGQTSREATATFFNRPVLTFRSTVLERTPSERAEAAQANIRRIVDQPGHAEVSFQPVPQGTVVSLAGQWVALLTPADLDTLHNQTMEQLQRQVAHDLGEAVNAVERETSPRQLLHGALWSLLALALGLAVLVLLARLNRRLDALFEHWFDAHIASMRNEPARHIVNAARTGGRWVLRVASWVFGLLVTEEVLRFVLGRFSFSRPWALAMTEWIAATAAAWLRGFFHAIPGVLAAVLILLMARVVTRTLSLTFRGIQSGRFSLFGIDAQLAEPTRKLTVAAIWLFAVAMAYPYLPGAQTDAFKGLSVLVGLMVSLGASSIVGQAAGGFTLLYSRTMTVGDLVRIGDYEGTVVQIGLFTTRLRTLTGVEVSVPNNVALGGQMENFSRNPEGRGLWLKIGITIGYDTPWRQVQRLLLEGAQATADVQDTPAPYVLQTALSDYYVAYELRARIADPARRERAKAELISHVLDAFNNAGVQIMSPNYVADPEQAKLVPMDQWDPAPPERGDPP				NA	NA	NA	NA	NA
BMS020_04004	909			hypothetical protein	ATGACCCGACATCCGCTCGTCCTCGCCTGCGCCTGCCTGCTCGCCATCGCCACCGCATCCGCTGCCGCGGCGCCCTACCGCAGTCCGCAGGCGATCCTCGACGCATCGCCGGATTCGGCCTGGCGCACGCTCGACCCGGCCCGCACGCTGTACCTGGAGCTGGACAGCGGCCGGGTGATCATCGAACTGGCGCCCGCGTTCGCGCCGCAGCACGTGGCCAACATCGGCACGCTGGCGCACGAGCACTTCTGGGATGGCACCAGCATCTATCGCGCACAGGACAATTTCGTCGTGCAGTTCGGCGATGTCGACGGCGAGGACCCGGCCAAGGCCAAGTCGCTCGGCAGCGCCCGCACCCACCTGCCGGCGGAATTCCATCGCGACGCACAGGGCCTGGCGTTCGACGCGCTACCCGACCGCGACGGCTGGGCAGCGCAGGTCGGCTTCGTCGACGGATTCCCCGCCGCGCGCGACCCGAAGACCGGCCGGGCCTGGCTGGCGCACTGCTACGGCACCCTCGGCGCCGGTCGCAACAACGCCGACGACAGCAGCATCGGCGCCGAACTGTACGTGGTGATCGGGCAGTCGCCACGCCAGCTTGACGACAACATCACCGTGGTCGGCCGCGTGGTCCAGGGCATGGAGCTGCTGAGCACGATCCGGCGCGGACCGCCGCCGATGGGCTTCTACGCCGATCCGGCCCAGCGCACGCCGATCCGCGCGATCCGCCTGGCCAGCGAAGTACCCGCGGCCGAACGCACGCCGCTGCAGGTACTGCGTACCGACAGCGCCACCTTCCGCGACGCCACCGAAGCCCGCCGCAACCGCGTCGACGACTTCTACAAGCGCCCCGCCGGCCACATCGACCTGTGCAACGTGCCGCTGCCGGTGCGCCCGGCCAAGGACTGA	MTRHPLVLACACLLAIATASAAAAPYRSPQAILDASPDSAWRTLDPARTLYLELDSGRVIIELAPAFAPQHVANIGTLAHEHFWDGTSIYRAQDNFVVQFGDVDGEDPAKAKSLGSARTHLPAEFHRDAQGLAFDALPDRDGWAAQVGFVDGFPAARDPKTGRAWLAHCYGTLGAGRNNADDSSIGAELYVVIGQSPRQLDDNITVVGRVVQGMELLSTIRRGPPPMGFYADPAQRTPIRAIRLASEVPAAERTPLQVLRTDSATFRDATEARRNRVDDFYKRPAGHIDLCNVPLPVRPAKD				NA	NA	NA	NA	NA
BMS020_04005	993			hypothetical protein	GTGGTCCTCTCCCAGGGGTGTTCCGACCATGCAAAGCTGCGTGTGCAGTGCCTGTTCCCGTTGTTCCAGCCGCATTGCCGCCGCGGTGGCGGCATGAGCGGCACCTCGCAGCAGGGCGCGCTGCTCGACGCCACGCCGGCCAGCCGCGATTGGCGCACGCCGGTCGAGCTGTGCGTGCTTGGCATCGTCTGGGGCTGCTCGTTCCTGTTCATGCGCATCGCCGCGCCGCGCTTCGGCCCGCTGGCGCTGGTCGAGGTGCGCCTGGCGCTGGGCGCGCTGGTGCTGCTGCCGTTCCTGTGGCTGGGGCGCCGGCATTTCCCGCTGCGGCGCTGGCCGACCATCGCCGGCATCGCGTTGATCAATTCGGCCTTGCCGTTCCTGCTGTTCGCCTGGGGCGCCGAGCACGCGCCGGCGGCGATCGGTGCGATCTGCAACGCGATGACGGTGCTGTTCACCGCGCTGGTGGCGATGCTGTTCTTCGGCGAGACGATCGGCCGGCGCCGCGGCGTGGCGCTGGTGATCGGCTTCATCGGCGTGCTGGTGCTGGCCACCGGCAAGGCCGGCGGACTCAGCGTGGGGCCGTCGGCGCTGGCCGGCGCCAGCGCCTCGCTGCTGTACGGCATCGGCTACAACCTGGTGAAGCGGCACATGGCCGACCTGCCGCCGGCCGCCGCCGCCGCCGCGACCCTGAGCAGCGGCGCGCTGCTGCTGGCGCCGATGGCCTGGCTGCACTGGCCGAGCGCGCCGGTGCCCGGCAGCGCCTGGGCCGCCGCGGCCGCGCTGGGCATGGTCTGCACCGGCCTGGCCTACCTGATGTACTACCGGCTGATCCAGCGCATCGGCCCGTCGCGCGCCTCGACCGTGACCTACCTGATCCCGGTGTTCGGCACGCTGCTGGCCTGGCTGTTCCTCGGCGAGCCGCTGACCTGGACGATGCTGCTGGCCGGGGTGCTGATCCTCGGCAGCGTGGCCTTCAGCCAGCGCGCGCGCTGA	MVLSQGCSDHAKLRVQCLFPLFQPHCRRGGGMSGTSQQGALLDATPASRDWRTPVELCVLGIVWGCSFLFMRIAAPRFGPLALVEVRLALGALVLLPFLWLGRRHFPLRRWPTIAGIALINSALPFLLFAWGAEHAPAAIGAICNAMTVLFTALVAMLFFGETIGRRRGVALVIGFIGVLVLATGKAGGLSVGPSALAGASASLLYGIGYNLVKRHMADLPPAAAAAATLSSGALLLAPMAWLHWPSAPVPGSAWAAAAALGMVCTGLAYLMYYRLIQRIGPSRASTVTYLIPVFGTLLAWLFLGEPLTWTMLLAGVLILGSVAFSQRAR				NA	NA	NA	NA	NA
BMS020_04006	939	gcvA_5		Glycine cleavage system transcriptional activator	ATGAAGCTGCGCCCCACCCTGCTGCCCGCGCTCGGCGTGTTCGCCGCCGCCGCGCGCCACCAGAACTTCGCCCACGCCGCCGAGGAGCTGCACCTGACCGCCAGCGCGGTCAGCCACCACGTGCGCAAGCTCGAAGCGCTGCTTGGCGCCACGCTGTTCCAGCGCCACGCGCGCGGGGTCAAGCTCACCGCCGAAGGGCGCCAGCTCGCCGATGCCGCCAGCGCCGCGCTCAACGACATCGCCGCGGTCGCCGGCAACCTGCACCCGCGCCCGGATGCGGCGCCGCTGCGCATCACCACGCTGCGCTCGCTGTCGTACTGCTGGCTGCTGCCGCGGCTGCCGCGCTTCTGCCGCGCGCACCCGCACATCCGCTTCGAGATCCAGACCGACAGTGCGTTCTCGCGCTTCGAGGACGGCGGCCCGGACCTGGGCGTGCGCTACGGCGAAGGCCACTGGCCCGGGCTGACCGCGCACCACCTGATGGACGAGGAGCTGTTCCCGGTCGCCTCGCCGGCACTGCCGGAACTGGCCACGCTGCGCGAGCCGCGCCAGATCGCCGGGCTGACCCTGCTGACCGACCTGTCGCCACAGGGCTGGCGCGACTGGTTCCGCGCCGCCGGCGTGCGCGGCACCGAGCTGCCGCCGATGCATACCTTCAACGACAGCACCGACGTGATGCGCGCGGCGGTCTACGGCGTCGGCGCGGCGCTGGCGCGCAGCCACATCGCCCAGCCCTACCTGCAACGCTACGAGCTGGTGCGCCTGCCCGGGCCGGCGCTGCGGGCGCGTTACGCGTACCACATCGTGTATCCGGCCGATCGCCCGCCGAGCCCGGCCGCGGCGCTGTTCATCGACTGGCTCAAGCGCGAGGCCCTGGATGCACGCACCCCGGTGCCGGCGCTGCCGGCGGACCTGCTGGGGTTGCCCGCGGCCGGTTGA	MKLRPTLLPALGVFAAAARHQNFAHAAEELHLTASAVSHHVRKLEALLGATLFQRHARGVKLTAEGRQLADAASAALNDIAAVAGNLHPRPDAAPLRITTLRSLSYCWLLPRLPRFCRAHPHIRFEIQTDSAFSRFEDGGPDLGVRYGEGHWPGLTAHHLMDEELFPVASPALPELATLREPRQIAGLTLLTDLSPQGWRDWFRAAGVRGTELPPMHTFNDSTDVMRAAVYGVGAALARSHIAQPYLQRYELVRLPGPALRARYAYHIVYPADRPPSPAAALFIDWLKREALDARTPVPALPADLLGLPAAG	PGPT0026360_1599	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS020_04007	294			hypothetical protein	ATGCCGACATTGCGCCTGCGGATCACCGGCAGCGAAGACGACGCCCGCGCCATCAGCAACCTGCTGCAGAGCCTGGACGGGATCGAGCATGTCGAGGAGATCGACGACCTGATGCCGCATCTGGACGACGAGGATTCCAGCTCGGCCGGACTGCCCGACGACGAAGCCCCCGGCACCCACGAACTGGAAGTGGAGGCCGGCAATGAATTCACCGCGCGGCGGGTCCGCCACGCGGTGCAGGAACTGGCGCGCGAACTCGACCTGTTCGTCGAGTTCGAGGAAGACGAGGGCTGA	MPTLRLRITGSEDDARAISNLLQSLDGIEHVEEIDDLMPHLDDEDSSSAGLPDDEAPGTHELEVEAGNEFTARRVRHAVQELARELDLFVEFEEDEG				NA	NA	NA	NA	NA
BMS020_04008	816			hypothetical protein	GTGAGGCCGGCGTGGCACGGCTGGAGCCTGCTGCTGCTGGCGCTGGCCGGCTGCAGCGCCGGTGAACGCAGCCAGATGGCCGCCGCCGATGCCGAGCGCTTCGCCGCCGCACCGGCCGCGGAGCCGGCATTGGCCGCGCCGGCGGGGACCTTCCTGGCCTACGAGACGGACGTACAGGTGCGCGTCCCCGGCGCGGCGATCGCCCCGCGCATCGATGCGGTCCAGCAGGCCTGCCAGCAGGCGCGCTTCGGCGATTGCGCGGTGCTTGCGGTCGAACAGCAGGGCGGGGCCTACGCCAGCGGCAGCATCACCCTGCGGGTCGCGCCGGCCGGGGTCGAGCCGCTGCTGAAGCTGGCCGGCGAGGGGGGCGAGATCGCCGCGCGCAGCACCAGCGCCGAGGACCTGGCCCAGCAGGTGGCCGACACCCGCATGACCCAGGAGCGGCTGCAGAAGGAGCATGCGCGCCTGCTTCAGTTCCAGCAGCGTGGCGACCTGAAGGTGGCCGACTTGCTGGCGATCTCGCAACGCCTGGCCGAGATCGAGGCGGCCGCCGAGGCGGCGCAGCGCGATGCCGCGCAGCAGCGCCGGCGCATCGACACGCAGAAGCTCACCGTGCGCTACAGCGCGACCGGGGTGGAGCAGAGCAGCAGTGCGATCGGCCAGGCGTTGGCCGAGAGCGGCGGCATCTTCGCCACCAGCGTCGCGGTGATGATCCGCGTGCTGGCCGGCCTGCTGCCGGCGGCGCTGCTGTTGGCCGCGTTCGTGGCGGTGCTGCGGGCCTGGTGGCGGCGCCGTCGGCGGCGCGCGGCGGGTTGA	MRPAWHGWSLLLLALAGCSAGERSQMAAADAERFAAAPAAEPALAAPAGTFLAYETDVQVRVPGAAIAPRIDAVQQACQQARFGDCAVLAVEQQGGAYASGSITLRVAPAGVEPLLKLAGEGGEIAARSTSAEDLAQQVADTRMTQERLQKEHARLLQFQQRGDLKVADLLAISQRLAEIEAAAEAAQRDAAQQRRRIDTQKLTVRYSATGVEQSSSAIGQALAESGGIFATSVAVMIRVLAGLLPAALLLAAFVAVLRAWWRRRRRRAAG				NA	NA	NA	NA	NA
BMS020_04009	357			hypothetical protein	ATGCATTACGCAGGAAGCTGTCATTGTGGGCGCATCGCGTTCGATCTGGAGACCGACGGGCCCATCGCCCAGGTGCACGATTGCAACTGCTCGCTATGCCGCCGCCGCGGCGGGCTGCTGTGGTTCGGCCCGCGCGAGGCGCTGGTGTTGCGCAGTGCGCCGGAGGCGCTGGGAACCTACCAGTTCAACAAGCACCATATCGACCACCATCACTGCGCCACCTGCGGGATCGCACCGTTCAGCGAAGCGGCGCATCCGGTCAGCGGCACGCCGATGGTCGCGGTCAACGTGCGCTGCCTGCCCGAGCTCGAGCTGGGCGGGCTTGAGATCGTCGCGTTCGACGGAGCCAGCCTGTGA	MHYAGSCHCGRIAFDLETDGPIAQVHDCNCSLCRRRGGLLWFGPREALVLRSAPEALGTYQFNKHHIDHHHCATCGIAPFSEAAHPVSGTPMVAVNVRCLPELELGGLEIVAFDGASL				NA	NA	NA	NA	NA
BMS020_04010	1812			hypothetical protein	ATGCGCAAGCACCTGCTCGCCGTCGCCCTGGTCGCCGCCCTCGCCGGCTGCCAGAACACCGATACGCCGCCCGCCGTGTCGACGCCGCCAGCATCCGCCGCCAAGGCGGCCGACAGCGCGCAGGATGCCCGCTTCGCCGAGCTGTCCAAGCACGCGCTGGACACCTGGATGCAGCTGTCGCCGGTCAACGCCACCCAGATCGGCGAGCACCGCTACGACGGCCAGATCGACGATCTCAGCGCCGCCGGCCGGCAGAAGAGTCTGGAGGCGAGCAAGGCGCTGCTGGCCGACCTGGACGGCATCGATACCGCCAAGCTCTCACGCGAGAACCAGGTCGACGCGGCGATCCTGCGCAACCAGCTGCAGTCGGACATCTGGAACACCGAGGTGCTGCAGAGCTGGGCCTGGGACCCGCAGGTCTACAACGGCCTGGCCGGCAGCGCGATCTACGGGCTGATGGCGCGCGAATTCGCCCCGCTGCCGGCGCGGATCAAGTCCGCGACCGAGCGCATGGAGAAGATCCCGCAGGTGTTCGCCGAGGCGCGCGCCAACCTCGATCCGGCGCGCGTGCCGAAGATCCACGCCGAGACCGTGGCGAAGCAGAACCGCGGCATCCTCAGCATCGTCGATACCTTCATCACCCCGCACCTGGCCGAACTGGCGCCGGCCGACGCCGCGCGCACCCAGGCGGCGATCGACACGCTGAAGAAGGCGGTCGCCGAGCAGCAGGACTGGCTGGACAAGACCCTGGTGCCGAACGCCAAGGGCGACTTCCGCATCGGCGCGGAGAAGTACGACCAGAAGCTGAAGTTCGCGCTGCTGTCGTCGCTGTCGCGCGCCGACATCAAGCAGCGCGCCGAATCCGAGCTGACCCGCGTGCGCGCGCAGATGTACGGCATCGCCCGCACCGTGCTGAAGGGCAAGCCTGGCGCGCCGGCGCTGCCGGAAACGCCGAACCAGGCGCAGCAGCAGAAGGCGATCGAGGCGGCGCTGGAGCTGGCCTATGCCGAGCACCCGGCGCGCGACAAGGTCGTCGACGACGCCAAGGCCGCGCTGACCTCGGCCACCGACTTCGTGCGCGCGCACGACCTGGTGACGCTGCCGGATGCGCCGGTCGACGTGATCCTGATGCCGGAATTCCAGCGCGGCGTGGCGGTGGCCTACTGCGACTCGCCCGGCCCGCTGGACAAGAACCTGGCGACGTTCTTCGCCATCTCGCCGATCCCGGACGACTGGAGCGCGCAGCAGAGCGAATCGTTCCTGCGCGAGTACAACACCCGGATGATCCACCTGCTGTCGATCCACGAGGGCATCCCCGGCCACTATCTGGAAGGCTGGCATTCGGCCAAGTTTCCCTCGACGCTGCGCGCGGTGCTGCGTTCGGGCATGTTTGCCGAAGGCTGGGCGGTCTACACCGAGCGGATGATGCAGGAGCAGGGCTACATGGACAGCGATCCGCTGTTCCAGCTGGTGCAGCTGAAGTTCTACCTGCGCACGATCGCCAACGCGATCCTCGACCAGGGCGTGCAGGTCGACGGCTGGAGCCGCGAGCAGGCGATGCACCTGATGACCCACGACGCGTTCCAGCAGGAGAGCGAGGCCTCGGGCAAGTGGGTGCGCGCACAGCTGTCCTCGGCGCAGCTGCCGACCTACTTCGTCGGCGTGCAGGAGCACCTGGACCTGCGCAAGGCGGTGCAGGCGCAGCAGGGCGACAAGTTCAACCTGAAGGCCTACCACGACCAGGTGCTGTCCTACGGCGCGCCGCCGGTGCGCTTCGTGCGCGAGCTGATGCTTGACCAGCCGATCCAGTAA	MRKHLLAVALVAALAGCQNTDTPPAVSTPPASAAKAADSAQDARFAELSKHALDTWMQLSPVNATQIGEHRYDGQIDDLSAAGRQKSLEASKALLADLDGIDTAKLSRENQVDAAILRNQLQSDIWNTEVLQSWAWDPQVYNGLAGSAIYGLMAREFAPLPARIKSATERMEKIPQVFAEARANLDPARVPKIHAETVAKQNRGILSIVDTFITPHLAELAPADAARTQAAIDTLKKAVAEQQDWLDKTLVPNAKGDFRIGAEKYDQKLKFALLSSLSRADIKQRAESELTRVRAQMYGIARTVLKGKPGAPALPETPNQAQQQKAIEAALELAYAEHPARDKVVDDAKAALTSATDFVRAHDLVTLPDAPVDVILMPEFQRGVAVAYCDSPGPLDKNLATFFAISPIPDDWSAQQSESFLREYNTRMIHLLSIHEGIPGHYLEGWHSAKFPSTLRAVLRSGMFAEGWAVYTERMMQEQGYMDSDPLFQLVQLKFYLRTIANAILDQGVQVDGWSREQAMHLMTHDAFQQESEASGKWVRAQLSSAQLPTYFVGVQEHLDLRKAVQAQQGDKFNLKAYHDQVLSYGAPPVRFVRELMLDQPIQ				NA	NA	NA	NA	NA
BMS020_04011	297			hypothetical protein	ATGAAAGCCCCCCTGATCGCGCTGACCCTGCTGGTGGCCTCGGCCATCGCCGCGCCGGCCTTCGCCGACGACCAGACCCCGCCGCCCCCGCCGCCCGGCCACTGCCCGCCGCCGCCACCGAAGGACGGCAAGCAACCGCCACCGCCGCCGGCCGACGGCAAGGCGCCGCCGCAGGGCAAGGACCAGAAGGCACCGCCCCCGCCGAAGGATGGCAAGGGCCCGCCGCCGTGCCCGCCGCCACCGAACGGCCACGACGCCCCGCCGCCGGCCGATGGCAGCAGCCAAAGCTCCAAGTAG	MKAPLIALTLLVASAIAAPAFADDQTPPPPPPGHCPPPPPKDGKQPPPPPADGKAPPQGKDQKAPPPPKDGKGPPPCPPPPNGHDAPPPADGSSQSSK				NA	NA	NA	NA	NA
BMS020_04012	1836	btuD_9		Vitamin B12 import ATP-binding protein BtuD	ATGTTCCGCTGGTTCGAAGCGTTGGTCGAGGTGTTCCCGCCGGTGGAGACGCGCATGCCGCCGGACCGGGTGTGGCGGTTCTACCTGCATTACCTGCGGCCGCTGTGGCCGCTGCTGCTGGCCACGCTGCTGGCCGGGTTGTTGCTGGCGCTGGTGGAAGTGGCGATGTTCGATTTCCTCGGCCGCATCGTCGACATGGTCGCCGAGCGCCCCGGGCCGGACTTCTTTCGCCGCCACGCCGGCGAGCTGCTGTGGATGGCGGCGATCACCCTGGTCGCGCGGCCGCTGCTGACCGGCCTGCACAACCTGCTGGTCAACCAGGCGATCGTGCCCGGGCTGAGCAACCGCAGCCGCTGGCTGATGCACAACTACGTGGTGCGGCAGAGCCTGGCGTTCTTCCAGAACGATTTCGCCGGGCGCATCGCCAACCGGGTGATGCAGACCGGCTCGTCGCTGCGCGAGTCGGCGGTGCAGATGGTGGATGCGCTCTGGTACATCGTGGTCTACACCGGCAGCGCGCTGTACCTGTTCGCCCAGGCCGATCCGTGGCTGACCGCACCGCTGCTGGTTTGGCTGGTGGTCTATGTCGGGCTGATGGCGTACTTCGTGCCGCGCATGAAACAGCGCGCCTGGATCGCCTCGGACGCGCGTTCCAAGGCGATGGGGCGCATCGTCGACGGCTACACCAATGCCGCCACGCTCAAGTTGTTCGCCCACGCCGGGCGCGAGCAGGGGTACGTGCGCGAGGCGATCGAGGAGCTGGCGGTCAAGCACCGCGCGCAGACCCGCATGACCACCGCGATGGACACCGCGATCGCCGTCGCCAACGGCTTCCTGATCGCCGCCACCTGCGCGCTGGCGCTGTGGCTGTGGAGCCGCGGCCAGGTCAGCGTCGGCGCGATCACGCTGGCGACCGGGCTGGTGATCCGCATCCACAACATGTCCGGCTGGATCATGTGGACGGTGAACGGCATCTTCGAGCAGATCGGCACGGTGCAGGACGGCATGCAGACCATCGCGCGCCCGGCGCTGGTGCAGGACCCGCCGCATGCGCGCACGCTGCAGGTGGTGCGCGGCGAGGTGCGCTTCGAGGACATCCATTTCCACTACGGCAAGCGCGGCGGGGTGATCGCCGGGCTGGACCTGGTGGTGCGCCCGGGCGAGAAGATCGGCCTGGTCGGGCCGTCCGGTGCCGGCAAGTCGACCCTGGTCAACGTGCTGTTGCGGCTGTACGACCTGGAGCGCGGGCGCATCCTGATCGATGCGCAGGACATCGCCGGGGTCACCCAGCACAGCCTGCGCGGGCAGGTCGGCGTGGTGACCCAGGACACCTCGCTGCTGCACCGCTCGATCCGCGACAACCTGTTGTACGGGCGCCCGGATGCGAGCGAAGCGCAGCTGCACGAGGCGGTGCGCAAGGCGCGCGCGGACGGCTTCATCGACAGCCTGGTCGATGGCGAGGGCCGGCGCGGCTATGCGGCCCATGTGGGCGAGCGTGGGGTGAAGCTGTCCGGCGGGCAGCGCCAGCGCATCGCGATCGCGCGGGTGCTGCTGAAGGACGCGCCGATCCTGGTGCTGGACGAGGCGACCTCGGCGCTGGATTCGGAAGTGGAGGCGGCGATCCAGGACAGCCTGGATGCGCTGATGGGCGGCAAGACGGTGATCGCGATCGCGCACCGGCTGTCGACGATCGCGCGCATGGACAGGTTGGTGGTGATGGACGGCGGCGCGATCGTCGAGACCGGAACCCACGCCGAACTGATCGCCCGCGGCGGCCTGTACGCGCGGTTGTGGGCGCGGCAGACCGGCGGCTTCGTCGCCGCCGAGGCGGGCTGA	MFRWFEALVEVFPPVETRMPPDRVWRFYLHYLRPLWPLLLATLLAGLLLALVEVAMFDFLGRIVDMVAERPGPDFFRRHAGELLWMAAITLVARPLLTGLHNLLVNQAIVPGLSNRSRWLMHNYVVRQSLAFFQNDFAGRIANRVMQTGSSLRESAVQMVDALWYIVVYTGSALYLFAQADPWLTAPLLVWLVVYVGLMAYFVPRMKQRAWIASDARSKAMGRIVDGYTNAATLKLFAHAGREQGYVREAIEELAVKHRAQTRMTTAMDTAIAVANGFLIAATCALALWLWSRGQVSVGAITLATGLVIRIHNMSGWIMWTVNGIFEQIGTVQDGMQTIARPALVQDPPHARTLQVVRGEVRFEDIHFHYGKRGGVIAGLDLVVRPGEKIGLVGPSGAGKSTLVNVLLRLYDLERGRILIDAQDIAGVTQHSLRGQVGVVTQDTSLLHRSIRDNLLYGRPDASEAQLHEAVRKARADGFIDSLVDGEGRRGYAAHVGERGVKLSGGQRQRIAIARVLLKDAPILVLDEATSALDSEVEAAIQDSLDALMGGKTVIAIAHRLSTIARMDRLVVMDGGAIVETGTHAELIARGGLYARLWARQTGGFVAAEAG	PGPT0029145_1034	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029145-vcaM-K18893	NA	NA
BMS020_04013	282			hypothetical protein	TTGGTCCTGATGATCGGTCGCTACAGCTTGACCTTCGGCGCTGTCGACAGTGCCGCGACCACCGATGGCTGGTCGGGTTTCTGGAAGATCCACTACACCAATGCCAGTACCGGCGCGCCACTGCTGGCGCATCGCCTGGTCCAGGCGCATCCGTCCCAGCGCGAGGCGATCTCGCAGGCGCGCGCCTCCGGCATCGCCGCGCTCGATGCGCTGATCGCCGGCCAACCGAAGCCGGCCCCGATCGAGGCCGACTGCGAAGCGCTGCTGCCGCGCGCCTGCTGA	MVLMIGRYSLTFGAVDSAATTDGWSGFWKIHYTNASTGAPLLAHRLVQAHPSQREAISQARASGIAALDALIAGQPKPAPIEADCEALLPRAC				NA	NA	NA	NA	NA
BMS020_04014	1581	dap_1		D-aminopeptidase	TTGGACAAGTGGTGGCTGGGGAGTGCGATGTTGTTGACGACGATGGTGGCCGGGGCCGCCGAACTGCCCGAGGGGCTGCATGATTTCGATGCGCAGGTCGAGCGCGTGCGCACGCAGTTCGACGTGCCCGGCATCGCGGTGGCGATCGTCAAGGACGGCCAGGTGGTGCTGGAGCGCGGCTACGGCGTGCGCGAGCAGGGCAAGCCGGGCGCGGTGACGGCGACCACGCCGTTCGCGATCGCCTCCAACACCAAGGCGTTCACCGCCGCGTCGCTGTCGATCCTGGCCGACGAGGGCAAGCTCAAGCTCGATGACCGGGTGATCGATCACCTGCCGTGGTTCCGCATGTCCGACCCGTACGTGACCGGCGAGATGCGCATCCGCGACCTGCTGGCGCACCGCAGCGGCCTGACCCTGGGCGCCGGCGACCTGCTGTACTGGCCAACCACCGGCTACAGCACCCGCGAGGTGGTGGAACGGCTGGCCAGGGTGCCGCTGAAGGGCGGCTTCCGCGACCGCTACGCCTACGACAACATCCTCTACGCGGTGGCGCAGGAGGTGATCGAGCAGGTCTCGGGCATGTCCTACGCGCAGTTCCTGCAGACCCGCATCTTCGCGCCGGTCGGCATGGACGGCACCCGCTTCAATTCCGACCACCTGCAGCCGGGCGACGCGCCGGCGATCGGCCACGCCAAGTTCGATTTCAAGGACCTGCGCCCGGTCGCCGAGCCGACCACCTGGCGCAACAACTCCGGTGCCGGCGGCATCTATTCCAGCGTCCACGACATGGCCAAGTGGATGCAGGTGCAGCTGGCCGGCGGCAAGCTGGCCGATGGCGAAACCTTGTTCAGCGAGGCGCGCCAGCGCGAGATGTGGTCGGTGATCACCCCGATCCCGATCGCCAAGCCGGCGGTGCCGGAACTGGCCGGTGCGGTGCCGGGGTTCGCCGGCTACGGCGAGGGCTGGAGCCTGAGCGACTACCGCGGGCACAAGCTGGTCTGGCACACCGGTGGCTGGCCGGGCATGGTGTCGCGGCTGACCCTGCTGCCGGAGCAGAAGCTGGGCGTGATCGTGCTGACCAACCAGGAAGTCGGTGCGGCGTTCAACGCGATCACCCTGCGCGTGCTCGATGCCTACCTGGGCACCGGCGGCACCGACTGGACCGCGGCCTACGCCAAGGCGGTGGCCAAGGCCGAGTCCGGCGCCGACGAGAGCTGGAGCAAGCACCAGGCCGCACGCGCTGCCGCGTCCAAGCCCTCGCTCGCGCTGCCGGCGTACGCGGCGACCTACCGCGACCCGTGGTACGGCGAGGTGGTGGTGAGCCAGCAGCGCGGCCGGCTGCGGCTGGCGTTCGCCAAGACCGCGCAGCTGCAGGGCACGCTGGAGCATTGGCAGCACGACACCTTCATCGTGCGCTGGGACGACCGCTCGCTCAACGCCGATGCCTTCGTCAGCTTCGCGCTGGACGCCGACGGCAAGGTGCGCGAGGTACGGATGGAGCCGGTGTCGCCGCTGACCGATTTCAGTTTCGACTTCCAGGACCTGGTGCTGACCCCGGTGGCCGTGGCCGACAAGCGCTGA	MDKWWLGSAMLLTTMVAGAAELPEGLHDFDAQVERVRTQFDVPGIAVAIVKDGQVVLERGYGVREQGKPGAVTATTPFAIASNTKAFTAASLSILADEGKLKLDDRVIDHLPWFRMSDPYVTGEMRIRDLLAHRSGLTLGAGDLLYWPTTGYSTREVVERLARVPLKGGFRDRYAYDNILYAVAQEVIEQVSGMSYAQFLQTRIFAPVGMDGTRFNSDHLQPGDAPAIGHAKFDFKDLRPVAEPTTWRNNSGAGGIYSSVHDMAKWMQVQLAGGKLADGETLFSEARQREMWSVITPIPIAKPAVPELAGAVPGFAGYGEGWSLSDYRGHKLVWHTGGWPGMVSRLTLLPEQKLGVIVLTNQEVGAAFNAITLRVLDAYLGTGGTDWTAAYAKAVAKAESGADESWSKHQAARAAASKPSLALPAYAATYRDPWYGEVVVSQQRGRLRLAFAKTAQLQGTLEHWQHDTFIVRWDDRSLNADAFVSFALDADGKVREVRMEPVSPLTDFSFDFQDLVLTPVAVADKR				NA	NA	NA	NA	NA
BMS020_04015	495		COG0684	Putative 4-hydroxy-4-methyl-2-oxoglutarate aldolase	ATGCCCTGGACCACGCCCGACCTGTCGGATCGGTTTCCCGAGGTTGCCGTCGCCGAGCCGCTGTTCCGCCGCTTCGGCGGGCGGGCGGCGTTTTCCGGCATGATCGCCACGGTGCGCTGCCCGGAGGACAACTCGCGCGTGCGCGAGCTGGCCGCCATGCCGGGCCAGGGCAGGGTGATGGTGGTGGACGGGCAGGGCTCGCTGCGGCACGCGCTTCTGGGCGACCAGATCGCCGCCAACGCGGTGCGCAATGGCTGGGCCGGGCTGCTGATCCATGGCTGCGTGCGCGACGTGGAGATCCTGGCGACGCTGCCGCTGGGTGTGCTGGCGTTGGCGGCATGCCCGCGCAAGACCGAGAAACGCGGCCTGGGCGAGGTCGACGTGCCGGTGAATTTCGCCGGCGTGGCGTTCCTGCCCGGGTCCTGGTTGTATGCCGACGACAACGGCGTGCTGGTGTCGCCGGTGCCCCTGTCGCCGGAAACGGCGGCGCTTTGA	MPWTTPDLSDRFPEVAVAEPLFRRFGGRAAFSGMIATVRCPEDNSRVRELAAMPGQGRVMVVDGQGSLRHALLGDQIAANAVRNGWAGLLIHGCVRDVEILATLPLGVLALAACPRKTEKRGLGEVDVPVNFAGVAFLPGSWLYADDNGVLVSPVPLSPETAAL				NA	NA	NA	NA	NA
BMS020_04016	786			hypothetical protein	ATGCACATCGGGATCGGCGGCTGGGTCTATGCGCCCTGGCGCGGTCCGTTCTACCCGGAAGGCCTGGTCCAGCGGCGCGAGCTGGAGTACGCCAGCCGCCGGGTCAGCAGCATCGAGATCAACGGGACCTACTACGGCACCCAGAAGCCGGCGACCTACGCCAAATGGCGCGACGAGACCCCGGACGGCTTCGTGTTCTCGGCCAAGGCGCCCAAGCGCATCACCCAGGCCCGGCGGCTGGCCGGCACCGGCGCGCAGATCGCCGATTTCGTCGGCGGCATCGCCGAACTCGGCGCCAAGCTCGGTCCACTGGTCTGGCAGTTCGCGCATGGCCGCAGCCTGCAGCCGGACGATGTCGCCGAGTTCATCGCGCTGCTGCCGGAGCAGGTCGGCGGGCGCCGGCTGCGCCATGCGCTGGAAATCCGCGATCCGGAGGTGGTCGGACCGGCGCTGCTGGCGCAGGTGCGCGCGCGCGGCATCGCCACCGTGTTCACCGACAGCAGCCAGTACCCCTCCTTCGCCGACCTGAGCGGCGATTTCGTCTACGCCCGACTGATGCAGACCCGCGCCGACCAGGTCAACGGCTATCCGCCCGCCGAGCTGGCAACCTGGGCCGGGCACCTGCAGGCCTGGCGCCGTGGCGAGGACATCGCCGCGCTGCCGCACGCCACCTCCACGCAGCCGGCCGGCGCGCCGCGCGAGGTCTTCGCCTACTTCATCAGCGGCGCCAAGGAGCACAACCCGGCCGCGGCGATGGCCCTGATCGACCTGCTCGGCCGCCGTTGA	MHIGIGGWVYAPWRGPFYPEGLVQRRELEYASRRVSSIEINGTYYGTQKPATYAKWRDETPDGFVFSAKAPKRITQARRLAGTGAQIADFVGGIAELGAKLGPLVWQFAHGRSLQPDDVAEFIALLPEQVGGRRLRHALEIRDPEVVGPALLAQVRARGIATVFTDSSQYPSFADLSGDFVYARLMQTRADQVNGYPPAELATWAGHLQAWRRGEDIAALPHATSTQPAGAPREVFAYFISGAKEHNPAAAMALIDLLGRR				NA	NA	NA	NA	NA
BMS020_04017	948			hypothetical protein	ATGTCGACCTCCCCGCTGCGTACCGCGCAATTCCAGATCCATGCCTGCGTGCTGCTATGGGGCGTCACCGCGATCCTGGGCAAGCTGATCACCCTGCCGGCGCTGCCGCTGGTGTGGTGGCGGATGCTGCTGGTGGTGGCGGCGCTGGCGCTGCTGCCGCGGGTCTGGCGCGGGCTGCGCCAGCTGCCGCCGCGGGTGGCGCTGGGCTACGCCGGCATCGGCGTGCTGGTGGCGCTGCACTGGCTGACCTTCTACGGCGCGATCAAGCTGGCCAACGCGTCGGTGGCAGCCACCTGCATCGCGCTGGCGCCGGTGTTCACCGCGGTGATCGAACCCTGGGTGGCGCAGCGCCCGTTCCGCCCGCGCGAACTGCTGTTCGGGCTGGCGGTGCTGCCGGGTGTGGCGATGGTGGTCGGCGGCGTGCCCGACGGCATGCGTGCCGGGGTGCTGGTCGGCGCGGTCTCGGCGCTGTTCGTCGCCCTGTTCGGCTCGCTCAACAAGCGCATGGTCGCGCATGCCGATCCGCTGACCGTCACCGCGCTGGAACTCGGCGCTGGCACCGTGGTGCTGACCCTGCTGGCGCCGTTGATGCCCTTGCTGCTGCCGGCCTTCGCCGGCGACCTGCTGGTGCTGCCGGGCCTGCGCGACGGCGTGCTGCTGCTCGCCCTGGCGCTGGCCTGCACGCTGCTGCCGTTCGCCCTGGCGCTGGTCGCGCTGCGCCACCTCAGCGCCTATTCGGTGCAGCTGGTGACCAACCTTGAACCGGTCTACGCGATCGTGCTGGCGGCGCTGCTGCTGGGCGAACAGAAGGAGCTGACCGGGCTGTTCTACCTCGGCGTGGCGATCATCCTCGCCGCGGTGTTCCTGCACCCGCTGCTGGAACGGCCGCGCCGGATCACCCATCCCGAGGTCCTCGGCACCGCCGAGGCCAAGCAACTGGTCGATTGA	MSTSPLRTAQFQIHACVLLWGVTAILGKLITLPALPLVWWRMLLVVAALALLPRVWRGLRQLPPRVALGYAGIGVLVALHWLTFYGAIKLANASVAATCIALAPVFTAVIEPWVAQRPFRPRELLFGLAVLPGVAMVVGGVPDGMRAGVLVGAVSALFVALFGSLNKRMVAHADPLTVTALELGAGTVVLTLLAPLMPLLLPAFAGDLLVLPGLRDGVLLLALALACTLLPFALALVALRHLSAYSVQLVTNLEPVYAIVLAALLLGEQKELTGLFYLGVAIILAAVFLHPLLERPRRITHPEVLGTAEAKQLVD				NA	NA	NA	NA	NA
BMS020_04018	1074			hypothetical protein	TTGATCAAGCCGGACATTCCTGTCGACGAAGCCGAGCGCATGGCCACGCTGCGTGCGCTGGAACTGCTCGACAGCCCGCCGGAAAAAGCCTTCGACGACCTGACCCTGGTGGCCTCGGCGGTCTGCGGTACGCAGATGGCCGCGGTGGTGCTGGTCGACGAACACCGGCAATGGTTCAAGGCCGCGCACGGCGTGGCGCGCGAAAGCGGCGAGGCGCCGCGCGACATCTCCTTCTGCGCGCACGCGATCCTGCGCCCCGAGGAGATCCTGCTGGTCGAGGATACGCTGCTGGACCTGCGCTTCCACGACAACCCGATGGTCACCGCGCACCCGCCGGTGCGGTTCTATGCCGGTGCGCCACTGGTGGCCCCGGACGGCGCCGCGCTGGGGTCGCTGTGCGTGTTCGACGCGCTGCCGTCGCAGTTGAACGCCACCCAGCGGGCGGCGCTGCAGGCGCTGTCGCGGCAGGCCGCGTACCTGCTGGAGCTGCGCAATTTCACCCGTGCACTGGGGCGCCAGCTGCGCGAGCGCGATGGCCACGCCGAGCAGCTCGGCGCCTATTACGCCGGGCTGGAAAGCCAGAACGCCGACCTGGCCGAACAGACCCGCACCGACCCTCTGACCGGGCTGCCAAATCGCCGCGCGTTCACCGTGGCGCTGGCCGCGGCGCAGGCACAGGCCGAGGACGGGCGGCGCCCGTTGTCGGTGGCGATGCTGGACGTGGACCACTTCAAGGCGATCAACGATTACCAGGGCCATGACGTGGGCGACCAGGTGCTGGTCGCGCTTGCCGCGTTGCTGCGCGCGCATGCGGCCGGGCGCGGGACGGTCGCCCGTTTCGGCGGCGAGGAATTCGTGCTGTTGCTACCGGATTGCCGGCTGGAGGAGGCGCGGTTGCAGTGCGAATACCTGCGCGAATCGATCGCCTTGTTGCCGATCAACCTGCCCGTGACCGTCAGCATCGGCGTGGCCGAGCTGGCGCGCGGGGAAAGCGCCGAGCGGGGCCTCAAGCGTGCCGACCAGGCGCTGTACGAGGCCAAGCGCGGCGGGCGCGACCGGGTGGTGGTGGGCTGA	MIKPDIPVDEAERMATLRALELLDSPPEKAFDDLTLVASAVCGTQMAAVVLVDEHRQWFKAAHGVARESGEAPRDISFCAHAILRPEEILLVEDTLLDLRFHDNPMVTAHPPVRFYAGAPLVAPDGAALGSLCVFDALPSQLNATQRAALQALSRQAAYLLELRNFTRALGRQLRERDGHAEQLGAYYAGLESQNADLAEQTRTDPLTGLPNRRAFTVALAAAQAQAEDGRRPLSVAMLDVDHFKAINDYQGHDVGDQVLVALAALLRAHAAGRGTVARFGGEEFVLLLPDCRLEEARLQCEYLRESIALLPINLPVTVSIGVAELARGESAERGLKRADQALYEAKRGGRDRVVVG				NA	NA	NA	NA	NA
BMS020_04019	744	rluF_1	COG1187	Dual-specificity RNA pseudouridine synthase RluF	ATGGCGCATAATCCGCGCCCGATGACCATCCGCCTCAACAAATTCATTGCCGAGACCGGGTTCTGCTCGCGTCGCGAAGCCGACCGCCTGCTGTCCGAGCGCCGTGTCACCGTCAACGGCATCGTCGCCGGCACCGGCGCGGTGGTCGGCGAGGACGACACCGTGCTGGTCGACGGCCAGCCGCTGCGCACCCGCGAGGCGAAGAAGCCCGGCGCGCGCCGCCACGTCTACATCGCGCTGAACAAGCCGGTGGGCGTGACCTGCACCACCGAGGCCGCGGTCAAGGACAACATCGTCGACTTCGTCGGCCACGAGCAGCGCATCTTCCCGATCGGCCGGCTGGACAAGGATTCCGAAGGGCTGATCCTGATGACCAGCAACGGCGACATCGTCAACGAGATCCTGCGCGCCGAGAACCGCCATCAGAAGGAATACCTGGTCGCGGTCAACAAGCCGGTCACCGACGAGTTCCTGCGCGGCATGGCGCGCGGCGTGCGTATCCACAACGAGACCACGCTGCCGTGCCGGACCGCGAAGATCGCCAAGTTCGGCTTCCGGATCACCCTGGAGCAGGGGTTGAACCGGCAGATCCGGCTGATGGCCGCCGCGTTCGGCTACCGGGTCACCCAGCTGCGGCGGGTGCGCATCGACAACATCAAGCTCGGCACGCTCAAGCCCGGGCAGTGGCGCAACCTGAGCGACGCCGAACTGCGCGCGCTGCTGCCGCAGCGCAGCGACTTCTAG	MAHNPRPMTIRLNKFIAETGFCSRREADRLLSERRVTVNGIVAGTGAVVGEDDTVLVDGQPLRTREAKKPGARRHVYIALNKPVGVTCTTEAAVKDNIVDFVGHEQRIFPIGRLDKDSEGLILMTSNGDIVNEILRAENRHQKEYLVAVNKPVTDEFLRGMARGVRIHNETTLPCRTAKIAKFGFRITLEQGLNRQIRLMAAAFGYRVTQLRRVRIDNIKLGTLKPGQWRNLSDAELRALLPQRSDF				NA	NA	NA	NA	NA
BMS020_04020	2403			hypothetical protein	ATGCGGGATCGGCGGCAACCGCAACCAGGCAACGACGGCGGCGCGAAAGTCACCCTGGGGTGGCTGGTGCGGCGCTTTGCCGTGTTGATGACGGTCGCGCTAGGGGGCGCGCTGCTGGCCCTGCTGGGGTTGGAGCTGCAGGCCGGGTCGGCCGCCTACATCGTTGGCGAGAGCCACTGGTCCAAGGCCCAGCAGACCGCGGTCTACCACCTGTCGCGCTACGCCTATGCCGGTGACCCGGCCGACCTGCGCGCCGCGCACGAGGCGCTGGCGGTGCCGTTGGGCGACCGCGCCGCGCGGCTGGCGCTGGAGCGCCGGCCGGTCGATCTGGACGCGGCCCGGCGCGGCTTCCTGCAGGGAGGCAACGATCCGCGCGACATCGACCGGCTGATCCGCCTGTACCGGTATGGCGCCGGGTTGCCCTACCTGCGCGATTCGGTGCGCTACTGGCGTGAGGCCGATGTCGGCATCCTGCAGTTGCAGGCGTTCACCGACCAGCTGCTGGATTGCCACCTGCGCGCCGATTGCCAGGTGCCGCAGGCGCTGCCGGACATCCAGCCGCGGCTGCAGGCGCTGGACACGATGCTGCGCGCGCGCGAAGTGGCGTTCTCGCGCTCGCTGGTTGAGGGCGCGCGCGCGGTGCGCATCGCCGCGCTGGTGCTGAGCCTGGTCGGCCTGATGCTGCTGACCGGCTATGCGGCGATGATGGCGCGGCGCATCCGCGACCACATGGTGACGCACGAAAGCCAGTTCCGCGCCGCGTTCCACCAGGCCGCGGTGGGCATGGCCAAGTTCGACCTGGATGGGCGCCTGGTGGAGGCCAACGAGGCGCTCGCGCGCATCCTCGGCTGGCCGCTGCCGGAACTGCGGCGGCGCACGCTGGCCGACCTGCTGGATCCGGACGAGCTGGGCGAGGGCGGGGGCATCGACTGGACGCGGCACCTGCGCCCAGGCGAGCGCCGCTTCCGCCGCGTCGACGGGCGGCGCATCTGGTGCAGCTGGAGCGCGGCACGGATCGCCGGCGGCACCAGCCGTCCAACGCGGGTGCTGGCGGTCATCGATGACGTGTCGCAGGCGCACCAGCATGCCGACGAGGTCGCCCACCAGGCCGCCCACGATGCCCTGACCGGGCTGGTCAACCGGCGCGAGATCGAGCATCGGCTGAGCGTCGCGCTGGCGCGGCTGCAGGAGGGCGAGGGGCCGCATTGCCTGTGCTTCGTCGACCTGGACCACTTCAAGCAGATCAACGACACCTACGGACATCCGGTCGGCGACCGCTTCCTATGCCATTTCGCCGACGTGGTCTCCGCCCAGCTGCGCGCCGGCGACTGGCTTGGGCGCCTGGGCGGGGATGAGTTCGCGATCTTCCTGGGGCAGGCGACGTTGGCGCAGGCACCGGTCGTGCTCGAGCGCATCGGCGCCGCGCTGGCGCAGCCCTGGAGTCCCGGCGAGGGGCTGCCGCCGCTGGTGCCCAGTGGCAGCTTCGGCGTGGTCGAGCTGCAGCCCGGCATGGACCTGCAGGCGCTGACCCGGGCCGCCGACCTGGCCTGCTATGCAGCCAAGGAAGGCGGCCGCAACCGGGTGCGCTACTTCGATGCGGTCGACATCGCCCAGGCCTGCCAGCGCGCCGACCGCGGCTGGGCGCCGCAGGTGGCGCAGGCGATGGAGGAGGGGCGGATGCTGCTGTACGCGCAGCGGATCGAGGTCGAGGACGACCCGGCGCAGCTGCGCTACGAGGTGCTGGTACGCCTGCGCGACCGCGATGGGCAATTGCACGCGCCCTCGGAGTTCCTGCCGTCGGTGGAACGCAACGGCATGGGCGCGGCGCTGGACCGGCACGTGCTGGGCCGGCTTGCCGAGCTGCTCGACGCGCTGCCGGCGCATCGCGCGCGGCTGGCGCGCTGCCACGTCAACATCGCCCAGCAGACGCTGGTGCAGGCGGACATGCTGGTGTTCCTGGACGGCCTGTTCGCCCGCTATCCATGGCTGCCGGGGCGGTTGTGCCTGGAGATCACCGAGGCGGCGGCGATCGCCGAGCCCGAACATGCGCGGCGCTTCACCGAGGCGGTGCGCGCGCGCGGCTGCGGTGTCGCGCTCGACGGCTTCGGCTGCCATCGCGCCGCGTTCGGCTGCCTGCGCTACCTCACCGTCGACGCGCTGAAGATCGACGCGGCACTGGTCCGCGGGCTGGCCGAGGACCCGGTCGACCGCGCCGCGGTCCGCTCCATCGCCCGCTTCGGCGAGACGCTGGGCATCGCGGTGGTGGCCGGCTATGTCGAGGACGGCGGCGAGACGCTGGCGGCGCTGCGGGCGCTCGGCGTGCGCCGCCTGCAGGGGCATGCGCTGCACCGTCCCTGCCCGCTGGAGGAGCTGGTGGACGAGGTCGAGGTGGCCGCGGCCTGA	MRDRRQPQPGNDGGAKVTLGWLVRRFAVLMTVALGGALLALLGLELQAGSAAYIVGESHWSKAQQTAVYHLSRYAYAGDPADLRAAHEALAVPLGDRAARLALERRPVDLDAARRGFLQGGNDPRDIDRLIRLYRYGAGLPYLRDSVRYWREADVGILQLQAFTDQLLDCHLRADCQVPQALPDIQPRLQALDTMLRAREVAFSRSLVEGARAVRIAALVLSLVGLMLLTGYAAMMARRIRDHMVTHESQFRAAFHQAAVGMAKFDLDGRLVEANEALARILGWPLPELRRRTLADLLDPDELGEGGGIDWTRHLRPGERRFRRVDGRRIWCSWSAARIAGGTSRPTRVLAVIDDVSQAHQHADEVAHQAAHDALTGLVNRREIEHRLSVALARLQEGEGPHCLCFVDLDHFKQINDTYGHPVGDRFLCHFADVVSAQLRAGDWLGRLGGDEFAIFLGQATLAQAPVVLERIGAALAQPWSPGEGLPPLVPSGSFGVVELQPGMDLQALTRAADLACYAAKEGGRNRVRYFDAVDIAQACQRADRGWAPQVAQAMEEGRMLLYAQRIEVEDDPAQLRYEVLVRLRDRDGQLHAPSEFLPSVERNGMGAALDRHVLGRLAELLDALPAHRARLARCHVNIAQQTLVQADMLVFLDGLFARYPWLPGRLCLEITEAAAIAEPEHARRFTEAVRARGCGVALDGFGCHRAAFGCLRYLTVDALKIDAALVRGLAEDPVDRAAVRSIARFGETLGIAVVAGYVEDGGETLAALRALGVRRLQGHALHRPCPLEELVDEVEVAAA				NA	NA	NA	NA	NA
BMS020_04022	525	cnrH		RNA polymerase sigma factor CnrH	ATGACCACCCAGACCGCCCCGCCCGCCGCCGAGCGCGCCTGCGACCGCAGCGCCGAGGCCTTCCTCGCGCTGCTGCAACGCCATCGCGGCATCGTGCTGAAGATCGCCGCCAGCTATACCCGCCTGGCCGAGGACCGCGCCGAGCTGGCGCAGGAGATCGTCGCCCAGTTGTGGCGGGCCTGGCCGGGCTACGACCCGGCGCGGCCGTTCTCGACCTGGATGTACCGGATCGCGCTGAACGTGGCGATCGCCGACCTGCGCAGCCAGACCCGCCACGTCACGCCGCTGGCGCTGGACGCACAGCCGGACATCGCCGATCCGCATCCGGCCGATCCCGAGCGCGAGCAGCAGGTGCGCGCCCTGCACCGCTTCATCGCCGCGCTGCCGCCGCTGGAGCGGGCGCTGATGCTGCTGTACCTGGACGAGCGCCCGCAGCGCGAAATCGCCGAGGTGCTGGGCCTCAGCGAAAGCAACGTCTCCACCAAGATCGGCCGGCTCAAGCAGCGCCTGCGCGACGAACTCTGA	MTTQTAPPAAERACDRSAEAFLALLQRHRGIVLKIAASYTRLAEDRAELAQEIVAQLWRAWPGYDPARPFSTWMYRIALNVAIADLRSQTRHVTPLALDAQPDIADPHPADPEREQQVRALHRFIAALPPLERALMLLYLDERPQREIAEVLGLSESNVSTKIGRLKQRLRDEL	PGPT0014960_11530	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS020_04023	657			hypothetical protein	ATGGACCCCGACGACCTCAAGCTCGCCTGGCAGCAGCTCGGCCAGCGCCTGGAGCAGCAGCACGACCTGCAGCTGGACCTGCTGCGCGAACGCAAGCGCGAGCGTATGCGCCTGAGCCTGCGCCCGTTGTTCTGGGGCCAGCTGCTGCAGGTCGGCCTCGGCATCGCGCTGATCCTGCTCGGCGTGGCCTGCTGGACCCGCAACCCGGCGCCGGGCGGCTATTTCCTCGCCGGGGCGCTGGTGCACGCGTTCGGCGTGGTCACCGCGGCCTGTGGCGGCATCGTCGCCGGGCTGCTGACCGGGCTGGACCCGGCCGCGCCGGTGCTGGCGATCCAGAAACGGATCCGGCTGCTGCGCCAGGTCTACGGGCTGGCCGGGATCGTGGTCGGCTGGCCGTGGTGGATCATGTGGGTCCCGGTGACGCTGGCACTGGCCGGCCTCGGCGGCGGCGCTGTGCAGGCCGGCACCGCCAGCTGGGTCTGGGCCAGCCTGGCGGTGGGCGCCGCAGGCCTGCTCGCGACCTGGGCGTTCTTCCTGTGGGCCCGCAATCCGGCCCGCCCGGCGCTGGCCGGCTGGCTGGAGCGCAGCACGGCCGGTGCCAGCCTGCGCAAGGCACAAGCGCTGCTGGACGAGCTGCGGACGTTCGAACGCGAGTGA	MDPDDLKLAWQQLGQRLEQQHDLQLDLLRERKRERMRLSLRPLFWGQLLQVGLGIALILLGVACWTRNPAPGGYFLAGALVHAFGVVTAACGGIVAGLLTGLDPAAPVLAIQKRIRLLRQVYGLAGIVVGWPWWIMWVPVTLALAGLGGGAVQAGTASWVWASLAVGAAGLLATWAFFLWARNPARPALAGWLERSTAGASLRKAQALLDELRTFERE				NA	NA	NA	NA	NA
BMS020_04024	225	ybcJ_2	COG2501	putative protein YbcJ	ATGCAGATCCTCGAATTTGACCTCGACGGCGACTACGTCGAACTCCACATCCTGCTCAAGCTGTGCGGCCTGGTCGACAGCGGCGGCATGGGCAAGCAGCTGGTCGCCAGCGGCGCGGTCAGCGTCGACGGCGCGGTCGAACTGCGCAAGACCGCCAAGATCCGCGCCGGCCAGCTGGTCGAGCTCGAAGGCGTGCAGATCCGGGTGCTGGCGCTGGAGGAGTGA	MQILEFDLDGDYVELHILLKLCGLVDSGGMGKQLVASGAVSVDGAVELRKTAKIRAGQLVELEGVQIRVLALEE				NA	NA	NA	NA	NA
BMS020_04025	321			hypothetical protein	GTGAGCGGCTTCGTCGCCCTCGGCCAACGCAACCACGCCCCGTCCGCGGACCATCCCAGCCACGACATCTACGGCGTCGACGTCGCCTGCGCATCCGCGCCGGCGTCGCTGCGGCTGTGGCAGTCGATCGGCGGCGGCCACGGCGAACGCGGCGGCAGCATCACGCTGGCGCTCGGCGAGCTGCCCGGCTGGGTCGGCGACTGGCGCCAGCACCTGGCGCGCGCCGGCTGTGCATGGGCGATACCGCTACTGCAAGCGGCGCTGGTCGATGGCGACCACGACGGCGTGCTGGCGCGGTTGCGCGCCGCCACGCGGGAATAA	MSGFVALGQRNHAPSADHPSHDIYGVDVACASAPASLRLWQSIGGGHGERGGSITLALGELPGWVGDWRQHLARAGCAWAIPLLQAALVDGDHDGVLARLRAATRE				NA	NA	NA	NA	NA
BMS020_04026	1191	ubiM		Ubiquinone hydroxylase UbiM	ATGAAGCAGTTCGATGTCGTCGTGATCGGGGCGGGCCCCGCGGGCCTGACGTTCGCGCGTTCGCTGGCCGGCAGCGGGCTGTCGGTGGCGGTGGTCGAGCAGCAGCCGCGCGAGCGCATCGCCGCGCCGGCCTTCGACGGCCGCGAGATCGCCCTGACCCACGCATCGCGGCAGATCATGGAGCGGCTCGGCCTGTGGGCGCACATCCCGGAAGCCGAGGTGTCGCCGCTGCGCGATGCGCGGGTGATGAACGGCGCTTCGCCGTTCGCGCTGACCTTTGCCGACCACGCCGAGGGCGGCGACGCACTGGGCTGGCTGGTGCCCAACCACCTGATCCGGCAGGCCGCCTGGCTGGCGCTGCAGGACCAGCCGGGACTGGAGTTCATCGACGATGCCCGTGTCGCCGCGGTGCAGGTCGATGCGCGCGCGGCAAGCATCACGCTCGGCTCTGGGGAGAGGTTGTCGGCACGCCTGCTGGTGGCGGCCGACAGCCGTTTTTCCAGCACCCGGCGCATGCTCGGCATCGGCGCGCAGATGCGCGACTTCGGCAAGACGATGCTGGTGTGCCGGATGCGCCATGCCCAGCCGCACCACCACGCGGCCTGGGAATGGTTCGGCTACGGCAAGACCATGGCGCTGCTGCCGCTGCATGGCGACCGTGCCGGCGCGGTGCTGACGCTGCCGCCGCGGCGCGTGGAGGCGCTGCTGGCGATGGACGAGGCCGAATTCGGCGCCGCGATCACCGAGTATTTCGAGGGGCGCCTGGGCGCGATGGTGCAGGACGGCAGCCGCCATGCCTATCCGCTGGTGGCGGTCTATGCGCAGCGCTTCAGCGCCGAGCGCGCGGCGCTGATCGGCGATGCCGCGGTCGGCATGCACCCGGTCACCGCGCACGGGTTCAACTTCGGCCTGCAGGGCCAGGCGCGACTGGCGCGGGCGGTGCTGGACGCGACCGCGGCCGGGCGCGACATCGGCGCGCCGGCACTGCTGTCCGGCTATGCGCGTGCGCACATGCTGGCGACGCGGCCGCTGTACGAGGCCACCAACGCGATCGCCTCGCTGTATACCGACGATCGCCTGCCGGCGCGCCTGCTGCGCGGCGGCGCACTGCGCGCGGCCAACGTGCTGACGCCGTTCCGCAAGGCGATCGCCGCCCACCTCACCCAACGCGACGCCGCCTGGGCGCGTTGA	MKQFDVVVIGAGPAGLTFARSLAGSGLSVAVVEQQPRERIAAPAFDGREIALTHASRQIMERLGLWAHIPEAEVSPLRDARVMNGASPFALTFADHAEGGDALGWLVPNHLIRQAAWLALQDQPGLEFIDDARVAAVQVDARAASITLGSGERLSARLLVAADSRFSSTRRMLGIGAQMRDFGKTMLVCRMRHAQPHHHAAWEWFGYGKTMALLPLHGDRAGAVLTLPPRRVEALLAMDEAEFGAAITEYFEGRLGAMVQDGSRHAYPLVAVYAQRFSAERAALIGDAAVGMHPVTAHGFNFGLQGQARLARAVLDATAAGRDIGAPALLSGYARAHMLATRPLYEATNAIASLYTDDRLPARLLRGGALRAANVLTPFRKAIAAHLTQRDAAWAR				NA	NA	NA	NA	NA
BMS020_04027	393			hypothetical protein	ATGGGAATCGAACTGAAGATGCTGGGGTGGGCGATCGTGCTGGGCATCGTCCAGCTGCTGCTGGCCGCGATGACGATGACCGCCCAGCGCGGGCTGGCCTGGAACGCCAGCGCCCGCGACGGCACGCCGGCGCCGTTGCGGGGCGTGGCGGCGCGGCTGGAACGCGCCTTGCATAATTTCCTGGAGACCTTTCCGTTCTTCGCCGCGGCGGTGCTGGCGGTGGCGCTGATGCATCGCCAGGGCGCGCTGTCGGCGCTGGCGGTGCAGCTGTACGTCTGGGCACGGGTGGTCTACCTGCCGCTGTATGCCGCTGGCGTGCCCTATCTGCGCAGCCTGGTGTGGGCGGTCTCGATGCTGGGGATCATGCTGCTGGTGGTGGCGATCCTGGCCTGA	MGIELKMLGWAIVLGIVQLLLAAMTMTAQRGLAWNASARDGTPAPLRGVAARLERALHNFLETFPFFAAAVLAVALMHRQGALSALAVQLYVWARVVYLPLYAAGVPYLRSLVWAVSMLGIMLLVVAILA				NA	NA	NA	NA	NA
BMS020_04028	510			hypothetical protein	ATGCCCATCCGCGACGCATTCCTCGCCACCACTCTGCTGCTGGCACTGCCGCTGGCCGCGCAGGCCCAGCAGCCGCCTGCGGCGGCGCCGACCAGCCCGCCCGCGCCGGCGACGACGCCCGCACAGCAGGCCCAGCTGGCCAAGCAGAGCGCTGAGATGCAGCAGGCGGCGCTGAAGGTGGCGCAGATGGTCGACGCCGGTCAGACCGGGCCGCTGTGGGACGGGGCCTCCACGGTGGCCAAGCGTGCGGTCGCGCGCGAGGCCTTCGTCAAGCAGATCGCCACCGAGCGTGGCCGGCTCGGTGCGATGGCCGGGCGCGGTACCGGCACCGTTACCCGGGTCAAGTACGACGCCGGCGCGCAGGTGCCGGCCGGGCTTTACGTCAACGTCAGTTTCCCGACCAGGTTCGCCAACGCCGCCCAGCCGGTCCGCGAACTGGTCTCGTTCCGGCTCGACGAAGACCGCACCTGGCGCCTGTCCGGCTACAGCCTGCGCGCGCCGGCCAACTGA	MPIRDAFLATTLLLALPLAAQAQQPPAAAPTSPPAPATTPAQQAQLAKQSAEMQQAALKVAQMVDAGQTGPLWDGASTVAKRAVAREAFVKQIATERGRLGAMAGRGTGTVTRVKYDAGAQVPAGLYVNVSFPTRFANAAQPVRELVSFRLDEDRTWRLSGYSLRAPAN				NA	NA	NA	NA	NA
BMS020_04029	249			hypothetical protein	ATGCAGGGCAGGACCAAGACCATCGTGACGGCGTATGCGTGGCCGCTGGCCTGGGTGCTGGCAGGCTTCCTCGCGGCCGAGGCATTGCGCGCGCTGGCGGTGGCCGCGACGTTGCACTGGCCGGCGGTGCTGGCGGTGTGGGTAAGCCTGCTGGTGCTGCTGGCGGCGGTGGCGCGCGCGCTGTGGGTCAGCTGGCGGCTGTGGCGCGGGCGTGGCGGCACGCTGCCGCCGGCCGGTGCCGGGCCGTGA	MQGRTKTIVTAYAWPLAWVLAGFLAAEALRALAVAATLHWPAVLAVWVSLLVLLAAVARALWVSWRLWRGRGGTLPPAGAGP				NA	NA	NA	NA	NA
BMS020_04030	1089			hypothetical protein	ATGAATGCCCATCGCTGGTCGCTGTTGCTGTGTGCCGCGCTGCTGGTCGCCTGCCGCCAGGCGCCGCCGCCGGCCGCCGCGCCCGAGACCCGCCTGGCGCCGGCCGGCGATGGCGACCACATGGTGTCGGTGGATACCGCCGAAGCGGTGCTGCCGACGCCGTTGAAGGGGGCGCCGAAGGCGCCGTCCGGATGGCCGCAGGCGCAGCTCGAGCAGGGCGAGGCGCGCATCAGCTGTGCGACCGACTACCTCGCCGCCGACGGCGATGGCGCGCCGCTGGCCGGGCTCGAGCGCAAGGCGATCGAAGCGGCGCTGGCGCCCTGTGTGGCGGACGGACTGGTGCGGGTGCGCTATGTCGGCAAGATCAACGCCGGCTTCGCCGAGCTGGTCTGGCGCCTGGCCGTGGTCGCCGACCAGCTCGGGCTGCACCGCCGCATCCTCGACCTGGATTCCAGCGGCGGCCAGGTCGAGGCGGCGATCCGCGCCGGCGACAGCATCGGCGAATCGAACTGGACGATCTGGGTGCGCGAGGGTGCGATCTGCCACAGCGCCTGCGTGTTCGTGCTCGCCGCCGGCGACAACCGCCTGGTCGCCGGCAAGGTCGGCATCCACCGGATGATGCGGATCAGCTCCAGGGCGACCTCGCGCGCCGAGCTCAACCGCGAGCTGCACGACGTCTACGACAACGTGAAGGACTACCTGGAGCGCAACGGCGTGGCGGTCGCGGTCGCCGACCTGATGATGACCGTGCCGAACCGCAGCCTGCGCCTGCTCAGCGCCGAGGAACTGCGCGAATACGGGCTGGACGGGACCAATGCGGTGCAGGACGACCTGGAGCGGATCCGGCTGATGCGACGCTGCGGCGATGCCTTCGTGCGGCGCAAGGATGCGTTCCTGGTCGCGTTCGAGCAGGAATGCCGGCGCGATGGCGCCGACCTGGAAACGGTCAACACCTGCGGGCAGGCGTTGAAGCAGCGGTTCGGCTTTCCCGATGCCGGCTGCCCGGAGGACAGTCCGCTGGCCGAGAACGACGCCACCGCGCTGATGCCGCCGGCCGCCGCCGCGCAGGCGCCGGGCGCCGGTTCCTGA	MNAHRWSLLLCAALLVACRQAPPPAAAPETRLAPAGDGDHMVSVDTAEAVLPTPLKGAPKAPSGWPQAQLEQGEARISCATDYLAADGDGAPLAGLERKAIEAALAPCVADGLVRVRYVGKINAGFAELVWRLAVVADQLGLHRRILDLDSSGGQVEAAIRAGDSIGESNWTIWVREGAICHSACVFVLAAGDNRLVAGKVGIHRMMRISSRATSRAELNRELHDVYDNVKDYLERNGVAVAVADLMMTVPNRSLRLLSAEELREYGLDGTNAVQDDLERIRLMRRCGDAFVRRKDAFLVAFEQECRRDGADLETVNTCGQALKQRFGFPDAGCPEDSPLAENDATALMPPAAAAQAPGAGS				NA	NA	NA	NA	NA
BMS020_04031	981			hypothetical protein	ATGATCGTGCCGCGCTATTGGGCCGAAGCACGCCAGCAGGCGCGCCAGGGCCGGCGCCAGGTCACCGTGCGCCGGTTCGGCTGGTCCGACGACAGCCTGGTCGCGGCCGAGGCGCATGCGCGCGCCCGCGTCGAGGAGGCGCTTGCGGCGATCCTGGCCGGCGCCGAGCTGCCGCGGCGCGAGCTGCGTACCGCCTACGGCGAGGCCGGGGTGCCGATCCGCGAGGAAATCGTCGAGCGCGCCGGCGACGTCGTGCTGACGCGCAACAGCTACGGCGCGCTGTGCCTGAACGTGGCCGACGTGCTGTTCGCCGATATCGACCTGGAGACCCCGCCGCAACGCGGACTGGTGCCATTGCCGGCGCTGGCGCTGCTGGCCGTGGTCGGTGGCGCGGTCGCCTGGGCGGCCAGCTGGTGGCTCGGCGCGATCGCGGCGATCGCCGCACTGCTGGCCTGCAACCGCGCGCACGCGGCGTGGACGCGGCGGCGCTACCTCGCCGGCGGGACGCCCGAGCAGCGCGCCCGCGCGCGCATCGATGCGTTCGTCGCCGCCCATCCGGACTGGCATCTGCGCCTGTACCGCACCCCGGCCGGGTTCCGCCTGCTGGCGATGCACCGCTGCTTCAGCCCCGACGCGGCGGAAGTGGCGGCGTGCTTCGCCGCGCTCGGTGTCGATCCGGTGTTCGCGCACCTGTGCCGGATGCAGCACTGCTTTCGCGCGCGGGTCAGTGCCAAGCCGTGGCGGATCGGCATCGGCGACAAGATCCGGCCGCGCTACGCGGCGTGGCGCGAGGAGCAGGCGCTGCTGCCGGAACGCCAGGCGTGGATCGCGCGCTACCAGCAGCGCAGCGCCGGCTTCGCCGCGTGCCGCCACCTGGCCAGTTTCGGCGAGCAGCATGGCAGCACCGAGCGCACCCGCCAGGTCGCCGACTGGCACGATGCGCTGTGCCGCGCGCTGCGCGGCGACCTGCCGCTGGCCTGA	MIVPRYWAEARQQARQGRRQVTVRRFGWSDDSLVAAEAHARARVEEALAAILAGAELPRRELRTAYGEAGVPIREEIVERAGDVVLTRNSYGALCLNVADVLFADIDLETPPQRGLVPLPALALLAVVGGAVAWAASWWLGAIAAIAALLACNRAHAAWTRRRYLAGGTPEQRARARIDAFVAAHPDWHLRLYRTPAGFRLLAMHRCFSPDAAEVAACFAALGVDPVFAHLCRMQHCFRARVSAKPWRIGIGDKIRPRYAAWREEQALLPERQAWIARYQQRSAGFAACRHLASFGEQHGSTERTRQVADWHDALCRALRGDLPLA				NA	NA	NA	NA	NA
BMS020_04032	1494	alkA_2	COG0122	putative bifunctional transcriptional activator/DNA repair enzyme AlkA	ATGTCCACGCCACGCCTCCTCGATCCAGCGCAGTGCGAACGTGCCCGGCTGGCCCGCGACGCGCGCTTCGACGGCCTGTTCTTCACCGCGGTGACCAGCACCGGCATCTACTGCCGTCCGGTCTGCCCGGCGCCGCCGCCGAAGCCGCGCAACGTCGTCTACTACCCGAGCGCGGCCGCCGCCAACGCGGCCGGCTTCCGCCCGTGCCTGCGCTGCCGTCCGGAACTGGCGCCGCAGGACTGGCAGGACCCGGGCGAAGACCATGTGCGCCGGGCGCTGGCGTTGATCGCCGACGGCGCGCTGCAGGACGCCCCGGTGGCGGCGCTGGCGGCGCAGGTCGGGCTCAGCGCGCGCCAGCTGCAGCGGCAGTTCCTGGCCCACCTCGGCGCCACGCCGGGCCAGGTCCACACCACCCGCCGGCTGCTGCTGGCCAAGCAGCTGCTGACCGAAACCGCATTGCCGGTCACTCAGGTCGCGCTCGCCTCCGGCTTCAACAGCCTGCGCCGCTTCAACGCCGCGTTCCTGGACGGCTGCGGGATGCCGCCGAGCGCGCTGCGCCGGCAGCGCCAGGACGTGCCGGGCGGCGAGCTGACGCTGCGCCTGGGCTACCGGCCGCCGCTGGATTTCGCCGCGCTGCTGGCGTTCCTGCAGCGGCGCGCGATCCCCGGCATCGAACAGGTCGACGCGCATGGCTACACCCGCGTGACCGGGCCGGCCGGCGCGTCGGTGCAGGTCCGCATCGAAGCTGCGCCGAACCGCCCCGAGCTGCTGCTGCGGCTCGGGGCCTGCGACCCGCGGGTGATCCCGGACATGGTGCGAAGGGTCCGTCGGCTGTTCGACCTCGACGCCGACCTGCAGGCGGTGCACGCCACGCTCGGCCGCGATGCGCTGCTGGCGCGCTGCATCGCCGAACGACCGGGGCTGCGCGTGCCCGGCGCCTGGGACGGCTTTGAACTGGCGGTGCGCGCGGTGCTCGGCCAGCAGGTCAGCGTGGCCGGCGCGACCACGCTCGCCGCGCGGCTGGTGCAGCGCCATGGCGGCGAGCGCCCGGGCATGCCGGCCGGCCTGGACCGGGTGTTCCCGACCCCGCAGGCGCTGGTCGACGCGGAACTGGAGCAGATCGGCCTGCCGCGCAGCCGCGCCGCGACGCTGCGCGCACTGGCGCGCGCCTGCCTGGACGGCCGCCTGCGCTTCGACGCCGGCCAGCGCCTGGCCGAATTCGTCGCCGCCTGCACCGCGCTGCCCGGCATCGGCCCGTGGACCGCGCACTACATCGCGATGCGCGCGCTGCGCCAGCCCGACGCGTTCCCCGCCGGCGACCTGATCGTGCAGCAGAAACTGGGCGCTCCCGGCCGGCTCAGCGAGCGCGCCACCGAGGCGCGCTCGCAGGCCTGGCGGCCGTGGCGCAGCTACGCGGTGTTGCACCTGTGGCACGCCAGCGATGCCGCCATCACCCCATCCACGCCGACCGATCCCATTGGAGCCACGCCATGA	MSTPRLLDPAQCERARLARDARFDGLFFTAVTSTGIYCRPVCPAPPPKPRNVVYYPSAAAANAAGFRPCLRCRPELAPQDWQDPGEDHVRRALALIADGALQDAPVAALAAQVGLSARQLQRQFLAHLGATPGQVHTTRRLLLAKQLLTETALPVTQVALASGFNSLRRFNAAFLDGCGMPPSALRRQRQDVPGGELTLRLGYRPPLDFAALLAFLQRRAIPGIEQVDAHGYTRVTGPAGASVQVRIEAAPNRPELLLRLGACDPRVIPDMVRRVRRLFDLDADLQAVHATLGRDALLARCIAERPGLRVPGAWDGFELAVRAVLGQQVSVAGATTLAARLVQRHGGERPGMPAGLDRVFPTPQALVDAELEQIGLPRSRAATLRALARACLDGRLRFDAGQRLAEFVAACTALPGIGPWTAHYIAMRALRQPDAFPAGDLIVQQKLGAPGRLSERATEARSQAWRPWRSYAVLHLWHASDAAITPSTPTDPIGATP				NA	NA	NA	NA	NA
BMS020_04033	516	ogt_2	COG0350	Methylated-DNA--protein-cysteine methyltransferase	ATGACCATGCTCTACAGCGACAGCTTCGAAAGCCCGATCGGGCGCCTGACCATCGCCGCCGACGGCGACGGCCGCCTGCACCACGTGCTGTTCCCCAGCAACCGCCACCCGGCACGCGGCGCCGAGCGCTGGCTGCCGGATCCAGCGCCCGGCGCCGAGGCGCGGCGGCAACTGCTCGACTACCTGCATGGCCGCCGCACCGGCTTCAGGCTGGCATTGGCACCGCAGGGCACGCCGTTCCAGCGCGAGGTCTGGCAGGCGCTGGCGTTGATCCCGTTCGGCCAGACCTGGAGCTACGCGCAGCTGGCCCGGCACATCGGCCGGCCCAGCGCGACGCGCGCAGTCGGCGCCGCCAACGGCCGCAACCCGCTGCCGATCGTACTGCCATGCCATCGCGTGGTCGGTGCCGACGGCTCGCTGACCGGCTTCGGCGGCGGTCTGCCGACCAAGCTGGCGCTGCTGCGGCTGGAAGGCGCCGCCGAGCGCGCCGAGCACACGGCCGACCTGTTCGCCTGA	MTMLYSDSFESPIGRLTIAADGDGRLHHVLFPSNRHPARGAERWLPDPAPGAEARRQLLDYLHGRRTGFRLALAPQGTPFQREVWQALALIPFGQTWSYAQLARHIGRPSATRAVGAANGRNPLPIVLPCHRVVGADGSLTGFGGGLPTKLALLRLEGAAERAEHTADLFA				NA	NA	NA	NA	NA
BMS020_04034	1242			hypothetical protein	ATGCTGCTTCGATCCTCGTTCTGCGCCGTCGCCTGCGCCCTGCTGCTCGCTTCCTGCGCCACCCACGCCCCCGACACCACCCCGCGCCCGCCGCACAAGCTGCTGCTGGTCTCGATCGACGGCCTGCGCGCCGATGCGCTCGACCGCGGCATCACCCCGACGCTGACGCGGATGAGCCGCGAAGGCGTGCGAGCGCGCTGGATGACCCCGTCCTACCCGTCGCTGACCTTCCCGAACCACTACACGCTGGTCACCGGGCTGCGTCCGGACCACCACGGCATCGTCCACAACACGATGCGCGACGCCGAACTGGGCGGCTTCTGGCTGAGCAAGGCCGACGCGGTCGGCGATGCGCGCTGGTGGGGCGGCGAACCGATCTGGGTCGGCGCCGAGAAGGCCGGCATCCGCAGCGCGACCTGGTCCTGGCCCGGCAGCGAGGCGCCGATCGACGGCGTGCGCCCGAGCCAATGGCTGCGCTACGACGGCCGCGTGCCGGCGCTGGCGAGGGTAGACACGGTGCTGGACTGGTTCAGGCAGACCGGGCCGGATGCGCCGCGGCTGCTGACGCTGTACTTCGACCAGGTCGACCACGCCGGCCACGACCACGGCCCGGATTCGCCCGAATACGCCGCCGCGGTGCGCGGCGTGGATGCCGCGCTGGCGCACCTGCTCGACGGCCTCGCGCAGCAGCACGTGCTGGACGACACCGACATCGTGGTGGTGTCCGACCACGGCATGGCCGAGGTCGCCCCGACCCACCTGCTGCCGGTGGACACGCTGGCGCCGCCGGCCCTGGTCGAGGTGGTCAGCGACGGCCAGGTGGTCGAACTGCAGCCGCGCCCCGGCCGCGAGGCCGAGGCGGTCAAGGCGCTGGTCGGCCGTCACGACCATTACAGCTGCTGGGAGCGCCAGGCGCTGCCGGCACGCTGGCAGTACGGCAGCAACCCACGCATCCCGCCGATCGTCTGCCAGATGGACGAGGGCTGGGACGCGGTGCACGACGCGAAGATCGCCAAGCGCGAGGCCGGTGCCACGCGCGGCTCGCACGGCTACGACCCGGCACTGCCGTCGATGCGCGCGGTGTTCGCCGCCCGCGGCCCCTCGTTCGCCCAAGGCCGCGAACTGGCGCCGTTCGACAACGTCGACGTCTACCCGCTGCTCACACATCTGCTCGGCATTCCGGCCGCCCCCAACGACGGCGACCCGAAGACGCTGCTGCCGGCGCTGCGCAACGCTCCGTAG	MLLRSSFCAVACALLLASCATHAPDTTPRPPHKLLLVSIDGLRADALDRGITPTLTRMSREGVRARWMTPSYPSLTFPNHYTLVTGLRPDHHGIVHNTMRDAELGGFWLSKADAVGDARWWGGEPIWVGAEKAGIRSATWSWPGSEAPIDGVRPSQWLRYDGRVPALARVDTVLDWFRQTGPDAPRLLTLYFDQVDHAGHDHGPDSPEYAAAVRGVDAALAHLLDGLAQQHVLDDTDIVVVSDHGMAEVAPTHLLPVDTLAPPALVEVVSDGQVVELQPRPGREAEAVKALVGRHDHYSCWERQALPARWQYGSNPRIPPIVCQMDEGWDAVHDAKIAKREAGATRGSHGYDPALPSMRAVFAARGPSFAQGRELAPFDNVDVYPLLTHLLGIPAAPNDGDPKTLLPALRNAP	PGPT0021675_171	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021675-ENPP4_like-K18424	NA	NA
BMS020_04035	1347	clcA_1	COG0038	H(+)/Cl(-) exchange transporter ClcA	ATGATGTCCTCCGATCCTTTCCGCAGGGGCCTGCGCCCGCTGCTGTCGAGCGAAGGCTGGAAACGCCGCGCAGCGTTGTGGGGCGGCGGTGTCGCGGTGGCGCTGGTCGCCATCGTGTTCGCCAAGGCCAGCGATGCGGCCTTCCACGTGTTCCAGAAGATCACCGCGCACTCGATCTGGTGGGCATTGCTGCTGACCCCGGGCATCTTCGCGCTGCTCGCCTGGCTGACCTCCGGCGCGCTCAAGCCGACCCGCGGCAGCGGCATCCCGCAGGTGATCGCGGCGCTGGAAAAGCCCGACCCGGCCTTCCGCGACGCCAATCTTTCCCTGCGGGTGTCGGCCGGCAAGCTGCTGCTGACCACGCTGTCGCTGCTCGGCGGCGCCTCGGTCGGGCGCGAAGGCCCCACCGTGCACGTCGGTGCGGCCCTGATGCATGTGTTCGGCCGCTGGTTCGGCTTCCGCGATCCGCGCGAGCTGTCGCACTTCCTGCTCGCCGGCGGTGCCGCCGGCATCGCCGCGGCGTTCAACACCCCGCTGGCCGGCGTGGTGTTCGCGATCGAGGAGCTGAGCGGGCGTTTCGAACACCGCTTCTCCGGCACCCTGCTGACCGCAGTGATCGTCGGCGGCGTGGTCTCGCTCGGCCTGCTCGGCAACTACACCTATTTCGGCAAGGTCGCGGTGAAGCTGCCGCTGGGCGAGGCGTGGGTGGCGATCCTGCTGTGCGGCATCGTCGCCGGCCTGCTCGGTGGGCTGTTCAGCCGCATGGTGCTGCTCAGCGTCGCCGGCAAGCCGCGCTGGCTCGGCGCGTTGCGCCGCGACCACCCGGTGCTGCTGGCCGCGCTGTGCGGCGTGGCGCTGGTGCTGCTGGCGCTGGTGTTCGGCAATGGCGCGTTCGGCACCGGTTACGAACAGGCGCGCAGCCTGGTCCAGGGCCATGCCGAGGTCGGCCACGAATTCGGCCTGATGAAGCTGCTGGCCAACCTGGTGTCCTACGTCGCCGGCATTCCCGGCGGGCTGTTCTCGCCGGCACTGGCGGTCGGTGCCGGCCTCGGCCACAACCTGTCGGTGCTGATGCCCGGCGTGGACGCCCGCGCCTTCGTGCTGCTGGGCATGTGCGCCTACCTGACCGGCGTGACCCAGGCGCCGCTGACCTCGGCGGTGATCTCGCTGGAGCTGACCGACACCAGCGACATGCTGCTGCCGATCCTGGCCACCGTGCTGATCGCGCGCGGCGTGTCTGGCCTGGTCTGCCGGGTGCCGATCTACCGCGGCCTGGCCGAACACCTGCTCGGGCCGAGCCCGGCAACGGACAACGGCGACGCCCCCCCGCCGGCCGCACGCCACTGA	MMSSDPFRRGLRPLLSSEGWKRRAALWGGGVAVALVAIVFAKASDAAFHVFQKITAHSIWWALLLTPGIFALLAWLTSGALKPTRGSGIPQVIAALEKPDPAFRDANLSLRVSAGKLLLTTLSLLGGASVGREGPTVHVGAALMHVFGRWFGFRDPRELSHFLLAGGAAGIAAAFNTPLAGVVFAIEELSGRFEHRFSGTLLTAVIVGGVVSLGLLGNYTYFGKVAVKLPLGEAWVAILLCGIVAGLLGGLFSRMVLLSVAGKPRWLGALRRDHPVLLAALCGVALVLLALVFGNGAFGTGYEQARSLVQGHAEVGHEFGLMKLLANLVSYVAGIPGGLFSPALAVGAGLGHNLSVLMPGVDARAFVLLGMCAYLTGVTQAPLTSAVISLELTDTSDMLLPILATVLIARGVSGLVCRVPIYRGLAEHLLGPSPATDNGDAPPPAARH				NA	NA	NA	NA	NA
BMS020_04036	180			hypothetical protein	ATGGGTAAGGGTGACCGCAAGACCGCCAAGGGCAAGCGCTACAACGCCAGCTATGGCAATTCGCGCTCGCACAGCGTGAGCAAGGTGGCCGTGGGTGCGGGTGCACCGGTCGCCAAGAAGACCGTCGCCAAGGCGCCGGCGAAGAAGGCCGCCGCCAAGAAGGTTGCCAAGGCCGGCTGA	MGKGDRKTAKGKRYNASYGNSRSHSVSKVAVGAGAPVAKKTVAKAPAKKAAAKKVAKAG				NA	NA	NA	NA	NA
BMS020_04037	459			hypothetical protein	ATGTTATATTATTCCACCTGCATCTTGTCATCCCTGCTGGAAGTCATGGACCTGCCTGCCTCGCTTCGCCACCTGCTCGACCGCTTCGGCGCCACCGGTTCCCTGTTGTGCGCGGTGCACTGCGCGGTGCTGCCGTTGTTGCTCGCGGCCGCGCCGTCGCTCGGGCTTTCGGTGTGGCTGGGCGATGGCGTGGAGCTGGCGATCGTGGTCTTCGTCAGCCTGCTTGGCCTGTTCAGCCTGGTGCTTGGCTACCGGCGCCACCACGCGTTACGCGCGCTGGGCATGCTGCTGCCGGGGTTGGCCCTGCTCTGGGTCGGCCTGCTGTACGCGCCGCTGCACCACTCGGTCGCTCCGCATGCGGTGGTGATGACGCTCGGCGGCACCCTGGTCGGCGTCGCCCACCTGGTGAACCTGCGCCTCAACCACGGCCATGTTCACGATGCCAGCTGCGCGCACTAG	MLYYSTCILSSLLEVMDLPASLRHLLDRFGATGSLLCAVHCAVLPLLLAAAPSLGLSVWLGDGVELAIVVFVSLLGLFSLVLGYRRHHALRALGMLLPGLALLWVGLLYAPLHHSVAPHAVVMTLGGTLVGVAHLVNLRLNHGHVHDASCAH				NA	NA	NA	NA	NA
BMS020_04038	2061		COG1629	putative TonB-dependent receptor	ATGCACCCGAGTTCTCTCCCCCGCCGCGCCCCGCTCTGCCTCGCCCTCGCCGCCCTGCTGGCCGCCCCGGCGGCATTCGCCGCCGACCAGGCCGGCAGCGATGACCAGACCGTCCCGGCCAGCGACACCACGCACCAGGACCATGGCGCCGATGGCCGCCATATCCGCGACCTCGCTGGTGTCACCGTCAACGCCGATCCGTTCCGCAGCGCCGCCGACCAGCTCAGCCGCCCGGTCGACGTGCTCTCCGGCGAGCGCCTGGACGAGGCCCGTGCCTCCAGCCTCGGTGAAACCCTGCAGGGCGTGGCTGGCGTGCAGTCGTCGAACTTCGGCCCCGGCGTCGGCCGCCCGATCATCCACGGCATGGATGGCGCGCGCGTGGCGGTGATGTCCGACGGCATGATCACCCAGGACGTGTCGACGGTCAGCCAGGACCACTCGCCGGCGATCGAACCGTTCCTCGCCGACCAGATCGAGGTGCTGAAGGGCCCGGCCACGCTGCTGTACGGCAGCGGCGCGATCGGTGGCGCGATCAACGTGGTCGACGGCCGCATCGCCGAGCATCCGGTCGACGGCGTCACCGGCCGCGCCGAGACCCGCGTCGATTTCGGCGACAAGGACGGCACCACCAGCATGGCGCGCATCGATGCCGGCAACGGCGGCCTGTCGATCCATGCCGATGGCGTCTACCGCGACAACAAGGCCTACGACACCCCGGACGGCCCGCAGCTCAACTCCTACCAGAAGACCAAGACCGGCTCGTTCGGCGCTTCGCTGTCGGGCGACTGGGGCTTCATCGGCGCCTCGGTGTCGCGCTTCAACGACAACTACGGCAACCCCGGCGAGCCGGGCGACCCGGCCGAGGGCGAACTCGGCGTGCATCTGGAACTGCACCAGGACCGCTTCGAGGTGAAGGGCGGCCTGTACGACCCGTGGGGCGAAGGCAGCGGCCTGCGCTACAGCTTCGCCCACACCAAGTACGACCACACCGAGTTCGAGGGCGCCGAAGTCGGCACCCAGTTCTTCAAGGACGCCAACGAAGGCCGCGTCGAGGCCACCTTCGCCGCCGACAACGGTTGGCAGACCGCGGTCGGCGTGCAGGGCGTGGACAGCACCTTCCGCGCGGTCGGCGAAGAATCCTTCGTACCGCGCACCGAGACCAAGTCGATCGGCCTGTTCGCGGTGGCCAAGAACAGCTGGGGCCGCTTCTCCAGCGACTTCGGCGCGCGCATCGACCAGATCAAGTACGACACCGACACCGGCCTGTCGCCTGACTTCAAGCCGCTGAGCCTGTCGGCCGGTTTCGGCCTGAAGCTCAACGACGCCTGGCGCCTGACCGCGAACCTCGACCACTCCGAGCGCGCCCCGGCCGAAGAGGAACTGTTCGCCGACGGCCCGCACATCGCGACGCTGGCCTACGAGATCGGCGACAGCAACCTGAAGAAGGAAAAGGCCAACCAGGTCGACCTGGGCGTGCAGTACCAGAACGACTGGATGGACGCCAAGCTGTCGGCCTATTACAACAAGTACGACGACTTCATCTACGTCGTCGACACCGGCAATAGCTGGTACTTCGACGAGGAAGACGAGTACCTGCCGATTCGCCAGTGGACGCAGGCCGACGCGATCTTCCACGGCTTCGAGGGCGAAGCGAACTTCCACCTGGCCAGGAGCGACAGCGCCGGCGACTGGGACCTGCACGTGTTCGGCGATACCGTCCGCGCGCGCCTGGCCGATGGCGGCGGCAACCTGCCGCGCATCGCCCCGGGCCGCTTCGGCGCCGAGCTGCGCTGGCACGGCGACGCCTGGCGCGCCTCGGCCGGCGCCACCCGCTACATGAAGCAGGACAAGGTGGCGGTGAACGAGACCGAGACCGATGGCTACACCATGGTCGACGCGCACATCGCCTACCACATCGATGCCGGCGCGACGTCCTGGGAAGTGTTCCTGGACGGCAACAACCTGCTCAACAAGGAAGCGCGCGTGCACACCTCGTTCCTCAAGGACGACGTGATGCTGCCGGGCCGCAACGGCACCTTCGGCGTGCGCATGTTCTTCTGA	MHPSSLPRRAPLCLALAALLAAPAAFAADQAGSDDQTVPASDTTHQDHGADGRHIRDLAGVTVNADPFRSAADQLSRPVDVLSGERLDEARASSLGETLQGVAGVQSSNFGPGVGRPIIHGMDGARVAVMSDGMITQDVSTVSQDHSPAIEPFLADQIEVLKGPATLLYGSGAIGGAINVVDGRIAEHPVDGVTGRAETRVDFGDKDGTTSMARIDAGNGGLSIHADGVYRDNKAYDTPDGPQLNSYQKTKTGSFGASLSGDWGFIGASVSRFNDNYGNPGEPGDPAEGELGVHLELHQDRFEVKGGLYDPWGEGSGLRYSFAHTKYDHTEFEGAEVGTQFFKDANEGRVEATFAADNGWQTAVGVQGVDSTFRAVGEESFVPRTETKSIGLFAVAKNSWGRFSSDFGARIDQIKYDTDTGLSPDFKPLSLSAGFGLKLNDAWRLTANLDHSERAPAEEELFADGPHIATLAYEIGDSNLKKEKANQVDLGVQYQNDWMDAKLSAYYNKYDDFIYVVDTGNSWYFDEEDEYLPIRQWTQADAIFHGFEGEANFHLARSDSAGDWDLHVFGDTVRARLADGGGNLPRIAPGRFGAELRWHGDAWRASAGATRYMKQDKVAVNETETDGYTMVDAHIAYHIDAGATSWEVFLDGNNLLNKEARVHTSFLKDDVMLPGRNGTFGVRMFF	PGPT0003790_25328	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_04039	1065	cbh		Choloylglycine hydrolase	ATGAATCGACGCGGACGACTCGCTCCCTGGTTGTACGGATGCATGATCGGCAGCCTGCTGGCGGCCTGCCAACCCGCAGGTGCCTGCACCCGCGTGGTCTACCTGGGTGCCGACGGCGATGTGATCACCGCACGTTCGATGGATTGGAAGGTCGACGTCGCGACCAATCTGTGGGTGTTTCCACGCGGCATCCGCCACGATGGCCAGGGGGGTGCGAATTCGATCACCTGGACCTCGAAGTACGGCAGCGTCATCGCCTCCGGCTACGACATCTCCACCACCGACGGCATGAACGAGAAAGGCCTGTCGGCGCAGTTGCTGTGGCTGGTCGAGAGCCAGTATCCGGCCTACAGCAGGGACCGACCGGCACTGTCGCTGGCGCTATGGGCGCAATACGTGCTGGACAACTTCGCCAGCGTCGCCGAGGCGGTCGCCGCGCTGGAGAAACAGCCCTTCATCATCGTCACCGACAACGTCCCCGGCGAGGCGCGGTTGGCGACGCTGCACCTGTCGATGTCCGATGCCAGCGGCGACAGCGCGATCATCGAGTACATCGGCGGACAGCAGGTGATCCACCATGGACGCCAATACCAGGTGATGACCAACTCGCCGACCTTCGACCAGCAGCTGGCGCTGAACGCCTACTGGAAGCAGATCGGCGGCACCACGATGCTGCCAGGAACCAACCGCTCCGCGGACCGCTTCGCGCGCGCGGCGTTCTACATCGATGCGATCCCCAAGAGCGAAGACCCGGTGCTGGCACTGGCCAGCGTGTTCAGCGTGATCCGCAACGCCTCGGTGCCGTTCGGGATCAACACACCCGAGGAGCCGAACATCTCGTCCACGCGCTGGCGCAGCGTCGCCGACCACAAGCGCCTGCTGTATTTCTTCGAATCGGCACTGACCCCGAACACGTTCTGGGTCGACCTGCACAAGCTCGATTTCTCCGCCGTCACCGGCAAGGTGCTCAAGCTCGACCTCGGCAAGGACCAGCGCAACGTGTTCGCCGGCGAAGCCTCGGCCGACTTCAAACCGGCCGAGCCATTCGCGTTTCTGGGAATCTGA	MNRRGRLAPWLYGCMIGSLLAACQPAGACTRVVYLGADGDVITARSMDWKVDVATNLWVFPRGIRHDGQGGANSITWTSKYGSVIASGYDISTTDGMNEKGLSAQLLWLVESQYPAYSRDRPALSLALWAQYVLDNFASVAEAVAALEKQPFIIVTDNVPGEARLATLHLSMSDASGDSAIIEYIGGQQVIHHGRQYQVMTNSPTFDQQLALNAYWKQIGGTTMLPGTNRSADRFARAAFYIDAIPKSEDPVLALASVFSVIRNASVPFGINTPEEPNISSTRWRSVADHKRLLYFFESALTPNTFWVDLHKLDFSAVTGKVLKLDLGKDQRNVFAGEASADFKPAEPFAFLGI				NA	NA	NA	NA	NA
BMS020_04040	495	zur_1	COG0735	Zinc uptake regulation protein	ATGTCCAGCAAGCATGCCCACGGCTGTACCGACCCCCATCACCACGTGCATAGCGCGGATGCGTTCGTGCGCGCGGTGGAGCGGGCCTGCACCGAACGTGGGCTGCGGCTGACGCCGATCCGCGCCAACGTGCTGCGTCTGATCGCCGACGCCGGCAAGCCGGTGAAGGCGTACGAGCTGCTGGAATGGGTGCGCGAAGGCAAGAGCGTCGGCGCCGACGCGCCGCCGACGGTGTACCGCGCGCTGGATTTCCTGATGGCCAATGGCTTCGTGCACAAGCTCGAGTCGGTCAACGCCTTCGTCGCCTGCCACCACCCCAACAGCGTGCAGCACTCGGTGCCGTTCCTGATCTGCGACCGCTGCCACAGCGCGGTGGAACTGGAGGACCGCGAGGTCGTCGCCCAGCTCGACGCGCGCGCCAAGGCGCTGGGCTTCCAGCCGCAGGCGCAGACCCTGGAAGTGCACGGCCTGTGCGCGAAGTGCGCGGCGCAGTAA	MSSKHAHGCTDPHHHVHSADAFVRAVERACTERGLRLTPIRANVLRLIADAGKPVKAYELLEWVREGKSVGADAPPTVYRALDFLMANGFVHKLESVNAFVACHHPNSVQHSVPFLICDRCHSAVELEDREVVAQLDARAKALGFQPQAQTLEVHGLCAKCAAQ	PGPT0003905_415	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003905-zur-K09823	NA	NA
BMS020_04041	1404	gltX_1		Glutamate--tRNA ligase	ATGAGCTGCCGCACCCGTTTCGCCCCCAGTCCCACCGGTTACCTGCACATCGGCGGCGCGCGCACCGCGCTGTACTGCTGGCTGGAGGCGCGCCACCGCGGCGGCGAATTCGTGCTGCGCATCGAGGACACCGATCGCGAGCGCAGCACCCAGGCGGCGATCGACGCGATCCTGGAGGCTATGGACTGGCTCGGCCTGGGCTACGACGAAGGCCCGATCTACCAGACCGAGCGGGTCGCCCGTTACAAGGAAGTCGCTGAGCAGCTGATCGCCGACGGCAAGGCCTATTACGCTTACGAGACCCGCGAGGAACTCGACGCGATGCGCGAGGCGGCGATGGCCAAGCAGGAAAAGCCGCGCTACAACGGCGCCGCGCGCGAGCTCGGCCTGCCGTACAAGGACGACCCGAACCGGGTGATCCGCTTCAAGAACCCGCTCGACGGCAGCGTGGTGTTCGACGACCTGATCAAGGGCCGCATCGAGATCGCCAACAGCGAGCTGGACGACATGGTGATCTTCCGTCCGGACGGCTACCCGACCTACAACTTCGCGGTGGTGGTCGACGACTGGGACATGGGCATCACCGAGGTGATCCGCGGCGACGACCACATCAACAACACTCCGCGCCAGATCAACATCTACCAGGCGCTGGGCGCGACCGTGCCGAAGTTCGGCCACATGCCGATGATCCTCGACGAGCAGGGCGCCAAGCTGTCCAAGCGCACCGGCGCGGCCGACGTGATGCAGTACAAGGACGCCGGCTACCTGCCCGAGGCGCTGCTGAGCTACCTGGCGCGGCTGGGCTGGTCGCACGGCGACCAGGAGATCTTCAGCCGCGCCGAGCTGATCGAGCTGTTCGACGTCACCAACTGCAATTCCAAGGCCTCGCGGCTGGACATGGCCAAGCTCGGCTGGGTCAACCAGCACTTCCTGAAGAGCGAGGACCCGGCGGCGATCGCCCCGCAGCTGGTCTACCAGCTCGACAAGCTCGGCCTCGACCTGGCCGCCGGCCCGGCCCCGGCCGACGTGGTGGTGGCGCTGCGCGAGCGCGTGCAGACGCTGAAGGAGATGGCCGAGAAGGCGGTGGTCTGGTACCAGCCGCTGACCGAGTACGACGAGGCGGCGGTCGCCAAGCACCTCAAGGCCGGCGCCGACGTGTCGCTGGCCAAGGCGCGCGAGCTGCTGGCCGCGCTGCCGGAATGGAACGTGGAAGGCGTGTCGCAGGCGCTGCACGACACCGCCGCGGCGCTGGAACTGGGCATGGGCAAGGTCGCCCAGCCGATGCGCGTGGCGATCACCGGCACCCAGGTCAGCCCGGACATCTCCCACACCGTCTACCTGGCCGGGCGCGAGCAGGCCTTGAAACGCATCGACGCTGCGCTTATCAAGGTGGCAGCGGCCTGA	MSCRTRFAPSPTGYLHIGGARTALYCWLEARHRGGEFVLRIEDTDRERSTQAAIDAILEAMDWLGLGYDEGPIYQTERVARYKEVAEQLIADGKAYYAYETREELDAMREAAMAKQEKPRYNGAARELGLPYKDDPNRVIRFKNPLDGSVVFDDLIKGRIEIANSELDDMVIFRPDGYPTYNFAVVVDDWDMGITEVIRGDDHINNTPRQINIYQALGATVPKFGHMPMILDEQGAKLSKRTGAADVMQYKDAGYLPEALLSYLARLGWSHGDQEIFSRAELIELFDVTNCNSKASRLDMAKLGWVNQHFLKSEDPAAIAPQLVYQLDKLGLDLAAGPAPADVVVALRERVQTLKEMAEKAVVWYQPLTEYDEAAVAKHLKAGADVSLAKARELLAALPEWNVEGVSQALHDTAAALELGMGKVAQPMRVAITGTQVSPDISHTVYLAGREQALKRIDAALIKVAAA	PGPT0008460_4452	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
BMS020_04042	2283	cntO_3	COG1629	Metal-pseudopaline receptor CntO	GTGCAGGCGCCGAACCCGAGCGCGCGCGACGCCGATGCGGGCCGCGTCGCAACGTCGCTGCGGCGGCCGCCCGCCTGCACCGGCACGGCCTTCGCATCGCAAAGGATGCAATCAATATTCATTCTCAATAAGATAGACGTGCTTCCCCTCCCCACGATCGACCCGATGCCCCGCTCCCCGCTGTTCTGCGCCTGCCTGTGCTGGCTGGCAATGCCTGCGCTGGCGTTTGCCGCCACCGACGACACCACCGCCGCCGAATCCACCGCCACGCCGCGCAAGCCCGTCACCGAGCTGACCGCGGTGCACGTCCAGGCCGATGGCCCGCGCGCCGGTTTCCATGCCGACGGCCCGGCCGCGGTGACCAAGTCCGACGTGCCGCTGGAGCAGACGCCGATGTCGATCGACGTGCTGACCCGCGACCTGCTCGACAGCCAGCAGGTGCGCGGCCTCAACGAGGCATTGCAGAACGCTGCCGGTGTGGTGGCCGGCAACTACGGTCGGCGCGGCTGGGACGACATCATCATCCGCGGCCAGACCGCCTCCGACTCGCTGTTCCTCGACGGTCTGCGCACAACCACCGCCAGCCGCGTGGCCGAGCAGACCTACGGGCTGGAGCGGCTGGAAGTGTTCAAGGGCCCGGCCTCGCTGCTGTACGGCCAGGTGCTGCCCGGCGGCCTGGTCAACATGGTCAGCAAGCGCCCGCAGGCCGAAGCGTTCGCACGCGGCGAGCTGACCACCGGCAGCTACGGGCTGCGCCAGGGCGCGGTGGACGTCAACCAGCCGCTGGCCGATGGCCGACTAGCGCTGCGCGTCAACGCGCTGGCGATGAACAGCGACGATGCCACCGACAACGTGTGGTTCCGCGAACGCTGGATCGCCCCGTCGCTGTCGGTCGACCTCGGCCCGGACAGCGATTTCGTGCTGCTCACCAGTTACCAGCAGCGCAGCTACATCCGCCAGCAGGGCCTGCCGCTGGTCGGCACCGTCTACACCAATCCGAACGGTGCGCTGCGCCGCAGCCTGTTCATCGGCGATCCGGCGCAGCGCCCGTACGAGGCCGAGCAGCGCCGCGTCGGCTACCAGTTCGACCACCGCTTCGGCAATGGCTGGGCGCTGCATCACGGCCTGCGCTGGCAGGACTTCGACGTCGAAGGCGACCTGATCGCCAATGGCGCGGTCAGCGCCGATGGCACCACATTGACCCGCACCGCGCAGCACCAGGTGCTCAGTGGCCGCACCTGGGTGCAGGACACCTATCTGACGCGGCGCTTCGACGGCGCCGGCATCAGCCAGTCGCTGACCTTCGGGCTGGATGCGTTCAAGACCTGGGAATGGGCCAGCCCGCACGCCTGCACGATCGGCAAGCTGGCGCTGTATGCGCCGGCCTCGTCCGGGGTGAGCTGCTCGGCGACGCCGCGCAGCCGCACGCTGGGCATCGTCCGCTCCGGCGGCATTTACGCGCGCGACCAGATCCGTTTCGGCGAGGACCTGCAGCTGCTGCTGGGCCTGCGCCACGATCGCGCCGAGACCACCTCGCAGAACCAGGTCACCGGTACGACCACCACCAGCAGCGACGACAGCGCCACCACCGGCTCGGCCGCGCTGATGTACCAACTGCGCCCCGGCCTGCGCCCGTACCTGAGCTACGCCAGCTCGTTCTTCCCGAACTCGGGCACCGATGCGCAGGGCCGCGGTTTCGCCCCCGAACAGGGCAAGCAATGGGAGCTCGGCGTCAAGGTCGAACTCGGCGCCGCGGCGACGCTGACCGCGGCGGTGTTCGACCTGCGCCGGCGCAACGTGCTCGAGGACGACCCGCTCAACGACGGCTACAGCATCGCGATCGGCGAGCAGCGCAGCCGCGGCGGCGAACTCAGCCTCAACGCCGACCTCGGCAGCGGCATCAGCGTGACCGCCGCCTATGCCTACACCGATGCCACCATCACCGACGATGGCGGCCAGGCCAGCACCACCGTCGGCCAGCGCCTGAACAACGTGCCGCGCAACAGCGGCTCGCTGTGGCTGCGCTACGACCCGCATGCCGGCAACGATGGCTGGTACGCCGGCGCCGGCCTGCGCGCGGCCGACGCGCGCTACACCAACGGCTACATGCTGGCCGGCTACACCCTGTTCGATGCCGGTGCCGGCTACCGCCACGGGCGCTGGGACTACGCGTTGAACGTGCGCAACCTGTTCGACCACGACTACTACGCCGGCGGCCTCGCCGCCGCGGTGGCGCTGGGCGATCCGCGCACGCTGAGCTTCAAGATCGGCCTCGCGTACTGA	MQAPNPSARDADAGRVATSLRRPPACTGTAFASQRMQSIFILNKIDVLPLPTIDPMPRSPLFCACLCWLAMPALAFAATDDTTAAESTATPRKPVTELTAVHVQADGPRAGFHADGPAAVTKSDVPLEQTPMSIDVLTRDLLDSQQVRGLNEALQNAAGVVAGNYGRRGWDDIIIRGQTASDSLFLDGLRTTTASRVAEQTYGLERLEVFKGPASLLYGQVLPGGLVNMVSKRPQAEAFARGELTTGSYGLRQGAVDVNQPLADGRLALRVNALAMNSDDATDNVWFRERWIAPSLSVDLGPDSDFVLLTSYQQRSYIRQQGLPLVGTVYTNPNGALRRSLFIGDPAQRPYEAEQRRVGYQFDHRFGNGWALHHGLRWQDFDVEGDLIANGAVSADGTTLTRTAQHQVLSGRTWVQDTYLTRRFDGAGISQSLTFGLDAFKTWEWASPHACTIGKLALYAPASSGVSCSATPRSRTLGIVRSGGIYARDQIRFGEDLQLLLGLRHDRAETTSQNQVTGTTTTSSDDSATTGSAALMYQLRPGLRPYLSYASSFFPNSGTDAQGRGFAPEQGKQWELGVKVELGAAATLTAAVFDLRRRNVLEDDPLNDGYSIAIGEQRSRGGELSLNADLGSGISVTAAYAYTDATITDDGGQASTTVGQRLNNVPRNSGSLWLRYDPHAGNDGWYAGAGLRAADARYTNGYMLAGYTLFDAGAGYRHGRWDYALNVRNLFDHDYYAGGLAAAVALGDPRTLSFKIGLAY	PGPT0003790_23447	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_04043	894	ramA		(R)-stereoselective amidase	ATGAAGGTCGCCGTGGCCAAGTACGCGATCGGCCAGCCGGCCGACTTCGCCGCGTTCGCCGAACGCCAGACCGCGCTGGTCGGCGCGGCCGCTGCCACTGGTGCGCGCCTGCTGGTGCTGCCGGAATACCTGTCGCTGGAGCTGGCGGCGACGTTCGGGTTGCCGGTGTCCGCCGACCTGCAGGCCTCGCTGGCGGCGATCCAGTCGCATCGCGCGGCGTGGCTGGCGCTGTTCGCCGGGCTGGCGCGGCGCTTCGACGTGCACCTGGTCGCCGGCAGCTTCCTGCTCGCGATCGGCAACGGCCGTTACCGCAACCGCAGCGACTGGTTCACGCCCGACGGCGGTCATGGCTGGCAGGACAAGCTGCAGCTGACCGGCTTCGAGAAGGCCACCGGGGTCATCGAGCCCGGCGACGCGCTGAAGGTGTTCGACGTGGACGGCGTGCGCGTCGGCGTGGCGATCTGCTACGACAGCGAGTTCCCGCTGCCGGTGCGCGCGCAGGTCGAGGCCGGCGCGCGCCTGCTGGTGGTGCCCAGCTGCACCGATACCGCCGCCGGGGCGACCCGGGTGCGGGTTGGCTGCCTGGCGCGCGCGCTGGAGAACCGCATCTTCGTCGCCCAGGCGGTGACCGCCGGGCTGGCCGAATGGTCGGCGGCGCTGGACGTCAACACCGGCGAGGCGGCGGTCTTCGCGCCGATGGACGTGGGCTTCCCGGCCGACGGCGTGCTGGCGCAGACCGCCGGCGAGCAGGCGTGGGCGATCGCCGAGCTGGAGTTCGACGCGTTCGAGGCCAGCCGCGCCAGCGCCCAGGTCGCCAACGATCGCGACTGGCCGGGCCAGCTTGCGCCGGGCGTGGTGCGTGCGGTGGCCAGCGGATTCGCGCCGGCCGGTTGA	MKVAVAKYAIGQPADFAAFAERQTALVGAAAATGARLLVLPEYLSLELAATFGLPVSADLQASLAAIQSHRAAWLALFAGLARRFDVHLVAGSFLLAIGNGRYRNRSDWFTPDGGHGWQDKLQLTGFEKATGVIEPGDALKVFDVDGVRVGVAICYDSEFPLPVRAQVEAGARLLVVPSCTDTAAGATRVRVGCLARALENRIFVAQAVTAGLAEWSAALDVNTGEAAVFAPMDVGFPADGVLAQTAGEQAWAIAELEFDAFEASRASAQVANDRDWPGQLAPGVVRAVASGFAPAG	PGPT0007175_34	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007175-yhcX-NA	NA	NA
BMS020_04044	654			hypothetical protein	GTGGCCCGCGTGCCTGGCGTGCCAGTCACGCCTAGAATGCGCGCCATGAATTCCCCAGCGATCGCCATCGACGTATACCGCGGCAGCGCGGTCCTGCCCCATCTGGACGACGTGGCGCGGCTGCGCATCGCCGTGTTCCGCGACTGGCCGTACCTGTATGACGGCGGCGCCGGCTACGAACGCGGCTATCTCGAAGCGTATGCGGCCTCTGCGGGCAGCGTGTTCGTGCTGGCGCGTGCAGGCGACGCGGTGGTCGGTGCCTCGACCGGGCTGCCGCTGCGCGACGATGCGCCGGCGTTCCGGCAGCCGTTCGAGGACGCCGGCGAGGATCCGGCCACGGTGTTTTATTTCGGCGAATCGGTGCTGCTGCCGCAGTATCGCGGGCGCGGCATTGGCCACGCGTTCTTCGATGCGCGCGAAGCACATGCGCGCGGCCTCGGTGGCTTCCACTGCACCGCGTTCTGCGCGGTCGACCGCGATCCGGCCGACCCGCGCCGCCCGGCCGAATACCGCGGCAACGACGCGTTCTGGCACAAGCGCGGGTATGCGCGCCGGCCGGGCATGACGATGCGGTTGCGCTGGAACGAGATCGAGCGCGGCCAGCAGGACAACGACCTGACGTTCTGGACCCGTGCACTGGAGGCGCAGGCATGA	MARVPGVPVTPRMRAMNSPAIAIDVYRGSAVLPHLDDVARLRIAVFRDWPYLYDGGAGYERGYLEAYAASAGSVFVLARAGDAVVGASTGLPLRDDAPAFRQPFEDAGEDPATVFYFGESVLLPQYRGRGIGHAFFDAREAHARGLGGFHCTAFCAVDRDPADPRRPAEYRGNDAFWHKRGYARRPGMTMRLRWNEIERGQQDNDLTFWTRALEAQA				NA	NA	NA	NA	NA
BMS020_04045	405			hypothetical protein	ATGAGCGCGGTGTTCGGTGCCGCGCGGATCCTGCGGCGGGCAGCGCGCCTGCTGCCCGCCGCGCTGGAGGTGGTCGCGCTGCTGCCGCCGGCGCGGCTGGGCTGGGGCGGTTCGCCGCTAGTGCGTTTGCGGCTCGGTGCGGATGGCGGTGGGTTGCTCGGCCTGCGGTTGCAGCCGGACGTCGCCGCGGTCGTTGCCCGCCAGGGGGGCGCCTGGCTCGATGCCCATGCCGTGCAGGCACGCGCGGTGGGGCTGGAGTATCGCGGCTGGCGCTCGCTGGGCGATGCGTCGCCGCTGTTCTGGAGCGAGACCCGCTGCATGTCGCACGCCTTGCTGCTTGACGCCGCGCAATCGGCCGCATGGCTGGCCTGGCAGGGCCCGCGGCAGCGGCCGGCGCGCACCTGA	MSAVFGAARILRRAARLLPAALEVVALLPPARLGWGGSPLVRLRLGADGGGLLGLRLQPDVAAVVARQGGAWLDAHAVQARAVGLEYRGWRSLGDASPLFWSETRCMSHALLLDAAQSAAWLAWQGPRQRPART				NA	NA	NA	NA	NA
BMS020_04046	1326	creD_1	COG4452	Inner membrane protein CreD	ATGACCTCGCTGAAACTCCTGCTACGGTTCGCCACGATCGGCGGGCTGGTCCTGCTGCTGTTGATCCCACTGCTGCTGATCCGCGGCACCGTGCACGACCGCGAACGCTACCGCGACCAGGCGGTGGCGCGGGTGGCCCAGGGCAAGGCCGGCGAACAGCAGTTCATCGCACCGGTGCGCTACGTGCCGTGGACCGCCGAGACCGAGGTCGACAGCGTCGACGAACAGGGCCAGCGCCACCGCGAGCGCAAGCAGCAGAGCGGCTACGTGATGCAGACCCCGACCCGGCTGCAGGTGGTGGGCGAGCTGAAGCCGTCCGAGCGCCGCATCGGCCTGTTCAAGGTGCAGGTCTACAGCTGGCACGCACGGGTCAAGGCCGAGTTCGCGCCGCTGGACTATCCGGCCGCCGACGGCCGCGTCTATGGCCAGCCGTACCTGGGCGTGGGCATGTCCGACGTGCGCGGCCTGGTCGGAACGCCGAACCTGCGCGTCGACGGGCAGGCGCTGCCGTTGCAGGCTGGCGCCGGTGCGCTGGCGGTGGTGTCGCCGGGCGTCAACGCGATGCTGCCGGTGCTGGCCGACAGCAGCCACGGCACGTTGGCGGCGTTGCGCCAGGTCGAGATGGAGTTCGTGCTCGACGGCACCCGCGCGCTGTCGGTGGTGCCGATCGGCGATGCCAACGAGATCGCGCTGACCTCTACCTGGCCGCATCCGCTGTTCGGCGGGCGGTTCCTGCCCAACGAGCGCAGCATCGATGCCAATGGCTTCAACGCCAACTGGTCGCTGTCGTCGCTGGCCACCGGCGCGCAGGACCAGCTGCAGGGCACGCGCGGTGGCGCCGAGCTGGACGCGTTGCGGGTGGACCTGGTCGATCCGGTCGACGTCTATACGATGGCCGATCGCGCCAGCAAGTACGGCATCCTGTTCGTGGTGCTGACCTTCGTCGCGTTCGCGCTGTTCGAACTGATCAAGCGCCTGCCGATCCATCCGCTGCAGTACCTGCTGGTCGGGCTGGCGCTGGCGATCTTCTTCCTGCTGCTGCTGGGCTTGTCCGAGCACATCGCGTTCTGGCAGGCCTACCTGGTATCGGCGCTGGCCTGCATCGGCCTGCAGTTCGTGTACTTGTCGGGCGTGCTGCGCAGCTGGCTGCGCGCGGCCGGCTTCGCGACGATGCTGACCACGCTGTACGCCGTGCTGTACGCACTGCTGGCCTCGGAAGACAACGCGCTGCTGATGGGCTCGCTGCTGCTGTTCGGCATCCTGGCGGTGATCATGTGGGTGACGCGGCGCATGGACTGGTATGCGCTGGGCGCCCCGCAGCGATGA	MTSLKLLLRFATIGGLVLLLLIPLLLIRGTVHDRERYRDQAVARVAQGKAGEQQFIAPVRYVPWTAETEVDSVDEQGQRHRERKQQSGYVMQTPTRLQVVGELKPSERRIGLFKVQVYSWHARVKAEFAPLDYPAADGRVYGQPYLGVGMSDVRGLVGTPNLRVDGQALPLQAGAGALAVVSPGVNAMLPVLADSSHGTLAALRQVEMEFVLDGTRALSVVPIGDANEIALTSTWPHPLFGGRFLPNERSIDANGFNANWSLSSLATGAQDQLQGTRGGAELDALRVDLVDPVDVYTMADRASKYGILFVVLTFVAFALFELIKRLPIHPLQYLLVGLALAIFFLLLLGLSEHIAFWQAYLVSALACIGLQFVYLSGVLRSWLRAAGFATMLTTLYAVLYALLASEDNALLMGSLLLFGILAVIMWVTRRMDWYALGAPQR				NA	NA	NA	NA	NA
BMS020_04047	1437	creC_1	COG0642	Sensor protein CreC	GTGCGGCTTGGGCTGAAACTGTTCCTGGGCTTCTTCCTGATCGTCGGCATCGCCGCGTTCTTCGTGATGCGGGTGTTCGTCAACGAGGTCAAGCCCGGCGTTCGCCAGGCGATGGAATCGACGCTGGTGGACGCGGCCAACGTGCTGGCGGAGATGGCCGCGCCCGACCTGGCCGCCGGCCGCATCGCCGACGGCACGTTCGCCAACGGCGTGGCCAATGCGCAGCGCCGCGATCCGCGCGCCTGGGTGTGGCGTTTCCCCAAGCGCAGCGTCGATTACCGGGTCACCGTGACCGATGCGCGCGGCGTCGTGGTCTACGACTCGCTCGGGCGCGACCTCGGGCGCGACAACTCGCGCTGGAACGACGTCTACCGCACCCTGCGCGGCGAGTACGGGGCGCGCTCCAGCCCGGAGGCGCCCGGCGATGCCGAGCACACGGTGATGCACGTGGCCGCGCCGATCCGCGACCCGGCCGATGGCCGCACCCTGATCGGCGTGCTCACGCTGTCCCAGCCCAACCGCAGCATCGAGCCGTTCATCGTCGCCAGCCAGCGCAGCATCCTGCTGCGCGGGGCCTGGCTGATCGGCATCGCGGCGCTGATCGGACTGGTGATGACCTGGTGGCTGGTGCGCGGCATCGGCGGCCTCAACCGCTATGCGCAGGCGGTCAGCGCCGGGCGACCGGTGCCGCCGCCACGGCCGCGCCGCGACGAGATCGGCGACCTCGGCCAGGCGCTGGAGACGATGCGGCGCAAGCTGGAGGGCAAGGCCTACGTCGAGCAGTACGTGCAGTCGCTGACCCACGAGATGAAAAGTCCGCTGGCGGCGATCCGCGGCGCCGCCGAGTTGCTGCAGGAGCCGTTGCCGGAGCCGGACCGGCAGCGCTTCGCGCGCAGCATCCAGACCCAGGAACAGCGCCTCACCGAAACCATCGACAAGCTGCTGGCGCTGGCCGAGGTGGAGCAGCACGGCTGGTTGCAAAAACGCGTGCCGGTGGCGCTGGCGACGCTGCTGGCCGACGTGGGCGAGGCCATGGCCGCGCGCGCTGAAGCGGCGGGCGTGCGGCTGCAGGTGGAGCCCGCCGCCGGGATCGTCAGCGGCGATCCGTTCCTGTTGCGGCAGGCGCTGATCAACCTGGTGGAGAACGCCATCGCGTTCTCGCCGCCGCTGGCCGAGGTGCGCGTCGGCGTGGTGCCGGTCGATGCGCGGCTGTGCCTGCGCGTCGAGGACCGTGGCAGCGGCGTGCCCGACTATGCCCGGGAACGGGTGTTCGAGCGGTTCTATTCGCTGGCGCGGCCCGGCAGCGGCCAGCGCAGTTCCGGGCTTGGCTTGCCGTTCGTGCGCGAGGTCGCGCGACTGCACGGCGGCGAGGCCCGGCTGGTGAACCGCGACGGCGGTGGCGCGCTGGCCGAACTGGTGCTGCCGGCGGGCGGATAG	MRLGLKLFLGFFLIVGIAAFFVMRVFVNEVKPGVRQAMESTLVDAANVLAEMAAPDLAAGRIADGTFANGVANAQRRDPRAWVWRFPKRSVDYRVTVTDARGVVVYDSLGRDLGRDNSRWNDVYRTLRGEYGARSSPEAPGDAEHTVMHVAAPIRDPADGRTLIGVLTLSQPNRSIEPFIVASQRSILLRGAWLIGIAALIGLVMTWWLVRGIGGLNRYAQAVSAGRPVPPPRPRRDEIGDLGQALETMRRKLEGKAYVEQYVQSLTHEMKSPLAAIRGAAELLQEPLPEPDRQRFARSIQTQEQRLTETIDKLLALAEVEQHGWLQKRVPVALATLLADVGEAMAARAEAAGVRLQVEPAAGIVSGDPFLLRQALINLVENAIAFSPPLAEVRVGVVPVDARLCLRVEDRGSGVPDYARERVFERFYSLARPGSGQRSSGLGLPFVREVARLHGGEARLVNRDGGGALAELVLPAGG	PGPT0015045_150	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015045-creC-K07641	NA	NA
BMS020_04048	750	creB_1	COG0745	Transcriptional regulatory protein CreB	GTGCCGGATGCGGGCCGCGGGCCGGCGCTTGCGGCTATGCTGCGCGCCATGTCCGCCGTTGCCCCTGCCGCCAGCATCCTGCTCGTCGAGGACGAGCCCGCCATCGCCGACACGGTGCTGTACGCGCTGCGCAGCGAAGGCTATGCGGCGCGGCACGCGCTGCTCGGCGGCGAGGGGCTGCGCCAACTGCGCGCCGGCGGCATCGACCTGGTGCTGCTGGATGTAGGTCTGCCTGACATCAGCGGGTTCGAGGTGTGCCGCACGCTGCGTGGCTTCAGCGAGGTGCCGGTGATCTTCCTTACCGCCCGCAACGAGGAGATCGATCGCGTGCTCGGCCTGGAGCTGGGCGGCGACGACTACGTGGCCAAGCCGTTCTCGCCGCGCGAGCTGGTCGCGCGGGTGCGCGCACGGCTGCGTCGCCACGCGCCGGCGGCGAGCGGTGGCGACGGCGGCTGGCAGCAGCACGCCGAGTTCGCGATCGACCGCGACGGCCACCGCATCCGCTACCGTGGCGCGCTGCTGCCGCTGACCCGTTACGAATACGCACTGCTGGCCGCGCTGCTGCAGCGCCCCGGAGCGATCCTCAGCCGCGCCCAGTTGATGGACCGCGGCTGGGACAGCGCCGCCGACAGCGCCGACCGCACCGTCGATACCCACGTCAAGACGCTGCGCGCCAAGCTGCGCGCGGCCGGTGTCGCCGGGGAGCCGATCCGCACCCATCGCGGTGTCGGCTACGCACTGGAGCTGTGA	MPDAGRGPALAAMLRAMSAVAPAASILLVEDEPAIADTVLYALRSEGYAARHALLGGEGLRQLRAGGIDLVLLDVGLPDISGFEVCRTLRGFSEVPVIFLTARNEEIDRVLGLELGGDDYVAKPFSPRELVARVRARLRRHAPAASGGDGGWQQHAEFAIDRDGHRIRYRGALLPLTRYEYALLAALLQRPGAILSRAQLMDRGWDSAADSADRTVDTHVKTLRAKLRAAGVAGEPIRTHRGVGYALEL	PGPT0015055_129	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015055-creB-K07663	NA	NA
BMS020_04049	858	rlmJ_2	COG2961	Ribosomal RNA large subunit methyltransferase J	ATGAACTATCGCCACGCCTTCCACGCCGGCAACCACGCCGACGTGCTCAAGCACATCGTCATGCTGGCCCTGCTGGAGTCCTTCAAGCGCAAGGACTCGCCGTTCTTCGTGCTCGACACCCATGCCGGCCGCGGCCGTTATTTGCTGGGCGGCGAGGAAAGCCGCAAGACCAGCGAGGCCGAGGACGGCGTGATGCGGCTGATGGCGCAGCCGCAGCTGCCGGAGGTGGTGGAGCACTACCTGCGCGCGGTGCAGGCCGACAATCCGGTGGGCGCGCTGGTCGCCTATCCCGGCTCGCCGCTGCTGGCCGCGCAGGCCGCGCGCGCGCAGGACCGGCTGGCGCTCTGCGAGGTGCAGCCGGAGGAAGCCGGCGCGCTGAAGGCCCTGTTCGAACACGACCGCCGGGTGCGCGTGCATGCCGGCGACGGCTATGCCGCGGTGCGCGCGTTCGTGCCGCCCAAGGCCGGCGAGGCCAAGATCGGCCGCGGTCTGGTGCTGATCGATCCGCCGTACGAGGCGCAGGACGCCGAGTACCCGCGCATCATCGACTGCCTGCGCGAGACCTTGGCCCGCTGGCCGCAGGCGACCTGCGCGGTGTGGTACCCGATCAAGCAGCGCCGCAGCCTGCTGCCGTTCTTCCGCAAGGCCGCCGCGCTGCCGGGCAAATCGGTGCTGCTGGCCGAGCTGCTGGTGCATGCCGACGACTCGCCGCTGCGGCTCAACGGCAGCGGCATGCTGCTGGTCAATGCGCCGTGGCAGTTCGAGCAGACCATCGCCCCGGCGCTGCCGGTGCTGAAGGCCCATCTGGGCGACGCCGGGGCCTCCACCCGGCTCGAATGGCTGCGCCAGCCGGGCTGA	MNYRHAFHAGNHADVLKHIVMLALLESFKRKDSPFFVLDTHAGRGRYLLGGEESRKTSEAEDGVMRLMAQPQLPEVVEHYLRAVQADNPVGALVAYPGSPLLAAQAARAQDRLALCEVQPEEAGALKALFEHDRRVRVHAGDGYAAVRAFVPPKAGEAKIGRGLVLIDPPYEAQDAEYPRIIDCLRETLARWPQATCAVWYPIKQRRSLLPFFRKAAALPGKSVLLAELLVHADDSPLRLNGSGMLLVNAPWQFEQTIAPALPVLKAHLGDAGASTRLEWLRQPG				NA	NA	NA	NA	NA
BMS020_04050	543	patZ	COG0454	Peptidyl-lysine N-acetyltransferase PatZ	ATGGCCATCCGCAACCGCATGCCGCCTTGGCATGAAAATTTCAAACTCCCCAATGGCCGCACCCTCCTGCTGCGTCCGGTCCGCCCAGAGGACGGCCCGCCGTTGCAGGGCGCCTTCACCCTGTTCGGCCCGGAAGAGATCCGCCAGCGTTTCGTCAACCCGGTGGCGGAGGTGCCGGGCGACATGCTGCAGCGCCTGACCCATCCCAATCCCAAGAGCGAGATCGTGCTGGTCGCCGCCGAGCAGATGCCGCCGGGCGAGGCGATGATCGGCGCGATCGCCCGCGCCTCCATCGTGCCCGGCTCGCGCCAGGCCGAATACATGATCCTGGTCAGCAGCTTCGTCGCCGGCCAGGGATTGGGGCGGCAGCTGATGCGCAAGCTGGTCAAGTGGGCGCGTCGCAAGTACCTGGACCGGCTGTACGGCGACGTGCTGCAGAGCAACCAGCCGATGATGCAGCTGGCCGAGTCGCTGGGCTTCAAGCCGCAGCCGCACCCGGAATCGCCGGAACTGGTGCGGATGGTGCTGGAACTGGAAGCCTGA	MAIRNRMPPWHENFKLPNGRTLLLRPVRPEDGPPLQGAFTLFGPEEIRQRFVNPVAEVPGDMLQRLTHPNPKSEIVLVAAEQMPPGEAMIGAIARASIVPGSRQAEYMILVSSFVAGQGLGRQLMRKLVKWARRKYLDRLYGDVLQSNQPMMQLAESLGFKPQPHPESPELVRMVLELEA				NA	NA	NA	NA	NA
BMS020_04051	3489	mfd_2	COG1197	Transcription-repair-coupling factor	ATGGCGTCGCTCACTTTTCCCGCTCCCCCCCTGCCCCGTGCCGGGCAGCTCCGCGCCTTCTGGCGCGCTCCCGCCTCCGCGTCCGCGCTGGCCTGGTACGTCGCGCAGGCCGCGCGCGCCCACGCCGGGCCGCTGCTGGTCGTCGCCCGCGACAACCACGGCGCACACCAGCTCGAAGCGGACCTGCACACCCTGCTCGGCGACGACGCCGCGCTGCCGGTGGTGCCGTTCCCGGACTGGGAGACCCTGCCCTACGACCAGTTCAGCCCGCACCCTGACATCACCAGCCAGCGCCTGAGCGCGCTGCACCGGCTGCCCACGCTGAAGCGCGGGATCGTGGTGGTGCCGGTGCAGACGCTGATGCAGCAGCTGGCGCCGCTGAGCTACATCGTCGGCGGCAGCTTCGACCTGAGGGTCGGCCAGCGCCTGGACCTGGACGCGGAGAAGCGCCGGCTGGAAAGCGCCGGCTACCGCAACGTGCCGCAGGTGATGGACCCGGGTGACTTCGCGGTGCGCGGCGGCCTGCTCGACGTCTATCCGATGGGCTCGGACACCCCGCTGCGGATCGAGCTGCTCGACGAGGACATCGATTCGATCCGCGCCTTCGACCCGGAATCGCAGCGCTCGCTCGACCGCGTCGACGCGGTCAAGCTGCTACCGGGCCGCGAAGTGCCGATGGACGACGCCAGCGTCGAGCGCGTACTGACCCGGCTGCGCGACCGCTTCGACGTCGATACCCGGCGCAGCGCGCTGTACCAGGACCTGAAGGCGCGGCTGGCGCCGTCGGGTATCGAGTACTACCTGCCGCTGTTCTTCGAGCCGGCGCGTGGCGCCGCGCAACCGACGGCGACACTGTTCGACTACCTCGCCGCCGACCCGCTGGTACTGGTCGCGCCCGGCGTGTCCAACGCCGCCGACGCGTTCTGGACCCAGGCACAGGCGCGTTACGAGCAGCGCCGGCACGACGTCGAACGCCCGCTGCTGCCACCAAACGAGCTGTACCAGACCCCGGACGTGCTGCGCGAGCGCCTCAACACGCTGCCGCGCATCGAGGTCTGGCCGGCCGACCACGCCAACCTCGACAAGGCCAGCGCGCTCGGCGACCAGCCGCTGCCGCCGCTGCCGGTCGCGGCCAAGGACGCCCCCGCCGGCCAGGCGCTGAAGTCGTTCCTGCAGCACTATCCGGGCCGCGTGCTGGTGGCCGCCGATTCGCCCGGCCGCCGCGAGGCGCTGATCGAGGTGCTGGCCGCGGCCGAGCTGAAGCCGAAGACCGTCGCCGACCTGCCGGGCTTCCTCGCCGACCCCGCATGCCGCTTCGCGATCGCGGTGGCGCCGCTGGACGACGGCTTCGCGCTGGACGACCCGCAGGTTGCGGTACTGACCGAACGCCAGCTGTTCCCCGAGCGCGCCAGCCAACCCAAGCGCACGCGCCGCGCCGGACGCGAACCGGAAGCGATCATCCGCGACCTCGGCGAGCTGACCGAAGGCGCGCCGATCGTGCACGAGGACCACGGCGTCGGCCGCTACCGCGGGCTGATCGCGATGGACGTCGGCGGCATGCCCGGCGAGTTCCTCGACATCGAATACGCCAAGGGCGACCGGCTGTACGTGCCGGTCGCGCAGCTGCACCTGATCAGCCGCTATTCCGGCGCCTCGGCCGAGACCGCGCCGCTGCATTCGCTCGGTGGCGAACAGTGGACGAAGGCCAAGCGCAAGGCCGCCGAGAAGGTGCGCGACGTCGCCGCCGAGCTGCTGGAGATCCAGGCCCGCCGCCGCGCGCGCGCCGGCCTGGCGCTGCAGGTGGACCGGGCGATGTACGAACCGTTCGCCGCCGGCTTCCCGTTCGAGGAGACGCCCGACCAGATCTCGGCGATCGACGCCACGCTGCGCGATCTCGCCAGCAGCCAGCCGATGGACCGCGTGGTCTGCGGCGACGTCGGCTTCGGCAAGACCGAGGTCGCCGTGCGCGCCGCGTTCGCCGCCGCCAGCAGCGGGCGGCAGGTCGCGGTGCTGGTGCCGACCACGCTGCTGGCCGAGCAGCACTACCGCAACTTCCGCGACCGCTTCGCCGACTGGCCACTGAAGGTCGAGGTGCTGTCGCGCTTCAAGAGCAGCAAGGAGATCAAGGCCGAGCTGGACAAGGTCGCCGAAGGCACCATCGACGTGATCATCGGCACCCACCGCCTGCTGCAGCCGGACGTCAAGTTCAAGGACCTGGGCCTGGTGATCGTCGACGAGGAGCAGCGCTTCGGCGTGCGCCAGAAGGAAGCGCTGAAGGCGATGCGCGCCAACGTACACCTGCTGACGCTGACCGCCACGCCGATCCCGCGCACGCTCAACATGGCCATGGCCGGGCTGCGCGACCTGTCGATCATCGCCACGCCGCCGGCCAACCGGCTGGCGGTGCAGACCTTCATCACCGCCTGGGACCCGGCGCTGCTGCGCGAGGCGTTCCAGCGCGAACTCTCGCGTGGCGGCCAGCTGTACTTCCTGCACAACGACGTGGAGAGCATCGGCCGGATGCAGCGCGACCTGGCCGAGCTGGTGCCTGAGGCGCGCATCGGCATCGCCCACGGGCAGATGCCCGAGCGCGAGCTGGAACGGGTGATGCTGGATTTCCAGAAGCAGCGCTTCAACGTGCTGCTGGCGACCACGATCATCGAATCGGGCATCGACATCCCCAACGCCAACACCATCGTCATCAACCGCGCCGACCGCTTCGGCCTGGCCCAGCTGCACCAGCTGCGCGGCCGCGTCGGCCGTTCGCACCACCGCGCCTATGCGTATCTCGTCGTGCCGGACCGGCGCGCGATGACCCCGGATGCGGAGAAGCGGCTGGAGGCGATCGCCTCGATGGACGAACTCGGTGCCGGCTTCACCCTGGCCACCCACGACCTGGAGATCCGCGGCGCCGGCGAGCTGCTCGGCGAGGACCAGAGCGGGCAGATGGCCGAGGTCGGTTTCAGCCTGTACACCGAGCTGCTGGAACGCGCGGTGCGCAGCATCAAGCAGGGCAAGCTGCCGGACGTGGACGTCGGCGAGGAATCGCGCGGCGCCGAGGTCGAGCTGCACGTGCCGTCGCTGATCCCCGAGGACTACCTGCCCGACGTGCATGCGCGCCTGACGCTGTACAAGCGCATCTCCAGCGCGCGCGACAGCGACGCGCTGCGCGAGCTGCAGGTCGAGATGATCGACCGCTTCGGCCTGCTGCCCGATGCCACCAAGCACCTGTTCGCGATCGCCGAACTCAAGCTGCAGGCCAGCGCGCTGGGCGTGCGCAAGCTGGAGCTCGGCGAGGCCGGCGGCCGGGTGGTGTTCGAGGCCAAGCCCAACATCGACCCGATGACGGTGATCCAGATGATCCAGAAGCAGCCGCGCATCTATGCGATGGACGGTGCGGACAAGCTGAAGCTGAAGCTGCCGCTGCCCGAAGCGGCCGATCGCTTCAACGCCGCGCGCGGGCTGCTGGCGGCGCTGTCGCCGCGCTGA	MASLTFPAPPLPRAGQLRAFWRAPASASALAWYVAQAARAHAGPLLVVARDNHGAHQLEADLHTLLGDDAALPVVPFPDWETLPYDQFSPHPDITSQRLSALHRLPTLKRGIVVVPVQTLMQQLAPLSYIVGGSFDLRVGQRLDLDAEKRRLESAGYRNVPQVMDPGDFAVRGGLLDVYPMGSDTPLRIELLDEDIDSIRAFDPESQRSLDRVDAVKLLPGREVPMDDASVERVLTRLRDRFDVDTRRSALYQDLKARLAPSGIEYYLPLFFEPARGAAQPTATLFDYLAADPLVLVAPGVSNAADAFWTQAQARYEQRRHDVERPLLPPNELYQTPDVLRERLNTLPRIEVWPADHANLDKASALGDQPLPPLPVAAKDAPAGQALKSFLQHYPGRVLVAADSPGRREALIEVLAAAELKPKTVADLPGFLADPACRFAIAVAPLDDGFALDDPQVAVLTERQLFPERASQPKRTRRAGREPEAIIRDLGELTEGAPIVHEDHGVGRYRGLIAMDVGGMPGEFLDIEYAKGDRLYVPVAQLHLISRYSGASAETAPLHSLGGEQWTKAKRKAAEKVRDVAAELLEIQARRRARAGLALQVDRAMYEPFAAGFPFEETPDQISAIDATLRDLASSQPMDRVVCGDVGFGKTEVAVRAAFAAASSGRQVAVLVPTTLLAEQHYRNFRDRFADWPLKVEVLSRFKSSKEIKAELDKVAEGTIDVIIGTHRLLQPDVKFKDLGLVIVDEEQRFGVRQKEALKAMRANVHLLTLTATPIPRTLNMAMAGLRDLSIIATPPANRLAVQTFITAWDPALLREAFQRELSRGGQLYFLHNDVESIGRMQRDLAELVPEARIGIAHGQMPERELERVMLDFQKQRFNVLLATTIIESGIDIPNANTIVINRADRFGLAQLHQLRGRVGRSHHRAYAYLVVPDRRAMTPDAEKRLEAIASMDELGAGFTLATHDLEIRGAGELLGEDQSGQMAEVGFSLYTELLERAVRSIKQGKLPDVDVGEESRGAEVELHVPSLIPEDYLPDVHARLTLYKRISSARDSDALRELQVEMIDRFGLLPDATKHLFAIAELKLQASALGVRKLELGEAGGRVVFEAKPNIDPMTVIQMIQKQPRIYAMDGADKLKLKLPLPEAADRFNAARGLLAALSPR				NA	NA	NA	NA	NA
BMS020_04052	330			hypothetical protein	ATGAACGCTCCGCACACGGATCGACCGGCGCCGTTGTCGCTTGCCCTCGAGGGCGAAATGACCATTCGCCGCGCCAGTGAACTCAAGCCGATGCTCGCCCCGGCGCTGCTGCACCCCGGTGGTCTGCGGCTGGATCTGAGCAGCGTCAGCGAGATCGACACCACCGGTGTGCAGCTGCTGCTGGCGACCAAGCAGGCGCTGCAGCTCGATTGCAGACCGTTTGAACTGAGCGACTGCAGCCGCGCGGTCGTCGACGTCGTCGAGCTGCTTGGCCTGCTCGACCTCCTGACCCCATCGGCGATCCAGCCAGCGGATGGCGGACTGCATTGA	MNAPHTDRPAPLSLALEGEMTIRRASELKPMLAPALLHPGGLRLDLSSVSEIDTTGVQLLLATKQALQLDCRPFELSDCSRAVVDVVELLGLLDLLTPSAIQPADGGLH	PGPT0014350_1440	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749	NA	NA
BMS020_04053	2016	cheA_1	COG0643	Chemotaxis protein CheA	ATGGACATGAGTCAGCTGATGCAGACCTTCCTGGCCGAGAGCCGGGACCTGCTCGAAGACATGGAACGCCACCTGCTCGACGTCGAGCATGGCACCGCCTCGCCGGATGCGGTCAACGCGATCTTCCGCGCCGCGCACACCATCAAGGGCTCCGGCGGCCTGTTCGACCTGCCGCAGCTGGTCGGCTTCACCCACGTCGTGGAGAGCGTGCTCGACCTGGTCCGCGAGGACAGCGTGCCCCTCGACTCCGAGCTGGTCGCGCTGCTGCTGGTCTGTTGCGACCACATCCACGCCCTGGTCGAAACCGCAGCCGATCCCAGCCACGCCGAACCCGACGCCCTGGCCGCCGAGGCCGAGCCGCTGCTGGCCCAGCTGCATGGCTACCTGAGCTCCGGCGACGGCGATGCCGGCGGTACCGCCATCGAGGCGATCGTGCCGGAGAAGCAGAGCGGCCACTGGCGGATCGCGCTGCGGCTGTTCCCCGATGCGCTGCGCTTCGGCAACTCGCCGTTGAAGCTGATCCGCGGCCTGCGCGGACTGGGCTCGGTGGAATCGGTGCAGACCGATGCCAGCCAGCTGCCGGCATTCGAGGACCTGGAACCGGAAAGCAGCTACCTGGCCTTCCAGATCGCGCTGCGCTCGGACGCCGACCGTGCCGCGATCGAGGATGTGTTCGAGTTCGTCCGCGACGACTGCGACCTGGAGATCACCGCGGTGTCGCCCACGTCGCCGCCGCCGTGTGCCGCAGCGCCCGCCGCCCAGATGCCTGTCGCCGCTCCGCCCTGCGCGCATGCCGCGCCGGCGCCGGCACGGGCCGCTGCGCCGGCACCGGTGCACGACGATGGCGCCGCACGCGGCAGCGAGACCCGCTCGATCCGCGTCGACGCCGACAAGCTCGACCGCATGATCGACCTGGTCGGCGAACTGATCATCGCCGTTGCCAGCACCGGCGCCAGCGCCCAGCGCACCGCCGATCCGCAGTTGCTGGAATCGACCTCGCTGCTCGCCACCCTGGTCGCCGACCTGCGCGAAAGCGCGCTGCAGCTGCGCATGGTCAAGATCGGCGGCACCTTCAGCCGCTTCCAGCGCGTGGTCCACGACGTCTCGCGCGAACTCGGCAAGGACATCGTGCTCGCCGTCAGTGGTGAGGACACCGAACTGGACAAATCGGTGGTGGAGAAGATCGGCGACCCGCTGACCCACCTGGTGCGCAACGCGATGGACCATGGCATCGAACCGGCCGAGGTGCGCATCGCCAACGGCAAGCCGGCGCGCGGCACGGTCGGGCTCCACGCCTACCACGACTCCGGCAGCATCGTCATCGAGATCACCGACGACGGTGGCGGCCTCAACCGCGACAGGATCATGGCCAAGGCGGTCGAACGCGGCCTGGTCGAGGCCGGCCGCACGCTGCCCGACCGCGAGGTGTTCGCGATGATCTTCGAGCCGGGCTTCTCGACCGCCGAGAAGATCACCAACCTGTCCGGCCGCGGCGTCGGCATGGACGTGGTCAAACGCAACATCACCGCGCTGCGCGGCAGCGTCGACATCGACAGCACCCAGGGTGTCGGCACCAAGATCTCGGTGCGGCTGCCGCTGACGCTGGCGATCATCAACGGCTTCCAGGTCGGCGTCGGCAAGTCGGTGTTCGTGGTGCCACTCGACGTGGTCGAGGAATGCGTCGAATTCGCCCCCGACCACGCCAACCGCTACATCGACCTACGCGGCGACGTGCTGCCCTATGTGCGGCTGCGCGAGATGTTCTCGATCCACGGCAAGCCACCCGCGCGTGAAAGCATCGTGGTGATCCAGCAGGGCACCCAGCGCTTCGGCCTGGTCGTGGACACCCTGCTGGGCGAATGGCAGACCGTGATCAAGCCGTTGTCCAAGGTCTTCGCCGGGGTCAAGGGCATCAGCGGCTCGAGCATCCTCGGCAGTGGGGACGTCGCGCTGATCCTCGATGTCCCCGGCCTGCTCCGGCAGATGCATCCACCACACGAGGCCCTGGCGGCCTGA	MDMSQLMQTFLAESRDLLEDMERHLLDVEHGTASPDAVNAIFRAAHTIKGSGGLFDLPQLVGFTHVVESVLDLVREDSVPLDSELVALLLVCCDHIHALVETAADPSHAEPDALAAEAEPLLAQLHGYLSSGDGDAGGTAIEAIVPEKQSGHWRIALRLFPDALRFGNSPLKLIRGLRGLGSVESVQTDASQLPAFEDLEPESSYLAFQIALRSDADRAAIEDVFEFVRDDCDLEITAVSPTSPPPCAAAPAAQMPVAAPPCAHAAPAPARAAAPAPVHDDGAARGSETRSIRVDADKLDRMIDLVGELIIAVASTGASAQRTADPQLLESTSLLATLVADLRESALQLRMVKIGGTFSRFQRVVHDVSRELGKDIVLAVSGEDTELDKSVVEKIGDPLTHLVRNAMDHGIEPAEVRIANGKPARGTVGLHAYHDSGSIVIEITDDGGGLNRDRIMAKAVERGLVEAGRTLPDREVFAMIFEPGFSTAEKITNLSGRGVGMDVVKRNITALRGSVDIDSTQGVGTKISVRLPLTLAIINGFQVGVGKSVFVVPLDVVEECVEFAPDHANRYIDLRGDVLPYVRLREMFSIHGKPPARESIVVIQQGTQRFGLVVDTLLGEWQTVIKPLSKVFAGVKGISGSSILGSGDVALILDVPGLLRQMHPPHEALAA	PGPT0015645_3739	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015645-cheA|wspE-K03407	NA	NA
BMS020_04054	2145			hypothetical protein	ATGTCCAACCGAGCCCCGATCGCAACCACGCTGCGGCTGAGTGCCGCCATCGCCGTCGCCCTGCCCGTGCTGGTCGTGATTGCCAGCAGCGCGCTTGGCGCACCGACCACCGTCCTCGTCATGTTGAGCCTGCTCGCCGCCGCCGCAGGCGGGGCATCGCTGGCCTGGGCGATCGGCGCCAGCGTGCAATCGACCGCAGCGGTCTCCGGCGCGCTGGACACCTTCGCGCAAGGCAACTTCAACGCGCCGTTGCCGGACCTGCGCGACGGCGATGCCGCGGGGATCGTGCAGGCGCTGCGCAAGGTCCAGGGCGGCATCCGCCAGCTCGGCGACGAGGTCCAGCGCGTCGCACGCGCGCATGAGGCCGGCGACATCGACGCCGTCATCGAAGGCACCCGGCTGGACGGCGACTTCCGCGCACTCGGCGACAGCATCAACGCTCTGGTCGCCAGCCATATCGCGGTCAAGAAGCAGGCGATGGCCTGCGTGGCCGAGTACGGCCGCGGCAACTTCCAGGCGCAGATCGAGCGGCTTCCGGGCAAGAAGGCCTTCATCAACGACATCCTCGACCAGGTGCGCGGCAACCTCACCGGCCTGGTCGCCGAGGTCAACCGGATGGCCTCCGAACACGAGGCGGGCGACATCGACGTGGTGATCGAGACCGGCCGCTTCGACGGCGACTTCCGCGGCATGGCCGACGGCATCAACAAGATGGTCGGCGCGCATATCGCGGTCAAGAAGCAGGCGATGGCCTGCGTGGCCGAATTCGGCCGCGGCAACTTCCAGGCGCAGATCGAGCGGCTGCCGGGCAAGAAGCGCTTCATCAACGACACCATCGAGCAGGTCCGCGGCAACCTCACCGGCCTGATCGCCGAGATCAACCACATGTCGGCCGAGCACGACGCCGGCGACATCGACGTGGTGATCGACATCAACCGCTTCGATGGCGACTTCCGCACCATGGCCGATGGCATCAACACGATGGTCGGCGCGCACATCGGGGTGAAGAAGCTGGCGATGGGCGTGGTGGCCGAATTCGGCCGCGGCAACTTCGAGGCACCGATGGCCCAACTGCCGGGCAAGAAGGCCTTCATCAACGAGACCATCGAGCGCGCACGCGGCAACCTGCGCAGCATCACCGAGGTGATCTCGGTGATGGGCGCGGTCGCCGAGGGCGACCTGACCAGCAGCATGAGCGGGCGCTACGAAGGCACCTTCGCCGACATGCAGCGCTACGTGAACACCACGATCGCCCGGCTGACCGAGATCGTCGACGAGGTCAACCGCAACGCGCAGAACCTGGCCAGCGCGTCGGAGGAAGTCAGCGCCACCGCGCAGTCGCTGTCGCAGGCCGCCAGCGAACAGGCCGCCGGCGTCGACCAGACCAGCGCGTCGCTGGAGCAGATGACCGCCTCGATCGCGCAGAACACCGAGAACGCGCGCATCACCGACGGCATGGCCGCCAAGGCCGCGACCGAGGCCGCCGAGGGCGGCGACGCGGTGCGCGCCACGGTCACCGCGATGAAGGACATCGCACGCAAGATCAGCATCATCGACGACATCGCCTACCAGACCAACCTGCTGGCGCTGAACGCGGCGATCGAGGCCGCGCGTGCCGGCGAGCACGGCAAGGGCTTCGCGGTGGTCGCCGCCGAGGTGCGCAAGCTGGCCGAGCGCAGCCAGGTTGCCGCGCAGGAGATCGGCGAGGTCGCCAGCTCCAGCGTGGAACTGGCCGAAAGCGCCGGCCGCCTGCTCGGCGAGATGGTGCCGTCGATCCGCCGCACCTCCGACCTGGTGCAGGAGATCTCCGCCGCCTCCGAGGAGCAGACCTCCGGCGTCAGCCAGATCAACACCGCGGTCAGCCAGCTCAACCAGACCACCCAGTCGGCCGCGGCCAACGCCGAGGAGCTGGCCGCCACCTCCGAGGAGATGAGCGCGCAGGCCGAGCAGCTGCAGCAGCTGATGGGCTTCTTCAGGCTCGGCGATACGGCACCGGCGGCGCAGGCGCAGGCAACGCGCGCCAAGCGTCCTGGCCCGCGCGCGCTGACCAGCGTGCAGGGCCGGCGCGGCGGCGCGCTGCGCGCCTTGAGTGCGGTCGAGCCGATGGCCGAGGCGCTGGACGAATCGCAGTTCGGCCCGTTCTGA	MSNRAPIATTLRLSAAIAVALPVLVVIASSALGAPTTVLVMLSLLAAAAGGASLAWAIGASVQSTAAVSGALDTFAQGNFNAPLPDLRDGDAAGIVQALRKVQGGIRQLGDEVQRVARAHEAGDIDAVIEGTRLDGDFRALGDSINALVASHIAVKKQAMACVAEYGRGNFQAQIERLPGKKAFINDILDQVRGNLTGLVAEVNRMASEHEAGDIDVVIETGRFDGDFRGMADGINKMVGAHIAVKKQAMACVAEFGRGNFQAQIERLPGKKRFINDTIEQVRGNLTGLIAEINHMSAEHDAGDIDVVIDINRFDGDFRTMADGINTMVGAHIGVKKLAMGVVAEFGRGNFEAPMAQLPGKKAFINETIERARGNLRSITEVISVMGAVAEGDLTSSMSGRYEGTFADMQRYVNTTIARLTEIVDEVNRNAQNLASASEEVSATAQSLSQAASEQAAGVDQTSASLEQMTASIAQNTENARITDGMAAKAATEAAEGGDAVRATVTAMKDIARKISIIDDIAYQTNLLALNAAIEAARAGEHGKGFAVVAAEVRKLAERSQVAAQEIGEVASSSVELAESAGRLLGEMVPSIRRTSDLVQEISAASEEQTSGVSQINTAVSQLNQTTQSAAANAEELAATSEEMSAQAEQLQQLMGFFRLGDTAPAAQAQATRAKRPGPRALTSVQGRRGGALRALSAVEPMAEALDESQFGPF	PGPT0015710_2957	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
BMS020_04055	528	cheW_1	COG0835	Chemotaxis protein CheW	ATGGAGCAGACAACCACGCGCGCGGCGACCGAGGACGGCGCGGCCGCGCCGGAACAGTTCCTGACCTTCCTGCTCGGCCAGGAGATGTTCGCCGTCAGCATCGCCGGCATCCGCGAGATCATCGAACACCGCCAGCCCACCGAGGTGCCGATGATGCCGGCCGCGCTGCTCGGGGTGATCAACCTGCGCGGCGCGGTGGTGCCGGTGATCGACCTGCAGCAGCGCTTCGGCCGCAGCCCGAGCCAGATCGGCAAACGCAGCTGCATCGTCATCGTCGAGGTCAGCAGCGAGGGCGAGCGCCACGTGCTCGGGCTGCTGGTCGACGCGGTCAGCGCGGTGCTCGACATCCCGCCCACCGACATCGCCCCGGCACCGTCGTTCGGCGCCGGCATCCGCCGCGATTTCATCCGCGGCATGGGCAAGGTCGGCGACCGCTTCGTGATCGTGCTCGATGCCGACGCGGCCCTGGCCCCGCATGAGTTCGCCACGCTGGCGGCTGCAGCCGACCCGGTCGGCTGCGCCGCCTGA	MEQTTTRAATEDGAAAPEQFLTFLLGQEMFAVSIAGIREIIEHRQPTEVPMMPAALLGVINLRGAVVPVIDLQQRFGRSPSQIGKRSCIVIVEVSSEGERHVLGLLVDAVSAVLDIPPTDIAPAPSFGAGIRRDFIRGMGKVGDRFVIVLDADAALAPHEFATLAAAADPVGCAA	PGPT0015680_1417	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015680-cheW-K03408	NA	NA
BMS020_04056	1290	cheB_1		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGCGCGCACCGCATATTCCCTGCAGCTGTGCCCTGAAAGGACCGGTGCTGGTGGTCGACGACAGCCTGCTGCAGCGCGAGCATGCACTCGCCCTGTGCCGCAAGCTCGGCGCCACCCAGGTCGAAGGCGTCGCCAGCGGCCAGGCGGCACTGGACTGGCTGGCGCGTGCCAGCGCGCCCTCGCTGCTGCTGATCGATCTCGAGATGCCGGGCATGGACGGCGTGCAGCTGCTCGACGCCCTGGCCCGCGGCAAGCATGCGGTGCCGGTGGTGGTGGTGTCCGAACGCGGCAGCGCGTTGATCGATGCAGTGATGCAGCTCAGCCGCAGTGCCGGTGTGCAGGTGCTGGCCGGCGCCGAGAAACCACTGACCGCGGCCGCGCTCGCCGCTGCGGTGGACTGCGAGCCACAGCTGGATCCGCAGCGCCCGCAGTCGCCCACGCCGGTCCCGTTGTCGCCGCTGATGGCCAGTGGCGGCGGTGCCGCCGCCTCGCGGCTGGAGCGGGCGATGCGCCGTGGCGAGATCCGCGTCGCCTACCAGCCCAAGATCGACCTGCGCGACGGCCGCCTGCGTGGCGTCGAGGCGCTGGCGCGCTGGCGCCGGCCACAGGGCGAGATGATCGGCCCGGACCGCTTCATCCCCTTGGCCGAGCGCGAAGGCCTGATCCATGCGCTGACCCAGCAGATCGTCGACAAGGCGATCGCCCAGCTGGTCGCCTGGCGTGCCGAGGGCCTGCAGCTGACGCTGGCGGTCAACCTGTCGCCGATGATGCTGGGCCAGGAGGACTTCGTCGAACAGCTGTGCGCCAAGCTCGACGACAACGGCCTGGCGCCATCGGACCTGGTGCTGGAACTGACCGAGAGCGCGCTGATCGACCCGGCCAACGCACTGAACATGCTGGCGCGGCTGCGCGTGCACGACTTCGGCCTGTCGATCGACGACTACGGCACCGGCTTCTCGTCGCTGCAGCGGCTGGCCAGCATCCCGTTCACCGAGCTCAAGCTCGATCGCAGCTTCGTGCATGCCGCGCACCGCAGCCGCAGCCAGCGCACCGTGCTCGAATCGACGCTGGAACTGGCCCACCGGCTGCGCCTGGTCGCGGTGGCCGAGGGCGTGGAAACCCCGGAGGACTGGCGGATGCTGCGCGAGCTGGGCTGCGATCTGGCCCAGGGCTACCTGATGGCCTCGCCGATGCCCGGCCCGGTGCTGGCCGACTGGTGGCGCCAGCACGCCGTGCGGATCGCCCAGCTGGGCGGGGTCGAGACCTACGACAACAGCCACGTCGCCTGA	MRAPHIPCSCALKGPVLVVDDSLLQREHALALCRKLGATQVEGVASGQAALDWLARASAPSLLLIDLEMPGMDGVQLLDALARGKHAVPVVVVSERGSALIDAVMQLSRSAGVQVLAGAEKPLTAAALAAAVDCEPQLDPQRPQSPTPVPLSPLMASGGGAAASRLERAMRRGEIRVAYQPKIDLRDGRLRGVEALARWRRPQGEMIGPDRFIPLAEREGLIHALTQQIVDKAIAQLVAWRAEGLQLTLAVNLSPMMLGQEDFVEQLCAKLDDNGLAPSDLVLELTESALIDPANALNMLARLRVHDFGLSIDDYGTGFSSLQRLASIPFTELKLDRSFVHAAHRSRSQRTVLESTLELAHRLRLVAVAEGVETPEDWRMLRELGCDLAQGYLMASPMPGPVLADWWRQHAVRIAQLGGVETYDNSHVA				NA	NA	NA	NA	NA
BMS020_04057	807	cheR_1		Chemotaxis protein methyltransferase	ATGGATCTGACCAACACGATCACCGAGCAGGAATTCGGCCGCTTCCAGCGCTTCATCTTCGATGCCGCCGGGATCACCATCTCCACCGGCAAGAAGGCGATGCTGTGCGGGCGCCTGGGCCGGCGGCTGCGTGAATACAACTTCGACAGCTACAGCCAGTACCTGCAGCTGCTGGAGAGCCGTGAAGGCGCGCGTGAGGTGCAGACCGCGATCGACCTGCTGACCACCAACGAGACCTACTTCTTCCGCGAGCCCAAGCATTTCGAGCTGCTGCGCCGGCTGGCCGGCGAGCACCGCGGCCATGCGCCGTTCCGCTGCTGGAGCGCGGCCAGCTCCAGTGGTGAAGAGGCCTATAGCATCGCGATGACGCTCGACGACGTGCTGCAGGGCCGTCCCTACGAGGTGGTCGGCAGCGACATCAGCACCCGCGTGCTTGCGCGCGCGCGCAGCGGCCACTACCCGCAGCAGCGCCTGCACCACTTCCCGGCCGACTACCTCAAACGCTACTGCCGCAAGGGCCAGGGCGAGCACGAAGGCACCATGCTGATCGATCGCCGGATCCGCGAACACGTGCAGTTCGTGCACGCCAACCTCAACGCCACGCTGCCGTCGCTGGGCAGCTTCGAGGCGATCTTCCTGCGCAACGTGATGATCTATTTCAACGGCAAGACCAAGCGCGAGGTGATCCTGCGGGTGATCGCCAACCTCAAGACCGGCGGCCACTTCTTCATCGGCCACTCCGAAAGCCTGGGCGAACTCGACATCCCGCTGGTGCAGGTGGCGCCGGCGGTATTCCGCAAGCCCTGA	MDLTNTITEQEFGRFQRFIFDAAGITISTGKKAMLCGRLGRRLREYNFDSYSQYLQLLESREGAREVQTAIDLLTTNETYFFREPKHFELLRRLAGEHRGHAPFRCWSAASSSGEEAYSIAMTLDDVLQGRPYEVVGSDISTRVLARARSGHYPQQRLHHFPADYLKRYCRKGQGEHEGTMLIDRRIREHVQFVHANLNATLPSLGSFEAIFLRNVMIYFNGKTKREVILRVIANLKTGGHFFIGHSESLGELDIPLVQVAPAVFRKP	PGPT0015670_2928	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015670-cheR|pilK-K00575	NA	NA
BMS020_04058	1107	cheB_2	COG2201	Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGCCTGCCGCAACCGCTCCCAACTCACCCGCCCGCGCCATCAAGGTGCTGATCGTCGACGACTCGGCGGTGGTCCGCCAGGTGCTGACCGGCGTGCTCAACGACGCGCCCGGCATCGAGGTCTACGCCGCCGCGGCCGACCCGCTGCTGGCGATGGAGAAGATGCGCGTGCAGTGGCCCGACGTGATCGTGCTCGACGTCGAGATGCCGCGCATGGACGGCATCACCTTCCTGCGCAAGATCATGGGCGAGCGCCCTACCCCGGTGGTGATCTGCTCCACCCTCACCGAAAAGGGCGCGCGGGTGACGATGGACGCGCTGGCCGCCGGCGCGGTCGCGGTGGTCACCAAGCCCAAGCTGGGCCTGAAGCAGTTCCTGACCGAATCGGCCGACGAGCTCATCGATACGGTGCGCAGCGCCGCGCGCGCCAATGTCGCGCGACTGGTCGCGCGCGCCAACGCGCCAGCGGTGGTGGCACCGACCAAGCACACCGCCGACGTGATCCTGCCGGCGCAGAACGGCAAGCCGCTGGCGCAGACCACCGAGCGGGTGGTGATCGTCGGCACCTCGACCGGCGGCACCCAGGCATTGGAGGAAGTGCTGACCGCGCTGCCGCGGGTCAGCCCCGGGATCGTGATCGTCCAGCACATGCCGGAGAAATTCACCGCCGCGTTCGCCGCACGCCTGGATGGCCTGTGCCAGATCGCGGTCAAGGAAGCGGCCAACAACGACCGTGTGGTTCCCGGTCGGGCGCTGATCGCCCCGGGCGGCAAGCACCTGCTGCTGCGGCGCAGCGGCGCGCAGTACTTCGTCGAAGTCGTCGACGGCCCACCGGTGAACCGCCACCGCCCCTCGGTCGACGTGCTGTTCCGCTCGGCCGCACGCGCGGCCGGCAGCAACGCGCTGGGCATCATCATGACCGGCATGGGCGACGACGGCGCCGCCGGACTACTGGAAATGCGCCAGGCCGGCGCCCGCACCATCGCCCAGGACGAACAGAGCAGCGTGGTGTTCGGCATGCCGAAGGAAGCGATCAAGCGCGGCGGCGTCGACCGCATCCTGCCGCTGGGTTCGCTGGCCCGGGAAATCGTCGCGCAACTGCAGTAG	MPAATAPNSPARAIKVLIVDDSAVVRQVLTGVLNDAPGIEVYAAAADPLLAMEKMRVQWPDVIVLDVEMPRMDGITFLRKIMGERPTPVVICSTLTEKGARVTMDALAAGAVAVVTKPKLGLKQFLTESADELIDTVRSAARANVARLVARANAPAVVAPTKHTADVILPAQNGKPLAQTTERVVIVGTSTGGTQALEEVLTALPRVSPGIVIVQHMPEKFTAAFAARLDGLCQIAVKEAANNDRVVPGRALIAPGGKHLLLRRSGAQYFVEVVDGPPVNRHRPSVDVLFRSAARAAGSNALGIIMTGMGDDGAAGLLEMRQAGARTIAQDEQSSVVFGMPKEAIKRGGVDRILPLGSLAREIVAQLQ	PGPT0015650_1597	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015650-cheB|chpB|wspF-K03412	NA	NA
BMS020_04059	267			hypothetical protein	ATGAATGCCCGAGACTGGAACGACTACCTGTTCGCCCCGACCGTCGTGATCGGCGATCCGGCTGTCCAGGACGACACCCGCATCGTCAGCGAGGGCGAACGCCGCGACGAACGCAGATCGGCGCCGCCTCCGCAGCCCCTCCCCCAGCTTGCCCTCCAGACCCACCCGACCACCGCCATACCCGACCGCGCCGCGGCGGCACGACGCGCCTGGCTGCTGTCCGGCCTGCTGCGCGACGACGACGACGAGGCTCCCGCCCTGCACTGA	MNARDWNDYLFAPTVVIGDPAVQDDTRIVSEGERRDERRSAPPPQPLPQLALQTHPTTAIPDRAAAARRAWLLSGLLRDDDDEAPALH				NA	NA	NA	NA	NA
BMS020_04060	1560	clsC_2	COG1502	Cardiolipin synthase C	ATGCACCGCAAGATCCTGCGCAGGGTTGGGTGGACCGTCGTGGTGCTGGCGCTGGCCTCGCTGGCTTCGCTGTACACCTATGGACGCTTCGCCGAGCGCGCGCGCGGCGCCGAGGTGCATGCGCTGCCGCTGGCCGAGGCGCAGACCGGGATCGACCAGGTGCTGGCGCCGCTGGTCGCCGCGCATGGCGGGCGCGCCGGCGTGATGGTGCTGCCGGACAACGCCGAGGCATTCGCGGTGCGGGCGATGACCGCGCGCCGTGCCGGGCGCAGCCTGGACCTGCAGTACTACATCTGGCATCCGGATTTCACCGGCAACCTGTTGTTCAACGAACTGCTGCGCGCGGCCGATCGCGGCGTGCGGGTGCGGCTGCTGCTGGACGACATGAACGTGCACGGCAGCAAGTCGGTGCTGGCGGCGCTGGACAGCCATCCGCTGATCGAAGTGCGCATGTTCAATCCGACCCGCGCGCGCGAGGGCAGCGTGATGCGCGGCGTGGAGCTGCTGCTGCGCTTTTTCAGCGTCAACCGGCGCATGCACAACAAGGCGTGGATCGCCGATGGCCGGGTGGCGGTGGTCGGCGGGCGCAACATCGGCGACGAGTATTTCGATGCCGCCGAGGACGTGAACTTCATGGATACCGACGCGCTGGTGGTCGGGCCGCCGGTGGCGCAGGCCGAGCGCGTGTTCGACGGGTACTGGAACAGCGCCACCGCGATCCCGCTGGCGGCACTGGTGCAGGCGCCGGCCGACGCATTGGCGCGGCTGCGCCACAGCATCGACGCCGGGCTGGCGTCGGTGCGTGCCACGCCGTACGTGCAGCACCTGCGTCAGGCCCCGGGCGTGCAGGAGGTGGTGCAGGGGCGGCGGCCGCTGCACTGGGCGCGCGACGTGGCGATCGTCGCCGATCCGCCGGCCAAGGCCGAGGGCGCCGCGCCGGGACCGGACTGGATGACGCCGCAGCTGGCCGCGCGGATGCAGCGTGCGCAGCGGCAGCTGCGGGTGATCTCGCCGTATTTCGTCCCGGGCGAGGCCGGTCTGCGTTTCGTGCAGGCGCTGCGCGCGCGTGGGGTCGAGGTGGGCGTGTTGACCAACTCGCTGGCCGCCAACGACGTGGTGGCGGTGCATGGCGGCTACGCCGGGTACCGCGTGCCGCTGCTGCGGCAGGGCGTGGCGTTGTACGAATTGAAGCCACAAGGCCGCCCGGACGGCAGCCTGTTCGGTTCCAGCGGTGCCAGCCTGCACACCAAGGCGTTCCTGGTCGATGACAGTGGTGGCTTCATCGGGTCTTTCAACCTCGACCCGCGTTCGATGAACCTCAATACCGAGATGGGCCTGGTGTTCGACGATCCGGGCATCGCCGCCGAGCTGGCGCGGATCTACCGCGCCAAGACGGCGGCGGCGATCAGCTACCGGCTGGAACTGGGCGAGGCTGGCCTGCGCTGGCACGACGAGGCTGCGCAGCCGCCGGTGGTGTGGACGCACGAGCCGGAGGCCAGCCTGGGGCGGCGTGCGGCGGCGCGGGTGATCGGCTGGTTGCCGGTGGAATCGCAGCTGTAG	MHRKILRRVGWTVVVLALASLASLYTYGRFAERARGAEVHALPLAEAQTGIDQVLAPLVAAHGGRAGVMVLPDNAEAFAVRAMTARRAGRSLDLQYYIWHPDFTGNLLFNELLRAADRGVRVRLLLDDMNVHGSKSVLAALDSHPLIEVRMFNPTRAREGSVMRGVELLLRFFSVNRRMHNKAWIADGRVAVVGGRNIGDEYFDAAEDVNFMDTDALVVGPPVAQAERVFDGYWNSATAIPLAALVQAPADALARLRHSIDAGLASVRATPYVQHLRQAPGVQEVVQGRRPLHWARDVAIVADPPAKAEGAAPGPDWMTPQLAARMQRAQRQLRVISPYFVPGEAGLRFVQALRARGVEVGVLTNSLAANDVVAVHGGYAGYRVPLLRQGVALYELKPQGRPDGSLFGSSGASLHTKAFLVDDSGGFIGSFNLDPRSMNLNTEMGLVFDDPGIAAELARIYRAKTAAAISYRLELGEAGLRWHDEAAQPPVVWTHEPEASLGRRAAARVIGWLPVESQL	PGPT0007730_536	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_GLYCEROPHOSPHOLIPID-CARDIOLIPIN_SYNTHASE_ACTIVITY,PGPT0007730-clsC|ymdC-K06132	NA	NA
BMS020_04061	2106	pepO_1	COG3590	Neutral endopeptidase	ATGACCTTCCGCAAGCTCGCCCCGCTGTCCCTGGCGGTGGCCGTCGCCGTGTCGCTGTCCGCCTGTGGCGGCAAGCAGGCCGATTCCACCCAGGCCGCCGCGGATGCCGCACCTGCTGCGCCCGCGTTCGACCTGTCCAAGGTCGATGCGCCGACGCTGGCGTTCAACGTCGCCGACCTCGATCCGGCCATCGCCGCGTGCCAGGACCTCAACGGCTTCGTCAACGCCAAGTGGTTGAAGGCCAATCCGGTGCCGTCCGACCGCACCAGCTGGGGCAGCTTCGAAGTGCTGGCCGAGCGTTCGCTGGCGATCCAGCACGCCCTGGTCGAACAGGCCGCCGCGGCCAAGCCGGCCGCCGGCAGCGTCGAGGCCAAGCTGGCCGACATCTGGCGCAGCGGCCAGGACGAGGCGGCGATCGATGCCGCCGGCATCGCGCCGTTGCAGCCGCAGCTGGATGCGATCGCCGGGCTGAAGGATCCGGCCGCGGTCGCCGGCTGGGTGCGCGAGGGCTACGCCAAGGGCCAGGGCTTCCTGTTCTCGTTCGGCGGCAACGCCGACTACAAGAATTCGGCACAGGTGATCGCCTACGCCGGCCAGGGCGGGCTGGGGCTGCCGGAGAAGGGCTATTACCTCGATGCCGACAAGGCCGAGATCCGCGCCGCCTACGTGAAGTACATCGCCCAGCTGCTGCAGCTGTCAGGCACCGACGCGGCGCAGGCCGACGCGCAGGCCAAGGCCGTGCTCGACTTCGAGACCCGCCTGGCCAAGGCCTCGCTGTCGCGCATCGAACTGCGCGATCCGGCCAAGCGTTACAACCCGCTCAGCGCCGCCGAGGCCAACAAGATCACCCCGCACTTCGACTGGGCCGCGTTCTTCGACGCGCTGAAGGTGCCGGCGGCCGACAAGTTCTCGCTCGGCCAGCCGGGCTTCTTCGCCGAGCTCGACGCGATGCTCGCCGACGTGCCGGTGGACACCTGGCAGGCCTACCTGCGCTTCCACACCGTCGACGAAGCCGCGCCGTACCTGGCCAAGCCGTTCGAGCAGGCCAATTTCGACTTCTATGCCAAGACCCTGCGCGGCCAGCAGGAGATGCTGCCGCGCTGGAAGCGCACGCTCGAGGCGGTCAACGACGCGATGGGCGAGGGGCTGGGCCAGCTGTACGTGCAGGCGGCGTTCCCGGCCGAGTCCAAGGCGCAGATGCAGCAGCTGGTGCAGAACCTGTCGGTGGCGCTGAAGGCGCGGCTGGAGAAGCTGGACTGGATGAGCGAGGCGACCAAGCAGCGCGCGCTGGAGAAGTGGGCCAGCTTCACTCCGAAGATCGGCTACCCGGACAAGTGGCGTGACTGGAGCGGGCTGCAGACCAGTGGCGGCGGCTTCCTGGCCAACATGCAGGCGGCGCAGGCGTTCAACTACCGCTGGCGGCTGGACAAGATCGGCAAGCCGGTCGACAAGACCGAGTGGGGCATGACCCCGCAGACGGTCAACGCCTACTACAACTCGACCAAGAACGAGATCGTGTTCCCGGCGGCGATCCTGCAGCCGCCGTTCTTCGACGCCAAGGCCGATCCGGCGCTGAACTACGGCGGCATCGGCGCGGTGATCGGCCACGAGATGATGCACGGCTACGACGACTCGGGCAGCCAGTTCGACGCCAAGGGCAATTTCGACATGTGGTGGACCGAAGCCGACCGCACGCTGTTCAACCAGCGCACCGACCAGCTGGTGGCGCAGTTCGATGGCTATGCGTCGATCGGCGGCCAGCACGTGAAGGGCAAGCTGACCCTGGGCGAGAACATCGGCGACCTGGGCGGCCTGACCGTGGCCTACGACGCGCTGCAGATGGCGCTGAAGGCCAATCCGGATGCGAACAAGGCCATCGACGGCTACAGCCAGGACCAGCGCTTCTTCATGAACTGGGCCACGGTGTGGCGCCGCAACTTCACCGATGGCGAGCTGAAGGTGCGTTTGAACACCGATCCGCATGCGCCGGCGAACTTCCGCGCGATCGCCGCGCCGTCGAACATGCCGGCCTTCGCCAGCGCGTTCCAGTGCAAGGCCGGTGACGCGATGGTGCGCGACGACAAGGCCCGCGTGGTGATCTGGTAA	MTFRKLAPLSLAVAVAVSLSACGGKQADSTQAAADAAPAAPAFDLSKVDAPTLAFNVADLDPAIAACQDLNGFVNAKWLKANPVPSDRTSWGSFEVLAERSLAIQHALVEQAAAAKPAAGSVEAKLADIWRSGQDEAAIDAAGIAPLQPQLDAIAGLKDPAAVAGWVREGYAKGQGFLFSFGGNADYKNSAQVIAYAGQGGLGLPEKGYYLDADKAEIRAAYVKYIAQLLQLSGTDAAQADAQAKAVLDFETRLAKASLSRIELRDPAKRYNPLSAAEANKITPHFDWAAFFDALKVPAADKFSLGQPGFFAELDAMLADVPVDTWQAYLRFHTVDEAAPYLAKPFEQANFDFYAKTLRGQQEMLPRWKRTLEAVNDAMGEGLGQLYVQAAFPAESKAQMQQLVQNLSVALKARLEKLDWMSEATKQRALEKWASFTPKIGYPDKWRDWSGLQTSGGGFLANMQAAQAFNYRWRLDKIGKPVDKTEWGMTPQTVNAYYNSTKNEIVFPAAILQPPFFDAKADPALNYGGIGAVIGHEMMHGYDDSGSQFDAKGNFDMWWTEADRTLFNQRTDQLVAQFDGYASIGGQHVKGKLTLGENIGDLGGLTVAYDALQMALKANPDANKAIDGYSQDQRFFMNWATVWRRNFTDGELKVRLNTDPHAPANFRAIAAPSNMPAFASAFQCKAGDAMVRDDKARVVIW				NA	NA	NA	NA	NA
BMS020_04062	963			hypothetical protein	ATGAATGACGATTTCGCGCCGATCCGCACCGAGCCCGAGGCGGCCATGGCGGAACCGCGCTGGCATGGCGGCGAGCCCGCGCTGCTGCCGTCGACGACGCTGCCGGCCGACTGGCTGCGGCTGCTGCGCGCCACCCATCTCGGCGGCGAGATCAGCGTGACCCGGTTCGACGGCACGCCGCGCCAGCCGCTGGACGTGATCGCGCACGGGCCGGCGATGTTCTGCATCGGCATCTTCGTCAAGGGCCGCGCCTGCATGTCGCTGGACGGCGGCGCGCCGCTGCAGGTCGGCGACGGCATGGCGGTGATACAGACCGCGGCGGCCGAGGCTAGCGGGCGCTTCAGCATGCCCGGTGATGCGCCGGTGCGGCTGGTCGACATCCGCTTCAGCCCGGAAGGCTTCCTGCGGGCCGGCGGGACGCCGTTGCTGGCGTTGCACGGGCAGTTCCTGCAGGACCGCAGCCTGGATGCGCCGCGCAGCCTGCTCGGCGGCTTCCCGGCGCCGCCGGCGCTGCTGCGGGTGGCCGGCGACATCCTCGACTGCGATTTCGAACACACCGCGGCCGGTGCCCTGTACCTGCGTGCGAAGGCGCTGGAGGCGCTGGCGCTGGTGCTGCGGTTGATGGGGCCGGCCCCGGCGCGCATCGGCGGGCGCGAACGCCAGCAGCTGCTGCAGGCGCGCGAGCTGCTGGAGCAGCGCTACGACGAGCACTGGACGCTGGAGCGGCTGGCGCGCGAGGTCGGGCTGGGCGAGAAGAAGCTGCAGGCCGGCTTCCGCGCGATGGCCGGGCGCACCGTGCACGTGCACCTGCTCGACGTGCGCCTGGATGCGGCCGCGTCGCTGCTGGCCGGCGGCGCGTCGGTCACCGATGCCGCCTACGCCACCGGTTTTTCCAGCCTCAGCCATTTCAGCAAGGCGTTCCGCGCCGCCAAGGGCGTCAACCCGCGGCATTGGTGCGGCTGA	MNDDFAPIRTEPEAAMAEPRWHGGEPALLPSTTLPADWLRLLRATHLGGEISVTRFDGTPRQPLDVIAHGPAMFCIGIFVKGRACMSLDGGAPLQVGDGMAVIQTAAAEASGRFSMPGDAPVRLVDIRFSPEGFLRAGGTPLLALHGQFLQDRSLDAPRSLLGGFPAPPALLRVAGDILDCDFEHTAAGALYLRAKALEALALVLRLMGPAPARIGGRERQQLLQARELLEQRYDEHWTLERLAREVGLGEKKLQAGFRAMAGRTVHVHLLDVRLDAAASLLAGGASVTDAAYATGFSSLSHFSKAFRAAKGVNPRHWCG				NA	NA	NA	NA	NA
BMS020_04063	2133	fyuA_2	COG1629	Pesticin receptor	ATGCGACTGCCCGCCCCCACCGTGCTCACCGATCCCCGCCCCTGCCCGCGCCTGCATCCACTTGCGGCGATGCTGCTGCTGGCGCTGGCCACGCCCGCGCTGGCCGCCAGCGGCGACGCCAGCGGCGCCGATGCCACCGACCTGCCCACGCTGGTGGTCAGCGCCAGCAAGCGCGCGCAGACCCTGCAGGACGTCGACGGCGCCGCCGACGTGGTCGACCGTGCCCGGCTCGAACGCGCCCAGGTGCGCAGCACCGGCGACCTGCCGAAGGTGCTGCCGGGGCTGCGCGTGGACGCCAGCGGCTCGCTGCTGTTCCCGGTGCTGACGCTGCGCGGCGTCACCTCGGCGCAGGACTTCTACAACCCGGCGCTGTCGGTCTATGTCGATGGCGTGCCGCAGCTGCCGATCTACGCCTGGCAGAACCTGCTGGACCTGGAACGGGTCGAATTGCTGCGCGGGCCGCAGGGCACGCTGTACGGCAAGAGCGCGCAGGGCGGCGTGCTCAACCTGGTCTCGCGCCAGCCCGGCGACGCCGCGCATGTGCAGCTGAAAGCCGGCGCCTCCGGTCGTGGCGGCCACCTGCTGCAGGCCGCGGTGTCCGGGCCGCTGCTGCCGGGCCTGCTGTACGGCGGGCTGGCGCTGTCCGATGACAACGCGCCGGGCGACCTGCGCAACGGCGCCACCGGCCGCGACGACCAGGGCGGCAGCCACAGCCGCGCCGGCCGCGCCACGCTGCGGCTGACACCGACCGATGCGCCCTGGGAAGCCAGCGCGGTGGTCGCGCGCGACTGCACCGAGGCCACCCAGGACCTGTACGTGCCGTTCGACGACCTCAGCAGCCGCGTTGCCTACGTCAATGCCGGCATGCCCGAAGGCGCGGCCAATCCGCACATGCGCCGCTGCGTCGAAAGCCAGTCGCTGAGCGCGGTCTACCACCGCGGCGACTGGCGTCTGACCGCCAGCGCTTCCCACCAGCACGCCGACATCACCCGCCGCTTCGCGCTAGGCCCCTATGATTCGGTGCAGCCGGAAACCTGGCGCCAGGACGTGCAGGAACTGCGCCTGGCCAGCGAAGGCCAGGACCGGCGCTGGGATGGCGTGTTCGGCCTGTACCGGCAGGCGCTGCAACAGGACCGGCGCTATCTCAACGACCTGCCCGCCTACGGCATGGCCGCACTGGACAGCCGTTCGCACAACAGTACCCGCGCGCTCGCCGCCTACGCCGACCTGACCTGGCATGTGACCGACGCGTTCGACCTCGGTGCCGGCGTGCGCGGCTCGCGCGACGAGGCCGACACCCGCTTCGCCGGCAGCACGCTGAACTTCACCACCTTCGCCCAGGATGCATTCGCCGGCAGCGCGCATACCGAAGCCGATACCTGGCTGGGCCGGCTGTCGGCCGGCTACCGCTTCGACGATGCCTGGCGCGCGTACGCCAACCTCGCCCAGGGCTACAAGCCCGGCGGCTACAACCTGGCGCCGAGCAGCGCCGCCGACGCCGCCGGCTACGCGCGCGAACGCTCGCTCAGCTACGAGCTGGGCCTGCGCTACGACGGCACTGCGCTCAGCGGCCGCGTCGCGCTGTACCAGGTCGATACCGACGACGCGCAGCTGTACCGAGGCGATGCTGCCTCCGGCACCCAGAGCCTGCACAACGTCGGCGACACCCGCGCGCGCGGCGTCGAGGCCGGGCTGCAATGGGAGCCGAGCACACGCTGGACGCTGGCGCTGGACGCACAGGCCACCGACGCCACGTTCCGCCGCTACGACGACCCGGTTTACTGCGCCGGCTGCGACGGCAACCGCGTGCCCTACGTGCCGCGTTACGCCGCCTCGGCCAGCGTCACCGGCCATTTCGACAGCGCGCTCGGTCGCTTCGAGCCGCGGCTGGCGCTGCGCCGCAGCGGCGCGCTGTACTTCGATACCGCCAACAGCCTGCGCCAGGACGCCTACAGCGTGCTCGACGCGGCGATCAGCTGGCGGCCGCGCCCGGCCTACGACATCACCCTGTACGCCAACAACCTCAGCGACCGCCACTACCGCACCTACGCCTTCAGCAGCACCGCGCTCGGCGCCTTCGCCCAGGTCGCGGCTGGCCGCACCGTCGGCATCACCTTCGGCTACGACCTCTGA	MRLPAPTVLTDPRPCPRLHPLAAMLLLALATPALAASGDASGADATDLPTLVVSASKRAQTLQDVDGAADVVDRARLERAQVRSTGDLPKVLPGLRVDASGSLLFPVLTLRGVTSAQDFYNPALSVYVDGVPQLPIYAWQNLLDLERVELLRGPQGTLYGKSAQGGVLNLVSRQPGDAAHVQLKAGASGRGGHLLQAAVSGPLLPGLLYGGLALSDDNAPGDLRNGATGRDDQGGSHSRAGRATLRLTPTDAPWEASAVVARDCTEATQDLYVPFDDLSSRVAYVNAGMPEGAANPHMRRCVESQSLSAVYHRGDWRLTASASHQHADITRRFALGPYDSVQPETWRQDVQELRLASEGQDRRWDGVFGLYRQALQQDRRYLNDLPAYGMAALDSRSHNSTRALAAYADLTWHVTDAFDLGAGVRGSRDEADTRFAGSTLNFTTFAQDAFAGSAHTEADTWLGRLSAGYRFDDAWRAYANLAQGYKPGGYNLAPSSAADAAGYARERSLSYELGLRYDGTALSGRVALYQVDTDDAQLYRGDAASGTQSLHNVGDTRARGVEAGLQWEPSTRWTLALDAQATDATFRRYDDPVYCAGCDGNRVPYVPRYAASASVTGHFDSALGRFEPRLALRRSGALYFDTANSLRQDAYSVLDAAISWRPRPAYDITLYANNLSDRHYRTYAFSSTALGAFAQVAAGRTVGITFGYDL	PGPT0003495_18	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-YERSINIABACTIN_TRANSPORT,PGPT0003495-fyuA|psn-K15721	NA	NA
BMS020_04064	1773	irtA	COG1132	Iron import ATP-binding/permease protein IrtA	ATGACCACATCCACTTCCGCGCCCAGCCCGTGGCGCATCCTGCAGCCGGTGCGTCGCCGCATCCGCCTGGCGATGCTGGCCTCCGGCCTCGGCGCGCTCGCCGGGATGGCCGCACTCGGCCTGCTCGCCCTGGCGCTGGCCGCGCTGCTGCACACGCCCGGCCAGTGGCCATGGCCGCCGCTGGCGGCGGCACTGGCCTGCACCATCGCCGCCTACCTGCTACGGCTGAAGGCCAACAGCGTGGCGCACTTCGCCGCGTTCCGGCTCGAAGTGCTGTTGCGCACGCGGCTCAGCGAGCACCTGGCGCGGCTACCGCTGGGCGAGCTGCAGCGGCTCGGTGCCGGTGGCGCGACCAAGGTGGTGCAGGACGACGTCAAGGCGCTGCACGTGTTCGTTGCCGACAGCACGCCGCTGTACGCGCGTGGTTACGCGATGCCGGTGATGACGCTGCTGGTGCTGCTGTGGCTGGACTGGCGGCTGGCGCTGGCGGCGCTGGCGGTGCTGGTGTTCGGTTTCGGCGTGCTCAGCGTGGCGATGCGCGACCGCGCCGAGCGCGTGCGCGGCTACACCGCCGCGCGCGAGCGCGTCGGTAGCGCGGTAGTGGAGTTCGTGCAGGCGATGCCGGTGGTGCGCAGCTTCGACACCGGCCGGCTCAGCTTCGGCCGCTACCAGCAGGCGCTGGACGATTACCTGGCCGTATTGATCGACTGGTACCGCAGTGCCGGCTTCCCGGCGCGCTTCTCGCTGGCGGTGCTCAACCCGATGCCGACGCTGGCGGTGCTGGTGGCGCTCGGGGCGTGGCTGCATGCCGGCGGCACGCTTGACCTGCCGGTATGGATCGCGGTGCTGCTGCTCGGCAGCGGCATGGCCGAAGCGATGATGCCGATGATGATGATCGCGCACATGGTCGACAAGGCGCGGCTGAGCATCGACCGCATCGAGCAGGTGCTGGCGATGCCGCCGCTACCGCAACCCGCGCCCGGCGAGATCGCCACGCCCGGCGCGCCGACGGTGGAATTCCGCGACGTGCACTTCCGCTACGACGCTGCCGCCGCGCCGGCGCTGGACGGGGTCAGCTTCATCGCCGCCGCCGGCCAGGTCACCGCACTGGTCGGCCCGTCCGGTGCCGGCAAATCGACCGTCGCGCGCCTGATCCCGCGTTTCTGGGACGTCGACAGCGGCCAGGTGCTGGTCGGCGGCGTCGATGTGCGTGCGCTCGACGATGCCAGCCTGATGGCGCAGCTCGCGTTCGTGTTCCAGGACAGCTTTTTGTTCTCCGGCAGCATCGCCGACAACATCCGCCTCGGCCGGCCCGATGCCAGCGACACGGCAGTCACCGATGCGGCCCGGCTGGCGCAGGCGCACGACTTCATCAGCGCCCTGCCCGACGGCTACGCCACCCTGGTCGGCGAACGCGGCCTGCGCCTGTCTGGCGGCCAGCGCCAGCGCCTGACCATCGCCCGCGCATTGTTGCTGGACCGCCCGATCCTGGTGCTCGACGAGGCCACCGCCTACGCCGACCCCGAGAACGAAGCGGCGCTGGTCGACGCGCTGTCGGCCCTGATGCGCGGCCGCACCGTGCTGATGGTGGCGCACCGCCTGTCGACCGTGCGCGACGCCGACCAGATCCTGGTGTTCGACCACGGCCGCCTGGCCGAGCGTGGCCAGCATGCCGCGTTGGTCGCGCACGACGGCATCTACGCCGGGCTGTGGCGCGACTTCGAACAAGCGCGCGACTGGTCACTGCACGGCCGCAGCGAGGTACACGCATGA	MTTSTSAPSPWRILQPVRRRIRLAMLASGLGALAGMAALGLLALALAALLHTPGQWPWPPLAAALACTIAAYLLRLKANSVAHFAAFRLEVLLRTRLSEHLARLPLGELQRLGAGGATKVVQDDVKALHVFVADSTPLYARGYAMPVMTLLVLLWLDWRLALAALAVLVFGFGVLSVAMRDRAERVRGYTAARERVGSAVVEFVQAMPVVRSFDTGRLSFGRYQQALDDYLAVLIDWYRSAGFPARFSLAVLNPMPTLAVLVALGAWLHAGGTLDLPVWIAVLLLGSGMAEAMMPMMMIAHMVDKARLSIDRIEQVLAMPPLPQPAPGEIATPGAPTVEFRDVHFRYDAAAAPALDGVSFIAAAGQVTALVGPSGAGKSTVARLIPRFWDVDSGQVLVGGVDVRALDDASLMAQLAFVFQDSFLFSGSIADNIRLGRPDASDTAVTDAARLAQAHDFISALPDGYATLVGERGLRLSGGQRQRLTIARALLLDRPILVLDEATAYADPENEAALVDALSALMRGRTVLMVAHRLSTVRDADQILVFDHGRLAERGQHAALVAHDGIYAGLWRDFEQARDWSLHGRSEVHA				NA	NA	NA	NA	NA
BMS020_04065	1767	irtB	COG1132	Iron import ATP-binding/permease protein IrtB	ATGAGCACGACGATGCCGACCCGGCCTGTGCCCTGGACCACCACCGTACGCCGCCTGCTGCACAGCGCCGGCGCGCAGGCGCCACGGCTGCGCAATGCCTTGCTGATGCTAGCCGCCGCCGCGGCGATCCAGGGCCTGGCACTGGCCTGCCTGCTGCCGCTGCTGCAGGCGGTGTTCGACGGCCGCCCGGTCGCGGCCTGGCTGGGCGCGATGCTGGCGTTGATGGTCGTGGCCAGCGTGCTGCGCTGGCGCGCGCAGGGCTTCGACTACGACGGCGGCATGGCCCAGGCCACGCATGCGCTGCGCGGCCGGCTCGGCGCGCAGCTGCGCCAGGTGCCGCTGGAATACCTGCAGGACCGCCGCACAGGCGAGGTCAACACGCTGTTGCTGGACAGCGTCGACGAGAACCTGCACTACGTGCTGACCATCGCCAACGTGCTGCTGCTGTCCGCGCTCACGCCGTTGGTGGTGGCGCTGGCGACCCTGTGGGTGGCGTGGCCGCTGGGGTTGATGTTGCTGCTGGTGTTCCCGGCGATCGTGCCGCTGTACCGCTGGCGCAGGCCAGCGTTCGGGCGCGGCCTGCGCATCCTCGCTGCGGCGCAGGCGCGCAATGCCGCCGAGGTGCTGGAGTACGCGCAGGGGCTGCCGGTGCTGCGCGCCACGGGGCGTGCCGGCGAACGCGATGCGCGGCTGCAGGCCAGCTTTCTCGAGCTGGAGCGGATCCAGGTGATCGGCCAGCGCAAGGGCGCAGTGCCGAACCTGGTGATCGCCAGCGTGGTCGAAGGCGGGCTGCTGCTGGTGGCCGCGGCCGGCGCCTGGTGGGTGGCGCGCGGTGCGGTTGCGCCAGCGGTGTTTGCCGCGGTGCTGGTGGTGCTGGCGCGCTTTTCCGAGCCATTGTCGAGTTTTATCGGCTTCACTTCGGTGCTGGAACTGATCGAGGCGGCGCTGGAACGGGTCGAGGCGCTGCTGGCGGTGGCGCCGCTGCCGCAGCGCCCGGCCACCGAGCCACGCGGCTTCGACATCCAGTTCGACGCGGTCGACTTCGCCTATGCCGGCGCCACCGACAACGCACTGCGCGGCTTCGAGGCGCGTCTGCCGGTGCGCAGCATGACCGCGCTGGTCGGCCCGTCCGGTGCCGGCAAGAGCACGCTGGTGCGGTTGATCCTGCGCCATGCCGATCCGCAGGCCGGCACGGTGCGGATCGGCGGCGCCGACCTGCGCGCGCTCGCGCCGGAGCGGCTGGCCGCGCTGGTCTCGGTGGTGTTCCAGGACGTGCACCTGTTCGACGACACGGTGCTGAACAACATCCGCATGGCCCGCCCCGGCGCCAGCGATGCCGAGGTGTTGGCCGCCGCCGAAGCCGCGCAGTGCTGCGCCTTCATCGCCCGCCTGCCGCAGGGCTGGGACACCCGCCTCGGCGAACTCGGCGGCGGCCTGTCCGGCGGCGAGCGCCAGCGCCTGTCGATCGCGCGCGCGCTGCTGAAGGGCGCACCGATCGTGCTGCTCGACGAGCCCACCGCCGCGCTCGACACCGGCAGCGAACGCGCGGTGCAGCGCGCGATCGAGGCGCTGGTGCGCGACCGCACCGTGGTGGTGGTCGCGCACCGGCTGTCGACGATTGTCGGTGCCGACCAGATCCTGCTGGTCGAGGACGGCCGCCTGGCCGCCGCCGGCGACCACGCCGCGCTGCTCGCCGCATCGCCACGCTATCGCGCGATGTGGCAGGCGCAGCAGCGGGTCAAGGACTGGCACGCCAGCGCGCGCTGA	MSTTMPTRPVPWTTTVRRLLHSAGAQAPRLRNALLMLAAAAAIQGLALACLLPLLQAVFDGRPVAAWLGAMLALMVVASVLRWRAQGFDYDGGMAQATHALRGRLGAQLRQVPLEYLQDRRTGEVNTLLLDSVDENLHYVLTIANVLLLSALTPLVVALATLWVAWPLGLMLLLVFPAIVPLYRWRRPAFGRGLRILAAAQARNAAEVLEYAQGLPVLRATGRAGERDARLQASFLELERIQVIGQRKGAVPNLVIASVVEGGLLLVAAAGAWWVARGAVAPAVFAAVLVVLARFSEPLSSFIGFTSVLELIEAALERVEALLAVAPLPQRPATEPRGFDIQFDAVDFAYAGATDNALRGFEARLPVRSMTALVGPSGAGKSTLVRLILRHADPQAGTVRIGGADLRALAPERLAALVSVVFQDVHLFDDTVLNNIRMARPGASDAEVLAAAEAAQCCAFIARLPQGWDTRLGELGGGLSGGERQRLSIARALLKGAPIVLLDEPTAALDTGSERAVQRAIEALVRDRTVVVVAHRLSTIVGADQILLVEDGRLAAAGDHAALLAASPRYRAMWQAQQRVKDWHASAR				NA	NA	NA	NA	NA
BMS020_04066	750	gpmA_1	COG0588	2,3-bisphosphoglycerate-dependent phosphoglycerate mutase	GTGAGCCGCAAACTCGTACTGCTGCGCCATGGCCAGAGCCAATGGAACCTGGACAACCGCTTCACCGGCTGGGTCGACGTCGACCTCACCGAGCAGGGCCGCGCCGAAGCCGCCGCCGCCGGCAAGCTGATGAAGGACGAGGGCCTGCAGTTCGACGTGGCCTATACCTCGGTGCTCAAGCGCGCGATCCACACGCTGCAGGGCGCGCTGGCCGAGCTCGGCCAGGACTGGCTGCCGGTGCACAAGAGTTGGCGCCTCAACGAGCGCCACTACGGCGGCCTGCAGGGTCTGGACAAGGCCGAGACCGCGGCCAAGCACGGCGAGGACCAGGTCAAGATCTGGCGCCGTTCCTACGACATCCCGCCGCCGCCGATGGATGCCGCCGATCCGGGCCACCCGGCGCATGACCGCCGTTACGCCACCCTCGACCGCAACGCGCTGCCGGCGACCGAATCGCTGGCGACCACGCTGGAGCGCGTGCTGCCGTACTGGCACGATGCGATCGCGCCGTCGTTGAAGGCCGGCAAGACCGTGCTGGTCACCGCGCACGGCAACTCGCTGCGTGCGCTGTACAAGTACCTCAACAGCGTCAGCAAGGAAGAAATCCTCGAGCTGAACATCCCGACCGGCATCCCGCTGCTGTTCGAACTGGACGACGACCTGCAGGTGCTGTCCTACCGCTACCTGGGCGACCCGGAAGCGGCCAAGCGCGCCGCCGAGGCGGTGGCCAACCAGGGCAAGGCGAAGTAA	MSRKLVLLRHGQSQWNLDNRFTGWVDVDLTEQGRAEAAAAGKLMKDEGLQFDVAYTSVLKRAIHTLQGALAELGQDWLPVHKSWRLNERHYGGLQGLDKAETAAKHGEDQVKIWRRSYDIPPPPMDAADPGHPAHDRRYATLDRNALPATESLATTLERVLPYWHDAIAPSLKAGKTVLVTAHGNSLRALYKYLNSVSKEEILELNIPTGIPLLFELDDDLQVLSYRYLGDPEAAKRAAEAVANQGKAK	PGPT0018030_1449	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
BMS020_04067	699	nfi_1	COG1515	Endonuclease V	ATGAACGACGCGCAGGACCCGATCGCAAGCGCCTTCCCGGATTGGGACGGCAGCATCGTCCAGGCCCGCACACTGCAGCGCGAACTGGCATCGGCGGTAGTGCTGGACGACCAGTTCCCGCCGCACCCCTCGCTGTTGGCCGGCTTCGATGTCGGCTTCGAGGACGACGGCGCCACCACCCGCGCCGCAGCCGTGCTGCTCGATGCAGCCACGCTGGCGCCACTGGAACAGCAGGTCGCACGCGTGCCGACCGCGATGCCCTACGTGCCCGGGCTGCTCAGCTTCCGCGAACTGCCGGCGCTGCTGCAGGCATCGGCGCTGCTGTCGCGCACGCCCGACCTGGTGTTCGTCGACGGCCAAGGCATCGCCCATCCACGCGGGCTCGGCATCGCCGCACACTTCGGCGTGGTCACCGGCCTGCCGACGCTGGGCGTGGCCAAGAAGCCCCTGGCCGGCCACTTCGATCCCCCCGGCCCGGATCAGGGCGCGCACAGTCCGGTCATGCTGCGCGGCATGCAGGTCGGCTGGGCACTGCGCAGCAAGCGGCGCTGCAACACGTTGATCGTCTCGCCCGGGCATCGCGTTTCGCTGTCCAGCGCACTGGACTGGACGCTGCGCACGCTCGCCGGCTACCGCCTACCCGAACCAACGCGGCTGGCCGACCGGTTGGCCTCGCGGCGCGGGCGGCGAATGCCCTGA	MNDAQDPIASAFPDWDGSIVQARTLQRELASAVVLDDQFPPHPSLLAGFDVGFEDDGATTRAAAVLLDAATLAPLEQQVARVPTAMPYVPGLLSFRELPALLQASALLSRTPDLVFVDGQGIAHPRGLGIAAHFGVVTGLPTLGVAKKPLAGHFDPPGPDQGAHSPVMLRGMQVGWALRSKRRCNTLIVSPGHRVSLSSALDWTLRTLAGYRLPEPTRLADRLASRRGRRMP				NA	NA	NA	NA	NA
BMS020_04068	879			hypothetical protein	ATGACCACCATCATCGCTCCGCGCGTCCATGACATCGGTGGGCTCGAGGTCCGGCGCGCGGTGCCGAGCATCCAGGCGCGCAGCGTCGGCCCGTTCGTGTTCGTCGACCACATGGGCCCGGCGCTGTTCGAACCCGGCCAGGGCATCGATGTGCGCCCGCATCCGCACATCGGCCTGGCCACGGTGACCTTCCTGTGGTCGGGCGAGATCGGCCATCGCGACACGCTCGGCTCGGACCAGGTGATCCGCCCCGGTGACGTCAACTGGATGACCGCCGGGCGCGGCATCGCCCATTCCGAACGCACGCCGCCACCGGAGCGCGCCCGCGCGCATCCGCTGCACGGCATGCAGACCTGGGTGGCGTTGCCGAAATCCGCCGAGGAAACCGCGCCGGCGTTCTACCACCATGCCGCCGCCAGCCTGCCGCAGCAGCGCCGCGCAGGTGCCTGGTTGCGGGTGATCGCCGGCCGCGCCTACGGCGAGGAATCGCCGGTGCGGGTGTTCGCCGACACCCTCAACGTCGCCATCGACCTGGAGGCCGATGCCGAGCTCGACCTCGACGCCGGCCACCTCGAACGCGCGCTCTACGTGCTCGAAGGCCAGGCCCAGCTGGACGGTGCGGACATCCCCGCGCGCCACCTGGTCGTCCCCGCGCCGGGCGCCCGTGGGCGGCTGCGCGCGCGCACGCCGCTGAAGGCGATGCTGCTCGGCGGCGAGCCGCTCGACGGCCCGCGCCACCTGTGGTGGAACTTCGTGTCCAGCTCGAACGAGCGCATCGAACAGGCCAAAGACGACTGGCGCAACGGCCGCTTCGGCATGATTCCCGGCGACGACCACGAATTCATCCCGCTGCCGGAACGCCCGCCCCCCGCAACGTAA	MTTIIAPRVHDIGGLEVRRAVPSIQARSVGPFVFVDHMGPALFEPGQGIDVRPHPHIGLATVTFLWSGEIGHRDTLGSDQVIRPGDVNWMTAGRGIAHSERTPPPERARAHPLHGMQTWVALPKSAEETAPAFYHHAAASLPQQRRAGAWLRVIAGRAYGEESPVRVFADTLNVAIDLEADAELDLDAGHLERALYVLEGQAQLDGADIPARHLVVPAPGARGRLRARTPLKAMLLGGEPLDGPRHLWWNFVSSSNERIEQAKDDWRNGRFGMIPGDDHEFIPLPERPPPAT	PGPT0019980_1190	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
BMS020_04069	462			hypothetical protein	ATGAATTCCGCCTCCTGCCTTGCCGGTCTCATCCTGCTGTTCGGCGCCAGCGTCGCGCACGCCCAGCAACAACCCACCTGCCCCCCGCTGCCGCCCGCCTCCGGTCTGCAGTGGAACGAACTGGCGGGCGCCGATTACCTCGTCTGCAAAGCCAACACCAGCGACGGCCGCCAGGTCATCGGGCTGATGTTGACCACGCGCGATCCCGACATCGTGCTGGCCCGCGACCGCCGCGCCGAGAAGGGCGAGATCGAATCCGAATCGATGTACTGGTACAAGCTCGACCTCGGCGGCCGCGAGCTGCCGCAGATGGAGTCGCGGCGCATCACCGTGGTCGAGCTGGGCAAGCATCGCTACGCGCAGATCTGGATCGATGCGACCAGCAGCACCGAGCTCAATTCGATGCAGTCGCTGGTGCAGTCGATCAACCTGCAGCCGGCCAGCCTCGCCCTGGACCACTGA	MNSASCLAGLILLFGASVAHAQQQPTCPPLPPASGLQWNELAGADYLVCKANTSDGRQVIGLMLTTRDPDIVLARDRRAEKGEIESESMYWYKLDLGGRELPQMESRRITVVELGKHRYAQIWIDATSSTELNSMQSLVQSINLQPASLALDH				NA	NA	NA	NA	NA
BMS020_04070	744	aqpZ_2	COG0580	Aquaporin Z	ATGTCACTTGCGAAGCGATTGGCGGCAGAGTTCCTCGGTACCTTCTGGCTTGTTCTCGGCGGCTGCGGCAGCGCGGTGCTGGCGGCCAACTTCGGCGGCGACGGCAATCCGCTCGGCATCGGCTTCGTCGGCGTGTCGCTGGCCTTCGGCCTGACCGTGCTGACCGGCGCCTATGCGTTCGGACATATCTCCGGCGGCCATTTCAACCCTGCGGTGAGCCTGGGCCTAGTCGCCGGCGGGCGCTTCCCGGCGCGCGACCTGCTGCCGTACTGGCTCGCACAGGTGCTCGGCGGCCTGCTGGCCGGGTTCATCCTGCTGCAGATCGCGCGCGGCCAGCCCGGCTTCGTCATCGATCCGGCCGCAGCCGGCACCTTCGCCACCAACGGCTACGGCGCGCTTTCGCCCGGCGGCTATTCACTCCATGCCGCGCTGCTGTGCGAAGTGGTGCTGACCGCGGTGTTCCTGCTGGTGATCATGGGATCGACCCACGGCAACGCGCCGGCGGGATTCGCCCCGATCGCGATCGGCCTGGCGTTGACCCTGATCCACCTGATCAGCATCCCGGTCACCAACACCTCGGTGAACCCGGCGCGCTCGACCGCGGTGGCGGTGTTCGCCGGCAGCGGCGCGCTGGGCCAGCTCTGGCTGTTCTGGGTAGCGCCGTTGCTCGGCGCGGCGATCGGCGGCTGGCTGTACGCCGCACTCGGCCGCCCGGACCCGGCGCTGGTCGAAGGCAGCGGCTGA	MSLAKRLAAEFLGTFWLVLGGCGSAVLAANFGGDGNPLGIGFVGVSLAFGLTVLTGAYAFGHISGGHFNPAVSLGLVAGGRFPARDLLPYWLAQVLGGLLAGFILLQIARGQPGFVIDPAAAGTFATNGYGALSPGGYSLHAALLCEVVLTAVFLLVIMGSTHGNAPAGFAPIAIGLALTLIHLISIPVTNTSVNPARSTAVAVFAGSGALGQLWLFWVAPLLGAAIGGWLYAALGRPDPALVEGSG	PGPT0004755_630	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ARSENIC_RESISTANCE	ARSENIC_RESISTANCE-ARSENIC_TRANSPORT,PGPT0004755-aqpZ-K06188	NA	NA
BMS020_04071	861			hypothetical protein	ATGAGCGACATCGCCACCGCCGGCCCTGCCCGCATCCTGCGCACCGTGCGCGGGCTTCCCACCTCAGACGGGGCCGGGGTCAAGCTCACCCGCGTGATCGGCACGCAGGAGCTGCCCGAGCTCGATCCGTTCCTGATGCTCGACGAATTCGGCACCGACAAGGCCGAGGACTACATTGCCGGCTTCCCGGACCACCCGCATCGCGGCTTCGAGACCGTCACCTACATGCTCGACGGGCGCATGCGCCATCGCGACAACCACGGCAACGAGGGCCTGCTGACCCCGGGCAGCGTGCAGTGGATGACCGCCGGGCGTGGCCTGGTGCATTCGGAGATGCCGGAGCAGGAATCCGGGCGCATGCGCGGCTTCCAGCTGTGGGTGAACCTGCCGGCGCGCGACAAGATGACTGCGCCGAAGTACCAGGAGTTCGCTCCGGAGCGCATCCCGGTGGCGACGCCGGCCACCGGCGTGCGGGTCAAGGTGATCGCCGGTACGGTCGGCGAGGTGGTCGGGCCGATCGCGCAGCCGGCGACCGATCCGCTGTACCTGGACATCGAGCTGGCCCCGGGCGTGTCCTGGGCGTACGACCTGCCCGCGGGCCACAGCGCGTTCGCCTATGCGTTCGAAGGCGCGGTATCGGTGGGCGAGGGCGCTGACGCGCGCGCGCTGGAGCGCCAGCAGCTGGCAGTGCTCGGTGGCGGCGAACGGCTGCATCTGGCCGCCGGTGCGCAGGGCGGGCGGCTGATCCTGGTCGCCGGGCGGCCGCTGCGCGAGCCGGTGGTGCGCCATGGCCCGTTCGTGATGAACACTCGCCAGGAGCTGATGCAGGCCTTCGTGGACTTCCAGCAGGGGCGCTTCTGA	MSDIATAGPARILRTVRGLPTSDGAGVKLTRVIGTQELPELDPFLMLDEFGTDKAEDYIAGFPDHPHRGFETVTYMLDGRMRHRDNHGNEGLLTPGSVQWMTAGRGLVHSEMPEQESGRMRGFQLWVNLPARDKMTAPKYQEFAPERIPVATPATGVRVKVIAGTVGEVVGPIAQPATDPLYLDIELAPGVSWAYDLPAGHSAFAYAFEGAVSVGEGADARALERQQLAVLGGGERLHLAAGAQGGRLILVAGRPLREPVVRHGPFVMNTRQELMQAFVDFQQGRF	PGPT0019980_3202	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
BMS020_04072	2073	btsT_1	COG1966	Pyruvate/proton symporter BtsT	ATGAAAGGGTTCTCCAAGCTTGCCTGGGCCGCGCTCGCGGTCGTGGCGGCGTTCTGTCTGGGCACGGTGGCGCTGCGCCGCGGCGAACAGATCAACGCGCTGTGGATCGTCGTCGCCGCGGTATCGATCTACCTGATCGCCTACCGCTACTACAGCCTGTTCATCGCCAGCAAGGTGATGCAGCTCGACCCCACCCGCGCCACGCCGGCGGTGCTCAACAACGACGGCCTGGACTACGTGCCGACCAACAAGCACGTGTTGTTCGGCCACCACTTCGCCGCGATCGCCGGCGCCGGCCCGCTGGTCGGCCCGGTGCTGGCCGCGCAGATGGGCTACCTGCCCGGCCTGCTGTGGCTGGTGGTCGGCGTGGTATTCGCCGGCGCGGTGCAGGACTTCATGGTGCTGTTCCTGTCCAGCCGCCGCAACGGCCGCTCGCTCGGCGACCTGGTGCGCGAGGAGATGGGCCAGATCCCCGGCACGATCGCGCTGTTCGGCGCGTTCCTGATCATGATCATCATCCTGGCGGTGCTGGCGATGGTGGTGGTCAAGGCGCTGGCGGAAAGCCCGTGGGGCATGTTCACGGTGATCGCGACGATGCCGATCGCGATCATGATGGGCGTGTACATGCGCTACATCCGCCCGGGCAAGATCGGCGAGATCTCGGTGGTCGGGCTGATCCTGCTGCTGGCCGCGATCTGGCTCGGCGGCAAGGTCGCCGCCGACCCGACCTGGGGTCCGGCCTTCACCTTCACCGCCAAGCAGATCACCTGGATGCTGATCGGCTACGGCTTCGTCGCCTCGGTGCTGCCGGTGTGGCTGCTGCTGGCGCCGCGCGACTACCTGTCCACCTTCCTCAAGATCGGCACCATCGTCGCGCTGGCGATCGGCATCCTGATCGTGATGCCGGAACTGAAGATGCCCTCGCTGACCCAGTTCGCGGCCAGCGGCGACGGCCCGGTGTGGAAGGGCGGGATCTTCCCGTTCCTGTTCATCACCATCGCCTGCGGTGCGGTGTCCGGCTTCCACGCGCTGATCTCCTCCGGCACCACGCCCAAGCTGCTCGCCAATGAAGGCCACATGCGCTACATCGGCTACGGCGGCATGCTGATGGAATCGTTCGTGGCGATCATGGCGCTGGTCGCGGCTTCGATCATCGAGCCCGGCATCTACTTCGCGATGAACAGCCCGGCCGCGGTGGTCGGCAGCGACGCGGTCGCGGTCGCCGCCAAGGTCAGCGAATGGGGCTTCACGATCACCCCCGACGTGCTCGAGGCGACCGCCCGCGACATCGGCGAGCACACCATCCTCGCCCGCGCCGGCGGCGCGCCGACGCTGGCGGTGGGCATCGCGCAGATCCTGCACCACGTGCTGCCGGGCGAGGACACGATGGCGTTCTGGTACCACTTCGCGATCCTGTTCGAAGCGCTGTTCATCCTGACCGCGGTCGATGCCGGCACCCGTGCGGGCCGCTTCATGCTGCAGGACCTGCTGGGCAACTTCATCCCGGCGCTGAAGAAGACCGAGTCCTGGGGCGCGAACATCATCGGCACCGCCGGCTGCGTGGCCCTGTGGGGCTACCTGCTGTACACCGGCGTGGTCGATCCGTTCGGCGGCATCCAGACCCTGTGGCCGCTGTTCGGCATCTCCAACCAGATGCTCGCAGGCCTGGCGCTGATGCTCGGTACCGTGGTGCTGTTCAAGCTCAAGCGCGATCGCTACGCCTGGGTGACCATCGTGCCGGCGGTGTGGCTGCTGATCTGCACCACCTACGCCGGGCTGATCAAGATCTTCGACAGCAACCCGTCGCAGGGCTTCCTGGCGCAGGCCAACAAGTTCCAGGACGCGATCGCCAGCGGCACGATCACCGCACCGGCCAAGACCATCGGCCAGATGCAGCAGATCGTCACCAATGCCTACGTCAACACCGGGTTGACCGTGCTGTTCCTGTTCGTGGTGTTCGCCACCCTGGCGTACTCGATCAAGACCATCGTGGTGGCGCGCCGCACGCCGCAGCGCACCGACAAGGAGACGCCGTACGTCGCCTTGACCCCGGCCCAGATGGCGGACCTGTGA	MKGFSKLAWAALAVVAAFCLGTVALRRGEQINALWIVVAAVSIYLIAYRYYSLFIASKVMQLDPTRATPAVLNNDGLDYVPTNKHVLFGHHFAAIAGAGPLVGPVLAAQMGYLPGLLWLVVGVVFAGAVQDFMVLFLSSRRNGRSLGDLVREEMGQIPGTIALFGAFLIMIIILAVLAMVVVKALAESPWGMFTVIATMPIAIMMGVYMRYIRPGKIGEISVVGLILLLAAIWLGGKVAADPTWGPAFTFTAKQITWMLIGYGFVASVLPVWLLLAPRDYLSTFLKIGTIVALAIGILIVMPELKMPSLTQFAASGDGPVWKGGIFPFLFITIACGAVSGFHALISSGTTPKLLANEGHMRYIGYGGMLMESFVAIMALVAASIIEPGIYFAMNSPAAVVGSDAVAVAAKVSEWGFTITPDVLEATARDIGEHTILARAGGAPTLAVGIAQILHHVLPGEDTMAFWYHFAILFEALFILTAVDAGTRAGRFMLQDLLGNFIPALKKTESWGANIIGTAGCVALWGYLLYTGVVDPFGGIQTLWPLFGISNQMLAGLALMLGTVVLFKLKRDRYAWVTIVPAVWLLICTTYAGLIKIFDSNPSQGFLAQANKFQDAIASGTITAPAKTIGQMQQIVTNAYVNTGLTVLFLFVVFATLAYSIKTIVVARRTPQRTDKETPYVALTPAQMADL	PGPT0015060_992	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015060-cstA-K06200	NA	NA
BMS020_04073	225			hypothetical protein	ATGGGCACCGCCCTCGTCCCCGCCGGCCAGTACCAGGCGCACCGCCGCATCTGGCGGCGCCTGGTGCAGACCGCGCGGCTATGCTGCGGCATCCCCGACTACGACAACTACGTGCGGCACATGCTGGAGAAGCACCCGGATCGCCCGGTGATGGACTACCCGACCTTCTTCCGTGAGCGCCAGGAGGCGCGTTACGGCGGCAAGAGCGGCTTCCGCTGCTGCTAG	MGTALVPAGQYQAHRRIWRRLVQTARLCCGIPDYDNYVRHMLEKHPDRPVMDYPTFFRERQEARYGGKSGFRCC				NA	NA	NA	NA	NA
BMS020_04074	756			hypothetical protein	ATGCGCAAGCATGTTCCCGCTCTCGCGGCCTTCGCGTCTTCCATCCTGATGATCTCAGGTGCCGGCACCGCGGCCGGCGCAAAGGAGCAGACCAAGATGTCCGCAATGCAGAAGGAAGCTGCACGCCCGTTCCAGGATCCCGCCGTGCTGCCGATGGCGGAGGCGATCGCGCATGGCGATGCCGCGCGCGTCCGCACCCTGGCCGCCACCACCGACCTGGCCGCGCGCGGCCAGGATGACGTCACCCTGCTGGAATGGGCAGTGTGGAACGAACAGCCCGACGCGCTGGCCGCGCTGCTCGACGCCGGCGCCGACCCGGCCCAGCGCGGCATGGACGGCGAGACCGTGGCCCACATGGCCGCGATGGCGCGTGATCCGGCCTACCTGCGGGTCCTCGTCGACCACAAGGCGCCGATCGACATCGCAGGCGCCCGCGCAGGCTGGACCCCATTGTTCCGGGCGGTGCAGGACCGCCGCGAAGCGCAGATCGCCCTGCTGATCCAGGCCGGCGCCGATCTGGCCCACACCGACTCGATGGGCAACACGCTGCTGCACGTGGCCGCCAACACCAACGATGCCGAGCGCGTGCTGCAACTGCTCCAGGCCGGCGTCGACCCCAACGCCAGGAATACGCGCGGCGCCACCTTCCAGGCGGCGTTGTTCGCCGGTTCCGATGCACGCCTGACCCCGGCGGCACGGGCTTCGCGCCAGCAGGTGCGCGACTGGCTCAACGCCCACGGCATCGCCCTGCAGTAA	MRKHVPALAAFASSILMISGAGTAAGAKEQTKMSAMQKEAARPFQDPAVLPMAEAIAHGDAARVRTLAATTDLAARGQDDVTLLEWAVWNEQPDALAALLDAGADPAQRGMDGETVAHMAAMARDPAYLRVLVDHKAPIDIAGARAGWTPLFRAVQDRREAQIALLIQAGADLAHTDSMGNTLLHVAANTNDAERVLQLLQAGVDPNARNTRGATFQAALFAGSDARLTPAARASRQQVRDWLNAHGIALQ				NA	NA	NA	NA	NA
BMS020_04075	1185			hypothetical protein	ATGAACGATTCGTCTTCCGTGCAATCCACCGCGGCCGGCAGCTTCGCCGGCCAGATCGCCGGCCAGCAGCCGCATGCGATCGATCGCGAGCTGTCCACGCTGCTGAAGGACAACTACGCCGTCTCCGACCAACGCCGCGGCGTGGTCGACACCATTCCCCCGGCGATGCCCGGCAGCTGGTCGCGGATGAGCGACGAAGACGTGCGCGCGGCCGGCATCGATCCGGCGCTGATGCACGACAGCAAGAGCGGCTTCGACGCCTCGTTCTACCGCGATGCCGGCGGCAACGTGGTGCTGGCGTTCACCGGCACCGACGAACTCAAGGACTGGAAGCACAACCTCGGCCAAGGACTCGGCTTCCAGGACGCCCAGTACGACCAGGCCATCGCGCTGGGACGCGAAGCCAAGGCCGCCTTCGGCGACCAGGTGATCGTCTCCGGACATTCGCTCGGTGGTGGCCTCGCCGCCGCATCCGCCATGGTCAACGAGATCCCCGCCGTCACCTTCAACGCCGCGGGCGTCAACGACAACACCCTGGAACGCTACGGCTTCGACGCATCGGTGCTGAAGCAGGAGGCGGAACAGGGCCTGGTCCGCAGCTATGCGGTCAAGAACGAGCTGCTGACCCATCTGCAGGAAGACAGCATTCCGCTGAAGTACGCGATGCCGGATGCGCCCGGCCACCGGATCCAGCTCCCCGACCCGGATCCGCAGACGTTCTTCGAACGCCTGGTCCCGGGCAAGATGCTCAAGCACCGCCTCGACCTGCATTACATCGACGCGGTGATGGAAGCCCAGGACAAGGCCGCCCTGGAGGTCCGTCCGTACGCCGATACCGGCAACCGCTTGCTCGGCGATGCAGTCGATGGACTGGCCACGCAGCGCCGGCAGCTCGGCCTGGACGACAACGAGAAGTTCTACAACACCGCCGCCAGCGTCGCCGCACGCGCTGGCCACGATGGCCTGCAGCAGATCGACCACCTCGTCGCCACCCGTACCGGCGATGGCGTGGTCGCGGTGCAGGGCGGCCTGCACGACCCCGCCCAGCAGCGCGTGCATGTCGCGGTCGATGCGGCCAGCCAGGTGCCTGCGCGCGACAGCGCCGAGCAACTGCGCACGCAGGCGACGCAGCCGGCGCCCGAGTCGCCGTCTCAGACCCAGCAGCGCGGCATCGCGATGGCGTGA	MNDSSSVQSTAAGSFAGQIAGQQPHAIDRELSTLLKDNYAVSDQRRGVVDTIPPAMPGSWSRMSDEDVRAAGIDPALMHDSKSGFDASFYRDAGGNVVLAFTGTDELKDWKHNLGQGLGFQDAQYDQAIALGREAKAAFGDQVIVSGHSLGGGLAAASAMVNEIPAVTFNAAGVNDNTLERYGFDASVLKQEAEQGLVRSYAVKNELLTHLQEDSIPLKYAMPDAPGHRIQLPDPDPQTFFERLVPGKMLKHRLDLHYIDAVMEAQDKAALEVRPYADTGNRLLGDAVDGLATQRRQLGLDDNEKFYNTAASVAARAGHDGLQQIDHLVATRTGDGVVAVQGGLHDPAQQRVHVAVDAASQVPARDSAEQLRTQATQPAPESPSQTQQRGIAMA				NA	NA	NA	NA	NA
BMS020_04076	2097	bglY_2	COG1874	Beta-galactosidase BglY	ATGCCGTTTTCCGCGCTTCCGCTGCCGCGCCTGCTGCGCGGCGCCATGCTCGGCGTCGCGCTGCTGCTGCCTGCCTTGACGCCACTGCACGCACACGCGCAGGCCACCCGCTATGCCGATGCCGCGCCGCTGCTGCTGGGCGTGGCCTGGTACCCCGAGCAATGGCCGGAGGCGCAGTGGGACCACGACCTGGCGCTGATGCAGGCGGCGCACATCAAGCTGGTGCGGATCGGCGAGTTCGCCTGGAGCCGGATGGAACCACGCGAAGGCGAATACGACTTCGGCTGGCTCGACCGCGCGATCGCCGCCGCGGCGCGCCACGACATGGTGGTGGTGCTGGGCACGCCCACCGCGGCGCCGCCGGTCTGGCTGACCCAGGCCTATCCAGACACGCTCGCGATCGACAGCAACGGCGTGCGTGCCGAGCATGGCAACCGCCAGCAGTTCTCCTTCGCCAGTACCCGCTACCGCGGTTTCGCGCGTGCGATCGCCACACAGATGGCGCAACGCTACGGCCACAACCCACACGTGGTCGGCTGGCAGGTCGACAACGAGTACGCGGTGGCTTCGTTCGATGCCGACGCGAAAGCGCAGTTCCATGCGTGGCTGCAGCGCCGCTACGGCAGCATCGACGCGCTCAACCAGCGCTGGGCCACCGCCTACTGGAGCCAGACCTACGGCGACTTCGCGCAGATCCCGGTGCACGACAGCGACCAGCATCCAGCACTGCTGCTGGACTGGAAGCGCTTCGTCAGCGACACCTGGCTGGACTATTCGCGCAACCAGGCCGATGCGATCCGCGCGCATGCCGACCCACGCCAGTTCGTCACCACCAACACCATGGGCTGGTTCGCCGGCTTCGATGCCTACACCGTGCACCAGGCGTTCGACATCGCGGCCTGGGACGACTACGTCACCGGCCCGGACTACGACTGGGTCGACAACGCCGCCCGCCACGACCTGACCCGCGGCTACAAGCAGCGCAATTTCTGGGTGATGGAAACCCAGCCGGGCTTCGTCAACTGGCGCGCCACCAACGTCGCGCTGCGGCGTGGGCAGGTCCGGGCGATGGCGTGGCAGGCGGTCGGCCACGGCGCCGATGCGGTCGACTACTGGCAGTGGCGCGCGGCGCCGAACGGCCAGGAGGAATACCACGGTACTCTGGTCGGCGCCGACGGCGAGCCGGTGCCGGTGTACGACGAGATCGCCCAGCTCGGCGCCGAATTCGCCAAGGCCGGTCCGGCGCTGGCCGGCACCACGCCACGGGCCGAGGTCGCCCTGCTCAACGACTTCGACAGCCGCTGGGCGATCGGCTTCCAGCGCCACGCCGCCGAATTCGACCCGGTGGTCGAAATGAAGGCGTTCTATCGCCCCTTGCGCGCGCAGGCACAGACCGTCGACGTGGTCTCGCCGCGCGCGCCGCTGGAGCACTACAAGCTGGTGGTCGCACCTGCGCTCAACGTACTCGACGAGGCGCTTGCGGCCCGGCTCAAGGCCTATGTCGAGCACGGTGGTCATCTCGTACTCGGCCCGCGCAGCGGCATGAAGAACGCCGACAACGGCCTGCATCCGCAGCGCCAGCCCGGCCCGCTCGCCGATCTGCTGGGCGCACGCGTGGCGCAGTTCTATGCGCTCGACCAGCCGGTGCCGGTGAGCGGCGCCGGCGGTGGCAACGGCGAGGCGAAGATCTGGGCCGAACAGCTGCAGCTGCGTGCACCGCAGACCGAAACCGTGCTGCGCTACGGCGCCGCCAACGGCTGGCTCGACGGTCAGCCCGCCGTGGTCACCCGACGTGTCGGCAAGGGCCGCATCACCTATGTCGGCGCTTGGTTGGACGATGCCCTGCTCGGCAGCCTCACCCGCGACTGGATCGGCCAGGCGTCGATCGCAACGCCGCTGCCCGGCATTCCCGACGACGTCGAAGTCTGCATCCGCAGCGGCTCCGGCCGTCGCGTGCTGGTGCTGGTCAACCACGCCGCCCAGCCGCGCAGCGTGACGCTGCCGGCACCGATGCGTTCGCTGCTGGCAGGCGGGCCCGCGCTGCGCCAGGTCGAGTTGCCGGCCGACGGCGTCGCGGTGCTGGAGCAGCGGCGGTGA	MPFSALPLPRLLRGAMLGVALLLPALTPLHAHAQATRYADAAPLLLGVAWYPEQWPEAQWDHDLALMQAAHIKLVRIGEFAWSRMEPREGEYDFGWLDRAIAAAARHDMVVVLGTPTAAPPVWLTQAYPDTLAIDSNGVRAEHGNRQQFSFASTRYRGFARAIATQMAQRYGHNPHVVGWQVDNEYAVASFDADAKAQFHAWLQRRYGSIDALNQRWATAYWSQTYGDFAQIPVHDSDQHPALLLDWKRFVSDTWLDYSRNQADAIRAHADPRQFVTTNTMGWFAGFDAYTVHQAFDIAAWDDYVTGPDYDWVDNAARHDLTRGYKQRNFWVMETQPGFVNWRATNVALRRGQVRAMAWQAVGHGADAVDYWQWRAAPNGQEEYHGTLVGADGEPVPVYDEIAQLGAEFAKAGPALAGTTPRAEVALLNDFDSRWAIGFQRHAAEFDPVVEMKAFYRPLRAQAQTVDVVSPRAPLEHYKLVVAPALNVLDEALAARLKAYVEHGGHLVLGPRSGMKNADNGLHPQRQPGPLADLLGARVAQFYALDQPVPVSGAGGGNGEAKIWAEQLQLRAPQTETVLRYGAANGWLDGQPAVVTRRVGKGRITYVGAWLDDALLGSLTRDWIGQASIATPLPGIPDDVEVCIRSGSGRRVLVLVNHAAQPRSVTLPAPMRSLLAGGPALRQVELPADGVAVLEQRR	PGPT0017815_519	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308	NA	NA
BMS020_04077	1251			hypothetical protein	GTGACCCCGGTCCGCCACGCCCTGATCAGTAACGACATCGTCGCCTTCGGGCTCATCGCCGCCACGCTGGCGGCGATCTTCTGGACCGCCTCGCGCGAGCGCGGGCCCTGGAAACGCTTCTACGCGGTGGTGCCGGCGCTGTTGCTGTGCTACCTGGTGCCCGGCATCTACAACACGATCGGGTTGATCGACGGCCAGAACACCCGCCTGTACAACCCCATCGCGCGTGACGTGCTGCTGCCGGCCGCGCTGGTGTTGTTGACCCTGGCGGTCGACATCAAGGGCGTGCTGAAGCTGGGGCCGAAACTGGTGGTGATGTATCTGGGGGCGTCGGTCAGCATCATGCTCGGCGCGGTGCTGGCGTTCGTGCTGATGCGTTGGCTGCACCCGGCCACGGTGGCCGGCGACACCTGGGCGGGCATGGCCGCACTTGCCGGGAGCTGGATCGGCGGCGGTGCCAACATGCTGGCGATGCGCGAGGTGTTCAACGTGGACGCGACCACGTTCGGCCAGTTCGCGGTGATCGATGTGGGCGTGGGCTACGTATGGATGGCCGCGCTGATCTTCCTGGCCGGGCGCGCGGGTAGGATCGACGCCCGCAGCGGCGCCGACACCCGGGCGATCGACGAGTTGAAGACCCGCATCGCCGCGTTCCAGGCCGAACACGAGCGCATCCCGAGCCTGGGCGATCTGATGGTGATCGTGGGTGTCGCCTTCGGCACCGTCGGCCTGTCGCATGCGATCGCGGCGCCGGTCGCGGCCTGGTTCAAGGCCAATGTCGGCTGGGCGTCGCAGTTCAGCCTGGACTCGCCGTTCGTCTGGGTCGTGGTGCTCGCCACCAGCTTCGGCCTGGCGATGAGTTTCACCCGGGCGCGCCGCCTGGAGGGCGCCGGAGCGTCGCGGATCGGTACCTTGCTGCTGTACTTCCTGATCGCCTGCATCGGCATGCAGATGGACCTGCTGTCGCTGCTGGACCGGCCGTGGCTGTTCCTGCTCGGCGCGATCTGGATGGCCGTGCATGTGCTGCTGCTGGCGCTGCTCGGGCGCCTGCTGCGCGTGCCGTTCTTCTATTTCGCGATCGGCTCGCAAGCCAATGTCGGTGGTCCCGCCTCGGCGCCGGTGGTGGCGGCGGCGTTCCATCCGGCGTTGGCGCCGGTCGGCGTGCTGCTCGGCACGATGGGTTACGCGACCGGCACCTACTTCGCCTATCTGGTCGGGATCACCTTGCGGGCGTTGGCCGGAGCTGGCTGA	MTPVRHALISNDIVAFGLIAATLAAIFWTASRERGPWKRFYAVVPALLLCYLVPGIYNTIGLIDGQNTRLYNPIARDVLLPAALVLLTLAVDIKGVLKLGPKLVVMYLGASVSIMLGAVLAFVLMRWLHPATVAGDTWAGMAALAGSWIGGGANMLAMREVFNVDATTFGQFAVIDVGVGYVWMAALIFLAGRAGRIDARSGADTRAIDELKTRIAAFQAEHERIPSLGDLMVIVGVAFGTVGLSHAIAAPVAAWFKANVGWASQFSLDSPFVWVVVLATSFGLAMSFTRARRLEGAGASRIGTLLLYFLIACIGMQMDLLSLLDRPWLFLLGAIWMAVHVLLLALLGRLLRVPFFYFAIGSQANVGGPASAPVVAAAFHPALAPVGVLLGTMGYATGTYFAYLVGITLRALAGAG				NA	NA	NA	NA	NA
BMS020_04078	219			hypothetical protein	ATGGAGCAGCATCCGCGCTATGTGGTGAGCATCGAGCCCGATCACGATGCCTGGCTGGTGTGCCGGCCGGCGTGGTCGCCCCTGCGCTACCTGCGCGAGGAACGGGCTCTGGAAAACGCCGAGTTGATGGCCAAGCTGCATCGGCTGACGACTGGAGAGCCGGCGCTGGTGGTGCTGCGCCGTGGTGAGGACGAGCGCGTGGTGCGCCGCTACGGCTGA	MEQHPRYVVSIEPDHDAWLVCRPAWSPLRYLREERALENAELMAKLHRLTTGEPALVVLRRGEDERVVRRYG				NA	NA	NA	NA	NA
BMS020_04079	96			hypothetical protein	ATGTACCTGTTCAGGAAATACGAGATCGCGGTCAAGGCCGCCCTGGTTGCGATGTACGTGACGGTGCTGGCGACCCTGGCCACACGCTGGCACTGA	MYLFRKYEIAVKAALVAMYVTVLATLATRWH				NA	NA	NA	NA	NA
BMS020_04080	624			hypothetical protein	ATGAGCACGCACGTCGCGCTGGTGCTGGCGGTCCAGGGCGAACACTGCACCGGCTGCAGCGCGCGCTGGCCCAGCCGCGATGGCGAGCCCCTGGTGACCCGCGCCGCGCGCCTGGCGCTGGCCACTGGCCCGCTGTACTGCATCGTCGTGCTGGGCCAGCAGGCGACGGATCCGTGCGACCTGCTGGACGGGTTGCCGGTCCGCGTGGTCCACGCGGCCTCAACGACGTGGCCCGGCGAGGCCATGGGGGCGCCGGCATTGCACGAGGCGATCTGGGGCGATCCGGTGGTGGAGCGCTGCCTGGTGCTTGGCTGTGGCCAACCGGCGCTCGAGTCCGGGCACCTGGCGACCCTGCTGGCGGAAGCCAGCGGCAGCCGGTCCGGCTGCGCGGTCAGCGGCTACGACGGGGTGCGCGGGTTGCCGGCGGTGGTGCGCCGGCAGCAGTGGGAGCGGGTGTCGGCGTGCGCCGAACCTGGTCTGCGGCGGCTGATCGCCTCGCTGGATCCGGAGACGCTGGGCTGCGTGGTCGCGCCGGCGCTCGGGGTGGAAGTGGCGAATTCGGACGACATCGCGATCGCGGTGTCGCGTGGCTGGTTGGACCCACAGCCACGGTCGGTCGAGTAG	MSTHVALVLAVQGEHCTGCSARWPSRDGEPLVTRAARLALATGPLYCIVVLGQQATDPCDLLDGLPVRVVHAASTTWPGEAMGAPALHEAIWGDPVVERCLVLGCGQPALESGHLATLLAEASGSRSGCAVSGYDGVRGLPAVVRRQQWERVSACAEPGLRRLIASLDPETLGCVVAPALGVEVANSDDIAIAVSRGWLDPQPRSVE				NA	NA	NA	NA	NA
BMS020_04081	510	ssb_1	COG0629	Single-stranded DNA-binding protein	ATGGCCCGCGGCATCAACAAAGTCATTCTCGTCGGCAACCTCGGCAACGATCCCGACACCAAGTACACCCAGAGCGGCATGGCCATCACCCGGGTCAGCCTTGCCACCACCAGCATGCGCAAGGACCGCGACGGCAACAACCAGGAGCGCACCGAGTGGCACCGCGTGGTGTTCTTCGGCAAGCTCGGCGAGATCGCCGGCGAATACCTGCGCAAGGGTAGCCAGGTGTATGTCGAAGGCGAGCTGCGCTACGACAAGTACACCGGCCAGGACGGGGTCGAGAAGTATTCCACCGACATCGTCGCCAACGAGATGCAGATGCTCGGCGGTCGTGGTGAAGGTGGCGGTGGTGGCGGCTACGGTGGTGATCGTCCGCAGCGCTCGGCGCCGCCGCGCCAGAGCGGTGGCGGTGGCGGTGGCCAGGATTACGCGCCGCGCCGGCAGCAGCCCGCGCCGCAGCAGTCGGCTCCGCCGATGGACGATTTCGCCGACGACGATATCCCGTTCTGA	MARGINKVILVGNLGNDPDTKYTQSGMAITRVSLATTSMRKDRDGNNQERTEWHRVVFFGKLGEIAGEYLRKGSQVYVEGELRYDKYTGQDGVEKYSTDIVANEMQMLGGRGEGGGGGGYGGDRPQRSAPPRQSGGGGGGQDYAPRRQQPAPQQSAPPMDDFADDDIPF				NA	NA	NA	NA	NA
BMS020_04082	567		COG0431	NAD(P)H-dependent FMN reductase	ATGCCCCGCATCGTCGGCCTCGCCGGAAGCCTGCGCCAGGCCTCGTTCAACGCCGCGCTGCTGCGCGAGGCCGCCGCGCTGATGCCCGCCGGCAGCCAGATCGAGATCCTGTCGCTCCGCGATGTCCCGCTCTACGACGGCGATCTCGAGGCGGCGCAAGGCCTCCCGGCGTCGGTGAGCACGCTCAAGGACGCGGTCGCCGCGGCCGACGGCCTGCTGCTGGTGACCCCCGAGTACAACAACGGGATTCCCGGGGTGTTCAAGAACGCGATCGATTGGATGTCGCGCCCGTCGCAGGACATCGCCCGGGTGTTCGGCGACACCCCGGTGGCGCTGATCGGCGCCTCCCCCGGCCCCTACGGCACCCTGCTCAGCCAGGGCGCGTGGCTGCAGGTGCTGCGCGCACTCGGCACCCGCCCCTGGTTCGGCGGCCGGCTGATGCTGGCCCATGCCGGCCAGGCCTTCGATGCCGATGGCCAGTTGCAGGACCCGGCGATGCGTGAGCGCCTGGCCGCCTTCATGCGCGGCTTCTGTGCCTTCTGCGGACCCGGGCAGCCGCCGGGATGA	MPRIVGLAGSLRQASFNAALLREAAALMPAGSQIEILSLRDVPLYDGDLEAAQGLPASVSTLKDAVAAADGLLLVTPEYNNGIPGVFKNAIDWMSRPSQDIARVFGDTPVALIGASPGPYGTLLSQGAWLQVLRALGTRPWFGGRLMLAHAGQAFDADGQLQDPAMRERLAAFMRGFCAFCGPGQPPG	PGPT0004195_1397	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0004195-chrR-K19784	NA	NA
BMS020_04083	999	ispB_2	COG0142	Octaprenyl diphosphate synthase	ATGAGCATCGCCGAAGACATCCGTCCCGCCCTGGCCCTGCCCCAGATCCAGGCGCTCGCCGCCCCCGACATGGCCGCGGTCGACGCGCTGATCCGCCGCCGCCTGGCATCGGATGTCGTGCTGATCAACCAGATCGCCGACCACATCATCTCCGCCGGCGGCAAGCGCCTGCGGCCGATGCTGGTGATGCTGGCCGGCCGCGCGGTCGGTGGCGCCGGCGCCGACCACCACCAACTGGCGGCGATCATCGAGTTCATCCACACCTCGACCCTGCTGCACGACGACGTGGTCGACGAATCGGACCTGCGCCGTGGCCGCAGCACCGCCAACGCGCTGTGGGGCAATGCGCCCAGCGTGCTGGTCGGCGATTTCCTGTACTCGCGCAGCTTCCAGCTGATGGTCGAGCTGGACAGCATGGCGGTGATGCGCCTGCTGGCCGACACCACCAACCGCATCGCCGAGGGCGAGGTGCTGCAGCTGCTGCACGTGCACAACCCGGACACCGACGAAGCCGCCTACCTGCGCGTGATCGAGCGCAAGACCGCGGTGCTGTTCGCCGCCGGCACCCGCCTGGGCGCGCTCGCCTCCGGCGTCGATGAAGCCACCCAGCAGGCACTGTACGACTACGGCATGCACCTGGGCTATGCGTTCCAGATCGCCGACGACGTGCTCGACTATGCCGCCGACGCCGAAGCGCTGGGCAAGAACCTCGGCGACGACCTCGCCGAAGGCAAGGCCACGCTGCCGCTGATCCATGCGATCGCGCACTCCGATCCAGCCACCCGCGAGCGCCTGCGCGCGATCGTCGAACAGGGCGACGCCAGCGCGATGCCCGAGGTGCTGGCGGCGATCCAGGCGACCGGCGGACTCGACTACAGCCGCCAGCGTGCGCTGCACTACGCCGAGGCGGCCGAGCGTGCACTCGACGGCCTGGCCGAGAACGAGGCGGTATCCGCGCTACGCGGCCTGGCGCGGTACGCGGTGTCGCGCACCCACTGA	MSIAEDIRPALALPQIQALAAPDMAAVDALIRRRLASDVVLINQIADHIISAGGKRLRPMLVMLAGRAVGGAGADHHQLAAIIEFIHTSTLLHDDVVDESDLRRGRSTANALWGNAPSVLVGDFLYSRSFQLMVELDSMAVMRLLADTTNRIAEGEVLQLLHVHNPDTDEAAYLRVIERKTAVLFAAGTRLGALASGVDEATQQALYDYGMHLGYAFQIADDVLDYAADAEALGKNLGDDLAEGKATLPLIHAIAHSDPATRERLRAIVEQGDASAMPEVLAAIQATGGLDYSRQRALHYAEAAERALDGLAENEAVSALRGLARYAVSRTH	PGPT0007525_793	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007525-ispB-K02523	NA	NA
BMS020_04084	276			hypothetical protein	ATGGCCGGCTTCGACACCGAGCAACGCGACATCCTGCTGGCGGTGAAAGGCGTCGGCCCCACCGTCATCGCCCGGCTGGAACAGCTGGGCTTCGATTCACTCGCCAGCCTGGCGGACGCCAATCCAGTGCAGTTGACCGAACAGGCCGCAGCGATGCTCGGCAGCAGCTGCTGGCGCAACAGCCCGCAGGCACGCGCGGCGATGGCCGGCGCCATCGCCGCCGCGCGCGCTCACTCGCCGAGGCGTTCCTCGAAGAAGTCCTCCAGCATCCGGTAG	MAGFDTEQRDILLAVKGVGPTVIARLEQLGFDSLASLADANPVQLTEQAAAMLGSSCWRNSPQARAAMAGAIAAARAHSPRRSSKKSSSIR				NA	NA	NA	NA	NA
BMS020_04085	822			hypothetical protein	ATGAGCAGGCAGGCAGGCGGGTGGCGGGTGCGTGGCTGGCGCTGGGGTGCACTGGTCGTGCTGGGGCTGCTGGCGCAGTCGGCCAGCGCGGCGATGCAGGCGCGGCCGGTCGAGTGGAGTGTCGGCAAGGACAGCTTCGCCGGCGTGCTGGTCTACGACGATGCCGAGCGCGACCCGCGTCCGGGGTTGGTGATGGTGCCGGACTGGATGGGCGTCACCGACGCCGCGATCACCCGCGCCAAGGAGCTTGCCGGCGTCGACTACGTGATCCTGGTCGCCGACGTGTACGGCAAGGGCCGGCGCCCGGCCAACGCGCAGCAGGCCGGGCAGTTCGCCAGCGCGCTGAAGCAGGACCCGGCGACGCTGCGCGCGCGTGCGCTGAAGGCGGTCGAGGTGCTCAAGGCCCAAGCCGGCAAGGCGCCGCTGGACGCGCGCCGGATCGGTGCGCTCGGCTTTTGCTTCGGCGGCACCACGGTGATCGAGCTGGTGCGTGCCGGTGCCCAGTTGGGCGGCGTGGTCAGCCTGCATGGTGGCTTGAACGCGCCGCAACCGGCGGCAGCCGGCGTGGCCAAGACCCCGCTGCTGGTGCTCAATGGCGCCGCCGACAAGGGCATCAGCGCGCAGGACATCGTCAGCTTCGAGCAGGAGATGGATCGCGCCGGCGCCGACTGGCAGTTCGTCAATTTCAGCGGCGCGGTGCATTGCTTCGCGCTGCCGGGCGCCGGCAACGACCCGTCCAGCAACTGTCGCTACGATCCGCGCGCGGCCAAGCGCGCCTACCGGATGCTGGAGGACTTCTTCGAGGAACGCCTCGGCGAGTGA	MSRQAGGWRVRGWRWGALVVLGLLAQSASAAMQARPVEWSVGKDSFAGVLVYDDAERDPRPGLVMVPDWMGVTDAAITRAKELAGVDYVILVADVYGKGRRPANAQQAGQFASALKQDPATLRARALKAVEVLKAQAGKAPLDARRIGALGFCFGGTTVIELVRAGAQLGGVVSLHGGLNAPQPAAAGVAKTPLLVLNGAADKGISAQDIVSFEQEMDRAGADWQFVNFSGAVHCFALPGAGNDPSSNCRYDPRAAKRAYRMLEDFFEERLGE				NA	NA	NA	NA	NA
BMS020_04086	1407	murD2		UDP-N-acetylmuramoyl-L-alanine--L-glutamate ligase	GTGCGAATTTCGCAGCTTGAGGGCCTCGCGGTCGCGCTGTGGGGCTGGGGCCGCGAAGGCCGCGCGGCCTACCGCGCGATCCGCGACCAGTTGCCGCAACAGCCGCTGACGCTGTTCTGCAGCGCGGCCGAGGCTGACGAGGCCTGCACGCTGGGTGATGCGGCGCTGGCGGTCGAGACAGTCGCCGATGCCGCGTCGCTGGCGCGCTTCCAGGTCGTGGTGAAGTCGCCGGGCATCAGTCCCTATCGCGACGAGGCGCAGGCCGCGGCGGCGCAGGGCACGCAGTTCATCGGCGGCACCTCGCTGTGGTTCGCCGAACATGCGCAACCGGGCGGGCAGGTGCCCGGCGCGGTCTGCGTCACCGGCACCAAGGGCAAGAGCACCACCACCGCGCTGCTGGCGCATCTGCTGCGTGCGGGTGGTCATCGCACCGCGCTGGCCGGCAACATCGGCCTGCCGCTGCTGGAAGTGCTGGCGCCGCAGCCGGCGCCGGTGTACTGGGCGATCGAGCTGTCGAGCTACCAGACCGGTGAGGTGGCGCGCAGTGGCGCGCGCCCCGAGTTGGCGCTGGTGCTGAACCTGTTTCCCGAGCACCTGGACTGGCACGGCAGCGAGGCGCGCTACATCGCCGACAAGCTGGCGCTGGTGACCGAAGGGCGGCCGCGCATCGCGCTGCTCAACGCCGCCGACCCGCACCTGGCGCAGTTGCAGCTGCCGCACAGCGAGGTGCGCTGGTTCAACCATCCCGATGGCTGGCACATGCGCGGCGACGTGGTGTATCGCGGCGAGACGGCGGTGTTCGACACCGCCAGCGTGCCGTTGCCGGGGCGCCACAACCGCGGCAACCTGTGCGCGGTACTTGCGGCGGTCGAGGCGCTTGGACTGGACGCGGCGGCGCTGGCCCCGGCCGCGCTGACGTTCCGACCGTTGCCGAACCGGCTGCAGACCGTCGGTGTCGCCGACGGCGTCACCTGGATCAACGATTCGATCAGCACCACGCCGCACGCAACGCTGGCGGCGTTGGCCTGCTTTCCGAACCGGCGCGTGGCGGTGCTGGTTGGCGGGCATGATCGCGGGCTGGACTGGCACGATTTCGCCGCGCACATGGCCGACGAGGCGCCGCTGGAGATCGTCACGATGGGCGCCAATGGCCCGCGCATCCACGAACTGCTCGCACCGATCGCTGCTGCGCGTGGCTTCGGCCTGCATGCCGCCGCCGATCTGGCCGCGGCGGTGGCCACCGCACGCGCCGCGCTCGGCACGCAGGGCGGGGTGGTGCTGCTGTCGCCGGGCGCGCCGAGCTTCGGCGCCTACAAGGATTACGTCGCGCGTGGCCGCCACTTCGCCGAACTGGCCGGCTTCGATCCGGAACAGATCAGCGCGATCCCCGGCCTCGGCGTGGCCTGA	MRISQLEGLAVALWGWGREGRAAYRAIRDQLPQQPLTLFCSAAEADEACTLGDAALAVETVADAASLARFQVVVKSPGISPYRDEAQAAAAQGTQFIGGTSLWFAEHAQPGGQVPGAVCVTGTKGKSTTTALLAHLLRAGGHRTALAGNIGLPLLEVLAPQPAPVYWAIELSSYQTGEVARSGARPELALVLNLFPEHLDWHGSEARYIADKLALVTEGRPRIALLNAADPHLAQLQLPHSEVRWFNHPDGWHMRGDVVYRGETAVFDTASVPLPGRHNRGNLCAVLAAVEALGLDAAALAPAALTFRPLPNRLQTVGVADGVTWINDSISTTPHATLAALACFPNRRVAVLVGGHDRGLDWHDFAAHMADEAPLEIVTMGANGPRIHELLAPIAAARGFGLHAAADLAAAVATARAALGTQGGVVLLSPGAPSFGAYKDYVARGRHFAELAGFDPEQISAIPGLGVA				NA	NA	NA	NA	NA
BMS020_04087	1371	murL		UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-L-glutamate epimerase	ATGACTGCCGCCATCGACACCACCACCTTCGACAAGCACGCCATCACCTGCTTCCGCTTCGTGCGCTGCGGGTTCGATGCGCAGACCGGCGTGGCCTCGCTGGTGTATGCCTTCGATCAGGGCCCGGAACTGGTGGAGACGGTGACCATCCCGGGCGCGCCGTTCGCGCTCGATGCGGCCCGCGCCGCGGCAGTGCAGCAGGCGCTGCGGCTGCTGCACCTGATCGCTGGCGTCAGCTATTACAAGGCCGCGGTGCCGGCGCAGGTGCTGATCGACGACTACGCGATCGACGCCGAGACCGCAGCCCTGGTGGAAAGCATCTATCTGCACGGTCTGGGCGAGTTCGCCTACCGCAACGGGCTGGACCTGCGTGGCCGCTTCAAGCTGCCGGTCGGCGGCAGCGCCAGGCTGGCCGGTGCGGCCGGCCTGCGCCGCCACGCGTTGGTGGCGATCGGCGGCGGCAAGGATTCGCTGGTCAGCATCGAGGCGCTGCGCACGGCCGGGATCGAACAGAGCGTGACCTGGATCGGCGGCTCGCAGCTGATCCGCACCTGCGCCGAGCGGACCGGGCTGCCGATGCTCAATATCGGCCGCACGCTGGCGCCGGCGCTGTTCGAACTCAACCGCCAGGGCGCGTGGAACGGGCACATCCCGGTGACCGCGGTGAACTCGGCGATCATGGTGCTGGCGGCGGTGCTGGCCGGCGTCGATCAGGTGGTGTTCTCCAACGAGCGCTCGGCCAGCTACGGCAGCCAGATCCCGGGCACCGGCGAGGTCAACCACCAGTGGTCCAAGGGCTGGCAGTTCGAGCAGGCCTTCGGCGAGCACGTCGAGCGCCACGTCGCCAGCGACCTGCGCTACTACTCGCTGCTGCGGCCGTTGTCGGAGCTGGCGGTGGCGCGGCAGTTCGCCCGCAACGACCACTACGACGCGCACTTCTCCAGCTGCAACCGCAATTTCCACATCATGGGCGAGCGCCCGGTGCACCGCTGGTGCGGCGTCTGCCCGAAATGCCATTTCGTGTTCCTGGCGCTGGCGCCGTTCATGCCCAAGACGCGCCTGGTGAAGATCTTCGGCCGCAACCTGCTCGACGACGCCAGCCAGGCTGGCGGTTTCGACGCGCTGCTGGAATTCCAGGACCACAAGCCGTTCGAGTGCGTCGGCGAAGGCCGCGAATCGCGCGCGGCGCTGGCCACGCTGGCCGGCCGTGCCGAGTGGCAGGAGGACGTGCTGGTGAAGCGTTTCATCCGCGAGATCCTGCCGCAGCTGCAGGCTGATGAGTTGCAGATCGCACCGTTGCTGGCGATCGACGACGAGCACCGCATCCCCGCGATCGTGTGGGAGCGCGTGCGTGCGAATTTCGCAGCTTGA	MTAAIDTTTFDKHAITCFRFVRCGFDAQTGVASLVYAFDQGPELVETVTIPGAPFALDAARAAAVQQALRLLHLIAGVSYYKAAVPAQVLIDDYAIDAETAALVESIYLHGLGEFAYRNGLDLRGRFKLPVGGSARLAGAAGLRRHALVAIGGGKDSLVSIEALRTAGIEQSVTWIGGSQLIRTCAERTGLPMLNIGRTLAPALFELNRQGAWNGHIPVTAVNSAIMVLAAVLAGVDQVVFSNERSASYGSQIPGTGEVNHQWSKGWQFEQAFGEHVERHVASDLRYYSLLRPLSELAVARQFARNDHYDAHFSSCNRNFHIMGERPVHRWCGVCPKCHFVFLALAPFMPKTRLVKIFGRNLLDDASQAGGFDALLEFQDHKPFECVGEGRESRAALATLAGRAEWQEDVLVKRFIREILPQLQADELQIAPLLAIDDEHRIPAIVWERVRANFAA				NA	NA	NA	NA	NA
BMS020_04088	2604	lysA_2		Diaminopimelate decarboxylase	ATGTCAGCTTCCTCTGCTTCTGCCGATCGCTGGATCGTCCTCAAGTTCGGTGGCACTTCGGTGTCGCGTCGTCATCGCTGGGACACGATTGGGAAGCTGGCGAAAAAACGTGCGGACGAGACCGGGGCACGCGTGCTGGTGGTGGTGTCGGCGTTGTCGGGCGTGACCAACGAGCTGACCGCGATCGCCGACGGCACCGCCGACAGCGCGCAGCGCGTGGCCGCGCTGGAGCAGCGCCACCGCGCGTTCCTGGCCGAGCTGGAGCTCGACGCCGACGCCGTGCTGGGTGAGCGCCTGGCCGCGCTGCGTGGGCTGCTGGTCGATCCGCGTGCGGCTGGTCGCACGCTGGACTGGCAGGCCGAAGTGCTCGGCCAGGGCGAACTGCTGTCGTCCACGCTCGGCGCCGCCTACCTGCGCGCCAACGGCCTGGACATGGGCTGGATGGATGCGCGCGACTGGCTCGACGCGCTGCCGCCGCAGCCGAACCAGAGCGAGTGGTCGCGTCGCCTGTCGGTGTCCTGCCAGTGGCAGGCCAACGCCAGCTGGAGCGCGCGCTTCAACCAGCAGCCGACGCGCCTGCTGATCACCCAGGGCTTCATCTCGCGCCACCAGGATGGCGGCACCGCGATCCTCGGGCGCGGCGGCTCGGACACCTCGGCGGCGTACTTCGGCGCGCTGCTCGGCGCCAGCCGCGTGGAGATCTGGACCGACGTGCCGGGCATGTTCAGCGCCAATCCGAAGGAAGTGCCGGACGCGCGCCTGCTGACCCGGCTGGACTATTACGAAGCGCAGGAAATCGCCACCACCGGCGCCAAGGTGCTGCATCCGCGCTCGATCAAGCCGTGCCGCGATTCCGGCGTGCCGATGGCGATCCTCGATACCGAGCGCCCGGAGATGCCGGGCACCAGCATCGACGGCGACGCCGAGCCGGTGCCGGGGGTGAAGGCGATCAGCCGCCGCAACGGCATCGTGCTGGTGTCGATGGAAGGCATCGGCATGTGGCAGCAGGTCGGCTTCCTCGCCGACGTGTTCGCGCTGTTCAAGAAGCACGGCCTGTCGGTGGACCTGATCGGTTCGGCCGAGACCAACGTGACCGTGTCGCTGGATCCGAGCGAAAACCTGGTCAACACCGACGTGCTGGCCGCGTTGTCGGCGGACCTGTCGAAGATCTGCAAGGTCAAGATCATCGTGCCCTGCGCGGCGATCACCCTGGTCGGGCGCGGCATGCGCTCGCTGCTGCACAAGCTCTCGGACGTGTGGGCCACGTTCGGCCAGGAGCGCGTGCACATGATCAGCCAGTCGTCCAACGACCTGAACCTGACCTTCGTGATCGACGAGGCCGATGCCGACGGCCTGCTGCCGATCCTGCATGCCGAGCTGATCGATTCCGGCGCGATGCCGGTGGGCGAGGGCGAGGTGTTCGGCCCGCGCTGGCGCGAGATCATCGGCACGGTGCGGCCGCGGCCGACGCCGTGGTGGCGCGGCGCGCGTACGCAGCTGCTCGACCTTGCCGCTGCCGGCACGCCGGGCTATGTCTACCACCTGCCGACGGTGCGCGAGCGCGCCCGCCAGCTCGGCGCGGTGGCCGCGGTCGACCATCGCTACTACGCGATCAAGGCCAACTCGCATCCGGCGGTGCTGCAGGCGATCGCCGATGAAGGCTTCGGCCTGGAATGCGTCTCGCACGGCGAGCTGCGCCGGGTGTTCGACGCGCTGCCGGAGCTGTCGCCCAAGCGCGTGCTGTTCACCCCGAGTTTCGCGCCGAAGGGCGAATACGAAGCCGCCTTCGCGCTCGGCGTCACCGTCACCGTCGACAACGTCGAGGCGTTGAAGCAGTGGCCGGAGGTGTTCCGTGGCCGCAGTATCTGGCTGCGCATCGATCTCGGCCATGGCGATGGCCATCACGAGAAGGTCAACACCGGCGGCAAGGCCTCCAAGTTCGGCCTGTCGGCCAGCCGCGTCGACGAGTTCGTCGATGCCGCGCGCGCGCTCGACATCAGCATCGTCGGCCTGCATGCGCACCTGGGCTCGGGCGTGGAGACCGGCGAGCACTGGCGGATGATGTACGACGAGCTGGCCGGCTTCGCGCGCCGCATCGGCAGCGTGGAAGTGCTCGACATCGGCGGTGGCCTGCCGATTCCCTACAGCGCCGAGGACGAACCGTTCGATCTCGATGTCTGGGGCAAGGGCCTGGCCGAGGTCAAGGCCGTGCACCCGGCGTTCCGCCTGGCGATCGAACCGGGCCGCTTCCTGGTCGCCGAAGCCGGCGTGTTGCTGGCCAGCGCCACCCAGGTGATCGAGAAGGACGGCGTGCACCGCGTCGGCCTCGATGCCGGCATGAACACGCTGGTGCGCCCGGCGCTGTACGACGCCTGGCACGACGTGGAAAACCTGAGTCGCCTTGATGCCGCAGCCGATGGCTGCTTCGACGTGGTCGGGCCGATCTGCGAGTCCTCCGACATCTTCGGCAAGCGCCGTCGCCTGCCGCTGGCGACCGCGCCGGGCGACGTGATGCTGCTTGCCGATGCCGGTGCCTACGGCTTCAGCATGGCCAGCGCCTACAACCTGCGCGCGCTGCCGCGTGAAGACGTCATCGATGGCTGA	MSASSASADRWIVLKFGGTSVSRRHRWDTIGKLAKKRADETGARVLVVVSALSGVTNELTAIADGTADSAQRVAALEQRHRAFLAELELDADAVLGERLAALRGLLVDPRAAGRTLDWQAEVLGQGELLSSTLGAAYLRANGLDMGWMDARDWLDALPPQPNQSEWSRRLSVSCQWQANASWSARFNQQPTRLLITQGFISRHQDGGTAILGRGGSDTSAAYFGALLGASRVEIWTDVPGMFSANPKEVPDARLLTRLDYYEAQEIATTGAKVLHPRSIKPCRDSGVPMAILDTERPEMPGTSIDGDAEPVPGVKAISRRNGIVLVSMEGIGMWQQVGFLADVFALFKKHGLSVDLIGSAETNVTVSLDPSENLVNTDVLAALSADLSKICKVKIIVPCAAITLVGRGMRSLLHKLSDVWATFGQERVHMISQSSNDLNLTFVIDEADADGLLPILHAELIDSGAMPVGEGEVFGPRWREIIGTVRPRPTPWWRGARTQLLDLAAAGTPGYVYHLPTVRERARQLGAVAAVDHRYYAIKANSHPAVLQAIADEGFGLECVSHGELRRVFDALPELSPKRVLFTPSFAPKGEYEAAFALGVTVTVDNVEALKQWPEVFRGRSIWLRIDLGHGDGHHEKVNTGGKASKFGLSASRVDEFVDAARALDISIVGLHAHLGSGVETGEHWRMMYDELAGFARRIGSVEVLDIGGGLPIPYSAEDEPFDLDVWGKGLAEVKAVHPAFRLAIEPGRFLVAEAGVLLASATQVIEKDGVHRVGLDAGMNTLVRPALYDAWHDVENLSRLDAAADGCFDVVGPICESSDIFGKRRRLPLATAPGDVMLLADAGAYGFSMASAYNLRALPREDVIDG				NA	NA	NA	NA	NA
BMS020_04089	912	phzF_1		Trans-2,3-dihydro-3-hydroxyanthranilate isomerase	ATGCGCCGCACACAGGCCGGCGCAACCCCCGATTCTACCGTCAACATGCCCCCGATGACCGCCCGCCGGTATCTCCAGCTCGATGTCTTTTCCGCCGCGCCCGGCCTGGGCAATCCGCTCGGTGTGGTCACCGATGCAACCGATCTGGACGCATCCCGGATGCAGCAGCTGGCCGCCTGGCTGAACCTGTCGGAGACGATCTTCTTCCTGCCGCCCGATCCCGGCGCCGACTACCACATCCGCATCTTCACTCCGAAGGGCGAACTGCCGTTCGCCGGCCATCCCAGCGTGGGCGCGGCCTGGGCCGCGGTCGAACTCGGCCTGGCGGTGCCGCGCGCCGGCACGCTGCTGCAGCAGTGCGCCGCCGGGCGGCTGCCGGTCCGGGTCGAGTCCGGCGATGGCGGCCGGCATCTGCAGATCCGCAGCCCGCAGGCGCGCCGACGCGCGGAATTCCCGGCGCCGCAGCTGCCGCCGGCGCTGGCTGCCGCGGCCGCCACGGGACGCGTGGCAGAGCTCTGGAACAACGGCCCGGACTGGTGGCTGCTGGAACTGCGCGACGAGGCGACGCTGCGCACGCTGGCCCCGGAACTGGCCGCGATCGCCGCCCTGCCCGGCGCCGGCAAGCTCGCCGCCTACGCCTTCAGCGAAGGCGCGCACCACCAGCTCAGCGTGCGCGCCTTCGCCCCGGGCGTCGGCGTGCCCGAAGACCCGGTCACCGGCAGCGCCAACGCCCTGATCGCCGCACGCCTGGCCGCCGAAGGCCGGCTGCCGCACGGGCGGCGCACCTACATCGCCAGCCAGGGCCGCGAACTCGGCCGCGATGGCCGGGTCGCGCTGCAGGTCGATGACGCAGGCGCGGTCTGGATCGGCGGCCAGGTCCAGCCGGTCATCGACGGGCACCTGGACTGGTAG	MRRTQAGATPDSTVNMPPMTARRYLQLDVFSAAPGLGNPLGVVTDATDLDASRMQQLAAWLNLSETIFFLPPDPGADYHIRIFTPKGELPFAGHPSVGAAWAAVELGLAVPRAGTLLQQCAAGRLPVRVESGDGGRHLQIRSPQARRRAEFPAPQLPPALAAAAATGRVAELWNNGPDWWLLELRDEATLRTLAPELAAIAALPGAGKLAAYAFSEGAHHQLSVRAFAPGVGVPEDPVTGSANALIAARLAAEGRLPHGRRTYIASQGRELGRDGRVALQVDDAGAVWIGGQVQPVIDGHLDW	PGPT0012805_421	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
BMS020_04090	885	phzF_2		Trans-2,3-dihydro-3-hydroxyanthranilate isomerase	ATGACTTCACGCCGGTTCCTGCAGGTGGACGTGTTCTCGGCCCGGGCTGGCGGCGGCAATCCGCTCGCCGTCGTGCTCGATGCCGAAGGCCTGGACGATGCGGCAATGCAGGCGATCGCACGCTGGACCAAGCTGCCGGAAACCACGTTCGTGTTCGCGCCCACCGCGCCGGGAACCGACTATCGGCTGCGGATGTTCGCGCCACAGAAGGAAGTGCCGTTCGCCGGCCACCCCAGCGTCGGCACCGCGCACGCCGCGCTCGAGGCAGGCATCGCCACCCCACGCGACGGCCTGCTGGTACAGGACGGCATCGCCGGCCAGCTGCCACTGCGGGTATCGCAGGCCGACGACGGCGTGCGCAGCATCGCGATCCGCACCCCGCGCGCCAGCGTCGCCGAGGTCGTCGACTCCGCCGATCCGCGCCTGATCGGCGCACTGGCCGGCTGGCGCCTGGGCGCACTGCCGCCGGTGCTGATGGATGGCGGTCGCCGCTGGTGGCTGGTGGAGCTGGCCGACGAAGCCACGCTGCGCGGGCTGGCGCCGGACTGGGAGGCGATCGCCGCACTGGCCGAATCCACCGCGAGCATGGGCGTGTTCGCCTATGCCCGCTGCGCCGACGGCGCACCGGCCGAGCTGGCGGTGCGTGCCTTCGTCGGCAACGGTCGCCGCTTCGAGGACGCCGCCTCCGGCGCCGCCAATGCAGTGCTGGCGGCCTGGCTGGACGAACGCGGCGCGATCCCGCGTGGTGCCCGCAGCTACCGCGCCAGCCAGGGCCGCGAGGTCGGCTTCGACGCCTTGCTGGAGCTCAGCCTCGACGCCGCCGGTGACGTGTGGTCCGGCGGCCAGGTGCGCACCGTGGTGCGTGGCAGCTTCGACTGGGAGTGA	MTSRRFLQVDVFSARAGGGNPLAVVLDAEGLDDAAMQAIARWTKLPETTFVFAPTAPGTDYRLRMFAPQKEVPFAGHPSVGTAHAALEAGIATPRDGLLVQDGIAGQLPLRVSQADDGVRSIAIRTPRASVAEVVDSADPRLIGALAGWRLGALPPVLMDGGRRWWLVELADEATLRGLAPDWEAIAALAESTASMGVFAYARCADGAPAELAVRAFVGNGRRFEDAASGAANAVLAAWLDERGAIPRGARSYRASQGREVGFDALLELSLDAAGDVWSGGQVRTVVRGSFDWE				NA	NA	NA	NA	NA
BMS020_04091	570			hypothetical protein	ATGAAAGCCCTGGTCTGCGGTGTGGTGATGGTCGGCATGCTGGCGGCGGGCAATGCCGCGGCCCAGCGCTACGACGAACGTGACGACCGCGACGACTACGACTACGCGCGGGTGGTGCGGGTCGACCCGATCATCGTCAGCGACCACCGCGAACGCGACGAGCAGCGCTGTTATGACCGCGCCGCCGATGGCAGCGTGGTTGCCAGCGGTGGTGACTACGACGGCAGCGCCGCCAGCAGCGTCAACCCGTCCGGGCGCACCCTGGCCACGGTGGTGGGCGGCATCGCCGGCGCGGTGGTCGGCAGCCGCTTCGGCGGCGGCAGCGGGCAGTTGCTCGGCACCGCGGTCGGCACGATGGCCGGCGGCGTCGCCGGGCGTTCGGTCTACGACGCCAACCATCCGACCGGCGGCACCGTCCGGGTCTGCGAACCGGTGAGCTACCGCGACGCGCGCGAGCACGTCGACGGCTACGACGTCACCTACGAATACGCCGGGCGCACCTATCACACCCGTAGCGACTACAACCCGGGCGAGCGGATCCGGGTGCGCGTGCAGGTCAGCGCCGAGTAA	MKALVCGVVMVGMLAAGNAAAQRYDERDDRDDYDYARVVRVDPIIVSDHRERDEQRCYDRAADGSVVASGGDYDGSAASSVNPSGRTLATVVGGIAGAVVGSRFGGGSGQLLGTAVGTMAGGVAGRSVYDANHPTGGTVRVCEPVSYRDAREHVDGYDVTYEYAGRTYHTRSDYNPGERIRVRVQVSAE				NA	NA	NA	NA	NA
BMS020_04092	435	osmC_2	COG1764	Peroxiredoxin OsmC	ATGGGCATCTCGCGTCACGCCACCGCACACTGGGAAGGCGACCTCAAGACCGGCAAGGGCCTGCTCAACACACCGCAGAGCGGCCTGCTCGCCGATACCCGCTATGGCTTCAACAGCCGTTTCGGCGACGAGAAGGGCACCAATCCGGAGGAGTTGATCGCCGCCGCGCATGCCGGCTGCTTCACCATGGCGCTGTCGGCGCAGCTCAGCGAAGCCGGCTTCCCGCCGAAGGCGCTGGATACCCGGGCCGAAGTCGACCTGTCGCTGGAGGGCGGTCCGCAGCTGTCGCAGATCCGGCTCAAGCTCAAGGCGGTGGTGCCCGGGATCGACGAGGCCAAGTTCCGCGAACTGGCCGATGCGGCCAAGAAGAACTGCCCGGTGTCCAAGGCACTGAGCGCGGTGCCGATCACGCTGGATAGCGAGTTTTCCAACTGA	MGISRHATAHWEGDLKTGKGLLNTPQSGLLADTRYGFNSRFGDEKGTNPEELIAAAHAGCFTMALSAQLSEAGFPPKALDTRAEVDLSLEGGPQLSQIRLKLKAVVPGIDEAKFRELADAAKKNCPVSKALSAVPITLDSEFSN	PGPT0013160_408	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
BMS020_04093	2031		COG0480	Elongation factor G-like protein	ATGTTTCCTGCCACACGGGACATCCGCAACGCGGTGCTGGTCGGCCACCCGGGCGCGGGCAAGACCACGCTATGCGAGGCCCTGCTGCACGCTGCCGGCGCGCTGTCGGCGATGGGCTCGGTCGAGCGCGGCACCACGCTGTCCGACCATGACCCGCTGGAGCGCCAGCGCGGCCACTCCATCGACGGGGCGATCGCCTCGGTCGACCATGCCGGCATCCGCCTCAACCTGCTCGACACCCCCGGCTACCCGGACTTCCGCGGTGCCACGCTGCCGGCGATGGCAGCGGTGGAAACCGCCTTGCTGGTGGTCGATGCCGCGCGCGGGGTGCAGCACGGCACCCGGCGCCTGATGCAGCGCGCCGGCGAAGCCGGGCTGTGCCGGTTGATCGTGGTGAACAAGATCGACCAGGGCGTGGACGCCGCCGCGCTGCTGGATGCGCTGCGCGCCGAGTTCGGCCCGCAGGTGCTGCCGCTGAACCTGCCTGCGGGCGGCGGCACGCGCGTGCTGGACTGCTTCGCCCATGCCGACGGCGACAGCGATGCCGGCCCGGTGGCGCAGTGGCACCAGCGCATCCTCGACCAGGTGGTGGAAATCCGCGAGAGCGTGATGGAGCACTATCTCGAGGATGGCGAGGCCGGCCTGGCGCCGCAGGAACTGCACGACGCATTCGAACAATGCCTGCGCGAAGGCCACCTGGTGCCGGTCTGCTTCGTCTCCGCGCGCACCGGCACCGGCCTGGCCGAGCTGCTGCAGATCGCCCACGCGCTGCTGCCCGACCCGACCGAGGGCAACCCGCCGGCCTTCAGCACCGAGGACCAGCCGGTCGCGGTCGGCAACGCCCATGATGCCGCGGTGGTCGCACGCGTGTTCCGCATCGTCAACGACCCCTTCGTCGGCAAGATCGGCATCTTCCGCCTCTACCAGGGCACGATCGTGCGCGACATGCCGCTGCTGCTGGACGAAGCACGCAAGCCGATCCGCGCCGCGCACCTGCTGCGCATCCAGGGCCGCGAGCACCTGCCGGTCGAACGCGTGGTGGCTGGCGACATCGCCGCCATCGCCAAGCTCGACGACCTGCATTTCGACGCGGTGCTGCACGACCGCCACGAGCAGGACCACCTGCGCGCGCAGCCACTGCGCTTCCCGCAGGCGATGTTCGCGCTGGCGGTGGCCCCGGCCAGCCGCGGCCAGGAACAGAAGCTGGCGCTGGCGCTGGAGAAACTCGCGCAGGAAGACCCGTCGCTGATGCTGGAGCGCGACCCGCAGACCCACGAGACCGTGCTGCGCGGCCTGTCCGACCTGCACCTGGGCGTGGCGCTGGAACGGCTACAGAGCCGCTTCGGCGTCGACGTCCAGACCCATGTGCCGCGCATCGCCTACCGCGAGACCATCGCCCAGCCGGCCGAAGGCCATCACCGCCACAAGAAGCAGACCGGTGGCGCCGGCCAGTTCGGCGAGGTCTGGCTGCGGCTGGCGCCGCTGCCGCGCGGCCAGGGCTTCGAATTCGTCGACGACGTGCGCGGCGGCACCATCCCCGGCCAGTTCATGCCGGCAGTGGAGAAAGGCGTACGCCAGGCGGTGGCCGCCGGCGCCGCGGCCGGCTTCCCGATGCAGGACCTGCGCGTCACCGTGTACGACGGCCGCCACCACCCGGTCGACAGCAAGGAGGTCGCCTTCGTCGCCGCCGCGCGCAAGGCGTTCCTGGACGCGGTGGCGCGCGCCGCGCCGCAGGTGCTGGAACCGATCGTGGAGCTGGAAGTCAGCGCACCGGAGGCCCAGGCCGGCGATATCACCGGCGGACTCGCCTCCAAGCGCGCGCGCATCCATGCCACCGACAGCCGCCAGGGCGAGATCGTGGTGCATGCGCAGGTGCCGCTGTCGGAACTGGAGGGCTACGCCGCCGAGTTGAAGTCGGTCACCGCCGGGCAGGGGCGTTTTTCCCTGGATTTCAGCCACTACGAACCGGTGCCGGCACAGGTGCAGCAGCGCCTGGCGGCCGCGCACGTGCCGGCCACGCCGCAGGATTGA	MFPATRDIRNAVLVGHPGAGKTTLCEALLHAAGALSAMGSVERGTTLSDHDPLERQRGHSIDGAIASVDHAGIRLNLLDTPGYPDFRGATLPAMAAVETALLVVDAARGVQHGTRRLMQRAGEAGLCRLIVVNKIDQGVDAAALLDALRAEFGPQVLPLNLPAGGGTRVLDCFAHADGDSDAGPVAQWHQRILDQVVEIRESVMEHYLEDGEAGLAPQELHDAFEQCLREGHLVPVCFVSARTGTGLAELLQIAHALLPDPTEGNPPAFSTEDQPVAVGNAHDAAVVARVFRIVNDPFVGKIGIFRLYQGTIVRDMPLLLDEARKPIRAAHLLRIQGREHLPVERVVAGDIAAIAKLDDLHFDAVLHDRHEQDHLRAQPLRFPQAMFALAVAPASRGQEQKLALALEKLAQEDPSLMLERDPQTHETVLRGLSDLHLGVALERLQSRFGVDVQTHVPRIAYRETIAQPAEGHHRHKKQTGGAGQFGEVWLRLAPLPRGQGFEFVDDVRGGTIPGQFMPAVEKGVRQAVAAGAAAGFPMQDLRVTVYDGRHHPVDSKEVAFVAAARKAFLDAVARAAPQVLEPIVELEVSAPEAQAGDITGGLASKRARIHATDSRQGEIVVHAQVPLSELEGYAAELKSVTAGQGRFSLDFSHYEPVPAQVQQRLAAAHVPATPQD				NA	NA	NA	NA	NA
BMS020_04094	399			hypothetical protein	ATGGCAAAGACCGCTAAGAAGGCTGCCCCGAAGAAGGCAGTGAAGAAAGTCGCCACCAAGGCAGCCGCCAAGCCGGCCGCCCCGAAGCCGATCAAGGAAGCCTTGAGCAAGTCGGGTCTGGTGGCGCACATCGCTGAAGCCACCGCCGTCGCCGCGAAGGACGTGCGTTCCGTCCTGGCCGCGCTGGAAGGTGCCGTCCACGCTTCGATCAGCAAGAAGGGCGCCGGCGCGTTCACCCTGCCGGGCCTGCTGAAGATCACCGCCGTCAACGTTCCGGCCAAGCCGAAGCGCAAGGGCATCAACCCGTTCACCAAGGAAGAGCAGGTGTTCGCCGCCAAGCCGGCCTCGATCAAGGTCAAGGTGCGCCCGCTGAAGAAGCTCAAGGACGCCGCTGCCTGA	MAKTAKKAAPKKAVKKVATKAAAKPAAPKPIKEALSKSGLVAHIAEATAVAAKDVRSVLAALEGAVHASISKKGAGAFTLPGLLKITAVNVPAKPKRKGINPFTKEEQVFAAKPASIKVKVRPLKKLKDAAA				NA	NA	NA	NA	NA
BMS020_04095	360			hypothetical protein	ATGGTGGCCTCACACCCAAGCCGCCACCCCACGACCATGTCCAGACAGCGCTACCGCATCACCGTCACGCCGATCGAGAGCGATGGCCGGCCGTGCACCGGGCGCTGCACGATCGAGTTCGAGCAGCGCTCGCGCGAGAACTGGATGCGCGAGCTGGAGGCGTTGCAGGGCCGGCGCGAACTGAGCGGCGACGAATGTGCCGCGCTCACCGTCGGGACCCAGTTGCTGAAAGAGCTCGCCGACCCCGACCGTGGCGCATCCCGTACCGCGATCGCGCGTCTGGAGGCGGAGTTGCGCGGTCTGCTGGAGCGGCTCGACGGCGGCGCGGCAGCGACCGGCGCGCGCAGCGCACCACACTAA	MVASHPSRHPTTMSRQRYRITVTPIESDGRPCTGRCTIEFEQRSRENWMRELEALQGRRELSGDECAALTVGTQLLKELADPDRGASRTAIARLEAELRGLLERLDGGAAATGARSAPH				NA	NA	NA	NA	NA
BMS020_04096	597			hypothetical protein	ATGAAAGCCTTCGCCCTCGCCGCCACCCTCAGCGCCGTGCTGCTGGCCACCGCGGTCGCGCCGGCCCGGGCCGAACCGGCGGTGCGCGGCCACCAGGTCAGCGTCACCGCCGCCGATGTACAGCAATATCTCGGCGGGCACTTCCCGCAGCATCACGACGCACTCGGCGGGCTGCTGCAGCTGACCGTGAGCAATCCGCACCTGACCCTGCCGCCGGGCAGCCGGCTGCAGATGGCCTTCGACCTGGCCCTGGCCACCGCCGGTGGCGCGCCGACCGCGCTGGGCAACGTCAACCTGAGCAGCGGGCTGCGCTACGACACCGCGCGCCAGGGCTTCTTCCTCGACCAACCCTCGATCGAGTCCTTCACCCCGGCCAGCGCCGGCGGCAAGCTGGACCGCAACAGCCGCGACCTGCTCAACGTCTGGCTGGCCGACTATGCGCGCAAGGAGCCGATCTATCGCCTGGACCCGGCGCTGGCGCAGTTGATGGGCGCGCTGCAGGTGGAATCCGCCAGCGTGCAGGACGGCCGCCTGGTCGTGAACTTCAATCAGGACGTCGGCGGCCTGCTGCCGGCCGGCGCGCTGTCCGGCCACTGA	MKAFALAATLSAVLLATAVAPARAEPAVRGHQVSVTAADVQQYLGGHFPQHHDALGGLLQLTVSNPHLTLPPGSRLQMAFDLALATAGGAPTALGNVNLSSGLRYDTARQGFFLDQPSIESFTPASAGGKLDRNSRDLLNVWLADYARKEPIYRLDPALAQLMGALQVESASVQDGRLVVNFNQDVGGLLPAGALSGH				NA	NA	NA	NA	NA
BMS020_04097	2229			hypothetical protein	ATGCGCATGTTCACGCCGCTCGCGGCGCTGCTGTCGCTGCTGCCGGTCAGCGTGCTGGCGGTCGAGGTCGATGGCCGGATCGATCCGGCCGAATGGCAGGGCGCGCGCCACATCACCGATTTCCGCCAGGTGCAGCCGCTCAGCCGCGCACCGGCCTCGTTGCAGACCGAGGCCTGGGTGCTGGCCACGCCCGAGGGGCTGGCGGTGGCGTTCCACAACGTGCAGCCGGCCTCGGTGCCGCGCACGCTGCAGCGCGTGCAGCGCGATTTCGACGCGCAGGTCGACCGGGTCAACCTGATGGTGGGGTTCGATGCCGCTGGCGGGGTCGGCTACGACTTCACCGTGGCCTCCACCGGCGGCATCGCCGATGCGGTGATCACCAACGAGTCCAACTTCAACGACGACTGGGACGGCAACTGGCAGCACGCGGTGCGCGACACCGCCGAGGGCTGGGACGTGGAGCTGCTGATTCCCTGGCACATCGCGTCGATGGCGGCGGCCCAGGATGGCCAGCGCACGCTGCGCCTCTATCTGGACCGGGTGATCGGCTCCACCGGCGAGCGCGCCGCGTGGCCGGCGGTCAGCCTGGAAAAGCCGCGCTTCCTGTCCGACTTCGAGCGGGTCGAGGTGCCGGCCTACAGCCAGTCGCTGCTGGTGGTGACGCCGTATGTCTCGGCGCTGCACGACAACGTCGGCGGGCGCGACGACTTCGAGGCCGGCGCCGACCTGTTCTGGAAGCCCAGCGGGCAGTTCCAGCTGGCGGCGACGGTGAACCCGGATTTCGGCCAGGTCGAGAGCGACGACCTGGTGGTCAACTTCAGCGCCACCGAGACCTTCGTCAGCGACAAACGGCCGTTCTTCACCGAGAACCAGGGCCTGTTCGACTATTCCACGCCGTCGGATTTCAGCCAGCTGCTGTATACGCGGCGGATCGGCGCGCCGGCCGACGACGGCAGCGGCGCGGCCGACATCAGCGCCGCGCTGAAGCTGACCGGCAATGCCGGCGGCACCCGCTACGGCCTGTTCCTGGCCGACGAGGATGGGGCGGCCGGGCGCGATTTCCGCGCGCTGCGGCTGGTGCACGACTTCAGCACGCAGAACCTGGGACTGATGCTGACCCAGGTCGAGCGCCCATGGCTGGACCGCGAGGCCGAGGTGCTCGGCATCGATCACGACTGGCGGCCGACGCCACGCTGGAACGTGCGCACCCGGGTGTTCGGCAGCCACATCGCGCAGGCTGGCGAGACCACTTCCGACAGTGGCGCCACGCTGTGGGCCGACTACGAGATGGATCACGGCTGGCGCCAGCAGTGGATCGCGATGCACTTCGGCAACGACCTGCAGATCAACGATGCCGGCTATCTGGCGCGCAACAGCACCAATTACCTGCACTGGGAGCTGCGCCGCCGCTTCGCCGAACAACCGGAGGCTTCGCGCTATTCGTCCAAGGAGTGGCGCTGGCGCGCGGTGTTCAGCCGCAACGACCATGGCGAGAAGCTGGGCGACCAGGTGCGCATCTCGCGCGAGGGCCGGCTGCGCGATGGCAGCTACGAATACGCGCAGGTGCTGGCGCGCGGCCGCAACGTCGACGATCTGCTGACGCGCGGCCACGGGTCGGTGCAGCTCCCTTGGCGCTGGAGCGGGTATTACGAGTACGAACGCCCGCGCAAGGGACGTTGGGCGCATACCCTGGAGGCCGAGCTGCTGACCGGTGGCCTGGCCGGAACGCGCAAGCTGGGCTACGCGCTGGACTACACCGCCACCTATTTCGTCAATGATGGCTTCAGCCTCTACGCCGGCGCCTATGCCGACGAGACACCGGACTGGTTGGTCTGGCAGCGCGACACCCTGGTCGGCAGCTACCGGGGGCGCGAATGGCACCTGGATGCCGGCCTGGACTGGACCATCAGCGAGCGCCAGGAGCTGCGCATCAAGTTGCAGTCGGTCGCGGTGGACGCGCGTGCGCGCCAGGCCTGGCGGATCGCGCCGGACGGGCGCGCGATCGCCAGCGACGAGCGCATCGACGATTTCAGCGTGGCCAATCTCGGCTTCCAGATCCGCTATCGCTACGAACTGGCGCCGCTGTCCTACCTCTACGTGGTGTACGGGCGCGGCGGCTACGACGAGTTCGCCTATTCCGACGAGGCCGGCGGCCTGCTGCGCGAGAGCTTCGGCCTGCGCGACGACGAGCAGCTGCTGGTGAAGTTGAGCTACCGCTTCGAGCGTTGA	MRMFTPLAALLSLLPVSVLAVEVDGRIDPAEWQGARHITDFRQVQPLSRAPASLQTEAWVLATPEGLAVAFHNVQPASVPRTLQRVQRDFDAQVDRVNLMVGFDAAGGVGYDFTVASTGGIADAVITNESNFNDDWDGNWQHAVRDTAEGWDVELLIPWHIASMAAAQDGQRTLRLYLDRVIGSTGERAAWPAVSLEKPRFLSDFERVEVPAYSQSLLVVTPYVSALHDNVGGRDDFEAGADLFWKPSGQFQLAATVNPDFGQVESDDLVVNFSATETFVSDKRPFFTENQGLFDYSTPSDFSQLLYTRRIGAPADDGSGAADISAALKLTGNAGGTRYGLFLADEDGAAGRDFRALRLVHDFSTQNLGLMLTQVERPWLDREAEVLGIDHDWRPTPRWNVRTRVFGSHIAQAGETTSDSGATLWADYEMDHGWRQQWIAMHFGNDLQINDAGYLARNSTNYLHWELRRRFAEQPEASRYSSKEWRWRAVFSRNDHGEKLGDQVRISREGRLRDGSYEYAQVLARGRNVDDLLTRGHGSVQLPWRWSGYYEYERPRKGRWAHTLEAELLTGGLAGTRKLGYALDYTATYFVNDGFSLYAGAYADETPDWLVWQRDTLVGSYRGREWHLDAGLDWTISERQELRIKLQSVAVDARARQAWRIAPDGRAIASDERIDDFSVANLGFQIRYRYELAPLSYLYVVYGRGGYDEFAYSDEAGGLLRESFGLRDDEQLLVKLSYRFER				NA	NA	NA	NA	NA
BMS020_04098	468			hypothetical protein	ATGTCGCGCAAGATCGCCGCCCGCAAGTCCAAGATCCATGGAAACGGCGTCTTCGCCGTGCAGTCGCTGAAGAAGGGCGAGCGCATTATCGAATACAAGGGCCGCCGGCGCACCCATGCCGAGGTCGATGCCGAGGACGCCGGCGACGTCGAGAGCGGGCATACCTTCCTGTTCACCCTCAGCGACGACTACGTGATCGACGCCAACCACGAGGGCAACGACGCGCGCTGGATCAACCACAGCTGCAGCCCGAACTGCGAGGCGCTGCTGGAGGAGGCCGACGGCGACGACCGCAGCAAGGACCGCGTGTTCATCGAAGCGGTGCGCGACATCAAGCCCGGCGAGGAACTGACCTACAACTACGGCATTACCCTGGCCGAGCGGCACACGCCGCGGCTGAAGAAGATCTGGGCCTGTCGCTGCGGGTCGAAGAACTGCACCGGCACGATGCTGCAGCCCAAGCGTTGA	MSRKIAARKSKIHGNGVFAVQSLKKGERIIEYKGRRRTHAEVDAEDAGDVESGHTFLFTLSDDYVIDANHEGNDARWINHSCSPNCEALLEEADGDDRSKDRVFIEAVRDIKPGEELTYNYGITLAERHTPRLKKIWACRCGSKNCTGTMLQPKR				NA	NA	NA	NA	NA
BMS020_04099	456	cymR		HTH-type transcriptional regulator CymR	ATGTTGCGCGTCACCAAACTCACCGACTACGCCACCGTGGTGCTGACCGTGCTGGCCGCGCGCGCCGGCGAGGTGCTCAGCGCCAGCGAGCTGGCTGAACAGGCCGGGCTGGAACCGCCCACCGTCAGCAAGCTGCTCAAGCCGCTGGCCCAGGCCGGGCTGGTCGAAGGCCTGCGCGGCGTGCATGGCGGCTACCGGCTGGCGCGCGATGCCGCCGAGATCACCCTGATCGAGATCGTCGAGGCGATGGAAGGCCCGCTGGCGATCACCGAATGCAGCCAGGACCATAGCCAGTGCGGCATCGCCCACAGCTGCGGCGTGCGTTCGAACTGGCGCCTGATCAACGACGTCGTGGCCGAGGCGCTGCGCGGCGTGACCCTGGCGCAGATGCTGCACCCCCTCCCCCACTCCGGCGACGACCGGCGGCGCATCGCCGCGGCCGTCGCGACCACCTGA	MLRVTKLTDYATVVLTVLAARAGEVLSASELAEQAGLEPPTVSKLLKPLAQAGLVEGLRGVHGGYRLARDAAEITLIEIVEAMEGPLAITECSQDHSQCGIAHSCGVRSNWRLINDVVAEALRGVTLAQMLHPLPHSGDDRRRIAAAVATT				NA	NA	NA	NA	NA
BMS020_04100	1458	sufB_2	COG0719	FeS cluster assembly protein SufB	ATGGCCACCGAACTCGCCCCCCCGCAGAACGCCGAGATCCTCGAACGGCTCGGCCGGCGCTACGACGCCGGCTTCGTCACCGAGATCGAATCCGACTCGCTCCCGCCCGGCCTGGACGAAGACATCATCCGCGCCTTGTCCGCCAAGAAGGACGAGCCGCAGTGGATGACCGACTGGCGCCTGGAGGCCTACCGCCACTGGCTGAAGATGCCGATGCCGGAATGGGCCAAGCTGCAGATCGCGCCGATCGACTTCCAGGCGCTGAGCTACTACTCCGCGCCGAAGGGCCCGAAGTACGCCTCGCTCGACGACGTGCCCAAGGAGCTGCTCGACACCTACGACAAGCTCGGCGTGCCGCTGCATGAGCGCGCCAAGCTGGCCGGCGTGGCGGTCGATGCGGTGTTCGACTCGGTCTCGGTCGGCACCACGTTCCGCAAGGAACTGGCCGAGAAGGGCGTGATCTTCTGCTCGATGTCCGAGGCGATCAAGGAACACCCGGAGCTGGTCAAGAAGTACCTGGGCTCGGTCGTGCCGGTCGGCGACAACTACTTCGCCGCGCTGAATTCGGCGGTGTTCTCCGACGGCAGCTTCGTGTTCATCCCGAGCGGCGTGCGCTGCCCGATGGAGCTGAGCACCTACTTCCGCATCAACGCCGGCCACACCGGCCAGTTCGAGCGCACCCTGATCGTGTGCGAGGACAAGGCCTATGTGTCCTACCTGGAAGGCTGCACCGCGCCGATGCGCGATGAAAACCAGCTGCACGCGGCGGTGGTCGAGCTGGTCGCGCTGGAAGACGCCGAGATCAAGTATTCGACGGTGCAGAACTGGTACCCGGGCGACGAGGAAGGCCGCGGCGGCATCTACAACTTCGTCACCAAGCGGGCCGAGTGCCGTGGCGACCGCAGCAAGGTCACCTGGACCCAGGTCGAGACCGGCTCGGCGATCACCTGGAAGTACCCCTCGTGCGTGCTGCTCGGCGACGATTCGTCCGGCGAGTTCCACTCGGTGGCGCTGACCCACCACCGCCAGCAGGCCGATACCGGCACCAAGATGATCCACATCGGCAAGCGCACCAAGTCGAAGATCGTCAGCAAGGGCATCAGCGCCGGCCGTGGCCAGAACACCTACCGCGGCCTGGTCAAGGTCGACAAGGGCGCCGAGGGTGCGCGCAACTACACCCAGTGCGACTCGTTGCTGATCGGCAAGCAGTGCGGCGCTCACACCTTCCCCTACATCGAGGTGAAGAACCCGGGCGCGACCGTCGAGCACGAGGCCACCACCTCCAAGATCAGCGACGACCAGCTGTTCTACTGCCGCGCGCGCGGCATTGCTGAGGAAGACGCGGTGTCGATGATCGTCGACGGCTTCTGCAAGCAGGTCTTCCGCGAGCTACCGATGGAGTTCGCGGTCGAGGCCAAGAAGCTGCTGGAAGTGTCGCTGGAAGGCAGCGTCGGCTGA	MATELAPPQNAEILERLGRRYDAGFVTEIESDSLPPGLDEDIIRALSAKKDEPQWMTDWRLEAYRHWLKMPMPEWAKLQIAPIDFQALSYYSAPKGPKYASLDDVPKELLDTYDKLGVPLHERAKLAGVAVDAVFDSVSVGTTFRKELAEKGVIFCSMSEAIKEHPELVKKYLGSVVPVGDNYFAALNSAVFSDGSFVFIPSGVRCPMELSTYFRINAGHTGQFERTLIVCEDKAYVSYLEGCTAPMRDENQLHAAVVELVALEDAEIKYSTVQNWYPGDEEGRGGIYNFVTKRAECRGDRSKVTWTQVETGSAITWKYPSCVLLGDDSSGEFHSVALTHHRQQADTGTKMIHIGKRTKSKIVSKGISAGRGQNTYRGLVKVDKGAEGARNYTQCDSLLIGKQCGAHTFPYIEVKNPGATVEHEATTSKISDDQLFYCRARGIAEEDAVSMIVDGFCKQVFRELPMEFAVEAKKLLEVSLEGSVG				NA	NA	NA	NA	NA
BMS020_04101	765	sufC_2	COG0396	putative ATP-dependent transporter SufC	ATGCTGAAGATCGAAAACCTCCACGCCTCCGTCGCCGGCAAGGAAATCCTCAAGGGCCTCTCGCTGGAGGTGAAGCCGGGACAAGTGCACGCCATCATGGGCCCGAACGGCGCCGGCAAGTCCACGCTGGGCAACGTGCTGTCCGGCCGCGACGGCTACGAGGTCACCGACGGCAGCGTCAGCTTCGACGACAAGGCGCTGCTGGAGCTGGAGCCGGAGGAACGCGCCGCTGCCGGCCTGTTCCTGGCGTTCCAGTACCCGGTCGAGATCGCCGGCGTCAACAACACCTATTTCCTGCGCGCCGCGCTCAATGCGCAGCGCAAGGCGCGCGGCGAGCCGGAGCTGGATTCGATGCAGTTCCTCAAGCTGGTCCGGCAGAAGCTGGCGGTGCTGCACCTGAAGGACGAGCTGCTGCACCGCGGCGTCAACGAAGGCTTCTCCGGCGGCGAGAAGAAGCGCAACGAGATCTTCCAGCTGGCAGTGCTGGAGCCGAAGCTGGCGATCCTGGACGAGACCGATTCCGGCCTGGACATCGATGCGCTCAAGGTCGTCGCCGACGGCGTCAACGCGCTGCGCTCGCCGGAGCGTTCGTTCCTGGTGATCACCCACTACCAGCGCCTGCTCGACTACATCAAGCCGGACGTGGTGCACGTGCTGGCCGACGGCAAGATCGTCCAGACCGGCGGCCCGGAGCTGGCGCTGGAGCTGGAAAAGCACGGCTACGCGTGGCTGAAGGACCGCGTCGCCCCCGAGGCCGCGGTCTGA	MLKIENLHASVAGKEILKGLSLEVKPGQVHAIMGPNGAGKSTLGNVLSGRDGYEVTDGSVSFDDKALLELEPEERAAAGLFLAFQYPVEIAGVNNTYFLRAALNAQRKARGEPELDSMQFLKLVRQKLAVLHLKDELLHRGVNEGFSGGEKKRNEIFQLAVLEPKLAILDETDSGLDIDALKVVADGVNALRSPERSFLVITHYQRLLDYIKPDVVHVLADGKIVQTGGPELALELEKHGYAWLKDRVAPEAAV				NA	NA	NA	NA	NA
BMS020_04102	1296	sufD_2	COG0719	FeS cluster assembly protein SufD	ATGAGCGCCCTCCTCGATTCATTGCGCGCCTCCTTCGCGACCGCCGCCACGTCCACGCGCGGCGATGCGGTGTTGGTCGACGCGCGCCAGCAGGCGCTCAACGATGTCCTGCGCGACGGTCTGCCCGGCCCGCGCAGCGAAGCCTGGAAGTACACCCCGCTGCGTGCGCTCGAGCGCCGCGGCTTCACGCCGGCCGCGGCCACGCCGCCGGCGATCGACGCCGCGCTGCTCGCCGAGATCCCGGCGCCGCGCCTGGTGTTCGTCAATGGCCGCCATGTCGCCGCGCTGTCGGATCTGGCCGGATTGCCGGCGGGCGTCGAGCTGCAGCCGCTGTCGGCCGCGCTGGCCGCCGGCGACGACGCGCTGCGCTTCCTGGCCCGGCGCTTCGAGCGCAGCGAGGACGTGTTCGCACGCCTGAACGCCGCCCTCGCCGACGAGGGCGTGCTGCTGCGCGTGGCCGAAGGCAATGCGGTCGAGACGCCGGTGCACCTGGTGTTCGTGACCACCGCTGCCGAGGCCGATGCGGCCTGGCACCTGCGCCACCTGATCGAACTGCGCCGCGGCGCGTCGCTGGCGGTGATCGAGCACCACCTGCACGCCGGCGACAGCGCGCACCTCGGCAATGCCGTCGCCCACGTCCACCTGGCCCAGGGCACCCAGCTCGCCCACGCCCGCGTGCAGGACGATGCGGGCGGCCTGACCAGCTTCCTGCGTACCGACGCGGTGCTGGCGCGCGATGCCGAGTATCGCCGCGTCGACCTGGAACTGGGCGCCGCGCTGAGCCGCCACGAACTCAACGTGCGGCTGGAAGGCGACAACGCCAAACTGATCGCCAATGGCGTGCTGCTCGGCAATGGCCGGCGTCATATCGACACCCGCCTGGGCATCGAGCACATCGCCCGTGACACCCGCGCCGAGCTGCTGTGGCGCGGCGTCGGCGCCGACCGCAGCCGCGTGGTGTTCCATGGCGGCATCAACATCCGCGCCGGCGCCGACGGCACCGACGCGCGGCTGTCGAACAAGAACCTGTTGCTGTCGGCCAACGCCGAGATCGACACCCAGCCGGTGCTGGTGATCGACGCCGACGAGGTCCAGGCCGCGCACGGCGCCACGGTCGGCCAGCTCGACCAGCAGGCGCTGTTCTACCTGCGTTCGCGCGGCATCCCCAAGGACCGCGCACAGGCGCTGCTAAGTGCGGCGTTCTGCCACGAACCGTTGGGCGCGCTGGCCGGGCCGCTGGCGCAGGTGCTGGCAACCCGGCTGGACCAGGCGCTGGCATCGGCAGGCGTGGCATGA	MSALLDSLRASFATAATSTRGDAVLVDARQQALNDVLRDGLPGPRSEAWKYTPLRALERRGFTPAAATPPAIDAALLAEIPAPRLVFVNGRHVAALSDLAGLPAGVELQPLSAALAAGDDALRFLARRFERSEDVFARLNAALADEGVLLRVAEGNAVETPVHLVFVTTAAEADAAWHLRHLIELRRGASLAVIEHHLHAGDSAHLGNAVAHVHLAQGTQLAHARVQDDAGGLTSFLRTDAVLARDAEYRRVDLELGAALSRHELNVRLEGDNAKLIANGVLLGNGRRHIDTRLGIEHIARDTRAELLWRGVGADRSRVVFHGGINIRAGADGTDARLSNKNLLLSANAEIDTQPVLVIDADEVQAAHGATVGQLDQQALFYLRSRGIPKDRAQALLSAAFCHEPLGALAGPLAQVLATRLDQALASAGVA				NA	NA	NA	NA	NA
BMS020_04103	1245	sufS_2	COG0520	Cysteine desulfurase SufS	ATGAACGTCGCCGTGCCGCCGCCGTCGCAGACCCCGGACTGGGAGCGCGTGCGCAGCGATTTCCCGCTGCTGATGCGCCAGGTCCACGGCAAGCCGCTGATCTATTTCGACAACGCCAACACCGCGCAGAAGCCGCTGGCGGTGATCGCCGCCACCGACGCGTTCTACCGCCGCCACAACGCCAACGTCAGCCGCGCCGTGCACGCGCTCGGCACCGAGGCCACCGAAGCCTACGAGGGCGCGCGCGGCAAGCTGGCGCGCTTCCTCAACGTCCGCGAGGACGAGCTGGTGCTGTGCAGCGGCACCACCTTCGCGATCAACCTGGTGGCGTATTCGTGGGCGCTGCCGCGCCTGAAGCCCGGCGACGTGATCCTGGTCTCGCGGATGGAGCACCACGCCAACATTGTGCCGTGGCAGCTGGTCGCCGATCGCACCGGCGCGAGCATCCGCGTCGCCGAAATCACCCCGGACGGTGCGCTCGACCTGGACGCGCTGCATGCGGCGATGACCCCGGAGGTCAAGCTGCTCGCACTGGCCCATGTCTCCAACGTGCTCGGCACGGTCAACCCGGTGCGCGAGATCTGCCGCGAGGCGCGCCGCCGCGGCATCGTCACCGTGATCGATGGCTCGCAGGCCGCACCGCACCGGCGCATCGACGTGGCCGCGATCGGCTGCGACTTCTACGCGATCACCGGGCACAAGATGTGCGGCCCGACCGGCACCGGCGCGCTGTGGGCGCGCCGCGAGCACCTGCAGGCGATGCCGCCGTTCCTCGGCGGCGGCGAGATGATCAAGGAAGTCAGCTTCGACGGCACCGTGTTCAACGACGCGCCGCACAAGTTCGAGGCCGGCACGCCCAACATCGCCGGCTTCGTCGGCCTCGGCGCGGCGGTGGACTACCTCGATGCACTCGGCATGGCCGAGGTCGAGGCGCGCGAGCAGGCGCTGCTGGCGCACTTCAGCGAGGAGCTGGGCAGGATCGATGGGCTGCGCGTCCTCGGCACCGCGCCGGGCAAGGCGGCGGTGGTGTCGTTCCTGCTCGAGGGCAGCCACGCCCACGACCTGGCCACCCTGCTCGACCTGGAAGGCGTGGCGGTGCGCTCGGGCCAGCACTGCGCACACCCGCTGCTGCAGTACTACGGCGTCGCGGCGACCTGCCGCGCTTCGCTGGCGTTCTACAACACGCATGACGAGATCGAGCGTTTCGTCGCCGCGCTGACCAAGGTCCGCAGGCTGCTGGGCTGA	MNVAVPPPSQTPDWERVRSDFPLLMRQVHGKPLIYFDNANTAQKPLAVIAATDAFYRRHNANVSRAVHALGTEATEAYEGARGKLARFLNVREDELVLCSGTTFAINLVAYSWALPRLKPGDVILVSRMEHHANIVPWQLVADRTGASIRVAEITPDGALDLDALHAAMTPEVKLLALAHVSNVLGTVNPVREICREARRRGIVTVIDGSQAAPHRRIDVAAIGCDFYAITGHKMCGPTGTGALWARREHLQAMPPFLGGGEMIKEVSFDGTVFNDAPHKFEAGTPNIAGFVGLGAAVDYLDALGMAEVEAREQALLAHFSEELGRIDGLRVLGTAPGKAAVVSFLLEGSHAHDLATLLDLEGVAVRSGQHCAHPLLQYYGVAATCRASLAFYNTHDEIERFVAALTKVRRLLG	PGPT0020195_2015	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
BMS020_04104	537			hypothetical protein	ATGCAGACCCTCACCTTCCGCACCGCCACCGTCGCCGACATCGACGCCATCGTCACCCTGGTGACCTCCGCCTACCGCGGCGACGCCAGCCGCGCCGGCTGGACCACCGAAGCCGACCTGCTCGACGGCAACCGGATCGATCCGGAGGTGCTGCGCCAGGACATCCTGCGCCCGCGCAGCCTGGTGCTGCTGGCCGAGCGCGATGGCCGCCTGGTCGCCTGCGCGCATATCGCCGACGAGGATGGCGCCGGTTATTTCGGCATGTTCTCGGTCGAGCCGACCCTTCAGGGCAGCGGCCTCGGCAAGCTGATGATGGCCGAAGCCGAGCGCCTGGTCGTCGCCGAATGGGGGCTGGCGCAGATGCGCATGACGGTGATCGATGCCCGTGGCGAGCTGATCGCCTTCTACGAGCGTCGCGGCTATCGCCGCACCGGCGTGTTCAAGCCCTTCCCGTACGGCGACACGCGCTTCGGCACCCCGCTGCGCGACGACCTGCGCTTCGAGGTGCTGGAGAAGCCGCTCGGGCTGCCGGCATGA	MQTLTFRTATVADIDAIVTLVTSAYRGDASRAGWTTEADLLDGNRIDPEVLRQDILRPRSLVLLAERDGRLVACAHIADEDGAGYFGMFSVEPTLQGSGLGKLMMAEAERLVVAEWGLAQMRMTVIDARGELIAFYERRGYRRTGVFKPFPYGDTRFGTPLRDDLRFEVLEKPLGLPA				NA	NA	NA	NA	NA
BMS020_04105	336	todB	COG2146	Toluene 1,2-dioxygenase system ferredoxin subunit	ATGAGCGCCGGCGCCTGGACCTTCGTCTGCGCCAGCACCGAGCTGCTGCCCGGCGAGATGAGGACGGTGTGGGACGAGGTCACCGACACCCCGATCGTGGTCTTCAACTGCGACGGTGAGCTGTATGCGCTGGAAGACCGCTGCAGCCACGAGGACTACGAGCTGTCCCCGGGCGCCTTCGACGCCGCGGCCGGCACCATCGAGTGCCTGCTGCACGGCGCCCGCTTCGACATCCGCGACGGCCGGCCGCTGTGCGCACCGGCCTATACGCCGGTGGCCAAGTTCCCGGTCAAGCGCGAGCACGACGGCATCTGGACCCGCGACGACCGCGACTGA	MSAGAWTFVCASTELLPGEMRTVWDEVTDTPIVVFNCDGELYALEDRCSHEDYELSPGAFDAAAGTIECLLHGARFDIRDGRPLCAPAYTPVAKFPVKREHDGIWTRDDRD	PGPT0019745_425	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-3-PHENYLPROPIONIC_ACID|CINNAMIC_ACID_RESISTANCE,PGPT0019745-hcaC-K05710	NA	NA
BMS020_04106	2322	fiu_1	COG4774	Catecholate siderophore receptor Fiu	ATGACCGCCATCAAGAGCCGCAAACACGCCACGCCCCGCTTCGCCACCACCTCCGCCCTGACTGCCGCCGCGCTGCTGGCCGGCAGCGCCCTGCCGGGCACCGCGCTGGCAGCCGACATCGCCGCCGACCAGGCCACCACGCTCGACAAGGTCGATGTGCATGGCGTGGCCGGCTACAAGCGCGACCGGGTCGCCTCGCCGAAGTTCACCCAGTCGCTGCAGGACACCCCGCAGACCATCCAGGTGATCAGCAGCGACCTGTTCAACCAGCAGGGCGCCACCAGCCTGACCGAAGCGCTGCGCAACAGCCCGGGCGTGGGCACGTTCTACGTCGGCGAGAACGGCAACACCACCACCGGCGACGCGGTCTACATGCGCGGGTTCGACACCTCCGGCAGCATCTTCGTCGATGGCGTGCGCGACCTCGGCTCGGTCTCGCGCGATGTGTTCAACATCGAGCAGATCGAAGTGCAGAAGGGGCCGGCCGGTACCGACAACGGCCGCACCGCGCCGACCGGCGCGATCAACATGGTCAGCAAGCAGGCCAACCTCAACGACGCGGTCTCCGGCAGCGTCTCGGCCGGCAGCGACGGGCAGAAGCGCACCACCGCCGACTGGAACCAGAGCCTCGGCGCGAGCAGCGCGCTGCGCCTGAACGGCATGTGGCAGGACAGCGATGTGCCCGGCCGCGACAAGGTCACCAACAAGCGCTGGGGCATCGCGCCGTCGCTGGGATTCGGCCTCGGCACCGACACGCGCTACTACCTCAACCTGCTGTACACCAAGCAGGACAACATCCCCGACGGCGGCGTGCCGACCATCGGCCTGCCCGGCTGGGTGCCGCAGCCCGGCCTGGACGCACTGGCCGGCCACCCGGTCGATCCGGAGAACTTCTACGGCACCCGCGCCGACCACGACGACGTGACCGCGCAGATGGCCACGTTCCGCTTCGAGCACGACGTCTCCGACGCGCTGAAGCTGACCAACACCCTGCGCTGGGGCAAGACCGAGCAGGACTACCTGCTGACCGCGTTCATGAGCACCGGCGGCAGCGCCGCCAACCCGCTGGCCGGCAACATCAAGTGGACCGATCCGGCCGACCTGTCGACCTACACGCTGGCGCGCAGCAACCCGACCTTCAAGGACCAGCAGAACACCATCCTGACCGACCAGCTCAACCTGCGCGCCGACTTCGCCACCGGCCGCGTGCAGCACAGCCTGAGCACCGGCCTGGAGCTGACCCGCGAGGAGCTGAAGACCTACGGCCAGGCGGTCACCACCGGCAGCGCCTGGACCCCGGCCAACCTGTACGACCCGGACTGGAACGCCACCGGCCTGAGCTGGGCGCACAACGGCGCCAACGCCCACGGCAAGACCACCACCGCCTCGCTGTACCTGTTCGACACGCTCAAGTTCGGCGACAGCGTCCTGCTCACCGCCGGCCTGCGCGCCGACCGCTACAAGACCGAGTTCCAGAACGCGGTGGTCTGCGGCGGCCGCAGCGGCCCGGCCTGCGGCAGCAACCCGGCCGGCACGGTGATCCAGAATCCGGCGCTGGAGTCCAAGGACACCCTGCTCAACTGGAAGCTCGGCGCGGTCTACAAGGCCGGCGACGCGGTCAGCCTGTACGCCAACTACGCGCTGTCGCAGCAGCCCCCGGGCGGCGCCACGCTGGAACTCAACAGCTCGGCCAGCAACGCCAACAACCCCAACTTCGACCCGCAGAAGGCCAAGACCATCGAGGTCGGCACCAAGTGGAGCTTCCTCGACGACGCGCTGGCGCTGAACATGGCGCTGTTCAAGACCGAGGTGAGCAACGAGGTCACCCAGGACGCGACCACGCCCGGCGTGTACTACCAGACCGGCAAGAAGTCGGTGCAGGGCGTGGAGCTGTCCACGGTCGGCCGCATCACCGAGAACTGGTCGGTCTCGGCCGGCTACAGCCGCATGAACACCGAGGTCGAGGAAGGCACCCTGGTCGCCCAGGATGGCAGCAAGGGCCTGACCTACACCCCGGACGAGGCCTTCACCAGCTGGACCAGCTACAGCTTCCCGTTCGGCCTGACCGTCGGCGGCGGCGTGCGCTATTCCGGCCAGATGCACCGCGGCACCGATGGCGCGGTCGGCACCCCGCCGACCACCAAGTCCTACACGGTCTATGACGCGGTCGCCTCGTACGCGCTCAACGACGCGCTGGTGCTGCGCCTGAACGCCTACAACCTGTTCGACAAGCAGTACGTGGCGGCGATCAACAAGAGCGGCTACCGCTATACCCCGGGCGCGCCGCGCACGTTCCTGCTGAGCCTGGACTATCGTTTCTGA	MTAIKSRKHATPRFATTSALTAAALLAGSALPGTALAADIAADQATTLDKVDVHGVAGYKRDRVASPKFTQSLQDTPQTIQVISSDLFNQQGATSLTEALRNSPGVGTFYVGENGNTTTGDAVYMRGFDTSGSIFVDGVRDLGSVSRDVFNIEQIEVQKGPAGTDNGRTAPTGAINMVSKQANLNDAVSGSVSAGSDGQKRTTADWNQSLGASSALRLNGMWQDSDVPGRDKVTNKRWGIAPSLGFGLGTDTRYYLNLLYTKQDNIPDGGVPTIGLPGWVPQPGLDALAGHPVDPENFYGTRADHDDVTAQMATFRFEHDVSDALKLTNTLRWGKTEQDYLLTAFMSTGGSAANPLAGNIKWTDPADLSTYTLARSNPTFKDQQNTILTDQLNLRADFATGRVQHSLSTGLELTREELKTYGQAVTTGSAWTPANLYDPDWNATGLSWAHNGANAHGKTTTASLYLFDTLKFGDSVLLTAGLRADRYKTEFQNAVVCGGRSGPACGSNPAGTVIQNPALESKDTLLNWKLGAVYKAGDAVSLYANYALSQQPPGGATLELNSSASNANNPNFDPQKAKTIEVGTKWSFLDDALALNMALFKTEVSNEVTQDATTPGVYYQTGKKSVQGVELSTVGRITENWSVSAGYSRMNTEVEEGTLVAQDGSKGLTYTPDEAFTSWTSYSFPFGLTVGGGVRYSGQMHRGTDGAVGTPPTTKSYTVYDAVASYALNDALVLRLNAYNLFDKQYVAAINKSGYRYTPGAPRTFLLSLDYRF	PGPT0003875_342	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-OTHER_IRON_BINDING_PROTEINS,PGPT0003875-fiu|bfrD-K16090	NA	NA
BMS020_04107	693		COG3128	PKHD-type hydroxylase	ATGCTGCTGCACATCCCCGACATCCTCGGCGCCGACCAACTGGCGCGCTTCCGCGAGGCGCTCGCCGACGCTGCCTGGACCGACGGCCGCGAGACCGTCGGCACCCAGGGCGCACAGGTCAAGCGCAACCTGCAGCTGCCCGACGCCTCGCCGCTGAAGCAGCAGCTGGGCCAGGCGGTGCTCGATGCGCTGGCGCGCAATCCGCTGTTCTTCGCCGCGGCGCTGCCGCTGCGCACCGTGCCACCGCGCTTCAACCGCTACGAAGGCGGCGGCGAATACGGCTTCCATGTCGACGGCGCGGTGATGGCGCTGGCCGCCCCGCCCGGGCAGCCGCCGGCGAGCGTGCGCACCGACATCTCCTGCACGCTGTTCCTGTGCGAGCCGGAGGACTACGACGGCGGCGAGCTGATCATCAGCGACACCTACGGCGAGCATGAGGTCAAGCTGCCGGCCGGTGACCTGATCCTGTATCCGTCCAGCAGTCTGCACCGCGTCGCCCCGGTCACCCGCGGCGCGCGCATCGCCTCGTTCTTCTGGGTGCAGAGCCTGGTGCGCGAGCCGGCCAGGCGGCAGATGCTGTTCGAACTCGACGCCTCGATCCAGGCCCTGACCGCCAGCGACGCCGACCGCGCCAGCGTGCTGCGGCTGACCAACGTCTATCACAACCTGCTGCGCGACTGGTCGCAGACCTGA	MLLHIPDILGADQLARFREALADAAWTDGRETVGTQGAQVKRNLQLPDASPLKQQLGQAVLDALARNPLFFAAALPLRTVPPRFNRYEGGGEYGFHVDGAVMALAAPPGQPPASVRTDISCTLFLCEPEDYDGGELIISDTYGEHEVKLPAGDLILYPSSSLHRVAPVTRGARIASFFWVQSLVREPARRQMLFELDASIQALTASDADRASVLRLTNVYHNLLRDWSQT				NA	NA	NA	NA	NA
BMS020_04108	678			hypothetical protein	ATGTCCGTCCCGCCCGACGCCCCGCCGCTGCCGTTGACCACGCCGCCCCCCAGCCCACCGGCCCACGACCGGCAACGTCGTGGCTTCTGGCTGCGCACCCTGCATCAGTGGCACTGGATCAGCTCGGCGCTGTGCCTGGTCGGCATGCTGGTGTTCGCCTTCACCGGGCTCACGCTCAACCACGCCGCGCGCATCGAGGCGACGCCCCAGGTCGCGCACGCCACGCTGACACTGCCGGCGCCACTGCTGCGCGCGCTGGCCGCGTTGCCCGAGGACGGCCACGCGCCGCTGCCGGGCGTGGTCGCCGACTGGCTGGCCGCGCGCACGCCGCTGGCACCGGGCAACCGCCCCGCCGAATGCAGCGCCGAGGAGCTGTATCTGTCGATGCCCGGCCCGGGCTCGGACGCCTGGCTCAGCATCGACCGCGGCAGCGGCGCGGTGGAATACGAATCCACCCGGCGCGGCTGGATCGCCTATCTCAACGACCTGCACAAGAGCCGCAACGCCGGACCCGCGTGGGGCTGGTTCATCGACCTGTTCGCCATCGCCTGCCTGGTGTTCTGCATCACCGGGCTGTTCCTGCTGCAGATGCACGCGCGCCAGCGCCGCATGACCTGGCCGCTGGTCGGCCTGGGCCTGCTGCTGCCGCTGCTGATCGCCCTGCTCCTGATCCATTGA	MSVPPDAPPLPLTTPPPSPPAHDRQRRGFWLRTLHQWHWISSALCLVGMLVFAFTGLTLNHAARIEATPQVAHATLTLPAPLLRALAALPEDGHAPLPGVVADWLAARTPLAPGNRPAECSAEELYLSMPGPGSDAWLSIDRGSGAVEYESTRRGWIAYLNDLHKSRNAGPAWGWFIDLFAIACLVFCITGLFLLQMHARQRRMTWPLVGLGLLLPLLIALLLIH				NA	NA	NA	NA	NA
BMS020_04109	516			hypothetical protein	ATGCGCGCCACGCTCACCATCGCACTCAGCGGCCTGATGGCCATGCCGGCCTACGCGGCCACGCTCGACCTCGACGTGGAGATCCCCAAGCTCAACGTCGCCGAATACCACCGCCCGTACGTGGCGATCTGGCTGGAAGGCGCCGACCAGAAGGTCGCCGCCAACCTGGCGGTCTGGTATCAGTCGCGCGACACCGCCGAGGGCCACGGCACCAAATGGCTGCCCGACCTGCGCCAGTGGTGGCGCAAGAGCGGCCGCGCGCTGGAGCTGCCGGTCGACGGCGTGACCGGGCCAACCCGCCCGGCCGGCCACCACGCACTGTCCTTCGACGACCGCCAGCCGCAGCTCAAGGGCCTGGCGCCCGGGCAGTACACGCTGGTGGTCGAGGCCGCGCGCGAAGTCGGCGGCCGCGAACTGGTCAAGATCCCCTTCACCTGGCCGGCCAAGACCGCGCAGACCGCCAAGGCGCAGGGCAGCAGCGAACTCGGCGCGATCAGCCTGACCGCCCGCCCCTGA	MRATLTIALSGLMAMPAYAATLDLDVEIPKLNVAEYHRPYVAIWLEGADQKVAANLAVWYQSRDTAEGHGTKWLPDLRQWWRKSGRALELPVDGVTGPTRPAGHHALSFDDRQPQLKGLAPGQYTLVVEAAREVGGRELVKIPFTWPAKTAQTAKAQGSSELGAISLTARP				NA	NA	NA	NA	NA
BMS020_04110	804			hypothetical protein	ATGAAGCGTTCCCTCGTCCTCGCCGCCGTGCTCGCGGCGCTGCCGTTTTCGGCGCTGGCGCACAAGGCCTGGCTGCTGCCGTCGCAGACCGTGCTGGCCGGCGACAAGCCGTGGATCACCGTCGATGCGGCGGTCTCCAACGACCTGTTCTATTTCAACCACGTGCCGCTGCGCCTGGACGGCCTGGTGATCACCGCCCCGGACGGCAGCAGGCTGCAGCCGCAGAACCCGGCCACCGGCAAGTACCGCAGCGTGTTCGACCTGCAGCTGGACAAGGAAGGCACCTACCGCCTGGCGGTGGTCAACCGCGGCCTGTTCGCCAGCTGGAAGGAAGACGGCAAGCCCAAGCGCTGGCGCGGCGACGAAGCCCGCTTCGCGACCGAGGTGCCGAAGAACGCGCAGGAGCTGCAGGTGTCGCAGTCGCTGGGCCGGGTCGAGACCTTCGTGACCCACGGTGCGCCCAACGACTCCGCGCTGAAGACCTCCGGCAGCGGCATCGAGCTGGTGCCGGTGACCCATCCCAACGACCTGTTCGCCGGCGAATCGGCGCGCTTCCGCATGCTGCTGGACGGCAAGCCGGCCAGCGGGCTGGAGATCGAGATCGTGCGCGGTGGTACCCGTTACCGCGATGCGCAGGAAGAGATCAAGCTGCAGACCGATGCCAAGGGCGAGTTCGCGGTGACCTGGCCGCAGCCGGGCATGTACTGGCTGGAGACCTCCAGCGAGGACGGCAAGACCACGCTGCCGCAGGCCAAGCAGCGCCGGCTGAGCTACGTCGCCACGCTGGAAGTGCTGCCGCAGTGA	MKRSLVLAAVLAALPFSALAHKAWLLPSQTVLAGDKPWITVDAAVSNDLFYFNHVPLRLDGLVITAPDGSRLQPQNPATGKYRSVFDLQLDKEGTYRLAVVNRGLFASWKEDGKPKRWRGDEARFATEVPKNAQELQVSQSLGRVETFVTHGAPNDSALKTSGSGIELVPVTHPNDLFAGESARFRMLLDGKPASGLEIEIVRGGTRYRDAQEEIKLQTDAKGEFAVTWPQPGMYWLETSSEDGKTTLPQAKQRRLSYVATLEVLPQ				NA	NA	NA	NA	NA
BMS020_04111	978	apbE_3	COG1477	FAD:protein FMN transferase	ATGAGCCAGGCCGGGTCCAGCGGCGCGGACCTGGCGCGCCTCGGCGGCCAGAGCATGGGCACGACCTGGAGCGTGCGCCTGCTCGCGCCGCGCCGGCGCGACCTGCACGCGCTGCACGACCTCATCCAGCAAGCGCTGGACGAGGTCGTCGCGCAGATGAGTACCTGGCAGGCCGACAGCGACATCGGCCGTTATAACCGCGCCGCCGCCGGCAGCTGGCATCGGCTGCCCGACGCGTTCGCCGAGGTGCTGCAGGCCGCGCTGGAGATCGCCGAGGCCAGCGGCGGCGCCTTCGATCCCACCGTGGGCCCGCTGGTGCGGGCCTGGGGCTTCGGTGCCGATGCCGCGCCGCAGGCGGTGCCGGCACCGGCGCTGCTGGCCGAGCTCGGGACGCGCTGCGGCTGGCAACGGCTGCGCCTGGACGACAGCGCGTTGCTGCAGCCCGGCGGCGCCGAGCTGGACCTGTCCGGCATCGCCAAGGGCTATGGCGTCGACCTGGTCCGGCGGCGCCTGCGCGACGCCGGGATCGAAGCCGCACTGGTCGAGGTCGGCGGCGAACTCGGTGGCGACGGCCGCAAGCCGGATGCGCAGCCCTGGCGGGTGCTGGTCGAATCGGCGCCGGACGAGGACGCCGGCAGCGCGTTGCCGCCGCGCGTGGTGACGCTGGACGGGCTCGCGGTCGCCACCTCCGGCGACCGCTGGCACCGTTACGAACGCGCCGGCGTCCGCTACACCCACAGCATCGATCCACGCAGTGGTCGCCCGGTCGAACACGCCGCCGCGGCGGTCACCGTGCTCGCCGCGCAGGCGATGCATGCCGATGCCTGGGCGACCGCGTTGACCGTGCTCGGTGCCGATGCCGGGCTGGCGCTGGCGCAGGCACGCGGGCTGGCGGTGCGCTTCCTGCTGCGCGACAGCGGGCAGCTGGTCGAACGCCTCAGCCCGGCGTTCCAGCAGCACCTGGACGCCAGCGCATGA	MSQAGSSGADLARLGGQSMGTTWSVRLLAPRRRDLHALHDLIQQALDEVVAQMSTWQADSDIGRYNRAAAGSWHRLPDAFAEVLQAALEIAEASGGAFDPTVGPLVRAWGFGADAAPQAVPAPALLAELGTRCGWQRLRLDDSALLQPGGAELDLSGIAKGYGVDLVRRRLRDAGIEAALVEVGGELGGDGRKPDAQPWRVLVESAPDEDAGSALPPRVVTLDGLAVATSGDRWHRYERAGVRYTHSIDPRSGRPVEHAAAAVTVLAAQAMHADAWATALTVLGADAGLALAQARGLAVRFLLRDSGQLVERLSPAFQQHLDASA	PGPT0000430_2686	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
BMS020_04112	1599	cysJ_2	COG0369	Sulfite reductase [NADPH] flavoprotein alpha-component	ATGAGCACAGCGCGGCGTTGGCCGCATGCCGGCACGCTCGGCATGTTCGCGCTGCTGCTGGCCGCTGCGTGCATTTCGCTGCGGCTGCAGGCCGGGCCGTGGTGGCATGGCGCGCCGCCGTCGGGCCGGATCGGCTGGGCCATCGGCGCGCTGGCGGCGTGGCTGGGCGGCAGTGCCTGGCTGCTGCGCGGCGCGCGCGCGGCAACGCCGGCCGACCCCGCCGCGGGCTGGATCGTGGCCTGGGCCAGCCAGACCGGCTTCGCCCAGGAGCTGGCCGAGCGCAGCGTCGCGGTGCTGTGCAGTACCGGGCAAGCGGCGCACGCGCTGCCGCTGGAACGGCTGGATGCCGCGACCCTGGCCAACGCCCAGCGGGTGTTGTTCATCGCCAGCACCACCGGCGAGGGCGACCCGCCCGACCACGCTCTGGCCTTCGTCCGCGACCTGATGGACGCCCCCACCCCTGCACCGCTGTCGTTGCGTTATGCGCTGCTGGCGCTGGGCGATCGCAGCTACGGCCACTACTGCGCGTTCGGCCGGCGCCTGGACGCCTGGCTGCAGCACGCCGGCGCCGAACCGCTGTTCGACCGGGTCGAGGTCGACAACGCGGCGGCCGACGCGCTGCGGCATTGGCAAGCGATGCTGGCCGAATCCGGCGAGCAGCCATCGCCGCTCCCCGACTGGGACCACCCGCGCTATGCACGCTGGCGGCTGGCCGCGCGTCGCCAGCTCAATCCCGGCAGCCGCGGCGGCGCGGTCTACCAGCTGAGCCTGCTGCCGGCCGACCCGGCCGCGCCGAGCTGGGAACCCGGCGACGTCGCCGAGATCGGCCCGCGCCACGGTGCAGCGCAGGTGCAGGCCTGGCTGGCCGCGCACGCGCTGGACGGCGAGGCGCGCATCGACGGGCGCACGCTGCGCGACTGGCTGGCCGAGAGTGGCCTGCCGGAGGTACCCGAGCACGATCCGGAACGGCTGGTCGCCAGCCTGCGGCCGCTGCCGCACCGCGACTATTCGATCGCCTCGGCGCCGCACGAACAACGCCTGGACCTGCTGGTGCGGCTGCAGCACGACGCCGCCGGCCAGCCCGGGCTCGGCAGCGGCTGGCTGTGCCTGCACGCGGCGGTCGGCGACGCCATCGCGCTGCGGGTGCGCCGCAATCCCAATTTCCATGCCCCGGCCACGACCACGCCGCTGATCTTGATCGGCAACGGCACCGGCATCGCCGGGCTGCGCGCGCATCTGGCCGCACGCGTGGCCGCAGGCGCACGCCGCACCTGGCTGCTGTTCGGCGAGCGCAACGCCGCCTGCGACCTGCACTTCGGCGAGGAGCTGCGGCGCTGGCAGGCGCAGGGCTGGCTGGAGCGGCTGGATACGGTGTTCTCGCGCGATGCCGATGCCGGCGAGGCGCGCTACGTGCAGCACCGGCTGGCGCAGGCCGCCACGGAGCTGCGCGCCTGGGTCGCCGACGGCGCGGCGATCTACGTCTGCGGCAGCCTGCGCGGCATGGCGCCGGCGGTGAACGCGGTGCTCGACGAGGTGCTCGGCGCGGCCACCCGCGAGCGCCTGGTGCAGGACGGCCGCTACCGGCGCGACGTGTACTGA	MSTARRWPHAGTLGMFALLLAAACISLRLQAGPWWHGAPPSGRIGWAIGALAAWLGGSAWLLRGARAATPADPAAGWIVAWASQTGFAQELAERSVAVLCSTGQAAHALPLERLDAATLANAQRVLFIASTTGEGDPPDHALAFVRDLMDAPTPAPLSLRYALLALGDRSYGHYCAFGRRLDAWLQHAGAEPLFDRVEVDNAAADALRHWQAMLAESGEQPSPLPDWDHPRYARWRLAARRQLNPGSRGGAVYQLSLLPADPAAPSWEPGDVAEIGPRHGAAQVQAWLAAHALDGEARIDGRTLRDWLAESGLPEVPEHDPERLVASLRPLPHRDYSIASAPHEQRLDLLVRLQHDAAGQPGLGSGWLCLHAAVGDAIALRVRRNPNFHAPATTTPLILIGNGTGIAGLRAHLAARVAAGARRTWLLFGERNAACDLHFGEELRRWQAQGWLERLDTVFSRDADAGEARYVQHRLAQAATELRAWVADGAAIYVCGSLRGMAPAVNAVLDEVLGAATRERLVQDGRYRRDVY	PGPT0002795_2243	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002795-cysJ-K00380	NA	NA
BMS020_04113	579			hypothetical protein	ATGAGCATCGTGAGCAGCACCGGCAGCCTGGCCTCGCTCTACACCTACAGCGCCACCTGGCGGCGCTACGACGTGTCCAGCAGCAGCGATGGCGCAGACGCCGCGCCGCTGGCCGACATCGGGGCGGAACTGGCCCAGTCCAGCGATGCCGGCGATACCACCGCGATCCAGACCACGACGCAGTTGCTGGCCGCCCCGGAGGACAGCGAACTCGACATCGACGGCCTGCTGCAGCTGCTCGGCAGCGACGAGGACGATGACGAGGATGAGGAAGACACCCGCATCGCGCTGGCGCCGCCTCCACCGCCTCCGCCGCCGGTGGGATCGGGCCAGGCGATCGATGACGCCGACAGCATCGACACCAGTACCAACGCGGTGGATGCCAGCTTCACCGCGCTGGATGCCGACGGGGATGGCAGCGTCAGCCTGGCCGAGTGGCAGGCTGGGACCCGCGGCACCAGCAACGATGCCGACAGCGCGTTGCAGCTGGCGGCACTGGCGCGTTACGCCAGCGGCCAGTACCAGGGCGTGGCCGATCTGGCCGCGCCGGGCAGCGGGTTGTTGAGCGTCGCGGTCTGA	MSIVSSTGSLASLYTYSATWRRYDVSSSSDGADAAPLADIGAELAQSSDAGDTTAIQTTTQLLAAPEDSELDIDGLLQLLGSDEDDDEDEEDTRIALAPPPPPPPPVGSGQAIDDADSIDTSTNAVDASFTALDADGDGSVSLAEWQAGTRGTSNDADSALQLAALARYASGQYQGVADLAAPGSGLLSVAV				NA	NA	NA	NA	NA
BMS020_04114	597	ves_1		Protein Ves	ATGTCGATCGTCTCCAGCCCGTCGCGGGTGATTCCCGCCCATGACTACCACCGCGAGCGCTGGCGCAACGGCCTGGGCTGGACCCGCGAGATCCTGCGCCTGGACACGCCCGGCACGGATGGATGGGACCTGCGCCTGTCGATCGCCGAGATCGAACGCGACGCGGCGTTCTCGGCGTTTCCCGGCGTCGATCGCGAACTGGTGCTGCTGCGCGGCAACGGCCTGCGGCTGCGCTTCGACGATGGCCGGGTGGAAACGCTGTTGCCGCCGCACCAGCGGCTGCGTTTCGCCGGCGAGGCGGTGCTGCAGGGCGAACTGCTCGACGGCCTGACCCACGACTTCAACGCGATGTGGCGTCGCGAGGCGTTGCAGGTGGAGCTGCTGCACCGGCCGCTGGTCGGGCCGATGCTGTTCTTCACCGAGCCGGCGCTGGCCTGGGCGATCCACCTGATCGGCGGCCAGGCGCGCTTCGACGCAGCCAGCGGGCTGCCGCCGCTCGCGGCCGGCGACACCGCCTGGCTTGGCGCCGGTGAGCGCCGCCGGCATGTGTTGGAAGGCGGTGGCGAACTGCTGGCGATCCAGGTGCGCCCGGCCTGA	MSIVSSPSRVIPAHDYHRERWRNGLGWTREILRLDTPGTDGWDLRLSIAEIERDAAFSAFPGVDRELVLLRGNGLRLRFDDGRVETLLPPHQRLRFAGEAVLQGELLDGLTHDFNAMWRREALQVELLHRPLVGPMLFFTEPALAWAIHLIGGQARFDAASGLPPLAAGDTAWLGAGERRRHVLEGGGELLAIQVRPA	PGPT0020255_373	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MAINTENANCE	CE-BACTERIAL_FITNESS-HISTIDINE_REPLETION_RELATED_FITNESS,PGPT0020255-hutD|ves-K09975	NA	NA
BMS020_04115	1818	phaZ2		D-(-)-3-hydroxybutyrate oligomer hydrolase	ATGAAAACGCGCACCCTGGGTCATCTCGCCGGCACGCTGCTGCTCGGCGCCTCGCTGGGCGGCATCGCCGACGCCGATGCGGCCACCCCGTTCCGTGAAGCCCGCAGCAGCGTACACCGCGAAGGCGACGACCTGCTCAGTGCCGGGCTGGGCGACGCCGGCCTGCGCGCGGCGGCGCCGCCGGCGTTTGCCGACCCGGCCCATCCCAGCGCCGCCGAACTGCGCCGGCGGGCGATCTGGACCAGTTGGCGGCACATCGCCGACCTGACCCCGGGCGGCGGCTTCGGCGAGATCTACGGCAGCCTGGCGGCGGTGCCGGGGCGCGAGTTCTCGGTGCTGGCGACCGTGCCGGGCCGCAAGCAGCCGCACCGGGTGCTGGTGCAGGTGCCGGACGGGTTCGACCCGGCGCAGCGCTGCCTGCTGGTGGCGCCGTCGTCCGGCTCGCGTGGCATCTACGGTGCGATCGCCGTGGCCGGGGCGTGGGGACTGCCCAAGGGCTGCGCGGTGGCCTACACCGACAAGGGCACCGGCACCGATTACGTCGACCTGGATGCCGGCCTCGGCACCGCCGTCGACGGCACGGCGGTGGCGCGCGAGGCGGCGGTGTTCGCGCCGGCCGGCGTCGCCGGGGGCAGCCGCGGCGTGGCGTTCAAGCATGCGCACTCGCAGGACAATCCCGAGGCCGACTGGGGCCTGCACGTGCGTCAGGCGGCCGAGTACGGCCTGAAGGCGCTGGACCAGGCCTGGCCGCAGGCGGCGCCGTTCACCCGTGCGAACACCCGGATCATCGCGGTGGGCATCTCCAATGGCGGCGGTGCGGTGCTGCGCGCGGCCGAGGGCGATGGCGCGCGCTGGTTCGACGCGGTGGTCGCCGGCGAGCCGAGTGTGCTGCCGCCGCATGGCGGACGCGCGCTGTACGACTACGCCACCGAGGCCGCGCTGCTGATGCCGTGCGCGCTGTTCGGCCTGGACGGGCTGGTGCAGCCGCCGCTGAGCGCGGTGCTGCAGGCGCAGGCCGCCGCGCGCTGTGCCTCGCTGGCGGCCGCCGGCGTGCTCGACGGGGATGATGCCGCGGCCCAGGCCGCCGCCGCGCGGGCATTGCTGGCGCGCTCGGGCTGGAGCGAGCAGGCGCTGCGCGCGGGAGCCGCATCGGTCGGTTTCGATCTGTGGCGGAGCGTTGCCGCCGCCTATGCCTCGGCGTACGGGCGTTACCCGGCCGGGGCGCATCCGTGCGGCTTCGGCTATGCGGCGCTGGGCCCCGATGGCCGCGCACGCGCCGCCAGCGAGGTCGAGCGCGCAGCCTGGTGGGCCGACGCCAGCGGCATTCCGCCCGGCAACGGGGTGATGCTGATCGATCCGCAGGCGCTGACCGGTGCCGATCCGACGCTGGCGGGCGTGCAGTGCCTGCGCGCGCTGTGGACCGGGCAGGGCGCCGACGCGGCGCGGGTGCGGGCCGGGGTCGAGCAGACACGCGCGAAACTGCCGGCGCGAGGGCTGCCGGTGATCGTCGTGCACGGGCGCGACGACGGCCTGATTCCGCCGGCGTTCGGCAGCGCGCCGTACGTGGCCGCGGCACAGGCCGCGGGCCGGCCGGTGCGCTACTGGCAGGTCGCCCATGCCCAGCACTTCGACGCGTTCCTGGCATTGCCGGACTACGCCGCGCGCTATGTGCCGCTGCTGCCGTATGTGCATGCGGCGCTGGATGCGGTGCAGGCGCACCTGCGCGACCGGGCGCCGCTGCCGGCCGATGCGGTGCTGGCGACCACCCCGCGCGGCAACCGCGCGCTGCGTGCCGAGGACCTGGGCCTGCCGCGCTGA	MKTRTLGHLAGTLLLGASLGGIADADAATPFREARSSVHREGDDLLSAGLGDAGLRAAAPPAFADPAHPSAAELRRRAIWTSWRHIADLTPGGGFGEIYGSLAAVPGREFSVLATVPGRKQPHRVLVQVPDGFDPAQRCLLVAPSSGSRGIYGAIAVAGAWGLPKGCAVAYTDKGTGTDYVDLDAGLGTAVDGTAVAREAAVFAPAGVAGGSRGVAFKHAHSQDNPEADWGLHVRQAAEYGLKALDQAWPQAAPFTRANTRIIAVGISNGGGAVLRAAEGDGARWFDAVVAGEPSVLPPHGGRALYDYATEAALLMPCALFGLDGLVQPPLSAVLQAQAAARCASLAAAGVLDGDDAAAQAAAARALLARSGWSEQALRAGAASVGFDLWRSVAAAYASAYGRYPAGAHPCGFGYAALGPDGRARAASEVERAAWWADASGIPPGNGVMLIDPQALTGADPTLAGVQCLRALWTGQGADAARVRAGVEQTRAKLPARGLPVIVVHGRDDGLIPPAFGSAPYVAAAQAAGRPVRYWQVAHAQHFDAFLALPDYAARYVPLLPYVHAALDAVQAHLRDRAPLPADAVLATTPRGNRALRAEDLGLPR				NA	NA	NA	NA	NA
BMS020_04116	801	bdhA_2		D-beta-hydroxybutyrate dehydrogenase	ATGACAGACCGCTTCCTGCACGGACGCACCGCCCTGGTCACCGGCAGCACCTCCGGCATCGGCCTGGCGATCGCCTGCGCGCTGGCCGCCGCCGGCGCCCGGGTCGGCCTGAACGGGCTGGGCGACGCCGACACGATCGCCGCCGCGCTGGAGCAGGTCCGCGCCGCCGGCGGCAAGGCCAGGCACTTCGAAGCCGATCTCGCCGACCCGGCGCAGATCGCCACGCTGATGCAGCAGGCGCAGGAATGGGGGCCGGTCGACATCCTGGTCAACAACGCCGGCATCCAGCGCGCGCTGCCGCTGCAGGACATGCCGGCCGAGGCCTGGGATGCGGTCCTGGCGATCAACCTCAGCGCGGCGTTCCACACCATGCAGCAGGCGCTGCCGGCGATGGCCGCGCGCGGCTTCGGCCGCGTGGTCAACATCGCCTCGGTGCACGGCCTGGTCGCCTCGCGCAACAAGGCGCCGTACGTGGCCAGCAAGTTCGGCCTGGTCGGCCTGAGCAAGGTTGCCGCGCTCGAATATGCCACCGCCGGCGACCGGGCCAGCGGCGCGGTCACCATCAACTGCGTCTGCCCGGGCTGGGTGGAAACGCCGCTGATCGAGCCGCAGGTGCTGGCCAACGCCGATGGCGGCCCGCGCGAGGTCGGGGTGCGGGCACTGCTGGCCGAGAAGCAGCCGAGCCTGCGCATGTCGCTGCCGCAGGACATCGCCGCGATGGTGGTGTTCCTGTGCCGGCAGGAGGCGCACAACATCACCGGCACCAGCATGCCGATCGACGGCGGCTGGACCGCGCAGTAA	MTDRFLHGRTALVTGSTSGIGLAIACALAAAGARVGLNGLGDADTIAAALEQVRAAGGKARHFEADLADPAQIATLMQQAQEWGPVDILVNNAGIQRALPLQDMPAEAWDAVLAINLSAAFHTMQQALPAMAARGFGRVVNIASVHGLVASRNKAPYVASKFGLVGLSKVAALEYATAGDRASGAVTINCVCPGWVETPLIEPQVLANADGGPREVGVRALLAEKQPSLRMSLPQDIAAMVVFLCRQEAHNITGTSMPIDGGWTAQ	PGPT0008310_742	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008310-bdh-K00019	NA	NA
BMS020_04117	675	degU_1	COG2197	Transcriptional regulatory protein DegU	ATGACGCGCCTGCTGATCGCCGACGACCACCCGCTGTTCCGCCGCGCGCTGCGCCAGGCGGCGACCGAGGCCGTGGATGCACTGGTGGTGGCCGAAGCCGAATCGCTCGATGGCGTGCTCGCCGATCTCGAGGCCGCGCCGGACACCGACCTGGTCCTGCTCGACCTGCACATGCCGGGCAACCATGGCCTGGCCGGGCTGGCCGCGATCCGCGCCCAGCACCCCGGTACCGCAGTGATCGTGGTCTCGGCCAACGACGACCCCGGCGTGGTGCGGCGCGCGCTCGACCACGGTGCGGCCGGCTACCTGCCCAAGAGTGCCGGCCTGGACGAACTGCGCGAGGCGATCCGCAGCGTGCTGGCCTGCGAGCAATGGCTGCCGACCACGCTGCGCGCCAGCGTCGCCCGCGCCCAGTCCTCCGCGCACGACAGCGCGCTCGCCGCGCGCTTGGCCAGCCTGTCGCCGCAGCAGTTCCGCGTGCTGATGCTGGTCGCGCAGGGCCTGCTCAACAAGCAGATCGCCGATCGCCTGGACGTGCAGGAACGCACGATCAAGGCGCACCTGTCGGCGATCTTCGAACGCCTCGGGGTGCGCAACCGCACCCAGGCCAGCGTGGTGCTGCGCGAGCTGGAACTGAGCGATCCCTCGCGCCGGCTCGACCCCGGCGCCGGCTGA	MTRLLIADDHPLFRRALRQAATEAVDALVVAEAESLDGVLADLEAAPDTDLVLLDLHMPGNHGLAGLAAIRAQHPGTAVIVVSANDDPGVVRRALDHGAAGYLPKSAGLDELREAIRSVLACEQWLPTTLRASVARAQSSAHDSALAARLASLSPQQFRVLMLVAQGLLNKQIADRLDVQERTIKAHLSAIFERLGVRNRTQASVVLRELELSDPSRRLDPGAG				NA	NA	NA	NA	NA
BMS020_04119	2223	fyuA_3	COG1629	Pesticin receptor	ATGCAGCACACGTATCTGAGCGCGGCCATCGGGCTGGCGCTATCACTTTCGGCCACGCTGGCCGCGCAGCAGGCCAGCGCCGCACCGGTCGATGCGCCGGCGGCAGCGGAAACCACCACGCTGGAGTCGATCAAGGTCACCGCGCGCAAGCGTGAGGAAACCCTGCAGGAGGTGCCGGTGGCCGTGACCGCCTTCACCCCGGAGGCGATCGACAAGCTCAACGTGCGCGACCTCGGCGACCTCGATGCGCAGGTCCCGAACCTGACGATCTACGCCGCGCGCGGCTCCTCCAGCACGATCACCGCCTACATCCGCGGCGTCGGCCAGTCCGATCCGCTGTGGGGCGTGGATCCGGGCGTGGGCATCTACCTGGACGACGTCTACATCGCGCGTCCGCAGGGCGCGCTGCTGGACGTGTTCGACGTCGAGCGCATCGAGGTGCTGCGCGGCCCACAGGGCACGCTGTACGGCAAGAACACCATCGGCGGCGCGATCAAGTACGTCTCGCGGCCGCTGACCACCCAGACCGAGGGCCAGGCCGAGGTCACCGTCGGCAACGAGGGGCGGCTGGACGTCAAGGCCGGCATCGGCGGTGCGATCGGTGGTGCCGACAGCGGGCTGCGCGCGCGCATCGCCGCGGCCAGCCTCAATCGCGATGGGTATGGCGAGAACCTGACCAACGGCCAGCCGGTCAGCGACAAGCAGATCAACACCGCGCGGCTGCAGGTGGGCGCCTTCGCCGGCGACGATTTCGACGTGCAGTTCGCGCTGGACTGGATGGACGACCAGTCCGGCGTGCGCGGCGCCAAGATGCTGGCCTCCAATCCGCTGGCGCCGGCGTACCAGCCGCTGGACAGCCGCTACGACATCCGCAGCGGCATGCCCAACGTCAACGACACCACGATGAAGGGCGCTTCGGCCACCGCCAACTGGCGGCCGGCGCTGGACTGGACGGTGAAGTACGTGCTGGCCAAGCGCGAATCGGACACCCACACGATGATCGACTTCGACGAGACGCCGTTGAAGCTGGTCGACGTCCAGGCGTACTACAGCGACAGCCAGGTCAGCAATGAGCTGCAGGTCAATTACGACGGCGGCGGCCGGGTGCGCGGAGTGATGGGCCTGTACCACTTCGACGGCGAAGCCGGCGGCCAGGTGCTCAACCACTTCTCCAACCCGTACCTGCCGGCGTCGCTGACCAACCCGCTGTACGGTGACACCCAGGGCAAGGTGCTGACCACCAGCTTCGCCGCCTACACCGACTGGACCATCGACCTGACCGAGAAGCTCAAGCTGGACGTCGGCGCGCGCTACACCGATGAGGACAAGCACGCGATCGCGCTCAACCGCTTCTACACCAGCGGCGCCTACACCACGGCGTGGGGGACCGCGGCGAACTTCGACAAGACGGTGAACTTCAAGAACGTCTCGCCGAAGCTGTCGCTGGACTACCAGCTCACGCCCGACGTGATGGCCTATGTGTCGGCCTCGCGCGGCTTCAAGTCCGGCGGCTACAACATCCGCGCCAACACCACCGCGATCCCGCGTTCGGGCGAGCCGTTCGACGACGAGCAGGTCGACAGCTACGAGATCGGCAGCAAGATGGCGTTCTTCGACCAGCGCGCCTTCGTCAACCTGGCGTACTTCTACAACAAGTACAGCGACATCCAGCTGTCGGTGTTCACCCAGTACCAGTTGCCGAACGGCAGCTACAGCTTCTTCGGCGACTTCACCAACGCCGGCAAGGGCGCCGTGCAGGGTGCGGAGATGGAGTTCCAGCTGCTGCCCAGCGCGCACTGGATGATCAGCGGCAACGTGGCCTGGCTGGATGCGCAGTACGACGAGTTCATCAGCGCCGGGGTCAACGTCGCCGACAACCAGAAGTTCACCAACGCGCCGCGGCTGTCCGGAGCGATGAACCTGGAATACCGCACGCCGCTGGCTGGCGGCGGCAACCTCTCGGCGCGGGTGGGCTACAGCTACCAGAGCGAGGTGTGGCCGACCACCGACCTGAGCCCGGTGATCAAGCAGGGCGGCTATTCGCTGCTGAATGCGGGCGTGATCTGGAACATCGACGATGCCTGGTCGCTGTCGCTGCAGGGCAGCAATCTCGGCGACAAGGAATACCGCACCACGGGCTACAACATCGCCGCCTACGGCGTGCTGACCGGCTTCTATGGTCCGCCGCGCGAGTACAGCCTGAGCGTGCGCTACCGGTTCTGA	MQHTYLSAAIGLALSLSATLAAQQASAAPVDAPAAAETTTLESIKVTARKREETLQEVPVAVTAFTPEAIDKLNVRDLGDLDAQVPNLTIYAARGSSSTITAYIRGVGQSDPLWGVDPGVGIYLDDVYIARPQGALLDVFDVERIEVLRGPQGTLYGKNTIGGAIKYVSRPLTTQTEGQAEVTVGNEGRLDVKAGIGGAIGGADSGLRARIAAASLNRDGYGENLTNGQPVSDKQINTARLQVGAFAGDDFDVQFALDWMDDQSGVRGAKMLASNPLAPAYQPLDSRYDIRSGMPNVNDTTMKGASATANWRPALDWTVKYVLAKRESDTHTMIDFDETPLKLVDVQAYYSDSQVSNELQVNYDGGGRVRGVMGLYHFDGEAGGQVLNHFSNPYLPASLTNPLYGDTQGKVLTTSFAAYTDWTIDLTEKLKLDVGARYTDEDKHAIALNRFYTSGAYTTAWGTAANFDKTVNFKNVSPKLSLDYQLTPDVMAYVSASRGFKSGGYNIRANTTAIPRSGEPFDDEQVDSYEIGSKMAFFDQRAFVNLAYFYNKYSDIQLSVFTQYQLPNGSYSFFGDFTNAGKGAVQGAEMEFQLLPSAHWMISGNVAWLDAQYDEFISAGVNVADNQKFTNAPRLSGAMNLEYRTPLAGGGNLSARVGYSYQSEVWPTTDLSPVIKQGGYSLLNAGVIWNIDDAWSLSLQGSNLGDKEYRTTGYNIAAYGVLTGFYGPPREYSLSVRYRF	PGPT0003790_17265	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_04120	1398			hypothetical protein	ATGTCGTTCCTGATCGTGCTCGCCGCGCTGTGCTTTCTGATGCTGGTCGCCTATCGCGGCTACAGCGTGATCCTGTTCGCCCCGGTGGCCGCACTGGGCGCGGTGCTGCTGACCGACCCGGCGCTGGTGGCGCCGATGTTCACCGGCCTGTTCATGGAGAAGATGGTCGGCTTCCTGAAGCTGTACTTCCCGGTCTTCGTGCTCGGCGCGGTGTTCGGCAAGCTGATCGAACTGTCCGGGTTTTCCAAGGCCATCGTCGCCGCGACGATCCGCGTGGTCGGCCCGCAGCGCGCGATGCTGTCGATCGTGCTGGTCTGCGCATTGCTGACCTACGGCGGCGTGTCGCTGTTCGTGGTGGTGTTCGCGGTCTATCCGTTCGCCGCGGAACTGTTCCGCCAGGGCGATATCCCCAAGCGACTGATCCCGGGGACGATCGCGCTGGGCGCCTTCACCTTCACGATGGATGCGCTGCCGGGCACGCCGCAAATCCAGAACATCATCCCGACCACGTTCTTCGGCACCACCGCCTGGGCCGCGCCGGTGCTCGGCAGCGCCGGCGCGGTGTTCATCCTCGTGCTCGGCATGACCTACCTGGAATGGCGCCGACGCGCCGCGCTGCGCGCCGGTGAAGGCTACGGCGCCGACCTGCGCAATGAGCCACAGCCATTCCACGGCGAGCGCCTGCCGCATCCGGCGCTGGCGGTGCTGCCGCTGGTCGTCGTCGGCCTGGTCAATTTCGCCCTGACCCGCTGCATTCCGGACTGGTACGGCGCCTCGCAATCGTTCGTGCCGGCGGTGATCGGCACGCCGGCGCCGGTGGTGCAGGACGTCGGCAAGCTCGCGGCGATCTGGGCGGTGCTGGGCGCGTTGCTGGCCGGCATCCTGTGCGTACTCGCCTTCGCCTGGCGGGCGGTGTTCGCCGGCTTCGCCGAAGGCAGCCGCACCGCGGTCGGCGGTGCGCTGCTGGCATCGATGAATACCGCGTCCGAGTACGGCTTTGGCGCGGTGATCGCCGCGCTGCCGGGATTCCTGGTGGTAGCCAATGCACTGGCCGCGATCCCGCACCCGCTGGTCAACGAGGCGGTCTCGGTGACCGCGCTGGCCGGCATCACCGGGTCCGCGTCTGGCGGCATGAGCATCGCGCTGGCGGCGATGGCCGACAGCTTCATCGCCAACGCGCACGCGGCCGGCATTCCGATGGAGGTGCTGCACCGGGTCGCCGCGATGGCCTCCGGCGGCATGGACACCCTGCCGCACAACGGCGCCGTGATCACCCTGCTCGCCGTCACCGGCCTGAGCCACCGGCAGTCGTATCGCGACATCTTCGCGATCACCGTGATCAAGACGCTGGCCGTGTTCGTGGTGATCGCGCTGTACGGAGTGAGCGGCCTGGTCTGA	MSFLIVLAALCFLMLVAYRGYSVILFAPVAALGAVLLTDPALVAPMFTGLFMEKMVGFLKLYFPVFVLGAVFGKLIELSGFSKAIVAATIRVVGPQRAMLSIVLVCALLTYGGVSLFVVVFAVYPFAAELFRQGDIPKRLIPGTIALGAFTFTMDALPGTPQIQNIIPTTFFGTTAWAAPVLGSAGAVFILVLGMTYLEWRRRAALRAGEGYGADLRNEPQPFHGERLPHPALAVLPLVVVGLVNFALTRCIPDWYGASQSFVPAVIGTPAPVVQDVGKLAAIWAVLGALLAGILCVLAFAWRAVFAGFAEGSRTAVGGALLASMNTASEYGFGAVIAALPGFLVVANALAAIPHPLVNEAVSVTALAGITGSASGGMSIALAAMADSFIANAHAAGIPMEVLHRVAAMASGGMDTLPHNGAVITLLAVTGLSHRQSYRDIFAITVIKTLAVFVVIALYGVSGLV				NA	NA	NA	NA	NA
BMS020_04121	333			hypothetical protein	ATGAAGTCTTTTACCGTCGTCCTGAAGTCCCTGATCCTTGCGTTGCTGCTGTCCACCGCGGCCCATGCGGCCGAGAAGGTCAACATCAATACGGCGACTGCCGCCGAACTGGACAGGGTGCTGGTGAACGTGGGGCCATCGAAGGCCCAGGCGATCGTCGAGCATCGGCAGGCACACGGACCCTTCAAAAGCGCCGAGGAACTGGCGCTGGTCAAGGGCATCGGACTCAAGACGGTCGAAAGGAATCGTGACCTGATCGAAGTAGGGGCTGGGACGGCCCCTGCCAAGAAGGCTGCCAGGGCGGCGGCTGCGAAGCCGGTGGAGAGGCGTTGA	MKSFTVVLKSLILALLLSTAAHAAEKVNINTATAAELDRVLVNVGPSKAQAIVEHRQAHGPFKSAEELALVKGIGLKTVERNRDLIEVGAGTAPAKKAARAAAAKPVERR	PGPT0029410_3076	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
BMS020_04122	1494			hypothetical protein	ATGGACAGCAGCAGGATCGACCAGTACGTCAGCGACAAGTGGGACCAGGAGATCGTCCCGCAACTGGTCGATTACATCCGCATTCCCAACAAGTCGCCGATGTTCGACGCCAACTGGGTCGCCAACGGCTACATGGACCAGGCGGTGACGCTGATGGAGAGCTGGGCCCGGGCGCAGCAGATCGCCGGCCTGCAGGTCGAGGTGGTGAGCCTGGAAGGCCGTACGCCGTTGATCCTGCTGGAAATCCCGGCCAGCGGCGCCGAGACCGGCGACGATACCGTGCTGCTGTACGGCCATCTCGACAAGCAGCCGGAAATGACCGGCTGGGACGCCGACCTCGGCCCGTGGACGCCGGTGCTGCGCGACGACAAGCTGTATGGCCGCGGCGGCGCCGACGACGGCTATGCGATCTTCGGCTCGCTGGCGGCGGTGATGGCGCTGCAGGAGCAGGGCCTGCCGCATGCGCGCTGCGTGATCCTGATCGAGGCCTGCGAGGAGTCCGGCTCCTACGACCTGCCGGCTTACGTCGACCATCTCGCCGACCGCATCGGCAAGCCGTCGCTGGTGGTGTGCCTGGATTCGGGCTGCGCCAACTACGACCAGCTGTGGTGCACCACCTCGCTGCGCGGCCTGACCGGCGGCAACTTCACTGTCAAGGTGCTCAACGAGGGCGTGCATTCCGGCGACGCATCGGGCGTGGTGCCGTCCAGCTTCCGCCTGCTGCGCCAGCTGCTGTCGCGGATCGAGGACGAGAACAGCGGCCGCATCCTGCTCGAAGGCCTGCACGTGGAGATCCCGGCCGAGCGCCAGGCGCAGGCGCAGCGCGCCGCCGAGGTGGTCGATACCGCGATCTTCGACAAGTTCCCGCTGGTCGACGGCCTGCGCCCGATGAACGACACGCTGTCCGAACTGGTGCTCAACCGGACCTGGCGCCCGGCACTGTCGGTCACCGGTATCGGCGGCATGCCGCCGCTGGAATCGGCCGGCAACGTGCTGCGTCCGGAAACCGCGGTGAAGCTTTCGCTGCGCCTGCCGCCGACCGCCGACGGCAAGCGCTGCGGCGAGCTGCTGAAGCAAGCGCTGCTGCGCGATCCGCCGAACGGTGCCCAGGTCACGCTCGAGCTGGAAAAGGCTTCCAGCGGCTGGAACGCTCCGGCGATGGCGCCGTGGCTGAGCCAGGCGATCGACGAGGCCAGCCAGGCGTTCTTCGGCAAGCCGGCGATGTACATGGGCGAAGGCGGCTCGATCCCGTTCATGGGCATGCTCGGCGAGAAGTTCCCCGGCGCGCAGTTCATGATCACCGGCGTGCTTGGCCCGCACTCCAACGCGCATGGCCCGAACGAGTTCCTGCACATCCCGATGGGCAAGCGCGTCACCGCCTGCGTGGCCAAGGTGATCGCCGAGCACCATGCGGCCAGCCTGCGCGGCGAAACCAGCGGTTCGCCGGTGGCTGCCGACAGCGGCACCCGCCACGGCGGCCACGGCTGCTGCTGA	MDSSRIDQYVSDKWDQEIVPQLVDYIRIPNKSPMFDANWVANGYMDQAVTLMESWARAQQIAGLQVEVVSLEGRTPLILLEIPASGAETGDDTVLLYGHLDKQPEMTGWDADLGPWTPVLRDDKLYGRGGADDGYAIFGSLAAVMALQEQGLPHARCVILIEACEESGSYDLPAYVDHLADRIGKPSLVVCLDSGCANYDQLWCTTSLRGLTGGNFTVKVLNEGVHSGDASGVVPSSFRLLRQLLSRIEDENSGRILLEGLHVEIPAERQAQAQRAAEVVDTAIFDKFPLVDGLRPMNDTLSELVLNRTWRPALSVTGIGGMPPLESAGNVLRPETAVKLSLRLPPTADGKRCGELLKQALLRDPPNGAQVTLELEKASSGWNAPAMAPWLSQAIDEASQAFFGKPAMYMGEGGSIPFMGMLGEKFPGAQFMITGVLGPHSNAHGPNEFLHIPMGKRVTACVAKVIAEHHAASLRGETSGSPVAADSGTRHGGHGCC				NA	NA	NA	NA	NA
BMS020_04123	270			hypothetical protein	ATGCACGACCTGTTTGGCAGTAGCAGTTGGCTGTACATCATCCTGGTCGGCTTCGTGGTCGGCCTGCTGGCGCGGTTCTTCATGCCGGGCAACAACCGCATGGGCTGCCTGCTGACGATCGTGCTGGGCATCGCCGGTGCGGTCGTGGCGGGCTGGTTCGGTCGCTACATGGGCTGGTATGGCGCCGGCGAGCCGGCCGGCTTCATCGCGGCGATGCTCGGCGCGATCGCGATCCTCGCCCTGCTGCGGCTGGTCAGCGGCAAACGCTGA	MHDLFGSSSWLYIILVGFVVGLLARFFMPGNNRMGCLLTIVLGIAGAVVAGWFGRYMGWYGAGEPAGFIAAMLGAIAILALLRLVSGKR				NA	NA	NA	NA	NA
BMS020_04124	1050	amgK	COG3178	N-acetylmuramate/N-acetylglucosamine kinase	GTGCCTGCCACCGGGAGCCGCACCATGAGCGCATCCCCCACTCCGCCCACCGACCGCGATCGCCAGCGCCTGGACTGGGCGCGGCAGGCCCTTGGCGACGCTGAGGCAGCGCTGCAGCGCGCCTCGGTCGATGCCGGCTTCCGCAGCTACTGGCGCAGCAGCCAGGGGCACGCGCCGTCACGGATCGTGATGGACTCGCCCCCCGGCCTGGAGGACGTGCGCCCGTGGCTGCGCATGCGCGCGATGCTCGCCGCGGGCGGCGTGCGCGTGCCGGCGGTGCTGGCCGAGGACATCGACGCCGGTTTCCTGCTGCTGGAGGACCTGGGTGGCCCGACGCTGGCGCAGGTCCTGGACCCGGGTAACGCCGATGCGCTGTTCGAGGCCGCACTCACCCAGTTGCTGGCACTGCAACGCATCACCCCACCGGCCGAGTTCGGCGTGTTCGGCGAGGCGCTGCTGCAGCGCGACGCAGGACTGTTCGAGGAATGGTTCCTCGGCCGCCATCTGGGCATCACGCTGGACTGTGGCGAGGCCGAGCAGTTGCAACGGGTGCAGCGGCGGCTGATGGACAACGCGCTGGCACAGCCGCGGGTCCTGGTGCACCGCGATTTCATGCCGCGCAACCTGATGCCGGTGGCCGACGGCCCGGCGGTGCTGGACTTCCAGGACTGCGTGCTCGGGCCGGTGGCCTACGATCCGGTCAGCCTGTTCAAGGACACCTCGGTGAGCTGGCCGCTGGCCCGGGTGGACGGCTGGCTGGGCGATTACCATCGGCGCGCCCTGCAGGCCGGCATTCCGGTGCCGGCCGATCCGGAGCGGTTCCTGCGCGACGCCGACTGGATGGGCGTGCAGCGACACCTGAAGAACCTCGGCATCTTCTCGCGGCTGAACTACCGCGACGGCAAGCACTGGTACCTGCAGAACGTGCCGCGCTTCATCGACTACCTCGACCAGGTGCTGCCGCGGCATCCGCAGCTGCAGCCACTGGCCGTGCTGCTGGAGCGGCGCATCCGCCCGGCGCTGGCGCAGCGGGCCCATGCCGATGCGTAG	MPATGSRTMSASPTPPTDRDRQRLDWARQALGDAEAALQRASVDAGFRSYWRSSQGHAPSRIVMDSPPGLEDVRPWLRMRAMLAAGGVRVPAVLAEDIDAGFLLLEDLGGPTLAQVLDPGNADALFEAALTQLLALQRITPPAEFGVFGEALLQRDAGLFEEWFLGRHLGITLDCGEAEQLQRVQRRLMDNALAQPRVLVHRDFMPRNLMPVADGPAVLDFQDCVLGPVAYDPVSLFKDTSVSWPLARVDGWLGDYHRRALQAGIPVPADPERFLRDADWMGVQRHLKNLGIFSRLNYRDGKHWYLQNVPRFIDYLDQVLPRHPQLQPLAVLLERRIRPALAQRAHADA	PGPT0019050_690	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
BMS020_04125	456			hypothetical protein	ATGCCGATGCGTAGGCTCGCCGTGGCCGCCTGCGCGCTGCTGCTCGGCGGCTGCCTGCATGACCGTGCGGCACGCGCGGAAGCCGCGTTCTGCTCCAGCATCGATGCAGCCGATACCGGCCTGCCGCTGACGGTCAGGCTCACCGACGTCCCGGACGCCAGCGGCTTCCCGCTGGCCTACACGCCATGGAGCATCGTTGCGGTGGCGCCCGGCGCCGGCGACGACGCGCTCACCGACGCCGCCCCGATCGCCAGCGGCGAAACCGATGCCGACGGCGTCCTCGCGCTCGACGGCGAGCAGCGGCATGCACTGGCGCAGGCACGTTGCGCGCGCCAGGCGTTGTGGCTGCGTTACCCCGGCCAGCGCCAAGCGCTGGACCTGCAGTTCCAGACGCCGCACGGGTCGCACTGTGGCCCGACCACCGCGCAGACGCTGTGCGTGGGCTACTCGCCATGA	MPMRRLAVAACALLLGGCLHDRAARAEAAFCSSIDAADTGLPLTVRLTDVPDASGFPLAYTPWSIVAVAPGAGDDALTDAAPIASGETDADGVLALDGEQRHALAQARCARQALWLRYPGQRQALDLQFQTPHGSHCGPTTAQTLCVGYSP				NA	NA	NA	NA	NA
BMS020_04126	717	murU	COG1208	N-acetylmuramate alpha-1-phosphate uridylyltransferase	ATGAAGGCACTGGTCTTCGCCGCCGGGCTGGGTGAACGCATGCGCCCGCTGACCGATCACACGCCCAAACCCCTGCTCGAGGCCGGTGGCGAACCGCTGATCGTCTGGCATCTGCGCCGGCTGGCCGCACTCGGCGTCGCCGACGTGGTGGTCAACACCTCGTGGCTGGCACCGCGCTTCCCGGAACTACTCGGCGACGGCGCACGCTTCGGCCTGCGCCTGCACTATGCCTACGAGGGCGACACGCCGCTGGAGACCGGTGGCGGCATGCTGCACGCGCTGCCGCTGCTCGGCGCGGCGCCGTTCATCGCGATCAACGGTGACATCTGGAGCGACTTCGACCTGGCGCGGCTGCCGCCCGAACCGGAAGGCGATCTCCACCTGGTGCTCGTCGACAATCCCGAGCATCACCCCGGCGGCGATTTCCAGCTGCTCGCCGACGGCCAGGTGCGTGACCGCGCCGCCGGGCAACCGGCGCTGACCTTTGCCGGCATCGGCGTCTACCGGCCGGCGCTGCTGACGGACTGGCGCACGGTGATCGGCGCTGCGCCCGGTGCGGATGCGCTGCCGCCGCGATTCAAACTGGCGCCGCTGCTGCGCGCGGCGATGCAGGCCGGACGCGCCAGCGGCGAACATCATCGCGGCCACTGGACCGACGTCGGCACGCCGCAGCGGCTGCAGCAGCTGGATGCACAGCTGCGCGGGCGCCAGGCCTAG	MKALVFAAGLGERMRPLTDHTPKPLLEAGGEPLIVWHLRRLAALGVADVVVNTSWLAPRFPELLGDGARFGLRLHYAYEGDTPLETGGGMLHALPLLGAAPFIAINGDIWSDFDLARLPPEPEGDLHLVLVDNPEHHPGGDFQLLADGQVRDRAAGQPALTFAGIGVYRPALLTDWRTVIGAAPGADALPPRFKLAPLLRAAMQAGRASGEHHRGHWTDVGTPQRLQQLDAQLRGRQA	PGPT0019055_803	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_MURAMATE_DEGRADATION,PGPT0019055-murU-K00992	NA	NA
BMS020_04127	708	hda_1	COG0593	DnaA regulatory inactivator Hda	GTGAACGTGCCGCAATTGCCGCTGGCCCTGCGTTATCCGCCGGACCAGCGTTTCGAAAGCTATGTCGATGCGCCCGACGGGCTGCTGGAGCACCTGCGGGCGATGGCGGCCGGCCAGGTCCGCGACTGGTTGTACCTGGCCGGACCGGCCGGCAGCGGCAAGACCCACCTGGCGCTGTCGCTGTGCGCGGCCGCCGAACAGGCCGGGCGGCACGCGGCCTACCTGCCGCTGGCCGCCGCTGCCGGGCGCCTGCGCGAGGCGCTGGAAGCGCTGGAAGGCCGCGATGTGGTCGCACTGGACGGATTGGAGCGGGTTGCCGGGCAGCGCGAGGACGAAGTGGCGCTGTTCGATTTCCACAATCGTGCGCGTGCGGCCGGGGTGACCGTGCTGTACACCGCGCAGTCGATGCCGGACACGCTGGCGCTGGTGCTGCCGGACCTGCGTTCGCGGCTGTCGCAATGCACGCGCATCGCCCTGGCGGCGCTGGACGATCGTGGTCGCGCCGCGCTGCTGCGCGACCGTGCGCAACGCCGCGGGTTGGTGCTGGAAGAGGCCGCGATCGACTGGTTGTTGGTCCACAGCGGTCGCGATCCGCTGACGCTGGTCGCATTGCTGGATCGGCTCGACCGCGAATCGCTGGCGGCCAAGCGTCGCGTCACCGTGCCGTTCCTGCGCCGCGTGCTGGGCGAGAGCGCCGGCGGCGCCTGA	MNVPQLPLALRYPPDQRFESYVDAPDGLLEHLRAMAAGQVRDWLYLAGPAGSGKTHLALSLCAAAEQAGRHAAYLPLAAAAGRLREALEALEGRDVVALDGLERVAGQREDEVALFDFHNRARAAGVTVLYTAQSMPDTLALVLPDLRSRLSQCTRIALAALDDRGRAALLRDRAQRRGLVLEEAAIDWLLVHSGRDPLTLVALLDRLDRESLAAKRRVTVPFLRRVLGESAGGA				NA	NA	NA	NA	NA
BMS020_04128	1167			Sodium-lithium/proton antiporter	ATGAACCTGAGTCCCGAAGCCGAGATCGCCCAGTTCCTGCGGCGACTGAAATGGATCGCGCTGGGCCTGGGCATCTTCTGGGTGATCTGGCTGCTGGCGCCGGTGCTGACCCCGTTCGTGCTGGCGCTGCTGCTGGGCTGGCTGGGCGATCCGCTGGTGGACCGGATCGAGCGCGCCGGCCGCTCGCGCAACGCCGCGGTGACGCTGGTGTTCGTGCTGATGCTGCTGCTGGTGGTGCTGGCGCTGATGATCCTGGTGCCGTTGATCGAGCGCCAGATCGTCACCCTGATCGCCGCGCTGCCGCAGATGCGCGACTGGGTGATCCACACCGGCGTGCCGTGGATCGAACAGAAGACCGGGCTGGAGCTGATGACCTGGCTCGACCCGGAGCGGCTGATCGAATGGATCCGCGGCCACTGGGAGCAGGCCGGCGGCGTGGCCAAGACCTTCTTCGGCTACCTGTCGCGGTCGGGCTTCGCGATGGTCACCTGGGTGCTCAACATCGCGTTGCTGCCGATCCTGACGTTCTACTTCCTGCGTGACTGGGACAAGCTGGTCGAGCGCGTCGCGGCGGTGATCCCGCGCAAGTACGTCGGCACCGTCGGCCGCCTGGCGCAGGAGTCCAACGACGTGCTCGGCGCGTTCATCCGCGGCCAGTTCCTGGTGATGATCGCGCTGGGAGTGATCTACGCCGCCGGGCTGTCGTTCACCGGGCTCAACCTGGGCCTGCTGATCGGGCTGATCGCCGGGCTGATCAGCTTCATCCCGTATCTGGGCGCGACCACCGGCGTGGTGCTGGCGGTGCTGGCGGCGCTGGTGCAGGCGCAGGGCTTCGATCTGAAGCTGATGGCCGGGCTGGCGGCGACGTTCACCGTCGGCCAGCTGCTGGAGAGCTACGTGCTGACCCCGCGCATCGTCGGCGACAAGATCGGCCTGCATCCGGTGGCGGTGATCTTCGCGGTGATGGCCGGTGGCCAGCTGTTCGGCTTCCTGGGCATGCTGCTGGCACTGCCGGTGTCGGCGGTGGCCAACGTGCTGCTGCGCTATGCGCACGAACGCTACACCCAGAGCGACCTGTACGGCGGCAACCGGCCGGAGATCCTGCTGGCGCCGTACGTGGATCGCGACAGCGTGGTGGATGTGCCGAAGGACCCGTCGTCGCCGTGA	MNLSPEAEIAQFLRRLKWIALGLGIFWVIWLLAPVLTPFVLALLLGWLGDPLVDRIERAGRSRNAAVTLVFVLMLLLVVLALMILVPLIERQIVTLIAALPQMRDWVIHTGVPWIEQKTGLELMTWLDPERLIEWIRGHWEQAGGVAKTFFGYLSRSGFAMVTWVLNIALLPILTFYFLRDWDKLVERVAAVIPRKYVGTVGRLAQESNDVLGAFIRGQFLVMIALGVIYAAGLSFTGLNLGLLIGLIAGLISFIPYLGATTGVVLAVLAALVQAQGFDLKLMAGLAATFTVGQLLESYVLTPRIVGDKIGLHPVAVIFAVMAGGQLFGFLGMLLALPVSAVANVLLRYAHERYTQSDLYGGNRPEILLAPYVDRDSVVDVPKDPSSP				NA	NA	NA	NA	NA
BMS020_04129	1101			hypothetical protein	ATGCGCCCCAGTCGTCTGCTCCTCCTCGCCCTGCTGGCCCTCGCGCCAGCGGCGCCGTGCCTTGCCCAGGACGACCTGCGCACCGAAGGTGACGTCGCCAAGGCGCAGGGCGCCTACGACGCCGAAGTCCCGGTGAACAGCCAGACCGAGGACGACCGTGCCGGTGGCCTGGCGCGCGCGCTGGGCGTGGTGCTGGCCAAGCTCACCGGCGACCGCGCGGTGATGGGCAAGCCGGGCGTGGCGCAGGCGCTGCGCGGTGCCGGCAATTTCGTCGAAAACTACGACTACCGGCAGGACCAGGGCACCTCGCCCACTGGTGCGCCGACCTTCCGCACGATGCTGGTGGCGCGGTTCCGTCCCGAGGACGTGGATGGGCTGGTCGCTGCGCTGGGCCTGCCGCTGTGGCCGCAGCCGCGCCCCAAGCCGGTGCTGTGGCTGGCCATCGATGACGGCAGCGGCCCGCGCCTGGTCGGCGTGCAGCAGTCCAATGCCGCGCGCAGCATCCTCGACCGTGCGCTCGAACGCGGTTTCCGTCTTGGCCTGCCCGGTGGCGGGGCCGCCGAACAGGCGGTGGTCGGCGCGATCTGGCGCCAGGACACCGCCGCAGTGGCCAGCGCCTCGGCCCGCTACAGCCCGCCGATGCAGCTGGTCGGCAAGCTGTACCGCGCCGGCGCCGGCTGGACCGCCGACTGGATGTTCGTCGACGACGGCAAGGTGCTGTCGAGCTGGTCCACCAGCGACGGCGACGCGCGCCGGGCGATGGCCTCCGGGGCCGATGGCGCCGCCGACGCGCTGGTCAAGCGTTACGCCAAACGCGTGGATACCGGTACGCCCGGCGTGTACCGGGCGGTGTTCACCGGGATCCGCAGTGCGGACGACTACCTGCGCCTGTCCGCGGCGCTGCAGGGCGTGTCGGTGGTGCGCAGCATCCGCCCGGTGCAGGCCAACGGCGACCGCCTCGAGGCCGACCTGGAACTGCTGACCGGGGTGTCCGGGCTGAACCGCATGCTCGGCAACAACAGCGCGCTCGAGGTGGTGTCCGCGCCGACCGAAGGGCCGGTCGTGCTGCCGGGCGAACGCGCCGAGTACCGCCTCAAATGA	MRPSRLLLLALLALAPAAPCLAQDDLRTEGDVAKAQGAYDAEVPVNSQTEDDRAGGLARALGVVLAKLTGDRAVMGKPGVAQALRGAGNFVENYDYRQDQGTSPTGAPTFRTMLVARFRPEDVDGLVAALGLPLWPQPRPKPVLWLAIDDGSGPRLVGVQQSNAARSILDRALERGFRLGLPGGGAAEQAVVGAIWRQDTAAVASASARYSPPMQLVGKLYRAGAGWTADWMFVDDGKVLSSWSTSDGDARRAMASGADGAADALVKRYAKRVDTGTPGVYRAVFTGIRSADDYLRLSAALQGVSVVRSIRPVQANGDRLEADLELLTGVSGLNRMLGNNSALEVVSAPTEGPVVLPGERAEYRLK				NA	NA	NA	NA	NA
BMS020_04130	1056	purM_1	COG0150	Phosphoribosylformylglycinamidine cyclo-ligase	GTGACCAGCCCAGTCCAGAACGCCCCGACGCCCCTCACCTACCGCGAAGCGGGGGTCGATATCGACGCCGGCAACGCTCTGGTCGAACGCATCAAACCGCTGGTCAAGCGCAGCTTCCGGCCCGAGGTGATGGGCGGCCTGGGTGGCTTCGGCGCGCTGTTCGACCTGTCCGGCAAGTACAAGGAGCCGGTGCTGGTGTCCGGCACCGACGGCGTCGGCACCAAGCTCAAGCTCGCCCAGCAGCTGGGCCGCCACGACACCATCGGCATCGACCTGGTGGCGATGTGCGTCAACGATGTGCTGGTCCAGGGCGCCGAGCCACTGTTCTTCCTGGACTACTTCGCCACCGGCAAGCTGGACGTGGACACCGCCGCGGCGGTGGTCGGCGGCATCGCGCTGGGCTGCGAGCAGTCCGGCTGCGCGCTGATCGGCGGCGAGACCGCCGAGATGCCGGACATGTACCCGCCGGGCGAATACGACCTGGCCGGCTTCTGCGTGGCCGCGGTGGAGAAGGCCGAACTGCGGGACGGCGCGCGCGTGCGCGAGGGCGACGTGCTGATCGGCATCGCCTCCTCCGGCCCGCATTCCAACGGCTACTCGCTGGTGCGGCGGATCTACGAGCGCGCCGGGTCGCCGGCCGAGCTGGAGGTCGGCGGGGTCAAACTGATCGACGCGCTGATGGCGCCGACCGCGCTGTACGTCAAGCCGGTGCTGGCGCTGCTGAAGTCGCATGGCGAGGCGATCCACGCGATGGCCCACGTCACCGGCGGCGGCCTGACCGAGAACATCATCCGCGTCATTCCCGACGGCCTGGGCCTGGACATCGATGCCGCCAGCTGGCCGCTGCCGCCGGTGTTCCAGTGGCTGCAGAGCGAAGGCGCGGTGGCCGATGCCGAGATGTGGCGCACCTTCAACTGCGGCATCGGCTTCGTGCTGGTCGCCGCGCCCGAACAGGCGGCCGCGCTGGAACAGGCGCTGGACGGCCAGGGCCTGGCGCACTGGCGCATCGGTGCGGTGGTCGCCGCCAGCGGCGAAGAACGCGTGCGGATCGGCTGA	MTSPVQNAPTPLTYREAGVDIDAGNALVERIKPLVKRSFRPEVMGGLGGFGALFDLSGKYKEPVLVSGTDGVGTKLKLAQQLGRHDTIGIDLVAMCVNDVLVQGAEPLFFLDYFATGKLDVDTAAAVVGGIALGCEQSGCALIGGETAEMPDMYPPGEYDLAGFCVAAVEKAELRDGARVREGDVLIGIASSGPHSNGYSLVRRIYERAGSPAELEVGGVKLIDALMAPTALYVKPVLALLKSHGEAIHAMAHVTGGGLTENIIRVIPDGLGLDIDAASWPLPPVFQWLQSEGAVADAEMWRTFNCGIGFVLVAAPEQAAALEQALDGQGLAHWRIGAVVAASGEERVRIG	PGPT0021570_1968	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021570-purM-K01933	NA	NA
BMS020_04131	447			hypothetical protein	ATGCAGGCACCGCCCCTGCCGCCGGCCAGCACCGAGGACCTGCAGCAGCTGAAGCTGCTGTCGATCTTCCATTACCTGCTGGCCGGGATGACCGCGCTGGTGTCGCTGATGCCGCTGATCCACCTGGCCATGGGCCTGGCGATCATCACCGGGGCGCTGCCGATGCACTCCACCCAAGCGCAGGACGACCAGGTCGCCCCGCGGATGCTCGGCTGGATCTTCGTCGGCGTCGCGGTGGTGGCGATCACCTTCGGCATGGCGCTGGCCGCCTGCATGGCCTACGCCGGGCGCTGCATCGCCCGCCGGCGCCACCACCTGTTCTGCCTGATCGTCGCCGGCCTGTGCTGCATGATGATGCCGCTCGGCACGGTGCTCGGCGTGTTCACCCTGGTGGTGCTGCTGCGCCCGCAGGTCAAGGCGCTGTTCGCCCCAGCCACCGCCCACTGA	MQAPPLPPASTEDLQQLKLLSIFHYLLAGMTALVSLMPLIHLAMGLAIITGALPMHSTQAQDDQVAPRMLGWIFVGVAVVAITFGMALAACMAYAGRCIARRRHHLFCLIVAGLCCMMMPLGTVLGVFTLVVLLRPQVKALFAPATAH				NA	NA	NA	NA	NA
BMS020_04132	654	purN_1	COG0299	Phosphoribosylglycinamide formyltransferase	ATGACCCTCCGCATCGCGGTACTCGCCTCCGGCCGCGGCAGCAACCTGCAGGCGATCCTGGATGCGATCGCCGCCGGCACGCTGGAGGCCGGCATCGCCGGCGTGTTCTCCGACAATCCCAACGCGGCCGCGCTGCAGAAGGTGGCGCAGCCGCAGCGCTGGGCGCGCTCGCCGAAACAGTTCGCCGACAAGGCCGCCTACGAGCAGGCGCTCGGCGACGCGATCGCCGCCAGCGCGCCGGACTGGATCGTCTGCGCCGGCTACATGCGCATCCTCGGCGAAGCGCTGCTGCAACGCTTCACCGGGCGCATGCTCAACATCCACCCCTCGCTGCTGCCGCGCCACCGCGGCCTGCATACCCACGCCCGCGCGTTGGAGGCCGGCGATGCCGAGCACGGCGCCAGCGTGCACCTGGTGGTGCCGGAGCTGGACGCCGGCGCGGTGCTGGCGCAGGCGCGCGTGCCGGTGCTGGTCGACGACAGCGCCGAGACCCTGGCCGCGCGGGTGCTGGCGCGCGAGCATCCGCTGCTGGTCGCCACGCTGCGCCTGGTGGCCGAGGGCCGGCTGGATGAACGCGGGGGAACCCCGTGGCTCGACGGTCATAGCCTGTTTACGCCGCTACAACTAGATTCGAGTGATCGGCTGCGACTCTGA	MTLRIAVLASGRGSNLQAILDAIAAGTLEAGIAGVFSDNPNAAALQKVAQPQRWARSPKQFADKAAYEQALGDAIAASAPDWIVCAGYMRILGEALLQRFTGRMLNIHPSLLPRHRGLHTHARALEAGDAEHGASVHLVVPELDAGAVLAQARVPVLVDDSAETLAARVLAREHPLLVATLRLVAEGRLDERGGTPWLDGHSLFTPLQLDSSDRLRL	PGPT0008095_825	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008095-purN-K11175	NA	NA
BMS020_04133	852			hypothetical protein	GTGATCCTGCCTCAGGCACGCTACCGCCCAGCCCATCTGCCGCCGACCATGCGCCGCCCGATCCCGTCCCTGCTGCTGTTGACCCTCCTGACCGCGACCGGCGCGCATGCCGGGCCGCAGTCCGCCAGCGCGCCGGCCACGCCGCCCTCCGCGGCACCGGCAGCGCCCTCCCCAACCCCGGACGAAACGGCGTGGACCTCACCGCCACTGGAGCCGTTCGTCGCCACCTACCAGGCCTTCTACAAGGGCAAGGAAGCCGGCGACGCAACGATGCAGGTTACGCACGGTGAAGGCGCGCAGTGGCGCGTGGACATGGCCGTGCGCGGCCGCCACGGCTTCGCCGGCGTGCTCGGCCTGAACCTGGAACAGAGCACCGTGTTCCGCGACGACGGCGGCATCTACGTGCCGCTGACCCAGAGCACGGTGAAGAAGGCGGTGTTCTTCGGCAAGAAGGTCACCGGCACCTACGACTGGAACGCCGGCGTGGCCGACTGGGACGGCGACCTGAAGAAGGAACGGCGCAAGCCGATCCCGCTGCAGCGCGGCGACCAGACCGCGCTGCTGTTGAACCTGTCGCTGATGCGCGACGCGCGCCCGGGCCGTTCGATGGGCTACCGCTACGTCGACCTCGGCCGCATGCGCCAGTACGACTACCGCGCCGCCGACATGACCGAAACCGTGCAGGTCGGCGACCTCAGCTACGACGCCCTGCGCGTGTACCGCACCAACGGCGGCCGCAACGAGACCATCCTGTGGATCGCCAACGGCGTGCCAACGCCGGTACGCATCCTGCAACGCGAAGACGGCGAGGACGAAATCGACCTCCGCCTTGTCGAATACCAAGGAGCCTGA	MILPQARYRPAHLPPTMRRPIPSLLLLTLLTATGAHAGPQSASAPATPPSAAPAAPSPTPDETAWTSPPLEPFVATYQAFYKGKEAGDATMQVTHGEGAQWRVDMAVRGRHGFAGVLGLNLEQSTVFRDDGGIYVPLTQSTVKKAVFFGKKVTGTYDWNAGVADWDGDLKKERRKPIPLQRGDQTALLLNLSLMRDARPGRSMGYRYVDLGRMRQYDYRAADMTETVQVGDLSYDALRVYRTNGGRNETILWIANGVPTPVRILQREDGEDEIDLRLVEYQGA				NA	NA	NA	NA	NA
BMS020_04134	684			hypothetical protein	ATGAACATCCTCCCGCGCCCCCTCGCCGCCCTGGCCGCTGCCGGCCTGGCCCTCGCCGCGCTGCCGGCGTTGGCGATGCAGCCGTTCCAGGCCGACTACCAGGCCAACTACATGGGCATGCAGGCCAATGGCCAGATGACCCTGGCCAGCGCCGGCAACAACCAGTGGCGCTACACCCTGGTCATCCAGAACCAGCTGGCCAACCTCAGCCAGAGCACGGTGTTCGAGGAACACGCCGGTCAGCTGCGCCCGATCAGCAGCCACGACACCTCGTCGATGCTGGTCAAGCGCCGCAACGTCGAGGCCAAGTACGACTGGGCCAGCAGTCAGGCGACCTGGAGCGGCGACATCAAGCCCGACCGCCGCGGACCGGTGAAGCTGCAGGCCGGCGACATGGACGCGCTGCTGATCAACCTGGCGATCGCGCGCGACCTGGCCGCAGGCAAGCCGCTGAACTACCGCATGGTCGACGAGGGCCGCATCAAGCCGATGGTCTACAAGGTGGTGGGCAAGGAGAACGTCACCGTCAACGGCAAGCAGCAGCTGGCCACCAAGGTCTCGCGCGTGGACGGCGACAAGGAGCTGATCGCCTGGATCGTGCCGGACATGCCGGTGCCGGCGCGCCTGCTGCAGAAGGAAAAAGGCCAGGACGCGTTGGACCTGACCATCAAGCAGCTGCGCTGA	MNILPRPLAALAAAGLALAALPALAMQPFQADYQANYMGMQANGQMTLASAGNNQWRYTLVIQNQLANLSQSTVFEEHAGQLRPISSHDTSSMLVKRRNVEAKYDWASSQATWSGDIKPDRRGPVKLQAGDMDALLINLAIARDLAAGKPLNYRMVDEGRIKPMVYKVVGKENVTVNGKQQLATKVSRVDGDKELIAWIVPDMPVPARLLQKEKGQDALDLTIKQLR				NA	NA	NA	NA	NA
BMS020_04135	2979			hypothetical protein	ATGAGCCAATACCGTTCCCGTTCCACTCCGTTCAAGCGCACCGCGCTGGCCGTCGTGCTGGGCCTGTGCCTGACGCAGGTCCCCGCGATGGCGCAGAGCACCGCCGGCGACATCGCCGGCAATGCCCAGTACGTCGACGGCGCGCAGATCCAGATCAAGAGCCCGACCACCGGTCTGAGCCGCACCGTCGCGCTCGGCGCCGACGGCCGCTTCCGCATCCCCTCGCTGCCGAGCGGCCACTACGACGTGAGCCTGGTCGAAGGCGGCAACGTGGTGTCGACCCTGGACGTGGCGGTCGTCGCCGGCCAGACGGTGCAGGCGAACTTCGGCGAAGCCACCAGCCTCGACGCGGTCGTGGTCAAGGCGCCGATGTCGGTGACCGGCATCGATACCAGCAGCGTCGAGTCGCGCACCACCTTCACCGCAGAGCAGCTCAACGAACTGCCGGTGCCGCGCGACGTCAGCAGCGTGGCGCGCCTGACCCCGGGCACCACCCAGGGCAGCGGCTACTTCGGCAACCTCAACTCGTTCGGCGGCGCGTCGGTGGCGGAGAACAGCTACTACGTCAACGGCATGAACGTCACCAACTCGTACGACTACCTGTCGTTCAGCGAAGTGCCGTGGCAGGCGATCGACCAGCTCGACGTGCAGACCGGCGGCTACGGCGCCGAGTACGGCTTCTCCACCGGCGGCGTCACCAGCGTCAACATCAAGCGCGGCACCAACGAGTGGCATGGCGGCGTCAGCATCGACTCGATGCCGGATTCGCTGCGCGCGCACCTGGACGACGAGAACTTCAGCGATGGCAACCTGTTCCGCGCGCTGAGCAAGAACAAGACCAACCAGAACACCTACACGGTGTGGGAAGGTGGTCCGCTGATCGAGGACAAGCTGTTCATCTTCGCCCTCGGCTCGCTGGACAAGAAGAGCGGTTCGAGCTGGGGCGGCCGGACCTCGTCGAGCAGCACCTCGTCGACGATGTACGACTACGACACCACCAAGCCGTACAAGCTGCTGAAGCTGGACTGGTACCTCAACGACTGGAACCACCTGGAGTTCACCGGCTTCGACAACAGCAGCCGGACGACCTACGACTATTACAACGTCGCCTACGACGGCAACAGCGCGTCCAAGGACAGCTACAACGGTCGCCTGGTGTCCAAGAGCGGTGGCCCGACCACGATCTTCAAGTGGACCAGTAACCTCACCGACGATCTGACCGCATCGCTGCAGTACGGGCGGATGAAGTCCAAGAGCGAGCAGTACACGATCAGCCCCGACGGCACCGTCACCACCTACGACGGCAACGTGAACTCCAGCGGTTCGGGCTGCCCGCGCGTTGCCTATTCTTCGCGCTACACCGGCGAGGAGAACAGCTGCTACACCTCCTCGACGCTGGGTGTGTCCAACGGCTACAGCCAGCGTGACGACTACCGTCTCGACTTCGACTGGACGCTGGGCAACCACGAGCTGAAGTTCGGCTACGACTACAACGACGTCAACGTGAAGGCCGGCGAGACCTACGCGGGCGGCCACTACTACTATTACTACGACGACAACTACGTCTACGACTACATCTACAAGACCGGCGGCAAGGTCGAGGTGAAGCAGAACTCGTGGTACGTGCAGGACAAGTGGCACATCACCGACAACTTCCTGCTGTCGATGGGCATCCGCAACGACTCGTTCAAGAACTACAACACCGCCGGCGAGATCTTCGTCCAGCAGGACAACATCTGGCAGCCGCGCCTGGGCTTCTCCTGGGACATCAACGGTGACAGTCGTTCGCGCCTGTACGGCAACCTGGGGCGCTATGCGCTGCCGATCGCCGCCAACGTCGCGCTGCGCGCGGCCAGTGCCTCGTACTACACCTACACGCTGTACAGCTACACCGGCGTCAGTGCCAACGGTACGCCGACCGGTCTGAGCCAGGTCGAGGACACCCAGGTCGTCAACGGCGAGAACGGCACCGCGCCGAGCGCGTCGTCGGTCACCAGCAAGAACCTCAAGCCGTACACGCAGGACGAGGCGATCCTAGGCTACCAGTACACGCTGTCGAGCAACCACGACTTCCTCGATGGCTGGGTGCTGGGCCTGAAGGCGACGTATCGCAAGATCCACAACGCGATCGACGACACCTGCTCGGCCTCGGCGCTGTACAACGCCGCCGATGCGGCCGGCTACGACGTCTCCAACTGGGAAGACGAGTGGACCACGCCGAGCTCGATCGCCGGCTGCTGGCTGTACAACCCGGGGAGCAGCTCGACGATCAGCACCGACGTCGATGGCGACGGCACCGCCGAGACCATCACCATGTCGTCCAGCTCGCTCGGTCCGAAGGCCAAGCGCACCTACAAGGCGCTGACCCTCAGCGGCGAGAAGGGCACCGACAAGTGGTACGGCAACTTCTCGTACACCTGGTCCAAGAGCCAGGGCAACTACGAGGGCCTGGTGAAGTCGAGCAACGGCCAGGATGACACCGGCACCACCGCCGATTTCGACTTCGCCGAGATCATGAACGGCGCCTACGGCTACCTGGCCAACGACCGTCGTCACCAGATCAAGCTGTACGGTGGCTACAAGTTCACCCCGGAACTGCAGGTCGGCCTGAACGTGTCCGTGCAGTCGGGTGCACCGATCAGCTGCTACGGCGGCGGCTACGGCACCTACGACACCTACTACGGCTACGGCGGTTCCTGGCACTACTGCAATGGCGAAATCAGCGAGCAGGGCACCGAGGGGCGTACCCCGTGGACCTTCACGGTCAGCCCGAACGTGGTCTACAAGCCGGAAGCGGTGAAGGGCCTGACCGCGCAGCTGTCGGTGATGAACCTGTTCAACAACATCAAGCCGCTGCAGGTCTACCAGACCTACGAGAGCACCAGCTCGGCCGGTACCAGCTACTACCAGTACTACAAGCTGGGCCAGTACTACACCGATCCGCTGACCGTGCGTCTGCAGCTGATGTACGAGTGGTAA	MSQYRSRSTPFKRTALAVVLGLCLTQVPAMAQSTAGDIAGNAQYVDGAQIQIKSPTTGLSRTVALGADGRFRIPSLPSGHYDVSLVEGGNVVSTLDVAVVAGQTVQANFGEATSLDAVVVKAPMSVTGIDTSSVESRTTFTAEQLNELPVPRDVSSVARLTPGTTQGSGYFGNLNSFGGASVAENSYYVNGMNVTNSYDYLSFSEVPWQAIDQLDVQTGGYGAEYGFSTGGVTSVNIKRGTNEWHGGVSIDSMPDSLRAHLDDENFSDGNLFRALSKNKTNQNTYTVWEGGPLIEDKLFIFALGSLDKKSGSSWGGRTSSSSTSSTMYDYDTTKPYKLLKLDWYLNDWNHLEFTGFDNSSRTTYDYYNVAYDGNSASKDSYNGRLVSKSGGPTTIFKWTSNLTDDLTASLQYGRMKSKSEQYTISPDGTVTTYDGNVNSSGSGCPRVAYSSRYTGEENSCYTSSTLGVSNGYSQRDDYRLDFDWTLGNHELKFGYDYNDVNVKAGETYAGGHYYYYYDDNYVYDYIYKTGGKVEVKQNSWYVQDKWHITDNFLLSMGIRNDSFKNYNTAGEIFVQQDNIWQPRLGFSWDINGDSRSRLYGNLGRYALPIAANVALRAASASYYTYTLYSYTGVSANGTPTGLSQVEDTQVVNGENGTAPSASSVTSKNLKPYTQDEAILGYQYTLSSNHDFLDGWVLGLKATYRKIHNAIDDTCSASALYNAADAAGYDVSNWEDEWTTPSSIAGCWLYNPGSSSTISTDVDGDGTAETITMSSSSLGPKAKRTYKALTLSGEKGTDKWYGNFSYTWSKSQGNYEGLVKSSNGQDDTGTTADFDFAEIMNGAYGYLANDRRHQIKLYGGYKFTPELQVGLNVSVQSGAPISCYGGGYGTYDTYYGYGGSWHYCNGEISEQGTEGRTPWTFTVSPNVVYKPEAVKGLTAQLSVMNLFNNIKPLQVYQTYESTSSAGTSYYQYYKLGQYYTDPLTVRLQLMYEW				NA	NA	NA	NA	NA
BMS020_04136	312			hypothetical protein	ATGATCCTGCGCGGCCGGTTCACCCCGCGGCGCAAGGCGCTGGCGGTGCTGATGCTGCTGATCCTGGGCTGGCTCGGCTATGCCTGGTACGCCGGCATGGCGATCACCCAGGGCGTGGAGACGCGCGACATGGACTGGAACGGCGACGGCAGCGTCGGCCGCGACGAGATCGCGCAGGCGTTCTACGCGGTGGCGGTGAAGAAGACCGTCGATGGCAACCGCCACTGCAGCACCTTCTATTGGCGCGGTACCGGCGCGCAGATCCGCGTGGATTGCCGCACCGTATTCGGCGGGGCCGACGCGGCGCACTGA	MILRGRFTPRRKALAVLMLLILGWLGYAWYAGMAITQGVETRDMDWNGDGSVGRDEIAQAFYAVAVKKTVDGNRHCSTFYWRGTGAQIRVDCRTVFGGADAAH				NA	NA	NA	NA	NA
BMS020_04137	1275	murA_2	COG0766	UDP-N-acetylglucosamine 1-carboxyvinyltransferase	ATGGCAAAGATCGTAGTGACCGGCGGCGCGCCGCTGCACGGTGAAGTGAACATCTCCGGCGCCAAGAACGCCGTGCTGCCTATTCTGTGCGCGACCCTGCTGGCCGATGCGCCGGTGGAGATCAGCAACGTGCCGCACCTGCACGACGTGATCACCACGGTCAAGCTGCTCAGCGAGCTGGGCGCCGAGGTCAGCCTCGACGAGGGCACGCTGGCCCGCGGCAGCTCGATCACCGTCGACCCGCGCACTGTCGGCCAGCACGTGGCACCGTACGAGCTGGTCAAGACCATGCGCGCCTCGGTGCTGGTGCTGGGCCCGCTGCTGGCCAGGTTCGGCGCCGCCGAGGTCTCGCTGCCGGGCGGCTGCGCGATCGGCTCGCGCCCGGTCGACCAGCACATCAAGGGCCTGCAGGCGCTGGGGGCGGAGATCAGCGTCGAGAACGGTTACATCAAGGCCAGCAGCAACGGCCGGCTGAAGGGCGGCCGCTTCGTGTTCGACATGGTCAGCGTCACCGGCACCGAGAACGTGCTGATGGCCGCAGTGCTGGCCGAGGGCACCACCGTGCTGGAGAACGCGGCGATGGAGCCGGAGGTCGTCGACCTGGCCGACTGCCTGGTCGCGCTGGGCGCGAAGATCGAAGGCGCCGGCACCTCGCGCATCGTCGTTGAGGGCGTCGCACGCCTCGGTGGCGGCCATCACTCGGTGCTGCCGGATCGCATCGAGACCGGCACGTTCCTGGTCGCCGCGGCGATGACCGGCGGTCGCGTGACCGCGCGCCGCGCCGCGCCGCACACGCTGGACGCGGTGCTGGACAAGCTGCGCGAAGCCGGCGCCGAGCTGGAGTGCACCGAGGATTCGATCACCCTGGACATGCATGGCCGCCGGCCGAAGGCGGTCAACCTGACCACCGCGCCGTACCCGGCGTTCCCGACCGACATGCAGGCGCAGTTCATGGCGCTCAACTGCGTGGCCGATGGCGTCGGCGTGATCAACGAGACGATCTTCGAAAACCGCTTCATGCACGTCAACGAGCTGACCCGCCTCGGCGCCAAGGTGCAGGTCGAAGGCCACACCGCGATCGTGCATGGCGCCGAGCGCCTGAGCGGCGCGCCGGTGATGGCCACCGACCTGCGTGCCTCGGCATCGCTGATCCTGGCCGGCCTGGTCGCCGAAGGCGACACCACCATCGACCGCATCTACCACCTGGACCGTGGCTACGAGAACATCGAGGAGAAGCTGGGGGCGCTGGGCGCGACCATCCGGCGCATCGCATGA	MAKIVVTGGAPLHGEVNISGAKNAVLPILCATLLADAPVEISNVPHLHDVITTVKLLSELGAEVSLDEGTLARGSSITVDPRTVGQHVAPYELVKTMRASVLVLGPLLARFGAAEVSLPGGCAIGSRPVDQHIKGLQALGAEISVENGYIKASSNGRLKGGRFVFDMVSVTGTENVLMAAVLAEGTTVLENAAMEPEVVDLADCLVALGAKIEGAGTSRIVVEGVARLGGGHHSVLPDRIETGTFLVAAAMTGGRVTARRAAPHTLDAVLDKLREAGAELECTEDSITLDMHGRRPKAVNLTTAPYPAFPTDMQAQFMALNCVADGVGVINETIFENRFMHVNELTRLGAKVQVEGHTAIVHGAERLSGAPVMATDLRASASLILAGLVAEGDTTIDRIYHLDRGYENIEEKLGALGATIRRIA	PGPT0024090_3108	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790	NA	NA
BMS020_04138	231			hypothetical protein	TTGGACGCCGAAACCATCCGTAAACTCATCGTGGCCGGCCTACCTGACGCCCGCGCCGAGGTGCAGGGCGACGATGGCGTCCACTTCGAGGCGACCGTGGTCAGCGAGGCCTTCCGCGGCAAACTGCCGCTGGCCCGCCACCGCCTGGTCTACGCGACGCTCGGCGAGCTGATGGGCGGGGCGATCCACGCCCTGCAGCTGAAGACGCTGACCCCCGACGAGGCGGCCTGA	MDAETIRKLIVAGLPDARAEVQGDDGVHFEATVVSEAFRGKLPLARHRLVYATLGELMGGAIHALQLKTLTPDEAA	PGPT0014930_1107	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014930-bolA-K05527	NA	NA
BMS020_04139	1002	kdsD_2	COG0517	Arabinose 5-phosphate isomerase KdsD	ATGGCTGTATCGCCCCTGTCCCTCGACGCCGTCGATGATGCCGGCCTGGTCGCCAGCGCGCAGCGCGTGCTGGAGATCGAACAGGGCGCGCTGGCGACCGTCGGCGCCCGCATCGGCGACGCCTTCGTCGCCGCCTGCCGGCTGGTGCTGGGCTCGCGCGGCCGCGTGGTCGCCACCGGCATGGGCAAGTCCGGCCATGTCGCGCGCAAGATCGCCGCGACCCTGGCCTCAACCGGCACCCCGGCGTTCTTCGTCCATCCGGGCGAGGCCGGCCACGGCGACCTGGGCATGATCACCGACGCCGACGTGGTGCTGGCGCTGTCCTATTCGGGCGAATCGGACGAGATCCGCATGCTGCTGCCGGTGCTCAAGCGCCAGGGCAACCCGATCATCGCGATGACCGGCCGCCCGCAGTCGACCCTGGCCCAGGCCGCTGACGTGCACCTGGACGTCAGCGTACCGGTCGAGGCCTGCCCGCTCGACCTGGCCCCGACCTCCAGCACCACCGCCTCGCTGGCGATGGGCGACGCGCTGGCGGTGGCGCTGCTCGACGCACGCGGCTTCACCGCCGACGACTTCGCCCGCTCGCACCCGGCCGGCAGCCTCGGCCGCCGCCTGCTGCTGCACATCACCGACGTGATGCACGGCGGCGACGAACTGCCCGCCGTCCACGAGGACGCCAGCCTCAGCGAGGCGCTGGTGGAAATGAGCCGCAAGCGCCTGGGCATGACCGCCATCGTCGACGATGCCGGCCAGCTGCGCGGGTTGTTCACCGACGGCGACCTGCGCCGCGCGCTGGACAGCGACATCGACGTGCGCAACGCCCGCATCGCCCAGGTGATGACCCGCAACCCCAAGACCATCGGCGCCGACCAGCTGGCCGCCGAGGCCGCGCGGCTGATGGAGGCCTACAAGATCAACGGCCTGATCGTCGTCGACGAGGCCCAGCGCGCGGTCGGCGCACTGAACATTCACGACCTATTGCGTGCCAAGGTGGTCTAA	MAVSPLSLDAVDDAGLVASAQRVLEIEQGALATVGARIGDAFVAACRLVLGSRGRVVATGMGKSGHVARKIAATLASTGTPAFFVHPGEAGHGDLGMITDADVVLALSYSGESDEIRMLLPVLKRQGNPIIAMTGRPQSTLAQAADVHLDVSVPVEACPLDLAPTSSTTASLAMGDALAVALLDARGFTADDFARSHPAGSLGRRLLLHITDVMHGGDELPAVHEDASLSEALVEMSRKRLGMTAIVDDAGQLRGLFTDGDLRRALDSDIDVRNARIAQVMTRNPKTIGADQLAAEAARLMEAYKINGLIVVDEAQRAVGALNIHDLLRAKVV	PGPT0023075_611	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-8-AMINO-3|8-DIDEOXY_D_MANNO-OCTULOSONIC_ACID_MODIFICATION,PGPT0023075-kdsD|kpsF-K06041	NA	NA
BMS020_04140	549	kdsC_2	COG1778	3-deoxy-D-manno-octulosonate 8-phosphate phosphatase KdsC	ATGCCGTATTCGCCCCTGCACGCCCTTGCCGACGACCTCGTTGCCCGCGCCACGCGCATCCGCCTGGCCTGCTTCGACGTGGACGGCACCCTGACCGACGGGCGGCTGTACTACGATCACCTCGGCAACGAGAGCAAGGCCTACAGCGTGCTCGACGGCCAGGGCCTGAAGCAGCTGGAGGCGCACGGCATCCGCGTCGCGCTGATCACCGCGCGCCCCAGCCTGTCGGCGCGCAAGCGCGGCGAGGACCTCGGCCTGCACGTGCAGATCGGGGTCAAGAACAAGCGCGTGGCGGTGCAGACGCTGTGCCAGGAGCACGGCATCGCGCTGGACGAGGTGCTGTTCATGGGCGACGACCTGCCCGACCTGCCGGCGCTGCTGGCGGTCGGCCTGGCGGTGGCGCCGGCCAACGCGCACCCGTGGATCGCCGAGCGCGCGCACTGGATCACCCAGGCACGCGGCGGCGAAGGCGCGGCGCGCGAGGTCTGCGACGCGCTGCTGGCCGCGCAGGGCAAGGTCGAGGCCTTGATCGCGGGGTTCTCGCCATGA	MPYSPLHALADDLVARATRIRLACFDVDGTLTDGRLYYDHLGNESKAYSVLDGQGLKQLEAHGIRVALITARPSLSARKRGEDLGLHVQIGVKNKRVAVQTLCQEHGIALDEVLFMGDDLPDLPALLAVGLAVAPANAHPWIAERAHWITQARGGEGAAREVCDALLAAQGKVEALIAGFSP	PGPT0023070_832	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-8-AMINO-3|8-DIDEOXY_D_MANNO-OCTULOSONIC_ACID_MODIFICATION,PGPT0023070-kdsC-K03270	NA	NA
BMS020_04141	570	lptC_2		Lipopolysaccharide export system protein LptC	ATGAGCTGGCGCAACATCCTCGGCGTCGCGCTGCTGGCCGGCGCGATCATCAGCGGCTGGTCGGCCTGGCGCCTGCGCGAGCAGCCCGCGGCCCAGGCCAGCCAGGAAAGCGGCTCGGACTACGTGCTGCACGATTTCGAGCTGGTCGCGCTGGACAAGGACACCGGCAAGGAATCGGCGACGCTGCGCGCGCCGGAGATGCACCGCAACCGCGCCGACCAGGTCTCGCTGATCACCACCCCGCTGTTCCTGCTGCCCGACGGCGCCGGCCTGCACTGGACGCTGCGCGCCGAGACCGGCTGGCTGAGCCCCAAGGGCGACGAGCTGCGCCTGCGCAGCAACGTCAACGGCGACAGCCCCACCGAAGGCGACGTGCCGCCAACCACGTTCCGCACCCAGAGCCTGGACGTGTTCCCGCGCCAGAGCCTGGCCCGCACCGCCGATCCCGTCACCATGACCCGGCCTGGCATCACCCAGCGCGGCGTCGGCATGGAAGTCGACATGAAGACCCGGCAGTACAAGCTCCTTTCACAGGTCAAGACCCGCTATGAACCCAATGCTGCCAAGTAA	MSWRNILGVALLAGAIISGWSAWRLREQPAAQASQESGSDYVLHDFELVALDKDTGKESATLRAPEMHRNRADQVSLITTPLFLLPDGAGLHWTLRAETGWLSPKGDELRLRSNVNGDSPTEGDVPPTTFRTQSLDVFPRQSLARTADPVTMTRPGITQRGVGMEVDMKTRQYKLLSQVKTRYEPNAAK	PGPT0023299_1154	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023299-lptC|yrbK-K11719	NA	NA
BMS020_04142	531	lptA_2	COG1934	Lipopolysaccharide export system protein LptA	ATGAACCCAATGCTGCCAAGTAAGCCCGCCCTGCTCGCCCTGCTGCTGGCGCTGGCGCCGGCATTCGCGCAGGCCAAGACCACCGACCGCGACCAGCCGATGACGATCGACTCGGCCACGCAGGAAGGCAACATGCTCGACGACAACGGCAAGGTCCGCTTCAGCGGCAACGTGGTCATCGTGCAGGGCTCGCTGGAAGTGCACGCCGACACCGCCGACGTGTTCCGCAAGAACGGCGAGGCCGACCGCGTCGTGCTCACCGGCAAGCAGGCCACGCTCAAGCAGCAGATGGACGACGGCACCTGGATGAACGGGCGCGCCGACAACATCGAGTACAAGATCGCCGACGACACCATCGTGCTGACCGGCAACTACCACATGGAATCGGCCAAGGGCAGCAACGCCGGCGAACGCATGGTCTACAACACCAAGAGCGGCAACATGCAGAGCGGCGGTGACGGCACCCGGGTGCGCACCGTGATCCAGCCCAAGAGCAAGACGCCGGCCGCGGCCGGCCAGGGGAAGAAGTGA	MNPMLPSKPALLALLLALAPAFAQAKTTDRDQPMTIDSATQEGNMLDDNGKVRFSGNVVIVQGSLEVHADTADVFRKNGEADRVVLTGKQATLKQQMDDGTWMNGRADNIEYKIADDTIVLTGNYHMESAKGSNAGERMVYNTKSGNMQSGGDGTRVRTVIQPKSKTPAAAGQGKK	PGPT0023301_1118	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023301-lptA|yhbN-K09774	NA	NA
BMS020_04143	720	lptB_4	COG1137	Lipopolysaccharide export system ATP-binding protein LptB	ATGCTGGTCGCCGCAGGCCTGCGCAAGCGTTACAAGCAGCGCGAAGTGGTGCGCGAGTTCGGCCTGACCCTGGAGGCCGGCGAGGTGGTCGGCCTGCTCGGCCCGAACGGCGCCGGCAAGACCACCTGCTTCTACATGATCGTCGGCCTGGTCGAAGCCGATGCCGGCCGCATCGAGCTGGACGGCCGCGACATCACCGGCGACCCGATGTACACCCGCGCCAAGCTCGGCGTCGGCTACCTGCCGCAGGAGCCGTCGGTGTTCCGCAAGCTCAGCGTCGCCGACAACATCCGCCTGGTGCTGGAGCTGCGCGAGGACCTCAACGGCGCCGGCCGCGAGAAGGAGCTGTCCTCGCTGCTGGACGAGCTGCAGATCGGCCATGTCGCCGAGCAGCTCGGCGCCAGTTTGTCCGGCGGCGAGCGCCGCCGCGTCGAGATCGCCCGCGCGCTGGCCGCGCGGCCGCGGCTGATGCTGCTGGACGAGCCGTTCGCCGGCGTCGACCCGATCTCGGTCGGCGAGATCCAGCGCATCGTCACCCACCTCAAGGACCGCGGCATCGGCGTGTTGATCACCGACCACAACGTCCGCGAGACCTTGGGGATCTGCGACCGCGCGTATATCCTCGCCGAGGGCGGTGTGCTGGCGCAGGGGGCGCCGGACGCCATTCTCGCCAATCCTGACGTGCGTCGCGTCTACCTCGGGGACACGTTCCGCCTCTGA	MLVAAGLRKRYKQREVVREFGLTLEAGEVVGLLGPNGAGKTTCFYMIVGLVEADAGRIELDGRDITGDPMYTRAKLGVGYLPQEPSVFRKLSVADNIRLVLELREDLNGAGREKELSSLLDELQIGHVAEQLGASLSGGERRRVEIARALAARPRLMLLDEPFAGVDPISVGEIQRIVTHLKDRGIGVLITDHNVRETLGICDRAYILAEGGVLAQGAPDAILANPDVRRVYLGDTFRL	PGPT0023300_2718	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023300-lptB-K06861	NA	NA
BMS020_04144	1401	rpoN_2	COG1508	RNA polymerase sigma-54 factor	ATGAAAGCCCGGCTGCAGACATCGATGGGGCAACACCTGGTCATGACGCCACAGCTGCGTCAGGCGATCCGGTTGCTGCAGATGTCCACCGCCGAGCTGGAACTGGAGATCGCCGAGGCGGTCGAGACCAATCCGCTGCTGGAATGGGTCGAGGACGCCGCCCCGGCGCAGGACGAGGCCGCCAGCGATGGCGGACCGGCCGACTCGGCGCCCGAGGGCGGCGACGACGAATGGATGCCCGACGACGGCGCCTGGAGCGGCAGTTCCGGCGGCGGCGACGAACAGGACAACCCCGCCGAGCGCATCGCCGAGGCCGAGACCCTGGCCGACCACCTGCTGTGGCAGCTGCACCTGTCGCACCTGTCGCCGCGCGACCGCCGCATCGGCGCGGCGCTGATCGACGCGCTCAACGACGACGGCTACCTGCGCGAGCCGCTCACCGCGATCATCGAAACCCTGGGCACCGAAACCCCGGTCGACGAGGCCGAGGTGCTGGCGGTGCTGCACCAGGTGCAGCGCTTCGACCCGGCCGGCGTCGCCGCGCGCACGCTCGGCGAATGCCTGGCGCTGCAGCTGGAGCTGCTGCCCGCCGATACCCCCGGCCGGGCGCTGGCGCTGCGCATCGTCGCCGGCCCGCTGGAACGGCTGCCGCGCAGCGGCGTGGCCGGTCTGGCCCAGGAACTGCGTCTTCCCGTGGTCGAGGTGGACGAGGCGGTGCAGCTGGTGCGCTCGCTCGACCCGCGCCCGGGCACCCAGATCGGCGAACTGTCCTCGGACACCTACGTGGTGCCCGACTGCGTGGTCTGGCGCCAGCGCGGCGTCTGGCGTGCGGCGCTGGCCGGGCGCTCGCAGCCCAAGGTGGCGATCCACCGCGGCTACGAGCAGCTGATCCGCCGCTGCGGCGAAGCCGACGCCGGCTACCTGCGCACCCAGCTGCAGGAGGCGCGCTGGCTGCTCAAGGGCCTGGAGGCGCGCGGCGAGACCCTGCTCAAGGTGATGCGCTGCCTGCTGCAGCAGCAGGCCGGCTTCCTGGAATTCGGCGAACAGGCGCTGCGGCCGCTGACTCTGCGCGAGATCGCCGGCGAGCTGGGCCTGCACGAATCGACCATTTCCCGCGCGATCGCCCGCAAGTACGTGCGCACCCCGCGCGGCACCATCGCGCTGCGCGCGTTCTTCGCCTCCGGCATCGACACCGACGGCGGCGGCGAGGCCTCCAGCACCGCCATTCAGGCGATGATCCGGCGCCTGATCGAGGCCGAGAACCCGCGCAAGCCGCTGTCCGACGCCAAGCTGGCCGACCTGCTCAAAAGCTCCGGCGTGCCAGTGGCGCGGCGCACCGTGGCGAAGTATCGTGAGGCCATGAACATTTCCGCCTCCCACGAGCGCGTACGCATCGCCTGA	MKARLQTSMGQHLVMTPQLRQAIRLLQMSTAELELEIAEAVETNPLLEWVEDAAPAQDEAASDGGPADSAPEGGDDEWMPDDGAWSGSSGGGDEQDNPAERIAEAETLADHLLWQLHLSHLSPRDRRIGAALIDALNDDGYLREPLTAIIETLGTETPVDEAEVLAVLHQVQRFDPAGVAARTLGECLALQLELLPADTPGRALALRIVAGPLERLPRSGVAGLAQELRLPVVEVDEAVQLVRSLDPRPGTQIGELSSDTYVVPDCVVWRQRGVWRAALAGRSQPKVAIHRGYEQLIRRCGEADAGYLRTQLQEARWLLKGLEARGETLLKVMRCLLQQQAGFLEFGEQALRPLTLREIAGELGLHESTISRAIARKYVRTPRGTIALRAFFASGIDTDGGGEASSTAIQAMIRRLIEAENPRKPLSDAKLADLLKSSGVPVARRTVAKYREAMNISASHERVRIA	PGPT0000795_1788	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000795-ntrA|rpoN-K03092	NA	NA
BMS020_04145	318	hpf_2	COG1544	Ribosome hibernation promoting factor	ATGCGCATCGAGACGTATGGCCAGCAGATCGAAGTCACTCCCGCGCTGCGGGAATACGTGGAATCCAAGCTGCAGCGGCTGCAACGGCATTTCGACCAGCACTGCGAAGTCCGCACCCAGTTGTCGCTGCAGAAGCCGGATCACCACGTTGTCGCGACCGTCAACCTCCCCGGCCGCACGCTCCACGCCGACGCCAGCGCACCGACCATGTACGCGGCGATCGACCTGCTCGCCGACAAGCTCGACCGTCTGGTGCTCAAGCACAAGGAAAAGAAACAGGACCACCACGCACGCGAGGTGCGCGACAATCAGGCCTGA	MRIETYGQQIEVTPALREYVESKLQRLQRHFDQHCEVRTQLSLQKPDHHVVATVNLPGRTLHADASAPTMYAAIDLLADKLDRLVLKHKEKKQDHHAREVRDNQA				NA	NA	NA	NA	NA
BMS020_04146	459			hypothetical protein	ATGTCCTTGACCGATCTGATGGCGGCCGTGCGCACCGAGGTGTCGCCGGCCGCCGACCGCGACAGCGCCCTGCGCGCCGCCGCCGACCTGCTCGCCTGCCGCCAGGCAGGCGCCGACGAACTCTTCGTCAGCCTGCGCGAACGCGAAACGCTGTGCAGCACCGCGATCGGCCACGGCATCGCGATCCCGCACGGCCGCTGCGCCGCGCTCGGCGAACCCCGCGGCGCGCTGCTGCGGCTGCAGACCCCGATCGATTTCGGCGGCGATGCGCCGGTGGACCTGCTGTTCGCGATGGCCGTGCCCGGCCACTACACCCAGGAACACCTGCTGCTGCTGTCCGAGCTGGCCGAACATTTTTCCGATCCGGCATTCCGGCAGGCGCTGCGCGAGGCGAGCGACGCCGATGCGCTGCTGCAGCTGCTCTCCACCCATTCTGCCCAGCAGGCCGACGCCGCATGA	MSLTDLMAAVRTEVSPAADRDSALRAAADLLACRQAGADELFVSLRERETLCSTAIGHGIAIPHGRCAALGEPRGALLRLQTPIDFGGDAPVDLLFAMAVPGHYTQEHLLLLSELAEHFSDPAFRQALREASDADALLQLLSTHSAQQADAA	PGPT0000135_1589	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-OTHER_NITROGEN_FIXATION_REGULATORS,PGPT0000135-ptsN-K02806	NA	NA
BMS020_04147	951	hprK		HPr kinase/phosphorylase	ATGAACACCAGCATCACCGCCAAGGAGCTGTTCGACCAGCAGCGCGACAAGCTCGGCCTGCGCTGGCTCGCCGGGCACAAGGGCGAGTTCCGCGAGATCGCCGCCGAAGCCACGCAGGCCCGGCGCCCGTCGCTGGCCGGCTACCTCAACGCGATCTACCCGAACAAGGTGCAGATCCTCGGCACCGAGGAGCTGACCTGGCTCGATTCGCTGGATGCACGCCAGCGCTGGGAAACCATCGAGAAGATCATCCAGGTGCAGCCGCTGGCGCTGGTGATCAGCAAGAACCAGACCTGCCCGGAAGACCTGCGCGCGGCCGCGGACGAATCCAACACCCCGCTGTGGATCTCGCCCAAGCGCGGCCACGAGCTGCTCAACCACCTGTCCTATCACCTGGCGCGCACGCTGGCGCCACGGGTCACGCTGCACGGCGTGTTCATGGAGATCTATTCGATCGGCGTGCTGATCACCGGTGAGGCCGGCTCGGGCAAGAGCGAGCTGGCGCTGGAACTGCTCAGCCGCGGTCATCGGCTTGTCGCCGACGATGCGCCAGAATTCACCCAGATCGCCCCCGACGTGCTCGACGGCACCTGCCCGGAGCTGCTGCAGGACCTGCTGGAAGTGCGCGGGCTGGGCGTGCTGAACGTACGCGACATGTTCGGCGACACCTCGGTGAAGAAGAACAAGTACCTGCGCCTGATCGTGCACCTGACCAAACCGATGAGCGAACCCAACGCCTATGGCTACGAGCGGCTGACCGGCGATTCCGGCACCCGCCACGTGCTTGACCTGGACGTGCCGTTGATCACCCTGCCGGTGATGCCCGGCCGCAACCTGGCGGTGCTGACCGAAGCGGCCACGCGCCTGCACATCCTGCGCACCAAGGGCATCGACCCGGCGGCGATGTTCATCGCCCGCCACAGCAACATGCTGGAGCGCCGCCACCCATGA	MNTSITAKELFDQQRDKLGLRWLAGHKGEFREIAAEATQARRPSLAGYLNAIYPNKVQILGTEELTWLDSLDARQRWETIEKIIQVQPLALVISKNQTCPEDLRAAADESNTPLWISPKRGHELLNHLSYHLARTLAPRVTLHGVFMEIYSIGVLITGEAGSGKSELALELLSRGHRLVADDAPEFTQIAPDVLDGTCPELLQDLLEVRGLGVLNVRDMFGDTSVKKNKYLRLIVHLTKPMSEPNAYGYERLTGDSGTRHVLDLDVPLITLPVMPGRNLAVLTEAATRLHILRTKGIDPAAMFIARHSNMLERRHP				NA	NA	NA	NA	NA
BMS020_04148	873	rapZ_2	COG1660	RNase adapter protein RapZ	ATGAGCGCGCCCGGCCACAGCCTGGTGATCGTCAGCGGCCTGTCCGGTTCGGGCAAGTCGGTGGCGCTGAAGACCTTCGAGGACCTGGACTACTACTGCTCGGACAATCTGCCGGTGGAGCTGCTGCCGGATTTCGTGCGCAGCCGCCTGGCCGGCGATGCGATCGGCGAGCAGCGCCTGGCGGTCGGCATCGACGTGCGCGGCCGCAGCGACCTGTCGCAGCTGGACCAGTGGCGCGAGCGCGCCCAGCAGTACGGCATCGAGGCCCGGCTGCTGTTCTTCGACGCCAGCGACGAGACCCTGCTCAAGCGCTACGCCGATACCCGCCGCCGCCACCCGCTCAGCCACCAGGGCCTGTCGCTGCCGGAAGCGATCGCGCGCGAGCGCGTGATGACCGAACCGCTGCGCCGCCAGGCCGACGTGGTCATCGACTCGACCACGCTCAACGTGCACCAGCTGCGCCGGCGGGTGATCACCGAGTTCGGGCTCAGCCACGACGACAAGCTGTCGCTGCTGTTCGAATCGTTCGCCTACAAGCGCGGGGTGCCGGCCGAAGCCGACTTCGTGTTCGACGCCCGCGTGCTGCCCAACCCGCATTGGGAGCCGGACCTGCGCCCGCTCACCGGCCGCGACGGCGGCGTACGCGACTACCTGGAGCGGCAACCGGAAGTGACCCGCTACCTGGCGCAGATCATCGACCTGCTCGACACCTGGCTGCCGCGCCTGCGCAACGACACCCGCAGCTACGTGACCATCGCCTTCGGCTGCACCGGCGGCAAGCACCGCTCGGTCTACCTGGCCGAACGCCTGGCCCGGCACGCGCGTGAACAGGGCTGGCCGGAGGTCGCCACCTTCCACCGCGAGCTGGACTGA	MSAPGHSLVIVSGLSGSGKSVALKTFEDLDYYCSDNLPVELLPDFVRSRLAGDAIGEQRLAVGIDVRGRSDLSQLDQWRERAQQYGIEARLLFFDASDETLLKRYADTRRRHPLSHQGLSLPEAIARERVMTEPLRRQADVVIDSTTLNVHQLRRRVITEFGLSHDDKLSLLFESFAYKRGVPAEADFVFDARVLPNPHWEPDLRPLTGRDGGVRDYLERQPEVTRYLAQIIDLLDTWLPRLRNDTRSYVTIAFGCTGGKHRSVYLAERLARHAREQGWPEVATFHRELD				NA	NA	NA	NA	NA
BMS020_04149	393			hypothetical protein	ATGGCCTGTGGCATTCTCCTCATCACTCATCCCGGCGTCGGCTCCGCGTTGTTGCACGTGGCCACCACTTTGCTGCGGCAATTGCCGCTGAAAACGGAGGCGTTCGAGGTTCCCTTCGATGCCGATCTGGACGCCCTGCTCCCGCAGGCGTCATCGGCACTGCGACGGGTAGATGGTGGCGACGGCGTCCTGGTCATGACCGACCTGTACGGCGCCAGCCCCAGCAACCTCGCCAAGCGCGTGACGCAACTGGGGACGCCGGTGCGGCGGGTGTCGGCGCTGAGCCTGCCGATGCTGCTGCGGGTCATGAACTACCCGGAACAGGGACTGCACGACCTGCCAGCCACGGCGGCGGCGGGCACCCGCAATGGAGCCATCATCGACGATGCTTGA	MACGILLITHPGVGSALLHVATTLLRQLPLKTEAFEVPFDADLDALLPQASSALRRVDGGDGVLVMTDLYGASPSNLAKRVTQLGTPVRRVSALSLPMLLRVMNYPEQGLHDLPATAAAGTRNGAIIDDA	PGPT0016995_1438	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNOSE_PTS_SYSTEM,PGPT0016995-manXa-K02793	NA	NA
BMS020_04150	270	ptsH_1	COG1925	Phosphocarrier protein HPr	ATGCTTGAACGCGAACTCATCGTATCCAACCGCCTCGGACTGCACGCCAGGGCCACCGCCAAGCTGGTGCAGACGCTGTCGGAGTTCCGCTGCGGCGCCACGCTCGCGGCCAAGGGACGCGAGGTCAACGCCAAGAGCATCATGGGCGTGATGCTGCTGGCCGCCGGCCAGGGCACACCGGTCAAGGTGCGCCTGGACGGCGAGGACGAAGACGCCGCGCTGGCGGCGCTGGTGGCGCTGTTCGAGCGCCGCTTCGACGAGGACAGCTGA	MLERELIVSNRLGLHARATAKLVQTLSEFRCGATLAAKGREVNAKSIMGVMLLAAGQGTPVKVRLDGEDEDAALAALVALFERRFDEDS	PGPT0016875_1634	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
BMS020_04151	1731	ptsI_1	COG1080	Phosphoenolpyruvate-protein phosphotransferase	TTGAGCCTGCGCCTGCGCGGCCATGGCGCCTCGCGCGGACACGCGCTCGGGCGCGCCCGCGTGCGCCTGCCGCATGCACTGGAAGTCGCCGAGCAGCGCGTCCCTGCCGAACGGGTCGAGGACGAGCTCAAGCGCCTGCACCATGCGGTCGACCAGGCCCGCGACGAGATGCACCGGCTGCGCGAGCGCCTGCACGGCGCGCTGGCCCGCGACGTCGGCGAATTCCTCGACCTGCACGCGCTGCTGCTGGACGATCCCGAGCTGCTGTACGGGCTGGACGAGCTGATCCGCAGCGGCCGCTACAGCGCCGACTACGCGCTGCGCCTGCAGCGCGACCGGCTGGCGGCGGTGTTCGACGGCATGGAGGACGCCTACCTCAAGAGCCGCATGGACGACCTGGACCATGTGATCGGCCGCATCCACGCGTTCCTGCAGAAGCGCCACCCCGAGGCGCTCAAGGGCGTGGCCGGCGAAGTGCTGGTCAGCGACAACGTCGCCCCGTCCGAACTGGCGCAGCTGCAGAGCCAGGGCGTGATCGCCATCGTCACCAGCGCCGGCAGCGCGCTCTCGCACAGCGCGATCCTGGCCCGCAGCCTGCACATGCCGCTGGTGGTCGGCGCCGCCGAGGCACTGCAGAAGATCAACGACGGCGACGTGCTGATCGTCGACGCGGTCACCGGCGAGGTGACCATCGAGCCCAGCGCCGACGACCTGCGCGACTACCGCGCGCGGCTGCGCGAGGCCGCGCGCGAGCGCAAGGAACTCGGCCGGCTGCGCTCCAAGCCCAGCCGGACCCGCGACGACGTCGACATCACCCTGCTCGCCAACGCCGAATCGGTCGAGGACATCGCCCGCGCGCACGCGCTCGGCGCCGGCGGCCTGGGCCTGTACCGGACCGAGTTCCTGTTCCTGCAGCGCAGCGAGCTGCCTGACGAGGACGAGCAGTTCCAGCATTACCGCGACGCGGTGCTGGGCATGAGCGGGCGTCCGGTGACGATCCGCACGCTCGACCTCGGCGCCGACAAGGCCGACCGCACCGGGCTGGTGCTCGGCGACGAGGACAACCCGGCACTGGGCCTGCGCGGCGTGCGCCTGATGCTGGCGCGGCCGGCGGTGGCACGCACCCAGCTGCGCGCGATCCTGCGCGCCTCCGGCTACGGCCCGGTGCGGATCCTGGTGCCGATGGTCAGCGGCCGCGAGGAGGTCGTGCAGTTGCGCCGGCAGATCAAGCGCCTGGCGCTGCAGCTGCGCGCCGAGGGCCACGAGGTCGCCGAGACGGTGCCGCTGGGCGCGATGATCGAGGTGCCGTCGGCGGCGCTGGCGCTGGAGACCTTCATCGACGAGGTCGACTTCCTCTCCATCGGTACCAACGACCTGGTGCAGTACCTGATGGCGGTGGACCGCAACAACGAGGCGCTCGGCGGGCTCTACTCGCCGCTGCATCCGGCGCTGCTGCGGCTGCTGTCGCAGGTGATCGCCACCGCGCGCGCCAATGCCACGCCGGTGGCGGTCTGCGGCGAGATCGCCGGCGACCCGCAGCTGGTGCCGATGCTGCTGGCGCTGGGACTGACCGAGTTCAGCCTGCACCCCGGCACCTTGCTGGAGGTCCGCCGCGCGATCCGCGCCTGCGAGCTGTCCGCGCTGCAGGCGCTGGCACCGAAACTGCTGCGCGCACGCGATCGCAAGAGCATCGAGAAGTGGCTGGCGCACGTCGCCGCCAGCATCGCCTGA	MSLRLRGHGASRGHALGRARVRLPHALEVAEQRVPAERVEDELKRLHHAVDQARDEMHRLRERLHGALARDVGEFLDLHALLLDDPELLYGLDELIRSGRYSADYALRLQRDRLAAVFDGMEDAYLKSRMDDLDHVIGRIHAFLQKRHPEALKGVAGEVLVSDNVAPSELAQLQSQGVIAIVTSAGSALSHSAILARSLHMPLVVGAAEALQKINDGDVLIVDAVTGEVTIEPSADDLRDYRARLREAARERKELGRLRSKPSRTRDDVDITLLANAESVEDIARAHALGAGGLGLYRTEFLFLQRSELPDEDEQFQHYRDAVLGMSGRPVTIRTLDLGADKADRTGLVLGDEDNPALGLRGVRLMLARPAVARTQLRAILRASGYGPVRILVPMVSGREEVVQLRRQIKRLALQLRAEGHEVAETVPLGAMIEVPSAALALETFIDEVDFLSIGTNDLVQYLMAVDRNNEALGGLYSPLHPALLRLLSQVIATARANATPVAVCGEIAGDPQLVPMLLALGLTEFSLHPGTLLEVRRAIRACELSALQALAPKLLRARDRKSIEKWLAHVAASIA	PGPT0002025_784	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
BMS020_04152	1362	mgtE	COG2239	Magnesium transporter MgtE	ATGGCCGAAGCCGTCCGCCACGACAAGACCGCGCGCCAGCTGCGCCTGCTGTCCGATGCACTGGACAGCGGCCGGCTTGGCCCGGTGCGGCGGCTGGTCAACACGCTGTCGCCGGCGGAGATCGGCAACCTGCTCGAATCGCTGCCACCGGGCAAGCGCGAGGTGGTGTGGGGCCTGGTTGATGCCGAGGACGACGGCGAGGTGCTGCTGCACGTCGGCGACGAGGTGCGCGAAAGCCTGATCGCCGACATGGACCCGGACGAAATCGTCGCCGCGGTCGAAGACCTCGACATCGACGATCTCGCCAACCTGGTCGAGGACCTGCCCGACACCGTCATCGACGAAGTGCTCAAGTCGATGGACCGCGAGAACCGCGAGCGGCTCGAACAGGTGCTGTCGTACCCGGAGGACACCGCCGGCCGCCTGATGAACCCGGACGTGGTCACCGTGCGCGCCGACGTCAACGTCGACGTGGTGCTGCGCTACCTGCGCCTGCGCGGCGAGCTGCCCGACCACACCGACCACCTGTTCGTGGTCAGCCGCCGCCACCAGTACCTGGGCCGGGTGCCGCTGGCGGCGCTGGTGACCCACGAGGACACCACGCCGATCAACCGGCTGATCGACGACGAGCAGCCGGCGATCGACGTCGGCGAGAGCGCGCAGGAAGTGGCGCGGCAGTTCTCCGACCACGACTGGATTTCCGCGCCGGTGGTCGACGACAACAACATCCTGCTCGGCCGCATCACCATCGACGACGTGGTCGACATCATCCGCGACCAGGCCGAGCACCAGGCGATGAGCGCCGCCGGCCTGGACGAGGACGAGGACATGTTCAGCCCGGCGCGGCGCGCGTTCCGGCGCCGGTTGCTGTGGCTGACGATCAACCTGGGCACGGCATTCATCGCCTCCAGCGTGGTCAGCGAGTTCGAAGGCACCATCGCCCAGCTGGTGGCGCTGGCCGCGCTGATGCCGATCGTCGCCGGCATGGGCGGCAACGCCGGCACCCAGGTGCTGGCGCTGATGGTGCGCGGCCTGGCGCTGGGCCAGATCGGCGCGTCCAACGTGATGACGCTGCTGAAGAAGGAGCTGACCGTGGCGCTGATCAACGGCGTCTGCCTCGGCCTCGGCCTCGGCCTGATCGTGCTGGCCTGGTTCCGCCAGCCGATGCTGTCGGTGGTGATCGGCAGCGCGCTGACCATCAACCTGTGCACCGCCGCGTTCGGCGGGGTGCTGGTGCCGGTCACGCTGAAGCGGCTCGGCTTCGACCCGGCGCTGGCCGGCGGGGTGATCCTGACCACGCTGACCGACGTGATGGGCTTCCTCAGCTTCCTCGGCCTGGCCACGCTGATCCTGCTGCACTGA	MAEAVRHDKTARQLRLLSDALDSGRLGPVRRLVNTLSPAEIGNLLESLPPGKREVVWGLVDAEDDGEVLLHVGDEVRESLIADMDPDEIVAAVEDLDIDDLANLVEDLPDTVIDEVLKSMDRENRERLEQVLSYPEDTAGRLMNPDVVTVRADVNVDVVLRYLRLRGELPDHTDHLFVVSRRHQYLGRVPLAALVTHEDTTPINRLIDDEQPAIDVGESAQEVARQFSDHDWISAPVVDDNNILLGRITIDDVVDIIRDQAEHQAMSAAGLDEDEDMFSPARRAFRRRLLWLTINLGTAFIASSVVSEFEGTIAQLVALAALMPIVAGMGGNAGTQVLALMVRGLALGQIGASNVMTLLKKELTVALINGVCLGLGLGLIVLAWFRQPMLSVVIGSALTINLCTAAFGGVLVPVTLKRLGFDPALAGGVILTTLTDVMGFLSFLGLATLILLH	PGPT0013995_2284	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0013995-mgtE-K06213	NA	NA
BMS020_04153	630			hypothetical protein	ATGAACGCAGGCGGCGAGCTGGGCAAGGTGGTCGAATGGAACGACGCGCGCGGCTATGGCTTCGTGCAGCCGCTCGACGACGGTCCCAGGCGGTTCTTCCATATCCGCGACTACCGCCAGGACGGACGCCGGCCGGAGCTCGGCGAACTGGTGCGTTTCACCGCCAGCCAGGGCGCCGACGCGCGCCCGGCGGCACGCGCGTTGTCCCGCGCCGTATCCAGCACACGCACCAAGACCGCCAAACCCGCACAGGCCCGCGCGCCGCGCCAGGGTTGGAGCATCGTCTGGATCGCCCTGGCGCTGCACGCACTGCTGCTGGGCCTGCTCTGGCACGCCGGGCGCCTGCCGCTGCTGGGGATCGGCGCATCCGCCGGCCTGTCGCTGGCGGCGTTGCTGGCCTACGCCAACGACAAGCGCGCGGCCCAGGCCGGGCAACGGCGCACGCCCGAGACCAGCCTGCACCTGCTGGAACTGCTTGGCGGCTGGCCGGGAGCGCTGCTGGCCCAGCGCTGGCTGCGCCACAAGAACCGCAAGCGCAGCTACCAGGTGGTGTTCTGGGCCTGCGTGCTGCTGCATGAAGGCGCCCTGTTGACTTGGGCCCGGCTGGCCCAGGGCGCCAACGCGCTCTGA	MNAGGELGKVVEWNDARGYGFVQPLDDGPRRFFHIRDYRQDGRRPELGELVRFTASQGADARPAARALSRAVSSTRTKTAKPAQARAPRQGWSIVWIALALHALLLGLLWHAGRLPLLGIGASAGLSLAALLAYANDKRAAQAGQRRTPETSLHLLELLGGWPGALLAQRWLRHKNRKRSYQVVFWACVLLHEGALLTWARLAQGANAL				NA	NA	NA	NA	NA
BMS020_04154	828			hypothetical protein	ATGCTCCGTCGTTTCGGCTGGCCGCTGGCCGCCCTGTTCGTCGCCCTCCTGCCCGCCGGATGCGCCACCGTCATGCCCGACACGCCCACGCCCGATCCGCATGGCCACTTCGTCGCCCGCGAGCTGGCGTTCGAAGGCCGCCACTACCGCTACCAGGTGTTCGTGCCCGCCGCGGGTGCCGCGCAACCGCGGCCGATCGTGCTGTTCCTGCATGGCTCCGGCGAACGCGGCCGCGACGGCCGCGAACAGACCGAGGCCGGACTCGGCCCCTACCTGCGCGCGCATGCCGACCAGTTCCCGGCACTGGTGGTGTTCCCGCAGGCGCCCGACGACGAACAGTGGATGGGCCGCAACGCGCGCCTGGCGCTGGCCACGCTGGACGCGGCCAGCGCCGAGTTCGGCGCCGACCCCGCCCGCACCTACCTGACCGGCATGTCGATGGGCGGCTACGGCACCTGGGAAACCGCACTGCTTGCACCGCGCCGCTTCGCCGCGCTGGTGCCGGTCTGCGGCGCGATCCGGCAACTGGACGACGACGACGAGGTGATCTACGTCAGCCAGCTGCACGCCGCCGCCGATCCCTTCGCCACCCTGCTCGCGGCCTTGCCGCAGGTGCCGGTGTGGATGTTCCATGGCGCCCGCGACGACGTGGTGCCGCCGGACGACGACCGCCTGCTCTACCGCGCCGGACTCGCCGCCAACGCCCACATCCGCTACAGCGAATATCCGCACGGCAACCACAACGTCTGGGACGCCACCTACGCCGATCCGGCGCTGTGGCGCTGGCTGTTCGCCCAGCACCTGCCGCCCCCGCCCACCACGCATTGA	MLRRFGWPLAALFVALLPAGCATVMPDTPTPDPHGHFVARELAFEGRHYRYQVFVPAAGAAQPRPIVLFLHGSGERGRDGREQTEAGLGPYLRAHADQFPALVVFPQAPDDEQWMGRNARLALATLDAASAEFGADPARTYLTGMSMGGYGTWETALLAPRRFAALVPVCGAIRQLDDDDEVIYVSQLHAAADPFATLLAALPQVPVWMFHGARDDVVPPDDDRLLYRAGLAANAHIRYSEYPHGNHNVWDATYADPALWRWLFAQHLPPPPTTH				NA	NA	NA	NA	NA
BMS020_04155	714			hypothetical protein	ATGCGTACGATCACCATGCTCGGCCTTGCCCTGGCCTGCCTGTCCGCATCGGCGGCGGATGCCCAGCAACTGCACCAGACCGAATTCGAACGTCCCGGCGACCATGCCGGGCTCGGCAGCCAGCACCGCGCAACCGTGGCCGCGGCCACCCGCCAGATCAGGCAGGGCGAGCTCGATGCCGGACGCACGGCGCTGGAGCCGGTGCTGGCGTACTGCGACGCCCAGCGCGCGCGTCCCAACCTGCGCTTCGTCGCGGTCTCCACGCCGGCGCAGTACCAGCGCTTCCTCGACACGCGCGACGATGCCACACCAGTGGAATGGCTCGACATGGCCTGCGCCGAGGCCTACTACTACAGCGGCTACGCCGAGGTCGCGCAGCAGCGCTTCGCCCAGGCCCTGCCCCACCTCGAAACCGCCGCGGCGCTGGCGCCCTATTTCGCCGATGCGCTGACCGAACGCGGCGCCGCGCTCAACCAGCTCGGCCGCTGCGACGAGGCGCTGGCCAGCTACCGCCAGGCGATCGCGCTCGGCGAGGCCGACCCGCATGCCGCCTACGCGCTGCCGCTGGCCTGGCGCGGCGCCGGTTACGCGCTGGTGGAGCTACGCCAGTGGGAGCAGGCACGCGCGGCCTACCAGCGCTCGCTGGACCTGGAGCCTGGCAACCAGCTCGCCACCGACGAGCTGGCCTTCATCGAACGCAACGCGCCGAAGTGA	MRTITMLGLALACLSASAADAQQLHQTEFERPGDHAGLGSQHRATVAAATRQIRQGELDAGRTALEPVLAYCDAQRARPNLRFVAVSTPAQYQRFLDTRDDATPVEWLDMACAEAYYYSGYAEVAQQRFAQALPHLETAAALAPYFADALTERGAALNQLGRCDEALASYRQAIALGEADPHAAYALPLAWRGAGYALVELRQWEQARAAYQRSLDLEPGNQLATDELAFIERNAPK				NA	NA	NA	NA	NA
BMS020_04156	1380	gabP_2	COG1113	GABA permease	ATGCCGACCCCGATCGATTCCGCCGCTCCGCGTCCTGCCACCGCGCCGCTGGGCCACGCGCTCAAACCGCGCCAGCTGATCATGATGGGGTTGGGCAGCGCGATCGGCGCCGGGCTGTTCCTCGGCTCCGGTGTCGGCGTGCAGGCGGCCGGGCCGGCGGTGCTGATCTCCTATCTGGTCGCCGGCGCGCTGGTGATCATCGTGATGAACGCGCTCGGCGAGATGGCTGCGGCCAAGCCGACCAGCGGCGCGTTCTCGGTCTATGCCGCCGATGCGATGGGCGCCACTGCCGGCGCCACGGTCGGCTGGCTGTGGTGGTTGCAGCTGGTGATCGTGATCGCCGCTGAAGCGGTCGGCGCCGCGGGACTGCTGGCGACGGTGTTCCCTGAACTGTCGCCGCCGGCGATGGCGCTGCTGTTCATGGCCGCGTTCACCGCGATCAACCTGCTCGGCGTGCGCAACTTCGGCGAGTTCGAATTCTGGTTCGCGATCCTCAAGGTGGTGGCGATCCTGGGTTTCATTCTGGTCGGCATCGCGCTGCTGGCCGGCTGGCTGCCGGGCGTCGCGTCGCCGGGGCTGTCCAACGTCACCGGCAACGGCGGGTTCGCACCGAAGGGCCTGGCCGGGATCGGCGCGGCGCTGCTGGTGGTGGTGTTCGCGTTCGGTGGCACCGAGATCGTGGCGGTGGCCGCGGCCGAGACCGACGATCCCTCGCGCAGCCTGGCACGCGCGATCCGCACCGTGGCCTGGCGCATCCTGGTGTTCTACATCGGCTCGCTCAGCGTGATCATCGCGGTGGTGCCGTGGCAGAGCGAGGCGCTGAAGTCGCCGTTCGCGGCGGTGCTGCAGGTCGCCAACATTCCCGGCGCGGCCGCGGCGATCACCCTGATCGCGGTGATCGCGCTGCTGTCGGCGCTCAACGCCAACCTCTACGGCGCCTCGCGGATGATCTTCTCGCTGGCGCAGCGGCACGAGGCGCCGCGCGCGCTCGGGCGGGCCAACGCCCGCGGCGTCCCGGTGCTGGCGGTGCTGGCCAGCGTCTTGTTCGGCTTCGTCGCGGCGGTGCTGGAACTGGTCTATCCGGGCAAGGTGCTGGACGTGCTGCTCAACATCGTCGGTGCCACCTGCCTGCTGGTGTGGACGATCTCGCTGCTGTCGCAGCTGATCCTGCGCCGCCGCGCGGACCGCGCCGGAACGCCGCTGCCGTTCCGCATGCGCGGTTTCCCGGTGCTGACCGTGCTTGGCCTGGTGGTGCTGGCGGTGATCTTCGTGCTGCTGGTGGCGACGCCGGCCACGCGCATGCAGTTCGTGTCGATGGCGCTGCTGACCGCGGCGATCGCCGTGGTCAGCGAGCTGGCGCGGCGGCTGCGCCGGCGCTGA	MPTPIDSAAPRPATAPLGHALKPRQLIMMGLGSAIGAGLFLGSGVGVQAAGPAVLISYLVAGALVIIVMNALGEMAAAKPTSGAFSVYAADAMGATAGATVGWLWWLQLVIVIAAEAVGAAGLLATVFPELSPPAMALLFMAAFTAINLLGVRNFGEFEFWFAILKVVAILGFILVGIALLAGWLPGVASPGLSNVTGNGGFAPKGLAGIGAALLVVVFAFGGTEIVAVAAAETDDPSRSLARAIRTVAWRILVFYIGSLSVIIAVVPWQSEALKSPFAAVLQVANIPGAAAAITLIAVIALLSALNANLYGASRMIFSLAQRHEAPRALGRANARGVPVLAVLASVLFGFVAAVLELVYPGKVLDVLLNIVGATCLLVWTISLLSQLILRRRADRAGTPLPFRMRGFPVLTVLGLVVLAVIFVLLVATPATRMQFVSMALLTAAIAVVSELARRLRRR	PGPT0000815_1785	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
BMS020_04157	411			hypothetical protein	ATGGGCAGGGCCGGATGGTTGGCGACCGGGGTGGTGTTCGTGCTGGTCGGGCTGGTGATCTGCGCGTTCGCGCTGTGGCAGGGCGTGGAACGGCATGCATTCGTGCAGCAGGCGCAGCGGGCGCCCGGCGAAGTGCTGGCCTTGAACGCTGGTCCATTCCATCCCGAGGTCGCCTTCCGCACCGCCCGCGGCACCCGCATCCGCTATGCGCAGGGTGGGTTCATCCTGCCGCACCATGTCGGCCAGCAGGTGCAGGTGCGTTATCTCGCCGATGCGCCACGGCTGTCGCCGGTACTGGACAGCTGGGGCGCGCTGTGGGGGGAAGTCGCCTTCGCGGCGCTGCTCGGCGCGGTGTTCGTCCTGGTCGGTGGCCGCCGCGTGCGGCGGGCGTTGCGCGCGCCAACCGGCTGA	MGRAGWLATGVVFVLVGLVICAFALWQGVERHAFVQQAQRAPGEVLALNAGPFHPEVAFRTARGTRIRYAQGGFILPHHVGQQVQVRYLADAPRLSPVLDSWGALWGEVAFAALLGAVFVLVGGRRVRRALRAPTG				NA	NA	NA	NA	NA
BMS020_04158	1065			hypothetical protein	GTGAGCGCCAGCGCCAGCACCTTCGTGATCTGCACCCGGGCGATCGACCGCCGCGGCCGCTTCGGCACCGAGCCCGGCGCCACCACCTACCTGCGCGTGCCGCGCGGCCAGGGCCGCTACACCAGCAAGGACATCATCGCCTCGCCGACACGCTGGCGGCAGTTGGTGCGCGGCGCCGCCGACGGGGTCGAGGACGAGACCACCGCGCTGCGCGGCGACGTGCTGGTGTTCGTGCACGGCTACAACAACGACATCGCCACCGTGCTGTGGCGCACCGAGGCGCTGCAGCGCACGCTGGCGTTGCAGGGCTGGAAGGGCGTGGTGGTGGCGTTCGACTGGCCCAGCGACAACTCCACGTTGAACTATCTGGAGGACCGCACCGACGCGGCCTCGGTCGCCTACAACATGGTCCGCGACGGCATCGGCCTGCTGGTGCAGGCGCAGACCGACGACACCACGCCGTGCGACCTCAACATCCATCTGCTGGCGCATTCCACCGGCGCCTACGTGGTGATGGATGCGTTCTCGCAGGCGCAGAAGGTCGGCGGCCTGTACCGCAGCGACTGGAAGGTGGCCCAGGTCGCCTTCATCGGCGGCGACGTGTCCAGCAGCAGCCTGGCCGCGGACAGCGAATGGGCGCGCCCGCTGTACGACCGCTGCGTGCGCCTGACCAACTACGCCAACCGCTTCGACAACGTGCTCGGCGTCTCCAACGCCAAGCGCCTGGGCACGGCCCCGCGCGCCGGCCGGGTCGGGCTGCCGGCGCAGCCGCATCCGAAATCGGTCAACGTCGACTGCTCGGGCTATTTCAGCGGCAAGAATCCGGCCACCTCGGAGTTCCGCGGCACCTTCAACCACTCCTGGCACATCGGCGATGCGACCTTCGCACTGGATCTGGCGATGACGCTGGAAGGCGAGATCGACCGCCTGGCACTACCGACACGCGTGGCCGACGCGCACGGCATGGCGCTGCGCGAAGGCGCGCGGCCGACCTTCCAGCCGGGCTGGAACGCCGCCAGCCCGCGCGAGGCCGGGCGCCACCTGGCCGCCGCGGCGACGCGCTGA	MSASASTFVICTRAIDRRGRFGTEPGATTYLRVPRGQGRYTSKDIIASPTRWRQLVRGAADGVEDETTALRGDVLVFVHGYNNDIATVLWRTEALQRTLALQGWKGVVVAFDWPSDNSTLNYLEDRTDAASVAYNMVRDGIGLLVQAQTDDTTPCDLNIHLLAHSTGAYVVMDAFSQAQKVGGLYRSDWKVAQVAFIGGDVSSSSLAADSEWARPLYDRCVRLTNYANRFDNVLGVSNAKRLGTAPRAGRVGLPAQPHPKSVNVDCSGYFSGKNPATSEFRGTFNHSWHIGDATFALDLAMTLEGEIDRLALPTRVADAHGMALREGARPTFQPGWNAASPREAGRHLAAAATR				NA	NA	NA	NA	NA
BMS020_04159	1260	ydhP_5	COG2814	Inner membrane transport protein YdhP	ATGGCCGCTCCCGCCGGCATGCCTTCCTCGTTGCCCGACGCCCCGGGCCCCGCGCCGGTCTCGCGCCGCGACTACGTACTGATCCTGATCGCGCTGTCGATGGGCGGCTTCGCGATCGGCACCAGCGAATTCGCCTCGATGGGGCTGATGCCCGAGATGGTGCGCGGGTTGTCGATCAGCGAACAGCAGGTCGGCCACCTGATCAGCGCCTATGCGCTGGGCGTGGTGGTCGGTGCGCCGCTGCTGGCGGTGCTCGGCGCGCGCTTGGCGCGGCGGCCGCTGCTGCTGGCGCTGATGGCGTTCTATGCGGTCGGCAATCTGGCCAGCGCGCTGGCGCCGAGCTATCCGAGCATGCTGCTGGCACGCTTCGTCGCCGGGCTGCCGCATGGCGCCTATTTCGGCGTCGCCGCGCTGGTCGCCGCGGCGATCAGTCCGCCGCACCAACGTGGCACCGCGGTCGGCCGGGTGTTCCTGGGCCTGACCATCGCGATGCTGGTCGGCAACCCGCTGGCGACGTGGTTGGGGCAGTCGTTGAACTGGCGCCTGGCGTTCGCCTTCGTCGCGCTGGTGGCGCTGCTGACCGTGGCGCTGGTGGCCTGGTTCCTGCCGGCCGATCCGAACGAGCCGCGACAGCAGCCGCTGCGCGAGCTGCGCGCCTTCAACCGTGCGCCGGTGTGGTTGTCGCTGGCGCTGGGCGCGATCGGCTTCGCCGGCATGTTCTGCGTCTTCAGCTACCTGGCGCCGACGATGACCGAGATCGCCGGCATGTCCGAACACTGGATTCCGATCGGCTTGTCGGCGTTCGGCCTGGGCGGCTTCATCGGTGCGCAGCTGGGCGGGTGGCTGTTCGACCGGTTCCAGTTCAAGGCGGTGGCGATCACCCTGGCGTGGTCGGTGCTGGTGCTGCTGCTGTTCCCGCTGCTGGCGCATTCGCCGCTGACGATCCTGCCGGCCACCGTGCTGGTGGGCACGATGGTGGCGATGTCGCCGGCATTGCAGACCCACCTGATGGACGTGGCCGGCGAGGCGCAGACGCTGGCCGCGGCCTCGAACCATTCGGCGTTCAACATCGCCAACGCGCTTGGGCCGTGGCTGGGCGGCATGGCGGTCACCGCCGGACTGGGCTGGACCTCCACCGGCTACGTCGGCGCGGCTACGGCCGTGGTCGGCCTGGCGATCTGGTGGCTGGCCGCGCGCCAGGCGTCGGCCGGCAGCGCTGTGGCGATCGAAGGCGAGCAGCCGGCGCGCGACTGCGCCTGA	MAAPAGMPSSLPDAPGPAPVSRRDYVLILIALSMGGFAIGTSEFASMGLMPEMVRGLSISEQQVGHLISAYALGVVVGAPLLAVLGARLARRPLLLALMAFYAVGNLASALAPSYPSMLLARFVAGLPHGAYFGVAALVAAAISPPHQRGTAVGRVFLGLTIAMLVGNPLATWLGQSLNWRLAFAFVALVALLTVALVAWFLPADPNEPRQQPLRELRAFNRAPVWLSLALGAIGFAGMFCVFSYLAPTMTEIAGMSEHWIPIGLSAFGLGGFIGAQLGGWLFDRFQFKAVAITLAWSVLVLLLFPLLAHSPLTILPATVLVGTMVAMSPALQTHLMDVAGEAQTLAAASNHSAFNIANALGPWLGGMAVTAGLGWTSTGYVGAATAVVGLAIWWLAARQASAGSAVAIEGEQPARDCA	PGPT0028991_406	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
BMS020_04160	966			hypothetical protein	ATGCGCCACGTTCCCGTTTACGCCACCTGGCTGCTGGCCGCGCTGCTGGCGGTCGCCGCGCCGGCACTGCATGCCGCCGACCGGGCGTTTTCCAGCGACATCGACCGCTTCTGGCGCGCGTACGACCGCATCCGCGCCACGCCGGCCCGGGCCGAGCAACGCCACCTGCTGCTCGACGGCTTCATCCACCCCGGCAGCGATGGACTGAAGGCTTTCATGCAAGCCAAGGGCTACGACGCCGACTGTTACCTGGACGCGATCCGCGACTACCCGCGTTTCTGGGATTCGATCCGCCCGCATACCTTCGAGCTCAAGCGCCAGGGCCGCAGCGCCAGCGACGGCGTGGAACGGCTGCGCGCGCTGTATCCGCAACTGCGCCCGGCCAAGCTCTACTTCACCATCGGCTGCCTGCGCTCATCCGGCACCACCGTCGACGACAAGGTGCTGGTCGGCGCCGAACTCGCCGCCGGCGCGCCCGACGTCGACCTGTCCGAGCTGCCGCCCCGGCTGCGCGACGGCCTGCGCATCTACTTCGCCACCAGTCCCGCCACCCAGCTCGGCCTGCTGGACATGCACGAATACGTGCACACCCAGCAGCGTGGCCCCGGCACGACACTTCTGGCGCAGGCGCTGTACGAAGGCGCTGCCGACTTCGTCGCCGAGCGCGCCACCGGCCAGCGCCCGGCGCTGCCCTACGTCGCCTACGGCGATGCGCATGCGCAGGCGCTGCGCCGGGAACTGCTGGCCGACAAGGACAACCGGGACTGGAGCGGCTGGCTGTACAACGGGGCCGGCGGCCCGCATGGCGTCGGCGACCTGGGCTATGCGGTCGGCTACGCGATCGTCAGCGACTACTACGCCCGCGCCAGCGACAAGCAGGCGGCGCTGCGCAACATCATCGAGCTGGACTACCGCGACCCCGCCGTGGCCGAAGGCTTCGCGCGCACCGCCGGCGCGCTGCCCTGA	MRHVPVYATWLLAALLAVAAPALHAADRAFSSDIDRFWRAYDRIRATPARAEQRHLLLDGFIHPGSDGLKAFMQAKGYDADCYLDAIRDYPRFWDSIRPHTFELKRQGRSASDGVERLRALYPQLRPAKLYFTIGCLRSSGTTVDDKVLVGAELAAGAPDVDLSELPPRLRDGLRIYFATSPATQLGLLDMHEYVHTQQRGPGTTLLAQALYEGAADFVAERATGQRPALPYVAYGDAHAQALRRELLADKDNRDWSGWLYNGAGGPHGVGDLGYAVGYAIVSDYYARASDKQAALRNIIELDYRDPAVAEGFARTAGALP				NA	NA	NA	NA	NA
BMS020_04161	225			hypothetical protein	ATGAAGACGCTCGTCGCACTGCTGGCCTGGTGCATCCTGTTCGTCCTGTGCTGGCCACTGGCGCTGCTGGCACTGCTGGCGTGGCCGCTGTGCTGGCTGCTGGCCCTGCCGTTCCGGCTGGTGGGGATCACCTTCTCGGCGCTGTTCGCGCTGCTGCAGGCGGTCCTGATGCTGCCGGCACGCCTGCTCGGCTGGCGCCCGCGCCCGGCCTGCGCGGCCGGCTGA	MKTLVALLAWCILFVLCWPLALLALLAWPLCWLLALPFRLVGITFSALFALLQAVLMLPARLLGWRPRPACAAG				NA	NA	NA	NA	NA
BMS020_04162	261			hypothetical protein	GTGGACATGCGCACCCCCTGGCTGCTGGGCACGATGCTGGCGCTGGCCTGGTTCGTGCCGGGCGCGATCGCCCGGGTGCCGCCAGCGCCGCCCCCGGCGATGACCGTCACCGCGCCGGCCATCGCCGCCGACACCTGCGTACTCGGCCTCGCCCGCAATCGCTTTCCCGAGCTCCACCTGCACGCCGCCAGCGCCACGCTGGCGCGCGTGGTGGCCGGCGACCGCACGCTGCGCCTGCTGTGCATGCCAGCGCGGCACTGA	MDMRTPWLLGTMLALAWFVPGAIARVPPAPPPAMTVTAPAIAADTCVLGLARNRFPELHLHAASATLARVVAGDRTLRLLCMPARH				NA	NA	NA	NA	NA
BMS020_04163	660			hypothetical protein	ATGGGATTGAGCAACGGCTATGGCGTGCTGATCGGCGGCCGCCACGCGTACTACCGCGATCCGCCCGACAACTACGGCCGCTACTACCACGGCAACCTGGTGGTCTCCGCGCCGGCCGGGCTGTACCACTGCGCGATCGACGTGGACCCCAAGTCGATGCCGGATGGCATCCAGTGGCGGGTGGTGCGGATCCGCCGGGCACCGCTGGCCACGCTGTGCGCGCTGAGCGACGGCTGGCATCCGCTGGCGTCCACGCCCGGATCCGGCGCGCTCGACTACATCCGCGCCGCGGTGCTGCACCCGCCGCTGCTGGTATGGCCGATCCGCCGCGACGCCTGCCTGTCGCGCCTGCTGGCCTGGCTGCAATGGAACCCGCCCTGGCACAGCGGCACCGGCATCCAGGCGCTGACCGACCTGGAGCAGGTGATCGGCCAGGCGGTGCGCTGCTACGTCTTCGGCGAGCCGTTCAACACCGGCCTGGGCGTGCACAACATCCACCAGAACCAGGGCGACCCGGTCGGTGGCGGCCACGACGCGGAGAACGCGATCTGGCAGGACGGCGCCACCGTGGTGGAAACCGCCGACGGCGACCTGCTGGCCTTCCTCAACAAGTTCCGCACCCAGGCCTTCCGTACCGACGACAACGGCCGCCCCATCTGA	MGLSNGYGVLIGGRHAYYRDPPDNYGRYYHGNLVVSAPAGLYHCAIDVDPKSMPDGIQWRVVRIRRAPLATLCALSDGWHPLASTPGSGALDYIRAAVLHPPLLVWPIRRDACLSRLLAWLQWNPPWHSGTGIQALTDLEQVIGQAVRCYVFGEPFNTGLGVHNIHQNQGDPVGGGHDAENAIWQDGATVVETADGDLLAFLNKFRTQAFRTDDNGRPI				NA	NA	NA	NA	NA
BMS020_04164	171			hypothetical protein	ATGACGACCCTGCGCAGCACCCGGGCGATGCCGCCCGCACTGACCTACTCCCGTCCGCGCGAAGACAAGCGCGCCGCCCAACTGGAACTGCAGGCCCGGCTCGACGCCTTCCACCGCGCCGGCGGACGGATCGAACGCCTCGACCCGAACACCCCGCGCCGCAGCGACTGA	MTTLRSTRAMPPALTYSRPREDKRAAQLELQARLDAFHRAGGRIERLDPNTPRRSD				NA	NA	NA	NA	NA
BMS020_04165	954			hypothetical protein	ATGGCCAGCAGCGTCGTGCGTTCCGGCAATCCGTCCATCGTTGGATTCGATGTCCCCGGCAGCGTGGACGGCGACGCCCCGGTCATCCTCAGTGCGCTGCTCGATGCCGCCCCGGCCCGCAGCTGGGTCGAGGCCTTCCTGGTCGAAGCGGTCTGCCTGCGCGAGAAGCATGCGCTCGACGACGTGCGCGTGGTCGGGCGCAATCTGAACTTCGTCGGCCGCCTGCGCCACACCCGCCAGCTGGTGGCCGACGTGCGCTCGCTGGCGCACCGCGTCAACCGCCTGCTGCTGCACCAACGCGTGTTCGAGCCGCGGCGCGACGACGAGGACGACCTGCCACTGGACGCCGAGCGCCGCCGCGATCTGGAGCGGGTGCATGCGATCGCCGCCGTGCCCTCGCTGCTGGAAGCCACCAGCCTGGCCACCGGCATGCGCTTCGTCGCCGTGGCCCGGGTCACCGAACAGCGCTGGACCGCCTGCGCGGTCTACGACCTGATCGACTTCGGGCTCAAGCCCGGCCAGGATCTGGTCCTGGAAACCACGATCTGCAACGAGATCCGCCACCACCACCGCCCGGTGGTGTTCGACCAGGCCAGCACCGATCCGCACTTCAGCGTGCACCCGACCCCGGCGCTGTACGGCTTCGAGAGCTACGTCTCGCTGCCGGTCTTCCACCGCGACGGCAGCTTCTTCGGCACGCTGTGCGCGCTCGACCCGGAGCCGGCCCGGCTCGACGCCACCACCGTGCGCACGCTGCAGGCGTTCGCGCGGCTGATCGGCGACCAGCTCGACCCCGATGACGCCGGCACATCACCCCTGGCCGAACGGCTGCGCGCGATCCAGGCCCATGCCGCGCACCTGGATCCGCTGCAGCTGCCGGCCACGGCGCGCGACGCCGCGGACCGCATCCGCCAGCTCGCCGGACTGGGCAGCACCGCCACCGATCCGGCCTGA	MASSVVRSGNPSIVGFDVPGSVDGDAPVILSALLDAAPARSWVEAFLVEAVCLREKHALDDVRVVGRNLNFVGRLRHTRQLVADVRSLAHRVNRLLLHQRVFEPRRDDEDDLPLDAERRRDLERVHAIAAVPSLLEATSLATGMRFVAVARVTEQRWTACAVYDLIDFGLKPGQDLVLETTICNEIRHHHRPVVFDQASTDPHFSVHPTPALYGFESYVSLPVFHRDGSFFGTLCALDPEPARLDATTVRTLQAFARLIGDQLDPDDAGTSPLAERLRAIQAHAAHLDPLQLPATARDAADRIRQLAGLGSTATDPA				NA	NA	NA	NA	NA
BMS020_04166	2016			hypothetical protein	ATGATCCGATCGTTGCCGTGCGGCCTGGCCGCCGCGGTCCTGTTGTCCTGTTCCGCGCCGGCGCTTGCCGCCGAGGTCGCGGCCGCTCCCGCTGCTGGCGGGTTCGATCCGCTGGCGCTGTTCGCGCCGCTGCAGCTGCCCGATACGCCCAATGCCTATCGCAGCGGCGCTGGCGTGCCGGGGCCGCTGTTCTGGCAGAACCGCGCCGATTACGACCTGCACGCGACCATCGACCCGGTTGCGCGCACGCTGAGCGGCGAGGAGACGATCACCTACACCAACCACAGCCCGGACACGCTCGGCGTGCTGTGGTTGCAGCTGGACCAGAACATCTACCGCGCCGACGCACGCAGCCGCGACGTGCGCGCGCCGCGTCCGCCGCGGCCCGGGCAGGCGCCGCGGCCGTGGGCGCCGACCCCGACCAGCGACGGCGTCCGCATCGCCAGCGTCGAGGTCGAACAGGGCGGCAAGCGCCAGCCGGTGACGTTCCTGGTCGACGACACCCGCATGCGCGTGGACCTGCCGCAGCCGCTGGCCGGCAACGGCCAGGCGCTGAAGCTGCACATCACCTACGCCTATACCGTGCCGGGCAGCTGGGGCGGGCGCACCGCGATCACCCCGACCCGCAACGGCGACATCTACGAGATCGCGCAGTGGTACCCGCGCATGGCGGTGTACGACGACCTGCGCGGCTGGGATACCCAGCCCTACCTGGGCTCGGAGTTCTATCTCGAGTACGGCAGCTTCGACTACGCGGTCACGGTGCCGTGGAACTGGCTGGTCGCCGGCTCGGGCGAACTGGTCAATGCCCGGCAGGTGCTGACCAAGGCCCAGCAGCAGCGCCTGGAGCAGGCGCGCGGCAGCGAGGCGACGGTGATGATCCGCAGCCCGGCCGAGGTGCTCGACCCGGCCAGCCGGCCGACCACCAGCGGCACCCAGACCTGGCGCTTCCACATGGACCACACCCGCGACGTGGCCTTCGCCGCGTCGCCGGCCTTCGTCTGGGATGCGGCGAAGATCGACCTGCCCGGCGGCAAGCGTTCGCTGGCGATGTCGGTCTACCCGGTCGAGGGTGCCGACAACTGGACGCGCTCCACCGAGTACGTCAAGGGCGCGATCGAGCACTTCTCGCAGTGGTATCCGTATCCGTGGCCGGCGGCGGTGAACCTGGGCGGCCACGGGGCCGGCATGGAGTACCCGGGCATCGTCTTCGACGGGTACCAGGACACCGGCAAGGACCTGTTCTGGATCACCGCGCACGAGCTCGGCCACGGCTGGTTCCCGATGATCGTGGGTTCCAACGAGCGCCGCCACGCGTTCATGGACGAGGGCTTCAACACCTTCATCGACGTCTACGCCTCCGATGCGTTCAACAAGGGCGAATACGCGCCCAAGCGCGACTCGGAATATGCGCCGAAGGGCGGCAATCCGGTCGAGGAGATCCTGCCGCTGCTGGCCGATGCCGACGCGCCGACGTTGATGGACATCGCCGACGCCACCAGCGAGACGTACCGGCACCCGCTGACCTACTTCAAGGGCGCGCTCGGGCTGGTGCTGCTGCGCGAGCAGATCCTCGGGCCGGCGCGCTTCGATCCGGCGTTCCGCAAGTACATCGCCACCTGGGCGTTCAAGCATCCCACGCCGTCGGATTTCTTCCGGCTGATGGAAAGCGAATCCGGCGAGGACCTGTCGTGGTGGTGGCGCGGCTGGTACCTCAACAACTGGCAGCTGGACATGGGGGTGGCCGCGGCCGAGTACGTCGAGCACGACCCGGGCAAGGGGCTGCGGGTGACGCTGGAAAGCCGGCAGAAGCTGGTGATGCCGGCGACGCTGCGCATCGACCTGGCCGACGGCAGCCACCTCGACCGGCGCGTGCCGGTCGAGGCATGGCTGCAGCAGCGCGCGCCGGTGATCACCGTGCCGACCACGCAGAAGGTGCTGCACGTGGCGCTGGACCCGGACGCGAAGCTGCCGGACGCCGACCGCAGCAACAACGGCCGCGACGTCGCCGGCTGA	MIRSLPCGLAAAVLLSCSAPALAAEVAAAPAAGGFDPLALFAPLQLPDTPNAYRSGAGVPGPLFWQNRADYDLHATIDPVARTLSGEETITYTNHSPDTLGVLWLQLDQNIYRADARSRDVRAPRPPRPGQAPRPWAPTPTSDGVRIASVEVEQGGKRQPVTFLVDDTRMRVDLPQPLAGNGQALKLHITYAYTVPGSWGGRTAITPTRNGDIYEIAQWYPRMAVYDDLRGWDTQPYLGSEFYLEYGSFDYAVTVPWNWLVAGSGELVNARQVLTKAQQQRLEQARGSEATVMIRSPAEVLDPASRPTTSGTQTWRFHMDHTRDVAFAASPAFVWDAAKIDLPGGKRSLAMSVYPVEGADNWTRSTEYVKGAIEHFSQWYPYPWPAAVNLGGHGAGMEYPGIVFDGYQDTGKDLFWITAHELGHGWFPMIVGSNERRHAFMDEGFNTFIDVYASDAFNKGEYAPKRDSEYAPKGGNPVEEILPLLADADAPTLMDIADATSETYRHPLTYFKGALGLVLLREQILGPARFDPAFRKYIATWAFKHPTPSDFFRLMESESGEDLSWWWRGWYLNNWQLDMGVAAAEYVEHDPGKGLRVTLESRQKLVMPATLRIDLADGSHLDRRVPVEAWLQQRAPVITVPTTQKVLHVALDPDAKLPDADRSNNGRDVAG				NA	NA	NA	NA	NA
BMS020_04167	690			hypothetical protein	ATGCGCAATCTCGATTTCAGTTCCTGGAATTCCGTGCTGAGCACGCTGTTCGGGCTGGTGCTGGTATCGCTGGTGGCGGTCGGCATCCGCATGCTGGCGATGCAGACCGTGCAGCGCCGGCGCGAGCGCGAGAACCGCCAGATCAACGAGCGGCTCAAGACCCTGATCGCCGCCTACAAGACGCTGGGCGGCTCGTTCACCGGTGAGCTCGATGTCGATCCCAGCCATCGCCGCGAGCAGCGGCTGCGGGCGCAGCAGCACGGTGCCGATGGCGACGACGCAAACAGTTCCGCGCGGCGCCGGCGCATCCGTGATGCGGTCGAAGCGGCGCTGGCCGACGTGATCCTGCTCGGCACCGAGCCGCAGGTGGAACTGGCCGCGCGCGCGGCACGCGACATGGTCGCCGGTCGGCCGGTGCGGACCCGCGAGCTGGTGGTGTCGCTGCGCGCCTTCATCCGCCAGGCGCTCGACCTGGAGCCGATTCCGGCGGCGCTGGAGATTCCCGAGCAGGGCCCGCTGCGCGCCGCTGCCGGCGGCGGCAAGGGCGGCAGCGGCGGCGATGGGGGCAACAAGGCCGGCGGTGCGGGTGGCGGTGGCGCCGCGGCGGCTGGTGGTGCCGGGCTGGGCATGGGCGCCGGGCTCGGTGTCGGCCATGCCGACGGCGAGGACGCCGCCTCCGGTACCCGCTGA	MRNLDFSSWNSVLSTLFGLVLVSLVAVGIRMLAMQTVQRRRERENRQINERLKTLIAAYKTLGGSFTGELDVDPSHRREQRLRAQQHGADGDDANSSARRRRIRDAVEAALADVILLGTEPQVELAARAARDMVAGRPVRTRELVVSLRAFIRQALDLEPIPAALEIPEQGPLRAAAGGGKGGSGGDGGNKAGGAGGGGAAAAGGAGLGMGAGLGVGHADGEDAASGTR				NA	NA	NA	NA	NA
BMS020_04168	174			hypothetical protein	ATGTCCCTCATCGCACTTTTCACGTTCGTGTTGAGCTTGCTGCTGCTGGCGCATTCGCGCCAGGTCACGCGCAGGTTCAACGCGCTGCAGGACAGCGTGATCGCGTTGCAACGGCGGTTGGAAGCGGCCGAGTGCCAGTTGCTGGAGCAGGTCCGGGCTCGCGAGCGCAGGTGA	MSLIALFTFVLSLLLLAHSRQVTRRFNALQDSVIALQRRLEAAECQLLEQVRARERR				NA	NA	NA	NA	NA
BMS020_04169	948	pyrB_1		Aspartate carbamoyltransferase	ATGACCACCATGCAACTTGATTCGGACGGCCGCCTGCGCCACCTGCTCACCCTGGAAGGTCTGCCGCGTGCGACCCTGCTGCAGCTGCTCGACCGCGCCGGGCAGATCCGCGACGCCGCGGTGGGCCGCGTCGGCAAGCGCAGCGTGCTGGCCGGCACCGCGGTGTGCACGCTGTTCTTCGAACCGTCCACGCGCACCCGCAGCTCGTTCTCGCTGGCCGCGCAGCGGCTCGGCGCCGACGTGCTGAACTTCGACGCCTCGACCTCGTCCACGCGCAAGGGCGAGACCGCGCGCGACACGCTGAAGAACCTGGAAGCGATGAGCGTGCGCGGCTTCGTGGTGCGCCACCCGGATGATGGTGCGGTGGAGCGCCTGGCCGAGGCGGCCGGCGAGGGCACCGCGCTGATCAATGCCGGCGACGGCCGCAGCGCGCACCCGACCCAGGGCCTGCTCGACATGCTGACCCTGCGCCAGGCCAAGGGCGGCGACTTCGCCAGGTTGAAGGTGCTGATCGTCGGCGACGTCAAGCATTCGCGCGTGGCGCGTTCGGACCTGCACGCGCTGCGCACGCTCGGTGCCGGCGAGATCCGCGTCTGCGGGCCGGCCTCGCTGCTGCCGGATGACGGCACGCTGGCCGGCTGCAAGGTCGGCGACGATTTCGATGCGATGCTCGAAGGCGTGGACGCGGTGATGATGTTGCGCCTGCAGCGCGAGCGCATGGAGGAAGGCCTGGTGCCGTCGCTGGAGCAGTACCACGACGACTACGGCCTCACCGCGACCCGGCTCAAGCGCGCCGCGGCCGATGCCGCGGTGCTGCACCCGGGCCCGATCAACCGCGGCGTGGAGATCACCGACGAGGTCGCCGACGGCCCGCAGTCGTGGGTGCTGCGCCAGGTCGCCAACGGCGTCGCCGTGCGCATGGCGGTGCTGGAGACGCTGCTGGGCTGA	MTTMQLDSDGRLRHLLTLEGLPRATLLQLLDRAGQIRDAAVGRVGKRSVLAGTAVCTLFFEPSTRTRSSFSLAAQRLGADVLNFDASTSSTRKGETARDTLKNLEAMSVRGFVVRHPDDGAVERLAEAAGEGTALINAGDGRSAHPTQGLLDMLTLRQAKGGDFARLKVLIVGDVKHSRVARSDLHALRTLGAGEIRVCGPASLLPDDGTLAGCKVGDDFDAMLEGVDAVMMLRLQRERMEEGLVPSLEQYHDDYGLTATRLKRAAADAAVLHPGPINRGVEITDEVADGPQSWVLRQVANGVAVRMAVLETLLG	PGPT0021160_2354	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021160-pyrB-K00609	NA	NA
BMS020_04170	468	yqgF_2	COG0816	Putative pre-16S rRNA nuclease	ATGCCTGAGCAGGCCGTCATCCGCGCCGACGCCACCGTGCTCGGTTTCGATGTCGGTTCCAAGCGGATCGGCGTGGCGATCGGCAGCGCGCTCGGTGCCGGCGCGCGCGCGGTCGCGATGATCGAGGTGCGCAACGGCAGCCCCGACTGGCAGGCGCTGGACCGCGTGCACGCCGAATGGCGCCCGGCCGGGCTGGTGGTCGGCGATCCGCTGACCCTGGACGGCGAGGACCAGCCTGCGCGCCGTCGTGCGCACGCCTTCGCGCGCCAGCTGCGCGAGCGCTACAAGCTGCCGATCGTGCTGGTCGACGAGCGTTCCAGTTCGGTCGAGGCCGCGCGCCGCTTCGCCGCCGCGCGCGCCGACGGCCGCAAGCGCCGCCGCGACGCCGAGGCGCTCGATGCGATGGCTGCCGCGGTGATCGTCGAGCGCTGGCTGTCCGCGCCGGACCTGGCCATTCCCCTTTCCTGA	MPEQAVIRADATVLGFDVGSKRIGVAIGSALGAGARAVAMIEVRNGSPDWQALDRVHAEWRPAGLVVGDPLTLDGEDQPARRRAHAFARQLRERYKLPIVLVDERSSSVEAARRFAAARADGRKRRRDAEALDAMAAAVIVERWLSAPDLAIPLS				NA	NA	NA	NA	NA
BMS020_04171	567			hypothetical protein	ATGGCCGATGCGACCACCCAACTGAACAACCAGCTGCTGATTGCGCTGCCCGCGCTGTCCGATCCCAATTTCGCGCGCACCGTCGCGCTGATCTGCCAGCACGACGACAACGGCGCGATGGGCGTGGTGGTGAACCGCGCCTCCGAGTACACGCTCGGCGAGGTGCTGTCGCAGATGGGGATCTCCAGCCAGGACCAGGCGCTGTGCGCGCAGGCGGTGTTGTCCGGTGGCCCGGTGCATCCCGAGCGCGGCTTCGTGATCCACGACGATGCGCGTGACTGGGACTCCAGCCTGGAGGTCGGCGGCGGGCTGTTCCTGACCACCTCGCGCGACATCCTCGAGGCGATGGCCGACGGGCGCGGTCCGCGCCACGCCATCGTCGCGCTCGGCTGCGCCGGCTGGGGCGCCGGGCAACTGGAGTTCGAGCTGGGCGAGAACAGCTGGCTGACCGTGCCTGCCGACGCCGAACTGCTGTTCGACACGCCGCTGGAGGAGCGCTGGCAGCGCGCCGCCGGGCGCATCGGCGTGGACCTGTTCCGGCTGACGGATTACAGCGGGCATGCCTGA	MADATTQLNNQLLIALPALSDPNFARTVALICQHDDNGAMGVVVNRASEYTLGEVLSQMGISSQDQALCAQAVLSGGPVHPERGFVIHDDARDWDSSLEVGGGLFLTTSRDILEAMADGRGPRHAIVALGCAGWGAGQLEFELGENSWLTVPADAELLFDTPLEERWQRAAGRIGVDLFRLTDYSGHA	PGPT0026120_1604	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026120-algH-K07735	NA	NA
BMS020_04172	543	tag_2	COG2818	DNA-3-methyladenine glycosylase 1	ATGAGCGGCTACTGCACCATCGCCCCTGGCCATCCGGTCCACGGCCATTACCACGACCACGAATACGGCTTCCCGCAGCGCGACGAGCACGAGCTGTTCGAACGCCTGCTGCTGGAGATCAACCAGGCCGGGCTGAGCTGGGAGACGATCCTGCGCAAGCGGGAGGGCTTCCGCGCCGCCTACGCCGGCTTCGATGTCGATGCGGTCGCCGCGTTCGGCGAGGCCGACGTGCTGCGGCTGCTGGCCGACGCGGCGATCATCCGCAACCGGCTGAAGGTGCACGCGGCGATCCACAACGCGCAGGTGATCCAGGGCCTGCGCGCCAGCCACGGCGGCTTCGCGGCCTGGCTGGACGCGCACCACCCGCTGCCGAAGGCGGACTGGGTGAAATTGTTCAGGAAGACCTTCCGCTTCACCGGCGGCGAGATCACCGGCGAGTTCCTGATGAGCCTGGGCTACCTGCCCGGCGCGCATCGCCCCGACTGCCCGGTCCACGCCCGCATCGCGGCGCTGTCGCCGCCATGGATGCGCGCAGGCACCTAG	MSGYCTIAPGHPVHGHYHDHEYGFPQRDEHELFERLLLEINQAGLSWETILRKREGFRAAYAGFDVDAVAAFGEADVLRLLADAAIIRNRLKVHAAIHNAQVIQGLRASHGGFAAWLDAHHPLPKADWVKLFRKTFRFTGGEITGEFLMSLGYLPGAHRPDCPVHARIAALSPPWMRAGT				NA	NA	NA	NA	NA
BMS020_04173	717			hypothetical protein	GTGAGCCTTCCCGATTCCGATCTCCGCCCCGAGCAGGAACCGCTGCCCGACGATGGCGCCGTCGTCACCGCCGGGCCGCTGACGCCGCCGCCGGATTCGGCCGGCACGCCCGCCGACGACCGTGCCTTCCATCATTCGGTGGCCGAGGACGTGCAGGGCATGGTGCTGGCGACGCTGGTGGCCTCGCTGGGGCTGGCGATCTTCGCCAAGGGCGGGATCATGATCGGCGGCATGGCCGGGGTGGCGTTCCTGCTGCACTACGCGCTGGACTGGAACTTCGGCCTGGTGTTCGTGCTGGTGAACCTGCCGTTCTACTGGATCGGCGTGCGCCGGATGGGCTGGGAATTCACCCTGAAGACCTTCGTCGCGGTCGGCGCCTGCGGCCTGCTGACCGACCTGTTGCCGCGCTGGGCCGCATTCGCCCACATGAGCACGTTGTTCTCGGCGTTGGCCGGCGGTGCGCTGTCGGGCCTGGGCATCCTGTTCTTCATCCGCCACCGCGCCAGCCTGGGCGGCATCGGCATCCTGGCGGTGTACCTGCAGCGCGAGCGCGGGATCAGCGCCGGGCGGGTGCAGATGACGTTCGACACGATGCTGATGTGCGTGGCGCTGTTCGTGATCGCACCGCAGAAGGTGCTGTATTCGGCGCTGGGCGCGCTGGTGCTGAGCCTGGTGCTGATGTTCAACCATCGCCCGCACCGCTACATGGGCGTGTGA	MSLPDSDLRPEQEPLPDDGAVVTAGPLTPPPDSAGTPADDRAFHHSVAEDVQGMVLATLVASLGLAIFAKGGIMIGGMAGVAFLLHYALDWNFGLVFVLVNLPFYWIGVRRMGWEFTLKTFVAVGACGLLTDLLPRWAAFAHMSTLFSALAGGALSGLGILFFIRHRASLGGIGILAVYLQRERGISAGRVQMTFDTMLMCVALFVIAPQKVLYSALGALVLSLVLMFNHRPHRYMGV				NA	NA	NA	NA	NA
BMS020_04174	627			hypothetical protein	ATGCCAAGACCCTGGCGCAGGGGCTGGACGGCGTCGAGATCGCCGAAGTGCGCTGAGTCCGTGTCCCGCGCCGGCATGGATGCCGCCCCGCCGCCCCTGTCGCCGACCGGCGAAGCAGGGGCGGTGCCGTCTGCGGCGCACTGGGTGTTCGCACCCTCCGGCCTGAAGCTGGCGCTGTTGTGCTTCACCACGTGGGGCATCTACGCCATGTACTGGTTCTACCGGAACTGGCTGGCGATCCGGCACATCGAGCGCCGGCCGGGAATCATGGCGGCCTGGCGCGCGGCGCTGATGCCGTTGTGGGCCTACAGCTGCTTCCGGCAGCTGGGGCGGATCACCGGGCAGCCGGCCTGGCGCATCGGCTGCGGCTCGGTGCTGCTGGCGCTGGCGTGCCTCGGCCTTTCCAGCTCGTGGTTCATCTCGCCGCCGGTTCCGTCGCTGCCGCATCTGCTGTTCCTCCCGATCCTGCCGGTCAATGCCTGGCTGCGGCGCTTCAAGCGCCAGCATGGTGTGGCGGCCTCCGCACGCGAGCGCTTCTCGGTCTGGAACTGGCTGTGGATCGCGATGATCGGTCTGCTGCAGCTGTTGGCGATCACCTACGTGGTGTTGATCTTCGCCCTGCGCTGA	MPRPWRRGWTASRSPKCAESVSRAGMDAAPPPLSPTGEAGAVPSAAHWVFAPSGLKLALLCFTTWGIYAMYWFYRNWLAIRHIERRPGIMAAWRAALMPLWAYSCFRQLGRITGQPAWRIGCGSVLLALACLGLSSSWFISPPVPSLPHLLFLPILPVNAWLRRFKRQHGVAASARERFSVWNWLWIAMIGLLQLLAITYVVLIFALR				NA	NA	NA	NA	NA
BMS020_04175	1131	pilT_1	COG2805	Twitching mobility protein	ATGAGCACCATCGACTTCACCTCGTTCCTCAAGCTGATGGCGCACCAGAAGGCGTCGGACCTGTTCATCACGTCCGGCATGGCGCCGTCGATCAAGGTGCATGGCAAGATCACCCCGATCACGCAGACGCCGCTGACCGCGCAGCAGAGCCGCGACCTGGTGCTGAACGTGATGACGCCGGCGCAGCGCGAGGAGTTCGAGAAGACCCACGAGTGCAACTTCGCGATCGGCGTGGCCGGGGTCGGCCGCTTCCGCGTCAGCTGCTTCTACCAGCGCAACCAGGTCGGCATGGTGCTGCGCCGGATCGAGACCCGCATCCCGACCGTGGACGAGCTCAACCTGCCGCCGGTGATCAAGACGCTGGCGATGACCAAGCGCGGCATCATCATCTTCGTCGGCGCGACCGGTACCGGTAAGTCGACCTCGCTGGCGGCGATGATCGGCTACCGCAACCAGAACTCGACCGGCCACATCATCACGATCGAGGACCCGATCGAATTCGTGCACAAGCACGAGGGCTGCATCATCACCCAGCGCGAGGTCGGCATCGACACCGACAGCTGGGACAACGCGCTGAAGAACACCCTGCGCCAGGCGCCGGACGTGATCATGATCGGCGAGGTGCGCACCCGCGAGGGCATGGACCACGCCATCTCGTTCGCCGAAACCGGCCACCTGGTGCTGTGCACGCTGCACGCCAACAACGCCAACCAGGCGATGGACCGCATCATCAACTTCTTCCCGGAAGACCGCCGCAGCCAGCTGCTGATGGACCTGTCGCTGAACCTCAAGGGCGTGGTCGCGCAGCAGCTGATTCCCACGCCCGACGGCAAGGGCCGGCGCGTGGCGATGGAAATCATGCTCGGCACGCCGCTGGTGCAGGACTACATCCGCGACGGCGAGATCCACAAGCTCAAGGAAGTGATGAAGGAGTCGACCAACCTCGGCATGAAGACCTTCGACCAGAGCCTGTTCGAGCTGTACCAGGCCGGCGAGATCTCCTACGAGGATGCGCTGCGCTACGCCGACTCGCAGAACGAGGTGCGCCTGCGCATCAAGCTCTCGCAGGGGGGCGATGCCAAGACCCTGGCGCAGGGGCTGGACGGCGTCGAGATCGCCGAAGTGCGCTGA	MSTIDFTSFLKLMAHQKASDLFITSGMAPSIKVHGKITPITQTPLTAQQSRDLVLNVMTPAQREEFEKTHECNFAIGVAGVGRFRVSCFYQRNQVGMVLRRIETRIPTVDELNLPPVIKTLAMTKRGIIIFVGATGTGKSTSLAAMIGYRNQNSTGHIITIEDPIEFVHKHEGCIITQREVGIDTDSWDNALKNTLRQAPDVIMIGEVRTREGMDHAISFAETGHLVLCTLHANNANQAMDRIINFFPEDRRSQLLMDLSLNLKGVVAQQLIPTPDGKGRRVAMEIMLGTPLVQDYIRDGEIHKLKEVMKESTNLGMKTFDQSLFELYQAGEISYEDALRYADSQNEVRLRIKLSQGGDAKTLAQGLDGVEIAEVR	PGPT0015880_805	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015880-pilU-K02670	NA	NA
BMS020_04176	1038	pilT_2	COG2805	Twitching mobility protein	ATGGATATCGCTGAACTGTTGGCGTTTTCCGTCAAGAACAAGGCATCGGACCTGCACCTGTCCGCAGGCTTGCCGCCGATGATCCGTGTCGACGGCGATGTCCGCCGCATCAACATTCCGGCCCTGGACCACAAGCAGGTCCATGCGCTGGTCTACGACATCATGTCGGACAAGCAGCGCCGCGACTACGAGGAATTCCTCGAGGTCGACTTCTCGTTCGAGATCCCGTCGCTGGCCCGCTTCCGCGTCAACGCGTTCAACCAGAACCGTGGCGCCGGCGCGGTGTTCCGGACCATTCCCTCGGAGATCCTGACGCTGGAGGACCTCGGCTGCCCGCCGGTGTTCCGCCAGCTGATCGAGCAGCCGCAGGGCCTGATCCTGGTGACCGGCCCGACCGGCTCGGGCAAGTCGACCACGCTCGCGGCGATGATCGACCACATCAACAAGAACGAATACGGCCACATCCTCACCGTCGAGGACCCGATCGAATTCGTCCACACCTCGCAGAAGTGCCTGATCAACCAGCGCGAGGTGCACCGCGACACGCACGGCTTCAACGAAGCGCTGCGTTCGGCGCTGCGCGAAGACCCGGACATCATCCTGGTCGGCGAGTTGCGTGACCTGGAAACCATCCGCCTGGCGCTGACCGCGGCGGAAACCGGCCACCTGGTGTTCGGCACGCTGCACACCAGTTCGGCGGCCAAGACCATCGACCGCATCATCGACGTGTTCCCCGCCGGCGAGAAGCCGATGGTGCGCTCGATGCTGTCCGAGTCGCTGCGCGCGGTGATCTCGCAGGCGCTGCTCAAGCGCGTCGGCGGCGGTCGCATCGCCTCGCACGAGATCATGGTCGCCAACCCGGCGATCCGTAACCTGATCCGCGAGGACAAGGTCGCGCAGATGTATTCGGCGATCCAGACCGGCCAGTCGGTGGGCATGCAGACCCTGGACCAGAACCTGCAGGACCTGGTCAAGCGCAGCCTGATCACGCGCAACCAGGCCCGCGAGTACGCCAAGGACAAGCGGCTGTTCGAGTGA	MDIAELLAFSVKNKASDLHLSAGLPPMIRVDGDVRRINIPALDHKQVHALVYDIMSDKQRRDYEEFLEVDFSFEIPSLARFRVNAFNQNRGAGAVFRTIPSEILTLEDLGCPPVFRQLIEQPQGLILVTGPTGSGKSTTLAAMIDHINKNEYGHILTVEDPIEFVHTSQKCLINQREVHRDTHGFNEALRSALREDPDIILVGELRDLETIRLALTAAETGHLVFGTLHTSSAAKTIDRIIDVFPAGEKPMVRSMLSESLRAVISQALLKRVGGGRIASHEIMVANPAIRNLIREDKVAQMYSAIQTGQSVGMQTLDQNLQDLVKRSLITRNQAREYAKDKRLFE	PGPT0015875_2123	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015875-pilT-K02669	NA	NA
BMS020_04177	672	yggS_2	COG0325	Pyridoxal phosphate homeostasis protein	GTGCCGGTTTCACCGCTGCAACAGATCCGACTGGAGATGGACAACGCGGCGCACGCCGCCGGACGGCCACCAGCACGCCTGCTGGCAGTCTCCAAGACCCAACCGGGCAGCGCGGTGGCGGCCCTCGCCGCCCAGGGCCAGACCGCGTTCGGCGAGAACTACGTGCAGGAAGCGGCTGCCAAGATCGCTGAGCTTGCCTCGCTGGGCCTGGAATGGCACCTGATCGGCCACCTGCAGTCCAACAAGGCCGACCTGGCCGCACAGCTGTTCGACTGGGTGCAGACGGTCGACCGGACCAAGCTGGTCGCCGCGCTCGCCCGCCACCGCCCGGCCGAGTGCGCGCCGCTGAACGTGCTGATCCAGGTGAACATCGACGATGAAGCCAGCAAGCACGGCTGCACGCCGCAGGAGGTGCCGGCGCTCGCTGCGGCGATCGCCGCCGAGCCGCGGCTGGCGTTGCGCGGGCTGATGGCGATCCCGGCCCCGCACCCGGAACGGGCGCGCCGCCGCGAGGCGTTCCAGCGCATGCGCGCGCTGTTCGACACGCTGGCCGCCGCGCACCCGCGGGTGGACACGTTGTCGATGGGCATGAGCGGCGATTTCGCCGACGCGATCGCCGACGGCGCCACCATGGTGCGCGTCGGCACCGCCCTGTTCGGCCAGCGCCACTAG	MPVSPLQQIRLEMDNAAHAAGRPPARLLAVSKTQPGSAVAALAAQGQTAFGENYVQEAAAKIAELASLGLEWHLIGHLQSNKADLAAQLFDWVQTVDRTKLVAALARHRPAECAPLNVLIQVNIDDEASKHGCTPQEVPALAAAIAAEPRLALRGLMAIPAPHPERARRREAFQRMRALFDTLAAAHPRVDTLSMGMSGDFADAIADGATMVRVGTALFGQRH				NA	NA	NA	NA	NA
BMS020_04178	846	proC_2	COG0345	Pyrroline-5-carboxylate reductase	ATGCCTCCCAGCGATTCCAGCAGCTCCGATTCCGCCATCACCGCCTTCATCGGCGGCGGCAACATGGCGCGCAGCCTGATCGCCGGCCTGGTCCGGAAGGGCGTGCCGGCCGCGTCGATCCGCGTCGCCGAGCCGGTCGCGGCACTGCGCGAGGCATTGACGGCGGACTTCGGCGTGCAGGTGTTCGCCGAGGCGGCCGGCGCGGTCGATGGCGCGAGCACCTGGGTGATGGCGGTCAAGCCGCAGGTGCTGCGTGGCGTCTGCGAAGCACTGGCCGAAGCGGCCGCGGCGCGGAAACCGCTGGTGGTGTCGATCGCAGCCGGGATCACCGGCGCGCAGCTGGACCGCTGGCTCGGCGGCGGCCAGGCCGTGGTCCGGGCGATGCCGAACACCCCCGCGCTGCTCGGTGCCGGCGTCACCGGCCTGCATGCCAATGCGCGGGTCGATGCCGCGCAGCGCGCACAGGCCGCGGCGCTGCTGGCCAGCGCCGGCGCCACGGTCTGGATCGACGCCGAGGCGCAGATGGACGCGGTGACCGCGGTTTCCGGCAGCGGGCCGGCCTACGTGTTCCTGCTGGCCGAGGCGATGGAGGCCGCCGCACTGCAGCAGGGACTGCCGGCCGACGCCGCGCGCACGCTGGTGCTGCAGACGGTGCTCGGCGCCGCGCGCATGCTGACCGAGGCCGGCGAGGCTCCGGCGGAACTGCGCCGCCGCGTCACCTCGCCGAACGGCACCACCCAGGCCGCGGTCGAGACCTTCCAGGCCGGTGGCTTCGAGGCATTGACCGCGCAGGCGATCGCCGCCGCGGCCGAGCGCGGCCGCCAGCTGTCGGCGGCGAACGACTGA	MPPSDSSSSDSAITAFIGGGNMARSLIAGLVRKGVPAASIRVAEPVAALREALTADFGVQVFAEAAGAVDGASTWVMAVKPQVLRGVCEALAEAAAARKPLVVSIAAGITGAQLDRWLGGGQAVVRAMPNTPALLGAGVTGLHANARVDAAQRAQAAALLASAGATVWIDAEAQMDAVTAVSGSGPAYVFLLAEAMEAAALQQGLPADAARTLVLQTVLGAARMLTEAGEAPAELRRRVTSPNGTTQAAVETFQAGGFEALTAQAIAAAAERGRQLSAAND	PGPT0014225_881	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
BMS020_04179	231			hypothetical protein	ATGGGCAGTACCTTCACGCTCGTCATGCTCGCACTGCTTTCGCTGGTGCCGTCGCTGGTCACCGCAGCCCTGGTCATGCTCGGCATCTGGTGGATGCAGCGCCGGGCGGCGTCCACGCCCCGCCGCACCACCGCCGAGCGCCTGGACGAACTCGACGCCCTGCTCGCGCAGGGCCGCATCAGCCACGACGAACACCGGGTGCAGCGCGAGGCCGTCATCGGCGCGATATGA	MGSTFTLVMLALLSLVPSLVTAALVMLGIWWMQRRAASTPRRTTAERLDELDALLAQGRISHDEHRVQREAVIGAI				NA	NA	NA	NA	NA
BMS020_04180	996	ldhA_2	COG1052	D-lactate dehydrogenase	ATGAAGGTTGCCGTCTACAGCGCCCGCCGCTACGACAAGGTGATGCTGGAGCAGGCCAACGCCGGCCACGGGCATGAACTGCTGTTCGTGCAGGACGCGCTGACCGTGGACACCGCGCCGCTGGCGGCCGGCTGCGGCGCGGTCTGCGTGTTCGTCAACGACGCGGTCGACGCCGGCGTACTGGCCGCGCTGAAGGAGCTGGGCATCGGCCTGGTGGCGACGCGCTCGACCGGCTTCAACCATGTCGATGCGGTGGCCGCGCATGCGCTGGGCATCGCCACCGCGCGCGTCACCGATTACTCGCCGTATTCGGTCGCCGAGTTCACCGTCGGCCTGCTGCTGGCGGTCAACCGCCGTATCGCCCGCGCCAGCCAGCGCACCCGCGACGGCAATTTCGAGCTTGACGGGTTGATGGGCTTCGACCTGCACGGGCGCACCGTCGGGGTGATCGGCACCGGCAAGATCGGGCGGATCTTCGCCGGGATCATGCGCGGGTTCGGCTGCCGGGTGCTGGGCTACGACCCGTTCCCGACCCCGGCGTTCGACGGTGTCGGCGACTACGTCAGCCTGCCGCAGCTGCTGGCGGAGAGCGACGTGATCTCGCTGCATTGTCCGCTGACCCCGCAGACCCACTACGTGATCGACGCCAACGCGCTGGCGCAGGTACAGCCGGGCACGTTGCTTGTCAACACCAGCCGCGGTGGCCTGGTCGATACCGAGGCGGTGATCGCCGCGCTGAAGACCGGGCGCCTGGGTGGGTTGGCGATCGACGTCTACGAGCAGGAGGCGGACCTGTTCTTCCAGGACCTGTCGGCCACGGTGATTGCCGATGACGTGATCCAGCGCCTGGTGTCGTTCCCCAACGTGATCGTGACCGGCCACCAGGCCTTCTTCACCCGCGAGGCGATCGGCCAGATCATGGCGACCACGCTGGAGACGGTGACCGCGTTCGAGCGCGGCGAGCCGCTGGCCAATGCGATCCCGCTGCCGGGTTGA	MKVAVYSARRYDKVMLEQANAGHGHELLFVQDALTVDTAPLAAGCGAVCVFVNDAVDAGVLAALKELGIGLVATRSTGFNHVDAVAAHALGIATARVTDYSPYSVAEFTVGLLLAVNRRIARASQRTRDGNFELDGLMGFDLHGRTVGVIGTGKIGRIFAGIMRGFGCRVLGYDPFPTPAFDGVGDYVSLPQLLAESDVISLHCPLTPQTHYVIDANALAQVQPGTLLVNTSRGGLVDTEAVIAALKTGRLGGLAIDVYEQEADLFFQDLSATVIADDVIQRLVSFPNVIVTGHQAFFTREAIGQIMATTLETVTAFERGEPLANAIPLPG	PGPT0001755_1166	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001755-ldhA-K03778	NA	NA
BMS020_04181	441	soxR_1	COG0789	Redox-sensitive transcriptional activator SoxR	ATGACGGAACTGAGCGTGGGCGAGGTCGCGCAGCGCAGCGGGCTGGCGGTGTCGGCGCTGCACTTCTACGAGCGCAAGGGGCTGATCCGCAGTCTGCGCACCGCCGGCAACCAGCGCCGGTTCCAGCGCGACGTGCTGCGCCGGTTGGCGGTGATCCGTGTCGCGCAGCGTGTCGGCGTGCCGCTGGAAGCGGTGGCGCGCGCCTTCGCGGTGCTGCCGAAGCAACGCACGCCGACCCGCGCCGAGTGGGCGCGGATGTCGGCGGCCTGGCGTGGCGAGCTGGAGGCGCGCATCGTGCAGTTGCAGCAGCTGCGCGACCAGCTCACCGACTGCATCGGCTGCGGTTGCCTGTCCTTGCGCCGCTGCCGGCTGGCCAATCCCGGCGATGCGCTGGGTGCGCACGGCGACGGGGCGCAGCGCTGGGCCGGCGAGGCGGACTGA	MTELSVGEVAQRSGLAVSALHFYERKGLIRSLRTAGNQRRFQRDVLRRLAVIRVAQRVGVPLEAVARAFAVLPKQRTPTRAEWARMSAAWRGELEARIVQLQQLRDQLTDCIGCGCLSLRRCRLANPGDALGAHGDGAQRWAGEAD	PGPT0012955_1156	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012955-soxR-K13639	NA	NA
BMS020_04182	1467	sdrM		Multidrug efflux pump SdrM	ATGCTGCACGCCCCTTCCGCCACGCACAAGCGCCAGGACGCCATCCCGATGCCGCTCGCACCACCACGTCCCGCCGCCGCACCGGCCCCATCGGTGCTGGCCCCGCACCATCGCGCCGCCACCGTGGGCATGGTCGCGCTGGTCTCGCTCACGGCGTTCGAGGCGCTGGCGGTGGCCACCGCGATGCCGACCGTGGCAGGCGAGCTCGATGGGCTGCGCCTGTACGCGGCGGCATTCGGCGCGCTGCTGGCCGCCAGCGTGCCGGGCATGGTGCTGGCCGGGCATGCCTGCGACCGCGACGGTCCTGCGCGCCCGCTGTGGGCCGGCCTGGCCGCGTTCGTCGCCGGGCTGCTGCTGGCCGGACTGGCCACGGACATGCGGCAGCTCGTGGCCGGCCGCGTGCTGCAGGGGCTGGGTGCGGGCGCGACCTCGGTGGCGCTGTACGTCCTGGTCGGACGGCTGTACCCGCCTACGCTTCAGCCGCGGATGTTCGCGGCGTTCTCGGCCGGCTGGGTGCTGCCGTCGCTGGTCGGACCGGCGCTGGCCGGGGTGGTCGTGCAGCACGCCGGCTGGCGCTGGATCTTCCTCGGCGTGGCCGTGCTCGCGGTACCGGCGGCGATCCTGCTGGCACGGCCGCTGCGGCGGCTGCCGGCGCCGCCACGCGCGGCCGGCACCAAGCCGCGCTGGCCTTGGGCGCTGCTGGCGGCGCTTGGCATCCTGGCGCTGCATGCCGGCGCACAGCTGGCCGGCGCCGCGGCCGCCGGGGTGCTGCTGGCCGGCCTGCTGGCAACGCTGGCCGGCAGCGGCCGACTGCTGCCGCCCGGCACCTGGCGCGCCGCGCCCGGGCTGCCAAGCCTGGTGCTGCTGCGCGGACTGGCGCCGGCGGCGTTCTTCGGCTGCGAGGCGTTCGTGCCGCTGCTGCTGGCACGCGAGCGCGGGCTGTCGCCGTCGCTGGCCGGACTGGCGCTCGGCGCCGGCGCGTTCAGCTGGTTCTGCGGCTCCTGGTACCAGGGCCATTACGCCGCGCGGACGCCGCGCATCGTGCTGATCCAGCGCGGTGCCGCCGCGCTCGCGCTGGGCATCGCCGCGGTCGCCGCCACGCTGCAGCCGACGGTGCCGCTGGCGGTCGCGGTGGGCGGCTGGGTGCTGGCCGGCCTCGGCATGGGCCTGGCCTATCCGAGCATGGCGGTGCTGGCGCTGCAGCTCTCGGCGCCCGGCAGCGAGGGCCGCAACAGTGCCGCGCTGCAACTGGGCGAAGCGATCACCGTGGCGATCATGCTGGCCGTCGCCGGGGCGCTGTTCGCGCGGCTGTTCGGCCCGCATCCGCTGCTGGCCTATCTCGCCGCGTTCGCCCCGGCGCTGCTGCTGGCGCTGCTGGTCGGGCCGTTGGCGCGGCGCGTCGCGCCGGCTCAGCGCAGCGGAAACCAGGCCTCGTCGACGAACACCGCCGGCACCTCCCACGGATGA	MLHAPSATHKRQDAIPMPLAPPRPAAAPAPSVLAPHHRAATVGMVALVSLTAFEALAVATAMPTVAGELDGLRLYAAAFGALLAASVPGMVLAGHACDRDGPARPLWAGLAAFVAGLLLAGLATDMRQLVAGRVLQGLGAGATSVALYVLVGRLYPPTLQPRMFAAFSAGWVLPSLVGPALAGVVVQHAGWRWIFLGVAVLAVPAAILLARPLRRLPAPPRAAGTKPRWPWALLAALGILALHAGAQLAGAAAAGVLLAGLLATLAGSGRLLPPGTWRAAPGLPSLVLLRGLAPAAFFGCEAFVPLLLARERGLSPSLAGLALGAGAFSWFCGSWYQGHYAARTPRIVLIQRGAAALALGIAAVAATLQPTVPLAVAVGGWVLAGLGMGLAYPSMAVLALQLSAPGSEGRNSAALQLGEAITVAIMLAVAGALFARLFGPHPLLAYLAAFAPALLLALLVGPLARRVAPAQRSGNQASSTNTAGTSHG				NA	NA	NA	NA	NA
BMS020_04183	345			hypothetical protein	ATGCAGCTGCAGCCGGTCTATCGCATCACCGTATTCGTGCCGCCGGCGCATGCGCGGGCGCTGCAGGACGGGATCTGCGCGGTGGACCCGTTGCAGGCCGGCGACTACGACCGCGCGATGTGGCTGTCGGCGCCCGGCGAGGAACAGTTCCGGCCGCTGCCTGGGGCGCATCCGGCGCAGGGCCGGATCGGCGAGCTGGAGCGCACGCCGACGCTGCGCCTGGAATTTGCGATCCCGCGCGACCGGCAGCTGCTGGAGCGGGTGATCGCGCAGGGCATCTACGCCCATCATCCGTGGGAGGTGCCGGCGGTGTTCGTCGACGAGGCCTGGTTTCCGCTGCGCTGA	MQLQPVYRITVFVPPAHARALQDGICAVDPLQAGDYDRAMWLSAPGEEQFRPLPGAHPAQGRIGELERTPTLRLEFAIPRDRQLLERVIAQGIYAHHPWEVPAVFVDEAWFPLR				NA	NA	NA	NA	NA
BMS020_04184	600	pdxH_2	COG0259	Pyridoxine/pyridoxamine 5'-phosphate oxidase	ATGACCGACCTGTATGCCGAAGCCCTGTCCACCTTCGCCTCGCTGTACGAGGAGGCACGCGCCAGCGCCGAGGTCGAGCCGAACGCGATGACCCTGGCGACGGCCAGCGCCGAGGGCCGTCCGAGCGCGCGCATCGTGCTGCTGAAGGCGTTCGACGCCCGCGGCTTCGTGTTCTACACCCACACCGGCAGCCCCAAGGGCCGCGAGCTGCAGGCCAACCCGCAGGCGGCGCTGCTGTTCCTGTGGCGCAGCCTGCGCGATGCCGGCATCCAGGTGCGCATCGAGGGCCGCAGCGAGCTGGTGGCCGATGCCGAGGCCGATGCCTATTTCGCCTCGCGCCCGCGCATGAGCCAGCTCGGCGCCTGGGCCTCGATGCAGTCGCACACGCTGTCCTCGCGCGAGGAGTTCGAGGAGCGCCTGGCCAAGATCGAAGCCGGCTTCGAAGGTCGCGAGGTGCCGCGCCCGGAAGGCTGGAGCGGCTTTCGCGTGGTGCCGGACCTGTTCGAGTTCTGGTACGGCGCCGGCTTCCGCCTGCACGACCGCTGGCGCTACGAGCGCGACGCGGCCGGGCAGTGGTCCAAGCGCCTGCTGTATCCCTGA	MTDLYAEALSTFASLYEEARASAEVEPNAMTLATASAEGRPSARIVLLKAFDARGFVFYTHTGSPKGRELQANPQAALLFLWRSLRDAGIQVRIEGRSELVADAEADAYFASRPRMSQLGAWASMQSHTLSSREEFEERLAKIEAGFEGREVPRPEGWSGFRVVPDLFEFWYGAGFRLHDRWRYERDAAGQWSKRLLYP	PGPT0009115_3539	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009115-pdxH-K00275	NA	NA
BMS020_04185	1383	proY_2	COG1113	Proline-specific permease ProY	ATGCAACAACAACACAAGCCACATCTGCTGCGCGGGCTAAATGCCCGACACATTCGATTTATTGCGCTCGGCTCCGCGATCGGCACCGGGCTGTTCTATGGCTCGGCTTCCGCCATCAAGGCGGCGGGCCCGGCGGTGCTGCTGGCCTATTTGATTGGCGGCGCGGCGGTGTTTATCGTCATGCGCGCACTGGGCGAGATGGCGGTGCGCAACCCGGTTTCCGGCTCCTTCGGCAGCTATGCCCGCCAGTATCTCGGCCCGCTGGCCGGGTTTATTACCGGCTGGACCTACACTTTTGAAATGGTAATCGTCGCCCTGGCCGACGTGACCGCCTTCGGCATCTATATGGGATTGTGGTATCCCGATGTCCCGCGCTGGATCTGGATCCTCAGCATCATCTTCTTTATCGGCGCCATGAACCTGTGCAACGTGCGGGTGTTCGGCGAGATGGAGTTCTGGCTGTCGCTGGTGAAGGTGGTGGCGATTATCGCCATGATGCTGGCGGGGGCGGGGATCATCTTCTTTGGCTTCGGCCATAGCTTCCCGGCCACCGGGCTGGAAAATCTCTGGAGCCACGGCGGCTTTGCCCCTAACGGCTGGCAGGGCGTTATCGCTTCGCTTGGCATCGTGATGTTCGCCTTCGGCGGGGTGGAGATTATCGGCGTCACCGCCGCGGAAGCGAAGGATCCGAAGAAGGTCATCCCGCAGGCCATCAATACCATTCCGCTGCGCATTATCCTGTTCTACGTCTGCACCCTGGCGGTGCTGATGGCGATTTTCCCGTGGAACAGCTTTGGCGAGCAGGGGAGTCCGTTTGTGCTGATTTTCGACGGTCTGGGGATCCCGGCGGCGGCGACAATCCTTAACATCATCGTGATCAGCGCCAGCATCTCGGCGATTAACAGCGATATCTTCGGCGCCGGACGCATGATGTACGGCATGTCGAAGGAGGGGCTGGCGCCGAAAAGCTTCCAGCGCATCGCCAGCAACGGCGTACCCTGGATGACGGTGGTGGTCATGGGCGGCGCGCTGCTGGCGGCGGTGGTGCTGAACTATCTGATCCCCGAGCAGGTATTTGTGCTGATTGCTTCGCTGGCGGCATTCGCCACGGTGTGGGTATGGCTGATGATCCTGCTGTCCCATTTCGCCATGCGCCGTAGTTTGTCTGCCGAAGAGCGCAGCCAGATTGCCTTCCCCGTTCCGTTCTGGCCGGTGGCGCCGCTGTTAACGCTGCTGTTTATGGGGCTGGTCATCGCTGTGCTGGGGATGTTTGCCGAGACGCGGATGGCGCTGATCGCCGGCCTGGTCTGGCTCGGGCTGCTGACGGTGGTGTGGTACGCGCGGGTGCGTAAAACCGCGCTGCAGGTTGTCACTGAGCAGTAA	MQQQHKPHLLRGLNARHIRFIALGSAIGTGLFYGSASAIKAAGPAVLLAYLIGGAAVFIVMRALGEMAVRNPVSGSFGSYARQYLGPLAGFITGWTYTFEMVIVALADVTAFGIYMGLWYPDVPRWIWILSIIFFIGAMNLCNVRVFGEMEFWLSLVKVVAIIAMMLAGAGIIFFGFGHSFPATGLENLWSHGGFAPNGWQGVIASLGIVMFAFGGVEIIGVTAAEAKDPKKVIPQAINTIPLRIILFYVCTLAVLMAIFPWNSFGEQGSPFVLIFDGLGIPAAATILNIIVISASISAINSDIFGAGRMMYGMSKEGLAPKSFQRIASNGVPWMTVVVMGGALLAAVVLNYLIPEQVFVLIASLAAFATVWVWLMILLSHFAMRRSLSAEERSQIAFPVPFWPVAPLLTLLFMGLVIAVLGMFAETRMALIAGLVWLGLLTVVWYARVRKTALQVVTEQ	PGPT0014230_210	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0014230-proY-K11736	NA	NA
BMS020_04186	1536	hutH_1	COG2986	Histidine ammonia-lyase	ATGAAATCTTTAACTCTGATCCCGGGTCAACTCAGCCTGTCGCAGCTCCGCGACATCTACAGCCACCCGGTGAATATTACCCTCGACAGCGGCGCGTTTGCCGCCATTGACGAGAGCGTGGCCTGCGTCAACGCTATCCTTGCCGAAGGGCGGACCGCCTACGGCATCAACACCGGTTTTGGCCTGCTGGCGCAGACCCGTATCTCGACGGAAGATCTGGAGAACCTGCAGCGTTCGCTGGTGCTGTCCCATGCGGCGGGCGTAGGCGAGCCGCTGGACGATGACCTGGCGCGCCTGATTATGGTGCTGAAGATTAACAGTCTGTCCCGCGGATTCTCCGGGATCCGCCTGAGCGTGATCCAGGCGCTGATTGGCCTGGTGAATGCCGGCGTGACGCCGTGGATCCCGGCGAAAGGCTCCGTCGGCGCCTCCGGCGACCTCGCGCCGCTGGCCCATATGTCGCTGACCCTGCTTGGCGAAGGTAAAGCGCGGGTACGCGGCGGCGACTGGCTGCCGGCCACCGAAGCGCTGCGTCAGGCGGGGCTGGAGCCGATTACCCTGGCGGCGAAAGAGGGGCTGGCGCTGCTCAACGGCACCCAGGCGTCGACCGCTTTTGCCCTGCGCGGTCTGTTCGAAGCCGAAGATTTGTTCGCCTCCGCGGTCGTCTGCGGGGCGTTAACCACCGAAGCGGCGCTGGGCTCCCGTCGTCCGTTTGATGCGCGCATCCATGAAGTGCGCGGCCAGCGCGGGCAGATTGACGCGGCGGCGCTGTATCGCCATCTGCTGACCGACGACAGCGCGATCTCGCTGTCGCACCATAACTGCAGCAAGGTGCAGGACCCGTACTCCCTGCGCTGTCAGCCGCAGGTGATGGGCGCCTGCCTGACCCAGATCCGCCAGGCGGCTGAGGTGCTGCTGGCCGAAGCCAACGCGGTGTCCGATAACCCGCTGGTCTTCGCCGCCGAGAATGACGTGATCTCCGGCGGTAACTTCCACGCCGAGCCGGTGGCGATGGCGGCGGATAATATCGCGCTGGCGATTGCCGAAATCGGCTCGCTCTCCGAGCGTCGCATCGCGCTGATGATGGACAGCCATATGTCGCAGCTGCCGCCGTTCCTCGTCAAAAACGGCGGGGTGAACTCCGGGTTTATGATTGCTCAGGTCACGGCGGCGGCGCTGGCCAGTGAAAACAAAGCGCTGTCGCACCCGCACAGCGTCGACAGTCTGCCGACCTCCGCCAACCAGGAAGATCACGTCTCGATGGCGCCGGCGGCCGGTCGCCGCCTGTGGGCGATGGCCGAGAACACCCGCGGCGTACTGGCCGTCGAGTGGCTGGCGGCGGCGCAGGGGCTGGATATGCGCGAAGGGCTGACCACCAGCCCGCTGCTGGAAGAGGCGCGCCATCTGCTGCGCGAACGCGTCCCTCACTATACGCAGGATCGCTACTTCGCCCCGGATATCGATAATGCCATTGCGCTTCTGGCGGCCCGTCACCTGACGCGTCTGCTGCCTGCCGTACTGCCAGGCCTGCACTAA	MKSLTLIPGQLSLSQLRDIYSHPVNITLDSGAFAAIDESVACVNAILAEGRTAYGINTGFGLLAQTRISTEDLENLQRSLVLSHAAGVGEPLDDDLARLIMVLKINSLSRGFSGIRLSVIQALIGLVNAGVTPWIPAKGSVGASGDLAPLAHMSLTLLGEGKARVRGGDWLPATEALRQAGLEPITLAAKEGLALLNGTQASTAFALRGLFEAEDLFASAVVCGALTTEAALGSRRPFDARIHEVRGQRGQIDAAALYRHLLTDDSAISLSHHNCSKVQDPYSLRCQPQVMGACLTQIRQAAEVLLAEANAVSDNPLVFAAENDVISGGNFHAEPVAMAADNIALAIAEIGSLSERRIALMMDSHMSQLPPFLVKNGGVNSGFMIAQVTAAALASENKALSHPHSVDSLPTSANQEDHVSMAPAAGRRLWAMAENTRGVLAVEWLAAAQGLDMREGLTTSPLLEEARHLLRERVPHYTQDRYFAPDIDNAIALLAARHLTRLLPAVLPGLH	PGPT0020230_1972	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745	NA	NA
BMS020_04187	1689	hutU_1	COG2987	Urocanate hydratase	ATGTCGCAAAGCAAATATCGCCAGCTGGACGTCCGTGCGCCAAGAGGCACGACGCTGACCGCGAAGAGCTGGTTGACCGAAGCCCCGCTGCGTATGTTAATGAATAACCTCGATCCCGATGTCGCCGAAAACCCGCACGAGCTGGTGGTCTATGGCGGTATTGGTCGCGCAGCGCGCAACTGGGAATGCTATGACGCTATCGTGAAGGCGCTGAAGAACCTGGAAAGCGACGAGACCCTGCTGGTCCAGTCCGGCAAGCCAGTGGGCGTTTTCAAAACCCATGAACACTCGCCGCGCGTGCTGATCGCTAACTCCAACCTGGTTCCGCACTGGGCGACCTGGGAACACTTTAACGAGCTGGATGCCAAAGGGCTGGCGATGTACGGCCAGATGACCGCCGGCAGCTGGATCTACATTGGCAGCCAGGGCATCGTCCAGGGCACTTACGAAACCTTCGTCGAAGCCGGTCGCCAGCACTATCAGGGCAGCCTGAAAGGCCGCTGGGTGCTAACCGCCGGGCTGGGCGGCATGGGCGGCGCGCAGCCGCTGGCCGCGACGCTGGCCGGCGCCTGCTCGCTGAATATTGAATGCCAGCAGAGCCGCATCGATTTCCGTCTGCGCACCCGCTACGTGGACGAACAAGCCACTTCTCTGGATGACGCCCTGGCGCGTATCAAGAAATACACCGCCGAAGGCCGGGCTATCTCCATCGCGCTGTGCGGCAACGCCGCGGAGATCGTGCCGGAGCTGGTGAAACGCGGCGTGCGCCCGGATATGGTCACCGACCAGACCAGCGCCCACGACCCGCTGCACGGCTATCTGCCGAAAGGCTGGAGCTGGGAAGCGTATCAGCAGAAAGCTGAATCCGATCCGCAGGGCACCATTCTGGCGGCGAAACGCTCGATGGCCGACCACGTGCAGGCGATGCTGGCCTTCCATGAGATGGGGGTGCCGACTTTCGACTACGGTAACAACATTCGCCAGATGGCTCAGGAAGTGGGCGTCAGCAACGCCTTCGATTTCCCGGGCTTCGTGCCGGCCTATATCCGCCCGCTGTTCTGCCGCGGTATCGGTCCGTTCCGCTGGGTGGCGCTCTCCGGCGATCCGCAGGATATCTACAAGACTGACGCGAAAGTGAAAGAGATCATCAAGGATGATAAGCATCTGCACCATTGGCTGGATATGGCGCGCGAGCGCATCAGCTTCCAGGGACTGCCGGCACGTATCTGCTGGGTCGGTCTGGAATGGCGGCAGAAGCTGGGCCTGGCGTTTAACGAAATGGTGCGCAGCGGCGAAGTCTCCGCGCCGATCGTGATTGGCCGCGATCATCTTGACTCCGGCTCCGTCGCCAGCCCGAACCGCGAAACCGAAGCGATGCGCGACGGCTCTGACGCGGTCTCTGACTGGCCGCTGCTGAATGCGCTGCTCAACACCGCCAGCGGCGCGACCTGGGTGTCGCTGCACCACGGCGGCGGGGTAGGCATGGGCTTCTCGCAACACTCCGGGATGGTTATCGTCTGCGATGGCACCGATGAAGCGGCAGCGCGTATCGCCCGCGTCCTGCACAACGACCCGGCCACCGGCGTGATGCGTCATGCCGACGCGGGGTACGAGATTGCCATTGAATGCGCGGCAGAACAGGGTCTGAATCTTCCGATGGTGGCGGCAACGCAGGGGAACGCGAAATGA	MSQSKYRQLDVRAPRGTTLTAKSWLTEAPLRMLMNNLDPDVAENPHELVVYGGIGRAARNWECYDAIVKALKNLESDETLLVQSGKPVGVFKTHEHSPRVLIANSNLVPHWATWEHFNELDAKGLAMYGQMTAGSWIYIGSQGIVQGTYETFVEAGRQHYQGSLKGRWVLTAGLGGMGGAQPLAATLAGACSLNIECQQSRIDFRLRTRYVDEQATSLDDALARIKKYTAEGRAISIALCGNAAEIVPELVKRGVRPDMVTDQTSAHDPLHGYLPKGWSWEAYQQKAESDPQGTILAAKRSMADHVQAMLAFHEMGVPTFDYGNNIRQMAQEVGVSNAFDFPGFVPAYIRPLFCRGIGPFRWVALSGDPQDIYKTDAKVKEIIKDDKHLHHWLDMARERISFQGLPARICWVGLEWRQKLGLAFNEMVRSGEVSAPIVIGRDHLDSGSVASPNRETEAMRDGSDAVSDWPLLNALLNTASGATWVSLHHGGGVGMGFSQHSGMVIVCDGTDEAAARIARVLHNDPATGVMRHADAGYEIAIECAAEQGLNLPMVAATQGNAK	PGPT0020250_1133	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020250-hutU-K01712	NA	NA
BMS020_04188	726	nagR_1	COG2188	HTH-type transcriptional repressor NagR	ATGTTTTCACAGCAACCCCGTTCCGCGCCCGCGCCTTTTTATGAGAAGGTGAAGCAGGCTATCGGTGAAAAAATTCACAGCGGCGTCTGGCGACCGCATGACCGTATCCCTTCCGAAGCGGAGCTGGTGGCCCAGTTCGGCTTCAGCCGGATGACCATCAACCGCGCGCTGCGCGAGCTAACGGATGAAGGCCTGCTGGTCAGGTTGCAAGGGGTGGGGACCTTTGTCGCCGAGCCGAAAGGGCAGTCGGCGCTGTTTGAGGTGCGCAGCATTGCCGAAGAAATTATTGCCCGTCACCATCAGCACCGCTGCGAGGTGCTGCTGCTGGAGGAGACCCGGGCGGATCATATTCAGGCGGCGGCGCTCAGCGTAGCGGAAGGCACCCGCATCTTTCACTCGCTGATGGTGCATTACGAAAACGAGGTGCCGGTGCAAATCGAAGATCGCTGCGTCAATGCCGCGGTGGTGCCGGACTATCTCCAGCAGGATTATACCGCCACCACGCCCCATGATTATCTGTCGCTGATCGCCCCGTTAACAGAAGGTGAACATATTGTTGAAGCGGTGCAGGCCACGGCGGAAGAGTGCGCGCTGCTGCATATTCACGCCCACGATCCCTGCCTGCTGATCCGCCGCCGCACCTGGTCGACAACCCACATCGTCTCCCACGCGCACCTGCTGTTTCCCGGTAGCCGCTATCGTCTGCAGGGCCGCTTTGGCTCCTGA	MFSQQPRSAPAPFYEKVKQAIGEKIHSGVWRPHDRIPSEAELVAQFGFSRMTINRALRELTDEGLLVRLQGVGTFVAEPKGQSALFEVRSIAEEIIARHHQHRCEVLLLEETRADHIQAAALSVAEGTRIFHSLMVHYENEVPVQIEDRCVNAAVVPDYLQQDYTATTPHDYLSLIAPLTEGEHIVEAVQATAEECALLHIHAHDPCLLIRRRTWSTTHIVSHAHLLFPGSRYRLQGRFGS				NA	NA	NA	NA	NA
BMS020_04189	957	hutG	COG0010	Formimidoylglutamase	ATGACGCTGTGGCAAGCTACGCCCGCCAACCTTTGGCAGGGGCGCGATGATAGCGCGGAAGCGCCGAATGCGCTGCGCCTGTTTCAGACCATCCCCCGCGCGGAACGCTTCGCGCCGCAGGCGCTGCCCGGCGATATCGCGCTGCTTGGCTTCGCCTGTGACGAAGGCGTCCGGCGCAACAAAGGGCGTACCGGAGCGGCTGACGGCCCGGCGACCCTACGCCGGGCGCTGGCCAATATGGCCAGCCATCAGGGCCACGACCGCTGCGTGGATATGGGCACGATTAGCGTCGATGGCGAACAGCTGGAAGCCGCGCATCAGGCGCTGCGCGAGGCGGTGACCGCCTGCCAGCGCGCCGGGAAACGCACGCTGGTTCTGGGCGGCGGCCACGAGACCGCCTTCGGTCATGGCGCGGGGGTACTGGATGCCTTCCCGGGCGAAAAAGTGGGCATTATTAATCTCGATGCGCATCTTGATCTGCGCATTGCCGAGCGCGCCAGCTCCGGGACGCCGTTTCGCCAGCTGGCGCTGGAGTGTGACGCGCAGCAGCGCGCTTTTCACTATACCTGCATCGGCGTCAGTCGGGCGGCCAACACCCAGGCGCTCTGGGAGGAAGCGGCGCGGCGCGAGGTGGCTATCGTGGAGGATCTCCAGGTGCTGGAGGCCTTCGAAACCCGGGTGCTGGCGGAGCTTGAGCGCAACATCGCGCAGTACGATCGTCTGTATCTGACTATCGATCTCGACGTGCTCCCGGCGCGGGAAATGCCGGCGGTGTCGGCCCCGGCGGCGCTGGGCGTGCCGCTGGCGACCCTGCTGCGCATCGTTGAGCCGCTGTGCCGCAGCGGTAAGCTGCAGGCGGTGGATCTGGTGGAGTTCAACCCGCAGTTTGACATTGACGGTCAGGGCGCCCGCGCGGCCGCCCGTCTGGCATGGCAAATCGTCCATTGGTGGCAGTAG	MTLWQATPANLWQGRDDSAEAPNALRLFQTIPRAERFAPQALPGDIALLGFACDEGVRRNKGRTGAADGPATLRRALANMASHQGHDRCVDMGTISVDGEQLEAAHQALREAVTACQRAGKRTLVLGGGHETAFGHGAGVLDAFPGEKVGIINLDAHLDLRIAERASSGTPFRQLALECDAQQRAFHYTCIGVSRAANTQALWEEAARREVAIVEDLQVLEAFETRVLAELERNIAQYDRLYLTIDLDVLPAREMPAVSAPAALGVPLATLLRIVEPLCRSGKLQAVDLVEFNPQFDIDGQGARAAARLAWQIVHWWQ	PGPT0020240_793	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020240-hutG-K01479	NA	NA
BMS020_04190	1260	hutI_1	COG1228	Imidazolonepropionase	ATGAAAATAAATGTCTATACAACCCATGACAAGTTGAACGCTATGACTGAAGCCACCTCCGAACGCGTTATCTGGCGAAACGCCCGTCTCGCCACCCTGAACCCTGATGCTTCACAACCGTACGGTCTGCTGGAGCGCCACGCGCTACTGGTTCGCGACGGTCGCATTGCGGCAATCGTCCCCGAAGATGACCTCCCCAGCGGGCGCAGGATCGATCTCGAAGGCCGGCTGGTCACGCCGGGATTAATCGACTGCCATACCCACCTGATCTTCGGCGGCAGCCGGGCGCAGGAGTGGGAGCAGCGGCTGAACGGCGTCTCCTATCAGACCATCAGCGCCAGCGGCGGGGGGATTAATGCCACCGTGCGCGCCACCCGCGACAGCAGCGAAGCCGAATTACTGGCGCTGGCGCAGCCGCGTCTGGCCCGCCTGCTGCGTGAAGGGGTGACCACCCTGGAGATCAAATCCGGCTACGGTCTCGATCTGCAAAACGAACGCAAAATGCTGCGGGTCGCCCGCCAGCTGGCGCGTGATAACGCGGTGGAACTCTCGGCGACGCTGCTCTCCGCCCACGCCACGCCGCCGGAATATCAAGGCGACGCCGACGGCTATATTACGCTGGTCTGCGACACTATCCTGCCGACGCTGTGGCGGGAGGGACTGTTTGAAAGCGTTGACGTCTTCTGCGAAAACGTCGGCTTCAGCCCGCAGCAAACCGAGCGGGTGTTTCAGGCGGCGCAGGCGTTGGGCATTCCGGTTAAAGGTCACGTTGAGCAGCTCTCCTCGCTGGGCGGCGCCCAGCTGGTGAGCCGTTATCACGGACTGTCCGCCGACCATATTGAATATCTGACGGAAGAGGGGGTGGCGGCGATGCGCGAAAGCGGCACCGTGGCGGCCCTGCTGCCCGGCGCGTTTTACTTCCTCAATGAAACCCGCAAACCGCCGGTGGAACTGCTGCGCAAGTACCAGGTGCCGATGGCGGTGGCGACCGATTTCAACCCCGGCACCAGCCCCTTCGCCAGCCTGCATCTGGCGATGAATATGGCCTGCGTCAAGTTTGGTTTAACGCCGGAGGAGGCGTGGGCCGGCGTGACGCGCCATGCCGCGCGGGCGCTGGGGCGGCAGAACAGCCACGGTCAGCTGGCGGCGGGCTTTGCGGCGAACTTTGCCATCTGGGATGCCGAGCATCCGGTCGAGATGGTGTATGAGCCGGGGCGCAGTCCGCTCTGGGGACGCGTGGTACAAGGAGAATGGCAATGA	MKINVYTTHDKLNAMTEATSERVIWRNARLATLNPDASQPYGLLERHALLVRDGRIAAIVPEDDLPSGRRIDLEGRLVTPGLIDCHTHLIFGGSRAQEWEQRLNGVSYQTISASGGGINATVRATRDSSEAELLALAQPRLARLLREGVTTLEIKSGYGLDLQNERKMLRVARQLARDNAVELSATLLSAHATPPEYQGDADGYITLVCDTILPTLWREGLFESVDVFCENVGFSPQQTERVFQAAQALGIPVKGHVEQLSSLGGAQLVSRYHGLSADHIEYLTEEGVAAMRESGTVAALLPGAFYFLNETRKPPVELLRKYQVPMAVATDFNPGTSPFASLHLAMNMACVKFGLTPEEAWAGVTRHAARALGRQNSHGQLAAGFAANFAIWDAEHPVEMVYEPGRSPLWGRVVQGEWQ	PGPT0020235_682	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020235-hutI-K01468	NA	NA
BMS020_04191	1284	ybhC	COG4677	Putative acyl-CoA thioester hydrolase YbhC	ATGAACACATATTCCGTTTCCCGTCTGGCGCTGGCGCTGGCCTTCGGCGTGACGCTGTCCGCCTGTAGCTCGACGCCTGCCGATCAACAGCCCTCAACGCAGACTGCACCGGGCACCACCGCGCGTCCCATTCTGAACGCCGATGAAGCGAAAAACTTTACCCAGGCGGCCTATTTCCAGTCGCTGACCCCCAATGCCGCGGCCTGGACGCCGTCCGCCATCAGCCTGCCGGCGCAGCCTGACTTTATCGTCGGCCCGGCGGGAACCCAGGGCGTGACGCATACCACCGTCCAGGCGGCGGTGGATGCGGCGATTGCCCGCCACTCTAACCGTCGTCTGTTTATCGCCATCATGCCGGGCGAATACCCGGGCACCGTCTACGTTCCGGCGGCGCCGGGCGCCCTGACCCTGTATGGTACCGGCGATAAACCGATCGACGTGAAGATCAGCGAAGCCATTGATTCCGAAATGGATCGCAACACCTGGCGTCGTCTGGTCAATCCGGGTGGCAAATACATGCCGGGCAAACCAGCGTGGTATATGTTCGACAGCTGCCAGAGCAAATCCACCGCCACCGTCGGCGTGATGTGCTCCGCGGTCTTCTGGTCGCAGAATAACGGCCTGCAGCTGCAGAACCTGACCATCGCCAACAACCTGGGCGACAGCGTCGATGCCGGCACCCACCAGGCCGTTGCCCTGCGCAGCGATGGTGACCAGGTGCAGATCGATAAAGTGAACATTCTTGGTCGCCAGAACACCTTCTTCGTGACCAACAGCGGCGTGCAGAACCGTCTGCAGGACAACCGTCAGACCCGCACCCTGGTGACGAACAGCTATATTGAAGGCGACGTGGATATCGTTTCTGGCCGCGGCGCCGTGGTGTTTGATAACACCGACTTCCGCGTGGTGAACTCGCGTACTCAGAAAGAAGCCTACGTCTTCGCGCCGGCCACCCTGAAGAGCGTGACCTACGGCTTCCTGGCGACCAACAGCCGCTTCACCGCCTCCGGGGATAACGTCGCGCAGCTCGGCCGCGCGCTGGACGTTGACGGCAACAGCAACGGCCAGGTCGTGATCCGCGACAGCGCCATCAATGAAGGCTTTAACATCGCCCAGCCGTGGGCGGCGGCGGTAGGCTCCGGCCGTCCGTTCAGCGGCAACACCGGCAGCGCGGATGACAAAGGCAATCTGCAGCGCAACCTCAACGACAACGGCTTCAACCGTATGTGGGAATATAACAACCGCGGCGTGGGAAGCAGCGTGGTCGCCGAGCCGAAACAATAA	MNTYSVSRLALALAFGVTLSACSSTPADQQPSTQTAPGTTARPILNADEAKNFTQAAYFQSLTPNAAAWTPSAISLPAQPDFIVGPAGTQGVTHTTVQAAVDAAIARHSNRRLFIAIMPGEYPGTVYVPAAPGALTLYGTGDKPIDVKISEAIDSEMDRNTWRRLVNPGGKYMPGKPAWYMFDSCQSKSTATVGVMCSAVFWSQNNGLQLQNLTIANNLGDSVDAGTHQAVALRSDGDQVQIDKVNILGRQNTFFVTNSGVQNRLQDNRQTRTLVTNSYIEGDVDIVSGRGAVVFDNTDFRVVNSRTQKEAYVFAPATLKSVTYGFLATNSRFTASGDNVAQLGRALDVDGNSNGQVVIRDSAINEGFNIAQPWAAAVGSGRPFSGNTGSADDKGNLQRNLNDNGFNRMWEYNNRGVGSSVVAEPKQ	PGPT0001855_2889	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
BMS020_04192	2688	ctpF_1	COG0474	putative cation-transporting ATPase F	ATGAATACAGATAAACCGGGGGCGCCCTATTATCAGCGCTCCGTCGAGGAGACGCTCGCCAGCGTACAGAGTTCGCCGGACGGGATTAGCGGAACAGAGGCGGCCACGCGCCTGCAGCAGTATGGCGAAAACGCCCTGCCGCAGAAGCCGGGTAAACCCGCCTGGCTGCGTTTTATTGTGCATTTTAACGATGTGCTGATCTACGTCCTGCTGGCGGCGGCGCTGCTGAAGGCGGTAATGGGCCACTGGATCGACATGTCAGTGATCCTCGCGGTGGCGGTGGTCAATGCGCTGATCGGCTTCATTCAGGAGAGTAATGCGGAAAAATCGCTGCAGAGTATTCGCAATATGCTGTCCAGCGAGGCGGTGGTGATCCGACAGGGCAACCATGAAACCATCCCCACCACCTCGCTGGTACCCGGCGATATCGTGGTGATCCGCGCCGGCGACCGTATCCCCGCCGATTTACGGGTGATTGAGGCGCACAACCTGCGGGTGGAAGAGGCGATCCTCACCGGCGAGTCGACGGTGGTGGAAAAAACCACCGAGCCGCTAAGCGGCGATTTACCGCTTGGCGATCGCAGCAACCTGTTGTTTTCCGGGACCACCGTCAGCTCAGGGGCGGGGAAAGGGATCGTGGTGGCCACCGGCGGCGATACCGAGCTGGGCCACATCAACCAAATGATGGCGGGCATTGAGAAGCACCGCACGCCGCTGCTGGTGCAGATGGACAAGCTGGGCAAAGCCATCTTCATCCTGATTCTGGTGATGATGGCGGCGCTGTTCGTCTTTAGCCTGCTGTTCCGTGATATGCCGGTCTCCGAACTGATGCTGTCGTTGATTAGCCTCGCGGTGGCGTCGGTCCCCGAAGGGTTGCCGGCGATTATCTCGATTATTCTGTCGCTCGGCGTGCAGGCGATGGCCCGCCAGAAAGCGATTATCCGCAAGCTGCCGACGGTAGAAACCCTCGGCGCGATGACCGTTATCTGTTCGGATAAAACCGGGACCCTGACCATGAACGAAATGACGGTGAAGGCGGTGATCACCGCGGACAGCGTCTATCGGGTGGAAGGGGACAGCTATGAGCCGGTCGGTAAAATCCATGCTATCGACGACCCGACGCCGGTTGCGGTGGCGCCTGGATCGCTTCTTGAGCGCTATCTGCGCACCATCGATCTGTGTAACGACAGCCAGCTTATCAAAGAGGAAAGCGGGCTGTGGAAAATCACCGGCGGCCCCACCGAGGGGGCATTGAAGGTGCTGGCGGCGAAGATAACCCTGCCGCCGCAGCCCAGCGAGCTGCGCAGTAAAATTCCTTTTGATTCGCAATATAAATACATGTCGACGCTTTACCGGCTGGGCGAAGAGGAGGTGGTGCTGGTCACCGGCGCGCCGGATGTTCTGTTCCGCCTGTGCCAGTATCAGCAGAGCGACAGCGGGTTGCAGCCGCTGGATCTCCCGTACTGGGAAAGCAAAATTGAAGAGTACGCCCGGGAGGGGCTGCGAATGGTGGCCGCGGCCTGGAAGCCGGCTGCCGCAGGCCAGACCGAGCTGACCCATCAGGATCTACAGCAGGGGGTCATTTTATTAGGGGTTGCCGGGATGATGGATCCGCCGCGTCCGGAAGCGATCACGGCGATTGCCGACTGCCTGCAGGCCGGGATCCGCGTCAAGATGATCACCGGAGACCACCCGCAAACGGCGATGAGCATCGGCAAAATGCTGGGGATTGGCAATGCGGGGAACGCCATTACCGGGCGCGAGCTGGAGGTGATGGACGACGCGCAGCTGAGCGTGGCCGCGCAGCAGTTCGATATCTTCGCCCGCACCAGCCCGGAAGATAAGTTCCGTCTGGTGCAGGCTCTGCAGAGCAAGAAAGAGATTGTCGGCATGACCGGAGACGGGGTGAACGATGCCCCGGCGCTGAAGCAGGCTGACGTCGGCGTGGCGATGGGGATCAAGGGGACCGAGGTGACCAAGGAAGCCGCCGATATGGTGCTGACCGATGACAACTTCGCCACCATCGCCAGCGCGGTCCGCGAGGGGCGCCGGGTGTATGACAACCTGAAAAAAACCATTCTTTTTGTCATGCCGACCAACCTTGCGCAGGGGTTACTGATCGTGATCGCGCTGCTGGCGGGCAACGTACTGCCGCTGACGCCGGTGCTGATCCTGTGGATGAACATGGCCACCTCCGCCACGCTGTCGTTTGGTCTGGCGTTTGAAGCCGGTGAGAAAAATATTATGCGGCGGCCGCCGCGCGACCCGAAACTGCACGTGATGGACGGCTTTGCCATCTGGCGCGTGGCGTTTGTGGGGGCGATGATTGCGGTCAGCGCTTTTATTCTCGAAGCCTGGCTGCAGCCGCGCGGCTATTCGCCGGAGTTTATCCGTACCGTGCTGTTGCAGACTCTGGTCACCGCCCAGTGGTTCTATATGCTGAACTGCCGCGTGTCGGATGGTTTCTCGTTGACCAAAGGTCTGCTGGCTAACAAAGGGATCTGGATCGTCAGCGGCGTGCTGCTGGTGCTGCAGCTGCTGATTATCTATGCACCGTTTATGCAGATGCTGTTCGGCACCACCGGGCTGCCGTTCCGCTACTGGGTGATCACCTTTATCATCGGCTTCGCCATGTTCCTGATTGTGGAGCTGGAAAAACCGCTGACCCGCAAATGGCGAACCGCCTGA	MNTDKPGAPYYQRSVEETLASVQSSPDGISGTEAATRLQQYGENALPQKPGKPAWLRFIVHFNDVLIYVLLAAALLKAVMGHWIDMSVILAVAVVNALIGFIQESNAEKSLQSIRNMLSSEAVVIRQGNHETIPTTSLVPGDIVVIRAGDRIPADLRVIEAHNLRVEEAILTGESTVVEKTTEPLSGDLPLGDRSNLLFSGTTVSSGAGKGIVVATGGDTELGHINQMMAGIEKHRTPLLVQMDKLGKAIFILILVMMAALFVFSLLFRDMPVSELMLSLISLAVASVPEGLPAIISIILSLGVQAMARQKAIIRKLPTVETLGAMTVICSDKTGTLTMNEMTVKAVITADSVYRVEGDSYEPVGKIHAIDDPTPVAVAPGSLLERYLRTIDLCNDSQLIKEESGLWKITGGPTEGALKVLAAKITLPPQPSELRSKIPFDSQYKYMSTLYRLGEEEVVLVTGAPDVLFRLCQYQQSDSGLQPLDLPYWESKIEEYAREGLRMVAAAWKPAAAGQTELTHQDLQQGVILLGVAGMMDPPRPEAITAIADCLQAGIRVKMITGDHPQTAMSIGKMLGIGNAGNAITGRELEVMDDAQLSVAAQQFDIFARTSPEDKFRLVQALQSKKEIVGMTGDGVNDAPALKQADVGVAMGIKGTEVTKEAADMVLTDDNFATIASAVREGRRVYDNLKKTILFVMPTNLAQGLLIVIALLAGNVLPLTPVLILWMNMATSATLSFGLAFEAGEKNIMRRPPRDPKLHVMDGFAIWRVAFVGAMIAVSAFILEAWLQPRGYSPEFIRTVLLQTLVTAQWFYMLNCRVSDGFSLTKGLLANKGIWIVSGVLLVLQLLIIYAPFMQMLFGTTGLPFRYWVITFIIGFAMFLIVELEKPLTRKWRTA	PGPT0013990_3133	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CALCIUM_TRANSPORT,PGPT0013990-yloB|ctpA-K01537	NA	NA
BMS020_04193	432	uspG_2	COG0589	Universal stress protein UP12	ATGTATAAAAATATCGTTGTTCCCGTTGACGTGTTTGATGCAGGCCTGGCCGACAAAGCCCTTTCTCATGCGAAATTCCTCGCCCAGCATTCTTCCGGGCAAATTCATCTGGTCCATGTCATTCCGGCATTCTCTCCGGTGTTAACGCGCGGATTTATCTCTGATGCGCGAAAGATGGAAGACCATTTGATTAATACCGCTAAGGAAAAACTGACTGAGCTGATCAAAAAAAATGGCCTTGCGGAAGACGCCAGCCATCTTTATGTGCGCAGTGGCAATGTTCGCGATCAAGTGATTGCTCTGGCCGATGAGCTACAAGCGGACGTGGTGATTGTCGGTTCGCGCAACCCGGGGATTCAGACTCACCTGCTGGGCTCGGAAGCGGCCAATATCGTGCGCTATGCCCATGTACCGGTTTTCGTTGTGCGCTGA	MYKNIVVPVDVFDAGLADKALSHAKFLAQHSSGQIHLVHVIPAFSPVLTRGFISDARKMEDHLINTAKEKLTELIKKNGLAEDASHLYVRSGNVRDQVIALADELQADVVIVGSRNPGIQTHLLGSEAANIVRYAHVPVFVVR	PGPT0014880_72	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014880-uspG-K11932	NA	NA
BMS020_04194	111			hypothetical protein	ATGTTTGGTTATAGCCTGTTACGTCTGGGATTATTTGTCGCGCTGGCCATTGTCGCCTGCACGCTGGTGGGACTATTCACCTATCTGGTTGTCGCCGCCCTCGCCGAATAA	MFGYSLLRLGLFVALAIVACTLVGLFTYLVVAALAE				NA	NA	NA	NA	NA
BMS020_04195	1086	mdtA_3		Multidrug resistance protein MdtA	GTGAACCGTTATTTTTCTCTCATCCCGGTTGTTATTTTATTTACAACCGCTTGCGATCAGAAATCGCCGTCCGTCGAGTCCGCCCCGCGCATGGTCAAGGTGGCGCAAGTGACCGCCGTGGGTAATACCCAGCAGCGAACGTTTCCGGCACGTATCGAGTCTGGCGACTCCACCGAGCTGTCGTTTAAGCGGGGGGGACAGGTGGAATCGCTGGATATTCGCCAGGGGGCGACCATCGCCCAGGGGCAAACGCTGGCGCGCCTGAATGCCCGCGAGGCCCAACAGCGGGTCAATGAGCGACAAACGGCGGCCACCCTCGCCCAGCGTCAGTTTGATCGCTTCCAGACCCTGGCGGGACGTCAGGCGATTTCCCAGGCGGAGATGGACGTGCAGCGCGCCAATCGCGATGCCGCCAACGCGGCCTTAAAAATCGCCCGTGAAGAGCTGGCGCAAATGAGCCTCACCGCGCCCTTCGGCGGGATTGCCGCCGGCGTGCATATCCGCAACCATCAGGTGGTCGCCGCCGGCCAGCCGGTGATCACCCTGACGCGTACCGACCTGCTGGATGTGGTCTTCAGCATTCCCGAAAATCTGTTCACCTCCCTGGATATCCGCAATACCGCCTACCGCCCCGTCGTCAGGATCAATACCCTGCCGGGCCGCGAATTTACGGCGGAATACAAAGAGCATACCGGCAGCAGCGACAGCAGCACCCTTACCTGGCAGATCATTTTAACCATGCCGCGGCCGGATGATTTTCCCACCGTCGGCGGGGTCAGCGGCACCGTGACGGTCAATCTCGGCAATTTACCGGCCAGCGCCGGAAGGGAAACGCTCATGGTGCCGGTAGAGGCGGTGTTTAACCCGGATAACCGGCCGAAGAATGAACCGGTCGTCTGGGTGGTGAAAGGCGACAACGCGCATCGGTTTCTTGAGGAGCGCAAGGTCACGGTCGGCGAGGTGACCTCGCAGGGAGTGGCCATCACCGACGGTCTCCGCGCGGGTGAAGAGGTGGTCGCGGCGGGCGTGAGCGAGCTGCACGCCGGGCAGCCGGTGCGGATCTGGACGCGTGAACGAGGATTATAA	MNRYFSLIPVVILFTTACDQKSPSVESAPRMVKVAQVTAVGNTQQRTFPARIESGDSTELSFKRGGQVESLDIRQGATIAQGQTLARLNAREAQQRVNERQTAATLAQRQFDRFQTLAGRQAISQAEMDVQRANRDAANAALKIAREELAQMSLTAPFGGIAAGVHIRNHQVVAAGQPVITLTRTDLLDVVFSIPENLFTSLDIRNTAYRPVVRINTLPGREFTAEYKEHTGSSDSSTLTWQIILTMPRPDDFPTVGGVSGTVTVNLGNLPASAGRETLMVPVEAVFNPDNRPKNEPVVWVVKGDNAHRFLEERKVTVGEVTSQGVAITDGLRAGEEVVAAGVSELHAGQPVRIWTRERGL				NA	NA	NA	NA	NA
BMS020_04196	3066	bepE		Efflux pump membrane transporter BepE	ATGGACATTTCCCGTCAGTTTATTAATAACCCGACCCGCGTCTGGTTAGCCATTCTGCTGCTGGGGGTGGGTGGTCTGTTCGCCCTGCTCAATATCGGCCGTCTGGAAGATCCTGCCTTCACCATCAAAACGGCGGTGATCGTGACCCACTACCCGGGCGCGTCCGCTCAACAGGTGGAGGAGGAGGTGACCCTGCCGCTGGAAAACGCGATTCAGCAGCTTCCCTCACTGGATAACGTCAGCTCCATCTCCTCAAATGGCTTATCGCAAATTACGGTGAATATCGCTTCGCAGTACCATTCCAGCGAGCTGCCGCAAATCTGGGATGAGCTACGTCGCCGCGTCGGTGACGCCAGCCGACTTTTCCCCCCTGGCGTAGTGACCCCCTTCGTCAACGATGACTTTGGCGATGTGTTTGGCTTTTTCTTCGCTATCTCGGGCGACAGTTTTACCAACCCCGAGCTGGTGCGCTATGCCGAACAGCTGCGTCGGGAGCTGGTGCTGGTTCCTGGGGTCGGTAAAGTCGCTATCGGCGGCGTCATTCCGCAACAGATCAATGTTGATATCTCGCTGGCGAAAATGGCGGCGCGCGGGATCACGCTCAACCAGCTCGCCGCTATCCTGACCCGGCTCAACGTGGTGTCCAGCGCCGGAGAGATCCGCGTTGGCAGCGAATCGATCCGCCTACACCCCACCGGGGAGTTTCAAAGCATCGATGAACTGGGGGATCTGCTGGTCAGCCCTCACGGCGCCAGCGCCACCACTCGACTGCGGGATATTGCCACGCTGTCGCGCGGGCTGACTGACTCGCCGTCCAGTATTTATCATGCCAACGGCCGCCAGGCGGTGACCATGGGGGTCTCTTTTATTCCTGGCGTCAACGTCATTGACGTCGGGCACGCCCTTGAAGCCCGCCTCCAGCAGATGGCCGCCGACAAACCGGCGGGTATCGATATCGCCATTTTTTACGATCAGGCGGCTGAGGTCGCCCACTCGGTCAATGGCTTTATTACCAACTTCCTGATGGCCCTGGCGATCGTGGTCGGCGTGCTGCTGGTGTTCATGGGAGTACGCAGCGGGATCATTATCGCCCTGTCGCTGGCGCTCAACGTCCTCGGCACCCTGCTTATCATGTTTGTCTGGGGGATCGAGTTACAGCGGATCTCCCTCGGGGCGCTGATCATCGCCCTGAGTATGCTGGTGGATAATGCCATTGTCATTGTCGAAGGGGTGCTGATCGCCCGCCAGCAAGGATCGCCGCTGCTGGGCGCCATTAACTATGTGATCCGCCGCTCCGCCCTGCCGCTGCTCGGCGCCACGGTCATCGCCATCCTCGCCTTCGCGCCGATTGGCCTCTCGCAGGACTCCACCGGAGAGTATTGCAAATCCCTGTTCCAGGTGCTGCTGATCTCCCTGATGCTCAGCTGGTTCTCCGCCCTGACCATCACTCCGGTGCTCATTAAGTGGTGGTTGTTTAAACACGCCCCGCCGGCCGCTGCGCCGGAGGAGAAAGCCGATCCCTACCGCGGCCGCTTTTACCGTGGCTATCAGCAGACGCTGCGAATACTGCTGCAGCAAAAGACCCTGACCCTGGTGCTGATGGGCGCCCTGCTGGCCGCGGCGATCTGGGGCTTCACCTTCGTGCGGCAGAATTTCTTTCCGTCATCGAATACGCCCATTTTCTTTGTCGACCTGTGGCTGCCCTACGGTACCGATATTAACGCCACCGAGCAGATGACCCGCGATATTGAGCGGTCGATCGCCGGCCAGCCGGGGGTGGTCACCACCGTCGCCACCATTGGCCAGGGCAGTATGCGTTTTATTCTTACCTACAGCGGTCAGCGGCAGTACAGCAACTACGCGCAGATTATGGTGCGGATGGACGACCAGCGCGGCATCGCCCCCGTCACCCGCCACGTCGAAACCTGGATCGCCAGAAACTACCCGCAGGTGAACGCCAGCACCAAACGCATTATGTTCGGTCCCTCCGGGGATAGCGCGATTGAAGTGCGCATTAAGGGCCCTGACCCGGATACGCTGCGCGCGCTGGCCAGTCAGGTGAGCGATATTCTCGCTGAGGATCCGGCGACCGACAGCGTGCGTAACGACTGGCAGAACCGCAGCAAGGTGATCCGCCCGCAGTACTCCCTAGCGCTGGGGCGCGAGCTGGGGGTGGATAAACAGGACATTGATAACGCGCTGGAGATGAATTTCTCCGGCAGTCGCGCCGGGTTATATCGCGAGGGCGCCGATCTGCTGCCGGTGATCGTCCGGCCGCCGGCAGCGGAGCGACAGGATGCCAACCATCTGCATAACGTGCTGGTCTGGAGCCAGAGCCGCCAGCAGTATATCCCGTTGAGTAACGTCATCCATGGCTTCTCCCTGGAGTGGGAAGATCCCTTGATTCTCCGCCGGGATCGCACCCGGGTGCTGACGGTCCAGACCGATCCCAGCCCGCAAAGCGGCCAAACCTCGGGTGATATTCTCGCCCGGGTGAAACCGCGCATTGACGTATTGACGCTGCCGCATGGCTACCGCATCGAATGGGGCGGCGATGCCGAGAACTCAAGTGAAGCACAGCAAGGGCTGTTCACGACCTTGCCGCTTGGCTATCTGGTGATGTTTATCATTACGGTGCTGATGTTCAGTTCGCTGAAAAACGCCGTCGCCATCTGGCTGACCGTCCCGCTGGCGCTGATCGGCGTCACGCCCGGCTTTTTGCTGACCGGCATCCCCTTCGGCTTTATGGCCTTAATCGGCCTTCTCAGCCTCAGCGGCATGCTGATCCGCAACGGCATTGTGCTGGTGGAAGAGATAGAGCAACAAAAACAGGAGAAAGATCAACGACAAGCGATCATTGATGCGGCAACATCTCGTCTGCGGCCGATCCTGCTGACCGCCTTCACCACCGTGCTTGGCCTTGCCCCGCTGCTGCGCGATGTTTTTTTCCAGAGTATGGCAGTGGTGATTATGTTCGGTCTGGCCTTCGCCACAGTGCTAACGTTGCTGGTTCTGCCGGTGATTTACGCCTGCTTTCACCATAAGGATATGACGCCTCAACGATGA	MDISRQFINNPTRVWLAILLLGVGGLFALLNIGRLEDPAFTIKTAVIVTHYPGASAQQVEEEVTLPLENAIQQLPSLDNVSSISSNGLSQITVNIASQYHSSELPQIWDELRRRVGDASRLFPPGVVTPFVNDDFGDVFGFFFAISGDSFTNPELVRYAEQLRRELVLVPGVGKVAIGGVIPQQINVDISLAKMAARGITLNQLAAILTRLNVVSSAGEIRVGSESIRLHPTGEFQSIDELGDLLVSPHGASATTRLRDIATLSRGLTDSPSSIYHANGRQAVTMGVSFIPGVNVIDVGHALEARLQQMAADKPAGIDIAIFYDQAAEVAHSVNGFITNFLMALAIVVGVLLVFMGVRSGIIIALSLALNVLGTLLIMFVWGIELQRISLGALIIALSMLVDNAIVIVEGVLIARQQGSPLLGAINYVIRRSALPLLGATVIAILAFAPIGLSQDSTGEYCKSLFQVLLISLMLSWFSALTITPVLIKWWLFKHAPPAAAPEEKADPYRGRFYRGYQQTLRILLQQKTLTLVLMGALLAAAIWGFTFVRQNFFPSSNTPIFFVDLWLPYGTDINATEQMTRDIERSIAGQPGVVTTVATIGQGSMRFILTYSGQRQYSNYAQIMVRMDDQRGIAPVTRHVETWIARNYPQVNASTKRIMFGPSGDSAIEVRIKGPDPDTLRALASQVSDILAEDPATDSVRNDWQNRSKVIRPQYSLALGRELGVDKQDIDNALEMNFSGSRAGLYREGADLLPVIVRPPAAERQDANHLHNVLVWSQSRQQYIPLSNVIHGFSLEWEDPLILRRDRTRVLTVQTDPSPQSGQTSGDILARVKPRIDVLTLPHGYRIEWGGDAENSSEAQQGLFTTLPLGYLVMFIITVLMFSSLKNAVAIWLTVPLALIGVTPGFLLTGIPFGFMALIGLLSLSGMLIRNGIVLVEEIEQQKQEKDQRQAIIDAATSRLRPILLTAFTTVLGLAPLLRDVFFQSMAVVIMFGLAFATVLTLLVLPVIYACFHHKDMTPQR				NA	NA	NA	NA	NA
BMS020_04197	966			hypothetical protein	ATGAACAGTACCGGTCTGAGCATTATTAAGACACTCGGCTGTATGACAGCGGTGACTTTTTTCACCATCTATAACACCTGGGATCGCTTTGATTATGACTATCACTGGATCCTCGGGCTGCTGACCTTTGTCTCGACCATCGCCACGCCGCTGTTTTTTGTGGTTGCCGGCTATCTTGATGCGCAAACGCGACACGACGCCAACTGGCAAATTGGTAAAATTAAAAGCGTGGTGATCGTCTTTCTGTTTTGGGTGACGGTCTATTATGTCTGGGAGCCTTACCAGCGCGGCTATCTGATCCAGCCCTGGTTTATTTTCGCCCTGATTGTCATCTATACCTTCCATCCCCTGATTGCCTGGCTCAGCCAGCGGCGCGGTCTGTTTTTCTCCGTGGTCCTGACGCTACTGTGCTGCTCTTATGGTTACGACCTGCTCTCGGTGCTCTACCCGGAAAGACATCTTTTCAGCCTGGCGCCGCAGTATCGTCTGTGGACGTGGCTACTTTTTTATTTAACCGGGCAGTTGTTTAACGATCCGCGGGTCACGGAGTGGATACGCGACCCGCGGGTGATTAAAGCCGCCATTATCGCCCTGCCCTTTGTCTATTTATTTACCTGGTTTTATGAACGCCACTTTTTCTTCGCGCTGTTTAAAGCCGATCGCAATGCGTTCATTCTCACGGGGTCGCAGATTTATATTCTGATCGTCCTGCTGGTGATCGCCGCTAACGCCGTACAGTTTAAAAAGAACCGCGAACTGAAGGAGGCCGTGCTGGCGACGGTTAGCAAAGCGATGACCGGGGTCTATATCCTGCACTACTCCGTTTTTCACCTGCTGGTGATGCTGATCCCTATTCACTCGTTAGCCACCAAGCTGGGAGTGATTGTCCTAACGTTTGTCCTGTCGGTGCTCATTTCCCTCGCCGCGCTCTCCAGCACGCTGCTCAGGAAGGTGATAACCCTGTAA	MNSTGLSIIKTLGCMTAVTFFTIYNTWDRFDYDYHWILGLLTFVSTIATPLFFVVAGYLDAQTRHDANWQIGKIKSVVIVFLFWVTVYYVWEPYQRGYLIQPWFIFALIVIYTFHPLIAWLSQRRGLFFSVVLTLLCCSYGYDLLSVLYPERHLFSLAPQYRLWTWLLFYLTGQLFNDPRVTEWIRDPRVIKAAIIALPFVYLFTWFYERHFFFALFKADRNAFILTGSQIYILIVLLVIAANAVQFKKNRELKEAVLATVSKAMTGVYILHYSVFHLLVMLIPIHSLATKLGVIVLTFVLSVLISLAALSSTLLRKVITL				NA	NA	NA	NA	NA
BMS020_04198	507			hypothetical protein	ATGCGCGGTAAAAGCGTGATGCTCCTGGCCGGGTTAGCGACTCTCGCGCAGGCGAAAGAGATTAACCTCTATTCGGTGAATACCGGTTCCTATGTTTACCATCTGACCAATAATCACGGTCAATATACTGAGAATTTCGAGAACCACTTTTTCTCGGTGGAGCGGAAATTCTCTGCCGACTCGAAATACAGCCTGCTGATTGGCACCATGAATAACAGTTTCGACGATCGCTGTCTGGCGCTGGGGGTGAGAAGAGACTGGTACCACAACGGCAGCGGGTGGACCTTCAAAGGCGTTTACGGCTATACCGGCGAATTCTTCTTCGACGCCTTCGAGCATTGCGGCGATCATGGCTCCTATAAAGATTTTAAGGACGCCACCGGGATCGGCTTTTCACCCTATATCTACCATGCTATCCAGTACAACTTTACCGACTATTTCGCCCTTGAGAGCGGCATTATTATTCCCAGCGTGTTTGTGATCAGCATCCAGTGGAGCTTCCGCTAA	MRGKSVMLLAGLATLAQAKEINLYSVNTGSYVYHLTNNHGQYTENFENHFFSVERKFSADSKYSLLIGTMNNSFDDRCLALGVRRDWYHNGSGWTFKGVYGYTGEFFFDAFEHCGDHGSYKDFKDATGIGFSPYIYHAIQYNFTDYFALESGIIIPSVFVISIQWSFR				NA	NA	NA	NA	NA
BMS020_04199	213			hypothetical protein	ATGCATATTAAAAATACCATTCCAGCAGAGTTTGTCTTCAATTCGGCCCTGATGAAGAATATTGAAAATACGCTCATTAAGCAGCACAGAACGATAAATAATGAGCGGATGATTACGGAAATTCAGCATCGCCTGCAAACGGAAAGTAATGAAATACTCTCCGACCTCTATTTGCAGGCGCTGGATATGTTGTACAGCAAACCTCATCATTAA	MHIKNTIPAEFVFNSALMKNIENTLIKQHRTINNERMITEIQHRLQTESNEILSDLYLQALDMLYSKPHH				NA	NA	NA	NA	NA
BMS020_04200	555			hypothetical protein	ATGTCACACCATAATACCTGCTATCGTACTGAACATTACGATCTGTGGTTTGATAATCGTTTTCTTCTCTATGGGATGTCGCTGATCCTGAATAGTCTGCCGGCATCTTACTTTCGCAAAAAACATGTTTTCTTTACCAGCGACAATTATTTCGCGGTACTGCAGCACAACTATAATCGTCGGGATACGTTATTTATTCTGTTAACCGAAGGCAACGATCTTAATTTTCTTAGTGAACTGCCTATGCTGCGCTTACCGGCCAATTCAACGCCGGAAGAGTTAAAGATATTTCTGCACCAGCCAACCCGCTACTATAAAACCCACCCGGCGCCGGGCGCCTCGGTGCAGTTTACCGAGCGGGAAAAGAAAGTGATTCAACTTATCAGCAATGGCGAAGCGGTCGCCAGCATTGGCCGGTCGCTGAATCTGCATATTAAAACCATTTATCAGATCCGGCTGAATCTGATTAAAAAGCTCGGCTGTAGCGGTAGGACCGATTTTTTTAATATCAGCCGCAGCGAAACCTTTAAATCCTGGAGCCAGATCCACCTGTAA	MSHHNTCYRTEHYDLWFDNRFLLYGMSLILNSLPASYFRKKHVFFTSDNYFAVLQHNYNRRDTLFILLTEGNDLNFLSELPMLRLPANSTPEELKIFLHQPTRYYKTHPAPGASVQFTEREKKVIQLISNGEAVASIGRSLNLHIKTIYQIRLNLIKKLGCSGRTDFFNISRSETFKSWSQIHL				NA	NA	NA	NA	NA
BMS020_04201	735	bluR	COG0789	HTH-type transcriptional repressor BluR	ATGGCGTTTTACAGTATCGGTGAAGTCGCCGAACGTTGCGGAATCAATCCGGTCACACTGCGCGCCTGGCAGCGTCGTTACGGTCTACTGAAACCGCAGCGTAGCGAAGGCGGGCATCGGCAATTTGATGAAGAAGATATCCTGCGCATTGAAGAGATCAAGCGCTGGATCGAGCGCGGCGTATCCGTCGGGAAAGTCAAAGCGCTGCTGGAGGGTAACCTGCCGGCGGCGCGCGACGAATCCGCGCATCTTCAGGAAGAGATGATGTCCATTCTGCGTTATATGCAGCCCGCCAGAATCCGTGCCAAATTACTGGCGCTAAGCCATCAACACCCCGTCGACACGCTCATCGACAGCCTGTTAGTGCCGGTACGTCAGCGTCTGAAGCTCGATCAGAATACCTCTCTGGTGATTAGTAGTTTGCTGGATGGTCTGCTGATTGACTGCGTGGCGCTGTTTCTCGCCGAAGCGCGTAAAAAGAACGGCAGGGAGACGCTGCTGGTGGGCTGGAGCAATGAGGACAGGACGCGTCTGTGGCTGGAGGCATGGCGTCTTTCCCAGCGCGGCTGGCACGTCAACGTCCTCGCCGAACCGCTGGAGTCGCCGCGGCCCGAGCTGTTCCCCGGGCAGCATATCTTCGTCTGGACCGGACGCGCCGCCACCCCTCTCCAGGAAGAGCTGCTCAGCCACTGGCAGGAGCAGGGCTTCAGCATCCATTTTCACGGTAATAATTAA	MAFYSIGEVAERCGINPVTLRAWQRRYGLLKPQRSEGGHRQFDEEDILRIEEIKRWIERGVSVGKVKALLEGNLPAARDESAHLQEEMMSILRYMQPARIRAKLLALSHQHPVDTLIDSLLVPVRQRLKLDQNTSLVISSLLDGLLIDCVALFLAEARKKNGRETLLVGWSNEDRTRLWLEAWRLSQRGWHVNVLAEPLESPRPELFPGQHIFVWTGRAATPLQEELLSHWQEQGFSIHFHGNN	PGPT0026250_101	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-BF-BLUE_LIGHT|COLD|STARVATION_SIGNALLING,PGPT0026250-bluR|ycgE-K21972	NA	NA
BMS020_04202	1212	bluF_2		Blue light- and temperature-regulated antirepressor BluF	ATGCTAACCACCATCATTTATCGCAGCCATATTTGCGACAATGTCTCATTCAAATCGATCGAGGCCATGGTTGCCAGGGCAAACGAAAGAAATGGGCAGGCGGACGTCACCGGTATTTTACTTTTTAACGGGACGCATTTTTTTCAACTCATTGAGGGACCTGAAGAAAAGGTTCAGGATATTTATCAGCATATTTGCCGGGATCCCCGCCATTATAACCTGGTGGAGCTTCTGTGCGATTATGCGCCGTCCCGCCGTTTCGGCAAGGTCGGCATGGAACTGTTTGATTTACGGGAACATGATCGCGAGGAGGTGCTGCAGGCGGTGATGGACCGCGGGACCACAAAATATCAGCTCACCTATGATGACCGGGCACTGCAATTTTTCCGCACCTTTGTCGAATCAACGGAAAAAGCGAACTATTTTGAGATTCCTTCCGCTGACAGCTGGGTATTTATCCCCGATCAGAATACTTTCTATCCTGATACGCCGATAATTGATAATAAGGAAAGCTGGTCCTTTGCCTTCCAGCCGATTGTCGACCCTTTCGCTTGCGAAATTATTTCGTGGGAAGCGCTGTTACGCACACCGGACGGCCAGTCGCCTGGCGCCTATTTTGCCGGGCTTTCCGGGGACGATATTTATCTCGCCGATCTGCACAGTAAACGCGTCGCGCTGTCGCTGGCCGGGCAATTAGGCTTACGTAATAAGGCGTTAAGTATTAATTTACTGCCGATGACGCTGGTTAAAGCGCCGAACGCGGTGGGTTTCCTGCTCGATCAAATTCAGCGTAATGATCTTATTCCTGAACAGATTATTGTCGAGTTTACCGAACGGGAAGTGATTTCGCGGATGGATGATTTTACCGATGCGGTGCGAAAGCTAAAAGGGGCGGGTATCAATCTTGCCATCGATCACTTCGGCGCCGGGTTTGCCGGGCTGTCGCTGCTGGCGCAATACCAGCCCGACAGAATTAAAATCGACCATGAGCTGATCCGCAATATCCACCAGGATGGACCGCGCCAGTCAATTGTACAGGCGATTATCAAATGCTGTTTTTCGCTGGAGATTGCGGTTTCTGCCGTCGGCGTTGAGCGTGCTGAAGAGTGGATGTGGCTGGAATCAGCCGGTATTTCGCAGTTTCAGGGGAATTTGTTCGCCAGCGCGCGCCTGGGGGGCTTACCCGCCGTCGCCTGGCCGGAAAAAAAATAA	MLTTIIYRSHICDNVSFKSIEAMVARANERNGQADVTGILLFNGTHFFQLIEGPEEKVQDIYQHICRDPRHYNLVELLCDYAPSRRFGKVGMELFDLREHDREEVLQAVMDRGTTKYQLTYDDRALQFFRTFVESTEKANYFEIPSADSWVFIPDQNTFYPDTPIIDNKESWSFAFQPIVDPFACEIISWEALLRTPDGQSPGAYFAGLSGDDIYLADLHSKRVALSLAGQLGLRNKALSINLLPMTLVKAPNAVGFLLDQIQRNDLIPEQIIVEFTEREVISRMDDFTDAVRKLKGAGINLAIDHFGAGFAGLSLLAQYQPDRIKIDHELIRNIHQDGPRQSIVQAIIKCCFSLEIAVSAVGVERAEEWMWLESAGISQFQGNLFASARLGGLPAVAWPEKK	PGPT0026255_135	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-BF-BLUE_LIGHT|COLD|STARVATION_SIGNALLING,PGPT0026255-bluF|ycgF-K21973	NA	NA
BMS020_04203	246	ycgZ		putative two-component-system connector protein YcgZ	ATGCAGCAGAATGGTTACATTCCAGATACAGCGAACGCAATTGCCCAGTATTTCAACAAAGCATCGTTACCTTCCCAGCAGGAAACGCTGGGTCAGATTGTGATGGATATTCTCAACGAAGGGCGTCATCTCAACCGCAAGGCGCTGTGCACTAAACTGTTGAGCCGACTCGACCGGGCCCGTGCCCCCGAGGAAGAGAGTCACTATCAGACCTTAATTGGTCTGCTGTTTGCCGATCAGGAATAA	MQQNGYIPDTANAIAQYFNKASLPSQQETLGQIVMDILNEGRHLNRKALCTKLLSRLDRARAPEEESHYQTLIGLLFADQE	PGPT0026260_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-BF-BLUE_LIGHT|COLD|STARVATION_SIGNALLING,PGPT0026260-ycgZ-K21974	NA	NA
BMS020_04204	267	ariR		putative two-component-system connector protein AriR	ATGCATCAGCAACCCGATATTTACGCAGGACTGCAGGACACCGCGCTCTCCGACTATTTCCGTAACGCCGGTGATAAGCTGGTTGATGAGTCCGCCGTGATGTCGCTGGCCATCAACAGTATTCTCCAGTCCGAAGGTCACCTGAACAATAAGGCCATTATTTTATGGCTGATTCAGGCGCTGGAAAGCACCGATGACGTGGTGACCGCAGACGTGATCCGTAAAACGCTGGAGATTGTCGTCGGCTACACCATGGACGATATCTAA	MHQQPDIYAGLQDTALSDYFRNAGDKLVDESAVMSLAINSILQSEGHLNNKAIILWLIQALESTDDVVTADVIRKTLEIVVGYTMDDI	PGPT0016120_86	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_BIOSYNTHESIS,PGPT0016120-ariR|ymgB-K21976	NA	NA
BMS020_04205	996	pgl_1	COG2706	6-phosphogluconolactonase	ATGAAACAAACCGTTTATACCGCCAGCCCGGAAAGCCAACAAATCCACGTCTGGAGTCTTGAAGCGGACGGCAAACTGACGCTGGTGCAGGTGGTTGATGCCCCGGGGCAGGTCCAGCCGATGGTGGTCAGCCCCAATAAGGAGTATCTGTACGTTGGCGTTCGTCCGGAGTTTCGCGTGTTAGCTTATCGCATCACGCCGGATAACGGGGCGTTGACCTTCGCAGGGGAAGCGGCGCTGCCGGGCAGCCCGACCCACATCTCTACCGATCATCATGGTCGCTTTGTCTTCAGCGCCTCCTACAATCAGGGCTGCGTCAGCGTGACCCCGCTGCAGGATGGTCTGCCAGGCGAAACCATCACCGTGGTGGACGGGCTGGAAGGCTGCCACTCGGCCAATATCTCCCCGGACAATCGTACCCTGTGGGTGCCGGCGCTGAAGCAGGATCGCATCTGCCTGTTTACCCTCAGCGAGGATGGTTTCCTCTCCACCCAGGAGCCAGCGGAAGTCACCACCGTCGAAGGGGCGGGTCCGCGCCACATGGTGTTCCATCCGAACCAGCAGTATGGTTACTGCGTCAATGAGCTGAACAGCTCAATTGACGTCTGGGAGCTGAAAGACCCGAATGGCAACATCGAATGTGTACAAACTCTGGATATGATGCCGTCTGATTTCACCGGCGTGCGCTGGGCGGCGGATATTCATATCACTCCGGACGGTCGTCACCTGTACGCCTGCGATCGTACCGCCAGCATCATCACGGTGTTCAGCGTGTCGGAAGATGGCAGCGTGCTGGCGGTGGAGGGCTATCAGCCGACCGAAACCCAGCCGCGCGGCTTTAATCTCGATCACAGCGGTAAGTATCTGATTGCCGCCGGGCAGAAGTCGCACCATATCGCGGTGTACGAAATTACCGGCGAGCAGGGGCTGCTGCAGGAGAAAGGTCGCTATGCGGTCGGGCAGGGGCCGATGTGGGTGGTAGTCAACGCCCACTGA	MKQTVYTASPESQQIHVWSLEADGKLTLVQVVDAPGQVQPMVVSPNKEYLYVGVRPEFRVLAYRITPDNGALTFAGEAALPGSPTHISTDHHGRFVFSASYNQGCVSVTPLQDGLPGETITVVDGLEGCHSANISPDNRTLWVPALKQDRICLFTLSEDGFLSTQEPAEVTTVEGAGPRHMVFHPNQQYGYCVNELNSSIDVWELKDPNGNIECVQTLDMMPSDFTGVRWAADIHITPDGRHLYACDRTASIITVFSVSEDGSVLAVEGYQPTETQPRGFNLDHSGKYLIAAGQKSHHIAVYEITGEQGLLQEKGRYAVGQGPMWVVVNAH	PGPT0014975_2397	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
BMS020_04206	819	ybhA	COG0561	Pyridoxal phosphate phosphatase YbhA	ATGACAACACGCGTGATTGCCCTGGATTTAGACGGCACCCTGCTCACCAGCAAAAAAACCATCCTGCCCGCTTCGCTGGAAGCGCTGGCCCGCGCCAGAGAGGCGGGCTACCAGGTGATCGTCGTTACCGGACGTCATCACGTCGCTATTCATCCTTTTTATCAGGCACTGGCTCTCGATACACCTGCAATTTGTTGTAATGGCACTTATTTGTATGATTATCACGCAAAAAAGGTTTTGGCGGCCGATCCTATGTCGGTGGAACACGCGGTAAGCCTCACCGCCATGCTCGCCGAACAGCAGATCCACGGCCTGGCCTATGTGGATGACGCGATGCTTTACGAACAGCCCACCGGGCATGTGATCCGCACCCGCAACTGGGCGCAGGCGTTACCGGAGGATCAGCGCCCGGTCTTCAGCCAGGTCGACTCGCTGGCGCAGGCGGTCCGCGAGGTCAAGGCGGTATGGAAATTCGCCCTCACCGACGACGACATTCCCCGTCTGCAGCGCTTTGCGCAGGAGGTCGGCGAGACGCTGGGCCTCGAGTGCGAATGGTCGTGGCACGACCAGGTGGATATCGCTCGCGCCGGCAACAGCAAAGGCAAACGCCTGGCGCAGTGGGTCGCTGACCAGGGGCTGTCGATGCAGAATGTGGTGGCCTTCGGCGATAACTACAACGATCTGAGTATGCTGGAAGCGGCAGGCACCGGGGTGGCGATGGGTAACGCGGTGGACGACGTCAAAGCCCGCGCCAACGTGGTCATCGGCGACAATGAGTCCGCCAGCATCGCCGAGTTTATCTACCGTCAGCTGCTGTGA	MTTRVIALDLDGTLLTSKKTILPASLEALARAREAGYQVIVVTGRHHVAIHPFYQALALDTPAICCNGTYLYDYHAKKVLAADPMSVEHAVSLTAMLAEQQIHGLAYVDDAMLYEQPTGHVIRTRNWAQALPEDQRPVFSQVDSLAQAVREVKAVWKFALTDDDIPRLQRFAQEVGETLGLECEWSWHDQVDIARAGNSKGKRLAQWVADQGLSMQNVVAFGDNYNDLSMLEAAGTGVAMGNAVDDVKARANVVIGDNESASIAEFIYRQLL	PGPT0017727_113	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017727-yidA-NA	NA	NA
BMS020_04207	1059	btuD_10		Vitamin B12 import ATP-binding protein BtuD	ATGCTCGAGCTGGACTTTACCCAGACCCTCGGCAGCCACTGTCTGCAGATCCGTGAAACGCTGCCCAGCAGCGGGATCACCGCCATCTTTGGCGTCTCAGGCGCCGGGAAAACGTCGTTGATCAACGCTATCAGCGGCCTGACCCGGCCGCAGGCGGGGCGGATCGTCCTCAACGGAAGGGTGCTGAACGACACCGCGCAGCGTATCTGCCTGGCGCCGGAGCAGCGGCGGATCGGCTATGTATTTCAGGATGCGCGCCTGTTTCCCCACTATAAAGTGCGCGGCAATCTGCAGTACGGAATGGCGAAATCCATGGTCAGCCAGTTCGATAAGCTGGTGGAACTGCTGGGAATTGCGCCCTTGCTGGATCGGCTGCCGGGCCGGTTATCCGGCGGCGAAAAGCAGCGCGTGGCCATCGGCCGCGCCCTGCTGACCGCGCCGGAGCTGCTGCTGCTGGACGAGCCGCTGGCCTCGCTGGATATTCCGCGCAAACGCGAACTGTTGCCCTATCTGCAGCGGCTGGCGCAGGAGATCCATATTCCGATGCTCTACGTTAGCCACTCGCTGGACGAGATCCAGCATCTGGCCGATCGCGTGCTGGTGCTGGAGGCCGGTAAGGTGAAGGCTTTCGGTCCGCTGGAGGAGGTCTGGAGCAGCAGCGTGATGCACCCCTGGCTGCCGGCGGAACAGCAGAGTACGATCCTCAGCGCCACCGTCGCCGCGCAGCATCCGCAGTACGCGATGACCGCGCTGACGCTGGGGGATCAAATGCTGTGGGTCAACCGGCTCGATCGTCCCGCCGGGGAGAGCGCGCGGATCCGCATCCAGGCGTCGGACGTCTCGCTGGTGCTGGCCCAGCCGTCCGCAACCAGCATCCGCAATATCTTACGCGCCGAGGTGGTTCAGTGTCTGGAGGTCAACGGGCAGATTGAGGTTCAGCTCAGGGTGAGCGGCCATCCGCTGTGGGCTCGAATCAGTCCGTGGGCGCGGGATGACCTGGCGATAGCGCCAGGCCAGCAGGTATTTGCCCAGATCAAAAGCGTGTCGATTGCCGCCTGA	MLELDFTQTLGSHCLQIRETLPSSGITAIFGVSGAGKTSLINAISGLTRPQAGRIVLNGRVLNDTAQRICLAPEQRRIGYVFQDARLFPHYKVRGNLQYGMAKSMVSQFDKLVELLGIAPLLDRLPGRLSGGEKQRVAIGRALLTAPELLLLDEPLASLDIPRKRELLPYLQRLAQEIHIPMLYVSHSLDEIQHLADRVLVLEAGKVKAFGPLEEVWSSSVMHPWLPAEQQSTILSATVAAQHPQYAMTALTLGDQMLWVNRLDRPAGESARIRIQASDVSLVLAQPSATSIRNILRAEVVQCLEVNGQIEVQLRVSGHPLWARISPWARDDLAIAPGQQVFAQIKSVSIAA	PGPT0008445_1920	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008445-modC-K02017	NA	NA
BMS020_04208	693	modB_1	COG4149	Molybdenum transport system permease protein ModB	ATGTTTCTGAGCGAACCCGAATGGCAGGCGGTGCTGCTGAGCCTGAAAGTCTCCTCCCTGGCGGTGGCCCTGAGCCTGCCCTTTGGCATCTTTTTTTCCTGGCTGCTGGTCCGGCGCACCTTCCCCGGCAAGGCGCTGCTCGACAGCCTTCTCCATCTGCCGCTGGTGCTGCCGCCGGTGGTGGTGGGGTATCTGCTGCTGGTGGCCATGGGGCGGCGCGGGTTTATTGGCAGCTGGCTGTATGACTGGTTCGGCATCAGCTTTGCCTTCAGCTGGCGCGGGGCGGTGCTGGCGGCGGCGGTGATGTCTTTCCCGCTGATGGTGCGCGCCATCCGCCTGGCGCTGGAGGGGGTGGACATCAAACTGGAGCAGGCGGCGAGAACCCTCGGGGCCAGCCGCTGGCGGGTATTTTTCACCATTACGCTGCCGCTGACTCTGCCGGGAATTATTGTCGGCACGGTGCTGGCCTTCGCCCGCTCGTTAGGGGAGTTTGGCGCGACCATCACGTTCGTCTCCAATATTCCCGGTGAAACGCGCACCCTGCCTTCGGCGATGTACACCTTGATCCAGACCCCAGGCGGGGAGGGGGCGGCGGCCCGCCTCTGCCTCATCGCTATCGGTCTGGCGCTGGTCTCGCTCTTGATTTCAGAATGGCTGGCCCGCGTGAGCCGCCAGCGAATGGGAGGATCATGA	MFLSEPEWQAVLLSLKVSSLAVALSLPFGIFFSWLLVRRTFPGKALLDSLLHLPLVLPPVVVGYLLLVAMGRRGFIGSWLYDWFGISFAFSWRGAVLAAAVMSFPLMVRAIRLALEGVDIKLEQAARTLGASRWRVFFTITLPLTLPGIIVGTVLAFARSLGEFGATITFVSNIPGETRTLPSAMYTLIQTPGGEGAAARLCLIAIGLALVSLLISEWLARVSRQRMGGS	PGPT0008440_1865	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008440-modB-K02018	NA	NA
BMS020_04209	774	modA_1	COG0725	Molybdate-binding protein ModA	ATGACAGGTTCTTGGTTACGCGGGGTGGTCGGGGTATCGCTCACGCTGTGCGTCGCGGGTCAGGCGCTGGCGGCAGAGGGGAAAGTGACCGTTTTCGCGGCCGCGTCGTTAACCAACGCGATGCAGGATATCGCCCAGGCGTATAAGAAAGCGAAAAACGTCGAGGTCGTCTCGTCGTTTGCCTCGTCGTCAACGCTGGCGCGGCAGATTGAAGCAGGCGCCCCGGCGGACCTGTTTATCTCCGCCGATCAAAAGTGGATGGATTACGCGGCAGACAAAAAGGCCATCGATCCGGCGACCCGCGCCACCCTGCTTGGCAACAGCCTGGTGGTGGTGGCGCCGAAAGCCAGCGCGCAGGGGGCGATAACCATTGATGAGAAAACCGACTGGACCAGCCTGCTGAAAGGGGGCCGTCTGGCGGTGGGCGATCCGCAGCACGTTCCGGCAGGTATCTACGCCAAAGAAGCGCTGCAGAAACTGGGCGCCTGGGAGACCCTGTCGCCGAAGCTCGCCCCGGCGGAAGATGTGCGCGGCGCGCTGGCGCTGGTGGAGCGTAGCGAAGCGCCGCTGGGCATCGTCTACGGATCGGATGCCGTGGCCAGCAAAGGGGTGAAAGTGGTTGGCACTTTCCCGGAGGCGTCGCATCAGAAAGTCGAGTACCCGCTGGCGATTGTCGATGGCCACCGCAACGCGGCCGTGAGCGCTTTCTATGACTACCTGAAAGGGCCGGAAGCGTCGGCGATTTTTCAACGTTACGGATTTACCACCCGCTGA	MTGSWLRGVVGVSLTLCVAGQALAAEGKVTVFAAASLTNAMQDIAQAYKKAKNVEVVSSFASSSTLARQIEAGAPADLFISADQKWMDYAADKKAIDPATRATLLGNSLVVVAPKASAQGAITIDEKTDWTSLLKGGRLAVGDPQHVPAGIYAKEALQKLGAWETLSPKLAPAEDVRGALALVERSEAPLGIVYGSDAVASKGVKVVGTFPEASHQKVEYPLAIVDGHRNAAVSAFYDYLKGPEASAIFQRYGFTTR	PGPT0008435_2667	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008435-modA-K02020	NA	NA
BMS020_04210	150	acrZ		Multidrug efflux pump accessory protein AcrZ	ATGTTAGAGCTTTTGAAAAGTCTGGTTTTTGCGGTCATCATGGTACCGGTGGTGATGGCGGTCATCCTGGGATTGATTTACGGTCTTGGCGAAGTGTTCAACCTCTTCTCCGGCGTCGGCCACAAAGATCGCAGCCAGCAAAATCATTGA	MLELLKSLVFAVIMVPVVMAVILGLIYGLGEVFNLFSGVGHKDRSQQNH				NA	NA	NA	NA	NA
BMS020_04211	789	modE	COG2005	DNA-binding transcriptional dual regulator ModE	ATGCAGGCCGAAATTCTTCTCACCCTTAAGCTTCAGCAGCGCCTGTTTGCCGACCCCCGGCGGATCGCCCTGCTCAAACAGATTGACCAGACCGGTTCGATAAGCCAGGGGGCGAAGCATGCGGGTATCAGCTATAAAAGCGCGTGGGATGCCATCAACGAGATGAACCAGCTCAGCGAACAGCCGCTGGTGGATCGCGCCACCGGCGGCAAAGGCGGCGGCGGCGCGGTGCTGACCCGCTACGGGCAGCGTCTGATCCAACTGTACGATCTGCTGGCGCAGATCCAGCAGAAAGCGTTTGATGTGCTCAGCGATGACGACGCCCTGCCGCTGGACAGCCTGCTGGCGGCCATCTCGCGCTTTTCCCTGCAGACCAGCGCCCGCAACCAGTGGTTCGGCACTATCACCGGCCGCGATCGCCAGCAGGTGCAGCAGCACGTCGAGGTGCTGCTGGCCGACGGGCAGACCCGCCTGAACGTCGCCATTACCGCCCAAAGCGCTGAAAAGCTGGGGCTCGATGAGGGCCAGGAGGTGCTGGTCCTGTTGAAAGCGCCCTGGGTTGGCATCACCCTCGACCCGGCGGTGGCCCGCCAGGCCGAGAACCAGCTCTCGGGTCGCATCAGCCATATCGAATGCGGCTCCGGGCAGTGCGAAGTGCTGATGACCCTTGCGGACGGCCAGACCCTGTGCGCCACCCTGCCGCAGGCCCAGACCTCTGGCCTGACGGAAGGGACGGAGGCGATCGCTTACTTCAACGCCGATCGCATCATTCTCGCTACGTTATGCTGA	MQAEILLTLKLQQRLFADPRRIALLKQIDQTGSISQGAKHAGISYKSAWDAINEMNQLSEQPLVDRATGGKGGGGAVLTRYGQRLIQLYDLLAQIQQKAFDVLSDDDALPLDSLLAAISRFSLQTSARNQWFGTITGRDRQQVQQHVEVLLADGQTRLNVAITAQSAEKLGLDEGQEVLVLLKAPWVGITLDPAVARQAENQLSGRISHIECGSGQCEVLMTLADGQTLCATLPQAQTSGLTEGTEAIAYFNADRIILATLC	PGPT0000520_611	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0000520-modE-K02019	NA	NA
BMS020_04212	1473	modF	COG1119	ABC transporter ATP-binding protein ModF	ATGTCATCATTGCAAATTTCGCAAGGCACGTTTCGCCTGAGCGATACAAAAACCTTAAAAATAGACCACCTGAGCGTGGCGGCGGGTGAAAGCTGGGCGTTCGTCGGCAGCAACGGCAGCGGCAAGTCCGCCCTCGCGCGGGCCCTGGCCGGCGACCTGACCCTGCTCAGCGGCCAGCGCGAAAGCCTCTTCTCCCGCGTAACCCGCCTCTCCTTCGAACAGCTGCAGAAGCTGGTCAGCGACGAGTGGCAGCGCAATAACACCGACCTGCTCAGCCCCGGAGAAGAAGATACCGGACGCACTACCGCGGAGATTATTCAGGATGAGGTGAAAGATCCGGCCCGCTGCGCGCAGCTTGCCGAACAGTTTGCCATCAGCGCCCTGTTGGACCGCCGCTTTAAGTATCTGTCCACTGGCGAAACGCGTAAGACCCTGCTGTGCCAGGCCCTGATGAGCGATCCGCAACTGCTGATCCTCGACGAGCCGTTCGACGGCCTCGACGTCAACTCCCGCCAGCAGCTGGCCGCCCTGCTGGCCGACCTGCATCGCGCCGGCATCACCCTGGTGCTGGTGCTCAACCGTTTCGATGAGATCCCGGACTTTGTGCAATACGCCGGCGTGCTGGCTGACTGCCTCCTCAGCGAGACCGGCGAGAAGCACGCTCTGCTGCAGCAGGCGCTGGTCGCCCAGCTGGCGCACAGTGAAAAACTGGACGGTATCACCCTGCCGGAGCCGGATGCCCCACCGGCCCGCCATACGCTGACGGAGACGGCGCCGCGTATCGTCCTCAATGACGGGGTGGTCTCCTACAACGATCGCCCGGTCATCAACCACCTCTCCTGGACCGTGAACCCCGGCGAACACTGGCAGATCGTCGGCCCTAACGGCGCGGGTAAATCCACCCTCTTAAGCCTTATCACCGGCGATCACCCTCAGGGCTACAGCAACGATCTCACCCTCTTTGGCCGTCGGCGCGGCAGCGGTGAGACCATCTGGGATATTAAAAAACATATCGGCTACGTCAGCAGCAGCCTGCATCTGGACTACCGGGTCAGCACCAACGTCCGCAACGTGATTCTGTCGGGCTATTTTGACTCGATCGGCATTTATCAGGCGGTGTCGGATAAACAGCATAAGCTGGTGCAGCAATGGCTGGATATTCTCGGCATCGATAAGCGCACCGCCGACGCGCCGTTTCACAGCCTGTCGTGGGGCCAGCAGCGGCTGGCGCTTATCGTCCGCGCGCTGGTGAAGCATCCAACCCTGCTGATCCTTGATGAACCGCTGCAGGGGCTGGATCCCCTCAATCGCCAGCTGGTGCGCCGCTTCGTCGACGTCCTGATTGGCGAAGGCGCCACGCAGCTGCTGTTTGTCTCGCACCATGCGGAAGATGCCCCGGACTGTATTACCCATCGCCTGGCGTTCGTTCCCAGTGGAGACGGTTACACTTATCAGCTCGGCCCCGTGGCCTGA	MSSLQISQGTFRLSDTKTLKIDHLSVAAGESWAFVGSNGSGKSALARALAGDLTLLSGQRESLFSRVTRLSFEQLQKLVSDEWQRNNTDLLSPGEEDTGRTTAEIIQDEVKDPARCAQLAEQFAISALLDRRFKYLSTGETRKTLLCQALMSDPQLLILDEPFDGLDVNSRQQLAALLADLHRAGITLVLVLNRFDEIPDFVQYAGVLADCLLSETGEKHALLQQALVAQLAHSEKLDGITLPEPDAPPARHTLTETAPRIVLNDGVVSYNDRPVINHLSWTVNPGEHWQIVGPNGAGKSTLLSLITGDHPQGYSNDLTLFGRRRGSGETIWDIKKHIGYVSSSLHLDYRVSTNVRNVILSGYFDSIGIYQAVSDKQHKLVQQWLDILGIDKRTADAPFHSLSWGQQRLALIVRALVKHPTLLILDEPLQGLDPLNRQLVRRFVDVLIGEGATQLLFVSHHAEDAPDCITHRLAFVPSGDGYTYQLGPVA	PGPT0008450_289	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008450-modF-K05776	NA	NA
BMS020_04213	1017	galE	COG1087	UDP-glucose 4-epimerase	ATGAAAGTTCTGGTTACAGGTGGTAGCGGTTACATTGGAAGTCATACCTGCGTTCAACTGCTGCTGCAGGGGCATGAGGTGGTGATCCTCGACAATCTCTGCAACAGCAAGCGCAGCGTACTGCCGGTGATTGAGCGTCTCGGCGGCAAAGAAGCCACCTTTATTGAAGGCGATATTCGTAACGAAGCGCTGATGACCGAGATCCTCCACGATCACGCCATTGAAGCGGTGATCCACTTCGCCGGGCTGAAAGCCGTCGGGGAGTCCGTCGCCAAGCCGCTGGAATATTACGACAATAACGTCACCGGCACACTGAAATTAGTCTCCGCCATGCGCGCCGCGGGCGTGAAGAACTTCATCTTTAGCTCCTCCGCCACCGTCTACGGCGACCAGCCGAAAATCCCGTATGTCGAAAGCTTCCCGACCGGCACCCCGCAAAGCCCCTACGGTAAAAGCAAACTGATGGTGGAGCAGATCCTGACCGACCTGCAAAAAGCGCAGCCGGAGTGGAGCATTGCGCTGCTGCGCTACTTCAACCCGGTCGGCGCCCACCCGTCGGGCGACATGGGCGAAGACCCGCAGGGGATCCCGAATAACCTGATGCCGTATATCGCCCAGGTCGCCGTTGGCCGTCGCGAATCGCTGGCCGTGTTTGGTAACGACTACCCGACCGAAGATGGCACCGGCGTGCGCGATTATATCCACGTGATGGACCTTGCCGACGGCCACGTCGCGGCCATGGAAAAACTGGCTGACAAAGCCGGGGTCCATATCTACAACCTTGGCGCCGGCGTCGGCAGCAGCGTGCTCGACGTGGTCAATGCTTTCAGCAAGGCCTGCGGCAAACCGATTAACTACCATTTCGCGCCGCGCCGCGATGGCGACCTCCCGGCCTACTGGGCGGATGCCGCCAAGGCCGACCGCGAGCTGAACTGGCGCGTGACGCGCAACCTGGACGAAATGGCGCAGGACACCTGGAACTGGCAGTCCCGCCATCCGCAGGGTTATCCAGACTAA	MKVLVTGGSGYIGSHTCVQLLLQGHEVVILDNLCNSKRSVLPVIERLGGKEATFIEGDIRNEALMTEILHDHAIEAVIHFAGLKAVGESVAKPLEYYDNNVTGTLKLVSAMRAAGVKNFIFSSSATVYGDQPKIPYVESFPTGTPQSPYGKSKLMVEQILTDLQKAQPEWSIALLRYFNPVGAHPSGDMGEDPQGIPNNLMPYIAQVAVGRRESLAVFGNDYPTEDGTGVRDYIHVMDLADGHVAAMEKLADKAGVHIYNLGAGVGSSVLDVVNAFSKACGKPINYHFAPRRDGDLPAYWADAAKADRELNWRVTRNLDEMAQDTWNWQSRHPQGYPD	PGPT0017825_46	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
BMS020_04214	1047	galT	COG1085	Galactose-1-phosphate uridylyltransferase	ATGAGCGTATTTAACCCCGTTGACCATCCGCATCGTCGTTATAACCCGTTAACCGGGCAGTGGATTCTGGTTTCTCCGCATCGCGCCAAGCGCCCCTGGCAGGGAGCGCAGGAGACGCCGGCAAAACAGACCTTGCCGGCCCACGATCCGGACTGTTTCCTGTGCCCGGGCAACACCCGGGTCACCGGCGACACGAATCCGAATTACACCGGCACCTACGTGTTTACCAACGACTTTGCGGCCCTGATGACCGACACCCCGGATGCCCCGGAAAGTGACGATCCGCTGATGCGCTGCCAAAGCGCCCGCGGCACCAGTCGGGTGATCTGCTTCTCGCCAGACCACAGCAAAACGCTGCCGGAACTGAGCCTAGAAGCGCTGGAAGGCGTGGTTAAAGCGTGGCAGGAACAGACCGCGGACCTCGGGAAAAGCTACCCGTGGGTGCAGGTCTTTGAAAACAAAGGAGCAGCGATGGGCTGCTCCAACCCACACCCGCACGGTCAGGTATGGGCCAACAGCTTCCTGCCTAATGAAGCGGAACGGGAAGACCGTCTGCAGAAAGCGTATTACGCCAGCCAGGGCCAGCCGATGCTGCTGGACTATGCCCGGCGCGAACTGGCCGACGGCAGCCGCACGGTGGTCGACACCGATCACTGGCTGGCGGTCGTGCCCTACTGGGCCGCATGGCCGTTCGAAACGCTGCTGCTGCCGAAAGCGCCCGTGCAGCGTATTACCGATTTAACCGACGCCCAGCGCAGCGATCTGGCGCTGGCGTTGAAAAAGCTGACCAGCCGTTACGACAACCTGTTCCAGTGCTCATTCCCCTACTCCATGGGCTGGCACGGCGCGCCGTTTAACGATGAAGACCATAACCACTGGCAGCTTCACGCCCACTTTTATCCGCCGCTGCTGCGCTCCGCGACGGTCCGCAAGTTTATGGTTGGCTACGAAATGCTGGCCGAAACGCAGCGCGATCTCACCGCCGAGCAAGCTGCCGAACGACTGCGCGCCGTCAGCGACGTCCATTTTCGTGAATCCGGAGTGTAA	MSVFNPVDHPHRRYNPLTGQWILVSPHRAKRPWQGAQETPAKQTLPAHDPDCFLCPGNTRVTGDTNPNYTGTYVFTNDFAALMTDTPDAPESDDPLMRCQSARGTSRVICFSPDHSKTLPELSLEALEGVVKAWQEQTADLGKSYPWVQVFENKGAAMGCSNPHPHGQVWANSFLPNEAEREDRLQKAYYASQGQPMLLDYARRELADGSRTVVDTDHWLAVVPYWAAWPFETLLLPKAPVQRITDLTDAQRSDLALALKKLTSRYDNLFQCSFPYSMGWHGAPFNDEDHNHWQLHAHFYPPLLRSATVRKFMVGYEMLAETQRDLTAEQAAERLRAVSDVHFRESGV	PGPT0017835_2104	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0017835-galT-K00965	NA	NA
BMS020_04215	1149	galK	COG0153	Galactokinase	ATGAGTCTGAAAGAGAAAACCCAAACCCTGTTTGCTGAGGCCTTCGGCTACCCGGCCAGCCATGTCATTCAGGCACCAGGCCGCGTCAACCTGATCGGCGAGCATACCGATTACAACGACGGCTTTGTGCTGCCCTGCGCCATCGACTACCAGACGGTGATCAGCTGTGCGCCGCGCGACGATCGTACCGTGCGGGTGATTGCCGCCGATTACGACAATCAGACCGACGAATTCTCTCTCGACGCGCCGATTCTCAGCCACGACACCCAGCAGTGGTCGAACTATGTCCGCGGCGTGGTGAAGCATCTGCAACAGCGGAACAGCCACTTCGGCGGCGCGGATCTGGTGATCAGCGGCAATGTGCCGCAGGGCGCGGGCTTAAGCTCCTCAGCCTCGCTGGAGGTCGCCGTCGGCACCGTGTTCCAGCAGCTCTACCACCTGCCGCTCGACGGCGCGCAAATCGCCCTCAACGGCCAGGAGGCGGAAAATCAGTTCGTCGGCTGCAACTGCGGGATCATGGATCAGCTGATTTCGGCGCTGGGCAAAAAAGACCATGCGCTGCTGATCGACTGCCGCTCGCTGGGCACCAAAGCCGTCTCGATGCCGAAAGGCGTGGCGGTGGTGATCATCAACAGCAACTTTAAGCGCACCCTCGTCGGCAGCGAGTACAACACCCGTCGTGAACAGTGCGAGACCGGTGCGCGCTTCTTCCAGCAGCCCGCTCTGCGCGATGTCACCCTTGAGCAATTCAACGCTGTCGCCCATGAGCTGGATCCGGTGGTGGCGAAGCGGGTACGTCATGTGCTGACGGAGAATGCCCGCACCGTGGAAGCCGCCAGCGCCCTTGAAAAAGGCGACCTGAAGCGGATGGGCGAGCTGATGGCCGAATCCCACGCCTCGATGCGCGATGATTTCGAGATCACCGTCCCGCAGATCGACACCCTGGTGAAGATCGTCAAGGCGACAATCGGCGATAAGGGCGGCGTGCGCATGACCGGCGGCGGTTTTGGCGGCTGTGTGGTAGCGCTGGTCCCGGAAGATCTGGTCGATACCGTTCAGCAGGCTGTTGCCAACGAGTATGAAGCGAAAACCGGAATTAAAGAGACGTTTTATGTCTGCAAACCGTCACAGGGGGCTGGCCAATGGTAA	MSLKEKTQTLFAEAFGYPASHVIQAPGRVNLIGEHTDYNDGFVLPCAIDYQTVISCAPRDDRTVRVIAADYDNQTDEFSLDAPILSHDTQQWSNYVRGVVKHLQQRNSHFGGADLVISGNVPQGAGLSSSASLEVAVGTVFQQLYHLPLDGAQIALNGQEAENQFVGCNCGIMDQLISALGKKDHALLIDCRSLGTKAVSMPKGVAVVIINSNFKRTLVGSEYNTRREQCETGARFFQQPALRDVTLEQFNAVAHELDPVVAKRVRHVLTENARTVEAASALEKGDLKRMGELMAESHASMRDDFEITVPQIDTLVKIVKATIGDKGGVRMTGGGFGGCVVALVPEDLVDTVQQAVANEYEAKTGIKETFYVCKPSQGAGQW	PGPT0017840_2296	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
BMS020_04216	1044	galM	COG2017	Aldose 1-epimerase	ATGGTAACGCAAACCACCGCGCTGGCGCCGGACGGCCAGCCATGGCAGCAGGTAATCCTGCGCAATAAGGCGGGGATGACCGTCACCGTGGCGGACTGGGGCGCGACGCTGCTCAGCGCCGAGGTGCCGCTGGCCGATGGCAGCGTGCGCCATCCGCTGCTGGGCTGCGCAAAGCTGGAAGACTATGCCCGCCAGGCCGCGTTTCTTGGCGCCTCGGTAGGCCGCTACGCCAACCGTATCGGCAATAGCCGCTTCCCGCTTGACGGCCAGCTCGTCACCGTCACGCCGTCAAACGACGCGGGCCACCAGCTTCACGGCGGCCCGGAAGGGTTTGATAAACGCCGCTGGCGCATCGTCCGCGCCGACGAGCAGGAAGCGCTGTTCGCCCTGACCTCGCCCGATGGCGATCAAGGCTTTCCGGGCACTCTGCAGGCCACCGCGCACTATCGTCTGACCGACGATAACCGCATCGCGATTACCTATCGCGCCACCGTGGACCAACCCTGCCCGGTGAACATGACCAATCACGTCTATTTCAACCTCGACGGTGACCAGGGCGACGTGCGCCAGCACCAGCTGCAGATCCTCGCCCATCGCTATTTGCCGGTGGAAAGCGATGGTATCCCGGGCGGCGGACTCAAAGACGTCGCCGGCACCAGCTTTGATTTCCGCCAGCCGAAAACCATCGCCGCCGACTTCCTCGCGGATGCCGATCAGCAAAAGGTGAAGGGTTATGACCATGCCTTCCTGCTGGACGCCAGAGGCGACGCCAGTCAACCTGCGGCGCAGGTCTGGTCGCAGGACGGTAAGCTGCAGATGACGGTCTATACCTCCGCTCCGGCGCTACAGTTTTATTCCGGCAACTATCTCGGCGGCACCCCGTCGCAGACGACGGAACCCTACGCCGACTGGCAGGGGCTGGCACTGGAGAGCGAATTCCTGCCGGATTCGCCGAATCATCCGGAATGGCCGCAGCCGGACTGTGTGTTACGTCCTGGCCAGGAGTACGTCAGCCTGACGGAATATCAGTTTATCGCCCGCTAA	MVTQTTALAPDGQPWQQVILRNKAGMTVTVADWGATLLSAEVPLADGSVRHPLLGCAKLEDYARQAAFLGASVGRYANRIGNSRFPLDGQLVTVTPSNDAGHQLHGGPEGFDKRRWRIVRADEQEALFALTSPDGDQGFPGTLQATAHYRLTDDNRIAITYRATVDQPCPVNMTNHVYFNLDGDQGDVRQHQLQILAHRYLPVESDGIPGGGLKDVAGTSFDFRQPKTIAADFLADADQQKVKGYDHAFLLDARGDASQPAAQVWSQDGKLQMTVYTSAPALQFYSGNYLGGTPSQTTEPYADWQGLALESEFLPDSPNHPEWPQPDCVLRPGQEYVSLTEYQFIAR	PGPT0017825_2429	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
BMS020_04217	753	gpmA_2	COG0588	2,3-bisphosphoglycerate-dependent phosphoglycerate mutase	ATGGCTGTAACTAAGCTGGTACTGGTTCGTCATGGCGAAAGCCAGTGGAATAACGAAAACCGCTTCACCGGTTGGTACGACGTTGATCTGTCCGAGAAAGGCGTTAGCGAAGCGAAAGCAGCAGGTAAACTGCTGAAGGCTGAAGGCTTCAGCTTTGATTTTGCTTATACCTCCGTGCTGAAACGTGCCATCCACACCCTGTGGAACGTGCTGGACGAACTGGATCAGGCCTGGCTGCCGGTTGAGAAATCCTGGAAGCTGAACGAGCGTCATTACGGCGCGCTGCAGGGCCTGAACAAAGCGGAAACTGCTGAGAAATACGGTGACGAGCAGGTTAAACAGTGGCGTCGCGGCTTCGCCGTTACTCCGCCGGAGCTGACCAAAGACGACGAGCGCTACCCGGGCCACGATCCGCGCTATGCAAAACTGACCGACGCGGAACTGCCGACCACTGAAAGCCTGGCGCTGACCATCGACCGCGTCGTGCCTTACTGGAACGAAACCATTCTGCCGCGCCTGAAAAGCGGTGAGCGCGTGATCATCGCCGCTCACGGTAACTCCCTGCGCGCGCTGGTTAAATACCTCGACAACATGGGCGAAGACGAGATCCTCGAACTGAACATCCCGACCGGCGTACCGCTGGTGTATGAGTTCGATGAAAACTTCAAGCCGATCAAACATTACTATCTGGGCAACGCGGAAGAGATCGCGGCGAAAGCGGCTGCCGTCGCCAACCAGGGTAAAGCGAAGTAA	MAVTKLVLVRHGESQWNNENRFTGWYDVDLSEKGVSEAKAAGKLLKAEGFSFDFAYTSVLKRAIHTLWNVLDELDQAWLPVEKSWKLNERHYGALQGLNKAETAEKYGDEQVKQWRRGFAVTPPELTKDDERYPGHDPRYAKLTDAELPTTESLALTIDRVVPYWNETILPRLKSGERVIIAAHGNSLRALVKYLDNMGEDEILELNIPTGVPLVYEFDENFKPIKHYYLGNAEEIAAKAAAVANQGKAK	PGPT0018030_1095	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
BMS020_04218	1083	aroG_1	COG0722	Phospho-2-dehydro-3-deoxyheptonate aldolase, Phe-sensitive	TTGAATAAGTATGGCAACGCTGGAAAGAAGATGAATTATCAGAACGACGATTTACGCATTAAAGAGATCAACGAATTATTACCTCCCGTTGCGCTCCTGGAAAAATTCCCTGCTACCGAAAATGCTGCAAACACCGTTGCACATGCTCGCAAAGCGATCCACCAGATCCTCAAAGGTGATGATGACCGCCTGCTGGTGGTGATTGGGCCCTGTTCTATTCACGACCCGGCGGCGGCGAAAGAGTACGCTTCCCGTCTGCTGACCCTGCGCGAGGCGCTGAAGGGCGAGCTCGAGATCGTCATGCGCGTCTATTTTGAGAAACCGCGCACCACCGTCGGCTGGAAAGGGCTTATCAACGATCCCCATATGGATAACAGCTTCCGCATCAACGACGGGTTGCGCATTGCGCGCAAACTGCTGCTGGATATTAACGACAGCGGCCTGCCGGCGGCGGGGGAATTCCTCGATATGATCACCCCGCAGTATGTCGCCGATCTGATGAGCTGGGGCGCCATCGGGGCGCGCACCACCGAATCCCAGGTGCACCGCGAGCTCGCCTCGGGGCTCTCCTGCCCGGTGGGCTTTAAAAACGGTACCGATGGCACCATCAAGGTGGCTATCGACGCGATTAACGCCGCCGGCGCGCCGCACTGTTTCCTGTCGGTCACCAAGTGGGGCCACTCCGCTATCGTCAATACCAGCGGCAACGGCGACTGCCATATTATTCTGCGCGGCGGCAAAGAGCCGAACTACAGCGCGAAGCACGTGGCGGAGGTGAAAATCGGTCTGGCGAAAGCGGGCCTGCCGGCCCAGGTGATGATCGACTTCAGCCACGCCAACTCCAGCAAGCAGTTCAAGAAGCAGATGGAAGTAGGCGCCGACGTATGCCAGCAGATTGCCGGCGGCGAGCGCGCCATTATGGGCGTGATGATTGAAAGCCATTTGGTGGAAGGCAACCAGAGCCTCGAGAGCGGTGAACCGCTGACCTACGGCAAGAGCGTCACCGACGCCTGCATCGGCTGGGAGGATACCGAAGCGATCCTGCGTCAGCTGGCGGAAGCGGTGAAAACCCGCCGCGGCTAA	MNKYGNAGKKMNYQNDDLRIKEINELLPPVALLEKFPATENAANTVAHARKAIHQILKGDDDRLLVVIGPCSIHDPAAAKEYASRLLTLREALKGELEIVMRVYFEKPRTTVGWKGLINDPHMDNSFRINDGLRIARKLLLDINDSGLPAAGEFLDMITPQYVADLMSWGAIGARTTESQVHRELASGLSCPVGFKNGTDGTIKVAIDAINAAGAPHCFLSVTKWGHSAIVNTSGNGDCHIILRGGKEPNYSAKHVAEVKIGLAKAGLPAQVMIDFSHANSSKQFKKQMEVGADVCQQIAGGERAIMGVMIESHLVEGNQSLESGEPLTYGKSVTDACIGWEDTEAILRQLAEAVKTRRG	PGPT0012920_3659	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012920-3_deoxy_7_phosphoheptulonate_synthase|aroF|aroG|aroH-K01626	NA	NA
BMS020_04219	384			hypothetical protein	ATGAACATGAAAAAACTGACGACCCTTTTGCTCACCGCCACCTTAGGTCTTGCCAGCGGCGCGGCCCTGGCGGCAGACGCCGGCGCCCAGTCCAACAATGGCCAGGCCAACTCTTCCGCTGATGCCGGTCAGGTGGCGCCGGACGCCCGTGAAAACGTAGCGCCGAATAACGTCGATAATAGCCAAATCAATTCTGGCACTGGCACTGGCGGCACCATGCTTCATCCTGACGGCTCGACGATGAGCCAGGACAATATGTCGAGCGATGAGGTCCACAAAAACTCGATGTGTAAAGACGGCCGCTGTCCGGACACCGGTAAGAAGCTGGACAACGGCGACAGCATGAACCATGACAACAGCAAAACCGATGGCACCACCCAATAA	MNMKKLTTLLLTATLGLASGAALAADAGAQSNNGQANSSADAGQVAPDARENVAPNNVDNSQINSGTGTGGTMLHPDGSTMSQDNMSSDEVHKNSMCKDGRCPDTGKKLDNGDSMNHDNSKTDGTTQ				NA	NA	NA	NA	NA
BMS020_04220	945	zitB_2	COG1230	Zinc transporter ZitB	ATGGCGCACTCGCATTCGCACTCCCCTGCCCAGGCTACGGATAACGGCAACGCCCGCCGGCTGCTCTGGGCGTTCATCGTCACCGCCGGTTTTATGCTGGTAGAAGCCATCGGCGGCGCGATCTCCGGCTCGTTGGCCCTGCTGGCGGATGCCGGCCATATGCTCACCGACTCCGCCGCCCTGCTGTTTGCGCTGCTGGCGGTTCGCTTCGCCAGCCGTCCCCCGAATGCCCGCCATACCTTTGGCTGGCTGCGTTTGACCACCCTGGCGGCGTTTCTCAATGCCATTGCTCTGGTGGTGATCACCATGCTGATTGTCTGGGAGGCCATTCAGCGCTTCCAGCACCCGCAGCCGGTTGCCGGCGTGACGATGATGGTGATTGCGGTCGCTGGCCTGCTGGCCAACGTGCTGGCTTTCTGGATCCTGCATCGTGGCAGCGAAGAGCGGAACCTCAACGTGCGCGCCGCGGCGCTACACGTGCTCGGCGATCTGCTGGGCTCGGTTGGCGCGATTGTGGCCGCCGTGGTGATCCTCACCACCGGCTGGACACCCGTCGACCCGATCCTTTCCGTGCTGGTTTCCTGCCTGGTGTTACGTAGCGCCTGGCGTCTGCTGAAGGAGAGTCTGAATGAGCTGCTGGAAGGCGCGCCGCGTTCGCTGGATGTGGCGGCCCTGCAGCGGGATATCCGCCGTTCTATCCCGGAGGTGCGCGATGTTCACCACGTCCACGTCTGGCTGGTGGGGGAAAAACCGGTGATGACGCTGCATGTGCAGGTTGTACCGCCGCACGATCATGATGCGTTACTCAACCGCATCCTGCATTTCCTGGAACATAAATATGAAATTGAGCATGCCACGGTACAGATGGAGTACCAGCCCTGCAGCGGCCCGGAGTGCCATCTCAACACGATGCACTCCGGGCACGATCATCACCACCACCATTAG	MAHSHSHSPAQATDNGNARRLLWAFIVTAGFMLVEAIGGAISGSLALLADAGHMLTDSAALLFALLAVRFASRPPNARHTFGWLRLTTLAAFLNAIALVVITMLIVWEAIQRFQHPQPVAGVTMMVIAVAGLLANVLAFWILHRGSEERNLNVRAAALHVLGDLLGSVGAIVAAVVILTTGWTPVDPILSVLVSCLVLRSAWRLLKESLNELLEGAPRSLDVAALQRDIRRSIPEVRDVHHVHVWLVGEKPVMTLHVQVVPPHDHDALLNRILHFLEHKYEIEHATVQMEYQPCSGPECHLNTMHSGHDHHHHH	PGPT0004255_1226	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004255-czcD|zitB|yrdO-K16264	NA	NA
BMS020_04221	720	pnuC_1	COG3201	Nicotinamide riboside transporter PnuC	ATGGATTTTTTTAGCACGCAGAATATTTTAGTACATATACCCATCGGCGCCGGGGGGTACGATCTCTCCTGGATAGAGGCCGTGGGGACCATCGCCGGGCTGTTGTGCATCTGGCTGGCGAGCCTGGAGAAGATCAGTAACTATGCCTTCGGTCTGGTCAACGTCACGCTGTTCGCCATCATCTTCTTTCAGATCCAGCTGTATGCCAGCCTGTTGCTGCAGCTGTTCTTCTTTGCCGCTAACGTTTACGGCTGGTATGCCTGGTCGCGGCAAAGCAGCAACCATGAGGCTGAGCTGCAGATCCGCTGGCTACCGCGCAGTAAAGCCCTGGGCTGGCTGGCGGCCTGCGTGGTGGCGATCGGCTTGCTGACCCTGTTTATCAATCCGTTTTTTGCTTTCCTGACGCGGATCGCGGTCAGCCTGTTGCAAGCGCTCGGTTTGCAGGTCACTATGCCGGAACTGCAGCCGGACGCCTTCCCGTTCTGGGACTCCTGTATGACGGTGCTGTCGGTAGTGGCGATGATCTTAATGACCCGCAAATACGTTGAGAACTGGCTGCTGTGGGTCATCGTCAACGTCATCAGCGTGGTGATTTTTGCCCGTCAGGGCGTCTATGCGATGTCGCTGGAATATCTCTTGCTGACGTTCATTGCGCTGAACGGCAGCCGGATGTGGATAAACAGCGCGCGTGAGCGTGGTTCTCACGCGTTTTCTGGCTAA	MDFFSTQNILVHIPIGAGGYDLSWIEAVGTIAGLLCIWLASLEKISNYAFGLVNVTLFAIIFFQIQLYASLLLQLFFFAANVYGWYAWSRQSSNHEAELQIRWLPRSKALGWLAACVVAIGLLTLFINPFFAFLTRIAVSLLQALGLQVTMPELQPDAFPFWDSCMTVLSVVAMILMTRKYVENWLLWVIVNVISVVIFARQGVYAMSLEYLLLTFIALNGSRMWINSARERGSHAFSG				NA	NA	NA	NA	NA
BMS020_04222	1047	nadA	COG0379	Quinolinate synthase A	ATGATGAGCGTAATGTTTGATCCTGAAACGGCGATTTATCCCTTTCCACCGAAACCGCAGCCGCTGACCGTCGATGAAAAGCAGTTTTACCGCGAAAAAATCAAGCGTCTGCTGCGCGAGCGCGATGCCGTGATGGTGGCGCATTACTACACCGATCCTGAAATTCAGCAGCTGGCGGAAGAGACCGGCGGCTGTATTGCCGACTCGCTGGAGATGGCGCGCTTTGGCGCCCGCCATTCGGCCTCCACGCTGCTGGTCGCCGGGGTGCGTTTTATGGGGGAAACCGCCAAAATCCTCAGCCCGGAAAAGACCATTCTGATGCCGACCCTGAACGCCGAGTGTTCCCTGGATCTGGGCTGTCCGATTGAGGAGTTCAACGCCTTTTGCGACGCTCATCCTGACCGCACCGTGGTGGTCTATGCCAATACGTCTGCCGCGGTGAAGGCTCGCGCCGACTGGGTGGTGACCTCCAGCATCGCCGTGGAACTCATTGACCATCTGGATAGCCTTGGTCAAAAAATCCTCTGGGCGCCGGACCGCCATCTTGGTCGTTACGTTCAGCGTCAGACCGGCGCAGATGTGCTCTGCTGGCAGGGGGCGTGCATCGTGCACGACGAGTTTAAAACCCAGGCGTTGATGCGGATGAAGGCTCTGCATCCCGAAGCCGCTGTGCTGGTCCATCCCGAGTCGCCGCAGGCGATCGTCGAGATGGCCGATGCCGTAGGCTCCACCAGCCAGCTGATCGCGGCGGCGAAAAGCCTGCCCCAGCGCCAGCTGATCGTGGCGACCGATCGCGGTATCTTTTATAAAATGCAGCAGGCGGTGCCGGAGAAAACGCTGCTGGAAGCGCCCACCGCCGGTGAAGGGGCGACCTGCCGCAGCTGCGCGCATTGTCCGTGGATGGCGATGAACGGCCTGAAAGCCATTGCCGAGGGTCTCGAGCAGGGCGGCGCTGAACATGAAATCCACGTCGACGAAGCGCTGCGGACTGGCGCATTAATTCCCCTTAACCGGATGCTGGATTTTGCGGCTACACTACGGGGATAA	MMSVMFDPETAIYPFPPKPQPLTVDEKQFYREKIKRLLRERDAVMVAHYYTDPEIQQLAEETGGCIADSLEMARFGARHSASTLLVAGVRFMGETAKILSPEKTILMPTLNAECSLDLGCPIEEFNAFCDAHPDRTVVVYANTSAAVKARADWVVTSSIAVELIDHLDSLGQKILWAPDRHLGRYVQRQTGADVLCWQGACIVHDEFKTQALMRMKALHPEAAVLVHPESPQAIVEMADAVGSTSQLIAAAKSLPQRQLIVATDRGIFYKMQQAVPEKTLLEAPTAGEGATCRSCAHCPWMAMNGLKAIAEGLEQGGAEHEIHVDEALRTGALIPLNRMLDFAATLRG	PGPT0013365_1994	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013365-nadA-K03517	NA	NA
BMS020_04234	798	cpoB_2	COG1729	Cell division coordinator CpoB	ATGAGCAGTAACTTCAGACATCATTTATTGAGTCTGTCGTTACTGGTTGGCATAGCGGCCCCCTGGGCCGCTTTTGCTCAGGCGCCAATCAGTAGTGTCGGCTCAGGCTCGGTCGAAGACCGTGTCACTCAACTCGAGCGTATTTCCAATGCTCACAGCCAGCTTTTAACCCAACTCCAGCAACAACTCTCTGATAACCAGACTGACATTGATTCTCTCCGTGGTCAGATCCAGGAGAACCAGTATCAGCTGAATCAGATCGTTGAGCGTCAGAAGCAGATTCTGCTGCAGATTGACGGGCTGACGAGCGGAGGTGGCGCAGCGGCGGCTGGCGCCCAGGCGTCGTCGTCTTCCGGCGATCAGAGCGCGGCTACCGCCAGCGCAGCGCCAGCGGCCTCGTCAGGCGCTCCGGCGATGACCGGCGATGCGAACACCGATTACAATGCGGCCATTGCCCTGGTGAAGGATGCTTCACGCCAGGATGACGCCATGGTGGCGTTTCAGAACTTCGTTAAAAAGTACCCGGATTCAACTTATCAGCCGAACGCCAACTATTGGCTCGGACAGTTGAACTACAATAAGGGGAAAAAAGACGATGCGGCGTTTTACTTCGCCTCGGTGGTGAAGAACTACCCGAAATCGCCAAAAGCGCCGGACGCCATGTTTAAGGTCGGCGTGATCATGCAGGACAAAGGTGATACCGCGAAAGCGAAAGCGGTTTACCAGCAGGTGATCAGCAAATTCCCCGGCACCGACGGTGCGAAACAAGCGCAAAAACGACTTAATGCTCTTGGTTGA	MSSNFRHHLLSLSLLVGIAAPWAAFAQAPISSVGSGSVEDRVTQLERISNAHSQLLTQLQQQLSDNQTDIDSLRGQIQENQYQLNQIVERQKQILLQIDGLTSGGGAAAAGAQASSSSGDQSAATASAAPAASSGAPAMTGDANTDYNAAIALVKDASRQDDAMVAFQNFVKKYPDSTYQPNANYWLGQLNYNKGKKDDAAFYFASVVKNYPKSPKAPDAMFKVGVIMQDKGDTAKAKAVYQQVISKFPGTDGAKQAQKRLNALG				NA	NA	NA	NA	NA
BMS020_04235	525	pal_4	COG2885	Peptidoglycan-associated lipoprotein	ATGCAACTGAACAAAGTGCTGAAAGGGCTGATGATCGCTCTGCCGGTTATGGCAATCGCGGCATGTTCTTCTAACAAGAACGCCAGCAACGACCAGAGCGGTGAAGGCATGCTGGGTGCCGGCACTGGTATGGACGCTAACGGCAACGGCGGCAACATGTCTTCTGAAGAGCAAGCTCGTCTGCAGATGCAGCAGCTGCAGCAGAACAACATCGTTTACTTCGATCTGGACAAGTACGATATCCGTTCTGACTTCGCTGCAATGCTGGACGCGCACGCTAACTTCCTGCGTAGCAACCCGTCCTACAAAGTGACTGTAGAAGGTCACGCGGATGAGCGCGGTACCCCGGAATACAACATCGCGCTGGGTGAGCGTCGTGCTAACGCCGTTAAGATGTATCTGCAGGGCAAAGGTGTTTCTGCCGATCAGATCTCCATCGTTTCTTACGGTAAAGAAAAACCAGCAGTACTGGGTCATGACGAAGCGGCATATGCCAAAAACCGTCGCGCCGTACTGGTTTACTAA	MQLNKVLKGLMIALPVMAIAACSSNKNASNDQSGEGMLGAGTGMDANGNGGNMSSEEQARLQMQQLQQNNIVYFDLDKYDIRSDFAAMLDAHANFLRSNPSYKVTVEGHADERGTPEYNIALGERRANAVKMYLQGKGVSADQISIVSYGKEKPAVLGHDEAAYAKNRRAVLVY				NA	NA	NA	NA	NA
BMS020_04236	1293	tolB_1	COG0823	Tol-Pal system protein TolB	ATGAAGCAGGCATTACGAGTAGCATTTGGTTTTTTAATGCTGTGGGCGGCGGTGCTGCACGCAGAAGTACGTATCGAGATCACCCAGGGGGTGGACTCGGCGCGCCCCATCGGCGTGGTACCGTTCCAGTGGGCCGGCCAGGGCGCTGCGCCGGAAGATGTTGGCGGTATCGTGGCGGCTGACCTGCGCAACAGCGGTAAATTCAACCCGCTGGATCGCTCGCGTCTGCCGCAGCAGCCGACCAGTGCCCAGGAAGTGCAGCCTGCTGCCTGGTCTGCGCTGGGTATTGATGCCGTGGTCGTCGGCCAGGTGACGTCAAACCCGGATGGTTCTTACCAGGTAGCGTATCAGCTGGTGGATACCGGCGGTGCGCCGGGCACAACGCTGGCGCAAGGCTCTTTCAAAGTCACTAAACAGTACCTGCGCTATGCCGCGCACACTGCCAGCGACGCGGTATTTGAAAAGCTGACCGGTATTAAAGGCGCCTTCCGGACTCGTATCGCCTACGTGGTGCAGACCAATGGTGGTCAGTTCCCGTATGAGCTGCGCGTTTCCGATTATGATGGCTACAACCAGTTTGTGGTTCACCGCTCCTCCCAGCCGCTGATGTCCCCGGCCTGGTCACCGGACGGTTCAAAACTGGCTTACGTCACCTTCGAGAGCGGTCGCTCTGCGCTGGTGGTGCAGACCCTGGCGAACGGCGCTGTGCGTCAGATTGCCTCCTTCCCGCAGCACAACGGCGCGCCGGCGTTCTCGCCGGATGGTTCTAAACTGGCCTTCGCGCTGTCGAAAACCGGTAGCCTGAACCTGTACGTGATGGATCTGGGCTCGGGTCAGATTCGTCAGGTGACCAACGGTCGCAGCAACAACACCGAACCAAGCTGGTTCCCGGACAGCCAGAACCTGGCCTTTACCTCTGACCAGGCCGGTCGTCCGCAGGTGTATAAAGTCAATATTAATGGCGGCACGCCGCAGCGTATCACCTGGGAAGGTTCGCAGAACCAGGACGCTGACGTGAGCGCGGATGGTAAAACGATGGTAATGGTCAGCTCGGCCGGCGGCCAGCAGCACATTGCCAAACAAGATCTGGAAGCGGGTGGTGTACAGGTTCTGTCATCAACGTTTTTAGACGAAACGCCAAGTCTGGCACCTAACGGCACTATGGTAATCTACAGCTCTTCTCAGGGGATGGGATCCGTGCTGAATCTGGTTTCTACAGATGGGCGTTTCAAAGCGCGTCTTCCGGCAACTGATGGACAGGTAAAATCGCCTGCCTGGTCGCCGTATCTGTGA	MKQALRVAFGFLMLWAAVLHAEVRIEITQGVDSARPIGVVPFQWAGQGAAPEDVGGIVAADLRNSGKFNPLDRSRLPQQPTSAQEVQPAAWSALGIDAVVVGQVTSNPDGSYQVAYQLVDTGGAPGTTLAQGSFKVTKQYLRYAAHTASDAVFEKLTGIKGAFRTRIAYVVQTNGGQFPYELRVSDYDGYNQFVVHRSSQPLMSPAWSPDGSKLAYVTFESGRSALVVQTLANGAVRQIASFPQHNGAPAFSPDGSKLAFALSKTGSLNLYVMDLGSGQIRQVTNGRSNNTEPSWFPDSQNLAFTSDQAGRPQVYKVNINGGTPQRITWEGSQNQDADVSADGKTMVMVSSAGGQQHIAKQDLEAGGVQVLSSTFLDETPSLAPNGTMVIYSSSQGMGSVLNLVSTDGRFKARLPATDGQVKSPAWSPYL				NA	NA	NA	NA	NA
BMS020_04237	1341			hypothetical protein	GTGTCAAAGGCAACCGAACAAAACGACAAGCTTAAACGAGCGATCATCATTTCAGTCGCGCTGCACATCATACTGATCGCGCTGCTGATATGGAGTTCGTTTGACGAGCATCTGGATGCCTCTGCCGGCGGCGGCGGGGGATCGTCGATTGATGCCGTCATGGTCGATCCGGGGGCGGTGGTAAACAATTATAACCGTCAGCAACAGCAGCAGGCCAGCGCACGTCGCGCCGCTGAACAGCGTGAAAAACAGGCGCAGCAGCAGGCGGAAGAGTTACGTGAGAAGCAGGCGGCGGAACAGGAACGGCTGAAACAGCTCGAACAGGAGCGTCTGCAGGCGCAGGAAGCGGCGAAAGAAGCGAAGGAACAACAGAAGCAGGCTGAGGAAGCCGCTGCCAAGGCTGCCGCGGCGGCGAAAGCCAAAGCGGATGCGCAGGCCAAAGAAGCGCAGGAAGCGGCGGCCAAAGCGGCCGCCGAGGCGAAAGCGAAGGCGGATGCCCAGGCGAAAGCGGCTGAACTGGCGGCGGCGAAAGCGGCGGCTGACGCGAAGAAACAGGCCGAAGCTGCCGCCGCAAAAGCGGCTGCCGATGCGAAGAAACAGGCGGAAGCCGAAGCGGCGAAAGCCGCGGCAGAGGCGCAGAAGAAAGCGGAAGCGGCAGCGGCGAAAAAAGCGCAACAGGAAGCGGAGAAGAAGGCTCAGCAGGAAGCGGCTAAGCAGGCTGCGGCTGAAAAAGCGGCAGCAGAAAAAGCCGCCGAAAAAGCCGCTGAGAAGGCCGCTGCGCAAAAAGCGGCCGCGGAGAAGGCCGCCGCCGAGAAAGCCGCCGCAGCTGAAAAAGCCGCGGCAGCCAAAGCGGCTGCTGCTGAGAAGGCGGCGGCCGATAAAGCGGCCAAAGCGGCAGCAGCAAAAGCCGCGGCAGCGAAGAAAGCGGCTGCCGCGAAAGAAGCGGACGGCGTGGACGACCTGCTCGGCGATCTGAGTTCAGGTAAGAATGCGCCGAAAGGTAGCACCAGCGGTAGCACAGGTGGCTCTTCACCTGCTAAAGGAAGTAAACCGGGGCAGGGCGGTGCGTCTCAGGCGGAGATTGCCAGCTATATTTCGCAGGTGCAGGCCGCGATTAAAGGACATCTCTATGACTGGGATACGTACAAGGGTAAAGTATGTACGTTGCGCGTAAACCTGGCTCAGGATGGAACGTTGTTGAGTGTGAAATCGGAAGGCGGCGATCCGGCGTTCTGCCAGCAAATGCTGGCGGCCACCAGTCGGATGAGCAAATTCCCTAAACCGCCGTCGCAGGCTGTTTATGAAACGTTCAAAAATGCGCCACTGGACTTCAAACCTTAA	MSKATEQNDKLKRAIIISVALHIILIALLIWSSFDEHLDASAGGGGGSSIDAVMVDPGAVVNNYNRQQQQQASARRAAEQREKQAQQQAEELREKQAAEQERLKQLEQERLQAQEAAKEAKEQQKQAEEAAAKAAAAAKAKADAQAKEAQEAAAKAAAEAKAKADAQAKAAELAAAKAAADAKKQAEAAAAKAAADAKKQAEAEAAKAAAEAQKKAEAAAAKKAQQEAEKKAQQEAAKQAAAEKAAAEKAAEKAAEKAAAQKAAAEKAAAEKAAAAEKAAAAKAAAAEKAAADKAAKAAAAKAAAAKKAAAAKEADGVDDLLGDLSSGKNAPKGSTSGSTGGSSPAKGSKPGQGGASQAEIASYISQVQAAIKGHLYDWDTYKGKVCTLRVNLAQDGTLLSVKSEGGDPAFCQQMLAATSRMSKFPKPPSQAVYETFKNAPLDFKP				NA	NA	NA	NA	NA
BMS020_04238	429	tolR_1	COG0848	Tol-Pal system protein TolR	ATGGCCAGAGCACGTGGACGCGGACGTCGCGAACTGAAGTCCGAGATCAACATCGTTCCGCTGCTGGATGTCCTGCTGGTGCTGTTGCTGATCTTTATGGCAACGGCGCCGATCATTACGCAGAGCGTGGAAGTCGATCTGCCGGACGCCACGGAATCGCAAGCGGTGAAAAGCAATGACGATCCGCCGGTGATTGTGGAAGTCTCCGGGGTAGGGCAGTACAGCGTGAAAGTGGGGCAGGAGACGCTGTCCCAGCTGCCGCCGGAGCAGGTGATTGCCGAAGCGAAGCGTCGTCTTGAAGCCAATGAGAAAACGGTATTCCTGATCGGCGGTGCGAAAGACGTCCCTTACGATGAAATTATTAAAGCGCTGAACCTGTTGCATAGCGCAGGGGTTAAATCGGTCGGCTTGATGACCAAACCTATTTAA	MARARGRGRRELKSEINIVPLLDVLLVLLLIFMATAPIITQSVEVDLPDATESQAVKSNDDPPVIVEVSGVGQYSVKVGQETLSQLPPEQVIAEAKRRLEANEKTVFLIGGAKDVPYDEIIKALNLLHSAGVKSVGLMTKPI				NA	NA	NA	NA	NA
BMS020_04239	693	tolQ_2	COG0811	Tol-Pal system protein TolQ	GTGACTGACATGAATATCCTTGATTTGTTCCTGAAGGCGAGCCTTCTGGTTAAACTTATCATGTTGATTTTGATTGGTTTTTCTATCGCTTCCTGGGCTATCATTATTCAGAGAACGCGTATCCTTAACTCGGCCGCGCGCGAAGCTGAAGCGTTCGAGGACAAATTCTGGTCCGGGATTGAACTGTCCCGTTTGTATCAGGAGAGCCAGGGGCGTCGCGATAATCTGACCGGTTCGGAGCAGATCTTCTACAGCGGCTTCAAAGAGTTTGCGCGCTTGCATCGGGCCAACAGCCATGCGCCGGAGGCGATCGTCGAAGGGGCATCGCGCGCGATGCGTATTTCGATGAACCGCGAGCTGGAAACGCTGGAGACCCATATTCCGTTCCTCGGCACCGTAGGCTCCATCAGCCCGTATATCGGTCTGTTCGGCACCGTCTGGGGGATCATGCACGCCTTTATCGCCCTTGGCGCGGTGAAGCAGGCCACCCTGCAGATGGTGGCGCCGGGTATCGCCGAAGCGCTGATCGCCACCGCGATCGGTCTGTTCGCCGCTATTCCGGCGGTGATGGCGTACAACCGCCTGAACCAGCGGGTGAACAAGCTTGAACTGAATTACGACAACTTTATGGAAGAGTTCACCGCTATTCTGCACCGTCAGGCCTTTACCACCAGCGAAAGCAATAAGGGGTAA	MTDMNILDLFLKASLLVKLIMLILIGFSIASWAIIIQRTRILNSAAREAEAFEDKFWSGIELSRLYQESQGRRDNLTGSEQIFYSGFKEFARLHRANSHAPEAIVEGASRAMRISMNRELETLETHIPFLGTVGSISPYIGLFGTVWGIMHAFIALGAVKQATLQMVAPGIAEALIATAIGLFAAIPAVMAYNRLNQRVNKLELNYDNFMEEFTAILHRQAFTTSESNKG				NA	NA	NA	NA	NA
BMS020_04240	405	ybgC	COG0824	Acyl-CoA thioester hydrolase YbgC	GTGAATACAACGCTGTTTCGATGGCCGGTTCGGGTCTACTACGAAGATACCGACGCCGGTGGTGTGGTTTACCACGCCAGTTACGTCGCTTTTTATGAAAGAGCACGCACAGAGATGCTGCGCCACCATCACTTTAGTCAACAGGTTCTGTTGGCTGAACGCGTTGCCTTCGTGGTTCGCAAAATGACGCTGGAGTATTTTGCCCCCGCCAGACTCGACGACATGCTCGAAGTTCAGACGGAAATTACCTCGATGCGCGGCACCTCTTTGGTTTTCACGCAGCGAATCGTCAACGCCGAGAATACAGTGTTAAACGAAGCTGAGGTTCTCATTGTGTGCGTTGATCCACTCTTAATGAAGCCACGTGCGCTTCCCAAGTCTATTGTCGCGGAGTTTAAGCAGTGA	MNTTLFRWPVRVYYEDTDAGGVVYHASYVAFYERARTEMLRHHHFSQQVLLAERVAFVVRKMTLEYFAPARLDDMLEVQTEITSMRGTSLVFTQRIVNAENTVLNEAEVLIVCVDPLLMKPRALPKSIVAEFKQ	PGPT0001850_7625	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
BMS020_04241	285			hypothetical protein	ATGATAAAGTATATGTATGCGATAATGGACAAGCGCCCGTTAAGGGCGCTTTCCTTGTTGATGGCGCTGCTGCTGGCAGGCTGCATTTTCTGGGATCCGTCGCGCTTTGCCGCGAAGACCAGCGAGCTGGAAATCTGGCACGGTTTCTTGCTGATGTGGGCGGTTTGCAGTGGCGTAATTCACGGCGTGGGCTTCCGCCCGCGTGCCGTTCACTGGCAGGGGATTTTTTGTCCGCTTATCGCTGATATCGTGCTCGCTTTAGGTCTCTTCTTTTTCTTCTTTTGA	MIKYMYAIMDKRPLRALSLLMALLLAGCIFWDPSRFAAKTSELEIWHGFLLMWAVCSGVIHGVGFRPRAVHWQGIFCPLIADIVLALGLFFFFF				NA	NA	NA	NA	NA
BMS020_04242	114	cydX	COG4890	Cytochrome bd-I ubiquinol oxidase subunit X	ATGTGGTACTTCGCATGGATTTTGGGAACGCTTCTTGCCTGTGCCTTTGGGGTGATTACCGCGCTGGCGCTTGAGCACGTGGAAGCCACCAAAGCAGGTAAAGAAGAACACTGA	MWYFAWILGTLLACAFGVITALALEHVEATKAGKEEH				NA	NA	NA	NA	NA
BMS020_04243	1140	cydB_3	COG1294	Cytochrome bd-I ubiquinol oxidase subunit 2	ATGATCGATTATGAAGTATTGCGTTTTATCTGGTGGCTGCTGATTGGCATCCTGCTGATTGGCTTCGCCGTCGCCGACGGGTTCGACATGGGGGTGGGCATGCTCACCCGCTTCCTCGGCCGTAACGACACCGAGCGTCGGATTATGATCAACGCCATCGCCCCGCACTGGGACGGTAACCAGGTGTGGCTGATCACCGCCGGCGGCGCGCTGTTCGCTGCCTGGCCGATGGTCTACGCCGCGGCGTTCTCCGGTTTCTATGTGGCGATGATTCTGGTGCTGGCCTCGTTGTTCTTCCGTCCGGTCGGTTTCGACTACCGTTCCAAGATCGAGGACACCCGCTGGCGCAACATGTGGGACTGGGGCATCTTCATCGGCAGCTTCGTGCCGCCGCTGGTGATTGGCGTGGCCTTCGGCAACCTGCTGCAGGGCGTGCCGTTCCATGTCGACGAATACCTGCGTCTGTTCTATACCGGTAACTTCTTCCAGCTGCTGAACCCGTTTGGTCTGCTGGCCGGTATCGTCAGCGTGGCGATGATCCTCACCCAGGGCGCGACCTACCTGCAGATGCGTACCGTAGGCGAACTGCATCTGCGCACCCGCACCGTCTCCACGGTGGCGGCGCTGGTGACGCTGGTCTGCTTCGCGCTGGCGGGCGTGTGGGTCTACTACGGCATCGACGGCTATGTGGTGAAATCGGTGATTGACCATACCGGCCCGTCTAACCCGCTGACCAAAGAAGTGGTGCGTGAAGCGGGCGCGTGGATGGTGAACTTTAACAATATGCCAGCGCTGTGGGCGATCCCTGCCCTGGGCGTGGTGCTGCCGCTGCTGACCGTCGTTTCGACCAAAGCGGATAAAGGCGCCTGGGCATTCCTGTTCTCCTCGCTGACCCTGGCCTGCATCATTCTGACTGCCGGTATCGCGATGTTCCCGTTCATCATGCCGTCCAGCACCATGCTGAACGCCAGCCTGACGATGTGGGACGCGACCTCCAGCCAGCGGACGCTGAACCTGATGACCTACGTGGCGATTGTCTTCGTGCCGATCATTCTGGGCTACACCAGCTGGTGTTACTGGAAGATGTTTGGCCGCATCACCCGTGAAGACATCGAAAAGAACACCCACTCGCTGTACTAA	MIDYEVLRFIWWLLIGILLIGFAVADGFDMGVGMLTRFLGRNDTERRIMINAIAPHWDGNQVWLITAGGALFAAWPMVYAAAFSGFYVAMILVLASLFFRPVGFDYRSKIEDTRWRNMWDWGIFIGSFVPPLVIGVAFGNLLQGVPFHVDEYLRLFYTGNFFQLLNPFGLLAGIVSVAMILTQGATYLQMRTVGELHLRTRTVSTVAALVTLVCFALAGVWVYYGIDGYVVKSVIDHTGPSNPLTKEVVREAGAWMVNFNNMPALWAIPALGVVLPLLTVVSTKADKGAWAFLFSSLTLACIILTAGIAMFPFIMPSSTMLNASLTMWDATSSQRTLNLMTYVAIVFVPIILGYTSWCYWKMFGRITREDIEKNTHSLY	PGPT0026705_657	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
BMS020_04244	1569	cydA_3	COG1271	Cytochrome bd-I ubiquinol oxidase subunit 1	ATGTTAGATATAGTCGAACTGTCGCGCTTACAGTTTGCCTTGACCGCGATGTACCACTTCCTGTTTGTGCCACTGACGCTCGGTATGGCGTTCCTGCTGGCCATCATGGAAACGGTCTACGTCCTTTCCGGCAAACAGATTTATAAAGATATGACCAAATTCTGGGGCAAGTTGTTTGGTATCAACTTCGCGCTGGGTGTGGCGACCGGTCTGACCATGGAGTTCCAGTTCGGGACTAACTGGTCGTATTACTCACACTACGTGGGCGATATCTTCGGTGCGCCGCTGGCCATTGAGGGTCTGATGGCCTTCTTCCTCGAATCCACCTTTGTAGGTCTGTTCTTCTTCGGTTGGGATCGTCTGGGTAAAGTTCAGCATATGGCCGTCACCTGGCTGGTCGCTCTGGGCTCCAACCTCTCCGCGCTGTGGATCCTCGTCGCTAACGGCTGGATGCAGAACCCTATCGCATCGGACTTCAACTTTGAAACCATGCGTATGGAGATGGTCAGCTTCTCCGAACTGGTGCTCAACCCGGTTGCTCAGGTGAAATTCGTTCACACTGTGGCGTCTGGCTATGTCACCGGTGCGATGTTTATCCTGGCTATCAGCTCCTGGTACATGCTGAAAGGCCGTGACTTTGCCTTTGCTAAGCGCTCCTTCGCCATCGCAGCCAGCTTCGGTATGGCGGCGATCCTCTCCGTTATTGTGCTGGGTGACGAATCCGGTTACGAAATGGGTGACGTGCAGAAAACCAAACTGGCGGCTATCGAAGCAGAGTGGGAAACCCAGCCTGCGCCGGCGGCCTTTACCCTGTTTGGTATTCCCGATCAGAATGCGCAAACCAACCACTTCGCCATCCAGATCCCCTACGCGCTGGGCATCATTGCCACCCGCTCGGTGGATAAGCCGGTTATCGGTCTGAAGGATCTGATGGTTCAGCACGAAGAGCGTATCCGTAACGGCATGAAAGCCTACGCGCTGCTGGAGCAACTGCGCGCCGGTTCCACCGACCAGGCCGTTCGCGACCAGTTCAATAACGTGAAGAAAGATCTCGGCTATGGTCTGCTGCTGAAACGCTATACCCCGAACGTCGCTGACGCCACGGAAGAGCAGATCGCCAAAGCCACCAAAGACTCTATTCCAAGCGTCGCACCGCTGTACTTCGCCTTCCGTATCATGGTGGCGTGCGGCATCCTGATGCTGTTGATTATCGGCGCCTCCTTCTGGAGCGTGATTCGTAACCGTATCGGCGAGAAAAAATGGCTGCTGCGCGCCGCGTTCTATGGCCTGCCGCTGCCGTGGATTGCCGTGGAGTCGGGCTGGTTTGTTGCCGAATACGGCCGTCAGCCGTGGGCGATTGGTGAAGTCCTGCCGACGGCGGTGGCCAACTCGTCGCTGACCGCGGGCGATCTGATCTTCTCTATGTTGCTGATCTGCGGTCTGTACACGCTGTTCCTGGTGGCTGAACTGTTCCTGATGTTCAAGTTTGCCCGCAAAGGACCTAGCAGCCTGAAAACCGGCCGCTATCACTTTGAACAGTCCTCTGCGGCTATTCAGTCGGCACGCTAA	MLDIVELSRLQFALTAMYHFLFVPLTLGMAFLLAIMETVYVLSGKQIYKDMTKFWGKLFGINFALGVATGLTMEFQFGTNWSYYSHYVGDIFGAPLAIEGLMAFFLESTFVGLFFFGWDRLGKVQHMAVTWLVALGSNLSALWILVANGWMQNPIASDFNFETMRMEMVSFSELVLNPVAQVKFVHTVASGYVTGAMFILAISSWYMLKGRDFAFAKRSFAIAASFGMAAILSVIVLGDESGYEMGDVQKTKLAAIEAEWETQPAPAAFTLFGIPDQNAQTNHFAIQIPYALGIIATRSVDKPVIGLKDLMVQHEERIRNGMKAYALLEQLRAGSTDQAVRDQFNNVKKDLGYGLLLKRYTPNVADATEEQIAKATKDSIPSVAPLYFAFRIMVACGILMLLIIGASFWSVIRNRIGEKKWLLRAAFYGLPLPWIAVESGWFVAEYGRQPWAIGEVLPTAVANSSLTAGDLIFSMLLICGLYTLFLVAELFLMFKFARKGPSSLKTGRYHFEQSSAAIQSAR	PGPT0026700_63	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
BMS020_04245	870	sucD_1	COG0074	Succinate--CoA ligase [ADP-forming] subunit alpha	ATGTCAGTTTTAATTAATAAAGATACCAAGGTTATCTGCCAGGGCTTCACCGGTAGCCAGGGGACCTTCCACTCTGAACAAGCGATCGCTTACGGTACGCAAATGGTTGGCGGCGTGACGCCAGGCAAAGGCGGCACCACTCACCTGGGCCTGCCGGTGTTCAACACCGTGCGCGAAGCCGTTGAAGCGACCGGCGCCACCGCGACCGTGATCTACGTTCCGGCGCCGTTCTGCAAAGATTCCATTCTGGAAGCGATTGACGCGGGCATTAAGCTGATTATCACCATCACCGAAGGTATCCCGACGCTGGATATGCTGACCGTGAAAGTGAAACTGGACGAAGCGGGCGTGCGCATGATCGGCCCGAACTGCCCAGGCGTGATCACGCCGGGCGAATGCAAAATCGGCATCATGCCGGGTCACATTCACAAGCCGGGTAAAGTGGGCATCGTTTCCCGTTCCGGTACACTGACCTATGAAGCAGTTAAGCAGACCACCGACTACGGCTTCGGTCAGTCTACCTGCGTCGGTATCGGCGGCGACCCGATCCCGGGCTCTAACTTCATCGATATCCTGAAGCTGTTCCAGGAAGACCCGCAGACCGAAGCGATTGTGATGATCGGTGAGATCGGCGGTAGCGCGGAAGAAGAAGCGGCTGCCTACATCAAAGAGCACGTAACCAAGCCGGTTGTCGGTTACATCGCGGGCGTGACCGCGCCGAAGGGCAAGCGTATGGGCCATGCTGGCGCCATCATCGCTGGCGGTAAAGGTACTGCCGATGAGAAATTCGCAGCCCTGGAAGCAGCCGGTGTGAAAACCGTTCGCAGCCTGGCCGATATCGGCGAAGCGCTGAAAGCTATCATCAAGTAA	MSVLINKDTKVICQGFTGSQGTFHSEQAIAYGTQMVGGVTPGKGGTTHLGLPVFNTVREAVEATGATATVIYVPAPFCKDSILEAIDAGIKLIITITEGIPTLDMLTVKVKLDEAGVRMIGPNCPGVITPGECKIGIMPGHIHKPGKVGIVSRSGTLTYEAVKQTTDYGFGQSTCVGIGGDPIPGSNFIDILKLFQEDPQTEAIVMIGEIGGSAEEEAAAYIKEHVTKPVVGYIAGVTAPKGKRMGHAGAIIAGGKGTADEKFAALEAAGVKTVRSLADIGEALKAIIK	PGPT0001540_3433	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
BMS020_04246	1167	sucC_1	COG0045	Succinate--CoA ligase [ADP-forming] subunit beta	ATGAACTTACATGAATATCAGGCAAAACAACTTTTTGCCCGCTATGGCTTACCGGCGCCGGTGGGTTATGCCTGTACTACTCCGCGTGAAGCAGAAGAAGCCGCTTCAAAAATCGGCGCGGGTCCGTGGGTAGTGAAATGTCAGGTTCACGCTGGTGGCCGCGGCAAAGCGGGCGGTGTGAAAGTGGTGAAGAGCAAAGAAGAGATCCGCGCATTTGCCGAGCACTGGCTGGGCAAACGTCTGGTGACCTATCAAACAGATGCGAACGGCCAGCCGGTTAACCAGATCCTGGTTGAAGCGGCGACAGATATTGACAAAGAGCTGTACCTGGGCGCGGTCGTTGACCGTAGCTCCCGTCGCGTAGTGTTCATGGCCTCTACCGAAGGCGGCGTGGAAATCGAAAAAGTGGCGGAAGAGACCCCGCACCTGATCCACAAGATCGCCATCGATCCGCTGGCGGGCCCGATGCCTTATCAAGGTCGTGAACTGGCGTTCAAACTGGGTCTGGAAGGTAAACAGGTTCAGCAGTTCACCAAGATCTTCATGGGTCTGGCGACCATTTTCCTGGAGCGCGACCTGGCGCTGATCGAAATCAACCCGCTGGTTATCACTAAGCAGGGCGACCTGATCTGCCTCGACGGCAAACTGGGCGCTGACGGCAACGCGCTGTTCCGCCAGCCGGATCTGCGCGAAATGCGCGACCAGTCGCAGGAAGATCCGCGTGAAGCGCAGGCGGCGCAGTGGGAACTGAACTACGTCGCGCTGGACGGCAACATCGGCTGCATGGTTAACGGCGCAGGCCTGGCGATGGGTACCATGGACATCGTTAAACTGCACGGCGGCGAACCGGCTAACTTCCTCGACGTGGGCGGCGGTGCGACCAAAGAGCGCGTCACCGAAGCGTTCAAAATCATCCTCTCTGATGACAACGTGAAAGCGGTGCTGGTGAACATCTTCGGCGGTATCGTACGTTGCGACCTGATCGCTGACGGCATCATCGGTGCGGTAGCGGAAGTTGGAGTTAACGTTCCGGTCGTGGTTCGTCTGGAAGGTAACAACGCCGAACTGGGCGCGAAAAAACTGGCTGACAGCGGCCTGAATATTATTGCAGCGAAAAGTCTGACGGACGCAGCACAGCAGGTTGTTGCCGCAGTGGAGGGGAAATAA	MNLHEYQAKQLFARYGLPAPVGYACTTPREAEEAASKIGAGPWVVKCQVHAGGRGKAGGVKVVKSKEEIRAFAEHWLGKRLVTYQTDANGQPVNQILVEAATDIDKELYLGAVVDRSSRRVVFMASTEGGVEIEKVAEETPHLIHKIAIDPLAGPMPYQGRELAFKLGLEGKQVQQFTKIFMGLATIFLERDLALIEINPLVITKQGDLICLDGKLGADGNALFRQPDLREMRDQSQEDPREAQAAQWELNYVALDGNIGCMVNGAGLAMGTMDIVKLHGGEPANFLDVGGGATKERVTEAFKIILSDDNVKAVLVNIFGGIVRCDLIADGIIGAVAEVGVNVPVVVRLEGNNAELGAKKLADSGLNIIAAKSLTDAAQQVVAAVEGK	PGPT0019515_2374	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
BMS020_04247	1227	sucB_1	COG0508	Dihydrolipoyllysine-residue succinyltransferase component of 2-oxoglutarate dehydrogenase complex	ATGAGTAGCGTAGATATTCTGGTTCCCGACCTGCCTGAGTCCGTAGCTGACGCAACCGTCGCCACCTGGCACAAAAAACCGGGCGACGCGGTCGTCCGTGACGAAGTCCTGGTCGAAATCGAAACTGACAAAGTGGTACTGGAAGTACCGGCATCAGCGGACGGCATTCTGGATGCAGTGCTGGAAGACGAGGGCGCTACCGTCCTGTCTCGCCAGATCCTTGGCCGCCTGCGCGAAGGTAACAGCGCAGGTAAAGAAAGCAGCGAAAAAGCCGATGCGAAAGCGTCCACGCCGGCGCAGCGTCAGCAGGCCTCTCTGGAAGAGCAGAACAACGATGCGCTGAGCCCGGCGATCCGTCGTCTGCTGGCTGAACACAACCTCGACGCGGCGGCCATCAAAGGCACCGGCGTCGGCGGCCGCCTGACCCGCGAAGATGTCGAGAAACATCTGGCGAAAGCCCCGGCGGCGGCAGAAGCCAAAGCGCCAGCCGCTGCCCCGGCAGCCGCGCCGGCGCCGCAGCTGGGCCACCGCTCTGAAAAACGCGTCCCGATGACCCGCCTGCGTAAACGCGTGGCCGAGCGTCTGCTGGAAGCGAAGAACTCCACCGCCATGCTGACCACGTTCAACGAAGTCAACATGAAGCCAATCATGGATCTGCGTAAGCAGTACGGCGACGCGTTCGAAAAACGTCACGGCATCCGTCTGGGCTTTATGTCCTTCTACGTGAAAGCGGTCGTGGAAGCGCTGAAACGCTATCCGGAAGTGAACGCCTCTATCGATGGCGACGACGTGGTGTACCACAACTACTTCGACGTCAGCATGGCCGTATCCACTCCACGCGGCCTGGTCACCCCGGTTCTGCGTGACGTTGACCTGCTGGGCATGGCGGATATCGAAAAGAATATTAAAGAGTTGGCGGTGAAAGGCCGTGACGGCAAGCTGACCGTAGACGACCTGACCGGCGGTAACTTCACCATTACCAACGGCGGCGTGTTCGGCTCCCTGATGTCCACGCCGATCATCAACCCACCGCAGAGCGCCATCCTGGGTATGCATGCCATTAAAGACCGTCCGATGGCGGTGAATGGCAAGGTAGAGATCCTGCCGATGATGTACCTGGCGCTCTCCTACGACCACCGTCTGATCGACGGACGTGAATCGGTAGGCTTCCTGGTGGCGATTAAAGAGCTGCTGGAAGATCCGACCCGTCTGCTGCTGGACGTGTAG	MSSVDILVPDLPESVADATVATWHKKPGDAVVRDEVLVEIETDKVVLEVPASADGILDAVLEDEGATVLSRQILGRLREGNSAGKESSEKADAKASTPAQRQQASLEEQNNDALSPAIRRLLAEHNLDAAAIKGTGVGGRLTREDVEKHLAKAPAAAEAKAPAAAPAAAPAPQLGHRSEKRVPMTRLRKRVAERLLEAKNSTAMLTTFNEVNMKPIMDLRKQYGDAFEKRHGIRLGFMSFYVKAVVEALKRYPEVNASIDGDDVVYHNYFDVSMAVSTPRGLVTPVLRDVDLLGMADIEKNIKELAVKGRDGKLTVDDLTGGNFTITNGGVFGSLMSTPIINPPQSAILGMHAIKDRPMAVNGKVEILPMMYLALSYDHRLIDGRESVGFLVAIKELLEDPTRLLLDV	PGPT0001535_2654	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
BMS020_04248	2808	sucA_1	COG0567	2-oxoglutarate dehydrogenase E1 component	ATGCAGAACGGCGCAATGAAAGCCTGGCTGGACTCTTCTTACCTCTCTGGTTCGAACCAGAGCTGGATAGAACAGCTCTATGAAGACTTCTTAACCGATCCTGACTCTGTTGACGCCAACTGGCGTTCAATGTTCCAGCAGTTACCTGGCACCGGAGTTAAACCGGATCAATTTCATTCCAAAACGCGTGATTATTTCCGTCGACTGGCGAAGGATGCCTCACGTTACACTTCTTCGATTTCCGACCCAGACACCAATGTGAAGCAGGTTAAAGTCCTGCAGCTCATCAACGCATACCGTTTCCGTGGCCACCAGCATGCGAATCTCGATCCGCTGGGGCTGTGGAAGCAAGAGAGAGTGGCGGATCTCGATCCGGCCTACCACGATCTGACCGAGGCCGATTTCCAGGAAAGCTATAACGTAGGTTCATTTGCCATCGGTAAAGACACGATGAAGCTGGGTGAGCTGATTGCCGCCCTTAAGCAAACCTACTGCGGCTCCATCGGCGCGGAATACATGCATATCACCTCTACCGAAGAAAAACGCTGGATCCAGCAGCGCATTGAATCGGTAGCCGGCAAAGCGAGCTTTACCGCGGAAGAGAAAAAACGTTTCCTCGGCGAACTGACTGCCGCGGAAGGGCTGGAGCGCTACCTCGGCGCCAAATTCCCGGGGGCGAAGCGCTTCTCGCTGGAGGGTGGCGACGCCCTGATCCCCATGCTCAAAGAGATGATCCGCCATGCGGGTAAGAGCGGCACCCGTGAAGTGGTGCTGGGCATGGCGCACCGTGGCCGTCTCAACGTGCTGGTCAACGTGCTGGGTAAAAAACCGCAGGACCTGTTCGACGAGTTTGCCGGCAAACATAAAGAACACCTCGGTACCGGCGATGTGAAGTACCACATGGGCTTCTCTTCCGATATAGAAACCGAAGGCGGTCTGGTGCACCTGGCGCTGGCGTTTAACCCGTCGCACCTCGAGATCGTCAGCCCGGTGGTGATCGGTTCCGTACGCGCCCGTCTGGATCGTCTGGACGAGCCGAGCAGCAACAAGGTTCTGCCGATCACTATCCACGGCGACGCCGCGGTGACCGGTCAGGGCGTGGTTCAGGAAACCCTGAACATGTCCAAAGCCCGCGGTTACGAAGTGGGCGGGACCGTGCGCATCGTTATCAACAACCAGGTGGGCTTCACGACCTCTAACCCGCTGGATGCGCGTTCGACCCCGTACTGCACCGACATCGGTAAAATGGTGCAGGCGCCGATTTTCCACGTCAACGCCGACGATCCGGAAGCGGTCGCTTTCGTCACCCGTCTGGCGCTGGATTTCCGCAATACCTTCAAACGCGATGTCTTCATCGACCTGGTGTGCTACCGCCGTCACGGCCATAACGAAGCCGATGAGCCGAGCGCAACCCAGCCGCTGATGTATCAGAAGATCAAAAAGCACCCGACTCCGCGCAAAATCTATGCTGACAAGCTGGAGCAGGACAAGGTCGCGACCCTGGAAGATGCTACCGAGCAGGTTAACCTCTACCGCGATGCGCTGGATGCCGGCGAATGCGTGGTGAAGGAATGGCGTCCGATGAACATGCACTCCTTTACCTGGTCGCCGTACCTCAACCATGAGTGGGACGAGAGCTATCCGGATAAAGTGGAGCCGAAGCGTCTGCAGGAGCTGGCCAAACGCATCAGCACGGTGCCGGAAGGTATCGAAATGCAGTCCCGCGTGGCGAAAATTTACGCCGACCGCCAGGCGATGGCGGCAGGTGAGAAGCTGTTCGATTGGGGCGGCGCTGAAAACCTGGCCTACGCCACGCTGGTTGACGAAGGTATTCCGGTGCGTCTGTCCGGGGAAGACTCCGGTCGCGGCACCTTCTTCCACCGTCATGCGGTGATCCATAACCAGACCAATGGTTCAACCTACACCCCGCTGCAGCATGTCCATAACGGTCAGGGCCAGTTCCGCGTTTGGGACTCCGTGCTGTCTGAAGAAGCGGTGCTGGCGTTTGAATATGGTTACGCCACTGCAGAGCCGCGCACCCTGACCATCTGGGAAGCGCAGTTTGGCGACTTCGCCAACGGCGCGCAGGTGGTGATCGACCAGTTCATCTCCTCCGGTGAGCAGAAGTGGGGCCGGATGTGCGGCCTGGTGATGCTCCTGCCGCACGGCTACGAAGGCCAGGGCCCGGAGCACTCCTCCGCCCGTCTGGAGCGTTATCTGCAGCTGTGCGCTGAGCAGAATATGCAGGTATGCGTGCCGTCCACGCCGGCGCAGGTGTACCACATGCTGCGTCGTCAGGCGCTGCGCGGTATGCGTCGTCCGCTGGTGGTGATGTCGCCGAAGTCGCTGCTGCGTCATCCGCTGGCGGTCTCCAGCATGGATGAGCTGGCGAACGGCACTTTCCTGCCGGCCATCGGTGAAATCGATCAACTTGATCCGCAGGCTGTGAAGCGCGTGGTGCTGTGCTCTGGTAAGGTTTACTACGACCTGCTGGAACAGCGCCGTAAAAACGAGCAAAAAGATGTCGCTATCGTTCGTATCGAGCAGCTCTATCCGTTCCCGCATCAGGCGGTGCAGGATGCGCTGAAAGCGTATGCGCACGTACATGATTTTGTCTGGTGCCAGGAAGAGCCGCTCAACCAGGGCGCATGGTACTGCAGCCAGCATCACTTCCGTGAAGTGATTCCGTTTGGGGCCTCTCTGCGTTATGCAGGCCGCCCGGCCTCCGCCTCTCCGGCGGTAGGGTATATGTCCGTTCACCAGAAACAGCAACAAGATCTGGTCAATGACGCGCTGAACGTCGATTAA	MQNGAMKAWLDSSYLSGSNQSWIEQLYEDFLTDPDSVDANWRSMFQQLPGTGVKPDQFHSKTRDYFRRLAKDASRYTSSISDPDTNVKQVKVLQLINAYRFRGHQHANLDPLGLWKQERVADLDPAYHDLTEADFQESYNVGSFAIGKDTMKLGELIAALKQTYCGSIGAEYMHITSTEEKRWIQQRIESVAGKASFTAEEKKRFLGELTAAEGLERYLGAKFPGAKRFSLEGGDALIPMLKEMIRHAGKSGTREVVLGMAHRGRLNVLVNVLGKKPQDLFDEFAGKHKEHLGTGDVKYHMGFSSDIETEGGLVHLALAFNPSHLEIVSPVVIGSVRARLDRLDEPSSNKVLPITIHGDAAVTGQGVVQETLNMSKARGYEVGGTVRIVINNQVGFTTSNPLDARSTPYCTDIGKMVQAPIFHVNADDPEAVAFVTRLALDFRNTFKRDVFIDLVCYRRHGHNEADEPSATQPLMYQKIKKHPTPRKIYADKLEQDKVATLEDATEQVNLYRDALDAGECVVKEWRPMNMHSFTWSPYLNHEWDESYPDKVEPKRLQELAKRISTVPEGIEMQSRVAKIYADRQAMAAGEKLFDWGGAENLAYATLVDEGIPVRLSGEDSGRGTFFHRHAVIHNQTNGSTYTPLQHVHNGQGQFRVWDSVLSEEAVLAFEYGYATAEPRTLTIWEAQFGDFANGAQVVIDQFISSGEQKWGRMCGLVMLLPHGYEGQGPEHSSARLERYLQLCAEQNMQVCVPSTPAQVYHMLRRQALRGMRRPLVVMSPKSLLRHPLAVSSMDELANGTFLPAIGEIDQLDPQAVKRVVLCSGKVYYDLLEQRRKNEQKDVAIVRIEQLYPFPHQAVQDALKAYAHVHDFVWCQEEPLNQGAWYCSQHHFREVIPFGASLRYAGRPASASPAVGYMSVHQKQQQDLVNDALNVD	PGPT0001530_2861	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
BMS020_04249	717	sdhB_1	COG0479	Succinate dehydrogenase iron-sulfur subunit	ATGAAACTCGAGTTTTCAATTTATCGCTATAACCCGGATGTTGACGACGCTCCGCACATGCAGGATTACACCCTCGACGCGGAAGAAGGTCGTGACATGATGCTGCTGGATGCGCTGATCCAGCTGAAAGAAAAAGATCCGTCGCTGTCGTTCCGCCGCTCCTGCCGTGAAGGGGTCTGCGGTTCCGATGGCCTGAACATGAACGGGAAAAACGGTCTGGCGTGCATCACGCCGATCTCCGCGCTGAATCAGCCGGGCAAGAAGATTGTTATCCGCCCGCTGCCAGGATTACCGGTTATCCGTGATTTGGTGGTGGACATGGGGCAATTCTATGCACAATATGAGAAGATTAAGCCTTACTTGTTGAATAATGGGCAAAATCCTCCGGCTCGCGAGCATCTGCAGATGCCTGAGCAGCGTGAGAAGCTCGATGGCCTGTACGAGTGTATTCTGTGCGCATGTTGTTCGACCTCGTGCCCGTCGTTCTGGTGGAACCCGGACAAGTTCATCGGCCCGGCAGGCCTGCTGGCCGCGTATCGCTTCCTGATCGACAGTCGCGATACCGAAACCAGCGAGCGTCTGGACGGCCTGAGCGATGCTTTCAGCGTATTCCGCTGTCACAGCATTATGAACTGCGTCAGTGTGTGTCCTAAGGGGCTGAACCCGACGCGCGCCATCGGCCATATTAAGTCGATGCTGCTGCAGCGCAGCGCGTAA	MKLEFSIYRYNPDVDDAPHMQDYTLDAEEGRDMMLLDALIQLKEKDPSLSFRRSCREGVCGSDGLNMNGKNGLACITPISALNQPGKKIVIRPLPGLPVIRDLVVDMGQFYAQYEKIKPYLLNNGQNPPAREHLQMPEQREKLDGLYECILCACCSTSCPSFWWNPDKFIGPAGLLAAYRFLIDSRDTETSERLDGLSDAFSVFRCHSIMNCVSVCPKGLNPTRAIGHIKSMLLQRSA	PGPT0001600_3143	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
BMS020_04250	1767	sdhA_1	COG1053	Succinate dehydrogenase flavoprotein subunit	ATGAAATTGCCAGTCAGAGAGTTTGATGCTGTTGTCATCGGTGCCGGCGGCGCAGGTATGCGCGCGGCGCTGCAAATTTCCCAGAGCGGACAGACCTGTGCGCTGCTCTCCAAAGTTTTCCCGACCCGATCGCACACCGTATCCGCGCAGGGTGGTATCACCGTCGCGCTCGGTAACTCCCATGAAGATAACTGGGAATGGCATATGTACGACACCGTAAAAGGGTCGGACTATATCGGCGACCAGGACGCCATCGAATATATGTGTAAGACCGGCCCGGAAGCGATTCTCGAGCTGGAGCACATGGGCCTGCCGTTCTCCCGTCTTGACGACGGCCGTATTTATCAGCGCCCGTTCGGCGGCCAGTCGAAGAACTTCGGCGGCGAGCAGGCGGCGCGTACCGCGGCGGCGGCTGACCGTACCGGCCACGCCCTGCTGCACACCCTGTACCAGCAGAACCTCAAAAACCACACCACTATCTTCTCCGAATGGTATGCCCTCGATCTGGTGAAAAACCAGGACGGCGCGGTGGTGGGTTGTACCGCCCTGTGCATCGAGACCGGCGAAGTGGTCTACTTTAAAGCCCGCGCCACCGTGCTGGCGACCGGCGGCGCAGGCCGTATCTATCAGTCCACCACCAACGCCCACATCAACACCGGTGACGGCGTCGGGATGGCCATCCGCGCCGGCGTGCCGGTGCAGGATATGGAAATGTGGCAGTTCCACCCGACCGGTATCGCCGGGGCCGGGGTTCTGGTCACCGAAGGTTGCCGCGGCGAAGGCGGTTATCTGCTGAATAAACACGGCGAGCGCTTTATGGAGCGTTATGCGCCGAACGCGAAAGACCTGGCGGGTCGTGACGTGGTGGCGCGTTCCATCATGATCGAGATCCGCGAAGGCCGCGGCTGCGACGGTCCGTGGGGCCCGCACGCGAAACTGAAACTGGATCACCTGGGTAAAGAGGTTCTGGAATCTCGTCTGCCGGGTATCCTTGAGCTGTCCCGCACCTTTGCTCACGTCGATCCGGTGAAAGAGCCGATCCCGGTTATCCCAACCTGCCACTACATGATGGGCGGTATTCCGACCAAAGTGACCGGCCAGGCGCTGACCGTCAATGAGAAGGGCGAAGACGTGGTGATCCCGGGTCTGTTCGCGGTGGGCGAAATCGCCTGCGTATCGGTCCACGGCGCCAACCGTCTGGGCGGCAACTCGCTGCTCGACCTGGTGGTCTTCGGCCGCGCGGCGGGCCTGCATCTGCAGGAGTCTATCGCCGAGCAGGGCACGCTGCGCGACGCCAGCGAATCCGATATCGAAGGCTCGCTGGACCGCCTCAACCGCTGGAACAACACCCGTTCCGGTGAAGATCCGGTGGCGATCCGCAAAGCGCTGCAGGAATGTATGCAGCATAACTTCTCGGTGTTCCGCGAAGGCGATGCGATGCACAAAGGTCTGGAACAGCTGAAAGTGATCCGCGAGCGCCTGAAAAACGCCCGTCTCGACGATACCTCCAGCGAGTTCAACACCCAGCGCGTTGAGTGCCTGGAGCTGGATAACCTGATGGAAACCGCGTACGCGACCGCCGTATCCGCTAACTTCCGTACCGAGAGCCGTGGCGCTCACAGCCGCTTCGACTTCCCGGATCGTGATGATGAAAACTGGCTGTGCCATTCCCTGTATCTGCCAGAGTCGGAATCCATGACGCGTCGTAGCGTCAACATGGAACCGAAACTGCGTCCGGCATTCCCGCCGAAGATTCGTACTTATTAA	MKLPVREFDAVVIGAGGAGMRAALQISQSGQTCALLSKVFPTRSHTVSAQGGITVALGNSHEDNWEWHMYDTVKGSDYIGDQDAIEYMCKTGPEAILELEHMGLPFSRLDDGRIYQRPFGGQSKNFGGEQAARTAAAADRTGHALLHTLYQQNLKNHTTIFSEWYALDLVKNQDGAVVGCTALCIETGEVVYFKARATVLATGGAGRIYQSTTNAHINTGDGVGMAIRAGVPVQDMEMWQFHPTGIAGAGVLVTEGCRGEGGYLLNKHGERFMERYAPNAKDLAGRDVVARSIMIEIREGRGCDGPWGPHAKLKLDHLGKEVLESRLPGILELSRTFAHVDPVKEPIPVIPTCHYMMGGIPTKVTGQALTVNEKGEDVVIPGLFAVGEIACVSVHGANRLGGNSLLDLVVFGRAAGLHLQESIAEQGTLRDASESDIEGSLDRLNRWNNTRSGEDPVAIRKALQECMQHNFSVFREGDAMHKGLEQLKVIRERLKNARLDDTSSEFNTQRVECLELDNLMETAYATAVSANFRTESRGAHSRFDFPDRDDENWLCHSLYLPESESMTRRSVNMEPKLRPAFPPKIRTY	PGPT0001605_2675	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
BMS020_04251	348	sdhD	COG2142	Succinate dehydrogenase hydrophobic membrane anchor subunit	ATGGTAAGCAACGCCTCAGCACTGGGACGCAACGGCGTACATGACTTTATTCTGGTCCGTGCTACCGCCATCGTTCTGACCCTCTACATCATCTACATGGTTGGCTTCTTCGCTACCACCGGTGAAATCTCATGGGAAGTGTGGACCGGATTCTTTGCCTCCGGCTTCACTAAAGTCTTCACTCTGCTGGCTCTCGTTTCCATTCTTATCCATGCCTGGATCGGGATGTGGCAGGTGTTAACGGACTACGTTAAACCACTGGCTCTGCGCCTGGTTCTGCAACTGGCTATCGTTGTGGCGCTGGTGGCTTACGTTCTTTATGGATTTGTTGTGGTGTGGGGTGTGTAA	MVSNASALGRNGVHDFILVRATAIVLTLYIIYMVGFFATTGEISWEVWTGFFASGFTKVFTLLALVSILIHAWIGMWQVLTDYVKPLALRLVLQLAIVVALVAYVLYGFVVVWGV	PGPT0001590_1694	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001590-sdhD|frdD-K00242	NA	NA
BMS020_04252	405	sdhC	COG2009	Succinate dehydrogenase cytochrome b556 subunit	ATGTGGGCGTTATTCATGGTAAGAAATGTGAAAAAACAAAGACCTGTCAATCTGGATCTACAAACGATACGGTTCCCAATCACGGCGATAGCGTCCATTCTCCATCGCGTTTCCGGTGTCATCACCTTCGTGGCGGTCGGAATTCTGCTTTGGCTGCTGGGCACCAGCCTCTCCTCCCCTGAAGGTTTTCTGACGGCGGCCTCGATCATGGATAGCTTCTTTGTGAAGTTCATCATGTGGGGCATTCTCACCGCGCTGGCCTATCACGTCGTTGTTGGTATCCGCCATCTGATGATGGACTTTGGCTACCTGGACGAAACCCTCGAAGCAGGGAAACGTTCCGCCAAGATTTCTTTTGTTATTACTGTCGTGCTTTCACTTCTCGCAGGAGTCCTCGTATGGTAA	MWALFMVRNVKKQRPVNLDLQTIRFPITAIASILHRVSGVITFVAVGILLWLLGTSLSSPEGFLTAASIMDSFFVKFIMWGILTALAYHVVVGIRHLMMDFGYLDETLEAGKRSAKISFVITVVLSLLAGVLVW	PGPT0001595_2225	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
BMS020_04253	1284	gltA_2	COG0372	Citrate synthase	ATGTCTGATGCTAAAGCAAAAATCACCCTGGGTGGTGACACTGCTATTGAACTGGATGTGCTAAAAGGCACGCTCGGTCAGGATGTTATTGATATTCGTAGTCTTGGTTCAAAAGGCGTATTTACTTTTGACCCAGGTTTCACATCTACCGCTTCCTGTGAATCTAAAATTACGTTTATCGATGGTGACGAGGGGATCCTGCTGCACCGTGGCTTCCCGATCGACCAGTTAGCGACCGAATCAAACTATCTTGAAGTTTGTTACATTCTGCTAAACGGTGAAAAACCGACCCAGGCCGAATATGACGAATTCAAAACCACCGTCACCCGCCACACCATGATCCATGAGCAGATTACTCGTCTGTTCCATGCGTTCCGTCGCGATTCTCACCCGATGGCCGTTATGTGCGGGATCACCGGCGCCCTGGCGGCGTTCTATCACGACTCCCTCGACGTGAATAACCCGCGTCACCGTGAAATTGCCGCCTATCGCCTGCTGTCCAAAATGCCGACCATGGCAGCCATGTGTTACAAGTATTCTATCGGCCAGCCGTTTGTTTATCCGCGCAATGACCTCTCCTACGCCGGCAACTTCCTGCGCATGATGTTCGCCACGCCGTGCGAAGAGTACGAAGTCAATCCGGTGCTGGAGCGCGCAATGGACCGTATTCTGATCCTGCACGCCGATCACGAACAGAACGCCTCGACCTCGACGGTACGTACTGCGGGCTCTTCCGGCGCTAACCCGTTCGCCTGTATCGCAGCCGGCATCGCCTCCCTGTGGGGACCGGCGCACGGCGGCGCCAACGAAGCGGCGCTGAAAATGCTGGAAGAGATCAGCTCCGTTGAGCACATTCCGGAATTTGTTCGTCGTGCGAAAGACAAGAATGACTCTTTCCGCCTGATGGGCTTCGGCCATCGTGTGTACAAAAACTACGACCCGCGCGCCACCGTGATGCGTGAAACCTGCCATGAAGTGCTGAAAGAGCTGGGCACCAAAGACGACCTGCTGCAGGTGGCCATGGAGCTGGAGCATATCGCGCTGAACGACCCGTACTTCATCGAGAAGAAACTCTACCCGAACGTCGACTTCTACTCCGGTATTATCCTGAAAGCGATGGGTATTCCGTCCTCCATGTTTACCGTTATCTTCGCCATGGCGCGTACCGTGGGCTGGATTGCGCACTGGAACGAAATGCACAGCGATGGCATGAAAATCGCCCGTCCGCGTCAGCTCTATACCGGCTACGAAAAACGCGATTTCCAGTCCGACATCAAGCGTTAA	MSDAKAKITLGGDTAIELDVLKGTLGQDVIDIRSLGSKGVFTFDPGFTSTASCESKITFIDGDEGILLHRGFPIDQLATESNYLEVCYILLNGEKPTQAEYDEFKTTVTRHTMIHEQITRLFHAFRRDSHPMAVMCGITGALAAFYHDSLDVNNPRHREIAAYRLLSKMPTMAAMCYKYSIGQPFVYPRNDLSYAGNFLRMMFATPCEEYEVNPVLERAMDRILILHADHEQNASTSTVRTAGSSGANPFACIAAGIASLWGPAHGGANEAALKMLEEISSVEHIPEFVRRAKDKNDSFRLMGFGHRVYKNYDPRATVMRETCHEVLKELGTKDDLLQVAMELEHIALNDPYFIEKKLYPNVDFYSGIILKAMGIPSSMFTVIFAMARTVGWIAHWNEMHSDGMKIARPRQLYTGYEKRDFQSDIKR	PGPT0001455_3861	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
BMS020_04254	792	nei	COG0266	Endonuclease 8	ATGCCGGAAGGTCCGGAGATCCGCCGCGCGGCGGATACACTGGAGGCGGCAATCAAAGACGAACCCTTAACCGACGTCTGGTTCGCCTTTCCCCGGTTGCAACCCTACCAAACCCCGCTGATTGGTCAGCGGGTTACCCATATCGACACCCGGGGCAAAGCCCTGCTGACCCGCTTCTCCGGCGGCCTGACTCTGTACAGCCATAATCAGCTGTACGGCGTCTGGCGCGTGGTTGACGCTGGCGAACAGCCCGCCTCTAACCGGGTGCTGCGCGTCAGGCTCCAGACCGCCAGCAAGGCGATTTTGCTCTACAGCGCGTCGGACATTGAGATGCTCACAGCGGAGCAGGTGGCCAACCATCCGTTCTTGCTGCGCATCGGTCCGGACGTACTGGATATGACGTTAACCGCGGAGCAGGTGAAAGCGCGGCTGCTGTCGGCCAAATTCCGCCATCGTCAGTTTTCCGGCCTGCTGTTGGATCAGGCTTTTCTTGCCGGGCTGGGAAACTATCTGCGGGTGGAAATCCTCTGGCAGGTGGGGCTGACCGGGCAGCATAAGGCCTCGGAGCTGAATGCAATACAACTGGATGCGCTGGCGCACGCGCTGCTCGATATCCCGCGGCTTTCCTATCGCACCCGCGGCCAGCCCGATGACAACAAGCACCACGGCGCGCTGTTCCGCTTTAAGGTGTTCCATCGCGATGGCGAACAGTGCGAGCGCTGCGGGGGCGTGATTGAGAAGACGATGCTCTCCTCGCGGCCGTTTTACTGGTGCCCGCACTGCCAGCATTAA	MPEGPEIRRAADTLEAAIKDEPLTDVWFAFPRLQPYQTPLIGQRVTHIDTRGKALLTRFSGGLTLYSHNQLYGVWRVVDAGEQPASNRVLRVRLQTASKAILLYSASDIEMLTAEQVANHPFLLRIGPDVLDMTLTAEQVKARLLSAKFRHRQFSGLLLDQAFLAGLGNYLRVEILWQVGLTGQHKASELNAIQLDALAHALLDIPRLSYRTRGQPDDNKHHGALFRFKVFHRDGEQCERCGGVIEKTMLSSRPFYWCPHCQH				NA	NA	NA	NA	NA
BMS020_04255	678	pcp	COG2039	Pyrrolidone-carboxylate peptidase	ATGACAATCGGCATGACCGCGAAGGAGAGGATGGTGGCGGGAGTATTACTAACCGGTTTCGAACCCTTTGACGGCGAGACGGTGAACCCTTCCTGGGAAGTGGTGCAGCAGCTTGACGGCACTATAATTGCTGGCCAGCCGGTGACCGCCCGGCAGCTTCCCTGCGTATTTGGCGAGGCGCTGTCGGCGCTCGACGCGGCGATAGAGGACCTGCAGCCGAAGCTGGTTATCGCGGTGGGGCAGGCCGGCGGTCGGGTCGATATCAGCGTCGAACGTGTGGCGATCAACGTCGATGATGCGCGCATCCCCGATAACAAAGGCCAGCAACCCATCGACACGCCGATCGTCGACGGCGGGCCGGCGGCGTGGTTCAGCACCTTGCCGATCAAAGCGATCGTCAGCGCGCTGCGCGATCGCGGGATCCCGGCCTCGGTGTCGCAGACCGCCGGCACCTTCGTCTGCAACCACGTCATGTACGGCCTGTTGCACAGGCTGCAGGGTCAGGCTGAGGTGAGAGGCGGTTTTATCCATATTCCATGGCTACCGGCGCAGGCGGCGGCCCATCCCGGCGAGCCGAGTATGGCGATCGCCACCGTGCGGGAGGCGCTGGAGACGGCCATTGCCGTGGCCCTGCGCCAGCCGGTGGACAGTAAACTAGGCGGCGGCGCCACCCACTGA	MTIGMTAKERMVAGVLLTGFEPFDGETVNPSWEVVQQLDGTIIAGQPVTARQLPCVFGEALSALDAAIEDLQPKLVIAVGQAGGRVDISVERVAINVDDARIPDNKGQQPIDTPIVDGGPAAWFSTLPIKAIVSALRDRGIPASVSQTAGTFVCNHVMYGLLHRLQGQAEVRGGFIHIPWLPAQAAAHPGEPSMAIATVREALETAIAVALRQPVDSKLGGGATH				NA	NA	NA	NA	NA
BMS020_04256	753	pxpA	COG1540	5-oxoprolinase subunit A	ATGATGATTGATCTTAATGCCGATCTCGGAGAAGGCGGGGCGAACGATAGCGCGCTGCTCCAGCTGGTGTCATCGGCGAATATCGCCTGTGGTTTTCACGCCGGCGACGCCGGGCTGATGGTGCAGAGCGTGCGCGAGGCGCTGAAGTACGGCGTGGCGGTGGGCGCCCATCCGGGATATCCCGACCGGGAAAATTTTGGCCGCACGGCGATGGATCTGCCGCCGGAAACGGTCTATGCCCAGACGCTGTATCAGATTGGCGCTCTGGCGGCGATCGTTCAGGCGCAGGGCGGCGAGATGCAGCACGTGAAGCCGCACGGCATGCTCTACAACCAGGCGGCCAAATCGCCGCCGCTGGCCGAGGCGATCGCCCGCGCGGTCCGCGATGTTAACCCGCAGCTGGTGCTGGTGGGTCTGGCGGGCAGCGAATTGATCCGCGCCGGACAGCGCTATGGTCTGACGACGCGTCAGGAGGTGTTTGCCGATCGCGGTTATCTGGCCGACGGCAGCCTGGTGCCGCGCAGCCAGCCCGGGGCGCTGATTGACAGCGAAGAGCAGGCCCTGGCGCAAACCCTCGAGATGGTGCAACACCACCGGGTGCGCAGCGTCAGCGGCGAATGGGCGAACGTGGTGGCGCAGACGGTATGTCTGCACGGTGATGGTCCGCATGCCCTCGATTTTGCCCGCCGTTTACGGGCGGCGTTCGCCGGGCGCCATATTCTGGTCAGCGCTCAGCCAGAGGCTGAGATATGA	MMIDLNADLGEGGANDSALLQLVSSANIACGFHAGDAGLMVQSVREALKYGVAVGAHPGYPDRENFGRTAMDLPPETVYAQTLYQIGALAAIVQAQGGEMQHVKPHGMLYNQAAKSPPLAEAIARAVRDVNPQLVLVGLAGSELIRAGQRYGLTTRQEVFADRGYLADGSLVPRSQPGALIDSEEQALAQTLEMVQHHRVRSVSGEWANVVAQTVCLHGDGPHALDFARRLRAAFAGRHILVSAQPEAEI				NA	NA	NA	NA	NA
BMS020_04257	933	pxpC	COG1984	5-oxoprolinase subunit C	ATGTTGACCTTGATCCGCGCCGGCCTGTACACCTCGGTACAGGACGGTGGACGAGAAGGCCTGCGCCAGTCTGGCATCAGCCGCTGCGGCGCCCTGGATTATCCCTCGCTGGTGATTGCCAATCTGCTGGTTGGCAACGAGGCGAATGCCGCCGGGCTGGAGATTACCCTCGGCCAGGTGGAGATCGAATTTGCCCGCAGCGGCTGGTTTGCGCTGACCGGCGCCGCCTGCGAAGCGACGCTGGACGGTAAAGCGGTCTGGGTGGGCTGGCGCACCGCCTACCGGGCCGGGCAGCGGCTGGTGCTGAAAACGCCCCAGCATGGCATTCGTAGCTATCTGGCGGTGGCGGGCGGGATTGCGGTCCCCGAGGTCCTTGGCTCGCGCTGCACGGATCTCAAGGCGGGGATTGGCGGTCTGGAAGGACGCCGCCTGCAGGATGGCGACAAGCTGAAGCTCGGGAAAGCCGCCCGCCGCTTCACCACCCCGCGCGGCGTCAAGCAGCTGCCGCTGGGCAACCGCATTCGTGCGCTGCCCGGGCCGGAGTACCATGAATTTGACGAGGCCTCGCAGGCGTCATTCTGGCGCGCCCCCTGGAAGCTCAGTCCGCAGAGTAACCGCATGGGGTACCGCCTGCAGGGGCAGCCACTGAAACGCACCACCGATCGTGAAATGCTGTCGCACGGCCTGCTGCCGGGCGTGGTGCAGGTGCCGCACAACGGCCAGCCCATTGTGCTGATGAACGACGCGCAAACCACCGGCGGCTATCCGCGGATCGCCTGCATTATCGATGCCGATATGTACCAGCTGGCGCAGATCCCGCTGGGGCAGCCGATCCATTTCGTGGCCTGCTCGCTGGAGGAGGCGCTGAAGGCGCGGGCCGATCGCCAGCGTTATCTTGAACAACTGGCCTGGAGACTCCACGATGATGATTGA	MLTLIRAGLYTSVQDGGREGLRQSGISRCGALDYPSLVIANLLVGNEANAAGLEITLGQVEIEFARSGWFALTGAACEATLDGKAVWVGWRTAYRAGQRLVLKTPQHGIRSYLAVAGGIAVPEVLGSRCTDLKAGIGGLEGRRLQDGDKLKLGKAARRFTTPRGVKQLPLGNRIRALPGPEYHEFDEASQASFWRAPWKLSPQSNRMGYRLQGQPLKRTTDREMLSHGLLPGVVQVPHNGQPIVLMNDAQTTGGYPRIACIIDADMYQLAQIPLGQPIHFVACSLEEALKARADRQRYLEQLAWRLHDDD				NA	NA	NA	NA	NA
BMS020_04258	657	pxpB	COG2049	5-oxoprolinase subunit B	GTGCAGCGAGCGCGTTGTTATCTGTTAGGAGAAACGGCTGTCGTGCTGGAGCTGGAGCCGCCGGTTACCCTTGAAAGCCAGCAACGGATCTGGGGATTAGCCCAGCGTCTGGCCAACCATGAAGAGGTGATTGACGCCATTCCCGGCATGAACAATATCACTGTGGTGCTCCGCCGCCCGCAGGAGGTGGCGTGGGAGGCGATAGACCGTCTGCAGCGCTGGTGGGAGGAGAGCCTCGCGATCGAGCCGGAGTCGCGCTCGCTGTCTGTTCCGGTCGTCTACGGCGGCGAGGCCGGACCGGACCTCGGGGTGGTGGCGCAGCACAGCGGCCTGAGTGAAAAACAGGTCGTGGAGCTGCACGCCTCGGTGGAATATCTGGTCTGGTTTATTGGTTTTCAGCCGGGATTTCCCTACCTGGGCGGGCTGCCTGCGGCGCTGGCGACGCCGCGTCGCGCCGAACCGCGCGTGCTCGTCCCGGCCGGGTCGGTGGGTATCGGCGGCGCGCAAACCGGTATCTATCCGCTGGCGACGCCCGGCGGCTGGCAGCTGCTGGGGCGCACCGCGCTGACGCTGTTCGACCCGGCGCGGAAGGAGCCTGCGCTACTGCGCGTGGGCGATAAAATTCGCTTTGTGCCGCAAAAGGAGGGGGGATGTTGA	MQRARCYLLGETAVVLELEPPVTLESQQRIWGLAQRLANHEEVIDAIPGMNNITVVLRRPQEVAWEAIDRLQRWWEESLAIEPESRSLSVPVVYGGEAGPDLGVVAQHSGLSEKQVVELHASVEYLVWFIGFQPGFPYLGGLPAALATPRRAEPRVLVPAGSVGIGGAQTGIYPLATPGGWQLLGRTALTLFDPARKEPALLRVGDKIRFVPQKEGGC				NA	NA	NA	NA	NA
BMS020_04259	744	ybgI	COG0327	GTP cyclohydrolase 1 type 2	ATGAAAAATAGCGAACTGGAACAACTGATAAACGACAAGCTCAATAGCGCAGCCATCAGTGACTTCGCCCCTAACGGTCTGCAGGTGGAAGGGCGCGACACGGTGCACAAGATCGTCACCGGAGTGACGGCCAGCCAGGCGCTGCTGGATGAGGCCGTCCGCCTGCAGGCGGATGCGGTAATCGTCCATCACGGCTATTTCTGGAAAAACGAATCGCCAGTGATCCGCGGCATGAAGCGCCGGCGCCTGAAAACCCTGCTGGCCAACGATATCAATCTCTACGGCTGGCATCTGCCGCTGGATGCCCATCCCGAGCTGGGCAATAACGCGCAGCTGGCGCATCTGCTGGGGATTAACGTGCTGGGCGAAATCGAACCGCTGGTGCCCTGGGGCGAACTGTCGATGCCGGTGTCCGGCCTCGAGCTGGCCTCGTGGATTGAAGCGCGGCTGGGACGCAAGCCGCTGTGGTGCGGCGATACCGGGCCGGACACCGTCAGCCGCGTCGCCTGGTGTACCGGGGGCGGCCAGAGCTTTATCGACGCCGCGGCGCGCTTTGGCGTAGACGCGTTTATCACCGGCGAGGTGTCGGAACAAACCATCCACTCTGCCCGCGAGCAGGGCCTGCATTTTTATGCCGCCGGCCATCACGCCACCGAGCGGGGCGGCATTCGCGCCCTCAGCGAATGGCTGACGGAAACCACCGACCTGGATGTCACCTTTATTGATATTCCTAACCCTGCCTGA	MKNSELEQLINDKLNSAAISDFAPNGLQVEGRDTVHKIVTGVTASQALLDEAVRLQADAVIVHHGYFWKNESPVIRGMKRRRLKTLLANDINLYGWHLPLDAHPELGNNAQLAHLLGINVLGEIEPLVPWGELSMPVSGLELASWIEARLGRKPLWCGDTGPDTVSRVAWCTGGGQSFIDAAARFGVDAFITGEVSEQTIHSAREQGLHFYAAGHHATERGGIRALSEWLTETTDLDVTFIDIPNPA				NA	NA	NA	NA	NA
BMS020_04260	1479	dtpD_1	COG3104	Dipeptide permease D	ATGAAGACAACATCATCGCAACCGCGGGCGATTTACTACGTCGTGGCGCTGCAAATCTGGGAATACTTTAGCTTCTACGGCATGCGCGCCCTGCTGATCCTCTATCTCACCAATCAGCTTAAATATGACGATAACCACGCTTACGCCCTGTTCAGCGCCTACTGTTCGCTGGTCTATGTGACGCCGATCCTCGGCGGCTATCTGGCCGATAAGCTGTTAGGCAACCGGATGGCGGTCATGCTCGGCGCGCTGCTGATGGCCATTGGCCATCTGGTGCTCGGGGCCAGCGAAACCGCCCCGGTCTTCCTCTACCTGTCGCTGGCGATCATCGTCTGCGGCTACGGGTTGTTTAAATCCAACGTCAGCTGTCTGCTGGGCGAGCTGTACGAACCCGCCGATCCGCGTCGCGATGGCGGTTTCTCGCTGATGTATGCCGCGGGCAATATCGGCTCGATCATCGCGCCGATCGCCTGCGGCTACGTCCAGGAGGAGTATAGCTGGGCGATGGGCTTTGCCCTGGCGGCCATCGGCATGGTGGCGGGACTGGTGATTTTCCTCTGCGGCAACCGTCACTTCCAGCATACCGCCGGCGTGAACCGCCAGGCGCTGTGCGCCCGTCGCTTCCTGCTGCCGAACTGGGGCTGGCTGCTGGTGCTGCTGGTCACTGCTCCGCTGCTGATTGCCGTGCTGTTCTGGCAGGAGTGGTCGGTATATGCCCTGATCGTGGCCACGGCCATTGGCCTCGCGGTACTGGCGCGGATCTACCTGCGCGCCGAGACCGATAAACAGCGCAAGGATCTGCGCCTGATCGTCGTCCTGACCGCTTTCAGCCTGCTGTTCTGGGCCTTCGCCCAACAGGGCGGCAGCTCCATCAGCCTGTATATTGACCGCTTCGTTAACCGCCATATCATGAGCTACGAAGTCCCTACCGCTATGTTCCAGTCGATCAATGCCTTCGCGGTGATGCTCTGCGGCATGGTGCTGGCGTGGCTGGTGAAAGAGAGCGTCGGCGGTAATCGCACCGTGCGCATCTGGGGAAAATTTGCCCTCGGTCTGGGCCTGATGAGCGCCGGGTTCTGCATCCTAACCCTCAGCGCCCGCTGGTCGGCGGCCTATGGTCAGTCGTCCATGCCGCTGATGGTGCTGGGGCTGGCGGTGATGGGTTTTGCCGAACTGTTTATCGACCCGGTCGCGATGTCGCAAATCACCCGCATTGAGATCCCGGGGGTCACCGGGGTGTTGACCGGCATCTATATGCTGCTCTCCGGGGCCATCGCCAACTATCTGGCCGGCGTTATCGCCGACCAGACCTCGCAGGCGTCATTCGACGCCGCCGGGGCGGTGAACTACTCCATTGACGCCTACATCAACGTCTTCAGCCAGATCACCTGGGGCGCGCTGGCCTGCGTCGGCGTGGTGCTGGTCATCTGGCTGTATCACTCGCTGAAGGTCAGGACCCGCCGTCTGGCGGTGGAGTAA	MKTTSSQPRAIYYVVALQIWEYFSFYGMRALLILYLTNQLKYDDNHAYALFSAYCSLVYVTPILGGYLADKLLGNRMAVMLGALLMAIGHLVLGASETAPVFLYLSLAIIVCGYGLFKSNVSCLLGELYEPADPRRDGGFSLMYAAGNIGSIIAPIACGYVQEEYSWAMGFALAAIGMVAGLVIFLCGNRHFQHTAGVNRQALCARRFLLPNWGWLLVLLVTAPLLIAVLFWQEWSVYALIVATAIGLAVLARIYLRAETDKQRKDLRLIVVLTAFSLLFWAFAQQGGSSISLYIDRFVNRHIMSYEVPTAMFQSINAFAVMLCGMVLAWLVKESVGGNRTVRIWGKFALGLGLMSAGFCILTLSARWSAAYGQSSMPLMVLGLAVMGFAELFIDPVAMSQITRIEIPGVTGVLTGIYMLLSGAIANYLAGVIADQTSQASFDAAGAVNYSIDAYINVFSQITWGALACVGVVLVIWLYHSLKVRTRRLAVE	PGPT0021010_2898	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021010-TC_POT-K03305	NA	NA
BMS020_04261	1443	phrB	COG0415	Deoxyribodipyrimidine photo-lyase	ATGGCCACCCATCTGGTCTGGTTACGCACGGATTTACGCATTCACGATAACCTGGCGCTGGCCGCCGCCTGCCGCGATCCGCAGGCGCAGGTGCTGGCGCTCTATATTGCCACCCCGGGGCAGTGGCGCGAGCATCATATGGCGCCGCGGCAGGCCGCTTTTATCGCCAGCCATTTGCACAGTCTGCACGCCGCGCTGGCGGAGCGTGGCATACCGTTGTGGGTAGAAGAGGCGGACGATTTTAGCGCCAGCGTCGAGCGACTGGCCCATTTTTGCCAGCAGCACCAGGTCAGTCACCTGTTCTACAACTATCAGTACGAATTCAATGAACGCCAGCGCGATGCCGCCGTTGAGAACACCTTGAGCGAAGTGATTTGCCAGGGATTTGACGACAGCGTCCTGTTGCCGCCCGGCAGCGTACTGACCGGCGGCGGCGAAATGTATAAAGTCTTCACTCCGTTTAAGAATGCGTTTATTCGCCGGCTGCGGGAAGGGCTGCCGGCGTGCGTGGCCGCGCCAAAGCCGCGCCAGACACCCGCCCGCCAGGCGCCGCCGCCGCCGGAGCTCAACTATCCGCAAACGCTGTTCGATGGGCTGCTGTTTGCCGCGGATGAAAAAACGGCGCTGGCGCGGCTGCGCGCGTTTTGTCAGCAACCGGTGGCGGATTATGAGGGGCAGCGCGACTTCCCGGCCGTGGAAGGGACCAGTCGCCTGTCGCCCTGCCTGGCCACCGGGGTGCTGTCGCCGCGCCAGTGCCTGCATCGGCTGCTGACGGAACACCCCGCCGCGCTGGACGGCGGGGCAGGCGCCACCTGGCTTAATGAGCTGATTTGGCGGGAGTTTTACCGCCATCTGATGGTCTACTATCCGAAACTCTGTAAAGGACGGCCGTTTGTCGCCTGGACCGATAAGGTCGCCTGGCGCGAAGAGGATGGCGCCCTGCAGGCCTGGCAGCGCGGGGAGACCGGCTATCCGATTGTCGATGCCGCCATGCGCCAGCTTAACGCCACCGGCTGGATGCATAACCGGTTGCGCATGATCGTCGCCAGCTTCCTGACTAAAGATCTGCGCCTCGACTGGCGGGCAGGGGAGCGCTATTTCATGAGCCAGCTGATTGATGGCGACCTGGCGGCGAACAACGGCGGCTGGCAGTGGGCGGCTTCGACGGGCACCGACGCCGCGCCCTATTTCCGCATATTTAATCCCACCACCCAGGGCGAGAAGTTTGATAAGCAGGGGGTGTTTATGCGTCGCTGGCTGCCGGAGCTGGCAAAGGTGCCGGAGAAGGCGCTGCATCAGCCGTGGGCGTGGGCGGATAAACAGGGGGTTACGCTGGATTATCCGCGCCCGATAGTCGATCACAAGCAGGCGCGGCAGGAGACGCTGGCGGCCTGGGAGGCCGCCAGAAAGGGGATTACTCCACCGCCAGACGGCGGGTCCTGA	MATHLVWLRTDLRIHDNLALAAACRDPQAQVLALYIATPGQWREHHMAPRQAAFIASHLHSLHAALAERGIPLWVEEADDFSASVERLAHFCQQHQVSHLFYNYQYEFNERQRDAAVENTLSEVICQGFDDSVLLPPGSVLTGGGEMYKVFTPFKNAFIRRLREGLPACVAAPKPRQTPARQAPPPPELNYPQTLFDGLLFAADEKTALARLRAFCQQPVADYEGQRDFPAVEGTSRLSPCLATGVLSPRQCLHRLLTEHPAALDGGAGATWLNELIWREFYRHLMVYYPKLCKGRPFVAWTDKVAWREEDGALQAWQRGETGYPIVDAAMRQLNATGWMHNRLRMIVASFLTKDLRLDWRAGERYFMSQLIDGDLAANNGGWQWAASTGTDAAPYFRIFNPTTQGEKFDKQGVFMRRWLPELAKVPEKALHQPWAWADKQGVTLDYPRPIVDHKQARQETLAAWEAARKGITPPPDGGS				NA	NA	NA	NA	NA
BMS020_04262	207			hypothetical protein	ATGGCGTTGTACAAAGCTTATCCTGCTCATATTATTTTGCTGCGTCGGGCTTTCGCCGTCGTGGCTGGCGTCGCGGCGCTGCCGGTGATGCTGTTCTGGAAAGATCGCGCCCGCTATTACAGCTGGCTGCACCGGGTGTGGTCGAAAACCAGCGAGCAGCCGGTGTGGATGGCGCAGGCGGAAAAAGCCGCTCACGACTTCTACTGA	MALYKAYPAHIILLRRAFAVVAGVAALPVMLFWKDRARYYSWLHRVWSKTSEQPVWMAQAEKAAHDFY				NA	NA	NA	NA	NA
BMS020_04263	1680	kdpA_2	COG2060	Potassium-transporting ATPase potassium-binding subunit	ATGGCTGCCCAGGGATTTTTATTATTAGCCAGCTATCTGCTGGTATTGCTGGCGCTGGCGCGCCCGCTGGGGATGTGTCTGGCGAGAATGGTGAACGACATCCCGCTTCCCGGCCTGGCCGGCGTCGAGCGCCTCCTGTGGCGCGTGGCCGGGATCCGCGCCGAAGAGATGGGCTGGCTGCAGTATTTGCTGGCGATCCTGCTGTTTAACGCCCTCGGCGGCCTGGCGCTGTTTGCCCTGCTGATGCTCCAGGGCGTGCTGCCCTTTAACCCGCAGCACCTGCCGGGGCTGTCGTGGGATCTGGCGCTCAACACCGCGGTCAGCTTTGTCAGTAATACCAACTGGCAGGCTTACGCCGGCGAAAGCACCATGAGCTATCTCAGCCAGATGGTGGGGCTGACGGTGCAGAATTTCCTCTCCGCCGCCACCGGCATCGCCGTGGTCTTCGCCCTGACCCGCGCCTTCGCCCGACAGAAAATGTCCACCCTCGGCAATGCCTGGGTCGACCTGACGCGCATTATCCTGTGGCTGCTGCTGCCGCTCTCTCTGCTGGTGGCCCTGTTCTTTATTCAGCAAGGCGTGCCGCAGAACCTGCAGGCTTACCAGCCCTTTACCACCCTCGAAGGGGCGCACCAGCTGCTGCCGATGGGGCCTGTCGCCTCACAGGAAGCGATTAAGCTGCTGGGCACCAACGGCGGCGGTTTCTTTAACGCTAACTCCGCCCATCCGTTTGAAAACCCGACGGCGCTGACCAATCTCGTGCAGATGCTGGCCATCTTCCTGATCCCGGCGGCGCTGTGCTTCGCCTTCGGCGAGGTGGTGAGCGATCGCCGCCAGGGGCGCGCTATTCTGTGGGCGATGACGCTGATCTTTATCCTCTGCGTCGCCGTGGTGATGTGGGCGGAAACCCGCGGCAACCCGCACCTGTTGACGCTGGGCGCCGACAGCAGCCTGAATATGGAAGGTAAAGAGAGCCGCTTCGGTATTCTCGCCAGCAGTCTGTTCGCGGTGATCACCACCGCCGCCTCCTGCGGCGCGGTCAACGCCATGCATGACTCCTTCACCGCGCTGGGCGGGATGGTGCCGATGTGGCTGATGCAGATTGGCGAAGTGGTGTTCGGCGGCGTCGGCTCGGGTCTCTATGGCATGCTGCTGTTCGTTATGCTGGCGGTGTTTATCGCCGGGCTGATGGTCGGCCGCACCCCGGAGTACCTCGGGAAGAAAATCGATGTCCGGGAAATGAAAATGATCGCCCTGGCCATTCTGGTCACCCCGACGCTGGTGCTGCTCGGCACGGCGCTGGCGATGATGACCGAGGCCGGCCGCGCCGGGATGTTCAACCCCGGCGCGCACGGCTTTAGCGAAGTGCTGTACGCCGTCACCTCGGCGGCCAATAACAACGGCAGCGCCTTCGCCGGCCTGGGCGCGGCGACGCCCTTCTGGAACCTGCTGCTGGCGTTCTGCATGCTGGCTGGACGCTTCGCCGTCATCATTCCGGTGATGGCTATCGCCGGCTCGCTGGTGGCGAAGAAAATTCAACCGGCCAGCCCCGGTACCCTGGCCACCCACGACGCCCTGTTTATCGGTCTGCTGATCGGCACCGTGCTGCTGGTGGGCGCCCTGACCTTTATTCCTGCGCTGGCGCTTGGCCCGCTGGCCGAACACTTTTCCTTACTTTGA	MAAQGFLLLASYLLVLLALARPLGMCLARMVNDIPLPGLAGVERLLWRVAGIRAEEMGWLQYLLAILLFNALGGLALFALLMLQGVLPFNPQHLPGLSWDLALNTAVSFVSNTNWQAYAGESTMSYLSQMVGLTVQNFLSAATGIAVVFALTRAFARQKMSTLGNAWVDLTRIILWLLLPLSLLVALFFIQQGVPQNLQAYQPFTTLEGAHQLLPMGPVASQEAIKLLGTNGGGFFNANSAHPFENPTALTNLVQMLAIFLIPAALCFAFGEVVSDRRQGRAILWAMTLIFILCVAVVMWAETRGNPHLLTLGADSSLNMEGKESRFGILASSLFAVITTAASCGAVNAMHDSFTALGGMVPMWLMQIGEVVFGGVGSGLYGMLLFVMLAVFIAGLMVGRTPEYLGKKIDVREMKMIALAILVTPTLVLLGTALAMMTEAGRAGMFNPGAHGFSEVLYAVTSAANNNGSAFAGLGAATPFWNLLLAFCMLAGRFAVIIPVMAIAGSLVAKKIQPASPGTLATHDALFIGLLIGTVLLVGALTFIPALALGPLAEHFSLL	PGPT0002740_1683	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002740-kdpA-K01546	NA	NA
BMS020_04264	2049	kdpB_2	COG2216	Potassium-transporting ATPase ATP-binding subunit	ATGAGTCGCAAACAATTAGCCCTGCTGGAGCCGACGCTGGTGCGCCAGGCGCTGCTGGATGCCGTGAAAAAACTCAGCCCGATGGTGCAGTGGCGCAATCCGGTGATGTTTATCGTCTGGGTGGGCAGCCTGTTAACCACCCTGCTGGCCATCGCCATGGCTGGCGGCGCCCTGACCGGCAGCGCCACGTTTACCGCCGCCATCAGTATCTGGTTATGGTTTACCGTGCTATTCGCCAACTTTGCCGAAGCGATGGCGGAAGGCCGCAGCAAAGCCCAGGCCAATAGCCTGAAAGGGGTGAAAAAAACGGCCTTCGCCCGTAAGCTGCGCGCCCCGCAGCATGACGCGACGGTCGACCATGTGCCGGCGGAAGACCTGCGCAAAGGCGACGTGGTGCTGGTGGAAGCCGGGGATATTATCCCCTGCGATGGCGAAGTCATCGAAGGCGGCGCCTCGGTGGACGAAAGCGCCATTACCGGCGAGTCCGCGCCGGTGATCCGCGAATCCGGCGGCGATTTCGCCTCGGTGACCGGCGGGACGCGCATCCTCTCCGACTGGCTGGTGATCCGCTGCAGCGTCAACCCGGGAGAAACCTTCCTCGACCGGATGATCGCCATGGTGGAAGGCGCCCAGCGCCGTAAAACGCCGAACGAAATCGCCCTGACGATCCTGCTGATCGCCCTGACGCTGGTGTTCCTGCTGGCCACCGCCACCATCTGGCCCTTCTCGGCCTGGAGCGGCAATGCGGTGAGCGTCACCGTGCTGGTCGCTCTGCTGGTGTGCTTGATCCCGACCACCATCGGCGGTCTGCTGTCGGCGATCGGCGTCGCCGGGATGAGCCGTATGCTGGGCGCTAACGTGATCGCCACCAGCGGCCGCGCGGTGGAGGCCGCTGGCGATGTCGATGTCCTGCTGCTGGATAAAACCGGGACCATTACGCTTGGCAACCGCCAGGCCTCCGCTTTCCTGCCGGCGCGCGGTGTGGAAGAGCGAACCCTCGCCGACGCCGCCCAGCTCTCCTCGCTGGCGGACGAAACCCCTGAGGGACGCAGCATCGTGGTGCTGGCGAAGCAGCGCTTCAACCTGCGCGAACGCGATCTGCAGTCGCTGCACGCCACCTTTGTCCCCTTTACCGCGCAAACGCGGATGAGCGGCATCAATATCGATCAGCGCATGATCCGTAAAGGCTCGGTGGACGCGATTCGCCGTCACGTGGAGGCAAACGGCGGCCACTTCCCTGCCGATGTCGAGAAGCAGGTGGAAGAGGTCGCCCGCCAGGGGGCCACGCCGCTGGTGGTTGCCGAAGGTGAAAAGGTGCTGGGGATTATTTCGCTCAAAGATATCGTCAAAGGCGGCATCAAAGAGCGTTTCGCCCAGCTGCGCAAAATGGGCATTAAAACGGTGATGATCACCGGCGATAACCGCCTCACCGCCGCGGCGATCGCCGCCGAGGCCGGCGTCGACGATTTCCTCGCCGAAGCGACGCCGGAAGCCAAGCTGGCGCTGATCCGCCAGTATCAGTCGGAAGGTCGGCTGGTGGCGATGACCGGCGACGGCACCAACGACGCACCCGCGCTGGCCCAGGCCGACGTGGCGGTGGCCATGAACTCAGGCACCCAGGCGGCGAAAGAGGCGGGCAACATGGTCGACCTGGATTCCAACCCCACCAAACTGATTGAGGTGGTCCATATCGGCAAACAGATGCTGATGACGCGCGGCTCGCTGACCACCTTCAGTATTGCCAACGACGTGGCGAAATATTTCGCCATTATTCCGGCGGCGTTTGCCGCGGTCTATCCCCAGCTGGCGATGCTGAACGTGATGGGCCTGCATTCGCCATCGTCGGCGATCCTCAGCGCGGTTATCTTCAACGCGCTGATCATCGTCTTCCTGATCCCGTTGGCCCTGAAAGGGGTGAGCTATCGCCCGCTCTCCGCCTCGGCGATGCTGCGCCGCAACCTGTGGATCTACGGCCTCGGCGGTCTGCTGGTGCCATTTATCGGTATTAAAGCCATTGACCTACTGCTGACCCTGAGCGGTCTGGTGTGA	MSRKQLALLEPTLVRQALLDAVKKLSPMVQWRNPVMFIVWVGSLLTTLLAIAMAGGALTGSATFTAAISIWLWFTVLFANFAEAMAEGRSKAQANSLKGVKKTAFARKLRAPQHDATVDHVPAEDLRKGDVVLVEAGDIIPCDGEVIEGGASVDESAITGESAPVIRESGGDFASVTGGTRILSDWLVIRCSVNPGETFLDRMIAMVEGAQRRKTPNEIALTILLIALTLVFLLATATIWPFSAWSGNAVSVTVLVALLVCLIPTTIGGLLSAIGVAGMSRMLGANVIATSGRAVEAAGDVDVLLLDKTGTITLGNRQASAFLPARGVEERTLADAAQLSSLADETPEGRSIVVLAKQRFNLRERDLQSLHATFVPFTAQTRMSGINIDQRMIRKGSVDAIRRHVEANGGHFPADVEKQVEEVARQGATPLVVAEGEKVLGIISLKDIVKGGIKERFAQLRKMGIKTVMITGDNRLTAAAIAAEAGVDDFLAEATPEAKLALIRQYQSEGRLVAMTGDGTNDAPALAQADVAVAMNSGTQAAKEAGNMVDLDSNPTKLIEVVHIGKQMLMTRGSLTTFSIANDVAKYFAIIPAAFAAVYPQLAMLNVMGLHSPSSAILSAVIFNALIIVFLIPLALKGVSYRPLSASAMLRRNLWIYGLGGLLVPFIGIKAIDLLLTLSGLV	PGPT0002745_1625	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002745-kdpB-K01547	NA	NA
BMS020_04265	576	kdpC_2	COG2156	Potassium-transporting ATPase KdpC subunit	ATGTCATTGATTCGTCCAGCACTTGTGCTATTTATTCTGTTAACCCTGCTCACCGGCGGCGTTTATCCTCTGCTGACCACCAGCCTGGGACAGTGGTGGTTTAACTCACAGGCCAATGGCTCGCTGATCCGCCTGAACGGCGAGGTGCGCGGCTCGGCGCTGATTGGCCAGAACTTTACCGCCGCAGGCTATTTCCAGGGCCGCCCGTCAGCCACCGCGGAGACAGCGGATAACCCGATGGCCTCTGGCGGCAGCAACCTCGCCGCCAGCAACCCGGCGCTGGATAAGGCGGTGAGCGAGCGGGTGCAGGCTCTGCGCGCCGCGAACCCGGATGCCGACCCGCGGGTGCCAGTCGAACTGGTCACTACCTCGGCGAGCGGTCTCGATAACAACCTGACCCCGGCCGCCGCGCTGTGGCAGGCGCCCCGGGTGGCCAAAGCGCGCCAGCTGAGCGTCGACCAGGTGACCGCGCTGGTTAACCAGGCTACACAAACGCCGCTGCTGAGCTTCCTTGGCCAGCCGGTGGTCAATATACTGCAACTCAATATGGCGCTGGATGCCCTGAAGGATAAGTAA	MSLIRPALVLFILLTLLTGGVYPLLTTSLGQWWFNSQANGSLIRLNGEVRGSALIGQNFTAAGYFQGRPSATAETADNPMASGGSNLAASNPALDKAVSERVQALRAANPDADPRVPVELVTTSASGLDNNLTPAAALWQAPRVAKARQLSVDQVTALVNQATQTPLLSFLGQPVVNILQLNMALDALKDK	PGPT0002750_1397	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002750-kdpC-K01548	NA	NA
BMS020_04266	2688	kdpD_2	COG2205	Sensor protein KdpD	ATGAGTGACGAGCCGCTGCGTCCGGACCCTGACCGCCTGCTGCAGCACACCGCCGCCCCGCATCGCGGCAAACTGAAAGTCTTCTTCGGCGCCTGCGCCGGGGTGGGGAAAACCTGGGCGATGCTGGCGGAAGCGCAGCGGCTGCGGGCCCAGGGGCTGGATATTCTGATTGGCGTGGCGGAGACCCACGGCCGGAAAGAGACCGCCGCGATGCTGCAGGGCCTGAGCACCCTGCCGCCGCGGCGGCTCGCTCACCGCGGGCGCTACGTGTATGAGTTCGACCTCGACGCCGCCCTCGCCCGCCGCCCGGCGCTGATTCTGGTGGATGAACTGGCGCACAGTAATGCCCCCGGCTCCCGCCATCCGAAGCGCTGGCAGGATGTGGACGAACTGCTGGAGGCCGGGATTGACGTCTTCACCACGGTTAACGTTCAGCATCTGGAAAGCCTGAACGACGTCGTCAGCGGGATCACCGGCGTGCAGGTGCGGGAGACCGTCCCCGATCCCTTTTTTGACGCCGCGGACGACGTGGTGCTGGTGGACCTCCCCCCTGACGATCTGCGCCAGCGGCTCAATGAGGGCAAAGTCTACATCGGCGGCCAGGCCGAGCGCGCTATCGAGAACTTTTTCCGCAAAGGGAACCTGATTGCGCTGCGCGAACTGGCTCTGCGCCGTACCGCCGATCGCGTCGATGAGCAGATGCGCGCCTGGCGCGACCGCCAGGGCCAGGAGAAAGTCTGGCACACCCGCGACGCCATTCTGCTCTGTATCGGGCACAACACTGGCAGCGAAAAGCTGGTGCGTACCGCCGCCCGCCTCGCCGCCCGTCTGGGCAGCGTCTGGCATGCGGTATATGTCGAAACGCCTTCCCTGCACCGCCTGCCGGAATCCCGACGGCGGGCCATCCTCGCCGCGCTGCGTCTGGCCCAGGAGCTGGGCGCCGAAACCGCCACCCTCTCCGACCCGTCTGAAGAGAAAGCGGTCCTCCATTACGCGCGCGAACATAACCTCGGAAAAATTGTCATCGGCCGCCAGAGCAAACGCCGCTGGTGGGATCGCAGCGGCTTCGCCGACCGTCTGGCTCGTCACGCGCCGGACCTCGATCTGGTGGTCATCGCCCTGGATGAAAAGCCCTTCCCCCTTCCGGCGCGCGCCAGCGACACTCGTCCGGCGCTGGAGAAATGGCGGCTGCAGCTGCAGGGCTGCGCGTTGGCGGTGGCCCTGTGCGCCATCATTACCCTGGTGGCCATGCAGTGGCTGATGGCCTTCGAAGCCGCCAACCTGGTCATGCTCTATCTGCTGGGGGTGGTGATCATCGCCCTGCTCTATGGCCGCTGGCCATCGGTGCTGGCGACGGTGATCAACGTTATCAGCTTCGATCTCTTTTTTGTCGCCCCGCGCGGCACGCTGGCGGTGTCAGATGTCCAGTATCTGCTCACCTTCGGCGTGATGCTCACCGTTGGCCTGCTTATCGGTAACCTCACCGCCGGCGTGCGCTACCAGGCGCGGGTGGCGCGCTATCGCGAGCGGCGTACCCGCCACCTGTATGAAATGTCCAAAGCGCTGGCGGTGGGTCGTAGCCAGCAGGATATCGCCACCACCAGCGAGCGGTTTATCGCCTCCACCTTTCAGGCTCGCAGCCAGCTGCTGCTCCCGGACGCCCAGGGGAAACTGCTGCCCTTAACCCACCAGCCCGGGCTGACGCCGTGGGATGACGCCATCGCCCGCTGGAGCTTTGATAAGGGGCAACCCGCCGGCGCCGGCACCGATACCCTGCCCGGCGTGCCGTATCAGATCCTGCCCCTGAAGAGCGCCGCCCGCACCTGGGGACTGCTGGTGGTGGAGCCGGCGAATCTGCGCCAGCTGATGATCCCGGAGCAGCAGCGTCTGCTGGAGACCTTCACCCTGCTGGTGGCCAGCGCCCTGGAGCGTCTCACCCTGACCGCCAGCGAAGAGCAGGCCCGGTTGACCAGCGAGCGCGAAAGCCTGCGTAACTCGCTGCTCGCCGCCCTGTCCCACGATCTGCGTACCCCGCTCACCGTGCTGTTTGGCCAGGCGGAAATCCTGACCCTCGATCTGGCCAGCGAGGGTTCGAAGCATGCCCCGCAGGCCAATGAAATCCGCCAGCATGTGCTCAATACCACCCGGCTGGTGAACAACCTGCTGGATATGGCGCGGATCCAGTCCGGCGGCTTTAATCTGCACAAAGAGTGGCTGACGCTGGAGGAAGTGGTGGGCAGCGCGCTGCGTATGCTCGAGCCGAGCCTCGGCGGCCAGCACGTTCAACTGGATTTACCCGACCCGCTGCAGCTGGTGCATGTCGACGGGCCGCTGTTCGAGCGGGTGCTGATCAATCTGCTGGAGAATGCCCATAAGTATGCCGGCGCCCGGGCGGACATCGGTATTCGCGCCGAAGCAGACGCCCGGCAGCTGTCGCTGGAGGTATGGGATAATGGTCCGGGGATCCCGGCGGGTCAGGAACAGGCTATCTTTGATAAATTCGCCCGCGGCAACAAAGAGTCGGCGATCCCCGGCGTCGGGCTGGGCCTTGCCATCTGTCAGGCCATCGTCGACGTCCACGGCGGGACCATCTCCGCCAGCAACCGGCCGGAAGGCGGCGCCTCATTCCGTGTTACACTGCCGGGAGAAACGCCCCCTGAACTGGAAGAGCTATCTGAGGAATTGTGA	MSDEPLRPDPDRLLQHTAAPHRGKLKVFFGACAGVGKTWAMLAEAQRLRAQGLDILIGVAETHGRKETAAMLQGLSTLPPRRLAHRGRYVYEFDLDAALARRPALILVDELAHSNAPGSRHPKRWQDVDELLEAGIDVFTTVNVQHLESLNDVVSGITGVQVRETVPDPFFDAADDVVLVDLPPDDLRQRLNEGKVYIGGQAERAIENFFRKGNLIALRELALRRTADRVDEQMRAWRDRQGQEKVWHTRDAILLCIGHNTGSEKLVRTAARLAARLGSVWHAVYVETPSLHRLPESRRRAILAALRLAQELGAETATLSDPSEEKAVLHYAREHNLGKIVIGRQSKRRWWDRSGFADRLARHAPDLDLVVIALDEKPFPLPARASDTRPALEKWRLQLQGCALAVALCAIITLVAMQWLMAFEAANLVMLYLLGVVIIALLYGRWPSVLATVINVISFDLFFVAPRGTLAVSDVQYLLTFGVMLTVGLLIGNLTAGVRYQARVARYRERRTRHLYEMSKALAVGRSQQDIATTSERFIASTFQARSQLLLPDAQGKLLPLTHQPGLTPWDDAIARWSFDKGQPAGAGTDTLPGVPYQILPLKSAARTWGLLVVEPANLRQLMIPEQQRLLETFTLLVASALERLTLTASEEQARLTSERESLRNSLLAALSHDLRTPLTVLFGQAEILTLDLASEGSKHAPQANEIRQHVLNTTRLVNNLLDMARIQSGGFNLHKEWLTLEEVVGSALRMLEPSLGGQHVQLDLPDPLQLVHVDGPLFERVLINLLENAHKYAGARADIGIRAEADARQLSLEVWDNGPGIPAGQEQAIFDKFARGNKESAIPGVGLGLAICQAIVDVHGGTISASNRPEGGASFRVTLPGETPPELEELSEEL	PGPT0002755_763	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0002755-kdpD-K07646	NA	NA
BMS020_04267	678	kdpE_2	COG0745	KDP operon transcriptional regulatory protein KdpE	GTGATTAACGTTCTGATTATCGAAGACGAACACGCTATCCGTCGCTTTCTGCGCACCGCGCTGGAAGCCGACGGCATGCGCGTATTTGAAGCGGAAACCCTGCAGCGCGGGCTGATCGAAGCCGCCACTCGTAAGCCCGACCTCGCGATCCTCGATCTCGGCCTGCCGGATGGCGACGGCATTGATTTTATTCGCGACCTGCGCCAGTGGAGTCAGATGCCGATTATCGTCCTGTCAGCGCGTAGCGAAGAGCACGACAAAATTGCCGCCCTGGATGCCGGCGCCGATGACTACTTAAGTAAACCCTTTGGCATCGGCGAGCTGCAGGCCCGCCTGCGCGTCGCGTTGCGTCGTCACGGCGCGGCGCAGGCCGACGAGCCGGTGGTGCGCTTCGCCGACCTGGAGGTCAATATCCCCGCCCGCCGCATCCTGCGCGGCAGCGAAGAGATCCACCTGACGCCCATCGAGTTTCGCCTGCTGGCGGCGCTATTGAATAATCCCGGTAAAGTGCTTACCCAGCGCCAGCTGCTGAATCAGGTGTGGGGCCCTAACGCCGTGGAGCACAGCCATTATCTGCGGATCTATATGGGTCATCTGCGGCAAAAGCTGGAGGCCGATCCGGCGCGCCCGCAGCATCTGCTGACCGAAACCGGGATTGGCTATCGCTTTATGCCCTGA	MINVLIIEDEHAIRRFLRTALEADGMRVFEAETLQRGLIEAATRKPDLAILDLGLPDGDGIDFIRDLRQWSQMPIIVLSARSEEHDKIAALDAGADDYLSKPFGIGELQARLRVALRRHGAAQADEPVVRFADLEVNIPARRILRGSEEIHLTPIEFRLLAALLNNPGKVLTQRQLLNQVWGPNAVEHSHYLRIYMGHLRQKLEADPARPQHLLTETGIGYRFMP	PGPT0002760_1975	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0002760-kdpE-K07667	NA	NA
BMS020_04268	438			hypothetical protein	ATGAAAATACAACGGAAGTCCCTGTTTTTGTTCTGGGCGTGGATGGATCTCTTTTTCGTCCTGCAATTCTTATGGTGGAATATTGCCCACCGCCGACTCCCTTTTTACGACGACCTGCTGGCTTATCTCCAGCAGCTGCACGCCTGGGGCGCTGCGGCGGTCTGGCTCTATCCGCTGAATGTGCTGCTGATTATCAGCATCCCGCTGTCGATGATCCTCTTTTTCCGTCAGAGCCGCTATGGGCTGTGGCTGGCCTGGGGGCAGGCGCCGCTCAGGCTGGTGTTTATGCAGCCTTCGCTTTCTGTGGGTCTGTGGCTGATTCAGGCCGCCGGCGTCCGGCATTTCGCGATCCTGGCAGGCTTCCTGCTGCTCTCTGAAGGGCTGAAAATCGCCAGCCTCTGGTACTGCAGAGGCGGGGCTCAGGGCATAAAGCGATAG	MKIQRKSLFLFWAWMDLFFVLQFLWWNIAHRRLPFYDDLLAYLQQLHAWGAAAVWLYPLNVLLIISIPLSMILFFRQSRYGLWLAWGQAPLRLVFMQPSLSVGLWLIQAAGVRHFAILAGFLLLSEGLKIASLWYCRGGAQGIKR				NA	NA	NA	NA	NA
BMS020_04269	1641	pgm	COG0033	Phosphoglucomutase	ATGGCAATCGATAAACGTGCGGGGCAGCCTGCGCAACAGAGTGATTTGATTAACGTCGCCCAACTGACTGCTCAGTACTACGTGCTGAAGCCTGAAGTCGGTAATGCGGAGCATGCGGTCAAATTCGGCACCTCCGGCCATCGCGGCAGCGCGGCGCGTCACAACTTCAACGAACCGCATATCCTGGCCATCGCCCAGGCGATTGCGGAAGATCGTGCGAAGAACGGGATCACCGGTCCGTGCTATGTCGGTAAAGATACCCACGCCCTGTCCGAGCCGGCGTTTATTTCGGTGCTGGAAGTGTTAACCGCCAACGGCGTTGACGTGATCGTGCAGGAAAACAACGGCTTCACCCCGACGCCGGCGGTCTCCAACGCGATTCTGGTGCATAACAAAAAAGGCGGTCCGCTGGCGGACGGCATTGTGATCACCCCGTCACACAACCCGCCGGAAGATGGCGGTATCAAGTACAACCCGCCAAACGGCGGTCCGGCTGATACCAACGTCACCAAAGTGGTGGAAAACCGCGCCAACGAACTACTGGCCGCTGGCCTGCAGGGCGTGAAACGCCTTCCTCTGGACGCGGCGCTGGCTTCCGGCCACGTCAAAGAGCAGGATCTGGTGCAGCCGTTTATTGAAGGCCTGGCGGATATCGTCGACATGGCGGCGATCCAGAAAGCGGGCCTGACGCTGGGCGTCGATCCGCTGGGCGGTTCCGGTATCGAATACTGGAAGCGCATTGGCGAGCACTACAAGCTCAATCTGACCATTGTGAACGACCAGGTAGACCAGACCTTCCGCTTTATGCACCTCGATAAAGACGGCGCCATCCGCATGGACTGCTCCTCGGAATGTGCGATGGCGGGCCTGCTGGCGCTGCGCGATAAGTTCGATCTGGCGTTTGCCAACGACCCGGATTACGACCGTCACGGGATTGTCACCCCAGCCGGGCTGATGAACCCGAACCACTATCTGGCGGTGGCGATTAACTACCTGTTCCAGCATCGTCCGCAGTGGGGCAAAGAGGTGGCGGTCGGTAAAACCCTCGTCTCCTCGGCGATGATTGACCGCGTGGTGAACGATCTGGGCCGCAAGCTGGTGGAAGTGCCGGTGGGCTTTAAGTGGTTCGTCGACGGCCTGTTCGACGGCAGCTTCGGTTTCGGCGGCGAAGAGAGCGCCGGGGCCTCCTTCCTGCGCTTCGACGGCACGCCGTGGTCCACCGATAAAGACGGCATTATCATGTGCCTGCTGGCGGCGGAAATCACCGCAGTGACCGGGAAAAACCCGCAGGAGCACTATAACGAGCTGGCGGAGCGCTTTGGCGCGCCGAGCTACAACCGTCTGCAGGCTTCCGCGACCTCCGCGCAAAAAGCGGCGCTGTCTAAGCTGTCGCCGGAAATGGTCAGCGCTGACACCCTGGCGGGGGATCCGATCACCGCCCGTCTGACCGCAGCGCCGGGCAACGGGGCGGCGATTGGCGGCCTGAAAGTGATGACCGACAACGGCTGGTTCGCGGCGCGTCCGTCAGGCACCGAAGACGCCTACAAGATCTACTGCGAAAGCTTCCTCGGCGAAGAACATCGCAAACTGATCGAAAAAGAAGCGGTAGAGATTGTCAGTGAAGTGCTGAAGAACGCCTAA	MAIDKRAGQPAQQSDLINVAQLTAQYYVLKPEVGNAEHAVKFGTSGHRGSAARHNFNEPHILAIAQAIAEDRAKNGITGPCYVGKDTHALSEPAFISVLEVLTANGVDVIVQENNGFTPTPAVSNAILVHNKKGGPLADGIVITPSHNPPEDGGIKYNPPNGGPADTNVTKVVENRANELLAAGLQGVKRLPLDAALASGHVKEQDLVQPFIEGLADIVDMAAIQKAGLTLGVDPLGGSGIEYWKRIGEHYKLNLTIVNDQVDQTFRFMHLDKDGAIRMDCSSECAMAGLLALRDKFDLAFANDPDYDRHGIVTPAGLMNPNHYLAVAINYLFQHRPQWGKEVAVGKTLVSSAMIDRVVNDLGRKLVEVPVGFKWFVDGLFDGSFGFGGEESAGASFLRFDGTPWSTDKDGIIMCLLAAEITAVTGKNPQEHYNELAERFGAPSYNRLQASATSAQKAALSKLSPEMVSADTLAGDPITARLTAAPGNGAAIGGLKVMTDNGWFAARPSGTEDAYKIYCESFLGEEHRKLIEKEAVEIVSEVLKNA	PGPT0017710_2531	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017710-pgm-K01835	NA	NA
BMS020_04270	693	seqA		Negative modulator of initiation of replication	ATGTTGGACATTCTGCCATCCGGCTGCAAGACCCAGAAGTTTTCTGAGTTTTACCGCCATCCTGGTTTGACGCTATCCGCGGTTGGGATTTGTACTTATAATCCCAACGATTTGTATTCAGAAAAGATATCGCACTGGATTAAGATGAAAACAATTGAAGTTGATGATGAACTCTATCGCTATATTGCCAGCCACACTCTGCATATCGGCGAGAGCGCATCCGACATTTTACGGCGCATGCTGAAATTTTCCGCCGTTTCCCAACCAGCTACACAGGTCAGCAAAGCCGCGCCGGCGCTGGCGCCCGCGCCTGCCGTTGAGGTGAAACCCGCTAACCCGGCGAAAGATAAAGTCCGCGCCATGCGCGAGATGCTGTTATCTGATGAATACGCCGAGCAGAAGCGCGCGGTGAACCGTTTTATGCTGGTGTTGACCACTCTCTACTCCCTGGACAGTAAAGCATTTGCCGAGGCGACGGAGTCTCTGCATGGCCGCACGCGCGTCTACTTCGCGGAAGATGCGCGTACGCTGCTGAAAAGCGGTAATCAGACCAAACCGAAACAGGTTCCTGGTACACCGTGGTGGGTGATCACCAATACCAATACCGGCCGTAAATGCAGCATGATTGAGCACATCATGCAGTCGATGCAGTTCCCTGCGGAGCTGATTGAAAAGGTTTGCGGCACGATCTAG	MLDILPSGCKTQKFSEFYRHPGLTLSAVGICTYNPNDLYSEKISHWIKMKTIEVDDELYRYIASHTLHIGESASDILRRMLKFSAVSQPATQVSKAAPALAPAPAVEVKPANPAKDKVRAMREMLLSDEYAEQKRAVNRFMLVLTTLYSLDSKAFAEATESLHGRTRVYFAEDARTLLKSGNQTKPKQVPGTPWWVITNTNTGRKCSMIEHIMQSMQFPAELIEKVCGTI				NA	NA	NA	NA	NA
BMS020_04271	774	ybfF	COG0596	Esterase YbfF	ATGAAATTAAATAGCCGAGCGCAATCTGCACAGAATCCGCACAACCACTCCCCGATCGTGCTGGTCCACGGTCTGTTTGGCAGCCTGGACAACCTGGGCATCCTCGCCCGCGACCTGGTCGCCGACTACGATATTCTGCAGGTCGATATGCGCAACCACGGTTTGTCGCCGCGGTCGCCAGAGATGACCTACCCCGCGATGGCGCAGGATCTGCTCGATACGCTCGACGCGCACCAGATTGAGCGTGCCACCTTTATCGGCCATTCGATGGGCGGCAAAGCGGTGATGGCGCTGACCGCCCTGGCGCCGGAGCGCATCAACGGTCTGGTGGCGATCGATATCGCCCCGGTGGATTATCATGTTCGCCGTCATGATGAGATCTTCGCCGCTATCCGCGCCGTCAGCGAATCCGCCGCCAGCACCCGCCAGCAGGCGGCGCAGGTGATGCGCGAGCATCTGCAGGAAGAGGGGGTGATTCAGTTCCTGCTGAAATCTTTCGTTGACGGCGACTGGCGCTTCAACGTCCCGGTGCTGTGGGACCAGTACCCGCATATCGTCGGCTGGGAAACCATCCCGGCCTGGCCGCACCCGACGCAGTTTATTCCCGGCGGCAACTCACCCTACGTGACCGACGCCTACCGCGACGCGCTGCTGGCCCAGTTCCCGCAGGCCCGGGCCCACGTCATCGCCGGCGCCGGACACTGGGTCCATGCCGAGAAACCCGAAGCGGTGTTGCGCGCGATCCGCCGCTATCTCACGAGCATTGGCGCCTGA	MKLNSRAQSAQNPHNHSPIVLVHGLFGSLDNLGILARDLVADYDILQVDMRNHGLSPRSPEMTYPAMAQDLLDTLDAHQIERATFIGHSMGGKAVMALTALAPERINGLVAIDIAPVDYHVRRHDEIFAAIRAVSESAASTRQQAAQVMREHLQEEGVIQFLLKSFVDGDWRFNVPVLWDQYPHIVGWETIPAWPHPTQFIPGGNSPYVTDAYRDALLAQFPQARAHVIAGAGHWVHAEKPEAVLRAIRRYLTSIGA				NA	NA	NA	NA	NA
BMS020_04272	294	ybfE		putative protein YbfE	ATGGCAAAAGAACAAACGGACCGTACGACATTAGATTTGTTCGCAAACGAGCGTCGCCCGGGAAGACCAAAAACCAATCCGCTGTCGCGCGATGAACAACTGCGCATCAACAAACGTAATCAGCTGAAACGCGATAAAGTGCGCGGGCTGAAGCGCGTGGAGCTAAAGCTCAACGCCGACGCGGTCGATGCGCTTAACGAACTGGCGGAAGCGCGTAATATGAGCCGCAGCGATCTCATCGAAGAGATGCTGATGACGCAATTAACCGCCCTGCGCAGCCAGGGAAAAGTCTAA	MAKEQTDRTTLDLFANERRPGRPKTNPLSRDEQLRINKRNQLKRDKVRGLKRVELKLNADAVDALNELAEARNMSRSDLIEEMLMTQLTALRSQGKV				NA	NA	NA	NA	NA
BMS020_04273	531	fldA	COG0716	Flavodoxin	ATGGCAATCATCGGCATCTTTTTTGGCAGCGACACCGGCAACACCGAAAATATTGCAAAAATGATTCAAAAGCAGCTTGGTAAAGATGTTGCTGATGTTCACGACATTGCCAAAAGCAGCAAAGAAGATTTGGAAGCCCACGACATCCTGCTGCTCGGCATCCCGACCTGGTACTACGGTGAAGCTCAGTGTGACTGGGACGACTTCTTCCCGACGCTGGAAGAGATCGACTTTAACGGCAAGCTGGTGGCGCTGTTCGGCTGCGGCGACCAGGAAGACTACGCAGAGTACTTCTGCGATGCGCTGGGCACCATCCGCGACATCATTGAGCCGCGCGGCGCGACCATCGTTGGCCACTGGCCGACTGCCGGCTATCACTTCGAGGCCTCCAAAGGCCTGGCGGATGACGACCACTTCGTCGGCCTCGCCATTGATGAAGACCGTCAGCCGGAACTGACCAACGAGCGCGTTGAGAAGTGGGTGAAGCAGGTGGCTGAAGAGCTGCACCTCGAAGAAATCAAAAACGCCTGA	MAIIGIFFGSDTGNTENIAKMIQKQLGKDVADVHDIAKSSKEDLEAHDILLLGIPTWYYGEAQCDWDDFFPTLEEIDFNGKLVALFGCGDQEDYAEYFCDALGTIRDIIEPRGATIVGHWPTAGYHFEASKGLADDDHFVGLAIDEDRQPELTNERVEKWVKQVAEELHLEEIKNA	PGPT0000020_24	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000020-nifF|fldA|isiB-K03839	NA	NA
BMS020_04274	453	fur_1	COG0735	Ferric uptake regulation protein	ATGACTGACAACAATACCGCATTAAAGAAGGCTGGCCTGAAAGTCACACTTCCTCGACTGAAAATCCTTGAAGTGCTGCAGGAACCGGATAACCATCATGTCAGTGCGGAAGACTTATATAAACGCCTGATCGACATGGGCGAAGAGATTGGTCTGGCGACCGTTTACCGCGTCCTCAACCAGTTTGATGACGCCGGTATCGTGACTCGTCATAATTTTGAAGGCGGTAAATCCGTTTTCGAACTGACCCAGCAGCATCACCACGATCACCTGATCTGCCTCGACTGCGGCAAAGTGATCGAATTCAGTGATGACTCTATCGAAGCGCGCCAGCGTGAAATCGCTTCCCGTCACGGCATCCGCCTGACCAACCACAGTCTGTATCTGTACGGTCACTGTGCGGAAGGTGATTGCCGCGAGGACGAACACGCCCACGACGCAGTGGAAAAGTAA	MTDNNTALKKAGLKVTLPRLKILEVLQEPDNHHVSAEDLYKRLIDMGEEIGLATVYRVLNQFDDAGIVTRHNFEGGKSVFELTQQHHHDHLICLDCGKVIEFSDDSIEARQREIASRHGIRLTNHSLYLYGHCAEGDCREDEHAHDAVEK	PGPT0003880_1715	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003880-fur|furB|zur-K03711	NA	NA
BMS020_04275	927	cynR_2		HTH-type transcriptional regulator CynR	ATGGAACTTCGCCAGCTACGCTATTTTACGCGCATTGTTGAAACCGGCAGCATGGGCCGCGCCGCGCTCGATCTGAATATCGGCGTCTCGGCGCTCAGCCAGCAGATCGCGCGTCTGGAAAATGAGCTGTCCATTCGCCTCCTGCAGCGAACCTCTCGCGGCGTGACGCCCACCAGCGCGGGCCTCGCTTTCTACTCACAGGCGCAGCTGGCGCTGCGTCATGCCGATGATGCCATCCTCGCCGCCCGCGAGGCGCGGCTGTCGGGCCACGTCAGCGTCGGCATGGCCCCCAGCACCGCCTCCGTTCTTGGCGTACCGTTCATCAACGCGATGCGCGAGAGCTACCCCGACGTCCGCCTGCACCTGGTGGAAAGCCTCTCCGGGAATCTGGAGCGGATGATCAACACCCGCCAGCTGGATTTAGCCATCGTCTTCCAGCAGGAGAAGATCCTGCGCTGGAGCGCCAGACCGGTGCTCGAAGAGCGCCTGTTCCTGATTGGCACCCATGCGCTGTTGGCCTCGCTGCCGGATGACCCTGTTTCCCCTGACCAGCTCACCACCCTGCCGCTGATTATGCCAAGCCAGGGCCACGGCCTGCGCGGCAGGCTGGAGGCGGTTTGCCAGCAGCACAGCCTCAGCGTTGAGGTGGTGGCAGACATTGACGGTCTGGCCCTGCTGATGCAGGCCGTGCGCAGCGGACTGGGCGCCACTCTGCAGCCCGGGGCCGCTATTTCCCATCTCGACCATCAGGCGCTGAGGGTGATCGGCATCGCTAATCCGGTCCTCAGCCGCCCCAACTTTCTGGTCAGCCTGTCGGATGATGAGCTCACCCCGGCAGGCCTTGCGGCACGGGTCATACTAAGCAAAGTCATGCGCCAGCTGGTGGAGTCCGATCGCTGGCCAGGCGCCACCCTTTACGTTAACTAA	MELRQLRYFTRIVETGSMGRAALDLNIGVSALSQQIARLENELSIRLLQRTSRGVTPTSAGLAFYSQAQLALRHADDAILAAREARLSGHVSVGMAPSTASVLGVPFINAMRESYPDVRLHLVESLSGNLERMINTRQLDLAIVFQQEKILRWSARPVLEERLFLIGTHALLASLPDDPVSPDQLTTLPLIMPSQGHGLRGRLEAVCQQHSLSVEVVADIDGLALLMQAVRSGLGATLQPGAAISHLDHQALRVIGIANPVLSRPNFLVSLSDDELTPAGLAARVILSKVMRQLVESDRWPGATLYVN				NA	NA	NA	NA	NA
BMS020_04276	1404	ifcA	COG1053	Fumarate reductase flavoprotein subunit	ATGGTGGATGTACTGGTCATTGGCGGCGGCAATGCCGCGCTATGCGCCGCCTTAACCGCCCGGGAAGCCGGCGCCTCGGTGCTGCTGCTGGAGGCGGCGCCGCGGGAGTGGCGAGGCGGCAATTCGCAGCACACGCGTAACCTGCGCTGTATGCACGATGCGCCGCAGGACGTGCTGGTCGACAGCTATCCGGAAGAGGAGTACTGGCAGGATCTGCTGCGCGTCACCGAAGGGAACACCAACGAAGCGCTGGCCCGGCTGGTGATCCGCACCTCGTCACAGTGCCGGGACTGGATGCGTCAGCACGGGGTTAACTTTCAGCCACCGCTCTCCGGCGCCCTGCACGTAGCCCGCACCAACGCCTTTTTTATGGGCGGCGGCAAAGCGCTGGTCAATGCCTATTACCGCAGCGCAGAGCGGATGGGGGTGCAGATCCGCTACAACACGCCGGTGCAGGCTCTGGAACTGCGCAACGGTGAATTTGTCGCCGCGCTGGCGGGCGAGGAACGGATTGTCGCGAGAAGCTGCGTCCTCGCCGCCGGCGGATTTGAATCCAACCGCAAGTGGCTGCGCGAGGCCTGGGGGCAAAATGACCGCGGCGAATGGCCCGCCGATAACTTTCTCATCCGCGGCACGCGCTTCAACCAGGGGGTGCTGCTCAAGTTTATGATCGACGCCGGGGCCGATATCATCGGCGATCCGTCCCAGTCCCACTGCGTCGCCATTGACGCCCGGGCGCCGCTCTATGACGGCGGGATCTGCACCCGCGTCGACTGCGTTTCGCTGGGGGTGGTGGTCAACCGCGATGCCGTGCGCTTTTATGATGAGGGGGAAGATTTCTGGCCTAAACGCTACGCCATCTGGGGCCGACTGGTCGCCCACCAGCCTGGACAGATCGGCTACTCGATCATCGACAGCAAAGCCATCGGCCACTTTATGCCCCCCGTCTTTCCCGGCGCTCAGGCCAATACCATCGCGGAACTGGCCCGCCAGCTGGGGCTGGACGGCGAACGCTTAGCGCAAACCATCGCCGACTATAATGCCGCCTGCGCGCCGGGCCAGTTCGATCACACCCGCCTGGATAACTGCGCGACCTCTGGCCTCACGCCGGCGAAAACCCACTGGGCGCGCCCCATCGATACGCCGCCTTACTACGGCTACGCCCTGCGTCCGGGGATCACCTTCACCTACCTCGGGCTCTACGTCGACGACACCGCCGCCGTCCATTTCGCCGGTCAACCCAGCCGTAATCTGTTCGTCGCCGGGGAAATGATGGCCGGCAACGTGCTGGGCAAGGGCTACACCGCCGGCGTCGGGATGTCGATCGGCACCACCTTCGGCCGCATCGCCGGCCAGCAGGCCGCCCGGGCGGCGCAGCAGGAGAAACTCCATGAAGTCGCTTGA	MVDVLVIGGGNAALCAALTAREAGASVLLLEAAPREWRGGNSQHTRNLRCMHDAPQDVLVDSYPEEEYWQDLLRVTEGNTNEALARLVIRTSSQCRDWMRQHGVNFQPPLSGALHVARTNAFFMGGGKALVNAYYRSAERMGVQIRYNTPVQALELRNGEFVAALAGEERIVARSCVLAAGGFESNRKWLREAWGQNDRGEWPADNFLIRGTRFNQGVLLKFMIDAGADIIGDPSQSHCVAIDARAPLYDGGICTRVDCVSLGVVVNRDAVRFYDEGEDFWPKRYAIWGRLVAHQPGQIGYSIIDSKAIGHFMPPVFPGAQANTIAELARQLGLDGERLAQTIADYNAACAPGQFDHTRLDNCATSGLTPAKTHWARPIDTPPYYGYALRPGITFTYLGLYVDDTAAVHFAGQPSRNLFVAGEMMAGNVLGKGYTAGVGMSIGTTFGRIAGQQAARAAQQEKLHEVA				NA	NA	NA	NA	NA
BMS020_04277	1140			hypothetical protein	ATGAAGTCGCTTGAAAAGCTGATCATTGACGCGCAGATCATCACCGAACCGGAGGCGGAAGTCGAACGGGTGATGCAGGTGTGTAACGCCTGCCGCTACTGCGAAGGGTTTTGCGCCGTGTTCCCGGCGATGACCCAGCGCCTGGCCTTTGGCAAGGCGGATATCAACTATCTGGCTAACCTGTGCCATAACTGCGGCGCTTGCCTGCATGCCTGCCAGTATGCGCCGCCGCACGAGTTCGCCATTAACGTGCCGAAGGCGATGGCCGAAGTCCGGCTCGAGACCTATCAACACTACGCCCAGCCCGCCGCCTTTGGCAGCCTGTACCGCCGGGCCGGCATGACCACCGTGCTGGCGCTGGTCGGCGGCCTGATTGTCTTTCTGCTGCTGGCGATGGGGCTCAAAGGCTCGCTGCGCCATCCGCCGCTGGCGGGCGACTTCTACCAGATATTCCCCCATAACCTGCTGGCGTGGATGTTTGGTTCGGTCTTTGTGCTGGCGATTGGCTTACTGATGAGCGGGGTGATCCGCTTCTGGCGCGAGATCTCCCCGGGCCAGCCGCAACCGATTGATATTGCGAAGGCATCCCATGATGCGCTGACGCTGAAATATCTCGACGGCGGCCACGGGAAAGGCTGCAACGAAGCCGATGACGCCTTCACCCTGCTGCGCCGCCGTTTCCACCACTGCACCTTCTACGGCTTTATGCTCTGTTTCGCCGCCACCGTGGTGGCCACGGGCTATCACTATATCGCCGGCCAGGAAGCCCCCTACCCGTTCTTCAGCCTGCCGGTGCTGCTCGGCACCCTCGGCGGCATCGGCCTGCTGGTCGGCCCGGCGGGCCTGCTGTGGCTGAACCTGCGCCGCTCGCCGCTGCACGGCGACGCGCGGCAGAAACCGATGGATCGCGGATTTATTCTGCTGCTGCTGCTGACCAGCTTCACCGGCCTGGCGCTGCTGGCGGGGCGGGATACTTCGTGGATGGGCGTCCTGCTCGCCATCCACCTCGGGGTGGTGATGGCCCTGTTCTTAACCCTGCCGTATGGAAAATTTGCCCACGGATTTTATCGCTGTGCGGCGTTACTCAAGTGGGCGATTGAGAAACGCCGCGGAAAACAGGCGGGCGTCGCCGGCGACTGA	MKSLEKLIIDAQIITEPEAEVERVMQVCNACRYCEGFCAVFPAMTQRLAFGKADINYLANLCHNCGACLHACQYAPPHEFAINVPKAMAEVRLETYQHYAQPAAFGSLYRRAGMTTVLALVGGLIVFLLLAMGLKGSLRHPPLAGDFYQIFPHNLLAWMFGSVFVLAIGLLMSGVIRFWREISPGQPQPIDIAKASHDALTLKYLDGGHGKGCNEADDAFTLLRRRFHHCTFYGFMLCFAATVVATGYHYIAGQEAPYPFFSLPVLLGTLGGIGLLVGPAGLLWLNLRRSPLHGDARQKPMDRGFILLLLLTSFTGLALLAGRDTSWMGVLLAIHLGVVMALFLTLPYGKFAHGFYRCAALLKWAIEKRRGKQAGVAGD				NA	NA	NA	NA	NA
BMS020_04278	1296	proP_3		Proline/betaine transporter	ATGACCCAACAACCCACCCGCGCCGGCACCGTCGGCGCTATCCTCCGCGTGACCAGCGGTAATTTTCTCGAACAGTTCGACTTCTTCCTGTTTGGCTTTTACGCCACCTATATCGCCCGCACCTTCTTTCCGGCGGAGAGCGAGTTCGCGGCGCTGATGCTCACCTTTGCGGTATTTGGCTCGGGCTTCCTGATGCGTCCTATCGGCGCGGTGGTGCTCGGCGCTTATATCGACAGAATCGGTCGCCGCAAAGGGCTGATGGTCACCCTGGCGATCATGGGCTGCGGGACGCTACTCATCGCCCTGGTCCCTGGCTATCAGACTATCGGCGTGCTGGCGCCGATCCTCGTGTTAGTGGGCCGTCTGCTGCAGGGGTTCTCGGCGGGCGTCGAGCTTGGCGGAGTGTCGGTCTATCTCTCTGAAATCGCTACGCCGGGCAATAAAGGCTTCTATACCAGCTGGCAGTCCGCCAGCCAGCAGGTGGCTATCATCATGGCGGCGCTGATCGGCTATGCGCTGAACGCCACGCTGGAACATGAGGAGATTGCCGCCTGGGGCTGGCGCATTCCCTTTTTTATTGGCTGTATGATCATTCCGCTGATTTTCGTGCTGCGCCGCTCGCTGCAGGAGACCGAGGAATTCCTGCAGCGTAAACATCGCCCGGATACCAAAGAGATCCTGACCACCATCGCCAGAAACTGGCGCATTATTACCGCGGGGACGCTGCTGGTAGCGATGACCACCACCACTTTCTACTTTATTACCGTCTATACGCCAACCTACGGCAGAGCAGTGCTGCACCTCAGCGCCCGCGACAGCCTGCTGGTCACCATGCTGGTGGGCATCTCCAATTTTATCTGGTTACCGATTGGCGGCGCGATCTCTGACCGGATCGGTCGTCGCCCGGTGCTGATGGGGATTACCGTGCTGGCGCTGCTCACCACCTGGCCGGTGATGCACTGGCTCACCGCCGCGCCGGATTTCACCCGTATGACGCTGGTCCTGTTGTGGTTTTCCTTCTTCTTTGGCATGTATAACGGCGCGATGGTGGCGGCGCTAACCGAAGTGATGCCGGTTTATGTCCGCACCGTGGGCTTTTCGCTGGCCTTCAGCCTCGCCACCGCCATCTTCGGCGGCCTGACGCCGGCTATCTCCACTGCCCTGGTCGAGCTTACCGGCGATAAAAGCGCGCCGGGATGGTGGCTGATGTGCGCTGCGCTGTGCGGGTTCATCGCCACCGCGCTGCTGTTCGTGCGCCTGAGTCGCGGCTATCAGCCGGCGGAGAGTCAGCGCTAA	MTQQPTRAGTVGAILRVTSGNFLEQFDFFLFGFYATYIARTFFPAESEFAALMLTFAVFGSGFLMRPIGAVVLGAYIDRIGRRKGLMVTLAIMGCGTLLIALVPGYQTIGVLAPILVLVGRLLQGFSAGVELGGVSVYLSEIATPGNKGFYTSWQSASQQVAIIMAALIGYALNATLEHEEIAAWGWRIPFFIGCMIIPLIFVLRRSLQETEEFLQRKHRPDTKEILTTIARNWRIITAGTLLVAMTTTTFYFITVYTPTYGRAVLHLSARDSLLVTMLVGISNFIWLPIGGAISDRIGRRPVLMGITVLALLTTWPVMHWLTAAPDFTRMTLVLLWFSFFFGMYNGAMVAALTEVMPVYVRTVGFSLAFSLATAIFGGLTPAISTALVELTGDKSAPGWWLMCAALCGFIATALLFVRLSRGYQPAESQR	PGPT0001505_291	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_CITRATE_TRANSPORT,PGPT0001505-citA|tcuC-K03288	NA	NA
BMS020_04279	333	chiQ		putative lipoprotein ChiQ	ATGAAAAAAATGCTGCTTATTGCCATGATGGCATCGGCTCTGGTGGCCTGCACCACGTCGCCGGCACCGAAAGAAGACACCAAACTGAAAGATGCCTATAGCGCCTGTATTAATACGGCGGAAGGCAATCCGGACAAAATTGAAGCCTGCCAGAGCGTACTGAATGTCCTGAAAGAGGATAAACAGCACCAGCAGTTTGCTAACCAGGAGAGCGTCCGGGTACTGGATTATCAGCAGTGTATCCAGGCTACCCGTACCGGTAACGATCAGGCGGTGAAAGCGCGCTGCGACCAGATCTGGAAAGAGATCCGCAGCAATAACACCACCCATTAA	MKKMLLIAMMASALVACTTSPAPKEDTKLKDAYSACINTAEGNPDKIEACQSVLNVLKEDKQHQQFANQESVRVLDYQQCIQATRTGNDQAVKARCDQIWKEIRSNNTTH				NA	NA	NA	NA	NA
BMS020_04280	1404	chiP		Chitoporin	ATGCGTACGTTTAGTGGCAAACGTAGTACGCTGGCGCTGGCTATTGCCGCCGTCACCGCGATGTCGGGCTGGGTTGTGATTCCGCAGGCCAGCGCAGCAGGCTTTATCGATGATTCTACTTTAACCGGCGGTATCTATTACTGGCAGCGTGAGCGTGACCGTAAAGATGTGACCGACGGCGACAAATACAAAACCAACCTTTCCCACTCCACCTGGAACGCCAACCTGGACTTCCAGTCCGGCTATGCCGCCGATATGTTTGGCCTTGATATTGCGGCGTTTACCGCGATTGAAATGGCGGAGAACGGCGACAGCGGCCACCCGAACGAAATCGCCTTCTCGTCGCGTAACAAAGCCTATGACGAAGACTACTCCGGCGATAAGAGCGGCATCAGCCTGTATAAAGCCGCTGCGAAATTCAAATACGGTCCGGCATGGGCGCGTGCGGGCTACATCCAGCCAACCGGTCAGACCCTGCTGGCGCCGCACTGGAGCTTTATGCCGGGTACCTATCAGGGGGCGGAAGCCGGGGCCAACTTCGACTATGGCACCGCGGGCGCGTTAAGTTTCTCCTACATGTGGACGAACGAGTATAAAGCGCCATGGCATATCGAGATGGATGATTTCTACCAGAACGATAAGAAGACCAAAGTCGATTATCTCCACTCCGTCGGCGCCAAATATGATTTCAAAAACGACCTGGTGCTGGAGGCGGCATTTGGTCAGGCTCAGGGCTATATCGATCAGTACTTTGCTAAAGCCAGCTACAAGTTTGACGTCGCCGGCGCGCCGTTGAGCACCAGCTACCAGTTCTACGGCACTCGCGATAAGGTCAGCAACGGCGGGGTCAACGACATCTATGACGGCACCGCATGGCTGCAGGCGTTAACCTTTGGCTATAAAGTGGCGGATGTGCTGGATCTGCGTCTGGAAGGGACCAGGGTGAAGGCCGATGGCCAGCAGGGCTACTTCCTGCAGCGTATGACCCCGACCTACGCCTCCTCCAACGGTCGTCTCGATATCTGGTGGGATAACCGTTCCGACTTCAACGCCAACGGCGAAAAAGCGGTCTTCTTCGGCGCGATGTATGACATGAAAAACTGGGATATGCCGGGCTGGGCGTTTGGCGCGTCTTATGTGTACGCCTGGGATGCGAAGCCGGGCAAAATGTCCTCCCCGGACGCCTACTATGACGCTGATTACCGTCTGAAAGAGTCGGCCTACAGCCTGGATGCGCTGTATACCGTGCAGGAAGGCCGGGCGAAGGGCACGCTGTTTAAACTGCACTTTACCCAGTACGACAACCATTCCGATATTCCGAGCTGGAGCGGCGGCTACGGCAACATCTTCCAGGATGAGCGCGACGTGAAGTTCATGGTTATCGCCCCGTTCACAATTTTCTGA	MRTFSGKRSTLALAIAAVTAMSGWVVIPQASAAGFIDDSTLTGGIYYWQRERDRKDVTDGDKYKTNLSHSTWNANLDFQSGYAADMFGLDIAAFTAIEMAENGDSGHPNEIAFSSRNKAYDEDYSGDKSGISLYKAAAKFKYGPAWARAGYIQPTGQTLLAPHWSFMPGTYQGAEAGANFDYGTAGALSFSYMWTNEYKAPWHIEMDDFYQNDKKTKVDYLHSVGAKYDFKNDLVLEAAFGQAQGYIDQYFAKASYKFDVAGAPLSTSYQFYGTRDKVSNGGVNDIYDGTAWLQALTFGYKVADVLDLRLEGTRVKADGQQGYFLQRMTPTYASSNGRLDIWWDNRSDFNANGEKAVFFGAMYDMKNWDMPGWAFGASYVYAWDAKPGKMSSPDAYYDADYRLKESAYSLDALYTVQEGRAKGTLFKLHFTQYDNHSDIPSWSGGYGNIFQDERDVKFMVIAPFTIF	PGPT0016471_35	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_CHITOBIOSE_TRANSPORT_III,PGPT0016471-chiP-NA	NA	NA
BMS020_04281	1668	glnS_2	COG0008	Glutamine--tRNA ligase	ATGAGTGAGGCAGAAGCCCGCCCGACTAACTTTATCCGTCAGATCATTGATGAAGATCTGGCTACCGGTAAGCACACCACCGTTCACACCCGCTTCCCGCCGGAGCCGAACGGTTATCTGCACATTGGCCATGCGAAATCCATCTGCCTGAACTTCGGCATCGCCCAGGATTATCAGGGCCAATGCAACCTGCGTTTCGATGACACCAACCCGGTGAAAGAAGATATCGAATACGTGGAGTCGATTAAAAACGACGTGCAGTGGTTAGGTTTCCACTGGTCCGGGGACGTTTGCTACTCGTCTGACTACTTTGATCAGCTGCATCAGTATGCGGTTGAGCTGATCAACAAAGGCCTGGCCTATGTTGATGAACTCTCTCCTGATGAAATTCGTGAATATCGCGGCACCCTGAAAGCGCCGGGTAAGAACAGCCCGTATCGCGACCGCAGCGTGGAAGAAAACCTGGCGCTGTTCGAAAAAATGCGCAGCGGCGGCTTCGAAGAGGGCAAGGCCTGCCTGCGCGCGAAGATCGATATGGCGTCGCCGTTCATCGTGATGCGCGATCCGGTGCTGTACCGCATTAAATTCGCTGAGCATCATCAGACCGGCAACAAGTGGTGCATCTACCCGATGTACGACTTCACCCACTGCATCAGCGATGCGCTGGAAGGCATTACCCACTCGCTGTGTACCCTGGAGTTCCAGGACAACCGTCGTCTGTACGACTGGGTGCTGGACAACATCAGCATCCCGGTTCACCCGCGCCAGTACGAATTCTCGCGCCTGAATCTTGAATACACCGTGATGTCCAAGCGTAAGCTGAACCAGCTGGTGACCGAGAAGCACGTGGAAGGTTGGGACGATCCGCGTATGCCGACCATCTCCGGTCTGCGTCGTCGCGGCTACACCGCCGAATCCATCCGCGAATTCTGCAAGCGCATCGGCGTGACCAAGCAGGACAACACTATTGAGATGGCGTCGCTGGAGTCCTGCATTCGCGAAGATCTCAACGAAAACGCGCCGCGCGCGATGGCGGTGATCGATCCGGTGAAACTGGTTATCGAGAACTACCCGCAGGGCGAAAGCGAAATGGTGGCGATGCCGAACCATCCGAACAAGCCGGAGATGGGCAGCCGCGAAGTGCCGTTCAGCGCGGAAATCTGGATCGACCGCGCGGACTTCCGTGAAGAAGCCAACAAGCAGTACAAGCGTCTGGTGCTGGGCAAAGAAGTGCGTCTGCGCAATGCCTACGTCATCAAAGCGGAACGCGTGGAGAAAGATGCCGAAGGCAATATCACCACTATCTTCTGCACCTACGATGCCGACACCCTGAGTAAAGATCCGGCTGACGGCCGCAAGGTCAAAGGCGTGATCCACTGGGTGAGCGCGGCGCATGCGCTGCCGGTAGAGATCCGTCTCTACGATCGCCTGTTCAGCGTACCAAACCCGGGCGCAGCGGAGGATTTCCTCGCGGTGATCAATCCGGAATCGCTGGTGATCAAACAGGGTTACGCGGAGCCGAGCCTGGCGCAGGCGGAAGCGGGTAAAGCTTACCAGTTTGAGCGTGAAGGTTACTTCTGCCTCGACAGTCGCTATGCAACCGCAACCAGTCTGGTGTTTAACCGCACCGTCGGTCTGCGCGATACCTGGGCGAAAGCGGGCGAATAA	MSEAEARPTNFIRQIIDEDLATGKHTTVHTRFPPEPNGYLHIGHAKSICLNFGIAQDYQGQCNLRFDDTNPVKEDIEYVESIKNDVQWLGFHWSGDVCYSSDYFDQLHQYAVELINKGLAYVDELSPDEIREYRGTLKAPGKNSPYRDRSVEENLALFEKMRSGGFEEGKACLRAKIDMASPFIVMRDPVLYRIKFAEHHQTGNKWCIYPMYDFTHCISDALEGITHSLCTLEFQDNRRLYDWVLDNISIPVHPRQYEFSRLNLEYTVMSKRKLNQLVTEKHVEGWDDPRMPTISGLRRRGYTAESIREFCKRIGVTKQDNTIEMASLESCIREDLNENAPRAMAVIDPVKLVIENYPQGESEMVAMPNHPNKPEMGSREVPFSAEIWIDRADFREEANKQYKRLVLGKEVRLRNAYVIKAERVEKDAEGNITTIFCTYDADTLSKDPADGRKVKGVIHWVSAAHALPVEIRLYDRLFSVPNPGAAEDFLAVINPESLVIKQGYAEPSLAQAEAGKAYQFEREGYFCLDSRYATATSLVFNRTVGLRDTWAKAGE				NA	NA	NA	NA	NA
BMS020_04282	1956	nagE	COG1263	PTS system N-acetylglucosamine-specific EIICBA component	ATGAATATTTTAGGTTTCTTTCAGCGACTGGGTAGGGCGTTACAGCTCCCTATCGCAGTGCTGCCGGTCGCGGCATTGCTGCTGCGTTTCGGGCAACCAGACCTGTTGAATGTACCCTTCATCGCGCAAGCGGGTGGGGCTATCTTCGACAACCTGGCGCTGATCTTTGCTATCGGTGTGGCGTCAAGCTGGTCCAAGGATAACGCCGGTTCTGCGGCGCTGGCCGGGGCAGTAGGTTATTTCGTGATGACCAAAGCGATGGTCACCATCAATCCGGAAATCAACATGGGCGTACTGGCCGGTATCATTACCGGTCTGGTAGCAGGGGCGGTGTACAATCGCTGGGCCGGCATCAAGCTGCCGGACTTCCTGAGCTTCTTCGGCGGCAAACGCTTCGTACCGATTGCCACCGGCTTCTTCTGTTTGATCCTCGCGGCGCTCTTCGGCTACGTCTGGCCGCCGGTGCAGCACGCTATCCATGCGGGCGGCGAGTGGATCGTTTCCGCAGGGGCGCTGGGTTCCGGTATCTTCGGCTTTATCAACCGTCTGCTGATCCCGACCGGTCTGCATCAGGTGCTGAACACCATCGCCTGGTTCCAGATTGGTGAGTTCACGAACGCCGCAGGCGCCGTGTTCCACGGCGACATCAACCGCTTCTACGCCGGCGACGGCACCGCGGGGATGTTCATGTCCGGCTTCTTCCCGATCATGATGTTTGGTCTGCCGGGCGCGGCGCTGGCGATGTATCTGGCCGCTCCGAAAGCGCGTCGTCCGATGGTGGGCGGTATGCTGCTGTCCGTTGCCATCACCGCGTTCCTGACCGGGGTAACCGAGCCGCTGGAATTCCTGTTCATGTTCCTGGCTCCGCTGCTGTACCTCCTGCACGCGGTACTGACCGGTATCAGCCTGTTCATCGCAACGGCGCTGGGCATTCATGCGGGCTTCTCCTTCTCCGCAGGCGCTATTGACTACGTGCTGATGTACAGCCTGCCGGCCGCCAGCAAAAACGTCTGGATGCTGCTGGTGATGGGCGTGGTGTTCTTCTTCGTCTACTTCCTGCTGTTCAGCGCGGTGATCCGCATGTTCAACCTGAAAACGCCGGGTCGTGAAGACAAAGCCGCTGACGTGGTAACGGAAGAAGCGAACAGCAACACTGAAGAAGGCCTGACCCAGCTGGCGACCAGCTATATCGCCGCGGTGGGCGGAACGGACAACCTGAAAGCGATTGACGCCTGTATCACCCGTCTGCGCCTGACCGTGGGCGATTCGGCGAAAGTCAACGACGCCGCCTGTAAACGTCTCGGCGCGTCCGGGGTGGTGAAACTGAATAAGCAAACCATCCAGGTTATCGTCGGCGCGAAGGCAGAGTCTATCGGCGATGAGATGAAAAAAGTGGTGACCCGCGGCCCGGTAGCGGCAGCGGCAGCCGCGCCGGCTGGCAACGTCGCCACCGCAGCGCCCGCGGCTAAACCGCAGGCGGTAGCGAACGCGAAGACCGTTGAGTCGCTGGTTTCGCCGATTACTGGTGACGTGGTGGCCCTCGAACAGGTGCCGGACGAAGCCTTCGCCAGCAAAGCCGTCGGCGACGGTATCGCGGTGAAACCGACCAGCAACATCGTGGTGGCCCCGGCCGCCGGTACCGTGGTGAAAATTTTCAACACTAACCACGCGTTCTGCCTCGAAACCAACAACGGTGCGGAAATCGTTGTCCACATGGGTATCGACACCGTGGCGCTGGAAGGCAAGGGCTTCAAACGACTGGTTGAAGAGGGCGCGGACGTGAAGGCGGGCGAGCCGATTCTGGAAATGGATCTGGACTTCCTCAACGCTAACGCGCGCTCGATGATTAGCCCGGTGGTCTGCAGCAACAGCGATGACTACAGCGCGCTGGTGATACTGGCGAGCGGTAAGGTCGTTGCCGGCCAGACGCCGCTGTATGAGATTAAAGGCAAGTAA	MNILGFFQRLGRALQLPIAVLPVAALLLRFGQPDLLNVPFIAQAGGAIFDNLALIFAIGVASSWSKDNAGSAALAGAVGYFVMTKAMVTINPEINMGVLAGIITGLVAGAVYNRWAGIKLPDFLSFFGGKRFVPIATGFFCLILAALFGYVWPPVQHAIHAGGEWIVSAGALGSGIFGFINRLLIPTGLHQVLNTIAWFQIGEFTNAAGAVFHGDINRFYAGDGTAGMFMSGFFPIMMFGLPGAALAMYLAAPKARRPMVGGMLLSVAITAFLTGVTEPLEFLFMFLAPLLYLLHAVLTGISLFIATALGIHAGFSFSAGAIDYVLMYSLPAASKNVWMLLVMGVVFFFVYFLLFSAVIRMFNLKTPGREDKAADVVTEEANSNTEEGLTQLATSYIAAVGGTDNLKAIDACITRLRLTVGDSAKVNDAACKRLGASGVVKLNKQTIQVIVGAKAESIGDEMKKVVTRGPVAAAAAAPAGNVATAAPAAKPQAVANAKTVESLVSPITGDVVALEQVPDEAFASKAVGDGIAVKPTSNIVVAPAAGTVVKIFNTNHAFCLETNNGAEIVVHMGIDTVALEGKGFKRLVEEGADVKAGEPILEMDLDFLNANARSMISPVVCSNSDDYSALVILASGKVVAGQTPLYEIKGK	PGPT0016860_263	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
BMS020_04283	801	nagB	COG0363	Glucosamine-6-phosphate deaminase	ATGAGACTGATCCCCCTGGTAACCGCTGAGCAGGTCGGTAAATGGGCTGCCCGCCATATCGTGAACCGCATTAATGCATTCAAACCAACCGCGGACCGTCCGTTCGTGCTGGGTCTGCCGACCGGCGGCACCCCGCTCACCGCCTACAAGGCGCTGGTTGAAATGCATAAAGCAGGCCAGGTTAGCTTCAAGCACGTTGTCACCTTCAACATGGATGAATACGTTGGCCTGCCGAAAGAGCATCCGGAAAGCTATCATAGCTTCATGCACCGTAATTTCTTTGACCACGTTGATACTCCGGCAGAAAATATCAACCTGCTGAATGGTAACGCGCCGGACATCGATGCGGAATGCCGTCGCTATGAAGAAAAAATTCGTTCCTACGGTAAAATCCACCTGTTTATGGGCGGCGTGGGCAACGATGGCCACATCGCGTTCAACGAACCGGCCTCTTCTCTGGCGTCACGCACCCGTATTAAGACCCTGACCCATGACACCCGTGTGGCGAACTCCCGCTTCTTTGACGGCGACGTGGATCTGGTGCCGAAATATGCGCTGACCGTCGGCGTGGGCACCCTGCTGGATGCAGAAGAAGTCATGATTCTGGTGCTGGGCCATCAGAAAGCGCTGGCGCTGCAGGCGGCAGTTGAAGGTAACGTCAACCACATGTGGACCATTACCTGTCTGCAGCTGCATCCGAAGGCGGTGATCGTCTGCGACGAACCGTCCACCATGGAGCTGAAAGTGAAGACGCTGAAATATTTCAACGAATTAGAAGCTGAAAATATTAAAGGTCTGTAA	MRLIPLVTAEQVGKWAARHIVNRINAFKPTADRPFVLGLPTGGTPLTAYKALVEMHKAGQVSFKHVVTFNMDEYVGLPKEHPESYHSFMHRNFFDHVDTPAENINLLNGNAPDIDAECRRYEEKIRSYGKIHLFMGGVGNDGHIAFNEPASSLASRTRIKTLTHDTRVANSRFFDGDVDLVPKYALTVGVGTLLDAEEVMILVLGHQKALALQAAVEGNVNHMWTITCLQLHPKAVIVCDEPSTMELKVKTLKYFNELEAENIKGL	PGPT0018865_1125	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
BMS020_04284	1149	nagA_1	COG1820	N-acetylglucosamine-6-phosphate deacetylase	ATGTATGCATTAACCCAGGGCCGGGTTTATACCGGTCATGAAATTCTCGATGACCATGCGGTTGTTATCGCTAATGGCCTTATCGAACGTCTTTGTCCGCTGGCAGATTTGCCGTCTGACATCGAGCAGCGCTCAGTCAACGGCGCAATCCTCGCCCCCGGTTTTATCGACGTCCAGCTCAACGGCTGCGGCGGCGTGCAGTTTAACGACAGCCCTGACGCGGTCACTGTCGAAACGCTGGAGATCATGCAGAAGGCCAACGAACGCTCAGGCTGCACCAGCTTCCTGCCGACGCTGATTACCTCCAGCGACGATCTGATGAAGCAAGGCGTCCGCGTGATGCGCGAATACCTGCAAAAGCACCCGAACCAGGCGCTGGGTCTGCATCTTGAAGGACCGTGGCTGAATATCGTTAAGAAAGGCACCCACAATCCCGACTACGTGCGTAAACCGGACGCGGCGCTGGTCGATTTCCTGTGCGACAACGCCGATGTGATCACCAAAGTGACCCTCGCCCCTGAGCGCGTCGAGCCGGAAGTGATCCGCAAACTGGTCGCCGCCGGGATCGTCGTCTCCGCGGGCCACTCCAACGCCACGCTGAAAGAGGCGAAAGTGGGCTTCCGCGCGGGCATTACCTTCGCCACCCACCTGTATAATGCGATGCCGTACATTACCGGCCGCGAACCGGGTCTGGCCGGGGCGATTTTTGACGAGCCGGATGTCTACTGCGGTATTATTGTCGACGGGATGCACGTCGATTACGCCAACGTGCGCAACGCCAAGCGCCTGAAAGGCGACAAACTGTGCCTGGTCACCGACGCCACCGCGCCGGCGGGGGCGAATATTGACCAGTTCATTTTTGCCGGGAAAACAATATACTACCGCAACGGGCTGTGCGTAGATGAAAACGGCACCCTCAGCGGATCTTCCCTGACCATGATTGAAGGGGTGCGTAATCTGGTTGAGCATTGCGGTGTGGCGCTGGACGAAGTATTGCGGATGGCGACGCTCTATCCCGCGCGCGCCATTGGTGTGGACAAGCAGCTCGGCAGCATTGCGCCGGGTATGGTCGCTAACCTGACCGCCTTTACACGCGATTATAAAATCACCAAGACCATCGTTAATGGTAACGAGGTCGTCACTGAGTAA	MYALTQGRVYTGHEILDDHAVVIANGLIERLCPLADLPSDIEQRSVNGAILAPGFIDVQLNGCGGVQFNDSPDAVTVETLEIMQKANERSGCTSFLPTLITSSDDLMKQGVRVMREYLQKHPNQALGLHLEGPWLNIVKKGTHNPDYVRKPDAALVDFLCDNADVITKVTLAPERVEPEVIRKLVAAGIVVSAGHSNATLKEAKVGFRAGITFATHLYNAMPYITGREPGLAGAIFDEPDVYCGIIVDGMHVDYANVRNAKRLKGDKLCLVTDATAPAGANIDQFIFAGKTIYYRNGLCVDENGTLSGSSLTMIEGVRNLVEHCGVALDEVLRMATLYPARAIGVDKQLGSIAPGMVANLTAFTRDYKITKTIVNGNEVVTE	PGPT0018860_2310	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
BMS020_04285	1221	nagC_1	COG1940	N-acetylglucosamine repressor	ATGACAGCAGGCGGACAAGCTCAAATTGGTAACGTTGACCTCGTAAAACAACTGAACAGCGCGGCCGTGTACCGCCTGATTGACCAGCATGGGCCTATCTCGCGCATTCAGATCGCGGAACAAAGCCAGCTTGCCCCTGCCAGCGTGACCAAAATCACGCGTCAGCTTATTGAGCGCGGCCTGATCAAAGAAGTCGATCAGCAGGCCTCCACCGGGGGGCGCCGCGCCATCTCCATCATTGCGGAGACGCGTAACTTCAACGCCATTGGCGTGCGCCTTGGCCGCTATGACGCCACCCTGACCCTCTATGATTTAAGCAGCAAGACCCTGGAGGAGGAGCATTTCCCGCTGCCCGAGCGCACCCAGGAAACGCTGGAACACGCCCTGCTGAATATCATCGCCACTTTTATCGAAAACTGTCAGCGCAAAATCCGCGAGCTGATCGCCATCTCGGTGATCCTGCCGGGGCTGGTGGATCCGGAAAGCGGCGTGATCCGCTATATGCCGCACATTGCGGTGGAAAACTGGGGCCTGGTCGGGGCGCTGGAAAAACGCTTCAACGTTACCTGCTTTGTCGGGCACGATATCCGCAGTCTGGCGCTGGCCGAGCACTATTTTGGCGCAAGCCAGGACTGCGAAGACTCCATTCTGGTGCGCGTGCACCGCGGCACCGGGGCGGGGATCATCTCCAACGGACGCATTTTTATTGGCCGTAACGGCAACGTGGGCGAAATTGGCCATATTCAGGTCGATCCGCTGGGCGAACGCTGCCACTGCGGCAACTTCGGCTGCCTGGAGACCGTCGCGGCGAACGCCGCCATCGAACATCGCGTTCGCCATCTGCTGGACCAGGGCTACCAGAGCCGCCTGACCCTCGATGACTGCACGATCAAAACCATCTGCAAAGCGGCCAACAAGGGCGATGCCCTGGCCTGCGAGGTGATCGAGTACGTAGGGCGTCACCTCGGAAAAACGATCGCCATCGCCATCAACCTGTTCAATCCGCAAAAAATCGTCGTCGCCGGCGAAATTGTGGAAGCCGAGAAAGTGCTGCTCCCGGCCATTGAGGGCTGCATTAACGCCCAGGCGCTGAAGGCGTTTCGTAAGAACCTGCCGGTGGTGCGCTCCACCCTCGATCATCGCTCAGCGATTGGCGCCTTCGCGCTGGTCAAACGCGCCATGCTCAATGGCACGCTGCTGCAGCGCTTGCTTGAGAGCTAA	MTAGGQAQIGNVDLVKQLNSAAVYRLIDQHGPISRIQIAEQSQLAPASVTKITRQLIERGLIKEVDQQASTGGRRAISIIAETRNFNAIGVRLGRYDATLTLYDLSSKTLEEEHFPLPERTQETLEHALLNIIATFIENCQRKIRELIAISVILPGLVDPESGVIRYMPHIAVENWGLVGALEKRFNVTCFVGHDIRSLALAEHYFGASQDCEDSILVRVHRGTGAGIISNGRIFIGRNGNVGEIGHIQVDPLGERCHCGNFGCLETVAANAAIEHRVRHLLDQGYQSRLTLDDCTIKTICKAANKGDALACEVIEYVGRHLGKTIAIAINLFNPQKIVVAGEIVEAEKVLLPAIEGCINAQALKAFRKNLPVVRSTLDHRSAIGAFALVKRAMLNGTLLQRLLES	PGPT0018870_208	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
BMS020_04286	753	nagD	COG0647	Ribonucleotide monophosphatase NagD	ATGACCATTCAAAACATAATTTGTGATATTGACGGCGTGCTGATGCACGATAACGTCGCCGTTCCCGGCGCTGCCGAGTTTATCAAGCGCATCCTCGATAAAGGCATGCCGCTGGTGATGCTGACCAACTACCCGTCGCAAACCGGCCAGGATCTGGCGAACCGTTTCGCCACCGCCGGGATTGAGGTGCCGGATAGCGCCTTTTACACCTCGGCGATGGCGACGGCCGATTTTCTGCGCCGCCAGGAAGGCAAGAAAGCCTATGTGGTGGGTGAAGGGGCGCTGATCCACGAGCTGTATAAAGCCGGCTTTACCATTACCGATGTCAACCCGGATTTTGTCATCGTCGGGGAAACCCGCTCCTTTAACTGGGAGATGATGCATAAGGCGGCCTTCTTTGTCGCCAATGGCGCCCGCTTCATTGCCACCAACCCGGATACTCACGGTCGCGGCTTCTACCCGGCCTGCGGCGCCCTGTGCGCCGGGATCGAGAAGATCTCCGGCCGTAAGCCGTTTTACGTCGGTAAACCCAGCCCGTGGATCATCCGCTCAGCGCTGAACAAAATGCAGGCCCACTCCGAACAGACGGTGATCGTCGGCGACAATCTGCGCACCGACATTCTGGCCGGCTTCCAGGCGGGGCTGGAGACCATTCTGGTGCTCTCCGGCGTCTCGACCCTCGACGACATCGACAGCATGCCGTTCCGCCCGTCGTGGATCTACCCTTCCGTCGCGGAAATCGATATTTTCTAA	MTIQNIICDIDGVLMHDNVAVPGAAEFIKRILDKGMPLVMLTNYPSQTGQDLANRFATAGIEVPDSAFYTSAMATADFLRRQEGKKAYVVGEGALIHELYKAGFTITDVNPDFVIVGETRSFNWEMMHKAAFFVANGARFIATNPDTHGRGFYPACGALCAGIEKISGRKPFYVGKPSPWIIRSALNKMQAHSEQTVIVGDNLRTDILAGFQAGLETILVLSGVSTLDDIDSMPFRPSWIYPSVAEIDIF	PGPT0021435_823	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021435-nagD-K02566	NA	NA
BMS020_04287	1665	asnB_1	COG0367	Asparagine synthetase B [glutamine-hydrolyzing]	ATGTGTTCTATTTTTGGCGTACTGGATATTAAAACTGACGCAGGCGAGCTGCGTAAAAAGGCGCTGGAGCTTTCCCGCCTGATGCGCCATCGCGGTCCGGACTGGTCTGGCGTGTATGCCAGCGACAAAGCGATTCTGGCGCACGAGCGCCTGTCGATTGTCGACGTCAACGCCGGCGCCCAGCCGCTGTACAACGCCGAAAAAACCCATGCGCTGGCCGTTAACGGCGAAATCTACAACCATCAGGCGCTGCGCGCGGAATATGGCGATCGCTATCAGTTCCAGACCGGCTCCGACTGCGAAGTGATCCTCGCGCTGTATCAGGAAAAAGGCCCGGCGTTCCTCGACGACCTGCAGGGGATGTTCGCCTTCGCCCTGTACGACAGCGAAAAAGACGCGTACTTAATTGGTCGCGACCATATCGGTATTATTCCGCTGTATATGGGCCATGACGAACACGGCAACTTCTACGTCGCCTCAGAAATGAAAGCCCTGGTGCCGGTGTGCCGCACCATTAAAGAGTTCCCGGCGGGCAGCTACCTGTGGAGCAAAGACGGTGAAATTCGCCAGTACTATCAGCGCGACTGGTTCGATTACGACGCGGTAAAAGACAACATTACCGATAAGAACGAGCTGCGCCAGGCGCTGGAAGAGTCGGTGAAAAGCCACCTGATGTCCGACGTGCCCTACGGCGTGCTGCTCTCCGGCGGCCTTGATTCTTCGGTCATCTCCGCCATCACCAAGAAATTCGCCGCCCGTCGCGTCGAAGATCAGGAGCGTAGCGAAGCCTGGTGGCCGCAGCTGCACTCCTTCGCGGTCGGTCTGGAAGGCTCTCCCGACCTGAAAGCGGCGCAGGAAGTGGCTAACCACCTCGGCACCGTGCACCATGAAATTCACTTTACCGTTCAGGAAGGGCTGGATGCGATCCGCGACGTTATCTATCACATCGAAACCTACGATGTGACCACCATTCGCGCTTCGACGCCGATGTACCTGATGTCGCGTAAAATAAAAGCCATGGGCATCAAAATGGTGCTTTCCGGCGAAGGCTCGGACGAAGTATTCGGCGGCTACCTCTACTTCCATAAGGCGCCGAACGCTAAAGAACTGCACGAAGAGACGGTGCGTAAGCTGCAGGCGCTGCATATGTTTGACTGCGCTCGCGCCAACAAAGCGATGTCCGCCTGGGGCGTGGAAGCCCGCGTGCCGTTCCTCGATAAGAAGTTCCTCGACGTGGCGATGCGCATCAACCCGCAGGATAAGATGTGCGGCAACGGCAAAATGGAAAAACATATCCTGCGCGAATGCTTTGAATCCTATCTGCCGGCCAGCGTGGCGTGGCGTCAGAAGGAGCAATTCTCTGACGGCGTCGGCTACAGCTGGATCGATACGCTGAAAGAAGTGGCCGCGAAACAGATCAGCGACCAGCAGCTGGAAACCGCAAGCTTCCGCTTCCCGTACAACACGCCGACCTCCAAAGAAGGCTATCTGTACCGCGAGATCTTCGAAGAGCTGTTCCCGCTGCCAAGCGCGGCGGAGTGTGTCCCTGGCGGTCCGTCGGTGGCCTGCTCTTCTGCCAAAGCCATTGAATGGGATGAAGCGTTCAAAACCATGAACGATCCGTCAGGCCGCGCGGTGGGCGTCCACCAGTCGGCCTATAAATAA	MCSIFGVLDIKTDAGELRKKALELSRLMRHRGPDWSGVYASDKAILAHERLSIVDVNAGAQPLYNAEKTHALAVNGEIYNHQALRAEYGDRYQFQTGSDCEVILALYQEKGPAFLDDLQGMFAFALYDSEKDAYLIGRDHIGIIPLYMGHDEHGNFYVASEMKALVPVCRTIKEFPAGSYLWSKDGEIRQYYQRDWFDYDAVKDNITDKNELRQALEESVKSHLMSDVPYGVLLSGGLDSSVISAITKKFAARRVEDQERSEAWWPQLHSFAVGLEGSPDLKAAQEVANHLGTVHHEIHFTVQEGLDAIRDVIYHIETYDVTTIRASTPMYLMSRKIKAMGIKMVLSGEGSDEVFGGYLYFHKAPNAKELHEETVRKLQALHMFDCARANKAMSAWGVEARVPFLDKKFLDVAMRINPQDKMCGNGKMEKHILRECFESYLPASVAWRQKEQFSDGVGYSWIDTLKEVAAKQISDQQLETASFRFPYNTPTSKEGYLYREIFEELFPLPSAAECVPGGPSVACSSAKAIEWDEAFKTMNDPSGRAVGVHQSAYK	PGPT0020150_5810	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953	NA	NA
BMS020_04295	1176	ubiF	COG0654	3-demethoxyubiquinol 3-hydroxylase	ATGACAATTCACGCAACAGATGTCGCCATCGTGGGCGGCGGCATGGTCGGCGGCGCCCTGGCGTTGGGGCTGGCGCAACAGGGATTTACCGTGACGGTGCTTGAGAAAACGGCGCCTCCGGCTTTCGATCCGGCATCCGCTCCGGATGTGCGGATCTCGGCGATCAGCGCGGCCTCGGTCGGCCTGCTGAAAAGCCTTGGCGTCTGGGATGCCGTGCGGGCGATGCGCGTCCACGCTTACCGTCGTCTGGAGACCTGGGAGTGGGAGAGCGCCCACGTCGCCTTTGACGCCGCCGAGCTTAAGCTGCCGGAGCTGGGCTATATGGTCGAGAACAAGGTCCTGCAGTGGGGCCTGTGGCAAGCGCTGGCGGCGCACGAAGGGGTTACCCTGCGCGTTGGCGGCGAACTGGAGGCGATGCAGCGCGGCGAGGCGGAGACGGCGTTGCGTTTACGCGACGGGGAGACGATCCACGCCCGGCTGGTTATCGGCGCCGACGGCGCCAGCTCTCAGGTGCGGGAGATGGCCGGCATCGGCGTGCATGCCTGGCAATATCAGCAATCCTGTATGCTCATTAGCGTCCAATGCGCCGACGATCCCGGCGACAGCACCTGGCAGCAGTTTACCCCCAGCGGACCGCGCGCTTTCCTGCCGCTGTTCGACAACTGGGCCTCACTGGTGTGGTATGACGCCCCGGCGCGGATCCGTCAGCTGCAGGGCATGTCCATGCCCCAGCTCCAGCAGGAGATCGCCCGCCATTTCCCGGCGCGTCTCGGGCGGGTGACGCCGCAGGCGGCCGGCGCCTTCCCGCTCACCCGGCGTCATGCGCTGCAGTATGTTCAGCCTGGTCTGGCGCTGGTGGGCGATGCGGCGCACACCATTCATCCGCTGGCGGGGCAGGGGGTTAACCTTGGCTATCGTGATGTCGACGCCCTGCTGGAGGTCCTGGCGCAAGCGCGCGGCCGCGGCGAAGAGTGGGCCAGCCTGCCGGTGCTCAAGCGCTACCAGGGGCGGCGGCGGGCGGATAATTTTATTATGCAGTCGGGGATGGATCTGTTTTACGCCGGATTCAGCAATGACCTGGCGCCGGTGCGGATGCTGCGCAATATTGGCCTGATGGCGGCCGAACGCGCCGGGGTGCTGAAGCGTCAGGCGCTGAAGTATGCGTTAGGCTTGTAA	MTIHATDVAIVGGGMVGGALALGLAQQGFTVTVLEKTAPPAFDPASAPDVRISAISAASVGLLKSLGVWDAVRAMRVHAYRRLETWEWESAHVAFDAAELKLPELGYMVENKVLQWGLWQALAAHEGVTLRVGGELEAMQRGEAETALRLRDGETIHARLVIGADGASSQVREMAGIGVHAWQYQQSCMLISVQCADDPGDSTWQQFTPSGPRAFLPLFDNWASLVWYDAPARIRQLQGMSMPQLQQEIARHFPARLGRVTPQAAGAFPLTRRHALQYVQPGLALVGDAAHTIHPLAGQGVNLGYRDVDALLEVLAQARGRGEEWASLPVLKRYQGRRRADNFIMQSGMDLFYAGFSNDLAPVRMLRNIGLMAAERAGVLKRQALKYALGL	PGPT0009540_484	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009540-ubiF-K03184	NA	NA
BMS020_04296	1425	miaB_1	COG0621	tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase	ATGACAAAAAAACTCCATATTAAAACCTGGGGCTGTCAGATGAACGAGTATGATTCATCAAAGATGGCCGATCTGCTGGATGCGACACATGGGTATCAACTGACCGAAGTGGCGGAAGAAGCAGATGTGCTGTTGCTCAATACCTGCTCAATTCGTGAGAAGGCCCAGGAAAAAGTTTTCCATCAGCTTGGCCGCTGGAAGCTGCTGAAAGAGAAGAACCCGGACCTGATTATTGGCGTTGGCGGCTGCGTGGCTTCCCAGGAAGGCGACCATATTCGTCAGCGCGCGCACTATGTCGATATTATTTTCGGGCCGCAAACCCTGCACCGCCTGCCGGAGATGATTAACTCCGTGCGCGGCAACCGCAGCCCGGTGGTTGATATCAGCTTCCCGGAAATTGAAAAATTCGATCGCCTGCCAGAACCGCGCGCCGAAGGCCCGACCGCCTTTGTCTCGATTATGGAAGGCTGCAACAAATACTGCACCTACTGCGTGGTGCCCTACACCCGCGGAGAAGAAGTCAGCCGCCCGTGCGACGATATCCTGTTTGAAATCGCCCAACTGGCGGCGCAGGGCGTGCGTGAAGTCAACCTGCTGGGCCAGAATGTGAACGCCTGGCGCGGCGAGAACTACGACGGTACTACCGGCAGCTTTGCCGATCTGCTGCGCCTGGTGGCCGCTATCGACGGCATCGACCGCATTCGCTTCACCACCAGCCACCCGATCGAATTTACCGACGATATCATCGATGTCTATCGCGATACGCCGGAGCTGGTGAGCTTCCTGCACCTGCCGGTGCAAAGCGGCTCCGACCGCGTGCTGAACCTGATGGGACGCACCCATACCGCGCTGGAGTATAAAGCGATTATTCGCAAGCTGCGTGAAGCGCGTCCGGATATTCAGATAAGCTCCGACTTTATCGTCGGCTTCCCCGGCGAAACTACGGAAGATTTCGAAAAGACAATGAAGCTTATCGCCGACGTCAATTTCGATATGAGCTACAGCTTTATCTTCTCCGCCCGTCCGGGCACCCCGGCGGCCGATATGGTAGACGACGTGCCGGATGCTGATAAGAAACAGCGTCTGTATATTCTGCAGGAGCGCATCAACCAGCAGGCGATGGCCTGGAGCCGTCGCATGCTCGGCACGGTACAGCGCATCCTGGTGGAAGGCACGTCGCGCAAGAACATCATGGAGCTTTCCGGACGTACGGAGAACAACCGGGTGGTCAACTTTGAAGGCACCCCGGACCTCGTCGGCAAGTTTGTGGATGTCGAAATTGTCGATGTTTACACCAACTCGCTGCGCGGCAAAATCGTGCGCACCGAAGCGGAGATGGGTCTGCGTATCGCTGAATCACCTGAATCAGTGATTGCCCGCACCCGTAAAGAGAACGATCTTGGCGTGGGTATCTATCAGCCGTGA	MTKKLHIKTWGCQMNEYDSSKMADLLDATHGYQLTEVAEEADVLLLNTCSIREKAQEKVFHQLGRWKLLKEKNPDLIIGVGGCVASQEGDHIRQRAHYVDIIFGPQTLHRLPEMINSVRGNRSPVVDISFPEIEKFDRLPEPRAEGPTAFVSIMEGCNKYCTYCVVPYTRGEEVSRPCDDILFEIAQLAAQGVREVNLLGQNVNAWRGENYDGTTGSFADLLRLVAAIDGIDRIRFTTSHPIEFTDDIIDVYRDTPELVSFLHLPVQSGSDRVLNLMGRTHTALEYKAIIRKLREARPDIQISSDFIVGFPGETTEDFEKTMKLIADVNFDMSYSFIFSARPGTPAADMVDDVPDADKKQRLYILQERINQQAMAWSRRMLGTVQRILVEGTSRKNIMELSGRTENNRVVNFEGTPDLVGKFVDVEIVDVYTNSLRGKIVRTEAEMGLRIAESPESVIARTRKENDLGVGIYQP	PGPT0007215_1791	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007215-miaB-K06168	NA	NA
BMS020_04297	1047	ybeZ_1	COG1702	PhoH-like protein	TTGAACATAGACACTCGTGAAATTACCCTGGAGCCAGCGGATAACGCACGCCTGTTAGCCCTGTGCGGCCCGTTTGACGACAACATCAAACAGCTGGAGCGTCGGTTAGGCATTGAGATCAACCGCCGTGACAATCACTTTAAACTGACCGGACGCGCCCTATGCGTGCACGCCGCCGCCGATATTCTGCGCAGCCTGTATGTCGACACGGCGCCGATGCGCGGTCAGATTCAGGATATTGAACCAGAGCAGATCCATCTGGCGATCAAAGAGGCGCGCGTGCTGGAGCAGAGCGCCGAGAGCGTGCCGGAGTACGGAAAAGCCGTCAATATCAAGACCAAGCGCGGGGTGATCAAACCGCGTACGCCGAACCAGGCGCAGTACATCGCCAATATCCTCGATCACGACATCACCTTCGGCGTGGGTCCGGCAGGTACCGGGAAAACCTATCTGGCGGTGGCGGCGGCGGTCGATGCGCTGGAGCGCCAGGAGATCCGCCGCATTCTGCTGACCCGTCCGGCCGTCGAGGCGGGCGAAAAGCTCGGCTTCCTGCCCGGCGATCTGAGCCAGAAGGTCGACCCGTATCTGCGCCCGCTGTACGACGCGCTGTTCGAGATGCTCGGCTTTGAGAAGGTGGAAAAGCTGATTGAGCGTAACGTCATCGAAGTGGCTCCGCTGGCCTATATGCGCGGACGGACGCTGAATGACGCCTTTATCATTCTTGATGAAAGCCAGAACACCACCATCGAGCAGATGAAGATGTTCCTGACCCGCATCGGCTTTAACTCCAAGGCGGTGATCACCGGCGACATCACGCAGATTGACCTGCCGCGCAGCACCAAATCCGGTCTGCGCCACGCCATCGAAGTGCTGGCGGAAGTCGATGAGATCAGCTTTAACTTCTTCCATAGCGAAGACGTGGTCCGCCATCCGGTGGTCGCCCGCATCGTGAACGCCTATGAGGCATGGGAAGCCGCAGACCAGAAACGTAAAGCAGAACTGGCCGCCGAGCGCAAACGCGAAGCCCAGGAACAGGAGCAAAAATGA	MNIDTREITLEPADNARLLALCGPFDDNIKQLERRLGIEINRRDNHFKLTGRALCVHAAADILRSLYVDTAPMRGQIQDIEPEQIHLAIKEARVLEQSAESVPEYGKAVNIKTKRGVIKPRTPNQAQYIANILDHDITFGVGPAGTGKTYLAVAAAVDALERQEIRRILLTRPAVEAGEKLGFLPGDLSQKVDPYLRPLYDALFEMLGFEKVEKLIERNVIEVAPLAYMRGRTLNDAFIILDESQNTTIEQMKMFLTRIGFNSKAVITGDITQIDLPRSTKSGLRHAIEVLAEVDEISFNFFHSEDVVRHPVVARIVNAYEAWEAADQKRKAELAAERKREAQEQEQK	PGPT0002700_1333	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002700-phoH-K06217	NA	NA
BMS020_04298	474	ybeY_1	COG0319	Endoribonuclease YbeY	ATGAGTCAGGTGATCCTCGATTTACAGCTGGCCTGCGAAGAGACCAGCGGCCTGCCGGACGAAGCCCTTTTTCAACGCTGGGTCGACGCCGTCATTCCGCCGTTTCAGGAGGAGTCAGAGTTAACGATTCGTCTGGTCGACGTTGCAGAAAGCCATGAGCTGAACCTGACCTATCGCGGCAAGGATAAACCGACCAATGTCCTCTCTTTCCCGTTTGAAGCGCCGCCGGGGATTGAAATGCCGCTGCTCGGCGATCTGATCATTTGCCGTCAGGTGGTGGAGCAGGAAGCCAACGAGCAAGGGAAGCCGCTGGAGGCGCACTGGGCGCATATGGTGGTTCACGGCAGCCTGCATCTGCTGGGCTACGATCACATCGAAGATGACGAAGCGGAAGAGATGGAAGCCCTCGAAACAGAGATAATGCTTGCTCTGGGCTATGAGGACCCGTACATTTCCGAGAAGATTGCTGAATAG	MSQVILDLQLACEETSGLPDEALFQRWVDAVIPPFQEESELTIRLVDVAESHELNLTYRGKDKPTNVLSFPFEAPPGIEMPLLGDLIICRQVVEQEANEQGKPLEAHWAHMVVHGSLHLLGYDHIEDDEAEEMEALETEIMLALGYEDPYISEKIAE				NA	NA	NA	NA	NA
BMS020_04299	879	corC_1	COG4535	Magnesium and cobalt efflux protein CorC	ATGAGCGACGACAATTCACACAGTAGTGACACAGTAAACAGCAAAAAGGGATTTTTCTCCCTGTTACTCAGCCAGCTCTTTCACGGGGAACCGAAAAACCGCGATGAACTGCTGGCGCTGATCCGTGATTCCGGGCAGAACGACCTTATCGATGAAGATACCCGTGACATGCTCGAAGGGGTAATGGATATCGCCGACCAGCGGGTCCGCGACATTATGATCCCCCGTTCACAAATGATTACCCTGAAACGCAATCAGACGCTGGACGAGTGCCTTGATGTCATCATCGAATCCGCCCACTCGCGCTTCCCGGTCATCAGTGAAGATAAAGATCACATCGAAGGGATTCTGATGGCCAAGGATCTGCTGCCGTTTATGCGCAGCGACGCCGAAGCTTTCAGCATGGAAAAAGTGTTACGGCCGGCGGTTGTCGTTCCGGAAAGCAAGCGGGTCGACCGCATGCTGAAAGAGTTTCGCTCACAGCGCTACCATATGGCGATCGTTATTGACGAATTCGGCGGCGTCTCCGGTCTGGTGACCATCGAGGATATCCTTGAGCTCATCGTCGGGGAAATTGAAGACGAGTACGACGAAGAAGAAGATATCGATTTCCGCCAGCTGAGCCGCCATACGTGGACGGTGCGCGCTCTGGCCTCTATCGAAGACTTCAATGACGCCTTCGATACGCACTTCAGCGATGAAGAAGTGGATACCATTGGCGGACTGGTAATGCAGGCCTTTGGCCACCTGCCGGCTCGCGGCGAATCTATCGACATTGATGGTTACCAATTCAAGGTAGCAATGGCAGATAGTCGTCGTATCATTCAGGTGCATGTTAAGCTGCCGGATGACGCTCCCCAGCCGAAGCTGGAAGAGTAA	MSDDNSHSSDTVNSKKGFFSLLLSQLFHGEPKNRDELLALIRDSGQNDLIDEDTRDMLEGVMDIADQRVRDIMIPRSQMITLKRNQTLDECLDVIIESAHSRFPVISEDKDHIEGILMAKDLLPFMRSDAEAFSMEKVLRPAVVVPESKRVDRMLKEFRSQRYHMAIVIDEFGGVSGLVTIEDILELIVGEIEDEYDEEEDIDFRQLSRHTWTVRALASIEDFNDAFDTHFSDEEVDTIGGLVMQAFGHLPARGESIDIDGYQFKVAMADSRRIIQVHVKLPDDAPQPKLEE	PGPT0004695_48	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0004695-corC-K06189	NA	NA
BMS020_04300	1467	lnt_1	COG0815	Apolipoprotein N-acyltransferase	ATGCTGGCTTTTTCACCTTATGACTTCTGGCCCGCGGCGATTATTTCGCTGGTCGGTCTGCAGGCGTTAACCCTCAACTGCCGCCCGCTGCAAAGCGCCGGCATCGGCTATTTCTGGGGGCTCGGCCTGTTCGGCACGGGTATCAACTGGGTCTATGTCAGCATCGCGCAGTTTGGCGGTATGCCGGGCCCGGTTAACGTCTTCCTCGTCGTGCTGCTGGCGGCCTATCTCTCGCTCTACACCGGCCTGTTTGCCGGCCTGCTCGCCCGTCTGTGGCCCAAAACGAGCTGGCTGCGGGTGGCGATCGCCGCTCCCGTCGTCTGGCAGATCACCGAGTTTCTGCGCGGCTGGGTGCTGACCGGTTTTCCGTGGCTGCAGTTCGGCTACAGCCAGATTGACGGCCCGCTGAAAGGCCTGGCGCCGGTAATGGGCGTCGAGGCGATCAACTTCCTGCTGATGATGGTAAGCGGCCTGCTGGCCCTGGCCCTCGTACAGCGCAACGGGAAGCCGCTGGTCATTGCCGCGCTGCTGTTCGCCCTGCCGTTCCCGCTGCGCTATATCCAGTGGTATCAGCTGCTGCCGGCGCGTGCGACGCAGGTCTCGCTGGTGCAAGGCGATATCCCGCAGGCCATGAAGTGGGACGAGAAGCAGCTGGTCAACACCCTGAAAACCTACCTGGCGCTGACCCAGCCGCATATCGGCCACTCGCAGCTGATTATCTGGCCCGAATCGGCGATCCCGGATCTCGAGATCAACCAGCAGCAGTTCCTCAGCATGATGGACGATCTGCTGCGCGCAAAAGACAGCTCACTGATCACCGGCATCGTCGACGCGCGTCTCAATAAGCAGAACCGCTACGACACCTACAACACCATCATTACCCTCGGCAAAGATAACCCGTACCGCTACGACTCGACCAACCGCTACAACAAGAACCATCTGGTGCCGTTCGGCGAGTTTGTACCGCTGGAGTCGATTCTGCGTCCGCTGGCGCCATTCTTCGACCTGCCGATGTCCTCCTTCAGCCGCGGTCCCTACGTGCAGCCGCAGCTGATGGCGCATAACCTCAAGCTGACCGCGGCCATCTGCTACGAGATCATCCTCGGGGAACAGGTGCGGGATAACTTCCGTCCGGACACCGACTTCCTGCTGACCATCTCCAACGACGCCTGGTTCGGCAAGTCCATCGGCCCGTGGCAACACTTCCAGATGGCGCGGATGCGCGCCCTGGAGCTGGCCCGCCCGCTGCTGCGCAGCACCAACAACGGCATTACCGCCGTCATCGGCCCGCGCGGCGAGATTCAGAAGATGATCCCGCAGTTTACCCGCGAGGTGTTGACCACCACCGTGACGCCCACCAGCGGCTTGACCCCTTACGCCCGCACTGGCAACTGGCCGCTGTGGGCGCTGACGGCGCTGCTCGGCTTCGGCGCGCTGCTGATGAGCCTGCGTCAGCGTCGCCGATAA	MLAFSPYDFWPAAIISLVGLQALTLNCRPLQSAGIGYFWGLGLFGTGINWVYVSIAQFGGMPGPVNVFLVVLLAAYLSLYTGLFAGLLARLWPKTSWLRVAIAAPVVWQITEFLRGWVLTGFPWLQFGYSQIDGPLKGLAPVMGVEAINFLLMMVSGLLALALVQRNGKPLVIAALLFALPFPLRYIQWYQLLPARATQVSLVQGDIPQAMKWDEKQLVNTLKTYLALTQPHIGHSQLIIWPESAIPDLEINQQQFLSMMDDLLRAKDSSLITGIVDARLNKQNRYDTYNTIITLGKDNPYRYDSTNRYNKNHLVPFGEFVPLESILRPLAPFFDLPMSSFSRGPYVQPQLMAHNLKLTAAICYEIILGEQVRDNFRPDTDFLLTISNDAWFGKSIGPWQHFQMARMRALELARPLLRSTNNGITAVIGPRGEIQKMIPQFTREVLTTTVTPTSGLTPYARTGNWPLWALTALLGFGALLMSLRQRRR	PGPT0024470_2510	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024470-lnt-K03820	NA	NA
BMS020_04301	912	gltI	COG0834	Glutamate/aspartate import solute-binding protein	ATGCAATTACGTAAACTGGCCACGGCAATGCTGGTAATGGGAATGACCGCTGGTCTGGCGCAGGCGGAAGATGCTGCCCCGGCGGCTGGCCAGAGCACTCTGGATAAAATCGCGAAAAACGGCGTTATCGTTGTCGGCCATCGCGAATCTTCCGTCCCTTTCTCTTACTACGATAACCAACAGAAGGTTGTGGGTTACTCTCAGGACTACTCCAACGCCATCGTCGATGCCATCAAGAAAAAACTGAACAAACCCGATCTGCAGGTCAAATTGATCCCGGTTACCTCGCAGAATCGTATCCCGCTGCTGCAGAATGGCACCTTTGATTTCGAGTGCGGCTCAACCACCAACAACCTCGAGCGCCAGAAACAGGCGGCCTTCTCCGATACTATCTTCGTCGTCGGCACTCGTCTGCTGGTGAAGAAAGGCGGCCCGATCAAAGATTTCCCGGACCTGAAGGATAAGGCGGTCGTTGTCACCTCGGGGACCACCTCAGAGATCCTGCTGCATAAGCTGAACGATGAGAAAAAAATGAATATGCGCATCATCAGCGCCAAAGATCATGGCGACTCTTTCCGCACCCTGGAGAGCGGACGCGCGGTGGCCTTTATGATGGATGACGCTCTGCTGGCCGGCGAACGCGCCAAGGCGAAGAAACCGGATAACTGGGAAATCGTCGGCACCGCGCAGTCGAAAGAAGCCTATGGCTGCATGCTGCGTAAGGACGATCCGGCCTTCAAGGCGCTGGTCGATGAAACTGTTGCCCAGGCCCAGACCTCTGGCGAAGCGGCGAAGTGGTTCGATAAATGGTTCAAAAACCCGATACCGCCAAAAAATCTTAACCTGAACTTCGAGCTGTCGGACGACATGAAAGCGCTGTTCAAATCACCTAATGACAAAGCACTGAACTAA	MQLRKLATAMLVMGMTAGLAQAEDAAPAAGQSTLDKIAKNGVIVVGHRESSVPFSYYDNQQKVVGYSQDYSNAIVDAIKKKLNKPDLQVKLIPVTSQNRIPLLQNGTFDFECGSTTNNLERQKQAAFSDTIFVVGTRLLVKKGGPIKDFPDLKDKAVVVTSGTTSEILLHKLNDEKKMNMRIISAKDHGDSFRTLESGRAVAFMMDDALLAGERAKAKKPDNWEIVGTAQSKEAYGCMLRKDDPAFKALVDETVAQAQTSGEAAKWFDKWFKNPIPPKNLNLNFELSDDMKALFKSPNDKALN	PGPT0000750_263	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000750-gltI|aatJ-K10001	NA	NA
BMS020_04303	741	gltJ_2	COG0765	Glutamate/aspartate import permease protein GltJ	ATGTCAATAGACTGGAACTGGGGGATATTCCTGCAACAGGCCCCCTTCGGCAACACTACCTACCTGGGCTGGCTGTGGAGCGGTTTTCAGATCACCGTCGCCCTCTCCATCTCGGCCTGGATCATCGCTTTTCTCGTCGGCTCGCTGTTCGGTATTTTACGCACGGTGCCCAATCGTCTGCTCTCAGGGATTGGCACCTGCTATGTCGAACTGTTTCGCAACGTGCCGCTGATCGTGCAGTTCTTTACCTGGTACCTGGTGGTGCCGGAATTCCTGCCGGAAAATATCGGCATGTGGTTTAAGTCGGAGCTGGACCCAAACATTCAGTTCTTTGTCTCCTCCATGCTGTGCCTGGGGCTGTTTACCGCCGCTCGCGTCTGCGAGCAGGTACGCGCCGCTATCCAGTCGCTGCCGCGCGGGCAAAAGAACGCCGGTCTGGCGATGGGGTTGACCCTGCCGCAAACCTATCGCTACGTGCTGCTGCCGAACGCCTATCGCGTTATCGTGCCGCCGATGACCTCGGAGATGATGAACCTGGTGAAAAACTCGGCCATCGCCTCCACCATCGGTCTGGCCGATATGGCCGCGCAGGCGGGCAAACTGCTGGACTACTCCGCTCATGCCTGGGAGTCTTTTACCGCCATCACCCTGGCCTATGTTTTCATTAACGCGGTGATTATGCTGATTATGTATGTGGTCGAGCGTAAGGTTCGCCTGCCTGGCAATATGGGAGGCAAATAA	MSIDWNWGIFLQQAPFGNTTYLGWLWSGFQITVALSISAWIIAFLVGSLFGILRTVPNRLLSGIGTCYVELFRNVPLIVQFFTWYLVVPEFLPENIGMWFKSELDPNIQFFVSSMLCLGLFTAARVCEQVRAAIQSLPRGQKNAGLAMGLTLPQTYRYVLLPNAYRVIVPPMTSEMMNLVKNSAIASTIGLADMAAQAGKLLDYSAHAWESFTAITLAYVFINAVIMLIMYVVERKVRLPGNMGGK	PGPT0000760_449	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000760-gltJ|aatQ-K10003	NA	NA
BMS020_04304	675	gltK	COG0765	Glutamate/aspartate import permease protein GltK	ATGTACGATTTTGACTGGAGTTCGATCGTTCCCTCCATGCCCTACCTGCTGGCGGGGCTGGTGATCACCCTGAAGATCACAGTGATCGCCATCGTGGTCGGTATCGTCTGGGGCACCCTGCTGGCAGTAATGCGCCTGTCCAGCTTTCTGCCGCTGGCCTGGTTTGCTAAATCCTACGTTAACGTGTTCCGTTCCATCCCGCTGGTGATGGTTCTGCTGTGGTTCTACCTGATTGTCCCGGGCTTCCTGCAGAACGTGTTGGGACTGTCGCCGAAAACGGATATTCGCCTGATTTCGGCGATGGTGGCGTTTTCGATGTTCGAAGCCGCCTACTACTCGGAGATTATCCGCGCCGGCATCCAGAGCATCTCCCGCGGCCAGTCGAGCGCCGCGCTGGCGCTGGGAATGACCCACTGGCAGTCGATGCGGCTGGTGATCCTGCCGCAGGCCTTCCGCGCCATGGTGCCGCTGCTGTTAACCCAGGGGATCGTCCTCTTCCAGGATACCTCGCTGGTGTATGTATTGAGCCTCGCCGACTTCTTCCGTACCGCCTCGACGATTGGCGAGCGTGACGGGACCCAGGTTGAAATGATCCTGTTCGCGGGCGGCGTCTATTTTGTGATTAGCCTCAGCGCCTCGCTGTTGGTCAGCTGGTTGAAGAAAAGGACTGTGTAA	MYDFDWSSIVPSMPYLLAGLVITLKITVIAIVVGIVWGTLLAVMRLSSFLPLAWFAKSYVNVFRSIPLVMVLLWFYLIVPGFLQNVLGLSPKTDIRLISAMVAFSMFEAAYYSEIIRAGIQSISRGQSSAALALGMTHWQSMRLVILPQAFRAMVPLLLTQGIVLFQDTSLVYVLSLADFFRTASTIGERDGTQVEMILFAGGVYFVISLSASLLVSWLKKRTV	PGPT0000755_464	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000755-gltK|aatM-K10002	NA	NA
BMS020_04305	726	glnQ_7	COG1126	Glutamine transport ATP-binding protein GlnQ	ATGATTACCCTGAAAAATGTTTCAAAATGGTATGGTCACTTTCAGGTGCTGACCGATTGCTCCACGGAAGTGAAAAAAGGCGAAGTCGTGGTGGTCTGCGGGCCGTCAGGCTCCGGTAAATCCACACTGATTAAAACCGTGAACGGCCTTGAGCCGGTGCAGCAGGGGCAGATTATCGTCGATGGCACCGTGGTTAACGATAAAAAGACCAATCTTGCCAAACTGCGCTCGCACGTCGGAATGGTGTTTCAGCATTTTGAACTGTTCCCGCACCTGTCGATTATCGACAACCTGACGCTGGCGCAGGTTAAGGTGCTCAATCGTGACAAAGCGTCATCGCGCAAGAAGGGTCTCAAGCTGCTGGAGCGCGTGGGCCTGGCGGCGCATGCGGAAAAATACCCGGCGCAGCTCTCCGGCGGCCAGCAGCAGCGCGTGGCCATCGCCCGTGCGCTGTGCATGGACCCGATCGCCATGCTGTTTGATGAACCTACCTCCGCGCTCGACCCGGAGATGATCAACGAGGTACTGGACGTCATGGTGGAACTGGCCAACGAAGGGATGACCATGATGGTGGTTACCCACGAAATGGGCTTCGCCCGCAAGGTGGCCAACCGAGTGATCTTTATGGATGAAGGAAAGATTGTCGAAGACGCCGATAAAGAAGCGTTCTTCGCTAACCCACAATCCGATCGCGCCAAAGACTTCCTCGCCAAAATTCTGCACTAA	MITLKNVSKWYGHFQVLTDCSTEVKKGEVVVVCGPSGSGKSTLIKTVNGLEPVQQGQIIVDGTVVNDKKTNLAKLRSHVGMVFQHFELFPHLSIIDNLTLAQVKVLNRDKASSRKKGLKLLERVGLAAHAEKYPAQLSGGQQQRVAIARALCMDPIAMLFDEPTSALDPEMINEVLDVMVELANEGMTMMVVTHEMGFARKVANRVIFMDEGKIVEDADKEAFFANPQSDRAKDFLAKILH	PGPT0000765_599	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000765-gltL|aatP-K10004	NA	NA
BMS020_04306	1671	shlB_2		Hemolysin transporter protein ShlB	ATGCGGACTAACACTAACAGACTGGCCATTATTTTGTGTTTAAATTTGCTCACCTGCTTTACCGCCTGGGCGGGTATTGAGGCCGCAACGGTAAACCAGGTTGAACAGGATAAAGCCCGTGAAAGCGCATTAATGCCCCATCAGCAGCAATACCAATCTTCTCGTACCCATACGAAAAAGCAAACCTTGATATTTCCCGAAGAAGCGACCTGTCGGTATATCACGAAAGTTGATATTACCTCCGAGGACAACGCAAAAACCACCGCCCTCCTCGGGAAGATCGCAGCCCAGGCGCCCGGCCATTGCCTCGGAATAGAAGGGATTCGCCTGCTGACGAACGCCTTACAAAATGAACTGATAACGCAAGGGTATATTACTTCCCTGATCGATATCCCTTCTCAGTCACTAGAAGGGGGCATTCTCAAAATAACGCTGACTTATGGCAAAACGGGGCATATTGATTTTGCGCCGAATAGTGCCGTGACGAACCTGTGGACCTCCATGCCCACCCATACCGGTAAAATCCTGCGCCTCAGCGATCTTGAACAAGGGATGGCTAACCTGCAGCGGCTGCCTGGCGCCAGCGCCCATATGAAGCTGCGGCCCGGGGAACACATTGGCGAAAGTGATATTGAAATCGCCCGGGTAATGGATAAACCGTGGCAGGTTGGCGCCTGGCTTGATGACGCAGGCAGCCGCGCCAGCGGTCGCTATCAGGGCGGCGGCGCGCTATACCTTTACGATTTATCTTCATTGAACGATATTCTTTCCATTTCGGCAGGCGGCGACGTTGAATTCAACCAGCACAACGACGGCAACCATAACGGCAACCTTTACTACTCCGTGCCTTTTGGTTACTGGTCATTGAGCCTGTACGGCTCCTACAGCCAGTACCGCCAGCTGTTTAAAGGAAGATGGTCAAACATCGACTATAAAAGTAAAAACCGTTATTACAGCGCGACCCTTAGCCGCCTGCTTTCGCATACCCGACAACAAAAAACGACCGCCGATCTGCGCATAGCAAAGAGCAGTTCGCACTACTTTTTTGGCGGCGATGAGCTGCATGTAATGCGTAAACAAAATCCTGTCTGGGAATTTACCCTGCGCCACCAGCGCTATTTTAACAATAAAATTGTCGACGCCAGCGTAGGTATTCAGCGCAGCCTGCCGTGGCTCAGCTCCGTGCCTACGCCGGAGGAAAAAGCCGGTTTATATAGCCGCCATTCGCGCATCGTTCACGCCGATATACAGGCCTTAATGCAGTTTGCCGCAACCGGCGATAAGTTTAGCTGGATGCCGCGTTTCCATGCCCAGTTCAGCCCGGATAGATTATCTTCGGACAACCAGTTTAATATCGGCAATCGCTGGACGGTTCGCGGCTTTGACGGCGAAAATACGCTTTCGGCCAATCAAGGCTGGTACTGGCGCAATGATTTTAGCTGGAATATTCCCACCCCCGACCGGCAGGTATATCTTGGTCTTGACTTCGGCCGGATCATTGGTAGCGAGCGCACCAGGCAAGGAAAAAGTCTTTCTGGCGCAGTCGGCGGCGTCCGCGGAGAAATAGCGTCTACGCAATATGACTTTTTTATCGGCACGCCCATCAGTAAACCTGACGACTTTCATAGCGATGCCATGAATATGGGCTTTTCATTACAGTGGAGGTATTAG	MRTNTNRLAIILCLNLLTCFTAWAGIEAATVNQVEQDKARESALMPHQQQYQSSRTHTKKQTLIFPEEATCRYITKVDITSEDNAKTTALLGKIAAQAPGHCLGIEGIRLLTNALQNELITQGYITSLIDIPSQSLEGGILKITLTYGKTGHIDFAPNSAVTNLWTSMPTHTGKILRLSDLEQGMANLQRLPGASAHMKLRPGEHIGESDIEIARVMDKPWQVGAWLDDAGSRASGRYQGGGALYLYDLSSLNDILSISAGGDVEFNQHNDGNHNGNLYYSVPFGYWSLSLYGSYSQYRQLFKGRWSNIDYKSKNRYYSATLSRLLSHTRQQKTTADLRIAKSSSHYFFGGDELHVMRKQNPVWEFTLRHQRYFNNKIVDASVGIQRSLPWLSSVPTPEEKAGLYSRHSRIVHADIQALMQFAATGDKFSWMPRFHAQFSPDRLSSDNQFNIGNRWTVRGFDGENTLSANQGWYWRNDFSWNIPTPDRQVYLGLDFGRIIGSERTRQGKSLSGAVGGVRGEIASTQYDFFIGTPISKPDDFHSDAMNMGFSLQWRY				NA	NA	NA	NA	NA
BMS020_04307	1779	cdiA	COG3210	16S rRNA endonuclease CdiA	ATGTTTAAATTCAAGGTTTCATATGTTGCGCTGGCTGCAGCGCTAAGTTCATCCGTTGTTTATGCCGATCCGTCAAGCTATACGCATAGATCAGGGGCAAATGTTATTGATATCGAAGCGCCTAATGCCGCTGGCGTCTCGCATAACTTATATCGCGAATTCAACGTCGGCCCTAACGGCACTATTTTAAACAACAGCGCCAGCGACGTGAACCACAGCACTCACGGTAATATCGCTAAGAATAATAATCTGACCAACGGCAGCGCTTCCGTTATTTTAAATGAAGTCACCTCCAATAAAATGAGTAATCTGCAGGGCTTTATCGAAGTTAACGGACAAAAAGCCGATGTCGTTATCGCCAACCCTAACGGCATCACCTGCTCCGGGTGCAGTTTTATCAACACCAACAATGCAATACTTACCACAGGCCAGGTCAACCTGAGTGATACCGGCGCAATTGAGAGCTATACGGTCACGCAAGGGAAAATCACCATCGGTGATAAAGGTATGAACGCATCCACTAACTATGCCGCCCTGCTTGCGGATGCCATTGCGATTAACGGCAGCGTAACTGCCGCCAATGCTACATTAGGTGCGGGTAACTTCACGTTTGACAATAAGACCGGGAAAATAGCTACCCTTGGGAAAACAGCAACGGTTATGCAGATGATCTTTCCAGAATACAGCATTGATATCAGCAACCTGGGCGGTATCAAGGCCAATAGTATTAGCATGGTGGGTAATACCTTAGGTCTTGGAGTGCGTAATAAAGGCACTATTACCTCAAATGCCGCGCTCGCCATGACCAGCTATGGTTCTCTGGTTAATGAAGGGACCATTAACGGGAACGGTCTTATGACAAACATGGTTTCAGCATTGAGTATGAAAAATACGGGTACGATTAATAGTACCGCTTACGCTACACAACTCAGCAGCATGGATGCCCTGACCAATGAAGGAACTATTTCCAGCAGCCAGGTGCTAGCGATTAGCTCAACGGGTAACCTCGTTAATACAGGCAACATTAGCGGAACTAAAGCATTATCCGTAGCCAGCAATGGCAATATCACTACCCGCAATGGCTCAAATATCCGATCCGATGGCCAATTAGCTGTGTCTGCCGTGAATATCGACAACGGCGGTTCGATCCGTGGCAATATTACGAATGTGGCCTTCAGCGGCGATAGACTTAAAGTCACTGGTGAGATCCAGGGCAATTCAACTCTGACCGTGCAATCTATAAAGGATGATAAAGTCAATTCGGGATTAATATATAACACTGGACGTATTTCCGGTAATGATGTAACGATTACCACTAACGGAAATCTGGATCAGGAAGGTGATATTATTGGTCAAAACTCGTTGTCTATTAAAAGTGATGTGATAGACAATGTTTATTATATTTATGGGAAGTCATTAAATATAGAGAGTAATTACCTTCGCAACAGAGCAACAATTGATGGGGATACTTCAAACATCACCGCAGTCAACGGCATTCTTAATGAAGGCCAACTTTCTGCAAACGGCGATATGACGCTGTATACCCAAACAAATGCTGACATCACTAACTACAATACTATTAAAGCTAATGGCACCCTGACGATGAGCACCAGGAATGTCAAAAATGGCGGCTACCGCTGCGGCTTTTTCTATATGTCAACCTGCGGTAAAGGTTCTATTTCCGCTAACAAACTGGTCCTCAATTCTTATCATAACTACGCCTCTGACATGGGCGGGCAACAGCAGTATAAATATGCTGAAATAAATACTATTCGTTAA	MFKFKVSYVALAAALSSSVVYADPSSYTHRSGANVIDIEAPNAAGVSHNLYREFNVGPNGTILNNSASDVNHSTHGNIAKNNNLTNGSASVILNEVTSNKMSNLQGFIEVNGQKADVVIANPNGITCSGCSFINTNNAILTTGQVNLSDTGAIESYTVTQGKITIGDKGMNASTNYAALLADAIAINGSVTAANATLGAGNFTFDNKTGKIATLGKTATVMQMIFPEYSIDISNLGGIKANSISMVGNTLGLGVRNKGTITSNAALAMTSYGSLVNEGTINGNGLMTNMVSALSMKNTGTINSTAYATQLSSMDALTNEGTISSSQVLAISSTGNLVNTGNISGTKALSVASNGNITTRNGSNIRSDGQLAVSAVNIDNGGSIRGNITNVAFSGDRLKVTGEIQGNSTLTVQSIKDDKVNSGLIYNTGRISGNDVTITTNGNLDQEGDIIGQNSLSIKSDVIDNVYYIYGKSLNIESNYLRNRATIDGDTSNITAVNGILNEGQLSANGDMTLYTQTNADITNYNTIKANGTLTMSTRNVKNGGYRCGFFYMSTCGKGSISANKLVLNSYHNYASDMGGQQQYKYAEINTIR				NA	NA	NA	NA	NA
BMS020_04308	483			hypothetical protein	ATGAACAAGGTTGCTCAGTTCTACCGAGAGCTGGTGTCGACGCTCAGCGAGCGGTTACGCAATGGAGAACGTGATATTGATGCGCTGGTGGAGCAGGCCAGGGTCGAGATTAGCCAATCCGACGAGTTAACGCAGAGCGAAATCGACAATGTGATCCGCGCTGTTCGACGCGATCTGGAAGAGTTCGCCCTCAGTTATGAAGAGAGTCAGGATGAGCTGACTGATAGCGTCTTTATGCGGGTGATTAAAGAGAGTCTCTGGCAGGAACTGGCGGATATTACCGATAAAACTCAGCTTGAGTGGCGCGAGGTGTTTCAGGATCTCAACCATCACGGTGTCTATCACAGCGGTGAAGTGGTGGGGCTCGGCAACCTGGTCTGTGAGAAGTGTCATTACCATCTGCCGGTTTATACCCCGGACGTGCTGCCGCGTTGTCCAAAATGCGGGCACGATCAGTTCCAGCGTCGTCCGTTCGAGCCCTGA	MNKVAQFYRELVSTLSERLRNGERDIDALVEQARVEISQSDELTQSEIDNVIRAVRRDLEEFALSYEESQDELTDSVFMRVIKESLWQELADITDKTQLEWREVFQDLNHHGVYHSGEVVGLGNLVCEKCHYHLPVYTPDVLPRCPKCGHDQFQRRPFEP				NA	NA	NA	NA	NA
BMS020_04309	2583	leuS_2	COG0495	Leucine--tRNA ligase	ATGCAAGAGCAATACCGCCCGGAAGAGATAGAATCGAAAGTCCAGCTTCACTGGGACGAAAATCGTACATTTGAAGTAACTGAAGACGAGAGCAAAGAGAAGTATTACTGCCTGTCGATGCTTCCTTATCCTTCTGGTCGACTACACATGGGTCACGTGCGTAACTACACCATCGGCGACGTGATTGCCCGCTATCAGCGCATGCTGGGTAAAAACGTCCTGCAGCCGATTGGCTGGGATGCGTTCGGTCTGCCTGCGGAAGGCGCGGCGGTAAAAAACAACACCGCGCCAGCGCCGTGGACCTACGACAACATCGCCTACATGAAAAACCAGCTCAAAATGCTGGGCTTCGGCTATGACTGGAGCCGCGAGCTGGCGACCTGCACCCCGGAATACTACCGCTGGGAGCAGAAGTTCTTCACCGAGCTGTACAAAAAAGGCCTGGTGTACAAAAAAACCTCCGCGGTGAACTGGTGCCCGAACGACCAGACCGTACTGGCCAACGAGCAGGTTATCGACGGCTGCTGCTGGCGCTGCGACACCAAAGTCGAGCGTAAAGAGATCCCGCAGTGGTTTATTAAAATCACCGCCTACGCCGATGAGCTGTTGAACGATCTGGATAAGCTGGACCACTGGCCGGACACCGTGAAGACCATGCAGCGCAACTGGATCGGCCGTTCTGAAGGGGTGGAAATCTCCTTTGACGTTAACCATTACGCCGACAAGCTGACCGTCTACACTACTCGCCCGGACACCTTTATGGGCTGTACCTACCTGGCGGTCGCTGCGGGTCACCCGCTGGCGCAGCAGGCTGCGGCCAACAATCCGGCACTGGCCACCTTTATCGACGAATGCCGCAACACCAAAGTGGCGGAAGCCGACATGGCGACGATGGAGAAAAAAGGCGTCGATACCGGCTTTAAAGCTATCCACCCGCTGACCGGCGAAGAAATTCCGGTGTGGGCGGCTAACTTCGTGCTGATGGAGTACGGCACAGGCGCGGTGATGGCCGTTCCGGGTCACGACCAGCGCGACTACGAGTTCGCCAGCAAATACGGGCTGAACATCAAGCCGGTGATCCTCGCCGCTGACGGTTCTGAGCCAGATCTCTCGGAACAGGCGCTGACCGAGAAAGGCGTGCTGTTTAACTCCGGCGAGTTCAGCGGCCTCGATTATGAAGCGGGCTTCAACGCCATTGCCGACAAACTGGCAGCCATGGGCGTCGGCGAGCGGAAAATTAACTACCGCCTGCGCGACTGGGGCGTGTCCCGTCAGCGCTACTGGGGCGCGCCGATCCCGATGGTCACCCTGGAAGACGGCACCGTGCTGCCGACCCCGGAAGATCAGCTGCCGGTGATCCTGCCGGAAGACGTGGTCATGGACGGCATCACCAGCCCGATCAAAGCCGATCCTGAATGGGCCAAGACCACGGTTAACGGCCAGCCGGCGCTGCGCGAAACCGACACCTTTGACACCTTTATGGAATCCTCCTGGTACTATGCGCGCTACACCTGCCCGCAGTATCAGGAAGGGATGCTGGATTCGCAAGCGGCCAACTACTGGCTGCCGGTCGATATCTACATCGGCGGTATCGAACACGCGATCATGCACCTGCTCTACTTCCGCTTCTTCCACAAGCTGATGCGCGACGCGGGCATGGTCAACTCCGATGAGCCGGCGAAACAGCTGCTGTGCCAGGGCATGGTGCTGGCTGACGCTTTCTACTACGTAGGCGAAAACGGCGAACGTAACTGGGTCTCCCCGGTTGACGCCATCGTCGAACGTGACGAAAAAGGCCGTATCGTGAAAGCGAAAGACGCGGCGGGCCACGAGCTGGTGTACACCGGCATGAGCAAGATGTCCAAGTCGAAAAACAACGGCATCGACCCGCAGGTCATGGTTGAGCGCTACGGCGCGGATACCGTGCGTCTGTTCATGATGTTCGCCTCCCCGGCGGATATGACCCTCGAGTGGCAGGAATCTGGCGTCGAAGGGGCGAACCGCTTCCTGAAACGCGTCTGGAAGCTGGTCTACGAACACACCACCAAAGGGGAGGTTGCGGCCCTGAACGTGGCGGCGCTGAGTGAAGATCAGAAAGCGCTGCGTCGCGATATCCACAAAACCATCGCCAAAGTGACCGATGACATCGGTCGTCGTCAGACCTTCAACACCGCCATCGCGGCGATCATGGAGCTGATGAACAAGCTGGCGAAAGCGCCGCAGGAAGATGAGCAGGATCGCGCTCTGATGCAGGAAGCCCTGCTGGCGGTCGTGCGTATGCTCAACCCGTTCACCCCACACGCCAGCTTCACCCTGTGGCGTGAGCTGAACGGTGAAGGCGATATCGACAACGCGCCGTGGCCGGTGGCAGATGAAAGCGCGATGGTGGAAGATAGCACCCTCGTCGTCGTCCAGGTCAACGGCAAAGTTCGTGGTAAAATTACCGTTGCGGTAGACGCAACTGAAGAGCAGGTCCGCGAGCGCGCCGGCCAGGAGCATCTGGTGGCGAAGTATCTCGATGGCAAAACCGTGCGTAAAGTGATTTACGTTCCGGGTAAACTGCTCAATCTGGTCGTTGGCTAA	MQEQYRPEEIESKVQLHWDENRTFEVTEDESKEKYYCLSMLPYPSGRLHMGHVRNYTIGDVIARYQRMLGKNVLQPIGWDAFGLPAEGAAVKNNTAPAPWTYDNIAYMKNQLKMLGFGYDWSRELATCTPEYYRWEQKFFTELYKKGLVYKKTSAVNWCPNDQTVLANEQVIDGCCWRCDTKVERKEIPQWFIKITAYADELLNDLDKLDHWPDTVKTMQRNWIGRSEGVEISFDVNHYADKLTVYTTRPDTFMGCTYLAVAAGHPLAQQAAANNPALATFIDECRNTKVAEADMATMEKKGVDTGFKAIHPLTGEEIPVWAANFVLMEYGTGAVMAVPGHDQRDYEFASKYGLNIKPVILAADGSEPDLSEQALTEKGVLFNSGEFSGLDYEAGFNAIADKLAAMGVGERKINYRLRDWGVSRQRYWGAPIPMVTLEDGTVLPTPEDQLPVILPEDVVMDGITSPIKADPEWAKTTVNGQPALRETDTFDTFMESSWYYARYTCPQYQEGMLDSQAANYWLPVDIYIGGIEHAIMHLLYFRFFHKLMRDAGMVNSDEPAKQLLCQGMVLADAFYYVGENGERNWVSPVDAIVERDEKGRIVKAKDAAGHELVYTGMSKMSKSKNNGIDPQVMVERYGADTVRLFMMFASPADMTLEWQESGVEGANRFLKRVWKLVYEHTTKGEVAALNVAALSEDQKALRRDIHKTIAKVTDDIGRRQTFNTAIAAIMELMNKLAKAPQEDEQDRALMQEALLAVVRMLNPFTPHASFTLWRELNGEGDIDNAPWPVADESAMVEDSTLVVVQVNGKVRGKITVAVDATEEQVRERAGQEHLVAKYLDGKTVRKVIYVPGKLLNLVVG				NA	NA	NA	NA	NA
BMS020_04310	591	lptE_2	COG2980	LPS-assembly lipoprotein LptE	GTGCGATATCTGATAACAATGTTGTTATCTCTGGCGGTGCTTGCCACCGCCGGCTGTGGCTGGCATCTGCGTAGCACTACCAAGGTGCCCACCACCATGAAAACCATGATCTTCCAGTCGAGCGATCCGAACGGGCCGTTAAGCCGCGCGGTGCGTAATCAGCTGCGTCTTAACGGCGTGGAACTGATCGACGCCAGCACGCTGCGTAAAGATGTCCCTTCTCTGCGCCTCGATGGATCGTCGATTCAGAAAGATACGGCATCGGTGTTCCAGGACGGTCGTACGGCGGAATATCAGATGGTCATGACCGTTCATGCCAGCGTCCTGATCCCGGGTCACGATATCTATCCGATAACCACCAAGGTCTATCGTTCGTTCTTTGATAACCCGCAGGCGGCGCTAGCCAAAGACGCCGAGCAGGATATGATTATCCAGGAAATGTACGATAAAGCGGCGGAACAGCTGATTCGTAAACTGCCAAGCGTTCAGGTAGCGGATGTTGAAGCCACCCAGCAGGAAGAAAAACCGGTCGCGGGCAGCACCGCGCCGGCGTCCTCGGGTAACCGCGTCTCCACCACGCTGGGTCAATGA	MRYLITMLLSLAVLATAGCGWHLRSTTKVPTTMKTMIFQSSDPNGPLSRAVRNQLRLNGVELIDASTLRKDVPSLRLDGSSIQKDTASVFQDGRTAEYQMVMTVHASVLIPGHDIYPITTKVYRSFFDNPQAALAKDAEQDMIIQEMYDKAAEQLIRKLPSVQVADVEATQQEEKPVAGSTAPASSGNRVSTTLGQ	PGPT0023297_423	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023297-lptE|rlpB-K03643	NA	NA
BMS020_04311	1035	holA_2	COG1466	DNA polymerase III subunit delta	ATGATGATTCGGTTGTACCCGGAACAGCTCCGCGCGCAGCTCACTGAAGGGCTGCGCGCGGCCTATCTGCTGCTTGGCAACGATCCTCTGCTGTTGCAGGAAAGCCAGGACGCTATTCGCGAAGCCGCTGCCGCGCAGGGCTTTACCGAACACCACACCTTCACTATCGATAGCAGCACCGACTGGCAGGCGCTTTTCGCCTTAAGCCAGGCGATGAGCCTGTTTGCCAGCCGGCAAACCCTGCTGTTGATCCTACCGGAAAACGGCCCCAACGCGGCGATCAACGAACAGCTGGCGACGCTGGTCGGTCTGCTGCACGACGACCTGCTGCTGATCGTTCGCGGCAGTAAGTTGACCAAAGCCCAGGAGAATGCCGCGTGGCTCACCGCGCTGGCTCAGCGCGCCGTCCAGGTCAGCTGCCAGACGCCGGAATACGCGCAGCTGCCGCGCTGGCTGGCCGCGCGGGCCAAACAGCATCAGCTGCAGCTCGACGACGCGGCCAGCCAGCTGCTGTGCTACTGTTACGAAGGCAATCTGCTGGCGCTGGCGCAGGCGCTGGAGCGTCTGGCGCTCCTCTGGCCGGACGGTAAGCTGACCCTGCCCCGCGTTGAGCAGGCGGTGAACGATGCCGCGCACTTTACCCCTTACCATTGGGTCGATGCCCTACTGGCAGGTAAAAGTAAGCGCGTGCTGCACGTTCTGCAGCAGCTCCGTCTTGAAGGCTGCGAGCCGGCGATCCTGCTGCGTACGCTACAGCGGGAGCTGCTGCTGCTGGTCACCCTCAAGCGCCAGTCGGCACAGACGCCGCTGCGTTCGCTGTTTGATAAACATCGGGTCTGGCAAAACCGCCGTCAGCTGCTCAGCGACGCCCTCGCCCGACTCAGCGGCGAACAGCTGCGCCAGGCGGTGACCCTTCTGACCCGCGCGGAACTGATCTTTAAACAGGATTACGGGTACGACGTCTGGCCCGAACTGGAAAGTCTTTCGTTGTTGCTCTGCCACAAAGCCCTGGCGGACGTTTTTATTGATGGTTGA	MMIRLYPEQLRAQLTEGLRAAYLLLGNDPLLLQESQDAIREAAAAQGFTEHHTFTIDSSTDWQALFALSQAMSLFASRQTLLLILPENGPNAAINEQLATLVGLLHDDLLLIVRGSKLTKAQENAAWLTALAQRAVQVSCQTPEYAQLPRWLAARAKQHQLQLDDAASQLLCYCYEGNLLALAQALERLALLWPDGKLTLPRVEQAVNDAAHFTPYHWVDALLAGKSKRVLHVLQQLRLEGCEPAILLRTLQRELLLLVTLKRQSAQTPLRSLFDKHRVWQNRRQLLSDALARLSGEQLRQAVTLLTRAELIFKQDYGYDVWPELESLSLLLCHKALADVFIDG				NA	NA	NA	NA	NA
BMS020_04312	651	nadD_2	COG1057	Nicotinate-nucleotide adenylyltransferase	ATGGTTGATATGACTCACTTACAGGCAATCTATGGCGGCACCTTCGATCCGGTGCATTATGGTCACCTCAAGCCGGTCGAGATCCTGGCGAATCAGATTGGCCTGAGCAAGGTCATCATCATGCCTAATAACGTCCCGCCGCACCGTCCCCAGCCGGAAGCCACCAGCGCCCAGCGCGTGCACATGCTGAAGCTGGCGATTGCCGATAAGCCGCTGTTCACGCTTGATGAACGCGAACTGCGGCGCGATACCCCCTCCTGGACGGCGCAAACGCTGCAGGAGTGGCGCCAGGAGCAGGGGCCGCACAAGCCGCTGGCGTTTATCATTGGCCAGGATTCGCTGCTCACCTTTCCCACCTGGCATAACTATGAAACCATCCTCGACAATGTCCACCTGATTGTCTGCCGCCGGCCGGGTTACCCGCTGACCATGGCCCATGAGGCCGATCAGCGCTGGCTGGATCGCCATTTAACCCACGACGTGGAGTCTTTGCATCACCGTCCTTCCGGCGTGATCTACCTGGCTGAGACCCCGTGGTTCGATATTTCGGCGACGATCATTCGCCAGCGCCTTGAGCGCGGCGAGTCCTGCGCCGAGATGCTGCCGGCCGCGGTGCTGGACTACATCCGCGAGCAGGGTCTCTATTGCTGA	MVDMTHLQAIYGGTFDPVHYGHLKPVEILANQIGLSKVIIMPNNVPPHRPQPEATSAQRVHMLKLAIADKPLFTLDERELRRDTPSWTAQTLQEWRQEQGPHKPLAFIIGQDSLLTFPTWHNYETILDNVHLIVCRRPGYPLTMAHEADQRWLDRHLTHDVESLHHRPSGVIYLAETPWFDISATIIRQRLERGESCAEMLPAAVLDYIREQGLYC	PGPT0013435_1465	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013435-nadD-K00969	NA	NA
BMS020_04313	630	cobC_1	COG0406	Adenosylcobalamin/alpha-ribazole phosphatase	ATGAAATTGTGGTTAGTTCGCCATGGCGAAACCGAAGCTAACGTTGCCGGGTTATACAGCGGCCACGCCCCCACGCCCCTGACGCCGCGCGGCGTCGCTCAGGCGCGAGCGCTCGGTGAACGACTGCGCGCGGTGCCTTTCGATAAAGTCTTCTGCAGCGAGCTGGCGCGGACCGGGACAACGGCCGATCTGCTGCTTGGCGATCGCGCTATCCCGCGCGAATGCCATGCCGCGCTCAATGAGATGTTTTTCGGCGACTGGGAGATGCGCCATCATCGCGACCTCCAGCGAGAAGATGCGGAAAACTATGCCGCATGGTGCGCTGACTGGCAGCACGCGGCCCCGACCAACGGCGAAAGCTTTCAGCGTTTTGCCCGCCGCGTCAGCGAGTTTACCCCCACGCTGACCGACTGCCGCCATCTTGACCACCTGCTGATCGTCGGCCATCAGGGCGTCCTGAGCCTGCTGACCGCCCTGCTGTTGCAGATGCCCGCCGCGGCGATGTGGCACTTTCCGATAGCCCATGGCGCCTGGAGTCTCCTCGACATTCGCGACGATTTCACCACCCTGCGGGTATTAAATAGCCAGGCCGTCTGGCAGCCGCAAGAAGAATTCCCGCCGAACCATTGA	MKLWLVRHGETEANVAGLYSGHAPTPLTPRGVAQARALGERLRAVPFDKVFCSELARTGTTADLLLGDRAIPRECHAALNEMFFGDWEMRHHRDLQREDAENYAAWCADWQHAAPTNGESFQRFARRVSEFTPTLTDCRHLDHLLIVGHQGVLSLLTALLLQMPAAAMWHFPIAHGAWSLLDIRDDFTTLRVLNSQAVWQPQEEFPPNH	PGPT0004650_425	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
BMS020_04314	318	rsfS_2	COG0799	Ribosomal silencing factor RsfS	TTGCAGGGTAAAGCACTCCAGGATTTTGTTATCGACAAAATTGATGACCTGAAAGGTCAGGACATCGTTGCCATTGATGTACATGGCAAATCCAGCATCACCGATTGCATGATTATCTGCACCGGCACCTCCACGCGTCATGTGATGTCCATCGCCGACCACGTGGTTCAGGAATCCCGCGCCGCCGGCTTGCTGCCGCTGGGCGTTGAAGGGGAAGCCGCCGCCGACTGGATCGTCGTCGACCTCGGCGACGTGATGGTTCACGTCATGCAGGAAGAGAGCCGTCGTCTGTACGAGCTGGAAAAACTCTGGAGTTAA	MQGKALQDFVIDKIDDLKGQDIVAIDVHGKSSITDCMIICTGTSTRHVMSIADHVVQESRAAGLLPLGVEGEAAADWIVVDLGDVMVHVMQEESRRLYELEKLWS				NA	NA	NA	NA	NA
BMS020_04315	468	rlmH_2	COG1576	Ribosomal RNA large subunit methyltransferase H	GTGAAGTTGCAGCTGGTGGCCGTTGGCACCAAAATGCCGGACTGGGTACAGACCGGCTTTAGCGAGTATCTGCGCCGTTTTCCCAAAGATATGCCGTTCGAACTGGTGGAGATCCCTGCCGGTAAGCGCGGCAAGAACGCTGATATCAAGCGCATCCTCGAAAAAGAGGGCGAGATGATGTTAGCCGCTGCCGGTAAAAACCGCATCGTGACCCTGGATATTCCGGGTAAACCATGGGATACGCCGCAGCTGGCGCGCGAACTGGAACGCTGGAAACAGGACGGGCGCGACGTCAGTTTGCTGGTCGGCGGCCCGGAAGGCCTCTCTCCAGCCTGTAAAGCAGCGGCGGAACAGAGTTGGTCGCTCTCCACCCTCACCTTACCTCACCCGCTGGTGCGCGTACTGGTGGCCGAGAGCCTGTATCGGGCGTGGAGCATTACCACCAACCATCCGTACCACCGTGAGTAA	MKLQLVAVGTKMPDWVQTGFSEYLRRFPKDMPFELVEIPAGKRGKNADIKRILEKEGEMMLAAAGKNRIVTLDIPGKPWDTPQLARELERWKQDGRDVSLLVGGPEGLSPACKAAAEQSWSLSTLTLPHPLVRVLVAESLYRAWSITTNHPYHRE				NA	NA	NA	NA	NA
BMS020_04316	1902	mrdA_2	COG0768	Peptidoglycan D,D-transpeptidase MrdA	ATGAAATTACAGAATTCTTTCCGCGACTATACGGCTGAATCCTCGCTGTTCGTGCGCCGGGCGCTGGTCGCTTTTTTGGGGATTTTGCTGCTTACCGGCGTTCTGATCGCCAACCTGTACAATGTGCAAATCGTTCGCTTCGACGACTATCAGACGCGCTCGAACGAAAACCGCATCAAGCTGGTGCCGATCCCGCCGAGCCGCGGCATTATTTACGATCGCAACGGCACCCCGCTGGCGCTTAACCGCACCATTTATCAGCTGGAGATGATGCCGGAGAAAGTCGATAATGTGCAGCAGACGCTTGATGCGCTACGCGACGTCGTCGATTTAACCGACGATGATATCGCCGGTTTCAAAAAGGAGCGCGCCCGCTCCCATCGCTTTACCTCGATTCCGGTCAAGGTCAACCTCAGCGAAGTGCAGGTGGCCCGCTTTGCCGTCAACCAGTACCGCTTTCCTGGCGTGGAAGTCAAAGGCTACAAGCGCCGTTACTACCCCTATAACTCGGCGCTGACGCACGTCATCGGCTACGTGTCGAAAATTAACGATAAAGACGTCGACCGCCTCGATAAAGAGGGCAAACTGGCCAACTACGCCTCGACCCATGACATCGGTAAGCTGGGTATTGAGCGTTATTACGAGGACGTCCTGCACGGTCAGACCGGCTACGAAGAGGTTGAAGTGAACAACCGCGGCCGCGTTATTCGTCAGCTCAAAGAGGTGCCTCCGCAGGCCGGACGCGACATCTACCTCACCCTCGACCTCAAGCTACAGCAGTATATCGAAACGCTGCTGGCCGGTAGCCGCGCCGCGGTGGTGGTCACCGACCCGCGTACCGGCGCCATTCTGGCGCTGGTTTCGACGCCGAGCTACGACCCGAACCTGTTCGTCGACGGCATCTCCAGCAAAGATTACTCCGGCCTGCTCAACGATCCCAACACGCCGCTGGTCAACCGTGCGACGCAAGGGGTTTATCCGCCGGCATCGACGGTCAAACCGTACGTCGCCGTCTCGGCGCTGAGCGCCGGGGTGATCACGCGCAATACCAGCCTGTTCGACCCTGGCTGGTGGCAGCTGCCCGGCTCGGAGAAACGCTATCGTGACTGGAAAAAATGGGGCCACGGCCACCTGAACGTCACCAAAGCGCTGGAGGAGTCCGCGGATACCTATTTCTATCAGGTCGCCTATGACATGGGCATCGATCGCCTCTCGGAGTGGATGAGCAAGTTCGGCTACGGCCACTATACCGGTATCGACCTCGCCGAAGAGCGCTCGGGCAACATGCCGACCCGCGAATGGAAGCTCAAACGCTTTAAGAAACCCTGGTACCAGGGGGACACCATTCCGGTGGGCATCGGCCAGGGTTACTGGACCGCCACGCCGATCCAGATGAACAAAGCGCTGATGATCCTGATTAACGACGGGGTGGTGAAAGTGCCGCACCTGCTGCAAAGCACCGTGGAAGACGGCAAGCCCGTTCCGTGGGTCCAGCCTCATGAGCCGCCGGTAGGCGACATCCATTCCGGCTACTGGGAAATCGCCAAAGACGGCATGTTCGGCGTGGCCAACCGCGGCAACGGCACCGCGCACAAATATTTCGCCAGCGCGCCGTATAAAATCGCGGCCAAGTCCGGTACCGCCCAGGTGTTCGGCCTGAAGGCCAACGAAACCTATAACGCGCACCGAATCTCTGAGCGTCTGCGTGACCATAAACTGATGACGGCGTTTGCGCCTTATAACAACCCGCAGGTTGCCGTGGCGATGATCCTGGAAAACGGCGGTGCCGGCCCGGCGGTCGGTACGATTATGCGCCAAATCCTCGATCACATCATGCTGGGCGATAATAACACCACGCTGCCAAGCGAAAACCCGGCGGTAACCGCAGGGGAGGATCAATAA	MKLQNSFRDYTAESSLFVRRALVAFLGILLLTGVLIANLYNVQIVRFDDYQTRSNENRIKLVPIPPSRGIIYDRNGTPLALNRTIYQLEMMPEKVDNVQQTLDALRDVVDLTDDDIAGFKKERARSHRFTSIPVKVNLSEVQVARFAVNQYRFPGVEVKGYKRRYYPYNSALTHVIGYVSKINDKDVDRLDKEGKLANYASTHDIGKLGIERYYEDVLHGQTGYEEVEVNNRGRVIRQLKEVPPQAGRDIYLTLDLKLQQYIETLLAGSRAAVVVTDPRTGAILALVSTPSYDPNLFVDGISSKDYSGLLNDPNTPLVNRATQGVYPPASTVKPYVAVSALSAGVITRNTSLFDPGWWQLPGSEKRYRDWKKWGHGHLNVTKALEESADTYFYQVAYDMGIDRLSEWMSKFGYGHYTGIDLAEERSGNMPTREWKLKRFKKPWYQGDTIPVGIGQGYWTATPIQMNKALMILINDGVVKVPHLLQSTVEDGKPVPWVQPHEPPVGDIHSGYWEIAKDGMFGVANRGNGTAHKYFASAPYKIAAKSGTAQVFGLKANETYNAHRISERLRDHKLMTAFAPYNNPQVAVAMILENGGAGPAVGTIMRQILDHIMLGDNNTTLPSENPAVTAGEDQ	PGPT0023885_2055	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023885-mrdA-K05515	NA	NA
BMS020_04317	1113	mrdB_1	COG0772	Peptidoglycan glycosyltransferase MrdB	ATGACGGATAATCCGAACAAAAAATCGCTGTGGGATAAGATCCATCTCGATCCCACTATGGTGCTGATCCTGCTGGCGCTGCTGACCTACAGCGCGCTGGTTATCTGGAGCGCCAGCGGTCAGGACGTCGGCATGATGGAGCGTAAAATCGGCCAGATCGCCATGGGCGTGGTGATCATGATCGTCATGGCGCAGATCCCGCCGCGGGTCTATGAGGGCTGGGCGCCCTACCTCTATATTTTCTGTATTATTCTGCTGGTGGCCGTCGACGCCTTCGGCGCCATCTCCAAAGGGGCGCAGCGCTGGCTGGATCTCGGTATCGTCCGCTTTCAGCCGTCGGAGATTGCAAAAATCGCCGTGCCGCTGATGGTGGCGCGCTTTATTAACCGCGACGTCTGCCCGCCTTCGCTGAAGAATACCGGTATTGCCCTGGTGCTGATCTTCCTGCCGACGCTGCTGGTGGCGGCGCAGCCTGACCTCGGGACCTCGATTCTGATCGCCCTCTCCGGTCTGTTTGTGCTGTTCCTCTCCGGCCTCAGCTGGCGCCTGATCGGCATTGCGGTGGTGCTGGTCGCCGCCTTTATCCCGATTTTGTGGTTCTTCCTGATGCACGACTATCAGCGCCAGCGCGTGATGATGCTGCTCGATCCGGAAACCGACCCGCTGGGCGCGGGGTATCACATTATTCAGTCTAAAATTGCCATTGGCTCCGGCGGTCTGCGCGGCAAAGGCTGGCTGCACGGCACCCAGTCGCAGCTGGAGTTTCTGCCGGAACGCCATACCGACTTTATCTTTGCCGTTCTCGCCGAAGAGCTGGGCCTGATTGGCGTGCTGATCCTGCTGGCGCTCTATATTCTGCTGATCATGCGCGGACTGTGGATCGCCGCCCAGGCGCAGACCACCTTTGGCCGGGTCATGGCCGGTGGTTTAATGTTGATTTTATTCGTTTATGTCTTCGTAAATATTGGTATGGTGAGTGGTATTTTACCGGTGGTGGGCGTACCGTTGCCGCTGGTGAGCTACGGGGGCTCCGCCCTGATCGTATTGATGGCCGGGTTTGGTATCGTGATGTCGATCCATACCCACAGAAAAATGTTGTCGAAAAGCGTTTAA	MTDNPNKKSLWDKIHLDPTMVLILLALLTYSALVIWSASGQDVGMMERKIGQIAMGVVIMIVMAQIPPRVYEGWAPYLYIFCIILLVAVDAFGAISKGAQRWLDLGIVRFQPSEIAKIAVPLMVARFINRDVCPPSLKNTGIALVLIFLPTLLVAAQPDLGTSILIALSGLFVLFLSGLSWRLIGIAVVLVAAFIPILWFFLMHDYQRQRVMMLLDPETDPLGAGYHIIQSKIAIGSGGLRGKGWLHGTQSQLEFLPERHTDFIFAVLAEELGLIGVLILLALYILLIMRGLWIAAQAQTTFGRVMAGGLMLILFVYVFVNIGMVSGILPVVGVPLPLVSYGGSALIVLMAGFGIVMSIHTHRKMLSKSV	PGPT0023885_26	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023885-mrdA-K05515	NA	NA
BMS020_04318	1149	rlpA_1	COG0797	Endolytic peptidoglycan transglycosylase RlpA	ATGCGTAAGCAATGGCTGGGGATCTGCATAGCAGCGGGGCTGCTGGCGGCATGTTCGAGTGATGACGTGCAACAAAAGACGGTCAGTACTCCACAGCCGGCCGTCTGTAATGGCCCGACGGTTGAGATCAGCGGCGCCGATCCGCAGTATGAAACGCCGAACGCGACGGCGAATCAGGATTATGAGCGCGACGGTAAGCGCTACAACATCGTCCAGGATCCGGCAAACTTTACTCAGGCCGGTTTCGCGGCGATCTATGACGCGGAACCCAACAGCAACCTGACCGCCAGCGGTGAAACCTTCGACCCGACGCAGTTGACCGCGGCGCACCCGACGCTGCCGATCCCGAGCTATGCGCGGATCACCAACCTCGCCAACGGGCGCATGATCGTCGTGCGGATTAACGATCGCGGTCCCTACGGCAACGATCGGGTTATCTCGCTCTCCCGCGCGTCCGCCGACCGCCTGAACACCTCGAATAACACCAAAGTGCGTATCGACCCGATCATCGTCGCGCCTGACGGTTCGCTTTCCGGCCCGGGAATGGCTTGTACCACCGTCGCCAAACAGACTTACGCCCTGCCCGCCCGTCCGAATCTGGACGGCGGTGACGCCGCTGGCATGAGCCAGCCCGCGCCCACTGACGTTCGCCCGATCAGCAACAGCACGCTGAAGCCGGAAGACAGCGTTGGCGCACCGGTGAACAGCGGCGGTTTCCTCGGCGCCCCGACGCCGCTGAACAGCGGCGTGCTGGAGAGCAGCGAACCCGCAGCCGCCGCCGCGACGGCACCTGCCGCCGGCGCCACGCCAGCAGCGCCGGTGACCGCGCCCGGCTCCATCCAGGGTAGCGTCGCGCCCGCAGCGGCCACCGCCGCAGCCGCCGGCGCCGTTGCCGCTTCGTCTTCCGCCGCCTCCAGCGCCAGCGGTAGCTTTGTCGTGCAGGTAGGCGCAGTGAGCGACCAGGCGCGGGCGCAGCAGTATCAGCAGCGTCTGAGCCAGCAGTTCTCTGTGCCAGGCCGGGTCATGCAAAACGGCGCGGTGTGGCGTATTCAGCTGGGGCCGTTTGCCGACAAGGCGCAGGCCAGCGCCGTTCAGCAGCGCCTGCAAAGCGAAGCGCAGCTGCAGTCCTTTATTACTCGCGCCAACTAA	MRKQWLGICIAAGLLAACSSDDVQQKTVSTPQPAVCNGPTVEISGADPQYETPNATANQDYERDGKRYNIVQDPANFTQAGFAAIYDAEPNSNLTASGETFDPTQLTAAHPTLPIPSYARITNLANGRMIVVRINDRGPYGNDRVISLSRASADRLNTSNNTKVRIDPIIVAPDGSLSGPGMACTTVAKQTYALPARPNLDGGDAAGMSQPAPTDVRPISNSTLKPEDSVGAPVNSGGFLGAPTPLNSGVLESSEPAAAAATAPAAGATPAAPVTAPGSIQGSVAPAAATAAAAGAVAASSSAASSASGSFVVQVGAVSDQARAQQYQQRLSQQFSVPGRVMQNGAVWRIQLGPFADKAQASAVQQRLQSEAQLQSFITRAN	PGPT0024465_272	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024465-rlpA-K03642	NA	NA
BMS020_04319	1200	dacA	COG1686	D-alanyl-D-alanine carboxypeptidase DacA	ATGAAGACCTCTTTCACCGCTCGTTTACTCATCACGGCGCTCTCCGTTGCAGCGCTCTCCTCCGCTGCCCGCGCCGATGACCTGAATATCAAAACGATGATCCCAGGCGCCCCGCAGATTGACGCCGAATCCTGGATCCTTATCGATTACAACTCTGGCAAGGTGCTGGCTGAAAACAACGCCGACTCCCGCCGCGACCCGGCCAGTCTGACCAAAATGATGACCAGCTATGTTATCGGTCAGGCGATGAAAGCGGGCAAATTCAAAGAGTCCGATCTGGTCACCGTCGGCAACGACGCCTGGGCCACCGGCAACCCGGTATTCAAAGGCTCTTCCCTGATGTTCCTCAAGCCGGGGATGCAGGTGCCGGTTTCCCAGCTGATCCGCGGTATCAACCTGCAATCCGGTAACGATGCCTGCGTGGCGATGGCCGACTATGTCGCCGGCAGCCAGGACGCCTTCGTCAGCCTGATGAACAACTACGTCAACGCCCTCGGCCTGAAAAACACCCATTTCCAGACTGTTCACGGCCTCGATGCTGACGGCCAGTTCAGCTCGGCGCGCGACATGGCGCTGATTGGCCAGGCGCTGATCCGCGACGTGCCGAACGAGTACTCCATCTATCGTGAGAAAGAGTTCACTTTCAACGGTATCCGCCAGCTGAACCGTAATGGCCTGCTGTGGGATAACAGCCTGAACGTCGACGGCATCAAAACCGGCCACACCGACAAAGCGGGCTACAACCTTGTCGCTTCCGCCACCGAAGGGCAGATGCGTCTGATCTCGGCGGTAATGGGCGGCCGGACGTTCAAAGGGCGTGAGTCGGAAAGCAAAAAACTGCTGACCTGGGGCTTCCGCTTCTTCGAAACCGTCAACCCAATTAAAGCCGGCAAAGAGTTTGCTTCCGAACCGGCCTGGTTCGGCGACAGCGATCGCGCTTCGCTGGGGGTGGATAAAGACGTCTACCTGACCATCCCGCGCGGCCGGATGAAAGATCTGAAAGCCAGCTACGTGCTGAATAATACTGAGCTGCACGCCCCGCTGCAGAAAAACCAGGTCGTCGGCACCATTAACTTCCAGCTGGATGGTAAAACCATTGACCAGCGCCCGCTGGTGGTGCTGCAGGAAATTCCGGAAGGTAATTTCTTCGGTAAAATTATTGATTACATTAAATTAATGTTCCACCACTGGTTTGGTTAA	MKTSFTARLLITALSVAALSSAARADDLNIKTMIPGAPQIDAESWILIDYNSGKVLAENNADSRRDPASLTKMMTSYVIGQAMKAGKFKESDLVTVGNDAWATGNPVFKGSSLMFLKPGMQVPVSQLIRGINLQSGNDACVAMADYVAGSQDAFVSLMNNYVNALGLKNTHFQTVHGLDADGQFSSARDMALIGQALIRDVPNEYSIYREKEFTFNGIRQLNRNGLLWDNSLNVDGIKTGHTDKAGYNLVASATEGQMRLISAVMGGRTFKGRESESKKLLTWGFRFFETVNPIKAGKEFASEPAWFGDSDRASLGVDKDVYLTIPRGRMKDLKASYVLNNTELHAPLQKNQVVGTINFQLDGKTIDQRPLVVLQEIPEGNFFGKIIDYIKLMFHHWFG	PGPT0024040_3052	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
BMS020_04320	264			hypothetical protein	ATGAAAACCAAACTTAACGAACTGCTTGAATTCCCTACGCCATTTACTTACAAAGTAATGGGGCAGGCGTTGCCTGAGCTGGTTGATCAGGTGGTGGAAGTGGTACAGCGCCATGCGCCTGGTGATTACTCGCCGTCAGTAAAACCGAGCAGCAAAGGTAACTACCACTCGGTCTCCATCACCATCAACGCCACTCACATTGAACAAGTGGAAACGCTGTACGAAGAGTTAGGCAATATCGATATCGTTCGGATGGTGCTGTAA	MKTKLNELLEFPTPFTYKVMGQALPELVDQVVEVVQRHAPGDYSPSVKPSSKGNYHSVSITINATHIEQVETLYEELGNIDIVRMVL				NA	NA	NA	NA	NA
BMS020_04321	645	lipB_1	COG0321	Octanoyltransferase	TTGCAGCACAATAAAATTCTAATCCGGCAGCTTGGCCTGCAACCTTACGAACCCGTCTCGCAGGCGATGCACGAATTTACCGACGCCCGTGATGAAGATACCCTCGATGAGATCTGGCTGGTGGAACATCACCCGGTTTTCACCCAGGGTCAGGCCGGCAAAGCGGAACACCTGCTGGTGCCCGGTGATATTCCGGTGATCCAGAGCGATCGCGGCGGCCAGGTAACCTATCACGGCCCGGGACAGCAGGTAATGTACGTCCTGTTGAACCTCAAGCGCCGCAAGCTGGGCGTGCGTGAACTGGTGACGCTGCTGGAGCAAACGGTCGTCAATACCCTTGCCGAATACGGTATTGAGTCGCACCCCCGCGCCGACGCCCCTGGCGTCTACGTCGGCGATCGCAAAATATGCTCTCTGGGGCTGCGGATCCGTAAAGGCTGCTCTTTCCACGGCCTGGCGCTCAATATCGCGATGGATCTGACGCCGTTTCTGCGTATCAACCCCTGCGGCTATGCCGGTATGGAGATGACGCAAATGCGCCAGTGGCAGCCGGAAGCCACTCCGGAGACAGTGGCTCCGCGGCTGGTCGCCCATCTGCTGGCGCTGCTGAACAATCCCCCGCACGAATACCTTCCTCAGGGTTAA	MQHNKILIRQLGLQPYEPVSQAMHEFTDARDEDTLDEIWLVEHHPVFTQGQAGKAEHLLVPGDIPVIQSDRGGQVTYHGPGQQVMYVLLNLKRRKLGVRELVTLLEQTVVNTLAEYGIESHPRADAPGVYVGDRKICSLGLRIRKGCSFHGLALNIAMDLTPFLRINPCGYAGMEMTQMRQWQPEATPETVAPRLVAHLLALLNNPPHEYLPQG	PGPT0003925_3080	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
BMS020_04322	897	ybdO_1		putative HTH-type transcriptional regulator YbdO	ATGTTTCGCATCCTGCGTAATATTGACCTCAATCTGTTGACCATCTTCGAAGCCGTGTACGTACACAAAGGTATCGTCAATGCCGCGAAGATACTCAATATCACGCCGTCGGCCATTAGCCAGTCAATAAACAAACTGCGGGCACTGTTCCCCGATCCGCTGTTTATCCGTAAAGGCCAGGGCGTAACGCCCACCGCCTATGCCACCCATCTTCACCAGTACATCAGCCGCGGTATGGAGGCTTTCCTCAGCGCGCTGGATATCACCGGCAGCCCGCATCAGCAGCGGGTGATCACTATCGCCACCACGCCAGCCATGGGGGCGCTGCTGATGCCTGGCCTGGCCAGCGCGCTGAAGCCGGTCTTTCCGCAGATCCTGCTGCACAACATCGCCCTCACCGACGCCGCGCGGCAGCTTGACCAGCGCCAGGTGGATTTGTTGATTGATACCCATCTGCACAGCGGCCAGGCGATAAGCCATCACGTGCTGTATCAGGAACGGGTGCAGATGTACTGCCGCGCTGGGCATCCCGCGCTGGACGGTCCGCAGGATGAATCCGCCCTTGCACAATACGAGTTTGCGCTGCTGCTGCCGGAAGGCCAGCGCTACCCTACGCTGCACCGTCGGCTGCAGGAGGAGATGGGCGAGCGCCGCTGCGGTTTCAGCACCTTCAACCTGCTAACCCAGGCGGCAATGATCGCCGAGAGCGACATGCTGGGGCTGACCACCGAGCGCCTGTTCGCCATGGTATCCCGTCTCTGGCCGCTGCAGACCCTGGACTTCCCCTCCCTGCGGGAAGAGCAGATTGATGTTGCGCTGCACTTCAATAAGCAGAGCGGGAAAGAGCCATTGCTGAAAGAGATCATTGAGACCGTGATCCAGGCGTTTAAGGCGTAG	MFRILRNIDLNLLTIFEAVYVHKGIVNAAKILNITPSAISQSINKLRALFPDPLFIRKGQGVTPTAYATHLHQYISRGMEAFLSALDITGSPHQQRVITIATTPAMGALLMPGLASALKPVFPQILLHNIALTDAARQLDQRQVDLLIDTHLHSGQAISHHVLYQERVQMYCRAGHPALDGPQDESALAQYEFALLLPEGQRYPTLHRRLQEEMGERRCGFSTFNLLTQAAMIAESDMLGLTTERLFAMVSRLWPLQTLDFPSLREEQIDVALHFNKQSGKEPLLKEIIETVIQAFKA				NA	NA	NA	NA	NA
BMS020_04323	966	lipA_1	COG0320	Lipoyl synthase	ATGAGTAAACCCATTGTGATGGAACGCGGTGTTAAGTACCGCGACGCCGATAAAATGGCCCTTATCCCGGTGAAGAACGTGGCAACTGAGCGTGAAGCTCTGCTCAGAAAACCGGAATGGATGAAAATCAAACTTCCGGCAGACTCGTCCCGTATCCAGGGAATCAAAGCAGCGATGCGTAAGAACGGCCTGCACTCCGTGTGCGAAGAGGCCTCCTGCCCGAACCTTGCAGAGTGCTTCAACCACGGTACCGCGACCTTTATGATCCTCGGCGCGATCTGTACCCGCCGTTGCCCATTCTGCGACGTGGCGCATGGCCGCCCGGTCGCGCCAGATGCGAACGAGCCACAGAAGCTGGCGCAAACTATCGCCGATATGGGGCTGCGCTACGTGGTGGTCACTTCGGTGGACCGTGATGACCTGCGCGATGGCGGCGCACAGCATTTTGCCGACTGCATCAGCGCCATTCGCGAGAAAAACCCGACGATTAAAATCGAAACGCTGGTCCCGGATTTCCGCGGCCGCATGGATCGCGCCCTGGATATTCTGACGGTGACCCCGCCGGACGTCTTCAACCACAACCTCGAAAACGTACCGCGCCTCTATCGTCAGGTGCGTCCGGGCGCGGATTACAACTGGTCGCTGAAGCTGCTGGAGCGTTTTAAAGAAGCGCACCCGGAGATCCCGACAAAATCCGGCCTGATGGTGGGCCTGGGCGAAACCAACGACGAGATCATCGAAGTCATGCGCGACCTGCGCCGTCATGGCGTCACCATGCTGACATTAGGCCAGTATCTGCAGCCGAGCCGTCACCACCTGCCAGTGCAGCGTTACGTTAGCCCGGAAGAGTTTGAAGAGATGAAAGCGGAAGCTATGGCGATGGGCTTCACCCACGCCGCCTGCGGCCCCTTCGTTCGCTCTTCCTATCACGCCGACCTGCAGGCTAAAGGGATGGAAGTTAAATAA	MSKPIVMERGVKYRDADKMALIPVKNVATEREALLRKPEWMKIKLPADSSRIQGIKAAMRKNGLHSVCEEASCPNLAECFNHGTATFMILGAICTRRCPFCDVAHGRPVAPDANEPQKLAQTIADMGLRYVVVTSVDRDDLRDGGAQHFADCISAIREKNPTIKIETLVPDFRGRMDRALDILTVTPPDVFNHNLENVPRLYRQVRPGADYNWSLKLLERFKEAHPEIPTKSGLMVGLGETNDEIIEVMRDLRRHGVTMLTLGQYLQPSRHHLPVQRYVSPEEFEEMKAEAMAMGFTHAACGPFVRSSYHADLQAKGMEVK	PGPT0003935_2533	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
BMS020_04324	207	tatE	COG1826	Sec-independent protein translocase protein TatE	ATGGGTGAGATTAGTATTACCAAACTGCTGGTAGTCGCAGCACTGATTATCTTAGTGTTTGGTACCAAGAAATTACGTACGCTGGGCGGCGACCTGGGGTCGGCTATCAAGGGCTTTAAAAAAGCCATGAACGAAGATGACGATAGCGCGAAAAAAACCACCGCTGAAGACGAAGCACCGGCGCAGAAGCTCTCTCATAAAGAGTAA	MGEISITKLLVVAALIILVFGTKKLRTLGGDLGSAIKGFKKAMNEDDDSAKKTTAEDEAPAQKLSHKE	PGPT0029300_34	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PATHWAY	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PROTEINS,PGPT0029300-tatE-K03425	NA	NA
BMS020_04325	789	ybeM		Deaminated glutathione amidase	ATGCGGGTAGCGGCAGGGCAGTTTATCGTCACGCCAGTATGGCGGACGAATGCGCAAACTTGTGTGGCGATGATGCAGCAGGCGGCGCGTGAAGGGGCGGCGCTGCTGGTGCTGCCGGAGGCGTTGCTGGCACGTGATGACAACGACCCGGATCTGTCGGTGAAATCGGCCCAAACGCTGGATGGGGAGTTTTTACAGCTGCTGCTGGCCGAGAGCGCGCGTAACGGCCTGACGACGATCCTGACGCTGCATGTGCCGTCGGGGGAGGGGAGAGCAACCAACACGCTGGTGGTATTGCGTGAAGGGAAGGTTATTGCCCATTATCACAAACTTCATTTATACGATGCCTTCGCAATGCAGGAGTCCCGGCGGGTGGATCCCGGCCGGCAAATCCCGCCGGTGATTGAAGTGGCGGGTTTCCGCGTTGGCCTGATGACCTGTTACGATCTGCGTTTTCCGGAGCTGGCGCTGTCGCTGGCGCTGAACGGGGCGCAGCTGCTGGTGCTGCCCACCGCATGGGTGAAAGGGCCGCAAAAAGAGCATCACTGGGCGACGCTGCTGGCGGCGCGCGCGCTGGACACGACCTGCTACGTCGTGGCGGCAGGCGAATGCGGGACGCGTAACATCGGGCAGAGCCGCATCGTCGATCCGCTGGGGACCACCGTGGCGGGCGCGGGGAGCGAGCCGCAGCTGATCTATGCCGATATTTCCGCAGACTACCTTGCGCGGGTTCGCGAGCGTTTGCCGGTGCTGCAGAACCGACGGTTTGCGCCACCGCAATTATTGTGA	MRVAAGQFIVTPVWRTNAQTCVAMMQQAAREGAALLVLPEALLARDDNDPDLSVKSAQTLDGEFLQLLLAESARNGLTTILTLHVPSGEGRATNTLVVLREGKVIAHYHKLHLYDAFAMQESRRVDPGRQIPPVIEVAGFRVGLMTCYDLRFPELALSLALNGAQLLVLPTAWVKGPQKEHHWATLLAARALDTTCYVVAAGECGTRNIGQSRIVDPLGTTVAGAGSEPQLIYADISADYLARVRERLPVLQNRRFAPPQLL				NA	NA	NA	NA	NA
BMS020_04326	384	crcB_1	COG0239	Putative fluoride ion transporter CrcB	GTGTTTCAACTTCTTTGCGCCGTTTTTATTGGCGGCGGCACCGGCAGCGTTTTGCGCTGGTGGCTCGGCATGAAGCTCAATCCTGTGCACCATGCTATCCCGATTGGGACGCTGACTGCCAACCTGTTAGGCGCCTTTGTGATCGGCGCCGGGCTGGCGTGGTTTAATAGACTGACCGGCATTGACCCGATGTGGAAACTGCTGATCACCACGGGTTTCTGCGGCGGGTTGACCACCTTCTCCACCTTCTCTGCGGAAGTGGTGTTTCTTCTGCAGCAGGGGCGAGTGAGCTGGGCGCTCCTCAACGTCGCGGTGAACTTGCTGGGCTCGTTTGCCATGACGGCTGTCGCCTTCTGGCTCTTCTCGCAGGCCGCCAGCCGCTAA	MFQLLCAVFIGGGTGSVLRWWLGMKLNPVHHAIPIGTLTANLLGAFVIGAGLAWFNRLTGIDPMWKLLITTGFCGGLTTFSTFSAEVVFLLQQGRVSWALLNVAVNLLGSFAMTAVAFWLFSQAASR	PGPT0004985_2809	DIRECT EFFECT	BIO-REMEDIATION	FLUORIDE_DETOXIFICATION	FLUORIDE_RESISTANCE	FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199	NA	NA
BMS020_04328	210	cspE		Cold shock-like protein CspE	ATGTCTAAGATTAAAGGTAACGTTAAGTGGTTTAATGAGTCCAAAGGATTCGGTTTCATTACTCCGGAAGATGGCAGCAAAGATGTATTCGTACACTTCTCTGCAATCCAGTCCAACGGTTTCAAAACTCTGGCTGAAGGTCAGCGCGTAGAGTTCGAAATCACTAACGGTGCCAAAGGCCCTTCTGCTGCAAACGTAATCGCTCTGTAA	MSKIKGNVKWFNESKGFGFITPEDGSKDVFVHFSAIQSNGFKTLAEGQRVEFEITNGAKGPSAANVIAL	PGPT0014675_2166	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
BMS020_04329	522	pagP		Lipid A palmitoyltransferase PagP	TTGGTATCCGGAAACGCCAGCGCGTCGTTTTCATCGACCCTTAGCGAAGGTTACCATACCTTAAGTAATAACGTTGCGCAGACCTGGAATGAGCCGGAGCACTATGATCTGTACGTTCCAGCCATCACCTGGCACGCGCGCTTTGCTTATGATAAGGAAAAGACGGACAAGTATAACGAACGTCCGTGGGGGGCAGGCTTCGGCGTTTCGCGCTGGGATGAGAAAGGGAACTGGCACGGCCTGTACCTGATGGCGTTTAAAGACTCTTTCAATAAGTGGGAACCCATCGGCGGCTACGGTTGGGAGAAAACCTGGCGTCCGCTGACGGACCAGAACTTCCGCCTCGGTCTCGGCTATACCCTCGGGGTGACGGCGCGCGATAACTGGAACTACATCCCGATTCCGGTGATCTTGCCCTTAGCGTCAATAGGTTACGGTCCGGCAACGTTCCAGATGACCTATATTCCCGGTACCTACAATAACGGTAACGTTTACTTCGCCTGGGCTCGCATACAGTTTTAA	MVSGNASASFSSTLSEGYHTLSNNVAQTWNEPEHYDLYVPAITWHARFAYDKEKTDKYNERPWGAGFGVSRWDEKGNWHGLYLMAFKDSFNKWEPIGGYGWEKTWRPLTDQNFRLGLGYTLGVTARDNWNYIPIPVILPLASIGYGPATFQMTYIPGTYNNGNVYFAWARIQF	PGPT0022410_238	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0022410-pagP|crcA-K12973	NA	NA
BMS020_04330	1374	dcuD	COG3069	Putative cryptic C4-dicarboxylate transporter DcuD	ATGCTGACGTTTGTTGAGATCCTGATCGGGATTGCGGTCATTGTGGGCGTCGCCCGCTATATCATTAAGGGCTATTCAGCCACCGGCGTGCTGTTCGTCGGCGGCTTAATATTGCTGATCGTCAGCGCCCTGCTGGGTCATAAAGTCTTACCAGGCAATACCGAGGGCACCGGTTACTCCGCCACTGACATTATTGAATACATTAAGATTCTACTCATGAGCCGTGGCGGCGATTTGGGTATGATGATCATGATGCTGTGCGGTTTCGCCACCTATATGACGCATATTGGCGCCAATGATATGGTGGTGAAATTAGCCTCAAAGCCATTGCGCTATATCAATTCGCCCTATCTGCTGATGATTGCCGCCTACTTTGTCGCCTGCCTGATGTCGCTGGCCGTCTCCTCCGCGACCGGCCTCGGCGTCCTGCTGATGGCGACGCTGTTCCCGGTGATGGTAAACGTTGGTATCAGCCGCGGTGCGGCGGCGGCCATCTGCGCCTCCCCGGCGGCGATTATCCTTTCGCCTACCTCGGGTGACGTCGTGCTGGCGGCAAAAGCGGCCGAAATGCCGCTGATCGACTTTGCCTTCAAGACCACGCTGCCGATCTCCATCGCCGCTATCATCTGCATGGCGATCGCCCACTTCTTCTGGCAGCGCTACCTGGATAAAAAAGAGAACATTTCCCACGAAATGCTCGACGTCAACGAGATCACCACCAATGCCCCGGCGCTGTACGCCATCCTGCCGTTTACCCCGATTATTGGCGTACTGATCTTTGATGGCAAATGGGGGCCGGAACTGCACATTATTACCATCCTCGTCGGCTGCATGCTGCTGGCGGCGATCCTCGAATTCCTGCGCGGGTTCAACACCAAAAACGTCTTCAGCGGACTGGAAGTCGCCTACCGCGGGATGGCTGACGCCTTCGCCGGGGTGGTGATGCTGCTGGTCGCCGCCGGCGTTTTTGCTCAGGGATTAAGCACCATCGGCTTCATCAACGGTCTGATCTCCATCGCCACTTCCTTCGGCTCGGCCAGTATTATTCTGATGCTGGTGCTGGTGATCCTGACCATGCTGGCGGCGATGACCACCGGCTCCGGCAATGCCCCGTTCTACGCCTTTGTCGAGATGATCCCCAAGCTGGCGCACTCCTCCGGCATCAATCCCGCCTATCTGTCGATCCCGATGCTGCAGGCCTCTAACCTTGGCCGCACGATCTCGCCGGTCTCCGGCGTGGTGGTGGCCGTCGCCGGGATGGCGAAGATCTCCCCGTTCGAAGTGGTCAAACGCACCTCGGTGCCGGTGATGGTTGGCCTGCTGGTGGTGATTGTCGCGACCGAGATCCTCGTCCCGGGCAGCGCGGTCCACTAA	MLTFVEILIGIAVIVGVARYIIKGYSATGVLFVGGLILLIVSALLGHKVLPGNTEGTGYSATDIIEYIKILLMSRGGDLGMMIMMLCGFATYMTHIGANDMVVKLASKPLRYINSPYLLMIAAYFVACLMSLAVSSATGLGVLLMATLFPVMVNVGISRGAAAAICASPAAIILSPTSGDVVLAAKAAEMPLIDFAFKTTLPISIAAIICMAIAHFFWQRYLDKKENISHEMLDVNEITTNAPALYAILPFTPIIGVLIFDGKWGPELHIITILVGCMLLAAILEFLRGFNTKNVFSGLEVAYRGMADAFAGVVMLLVAAGVFAQGLSTIGFINGLISIATSFGSASIILMLVLVILTMLAAMTTGSGNAPFYAFVEMIPKLAHSSGINPAYLSIPMLQASNLGRTISPVSGVVVAVAGMAKISPFEVVKRTSVPVMVGLLVVIVATEILVPGSAVH	PGPT0017345_302	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0017345-dcuC|dcuD-K03326	NA	NA
BMS020_04331	798	rna	COG3719	Ribonuclease I	ATGTTCAGGAAGGAATTCGCCGCGCTTGCCCTTGTGCTTACCGCCACTCAGGCCGGCGCTGAACCGCTCACCGCGACGCGATACGCTGATTTTGACCGCTATGTCCTGGCCCTCTCCTGGCAAACCGGATTCTGTCAGAGCATGTATGACCGTAACCGCAACGAACCGGAAGAGTGCCGCCTGCAGCAGGAAACCGCGAATAAAGCCGATTTTCTGACCGTGCACGGTCTGTGGCCCGGGCTGCCAAAGTCCATTGCCGCGCGCGGAGTGGATGAACGACGCTGGATGCGCTACGGCTGCGCCACGCGCCCGGTACCCGACATGCCGGAGGTGAAGGCGAACCGCAAATGTCAGGCGGCGGAGACGGGATTGTCGCTGGAGATGGCCAACAAACTGAATAGCGTAATGCCGGGTGCGGGCGGCACCTCCTGCCTCGAACGTTACGAATATGCCAAGCATGGCGTCTGCTTCGGCTTCGATCCCGACAGCTATTTTGGCGCCATGGTGCGCCTGAACGGGGAAATTAAGCGCAGCCCGGTTGGTGATTTCCTTGCCAAACACTATGGCCAAACCGTCAGCCGGGCCGACTTCGACGCCGCCGTGGCCCGCGCCTGGGGTCCGCAGAGCGTGAAGGCGTTTAAATTAACCTGTAACGGTAATCCTGCCTATTTGACCGAGATGCAAATCTCGCTCAACGCCGCGTCCATCAACGCCCCACTGGCCACCTCCGCCTTTCTGCCCCAGCCTCACCCGGGTAACTGCGGCGCGCAGTTTATCCTCGATAAGGTTGGCCACTAG	MFRKEFAALALVLTATQAGAEPLTATRYADFDRYVLALSWQTGFCQSMYDRNRNEPEECRLQQETANKADFLTVHGLWPGLPKSIAARGVDERRWMRYGCATRPVPDMPEVKANRKCQAAETGLSLEMANKLNSVMPGAGGTSCLERYEYAKHGVCFGFDPDSYFGAMVRLNGEIKRSPVGDFLAKHYGQTVSRADFDAAVARAWGPQSVKAFKLTCNGNPAYLTEMQISLNAASINAPLATSAFLPQPHPGNCGAQFILDKVGH				NA	NA	NA	NA	NA
BMS020_04333	411	rnk_2	COG0782	Regulator of nucleoside diphosphate kinase	ATGACCAGACCCGCAATCATCATTAACGAACTGGATGCCGAACGTATCGACAGGCTGCTGGAGCAGCCGGCTTTCGCCAGCTCGCCGGTTGCCGATGCCCTGAACGACGAGCTCGACCGCGCGCAAATGCTGGCGCCGGAAGCGATGCCGCACGATGTCGTCACCATGAACAGTACGGTTAAATTCCGCGATTTAACCAGCGGCGAAGAGCGCGTGCGGACGCTGGTGTTTCCGACGCAGGTGACCGACAGCGCCAGCCAGCTCTCCGTCCTCGCGCCGGTGGGCGCCGCGCTGCTCGGCCTCAAGGTCGGCAGCACCATTCACTGGGAGCTGCCGGGCGGGGCGTCAACGCACCTGGAAGTGCTGGCGCTGCTGTACCAGCCGGAAGCCGCTGGCGAATTCCACCGTTAA	MTRPAIIINELDAERIDRLLEQPAFASSPVADALNDELDRAQMLAPEAMPHDVVTMNSTVKFRDLTSGEERVRTLVFPTQVTDSASQLSVLAPVGAALLGLKVGSTIHWELPGGASTHLEVLALLYQPEAAGEFHR				NA	NA	NA	NA	NA
BMS020_04334	429	uspG_3	COG0589	Universal stress protein UP12	ATGTATAAGACTATCATTATGCCGGTTGATGTCTTTGAGATGGCGCTGAGCGATAAAGCCGTCCGGCATGCGGAGTTTCTGGCCCAGCAGGACGGGGTGATCCATCTGCTCCACGTCTTACCCGGTTCAGCGAGCTTCACGATGAGCCGTTTTACCGCCGACCTGCGGCGTTTTGAGGAACATCTGCAGCACGAGGCGGAAACCCGCCTGCAGACCATGGTCAGCCATTTCAGCATTGACCCATCGCGGATCAAGCTGCATGTGCGTTTCGGCAGCGTGCGCGACATGGTCAACGAACTGGCCAGCGAAATAAACGCCGACGTGGTGGTGATTGGCTCACGCAATCCCTCCATCAGTACTCACCTGTTGGGCTCCAACGCCTCGAGCGTCATCCGTCACGCCCATATCCCGGTGATGGTCGTCAGGTAA	MYKTIIMPVDVFEMALSDKAVRHAEFLAQQDGVIHLLHVLPGSASFTMSRFTADLRRFEEHLQHEAETRLQTMVSHFSIDPSRIKLHVRFGSVRDMVNELASEINADVVVIGSRNPSISTHLLGSNASSVIRHAHIPVMVVR	PGPT0014880_31	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014880-uspG-K11932	NA	NA
BMS020_04335	1566	ahpF_2	COG3634	Alkyl hydroperoxide reductase subunit F	ATGCTCGACACCAACATGAAAACCCAGCTCAAGGCCTATCTTGAGAAGCTGACCAAGCCTGTTGAGCTGATTGCCACGCTGGATGACAGCGCTAAATCGGCAGAAATCAGGGAACTGCTGGCTGAAATTGCTGAACTGTCAGACAAAGTCACCTTTAAAGAAGACAATACGCTGGCGTTACGCAAGCCATCGTTCCTGATTACTAACCCCGGTTCCGACCAGGGCCCACGCTTTGCGGGCTCCCCGCTGGGCCACGAGTTTACCTCGCTGGTGCTGGCGCTGCTGTGGACCGGCGGTCATCCGTCGAAAGAGGCTCAGTCTCTGCTGGAGCAGATCCGCGATATCGATGGCGACTTCGAGTTTGAAACCTACTACTCGCTCTCCTGCCATAACTGCCCGGACGTGGTCCAGGCGCTGAACCTGATGGCGGTGCTCAACCCGCGTATCAAACATACGGCGATTGACGGTGGTACTTTCCAGAATGAGATCACCGAGCGCAACGTGATGGGCGTGCCGGCGGTGTTCATGAACGGCCAGGAGTTTGGTCAGGGGCGGATGACGCTGACGGAAATCGTCGCCAAAGTGGACACCGGTGCGGAAAAACGCGCAGCGGAAGAGCTGAATCAGCGTGACGCTTACGATGTGCTGATCGTCGGTTCCGGCCCGTCCGGCGCGGCGGCCGCGGTTTACTCTGCGCGTAAAGGGATTCGTACCGGCCTGATGGGCGAGCGCTTCGGCGGCCAGGTGCTGGATACCGTGGATATCGAAAACTACATTTCGGTGCCGAAAACCGAAGGCCAGAAGCTGGCCGGGGCCCTGAAAGCGCACGTTAGCGACTATAACGTCGATGTGATCGACTCCCAGAGCGCGACCAAACTGACGCCAGCGGCGACAGAGGGCGGCCTGCATCAGATCGAAACCGCCTCCGGCGCGGTGCTGAAGGCGCGCAGCGTCATCATTGCCACCGGGGCGAAATGGCGCAACATGAACGTGCCGGGCGAAGATCAGTATCGCACCAAGGGCGTAACCTACTGCCCGCACTGCGACGGCCCGCTGTTTAAAGGTAAGCGCGTGGCGGTGATCGGCGGGGGGAACTCCGGCGTGGAAGCCGCCATCGACCTGGCGGGCGTCGTGGAACACGTGACCCTGCTGGAATTCGCACCGGAGATGAAGGCCGACCAGGTGCTGCAGGATAAAGTCCGCAGTCTGAAGAATGTCGACATTATTCTCAATGCGCAGACCACGGAAGTGAAAGGCGACGGCAGCAAGGTCACCGGTCTGCAGTATCGTGACCGGGTGAGCGGCGATGAGCATCACGTCGCGCTGGCGGGCATCTTCGTGCAGATCGGCCTGCTGCCTAATACCACCTGGCTGGAAGGCGCGGTTGAGCGTAACCGCATGGGCGAGATCATCATCGATGCGAAGTGCGAAACCAACGTTAAAGGCGTATTCGCCGCCGGTGACTGCACCACCGTGCCGTACAAGCAGATTATCATCGCGGCAGGGGAGGGGGCGAAAGCGTCGCTGAGCGCCTTCGACTACCTGATCCGCACGAAAACCGCATAA	MLDTNMKTQLKAYLEKLTKPVELIATLDDSAKSAEIRELLAEIAELSDKVTFKEDNTLALRKPSFLITNPGSDQGPRFAGSPLGHEFTSLVLALLWTGGHPSKEAQSLLEQIRDIDGDFEFETYYSLSCHNCPDVVQALNLMAVLNPRIKHTAIDGGTFQNEITERNVMGVPAVFMNGQEFGQGRMTLTEIVAKVDTGAEKRAAEELNQRDAYDVLIVGSGPSGAAAAVYSARKGIRTGLMGERFGGQVLDTVDIENYISVPKTEGQKLAGALKAHVSDYNVDVIDSQSATKLTPAATEGGLHQIETASGAVLKARSVIIATGAKWRNMNVPGEDQYRTKGVTYCPHCDGPLFKGKRVAVIGGGNSGVEAAIDLAGVVEHVTLLEFAPEMKADQVLQDKVRSLKNVDIILNAQTTEVKGDGSKVTGLQYRDRVSGDEHHVALAGIFVQIGLLPNTTWLEGAVERNRMGEIIIDAKCETNVKGVFAAGDCTTVPYKQIIIAAGEGAKASLSAFDYLIRTKTA	PGPT0013150_826	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013150-ahpF-K03387	NA	NA
BMS020_04336	564	ahpC_3	COG0450	Alkyl hydroperoxide reductase C	ATGTCCTTAATTAACACCAAAATCAAACCGTTCAAAAACCAGGCATTCAAAAATGGTGAATTCATCGAAGTCACCGAGAAAGACACCGAAGGCCGCTGGAGCGTCTTCTTCTTCTATCCGGCTGACTTCACCTTCGTCTGCCCGACCGAACTGGGCGACGTGGCTGACCATTACGAAGAACTGCAGAAGCTGGGCGTAGACGTTTACTCTGTTTCTACCGATACCCACTTCACCCACAAAGCGTGGCACAGCAGCTCTGAAACCATCGCGAAAATCAAATACGCGATGATTGGCGACCCGACTGGCGCCCTGACCCGTAACTTCGACAACATGCGTGAAGATGAAGGTCTGGCTGACCGCGCCACCTTCGTGGTTGACCCGCAGGGTATCATCCAGGCGATCGAAGTTACCGCTGAAGGTATCGGCCGTGACGCGTCTGACCTGCTGCGTAAAATCAAAGCGGCGCAGTATGTTGCTTCCCACCCAGGCGAAGTGTGCCCGGCGAAATGGAAAGAAGGCGAAGCGACGCTGGCTCCATCCCTGGACCTGGTCGGCAAAATCTAA	MSLINTKIKPFKNQAFKNGEFIEVTEKDTEGRWSVFFFYPADFTFVCPTELGDVADHYEELQKLGVDVYSVSTDTHFTHKAWHSSSETIAKIKYAMIGDPTGALTRNFDNMREDEGLADRATFVVDPQGIIQAIEVTAEGIGRDASDLLRKIKAAQYVASHPGEVCPAKWKEGEATLAPSLDLVGKI	PGPT0003260_920	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0003260-ahpC-K24119	NA	NA
BMS020_04338	750	dsbG	COG1651	Thiol:disulfide interchange protein DsbG	ATGTTAAAACGTCTGCTGTTGCTCAGCCTTTTGCCTTTTTGTAGCTATGCGGAAGAACTGCCCGCCCCGGTAAAAGCAATTGAAAAACAGGGCATTACCATCATCAAACCCTTTGACGCGCCGGGGGGAATGAAGGGCTGGCTGGGGAAATACCAGGATATGGGCGTCGCCATCTACCTCACGCCTGACGGCAAACATGCCATTTCCGGTTATATGTACGACGAAAACGGCAACAACCTCAGCGAGCAGTTATTTCAAAAAGCGCTCTACACGCCGGCGGGACAGGAGATGTGGAAGAAGATGGCCAGCGCCCACTGGCTGCAGGATGGCGACAAGGACGCCCCCATCGTGCTGTATGTCTTTGCCGATCCCTTCTGCCCTTACTGCAAACAGTTCTGGCAGCAGTCCCGTCCCTGGGTGGAGGCCGGTAAAGTGCAGATCCGCACCCTGCTGGTGGGCGTGATCAAGCCGGAGAGCCCGGCCACCGCCGCGGCGATCCTCGCCAGTAAAGATCCGGCGAAAACCTGGCACGATTACGAGCAATCGAACGGCAAAATGGCCCTGACGATACCGAAGGCTATCCCGCCGGAGAAGATGAAAATGCTCAACGTCAATCAGCAGCTGATGGACGATCTGGGGGCCAACGTCACGCCAGCTATTTATTATATGAATACGGATAATATGCTGCAGCAGGTGGTCGGCCTGCCGGATAAAGAGAAGCTGTCTATTATGATGGGTGAAAAAGAGTAA	MLKRLLLLSLLPFCSYAEELPAPVKAIEKQGITIIKPFDAPGGMKGWLGKYQDMGVAIYLTPDGKHAISGYMYDENGNNLSEQLFQKALYTPAGQEMWKKMASAHWLQDGDKDAPIVLYVFADPFCPYCKQFWQQSRPWVEAGKVQIRTLLVGVIKPESPATAAAILASKDPAKTWHDYEQSNGKMALTIPKAIPPEKMKMLNVNQQLMDDLGANVTPAIYYMNTDNMLQQVVGLPDKEKLSIMMGEKE	PGPT0013200_368	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CHAPERONES,PGPT0013200-dsbG-K03805	NA	NA
BMS020_04339	933	ybdO_2		putative HTH-type transcriptional regulator YbdO	ATGGCAAATCTTTACGATCTGAAAAAGTTCGATCTAAATTTATTGGTTATTTTTGAATGTATTTATCAGCATTTAAGCATCAGCAAAGCGGCGGCGATGTTATTTATCACCCCGTCAGCGGTAAGTCAGTCATTGCAGCGTCTGCGTCAGCAGTTAGACGATCCGCTATTTGTGCGCGTCGGGAAGGGAATGACGCCCACCACCGCCTGCGTGAATCTTCATTACCACCTGCAGCAAAATCTGGAGCAGCTGGAAAAAACGATCAATCTCAATAACCGCTCCGATCTGCGTAAACGTATTGTAATATATGGCCCCCCGCTGTTCTGTTCAGTAAACAGCCACTTTATGATTAACCAGCTTTGTCATCAGGCCAACTTGCAAATTGAACACCATAACCTGACCACCACCGAATCGGCAGAGGAGCTGCTGGCATATCGCCAGGCTGACCTGGTGTTCACCCGAATGCCCATCACCAACCGCGCCACCATCTGTCAGCCCTATCAGACGGTGCAGACCCTCGCGGTGTGTCGGACGAACCATCCGCGGCGCGAGGCGCTCACGTCAGTTGACGCGCTGGCGCAGGAGTTTTTCACCCACTATATTACCAACGATCCCGTTATCCAGCGCGTTCAGCAAAGCAGCACGCCCTGGCTGAACCCGCGTAATATTGCCTTTCGCAGCGACTCTTTTATGACCATTCTTAACATGATCAATAAAACCGATCTGATTGGCTTCTTGCCGTCCTATTTATATGATTTTATTTCGCCAGCCATGCAACTTCACGTCCTCGATATAAACGAACTTTTTCCAGACATTACGATATATATTAACTACCATCAATCATCCGCACAAAATCATTTTTTATCTGAATTAATCACCATTTTAATGAATGACAGAGAGATATCACGCCCCCTACTCAATAACAGCAAATAA	MANLYDLKKFDLNLLVIFECIYQHLSISKAAAMLFITPSAVSQSLQRLRQQLDDPLFVRVGKGMTPTTACVNLHYHLQQNLEQLEKTINLNNRSDLRKRIVIYGPPLFCSVNSHFMINQLCHQANLQIEHHNLTTTESAEELLAYRQADLVFTRMPITNRATICQPYQTVQTLAVCRTNHPRREALTSVDALAQEFFTHYITNDPVIQRVQQSSTPWLNPRNIAFRSDSFMTILNMINKTDLIGFLPSYLYDFISPAMQLHVLDINELFPDITIYINYHQSSAQNHFLSELITILMNDREISRPLLNNSK				NA	NA	NA	NA	NA
BMS020_04340	1224	cysH_2		Phosphoadenosine phosphosulfate reductase	ATGTCGTTTATCAAATATCCCTTACCGGAATCGGTGCTGCAGGCGACGGAGCAGCGGATCGATTGGGTTATGGATAATTTTTCACGCATTTGCGTCTCTTTCTCTGGCGGAAAAGACTCTACCGTTATGCTCCATTTAACCGCGCAGGCAGCGCGGTTACAGGGTAAGAAAATCAGCGTGCTGTTTATTGACTGGGAAGCGCAGTTCTCCTGCACCATCGCTCACTGTGAAAAACTGCGCGCCCTCTATCAGGATGTTATCGATACCTTTTACTGGGTCGCCCTGCCGCTCACTACCCAAAATGCCCTGACGCAGTATAAGCCGCAATGGCAATGCTGGCAGCCCGGCACCGCCTGGGTCCGCCAGCCCCCCTCCTGGGCCATTACCCACCCGGGCTATTTTTCGTTTTATCAGCCGGGGATGAGCTTTGAAGCCTTCGTCAGCCACTTTGCCGAGTGGTTTTCACAGCGCCGTCCCGCCGCCGTGCTGGTGGGTATTCGGGCAGATGAGTCGCTGAATCGCTTTATGACCATCTCTTCTCAGCGAAAACAGCGCTTCGCCGACGATAAACCGTGGACCACCTCGGCGCCGGGCGGCCACGCCTGGTACATCTACCCGATCTATGACTGGAAAACCGCCGATATCTGGACCTGGTTTGCTAAAAGCGGCCAGCCCTATAACCCGCTGTACGATCTGATGTATCAGGCCGGTGTGCCGCTGCGCTATATGCGCATCTGCGAACCCTTCGGTCCGGAGCAGCGCCAGGGGCTATGGCTGTACCATGTGCTGGAGCCGGAGCGCTGGGCCGCGATGTGCCAGCGGGTGAGCGGCGCGCACAGCGGCGGCGTCTATGCCGGGCATGATAATCAATTCTACGGTCACCGAAAAATCGACAAACCGGACCATTTGACATGGAAAAGCTATGCGCTGTTTCTGCTCGACAGCATGCCGGAAACCACCGCCGAGCATTACCGCAATAAGATCGCCGTCTACCTGCGCTGGTACCAGAAAAAAGGCATGGAAGAGATCCCTGATACTCAGCCCGCGGACGTTGGCACCAAAGATATCCCCTCCTGGCGACGGATCTGCAAAGTGCTACTCAATAATGACTACTGGTGCCGCCAGCTCTCCTTCAGCCCAACCAAAAGCAGCCACTATCAGCGCTACCGAAAACGTATGGAAAAACATCGCCAACAATGGGGGATATTATGCAACAACAACTAA	MSFIKYPLPESVLQATEQRIDWVMDNFSRICVSFSGGKDSTVMLHLTAQAARLQGKKISVLFIDWEAQFSCTIAHCEKLRALYQDVIDTFYWVALPLTTQNALTQYKPQWQCWQPGTAWVRQPPSWAITHPGYFSFYQPGMSFEAFVSHFAEWFSQRRPAAVLVGIRADESLNRFMTISSQRKQRFADDKPWTTSAPGGHAWYIYPIYDWKTADIWTWFAKSGQPYNPLYDLMYQAGVPLRYMRICEPFGPEQRQGLWLYHVLEPERWAAMCQRVSGAHSGGVYAGHDNQFYGHRKIDKPDHLTWKSYALFLLDSMPETTAEHYRNKIAVYLRWYQKKGMEEIPDTQPADVGTKDIPSWRRICKVLLNNDYWCRQLSFSPTKSSHYQRYRKRMEKHRQQWGILCNNN				NA	NA	NA	NA	NA
BMS020_04341	627	ybdM	COG1475	putative protein YbdM	ATGCAACAACAACTAACGCAGGCGCTGGAGGATTTCCTGCAAACGCTGGATGACGAAGCGCGTATCGAGGCTATCAACGCGTTTCGCCAGGTGCTCCACCAACACAGCCCCTTCCGCTCGCAGCCCGTTGACTGTGTGCTGTGGGTCAAACAGGAGCAGGTTATCCCCAACGACTATAATCCGAATAACGTGGCGCCGCCGGAGAAGCGCCTGCTGCAGACCTCGCTGGAGGCCGATGGCTTTACCCAGCCGGTGGTGGTCATCAGGCAGGGACCGCAGGGGTACGCGATTGTCGACGGTTTTCACCGCCATGAGCTGGCCTGCAGCAAAGCGTCGCTGAAAAAAAAGCTGAAAGGCTATCTACCGGTCACCTGCCTGACGCATGAAAACGCCACACGCGACGGGCTGATGGCAGCGACAATACGCCACAACCGGGCGCGCGGACGCCACCAAATCCACGCCATGTCAGATATTGTCCGCGAGCTAACCCGCCTCGGCTGGACGCCGCAGAAGATCGGCAAAGAGCTGGGAATGGATGCCGATGAGGTGCTGCGCCTGAAGCAAATTAGCGGCCTGGCAGAGATGTTCGCCGACCGCCAGTTCTCTCAGGCGTGGACCATAAAGTAA	MQQQLTQALEDFLQTLDDEARIEAINAFRQVLHQHSPFRSQPVDCVLWVKQEQVIPNDYNPNNVAPPEKRLLQTSLEADGFTQPVVVIRQGPQGYAIVDGFHRHELACSKASLKKKLKGYLPVTCLTHENATRDGLMAATIRHNRARGRHQIHAMSDIVRELTRLGWTPQKIGKELGMDADEVLRLKQISGLAEMFADRQFSQAWTIK				NA	NA	NA	NA	NA
BMS020_04342	1161	ybdL_1	COG0436	Methionine aminotransferase	ATGAGTAATAACCCATTGATTCCAGAGAGTAAACTTCCGTCACTTGGCACCACCATTTTTACCCAGATGAGCGCTCTCGCCCAGCAGCATCAGGCCATAAACCTGTCGCAGGGCTTTCCCGATTTCGACGGCCCGCGCTATCTTCAGGAGCGTCTGGCGTACCACGTGGCGCAGGGGGCGAATCAGTATGCCCCGATGACCGGCGTGCCGGCGCTGCGTGAGGCGATCGCTGACAAGACGGCGGAGCGGTATGGATATCGACCCGACGTCAACAGCGATATTACGGTCACCGCCGGGGCGACGGAGGCCCTGTACGCGGCGATTACCGCTCTGGTGCGCCGCGGCGACGAGGTGGTCTGTTTCGATCCCAGCTACGACAGCTATGCTCCCGCGGTGGCGCTGGCCGGCGGCGAATTACGCCGTATTGCCCTTCAGCCGCCGCATTTTCGCGTCGACTGGCAGCAGTTTGCCGCGACGCTGAGCGACAAAACCCGGCTGGTGATCCTCAACACCCCGCACAATCCCTCGGCCACGGTCTGGCAACGCGAGGATTTTGCCGCCCTGTGGCAGGCGATTGCCGAACGCGAGATCTATGTTCTCAGCGACGAGGTCTATGAGCATATCAACTTTGCCGAGGACGGCCACGCCAGCGTGCTGGCGCATCCGCTATTGCGCGAGCGGGCGGTGGCGGTCTCTTCGTTTGGCAAAACGTTTCATATGACCGGCTGGAAGGTTGGCTACTGCGTGGCTCCGGCGGCCATCAGCGCGGAGCTGCGCAAGGTGCACCAGTATCTGACCTTCTCGGTAAATACCCCGGCGCAGCTGGCGATCGCCGACATGCTGCGTGAGGCGCCGGATCACTACCGAGAACTACCGGCCTTTTACCGTGAACGCCGCGATCTGTTTATTGAGGCGCTGCGCCCCAGCCGGCTGGAGCTCCTGCCCTGTGAGGGGACCTATTTCCTGCTGGCGGACTACAGCGCCATCTCCGACCTTGACGACGTCAGCTTCTGCCGCTGGCTGACGACAGAGGTTGGGGTGGCGGCGATCCCGCTCTCCGTCTTCTGCGCCGACCCGTTCCCGCACAAGCTGATCCGCTTGTGCTTCGCCAAACAACCGGAGACCTTGCTGGCCGCGGCGGCGCGTTTGTGCGAGCTGTAG	MSNNPLIPESKLPSLGTTIFTQMSALAQQHQAINLSQGFPDFDGPRYLQERLAYHVAQGANQYAPMTGVPALREAIADKTAERYGYRPDVNSDITVTAGATEALYAAITALVRRGDEVVCFDPSYDSYAPAVALAGGELRRIALQPPHFRVDWQQFAATLSDKTRLVILNTPHNPSATVWQREDFAALWQAIAEREIYVLSDEVYEHINFAEDGHASVLAHPLLRERAVAVSSFGKTFHMTGWKVGYCVAPAAISAELRKVHQYLTFSVNTPAQLAIADMLREAPDHYRELPAFYRERRDLFIEALRPSRLELLPCEGTYFLLADYSAISDLDDVSFCRWLTTEVGVAAIPLSVFCADPFPHKLIRLCFAKQPETLLAAAARLCEL	PGPT0020025_497	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020025-ybdL-K14287	NA	NA
BMS020_04343	690	mtnC_1		Enolase-phosphatase E1	ATGATCCGCGCCATCGTGACCGACATAGAAGGCACCACCAGCGATATCCGCTTCGTGCATAACGTGCTGTTCCCCTACGCCCGCGAACGACTGGCCGGCTTTGTGACCGCTCAGCAGCACGCTGAACCGGTGAGAACGATCCTCGACAACTTGCGCCGCGAGACAGACGCCCCCGCCGCCAGCACCGCCGACCTGATTGCTACCCTCTTCGCTTTTATGGACGAAGATCGGAAATCCACTGCGCTGAAGGCGCTGCAGGGGATCATCTGGCGCGATGGCTACCTCAACGGCGACTTTACCGGCCATCTCTACCCGGACGTGCTGCCGGCGCTGGAGAAATGGAAAGCACAGGGCATTGATCTGTATGTATATTCTTCTGGCTCCGTGGCAGCGCAGAAATTGTTATTTGGCTACAGCGATGAAGGTGATATTACTCATCTGTTTACGGGCTATTTCGATACCCTGGTAGGCGCCAAACGCGAAGCGCAGTCCTACCGCAATATTGCTGAACACCTGGGCCACGCCCCCGGGGCCATCCTGTTCCTGTCGGATATCCATCAGGAACTCGACGCCGCCGAAGCCGCGGGGTTGCGCACTGTCCAGCTGGTACGCGGCGACCGCGACCCGGCAAGCCGCCACCCTCAGGTTCAGCGTTTTGACGACATTCATCCGGAGCAGATCCCAGCATGA	MIRAIVTDIEGTTSDIRFVHNVLFPYARERLAGFVTAQQHAEPVRTILDNLRRETDAPAASTADLIATLFAFMDEDRKSTALKALQGIIWRDGYLNGDFTGHLYPDVLPALEKWKAQGIDLYVYSSGSVAAQKLLFGYSDEGDITHLFTGYFDTLVGAKREAQSYRNIAEHLGHAPGAILFLSDIHQELDAAEAAGLRTVQLVRGDRDPASRHPQVQRFDDIHPEQIPA				NA	NA	NA	NA	NA
BMS020_04344	543	mtnD_1	COG1791	Acireductone dioxygenase	ATGAGCGCATTAACCCTTTTTTCCGTGAAAGATCCGCAAACGCCGGTCTGGCACAGCACCGACGCCAAAGCGATTCAGGAGCAGCTTAACGCCAAAGGCGTCCGTTTTGAGCGCTGGCAGGCTGACCGCGATCTCGGCGCGGCCCCCAGCGCAGAAACAGTGATTGCCGCCTATCAGCATGCGATTGACAAACTGGTCGCCGAAAAGGGCTATCAGAGCTGGGACGTCATCAGCCTGCGCGCCGATAACCCGCAGAAAGAGGCGCTGCGGGAAAAATTCCTGAACGAACACACTCATGGCGAAGACGAGGTCCGGTTTTTTGTCGAGGGCGCCGGCCTGTTCTGCCTGCACATTGGCGACGAGGTGTTCCAGGTGCTGTGCGAAAAGAACGATCTGATTTCGGTTCCCGCCCACACTCCGCACTGGTTTGATATGGGTTCAGAACCGAACTTCACCGCCATTCGCATTTTTGATAACCCGGAAGGCTGGATCGCCCAGTTTACCGGCGACGATATCGCCAGCGCCTACCCACGGCTGGCGTAA	MSALTLFSVKDPQTPVWHSTDAKAIQEQLNAKGVRFERWQADRDLGAAPSAETVIAAYQHAIDKLVAEKGYQSWDVISLRADNPQKEALREKFLNEHTHGEDEVRFFVEGAGLFCLHIGDEVFQVLCEKNDLISVPAHTPHWFDMGSEPNFTAIRIFDNPEGWIAQFTGDDIASAYPRLA				NA	NA	NA	NA	NA
BMS020_04345	2310	dmsA_2	COG0243	Dimethyl sulfoxide/trimethylamine N-oxide reductase	ATGAAGAAACAGCATAATTATACGGTGATGCACTGGGGAACCTGGCAGGTGGAGAGCCGCGAGGGCGAGATCGTGGCGGTTAAGCCGGTGCCCTGGGATAAAAACCCCTCACGCATCGGTCAATCGCTCCCCGACGCGGTGACCAGCCAAACGCGCATTCGCCGCCCGGCGGTGCGCGTCGGCTATCTGCAGCACGGGCCGGCGTCACGAGAAGGGCGAGGCAAGGAGCCCTTTGTCGAAGTCAGCTGGGAGGTGGCCCTGGACCTGGTGGCTCGCGAGCTGCGCTCGGTCAAGGCGCGCTGCGGCAATGAGGCGATTTACGGCGGCTCCTACGGCTGGGCCAGCGCCGGGCGCTTTCACCATGCGCAGAGCCAGCTGCACCGTTTTCTTAAGGGCTTTGGCGGGTATACCGCCAGCACCAATACCTATAGCAGCGCCGCGGGCGAGCGCATTCTGCCGCATATTCTCGGGCCGCTGAGCCCGCTGCACCGTCAGCATACCCATTTTTCCGAGCTGGCGCGGGAGTGTCAGCTGTTTGTCGCGATTGGCGGTCTGCCGCTGCGCAATGCCCAGGTCAACGGCGGCGGCGCCAATGACCATATGCTGCCGTACTGGCTGGATAAGATGCAGGCCAACGGCACGCGGTTTATTAATATCAGTCCGGTGCGCAATGACCTCAGCACGGTGGCCGACGCCGAGTGGCTGGCTATTCGGCCGGGCACCGATACCGCACTGCTGCTGGCGCTGAGCTATGTGCTGATCGCTGAGTCCCTCTACGACCAGGCGTTTGTCGCCAGCCATACCGTCGGGTTTGCCCCCTATCGCGCCTATCTGTTGGGCGAGCATGACGGTGTGGCGAAAACCCCGGCGTGGGCGGCGGCGATAACCGGCCTGGACGCGCAGCGCATCGCCGACCTGGCGCGGGAGATGGCCCACCACCGGACGATGGTGAATATCTCCTGGTCTATCCAGCGCGCCCGTCAGGGGGAGCAGGCCTACTGGGCGACGGTGGCCCTGACCGCGCTGCTGGGACAGATCGGCACGCCCGGCGGCGGCCTCGGGTTTGGCTATGCCTGTACCAACCTGGCGGGCGCGGTGCGAAAAGCGTTTTCCGGCCCGCGCTTGCCCGCCGGGGAGAATGCGGTGGACAGCGTCATCCCGGTGGCGCGGCTGTCCGATATGCTGCTGCACCCGGGAGAAGCCTATGAGTTCGACGGTCAGCAGCTGCATTATCCCGACATCCGTCTGGTCTACTGGGCGGGAGGCAATGCGTTTCATCATCACCAGGATATTAACCGACTGTGCGAGGCCTGGCGCCGTCCGGAGACGGTGGTGGTGCATGAGCAGTACTGGACCGCGCAGGCCAAATTCTCCGACATCGTTCTGCCGGCTACCACCTCGCTGGAGCGAGAGGATATCGGCAGCGGCGGTCACGACGGATTTATGATTGCCATGAGCGCGCAGATCCCGCCGGTGGGCGAAGCGCGTGATGATTACGCTATTTTCCTCGATCTTGCCGGGCGGTTGGGCTTCGGAGAACAGTTCAGCGAGGGGCGGGACGCCGGGCAATGGCTGCGCCATCTCTATGAGGAGTCAAGACCGCGGGCGCAGGAGGAGGGCATTGCGCTGCCCTCGTTCGAAGACTTCTGGCAGCAAGGGGTGCTGGAGTACAGCGCGCCGGCGCGGCCGCAGGTCTTTCTCGCCGAATTTCGCGCCGATCCGCAGCGCTATCCGCTTTCCACACCCTCCGGCAAGATTGAACTCTTTTCCGCTACCGTCGCCGGGTTTGGCTATCGCGAATGCCCTGGCCATCCCTGGTGGGATGAGGAAGAGGCCGCCCGGCAGCGACAGGAGGCGGCGCGCTGGCCGCTTCATCTGCTCTCCAGTCAGCCGCGCGCCCGTCTGCACAGTCAGTACGACCACGGCAGCGTCAGCCGGGCGACGAAAATTCAGGGACGCGAGCCGTTGTGGATGCATCCGCAGGATGCGCAGGCAAGAGACATTCGCGAAGGCAGCGTGGTGAAAGTGTATAACGACCGTGGGGCGATTCTCGCGGGCGTGCACCTGAGCGAGCAGATTTTGCCGGGGGTGGTACAGATGTCCACCGGCGCCTGGTATGACCCTCTGGATCCGAATGAAAAAGGATCCCTCGATAAGCATGGTAATCCCAACGTGTTAACCGAGGATCGCGGCAGTTCGCGCCTGGGACAGGGCTGTAGCGCCCAGAGCTGTTGGGTGGAGATCGCCCCGTGGCGAGAGGAACTGCCGCCGATCACCGCCTTTGACCCGCCGAAGTTTATTGCGGTTTAG	MKKQHNYTVMHWGTWQVESREGEIVAVKPVPWDKNPSRIGQSLPDAVTSQTRIRRPAVRVGYLQHGPASREGRGKEPFVEVSWEVALDLVARELRSVKARCGNEAIYGGSYGWASAGRFHHAQSQLHRFLKGFGGYTASTNTYSSAAGERILPHILGPLSPLHRQHTHFSELARECQLFVAIGGLPLRNAQVNGGGANDHMLPYWLDKMQANGTRFINISPVRNDLSTVADAEWLAIRPGTDTALLLALSYVLIAESLYDQAFVASHTVGFAPYRAYLLGEHDGVAKTPAWAAAITGLDAQRIADLAREMAHHRTMVNISWSIQRARQGEQAYWATVALTALLGQIGTPGGGLGFGYACTNLAGAVRKAFSGPRLPAGENAVDSVIPVARLSDMLLHPGEAYEFDGQQLHYPDIRLVYWAGGNAFHHHQDINRLCEAWRRPETVVVHEQYWTAQAKFSDIVLPATTSLEREDIGSGGHDGFMIAMSAQIPPVGEARDDYAIFLDLAGRLGFGEQFSEGRDAGQWLRHLYEESRPRAQEEGIALPSFEDFWQQGVLEYSAPARPQVFLAEFRADPQRYPLSTPSGKIELFSATVAGFGYRECPGHPWWDEEEAARQRQEAARWPLHLLSSQPRARLHSQYDHGSVSRATKIQGREPLWMHPQDAQARDIREGSVVKVYNDRGAILAGVHLSEQILPGVVQMSTGAWYDPLDPNEKGSLDKHGNPNVLTEDRGSSRLGQGCSAQSCWVEIAPWREELPPITAFDPPKFIAV	PGPT0022135_358	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022135-bisC-K08351	NA	NA
BMS020_04346	981			hypothetical protein	ATGTCGCAGAAGAAAAAATTATTGCCTGCCGCGCTGGGACTGCTTTCCCTTGCCTCGCTGAGCGTCACCGCCGCTGACGCCCTCTCCTTACAGGGAAAAACCATTGGCGTTGCCGTCGTAGGCACCCAGCATTTCTGGGATCGCGAGGCTTTCAAAGGCGCGACAGAAGAAGTGGAGAAGCTGGGGGGCAAAGTCATTGGCGTCGATGGCGGCCGGGATAATCAGGTTCATGCCAATAATCACGATATTTTACTGTCACGCAAGGTGGACGCGGTAATTAGTATTCTCGGCGACAGCGCCGTCGAACCCAAATTTAAAGCCTTACGTGATGCCGGCATCCCGGTATTCACCGTGGATCATGTTTCACAATATTCGGTCAACAATTCCACCTCCGATAACTACACTCTGGGCTCCACCATCGGTCGCTACATGGCGGACGAATTAGGCGGCAAAGGTAATGTGGCGGTATTTAACGCGTTCTCCAGCGCGCTGCGTATTTGCGGAATTCGCTACGATCAGTGGAAATATGTCCTTAAGGATTATCCGGATATTCATATTATCCAGCCTGAGCTCGCGGAACAGTTCGCCAACTCGCCGGAAGACGCGCGGAAGAAAACCCTCGAATTACTCAGCCAGTATCCGAAAGGCAAACTGGATGCCATCCATGTCGCCTGCTGGGATCAACCGGCCATCGGCATCGTCCAGGCGCTGGAAGAGACCGGTCGTGATAAGGACGTGAAAGTGACGGCCATCGATGCCGGCCCGGAGACACTGGAGATCATGGCGGAGCCCGGCAGCCCCTTCGTGGCTAACGTCGCGCAGCAGCCGCATCTGATCGGCCAGACCTCCGCCGATAACGTGGCCCGCTACTTTGCCGGTCAGAAACTGCCGGTGCAAACCTTTATCCCGGTCATACCGGTGAAAGGTCCGCAGGAAGCGAAAGCGGTATATAAACAGTTGGGATACGGCGAACTGCAGTGA	MSQKKKLLPAALGLLSLASLSVTAADALSLQGKTIGVAVVGTQHFWDREAFKGATEEVEKLGGKVIGVDGGRDNQVHANNHDILLSRKVDAVISILGDSAVEPKFKALRDAGIPVFTVDHVSQYSVNNSTSDNYTLGSTIGRYMADELGGKGNVAVFNAFSSALRICGIRYDQWKYVLKDYPDIHIIQPELAEQFANSPEDARKKTLELLSQYPKGKLDAIHVACWDQPAIGIVQALEETGRDKDVKVTAIDAGPETLEIMAEPGSPFVANVAQQPHLIGQTSADNVARYFAGQKLPVQTFIPVIPVKGPQEAKAVYKQLGYGELQ	PGPT0015740_2133	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
BMS020_04347	1503	xylG_2	COG1129	Xylose import ATP-binding protein XylG	ATGGACCAGATCGGCAAACGTTTTGCCAGCGTAACGGCGCTTAATGCGGTTACCCTGCGCCTCAATCCGGGGGAAATTCATGGCCTGATTGGCGAGAACGGCGCCGGTAAATCGACGCTGATCAAAATCCTCGCCGGCGTCTATCAGGCCGACAGCGGCAGCGCGACCCTCGACGGTCGCCCGCTGCCCCTCGGCAACCCGGCAGCCATCGAAGCCGCCGGCATCCGCGTGATCCACCAGGAGCTCAACCTGATCCCGCACTTTACCGTCGCGGAATCGGTGTTTCTGGGTCAGGAGTATCGCACCCGCTGGGGGGCGCTGGATCGCCGACGGATGAGGGCCGCCACGGCGCAATTTTTCCAGCAAAACTGGCAGCTGGCGATCGACCCCGAACGCCTGGTGCGGGATCTGAGCCTGGCCGAGCGCAAGCTGGTGCAAATCGCCCGCGCGCTGATCGACGGCGCGGCGCGGCTGGTGGTGTTCGACGAGCCCACCGCCCCCCTCGAGGCCCAGGAGGCCAGTCTGGTCTCCTCCGCCATTCTGCGCCTGCGCGACCAGGGCATTGCCATTCTGTATATTTCCCACTACCTCAATGAGATAGCAACCCTCTGCGACCGCGGCACCGTGCTGCGCAACGGGGAAGTGGTCGGCTACCCGGACCGCGACCTGCTGCAGAATACCGAGGCGCTGATCGCCATGATGGTCGGCCGGGAAATCGACCAGCTGTATACCCCGCGCCAGCGCCCGGCGGCAGACAACGGGGCGGCTCCATTACTCTCGGTGCGCCAGCTGAGCGACGGACGGCAGCTACAGGACCTCTCTTTTGATATTCACCCGGGGGAGATCGTCGGCGTCGCCGGCCTGCTCGGCGCCGGGCGCGATGTGCTGGTTGACTTACTCTACGGCTTACGCCCGGCGGAGCGCGGTACGATCCACCTCGACGGCCAGCCGCGACGTATCCGTACGCCAAAGCAGGCGATCCGCGCCGGAATGGCGCTGGTCCCGCGTGACCGCCGTCATCAGGGGCTGATCCTGCCTTTCACCACCGCTGACAACATTAATCTCGCCTCGCTGCCGGAGACCGCCACCTTTGGCTGGGAGCGGCGGGGGCTTGCCGAGCAGAAAGCGCGCGACTGGATAGCACAGCTGGCGATCCGCCCGGGACGCCCGGCCCTGCCGGTACGCTACATGAGCGGCGGCAACCAGCAAAAAGCGATCCTCGCCCGCTGGCTCGGCACCGATGCCCGGCTGTTTATTCTCGATGAACCCACCCTTGGGGTTGATATCGGCGCCCGCCGCGATATTTATCAACGTACGCGCCAGCTGGCCGATCAAGGACGGGCGGTGCTGGTCTCCTCCAGCGACGCCACCGAATTACTCGGACTATGCGACCGGATCCTCGTCCTCTGGCGCGGCGCGCTGGCGGCCAATCTGCCCACCCGCGGGCTGACCCTCGACGCCCTGCTGGTGGCGATCAACGGCGGACAGGAGCCTTCACCATGA	MDQIGKRFASVTALNAVTLRLNPGEIHGLIGENGAGKSTLIKILAGVYQADSGSATLDGRPLPLGNPAAIEAAGIRVIHQELNLIPHFTVAESVFLGQEYRTRWGALDRRRMRAATAQFFQQNWQLAIDPERLVRDLSLAERKLVQIARALIDGAARLVVFDEPTAPLEAQEASLVSSAILRLRDQGIAILYISHYLNEIATLCDRGTVLRNGEVVGYPDRDLLQNTEALIAMMVGREIDQLYTPRQRPAADNGAAPLLSVRQLSDGRQLQDLSFDIHPGEIVGVAGLLGAGRDVLVDLLYGLRPAERGTIHLDGQPRRIRTPKQAIRAGMALVPRDRRHQGLILPFTTADNINLASLPETATFGWERRGLAEQKARDWIAQLAIRPGRPALPVRYMSGGNQQKAILARWLGTDARLFILDEPTLGVDIGARRDIYQRTRQLADQGRAVLVSSSDATELLGLCDRILVLWRGALAANLPTRGLTLDALLVAINGGQEPSP	PGPT0016600_3683	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
BMS020_04348	990	alsC	COG1172	D-allose transport system permease protein AlsC	ATGAGTACCGCTATCCAGCGTCGCAGCCGTCCGGGCCTGGCGACGCTTATTGAAAAATTCCCCCTGATCCTGTTTCTGGCGCTGCTGGTGTGGCTGAGCGTGCAGTCGCCCTACTTCCTCAGCTGGCAAAATATCAGCCTGATGCTGGTCCAGAGCGTTCCGCTGGCGATCCTCTGTTTCGGCCTGGTCTGCGTCATCGCCGTTGGCGGAGATGACGTGGTCTCCGGCGGCATCGACCTCTCCCTGCCGGCGACCGCGGTGCTCGGCGTCGCGCTGCTCAGCCTTGGGCTGGCCGAATGGCACACGCCGTATCTCCTGCTGCTGGCGCTGCTGACGGCGGTTTGCCTGCTCTGCGGGGCGATCAACGGCTTCCTGGTGCTGGCGGCCGGCCTGCCGCCGCTGCTGGCCACCCTCTCGACTTCGGTGGCGTTTACCGGCCTGACGGACCTGTTGACCGGCCAGCGGCGCATCGCGGTCAGCGATCCGCTGATGGTCGCCTTTCGCGATAACAGCGTGCTGGGCCTGCCCTGGCCGCTGGTCTATCTGCTGGGGGTGTTTATCCTGTTCCAGTTCCTGCTCCATCACTCCCGCTTCGGCCAGCATGTGCAGGCGGTGGGCGGCAATCGCGATATGGCGCAGATGAGCGGCCTGAACGTGCGCCGCTTAACCCTGCTGGTCTGGCTGTTAGCGGGCATCGCCGCCGGGCTGGCTATTCTGCCGCTGCTCAGCCAGGGCTCCGGCAGCTCCAGCGGAACGGCCACGCCGCTGCTGCTGGAAACCGTGCTGGCGACCTTTATCGGCGCCGCCTTCTCGCGTCGTCGGGTGGTCACCATCTGGGGCGCGCTGCTGGGGGCGATTCTGGTTAACGCCCTCTCTAACGGGCTCGGCCTGCTGGGAGTCAATATCTTCTGGATGGGCGCCATTAAAGGCGGCCTGATCCTGGTGGTGCTGGCGGCATCGGCGGTCAGACACAAAGGAGGCGAGGCATGA	MSTAIQRRSRPGLATLIEKFPLILFLALLVWLSVQSPYFLSWQNISLMLVQSVPLAILCFGLVCVIAVGGDDVVSGGIDLSLPATAVLGVALLSLGLAEWHTPYLLLLALLTAVCLLCGAINGFLVLAAGLPPLLATLSTSVAFTGLTDLLTGQRRIAVSDPLMVAFRDNSVLGLPWPLVYLLGVFILFQFLLHHSRFGQHVQAVGGNRDMAQMSGLNVRRLTLLVWLLAGIAAGLAILPLLSQGSGSSSGTATPLLLETVLATFIGAAFSRRRVVTIWGALLGAILVNALSNGLGLLGVNIFWMGAIKGGLILVVLAASAVRHKGGEA	PGPT0016590_3338	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
BMS020_04349	1005	rbsC_3	COG1172	Ribose import permease protein RbsC	ATGAGCCAAATCACCCTGAAAACCCCAGCGCCTGCGGAACAGACGGTCAGCAGCCCGCTGGCCTGGCTGTCGCGGGCCGGATTCGGCGTCATCACCCTGCTGGCCATTGCCCTGTTCGGCTGGGCGAATCCGGTATTTTTAACCGTGGATAACTGGGCCAACCTGCTGCAGGGCAGCGCGATCCTGCTGATTGTGGCGATGGCGATGACCTTGATCGTCAGCGCGGGCGCGATTGACCTGTCGGTAGGCGTCGCGCTCGATTTTGGCGCCGCCTTCGCCCTCGTCGCCCTGAAAACCTGGCATCTGCCGTGGCAGGCGGCGGTGGGCTGCGCCCTGCTCGGCGGGGTGCTGATTGGCCTGCTCAATGCCTTTCTGATCCTCATCTGCCGGATCCGCCCCTTCCTCGCCACCCTCGGCACCTGGTTTATCGCCAGCAGCGCCGAACGCATCTATACCGATGGCGGCGGCGCGATAGCCTATCGGCGGATGGCCCCCGAGTATCACGACCTGGCGGTGGGTAACCTTGGCGGCATCCCCACGCCGGTCGCGATCGTGCTGGCGCTGTGGCTGGCGGCCTGGCTGGTCACCGAGCGTACCCTGTGGGGCAAATATATCCGCGCCATCGGTCAGAACAGCGAAGCGGCGCGCATCGCCGGGATCCGCGATCGCCTGACCATGCTCGGCGTGCTGGTGGCCGCCTCGGCCCTCTGCGCCGTCGGCGGGGTGATCCTCTCCGCCAACCTGCGGCAATTTACCCCGCTGGCCGGGCAGTCTTATCTGATGGACGCCATTGCGGCGGTGTTTATCGGCACCGCCTTTAACCGTCTGGGCCGGGTCAGCATCGCCGGCACGCTGGGCGGCGTGCTGTTCCTCGCCATTATTGATAATGGTCTGAATCTGATGGGGCTCAATTATCTGGTGAAGGACGCGCTGGTCGGGGTGATTCTGGTGGTGGCCCTCGCCCTATCCTTCTGGCAGGCGCGCCTGCGCCAAACGCATCGCTAA	MSQITLKTPAPAEQTVSSPLAWLSRAGFGVITLLAIALFGWANPVFLTVDNWANLLQGSAILLIVAMAMTLIVSAGAIDLSVGVALDFGAAFALVALKTWHLPWQAAVGCALLGGVLIGLLNAFLILICRIRPFLATLGTWFIASSAERIYTDGGGAIAYRRMAPEYHDLAVGNLGGIPTPVAIVLALWLAAWLVTERTLWGKYIRAIGQNSEAARIAGIRDRLTMLGVLVAASALCAVGGVILSANLRQFTPLAGQSYLMDAIAAVFIGTAFNRLGRVSIAGTLGGVLFLAIIDNGLNLMGLNYLVKDALVGVILVVALALSFWQARLRQTHR	PGPT0016590_2442	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
BMS020_04350	942	ydjH	COG0524	putative sugar kinase YdjH	ATGGCAACCTTTGACGCCGTGTTTGTCGGCCTGACTATTCTGGATATCGCCGGGCGCCCGGTGGTGGCGATCCCGCCGCGCGGCGGCGTCGCCTTTATTGAGCAAATTCGCCTCAACCCCGCCGGCACCGCCGCGGGGGCCAATATTAACGCCGCGAAGCTCGGGATCCGCACCGCAGCGGTGGCCTGCCTGGGCGAAGATGAAAAAGCCGACTTTATCCTCGCCAGCTATGCCCGGCTGGGCATCGACTGCTCGCTTATCCAGCGCACCGCGCTGAAGGAGACCTCGGCGACGATTCTGCCGATTCGCCCCAACGGCGAACGTCCGGCCCTGCACTGCCGGGGCGCGTCTGACGCCCTGTTCGTCAGTGAGGCGGAATTTGACGCCGTCCTTGACTGTCGCTTCCTGCATCACGGTGGGACCGGACTGCTGGCGGCAATGGACCAGGGACAGAGCGCGCGGCTGTTGCAGGCGGCCAAAGCGCGCGGGGTCACCACCAGCTTTGATCTTATCGCCCCGAATGAACACACTCTGGAACTGCTGCGGCCCCTGCTGCCGTCGGTGGATTATTTCATGCCTTCCCTGGAGGAAGCCGCCTTTCTCTCCGGGGAGACGCAGCCGGAGGCCATCGCCCGCTTTTTCTTTGCGCTGGGCGTGGGCACCTGCATTCTGAAAGACGGCGAGAACGGCTCCTGGCTTATCGGCCGCGATGGCGCGCTGGAGCATATTGCGCCGTGGCCGGTCGAGGCGGTGGATACCACCGGCTGCGGCGACAGCTACTGCGGCGGGTTTATAGCCGCGCTGGCGCGCGGACTCAGCGTGAAAGCGGCGTGCGACGTCGCCTCGGCGGTGGCCGCGCTGGTGGCGACCGGGATGGGATCGGATGCCGGGGTGGTGGACTGGGAACAGACCCAGGTTTTTATGGCGGCCCATCGCCCCTGA	MATFDAVFVGLTILDIAGRPVVAIPPRGGVAFIEQIRLNPAGTAAGANINAAKLGIRTAAVACLGEDEKADFILASYARLGIDCSLIQRTALKETSATILPIRPNGERPALHCRGASDALFVSEAEFDAVLDCRFLHHGGTGLLAAMDQGQSARLLQAAKARGVTTSFDLIAPNEHTLELLRPLLPSVDYFMPSLEEAAFLSGETQPEAIARFFFALGVGTCILKDGENGSWLIGRDGALEHIAPWPVEAVDTTGCGDSYCGGFIAALARGLSVKAACDVASAVAALVATGMGSDAGVVDWEQTQVFMAAHRP				NA	NA	NA	NA	NA
BMS020_04351	1029	yoaD	COG0111	Putative 2-hydroxyacid dehydrogenase YoaD	ATGAAAATCGTTTTTACCGCCGAGCATGCTGGCGACCTTAGCGCCTTCCACCAGCTGGGCGAACTGCTGGTAGAGGGATGGGCGCTGGGCAAACCGAAACTCAGCGCCGGCCAGCTGATTGAGCTGGCCCACGACGCCGAGGTGCTGGTGACCAGCTATGATGAAGTGACGGACGCGGTGATGGCCGCCTGTCCGCGCCTGCAGGTGATCGCCTGTACCCGCGCCAATCCGGTGAATATTGATACCCAGGCCGCGCAGGCGCGCGGCATCCGGGTGCTCTACACCCCGGGGCGCAATGCCGATGCCGCCGCGGAGCTGACGCTTGGCCTGATGCTCAGCCTGGCGCGCCACATTCCGCAATCCCATGCGGCGCTGAAGCGGGGGGAGTTCACGCAGGCTGATAATGCCGCCGCCGCCACCCAGCAGGGCCTGCGGCGCGATGTGGTCTGGGACGTGAGCCCGGAAAGCCCCTATGAAGTGTTTAAGGGCAGTGAACTGCGCAATAAAACGTTGGGGCTGGTGGGCTATGGCAACATTGGCCGCCGGGTGGCGCGTATCGCCCGGGCGTTCGGCATGGCGGTGCGGGTGGTGGATCCGTTCGTCGCCGCAGAGGATATTAATGAGCCAGGGCTACAGAAAACGACCCTCGAGGCGCTGTTCCGCGACGCGGATATCGTCAGCCTGCATCTGAGCAGCGGACCGCACAGCGACGGGCTGGTGAATGCGGCGCTGTTAAACAGCATGAAGCCCGGCGCGCTGCTGATCAATACCTCCCGCGCGGCGGTGGTCGACGAAGCGGCGCTGATTGATGCCCTGCGTCACGGCCCGCTGGGCGGCGCGGCGCTGGACGTGTATCACCGCGAACCGCTGTGGCGCGATCACCCTTTTGTCACCGAGTTCGATAACGTGATTATTACGCCGCATATCGCCGGGGCTACCCGGGAGAGTATCGCCAAACACACGGCGATGATTGCCGCCGATCTTCAGCGCTATGTCGCCGGAGAGCCGCTGCTGTACCAGTGGCGTTAA	MKIVFTAEHAGDLSAFHQLGELLVEGWALGKPKLSAGQLIELAHDAEVLVTSYDEVTDAVMAACPRLQVIACTRANPVNIDTQAAQARGIRVLYTPGRNADAAAELTLGLMLSLARHIPQSHAALKRGEFTQADNAAAATQQGLRRDVVWDVSPESPYEVFKGSELRNKTLGLVGYGNIGRRVARIARAFGMAVRVVDPFVAAEDINEPGLQKTTLEALFRDADIVSLHLSSGPHSDGLVNAALLNSMKPGALLINTSRAAVVDEAALIDALRHGPLGGAALDVYHREPLWRDHPFVTEFDNVIITPHIAGATRESIAKHTAMIAADLQRYVAGEPLLYQWR	PGPT0009155_5196	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
BMS020_04352	1497	lyx_2	COG1070	L-xylulose/3-keto-L-gulonate kinase	ATGGATTTTTATCTTGGTATCGATATCGGCACCTCCCGGGTGAAAGCGGTGCTGTTTGATCAGCATTTCACCGCGCGCGCCAGCGCCGCGGAAAACACCTCCCCCCGCCTGTCGGCCAATGGCTACGCGGAACAGGATATGACCCAGCTGTGGCATTCGGTGCTGGCTATTCTGCGCCAGATTGCCCGCCACCCGGCGCTGCAGGCGGGGCGGCTGCGGGCCATCGGCCTCGCCGGGCAAGGGGAGGGAGTCTGGCTCAGCGATGAGCAGGGCGAACCGGTGGGCCCGGGGATCCTGTGGAGCGATACCCGCAGCCACGCGCTGATGAGCGACCTGCTGCGCCGGCCCGGCTTTGACCGGCGCTATTTCGCCGATACCGGCACCCACCTGCAGCCCTGCAATACCAGCCTGCAGCTGTACTGGCTGAAACAGTATCAGCCGGAGCGGCTGGCGGCCGCGCGCTATCTGTTTTTCGCCAAGGACTGGATCCGCTTTCGCCTGACCGGCGTGGCGGCGCTGGAGCTGACGGACGCCAGCAGCTCGTTACTCAATCAGCAGAGCGGCAGCTGGTCCTCGGTGGTGATGAACGAGATGGGGCTGGACGAACTGCTGCCGCTGTTTCCCCCGCTGCTGGCCCCGGATGCTCCGGCCGGCACGCTGAGCGACGCGGTGGCGGCGCTGACCGGGCTGCCCGCCGCGACGCCGGTGGCCGCCGGGGCGCTGGATGTCTGCAGCGCCGCGCTGGGCTGCGGCGCGGTCAACGAAGGGGACATCTACACGATCCTCGGCACCACCTGCTGCACCGGGATCGTCTGCCGCGGCCCGCAGACGGTGAACGAGGCGACGCGCTTTGTCACCCATACCGAAGCCGGACAGGTGATCTCGCTGTTTCCGATGCAGGCCGGTACGCCAAACATTGACTGGCTGCAGCAGCATATTTCGCTGGACGCCGATCTGGGCCGGCTGGAGCAGGCGATCGCGGACGTGGAGCCGGGCAGCGGCGGCGTCTTCTGGCAGCCCTACCTCAATGGCGAACGCGCGCCGTTTTACAGTCCCGACGCGCGGGCCGGCTTTATCGGCATTAGCCCGCACACCACCCGCGCCGAACTGCAGCGCGCGGTGTTTGAAGGCCTGGCCTTCGCCATTGTCGATGCGCTGCAGGGTTATCCGCAGGGCGGCGAGCTGTATCTGACCGGCGGCGGCGCCGCCTCGGCCACCTGGCTGCAGATTATCGCCGACTGTACCGGGCGCACGGTGGTCTCCAGCGCCTTTAACGAACTGAGCGCGCGCGGGGCGGCGATTCTGGCGGCCCGCAGCGTCGCTGCGCTGGCCGAGACGCCTCCGCTGGCGCAGACCCGCTATCAGCCGCGCCCTCAGGCGCATGCCCGCTATGCGGCGCTGTATCCCGTTTATCGCCTGCTGCGCGAGCAGATGCTGCCGGTATGGCAGGCCAGGCAGGCCGCTCTTCAACGTCTTTCTCAGGAAGTTCAACCATGA	MDFYLGIDIGTSRVKAVLFDQHFTARASAAENTSPRLSANGYAEQDMTQLWHSVLAILRQIARHPALQAGRLRAIGLAGQGEGVWLSDEQGEPVGPGILWSDTRSHALMSDLLRRPGFDRRYFADTGTHLQPCNTSLQLYWLKQYQPERLAAARYLFFAKDWIRFRLTGVAALELTDASSSLLNQQSGSWSSVVMNEMGLDELLPLFPPLLAPDAPAGTLSDAVAALTGLPAATPVAAGALDVCSAALGCGAVNEGDIYTILGTTCCTGIVCRGPQTVNEATRFVTHTEAGQVISLFPMQAGTPNIDWLQQHISLDADLGRLEQAIADVEPGSGGVFWQPYLNGERAPFYSPDARAGFIGISPHTTRAELQRAVFEGLAFAIVDALQGYPQGGELYLTGGGAASATWLQIIADCTGRTVVSSAFNELSARGAAILAARSVAALAETPPLAQTRYQPRPQAHARYAALYPVYRLLREQMLPVWQARQAALQRLSQEVQP	PGPT0018360_161	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_ERYTHRITOL_DEGRADATION,PGPT0018360-eryA-K00862	NA	NA
BMS020_04353	609	mtnB_1	COG0235	Methylthioribulose-1-phosphate dehydratase	ATGTGGCAAGAAAGACTCGCGCAACTGGTTACCACCTGTCATTGGATCGGCGCGAAAGGCTGGGCGCCGGCGACCGGCGGCAATATGTCGGTGCGTCAGGATGACACCTGGTGCTGGCTAAGCGAGTCGGGCCGCGACAAAGGCAGCCTGACGACCGAGGATTTCCTGCAGGTGGAGATCGCCACCAACCAGGCCCCTTCCGGACGGAAACCGTCGGCCGAGACCGGCCTGCACACGCTGGTCTATCGCCTGTTCCCGGAGGCCAACGTGGTGCTGCATGTGCATACCGTCAACGCCACCGTGCTGTCGCGCATCGAAAAAAGCAACACGCTGGCGCTGCAGGGGTATGAAATGCAGAAAACCCTCAGCGGGCAGCACAGCCATCTCGACACCGTTCCGGTCGCCATTTTCGATAACGATCAGGATATTGACGCCCTGGCGGCGCGGATTGCCGATTATGCGCAAACCCGCCCGCTGCGCTACGGCTTTCTGCTGCGCGGACATGGCCTGACCTGCTGGGGGAAAGATATTCAGGAGGCCCGCCGACAACTGGAAGGGCTGGAGTTCCTGTTCGAGTGCGAGCTGATGCGCCGCCGCTACGAGCCCTGA	MWQERLAQLVTTCHWIGAKGWAPATGGNMSVRQDDTWCWLSESGRDKGSLTTEDFLQVEIATNQAPSGRKPSAETGLHTLVYRLFPEANVVLHVHTVNATVLSRIEKSNTLALQGYEMQKTLSGQHSHLDTVPVAIFDNDQDIDALAARIADYAQTRPLRYGFLLRGHGLTCWGKDIQEARRQLEGLEFLFECELMRRRYEP				NA	NA	NA	NA	NA
BMS020_04354	1263	codB	COG1457	Cytosine permease	ATGTCAAACAGCAATGATTTTCCCCTCGTCGAAGCGCCCGCCGCCGGACGCAAAGGCGTATTTTCCATCGCCATGGTGTTATTCAGCTTTACCTTTTTCACCGGCACGATGTTCGCCGGCGGTAAACTCGGCGTCTCCTTTTCCATCGTCAATCTGCTGTGGATAGCCGTCATCGGCAACGCCTTGCTGGCCCTGTATGCCGCATCGCTGGGCTGGATCGCCGCGCGCAGCGGCCTGAATACGGTGCTGATGGGCCGCTTCTGCTTCGGCGAGATCGGCAGCAAGCTGGCCGATTTTATCCTTGGCTTTGCCGAGCTGGGCTGGTACGCGTGGGGGACGGCCACGGTCGCTATCTCGCTGGTGAAGATCCTCGCCCTGCCCGAGGCGCTGACCCTGCCGCTGATGGTGCTGTTTGGCATTCTGTTCTGCGTCACCGCGCTGGTGGGCTACAAGGGGCTGGACGCGCTGTCGCGCCTGTCGGTGCCGCTGATGTTCGTGCTGCTGGTGGTCTCCATGTATCTGGCGCTGCGCCACGCCGGCGGCTGGCAGGCGATGACCCGCATTGCGCCAGGCGACGCCATGACCTGGTCGGCGGCCATCACCATGGTCTTTGGCACCTTCGCCAGCGGCGCCACCCAGGCGACAAACTGGACCCGGCTGGCCAACTCCAGCCGTACCGCCATTCTCGCCAGCATGGGCAGCTTCCTTGTCGGCAACGGGCTGATGATCGTCGCCGGCGCCTGGTGCGCTATCGTCTATCAACAGGCCGATATCGTCGAAGTGCTGATCCTGCAGGGGCTGTCGGTGGCCGCGGTGATCATGCTGTGTCTCAATCTGCTGACCATCCAGGGCCCCACCATCTATAACGTCTCCGCCGCCGCCTGCCATCTGCTGCGCAGCGAACGTCGCCGCACGCTGACCCTCGCCGCCGCCGGGGTGGGCATTGTGCTGGCCATTGGCGGTATGTACGAAATGCTGATCCCGTTCCTCGTGCTGCTGGGCAGCATTATCCCGCCCATCGGCGGGGTGATCCTCGCCGACTACTGGTTCGCCCGCGGCGGACGCTATCCCCTGCTGCAGAACGCCCGCCTGCCGCGTTTTAACTGGCTGGGACTCGGCGCCTACGCCGCCGGCGCGGTGGTGGCTTATCTGTCGCCGTGGATCGCGCCGCTGGTGGGGATCACCGTCTCCGCGCTGGTCTATATCGCCCTGACCCTGCTAAGCAAGCGTCAGCCTGCCGCCGTCGCGGAGCAGGAGCCATGA	MSNSNDFPLVEAPAAGRKGVFSIAMVLFSFTFFTGTMFAGGKLGVSFSIVNLLWIAVIGNALLALYAASLGWIAARSGLNTVLMGRFCFGEIGSKLADFILGFAELGWYAWGTATVAISLVKILALPEALTLPLMVLFGILFCVTALVGYKGLDALSRLSVPLMFVLLVVSMYLALRHAGGWQAMTRIAPGDAMTWSAAITMVFGTFASGATQATNWTRLANSSRTAILASMGSFLVGNGLMIVAGAWCAIVYQQADIVEVLILQGLSVAAVIMLCLNLLTIQGPTIYNVSAAACHLLRSERRRTLTLAAAGVGIVLAIGGMYEMLIPFLVLLGSIIPPIGGVILADYWFARGGRYPLLQNARLPRFNWLGLGAYAAGAVVAYLSPWIAPLVGITVSALVYIALTLLSKRQPAAVAEQEP				NA	NA	NA	NA	NA
BMS020_04355	1236			hypothetical protein	ATGAGCCTGACGGTCAGCGAACTGCTGGCCCTTGAGGGACTCTCCGCCCTGCGTCTGCGGGCGGGAAAGCAAGGGCTGCAGCGGGCGGTACGCTGGTACTACGTGGCGGAAAATGAGCATATCGCCGAGTGGATCATGGGCGGCGAGCTGGTCTTTATCACTGGCATCAACCATCCCCGGGATGAAGCCAACCTGATCCAGCTGCTGATGGAGGGCAAACAGCGCGGCATCGCCGGGATGGTGATCCTCACCGGCGAGGCCTATATCCACGCCATTCCCGCCACGCTGATCGCGCTTGCCGACGAGCTGGGCATTCCGCTGATCGAGCAGCCCTACCTGCTGAAGATGGTGATTGTCACCGAGCGGGTCGGCACCGCGCTGGTCCGCAGCGAAAGCGCCCTGCAGTCGCAGCGCGACATCCTGATGCAGCTGGTCACCGGCGACTATCCGGACCTGCAGATGCTCCACCAGCGCGCCCTCCACCAGCAGCTCGATTTTACCCGCCCGCTGCGGCTGGCGGCGCTGCGCCTGGAGGGACTGTCCCGCCTGTTTCGCCAGTTTCCGCCCGAACAGGCCGAAGCCTGGCTGCAGCAGGCCCACCGCAGCGTGCGCCAGCAGCTGCAGCTGCAGCTCAACCAGCAGGGCAACCCCTTCCCGCTGCTGGAGCGCAGCAACATGTTCCTTTTCCTGCTGCCGGATGAGGAGGGGGAAGGCTTTCAGCAGAAAAAGTGGCTACAGCAGTGGCTGCAGACGCTGGCGGAGGGGGAAGAGAGTTTGTCGCTGCTCTGCGGCCTTTCCGCGCCGGTCAGACAGCTGCAGGGCTACCCGCGGGCGCTGTCGCAGGCGCGACAGGCGCTGGATCTTTGCGATACCCTGCGGCCGACCCAGCGGATCAGCGACTATCAGCAGCTGGGGTTTATCAAACTGCTGTCCGCAGTCAGCGACCCGGCGCTGCTCAACGATTTTATGCACGACACCCTGGGCTGCCTGATCGAGCCGGGCCGTAAAGCGCCGTGGCTGCTGCTGGAGACCCTCGAGACGCTGCAGCAGGAGAACGGCAACGTGGTGCGGGCCGCCGACCGGCTGGGTCTCCATCGCAACACCCTGCATCAGCGCATCCAGCGTATTGAAAAACTGACCGGCTACCCGGTCAGCCACCCTCAGTTTCATCTCAACGCCTCGGTCGCGCTGGTGATCTGGCGTTTATCGCAAAACCATTTACAGGACCAACCATGA	MSLTVSELLALEGLSALRLRAGKQGLQRAVRWYYVAENEHIAEWIMGGELVFITGINHPRDEANLIQLLMEGKQRGIAGMVILTGEAYIHAIPATLIALADELGIPLIEQPYLLKMVIVTERVGTALVRSESALQSQRDILMQLVTGDYPDLQMLHQRALHQQLDFTRPLRLAALRLEGLSRLFRQFPPEQAEAWLQQAHRSVRQQLQLQLNQQGNPFPLLERSNMFLFLLPDEEGEGFQQKKWLQQWLQTLAEGEESLSLLCGLSAPVRQLQGYPRALSQARQALDLCDTLRPTQRISDYQQLGFIKLLSAVSDPALLNDFMHDTLGCLIEPGRKAPWLLLETLETLQQENGNVVRAADRLGLHRNTLHQRIQRIEKLTGYPVSHPQFHLNASVALVIWRLSQNHLQDQP				NA	NA	NA	NA	NA
BMS020_04356	1239	codA_2	COG0402	Cytosine deaminase	ATGAAAATTGTTAACGCCCGCCTGCGCCGCCAGGAGGCGCTGTTTACCCTTGAGCTGCAGGACGGCCTGATTCAGCGCATGACCGCCCAAACCGCGATGCAGACCGCCGACGCCGGCGATATCGACGCCCAGGGCCGGCTGGCGATCCCCCCCTTCGTCGAGCCGCATATTCATCTTGACGCCACCCTCACCGCGGGCGAGCCGGAGTGGAACCGCAGCGGCACCCTGTTTGAAGGCATCACCCGCTGGAGCCAGCGCAAAGCGAGCATCACCCCGGAGGACACCCGCCAGCGGGCGCTGAAAACCATCGGCATGCTGCGCGATTTCGGCGTCCAGCACGTCCGGACCCATGTGGATGTCACCGACCCGTCGCTGTCGGCCCTGCAGGCGCTGCTGGCGGTGAAAAAAGAGGCCGCCGATCTCATCGATCTGCAGATTGTCGCCTTTCCGCAGGAGGGGATTGAATCCTACCCCGACGGTCGGGGGCTGATGACGCGCGCCATCGAGATGGGCGCCGACGTGGTGGGCGGTATTCCGCACTATGAAAACACCCGCGACAAAGGGGTCAGTTCGGTGATGTTTTTGATGGACCTCGCCCAGCGCTATGGCCGGCTGGTGGATGTCCACTGCGATGAAATCGACGATCCGCAGTCGCGTTTCCTCGAAGTGCTGGCGGAAGAGGCCCGGGTGCGCAGTATGGGGGCGCAGGTCACTGCCAGCCACACCTGCGCGATGGGCTCTTATGACAACGCCTACTGTTCGAAGCTGTTTCGCCTGCTGAAAGCCTCGGGGATCAACTTTATCTCCTGCCCGACCGAAAGCATTCATCTGCAGGGCCGGTTTGACAGCTGGCCGAAACGGCGCGGCGTCACCCGGGTGGCGGAGCTGGATCGCGCCGGCATCAACGTCTGCTTTGCTCAGGACTCGATTCAGGATCCGTGGTATCCGCTGGGGAACGGCAATATCCTGCGCATTCTGGATGCCGGACTGCACATCTGTCATATGATCGGCTATGACGATCTGCAGCGCTGCCTTGACTTCGTCACCGACAACAGCGCCCGGGCGCTCTGTCTGGGCGATAACTACGGCCTCGCCGAAGGCCGCCCGGCTAACCTGCTGATCCTCGATGCGGAAAACGACTACGAGGCCGTCCGCCGCCAGGCGCGGGTGCTAACCTCCATTCGCCACGGTAAGGTGATTTTGCAGCGTGAGGTGGAGCACATCCGCTACCCGGCATAA	MKIVNARLRRQEALFTLELQDGLIQRMTAQTAMQTADAGDIDAQGRLAIPPFVEPHIHLDATLTAGEPEWNRSGTLFEGITRWSQRKASITPEDTRQRALKTIGMLRDFGVQHVRTHVDVTDPSLSALQALLAVKKEAADLIDLQIVAFPQEGIESYPDGRGLMTRAIEMGADVVGGIPHYENTRDKGVSSVMFLMDLAQRYGRLVDVHCDEIDDPQSRFLEVLAEEARVRSMGAQVTASHTCAMGSYDNAYCSKLFRLLKASGINFISCPTESIHLQGRFDSWPKRRGVTRVAELDRAGINVCFAQDSIQDPWYPLGNGNILRILDAGLHICHMIGYDDLQRCLDFVTDNSARALCLGDNYGLAEGRPANLLILDAENDYEAVRRQARVLTSIRHGKVILQREVEHIRYPA	PGPT0021315_1513	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021315-codA-K01485	NA	NA
BMS020_04357	1047	rbsR_2	COG1609	Ribose operon repressor	GTGACCGACGCCCGCCCGGGCGTCGGCTTCCTGGAAAACAGACGGCGCGAAACGACGATGAGCGATAAAAAATGGATTAAGGCCGAGGATGTGGCCAGACTGGCCGGCGTCTCGCGCTCGGCGGTCTCCCGGACCTTCACCCCCGGCGCCTCGGTGTCGGAGAAGACCCGGCAGAAGGTGCTGAGCGCCGCGGAAGCTCTGGGCTATCAGGTGAATATCATCGCCCGGACGATGATCACCGGCAGCAGTAATTTTATCGGCATCGTCACCGCCGGTTTCGACAACCCGTTTCGCAGCAAACTGCTGGCGCCGCTGGTCCATCAGCTGGCGCTCAACGGCTTTATGCCGCTGCTGATGAACGCTGACGATCCGCAGCAGCTCGCCCCTTCGCTTAAACAGCTGCTGAGCTACCACGTCGCCGGCGTGATCATCACCTCCGGCGCACCGCCGCTGTCGCTGGCGGAAGAGTACCTGGCGCGCAAGATCCCCGTCACCCTGATCAACCGTCATGCGGACCTCGCCGGCTGCGACCGGGTGTGCAGCGATAACGCCCAGGGGGCGAAGCTGGTGGCGGGCTTGTTCAGTCGTCGAGGCTGGCGGCAGGTTGGCTTTATTGGCGAAAATCGCGAGAACTTCAGCACCCGCCAGCGTTATGACGCTTTCATCGCTCAGACGTCGGGCATGACGGTAACCAGCCGCTTCTGCGACGGCGGCGGTTATCAGGCCGGCCACCAGGCCGCCAGAGAATTAGTTGCTGAAAACCCCGGGGTGCAGGCCCTGTTCTGCGCCACCGATATGCTGGCGCTGGGCGCCCTGGACGGCCTGCGGGACGCCCCCGCCGCCGCCCCGCTACCGGCCATCGTCGGCTTTGACGATATCCCGCAGGCGGACTGGCGCCCCTATCAGCTCACCACCGTTCAACAGAATACCGCCCTGCTGGCCCACCACGCGGTGGATCTGTTGATGACGCGGATCGCCCGCTTCAGCCTGCCCTCGCGCCATCGCGAAGTGCCGGTGAAACTAATTATTCGTCAAAGTGCGAAATGA	MTDARPGVGFLENRRRETTMSDKKWIKAEDVARLAGVSRSAVSRTFTPGASVSEKTRQKVLSAAEALGYQVNIIARTMITGSSNFIGIVTAGFDNPFRSKLLAPLVHQLALNGFMPLLMNADDPQQLAPSLKQLLSYHVAGVIITSGAPPLSLAEEYLARKIPVTLINRHADLAGCDRVCSDNAQGAKLVAGLFSRRGWRQVGFIGENRENFSTRQRYDAFIAQTSGMTVTSRFCDGGGYQAGHQAARELVAENPGVQALFCATDMLALGALDGLRDAPAAAPLPAIVGFDDIPQADWRPYQLTTVQQNTALLAHHAVDLLMTRIARFSLPSRHREVPVKLIIRQSAK	PGPT0017992_7789	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
BMS020_04358	810	suhB_1	COG0483	Inositol-1-monophosphatase	ATGCAATCTCAGGAATCAGAAGCGCTACAGGCCCGCTACCGCCTGGCCTGCGAGCTGGCGAAAGCGGGGGCTGAGCTGGCGTTTGAATACTATCAACAACGCGAAGCGCTGACCGTCGACCATAAGGGCGACGATCTGCAGGATGTGGTCAGCGTGGCCGATAAGCGGGTGGAGGCCTTTGTGAAACAGCGCATTCAGAGCGCGTTTCCGGAGGATGGCTTTCTCGGCGAAGAGAGCGGCGCCCGCCTGTCCGACGCGCGGGTGCTGTGGGTGGTCGACCCCATCGATGGCACCAGCTGTTTCCTCAACGGCCTGCACACCTGGTGCCTGTCGCTGGCGATCGTCGCCGACGGCGAACCGGTCATCGGCGTGGTCTATGACCCCAACCATCGCGAGCTGTTTCACGCCCTGCGGGGCCATGGCGCCTGGCTCAACGACGCCCCGATCCGTCCGCACCCCGCGACGACGGTCAGGGAGGGGGTGATGGGCGTCGGCACCTCGCATCGCGTCACCCCGGCGGACTTTCTGCCGTTTCTGCAGGCGCTGCTCAGCGACGGCGGCATGTTTATCCGCAACGGCTCCGGCGCGCTGATGAGCGCCTGGGCGGCGGCAGGCCGGTTGATTGGCTACTACGAGCCGCACATGAACCCATGGGACGCCCTGCCGGGGCTGGTGCTGATGCGCGAAGCGGGCGGCGCCAGCAACGATTTTCTGGCGCAGGAGGGGATCCAGCGCGGCAACCCGCTGCTGCTGGCCAGCCAGACGCTCTACCCGCAGCTGAAAAAGATGATCCTACAACCATTACATTAA	MQSQESEALQARYRLACELAKAGAELAFEYYQQREALTVDHKGDDLQDVVSVADKRVEAFVKQRIQSAFPEDGFLGEESGARLSDARVLWVVDPIDGTSCFLNGLHTWCLSLAIVADGEPVIGVVYDPNHRELFHALRGHGAWLNDAPIRPHPATTVREGVMGVGTSHRVTPADFLPFLQALLSDGGMFIRNGSGALMSAWAAAGRLIGYYEPHMNPWDALPGLVLMREAGGASNDFLAQEGIQRGNPLLLASQTLYPQLKKMILQPLH	PGPT0018535_1772	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
BMS020_04359	1359	glpT_2	COG2271	Glycerol-3-phosphate transporter	ATGTCTGGAATTATCGCTTTTTTCCGGGCGTCGCCGCCGAAAGCGGGCGCCGCGTTTGATGAACACCGTTTTCGCCGGGTGCGCTGGCAAACCTTTATCGCCATGACCCTGGCCTACGTCACCTTTTACGTCTGCCGGTTATCGTTCACCGTCGCCAAAAGCGCGCTGGTGGAGCTGGGGATCACCCCGACGGAGCTCGGCATGATCGGCTCCACCCTGTTCTTCAGCTACGCCATCGGCAAACTGGTCAACGGCTTTATCGCCGATCACGCCAACGTGGTGCGCTATATGAGCCTCGGTTTATTGCTCAGCGCCGGGATGAACCTGATGATGGGGATGACCACCAACGCCCTGCTGCTGGCCATCTTCTGGGGGATCAACGGCTGGGCGCAGTCAATGGGCGTCGGCCCCTGCGCGGTCTCGCTGGCGCGCTGGTACGGCGTTAAGGAGCGCGGCACCTTCTATGGCATCTGGTCGACGGCGCATAATATCGGCGAGGCCGTCACCTATATGGTGATCGCCGCGGTGATCGCCGGGTTTGGCTGGCAGATGGGCTACCTGTCCACCGCCGCGCTCGGCGCCGCCGGCGTGGTGCTGCTGGTGCTGTTCATGCACGATTCGCCGCAGAGCAGCGGCTTCCCGTCCATCAACGTCATCCGCGATGAACCGCAGGAAGAGGCCGAAGCCCGCGGCTCGGTGTTTAAAAACCAGCTGCTGGCGCTGCGCAACCCGGCGCTGTGGACCCTCGCCCTCGCCTCCGCCTTTATGTACATCGACCGCTACGCCGTCAACTCCTGGGGGATCTTCTTTCTGGAGCAGGATAAAGCCTATTCCACGCTGGAGGCCTCCGGGATTATCGGCGTCAACGCCATCGCCGGCATCGCCGGGACCATCATCGCCGGCATGCTCTCCGACCGCTTTTTCCCGCGCAACCGCAGCGTGATGGCCGGGTTTATCAGCCTGCTGAACACCGCCGGCTTCGCCCTGATGCTCTGGTCGCCGCACAGTTATTACACTGATATTCTGGCGATGATTATCTTCGGGGCAACCATTGGCGCTCTGACCTGCTTCCTCGGCGGGCTGATCGCCGTCGATATCTCCTCGCGCAAAGCGGCGGGGGCCGCGCTCGGCACCATCGGCATCGCCAGCTACGCCGGCGCCGGCCTGGGCGAGTTTCTCACCGGGATCATTATTGATAAAACGGCTATCCTTGAGAACGGCAAAACGCTGTATGATTTCAGCACGTTGGCGCTGTTCTGGGTGGGTACCGGTCTGGGTTCCGCGCTACTCTGTTTTACCACTGCCGCCATCGTCGCCCGGCGCCATGCCGTCGAACGGCAGACCTCGTTCTCCTCATAA	MSGIIAFFRASPPKAGAAFDEHRFRRVRWQTFIAMTLAYVTFYVCRLSFTVAKSALVELGITPTELGMIGSTLFFSYAIGKLVNGFIADHANVVRYMSLGLLLSAGMNLMMGMTTNALLLAIFWGINGWAQSMGVGPCAVSLARWYGVKERGTFYGIWSTAHNIGEAVTYMVIAAVIAGFGWQMGYLSTAALGAAGVVLLVLFMHDSPQSSGFPSINVIRDEPQEEAEARGSVFKNQLLALRNPALWTLALASAFMYIDRYAVNSWGIFFLEQDKAYSTLEASGIIGVNAIAGIAGTIIAGMLSDRFFPRNRSVMAGFISLLNTAGFALMLWSPHSYYTDILAMIIFGATIGALTCFLGGLIAVDISSRKAAGAALGTIGIASYAGAGLGEFLTGIIIDKTAILENGKTLYDFSTLALFWVGTGLGSALLCFTTAAIVARRHAVERQTSFSS	PGPT0017170_108	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_HEXOSE_PHOSPHATE_UPTAKE_SENSING,PGPT0017170-uhpC-K07783	NA	NA
BMS020_04360	1269	agp_2		Glucose-1-phosphatase	ATGATGCCTGCAAGACATCAGGGGCTGTTACGCCTGTTTATCGCCTGCGCGCTGCCGCTGCTGGCGCTGCAATCTGCCGCCGCCGCGGACTGGCAGCTGGAGAAAGTGGTGGAGCTTAGCCGCCACGGGATTCGTCCGCCGACGGCCGGCAACCGGGAAGCCATCGAGGCCGCCACCGGACGACCGTGGACCGAGTGGACCACCCATGACGGCGAGCTCACCGGTCATGGCTATGCCGCCGTGGTCAATAAAGGGCGTGAGGAAGGCCAGCACTATCGCCAGCTTGGCCTGCTGCAGGCGGGATGCCCGACGGCGGAGTCGATTTACGTGCGCGCCAGCCCGCTGCAGCGGACGCGGGCGACCGCCCAGGCGCTGGTGGATGGCGCCTTCCCCGGCTGCGGCGTCGCTATCCATTACGTCAGCGGGGACGCCGATCCGCTGTTTCAGACCGACAAATTCGCCGCCACGCAAACCGACCCCGCCCGCCAGCTGGCGGCGGTAAAAGAGAAGGCCGGGGATCTGGCGCAGCGTCGGCAGGCGCTGGCGCCGGCCATCCAGCTTTTGAAACAGGCGGTTTGTCAGGCCGATAAGCCCTGCCCGGTCTTCGACACCCCGTGGCAGGTCGAGCAGAGCAAAAGCGGGAAAACCACCATTAGCGGACTGAGCGTGATGGCCAATATGGTGGAGACGCTGCGTCTCGGCTGGAGTGAAAACCTGCCTCTCAGCCAGCTGGCGTGGGGCAAGATCGCCCAGGCCAGTCAGATCACCGCCCTGCTGCCGCTGTTAACGGAAAACTACGATCTGAGCAACGACGTGCTGTATACCGCGCAAAAACGCGGGTCGGTGCTGCTCAACGCCATGCTCGACGGCGTCAAACCAGAGGCGAATCCGAACGTACGCTGGCTGCTGCTGGTGGCCCATGACACCAATATCGCCATGGTGCGCACGCTGATGAACTTTAGCTGGCAGCTGCCGGGCTACAGCCGGGGAAATATCCCGCCGGGCAGTAGCCTGGTGCTGGAGCGCTGGCGCGACGCGAAGAGCGGGGAACGCTATCTGCGGGTCTATTTCCAGGCGCAAGGCCTCGACGACCTGCGTCGTCTGCAGACGCCGGACGCGCAGCACCCGATGCTGCGTCAGGAGTGGCGTCAGCCGGGCTGCCGTCAGACCGACGTCGGTACGCTGTGTCCCTTCCAGGCGGCTATCACTGCGCTGGGTCAGCGTATCGACCAGCCCTCCGCCCCGGCGGTAGCGATGGTCCTGCCGTAG	MMPARHQGLLRLFIACALPLLALQSAAAADWQLEKVVELSRHGIRPPTAGNREAIEAATGRPWTEWTTHDGELTGHGYAAVVNKGREEGQHYRQLGLLQAGCPTAESIYVRASPLQRTRATAQALVDGAFPGCGVAIHYVSGDADPLFQTDKFAATQTDPARQLAAVKEKAGDLAQRRQALAPAIQLLKQAVCQADKPCPVFDTPWQVEQSKSGKTTISGLSVMANMVETLRLGWSENLPLSQLAWGKIAQASQITALLPLLTENYDLSNDVLYTAQKRGSVLLNAMLDGVKPEANPNVRWLLLVAHDTNIAMVRTLMNFSWQLPGYSRGNIPPGSSLVLERWRDAKSGERYLRVYFQAQGLDDLRRLQTPDAQHPMLRQEWRQPGCRQTDVGTLCPFQAAITALGQRIDQPSAPAVAMVLP	PGPT0002560_230	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0002560-appA-K01093	NA	NA
BMS020_04361	1029	mtnA_1	COG0182	Methylthioribose-1-phosphate isomerase	ATGCAGACATTACAGACCACCAGCCTGCGGGTGAGTGAAAATCAGCTTTTTATTCTCGACCAGCAGGCCTTGCCGCAGGAAAAACGCTGGCTGGCGGCGGATAACGTTGCGCTGCTGGTGGACCATATTCACGCCCTGCGGGTGCGCGGCGCGCCGTTGATTGGCCTGTCCGCCAGCCTGCTGCTGGCCCTGCTGGCCCAGCGCGGCCTGAGCCGGGATGAACTCCAGCAGGCGCTGGAGACGCTGCGCGCGGCGCGGCCGACGGCGGTCAACCTGATGAATAATCTGGATCGCATGAAGCAGGCGCTGGCCCGGGAGGATTACCCGCAGGCGCTGGAAGCGGAAGCCCTGCGTCTGGTCGAAGAAGATAAACAGCTGTGCGACCGCATCGCTGAGGCGGGCAGTGCGCTGGTGAAGCCCGGTAGCCGTCTGCTGACCCACTGCAACACCGGTGGCCTGGCGACCGCCGGGGTGGGGACCGCCCTGGGCGTTATCGCGCTGGCGCACCGGCAGGGAAAGGTGGCCAGCGTGTGGGTCGATGAAACCCGGCCGCTGCTGCAGGGCGGACGTTTAACCGCGTGGGAGCTGGGCGAGCTGGGCGTGCCCTATCAGCTGATCACCGATTCAATGGCCGCCAGCCTGATGGCGCAGGGGCAGGTGGATGCGGTGTGGGTCGGCGCCGACCGTATCGCCGCCAACGGCGATGTGGCGAATAAAATCGGCACCTATTCGCTGGCGGTTTTGGCCCATTACCACCAGATCCCGTTCTACGTCGCTGCGCCGCAGACGACCCTCGATCGCCATTGCCCGAACGGGGCGGCCATCCCCATTGAGCAGCGCACCGCGGCGGAAGTGACCGGGGTGGCGGGCAGCTTTGGCGCGGTACAATGGGCGCCGACCGGGGCCGCCGTTTACAATCCGGCGTTCGACGTCACGCCTGCCGGGCTGATTAGCGGCTGGGTGCTGGACAGCGGGGTGGTCACCCCGGCGCAAGTTGCCGCCGGGGCGTTTGCGGCGGACCACGGATAG	MQTLQTTSLRVSENQLFILDQQALPQEKRWLAADNVALLVDHIHALRVRGAPLIGLSASLLLALLAQRGLSRDELQQALETLRAARPTAVNLMNNLDRMKQALAREDYPQALEAEALRLVEEDKQLCDRIAEAGSALVKPGSRLLTHCNTGGLATAGVGTALGVIALAHRQGKVASVWVDETRPLLQGGRLTAWELGELGVPYQLITDSMAASLMAQGQVDAVWVGADRIAANGDVANKIGTYSLAVLAHYHQIPFYVAAPQTTLDRHCPNGAAIPIEQRTAAEVTGVAGSFGAVQWAPTGAAVYNPAFDVTPAGLISGWVLDSGVVTPAQVAAGAFAADHG				NA	NA	NA	NA	NA
BMS020_04362	1200	mtnK	COG4857	Methylthioribose kinase	ATGTCGCAATACCATACCTTCACCGCCCACGACGCCGTGGCTTACGCGCAGCAGTTCGCCGGCATCGACAACCCATCTGAGCTGGTCAGCGCGCAGGAAGTGGGCGATGGCAACCTCAATCTGGTGTTTAAAGTGTTCGATCGCCAGGGCGTCAGCCGGGCGATCGTCAAACAGGCCCTGCCCTACGTGCGCTGCGTCGGCGAATCCTGGCCGCTGACCCTTGACCGCGCCCGTCTGGAAGCGCAGACCCTGGTCGCCCACTATCAGCACAGCCCGCAGCACACGGTAAAAATCCATCACTTTGATCCCGAACTGGCGGTGATGGTGATGGAAGATCTTTCTGACCACCGCATCTGGCGCGGGGAGCTTATCGCTAACGTCTACTACCCTCAGGCGGCCCGCCAGCTTGGCGACTATCTGGCGCAGGTGCTGTTTCACACCAGCGATTTCTATCTCCATCCCCACGAGAAAAAGGCGCAGGTGGCGCAGTTTATTAACCCGGCGATGTGCGAGATCACCGAGGATCTGTTCTTTAACGACCCGTATCAGATCCACGCGCGCAATAACTACCCGGCGGAGCTGGAGGCCGATGTCGCCGCCCTGCGCGACGACGCCCAGCTTAAGCTGGCGGTGGCGGCGCTGAAGCACCGTTTCTTTGCCCATGCGGAAGCGCTGCTGCACGGCGATATCCACAGCGGGTCGATTTTCGTTGCCGAAGGCAGCCTGAAGGCCATCGACGCCGAGTTCGGCTACTTCGGCCCCATCGGCTTCGATATCGGCACCGCCATCGGCAACCTGCTGCTGAACTACTGCGGCCTGCCGGGCCAGCTCGGCATTCGCGACGCCGCCGCCGCGCGCGAGCAGCGGCTGAACGACATCCACCAGCTGTGGACCACCTTTGCCGAGCGCTTCCAGGCGCTGGCGGCGGAGAAAACCCGCGACGCGGCGCTGGCTTACCCCGGCTACGCCTCCGCCTTTCTGAAAAAGGTCTGGGCGGACGTGGTCGGCTTCTGCGGCAGCGAACTGATCCGCCGCAGCGTCGGGCTGTCGCACGTCGCGGATATCGACACTATCCAGGATGACGCTATGCGGCATGAGTGCCTGCGCCACGCCATTACCCTGGGCAAAGCGCTGATCGTATTGGCCGAGCGTATCGACAGCGTCGACGAGCTGCTGGCGCGGGTGCGCCAGTACAGCTGA	MSQYHTFTAHDAVAYAQQFAGIDNPSELVSAQEVGDGNLNLVFKVFDRQGVSRAIVKQALPYVRCVGESWPLTLDRARLEAQTLVAHYQHSPQHTVKIHHFDPELAVMVMEDLSDHRIWRGELIANVYYPQAARQLGDYLAQVLFHTSDFYLHPHEKKAQVAQFINPAMCEITEDLFFNDPYQIHARNNYPAELEADVAALRDDAQLKLAVAALKHRFFAHAEALLHGDIHSGSIFVAEGSLKAIDAEFGYFGPIGFDIGTAIGNLLLNYCGLPGQLGIRDAAAAREQRLNDIHQLWTTFAERFQALAAEKTRDAALAYPGYASAFLKKVWADVVGFCGSELIRRSVGLSHVADIDTIQDDAMRHECLRHAITLGKALIVLAERIDSVDELLARVRQYS				NA	NA	NA	NA	NA
BMS020_04363	1242			hypothetical protein	ATGTCAGCATTACCTTCCCCAGAATACAGCCGCAATATGCGGCTGATCGGCCATAGCGACCAGGGCGGTCGTCCGGACGGCGTCCAGCTGATGGTGCATCGCGGATTCGCCTATATTGGCCATATGGTGTCGCAGGGTTTTTCCGTGGTCGATGTTCGCGATCCGACCCGGCCCACCACGGTCAACTATATTGCCGCGCCGCCGGGCACCTGGAACGTGCACCTCCAGGCGCATGACGATCTGCTGCTGGTGATCAACGCCCGGGATCTGTTTGCCGATGCCCGTTTTGCCGATGAGAAGGTGTACTACACCCGCTCGGTGGGTGACACGGTCAGCGATGTGCAGGACAAAGGCTGGAGCGCCGGGCTGCGCGTGTTTGATATCTCCACGCCGGATAAGCCGCGTGAAATTGGCTTTCTGTCGCTGAGCGGTATCGGCATTCACCGCATCTGGTACGTCGGCGGCCGCTGGGCGTATGTGTCCGCGCTGATCGACGGTTTTACCGACTACATCTTCCTGACCATCGATCTGGCCGATCCGCGTAAACCGCAGGTTGCCGGGCGCTGGTGGTTGCCGGGGATGCACCAGGCGGGCGGTGAAACACCGGACTGGCCGCAGGGTAAACGCTATGCGCTGCACCACGCCATTATTGCCGGGGATACCGCCTACGGCAGCTGGCGCGACGGCGGCCTGACGCTGCTGGATGTCAAAGACCGTACCCAGCCGACGCTGATTAGCCATCGCAACTGGAGCCCGCCGTTCGGCGGCGGAACGCATACCGCGCTGCCGCTGCCGGATCGCGATCTGCTGGTGGTGCTGGATGAAGCGGTGCTCGACAATCAGGAGGACGGCGAGAAGCTGATCTGGCTGTTTGATATTCGCGAGCCGGCGAACCCGGTGAGTATCTCGACTTTCCCACAGCCTGATGAAATCGACTATGTGGCGAAAGGGGCGCACTTCGGGCCGCATAACCTGCATGAGAACCGGCCGGGGAGCTTTGTCAGCTCAACGCTTATCTTCGCCACCTATCAGAATGCCGGCGTGCGGGCGTACGATATTTCCAACCCGTATCGTCCGCTGGAGACCGGGGCGCTGGTGCCGGCTGCTCCTGAGAGGATGATGGATACCCGTCCCGGCCGCCCGCGGGTGATCCAGTCCTGCGATGTGTTTGTCGATGCGCAGGGCATTATCTACAGCACCGATTACAACGGCGGGCTGTCGGTGATTGAGTATCTGGGGTGA	MSALPSPEYSRNMRLIGHSDQGGRPDGVQLMVHRGFAYIGHMVSQGFSVVDVRDPTRPTTVNYIAAPPGTWNVHLQAHDDLLLVINARDLFADARFADEKVYYTRSVGDTVSDVQDKGWSAGLRVFDISTPDKPREIGFLSLSGIGIHRIWYVGGRWAYVSALIDGFTDYIFLTIDLADPRKPQVAGRWWLPGMHQAGGETPDWPQGKRYALHHAIIAGDTAYGSWRDGGLTLLDVKDRTQPTLISHRNWSPPFGGGTHTALPLPDRDLLVVLDEAVLDNQEDGEKLIWLFDIREPANPVSISTFPQPDEIDYVAKGAHFGPHNLHENRPGSFVSSTLIFATYQNAGVRAYDISNPYRPLETGALVPAAPERMMDTRPGRPRVIQSCDVFVDAQGIIYSTDYNGGLSVIEYLG				NA	NA	NA	NA	NA
BMS020_04364	1065			hypothetical protein	ATGAAAAAGATCGCACTCTCTCTCATTACGCTGGGTCTGCTGCAGTCGACGGCGGCGCTGGCCACCGCCCCGACGCCGGTGCCGGCGGCCATTGCCGAACACAATGGCCCGATCCGCATTGCAGTGATCCGCAACCTGGGGTCTGACGATAACACCACCCAGTTTGTCGCCGGGGCGCTGCAGGAAGGCAAAAAGCTCGGTTTCAAAATCAGCACCTTCCTGAGCAACGGCGATGACGCCAAATTCCAGGACTTCGTCAACCAGGCGATCAGCCAGAAATACGACGGCATTATTCTCTCCCAGGGGCGTGACCCCTATTCGACGGCCCTGGTGAAGAAGGCGGTGGACGCCGGGATCAAAGTGGCGGTGTTCGATACCGCGGTGAGCGGCGAGATCCCCGGCGTGACGGTCAGCCAGCAGGATGACGCCTCACTGACCGATCTCTCCTTTGGCCAGCTGGTGAAAGACTTCAACGGCAAAGCCAACATCGTCAAGCTGTGGGTGGCGGGTTTCCCGCCAATGGAGCGCCGTCAGGCGGCTTACCAGACGCTGCTGAAGCAAAATCCGGGGATTAAAGAGCTGGAGTCGATCGGCGCCGTTTCGTCCGATGTGCAGGGCGACACTGCCAACAAGGTGGGGGCGATCCTCGCCAAATATCCGAAAGGGAAAATCGACGCTATCTGGGGCACCTGGGATGCCTTTAGCCAGGGGGCCTATAAGGCGCTGAAAGAGAACGGCCGCACCGAGATCAAACTCTACAGTATTGATATTTCCAACCAGGATCTGCAGCTGATGCGCGAAGCCGGCAGCCCGTGGAAGGTGAGCGTGGCGGTGGATCCGAAGCTTATCGGCGCGACCAACGTGCGGCTGATCGCCAATAAGATCGCCGGCGAGCCGACGCCGGCCACCTACGACTTCAAGGCGGCGGCGATCCCGCAGGCGCTGCTGGCGGCCCAGCCGGGGGCGGTGAACGTGGCCACGCTGGGGAAAATCATTCCGGGCTGGGGCCAGACGGAAGACTTTATCGCGCCGTGGTTTGCGACGCTGGAAGCGAAAAACAAATAA	MKKIALSLITLGLLQSTAALATAPTPVPAAIAEHNGPIRIAVIRNLGSDDNTTQFVAGALQEGKKLGFKISTFLSNGDDAKFQDFVNQAISQKYDGIILSQGRDPYSTALVKKAVDAGIKVAVFDTAVSGEIPGVTVSQQDDASLTDLSFGQLVKDFNGKANIVKLWVAGFPPMERRQAAYQTLLKQNPGIKELESIGAVSSDVQGDTANKVGAILAKYPKGKIDAIWGTWDAFSQGAYKALKENGRTEIKLYSIDISNQDLQLMREAGSPWKVSVAVDPKLIGATNVRLIANKIAGEPTPATYDFKAAAIPQALLAAQPGAVNVATLGKIIPGWGQTEDFIAPWFATLEAKNK	PGPT0017165_381	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
BMS020_04365	999	rbsC_4	COG1172	Ribose import permease protein RbsC	GTGAGCAAGGCCCTGGCAGTGAACGCGACGGTATCGGGCCGTCAGCGATTTTTTGATTTTCTCTATAAGTGGGGCATGTTGCTGACCGTAGTGCTGCTGGTGGCGGTCTTTGGCTTCGCCTCGGACAACTTCCTTGACCCGTTCAACATCATCAACATTCTGCGCTCGATAGCCATCGTGACGGTGATTGCCATTGGGGTGTCGATTTCCCTCACCATCGGCGGCTTCGATCTGTCCGTCGGATCGACGGCGTCGCTGGCCAACGCCCTGGTGATCTCCCTGTTTGTCTGGCACGGCCTGGGGACCACCGAAGCCATTCTGATCACCCTCGCGCTCTGCACCCTGGTGGGGTTGTTTAACGCCTTTCTGATCGTGGTGCTGCGCATCCCCGACATGCTCGCCACCCTGGCCAGCCTGTTTGTGATTCAGGGGGTGGCAATGACATACAGCTACGGCGGGTCGATTACCGAAAACATGGTGCTGCCGAGCGGCGAGATGGCGGAAGGCACCCTCCCGGCGGCGTTTGGCGCGCTGGGCCAGGTGCCGACCATCGTCATCATCATGCTGGTGGTGACGCTGGTCGCCCAGCTGGCGCTGTCGTTCACCACCCACGGCCGGCGGATGTACGCCATCGGCGGCAACCCGGAGGCGGCGCGGCTCTCCGGCCTGCGGATCACTCGTTATAAAGTGGCGGCGTACGTGATTGCCTCGCTGCTGGCCGGGCTCGGCGGCATTCTGCTGGCCTCGCGTATCGGATCGTCGCAGGTTAACGCCGGCGGCGGCTATCTGATGGACGCGGTGGCGGCGGCCTGGATCGGCTTTTCGCTGGCCGGCTCCGGCAAACCGAACGCCCTGGGGACGCTGGTGGGGGCGGTGATCCTCGGCGTGCTCTCCAACGGGCTGGTGATGCTCTCGGTGCCGTATTACGCGATGGACATTATTAAAGGGCTGGTACTGGCTGGCGCGCTGGCACTGACCTATTTTCAGCGCCGTACTTAA	MSKALAVNATVSGRQRFFDFLYKWGMLLTVVLLVAVFGFASDNFLDPFNIINILRSIAIVTVIAIGVSISLTIGGFDLSVGSTASLANALVISLFVWHGLGTTEAILITLALCTLVGLFNAFLIVVLRIPDMLATLASLFVIQGVAMTYSYGGSITENMVLPSGEMAEGTLPAAFGALGQVPTIVIIMLVVTLVAQLALSFTTHGRRMYAIGGNPEAARLSGLRITRYKVAAYVIASLLAGLGGILLASRIGSSQVNAGGGYLMDAVAAAWIGFSLAGSGKPNALGTLVGAVILGVLSNGLVMLSVPYYAMDIIKGLVLAGALALTYFQRRT	PGPT0017160_1515	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
BMS020_04366	1503	mglA_3	COG1129	Galactose/methyl galactoside import ATP-binding protein MglA	ATGAGCGCGAATCGCCTTGAGATGCATAACATTAGCCTGGCCTTCTCCGGCTTTCAGGCGCTGAACAAGGTGGCCTTCACCCTTCATGGCGGGTCGGTGCATGCCCTGACCGGCGCCAACGGCGCGGGTAAGTCGACGCTGATGGCGGTGCTGTGCGGCACCCACGCCCATTATCAGGGCGAAGTGACGATCAATAACCAGCCGGTCACTATTCGTTCGCCGCGGGATGCCAAACAGCTGGGGATCCACCTGGTGCAGCAGGAGGTGGACGTGGCGCTGGTGCCGGGCATGAGCATTGCCGAAAACATCATGCTGGACAGGCTGGCGGAGCCGGGGACGACCTTCCGCTGGTCGCGGGTTCGGCAGCTGGCGCGCGAGGCGCTGGCGCAGCTGGAGGTGGCGCTGGACGTCAGGCGCTCTATTGACAGCTGCACGCTCGCCGAAAAACAGCAGATCCTGCTGGCCCGCGCCCTGTCGCACCATTGCCGCTTTCTGATCCTCGATGAACCCACCGCGCCGCTGGATCAGCATGAAAGCGAACGCCTGTTTGCGGTGGTACGCCGTCTGCAGCAGCAGGGGATCGGGGTGGTGTTTATTTCGCACCGCATCCACGAGCTGAAGGCGATCTGCGACACCCTGACGGTGCTGCGCGACGGGCGTCTGATTGAGAGCGGCCCGATGGCGCCGCTGAGCGGGGAACAGATTGTCGAAAAGATGCTGGGCCACGAGCTGAGCGATATCTTCCCGCCGCCGCGTCCGCCGCACGGTGAAGAAGTGCTGCTGCAGGTGGAAGGGCTGCGCGATGAGGCGCTGCTGCAGGATATCTCGCTGCGCCTGCGTAAGGGGGAAATTCTGGGGATCGCCGGGCTGGCCGGGGCGGGCAAAACCGAGCTGTGCAAAGCGCTGTTCGGCGCCAGCAAAAGCCGGGTGCAGCGCGGCGAGCTGAACGGCCAGCCGTGGCGGCCGCGGGATCCCGCCGACTCGGTGGGGCGCGGCCTGGCGCTGGTCCCGGAGGAGCGGCGCAAAGAGGGCATTTTCATCGAAGAGCCGATCGCGATGAACCTGGCGGTCAGCGCCGATAACCACTTTTCGCGCTGGAGCCTGTTCGGCCATCGCCAGGCCTGGCGCTGGGCGGAGGAGGTGATTGCCCGCCTCGGCGTGCGCGCCACCGGTCCCGGTCAGACGCTGCGCCGTCTGTCCGGCGGCAATCAGCAGAAGGTGGCCATTGGCAAATGGTTGCGCGGCGATGCCAACGTTTTGATTTTTGACGAACCGACCAAAGGGGTCGATGTGAAAGCGAAAACCGATCTGTTCATGCTGATCGATGGTCTGGCGCGGGAAGGCAAAGGGGTGATTTATGCCTCGGGTGAATTCGCCGAGCTGGTCGGTTTATGCGACCGCATCTGCGTACTATGGGACGGACGGATCGTGGCGGAGATCCCCGGCGCGGAAGCCCGGGAAGAGACACTGCTTTATTATTCAACCGGAGGAGCGGCAGCGTGA	MSANRLEMHNISLAFSGFQALNKVAFTLHGGSVHALTGANGAGKSTLMAVLCGTHAHYQGEVTINNQPVTIRSPRDAKQLGIHLVQQEVDVALVPGMSIAENIMLDRLAEPGTTFRWSRVRQLAREALAQLEVALDVRRSIDSCTLAEKQQILLARALSHHCRFLILDEPTAPLDQHESERLFAVVRRLQQQGIGVVFISHRIHELKAICDTLTVLRDGRLIESGPMAPLSGEQIVEKMLGHELSDIFPPPRPPHGEEVLLQVEGLRDEALLQDISLRLRKGEILGIAGLAGAGKTELCKALFGASKSRVQRGELNGQPWRPRDPADSVGRGLALVPEERRKEGIFIEEPIAMNLAVSADNHFSRWSLFGHRQAWRWAEEVIARLGVRATGPGQTLRRLSGGNQQKVAIGKWLRGDANVLIFDEPTKGVDVKAKTDLFMLIDGLAREGKGVIYASGEFAELVGLCDRICVLWDGRIVAEIPGAEAREETLLYYSTGGAAA	PGPT0017155_810	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
BMS020_04367	1089	hcxA	COG0371	Hydroxycarboxylate dehydrogenase A	ATGAGCAACAGCGAGATCCGCGTCGTGCCCGGCCCGGCCAACTATTTCTCCCACCCTGGCAGCCTTCAGCGGTTAAGCGATTTTTTTAACGCCGACCAGCTATCGCGGGCGGTTTGGGTCTATGGCGAGCGCGCCCTGGCCGGCGCCGAACCTTTTCTGCCGGCGGCCTTCCACCTGCCGGAGGCAAAAAAGATCCGCTTTACCGGCCACTGCAGCGAACGCGATGTGGCGGCGCTGGCGCAGGCCTCAGGTGACGATCGGGCGGTAGTGATTGGCGTAGGCGGCGGCGCGCTGCTCGACAGCGCGAAAGTGCTGGCCCGCCGCCTGGGGGTTCCGCTGGTGGCCATCCCGACCATCGCCGCCACCTGCGCGGCATGGACGCCGCTGTCGGTGTGGTACAGCGACGCCGGACAGGCCCTGAATTTTGAGATCTTCGATGACGCGAATTTCCTGGTGCTGGTCGAGCCGCGCATCATTCTCAACGCCCCGGCGGAGTACCTGCTGGCGGGCATTGGCGACACCTTAGCCAAATGGTATGAGGCAGTGGTGCTGGCGCCGCAGCCGGAGGCGCTGCCGCTCACCGCGCGGCTGGGGATTAACGGCGCGCTGGCGATCCGCGACGTGCTGCTGGCCAGCAGCGAAACGGCGCTGGCGGACCAGCGCCGCGGCGAGCTGACCCAGGCGTTTCGCGATGTGGTGGATGCGGTTATCGCCGGCGGCGGGATGGTTGGCGGGCTGGGGGAACGTTACACTCGGGTCGCCGCCGCCCACGCGGTGCATAACGGGCTGACGGTGCTGCCGCAAACGGATAAATTCCTCCACGGCACCAAGGTGGCCTACGGCATTCTGGTGCAAAGCGCCCTGCTCGGTCAGGATGAGGTCCTGGCGCAGCTGGTGCAGGCCTGGCAGCGCTTTAACCTGCCGGCGACGCTGGCGGCGCTGGAGGTCGATATCAATAACCGCGCAGAGCTTGACCGGGTCATTGCCCATACCCTGCGCCCGGGCGAGTCGATTCACTATTTACCGGTGACGTTAACCCCTGAGGTTCTGCGCGCGGCGTTTGAGAAGGTGGAATCCTTCAGCCGTTAA	MSNSEIRVVPGPANYFSHPGSLQRLSDFFNADQLSRAVWVYGERALAGAEPFLPAAFHLPEAKKIRFTGHCSERDVAALAQASGDDRAVVIGVGGGALLDSAKVLARRLGVPLVAIPTIAATCAAWTPLSVWYSDAGQALNFEIFDDANFLVLVEPRIILNAPAEYLLAGIGDTLAKWYEAVVLAPQPEALPLTARLGINGALAIRDVLLASSETALADQRRGELTQAFRDVVDAVIAGGGMVGGLGERYTRVAAAHAVHNGLTVLPQTDKFLHGTKVAYGILVQSALLGQDEVLAQLVQAWQRFNLPATLAALEVDINNRAELDRVIAHTLRPGESIHYLPVTLTPEVLRAAFEKVESFSR	PGPT0013245_126	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013245-hcxA|ybdH-K08317	NA	NA
BMS020_04368	744	bdcA_2	COG1028	Cyclic-di-GMP-binding biofilm dispersal mediator protein	ATGCAGATCGATTTAACAGGTAAGAAGGCGCTGGTTACCGGCGCCAGCCGTGGGTTGGGTCGGGCTATCGCCCTGTCGCTGGCGCGCGCCGGCGCCGACGTGGTTATTACGTATGAAAAATCGGCCGATAAAGCCCAGGCGGTCGCCGATGAAATAAAAGCGCTGGGCCGGCACGGTGAAGCGGTGCAGGCCGACAGCGCCAGCGCGCAGGCGATTCAGGATGCCGTCACCCATGCGGCGCGTTCCCTCGGCGGGCTGGACATTCTGGTCAACAACGCCGGGATCGCGCGCGGCGGCCCGCTGGAGTCCATGACGCTGGCGGACATCGACGCGCTTATCAACGTCAATATTCGTGGGGTGGTTATCGCCATCCAGGAGGCGCTGGTGCATATGTCAGACGGCGGGCGCATCATCAACATCGGCAGCTGTCTGGCTAACCGCGTGGCGCAGCCGGGCATCGCGGTTTACTCGATGACCAAGTCCGCCCTCAACTCCCTTACCCGCGGCCTGGCGCGCGATTTAGGCCCCCGCGGGATCACCGTTAACCTCGTCCATCCCGGCCCGACCAACAGCGATATGAACCCGGAAGACGGCGAGCAGGCCGATGCCCAGCGTCAACTTATTGCGTTAGGTCACTACGGCCAGCCGGAAGACATCGCCGCGGCGGTCACCTTCCTCGCCAGCCCGGCCGCCGGGCAGATCTCCGGCACCGGGCTGGACGTGGATGGCGGTTTGAACGCCTGA	MQIDLTGKKALVTGASRGLGRAIALSLARAGADVVITYEKSADKAQAVADEIKALGRHGEAVQADSASAQAIQDAVTHAARSLGGLDILVNNAGIARGGPLESMTLADIDALINVNIRGVVIAIQEALVHMSDGGRIINIGSCLANRVAQPGIAVYSMTKSALNSLTRGLARDLGPRGITVNLVHPGPTNSDMNPEDGEQADAQRQLIALGHYGQPEDIAAAVTFLASPAAGQISGTGLDVDGGLNA	PGPT0003180_14340	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
BMS020_04369	405			hypothetical protein	ATGACTATTCAGTACATCAAGGATGAAGAAGGAAAAGACCAGTATGTCGTCATTCCTTACAGTGATTACTTTCGTATGCGCCTGGCTCTGCTGGAGTACGACGACGAGGATGAAAGCGACTGGGAAGATATTCCTTATGAATCAGACATCTATGATAACGTCATGCTGCCAGGCGAAGTATGCGACGTGATGCATAAAGAAAACGTCAGCCTGCAGGCTGCGTGGCGCATCCTGCGCGGGATGTCCCAGCAGGAGGTCGCCGAAAAGCTCGGCATCAGCCAGTCCGCCGTGTCACAGCTGGAAGCGCTGGACTCCCGTCCGCAGAAGCGCACCCGCGAGAAGCTGGCGGCGCTCTACGGCTGTAAGCAGGAGCAGATCAGCCTCTATCTGCCGAAAGAGGGTTAA	MTIQYIKDEEGKDQYVVIPYSDYFRMRLALLEYDDEDESDWEDIPYESDIYDNVMLPGEVCDVMHKENVSLQAAWRILRGMSQQEVAEKLGISQSAVSQLEALDSRPQKRTREKLAALYGCKQEQISLYLPKEG				NA	NA	NA	NA	NA
BMS020_04370	198			hypothetical protein	ATGTTCGACACCCTTTCCAAAGCAGGTAAGTACCTGGGCCAGGCCGCCAAAATGATGATCGGCGTGCCGGATTACGACAACTACGTCGAGCACATGCGCGTCAACCATCCGGATCAGACGCCAATGACCTACGAAGCATTTTTCCGCGAACGCCAGGACGCCCGCTACGGCGGCAAGGGCGGGGCGAAGTGCTGTTAA	MFDTLSKAGKYLGQAAKMMIGVPDYDNYVEHMRVNHPDQTPMTYEAFFRERQDARYGGKGGAKCC				NA	NA	NA	NA	NA
BMS020_04371	2106	cstA	COG1966	Peptide transporter CstA	ATGAATAATTCAGGGAAATACCTTATCTGGGCACTGCTCTCCGTGATCGGAGCCTTTGCCCTCGGCTACATTGCTTTAAACCGGGGTGAGCAGATCAACGCGCTGTGGATTGTCGTCGCGGCAGTCTGCGTTTATCTGATCGCGTATCGTTTTTACGGCCTGTATATCGCCAAAACCGTGCTCGGCGTCGACCCGACGCGCATGACGCCCGCGGTGCGGCATAACGATGGCCTCGACTATGTCCCGACTGACAAAAAAGTGCTGTTCGGTCACCATTTTGCCGCCATCGCCGGCGCGGGGCCGCTGGTGGGCCCGGTGCTCGCCGCGCAGATGGGCTATCTGCCGGGGATGATCTGGATCCTCGCCGGCGTAGTGCTGGCCGGGGCGGTGCAGGACTTTATGGTGCTGTTCGTTTCCACCCGTCGCGACGGCCGTTCGCTGGGCGAGCTGGTGAAAGAGGAGATGGGGGCGACCGCCGGGGTGATTGCCCTGGTGGCGACCTTTATGATCATGGTGATCATCCTCGCGGTGCTGGCGATGATCGTGGTGAAAGCGCTGACCCACAGCCCGTGGGGAACCTATACCGTGGCCTTTACCATTCCGCTGGCGCTGTTTATGGGGATCTATATTCGCTATCTGCGCCCGGGGCGCATTGGCGAAGTGTCGGTGATTGGGCTGGTATTGCTGGTGTTCGCCATTATCTCCGGCGGCTGGGTAGCGGAAAGCCCGACCTGGGCGCCGTTCTTTGACTTTACCGGCGTCCAGCTCACCTGGATGCTGGTGGGCTACGGCTTTGTCGCCGCAGTGCTGCCGGTCTGGCTGCTGCTCGCCCCGCGCGACTACCTCTCCACCTTCCTGAAAATCGGCACTATCGTCGGTCTGGCGATCGGCATTCTGATTATGCGTCCGACCCTGACCATGCCGGCGCTGACCAAATTTATCGACGGCACTGGCCCGGTATGGACTGGCAACCTGTTCCCGTTCCTGTTTATCACCATCGCTTGCGGCGCGGTGTCGGGCTTCCACGCCCTGATTGCCTCCGGTACCACGCCGAAGATGCTGGCGAATGAAAATCAGGCCTGCTTTATCGGCTACAGCGGCATGCTGATGGAATCCTTCGTGGCGATTATGGCGCTGGTGGCCGCCTGTATCATTGACCCGGGCGTCTACTTCGCGATGAATAGCCCGATGGCGGTGCTGGCGCCGGCGGGAACCACCGATGTGGTGGCCTCGGCGGCGCAGGTGGTGAGCGGTTGGGGCTTTGCGATTACCCCGGAAACGTTGACGCATATCGCGAATGAGGTGGGCGAGCAGTCCATCATCTCCCGCGCCGGCGGGGCGCCTACGCTGGCGGTGGGCATGGCCTACATTCTCCACGGCGCGCTGGGCGGGTTGATGGACGTCTCGTTCTGGTACCACTTCGCCATTCTGTTTGAAGCGCTGTTTATCCTGACGGCGGTGGATGCCGGCACCCGTGCGGCGCGCTTTATGCTGCAGGATCTGCTGGGGGTGATATCCCCGAACCTGAAGCGTACTGACTCGTTACCGGCTAACCTGCTGGCGACGGCGCTGTGCGTGCTGGCATGGGGCTACTTCCTCCATCAGGGAGTGGTCGATCCGCTGGGCGGCATTAACACCCTGTGGCCGCTGTTCGGTATCGCCAACCAGATGCTGGCGGGGATGGCGCTGATGCTCTGCGCAGTGGTGCTGTTCAAGATGAAACGTCAGCGCTATGCGTGGGTGGCGCTGGTGCCGACTGCCTGGCTGCTGATCTGTACCCTCACCGCCGGCTGGCAGAAGGCCTTCAGCCCGGACAATAAAGTGGGCTTCCTGGCGATTGCCAACAAGTTCCAGGCGATGATCGACAGCGGCAAAATCCCGGCGCAGTACACCGAGTCGCAGCTGGCGCAGCTGGTGTTTAACAACCGTCTCGATGCCGGGCTGACCATCTTCTTTATGATCGTGGTGGTGGTGCTGGCGCTGTTCTCGATTAAAACCGCGCTGGCGGCGCTGAAAGAGAATAAACCGACGGCGAAAGAGACACCGTATGAGCCAATGCCTGAAAACCTGGACGCGATAGTGACCCAGGCGAAAGGGGCGCATTAA	MNNSGKYLIWALLSVIGAFALGYIALNRGEQINALWIVVAAVCVYLIAYRFYGLYIAKTVLGVDPTRMTPAVRHNDGLDYVPTDKKVLFGHHFAAIAGAGPLVGPVLAAQMGYLPGMIWILAGVVLAGAVQDFMVLFVSTRRDGRSLGELVKEEMGATAGVIALVATFMIMVIILAVLAMIVVKALTHSPWGTYTVAFTIPLALFMGIYIRYLRPGRIGEVSVIGLVLLVFAIISGGWVAESPTWAPFFDFTGVQLTWMLVGYGFVAAVLPVWLLLAPRDYLSTFLKIGTIVGLAIGILIMRPTLTMPALTKFIDGTGPVWTGNLFPFLFITIACGAVSGFHALIASGTTPKMLANENQACFIGYSGMLMESFVAIMALVAACIIDPGVYFAMNSPMAVLAPAGTTDVVASAAQVVSGWGFAITPETLTHIANEVGEQSIISRAGGAPTLAVGMAYILHGALGGLMDVSFWYHFAILFEALFILTAVDAGTRAARFMLQDLLGVISPNLKRTDSLPANLLATALCVLAWGYFLHQGVVDPLGGINTLWPLFGIANQMLAGMALMLCAVVLFKMKRQRYAWVALVPTAWLLICTLTAGWQKAFSPDNKVGFLAIANKFQAMIDSGKIPAQYTESQLAQLVFNNRLDAGLTIFFMIVVVVLALFSIKTALAALKENKPTAKETPYEPMPENLDAIVTQAKGAH	PGPT0015060_497	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015060-cstA-K06200	NA	NA
BMS020_04372	414	entH	COG2050	Proofreading thioesterase EntH	ATGGCCTGGAAACGAGCGCTCACGCTGGCGGCGCTGAACGCCAGCAGCGAAAACACCCTGGTGGCGCATCTGGGGATCGTCTACACCCGGCTGGAGGCGGGGCTGCTGGAGGCGGAAATGCCGGTGGATGCCCGCACCCATCAGCCGTTTGGCCTGCTGCACGGCGGGGCCTCAGCGGCGCTGGCGGAGACGCTGGGGTCGATGGCCGGCTGGCTGATGACCGAAGAGGGGCAGTGCGTGGTGGGCACCGAGCTGAACGCCACCCATCACCGGGCGGTCTCCAGCGGGAAAGTGCGCGGCGAGTGCCGCCCGCTGCATCTTGGCCGGCAGAGCCAGAGCTGGGAGATTGTGGTGTATGACGAGAAGGGGCGGCGCTGCTGCACCTGTCGTCTGGGCACCGCGGTGCTGGGCTAA	MAWKRALTLAALNASSENTLVAHLGIVYTRLEAGLLEAEMPVDARTHQPFGLLHGGASAALAETLGSMAGWLMTEEGQCVVGTELNATHHRAVSSGKVRGECRPLHLGRQSQSWEIVVYDEKGRRCCTCRLGTAVLG	PGPT0003231_10	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN_METABOLISM,PGPT0003231-entH|ydbB-K24147	NA	NA
BMS020_04373	756	entA	COG1028	2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase	ATGGCGGCGCTGGATTTTCGCGGCCAGACCGTGTGGGTGACCGGCGCAGGTAAAGGGATCGGTTATGCCACCGCGCTGGCTTTTGTGGAGGCCGGCGCCAACGTCACCGGTTTCGACCTCGCCTTTGACGGCGAACGCTACCCGTTTGCGACCGAAACGCTGGACGTCGCCGATGCCGACCGGGTGCGCGAGGTGTGCAGCCGCCTGTTGGCGAACACCGAGCGGTTAGACGTGCTGGTGAACGCCGCCGGGATCCTGCGCATGGGCGCCACCGACCAGCTAAGCGCGGAAGACTGGCAGCAGACCTTCGCGGTCAACGTCGGCGGGGCGTTCAACCTGTTTCAGCAGACGATGGCCCAGTTCCGTCGCCAGCGGGGCGGGGCCATCGTCACCGTCGCCTCCGATGCCGCGCACACGCCGCGCATCGGCATGAGCGCCTATGGCGCCTCGAAGGCGGCGCTGAAAAGCCTGGCGCTGACCGTCGGCCTTGAGCTGGCGGGCAGCGGGGTGCGCTGTAATCTGGTCTCGCCGGGCTCTACCGATACCGATATGCAGCGCACGCTGTGGGTCAGCGACGATGCGGAGCAGCAACGGATCCGCGGTTTCGGCGAGCAGTTTAAGCTCGGCATCCCGCTGGGTAAAATTGCCCGCCCGCAGGAGATTGCGAATACCATTCTGTTCCTCGCCTCTGCTCATGCCAGCCATATCACCCTGCAGGATATCGTGGTGGACGGCGGCTCGACGCTGGGGGCGTAA	MAALDFRGQTVWVTGAGKGIGYATALAFVEAGANVTGFDLAFDGERYPFATETLDVADADRVREVCSRLLANTERLDVLVNAAGILRMGATDQLSAEDWQQTFAVNVGGAFNLFQQTMAQFRRQRGGAIVTVASDAAHTPRIGMSAYGASKAALKSLALTVGLELAGSGVRCNLVSPGSTDTDMQRTLWVSDDAEQQRIRGFGEQFKLGIPLGKIARPQEIANTILFLASAHASHITLQDIVVDGGSTLGA	PGPT0003210_134	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
BMS020_04374	852	entB	COG1535	Enterobactin synthase component B	ATGGCAATCCCTAAATTACAGGCTTACGCGCTGCCGGAAGCCAGCGATATCCCGGCGAACAAAGTCAGCTGGGCCTTTGAGCCCTCCCGCGCCGCGCTGCTGATCCACGATATGCAGGAGTATTTCCTCAATTTCTGGGGCGAAAACAGCGCGATGATGGAGAAAGTGGTGGCCAATATCGCCGCCCTGCGCGACTTCTGCAAACAGAACGGCATTCCGGTGTACTACACCGCCCAGCCGAAAGAGCAGAGCGATGAAGATCGCGCGCTGCTGAATGATATGTGGGGGCCGGGGCTGACCCGTTCGCCGGAGCAGCAGCAGGTGATTGCCGCCCTGGCGCCGGATGAAGACGACACCGTGCTGGTGAAATGGCGCTACAGCGCGTTTCATCGCTCGCCGCTGGAGGCGATGCTGAAGGAGAGCGGCCGCGACCAGCTGATCATCACCGGCGTGTATGCCCATATCGGCTGCATGACCACCGCCACCGACGCCTTTATGCGCGATATCAAACCGTTCTTTGTCGCCGACGCGCTGGCGGACTTCAGCCGCGAAGAGCACCTGATGGCGCTGAAATACGTCGCCGGCCGCTCCGGCCGCGTGGTGATGACCGAAGCGCTGTTGCCGCTGCCGGCCTCCAAAGCGGCGCTGCGCGCGCTGATCCTGCCGCTGCTCGACGAATCCGACGAACCGCTGGATGATGAAAACCTGATCGACTACGGTCTGGATTCGGTGCGGATGATGGCCCTGGCCGCCCGCTGGCGCAAAGTGCACGGCGATATCGACTTCGTGATGCTGGCGAAAAACCCGACCATCGACGCCTGGTGGGCGCTGCTTTCCCGCGAGGTGCGATAA	MAIPKLQAYALPEASDIPANKVSWAFEPSRAALLIHDMQEYFLNFWGENSAMMEKVVANIAALRDFCKQNGIPVYYTAQPKEQSDEDRALLNDMWGPGLTRSPEQQQVIAALAPDEDDTVLVKWRYSAFHRSPLEAMLKESGRDQLIITGVYAHIGCMTTATDAFMRDIKPFFVADALADFSREEHLMALKYVAGRSGRVVMTEALLPLPASKAALRALILPLLDESDEPLDDENLIDYGLDSVRMMALAARWRKVHGDIDFVMLAKNPTIDAWWALLSREVR	PGPT0003215_441	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
BMS020_04375	1608	entE	COG1021	Enterobactin synthase component E	ATGATTGCATTTACCCGTTGGCCGGATGAGTTCGCGGCCCGCTATCGCCAAAAAGGCTACTGGCAGGATCTGCCATTAACCAATCTGATCACCCGTCACGCGGAAAACGACGCCGTGGCGATTATCGATGGCGATCGACACATTAGCTACCGCCAGTTTAACCAGCGGGTGGACAACCTTGCCTGCTCTCTGCAGCGTCAGGGACTGAAGCGCGGGGAAACCGCGCTGGTGCAGCTGGGCAACGTCGCCGAGTTTTACATCACCTTCTTCGCGCTGCTGCGCATCGGCGTCGCGCCGGTGAACGCGTTGTTCAGCCACCAGCGCAGCGAGCTTAACGCCTACGCCGCGCAGATTAAACCGGCGCTGCTGATCGCCGACCGCGAGCACGCGCTGTTTGCCGACGATAGCTTTCTTCACGCGTTTATCGCTGAACATCCTTCCCTGCGCGTGGCGCTGCTGCGTAACGACGGCGGCGAGCGCGATCTGGCGACGGAGATTAACCGCCCGGCGGATAACTTTATCGCTAACCCAACCCCTGCCGACGAAGTGGCCTTTTTCCAGCTCTCCGGCGGCAGCACCGGGACGCCGAAGCTGATCCCGCGTACCCATAACGACTACGACTACAGTATCCGCCGCAGCAACGAGATCTGCGGGATTAACGCTGAGACGCGCTACCTCAACGCGCTGCCGGCGGCGCATAACTATGCGATGAGCTCCCCGGGGTCGCTGGGCGTTTTCCTCGCCGGCGGGCGAGTGATCCTTGCCGCCGACCCCAGCGCCACCCTCTGTTTCCCGCTGATTGAAAAACATCAGATCAACGTCGCCTCGCTGGTGCCGCCGGCGGTCAGCCTGTGGCTGCAGGCGATCCATGAATGGGGCGGCAATGCCCAGCTGCAGTCGCTGCAGCTGCTGCAGGTCGGCGGCGCGCGCCTGTCGGCGACCCTTGCCGCGCGCATCCCGGCGGAAATTGGCTGCCAGCTGCAGCAGGTGTTCGGCATGGCGGAGGGGCTGGTGAATTACACCCGCCTTAACGACAGCCCTGAGCGGATCATTCATACCCAGGGCTGCCCGATGTGCCCGGACGATGAAGTGTGGGTGGCGGATGCCGACGGCAACCCGCTGCCGCGCGGCGAAGTGGGCCGCCTGATGACCCGCGGGCCGTACACCTTCCGCGGCTACTACAACAGCCCGCAGCATAACGCGGAAGCCTTTGACGCCGACGGGTTTTACTGTTCCGGCGATCTGATATCGATCGATGAAGACGGGTATATCACCGTCCAGGGCCGGGAAAAAGACCAGATCAACCGCGGCGGCGAGAAGATCGCCGCCGAAGAGATCGAAAACCTGCTGCTGCGCCATGAGGCGGTGATCCACGCCGCGCTGGTCAGCATTGAAGACAACCTGCTGGGCGAGAAGAGCTGCGCTTACCTGGTGGCGACCTCGCCGCTGCGCGCCGTCGCGGTGCGCCGCTTCCTGCGCGAGCAGGGGGTGGCTGAATTTAAACTGCCGGACCGCGTGGAGTGCGTTGCCGCGCTGCCGCTGACGCCGGTGGGCAAAGTCGATAAGAAACAATTACGTCAGTGGCTGGCCGAAGGCAAGCTGGGCTGA	MIAFTRWPDEFAARYRQKGYWQDLPLTNLITRHAENDAVAIIDGDRHISYRQFNQRVDNLACSLQRQGLKRGETALVQLGNVAEFYITFFALLRIGVAPVNALFSHQRSELNAYAAQIKPALLIADREHALFADDSFLHAFIAEHPSLRVALLRNDGGERDLATEINRPADNFIANPTPADEVAFFQLSGGSTGTPKLIPRTHNDYDYSIRRSNEICGINAETRYLNALPAAHNYAMSSPGSLGVFLAGGRVILAADPSATLCFPLIEKHQINVASLVPPAVSLWLQAIHEWGGNAQLQSLQLLQVGGARLSATLAARIPAEIGCQLQQVFGMAEGLVNYTRLNDSPERIIHTQGCPMCPDDEVWVADADGNPLPRGEVGRLMTRGPYTFRGYYNSPQHNAEAFDADGFYCSGDLISIDEDGYITVQGREKDQINRGGEKIAAEEIENLLLRHEAVIHAALVSIEDNLLGEKSCAYLVATSPLRAVAVRRFLREQGVAEFKLPDRVECVAALPLTPVGKVDKKQLRQWLAEGKLG	PGPT0003270_688	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
BMS020_04376	1176	entC	COG1169	Isochorismate synthase EntC	ATGGAAACGTCACTGGCTGAGGATGTACAGAAATCTACCCGGACCTTATCGCCGGACAGCTTCTTCTTTATGTCGCCGTACCGCAGTTTTAGCACCTCAGGCTGCTTCCGCCGCTTCTCAGCGCCCGCCGACGGCGGCGATGCGCTGAATGGCCAGTTCCAGCAGCAGATGGCCGCCGCCTTTGCCGAGGCCCGGGCGGCGGGGATCCGCAAGCCGGTGATGGTTGGGGCCATCCCGTTCGACACCTGTCAGCCTTCCGAGCTCTATATCCCGGAGCGCTGGGAAGCGTTCTCGCGCCCGGAAAAACAGCGTTCCGCCCGCTATGCCGCGCCGCTGGAGACGATGGAGGTGGTGGAGCGCCGGGAGATCCCGGAACAGGATGCGTTTTTAGCCATGGTGGAACGCGCCGCCGCGCTGACCGCCACCCCGGAAGTGGACAAAGTGGTGCTATCACGACTTATCGATATCACCACCCGCGATCCTGTCGATAGCGGCGCCCTGATGGAGCGACTGATCGCCCAGAACCCCGCCAGCTTCAACTTCCATGTGCCCCTCTCCGACGGCGGCGTGCTGCTGGGCGCCAGCCCGGAGCTGCTGCTGCGTAAAGAAGGACCGCACTTCAGCTCGCTGCCGCTGGCCGGCTCCGCCCGCCGCCAGCCGGACGATGTGCTGGACCGCGAAGCGGGCAACAGGCTGCTGGCGTCCGGCAAAGATCGCCACGAGCATGAACTGGTGACCCAGGCGATGAAGAGCGTGCTGGGCCCGCGCAGCAGCCAGCTGTCGCTGCCGGCATCGCCGCAGCTGATCACCACCCCGACGCTCTGGCACCTGGCGACGCCGATCGAGGGCACGGCGCTGGCGGAAGAAAACGCCATGTCGCTGGCCTGCCTGCTGCACCCGACGCCGGCGCTGAGCGGCTTCCCGCACCAGGCGGCGAAGCGCCTGATTGCCGACCTGGAACCCTTCGACCGCCAGCTGTTCGGCGGCATCGTCGGCTGGTGTGACGATGAAGGCAACGGCGAATGGGTGGTGACCATCCGCTGCGCGCGTCTGCAGCAGCGTACGCTGCGCCTGTTTGCCGGCGCGGGCATCGTTCCGGCCTCCTCGCCGCTGGGCGAATGGCGCGAAACCGGCGTCAAACTGACCACCATGCTTAACGTATTTGGCTTGAATTAA	METSLAEDVQKSTRTLSPDSFFFMSPYRSFSTSGCFRRFSAPADGGDALNGQFQQQMAAAFAEARAAGIRKPVMVGAIPFDTCQPSELYIPERWEAFSRPEKQRSARYAAPLETMEVVERREIPEQDAFLAMVERAAALTATPEVDKVVLSRLIDITTRDPVDSGALMERLIAQNPASFNFHVPLSDGGVLLGASPELLLRKEGPHFSSLPLAGSARRQPDDVLDREAGNRLLASGKDRHEHELVTQAMKSVLGPRSSQLSLPASPQLITTPTLWHLATPIEGTALAEENAMSLACLLHPTPALSGFPHQAAKRLIADLEPFDRQLFGGIVGWCDDEGNGEWVVTIRCARLQQRTLRLFAGAGIVPASSPLGEWRETGVKLTTMLNVFGLN	PGPT0003220_549	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
BMS020_04377	960	fepB	COG4592	Ferrienterobactin-binding periplasmic protein	GTGAACTTCTCTTCTTTTTACCGCCGCGGTGCGCTGGCCGGCATGCTGTTGTTTTTAGGAATTACCTCAGCCCAGGCGGCGGACTGGCCGCGCCAGGTCACCGACAGCTACGGAACGCACACCCTGCCGAGCCAGCCGCTGCGCATTGTCTCCACCAGCGTGACCCTCACCGGCTCGCTGCTGGCGATCGACGCCCCGGTGGTCGCCAGCGGCGCCACCACCCCGAACAACCGCGTGGCCGATAGCCAGGGCTTTCTGCGCCAGTGGAGTGAGGTCGCCAAAGCCCGCAAGCTGACGCGGCTGTACATCGGCGAACCGAGCGCGGAAGCGGTGGCCGCCCAGATGCCGGATCTGATCCTGGTGAGCGCCACCGGCGGCGACTCCGCCCTGCCGCTGTACGATCAGCTCAAAACGATCGCCCCGACGCTGGTCATCAACTATGACGATAAAAGCTGGCAAACGCTGCTTACCCAGTTGGGGCAGATCACCGGCCATGAGCAGCAGGCCAGCGCGCGCATCGCCGACTTCAATAAACAGCTCGTTTCGTTAAAAGAAAAAATGAAGCTGCCGCCGCAGCCGGTCACCGCCCTCGTCTATACCGCCGCCGCGCACAGCGCCAATATCTGGACGCCGGAATCGGCCCAGGGGCAGATGCTCGAACAGCTGGGCTTTAGCCTGGCGACGCTGCCGGGCGGCCTGCCCGCCAGCCATAGTCAGGGCAAACGCCACGATATCGTGCAACTGGGCGGGGAGAACCTGGCGGCCGGTCTGAACGGCCAGAGCCTGTTCCTGTTCGCCGGCGACCAGAAAGATGTCGATGCCATTTACGCCAACCCGCTGCTGGCGCATCTCCCGGCGGTCGAAGGCAAACGCGTTTACCCGCTGGGCACCGAGACCTTCCGTCTTGACTACTACAGCGCCCTGCTGGTGCTCCAGCGTCTCTCCAGCCTGTTCGGCTAA	MNFSSFYRRGALAGMLLFLGITSAQAADWPRQVTDSYGTHTLPSQPLRIVSTSVTLTGSLLAIDAPVVASGATTPNNRVADSQGFLRQWSEVAKARKLTRLYIGEPSAEAVAAQMPDLILVSATGGDSALPLYDQLKTIAPTLVINYDDKSWQTLLTQLGQITGHEQQASARIADFNKQLVSLKEKMKLPPQPVTALVYTAAAHSANIWTPESAQGQMLEQLGFSLATLPGGLPASHSQGKRHDIVQLGGENLAAGLNGQSLFLFAGDQKDVDAIYANPLLAHLPAVEGKRVYPLGTETFRLDYYSALLVLQRLSSLFG	PGPT0003310_155	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN|DESFERRIOXAMINE|CHRYSEOBACTIN_TRANSPORT,PGPT0003310-fepB|cbuB-K23185	NA	NA
BMS020_04378	1242	entS_1	COG0477	Enterobactin exporter EntS	ATGAACCGACAATCCTGGCTGCTCAACCTCAGCCTGCTGAAAACTCACCCGGCGTTTCGCGCCGTTTTTATCGCTCGCTTTATCTCTATTCTGTCGCTTGGCCTGCTGGGCGTGGCCATTCCGGTGCAGATCCAGATGATGACCCATTCGACCTGGCAGGTCGGGTTGTCGGTGACGCTGACCGGCGCGTCGATGTTTATTGGTCTGATGGTGGGGGGGGTACTGGCTGACCGCTATGAGCGCAAACGCCTGATCCTGCTGGCGCGCGGCACCTGCGGCGTGGGCTTTGTCGGCCTGTGTCTGAACGCCCTGCTGCCGGAGCCGTCGCTGGCGGCGATCTACCTGCTGGGGATCTGGGATGGGTTCTTCGCCTCGTTGGGGGTGACCGCGCTGCTGGCGGCGACGCCGGCGCTGGTGGGGCGGGAAAATCTGATGCAGGCCGGGGCCATCACTATGCTCACGGTGCGTCTGGGCTCGGTGATTTCGCCGATGATCGGCGGCCTGCTGCTGGCCTCCGGCGGTGTGGCCTGGAATTTCGGCCTGGCGGCGGCGGGGACCTTTATCACCACCTTAACCCTGCTGCGTCTGCCACAGCTGCCGCCGCCTCCGCAGCCGCGCGAGCATCCGCTGCGTGCCCTGCTGGCGGGGCTGACCTTCCTCTGCCAGAGTCCGCTTATCGGCGGGATTGCGCTGCTCGGCGGCCTGCTGACCATGGCCAGCGCGGTGCGGGTGCTCTATCCGGCGCTGGCCGGGAGCTGGCAGATGTCGGCCGGGCAGATTGGCCTGCTGTACGCCGCGATTCCGCTCGGCGCGGCGCTGGGGGCGTTGACCAGCGGCCAGCTGGCCCAGACCGTGCGGCCGGGCGCGCTGATGCTGGCGACGACGGTGTGCTCCTTTGTCGCCATTGCGCTGTTCAGCCTGATGCCGCACTGGGCGTTGGGCGCGCTGTGCCTGGCGCTGTTTGGCTGGCTGAGCGCTATTAGCTCGCTGCTGCAGTACACCCTGATCCAGACCCAGACGCCGGAACATATGCTCGGGCGAATTAACGGTCTGTGGACCGCGCAGAACGTTACCGGCGACGCCATCGGCGCGGCGCTGCTCGGCGGGTTAGGGGCGGTGATGACGCCGGTCGCTTCCGCCAGCGCCAGCGGCTGGGCGCTGGCCCTCGTCGGCGTGCTGCTGGTGGGGCTGCTACGCGAGCTGCGCCGTTTCCAGCGCCCGGAAATAGTCAACGAAAGCTGA	MNRQSWLLNLSLLKTHPAFRAVFIARFISILSLGLLGVAIPVQIQMMTHSTWQVGLSVTLTGASMFIGLMVGGVLADRYERKRLILLARGTCGVGFVGLCLNALLPEPSLAAIYLLGIWDGFFASLGVTALLAATPALVGRENLMQAGAITMLTVRLGSVISPMIGGLLLASGGVAWNFGLAAAGTFITTLTLLRLPQLPPPPQPREHPLRALLAGLTFLCQSPLIGGIALLGGLLTMASAVRVLYPALAGSWQMSAGQIGLLYAAIPLGAALGALTSGQLAQTVRPGALMLATTVCSFVAIALFSLMPHWALGALCLALFGWLSAISSLLQYTLIQTQTPEHMLGRINGLWTAQNVTGDAIGAALLGGLGAVMTPVASASASGWALALVGVLLVGLLRELRRFQRPEIVNES	PGPT0003290_261	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN_TRANSPORT,PGPT0003290-entS|ybdA|cbsS-K08225	NA	NA
BMS020_04379	1008	fepD	COG0609	Ferric enterobactin transport system permease protein FepD	ATGTCGTTTTCTACGACCGCGGTACGCTCTGTCGCCGTGCCCGGATTGTTGCTGTTACTCGCCTTAGCCGCCGCGCTTAGCCTGACCATCGGCGCCAAATCGTTGCCGATCGGCACGGTATTCACCGCCTTTAGCGGAACCTGTCAAAGCGCCGACTGCACCATCGTGCTGGACGCGCGCCTGCCGCGCACCCTGGCCGGTCTGCTGGCCGGCGTCGCCCTCGGCCTCGCCGGCGCGCTGATGCAAACGCTCACCCGTAACCCGCTGGCCGACCCCGGCCTGCTGGGGGTCAACTCCGGCGCCAGCTTCGCCATCGTCCTCGGCGCGGCGCTGTTCGGGATCACCTCCCCGCAGGAACAGCTGCTGCTGGCGTTTTGCGGCGCGCTCTGCGCCTCGCTGCTGGTGGCCTTCACCGGCAGTCAGGGCGGCGGCCAGCTGAGCCCGGTGCGCCTCACCCTCGCCGGGGTCGCCCTCGCGGCGGTACTGGAGGGGCTGTCCAACGGCATCGCCCTGCTCAACCCGGACGTCTACGATCAGCTGCGCTTCTGGCAGGCCGGTTCGCTGGATATCCGCACCCTGCAAACCCTGAAAATTGTCCTGCTGCCGGTGGCGATGGCGGGGATCGCCGCCCTGCTGCTGAGCCGGGCGCTTAACAGCCTGAGCCTCGGCAACGATACCGCCACCGCCCTCGGCAGCCGCGTCGCCCGCACCCAGCTGATCGGCCTGATTGTGATTACCGTCCTGTGCGGCAGCGCCACCGCCGTGGTCGGGCCGATCGCCTTTATCGGCCTGATGATGCCGCATATGGCCCGCTGGCTGGTGGGGGCCGATCATCGCTGGTCGCTGCCGGTCACCCTGCTGGCCACCCCGGCCCTGCTGCTGTTTGCCGACGTGATTGGCCGCCTGCTGGTGCCCGGCGAACTGCGGGTATCGGTGGTGAGCGCCTTTCTCGGCGCGCCGGTGCTGATCTGGCTGGTGCGGCGCCAGCCGCGCGGAGGTGGCCTGTGA	MSFSTTAVRSVAVPGLLLLLALAAALSLTIGAKSLPIGTVFTAFSGTCQSADCTIVLDARLPRTLAGLLAGVALGLAGALMQTLTRNPLADPGLLGVNSGASFAIVLGAALFGITSPQEQLLLAFCGALCASLLVAFTGSQGGGQLSPVRLTLAGVALAAVLEGLSNGIALLNPDVYDQLRFWQAGSLDIRTLQTLKIVLLPVAMAGIAALLLSRALNSLSLGNDTATALGSRVARTQLIGLIVITVLCGSATAVVGPIAFIGLMMPHMARWLVGADHRWSLPVTLLATPALLLFADVIGRLLVPGELRVSVVSAFLGAPVLIWLVRRQPRGGGL	PGPT0003300_120	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN|CHRYSEOBACTIN_TRANSPORT,PGPT0003300-fepD|febD|cbuD-K23186	NA	NA
BMS020_04380	993	fepG	COG4779	Ferric enterobactin transport system permease protein FepG	GTGATTGCCCCGTCCCGCCGCCTGATAGCCAGCTGTCTGCTGCTGTTGGCCGCCAGCCTGTTGATTTCCCTGCTCGGGCTGGCGCAAGGCCCGGTGCCGCTAACGATTGACCAGGTCTTCTCCGCCCTGTTCGGCGACGCGCCGCGCAACGTCGCGATGGTGGTGAACGAATGGCGGCTGCCGCGGGTGTTAATGGCGCTGCTCATCGGCGCCGCGCTCGGCGTCAGCGGCGCCATTTTCCAGTCGCTGACCCGTAACCCGCTCGGCAGCCCGGACGTGATGGGCTTTAACACCGGCGCCTGGAGCGGCGTGCTGGTGGCGATGGTTCTCTTCGGCCAGAACCTGACGGCGATTGCCCTGGCGGCGATGGCCGGCGGGGTACTCACCTCGCTGGTGGTCTGGCTGCTGGCCTGGCGCAATGGGATCGAGACCTTTCGCCTGATTATTATCGGCATCGGCGTGCGCGCCATGCTGGTGGCCTTCAACACCTGGCTGCTGCTGCGCGCCTCGCTGGAGACCGCCCTTTCTGCGGGCCTGTGGAACGCCGGATCGCTGAACGGCCTGACCTGGGGTAAAACCTGGCCGTCGGCGCCGCTGATCCTGCTGATGCTGGTGGGCAGCGCCCTGCTGGTTCGTCGGATGCGGCTGCTGGAGATGGGCGACGATACCGCCTGCGCGCTGGGCGTGCACGTCGAGCGTTCGCGCCTGCTGCTGATGCTGGTGGCGGTGGTGCTCACCGCCGCCTCGACGGCGCTGGCCGGGCCCATCTCATTTATCGCGCTGGTGGCGCCGCACATCGCCCGCCGCCTGAGCGGCACGGCCCGCTGGGGATTGACCCAGTCGGCCCTGTGCGGCGCGCTGCTGCTGGCGCTGGCCGATTACGGCGCCCAGCGGCTGTTTATGCCCTGGCAGCTGCCGGTGGGCGTACTAACCGTCAGCCTCGGCGGTATTTACCTTATTGCATTGTTGATTCAGGAGTCCCGCAAAAAATGA	MIAPSRRLIASCLLLLAASLLISLLGLAQGPVPLTIDQVFSALFGDAPRNVAMVVNEWRLPRVLMALLIGAALGVSGAIFQSLTRNPLGSPDVMGFNTGAWSGVLVAMVLFGQNLTAIALAAMAGGVLTSLVVWLLAWRNGIETFRLIIIGIGVRAMLVAFNTWLLLRASLETALSAGLWNAGSLNGLTWGKTWPSAPLILLMLVGSALLVRRMRLLEMGDDTACALGVHVERSRLLLMLVAVVLTAASTALAGPISFIALVAPHIARRLSGTARWGLTQSALCGALLLALADYGAQRLFMPWQLPVGVLTVSLGGIYLIALLIQESRKK	PGPT0003305_121	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN|CHRYSEOBACTIN_TRANSPORT,PGPT0003305-fepG|cbuG-K23187	NA	NA
BMS020_04381	795	fepC	COG1120	Ferric enterobactin transport ATP-binding protein FepC	ATGAGTGCTGTCCCCTCCCGTTTGCGCGGCGAGCAGTTAACCCTGGCCTACGGGAACAAGACCATCGCCGAGTCGCTGAACGTGACCATCCCTGACGGCCACTTCACCGCCATTATCGGCCCCAACGGCTGCGGCAAGTCGACACTGCTGCGCACCCTCAGCCGTCTGATGACGCCGGCCAGCGGCCATGTCTGGCTCGACGGCGCGCAGATCCAGCAGTACGCCAGTAAAGAGGTCGCCCGCCGCATCGGCTTGCTGGCGCAAAATGCCACCACCCCTGGCGATATTACGGTGCAGGAGCTGGTGGCCCGCGGGCGCTACCCGCACCAGCCGCTGTTCACCCGCTGGCGCAAAGAAGATGAAGCGGCGGTGAATAATGCGATGCGGGCCACCGGGATCAGCGACCTGGCGCTGCAGAGCGTCGATACGCTTTCCGGCGGCCAGCGGCAGCGGGCGTGGATTGCGATGGTGCTGGCCCAGGAGACGGCGATTATGCTGCTGGATGAGCCGACCACCTGGCTGGACATCAGCCATCAGATCGACCTGCTGGAGCTGTTGAGCGAGCTGAATCGCGAGAAGGGCTATACCCTGGCGGCGGTGCTGCACGATCTGAACCAGGCCTGCCGCTACGCCACCCACCTGATCGCCCTGCGCGACGGTAAGATCGTCGCCGAGGGGGCGCCGAAGGAGATCGTCACGGCGGATCTGATTGAACGGATTTACGGTCTGCGCTGCACGATCATTGAGGATCCGGTGGCGCATACGCCGCTGGTGGTGCCGCTGGGCCGCCGGTAA	MSAVPSRLRGEQLTLAYGNKTIAESLNVTIPDGHFTAIIGPNGCGKSTLLRTLSRLMTPASGHVWLDGAQIQQYASKEVARRIGLLAQNATTPGDITVQELVARGRYPHQPLFTRWRKEDEAAVNNAMRATGISDLALQSVDTLSGGQRQRAWIAMVLAQETAIMLLDEPTTWLDISHQIDLLELLSELNREKGYTLAAVLHDLNQACRYATHLIALRDGKIVAEGAPKEIVTADLIERIYGLRCTIIEDPVAHTPLVVPLGRR	PGPT0003295_204	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN|CHRYSEOBACTIN_TRANSPORT,PGPT0003295-fepC|yusV|cbuC-K23188	NA	NA
BMS020_04382	3882	entF	COG1020	Enterobactin synthase component F	ATGACCACTCGTTTACCGCTGGTTGCCGCGCAGCCGGGGATCTGGATGGCCGAGCGCCTCTCCACTCTGCCTGGCGCCTGGAGCGTGGCCCACTATGTTGAACTGCGCGGCGCGCTCGACCCGGCGCTGCTGGGTAAGGCGATTGTCGCCGGGCTGCAGCAGGCGGATACCCTCAGCCTGCGCTTTGAGGAAGAGGAAGGGGAAGTCTGGCAGTGGCTGGCGGCGGAACGCACCTTTGGCGAACCGCCGATCGTTGACCTGCGTACGGCGCCGGATCCGCACAGCGCCGCCACGGAGCGGATGCAGGCGGATCTGGCGCAGGATCTGCGCGTCGATGGCGGCAACCCGCTGGTGTGCCATCAGCTGCTGCGCGTCGGCGACGACCGCTGGTACTGGTATCAGCGCTATCACCACTTGCTGGTGGATGGCTTCAGTTTCCCGGCGATTACCCGACAGATCGCCGCCATTTACCGCGCCTGGCAGCGTGGAGAAGCCACCCCGGAATCGCCTTTCACCCCCTTTGCCGAAGTGGTGGACGAGTACCAGCGCTACGCCGGCAGCGAGGCCTGGCAGAGGGATAAAGCCTTCTGGCAGGCCCAGCGCCAGGCGTTACCGGCTCCCGCCTCGCTCTCTGCCGCCCCGCTGGGCGGGCGCGCCGCCGGGAGCGATATCTGGCGGATGAAGCTGGCGATGAACGCCGACGCCTTCCGCCGCCTGGCCGGCCATGCGCCGCAGTGTCAGCCCGCTGACCTGGCGCTGGCGCTCACCACGCTGTGGCTGGGCCGCCTGTGCAACCGGATGAACTACGCGGCGGGCTTTATCTTTATGCGCCGGATGGGCTCAGCGGCGCTGACCTCGACGGGGCCGGTGCTCAATGTCCTGCCTCTGGCGGTGCATATTGACGCCCAGGAGACGCTGGCGGACCTGGCGATGCGCCTCGCCGCGCAGCTGAAAAAGATGCGCCGCCATCAGCGCTATGACGCCGAGCAGATCGTCCGCGACAGCGGCAAAGCGGCCGGGGACGAACCGCTGTTCGGCCCGGTGCTGAACGTCAAAGTCTTTGATTACCAGGTGGATATCGACGGCGTCGAGGCGGTGACCCACACCCTCGCCACCGGCCCGGTCAACGATCTCGAGCTGGCGCTGTTCCCGGATGAGACCGGCGGGCTGTCGCTGGAGATCCTCGCTAACAAGGCCCGGTACGATGAAGCCGAGCTGCGTCGCCACATGGCGCGACTGACCGAGCTGCTGGCGCAGTTTGCCGCCGATCCGACGCTACGCTGCGGCGAAGCGGAGATGCTCTCCGCCGACGAGCAGGCCCGGCTGGCGGCGGTCAACGATACCGCTATGCCGCTGCCCGCCACCACCCTCAGCGCGCTGGTGGCCGACCAGGCGCGGAAGACCCCGGATGCTCCGGCGCTGGCGGATGCTAACTGGCAGTTCAGCTATCGTGAGATGCGTCAGCAGGTAGTGGCGCTCGCGCAGCTGCTGCGTCAGCGCGGCGTGAAGCCGGGCGACAGCGTGGCGGTGGCCCTGCCGCGCTCGGTGTTCCTGACCCTGGCGCTGCACGGCATTGTCGAAGCGGGAGCCGCCTGGCTGCCGCTGGACACTGGCTACCCGGACGACCGCCTGCGGATGATGCTGGAAGACGCCCGGCCGTCGCTGCTGATCGCCACGGAGGATCAGCTGGCCCGCTTCAGCGATATCCCCGTGCTGGAGAGCCTCTGCTACCAGCAGCCGCTGGCCGTTGCGGATGACGCGCCGCTGGCGCTGTCAAAACCGGAGCATACCGCCTATATCATCTTTACCTCTGGCTCCACCGGACGGCCAAAAGGGGTGATGGTCGGCCAGACCGCCATCGTCAACCGCCTGCTGTGGATGCAGGATCGTTATCCGTTATCTGCCGACGACGTGGTGGCGCAGAAAACGCCGTGCAGTTTCGACGTTTCGGTGTGGGAGTTCTGGTGGCCGTTTATCGCCGGCGCGCAGCTGGTGATGGCCGAGCCGGAGGCGCACCGCGACCCGCAGGCGATGCAGCAGTTCTTCGCCCACTACGGCGTGACCACCACCCACTTTGTGCCGTCGATGCTGGCGGCGTTTGTCGCCTCGCTGGATGCCGACAGCGTGGCCGCCTGCCGCACGCTGCGGCGGGTATTCTGCAGCGGCGAAGCGCTGCCGACAGAATTGTGCCGCGAATGGGAGCGCTTGACCGGCGCGCCGCTGCATAACCTGTACGGCCCGACGGAAGCGGCGGTGGACGTCAGCTGGTATCCGGCCTGCGGGCCTGAGCTGGCGGCGGTGACCGGCAGCAGCGTGCCGATTGGCTGGCCGGTATGGAACACCGGGCTGCGCATTCTCGATGCCGCGATGCGCCCGGTGCCGCCGGGGGTGGCCGGGGATCTCTATCTCACCGGCATTCAGCTGGCGCAGGGCTATCTGGGGCGTCCGGACCTCACCGCCAGCCGCTTTATCGCCGACCCGTTTGCCCCCGGCGAGCGGATGTATCGCACCGGCGACGTGGCGCGCTGGCTGGCGAACGGCGCGGTGGAGTATCTTGGCCGCAGCGACGATCAGCTGAAGATCCGCGGGCAGCGCATCGAGCTTGGCGAGATTGACCGGGTGATGTCGGCCCTGCCGGACGTGGCGCAGGCGGTGAGTCACGCCTGCGTCTTCAACCAGGCGGCGGCGACCGGCGGCGATGCCCGGCAGCTGGTGGGCTATCTGGTCTCTGACTCCGGCCTGCCGCTGGATACCGCGGCGCTGAAAGCGCGGCTGGCGGAACAGCTGCCGCCGCATATGGTCCCGGTGGTGCTGATGCAGCTCCCCGACCTGCCGCTCAGCGCCAATGGCAAACTGGACCGCAAAGCGCTGCCGCTGCCGACCCTCGGCGGCGAGCGCAGCGGCCGGCCGCCGGAGCCCGGGATGGAAACCGTTGTCGCCGCCGCCTTCAGTCAGCTTCTGGGCTGCGAGGTGAATGATATCGACGCTGATTTCTTCGCCCTCGGCGGCCATTCGCTGCTGGCGATGCGCCTGGCGGCGCAGCTCAGCCGCCAGCTGGCGCGGCAGGTGACCCCGGGGCAGGTGATGGTGGCCTCGACGGTGGGCAAACTGAGCGCGCTGCTGGCCGCCGATCTCAGCGATGAGCAGGCTCAGCGCCTGGGGCTGGATGCGCTTCTGCCGCTGCGCGAGAGCGACGGCCCAACGCTGTTCTGTTTCCATCCGGCCTCCGGCTTCGCCTGGCAGTTCAGCGTGCTCGCGCGCTATCTCAGCCCGCGCTGGTCGATTACCGGTATTCAGTCGCCGCGCCCGCAGGGGCCGATGGCCGGCGCCGCCAGCCTCGACGAGGTGTGCGAGCATCATCTGCAAACGCTGTTGGCGCAGCAGCCGCACGGTCCTTATTATCTGTTCGGTTATTCGCTCGGCGGCACCTTAGCCCAGGGCATTGCCGCCCGCTTGCGCCAGCGCGGCGAAGCAGTGGCCTTCCTCGGCCTGCTGGATACCTGGCCGCCGGAGACGCAAAACTGGGCGGAGAAAGAGGCGAACGGGCTGGATCCGGCGGTGCTGGCGGAAATTGCCCGCGAGCGCGAAGCGTTCCTCGCCGCCCAGCAGGGGCAAGCCTCCGGCGAGCTGTTCAGCGCCATCGAAGGCAACTATGCCGACGCGGTGCGGCTGTTAACCACCGCGCACAGCGCGAAGTTTGACGGCAAGGCAACGCTGTTCGTGGCGGAGAAGACGCGGCAGGCGGGGATGGATCCGCAGGTCGTATGGGGCCCGTGGGTGGGCGAGCTGGAGGTGTTCAGCCAGAACTGCGCCCACGTCGACATTATCTCCCCGCAGGCCTTTGAAGCCATCGGCCCGGTGGTCAGCGAGATTCTGGGATAA	MTTRLPLVAAQPGIWMAERLSTLPGAWSVAHYVELRGALDPALLGKAIVAGLQQADTLSLRFEEEEGEVWQWLAAERTFGEPPIVDLRTAPDPHSAATERMQADLAQDLRVDGGNPLVCHQLLRVGDDRWYWYQRYHHLLVDGFSFPAITRQIAAIYRAWQRGEATPESPFTPFAEVVDEYQRYAGSEAWQRDKAFWQAQRQALPAPASLSAAPLGGRAAGSDIWRMKLAMNADAFRRLAGHAPQCQPADLALALTTLWLGRLCNRMNYAAGFIFMRRMGSAALTSTGPVLNVLPLAVHIDAQETLADLAMRLAAQLKKMRRHQRYDAEQIVRDSGKAAGDEPLFGPVLNVKVFDYQVDIDGVEAVTHTLATGPVNDLELALFPDETGGLSLEILANKARYDEAELRRHMARLTELLAQFAADPTLRCGEAEMLSADEQARLAAVNDTAMPLPATTLSALVADQARKTPDAPALADANWQFSYREMRQQVVALAQLLRQRGVKPGDSVAVALPRSVFLTLALHGIVEAGAAWLPLDTGYPDDRLRMMLEDARPSLLIATEDQLARFSDIPVLESLCYQQPLAVADDAPLALSKPEHTAYIIFTSGSTGRPKGVMVGQTAIVNRLLWMQDRYPLSADDVVAQKTPCSFDVSVWEFWWPFIAGAQLVMAEPEAHRDPQAMQQFFAHYGVTTTHFVPSMLAAFVASLDADSVAACRTLRRVFCSGEALPTELCREWERLTGAPLHNLYGPTEAAVDVSWYPACGPELAAVTGSSVPIGWPVWNTGLRILDAAMRPVPPGVAGDLYLTGIQLAQGYLGRPDLTASRFIADPFAPGERMYRTGDVARWLANGAVEYLGRSDDQLKIRGQRIELGEIDRVMSALPDVAQAVSHACVFNQAAATGGDARQLVGYLVSDSGLPLDTAALKARLAEQLPPHMVPVVLMQLPDLPLSANGKLDRKALPLPTLGGERSGRPPEPGMETVVAAAFSQLLGCEVNDIDADFFALGGHSLLAMRLAAQLSRQLARQVTPGQVMVASTVGKLSALLAADLSDEQAQRLGLDALLPLRESDGPTLFCFHPASGFAWQFSVLARYLSPRWSITGIQSPRPQGPMAGAASLDEVCEHHLQTLLAQQPHGPYYLFGYSLGGTLAQGIAARLRQRGEAVAFLGLLDTWPPETQNWAEKEANGLDPAVLAEIAREREAFLAAQQGQASGELFSAIEGNYADAVRLLTTAHSAKFDGKATLFVAEKTRQAGMDPQVVWGPWVGELEVFSQNCAHVDIISPQAFEAIGPVVSEILG	PGPT0003230_234	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN_METABOLISM,PGPT0003230-entF|aebF-K02364	NA	NA
BMS020_04383	204	ybdZ	COG3251	Enterobactin biosynthesis protein YbdZ	ATGCAATTCAGTAACCCCTTCGACAATCCGCAAGGGCAGTTTTACATTCTGCGCAATGACCAGCGGCAGTTCAGCCTGTGGCCGGGGCATTGCGCGCTGCCTGCCGGCTGGACGGTGGTGTGCCCTCCGCAGTCGGTCGAGGCGTGCAACGCCTGGCTGGCGGCCAACTGGCCGACACTGACCCCCGCCCATCATGCGGCATAA	MQFSNPFDNPQGQFYILRNDQRQFSLWPGHCALPAGWTVVCPPQSVEACNAWLAANWPTLTPAHHAA	PGPT0003235_112	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN_METABOLISM,PGPT0003235-fes|cbsF|cbsH-K07214	NA	NA
BMS020_04384	1209	fes	COG2382	Enterochelin esterase	ATGTTAACGACAGGAAGCGAGGAGTGGTGGCGAACCCTGCAGGGACCGCAGTCCCGGGCGGTGGATGACGCCATCGAGGTGACGTTCTGGTGGCGGGATCCGGCGGGGGATGAAACGCGTTCTCCACGCCGTCGGGTATGGCTCTATATCACCGGCGTGACCGACCACCATCAAAATGCGCGACCGCAATCGCTGCAACGTCTGCCCGGGACCGACGCCTGGTGCTGGCGAACCACGCTGTCGCCGACCTGGCGCGGCAGCTACTGCTTTATTCCCTCCGACCGTGACGATGATTTTTCCCCTGAGGTGTTCAGCGCCGATAAGCCGGACCGCGCGCTGCTGCGCGAAGGCTGGCGCAAACTGCTGCCGCGGGCGATAGCCGATCCGCTGAACCCGCACAGCTGGCGTGGCGGACGCGGCCATGGCGTCTCCGCCCTGGAGATGCCGCAGGCGCCGGCGCAACCCGGCTGGGATCTGCTTAATGAGGCGCATCCTCCCGCCCGTTGCCTTGAGTGGCGCAGCGCGCGTCTGGGCAACCATCGCCGGGTCTGGATCTACACCCCCGGCGAGGCCGTCGACCCGCAAACGCGGCCCCTGGCGATCCTGCTTGACGGCCAGTTCTGGGCCGAAAGCATGCCGGTGTGGTCGCCGCTGGCCGCGCTGACCCGCGAGGGGAGGCTGCCGCCGGCGGTCTACCTGCTGATCGACGCGATCGACAACCAGCGCCGCGGGGTTGAGCTGCCCTGTCATCGCGATTTCTGGCTGGCGGTGCAGGAGGAGCTCCTGCCGCTGGTCCGCGGTCACGTCCCGTTCAGCGACCGCCCGGAGCGGACGGTGGTGGCCGGGCAAAGCTTCGGCGGCCTGGCGGCAATGTTCGCCGCCCTCAACTGGCCGCAGCGCTTTGGCTGCGTGCTCAGCCAGTCAGGCTCCTACTGGTGGCCGCATCGCGATGGCAGCGGGACGGGCTTTATCGGCGAACGTCTCCGCCAGGGCGAGGCGTCCGCGGCCGGGCTGCGCATCTGGCTGGAAGCGGGCCAGCGTGAACCGATTATTTTTCGCGCCAACCAGGCGCTGCTGGCGCAACTCACCACAACGCAGCAGACGATTTTCTGGCGTCAGGTTGACGGCGGGCATGATGCGCTTTGCTGGCGCGGCGGGCTGACGGCGGGGCTGATCCAGCTCTGGCAGCCTCTGCTGTCGCCCCCTTAG	MLTTGSEEWWRTLQGPQSRAVDDAIEVTFWWRDPAGDETRSPRRRVWLYITGVTDHHQNARPQSLQRLPGTDAWCWRTTLSPTWRGSYCFIPSDRDDDFSPEVFSADKPDRALLREGWRKLLPRAIADPLNPHSWRGGRGHGVSALEMPQAPAQPGWDLLNEAHPPARCLEWRSARLGNHRRVWIYTPGEAVDPQTRPLAILLDGQFWAESMPVWSPLAALTREGRLPPAVYLLIDAIDNQRRGVELPCHRDFWLAVQEELLPLVRGHVPFSDRPERTVVAGQSFGGLAAMFAALNWPQRFGCVLSQSGSYWWPHRDGSGTGFIGERLRQGEASAAGLRIWLEAGQREPIIFRANQALLAQLTTTQQTIFWRQVDGGHDALCWRGGLTAGLIQLWQPLLSPP	PGPT0003235_203	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN_METABOLISM,PGPT0003235-fes|cbsF|cbsH-K07214	NA	NA
BMS020_04385	2229	fepA	COG4771	Ferrienterobactin receptor	ATGAATAACAGGATCAAATCCCTGGCCTTGCTGGTCAATCTGGGAATTTACGGGGTTGCTTTTCCGTTAAGCGCAGCGGAAACCGCCACCGACGATAAAAACAGCGCCGCGGAAGAGACCATGGTGGTCACCGCCGCCGAGCAGAACCTGCAGGCGCCGGGCGTCTCCACCATCACCGCCGATGAGATCCGCAAACGTCCGCCGGCGCGCGACGTCTCGGAGATCATTCGCACCATGCCGGGGGTCAACCTGACCGGCAACTCCACCAGCGGCCAGCGCGGGAATAACCGCCAGATTGATATCCGCGGCATGGGCCCGGAAAACACCCTGATCCTGATCGACGGCAAGCCGGTCACCAGCCGCAACTCTGTGCGTCTCGGCTGGCGCGGCGAGCGCGACACCCGCGGCGACACCAGTTGGGTGCCGCCGGAGATGATCGAACGCATCGAAGTGATTCGCGGCCCGGCCGCCGCCCGCTACGGCAACGGCGCCGCCGGCGGCGTGGTGAATATCATCACTAAAAAAACCGGCGATGAGTGGCACGGCTCCTGGAACACCTATATGAACGCCCCGGAGCACAAAGACGAAGGCTCCACCAAGCGCACCAACTTCAGCCTCAGCGGCCCGCTGGGCGGCGATTTCAGCTTCCGCCTGTTCGGTAACCTCGACAAAACCCAGGCCGACGCCTGGGACATCAACCAGGGCCATCAGTCCGAACGTACCGGGATCTATGCCGACACCCTGCCGGCCGGGCGCGAAGGGGTAAAAAATAAAAACATCGATGGTCTGGTGCGCTGGGAATTCGCCCCGATGCAGTCGCTGGAGTTTGAGGCCGGCTACAGCCGCCAGGGCAACCTCTACGCAGGCGACACCCAGAACACCAACTCCAACGACCTGGTAAAAGAGAACTACGGCAAAGAGACCAACCGTCTGTACCGCAACACCTACTCGGTCACCTGGAACGGCGCCTGGGACAACGGGGTGACCACCAGCAACTGGGCGCAGTACGAACGTACCCGCAACTCACGCAAAGGCGAAGGCCTGGCCGGGGGGACCGAGGGGATCTTCAACAGCAACCAGTTCACGGATATCGATCTGGCGGATGTGATGCTGCACAGCGAAGTCAGTATCCCGTTCGACTATCTGGTTAATCAGAACCTGACGCTGGGCAGCGAGTGGAACCAGCAGCGCATGAAGGATAAGGCCTCCAACACCCAGGCGCTGTCGGGGGGAGAAATTCCGGGCTACGACAGCACCGGCCGCAGCCCCTACTCGAAGGCGGAGATCTTCTCCCTGTTCGCTGAGAACAACATGGAGCTGACCGACACCACCATGCTGACCCCGGCGCTGCGTTTCGATCATCACAGCATCGTCGGCAACAACTGGAGCCCGTCCCTCAATCTGTCTCAGGGCCTGTGGGACGACTTCACGCTGAAGATGGGTATCGCCCGCGCCTATAAAGCGCCGAGCCTGTATCAGACCAACCCGAACTACATTCTCTACAGCAAAGGCCAGGGCTGCTACGCCAGTAAAGACGGCTGCTATCTGCAGGGGAATGAAGATTTAAAAGCCGAGACCAGCATCAACAAAGAGATTGGCCTCGAGTTTAAACGCGACGGCTGGCTGGCGGGCGTAACCTGGTTCCGCAACGATTACCGCAACAAGATTGAAGCTGGCTATGCTCCGGTCTATCAAAACGGTAAAGGTACCGATCTTTACCAGTGGGAAAACGTGCCGAAAGCGGTGGTGGAAGGCCTGGAAGGTACGCTGAACGTCCCGGTGAGCGAGACCGTGAACTGGACCAACAACATCACCTACATGCTGCAGAGTAAGAATAAAGAGACCGGCGATCGGCTGTCGATTATCCCGGAATACACGCTGAACTCCACGCTGAGCTGGCAGGTACGCGATGACGTTTCGCTGCAGTCGACCTTTACCTGGTACGGCAAACAGGAGCCGAAGAAGTACAACTATAAGGGTAAACCGGTCACCGGCAGCGAGAAGAACGAGGTCAGCCCCTACAGCATCCTCGGCCTGAGCGCGACCTGGGACGTGACCAAATACGTTAGTCTGACCGGCGGCGTGGATAACGTCTTCGACAAGCGCCACTGGCGCGCGGGCAACGCCCAGACCACCGGGGGCGCCACCGGCACGATGTACGGCGCCGGCGCCGAGACCTACAACGAATCGGGCCGCACCTGGTATATGAGCGTCAACACCCACTTCTGA	MNNRIKSLALLVNLGIYGVAFPLSAAETATDDKNSAAEETMVVTAAEQNLQAPGVSTITADEIRKRPPARDVSEIIRTMPGVNLTGNSTSGQRGNNRQIDIRGMGPENTLILIDGKPVTSRNSVRLGWRGERDTRGDTSWVPPEMIERIEVIRGPAAARYGNGAAGGVVNIITKKTGDEWHGSWNTYMNAPEHKDEGSTKRTNFSLSGPLGGDFSFRLFGNLDKTQADAWDINQGHQSERTGIYADTLPAGREGVKNKNIDGLVRWEFAPMQSLEFEAGYSRQGNLYAGDTQNTNSNDLVKENYGKETNRLYRNTYSVTWNGAWDNGVTTSNWAQYERTRNSRKGEGLAGGTEGIFNSNQFTDIDLADVMLHSEVSIPFDYLVNQNLTLGSEWNQQRMKDKASNTQALSGGEIPGYDSTGRSPYSKAEIFSLFAENNMELTDTTMLTPALRFDHHSIVGNNWSPSLNLSQGLWDDFTLKMGIARAYKAPSLYQTNPNYILYSKGQGCYASKDGCYLQGNEDLKAETSINKEIGLEFKRDGWLAGVTWFRNDYRNKIEAGYAPVYQNGKGTDLYQWENVPKAVVEGLEGTLNVPVSETVNWTNNITYMLQSKNKETGDRLSIIPEYTLNSTLSWQVRDDVSLQSTFTWYGKQEPKKYNYKGKPVTGSEKNEVSPYSILGLSATWDVTKYVSLTGGVDNVFDKRHWRAGNAQTTGGATGTMYGAGAETYNESGRTWYMSVNTHF	PGPT0003415_639	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-SALMOCHELIN_TRANSPORT,PGPT0003415-fepA|pfeA|iroN|pirA-K19611	NA	NA
BMS020_04386	660	entD	COG2977	Enterobactin synthase component D	ATGCGCATTCTTCACTCCACCCTGCTGCTGGCCGGCTATCGCTTGCAGCACGTCGACTTCGACCCGGCGACTTTTCAGGCTGCCGATCTGTTGTGGTTGCCCTATCACGCCAGCCTGAGCGGCTGGAGCCGCAAGCGGCAGGCGGAGCACCTGGCCGGGCGCATCGCCGCGGTGTACGCCCTGCGCGAGGTGGGAGAAAAACGGCCTCCCGCGATTGGCGATCGGCGCCAGCCGCTGTGGCCCGCGCCCTGGTTCGGTAGTATCAGCCACTGCGGCCAGCGCGCGCTGGCGGTGGTCGCCGACCGGCCGGTGGGCGTCGACATCGAGCGCCGGTTTACTCCACAGCTGGCGGCGGAGCTGGAGAGCAGCATTATCAACGAGGCGGAAAAAAAGGTGCTATTGCACAGCGGCCTGCCCTTCCCGCTGGCGCTGACGCTGGCCTTTTCGGCGAAAGAGAGTGGGTTTAAGGCCTGGTCCTCTCACGCTTTAGCCCTGCCCGGCTTCCACAGCGCCCGGATTGTGGCACTCACTGCGCAGCAGATCCATTTACGTTTTACCGCCAGCTTCTCCGTACAGCTTGCTCATTTCACATTGCAAATCAACCATCTGATAAAAGACGATTTCGTTATTACCTGTACCTGCCCGCCTCGCGAAGCGTGA	MRILHSTLLLAGYRLQHVDFDPATFQAADLLWLPYHASLSGWSRKRQAEHLAGRIAAVYALREVGEKRPPAIGDRRQPLWPAPWFGSISHCGQRALAVVADRPVGVDIERRFTPQLAAELESSIINEAEKKVLLHSGLPFPLALTLAFSAKESGFKAWSSHALALPGFHSARIVALTAQQIHLRFTASFSVQLAHFTLQINHLIKDDFVITCTCPPREA	PGPT0003225_519	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN|ACINETOBACTIN|ANGUIBACTIN|CHRYSOBACTIN_METABOLISM,PGPT0003225-entD|basI|angD|cbsD|cbsE|aebD-K02362	NA	NA
BMS020_04387	942	rbsB_2	COG1879	Ribose import binding protein RbsB	ATGAAAACCACCCTGATAAAGTCTGTTCTGTTTGCCTCCATGATGGCCGCATCTGGCTCACTTTTCGCCGCCGATAATGGCCTGATCGCAATCATTACCCCTTCACATGATAATCCGTTCTTTAAAGCCGAGGCTGACGGCGCAGCGGCGAAAGCGAAAGAGCTGGGTTACAGCACCCTGGTCGCCTCGCACGACGATGACGTCAACAAACAAAACCAATTGATTGAAACGGCTATTGCGCGGAAAGCCAAAGCCATCATCCTGGATAACGCTGGCGCGGATGCCACCGTCGGCCCGCTGGAAAAAGCAAAAGCGGCAGGTGTGCCGGCATTTTTAATCGACAGAGAGATCAATAAAACCGGCGTCGCCGTGGCGCAGATTGTCTCTAACAACTATCAGGGCGCCCAGCTTGGCGCGGAAAAATTCGCCAGTCTCCTCAACGGTAAAGGCAAGTATGTCGAACTGTTAGGTCGTCAGTCCGACACCAACGCCAGCGTCCGCTCGCAGGGTTATCACGATGTGCTGGACGACTATCCCGAAATGAAAATGGTCGCCCAGCAGACGGCGAACTGGAGCCAGACGGAAGCCTTTACCCGTATGGAAGCTATTCTGCAGACGAATCCGGATATCGTCGGTGTGATTTCCGGCAACGATACCATGGCGCTGGGGGCGGAAGCGGCGCTGAAAGCTGCAGGTAAAAACGACGTGATTGTCGTCGGCTTCGACGGCAGCGACTACACGCGCGACTCGATACTCAAGCAGGGCAACATTAAAGCCACGGTTCTCCAGCCTGGCTGGAAGCAGGCGCAAATGGCTGTGGAACAGGCGGACTTTTTCCTGAAGAACGGGAAAGCCCAGAAAGAAGAGAAGCAGTTGATGGACTGCATCCTCATCGATAGTGGCAATGCGAAAAAACTCAACATGTTCAACCTCAGCGAGTAA	MKTTLIKSVLFASMMAASGSLFAADNGLIAIITPSHDNPFFKAEADGAAAKAKELGYSTLVASHDDDVNKQNQLIETAIARKAKAIILDNAGADATVGPLEKAKAAGVPAFLIDREINKTGVAVAQIVSNNYQGAQLGAEKFASLLNGKGKYVELLGRQSDTNASVRSQGYHDVLDDYPEMKMVAQQTANWSQTEAFTRMEAILQTNPDIVGVISGNDTMALGAEAALKAAGKNDVIVVGFDGSDYTRDSILKQGNIKATVLQPGWKQAQMAVEQADFFLKNGKAQKEEKQLMDCILIDSGNAKKLNMFNLSE	PGPT0016710_180	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ERYTHRITOL_TRANSPORT,PGPT0016710-eryG-K17202	NA	NA
BMS020_04388	612			hypothetical protein	ATGATGCGGTTAAAACAATGGGGCGCCGTGCTGATGGGCTGCGCCGCCCTGTTGCTGACGGCCTGCACGGTGGTGGACTTAGATGAGAATGGCAAGCCAGTGCTGCCTGCCGACCCGAACGCGAAACCCAGCTTCGACCATCTCACCCCGCAGCAGATCGCGCAACAAACCTGGCAATCTCGTGTGATTGACGCAGCGAACCAACATGCGCTGGACGCGACTGCGCTGGAAAAAGTGCGCCAGGCGTCTGGCGCTACGCCACAGAGCGTCTTTGTCCGCCTGAACAGCGAGGTGACCGGGACTGACGTCAGCAACCCACGCGAGCAAAAGCTCAAACTTACGCTACACGGCCAGCCGTTGGTCGTGCAATTAGGTCCTGTCATGCGAGGCAATGCCATCCGCGATGCCAGCGGTTTCAAATTTGAAGACTTTACCAACCAGGTGCAGTTTGCACAGCTTTCACGCGCCTACAACCGGGAGGCGATAAAATCGTTGCCGACAGTGGACGCGAGCTGGACAGGCAAGCCTGTCGATATTCTCTTTGCGGTCACGGTTATTAACGGCAGTCTGCAGGATGCGGCCGCTCTTCAGCTAAAACAGGAGGTGCGCTGA	MMRLKQWGAVLMGCAALLLTACTVVDLDENGKPVLPADPNAKPSFDHLTPQQIAQQTWQSRVIDAANQHALDATALEKVRQASGATPQSVFVRLNSEVTGTDVSNPREQKLKLTLHGQPLVVQLGPVMRGNAIRDASGFKFEDFTNQVQFAQLSRAYNREAIKSLPTVDASWTGKPVDILFAVTVINGSLQDAAALQLKQEVR				NA	NA	NA	NA	NA
BMS020_04389	1527	araG_2	COG1129	Arabinose import ATP-binding protein AraG	ATGGCCAGTTCACCCGCAGAGGATATCATTTTACGCACCCGTGGTATTTCGATGTTGTTCCCCGGCACGGTGGCGTTGGATAACGTCGACTACAACGTCTGGCGCGGCAAAGTTAACGTGATCATCGGCGAAAATGGCGCCGGTAAATCAACGCTCATGAAAATTCTCGCCGGTGTGCAACAGCCGAGCCTGGGTGAAATGGAGCTCAACGGCAACATAGTCCATTTCTCCAGCACCCGCGAGGCCGCCGCCCACGGCATTGGTATGGTCCACCAGGAGCTGAACCTGTTTGAAAATCTTAGCGTCGCGGAAAATATCTTTCTTGGTCGCGAGCTACAGCGCGGGCTGACGCCAATTAACGAAGCAGAGCAGGAACGACAAGCCGCGGAGCTGTTGCAGCGACTCGATCAGCCGATCTCGCCGCGGGAGCTGGTGGGTAACCTGAAGGTCGGTCAGCAGCAGTTGGTCGAAATAGCCAAAGCGCTGGCGGAAAATGCGGACATTCTGATCCTTGATGAGCCCACCTCAGCCTTAAGCAAAACCGAGGTGGATATCCTGTTTCGGGTCATCCGCGAACTGACGCGTCAGGGGGTGTCCATTATCTACATCTCACACCGTCTGGAGGAGCTGATGGCCATCGGCGACGTCATTACCATACTGCGTGACGGCAAATTCCAGGCGGAGGCCAGGGTGAGTGAAATTGATGTGCCATGGATCGTCCGTGAAATGCTGGGAAGCGATCCAGTAAGCCATTTTCTTCCCCCGGATCGCCGCTTCGGCGCCCCACTGCTGGAAGTGGAGAACCTGACCTGCGTGAATGCCGCGGGCAATACGGTGGTGGATAACGTCAGTTTAAAAGCACATGCCGGTGAAATTATTGGGATCTACGGTCTGATGGGCGCCGGACGAACCGAGCTGTTTGAATGTCTGCTGGGGACAGCGCGCCACTACTTTGGCAAGATCTGGCTGGACAGCAAACCGGTTCCCCAGCGGTTAACCACGGCCGAACGTATCCGCATGGGCATGAGTCTGGTGCCGGAAGATCGTAAGCGGACCGGGATTTTTCCCATCTCGTCAGTCGCCAGCAATCTGACCATTGCCAGCCTGTGGCGTCGTCTTCAGCGCGGGTTAACCATTGCCAATAAAGAGGAAGAGGCCGTCGTCGCCAGCACGATTGGCAATCTCTCCATTAAGGTCTCATCACCAGAAGTCGAGATCCAGGCGCTCAGCGGCGGCAATCAGCAAAAGGTGGTTATTGGCCGTTCGCTGTTAACCAATCCGAAGGTGCTGTTTCTTGACGAGCCTACGCGCGGAATCGACATCGGCGCCAAGGGGGATGTGTTTCGCATGATGGTGCAATTGTCGCAGCAGGGAATGGCGGTGGTGTTCTCCACCTCCGATTTAAAAGAAATCATGGCGGTCTCTGACCGTATCCTGGTGATGTCAGGCGGCAAACTGACCGCCGATATCGTTCGTGACCAGGCCGAAGAGTCGGCGCTGGTTTCAGCAAGCGCTCAGGGGTTCTAA	MASSPAEDIILRTRGISMLFPGTVALDNVDYNVWRGKVNVIIGENGAGKSTLMKILAGVQQPSLGEMELNGNIVHFSSTREAAAHGIGMVHQELNLFENLSVAENIFLGRELQRGLTPINEAEQERQAAELLQRLDQPISPRELVGNLKVGQQQLVEIAKALAENADILILDEPTSALSKTEVDILFRVIRELTRQGVSIIYISHRLEELMAIGDVITILRDGKFQAEARVSEIDVPWIVREMLGSDPVSHFLPPDRRFGAPLLEVENLTCVNAAGNTVVDNVSLKAHAGEIIGIYGLMGAGRTELFECLLGTARHYFGKIWLDSKPVPQRLTTAERIRMGMSLVPEDRKRTGIFPISSVASNLTIASLWRRLQRGLTIANKEEEAVVASTIGNLSIKVSSPEVEIQALSGGNQQKVVIGRSLLTNPKVLFLDEPTRGIDIGAKGDVFRMMVQLSQQGMAVVFSTSDLKEIMAVSDRILVMSGGKLTADIVRDQAEESALVSASAQGF	PGPT0016720_238	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ERYTHRITOL_TRANSPORT,PGPT0016720-eryE-K17204	NA	NA
BMS020_04390	1089	rbsC_5	COG1172	Ribose import permease protein RbsC	ATGAAAATGACACAATCGGTCGCACTGGCGCCGCGCGGCGGAGCCTCTCTCTCCCGTGAAAATATCCTGCTGTTGTTATTAAAACTGCGCACCTTTATCGCACTGTTCCTGATTGTCGGCTTCTTCACGATGACCGTGCCCGGTTTTTTATCCGCTGGAAGCATGGTGATTATGATTAAACACATTGCGATTAACGCCTTTCTGGCGTTGGGGATCACCTTTGTCATTATCACTGCCGGTATCGATCTTTCGATTGGCGCTACGCTCGGTCTCTGCGGAATGATAGCCGGCTGGCTTATCACCAAAGGGATAGTACTGCCGATGTTCGGCATCGCTATTTTTCCAAGCGTGTGGGTCATTGTGCCTCTGGTGCTGCTGATAGGCGCGCTGATTGGCGCCGTTAATGGCTGGATCATTACCCGCTACAATGTGGCGCCGTTTATCTGCACCCTCGGTACCATGTATGTGCTCCGCGGAGCCGCGATGCTGACCTCTGATGGCCAAACCTTCCCCGGGCTCGCGGGCAATCCGCAGCTGGGCAACACGGGTTTCGATGAAATTGGCGCAGGTGCGCTCTTTGGCATCCCGTGGGCCATCTGGCTGATGATCCTCCTGGCGCTGATCATCGCCTATATCGCCCGGCGTTTGCCCTTTGGCCGCCATGTTTATGCGATCGGTGACAATGAGCGCGCCGCCGAGCTCTCCGGCGTGAAAGTGAAGCAAATTAAAGTGCTGGTCTACACGCTGTCCGGTTTTTGCGCCGCCATTGCCGGGATCGTGGTCTCCGCGCAGCTGCTGGCCAGCCATCCGGCTAACGGTACCGCTTTTGAGATGAATGCTATCGCCGCCGTCGTACTGGGCGGAACATCGCTGGCCGGCGGCCGGGGAACCATCCTGGGTACGCTGATTGGTGCGTTTGTCATCGGTTTTCTCGCCGACGGGCTGGTGATGATGGGGGTGAGCGAGTTCTGGCAGATGGTCATCAAAGGGATCGTGATTATTGTGGCTGTCATTATCGATCAGATGCAAAACCGGATGCAGCAGAAGGCGGCGGTGGTCGCCCAGAAAGCGGTCATGGAGAATAAGTAA	MKMTQSVALAPRGGASLSRENILLLLLKLRTFIALFLIVGFFTMTVPGFLSAGSMVIMIKHIAINAFLALGITFVIITAGIDLSIGATLGLCGMIAGWLITKGIVLPMFGIAIFPSVWVIVPLVLLIGALIGAVNGWIITRYNVAPFICTLGTMYVLRGAAMLTSDGQTFPGLAGNPQLGNTGFDEIGAGALFGIPWAIWLMILLALIIAYIARRLPFGRHVYAIGDNERAAELSGVKVKQIKVLVYTLSGFCAAIAGIVVSAQLLASHPANGTAFEMNAIAAVVLGGTSLAGGRGTILGTLIGAFVIGFLADGLVMMGVSEFWQMVIKGIVIIVAVIIDQMQNRMQQKAAVVAQKAVMENK	PGPT0016715_75	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ERYTHRITOL_TRANSPORT,PGPT0016715-eryF-K17203	NA	NA
BMS020_04391	984			ISNCY family transposase ISPlu15	ATGAAAAAACGTCCTCACTCGACCCCGCACGACAGTCTGTTTAAGCGCTTCCTGCGCGACAGCGAAACCGCACGCGATTTTCTGGATATTCATCTGCCGCCCGCGCTGCGGCAACTGTGCGACTTAAGCACTCTGTACCTGGAATCCGGGAGCTTTGTTGAGGACAACCTGCGCGCCAGCTATTCCGATATTCTCTACTCTCTGCAGACCAGCAAGGGAAAGGGCTATATCTATGTGGTCATTGAGCATCAGAGCACCCCGGACAGCCATATGGCGTTCAGACTCCTGCGCTATGCCCTCGCGGCCATGCAACAGCATCTTGATCGCGGCCATAAAGCGCTGCCGCTGGTAATTCCCATGCTGTTTTATCATGGCAGCATTTCTCCCTATCCCTTTTCACTGTGCTGGCTGGATGAGTTTCCACCTGACTCACCGGCAAAACAGCTTTATCTCGGGGCCTTTCCGCTCGTCGATGTGACCGATATTCCCGACGACGCCATATTACAGCATCGGCGGATCGCGCTTCTGGAACTGGTCCAGAAACACATCCGTCAACGCGATCTTAGCCATATCCTCCAGCAGTTGGTGGAGGTGGTGCTGATGGGATACACTGACCACCAGCAGTTCAAAACGTTATTTACCTATATGTCGCTGCATGGCAATAGCGCCGACCCGGATAACTTTATCGACCAGTTGGTCGAACGTCTGCCGCAATATGAGGATACCCTGATGACGATTGCCGAGTACCTGAAGCAGAAAGGTCGCGAAGAGGGAAAACAACGCTGGTTACAGCAAGGCCAGCAAGAGGGGCTTCAGGAAGGTTTACAGGCGGGTGAGCATCGCGAAGCCTGCCGCATCGCGCTGGTGATGTTAGAGAACGGTATGGACACTGAAACCGTGTTGCGGATGACTCGCCTCAGCGCGGACGAACTGGCGACGCTGGCGCGCCAGGCACGCCAGTCTCCCCCCCCGCTTAGCCCTTAA	MKKRPHSTPHDSLFKRFLRDSETARDFLDIHLPPALRQLCDLSTLYLESGSFVEDNLRASYSDILYSLQTSKGKGYIYVVIEHQSTPDSHMAFRLLRYALAAMQQHLDRGHKALPLVIPMLFYHGSISPYPFSLCWLDEFPPDSPAKQLYLGAFPLVDVTDIPDDAILQHRRIALLELVQKHIRQRDLSHILQQLVEVVLMGYTDHQQFKTLFTYMSLHGNSADPDNFIDQLVERLPQYEDTLMTIAEYLKQKGREEGKQRWLQQGQQEGLQEGLQAGEHREACRIALVMLENGMDTETVLRMTRLSADELATLARQARQSPPPLSP				NA	NA	NA	NA	NA
BMS020_04392	951	deoR_2	COG2390	Deoxyribonucleoside regulator	ATGTCGAAGCAGGATGAACAGCGGTTGCTGGTGAAGATCGCCACGCTTTACTACAGCGAAAATAAAAAGCAGTCCGAGATCGCCTCGCTGCTGCATCTGTCCCAGTCTTTTGTTTCACGGGCGCTTACCCGCTGTCAGAAAGAGGGGCTGGTGAAAATTACCGTAGTCCAGCCGACAAACATTTTTGTCGATCTGGAAAAGGCGATTGAGGAGCGTTTTGGCATTCGACAAGCGATAGTCGTGGATGTGGGCGAGAATGCCAGTTACAGCCAGGTAAAGCATGCCATCGGCAGCGCGGCGGCGCACTATGTCGAAACGCGGCTGCGGCCGGAAGACCTCGTGGGGATCTCGTCCTGGAGCAGTACGATCCGCTGCATGGTGGATGAGATGCATCCGCAGAACATTCGCGCCGCCGGGGTGATTCAGCTGTTGGGCGGCGTCGGTCCCAACGGAAACGTGCAGGCTACCATTTTAACCCAGCAGCTGGCGGCGCATTTAGGCTGCCCGGCGTGGCTGTTGCCGTCGCAGAGTATTGAGCACTCCGTGGAGGAGCGCAGCCGTCTGGTAAACAGCCCGGACGTCGCGGCGGTGGTGGCGAAATTTGCCGAAGTGGATGTGGCCATCGTCGGTATTGGTGAACTGGAGCCTTCGCAGCTGCTGAAAAACTCCGGTAACTATTATAATGAAAGCATGCTCCAGCTGCTGGCGGAGCGCGGCGCGGTGGGGGATATCTGCCTGCATTACTATGATGCGGCGGGCAAACCGGTACTGAGCCAGGATGAGGATCCGGTGATCGGGATGGAACTTGAGCAAATTCGTCGCTGTCCGCAGGTGATTGCGCTGGCCGGCGGCGTGGACAAAGAGAACGCCATCCGCGGCGCGTTGCAGGGCGACTACATTGATGTTCTGATCACCGATTTCCCGACCGCGCGCGCGTTAATTAAGGGCTAA	MSKQDEQRLLVKIATLYYSENKKQSEIASLLHLSQSFVSRALTRCQKEGLVKITVVQPTNIFVDLEKAIEERFGIRQAIVVDVGENASYSQVKHAIGSAAAHYVETRLRPEDLVGISSWSSTIRCMVDEMHPQNIRAAGVIQLLGGVGPNGNVQATILTQQLAAHLGCPAWLLPSQSIEHSVEERSRLVNSPDVAAVVAKFAEVDVAIVGIGELEPSQLLKNSGNYYNESMLQLLAERGAVGDICLHYYDAAGKPVLSQDEDPVIGMELEQIRRCPQVIALAGGVDKENAIRGALQGDYIDVLITDFPTARALIKG				NA	NA	NA	NA	NA
BMS020_04393	831	aptA_2	COG3959	Apulose-4-phosphate transketolase subunit A	ATGAATCCGTTTTCACTCTCCGTTAAGGAGTTAGAACAAAAAGCACGCGCCATCCGCCGCCGCATCATCGTCTTAAATGCGGAAAGCCCGGCAGGCGGCCACACCGGTGCAGATTTGTCACAAGTCGAACTTCTGACCGCCCTCTACTTTCGCATCCTTAACTGCTCTCCTGCGCTAGAAAAGAGCGACGAGCGCGATATTTATATTCAATCGAAGGGGCACGCTGTCGGCGGTTACTACTGCGTGTTGGCCGAGGCAGGCTTTATCCCCCTTGACTGGCTGGCAACCTATCAACACGCCGACTCGCATCTGCCTGGACATCCGGTGAAGCACAAGACGCCGGGTATTGAGCTCAATACCGGCGCATTGGGCCATGGTCTGCCCGTGGCGGTAGGCATTGCGCTGGCAGCGAAACGCGATAACAACCCGCGTCGCGTATTTGTCGTCACCGGCGATGGCGAACTGGCGGAGGGCAGCAACTGGGAGGCCGCGCTGGTCGCCGCCCACTACCAGCTGGATAACCTTATTATTATCAACGACAAAAATAATCTGCAACTGGCCGGTGCGACCAAAGAGATCATGAATACCGACCCGCTGGATGAAAAATGGCGCGCTTTCGGCATGGAGGTCACACAGTGCAACGGCAACGATATGGCGGAGGTGGTCGCCACCCTTGAGCGCTTGCAGCCGAACGGGAAACCACACGTCGTGATTGCCAATACCACCAAAGGCGCAGGTATTTCATTTATTCAGGGAAGGCCCGAGTGGCATCACCGGGTACCGAAAGGAGAAGAAATTGAACTGGCGCTGGAGGAACTGAAAGATGAGTAA	MNPFSLSVKELEQKARAIRRRIIVLNAESPAGGHTGADLSQVELLTALYFRILNCSPALEKSDERDIYIQSKGHAVGGYYCVLAEAGFIPLDWLATYQHADSHLPGHPVKHKTPGIELNTGALGHGLPVAVGIALAAKRDNNPRRVFVVTGDGELAEGSNWEAALVAAHYQLDNLIIINDKNNLQLAGATKEIMNTDPLDEKWRAFGMEVTQCNGNDMAEVVATLERLQPNGKPHVVIANTTKGAGISFIQGRPEWHHRVPKGEEIELALEELKDE	PGPT0011200_10325	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
BMS020_04394	951	aptB_2	COG3958	Apulose-4-phosphate transketolase subunit B	ATGAGTAATAGCGAACATCTCGCCACGGTGATGGTGAATGCCTTTATTGATGCCGTAGACCGCGGCGTGGATCTGGTGCCAGTAGTGGCTGACTCCACCTCAACGGCGAAAATTGCCCCATTTATCAAAAGATTCCCTGGCCGGCTGGTCAACGTCGGCATCGCCGAGCAGACGCTGGTTGGCGCTGCCGCCGGCCTGGCGCTGGGGGGTAAAGTGGCCGTGACCTGCAACGCGGCGCCATTCCTTATCTCACGTGCCAATGAGCAGATTAAGGTCGACGTTTGCTACAACAACACCAACGTCAAACTGTTCGGGCTGAACGCGGGCGCCAGCTACGGTCCGCTGGCCAGCACTCACCATAGCATTGACGATATCGCCGTTCTGCGCGGTTTTGGCAATATTGAAATTTACGCGCCGTCCAGTCCCCGCGAGTGCCGACAGATTATCGATTATGCCCTTGCCCACATCGGGCCAGTGTATATCCGCCTCGATGGTAAAGCGCTACCGGAACTGCATGACGAACATTACCGGTTTATTCCGGGCAACATTGATGTGCTGCGTTCGGGGCGCGATGTTGCGTTGGTTGCTATGGGCTCAACGGTACATGAAATAGTGGAAGCCGCCGCACAACTCGCTGCAGAAGGTATTGACGCCACCGTTATCAGTGTCCCATCTATTCGTCCTTGTGATACCCAGGCGCTACTAAAGGCAATACAGTCCTGTCCGGTCGCGATCACGGTGGAAGAACACAACGTCAACGGCGGCGTCGGGAGTCTGGTGGCGGAAGTGCTGGCCGAGGCCGGATGCGCTATCCCGTTGAAACGCTTAGGTATCCCTGACGGGCAATACGCCATTGCCGCCGATCGCGCCGCCACGCGCGCGCGCCATGAAATCGATGCCGCCGGGGTGACGAAGCACGCCCGCAAGCTGCACACAAAAAAAGCATCCTGA	MSNSEHLATVMVNAFIDAVDRGVDLVPVVADSTSTAKIAPFIKRFPGRLVNVGIAEQTLVGAAAGLALGGKVAVTCNAAPFLISRANEQIKVDVCYNNTNVKLFGLNAGASYGPLASTHHSIDDIAVLRGFGNIEIYAPSSPRECRQIIDYALAHIGPVYIRLDGKALPELHDEHYRFIPGNIDVLRSGRDVALVAMGSTVHEIVEAAAQLAAEGIDATVISVPSIRPCDTQALLKAIQSCPVAITVEEHNVNGGVGSLVAEVLAEAGCAIPLKRLGIPDGQYAIAADRAATRARHEIDAAGVTKHARKLHTKKAS	PGPT0011200_7483	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
BMS020_04395	1419			hypothetical protein	ATGTCCCGTATTCCTCAACAACTCACCATGGGCGTCATTATTGGCAATCGGGGATTTTTCCCCAGCTATCTGGTCGCCGAAGCGCGCGAACAGGCGGTAGCCCTGTTTAGCCGCCTTGGGATTAACACCATTATGCTTGATCCATCCCAGACGGAACTGGGTGGCGTGGAAACCCGGCAGGATGCCAAAATTTGCGCCGAGCTGTTCCGCACCCACCGCGACAACATTCACGGTGTCGTGGTGCTGTTACCCAACTTTGGTGATGAAAAAGCCATCGCCGAGACGCTGCGCCTCTCCGGTCTCAACGTCCCGGTGCTTATTCAGGCCGAAGAGGATAATCTGGATAAAATGGGGTTGTCGACGCGCCGCGATAGCTTCTGCGGCAAAATTTCCCTTTGCAACAACCTGCGCCAGTACGGTATCCCGTTTACGCTGACCACCCAGCACGTTTGCGCACTTAGCGGCGAGGTGTTTGAGCAGGATCTCCGGCGCTTCACGCAGATATGTCGCGTGGTAAACAGTATGCGCGGTGTACGCGTTGGCGCGATTGGCGCCCGTCCTGCGGGCTTTAACACCGTGCGCTACAGCGAAAAACTGCTCGAACGTTTGGGCATCGCAGTGGAAACGTTAGATCTATCCGAGGTATTTACCCGGATTAAGTGCCTGCGTGATGACGATATTCGTGTGGATGAGAAGCGCCGCCTGCTGATCGATAATGCCGACGCCAGCGGTATTCCGGCAGATAAACTGATCACTATGGCAAAACTGTTTGTGGTCCTGAGCGAGTGGATTGTTGCCAACGATATCGACACCACCGCGATTCAGTGCTGGACCTCGCTACAGGAAAATCTGGGGATTAACGTCTGCTCCATCATGAGCGTGATGTCCGGACAACTGATGCCAAGCGCCTGTGAAGTCGATGTCATGGGTGCGCTCTCCATGTATGCGCTCGCCAGCAGCAACCTGAGCCCCGCCTCGATCGCGGACTGGAATAATAACTTCGGCGACGATCGCGATAAATGTGTGCTGTTCCATTGCGGGAACTTTGCCTCGGCCAGTCTCGAGTCGCCGCACATGGGAACGGCCGATATTATCGGCACCACCGTCGGCAAAGAAAACACCTGCGGTGCCGTGCATGGTCGCATGAAAAGCGGCGCGCTGACCTATTTTCGCCTCAGCACTGACGACCTGACTGGCGAAATCAAGGCCTACGTCGGCGAAGGCCAATCGGTTGACGATCCCCTGGATACGGTAGGCTGTCGGGCGGTCATTCAGGTTCCCCACCTGGAAAATCTGCTGTCGTGGATCTGCCGTAACGGCTTTGAGCACCATGTCGCGATGAACCATTCTGCCAGTGCTTCAATTCTGCACGAGGCGTTTACGCGATACCTGGGCGTGTCGACCTATCTCCACCAGTAA	MSRIPQQLTMGVIIGNRGFFPSYLVAEAREQAVALFSRLGINTIMLDPSQTELGGVETRQDAKICAELFRTHRDNIHGVVVLLPNFGDEKAIAETLRLSGLNVPVLIQAEEDNLDKMGLSTRRDSFCGKISLCNNLRQYGIPFTLTTQHVCALSGEVFEQDLRRFTQICRVVNSMRGVRVGAIGARPAGFNTVRYSEKLLERLGIAVETLDLSEVFTRIKCLRDDDIRVDEKRRLLIDNADASGIPADKLITMAKLFVVLSEWIVANDIDTTAIQCWTSLQENLGINVCSIMSVMSGQLMPSACEVDVMGALSMYALASSNLSPASIADWNNNFGDDRDKCVLFHCGNFASASLESPHMGTADIIGTTVGKENTCGAVHGRMKSGALTYFRLSTDDLTGEIKAYVGEGQSVDDPLDTVGCRAVIQVPHLENLLSWICRNGFEHHVAMNHSASASILHEAFTRYLGVSTYLHQ				NA	NA	NA	NA	NA
BMS020_04396	1500	aplK	COG0554	Apulose kinase	ATGTCGGTAAACAAGGATATTATTATTGCCCTCGATGAGGGCACGACCAATGCCAAAGCCGTTGCCTTCGATAGCCACGGGCGGGTAATCGCGCAATTTTCCCGCGCGCTTGAGATCGCTACGCCTCAGGAAGGATGGGTAGAACAGTCAGCGGAGCTTCTGCTTGCCGCGTCGCTGGAGGTGATTTCTCGCACAGTGGCCGCTGTTGGCGCGGAGCGTGTGGCGGCCCTGGCGATCAGCAACCAGCGCGAAACCGTCGTGGGCTGGTATAGGGAAACGGGCGAGGCCATAGCGCCCGCCCTGAGCTGGCAATGTTCACGTAGCGCCACATTTTGCCGCTCGCTGCGTGAACAAGGCCATGAGCCGCAGATCAAGGCGGTAACCGGTCTGCCAATCGCCCCGCTCTTTTCCGCCTCGAAAATGCGCTGGCTGTTGGACCACACGCCGGATGGCCTCAACCGGGCGAAAGATGGCGAGATTTGCCTCGGTACGGTGGATAGCTGGCTACTCTGGCACCTGACGCAAGGCCAGCAATTTTGTTGTGATTACGCGAACGCGTCTCGTACGCAGCTCATGAATCTGCAAACAGCGGACTGGGATACCGATATGCTCGCCCTGTTTGGCATTCCGCGTGCAGCACTCCCGGTGATAAAACCATCGAGCGGCCTGTTTGGTTACACCGCTGGTTTAGCCACCCTCCCTGATGGGATCCCGGTAATGGCGATGGTTGGCGATTCACATGCCGCCCTTTTCGCCCACGGTCTGGGCGCCGCCGGTTGCGTTAAAGCTACTTACGGTACAGGAACCTCGGTGATGGCGCCCGTCGATTCGGTGGCGTGTCACGTCAGCAATCTCGCCACCACGGTGGCCTGGCACGACGGAGAAAAGCTGGTCTATGCACTAGAGGGGAATATTCCCCATACCGGCGATGCGGTGGCGTGGATGGCCGACAGTACGGGCTTGAGCGAACTCTCTCCCGTTGAGCTGGCCCAGGCGCTGAATGCTCTGCCTCGCTCGGTAGACTCCACCTTAGGCGTCTTTTTTGTACCTGCCCTCACCGGCATGGGGGCGCCCTGGTGGGACGAGAATGTCCGCGGACTGATCCATGGGTTAAGCCGGGGGGTGAAGCGTGCCCATCTCATTCGTGCCGCGCTCGAGTCTATTACCTACCAGATTGCCGATGTAATCACTGCGATGCGTGCCCATCATGGCTTTACGCTCAACACGCTGCTGGTGGATGGGGGCCCCACCAAAAACGACTGGTTAATGCAGTACCAGGCCGACCTGCTGGGTTGTCCGGTGATGCGCAGCGATGTGGCCGAGCTGTCAGCGACCGGTGCGGCACTGCTGGCGCGTAAAGCGTTGCACAAGCTGACGGTGGCAGAGCTTCAGCCCTTTTTGCCAGAACACATCACTTATGCGCCAGACCCGCTCCGGCATCATCGGCTTGTGCAGCGATGGCAGTCCTGGCAACACGCGGTGACGCTGGCCAGACGCTGA	MSVNKDIIIALDEGTTNAKAVAFDSHGRVIAQFSRALEIATPQEGWVEQSAELLLAASLEVISRTVAAVGAERVAALAISNQRETVVGWYRETGEAIAPALSWQCSRSATFCRSLREQGHEPQIKAVTGLPIAPLFSASKMRWLLDHTPDGLNRAKDGEICLGTVDSWLLWHLTQGQQFCCDYANASRTQLMNLQTADWDTDMLALFGIPRAALPVIKPSSGLFGYTAGLATLPDGIPVMAMVGDSHAALFAHGLGAAGCVKATYGTGTSVMAPVDSVACHVSNLATTVAWHDGEKLVYALEGNIPHTGDAVAWMADSTGLSELSPVELAQALNALPRSVDSTLGVFFVPALTGMGAPWWDENVRGLIHGLSRGVKRAHLIRAALESITYQIADVITAMRAHHGFTLNTLLVDGGPTKNDWLMQYQADLLGCPVMRSDVAELSATGAALLARKALHKLTVAELQPFLPEHITYAPDPLRHHRLVQRWQSWQHAVTLARR	PGPT0018435_3694	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018435-glpK-K00864	NA	NA
BMS020_04397	606			hypothetical protein	ATGAAACTCATTGGTATGATGGATTCACCTTATGTAAGACGCGTGGCGGTTTCTCTGGCGCTCTATGGCGTGGAATTCGAGAGCCTGCCGCTGTCGGTCTTTAGCGGCTTTGATGAATTCTCCCGTATTAATCCGGTGGTCAAGGCGCCGACGGTGGTTCTCGATGACGGGACACAGCTGATGGACTCCACGCTGATCCTCCACTATTTCGAAACGACCCATCCCGCCGGACGCCGGCTGCTTCCCGCGCATCCCGAGGCGCTGGCCCGCGACCTGCACCTGCTGGGGGTGATCCTCGCCGCCAGTGAAAAAGCGGTCCAGCATGTTTATGAGCACCGTCTGCGGCCGGAGGAGAAGCAACATCAGCCGTGGATAGCCCGGGTGACCGGTCAACTGCTCGCCGCCTGTCGGGAATGGGACGCCCGGCTGGCAGACCGCGTTGCCGCCGCGCAGCCGGACCAGGTGTTGGTCACCAGCACGGTGGTCTGGTCCTTTATCCAGTTGATGATCCCGACGGTGGTGCCGGCAACGGCGTTTCCGCATATCCGCGCGCTGGCGGAGAAAGGAGAGGCGCTGCCGGCGTTTCAACAGTATCCACTGAGTTAA	MKLIGMMDSPYVRRVAVSLALYGVEFESLPLSVFSGFDEFSRINPVVKAPTVVLDDGTQLMDSTLILHYFETTHPAGRRLLPAHPEALARDLHLLGVILAASEKAVQHVYEHRLRPEEKQHQPWIARVTGQLLAACREWDARLADRVAAAQPDQVLVTSTVVWSFIQLMIPTVVPATAFPHIRALAEKGEALPAFQQYPLS	PGPT0013170_20299	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS020_04398	894	gcvA_6		Glycine cleavage system transcriptional activator	ATGGCAGATTTTCCCCCTGTCGCCAGCCTGCGCAGCTTTGAGGCGGTGGCGCGCCTCGGCAGCGTGACGCAGGCCGCCCACGAGATGAGCGTGACCCATTCGGCGGTCAGCCAGCACATCAAACAGCTGGAAGCCCTGGTCGGCGTCACACTGTTTGTCCGCCACGGCCGCGGGGTGCGCATCACGGAAGAGGGGCGGCTTTATGCCCTGCAAATCCGCGAGGCGTTACAGCACATCGCCGACGCCACGCGGATGGTGCAGATCAAACCCCGCACGATGGAACTGACCCTGGCGACGCTCCCCTCCTTTGGCTGCCACTGGCTGCTGCCGCGGCTGGCGCGCTTTCAGGCGCGGCATCCGCAGATCGCGGTGCGCCTGCTGACCAGCCTGGCGGTGGTCAACCTGCAGCAGGAGGGTATCGATCTGGCCATTCGCATGGGGCAAGGCGACTGGGAGGGGATGGAAAGCCGACATCTGTTTGCCGATGAACAGCTGGTGGTGGCCGCGCCGCACTATCGCGGCGGCGACCTGCCGACCACCCCGCAGGCGATCGCCGCCAGCGATATCGTTTTTTCCATGGAGTCCTGGAACGCCTGGTGCAGCCAGGCGGGGCTGGAAAAGACAATCATTCCTGCGGGCCTGCGCCTGAACGACTCCAACCTGGTGCTGGAGGCGGTTCGCCTGGGAGCGGGCGTGGCGCTGGAGCGGCGCTCGCTGGTGGCGGGGGCGATAGCCCGCGGCGAGCTGGTGCAGCTCACCGCCGTCACCGTCCCCTACCCCTGGCACTACTGGCTGACCGTCTCCCCGCAGGCGGAGAACCGCCCGGAAGTCGCCCGGTTCATCGCCTGGCTGGAGGAGGAGATCGCCCTCTGGCGCCAGCAGCTCAGCGCTTAG	MADFPPVASLRSFEAVARLGSVTQAAHEMSVTHSAVSQHIKQLEALVGVTLFVRHGRGVRITEEGRLYALQIREALQHIADATRMVQIKPRTMELTLATLPSFGCHWLLPRLARFQARHPQIAVRLLTSLAVVNLQQEGIDLAIRMGQGDWEGMESRHLFADEQLVVAAPHYRGGDLPTTPQAIAASDIVFSMESWNAWCSQAGLEKTIIPAGLRLNDSNLVLEAVRLGAGVALERRSLVAGAIARGELVQLTAVTVPYPWHYWLTVSPQAENRPEVARFIAWLEEEIALWRQQLSA	PGPT0026360_5296	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS020_04399	1257	ybdG_1	COG0668	Miniconductance mechanosensitive channel YbdG	ATGGCGTATGTGAATCATCTACTGACGTTTATTGAGAGTAATCCGGCGCTGGCGGTGGGATTTAACCTTATTCTGCTGCTGCTCTCTGGCATATTTGCCCACCTTTTATGCAAGTTCTTGCTGATTAAAGTGGTGCGTAAGGTCTTCTTTGGCAGCCATAAACAGGACGTGCCGCTGGAGAAGGATCGACGCATCGCCGAAAAGTTGTCCAATTTCATTCCGGTTATTATCGTCTATTACGTTCTGCAGTTTATGCCAGCGATGCCGGCATCGCTGGTAACGGCGATTAATACCATCTGCGGGATCTTGTTTTTTATTTTTATGTCGGTGTTTTTCAACGAGATGCTGGATATTGTCAACAGCTCTTATCTGCGAAAAACCAAACGTAAAAATCATTCCATTAAGGGCTATATCCAGATAGGCAAAATCTTAGTCCACATCCTGGCGGCGATTATGATCCTCGCCGTGATGTCGAACAAATCGCCGATCATTATTATCTCCAGTCTGGGGGCGGTGGCGGCGGTGCTGATGATCGTCTTCCAGCATACCCTGCTGTCGCTGGTGGCGAACGTTCAGCTGTCGTCCAACGACGTGCTCCAGCTGGGGGACTGGATTGAAATGCCTGACAAGAACCTCAGCGGTGAGGTGACGGATATCGCGCTGCACACCATTACTATCCGTAACTGGGACAATACCATTTCCCGTATTCCCACCAAAAATTTCCTCACCGAGACCTATACCAACTGGCAGGCGATGTTCTCCTCCGGGGCGCGGCGGATCATGCGCAGTATCGCCATCGATCAGCACTCGGTGCGTTTTCTCAACCAGGAGATGCTCTCCTCGATGCTGACTATCCGCGGGGTAAGCGAGCCTCTGACCACGCTGCTTGACGGTCGCGATCCCGGCGGCGTGGCGGACCGCTGGTTTGTCGATAACGGCCTGACCAACCTGACCCTGTTTCGCCACTACCTGATGCACTATCTCGCCGAGCGACCGGATATTATTAAGGAGATGTATATTGTGGCGAGGACGCTGAAACCGTCGCCGTCGGGCATCCCGTTAGAGATTTACTGCTTTACCTCTTCGACGCTGTGGAAAGACTACGAGAATACCCAGTCGGCGATATTTGAGTACATTACCGCGGTGGCCGGGCAATTTTCCCTGCGCCTCTATCAGTATCCCGCCGGGCACGATTTCTGGCGTCTCTCCCAGGAGCACGCCGCCCGGGCGGGCCTGCCGCCGTCGGCGGAAGGCTAA	MAYVNHLLTFIESNPALAVGFNLILLLLSGIFAHLLCKFLLIKVVRKVFFGSHKQDVPLEKDRRIAEKLSNFIPVIIVYYVLQFMPAMPASLVTAINTICGILFFIFMSVFFNEMLDIVNSSYLRKTKRKNHSIKGYIQIGKILVHILAAIMILAVMSNKSPIIIISSLGAVAAVLMIVFQHTLLSLVANVQLSSNDVLQLGDWIEMPDKNLSGEVTDIALHTITIRNWDNTISRIPTKNFLTETYTNWQAMFSSGARRIMRSIAIDQHSVRFLNQEMLSSMLTIRGVSEPLTTLLDGRDPGGVADRWFVDNGLTNLTLFRHYLMHYLAERPDIIKEMYIVARTLKPSPSGIPLEIYCFTSSTLWKDYENTQSAIFEYITAVAGQFSLRLYQYPAGHDFWRLSQEHAARAGLPPSAEG	PGPT0013774_595	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013774-mscM|ybdG-K16053	NA	NA
BMS020_04400	447	ivy		Inhibitor of vertebrate lysozyme	ATGTTTAAAACGCTTACCGCTATTATCGCCTTAGCCGCCTCCGCCAGCGTCATGGCGCAAGGCGACGTCACGCTGAACAGTCTGGCTCACGATACCGCCACCCGGGCGTCGTTTAACCAGATGGTCAAAGGCCATCAGCTGCCCGCCTGGGTGACCACCGGCGGCACCGGTTCGCCGGCGCAGACGGTGAAGCTGGGTAGCGAATCCTGGCAGGTGCTAAGCGCCTGCAAACCCCACGACTGCGGCCATGAGCGTATCGCGGTGATCTGGTCGGAAAAAACCAAACAGATGTCAGGCGTTTACTCGGTGGTCGATGAAAAAACCGACCAGGAGAAGCTGACCTGGCTTAACGTCAGCGACGCCCTGTCCATTGATGGCAAAACCGTGCTGTTTGCCGCCCTCAGCGGCAGCCTCGACAACCATCCGGACGCTTTTAACTACCAGTAA	MFKTLTAIIALAASASVMAQGDVTLNSLAHDTATRASFNQMVKGHQLPAWVTTGGTGSPAQTVKLGSESWQVLSACKPHDCGHERIAVIWSEKTKQMSGVYSVVDEKTDQEKLTWLNVSDALSIDGKTVLFAALSGSLDNHPDAFNYQ				NA	NA	NA	NA	NA
BMS020_04401	2034	betT	COG1292	High-affinity choline transport protein	ATGACAGATCTTTCGCAAAACAGAGAAAAGGACAAAATCAATCCGGTGGTTTTTTATACCTCGGCCGGACTGATTTTGTTGTTTTCCCTGATGACGATCTTTTTTCGCGATTTTTCTGCCGAGTGGATTGGGCGCACCCTGGACTGGGTGTCGAAAACCTTCGGCTGGTACTATCTGCTGGCGGCGACGCTGTATATCGTCTTCGTCGTCTGCATTGCCTGTTCGCGCTTCGGCTCGGTGAAGCTCGGGCCGGAGCAGTCTAAGCCCGAGTTCAGCCTGCTGAGCTGGGCGGCGATGCTGTTCGCCGCCGGGATCGGCATCGACCTGATGTTCTTCTCGGTCGCCGAACCGGTGACGCAATATATGCAGCCGCCGGAAGGGGCGGGGCAGACCATCGAGGCGGCGCGCCAGGCGATGGTGTGGACGCTATTCCACTACGGACTCACCGGCTGGTCGATGTATGCCCTGATGGGCATGGCGCTGGGATACTTTAGCTATCGTTATAATTTACCGCTCACCATCCGCTCGGCGCTCTATCCTATCTTCGGGAAAAAGATTAATGGCCCCATCGGCCACAGCGTCGATATCGCGGCGGTGATCGGCACCATCTTCGGCATCGCCACCACCCTCGGCATTGGCGTGGTGCAGCTCAACTACGGTCTGAGCGTGCTGTTCGATATTCCTGACTCGCTGGCGGCGAAGGCGGCCCTGATAGCGCTGTCGGTGATCATCGCCACCATCTCGGTCACCTCCGGGGTGGACAAGGGCATCCGCGTGCTCTCCGAGCTGAACGTCGCCCTCGCGCTGGGGCTGATCCTGTTCGTGCTGTTCATGGGCGATACCTCCTTCCTGCTCAATGCGTTAGTGCTGAACGTCGGCGACTACGTCAACCGCTTTATGGGCATGACGCTGAACAGCTTCGCCTTCGACCGCCCGGTGGAGTGGATGAACAACTGGACGCTCTTTTTCTGGGCGTGGTGGGTGGCCTGGTCGCCGTTCGTTGGCCTGTTCCTGGCGCGCATTTCGCGCGGGCGCACCATCCGCCAGTTTGTGATGGGCACCCTGATTATTCCGTTCACCTTTACCCTGCTGTGGCTGTCGGTGTTCGGCAACAGCGCGCTGTATGAGATCATCCACGGCGACGCGGCCTTTGCCGGGGAGGCGATGCTCCACCCGGAGCGCGGCTTCTACAGCCTGCTGGCGCAGTATCCGGCGTTTACCTTTAGCGCGTCGGTGGCGACCATTACCGGTCTGCTGTTCTACGTCACCTCTGCCGACTCCGGCGCGCTGGTGCTGGGAAACTTTACCTCGAAGCTGAAGGACATCAACAGCGACTCCCCGAACTGGCTGCGCATCTTCTGGTCGGTGGCTATCGGTCTGTTGACCCTCGGGATGCTGATGACCAACGGCATCTCGGCGCTGCAGAACACCACGGTGATCATGGGGCTGCCGTTCAGCTTTGTGATTTTCTTCGTGATGGCCGGACTGTATAAGTCCCTGAAGGTGGAAGATTACCGCCGGGTTAGCGCCAGCCGCGACACTGCCCCGCGCCCGCTCGGCCTGCAGGATCGGCTGAGCTGGAAGAAGCGCCTGTCGCGGCTGATGAATTACCCGGGCACGCGCTATACCAAACAGATGATGGAGACGGTGTGCTTCCCGGCGATGGAGGAGGTTGCCCAGGAGCTGCGGCTGCGCGGCGCCGCGGTGGAACTGAAGAGCCTGCCGCCGGAAGAGGGCGAGAACCTTGGTCACCTCGATCTGCTGGTGCACATGGGCGACGAGCAGAACTTTATCTACAAGATCTGGCCGCAGCAGTACTCGGTGCCGGGCTTTACCTATCGGGCGCGCAGCGGGAAATCCACCTATTACCGGCTGGAGACCTTCCTGCTGGAGGGCAGCCAGGGTAACGACCTGATGGACTACAGCAAAGAGCAGGTGATCACCGATATTCTCGACCAGTACGAGCGGCACCTGAACTTTATCCATCTGCACAGGGAAGCGCCGGGGAACAGCGTGATGTTCCCGGATGGCTAG	MTDLSQNREKDKINPVVFYTSAGLILLFSLMTIFFRDFSAEWIGRTLDWVSKTFGWYYLLAATLYIVFVVCIACSRFGSVKLGPEQSKPEFSLLSWAAMLFAAGIGIDLMFFSVAEPVTQYMQPPEGAGQTIEAARQAMVWTLFHYGLTGWSMYALMGMALGYFSYRYNLPLTIRSALYPIFGKKINGPIGHSVDIAAVIGTIFGIATTLGIGVVQLNYGLSVLFDIPDSLAAKAALIALSVIIATISVTSGVDKGIRVLSELNVALALGLILFVLFMGDTSFLLNALVLNVGDYVNRFMGMTLNSFAFDRPVEWMNNWTLFFWAWWVAWSPFVGLFLARISRGRTIRQFVMGTLIIPFTFTLLWLSVFGNSALYEIIHGDAAFAGEAMLHPERGFYSLLAQYPAFTFSASVATITGLLFYVTSADSGALVLGNFTSKLKDINSDSPNWLRIFWSVAIGLLTLGMLMTNGISALQNTTVIMGLPFSFVIFFVMAGLYKSLKVEDYRRVSASRDTAPRPLGLQDRLSWKKRLSRLMNYPGTRYTKQMMETVCFPAMEEVAQELRLRGAAVELKSLPPEEGENLGHLDLLVHMGDEQNFIYKIWPQQYSVPGFTYRARSGKSTYYRLETFLLEGSQGNDLMDYSKEQVITDILDQYERHLNFIHLHREAPGNSVMFPDG				NA	NA	NA	NA	NA
BMS020_04402	588	betI_5	COG1309	HTH-type transcriptional regulator BetI	ATGCCCAAACTGGGGATGCAGCCAATCCGGCGCAGGCAACTGATCGACGCCACGCTGGACGCAATAAATGAAGTCGGAATGCACGACGCGACCATCGCGCAGATCGCCCGGCGGGCGGGCGTATCGACGGGGATCATCAGTCACTATTTCAAAGACAAAAATGGTCTGCTGGAAGCGACCATGCGCGACATCACCAGCCAGCTGCGCGACGCGGTGCTTAACCGTCTGCACGCCCTGCCGGACGGCAGCGCCGGAGAGCGTCTGCAGGCGATAGTCGGCGGCAACTTTGATGAGACGCAGATCAGCAGCGCGGCGATGAAGGCCTGGCTGGCCTTCTGGGCCAGCAGCATGCACCAGCCGATGCTCTACCGCCTGCAGCAGGTGAGCAGCCGCCGCCTGCTGTCAAACCTGGTGTACGAGTTCCGCCGCGAGCTGCCGCGCGAGCAGGCCCAGGAGGCCGGCTACGGGCTGGCGGCGCTGATAGACGGCCTGTGGCTGCGGGCGGCGCTCAGCGGCAAACCGCTGGATAAGACGCTGGCGCAGTCGCTGACCAGCCACTTTATTCGTCAGCATTTACCGAACCCATAA	MPKLGMQPIRRRQLIDATLDAINEVGMHDATIAQIARRAGVSTGIISHYFKDKNGLLEATMRDITSQLRDAVLNRLHALPDGSAGERLQAIVGGNFDETQISSAAMKAWLAFWASSMHQPMLYRLQQVSSRRLLSNLVYEFRRELPREQAQEAGYGLAALIDGLWLRAALSGKPLDKTLAQSLTSHFIRQHLPNP	PGPT0013625_424	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013625-betI-K02167	NA	NA
BMS020_04403	1473	betB_1	COG1012	NAD/NADP-dependent betaine aldehyde dehydrogenase	ATGTCCCGAATGGCAGAACAGCAGCTTTATATTAATGGTGGTTATACATCGGCCACCAGCGGTCGCACCTTCGAGACCATCAACCCTGCCACTGGCGAGGTGCTGGCGACCGTTCAGGCTGCCGGACGCGAGGATGTCGACCGCGCCGTTGAGAGCGCGCGGCGCGGGCAAAAAATCTGGGCGGCGATGACCGCCATGGAACGCTCGCGCATCCTGCGTCGCGCCGTCGATATCCTGCGCGAGCGCAACGACGAGCTGGCAAAGCTGGAAACCCTCGACACCGGTAAAGCGTATTCCGAAACCTCAACCGTGGACATCGTCACCGGCGCCGACGTGCTGGAGTATTACGCGGGGCTGATCCCGGCGCTGGAAGGCAGTCAGATCCCCCTGCGCGAGACGTCGTTCGTCTACACCCGCCGCGAACCGCTGGGTGTGGTGGCCGGGATCGGCGCGTGGAACTATCCGATCCAGATCGCCCTGTGGAAATCGGCGCCAGCGCTGGCCGCCGGCAATGCAATGATTTTCAAACCGAGCGAAGTCACCCCGCTCACCGCCCTCAGGCTGGCGGAAATTTACAGCGAAGCGGGCCTGCCGGACGGGGTGTTTAACGTCCTGCCGGGCGTGGGTGCGGAGACCGGCCAGTACCTGACTGAACATCCGGGCATCGCTAAAGTCTCCTTTACCGGCGGCGTCGCCAGCGGCAAAAAGGTGATGGCCAACTCCGCAGCCTCATCGCTGAAAGAGGTCACCATGGAGCTGGGCGGTAAATCGCCGCTGATTATTTTCGACGATGCGGATCTCGATCTCGCGGCCGACATCGCCATGATGGCCAACTTCTTCAGCTCCGGCCAGGTGTGCACCAACGGCACCCGCGTGTTCGTCCCCGCGAAGGTTAAGGCGGCGTTTGAGCAGAAAATCGTTGAGCGCGTGGGCCGCATCCGCGCGGGCGATCTGTTCGATGAAACCACCAACTTTGGCCCGCTGGTCAGCTTCCCGCACCGTGACAATGTGCTGCGCTACATCGCCAAAGGCAAAGCAGAAGGCGCTCGCCTGCTGTGCGGCGGCGACGTGCTGAAGGGCGAAGGCTTTGACAACGGCGCATGGGTGGCCCCGACGGTGTTTACCGACTGCACCGATGAGATGACCATCGTGCGCGAGGAGATCTTCGGCCCGGTGATGTCCATCCTCAGCTACGCGTCCGAAGAAGAAGCGATCCGCCGCGCCAACGATACCGACTACGGCCTGGCGGCGGGTATCGTCACTGCCGACCTGAACCGCGCCCACGGCGCCATTCATCAGCTGGAAGCCGGCATCTGCTGGATCAACAGCTGGGGAGAATCTCCGGCGGAGATGCCGGTCGGCGGCTATAAGCACTCCGGTATTGGCCGCGAGAACGGCGTGATGACCCTGCAGAGTTACACCCAGGTGAAGTCCATCCAGGTTGAGATGGGTAAATTCCAGTCCATATTTTAA	MSRMAEQQLYINGGYTSATSGRTFETINPATGEVLATVQAAGREDVDRAVESARRGQKIWAAMTAMERSRILRRAVDILRERNDELAKLETLDTGKAYSETSTVDIVTGADVLEYYAGLIPALEGSQIPLRETSFVYTRREPLGVVAGIGAWNYPIQIALWKSAPALAAGNAMIFKPSEVTPLTALRLAEIYSEAGLPDGVFNVLPGVGAETGQYLTEHPGIAKVSFTGGVASGKKVMANSAASSLKEVTMELGGKSPLIIFDDADLDLAADIAMMANFFSSGQVCTNGTRVFVPAKVKAAFEQKIVERVGRIRAGDLFDETTNFGPLVSFPHRDNVLRYIAKGKAEGARLLCGGDVLKGEGFDNGAWVAPTVFTDCTDEMTIVREEIFGPVMSILSYASEEEAIRRANDTDYGLAAGIVTADLNRAHGAIHQLEAGICWINSWGESPAEMPVGGYKHSGIGRENGVMTLQSYTQVKSIQVEMGKFQSIF	PGPT0007165_1681	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0007165-betB_homologous-K00130	NA	NA
BMS020_04404	1665	betA_2	COG2303	Oxygen-dependent choline dehydrogenase	TTGCAATTTGACTACATCATTATTGGCGCCGGCTCCGCCGGCAACGTTCTGGCGACACGACTGACTGAAGATCCAAACACCACCGTCCTGCTGCTGGAGGCCGGCGGCCCGGACTACCGGTTCGATTTTCGCACCCAGATGCCCGCCGCGCTGGCTTACCCGCTGCAGGGCAAACGCTACAACTGGGCCTACGAGACCGAACCGGAGCCCTATATGAACCACCGCCGCATGGAGTGCGGGCGTGGTAAAGGGCTCGGCGGCTCCTCGCTGATTAACGGCATGTGCTACATTCGCGGCAACGCTCTGGACCTCGATAACTGGGCCGCCGCCCCGGGACTGGAACACTGGAGCTATCTCGACTGCCTGCCCTACTACCGGAAAGCGGAAACCCGCGATATCGGGCCCAACGACTATCACGGCGGCGATGGCCCGGTGAGCGTCACCACGCCGAAGCCGGGCAATAATCCGCTCTTCGAGGCGATGGTTGAAGCCGGGGTGCAGGCGGGGTATCCGCGCACCGACGATCTCAACGGCTACCAACAGGAAGGCTTTGGTCCAATGGACCGCACCGTGACGCCGCAGGGCCGTCGCGCCAGCACCGCCCGCGGCTATCTCGACCAGGCGCGCGGTCGCCCCAACCTGACCATCCGCACCCATGCGCTGACCGATCACATTATTTTTGCCGGCAAGCGCGCGGTGGGCGTCGAGTGGCTGGAGGGGGAAAGCACTATCCCGTCAAAAGCGACGGCCAACAAAGAGGTGCTGCTGTGCGCCGGGGCGATTGCCTCGCCGCAGATCCTGCAGCGCTCCGGCGTCGGCAACCCCGAGCTGCTCAGGCAGTTCGATATCCCGGTGGTCCACGATCTCCCCGGCGTGGGTGAGAATCTGCAGGACCATCTGGAGATGTACCTGCAGTACGAGTGCAAAGAGCCGGTGTCGCTCTACCCGGCGCTGCAGTGGTGGAACCAGCCGAAGATCGGCGCCGAGTGGCTGTTCGGCGGCACCGGGATCGGCGCCAGCAACCAGTTCGAAGCGGGCGGTTTTATCCGCAGCCGCGCCGAGTTCGCCTGGCCGAACATTCAGTACCATTTCCTGCCGGTGGCGATTAACTACAATGGCTCCAACGCGGTGAAAGAGCACGGCTTCCAGTGCCACGTCGGCTCGATGCGTTCCCCCAGCCGCGGCCACGTGCGTCTGAAATCGCGCGACCCGCACGCCCATCCGGCGATCCTGTTTAACTATATGTCCCATGAGCAGGACTGGCAGGAGTTCCGCGACGCCATTCGCATCACCCGGGAGATCATGAACCAGCCGGCGCTGGATAAGTATCGCGGCCGCGAAATCAGCCCGGGTATTGACTGCCAGAGCGATGCCGAGCTGGATGAGTTTGTGCGCAACCACGCCGAGACCGCGTTCCACCCGTGCGGGACCTGTAAGATGGGTTACGACGAGATGGCGGTGGTCGACGGCGAAGGCCGGGTCCACGGTCTGGAAGGAGTGCGGGTGGTCGATGCGTCAATTATGCCGCAGATCATCACCGGCAACCTGAACGCCACCACCATTATGATCGGCGAGAAGATGGCTGACGCCATTCGCGGCCGCCAGCCGCTGCCGCGCAGCACGGCGGCGTATTATGTCGCTGGTGACGCGCCGGTTCGCCGCTAA	MQFDYIIIGAGSAGNVLATRLTEDPNTTVLLLEAGGPDYRFDFRTQMPAALAYPLQGKRYNWAYETEPEPYMNHRRMECGRGKGLGGSSLINGMCYIRGNALDLDNWAAAPGLEHWSYLDCLPYYRKAETRDIGPNDYHGGDGPVSVTTPKPGNNPLFEAMVEAGVQAGYPRTDDLNGYQQEGFGPMDRTVTPQGRRASTARGYLDQARGRPNLTIRTHALTDHIIFAGKRAVGVEWLEGESTIPSKATANKEVLLCAGAIASPQILQRSGVGNPELLRQFDIPVVHDLPGVGENLQDHLEMYLQYECKEPVSLYPALQWWNQPKIGAEWLFGGTGIGASNQFEAGGFIRSRAEFAWPNIQYHFLPVAINYNGSNAVKEHGFQCHVGSMRSPSRGHVRLKSRDPHAHPAILFNYMSHEQDWQEFRDAIRITREIMNQPALDKYRGREISPGIDCQSDAELDEFVRNHAETAFHPCGTCKMGYDEMAVVDGEGRVHGLEGVRVVDASIMPQIITGNLNATTIMIGEKMADAIRGRQPLPRSTAAYYVAGDAPVRR	PGPT0013615_2329	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013615-betA|CHDH-K00108	NA	NA
BMS020_04405	696			hypothetical protein	GTGCCGGAAATCAATGAGTTTGGCCAGCAGGTGAACGATCTTGTCCCTGGCTGGCAGGGGGCGCGAGTCCTGCGGCGAACGGCGTTAAATGGCCGTTTTTGTCAACTGGAGCCGCTGGACGTTGACCGTCATGCGGCGGATCTGTTTGCCGCCTATGCGCTCGGCGACAACAGCGACTGGACGTGGCTGGCGTCTACGCGGCCGGAGAGCGTAGCGGCGACCGCCCACTGGATCGCGGGCAAGGTGAATGATGATGCCCTGGTGCCCTACGCGGTGATTGACCTGCGTAGCGAGCAGGCGGTGGGTATCGTCAGCTATATGGCGATCGAACGGGAAATGGGCACGGTTGAGATCGGCCATGTCACCTGGTCGCGCCGGATGAAAAACACCCCGCTGGGTACCGAAGCGGTCTGGCTGTTGCTGAAGAACGGCTTTGATCATGGCTACCGTCGGCTGGAGTGGAAATGCGATTCGATGAATGTCGCCTCGCGCCGGGCCGCCGAGCGGCTGGGCTTTAGCTGGGAAGGGCGCCTGCGGCAGAGGCTGGTGCGCAAAGGGCGGACGCGCGACAGCGATATGCTGTCCATCATCGATGGCGAGTGGCCTGCGCGCGATGCGGCGCTGCGGGCATGGCTGGCGGTGGAGAACTTTACTGCCGACGGGCAGCAGATCAAACGCCTGGAGGCGTTTCGCTAA	MPEINEFGQQVNDLVPGWQGARVLRRTALNGRFCQLEPLDVDRHAADLFAAYALGDNSDWTWLASTRPESVAATAHWIAGKVNDDALVPYAVIDLRSEQAVGIVSYMAIEREMGTVEIGHVTWSRRMKNTPLGTEAVWLLLKNGFDHGYRRLEWKCDSMNVASRRAAERLGFSWEGRLRQRLVRKGRTRDSDMLSIIDGEWPARDAALRAWLAVENFTADGQQIKRLEAFR				NA	NA	NA	NA	NA
BMS020_04406	1569	ddpA	COG0747	putative D,D-dipeptide-binding periplasmic protein DdpA	ATGACCAAGAAACTGTTGCCTTTACTGGTACTGACGGCGCTCTCCGCCGCCGCGCATGCCGCCACGCCGCCCAACACGCTGGTGGTCGCCCAGGGTCTCGACGATATCGTCAGCCTCGACCCGGCGGAAGCAAACGAACTCTCCAGCATTCAGACGGTGCCCAGCCTCTACCAGCGTCTGGTACAGCCGGACCGCAACAACCCTGAAAAAATCGTACCGATCCTCGCCGAAAGCTGGCAGGCCGACCCGGCGACGAAAACCCTGACCATCAAACTGAAGCCGGATGCCAAATTCGCCTCCGGTAATCCGCTGCGCCCGGAAGATGTGATTTTCTCTTACACCCGCGCGGTGACGCTGAATAAATCGCCGGCGTTTATTCTCAACGTGCTCGGCTGGCAGCCGGACAACATCGCCAGCCAGCTGAAAAAGGTTGACGACCATACCCTGACGCTGCACTGGACCGCCGACGTCAGCCCGGCGGTGGCGCTGAATATTCTCTCCACCCCCATCGCCTCCATCGTTGATGAAAAACAGGTGGCGCCGAACGCGAAAAATAACGACTTCGGCAACGACTGGCTGAAGATGCACTCGGCGGGCAGCGGGGCCTATAAAATGCGCGTCTACCAGCCGCATCAGGCCATCGTGCTGGAAGCCAACGCCAGCTCCCCCACCGGCGCGCCGAAGATCAAGAGCATCATTATTAAAAACGTCCCCGACCCGGCTTCCCGCCGCCTGCTGATCCAGCAGGGGGATGCCGACGTGGCGCGCGATCTCGGCGCTGACCAGATTGCCGCCCTGCAGGATAAACCCGGCGTGAAGGTGCTGAGCATCCCGTCCGCCGAGCAGAACTATCTGGTGTTTAATACCGCCAACAGCGCCAACCCGCTGCTCAATAATCCGGCCTTCTGGGAGGCGGCGCGCTGGCTGGTCGATTATGAGGGCATCACCAAAAATCTGCTGAAAGGCCAGTACTTTATTCATCAAAGCTTCCTGCCGGCCGGCCTGCCGGGGGCGCTGGAGACCAATCCATTCGCCTTCGACCCGCAAAAAGCTAAGGCTATCCTTGATAAAGCGGGCATTAAGGATGCGCACTTCACCCTCGACGTGGAGAACAAACCGCCGTTTATCACCATCGCCCAGTCGCTGCAGGCCAGCTTCGCCCAGGGCGGGGTGAAAGTGGATCTCCTGCCGGCCGCCGGCAGCCAGGTCTATGCCCGGGTGCGCGCGAAGCAGCATCAGGCGGCGATCCGCCTGTGGATCCCCGACTACTTTGATGCCCATTCCAACGCCAGCGCCTTCGCGTGGAACGATGGTAAATCCAGCACCGTGGCCGGGCTCAACGGCTGGCAGATCCCTGAGCTGAATAAAGCCACCCTCGCCGCGGTGGCGGAGCCGGACCCGGCGAAACGCCTCGACCTGTACAAAACGATGCAGGAAACCCTGCTGCAGCATTCGCCATACGTCTTTATTGACCAGGGGAAAACCCAGATCGTGGTGCGCGATAACGTGAAGGGCTATCAGCAGGGGCTGAACGCCGACATGGTCTGGTACGATAACGTGACCAAGTAA	MTKKLLPLLVLTALSAAAHAATPPNTLVVAQGLDDIVSLDPAEANELSSIQTVPSLYQRLVQPDRNNPEKIVPILAESWQADPATKTLTIKLKPDAKFASGNPLRPEDVIFSYTRAVTLNKSPAFILNVLGWQPDNIASQLKKVDDHTLTLHWTADVSPAVALNILSTPIASIVDEKQVAPNAKNNDFGNDWLKMHSAGSGAYKMRVYQPHQAIVLEANASSPTGAPKIKSIIIKNVPDPASRRLLIQQGDADVARDLGADQIAALQDKPGVKVLSIPSAEQNYLVFNTANSANPLLNNPAFWEAARWLVDYEGITKNLLKGQYFIHQSFLPAGLPGALETNPFAFDPQKAKAILDKAGIKDAHFTLDVENKPPFITIAQSLQASFAQGGVKVDLLPAAGSQVYARVRAKQHQAAIRLWIPDYFDAHSNASAFAWNDGKSSTVAGLNGWQIPELNKATLAAVAEPDPAKRLDLYKTMQETLLQHSPYVFIDQGKTQIVVRDNVKGYQQGLNADMVWYDNVTK	PGPT0004430_13918	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
BMS020_04407	1023	dppB_2	COG0601	Dipeptide transport system permease protein DppB	ATGCCATCGTTTTCCACTCATCTTACCCGCCTGCTGCAGGGGCTGTTGACCCTGCTGCTGACGCTGTTCGGGCTGCTGCTGGTCACCTTCTCGCTCTCCGCGCTGTCGCCGGTCGACCGCGTACTGCAGATCGTCGGCGACCATGCCAGCCAGTCGACCTATGATCAGGTTCGCCATCAGCTGGGTCTCGACCAGCCGCTGCCGGTGCAGTTCTGCCACTACCTGGTCAACCTGGCCCATGGCGATCTCGGTATCGCCAGCGCCACCGGCCAGCCGGTGCTCCACGATCTGCTGGCGGTCTTCCCGGCGACCCTTGAGCTGGCAACCCTGGCGCTGATCGTCGGCGCGGTACTGGGCATCGTCGCCGGGGTGCTGTGCGCCCGTTACGCCGGTTCGCCGTGGGATCTGGCGGTGCGCACCTTTACCCTGTTGGGCAACTCGGTGCCGATATTCTGGCTCGGCCTGCTGATGCTGGCCCTGTTCTACGCCCGGCTGCAGTGGGCGCCGGGCCCGGGTCGTCTCGACGATATTTATCAGTACACCGTCGAGCCGCGCAGCGGTTTTGCGCTGATCGACACCTGGCTCTCCGGCGATACAGCGGCTTTCAAAAATGCTATCGGCCATCTGCTGCTGCCGGGGCTGGTGCTGGCCTATTACTCGCTGGCGAGCATCACCCGTCTGACCCGCTCCGCCTGTCTCAGTGAAATGAACAAAGAGTACATTCTGCTGGCGCGGGCCAAAGGGGCCGGTGAGATGACGATTCTGCTGCGTCACGTTCTGCCCAATATCCGCGGCACCCTGCTGACGGTAACCGCCCTCGCCTGGACCTCAATGCTCGAAGGGGCGGTGCTCACCGAAACCGTCTTCTCATGGCCGGGGATCGGTCGCTACCTCACCACCGCGCTGTTCGCCGGAGATACCACGGCGATCATGGGCGGCACGCTGCTGATCGGCGTGAGTTTTGTGCTGATCAATAACCTGACCGACCTGCTGGTGCGGTTAACCGACCCGAGGGTGCGCTGA	MPSFSTHLTRLLQGLLTLLLTLFGLLLVTFSLSALSPVDRVLQIVGDHASQSTYDQVRHQLGLDQPLPVQFCHYLVNLAHGDLGIASATGQPVLHDLLAVFPATLELATLALIVGAVLGIVAGVLCARYAGSPWDLAVRTFTLLGNSVPIFWLGLLMLALFYARLQWAPGPGRLDDIYQYTVEPRSGFALIDTWLSGDTAAFKNAIGHLLLPGLVLAYYSLASITRLTRSACLSEMNKEYILLARAKGAGEMTILLRHVLPNIRGTLLTVTALAWTSMLEGAVLTETVFSWPGIGRYLTTALFAGDTTAIMGGTLLIGVSFVLINNLTDLLVRLTDPRVR	PGPT0004445_2583	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
BMS020_04408	834	ddpC_2	COG1173	putative D,D-dipeptide transport system permease protein DdpC	ATGCCGACTTATCTGTTTTTACGCCGTCTGCGCCGCTCACCCGCCGCCTTCTGCGGTCTGACCCTGGTGATCCTGTTGGTGCTGACCGCGCTGTTCGCCCCGTGGCTGGCGCCGCACGATCCCAACTGGCAGGATGCCGCCGCCCGTCTGCAGGGCCCGGGCGCGGGGCACTGGCTCGGCACCGACAGCTACGGCCGCGATCTGCTGTCACGCCTGCTCTACGGCGCCCGTCCGGCGCTGGGTCTGGTCGCGCTGGTGACCGCCATTACCCTGCCCGTCGGTCTGCTGGTGGGTATTCTCTCCGGCTACTATGGCGGGTGGCTGGAGCGGATACTGATGCGCTTTACCGACGTGGTGATGTCGATGCCGCGGCTGATCCTCGCCTTCGCGTTCGTGGCGATGCTCGGCCCGGGGCTGGTCAACGGCGCGCTGGCGTTAGCCCTGACTACCTGGCCGGCCTACGCCCGTCAGGCGCGCAGCGAAATTCAGCGCCTGCGCCATAGCGATTACCTCGCCGCGGCGGAGATGCTGGGCATCCGCGGCTGGCGGCTGCTGGTCGGCCATATTCTGCCGCTGTGTCTGCCGTCGGCGATTGTCCGGCTGGCGCTCGATCTGGCGGGCATTATCCTCGCCGCCGCCGGGCTCGGCTTTCTCGGCCTGGGCGCCCGCCCGCCGATGGCGGAGTGGGGAGCGATGATTGCCGACGGGATGCAGGTGATTTTCGATCAGTGGTGGATCGCCGCCATCCCCGGCGCGGCGATCCTGCTCGCCAGCCTGGCGTTTAACCTGCTGGGCGATGGCCTGCGCGATATTCTGGAGCCGCAACATGACTGA	MPTYLFLRRLRRSPAAFCGLTLVILLVLTALFAPWLAPHDPNWQDAAARLQGPGAGHWLGTDSYGRDLLSRLLYGARPALGLVALVTAITLPVGLLVGILSGYYGGWLERILMRFTDVVMSMPRLILAFAFVAMLGPGLVNGALALALTTWPAYARQARSEIQRLRHSDYLAAAEMLGIRGWRLLVGHILPLCLPSAIVRLALDLAGIILAAAGLGFLGLGARPPMAEWGAMIADGMQVIFDQWWIAAIPGAAILLASLAFNLLGDGLRDILEPQHD	PGPT0004450_13037	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
BMS020_04409	837	dppD_2	COG0444	Dipeptide transport ATP-binding protein DppD	ATGACTGACATCCGACTGACCGTCCAGGGACTCGCCGTCGACTACCCCACCGCCCGGGTGGTGGATAACATCAGCTTCAACCTCGGCAACGAGCGGCTGGCGCTGGTGGGGGAATCCGGCTCCGGCAAATCGATGACCGCCCGGGCGCTGATGGGCCTGGTGCGCAAGCCCGGGGTGGTGAGCGCCGAACGGCTGGAGGTGCTGGGGCGCGATGTGCTGACCCTCAGCGCCCGCGGCTGGCGCGAACTGCGCGGCAACGATATCGCCATGGTGCTGCAGGATCCGCGCTATGCGCTAAATCCGGTGCAGTCCATTCAGACGCAGCTGGAGGAGGCGTTAACCCTGCATCAGCGTCTCCGCCGCCGCGCTCGCGCCGAGGCGGTCAAAGACGCCATCGCCGCCGTCGGTCTGGATCTCCCGGTCCTCAGCCGCTATCCCGGCGAGCTCTCCGGCGGGATGGGGCAGCGGGTGATGATCGCCCTCGCGCTGCTCAATAACCCGAGGGTGCTGATAGCCGACGAGCCGACCTCGGCCCTTGACGCCCGCCTGCGCAACCAGATCCTCGAGCTGCTGGTGGAGCAGTGCGCGCAGCGGCAGATGGCCATGTTACTGATCAGCCACGATCTACCGCTGGTGGCCGCGCATTGCGATCGCGTGCTGGTGATGTACCAGGGGAGACAGGTCGATGAGATGCAGGCGCGGGCGCTGCCGACCGCGACGCACCCTTTTACCCGCACCCTGTGGACCTGCCGGCCAAATGCGCAAACCTACGGTCAGATGCTGCCGACCCTCGACAGAACCCAGGACTTTACGGAGACGCCCCATGGCGATCGTTAA	MTDIRLTVQGLAVDYPTARVVDNISFNLGNERLALVGESGSGKSMTARALMGLVRKPGVVSAERLEVLGRDVLTLSARGWRELRGNDIAMVLQDPRYALNPVQSIQTQLEEALTLHQRLRRRARAEAVKDAIAAVGLDLPVLSRYPGELSGGMGQRVMIALALLNNPRVLIADEPTSALDARLRNQILELLVEQCAQRQMAMLLISHDLPLVAAHCDRVLVMYQGRQVDEMQARALPTATHPFTRTLWTCRPNAQTYGQMLPTLDRTQDFTETPHGDR	PGPT0004435_12995	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
BMS020_04410	705	oppF_3	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGGCGATCGTTAATCTTAAGGATCTACAGGTAACATTCGGCGCGAAGACGGCGGTTTCCGCCGCCAGTTTCCGTGTCGACGCCGGGGAAACCTTCAGCCTGATCGGCGCCTCGGGCTGCGGCAAATCGACGATTTTGCGCGTGCTCGCCGGATTACAGCGCGAATGGCGCGGCAGCGTGGCGCTGCTGGGCCAGGCCATCGCGCCGGGCGCCCGCTTTCAGGGCGAGCTGCGACGCAATGTGCAGATGGTGTTTCAGGATCCGTATGCTTCGCTGCATCCCAACCATACCCTGTGGCGCACCCTGGCGGAGCCGCTGCAGATCCACGGCATCCGCGACGTTGCCCCGCGGGTAACCACCGCCCTTGAGCAGGTGGGTCTGGCCGCCGACGCCGCACGCCGCTATCCGCATCAGCTCTCCGGCGGTCAACGGCAGCGCGTGGCCATTGCCCGTGCCCTGCTGCTGCGTCCGCAGATCCTGCTGCTGGATGAGCCGACCTCGGCGCTGGATATGTCGGTTCAGGCGGAAATCCTCAATCTGCTTAATCGCCTGAAACAGGAGCACGGCATGACCTATCTGCTGGTCAGCCACGATGCCGACGTCATCGCCCATATGTCCGATCGGGCGGCGTTTATGGCGGAGGGTGTGATCCAGCGCTTTTTCGATCGCGAAGCGCTGCTCAACGGAGAACACCGGATGAAGTGA	MAIVNLKDLQVTFGAKTAVSAASFRVDAGETFSLIGASGCGKSTILRVLAGLQREWRGSVALLGQAIAPGARFQGELRRNVQMVFQDPYASLHPNHTLWRTLAEPLQIHGIRDVAPRVTTALEQVGLAADAARRYPHQLSGGQRQRVAIARALLLRPQILLLDEPTSALDMSVQAEILNLLNRLKQEHGMTYLLVSHDADVIAHMSDRAAFMAEGVIQRFFDREALLNGEHRMK	PGPT0004440_9651	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
BMS020_04411	1131			hypothetical protein	GTGCAGCGCGGACAGACCCTGTCGCAGATCGCTGCCGGCATGGCGCGCGGCAGCGGCTACAGCCTGGACCAGACGATGCTGGCGCTGTTGCGCAGCAATCCCGATGCGTTCATCGGCGGCAACATCAACCGGCTCAAGCAGGGCGCGGTGCTGCGCACGCCGCAGCAGGACGCCTTGGCGCAGATCGGTGCGGCCGAGGCGACCGCGCTGGTGCGCGAACAGGCGGCGCAGTGGCGCCAGGCGCGCGCGCCGATCCCGCAACCGGCCGATGCCGGCGCAGCCCCGGCTCCGGCCCGTGCCGCGGCACAGGGCGGCGGCGCCGACGGTGCACGGCTGGAGATCGCGCCAGCGGTGGCCAATGACAGCAACAAGGCAGGAACCATGTCCGGCACCAGCGCCGGAGGCGAGGGCGACATGCTGGCGAACGAACAACTGCAGCAGGCGAAGGAAGACATCGCCACGCGCGACGCCGAGATCCAGGAGTTGCGCAACCGGGTCGGCGAACTGGAAAAGCTGCAGAAGCAGCAGACCCAGCTGATTGCGATGAAGGACACCGACCTGGCCGCCGCGCAGCAGCGGCTGGCGCAGGCCCGCCCGGCCGAGGGCGGCGGCTTCCCGATGTGGCTGCTCGGCGGCGTGGTGCTGGTCTTGGCCGGGGTCGCGGCCTGGTTCGCAGCGCGGCGTCGCAAGCCGTCGCCGTTCGCGATGCCGCGCCGCGAGTACGACGCGGTGGCGATGGCCGCCGCGGTGCCGGCCGGTACGGCGGCGGCCGAGATCGGCGAGTACGAGCAGGCCGGCGAGGCGGAGCTCGAAGAAGCCCGCCTGCACGAGGACGAACGCGGCATCGATGCGGTCGAGGACGCGGCGCTGCCGGAGCGCGTGGAAGACGCGCCGAGTGAACCCGAAAAGCCGCTGCCGGCAGCCTGGGGGCCGACCTGGCACCAGGCCGATGGTGCCGGCATCGCACCGTTGAATCCGGCCCCGGCCGGGCGTGACCGGCTGGAACTGGCGGTGGCCTACCTCGATCTGGGCGACAAGGACACCGCGCGCAGCCTGCTGCTGGAAGTGGCGGCCGGCAACGATCCGCAGGCGCGTGGCGAGGCGCTGGCGCTGCTGGGTCAGCTTGGTTGA	MQRGQTLSQIAAGMARGSGYSLDQTMLALLRSNPDAFIGGNINRLKQGAVLRTPQQDALAQIGAAEATALVREQAAQWRQARAPIPQPADAGAAPAPARAAAQGGGADGARLEIAPAVANDSNKAGTMSGTSAGGEGDMLANEQLQQAKEDIATRDAEIQELRNRVGELEKLQKQQTQLIAMKDTDLAAAQQRLAQARPAEGGGFPMWLLGGVVLVLAGVAAWFAARRRKPSPFAMPRREYDAVAMAAAVPAGTAAAEIGEYEQAGEAELEEARLHEDERGIDAVEDAALPERVEDAPSEPEKPLPAAWGPTWHQADGAGIAPLNPAPAGRDRLELAVAYLDLGDKDTARSLLLEVAAGNDPQARGEALALLGQLG	PGPT0016075_1110	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	SURFACE_ADHESIVE_FIMBRIAE,PGPT0016075-fimV-K08086	NA	NA
BMS020_04412	774	truA_2	COG0101	tRNA pseudouridine synthase A	ATGCGCTACGCGATGGGCGTGGAATACGACGGCAGCGAGTTCCTGGGCTGGCAGCAGCTCGGCGAACACGGCGGGCCCAGCGTGCAGGCCACGCTGCAGCAGGCGCTGTCCTCGGTGGCGGCCGAACCGATCCAGGTGGTCTGCGCCGGGCGGACCGATGCCGGCGTGCATGGCGAATGCCAGGTCGTGCATTTCGACAGCCAGGCTCAGCGCGAACCGCGCGGCTGGATGCTGGGCACCACCGGGCGCCTGCCGCCGGCGATCGCGGTGCGCTGGTGCGTGCCGGTCGCCGACGATTTCCATGCGCGCTTCTCGGCGCGTGCGCGCCGCTATCGCTACCGCCTGCTGAACCGCACGGTGCGGCCGGCGCTGTACCGGCAGACCCTGAGCTGGGAGCGCCGTCCGCTGGATGCGCAGGCGATGCATGCCGCCGCGCAGGCGCTGTTGGGCGAGAACGACTTCAGCGCGTTCCGCAGCGTGCAATGCCAGGCACTGCACGCGCGGCGCGAGATGCAGGCGATCGAGGTGCGCCGCGATGGCGACGTGGTGGAACTGCGGGTGCAGGCCAATGCATTCCTCCATCACATGGTGCGCAATATCGTGGGCTCGCTGGTGATGGTGGGTGCCGGCGAGCGGCCGGTGGAATGGATTGCCGAACTGCTTGCCGGACGCGACCGGACCGTCGCCGGCCCGACCGCGCCGCCGCAGGGGCTGGTGTTCGTCGGTCCGCTGTATCCATCCCAATGGTCGTTGCCGGCAGAGGTCGTGACATGA	MRYAMGVEYDGSEFLGWQQLGEHGGPSVQATLQQALSSVAAEPIQVVCAGRTDAGVHGECQVVHFDSQAQREPRGWMLGTTGRLPPAIAVRWCVPVADDFHARFSARARRYRYRLLNRTVRPALYRQTLSWERRPLDAQAMHAAAQALLGENDFSAFRSVQCQALHARREMQAIEVRRDGDVVELRVQANAFLHHMVRNIVGSLVMVGAGERPVEWIAELLAGRDRTVAGPTAPPQGLVFVGPLYPSQWSLPAEVVT				NA	NA	NA	NA	NA
BMS020_04413	657	trpF	COG0135	N-(5'-phosphoribosyl)anthranilate isomerase	ATGAATCGAACGCTGTACCGCACCCGTATCAAGTTCTGTGGCCTGACCCGGGCCGGCGACATCCGCCTGGCCGGCGAGCTCGGCGTGGATGCGGTGGGTTTCGTCTTCGCGCATGGCAGCCCGCGGCGCGTGGCGCCGACCGAGGCGCGCGCGATGCGCCAGGCGATCGCGCCGATGGTCGATGTGGTCGCGCTGTTCCGCAACAACGCCAAGGACGAAGTGCGCGAGGTGCTGCGCACGGTGCGGCCGACCCTGCTGCAGTTCCATGGCGAGGAGGACGACGCCTTCTGCCGCAGCTTCAACCTGCCGTACCTGAAGGCGATCCCGATGGGCGGCAGCGGCGAGGTCAACGCGCGCACGCTGCAGCTGGAATTCCCCAACGCTTCCGGCTTCCTGTTCGACAGCCACGCGCCCGGCACTTCCGGCGGTTCGGGGCTGGCGTTCGACTGGTCGCGGTTGCCGACCGGGCTGCACCGGCCGTTCCTGCTCGCCGGCGGCATCACCGCCGACAATGTGTTCGACGCGATCGTCGCCACGCTGCCGTGGGGCGTGGACGTTTCCAGCGGCATCGAACTGTCGCCGGGCATCAAGGACGGCCACCGCATGCGTCGCTTCGTCGAGGAAGTGCGGCGCGCCGATTGCCACGAGATGTCCTGA	MNRTLYRTRIKFCGLTRAGDIRLAGELGVDAVGFVFAHGSPRRVAPTEARAMRQAIAPMVDVVALFRNNAKDEVREVLRTVRPTLLQFHGEEDDAFCRSFNLPYLKAIPMGGSGEVNARTLQLEFPNASGFLFDSHAPGTSGGSGLAFDWSRLPTGLHRPFLLAGGITADNVFDAIVATLPWGVDVSSGIELSPGIKDGHRMRRFVEEVRRADCHEMS	PGPT0007115_1002	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
BMS020_04414	687			hypothetical protein	ATGGCCGAATTCTTCAGGGTCGCGTTGGCCTATCCGACGCTTGCATACAGCATTCTGCTCGGCTTCGCCGTGGCCTACTGGCTGCTGGCGGCGACCGGCCTGGTCGACCACGATGTCGACGGCGACGCGTTCCCCGACCCACACGACCACGGCGCACACGGCGTGTCCGGCATCTTCGCCCGCCTCGGGCTCGGCGGTGCGCCGGTGATGCTGGTGATCGCGCTGCTGGCGTTCTTTGGCTGGACGCTGACCTATTTCGTGCACCTGCTTTTGCTGCAGGCCTTGCCGGGCCCGCTGCGCTGGGGCCTGGGCACGCTGGTGGGGCTGCTGGCGCTGGTGCCGGCAGTGCCGCTGTCGGCCTGGGCGCTGCGCCCGTTCCGGCGCCTGATGCTGCGCCTGCGGCCGGTGCCCCAGGCCTCGCTGCTGGGCCGCGAAGGCATCGTGGTGTCGCCCGAGGTGAGCGCCATTGCCGGGCGCGCGAGCGTCGACGATGGCGGCGCCGGCCTGCTGCTGCAGGTGCGCGCACTCGAAGGCGCACGCCATCCGCGCGGCGCGCGCGTGCTGCTGCTCGACCACGATCCCGTCGGCAATACCTACCAGGTGGTCCCGGCCGAGGACACGCCTGCGCTCGGCGCACCCCATACCCGTCACAGCCCGGAGCCGGGCGATAAGGAGATCCACCGATGA	MAEFFRVALAYPTLAYSILLGFAVAYWLLAATGLVDHDVDGDAFPDPHDHGAHGVSGIFARLGLGGAPVMLVIALLAFFGWTLTYFVHLLLLQALPGPLRWGLGTLVGLLALVPAVPLSAWALRPFRRLMLRLRPVPQASLLGREGIVVSPEVSAIAGRASVDDGGAGLLLQVRALEGARHPRGARVLLLDHDPVGNTYQVVPAEDTPALGAPHTRHSPEPGDKEIHR				NA	NA	NA	NA	NA
BMS020_04415	2019			hypothetical protein	ATGAGTCTTGCCGCGTTGGCGCCGTTCCTGGTCGGGGTCGGCATCCTGCTGGTCTTGCTGCTGGGCGTGGCGGGCCTGTTCAAGGCCTTCTACCGCAAGGTCGACCAGGGCGTCGCCCTGATCGTCAACGACATGAGCTCGACGCCGAAGGTGCACTTCACCGGCGCCCTGATCGTGCCGGTGCTGTACCGCGCCGAGCTGATGCGGATCAGCCTGATCACGCTGCAGGTCGACCGCCGCGGCAAAGAAGGGCTGATCTGCCGCGACAACATGCGCGCCGACATCGCCGTGGCGTTCTACCTGCGCGTCAACGAGACCCAGGCCGATGTGCTGCGCGTGGCCAAGGCGATCGGCGCCGACCGCGCCTCGGACAAGGACGCGGTTGATGAGCTGTTCAACGCCAAGTTCTCCGAGGCGCTGAAGACGGTCGGCAAGAAGTTCGAATTCACCGAGCTGTTCGAGAAGCGCCAGGAATTCCGCGACGAAATCGTCGCGGTGATCGGCAACGACCTCAACGGCTACGTGCTCGAGGACGTGGCGATCGACTACCTGGAGCAGACCCCGAAGGCGCTGCTGGATCCGTCCAACATCCTCGACGCCGAGGGCATTCGCAAGATCACCGAGCTGACCGCGGCACAGAACGTGGTCACCAACGAGCTGTCGCAGAACGAGCGGCTGGCGATCACCAAGAAGAACGTCGAGGCGCGTGAGGCCACGCTGGCGCTGGAGCGGCAGCAGGCCGAGGCCGAGGCCCGGCAGAAGCGCGAGATCGAGACGATCCGTGCCCGCGAAGAGGCCGAGACCGCCAAGGTGCAGGAAGAACAGCGCCAGCTGGCCGAGAATGCGCGCATCGAGGCGCAGCAGCTGATCGACATCCGCGAGCAGAACCGCCTGCGCGAGGTCGAGGTGGCCGAGCAGAACCGCCAGCGCGCGGTCGCCATCGAGGCCGAGCGCGTCGCCCGCGCGCGCCAGCTCGAGCAGGTCACCACCGAGCGTGAGGTGCAGCTGCAGGGGGTGGAGCGCGACAAGGTGGTCGAGGTCGGCCGGATGGACGTGGCCAACATCACCCGCGAGCGCATCGCCATCGACAAGACCGTGGCCCAGGAAGAGGAACGCATCAAGGAGGTGCGCGAGGTCGCCGAGGCCGACCGGCAGAAGCAGGTCACCATCCTCGAGGCCGAAGCCAAGGCCCAGGAGGCGATGGTGCGCCAGGTCAAGGAAGCGCAGGCACGCGAGACCGCGGCCAAGCACCGTGCGGTCGAACTGACCACGCTGGCGCAGGCCGAGCAGGAGGCGGCGACGCGCCAGGCCGAGGCCAAGAAGGTGCTGGCCGACGGCGTGCGCGCCGAGAAGGCCGCCCCGGGCCTTGCCGACGCGCAGGTGCAGGAGGCGTCCGCGCTGGCGATCGAGAAGGTCGGCGTGGCCGAGGCGCGGGTGATCGAGGCCAAGGCCGAGGCCAGCCTCAAGCAGGGCACCAACGAGGCCAGGGTGCTGGCGGAGATGCTGCAGGCCAAGGCCAGCGGCGAGGAGCAGATGGGCCGGGCCAAGGCCAGCGCGACCGAGTCGCAGGGCAGCGCCGAGGCCGGCGTGATCGAGAAGAAGCTGCTGGCCGAGGCGCATGGCCTGACCAGCAAGTTCGAGGCGATCGGCGCGCTCAGCGATACCGCGCGTGGCCACGAGGAGTTCCGCATGATGCTGGACACCAGCCTGAAGCAGGCGCTGGCGTCGATCGAGGCCGGCAAGGAAGTCTCGCGCGAGAACGCCGAGGTCATCGCCACCGCGCTGCGCAATGCCGACATCGATTTGGTCGGCGGCGACGGCGGCATGTTCGACAACCTGGTCCGGGCGATGTCGCTGGGCAAGTCGATCGAAGGCCTGGTCGACAAGAGCCCGATCGTGCAGGACCTGATGCAGCGCTACCTCGGCGTGGCGCGGCCGGACAAGGCGCCGGCACGGCTGGACGGCGCCGGCCATGACGCCGTGCCGGTGGTCGCGTCGGTGAAGGTCGATCCGGCGTGA	MSLAALAPFLVGVGILLVLLLGVAGLFKAFYRKVDQGVALIVNDMSSTPKVHFTGALIVPVLYRAELMRISLITLQVDRRGKEGLICRDNMRADIAVAFYLRVNETQADVLRVAKAIGADRASDKDAVDELFNAKFSEALKTVGKKFEFTELFEKRQEFRDEIVAVIGNDLNGYVLEDVAIDYLEQTPKALLDPSNILDAEGIRKITELTAAQNVVTNELSQNERLAITKKNVEAREATLALERQQAEAEARQKREIETIRAREEAETAKVQEEQRQLAENARIEAQQLIDIREQNRLREVEVAEQNRQRAVAIEAERVARARQLEQVTTEREVQLQGVERDKVVEVGRMDVANITRERIAIDKTVAQEEERIKEVREVAEADRQKQVTILEAEAKAQEAMVRQVKEAQARETAAKHRAVELTTLAQAEQEAATRQAEAKKVLADGVRAEKAAPGLADAQVQEASALAIEKVGVAEARVIEAKAEASLKQGTNEARVLAEMLQAKASGEEQMGRAKASATESQGSAEAGVIEKKLLAEAHGLTSKFEAIGALSDTARGHEEFRMMLDTSLKQALASIEAGKEVSRENAEVIATALRNADIDLVGGDGGMFDNLVRAMSLGKSIEGLVDKSPIVQDLMQRYLGVARPDKAPARLDGAGHDAVPVVASVKVDPA				NA	NA	NA	NA	NA
BMS020_04416	5337			hypothetical protein	ATGGCAGGAAGCGAGATCGAGGCCGCCGCCGATGGCGCGGCCAGCGCGCAGGCGCAGGTGGACCAGGCGGTCGCGCAGGGCGGCGCCTACGAGGTGCTGCGCCGCCGCCTGGACGAGCAGGGCGCGAAGCTGCAGCAGGCGGTCGAGGCGCTCAACGCGCGCCGCCTGGCCGAATTCGGCGACAGCCGCCTGGATGTGGCCGGCCGGTTCCGCATCCGCAGCGAGAACAACTGCGTCGGGCGCGACATCGTGCAGGTCGGCAGCGACATGCTGCTGTTCGGCTACAACGTGTATCTGGGGCTGAAGACCCAGACCCGGATCGAGGACGTGTTCGGCCTGTACCGGCTGGCCGAGGGCGCCGACGGCTATGACGTGGTGCCGGTCGACATCGCTGGCAGCTTCCTCGGCCAGGCCGGGTTCGTCCACGATTTCGGCGAGCTGTACGCCTACTACAAGCACGCCCGCCTGCTGCAGCTGATCGTCACCGGCGGCAAGCTGCTGGCGGCGTTCCAGATCGGCGAGCGCAGCAGCGACATGCGGGTGTTCCGCTGGGAGGTCGCCGCCGACGGTGGCCTGGCCTATCTGGATGCGCGCGGTGAGCGCGACATCGCACCACCGCCGCCATTCGACTTCGAGTGGACCCGGGCCACGCGCGAGATGGCGGTCAACGGCCGCCATTCGCACCTGAACATCCTCGACACCTTGTTCGTGGAAACGCTGGGCGGCGACCTGACGGTCAAGGTCGAGAACAACACCGAGACCGGGCAGGGCATCTTCAGCGAACCGGTGGAGGACCGCACCCAGTCGCTGGACGACGCGCAGTTCGATTTCGCACGGGTCGGCGCGCTGATCCTGCTCAAGGTGCTGCCGTACCGCGAGAACCAGTGGCGCGGGCTGATCTACAACACCTTGACCGGCAGGATCGTCCGCAACGACGCGATCGTGCAGGCCTGCGTGCAGCTGCCGGAAGACCACGGGATCATCTTCCCGGGCGGCTACTACCTGCAGAACGGCGACAGCAAGGCGTTCGACGCCGGCATGGATGGCATGCAGTTCAAGCGTGCGATCCGCTCGCCCAACGGCGAGGACGTGCTGTACATCTTCTACGAGCGCGAGGCCGGGCGCTCGGCGCTGTTCGTCTACAACACCATCCGCCGGGCGCTGCAGAACCCGGTGTTCGGGCATGGCTATGCGCTGCTGCAGGATGGGCGCATGGTGCTGTTCAACGCCGAGGGCGACGAGCCCACGCGCATCCATCCGATGCAGGTCTGGCGCACCCCGTTCACCAGCGACGAGTTCGCCGCCGACCGGGCGCCAAGCACGACCTTCCTCGGGCGCATTGGCAACGCCGAGCTGGTGCGGGGCATCTCCAACCTGCTGGGCGTTGCAAGGGCGATCGAGCAGGGCGAGGTCTCGGTGCAGCGCTACCAGCTGCTGGTGCAGGAGACCCGGCGGCTGTTCGACGCGCACCACTGGATCGACGATGCGCACTGCGACGGCGCGGCCGGCCTGTTGCGCGCGATCAGCGCCACCGGCGAGTCGGTGCTGGACGAATACGAGAAGGTGCAGTCGATCCGCCAGCAGTCGGAGCAGGCGATGGCGCAGGCGCGCGAGCGCCACAAGGCCCTGCTTGGCAGGCTGCAGCCGCAGAACTGGACGGTGGTCGGCGAGTACGTCGAGGCGCTCAATGCGGTCACGGCGTTGCGCGGGCACCTGCTGACGATCCGCGAATGCCGCTATATCGGCACCGATGAGATCGATGCGATGGGCGAGGCGCTGGCGCAGGCGCACGCGCGGGTTGGCGCCGCGACCGGCGAGTTCCTCGCCAGCGACGCCGCGCTGGCCCCGTTCAACGCGCGCCTGGCCGAACTGGATGCGGCCGCCCAGGCAGCGCCGACCGCGCGTGGGCTGGCCGAGCAGTTGCAGGCGATGCAGGCGATGTCGGCCGACCTGGACATGCTGTCCGAGCTGATGGCAGCGTTGAAGGTTGACGATCCTGCGGCGCGCACACGCGTGGTCGAGGCGATCTCCGAGGTCTACGCCCGGCTCAACCAGGCGCGCGCGCGCGCCGAACAGCGGCGCAGGACGCTGGGCTCGGCCGAAGCGGTGGCGCAGTTCGGCGCGCAGTTCGCGCTGTTCGGCCAGGCCATCACCAGCGCGCTGGCGCTGTCCACCGATCCGGAGCGTGCCGACGAGCAGCTGGCACGGCTGATGGTGCAGCTGGAAGAACTGGAGAGCCAGTTCGGCGAGCACGAGCAGTTCCTCGACGACATCCTGAGCAAGCGCGAGGAGCTGGTCGAAGCGTTCGAAGCGCACCGCCAGGCGTTGCTGGACGAGCGCCAGCGCAAGGCGCGTTCGGTGCTGGATGCGGCCACGCGCATCCTCGATGGCTTGGCCAAGCGCACCGAGCGCTTTGCCGGCGCCGACGAGCTCAACGCGTTCTTCGCCGGCGACCCGCTGATCCTCAAGCTGCGCGAACTGGCCGAGCGGTTGCGCGGCCATCGCGACAGCGTCAAGGCCGATGATGTCGAAGCACGGCTGAAGGCGATCCGCGACCAGGCCGTGCGTGCGCTGCGTGACCGCAGCGAGCTGTTCGAGGACGGCGGCAACGTGGTCAGGCTCGGGCCACGGCATCGTTTCAGCGTCAACACCCAGCCGCTGGACCTGACCCTGCTGCCACGCGAGGACGGCCTGGCGCTGCATCTGACCGGCACCGATTACTTCGAGTCGCTGCAGGATCCCGCGCTGGACGCGGCAAGGACCTATTGGCCGGTGACGCTGGATTCGGAGTCGCCCGCGCTGTACCGCGGTGAATACCTGGCCGGCACGATGCTGGAGGCGGCGCTGCAGGGACGCGAAGGGCAGGGGATTGCCGCGCTGAGGCACCTGGCCGCCGAGCCGGAGACGTTGGCGCGCGCGGTGCGCGATTTCGCCGCGCCGCGCTATCGCGATGGCTATGAGCGCGGCATCCACGACCATGACGCCGCGCTGCTGTTGCGCGCGCTGCTGCCGCTGCACCAGGCTGCCGGCAGCCTGGTGCATGCACCGGCGGCGCGCGCGTTGGCGATGGCGTTCTGGGTCGAACACCACCGGCGTGAGGATGTGGCCGCCTGGGGCGGGCGGCGTGCCAGTGCCGGTGCGATCGCCCAGCTGTTCGGTGCACGCACCGGTCTGGAGGCCCTGGCCGAGGACATGACGGCGGCAATCGCGGGCTACGCCGCGCGCAGCGCACTGCCGCTGCCGGCGGCGCTGGCCCCGGAGGCGGCGGCCTACCTCGGCGAGGAGCTCGCCGCCGGCGAGCCGACGTTCCGCTTCAGCCGGCATGCCCGCGAACTGCTCGAGGCGCTGCAGGCGCGGCTGATCGAGGCGGGACTGCGCGACGAATTCGAGCGCTCGCTGGAGCGGCAGCGCGGGCAGCTTGCGCAGGCCTGGGTGCAGGCTGGGCACTGGTTGCACGGCCTGTGCGCCGATCCGCGCCACGCCGGACAGGCCGCGTATGCCGATGAAGCCGCAGCGTTGCTGTTGCTGGCGCCGAAGCTGCGCAGCCAATCCAGCGAGGTGATCCTGCAGGTCACGGTCGAAGGCCTGCTCGGCCAGCATCCGCGCATCGATGGCGGACGCATGACGTTGTCGATCGACGGCTTCCTGGCCCGGCTGCACCAGCATGCGCAGGTGTTCGTCCCCGGCTTCCGCGACTACCAGGCGCGACGCCAGCAGGTGCTGGCGCGCGAACGCGAGCAGCTGCGACTGGGTGAATTCAAGCCGCGTCCGCTGTCTTCGTTCGTGCGCAACAAGCTGATCAACGATGTCTATCTCGGCCTGATCGGCGACAACCTCGCCAAGCAGATGGGCACCGCCGGCGAGAACAAGCGCAGCGACCTGATGGGCCTGCTGATGATGATCTCGCCACCCGGCTACGGAAAGACCACGTTGATGGAGTACGTGGCGCACCGGCTTGGCCTGGTCTTCATGAAGATCAACGGCCCGGCGCTCGGCCACGAGGTGCGTTCCCTGGATCCGGCGCAGGCGCCGGACGCGACCTCGCGCCAGGAGCTGGAGAAGCTCAACCTGGCCCTGGAAATGGGCAACAACACGATGCTGTATGTCGACGACATCCAGCACACCCATCCGGAATTCCTGCAGAAGTTCATCTCGCTGTGCGATGGCACGCGGCGGATCGAAGGCGTGTGGAAGGGGCGCACCCGCACCTACGACCTGCGCGGCAAGAAGTTCTGCGTGGTGATGGCCGGCAACCCGTATACCGAGTCCGGCGAGGTGTTCAAGATCCCGGACATGCTGGCCAACCGCGCCGACATCTACAACCTCGGCGACGTGCTCGGTGGCATGGAGGAGGCGTTCAAGCTCAGCTACATCGAGAACAGCCTGACCTCCAATCCGGTGCTGGCTCCGCTGGCGACCCGCGAGATGGCCGACCTGTACCTGCTGGTGGAGCGTGCGCAGGGCCGGGATGTCTCGACCAACGGACTGGCCCACGCCTACAGCGGCGCGGAGGTCAACGAGATCGTCGCCACGCTGCAGCGCATGCTGCAGGTCCGCGAGGTGGTGTACCGGGTCAACCAGCAGTACATCGCCAGCGCGGCGCAGGACGACCGCTACCGCACCGAGCCGCCGTTCCGGTTGCAGGGCAGCTACCGCAACATGAACAAGCTGGCCGAGAAGATTTCACCGGTGATGAACGAGGCCGAGCTGCAGCAGCTGGTCTCCGATCACTACCTGGGCGAGGCGCAACTGTTGACCGGCGGCGCCGAGGAAAACCTGCTGAAGCTGGGTGAATTGCGCGGCGTGCTGACCGTCGACGAGCAGGCACGCTGGGCGCAGATCAAGCGCGACTTCCTGCGCAACAAGGCGATGGGGGCCGACGAGGGCGATGTCGGCGGGCGTGTGGTCGCGCAGTTGGCCGACATCGCCAGCGGCCTGCAGGGCATGCGTGCCGAGCCGCTGCCCGCGCCGGCAGCAGCGGCGCCGTGGGAACAGCTGCTGGAGGCGCTGGACCGGCTGGCGCCGCGTGAGGCGCCGGTGGTGGTCGCCGATGGCGACGATGCTGGCATCGGGCTGGAGCAGGCGTTGGCGCCGTTGCTGGCCGCGCTGGCGCATTCGCAGCAGCATCAGGCGCGTGCGGGCGATGCGCTGGCGGCGCTGGTCGAACTGCTGCAGGCCCGCCTGGAGACCCTGGTTGCGCCAGTACAGCAGGTGCCGCTCGCACGGCGTGCCCGCACTGCTGCCGAGCGCAAGCTCGACGAAGCGCTGTTGCGTCACTTCTATGGCGAAGCAGCGGCGCGCGCCGATGCCGCCGGCGACGGGGTATCGAGCGGATGA	MAGSEIEAAADGAASAQAQVDQAVAQGGAYEVLRRRLDEQGAKLQQAVEALNARRLAEFGDSRLDVAGRFRIRSENNCVGRDIVQVGSDMLLFGYNVYLGLKTQTRIEDVFGLYRLAEGADGYDVVPVDIAGSFLGQAGFVHDFGELYAYYKHARLLQLIVTGGKLLAAFQIGERSSDMRVFRWEVAADGGLAYLDARGERDIAPPPPFDFEWTRATREMAVNGRHSHLNILDTLFVETLGGDLTVKVENNTETGQGIFSEPVEDRTQSLDDAQFDFARVGALILLKVLPYRENQWRGLIYNTLTGRIVRNDAIVQACVQLPEDHGIIFPGGYYLQNGDSKAFDAGMDGMQFKRAIRSPNGEDVLYIFYEREAGRSALFVYNTIRRALQNPVFGHGYALLQDGRMVLFNAEGDEPTRIHPMQVWRTPFTSDEFAADRAPSTTFLGRIGNAELVRGISNLLGVARAIEQGEVSVQRYQLLVQETRRLFDAHHWIDDAHCDGAAGLLRAISATGESVLDEYEKVQSIRQQSEQAMAQARERHKALLGRLQPQNWTVVGEYVEALNAVTALRGHLLTIRECRYIGTDEIDAMGEALAQAHARVGAATGEFLASDAALAPFNARLAELDAAAQAAPTARGLAEQLQAMQAMSADLDMLSELMAALKVDDPAARTRVVEAISEVYARLNQARARAEQRRRTLGSAEAVAQFGAQFALFGQAITSALALSTDPERADEQLARLMVQLEELESQFGEHEQFLDDILSKREELVEAFEAHRQALLDERQRKARSVLDAATRILDGLAKRTERFAGADELNAFFAGDPLILKLRELAERLRGHRDSVKADDVEARLKAIRDQAVRALRDRSELFEDGGNVVRLGPRHRFSVNTQPLDLTLLPREDGLALHLTGTDYFESLQDPALDAARTYWPVTLDSESPALYRGEYLAGTMLEAALQGREGQGIAALRHLAAEPETLARAVRDFAAPRYRDGYERGIHDHDAALLLRALLPLHQAAGSLVHAPAARALAMAFWVEHHRREDVAAWGGRRASAGAIAQLFGARTGLEALAEDMTAAIAGYAARSALPLPAALAPEAAAYLGEELAAGEPTFRFSRHARELLEALQARLIEAGLRDEFERSLERQRGQLAQAWVQAGHWLHGLCADPRHAGQAAYADEAAALLLLAPKLRSQSSEVILQVTVEGLLGQHPRIDGGRMTLSIDGFLARLHQHAQVFVPGFRDYQARRQQVLAREREQLRLGEFKPRPLSSFVRNKLINDVYLGLIGDNLAKQMGTAGENKRSDLMGLLMMISPPGYGKTTLMEYVAHRLGLVFMKINGPALGHEVRSLDPAQAPDATSRQELEKLNLALEMGNNTMLYVDDIQHTHPEFLQKFISLCDGTRRIEGVWKGRTRTYDLRGKKFCVVMAGNPYTESGEVFKIPDMLANRADIYNLGDVLGGMEEAFKLSYIENSLTSNPVLAPLATREMADLYLLVERAQGRDVSTNGLAHAYSGAEVNEIVATLQRMLQVREVVYRVNQQYIASAAQDDRYRTEPPFRLQGSYRNMNKLAEKISPVMNEAELQQLVSDHYLGEAQLLTGGAEENLLKLGELRGVLTVDEQARWAQIKRDFLRNKAMGADEGDVGGRVVAQLADIASGLQGMRAEPLPAPAAAAPWEQLLEALDRLAPREAPVVVADGDDAGIGLEQALAPLLAALAHSQQHQARAGDALAALVELLQARLETLVAPVQQVPLARRARTAAERKLDEALLRHFYGEAAARADAAGDGVSSG				NA	NA	NA	NA	NA
BMS020_04417	711			hypothetical protein	ATGAGCATCGGCGATGCGCAGACCTGGCCGTCGCCGCCGGAGGTGCCGCCGGCGGGCGACGATGCACGTGCCGCAGCCGCGTACGCGGAGACCCTGCTCGCCGCGGTGGTGGCGATGCGTGCGGCGTCCTTGGCGCAGCGTCCGGATGGCGTGGGCCTGGTGGGCGAGCTGGAGCGGATCCGCCAGGCCCTGCAGGCACGCGACCCGCGGACGATCCGGCGTCAGGCGGGCATGCTCGGACGGCTGCTGGGCAGCGATGTGGAGCGGCAGGCGCAGGCGGAGATGTTCGAACAACAGCTCGGCGTGACGCTGCTGCGTGCCGGCCACCAGGCGCAACGGCTCGAACGGGAGGTGGCGCGGCAGGCCACGCAGCCAGGCCTGCTCGATGATGCCGCGGCGATGCTGGAACGCTGGATCGCCGCGGCCGAGCTGCATGCGGCACGACCGGCCTGGTCGGGACGGCTGGACCACCTGCGCCGGCTGGCGCTGCTGTGGCGCGGCGAGGCTGCGCAGGAACAGCTGCTGCAGGCGCAGATGCAGGAGTTGCTGGCGCGCTATCTGCGGATCCGCGATGTGCTGCTGCCGGCCTGGCGCCAGGCCGCGCTGGCCGGGCAGGCCAACGATGGCGCGCAGGGGCTGATGCGCGCCGGCGAGGTGCACGATGGGATCGCCGCGGAGATCGCCGCGATGCAGGCTAGACTGCCGCGGTGA	MSIGDAQTWPSPPEVPPAGDDARAAAAYAETLLAAVVAMRAASLAQRPDGVGLVGELERIRQALQARDPRTIRRQAGMLGRLLGSDVERQAQAEMFEQQLGVTLLRAGHQAQRLEREVARQATQPGLLDDAAAMLERWIAAAELHAARPAWSGRLDHLRRLALLWRGEAAQEQLLQAQMQELLARYLRIRDVLLPAWRQAALAGQANDGAQGLMRAGEVHDGIAAEIAAMQARLPR	PGPT0025740_5476	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025740-ftsY-K03110	NA	NA
BMS020_04418	1095			TelA-like protein	ATGACGCAGGACAATCCGCTGGTTCCGCAGCTGCAGGCGGAGACGTTTGACGACGCGGCGCTGCAGGCGCTCGGGCTGGTCCCGGCCGACCGCGACGCGATCGCCGCTATCGCGCAGGGACTGCAGGACCTCAGCCCCGGGGCATTGCACGTGTTCGGCAGCGACGTGGCGGCGCAGACCGCGGCGTTCTCCAGCCAGCTGCTTGAACAGGTACGCAACCGCGACCTGGACGCGACCGGCGACAAGCTCGGCGAGGTCGTGCGCATCGCCCGCGAACTGCGCCTGGATCAGCTCGGCGAGCGCTCCAGGCTGCCGCTGATCGGCGGCCTGATCGACCGCATGCGCGCCTCCAAAGGCGAGCTGGTGCAGAAATTCAGCGACACCAACCGGCAGATCGAGCAGCTGCTGCGCGACATCGGCGCGCAGCAGGCGCAGCTCGGCCAGCGCATCGGCGAGTTCGACCGCATGCACACGATGGTGCGCGACGAACATCGCGTGCTCGGCCTGCACGTCGCCGCGGGAAAGCAGCGCCTGGCGGAGTTGCAGGCGGAGTTGGCGCAGGCGCACGGCGAGGACCCGCAGGTGCGGCAGCGCCGCGCCGAACTCGATGCGGCGGTGCGCTTGCTCGACAAGCGCGTGGGCGATCTGGTGGTGATGCGCCACGCCGCCGAACAGACCCTGCCGATGATCCGGCTGATCCAGGCCAACGCGATCCAACTGGTGGAGAAGTTCAACACCGTGCGCGACCTGACCATCCCGTCGTGGAAGCGCCAGTTCGCGATCCAGCTGTCGCTGGAGGAGCAGAAGAATGCCGCCGCGCTCTCCAATGCGATCGACGACGCGACCAACGACATCATGCGCCGTAACGCCGAACTGATGCGGCAGGCTTCGGTGGAGACCGCGCAGGCCAACCAGCGTGCGGTGATCGACGTGGAGACGCTGCGGCATGTGCACGAGCAGCTGATCGCCACGGTTGAAGAGGTGCGCGGCATCCATCGTCAGGGCATGGAGGAGCGCCGCCAGGCCGAGGTCGAGCTGGCCAGGCTTGGCGAGGAGCTGCGCCAGCGCCTGGCGGCACCGACCGCGCAGGCCTGA	MTQDNPLVPQLQAETFDDAALQALGLVPADRDAIAAIAQGLQDLSPGALHVFGSDVAAQTAAFSSQLLEQVRNRDLDATGDKLGEVVRIARELRLDQLGERSRLPLIGGLIDRMRASKGELVQKFSDTNRQIEQLLRDIGAQQAQLGQRIGEFDRMHTMVRDEHRVLGLHVAAGKQRLAELQAELAQAHGEDPQVRQRRAELDAAVRLLDKRVGDLVVMRHAAEQTLPMIRLIQANAIQLVEKFNTVRDLTIPSWKRQFAIQLSLEEQKNAAALSNAIDDATNDIMRRNAELMRQASVETAQANQRAVIDVETLRHVHEQLIATVEEVRGIHRQGMEERRQAEVELARLGEELRQRLAAPTAQA				NA	NA	NA	NA	NA
BMS020_04419	894	trpI		HTH-type transcriptional regulator TrpI	ATGAGCATGTCCCTGCTACCGCCACTCAACGCCTTGCGCGCCTTCGAGGCCGCCGCCCGCCTGGGGGGCGTGGGCCGCGCCGCCCAGGCCCTGCACGTGACCCATGGCGCGGTCAGCCGGCAATTGAAGCTGCTGGAAGACCATCTGGGACTGCCGCTGTTCCAGCGTGCGGGGCGCGGATTGCGCCTGACCCCCGCCGGTGAGCGGCTGCAGGCCGCATGTGGGCAGGCCTTCACCAGCATCGAAGACTGCGTGCGCGACCTGCGCCACCCCGCCCGCTCACCGGCACTGGTGCTGGGCTGCAGCGGCAGCGTGCTGGCGCGCTGGATGATTCCGCGCCTGCCCGCCCTGCAGGCGGCCTTGCCCGGGGTGAACCTGCAGTGGTCGGCCCTGGATGGCGCATTCACCGATGCGCAGGCGGCACTGGACGCGGTCCTGCTGTTGGCGCACCCGCCATGGCCGCGCGGCTGGCAGGTCCGCGAACTGGCGCCGGAACGGGTGGGCGTGGTGCTGTCGCCGGCATGCCCGGCCGCATCGCGGCTGCGCCAATGCCCGCCATCGGCGCTGCTGCAGGAAACGCTGCTGCACACCAGCTCACGCGCCCAGGCGTGGCCGGCCTGGGCCCAGGCGCACGGGCTGGACCCGGCGCAGCTGCGGCTGGGCACCGGATTCGAGCATCTGTATTACCTGCTGGAAGCGGCCGTCGCCGGCCTGGGCCCGGCGATCGCACCGGAGCCACTGGTGGCCGGGGACCTGGCCGCTGGACGCCTGGTCGCCCCCTGGGGCTTCTCCGCCACAGGCGGGTTCTGGGTGCTGGCGCGGCCTGACGGCGCCGACGATGCGCGCGTGGATGCGCTGGCGCGCTGGGCCAGCGGGCAGCTCCACAGCGTCTGA	MSMSLLPPLNALRAFEAAARLGGVGRAAQALHVTHGAVSRQLKLLEDHLGLPLFQRAGRGLRLTPAGERLQAACGQAFTSIEDCVRDLRHPARSPALVLGCSGSVLARWMIPRLPALQAALPGVNLQWSALDGAFTDAQAALDAVLLLAHPPWPRGWQVRELAPERVGVVLSPACPAASRLRQCPPSALLQETLLHTSSRAQAWPAWAQAHGLDPAQLRLGTGFEHLYYLLEAAVAGLGPAIAPEPLVAGDLAAGRLVAPWGFSATGGFWVLARPDGADDARVDALARWASGQLHSV	PGPT0026360_1427	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS020_04420	1218	trpB_1	COG0133	Tryptophan synthase beta chain	ATGCCTGTCTCCTCGATTGCCGACTATCACGCCTTCCCGGATATGGAGGGCCACTTCGGCCGCTATGGCGGCCGCTTCGTCGCCGAAACCCTGATCGGGCCGCTGGAGGAGCTGGCCGCCGCCTACGACGCCGCGCGCGCCGATCCGGCCTTCATCGCCGCCTACGACAAGGACCTCAAGCACTACGTCGGCAGGCCCAGCCCGATCTACCACGCCGAGCGGCTGAGCCGCGAAGTCGGCGGTGCGCAGATCCTGCTCAAGCGCGAGGACCTGAACCACACCGGCGCGCACAAGATCAACAACACCATCGGCCAGGCGCTGCTGGCCAGCCGCATGGGCAAGACCCGGATCATCGCCGAGACCGGCGCCGGCCAGCATGGCGTGGCATCAGCCACCGTGGCGGCGCGGCTGGGGCTGGAATGCGTGGTCTACATGGGCGCCACCGACATCGAGCGGCAGAAGATCAACGTCTACCGGATGAAGCTGCTCGGCGCGACCGTGGTGCCGGTGACCTCCGGTTCGGCGACGCTGAAGGACGCGCTCAACGAGGCGATGCGCGACTGGGTCACCAATGTGCGCGACACCTTCTACATCATCGGCACCGTCGCCGGTCCCGATCCGTATCCGCGCATGGTGCGCGACTTCAACGCGATCGTCGGCCGCGAGGCGCGCGCGCAGATGCTGGAGGACTACGGCCAGCTGCCGGACGCGATCACCGCCTGCGTCGGCGGCGGCAGCAACGCGATCGGTCTGTTCCATGCGTTCCTCAACGATCCGGGTGTGGCGATCTACGGCGCCGAAGCGGCCGGTGATGGCATCACCACCGGTCGCCATGCCGCGTCGATCGCCGCCGGGCGCCCGGGCGTGCTGCACGGCAACCGCACCTACGTGATCTGCGACGACGACGGCCAGATCATCGAGACCCATTCGGTGTCGGCCGGCCTGGACTACCCGGGTGTCGGCCCCGAGCACGCGTTCCTGGCCGATACCGGCCGCGCCACTTATCTCGGCGTCACCGACGACGAGGCGCTGGCCGCGTTCCATCTGCTGGCGCATACCGAGGGCATCCTCGCCGCGCTCGAGTCCAGCCACGCGGTCGCGCAGGCGATCAAGCTGGCGCGCGACCTGCCCAAGGACAAGCTGGTGCTGTGCAACCTGTCCGGGCGAGGCGACAAGGACGTGCACACGATCGCGGCGCGCGAAGGCATCGTGTTGTGA	MPVSSIADYHAFPDMEGHFGRYGGRFVAETLIGPLEELAAAYDAARADPAFIAAYDKDLKHYVGRPSPIYHAERLSREVGGAQILLKREDLNHTGAHKINNTIGQALLASRMGKTRIIAETGAGQHGVASATVAARLGLECVVYMGATDIERQKINVYRMKLLGATVVPVTSGSATLKDALNEAMRDWVTNVRDTFYIIGTVAGPDPYPRMVRDFNAIVGREARAQMLEDYGQLPDAITACVGGGSNAIGLFHAFLNDPGVAIYGAEAAGDGITTGRHAASIAAGRPGVLHGNRTYVICDDDGQIIETHSVSAGLDYPGVGPEHAFLADTGRATYLGVTDDEALAAFHLLAHTEGILAALESSHAVAQAIKLARDLPKDKLVLCNLSGRGDKDVHTIAAREGIVL	PGPT0007075_2303	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
BMS020_04421	522			hypothetical protein	GTGAACCGCGCGCGGGTGCTCGTGATCGCAGGATTGTGGCTCTGTGCGCAGGGTGCCGCAGCCCAGGACCGGGGGGAGGCCGCCGTCGGCGGGTTCCACATCGGTGATGCGGTGGACGTGACCCGGCTTGGCGCTGGTTGGGAGGTGGCGGGGCTGGAAAACCCGGCGACGTGCGCGCAGGTCCATGGTGGGACGTTGCCGGAGGGCGTGAGCATGATGCTGCTGGACGGGCGCGTCGCGCGGTTCGAGATCGGGCTGTCGGGGGCGCCGGATGAGGCGGCGTTTGCGGTTTCGCCGTATGGCCTGCGGCTGGGCATGTCGCTCTCCGAGGCCGGAAGACGGTTCCCCGATGAATCCCTTGAGCTGCTGCCGCACAGCTATGCCTGGCCCCCGGGCATCTACCTGACCTGGCGCGACGAGCGTGCAGGCCGTGGCGTTCGCGTCGAAATTCCAGAAAACACCGTGGCCGTCGTCCTATGGGGGACGGCCGACGCCGTCCAGTTGGTCGAGGGATGCGCATGA	MNRARVLVIAGLWLCAQGAAAQDRGEAAVGGFHIGDAVDVTRLGAGWEVAGLENPATCAQVHGGTLPEGVSMMLLDGRVARFEIGLSGAPDEAAFAVSPYGLRLGMSLSEAGRRFPDESLELLPHSYAWPPGIYLTWRDERAGRGVRVEIPENTVAVVLWGTADAVQLVEGCA				NA	NA	NA	NA	NA
BMS020_04422	807	trpA_1	COG0159	Tryptophan synthase alpha chain	ATGAACCGTATCCAGACCTGCTTCACTTCGCTTGCCGCCGCTGGTCGCAAGGCCCTGATCCCGTTCATCACCGCCGGCGATCCCTCGCTGGAAGCGACCGTGCCGCTGATGCATGCGCTGGTGCGCGCCGGTGCCGACGTGATCGAGCTTGGCGTGCCGTTCTCCGACCCGATGGCCGATGGCCCGACGATCCAGCGCAGCTCCGAGCGCGCGCTCGGCCGGGGCGCCGGGCTGGCGTACGTGCTGGAGGCGGTGCAGGAATTCCGCCGCGAGGACGCCCGGACCCCGGTGGTGCTGATGGGCTATCTCAATCCGGTGGAGATCCATGGCACCGCACGCTTCGCCGAGGCCGCGGTGGCTGCCGGCGTGGACGGCGTGCTGCTGGTCGACCTGCCGCCGGAGGAGGCGGCCGAAACCCGGCAGATCTTCGATGCGGCCGGGCTGGACCTGATCGTGCTGGCGTCGCCGACCACCACCGATGCGCGCATGAACACGCTGTGCACCACCGCGCGTGGCTACCTGTATTACGTCAGCTTCGCCGGCGTGACCGGGGCTGCCGACCGCCTCGATACCCAGGCCGCCAGCGAGCGGCTGCGGCGGATCCGCGCGCAGTCGCAGGTGCCGGTGGTGGCCGGGTTCGGCATCAAGGACGCCGCCAGTGCCGCGGCGATGGCGGTCGATGCCGATGGCGTGGTGGTGGGCAGCGCGCTGGTCGCCGCGCTGGCCGATGCCGACGAGGTGCGCACCGCGCGCGAACGCGCCGAGGCGTTCCTGCGCCCGCTGCGCGAGGCGCTCGACGCCGGTTGA	MNRIQTCFTSLAAAGRKALIPFITAGDPSLEATVPLMHALVRAGADVIELGVPFSDPMADGPTIQRSSERALGRGAGLAYVLEAVQEFRREDARTPVVLMGYLNPVEIHGTARFAEAAVAAGVDGVLLVDLPPEEAAETRQIFDAAGLDLIVLASPTTTDARMNTLCTTARGYLYYVSFAGVTGAADRLDTQAASERLRRIRAQSQVPVVAGFGIKDAASAAAMAVDADGVVVGSALVAALADADEVRTARERAEAFLRPLREALDAG	PGPT0007070_1296	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
BMS020_04423	894	accD_2	COG0777	Acetyl-coenzyme A carboxylase carboxyl transferase subunit beta	ATGAGCTGGCTCAGCAAACTGATGCCGTCGGGCATCCGCACCGACAACACCCCGAGCAAGAAGCGCAGTGTCCCCGAGGGGCTGTGGGAAAAATGCAGCAGCTGCGGCGCGGTGTTGTACCGGCCGGAGCTGGAGGAGAACCTGGAGGTCTGCCCGAAGTGCAGCCACCACATGGCGATCCGCGCGCGTGCGCGCCTGGCGTCGCTGTTCGATGCCGGCAGCACCACCGAGATCGCCGCCCAGCTGGGCCCGACCGACGTGCTCAAGTTCAAGGACCAGAAGAAGTACGGCGACCGGATCAAGGCCACGCAGAAGAGCACCGGCGAATACGATGCGCTGATCGCGATGCGCGGCCTGCTCAAGGGGCGTCCGCTGGTGGCCTCCTCGTTCGACTTCGCCTACATGGGCGGTTCGATGGGCTCGGTGGTCGGCGAGCGGTTCGCCCGCGCCGCCGAAGTGGCGCTGGAACTGGGCTGCCCCTACGTGTGCTTCTCCGCCAGCGGCGGCGCGCGCATGCAGGAAGGCCTGTTCTCGCTGATGCAGATGGCCAAGACCTCCGCAGCGCTGGGTCGCCTGCGCGAGGCGGGTCTGCCTTACATCTCGGTGCTGACCCATCCGACCACCGGTGGCGTGTCGGCCTCGTTCGCGATGCTGGGCGACATCAACATCGCCGAGCCGCAGGCGCTGATCGGGTTCGCCGGTCCGCGCGTGATCGAGCAGACCGTGCGCGAGAAGCTGCCGGAAGGCTTCCAGCGCTCTGAATTCCTGCTCGAGCACGGCGCGATCGACCAGATCTGCGACCGCCGCGAGATGCGCGACCGCATCGCCGAGCTGACCGCGATGATGATGCGCCAGCCGCAGCCGGACGCGCAGCCGGCGCCGAGCGCGGCATGA	MSWLSKLMPSGIRTDNTPSKKRSVPEGLWEKCSSCGAVLYRPELEENLEVCPKCSHHMAIRARARLASLFDAGSTTEIAAQLGPTDVLKFKDQKKYGDRIKATQKSTGEYDALIAMRGLLKGRPLVASSFDFAYMGGSMGSVVGERFARAAEVALELGCPYVCFSASGGARMQEGLFSLMQMAKTSAALGRLREAGLPYISVLTHPTTGGVSASFAMLGDINIAEPQALIGFAGPRVIEQTVREKLPEGFQRSEFLLEHGAIDQICDRREMRDRIAELTAMMMRQPQPDAQPAPSAA	PGPT0001710_1563	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
BMS020_04424	1359	glmM_2	COG1109	Phosphoglucosamine mutase	ATGAGCGCGCGGCGCTATTTCGGCACCGATGGCATCCGTGGGCGGGTCGGCCAGGGGCCGATCTCGGCTGATTTTGTGCTGCGCCTGGGCAATGCGCTGGGGCGGGTGCTCGGCGAGCGCCGCGGCAAGCGGCCGATGGTGCTGATCGGCAAGGACACGCGCATTTCCGGGTACATGTTCGAGGCGGCGCTGGAAGCCGGGCTGGTCGCCGCCGGCGCCGACGTGCAGCTGATCGGGCCGATGCCGACCCCGGCGATCGCGTTCCTGACCAATACCCTGCGCGCCGATGCCGGCATCGTCATCAGCGCCTCGCACAACCCGCATTACGACAACGGCATCAAGTTCTTCTCCGCCGAGGGCGAGAAGCTCGACGACGCCACCGAGCTGGCGATCGAAGCGGCGCTGGACGCGCCGTTCCTGACCGTGGAATCCGAGGCGCTGGGCAAGGCCTCGCGCGCACGCGATGCGATCGGCCGCTACATCGAGTTCTGCAAGGCCAGCGTGCCGCGTGGTTTCCACCTGCGCGGGATGAAGATGGTGCTGGACTGTGCGCACGGCGCGACCTACCACATCGCGCCGATGCTGTTCCGCGAGCTTGGCGCGCAGGTCACCGTGATCGGCGCCGCGCCCGATGGGCTGAACATCAACGATGGGGTCGGTTCGACCCATATCGACAACCTTGCCGCCAAGGTGCGCGAGGTCGGCGCCGATCTCGGCATCGCCTTCGATGGCGATGGTGACCGCGTGCTGATGGCCGACGACCAGGGCAACCCTGTCGACGGCGACGACCTGCTGTACGTGCTCGCCCGGGCCTGGCAGGCCGGCGGCCGCCTGCAGGGGCCGGTGGTCGGCACGCTGATGACCAACTACGGGTTGGAGAAGGCGCTGGCGGCGCTGGAGATCCCGTTCCAGCGCGCCAAGGTCGGCGACCGTTACGTGCACCAGGCGCTGGTCGAGGGCGATGGCACGCTCGGTGGCGAGACCTCCGGGCACTTGCTGTGCCTGGACCGCGCCACCACCGGCGACGGCATCGTCAGTGCGCTGCAGGTGCTGGAAGCGCTGCGTACGGGTGATTGCAGCCTGCGCCAGGCGCTCGCAGGCCTGCAGAAGGTCCCGCAGAAGACCGTCAACGTGCGTCTCGATGGCGCCGACGCCAAGCGCGCGGTGGCCGATGCTGCGGTGCAGGCTGCGCTGGCCCAGGCCCAGGCCGCGGTGCAGGGCAGGGGGCGCGCGTTCCTGCGTCCGTCCGGGACCGAGCCGGTGGTGCGGGTCACGGTCGAAGCCGGCGATGCGGCGCTGATGCAGTCCACCCTGGACAGCCTCGCCGACGTGGTGCGCAGCGCCGCCGCGGCGGCCTGA	MSARRYFGTDGIRGRVGQGPISADFVLRLGNALGRVLGERRGKRPMVLIGKDTRISGYMFEAALEAGLVAAGADVQLIGPMPTPAIAFLTNTLRADAGIVISASHNPHYDNGIKFFSAEGEKLDDATELAIEAALDAPFLTVESEALGKASRARDAIGRYIEFCKASVPRGFHLRGMKMVLDCAHGATYHIAPMLFRELGAQVTVIGAAPDGLNINDGVGSTHIDNLAAKVREVGADLGIAFDGDGDRVLMADDQGNPVDGDDLLYVLARAWQAGGRLQGPVVGTLMTNYGLEKALAALEIPFQRAKVGDRYVHQALVEGDGTLGGETSGHLLCLDRATTGDGIVSALQVLEALRTGDCSLRQALAGLQKVPQKTVNVRLDGADAKRAVADAAVQAALAQAQAAVQGRGRAFLRPSGTEPVVRVTVEAGDAALMQSTLDSLADVVRSAAAAA	PGPT0018950_2076	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
BMS020_04425	939	vldW_4		Validamycin A dioxygenase	ATGAGTTCGCGCATTCCCACCCTCGACATCACCCGCTTCGATACCGACCGCGAGGCCTTCGTCGCCGAGCTCGGCGCGGCCTATCGCGAGTGGGGCTTCGCCGGCATCCGCAACCATGGCATTCCGCAGGCCGAGATCGACCGCGCCTATGCCGCGTTCCAGGCATTCTTCGCGCTGCCGGACGAGGTCAAGAAGCAGTACCACCTGCCGGGCAGTGGCGGTGCGCGCGGCTACACCGCGTTCGGCGTGGAGACCGCCAAGGACTCCAAGTACTTCGACCTGAAGGAGTTCTGGCACATCGGCCGGGAGATCGCCGACGACTCCAAGTACCGCGCGGTGATGCCGGCCAACCTGTGGCCGACCGAGGTGGAGGGCTTTCGCGAAGCCGGCTACGGGCTGTACCAGCGCCTGGACCAGCTCGGCGCCAAGGTGCTGTCGGCGCTGGCGCTGCACATCGGCCTGGCCGAGGACTACTTCGCCGACAAGACCAACAGCGGCAACTCGATCCTGCGTCCGATCCACTACCCGCCGATCACCGCCGACGACATCCCCAACGTGCGCGCCGGCGCGCACGAGGACATCAACCTGATCACCCTGCTGGTCGGTGCCAGTGCCGCCGGGCTGGAAGTGAAGTCCAAGCAGGGCGAGTGGGTGCCGTTCACCTCGGATGCCGACACCATCGTCGTCAACATCGGCGACATGCTGCAGCGCCTGACCAACCACGTGTATCCGTCGACCACCCATCGGGTGGTCAATCCGCCGGGTGAGGAGGCGCGCAAGCCGCGCTATTCGGTGCCATTCTTCCTGCACCCGAACCCGGATTTCCTGATCGACGTGCTGCCGTCGACGGTCACTGCCGACAATCCGAGCCGCTACCCGGAGCCGATCACCGCCCAGGGCTACCTCGAAGAGCGCCTGCGCGAGATCAAGCTCAAGTAA	MSSRIPTLDITRFDTDREAFVAELGAAYREWGFAGIRNHGIPQAEIDRAYAAFQAFFALPDEVKKQYHLPGSGGARGYTAFGVETAKDSKYFDLKEFWHIGREIADDSKYRAVMPANLWPTEVEGFREAGYGLYQRLDQLGAKVLSALALHIGLAEDYFADKTNSGNSILRPIHYPPITADDIPNVRAGAHEDINLITLLVGASAAGLEVKSKQGEWVPFTSDADTIVVNIGDMLQRLTNHVYPSTTHRVVNPPGEEARKPRYSVPFFLHPNPDFLIDVLPSTVTADNPSRYPEPITAQGYLEERLREIKLK				NA	NA	NA	NA	NA
BMS020_04426	756	tpiA_2	COG0149	Triosephosphate isomerase	ATGCGCCGAAAGATCGTGGCGGGGAACTGGAAGCTGCACGGCACCCGTGCGTTCGCCCATGCGCTGGTCCGCGAGGTCGTGGCCGGGTTGCCGCTGGACGGGGTCGACGTGATCGTGATGCCGCCGCTGCCGTACCTGGGCGACCTGATCGAGGACTTCGAGGACCACCCGATCGGGTTTGGCGCCCAGAACGTCAGCAGCAACGAGATCGGCGCCTACACCGGCGAGGTCTCCGCGGCGATGCTGGTGGATGTCGGGGCCAGCTACGGCCTGGTCGGCCACTCCGAGCGCCGGGAGCATTACAGCGAGGACAGCGAACTGGTCGCGCGCAAGTTCCGTGCCGCGCTCAATGCCGGGCTGTGCCCGATCCTCTGCGTGGGCGAGACCCTGGCCCAGCGCGAGGCCGGGCAGGCCGAGCAGGTGATCGCGTCGATGCTGGCGCCGGTGCTGGACCTGGTCGGAGCCGAGGGCATGGGCTGTGGCATGGTGGCCTACGAGCCGGTCTGGGCGATCGGGACCGGGCAGTCCGCCTCGCCGGCCCAGGCCCAGGCCATGCACGCCTTCATTCGTGGCGAAGTGCGCCGCCACGATGCTAGAATCGCCGATTCGCTGCCGATCCTGTACGGAGGCAGCGTGAAGCCCGGCAATGCGGCCGACCTGTTCTCGCAGCAGGACATCGATGGCGGGCTGGTGGGTGGTGCGTCGCTGGTGGCTCAGGATTTCCTTGCCATCGCGCAGGCGGCCGCCGGGCGCTAA	MRRKIVAGNWKLHGTRAFAHALVREVVAGLPLDGVDVIVMPPLPYLGDLIEDFEDHPIGFGAQNVSSNEIGAYTGEVSAAMLVDVGASYGLVGHSERREHYSEDSELVARKFRAALNAGLCPILCVGETLAQREAGQAEQVIASMLAPVLDLVGAEGMGCGMVAYEPVWAIGTGQSASPAQAQAMHAFIRGEVRRHDARIADSLPILYGGSVKPGNAADLFSQQDIDGGLVGGASLVAQDFLAIAQAAAGR	PGPT0017995_3507	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
BMS020_04427	420			hypothetical protein	ATGCTGATGTTGATCCTCAATGTGGTCTACGTGCTGGTGGCGATCGCGATGATCGCGCTGATCCTGATGCAGCGCGGCGCAGGTGCCGCCGCTGGCTCGGGCTTCGGTGCCGGTGCCTCCGGTACGGTGTTCGGTTCGCGTGGCGCCTCGAACTTCCTGTCCAAGAGCACCAAGTGGCTGGCTGTGGTGTTCTTCGGCATCAGCCTGTTCATGGCGTGGTACGCCAGCCATGGCCAGCGTCCGGCCGGGCAGGGGCTGGGCGTGATGTCCCAGGCCGCCGAGCAGGTGCCGGCCGCCCCGGCCGGTGAGATGGCCCAGCCGTTGCCGCAGGCTCCGGCCGCCGATGCCGTGCCGACCGCGCCGGTCGACGCCGCTCCGGCCAGTGAAGAAAAAGCTTCAGAACCAGCACAAAAAGACTGA	MLMLILNVVYVLVAIAMIALILMQRGAGAAAGSGFGAGASGTVFGSRGASNFLSKSTKWLAVVFFGISLFMAWYASHGQRPAGQGLGVMSQAAEQVPAAPAGEMAQPLPQAPAADAVPTAPVDAAPASEEKASEPAQKD	PGPT0025720_240	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025720-secG-K03075	NA	NA
BMS020_04429	357	ndhC_2		NAD(P)H-quinone oxidoreductase subunit 3	GTGCTGGCCGAATATTTGCCGAGTCTGCTCTTCCTGGTCGTCGCCACCGGTATCGGCATCACGCTGATGCTGATCGGTCGGTTCCTCGGCCCCCGTAGTCCCGATGCGCAGAAGCTGTCCGCCTATGAGTGCGGCTTCGAGGCCTTCGAGGATGCGCGCATGAAGTTCGATGTGCGCTACTACCTGATCGCGATCCAGTTCATCGTCTTCGATCTGGAAATCATCTTCATCGTGCCCTGGACTCAGGTCTTCATGGATATCGGCCCGCGTTCGCTGGTCACCATGGGCCTGTTCGTCGGCATGCTGTTCCTCGGTTTTATCTACGTCTGGAAGAAGGGAGCGCTGGAATGGGAGTGA	MLAEYLPSLLFLVVATGIGITLMLIGRFLGPRSPDAQKLSAYECGFEAFEDARMKFDVRYYLIAIQFIVFDLEIIFIVPWTQVFMDIGPRSLVTMGLFVGMLFLGFIYVWKKGALEWE	PGPT0026780_2642	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026780-nuoA-K00330	NA	NA
BMS020_04430	555	nuoB_2	COG0377	NADH-quinone oxidoreductase subunit B	ATGGGAGTGATTCAGACCCTCGATCGTCTGATGACCAACCCGATCCCGGAAGGTCGGGTCGACGACATCCTGCGCCCGGAAGGCGAGAACCCGTTGCTCGAGAAGGGCTACGTGACCACCAGCGTCGATGCGCTGCTCAACTGGGCGCGTACCGGTTCGATGTGGCCGATGACCTTCGGTCTGGCCTGCTGCGCGGTCGAGATGATGCACGCTGGCGCCGCGCGCCTGGACCTGGACCGCTACGGCGTGGTGTTCCGCCCGTCGCCGCGCCAGTCCGACGTGATGATCGTCGCTGGCACCCTGGTCAACAAGATGGCCCCGGCGCTGCGCAAGGTCTACGACCAGATGCCGGACCCGAAGTGGGTCATCTCGATGGGCAGCTGCGCCAACGGTGGCGGCTATTACCATTATTCGTACTCGGTGGTGCGCGGTTGCGATCGCATCGTGCCGGTGGACGTCTACGTCCCGGGCTGCCCGCCGACCGCCGAGGCCCTGGTCTACGGCATCCTGCAGCTGCAGAAGAAGATCTGGCGAACCCAGACCATCGCGCGCTGA	MGVIQTLDRLMTNPIPEGRVDDILRPEGENPLLEKGYVTTSVDALLNWARTGSMWPMTFGLACCAVEMMHAGAARLDLDRYGVVFRPSPRQSDVMIVAGTLVNKMAPALRKVYDQMPDPKWVISMGSCANGGGYYHYSYSVVRGCDRIVPVDVYVPGCPPTAEALVYGILQLQKKIWRTQTIAR	PGPT0026785_1434	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026785-nuoB-K00331	NA	NA
BMS020_04431	756	ndhJ		NAD(P)H-quinone oxidoreductase subunit J, chloroplastic	ATGGCAGAGCAAGCATCCCCCTTCACCGATCGACTCAGTGCGCGGTTCGCCGGTGCACGGGTCACCGTGGCCGAACCGCGCGGCGAAGTGTCGCTCGAGGTTCCTTCCGCCGACTGGCACGCCGTCTGCCTGGCGCTGCGCGACGAATTCGGTTTCGAGCAGCTGTCCGACCTGTGCGGAGTTGACTACCTAGGCTATGGCAGCGCCGAATGGGACACCAGTGACGTTTCGTCGCAGGGGTTCAGTCGCGGCGTCGAGGGCAAGGCCGTGGGGCGTTTCGCCTGGGGCGAGTTCCCGTCCGAGGAAAGCGGCGACGCCGGCGCCGAGCCGCAGCAGATGCCGCAGCAGCGCTTTGGCGTAGTCGCGCAGCTGCGCTCGTACCAGCACAACCTCGCGCTGCGCGTGCGCTGCTTCGCGCCGAGCGACGAGCTGCCGGTGGTGGCGTCGGTCTGTGACATCTGGCCGGGCGTGAACTGGTTCGAGCGCGAAGCGTTCGACCTGTTCGGCATCATCTTCGCCGGTCATCCGGACCTGCGCCGCATCCTGACCGACTACGGTTTCGTCGGCCACCCGTTCCGCAAGGACTTCCCGCTGATCGGCAACGTCGAAGTGCGTTACGACGAGGAGAAGAAGCGCGTGGTGTACGAGCCGGTCACCTCGGTCGAGCCGCGCGTGAACGTGCCGCGGGTCATCCGCGACGACGCGCGCTACCAGACTGCGGCCGGCGAGGCCGCGCAGACGGAGGCCGCCAAGTGA	MAEQASPFTDRLSARFAGARVTVAEPRGEVSLEVPSADWHAVCLALRDEFGFEQLSDLCGVDYLGYGSAEWDTSDVSSQGFSRGVEGKAVGRFAWGEFPSEESGDAGAEPQQMPQQRFGVVAQLRSYQHNLALRVRCFAPSDELPVVASVCDIWPGVNWFEREAFDLFGIIFAGHPDLRRILTDYGFVGHPFRKDFPLIGNVEVRYDEEKKRVVYEPVTSVEPRVNVPRVIRDDARYQTAAGEAAQTEAAK	PGPT0026790_497	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026790-nuoC-K00332	NA	NA
BMS020_04432	1308	nuoD	COG0649	NADH-quinone oxidoreductase subunit D	GTGAGCGAGTTCCACCAGGCCCACGAAGCCTTCGCGAGCAATCCTGCCGAAGCCCGGCAGGAGATCCGCAATTACACGATGAACTTCGGCCCGCAGCATCCGGCCGCGCACGGCGTGCTGCGCCTGATCCTGGAGATGGATGGCGAGACCGTGGTCCGCGCCGATCCGCACATCGGCCTGCTGCACCGTGGTACCGAGAAGCTGGCCGAGTCCAAGCCGTTCAACCAGTCGATCGGCTACATGGATCGCCTGGACTACGTGTCGATGATGTGCAACGAGCACGCCTACGTGCGCGCGATCGAGACCCTGATGGGGATCGAGGCGCCTGAGCGCGCGCAGTACATCCGCACGATGTTCGACGAGATCACCCGCATCCTGAACCACCTGATGTGGGTCGGTTCCAATGCGCTCGATCTCGGCGCGATGGCGGTGATGCTGTACGCGTTCCGCGAGCGCGAAGAGCTGATGGACGTCTACGAGGCGGTCAGCGGCGCGCGCATGCACGCGGCCTACTACCGTCCGGGCGGCGTATACCGCGATCTGCCGGACCGCATGCCGAAGTACAAGGAATCGCGTTGGCACAAGGGCGGGGCGCTGAAGAAGCTCAATGCTGCCCGCGAAGGCTCGATGCTGGACTTCCTCGAGGACTTCACCAACACCTTCCCGAGCCGCGTCGACGAGTACGAAACCCTGCTCACCGACAACCGCATCTGGAAGCAGCGCACCGTCGGCGTCGGCGTGGTCACCCCCGAACTGGCCAAGGCCTGGGGCATGACCGGCGTGATGCTGCGTGGTTCGGGTATTGCCTGGGACCTGCGCAAGAAGCAGCCGTACGCCAAGTACGACGCGGTCGATTTCGACATCCCGCTCGGCACCGAAGGCGACTGCTACGACCGCTACCTGTGCCGCGTGGCCGAGATGCGCGAGTCCAACCGCATCATCAAGCAGTGCGTGGCTTGGCTGAAGGCCAACCCCGGCCCGGTCATGGTCGAGAACTTCAAGGTCGCTCCGCCCAAGCGCGAGCACATGAAGGACGACATGGAAGCGCTGATCCACCACTTCAAGCTGTTCTCCGAAGGCTACTGCGTGCCGGCCGGCGAGACCTACAGCGCGGTGGAAGCGCCGAAGGGCGAGTTCGGCTGCTACCTGGCCTCCGACGGTGCCAACAAGCCGTTCCGCGTGCATCTGCGCGCGCCGGGCTTCGTGCACCTGTCGTCGATGGACGCGGTGGTGCGCGGCTACATGCTGGCCGACGTCGTGGCGATGATCGGTACTTACGATTTGGTGTTTGGTGAGGTCGACCGATGA	MSEFHQAHEAFASNPAEARQEIRNYTMNFGPQHPAAHGVLRLILEMDGETVVRADPHIGLLHRGTEKLAESKPFNQSIGYMDRLDYVSMMCNEHAYVRAIETLMGIEAPERAQYIRTMFDEITRILNHLMWVGSNALDLGAMAVMLYAFREREELMDVYEAVSGARMHAAYYRPGGVYRDLPDRMPKYKESRWHKGGALKKLNAAREGSMLDFLEDFTNTFPSRVDEYETLLTDNRIWKQRTVGVGVVTPELAKAWGMTGVMLRGSGIAWDLRKKQPYAKYDAVDFDIPLGTEGDCYDRYLCRVAEMRESNRIIKQCVAWLKANPGPVMVENFKVAPPKREHMKDDMEALIHHFKLFSEGYCVPAGETYSAVEAPKGEFGCYLASDGANKPFRVHLRAPGFVHLSSMDAVVRGYMLADVVAMIGTYDLVFGEVDR	PGPT0026805_417	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026805-nuoD-K00333	NA	NA
BMS020_04433	528	nqo2	COG1905	NADH-quinone oxidoreductase chain 2	ATGAAGGCGACAGGTAATTTCGAAGCGGCGCGCGATGTCGATCCGCTGGTGGTGCTGAGCGACAAGACGCGCGCGCACATCGATCATTGGCTGAGCAAGTTCCCGCCGGACCGCAAGCGTTCGGCGGTGCTGCAGGGCCTGCATGCCGCGCAGGAGCAGAACCAGGGCTGGCTGACCGACGAACTGATCGCCGGCGTCGCCAAGTACCTGGACCTGCCGCCGGTGTGGGCCTACGAGGTCGCCAGCTTCTACTCGATGTTCGAGACCGAGAAGGTCGGCCGCAACAACGTCGCGTTCTGCACCAACATCAGCTGCTGGCTCAACGGCGCCGAGGACCTGGTCGCGCACGCCGAGAAGAAGCTCGGCTGCAAGGTCGGCCAGTCCACCGCCGATGGCCGCGTCTACCTCAAGCGCGAGGAGGAATGCCTGGCCGGTTGCGCCAATGCGCCGATGATGGTCATCAACGGCCATTACCACGAGCACCTGACCAAGCAGAAGGTCGACGAGCTGCTGGACGGGCTGGAGTAA	MKATGNFEAARDVDPLVVLSDKTRAHIDHWLSKFPPDRKRSAVLQGLHAAQEQNQGWLTDELIAGVAKYLDLPPVWAYEVASFYSMFETEKVGRNNVAFCTNISCWLNGAEDLVAHAEKKLGCKVGQSTADGRVYLKREEECLAGCANAPMMVINGHYHEHLTKQKVDELLDGLE	PGPT0026810_1344	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026810-nuoE-K00334	NA	NA
BMS020_04434	1341	nuoF_2		NADH-quinone oxidoreductase subunit F	ATGGCACATCACCACGAATCCAAGGGTCCGGTCGGTCCTGCGCCGCAGCCCCACCAGGTCGTCTACACCACGCTGCACTACGACACCCCGTGGTCGTACGAGAGCTACCTCAAGACCGGTGGCTACGCCGCGCTGCGCAAGATCCTCGAAGAGAAGATCCCGCCGGCCGACGTGATCGAGATGGTCAAGCAGTCCGGCCTGCGCGGCCGTGGCGGTGCGGGCTTCCCGACCGGTCTGAAGTGGTCGTTCATGCCCAAGGACGCGCCGGTCAAGTACATCCTGTGCAACTCGGACGAATCCGAGCCGGGCACCTGCAAGGACCGCGACATCCTGCGCTACAACCCGCATTCGGTGGTGGAGGGCATGGCGATCGCCTGCTATGCCACCGGCTCGAAGGCGGCCTACAACTACCTGCGCGGTGAGTTCCACCACGAGCCGTTCGAGCATTTCGAACAGGCCCTGGCCGATGCCTATGCCAACGGCTGGCTCGGCAAGGACATCCTCGGCTCGGGCATCGATATCGACATCTACGGTGCGCTCGGCGCCGGCGCCTACATCTGCGGCGAAGAAACCGCGCTGATGGAGTCGCTGGAAGGCAAGAAGGGCCAGCCGCGCTACAAGCCGCCGTTCCCGGCCAACTTCGGCCTGTACGGCAAGCCGTCGACGATCAACAACACCGAGACCTATGCCTCGGTGCCGGCGATCATCCGCAACGGTCCGGAGTGGTTCAAGGGGCTGAGCAAGACCGCCAACGGCGGCCCGAAGATCTTCTCGGTCTCCGGCTGCGTCCAGAAGGGCGGCAATTTCGAAGTGCCGCTGGGCACCACCTTCGACGAGCTGCTGGAGATGGCCGGTGGCCTGAAGCCGGGCCGCAAGCTGAAGGCGGCGATCCCGGGCGGCGTGTCGATGCCAGTGCTGAAGGCCGAGCAGCTCGCCGGCCTGCAGATGGACTACGACACCCTGCGCGCGCTCGGCACCGGCCTGGGTTCCGGTGCGATCGTGGTGCTGGACGACAGCGTCTGCTGCGTCAAGTTCGCTTGCCGCATCTCGCAGTTCTTCCACAAGGAGTCCTGCGGCCAGTGCACCCCGTGCCGCGAAGGCACCGGCTGGATGCACCGCGTGCTGGAGCGCATCGTCGCCGGCAAGGCCACGATGGAAGACCTGCACCAGCTGAAGGCGGTGGCCGGCCAGATCGAGGGTCACACCATCTGTGCGTTCGGCGAAGCCGCGGCCTGGCCGATCCAGGGCTTCCTGCGCCAGTTCTGGGACGAATTCGAGTACTACATCGTCAACGGCCATTCGATCGTTGACGGCAAGAAGGTGGAGGCTGCTGCCGCATGA	MAHHHESKGPVGPAPQPHQVVYTTLHYDTPWSYESYLKTGGYAALRKILEEKIPPADVIEMVKQSGLRGRGGAGFPTGLKWSFMPKDAPVKYILCNSDESEPGTCKDRDILRYNPHSVVEGMAIACYATGSKAAYNYLRGEFHHEPFEHFEQALADAYANGWLGKDILGSGIDIDIYGALGAGAYICGEETALMESLEGKKGQPRYKPPFPANFGLYGKPSTINNTETYASVPAIIRNGPEWFKGLSKTANGGPKIFSVSGCVQKGGNFEVPLGTTFDELLEMAGGLKPGRKLKAAIPGGVSMPVLKAEQLAGLQMDYDTLRALGTGLGSGAIVVLDDSVCCVKFACRISQFFHKESCGQCTPCREGTGWMHRVLERIVAGKATMEDLHQLKAVAGQIEGHTICAFGEAAAWPIQGFLRQFWDEFEYYIVNGHSIVDGKKVEAAAA	PGPT0026815_1261	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026815-nuoF-K00335	NA	NA
BMS020_04435	2235	nqo3	COG1034	NADH-quinone oxidoreductase chain 3	ATGAGCGCGCAACCGGTAAATCCCAACGTGCCGCCGGATCACGTCAGCATCGAGATCGACGGGCAGGCGCTCGTCGTCCCGAAGGGCTCGATGATCATCCAGGCCGCCGACAAGGCCGGCATCCCGATCCCGCGCTTCTGCTACCACGAGAAGCTGCCGATCGCGGCCAACTGCCGCATGTGCCTGGTCGACGTCGAGAAGTCGCCGAAGCCGGCGCCGGCGTGTGCCACGCCGGTGATGGACGGCATGAAGGTCACCACGCGCAGCGAGAAGGCGCTGAAGTACCAGCGCAGCGTGATGGAGTTCCTGCTGATCAACCATCCGCTGGACTGCCCGATCTGCGACCAGGGTGGCGAGTGCGAGCTGCAGGACGTCTCGCTCGGCTACGGCCGTTCGGTCAGCCGCTTCAACGAGCGCAAGCGCGTCGTGCCCGACGAGGACATGGGGCCGCTGGTCGCCACCGAGATGACCCGCTGCATCCAGTGCACGCGCTGCGTGCGCTTCACCGCGGAAGTGGCCGGCACCTATGAGCTCGGCGGCATGTACCGCGGCGAGAACCTGCAGATCGGCACCTACGACGGCAAGCCGCTGACCACCGAGCTGTCCGGCAACGTGATCGACGTCTGCCCGGTCGGCGCGCTGACCAACAAGGTGTTCCAGTTCCGCGCCCGTCCGTGGGAACTGCAGGCGCGCGAGTCGCTGGGCTACCACGACGCGATGGGCTCGAACCTGTTCCTGCACGTGCGCCGCGGCGAAGTGCTGCGCGCCGTGCCGCGCGACAACGAGCTGGTCAACGAATGCTGGCTGTCCGACCGTGACCGCTATTCGCACCAGGGCCTGTACAGCGCCGACCGTGCGGTCAAGCCGCTGAAGAAGGTCAACGGCGAGTGGCAGGAAGTGAGCTGGGCCGAGGGCCTGGCCGCCGCCGGCGAGATCCTGCGCGCCCACCAGGGCGACAGCCTTGGCGTGCTGGTGCACCCGTCGACCTCGAACGAGGAGGGCGCGCTGCTGGCCCGCCTGGCCGAGGGACTGGGTTCGGGCAATATCGACCACCGCATCCTCGGTCGCGATTTCTCCGATGCCGCCGTGGCGCAGCCGTTCGCGCTGCCGCTGGCGGAGATCGAGCAGGCCGACGTCATCGTGCTGTTCGGCAGCAACATCCGCCACGAGCTGCCGCTGCTGCATGCGCGCCTGCGCAAAGCGCAGACCAAGCACGGCGCCAAGATCCATTCGATCAACCCGGTCGACTTCGATTTCGCCTTCGCCCAGGCTGGCAAGCAGATCGTGCCGCCGTCGCGCTTCGCCGCGGCGCTGGACGATGCCGCGCTGCGCGATGCGGTCAAGGCCGGCACCCGCGCGGTGGTGATCGTCGGCGCGCTGGTCGAGAACCATCCGCAGGCGGCGACGCTGCGCAAGGCCGCGGCCGAGTTCGCCGCTGCGACCGGCGCTGCGCTGTGCCGCATCCCGCAGGGTGCCAACGCCGTCGGTCTGGTCGCGCAGGGCGTGCTGCCCACCGCGCTGGATGCCTCGGCGATGCTGGCGCAGCCGCGCCAGGCCTACGTGGTCTACGGCATCGAGCCGGGCCTGGACTTCGCCGATGCCCCGGCCGCGCGCAAGGCGCTGGCCGGTGCCAAGGTGGTGGCGTTCAGCCAGTTCGCCTGCGCCTCGACCCGCGACGTCGCCGACGTGATCCTGCCGATCGGCGCGCTGCCGGAAATCGAGGCCAGCCTGACCAATCTCGATGGCCGCAGCCAGCCGACCAAGGCCGGCGGCAAGCTGCCGGGCGAGGCCCGCGAGGGCTGGCGCGTACTGCGCGCGCTCGGCGGCGAGCTGGGCCTGAACGGTTTTGATTTCACCGATCTCGCCGGCCTGCGTGCCGGCCTGCAGGGGCGCCAGGTCGCCGCCAAGGCGTCGGCGCAGCCGGCCGCCACGGGCGAGGGCCTGGAAGTCGCCGCCACCGCCGCGATCTACCGCACCGATGCGGTGGTCCGTCGCGCCCAGGCGCTGCAGTCGCATCCGCTGAACGTGGCTGCGTCGATCGCCCTGCATCCGGACGAAGCCGCCCGGCTGCAGGTCAAGGAAGGGCAGATGGTCAAGGTCGGCACGGCCGCTGGCCATGCCACGCTGCCGGTCGTCGTCGACGCGCGCGTCGCGGCGGGCACGGTCTGGATTGAATCCGGCCACGGCGCGACCGCGCCGATCGGCGCCGGTCGGGTAACGGTGGTGGCTGCATGA	MSAQPVNPNVPPDHVSIEIDGQALVVPKGSMIIQAADKAGIPIPRFCYHEKLPIAANCRMCLVDVEKSPKPAPACATPVMDGMKVTTRSEKALKYQRSVMEFLLINHPLDCPICDQGGECELQDVSLGYGRSVSRFNERKRVVPDEDMGPLVATEMTRCIQCTRCVRFTAEVAGTYELGGMYRGENLQIGTYDGKPLTTELSGNVIDVCPVGALTNKVFQFRARPWELQARESLGYHDAMGSNLFLHVRRGEVLRAVPRDNELVNECWLSDRDRYSHQGLYSADRAVKPLKKVNGEWQEVSWAEGLAAAGEILRAHQGDSLGVLVHPSTSNEEGALLARLAEGLGSGNIDHRILGRDFSDAAVAQPFALPLAEIEQADVIVLFGSNIRHELPLLHARLRKAQTKHGAKIHSINPVDFDFAFAQAGKQIVPPSRFAAALDDAALRDAVKAGTRAVVIVGALVENHPQAATLRKAAAEFAAATGAALCRIPQGANAVGLVAQGVLPTALDASAMLAQPRQAYVVYGIEPGLDFADAPAARKALAGAKVVAFSQFACASTRDVADVILPIGALPEIEASLTNLDGRSQPTKAGGKLPGEAREGWRVLRALGGELGLNGFDFTDLAGLRAGLQGRQVAAKASAQPAATGEGLEVAATAAIYRTDAVVRRAQALQSHPLNVAASIALHPDEAARLQVKEGQMVKVGTAAGHATLPVVVDARVAAGTVWIESGHGATAPIGAGRVTVVAA	PGPT0026820_1871	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026820-nuoG-K00336	NA	NA
BMS020_04436	1092	nuoH_2	COG1005	NADH-quinone oxidoreductase subunit H	ATGAACGAGATGCTGTTGAACGCAGTGGACCCGCTGCACCAGTGGTTCCTGAGCCTGGGCGCGATCGGCGCGCTCATCTGGATCGTGCTGAAGATCCTGCTGATCGCCGTGCCGGTGATCGTGTCGGTGGCCTTCTACGTGGTGTGGGAGCGCAAGCTGATCGGCTGGATGCACGTGCGTCACGGGCCGATGTACGTGGGCATGGGCATCTTCCAGGCCTTCGCGGACGTGTTCAAGCTCCTGTTCAAGGAGATCGTGCAGCCGACCGCCACGCACAAGGCGCTGTTCGTCATCGCGCCGCTGATCACCCTGGCGCCGGCGTTCGCGGCCTGGTCGGTGGTGCCGTTCGATGCACAGCTGGTGCTGTCTAACGCCAACGTCGGCCTGCTGTACCTGCTGGCGATGACCTCGCTGGGCGTGTACGGCATCATCCTGGCCGGCTGGGCGTCGAACTCGAAGTACGCCTTCCTCGGTGCGATGCGTTCGGCCGCGCAGGTGGTCAGCTACGAAATCGCGATGGGCTTCGCCCTGGTCGGTGTGATGATCGCCGCGCAGAGCGTCAACCTGAGCCAGATCGTGCTGGCGCAGGCCGGCAACTCCGGCTTCTTCGACTGGTTCCTGCTGCCGCTGTTCCCGCTGTTCATCGTGTACTGGGTGTCCGGCGTGGCCGAGACCAACCGCGCGCCGTTCGACGTGGTGGAAGGCGAGTCGGAAATCGTCGCCGGCCACATGGTCGAATACTCCGGCGGTGCGTTCGCGCTGTTCTTCCTGGCCGAATACGCCAACATGATCCTGGTCAGCTTCCTGATCTCGATCTTCTTCCTCGGCGGCTGGCTGAGCCCGATCCAGGGCTGGGTCACCGCGGACATCTCGCCCTGGGTCAACTGGATCTGGACCGGCGGCTGGCCGTGGCTGCTGCTGAAGGTGCTGTTCTTCGCCAGCGCGTACATCTGGTTCCGCGCTTCGTTCCCGCGCTACCGCTACGACCAGATCATGCGGCTTGGCTGGAAGGTGTTCATCCCGCTGACCATCGTGTGGATCGCGGTGACGGCGCTGATGGTGTTCTACGGCGTGATCCAGAAGGGCGTTTGA	MNEMLLNAVDPLHQWFLSLGAIGALIWIVLKILLIAVPVIVSVAFYVVWERKLIGWMHVRHGPMYVGMGIFQAFADVFKLLFKEIVQPTATHKALFVIAPLITLAPAFAAWSVVPFDAQLVLSNANVGLLYLLAMTSLGVYGIILAGWASNSKYAFLGAMRSAAQVVSYEIAMGFALVGVMIAAQSVNLSQIVLAQAGNSGFFDWFLLPLFPLFIVYWVSGVAETNRAPFDVVEGESEIVAGHMVEYSGGAFALFFLAEYANMILVSFLISIFFLGGWLSPIQGWVTADISPWVNWIWTGGWPWLLLKVLFFASAYIWFRASFPRYRYDQIMRLGWKVFIPLTIVWIAVTALMVFYGVIQKGV	PGPT0026825_849	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026825-nuoH-K00337	NA	NA
BMS020_04437	489	nuoI_2	COG1143	NADH-quinone oxidoreductase subunit I	ATGAACAAGATCACCCACTACTTCAAGAGCCTGCTGCTCCTCGAGCTGCTTGGCGGTCTGTGGCTGACGCTGAAGTACACCTTCAAGCCGAAGTACACCGTCCTCTACCCGATGGAGAAGTTCCCGCAGTCGCCGCGCTTCCGTGGCCTGCACGCGCTGCGCCGCTACCCGAACGGGGAAGAGCGGTGCATCGCCTGCAAGCTGTGCGAGGCGGTCTGTCCGGCGCTGGCGATCACCATCGATTCGGCCAAGCGCGAAGACGGCACCCGCCGTACCACGCGCTACGACATCGACCTGTTCAAGTGCATCTTCTGCGGGTTCTGCGAGGAGAGCTGCCCGGTCGATTCGATCGTGGAGACCCACGTGCTCGAGTACCACTTCGAGAAGCGTGGCGAGAACATCGTCACCAAGCCGCAGCTGCTGGCGATCGGAGACCGGCTGGAAGCCGAGATCGCCGAGCGCCGCGCCGCCGATGCCGCCTTCCGCTGA	MNKITHYFKSLLLLELLGGLWLTLKYTFKPKYTVLYPMEKFPQSPRFRGLHALRRYPNGEERCIACKLCEAVCPALAITIDSAKREDGTRRTTRYDIDLFKCIFCGFCEESCPVDSIVETHVLEYHFEKRGENIVTKPQLLAIGDRLEAEIAERRAADAAFR	PGPT0026830_2038	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026830-nuoI-K00338	NA	NA
BMS020_04438	648	nuoJ_2	COG0839	NADH-quinone oxidoreductase subunit J	ATGGACTGGGTCAATATCGCCTTTTACGCATTCTCCGCCATCGCGGTCATCGCCGCCGGCGCGGTGATCAGCGTGCGCAACCCGGTGTATGCCGTGTTGTGCCTCATCCTGACGTTCTTCTCGATCGCCTGCGTCTGGCTGCTGGTCGGTGCCGAGTTCCTCGGCGTCACCCTGGTGCTGGTCTACGTCGGCGCGGTGATGGTGCTGTTCCTGTTCGTGGTGATGATGCTGGACATCGACACCAGCCGCCTGCGCGAGGGCTGGGTGAAGTACCTGCCGGTCGGTGCGCTGGTCGCGGTCGCGATGTTCGTGCAGATGCTGGCGCTGGTCGGGGTCAAGGCCCGCACCGCCACGCCGCTGCCGGCCGACAACGCCGCCGCGCTGCCGCCGGATGGTTCCAACCTCACCTGGCTGGCGCACACGCTGTTCACCGAGTTCCTGCTGCCGTTCGAGTTCGCCGCGGTGATCCTCACCGTCGCGGTCGTCGCCGCGGTCATGCTGACCCTGCGCAAGCGCGAGGGCATCAAGACCCAGGATGCCGGCGCCCAGACCCGCGTGAAGTCGCGTGACCGCCTGCGCATGGTCAAGATGGCGGTCGAACAGCCGGTCAAGCGTGACGCCGCCAACGCACAGGAGGCAAATCCGTGA	MDWVNIAFYAFSAIAVIAAGAVISVRNPVYAVLCLILTFFSIACVWLLVGAEFLGVTLVLVYVGAVMVLFLFVVMMLDIDTSRLREGWVKYLPVGALVAVAMFVQMLALVGVKARTATPLPADNAAALPPDGSNLTWLAHTLFTEFLLPFEFAAVILTVAVVAAVMLTLRKREGIKTQDAGAQTRVKSRDRLRMVKMAVEQPVKRDAANAQEANP	PGPT0026835_732	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026835-nuoJ-K00339	NA	NA
BMS020_04439	306	nuoK_2	COG0713	NADH-quinone oxidoreductase subunit K	GTGATTACCCTGGGCCACCTGCTTGCACTTGGTGCCGTACTGTTCTGCATCAGCCTCGCCGGCATCTTCCTCAACCGGAAGAACATCATCGTGCTGCTGATGTCGATCGAACTGATGCTGTTGTCGGTCAACATCAACTTCATCGCCTTCTCCCGCCAGATGGGCGATGCGGCTGGTCAGCTGTTCGTCTTCTTCATCCTGACCGTGGCCGCGGCCGAGGCCGCGATCGGCCTGGCGATCCTGGTCACCCTGTTCCGTACCCGCCGCACGATCAATGTGGCCGAAGTCGATTCGCTGAAGGGCTGA	MITLGHLLALGAVLFCISLAGIFLNRKNIIVLLMSIELMLLSVNINFIAFSRQMGDAAGQLFVFFILTVAAAEAAIGLAILVTLFRTRRTINVAEVDSLKG	PGPT0026840_1386	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026840-nuoK-K00340	NA	NA
BMS020_04440	2139	nuoL_2	COG1009	NADH-quinone oxidoreductase subunit L	ATGGAAATCACACTCTCCAAGAACCTGCTCATCGCCGTGGTGCTCGCACCGCTGCTGGGCAGCATCATCGCCGGCCTGTTCGGCCGGCAGGTGGGGCGCAAGGGCGCCCAGTTCGCCACCATCCTGGGCGTCGCCGCCAGCTGCGGGCTGTCGATCTGGACGCTGTACCAGCTGGTGGGGCAGGGCGCCGTACCGTTCAACCAGAACATCTACACGTTCTTCGAAGTCGGCAACTATTCGGCCCACGTCGGCTTCATGGTCGACCGCCTGACCGCGATGATGATGGTCGTGGTGACCTTCGTGTCGCTGCTGGTGCACATCTACACCATCGGCTACATGGAAGAGGACCCGGGCTACCAGCGCTTCTTCAGCTACATCTCGCTGTTCACCTTCTCGATGCTCACCCTGGTGATGAGCAACAACTTCCTGCAGCTGTTCTTCGGCTGGGAAGCGGTGGGCCTGGTGTCGTACCTGTTGATCGGTTTCTGGTTCAAGCGCCCGACCGCGGTGTTCGCCAACATGAAGGCGTTCCTGGTCAATCGCGTCGGTGACTTCGGCTTCATCCTCGGCATCGCCGGCGTGCTGCTGTGGTTCGGCACGCTGGACTACGCCACCGTGTTTGCCAACGCTCCGGAATTCGCCGGCGCCCAGGTGCAGCTGTTCGCCGGGCACCAGTGGAGCGTGATGACGCTGATCTGCATCTGCCTGTTCATCGGCGCGATGGGCAAGTCGGCGCAGGTGCCGCTGCACGTGTGGCTGCCCGACTCGATGGAAGGCCCGACCCCGATCTCGGCGCTGATCCATGCCGCGACGATGGTCACCGCCGGCATCTTCATGGTGGCGCGCATGTCGCCGCTGTTCGAACTGTCGCAGACCGCGCTGAACTTCATCCTGATCGTCGGTGCCACCACCGCGTTCTTCACCGGCCTGATCGGCATCGTGCAGAACGACATCAAGCGCGTGGTCGCCTACTCGACGCTGTCGCAGCTGGGCTACATGACCGTCGCGCTGGGCGTGTCGGCGTACTCGGCGGCGGTGTTCCACCTGATGACCCACGCCTTCTTCAAGGCGCTGCTGTTCCTGGCCGCGGGCTCGGTGATCATCGGCATGCACCACGAGCAGGACATGCGCAAGATGGGTGGCCTGCGCAAGTACATGCCGATCACCTACATCACCAGCGTCATCGGTACGCTGGCGCTGGTCGGTACCCCGTTCTTCGCCGGTTTCTACTCCAAGGACACCATCATCGAGGCGGCGCAGCACCATGCGGCGCACGCCGAGCAGTCGGCCGGCTGGTGGACCTGGTTCGCCGCCAACTACGGCTACTGGGCGGTGCTGGGTGGCGTGCTGGTCACCAGCTTCTACAGCTTCCGCCTGCTGTTCCTGACCTTCCATGGCAAGGAACGCTTCCGTGACGCCCACGCCGACCACGGCCATGGCCACGATGCGCATGCGCACGACGACCATGCCCATGACGATCACGGTCACGACGACCATGGCCACCATGGCGCGCATGAGCCGCACGAGTCGCCGTGGGTGGTGACGCTGCCGCTGGTGCTGCTGGCGATCCCGTCGATCGTGGTGGGCTTCTTCGCGATCGGTCCGATGCTGTTCGGCACCGACTGGGCCGGCCACCACGCTGCGGGTGAAGGGCAGGGCATCTCGTTCTTCACTGGCATCATCGATTTCTACGATCCGGCCCGCGACACCGTCGGCGCACTGGCCGAGGAATTCCATGGTCCGGTCGCGTTCGCGCTGCATGGCTTCACTGCTTGGCCGTTCTTCCTGACCTTGGCCGGTTTCCTGCTCGCCGCGCTGATGTACCTGTGGAAGCCCGAGCTGGCCGCCAAGGCGCGCGCCGCGTTCGCGCTGCCGGTGCGCGTGCTCGAAGCCAAGTATGGTTTCGACAAGCTGTGGATCGGCGGCTTCGCCGGTGGCGGCGTGAAGCTGGGCAAGGCCTCGCGCGCGATCGACACCTATGTCGTCGACGGAGCAGTGGTGAACGGTTCGGCCCGCCTGGTCGATCTGGCTGCCAACCTGCTGCGTCGCACGCAATCCGGTTTCCTCTACCACTACGCCTTCGCAATGATCATCGGCCTCATCGCCTTGCTGGCGGTCGTGATGCATTTCTGGCGTTGA	MEITLSKNLLIAVVLAPLLGSIIAGLFGRQVGRKGAQFATILGVAASCGLSIWTLYQLVGQGAVPFNQNIYTFFEVGNYSAHVGFMVDRLTAMMMVVVTFVSLLVHIYTIGYMEEDPGYQRFFSYISLFTFSMLTLVMSNNFLQLFFGWEAVGLVSYLLIGFWFKRPTAVFANMKAFLVNRVGDFGFILGIAGVLLWFGTLDYATVFANAPEFAGAQVQLFAGHQWSVMTLICICLFIGAMGKSAQVPLHVWLPDSMEGPTPISALIHAATMVTAGIFMVARMSPLFELSQTALNFILIVGATTAFFTGLIGIVQNDIKRVVAYSTLSQLGYMTVALGVSAYSAAVFHLMTHAFFKALLFLAAGSVIIGMHHEQDMRKMGGLRKYMPITYITSVIGTLALVGTPFFAGFYSKDTIIEAAQHHAAHAEQSAGWWTWFAANYGYWAVLGGVLVTSFYSFRLLFLTFHGKERFRDAHADHGHGHDAHAHDDHAHDDHGHDDHGHHGAHEPHESPWVVTLPLVLLAIPSIVVGFFAIGPMLFGTDWAGHHAAGEGQGISFFTGIIDFYDPARDTVGALAEEFHGPVAFALHGFTAWPFFLTLAGFLLAALMYLWKPELAAKARAAFALPVRVLEAKYGFDKLWIGGFAGGGVKLGKASRAIDTYVVDGAVVNGSARLVDLAANLLRRTQSGFLYHYAFAMIIGLIALLAVVMHFWR	PGPT0026845_148	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026845-nuoL-K00341	NA	NA
BMS020_04441	1506	nuoM_2	COG1008	NADH-quinone oxidoreductase subunit M	GTGTCGAACTGGCCTCTACTCAGTGTCCTGATCTGGCTGCCGATCATCGGCGGAGCCCTGATCCTCGCCCTGCGCAACGCGCAGGCCGCCCGCTGGGCCTCGCTCCTGGTCGCGGTGGTGACCTTCCTGCTCAGCCTGCCGTTGCTGAGCGGGTATGACACCGCCAACGACGCGCTGCAGTTCGTCGAACAGCATGCCTGGATCCCGAGCTACGACATTTATTACAACCTTGGCGTCGACGGCATCGCGGTCGCGCTGATCCTGCTGACCACGCTGGTCACGGTGCTGTCGCTGATCGGTGCCTGGACCGCGATCGAGAAGCGCGTCAACCAGTACGTGGCCGCGTTCCTGATCCTCGAAGGCGTCACCGTCGGCATCTTCGCCGCCACCGACGCGATGCTGTTCTACGTGTTCTTCGAGGCGATGCTGATCCCGATGTTCCTGATCATCGGCATCTGGGGTGGCCCGCGCCGCATCTACGCCGCGATCAAGTTCTTCCTGTACACCTTCCTCGGCTCGGTGCTGATGCTGGTGGCGCTGATCTACCTGTACCTGAAGGGCGGCAGCTTCCAGCTGCACGACCTGTACGCGCTGCAGCTGAGCGCCAAGGAGCAGACCTGGATCTTCTTTGCGTTCCTGATCGCGTTCGCGGTCAAGGTGCCGATGTTCCCGGTGCACACCTGGCTTCCGGACGCGCACGTGGAAGCACCGACCGCCGGTTCGGTGATCCTGGCGGCGATCGCGCTGAAGATCGGTGGCTACGGCTTCCTGCGCTTCAACCTGCCGATCGTGCCGGACGCCAGCCATGAGTGGGCCTGGCTGGTGATCACGCTGTCGCTGGTGGCGGTGATCTACGTCGGCCTGGTCGCGCTGGTCCAGGACGACATGAAGAAGCTGGTCGCGTATTCGTCGATCGCGCACATGGGCTTCGTCACCCTGGGTACCTTCATCGCCTTCACCCTGGTGCGCGAATACGGCAGTGTCGATGCCGCCCGCCTGGGCCTGCAGGGCGCGATGGTGCAGATGATCTCGCACGGATTCGTCTCGGGCGCGATGTTCTCCTGTATCGGCGTGCTGTACGACCGCATGCACACCCGCCGCATCGCCGATTACGGCGGCGTGGTCAATGTAATGCCGTGGTTCGCCACCTTCGCGATGCTGTTCTACATGGCCAATGCCGGCCTGCCGGGCACCAGCGGGTTCGTCGGCGAGTTCATGATCATCCTCGCCAGCTTCCAGAAGCACCCGCTGATCGCGTTCGGCGCGGCCACCACGCTGGTGATCACCGCTGCGTACACGCTGTGGCTGTACAAGCGCGTGTTCTTCGGCGAAGTCGCCAATGCCCACGTGGCCGAGCTGAAGGACATCAACGGCCGCGAGGCGTTCGTCCTCGGCGTGTTCGCTGCCGGCGTGCTGGCGCTGGGCCTGTATCCGAAGCCGCTCACCGACCTGATGGAGCCGTCGATCGCCAAGCTCGCCACGCAGATCGCTGCGAGCAAGCTGTGA	MSNWPLLSVLIWLPIIGGALILALRNAQAARWASLLVAVVTFLLSLPLLSGYDTANDALQFVEQHAWIPSYDIYYNLGVDGIAVALILLTTLVTVLSLIGAWTAIEKRVNQYVAAFLILEGVTVGIFAATDAMLFYVFFEAMLIPMFLIIGIWGGPRRIYAAIKFFLYTFLGSVLMLVALIYLYLKGGSFQLHDLYALQLSAKEQTWIFFAFLIAFAVKVPMFPVHTWLPDAHVEAPTAGSVILAAIALKIGGYGFLRFNLPIVPDASHEWAWLVITLSLVAVIYVGLVALVQDDMKKLVAYSSIAHMGFVTLGTFIAFTLVREYGSVDAARLGLQGAMVQMISHGFVSGAMFSCIGVLYDRMHTRRIADYGGVVNVMPWFATFAMLFYMANAGLPGTSGFVGEFMIILASFQKHPLIAFGAATTLVITAAYTLWLYKRVFFGEVANAHVAELKDINGREAFVLGVFAAGVLALGLYPKPLTDLMEPSIAKLATQIAASKL	PGPT0026850_2712	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026850-nuoM-K00342	NA	NA
BMS020_04442	1461	nuoN_2	COG1007	NADH-quinone oxidoreductase subunit N	ATGACCACGCCAACGCCTCTGCCGTTGACCACCGCCGATCTGGCACCGCTGTTCCCGGAACTGGTGCTGCTCGGTGGCGCCTTCGCGCTGCTGATGATCGACCTGTTCGTGAGCCAGCGGCACAAGGTCTGGACCCACCTGATCTCGGTCGCCGTGCTGGCGGTCGTGCTGGCGATGCTCGCCACCGGCGTGGGCGGGCAGGGCGAGGTCTTCCACGGCATGTTCGTGCGCGACAGCGCCGCCGACGTGATGAAGTCGGTGATCGTGCTACTCAGCGGCCTGACCCTGGTGTACGGCTGGAGCTACCTGCGCGAGCGGAATCTGTACCAGGGCGAGATCCCGGTGCTGGTGCTGTTCGCCACCGCCGGCATGATGATCCTGGTCTCGGCCGGCAGCCTGCTGATGGTCTATCTCGGCCTTGAGCTGCTGGCGCTGTGCTCGTATGCGCTGGTCGCCGCGAACCGCGACAATGGCATGGCCACCGAAGCGGCGATGAAGTACATCGTGCTGGGCTCGTTGGCCTCCGGTCTGCTGCTGTACGGCATGTCGCTGGTGTATGGCGCCACCGGTACGCTGAGCTTGGTGGGCATCCACGAGGCGATCGACGGTTCCGGCGAGCGCACCCTGCTGCTGACCGGCACGATCTTCATGATCGCCGGCGTCGCCTTCAAGCTCGGTGCCGCGCCGTTCCACATGTGGCTGCCCGACGTCTACCAGGGCGCGCCCGCGCCGGTCGCGCTGTTCGTCAGTTCCGCGCCCAAGCTGGCCGCGTTCGGCATGGCCTACCGTCTGCTCGAGGTTGGCGTCGGCCCGCTGTCGCCGCAGTGGCACCTGCTGCTGGCGGGTCTGTCGGCGCTGTCGCTGGTGATCGGCAACCTGATGGCGATCGCGCAGAGCAACCTCAAGCGCATGCTGGCGTACTCGACGGTGTCGCACATCGGCTTCTTGCTGATGGGCATCGCCGGCGGCGGCGCCGAAGGCTACAGCGCCGCGATGTTCTACGCGGTCAGCTACGCGATCATGTCCACCGCGTCGTTCGGCGCGATCATCGCGCTGTCGCGCAACGGTTTCGAGGCCGAGAACATCGACGACCTCAAGGGCCTGAACGCCCGCAACCCGTGGATGGCCGGACTGGTGCTGTGCATCATGGCCTCGCTGGCCGGCATCCCGCCGTTCCTGGGCTTCTGGACCAAGCTGGCCGTGCTCGGCGCGGCGGTGCATGGCGACCTGTTGTGGCTGGCGATCCTCGGCGTGCTGTGCGCGGTGGTCGGTGCGTACTACTACCTGCGCGTGATCAAGGTCATGTACTTCGACGAGCCGGTGGGTGAGCCGCTGCCGGCCAACAACGATCGTGTCCTCGGCGTGGTGCTGGGCGTCAACGCGATCGCGCTGCTGGCGCTGGGCCTGGCCTGGAACCCGATCATGGTGTGGTGCAAGCAGGCGTTCGCGCACCTGGCCTGA	MTTPTPLPLTTADLAPLFPELVLLGGAFALLMIDLFVSQRHKVWTHLISVAVLAVVLAMLATGVGGQGEVFHGMFVRDSAADVMKSVIVLLSGLTLVYGWSYLRERNLYQGEIPVLVLFATAGMMILVSAGSLLMVYLGLELLALCSYALVAANRDNGMATEAAMKYIVLGSLASGLLLYGMSLVYGATGTLSLVGIHEAIDGSGERTLLLTGTIFMIAGVAFKLGAAPFHMWLPDVYQGAPAPVALFVSSAPKLAAFGMAYRLLEVGVGPLSPQWHLLLAGLSALSLVIGNLMAIAQSNLKRMLAYSTVSHIGFLLMGIAGGGAEGYSAAMFYAVSYAIMSTASFGAIIALSRNGFEAENIDDLKGLNARNPWMAGLVLCIMASLAGIPPFLGFWTKLAVLGAAVHGDLLWLAILGVLCAVVGAYYYLRVIKVMYFDEPVGEPLPANNDRVLGVVLGVNAIALLALGLAWNPIMVWCKQAFAHLA	PGPT0026860_1699	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026860-nuoN-K00343	NA	NA
BMS020_04444	591	rimP_2	COG0779	Ribosome maturation factor RimP	GTGAGCGACAAGGCTACCGAAATCGCGAATCTGCTCGCCCCCACCGTCGAAGCGCTGGGGCTGGAGCTGCTGGGTGCGGAGTACCTGCCCGCGCCGGGTGGCGCGACGCTGCGCCTTTATATCGATGTGCCGCTTGCCGAGCAGCCCGATCGCATCGTCAACATCGACGACTGCGAGCGCGCCAGCCGCGAGGTGTCGGCGCAGCTGGACGTCGAGGATCCGATCAGCGGCAACTACACCCTCGAGGTGTCCTCGCCGGGTGTGGATCGTCCGTTGTTCACCCTCGCGCAGTTTGGCCGGCATGCCGGCGAGTCGGCCAAGGTCGGCCTGAAGCTGCCGCAGGATGGGCGCCGCCGCCTGCAAGGGCGTATCGTTCGCGTGGACGAGGCGGCCGCTACGGTCGCCTTCGACGTGGACGGGCTGGAGATGGTCGTCGCCTTCGACAACATCGACAAGGCGCGGATCGTGCCCGACTGGGCCGCGCTGGGGCTCGCGCCCGAGAAACCGAACAAGCCGGGGCCGAAGAAGCCGGCCGCAGGCAAGAAGAAACCATCCAACGAGTCCGCGGCCCGCAAGCCGCGCGCGGAGTGA	MSDKATEIANLLAPTVEALGLELLGAEYLPAPGGATLRLYIDVPLAEQPDRIVNIDDCERASREVSAQLDVEDPISGNYTLEVSSPGVDRPLFTLAQFGRHAGESAKVGLKLPQDGRRRLQGRIVRVDEAAATVAFDVDGLEMVVAFDNIDKARIVPDWAALGLAPEKPNKPGPKKPAAGKKKPSNESAARKPRAE				NA	NA	NA	NA	NA
BMS020_04445	1512	nusA_2	COG0195	Transcription termination/antitermination protein NusA	ATGAGCAAGGAACTGTTGCTGGTAGTTGATGCGGTCGCCAACGAGAAGGGCGTGCCGCGCGAGGTGATCTTCGAGGCGATCGAAGCCGCGCTCGCCTCCGCGGCGAAGAAGCGTTACATCGACCAGGACGTGCTGACCCGCGTCAGCATCGACCAGAAGGATGGCAGCTACGAGACCTACCGTCGCTGGGAAGTCGTCGCCGATGACGTGGTGATGGAGTCGCCGGATCGCCAGCTGCGCCTGATGGACGCGGTCGACGAAGTCGAAGGCTCGGTGGTCGGTGACTACATCGAAGAACAGATCGAAAACCCGGATTTCGGCCGCATCGCCGCCCAGGCCGCCAAGCAGGTGATCGTGCAGCGCGTGCGCGAGGCCGAGCGCCAGCAGGTCGTGGATGCGTGGAAGGATCGCGTCGGCGAGCTGATCACCGGTGTGGTCAAGCGCGTGGAGCGCGGCAACATCTATGTCGACCTGGGCGGCAACGCGGAAGCGTTCATCCCCAAGGACAAGGGCATTCCGCGCGACGTGCTGCGCGCCGGTGACCGCGTGCGCGGCTACCTGGCCGAGGTGCGTTCGGAGCCGCGTGGCCCGCAGCTGTTCATCAGCCGCGCCGCGCCTGAATTCATGATCGAGCTGTTCAAGCTCGAGGTGCCGGAAGTCGGCCAGGGCCTGGTCGAGATCAAGGGCTGTGCCCGCGATCCGGGCGACCGCGCCAAGATCGCGGTGATCGCGCACGATGCGCGCACCGATCCGATCGGCGCCTGCATCGGCATGCGCGGTTCGCGCGTGCAGGCGGTGAGCAACGAGCTCAACGGCGAGCGCGTGGACATCGTGCTGTGGAACGACAACCCGGCCAACTTCGTCATCAACGCGATGGCGCCGGCCGAGGTGCAGTCGATCATCGTCGATGAAGAAAAGCATTCGATGGACCTGGCCGTGGCCGAGGACCGTCTGGCTCAGGCGATCGGCAAGGGCGGCCAGAACGTGCGCCTGGCCAGCCGCCTGACCGGCTGGCAGCTCAACGTGATGACCGCCGACCAGGTCGCGGCCAAGTCCGAGGCCGAGCAGGCGTCGGCGCGTCAGCTGTTCATGGACAAGCTGGAAGTGGACGAGGAAATCGCAGGCATCCTGGTGGCCGAGGGCTTCAATACGGTCGAGGAAATCGCCTACGTCCCGGTCGGCGAGCTGCTGGCGGTGGAAGGGTTTGACGAGGACATCGTCGAGGAGCTGCGCGCCCGTGCCCGCGACGCGCTGCTCAATGCAGAACTGGCCGAGGAAGAGGTGCTGGACGAGAACCAGCCGGCGGCCGACCTGCTGGCACTTGAGGGCATGGACGAGGCCACCGCCTACGCGCTCGCCGGTCACGGCGTGCGTACCGGCGAAGACCTGTCCGACCTGGCTGCCGACGAGATTGTCGAGTTTGGCATCGAGGGCATGACCTCCGAACGTGCGGCGGCGCTGATCCTGGCGGCCCGCGCCGAGGAGATCGCCCGCCTGGAGCGCGGCGAATGA	MSKELLLVVDAVANEKGVPREVIFEAIEAALASAAKKRYIDQDVLTRVSIDQKDGSYETYRRWEVVADDVVMESPDRQLRLMDAVDEVEGSVVGDYIEEQIENPDFGRIAAQAAKQVIVQRVREAERQQVVDAWKDRVGELITGVVKRVERGNIYVDLGGNAEAFIPKDKGIPRDVLRAGDRVRGYLAEVRSEPRGPQLFISRAAPEFMIELFKLEVPEVGQGLVEIKGCARDPGDRAKIAVIAHDARTDPIGACIGMRGSRVQAVSNELNGERVDIVLWNDNPANFVINAMAPAEVQSIIVDEEKHSMDLAVAEDRLAQAIGKGGQNVRLASRLTGWQLNVMTADQVAAKSEAEQASARQLFMDKLEVDEEIAGILVAEGFNTVEEIAYVPVGELLAVEGFDEDIVEELRARARDALLNAELAEEEVLDENQPAADLLALEGMDEATAYALAGHGVRTGEDLSDLAADEIVEFGIEGMTSERAAALILAARAEEIARLERGE				NA	NA	NA	NA	NA
BMS020_04446	2745	infB_2		Translation initiation factor IF-2	ATGTCGCAGCAAACCACCATCCGCAAGCTTGCCGAACTGGTCAACACGCCGGTCGAGAAGCTGCTGGAACAGCTGGCCGAGGCCGGCATGAAGTTCAGTGGCCCCGACCAGGTCGTCACCAGCATGGAAAAAGTGAAGTTGCTGGGCTTCCTGAAGCGTGCCCACGGCAAGGCCGACGTGTCGGCCGAGGCCGGCGAGGCGAACAAGAAGATCACCCTCAATCGTCGCAAGCTGCAGGAAGTGACGGTCAGCGCCGGCCGCAGCAAGACCACGGTCAACGTCGAGGTGCGCCAGAAGCGCACCTACGTCAAGGCCGAGGCTGAAGCTGCCGCCGCGAACGCGCGTGCGGTTGCCGGCAAGCCCGACGACGAGCGCGCCGAGATCCTGCGCAAGCTGGAAGAGTCGCGCCAGCGTAACCTCGCCGAACAGCAGCGCCTGGCCGAGATGGACCAGGCGCGCGCCGACGAGGTCGCCAACAAGCGTCGCGAAGAGCAGGCCGAGCGCGAGCGCCTCGAGGCCGAGCGCCAGGCGGCGGCCGAGGAAGCCAACAAGGCGGCTGAAGTCGTCGAGGCGCCCGCAGCTGTCGAGCCGGCGGCTGCCGAGCAGGCCGCGCCGGTGCCCGCCGCGCCGCCCAAGCGCGTGCCGATCCGCGAGGAGCTCGGCGTCGTGCCGCGTTCCATCCGTACCGGCCCGCCGCCGCCGGCGACCCCGCCGCGCGCCCCGGCGCGTGACGATCGCAACAACAGCGCCGCCCCCAAGCACAAGACCCGCGGCTCGCACGCGATGGTCTCCGGTGTCGAGGACGACGACAGCACCAAGCGTTTCGCCGGCCAGCTGCACTTGTCGGCGGCCGACCGTGCGCGTCGCACCAGTTCGTCGAACAACCGGGGGCGTCCGGGCCGTCCGGCACCGGGTGGTCGCCGCGGCAACGACAACTCGCGCGGCGGTGGCGGCAGCCACGGCTTCGAACGTCCGACCGCACCGGTGGTGCGTGAGGTCGCGATCGGCGACACCATCACCGTGGCCGACCTGGCGCAGAAGCTCGCGCTGAAGGGCGGTGACGTGGTGAAGGCGCTGTTCAAGATGGGCGTGATGGCCACCATCACCCAGTCGATCGACCACGACACCGCGGTGCTGGTCACCGAGGAGCTGGGCCACAAGGCCACGCGTGCCGACAGCGCCGACTTCGAGGACGCGCTGCTGGCGCACGCCGAGGAAGTGCAGGGCGATGCCACGCCGCGTCCGCCGGTGGTCACCATCATGGGCCACGTCGACCACGGCAAGACCTCGCTGCTGGACTACATCCGCCGCACCAAGATCGCCTCGGGCGAAGCCGGTGGCATCACCCAGCACATCGGTGCGTACCACGTCGAAACCGACAAGGGCGTCATCAGCTTCCTGGATACCCCGGGCCATGCCGCGTTCACCTCGATGCGCGCGCGCGGCGCCAAGATCACCGACATCGTGGTCCTAGTGGTGGCTGCCGACGATGGCGTGATGCCGCAGACCAAGGAAGCGGTGCAGCACGCCAAGGCGGCGGGCGTTCCGCTGATCGTGGCGGTCAACAAGATCGACAAGTCCGATGCCGATCCGCAGCGCGTCAAGAACGAGTTGCTGAGCGAGGACGTGGTCGCCGAAGAATTCGGTGGCGACACCCAGTTCATCGAACTGTCGGCCAAGACCGGCCAGGGCGTGGATGCGCTGCTGGACGCGATCTCGATCCAGGCCGAACTGCTGGAACTGAAGGCGGTGGCCGATGGCCGCGCCAGCGGTACCGTCATCGAGTCCTCGCTGGACAAGGGCCGTGGCCCGGTCGCGACGGTGCTGGTGCAGCAGGGAAGCCTGAAGAAGGGCGACTACTTGGTGTGCGGCATCCAGTACGGCCGCGTGCGTGCGCTGTTCGACGAGACCGGCAAGCAGCCCGATGCGGCTGGCCCGTCGATCCCGGTGCAGGTGCTCGGCCTGTCGGGCGTGCCTGATGCCGGCGACGACTTCGTCGTCGTCGACGACGAGCGCCTGGCCAAGGACGTGGCGCAGCAGCGCGAAGCCAAGCGCCGCGAATCGCGCCTGGTCGCTTCGGCGGGCAACCGCATGGAAGACATCCTGGCGCAGATGGGCAAGGGCGAGGGGCAGCAGGTCCTCAACCTGGTCATCAAGGCCGACGTGCAGGGTTCGGTGCAGGCACTGAGCCAGGCGCTGGTGGCGCTGTCCAACGACGAGATCCGGATCAACGTGATCCATTCCGGCGTCGGCGGCATCACCGAGTCGGACGCCAACTCGGCGGTCGCCTCCAAGGCCACGGTGATCGGCTTCAACGTCCGTGCCGATGCCTCGGCGCGCAAGATCATCGAGTCCAATGGCGTGGACCTGCGCTATTTCTCGATCATCTACGACGTGATCGACCAGGTGAAGCAGGTCGCTTCGGGCCTGCTGGGCGTGGAGATCCGCGAGGAGATCATCGGTATCGCCGAGGTCCGCGACGTGTTCCGCAGCTCCAAGTTCGGCGCGGTCGCGGGCTGCATGATCGTCGAGGGCGTGGTCAAGCGGAACAAGCCGATCCGCGTGCTGCGCGACAGCGTGGTGGTGTTCGAGGGCGAGCTGGAATCGCTGCGTCGCTTCAAGGAGAACGTCGAAGAGGTCCGCAACGGGACCGAGTGCGGTATCGGCGTGAAGGCCTACAACGACGTCAAGGCCGGCGACCAGATCGAGTGCTTCGAGCGCATCGAAGTGGCGCGCACGCTGTAA	MSQQTTIRKLAELVNTPVEKLLEQLAEAGMKFSGPDQVVTSMEKVKLLGFLKRAHGKADVSAEAGEANKKITLNRRKLQEVTVSAGRSKTTVNVEVRQKRTYVKAEAEAAAANARAVAGKPDDERAEILRKLEESRQRNLAEQQRLAEMDQARADEVANKRREEQAERERLEAERQAAAEEANKAAEVVEAPAAVEPAAAEQAAPVPAAPPKRVPIREELGVVPRSIRTGPPPPATPPRAPARDDRNNSAAPKHKTRGSHAMVSGVEDDDSTKRFAGQLHLSAADRARRTSSSNNRGRPGRPAPGGRRGNDNSRGGGGSHGFERPTAPVVREVAIGDTITVADLAQKLALKGGDVVKALFKMGVMATITQSIDHDTAVLVTEELGHKATRADSADFEDALLAHAEEVQGDATPRPPVVTIMGHVDHGKTSLLDYIRRTKIASGEAGGITQHIGAYHVETDKGVISFLDTPGHAAFTSMRARGAKITDIVVLVVAADDGVMPQTKEAVQHAKAAGVPLIVAVNKIDKSDADPQRVKNELLSEDVVAEEFGGDTQFIELSAKTGQGVDALLDAISIQAELLELKAVADGRASGTVIESSLDKGRGPVATVLVQQGSLKKGDYLVCGIQYGRVRALFDETGKQPDAAGPSIPVQVLGLSGVPDAGDDFVVVDDERLAKDVAQQREAKRRESRLVASAGNRMEDILAQMGKGEGQQVLNLVIKADVQGSVQALSQALVALSNDEIRINVIHSGVGGITESDANSAVASKATVIGFNVRADASARKIIESNGVDLRYFSIIYDVIDQVKQVASGLLGVEIREEIIGIAEVRDVFRSSKFGAVAGCMIVEGVVKRNKPIRVLRDSVVVFEGELESLRRFKENVEEVRNGTECGIGVKAYNDVKAGDQIECFERIEVARTL				NA	NA	NA	NA	NA
BMS020_04447	378	rbfA_2	COG0858	Ribosome-binding factor A	ATGCCGACCAAATCCTTCCACCGCACCGATCGCGTGTCCGCGCAGCTGCGCCGCGAGCTCGGCGTGCTGGTGCATGCCGCGGTGCGCGAGCACGGCCTGCCGTCGGTCAGCGTGTCGGACGTCGAGGTCACCCGCGACATGGCGCATGCCAAGGTGTTCGTGACCGCGCTGCAGCAGGAGCGTTCGGCCGAGGCGGTCAAGGGCCTCAAGGAGATCGCCTACCAGTTGCGCATGTCGCTGGCGCGGGCGATGAAGCTGCGCCACGTGCCGGAGCTGCACTTCCACTACGACGATTCGGTCGATCGCGGCGAGCGTATCGACAATCTGCTGCGCGACCTCGACCTGCCGCCCGCCGGCGGAGACGCGTCGGAGGACTGA	MPTKSFHRTDRVSAQLRRELGVLVHAAVREHGLPSVSVSDVEVTRDMAHAKVFVTALQQERSAEAVKGLKEIAYQLRMSLARAMKLRHVPELHFHYDDSVDRGERIDNLLRDLDLPPAGGDASED				NA	NA	NA	NA	NA
BMS020_04448	909	truB_2	COG0130	tRNA pseudouridine synthase B	ATGTCCCGAATTCCTTTCCGCCGCCTGGATGGCATCGTGCTGCTCGACAAGCCCGCGGGCATGAGCTCGAACGGGGCGCTGCAGGCGGTCCGGCGGCTGTTCCGCGCCGAGAAGGGCGGCCATACCGGCAGCCTGGATCCGTTGGCGACCGGCCTGCTGCCGCTGTGCTTCGGGGAGGCGACCAAGATCGCCGGCCTGCTGCTGGGTTCGGCCAAGGCCTACGAGGCCGAGGTCGTGCTCGGCGTCACCACCGATACCGACGACGCCGATGGCGTGGTGCTGCGCGAGCGGCCGCTGCCGGCGTTGGACGAGGCGGTCGTGGGCGCGGCGCTGCTACCGTTCATCGGGGCGATCGCCCAGCGCGCCCCGGTCTATTCCGCGCTCAAGCAGGGCGGTGAGCCGCTGTACGCCCGGGCCCGGCGCGGCGAGGCGATCGAGGCTCCGGTGCGCCAGGTGCAGGTCCACGCGATCGAACTGCTGGCGCTGGATGGCGCGCGGCTGCGGCTGCGGGTCACCTGCGGATCGGGCACCTACATCCGCAGCCTGGCCCGTGACCTTGGTGAGGCGCTGGGCTGTGGTGCGCATATCGCCGGGCTGCGGCGGCTGTGGGTGGAGCCGTTCCTGGCGCCGGCGATGGTCACCCTGGCCGAACTGGAAGCCGCGGTCGGCGATGGCCGCGACCCGGCGACGGACTGGCTGCTGCCGCTGGGCGAGGGCCTGACCGGGTTCCCACGGCTGGCGCTGGGCGAGGCCGAACTGGCCCGGTTCAGGATGGGCCAGCGGCTGCGCGATCCGGCCTTCCCGGTGGCCGAGGTGGTGGCGGTGTTCGGCCAGGATGGCACGCCGGCCGGCCTCGGCCAGGTCGACGATACCGGCCGGCTGGCCCCGCAGCGCCTGTTCAACCTGTGA	MSRIPFRRLDGIVLLDKPAGMSSNGALQAVRRLFRAEKGGHTGSLDPLATGLLPLCFGEATKIAGLLLGSAKAYEAEVVLGVTTDTDDADGVVLRERPLPALDEAVVGAALLPFIGAIAQRAPVYSALKQGGEPLYARARRGEAIEAPVRQVQVHAIELLALDGARLRLRVTCGSGTYIRSLARDLGEALGCGAHIAGLRRLWVEPFLAPAMVTLAELEAAVGDGRDPATDWLLPLGEGLTGFPRLALGEAELARFRMGQRLRDPAFPVAEVVAVFGQDGTPAGLGQVDDTGRLAPQRLFNL	PGPT0008625_3	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
BMS020_04449	261	rpsO_2	COG0184	30S ribosomal protein S15	ATGTCGATCGACACCCAGAAGGTCATTGAAGACAACAAGCGCAGCGCCCAGGACACCGGTTCGCCGGAAGTGCAGGTGGCCCTGCTGACCGCGCGCATCGAGCTGCTGACCGGTCACTTCAAGACCCACAAGAAGGATCACCACAGCCGCCGCGGCCTGCTGCAGATGGTCAACCGCCGCCGCAGCCTGCTCGACTACCTCAAGAAGAAGGATGGCGAGCGCTACAAGGCCCTGATCGAGAAGCTCGGCCTGCGCCGCTAA	MSIDTQKVIEDNKRSAQDTGSPEVQVALLTARIELLTGHFKTHKKDHHSRRGLLQMVNRRRSLLDYLKKKDGERYKALIEKLGLRR				NA	NA	NA	NA	NA
BMS020_04450	2145	pnp_2	COG1185	Polyribonucleotide nucleotidyltransferase	ATGGTTCACGCAGAACAGCATTCATTCCTCAAGGAAACCCTCGTGGCAAAAATCACCAAAACCTTCCAGTACGGTAAACACACCGTCACCCTGGAGACCGGCGAGATCGCGCGCCAGGCCAGCGGTGCCGTCATCGTCAACGTGGACGAAACCGTGCTGCTGGTCAGTGCCGTCGCCGCCAAGAGCGCGCGCGAAGGCCAGGATTTCTTCCCGCTGACCGTGGACTACGTGGAGAAGTTCTACGCCGGCGGCCGTATCCCGGGTGGCTTCTTCAAGCGCGAGGGTCGTCCGACCGAGAAGGAAACGCTGATTTCCCGTCTGATCGATCGCCCGATCCGCCCGCTGTTCCCGGAAGACTACAAGAACGAAGTGCAGATCATCGCCCAGGTGATCTCGCTGAACCCGGAAGTCGACGGTGACATCCCGGCGCTGATCGGCGCGTCCGCCGCGCTGTCGCTGGCCGGCACCCCGTTCCAGGGCCCGATCGGCGCCGCCAAGGTCGGTTACAAGGACGGCCAGTACATCCTCAACCCGACCGCCACCGAGCTGAAGGAATCGCAGCTTGAGCTGGTCGTCGCCGGCACCAGCAGCGCCGTGCTGATGGTCGAATCCGAAGCCGCCCTGCTGTCCGAGGAAGTGATGCTGGGCGCCGTGACCTTCGGTCACCGCGAACTGCAGAAGGTCATCAACGCGATCAACGAGCTGACCGTCGAAGCCGGCACCAAGCCGTCCGCGTGGGTCGCCCCGGTCAAGAACACCACCCTGATCGGCGCGCTGAAGGATGCCGTCGGCAGCACGCTGGCCGATGCGTTCAAGATCACCGACAAGCTGCAGCGCCGCGACGCGATCGCCGCGATCAAGAAGGACGTGACCGAGCAGCTGGCCGGCCGCGTCGAAGCCGAAGGCTGGGACAAGGCCGAGCTGTCGAAGGAATTCGGCGAGCTGGAATACCGCACCATGCGCGACTCGGTGCTGGACACCAAGATCCGCATCGACGGCCGTGCGCTGGACACCGTGCGCCCGATCGCCGTCAAGGCCGGCGTGCTGCCGCGTACCCACGGCTCGGCGCTGTTCACCCGCGGCGAGACCCAGGCCATCGTGGTCACCACGCTGGGCACCGCGCGTGACGGCCAGATCATCGACGCCGTCTCCGGCGAGTACAAGGAACACTTCCTGTTCCACTACAACTTCCCTCCGTTCTCGGTGGGCGAGTGCGGCCGCTTCGGCGCGCCCAAGCGCCGCGAGATCGGCCACGGCCGCCTCGCCAAGCGCGGCGTGCTGGCGGTGATGCCGTCGATGGAAGAGTTCCCGTACACCATCCGCGTGGTCTCGGAAATCACCGAGTCCAACGGTTCCTCGTCGATGGCCTCGGTCTGCGGCAGCTCGCTGGCGCTGATGGATGCCGGCGTGCCGGTCAAGGCGCCGGTCGCGGGCATCGCGATGGGCCTGGTGAAGGAAGGTGACAAGTACGTCGTGCTGAGCGACATCCTGGGCGACGAGGATCACCTCGGCGACATGGACTTCAAGGTCGCCGGTTCCGCCGAGGGCATCTCCGCCCTGCAGATGGACATCAAGATCGACGGCATCACCGAGGAGATCATGAAGGTCGCGCTGGCCCAGGCCAAGCAGGGCCGCCTGCACATCCTTGGCGAGATGGCCAACGCGCTGACCACCCCGCGCGCCGAGCTGTCGGACTACGCGCCGCGCCTGCTGACGATCAAGATCCACCCGGACAAGATCCGCGAAGTGATCGGCAAGGGTGGCTCGACCATCCAGGCGATCACCAAGGAGACCGGCACCCAGATCGACATCCAGGACGACGGCACCATCGTCATCGCCTCGGTCAACGCGATCGCCGCGCAGGCCGCCAAGGCCCGCATCGAGCAGATCACCTCGGACGTCGAGCCGGGCCGCATCTACGAAGGCAAGGTCGCCAAGATCATGGACTTCGGTGCGTTCGTCACCATCCTGCCGGGCAAGGACGGCCTGGTCCACGTCTCGCAGATCTCCAGCGAGCGCGTGGAGAAGGTCAGCGACAAGCTGAAGGAAGGCGACGTGGTCAAGGTCAAGGTGCTGGAAGTCGACAAGCAGGGCCGTATCCGCCTGTCGATCAAGGCCGTCGAGGAAGAGGGCGCCGGCGAGTAA	MVHAEQHSFLKETLVAKITKTFQYGKHTVTLETGEIARQASGAVIVNVDETVLLVSAVAAKSAREGQDFFPLTVDYVEKFYAGGRIPGGFFKREGRPTEKETLISRLIDRPIRPLFPEDYKNEVQIIAQVISLNPEVDGDIPALIGASAALSLAGTPFQGPIGAAKVGYKDGQYILNPTATELKESQLELVVAGTSSAVLMVESEAALLSEEVMLGAVTFGHRELQKVINAINELTVEAGTKPSAWVAPVKNTTLIGALKDAVGSTLADAFKITDKLQRRDAIAAIKKDVTEQLAGRVEAEGWDKAELSKEFGELEYRTMRDSVLDTKIRIDGRALDTVRPIAVKAGVLPRTHGSALFTRGETQAIVVTTLGTARDGQIIDAVSGEYKEHFLFHYNFPPFSVGECGRFGAPKRREIGHGRLAKRGVLAVMPSMEEFPYTIRVVSEITESNGSSSMASVCGSSLALMDAGVPVKAPVAGIAMGLVKEGDKYVVLSDILGDEDHLGDMDFKVAGSAEGISALQMDIKIDGITEEIMKVALAQAKQGRLHILGEMANALTTPRAELSDYAPRLLTIKIHPDKIREVIGKGGSTIQAITKETGTQIDIQDDGTIVIASVNAIAAQAAKARIEQITSDVEPGRIYEGKVAKIMDFGAFVTILPGKDGLVHVSQISSERVEKVSDKLKEGDVVKVKVLEVDKQGRIRLSIKAVEEEGAGE				NA	NA	NA	NA	NA
BMS020_04451	1068			hypothetical protein	ATGGCCTGCCCGCGCCTGTCCTGGTTGTCGCTGTCGCTGGCCGCATGCGCCTGGCCGGCGGCCGCCGCGGAGGTCTGCGACCTGCCGCCGCGCTATGGCACCAGCCCGGCCGCCGTGGCGATCGTGCGCGCAGCCTGCAACGAGCACCGGCTGTGGATGCGGCCGTTCATCGACGTCCACGGTCGCGTCGCCAGCCTCGGCATCACCGAGGCCGAGACGGGCAGCCTCGCCGATCACGGCCTGATCGCCTGGCAGCGCGTGGTCGGCTACTGGCGCGACAGCGGCCTGCTGTCGGCCGCCGGCGACCGCGACGGTGCACACAGCTGCATGGCCCTGGACGGCAGCCGCTTCACCGCCAGCGATTGCCGCGCCTTCCTGATCGACACGCCCTGGTCCGCCGCGTTCGTGTCCTGGACGATGGGCCAGGCCGGCCTGGTCGGCTTCAATCGTTCGGCCCGCCACATCGATTACATCCGTGCCGCCTATCACGACGGCGGCAGCGGCCCGTACCAGTTTGCCGACCCGGCCGTCGACAAGCCGGCCCCCGGCGACCTGCTGTGCCTGCTGCGGGGGCGCGACGACGCCATCGGCTTCGCCGGGCTGAAGAGCGCGCTGGGCAACGGCGCCGCGCAGCACTGGAAGTCGCATTGCGACATCGTCGTCGCCGCCAATGTCGGTGGCGACCGCACGCTGTACCTGATCGGCGGCAACGTGCTCAACACGGTGATGATGCGCAAGCTGCCGCTGGATCGCGCCGGCCGCCTGCAGCTGGCCGCGCCGCTGGCGCAGCCGGGGCAGGATGAGGACGCCATGAGCCCTGGCGGCGAGTGCACGCCGGCCCAGGAGGAACTGTGCGATTTCAATCGCCGTGACTGGGCTGCACTACTGAAGCTCAATACAGCCGCGACGCTGGCACCGATGTCGCCCGCCATCATGCCAACACCGCCCGAATCCGCGCCCGCGCCGGCCGCGCCAACCACGATGCCGCCCGGATTCCCGCGCGTGGTGCCACCGCGGCCGACGCCGCCGCCGAAAACCGACGGGGCCGATACCCCCGTCCCAAGGTAA	MACPRLSWLSLSLAACAWPAAAAEVCDLPPRYGTSPAAVAIVRAACNEHRLWMRPFIDVHGRVASLGITEAETGSLADHGLIAWQRVVGYWRDSGLLSAAGDRDGAHSCMALDGSRFTASDCRAFLIDTPWSAAFVSWTMGQAGLVGFNRSARHIDYIRAAYHDGGSGPYQFADPAVDKPAPGDLLCLLRGRDDAIGFAGLKSALGNGAAQHWKSHCDIVVAANVGGDRTLYLIGGNVLNTVMMRKLPLDRAGRLQLAAPLAQPGQDEDAMSPGGECTPAQEELCDFNRRDWAALLKLNTAATLAPMSPAIMPTPPESAPAPAAPTTMPPGFPRVVPPRPTPPPKTDGADTPVPR				NA	NA	NA	NA	NA
BMS020_04452	861	nadC_1	COG0157	Nicotinate-nucleotide pyrophosphorylase [carboxylating]	GTGCCGCTGGTCGCGCCCGACCCGCTGCTGGTCCAGGCCGATGTCGCCCATGCGCTGGCCGAAGACCTCGGCAGCGGCGACGTGACCGCCGCGCTGCTGCCCGACCACGCCGACTGCGCGTATCTGCTGTGCAAGCAGGACGCGGTCATCGCCGGCCGGCCCTGGTTCGACGCCTGCCATCGCGCGCTCGACCCGCAGGTGCGCATCGACTGGCGCATCGACGAAGGCCAGCAGGTCGTCGCCGGTACCGTGCTGGCGACGCTGCAGGGCCGCAGCCGCGCCCTGGTCAGCGCCGAGCGCACTTCGCTGAATTTCCTGCAGACGCTGTCGGCCACCGCCACCACGACCGCGCTCCACGTCGCGGCGGTCGCCGGCACCGGCGCACGCATCCTCGACACCCGCAAGACCCTGCCGGGCCTGCGCATCGCGCAGAAGTACGCGGTGCGCTGCGGCGGCGGCGTCAATCACCGCATCGGCCTGTTCGACACGGTGATGCTGAAGGAAAACCACATCCGCGCCGCCGGCTCGATCGCCGCGGCCATCGCCGCCGCGCGCGCGCAGCAGCCCGGGCTGCCGCTGGTGGTCGAGGTGGAAACCCTGGACGAACTGCGGCAGGCACTGGCCGCCGGCTGCGACCGCATCCTGATCGACGACTTCGACGCGGCCACGCGCCGCGCGGCGGTCGCCATCGCCGCGGCCGCGCCCGGCCCGCGCATCCCGCTGGAAGTCTCCGGCGGCATCGAGCTGACCGGCCTCCGCGCCATCGCCGAGGACGGCGTGGATTTCATCTCGGTCGGCGCACTGACCAAGCACGTCCAGGCCATCGACCTGTCGCTGAAGCTGGGGCCGCCCCCAGCCTGA	MPLVAPDPLLVQADVAHALAEDLGSGDVTAALLPDHADCAYLLCKQDAVIAGRPWFDACHRALDPQVRIDWRIDEGQQVVAGTVLATLQGRSRALVSAERTSLNFLQTLSATATTTALHVAAVAGTGARILDTRKTLPGLRIAQKYAVRCGGGVNHRIGLFDTVMLKENHIRAAGSIAAAIAAARAQQPGLPLVVEVETLDELRQALAAGCDRILIDDFDAATRRAAVAIAAAAPGPRIPLEVSGGIELTGLRAIAEDGVDFISVGALTKHVQAIDLSLKLGPPPA	PGPT0013370_1290	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013370-nadC-K00767	NA	NA
BMS020_04453	270			hypothetical protein	ATGGACCGCAAACTGCTCGACCTGCTCTGCTCGCCCGACACCCGCCAGCCGCTGGCGCAGCTGGAAGCGAAGGGACTGGAAGCGCTCAACCGCGCCATCGCCGCCGGCGACGTGCAGCGCGTCGATGGCAGCGCGCAGGCGCAGACCCTGCGCGAAGCGCTGGTCACCCGCGATCGCAAGCAGGTGTTCCGCGTCGACGACGGCATCCCGGTGCTGCTCGCCGAGGAAGCCATCGCCACCGCACAGGTGGCCGGCTTCCCCGAGAAGTAA	MDRKLLDLLCSPDTRQPLAQLEAKGLEALNRAIAAGDVQRVDGSAQAQTLREALVTRDRKQVFRVDDGIPVLLAEEAIATAQVAGFPEK				NA	NA	NA	NA	NA
BMS020_04454	504	purE_2	COG0041	N5-carboxyaminoimidazole ribonucleotide mutase	ATGACCTCGAACCATTCCGCGCCGCTGGTCGGCATCGTGATGGGCTCCCGTTCCGACTGGGAGACCATGCAACACGCGGCACAGAAGCTCGATGCGCTGGGCGTGCCCTACGAGGTCAAGGTGGTTTCGGCGCACCGCACCCCGGACGTGCTGTTCACCTACGCCGAGCAGGCGGGCGGACGCGGGCTGCGCGCGATCGTCGCAGGCGCCGGTGGCGCCGCCCACTTGCCGGGCATGCTGGCGTCCAAGACCGCGGTGCCGGTGCTGGGCGTGCCGGTGCAGTCCAAGGCGCTCAACGGCATGGATTCGCTGCTGTCGATCGTGCAGATGCCGGCCGGCATCCCGGTGGCGACGTTCGCGATCGGCAATGCCGGTGCCGCCAACGCGGCGCTGTTCGCCGCGGCGCTGCTGGCGCCGGAGTACCCGCCGATCGGCGCGGCGCTGGCGCAGTTCCGCCAGCGCCAGACCGACGACGTGATGGCCGCGGACGACCCGCGCCAATGA	MTSNHSAPLVGIVMGSRSDWETMQHAAQKLDALGVPYEVKVVSAHRTPDVLFTYAEQAGGRGLRAIVAGAGGAAHLPGMLASKTAVPVLGVPVQSKALNGMDSLLSIVQMPAGIPVATFAIGNAGAANAALFAAALLAPEYPPIGAALAQFRQRQTDDVMAADDPRQ	PGPT0021545_1777	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021545-purE-K01588	NA	NA
BMS020_04455	1146	purK_2	COG0026	N5-carboxyaminoimidazole ribonucleotide synthase	ATGACCACGCTCGGCATTCTCGGCGGTGGCCAGTTGGCCCGGATGATGGCGCTGGCGGCCGCGCCGCTCGGTGTGCGCGTGGAGGTGTTCGACCCGGCTGCCGATGCCTGTGCCGGCCAGCTCGCGCCGCTGCGTGTCGGCGCGTTCGATGATCCGCAGGCGCTGGCGGCATTTGCTGCCGGCGTGGACGCGCTGACCTTCGATTTCGAGAACGTGCCGGCCGCAAGCGCGCAGGCGCTGGCCGGCGCCGCGCCGGTGCACCCCAATCCGGGCGCACTCGCGGTGGCGCAGGATCGGCTCAGCGAGAAGACGCTGTTCCGCGAGCTCGGCATCCCGGTGCCGGATTTCGCCGCGGTCGATGATCGCGCCGGGCTGGACGCCGCGCTCGCGGCGATCGGCACGCCGTGCATCCTTAAGACCCGCCGGCTCGGTTACGACGGCAAGGGCCAGTTCCGCATCAAGTCGCCGGCCGACGCCGACGCGGCGTGGGCTGCGCTGGGCGAGCAGGCCGGCAAGGTCGGGCTGATCGTCGAGGCGTTCGTGCCGTTCCAGCGCGAGGTCAGCGTGGTCGCGGTGCGCGGTCGCGATGGCGAGTTCCGCGCCTGGCCGCTGACCGAGAACTGGCATGTCGATGGCGTGCTGTCGGCCAGCCTGGCGCCGGCGCGCGCCGACGCCGCGCTGCAGGCGCAGGCAGAGACGCATGCGCGCACGCTGGCCGAGAAGCTCGATTACGTCGGCGTGTTCGCGCTGGAGCTGTTCGTGCGCGACGGTGGCCTGCTCGCCAATGAGATGGCGCCGCGTGTGCACAACTCCGGGCACTGGACCATCGAAGGTGCGGAGACCTCGCAGTTCGAGAACCACGTGCGCGCGGTGCTCGGCCTGCCGCTGGGCAGCACCGCGATGCGCGGCCATGCGTGCATGCTCAATTGGCTCGGGCAGATGCCCGACGCCGCGGCGTTCCTGGCGGTGCCCGGTGGGCACTGGCACGACTACGGCAAGCAGCCGCGCGACGGCCGCAAGGTCGGCCACGCGACGCTGCGTGCGGATGCGCCGGCGGCGTTGGCACAGGCACTGGAAGCGGCGGCCGCGGTGCTGGGCCGTCAGCCGCAGGTGGCGCCGGTGCTGGAGCGGTTGGTGCAGGGCTGA	MTTLGILGGGQLARMMALAAAPLGVRVEVFDPAADACAGQLAPLRVGAFDDPQALAAFAAGVDALTFDFENVPAASAQALAGAAPVHPNPGALAVAQDRLSEKTLFRELGIPVPDFAAVDDRAGLDAALAAIGTPCILKTRRLGYDGKGQFRIKSPADADAAWAALGEQAGKVGLIVEAFVPFQREVSVVAVRGRDGEFRAWPLTENWHVDGVLSASLAPARADAALQAQAETHARTLAEKLDYVGVFALELFVRDGGLLANEMAPRVHNSGHWTIEGAETSQFENHVRAVLGLPLGSTAMRGHACMLNWLGQMPDAAAFLAVPGGHWHDYGKQPRDGRKVGHATLRADAPAALAQALEAAAAVLGRQPQVAPVLERLVQG	PGPT0021550_1642	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021550-purK-K01589	NA	NA
BMS020_04456	579	sodB_2	COG0605	Superoxide dismutase [Fe]	ATGCCGATCGAACTGCCCGCCCTGCCCTATCCCGCCAGCGCCTACGCGCCACACCTGTCGGCGTCGGCCCTGGAATGCCACCACGGCCAGCACCACCGCAGCCACGTCGATGCGCTCAACGCGCTGATCGCCGGCAGCGAGTTCGCCGACCTGGCGCTGGAGGAACTGTTGCAGCGGGCGCAGGGCGCGACGTTCGAGCACGCCGCACAGGTGTGGAACCACAATTTCTACTGGCAATGCCTGCGCCCGCGCGGCGGCGGCGACCCCGTCGGCGCCCTCGCGGAGCGGATCGCACACGCGTTTGGCGACGTGGCGCGCTTTCGCCAGGAATTCGACCGGGTCGCCAGCGGCCTGTTCGGCTCCGGCTGGGTGTGGCTGGTACAACGCCCCGACGGCGCGCTGGCGGTGGTTGCGATGCCGAACGCCGGCACGCCGATGACCGGCGCGGACATCCCGCTGCTCGCCTGCGATGTCTGGGAACATGCCTATTACGGCAACCACCACAACGCCCGCGCGGCCTATCTCGACGCGTTCTGGAAGCTGGTCAACTGGGAGTTCGTCGCCAGCCGGCTGCAGTGA	MPIELPALPYPASAYAPHLSASALECHHGQHHRSHVDALNALIAGSEFADLALEELLQRAQGATFEHAAQVWNHNFYWQCLRPRGGGDPVGALAERIAHAFGDVARFRQEFDRVASGLFGSGWVWLVQRPDGALAVVAMPNAGTPMTGADIPLLACDVWEHAYYGNHHNARAAYLDAFWKLVNWEFVASRLQ	PGPT0004190_6208	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
BMS020_04457	321	grxD_2	COG0278	Glutaredoxin 4	ATGCCGGTGATGGAGCGCATCCAGGCCGAAGTCGAGCGGTATCCCATCGTGCTGTTCATGAAGGGAACGCCGCAGTATCCGATGTGCGGGTTTTCCAGTCGCGCGGTGCAGGCGCTGATCGCTGCCGGCGCCGACCAGCTGCATACCGTCAACGTGCTCGAGGAGCCCGAGGTCCGCGCCAACCTGCCGCGGTTCTCGAACTGGCCGACCTTCCCGCAGCTGTTCATCCATGGCGAACTGATCGGCGGCTGCGACATCACGCTGGAGCTGTTCGAGTCCGGCGAACTCAAGCGCATCGTCACCGAGGCCTACCAACCGTGA	MPVMERIQAEVERYPIVLFMKGTPQYPMCGFSSRAVQALIAAGADQLHTVNVLEEPEVRANLPRFSNWPTFPQLFIHGELIGGCDITLELFESGELKRIVTEAYQP	PGPT0013203_2270	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CHAPERONES,PGPT0013203-grxD-K07390	NA	NA
BMS020_04458	744	yciK_1	COG1028	putative oxidoreductase YciK	GTGATCCACCCGCAGGAACCGACCCTGCCGGCGGCGCTGGCGGGGCGCGTCGTGCTGGTCACCGGTGCGAGCGGTGGCCTGGGTGGGGCGGCGGCGCGCGCATGCGCGCAGGCCGGTGCCAGCGTGGTGCTGCTCGGGCGCAACCTGCGCCGGCTCGAGAAGGTCTACGACGCGGTCGCCGCGCTCGGCCCGGAGCCGATGCTGTATCCGATGGATCTGGCCGGCGCATCGCCGGAGGACCACGCCGAGCTCGCTGCCCGGCTCGAATCGGAACTCGGCCGCCTGGATGGGCTGTTGCACTGCGCCGCCGAGTTTCCGGGTCTGACTCCGCTGGAACTGACCGAGCCGGCCGCCTTCGCGCGGGCGCTGCACGTGGGCGTGACCGCGCGCGCCTGGCTGAGCCGTGCCTGCCTGCCGCTGCTGCGGCGTAGCGCCGATGCTGCCGCGGTCTTCGTCCTCGACGACCCGGCCCGCGTTGGTGGCGCGTACTGGGGCGGCTACGGGGTTGCCCAGCATGCGCAGCATGGGCTGCTGTCGAGCCTGCATGCCGAAACCGCCGCCGGGCCGGTGCGCGTCTCGGCGCTGCAGCCCGGGCCGATGCGCACCGCGCTGCGCGCGCGTGCCTATACCCATCAGGAGGACCACGAAGCGATCGCCCCCGACCGCTATGCGGCCGCCTGCGTCACCTTGTTGTCCATGGCGGGCGCTGCGCACCGCGGTGCGATCTGGAGTCCCCACGCATGA	MIHPQEPTLPAALAGRVVLVTGASGGLGGAAARACAQAGASVVLLGRNLRRLEKVYDAVAALGPEPMLYPMDLAGASPEDHAELAARLESELGRLDGLLHCAAEFPGLTPLELTEPAAFARALHVGVTARAWLSRACLPLLRRSADAAAVFVLDDPARVGGAYWGGYGVAQHAQHGLLSSLHAETAAGPVRVSALQPGPMRTALRARAYTHQEDHEAIAPDRYAAACVTLLSMAGAAHRGAIWSPHA				NA	NA	NA	NA	NA
BMS020_04459	600			hypothetical protein	ATGACCATTCTTTCGGCAGCGCTGCTGCTGTTCCTGATCCTTGATCCGCTGGGCAACATCCCGGTGTTCCTCAGCGTGCTGCGGCCGCTGCCGCCCAAGCGCCAGCGCCTCGTGCTGGCGCGCGAGCTGCTGATCGCGCTGGCGGTGCTGATGGGTTTCCTGTGGGGCGGCAAGTACGCGCTGGAGCTGATGCACCTGCGCCAGGAATCGGTGGCGATCGCCGGCGGCATCGTGCTGTTCCTGATCGGCATCCGCATGATCTTCCCGCGCCCGGAAGGCCTGATGGGCGAGATCCCGGATGGCGAGCCCTTCATCGTGCCGCTGGCGATCCCGCTGGTCGCCGGTCCGTCGGGCATGGCCGCGGTGATGCTGATGGGCAGCAACGAGCCGGCGCGGCTGCCGGAATTCAGCCTGTCGCTGCTGATGGCCTGGGGCGGCACCGCCGCGATCCTGTTCTGCTCGCCGCTGCTGTACAAGCTGCTCGGCCATCGCGCCCTGACCGCGCTGGAGCGGCTGATGGGCATGCTGCTGGTGGCGATCTCGGTGCAGATGTTCCTTGACGGTATCGGCACCTATCTCAAGCTGCCGGTGAGCATCTAG	MTILSAALLLFLILDPLGNIPVFLSVLRPLPPKRQRLVLARELLIALAVLMGFLWGGKYALELMHLRQESVAIAGGIVLFLIGIRMIFPRPEGLMGEIPDGEPFIVPLAIPLVAGPSGMAAVMLMGSNEPARLPEFSLSLLMAWGGTAAILFCSPLLYKLLGHRALTALERLMGMLLVAISVQMFLDGIGTYLKLPVSI	PGPT0029250_2979	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIPLE_ANTIBIOTIC_RESISTANCE,PGPT0029250-marC-K05595	NA	NA
BMS020_04460	2433	btuB_2		Vitamin B12 transporter BtuB	ATGAATTCCCGCCCGCAGTATTCGCTGTCGCTGCTCAGCATGGCGCTCGCCGGCGCGCTCGCCGGTCCGGCCTATGCCCAGAGCACCGATGCCGAAGGACAGACCAGCACCCGCGCCACCGCGTCCAGCACCTCCAACACGACGTCGGCGTATGACACCAAGCGCGTCCAGGAGCTGGATAAGATCAACGTGACCGGGCAGTCGCCGGTGCTGGGGGGCGGCAGCATGCTGATCCAGACCGCGCCGAAGGCGATCTCGACGATGACCCGCGAGGCCATCGAGAAGACCCATGGCGGCAGCAACTTCACCCAGCTGGTCGACACCATTCCGGGCATCGATGCGGCCACGGACGATCCGAGTGGCCTGTCCAACGGCAACTACAGCCTGCGTGGCTTCGACTCGTCGAGCATCGGCATCACCGTCAACGGCGCGCCGATCACCGACACCGGCAGCTACTCGGTGTACGCCACCGAATATGGTGATTCGGAAAACTACAACGACATCACGGTGATGCAGGGCACGCCGAACGTCGACCAGCCCGAGATGGGCGCCACCGGTGGCCAGATCGCCTGGTCAACGCTCGATCCGACCCACGATTTCGGCGTCGACTTCAAGCAGACCGTCGGCACCAGCAACTACCAGCGCACCTTCCTGCGCGTGAACACCGGCGACACCGGTCCAGTGCGCTCGTGGGTGTCGGTGTCGCGCAACAGCGCCGACAAGTGGAAGGGCAAGGGCGACCTGGACGTCACCAAGATCGACGGCAAGAGCCTGTGGCAGATCGATGATGGCAACTCGGTCAGCGCCTCGTTCCAGTACAGCCGGCAGAGCAGCTACTCGTACTACAACCGCAGCAAGTCGGCCATCCAGTCCGACTACGACGGCGACTACAACGAGACCTGGTACGGTTCGGACACCGGCGGCAGCACCAGTGACAGCAACTACTACAAGCTGCGCCGCAATCCGTACAGCAGCATCATGGCCAGCCTCGACGGCGAATTCACCCTGAGCGACACGCTACGCCTGTCGGTGGTGCCGTACTTCTGGTACGGCGATGGCGGCGGCAGCAGCGGCAGCCCGTATTTCTACGAGACCACCAACAGCTCGGTGAACCGCTTCGACTACGTCAATGCGGACCTGAACTACGACGGCGCCATCAGCAGCTATGGCCGCTACACCGCCTACGCCTACTCGCACAGCAAGACCTCGCGCCCGGGCGTGGTCGCCAAGTTCATCCAGGACATCGGCAGCGACCACAGCCTGGTGTACGGCGCGTGGTTCGAGCGCTCGCGCAAGAGCCAGAACCAGGATTTCAGCCGTGTCGACCAGAGCACCGGCGAGCCCTGCGACGTCTGGGCCGACAGCGATGCCTGCACGCTGTACTACCCGGACGGCACGCCGCAGCAGGCGTACCGCACCTACACCGTCACCACGGTGCAGAAGTACTTCGTCCAGGACAACTGGACGCCGACTGACAAGCTCGGCGTGACCCTGGGTCTGTCGTACCTGAGGGCGCGTCGCGAAGGCCACAACTACCAGTGGCCGGGTGCCAACTACACCACCTACGCTAGTGGCCGCTATGCGGAGCTGGGCGGCGAATTCGACAAGAGCTACAGCAAGCTGCTGCCTGCCCTTGGCCTGAAGTACCAGCTCGACGATGCCAACCAGCTGTTCTACGGGGTTGCCAAGACCTTCCGCATCCCGGCGACGAACTCGATCACGCTCAATGCGGCCACCGGCAACGATTCGAGCGCGCCGGAAACCGCGGTCACCCACGATCTGGGCTGGCGCTTCTACGGCCGGCAGTTCGGCCTGGCGGCGATGCTCTACCAGAGCGATTACAAGAACAAGCAGATGTCGAGCTACGACAACGACCTGGCGCTGACCACCTACGTGTGGATCCCCAAGGTCCGCATGCGTGGTTTCAACAGCGAGGCCAGCTACGCGCTGGGTGATGCTTGGAAGCTTTACGCGTCCTACACCTATACCGATGCCGAAGTGCGCAGCGCGCTGGATGCCGGCGACAACGGCGTCTACCCGCTGGCGGGCAAGCAGCTGGCCAACACGCCCAAGAACATCGCCTCGACCCGCGTCAGCTTCGACCATGGTCCGTTCTGGGCCTCGTTCGGCCTGCGCTACAGCGGCCCGCGCTACGGCGACTACATGAACACGGAGAAGGTGGGGGGCTACACCACGGCCAACCTGAGCGCCGGCTACAACTTCGGCGACTGGGGCTGGCTGAAGAAGACCAGCGTGAAGGTCAATGTCGCCAACCTGTTCGACCGCCAGGCCATCACCTGGGCGACCTCGTCGCAGCTGTTGGCGGCGTCGGGGGCGGAGCAGTACGCGGATCTGGACCTGTATTCGACCAGTCCCAGCTATTCGGTACTGGCGCCGCGCACCATTTATGTCACGGTGGGCGCTTCGTTCTGA	MNSRPQYSLSLLSMALAGALAGPAYAQSTDAEGQTSTRATASSTSNTTSAYDTKRVQELDKINVTGQSPVLGGGSMLIQTAPKAISTMTREAIEKTHGGSNFTQLVDTIPGIDAATDDPSGLSNGNYSLRGFDSSSIGITVNGAPITDTGSYSVYATEYGDSENYNDITVMQGTPNVDQPEMGATGGQIAWSTLDPTHDFGVDFKQTVGTSNYQRTFLRVNTGDTGPVRSWVSVSRNSADKWKGKGDLDVTKIDGKSLWQIDDGNSVSASFQYSRQSSYSYYNRSKSAIQSDYDGDYNETWYGSDTGGSTSDSNYYKLRRNPYSSIMASLDGEFTLSDTLRLSVVPYFWYGDGGGSSGSPYFYETTNSSVNRFDYVNADLNYDGAISSYGRYTAYAYSHSKTSRPGVVAKFIQDIGSDHSLVYGAWFERSRKSQNQDFSRVDQSTGEPCDVWADSDACTLYYPDGTPQQAYRTYTVTTVQKYFVQDNWTPTDKLGVTLGLSYLRARREGHNYQWPGANYTTYASGRYAELGGEFDKSYSKLLPALGLKYQLDDANQLFYGVAKTFRIPATNSITLNAATGNDSSAPETAVTHDLGWRFYGRQFGLAAMLYQSDYKNKQMSSYDNDLALTTYVWIPKVRMRGFNSEASYALGDAWKLYASYTYTDAEVRSALDAGDNGVYPLAGKQLANTPKNIASTRVSFDHGPFWASFGLRYSGPRYGDYMNTEKVGGYTTANLSAGYNFGDWGWLKKTSVKVNVANLFDRQAITWATSSQLLAASGAEQYADLDLYSTSPSYSVLAPRTIYVTVGASF	PGPT0003790_11618	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_04461	3198			hypothetical protein	ATGACCCATCCCAACCGTCTTCGTCTGTCCAAGCTCACGCTTGGTCTCGTGGCTGCGCTCGCCGCCGCCCCCGTTTTCGCGCAGAGCACCTCCGCCGGCGTCGGTGGTGTGGTCACCACCAACAGCGGCCAGCCGGTTTCCGGCGCCGAAGTGACCATCACCCACGTCGAATCGGGCACGGTCAGCCGCGCGACCACGGACGAAGCCGGTCGCTATACCGCGCGTGGTCTGCGCGTCGGCGGCCCCTACAGCATCACCATCACCAAGTCGGGTGAAGGCACCAAGACCGAAGATGGCATCTACCTGGGCGTGAATCAGACCGCCAGCGTCAACGCTGCGCTGACCGGTGACCTGACCACGCTGGAGACCGTCAACGCGGTGGCCATGGCCGGTGGCTCGGAAGTGTTCAGCGCGACCAAGACCGGCGCCGGCACCCAGATCGGCCAGGAAAAGATCGAGGCCCTGCCGTCGATCAATGGCAACATCCAGGACTACATGCGTCTGGATCCGCGCGTGGCCTTCGTTGATCGCGCCTCGGGCTCGATCTCGGCCGGCGGCCTGAATCCGCGCTACAACTCGGTCAGCATCGACGGCGTGGCCGCGAGCGACACCTTCGGCCTGGAAGGCAACAACATGGCGACCCGTCGCCAGCCGGTGTCGATGGAGGCCATCGAAGCCATCGACGTCAACCTGTCCAACTACGACGTGAGCATCGCCAGCGCCGCCGGCGCCACCGTCAATGCGGTGACCAAGTCGGGTACCAACGAGTTCCACGGCTCGGTGTATGGCAGTTACCGTGACGGTGACTGGTTCGGCGACAACCCGGACGGCACGCCGTTCAACGGTTTCACCAAGGAAAAGACCTACGGCATGACCCTGGGCGGCCCGATCGTCAAGGACAAGCTGTTCTTCTTCGCCAACTACGAGAAGTTCGAGCAGGCGGCGCCGGGCGCCGATCTGGCGAGCACCGCCTATGGCAAGACCAATGCGGTCATCAACGACGACTTCATCGCGCGTGCCCAGCAGATCGCCCGCGATACCTGGGGCATCGACCCGGGTTCGCTGAGCAGCAACGGCAACACCGATCTGGAAGAGTACGCGTTGAAGCTGGACTGGAACATCAGCGACAACCACCGTGCCAGCGTGCGCTACAGCAAGCTGGACCAGAGCAAGCTGCGCATCAACGGCATGACCAGCAGCGGCGTTTCGCTGAGCTCCTACTGGTACCAGCACGAGAAGTCGATCGAAAGCTACGTCGGCCAGCTGTTCTCCGACTGGTCCGACAACTTCTCGACCGAGTTCAAGGTGTCCTACCGTGATTACTCGGCCATCCGCGTCACCCCGACCACTGCGCCGAGCATCCAGATCCAGTCCGGCACCGATTCGCTGTACCTCGGTACCGAGCTGAGCTCGCAGAACAACATCCTGCAGACCAAGACCTGGAACTACTACGGTGCCGGTACCTGGACGCTGGGCGACCACGACCTGAAGTTCGGCGTGGACTACAGCACCAACGAGATCTACAACTACTTCGCCCAGAACGGCTGGGGTGCGTACATCTTCCAGGGTCTGGACAACTTCGAGGATGGCATCTGGTCGAGCTACCGCCTGGCCGCCGAAACCTCGCCGGGTTCGATTCCGGCCGACTACAAGTCCAACAACCTGGGCCTGTTCGTGCAGGACACCTGGTACGTCAACAGCAACCTGACCCTGACCCTGGGCCTGCGCGCTGACCGCCCGGATACCAGCCCGAACCCGACCTACAACGCCGCGGCGTCCGACACCTTCGGCTACAACAACAGCAAGATCTTCGACGGCGATTTCCTGCTGCAGCCGCGCTTCGGCTTCAACTACGCGTTCGACAGCGAGCGTCCGAGCCAGCTCCGCGGCGGCATCGGCCTGTTCCAGGGTGATGCGCCGCAGGTGTGGGTCGGCAACAGCTACTCCAACACCGGTCTGAACTACACCTCGTACAACCAGACCAGCTACGATCCAAGCGTGCAGTTCTCGCCGGATGGCCTGAACCAGCCGGTGCCGACCGTGGCAGGTTCGAGGCTGCAGAACGTCAACTTCGTCGCCAACGACTTCGAGCTGCCGTCGGTGTGGAAGGCCAACCTGGCGTTCGATGCCGAGCTGCCGTGGTATGGCATCGTCGGTTCGGCCGAGCTGCTGATGACCAAGGTCAAGAGTGGCCTGTACTACCAGTCGCTCAACCTGGGCCCGGGTTACACCGGTCCGGATGGCCGTACCCTGTACTGGAACCCGTCCAAGGTCAGCTGGACCTTGTCGGAGACCGGCAGCAACTCGTCGGCCAGTCGCTATGGGCGCTACAGCAACTACGATTCGGTCTATCTGATCAACAACACCGACAAGGGCAGGACCTCGCAGTTCACCGTGTCGCTGAGCAAGCCGTTCAGCGACACCAGCGACTGGTCCTGGACCCTGGGCTACACCTACACCGACGCAACTGAAGTCGGCCCGCTGACCAGCTCCACCGCCAGCTCGGGCTGGGCGTACCAGTACGCGTTCGACGTGAACTCGGAAACCGAGACCACCTCGCGCTACGAGATCAAGGACCGCATCAGCGGCTCGCTGAACTGGAAGCACAAGTTCTTCGGCGATTACGAGACCCGCGTGGGCCTGGTGTATGAAGGCCGTAGCGGCCGTCCGTTCAGCTACGTCTACGCCAATGACTTCAATGGCGATGGCCGTACCTACAACGACCTGTTCTACGTTCCGGATGGCGACGTGCTGTTCGGCAGCGTGAACTCGGCCGGCCAGTTCGTGGCGGACGCGGCGATGGAAGCCAACTTCAACGCGTGGCTCGCCGCGCACCCGGAAGTGGCCAAGTACAAGGGCGGCTATGCCCCGGCCAACGGTTTCCGTACCGGTTGGGTCAACACCTTCGACGTGCGTATCAGCCAGGAGCTGCCGGGCTTCTTCAAGGGCCACAAGTCGCAGATCTGGCTGGACATCCAGAACGTGGGCAACCTGATCAACAAGGACTGGGGCCACATCGTCGATTACGGCTTCTATGCCGATGCCTCGGTGGCGCGTCTGGCTGGCATCTACAACGGCCAGTACGTGTACAACTACACCGGCACGAGCAGCCCGACCGCGGCCAACGCCGATGCCGACGGCTTCAACGTCGGTGTGTCGCAGTGGTCGATGCAGGTGGGCTTCCGCTACGAGTTCTGA	MTHPNRLRLSKLTLGLVAALAAAPVFAQSTSAGVGGVVTTNSGQPVSGAEVTITHVESGTVSRATTDEAGRYTARGLRVGGPYSITITKSGEGTKTEDGIYLGVNQTASVNAALTGDLTTLETVNAVAMAGGSEVFSATKTGAGTQIGQEKIEALPSINGNIQDYMRLDPRVAFVDRASGSISAGGLNPRYNSVSIDGVAASDTFGLEGNNMATRRQPVSMEAIEAIDVNLSNYDVSIASAAGATVNAVTKSGTNEFHGSVYGSYRDGDWFGDNPDGTPFNGFTKEKTYGMTLGGPIVKDKLFFFANYEKFEQAAPGADLASTAYGKTNAVINDDFIARAQQIARDTWGIDPGSLSSNGNTDLEEYALKLDWNISDNHRASVRYSKLDQSKLRINGMTSSGVSLSSYWYQHEKSIESYVGQLFSDWSDNFSTEFKVSYRDYSAIRVTPTTAPSIQIQSGTDSLYLGTELSSQNNILQTKTWNYYGAGTWTLGDHDLKFGVDYSTNEIYNYFAQNGWGAYIFQGLDNFEDGIWSSYRLAAETSPGSIPADYKSNNLGLFVQDTWYVNSNLTLTLGLRADRPDTSPNPTYNAAASDTFGYNNSKIFDGDFLLQPRFGFNYAFDSERPSQLRGGIGLFQGDAPQVWVGNSYSNTGLNYTSYNQTSYDPSVQFSPDGLNQPVPTVAGSRLQNVNFVANDFELPSVWKANLAFDAELPWYGIVGSAELLMTKVKSGLYYQSLNLGPGYTGPDGRTLYWNPSKVSWTLSETGSNSSASRYGRYSNYDSVYLINNTDKGRTSQFTVSLSKPFSDTSDWSWTLGYTYTDATEVGPLTSSTASSGWAYQYAFDVNSETETTSRYEIKDRISGSLNWKHKFFGDYETRVGLVYEGRSGRPFSYVYANDFNGDGRTYNDLFYVPDGDVLFGSVNSAGQFVADAAMEANFNAWLAAHPEVAKYKGGYAPANGFRTGWVNTFDVRISQELPGFFKGHKSQIWLDIQNVGNLINKDWGHIVDYGFYADASVARLAGIYNGQYVYNYTGTSSPTAANADADGFNVGVSQWSMQVGFRYEF				NA	NA	NA	NA	NA
BMS020_04462	1389	ppnN_2	COG1611	Pyrimidine/purine nucleotide 5'-monophosphate nucleosidase	ATGGAAATCAGCAGTACGGCAGCGAGGGCGCTGCCGGTGGTGGACGCACGGGTCTATCCCCGTGGTGGGTTGGACGTGCTGTCGCGGGCAGAGGTTGCCAGGCTGCGCGATGCATCCGCGGGCGGCATGCACGAGCTGCTGCGCCGCTGCGCGCTGGCGGTGCTGACCAGTGGCAGCGCCTCGGACGATCCGCGCGCGGCCCGCGACCTGTATCCCGATTTCGACATCCAGGTGAACCAGCAGGACCGCGGCATCCGCATCGACCTGCTGAACGCGCCGGCGATGGCGTTCGTCGATGGCGAGATCATCCGCGGCGTCGCCGAGCTGCTGTTCGCGGTGGTGCGCGACCTAGCCTACATGGCGATCGAGCTGGGGCCTGAATACGCGGCCGACCTGGAATCGGGCGAGGGCATCACCAACGCGGTGTTCGGACAACTGCGCAACGCGCGCATCCTGCAGCCCAGCGACCCGAACCTGGTCGTGTGCTGGGGCGGCCACTCGATCTCGCGCGACGAATATCTGTACACCAAGCAGGTCGGCTACGAGCTGGGCCTGCGCGGGCTGGACATCTGCACCGGCTGCGGCCCAGGCGCGATGAAGGGGCCGATGAAGGGCGCCACCATCGCCCATGCCAAGCAGCGTCGCGCCGAGACCCGCTACATCGGCGTGACCGAGCCGGGCATCATCGCCGCGGAGTCGCCGAACCCGATCGTCAACCACCTGGTGATCATGCCGGACATCGAGAAGCGCCTGGAGGCGTTCGTCCGCATCGGCCACGGCATCATCGTGTTCCCGGGTGGCGTCGGCACCGCCGAGGAGATCCTGTACCTGCTCGGCATCCTGTTGAGCGAGCAGAACCGCGAGCTGCCGTTCCCGCTGGTGTTGACCGGGCCGACCATTGCCGCGCCGTATTTCGAGCAGATCGACCGTTTCATCCGCCTGACCCTGGGCGAGGAGGCGGCCTCGCGCTACCAGATCATCGTAGGCGACCCGGTTGCGGTGGCGCGGGCGATGTCGGCGGGCATCGGCGAGGTGCGCGCGTTCCGCAAGGCGCACAAGGACTCGTTCTACTTCAACTGGGCGATCGACATCCCGCTGGAGTTCCAGCAGCCGTTTGCCCCCACCCACGAGGCGATGGCCGCGTTGCAGCTGCATCCGGGGCGTCCGCCGTCGGCGCTGGCCGCGGACCTGCGGCGCGCGTTCTCGGGCATCGTGGCCGGCAACGTGAAGGAAGACGGCATGCGCCGCATCGAGGAGTTCGGCCCGTTCGAGATCCATGGCGATCCAGCCATGATGCAGGCCCTGGACGAGTTGTTGCGCGCCTTTGTCGAACAGCGCCGGATGAAGATCGCCGGCGAATACCGCCCCTGCTATCGCGTGGTGACCTGA	MEISSTAARALPVVDARVYPRGGLDVLSRAEVARLRDASAGGMHELLRRCALAVLTSGSASDDPRAARDLYPDFDIQVNQQDRGIRIDLLNAPAMAFVDGEIIRGVAELLFAVVRDLAYMAIELGPEYAADLESGEGITNAVFGQLRNARILQPSDPNLVVCWGGHSISRDEYLYTKQVGYELGLRGLDICTGCGPGAMKGPMKGATIAHAKQRRAETRYIGVTEPGIIAAESPNPIVNHLVIMPDIEKRLEAFVRIGHGIIVFPGGVGTAEEILYLLGILLSEQNRELPFPLVLTGPTIAAPYFEQIDRFIRLTLGEEAASRYQIIVGDPVAVARAMSAGIGEVRAFRKAHKDSFYFNWAIDIPLEFQQPFAPTHEAMAALQLHPGRPPSALAADLRRAFSGIVAGNVKEDGMRRIEEFGPFEIHGDPAMMQALDELLRAFVEQRRMKIAGEYRPCYRVVT	PGPT0021310_104	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021310-ppnN|ygdH-K06966	NA	NA
BMS020_04463	1071			hypothetical protein	ATGCCGCCCCGCCCGCCTTCCAGCCCCTCCTCCACCGCCCCCGGCACGCCGCTGGAGATGCTGTGGCAGCCGCCGGTGGTGATTTCAGTGGTCCTGGCCGGCGAAATGCTGGCGGCAATCCTGGCGCTGGCGCCGGGCATCGATGGCAGCCGCTGGATGCACTTCGGCCTGGTCTCGCTGCTGGTGCAATGGATCAGCCTGCTGACCCTGACCGTGCTGTCGCTGCTGCGCCGTCGGCTGGAACGGCTGCGTCCACTGGCCGTGGCCTACTTCGCCTTCGCCGCGCTATTGCTGATCACCGGCGCGGTCTGTGCACTGGTCTGGCTGGCGATGCGCAACCTGCTGCGCCTGCCGGACGATGCCTGGTGGGCGCTGTGGCTGCAGTTCAGCGGCATCGCGCTTGCGGTTGGGCTGGTCGGGCTGGCCATCTTCCAGAACTACTGGAACGCCCGGCAGCTGGCGGTGCGCGCCAAGCAGGCCGAACTGGACGCGCTCCAGGCCCGCATCCACCCGCACTTCCTGTTCAACACCCTCAACACCGCGGTGGCGCTGATCCACCAGCGCCCGGAAGCGACCGAGCAGCTGCTGCTGGATCTGGCCGACCTGTTCCGCGCCGCACTGGCCGGCCCCAACCAGGTGGATCTGGCACGCGAACTGGCCTTGACCCGGCGCTACCTGGAGATCGAAACGCTGCGCTTCGGGCCGCGTCTGCGCGTGCAGTGGGAGCTGCCTTCGCCACTCCCGGGCCTGGCGGTGCCGACGCTGGGCATCCAGACCCTGGCCGAGAACGCGGTGCGCCACGGCGTGGAACCGTCCGCCAGCGGCGGAACGGTGACCATCGCGATGACGCCCGACCTCGACGCAGGCACCTGGGAGATCCGCATCAGCAACGACCTGCCCGACGCCGCGGGCCGCACGAACACCGGCCATCGGATCGGGCTGGAGGCCGTGCGCAGCCGCGTACACCAGCTGACCGGTGGCCGCGGCCGGGTCGAGACCGGCGTGGCCGATGGCCGCTACATCGCGACCATCGTGCTCCCGCGCGGCGTGGCTCAGGTCACCACGCGATAG	MPPRPPSSPSSTAPGTPLEMLWQPPVVISVVLAGEMLAAILALAPGIDGSRWMHFGLVSLLVQWISLLTLTVLSLLRRRLERLRPLAVAYFAFAALLLITGAVCALVWLAMRNLLRLPDDAWWALWLQFSGIALAVGLVGLAIFQNYWNARQLAVRAKQAELDALQARIHPHFLFNTLNTAVALIHQRPEATEQLLLDLADLFRAALAGPNQVDLARELALTRRYLEIETLRFGPRLRVQWELPSPLPGLAVPTLGIQTLAENAVRHGVEPSASGGTVTIAMTPDLDAGTWEIRISNDLPDAAGRTNTGHRIGLEAVRSRVHQLTGGRGRVETGVADGRYIATIVLPRGVAQVTTR	PGPT0025360_357	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_EXTERNAL_SIGNAL_SENSING,PGPT0025360-algR-K08082	NA	NA
BMS020_04464	552			hypothetical protein	ATGCTGAGGATCACGGAAGGCGTCGGCAGCCGGCGCACCTGGCGCGGGGGGCGTGCCGGGATGGCAGGCTTCAGCCTGCTCGAATTGATGACCACGGTCGCGGTACTGGCAGTGCTGCTCGGCATCGCCATTCCCAGCTTCACCATGCTGATCAATAGTAATCGCCTGACCTCGCAGGCCAATGAGCTGGTGGCGTCGTTGCAGTACGCGCGCTCCGAGGCGGTGCGCCTGAACAACCGGGTCACGCTGTGCCCGTCGACCGATGGCAGCACCTGCGGCGGCGACGACTGGGCGCGGACCATCACGCTGCGCGCCAGCGACGACGTGGTGCTGCGCGACACCGCCAGCGCCGGAAAAACCGTCATCAGTGCCGATGTCGACAGTGTGACGTTCTCTTCCGATGGGCTGGCCCGCGACGCGGCCGGCCTGCTGGCCGCGGCCAACATCACAGTGTGCATCGACACCACGCGCCCGGCCGAGAACCGGCGTGTGGTCGCGCTGGCCGGTGGTTCGCGTGTTTCCATCCAGCAGGCCACCGGGACCTGCCCCTGA	MLRITEGVGSRRTWRGGRAGMAGFSLLELMTTVAVLAVLLGIAIPSFTMLINSNRLTSQANELVASLQYARSEAVRLNNRVTLCPSTDGSTCGGDDWARTITLRASDDVVLRDTASAGKTVISADVDSVTFSSDGLARDAAGLLAAANITVCIDTTRPAENRRVVALAGGSRVSIQQATGTCP	PGPT0016065_705	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0016065-fimT-K08084	NA	NA
BMS020_04465	495			hypothetical protein	GTGAACGCAATCCTTTCCCCGCGCCCGGCGCGCGGCCAACAGCGCGGCGCCAGCCTGATCGAGGTGATGATCGCGGTGCTGGTGATGGCGATCGGCCTGCTCGGGGTCGCCGCGATGCAGACCGCGGCGCTGCGCAACAGCCAGAGCTCGCTGGAGCGCAGCCAGGCGGTGATTTCCACCTATACCGTGCTGGACGCGATGCGCGCCAATCGCCAGGTTGCCCTGGACGGTGGCTACAACACCGGCGGCTTCATCTGCTCGGCGTCGGGCACCGCTTCGCTGGCCGAGGTCGACAAAGCGGCCTGGTTGAACGGCTGGCGGACCGCGCTTGGCGTCACCGGGACCGATGAAAGCGCCTGCGGCAGCATCAGCTGTGCCAGCGGCATCTGCGAGATCCAGCTGCGTTGGGACGACAGCCGGGCCACCGATGCCGGCGACGGCGCCAAGGCGCAATCCAGCGACGAACAGACTTTCCGGACCAAGGTGCAGCTATGA	MNAILSPRPARGQQRGASLIEVMIAVLVMAIGLLGVAAMQTAALRNSQSSLERSQAVISTYTVLDAMRANRQVALDGGYNTGGFICSASGTASLAEVDKAAWLNGWRTALGVTGTDESACGSISCASGICEIQLRWDDSRATDAGDGAKAQSSDEQTFRTKVQL	PGPT0015975_633	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015975-pilV-K02671	NA	NA
BMS020_04466	1008			hypothetical protein	ATGACGGCGGCGATGCGGTTCCGGCTGCGGCGCGGTGCGCGCCTGCAGTCCGGCTTCAGCTTGATCGAACTGATGATCGCGATGGTGCTCGGCCTGCTGGTGGTCGGCGCTGCGATCGGTATCTTCATTTCCAATCGCCAGGCGTACCAGGCGACCGAGGGTGTTGGGCGGATCCAGGAGGGCGTGCGGACCGCGTTCGAACTGATGGCGCGCGACGTGCGCGAGGCGGCCGGCAATCCCTGCGTCAACAACCTGCCGATCTCCAACGTGATCAACAGCTCCGGGAGCAATTGGTGGAGCAACGTCAACCAATGGGCCGATGCGTTCCGCGGGTTTGGTAGTGGTGACACGATGACGGGGCTGGATACCGGCACCGCCAGCGGCCAGCGCCTGGCCAATACCGAGGCGGTGCAACTGTTCGCCGCCGACGAGAACGTCGCCACGGTCAGCGCGCACGATACCGGCAGCGCCAAGTTCACCGTCAACACCAACAGCCACGGCATCGCCGCCGGCGATCTGGCCATGGCCTGCAATGCGCGCCAGGCCTCGATCTTTCAGGTCTCCTCGGTCAGCGGTGCGGACATCTACCATGCCGCCACCGGGACCCCCGGCAACTGCACCACCGGGCTCGGCATTCCGGCTACCTGCGGCGCCGGTGTGGCATTTGCCTACACTGCGCCGAACTCGGTGCTGGTCAAGATCCACGCCTCGCGCTGGTACATCGGCAATGGCACCAAGGGGCCGTCGCTGTACCAGCAGGTCGCCACCGCCAACGGCACCGTGACCACCCAGGAAGTCGCCGAGGGCGTGTCCGACATGAGCGTGCTGTACCTGGTGTCGGGCCAGACCACCTACCAGGCCGCGTCGGCAGTGGGCAGCAACTGGGGCGATGTCACCGCCGCGCGCATCGCGTTGACCCTGACCGGCACCGACCGCACCGGTCCGAGCGGCGAGCCCATCGAGCGCCAGTTGATCCATGTCGTCAGCCTGCGGAACCGCAACCCATGA	MTAAMRFRLRRGARLQSGFSLIELMIAMVLGLLVVGAAIGIFISNRQAYQATEGVGRIQEGVRTAFELMARDVREAAGNPCVNNLPISNVINSSGSNWWSNVNQWADAFRGFGSGDTMTGLDTGTASGQRLANTEAVQLFAADENVATVSAHDTGSAKFTVNTNSHGIAAGDLAMACNARQASIFQVSSVSGADIYHAATGTPGNCTTGLGIPATCGAGVAFAYTAPNSVLVKIHASRWYIGNGTKGPSLYQQVATANGTVTTQEVAEGVSDMSVLYLVSGQTTYQAASAVGSNWGDVTAARIALTLTGTDRTGPSGEPIERQLIHVVSLRNRNP	PGPT0015980_512	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015980-pilW-K02672	NA	NA
BMS020_04467	528			hypothetical protein	ATGAATCGCATGTCCCTTGACCATGGCCGCCAGCGCGGCGCGTCGCTGATCGTCGTGCTGATCCTGCTGCTGGTGATGACGCTGCTCGGCCTGGCCGTGCTGCGCAACACCACGCTGGAGGAGCGCATGACCGCCAACCTCTACGACCGCAGCCTCAGCTTCCAGGCTGCGGAATCCGCGCTGCGCCAGGGCGAGGCGCTGGCGGACACGACGGCCGTCTCCTCGGTGCCGTCGAGTGGTTGCAGCAACGGTGTATGCGGCACGCCGGTGGCGACCAATACCGATCGCTGGCTCGACACCAGCACCACCTGGCGCGATGCGACCAACGACCTCGCCGACGACGATACGCCGATGCCCGATGCCCAGTACATCATCGAGTACATGGGCGACGCGCCGACCTGGCCGGCCTGCGACCGCAAGGTGCCGGTCGACGCCCAGTGCCTGGCGCCGCGCTTCCGCATCACCGCGATCTCGTCCGAGGACGGGCGCTCGACCGTGATGCTCCAGACCAACTACATCGCTCAGTGA	MNRMSLDHGRQRGASLIVVLILLLVMTLLGLAVLRNTTLEERMTANLYDRSLSFQAAESALRQGEALADTTAVSSVPSSGCSNGVCGTPVATNTDRWLDTSTTWRDATNDLADDDTPMPDAQYIIEYMGDAPTWPACDRKVPVDAQCLAPRFRITAISSEDGRSTVMLQTNYIAQ	PGPT0015985_472	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015985-pilX-K02673	NA	NA
BMS020_04468	3801			hypothetical protein	ATGCGCAAGCCTCAGCCCAAGATCGCACCGCTGTCGTGGCATCGCCGCATCCTCGCGCGCGCCACGCCGGTCCTGTGCGCCTATTTCGCCACGCTGCTGGCGATCCCGGTGAACGCGGCGATCACGCTGCCGACCGACCCGCTGACCACGGCCAGCCGCGTGCCGCCGAACGTGTTGTTCATCCTCGACAACTCCGGGTCGATGGCGAGCGACTACATGCCCGACAGCGTGCCGAGGACGACGACCGTCAACGTCGCCTCGCAGGCTTACACCCGCAATACGCTCTATTACAACCCCGCGACCACCTACCAGCCGTGGACCAAGGCGGACGGGACGCTGATGACGGGCGGTACCAGTTATGGTTCGGTCTACACGGACAACTATTTCGTCGACTACAGCGCCACTGGGCCTGCCGGAAGCGGCACGATTTCCACCAGTAGCGGCGTGACCAGCCTGTACAGCAGCGTGCAGACGTTCTATGTGCCGAAAAGCACGACCAGCAACGCGAACTGGGGAGATGGTACGCAGTACTGGCGCTACCAGATCCTGACCGACGGCAGCATCAAGCGGAGTGAGTACGGCACGGTTGCGACGACCGGCGCGCAGTCGGTGGCCATCACCGGAGGCAGCAGTGGGTCGCTCAACAACAACAATTCGTTGACATTGACGCTTGCCAGCGTCAGCGCCGGCAAGGTGTTGGACATCACGATCAACAATCTGACCACCGGCAGTGGGCGTCGTGGTCTGAACTACATCGTCCAGAACCCCTCCGGCGGCGAGCTCTATAACGCCACGCTTGCGAAGAACAGCAGCATAACGCTCTCGGTAAACCCTACCGTGGCTGGGCAGTACAGGGTGATCCTGAGTCGGGACAGTTCGAACAATACGTCCTATTCTGTGACGGCGACGGTGGGGGGCAGTAATGCCTGTGATAGCACTGCGGCCAACGGGACCAGCGGTTGGATCAACTGCGAGTCGCAGCTTCCGTCCAGCCGCACGGCGGCTGAGGAGCTGATCAATTACGCCACCTGGTATTCCTATCACCGCACGCGCTACAAGTCGGCCAAGGCCGGTGCCAGTCAGGCGTTCTCCGAGCTGGGCAATGATGTGCGCGTGGGGTTCCGTACGATCTGGAACGACACCAACATCCCGGCGGGGTCGCGCACCGGCAACATGCCGACGCCGAGCGTGCCGATCCCGGTCAATTACAACGACGGTCTGTTCTCGGACACGGGAACCACGGGAAATACCAACGCATACAACAATCGGACGCAGTGGTACAACCGCCTGTTTACGACGCAGGGTAGCGGCAGCACGCCATTGCGACAGTCGTTGACCGACGCCGGTACCTATTTCGGCAACAGCTCTGCCACCGGCCCTTATGGCCCGTCGACGGGGAGTAGTCAGCTTGCCTGCCGTCAGAACTTCACCATTCTGACCACCGACGGCTACTGGAACGAGAGCGGCTACGAGAACACGACGATCGGCAATGCCGACAACGTGGCCGGTGAGACCATCACCAGTCCGAGCGGTGCAAGCTACAGGTATGACCCGGCCGACGCTGCCAACGCTGCTTATCCGGGTGGTCTGGCCCAGAACAGTGGTAATGGCTCGGCGAACTATTCCACGTTGGCCGACGTGGCCATGTATTACTGGAAGAATGACTTGCGGACGGATCTGGACAACATCGTCCCGACCAACTCCAACGACAACGCGTTCTGGCAGCACATGACCACCTTCACCATCGGCCTTGGCCTGGTGGGAACCGTGAATCAAACCAGCGTGGCCGCAGTGCTGGCCAATCGGGGGGCGACCTATACCTCTGGTGGGACGACGTACGTGGGCTGGCCGACGCCGGTGAACAACTCGATCACCGCGGTGGACGATCTGCTGCACGCGGCAGTCAACGGTCATGGCACCTATGTGGCGGCGAGCAATCCCGAGGAATTCGCCAGCGGCCTGAAGGCGGCGCTGGCAGCGGTGACCGAGCGTACCGGCTCCTTCTCCAGTGTGGCGGCCAACTCCACGTCGCTCGATGCCGGTACCCGGGTGTTCCAGGCGACTTATGTGTCCGGTGTGTGGACTGGCGACGTTGTGGCATACGCGGCGACCACTGACGGCGTGTCGGCCACGGCCAGCTGGCGCGCGTCCCAGAACATTCCGGCGACCCGCAAGCTGTTCACCTCCGACGGTACTACCGGCTTGGCGTTCCCTGGTTCGGCGACCACGACGCAGCTGGCGTCGCTGGAGCGTCTGGGCACGAGCAACTATCCGGTCTCCGGTGCCAATAACGCCGCCTACCTGGCCGGGACGCGGACGTTGGAGATCCAGAACAGCGGCACGCTGCGCAACCGTAACCATGTGCTGGGCGATATCGTCGGTTCTTCGCCGGCGTACGCCAGCGATACCGATACGCTGTACGTGGGCGCCAACGACGGCATGCTGCATGCGTTCGATGCATCCAGCGGCGCCGAACTGTTCGGCTACATTCCCAATGGGATCAACTGGTCCAGTCTGGGAACGTTGAGTCGTCCTGACTACGAACATCGCTACTTCGTCGATGGTCCGGTGGTGGTGTCGACGCGCACCCAGACGCCGAACAAGAACATTCTGGTCGGTGCGCTGGGCAAGGGCGGCAAGGGCTTGTTCGCCCTCGATGTGACCTCGCCGAGCACCTTCGCCGTTGGCAATTTCAAGTGGGAAGTGGGCGGCTCGGATGCCGACATGGGCCTGGTGCAGGCCAAGCCGATCATTGCCAAGCTCAACAACAACGTCACCGCGCTGATCGTCAGTAACGGCCTCAACAGCACCAACGGGCATGCGGTGCTGTTCGTCTACAACCTCGAGACTGGTTCGCTGATCCGCAAGATCGATACCGGAGTCGGGTCCAATGTCACCGATAGCGCCGATTCCAATGGTCTGTCCGGACCGGTGGGCTGGGATGCGGACGGCAATGGCACGGTGGACTACGTCTACGCCGGCGACATGCTGGGTAAGGTCTGGAAGTTCAATCTGAGCGCCACCACTCCGGCGACCTGGGGCGTGGCCAACAGCGGCAACCCGATCTTCTCGGCGACCTATACCAAGAGCGACGGCACCGTGGTGCGCCAGCCGATCACTGGCGGGCTGACCATCGCGATGCATCCGACCACCTATAAGACCTGGCTGTTCTTCGGCACCGGCCGTCTGATGACCACAGGCGACATGACCGATCTGTCGGTGCAGAGCATGTACGGGTTCATCGATGACGGCACGGTGCTCGCGCGCACGGGAACCTCGGCAAATCTGACCCGCCGCTCTGCCGTGGTGACAGGGTCGATCAACGGTAATCCGGTGCGTGCATTCGAGGCCAATTCTGCGCTTCCTGCATCTTCGAAGGGCTGGTACCTGGATCTGGTGACACCGCCGAATTCGCTGGCCGAGGGTGAGCGCATCGTCAGTGACGCGCAGATGCTGGGCGATGTATTGGTGACGTCGAGCGTCATTCCCACGGCGGATGCTTGCCGCGCGGATGGTCGTGGTTACCTCAATGCGCTGGATGCCTTCACTGGCACCAGCACTGGCCCGTCGTTGTTCGACCTGGATGGCGACGGCAGCTTCAACGACGAGACCTTGACCAGTGGCAGCCAGACCCTGCCCGTTGGCTCGGTCGACTTGAACGTGGGTATGCCGACCCTGGCCAACCTGATGCGCGGCCTGGCCGTCGTGGGTGGCTCGTCTGGCAGTACGGGCAGCGTGGCCATCCGTGAAACCCGCAATGTCGGGCGTGTGTCGTGGCGTGAAGTGAAGCGAGGAGATTGA	MRKPQPKIAPLSWHRRILARATPVLCAYFATLLAIPVNAAITLPTDPLTTASRVPPNVLFILDNSGSMASDYMPDSVPRTTTVNVASQAYTRNTLYYNPATTYQPWTKADGTLMTGGTSYGSVYTDNYFVDYSATGPAGSGTISTSSGVTSLYSSVQTFYVPKSTTSNANWGDGTQYWRYQILTDGSIKRSEYGTVATTGAQSVAITGGSSGSLNNNNSLTLTLASVSAGKVLDITINNLTTGSGRRGLNYIVQNPSGGELYNATLAKNSSITLSVNPTVAGQYRVILSRDSSNNTSYSVTATVGGSNACDSTAANGTSGWINCESQLPSSRTAAEELINYATWYSYHRTRYKSAKAGASQAFSELGNDVRVGFRTIWNDTNIPAGSRTGNMPTPSVPIPVNYNDGLFSDTGTTGNTNAYNNRTQWYNRLFTTQGSGSTPLRQSLTDAGTYFGNSSATGPYGPSTGSSQLACRQNFTILTTDGYWNESGYENTTIGNADNVAGETITSPSGASYRYDPADAANAAYPGGLAQNSGNGSANYSTLADVAMYYWKNDLRTDLDNIVPTNSNDNAFWQHMTTFTIGLGLVGTVNQTSVAAVLANRGATYTSGGTTYVGWPTPVNNSITAVDDLLHAAVNGHGTYVAASNPEEFASGLKAALAAVTERTGSFSSVAANSTSLDAGTRVFQATYVSGVWTGDVVAYAATTDGVSATASWRASQNIPATRKLFTSDGTTGLAFPGSATTTQLASLERLGTSNYPVSGANNAAYLAGTRTLEIQNSGTLRNRNHVLGDIVGSSPAYASDTDTLYVGANDGMLHAFDASSGAELFGYIPNGINWSSLGTLSRPDYEHRYFVDGPVVVSTRTQTPNKNILVGALGKGGKGLFALDVTSPSTFAVGNFKWEVGGSDADMGLVQAKPIIAKLNNNVTALIVSNGLNSTNGHAVLFVYNLETGSLIRKIDTGVGSNVTDSADSNGLSGPVGWDADGNGTVDYVYAGDMLGKVWKFNLSATTPATWGVANSGNPIFSATYTKSDGTVVRQPITGGLTIAMHPTTYKTWLFFGTGRLMTTGDMTDLSVQSMYGFIDDGTVLARTGTSANLTRRSAVVTGSINGNPVRAFEANSALPASSKGWYLDLVTPPNSLAEGERIVSDAQMLGDVLVTSSVIPTADACRADGRGYLNALDAFTGTSTGPSLFDLDGDGSFNDETLTSGSQTLPVGSVDLNVGMPTLANLMRGLAVVGGSSGSTGSVAIRETRNVGRVSWREVKRGD	PGPT0015990_465	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015990-pilY1-K02674	NA	NA
BMS020_04469	429			hypothetical protein	ATGTTGACGAATGACAAGGTGGTGTGTGCGCCGCAGCGGCGCCAGGCGGGCTTCACCCTGATCGAGTTGATGATCGTGGTGGTGATCATTGCGGTGCTGGCGGGTATCGCGTTCGCGAGTTACACGCAGCACGTGGTGAAGTCGCGGCGTGCGGCCGCCGCGGTGTGCCTGCAGGAGCGCGCGCAGTTGCTGGAGCGCTACTACACCACGCATCTGTCCTACACGGATGCGCCAGACCCGGCCCAATGCGATGGCATCGAGCAGTTCTATGCGGTGGCGTGGTCGGAGGAGCCTGACGCGCGTACGTACAAGCTGAAGGCGACCCCGCAGGGCGCGCAGGAGCGCGATACCAAGTGTGCGGTGCTGTCGCTGGACCAGGCGGGAACCCGCGAGGTGTCCGGCTCGTCGTCGGTGAGCGAATGCTGGTAG	MLTNDKVVCAPQRRQAGFTLIELMIVVVIIAVLAGIAFASYTQHVVKSRRAAAAVCLQERAQLLERYYTTHLSYTDAPDPAQCDGIEQFYAVAWSEEPDARTYKLKATPQGAQERDTKCAVLSLDQAGTREVSGSSSVSECW	PGPT0015930_724	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015930-pilE-K02655	NA	NA
BMS020_04471	552			hypothetical protein	ATGCAGGCCACACACCGCCGTTCATGTTCCAGCGCCGCCGGCGCTTCCCTGATCGAGGTGGTGACGGCGATGGTCGTGGTCGCCATCCTGGCCTCATTGGCTGCGCCATCGATGGCCGCACTAGTTGAGCGTGGCCGCACGGTCGCCACACTCAACCAGCTTGTCTCGCACATGCACCTGACCCGCAGCTTGGCGGTGAACCAGCGCAGCGACGCGGTGCTCTGCCCCAGCGAGAATGGCCAGTCATGCACCGGCGGCGCCGACTGGAGCGGCGGCTGGATCGCGTTCGCCGATCCGGACGGCGACCATCAGCCGGGCGCGGATGAGCGCGTGGCACTGCATGAGCGGCGCGAAGCCACCATGCCGGTCAGGGTGTATTCGAGTAGCGGCCGGACCCGGCTACGCTATCGCGCCGACGGACTCGCCGGTGGCGCCAATCTCACACTCACCTTGTGCCAGGACGGGCGACTCAGCGCCCGAATCGTGGTGAACAATGCCGGCCGGCCGCGCTCGGAAATGCTTGATGGCAAAGCCTCTTGCCCACTGCAGTGA	MQATHRRSCSSAAGASLIEVVTAMVVVAILASLAAPSMAALVERGRTVATLNQLVSHMHLTRSLAVNQRSDAVLCPSENGQSCTGGADWSGGWIAFADPDGDHQPGADERVALHERREATMPVRVYSSSGRTRLRYRADGLAGGANLTLTLCQDGRLSARIVVNNAGRPRSEMLDGKASCPLQ	PGPT0016065_1395	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0016065-fimT-K08084	NA	NA
BMS020_04472	2013	uvrB_2	COG0556	UvrABC system protein B	ATGAGCGACACGTTCCAGCTCGTATCCCCGTATTCGCCTTCCGGCGACCAGCCGGCGGCGATCGAGAAGCTCACCGCCAACTTCGAGGCCGGGCTGGCGAAACAGGTCCTGTTGGGCGTGACCGGGTCGGGCAAGACCTACACCGTCGCCAACGTGATCCAGCAGGTGCAGAAGCCGACCCTGGTGATGGCGCCGAACAAGACGTTGGCGGCGCAGCTGTACGGTGAGTTCAAGGCATTCTTCCCGCATAACGCGGTCGAGTACTTCGTCAGCTACTACGACTACTACCAGCCCGAGGCCTACGTGCCGTCGTCGGATACCTTCATCGAGAAGGACAGTTCGATCAACGAGCACATCGAGCAGATGCGGTTGGCGGCGACCAAGACCCTGCTGTCGCGTCGCGACGCGGTCGTGGTGGCGACGGTGTCGGCAATCTACGGTCTGGGCGCGCCCGAGGACTACCTGTCCTTGCGGCTGATCCTGTCGATTGGCGAGCGCATCGAGCAACGTCAGCTGATCCGTCATCTCACTGATCTGCAATACACCCGCAATGAGTTCGAACTGACCCGCGGCGCTTTTCGCGTGCGCGGCGAAGTCATCGATGTGTTTCCTGCCGAATCCGATACCGAGGCGCTGCGGATCGAATTGTTCGACGGTGACATCGAGAATCTGACCCTGTTTGATCCGTTGACCGGCGAGACCCTGCGCAAGCTGCAGCGCTACACGGTGTATCCGAAGACCCACTACGCGACCACGCGCGAACGGACGCTGGCCGCCGTCGACACGATCAAGGCCGAGCTGAAGGAACGGCTGGAGCAGCTGTATGCGCAGAACAAGCTGGTCGAAGCGCAGCGCCTTGCGCAGCGGACCCAGTTCGACCTGGAGATGATGGCCGAGGTCGGCTACTGCAACGGCATCGAGAACTACTCGAGGCACCTGACCGGAAAGGGGCCGGGCGAGCCGCCGCCGACGCTGTTCGACTACCTGCCGGCCGACGCGTTGTTGGTGATCGACGAATCGCACGTGACCATTCCGCAGATCGGTGCGATGTACAAGGGCGACCGTTCGCGCAAGGAGACGCTGGTCGAGTTCGGCTTCCGCCTGCCGTCGGCGCTGGACAACCGCCCGCTGCGCTTCGAGGAATGGGAGGCGCGCTCGCCGCGCAGCATCTACGTGTCGGCGACGCCAGGGCCGTACGAGTTGCGCGAGGCGGGCGAGGACATCACTGAGCTGGTGGTGCGTCCCACCGGCCTGATCGATCCCGGGGTGGAGATCCGGCCGGTCGCCACCCAGGTGGACGACCTGATGTCCGAGTGCAACCTGCGCATCGCCCAGGGTGACCGCGTACTGGTCACCACGTTGACCAAGCGCATGGCGGAGAACCTCACCGAATATCTTGGCGAGCACGGCATCCGCGTGCGCTACCTGCACTCGGACATCGACACCGTGGAGCGCGTGGAGATCATCCGCGACCTGCGGCTGGGCAAGTTCGATGTGCTGGTCGGCATCAATCTGCTGCGCGAGGGCTTGGACATGCCCGAGGTTTCGCTGGTGGCGATCCTGGATGCCGACAAGGAAGGCTTCCTGCGCTCGACCGGTTCGCTGATCCAGACCATTGGCCGCGCTGCCCGCAATGTGCGTGGCAAGGCGATCCTCTACGCCGACAAGATCACCCGCTCGATGCAGGCGGCGATCGACGAGACCGACCGTCGGCGGCAGAAGCAGCTGGAATACAACGCCGAGCACGGGATCGTGCCGAAGTCGGTCGCCAGGCCGATCGCTGACATCCTCGAAGGCGCGCGCGACGAGGGCGGCGGCGGCAAGGGCAGGGGCAAGGCCCGCCGTGCCGCCGAGGAGCCAGTGGAGTACCGGGCGCTCGCTCCGGCCGAGGCGGCGGCCCGCATCAAGGTCCTGGAGCAGCAGATGTACCAGCACGCCCGCGACCTGGAGTTCGAGGACGCTGCGCGCGTCCGTGACCAGATCCAGAAGCTCAAGGAGGCCAGCCTTGGCTGA	MSDTFQLVSPYSPSGDQPAAIEKLTANFEAGLAKQVLLGVTGSGKTYTVANVIQQVQKPTLVMAPNKTLAAQLYGEFKAFFPHNAVEYFVSYYDYYQPEAYVPSSDTFIEKDSSINEHIEQMRLAATKTLLSRRDAVVVATVSAIYGLGAPEDYLSLRLILSIGERIEQRQLIRHLTDLQYTRNEFELTRGAFRVRGEVIDVFPAESDTEALRIELFDGDIENLTLFDPLTGETLRKLQRYTVYPKTHYATTRERTLAAVDTIKAELKERLEQLYAQNKLVEAQRLAQRTQFDLEMMAEVGYCNGIENYSRHLTGKGPGEPPPTLFDYLPADALLVIDESHVTIPQIGAMYKGDRSRKETLVEFGFRLPSALDNRPLRFEEWEARSPRSIYVSATPGPYELREAGEDITELVVRPTGLIDPGVEIRPVATQVDDLMSECNLRIAQGDRVLVTTLTKRMAENLTEYLGEHGIRVRYLHSDIDTVERVEIIRDLRLGKFDVLVGINLLREGLDMPEVSLVAILDADKEGFLRSTGSLIQTIGRAARNVRGKAILYADKITRSMQAAIDETDRRRQKQLEYNAEHGIVPKSVARPIADILEGARDEGGGGKGRGKARRAAEEPVEYRALAPAEAAARIKVLEQQMYQHARDLEFEDAARVRDQIQKLKEASLG	PGPT0014920_2231	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014920-uvrB-K03702	NA	NA
BMS020_04474	219			hypothetical protein	ATGGGGATTGTGCGCAGCATGGATGGCTATCGTTTGATGGATATGGAAACGGCCGAGGGGAGCTGGTGTCGTTTCGCCGTCTTTTCCGAATCTGGAAGCCAGCTGACACCGCTGTTGACGCGGGAAGAGGCTGAGATCTGGTTCGAGAATCTCGTCGCCGATGCGCGTGCCGGGGAGCTTGCCGACGAACGGGCAAGGGAGCTTGGTCGGGGGCGCTGA	MGIVRSMDGYRLMDMETAEGSWCRFAVFSESGSQLTPLLTREEAEIWFENLVADARAGELADERARELGRGR				NA	NA	NA	NA	NA
BMS020_04475	1677	virD4		Protein VirD4	GTGTCTAAGGCAAAGGGTTCGTTGCTGATCATTGCGCTGGTGCTGATCGCCGGTTACGCGTTGTCAGGCTATCTGTTGTTGCTGATGCTCGGGCTCGATATGGAGGGCTACGGGATCGGCACCTATTATCGTTACTGGGCGGCACTCGAGCTGCCGCAGGTCGCGCCGTTCGTGTCCAAGATCAAATGGGCCGGCGTGCTGGGTTTCGGGGTTCCCGGGATCCTGGGGGCGCTTGGTCTCGCGTTGCTGCTGAAGCCCAAGAACCGCGCATTGCACGGCGATGCGCGGTTTGCCACTGCATCCGATCTGGGTAAACATGGGCTGTTCAAGAGCGATGGCAATGGCATCGTGGTCGGCAAGTTCAATGGCCGGCTGGTCAGGCTGGCCGGACAGCAGTTCGTGATCCTTGCCGCGCCAACGCGATCGGGCAAGGGCGTCGGCATCGTGATTCCGAATCTGCTTGAGTACCAAGACTCAGTCGTGGTACTGGATATCAAGCAGGAAAACTTTGATCTGACCAGTGGCTGGCGCGCCAGCCAGGGGCACGAGGTGTTCCTGTTCAATCCGTTCGCGGAGGATCGGCGGACCCATCGTTGGAATCCGCTCACGTACGTCTCGTCGGATCCTGCGTTCCGGGTTTCGGATCTGATGAGCATCGCGGCGATGCTCTACCCTGATGGCTCCGATGACCAGAAGTTCTGGGTGAGCCAGGCCCGTAATGCCTTCATGGCGTTCGCGCTCTACTTGTTTGAGAACTGGGATGACGAGCGGGCGATTGGGTTTCCGGGGGGCTCGGGTGCTCCGACGCTTGGTGGGATCTATCGCCTGTCCTCGGGCGATGGAACGGATCTGCGCAAGTACCTGCAATCGCTATCGTCGCGCCCCTTCCTCAGCTCCAACGCGCGTTCGGCATTCGCGAACCTCTTGTCGCAGGCCGACGAGACCTTCGCGTCAATCATGGGTACGTTGAAGGAGCCGCTCAACGCCTGGATCAATCCGGTGCTTGATGCTGCCACCAGCGCGGACGACTTCCTGCTCACCGATTTGCGCAAGAAGAAGATGACCATCTACATCGGCATCCAGCCCAACAAGCTTGCCGAAAGTCGCTTGATCATCAACCTGCTCTTCAGTCAGATCATCAACCTCAACACGCGCGAGCTGCCCAAGAGCAACCCAGTACTGAAGTACCAATGCCTGTTGCTGATGGACGAGTTCACCTCGATCGGCAAGGTGGACATCATTGCCTCGGCGGTGTCCTACATGGCGGGCTACAACATCCGCTTGCTGCCGATCATCCAGAGCATGGCGCAGCTGGATGCGACATACGGCAAGGACGTCTCGCGGACCATCATCACCAATCACGCGCTACAGATCCTCTATGCGCCGCGCGAGCAGCAGGATGCCAATGACTATTCCGAGATGCTTGGGTATACCACGGTGCGACGGAAGAACCTCACCAAGGGGCGTGAGGTAAGTCATAGCTTTTCGGAAGAGCGGCGTGCCTTGATGCTGCCTCAAGAGCTGAAGGCAATGGGCAACGAACAGGAGGTCTTCCTGTATGAGGGTATTCCTCACCCCGTGAAGTGCGAAAAGATCCGCTACTACCAGGACAAGCATTTCACATCGCGCCTGATGAGCAAGATCGATATTCCGACGCTCACGATTCGTCAACTGTGA	MSKAKGSLLIIALVLIAGYALSGYLLLLMLGLDMEGYGIGTYYRYWAALELPQVAPFVSKIKWAGVLGFGVPGILGALGLALLLKPKNRALHGDARFATASDLGKHGLFKSDGNGIVVGKFNGRLVRLAGQQFVILAAPTRSGKGVGIVIPNLLEYQDSVVVLDIKQENFDLTSGWRASQGHEVFLFNPFAEDRRTHRWNPLTYVSSDPAFRVSDLMSIAAMLYPDGSDDQKFWVSQARNAFMAFALYLFENWDDERAIGFPGGSGAPTLGGIYRLSSGDGTDLRKYLQSLSSRPFLSSNARSAFANLLSQADETFASIMGTLKEPLNAWINPVLDAATSADDFLLTDLRKKKMTIYIGIQPNKLAESRLIINLLFSQIINLNTRELPKSNPVLKYQCLLLMDEFTSIGKVDIIASAVSYMAGYNIRLLPIIQSMAQLDATYGKDVSRTIITNHALQILYAPREQQDANDYSEMLGYTTVRRKNLTKGREVSHSFSEERRALMLPQELKAMGNEQEVFLYEGIPHPVKCEKIRYYQDKHFTSRLMSKIDIPTLTIRQL	PGPT0029925_1873	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029925-virD4|lvhD4-K03205	NA	NA
BMS020_04476	429			hypothetical protein	GTGAGGCAAGCGCTACATAACTGCATGATTCTTGTCATCGCCTTGCTGGGCATGGTTGGTTGCGCCACCAAGCAGGCAGCGGATTTCGGCGGCCGTTGGCGTCCGGTCAATCACTTTGCTGAGGCACCGACGGAGATTCCGCTCTATACGTCCTATGTCTATCAGGCCAGTCCGATGGATCGGACGCTGAAGGGCATGCTTTCGCGCTGGGCTGAGGATTCGAACATCCAGCTTGTCTACAACTTGCCTTCCGACTACACGCTGTATGGTCCGGTCTCCGCGATCGCGACGACCAGCCTCCAAGAAGCCGCGCAGGAAGTCTCCCGGGCGTATGTCGGGCAGGGGGTGGAGGTCAGCGTGCAGGGAAGCAAGATCTTGGTCGGGCCCGCAGCGACCGCCGCGCCAGCGACATCTGGCAGTTCGCCCTGA	MRQALHNCMILVIALLGMVGCATKQAADFGGRWRPVNHFAEAPTEIPLYTSYVYQASPMDRTLKGMLSRWAEDSNIQLVYNLPSDYTLYGPVSAIATTSLQEAAQEVSRAYVGQGVEVSVQGSKILVGPAATAAPATSGSSP				NA	NA	NA	NA	NA
BMS020_04477	963			hypothetical protein	ATGTTCCGTAGAAAGGATGGTGACAGGGGGGCGTCGCCCAACGTGGCGGCCGCTGTCCAGAGGGGTGTCAACTACGAGGTCAGCATTGCTGATCTTGCGCGCCGTAGCGAACGTCGCGCCTGGATGGTGGCTGGGCTTTCAATGCTGGTCACGGTGATGACCGCGGGCGGCTACTACTACATGTTGCCGCTCAAGGAGAAGGTGCCATATCTGGTCATGGCGGATGCCTATTCCGGAACGAGCACGGTCGCCAAGCTTGAGCCCAATTTTGGCGGGAAGGTGGTTGGTGCCAGCGAGGCGCTCGCACGCAGTAACGTTGCGCGCTTCATCATGGCGCGCGAAGCGTATGACTTCGCGATGATGGGCCTGCGTGACTGGAATACGGTGTTCGCAATGGCCGGCCCGTCCGTTGCCGCTGATTACCGCGCGCTGCACTCGCCCAATAACCCGAATGCGCCGTACTTCACTTACGGGAAGGTGCGTGCTGTTCGGGTCAATATCCTCAGCATCACGTTGCTTGGCGGAAACGGAAAGCCCTACACCGGTGCCAATGTGCGCTTTCAGCGCAGCGTGTACGACAAGAATTCCGGCGGCAACGCGCTTCTGGACAACAAGTTCGCCACGATGGCTTTCACCTACAAGGACAACCTGCGGATGCCGGAAAGCCTGCGCGTCGAAAATCCATTGGGATTCCAGGTTTCGGACTACCGGGTGGATAACGATTATTCCTCTTTGCCGGCCGCTCCGCCGACCGCGGCGACCGTGTCGCAAGCCCCGGGGCAGGGGGAGATGGCGATGACCCCAGGTAGCGCACCTGCAGAACAGGCAGGCGTAGGCACTCTGCAACAGGCGGGGGCTCCCATGGGAAGCTCGCCTGACGCTGCAGCTGCGGAGGTTCCGCAGACGCAGGTGGTGCCTGTTGGTGCGGGTGATGGCAACGCGAATGGAGCGAACGGCAAATGA	MFRRKDGDRGASPNVAAAVQRGVNYEVSIADLARRSERRAWMVAGLSMLVTVMTAGGYYYMLPLKEKVPYLVMADAYSGTSTVAKLEPNFGGKVVGASEALARSNVARFIMAREAYDFAMMGLRDWNTVFAMAGPSVAADYRALHSPNNPNAPYFTYGKVRAVRVNILSITLLGGNGKPYTGANVRFQRSVYDKNSGGNALLDNKFATMAFTYKDNLRMPESLRVENPLGFQVSDYRVDNDYSSLPAAPPTAATVSQAPGQGEMAMTPGSAPAEQAGVGTLQQAGAPMGSSPDAAAAEVPQTQVVPVGAGDGNANGANGK	PGPT0029900_22	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029900-virB8|lvhB8-K03203	NA	NA
BMS020_04478	762	ptlF_1	COG3504	Type IV secretion system protein PtlF	ATGAAGCGGATCTTTCCTGGTGGCCTGCTGAGCGGCATTGCGCTGATGCTCCTGCCGCTTGCTTCGATAGCGCAGGTGGTGCAGGAGTACGAATACAAGAACGAGCAGATCTATCAGATTCGTACCGGTTTGGGCATCACCACGCAGGTGCAGTTGAGCCCGAACGAGAAGATCCTTGATTACAGCACTGGCTTCAGCAGCGGCTGGGAACTTAGTCGGCGAGAGAACGTTTTCTACCTCAAGCCGAAGAACGTCGACGTGGATACCAATATGGTCATCCGTACCGAGACGCACTCCTACATCCTGGAATTGAGGGTTGTTGCGACGGATTGGCAGCGTCTTGAGCAGGCCAAGCAGGCTGGCGTCCAGTACAAGGTCGTCTTCACCTATCCCAAGGACACAAGCTTCACCGGGGCCGCAGCCGCCGGCGGGCAGGAGGCCAAGGGGGCGCTTGACACGTCGATCGTCAAGGGCCGGCGCTACTACTACGACTATGACTACGCGACGAGGACGAAGAAGTCCTGGCTCATTCCGAGTCGGGTCTACGACGATGGGAAGTTCACTTACATCAACATGGATCTGAATCGCTTTCCGACCGGAAATTTTCCCGCTGTCTTCGGGCGCGAGAAGGAGCATAGCGAAGACTTCCTGGTGAATACCACGGTCGAAGGGAATACGTTGATCGTGCATGGAACCTATCCATTTCTGGTTGTCCGTCACGGAAACAACGTCGTGGGCCTGCGAAGGAATCTGAAAAAGTGA	MKRIFPGGLLSGIALMLLPLASIAQVVQEYEYKNEQIYQIRTGLGITTQVQLSPNEKILDYSTGFSSGWELSRRENVFYLKPKNVDVDTNMVIRTETHSYILELRVVATDWQRLEQAKQAGVQYKVVFTYPKDTSFTGAAAAGGQEAKGALDTSIVKGRRYYYDYDYATRTKKSWLIPSRVYDDGKFTYINMDLNRFPTGNFPAVFGREKEHSEDFLVNTTVEGNTLIVHGTYPFLVVRHGNNVVGLRRNLKK	PGPT0022205_520	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0022205-virB9|lvhB9-K03204	NA	NA
BMS020_04479	1227		COG2948	Type IV secretion system protein virB10	GTGAATCAGAACATCCCGAATAATCCGGAACATGCTGGTTCGCAAACGGGCGCGCCGGGTGCCGACGAGCACGACGCTTACAATGCGGCTGCCGATAGCGAGAATCCCTATTTCGCCAAGCAGAAGCACATCGATTCAGTCGAGCTGGATGCCGGTGAGCCGGTGCTCCGATCGAGCGAGATCAAGCGTCTTAATCGGAAGGCCTTGTTCTTCCTGGCATGCATCGTGGTCGTCCTGATGCTCATCGCGTACTGGCTGCTGGCAAAGGGGGGCGGTGAGCCGCGTAAGACGGCGGCGAAGCCTCGTTCAGAGGCCGTTGAAGTGCCGGCGTTGCCGCAGCAGGTCGCGGGGCAGTCTGCTGGCTCGCGTGGTGCGCGCCCTGTCCCGTTGGCCGAGCGCGCCGACTTGCCGCCATTGCCGCCGATGCCGCGTGAAGTCGAGCCCGAAGCATCTGCCTTCGCTTCCCGCGAGCGTGGCCCGTCTTTACTCGACCGCCGGATCCAAGCTGCCGGCGGCGGTGGCGATGCGACGCCGCAACTCCCGTTCCAGGGCGCCCCTGCGCAATCGTCTGCGTCACCGTTTGGTGCAGAGCAGGCTGGCGCGGATCTTCCCACATCGGCGACTCCCATCCGCAATCCAGACGGATTGCTGGTGCGTGGCACCTATATCCGCTGCGTGCTCGAGACCCGGATCATCACCGACTTCCCGGGCTTTACGTCTTGCATCGTCACTGAGCCTGTCTACTCGATCAATGGACGAAACCTGCTGCTGCCAAAGGGGTCAAAGATCCTCGGGCAGTACGGCGCGATGGAGCCGACAGGTCCGCGCATGCAGGTGATCTGGGATCGGATCACGACTCCGACGGGGATCGATGTCAGCCTGATGGGGCCTGGTGTCGACAACCTGGGCAGTGCGGGTCATCCCGGCCAGTACAGTGCGCATTGGGCGAGCAGGATTTCGTCAGCGATCCTGATCAGCATGATCAGCGATGCCTTCAAATGGGCGGCGGCCGAGCATGGGCCGTCGACCACGACGGTCGGCCTGGGTACCGGGATCATTACCGAGCAGCCCTATGAAAGTAATACGGCCAAGTCGGTGCAGCGTTTGGCGGACCAGGCGCTCGATCGTTCCGGGCGTCGCGCTGCGACAGTCACCATCAACCAGGGTGCCGTGCTCAACGTGTACGTAGCGAAGGACGTGGATTTCACCGCGGTCCTCTCCAACTAA	MNQNIPNNPEHAGSQTGAPGADEHDAYNAAADSENPYFAKQKHIDSVELDAGEPVLRSSEIKRLNRKALFFLACIVVVLMLIAYWLLAKGGGEPRKTAAKPRSEAVEVPALPQQVAGQSAGSRGARPVPLAERADLPPLPPMPREVEPEASAFASRERGPSLLDRRIQAAGGGGDATPQLPFQGAPAQSSASPFGAEQAGADLPTSATPIRNPDGLLVRGTYIRCVLETRIITDFPGFTSCIVTEPVYSINGRNLLLPKGSKILGQYGAMEPTGPRMQVIWDRITTPTGIDVSLMGPGVDNLGSAGHPGQYSAHWASRISSAILISMISDAFKWAAAEHGPSTTTVGLGTGIITEQPYESNTAKSVQRLADQALDRSGRRAATVTINQGAVLNVYVAKDVDFTAVLSN	PGPT0029905_406	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029905-virB10|lvhB10-K03195	NA	NA
BMS020_04480	1044			Type IV secretion system protein VirB11	ATGTCGTTCGAAGACGCGCCCACTGCCGCAGTATCCAATGAATTCCTGGACTACCAATATTCGGTGCTGGGGATCCTGGACTATCTGAATTCGCCCGAGGTGACCGAGATCTGCATCAACCGGCCCGGCGAAATCTATCTCGAGACCTCGGGGGGGTGGCAGAAGGTCGAAGTCCCGTCGCTGACGTTTGATCGCGCGCGGCAGTTCTGCACCGCGGTCGTGAATGAGAGCAATACCGGTCAGCGCATCACCGATGCGGAGCCGGTGGTGTCGCTGACGTTCCCGACCGGGCAGCGTGCGCAGTTTGTGATTCCGCCAGCTTGTGATGCCGGCAAGGTGTCCATCACGATCCGCCTGCCGTCGAAGCACACGAAGACGCTCGAGCAATATCGAAACGACGGCTTTTTCGACAGCGTCCTGGAGAGCCAGCAGGACATCGGCGAGCATGATCGCGAGCTGCTCGCGCTGCGGCGCGAGCGCCGGTATGCCGAGTTCTTCCAGAAGGCAGTCCACTACAAGAAGAATGTGGTGGTCGCGGGTGCGACAGGGTCCGGAAAAACCACGTTCATGAAGGCGCTGGTCAACCATATCCCGATGGAGGAGCGCTTGGTCACCATCGAGGACGCACGCGAGCTCTTCATCAATCAGCCCAACGCCGTCCATCTCCTGTATTCGAAGGGCGGGCAGGGGACCAGCAACGTGACGGCGAAGGCCTGCATGGAAGCCTGCCTGCGCATGAAGCCGGACAGGATCATCCTTGCGGAGCTGCGTGGCGATGAATCCTTCTACTTCATCCGCAACTGCGCCTCCGGTCATCCTGGGTCGATCACCAGCTGCCACGCCGGCAGCACCGAGCAGACCTGGGATCAGCTGGCGCTGATGGTGAAAGCTTCCTCGGAGGGCGCCGGCCTGGAATTCGGTGTCATCAAGCGTCTCCTGCGTATGACGATCGACATCGTCGTGCATATCAAGGCCCACGCTGGCCGGCGCCACATCACCGGAATCGATTTCGATCCTGCGCGTGCGCTACGGGGTGGAGAGTGA	MSFEDAPTAAVSNEFLDYQYSVLGILDYLNSPEVTEICINRPGEIYLETSGGWQKVEVPSLTFDRARQFCTAVVNESNTGQRITDAEPVVSLTFPTGQRAQFVIPPACDAGKVSITIRLPSKHTKTLEQYRNDGFFDSVLESQQDIGEHDRELLALRRERRYAEFFQKAVHYKKNVVVAGATGSGKTTFMKALVNHIPMEERLVTIEDARELFINQPNAVHLLYSKGGQGTSNVTAKACMEACLRMKPDRIILAELRGDESFYFIRNCASGHPGSITSCHAGSTEQTWDQLALMVKASSEGAGLEFGVIKRLLRMTIDIVVHIKAHAGRRHITGIDFDPARALRGGE	PGPT0029910_119	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029910-virB11|lvhB11-K03196	NA	NA
BMS020_04481	852			hypothetical protein	ATGCTGCCCGGCATTGAGATGATGGCATGCCCGGGGATGGCCGTATCTCCGGAGGTTATGCAGCACGTCGTGCAGGTTGAGTCATCGCAGAATCCGTATGCGATCGGGGTCGTTGGCGGTCGTCTGGTGCGGCAACCGCGCTCGCTTGATGAGGCGGTGGCAACGGCGGAGATGCTTGAGGACCGAGGGTATAACTTCTCGATCGGCCTCGGACAAGTGAATCGCTACAACCTGCAGCGCTATGGTCTGGATTCCTATCGCAAGGGGTTCGATACCTGCGCGAACCTGCGTGCCGCTTCCGAGATTCTGTCGGAGTGCTACGGGCGTTCGGGAGGCGATTGGGGCAAGTCCTTTAGCTGTTACTACTCCGGCAACTTCGAGACCGGCTTCCGGCATGGGTATGTCCAGAAGATCTATGCCTCGATGGCCCGCGAGCGCTCCGCTGACGCCACTGCCGCCGCGATTCCGCTGGCAGGCGACACGGGGCGTGCAATGGTTGAGTCGAGGTCGCTGCACGGCGCGGCGATGAAAGTCGCTGATTCGCTGGTATCGCGTCGCGTTGCTGGCCTGGCGTCCTCTCAAGGTGCTGCGATCGCGGCCAGCGAAGAAGAAGCTCCCGAGGTGCCGCCGATGGCGGCAATGCCGGCGCCAGAGGCGCCGGTGCAAGCGACGGTGCGAGCCGCGCCGGCGGCGGGAGCGGACGATGTCGACACCTATGTGATCAGGAAGACCGGGGCAGGCACCGGCGTGGCTGTGCCTGCCTCGGCAATGGCCGCCGGAACGCTGGCAGCCCCGCGCGTGCCACAGCTGCCAATCGCGCAGCAGCGGTCGGACAACGCCTTCGTGTTTTAG	MLPGIEMMACPGMAVSPEVMQHVVQVESSQNPYAIGVVGGRLVRQPRSLDEAVATAEMLEDRGYNFSIGLGQVNRYNLQRYGLDSYRKGFDTCANLRAASEILSECYGRSGGDWGKSFSCYYSGNFETGFRHGYVQKIYASMARERSADATAAAIPLAGDTGRAMVESRSLHGAAMKVADSLVSRRVAGLASSQGAAIAASEEEAPEVPPMAAMPAPEAPVQATVRAAPAAGADDVDTYVIRKTGAGTGVAVPASAMAAGTLAAPRVPQLPIAQQRSDNAFVF	PGPT0029870_36	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029870-virB1-K03194	NA	NA
BMS020_04482	393			hypothetical protein	ATGATGAAGTCGAACATCCAGACCATCGCCACGCATGCCAAGGGGTATGGGCGTCAGGGAATCAAGGCAGCTATGTTCGCTGCGGGTCTTATGGTGGCCAATATGGCGTATGCGGAAGCGGACTATGCAGGCACCGACCAGAAGGTGTGCGGCTTCCTGGATGGTGTGAACGGTCTCTTGAACATGGGTTCGATCGCAGTGGTGACCATCGCCGTGATCATCGCCGGTTACCAGATCGCATTCGCGCACAAGCGTATCTCCGATGTGTCGCCGATCCTGATCGGCGGTGTGCTGATTGGCGCGGCGGGCCAGATCGCCAACATGCTGATTGGTGACACCGGCGAAACCTGCACCGCGGCCGTGATGTCGATCACCACCGGGAACTATGCGTAA	MMKSNIQTIATHAKGYGRQGIKAAMFAAGLMVANMAYAEADYAGTDQKVCGFLDGVNGLLNMGSIAVVTIAVIIAGYQIAFAHKRISDVSPILIGGVLIGAAGQIANMLIGDTGETCTAAVMSITTGNYA	PGPT0029875_28	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029875-virB2|lvhB2-K03197	NA	NA
BMS020_04483	309	ptlB	COG3702	Type IV secretion system protein PtlB	ATGCGTAAGGACGTCCTGTTCCGGGGCTGCACGCGTCCGGCGATGTTCTTGGGGGTGCCCTACATCCCCTTCTTCGTCGGCGCGGGCGGCTGCTTCCTGATGGCCCTCTACTTCCATCTTGCGTTCCTGTTCTGCATTCCGGTGGTGATCTTCGGGATGCAGCAGATGGCCAAGCGCGATGAGATGATCTTCAGGGTGCTGGGACTACGCTGGCGCTTCCGTCTACGTGCACGCAACCTGCAGCGCTACGCCGGGATGTGGGTGTTCAGCCCCAATGAGTACCGCCGGACGCCTCCCGGCAAGCGTTGA	MRKDVLFRGCTRPAMFLGVPYIPFFVGAGGCFLMALYFHLAFLFCIPVVIFGMQQMAKRDEMIFRVLGLRWRFRLRARNLQRYAGMWVFSPNEYRRTPPGKR	PGPT0029880_216	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029880-virB3|lvhB3-K03198	NA	NA
BMS020_04484	2460	virB4_1		Type IV secretion system protein virB4	ATGCTCACGCCAGACAGCCCCATCAGCGAATTCATTCCGATCTCGACGCACGTGGCACCCAATGTGGTGAAGACCACGGCGAGTGACTATCTGCTGACATGGCATCTTTCCGGTCTGCCGTTCGTCGGGCGCGACGAGCACGATCTTGAACACCGGCACGCGACGTTCAACCGCCTGCTGCAGACGCTGCGTGCGCCGGATTTCGCGAATGTCGCGTTCTGGGTCCACGATGTGCGCCGGCGTGGGCGCATCACCAATCGGGGGCGTTTCAAGCAGGCGTTCAACCAGGCGCTTTCGGACCAGTACTTCGAAAGTCTTTCGTCGCAGAAGATCATGCAGAACGACCTGTACTTCACCATGATCTACCGCCCGGTGGTGAGCGGGCGGCGCTTCGTCGAGCGTTCGGCCAGCCACGAACAGCTCCGCTCCGAGGAGGAGCAGGCCGTGGCCAAGGTGATGGAACTGGCCAGCAATGTCGAAGCCGTGCTCAAGGACTACTCGCCGTACCGTCTAGGCATGTACGAGGCGAAGAACGGAGTGGTCTTCTCGGAGACCCTGGAGTTCTTCGGCTATCTGGTGAACCGGATCGAGGAGCCAGTGCCGGTTCTGCAGGCGCCGGTGCCTGCCTACCTTCCCGTCAGCAAGCACATGTTCGCGAACAAGACGGGCGATTTCGTCATTCGTACGCCAAATGGGATCAATCACTTTGGCGCGATTCTCAACGTCAAGGAATATTGCGACGGCACTTATCCAGGCATCCTGAACGGACTCAAGTACCTGGATTTCGAATATATCATCACCCATTCCTTCAGTCCGGTCGGCCGGCATGACGCGCTGAAGATCCTGGACCGTACCAAGGGCATGATGGTGTCCTCGGGCGACAAGTCGTCGACGCAGATCCGTGAGCTCGATATCGCGATGGACGATGTGGCGTCCGGCAATTTCGTACTAGGCGAGTACCACTTCACGATGGCGGTGTATGCCGACAGCCAGGAAAGGCTGGCCACGCAGATCGCCACCACGCGCGCGGAGCTGTCCAATGCCGGGTTCGTATCGGTCAAGGAGGATCTCGCCATTGCCTCGTCCTTCTATGCGCAGTTGCCCGGGAACTGGAAGTTCCGCACCCGGTTGGCGAACCTCAGTTCGTTGAACTTCCTGGGCCTGTCGCCGCTACACAACTTCGCCGAGGGCAAGCAGCGCAACAACCCCTGGGGCGACTGCGTGACCACGCTGCAGACCACGAATGGGCAGCCGTACTACTTCAACTTTCATGCGACCCATCCCGCCGAGAACTCGCTGGGCGAGAAAGTCATCGCCAACACGATGGTGATCGGTAAGTCGGGTACCGGTAAGACCGCCCTGATCAACTTCCTGTTGAGCCAGGTCCAGAAGTTCGATCCGGTGCCGACGATCTTCTTCTTCGACAAGGATCGCGGTGCGGAGATCTTCGTCCGCGCATGTGGAGGCAACTACCTGGCCCTGGAAAACGGCCAGCCGACCGGCTTCAATCCGTTCCAGTGCGAGCGGACCGAGGCCAATGTGCAGTTCCTGGCCGATCTCATCAAGGTGCTTGCTGGGAAGTCGGAGTACAGCGCCCGCGAAGAAGAGGACATTTTCAGGGCTGTGGAGGGGGTGATGGATACGCCGCCCCACCTGCGCACGATGACCAACCTGCGCAAGAGCCTGCCGAACATGGGGGATGATGGGCTGTATGCGCGCCTGCGTCGCTGGACGTCCGGCAATGCGCTGGGCTGGGTATTCGACAATCCGGTCGACACCATCGACCTGCAGAAAGCCCCCATCATCGGGTTCGACTATACCGATGTGATCGACAACGCCGAGGTCCGGGCGCCGGTCATCAACTACCTGCTGCACCGACTCGAGGAGTTGATCGACGGGCGGCCATTGATCTATGTAATGGACGAGTTCTGGAAGATCCTCGACGGCAAGGGCGGGCTCAAGGAGTTCGCCAAGAACAAGCAGAAGACGATCAGAAAGCAGAACGGCCTCGGCATCTTCGCAACGCAGAGCCCCGAAGACGCGCTTGCGAGTGACATCGCGGCTGCCTTGATCGAGCAGACGGCGACGATGGTCCTTCTCCCGAATCCGAACGCCAGTCGCGAGGACTACATCGAGGGCCTCAAGCTGACGGATGCTGAATACCAGGTGGTGGTTTCGCTCGACGAGCGGTCGCGTTGCTTCCTGGTCAAGCAGGGGCATGGCTCGGCAGTGTGTCAGCTGAATCTGCGTGGCATGGATGATGCGTTGGCGGTGATCTCCTCTTCAACCGACAACATTCACATCATGCATGAGGTGATGCAGCGCCGGGCTGATGCGCTGGAGGTGAAGGTCGATGCATTGACGCCGGAGCAATGGCTTGGCGAGTTCTATGCGAACCGGAAGGGGTCCGGTAAGGGCGCCTCCTCATCGCGTGACTCATCAGCCAGGCGCTACGCCTAG	MLTPDSPISEFIPISTHVAPNVVKTTASDYLLTWHLSGLPFVGRDEHDLEHRHATFNRLLQTLRAPDFANVAFWVHDVRRRGRITNRGRFKQAFNQALSDQYFESLSSQKIMQNDLYFTMIYRPVVSGRRFVERSASHEQLRSEEEQAVAKVMELASNVEAVLKDYSPYRLGMYEAKNGVVFSETLEFFGYLVNRIEEPVPVLQAPVPAYLPVSKHMFANKTGDFVIRTPNGINHFGAILNVKEYCDGTYPGILNGLKYLDFEYIITHSFSPVGRHDALKILDRTKGMMVSSGDKSSTQIRELDIAMDDVASGNFVLGEYHFTMAVYADSQERLATQIATTRAELSNAGFVSVKEDLAIASSFYAQLPGNWKFRTRLANLSSLNFLGLSPLHNFAEGKQRNNPWGDCVTTLQTTNGQPYYFNFHATHPAENSLGEKVIANTMVIGKSGTGKTALINFLLSQVQKFDPVPTIFFFDKDRGAEIFVRACGGNYLALENGQPTGFNPFQCERTEANVQFLADLIKVLAGKSEYSAREEEDIFRAVEGVMDTPPHLRTMTNLRKSLPNMGDDGLYARLRRWTSGNALGWVFDNPVDTIDLQKAPIIGFDYTDVIDNAEVRAPVINYLLHRLEELIDGRPLIYVMDEFWKILDGKGGLKEFAKNKQKTIRKQNGLGIFATQSPEDALASDIAAALIEQTATMVLLPNPNASREDYIEGLKLTDAEYQVVVSLDERSRCFLVKQGHGSAVCQLNLRGMDDALAVISSSTDNIHIMHEVMQRRADALEVKVDALTPEQWLGEFYANRKGSGKGASSSRDSSARRYA	PGPT0029885_265	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029885-virB4|lvhB4-K03199	NA	NA
BMS020_04485	807			hypothetical protein	ATGCGCGCATATCAGTCGAGGATCGTGCAGTTCCTTGTTGCCGCCATCGCTCTCTCCCTGTCCGGTGCCGCGTCGGCACAATGGCAAGTGATCGACAATGAGCAGATCTCGCAGAACAAGAGCAATCTCGAAGACCTGAAGAGTAACGACAACGAGAACACCAATAAGCTCAACGACACGCTCACGGATATCTATAACTCCCACAAGATCGGAGCGTCTACTGGCGACAAGCCGAGTGGCGAGGAGGTCGAGGATCCCGAGCAAAAGCTGGAGAAGGTCAGCGAAGACTATGGCATCGCTGCCTGCGCGGGCCAGACCGGCGGAACGCCTGTTGCCGATGAGCAGAAGGAGACCTGCGAGCTGATGCAGCGTACCCGGAACTCGCAGTTCAACTACATGGTCGCGATGCATGAGATCACGACGAAGCGGCTGGAGCGCCTGCGCGAGATCGAGAAGGAGCGGACGAACATCGACGAGACGCAGATCGGAAAGCTCGAGGACAATACGAACAAACTGATCGCGTTGAAGACGCTGATGGACATCGATCGCCAGCAGATGCAATCCGCGATGTTCGCTTATGAAAGTCGGCTCGCCTATCTGTCGCGCCAGCAGACGGCCCAGTCCCGTTCGGCCATGAGCGGCAAGAAGTACGAAGAGGGCAGCGGCGGGGGCATCTTCGACAGCCTGACTGATGGCCTGAAGAGCGCGATCGGAGGGATCGCGGCTGGCGTCGTACTGAAGGGGGCGCTCGAGACGGTCAAGTCCGATCGTCCGGATGGGATGCAGCGGTTGAATATCGACGATTGA	MRAYQSRIVQFLVAAIALSLSGAASAQWQVIDNEQISQNKSNLEDLKSNDNENTNKLNDTLTDIYNSHKIGASTGDKPSGEEVEDPEQKLEKVSEDYGIAACAGQTGGTPVADEQKETCELMQRTRNSQFNYMVAMHEITTKRLERLREIEKERTNIDETQIGKLEDNTNKLIALKTLMDIDRQQMQSAMFAYESRLAYLSRQQTAQSRSAMSGKKYEEGSGGGIFDSLTDGLKSAIGGIAAGVVLKGALETVKSDRPDGMQRLNIDD	PGPT0029890_16	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029890-virB5|lvhB5-K03200	NA	NA
BMS020_04486	1071			hypothetical protein	ATGGATTTCCTGGACGGACTCACTAATTACGCGTTCTTTGTCCTGATCAATGACTATCTCAGGGACGAGATCGACATCTTTCAATGGGAGCTCCTGCAGCGCAGCACCTCCCTGGTTGGCGCGCTCGCGCTGACCGTGTTGACGCTCTGGATCCTGGTCCAGGGCTATCGTGTCGCGACTGGGCAGCTGCGTGAATCGGCGATGTCGGTCGTGGTGACGGCGCTGCGCTCGACCTTGATCATTGCCGTCGCCACCAGCATGGCGATGGGATCGTCCCAGCTGTATTGGACGTTGACTGATGGCGTCAGCGAGGACATCAACAAGCTTGTCAGCGGCAGCACCGACAGTCCGTACGAGCAGATTGACAAGAATCTCGCGATGATGCAGGTCGCGCTGGGTGTGATCGATCAGCTCCAAACGGGCGGCGATGCCCAGCAGGAAGAGGAGAAGAGTCGGGCGCGCTGGTTCTCTGGTCTCGGCATGGCGGGGCCGGGCGTGGTGGCTGGCGCCATGCTGCTGATGAACAAGATCGCCGTGGCGCTGTTCGTGGGCTTCGGACCACTGTTTGTGTTGTCGCTGTTGTTCCAGTCCACCAAGTCGCTGTTCAATCGATGGCTGCTCTACGGGATCGGGACCTTGTTTTCGCTGGCAGTACTCAATGTCATGGTGGCCCTCTCCCTGCGCCTCATTGGCGCGGTTGCCGCTGCATTCCTGGCCAAATGGGCCGCGAGCAGCGCTGGCCTCGATACCGGGGAGGGTGTCAGTAGCATGGCGCTGCAGCAGGGAGGGCTCGGTCTGGTGATGACCACACTGATCATCAGCGCCCCCCCGATGGCGGCCGCTTTCTTCCAAGGAACGCTTGGCCAGTTCTCCGGGTATTCAGCGATGGGGGCCCTGGAGCGAGGGGGGCAACCTGCTGGTGCAGGCGGTGGCTACATTCCGAATAATCCGAGGCAGGAGGGCGGGGGCGTGCAAGGAGATGCACCTATGACGACCAGATATAGCGGTTCCGATGCAGGCTCCGCTGAGGCTCGGTCGGGTTGGCTCGGGCAGGCAAATTCGAGGGAATAA	MDFLDGLTNYAFFVLINDYLRDEIDIFQWELLQRSTSLVGALALTVLTLWILVQGYRVATGQLRESAMSVVVTALRSTLIIAVATSMAMGSSQLYWTLTDGVSEDINKLVSGSTDSPYEQIDKNLAMMQVALGVIDQLQTGGDAQQEEEKSRARWFSGLGMAGPGVVAGAMLLMNKIAVALFVGFGPLFVLSLLFQSTKSLFNRWLLYGIGTLFSLAVLNVMVALSLRLIGAVAAAFLAKWAASSAGLDTGEGVSSMALQQGGLGLVMTTLIISAPPMAAAFFQGTLGQFSGYSAMGALERGGQPAGAGGGYIPNNPRQEGGGVQGDAPMTTRYSGSDAGSAEARSGWLGQANSRE	PGPT0029895_574	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029895-virB6|lvhB6-K03201	NA	NA
BMS020_04487	339			hypothetical protein	ATGAGGATTTTGGCTTCCCTGTTTCTTCTGTTGACGTCGGTGTCGGCGCTGGCACAGTCCAGTGGCTACTACCAAACGCTCGGCTATCGGGCCAACGATCCGTTTGTGTTCTGCACGCAAGGGCAGCGCAATCCAGATAAGTGTTGGATCCCTATGCCGCCATATCTGGGTGGCTACATGATGATGCCGTACTGCGATCCGCCGAATTACTACGGCAAGCCGTGGACGTCTGACGACTGGGCCTCGCTGGCCCAGTACCAGGCGACGTGCCCCATGGCCATTTCCAGCGGGTCTTGGACTGGGCCTGGAATGCCAGAAGCCTCGCCTTTCACGCATTGA	MRILASLFLLLTSVSALAQSSGYYQTLGYRANDPFVFCTQGQRNPDKCWIPMPPYLGGYMMMPYCDPPNYYGKPWTSDDWASLAQYQATCPMAISSGSWTGPGMPEASPFTH				NA	NA	NA	NA	NA
BMS020_04488	1614	malL	COG0366	Oligo-1,6-glucosidase	ATGTCGAACAGTCCATGGTGGCGCGGAGCCGTCATCTATCAGATCTATCCGCGTAGTTTTCTCGATGCCAGTGGCGATGGGGTGGGGGACCTGCCCGGGATCATCGCCCGGCTTGAGCATGTCGCTTCGCTCGGTGTCGATGCGATCTGGGTGTCGCCGTTCTTCAAGTCACCGATGGCCGACTTCGGCTATGACATCGCTGACTACCGTGACGTGGATCCGTTGTTCGGTACGTTGGATGACTTCGATCGCTTGCTCGCCAAGGCACATGCGCTGGGGCTGAAAGTGATGATCGACCAGGTGTTCAGCCACACCTCGGTCGACCATGCCTGGTTCCGCGAGAGTCGTGAGGACCGGACCAACGCCAAGGCCGACTGGTACGTCTGGGCCGATGCACGCGAGGACGGCACGCCGCCGAACAACTGGCTGTCGATCTTCGGAGGGGTTGCCTGGCGCTGGGAGCCGCGGCGCTGCCAGTACTACCTGCACAACTTCCTGTCGTCGCAGCCGGACCTGAACTTCCATAATCCGGCGGTGCAGCAGGCGACGCTGGACTACGTGAAGTTCTGGTTGGACCGCGGTGTCGACGGCTTCCGCCTGGATTCGATCAACTTCTGCTTTCACGACGCGCAGCTGCGCGACAACCCGCCCAAGCCTGAGGCGCTGCGGCTGGGGCGCGGGTTCAGCGCGGACAATCCCTACGCGTTCCAGTACCACTATTACAACAACACGCAACCGGAGAACCTGGCGTTCCTGGAACGGCTGCGGGTGCTGCTGGACCGCTATCCGGGTGCGGTGACGCTGGGCGAAATCTCGTCCGAGGATTCGCTGGCGACGACTGCCGAGTACACCGCGCCGGGCCGGCTGCACATGGGCTACAGCTTCGAGCTGCTGGTCGATGACTTCAGTGCCGCCTACATCCGCCGGACCGTGCAGCGCCTGGAAGCGACGATGCGCGAGGGCTGGCCGTGCTGGGCGGTGTCCAACCACGATGTGCAGCGCGCGGTGACGCGCTGGGGTGGTAGCCCCGCGCAACCGGTGCTGGCGAAGATGCTGGTGGCGATGTTGTGCTCGCTGCGTGGTTCGGTCTGCCTGTACCAGGGTGAGGAACTGGGGCTCGGTGAAGCAGAGGTGCCGTACGAAGCGCTGCAGGATCCCTACGGCATCACGTTCTGGCCGACGTTCAAGGGGCGTGATGGCTGCCGCACGCCGATGCCGTGGGACGACAGTGCCGGTGCTGGCTTCAGCAAGGCCGAACCATGGCTGCCGATCCCGGCCGAGCATCGCGCGTTGTCGGTGCAGGCGCAGGAAGCCGACCCGGATTCGGTCCTGCATGCGTTCCGGGCGTTCCTGGCCTGGCGGCGCACGCAGCCTGCGTTGATCGCTGGCGCGATCGCCTTCGTCGACGCGCCGGAGCCGGTGCTGATGTTCGTGCGTGGCGAGGGTGCCGGCGCGGTGCTGGCGGCCTTCAACCTGTCGGCGACGATGGCGACGGCCGCATTGCCCGAAGGGGCATGGCATGCGCTGGAGGTGCCTGGTCCCGTGGCGGGTCAGCTGGATGCTGGACTGCTGAGCTTGCCGCCGTATGCAGCGGCGTTCTTCGCACATGCTTGA	MSNSPWWRGAVIYQIYPRSFLDASGDGVGDLPGIIARLEHVASLGVDAIWVSPFFKSPMADFGYDIADYRDVDPLFGTLDDFDRLLAKAHALGLKVMIDQVFSHTSVDHAWFRESREDRTNAKADWYVWADAREDGTPPNNWLSIFGGVAWRWEPRRCQYYLHNFLSSQPDLNFHNPAVQQATLDYVKFWLDRGVDGFRLDSINFCFHDAQLRDNPPKPEALRLGRGFSADNPYAFQYHYYNNTQPENLAFLERLRVLLDRYPGAVTLGEISSEDSLATTAEYTAPGRLHMGYSFELLVDDFSAAYIRRTVQRLEATMREGWPCWAVSNHDVQRAVTRWGGSPAQPVLAKMLVAMLCSLRGSVCLYQGEELGLGEAEVPYEALQDPYGITFWPTFKGRDGCRTPMPWDDSAGAGFSKAEPWLPIPAEHRALSVQAQEADPDSVLHAFRAFLAWRRTQPALIAGAIAFVDAPEPVLMFVRGEGAGAVLAAFNLSATMATAALPEGAWHALEVPGPVAGQLDAGLLSLPPYAAAFFAHA	PGPT0018560_5059	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
BMS020_04489	738	map_2	COG0024	Methionine aminopeptidase	ATGGCCGAGGCCGGCGCATTGCTGGCGCGGGTATTCGATGCGCTCGGCCGGTTGCCGCTGGTAGGCATGAACACCCTGCAGCTCAACGAGTTCGTCGAACGGATGATCGTCGACGAGCTGCACGCGCGTCCGGCCAGCAAGGGCCAGTACGGCTTCCCCTACGCGCTGAACGCCTCGATCGACGACGTCATCTGCCATGGCGTGCCCTCGGCCGACGACGTGCTGCGCAGCGGGCAGATCGTCAACCTCGACATCACCCTGGAGAAGAACGGCTACATCGCCGACTCCAGTACCACCTATCTGGTCGGCGAGGTGGCCTACCCTGCGCGCCGCCTGGTCGCATCCACCTACAAAGCGATGTGGAAAGGCATCGCTGCAGTGCGGCCGGGCGCACGCCTGGGCGACATCGGCCATGCGATCGCGCAGTACGCGCGCAGCCAGGGCTATAGCGTGGTGCGGGAGTACTGTGGACACGGCATCGGCCGCGAGATGCATGAAGAGCCGCAAGTCCTGCACGACAGCCGCCCGGGCACCGGCATCGAATTGCAGGAGGGCATGGTGTTCACGATCGAGCCGATGCTCAACCAGGGCAAGGCGGCGATCCGCTCCGAGCCCGGGCACTGGCCCGTGCGCACCCGCGACGGCAAGCTCTCGGCGCAGTTCGAACACACCGTGGCAGTCACCCACGATGGCGTGCAGGTGCTGACGCTGCGGCCCGGGGAAGTCCCGCCGCGCTGA	MAEAGALLARVFDALGRLPLVGMNTLQLNEFVERMIVDELHARPASKGQYGFPYALNASIDDVICHGVPSADDVLRSGQIVNLDITLEKNGYIADSSTTYLVGEVAYPARRLVASTYKAMWKGIAAVRPGARLGDIGHAIAQYARSQGYSVVREYCGHGIGREMHEEPQVLHDSRPGTGIELQEGMVFTIEPMLNQGKAAIRSEPGHWPVRTRDGKLSAQFEHTVAVTHDGVQVLTLRPGEVPPR	PGPT0020010_6841	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
BMS020_04490	213			hypothetical protein	ATGGGCATCGTCAATATCGACGACGCGCTGCACGATCAGCTACGCCGCGCCTGCACTGTCACCAGCCGCTCGATCAACGCCCAGGCCAACTTCTGGATCAAGGCCGGCATGCTGTGCGAGATGCATCCGGAGCTCAGTTTCCAGCAGATCGTCGCCAACGAGCTGCGCGCCGCGGGCGTACAACCCCAGCCACTGCGTACAGGCCGCACGTGA	MGIVNIDDALHDQLRRACTVTSRSINAQANFWIKAGMLCEMHPELSFQQIVANELRAAGVQPQPLRTGRT				NA	NA	NA	NA	NA
BMS020_04491	2763			hypothetical protein	ATGTTGAACCACAAGCGCAGCGCGCTCAGTCTCGCGCTGGCCGCCGCCCTGCTGCCGACGCTGGCCGCGGCGCAATCGACGTCCGCACAGACCGATGCGGACGCCACCACCACCGACCAGAACCTGACGCAGCTCGACCGCGTCGAGGTCACCGGCCTGCGCCACAGCATCGAGAGCTCGATCTCGGTCAAGCGCGACGCCACCTCGATCGTCGAGGCCATTTCCGCCGAGGACATCGGCAAGCTGCCCGACGTCAGCATCGCCGAATCGCTGGCACGTCTGCCCGGCCTGGCCGCCCAGCGCGTCGCCGGCCGTGCCCAGGTGATCAGCGTGCGCGGCCTGTCGCCGGACTTCTCCACCACCCTGCTCAACGGCCGCGAGGTCGTCAGCACCGGCGACAACCGCAGCGTCGAGTTCGACCAGTACCCATCCGAACTGGTCAATGGCGTCACCGTCTACAAGACCCCCGACGCCGGCTTGGTCGGCCAGGGCCTGTCCGGCACCGTCGACATGCAGACCGTGCGCCCGCTCAGCTATGGCGAGCGCGTGATCGCCGTCGGCGGTCGTTACCAGAAGAATTCGCTGGGCAAGGCCGCCAACGTCGACGCCTATGGCAACCGCTTCAGCGCCAGCTACATCGACCAGTTCTTCGACAAGACCCTCGGCCTGTCGATCGGCTACGCCCACACCGACACCCCGATCCAGGAGAACCAGGTCGGCCTGTACGAACCGTGGAGCACGCAGAACACCGACAGCGGTTCGCGCCCGGGCGTGGCTGCCGGCACCTACTTCTCCGACGGCATCAAGGCGCTGCGCCGCACCGGCAACGCCAAGCGCGACGGCGTGATGGCGACCCTGCAGTACCGGCCGTCCAACAACTGGACCAGCACGCTTGACGCCTTCCACACCGAAGCCGAGCAGATCGACACCGCCAACCAGTTCGAGGTCAACCTCAGCAACTACAACGGTGGTTACACCCCGGGGCTGAGCATCAGCGACGTGCAGGTGAACGACAACGGCACCTTCACCGGCGGCACCGCCAGCGGCGTCTACCCGCTGGTTCGCGGCATGTACAACAAGCGCGAAGACAAGATCGACGCGTTTGGCTGGAACAACGAGTTCAACGTCGGCGCGGTCAAGGTCACCGCCGACGTCAACTACTCCAAAGCCACGCGCAAGGAACTGAACCTCGAGAACAACCTGCAGCTGACCCCGATGCCGCAGCTGGACTCGCTGGGCCTGGCCTACAGCAGCGGCGGCTTCTCGCAGATCTCGCCGGGGCTGGACTATTCCAATCCCGAGGCGCTGTACATCACCAACACCATCTACGGCTCCGGCTACGGCAAGGCGCCGCGGGTCGAGGACGTGCTGAAGGGGGCGCGCCTGCAGGCCAGCTTCCCGATGCCGGAAGCGCTGGACTGGTTCTCCGACCTCGATGTCGGCGTCAACTACGCCAACCGCGAGAAGGAGAAGCACCAGCCGGAAGGCAACATCCTGCTCGGCGATCAGGGTGACACGACGATCGCCTCGGATCTGCAGTACTCGCCGGTCAACCTGGGCTTCGCCGGCATCGGCTACATCCCGGCCTGGAACGTGCCAGGCGCGGTCGCGCGCTACATGGTGTTCGAGCCGAGCGAGGACGCTTCCTACCTGGTCTCCAAGGCGTGGACGGTCGAGGAGAAGATCACCACCGCGTGGCTGCGCGCCAACATCGACACCGAATGGGGCGACGTCGGCGTGCGCGGCAACCTCGGCGTGCAGATGCAGCACACCGACCAGTCGTCCAGCGCGAACTACTGGGATGCTTCGCAGCCGGCGGGCAGCGAAGTTCGCCCGATCGAGGACGGCAAGACCTACAACGACTGGCTGCCGAGCCTGAACCTGGCGTTCCAGTTCCCGTACGAGCAGACCCTGCGCTTCGCCCTGGCCAAGCAGGTCGCGCGCCCGCGCGTTGACCAGATGCGCGCCTCGCTGGAATTCGGCGTGGACACCGCGACCGGCAAGCCCGGCGCCAGCGGCGGCAACCCGCAGCTCGATCCGTGGCGCGCCAATGCGCTCGACATCTCCTACGAGAAGTACTTCGGCGCCAAGGCCTATGTCGCCGCCGCGTTCTTCTACAAGGACCTGAAGAGCTACATCTACACCCAGACCCGCGACGACTACGACTTCTCCGATCTGGTCGCCGGCTACGTGCCACCGCCGGGCATGACCGTGCCGGTGCAGACGACCGGCACCTTCAGCGCGCCGTTCAACGGCAAGGGCGGCACCCTGCGCGGCGTCGAACTGACCGCATCGCTGCCGCTGGACATGCTGTTCGCACCGCTCGAGGGCTTCGGCCTGCAGGCCAGCGCCACGTTCAACGACAGCGACGTGAAGATCCTCGACCCGGAGAGCGCCTCCAGCGTCGGAAGCGGCGAAATCAGCCTGCCGGGCCTGTCCGACCGCGTCTACAACTTCACCGCCTACTACGAGCGCGGCGGGTTCGAGGCGCGCGTCAGCCAGCGCCGCCGCTCGGATTTCATCGGCGAGATCGGCAACTTCAACGGCAACCGCACGCTGCGTTACGTGGTCGGCGAGAACATCACCGATGCGCAGGTCAGCTACACCTTCGGCGAAGGCAGGCTGGCGGGGCTGAGCCTGCTGCTGCAGGCCAGCAACCTCACCAACGAGGCCTACCGCACCTACGCCGAAACCAAGGACCGCCCACTGGAGTACATCGAATGGGGCCGGACCTACGTGCTGGGCGTGAACTACAAGTTCTGA	MLNHKRSALSLALAAALLPTLAAAQSTSAQTDADATTTDQNLTQLDRVEVTGLRHSIESSISVKRDATSIVEAISAEDIGKLPDVSIAESLARLPGLAAQRVAGRAQVISVRGLSPDFSTTLLNGREVVSTGDNRSVEFDQYPSELVNGVTVYKTPDAGLVGQGLSGTVDMQTVRPLSYGERVIAVGGRYQKNSLGKAANVDAYGNRFSASYIDQFFDKTLGLSIGYAHTDTPIQENQVGLYEPWSTQNTDSGSRPGVAAGTYFSDGIKALRRTGNAKRDGVMATLQYRPSNNWTSTLDAFHTEAEQIDTANQFEVNLSNYNGGYTPGLSISDVQVNDNGTFTGGTASGVYPLVRGMYNKREDKIDAFGWNNEFNVGAVKVTADVNYSKATRKELNLENNLQLTPMPQLDSLGLAYSSGGFSQISPGLDYSNPEALYITNTIYGSGYGKAPRVEDVLKGARLQASFPMPEALDWFSDLDVGVNYANREKEKHQPEGNILLGDQGDTTIASDLQYSPVNLGFAGIGYIPAWNVPGAVARYMVFEPSEDASYLVSKAWTVEEKITTAWLRANIDTEWGDVGVRGNLGVQMQHTDQSSSANYWDASQPAGSEVRPIEDGKTYNDWLPSLNLAFQFPYEQTLRFALAKQVARPRVDQMRASLEFGVDTATGKPGASGGNPQLDPWRANALDISYEKYFGAKAYVAAAFFYKDLKSYIYTQTRDDYDFSDLVAGYVPPPGMTVPVQTTGTFSAPFNGKGGTLRGVELTASLPLDMLFAPLEGFGLQASATFNDSDVKILDPESASSVGSGEISLPGLSDRVYNFTAYYERGGFEARVSQRRRSDFIGEIGNFNGNRTLRYVVGENITDAQVSYTFGEGRLAGLSLLLQASNLTNEAYRTYAETKDRPLEYIEWGRTYVLGVNYKF	PGPT0003790_3606	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_04492	651			hypothetical protein	ATGCGGCTTGCGCGGGCGCGTGGATGCGCGGCGCCGCAGGCGTGGCGGGCATTTGCTGCGGCCTGGAATGGCGGCAGCGCGGCGCCCGGGGACGCCGGCGGCGCAGCGATGGGGGCGGCCTCGCGGTTGAGCCGGCGTTCCAGCGATCACGAAGTCGGGGCTGATCTCCAGCGCACCCGGCGGGCTGCGTGGCCCGCCTTGCGCGAGGACAACCATGAGCTGTCGCATGGCCGGCCGGACTGCTGGTTTCGGTGCGCGGCCGGGAGCGTGCGGGCGATGGCCGTCGGGCAGGAGCGCCCCATCGCCGCTGATGCCGCGCCTGCGCGGGAAGTGGCGGCAATCAGTGGGCGCGGCGCTCCCGGCGCTGCCGCCGGTCCGGTGCACCAGCGGCAGCGTCCTCGGCCGCAAGCGTCGAGGACGCACTGGAGCTGCCTTGCCCCGGTGCCCCTCCTACACCGAAGCGAGGTGCCTTCAGGAACAAGCGACGATGAGGCGCGTCCAGGCGCGAAGGTGCGCGTGGCGGCGAGGCCTCAACGCAGCGGAACGAAGCGGATGGCCTCGCCGCCGCCTGGTGCCAGCGTCAGTTCCAGCCGGTCAGTGCTGCCGACCTCGCGGGTTTCGCGCACGAACGCGAACGGATTGCTGCGGTAG	MRLARARGCAAPQAWRAFAAAWNGGSAAPGDAGGAAMGAASRLSRRSSDHEVGADLQRTRRAAWPALREDNHELSHGRPDCWFRCAAGSVRAMAVGQERPIAADAAPAREVAAISGRGAPGAAAGPVHQRQRPRPQASRTHWSCLAPVPLLHRSEVPSGTSDDEARPGAKVRVAARPQRSGTKRMASPPPGASVSSSRSVLPTSRVSRTNANGLLR				NA	NA	NA	NA	NA
BMS020_04493	2067	susB		Glucan 1,4-alpha-glucosidase SusB	ATGCCGCGGCATCACCATGGATCCATCCGCGGCCGGACGCCGATCGCGTTCGCCCTGCTTGGCCTTCTCGCGCTGCTGCCAATGCTGGCCGCCGCCGAACCGGTCGCCGTGGCCAGCGTCGAATCGCCCGGCCACGTACTGAAGGTCGCGCTGCAGCTGGACGGCGGATGCCCCAGCTACCGCGTGCAGCGCTTCGGCCAGACCGTGGTCGAAACTTCGCAGCTCGGCTTCAACCTGCGCGACGGCCGCCTCGACCGCGACCTGGTCGTGCTCGGCCAGACCAGCAGCAGCCACGACGACACCTGGGAACAGCCGTGGGGCGAGCGCCGCTTCGTCCGCAACCACTACACTGCGCTGACCGTGCAGCTGGCCGAGCGCGGCGGGCTGAAGCGGCGGCTGGACCTGGAATTCCGCGTCTACGACGACGGCCTCGGCTTCCGCTACCGGTTTCCAGAACAGCCGGCGATGCGCGAGGCGATCATCGACGACGAGTTGACCGAATTCGCGATCGCCCCCGCGGCGACCGCCTGGTGGATTCCGGCCGGCGAACCGATCCACTATGAGTACCTGTACCGGCGCACGCCGCTCGACCAGGTGCCGCTGGCGCATACGCCGATCACCCTGCGCAGCGACGATGGCCTGCATATCGCGATCCACGAGGCGGCGCTGGTCGACTACGCCGGCATGTGGCTGCGCCGTAGCGACGGCCAGCGCCTGCGCGCGCAGCTGTCGCCTTCCGCCGATGGCTGGAAGGTCCGCCGCACGCTGCCGTTCGACACCCCGTGGCGCACGCTGCAGATCAGCGACAGCGCGGGTGGACTGGTCGAATCCAACCTGATCCTCAACCTCAACGAGCCCAACGCACTGGGCGACGTCAGCTGGGTGCACCCGGCCAAGTACGTCGGGGTGTGGTGGTCGATGCATCTGGACCTGGAGAGCTGGGCGACCGGCCCGAAGCATGCCGCGACCACCGCCAAGACCAGGCGGATGATCGACTTCGCCGCCGCCCACGGCTTCCGCGGCGTGCTGGTCGAAGGCTGGAACCCGGGCTGGAACGGCGACTGGGCCGGCAACGGCGACGGCTTCGATTTCACCCGCGCCACCGCGGATTTCGATATCGCCGCGCTCAGCGCCTACGCGGCGAACAAGGGCGTGCACCTGATCGGCCACCACGAGACCGGCTGCGCGATCGAACACTACGAGGACCAGCTTGCTGCCGCGCTCGACCTGTATGCGCGGCTCGGCGTGGACACCTTCAAGACCGGCTACGTCTGCGACGACGGCCAGGTCGACCGGCGCAATCCGGCCGGCGGCCCGTTGTGGCGCGAATGGCACGACGGCCAGTTCATGGCCCGCCATCACCTGAAGGTGGTGCAGGAAGCGGCCAGCCGCCACCTGTCGGTCAACCCGCACGAGCCGATCAAGGACACCGGACTGCGCCGCACCTACCCGAACTGGCTCTCGCGCGAAGGCGCACGCGGCATGGAATACAACGCCTGGGGCCAGCCGCCGAATCCGCCGGAACACGAGGTCAACCTGGTGTTCACCCGGCTGCTGGCCGGGCCGATGGACTACACCCCCGGCATCCTCAGCCTAAAGGGCCGCGGCGGCCAGCCGATCCCGAGCACCCTCGCCCGCCAGCTGGCGCTGTACGTGACGTTGTACAGCCCGATCCAGATGGCCGCCGACCTGCCCGAGCATTACGCACAGCATCGCGAGGCGTTCCGCTTCATCGAGGACGTGGCGGTGGACTGGGACGACACCCGGGTGCTGAATGGAGAGGTCGGCGACTACGTCACCATCGTGCGCAAGGACCGCCACAGCCGCGACTGGTTCCTCGGCGCGATCACCGACGAGCACGGCCGCGTGCTGCCGGTGGAGCTGGGCTTCCTCGAACCCGGCGTGCGCTACCGCGCCGAGATCTACCGCGACGGCGACGGTGCCGACTACCGCAGCAATCCGTTCGCGTTCGTGCGCGAAACCCGCGAGGTCGGCAGCACTGACCGGCTGGAACTGACGCTGGCACCAGGCGGCGGCGAGGCCATCCGCTTCGTTCCGCTGCGTTGA	MPRHHHGSIRGRTPIAFALLGLLALLPMLAAAEPVAVASVESPGHVLKVALQLDGGCPSYRVQRFGQTVVETSQLGFNLRDGRLDRDLVVLGQTSSSHDDTWEQPWGERRFVRNHYTALTVQLAERGGLKRRLDLEFRVYDDGLGFRYRFPEQPAMREAIIDDELTEFAIAPAATAWWIPAGEPIHYEYLYRRTPLDQVPLAHTPITLRSDDGLHIAIHEAALVDYAGMWLRRSDGQRLRAQLSPSADGWKVRRTLPFDTPWRTLQISDSAGGLVESNLILNLNEPNALGDVSWVHPAKYVGVWWSMHLDLESWATGPKHAATTAKTRRMIDFAAAHGFRGVLVEGWNPGWNGDWAGNGDGFDFTRATADFDIAALSAYAANKGVHLIGHHETGCAIEHYEDQLAAALDLYARLGVDTFKTGYVCDDGQVDRRNPAGGPLWREWHDGQFMARHHLKVVQEAASRHLSVNPHEPIKDTGLRRTYPNWLSREGARGMEYNAWGQPPNPPEHEVNLVFTRLLAGPMDYTPGILSLKGRGGQPIPSTLARQLALYVTLYSPIQMAADLPEHYAQHREAFRFIEDVAVDWDDTRVLNGEVGDYVTIVRKDRHSRDWFLGAITDEHGRVLPVELGFLEPGVRYRAEIYRDGDGADYRSNPFAFVRETREVGSTDRLELTLAPGGGEAIRFVPLR	PGPT0018560_1730	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
BMS020_04494	2196			hypothetical protein	ATGCTGAAGATGATCGTTCTGGCCGCGTCGTTCGCGACGGCGGCAACCGGAGCCGCGCGGGCGGCGGACGTGCAGTGGCAGGGACGCGAGGCCAGTGCGCGCGTCGACGGCACGGGATTCGTGCTCACCACGCCGGATGGCGCACGCCGGATCGCCGCGCAGCCGATGCGCAGCGAAACCGCCAGCGTGATGTTCGATGCGCTGTTCGCATTGGCGCAGCAGGAGTTGCAGGCCGACCGGGTCGAGGCGATCCGCGATCCGGCCTTCGACCATGGCCAGCCGGTGCCATGCCGCTGCTTCGAGACTGGCGAACGCTGGCCGTACGTGTGGACGCGCGACGCGAGCTACGCGATCGACCTGGCGCTGGCCCGGCTCGATCCGGAGCGCGCACGCGCCTCGTTGCGCTTCAAATTGTCCAAGGCGCGCGGCGAAGGCGCGGTGGATGGGCTGTTCGTCGCCCAGGACACCGGATCGGGCGGCAGCTGGCCGATCAGCACCGATCGGGTGGTGTGGTTTCTGGCTGCCGAGCAGCTGCTCGACGACCCGGGCTTTGCCGCCGAGGTCTGGCAGGCGCTGCAGTCCACGCTGGCGCAGGACCGCACTTATGCGTTCGACGCGCGCATCGGCCTGTACCGTGGCGAGACCTCGTTCCTGGACTGGCGCGAGCAGACCTATCCGGGATGGACCGAACAGGACGTGCGCTTCATCGGCGAGTCCTTCGCGCTGTCGACCAACGTACTGCACTACCGTGCGTTGCGGCTGGGCGAACGCCTGGCGCGCGGGCATGGCGACCCTGCTGCGGCGCAGCGGTATGGCGCCTGGGCCGACGCGCTGCGTGGCGCCATCGACGCGCGATTCTGGCGTGCCGAACGTGGCCAGTACATGAGCTACATCGGCAGTGCCGCGCACCCGGTGCCGTTCGAGAAATACGACCTGCTGGGGGTGTCGCTGGGCATCGTCGCCGACGTGTTGCCGCGTGCGCGCGCCGCGGCCGCGTTGGCGACGTATCCGGTGACCGCCGCCGGCAGTCCGGTGGTGTGGCCACAGGCGCGCGACCAGCCGATCTACCACAATCGGGCGATCTGGCCGTTCGTCAGCGCCTATTCGCTGCGTGCCGCGCGCCGCGTCGACGATGCGCCACGGATCGCGCTGGAGATCGAGTCGCTGCTGCGTGCCAGCGCCCTGGCCGGCTCCAACATGGAGAACTACGAGATGCTCAGCCAGGCCGTCCACGTGGAAGAAGGCCGGCTGAGCGGGCCGGTGGTCAATTCGCCGCGGCAGCTGTGGTCGGTGGCCGGCTATCTGTCGATGGTGATCGAAGGCGTGTTCGGCATCGAGGCTGACGGCACGGTCGCGCCGAAGCTGCCGGCGCGGCTGCTGCCGCTGCTGTTCGGCAAGGGCGACCGCATCGTGCTGGAGATGGATGGGCGGCGCTGGACTTTGTTGCGTCCGCAGCGGGAAGGCGGCGAGTTGCTGGTCGCTGGCGACATCGTGCGCGAGGGAAGCTCCACCACGGTGCAGCTGGTGCCGCGCAGCGCGCCGGTCGCGCCCCCGCCGCTGCCAGAGCAGGCGTTTGCGCCGGCAACACCGGCGGCGCCACAGTTGCGGGCCGTAGGCGCGCAGTGGCGGCTCGATGTGCCGGCCGGCGCCACGCTCTACCTCGACGGCCAGCGGTACGCGGGCGACATCGCCGCGCTGCGCTTGCCGCGCGACGGGGATGCGCACTGCCTGAGCGTGACGGTGCGCGATGCACAGTGGGAATCGCTGCAGAGCCCCAGCATCTGTACCGGCAGCCGCACGACGCTTTCTGGTGCGAGCCAATGGCGTTGGCAGGCGTCGGTAGCGGGGCGCTATCGGGTTGCATTGCGCTATCGCAATGGCAATGGCCCGATCAACACCGGCGTCACCGCGGCGGTGAAACAGCTGGTTCTGCAGTGCCCCGGGCGGGCGCCGCAGCGGCGCGCGGTGGTGATGCCGCACAGCATCGCCGAACAGGATTCCAGCCACGTGGAGTTCGATGTGCCCGCCGCGGGCGACTGCGTGTTCGCGCTGGAACAGGGTTTCAACATGAGCAACCTGGCGCATTTCGCCCATTACACCGGCGGCAAGGGCGGTCACGACGGCGTGCTCAACGCCGCTGACGTGCGCGCGTTGCAGCTGGTACGCATCGCCATGGATGCGGAGGCGGGCGAATGA	MLKMIVLAASFATAATGAARAADVQWQGREASARVDGTGFVLTTPDGARRIAAQPMRSETASVMFDALFALAQQELQADRVEAIRDPAFDHGQPVPCRCFETGERWPYVWTRDASYAIDLALARLDPERARASLRFKLSKARGEGAVDGLFVAQDTGSGGSWPISTDRVVWFLAAEQLLDDPGFAAEVWQALQSTLAQDRTYAFDARIGLYRGETSFLDWREQTYPGWTEQDVRFIGESFALSTNVLHYRALRLGERLARGHGDPAAAQRYGAWADALRGAIDARFWRAERGQYMSYIGSAAHPVPFEKYDLLGVSLGIVADVLPRARAAAALATYPVTAAGSPVVWPQARDQPIYHNRAIWPFVSAYSLRAARRVDDAPRIALEIESLLRASALAGSNMENYEMLSQAVHVEEGRLSGPVVNSPRQLWSVAGYLSMVIEGVFGIEADGTVAPKLPARLLPLLFGKGDRIVLEMDGRRWTLLRPQREGGELLVAGDIVREGSSTTVQLVPRSAPVAPPPLPEQAFAPATPAAPQLRAVGAQWRLDVPAGATLYLDGQRYAGDIAALRLPRDGDAHCLSVTVRDAQWESLQSPSICTGSRTTLSGASQWRWQASVAGRYRVALRYRNGNGPINTGVTAAVKQLVLQCPGRAPQRRAVVMPHSIAEQDSSHVEFDVPAAGDCVFALEQGFNMSNLAHFAHYTGGKGGHDGVLNAADVRALQLVRIAMDAEAGE				NA	NA	NA	NA	NA
BMS020_04495	1482			hypothetical protein	ATGAGCCGCAAGCCGACGCTGTCGTTCTGGCAGATCTGGAACATGTGTTTCGGGTTCCTCGGTATCCAGTTCGGCTTCGCGCTGCAGAACGCCAATGCCAGCCGGATCTTCCAGACCCTGGGCGCCGACATCGACGCGGTGCCGGGGCTGTGGATCGCCGCGCCGCTGACCGGGTTGATCGTGCAACCGATCATCGGTCACCTGTCCGACCGTACCTGGGGCCGGTTCGGCCGGCGGCGGCCATACTTCATGCTCGGTGCGGTGTTCACCACGCTGGCGCTACTGGTGATGCCGAACTCGCCGACGTTGTGGATCGCCGCCGGCACGCTGTGGGTGCTGGACGCCTCGATCAACGTGTCGATGGAGCCGTTCCGCGCCTTCGTCGGCGACCAGCTCGCGCCGACGCAGCGGCCCACCGGCTATGCAATGCAGAGCTTCTTCATCGGCGTCGGCGCGGTGGTGGCCAGTTTCCTGCCATGGCTGCTGGCGAAGTGGGGCGTACCCAATACCGCCGGGCCTGGCGAGGTGCCGGACACGGTGCGCTATGCGTTCTATCTCGGCGGCGCGGTGCTGTTCGGCGCGATCGCCTGGACGGTGTTCAGCACCCGCGAGTATTCGCCGCAGCAGCTGGCGGACTTCGACGACGCCGGGCCGGCCGCCGCGGGCGTGATCGCCGCGAACGTGTCGCGCCCTACGCTGCGCAGCGGCGCCGGCTGGGCGGCGCTGGGCGCATTGCTCGCCGCGGCGATCGCCTGGCGTGCCGGCGATCGCATGCTGTACGTGCTGGCCGGCCTGGTTGGCGGCTACGGCGTGCTGTTGCTGCTGGCGCGCCGGGCACGTGCCGAGGGCATGCTCGCCAGCATCGTCCACGACCTGCGCACCATGCCGCTGGCGATGCGGCGGCTGGCCTGGGTGCAGTTCTTCTCCTGGTTCGCGTTGTTCGCGATGTGGATCTACACCACCGCAGCGGTGACCCAGGTGCATTTCGGCGCCAGCGACACCGCTTCGGCGGCCTACAACGACGGCGCCAACTGGGTCGGGGTGCTGTTCGGCGCCTACAACGGCTTCGCCGCGTTGGCGGCGTTGGTGATCCCGCTGATGGTCAAGGCGCTGGACCTGCGCTGGAGTCATCTGTGCAACCTGTTGCTCGGCGCCGCCGGCCTGTATTCGCTGCTGCTGATCCGCGATCCGCAGTGGTTGCTGCTGTCGATGGTCGGGGTCGGCTTCGCCTGGGCCTCGATCCTGTCGCTGCCGTATGCGTTGCTGTCGGACTGCGTGCCGGCGGCGAAGATGGGCGTGTACATGGGCATCTTCAATTTCTTCATCGTGATCCCGCAGCTGGTCGCGGCCAGTGCGCTCGGTTTCGTGCTGCGGCACTGGCTGCACGGGCAACCGATCCAGGCGCTGGCGATCGGCGCGGCCAGCCTGGTGGTGGCGGGGATCTGTGTACTGCGGGTTCCCGCAGCAGGAGCGAAGGCATGA	MSRKPTLSFWQIWNMCFGFLGIQFGFALQNANASRIFQTLGADIDAVPGLWIAAPLTGLIVQPIIGHLSDRTWGRFGRRRPYFMLGAVFTTLALLVMPNSPTLWIAAGTLWVLDASINVSMEPFRAFVGDQLAPTQRPTGYAMQSFFIGVGAVVASFLPWLLAKWGVPNTAGPGEVPDTVRYAFYLGGAVLFGAIAWTVFSTREYSPQQLADFDDAGPAAAGVIAANVSRPTLRSGAGWAALGALLAAAIAWRAGDRMLYVLAGLVGGYGVLLLLARRARAEGMLASIVHDLRTMPLAMRRLAWVQFFSWFALFAMWIYTTAAVTQVHFGASDTASAAYNDGANWVGVLFGAYNGFAALAALVIPLMVKALDLRWSHLCNLLLGAAGLYSLLLIRDPQWLLLSMVGVGFAWASILSLPYALLSDCVPAAKMGVYMGIFNFFIVIPQLVAASALGFVLRHWLHGQPIQALAIGAASLVVAGICVLRVPAAGAKA				NA	NA	NA	NA	NA
BMS020_04496	1719			Cyclomaltodextrin glucanotransferase	ATGAAGTGTGGAATCCTGGCCGCGGCGGTATTGCTGGCGGTCGCGGGGAACGGTGCGGCGCAGCCGGCGCGAGGCGATTACTACGGCACGCTGGAGCCGTTTGCGGCGGACGCGGTCTACTTCGTGGTCACCGATCGCTTCGTCAACGGCGATCCGTCCAACGACCAGCGCCAGCAGGGCGGCGCGCATCGCACCTTCGACATCCCGGTGCGCTGCCCGGATGGCATCGACGGCAACATCGGCTACCTCGGCGGCGACTTCAAGGGCGTGCTCGACAACGCGCGCTACATCCGCGAGCTGGGCTTCGGCGCGGTCTGGATCACCCCGATCGTCGACAACCCCGACGAGGCCTTCAGCGGCGGCAAGCCGGTCAGCTGCAGCAGCACGTTGAGCGACCACGGCAAGACCGGCTACCACGGCTACTGGGGCGTGAACTTCTACAAGGTCGATGAACACCTGCCCAGTCCAGGGCTGGATTTCGCCGGCTTCACCCGCGCGATGCATGCGCAAGACCTGAAGGTGGTGCTGGACATCGTCGGCAACCACGGCTCGCCGGCCTGGGGCATGCCGCAGCGGCAGCCGCAGTTCGGGCAGCTCTTCGATCGTGCCGGCCGCCTGGTCGCCGACCACCAGAATCTGCCGCCGCGCCAGCTTGATCCGCAGCACACTCCGCTGCACGCGTTCTACAACGCCATCGGCGCGGTCGATGCCAAGGACGGCTCGATCTTCGATGGCAACCTGGCCGAACTGGCCGATTTCAACCAGGACAATCCGGCGGTGATGGACTACCTGGCCGGCGCCTACCTGCAATGGCTGGGGCAGGGCGCCGATGCGTTCCGGATCGACACCATCGCCTGGTTGCCGGATCGCTTCTGGCACGAATTCAGCAGGCGCATCCGTGCCGAGAGGCCGGGCTTCTTCATGTTCGGTGAGGCGTTCGACTACGACCCGGCGTCGATCGCGCGGCATACCTGGACCCGCAATGCCGGCGTCAGCGTGCTCGACTTCCCGCTGCGCGGTGCGCTGTCGGAGGTGTTCGGCCGCGGCCGCGCCGGTTATGAACGGCTGGTGCCGGCGTTGTTCCTGCAGGACGGGCCGTACCGCAATCCGTACGAGCTGATGACGTTCTACGACAACCACGACATGGCGCGGCTGGATGCTGACGACAACGGTTTCATCGACGCCCACAACTGGTTGTTCACCGCGCGCGGCATCCCGGTGCTGTACTACGGCTCGGAGACCGGCTTCATGCGGGGGCGCGCCGAGCATGCCGGCAATCGCGCCTATTTCGGCCAGGAACGCATCGATCTGGCACCGAGCAGCCCGATCTTTGCGCCGTTGCAGCGCATCGTCCGGCTGCGCCGCGACACCCCGGCGCTGCAGCGGGGGCTGCAGGTCGATCTGCAGCTGCAGGGCAACCAGGCGGCGTTCTACCGCGTGTACCAGCACGCCGGTCAGGCGCAGACCGCGTTGGTGCTGCTCAACAAGGGCGATGTACCGCACCGGTTCCGGGTCGAGCGCTATCTGCAGGCCGGACGCTGGCGCGACGCGCTCGGCGCGGGCACGGTGCAGGCCGGTCGCGTCCTGGAAGCCGAGGTCGGCCCGCACGACATCAAGGTGTTCGTGCTCGATGCGCCGGTCACCGAGCCCGCGCTGCGCCGCCAGCTGGAGCAGCAGATGCAGGCACAGGCCGGCCGCGACCGCCAGGACCAGCGCTGA	MKCGILAAAVLLAVAGNGAAQPARGDYYGTLEPFAADAVYFVVTDRFVNGDPSNDQRQQGGAHRTFDIPVRCPDGIDGNIGYLGGDFKGVLDNARYIRELGFGAVWITPIVDNPDEAFSGGKPVSCSSTLSDHGKTGYHGYWGVNFYKVDEHLPSPGLDFAGFTRAMHAQDLKVVLDIVGNHGSPAWGMPQRQPQFGQLFDRAGRLVADHQNLPPRQLDPQHTPLHAFYNAIGAVDAKDGSIFDGNLAELADFNQDNPAVMDYLAGAYLQWLGQGADAFRIDTIAWLPDRFWHEFSRRIRAERPGFFMFGEAFDYDPASIARHTWTRNAGVSVLDFPLRGALSEVFGRGRAGYERLVPALFLQDGPYRNPYELMTFYDNHDMARLDADDNGFIDAHNWLFTARGIPVLYYGSETGFMRGRAEHAGNRAYFGQERIDLAPSSPIFAPLQRIVRLRRDTPALQRGLQVDLQLQGNQAAFYRVYQHAGQAQTALVLLNKGDVPHRFRVERYLQAGRWRDALGAGTVQAGRVLEAEVGPHDIKVFVLDAPVTEPALRRQLEQQMQAQAGRDRQDQR	PGPT0018540_121	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
BMS020_04497	1041	exuR_2	COG1609	putative HTH-type transcriptional repressor ExuR	ATGAGCACCAAGGGCAAGGCCACTTCGCTGGATATCGCCTACCTGGCCGGGGTTTCCCAGCCGACCGTCTCGCGCGCGCTGCGCGGCAGCCCGATGGTCAACGCCGAGACCCGCAGGCGCATCCTGGAGATCGCCCGCCAGCTCAACTACAAGGTCGACAAGAACGCCTCCAGCCTGCGCCTGCGCAATGCCGGCACCCTCGCGCTGTTGTTCTTCGAGGACCCGACCCCGGACGACTCGCTGATCAATCCGTTCTTCCATTCGATGCTGGGCTCGATCACCCGCGCCTGCGCGCTGGCCAACTACGACCTGCTGGTCTCGTTCCAGCAGTTGTCCACCGACTGGCATGCCGACTACGAGGACAGCAACAAGGCCGATGGCATCATCCTGCTCGGCTACGGCGACTATCTGGAAGCCCAGCACCGACTGCAGCAGCTGGTCGCCCAGGGCACCCATTTCGTGCGCTGGGGCGCCGCCCTGCCCGACCAGCCCGGCATCTCGATCGGCAGCGACAATTTCCAGGGCGGGCTGGACATCACCACCCACCTGCTGGCGCAGGGCCGTCGCCGCATCGCCTTCCTCGGCCACGCCTCCAACCACTATCCGGAATTCCTCGAACGCCATCGCGGCCACGCCCAGGCACTGGCGTCAGCCGGGACGGCGCTGGATCCGGCGCTGCAGGTCGACGCGATCACCACCGAGCAGTCCGGCCACGACGCTGCCACGACGCTGCTGGCCCGCGGCGTGCGCTTCGACGCGATCTGCGCGGCCAGCGACCTGATCGCGATCGGCGCGATGCGGGCGCTGCGCGAGCATGGATTACGGGTGCCGCAGGACGTGGCGGTCACCGGCTTCGACGACATCCCGCTGGCGGCGGCGATGTCGCCGGCGCTGAGCACCGTGCAGCAGGACACCAAACAGGCCGGCGCGCTGCTGGTGGAAAGCCTGATCGGGCTGATCCGCGGCGAGCCGGCCGGCAACCGCACCATTCCGACCCGACTGGTGCTGCGCGAGTCGTCGCGGGCGGCAGCGGCGGCGTAG	MSTKGKATSLDIAYLAGVSQPTVSRALRGSPMVNAETRRRILEIARQLNYKVDKNASSLRLRNAGTLALLFFEDPTPDDSLINPFFHSMLGSITRACALANYDLLVSFQQLSTDWHADYEDSNKADGIILLGYGDYLEAQHRLQQLVAQGTHFVRWGAALPDQPGISIGSDNFQGGLDITTHLLAQGRRRIAFLGHASNHYPEFLERHRGHAQALASAGTALDPALQVDAITTEQSGHDAATTLLARGVRFDAICAASDLIAIGAMRALREHGLRVPQDVAVTGFDDIPLAAAMSPALSTVQQDTKQAGALLVESLIGLIRGEPAGNRTIPTRLVLRESSRAAAAA				NA	NA	NA	NA	NA
BMS020_04498	1905	thrS_2	COG0441	Threonine--tRNA ligase	ATGATCAACATCACGCTCCCCGACGGCAGCCGCCGCGAATTCGATGCCCCCGTTTCCGTCATGCAGGTCGCCCAGTCGATCGGCGCCGGCCTGGCCAAGGCCACCATCGCCGGCTCGGTCGATGGCGTGCTGGTCGACGCCAGCGACGTCATCGACCACGATGCCAGCCTGCGCATCATCACCGCCAAGGACGCCGAGGGCGTGGAGATCATCCGCCACTCCTGCGCCCATCTGGTCGGCCACGCGGTCAAGCAGCTGTACCCGGACGTCAAGATGGTGATCGGCCCGGTGATCGCCGAGGGCTTCTACTACGACATCTACTCCGAGCGCCCGTTCACGCCGGAGGACATGGCGGCGATCGAGCAGCGCATGGGCGAGCTGATCGCCCAGGACTACGACGTCATCAAGAAGGTGACCCCGCGCGCCGAGGTGGTGGAGATCTTCAAGTCCCGCGGCGAGGACTACAAGCTGCGCCTGATCGAGGACATGCCCGAGGACGTCAAGGCGATGGGCATGTACTACCACCAGGAATACGTGGACATGTGCCGCGGCCCGCACGTGCCGAACACGCGCTTCCTCAAGGCGTTCAAGCTGACCCGCATCTCCGGCGCCTACTGGCGCGGTGATGCGAAGAACGAGCAGCTGCAGCGCATCTACGGCACCGCCTGGGCTGACAAGAAGCAGCTCGATGCCTACATCCAGCGCATGGAAGAGGCCGACAAGCGCGACCACCGCAAGATCGGCAAGGCGCAGGACCTGTTCCACGTGCAGGAGGAAGGTCCGGGCCTGGTGTTCTGGCATCCGAAGGGCTGGTCGGTGTGGCAGGTGGTCGAGCAGTACATGCGCCGCGTCTACCGCGAGACCGGCTACGGCGAGGTGCGTTGCCCGCAGATCCTCGACGTGTCGTTGTGGAAGCAGTCCGGCCACTGGGACAACTACCAGGACAACATGTTCTTCACCGAGTCGGAGAAGCGCACCTACGCGGTCAAGCCGATGAACTGCCCGGGCCACATCCAGATCTTCAAGCAGGGCCTGCACAGCTACCGCGACCTGCCGATCCGCTACGGCGAGTTCGGCGCCTGCCACCGCAACGAGGCCTCCGGCGCGCTGCACGGCATCCTGCGCGTGCGCGGCTTCACCCAGGACGACGGCCACGTGTTCTGCACCGAGAACCAGATCGAGGGCGAGGTGCGTGCGTTCCACGAGCAGGCGCTGAAGGTGTACGCCGATTTCGGCTTCGAGGAGATCCAGATCAAGATCGCGCTGCGCCCGGACAACCGGCTCGGCGACGACGCCACCTGGGACAAGGCCGAGGATGCGCTGCGTTCGGCGCTGCGCGCGTCCGGCGTGGAGTGGCAGGAGCTGCCGGGCGAGGGCGCCTTCTACGGTCCGAAGATCGAGTACCACCTCAAGGACGCGATCGGCCGTACCTGGCAGTTGGGCACGATGCAGGTCGATTTCATGATGCCCGGCCGCCTCGGTGCCGAGTATGTCGATGAAAACAGCCAGAAAAAGCACCCGGTGATGCTGCACCGGGCGATCGTCGGCTCGATGGAGCGCTTCATCGGCATCCTGATCGAACACCATGCCGGCGCGTTCCCGACCTGGCTGGCGCCGGTGCAGGTGGTGGTGGCCAATATCACCGATGCGCAGGCTGAATACGTCGAATCGGTCAGGAAACTCCTTGCAAATCAAGGCTTCCGGGTCGAGGGGGATTTGCGGAACGAGAAGATCGGTTATAAGATTCGCGAGCATACGCTGCAGCGCGTGCCATACCTGCTGGTGGTCGGTGACCGCGAGAGGGACAATGGTGCGGTCGCTGTGCGTACGCGTTCGGGCGAGGACCTCGGCACCATGTCGGTGCAGGCCTTCATCGAACGCCTACGTGCAGAGCAGGCAGCCTAA	MINITLPDGSRREFDAPVSVMQVAQSIGAGLAKATIAGSVDGVLVDASDVIDHDASLRIITAKDAEGVEIIRHSCAHLVGHAVKQLYPDVKMVIGPVIAEGFYYDIYSERPFTPEDMAAIEQRMGELIAQDYDVIKKVTPRAEVVEIFKSRGEDYKLRLIEDMPEDVKAMGMYYHQEYVDMCRGPHVPNTRFLKAFKLTRISGAYWRGDAKNEQLQRIYGTAWADKKQLDAYIQRMEEADKRDHRKIGKAQDLFHVQEEGPGLVFWHPKGWSVWQVVEQYMRRVYRETGYGEVRCPQILDVSLWKQSGHWDNYQDNMFFTESEKRTYAVKPMNCPGHIQIFKQGLHSYRDLPIRYGEFGACHRNEASGALHGILRVRGFTQDDGHVFCTENQIEGEVRAFHEQALKVYADFGFEEIQIKIALRPDNRLGDDATWDKAEDALRSALRASGVEWQELPGEGAFYGPKIEYHLKDAIGRTWQLGTMQVDFMMPGRLGAEYVDENSQKKHPVMLHRAIVGSMERFIGILIEHHAGAFPTWLAPVQVVVANITDAQAEYVESVRKLLANQGFRVEGDLRNEKIGYKIREHTLQRVPYLLVVGDRERDNGAVAVRTRSGEDLGTMSVQAFIERLRAEQAA				NA	NA	NA	NA	NA
BMS020_04499	552	infC_2	COG0290	Translation initiation factor IF-3	TTGATTCCCCTGGGAGATCGCAACATCAGTACACCTGACAACAAACAGAACCGCCGCAACCACGAAATCCGTGTGCCGCGCGTGCGCGTGATCGGCAGCAACGGCGAGATGGTCGGCGTGTTGTCGCGCGACGAAGCGCTGTCGATGGCCGAGGACGAAGGCCTGGACCTGGTCGAAATCCAGCCGCAGGCCGATCCGCCGGTCTGCAAGATCATGGACTTCGGCAAGTTCAAGTTCGAGATGCAGAAAAAGGCCAACGAGGCCAAGAAGAAGACCAAGCAGGTCGAGATCAAGGAGCTCAAGTTCCGTCCGGTCACGGACGAGGGCGACTACCAGATCAAGCTGCGCAACATGCGCCGCTTCCTGGAAGAGGGCGACAAGGTCAAGGTCAACATCCGCTTCCGTGGCCGTGAGATGAGCCATCAGGAGCTCGGTCGCGAGATGGCGGCCCGGATCGAGGCCGACCTGGGTGAGGACATCGTCATCGAGTCGCGGCCGCGCCTGGAAGGCCGGCAGATGGTGATGATGATCGCGCCGAAGAAGAAGAGCTGA	MIPLGDRNISTPDNKQNRRNHEIRVPRVRVIGSNGEMVGVLSRDEALSMAEDEGLDLVEIQPQADPPVCKIMDFGKFKFEMQKKANEAKKKTKQVEIKELKFRPVTDEGDYQIKLRNMRRFLEEGDKVKVNIRFRGREMSHQELGREMAARIEADLGEDIVIESRPRLEGRQMVMMIAPKKKS				NA	NA	NA	NA	NA
BMS020_04500	198	rpmI_2	COG0291	50S ribosomal protein L35	ATGCCCAAGATCAAGACCAACCGGGCGGCGGCCAAGCGTTTCCGCAAGACCGCATCCGGCAAGTACAAGGCTGGCCACGCCAACCGTAGCCACATCCTCACCAAGAAGGCGACCAAGCGGAAGCGCAACCTGCGGCAGACGAACCATGTTCGTGCCGAGGACGCAGGCCGTCTGGACCGCATGCTTCCGTATCTCTGA	MPKIKTNRAAAKRFRKTASGKYKAGHANRSHILTKKATKRKRNLRQTNHVRAEDAGRLDRMLPYL				NA	NA	NA	NA	NA
BMS020_04501	360	rplT_2	COG0292	50S ribosomal protein L20	ATGGCACGAGTCAAGCGTGGTGTAACGGCGCGCCGCCGTCACAAGAAGATCATCAGCCAGGCGAAGGGCTACTACAACGCCCGTCGTAAGGTTTTCCGCGTCGCCAAGCAGGCGGTCATCAAGGCACAGCAGTACGCCTACATCGGCCGCAAGCAGAAGAAGCGCAATTTCCGTTCGCTGTGGATCACCCGCATCAACGCGGCTGCCCGCATCAACGGCATGAGCTACAGCCGTTTCATGAACGGCCTGCTCAAGGCCGGCATCACCCTGGACCGCAAGGTGCTGGCGGACATCGCCGTGCACGACGCGGCCGGTTTTGCCGCGCTGGCCGAGAAGGCGAAGGGCGCGCTGGCGGCGTAA	MARVKRGVTARRRHKKIISQAKGYYNARRKVFRVAKQAVIKAQQYAYIGRKQKKRNFRSLWITRINAAARINGMSYSRFMNGLLKAGITLDRKVLADIAVHDAAGFAALAEKAKGALAA				NA	NA	NA	NA	NA
BMS020_04502	996	pheS_2	COG0016	Phenylalanine--tRNA ligase alpha subunit	ATGAGTGACATCGAAACCCTTGGCGCGCAGGCATTGGCGGATGTCGCCGCAGCGCAGACCCCGGAACAGCTCGAGGCGCTGCGCGTTTCGCTGTTGGGCAAGAGCGGCAGCATCACCGGCCGGCTGAAGCAGCTCGGCGGCCTGGCGCCGGACGAGCGCAAAGCCGCGGGCGAGGCGATCAATAAGGTCCGCGATGCGTTGAACGACGCGCTCGGCAGCCGCCGCCAGCTGCTGGAGGACGCTGCGCTCGACGCGCGCCTGGCCGGCGAGCAGATCGACGTGACCCTGCCGGGCCGTCGCGCCGAACGCGGTGGCCTGCATCCGGTCACCCGCACCCTGGAACGCATCACCGAGATCTTCGGTCGCCTCGGCTACGAACTGGCCGACGGTCCGGAGATCGAGGACGACTGGCACAACTTCGAGGCGCTGAACTTCCCGCCGCACCATCCTGCGCGCGCGATGCACGACACCTTCTATTTCGGCGACGGCCGCCTGTTGCGCACGCACACCTCCGGTGTGCAGGTGCGCTACATGGACGATCACGCGCCGCCGCTGCGGATGATCGCGGCCGGCAAGGTCTACCGCAGCGACAGCGACCAGACCCATTCGCCGATGTTCCACCAGGTCGAGGGGTTGCTGGTCGATGAGCATTCGACCTTCGCCGACCTCAAGGGCACCCTGTCCGAGTTCGTGCGCGCGTTCTTCGAGCGCGATTTCGAGATGCGCTTCCGCCCCAGCTACTTCCCATTCGTCGAGCCGGGCGCCGAGGTGGATATCGCCTGGCAGCAGCCCGATGGCAGCACCCGCTGGCTGGAGGTGTTGGGCTGCGGCATGGTGCATCCGAACGTGCTCAAGGCGGTCGGTATCGACAGCGAGCGCTACACCGGCTTCGCCTTCGGCCTGGGCGTGGAGCGCTTCGCGATGCTGCGCTACGGCGTCAACGACCTGCGCGCGTTCTTCGAGAACGACGTCCGCTTCCTGAAGCAGTTCGCCTGA	MSDIETLGAQALADVAAAQTPEQLEALRVSLLGKSGSITGRLKQLGGLAPDERKAAGEAINKVRDALNDALGSRRQLLEDAALDARLAGEQIDVTLPGRRAERGGLHPVTRTLERITEIFGRLGYELADGPEIEDDWHNFEALNFPPHHPARAMHDTFYFGDGRLLRTHTSGVQVRYMDDHAPPLRMIAAGKVYRSDSDQTHSPMFHQVEGLLVDEHSTFADLKGTLSEFVRAFFERDFEMRFRPSYFPFVEPGAEVDIAWQQPDGSTRWLEVLGCGMVHPNVLKAVGIDSERYTGFAFGLGVERFAMLRYGVNDLRAFFENDVRFLKQFA				NA	NA	NA	NA	NA
BMS020_04503	2379	pheT_2	COG0072	Phenylalanine--tRNA ligase beta subunit	ATGAAGTTCTCTGAAAACTGGCTGCGCAGCCACGTCCCGACCAGCGCCTCGCGCGCTGAACTCAGCGCGGTGCTGACCGCCATCGGCCTGGAAGTGGAAGAGGTGTCCGCGCTCGGCGTTGGTCTGCAGCACGTGGTGGTGGCGCGGATCGTCGAGGCGGTGCGCCATCCCGAGGCCGACCGCCTGCAGGTCTGCAAGGTCGACGCCGGCCAGCCCGAGTTGCTGCAGATCGTCTGCGGTGCGCCGAACGCGCGCCCGGGCCTGGTCGCGCCGCTGGCGATGGTTGGCGCGCAGATCGGCGAGCTGAAGATCAAGCCGGCCAAGCTGCGTGGCGTGGAATCCAACGGCATGCTGTGCTCGGCCAAGGAGCTGGGCCTGGACAACGACGCCTCCGGCCTGCTGGAACTGCCGGACGACGCGCCGGTCGGCACCGCGCTGGTCGAGTACCTCGGTCTGCCCGATGCCAGCATCGAGATCAAACTGACCCCGAACCGCGCCGACTGCTTCAGCCTGCGCGGCATCGCCTACGACGTCGCCGCGGCCTGCGGCAGCGAAGTGGTGCCGTTCGAGGCCACGCCGGTGGCGGCGCTCGGTTCTCGCGAGCTGGCCATCGCGCTGGACGCCGGTGCCGAGGCGCCGCGCTATCTCGGCCGCGTCATCGAAGGCGTCGATCCGACGGCGAAGACCCCGCTGTGGATGGCCGAGCGCCTGCGCCGCAGTGGCGTGCGCCCGGTTTCGCTGCTGGTGGACATCACCCAGTACGTGATGCTCGAACTCGGCCAGCCGATGCACGCCTACGACCTGGCGACGCTGCAGGGCCAGATCGCGGTGCGTCGCGCGCGCGCGGGCGAGGCGCTGAAGCTGCTCGATGGCCGCGACGCGGTGCTGGATGACGGCTTCCTGGTGATCGCCGACGCCGATCGACCGGTCGGCCTGGCCGGCCTGATGGGCGGCTTCGATACCCGTGTCACCGACACCACCACCGGGGTGTTCCTGGAAGCGGCGCATTTCGCGCCGGCGGCGATCATGGGGCGTGGGCGCAAGCTCGGCCTGCATACCGATGCCGGCCACCGCTTCGAGCGCGGCGTCGATCCGGAACTGCCGCGGCAGGCGATCGAGTACGCGACCCGGCTGGTGCTCGACCTGGCCGGTGGTACGCCGTCGCCGGTCAGCGAGGCGGTGCGCGGGCAGGATCTGCCGGCGCCGGCGACGATCGCGCTGCGTCGCGCGCGCATCCGCCGCGTGCTTGGGATCGAGATCGTCGATGCGGACGTCGAGCGCATCCTGCGCGCGCTGGGCATGGGCGTGGCCGCGGCTGCCGATGGTTGGCAGGTCACTGCGCCGAGCCGGCGCTTCGACATCGCGATCGAAGAGGATCTGATCGAGGAACTGGCACGCATCCACGGCTACGAGCGCATTCCGACCACGCTGCCAGGCGGCGCGGCACGCATCGCGATGCCAAGCGAGACGCGGCTGGAAGAGCGCGCCGCGCGCGCGCAGCTGGTCGCGCGTGATCTGCAGGAAACCATCAACTACGCCTTCGTCGATGCCGCGCTGCTCGCGCAGTGGCAGCTGCAGGACGGCGCGGTGGCGCTGGCCAACCCGCTGTCGGCGGAGCTGGCGGTGATGCGCCCGCAGCTGCTGCCGGGGCTGGTGGCCACGCTGGGTCGCAACGCCGCGCGTCAGGCTGGCCGGGTGCGGGTGTTCGAACTGGGCAAGGTGTTCGCGCAGCCGGCCGACGCCGGTGCCGCACCGGTGGAGCGCCTGCAGCTTGCCGCCGCGGTCTGCGGCGACGCGCTCGCGCTGCAGTGGGGCGAGCCGGCGCGCAAGGTCGATTTCCACGACCTGAAGGGCGACCTGGAATCGCTGGCCGCGGCCAGCGGTGCGGTGCTGGAGTTCCGCCGTTGCACGCGCGCGTATGCGCACCCGGGGCGTTCGGCCGATGTGTACCGCGATGGCACGCTGGTCGGCTGGATCGGCCAGTTGCATCCGCGCCTGGCCCGGGCGCTGGAGATCGACGTCGACGTGTTCGTGTTCGAGCTGGCGTTCGAGGCGCTGGCCGCTCGCGCGCTGCCGCGCGCACGCGAGCTGTCGCGCTTCCCCTCGGTCCGTCGCGACCTGGCGTTCCTGGTGCCGGACGACGTCACCTGGGCGGCGCTGGCCGATAGCGTGCGCAGCGCGGTCGGGCCGCTGCTGCGAGAGGTCCAGTTGTTCGACCGCTATGTCGGGCCGGGCGTCGAGGCGGGATTCAAGAGTCTGGCTATGGGCTTGATTTTGCAGGATAACTCGCGCACTCTGACCGACCGAGACGTGGATGCCGTGGTCGCCGAGGTGGTGGCCGTCATCGAGCGCGAACACCGGGCCCGGATTCGTGGCTGA	MKFSENWLRSHVPTSASRAELSAVLTAIGLEVEEVSALGVGLQHVVVARIVEAVRHPEADRLQVCKVDAGQPELLQIVCGAPNARPGLVAPLAMVGAQIGELKIKPAKLRGVESNGMLCSAKELGLDNDASGLLELPDDAPVGTALVEYLGLPDASIEIKLTPNRADCFSLRGIAYDVAAACGSEVVPFEATPVAALGSRELAIALDAGAEAPRYLGRVIEGVDPTAKTPLWMAERLRRSGVRPVSLLVDITQYVMLELGQPMHAYDLATLQGQIAVRRARAGEALKLLDGRDAVLDDGFLVIADADRPVGLAGLMGGFDTRVTDTTTGVFLEAAHFAPAAIMGRGRKLGLHTDAGHRFERGVDPELPRQAIEYATRLVLDLAGGTPSPVSEAVRGQDLPAPATIALRRARIRRVLGIEIVDADVERILRALGMGVAAAADGWQVTAPSRRFDIAIEEDLIEELARIHGYERIPTTLPGGAARIAMPSETRLEERAARAQLVARDLQETINYAFVDAALLAQWQLQDGAVALANPLSAELAVMRPQLLPGLVATLGRNAARQAGRVRVFELGKVFAQPADAGAAPVERLQLAAAVCGDALALQWGEPARKVDFHDLKGDLESLAAASGAVLEFRRCTRAYAHPGRSADVYRDGTLVGWIGQLHPRLARALEIDVDVFVFELAFEALAARALPRARELSRFPSVRRDLAFLVPDDVTWAALADSVRSAVGPLLREVQLFDRYVGPGVEAGFKSLAMGLILQDNSRTLTDRDVDAVVAEVVAVIEREHRARIRG				NA	NA	NA	NA	NA
BMS020_04504	300	ihfA_2	COG0776	Integration host factor subunit alpha	ATGGCATTGACCAAGGCGGAGATGGCCGAGCGGCTGTTCGACGAAGTCGGACTCAACAAGCGCGAGGCCAAGGAATTCGTGGACGCGTTCTTCGACGTGCTGCGCGATGCGCTCGAGCAGGGCCGGCAGGTCAAGCTGTCCGGCTTCGGCAACTTCGATCTGCGCCGCAAGAACCAGAGGCCCGGTCGCAATCCCAAGACCGGCGAAGAGATTCCGATTTCGGCCCGGACGGTGGTGACCTTCCGCCCCGGCCAGAAGCTCAAGGAGCGGGTGGAGGCATATGCTGGATCCGGGCAGTAA	MALTKAEMAERLFDEVGLNKREAKEFVDAFFDVLRDALEQGRQVKLSGFGNFDLRRKNQRPGRNPKTGEEIPISARTVVTFRPGQKLKERVEAYAGSGQ				NA	NA	NA	NA	NA
BMS020_04505	357			hypothetical protein	ATGCTGGATCCGGGCAGTAACCGCGAACTTCCGCCGATTCCGGCCAAGCGCTACTTCACCATCGGCGAGGTCAGCGAGCTGTGCGACGTCAAGCCGCATGTGCTGCGCTACTGGGAGACCGAGTTCCCGAGCCTGGAGCCGGTCAAGCGGCGCGGCAACCGGCGCTATTACCAGCGGCATGACGTGCTGATGGTGCGGCAGATCCGCGGCCTGCTGTACGAACAGGGCTACACCATCGGCGGTGCGCGGCTGCGGCTGGAAGGCGAGGGCGCCAAGCAGGAGTCGGCGCTCAGCAACCAGATCATCAAGCAGGTGCGCATGGAACTGGAAGAAGTGCTGCACCTGTTGCGGCGCTGA	MLDPGSNRELPPIPAKRYFTIGEVSELCDVKPHVLRYWETEFPSLEPVKRRGNRRYYQRHDVLMVRQIRGLLYEQGYTIGGARLRLEGEGAKQESALSNQIIKQVRMELEEVLHLLRR				NA	NA	NA	NA	NA
BMS020_04507	699			hypothetical protein	ATGAAGACACCGATCGGACGACTTGGCCAAGGCCTGTGCCTGACCCTGATCTGCTCGACGATGCTGGGTGCCTGCAGCTCGACCTCGCACATGGCGCGGGAGTTGCCGGAGCCGGACCCGCTCGCGCTGTCGGCGGTGCAACCCGAATACCGGTTGGCGCCGGGTGACCTGCTACTGGTCAAGGTGTTCCAGGTCGATGACCTCGAGCGCCAGGTGCGCGTCGACAACAGCGGCGCGATCACCCTGCCGTTGATCGGCGAGGTGCATGCCGCCGGGCTGGGCCAGGTCGAACTGGAGAAGCTGCTGGCCGACCGCTATCGCGCCGGCTACCTGCAGGACCCGCAGGTGTCGGTGTTGGTGCAGGAGGCCAACGCCAGGCGGGTGACCGTGTCCGGGGCGGTGGACCAGCCCGGCATCTATCCGCTGGTGGGTTCCAACCTGACCCTGCAGCAGGCGCTGGCCTCGGCCAAGGGCGTCAGCGCGGTGGCCAGCCGCCGCAACGTGATCGTGTTCCGCACCGTGCAGGGGCAGAAGATGGTTGCGCGTTTCGATCTCACCGACATCGAGGAGGGCAAGGCGCCCGATCCGGAGATCTACGGCGGCGACATCGTCGTGGTCTACCGCTCCGATGCGCGTCTGCTGCTGCGGACGATGCTCGAACTGACTCCCTTCGTCATGGTGTGGCGCGCGTATCGATGA	MKTPIGRLGQGLCLTLICSTMLGACSSTSHMARELPEPDPLALSAVQPEYRLAPGDLLLVKVFQVDDLERQVRVDNSGAITLPLIGEVHAAGLGQVELEKLLADRYRAGYLQDPQVSVLVQEANARRVTVSGAVDQPGIYPLVGSNLTLQQALASAKGVSAVASRRNVIVFRTVQGQKMVARFDLTDIEEGKAPDPEIYGGDIVVVYRSDARLLLRTMLELTPFVMVWRAYR	PGPT0025530_2464	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0025530-wza|gfcE|epsA-K01991	NA	NA
BMS020_04508	1398	etk		Tyrosine-protein kinase etk	ATGAGCATGCATAACGACAATACCCTTCCGCCGCGCGGCCGACTCGATCCGGCCGATGCCAGCCTGCTGGACTACTGGCGTGCCCTGTGGGGGCAGAAGACCCTGATCGTGCTGGTCACCGCCGCCGTGGTGGTGCTGGTCGCGGTGGTCACCTGGATGATGACCCCGCGCTATCGCGCCAGCAGCACGCTGCAGATCGAGCGCGACGCGTTGAACGTGGTCAACGTTGACAGCCTGATGCCGGTGGAGTCGCCGCAGGATCGCGACTTCTACCAGACCCAGTACCAGCTCCTGCAGAGCCGCTCGCTGGCGCAGGCGGTGATCCGCGAGGCCAAGCTGGACCAGGAGCCGGCATTCAAGCCGGTGGTCGACGAGGCGGTGGAGAAGGCCAAGGCGGCGCAGCCGGAGACCGGCAACGAGGTCGTGTCGCGGCAGACCATCGCCGAGAAGGTGCTCACTCCGCTGGTGCTGGCCGGCCTGGACATCGAGCCGATCCTCAACTCGCGGCTGGTCTACATCAATTACGACTCGCCCGATCCGGTGCTGGCCGCCAAGATCGCCAACGCCTACGCCCGGGTCTTCATCGTCAGCAACCAGGAGCGCCGGATGAAGGCGTCCTCGTTCGCGACCAAGTACCTATCCGAGCGGTTGGAGCAGCTGCGCGGCAAGGTCGAGGAATCGGAGAAGACCCTGGTGGCGTACTCGAGCCAGGAGAAGATCGTCTCGGTCGGCGACGACAAGCCGTCGCTGCCGGCGCAGAACCTGACCGAATTGAACGCGTTGCTGGCCGCTGCGCAGGACGCACGCATCAAGTCCGAAGCCGACTGGCGCCAGGCCGCCGCTGGCGACGGCATGGGCGTTCCGCAGGTGGTCGCCAGTCCGTTGATCCAGACCCTGCGGGCCGAGCAGGTCAAGCTCAACGCCGAATACCAGCAGAAGCTGGCGACGTTCAAGCCGGACTATCCGGAGATGCAGCGTTTGAAGTCGCAGATGGAGGAGGTGCAGCGGCAGATCAACCGTGAGGTGCTCAACATCCGCCAGTCGCTGCGCGGTGCCTACGATGCCGCGGTGCGCCAGGAGCAACTGCTGAAGGAGCAGATCGTCACGCTGAAGGACGATGAGCTCGACCTGCAGACCCGCAGCATCCGCTACAACATGCTCAAGCGCGATGCCGACACCAACCGCCAGCTCTACGACGCGCTGCTGCAGCGCTACAAGGAGATCGGCGTGGCCGGCAACGTCGGCAGCAACAACGTCTCGATCGTCGACGTCGCCGACGTGCCGCGTACGCCGGCCTCGCCGAAGACCGTGCTGAACCTGGCGATCGGCTTCGTGTTTGGCCTGTTCATCGCCATCGCGATCGCGCTGGTGCGGTACTTCCTGAAGGAGGAGCGATGA	MSMHNDNTLPPRGRLDPADASLLDYWRALWGQKTLIVLVTAAVVVLVAVVTWMMTPRYRASSTLQIERDALNVVNVDSLMPVESPQDRDFYQTQYQLLQSRSLAQAVIREAKLDQEPAFKPVVDEAVEKAKAAQPETGNEVVSRQTIAEKVLTPLVLAGLDIEPILNSRLVYINYDSPDPVLAAKIANAYARVFIVSNQERRMKASSFATKYLSERLEQLRGKVEESEKTLVAYSSQEKIVSVGDDKPSLPAQNLTELNALLAAAQDARIKSEADWRQAAAGDGMGVPQVVASPLIQTLRAEQVKLNAEYQQKLATFKPDYPEMQRLKSQMEEVQRQINREVLNIRQSLRGAYDAAVRQEQLLKEQIVTLKDDELDLQTRSIRYNMLKRDADTNRQLYDALLQRYKEIGVAGNVGSNNVSIVDVADVPRTPASPKTVLNLAIGFVFGLFIAIAIALVRYFLKEER	PGPT0026560_1300	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0026560-exoP|vpsO-K16554	NA	NA
BMS020_04509	1455	gumD	COG2148	UDP-glucose:undecaprenyl-phosphate glucose-1-phosphate transferase	ATGCTTCTGGCCGACCTTAGCAGCGCGACCTACACCACATCGTCGCCTCGACTTCTTTCCAAGTATTCCGCCGCGGCCGACCTGGCGCTGCGGGTGTTCGACCTCGCCATGGTCGTCGTCTCCGGCCTGGTCGCCTATCGCGTGCTGTACGGCACCTGGTTGCCGGCGGCGGCGTACCGCGTGGCGATCGGCACGACGCTGCTGTATGCGGTGATCTGCTTCGCGCTGTTCCCGCTGTACCGCAGCTGGCGTGGCCGCGGCCTGGCGCGCGAGCTGATGGTGCTCGGCGGCGCATTCGCCGGCATCTTCGCGCTGTTCTCGGTGCACGCGCTGATCGTGCAGTTCGGCGAGACGGTGTCGCGGCTGTGGATCGGTCTGTGGTTCGCCGGCGGCCTGGCCATGCTGGTGTGCGCGCGCACGGTGCTGCGCATGCTGCTCAACCACCTGCGCACCCGCGGCGTGGACGTGCAGCGTGTGGTGGTGGTGGGGTTGCGCCACCCGGTGGTGAAGATCCATCGCTACCTGGACCGCAACCCGTGGGTCGGCATGAATGTGGTCGGCTATTTCGCCAGCCGCCATGACCTGCCACTGCCGGAAGAGCGCAAGAGCATCCCCTGCCTGGGCGAGCCGGACGAGCTGGTCGCCTACCTGGAGCAGAACCAGGTCGACCAGGTCTGGATCTCCTTGCCGCTGGGCGAGCGCGACCACATCAAGCAGCTGCTGGAGCGGTTGGACCGCTACCCGATCAACGTCAAGCTGGTGCCGGACCTGTTCGATTTCGGCATGCTCAACCAGTCCGGCGAGCAGATCGGCAACGTGCCGGTGATCAACCTGCGCCAGGGTGGCGTGGACCGCGACAACTACTTCGTGGTGGCCAAGGCGCTGCAGGACAAGATCGTCGCGATCGCCGCGCTGATGGTGCTGTGGCCGGTGATGGCCGCCGTCGCGGTCGGCGTGAAGCTGAGCTCGCCCGGTCCGGTGTTCTTCCGCCAGCGTCGCCATGGCCTGGGCGGGCGCGAGTTCCACATGATGAAGTTCCGCTCGATGCGGGTGCACGACGATCATGGTCCGGTGCTGCAGCAGGCGACCAAGAACGACACGCGCATCACCCGCTTCGGTGCGTTCCTGCGCAAGAGCAGCCTGGACGAGCTGCCGCAGATCTTCAACGTGCTCGGCGGCAGCATGTCCATCGTCGGCCCGCGCCCGCACGCCGCGCAGCACAACACCCACTACGAGAAGCTGATCCACCATTACATGCAGCGCCATTACGTCAAGCCGGGCATCACCGGGTGGGCGCAGGTCAACGGCTTCCGCGGCGAGACCCCGGAGCTGCGCACGATGAAGAAGCGCATCCAGTACGACCTTGACTACATCCGCCGTTGGTCGTTGTGGCTGGACATCCGCATCATCGTGCTGACTGCGGTGCGGGTGCTCGGCCAGAAGAACGCCTACTGA	MLLADLSSATYTTSSPRLLSKYSAAADLALRVFDLAMVVVSGLVAYRVLYGTWLPAAAYRVAIGTTLLYAVICFALFPLYRSWRGRGLARELMVLGGAFAGIFALFSVHALIVQFGETVSRLWIGLWFAGGLAMLVCARTVLRMLLNHLRTRGVDVQRVVVVGLRHPVVKIHRYLDRNPWVGMNVVGYFASRHDLPLPEERKSIPCLGEPDELVAYLEQNQVDQVWISLPLGERDHIKQLLERLDRYPINVKLVPDLFDFGMLNQSGEQIGNVPVINLRQGGVDRDNYFVVAKALQDKIVAIAALMVLWPVMAAVAVGVKLSSPGPVFFRQRRHGLGGREFHMMKFRSMRVHDDHGPVLQQATKNDTRITRFGAFLRKSSLDELPQIFNVLGGSMSIVGPRPHAAQHNTHYEKLIHHYMQRHYVKPGITGWAQVNGFRGETPELRTMKKRIQYDLDYIRRWSLWLDIRIIVLTAVRVLGQKNAY	PGPT0026685_34	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0026685-gumD-K13656	NA	NA
BMS020_04510	1305			hypothetical protein	ATGGCCAATGCGCGGCCCGAGGCGGCATCCGCAGCACGCAGGCGCTGGACCAACTTCAGCATCGAGATGCTGATGCTGGCGGCGATCGGCTACAATTTCGTGCTGGCGGTGGTCAATGCCAAGGTGTTTGCCGTGCGCCCGGTGATGACCTATGCGGTGGAGTTCGCCATCTACGCCGGCTGCTTCGCGATCGGCATCTGGTCGCTCGAACGGCGCCGGCTGGCGCTGGTGATCAGTGGTATCGGCCTAGTGGTCACGCTGATGCTGCTGCGCTTCCTGGTGTCGTGGCAGGTGGACCCGAAGTTCTTTCGCGATGCGCTGATCGCGTTCGCATTCGTGGTGCTTGGCGCGGCTTACCGTGGCTCGCTGCCGAGGTTGTTCGTACGCATGACCATCGTGGTCGCGCTGGTCGCCGCATTCGAGCTGGCGTTGCCGAACGTGTATGGCGACGTGGTCAACCCCAAGAGCTATTTCGTCAACGCACGCGGCGCCAGCGCCGAGGGCTTCTGGAACGAGGACAGCAACCTCTACGTCAGCGCGACGCGCCCCGGCGCGCGCAACTTCCTGCCGGGGTCGAACCTGCCGCGCGCCTCGTCGGTGTTCGTCGAGCCGGTGACGATGGGCAACTACATCATCTTCTTCGCCGCGATCGTGCTGGCGTTCGTGCGCTGGTTGAAGCCGCCGGAGCTGCTGTTGTCGATCGGCCTGATCGGCTTCCTGATCGTCGCCTCCGACGGACGCCTGGCCGCAGGCACCTGCGTGCTGATGTTGATGGTGTCGCCGCTGCTGCGCAGGCTCGACCAGCGGCTGGCCTTCCTGGTGTTCTTCCTGGTGCTGGGAGGTGGCTGGCTGCTGATCTGGGCGTCCGGCATCCAGGCCTACGAGGACACGATGCTGGGTCGTATCTTCTTCACCGTGTACTCGATCAACCACATGCCGCTGGCGTCGTGGTTCGGGCTGGATCCGGCGGCGGCGTACCGCTACTTCGACAGCGGGATTTCCTATTTCATCGCCTCGCAGTCGCTGATCGGGGTGTTGGCGTTCCTGCTCGCGTACTCGTTCCTGATGCTCCTGCCGACCCGCGAGGGGCAGGCGTTCAAGAACCTGGCGATCTTCGCGTTCGCGTTGAGCCTGCTGGTCTCCAACGGCTACTTCTCGATCAAGACCTCGGCGCTGTGGTGGTTCGCCTGCGGGGCGCTGTGGCATCTGCTGCCGGTGCGGCGTTCGCCCGGCATCGTGGCCGATGGTGGTGCGAAGCCGATCGCGCCGCTGCCGCCGCCGCGGCTGGCCGAGGACGCGCGATGA	MANARPEAASAARRRWTNFSIEMLMLAAIGYNFVLAVVNAKVFAVRPVMTYAVEFAIYAGCFAIGIWSLERRRLALVISGIGLVVTLMLLRFLVSWQVDPKFFRDALIAFAFVVLGAAYRGSLPRLFVRMTIVVALVAAFELALPNVYGDVVNPKSYFVNARGASAEGFWNEDSNLYVSATRPGARNFLPGSNLPRASSVFVEPVTMGNYIIFFAAIVLAFVRWLKPPELLLSIGLIGFLIVASDGRLAAGTCVLMLMVSPLLRRLDQRLAFLVFFLVLGGGWLLIWASGIQAYEDTMLGRIFFTVYSINHMPLASWFGLDPAAAYRYFDSGISYFIASQSLIGVLAFLLAYSFLMLLPTREGQAFKNLAIFAFALSLLVSNGYFSIKTSALWWFACGALWHLLPVRRSPGIVADGGAKPIAPLPPPRLAEDAR				NA	NA	NA	NA	NA
BMS020_04511	1107			hypothetical protein	ATGAGCGCGGCCGCACCGGTGCCGGCTTCGGTCCTGCCGGGCTACGTCCCGGCGCGTGACGCACGCATCGATGCGGCCAAGGCGCTGGCGATCGTGCTGGTGGTGCTCGGCCACGCCAAGGGCATTCCGCATGCCTTCACGATCCTGGTCTACAGCTTCCACGTGCCGTTGTTCTTCTTGATGTCGGGCTGGGTCGGCGAGGCCTACGGCGCACGTGCGCGCAGCGGCCCGCTGCCGTGGCGCAAGCTGGTGCGCACGTTGCTGGTGCCCTACCTGTGCTTCTTCCTGCTGGGGTATGCGTACTGGTTGCTGACCCGCGACATCGGCGGCAAGGCGCTGCGCTGGGGCGACCGTCCGTGGTGGGAGCCGCTGCGCGGGCTGGCCAGCGGGATCGGCCCGGACCTGTACGTGCAGCCGGCGCTGTGGTTCCTGCCGGCATTGTTCGTGACCACGCTGGCCTTCAGCGCGTTGCGTCGGACGCTGGCGCCGGGCTGGTTGGCATTGGGGTGCGTGCCGCTGGCCCTGCTCTGGATCGGCTGGTTCCCGCGGCTTGGGCTGCGGCTGCCGTTCGGGCTGGACATCCTGCCGGTGTCGCTGGCGTTCTTCGTGCTCGGCGCGTGGCTGTCGCGGTTGCCGCGGCTGCTGCCGCAAGGCATCGCGGCCAACGTGGTGGCGGCGCTGGTGCTGGCATTGCCGTGGTGCGTGCTGGCCTGGGGTAACGACCGGGTCGACGTGAACATGCTGGTGTTCGGCCACTCCGCCAGTGCGTTCCTGGTGGCGGCGCTGCTCGGCAGTCTGATGACGTTGTGCGCCGCGCGGCTGTTGCAGGGTGCGGCGTGGCTGCAATGGATCGGTCGCAACACCTTGCTGATCCTGTGCACGCACCTGCTGGTGTTCTTCGTGTTGTCCGGCGTCGCTGCGCTGGCCGGGCTGTTCGATGGCGGACGGCCTGGCTTTGGCTGGGCGGTGTTCGTGTCGGCGTTTGCGCTGGCGGCGGCGGTGCCGATGCGCTGGATGTTCATGCGTTGGGCGCCGTGGATGCTCGGCGCGCAGCGCGGCGGACGCCAACGCGCCGCTACCGTCACTGCCCCAATGGAGTCGCATTGA	MSAAAPVPASVLPGYVPARDARIDAAKALAIVLVVLGHAKGIPHAFTILVYSFHVPLFFLMSGWVGEAYGARARSGPLPWRKLVRTLLVPYLCFFLLGYAYWLLTRDIGGKALRWGDRPWWEPLRGLASGIGPDLYVQPALWFLPALFVTTLAFSALRRTLAPGWLALGCVPLALLWIGWFPRLGLRLPFGLDILPVSLAFFVLGAWLSRLPRLLPQGIAANVVAALVLALPWCVLAWGNDRVDVNMLVFGHSASAFLVAALLGSLMTLCAARLLQGAAWLQWIGRNTLLILCTHLLVFFVLSGVAALAGLFDGGRPGFGWAVFVSAFALAAAVPMRWMFMRWAPWMLGAQRGGRQRAATVTAPMESH				NA	NA	NA	NA	NA
BMS020_04512	1143	gumH	COG0438	GDP-mannose:cellobiosyl-diphosphopolyprenol alpha-mannosyltransferase	ATGAAAGTCGTGCATGTCGTCCGCCAGTTCCATCCCTCCATCGGCGGTCTGGAGGAAGTGGTGCTCAATGTGGCGCGCCTGCATCGCGCCGCGGGCGACGACGAGGTCGAGGTGGTGACCCTGGACCGGGTGTTCACCGCGCCGGAGACGCCGCTGCCGGCAGTGGACACGCACCAGGGCGTGGCGATCCGGCGGATCGGCTACCGCGGATCCTCGCGCTATCCGCTGGCGCCTTCGGTGCTGGGGACGCTGCGCTCGGCCGATCTGGTGCACGTGCACGGCATCGACTTCTTCTACGACTTCCTGGCGTTCACCCGGTTGCTGCATGGCAAGCCGATGGTGGTGTCCACCCATGGTGGCTTTTTCCACACCGCCTATGCCTCGACGTTGAAAAAGCTCTGGTTCCACACCCTGACCCGTGCCTCGGCGCTGGCCTATGCCCGCGTCATCGCCACCAGCGAGAACGATGGGGCGCTGTTTTCGCAGGTGGTCGGCGCATCGCGGTTGCGGGTGATCGAGAACGGAGTGGATGTCGACAAATACGCCGGGCAGGGCAGCGCCACGGCCGGACGCACGCTGATCTATTTCGGGCGCTGGTCGGTCAACAAGGGCCTGATGGAGACGCTGGACCTGCTCAAGGCGCTGCTGGCGTTGCGGCCGGACTGGCGGCTGATCGTGGCTGGACGCGAGTACGACTTCGGCGAGGCCGAGTTGCGCGCGGCGATCGCCGCGCGTGGCCTGTCCGGGCACGTGCAGCTGCACGCGTCGCCGTCGCAACAGCAGCTGTGCGCGTTGATGCAGCAGGCGCAGTACTTCGTCTGCCTGTCGCGGCATGAGGGATTCGGGATCGCCGCGGTCGAGGCGATGAGTGCCGGCTTGGTCCCGGTATTGAGCGACATCCCGCCATTCGCGCGCCTGCAGCGCGAATCCGGGCTTGGGGTGCTGGTCGAGCGTGCCGATGCCAGTGGTGCGGCCCGGCGCGTGCAGGCCTTGGCCGATGTCGGCGACGATGCCTATGCGCGCCGCCGCGCCGCGGCGATGGCCCATGTCGCGCGCTACGACTGGCGCCACGTGGTCGGCCGCTACCTCGACGAGTACCGCGCAGCGCTGGGGTTGCCGCAAGGCCAGGAGGCGATGCGATGA	MKVVHVVRQFHPSIGGLEEVVLNVARLHRAAGDDEVEVVTLDRVFTAPETPLPAVDTHQGVAIRRIGYRGSSRYPLAPSVLGTLRSADLVHVHGIDFFYDFLAFTRLLHGKPMVVSTHGGFFHTAYASTLKKLWFHTLTRASALAYARVIATSENDGALFSQVVGASRLRVIENGVDVDKYAGQGSATAGRTLIYFGRWSVNKGLMETLDLLKALLALRPDWRLIVAGREYDFGEAELRAAIAARGLSGHVQLHASPSQQQLCALMQQAQYFVCLSRHEGFGIAAVEAMSAGLVPVLSDIPPFARLQRESGLGVLVERADASGAARRVQALADVGDDAYARRRAAAMAHVARYDWRHVVGRYLDEYRAALGLPQGQEAMR	PGPT0026680_72	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0026680-gumH|aceA-K13657	NA	NA
BMS020_04513	1041	gumI		GDP-mannose:glycolipid 4-beta-D-mannosyltransferase	ATGAACGCCCTGCCGATCGATCGCGCCGAGACCCTGCCGCCGGTGACGGTGTTGTTCTCCACCGAGCGGCCGAATGCGAAGACCAATCCCTACCTGACCCAGCTGTACGACGCGCTGCCGGGGCAAGTAACGCCGCACTTCTTCTCGATGCGCGAGGCGCTGCTGGCACGCTACGACGTGCTGCACCTGCATTGGCCCGAGTACCTGGTGCGGCACCCGTCGCGGCTGGGCACGCTGGCCAAGCAGTGCGCGACCGCCGTGCTGCTGCTGCGGCTCAAGCTCACTGGTACGCCGGTGGTACGGACCCTGCACAACCTGGCGCCGCACGAGGACCGTGGCTGGGGCGAGCGCACGTTGCTGCGCTGGATCGACGGGATGACCCGGCGCTGGATCCGCATCAACGCGACCACGCCGCCGCGCCCGCCGTTCACCGATACCATCCTGCACGGCCATTACCGCGACTGGTTCGCGAAGATGCCACAGGAGCCCAGCATGCCGGGGCGCCTGCTGCACTTCGGGCTGATCCGCCCGTACAAGGGCGTGGAGACGCTGCTGGAGGCGATGGCGGCGCAGCAGAACCCGGGGCTGTCGTTGCGCATCGTCGGCAATCCGGCCACACCGCAGATGCGCGGCCTGGTCGAGCAGGCCTGCCAGGACGACCCGCGGATCAGCGCGTTGCTGGCCTATGTCGAAGAGCCGGTGCTGGCGCAGGAGGTCAGCCGCTGCGAGCTGGTGGTGCTGCCGTACCGGCAGATGCACAACTCCGGCACGCTGCTGCTGGCGTTGTCGCTGGCGCGGCCGGTGCTGGCGCCGTGGAGCGAATCCAACGCGGCGATCGCCCGCGAGGTCGGCCCGGGCTGGGTGTTCCTGTATGAAGGCGAGTTCGAGTCGGGATTGCTTGGTGACACCCTGGAGCAGGTGCGCGCGACCGCGCGCGCCACCACGCCGGACCTGTCGCAGCGCGACTGGACGCGGATCGGCCAGCTGCACTACCTGACCTATCTGGAAGCGCTGGGCTTCGACGGGGATGCCTTGCGATGA	MNALPIDRAETLPPVTVLFSTERPNAKTNPYLTQLYDALPGQVTPHFFSMREALLARYDVLHLHWPEYLVRHPSRLGTLAKQCATAVLLLRLKLTGTPVVRTLHNLAPHEDRGWGERTLLRWIDGMTRRWIRINATTPPRPPFTDTILHGHYRDWFAKMPQEPSMPGRLLHFGLIRPYKGVETLLEAMAAQQNPGLSLRIVGNPATPQMRGLVEQACQDDPRISALLAYVEEPVLAQEVSRCELVVLPYRQMHNSGTLLLALSLARPVLAPWSESNAAIAREVGPGWVFLYEGEFESGLLGDTLEQVRATARATTPDLSQRDWTRIGQLHYLTYLEALGFDGDALR				NA	NA	NA	NA	NA
BMS020_04514	1503			hypothetical protein	ATGTCGCCCGCACCGGCGCCGCAACGCAGCCTGGCCTCGCGTGCCGCTGGCGGCGCGGCGGTGACGATGGTCGGGCAGGGCGCGAAGATGCTGGTGCAGTTCGGCGGCATCGTGCTGCTGGCACGGCTGCTGACCCCATACGACTACGGCCTGATGGCGATGGTCACCGCGATCGTCGGCGTGGCCGAGATCCTGCGCGATTTCGGCCTGTCCTCGGCGGCGATCCAGGCCAAGCAGGTCAGCCGCGAACAGCGCGACAACCTGTTCTGGATCAATTCCGGCATCGGCCTGCTGCTGTCGGTGGTGGTGTTCGTCTCGGCGCAGTGGATCGCCGCGTTCTACAAGCAGCCGGTGCTGGTGACGATCTCGCAGGCGTTGGCGGTGACGTTCCTGCTCAACGGCATGACCACGCAATACCGCGCGCATCTCAGCCGTGGCCTGCGTTTCGGCCAGGTCGCGTTGAGCGACGTCGGCGCGCAGGTGCTCGGGCTGGTCGCCGGCGTGGTCGCCGCGCTGCTGGGCTGGGGCTACTGGGCGCTGGTGCTGCAGCAGGTGGTGCAGGCCTTCGTCAACCTGGCGATCGCGATGGCATGCGCGCGCTGGCTGCCGCGGGGCTATCGGCGCGATGCGCCGATGAAGGCGTTCCTGAGCTTCGGCTGGAACCTGATGGCGGCGCAGATGCTCGGCTATGCCAGCCGCAATGTCGGCCAGGTGATCATCGGCGCGCGGACCGGCGCCGAGGCACTGGGCCTGTACAACCGCGCGTTCCAGTTGCTGATGATGCCGCTGAACCAGATCAACGCGCCGGCGACCACGGTGGCGCTGCCGGTGCTGTCGCAGCTGCAGGACGACCGCGAGCGCTTCGGTGCGTTCCTGCTGCGCGGGCAGTCGGTGATGGTGCACCTGATCGTGGCGATCTTCGCCTTCGCCTGCGCCCAGGCGCTGCCGCTGATGGTGCTGGTGCTGGGCCCGCAGTGGCGCGACGCGGTGCCGCTGTTCCAGATCCTCACCGTCGGCGGCATCTTCCAGGCCGTGGCCTACGCCGCCTACTGGGTGTTCCTGGCCAAGGGCTTGATGCGCCAGCAGCTGGTGTATTCGGTGGTGGCGCGGGTGTTGCTGATCGGCTGCATCGTGCTCGGTTCGATCTGGGGCGTGAACGGCGTCGCCGCCAGCTATTCGCTCGGCCTGCTGCTGCTGTGGCCGCTGTCGCTGCTGTGGATCGGCAAGGTCTCCGATGCGCCGGCCTGGGGGCTGTTCAACAACGGGCTGCGCGCGATCGTCGGTTACGGCCTGGCCGCGGCGGCATCGTGGTATGCGGCCTGGTACGTCGGCGGTCCGTTGTGGCGGATGCTGGCGGTGGGCAGCGGCGCGATGCTGCTCGGTGTCGGCATGGTGCTGCTGGCCTGGCCGGCGTTCCGCCGCGACGTGATGGCGATCGTGAACATCCGCAAGCTGCTCAACGAACGCCGCCAGGTCACTGCCGCCGGCAAGGGGGCACGATGA	MSPAPAPQRSLASRAAGGAAVTMVGQGAKMLVQFGGIVLLARLLTPYDYGLMAMVTAIVGVAEILRDFGLSSAAIQAKQVSREQRDNLFWINSGIGLLLSVVVFVSAQWIAAFYKQPVLVTISQALAVTFLLNGMTTQYRAHLSRGLRFGQVALSDVGAQVLGLVAGVVAALLGWGYWALVLQQVVQAFVNLAIAMACARWLPRGYRRDAPMKAFLSFGWNLMAAQMLGYASRNVGQVIIGARTGAEALGLYNRAFQLLMMPLNQINAPATTVALPVLSQLQDDRERFGAFLLRGQSVMVHLIVAIFAFACAQALPLMVLVLGPQWRDAVPLFQILTVGGIFQAVAYAAYWVFLAKGLMRQQLVYSVVARVLLIGCIVLGSIWGVNGVAASYSLGLLLLWPLSLLWIGKVSDAPAWGLFNNGLRAIVGYGLAAAASWYAAWYVGGPLWRMLAVGSGAMLLGVGMVLLAWPAFRRDVMAIVNIRKLLNERRQVTAAGKGAR	PGPT0017190_257	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
BMS020_04515	1206	gumK		UDP-glucuronate:glycolipid 2-beta-glucuronosyltransferase	ATGAACGCGACATCCGCCGCCGCGCCTGCATCCGGCCGGCGCCCGCGCTACCTGGTGCTGTCGGCGCACGACTACCGTACCCCGCGCCGCGCCAACATCCACTTCATCACCGACGAGCTGGCCAAGCGCGGCGACACGCGGTTCTTCTCGCTGCGCTACAGCCGGTTGTCGCGGATGAAGGGCGATGCGCGCCTGCCGCTGGACGCCACCGCCAACCAGGTGGTCGAGCACAAGGGCGTGCAGTGCTACCTGTGGCGCACCGCGGTGCATCCGTTCAATACACGCCGGCCGTGGCTGCGGCCGGTGGAGAACGCGATGTTCCGCTGGTATGCCGCGCACCCGCCGCAGACGCTGGTGCGCTGGATCCAGGAGGCGGACGTGATCGTGTTCGAAAGCGGCTACGCGGTTGCCTTCATCGAACTGGCGCGGCGGTTGAACCCGCGCGCGCGCATGGTCTACCGCGCCTCCGACGGGCTGAGCACGATCAACGTCGCCGACTGGATCGCGCGCACTTTCGACCGCGTGGCGCCGTCACTGGACGTGATCGCGCTGGTCTCGCCGGCGATGGCCGCCGAGGTCGCCAGCCGCGACAACGTGTTCCATGTCGGCCATGGCGTCGACCTCAACCTCGACCAGCTCGGCGACCCGTCGCCGTATCCGGCCGAGGGCATCCACGCGGTGTCGGTCGGCTCGATGCTGTTCGACCCGCAGTTCTTCGTGGTGGCCGGCAAGGCGTTCCCGCAGGTCACTTTCCATGTGATCGGCTCGGGCATGGGGCGGCATCCGGAGTATCCGGAGAACGTCGTCGTCTACGGCGAGATGAAGCACGCCGAGACCATCGGCTACATCAAGCACGCCCGCTTCGGCATCGCCCCGTATGCGTCCGAGCAGGTACCCGACTATCTGGCCGACAGTTCGATGAAGCTGCTGCAGTACGACTTCTTCGGCCTGCCGGCGGTGTGCCCGCATCGTGTGGTCGGACGCTATCCGTCGCGGTTCGGCTATAGCCCGGGCGATGCCGATTCGGTCGTCGCGGCGATCGGCGCCGCGCTGGACGCGCCGCGCGTGCGCCATCGGCAGTGCCTGAGCTGGGCCGAGACCACCGATCGTGTGCTCGATCCAGCCGGGTATCCCGAGACCCGGCTGGGCGCGCGCGGCGAAGCGTCCGTGCCGACCGTCGCCGCTGCGGCCGCCTTGTCGCTCTGA	MNATSAAAPASGRRPRYLVLSAHDYRTPRRANIHFITDELAKRGDTRFFSLRYSRLSRMKGDARLPLDATANQVVEHKGVQCYLWRTAVHPFNTRRPWLRPVENAMFRWYAAHPPQTLVRWIQEADVIVFESGYAVAFIELARRLNPRARMVYRASDGLSTINVADWIARTFDRVAPSLDVIALVSPAMAAEVASRDNVFHVGHGVDLNLDQLGDPSPYPAEGIHAVSVGSMLFDPQFFVVAGKAFPQVTFHVIGSGMGRHPEYPENVVVYGEMKHAETIGYIKHARFGIAPYASEQVPDYLADSSMKLLQYDFFGLPAVCPHRVVGRYPSRFGYSPGDADSVVAAIGAALDAPRVRHRQCLSWAETTDRVLDPAGYPETRLGARGEASVPTVAAAAALSL				NA	NA	NA	NA	NA
BMS020_04516	795			hypothetical protein	ATGCCGAATCCGTTGCTGCTGAAGTGGCTCGACCATAGCGAGCGCCGCGCGCTGTTCTGGTGGCAGCCCAAGGATGGCCGCATCAACATGGGCGATTACCTGTCCAAGGTGATCGTCGCCGGTGCGCTGTCGCTGCAGGACAAGACCCTGATCGAGAAGCGCGATACCGCCAACAAGCTGGTCGCGATCGGCTCGGTGCTGCACTTCGCCAACACCGGCGACACGGTCTGGGGCAGCGGCATCAACGGCAAGATCCCGGCCGAGCGCAATGCCTTCGGCATGCTCGACGTGCGCTCGGTGCGCGGCCCGCGCACGCGTGAGTTCCTGATGGCGCGCGGGATTCCGGTGCCGGAGATCTATGGCGATCCCGGGCTGTTGATGCCCACGTTCTTCCCGGCCGACGCGCTCGGCCCGCCGCGGCCGCGCCCGTTCGCGATCGTGCCACACTTCAACGAGCCGGCAGACAAGTACGCGGCGTGGTCCGAGCACCTGGTGTTCCCGGACTGCAAGCCGGCGAGTTTCGTGCGCCAGCTGCTCGGCGCCGAGCTGGTGGTCAGCAGCTCGCTGCATGGCTTGATCCTGGCCGAGGCCTACGGCATCCCGGCGGTGTACCTGGACTGGGGTAACGGCGAAGACCGTTTCAAGTACGACGACTACTACTTCGGCACCGGGCGCCTGCAGTGGCATGCCGGTACCAGCGTCGAGCAGTGCCTGGCGCTGGGCGGTAATGGCGGTTTCGAGCTGGCGCGGCTGCAGGCGCAGCTGCTGGCGGCGTTTCCCTACGACCTGTGGTGA	MPNPLLLKWLDHSERRALFWWQPKDGRINMGDYLSKVIVAGALSLQDKTLIEKRDTANKLVAIGSVLHFANTGDTVWGSGINGKIPAERNAFGMLDVRSVRGPRTREFLMARGIPVPEIYGDPGLLMPTFFPADALGPPRPRPFAIVPHFNEPADKYAAWSEHLVFPDCKPASFVRQLLGAELVVSSSLHGLILAEAYGIPAVYLDWGNGEDRFKYDDYYFGTGRLQWHAGTSVEQCLALGGNGGFELARLQAQLLAAFPYDLW				NA	NA	NA	NA	NA
BMS020_04517	798			N-acetylglucosaminyldiphosphoundecaprenol N-acetyl-beta-D-mannosaminyltransferase	ATGGCCAGCGAATCCAAGGCCGCCGACGCGGCGCCGGTGTCCGCCAAGGACGTGTTCCCGGTCGGGCAGCGCGTGGCGCTGGGCGGCTATCCGGTGCTGTCGACCACGCAGGAGGCCTTCGCGCGCGAGCTGTTCCAGGCGCTGGCGGTCGGTCAGCGGCGACGGGTGCTCTTCGCCAACACCAATTTCGTCGTGCAGTGCCAGGCGCTGCGCCAGCGCCTGCGCGCCGAGCCGTCGCTGCGCATCGTCAACGACGGCATCGGCATGGACCTCGGTGCGCGGCTGGTGCACGGGCGCAGCTTCGCCGGCAACCTCAACGGCACCGACCTGATCCCGTACCTGTGCGCGCACGCGCCGCAGCCGTTGCGCTTCTTCCTGGTCGGCGCCAAGCCCGGCATCGCCGAAATCGCCGCCGGGACGCTGCGGCAGGTGCATGGTCAGCAGGTGGTCGGCACCTGCGACGGCTACGCTCAGCTGGCCCAGGCCGGCGAGGACATCGTCGCGCGGATCAATGCCTCCGGGGCCAACGTGGTGCTGGTGGCGTTCGGCAATCCATTGCAGGAGCGCTGGATCCTGGAGCGCTCTGAGGCGCTGCAGGCGCCGCTGGTGTTCGGCGTCGGCGCGCTGCTGGATTTTCTGTCCGGCAACGCACGGCGTGCGCCGCAGTGGGTGCGCCGGCTGCGGATGGAGTGGATGTACCGGTTGCTCAACGAGCCGCGGCGGCTGCTCAAGCGCTACAGCTGGGATCTGCTGGTGTTCTTCGGTGTCTGCCGCCGCGCGGGCAAGTCGCTGGAGTGA	MASESKAADAAPVSAKDVFPVGQRVALGGYPVLSTTQEAFARELFQALAVGQRRRVLFANTNFVVQCQALRQRLRAEPSLRIVNDGIGMDLGARLVHGRSFAGNLNGTDLIPYLCAHAPQPLRFFLVGAKPGIAEIAAGTLRQVHGQQVVGTCDGYAQLAQAGEDIVARINASGANVVLVAFGNPLQERWILERSEALQAPLVFGVGALLDFLSGNARRAPQWVRRLRMEWMYRLLNEPRRLLKRYSWDLLVFFGVCRRAGKSLE	PGPT0026680_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0026680-gumH|aceA-K13657	NA	NA
BMS020_04518	459			hypothetical protein	ATGGACACGACCGCCGCTCACCTGATCCAGCAGCACCAGCTTGCCCCGCATCCGGAAGGTGGGCATTACCGCCGCATCTACGAGTCCGAGACCCGTCGCGACGGGCGCCCGGTGCTGACCGGCATCCGCTTCCTGCTCGCGCGTGGCGAGGCCAGCCGCTGGCACCGGGTCGACGGCGACGAGTGCTGGCACTGGCAGCATGGCGACGCGCTGGAGCTGCTGACCTTCGATCCGGCCACGCAGCAGCTGCTGCGCCAGCGGCTGGGCCCCGACGGCCCGGACACTGCGCCGATGCGCGTGGTGCCGTCCGGCTGCTGGCAGGCCGCGCGCGCGCTGGGCGACTACGCGATGGTCGCCTGCACGGTTTCGCCCGGCTTTGTCTGGGACGGTTTCGCGCTGCTGGCGGCGGACGCGCCGCTGGCCGCGATGCTGCGCGAGGCCGGTGCCTGGATCGAGTGA	MDTTAAHLIQQHQLAPHPEGGHYRRIYESETRRDGRPVLTGIRFLLARGEASRWHRVDGDECWHWQHGDALELLTFDPATQQLLRQRLGPDGPDTAPMRVVPSGCWQAARALGDYAMVACTVSPGFVWDGFALLAADAPLAAMLREAGAWIE				NA	NA	NA	NA	NA
BMS020_04519	1020			hypothetical protein	ATGCGTAACACGGGACGTGCGCGGGCACTGCTGCTGGTGCTTGCAGGCTGGTCGGCGGCAGCCGGGGCACAGGATGCGACGGCACCGGCGCGGCCAGCATCCGCGGCGGTGGTCGAGCTGGAGACGATGGTGGTACGCGGCAGCCAGCCCGGGCCGGGCCTGTGGAAGGTCAGCCGCGGCGAGCATGTGCTGTGGATCCTCGGCACGGTGGCGCCGTTGCCGGCCGGGATCGCCTGGCAGTCGGGCGAGGTCGAGGCGACGATCGCGCAGTCGCAGCAGGTGCTGCAGCCGCCGGGGTTGACGTTCGACGCCGATGTCGGCCTGTTCGGCAAGCTGATGCTGGCGCCATCGGCATTCAAGGCGATGAAGAACGAGGATGGCGCCGAGCTGCGCGACGTGCTGCCGGCCGAGACCTACGCGCAGTGGCTGCGGCTGAAGGCGCGCTACCTCGGCCGCGACCGCGGGATCGAGCGCAAGCGCCCGATGCTGGCGGCCGGCGAGCTGTACGAGGCGGCGGTGCGCAAGAGCGGGCTGGCGCGCAAGCCGCTGGTGTGGCCGGTGGTGGAACGTGCGGCCAAGCGCGCCGGCATCGCGCCGACCTCGACCACGCTGGAATTCAAGATCGAAGACCCGAAAGCGGCGATCCGCCAGTTCCGCGCCGGTGGCATGGACGACGTGGCCTGCCTGCGCACGGTGATGGCGGCGGTCGAGCACGACCTGCCCGGCATGGTCGCGCGCGCGAATGCCTGGGCGGTCGGCGATGTGGATGCGTTGCAGGCGATGCCGCGGCAGGATCCGCGTCGTGCGTGTACGCAGGCCTTGTCCGCTTCGGGCTTCGCCCGCGAACGCGGTTACGGCGATCTCGATGCGCGCATGCGCCAGCACTGGCTGGAGATCGCCGGCAGAGCGTTGCAGGTCAACCGCAGCACGTTCGCGGTGCTGCCGGTCAGCGACCTGCTCGGTGGCAGCGGCTACCTGGCACGGCTGCAGGCTCTGGGCTATGTGGTGGAGGCGCCCTGA	MRNTGRARALLLVLAGWSAAAGAQDATAPARPASAAVVELETMVVRGSQPGPGLWKVSRGEHVLWILGTVAPLPAGIAWQSGEVEATIAQSQQVLQPPGLTFDADVGLFGKLMLAPSAFKAMKNEDGAELRDVLPAETYAQWLRLKARYLGRDRGIERKRPMLAAGELYEAAVRKSGLARKPLVWPVVERAAKRAGIAPTSTTLEFKIEDPKAAIRQFRAGGMDDVACLRTVMAAVEHDLPGMVARANAWAVGDVDALQAMPRQDPRRACTQALSASGFARERGYGDLDARMRQHWLEIAGRALQVNRSTFAVLPVSDLLGGSGYLARLQALGYVVEAP				NA	NA	NA	NA	NA
BMS020_04520	1938	dxs_2	COG1154	1-deoxy-D-xylulose-5-phosphate synthase	ATGCCGCTTCAGCTGAAAGCCACGACGATGATCGACCCGAACCGCTATCCGCGCCTGGCGCGCATCCAGACCCCCGATGACCTGCGCCGGTTCGACGAGGCCGACCTCACCGCCGTTGCCGACGAGCTGCGCGACTACCTGATCGAGTCGGTCGGCCGCAGCGGCGGTCATTTCGCCGCCGGGCTGGGCGTGATCGAACTTACCGTCGCGCTGCACTTCCTCTACAACACCCCGGTCGACCAGCTGGTCTGGGACGTCGGCCACCAGACCTACCCGCACAAGATCCTCACCGGTCGCCGCGACCAGATCCATACGGTCAAGCAGAAGGACGGCGTGGCGCCGTTCCCGAAGCGCGAGGAAAGCGTCTACGACAGCTTCGGCGTCGGCCACTCCTCGACCTCGATCTCCGCCGCGCTGGGCATGGCGATCGCCGCGCAACAGGCCGGCGACGAGCGCCGCGTGGTGGCGGTGATCGGCGATGGCGCGATGACCGCCGGCATGGTCTACGAAGCACTCAACCACGCCGGTGGCATGGACCCGGAACCGAACCTGCTGGTGATCCTCAACGACAACCGCATGTCGATCTCCGAGGCGGTCGGCGGGCTGACCAAGATGCTCGGCCGTGCCAGCGGCAGCCGCACCCTCAATGCGCTGCGCGAAGGCGGCAAGAAGATCCTCGGCGACAAGAAGAGCAGTTCCACCGCGCGTTTCGTCAAGCGCTGGGAGGAGCACTGGAAAGGCATGTTCGTGCCGTCCACGCTGTTCGAGGAAATGGGCTTCCACTACACCGGCCCGATCGACGGCCACGACCTGCCGGCGCTGCTGAGCACGCTGAAGACGCTCAAGGGCTTGAAGGGCCCCAAGCTGCTGCACGTGATCACCACCAAGGGCAAGGGCTACGAGCTGGCCGAGGGCGACCAGATCGGCTACCACGCGGTCGGCCCGTTCGACCCGGCCAAGGGCCTGGTCGCCAAGACCGGCGCGAAGAAGCCGACCTACACCGACGTCTTCAGCGACTGGCTGTGCGACGCCGCCGCGGCCGAGCCGCGCCTGCTGGCGATCACCCCGGCGATGCGCGAGGGCTCCGGCCTGGTGCGCTTCAGCAAGGAATACCCGCAGCGCTACTTCGACGTGGCGATCGCCGAACAGCACGCGGTGACGCTGGCCGCCGGCATGGCCACCCAGGGCGCCAAGCCGGTGGTGGCGATCTACTCGACCTTCCTGCAGCGCGGCTACGACCAGCTGGTGCACGACGTGGCGGTGCAGCAGCTCGACGTGCTGTTCGCGATCGATCGCGGCGGCGTGGTCGGCCCCGATGGTGCCACCCACGCCGGCAACCTCGACCTGAGCTTCCTGCGCTGCGTGCCGCACATGGTGGTGATGGCGCCGGCCGACGAGGCCGAGTGCCGGCAGATGCTCAGCACCGGCCTGCACTACCGTGGCCCGGCCGCGGTGCGCTATCCGCGCGGCACCGGCCCCGGCGTCGCGCCGGCGGCGGAGCTGGCAACACTGCCGATCGGCAAGGCCGAGCTGCGCAGCCGCGGCCGCGGCGTGGCGCTGCTGGCGTTCGGCGCCTGCGTGGCCGCCGCCGAACAGGTCGGGCGCGAGCTCGGCCTGAGCGTGGTCAACATGCGCTTCGTCAAGCCGCTGGACCGTGCGCTGATCGTCGAGCTGGCCAGCAGCCACGATGGCTTCGTGACCATCGAGGACAACGTCGTCGCCGGCGGCGCCGGTTCCGGCGTGGCCGAACTGCTCAATGCCGAGGGCCTGAGCGTGCCGATGCTGCAGCTCGGGCTGCCCGACGAATTCCAGCACCACGCCAGCCGCGAGGACCTGCTGGCCGAAGCCGGCATCGACGCCGCCGGCATCCGCGCCGCAGTGCTGCGGCGCTGGCCGCAGCTGGCCGCCGGCGGCAACACGCTCAGCGCCGCCAGCTGA	MPLQLKATTMIDPNRYPRLARIQTPDDLRRFDEADLTAVADELRDYLIESVGRSGGHFAAGLGVIELTVALHFLYNTPVDQLVWDVGHQTYPHKILTGRRDQIHTVKQKDGVAPFPKREESVYDSFGVGHSSTSISAALGMAIAAQQAGDERRVVAVIGDGAMTAGMVYEALNHAGGMDPEPNLLVILNDNRMSISEAVGGLTKMLGRASGSRTLNALREGGKKILGDKKSSSTARFVKRWEEHWKGMFVPSTLFEEMGFHYTGPIDGHDLPALLSTLKTLKGLKGPKLLHVITTKGKGYELAEGDQIGYHAVGPFDPAKGLVAKTGAKKPTYTDVFSDWLCDAAAAEPRLLAITPAMREGSGLVRFSKEYPQRYFDVAIAEQHAVTLAAGMATQGAKPVVAIYSTFLQRGYDQLVHDVAVQQLDVLFAIDRGGVVGPDGATHAGNLDLSFLRCVPHMVVMAPADEAECRQMLSTGLHYRGPAAVRYPRGTGPGVAPAAELATLPIGKAELRSRGRGVALLAFGACVAAAEQVGRELGLSVVNMRFVKPLDRALIVELASSHDGFVTIEDNVVAGGAGSGVAELLNAEGLSVPMLQLGLPDEFQHHASREDLLAEAGIDAAGIRAAVLRRWPQLAAGGNTLSAAS	PGPT0008960_2011	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
BMS020_04521	663			hypothetical protein	ATGGAGACAGACACTACCTCACGTGGTCTGATCGACGCCGGAGCCCTCGTCGCGCCGGTCACGGGCGCCGTATCGCCCCCACTTCCCTTCGCCCGCGCCGCGCCGGTCCGCCTGCTGGCCCTGGATGCGCACGGGCGCGTACTGGACTGGATCAACTGGCAGGACGCCGCCTGCCTCTACGCCCGCGACGCGGTGTCCTGGACACTGGGCGCGCCCTGCATGGAAGTGCACGGCGGCATCTCGCGCCTGACCGGCGAACGCAGCGTGATCGCCCTGCATCCGATCATTGCCGCCCGTGGCCACGCCCGCTCGCGCGCGATCGACCCGACCCCGGCATTGACCAACACCGCGCTGTTCGCGCGCGATTCGCAGCTGTGCCTGTACTGCGGCGAGCACTTCAGCCGCCCGCACCTGACCCGCGACCACGTGATGCCGGTCTCCAAGGGCGGCCGCGACATCTGGGAGAACGTGGTCACCGCCTGCTTCTACTGCAACTCGCGCAAGGCCAACCGCACCCCGCAGCAGGCCGCGATGCCGTTGCTGGCGGTGCCGTACCGGCCGAGCTGGATCGAACACATGATCCTGTCCAACCGCAACATCCTGGCCGACCAGATGAGCTTCCTGAAGGCCCAGCTGCCCAAGCGCTCCAAGCTGTCCGGCTGA	METDTTSRGLIDAGALVAPVTGAVSPPLPFARAAPVRLLALDAHGRVLDWINWQDAACLYARDAVSWTLGAPCMEVHGGISRLTGERSVIALHPIIAARGHARSRAIDPTPALTNTALFARDSQLCLYCGEHFSRPHLTRDHVMPVSKGGRDIWENVVTACFYCNSRKANRTPQQAAMPLLAVPYRPSWIEHMILSNRNILADQMSFLKAQLPKRSKLSG				NA	NA	NA	NA	NA
BMS020_04522	1788	dmdC	COG1960	3-methylmercaptopropionyl-CoA dehydrogenase	ATGAGCACCTACACCGCACCGTTGACCGATCTCCGCTTCGCCCTGCACGACGTGCTGCGCGTGGAGGACCTGTTCGCCCGCCTCGGCTACACCGACGCGACCCGCGACATCATCGACGCGGTGCTGGAGGAAGCCGGGCGCTTCACCGGCAACGTGCTGGCCCCGCTCAACAGCGTCGGCGACGAGATCGGCTGCGCCTTCGACAAGAGCACCCACGAAGTCACCACCCCGCCCGGCTTCCGCCAGGCCTACGCGCAGTTTGTCGAGGGCGGCTGGACCGGCCTGACCGCGGCGCCGGAGTTCGGCGGCCAGGGCCTGCCGCACACGCTGGGCGCGCCGCTGGGCGAGATGGTCAATGCCGCCAACCTGGCCTGGGGCAACTTCCCACTACTCTCGCACGGCGCGGTCGAGGCGCTGAAACAGCACGGCGAGGCATGGCAGCAGGAGGCGTTCCTGAAGCCACTGATCGCCGGCCAGTGGACCGGCACGATGTGCCTGACCGAGCCGCACTGCGGCACCGACCTGGGCCTGCTCAAGACCCGCGCCGAGCCCAACACCGACGGCAGCTACGCCATCACCGGCACCAAGATCTTCATCACCGCCGGCGAACACGACCTGACCGACAACATCGTCCACCTGGTGCTGGCGCGCCTGCCCGACGCCCCGGCCGGCCCGAAAGGCATCTCGCTGTTCGTGGTCCCCAAGTTCCAGGTCGGCCGCGATGGCGCGATGGGCGCGCGCAACGCGCTGCATTGCGGCTCGATCGAGCACAAGATGGGCATCAAGGGCTCGGTGACCTGCGTGATGAATTTCGACGGCGCGCAGGGCTGGCTGGTCGGCGGTCCGCACAAGGGCCTGCAGGCGATGTTCACCATGATGAATTCCGCGCGCCTCGGCGTCGGCCTGCAGGGCATCGGCCTGAGCGAACGCGCCTACCAGAACGCACTGCGCTACGCCCGCGAGCGCCTGCAGTCGCGCTCGCTGTCGGGCGCCAAGTTCCCGGACAAGCCGGCCGATCCGCTGATCGTGCAGCCGGACGTGCGCCGCATGCTGCTGACGGTGAAGGCGCTGACCGAAGGCAGCCGCCTGCTGGCGCTGCATGCGGCCAGCCTGATCGACATCGCGCACAGCGCCAGCGATCCGGCCGAGCGCGAACGCGCCGAGACCCTGGTGAGCTTCCTGACGCCGATCTCCAAGGCCTGCCAGACCGAATGGGGCATCGAGAACACCTACCACGCGCTGCAGTGCTTCGGCGGCCACGGCTACATCCATGAACATGGCATGGAGCAGCTGGCGCGCGACGCGCGCATCACCACGCTGTACGAAGGCACCACCGGCATCCAGGCGCTGGACCTGATGGGGCGCAAGACCGCGGCCAGCCAGGCCGCCGGGCTCAAGCTGTTCCTGGCCAAGCTGGAGAAGTTCACCGAGGCCTATGCCGACGATGAGGTCATGAGCGAATTCATCGGGCCGCTGTGCGAGAAGGCCGCCGAATGGACCCAGCTGACCCGCGAGATCCTGCTGCGCGCGGCGCAGGACCCGGAGGAGATCGGCGCGGCCAGCTACGACTACCTGTTCTATTCCGGCTACGTGGTGCTGGCCTACTGGTGGGCGCGCAGCGTGGTCGCCGCCAATACCTCCGAGCATGACGAAGGCTTCCGCCGCGCCAAGTTGGAGACCGCACGCTTCTACTTCGCGCGCATCCTGCCGCGTACGCTGACCCACGCCGCCAACATCCGCGCCGGCGCCGCGCCGCTGATGGCGCTGGACGAGGCGTTGTTCGGCTGA	MSTYTAPLTDLRFALHDVLRVEDLFARLGYTDATRDIIDAVLEEAGRFTGNVLAPLNSVGDEIGCAFDKSTHEVTTPPGFRQAYAQFVEGGWTGLTAAPEFGGQGLPHTLGAPLGEMVNAANLAWGNFPLLSHGAVEALKQHGEAWQQEAFLKPLIAGQWTGTMCLTEPHCGTDLGLLKTRAEPNTDGSYAITGTKIFITAGEHDLTDNIVHLVLARLPDAPAGPKGISLFVVPKFQVGRDGAMGARNALHCGSIEHKMGIKGSVTCVMNFDGAQGWLVGGPHKGLQAMFTMMNSARLGVGLQGIGLSERAYQNALRYARERLQSRSLSGAKFPDKPADPLIVQPDVRRMLLTVKALTEGSRLLALHAASLIDIAHSASDPAERERAETLVSFLTPISKACQTEWGIENTYHALQCFGGHGYIHEHGMEQLARDARITTLYEGTTGIQALDLMGRKTAASQAAGLKLFLAKLEKFTEAYADDEVMSEFIGPLCEKAAEWTQLTREILLRAAQDPEEIGAASYDYLFYSGYVVLAYWWARSVVAANTSEHDEGFRRAKLETARFYFARILPRTLTHAANIRAGAAPLMALDEALFG	PGPT0008385_291	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
BMS020_04523	483			hypothetical protein	ATGCGTTTCACCCGCTGTACCGCCCTGCTGGCGCTGTGCGCCGTCGCCCTGAGCCTGGCCGGCTGCGGCGGCGGGATGGTCCGGCGGGTGTCCGAGCCGACCGCGAGCATCCAGCAGCTCAGCGTGGCCAATGACGGCAGCTGGGCGCTGGAACTGCGCCTGCAGAACTACAGCAGCATCCCGATGCGCTTCGACCGCGTGGCGCTGGAGGTGACCGTCGCCGACCAGCCCGCCGGCCGCATCGAACAGGCCGTGGACATGTCCATCGGCCCGGAAACCGCCGACGTGGTCAAGCTGACGCTGCAGCCCAGCTCGCTGGCCAAGCTCGCCGTCGCCGACGTGCTCGCCGGCCACCGCTCGCTGCCGTACGCACTGAAGGGCACGGTGTGGGCCACGCCGGAAGAGAAGAAGCAGCGCGACTTCGACGTCGACGCACGCAATACGCTGTATCCGGCACCCGGCCTCGACGGCGTGCTGCGCTGA	MRFTRCTALLALCAVALSLAGCGGGMVRRVSEPTASIQQLSVANDGSWALELRLQNYSSIPMRFDRVALEVTVADQPAGRIEQAVDMSIGPETADVVKLTLQPSSLAKLAVADVLAGHRSLPYALKGTVWATPEEKKQRDFDVDARNTLYPAPGLDGVLR				NA	NA	NA	NA	NA
BMS020_04524	549	blc_1	COG3040	Outer membrane lipoprotein Blc	ATGCGCCTTTCCATGCTGCTGTCGCTGCTGTTTGCCCTGCTCGGCTCCATCGCCTCCGCCTCGGCCGAGGACAAGACGCCGGTCAGCTCGGTCGAGACGCTGGATCTGTCCCGCTACGCGGGCCAGTGGCACGAGATCGCCCACCTGCCGGTGTCGTTCCAGAAGAAATGCCGCGGCGACATCACCGCGCTGTACTCGCTGCGCGGCGATGGGCAGATCGGCGTCCGCAACGCCTGCACCACCGCCGACGGCGAACGCGTGGCCGCCGACGGCGTGGCGCGTACCGTGCCCGACCACCCGGGCCGCCTGCAGGTGCGCTTCGTTCCCGACTGGCTGGCCTGGGCCCCGCTGGTGTGGGCCGACTACTGGGTGATCGCGCTCGACCCGGACTACCAGTGGGCGCTGGTCGGCGAGCCGGACCGCAAGTACCTGTGGATCCTGTCGCGCTCGCCGCGCATGCCACGCGCGCAGTTCGAGGCGCTGCGCGCGACCGCTGAATCGATGGGATACGACCTGCACGATCTTGTCATCGCCGCGCCGTTGGAGTGA	MRLSMLLSLLFALLGSIASASAEDKTPVSSVETLDLSRYAGQWHEIAHLPVSFQKKCRGDITALYSLRGDGQIGVRNACTTADGERVAADGVARTVPDHPGRLQVRFVPDWLAWAPLVWADYWVIALDPDYQWALVGEPDRKYLWILSRSPRMPRAQFEALRATAESMGYDLHDLVIAAPLE	PGPT0012970_1906	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012970-blc-K03098	NA	NA
BMS020_04526	465			hypothetical protein	ATGGCGTGGAAGCGGATGGCAGCGGGCTTGGCGGTGCTGGCGCTGCTCGGCGGTTGCGCGACCGGGCGGCTGAGCGACCAGGAGCGCTTGGCGCTGTATCGCCAGCACGCCGGCGAGCCGGTGCGCGACCTGCGCATCTATGGCAGCGGCCTGAGTGGCTGGACCGAACTCGGCCAGAGCGCGCTGGCAGTGTGGACGCGTCCGAACGAAGCCTATCTGCTGGAACTGACCGGCCCGTGCTACGGCCTCGACTACGCGCCGGCGATCTCGATCACCAACCAGATGGGCGTGGTGTCGGCGCGCTTCGACCGGGTGATCGTGCTGGGCGGTGCGCCCGGAATGCGCATGCCGTGCCGGATCGATCGCATTCTGCCGCTGGACGTCAAGGCGTTGAAGCTGTCCGAGAAGGAATTGCGCGAGGCGAAGACGGAAGCGCGCGAAGAGGGCGCTGGCGACGCACGCTGA	MAWKRMAAGLAVLALLGGCATGRLSDQERLALYRQHAGEPVRDLRIYGSGLSGWTELGQSALAVWTRPNEAYLLELTGPCYGLDYAPAISITNQMGVVSARFDRVIVLGGAPGMRMPCRIDRILPLDVKALKLSEKELREAKTEAREEGAGDAR				NA	NA	NA	NA	NA
BMS020_04527	279		COG2924	putative Fe(2+)-trafficking protein	ATGCCCCGCACCGTCTTCTGCCAGTACGAACAACGCGACACCGAAGGCCTGGACTTCGTGCCCTATCCGGGCGAACTCGGCCAGCGCGTGTTCGCCCACGTCGGCAAGGCCGGCTGGGCCGCGTGGCTGGCGCACCAGACCATGCTGATCAACGAGAACCGGCTGTCGCCGCGCGACCCCAAGCACCGCGCCTTTCTCGAGGCGGAGCTGCAGAAGTTCCTGTTCGAGCGCAACGCCGACAAGCCGGACGGCTACGTCGCGCCCGACGCGGCCAGCTGA	MPRTVFCQYEQRDTEGLDFVPYPGELGQRVFAHVGKAGWAAWLAHQTMLINENRLSPRDPKHRAFLEAELQKFLFERNADKPDGYVAPDAAS				NA	NA	NA	NA	NA
BMS020_04528	1050	mutY_2	COG1194	Adenine DNA glycosylase	ATGCCCGATCATTTCGCCCACCCGCTGCTGACCTGGTTCGACCAGCACGGTCGCCACGACCTGCCCTGGCAGCATCCGCGCACGCCGTACCGGGTGTGGCTGTCGGAGATCATGCTGCAGCAGACCCAGGTGGCGGTGGTGATCCCGTATTTCCAGCGCTTCGTCGCCAGCTTCCCGAGCCTGCGCGACCTCGCCGCCGCCGATACCGATGCGGTGATGGCGCACTGGGCCGGGCTGGGCTACTACGCCCGCGCACGCAACCTGCATGCCGCGGCCAAGGCCTGCGTCGAACACCACGACGGCGAGCTGCCGCGCGACTTCGACGCACTGCACGCCCTGCCCGGGATCGGCCGCAGCACCGCCGGCGCGATCCTGTCGCAGGCCTGGAACGACCGCTTCGCGATCCTCGACGGCAACGTCAAACGCGTGCTGGCGCGGGTCCATGGCATCGCCGGCTGGCCCGGCCTGCCGGCGGTCGAGAAGCAGTTGTGGGCGCTGGCGATCGAGCACGTCCAGCACGTGCCCGGCGAGCGGCTCGCCGACTACACCCAGGCGCAGATGGATTTCGGCGCCACGCTGTGCACGCGCGCCAAGCCGGCCTGCGTGCTGTGCCCGTTGCAGGACGCCTGCAGCGCGCGCCGTGACGGGCTGACCGATGCCCTGCCCACGCCCAAGCCGGGCAAGGCGTTGCCCGAGCGCGAGGCGACCGCGCTGCTGCTGCAGAACCGCGACAACCAGATCCTGCTGCAGCGACGGCCGCCGACCGGCATCTGGGCCTCGCTGTGGACGCTGCCGCAGGCCGACACCGACGCTGCGCTGCGCGCCTGGTTCGCCACCGAGATCGACGGCGACTACGACGCCGCCGACGAGCTGCCGCTGATCGTCCACACCTTCAGCCACTACCGCCTGCACCTGCAGCCGAGGCGGCTGTGCAAGGTCGCCCTGCGCCAGCGGGTGCGCGACAATGCCGACCTGCGCTGGGTGGCGCGCGGCGACCTCGCCGCGCTCGGCCTGCCGGCACCGATCCGCAAACTGCTGGACACGCTCTGA	MPDHFAHPLLTWFDQHGRHDLPWQHPRTPYRVWLSEIMLQQTQVAVVIPYFQRFVASFPSLRDLAAADTDAVMAHWAGLGYYARARNLHAAAKACVEHHDGELPRDFDALHALPGIGRSTAGAILSQAWNDRFAILDGNVKRVLARVHGIAGWPGLPAVEKQLWALAIEHVQHVPGERLADYTQAQMDFGATLCTRAKPACVLCPLQDACSARRDGLTDALPTPKPGKALPEREATALLLQNRDNQILLQRRPPTGIWASLWTLPQADTDAALRAWFATEIDGDYDAADELPLIVHTFSHYRLHLQPRRLCKVALRQRVRDNADLRWVARGDLAALGLPAPIRKLLDTL				NA	NA	NA	NA	NA
BMS020_04529	1326	ftsY_2		Signal recognition particle receptor FtsY	ATGCTCAGTTTTTTCCGCCGCAAGAAGCCCCAGGACACCCACCAGGCCGACAAGCCGCTCAGCGCCGAAGAGCTGGCCGCCGCGTTCCCGCAGGCGCCCTCTGCAGCGGAGCCCGGCGCGGCGCCAGCCACGCCGGCCGAGGTGCTGGCGGCTGAAATCGTCGAGCGCACCGGCGAAGCCCAGCCGGTCGCGGCGTTGCCGACCAGCGCGCCCCCCTCGGCGCCCGTCAGCGACGAGGTCGTCATCCCCACCCCGGCCGAACCGGCACCGCCGGCACCGCAGGTGGTGGTCGCCCCGGCCGCCGACCTGCCGCAGCCGGCCAGCGCGCCCTCGCCCGAACCGGCCGCCGCCATCCTCGATGCCGGCCCCGACCCGCTGGTCATCACCGACAAGCCGGCCGCCCCGGCCGGCAAGCCCGGCTGGCGCGAGCGCCTGCGCGGCAGCGTGTTCGCGCGCAGCTTCGGCGGCCTGTTCTCGCGCAACCCCAAGCTCGACGACGACCTGCTCGACGAGATCGAAACCGCGCTGATCACCGCCGATGTCGGCGTGCCGGCCACCACCGCGCTGGTCGAAGGCCTGCGCAAGCGCATGAAGGCGCGCGAATTCGCCGATGCCGCGGCGCTGCTGGGCGCGCTGCGCGCCGAGCTGATCGGCATGCTGCAGCCGGTGGCCAAGCCGCTGCTGATCGACCGCGAGGCCAAGCCGTTCGTGGTACTCACCGTCGGCGTCAACGGCGTCGGCAAGACCACCACCATCGGCAAGCTGGCCAAGCGCTTCAAGGACGAGGGCCACGGCCTGATGCTGGCCGCCGGCGACACCTTCCGCGCGGCCGCGGTCGCCCAGCTGCAGGCCTGGGGCCAGCGCAACGGCGTCGCCGTGGTCGCGCAGGGCCAGAACGCCGATGCCGCCTCGGTCGCGTTCGACGCCCTGCAGGCCGCCAAGGCGCGCGGCACCAGCGTGCTGATCGCCGATACCGCCGGCCGCCTGCACACCCAGAAGGGGTTGATGGACGAGCTCGGCAAGATCCGCCGCGTGCTCGGCAAGATCGACACCAGCGCGCCGCACGAGGTGCTGATGGTGATCGACGGCACCACCGGGCAGAACGCGCTGTCGCAGCTGCGCCAGTTCCATGCCGCGGTCAATGTCACCGGTTTGGTCGTGACCAAGCTCGACGGCACCGCCAAGGGCGGCGTGGTGTTCGCACTGGCGCGCGAGTTCGGCATCCCGATCCGCTTCGCCGGCATCGGCGAGCGCCCGGAGGACCTGCGCGTGTTCGATCCGGAAGCCTTCGTCGACGCACTGCTGCCCGAGGCGCTGGGCGGCTGA	MLSFFRRKKPQDTHQADKPLSAEELAAAFPQAPSAAEPGAAPATPAEVLAAEIVERTGEAQPVAALPTSAPPSAPVSDEVVIPTPAEPAPPAPQVVVAPAADLPQPASAPSPEPAAAILDAGPDPLVITDKPAAPAGKPGWRERLRGSVFARSFGGLFSRNPKLDDDLLDEIETALITADVGVPATTALVEGLRKRMKAREFADAAALLGALRAELIGMLQPVAKPLLIDREAKPFVVLTVGVNGVGKTTTIGKLAKRFKDEGHGLMLAAGDTFRAAAVAQLQAWGQRNGVAVVAQGQNADAASVAFDALQAAKARGTSVLIADTAGRLHTQKGLMDELGKIRRVLGKIDTSAPHEVLMVIDGTTGQNALSQLRQFHAAVNVTGLVVTKLDGTAKGGVVFALAREFGIPIRFAGIGERPEDLRVFDPEAFVDALLPEALGG	PGPT0025740_1584	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025740-ftsY-K03110	NA	NA
BMS020_04530	711	rhaS_8		HTH-type transcriptional activator RhaS	ATGATGGAACTGAACCTCCCCGCCCTCGAGATGCAGACCCTGTTCGACGCGTTGCCGGACGTGGTGTTCTTCATCAAGGACCGCGACGGTCGCTACACCCACTGCAACCTCACCCTGGTGCGCAGGCTCGGCCGCAAGCAGCGCGGCGACGTGATCGGGCGTTCGCCGCTGGAAGTGTTCCCGCTGCCGCTCGGCGGCAGCTACATGATGCAGGACCGCCGCGTGCTGTGCGGCGAAGTGATCGACAACCAGCTGGAAGTGCACCTCTATCCCAATCGCCTGCCCGGCTGGTGCCTGACCTTCAAGCGCCCGCTGATCGAGGGCGACGATGTCACCGGGGTGATCGGCATCTCGCGCGACCTCGGCCAGCCGGACAACAAGCACTCGGCCTACGACCGCCTGAGCCGGGTGATGGAGCACATGCAGTCCAACTTCGGCGAGAACCTGCGCGTGCAGACCCTGGCCGACCTGGCCGGGCTGTCGGTGGCGCAGCTGGAACGGCATTTCCGCCGGGTGTTCCAGGTCACCCCGCAGCAGCTGCTGACCAAACTGCGGATCGAGGCGGCGATGCGCCTGCTGCATGGCGACGACAGCATCGCCGCGATCGGGCAGCAATGCGGCTTCGCCGACCAGAGCGCGTTCGCGCGCCAGTTCAAGGCCACCGTCGGCATGACCCCACGCGACTACCGCACCCTGAAGGGCCAGCTCTGA	MMELNLPALEMQTLFDALPDVVFFIKDRDGRYTHCNLTLVRRLGRKQRGDVIGRSPLEVFPLPLGGSYMMQDRRVLCGEVIDNQLEVHLYPNRLPGWCLTFKRPLIEGDDVTGVIGISRDLGQPDNKHSAYDRLSRVMEHMQSNFGENLRVQTLADLAGLSVAQLERHFRRVFQVTPQQLLTKLRIEAAMRLLHGDDSIAAIGQQCGFADQSAFARQFKATVGMTPRDYRTLKGQL				NA	NA	NA	NA	NA
BMS020_04531	942		COG3938	4-hydroxyproline 2-epimerase	ATGCAGACGATAGACGTGATCGACTCCCATACCGGCGGCGAACCGACCCGCGTGGTGATCGCCGGATTCCCCGACCTGGGCGATGGCAGCCTGGCCCAGAGCCGCGAGCGCTTCCGCCGCGACTTCGACCACTGGCGCAGCGCGATCGCCTGCGAGCCGCGCGGCTCGGACACGATGGTCGGCGCGCTGCTGCTGCCGGCGCGCGATGCGCGCGCCTGCACCGGGGTGATCTTCTTCAACAATGTCGGCTACCTGGGCATGTGCGGCCACGGCACGATCGGCGTGGTGCGCACGCTGGCCGAGCTGGGCCGGATCGGCCCGGGCCTGCATTACATCGAAACCCCGGTCGGCACGGTCGGGGTGGAGCTGGCCGACGATGGCCGGGTCAGCATCGACAACGTCGAAAGCTACCGCCACGCCAAGGACGTGGCGGTGCAGGTGCCCGGCCATGGCGAGGTGCGCGGCGACATCGCCTGGGGCGGCAACTGGTTCTTCATCACCGAGCAGGCGCCGTGCACGATCGACGTGGCGCACCAGCGTGAGCTGACCATCTATACCGAGGCGATCCGCCAGGCGCTGGAGGCGGCCGGGATCACCGGCGCCGAGCGCGGCGAGATCGACCATATCGAGGTCAACGGCCCGGCGCCGGACGGCAGCGGCCAGGCGCGCAACTTCGTGTTGTGCCCGGGGCTGGCCTACGACCGCTCGCCGTGCGGCACCGGCACCAGCGCCAAAGTCGCCTGCCTGGCCGCCGACGGCAAGCTTGCCGCGGGCGCGACCTGGATCCAGCAGGGCGTGCTCGGCAGTGCGTTCGAGGCCAGCTACCGCGTCGGCGACGCCGGCATCCGGCCGCGCATCACCGGCACCGCGCACATCACCGCGCGCGCGCAGCTGCTGATCGATCCGGCCGATCCGTTCGCCTGGGGCATCCGTCCGGAATGA	MQTIDVIDSHTGGEPTRVVIAGFPDLGDGSLAQSRERFRRDFDHWRSAIACEPRGSDTMVGALLLPARDARACTGVIFFNNVGYLGMCGHGTIGVVRTLAELGRIGPGLHYIETPVGTVGVELADDGRVSIDNVESYRHAKDVAVQVPGHGEVRGDIAWGGNWFFITEQAPCTIDVAHQRELTIYTEAIRQALEAAGITGAERGEIDHIEVNGPAPDGSGQARNFVLCPGLAYDRSPCGTGTSAKVACLAADGKLAAGATWIQQGVLGSAFEASYRVGDAGIRPRITGTAHITARAQLLIDPADPFAWGIRPE	PGPT0014235_570	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014235-lphA-K12658	NA	NA
BMS020_04532	1113	dadA_3		D-amino acid dehydrogenase	ATGAGCAGTTTCGATCTCATCGTCGTTGGTGCCGGCATCGTCGGCGCGGCCTGCGCCGAGGCGGCATCGGGGGAGGGCCTGCGCGTGGCGCTGGTCGAACCCGGGCCGATCGGGGGCGGCGCCACCGCCGCGGCGATGGGACACCTGGTGGCGATGGACGATGACCCGGCCGAACTGGCGTTGTCGGCGTATTCGCTGCGCCTGTGGGAACAGTACGCCGACCTCGCCGAGGCCGAGTTCAGCCGTTGCGGCACCTTGTGGGTGGCGCGCAACGAGCGCGAGCTGGCCACGGTGCCGGCGAAGATCGCGCGGCTGGCCGCGGCCGGCATCGCCGCCGAGCTGGTCGACGCCGCCACGCTCTACGAACTCGAACCGCTGCTGGTGCCCGGCCTGGCCGGCGGCATGCGGGTGCCGCGCGAGGCGGTGGTGTATCCGCCGCGGATGGCGCGCCATCTGGTCGACCAGGCCTGCGCGCGTGGCGCGGTGCTGCACGCCGGCCGGCGCGTGGTCGAGCTGCTTGCGCACGGCGTGCGCCTGGACGACGGACAGCTCCTGTCCGGGCCGGTGCTGGTCGCCAGCGGCGTGCAGTTGCCGCAGCTGCTGCCGGAATTGGCGCTGCGTCCACGCAAGGGCCAGCTGGCGATCACCGACCGCTACCCGGGGCTGGTGCAGCACCAGCTGCTGGCGCTGGACTATGCCGATTCGGCGCACGGCGACGCCGATACCAGCGTCGCCTTCAACGTGCAGCCGCGCCCGACCGGGCAGATCCTCATCGGCTCGTCGCGGCAGTTCAACGTGTCCGACCGCGAGGTCAACCTGCCGCTGCTGCGGCAGATGCTGCAGCAGGCCTGCGGCTTCCTGCCGATGCTGCGCGAACTGCAGGTGATCCGGGTGTGGACCGGCTTGCGCCCGGCCACTCCGGACGGTCGCCCGTATCTCGGCCCGGTGCCGGGGCGGCGCGATGTGTGGGTTGCCGCGGGACATGAAGGGCTGGGCGTCACCACCGCGCTGGGGAGCGCACGGGTGATCGTCGACAGCCTGCTGGGACGCCTGCCGGCGATCGATCCGACCCCGTATCTGCCCGGGCGCGCACTTGGGGGGATCGCCGCATGA	MSSFDLIVVGAGIVGAACAEAASGEGLRVALVEPGPIGGGATAAAMGHLVAMDDDPAELALSAYSLRLWEQYADLAEAEFSRCGTLWVARNERELATVPAKIARLAAAGIAAELVDAATLYELEPLLVPGLAGGMRVPREAVVYPPRMARHLVDQACARGAVLHAGRRVVELLAHGVRLDDGQLLSGPVLVASGVQLPQLLPELALRPRKGQLAITDRYPGLVQHQLLALDYADSAHGDADTSVAFNVQPRPTGQILIGSSRQFNVSDREVNLPLLRQMLQQACGFLPMLRELQVIRVWTGLRPATPDGRPYLGPVPGRRDVWVAAGHEGLGVTTALGSARVIVDSLLGRLPAIDPTPYLPGRALGGIAA	PGPT0020390_150	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020390-lhpB2-K21061	NA	NA
BMS020_04533	249			hypothetical protein	ATGAGCACGGTCCTGCGCCTGCGCGTGGATGCATGCGAGGTCGAGGTGCCGGCAGGCGCGAGCGTCGCCGCCGCGGTGGCGCTTGCCGGTGCCGGCGGCTTCCGGCGCTCGCGCAGCGGTGAGCCGCGTGCGCCGCTGTGCGGCATGGGCGTGTGTTTCGAATGTCGCGTGCGCATCGATGGCGTGGCGCAGCTGCGTGCCTGCATGACGCCGGCGCGCGATGGCATGGAGGTCGTCACCGATGGTTGA	MSTVLRLRVDACEVEVPAGASVAAAVALAGAGGFRRSRSGEPRAPLCGMGVCFECRVRIDGVAQLRACMTPARDGMEVVTDG	PGPT0020400_309	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020400-lhpD-K22550	NA	NA
BMS020_04534	1311	hcnB		Hydrogen cyanide synthase subunit HcnB	ATGGTTGAATCGGCGCGCCATTATGATGTGCTGGTGGTCGGCGCCGGCCCGGCGGGCCTGGCCGCGGCGGCCGCGGCGGCTTCGCACGGCGCGCGCGTCGGCATCGTCGATGCGCAGCCACGCGCAGGTGGCCAGGTCTGGCGCCACGATGTGGTGCATGGCGTGCCGGGCATGGCCGCCAAGGCGATCGCCGCGCTCGACGATCGCAGGATCGACTGGCTGGCACAGACCCAGATCGCGCTGGCGGCGCCGGGCTGGTTGCTCGCCGAAGGGCCGGAGGGGCCGCGCGCGCTGCACCACCGCGCGCTGGTGCTGGCCACCGGCGCACGCGAGCTGTTGCTGCCGTTCCCGGGCTGGACCCTGCCGGGCGTCACCGGTGCCGGCGGCGCACAGGCGCTGGCCAAACAGGGCTGGCCGCTGCGCGGCAAGCGCGTGGTCGTGGCCGGCAGCGGTCCGCTGCTGCTGGCATCGGCGGCGACGCTGCAGGCGCATGGCGCCCAGGTGCTGGGCATCCACGAACAGGCAGCGGCGGGCGCGCTGGCCGGCTTCGCCGCGCAACTGTGGCGCTGGCCGGGCAAGGCGGCGCAGGCGCTGGCGCTGCGTGCGCGCCTGGCGGCGGTGCCGTATCGCGCCGGCAGCGTGGTGGTCGCCGCGCATGGCGATGGCCGCCTGGAAGAAATCGAGATCGAATCGGCGCGCGGCCGCGAACGCATCGCCTGCGACCAGCTCGCGGTCGGCTACGGGCTGGTGCCGAACACCGAACTGGCGCAGTTGCTCGGCTGTCGCCTCGAATACGACGGCGCGCATCCGCGCGTGGCGGTGGACGCGCAGCTGCGCACCAGCGTGGCCGGGATCTTCGCCGCCGGCGAGGCGCTGGGCATCGGCGGGCGCGACTGCGCGCTGGTCGAAGGCGCGATCGCCGGTCACATGGCCGCAGGCGCCGAAGCCCCGGCCGATGCGTTGCAGGCGCGGCGGCGGCATGCGCGCGGTTTCGCCGAACGGCTGCGAAGCGCATTTGCGTTGGACCGGCGCGTGCACGCGCTGGCCCACGACGACACCCTGGTCTGCCGCTGCGAGGACGTGCCGCTGGGCACGCTGCGCGGGTTCGCCGACCAGCGCGATGCCAAGCTCGCCTCGCGCTGCGGCATGGGCGCCTGCCAGGGCCGCGTCTGCGGTACCGCACTGGCCGAGCTTGGCCTGGCCGCACCCGAATGTTCCTCCGATGGCGGCCGCCGGCCGCCGCTGTTTCCGGTCCGCCTCGCGGCGTTGGCCGATCCCATCACCGAAGACCCGCAAGGTACACATCCATGA	MVESARHYDVLVVGAGPAGLAAAAAAASHGARVGIVDAQPRAGGQVWRHDVVHGVPGMAAKAIAALDDRRIDWLAQTQIALAAPGWLLAEGPEGPRALHHRALVLATGARELLLPFPGWTLPGVTGAGGAQALAKQGWPLRGKRVVVAGSGPLLLASAATLQAHGAQVLGIHEQAAAGALAGFAAQLWRWPGKAAQALALRARLAAVPYRAGSVVVAAHGDGRLEEIEIESARGRERIACDQLAVGYGLVPNTELAQLLGCRLEYDGAHPRVAVDAQLRTSVAGIFAAGEALGIGGRDCALVEGAIAGHMAAGAEAPADALQARRRHARGFAERLRSAFALDRRVHALAHDDTLVCRCEDVPLGTLRGFADQRDAKLASRCGMGACQGRVCGTALAELGLAAPECSSDGGRRPPLFPVRLAALADPITEDPQGTHP	PGPT0020395_206	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020395-lhpC-K22549	NA	NA
BMS020_04535	906	dapA_3	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGAGCAATGCCACCTTCTGGAAGGGCGTCCTGCCCGCCATCACCACGCCGTTCAACGCCGACGGCAGCGTCGACCACGCCTTCCTGGCCCAGCATGCCAAGCAGCTGGTCGACGCCGGCTGCACCGCGATCGTGCCGCTGGGCTCGTTGGGCGAAGCGGCGACGCTGAGCTTCGACGAGAAGATCGCGATCATCAGCACGCTGGTGAAGGCGGTCGGCGACCGCGTGCCGGTGGTGCCGGGCATCGCCTCGCTGTCCACCGCCGAGGCGGTCAAGCTGGCCCAGGCCGCCAAGGCCGCCGGTGCGCGTGGCCTGATGGTGCTGCCGGTGTACGTGTATTCCTCCGACTGGCACGAAGCCAAGGCCTACGCCGCGGCGGTGCTCGGCGCGACCGACCTGCCGTGCATCCTCTACAACAACCCGGTGGCCTACCGCACCGACATCCTGCCCGAGCAGATCGCCGAACTCGCCGGCGAGTTCGCCAACCTGCAGGCGGTCAAGGAATCCTCCGGCGAGATCCGCCGCTTCGCCGCGATCAAATCGCTGCTCGGCGACCGCCTGGTGCTGCTGGTCGGCATGGACGACGCGATCGTCGAAGGCCTGGCGATGGGCGCCGAGGGCTGGATCGCCGGGCTGGTCAACGCCTATCCGGTCGAGTCGGTGAAGCTGTTCGAGCTGGCGCGCGATGGCGGCTACAAGGCGGCTGCGGAGCTGTACGCGTGGTTCCTGCCGCTGTTGCGCCTGGACACCGTGCCGAAGTTCGTGCAGCTGATCAAGCTGGTGCAGGCCAAGGTCGGCATGGGCAGCGAGACCGTGCGCGCGCCGCGTCTGGTGATCGAAGGCGCCGAGCGTGAGGCGGCGTTGAAGGTGATCGATACCGGCATCAAGACCAAGCCGGCGCTGTAA	MSNATFWKGVLPAITTPFNADGSVDHAFLAQHAKQLVDAGCTAIVPLGSLGEAATLSFDEKIAIISTLVKAVGDRVPVVPGIASLSTAEAVKLAQAAKAAGARGLMVLPVYVYSSDWHEAKAYAAAVLGATDLPCILYNNPVAYRTDILPEQIAELAGEFANLQAVKESSGEIRRFAAIKSLLGDRLVLLVGMDDAIVEGLAMGAEGWIAGLVNAYPVESVKLFELARDGGYKAAAELYAWFLPLLRLDTVPKFVQLIKLVQAKVGMGSETVRAPRLVIEGAEREAALKVIDTGIKTKPAL	PGPT0002080_3686	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
BMS020_04536	1599			Alpha-ketoglutaric semialdehyde dehydrogenase 2	ATGAACAACGCGATCCAACCCGTCCTGCTTGCCGGGCAGTGGCAGCCCAGCCTCGGCGCGGCCGGCAGCTTCCGCGCCGCCGACCCGACCACCGGCGAGGCGATCGGCCCGGTGTTCCCGGTCAGTGGCGCCGCCGATGTCGAAGCCGCGCTCGCCGCGGCGAGTGCAATCGCTGCCGAGCTGGCGGCGGCACCGGCGGAGCGGATCGCCGCGTTCCTGGATGCCTATGCCGACGCGCTCGACGCCGACGCCGACACGCTGGTCGCGCTGGCCAGCGCCGAGACCGCGCTGCCTGCGCCGACCCGCCTGCGCGGCAACGAGCTGCCGCGCACCAGCGGCCAGCTGCGGATGGCGGCCAAGGCGGTGCGCAGCTACAGCTGGACCAACCCGACCATCGATACCGCCAATGGCCTGCGCGCGCACCTGGCGCCACTGGGCAAGCCGGTGCTGGTGTTCGGCCCCAACAATTTCCCGTTTGCGTTCAACGCGATCGCCGGCAGCGATTTCGCCTCGGCGATCGCCGCGCGCAACCCGGTGATCGCCAAGGCGCACCCGCTGCATCCGGCCACCAGCCAGCGCATGGCACAGCTGGCGCATGCAGCGCTGCTGCAGGCCGGCCTGCCGGCCGCGGCGGTGCAGCTGCTGTACCAGTTCGACAATGCGATCGGGCTGAAGCTCGCCGGCGACGCGCGCCTCGGCGCGATCGGCTTCACCGGCAGCCGCGGCGGTGGCCTGGCATTGAAGGCCGCCGCCGACGCGGCCGGCATCCCGTTCTATGCCGAGCTGTCCAGCGTCAACCCGGTGTTCATGCTGCCGGGCGTGCTGGCCGAGCGCGGCGAGGCGCTGGCACAGGAGTTCTTCGCCTCGTGCACGCTTGGCAGCGGCCAGTTCTGCACCAATCCCGGCGTGGTGATCGTGCCGCGTTCGGTGGCGGGCGACGCCTTCGTCGCCGCGGCCACCGCGCATTTCGCCGCGGCCGCTCCGATGGTGCTGTTCTCGCAGGGCGGTGTGGCGCATGTCGCCGCCGGCGTGGACGCGCTGCGCCGTGCCGGCGCCGAGGTATTGGCGGCCGGCGGCGGCGCGCTGGGCGCTGGCTTCCGCTATGCGCCGACGCTGCTGAGCGTGGACGCGGCCGCGTTCATCGCCCAGCCGCAGGCGCTGCAGACCGAGGCGTTCGGCCCGGTCAGCCTGCTGGTGCGGGTCGAAGATGCCGAGGAGATGGTGGCGGTCGCGCGCGCGTTCGAGGGCAATCTGACCGGCACCCTGTACCGCGCCGCCGATGGCAGCGACGACGCCGCCTGGCAGGCGATCGCGCCGGTACTGCGTGCGCGCGTCGGCCGCCTGATCAATTCCAAGATGCCGACCGGCGTGGCGGTCAGTGCCGCGCAGAACCACGGCGGCCCGTTCCCGAGCACCGGCCATCCGGGCTTCACCGCGGTCGGCATGCCGGCGGCGATCCACCGTTTCGCCGCGCTGCACAGCTACGACGCGGTGCCCGACGCGCTGCTGCCGGTGGAACTGCGCGATGCCAATCCGGCCGGCGCGCAACGCATCGTCGACGGGGTGTGGAGCACCGCCGCGATCGGGAGCGCCGCATGA	MNNAIQPVLLAGQWQPSLGAAGSFRAADPTTGEAIGPVFPVSGAADVEAALAAASAIAAELAAAPAERIAAFLDAYADALDADADTLVALASAETALPAPTRLRGNELPRTSGQLRMAAKAVRSYSWTNPTIDTANGLRAHLAPLGKPVLVFGPNNFPFAFNAIAGSDFASAIAARNPVIAKAHPLHPATSQRMAQLAHAALLQAGLPAAAVQLLYQFDNAIGLKLAGDARLGAIGFTGSRGGGLALKAAADAAGIPFYAELSSVNPVFMLPGVLAERGEALAQEFFASCTLGSGQFCTNPGVVIVPRSVAGDAFVAAATAHFAAAAPMVLFSQGGVAHVAAGVDALRRAGAEVLAAGGGALGAGFRYAPTLLSVDAAAFIAQPQALQTEAFGPVSLLVRVEDAEEMVAVARAFEGNLTGTLYRAADGSDDAAWQAIAPVLRARVGRLINSKMPTGVAVSAAQNHGGPFPSTGHPGFTAVGMPAAIHRFAALHSYDAVPDALLPVELRDANPAGAQRIVDGVWSTAAIGSAA	PGPT0018165_9	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018165-aldH-K13877	NA	NA
BMS020_04537	1203			putative peptidase	ATGAGCGCGCAGATCGGCCACCTGAGCCTTGCCGAGGCGCAGGCGCAGCTGACGCCGTGGACGCAGCGCGCCGCTGCGATCAGTGCCGAGGAGTACCAGCAGCGCATCGAGCACGCGCGTGCGCTGATGCGCGCGCAGGGTGTGGACGCGCTGCTGGTCACCGCCGGCACCTCGCTGCGCTATTTCGCCGGCGTGCCGTGGGGCGCTAGCGAGCGCCTGGTCGCGCTGCTGGTCACCGCCAGCGGCGATCCGCTGATCGTCTGCCCGGCGTTCGAGGAAGGTTCGCTCGACGCGGTGCTGAAGATCCCCGCCGGCAAGCGCCTGTGGGAAGAACACGAAGACCCCTACGCGCTGGTCGCCCAAGCAATGGCCGAGCGCGGCGCACGCACGCTGGCGCTGGATCCGGGCGCGGCGCTGTTCATCCACAGCGGGCTGCGCGTGCACCTGGAGGTGGCCGCGATCAGCGATGCCACGCCGATCATCGATGGCTGCCGCATCTGCAAGTCGCCGGCCGAGCTGGCGCTGATGCAGCAGGCCTGCGACATGACCCTGCTGGTGCAGCGGCTGGCCGCCGGCATCGCCCGCGAGGGCATCGGCACCGACGAATTGGTGCGCTTCATCGACACCGCGCATCGTGCGCTCGGCGCCGACAACGGCTCGACCTTCTGCATCGTGCAGTACGGCCATGCGACTTCGTTTCCGCACGGCATCCCCGGCGTGCAGCACCTGCGCGAAGGCGAGCTGGTGCTGATCGACACCGGCTGCACCGTGCAGGGCTACCACTCCGACATCACCCGCACCTGGATCTACGGCACGCCCGATGCCGACATGCAGCGGATCTGGCAGCTGGAACACGATGCGCAGGCCGCTGCGTTCGCCGCGGTGCGCCCGGGCGTGGCCTGCGAGGACGTCGACAAGGCCGCGCGCCGCGTGCTCGAAGCAGGCGGGCTGGGCCCGGACTATCGGCTGCCGGGGCTGCCGCACCGCACCGGCCACGGCTGCGGGCTGGCGATCCACGAGACGCCGTACCTGGTGCGCGGCAACCGCACGCCGTTGCAGCCGGGGATGTGCGCCAGCAACGAGCCGATGATCGTGGTGCCGGGCAGGTTCGGCGTGCGCCTGGAAGACCATTTCCATGTCACCGAGACCGGCGCACAGTGGTTCACGCCGCCGTCGGTGGCGATCGACCGGCCGTTCGCCTGA	MSAQIGHLSLAEAQAQLTPWTQRAAAISAEEYQQRIEHARALMRAQGVDALLVTAGTSLRYFAGVPWGASERLVALLVTASGDPLIVCPAFEEGSLDAVLKIPAGKRLWEEHEDPYALVAQAMAERGARTLALDPGAALFIHSGLRVHLEVAAISDATPIIDGCRICKSPAELALMQQACDMTLLVQRLAAGIAREGIGTDELVRFIDTAHRALGADNGSTFCIVQYGHATSFPHGIPGVQHLREGELVLIDTGCTVQGYHSDITRTWIYGTPDADMQRIWQLEHDAQAAAFAAVRPGVACEDVDKAARRVLEAGGLGPDYRLPGLPHRTGHGCGLAIHETPYLVRGNRTPLQPGMCASNEPMIVVPGRFGVRLEDHFHVTETGAQWFTPPSVAIDRPFA	PGPT0006760_1241	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
BMS020_04538	1857			hypothetical protein	ATGAGCTTGGTCCGTCCCTTTGCGATCTCGCTGCTGGCCGCCGCGCTGCTGGCCGGCTGCGGCAAGCCTGCCGACGCGCCTGCGGCTACGGCCAGCACGGCGCAGGATCCGGCCGCGGCGGCCAAGGCCTTCGACGCGTTGCTGGATGCGCAGTGGCAGTACCAGCTCGAACACAGTCCGGAGTTCGCCAGCATCATCGGCGACAAGCGCTGGAACGATCGCTGGAGCGATTACTCGCTGGAGGCGGTGGCCGCCGACCGCGCCGCCACGACCGGCTTCCTGGCCAGGTTCGAGGCGGTCGACGCCGGCCAGCTCGACGAACAGCGCCAGCTGAGCCTGCAGATGATGCAGCGCCAGCTGCGCGACAAGCTCACCGGCATCGACCTGAAGACCTACGAGATGCCGCTGGAGCCGGTCGGCGGCATCCAGCTGTCGCTGGCGGGGATGGGCGATGCGTTCCCGTTCGAGGACGCCAAGGACTACCAGGACTACATCGCCCGGCTCAACGCGGTGCCGGCACTGCTCGATCAGGTGATCGCGGTGTCGCGCCAGGGCGCCAAGGACGGGCTGACCCAGCCGCGTTACCTGCTGGAGAAGCTGCCGGCGCAGATCCGCAAGATCGCCGCGGCGGCGGGCGCCGACAGCCCGTTCGCCTCGCCGCTGAAGAAGCTGGACAGCGCGGTCGCCGATGCCGGGCAGCGCGACGCGTTGCGCGCGCAGCTGGTCGCCGCGGTGGACCAGCAGGTGCGCCCGGCCTACGAAAAGCTGGCCGCGTTCGTGCAGGACGAGTACGCCGCCAAGGGCCGCGAGCACGAGGGCATCTGGTCGCTGCCCGACGGCGACAAGCGCTATGCGTTCGCGATCCATACCCAGACCACCACCGACAAGTCGCCCGAGCAGATCCACCAGATCGGGTTGCAGGAAGTGGCGCGGATCGAAGGCGAGATGACCGCGATCGCCAAGGCGCAGGGCTATCCGGACCTGGCCAGCTTCCGCAAGGCGGTCGATGGCGATAAGGCCCACTTCGCCAAGAACGGCGAGCAGATCCTGGAGTTGTACCGCGGCTACATCGCCGGCATGGAGCCGGAGCTGCCCAAGCTGTTCGGCCACCTGCCCAAGACCCCGTTGATCGTGCAGGGCATGCCGGCGTTCCGCCGCGAAGCGCCGGGCGCGGAGTACTGGCAGAGCAATCCGGAAGGCAGCAAGCCGGCGATCGTGATGGTCAACGCCAACGACGCCACCGAGCGCACCTTGATCAACATCGAGACCACCGCCTACCACGAGGGCGTGCCGGGCCATCACCTGCAGATCTCGCTATCGCAGACGCTGCCGTTGCCGGCGTTCCGCCAGCAGGCCGGCTACAACGCCTTCATCGAGGGCTGGGCGCTGTACGCCGAGCGGCTGGGCAAGGAGGTCGGCTTCTTCAAGGACCCGTACAGCGACTACGGCCGGTTGTGCGGCGAGCTGCTGCGCGCCAACCGGCTGGTGCTCGACACCGGCGTGCACTACAAGCGCTGGACCCGCCAGCAGATGGTCGATTTCTTCCACGCCCATCCGTCCGACGACGAGCCCAGCATCCAGGCCGAGACCGACCGTTACATCGTCTGGCCGGGCCAGGCGCTGGGCTACAAGCTCGGCCAGTTGGAGATCCTGGCGCTGCGCGCCAAGGCCGAGCAGGCGCTTGGCGACAAATTCGACATCCGCGCCTTCCACGACGCGATCCTCGGCGACGGTGCGATGCCGCTGGACCTGCTGGATCAGCGCATCGACGCCTGGATCGAACAGAGCAAGGCCGCGCCGGCGCCCGTGCCGGCCGCGACCGCCCCCGACGCTGCCGAGGAGAAGAAACAAGCATGA	MSLVRPFAISLLAAALLAGCGKPADAPAATASTAQDPAAAAKAFDALLDAQWQYQLEHSPEFASIIGDKRWNDRWSDYSLEAVAADRAATTGFLARFEAVDAGQLDEQRQLSLQMMQRQLRDKLTGIDLKTYEMPLEPVGGIQLSLAGMGDAFPFEDAKDYQDYIARLNAVPALLDQVIAVSRQGAKDGLTQPRYLLEKLPAQIRKIAAAAGADSPFASPLKKLDSAVADAGQRDALRAQLVAAVDQQVRPAYEKLAAFVQDEYAAKGREHEGIWSLPDGDKRYAFAIHTQTTTDKSPEQIHQIGLQEVARIEGEMTAIAKAQGYPDLASFRKAVDGDKAHFAKNGEQILELYRGYIAGMEPELPKLFGHLPKTPLIVQGMPAFRREAPGAEYWQSNPEGSKPAIVMVNANDATERTLINIETTAYHEGVPGHHLQISLSQTLPLPAFRQQAGYNAFIEGWALYAERLGKEVGFFKDPYSDYGRLCGELLRANRLVLDTGVHYKRWTRQQMVDFFHAHPSDDEPSIQAETDRYIVWPGQALGYKLGQLEILALRAKAEQALGDKFDIRAFHDAILGDGAMPLDLLDQRIDAWIEQSKAAPAPVPAATAPDAAEEKKQA				NA	NA	NA	NA	NA
BMS020_04539	1842			hypothetical protein	ATGACCGTACGTAACGCCTTGCATGTCGCGCTGTGGCTGGCGCTGGGAACCGCTGCGTTGACGCTGGACGCGCCGGACGCATTCGCTGCCGCGGCCAGCGCCGCGGCAGTACCGGCCAGCAACGACGCGGCGACCCGCTTCAAGGCGTTGTACACGCGCGAATGGACCTGGCGCCAGCAGCAGTTCGCCGGCGCCGACGACGAGAATGGTGCCGGCCCGGAGGCCGACAGCCTGCCGAAGATCGACCTGGCCACCCAGAACGCGCGCACCGCGTACTGGCAGCAGGTGATGCGCGAGCTGGAGGCGATCGACCCGGCGCAGCTGCAGGGCGAGGAGCGGGTGAACTACCTGGTGTACCGCCAGCAGATCGAGGTGTTCCTCGACCAGCAGCACTACCGCGCCTGGGAGATGCCGTTCAACAGCGACACCGCGTTCTGGAGCAACCTGGGCTTCACCGCGCGCGGCACCTTCCGCACCCGCAAGGACTACGAACGCTATCTGGCGCAGCTGGCCGACATCCCGCGCTACTTCGACGACGAGATCACCAACATGCGCGCGGGGCTGAAGCGCGGCTTCAGCCAGCCGAAGGTGACGCTGACCGGGCGCGACAGTTCGATCTCCGACGTCAGCGAGGCCAAGGGCGAGAGCAACCTGTTCTACACCCCGTTCAAGCAGATGCCGGCGGCGATCCCGGCGGCGGAGCAGGCCGCGCTGCGCAAGCGTGCGCTGGCGGCGATCGAGGCCAGCGTGATCCCGGCCTACGCCAAGCTGCTGGGCTTCATGCGCACGGAGTACCAGCCGCAGGCGCGCACCACGCTGGCCGGCGAGGCGCTGCCGGACGGCAAGGCCTACTACCAGGCGCAGATCCGCGAGTTCACCACGCTCGACATGAGCCCCGAGCAGATCCATACGCTCGGCCTGCAGGAAGTGGCGCGGCTGCGCAAGGAGATGGACCAGACCATCGTCGACAGCGGTTTCAAGACCCCGGCCGGGCAGCAGACGTTCCCGGCGTTCCTGCAGTTCCTGCGCACCGACCCGCAGTTCTATCCGAAGACCGGCGAGGAGCTGCTGAAGCAGGCGGCGTGGATCGCCAAGCAGGTCGATGCCAAGGTCGGCGACTACATCGGCCGGCTGCCGCGGCGGCGCTTCGCGATCGAGCCGGTGCCGGCGGACCTGGCGCCGTTCTACACCGGCGGCCGCGGCGGTCCGGGCATCTACCTGGTCAATACCTACAACCTGCCGTCGCGGCCGCTGTACAACCTGCCGGCGCTGACTCTGCACGAATCCTCGCCCGGCCACGCGCTGCAGATGCCGCTGGCGGCCGAGCAGCAGGGCCTGCCGGACTTCCGCCGCTACAACTACATCTCGGCGTATGGCGAGGGCTGGGCGCTGTATTCGGAGTACCTGGGCCAGGAAATGGGCATCTACCAGACCCCGTACGACCGCTTCGGCTACCTGACCTACCAGATGTGGCGCGCCTGCCGGCTGGTGATCGATACCGGCATCCACCATGAGGGCTGGAGCCGCGAGCAGGCGATTGCCTACCTGCGCGACAACACCGCGTTGAGCGAGCACGAGGTCACCACCGAGGTCGACCGCTACATCGCGTGGCCGGGGCAGGCGCTGTCGTACTACCTGGGCGAGCTGGAGATCCTCAAGCTGCGCAGGAAGGCCGAGGCCGCGCTCGGCGAGAAGTTCGACATCCGCGCCTTCCACGATGCGGTGCTGCAGACCGGTTCGGTGCCGCTGCCGGTGCTGGATGCGCAGATCGACCGTTTCATCGCCGGCGGCGGCAAGTCGCCGTGGGCCGACGATGCGGATGCGAAGGCCGGCGCGCAGTAA	MTVRNALHVALWLALGTAALTLDAPDAFAAAASAAAVPASNDAATRFKALYTREWTWRQQQFAGADDENGAGPEADSLPKIDLATQNARTAYWQQVMRELEAIDPAQLQGEERVNYLVYRQQIEVFLDQQHYRAWEMPFNSDTAFWSNLGFTARGTFRTRKDYERYLAQLADIPRYFDDEITNMRAGLKRGFSQPKVTLTGRDSSISDVSEAKGESNLFYTPFKQMPAAIPAAEQAALRKRALAAIEASVIPAYAKLLGFMRTEYQPQARTTLAGEALPDGKAYYQAQIREFTTLDMSPEQIHTLGLQEVARLRKEMDQTIVDSGFKTPAGQQTFPAFLQFLRTDPQFYPKTGEELLKQAAWIAKQVDAKVGDYIGRLPRRRFAIEPVPADLAPFYTGGRGGPGIYLVNTYNLPSRPLYNLPALTLHESSPGHALQMPLAAEQQGLPDFRRYNYISAYGEGWALYSEYLGQEMGIYQTPYDRFGYLTYQMWRACRLVIDTGIHHEGWSREQAIAYLRDNTALSEHEVTTEVDRYIAWPGQALSYYLGELEILKLRRKAEAALGEKFDIRAFHDAVLQTGSVPLPVLDAQIDRFIAGGGKSPWADDADAKAGAQ				NA	NA	NA	NA	NA
BMS020_04540	1572	yveA_1	COG0531	Aspartate-proton symporter	ATGGCAGCACAAGGCAAGTTCCAGAAACGTCTCAGCCTGACCGACCTGACCTTCATCGGGCTCGGCTCGATCTTCGGTTCGGGATGGCTGTTCGCCGCCAGCCACGTGTCCTCGATCGCCGGCCCGGCCGGCATCGTGTCGTGGATCATCGGCGGCATCGCGGTGTTCCTGCTCGGGCTGGTGTACTGCGAACTGGGCGCGGCGCTGCCGCGCGCCGGCGGCGTGGTGCGCTATCCGGAGTATTCGCACGGCCCGTTGCTGGGCTGGTTGACCGGCTTCATCACCCTGATCGCGTTTTCCAGCCTGATCGCGATCGAGGTCGAGGCCTGCCGGCAGTACGCGGCGGCGTGGTTCCCGGCGCTGAGCCAGCCCGGCAGCAGCCATCCGACCATGGCCGGATGGCTGCTGCAGTTCGCGCTGCTGGTGGCGTTCTTCGGCTTGAACTACTTCAGCGTCAAGACCTTCGCGCTGGCCAACAACATCATCAGCGTGTTCAAGTTCCTGGTGCCGGCACTGGTGATCGTGCTGCTGCTGGCGCACTTCAACGCCGACAACCTGCATATCCAGGGCTTCGCCCCAGCCGGCGCGGCCGGCGTGGAAGCGGCGATCTCGGCCGGCGGCATCATCTTCGCCTACCTCGGGCTGACCCCGATCGTGTCGGTGGCCAGCGAGGTACGCGAGCCGCAGCGCACGATCCCGATCGCGCTGATCCTGTCGGTGGCGGTGTCGACGGTGATCTACGTGCTGCTGCAGCTGTCGTTCCTGGGCGCGGTGCCGGCCGAGCACATCGCCAGCGGCTGGGCCGGCATCGACAAGGCGTTCGCGCTGCCGTACCGCGACATCGCGCTGGCGCTGGGCATGGGCTGGCTGGCGACGCTGGTGGTCTGCGACGCGGTGGTCTCGCCCAGCGGCACCGGCAACATCTACATGAATGCCACGCCGCGGGTGGTCTACGGCTGGGCGCGCAGCAGCGGCTTCGCGCCGGTGCTGACCCGGGTCGATCCGAAGTCGGGCATCCCGCGCCCGGCGCTGTGGCTGAGCTTCGCGCTGTCGGTGTTCTGGACGCTGCCGTTCCCGTCGTGGGAAACCCTGATCGGCGTGGTGTCGGCAGCGCTGGTGCTCAGCTATGCGATCGCCCCGGTGACGGTGGCGGCGCTGCGGCGCAGCGCGCCGGACCTGGAGCGCCCGTTCAAGGTGCGTGGGCTGGGCGTGCTCGGGCCGCTGTCGTTCATGGTCGCGGCGCTGATCGTCTACTGGTCGACCTGGCAGACGGTGTCGTGGCTGCTCGGCCTGCAGGTCGCGGTGTTCGCGGTCTACGTGCTGTGCCGGCTGCCGTCGCCGCAGGCGCGGGCGAAAGTGCTGCGCCAGGCGCAGTGCTCGGCGTGGCTGATCGCGTTCTTCCTGCTGGTGATGCTGGTGTCATACCTGGGCACGTTCGGCGGCATCGGTGTGATCGCGCATCCGTGGGACACCGTCTGCGTGGCGGTGATCGCGTTCTTCATCTACCACTGGGGCGCGCGCAGCGGCCTGCGCAGCGACGAGCTGGCGCTGGAGGAAGACGATGGGGAGTGA	MAAQGKFQKRLSLTDLTFIGLGSIFGSGWLFAASHVSSIAGPAGIVSWIIGGIAVFLLGLVYCELGAALPRAGGVVRYPEYSHGPLLGWLTGFITLIAFSSLIAIEVEACRQYAAAWFPALSQPGSSHPTMAGWLLQFALLVAFFGLNYFSVKTFALANNIISVFKFLVPALVIVLLLAHFNADNLHIQGFAPAGAAGVEAAISAGGIIFAYLGLTPIVSVASEVREPQRTIPIALILSVAVSTVIYVLLQLSFLGAVPAEHIASGWAGIDKAFALPYRDIALALGMGWLATLVVCDAVVSPSGTGNIYMNATPRVVYGWARSSGFAPVLTRVDPKSGIPRPALWLSFALSVFWTLPFPSWETLIGVVSAALVLSYAIAPVTVAALRRSAPDLERPFKVRGLGVLGPLSFMVAALIVYWSTWQTVSWLLGLQVAVFAVYVLCRLPSPQARAKVLRQAQCSAWLIAFFLLVMLVSYLGTFGGIGVIAHPWDTVCVAVIAFFIYHWGARSGLRSDELALEEDDGE	PGPT0000711_45	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0000711-yveA-NA	NA	NA
BMS020_04541	2343			hypothetical protein	ATGAAGAAGATCGCTGCACTGCTGCTGCTCGCCAGTAGCGCCGCTGCCCACGCCACTCCGACGCCGGCCGACTACGCACGCTCGCTCGGCCTGCGCGCGGCCTGGAGCGGGCTGACCCGCGATGTGGCGTTCCCGGCGCAGTGGCGCGATGACGGCAAGGCGTATTACCGCAAGACGGTGGACGGCGGTTTCGCGTTCGTGCTGGTCGATCCGGCCGGCGGTGCCGACGTGCCGGCGTTCGATGCGGCGGCGCTCGCGCAGGCGCTGTCGACGGCGCGCGGGACAGCGACCAGCGCGCTGCAGCTGCCGTTCGAGCACTTCGACTACGTCGCCGACGGCGCCGATCCGCATGGCGCGATCCGCTTCGGCATCGACTACGCGCCGTGGCGCTGCACGTTGCAGGCGCCGGTCTGCGCACCGCTGAAGGAGGCCGGCCGGCCGCGCGGCTTCGGCGTGGTGCGCGACCTGCGCGTGGCCGCCGACGACCATCCGCGGCGCTCGCCGGACGGGCAATGGGAGGCCTATGTCGACGGCGTCGACGTGGTGCTGAAGCATGTCGCCGACGGTCGCGTCACCCGCCTCAGCCACGATGGCCGCGCGGCCGGCAGTTGCACCGGTGGCGCGCAGGAACAGCCTGCGGCGGCGTGCAAGGACTTCTTCTACGACCCGGAGACCATCGCCTGGTCGCCGGATTCGCGCCGCTTCGCGCTGTACCGCGTGCTGCCCGGGTTCCCGCGGCTGGTGACGCGGGTCGCGTCGACCCCTGCCGGCCAGCTGCAGCCGACGCTGCGCACCCAGCTGTATCCCAAGCCGGGCGATGCGGTCGATATCGAGCGGCCGGTGCTGTTCGGCGTCGATGGCACGCGCACCGACATCGACGCTGCGCTGTTCGCCAACCCGTACACGCTGTCGCCGATCCAGTGGCGGCGCGACGGCGCCAGCTTCAGCTTCCAGTTCGTGCAGCGCGGCTTCCAGCGCGTGCGCGTGGTCGCGGTCGACGCGGCCAGCGGCAAGGCGCATGCGGCGGTCGAGGAGGACGCGAAGACCTTCGTCTACGCCGACCGTACCTTCGCCCACGAGGTCGACGGACTCGGCAAGGAGATCGTCTGGATCTCCGAGCGCGACGGCTGGCGCCAGCTGTACCTGGTCGACGGCGCCACCGGCAAGGTCAAGCGCCGCATCACCCACGGCGACTGGGTGGTGCGCGACGTGCTGCGGGTGGACGATGCGCAGCGCCGGATCTGGTTCAGTGCCAGCGGGATGGATGCCGGCAAGGATCCCTACTACCGACAGCTGTTCAGCGTCGACTTCGACGGCCGCCATCTGACCCGTTTGACCGATGCCGACGCCGACCACGATGTCAGCATCGCTGACGACGGCCGCCATTACGTCGACGTCTATTCGCGGCCCGACCTGGCGCCGGTGGCCGAGCTGCGCGCGATCGACGGCACGCTGCTGCGCACGCTGGCGCGCGGCGACATCAGCCGGCTGCAGGCGGCAGGCTGGAAGGCGCCGCAGGGCTTCGTCGCGAAGGGGCGCGACGGCACGACCGACATCTGGGGTATGGTGGTGCGGCCGCGCGATTACGACCCGGCGAAGACGTACCCGGTGATCGAGAACATCTACGCCGGCCCGCACGACAGCTTCGTGCCGAAGACGTTCTGGCCGTTCGGCTACCACAGCGGCGGCGACAAGCAGATCGGCATGCAGGCGCTGGCCGACCTCGGCTTCATCGTCGTGCAGATCGACGGCATGGGCACCGCCAACCGTTCCAGGGCGTTCCACGACGTGGCCTGGAAGAACCTCGGCGATTCCGGCTTTCCCGACCGCATCGCCTGGCACAAGGCGCTGGCGGCGAAGGACCCGTCCTACGACATCAGCCATGGGGTCGGCATCTACGGTGCCTCGGCTGGCGGCCAGAGCACGCTGGGTGCGCTGGAACGGCATCCGGAGTTCTACGTCGCCGGCATGGCGATGGCCGGTTGCTACGACAACCGCATGGACAAGATCAGCTGGAACGAGCAGTGGATGGGCTGGCCGGTCGATGACAGCTATCCGCGTGCTTCCGGCGCGGTCAACGCCGGCAAGCTGCGCGGCGACCTGCTGCTGGTGGTCGGCGAGCAGGACAGCAACGTCGACCCGGCCTCGACCGCGCAGGTGGTCGACGCGCTGATCAAGGCCGGCAAGGACTTCGAGCTGCTGAACGTGCCGGGCGGCGAGCATGCCGTCGGCCGCTCCACCGGGCCGATCGACTACGTCACCCGTCGTCAGTACGACTTCTTCGTGCGCCACTTGCAGGGCGGGGTCACGCCGCATTGGAATTCGCTGCAGGCCGCGCCGTGA	MKKIAALLLLASSAAAHATPTPADYARSLGLRAAWSGLTRDVAFPAQWRDDGKAYYRKTVDGGFAFVLVDPAGGADVPAFDAAALAQALSTARGTATSALQLPFEHFDYVADGADPHGAIRFGIDYAPWRCTLQAPVCAPLKEAGRPRGFGVVRDLRVAADDHPRRSPDGQWEAYVDGVDVVLKHVADGRVTRLSHDGRAAGSCTGGAQEQPAAACKDFFYDPETIAWSPDSRRFALYRVLPGFPRLVTRVASTPAGQLQPTLRTQLYPKPGDAVDIERPVLFGVDGTRTDIDAALFANPYTLSPIQWRRDGASFSFQFVQRGFQRVRVVAVDAASGKAHAAVEEDAKTFVYADRTFAHEVDGLGKEIVWISERDGWRQLYLVDGATGKVKRRITHGDWVVRDVLRVDDAQRRIWFSASGMDAGKDPYYRQLFSVDFDGRHLTRLTDADADHDVSIADDGRHYVDVYSRPDLAPVAELRAIDGTLLRTLARGDISRLQAAGWKAPQGFVAKGRDGTTDIWGMVVRPRDYDPAKTYPVIENIYAGPHDSFVPKTFWPFGYHSGGDKQIGMQALADLGFIVVQIDGMGTANRSRAFHDVAWKNLGDSGFPDRIAWHKALAAKDPSYDISHGVGIYGASAGGQSTLGALERHPEFYVAGMAMAGCYDNRMDKISWNEQWMGWPVDDSYPRASGAVNAGKLRGDLLLVVGEQDSNVDPASTAQVVDALIKAGKDFELLNVPGGEHAVGRSTGPIDYVTRRQYDFFVRHLQGGVTPHWNSLQAAP				NA	NA	NA	NA	NA
BMS020_04542	1596			hypothetical protein	ATGCAAGCCCCATCGCGGCTGAAGCCGCTCCTACCGCGGCTTGCATGCCTGGCATTGCTGCTGCCGGCGCTGGCCGCGGCCGAAGAGATGCCGCGTTTCGTCAGCCAGGACGGTCGCCATGCGCTGATCGTCGACGGTGCGCCGTACACCGTGCTCGCCGCCCAGCTGCACAACTCCTCGGCGTGGCCGGCGGTGCTGCCGGGGTCGCTCGACCAGGTGGTGGCGCTGCACGCCAACACCGTCGAGGCGCCGGTGTACTGGGAGCAGTTCGAACCCGCGCCCGGGCAGTACGACACCATCAATGTCGATGCGCTGGTCGAACAGGCGCGCAAGCGCGGCCTGCGCGTGGCGCTGCTGTGGTTCGGCAGCTGGAAGAACGGCCAGATGCACTACGTGCCGGAGTGGATCAAGCGCGATGCAGGCACCTATCCGCGCATGCTGGATGCCGACGGCCAGCCGGTCGACGTGCTGTCGCCGTACGCGCCGGCCAACGTGGCCGCCGACAGCCGCGCGTTCGCGGCGTTGATGCGCCACCTGCGCAGGATCGATGGCGACCGCCATACGGTGATCCTGGTCCAGGTCGAGAACGAGCCGGGCGCGGTCGGCGCGGTGCGCGACCATGGCGCCGCCGCCGAGGCGGCGTTCGCGCAGCCGGTGCCGGCGGCGATCGCGGCCACGCTGGGCAAGCCGGCCGGCAGCTGGCAGCAGCTGTTCGGCGCCGAGGCCGCCGAGGCGTTCAACGCCTACGGCACCGCCGCCTACATCGAGCAGGTCGCCGCCGCCGGCAAGCGCGAATATCCGCTGCCGATGTACGTCAACACCTGGCTGCGCTACAAGGGCAAGAAATTCCCCGGGCTGGACTATCCGTCCGGCGGCGCCACCCACAACGTGTTCGCGCTGTGGCGCGCGGCGACGCCGTCGATCGACTTCATCGGCACCGACATCTACACCAGCGACTACAACGAATACACCAAGGTGATCGGCCAGTACGCGCGGCCGGACAACCCGGCCTGGGTGTCGGAGACCGGCTTCGAGCCGGCCACTGCGCCGTATCTGTTCCACGTGCTGGGGCAAGGTGGGATCGGCTTCTCGGTGTTCGGCATGGATGGGGCGGACTCGCCCGAGAAGGCCGCCGCGACCGCCGCCCACGCCGCCAACTTCGGCCAGCTGGCGCCGCTGGACCGGATCATCGCCAGGGCCGCGTTCGAGGGCCGGCTGCAGGCGATCGCCGAGCAGCCCGGCCAGCCGCAGCGCACGCTGCGCTTCGGCGACTGGCAGGTGCGGGTGTCGTTCGGCGCGCCGTACTGGGGCGATGCGCCGCCGATCCTGCCCGGCAACGACGACCATGCCGGCCGCCTGCTGGTGGTGCAGACCGGCCAGGATGAATTCCTGGTGACCGGATTCGCCGCCCGCGCTGAATTTCTGCGCGAGGCGGCCGATAGCCTGCATGGACAGCTGCTGCGGGTCGAGCAGGGACGTTACGTGGATGGCCGCTGGCAGTTCGAGCGGCTGCTCAATGGCGACCAGACCGACTACGGGCTCAACTTCGTGCGCGACGCGCCCCCGGTCCTGCGGGTGACGGTCGGCACCTACTGA	MQAPSRLKPLLPRLACLALLLPALAAAEEMPRFVSQDGRHALIVDGAPYTVLAAQLHNSSAWPAVLPGSLDQVVALHANTVEAPVYWEQFEPAPGQYDTINVDALVEQARKRGLRVALLWFGSWKNGQMHYVPEWIKRDAGTYPRMLDADGQPVDVLSPYAPANVAADSRAFAALMRHLRRIDGDRHTVILVQVENEPGAVGAVRDHGAAAEAAFAQPVPAAIAATLGKPAGSWQQLFGAEAAEAFNAYGTAAYIEQVAAAGKREYPLPMYVNTWLRYKGKKFPGLDYPSGGATHNVFALWRAATPSIDFIGTDIYTSDYNEYTKVIGQYARPDNPAWVSETGFEPATAPYLFHVLGQGGIGFSVFGMDGADSPEKAAATAAHAANFGQLAPLDRIIARAAFEGRLQAIAEQPGQPQRTLRFGDWQVRVSFGAPYWGDAPPILPGNDDHAGRLLVVQTGQDEFLVTGFAARAEFLREAADSLHGQLLRVEQGRYVDGRWQFERLLNGDQTDYGLNFVRDAPPVLRVTVGTY				NA	NA	NA	NA	NA
BMS020_04543	297			hypothetical protein	ATGAGCATCTCCGCCATCGCCAGCTCCGGATTGAACGTGGCCCAGCTGCGCCAGACCGCCGCCGCCAGCAATATCGCCCGGTCCGGCGTGGACGGGGCGCAGCGGTTGGGCGTGGACGCGACCGCGCTGGCGGACGGCGGCGTCAGCGGCCAGCTGGTCGCCGCGCCGGACACGGGCGGCGACATCACCACCGACGTGGTCTACAGTCTGTCCGCACGCAGCGACTTCGAAGCCAACGCCGTGGTGCTCAAGCGCGGCGACGACATGGTCGGCAGCCTGCTCGACATGCTGGCCTGA	MSISAIASSGLNVAQLRQTAAASNIARSGVDGAQRLGVDATALADGGVSGQLVAAPDTGGDITTDVVYSLSARSDFEANAVVLKRGDDMVGSLLDMLA				NA	NA	NA	NA	NA
BMS020_04544	2346			hypothetical protein	ATGGATCGTCGTAGCTTCCTGCGCAGCGGTATCGCTGCGACCGCCGCTGCCGGCATCGCCCCGGCGCTTGCCGCGCATGCGCCCGAACCTGCCGCCCCGGCGCCCGCGCCGGTGTTGCAGCCGGCGCCGTCGCTGGACCTGTCCGGATACACGCGTCTATGCGAATTCCAGCATCGCGGCCAGGCCTGGACCGCGCATGAGGACCTGCGCACGCCGCAGGGCGGGCTGGTGCTGGCCTGCGCCGCCGGGGTGCTCGACCTGGGCAAGCGCACCGAGGCGGTGTGGGGCAGCACCACGCCGCCGTACTTCGGCATGCAGCTGGCCGAGGTGGCGATGGCGCAGGCCGACCTGCTGGCCGACCGGCTGCTGCGCGACGGCGATCCACGCGAAGCCGAGGTGCGCGATGTCGCGCCGCCGCCGGCCTCGCGGCTGGACCCGAAGGACTACACCGGCCGGCTGCCGTGGACCACCTTCGTCGGCACCGTGCAGGGCAACGACACCATGCAGATCTACCCGGACGGGCGCAGCCGCACCTACCGGGCGATCCAGTTCTTTCCCGAACTCGCCGATGCCGACAAGGTCGCGCACCGCGAGGAAGGCCTGCTCGGCGGCTGGCTGCCGGCGGTGCACAAGGTGGTGCCGGCCGGCGATGGCCGCTGGTACGACCTGCTGGTGTTCGCCGACGTCAATGCGCACGACCGGTTCGTGGTGCAGACCTGGCACCGCGCGGTGCTGGTCGAGCAGGGACGTGCGGTCAAGACCGTCTACGGCTACAGCTATCCGGATTTCCCGCCGCGCCGCAGCGGCGCCAGCGCGGAAGACTTCTATCGCGGCGTGATCGACTTCGCCGCGTCGTGGCAGGCGCGCCTGGCCGATGCCAGCCGCGCGACGCTGCCGGACGCGAGCTGGAGCGACATCGCGCGGTTCGCGTTCGCCCGCGAACTGGTGGTGCGCCCGGACGGGGTGTATCCGAAGTACGGCGCGGTCGACCGCGACTACGCCGGCAACGAATACGACGGGTTCCAGGACACCTTCACCAGTTCGCTGTACGCCAACCTGGAATGGGGACGCTTCGCGCAGGCGCGCGCGGTGCTCGACAACTACCTGTCCGAGTACACCCAGGACGATGGGCTGGTGAACATGCGCGGCCCGGAGGTCGGCCAGTTCGGCCTGACGCTGTCGCTGCTGGCGCGCTACCTGCGCTACACCGGCGATGCGGCGCTGCTGCGCAAGCACCTGGGCAAGATCGAAGCGACCGCGCAGCTGCTGGTCGAGCTGCATGACGCGGCGCTGGCGTTGCCGAAGACCGATCGCGGCCATGGCCTGATCCATGGCTGGAGCGAATCCGATGCCTGCCTGTATCCGGACCCGACGCTGTGGTGGAAGCCGTACTTCGGCAACAGCGCGCTGGCGATCCGCGGCTGGGAAGACATCGCCGCGGTGTGGCCGGCGCTGGGCGGCGCGCGCGACGCCGGCAGCCGCTGGCAGGCGCGCGCGACGCAGCTGCGCACGCGCCTGCTGGCCAGCATCCGCGGCGACATCCGGCGCGACCTGCGTCCAGCCTACGTCGGGCCGTTGCCGGGCACCACGCAGACTTTCCGCGAAGCGATGTCGCAGGATGATCCGAGCAAGAGCGAGCAGCTGTGGTCGCACCGCGCCTACGCCGAGCTGCTGCAGGCTGACGTGCTGCCGGCCGATCTGGCCAACCTGGTGATCGACTGCCTGCGCGGCCACGGTGGCACCACGCTGGGCATCGTCTCCAACATCTGGAAGCCGGTGCCGGAAGGCCGCGACATCCTCGGCTTCATTTCCTACGGTTACGCCCAGCAGCTGCTGCGCTTGGACCGGATCGAGGAATACCTGCTGTTCCTGTACGCGCACCGCTACCAGGCGCATACCCGCGGCAGCTGGACCGCCGGCGAGGTCGCCGGCATCACCGGCGGCATGCCGCTGTTCTGCATGCCGGCGCAGATGACGGTGCCGCTGCTGCTGCGCTGGATGCTGGTGTTCGACCAGGACGACGCGCTGTACCTGGCGCGTGCGCTGCCGCGCGACTGGCTCGGCAGCGGGCGTGCGATCGCGATCGAGGATGCACCGACGCCGTGGGGACGGGTCGGCCTGCAGCTGCAGGCTGATCCCGATGCCGCCCGCATCGATGGCCGGGTGCGCTTGCCCGAGCGCGCGCCGGGCGAGGTCTGGCTGAGCCTGCGGGTGCCGGCCGGCAAACGCGTGACCAAGGTGCAGCTGGATGGCCGCGATGTGGCGCTTGCCGGCCCGCAACACGATCGCGTGCGGATCCGCGCGGCAGCGGGGAGCACGGTCGCGCTGCAGGCGTGGTACGCCTGA	MDRRSFLRSGIAATAAAGIAPALAAHAPEPAAPAPAPVLQPAPSLDLSGYTRLCEFQHRGQAWTAHEDLRTPQGGLVLACAAGVLDLGKRTEAVWGSTTPPYFGMQLAEVAMAQADLLADRLLRDGDPREAEVRDVAPPPASRLDPKDYTGRLPWTTFVGTVQGNDTMQIYPDGRSRTYRAIQFFPELADADKVAHREEGLLGGWLPAVHKVVPAGDGRWYDLLVFADVNAHDRFVVQTWHRAVLVEQGRAVKTVYGYSYPDFPPRRSGASAEDFYRGVIDFAASWQARLADASRATLPDASWSDIARFAFARELVVRPDGVYPKYGAVDRDYAGNEYDGFQDTFTSSLYANLEWGRFAQARAVLDNYLSEYTQDDGLVNMRGPEVGQFGLTLSLLARYLRYTGDAALLRKHLGKIEATAQLLVELHDAALALPKTDRGHGLIHGWSESDACLYPDPTLWWKPYFGNSALAIRGWEDIAAVWPALGGARDAGSRWQARATQLRTRLLASIRGDIRRDLRPAYVGPLPGTTQTFREAMSQDDPSKSEQLWSHRAYAELLQADVLPADLANLVIDCLRGHGGTTLGIVSNIWKPVPEGRDILGFISYGYAQQLLRLDRIEEYLLFLYAHRYQAHTRGSWTAGEVAGITGGMPLFCMPAQMTVPLLLRWMLVFDQDDALYLARALPRDWLGSGRAIAIEDAPTPWGRVGLQLQADPDAARIDGRVRLPERAPGEVWLSLRVPAGKRVTKVQLDGRDVALAGPQHDRVRIRAAAGSTVALQAWYA				NA	NA	NA	NA	NA
BMS020_04545	2769	btuB_3		Vitamin B12 transporter BtuB	ATGCTGCCCCGCACGACTTCACGCCCCTCCGCCGCGCCGCGTCCCGGCCCGCGCCCGTTGTCCCTCGCCATCGCGCTGGCAATGACGGCCACCGCGCTGCCGGCCTTGGCGCAACAGGCCAGTTCCGGTACCGACGACGATGCCGACACCCGCACCCTCGACAGCATCACCGTCACCGGCAGCCACATCCGCCGCGTCGACATGGAGACCGCCAGCCCGGTGGTGACGATTGACCGGCAGAAGATCGAGGACAGCGGCAAGTCCACCCTCGGCGACCTGCTGCAGGACATGCCGGTGATGGCCGGCTACCAGACCAATACCTCGATCAACAGCGGCTTCAGCCATGGCCGTGCACTGGTGTCGCTGCGCGGCCTCGGCCCCGAGCGCACGCTGGTGCTGCTCGACGGCCACCGCATGACCGGCCCGGCCAGCAGCGTCGCCGCCGCACCGGGCGTGGACGTGAACTCGATCCCGGCGTCGATGGTCGACCACATCGAGGTGCTGACCTCCGGCGCCTCGGCGATCTACGGCTCCGACGCGATCGGCGGCGTGGTCAACATCATCCTGAAGAAGGGCTACGACGGCGTCGCGCTGGAGGCCGACTACGGCATCAGCGGCAAGGGCGATGGCGCGCGCCGCAACTTCGACATCGAGTGGGGCAAGACCTGGGAGCACGGCAGCGTGATGCTGGGCCTGAGCCACAACTCGCAGAACGCGCTGTACAACAGCGACCGCGATTACGCCAACAAGCAGCTCAGCTACTACAACGGCGTGGTCGGCACGATGACCGGCAGCAACGGCCGCGTGTTCCTGAGCGATGGTTCGGTGCTGGCCGCCAACAGCGGGCTGTCGGCCGGCCAGCTCAGCGCCAGCGATTACCACACCTTCGGCACCGGCGAGGGCGATCGCTACAACTACTACGGCACCCAGTACATGCTGACGCCGGTCGACCGCACCAACTTCTCGCTGCGCGCGACCTATGACATCACCGACAGCATCCAGGCCTATGCCGACCTGCTGTGGACCCACAGCAAGACCACCTCGCACCTGCAGCCCTACGGCATCAGTGCGTCCGGCCTGGGGGCGGACATCGCCAGCAACCCGTACAACCCGTTCGGCAGCGACCTCAGCGACTACTACCTGCGCACCGAACTGTTCACCCGCAAGTACGTCTCGTCGATGGCGCAGACCAACATCGGCGGCGGCCTGCGCGGCGGCTTCGGCGACACCACCTGGCAGTGGGATGCGCACGTCGGCTATGCGCGCTACAAGGACAAGCTGGTGCGCTACGGCTTCGCGGTGACCTCCGAGCTGGTGGAGGTGCTGGAGACCGCCAACGTCTTCAACCTGTCCGATCCGGCCACGATCGCCGCGCTGCAGTCCACGCTGCTGCCGGTGGACCTGGCCGACCAGAGCACCTCCAAGAACGTGTCGTTGAGCACCAACGGCACGCTGGCGACGCTGCCGGCCGGCGACCTGCAGGCTGCGTTCGGGTTGGAATACCGGCGTAACGACTTCCGTCAGGGCACCCAGAGCTCGGTGGCGATGGCCGACGACTACGGTACCTGCGACTACATGGACGGCTGCATCATGGCGCAGGGCCACAGCGAGAACCTCAAGGAGGCCTACGCCGAGCTGCTGGTGCCGCTGCTGTCGGACCTGCCGCTGGTGCATTCGCTGACGCTGGACATCGGCAGCCGCTATTCCGATTACAGCGCCTGGGGCGACACCACCAACAGCTCGCTGGCGCTGGAATGGCGTCCGAGCCGCGACCTGCTGGTGCGTGCCACCGCGGCGCAGGTGTTCCGCGCACCGGCGCTGGGCGACCTGTACGGCTCGCCGTACCAGGGCACCTACGACGTCGGCAGCTACTACGACCCGTGCGAAGGCTATACCGGCGGCGCCGGTGCCGGCGGCTGCGCCAACGTCGCCACCGACGGCAGCTTCGTCAACACCGGCACCGCCACCGTGCTGGTCACCGGCACCGCCAATGCCGGTTTCGACCTCAAGCCCGAGTCCGGCGATTCCTACGACGTCGGCCTGGTCTACGACCCGGAGTGGCTGCCGGGCTTCTCGGTCAGCCTGGACGCGTGGAAGGTCAAGCTGGACGACATGATCTCCGGTACCGACTACACCTACGTGCTCGACCAGTGCTACAAGGGCGACGCGCGCTACTGCGCGCTGGTCACGCGCAGCGCCACCGGCCAGCTCGAAAGCGTCACCGTGCCGTATGCGATCAACTACGACGAGGTCGAGATCCGCGGCTACGACTTCGGCAGCAAGTACCAGTTCCAGACCGACACCTGGGGCAGCTTCCAGGTCGGCCTCGACGCGACCTTGATGAGCAAGTACCTGCTCAATGGCGAGAGCCACAACTACGTGGGCGAGACCTCCGGTTCGGCCGGCAACCTGCCGCGCTTGAAGGGCAACCTCACGCTGGGCTGGGATTACCACGACTGGCACGCCAGCTGGACCGCGCGCTACATCGGCACCAGCAAGGTCGGCAGCTCCTACGAGGGCTACTGCTACAACACCGATGCCGACGGCAACTGCGTGTACTTTGACGTTGGTGCGGTGGTCTACCACAACCTGTCGGTGAGCCGTAAGTTCAAGCCCTGGCACCTCAACGCCTCGCTCGGCGTGGACAACGCGTTCGACAAGAAGCCGCCGATCTACTACGGCTACTACTCCAACGCCTCCAACACCGATGCCAGCACCTACGACACCGTGGGCCGCTACTTCTGGGGCAAGCTGCGCTGGGAGTACTGA	MLPRTTSRPSAAPRPGPRPLSLAIALAMTATALPALAQQASSGTDDDADTRTLDSITVTGSHIRRVDMETASPVVTIDRQKIEDSGKSTLGDLLQDMPVMAGYQTNTSINSGFSHGRALVSLRGLGPERTLVLLDGHRMTGPASSVAAAPGVDVNSIPASMVDHIEVLTSGASAIYGSDAIGGVVNIILKKGYDGVALEADYGISGKGDGARRNFDIEWGKTWEHGSVMLGLSHNSQNALYNSDRDYANKQLSYYNGVVGTMTGSNGRVFLSDGSVLAANSGLSAGQLSASDYHTFGTGEGDRYNYYGTQYMLTPVDRTNFSLRATYDITDSIQAYADLLWTHSKTTSHLQPYGISASGLGADIASNPYNPFGSDLSDYYLRTELFTRKYVSSMAQTNIGGGLRGGFGDTTWQWDAHVGYARYKDKLVRYGFAVTSELVEVLETANVFNLSDPATIAALQSTLLPVDLADQSTSKNVSLSTNGTLATLPAGDLQAAFGLEYRRNDFRQGTQSSVAMADDYGTCDYMDGCIMAQGHSENLKEAYAELLVPLLSDLPLVHSLTLDIGSRYSDYSAWGDTTNSSLALEWRPSRDLLVRATAAQVFRAPALGDLYGSPYQGTYDVGSYYDPCEGYTGGAGAGGCANVATDGSFVNTGTATVLVTGTANAGFDLKPESGDSYDVGLVYDPEWLPGFSVSLDAWKVKLDDMISGTDYTYVLDQCYKGDARYCALVTRSATGQLESVTVPYAINYDEVEIRGYDFGSKYQFQTDTWGSFQVGLDATLMSKYLLNGESHNYVGETSGSAGNLPRLKGNLTLGWDYHDWHASWTARYIGTSKVGSSYEGYCYNTDADGNCVYFDVGAVVYHNLSVSRKFKPWHLNASLGVDNAFDKKPPIYYGYYSNASNTDASTYDTVGRYFWGKLRWEY				NA	NA	NA	NA	NA
BMS020_04546	4338	hypBA2		Beta-L-arabinobiosidase	ATGAACATCACGTCGTTGTCGCATCGTCCCTTCATCCGTGTGCTGGGCTGGCTGTGCGCCGGCTGCCTGATCGGCCTGGCCGCTGGCCTGGCAGCGCTGCCGCAGGCGCTTGCCGAAACCCGCGACGCCGAGCCGGCGCCGGCGCATCCGAACAGCGCGATCGGCTACCCACGCTTCGGCGGCATCGCCGAGCCGGTGCCGGCGACCGGGGTCGCATTCGCACCCGGTGGCTACCTGCAGCGGGTGTTCGCCGCCGACCAGGCCGACGGTGCCGGCACCGCGCCGGGCAAGGACTTCTGGATCGACCGCATGCTCGCCCGCGCAGGCGATGCCGGCGGCTTCGACGACCGCAACGACTGGCTGTTCACCCGCGGCCGTGCCGCCTACCTGTATACCCACAAGCCCGACCAGCCCGGCTTCGTCGGCGACGTCGCCTACTGGCACAAGACCGGCCACGACGCGCTGTTCCGCATCGTCGCGCTGCGCGACGGCACGCCGCTGGTGCTGGCCGAGGACGCGACGCGGCGGCGGCAGACGCCGAGCTACTTCAGCACCGAATTCGCCGATGCCGGCGCCGGCGTGCGGATGCGACTGGTCAAGTTCATCACCCATGACGATGTCGCGGTGGCCGAGGTCACGCTGTCGTCCAGCGATGGCCGGGCGCATGCGTTGACGCTGCGTGCGGCCTCGCCGATGGCCACGCATGCCGACGGCAACGCGCTGCATGGTGCGTTCGAGGCGCGCAACGCGATCACCACGGTATTCCCGCGCTTCTCGGGCGATGGCTTCACCGTTGCCGGGAACGCGCTGCAACGCGCGCTGCAGGTGCCGGCACGCGGCGACAGCGCCACCGTCAAGCTGCAGCTTGGGCTGACCACGCGCGAGCTGCCGTCGTCGCTGGCGGCGTACCGCGCGGTGGCGGCGCAGACGCCGCAGCAGGCCTACCGCGCCCACGTCGTTGCCTACAACCGCTGGTGGGTCGACAACATCCCGTATCTGGAGACGCCCGAGCACAGCATCGACAAGACGCTGTTCTACCGCTGGTGGCTGCTGCGCTTCAATTTCCTCGACGCCGACGTGCCCGGCAACGACTACCAGTTCCCGGTCGCGATCGAGGGTGTGCTCGGCTACAACAACGCGATCGTGCTGACCACCTGCATGTTCCTGGACGACCTGAAATACCTGCGCGATCCGACCTGGGCCTACGGCGCGTGGATCGGCGCCGGCGAGGTCGCCGCCAGCGGCAAGTACGTCGACAATCCCGGCTCGCCGGAGAACTGGTCCAATTCCTACGCGCAGTACCTGACCGCCGCGGCGTGGCGCTCCTACCAGCTGCATGGCGGGCCGGCGGCGGTCGCGGCCAAGCTGGCACGCTACGGCCGCGACGATGTGCGCGGCCTGCTCAAGGCCTACGACGGCAACGGCAACGGCCTGATCGAATACGACTGGGCGGCGATGACCGGCAACGATGCCGACGCGGTCTCGTTCGACTGGGCCAAGCAGCACGGCGGCGCGCGCATGGACCGCGCCGAGAGCGCCTACGTCTACGCCAACGCCCGCGCCGCCGCGCAGGCGGCGCGGCTGTCCGGCGACGATGCGACCGCCGAGGAGATGGACGCCACCGCCGCGCGCATCCGCCGCGCGGTGCTGCAGGTGCTGTGGCAGGACCACAGCGACAGCGCCGATGCGATGGGCCTGCACGGCGACCTGCTCAAGCACCGCCAGAGCGACGGCGCGCGCCTGCCGGTGGACTGGAAGGAGACCAACAACTACTTCCCGTTCGCGGTCGGGCTGATGCCCAAGGCCGGCGATGCCGACTACGACGCCAAGTACGTGCGCGCACTGCGCCTGTTCGCCGATGCCGACCAGTACCCGACGTTCCCGTTCTACACCGCCAACCAGGCCGACAAGCACGCGCGTGGCGAGGCCGGCAGCAACAACTTCTCGGTGATCAACGCCACCGTCAACCTGCGCCTGCTCGGCAGCGCGCTGCGCGACTACCCGAGCCCGTACCTGCACGCCGAGGATTTCCGCAAGCTGCTGTACTGGAACGCCTGGGCGCATTACATCGACGGCGACAACCGCTACCCTGACCAGAACGAGTTCTGGGCCAAGGGCAGCGCCGCCGACGGCGGCAGCATCGGCTACCGCTCGTGGATCCACCACACCCAGCTCGGCGCGACCAACTTCGCGATGATCGAGGACGCGATGGGGCTGCGCCCGCGCAGCGACGGCAGGATCGAGCTGTACCCGATCGACATCGGCTGGGACCATTTCGCCGCCGACAACATCCGCTACCGCGACCGCGACCTGGCGATCGTCTGGGACCGCGATGGCCGCCATTACGGCGGGCGCGTGCCGAAGGGCTATTCGGTGTTCCTCGACGGCAAGCTGGCCTTCAGTGTCGACCGGCTGGCGCACGTGCTGTACGACCCGGCCAGCGGCCAGGTCGAACTGCTCGCCGATGCGGTCAACCACGGCGCCGCCGGCGCGCAGGTGCTGGGCGCTGCCCGCGCCACGCTGGCGCGGCCGGAGCAGGTCGCGTTCGCGGCCGATGCGCGCATCGACGCGGTGCTGCGCGATGCCGGCATCGATCCGGCGCTGCCGGCCGGCGCGCGCGATCTCGCGCTCGGCGCGAAGGTGTCGGCGAGCTTCGCCGCGCCCGGCTTCGGTGCCGACGGCGCGGTCGACGGCAGCACCGTCAACGAGCCGTTCTGGGGCACCGTCGGCTCGCCGTCGGCCAGCGACTGGATCGAGCTCGACCTTGGCCAGCCGCAGCGGATCGACGATGCGCGGCTGTACTTCTACCGCAGCTCGGCACCGGCCGGCGAGCAGCACGGCTTCCCGTCCGGCACCCGCGCCGGCTACGCGCCGCCGTGGATGTACACGCTGCAGTACCTGGATGGCACGCAATGGAAGACCGTGCCGGGCCAGGTCCGTGATGCGCCGATCGCGCAGGGCAACCGCAACCATCTGCGCTTCCCGGCGCTGACCGCGCAGCGGCTGCGGCTGCAGGTGGTGCATGCCGGCGCGCTGCGGACCGGGCTGAAGGAGATCCAGCTGTATGCCACCGGTGCGCCGCCGCCTGCGGCGCAGACGAATCTGGCCCCGCAGGTGCAGGCCTGGCAACAGGACCGCGCCGCCGGCGCGACGCTGCAGCTGGATGCGCGGGTCGGCGACGATGCGCTGCCGCGGGGCCAGCTGGCGCTGCGCTGGCAGCAGCTGCAGGGGCCGGCCGACGGTGCTGCGATCTTCGACGATGCCGCTGCGCCGGCGACCGTGGTGCGCTTTACCGCGCCGGGCCGCTACGTGCTGCGGCTGCTCGCCGACGATGGCGCGTTGCAGGGCCATGCCGATGTCGCCGTCGATGCGCCGGCACAGGCCGGCGGGCAGGGCATCCAGGTGCAGGCCGATGCGGTGGCCAGCGCGCAGCAGACCGCCAGCCATCATCGCGTGCAGGCGCTCAACGACGGCTTGGTGCCGCAGGCGGGCGCCAGCGTGCCGGCCGACCGGCGCTGGGGCAGCTGGGGGCGCGCGCAGCCGGCGTCGGTGTGGCTGCAGTACCAGTGGCGGCAGCCGCAGCGGATCTCGGCCAGCAGCATCCAGTTCTGGGACGACCAGCCCGACGGCGGCGTCGCGCCGCCGGCGGCGTGGAAGCTGCAGGCGCTGCGGGACGGGCAGTGGGTCGACATCGCCGTGCCGGGGGGCTATCCGCTGGCCGGGCGCGGCGCGCCGAGCACGGTGAAGTTCGCGCCGGTGACGACCAGTGCGCTGCGCGCGGTGATCGCCACCGCGGCCCAGGGCAGTGGGCACGCGGCGCTCGGTGTCGACGAATGGCAGGTGTTCGCCGACCGCCCCGAGCGCGTCGACGCGCTGGACCTGCGTACCGGCGTCGGCGATACGCCGACGCTGCCGGACACGTTGACCGCCTGGTATGCCGACGGCACGCGGGCCGAGGTCGCGGTGCGCTGGCCGCAGCTCGACCCCGCGCGGCTGGCCGGCGATGGCCGCATCGACCTGCATGGGCTGGCCGCCGGTGGCTTGCCGGTGAGCGCGAGCATCTGGGTCCGCGCCAGCGCGCCGGGCCAGGTCAATACCGTCGATGCGCTGGCGCCGCTGCGTGCGGCCGCCGGCCAGCCGCTGGCGCTGCCGGCACTCGCCACCGTGCAGTACAACGACGGCTCGCGCGAGCGGCGGCCGGTACGCTGGCAGGCAGCGCCCGCCACGGCGCCCGCGGCGGGCGCGCAGGTGACGGTATCCGGCACGGTCGCCGGCCGCGATGCCACCGGCAGCCTGCCGGTCAGCCTGGTGGTGCAGGGCGTGGAGGCGGGACGGTGA	MNITSLSHRPFIRVLGWLCAGCLIGLAAGLAALPQALAETRDAEPAPAHPNSAIGYPRFGGIAEPVPATGVAFAPGGYLQRVFAADQADGAGTAPGKDFWIDRMLARAGDAGGFDDRNDWLFTRGRAAYLYTHKPDQPGFVGDVAYWHKTGHDALFRIVALRDGTPLVLAEDATRRRQTPSYFSTEFADAGAGVRMRLVKFITHDDVAVAEVTLSSSDGRAHALTLRAASPMATHADGNALHGAFEARNAITTVFPRFSGDGFTVAGNALQRALQVPARGDSATVKLQLGLTTRELPSSLAAYRAVAAQTPQQAYRAHVVAYNRWWVDNIPYLETPEHSIDKTLFYRWWLLRFNFLDADVPGNDYQFPVAIEGVLGYNNAIVLTTCMFLDDLKYLRDPTWAYGAWIGAGEVAASGKYVDNPGSPENWSNSYAQYLTAAAWRSYQLHGGPAAVAAKLARYGRDDVRGLLKAYDGNGNGLIEYDWAAMTGNDADAVSFDWAKQHGGARMDRAESAYVYANARAAAQAARLSGDDATAEEMDATAARIRRAVLQVLWQDHSDSADAMGLHGDLLKHRQSDGARLPVDWKETNNYFPFAVGLMPKAGDADYDAKYVRALRLFADADQYPTFPFYTANQADKHARGEAGSNNFSVINATVNLRLLGSALRDYPSPYLHAEDFRKLLYWNAWAHYIDGDNRYPDQNEFWAKGSAADGGSIGYRSWIHHTQLGATNFAMIEDAMGLRPRSDGRIELYPIDIGWDHFAADNIRYRDRDLAIVWDRDGRHYGGRVPKGYSVFLDGKLAFSVDRLAHVLYDPASGQVELLADAVNHGAAGAQVLGAARATLARPEQVAFAADARIDAVLRDAGIDPALPAGARDLALGAKVSASFAAPGFGADGAVDGSTVNEPFWGTVGSPSASDWIELDLGQPQRIDDARLYFYRSSAPAGEQHGFPSGTRAGYAPPWMYTLQYLDGTQWKTVPGQVRDAPIAQGNRNHLRFPALTAQRLRLQVVHAGALRTGLKEIQLYATGAPPPAAQTNLAPQVQAWQQDRAAGATLQLDARVGDDALPRGQLALRWQQLQGPADGAAIFDDAAAPATVVRFTAPGRYVLRLLADDGALQGHADVAVDAPAQAGGQGIQVQADAVASAQQTASHHRVQALNDGLVPQAGASVPADRRWGSWGRAQPASVWLQYQWRQPQRISASSIQFWDDQPDGGVAPPAAWKLQALRDGQWVDIAVPGGYPLAGRGAPSTVKFAPVTTSALRAVIATAAQGSGHAALGVDEWQVFADRPERVDALDLRTGVGDTPTLPDTLTAWYADGTRAEVAVRWPQLDPARLAGDGRIDLHGLAAGGLPVSASIWVRASAPGQVNTVDALAPLRAAAGQPLALPALATVQYNDGSRERRPVRWQAAPATAPAAGAQVTVSGTVAGRDATGSLPVSLVVQGVEAGR	PGPT0019370_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINOBIOSIDASE,PGPT0019370-hypBA2-K18206	NA	NA
BMS020_04547	1578			hypothetical protein	ATGTTGCCGATCCTGCTCGCCGTCTCATCCAACTCCCGGGCGGAAAGCGAAACGACGTCGATCCCCACCCCGCCGGCGCGCAGCATCCAGGCCAACGTCAACCCGATCATCGCCGACGGCAGCTATTACTCCGCCGATCCGGCGCCGCTGGTCGCCGATGGCAAGCTCTACATCCTCGGCGGGCGCGACGAGGCGCCCCCCGACGTCAACGACTTCGTGATGAAGGAATGGCAGCTGCTGGTCACCGACGACGTCGCCAGCGGCCGCTGGACGCACTACCCGGCGATCCTCAAACCCGAGCAGGTGTTTGCCTGGGCCGCGCCGGGGCGTGCCTATGCCGGGCAGATCGTGCAGGGCACCGACCACCGCTACTACCTGTACGCGCCGGTGGAGCAGCGCGACTCGCCCAATGCCGACCGCTTCGCGATCGGCGTGGCGGTCGCCGCGTCGCCGCTGGGCCCATGGCGCGATGCGCATCCGGCCGGGCCGATCGTCTCGCAGTCGCTGCCGGAGCCGAACCGCATCCAGAACATCGACCCGACCGTGCTGGTCGACGACGACGGCCGCGTCTACCTGTACTGGGGCACGTTCGGCCAGCTGCGCGGGATCGAGCTGGCCGCCGACATGGTGACGCCGAAAGGGCGTGCGATCAGCGTCGCCACGCTGGACGGCTTCTTCGAAGCGCCCTGGCTGTTCAAGCGCAACGGCAGCTACTACCTCGCCTACGCCGGCAACAACGCCGGGCCGGATTCGCCGTGCACGCCGGCGCGCTACCACGCCTGCATCGCCTACGGCAGTGCGCCATCGCCGCTGGGACCGTGGACCTACCGCGGGGTGATCCTCGCGCCGGTGTCGAGCACCACCTCGCATCCGGGCATCATCGCGTTCAAGCGCCAGTGGTATCTGGTCTACCACACCGCCGATGCCGCCGGCGGCGGCCACTTCCGCCGCAGCGTGGCGATCGACGCGCTGCAGTGGGACGACAGCGTGCAGCCGGCGCGTATGCGCAGGGTGGTGCCCACGCAGCCGCCCGTGCCGCCACCGGCACCGAGCCGCAACATCGCGGGCGCGGCCTCGGCCAGCGCGTCCAACAGCGGGCATGTTCCGACCCAGTACTGGATCAAGGCGCTCAACGACGGCATCGTCCGCGCCAATCCGCTGCCGCCGGACATGTGGGGCAGCTGGACGCCGCACAACCCGCCGCAGCAGTGGATCGAGTATCGCTGGGCGCAGCCGGTGACGCTGGACGGCAGCCGCATCGTGTTCTGGGCCGACCAGCCAGCCGGCGCCAGCGTCGGCGTGGCGCCACCGGCGCGCTGGCATCTGCAATACCGCAGCGGCGGGCGCTGGCTACCGGTGCCACATCCCAGCGGCTACGGCACCGCGACCGGCACCCCGCAGGAGGTGCGCTTCGATGCGCTCAGCACCCGCTGCCTGCGCGCGGTGTTCGATGCAGCAGGCAGCGGTGATGCGCATGCGGCCGTCGCGGTGCAGGAATGGGAGGCGCTGGCGCCGCAGCCGCAGCGGCCGACCCCGCCACCGGCGGCGCACGGTGGCGAAGCCGACGCCTGCGATTAG	MLPILLAVSSNSRAESETTSIPTPPARSIQANVNPIIADGSYYSADPAPLVADGKLYILGGRDEAPPDVNDFVMKEWQLLVTDDVASGRWTHYPAILKPEQVFAWAAPGRAYAGQIVQGTDHRYYLYAPVEQRDSPNADRFAIGVAVAASPLGPWRDAHPAGPIVSQSLPEPNRIQNIDPTVLVDDDGRVYLYWGTFGQLRGIELAADMVTPKGRAISVATLDGFFEAPWLFKRNGSYYLAYAGNNAGPDSPCTPARYHACIAYGSAPSPLGPWTYRGVILAPVSSTTSHPGIIAFKRQWYLVYHTADAAGGGHFRRSVAIDALQWDDSVQPARMRRVVPTQPPVPPPAPSRNIAGAASASASNSGHVPTQYWIKALNDGIVRANPLPPDMWGSWTPHNPPQQWIEYRWAQPVTLDGSRIVFWADQPAGASVGVAPPARWHLQYRSGGRWLPVPHPSGYGTATGTPQEVRFDALSTRCLRAVFDAAGSGDAHAAVAVQEWEALAPQPQRPTPPPAAHGGEADACD				NA	NA	NA	NA	NA
BMS020_04548	2415			hypothetical protein	ATGCGCCAGCCCATCCCGTCCATGTCCGCGCCGGCAGGCGCCGAGCACCGCCACGGTGATGGGGCGTCGATCACCGATCCGGCGCGCCGGCGCTTCCTGCAGTGGAGCGCGCTGGCGGTGGCCGCCGGCATGCTGCGCTTTCCGCTCGACGCTGCGGCCTCCACCGCCGGCAAGGTCAGCGCGGTGCCGCTGCAGGACGTGCGGCTGAAGCCGTCGATCTTCCTGGATTCGCTCGACACCAACCGCCGCTACCTGTTCGAGCTCGAACCGGACCGGCTGCTGTGCAACTTCCTCAAGTACGCCGGGCTGGCGCCGAAGGGCGAAAGCTACGGTGGCTGGGAAGGCGACACGATCTCCGGGCACACGCTGGGCCACTACCTGAGCGCGTTGTCGAAGCTGCATGCGCAGACCGGCGACGCCGAGGCCAGGCACCGCATCGACCACATCGTCGCCGAGCTGGCGCGCGCGCAGGCCGCCGACAAGGATGGCTATGTCGGTGGCTTCACCCGCAAGACCGAGCAGGGCGCGATCGAGGGCGGCAAGGCGGTGATGGAGGACGTGCGCCGCGGCATCATCAAGGGCAGCAAGTTCAACCTCAACGGCAGCTGGTCGCCGCTGTACACCCAGCACAAGCTGTTCGCCGGGTTGCTCGACGCCAACGCGCTGGCCGGCAACGCGCAGGCACTGCAGGTGCTGCTGCCGATGGCCGGCTACTTTGCCGGAGTGTTTGACGCGCTCGACGATGCGCAGATGCAGACCCTGATGGACACCGAGTTCGGCGGCCTCAACGAGTCTTACATCGAGCTCGGCGCGCGCACCGGCGATGCGCGCTGGGTCGCGGTCGGCAAACGCCTGCGCCATGCCAAGGTGATCGACCCTGCCGTGGCCGGGCAGGACGCGCTGCCGCACATCCACGCCAATACCCAGGTGCCGAAGTTCATCGGCGAGGCGCGCCAGTTCGAGGTCGCCGGCGACGCCGACGCGGCCGCCGCCGCGCGCTTCTTCTGGGAGACGGTGACCCAGCACTACAGCTACGTGATCGGCGGCAACGCCGACCGCGAGTACTTCCAGGAGCCGGACACCATCGCCTCGTTCCTGACCGAGCAGACCTGCGAGCATTGCAACAGCTACAACATGCTCAAGCTGACCCGGCACCTGTACCAGTGGACGCCGCAGGCGCGCTATTTCGACTACTACGAGCGCACGCTGCACAACCACACGATGGCGGCGCAGCACCCGGCCACCGGCATGTTCACCTACATGACGCCGATGATCTCCGGCGCCGAGCGCGGCTGGTCGGACAAGTTCGATTCGTTCTGGTGCTGCGTCGGCAGCGGCATGGAGGCGCATGCGCAGTTCGGCGACTCGATCTACTGGCAGGACGGGCAGTCGCTGTACGTCAACCTCTACATCCCCTCGACGCTGGACTGGAAGGCCGGCGACTTCGCCCTGGTGCTGGACAGCGGCGTGCCCGACAACGGCCGCGTGCGCCTGCAGGTCACCCGTGCCGGCGCCAAGGCGCCGCGCCGGCTGCTGCTGCGCGTGCCGGCGTGGTGCGAGGGGGGCTATGCGCTCACGCTCAACGGCCGCAAGACCAGCGCCAAGCCGAGCGAGGGCTACCTGGCGCTGGAACGCGCCTGGAAGGCCGGCGACGTGGTCGAGCTCGCGTTCGCCACGCCGCTGCGGCTGGAGCACGCCGCCGGCGATGCCGACAGCGTGGTGGTGATGCGCGGCCCGCTGGCGCTGGCCGCCGATCTCGGCCCGGTCAGCGCGCCCTACGATGCGCCCGATCCGGCGCTGGTCGCCGACGTGTCGCCGTTGTCCGGGTTCAGCGAACTGCCCGAGCCGGGCCGCTTCCTGGCCAGCACCACGCGCCCGCAGGCGCTTGAGTTCGCCCCGTTCTATGCCCAGTACGACCGCCGCAGCGCGTTGTACTTCAAGCGCATGGATTCGCGCCAATGGAGCGAGGAGGCCGAGCGCCGCAGCCGCGCCAAGGCCGAGCACGCCGCACTGCTGGCCAGTGCGGTGGACATGATCCAGTTCGGCAACGAGGCCTCGGAACAGGCGCACAAGCTCACCAGCGACACCTCGTTCGGCGGAGCCTACCGCCGCCAGGAATGCCGCGACGTGCGCGGCAAGGGCTTCGTCGAGTTCCAGATGCAAGGCAGCGACGTGCCGCTGGCGCTGCGGTTGCGCTTCTGGGGCAGCGACAAGGGCCGCTTCAACATCCTGGTCAACGGCACGTTGGCGGTCGAGGTCAAGGTGGAGCGCGGCCAGGTGATCGACTTCGTCGACCACGATTATCCACTGCCGCCGGCGCTGACCCGTGGACGCAAGACGCTGACGCTGCGCTTCGAGCCGCAGGGCGGCGACACTGCCGGCCCGCTGTTCGGCGGGTGGCTGATCCCGGCCTGA	MRQPIPSMSAPAGAEHRHGDGASITDPARRRFLQWSALAVAAGMLRFPLDAAASTAGKVSAVPLQDVRLKPSIFLDSLDTNRRYLFELEPDRLLCNFLKYAGLAPKGESYGGWEGDTISGHTLGHYLSALSKLHAQTGDAEARHRIDHIVAELARAQAADKDGYVGGFTRKTEQGAIEGGKAVMEDVRRGIIKGSKFNLNGSWSPLYTQHKLFAGLLDANALAGNAQALQVLLPMAGYFAGVFDALDDAQMQTLMDTEFGGLNESYIELGARTGDARWVAVGKRLRHAKVIDPAVAGQDALPHIHANTQVPKFIGEARQFEVAGDADAAAAARFFWETVTQHYSYVIGGNADREYFQEPDTIASFLTEQTCEHCNSYNMLKLTRHLYQWTPQARYFDYYERTLHNHTMAAQHPATGMFTYMTPMISGAERGWSDKFDSFWCCVGSGMEAHAQFGDSIYWQDGQSLYVNLYIPSTLDWKAGDFALVLDSGVPDNGRVRLQVTRAGAKAPRRLLLRVPAWCEGGYALTLNGRKTSAKPSEGYLALERAWKAGDVVELAFATPLRLEHAAGDADSVVVMRGPLALAADLGPVSAPYDAPDPALVADVSPLSGFSELPEPGRFLASTTRPQALEFAPFYAQYDRRSALYFKRMDSRQWSEEAERRSRAKAEHAALLASAVDMIQFGNEASEQAHKLTSDTSFGGAYRRQECRDVRGKGFVEFQMQGSDVPLALRLRFWGSDKGRFNILVNGTLAVEVKVERGQVIDFVDHDYPLPPALTRGRKTLTLRFEPQGGDTAGPLFGGWLIPA	PGPT0019100_404	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
BMS020_04549	1584			hypothetical protein	ATGAAGCACGACCCGTGGCAGCACCCGCGCATGGCGCGCACATGGACCTGGGCGCTGGCGTTGCTGGGCGCGATGACACTGTTGCTGGGCGGCTGCACGCGCGCGCCCGAGGCACCCGCCGAAGCCGCGGGCCCCGGCGAGCTTGCCGGCGTCTGGGTGATCCACGACGGTCCGGCGTTTCCCGGGCCGCGCATGCTGCGCATCGTGCAGGACCGCAACGGCCTGCACGGCGCGATCACCAGCGACTGGTACGGCGACCTGCCGATGGACCAGCTGCGCATCGAGGGCGACAGCGCGCATTTCATGATCGACAACGGCAACGCCAAGCTTCCGGCCAAGCCATGGACGGCGACTTTGCAGGGCGACACGCTGCGCATCGTCGGCGACATCTGGTCCACCCACGTGGACGTACGCGCGACCCGCGGCACCGCGGCCGATGCTGCGCGGCTGGCGTTCCCACCCGAGGCCTTGCCGGCGTGGCAGCCGCTCGCGGTCGATGGCCTGGCGGCGACGCCGCCGATGGGCTGGAGCAGCTGGAACAAGTTCGCCGACCGGATCGACGACGCCACCATCCGCGGCATCGCCGATGCGATGGTCGCCTCCGGGCTGCGCGATGCCGGGTATGTCTACGTCAACATCGACGACGGCTGGCAGGGTGAGCGCGATGCCGACGGCGTGCTGCAGCCGAACGCGCATTTCCCCGACATGAAGGCGCTGGCCGACTACGTGCATGCGCGCGGATTGAAGCTGGGCATCTACAGCTCGCCGGGGCCGAAGACCTGCGCCGGCTACGTCGGCAGCTATGGCCATGTCGAGCAGGATGCGAAGACCTGGGCGGGGTGGGGCATCGACTACCTCAAGTACGACCTGTGCTCGGGCGAGGGCATCTTCCGCAAGCCCATCGACGTGCGACGCGCCTACCTGAAGATGGGGCTGGCGCTGCGTGCGACCGGGCGCCCGATCGTCTACAGCCTGTGCCAGTACGGCCGCGACAATGTCGGCAGCTGGGGCCGCGAGGTCGGCGGGCACCTGTGGCGCACCACCGGCGACATCGAGGACACCTACCCGGCGATGGCGCGGATCGGCTTCGACAGGAACGGCGATCCGGGCCATGCCGGGCCGGGCGGTTTCAACGATCCGGATATGCTCGAGGTCGGCAACGGCGGCATGCACGACGACGAGTACCGCACGCACATGACATTGTGGGCCATGCAGGCCGCGCCACTGCTGCTCGGCAACGACCTGCGTGCGATGACGCCGGCGACGCTGGCGATGCTGCGCAATCGCGCGGTGATCGCCGTGGACCAGGACCGGCTCGGGCGACAGGGGCATCGCGTGCGCGTCGACGGCGACATCGAGATCTGGCACAAGCCGCTCGCCGATGGCGCCCTGGCGATAGCGGTGTTCAATCGCGACGACGCGCCGGCGCGCGTTGCGCTGGATGCCGCCACGCTGGGTGCGACGGTCGCCGGCATGCGCGAGGTGTGGAGCGGCAAGGCGGTGACGCCAGCTTCCCACGATGTGCAGGTTGCCGCGCACGGCGCACTGTTGCTGCATGCGCGGGATAGCAAGAAAGCGCCTTGA	MKHDPWQHPRMARTWTWALALLGAMTLLLGGCTRAPEAPAEAAGPGELAGVWVIHDGPAFPGPRMLRIVQDRNGLHGAITSDWYGDLPMDQLRIEGDSAHFMIDNGNAKLPAKPWTATLQGDTLRIVGDIWSTHVDVRATRGTAADAARLAFPPEALPAWQPLAVDGLAATPPMGWSSWNKFADRIDDATIRGIADAMVASGLRDAGYVYVNIDDGWQGERDADGVLQPNAHFPDMKALADYVHARGLKLGIYSSPGPKTCAGYVGSYGHVEQDAKTWAGWGIDYLKYDLCSGEGIFRKPIDVRRAYLKMGLALRATGRPIVYSLCQYGRDNVGSWGREVGGHLWRTTGDIEDTYPAMARIGFDRNGDPGHAGPGGFNDPDMLEVGNGGMHDDEYRTHMTLWAMQAAPLLLGNDLRAMTPATLAMLRNRAVIAVDQDRLGRQGHRVRVDGDIEIWHKPLADGALAIAVFNRDDAPARVALDAATLGATVAGMREVWSGKAVTPASHDVQVAAHGALLLHARDSKKAP	PGPT0018835_2364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407	NA	NA
BMS020_04550	2871	btuB_4		Vitamin B12 transporter BtuB	ATGTCGTTCCATCCGTATCTTCCCGTCGCCCGCCCGCGCCGCCTGAGCGCCGCCATCGCCGCGGGCCTGGCATTGGCCGCCAGCGGCGCCGCGTTCGCCCAGGACACGGCCGACGCGGGCGCACCGCAGACCCTCGACAGCGTGGTGGTGACCGGCTCGCGCCTGCGCCGCGTCGATACCGAGACCGCCAACCCGGTGGTCACGGTCAGCGCCGAGCAGATCGCGGCGACCGGCAAGGCCACCGTCGGCGACCTGCTGCAGGAGCTGCCGTCGATCGCCGGCAACGCGACCAACGCCAACACCAACAACGGCGGCGGCACCGGCGCGGCGACGATCTCGCTGCGCGGTCTCGGCGAGAAGCGCACGCTGGTGCTGGTCAACGGCATCCGCCTGGCCTACAACGACGTCAACGCGATCCCGGCGACGATGATCGAGCGCATCGAAGTGCTCAGCGACGGCGCATCGGCGGTGTACGGCTCGGATGCGATCGGCGGCGTGGTCAACTTCATCCTGCGCGACAAGTTCGAGGGCGTGCAGTTCAGTTCCGACTTCGGCACCAGCTGGAAGAGCGACGGCAACCGCCGCAACTTCTCGCTGACCGCCGGCAAGGCCTGGGACCGCGGCAGCCTGGTCGGCGGCTTGTCGTACCACAACATCGACTCGGTCTCGGCCGGCGCGCGCGACTACTCCAAGGACGCGCTGTACCTGATCGACGGCGTCGGGGTGAAGCAGGGTTCGTCTGCCACTCCGACCGGCTCGGTCAACTTCAACGACGGCTCCGACGCCTCCACAGCGCTGGCCGCGGCCAACGGCTGTTCGCGCGTCACCCTCAACGACGGGGTCAGCGGCACCGCCGGCGCCAGCGACTTCCATTGCTACAGCGCCGCCAACGATTCCTACAACTACCAGCCGTACAACCTGCTGCAGACGCCGCAGAAGCGCACCAACGCGTTCCTGCTCGGCACCTACCGCATCACCGACAACATCGAAGCCTACGTCAACACCTGGTTCAGCAAGACCGAGTCGGCCTCGGTGATCGCGCCGATCCCGATCTTCGCCAACGGCGACAACTTCCTGGTCTCGGCCGACAGCTACTACAACCCGTACGGGGTGAATTTCGGCACCGATCGCACCACGGGTACCTCGTACAACGACCTCAACACCCGCATCACCGCGCTCGGCAACCGCCGCTACGAGTACAACACCTACAACTTCCAGATCAGCCCCGGGCTGCGCGGCAGCTTCGGCGACAGCTCCTGGCAGTGGGACGCCAACCTCAACTACGGCCGGGTCAAGCAGAAGTCGATCAACTACGGCTTCCTGAACTACGAGAAGTTCAACCAGGCGGTCGGCGCCTCGTTCCTGGATAGCGATGGCACGGTCAAGTGCGGCAGCGCCGGCAACGTGATCGCCGACTGCACCCCGGTCAACATCTTCAACATCAATGATCCGTCCAACACCGCCGCGCTGGAGGCGATGATCGTCAATCCGATCGTCACCAGCATCTACACGGTCAAGCAGTTCGAGGCCAACGCCAACGGCAGCCTGTTCGAGCTGCCGGCCGGCACCGCCAGCCTGGCTGCCGGCATTTCCTACCGCAAGGAGGACACCACCACGCACGCCGATCCGCTGTGGACCGGCGATGAGAACGGCCTGTGCGGGGTGATCGAATTCTGCGCCTCGGTGCTCAGCGGCAGCTTCAACGTCAAGGAGGCCTATGCCGAGGCGCTGTTCCCGCTGTTGAAGGACCTGCCGGCGATCAATGCGCTGAACCTGACGGTCGGCACGCGCTTCTCCGACTACAGCTCGGTCGGCAGCAAGACCAACAGCAAGCTGTCGATCGAATACCGTCCGGTCGAGGACCTGCTGCTGCGCGGCACGGTCTCGCAGGTGTTCCGTGCGCCGAACATCAGCGAGCTGTATTCGGGCGTGGTCGGCGATGCCGCCACGGTCAACGATCCCTGCAACGGCTATACCGGCGGGCACGAGGCGGCCTGTGCCAACGTGCCGACCGATGGCAGCTACCAGCAGGCCGATGGGCAGATCTCCGGCAAGGCCTCCGGTGCGGCGGTGGCGGGCTACCAGCTCAAGCCGGAGACCGGCAAGTCCTACGACGTCGGCTTCGTCTACGACCCGAAGTGGATCGACGGGCTGTCGCTGAGCGCCGACTGGTGGCGCATCGACCTGGAAGACACCATCACCACGGTGTCGGCGCAGACCGTGCTGAACCAGTGCTATGCCAACTCGGCCAGCGCGTTCTGCGCGCTGATCCACCGCAACGGCAACGGCACCATCAACTACGTCGCCGAGCCGACCGTGAACCTGGGCAAGCTGTGGGCGCGCGGCATCGACTTCAACCTGACCTACCGCCTGCCGGAGACCGGCTGGGGCCGCTTCACCACCAGCCTCAACGGCACCTACCTGACCCGCTACGACATCCTGCCCGACACCACCGACCCGAGCACGGTGACGATCCACAACGTCGGCAAGTTCACCTATTCGTACGGCAACTTCCCGCGCTGGCGCGCGCTTGGCACGCTCGGCTGGAACCTCGGCGACTGGAGCGCGTCGTGGCGGGTGCGCTATGTCGGCAAGACCCAGATCGGCAGCAGCGACCTGGATCAGGGCCTGTCGGCCGATTACGACCAGGCCGGCGTGGTGCGCAAGATCGGCGCCTACGTCTACAACAACGTGCAGGCCGGCTACAACTTCGACCGCTGGCACACCCGCTTCGAAGTCGGCGTGGACAACATCGCCAACAAGCAGCCGCCGTTGTACTACGCCAACAACGTCACCAACGCCAACACCGACGTGGCGACCTACGATCTGCTGGGGCGCTACTACTGGGCGCGCATGACCGTGCAGTTCTGA	MSFHPYLPVARPRRLSAAIAAGLALAASGAAFAQDTADAGAPQTLDSVVVTGSRLRRVDTETANPVVTVSAEQIAATGKATVGDLLQELPSIAGNATNANTNNGGGTGAATISLRGLGEKRTLVLVNGIRLAYNDVNAIPATMIERIEVLSDGASAVYGSDAIGGVVNFILRDKFEGVQFSSDFGTSWKSDGNRRNFSLTAGKAWDRGSLVGGLSYHNIDSVSAGARDYSKDALYLIDGVGVKQGSSATPTGSVNFNDGSDASTALAAANGCSRVTLNDGVSGTAGASDFHCYSAANDSYNYQPYNLLQTPQKRTNAFLLGTYRITDNIEAYVNTWFSKTESASVIAPIPIFANGDNFLVSADSYYNPYGVNFGTDRTTGTSYNDLNTRITALGNRRYEYNTYNFQISPGLRGSFGDSSWQWDANLNYGRVKQKSINYGFLNYEKFNQAVGASFLDSDGTVKCGSAGNVIADCTPVNIFNINDPSNTAALEAMIVNPIVTSIYTVKQFEANANGSLFELPAGTASLAAGISYRKEDTTTHADPLWTGDENGLCGVIEFCASVLSGSFNVKEAYAEALFPLLKDLPAINALNLTVGTRFSDYSSVGSKTNSKLSIEYRPVEDLLLRGTVSQVFRAPNISELYSGVVGDAATVNDPCNGYTGGHEAACANVPTDGSYQQADGQISGKASGAAVAGYQLKPETGKSYDVGFVYDPKWIDGLSLSADWWRIDLEDTITTVSAQTVLNQCYANSASAFCALIHRNGNGTINYVAEPTVNLGKLWARGIDFNLTYRLPETGWGRFTTSLNGTYLTRYDILPDTTDPSTVTIHNVGKFTYSYGNFPRWRALGTLGWNLGDWSASWRVRYVGKTQIGSSDLDQGLSADYDQAGVVRKIGAYVYNNVQAGYNFDRWHTRFEVGVDNIANKQPPLYYANNVTNANTDVATYDLLGRYYWARMTVQF	PGPT0003790_4313	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_04551	2958			hypothetical protein	ATGAAGAAGAACGTGTTCAACACGCAGAAGGCGCTGGCCAATGGCCTGCGTCGGGGAGCGCTGACGCTTGCAATCGCCGTTGGCGTTGCCGGTGTGGCGCATGCGCAGAGCGCCACCGGCGAGCTGTACGGGCAGGTGGCCGGCGGCCAGGCGGGAAGCGTCGTGGTGCAGAACAGCGACAACGGCTTCACGCGGACCTTGCCGCTGGATGCCGATGGCAAGTTCCGCCTCAGCGCGCTGCCGCCGGGCAGCTATACGGTGACCCTGAAGGGCGCCGACGGCGCGGTGGTCTCCACGCGCAAGGCGCGGGTAAGCGTCGGCAGTGGCGCGCAGGTGGATTTTGCCACGGGCAGCAGCGCCACCACGCTCGACGAGGTGACGGTCCGCGCCAGCGCCAGTTCGCGCATCGATGTGAGTTCGGCCGAAAGCAGCTCGATCTACACCGCCGAGGAGCTGGCACGGCTTCCGGTGGGGCGCGACGTGATCTCGGTGGCGGCGTTGACGCCCGGGGTCAGCCGTGGCTCGGGCAGCTTCGGCAACCTGCCGGTGGTGGCCGGTGCCTCGGCGCAGGAGAACGGCTATTACGTCAACGGCTTCGACGTCACCGACCTGTACAAGATGTCCGCCTACAGCATGGTGCCGTTCGACGCGGTCGCCGAACAGCAGGTCAAGACCGGCGGCTACCCGGCCGATTTCGGCCGTTCGCTCGGCGGCGTGGTCAACGTGGTCACCAAGTCCGGCACCAACGAATTCCATTACGGCATCAGCAGCTATTTCGAGCCGGACGCGCTGCGCAGCAGCCAGCGCAACACGCTCAGCAAGAGCACCGATGGCTGGTACGCGCATCCTTCCAACGACACCGAGGACAAGGCCGAGCTCGACCTGTGGGCCAGCGGCCCGATCGTGAAGGACAAGCTGTTCTTCTTCGCGTTGCTGAAGACCAAGTACGAGGAATCGCAGAGCTACGGCACCACCACCGATCCGAGCAAGTACACCAAGACCTTCGACAACGATCCGGAAGGCATCGTCAAGCTCGACTGGAACATCAACGATGCCAACAGCCTGGGCTTGACCTGGTGGCGCGACTACAGCGTCGACCACTACACCTACTACAAGCTGGCCGACGACTTCTCCACCAGCAAGTCCAGCCGCAGCGGCGATGGCTGGCAGGCCAGCGGCGGTGCGGTCACCATCCTCAACTGGACCAGCTACCTGACCGATGCGCTGACGATGAAGGCGATGGTCGGCAAGTCGAGCTATTCGCGCGAGTCCTACGACAGCAATACCGCCGACTGCCCGGTGGTGCGCGACTACCGCGACGGGTCCGGCACCGCGCTGGGCTGCTGGACCACCAGCTCGCGGCCGGGCGACGGCATCTGGATCGGCGACAAGCGCAACGCCGCGCGGCTGGATTTCGACTGGCAGCTCGGCGATCACGACGTCAAGTTCGGCCTGGACTACGAGAAGTTCACCAGCACCGCGTCCTCGGAATACTCCGGCGGCGCCCGCTACTACTATTACGCGGTCGATCCGGGCGACAGCCTCGGCAGCGGCGTCACCGTGCCGGATGGCGTCACCGACGTGGTGCGGGTGCGCACCTTCCGCAACGGCGGCACTTTCACCACCTACAACACCGCCGCCTACCTGTCCGACGACTGGCAGTTGAACGACAAGCTGCACCTGTCGCTGGGCCTGCGCAACGAGGGCTTCGACAACCGCAACGCCGCCGGCGAGACCTTCATCAAGTCCGACAACCTGTGGTCGCCGCGGCTGGGCTTCGCCTATGACCTGTTCGGCGATTCCAGCTTCAAGCTGTACGGCAGCCTGGGGCGCTACTACATCCCGATCCCGACCAACACCAACATCCGCCTGGCCGGCAACGAGTACGACGTGTCGCAGTGGTACACCTACAGTGCGATCGACGGCACCACCGGCGCGCCGACGCTCGACACGCTGCTCGGCACGGTGGTCAACTCCGACGGCTCGGTGCCCGACACCGCGCAGGTCACCGCCGCCAACCTGAAGCCGATGTACCAGGACGAGCTGATCGTCGGCTTCGAGCAGGCGATCTGGAACAACTGGATCTGGGGCCTGAAGGGCACCGCGCGCAAGGTCGGCAACGGCATGGACGACTACTGCTATTCCGGGCTGGTGCAGGCCTGGGGCGAGGCCAAGTACGGCTCCGGGTTCGATGCCAGCGCGTTCGACAACTGCGTGCTGATCAACCCGGGTGAAGACACCGAGTGGTACGCCAACATCGACGGCGAGCTGACCAAGATCACCATCCCGGCCAGCGTGTTCGGCGTCGACACCTACAAGCGCATCTACTACGGGCTTGGCCTGACGTTGAGCCGCCCGTGGGACGGCAAGTGGAGCCTCAACGGGTCCTACACCTGGTCGCACAACTACGGCAATGCCGAGGGCTACAGCCTGACCACGATCGGGCAGGACGATGCTGGCATCAGCGAGGCCTATGACTATCCGTCGTTGATGTCCGGTGCCAGCGGCAACCTCAACAACGACCGCCGCCATGTGTTCAAGGTGTTCGGGACCTACCAGCTGACCGACAGCATCCGCCTGAAGGGTTCGGCGTCGGCGATGAGCGGCACGCCCAAGCTGTGCCTGGGCTACGTGCCGGACGGCTATGCCGACTCGTCCGACGCGCAGGGCTACGGTTCGGTCTCGTACTACTGCGGTGGCACGCTGCATCCGCGCGGGTCGATGGGGCGCACGCCATGGACCTACAACATGGATGCGGGCGCGGAGTACCAGCGTGACTGGAAGGGTGGTTCGCTGGTGGTCGGGCTGGACGTGTTCAACGTGTTCAACTTCCGGCGTCCGACGTACTACTACTACTATCACGACGAGACGCTGAGCACCGAGGATGCGAACTACGGCACGGTGACCTACTACCAGGATCCGCGGTATGTGCGCCTGACCGCGCGTTGGTCGTACTGA	MKKNVFNTQKALANGLRRGALTLAIAVGVAGVAHAQSATGELYGQVAGGQAGSVVVQNSDNGFTRTLPLDADGKFRLSALPPGSYTVTLKGADGAVVSTRKARVSVGSGAQVDFATGSSATTLDEVTVRASASSRIDVSSAESSSIYTAEELARLPVGRDVISVAALTPGVSRGSGSFGNLPVVAGASAQENGYYVNGFDVTDLYKMSAYSMVPFDAVAEQQVKTGGYPADFGRSLGGVVNVVTKSGTNEFHYGISSYFEPDALRSSQRNTLSKSTDGWYAHPSNDTEDKAELDLWASGPIVKDKLFFFALLKTKYEESQSYGTTTDPSKYTKTFDNDPEGIVKLDWNINDANSLGLTWWRDYSVDHYTYYKLADDFSTSKSSRSGDGWQASGGAVTILNWTSYLTDALTMKAMVGKSSYSRESYDSNTADCPVVRDYRDGSGTALGCWTTSSRPGDGIWIGDKRNAARLDFDWQLGDHDVKFGLDYEKFTSTASSEYSGGARYYYYAVDPGDSLGSGVTVPDGVTDVVRVRTFRNGGTFTTYNTAAYLSDDWQLNDKLHLSLGLRNEGFDNRNAAGETFIKSDNLWSPRLGFAYDLFGDSSFKLYGSLGRYYIPIPTNTNIRLAGNEYDVSQWYTYSAIDGTTGAPTLDTLLGTVVNSDGSVPDTAQVTAANLKPMYQDELIVGFEQAIWNNWIWGLKGTARKVGNGMDDYCYSGLVQAWGEAKYGSGFDASAFDNCVLINPGEDTEWYANIDGELTKITIPASVFGVDTYKRIYYGLGLTLSRPWDGKWSLNGSYTWSHNYGNAEGYSLTTIGQDDAGISEAYDYPSLMSGASGNLNNDRRHVFKVFGTYQLTDSIRLKGSASAMSGTPKLCLGYVPDGYADSSDAQGYGSVSYYCGGTLHPRGSMGRTPWTYNMDAGAEYQRDWKGGSLVVGLDVFNVFNFRRPTYYYYYHDETLSTEDANYGTVTYYQDPRYVRLTARWSY				NA	NA	NA	NA	NA
BMS020_04552	1023			hypothetical protein	ATGGGGTTTGATCGGCAATGCGGCTGGCAGCGTTTCGCCCGGCTCGGCCTGCTCCTCGCGGTGCTGGCCGGGGGCGCGGTGGCCGCGGAGGCGGGCACCGATTTCGCGCCCGGCGCGCTGTGGCACGACAGTGCCGGGAAGGTGATCAACGCGCATGGTGCCGGGCTGCTGCGCGATCGCGATGGCGACTACTACTGGTTCGGCGAGCACAAGACGGGCGGGCGCGGCGGCAACACCGCGCACGTCGGGGTCGGGGTGTACCGCTCGCGCGACCTGCTGCACTGGGACAACCTCGGCGTCGCGCTGGCGGTCTCGACCGACCCGCGCAGCGACATCGCCGACGGCGCGGTGATCGAACGCCCCAAGGTGCTCTACAACGCGGCGACGCGGCGCTACGTGATGTGGTTCCACCTCGAGCGCGCCGGCAACGGCTACAAGGACGCGCGGGTGGGCGTGGCGGTCGCCGATGCGCCGGCCGGGCCGTACCGCTACCTGTCCTCGTTCCAGCCCAACGGCCAGCAGTCGCGCGACATGACGCTGTTCCAGGACGACGACGGCAGCGCGTACCTGTTCTACAGCTCGGAAGGCAACGCGACGATGCACGTCACGCGCCTGCGCGCCGACTACCTGGACACTGAAGCGGCGTACACGCGGATCTTCGTCGACCAGTGGCTGGAGGCCCCGGCGCTGTTCAAGCATGCCGGGCGCTACTACTTCCTCGGCTCGGAATGCACCGGCTGGAAGCCGAACGCCGCGCATGCGGCGAGCGCACCGTCGCCGCTGGGGCCATGGACCGAATTCGGCAACCCAGCCAAGGGCGAGGATGCCGCGCTGACGTTCCACAGCCAGAGCGCTTACGTACTGCCTTGGCCGGACGCGCCGGGGCGTTTCATCTACATCGGCGACCGCTGGAACCCGGAGGACGCGATCGACGGCCGCTACGTGTGGTTGCCGATCACGCTGGAAGGTACGGGCTTCCGCATCGACTGGCACGAGCGTTGGAACCTGCAGCCGGCGCGGTAG	MGFDRQCGWQRFARLGLLLAVLAGGAVAAEAGTDFAPGALWHDSAGKVINAHGAGLLRDRDGDYYWFGEHKTGGRGGNTAHVGVGVYRSRDLLHWDNLGVALAVSTDPRSDIADGAVIERPKVLYNAATRRYVMWFHLERAGNGYKDARVGVAVADAPAGPYRYLSSFQPNGQQSRDMTLFQDDDGSAYLFYSSEGNATMHVTRLRADYLDTEAAYTRIFVDQWLEAPALFKHAGRYYFLGSECTGWKPNAAHAASAPSPLGPWTEFGNPAKGEDAALTFHSQSAYVLPWPDAPGRFIYIGDRWNPEDAIDGRYVWLPITLEGTGFRIDWHERWNLQPAR	PGPT0017815_33	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308	NA	NA
BMS020_04553	1905	htpG_2	COG0326	Chaperone protein HtpG	ATGACCGAAGAGACCCACAAGCAGACCCTGGGCTTCCAGACCGAGGTCAAGCAGCTGCTGCAGCTGATGATCCACTCGCTGTACTCCAACAAGGAGATCTTCCTGCGCGAGCTGGTGTCCAACGCCGCCGACGCCGCCGACAAGCTGCGCTTCGAGGCGATCGCGCAGCCGGGCCTGCTCGAGGACGACCCGACCCTGCGCATCCGCGTCACGTTCGACAAGGACGCGCACACCGTCACCATCGACGACAACGGCATCGGCATGAGCCGCGACGAAGCCGTCGCGCACCTGGGCACGATCGCCAAGTCCGGCACCGGCGACTTCCTCAAGGCGCTGTCGGGCGACCAGCGCAAGGACGCCAACCTGATCGGCCAGTTCGGCGTCGGCTTCTACAGCGCGTTCATCGTCGCCGACCAGGTCGACGTCTACAGCCGCCGCGCCGGCCTGCCGGCCGCCGAGGGCGTGCACTGGTCCAGCCGTGGCGAAGGCGACTTCGAGGTCGCCACCATCGACAAGCCCGAGCGCGGCACCCGCATCGTGCTGCAGCTGAAGGACGCCGAGCACGACTACGCCGACGGCTGGAAGCTGCGCGGCGTGCTGAAGAAGTACTCCGACCACATCGGCCTGCCGATCGAGATGCGCAAGGAGCATTACGGCGAAGACGCCGACAAGCCGGAACAGCCGGAGTGGGAGCCGGTCAACAAGGCCAGCGCGCTGTGGACGCGGCCCAAGTCCGAGGTCAAGGACGAGGACTACCAGGAGTTCTACAAGCACATCGCCCACGACAGCACCAACCCGCTGGCGTGGAGCCACAACAAGGTCGAGGGCAAGCTCGAGTACACCTCGCTGCTGTACCTGCCCGCCCGCGCGCCGTATGACCTGTACCACCGCGACGCCGCCAAGGGCCTGAAGCTGTACGTGCAGCGCGTCTACATCATGGACCAGGCCGACCAGTTCCTGCCGCTGTACCTGCGCTTCGTCAAGGGCGTGGTGGATTCGGCCGACCTGTCGCTGAATGTCTCGCGCGAGATCCTGCAGGCCGGCCCGGTGGTCGACTCGATGAAGTCGGCGCTGACCAAGCGCTCGCTCGACATGATCGAGAAGCTGGCCAAGGACAAGCCGGAGGAATACGCCACCTTCTGGCGCAACTTCGGCCAGGTGCTGAAGGAAGGCCCGTCCGAGGACTACGCCAACCGCGAGAAGATCGCCGGCCTGCTGCGCTTCTCCTCCACCCATGACGGCAGCGGCGCGCAGAGCGTGGCGCTGGCCGACTACGTGGGCCGCCTGAAGGAAGGCCAGGACAAGCTGTACTACCTGACCGGCGAGAGCTACCAGCAGATCAAGGACAGCCCGCACTTGGAAGTGTTCCGCAAGAAGGGCCTGGAAGTGCTGCTGCTGACCGATCGCATCGACGAATGGCTGATGGGCTACCTGACCGAGTTCGACGGCAAGTCGTTCGTCGACGTCGCCCGCGGCGACCTCGACCTCGGCGCGCTCGATTCGGAGGACGACAAGAAGGCGCAGGAAGAAGTGGCCAAGACCAAGGAAGGGCTGGCCAGCCGGATCAAGGCCGCGCTCGGCGACGACGTCGCCGAGGTGCGCGTGTCGCACCGCCTGACCGATTCGCCGGCGATCCTGGCGATCGGCCAGGGCGACCTGGGCCTGCAGATGCGCCAGATCCTCGAAGCCAGCGGCCAGGCGGTACCGGAAAGCAAGCCGGTGTTCGAGTTCAACCCAGGCCACCCGCTGATCGAGAAGCTCGACGCCGAACAGGACATGGACCGCTTCGCCGACTTCAGCCGCGTGCTGTTCGACCAGGCCGCGCTGGCCGCCGGCGACAGCCTCAAGGACCCGGCCGGCTACGTGAAGCGGCTCAACAAGCTGCTGCTGCAGCTGTCGGCCTGA	MTEETHKQTLGFQTEVKQLLQLMIHSLYSNKEIFLRELVSNAADAADKLRFEAIAQPGLLEDDPTLRIRVTFDKDAHTVTIDDNGIGMSRDEAVAHLGTIAKSGTGDFLKALSGDQRKDANLIGQFGVGFYSAFIVADQVDVYSRRAGLPAAEGVHWSSRGEGDFEVATIDKPERGTRIVLQLKDAEHDYADGWKLRGVLKKYSDHIGLPIEMRKEHYGEDADKPEQPEWEPVNKASALWTRPKSEVKDEDYQEFYKHIAHDSTNPLAWSHNKVEGKLEYTSLLYLPARAPYDLYHRDAAKGLKLYVQRVYIMDQADQFLPLYLRFVKGVVDSADLSLNVSREILQAGPVVDSMKSALTKRSLDMIEKLAKDKPEEYATFWRNFGQVLKEGPSEDYANREKIAGLLRFSSTHDGSGAQSVALADYVGRLKEGQDKLYYLTGESYQQIKDSPHLEVFRKKGLEVLLLTDRIDEWLMGYLTEFDGKSFVDVARGDLDLGALDSEDDKKAQEEVAKTKEGLASRIKAALGDDVAEVRVSHRLTDSPAILAIGQGDLGLQMRQILEASGQAVPESKPVFEFNPGHPLIEKLDAEQDMDRFADFSRVLFDQAALAAGDSLKDPAGYVKRLNKLLLQLSA	PGPT0014640_2254	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-PR1_LIKE_PROTEINS,PGPT0014640-hptG-K04079	NA	NA
BMS020_04554	642	rsmD_2	COG0742	Ribosomal RNA small subunit methyltransferase D	ATGCCCCGTCCGCCCCGCCATGCCAGTCCTCCGCCACGCCCGGGCCAGTCCGGGGCAGGGCAGGTGCGCATCGTCGGCGGGCGCTGGCGCAACACCCGGCTCGAGGTGCCGGTGCTGCCGGGGCTGCGGCCGACCAGCGATCGCGTGCGCGAGACCCTGTTCAACTGGCTGATGCCGAAGATCGCCGGCGCGCGCGTGCTCGACCTGTTCGCCGGCAGCGGCGCGCTCGGGCTGGAGGCGGTGTCGCGCGGGGCGGCCTCGGCGCTGCTGGTCGAACGTGATCCGGCGCTGGTCGCGCGTCTGCGCCAGCACGTCGAGCGGCTCGGCGCCGGCGAGCAGGTGCAGGTGGTGCAGGCCGATGCGCTGGCCTGGCTGCGCCAGCCGGGCGCGGACGGGTTCGACCTGGCGTTCGTCGACCCGCCGTTCGCCGACGGCCTGTGGGGCGCCGTGTTGGAGGCGCTGCCGGCGCGGCTGGCTGCCGATGCCTGGCTGTACCTGGAAGCGCCGCCCGGCGCCGCGGCGACCCCGCCGGCGGAGTGGGCGCCGCATCGCGAGGGCAGCACCCGCGAGGTGCGCTATGCGCTGTACCGGCGGGCCGCTGGTACACTGCGCGACGACCTGAATCCGACTGCCGCCGTATGA	MPRPPRHASPPPRPGQSGAGQVRIVGGRWRNTRLEVPVLPGLRPTSDRVRETLFNWLMPKIAGARVLDLFAGSGALGLEAVSRGAASALLVERDPALVARLRQHVERLGAGEQVQVVQADALAWLRQPGADGFDLAFVDPPFADGLWGAVLEALPARLAADAWLYLEAPPGAAATPPAEWAPHREGSTREVRYALYRRAAGTLRDDLNPTAAV				NA	NA	NA	NA	NA
BMS020_04555	507	coaD_2	COG0669	Phosphopantetheine adenylyltransferase	ATGACCGTGGCCAACAGCCGCATCGCCGTCTATCCCGGGACCTTCGATCCCATCACCAATGGCCATATCGACCTGGTCAGCCGGGCCGCGCCGTTGTTCGAGCGGGTCGTGGTCGGCGTCGCCCAGAGCCCGTCCAAGGGCCCGTCGCTGACGCTGGAACAGCGCGTCGGCCTGGCGCGCGAGGCGCTGGGGCGCCACGCCAACGTCGAGGTGCGCGGGTTCGACACGCTGCTGGCGCATTTCGTCCGCGATGTCGGCGCCGGCGTGCTGCTGCGCGGCCTGCGCGCGGTGTCCGATTTCGAGTACGAGTTCCAGATGGCGAGCATGAACCGGCATCTGATCCCCGAGGTCGAGACCCTGTTCCTGACCCCGGCCGAGCAGCACAGCTTCATTTCTTCGTCGCTGGTCCGCGAGATCGCGCGGCTCGGCGGCGACGTCTCCGGCTTCGTGCCGGCGTCCGTGGTCGAGGCGCTGCGCGAGCTGCGCGAAGCCCGGGCGAAGGCCTGA	MTVANSRIAVYPGTFDPITNGHIDLVSRAAPLFERVVVGVAQSPSKGPSLTLEQRVGLAREALGRHANVEVRGFDTLLAHFVRDVGAGVLLRGLRAVSDFEYEFQMASMNRHLIPEVETLFLTPAEQHSFISSSLVREIARLGGDVSGFVPASVVEALRELREARAKA	PGPT0008825_824	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
BMS020_04556	498			hypothetical protein	ATGAAGACCACCATGCGCGCCCTGGCGCTCGCGACGATGACCACGCTGGCGCTGGCCGCCTGCAAGAAGGAAGAGGCCGCCGCCCCGGTCGCCGACGCCGCGCCGGCGTTGACCGTGCCGGGCAAGGACGACAACAACGGCTGGAAGCAGTACCTGCCGGCCGTGGTTGGCCAGAACATGGGCAGCGTCACCAACAACCCGTACCTGTACTACCTGCCGCCGCAGTCGGACCCGCAGTTCGATGGCAGCTACGAGCGCCAGCTCGAGAGCGTGAAGACCGCACTGACCCGTGGCGTGCAGCCGGGCAACATGCTGGCCTTCGGCTCCTCGGCCTCGGCCAAGATGGCCGACCTGATCGAAGCCGCGTTCAAGGACGTGCAGGCCGATTCGATGAAGGGCGTGCGCGTGCTGTTCATCGGCGACGCCGCCGACAACGCCCGCGTGCAGGTCGTGGTCAAGCCGACCGGCGCCGAGTACGTCTTCATCGAAGCCAAGTAA	MKTTMRALALATMTTLALAACKKEEAAAPVADAAPALTVPGKDDNNGWKQYLPAVVGQNMGSVTNNPYLYYLPPQSDPQFDGSYERQLESVKTALTRGVQPGNMLAFGSSASAKMADLIEAAFKDVQADSMKGVRVLFIGDAADNARVQVVVKPTGAEYVFIEAK				NA	NA	NA	NA	NA
BMS020_04557	285	fdx_1	COG1145	Ferredoxin	ATGTCCCTGAAGATCAACGAGCTCTGCGTCAACTGCGACGTCTGCGAGCCCGCCTGCCCCAACCACGCCATTTCGATGGGCGAGACGATCTACGTGATCGATCCGGCCCGTTGCACCGAGTGCGTCGGTCATTTCGACGAAGCGCAATGCGTGGTGGTGTGCCCGGTCGAGTGCATCGACCCGGATCCGGACCTGCCCGAGAGCCACGACCAGCTGCTGGCCAAGCTGCGGCGCCTGCAGCGCGAACATCCCGAACTGTACGACCCGGAGCCCCCCACCCCATGA	MSLKINELCVNCDVCEPACPNHAISMGETIYVIDPARCTECVGHFDEAQCVVVCPVECIDPDPDLPESHDQLLAKLRRLQREHPELYDPEPPTP	PGPT0003976_9	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACTERIOFERRITIN-ASSOCIATED_FERREDOXIN,PGPT0003976-yfhL-NA	NA	NA
BMS020_04558	1737	ggt_2		Glutathione hydrolase proenzyme	ATGAGAACGTTCGTCCGCCACGTGCTGTGGCTTGGCCTGCTGTTGCCGGCCGCCGCCTGGTCCGCCGATGCCCAGGCCCCGGCCGCGCATCCGCCTGGTGCCGCCATCGCCTCCGGGCACAAGCTGGCCACCGAGGCCGGCCTGCAGATCATCCGCGAGGGCGGCAACGCCTTCGACGCCGCGGTGGCGGTGTCCTCGACGCTGGGCGTGGTCGAGCCGATCAGCTCGGGCCTGGGCGGCGGCGGCTTCTTCCTGCTGCATGACGCCAAGAGCGGCAAGGACGTGATGATCGACGCGCGCGAATACGCGCCTGAATCGGCCAGCCCGGAGAAGTTCCTCGACAAGGACGGCAAGCTGGACCAGTCCAAATCGATCAACGGGCCGTGGTCGGCCGGCATCCCGGGCTTGCCCGCAGCGCTGGTGGAGCTGGCCGAGAAGCACGGCCGGCTGCCGCTGAAGCAGTCGCTGGCGCCGGCGATCCGCATCGCCAGCGAGGGCTTCCCGGTCTACGACCGCATGTCCAAGGGCTACGCCCAGCGTGCCAAGGAGATGGAGAAGTACCCCGGCACGCGCGAGGTCTACCTGCGCACCGGCAAGCCGATCCAGACCGGCGACATCTTCAAACAGCCTGAGCTGGCCCACACCTTGACCCTGCTGGCCGAGAAGGGCCGCGACGGCTTCTACAAGGGCGAGACGGCGAAGAAGCTGCTGGCCGGGGTCAAGGCCGCCGGCGGCCAGTGGACCGCGCAGGAACTGGCCAACTACCAGGTCAAGGAGCGCGCGCCGATCCAGTTCGACTACAAGGGCTGGAAGATCACCACGGTGCCGCCGCCGTCGTCGGGCGGCATCGCGCTGGCCGAGATCCTGCAGATCCTGGAAGGCTACGACCTGAAGGCGATGGATCCGGTGCACCGCACCCACCTGGTGGTGGAAGCGATGCGCCGCGCCTACCGCGACCGCACCTTCTTCCTCGGCGACCCGGACTTCACCGCGATCCCGCAGCGGGTGCTGCTGAGCAAGGATTACGCGCTGGGCCTGCGTTCGACGATCAATCCGGACAAGGCCACCCCGAGCGACCTGCTGTCGGGCAACCCGACCCCGCTGGAAGACGACGAGACCACCCACTTCTCGATCATCGATGCCGAAGGCAACCGCGTCGGCGCGACCCAGACCGTCAACCTGCTGTACGGCTCGGGCCTGATTCCCAAGGGCACCGGCGTGCTGCTCAACGACGAGATGGACGACTTCGCGCTGAAGCCGGGTACGCCCAACGCATTCGGCGTGATGGGCTACGCAGCGAACGCGCCGAAGCCGGGCAAGCGCCCGCTCAGCTCGATGACCCCGACCTTCATGGACAACGCCGACAAGGCCATCGTGCTCGGCACGCCGGGCGGCAGCCGCATCATCACCATGGTGCTGCTGGGCGTGCTCGGCTACGACGATGGCCTGAGCCCGCAGCAGGTCGCCGCGCTGCCGCGCTACCACCACCAGTGGCTGCCGGACGTGATCGAGGCCGAGAGCGGCACCTTCGACGAGGCCACGGTGAAGGGCCTGGAGGCGATGGGGCATGCGCTCAAGCTGCCGGGCAACACCGCCGCCGGCGGCCGTGGCTCCAGCCACGTCTGGGGCAACCTGCAGACCGTGGAGTGGGACAAGCGCACCGGCACCCTGAGCGGCGGCAGCGACCCGCGCAACGAGGTCGGCGCGGCCGAAGTGCAGCTGCAGGACGCCAAGTAA	MRTFVRHVLWLGLLLPAAAWSADAQAPAAHPPGAAIASGHKLATEAGLQIIREGGNAFDAAVAVSSTLGVVEPISSGLGGGGFFLLHDAKSGKDVMIDAREYAPESASPEKFLDKDGKLDQSKSINGPWSAGIPGLPAALVELAEKHGRLPLKQSLAPAIRIASEGFPVYDRMSKGYAQRAKEMEKYPGTREVYLRTGKPIQTGDIFKQPELAHTLTLLAEKGRDGFYKGETAKKLLAGVKAAGGQWTAQELANYQVKERAPIQFDYKGWKITTVPPPSSGGIALAEILQILEGYDLKAMDPVHRTHLVVEAMRRAYRDRTFFLGDPDFTAIPQRVLLSKDYALGLRSTINPDKATPSDLLSGNPTPLEDDETTHFSIIDAEGNRVGATQTVNLLYGSGLIPKGTGVLLNDEMDDFALKPGTPNAFGVMGYAANAPKPGKRPLSSMTPTFMDNADKAIVLGTPGGSRIITMVLLGVLGYDDGLSPQQVAALPRYHHQWLPDVIEAESGTFDEATVKGLEAMGHALKLPGNTAAGGRGSSHVWGNLQTVEWDKRTGTLSGGSDPRNEVGAAEVQLQDAK	PGPT0002935_3775	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002935-ggt-K00681	NA	NA
BMS020_04559	897	ytnP_2	COG0491	putative quorum-quenching lactonase YtnP	ATGAAACTCTGGTCGATACGCGGCAACTCGCAGAAGCTGGATGGCGGCGCGATGTACGGCAACGCCCCGCGCGCGATGTGGGAGCAATGGACGCCGCCGGATGCGCGCAACCGCATCGAGCTGGCCTGCCGGGCGCTGCTGGCCAGCCCGCTGGCGGGCAAGACGGTGCTGTTCGAGGCCGGGGTCGGCGCCTTCTTCGAGCCCAAGCTGCGCGAGCGCTACGGCATCCAGGAAGACACCCACGTGCTGATCGAGTCGCTGCGCGAAGCCGGCTTCGAGCACGAGGACATCGACGTGGTGGTGCTCAGCCACCTGCATTTCGACCACGCCGGCGGCCTGCTGGCGCCATGGCTGGATGGACGCGCGCCGGAGCTGCTGTTTCCCAACGCCACCTTCCTGGTCGGCGCCGCGCACTGGGCGCGCGCGCGCGATCCGCATCCGCGCGACCGCGCCAGCTTCATCGCCGAACTGCCGGCGCTGCTGGAAGCCAGCGGGCGGCTGGAAATCGTCGACGGTGCCTATTCGCAGGCGCTCGGCGACGCGGTGCGTTTCAGCTTCAGCGACGGCCATACCCCGGGGCTGATGCTGGCCGAGATCGTCGGCCCGGAGCGGGTCGATGGCCAGCCGCATGGCGGCGTGGTGTTCTGCGCCGACCTGGTGCCCGGGCGGCCGTGGGTGCACGTGCCGATCACGATGGGCTACGACCGCAACGCCGAACTGCTGATCGACGAGAAGCGCGCGTTCCTGGAAGACAAGCTGGCGCGCAACGTGCATCTGTTCTTCACCCACGACCCGCAGTGCGCGCTGGCGCAGCTGGTGCGCGACGGCAAGGGCCGGTTCGGCACCGCGCACGAGGCCGCCGAGCTGCACGCGCGCACGCTGGCACCGGTGGCCTGA	MKLWSIRGNSQKLDGGAMYGNAPRAMWEQWTPPDARNRIELACRALLASPLAGKTVLFEAGVGAFFEPKLRERYGIQEDTHVLIESLREAGFEHEDIDVVVLSHLHFDHAGGLLAPWLDGRAPELLFPNATFLVGAAHWARARDPHPRDRASFIAELPALLEASGRLEIVDGAYSQALGDAVRFSFSDGHTPGLMLAEIVGPERVDGQPHGGVVFCADLVPGRPWVHVPITMGYDRNAELLIDEKRAFLEDKLARNVHLFFTHDPQCALAQLVRDGKGRFGTAHEAAELHARTLAPVA				NA	NA	NA	NA	NA
BMS020_04560	1755			Xyloglucan-specific endo-beta-1,4-glucanase BoGH9A	ATGAACCGCCTCCTGCCCATCGCCGTCGGCCTGCTGGCCTGCCTGTCCACCGCCGCCTGCGCGGCCCCACCGGGCCCGCCCGCCATGTCGCCGATCCATCTCAACCAGCTCGGCTTCCTGCCGGAGGCGCGCAAGGTCGCCGTGCTCGGCCTGGCGCAGGACGGCGCGGCCGCACCCGTCGGCACTGATGCGTTCGTGGTCGAGGACGCACGCGGCAAGGTGGTGCTGCGCGGCACCCTCGGCCCGGTCGCGGCATGGGCGCCGGCGGAGCTGCAGGCGCGCGTGGCCGACTTCAGCGCCTTGCGCACGCCCGGGCGCTATCGCGTGCGGGTCGATGGCGTGCCGGCCTCCGATCCGTTCGAGATCACCGCCGATGCCTATCTGCCGGTCACCCGCGCGGCGTTGAAGGCGTTCTACTTCAACCGTGCCGGCACCGCGTTGCCGGCACGCTACGCCGGCGCCTACGCGCGCGCCGGGGGGCATCCGGACACCGAGGTGCGCATCCACGCCTCGGCGGCCTCGCCAGCGCGTCCAGCCGGCAGCACCATCGCCGCGCCGAAGGGCTGGTACGACGCCGGTGACTACAACAAGTACGTGGTCAATTCCGGCATCAGCACCTACACCCTGCTGGCCGCGTACGCGGATTTCCCGGCGCTGTTCCGCGGCCTGCGCAGCGACATTCCCGAGGACGCGGCGGGCGTGCCGGACATCCTGCAGGAGGCGTGGTGGAACCTGCAGTGGATGCTGGCGATGCAGGACCCGGCCGACGGCGGCGTGTACCACAAGCTGACCACACTGCAGTTCGAAGGCATCGTGATGCCCGAGCAGGCGCGCGAGCCGCGCTACGTGGTGATGAAAGGCACCGCCGCCACGCTGGATTTCGCCGCGGTGATGGCCGCGGCCAGCCGCGTCTATGCGCCGTTCGAGGCGCAGTATCCGGGGCAGTCGGCGCGGATGCTGGCGGCGGCGCGGCAGGCCTGGGCCTGGGCGCAGCAGCACCCGGACGTGGTCTACCGGCAGCCGGCCGACGTCGCGACCGGCGGCTACGACGATGCGCAGCTGGATGACGAGTTCGCCTGGGCCGCGGCCGAGCTGTACGTGACGACCGGCGAGGACGGGTTCTACGACGCGATGCTGGCGCGCAACGTGCACGCCAGCGTGCCGTCGTGGGGCGATGTCGGTGGCCTGGCATGGATGACGCTGGCATCGCACCGCGACGCGCTCACCGCGCACGCCGACCGCGCGCGGATCGAGCGCGAGATCGGCGGGCTGGCCGCGCGTCTGGCCGATGCCTGGCACGCCTCGGCCTGGCAGATCGCGATGACGCCGGAGGACTTCCGCTGGGGCAGCAACGCGATTGCGCTCAACCAGGCGATGATGCTGGTGCAGGGCTATCGCCTGGGCCATCAGCGTGACCGCCTCGACGCCGCGCAGGCGCAGCTGGACTACGTGCTCGGGCGCAACCCGCTGGGCCTGTCGTTCGTCACCGGCATCGGCCTGCGTTCGCCGCAGCACATCCACCACCGCATTTCCGAAGCCGATGGCGTGGACCCGCCGGTGCCGGGCCTGCTGGTCGGCGGCCCGCAGCCGGGGCGGCAGGACCTGGCCGGCTGCAAGGTCGCCTATCCGTCCACGCTGCCGGCGCTGGCCTACCTGGACGACGCCTGCAGTTACGCCACCAACGAAGTGGCGATCAACTGGAACGCGCCGCTGGTCTATGTCAGCGCAGCGCTGCAGGCCTTGGCCGGGCGCTGA	MNRLLPIAVGLLACLSTAACAAPPGPPAMSPIHLNQLGFLPEARKVAVLGLAQDGAAAPVGTDAFVVEDARGKVVLRGTLGPVAAWAPAELQARVADFSALRTPGRYRVRVDGVPASDPFEITADAYLPVTRAALKAFYFNRAGTALPARYAGAYARAGGHPDTEVRIHASAASPARPAGSTIAAPKGWYDAGDYNKYVVNSGISTYTLLAAYADFPALFRGLRSDIPEDAAGVPDILQEAWWNLQWMLAMQDPADGGVYHKLTTLQFEGIVMPEQAREPRYVVMKGTAATLDFAAVMAAASRVYAPFEAQYPGQSARMLAAARQAWAWAQQHPDVVYRQPADVATGGYDDAQLDDEFAWAAAELYVTTGEDGFYDAMLARNVHASVPSWGDVGGLAWMTLASHRDALTAHADRARIEREIGGLAARLADAWHASAWQIAMTPEDFRWGSNAIALNQAMMLVQGYRLGHQRDRLDAAQAQLDYVLGRNPLGLSFVTGIGLRSPQHIHHRISEADGVDPPVPGLLVGGPQPGRQDLAGCKVAYPSTLPALAYLDDACSYATNEVAINWNAPLVYVSAALQALAGR	PGPT0018620_2042	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CELLULASES,PGPT0018620-celJ|eglA|eglS-K01179	NA	NA
BMS020_04562	663			hypothetical protein	ATGCGCCTGCTCGCCCTGCTGCTCGCCGCCACCCAGACCATGCCGACGTTGACGGTGCAGGCGCCGAGCGCGTTCGAGGGGCGCTGGGTGCCGGACCAGCAGGCCAACAGCATCCTCGCGCGCGCCGAGCTGGCCAAGCGCCCGCCGGCGCAGGGCGGCGGCCAGCGCCCCGAGCGCGGCCCGCCGCCGGGTGGTGGTGCTGGCGGTGGCATGGGGGGCGGTGGCGGCATGGGCGGTGGCGGCGGTCCCGGTGGTGGCCCGGGAGGCGGCGGTCCGCCGCCCGGCGCTGGCCGCGGTCCGGGTGGACCGGAGCCGGTGCTGGAAAGTGCCGAGGCCAAGGTGGTGGTGCCGGCGGTGGATGACCTGCTGGTCGCCACGGCGGCCGGCTCGCTGATCTTCGCTTCCGGGCCGAGCGCGCTGTTGCAGCTGCCGTACGACGGCACCCCGTTGACCCTGGCCGATGGCCGCACGCAGGCGCGGCTGGAGCGCGTCGACGGCGACCTGGTGTTGAGCATGGACGGCCCGGACCAGCATCACGAGAGCCACCGCTATCACCTCGAAGGCGACGGCCGCCGGCTGCGCATCACCAGCACGGTCGAAGCGCCGGGGCTGGGGCGGCCACTGGTGCGGCAACGGTTGTACAACCGCGATGAGGATTCCTGA	MRLLALLLAATQTMPTLTVQAPSAFEGRWVPDQQANSILARAELAKRPPAQGGGQRPERGPPPGGGAGGGMGGGGGMGGGGGPGGGPGGGGPPPGAGRGPGGPEPVLESAEAKVVVPAVDDLLVATAAGSLIFASGPSALLQLPYDGTPLTLADGRTQARLERVDGDLVLSMDGPDQHHESHRYHLEGDGRRLRITSTVEAPGLGRPLVRQRLYNRDEDS				NA	NA	NA	NA	NA
BMS020_04563	633	upp_1	COG0035	Uracil phosphoribosyltransferase	ATGAAGATCGTCGAAGCCCGCCATCCCCTGGTCAAACACAAGATCGGCCTGCTGCGCGATGCGGAGCTGAGCACCAAGGGCTTTCGCGAGCTGGTCACCGAACTGGGCACCCTGCTCGCCTACGAGGCCACCGCCGACCTGGAGACCGAGTCGCACGTGCAGCAGGGCTGGGCCGGGCCGGTGCAGGTGCAGCGCATCGCCGGCGCCAAGATCACCCTGGTGCCGATCCTGCGCGCCGGGCTGGGCATGCTGCCCGGCGTGCTGGCGCTGATCCCGGCCGCACGCGTCAGCGTGGTCGGCCTGCAGCGCGACGAGGAAACCCTGCAGCCGGTGCCTTACTTCGAACGCCTGACCGGGCGCCTGACCGAGCGCGACGCGCTGATCCTGGACCCGATGCTGGCCACCGGCGGCACCCTGATCGCCACCATCGACATGCTCAAGCGCACCGGTGCGCGTCGCATCAAGGGCATTTTCCTGGTCGCCGCGCCGGAAGGCCTGAAGGCGCTGGAAGCGGCGCACCCGGACGTGGAGGTCTACACCGCGGCGATCGACGAACGCCTCAACGAGAAGGGCTACATCCTGCCCGGCCTCGGCGATGCAGGCGATCGCATCTTCGGCACCCGGGTCGAGTAA	MKIVEARHPLVKHKIGLLRDAELSTKGFRELVTELGTLLAYEATADLETESHVQQGWAGPVQVQRIAGAKITLVPILRAGLGMLPGVLALIPAARVSVVGLQRDEETLQPVPYFERLTGRLTERDALILDPMLATGGTLIATIDMLKRTGARRIKGIFLVAAPEGLKALEAAHPDVEVYTAAIDERLNEKGYILPGLGDAGDRIFGTRVE	PGPT0021240_2320	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021240-upp-K00761	NA	NA
BMS020_04564	2550	btuB_5		Vitamin B12 transporter BtuB	GTGCACACCAAGAATCCGTTGTTCGTGGCGATCGCCATCGGCCTGGGTAGCGTGGTCGCCGCCAGCGGCGCCCGCGCCGTCGAGGCTGCTCCGCCCGCCGCCGCCGCCGCCGCCGCGACCGACCTGGACCGCGTCGAAGTGCGCCCACAGCTGGAAGCGCAGGCGCGCGCGGTCGACCTCAAGCGCGAGTCCGACGCGATCCTCGATGCGGTGTCCGCCGACGAAGTGGGCGACTACCCGGACCAGAACGTTGCCGAATCGCTGCAGCGCCTGCCCGGCGTCAGCGTGACCCGCGACCAGGGCGAGGGCCGGTTCGTGGTGGTGCGTGGCCTGGATGCGGCGCTCAACAGCGTCAGCGTCGACGGCATCGCGATCGGTACCCCGGAAAGCGACAACCGCGCCGCGCCGATGGACGTGATCCCGTCCGAATCCACCGAACGGCTGAAGGTGGTCAAGTCGCCGACCCCGGACATGCCGGGTGATTCGATCGGCGGCGCGATCCTGGTGGAGTCGGCCTCGGCATTCGACCGCGACGGCCGCAGCATCCGCGCCAAGGTCGAGGCCAACCACCAGCAGCTCAGTGACAAGACCAGCCCGAAGGCCTCGTTCAACTACAGCGACCTGTTCGCCGACAACACCTTCGGCGTGGCGCTGGGCGTGAACTACCAGGACCGCGAGTTCCAGTCCGACAACACCGAAGGCGAGTACGACGAACTCGACAACGGCGACATGTTCATGGTCCAGCAGCAGCGCCGCAAGTACTACATCGAGCGCAAGCGGATCGGCGCCAACCTCAACCTCGACTGGCATCCGGATGCGGACAACCGCTATTACCTGCGGACGTTGTTCAGCGATTTCCAGGACGCCGAGACCCGCCAGAACACCGTGATCGACTTCGATGCCGACGACGTGGTGGCCAATGGCGACGGTACCTACAGCGCGCCGGTCGACGACCTCAGCAAGCGCGTGCGCTACCGCACCAAGAAGCAGAACACGCTGGCGACCAGCTTCGGCGGCGAGAACCGTTTCGATGGCGCGGTGCTCGACTACCAGGTCGGCTACACCAAGACCGAGGAGCGGGTGAAGGACGAGAAGGAGGCGCGCTTCAAGCTCGACAAGAGCGTGCGCAGCGACCTGGAGGCGACCATCGACCAGACCACCGGCATGCCGCAGATCGACTTCTCCAACACCGATTGGGAAGACAACGACAACTACAGCTTCAACAAGTGGGTGCTGTCGCCGGGCAAGACCGACGACGAGGAGAAGAGCGCCAAGGTCAACGTGCGCTTCGATGGTGAGAATTCCAGCTACAAGTTCGGCCTGCTCGGCCGCTGGCGTGACCGCAGCGTCGACAAGAACGAGACCGAGCTGTCCGAAGGTCCGGACATCGACCTGGCCGACTGGACCGTCGCCGCGCCGGCGCACCGCCACAACAGTCTCGGGCAGGCACTGAGCTCGTCGGTGATGAACGCCTACTGGGCCGCCTACGGCGACCAGTTCAGCGCCGACGATGGCGACGCCGGCAGCAACGCGGTCAGCATGTTGTCGGAGGACTACGTGTCCAAGGAGGACATCCTGGCCGCCTATGCGATGGGCACCTGGGATATCGGTGCGCTGCGCATCATCGCCGGCGTGCGCGTGGAGAACACCCGCTTCAAGGCCAGCGGCTACCAGATCGACGTCAGCGACGACGGCGAGACCTTCAGCGTCGATCCGCTGGAGGCGAACGCCAGCTACACCAACGTGCTGCCGGGCCTGCACCTGCGCTGGGACAGCGGCAACGACTGGGTGCTGCGCGGCTCGCTCAACAAGACCGTTTCGCGCCCGGGTTTCGGCCAGATCGCGCCGCACGCCTCGATCAACAACGATGACGAGGAGGTCGAGCTGGGCAACCCGAACCTGGATCCGTACGAGTCGACCAACCTGGACCTGTCGTTCGAGAAGTACCTGGGCAAGACCGGCATCCTTTCGCTGGGCCTGTTCGGCAAATCGATCGACAACTACATCGTCGATACCGTGATCGACAACGACGCCGCCTACAACGGCTACGACGTCAGCATGGCGATCAACGGCGACAAGGCCAAGGTCTACGGCGCCGAGTTCAACTGGCAGCAGCAGTTCGACTTCCTGCCCGAGGGCTGGAACGGCCTGCTCGCCGGCGTCAGCGGCACCTGGTTGCACACCGACTTCGATCCGGGCCTGGAAGACCGCGCCGGCGACGACTTCACCCTGCCGCGCGCGTCCAAGAACGTCTACACCGGCTTCATCGGCTACGAAAAGGGCGGCTTCTCCAGCCGTGTTTCGGCGGTGTACCGCAGCGAATACCTCGACGAACTGGGCAAGTCCAGTGCCTACGACATCTACGTGGCGCCCAATACCCAGCTCGACTTCAGCCTGGAATACCAGGTCACCGGCAACGTGCAGCTGTACTTCGATGCGTCCAACCTGCTCGACAAGCCGCTGGAGCGCTACCAGGGCGACAGCTCCCACACCCAACAGTACGAAGAATACGGCCGCACCTATGCGGTCGGCGTGCGGGTGAAACTGTGA	MHTKNPLFVAIAIGLGSVVAASGARAVEAAPPAAAAAAATDLDRVEVRPQLEAQARAVDLKRESDAILDAVSADEVGDYPDQNVAESLQRLPGVSVTRDQGEGRFVVVRGLDAALNSVSVDGIAIGTPESDNRAAPMDVIPSESTERLKVVKSPTPDMPGDSIGGAILVESASAFDRDGRSIRAKVEANHQQLSDKTSPKASFNYSDLFADNTFGVALGVNYQDREFQSDNTEGEYDELDNGDMFMVQQQRRKYYIERKRIGANLNLDWHPDADNRYYLRTLFSDFQDAETRQNTVIDFDADDVVANGDGTYSAPVDDLSKRVRYRTKKQNTLATSFGGENRFDGAVLDYQVGYTKTEERVKDEKEARFKLDKSVRSDLEATIDQTTGMPQIDFSNTDWEDNDNYSFNKWVLSPGKTDDEEKSAKVNVRFDGENSSYKFGLLGRWRDRSVDKNETELSEGPDIDLADWTVAAPAHRHNSLGQALSSSVMNAYWAAYGDQFSADDGDAGSNAVSMLSEDYVSKEDILAAYAMGTWDIGALRIIAGVRVENTRFKASGYQIDVSDDGETFSVDPLEANASYTNVLPGLHLRWDSGNDWVLRGSLNKTVSRPGFGQIAPHASINNDDEEVELGNPNLDPYESTNLDLSFEKYLGKTGILSLGLFGKSIDNYIVDTVIDNDAAYNGYDVSMAINGDKAKVYGAEFNWQQQFDFLPEGWNGLLAGVSGTWLHTDFDPGLEDRAGDDFTLPRASKNVYTGFIGYEKGGFSSRVSAVYRSEYLDELGKSSAYDIYVAPNTQLDFSLEYQVTGNVQLYFDASNLLDKPLERYQGDSSHTQQYEEYGRTYAVGVRVKL				NA	NA	NA	NA	NA
BMS020_04565	1158			hypothetical protein	ATGAAGCTGCACTCCACCACGCTCCTGCTGGCCTGCCTGCTCGCCGCCTGCGGCAAGGCGCCCGCACCGGCTCTGGCCACCACTGACACCGCCGCGAACGCCGCCGCGGCCACGGACCGCGAGCCGGACGAGAACGCCGAGAAGGACCCGCTGCTGAGCGAGGCCAAGGTCGCGCACAGCGAGGTGGCCGAGGCGTTCGTGACCGCGGCCACGCCGCAGGACAACCTCGATTCGCCGGCGGCGTGGGCCGCACCGGACGGCAAGCGCTGGGTCATCACCACCGCCAAGAAGAGCGGCGAGCTGGTGGTGTTCGACGGCGATACCGGGCAGCGCCTGCGCACCGTCGGCGGCAAGGGCGCCGCAGCCGGGCAGATGGATCGTCCCAACGGCATTGCCGTTGTCGGCGACCTGGCGCTGGTGGTCGAGCGCGACAACCATCGCGTGCAGGCGTTCTCGCTGCCGGATTTCACTTCTGTGGCGGTGTTCGGCGCCGATGAGCTGAAGAAGCCGTATGGGCTGTGGGCGCAGGCCAAGGATGACGGCATCGAGGTCATCGTCAGCGACAACTACATGCTCGGCGCTGACGAGAAGACCGTGCCGCCGCTGGGCGAGCTCAACCAGCGCTTCCGCCGCTACCAGCTGGTGCGCGATGGCGCGGGCTGGAAGGCGACGCTGAAGCAGACCTTCGGCGACACCAATGCCGCCGGCGCGATCCGCATCGCCGAGTCGGTCTTCGCCGATCCGGCCAACGACCGCCTGCTGCTGGCCGAGGAGGACGTGCCGACCGGTACCCGCCTGCGCGAGTACACGCTCGGCACCGGGACCTACGCTGGACGCGACATCGGCGCCGACCTGTACAAGGCGCAGGCCGAGGGCATCGCGCTGCTGGCCTGCAAGGACGGCAGCGGCTACTGGATCGGTACCGACCAGTTCAAGGACCGCAGCGTGTTCCAGGTGTTCGACCGCAGGACGCTGGAACCGGTCGGTGCGTTCGCCGGCAAGGTCACTGCCAATACCGATGGCGTGTGGATGGACGCACGTGGCGATGCGCGCTTCCCGCAGGGCGTGTTCTACGCATTGCACGACGACCAGGCGGTGGCGGCGTTCGACTGGCGCGATGTCAGCGCGGCGCTGAAGCTGAAGGCCTGCGCGCCGTGA	MKLHSTTLLLACLLAACGKAPAPALATTDTAANAAAATDREPDENAEKDPLLSEAKVAHSEVAEAFVTAATPQDNLDSPAAWAAPDGKRWVITTAKKSGELVVFDGDTGQRLRTVGGKGAAAGQMDRPNGIAVVGDLALVVERDNHRVQAFSLPDFTSVAVFGADELKKPYGLWAQAKDDGIEVIVSDNYMLGADEKTVPPLGELNQRFRRYQLVRDGAGWKATLKQTFGDTNAAGAIRIAESVFADPANDRLLLAEEDVPTGTRLREYTLGTGTYAGRDIGADLYKAQAEGIALLACKDGSGYWIGTDQFKDRSVFQVFDRRTLEPVGAFAGKVTANTDGVWMDARGDARFPQGVFYALHDDQAVAAFDWRDVSAALKLKACAP	PGPT0002580_344	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-PHYTASE_PRODUCTION,PGPT0002580-phy|phyA|phyB|phyC-K01083	NA	NA
BMS020_04566	1377	cpdA_2		3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	GTGAGGCCCGTCACGCGCGCGGGATGGGGCGTGGCGCTGCTGCTGGCGCTGGCACCGGCGATGGCCGGTGCCGCGCCGGCGGCCGAGCCCAACACCCAGGTGCCCAAGGGCAGCACCCATTACGCGGCGACCGGGTTCCCGGACCGCATCGTCGCCACCCCGGCGCAGGACGCGGCGAGCGGCTTCGCGGTCGCCTGGCGCACCGATGCCAGCGTCGCGCAGCCGGCGCTGCAGCTGGTCGTAGCCGGGGACTCGCCCGACCTCGGCACGCCGCGCGTGTTCAAGGCCAGCACTGTCGAGTTGAAGACCGAGAACGGCGTGGCGCATCACCATCGCGTCGATGTTGCCGGACTCAAGCCCGACACGCTGTACGCCTACCGCGTGCAGGGCCACGACACCTGGGGCAGCTGGAACCACTTCCGCACCGCCGCGCCGGCCGGCACGCCGCTGACGCTGCTGTATTTCGGCGATACCCAGAACAAGAACCTGAGCCTGGTCTCGCGGGTGATCCGCCAGGCCTGGCGCAGCACGCCGGACGCGCGGCTGGCGCTGTTCGCCGGTGATCTGGTCAGCGGCAAGGACGGCATCGACGACAGCGAATGGGCCGAGTGGTTCGAGGCCGGGCGCTGGATGCTGGAAGGCACCGCGGTCGCGCCGGCCCCGGGCAACCACGAGTACCACGAGGAATTGGAGGACACTCCACAGGAGCGGCGCGTGCTCGGCGGGCACTGGCCGGTGACGTTCGCATTGCCGGACAACGGCCCGGCCGCGACCGCGCAGACCACCTATTGGTTCGACTACCAGGACGTGCGCATCGCGGTGATCGACGGCACCTCGGCGCTGGACCTGGGCACCGGCGCGGCGCAGGCGGCGTGGCTGGACAAGGTGCTCGGCGACAGCCCGCACCCGTGGTCGATCGTGCTGATCCACCAGCCGTTCTATTCGCCGCGCGCCGAGCGCGACAACGCCAAGCTGGTCGAGCAGGTGCTGCCGGTGATCCGCAGGCACAAGGTCGATCTGGTGCTGCAGGGCCACGACCACACCTATGGCCGCCGCGGCGATGCCGACAACACGACCACGCCGGTGTTCATCGTCTCGGTGGCCGGGCCGAAGCAATACCGACTGTCGGACTACGCGCGCAGGACGATGAAGCCGACCGGCGAGGACACCCAGCTGTACCAGGTGTTGAAGATCGATCCGCAGCGCCTGTCCTACGAATCGCGCACCGCGACCGGCCGGCTGTACGACGCGTTCGAGCTGGTCCGCGATGCCGGCGGTGGCAAGCGCCTGGTCGAGCACAGCGAAGGCCGCATCGCGCCGCGTGACTGCGCCCGCCCGGTGTCGCCGAAGGGGCGCGAGGACCGCTGCTGGGAGTAG	MRPVTRAGWGVALLLALAPAMAGAAPAAEPNTQVPKGSTHYAATGFPDRIVATPAQDAASGFAVAWRTDASVAQPALQLVVAGDSPDLGTPRVFKASTVELKTENGVAHHHRVDVAGLKPDTLYAYRVQGHDTWGSWNHFRTAAPAGTPLTLLYFGDTQNKNLSLVSRVIRQAWRSTPDARLALFAGDLVSGKDGIDDSEWAEWFEAGRWMLEGTAVAPAPGNHEYHEELEDTPQERRVLGGHWPVTFALPDNGPAATAQTTYWFDYQDVRIAVIDGTSALDLGTGAAQAAWLDKVLGDSPHPWSIVLIHQPFYSPRAERDNAKLVEQVLPVIRRHKVDLVLQGHDHTYGRRGDADNTTTPVFIVSVAGPKQYRLSDYARRTMKPTGEDTQLYQVLKIDPQRLSYESRTATGRLYDAFELVRDAGGGKRLVEHSEGRIAPRDCARPVSPKGREDRCWE				NA	NA	NA	NA	NA
BMS020_04567	630	ppa_2		Inorganic pyrophosphatase	ATGATCCGTTCCTTCCTGCTGCGCACTGCCGTGCCGGCGCTGCTGCTTGCCAGCGTCGGCGCCAGCGCCGGCGAGTTCGTGCGCAATCCGCTGCTGGTGGCGCAACCGAACAACGCGCCGGCCGAGGTCAATCTGGCGGTGGAGATTCCTGCCGGCAGCTTCACCAAGTACGAGACCAACGCCGACGGGCTGGTCTTCGTCGACCGCTTCCAGTCGATGCCGGTCGCGTATCCGGCCAATTACGGCTCGATGCCGAGCACGCTGGCCGGCGACAACGATCCGCTCGACGCGCTGGTGCTGACCCGCGAGCCGCTGCATCCGGGCGTGCTGATCGCGTTCCGCCCGATCGGCGTGCTGCGGATGATCGACAAGGGCGAGCACGACGAGAAGATCATCGGCGTGCCGACCGACAAGGTCGATCCGACCTACGCCAACATCCGCGACCTGGCCGACCTGCCGCAGATCGAGCGCCAACGCATCGAAGCGTTCTTCCGCGTCTACAAGGACCTGCCGGCCGGGCGCAATACCGTCGAGCTGCATGGCTGGGGCGATGCGGCCGAGGCGCGCACGGTGATCGCCGAGGCGTTGAAACGCTTCACTGCAGCGCATCCGGCCACGCAGACGCGCTGA	MIRSFLLRTAVPALLLASVGASAGEFVRNPLLVAQPNNAPAEVNLAVEIPAGSFTKYETNADGLVFVDRFQSMPVAYPANYGSMPSTLAGDNDPLDALVLTREPLHPGVLIAFRPIGVLRMIDKGEHDEKIIGVPTDKVDPTYANIRDLADLPQIERQRIEAFFRVYKDLPAGRNTVELHGWGDAAEARTVIAEALKRFTAAHPATQTR	PGPT0002600_1371	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-INORGANIC_PHOSPHATASE,PGPT0002600-ppa-K01507	NA	NA
BMS020_04568	1248			hypothetical protein	GTGTCTGCGATCGACTGGAAAAAGCCCCGCTGGGGGGGCAACTGGAACTGGGACTTGAGCCGGCTGTCGCCGTCGCGGCTGCCGAGGCTGGCCGGCTACCTGGCCTTGGCCTTCGTGCTGTGGCTGCTGTTCTGGACTCTGTTCGCACCGTTCTTCTCCACCTCGGCCAGCCGCGCCGTCCTCAATGCGCCGGCGGTGCTGCTGACCACGCCGATCGACGGGGTGGTGCGCAGCGTCAACGTGGTGCCGGGCGCGTCGTTCGCCCGCGGCGACGTGCTGGCCACCGTCGACAACCCGCGCGCCAATCCCGAATCGCTGCTGGCGCTGAAGACGCGGCGGCTGTCGCTGGCGCAGGAGCAGGGTGCGCTGGAGGCGCAGCTCGAGCACGACCGACGCCTGCTCGATGCGCTGCGCGAGACCAGGCGGCGCTACCGTGCATCGCTGGAAAGCCAGCTCGGCTACAGCCGCCAGGCACTGGCCGCCGAGTACGCAGGCGCCCGCGCCCAGGCCGACGAGGCGCAGGCGCGCTTGCAGCGCTACCAGGCGCTGCTGGCCGATGGCGCGGTGTCGCAGGCCGCGGTGAATACCGCGCAGGCGCAGCTGGCGGCCGCGCGCGGGACGATGGAGTCGCTCGATGCGCGGGTCAAGGGCAGTGGCGGCAATGTCGCCTCGCTGCGCCGCGACGTGTACCTGGATGATGGCCAGAGCCGGCTGTTCGACCTCGACGCGCAGTTGACCGCACTGGCACTGGGACTGGAGCGTGGCCAGCGCCAGTTCGCCCAGCAGGGCGCCGAACTGGCTGAGCTGGACACGCTGGTGGCGGGCGAACAGCGGCGCATGGACATGCTCAGCGGCTACCAGCTGATCGCCGCCGCCGATGGCACCGTGCAGGACGTACTGGCCGCACCCGGCGCCCAGGTCAGTGCCGGGGCGACGCTGGTGCGCGCCAGCGACTGTTCGCGCAACGTGGTGATGGCGGTGTTCCCCGAACGCGCGGCGCGCCGGCTGGAGCCGGGTAGCGAGCTGGAGGTGGAGATCCGTGGCGCCGACGCGCCGCTGCAGGCGCGGGTGGTGCAGATGCTCAACCAGGGCAGCCAGCAGCAGGCGGCCGGCTACGCCGCGCCATTCCCGTTCGCCGAGCCGAACGCGATCCAGGTGGTCGCCGCGTTCCCGGCCAACCTGCCATTGGCCGCGCGCCGCCGGGCCTGCAGTCCGGGCCGGCTGGTCGACGCCGACATCCGGGGCTGA	MSAIDWKKPRWGGNWNWDLSRLSPSRLPRLAGYLALAFVLWLLFWTLFAPFFSTSASRAVLNAPAVLLTTPIDGVVRSVNVVPGASFARGDVLATVDNPRANPESLLALKTRRLSLAQEQGALEAQLEHDRRLLDALRETRRRYRASLESQLGYSRQALAAEYAGARAQADEAQARLQRYQALLADGAVSQAAVNTAQAQLAAARGTMESLDARVKGSGGNVASLRRDVYLDDGQSRLFDLDAQLTALALGLERGQRQFAQQGAELAELDTLVAGEQRRMDMLSGYQLIAAADGTVQDVLAAPGAQVSAGATLVRASDCSRNVVMAVFPERAARRLEPGSELEVEIRGADAPLQARVVQMLNQGSQQQAAGYAAPFPFAEPNAIQVVAAFPANLPLAARRRACSPGRLVDADIRG				NA	NA	NA	NA	NA
BMS020_04569	1251			hypothetical protein	ATGTGGCGCCGTCGTCGACGTTCGCCCTGGCTGCTGCTGTGGGTGCTTGGGGTGCCCGGTATGGCGATCGCCGCCGAGGCGCGTGCGCAGCTGGCAACGCGCAGCTGCGAGGCGCTGGACGCGGCGGTGCGCGCGGTGCCCGGCGAGGGGGCGGTGCTGCTGCCCAGCTACCGGGTGCCGACGCAGGGCGAGACGGCGATCGCCGCGCTGCGCGGGGTTGCCTTCACCTACGACAACGCGCTGGCCAGCATCGCCTTGTATGCCTGCGCGCGCCCGCGCAGCGCGACGCGGATCGCCGCGGCGCTGCTGCAGGCCGGCAGCAACGACCCGGACTACCGCGACGGCCGCCTGCGCAACGGCTATGCCGCCGGTGCGGTGGCGGCCGGACCAGTGCGGCTGGCGGGGTACTGGGACCCGGCGCGCGCGGCCTGGAACCAGGATGCCTACCAGGCGGGCACTGCGACCGGCAACCAGGCCTGGGCGGCGCTGGCGCTGCTGGAGGCCTACCGGCGCACTGGCGATGGGCGCTATCTGCAGGGCGCGCGGCGCGCGCTGGCGTGGATCGCGGCCAGCGTCGCCGACCCGCGCGCGCCGGACGGCTTTGCCGGTGGCTACTTCGGCTATCCGCCGCTGCCGACCCCGCAGCGCTGGAAGTCCACCGAGCACCACGTCGACATCGCCGCGGCCGCGATCGGGCTGCAGCGCCTGGAGCCGGATGCGGCGCTGGCGGCGACCGCCGCGCGTGCGCGCGGCTTCGTCGCTGCGCAGTGGGACGATGGCGAGGGGCGCTTCCTGATCGGGCGCGATGCGGCCGGGCAGCCTGATCGCGCGCGTTCCGGGCTGGACGCGCAGCTGTGGCCGTTGATCGCCTTCGACGACGCGCCGCCACGCTGGCGCCGCGCGCTGGCCTTCGTCGATGCGCAGCACCGCCACGGCGACGGCTACGGCTTCGGCCGCGCGCCGGACGGGGTCTGGACCGAGGGCACCGCGCAGTACGCCGCGGTGGCGGTGCAGCTGGAGCAGCCCGCGCGCGCGCAGGCGTTGTGGCCGTTGCTGCTGGCGCAGGATGCCGGCGATGGCTGGCTGTACGCCACGCCGCAGGCGCGGTTGAGCACCGGCCTGGCGATCGGCCCGGGATCCAGCGGCGCGGACTTCGTCTACTACCACCTCCCGCACCTGGGAGCGACGGCGTGGGCGGCGATCGCCGCCTGCGGCAGCAACCCCTTCACCGGCACCCAGCGGAGGTCGTAG	MWRRRRRSPWLLLWVLGVPGMAIAAEARAQLATRSCEALDAAVRAVPGEGAVLLPSYRVPTQGETAIAALRGVAFTYDNALASIALYACARPRSATRIAAALLQAGSNDPDYRDGRLRNGYAAGAVAAGPVRLAGYWDPARAAWNQDAYQAGTATGNQAWAALALLEAYRRTGDGRYLQGARRALAWIAASVADPRAPDGFAGGYFGYPPLPTPQRWKSTEHHVDIAAAAIGLQRLEPDAALAATAARARGFVAAQWDDGEGRFLIGRDAAGQPDRARSGLDAQLWPLIAFDDAPPRWRRALAFVDAQHRHGDGYGFGRAPDGVWTEGTAQYAAVAVQLEQPARAQALWPLLLAQDAGDGWLYATPQARLSTGLAIGPGSSGADFVYYHLPHLGATAWAAIAACGSNPFTGTQRRS				NA	NA	NA	NA	NA
BMS020_04570	2073			hypothetical protein	ATGGAGATCACCGGCACCCAGCAGATCCTGCAGGTCAACCTGCTGACCCTGGCCGCGGTGGCATTGCTGGCCACGCTCGGGCGCAGCAGCCAGGCCGGTGCGCGCGCCGCGTTCGGCGCGTTCACCGCGGCGCTGCTGCTGAACTATGTGCTGTGGCGGCTGCGCGACACGCTACCCGGCCTGGACCAGGGCTTCGCCACGCTCTGGGCCTACCTGTTCCTGGCGCTGGAGCTGGTGGCGATCGCCTACACGCTGTTCTCGATCCTGGTGATGCTGCGCCGCTCCGACCATCGCGCAGCTGCCGACGCGGGCGAACGCCGGCTGCGCGCGGCGGGGCTCGAGGTGCCGCCGGTGGACGTGTTCATCGTCACCTACAACGAAGACCTGGCGGTGCTGGAGAAGACCATCGCCGCGGCGCAACTGATCGACTACCCCAACTTCGCGGTCTGGGTGCTCGACGACACGCGCCGCGACTGGCTGCGCGACTACTGCGCCGAGGTCGGCGTGCATTACGCGCGCCGGCCGGACAACAGCCACGCCAAGGCCGGCAACCTCAACAACGGCCTGCGCCAGTCGGCGGCGGCCACCAATGCGCCGTACCTGCTGGTGCTGGACGCGGACTTCGCGCCGCAGCGGCGCATCCTGCTGCGGACCCTCGGCCTGTTCGACGACCCGCGCGTGGGCCTGGTGCAGACCCCGCAATTCTACTACAACCCCGATCCGATCCAGCACAACGTCGGTTCGGCCGACAGCTGGGTGGACGAGCAGCGGGTGTTCTTCGACGTGTTCCAGCCGTCCAAGGACGCTTGGGACGCGGCGTTCTGCGTGGGCACCTCGTTCGTGGTGCGGCGCGACCTGATCGAGGCCGACGGCGGCTTCCCGACCGGCTCGGTGTGCGAGGACATCTACACCAGCTACCGCCTGATGCGTCGGGGCCACGTCACCCGCTGGCTCAACGAGCGGCTGTCGATCGGGCTGTCGGCCGAGGGGCTGAGCGAGTACATCAACCAGCGCGGGCGCTGGTGCCTGGGCACGATCCAGGTGGCGTTGCTCAAGGATGGTCCGCTGCGCGGCAGCGGCTACAGCCTCAACGATCGCCTGCACTACCTGCACGGGCTGCTGCACTGGCTGTCCAAGCCGTTCATCCTGATGATCCTGGTCTCGCCGGTGTTGTACTGGTACTTCGGCGTGGCCGGGTTCTACTGCACGCCGGCGCAGTTCCTGCTGTACGGCATGCCGGCGCTGATCGCGTTCTGGGGCTACGGCACCTGGGTCACCGACCGGCGCACGCTGCCGGTGTTCACCGAGGTCACCCAGATCGTCGCCTCGCTGGCGGTCACCGCGACCATCGCCAGTGCGCTGGTGCGGCCATTCGGGCGCCCGTTCAAGGTCACCGCCAAGGGCATCGACCGGTCGCGTGCCAGCGTGCACTGGTCGTTGTTCGGCTTCTTCCTGGCGCTGGCGCTGCTGGCCCAGCTGGGCGCGCTGGTGGCGCTGGCGCGCGCGGACCGCTTCGACGGCGGGCTGGTGTTCAACCTGTGCTGGACGCTGGTGTCGCTGCTGCTGAGCCTGGCCACGCTGGTGGCCTGCGTGGACCTGCCGCGGCTGCATGGCGAGGAGCGCTTTCCGTTCATGCGGGCCTCGGTGCTGCGCAGCGAGTTCGGCGAGGCGCACGGCACGCTTGCCAACATTTCGGTCAGTGGCGCGGCGCTGCGGTTGCCCGCCAGCGCGCGCCAGCCCGACCTCGGTCTGCACGGCGAGGTGTGGGTGGACCGGGTCGGCTGGCTTGCCGCGGTGGTGGTGCGGCACGCTGCTGATGGCCTGGTCGGGCTGCGGTTCGAGGCGCCCGAACCGGTGCTGCGGCGGCGCCTGATCGCGCGCTTGTTCGCCGATGCCGACGAGAACATCGTCTCGCAGGCGCAGCCGCACATCGCCTTCGGCCGGCTGCTGCAGCGCTCGCTGATCGGCGAGCGCGGTGCTGCCGGCCTCCGTTGGCCGCGGGTGCGCCCGCATGCGTTGCCGGGACAGCGGTTCGGCCGCCTGCGCCGGCGCGTCGCGCGGGGGGTGCGCTGA	MEITGTQQILQVNLLTLAAVALLATLGRSSQAGARAAFGAFTAALLLNYVLWRLRDTLPGLDQGFATLWAYLFLALELVAIAYTLFSILVMLRRSDHRAAADAGERRLRAAGLEVPPVDVFIVTYNEDLAVLEKTIAAAQLIDYPNFAVWVLDDTRRDWLRDYCAEVGVHYARRPDNSHAKAGNLNNGLRQSAAATNAPYLLVLDADFAPQRRILLRTLGLFDDPRVGLVQTPQFYYNPDPIQHNVGSADSWVDEQRVFFDVFQPSKDAWDAAFCVGTSFVVRRDLIEADGGFPTGSVCEDIYTSYRLMRRGHVTRWLNERLSIGLSAEGLSEYINQRGRWCLGTIQVALLKDGPLRGSGYSLNDRLHYLHGLLHWLSKPFILMILVSPVLYWYFGVAGFYCTPAQFLLYGMPALIAFWGYGTWVTDRRTLPVFTEVTQIVASLAVTATIASALVRPFGRPFKVTAKGIDRSRASVHWSLFGFFLALALLAQLGALVALARADRFDGGLVFNLCWTLVSLLLSLATLVACVDLPRLHGEERFPFMRASVLRSEFGEAHGTLANISVSGAALRLPASARQPDLGLHGEVWVDRVGWLAAVVVRHAADGLVGLRFEAPEPVLRRRLIARLFADADENIVSQAQPHIAFGRLLQRSLIGERGAAGLRWPRVRPHALPGQRFGRLRRRVARGVR	PGPT0022275_925	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0022275-bcsA|yhjN|celA-K00694	NA	NA
BMS020_04571	1422	ttgI_1		Toluene efflux pump outer membrane protein TtgI	ATGCGCGGCCGGCCCCTGTTGGCCGCGCTGGCCGCGGCGGTGCTGGCGGGCTGCTCGCTGGAGCCCGCCTACGTGCGTCCCCAGGCGCCGATCGACGCGGCCTGGCCGGCCTCGGCCGGCGGTGTCGCGGTCGGCGAACTGCCGTTGCAGGAGGCGTTCTTCACCGATGCGCGGCTGCGCGAGTTGCAGCAGCTGGCATTGGCCAACAACCGCGACCTGCGCGTGCTTGCGGCCGGGGTGGAGGAGGCGCGCGCCTTGCACGGCGACGCGCGCGCCGCATTGTTCCCGGCGGTTGGCGTGGCCGCCACGACCGCACGCAGCAACGTGCCGTCGCTGGATGCCAGCGGCGACAGCGCCGGACGGCCGTCCAGCCTGTTCCAGGCCACCGGCGGCTTCACCGCCTTCGAGCTCGACCTGTTCGGGCGCCTGCGCAGCCGGCGCAACGCCGCCTGGGCACGCTTCGAGGCGACCGAAGCCGACTACGCCGCCGCGCGCATCGCGCTGGTCGGCGAGGTGGCCGGCACCTGGTTGCGGTTGCGCGCCGACCGCAGCTTGCTGGCACTGGCCGAATCGACCGAGCGCGACCAGCAGCGCCAGGCGGGGATGATGCGCTCGGGCCTGAGCCATGGCGCCAACGCGCGGATCGAGGTGCACCAGTCCGACGTGCAGCTGCAGATCGCCGCGGTGCAGGCCGCCGGCTACCGCATGGCGGTGGCACGCGATCTCAACGCGCTGCGGGTGCTGGTCGGGCAACCGCTGCCGCAGGCGCTGCTGCCCGACGACGGTCTGGAAGGGCGCGGCGTCACTGCCGAGATTGCTGCCGGCCTGCCGTCGTCGCTGCTGCAGCGGCGCCCGGACATCGCCGCGGCCGAGGCGCGGCTGCGCGCCAGCAATGCCGACATCGGCGCCGCGCGCGCCGCGTTCTTCCCGGCGATCTCGCTGACCGCGGCGCTGGGCAGCCTGTCCTCGGAACTGGCGTCGCTGTTCACCGGTGGCAGCCGCTACTGGACCGCCGGCGCCGACCTCGGGTGGACGCTGTTCGATGGCGGTGGCCGGCGCGCGCGTCTCGCGGCCAGCCGCGCGCGCAACGCCGCGCAGATCGCCGCCTACGAATCGACGGTGCAGGCCGCGTTCCGCGAGGTCGCCGACGCGCTGGCCGCGCACCAGCAGATGCAGGCGCAGGCCGACGCGCAGGCGCGGCTGGTGGCCGATTACCGCGAGGTCGCGCGGCAGACCCGGTTGCGCTTCGACGCCGGGCTGGACAGCTACTACGCGGCGATGGATGCGCAGCGCTCGCTGTTCGAAGCGCAGCAGCGCTGGCTGGAACTGGAATACGCGCGGCAGAACAACCAGATCCTGCTGTACAAGGCCCTCGGCGGCGGCTGGAACGGCACCGCCGACGCGGTCACCGCCGCGCGCTGA	MRGRPLLAALAAAVLAGCSLEPAYVRPQAPIDAAWPASAGGVAVGELPLQEAFFTDARLRELQQLALANNRDLRVLAAGVEEARALHGDARAALFPAVGVAATTARSNVPSLDASGDSAGRPSSLFQATGGFTAFELDLFGRLRSRRNAAWARFEATEADYAAARIALVGEVAGTWLRLRADRSLLALAESTERDQQRQAGMMRSGLSHGANARIEVHQSDVQLQIAAVQAAGYRMAVARDLNALRVLVGQPLPQALLPDDGLEGRGVTAEIAAGLPSSLLQRRPDIAAAEARLRASNADIGAARAAFFPAISLTAALGSLSSELASLFTGGSRYWTAGADLGWTLFDGGGRRARLAASRARNAAQIAAYESTVQAAFREVADALAAHQQMQAQADAQARLVADYREVARQTRLRFDAGLDSYYAAMDAQRSLFEAQQRWLELEYARQNNQILLYKALGGGWNGTADAVTAAR	PGPT0009810_1505	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexXY-OprM,PGPT0009810-toxI|oprM|oprM|emhC|ttgC|cusC|adeK|smeF|mtrE|cmeC|gesC-K18139	NA	NA
BMS020_04572	1566	argD_2		Acetylornithine/succinyldiaminopimelate aminotransferase	ATGCAGAACGCGCCTCCCGGCGCGCCGAACCCGACCGAACACGCTTCACGCCACAACCCGGAGAGCCGTATGTCCCTGATCGACACCCTCGCCCCGCTGCGTGCCCATGCCGGCACCCGCCTGACCGCCGGCCTCGACGACGCCACGCTGGCGCGGCTGGCGCCGGCGCATCCGGAGCTGGCCCAGGCGATCGCTGCCGCCGCGGCGGAATACGCCCGGGTGCGCGGGGACATCGGCGAGCTGCTCGAGCTGGACGAGCGCGAGCAGATCGAGGCGCTGCAGGCCGGCTTCATCAACTTCTATGCCGACGACTGCGTGACCCCGTACGTCGCACTGGCCGCCTGCGGCCCCTGGGTGGTCACCCTGAAGGGCGCGGTGCTGTACGACGCCGGCGGCTACGGCATGCTCGGCTTCGGCCACACCCCGGCCGCGGTGCTGGAGGCGATGGCGCGGCCGCAGGTGATGGCCAATGTGATGACCCCCAGCCTGGCCCAGCGCCGGCTCGACGCCGCGCTGCGCGCCGAGATCGGCCACAGCCGCGGCGGTTGTCCGTACGCGAAGTTCATGTGCCTCAACTCCGGCTCCGAGGCGGTCGGGCTGGCCGCACGCATTGTCGACACCCATGCCAAGTTCCAGACCGACCCGGGTGCGCCGCATGCCGGGCAGACGATCAAGCGGCTGGTGGTCAAGGGCAGCTTCCACGGTCGCACCGACCGCCCCGCGCTGTACTCCGACTCCAGCCGCAAGACCTACCAGCAGTACCTGGCCAGCTACCGCGGCGAGGACTCGGTGCTGGTGATCGCGCCGTACGACGTGGACGCGCTGCGCCGCGCCTTCGCCGACGCCGAGCGCAACGGCGGGTTCATCGAGGCGGTGTTCCTGGAGCCGGTCATGGGCGAAGGCGACCCCGGCCGCGCGCTGCCGCCGGCGTTCTACGCCGCCGCGCGCGAGCTGACCCGTGCCCATGGCAGCCTGCTGCTGGTCGATTCGATCCAGGCCGGGCTGCGCGCGCACGGCGTGCTGTCGGTGGTGGACTACCCGGGCTTCGAACAGCTCGACCCGCCGGACTTGGAAACCTATTCCAAGGCGCTCAACGCCGCGCAGTACCCGTTGTCGGTGCTGGCGCTGACCGCGAGTGCGGCGCAGGTCTACCGCAAGGGCACCTACGGCAACACGATGACCACCAACCCGCGCGCGCTGGACGTGGCCTGCGCCACGCTGTCCCAGCTCACGCCCGAGGTGCGCACCAACATCCGCACGCGCGGCGCGCAGGCACTGCGCAAGCTGGAGCAGCTCAAGAGCGAGCTGGGCGGGCTGATCACCAAGGTCCAGGGCACCGGCCTGCTGTTCTCCTGCGAGCTGGCGCCGCAGTTCAAGTGCTACGGCGCCGGTTCCACCGAGGAATGGCTGCGCGAGCACGGCGTCAACGTGATCCACGGCGGCGAGAACTCGCTGCGCTTCACCCCGCACTTCGCCATGCGCGAGGACGAACTCGACCTGCTGGTCGGGCTGATCGGGCGGGCCCTGCGCGAAGGCCCGCGGCGCGAGCAGGCCGCCGCGGCCTGA	MQNAPPGAPNPTEHASRHNPESRMSLIDTLAPLRAHAGTRLTAGLDDATLARLAPAHPELAQAIAAAAAEYARVRGDIGELLELDEREQIEALQAGFINFYADDCVTPYVALAACGPWVVTLKGAVLYDAGGYGMLGFGHTPAAVLEAMARPQVMANVMTPSLAQRRLDAALRAEIGHSRGGCPYAKFMCLNSGSEAVGLAARIVDTHAKFQTDPGAPHAGQTIKRLVVKGSFHGRTDRPALYSDSSRKTYQQYLASYRGEDSVLVIAPYDVDALRRAFADAERNGGFIEAVFLEPVMGEGDPGRALPPAFYAAARELTRAHGSLLLVDSIQAGLRAHGVLSVVDYPGFEQLDPPDLETYSKALNAAQYPLSVLALTASAAQVYRKGTYGNTMTTNPRALDVACATLSQLTPEVRTNIRTRGAQALRKLEQLKSELGGLITKVQGTGLLFSCELAPQFKCYGAGSTEEWLREHGVNVIHGGENSLRFTPHFAMREDELDLLVGLIGRALREGPRREQAAAA				NA	NA	NA	NA	NA
BMS020_04573	432	lrp_3	COG1522	Leucine-responsive regulatory protein	ATGCCGTTGAGTGCCGCCGATGCCCAGTTGCTCGCCGTGCTGCGCGAGGACGCGCGCGCCTCCACCGCGCAGATCGCCCGCCGGCTTGGTGTGTCGCGCACCACCGTGCAGGGCCGGATCGAGCGGCTGGAGCGGCTGGGGGTGATCCGCGGTTACACCGTGCGCGTGGACGAGGCCTACGAGCAGAGCTGCATCCGCGCCCACATCATGATCACCGTGCTGCCCAAGCAGATGCCGCAGGTGGTGAAGGCGCTGCAGGCGCTGGCCGAGGTGCGCGAGCTGCATTCGGTCAGCGGCCCCTACGACCTGGTCGCGCTGGGCGTGACCGGCAATGTCGCCGAGATGGACGTGCTGACCGACCGCATCGGCGCGCTCGACGGCGTGGGTCGCACCACCTCGGCGATCGTGCTGTCGACCAAGTTCGAGCGCTGA	MPLSAADAQLLAVLREDARASTAQIARRLGVSRTTVQGRIERLERLGVIRGYTVRVDEAYEQSCIRAHIMITVLPKQMPQVVKALQALAEVRELHSVSGPYDLVALGVTGNVAEMDVLTDRIGALDGVGRTTSAIVLSTKFER				NA	NA	NA	NA	NA
BMS020_04574	1032	queA_2	COG0809	S-adenosylmethionine:tRNA ribosyltransferase-isomerase	TTGAAAAAGTCCGATTTCAGCTACGCGCTGCCCGAGGAACTGATCGCCCAGGCCCCGTTGGCGGAGCGCTCGGCCAGCCGCCTGCTGGTGGTGCCGCCGGCGCCGGCGGCGTACGAGGACCGCCATGTACGCGATCTCGCCGAGCTGCTGCAGCCGGGCGACCTGCTGGTGTTCAACGACACCCGGGTGATCCCGGCACGCCTGTTCGGGCAGAAGGCCAGCGGCGGGCGCGTGGAGATCCTGATCGAGCGCCTGCTCGGCGGGCAGCAGGCGCGCGCGCAGGTCGGTGCGAGCAAGTCGCCGAAGGCAGGCAGCCGGATCGCGCTGGATGCCGGTGGCGAGGCCGAGGTACTCGGGCGCGAGGGCGAGTTCTACCTGCTGCGCTTCGAGGTCGACGAGCCGCTGGAGCAGTGGCTGCTGCACGCCGGCCGGTTGCCGCTGCCGCCGTACATCCGCCGCGAGCCCGGCATCGACGACCGCGAGCGCTACCAGACCGTGTTCGCCAAGGAGGTGGGCGCGGTGGCCGCGCCGACCGCCGGGCTGCATTTCGACGAGCCGCTGCTGGCGCGCCTGCGCGAGCGCGGCGTGGACTTCGGCCACGTCACCCTGCACGTGGGCGCCGGCACCTTCCAGCCGGTGCGGGTGGAGTCGCTGGACCAGCACGTGATGCACCGCGAGTGGCTCAACGTCGGCGCGGAGCTGGTGGAGCAGGTGCGGCGCGCGCGGGCGCGCGGCGGACGGGTGATCGCGGTGGGAACCACCGTGGTGCGTTCGCTGGAGAGCGCGATGCAGGACGGCGAGCTGCGCCCGTTCGCCGGCGAGACCCAGATCTTCATCCTGCCCGGCTACCGCATCCGCAGCGTCGATGCGATGGTCACCAACTTCCACCTGCCCGAGAGCACGCTGGTGATGATGGTCGCGGCGTTCGCCGGGCGCGAGCGCATCCTCGATGCGTACCGCCACGCGGTGGAGCAGCGCTACCGCTTCTTCAGCTACGGCGACGCGATGCTGCTGTTCCCGCAGCCGGAGTAA	MKKSDFSYALPEELIAQAPLAERSASRLLVVPPAPAAYEDRHVRDLAELLQPGDLLVFNDTRVIPARLFGQKASGGRVEILIERLLGGQQARAQVGASKSPKAGSRIALDAGGEAEVLGREGEFYLLRFEVDEPLEQWLLHAGRLPLPPYIRREPGIDDRERYQTVFAKEVGAVAAPTAGLHFDEPLLARLRERGVDFGHVTLHVGAGTFQPVRVESLDQHVMHREWLNVGAELVEQVRRARARGGRVIAVGTTVVRSLESAMQDGELRPFAGETQIFILPGYRIRSVDAMVTNFHLPESTLVMMVAAFAGRERILDAYRHAVEQRYRFFSYGDAMLLFPQPE	PGPT0023660_3138	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023660-queA-K07568	NA	NA
BMS020_04575	5202	arnC_2		Undecaprenyl-phosphate 4-deoxy-4-formamido-L-arabinose transferase	ATGCAAAAAGTTCAGAGCAGGATCGTCGTCAGCGTCCCGGTCTACAACGAGGAGGCCTACATCCTCCAGGCGTTGGAGTCGCTGGCCGCGCAGACGCACACCGACTTCCAGGTACTGGTCGCCGACAACGCCTCGACCGACGACACCGGCAGGCTCTGCGAGGCGTTCTGCGCGCGCGACACGCGCTTCCATTACGTGCGCCACGCGCACAACCTCGGCGGCGCCGCCAACTTCCGTTACTGCCTGGAACACACCGAGTCCGAGTTCTTCATGTGGCTGGGCGCGCACGATGCGCTGGCGCCGGAATTCCTCGCCAGCGCCTACGCGCGGATGCTCGCCAACGACGGCACCAGCCTGGTCTACGCCCACACCCGCTGGATCAACGAACGCGGCGAGCTGATCCGCCACAGCAACGGCGGCAACTACGTGTTCGCCGAGCCGCTGCAGGCGCACACACGTTACCTGCGCCTGCTCAACGCGCTGGACCGCTGCGAAGCGGTCAACCAGCTGATCCGGCGCCGCTTCCTCGATGCCGAGCTGGTGCGCCCGGTGGTCAGCTTCGACCTGGCGGTGCTGTGCCACCTGGCCGGGCACGGCCCGTTCGAGCGCATCGATGCCCCGCTCTACATCCGCCGCGATTTCGCCCAGCGCGCCAGCAGCTCGATGGAACGCACCGCCGGCAGCGGCAGCGTGGCCCGCTACCACCTGCTGGCCGAACTGTTCGTGCACAGCGTCAGCACCCACGCCGCGATCGCCCCGGAGCACAAGCTGGAAACGATCAGCCAGGTGCTGGGCTGGATCGATCGGCGCTTCCGCCTGTTCCAGGAGCGGATCGAGCCGCTCGCCAGCTACGTCGCGCCGGCGCCTGACCTGCTGGCGCAGCCGGCGCCGCTGTTCAGCGTCGTGGTGCCGATGTACAACCGCGAGCGCTACGTCGAGGAAGCGATCGATTCGATCCTGGCCCAGGACGACGGCGACTTCGAACTGATCGTCGTCGACGACGGCTCCAGCGACCGCTCCACGCAGATCGTCGAAGCCATCGCCGACCCGCGCATCCGCCTGCTGCGCAACCAGCATGCCGGCGGCGCCGCGGCGCGCAACACCGGCATCGCCGCCGCGCGCGGCGAGTTCGTGGTGTGGATCGACAGCGACGACCGCCAGGCGCCGGGCGCGCTCGCGGCGCTGCGCGAGGCCATCGCCGCCTGTCCGGACGCGGACGTCTACTACGGCGACCTGGAGATCTTCGACGACACCCAGCCGGACAAGCGCTTCCTCACCCAGTACCCGGACTACATCGGCGAATCGCTGCTGCCGCGGCTGATCCGCGGTAACTGCCTGCCCAACCCCGGCACCGCGGTGCGGCGCACGCTCTACCAGCAGCACGGCGGCTACGACACCACCTTCGTGCGCTGCCACGACTTCCACATGTGGACGCGGCTGGCCGGCAGCGCGCGCTTCAAGAAGGTCGCGCGCGTGCAATGCCACTGGCGCCAGCACGGCGCCAGCCTGTCCAGCGCCAAGACCCGCGCGTTCGAGGCCAAGGTCGCGCTGGACATGGTGCAGCGCTACCCGCCGCAGCGGCTGTTCCCCGACCTGCGCGACGATGCGAACGGCCGCGGCACCGCGCTGTGGCGGGTCGCCGAGACCGTCAACGCCCTGGGCGAGCCGGCCCAGGCGCTGCACGCGGCCTATCGCGCCGCCGCGTTCGGCGTCGGCGACCGCGCGCGCATCCGCGAGCTGGAGCGCCTGGCCGGCAGCGACTACGCGCCGTTCTTCAGCGTGGTGCTGACCACCTTCAACCGCCCGGCGCTGCTGGCCGACGCCCTGGCCAGCCTGGACCAGCAGGGCTTCCGCGACTTCGAGGCGATCGTGGTCAACGACCATGGCCAACCGGCGGAGCCGCAGCCGGACGCGTACGGCTTCGCGCTCAGCTACCTGCAGCAGGGCCGCAACCAGGGTCCGGCGGCGGCGCGCAACGCCGCGCACCGACTGGCGCGCGGCCGCTACATCGTCTACCTCGACGACGACGACCGCTTCCTGCCCGAGCACCTGCAGACCCTGGCCGACGCGCTCGACGCGCACCCGGACACGGTCGCCTACAGCGATGCGCTGTTCGTCGCCGAGAAGATCGAGGATGGCGTGCGCCACGACCTCGGCAGCGAGCGCCGCTACCAGCACGAGGAGTATTCGCGCGAGCGGCTGCTGGTCGACAACTACATCCCGGTCAACACCTTCGCCTGGCCACGCGCGCTCGCGGCCAAGGTCGGCGGCTTCGACGAACGCATGGCCGGCCTGGAGGACTGGGAGTTCCTGCTGCGGCTGGCCGCGGCGGCCCCGTTCCGGCACGTGCCGCGCACGACCGTGCAGGTGCGCATGCGGGTCGAGACCGGCGCGCCCGAGCGGCGTTCGGAGCAGGCGCTGAAGGACTATCCGAAGCTGTACACCGAGATCTACGCGCGCCACCCGGACCTGGACAACGAACAGATCCGCCAGCAACGCACGGCCAAGCTGCGCCAGCTGGGCGTGGCGGTCAAACCAGCGCCCGGCAAGCTGCTGCAGCACTGGCTCGAGGCGCGCACGCCGAGCCCGGCCCAGACCACGCTGATCACGCAACGGCTGCAGGCGCATGACGGCGGCCCGCGCATCGGCGTGCTCGTGCTGGACCTTCGCGGCGATGCCGCGGCGGTGGCCAAGACCCTGGCCAGCCTGGCGCCGGAGACCATGCCGGTGCCGCTCCAGGTGCAGGCCCGGGTCCTCAGCAGCGCCGACGATGCCGCCGACCGTGGCTGGAGCGCGACCACCGCCGAGGCGCACATCGCGGCGATCAACCGCGAGGTGGACGCCCTGGCCTGCGACTGGGTGATGGTGGTGGACGCCGGCCAGCGCTTCCTCGCCAGCGGGCTGATGGTCCTGGCCGTGGAGCTGACCTCGGCGTCGGAGATGCACGCGGTGTATGCCGACACCCTGGTCGACAACGGCCGTGGTGCGCTCAACGCGCTGTTCCGCCCCGACGTCAACCTGGACATGCTGCTGTCGCTGCCGGGGGTGATGGCGCGCCATTGGCTGTTCCGCCGCAACGCGCTCGTCGACGCCGGCGGCTTCGATCCGGCGCTGGCCGACGCCGCCGAGTTCGACCTGCTGCTGCGCCTGATCGGCAACGATGGCCTGCACCGCCTCGGCCATGTCGCCGAGCCGCTGCTGGTGTGCCGGCCGCCGGCGCTGGCAACCCGCCCCAACGACCTGGTCGCGCTGCGCCGCCACCTCGCCGAGCGCGGCTACGCGCAGGCCACGATCAGCGCGCCGCACCCGGGCTGCTACCGCATCGCGTATGGGCATGCGGGCACTCCGGGGGTTTCCATCGTGGTGCCGGTCCGCCATCCGCTCGACAAGCTGCGACGCTGCATCGAGACGCTGCTGGAAAAGACCGCCTACACGAACTACGAGCTGCTGATCGTCGATGCCGGCAGCGACGAGGACGGCGTGGCGGAGTGGCTGGCCGGCATCGAAGCGCTTGGCAGCGCGCAGCTGCGCGTGCTGCGCGAGGCAACCGCGCGCACGCCATCGGCGATGATCAACCTCGCCGCCGGCGAGGCGCGTGGCGAGTACCTGCTGCTGCTCGACAGCGACACCGTGGTGCTGCGCGAGGACTGGCTGGACGCACTGCTCAACCATGCCCAGCGCCCGGAAGTCGGCGTGGTCGGCCCCAAGATGCTGCAGGCCAACGGCAGCATCCAGGATGCCGGCCTGGTGCTGGGCCTCAACGGACCGGCCGGCCCGGCGTTCCGCAACGACAAGCTCAACGCCGCCGGCAATCTCTACCGGCTGCAGGTCGACCAGGATTACAGCGCGGTCAGCGGCGCCTGCCTGATGGTGCGCAAGGCGCTGTTCGCCGAGGTCGGCGGGCTGGACCAGGACGCGCTGGCGGACGCCTACAGCGACGTCGACCTGTGCCTGAAAGTACGCAACGCCGGCTACCTGGTGGTATGGACGCCGCACGCGCTGCTGCTGCATGACGGCGACGCCGCGCCTGACGCATCCCAGCCGGGCGTCCCCGAACCGCCCCCCACGCCGGCCGCGCAGGACACGATGTACGCGCGCTGGCTGCCGTGGATTTCCCGCGACCCGGCCTACAACCGCAACATGACCCTGGACGGCAAGGGCTTCACCGTCGACATCAACCTGCAGCGCAACTGGCACCCGCTGGCCTCGTGGCGGCCGCTGCCGGTGGTGGTGGCGCTGGCCGCCGACCAGCAGGGCTGCGGCCAGTACCGGGTGATCCAGCCGGTGCAGGCGATGAACGACTTCGGGCTGGCCGATGCGGAATGGAGCCAGCGCTATTACTCGCCGGTGGAACTGGAACGCCGCAGTCCCGACGTGGTGGTGCTGCAGCGGCAGATGTTCGAGAACCAGATCGAACCGCAGCAGCGCCTCGCGCGCCTGAGCCGCGCCTTCCGCGTCGCCGAGCTGGACGACTACCTGCCGCTGCTGCCGCGCAAGAGCATCCACCACGGCAAGCTGCCCAAGGACGTGCTGCGCACGATGCGCGAGACGCTCAAGCTGGTCGACCGCTTCGTGGTCTCCACCGCGCCGCTGGCCGAAGCACTCGACGGCCTGCACGACGACATCCGCGTGGTCGAAAACCGCCTGCCGCTGCCGTGGTGGCAGCATGTCCAGGGGGCGCGCCGCCGCGGCAGCAAGCTGCGCGTCGGCTGGGGCGGCGGCGCCGGCCACCGCGGCGACCTGGAGCTGATCGCCGACGTGGTGCGCGCGCTCGCCGACGAGGTCGAATGGGTGTTCTTCGGCATGTGCCCGGAGGCGCTGCGCCCGCATGTGCACGAGTACCACCCGCCGGTGGCGATCGAGGACTATCCGGCCAAGCTCGCCGCACTGGACCTGGACTTGGCGCTGGCACCGTTGGAGGACAACCTGTTCAACCGCTGCAAGAGCAACCTGCGCCTGCTCGAATACGGCGCCTGCGGCTTCCCGGTGGTGTGCAGCGACATTACGCCCTACCAGGGCGCGTTGCCGGTGACGCGGGTCAAACCGCGCTTCCGCGACTGGGTCGATGCGATCCGCATGCATGCCGCCGAACGCGATGCCACCGCCGCCGCCGGCGACGCGCTGCGTGCGGTGGTGCAGCGCGACTGGATGCTGGACCAGAAGCACGCCGCGTCCTGGCTGTCGCAGTGGACGCCGGATTGA	MQKVQSRIVVSVPVYNEEAYILQALESLAAQTHTDFQVLVADNASTDDTGRLCEAFCARDTRFHYVRHAHNLGGAANFRYCLEHTESEFFMWLGAHDALAPEFLASAYARMLANDGTSLVYAHTRWINERGELIRHSNGGNYVFAEPLQAHTRYLRLLNALDRCEAVNQLIRRRFLDAELVRPVVSFDLAVLCHLAGHGPFERIDAPLYIRRDFAQRASSSMERTAGSGSVARYHLLAELFVHSVSTHAAIAPEHKLETISQVLGWIDRRFRLFQERIEPLASYVAPAPDLLAQPAPLFSVVVPMYNRERYVEEAIDSILAQDDGDFELIVVDDGSSDRSTQIVEAIADPRIRLLRNQHAGGAAARNTGIAAARGEFVVWIDSDDRQAPGALAALREAIAACPDADVYYGDLEIFDDTQPDKRFLTQYPDYIGESLLPRLIRGNCLPNPGTAVRRTLYQQHGGYDTTFVRCHDFHMWTRLAGSARFKKVARVQCHWRQHGASLSSAKTRAFEAKVALDMVQRYPPQRLFPDLRDDANGRGTALWRVAETVNALGEPAQALHAAYRAAAFGVGDRARIRELERLAGSDYAPFFSVVLTTFNRPALLADALASLDQQGFRDFEAIVVNDHGQPAEPQPDAYGFALSYLQQGRNQGPAAARNAAHRLARGRYIVYLDDDDRFLPEHLQTLADALDAHPDTVAYSDALFVAEKIEDGVRHDLGSERRYQHEEYSRERLLVDNYIPVNTFAWPRALAAKVGGFDERMAGLEDWEFLLRLAAAAPFRHVPRTTVQVRMRVETGAPERRSEQALKDYPKLYTEIYARHPDLDNEQIRQQRTAKLRQLGVAVKPAPGKLLQHWLEARTPSPAQTTLITQRLQAHDGGPRIGVLVLDLRGDAAAVAKTLASLAPETMPVPLQVQARVLSSADDAADRGWSATTAEAHIAAINREVDALACDWVMVVDAGQRFLASGLMVLAVELTSASEMHAVYADTLVDNGRGALNALFRPDVNLDMLLSLPGVMARHWLFRRNALVDAGGFDPALADAAEFDLLLRLIGNDGLHRLGHVAEPLLVCRPPALATRPNDLVALRRHLAERGYAQATISAPHPGCYRIAYGHAGTPGVSIVVPVRHPLDKLRRCIETLLEKTAYTNYELLIVDAGSDEDGVAEWLAGIEALGSAQLRVLREATARTPSAMINLAAGEARGEYLLLLDSDTVVLREDWLDALLNHAQRPEVGVVGPKMLQANGSIQDAGLVLGLNGPAGPAFRNDKLNAAGNLYRLQVDQDYSAVSGACLMVRKALFAEVGGLDQDALADAYSDVDLCLKVRNAGYLVVWTPHALLLHDGDAAPDASQPGVPEPPPTPAAQDTMYARWLPWISRDPAYNRNMTLDGKGFTVDINLQRNWHPLASWRPLPVVVALAADQQGCGQYRVIQPVQAMNDFGLADAEWSQRYYSPVELERRSPDVVVLQRQMFENQIEPQQRLARLSRAFRVAELDDYLPLLPRKSIHHGKLPKDVLRTMRETLKLVDRFVVSTAPLAEALDGLHDDIRVVENRLPLPWWQHVQGARRRGSKLRVGWGGGAGHRGDLELIADVVRALADEVEWVFFGMCPEALRPHVHEYHPPVAIEDYPAKLAALDLDLALAPLEDNLFNRCKSNLRLLEYGACGFPVVCSDITPYQGALPVTRVKPRFRDWVDAIRMHAAERDATAAAGDALRAVVQRDWMLDQKHAASWLSQWTPD				NA	NA	NA	NA	NA
BMS020_04576	786			hypothetical protein	ATGACCGACCCGATCAAGCAATTCGCCCAGGAACGCCGCGAGCAGATCGATGCCTACCCGCGCGATGCGCACTTCAGCGCGCAGTCGCAGGCCTGGCTGGAAGCGTCGATGCGCCGCCGCTACGTCTACAACTTCGACTGGCTTGGCCGGCCGATCATCCAGTACCCGCAGGACATCGTCGCGATGCAGGAGCTGGTCTGGGCTACGCGCCCGGACCTGATCATCGAGACTGGCATCGCCCATGGCGGCTCGCTGGTACTCAGCGCCTCGCTGCTGGCGATGCTCGACTACTGCGACGCGGTGCAGGCCGGCACGCCGCTGGACCCGCAGGCCAGCGGCCGCCGCGTGCTCGGGATCGACATCGACATCCGCGCGCACAACCGCGCCGCGATCGAGGCGCACCCGCTGGCGCACAAGATCGAGATGATCCAGGGCTCGAGCATCGCCGCCGACGTGGTCGCCCAGGTGCGCGAGCGCGCCAGCGCCTACCAGCGCGTGATGGTGTGCCTGGACTCGATGCACACCCACGACCACGTGCTGGAGGAGCTGCGCGCCTACGCGCCGCTGACCACACCAGGCTGCTACTGCGTGGTCTTCGACACCTTCGTCGAGGACATGCCCGAGGACCTGTTCCCGGACCGCCCGTGGGCGCCCGGCGACAACCCCAAGACCGCCGTGCATGCCTGGCTGGCCGAGCAGGCCGACTTCGAGATCGACCACGCGCTGCCGGACAAACTGCAGGTCACCGTGGCGCCGGACGGCTTCCTGCGCCGTCGCGCCGGCTGA	MTDPIKQFAQERREQIDAYPRDAHFSAQSQAWLEASMRRRYVYNFDWLGRPIIQYPQDIVAMQELVWATRPDLIIETGIAHGGSLVLSASLLAMLDYCDAVQAGTPLDPQASGRRVLGIDIDIRAHNRAAIEAHPLAHKIEMIQGSSIAADVVAQVRERASAYQRVMVCLDSMHTHDHVLEELRAYAPLTTPGCYCVVFDTFVEDMPEDLFPDRPWAPGDNPKTAVHAWLAEQADFEIDHALPDKLQVTVAPDGFLRRRAG				NA	NA	NA	NA	NA
BMS020_04577	960	rmd		GDP-6-deoxy-D-mannose reductase	ATGAAGGTGCTGGTCAGTGGTGCCAGCGGCTTCGTCGGCCGGCATGCGCTGCAGGCCTTGCAGGCGCAGGGCATCGCGCTCGCGGCGATCGGCCGCCAGCGCCCGCCGGGCGTGGGCGCCGACGCCTTCATCCAGGCCGACCTGCTCGACCCCGGCGACCGCACCGAGGCGATCGCCCGCCTGGCCCCGACCCACCTGCTGCACCTGGCCTGGTACGCCGAACACGGCACGTTCTGGGAGGCGCCGGTCAACCTGCGCTGGGTCGATGCCAGCGTGCGTCTGGCCGAGGCGTTCTGCGCCGCCGGCGGGCGCCACATCGTCGCCGCCGGCACCTGCGCCGAATACGCGTGGGAGGGCGAGGTGCCACTCGACGAGGCGCAGGCGCCACTGCGGCCGGCCAGCCTGTACGGCGTCGCCAAGGACGCCACCCGCCGGCTGCTGGAGGCCGTGGCCAAGCGCCACGACGCGCGCCTGGCCTGGGCGCGGATCTTCCTGCCCTACGGGGCCGGCGAGCACCCGCAGCGGCTGCTGCCGGCACTGCTGGCGGTGTTCCGCGGCGAGCGCGCGCCGTTCGCGGTCGGCACCGGCAACCGCCGCGACTTCCTCGCGGTCGAGGACCTGGCACGCGCCCTGCTCGCGCTGCTGCGCGCCGACCTGCACGGCAGCGTCAACGTCTGCTCCGGGCAGGCGGTGGAGGTCGGCACGGTGCTGCGGCAACTGGCCATCGCATGTCGCGCCGACCCCGCGCCGCTGCTGGCGCTGGCCGCCGATCGCCCCGGCGAGCCGCGCCTGCTGGTCGGCGACACCGCACGCCTGCGCAGCACCGGCTGGCATCCGCAGCTCACCCTGGCGCGCGGCCTGGCCGCCCTCGCCACCGGATCCGGCATCGACAGCGTGCCCCAGCCCCCCGACCTTACCCCGCCCGCCTCTTCCAGCCACCTGTCCACACCATCGCCATGA	MKVLVSGASGFVGRHALQALQAQGIALAAIGRQRPPGVGADAFIQADLLDPGDRTEAIARLAPTHLLHLAWYAEHGTFWEAPVNLRWVDASVRLAEAFCAAGGRHIVAAGTCAEYAWEGEVPLDEAQAPLRPASLYGVAKDATRRLLEAVAKRHDARLAWARIFLPYGAGEHPQRLLPALLAVFRGERAPFAVGTGNRRDFLAVEDLARALLALLRADLHGSVNVCSGQAVEVGTVLRQLAIACRADPAPLLALAADRPGEPRLLVGDTARLRSTGWHPQLTLARGLAALATGSGIDSVPQPPDLTPPASSSHLSTPSP	PGPT0022800_240	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-6-DEOXY_D_TALOSE_MODIFICATION,PGPT0022800-tld-K22252	NA	NA
BMS020_04578	1230			hypothetical protein	ATGAAGTGCCGGCACTGCGATGCCCCGCTGGACCTGCCCTTCCTCGACCTGGGCAGCGCGCCGCCGTCCAATGCCTACCTGGGCGACGCGGCGCTGCGCGGCCCCGAGACCTGGTATCCGCTGCGGGTGCTGGCCTGCCGCCGCTGCTGGCTGGTGCAGACCGAGGACCACGCCGGGCGCGAACAACTGTTCGACGCCGAATACGCCTACTTCAGTTCCTATTCCAGCTCCTGGCTGGCGCATGCGCGGCGCTATGTCGAGGCGATGCACGCGCGCTTCGCGCTCGATGCGACCGCCTGCGTGGTCGAGGTCGCGGCCAATGACGGCTACCTGCTGCAGTACGTGCGCGAGGCCGGCATCCCCTGCTACGGCATCGAGCCGACCGCCAGCACCGCGGCGGCGGCGCGCGCGCGCGGCATCGAGGTGGTCGAGCGCTTCTTCGGCGTGGCGCTGGCCACCGAGCTGGCCGCCGCCGGCCGCCAGGCCGACCTGGTCGCGGCCAACAACGTGCTGGCGCACGTGCCGGACATCAACGACTTCGTTGCCGGCTTCGCGCTGCTGCTGAAACCGCACGGCGTGGCGACCTTCGAGTTCCCGCACCTGCTGCGGATGGTGCGCGAGTGCCAGTTCGACACCGCCTACCACGAGCACTATTCCTACCTGTCGCTGGGCAGCGTGCAGCGGGTGTTCGCGGCCAACGGGCTGCAGGTGTTCGATGTCGAGGAACTGCCCACCCACGGCGGCAGCCTGCGCGTCTACGCCCAGCGCATCGATGGCGGCCGCCAGCCGCTGCAGCCGGCGGTGGCGGCGCTGCGGGCGCGGGAGATCGACGCCGGCATGGACGCGGCCGGGTTCTACGCCGGCCTGCAGCATGAGGCGGTGCGAATCAAGCATGCCCTGCTCGACTTCCTGCTCGAGGCGCGCCGCGCCGGGCGCAAGGTTGCCGCCTACGGTGCCGCCGCCAAGGGCAACACGCTGCTGAACTTCGCCGGCGTGCGCCCGGACCTGCTGCCCTACGTGGTCGACCTCAACCCGGCCAAGCAGGGCAAATTCCTGCCCGGCAGCCGTATCCCGATCGTCGGCGAGGCGCACCTGCGCGCGGACCGGCCCGACGACATCCTGCTGCTGCCCTGGAACCTGCGCGAGGAAGTGGCACGGCAGCTGGCCTACACCCGGGTCTGGGGGGCACGCCTGCTCACCGCGGTACCGCGGCTGGAGCCGGTGCAATGA	MKCRHCDAPLDLPFLDLGSAPPSNAYLGDAALRGPETWYPLRVLACRRCWLVQTEDHAGREQLFDAEYAYFSSYSSSWLAHARRYVEAMHARFALDATACVVEVAANDGYLLQYVREAGIPCYGIEPTASTAAAARARGIEVVERFFGVALATELAAAGRQADLVAANNVLAHVPDINDFVAGFALLLKPHGVATFEFPHLLRMVRECQFDTAYHEHYSYLSLGSVQRVFAANGLQVFDVEELPTHGGSLRVYAQRIDGGRQPLQPAVAALRAREIDAGMDAAGFYAGLQHEAVRIKHALLDFLLEARRAGRKVAAYGAAAKGNTLLNFAGVRPDLLPYVVDLNPAKQGKFLPGSRIPIVGEAHLRADRPDDILLLPWNLREEVARQLAYTRVWGARLLTAVPRLEPVQ				NA	NA	NA	NA	NA
BMS020_04579	558	rfbC_2	COG1898	dTDP-4-dehydrorhamnose 3,5-epimerase	ATGGGCCTGAGCGGACACCCGACCGCGATCGCCGGCGTCACCAGCATCGCCACCGGGCGGGTGCAGGACGCCCGCGGCGCATTCGCGCGGCTGTTCTGCGAACAGGAGCTGGCGCCGTGGCTGGGCGAGCGCCGCATCGTGCAGATCAACCACTCGCTGACCCACGCGGTCGGCACCGTGCGCGGCCTGCATTTCCAGCATGCGCCGCACGCCGAGACCAAGCTGGTGCGCTGCCTGCGCGGCCGCGTCTGGGACGTGGTGGTCGACCTGCGCCGCGGCTCGCCGACCTTCCTGCGCTGGCATGCCGAGGAGCTCAGCGCCGGCAACGCGCGCATGCTGCTGGTGCCGGAAGGCTGCGCGCACGGCTTCCAGGTGCTCGAGGCCGACAGCGAGCTGCTGTACCTGCACACCGCCGCTTACACCGCCGCCGCCGAGGGCGGACTGCGCCACGACGACCCGGCGCTGGCGATCGCCTGGCCGCTGCCACCGCAGGGGCTGTCCGAGCGCGACCGCCAGCATCCGCTGCTGCCCCCCGACTTCACAGGACTGCCCGCATGA	MGLSGHPTAIAGVTSIATGRVQDARGAFARLFCEQELAPWLGERRIVQINHSLTHAVGTVRGLHFQHAPHAETKLVRCLRGRVWDVVVDLRRGSPTFLRWHAEELSAGNARMLLVPEGCAHGFQVLEADSELLYLHTAAYTAAAEGGLRHDDPALAIAWPLPPQGLSERDRQHPLLPPDFTGLPA	PGPT0014300_2147	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
BMS020_04580	1080	rfbG	COG0451	CDP-glucose 4,6-dehydratase	ATGACCGCCTTCGGCGGGCGCTACCGCGGACGTCGGGTGCTGGTGACCGGCCACACCGGCTTCAAGGGCAGCTGGCTGTGCGCCTGGCTGCACGCATTGGGCGCGGAGGTCACCGGCTTCGCGCTGCCGGCCGAGCGCGACCACAACGCGCTGCACTGGGACCAGCTCGGGCTGGACATCGACGACCGCCGCGGCGACCTGCGCGATGCCGAGGCGCTGGGCGCGCTGCTACGGCAGACCCGCCCGGAGGTGGTGTTCCACCTCGCCGCGCAGGCGCTGGTGCGCCCCTCTTACAAGCAGCCGCTGGAGACCTGGTCGAGCAACGTGCTCGGCAGCGCCAACCTGCTCGAAGCCTGCCGCCAGACCGATTCGGTGCGGGCGATCGTGGTCGCCACCACCGACAAGGTCTACGCCAACCGCGAATGGCCGTGGGGCTACCGCGAGACCGACACGCTGGCCGGGCACGACCCGTACAGCGCCTCCAAGGCCGCCTGCGAGCTGCTGTGCGACAGCTACCGGCGCGCGTTCTGGCACGCCGGCGACGCGCCGCTGCTGGCCACCGCGCGCGCCGGCAACGTGATCGGTGGCGGCGACTGGGCCGAGGACCGCCTGGTCCCCGACATCGCCCGCGCGATGCAGGCCGGGCAGCCGCTGGAGATCCGCGCGCCGCAGGCCACCCGCCCGTGGCAGCACGTGCTGGACTGCCTGTCCGGCTACCTGCTGCTCGGCCAACGCCTGCTCGAGGGGGACGCCGGCTGCGCCGATGCCTGGAACTTCGCCCCGCCCGCCGATACCGCCTGCAGCGTCGCGCAGCTGCTCGACGGCATGCGCCGGCACTGGCCCGAACTGGACTGGCAGGTCGCCGATGGCGGCGGCCCGCACGAGGCCGGGCTGCTCGCGCTGGACAGCGCCAAGGCGCGCGCGCGGCTGGGCTGGCACCCGGCGTGGTCGCTGGCCGAGACGCTGGCGGCGACCGCCGACTGGTACCGCGCGCACCTGGCCGGGCATGCCGCGGCGACCGTGGCGCAGATCGACGCCTATCGCACCGCCGCCGCCGCACGGGGGCTGGCATGGGCCTGA	MTAFGGRYRGRRVLVTGHTGFKGSWLCAWLHALGAEVTGFALPAERDHNALHWDQLGLDIDDRRGDLRDAEALGALLRQTRPEVVFHLAAQALVRPSYKQPLETWSSNVLGSANLLEACRQTDSVRAIVVATTDKVYANREWPWGYRETDTLAGHDPYSASKAACELLCDSYRRAFWHAGDAPLLATARAGNVIGGGDWAEDRLVPDIARAMQAGQPLEIRAPQATRPWQHVLDCLSGYLLLGQRLLEGDAGCADAWNFAPPADTACSVAQLLDGMRRHWPELDWQVADGGGPHEAGLLALDSAKARARLGWHPAWSLAETLAATADWYRAHLAGHAAATVAQIDAYRTAAAARGLAWA	PGPT0019060_381	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PARATOSE|TRYLOSE|ABEQUOSE|ASCARYLOSE_MODIFICATION,PGPT0019060-yfnG|rfbG-K01709	NA	NA
BMS020_04581	792	rfbF	COG1208	Glucose-1-phosphate cytidylyltransferase	ATGGAGAAGGCGTCGAGATCGATGAAAGCTGTGATTCTGGCCGGCGGGCTCGGCACGCGCATCAGCGAGGAGTCGCATCTGCGCCCCAAACCGATGATCGCCATCGGCGGGCGCCCGATCCTGTGGCACATCCTCAAGAGCTATGCCCACCACGGCATCAACGATTTCGTGATCTGCCTGGGCTACAAGGGCTACGTGGTGAAGGAGTACTTCGCCAACTATTTCCTGCACATGTCCGACGTCACCTTCGACATGGCCGCCAACACGATGGAAGTACACCACCGCTGCGCCGATCCGTGGCGGGTGACCCTGATCGACACCGGCGAGACCACGATGACCGGCGGACGCCTGCGCCGGGTGCGCGAGCACCTCGACGACGGGCCGTTCTGCTTCACCTACGGCGACGGCGTGGCCGACATCGACATCGGCGCCCTGCTGGCCTTCCACCGCGACCACGGCAAGCTGGCCACGGTGACCGCGATCCAGCCACCCGGCCGCTACGGCGCGCTGGAGCTGGACGCCGAACGCGTCAACGCCTTCCAGGAAAAGCCGGCCGGCGATGGCGCCTGGATCAACGGCGGCTTCTTCGTGCTCGATCCGGCCGTCATCGACTACGTCGACGGCGACGCCTGCAGCTGGGAGTCCGAGCCGCTGCTGCGGCTGGCCGCCGAAGGCAACCTGATGGCCTACCGGCACCGCGGCTTCTGGCAGGCGATGGATACCCTGCGCGACAAGAACCAGCTCGAGGACCTGTGGCAGAGCGGGCGCGCGCCGTGGAAGGTGTGGGCATGA	MEKASRSMKAVILAGGLGTRISEESHLRPKPMIAIGGRPILWHILKSYAHHGINDFVICLGYKGYVVKEYFANYFLHMSDVTFDMAANTMEVHHRCADPWRVTLIDTGETTMTGGRLRRVREHLDDGPFCFTYGDGVADIDIGALLAFHRDHGKLATVTAIQPPGRYGALELDAERVNAFQEKPAGDGAWINGGFFVLDPAVIDYVDGDACSWESEPLLRLAAEGNLMAYRHRGFWQAMDTLRDKNQLEDLWQSGRAPWKVWA	PGPT0022605_917	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PARATOSE|TRYLOSE|ABEQUOSE|ASCARYLOSE_MODIFICATION,PGPT0022605-rfbF-K00978	NA	NA
BMS020_04582	1161	tgt_2	COG0343	Queuine tRNA-ribosyltransferase	ATGCCTGTCGCGCCCATGTCCCGCCTCCAGTTCCAACTGCACACCACCGACGGCGACGCCCGCCGCGGTCGCCTGACCTTCCCGCGTGGCACGGTCGAGACCCCGGCGTTCATGCCGGTCGGCACCTACGGCTCGGTCAAGGGCGTGCTGCCGGAGCAGGTCGGCGAGCTGGGGGCCGAGATCATCCTCGGCAATACCTTCCATCTGTACCTGCGTCCGGGCCTGGACGTGATCGGCGACCACGGCGGCCTGCACGGCTTCTGCAAGTGGAACGGGCCGATCCTGACCGACTCCGGTGGCTTCCAGGTGTTTTCGCTTGCGCATCGTCGCAAGATCACCGAGGAAGGCGTCACGTTTGCCGCGCCGACCGATGGCTCCAAGGTCTTCCTGAGCCCCGAGGTCAGCATGCGCATCCAGCACGTGCTGGACTCGGACGTGGTGATGATCTTCGACGAGTGCACGCCATACCCGGCCACCCACGACGTCGCCCGGCGCTCGATGGAGCTGAGCCTGCGCTGGGCGGCGCGCTCGCGTCAGGCGCATGACGGGCTGGGCAACGATGCGGCGCTGTTCGGCATCGTCCAGGGCGGGGTGCACACCGACCTGCGCAGCCGCTCGGCCGAAGGCCTGCAGGCGATCGGCTTCGACGGCTACGCGATCGGTGGGCTGGCGGTCGGCGAGCCCGAGCACGAGCGCAATGCGATGCTCGAGCACCTCAACCCGGTCCTGCCCAAGGACCGCCCGCGCTACCTGATGGGGGTGGGGCGGCCGGAAGACCTGGTCGAGGGCGTGGCGCGCGGCGTGGACATGTTCGACTGCGTGATGCCGACCCGCAACGCCCGCAACGGCCACTACTTCACCTCCACCGGCACCGTGCGCATCCGCAACGCCCGCTACGAGCGCGACCTGGAGCCGATCGAGCCCGGCTGCGGCTGCTATGCCTGCCGCAATGGCTATACCCGCAGCTACCTGCGCCACCTGGACCGCTGCAACGAGATGCTGGCGCCGATGCTCGGCACCCTGCACAACCTCTGGTACTACCAGAAGTTGATGGCCGACATGCGCGCGGCGATCGCCGCGGGAACCTTTGTCGCGTTCCGGCGGTCCTTCTATGCGGCCCGGGGCGCCACGCCGCCCCCGCTGGCCGGCCACGGGGAGTGA	MPVAPMSRLQFQLHTTDGDARRGRLTFPRGTVETPAFMPVGTYGSVKGVLPEQVGELGAEIILGNTFHLYLRPGLDVIGDHGGLHGFCKWNGPILTDSGGFQVFSLAHRRKITEEGVTFAAPTDGSKVFLSPEVSMRIQHVLDSDVVMIFDECTPYPATHDVARRSMELSLRWAARSRQAHDGLGNDAALFGIVQGGVHTDLRSRSAEGLQAIGFDGYAIGGLAVGEPEHERNAMLEHLNPVLPKDRPRYLMGVGRPEDLVEGVARGVDMFDCVMPTRNARNGHYFTSTGTVRIRNARYERDLEPIEPGCGCYACRNGYTRSYLRHLDRCNEMLAPMLGTLHNLWYYQKLMADMRAAIAAGTFVAFRRSFYAARGATPPPLAGHGE	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
BMS020_04583	351	yajC_2	COG1862	Sec translocon accessory complex subunit YajC	ATGAACCTGCTCGATTTCCTGATTCCCGCCGCCCAGGCCCAGACCGCTGGCGCGCCGGCCCAGGGTGGCGCCATGGGGCTCACCACGCTGCTGTTCCCGATCGCGCTGATCGCGATCATGTACTTCCTGATGATCCGCCCGCAGATGAAGAAGCAGAAAGAGCACAAGTCGATGCTCGACAAGCTTGGCAAGGGCGATGAAGTCATCACCACCGGCGGCATCGCCGGCGTGGTCATCGACATCGGCGACAACTTCGTCACCGTCGAGGTGTCCGATGGCGTGCGCGTGCGCGTGCAGAAGGGTGCCGTCGGCCACGTGCTGCCGAAGGGCACGCTGAAGTCGGCCAACTGA	MNLLDFLIPAAQAQTAGAPAQGGAMGLTTLLFPIALIAIMYFLMIRPQMKKQKEHKSMLDKLGKGDEVITTGGIAGVVIDIGDNFVTVEVSDGVRVRVQKGAVGHVLPKGTLKSAN	PGPT0025730_1234	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025730-yajC-K03210	NA	NA
BMS020_04584	1845	secD_2	COG0342	Protein translocase subunit SecD	ATGCTCGAATTTCCCCGCTGGAAGTACTTCCTGATCCTGGTGGTGCTGGTGCTCAGTACGCTGTATGCGCTGCCCAACGCCTACCAGAAGGATCCCGCCGTCCAGATCACCGCCAATCGCGGCGGCCAGATCGATGACACCTTGAGCCAGCAGGTCAGCAACGACCTGAAGACCGCCGGCATCGTGCCCAAGGCGGTGGCCAAGGAGGGCGACAGCCTGATCGTGCGGCTGCCGTCGCTCGAGGCGCAGACCCGCGCCAACGACGTGCTGCGCCAGCAGGTCGGCGAGAACTACACCGTCGCGCTGAACCTGGCCTCGACCGTGCCGGACTGGCTGGCCAAGCTCGGCGGCAAGCCGATGGTGCTGGGTCTGGACCTGGTCGGCGGCGTGCACTTCGCGCTGCAGGTCGATCAGAAGGCCGCGCTGGAGAAGCGCCTGGATGGCTTCGCCGAAGACATCCGCACCACGCTGCGTGACGCCCGCATCGCCTACCGTTCGGTCGAGCGCCGCGCCGACAACAGCATCCAGGTGGTGCTGTCCGACGCCGCCACCGGTGACCAGGCCCGCGTGGCGCTGGCCAAGGCGCAGCCGACGCTGACCTATTCGGTGAGCGGCGAGCGCATCGCGGTGACCGTGCCGGCCACCGAGCTGCAGCAGATCGCCAGCGGCGCGATCGAGCAGAACCTGACCACGCTGCGCAACCGCGTCAACGAGCTGGGCGTGGCCGAGCCGATCATCCAGCGCCAGGGCGAGGACCGCATCGTGGTCGAGCTGCCGGGCGTGCAGGACACCGCCGAGGCCAAGCGCCTGATCGGTGCCACCGCGACGCTGGAGTTCCGCGGCGTGGTCGATGGCAACGCCGAGGATGCGGTGCGTTCGGGCAACATCCCGGCCGACGCCAAGGTCTACCGCGTGCGCGATACCGGCGCGCCGGTGCTGCTGAGCAAGCGCGTGCTGGTGTCGGGCGACCAGATGGTCAATGCCACCGTCTCCACCGACCAGAACGGCATGCCGGCGGTCGCGGTGACGCTGAACAACTTCGCCGGGCAGAAGATGCTCGACTACACCGGCGCCAACGTTGGCAAGCTGATGTCGGTGGTCTACATCGAGCGCATCCCGACCGTGACCATGGTCGACGGCAAGGAAGTGCGCAGCGTCAAGATCAAGGAAGAGGCGCTGTCGCCGACCCGCATCGCCGGCGTGTTCGGCAAGAACTTCCAGACCACCGGGCTGGAGAAGGCCGAGGCCGAGAACCTGGCCAAGCTGCTGCGTGCCGGTTCGCTGGCCGCGCCGATGGACTTCGTCGAGGAATACGTGATCGGCCCGAGCCTGGGCGCGGAGAACGTCGAGCGCGGCATCCAGGCGGTGGTGTTCTCGTTCCTGTTCACGCTGGTGTTCTTCACCGTGTACTACCGCGTGTTCGGTGCGATCACCTCGGTGGCGCTGCTGTTCAACCTGCTGATCGTGGTCTCGGTGATGTCGCTGTTCGGCGCGACGATGACGCTGCCCGGCTTCGCCGGCCTGGCGCTGTCGGTGGGCCTGTCGGTCGACGCCAACGTGCTGATCAACGAGCGTATCCGCGAGGAGCTGCGCCACGGCATGCCGCCGAAATCGGCCATCGCGGCCGGTTACGACAAGGCCGGCGGCACCATCCTCGACGCCAACCTGACCGGTCTGATCGTCGGCATCGCGCTGTACGCGTTCGGCACCGGCCCGCTGAAGGGCTTCGCGCTGACCATGATCATCGGCATCTTCGCCTCGATGTTCACCGCGATCACCGTGTCGCGCGCGCTGGCGGTGCTGATCTACGGCCACCGCAAGAAGATCAAGTCGGTTGCGATCTGA	MLEFPRWKYFLILVVLVLSTLYALPNAYQKDPAVQITANRGGQIDDTLSQQVSNDLKTAGIVPKAVAKEGDSLIVRLPSLEAQTRANDVLRQQVGENYTVALNLASTVPDWLAKLGGKPMVLGLDLVGGVHFALQVDQKAALEKRLDGFAEDIRTTLRDARIAYRSVERRADNSIQVVLSDAATGDQARVALAKAQPTLTYSVSGERIAVTVPATELQQIASGAIEQNLTTLRNRVNELGVAEPIIQRQGEDRIVVELPGVQDTAEAKRLIGATATLEFRGVVDGNAEDAVRSGNIPADAKVYRVRDTGAPVLLSKRVLVSGDQMVNATVSTDQNGMPAVAVTLNNFAGQKMLDYTGANVGKLMSVVYIERIPTVTMVDGKEVRSVKIKEEALSPTRIAGVFGKNFQTTGLEKAEAENLAKLLRAGSLAAPMDFVEEYVIGPSLGAENVERGIQAVVFSFLFTLVFFTVYYRVFGAITSVALLFNLLIVVSVMSLFGATMTLPGFAGLALSVGLSVDANVLINERIREELRHGMPPKSAIAAGYDKAGGTILDANLTGLIVGIALYAFGTGPLKGFALTMIIGIFASMFTAITVSRALAVLIYGHRKKIKSVAI	PGPT0029260_1410	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0029260-secD-K03072	NA	NA
BMS020_04585	969	secF_2	COG0341	Protein translocase subunit SecF	ATGAAACTTTTTCCGCTCCATCTCATTCCGAACGACACCAAGATCGACTTCATGCGCCACCGCAAGCCGGTGCTGGCGCTGATGGTGATCCTGCTGGTCGCCTCGATCGCCATCATCGGCGTGCGTGGCTTCAACTACGCGCTGGAGTTCACCGGCGGCACCGTGGTGCACACGCACTTCGACAAGCCGGTGGACGTCGACCAGGTGCGCGAGAAGCTGGCCGCGGCCGGCTTCGAGGGCGCCCAGGCGCAGAGCGTCGGCGGCGGCAACGACGTCATGGTGCGGCTGCAGCCGCACGGTGAGCACAGCAACGCCGACGACGCCTCGCGCACCATCGCCGAGGACGTGCGCAAGGCGGTGAGCACCGAGGCCAACCCGGCCACGGTTCAGCCGGGCGAGTTCGTCGGCCCGCAGGTCGGCCGCGACCTGGCGATGAACGGCGTCTACGCGACGGTGTTCATGCTGGTCGGCTTCCTGATCTACATCGCGTTCCGCTTCGAGTGGAAGTTCGCGGTGGTGGCCAGCCTGACCGCGTTCTTCGACCTGATCCTGACCATCGCCTACATGTCGCTGCTCGGCCGCGAGTTCGACCTGACCGTGCTGGCCGGCCTGCTGTCGGTGATGGGCTTTGCGATCAACGACATCATCGTGGTGTTCGACCGCGTCCGCGAGAACTTCCGCGGCCTGCGCGTGGAGCCGCTGGAAGTGCTGAACCGCTCGATCAACCAGACCCTGTCGCGCACGATCATCACCGCGGTGATGTTCTTCCTGTCGGCATTGGCGCTGTACATCTACGGCGGCTCGTCGATGGAAGGCCTGGCCGAGACGCACATGGTCGGCGCGGTGATCGTGGTGGTGTCGTCGGTGATCGTCGCGGTGCCGCTGCTGAGCATCGGGCCGTTCGCGGTGACCAAGCAGGACCTGCTGCCGAAGGCCAAGGACGTCGAGGCGCTGGCGCGTCGTCCCTGA	MKLFPLHLIPNDTKIDFMRHRKPVLALMVILLVASIAIIGVRGFNYALEFTGGTVVHTHFDKPVDVDQVREKLAAAGFEGAQAQSVGGGNDVMVRLQPHGEHSNADDASRTIAEDVRKAVSTEANPATVQPGEFVGPQVGRDLAMNGVYATVFMLVGFLIYIAFRFEWKFAVVASLTAFFDLILTIAYMSLLGREFDLTVLAGLLSVMGFAINDIIVVFDRVRENFRGLRVEPLEVLNRSINQTLSRTIITAVMFFLSALALYIYGGSSMEGLAETHMVGAVIVVVSSVIVAVPLLSIGPFAVTKQDLLPKAKDVEALARRP	PGPT0029265_1668	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0029265-secF-K03074	NA	NA
BMS020_04586	177			hypothetical protein	ATGAAGCAGCTCCGTCCCTTCCTGCTCGCCGCCGGCACCGCGCTGGCGCTCAGCGCCTGCCTGCCTCCGCCGCACCACGGCGGCCCCGGTGGCCCGGGCGGCGACCGTCACGACCAGCACGACCGCAACGATCAGCGCGGCGACCACGGCGACCACGACCGCGGCGGTCCGGGCTGA	MKQLRPFLLAAGTALALSACLPPPHHGGPGGPGGDRHDQHDRNDQRGDHGDHDRGGPG				NA	NA	NA	NA	NA
BMS020_04587	1257	oprB_2	COG3659	Porin B	ATGACCGCCCTCCCCACCCGCCGCCTGATCGCGGCCGCCGTGGCGCTCGCGCTTGCGCCTGCCGCCCACGCCGACGACCTGCTCGACGCCGTCACCCCGAAGCTGTCCTACACCGGCGAAGCCGCCGCCACCCTCGACGGCGGCAAGGACCGCGGCAGCGCCTACGCCGGGCAGCTGATGTTCGGTGCCGACGTCGACCTGGACGCCGCATTCGGCTGGCGCGGCGCCACGCTGAAGGCCTACGGCATCAACCGCCACGGCACCAACCTGGCCCGCAGCAGCACCGGCAACAGCACCTCGGTGCAGGAGATCTACGGCGGCCAGGGCACGCGCCTGGCCAACCTGACCATCGAGCAGAAGCTGCTCGACGACCGCCTGGTGCTGGAAGCCGGCCGCAGCGTCGCCAACATCCATTTCCTCGGCTCGGAGCTGTGCCAGTACTTCCAGGGCAACTCCGCCTGCGGCAACCCGACCTACGTGTTCCGCACCAGCAACTTCACCTGGTGGCCGGTGTCGAGCTGGATGGCCGACGCGACCGCCTGGATCACGCCCAACGTCTACGCGCACGTCGGTGCCTACCAGGTCGATCCGAGCCAGGCCGAAGATGGCGAGCACGGCCTGCGCTGGAGCACCCGCGACGCCACCGGCTGGATCGTGCCGTACGCGATCGGCTGGCGCAGCCCGGCCAGCGCGCGACTGAAGGCCAAGTACGAACTCGGCGGCTGGCAGGACAACTCGCGCTACAGCGATCCGCTGCGCGACGCCACCGGTGTGCCGGCACTGCTCAGCGGCCAGGACTATGCCAGCAGGCACGGGCGCTCGGGCGTGTTCGTGCGCGCTGAACAGCAGCTCAGCGACAACGGCAACGGCGGCGGTCTGACCGTGTTCGGCGCGGTGCTGAAGGGCACCTCAGGGCAGCTGATCGAGGACGACTTCGTGCAGGCCGGGCTGGTGCAGAAAGGCACGTTCGCCAGCCGTCCGCAGGACAACATCGCCTTCGTCGTGACCCGCCAGCACTACAGCGACATCGCGCTGGAGAACCTGCGCCTGGCGCGTGCCGCCGCCGGCGGCAGCGGCACCCCGCACGCCAGCCAGGTGATGATGGAGCTGAGCTACGGCATCCAGCTGACCCCGCAGCTGCGGATCGCGCCGAACCTGCACTACATCGTGCACCCGGACCAGTTCGACGAACCGGCACGCCTGCACGACCTGCCGAACGCGCTGATCGCCGGCCTGCGCCTGGACTGGACGCTGTAA	MTALPTRRLIAAAVALALAPAAHADDLLDAVTPKLSYTGEAAATLDGGKDRGSAYAGQLMFGADVDLDAAFGWRGATLKAYGINRHGTNLARSSTGNSTSVQEIYGGQGTRLANLTIEQKLLDDRLVLEAGRSVANIHFLGSELCQYFQGNSACGNPTYVFRTSNFTWWPVSSWMADATAWITPNVYAHVGAYQVDPSQAEDGEHGLRWSTRDATGWIVPYAIGWRSPASARLKAKYELGGWQDNSRYSDPLRDATGVPALLSGQDYASRHGRSGVFVRAEQQLSDNGNGGGLTVFGAVLKGTSGQLIEDDFVQAGLVQKGTFASRPQDNIAFVVTRQHYSDIALENLRLARAAAGGSGTPHASQVMMELSYGIQLTPQLRIAPNLHYIVHPDQFDEPARLHDLPNALIAGLRLDWTL				NA	NA	NA	NA	NA
BMS020_04588	1737	fruA_3	COG1299	PTS system fructose-specific EIIB'BC component	ATGCAAACATCCATCGTCGTCATCGCCGCCGGCGAGCGCAGCACCGAGGCCCTGCTCGCGGCCGAGGCGCTGCGCCTGGCGGCCACGCGTAGCGGCCAGGCGCTGGCGGTCGAGATCCGCAGCAGCGCTGGCGTGCTTGGCGCACTGGCACCCGAGCAGGCCGCCGCGGCCCAACGCGTGCTGCTGGTCGGCGACAGCGGCGACGATGCCGCCGCCCGCTTCCCGGCCGCACAGCGCCTGCAGCTGTCGCTGGCGCAGGTGCTGGACGCGCCGGCGCAGGCACTGGCGCAGCTGGCCGGACTCGGCGCGGCGGACGCCACCGCCCCCGGCAGCCACGCAGCGGACGCGCCGCGCCGCATCGTCGCGATCACCTCTTGCCCGACCGGCATCGCCCACACCTTCATGGCCGCCGAAGGCCTGCAGCAGGCGGCCACGGCGCTGGGCCACACGATCCGGGTCGAGACCCAGGGCTCGGTGGGCGCGCAGGACGCGCTCACCGATGCCGAGATCCGCGACGCCGACGTGGTCATCGTCGCCGCCGACCGCGAGGTCGACCTGGCCCGTTTCGCCGGCAAGCGCCTGCTGCGCAGCGGCACCAAACCGGCGATCAACGACGGCCAGAACCTGATCCGCAAGGCGCTGGCCGAGGCGCGCCCGCACGGCGCGACAAGCACCGCTGACACCAACGCCGGCAACGACGGCGGTGCCAAGCCGGCCGGCCCGTACAAGCACCTGATGACCGGCGTGTCGTTCATGCTGCCGTTCGTCACCGCCGGCGGCCTGCTGATCGCGCTGGCGTTCGCGCTCGGCGGCATCTACGCCGGCGACGATGCTCACCAGGGCACGCTTGCCTGGACCCTGTTCCAGATCGGCGCCAAGGCCGGCTTCACCCTGATGGTGCCGGCGCTGGCCGGCTACATCGCCTACTCCATCGCCGACCGCCCCGGCATCGCCCCGGGCATGATCGGCGGCGTGGTCGCGGCGAACATGGGCGCCGGTTTCATCGGCGGCATCCTCGCCGGCTTCATCGCCGGCTACGGCGTGTACTGGCTCAACCGCAGCCTGCCGCTGCCGCGCAGCCTGCAGGGCCTGAAGCCGGTACTGATCCTGCCGGTGCTGGGCACGCTGCTGGTCGGCCTGCTGATGATGTACGTGTTCGGCGGCCCGGTCGCGCAGCTGCTGGCGTGGCTGACCGAGTGGCTGCGCGGCATGCAGGGCGGCAGCGCGCTGCTGCTCGGCGCGCTACTCGGCGGGATGATGGCGGTGGACATGGGCGGCCCGGTCAACAAGGCCTCGTACGCGTTCTCCACCGCGCTGATCTCCAGCCAGGTCTACACGCCGATGGCGGCGACGATGATCGGCGGCATGGTGCCGCCGCTGGCGCTGGCACTGGCGACGCGGCTGTTCGCCAACCGCTTCACCCGCGACGAGCACGAGTCGGCCCCGGCCGCCGGCGTGCTCGGCCTGGCCTTCGTCACCGAAGGCGCAATCCCCTACGCCGCGCGCGATCCGCTGCGCACGATCCCGCCGCTGGTGCTCGGCGCGGCGATCGCCGGCGCGATCTCGATGCACGCCGGCGTCGAGCTGAAGGTGCCGCACGGCGGCGTGTTCGTGCTGCCGATCCCCAACGCGGTCAGCCACCTGGCCGTGTACCTGCTGGCGCTCGCCGCCGGCGTGCTGGCCAGCGCCCTCGCCCTCGGCGCGCTGAAGAAACCCCTGACCCCCACCGCGAGCTGA	MQTSIVVIAAGERSTEALLAAEALRLAATRSGQALAVEIRSSAGVLGALAPEQAAAAQRVLLVGDSGDDAAARFPAAQRLQLSLAQVLDAPAQALAQLAGLGAADATAPGSHAADAPRRIVAITSCPTGIAHTFMAAEGLQQAATALGHTIRVETQGSVGAQDALTDAEIRDADVVIVAADREVDLARFAGKRLLRSGTKPAINDGQNLIRKALAEARPHGATSTADTNAGNDGGAKPAGPYKHLMTGVSFMLPFVTAGGLLIALAFALGGIYAGDDAHQGTLAWTLFQIGAKAGFTLMVPALAGYIAYSIADRPGIAPGMIGGVVAANMGAGFIGGILAGFIAGYGVYWLNRSLPLPRSLQGLKPVLILPVLGTLLVGLLMMYVFGGPVAQLLAWLTEWLRGMQGGSALLLGALLGGMMAVDMGGPVNKASYAFSTALISSQVYTPMAATMIGGMVPPLALALATRLFANRFTRDEHESAPAAGVLGLAFVTEGAIPYAARDPLRTIPPLVLGAAIAGAISMHAGVELKVPHGGVFVLPIPNAVSHLAVYLLALAAGVLASALALGALKKPLTPTAS	PGPT0017120_1895	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
BMS020_04589	948	lacC_2		Tagatose-6-phosphate kinase	ATGGCGGCCGCGATCACCGTCACCCTCAACCCGGCGATCGACCAGACCGTGCACCTGGCGCGGCTGCGCCCGGGGGAGGTCAACCGCGCCGAACGCGCGCGCGACGATGCCGGCGGCAAGGGCATCAACGTCGCCGCCTGCCTGGCCGACTGGGGCGTGACCACTGTCGCCGCCGGCGTGCTGGGCGCCGGCAACACCGGCACCTTCGAGCAGTTGTTCCGCGAGCGCCGCATCGTCGACCACTGCCTGCGCGTGGCCGGCCACACCCGGACCAACATCAAGCTGGTCGCCGCCGACAGCGGCGACACCACCGACATCAACCTGCCCGGACTGGCCCTGAGCCAGGAGCACCTGCAGGAAGTCGCCGACCGGTTGGCGCCGCTGCTGCGCCGCGGCCAGCCGGTGGTGCTGTCCGGCAGCCTGCCGGCCGGTGCCGGCGACGATGCCTGGGCGCGGCTGGTGGCCCAGGCCCAGCCGGCCGGCGCACGGGTGGTGCTCGATACCCGCGGCGCGCCGCGGGCCGCCACACTCGCCGGCCCGGCGCTGCCGGACGTGCTCAAGCCCAACCGCCACGAGCTGGAAAGCTGGGCAGGGCACGCGCTGCCCGACCGCGACGCGGTGCTCAAGGTCGCCCGCGCCCTGCTCGCCCGTGGCGTCGGCCGCGTGGTGGTCTCGCTGGGCACCGACGGCGCGCTGTTCGTCGACGCCCAGCAGGCACTGCTGGCGCGCCCACCGCGGCTGGCGCTGGGCAGCAGCGTCGGCGCCGGCGACGCGATGGTGGCCGGCCTGGCCGCAGCGATGCTGGACGACGAAGCCAGCCTGGCCGCGACCGCCCGCCTGGCCACCGCCTTCGCGATGAGCCGGCTCGAAAGCGGCGACGCACGCCGGCTCGACCCGGTGCAGGTCCGCGCCTGGGCCGGCGACGTCGTGATCGAGCCGCTGGCCTGA	MAAAITVTLNPAIDQTVHLARLRPGEVNRAERARDDAGGKGINVAACLADWGVTTVAAGVLGAGNTGTFEQLFRERRIVDHCLRVAGHTRTNIKLVAADSGDTTDINLPGLALSQEHLQEVADRLAPLLRRGQPVVLSGSLPAGAGDDAWARLVAQAQPAGARVVLDTRGAPRAATLAGPALPDVLKPNRHELESWAGHALPDRDAVLKVARALLARGVGRVVVSLGTDGALFVDAQQALLARPPRLALGSSVGAGDAMVAGLAAAMLDDEASLAATARLATAFAMSRLESGDARRLDPVQVRAWAGDVVIEPLA	PGPT0017580_534	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
BMS020_04590	1926	ptsI_2	COG1080	Phosphoenolpyruvate-protein phosphotransferase	GTGCGCAGCGGCGAGCAGGTCGCCGACCTGCGCAGCCTGGTCGCGCTGCTGCAGCTCGGCCTGCACCACGGCGACGAGGTCACGGTCTCGGCCGAAGGCCACGACGCCGCCGCGCTGCTGGCCGCGTTGCGCGAGAGCATGGAGGCGCTGGTCGCGACGGAAACCGCCGAGGCCGCGCGTGCGGCCCAGCGCCGCGCCGCGCCGGTCACCGGCTGGACCCCGCCACACGCGCAGGCCGACATCGCCGGCATCGGCGCCAGCCCCGGCCTGGCGATTGGCCCGGTGCACGTGCTGCGCATGGCGCAGGCCGCCGTCGCCGACCGCCCGGCCCCGCTGGGCGATGGTGGCGCGCAGCTGCACGACGCGCTGCTGCGCACCCGCCAGCAGCTGGCGGCACTGGAGGACGATACCCAGCGCCGGCTCGGCGCGGCCGACGCGGCGATCTTCCGCGCCCAGGCCGAACTGCTCAACGACACCGACCTGATCACCCGCGCCTGCCAGCTGATGGTCGAAGGCCACGGTGTGGCCTGGTCCTGGCACGCGGCGGTGGAACAGATGGCCGCCAAGCTGGCCGGCCTCGGCAACCCGGTGCTGGCCGCGCGCGCGGCCGACCTGCGCGACGTCGGCCGCCGCGTGCTGGCGCTACTCGACCCGGACACCGCCGAGGGCGGCCTGGACGCGCTGCCGGACCATCCGTGCATCCTGCTCGCCCACGACCTGTCGCCCTCCGATACCGCCAATCTCGACACCGCCCGCGTGCTCGGGCTGGCCACCGCGCAGGGCGGGCCGACCTCGCATACCGCGATCCTGTCGCGCACGCTCGGCCTGCCGGCCGCGGTCGCCGCCGGCGAGGCGCTGCTGGACATCGCCGACGGCACCGTCGCGATCCTCGATGGCGACAGCGGCCGGCTCTACCTGGCGCCGGGCCAGGCCGACATCGACGCCGCGAACGCCCACCTCGCCGAGCAGCGCGCCACCCGCGCGCGCGAGGCCGCCGAGCGCGCGCGTCCGGCCTGCACCCGCGACGGCCACACCTTCGACATCGGCGCCAACGTCAACCTGCCCGAACAGGTCGCGCTGGCGCTGGACCAGGGCGCCGAGGGCGTCGGCCTGATGCGCACCGAGTTCCTGTTCCTGGAGCGCGGCAGCACCCCCAGCGAGGACGAACAGTTCCAGACCTACCGGGCGATGGCCGCCGCGCTCGACGGCCGCCCGCTGATCGTGCGCGCGCTCGACATCGGCGGCGACAAGCAGGTTGCGCACCTGCGCCTGCCGCGCGAGGAAAACCCGTTCCTCGGCGTGCGCGGCGCGCGCCTGCTGCTGCGCCGCGCCGACCTGCTGGAGCCGCAGCTGCGGGCGCTGTACCGCGCCGCGCGCGAGGGTGCGCGGCTGTCGATCATGTTCCCGATGATCACATCGGTCGGCGAGCTGCTGGCGCTGCGCGGCATCTGCGAGCGGATCCGCGAGGAGCTGCATGCGCCGGTGCTGCCGATCGGCATCATGATCGAGGTGCCGGCCGCGGCGATGCAGGCCGACGTGCTGGCACGCCACGCCGACTTCTTCTCGATCGGCACCAACGACCTGACCCAGTACGTGCTGGCGATCGACCGGCAGAACCCGGAGCTGGCCGCCGAGGCCGACAGCCTGCATCCGGCGGTGCTGCGGATGATCCGCGCCACCGTCGACGGCGCGCGCCGCCACGGGCGCTGGGTCGGCGTCTGCGGCGGCCTGGCCGGCGATCCGTACGGCGCCAGCCTGCTGGCCGGGCTCGGCGTGCAGGAGCTGTCGATGACGCCGAACGACATCCCGGCGGTAAAGGCGCGCCTGCGCGGCACCGAGCTGGCCGCGCTGCAGGCGCTGGCCGCGCGCGCACTGGACTGCGAAGACGCCGCGCAGGTGCGCGCGCTCGAGCAGGAGGTGGCGTGA	MRSGEQVADLRSLVALLQLGLHHGDEVTVSAEGHDAAALLAALRESMEALVATETAEAARAAQRRAAPVTGWTPPHAQADIAGIGASPGLAIGPVHVLRMAQAAVADRPAPLGDGGAQLHDALLRTRQQLAALEDDTQRRLGAADAAIFRAQAELLNDTDLITRACQLMVEGHGVAWSWHAAVEQMAAKLAGLGNPVLAARAADLRDVGRRVLALLDPDTAEGGLDALPDHPCILLAHDLSPSDTANLDTARVLGLATAQGGPTSHTAILSRTLGLPAAVAAGEALLDIADGTVAILDGDSGRLYLAPGQADIDAANAHLAEQRATRAREAAERARPACTRDGHTFDIGANVNLPEQVALALDQGAEGVGLMRTEFLFLERGSTPSEDEQFQTYRAMAAALDGRPLIVRALDIGGDKQVAHLRLPREENPFLGVRGARLLLRRADLLEPQLRALYRAAREGARLSIMFPMITSVGELLALRGICERIREELHAPVLPIGIMIEVPAAAMQADVLARHADFFSIGTNDLTQYVLAIDRQNPELAAEADSLHPAVLRMIRATVDGARRHGRWVGVCGGLAGDPYGASLLAGLGVQELSMTPNDIPAVKARLRGTELAALQALAARALDCEDAAQVRALEQEVA	PGPT0016875_2	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
BMS020_04591	252	oadG_1	COG3630	Oxaloacetate decarboxylase gamma chain	ATGACTGAAGCTGTACTGCTGGGTGAAGGCTTCACCCTGATGTTCCTCGGCATGGGGTTCGTGCTGGCGTTTCTGTTTCTGCTGATTTTCGCCATCCAGGGCATGTCCGCCGCCGTCAACCGCTTCTTCCCCGAACCGGCTGTCGCGCCGAAGGCGGCACCTGCGCCCGCCGCCTCGCACGCTGACGATTTCGCCCGCTTAACGCCGGCGATTGTCGCCGCCATTCACCACCACCGCCGTCTTCACCCTTAA	MTEAVLLGEGFTLMFLGMGFVLAFLFLLIFAIQGMSAAVNRFFPEPAVAPKAAPAPAASHADDFARLTPAIVAAIHHHRRLHP	PGPT0001945_306	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001945-oadG-K01573	NA	NA
BMS020_04592	1341	citS	COG3493	Citrate-sodium symporter	ATGACTAACATGAGCCAGGCTCCGGCGACGGAGAAAAAGGGCGTAAGCGACCTGCTGGGATTTAAAATCTTCGGCATGCCGTTACCCCTTTATGCGTTTGCGTTAATTACGCTATTACTTTCCCACTTCTTTAATGCGTTACCCACCGACCTGGTTGGCGGCTTTGCCATTATGTTTATTATCGGCGCCATCTTTGGCGAGATTGGCAAACGGCTGCCGATATTTAATAAATATATTGGCGGCGCGCCGGTGATGATCTTCCTCGTCGCCGCTTATTTCGTTTACGCAGGCATTTTTACCCAAAAAGAAATTGATGCAATCACTAATGTGATGGATAAAAGCAACTTCCTGAACTTATTCATCGCAGTTTTGATAACTGGCGCCATTCTCTCGGTTAACCGTAAACTGCTGTTGAAATCGCTGCTGGGTTATATTCCGACGATCCTTATGGGGATCCTCGGCGCATCTATCTTCGGGATTATCATCGGCCTGTGCTTCGGTATTTCCGTAGACCGTATCATGATGCTGTACGTCCTGCCGATTATGGGCGGCGGCAACGGCGCAGGCGCGGTTCCGCTGTCTGAAATTTATCACTCCGTCACCGGCCGCTCCCGTGAAGAGTACTACTCCACCGCGATTGCCATTCTGACCATCGCCAATATCTTCGCCATCGTTTTTGCCGCGCTGCTCGATATTATCGGTAAAAAACACACCTGGCTGAGCGGGGAAGGCGAACTGGTACGTAAAGCCTCCTTTAAAGTTGATGATGATGAAAAAGCAGGCCAGATTACCCATCGCGAAACGGCAGTCGGCCTGGTGCTCGCCACCACCTGTTTCCTGCTGGCCTACGTCATTGCCAAGAAAATTTTGCCAAGCATTGGCGGTGTCTCAATCCACTATTTCGCCTGGATGGTGCTGATCGTCGCGGCGCTGAACGCTTCCGGCCTCTGCTCGCCGGAGATCAAAGCCGGGGCCAAACGCCTGTCTGACTTCTTCTCTAAGCAGCTGCTGTGGGTACTGATGGTCGGGGTCGGCGTGTGCTACACCGACCTGCAGGAAATTATCGACGCGATTACCTTCGCGAACGTCATCATCGCTGCGGTAATCGTCGTGGGTGCTGTCGTCGGGGCGGCCATCGGCGGCTGGATGATTGGCTTCTTCCCGATCGAATCCGCCATCACCGCAGGCCTGTGCATGGCTAACCGCGGCGGCTCAGGCGACCTGGAAGTGCTCTCTGCCTGTAACCGTATGAATCTTATCTCTTATGCGCAAATCTCCTCCCGTCTGGGCGGCGGTATTGTGCTGGTCATCGCCAGCATTGTGTTCGGCATGATGATGTAA	MTNMSQAPATEKKGVSDLLGFKIFGMPLPLYAFALITLLLSHFFNALPTDLVGGFAIMFIIGAIFGEIGKRLPIFNKYIGGAPVMIFLVAAYFVYAGIFTQKEIDAITNVMDKSNFLNLFIAVLITGAILSVNRKLLLKSLLGYIPTILMGILGASIFGIIIGLCFGISVDRIMMLYVLPIMGGGNGAGAVPLSEIYHSVTGRSREEYYSTAIAILTIANIFAIVFAALLDIIGKKHTWLSGEGELVRKASFKVDDDEKAGQITHRETAVGLVLATTCFLLAYVIAKKILPSIGGVSIHYFAWMVLIVAALNASGLCSPEIKAGAKRLSDFFSKQLLWVLMVGVGVCYTDLQEIIDAITFANVIIAAVIVVGAVVGAAIGGWMIGFFPIESAITAGLCMANRGGSGDLEVLSACNRMNLISYAQISSRLGGGIVLVIASIVFGMMM				NA	NA	NA	NA	NA
BMS020_04593	921	citC	COG3053	[Citrate [pro-3S]-lyase] ligase	ATGGCCATTGTCGCCGAGTATCAGCAGCGGCTGGTCGGCTGCGGCGCCATCGCCGGCAACGTCCTGAAGTGCATCGCTATCGACCCCTCGCTGCAGGGGGAGGGGCTGAGCCTTAAGCTACTGACAGAATTACTCACCCTGGCCTACGAGCTGGGGCGCAGTGAACTGTTTTTATTCACTAAGCCCTGTAACGTCGCGCTCTTTGCCGGCGCCGGATTCTGGCCAATCGCGCAGGCCGGCGATCTCGCCGTGTTACTGGAAAATAGCCGCGAACGGCTGACCCGCTACTGCCGCCAGCTGGCGATGTACCGTCAGCCGGGACGCAAAATAGGCGCTATCGTGATGAACGCCAACCCGTTCACGCTCGGCCACCGCTGGCTGGTGGAGCAGGCGGCCCGTCAGTGCGACTGGCTACACCTGTTTGTGGTGAAAGAGGATGCCTCCCGTTTCACGTATCAGGATCGCTACACGCTAATCGAAAAAGGGATTGCCGGCATCGACAAGGTAACGCTGCATCCCGGTTCGGCATACCTCATCTCGCGGGCCACCTTCCCTGGCTACTTCCTCAAAGAACAGGGGGTGGTGGACGACTGCCACAACCAGATCGATCTCCAGCTGTTCCGCGAACATTTAGCCCCGGCGCTGAAGATAACCCATCGTTTTGTCGGCACTGAGCCGCTGTGTTCGCTGACCCGCCATTACAACCAGCGTATGAAAGCGTTGCTGGCAGCGCCAGGCGACGCGCCGCCTGTTGAAGTGGTTGAGCTGGCGCGGATCGAAAAAAACGGCGGGCCGATATCGGCTTCCAGGGTGCGCGAACTGTACCGGCAGCGCAACTGGCAGGCGGTGGCGGCGCTGGTGCCGCCGGGAACCCTCTCTTTTCTGATGCAACTGGCGGAAAGCGAACATCAAACCGCCTGA	MAIVAEYQQRLVGCGAIAGNVLKCIAIDPSLQGEGLSLKLLTELLTLAYELGRSELFLFTKPCNVALFAGAGFWPIAQAGDLAVLLENSRERLTRYCRQLAMYRQPGRKIGAIVMNANPFTLGHRWLVEQAARQCDWLHLFVVKEDASRFTYQDRYTLIEKGIAGIDKVTLHPGSAYLISRATFPGYFLKEQGVVDDCHNQIDLQLFREHLAPALKITHRFVGTEPLCSLTRHYNQRMKALLAAPGDAPPVEVVELARIEKNGGPISASRVRELYRQRNWQAVAALVPPGTLSFLMQLAESEHQTA	PGPT0019470_428	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_CITRATE_SENSING|UTILIZATION,PGPT0019470-citC-K01910	NA	NA
BMS020_04594	294	citD	COG3052	Citrate lyase acyl carrier protein	ATGGAAATGAAGATTGACGCCCTGGCCGGCACGCTGGAGTCCAGCGATGTGATGGTCAGGATTGGGCCGGCGACGCAGCCGGGCATTCAACTGGAGATCGACAGCATTGTGAAGCAGCAGTTTGGCGATGCGATTGAGCAGGTGGTCAGAGAAACCCTGACGCAGCTCGGCGTTAGCCAGGCCAACGTGGTGGTGGATGATAAAGGGGCGCTGGAGTGCGTTCTGCGCGCCCGGGTTCAGGCTGCGGCCCTGCGCGCGGCGCAACAGTCTCAATTGCAATGGAGCCAGCTATGA	MEMKIDALAGTLESSDVMVRIGPATQPGIQLEIDSIVKQQFGDAIEQVVRETLTQLGVSQANVVVDDKGALECVLRARVQAAALRAAQQSQLQWSQL	PGPT0019475_255	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_CITRATE_SENSING|UTILIZATION,PGPT0019475-citD-K01646	NA	NA
BMS020_04595	870	citE	COG2301	Citrate lyase subunit beta	ATGAAACCACGTCGCAGTATGCTGTTTATCCCCGGCGCCAATGCCGCCATGTTAAGTACTTCATTCGTTTACGGCGCCGATGCGGTGATGTTCGACCTTGAAGATGCCGTTTCGCTGCGCGAGAAAGATACCGCTCGCCTGCTGGTGTATCAGGCGCTGCAGCATCCGCTGTATCAGGATATCGAAACCGTGGTGCGCATTAACCCGCTAAATACGCCGTTTGGTCTGGCCGACCTGGAAGCGGTGGTACGCGCGGGTGTGGACATGGTACGTCTGCCGAAAACCGACAGCAAAGAAGATATTCATGAACTGGAAGCCCACGTTGAGCGGATTGAACGCGAGTGCGGCCGGGAAGTGGGTAGCACCAGGCTTATGGCGGCCATCGAGTCGGCGCTGGGGGTGGTAAACGCGGTCGAGATCGCCCGCGCCAGCCCGCGTCTGTCGGCCATCGCGCTGGCGGCCTTCGACTACGTTATGGATATGGGCACCTCCCGCGGCGACGGCACTGAGCTGTTCTATGCCCGCTGCGCCGTGCTGCATGCTGCGCGGGTCGCCGGCATCGCCGCCTATGACGTCGTGTGGTCGGATATTAATAATGAAGAGGGCTTCCTCGCGGAAGCGAATCTGGCGAAGAACCTCGGCTTCAACGGGAAATCACTGGTCAACCCGCGCCAGATCGAACTGCTGCACCAGGTCTATGCCCCGACGCGAAAAGAGGTCGACCATGCGCTGGAGGTGATTGCCGCGGCGGAAGAGGCAGAGTCGCGCGGTCTGGGCGTGGTGTCACTGAACGGCAAGATGATCGATGGACCGATTATCGACCACGCGCGCAAAGTGGTGGCGCTTTCAGCTTCCGGTATTCGTGATTAA	MKPRRSMLFIPGANAAMLSTSFVYGADAVMFDLEDAVSLREKDTARLLVYQALQHPLYQDIETVVRINPLNTPFGLADLEAVVRAGVDMVRLPKTDSKEDIHELEAHVERIERECGREVGSTRLMAAIESALGVVNAVEIARASPRLSAIALAAFDYVMDMGTSRGDGTELFYARCAVLHAARVAGIAAYDVVWSDINNEEGFLAEANLAKNLGFNGKSLVNPRQIELLHQVYAPTRKEVDHALEVIAAAEEAESRGLGVVSLNGKMIDGPIIDHARKVVALSASGIRD	PGPT0019480_2206	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_CITRATE_SENSING|UTILIZATION,PGPT0019480-citE-K01644	NA	NA
BMS020_04596	1527	citF	COG3051	Citrate lyase alpha chain	ATGAAAGAGACAGTAGCAATGCTTAATCAGCAGTATGTGATGCCGGAAGGATTGACCCCTTACAGCGGCGTGACGGCGAAAAGCCCATGGCTGGCCAGTGAGACGGAAAAGCGCCGGCGTAAAATCTGCGACTCGCTGGAAACGGCAATCCGTCGTTCCGGCCTGCGAAACGGCATGACCATCTCGTTCCACCACGCGTTTCGCGGCGGTGACAAAGTGGTCAATATGGTGGTGGCGAAGCTGGCGGAGATGGGCTTTCGCGATCTGACCCTGGCGTCCAGTTCGCTTATCGACGCTCACTGGCCGCTGATCGAGCATATTAAAAACGGCGTGATCCGCCAGATCTACACCTCCGGCCTGCGCGGGAAGCTCGGCGAGGAGATCTCCGCCGGGCTGATGGAAAATCCGGTGCAGATCCACTCTCACGGTGGTCGCGTACAGCTGATCCAAAGCGGTGAGTTGTCCATTGACGTGGCGTTCCTCGGCGTTCCCTGCTGCGATGAGTTTGGCAATGCCAACGGCTTTAGCGGTAAGTCGCGCTGCGGCTCGCTGGGCTACGCGCGCGTTGATGCGGAACATGCCAAATGCGTCGTGCTGTTGACCGAAGAGTGGGTGGACTACCCTAACTACCCGGCCAGTATCGCCCAGGATCAGGTGGATCTGATCGTTCAGGTGGACGAAGTAGGCGATCCGGAAAAAATCACCGCTGGCGCCATTCGTCTGACCAGCAATCCGCGCGAGCTGCTGATCGCCCGCCAGGCGGCGAAAGTGGTTGAACACTCCGGTTACTTTAAAGAGGGTTTCTCACTGCAGACCGGTACCGGCGGCGCCTCGCTGGCGGTGAGCCGCTTCCTGGAAGACAAAATGCGCCGCAACGGTATCACCGCCAGCTTCGGCCTTGGCGGCATCACCGGGACGATGGTCGATCTGCATGAGAAAGGGCTGATTAAAACGCTGCTCGACACCCAGTCGTTCGATGGCGATGCGGCGCGCTCGCTGGCGCAGAACCCGAACCACGTCGAAATCTCTACCAATCAGTATGCCAGCCCGGGTTCCAAAGGGGCCTCCTGCGAGCGCTTAAACGTGGTAATGCTCAGCGCGCTGGAAATTGACACCGACTTTAACGTCAACGTGATGACCGGCTCCAATGGCGTGCTGCGCGGCGCGTCAGGCGGTCATAGCGATACCGCCGCCGGCGCGGATTTGACCATCATTACCGCGCCGTTAGTTCGCGGCCGCATTCCCTGCGTCGTGGAAAAGGTGCTGACCCGCGTGACGCCGGGAGCCAGCGTGGATGTGCTGGTCACCGACCATGGCATTGCGGTAAACCCGGCGCGCCAGGACCTGATCGACAATTTACGCAACGCCGGTATTGCGCTGATGACCATTGAGGAACTGCAGCAGCGCGCGGAGTTGCTGACGGGCAAACCGAAAGCGATCGAATTTACCGATCGGGTGGTGGCGGTAGTCCGCTATCGCGACGGTTCGGTCATCGATGTGATCCATCAGGTGAAAAACAGCGACTAA	MKETVAMLNQQYVMPEGLTPYSGVTAKSPWLASETEKRRRKICDSLETAIRRSGLRNGMTISFHHAFRGGDKVVNMVVAKLAEMGFRDLTLASSSLIDAHWPLIEHIKNGVIRQIYTSGLRGKLGEEISAGLMENPVQIHSHGGRVQLIQSGELSIDVAFLGVPCCDEFGNANGFSGKSRCGSLGYARVDAEHAKCVVLLTEEWVDYPNYPASIAQDQVDLIVQVDEVGDPEKITAGAIRLTSNPRELLIARQAAKVVEHSGYFKEGFSLQTGTGGASLAVSRFLEDKMRRNGITASFGLGGITGTMVDLHEKGLIKTLLDTQSFDGDAARSLAQNPNHVEISTNQYASPGSKGASCERLNVVMLSALEIDTDFNVNVMTGSNGVLRGASGGHSDTAAGADLTIITAPLVRGRIPCVVEKVLTRVTPGASVDVLVTDHGIAVNPARQDLIDNLRNAGIALMTIEELQQRAELLTGKPKAIEFTDRVVAVVRYRDGSVIDVIHQVKNSD	PGPT0019485_418	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_CITRATE_SENSING|UTILIZATION,PGPT0019485-citF-K01643	NA	NA
BMS020_04597	909	citG_2	COG1767	2-(5''-triphosphoribosyl)-3'-dephosphocoenzyme-A synthase	ATGAGCGACGTGTTAATTCAACCTCCGCGTGTGCTACGCGGAAAACCACTGAGCGCCGAAGAGGTGGTCAGCGCGGTAGAGCGCGCGCTGTTGACCGAAGTTCGCCTGACCCCTAAGCCCGGGCTGGTGGATATTCGTAACGCTGGCGCGCACCGGGATATGGATCTGGCCTCGTTTGAGGCCAGTACCGCGGTGGTGGCGCCGTGGATGGAGAAGTTTTTTATCATGGGCCACGATACCGCGGCGGTCGCGCCGGAGCAGGTGTTGATGATGCTGCGTCCGGTGGGAATGGCCTGCGAGAACGATATGCTGGAGGTCACCGGCGGGGTGAATACCCATCGTGGGGCGATCTTCGCTTTTGGCCTGCTCAGCGCGGCAGCGGGCAGGCTGGTCTCGAAAGGCGAGCCGATAGAGCAGCACCGGCTTTGCGACCAGGTGGCGCGCTTCTGTCGCGGCATGGTTATGCAGGAATTGTCCTCCGCCAGTGGGGAACGGCTGAGCAAAGGCGAGATGCATTTTCTGCGTTACGGCTTCTCCGGCGCCCGCGGCGAGGCGGAGAGCGGATTCCTGACTGTGCGCACCCAGGCATTACCGGTCTTTAACCGCATGATGGAGGAGACCGGCGACAGCAATCTGGCGCTACTGCAAACCCTGCTGCATCTGATGGCATGGAATGATGACACCAACCTGGTGTCACGCGGCGGGCTGGCCGGATTGAACTATATCCAGCAGGAGGCGCAGCGGCTGCTGTGGCAGGGCGGCGTGCTGGCTGACGGTGGGCTGGAGGCGTTGCGCCAGTTTGATGACGATCTGATTGCCCGCCATCTTAGCCCCGGCGGTAGCGCCGATCTGCTGGCGGTGACCTGGTTTTTATCCGCGTTTCCCGCCGGCGCGCTTTTCCCGCTGTAA	MSDVLIQPPRVLRGKPLSAEEVVSAVERALLTEVRLTPKPGLVDIRNAGAHRDMDLASFEASTAVVAPWMEKFFIMGHDTAAVAPEQVLMMLRPVGMACENDMLEVTGGVNTHRGAIFAFGLLSAAAGRLVSKGEPIEQHRLCDQVARFCRGMVMQELSSASGERLSKGEMHFLRYGFSGARGEAESGFLTVRTQALPVFNRMMEETGDSNLALLQTLLHLMAWNDDTNLVSRGGLAGLNYIQQEAQRLLWQGGVLADGGLEALRQFDDDLIARHLSPGGSADLLAVTWFLSAFPAGALFPL	PGPT0019500_210	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_CITRATE_SENSING|UTILIZATION,PGPT0019500-citG-K05966	NA	NA
BMS020_04598	822	dapB_1	COG0289	4-hydroxy-tetrahydrodipicolinate reductase	ATGCATGATGCACAAATCCGCGTGGCCATCGCCGGCGCGGGCGGCCGGATGGGACGCCAGTTAATTCAGGCTGCGCTGCAGATGGATGGAGTGGCGCTGGGCGCGGCGCTGGAGCGTGAAGGATCCAGCCTGGTGGGCAGCGACGCCGGCGAGCTGGCGGGCGCCGGCAAAGCGGGCGTCACGGTGCAGAGCAGCCTGACGGCGGTAAAAGATGATTTCGACGTGTTGATCGATTTTACCCGCCCGGAAGGCACGCTGAACCATCTGGCGTTTTGCCGCGACCACGGCAAAGGGATGGTCATAGGCACCACCGGTTTTGACGACGCTGGCAAGCAGGCGATTAGCGATGCCGCGCAGGAGATTGCCATTGTCTTTGCCGCTAACTTTAGCGTCGGCGTCAATGTTCTGTTAAAGCTGCTGGAGAAGGCGGCGAAGGTGATGGGCGACTACACCGACATCGAAATTATCGAAGCGCACCATCGGCATAAAGTGGATGCGCCGTCAGGCACCGCGCTGGCGATGGGCGAAGCGATCGCCGGGGCATTGAACAAAGATCTCAAGGACTGCGCGGTCTACAGTCGTGAAGGCCACACTGGCGAACGCGTCCCGGGCACCATTGGCTTCGCGACCGTCCGCGCCGGGGATATCGTCGGTGAACATACAGCGATGTTTGCTGATATTGGCGAACGTATTGAGATCACCCATAAAGCCTCCAGTCGGATGACATTTGCTAATGGCGCGGTTCGCTCTGCATTGTGGCTGAAAGGCAAGAAAAATGGCCTCTTTGATATGCGCGACGTGCTGGAGCTGAATAGTTTATAA	MHDAQIRVAIAGAGGRMGRQLIQAALQMDGVALGAALEREGSSLVGSDAGELAGAGKAGVTVQSSLTAVKDDFDVLIDFTRPEGTLNHLAFCRDHGKGMVIGTTGFDDAGKQAISDAAQEIAIVFAANFSVGVNVLLKLLEKAAKVMGDYTDIEIIEAHHRHKVDAPSGTALAMGEAIAGALNKDLKDCAVYSREGHTGERVPGTIGFATVRAGDIVGEHTAMFADIGERIEITHKASSRMTFANGAVRSALWLKGKKNGLFDMRDVLELNSL				NA	NA	NA	NA	NA
BMS020_04600	1149	carA_1	COG0505	Carbamoyl-phosphate synthase small chain	TTGATTAAGTCAGCGCTATTGGTTCTGGAAGACGGAACCCAGTTTCACGGTCGGGCCATCGGGGCAACCGGCACGGCGGTTGGGGAAGTCGTTTTCAATACTTCAATGACCGGTTATCAAGAAATCCTCACTGATCCTTCCTATTCCCGCCAAATCGTCACTCTTACTTATCCTCATATTGGTAATGTCGGTACCAACGCCGCCGATGAAGAATCTTCTCAGGTACATGCTCAGGGTCTGGTTATTCGCGACCTGCCGCTGATTGCCAGCAACTTCCGCAGTACCGAAGACCTCTCTTCCTATCTGAAGCGCCATAACATCGTGGCGATTGCCGATATCGATACCCGCAAGCTGACGCGTCTGCTGCGTGAGAAAGGGGCGCAGAACGGCTGCATCATCGCGGGCGACAGTCCGGATGCCCAGCTGGCGCTGGAAAAAGCGAAAGCGTTCCCTGGCCTGAACGGCATGGACCTGGCGAAAGAAGTGACCACCGCAGAAACCTACAGCTGGACGCAAGGCAGCTGGACCCTGGCGGGCGACCTGCCGGAAGCGAAAGCGGAAAACGAGCTGCCGTTCCACGTCGTCGCGTATGACTTCGGCGCGAAACGCAACATCCTGCGCATGCTGGTTGACCGCGGCTGCCGCCTGACGGTGGTGCCGGCGAAAACTTCGGCGGCGGATGTGCTGGCGCTCAATCCGGACGGCATTTTCCTCTCCAACGGTCCTGGCGACCCGGCGCCGTGTGATTACGCTATCGACGCGATTGAAAAATTCCTGGAGACCGATATTCCGGTGTTCGGCATCTGCCTCGGCCATCAGCTGCTGGCGCTGGCGAGCGGCGCCAAGACCATTAAGATGAAGTTCGGCCACCACGGCGGCAACCACCCGGTGAAAGATATTGATAATAACGTGGTGATGATCACCGCCCAGAACCACGGTTTCGCCGTGGATGAGGCGACGCTGCCGGCCAACCTGCGCGTGACCCACAAGTCGCTGTTCGACGGCACCCTGCAGGGGATCCATCGCACCGACAAGCCGGCGTTCAGCTTCCAGGGCCACCCTGAAGCGAGCCCGGGGCCGCACGATGCCGCGCCGCTGTTCGACCACTTTATCGAGTTAATTGAGCAATACCGTCAGTCCGCGAAATAA	MIKSALLVLEDGTQFHGRAIGATGTAVGEVVFNTSMTGYQEILTDPSYSRQIVTLTYPHIGNVGTNAADEESSQVHAQGLVIRDLPLIASNFRSTEDLSSYLKRHNIVAIADIDTRKLTRLLREKGAQNGCIIAGDSPDAQLALEKAKAFPGLNGMDLAKEVTTAETYSWTQGSWTLAGDLPEAKAENELPFHVVAYDFGAKRNILRMLVDRGCRLTVVPAKTSAADVLALNPDGIFLSNGPGDPAPCDYAIDAIEKFLETDIPVFGICLGHQLLALASGAKTIKMKFGHHGGNHPVKDIDNNVVMITAQNHGFAVDEATLPANLRVTHKSLFDGTLQGIHRTDKPAFSFQGHPEASPGPHDAAPLFDHFIELIEQYRQSAK	PGPT0021155_1972	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021155-carA-K01956	NA	NA
BMS020_04601	3225	carB_2	COG0458	Carbamoyl-phosphate synthase large chain	ATGCCAAAACGTACAGACATAAAAAGTATCCTGATTCTGGGCGCGGGCCCGATTGTTATCGGTCAGGCGTGCGAGTTTGACTACTCCGGCGCCCAGGCCTGTAAAGCCCTGCGCGAAGAGGGCTACCGCGTTATCCTGGTGAACTCTAACCCGGCGACCATCATGACCGACCCGGAAATGGCCGATGCCACCTACATCGAGCCGATTCACTGGGAAGTGGTGCGCAAAATCATCGAAAAAGAGCGCCCGGACGCGGTGCTGCCGACCATGGGCGGCCAGACGGCGCTGAACTGCGCGCTGGAGCTGGAGCGTCAGGGGGTGCTGGCTGAATTCGGCGTGACCATGATTGGCGCCACCGCCGATGCGATTGACAAGGCCGAAGACCGTCGCCGTTTCGATATCGCGATGAAAAAAATCGGTCTCGACACCGCGCGTTCCGGTATCGCCCACACCATGGAAGAGGCGCTGGCGGTAGCGGCTGACGTCGGCTATCCGTGCATCATCCGTCCGTCGTTCACCATGGGTGGCACCGGCGGCGGCATCGCCTATAACCGCGAAGAGTTCGAAGAGATTTGTACCCGCGGCCTGGATCTCTCTCCCACCAACGAGCTGCTGATTGATGAATCGCTGATCGGCTGGAAAGAGTATGAGATGGAAGTGGTGCGCGATAAGAACGACAACTGCATCATCGTCTGCTCTATCGAAAACTTCGACGCCATGGGGATCCACACCGGTGACTCCATCACCGTTGCGCCGGCGCAGACCCTGACCGACAAAGAGTACCAAATCATGCGTAACGCCTCGATGGCGGTGCTGCGTGAAATCGGCGTCGAAACCGGCGGCTCTAACGTTCAGTTCGCGGTCAACCCGAAAAACGGTCGCCTGATTGTTATCGAAATGAACCCGCGCGTTTCCCGCTCCTCGGCGCTGGCCTCGAAAGCCACCGGCTTCCCGATTGCTAAAGTGGCCGCCAAGCTGGCGGTAGGTTACACCCTCGACGAGCTGATGAACGACATCACCGGCGGCCGTACCCCGGCTTCCTTCGAGCCGTCCATCGACTACGTGGTCACGAAAATCCCACGCTTTAACTTCGAAAAATTCGCCGGCGCCAACGACCGTCTGACCACCCAGATGAAGTCCGTTGGCGAAGTGATGGCGATTGGCCGTACCCAGCAGGAGTCCTTGCAGAAAGCGCTGCGCGGTCTGGAAGTGGGCGCCACTGGCTTCGACCCGAAAGTGAGCCTCGACGATCCGGAAGCGCTGACTAAAATCCGCCGCGAACTGAAAGACGCCGGCGCTGAGCGTATCTGGTACATCGCCGACGCGTTCCGCGCGGGCCTCTCGGTTGACGGCGTCTTCAACCTGACCAACATCGACCGCTGGTTCCTGGTGCAGATTGAAGAGCTGGTCCGTCTGGAAGAGAAAGTGGCGGAAGTGGGCATCAACGGCCTCGACGCTGACTTCCTGCGTACCCTGAAGCGTAAAGGCTTTGCCGATGCGCGTCTGGCGAAGCTGGCGGGCGTGCGGGAAGCGGAAATCCGCAAACTGCGCGACCAGTATGATCTGCACCCGGTCTACAAGCGCGTGGACACCTGCGCCGCGGAATTCGCCACCGATACCGCCTATATGTACTCCACTTATGAAGAAGAGTGCGAGTCCAACCCGTCCGTTGACCGCGATAAAATCATGGTCCTCGGCGGCGGCCCGAACCGTATCGGTCAGGGTATCGAATTCGACTACTGCTGCGTACACGCCTCGCTGGCGCTGCGCGAAGACGGTTACGAGACCATCATGGTCAACTGTAACCCGGAAACCGTCTCTACTGACTACGACACTTCCGACCGTCTGTACTTCGAGCCGGTCACCCTGGAAGACGTGCTGGAAATCGTGCGTATCGAGAAGCCAAAAGGCGTTATCGTGCAGTACGGCGGCCAGACGCCGCTGAAGCTGGCGCGCGCTCTGGAAGCCGCAGGCGTACCGGTTATCGGTACCAGCCCGGACGCTATCGACCGTGCGGAAGACCGTGAGCGCTTCCAGCACGCGGTTGACCGTCTGAAGCTGAAGCAGCCGGCGAACGCCACCGTCACCGCCATTGAACAGGCAGTAGAGAAAGCGAAAGAGATTGGCTACCCGCTGGTGGTGCGTCCGTCTTACGTGCTGGGCGGTCGGGCGATGGAGATCGTCTATGACGAGCAGGATCTGCGCCGCTACTTCCAGACTGCGGTCAGCGTCTCCAACGACGCGCCGGTGCTGCTGGACCGCTTCCTCGACGACGCGATTGAAGTGGATGTCGATGCTATCTGCGATGGCGAAATGGTGCTGATTGGCGGCATCATGGAGCATATCGAGCAGGCAGGCGTTCACTCCGGCGACTCCGCCTGTTCCCTGCCAGCCTACACCCTGAGCAAAGAGATTCAGGATGTGATGCGCGAGCAGGTGCAGAAGCTGGCCTTCGAGCTGCAGGTTCGCGGTCTGATGAACGTCCAGTTCGCGGTGAAAGATAACGAAGTCTATCTGATTGAAGTCAACCCGCGTGCGGCGCGTACCGTGCCGTTCGTCTCCAAAGCCACCGGCGTACCGCTGGCGAAAGTGGCGGCGCGCGTGATGGCCGGTAAGACGCTGGCGCAGCAGGGCGTGACCAAAGAGATCATCCCGCCGTACTACTCGGTGAAAGAGGTGGTTCTGCCGTTCAACAAATTCCCGGGCGTTGACCCGCTGTTAGGGCCAGAAATGCGCTCCACCGGGGAAGTGATGGGCGTCGGCCGCACCTTTGCCGAAGCGTTCGCCAAGGCGCAGCTGGGCAGCAACTCGACCATGAAGAAACAGGGGCGCGCGCTGCTCTCTGTCCGCGAAGGCGACAAAGAGCGCGTGGTCGACCTGGCGGCGAAGCTGCTGAAGTTTGGTTTCGAGCTGGATGCAACCCACGGTACCGCGATTGTGCTGGGCGAAGCGGGCATCAACCCGCGTCTGGTGAACAAGGTGCATGAAGGTCGTCCGCACATTCAGGACCGTATCAAGAATGGCGAATACACCTACATCATCAACACCACCGCAGGTCGTCAGGCGATTGAAGACTCCAAGCTGATTCGCCGCAGCGCCCTGCAGTACAAAGTGCACTATGACACCACCCTGAACGGCGGCTTTGCCACCGCGATGGCGCTGAACGCTGACGCCACCGACAAGGTGATTTCGGTTCAGGAAATGCACGCGCAAATCACCAAATAA	MPKRTDIKSILILGAGPIVIGQACEFDYSGAQACKALREEGYRVILVNSNPATIMTDPEMADATYIEPIHWEVVRKIIEKERPDAVLPTMGGQTALNCALELERQGVLAEFGVTMIGATADAIDKAEDRRRFDIAMKKIGLDTARSGIAHTMEEALAVAADVGYPCIIRPSFTMGGTGGGIAYNREEFEEICTRGLDLSPTNELLIDESLIGWKEYEMEVVRDKNDNCIIVCSIENFDAMGIHTGDSITVAPAQTLTDKEYQIMRNASMAVLREIGVETGGSNVQFAVNPKNGRLIVIEMNPRVSRSSALASKATGFPIAKVAAKLAVGYTLDELMNDITGGRTPASFEPSIDYVVTKIPRFNFEKFAGANDRLTTQMKSVGEVMAIGRTQQESLQKALRGLEVGATGFDPKVSLDDPEALTKIRRELKDAGAERIWYIADAFRAGLSVDGVFNLTNIDRWFLVQIEELVRLEEKVAEVGINGLDADFLRTLKRKGFADARLAKLAGVREAEIRKLRDQYDLHPVYKRVDTCAAEFATDTAYMYSTYEEECESNPSVDRDKIMVLGGGPNRIGQGIEFDYCCVHASLALREDGYETIMVNCNPETVSTDYDTSDRLYFEPVTLEDVLEIVRIEKPKGVIVQYGGQTPLKLARALEAAGVPVIGTSPDAIDRAEDRERFQHAVDRLKLKQPANATVTAIEQAVEKAKEIGYPLVVRPSYVLGGRAMEIVYDEQDLRRYFQTAVSVSNDAPVLLDRFLDDAIEVDVDAICDGEMVLIGGIMEHIEQAGVHSGDSACSLPAYTLSKEIQDVMREQVQKLAFELQVRGLMNVQFAVKDNEVYLIEVNPRAARTVPFVSKATGVPLAKVAARVMAGKTLAQQGVTKEIIPPYYSVKEVVLPFNKFPGVDPLLGPEMRSTGEVMGVGRTFAEAFAKAQLGSNSTMKKQGRALLSVREGDKERVVDLAAKLLKFGFELDATHGTAIVLGEAGINPRLVNKVHEGRPHIQDRIKNGEYTYIINTTAGRQAIEDSKLIRRSALQYKVHYDTTLNGGFATAMALNADATDKVISVQEMHAQITK	PGPT0021150_3096	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021150-carB-K01955	NA	NA
BMS020_04602	234	ygdR_4		putative lipoprotein YgdR	ATGCGGAACAATATTCTGGTGGCATCCGCGCTGGCAGCGACGGCAATCATGTTCGTGGCCGGTTGCTCATCGAATCAGTCGATCAAAACCACCGACGGCAAGACCATTGTCACCAGCGGTAAACCGCAGGTGGATGATGATACCGGTCTGGTCTCATACAAAAATGCCGAAACCGGACGCGTGGAGCAGATTAACCGCGATCAGGTGAAATCCATGGATGAGCTGGATAATTAA	MRNNILVASALAATAIMFVAGCSSNQSIKTTDGKTIVTSGKPQVDDDTGLVSYKNAETGRVEQINRDQVKSMDELDN				NA	NA	NA	NA	NA
BMS020_04603	534	kefF	COG2249	Glutathione-regulated potassium-efflux system ancillary protein KefF	ATGATTCTGATAATTTATGCGCATCCTTATCCGCAGCATTCTCATGCGAATAAGCGAATGCTTGAACAAGCAGGGACGCTTGAAGGCGTAGAGATACGCTCCCTTTATCAACTCTATCCCGACTTTAATATCGATGTCGCCGCCGAGCAGGCGGCGCTCGCCCGTGCCGATCTGGTTATCTGGCAGCACCCGATGCAGTGGTATAGCGTGCCGCCGCTGCTGAAGCTGTGGATGGACAAAGTGCTGTCGCACGGCTGGGCCTATGGCCATAACGGTATTGCGCTGCGCGGTAAGTCGCTGATGTGGGCGGTGACCACCGGCGGCGGTGAAAGCCACTTTGATATCGGTTCGTTTCCCGGTTTTCCGGTGCTGGCGCAGCCGCTGCAGGCCACCGCGCTTTACTGCGGGATGAAATGGCTGCCGCCGTTCGCCATGCACTGCACCTTTATCTGCGATGACGAAACGCTGCAGGCGCAGGCTCGCCACTATCGTCAACGCTTAATCGACTGGCAGGAGGCACATCAGAATGGATAG	MILIIYAHPYPQHSHANKRMLEQAGTLEGVEIRSLYQLYPDFNIDVAAEQAALARADLVIWQHPMQWYSVPPLLKLWMDKVLSHGWAYGHNGIALRGKSLMWAVTTGGGESHFDIGSFPGFPVLAQPLQATALYCGMKWLPPFAMHCTFICDDETLQAQARHYRQRLIDWQEAHQNG	PGPT0013805_227	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013805-kefF-K11746	NA	NA
BMS020_04604	1866	kefC_2	COG0475	Glutathione-regulated potassium-efflux system protein KefC	ATGGATAGCCATACGCTGATACAGGCGCTGATTTACCTTGGCGCCGCGGCGCTGATTGTGCCCATTGCCGTCCGCCTTGGGCTTGGGTCGGTGCTGGGCTATCTCATCGCCGGCTGTATTATCGGGCCGTGGGGGCTGCGGCTGGTGACCGACGCCGAGGCGATTCTGCACTTTGCCGAGATTGGCGTGGTGCTGATGCTGTTCGTCATTGGTCTGGAGCTGGATCCGCAGCGTCTGTGGAAGCTGCGCGCTTCGGTGTTTGGCGGCGGCGCGCTGCAGATGGTGGCCTGTGGGGTATTGATCGGCCTCTTTTGCATGCTGCTGGGCCTGCGCTGGCAGGTGGCCGAGCTGATCGGTATGACCCTGGCGCTCTCCTCAACCGCTATCGCCATGCAGGCGATGAATGAGCGCAATTTGACGATGTCGCAGATGGGGCGCAGCGCCTTCGCGGTGCTGCTGTTCCAGGATATCGCGGCGATCCCGCTGGTGGCGATGATCCCGCTGCTGGCGGCCAGCGGCGGCGCCACTTCGCTGATGGCTTTTGCCCTCTCCGCGCTGAAGGTGGCCGCGGCGCTGGCGCTGGTGGTGGTTCTGGGGCGCTATCTGACCCGTCCGCTGCTGCGCTTTGTCGCCCGTTCCGGTCTGCGCGAAGTGTTCAGCGCCGTGGCCCTGTTCCTGGTCTTCGGCTTTGGGCTGTTGCTGGAAGAGGTGGGGCTGTCGATGGCGATGGGGGCGTTTCTCGCCGGGGTGCTGCTGGCCAGCTCCGAGTATCGCCATGCGCTGGAGAGCGATATTGAGCCGTTTAAAGGCCTGCTGCTGGGGCTGTTCTTTATCGGCGTCGGGATGTCGATTGATTTCGGCACCCTGGTTACCCACCCGCTGTGTATTGTGATTTTGCTGGTGGGTTTCCTGGCGATAAAAATGCTGATGCTGTGGCTTATCGCCAGGCCGCTTGGCGTGCCTCGCGCCCAGCGCCGCTGGTTTGCGGTGCTGCTGGGGCAGGGGAGTGAGTTCGCGTTTGTGGTCTTTGGCGCCGCGCGGATGGCGGAGGTGCTGGACGGCGAATGGGCAAAGGCGCTGACCCTGGCGGTGGCGCTGTCGATGGCGGCAACCCCCATCCTGCTGGTGCTGCTGACCCGTCTGGAGAAATCGTCCAGCGGCCAGGCGCGGGATGCGGACGAGATTGATGAAGAGCAGCCGCGGGTGATTGTCGCCGGCTTTGGCCGCTTCGGGCAGATCGCCGGGCGACTGCTGCTCTCCAGCGGGGTGAAGATGGTGATCCTCGATCACGACCCGGACCATGTCGATACTCTGCGCAAATTTGATATGAAGGTCTTCTACGGCGATGCCACCCGGGTCGATCTGCTGGAGTCGGCTGGCGCCGAAAAGGCGGAGGTGCTGATCAATGCCATTGACGATCCGCACGTCAGCCTGGAGCTGGTGGCGAGGGTAAAAGAGCATTTTCCGCATCTGCAGATTATCTCCCGCGCCCGCGATGTCGATCACTATATCCAACTGCGTCAGGCTGGCGTCGAAGCCCCGGAGCGTGAAACCTTCGAGGCGGCGCTGAAATCCGGCCGGATGACGCTGGAGGCGCTGGGGCTCGGCGCGTATGAAGCGCGCGAGCGGGCCGATCTGTTCCGTCGCTTCAACCTGCAGATGGTCGAAGAGATGGTAGCGATGGCGGAAAACGATGCGGCGTCGCGGGTGGCGGTCTTCAAGCGGACCAGCGATATGCTGACCGGCATCATCAACGAAGATCGTCATCATCTGTCGCTGGTGCAGCGTCACGGCTGGCAGGGGACGGAAGAGGGCAGGCACACCGGGGATATCGCCGATGAGCCGGAAAATAAGCCCTCCGCCTGA	MDSHTLIQALIYLGAAALIVPIAVRLGLGSVLGYLIAGCIIGPWGLRLVTDAEAILHFAEIGVVLMLFVIGLELDPQRLWKLRASVFGGGALQMVACGVLIGLFCMLLGLRWQVAELIGMTLALSSTAIAMQAMNERNLTMSQMGRSAFAVLLFQDIAAIPLVAMIPLLAASGGATSLMAFALSALKVAAALALVVVLGRYLTRPLLRFVARSGLREVFSAVALFLVFGFGLLLEEVGLSMAMGAFLAGVLLASSEYRHALESDIEPFKGLLLGLFFIGVGMSIDFGTLVTHPLCIVILLVGFLAIKMLMLWLIARPLGVPRAQRRWFAVLLGQGSEFAFVVFGAARMAEVLDGEWAKALTLAVALSMAATPILLVLLTRLEKSSSGQARDADEIDEEQPRVIVAGFGRFGQIAGRLLLSSGVKMVILDHDPDHVDTLRKFDMKVFYGDATRVDLLESAGAEKAEVLINAIDDPHVSLELVARVKEHFPHLQIISRARDVDHYIQLRQAGVEAPERETFEAALKSGRMTLEALGLGAYEARERADLFRRFNLQMVEEMVAMAENDAASRVAVFKRTSDMLTGIINEDRHHLSLVQRHGWQGTEEGRHTGDIADEPENKPSA	PGPT0013800_140	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013800-kefC-K11745	NA	NA
BMS020_04605	480	folA	COG0262	Dihydrofolate reductase	ATGATCAGTCTGATTGCGGCGTTAGCGGTAGATCGCGTCATTGGTATGGAAAACGCCATGCCATGGAACCTGCCTGCCGATCTCGCCTGGTTCAAACGCAACACATTAAATAAGCCGGTAGTGATGGGGCGTCTGACCTGGGAATCCATTGGGCGCCCGTTGCCGGGGCGTAAAAATATCGTGATCAGCAGCAAGCCAGGCAGCGACGATCGCGTGCAGTGGGTCTCTTCCGTTGACGAAGCGATTGCCGCCTGCGGCGATGTGGAAGAGATCATGGTGATCGGCGGTGGTCGGGTTTATGAGCAGTTCCTGCCGAAGGCGCAGAAGCTCTATCTGACCCATATCGATGCGGAAGTGGAAGGCGATACCCATTTCCCGGATTACGACCCGGACCAGTGGGAATCGGTGTTCAGCGAGTTTCATGACGCCGACGCGCAGAACTCCCACAGCTACTGCTTTGAGATCCTCGAACGCCGTTAA	MISLIAALAVDRVIGMENAMPWNLPADLAWFKRNTLNKPVVMGRLTWESIGRPLPGRKNIVISSKPGSDDRVQWVSSVDEAIAACGDVEEIMVIGGGRVYEQFLPKAQKLYLTHIDAEVEGDTHFPDYDPDQWESVFSEFHDADAQNSHSYCFEILERR	PGPT0007945_3955	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007945-folA-K00287	NA	NA
BMS020_04606	849	apaH_2	COG0639	Bis(5'-nucleosyl)-tetraphosphatase, symmetrical	ATGTCAACATACCTTATTGGCGACGTTCATGGTTGCTACGATGAACTGATCGCATTATTAGCGCAGGTTGAATTCGACCCGGCGATCGATACGCTGTGGCTGACCGGCGATCTGGTGGCCCGTGGCCCGGGGTCGCTGGAGGTTCTGCGCTATGTCAAATCTCTGGGCGACAGCGTGCGACTGGTGCTGGGCAATCATGATTTACACCTGCTGGCGGTCTTCGCCGGCATCAGCCGCAACAAGCCGAAGGATCGTCTGAAATCACTGCTGGAAGCGCCGGATGCCGATGAGCTCCTTAACTGGCTGCGTCGTCAGCCGCTGCTCCAGGTGGACGAAGAGAAAAAGCTGGTGATGGCCCACGCCGGCATCACCCCGCAGTGGGATCTGGAGACTGCCCAGCAGTGCGCGCGCGATGTAGAAGCGGTGCTCTCCAGCGACTCCTACCCTTTCTTCCTCGATGCCATGTACGGCGACATGCCGAATCACTGGAGCAACGAGCTGAGCGGCCTGGCGCGCCTGCGCTTTATCTCTAACGCCTTCACCCGCATGCGCTACTGCTTCCCGAACGGCCAGCTGGATATGTACTCGAAAGAAGCGCCCGAGGACGCCCCGGCGCCGCTGAAGCCGTGGTTTGCCATTCCGGGACCGGTCAGCAGTGCCTACAGCATTGCCTTTGGCCACTGGGCGTCGCTGGAGGGACGCGGTACGCCGGAGGGCATTTACGCGCTGGATACCGGCTGCTGCTGGGGGGGGGAACTCACCTGCCTGCGCTGGGAGGATAAGCAGTACTTTACCCAGCCGTCGAACCGGCAGAAAAGCCTCGACGAAGGCGAAGCCGTCGCGTCCTGA	MSTYLIGDVHGCYDELIALLAQVEFDPAIDTLWLTGDLVARGPGSLEVLRYVKSLGDSVRLVLGNHDLHLLAVFAGISRNKPKDRLKSLLEAPDADELLNWLRRQPLLQVDEEKKLVMAHAGITPQWDLETAQQCARDVEAVLSSDSYPFFLDAMYGDMPNHWSNELSGLARLRFISNAFTRMRYCFPNGQLDMYSKEAPEDAPAPLKPWFAIPGPVSSAYSIAFGHWASLEGRGTPEGIYALDTGCCWGGELTCLRWEDKQYFTQPSNRQKSLDEGEAVAS	PGPT0021535_406	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021535-apaH-K01525	NA	NA
BMS020_04607	378	apaG_2	COG2967	Protein ApaG	ATGATCAATTCGCCTCGTGTTTGCGTTCAGGTGCAAAGCGTCTATATCGAATCGCAGTCTTCTCCGGAAGAAGAGCGCTACGTCTTCGCTTATACCGTCACCATTCGCAATCTGGGGCGGAGTCAGGTTCAGCTGCTTGGCCGCTACTGGCTCATCACTAACGGCCACGGTCGTGAGACTGAAGTTCAGGGTGAAGGGGTGGTCGGCGAGCAACCGCATATTCCCGCCGGCGGTGAATATCAATATACCAGCGGCGCGGTCATTGAAACGCCGCTGGGAACCATGCAGGGTCATTATGAGATGATCGATATCGACGGCGCGCCGTTCCGTATCGAGATCCCTGTTTTCCGTCTCGCAGTTCCAACGCTCATTCATTAA	MINSPRVCVQVQSVYIESQSSPEEERYVFAYTVTIRNLGRSQVQLLGRYWLITNGHGRETEVQGEGVVGEQPHIPAGGEYQYTSGAVIETPLGTMQGHYEMIDIDGAPFRIEIPVFRLAVPTLIH	PGPT0004665_1210	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-RELATED_ROTEINS,PGPT0004665-apaG-K06195	NA	NA
BMS020_04608	822	rsmA_2	COG0030	Ribosomal RNA small subunit methyltransferase A	ATGAATAATCGAGTCCATCAGGGCCATTTAGCCCGTAAACGCTTCGGGCAGAACTTCCTCAACGATCAGTTTGTGATCGACAGCATCGTCTCGGCGATTAATCCGCAGAAAGGCCAGGCGATGGTTGAAATCGGCCCCGGTCTCGCCGCGCTGACCGAGCCGGTCGGTGAACGCCTTGACCAGCTGACCGTTATCGAGCTGGACCGCGATCTGGCTGCCCGCCTGCAGACGCATCCGTTCCTCGGGCCGAAGCTGACCATCTATCAGCAGGATGCGATGACCATGAACTTCGGCGAACTGGCGGAGAAAATGGGTCAGCCGCTGCGCGTCTTCGGCAACCTGCCGTACAATATTTCGACCCCGCTGATGTTCCATCTGTTCAGCTATACTGATGCCATTGCCGATATGCACTTTATGCTGCAGAAGGAAGTGGTGAATCGTCTGGTTGCCGGACCGAACAGTAAGGCGTATGGTCGGTTAAGCGTGATGGCGCAATATTATTGCCAGGTGATCCCGGTACTCGAAGTGCCGCCGAGCGCGTTTACCCCGCCGCCTAAGGTCGATTCCGCGGTGGTCCGCCTGGTGCCGCACAGCACGATGCCATATCCGGTCAAAGAGATCCGGGTGTTGAGCCGCATCACCACCGAAGCGTTCAACCAGCGCCGCAAGACCATCCGCAACAGTCTCGGCAATCTGTTCAGCGTGGACGTGCTGACCGAGCTGGGCATCGACCCGGCCATGCGTGCAGAAAATATTTCCGTGGCGCAGTACTGCCAGATGGCCAACTGGCTGTCTGACAATCTGCCATCGAAGGAGAGCTAA	MNNRVHQGHLARKRFGQNFLNDQFVIDSIVSAINPQKGQAMVEIGPGLAALTEPVGERLDQLTVIELDRDLAARLQTHPFLGPKLTIYQQDAMTMNFGELAEKMGQPLRVFGNLPYNISTPLMFHLFSYTDAIADMHFMLQKEVVNRLVAGPNSKAYGRLSVMAQYYCQVIPVLEVPPSAFTPPPKVDSAVVRLVPHSTMPYPVKEIRVLSRITTEAFNQRRKTIRNSLGNLFSVDVLTELGIDPAMRAENISVAQYCQMANWLSDNLPSKES				NA	NA	NA	NA	NA
BMS020_04609	990	pdxA_2	COG1995	4-hydroxythreonine-4-phosphate dehydrogenase	ATGCCTGAAACCCGTAAAGTTGTTATCACTCCCGGCGAACCCGCCGGGATTGGCCCTGACCTGGTCGTGCAGCTTGCCCAGCGCGACTGGCCAGTTGAGCTGGTGATCTGCGCCGACGGCGCCCTGTTAACTGACCGAGCCCAGAGGCTCGGTCTTCCTTTATCTCTCCTGCCATATGATGCTGCGCAACCGCCCGTTCCGCAGCGTGCCGGTACGCTGACGCTGCTTAACGTACCGCTGAGCGTCCCGGCGGAGCCCGGCGTGCTGAACGTACAAAACGGCGCCTACGTAGTCGAGACGCTGGCGCGCGCCTGCGACGGCTGCCTGAGCGGCGAATTTGCGGCGTTAGTGACCGGCCCGGTGCACAAAGGCAACATCAACGACGCCGGCATCGCCTTCACCGGTCATACCGAGTTCTTCGAAGAGCGCGCGCAGGCCAGCAAAGTGGTGATGATGCTGGCGACCGAGGAGCTGCGGGTGGCGCTGGTGACGACCCATCTGCCGTTGAAAGCCATCAGCGAGGCGATAACGCCCGACCTGCTGCGCGAGATCATCACGATTCTCGATCACGACCTGCGCACGAAATTTGGCATTGCCCAGCCGCATGTGCTGGTTTGCGGGCTTAACCCGCACGCTGGCGAAGGCGGTCATATGGGAACGGAAGAGATAGACACCATCATTCCGGTGCTGGAAGAGATGCGCGCGAAGGGGATGCACCTCAGCGGTCCGCTGCCGGCTGACACCCTTTTTCAGCCCAAATACCTTGACCATGCCGATGCGGTACTCGCGATGTACCACGATCAGGGCCTGCCCGTGCTAAAATACCAGGGCTTTGGCCGCGGCGTGAACATTACGCTCGGTTTACCTTTTATTCGTACCTCCGTCGACCACGGCACCGCGCTGGAATTAGCGGGCCAGGGAACAGCGGACGTCGGCAGTTTTATCACGGCGCTTAATCTCGCCATCAAAATGATTGTTAATACCCAATGA	MPETRKVVITPGEPAGIGPDLVVQLAQRDWPVELVICADGALLTDRAQRLGLPLSLLPYDAAQPPVPQRAGTLTLLNVPLSVPAEPGVLNVQNGAYVVETLARACDGCLSGEFAALVTGPVHKGNINDAGIAFTGHTEFFEERAQASKVVMMLATEELRVALVTTHLPLKAISEAITPDLLREIITILDHDLRTKFGIAQPHVLVCGLNPHAGEGGHMGTEEIDTIIPVLEEMRAKGMHLSGPLPADTLFQPKYLDHADAVLAMYHDQGLPVLKYQGFGRGVNITLGLPFIRTSVDHGTALELAGQGTADVGSFITALNLAIKMIVNTQ	PGPT0009165_1740	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009165-pdxA-K00097	NA	NA
BMS020_04610	1287	surA_3	COG0760	Chaperone SurA	ATGAAGAACTGGAAAACGCTGCTTCTCGGTATCGCCATGATCGCGAATACCAGTTTCGCTGCCCCCCAGGTGGTCGATAAAGTAGCGGCCGTCGTCAATAATGGCGTCGTACTGGAAAGCGACGTCGATGGTTTGATGCAATCGGTTAAGCTCAATGCTGGTCAGGCTGGCCAACAGCTACCGGATGACGCGACCCTGCGCCATCAGATCCTCGAAAGACTGATCATGGACCAGATCGTGTTACAGATGGGGCAGAAGATGGGCGTGAAGGTCTCTGACGACCAGCTCGATCAGGCCATCGCCAACATCGCCAAACAAAACAATATGACCATGGATCAGATGCGCAGCCGTCTGGCCTATGAAGGCATCAACTACAACACCTACCGTAACCAGATCCGTAAAGAGATGCTGATTTCGGAAGTGCGTAACAATGAAGTGCGTCGTCGCATCACCGTGCTGCCGCAGGAAGTGGAAGCGCTGGCCAAACAGATCGGCGACCAGAACGACGCCAGCACCGAGCTTAACCTGAGCCACATCCTGCTCCCGCTGCCGGAGAACCCGACCTCTGATGAAGTCGCCGCGGCCCAGGAGCAAGCGAATGCCATCGTTGAGCAAGCACGCAACGGCGCCAACTTCGGTAAACTGGCGATCACCTACTCCGCCGACCAACAGGCGCTGAAGGGCGGCCAGATGGGTTGGGGTCGTATCCAGGAGCTGCCGGGCATTTTCGCCCAGGCGTTAAGCACCGCGAAGAAAGGGGATATCGTCGGTCCGATCCGTTCCGGCGTCGGCTTCCACATTCTGAAAGTGAATGACCTGCGCGGCGGGACCCAGAACATCTCCGTCACCGAAGTGCATGCCCGTCATATTCTGCTGAAGCCATCGCCAATCATGAACGATGCGCAGGCTCAGGCTAAGCTGGAGCAGATTGCCGCCGACATTAAGAGCGGGAAAACCACCTTCGCTAAAGCGGCGAAAGCGTATTCTGAAGATCCAGGCTCGGCGAACCAGGGCGGTGATTTAGGCTGGGCCACGCCGGATATCTTCGACCCGGCGTTCCGCGATGCGCTGATGCGTCTGAACAAAGGGCAGACCAGCGGGCCGGTGCACTCCTCCTTCGGCTGGCATCTGATCGAACTGCTGGATAGCCGTCAGGTCGACAGAACCGACGCCGCGCAGAAAGATCGTGCTTACCGTATGCTGATGAACCGCAAATTCTCTGAAGAAGCGGCAACCTGGATGCAGGAACAGCGCGCCAGTGCGTATGTTAAAATTCTGAGCAACTAA	MKNWKTLLLGIAMIANTSFAAPQVVDKVAAVVNNGVVLESDVDGLMQSVKLNAGQAGQQLPDDATLRHQILERLIMDQIVLQMGQKMGVKVSDDQLDQAIANIAKQNNMTMDQMRSRLAYEGINYNTYRNQIRKEMLISEVRNNEVRRRITVLPQEVEALAKQIGDQNDASTELNLSHILLPLPENPTSDEVAAAQEQANAIVEQARNGANFGKLAITYSADQQALKGGQMGWGRIQELPGIFAQALSTAKKGDIVGPIRSGVGFHILKVNDLRGGTQNISVTEVHARHILLKPSPIMNDAQAQAKLEQIAADIKSGKTTFAKAAKAYSEDPGSANQGGDLGWATPDIFDPAFRDALMRLNKGQTSGPVHSSFGWHLIELLDSRQVDRTDAAQKDRAYRMLMNRKFSEEAATWMQEQRASAYVKILSN	PGPT0014978_1855	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014978-surA-K03771	NA	NA
BMS020_04611	2256	lptD_2	COG1452	LPS-assembly protein LptD	ATGCTTGGCGTGCCAAGCTATGATCGTCCGCTCGTGGAAGGTCGGCCTGGCGATCTGCCGGTGACGATTAACGCCGATCATGCGAAGGGCAACTACCCGGACAACGCCGTCTTTACCGGCAACGTCGATATTAACCAGGGGAATAGCCGCCTCCGCGCCGACGAAGTTCAGCTGCATCAGCAGCAGGCCGCGGGCCAGGCGCAGCCGGTGCGCACGGTGGACGCGCTGGGCAACGTGCACTACGACGATAACCAGGTGATCCTCAAAGGGCCAAAAGCCTGGTCGAATCTGAATACCAAAGATACCAACGTCTGGCAGGGCGATTATCAAATGGTCGGACGCCAGGGACGCGGCACCGCTGACCTGATGAAACAGCGCGGCGAAAACCGCTATACCATTCTGGAAAACGGCAGCTTTACCTCCTGTCTGCCGGGCTCCGACACCTGGAGCGTCGTGGGCAGCGAAGTCATCCACGATCGCGAAGAGCAAGTTGCCGAGATCTGGAACGCCCGCTTCAAGCTTGGCTCCGTGCCGATTTTCTATAGCCCCTACCTGCAATTGCCGGTGGGCGATAAGCGTCGTTCAGGCTTCCTGATCCCGAACGCGAAATACAGCACCAAAAACGGCGTGGAATTCTCCCTGCCGTACTACTGGAACATCGCGCCAAACTTCGATGCCACTATCACCCCGCACTATATGAACAAGCGCGGCGGCGTGATGTGGGAAAACGAATTCCGCTATCTGACCCAGCTCGGCAGCGGCTTAACGGAGTTTGACTACCTGCCGTCGGATAAAGTCTACGAAGACGACCACTCCAGCGACAGCAACAGCCGCCGCTGGCTGTTCTACTGGAACCACTCCGGGGTTATCGATCAGGTGTGGCGTCTGAACGCTGACTACACCAAGGTCAGCGATCCTGACTACTTCAACGATTTCAGCTCGAAGTATGGTTCCAGTACCGACGGCTATGCGACGCAGAAATTCAGCGCCGGGTATGTCAATCAGAACTTTGACGCCACGGTCTCAACCAAGCAGTTCCAGGTCTTCGATCGGGAGTCGAGCAACTCCTACTCGGCTGAGCCGCAGCTCGACATCAACTACTACCAGAACGATGTCGGTCCGTTCGATACCCATCTGTACGGCCAGGTCGCCCATTTTGTTAACTCGAACAACAACATGCCGGAAGCGACCCGCGTTCACTTCGAACCGACGATCAACCTGCCGCTGTCCAACGGCTGGGGGAGTCTGAATACCGAAGCCAAGCTGCTGGCGACCCACTACCAGCAGAGCAATCTTGATAAGTACAACGCCGCCAACGGTACGGACTACAAAGAGTCCGTTAGCCGCGTGATGCCGCAGTTTAAAATCGACGGCAAAATGGTCTTTGAGCGCGACCTGCAGGAGGGATTCACCCAAACGCTGGAACCGCGCATGCAGTATCTGTACGTGCCGTACCGCGATCAGAGTGAAATCGGCAGCTACGACTCCACGCTGTTGCAGTCGGACTACACCGGCCTGTTCCGCGACCGTACCTATAGCGGTCTGGACCGCATCGCGTCGGCCAATCAGGTCACTACCGGTATCACCTCGCGCGTGTATGACGCCGCCGCGGTGGAACGTTTTAACATTTCCGTTGGTCAAATCTACTATTTCACCGAGTCACGCACCGGTGATGACAACATCAACTGGGAGAACAACGACACCACGGGTTCACTGGTATGGGCCGGCGACACCTACTGGCGCATTGCCGATAACTGGGGTCTGCGCGGCGGGATCCAGTACGATACGCGTCTGGATAACGTCGCAACCGGCAACGGCACCATTGAATACCGTCGCGATGAAAACCGCTTAGTCCAGCTTAACTATCGTTACGCCAGCCCGGAATATATTCAGGCCACGCTGCCGTCATATTCCACTGCGGCGCAATATAAAGAGGGTATTTCGCAGGTGGGGATGACCGCCAGCTGGCCGATCGTCGATCGCTGGTCCGTGGTCGGGGCCTACTACTACGATACCAATACCCGGAAAGCAGCAAACCAGATGTTGGGTGTCCAGTATAACTCCTGCTGCTACGCCATCCGTCTTGGCTACGAACGTAAAGTCAACGGTTGGGATAGCAACAACAATGGCGGCGAGAGCAAATACGACAACACCTTCGGAATCAATATCGAATTGCGCGGTCTGAGCTCTAATTACGGCCTCGGCACCCAGCAGATGCTGCGTTCGAACATTTTACCGTACCAGAGCTCCCTGTGA	MLGVPSYDRPLVEGRPGDLPVTINADHAKGNYPDNAVFTGNVDINQGNSRLRADEVQLHQQQAAGQAQPVRTVDALGNVHYDDNQVILKGPKAWSNLNTKDTNVWQGDYQMVGRQGRGTADLMKQRGENRYTILENGSFTSCLPGSDTWSVVGSEVIHDREEQVAEIWNARFKLGSVPIFYSPYLQLPVGDKRRSGFLIPNAKYSTKNGVEFSLPYYWNIAPNFDATITPHYMNKRGGVMWENEFRYLTQLGSGLTEFDYLPSDKVYEDDHSSDSNSRRWLFYWNHSGVIDQVWRLNADYTKVSDPDYFNDFSSKYGSSTDGYATQKFSAGYVNQNFDATVSTKQFQVFDRESSNSYSAEPQLDINYYQNDVGPFDTHLYGQVAHFVNSNNNMPEATRVHFEPTINLPLSNGWGSLNTEAKLLATHYQQSNLDKYNAANGTDYKESVSRVMPQFKIDGKMVFERDLQEGFTQTLEPRMQYLYVPYRDQSEIGSYDSTLLQSDYTGLFRDRTYSGLDRIASANQVTTGITSRVYDAAAVERFNISVGQIYYFTESRTGDDNINWENNDTTGSLVWAGDTYWRIADNWGLRGGIQYDTRLDNVATGNGTIEYRRDENRLVQLNYRYASPEYIQATLPSYSTAAQYKEGISQVGMTASWPIVDRWSVVGAYYYDTNTRKAANQMLGVQYNSCCYAIRLGYERKVNGWDSNNNGGESKYDNTFGINIELRGLSSNYGLGTQQMLRSNILPYQSSL	PGPT0023298_1392	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023298-lptD|imp|ostA-K04744	NA	NA
BMS020_04612	828	djlA_1	COG1076	Co-chaperone protein DjlA	ATGCAGTATTTGGGTAAAGTGATTGGCGTGGCAGTGGCTTTGCTGATGGGCGGTGGGTTCTGGGGCGTGGTGCTCGGCTTCCTGGTCGGCCATATGTTTGACCGGGCGCGCAGCCGCCGGTTGAATCTCTTCGCCAATCAGCAGGAGCGTCAGTCGCTCTTCTTTTCCACCACCTTTGAAGTGATGGGGCATCTGACCAAGTCCAAGGGCCGCGTTACCGAAGCGGATATTCACGTCGCCAATGTGCTGATGGATCGCATGAATCTGCACGGCGCTTCGCGCACCGCGGCGCAGCAGGCGTTTCGCGACGGCAAGGCCGACAATTATCCGCTGCGCGAGAAGATGCGCCAGCTGCGCAGCGTCTGCTTTGGCCGCTTCGATCTGATTCGGATGTTTCTGGAAATTCAGCTGCAGGCGGCGTTCGCTGACGGCGAACTGCACCCTAACGAACGTGAAGTGCTGTTCGTCATCGCCGATGAGCTTGGCATCTCCCGCGCCCAGTTCGATCAATTCCTGCGAATGATGCAGGGCGGCGCCCAGTTCGGCGGCGGTTCGCAGCAGCAATCTTATGGTCAGCACGGCGGCAACGCCGGCTGGCAGCAGGCGCAGCGCGGTCCAACGCTGGAGGACGCCTGCAACGTGCTGGGGGTGAAACCGACTGACGACGCGGCGACGGTGAAGCGCGCCTATCGTAAGCTGATGAACGAGCACCATCCGGACAAGCTGGTGGCGAAAGGGCTGCCGCCGGAGATGATGGAGATGGCCAAACAGAAAGCCCAGGAGATCCAGAAGGCCTGGGAGCTGATTAAAGAGCAGCGCGGTTTCTGA	MQYLGKVIGVAVALLMGGGFWGVVLGFLVGHMFDRARSRRLNLFANQQERQSLFFSTTFEVMGHLTKSKGRVTEADIHVANVLMDRMNLHGASRTAAQQAFRDGKADNYPLREKMRQLRSVCFGRFDLIRMFLEIQLQAAFADGELHPNEREVLFVIADELGISRAQFDQFLRMMQGGAQFGGGSQQQSYGQHGGNAGWQQAQRGPTLEDACNVLGVKPTDDAATVKRAYRKLMNEHHPDKLVAKGLPPEMMEMAKQKAQEIQKAWELIKEQRGF	PGPT0014550_330	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014550-djlA-K05801	NA	NA
BMS020_04613	699	citB_1	COG4565	Transcriptional regulatory protein CitB	ATGCATCATGACCTGGTCGATGTGCTAATCATTGAAGATGAGAGCGAGCTGGCGCGCCTGCACGCCGAGCTTGTGCAGAAACACCCGCGCCTGCGGCTGGCGGGCATGGCGGCCTCCCTCGCTCAGGCCCGTCAGTTGCTCCACGCCACGCCGCCGCAGCTGGTGCTGCTGGATAACTATTTGCCGGACGGCAAAGGGGTGACGCTGATGACCGACCCGGCGCTGGCGACCAGCCAATGCTCGGTGATCTTTATCACCGCCGCCAGCGATATGGAAACCTGCAGCCAGGCCATCCGCAACGGCGCCTTCGACTATATTCTTAAGCCGGTATCATGGAAGCGGCTGAGCCAGTCGCTGGAGCGTTTTATCCAGTTCTACGATCAGCAGCGGGAGTGGAAAATCGTCGATCAGCAGAACGTCGATTCCCTCTATCAATTGCAGGCGAAGAACTATCGTATGGATAATGGCAGCAAAGGGATTGAAGAGAAAACGCTGGCGCTGGTGCAGGGTCTGTTTAGCGGCCGGGAAGCGCACTGCTTTTCCGTTGATGAGGTGGTCAGCGCCGCCGGGCTCAGCAAAACCACCGCCCGCCGCTATCTTGAACACGGCGTTGAGACCGGTTTTCTGGAGGTGGAGATGCTGTACGGAAAAATCGGCCATCCGCGGCGGCTGTATCGCCGCGCACAGGCCAAACGCTAA	MHHDLVDVLIIEDESELARLHAELVQKHPRLRLAGMAASLAQARQLLHATPPQLVLLDNYLPDGKGVTLMTDPALATSQCSVIFITAASDMETCSQAIRNGAFDYILKPVSWKRLSQSLERFIQFYDQQREWKIVDQQNVDSLYQLQAKNYRMDNGSKGIEEKTLALVQGLFSGREAHCFSVDEVVSAAGLSKTTARRYLEHGVETGFLEVEMLYGKIGHPRRLYRRAQAKR	PGPT0017220_59	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_CITRATE_SENSING|UTILIZATION,PGPT0017220-dpiA|citB-K07702	NA	NA
BMS020_04614	1626	citA_1	COG3290	Sensor histidine kinase CitA	ATGAAATTATCTTTTCAATATAAGCTGTTTATTTCGCTGGTCGCTTTTTTCTCAGTCCTGTTTATCGCGCTGGGTATTTATTATTACTTTGACGCCAGCCGCCAGCTTTATCAGGAAATGAGCGCCAGGGCCAAAATTCAGGCCGAAGAGATAGCCCTGATGCCAAATTTACGTCAGCAGGTCAGCCGGCATGACCCACAGGCGATTCAGGCATTTATGCAGCAAATCGCCGCCCATAGCGACGCCAGCTTTATCGTCATCGGCGACCGCCAGGGGATGCATCTGTTTCATTCCGTCCATCCGGAGTGGGTCGGCACGCGGCTGGTCGGCGGCGACAACCAGGCGGTACTGGAGGGAAAGTCCATTACCACCATTCGCAAAGGCGGCCTTGGCGTCTCGCTGCGCAGTAAAACGCCCATCGTCGATGACGCGGGGCGGGTGATCGGCATTGTCTCCGTCGGCTACCTCACCAGCTATCTCGACAGCATTACCCTGAGCAAAGTGATCAATATTTTTATCGCCGCCGTCCTGCTGCTCACCGCCCTGTTTATCTTCTCCTGGTACTTTACCCGCAGCATCAAGAAACAGATTTTTTCGCTCGAGCCGCGGGAGATTGGCCTGCTGGTGCGCCAGCAAAAGGCGATGATGGAGTCGATCTTTGAGGGGGTGATCGTCATCGATCGCCAGCGGCGCATTGAGGTGATTAACCATGCCGCCCGCAGCCTGCTGGGACTCAGCCAGCCCGCCCGTCAGCTGCGCGGCCAGTCCATCGACAGCGTGATTTCCCCGCAGCCCTTTTTCGCCAGCGGCGACATGCTTGAGCGCGACACCCATGATGAGCTGTGCCGCTTCAACCAGTTGACCGTGCTTGCCAGTCGGGTGCGCATTATGCTGGAGAATACCCTGCAGGGCTGGGTGATTACCTTCCGTGACCGCAATGAAATCAATGCCCTCACCGCCCAGCTGAGCCAGGTGAAGCGCTATGTCGACAATCTTCGCATCATGCGCCACGAGCAGCTCAACCGGATGACGACCCTCTCCGGCCTGCTGCATATGGGCCATTATGACGAAGCGATCCGCTATATTCAGGCCCAGTCGGAGCATGCTCAGGAGCTACTGGACTTTATCTCCTCGCACTTCCACTCGCCGACGCTGTGCGGTCTGCTGCTCGGCAAAGCCACCCGCGCCCGCGAAAAAGGCGTGGCGCTGAGCTTCGACCCGGCCTGCCGCATTGACCGTCCGCTGCCGTCGCTGATGGAATCCGAACTGATCTCCATCATCGGCAACCTGCTGGATAACGCCATCGAAGCCACGCAGCGCGCCGAGCTTCCGCATGAGCCGGTGGAAGTTCTGATCCAGCTCAACGCCCGGGAGCTGATTATCGAAGTGGCCGACCGCGGCGTCGGCATCCGCCCCGATATCCGCGAGCGCATTTTTGAACGCGGCATCACCACCAAAACCCGTGGCGATCACGGCATTGGTCTGTATCTTATTGAACATTATGTCACTCAGGCGGGCGGCACCATCGAAGTCGCCGATAACGCGCCGCGGGGAACGATCTTCACCCTGTTTATCCCGGCCGACGCGCCCGCCTGTCCGCAACCGGAGGCCCACGATGCATCATGA	MKLSFQYKLFISLVAFFSVLFIALGIYYYFDASRQLYQEMSARAKIQAEEIALMPNLRQQVSRHDPQAIQAFMQQIAAHSDASFIVIGDRQGMHLFHSVHPEWVGTRLVGGDNQAVLEGKSITTIRKGGLGVSLRSKTPIVDDAGRVIGIVSVGYLTSYLDSITLSKVINIFIAAVLLLTALFIFSWYFTRSIKKQIFSLEPREIGLLVRQQKAMMESIFEGVIVIDRQRRIEVINHAARSLLGLSQPARQLRGQSIDSVISPQPFFASGDMLERDTHDELCRFNQLTVLASRVRIMLENTLQGWVITFRDRNEINALTAQLSQVKRYVDNLRIMRHEQLNRMTTLSGLLHMGHYDEAIRYIQAQSEHAQELLDFISSHFHSPTLCGLLLGKATRAREKGVALSFDPACRIDRPLPSLMESELISIIGNLLDNAIEATQRAELPHEPVEVLIQLNARELIIEVADRGVGIRPDIRERIFERGITTKTRGDHGIGLYLIEHYVTQAGGTIEVADNAPRGTIFTLFIPADAPACPQPEAHDAS	PGPT0017215_96	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_CITRATE_SENSING|UTILIZATION,PGPT0017215-dpiB|citA-K07700	NA	NA
BMS020_04615	1365	cimH	COG3493	Citrate/malate transporter	ATGAGCACCACAGACAACGCATTCTCTGCAACCCTAGAACCGATCAATACGCCGAAAACCACGCTCAGGCAGCGCTGGTGGCACATCATGGATAACTGGAAGGTAGGGATCGTCCCGCTGCCGCTGTTTCTGCTGGCCGGGGGGCTGATCGCTCTCGACTGCCTTGGCGGTAAACTGCCGAGCGATATCGTGGTGATGGTGGCTACGCTGGCTTTCTTTGGCTTCGCCTGCGGCGAGTTTGGCAAACGCCTGCCGGTGCTGGGAAAACTCGGCGCGGCGGCGATCTGCGCCACTTTTATTCCTTCCGCGCTGGTCCATTACGGCCTGCTGCCGGACGTGGTCGTTGAATCCACCACCAAATTCTATAAATCCACCAACATCCTCTATCTCTATATCTGCTGCATTATCGTCGGCAGCATCATGAGTATGAACCGCACCACCCTGATTCAGGGCTTCCTGAAGATCTTCTTCCCAATGCTGTGCGGCGAGGTGGTCGGCATGCTGGTGGGCATCGGCGTCGGCACGCTCTTGGGCATGGATCCGTTCCAGGTGTTCTTCTTTATCGTGCTGCCGATCATGGCCGGCGGCGTAGGGGAAGGGGCGATCCCGCTGTCGATGGGTTACGCCGCGCTGATGCATATGGAGCAGGGAGTGGCCCTGGGCCGGGTGTTGCCGATGGTGATGCTCGGCAGCCTGACGGCGATCGTCATCTCCGGCTGCCTCAACCAGCTCGGCAAGCGCTTCCCGCATCTGACCGGCGAAGGGCAGCTGATGCCGAACCGCAGCCATGAAACCCGCAGCCTCGGCGAGAGCGAAGGCGTGAGCGGCAAAACCGACGTCGGGACGCTGGCCTCCGGCGCGCTGCTGGCGGTGCTGCTGTATATGATGGGGATGCTCGGCCACAAACTGATTGGTCTGCCGGCGCCGGTGGGCATGCTGTTTCTCGCGGTGCTGTTAAAGCTGGCTAATGTGGTTTCTCCGCGCCTGCAGGAGGGATCGCAGATGGTGTATAAATTCTTCCGCACCGCGGTCACCTACCCGATCCTCTTTGCCGTCGGCGTGGCGATCACCCCGTGGCAGGAGCTGGTGAACGCCTTCACCTTCACCAACCTGCTGGTGATCGTCAGCACCGTCTCCGCGCTGGTGGCGACCGGTTTCCTGGTCGGTAAAAAGATAGGGATGCACCCGATCGATGTGGCGATTGTCTCCTGTTGCCAGAGCGGGCAGGGCGGCACCGGCGATGTGGCGATCCTGACCGCCGGCAACCGCATGAGCCTGATGCCGTTCGCGCAGATCGCTACCCGGATTGGCGGGGCGATAAATGTCTCGCTGGGGTTGCTGTTCCTCAGCCACTATCTGGCGTGA	MSTTDNAFSATLEPINTPKTTLRQRWWHIMDNWKVGIVPLPLFLLAGGLIALDCLGGKLPSDIVVMVATLAFFGFACGEFGKRLPVLGKLGAAAICATFIPSALVHYGLLPDVVVESTTKFYKSTNILYLYICCIIVGSIMSMNRTTLIQGFLKIFFPMLCGEVVGMLVGIGVGTLLGMDPFQVFFFIVLPIMAGGVGEGAIPLSMGYAALMHMEQGVALGRVLPMVMLGSLTAIVISGCLNQLGKRFPHLTGEGQLMPNRSHETRSLGESEGVSGKTDVGTLASGALLAVLLYMMGMLGHKLIGLPAPVGMLFLAVLLKLANVVSPRLQEGSQMVYKFFRTAVTYPILFAVGVAITPWQELVNAFTFTNLLVIVSTVSALVATGFLVGKKIGMHPIDVAIVSCCQSGQGGTGDVAILTAGNRMSLMPFAQIATRIGGAINVSLGLLFLSHYLA	PGPT0001690_78	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001690-maeN-K11616	NA	NA
BMS020_04616	540	citX	COG3697	Apo-citrate lyase phosphoribosyl-dephospho-CoA transferase	ATGTCAGTGGATACTCCCGCCCAGGCGGGCGTCAGCATCGACGCATTGCTGGCGGCGAAAGAGCAGCGTGCAGCCCGCCAGGCCGACTGGTTGGCCCATTATCAGCAGCCTGTTATTTCCCTGACCCTGGTGACGCCCGGGGCGGTGAAGGACAGCATTCGCTATCGCAACATGATGGGCGTAGCCCTCCAGGCCTGCGATCAACTGCTGTGGAAGCACCGCTGGCAAACGCTGGATCGTCAGGTGCTGTGGCTGCCGACCGGGCCTGAAGCGCTGTGGTGCGTGGCGCACCCGGCCAGCGAAATCAAAGCGATGTGCAGTACGCTGGAGCAGAGCCATCCGCTGGGACGCTTGTGGGATATCGATGTGATCTGTCCGCAGAGCGGGCAGGTGGGACGCCAGTCGCTGGGCGAGTCGCAGCGCCGCTGCCTGCTGTGCGATGAGCCGGCGCATGCCTGCGCGCGCAGCCGTCGTCACGACACCGATCTCGTCGTTGCCCGCGTTGAGCAGATGATTGACGCGTGGTTTGCCCGCGATTAA	MSVDTPAQAGVSIDALLAAKEQRAARQADWLAHYQQPVISLTLVTPGAVKDSIRYRNMMGVALQACDQLLWKHRWQTLDRQVLWLPTGPEALWCVAHPASEIKAMCSTLEQSHPLGRLWDIDVICPQSGQVGRQSLGESQRRCLLCDEPAHACARSRRHDTDLVVARVEQMIDAWFARD	PGPT0019490_315	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_CITRATE_SENSING|UTILIZATION,PGPT0019490-citX-K05964	NA	NA
BMS020_04617	660	rluA_2	COG0564	Dual-specificity RNA pseudouridine synthase RluA	ATGGCGATGGAAAACTACAATCCGCCGCAGGATCCCTGGCTGGTGATCCTGTATCAGGATGAGCACATCATGGTGGTCAACAAGCCGAGCGGCTTGTTGTCCGTGCCGGGTCGTCTTGATGAACATAAAGACAGCGTGATGACGCGCATTCAGCGCGACTTCCCGCAGGCCGAATCGGTGCATCGCCTTGATATGGCCACCAGCGGCGTGATTGTGGTGGCGCTGAATAAGGCGGCGGAACGCGAACTGAAGCGTCAGTTCCGCGAGCGCGAGCCGAAGAAGCAGTACATCGCCCGCGTCTGGGGCCATCCGCAGCCGGCGGAGGGCCTGGTGGATTTACCGCTGATTTGCGACTGGCCGAACCGGCCAAAGCAGAAGGTGTGTTATGAAACCGGCAAAGCGGCGCAGACTGAGTATGAGGTGCTGGAGTACGCGGAAGATAACACCGCCCGCGTGCGCCTGAAGCCGATTACCGGACGGTCGCACCAGCTGCGCGTGCATATGCTGGCGCTGGGGCATCCGATCCTTGGCGACCGCTTTTACGCCACGCCTGAGGCGCTGGCGATGGCCCCGCGCCTGCTGCTGCACGCCGAGACGCTCACCATTACCCACCCCGCCTACGGCAACGCGATGACCTTCCGCGCGCCGATCGACTTTTAG	MAMENYNPPQDPWLVILYQDEHIMVVNKPSGLLSVPGRLDEHKDSVMTRIQRDFPQAESVHRLDMATSGVIVVALNKAAERELKRQFREREPKKQYIARVWGHPQPAEGLVDLPLICDWPNRPKQKVCYETGKAAQTEYEVLEYAEDNTARVRLKPITGRSHQLRVHMLALGHPILGDRFYATPEALAMAPRLLLHAETLTITHPAYGNAMTFRAPIDF				NA	NA	NA	NA	NA
BMS020_04618	2907	rapA	COG0553	RNA polymerase-associated protein RapA	ATGCCTTTTACACTTGGTCAACGCTGGATTAGCGACACAGAGAGCGAACTAGGATTAGGGACGGTGGTAGCGCTGGATGCGCGCATGGTCACTCTCCTCTTCCCCGCCATCGGCGAAAACCGTCTGTACTCACGCAACGATTCCCCGATCACTCGCGTGATGTTTAACCCGGGCGACACCATTACCAGCCACGAAGGCTGGCAGCTCCACGTTGACAAAGTGCATGAAGAGAACGGGCTGCTGTCCTACACCGGCACCCGCCTCGATACCCAGGAAGCGAACGTCACCCTGCGTGAAGTGCTGCTCGACAGCAAACTGGTGTTCAGCAAGCCGCAGGACCGCCTGTTCGCCGGCCAAATCGACCGCATGGACCGCTTTGCCCTGCGCTACCGCGCGCGCAAGTTCCAGAGCGAGCAGTACCGCATGCCATGGAGCGGCCTGCGCGGCCAGCGCACCAGCCTGATCCCGCATCAGCTGAACATCGCCCACGACGTGGGTCGTCGTCACGCTCCGCGCGTCCTGCTGGCCGATGAAGTGGGCTTAGGTAAAACCATCGAAGCCGGGATGATCCTGCACCAGCAGCTGCTCTCCGGCGCCGCCGAGCGCGTACTGATTGTGGTCCCGGAAACCCTTCAGCACCAGTGGCTGGTGGAGATGCTGCGCCGCTTCAACCTGCGCTTCTCGCTGTTTGACGACGAGCGCTACGCCGAAGCGCAGCATGACGCCTATAACCCGTTTGAAACCGAACAGCTGGTGATCTGCTCTTTAGACTTCGTGCGCCGCAGCAAGCAGCGTCTGGAGCATCTGTGCGACGCCGAGTGGGACCTGATGGTGGTCGATGAAGCGCACCACCTGGTGTGGAGCGAAGAGGCGCCGAGCCGCGAATATCAAGCCATTGAACAGCTGGCCGAGCGCGTGCCGGGCATTCTGCTGCTGACCGCGACGCCGGAACAGCTGGGGATGGAGAGCCACTTTGCGCGCCTGCGCCTGCTGGATCCGAACCGCTTCCACGATTTCGCGCAGTTTGTCGAAGAACAGCAGAACTACCGTCCGGTGGCCGACGCCGTCGCCCTGCTGCTGGCGGGCAACAAGCTGAGCGATAACGAACTCAATACCCTCGGCGATCTGATCGGCGAGCAGGATATCGAGCCGCTGCTGCAGGCCGCCAACAGCGATCGCGAAGACGCCCAGGCCGCGCGCCAGGAGCTGGTCTCGATGCTGATGGACCGCCACGGCACCAGCCGCGTGCTGTTCCGTAACACCCGTAACGGCGTCAAAGGTTTCCCGAAACGCGAGCTGCACACCATTCGCCTGCCGCTGCCGACCCAGTACCAGACGGCCATCAAAGTGTCCGGCATCATGGGCGCCCGCAAAACCGCGGAAGAGCGCGCGCGCGACATGCTCTATCCGGAGCAGATCTATCAGGAATTTGAAGGCGATACCGGCACCTGGTGGAACTTCGACCCGCGCGTCGAGTGGCTGATGGGCTACCTGACCAGCCACCGTTCGCAGAAGGTGCTGGTGATCTGCGCCAAGGCCGCCACCGCGCTGCAGCTGGAGCAGGTGCTGCGCGAGCGCGAAGGTATCCGCGCCGCCGTGTTCCATGAAGGAATGTCGATTATCGAACGCGACCGCGCCGCGGCGTGGTTTGCCGAAGAAGACACCGGCGCCCAGGTGCTGCTGTGCTCTGAGATCGGTTCCGAAGGACGTAACTTCCAGTTCGCCAGCAATCTGGTGATGTTCGATCTGCCGTTTAACCCGGATCTGCTGGAGCAGCGTATCGGCCGTCTCGACCGTATCGGCCAGGCGCACGATATCCAGATCCACGTCCCGTACCTGGAAAAGACCGCGCAGTCGGTGCTGGTGCGCTGGTACCACGAAGGTCTCGACGCCTTCGAACATACCTGCCCGACCGGACGGACCGTCTACGACAGCGTCCATGACGAGCTGATCAACTACCTTGCGGCGCCGGAATCCACCGACGGCTTTGACGATCTGATCAAGTCCTGCCGCCAGCAGCATGACGCCCTGAAAGCGCAGCTGGAGCAGGGCCGCGACCGTCTGCTGGAGATCCACTCCAACGGCGGCGAGAAAGCCCAGGCCCTGGCGGAGAGCATCGAAGAGCAGGATGACGACACCAGCCTGATCGCCTTCTCGATGAACCTGTTCGATATCGTCGGCATCAACCAGGACGACCGCGGCGAAAACCTGATCGTCCTCACCCCTTCCGACCATATGCTGGTCCCGGACTTCCCGGGTCTGCCGGAGGACGGCTGCACCATCACCTTCGAGCGTGACGTGGCGCTGTCCCGTGAAGACGCGCAGTTCATCACCTGGGAACACCCGCTGATCCGCAACGGCCTCGATCTGATCCTCTCCGGCGATACCGGCAGCAGCACCATTTCCCTGCTGAAGAACAAGGCGCTGCCGGTCGGCACTCTGCTGCTGGAGCTGATCTACGTGGTCGAAGCGCAGGCGCCGAAGCAGCTGCAGCTCAACCGCTTCCTGCCGGCGACCCCGGTTCGCATGCTGCTGGATAAAAACGGCAACAACCTCGCCGGCCAGGTGGAGTTTGAAAGCTTCAACCGCCAGCTGAGCGCGGTCAATCGCCACACCGGCAGCAAGCTGGTCAACGCGGTGCAGCAGGACGTTCACGCCATTCTGCAGCAGGGCGAAGCGCAGATCGCCAAGGCGGCGCAGGGGCTGATCGACGCGGCGCGTAGCGAAGCCGACGATAAGCTGACGGCGGAGCTCTCCCGTCTGGAAGCGCTGAAGGCGGTCAACCCGAACATCCGTGACGACGAACTGGCGGCGATTGAAAGTAACCGCCAGCAGGTGCTGGAGGCGCTGGGACAGGCCGGATGGCGTCTGGACGCGCTGCGTCTGATCGTCGTCACTCACCAGTAA	MPFTLGQRWISDTESELGLGTVVALDARMVTLLFPAIGENRLYSRNDSPITRVMFNPGDTITSHEGWQLHVDKVHEENGLLSYTGTRLDTQEANVTLREVLLDSKLVFSKPQDRLFAGQIDRMDRFALRYRARKFQSEQYRMPWSGLRGQRTSLIPHQLNIAHDVGRRHAPRVLLADEVGLGKTIEAGMILHQQLLSGAAERVLIVVPETLQHQWLVEMLRRFNLRFSLFDDERYAEAQHDAYNPFETEQLVICSLDFVRRSKQRLEHLCDAEWDLMVVDEAHHLVWSEEAPSREYQAIEQLAERVPGILLLTATPEQLGMESHFARLRLLDPNRFHDFAQFVEEQQNYRPVADAVALLLAGNKLSDNELNTLGDLIGEQDIEPLLQAANSDREDAQAARQELVSMLMDRHGTSRVLFRNTRNGVKGFPKRELHTIRLPLPTQYQTAIKVSGIMGARKTAEERARDMLYPEQIYQEFEGDTGTWWNFDPRVEWLMGYLTSHRSQKVLVICAKAATALQLEQVLREREGIRAAVFHEGMSIIERDRAAAWFAEEDTGAQVLLCSEIGSEGRNFQFASNLVMFDLPFNPDLLEQRIGRLDRIGQAHDIQIHVPYLEKTAQSVLVRWYHEGLDAFEHTCPTGRTVYDSVHDELINYLAAPESTDGFDDLIKSCRQQHDALKAQLEQGRDRLLEIHSNGGEKAQALAESIEEQDDDTSLIAFSMNLFDIVGINQDDRGENLIVLTPSDHMLVPDFPGLPEDGCTITFERDVALSREDAQFITWEHPLIRNGLDLILSGDTGSSTISLLKNKALPVGTLLLELIYVVEAQAPKQLQLNRFLPATPVRMLLDKNGNNLAGQVEFESFNRQLSAVNRHTGSKLVNAVQQDVHAILQQGEAQIAKAAQGLIDAARSEADDKLTAELSRLEALKAVNPNIRDDELAAIESNRQQVLEALGQAGWRLDALRLIVVTHQ				NA	NA	NA	NA	NA
BMS020_04619	2358	polB	COG0417	DNA polymerase II	GTGACCCAGCCACGAGCAGGTTTTTTACTCACCCGTCACTGGCGGGACACTCCGCAAGGCACCGAGCTGTCCTTCTGGCTGGCCACCGACGACGGCCCGCTGCAGGTCACGCTGCCGCCGCAGGAGTCCGTCGCCTTTATCCCCGCCGCGCAGCGGGCGCAGGCTGAGCGACTGCTGCAGGGTGAGAAAGGCTTCCGCTTCGCCCCGCTGGCCCTGAAAGATTTCCACCGCCAGCCGGTGGTCGGCCTCTACTGCCGCGCCCATCGTCAATTGATGCGTCTGGAGAAGATGCTCCGCGACAGCGGCGTCACCCTCTATGAGGGCGATATCCGTCCGCCGGAGCGCTACCTGATGGAGCGCTTTATTACCGCCCCGGTGTGGGTGGAAGGCGAAACGCGTGGCCCGCATCTGGTCAACGCGCGCATGAAACCCCATCCTGACTATCGCCCGCCGCTGAAATGGGTGTCGCTGGATATCGAAACCAGCCGTCACGGCGAGCTGTACTGCATCGGCCTGGAAGGCTGCGGTCAGCGGGTGGTCTACATGCTGGGCCCCGAACCGGAAACGCCGCCAGACGTCGATTTCGATCTGGTCTACGTCGCCAGTCGCCCCCTGCTGCTGGAAAAGCTCAACGCCTGGTTTGCCGATCACGACCCCGACGTGCTGATCGGCTGGAACGTGGTGCAGTTCGATCTGCGCGTCCTGCAAAAACATGCTGAACGCTATCGTATCCCGCTGCGGCTCGGCCGCGGCAACAGCGAGCTGGAGTGGCGCGAGCACGGCTTTAAGCACGGCGTCTTCTTCGCCCAGGCCCACGGCCGGCTGATTATCGACGGTATCGAGGCGCTGAAATCGGCGTTCTGGAATTTCTCCTCCTTTTCGCTGGAGGCGGTAGCGCGCGAGCTGTTGGGCGAAGGCAAAGCCATCGACAACCCGTGGGATCGGATGGACGAGATCGATCGCCGCTTCCATGACGATAAACCGGCGCTGGCCATCTATAACCTGCAGGACTGCGAGCTGGTGACGCGGATCTTCCACAAAACGGAGATCATGCCGTTTCTGCTCGAACGAGCGACGGTCAACGGCCTACCCGCCGATCGCCACGGCGGCTCGGTCGCCGCCTTCAGCCACCTCTATTTTCCGCGCATGCACCGCCTGGGCTACGTGGCGCCGAACCTCGGCGACGTGCCGCCGCAGGCGAGCCCCGGCGGATATGTGATGGACTCCCGCCCCGGCCTGTATGACTCGGTGCTGGTCCTGGACTACAAGAGCCTGTATCCGTCGATCATTCGCACCTTTTTAATCGATCCGGTCGGCCTGGTGGAGGGTCTGGCGCAGCCCGATGACCAGCACAGCATTGAGGGCTTCCTCGGCGCACGCTTCTCGCGAGACAAGCACTGCCTGCCGGGGATTGTCAGCCAGATCTGGCATGGCCGCGATGAAGCCAAGCGCCGGCACAATAAGCCGCTCTCCCAGGCGCTGAAGATCATCATGAACGCCTTTTACGGCGTACTGGGCACCAGCGCCTGCCGCTTCTTCGACCCGCGTCTCGCCTCGTCGATCACCATGCGCGGCCACGCGATCATGCGTCAGACCAAAGCGATAATTGAAGCCAAAGGCTATGACGTTATCTACGGCGATACCGACTCCACCTTCGTCTGGCTTAAGCGCCCGCACAGCGAAGCGCAGGCGGCGGAGATTGGCCGGACGCTGGTGAACGATGTCAACGCCTGGTGGGCGCAGGAGCTTGGCAAAAGCCAGCTTACCAGCGCCCTGGAGCTGGAATACGAAACCCACTTCTGCCGTTTTCTGATGCCGACGATCCGCGGCGCCGATACCGGCAGCAAGAAGCGTTACGCCGGCATGATTCAGGAGGGCGACGGCCAGCGCATGGTTTTCAAAGGGCTGGAAACGGTGCGCACCGACTGGACGCCGCTGGCCCAGCAGTTTCAGCAGGAGCTGTACCTGCGCATCTTCCGCAACCAGCCGTATCAGGATTATGTGCGGGAGACTATCGCCAGGCTGATGAACGGCGAGCTCGATGAGCAGCTGGTTTATCGCAAACGCCTGCGCCGGCCGCTGGCGGAGTATCAGCGCAACGTGCCGCCTCATGTGCGCGCCGCGAGGCTTGCCGATGAGCACAACCTGAAGCGGGGTCGGGCGCAGCAGTATCAGCAGCGCGGCACCATCAAATACGTCTGGACCACCGGCGGCCCGGAACCGGTGGATTATCAACAATCGCCGCTCGATTACGACCACTATTTGTCAAAGCAGCTGCAGCCGGTGGCGGAAGGGATCCTGCCCTTCGTCAACGACGATTTTGCTACAATAGTGACAGGACAGCTGGGGCTATTTTGA	MTQPRAGFLLTRHWRDTPQGTELSFWLATDDGPLQVTLPPQESVAFIPAAQRAQAERLLQGEKGFRFAPLALKDFHRQPVVGLYCRAHRQLMRLEKMLRDSGVTLYEGDIRPPERYLMERFITAPVWVEGETRGPHLVNARMKPHPDYRPPLKWVSLDIETSRHGELYCIGLEGCGQRVVYMLGPEPETPPDVDFDLVYVASRPLLLEKLNAWFADHDPDVLIGWNVVQFDLRVLQKHAERYRIPLRLGRGNSELEWREHGFKHGVFFAQAHGRLIIDGIEALKSAFWNFSSFSLEAVARELLGEGKAIDNPWDRMDEIDRRFHDDKPALAIYNLQDCELVTRIFHKTEIMPFLLERATVNGLPADRHGGSVAAFSHLYFPRMHRLGYVAPNLGDVPPQASPGGYVMDSRPGLYDSVLVLDYKSLYPSIIRTFLIDPVGLVEGLAQPDDQHSIEGFLGARFSRDKHCLPGIVSQIWHGRDEAKRRHNKPLSQALKIIMNAFYGVLGTSACRFFDPRLASSITMRGHAIMRQTKAIIEAKGYDVIYGDTDSTFVWLKRPHSEAQAAEIGRTLVNDVNAWWAQELGKSQLTSALELEYETHFCRFLMPTIRGADTGSKKRYAGMIQEGDGQRMVFKGLETVRTDWTPLAQQFQQELYLRIFRNQPYQDYVRETIARLMNGELDEQLVYRKRLRRPLAEYQRNVPPHVRAARLADEHNLKRGRAQQYQQRGTIKYVWTTGGPEPVDYQQSPLDYDHYLSKQLQPVAEGILPFVNDDFATIVTGQLGLF				NA	NA	NA	NA	NA
BMS020_04620	696	araD	COG0235	L-ribulose-5-phosphate 4-epimerase AraD	ATGTTAGAAGATCTTAAACGCCAGGTTCTGGAAGCCAACTTAGCGCTGCCGCAGCATAATCTGGTGACCTTAACCTGGGGCAACGTCAGCGCCGTCGACCGCGACCAGGGCGTTCTGGTTATCAAACCCTCCGGCGTGGATTACCGCGTAATGACCGCCGACGATATGGTGGTGGTCAGTCTGGAGAGCGGCGAAGTGGTGGAGGGTAAGAAGAAGCCCTCGTCGGATACCCCGACCCATCGCCTGCTGTATCAGGCTTTCCCGACGCTGGGCGGCATTGTGCATACCCATTCGCGCCACGCCACCATCTGGGCGCAGGCTGGGCAAGCTATTCCGGCGACCGGCACCACCCACGCCGACTATTTCTATGGTCCGGTGCCCTGCACCCGGCTGATGACCGATGCGGAGATCAATGGCGAATACGAATGGGAAACCGGCAAGGTGATTGTTGAAACCTTCCGCCAGCGCGAGATCGACCCGGCGCAGATGCCCGGCGTGCTGGTTCATTCCCACGGCCCGTTCGCATGGGGTAAAAACGCCGAAGACGCGGTGCATAACGCCATCGTGCTGGAAGAGATCGCGTATATGGGCATCTTCTGCCGCCAGCTGGCGCCGCAGCTGCCGGATATGCAGCAGACCCTGCTGGATAAGCACTATCTGCGTAAGCACGGGGCTAAAGCCTACTACGGCCAATAA	MLEDLKRQVLEANLALPQHNLVTLTWGNVSAVDRDQGVLVIKPSGVDYRVMTADDMVVVSLESGEVVEGKKKPSSDTPTHRLLYQAFPTLGGIVHTHSRHATIWAQAGQAIPATGTTHADYFYGPVPCTRLMTDAEINGEYEWETGKVIVETFRQREIDPAQMPGVLVHSHGPFAWGKNAEDAVHNAIVLEEIAYMGIFCRQLAPQLPDMQQTLLDKHYLRKHGAKAYYGQ	PGPT0017420_1143	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
BMS020_04621	1503	araA_1	COG2160	L-arabinose isomerase	ATGACGATTTTTGATAACTATGAAGTATGGTTCGTTATTGGCAGCCAACATCTCTACGGCCCGGAAGCCCTGCGCCAGGTGACGAAGCATGCCGAACATGTGGTGAACAGCCTGAATGCGGAAGCCAAACTGCCGTGCAAACTGGTCCTCAAGCCGCTGGGCACTACCCCGGACGAGATCACCCATATCTGCCGCGACGCCAACTACGATGACAAATGCGCCGGGTTAGTGGTCTGGCTGCATACCTTCTCGCCGGCAAAAATGTGGATCAACGGCCTGACCATCCTCAACAAGCCGCTGCTGCAGTTCCATACGCAGTACAATGCCGCGCTGCCGTGGGACAGCATCGATATGGACTTTATGAACCTGAACCAGACCGCGCACGGCGGCCGCGAGTTCGGCTTCATCGGCGCCCGTATGCGCCAGCAGCACAGCGTGGTGACCGGCCACTGGCAGGATAAAGAGGCCCACCAGCGCATCGGCGGCTGGATGCGCCAGGCGGTCTCCAGACAGGATACCCGTCATCTGAAAGTGTGCCGTTTCGGCGATAACATGCGTGAAGTGGCGGTGACCGACGGCGATAAAGTCGCGGCGCAGATCAAGTTTGGCTTCTCAGTGAACACCTGGGCGGTCGGCGATCTGGTGCAGGTGGTCAACAGCGTCAGCGACGGCGATATCAGCGCGCTGGTCGATGAATACGAGAGCAGCTACCGTCTGACCCCGGCGGCGCAGGTTCACGGCGACAAGCGCCAGAACGTGCTGGACGCCGCGCGCATTGAGCTGGGGATGAAACGCTTCCTCGAACAGGGCGGTTTCCACGCCTTTACCACCACCTTTGAAGATCTCCACGGCCTGAAACAGCTCCCGGGTCTCGCCGTACAGCGCCTGATGCAGCAGGGCTACGGCTTTGCCGGCGAGGGCGACTGGAAAACCGCCGCTCTGCTTCGCATCATGAAGGTGATGTCAACTGGTCTGCAGGGCGGCACCTCCTTTATGGAGGATTACACCTACCACTTCGACAATGGCAACGATCTGGTGCTCGGCTCGCACATGCTGGAAGTGTGCCCGACGATCGCCACCGCCGAGAAACCGATCCTCGACGTCCAGCCGCTGGGCATCGGCGGCAAAGCGGATCCGGCGCGCCTGATCTTCAATACCCAGACCGGCCCGGCGATTGTCGCCAGCCTGATCGACCTGGGAGACCGCTTCCGTCTGCTGGTCAACACCATTGAAACCGTCCCGACGCCGCACGATCTGCCGAAGCTGCCGGTGGCCAACGCCCTGTGGAAAGCGCAGCCGGATCTGCGTACCGCTTCGGAAGCCTGGATCATCGCCGGCGGCGCGCACCATACCGTCTTCAGCCATGCGCTGAACCTCGACGATATGCGCCAGTTCGCCGAGCTGAATGATATCGAGCTGACCGTCATCGACAACGATACCCGTCTGCCGGCCTTCAAAGACGCGCTGCGCTGGAATGAAGTCTATTACGGTTCAAAACGCTAA	MTIFDNYEVWFVIGSQHLYGPEALRQVTKHAEHVVNSLNAEAKLPCKLVLKPLGTTPDEITHICRDANYDDKCAGLVVWLHTFSPAKMWINGLTILNKPLLQFHTQYNAALPWDSIDMDFMNLNQTAHGGREFGFIGARMRQQHSVVTGHWQDKEAHQRIGGWMRQAVSRQDTRHLKVCRFGDNMREVAVTDGDKVAAQIKFGFSVNTWAVGDLVQVVNSVSDGDISALVDEYESSYRLTPAAQVHGDKRQNVLDAARIELGMKRFLEQGGFHAFTTTFEDLHGLKQLPGLAVQRLMQQGYGFAGEGDWKTAALLRIMKVMSTGLQGGTSFMEDYTYHFDNGNDLVLGSHMLEVCPTIATAEKPILDVQPLGIGGKADPARLIFNTQTGPAIVASLIDLGDRFRLLVNTIETVPTPHDLPKLPVANALWKAQPDLRTASEAWIIAGGAHHTVFSHALNLDDMRQFAELNDIELTVIDNDTRLPAFKDALRWNEVYYGSKR	PGPT0017450_340	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017450-araA-K01804	NA	NA
BMS020_04622	1710	araB_2	COG1069	Ribulokinase	ATGGCAATTGCGATTGGCCTCGACTTTGGTAGTGACTCAGTCCGCGCCCTGGCGGTGGAATGCGCGTCCGGCGCAGAACTGGCGGCAAGCGTGGAGTGGTATCCGCGCTGGCGGGAAGGACAGTATTGCGATGGCGCGAACAACCGCTTCCGCCACCACCCGCGAGATTACATCGAGTCCATGGAAGCGGCGCTGAAAAGCGTACTTGCCTCCCTGAGCGCCGAACAGCGCGCCGACGTCGTGGGCATTGGCGTCGACAGCACCGGCTCAACCCCGGCTCCCGTTGATGCCGAAGGCAACGTGCTGGCGCTGCGCGAAGAATTCGCTGACAACCCTAACGCCATGTTTGTCCTGTGGAAGGATCACACCGCGGTCGAGGAAGCCGAGGCGATTACCCGCCTGTGCCACCAGCCGGGCAAAGAGGATTACTCGCGCTATATCGGCGGGATCTACTCCAGCGAATGGTTCTGGGCCAAAATCCTCCACGTCACCCGGGAAGATAGCGCCGTCGCCCAGGCAGCCGCCTCGTGGGTGGAGCTTTGCGACTGGGTGCCCGCCCTGCTCTCCGGCACTACGCGTCCGCAGGATCTGCGCCGCGGCCGCTGCAGCGCCGGGCATAAATCGCTGTGGCATGAGAGCTGGGGCGGGCTGCCGCCGGCCAGCTTCTTCGATGAGCTTGATCCCATCATTAACCAGCATCTGGCCTGGCCGCTGTTCACCGATACCTGGACGGCCGATGTGCCGGTCGGCACGCTAAGCGCAGAGTGGGCCCAGCGCCTGGGTCTGTCGCAGACCGTGGCCATCTCCGGCGGCGCCTTCGACTGCCATATGGGCGCCGTTGGCGCCGGCGCGCAGCCTAACGCGCTGGTGAAAGTCATCGGCACCTCCACCTGCGACATTCTGATTGCCGATAAAGAGAGCGTCGGCGACCGTACGGTCAAAGGCATCTGCGGCCAGGTCGACGGCAGCGTGGTCCCGCACTTTATCGGTATGGAGGCAGGCCAGTCCGCCTTCGGCGATATTTACGCCTGGTTTGGGCGCATCCTCGGCTGGCCGCTGGAACAGCTGGCCCGGCAGCATCCGGAATTGCGCGAACAAATCAAAGCCAGCCAAAAACAGCTACTGCCGGCGCTCACCGAAGCCTGGGCCAGTAACCCATCGCTCGATCATCTGCCGGTAGTGCTGGACTGGTTCAACGGCCGCCGCACGCCGAATGCCAACCAGCGCCTGAAAGGGGTGATCACCGACCTTAACCTGGCCACCGACGCGCCGGCGCTATTCGGCGGACTGATCGCCGCCACCGCCTTCGGCGCCCGCGCCATTATGGAGTGCTTCACCGAGCAGGGGATCCCGGTTAACAACGTCATGGCGCTCGGCGGTATCGCGCGGAAAAACCAGGTCATCATGCAGACCTGCTGCGACGTGCTGAACCGTCCGCTGCAGATTGTCGCCTCCGATCAGTGCTGCGCGCTGGGGGCGGCTATCTTCGCCGCCGTCGCCGCCGGCGTCTATGAGGATATTCCAGCCGCCCAGCAGCGGATGGCAAGCCAGGTGGAAACCACCCTGCAGCCGCGCCCGGCGCAGGCACAGCGTTTCGAACAACTCTATCAGCGCTACCAGCAGTGGTCGGTCAGCGCCGAACAACACTATCTCCCTTCGGCTGCAAAGGCGGAAAAAGCCCCGCAATCTCAGGCAGCGCTCACCCATTAA	MAIAIGLDFGSDSVRALAVECASGAELAASVEWYPRWREGQYCDGANNRFRHHPRDYIESMEAALKSVLASLSAEQRADVVGIGVDSTGSTPAPVDAEGNVLALREEFADNPNAMFVLWKDHTAVEEAEAITRLCHQPGKEDYSRYIGGIYSSEWFWAKILHVTREDSAVAQAAASWVELCDWVPALLSGTTRPQDLRRGRCSAGHKSLWHESWGGLPPASFFDELDPIINQHLAWPLFTDTWTADVPVGTLSAEWAQRLGLSQTVAISGGAFDCHMGAVGAGAQPNALVKVIGTSTCDILIADKESVGDRTVKGICGQVDGSVVPHFIGMEAGQSAFGDIYAWFGRILGWPLEQLARQHPELREQIKASQKQLLPALTEAWASNPSLDHLPVVLDWFNGRRTPNANQRLKGVITDLNLATDAPALFGGLIAATAFGARAIMECFTEQGIPVNNVMALGGIARKNQVIMQTCCDVLNRPLQIVASDQCCALGAAIFAAVAAGVYEDIPAAQQRMASQVETTLQPRPAQAQRFEQLYQRYQQWSVSAEQHYLPSAAKAEKAPQSQAALTH	PGPT0017410_140	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
BMS020_04623	846	araC_1		Arabinose operon regulatory protein	ATGGCCGAAACGCAAAACGATCCGCTGCTGCCGGGCTACTCTTTTAACGCTCATCTGGTCACCGGCCTGACGCCGATTGAGGCGCAGGGATACCTGGATTTCTTTATCGACCGCCCGCTGGGTATGAAAGGCTATATCCTCAACCTGACGATCCGCGGCGAGGGGGTAATCAACAACCACGGCGAGCAGTTTGTCTGCCGGCCGGGCGATATGCTGTTGTTCCCGCCGGGGGAGATCCATCATTACGGCCGCCATCCCGACGCCAGCGAGTGGTATCACCAGTGGGTCTACTTCCGCCCGCGCGCCTACTGGCACGAGTGGCTCAACTGGCCGACGATCTTCGCCCAGACCGGCTTTTTCCGTCCGGACGAGCAGTGGCAGGCGCGCTTTGGCGAGCTGTTCGGCCAGATCGTCGATGCCGGGCAAGGGGCGGGGCGCTATTCCGAACTGCTGGCGATTAATCTGCTGGAACAGCTCCTGCTGCGGCGGATGGAGGCGATCAACGAATCGCTGCATCCGCCGCTGGATAACCGGGTGCGCGACGCCTGCCAGTACATCAGCGACCATCTGGCGGACAGCCATTTTGATATCGCCAGCGTCGCCCAGCACGTCTGCCTGTCGCCCTCGCGCCTGTCGCACCTGTTTCGCCAGCAGCTGGGGATCAGCGTCCTCGGGTGGCGGGAGGACCAGCGTATCAGCCAGGCCAAACTGTTGCTGAGCACCACGCGGATGCCGATCGCCACCGTCGGGCGCAACGTCGGCTTTGAAGATCAGCTCTATTTTTCCCGCGTGTTCAAAAAATGCACCGGTGCCAGCCCGAGCGAATTCCGCGCGGGATGTGAATAA	MAETQNDPLLPGYSFNAHLVTGLTPIEAQGYLDFFIDRPLGMKGYILNLTIRGEGVINNHGEQFVCRPGDMLLFPPGEIHHYGRHPDASEWYHQWVYFRPRAYWHEWLNWPTIFAQTGFFRPDEQWQARFGELFGQIVDAGQGAGRYSELLAINLLEQLLLRRMEAINESLHPPLDNRVRDACQYISDHLADSHFDIASVAQHVCLSPSRLSHLFRQQLGISVLGWREDQRISQAKLLLSTTRMPIATVGRNVGFEDQLYFSRVFKKCTGASPSEFRAGCE	PGPT0017485_494	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
BMS020_04624	768	yabI_2	COG0586	Inner membrane protein YabI	ATGCAAGCATTGCTCGAACACTTTATTACCCAATCCACGGTCTACTCGCTGTTAGCCGTGATGCTGGTGGCCTTTCTCGAGTCGCTGGCGCTGGTGGGGCTTATCTTACCCGGAACGGTGATGATGGCCGGCCTTGGGGCGCTGATTGGCGGCGGTGAGGTTAACTTCTGGCAGGCGTGGCTGGCGGGGATCGTGGGCTGTCTGCTGGGCGACTGGATCTCATTCTGGCTCGGATGGCGCTTTAAAAAGCCGCTGCACCGCTGGTCGTTCATGAAGAAAAACCGCGCCCTGCTGGAGAAAACCGAGCATGCGCTGCACCAGCACAGCATGATCACCATCCTGATTGGCCGCTTTGTCGGGCCGACGCGTCCGCTGGTGCCGATGGTCGCCGGGATGCTCGACCTGCCGGTGGCCAAATTCGTGCTACCAAATATTATCGGCTGCCTGCTCTGGCCGCCGCTCTATTTCCTGCCTGGCATTCTCGCCGGGGCGGCGATTGATATTCCGGCCGATGAAAACAGCGCCAGCTTTAAATGGCTGCTGCTGGGGGCGGCGCTGCTCGCCTGGCTGGCAGGGTGGCTGTGCTGGCGGCTGTGGCGGAGCGCGAAAACGTCTGGCGATCGGCTGACCCGCTGGCTGCCGCGCGGGCGTCTGCTGTGGCTGGCGCCGCTTATGGTCGCGCTGGCGGCAACGGCGTTAACGTTTGTCTTCCGCCATCCGCTGATGCCGGTCTATCTGGCGATCCTGCACAAGGTTATTGCGCGCTGA	MQALLEHFITQSTVYSLLAVMLVAFLESLALVGLILPGTVMMAGLGALIGGGEVNFWQAWLAGIVGCLLGDWISFWLGWRFKKPLHRWSFMKKNRALLEKTEHALHQHSMITILIGRFVGPTRPLVPMVAGMLDLPVAKFVLPNIIGCLLWPPLYFLPGILAGAAIDIPADENSASFKWLLLGAALLAWLAGWLCWRLWRSAKTSGDRLTRWLPRGRLLWLAPLMVALAATALTFVFRHPLMPVYLAILHKVIAR				NA	NA	NA	NA	NA
BMS020_04625	702	thiQ	COG3840	Thiamine import ATP-binding protein ThiQ	ATGCTAAAACTCAATGATGTGACCTGGCTGTACCAGCATCTGCCGATGCGCTTTACTCTCGACGTCGCGCGCGGCGAGCGCATCGCGGTGCTTGGCCCCAGCGGCGCCGGAAAGAGCACCCTGCTGAATCTGATCGCCGGTTTTCTGCCGCCCGCCAGCGGCAGCCTGCAGATTAACGGCGAGACGCATCACGCGACGCCGCCGGCGCAGCGTCCGGTTTCGATGCTGTTCCAGGAGAATAACCTGTTTAACCATCTGACCATTCGGCAGAATATCAGTCTCGGGATCCACCCTGGCCTGAAACTGAGCCGCGAACAGCAGCAGAAAGTCACGGCGATTGCCGCCCAGATGGGAATTGATGACCTGCTTGAACGCCTGCCGGGAGAGCTCTCCGGCGGTCAACGGCAGCGCGCGGCGCTGGCCCGCTGTCTGGTGCGCCAGCAGCCGGTGCTGCTGCTGGATGAACCCTTCTCAGCGCTCGACCCGGCGCTGCGCCAGGAGATGCTGGCGCTGGTGGCTGATGTCTGCGAGCAGCAGCAGCTCACCCTGCTGATGGTCTCGCACAGCGTGGAAGATGCCGCGCGCATTGCGCCGCGCTCGATTGTGGTCGCCGAAGGGCGCATTGTCTGGGATGGCGCTACCGCCGAGCTGTTAAGCGGCCACAGCAGCGCCTCTTATCTGATGGGGATCAGCGCGCAATAA	MLKLNDVTWLYQHLPMRFTLDVARGERIAVLGPSGAGKSTLLNLIAGFLPPASGSLQINGETHHATPPAQRPVSMLFQENNLFNHLTIRQNISLGIHPGLKLSREQQQKVTAIAAQMGIDDLLERLPGELSGGQRQRAALARCLVRQQPVLLLDEPFSALDPALRQEMLALVADVCEQQQLTLLMVSHSVEDAARIAPRSIVVAEGRIVWDGATAELLSGHSSASYLMGISAQ	PGPT0009110_793	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009110-thiQ-K02062	NA	NA
BMS020_04626	1611			hypothetical protein	ATGGCAACGCGCCGTCAGCCGCTAAACCTTAGCGGGCTGCTGCCGGGCCTGTTCGCCACCACGCTGCTCTGCGCCGTCGCGCTGGCGGCGTTTCTGGCGCTGTGGTTCAGCGCGCCCGGCGCGGGCTGGCAGACGGTTTTCAGCGATAGCTACCTCTGGCACGTGGTGCGCTTCTCCTTCTGGCAGGCGTCGCTCTCAGCGCTGCTTTCGGTGGGCCCGGCCGTCTTTCTCGCCCGCGCGCTTTATCGGCGTCGCTTCCCCGGCCGCACCCTGCTGCTACGCCTGTGCGCGATGACCCTGATCCTGCCGGTGCTGGTGGCGGTGTTCGGCATCCTCAGCGTCTATGGCCGCCAGGGCTGGCTGGCCTCGCTGTTTCACGCTTTCGGCTGGCAGTGGGATTTCTCGCCTTACGGCCTGCAGGGCATCCTGCTGGCGCACGTCTTTTTCAATATGCCGATGGCCACCCGCCTGCTGCTGCAGGCGCTGGAGAACATTCCCGGCGAGCAGCGGCAAATTGCCGCCCAGCTTGGCATGCGCGGCTATGCCTTCTTCCGCCTCGTCGAATGGCCATGGATGCGCCGGCACATTCCCGCCGTCGCCGCGCTGATTTTTATGCTCTGCTTTGCCAGCTTCGCCACCGTGCTGTCGCTGGGCGGCGGCCCGAAGGCCACCACCATTGAGCTGGCTATCTACCAGGCGCTGAGCTTTGACTACGATCCGGCGCGAGCGGCGATGCTGGCGTTGATCCAGATGCTCTGCTGCCTCGGGCTGGTGCTGCTCAGCCAGCGTCTCAGTAAAGCAGTGGCTATCGGCGTCAGCCATGTCCGCGGCTGGCGCGACCCTGACGATCGCCTGCATAGCCGGCTGAGCGATGGGTTGCTGATCGGCGCCTCCCTGCTGCTTCTGCTGCCGCCGTTGCTGGCGGTCATCGTCGACGGGATCAACCGCAACATGCTGGACGTGCTGGCGCAGCCCGCACTCTGGCAGGCATTGACGACTTCCCTGCGCATCGCCATTGCCGCCGGGCTGTTGAGCGTGACCCTGACGATGATGCTGCTATGGAGCAGTCGCGAGCTGCGCGCCCGTCAGCGGCCGCTGGCCGGGCAGGCGATGGAGCTGAGCGGCATGCTGATCCTTGCCATGCCGGGCATTGTGCTGGCTACCGGCTTCTTCCTGCTGCTCAATAACAGCATCGGCCTGCCGGAGTCCGCCGACGGCATCGTCATCTTTACCAATGCTCTGATGGCGATCCCCTACGCGCTTAAAGTGCTGGAAAACCCGATGCGCGACATTGCCGTCCGCTACAGCATGCTCTGCCAGTCGCTGGGGATCGAAGGCCTGGCGCGGCTGCGGGTCATCGAACTTCGCGCGCTCCGGCGCCCGCTGGCCCAGGCGTTAGCCTTCGCCTGCGTGCTGTCGATTGGCGACTTCGGCGTGGTGGCGCTGTTCGGCAACGAGGCGTTCCGCACCCTGCCTTTCTATCTGTACCAGCAGATAGGCGCCTACCGCAGCCAGGACGGCGCCGTCACCGCCCTGCTTCTGCTGCTGCTCTGTTTCTTATTATTTACGCTGATTGAAAAACTTCCGGGGCGTGATGCTAAAACTCAATGA	MATRRQPLNLSGLLPGLFATTLLCAVALAAFLALWFSAPGAGWQTVFSDSYLWHVVRFSFWQASLSALLSVGPAVFLARALYRRRFPGRTLLLRLCAMTLILPVLVAVFGILSVYGRQGWLASLFHAFGWQWDFSPYGLQGILLAHVFFNMPMATRLLLQALENIPGEQRQIAAQLGMRGYAFFRLVEWPWMRRHIPAVAALIFMLCFASFATVLSLGGGPKATTIELAIYQALSFDYDPARAAMLALIQMLCCLGLVLLSQRLSKAVAIGVSHVRGWRDPDDRLHSRLSDGLLIGASLLLLLPPLLAVIVDGINRNMLDVLAQPALWQALTTSLRIAIAAGLLSVTLTMMLLWSSRELRARQRPLAGQAMELSGMLILAMPGIVLATGFFLLLNNSIGLPESADGIVIFTNALMAIPYALKVLENPMRDIAVRYSMLCQSLGIEGLARLRVIELRALRRPLAQALAFACVLSIGDFGVVALFGNEAFRTLPFYLYQQIGAYRSQDGAVTALLLLLLCFLLFTLIEKLPGRDAKTQ	PGPT0009105_598	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009105-thiP-K02063	NA	NA
BMS020_04627	984	thiB	COG4143	Thiamine-binding periplasmic protein	GTGTTGAAAAAATTACTCCCGCTGCTGGCGCTGGTCGCCATGCCCGCTCTGGCTAAGCCTGTCCTCACCGTCTATACCTATGACTCCTTCTCTGCCGACTGGGGCCCCGGCCCGGCGGTCAAAAAAGCGTTTGAAGCGGACTGCGGCTGCGAGCTGAAGTTCGTCGTGCTGGAAGATGGCGTTTCGCTGCTGAATCGTCTGCGCATGGAAGGCAAGAACAGCAAGGCTGACGTCGTGCTGGGCCTGGATAACAACCTGCTGGAAGCCGCGGCGCAGAGTCAGCTGTTCGCTAAAAGCCACGTTCCCGCCAGCGCGGTCAGCGTGCCGGGCGGCTGGGATAACGACACCTTTGTCCCCTACGATTACGGCTATTTCGCCTTCGTCTATGACAAAAACAAACTGGCCAATCCGCCGAAAAGCCTGAAAGAGTTGGTCGAGAGCCCGCAGAAGTGGCGCGTCATCTATGAAGATCCGCGCACCAGCACCCCGGGGCTGGGGCTGCTGCTATGGATGCAAAAAGTCTATGGCGATAAAGCGCCCGAGGCCTGGCAGAAGCTGGCGGCGAAGACCGTTACCGTCACCAAGGGCTGGAGCGAAGCCTACGGTCTGTTCCTGAAAGGCGAAAGCGACCTGGTGTTGAGCTACACCACCTCGCCGGCCTACCACATTATTGAAGAGAAAAAAGACCACTATGCGGCGGCGAACTTCGCCGAAGGCCACTATCTGCAGGTCGAAGTTGCCGCCCGCACCGCCGCCAGCAAGCAGCCGGAACTGGCGGAGAAATTCCTCAAATTCATGGTATCTCCTGGCTTCCAGAACGCCATCCCCACCGGCAACTGGATGTATCCGGTGACCCAGGTCGCGCTGCCGGCCGGTTTTGCAACCCTGGTGAAGCCGCAGACCACGCTGACGTTTACCCCGCAGCAGGTCGCCAGCGAGCGTCAGACCTGGATTAGCGCATGGCAACGCGCCGTCAGCCGCTAA	MLKKLLPLLALVAMPALAKPVLTVYTYDSFSADWGPGPAVKKAFEADCGCELKFVVLEDGVSLLNRLRMEGKNSKADVVLGLDNNLLEAAAQSQLFAKSHVPASAVSVPGGWDNDTFVPYDYGYFAFVYDKNKLANPPKSLKELVESPQKWRVIYEDPRTSTPGLGLLLWMQKVYGDKAPEAWQKLAAKTVTVTKGWSEAYGLFLKGESDLVLSYTTSPAYHIIEEKKDHYAAANFAEGHYLQVEVAARTAASKQPELAEKFLKFMVSPGFQNAIPTGNWMYPVTQVALPAGFATLVKPQTTLTFTPQQVASERQTWISAWQRAVSR	PGPT0009095_914	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009095-thiB|tbpA-K02064	NA	NA
BMS020_04629	1656	sgrR_2	COG4533	HTH-type transcriptional regulator SgrR	ATGTCTTCCGGCCGTCTGCAACAACAGTTCATCCGTCTATGGCAGTGCTGCGACGGCAAGTCGCAGGAGACCACCCTCAACGAGCTGGCGGAAATGCTGAGCTGCTCGCGCCGCCACATGCGCACCTTGCTCAATATGATGGAGTCCCGCGGCTGGCTGACCTGGGAGGCGGAGGCTGGCCGCGGAAAACGCTCGCGGCTGACCTTTCTCTATACCGGCCTCGCCCTGCAGCAGCAGCGTGCCGAAGATCTGCTTGAGCAGGATCGCATCGATCAGCTGGTACAGCTGGTCGGCGATAAAGCCGCCGTCCGTCAGATGCTGGTCTCGCATCTCGGGCGCAGCTTCCGCCAGGGGCGGCACATCCTGCGCGTGCTCTACTACCGGCCGATGAAGAATTTACTGCCCGGCAGCGCGCTGCGGCGTTCGGAAACCCATATCGCCCGGCAAATATTCAGCGCTCTGACGCGGGTAAATGAGGAAAATGGGGAACTGGAAGCCGATATTGCCCACCACTGGCAGCAGTTGACGCCCACCCACTGGCGCTTTTTCCTCCGGCCAGGCATCCATTTTCACCATGGCCGTGAGCTGGAGATGACCGATGTGATCGCTTCTCTGCAGCGCAGCAATGCCCTGCCGCTCTATTCGCATATCGAACGCATTGCGTCGCCCACCGCCTGGACCCTGGATATTCATCTGCGCCAGCCCGACCGCTGGCTGCCCTGGCTGCTGGGCCAGGTACCGGCGATGGTGCTGCCGCAGGAGTGGCGGACCATGAACCACTTTTCTTCGATGCCGGTCGGCACCGGCCCGTATGCGGTGGTGCGCAACAATCAGAACCAGCTCAAGATCCACGCCTTTGAGGACTATTTTGGCTACCGGGCGCTGATCGATGAGGTGAACGTCTGGGTGCTACCGGAAATTAGCGAAGAGCCCAACGGCGGCCTGACGCTGCAGGGCAATACCGAAAGCGAAAAGGCGGTGGAGAGTCGTCTGGAAGAGGGGTGCTACTACCTGCTGTTCGACTCGCGAAGCCCGCTGGGCGCCAACGAGGCGGTGCGCCGCTGGTTAAGCTATCTGTTTCAGCCCGCGAACCTGCTCTACCACGCGGGCGAGCTTTACCAGGGCAACTGGTTTCCCGCCTACGGCCTGCTGCCGCGCTGGCATCACGCCAGCAACCACGCCTGCGACAAGCCGGCGGGCCTGGAGACGGTCACCCTCACCTACTACCGCGATCACGTCGAACATCGGGTGATCGGCGGGATCATGCGCGACCTGCTGGCGGCGCATCAGGTGAAGCTGGAGATCCAGGAGCTGGAGTACGATGCCTGGCATCGCGGCGAGGTGGTCAGCGATATCTGGCTCAACAGCGTTAACTTCACCTTGCCAATCGAATTCTCGCTATTCGCCTATCTGTACGAAGTCCCGCTGATTCAGCGCTGCATCCCCATCGACTGGCAGGAAGACGCCAGCCGCTGGCGCGCGGGAGAGTTTAATCCGGCTACCTGGAGTCAGCGCCTGCTGGCCAGCCAGCATATCGTGCCGCTGATCCATCACTGGCTGATGATTCAGGGGCAGCGCAGTATGCGCGGCGTGCGGATGAACACCCTCGGCTGGTTCGATTTTAAATCCGCATGGTTTGCGCCGCCGGAGCCGTAA	MSSGRLQQQFIRLWQCCDGKSQETTLNELAEMLSCSRRHMRTLLNMMESRGWLTWEAEAGRGKRSRLTFLYTGLALQQQRAEDLLEQDRIDQLVQLVGDKAAVRQMLVSHLGRSFRQGRHILRVLYYRPMKNLLPGSALRRSETHIARQIFSALTRVNEENGELEADIAHHWQQLTPTHWRFFLRPGIHFHHGRELEMTDVIASLQRSNALPLYSHIERIASPTAWTLDIHLRQPDRWLPWLLGQVPAMVLPQEWRTMNHFSSMPVGTGPYAVVRNNQNQLKIHAFEDYFGYRALIDEVNVWVLPEISEEPNGGLTLQGNTESEKAVESRLEEGCYYLLFDSRSPLGANEAVRRWLSYLFQPANLLYHAGELYQGNWFPAYGLLPRWHHASNHACDKPAGLETVTLTYYRDHVEHRVIGGIMRDLLAAHQVKLEIQELEYDAWHRGEVVSDIWLNSVNFTLPIEFSLFAYLYEVPLIQRCIPIDWQEDASRWRAGEFNPATWSQRLLASQHIVPLIHHWLMIQGQRSMRGVRMNTLGWFDFKSAWFAPPEP				NA	NA	NA	NA	NA
BMS020_04631	153			hypothetical protein	ATGATGAGGTCTACCGCAAAATCGTTCTACCAGCGCTACTTTTCTGCGACGCAGGAAGCGTCCTGGCTGGCCCGCCTGATGGCAGGACGACAGCAGGAAATTCTGGGAGAACTGATGCAGTGGGGAGTGACGTCAAAGACCTCTGATCATTGA	MMRSTAKSFYQRYFSATQEASWLARLMAGRQQEILGELMQWGVTSKTSDH				NA	NA	NA	NA	NA
BMS020_04632	1185	setA		Sugar efflux transporter A	ATGCTGTGGTTGATGACGATGGGACGACGGCTAAACGGCGTCTATGCCGCCTTTATGCTGGTTGCTTTTATGATGGGCGTGGCGGGCGCATTGCAGGCGCCGACGTTGAGTTTGTTTCTCAGCCGCGAAGTGGGGGCGCAGCCGTTCTGGGTGGGCCTGTTCTACACCGTGAATGCGATAGCCGGGATCCTGGTGAGTCTGGCGCTGGCCAAGCGCTCCGATAGCCGCGGCGACCGGCGGCGGTTAATTATGTTCTGCTGCCTGATGGCGGTAGGCAATGCGCTGCTGTTTGCCTTCAACCGCCACTATCTGACGCTGATCACCTGCGGGGTGATGCTGGCATCCATCGCTAACGCCGCCATGCCGCAGCTCTTTGCCCTGGCGCGGGAGTATGCCGACAGCTCGGCGCGGGAAGTGGTGATGTTCAGCTCGGTCATGCGTGCCCAGCTGTCCCTGGCGTGGGTGATTGGCCCGCCGCTGGCCTTTATGCTGGCGCTCAACTATGGCTTTACCACCATGTTCTCCATTGCGGCGGGCATCTTTGTGATCAGCCTGGCGCTGATTGCTGTCAAACTGCCCTCGGTTCCGCGCGTGGAGCAACCCTCGGAAGAGGCGGAGGCGCTGGCGCAGGCCGGCGGCTGGCAGGACAAGAACGTACGCATGCTGTTTATCGCCTCCACCCTGATGTGGACCTGCAACACCATGTATATCATTGATATGCCGCTGTGGATCAGCAGCGATCTCGGGCTTCCCGACAGCCTGGCCGGGATCCTGATGGGCACCGCCGCCGGGCTGGAGATTCCGGCGATGATCCTCGCCGGCTACTACGTGAAGCGCTTTGGTAAACGTAAAATGATGGTGGCGGCGGTGGCGGCCGGTGTGCTGTTTTATCTGGGGCTGATCCTGTTTCATGGCCGTACGGCGCTGCTGGCCCTGCAGCTGTTCAACGCCATCTTTATCGGCATTATCGCCGGGATCGGCATGCTGTGGTTCCAGGATTTAATGCCGGGGCGCGCGGGGGCGGCGACCACCCTGTTTACCAACAGTATTTCCACTGGCGTGATCCTGGCCGGCGTGATGCAGGGGGCGCTGTCGCAAAGCTATGGCCACGCCAGCGTCTACTGGACGATCGCCGCGATTTCGCTGGTGACGCTGTTTTTAACCAGCAAGGTAAAGGATATCTGA	MLWLMTMGRRLNGVYAAFMLVAFMMGVAGALQAPTLSLFLSREVGAQPFWVGLFYTVNAIAGILVSLALAKRSDSRGDRRRLIMFCCLMAVGNALLFAFNRHYLTLITCGVMLASIANAAMPQLFALAREYADSSAREVVMFSSVMRAQLSLAWVIGPPLAFMLALNYGFTTMFSIAAGIFVISLALIAVKLPSVPRVEQPSEEAEALAQAGGWQDKNVRMLFIASTLMWTCNTMYIIDMPLWISSDLGLPDSLAGILMGTAAGLEIPAMILAGYYVKRFGKRKMMVAAVAAGVLFYLGLILFHGRTALLALQLFNAIFIGIIAGIGMLWFQDLMPGRAGAATTLFTNSISTGVILAGVMQGALSQSYGHASVYWTIAAISLVTLFLTSKVKDI	PGPT0017195_318	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_OTHER_SUGAR_TRANSPORT_RELATED_PROTEINS,PGPT0017195-MFS_SET-K03291	NA	NA
BMS020_04633	1311	gudP_3		putative glucarate transporter	ATGAGTATGTCAAACTCTCAGGAAGTCCTCACTTCCTCATCGGGGACGAAAAAAAGAAGCCGCGTTCGGATAGTTATTTTACTGCTGTTGTCCGTCGGAACGATGATCAATTATCTCGACCGCACCATCCTCGGTATCGTTGCCCCACAGTTAACCCAGGAAATTCATATCGATCCGGCGATGATGGGCATCATTTTCTCCGCCTTTGCCTGGACCTATGCCCTGGCGCAGATCCCCGGCGGCATGTTTTTAGACCGCTTCGGCAACAAACTGACCTATGCCCTGTCAATTTTCTTCTGGTCGCTGTTTACCCTGCTGCAAAGTTTCACCCTCGGGCTTAAATCTCTGCTGCTTCTGCGCCTGGGACTCGGCGTCAGTGAAGCGCCCTGCTTCCCGGCCAACAGCCGCATCGTCAGCACCTGGTTCCCGCAGCATGAGCGCGCGCGCGCGACGGCAACATATACGGTTGGTGAATATATAGGACTGGCGGCCTTCTCGCCGCTGTTATTTTTAATCCTCGAACATCATGGCTGGAGAACGCTTTTTTTCCTCACCGGCGGATTAGGTATTTTATTTACTTTGGTGTGGTGGCGTTTTTATCACGAACCCCATGAATCGCGCACGGCTAATCAAGCGGAGCTGGATTATATCGGCGCAAACGGCATTGACAATAAAATCCAGAACGTTCCATTTAACTGGCGTGACGCCAGGCGCCTGCTGGGCTGTCGCCAGATCCTCGGCGCCAGTCTGGGTCAGTTTGCCGGTAACACCACGCTGGTGTTTTTCCTGACGTGGTTTCCCAGCTATCTGGCCAACGAGCGCCATCTTCCCTGGCTGCACGTTGGCTTCTTCGCCACCTGGCCGTTCCTCGCCGCCGCCATCGGCATCCTCTTCGGCGGCTGGATCTCGGACCGACTGCTGAAGCGAACCGGCTCCGTCAACATCAGTCGGAAGTTACCAATAATTTCCGGATTATTACTCTCCAGCTGTATTATTGCGGCGAACTGGGTGAGCGCCAACAGCACCGTTATTATTATCATGTCGGTGGCGTTTTTTGGCCAGGGAATGGTTGGCCTGGGCTGGACGTTAATTTCTGATATTGCCCCGGAAAATATGGCAGGCCTGACCGGCGGTATATTTAATTTCTGCGCTAATATGGCATCGATTATAGCCCCACTGATAATTGGCGTGATTATCTCCGCAACGGGTAACTTCTTTTACGCACTGATCTACGTCGGCCTGACGGCGCTGATCGGCGTGATTGCCTACATCTTTATCATCGGCGACATCAAGCGAATCGAACTGAAGTAA	MSMSNSQEVLTSSSGTKKRSRVRIVILLLLSVGTMINYLDRTILGIVAPQLTQEIHIDPAMMGIIFSAFAWTYALAQIPGGMFLDRFGNKLTYALSIFFWSLFTLLQSFTLGLKSLLLLRLGLGVSEAPCFPANSRIVSTWFPQHERARATATYTVGEYIGLAAFSPLLFLILEHHGWRTLFFLTGGLGILFTLVWWRFYHEPHESRTANQAELDYIGANGIDNKIQNVPFNWRDARRLLGCRQILGASLGQFAGNTTLVFFLTWFPSYLANERHLPWLHVGFFATWPFLAAAIGILFGGWISDRLLKRTGSVNISRKLPIISGLLLSSCIIAANWVSANSTVIIIMSVAFFGQGMVGLGWTLISDIAPENMAGLTGGIFNFCANMASIIAPLIIGVIISATGNFFYALIYVGLTALIGVIAYIFIIGDIKRIELK	PGPT0002190_504	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_GALACTONATE_TRANSPORT,PGPT0002190-dgoT-K08194	NA	NA
BMS020_04634	897	gltC_4		HTH-type transcriptional regulator GltC	ATGAACCTAAAGCAACTTTATTATTTTAAACGTCTGTCTGAAACTGAACATTATACCGAAGCGGCCTCCAGTCTGTGCATCACCCAGCCTTCGCTAAGCCATGCGATATCAGAGCTGGAGAAGGAGTTAGGGGTCGCGCTGTTCGCCAGACAGGGACGGAACGTTAAAATTACGCAAAACGGCAAGCGTTTTCTGCCGTATGTCGAAGATGCGCTGGCCTCACTGGAAAATGGCCGCACAGTTTTGCAAAAAAACGGCGCTGAAAATAAAGAAAACATTCGTATCGCCTTTATTTACACGATGGGCGAATATGTTGTTCCGCAGTTAATTAATAAATATTCTCTTTCACCTGAGTTTCACAACGTGACTTTTTCTTTTACTCAAGGGACCTCGCTGACGCTGTTGCAGGAGCTGAAAGCGGGAAAAGTCGATCTGGCGATCTGCTCTTATATTGCCGATGAACCCGATATCGATTTTATTCCGGTTATTCAGCAGGAGCTGGTGGTGGTGACCGCCAGGGATCATCCGCTGGCCCGGCTGTATGAACATGAAGTCGACCTCGTGGAGACGATTCATTATCCCTATATCTATTTTTCAGAAAATAGCGGCTTACGTCCGTTTATCGATAATGTATTTATGCAGCAAAAGCTGGTGCCGGAGATTGCCTGCTACGTGGAAGAGGATACCGCGATGGCCGGGCTGGTCAGCATTGACTACGGGATCGCTATCATGCCGCGGATCTCGGCGCTCTCCCATTACAACGTCCATATCCTGAAGATTAAAAACACCCTCCCTCCGCGCTATATCTATCTGGCGACCATGAAAGACCGCGGACTTTCCCCTGCGCTGCAGTCGTTTAAAAATGTGGTCATCCACGACAGCCAAAAGATCTGTTAG	MNLKQLYYFKRLSETEHYTEAASSLCITQPSLSHAISELEKELGVALFARQGRNVKITQNGKRFLPYVEDALASLENGRTVLQKNGAENKENIRIAFIYTMGEYVVPQLINKYSLSPEFHNVTFSFTQGTSLTLLQELKAGKVDLAICSYIADEPDIDFIPVIQQELVVVTARDHPLARLYEHEVDLVETIHYPYIYFSENSGLRPFIDNVFMQQKLVPEIACYVEEDTAMAGLVSIDYGIAIMPRISALSHYNVHILKIKNTLPPRYIYLATMKDRGLSPALQSFKNVVIHDSQKIC				NA	NA	NA	NA	NA
BMS020_04635	756	aroD_1	COG0710	3-dehydroquinate dehydratase	ATGACAAATGCAGTTACCGTAAAGAACATCACCTTCCAGGAAGGGGAAACCTTAATTTGTGTACCGCTGATCGGCAAAACGCTGGATGAAATACTGGGTAACGCCCACGGCCTGGTCGACGCCGGCGCCGATATCATCGAATGGCGCGTTGACCACTTTACTCAGGTGAGAGAGATGGCTCAGGTGATGGCCGCGCTGGCGGAAATCCGTGGCGCGCTGAAAGCGCTGCCGCTGCTGTTCACCTTCCGCAGCAAGAAAGAAGGTGGCGAGACCGAGCTCAGCGACGAGGCCTACTTCGCGCTCAACCGCGAAGCGGCGCGCAGTGGCCTGGTTGATGTCATCGATATCGAGCTGTTCAATGATGAAGCGCAGATCCGCGCGCTGGTTGACGATGCGCATGCCGCGGGCGTCAAAGTGATCATGAGTAACCATGATTTTCATAAGACCCCCGCCCAGGAAGATATCATCTATCGCCTGCGCCGCATGCAGGATCTGGGCGCCGATCTGCCGAAGATCGCGGTGATGCCGCAATCGCCGCAGGACGTTCTGACCCTGCTCGCCGCCACGCTGACCATGAAAGAAAAGTATGCCACCCGCCCGCTGATCACCATGTCGATGGGAAAATCGGGCGGCGTCAGCCGGGTGACCGGGCGTCTTTTTGGGTCAGCCATGACCTTCGGTACCGTGGGTCAGGCTTCCGCGCCGGGACAGATCGCCATCGACAAGCTGCGTGAAGTGATGGATATTCTCTCCTGA	MTNAVTVKNITFQEGETLICVPLIGKTLDEILGNAHGLVDAGADIIEWRVDHFTQVREMAQVMAALAEIRGALKALPLLFTFRSKKEGGETELSDEAYFALNREAARSGLVDVIDIELFNDEAQIRALVDDAHAAGVKVIMSNHDFHKTPAQEDIIYRLRRMQDLGADLPKIAVMPQSPQDVLTLLAATLTMKEKYATRPLITMSMGKSGGVSRVTGRLFGSAMTFGTVGQASAPGQIAIDKLREVMDILS	PGPT0012885_583	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_QUINATE_CATABOLISM,PGPT0012885-aroD-K03785	NA	NA
BMS020_04636	1215	ydiM_1		Inner membrane transport protein YdiM	ATGAAAAATAAATACGTCCCTACCGCGGCAGGGCTGTACCTCAACTACCTGATTCATGGCATGGGGGTGCTGCTGATCACCCTCAACATGGCCCATCTTCAGGAGCAGTGGGGAACAGACGCTGCCGGCGTATCAGTGGTGATCTCCTCGTTAGGGATCGGCAAACTGGCGACCATCGTGACCGGCTTTCTGTCGGATCGCTTTGGTCGTAAGCCCTTTATCTATCTGGGGATCCTCAGCTATCTGATCTTTTTTATCGGCATTCTGCTGACCAAAAATATCTATCTGGCCTATGTCTTCGGCATTATGGCGGGCCTGGCGAACAGCTTCCTCGACTCCGGCACCTATCCGGCGCTGATGGAATCTTTCCCGCACTCCGCCAGCCGGGCCAACGTGCTGATCAAAGCCTTCGTCTCCGCCGGACAGTTCCTGCTGCCGTTCATTATCAGCTTCCTGATCTGGGCGAATCTGTGGTTCGGCTGGTCGTTCGTGATTGCGGCGGCGCTGTTTGTTGTGAGCGGCCTCTATTTGCTCAAAATGCCGTTCCCGGATAGCCAGGCGGCGAAAAAAGAGGCCACCCCAGGGCCACAGGCGGAAACCTCCGCCCGTCCGCAGGCCAACAAACTGGATATGGTGATCTTCACCCTGTACGGCTATATCGGCATGGCGACATTCTATCTGGTCAGCCAGTGGCTGGCGCAGTACGGTCAGTTCGTGGTCGGCCTGCCCTATGCCTCGGCGATTAAGCTGCTCAGCATCTACACCGTCGGGTCGCTGGTCTGCGTCTTCGTGACCGCCGCCTTCGTCAAAGAGGTGTTCAGCTCCGCCGTCGCCATGATCATCTATACTGGCCTGTCGATGGTCTCGCTGCTGCTGGTGTGCCTGTTCCCGACGCCGATGATGGTTACCGGCTTCGCCTTTGTCATCGGCTTTGCCGCCGCGGGCGGAGTGCTACAGCTGGGAGCGACGATCATGGCGATGAGCTTCCCGAACGGGAAAGGCAAGGCAACCGGCATCTTCTACACCGCCGGCAGTATCGCCAGCTTCACGATCCCGCTGATCACCGCCAAACTTTCGCAGATCAGTATTGCCAGCATTATGTGGTTTGATTTTGCGATCGCCGTGATCGGCTTTGTGATCGCCCTGTACATCGGCTATCGTCAACTGCAGGCTCGGGCGGCGCAAAAAGTATCACCCACCGCAGTCACCGCCTGA	MKNKYVPTAAGLYLNYLIHGMGVLLITLNMAHLQEQWGTDAAGVSVVISSLGIGKLATIVTGFLSDRFGRKPFIYLGILSYLIFFIGILLTKNIYLAYVFGIMAGLANSFLDSGTYPALMESFPHSASRANVLIKAFVSAGQFLLPFIISFLIWANLWFGWSFVIAAALFVVSGLYLLKMPFPDSQAAKKEATPGPQAETSARPQANKLDMVIFTLYGYIGMATFYLVSQWLAQYGQFVVGLPYASAIKLLSIYTVGSLVCVFVTAAFVKEVFSSAVAMIIYTGLSMVSLLLVCLFPTPMMVTGFAFVIGFAAAGGVLQLGATIMAMSFPNGKGKATGIFYTAGSIASFTIPLITAKLSQISIASIMWFDFAIAVIGFVIALYIGYRQLQARAAQKVSPTAVTA				NA	NA	NA	NA	NA
BMS020_04637	864	aroE_1	COG0169	Shikimate dehydrogenase (NADP(+))	ATGGCAGAACGTATTACTGGACACACTGAGCTGATTGGTCTGATCGCCACCCCGATTCGCCACAGCATGTCGCCCACCATGCACAACGAGGCTTTCGCCCATCTCGGGCTGGACTACGTCTACCTGGCTTTTGAAGTCGGTAATCAGGAGCTGAAAGACGTTGTGCAGGGCTTCCGGGCTTTGAAGCTGCGCGGCTTTAACGTCTCTATGCCGAACAAAACCGAGATTTGCCAGTATCTTGATAAGCTCTCGCCGGCGGCGCAGCTGGTCGGGGCGGTGAATACCGTGGTCAATGACGACGGCGTACTGACCGGGCATATTACCGACGGCACCGGCTATATGCGCGCCCTTAGCGAAGCGGGTATCGATATTATTGGCAAGAAGATGACCGTGCTCGGCGCCGGCGGCGCGGCGACCGCGCTCTGCGTCCAGGCGGCACTGGATGGCGTGAAGGCGATCTCGATCTTCAACCGTCGCGATAAATTCTTCGCCAACGCCGAAGAAACGGTAGCCAAGATCCGCAACAACACGCGCTGCGAGATCCATCTGTTCGATCTCGACGATCATGACAAACTGCGTGCCGAAATCGACAGCAGCGTGATCCTGACCAATGCCACCGGGGTCGGCATGAAGCCGTTCGAAGGCCAGATGCTGCTCCCGGACGACAGCTTCCTGCGTCCGGACCTGATCGTCTCCGACGTCGTGTACAACCCGCGCAAAACCCACCTGCTGGAAGTGGCTGAGAAAAAAGGCTGCCGTACGCTAAACGGCCTCGGGATGATGCTGTGGCAAGGCGCGCGCGCGTTCGAAATCTGGACGGGTAAACAGATGCCGGTTGATTACATCAAAAGCATCCTGTTCTAA	MAERITGHTELIGLIATPIRHSMSPTMHNEAFAHLGLDYVYLAFEVGNQELKDVVQGFRALKLRGFNVSMPNKTEICQYLDKLSPAAQLVGAVNTVVNDDGVLTGHITDGTGYMRALSEAGIDIIGKKMTVLGAGGAATALCVQAALDGVKAISIFNRRDKFFANAEETVAKIRNNTRCEIHLFDLDDHDKLRAEIDSSVILTNATGVGMKPFEGQMLLPDDSFLRPDLIVSDVVYNPRKTHLLEVAEKKGCRTLNGLGMMLWQGARAFEIWTGKQMPVDYIKSILF	PGPT0019725_124	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_QUINATE_CATABOLISM,PGPT0019725-ydiB-K05887	NA	NA
BMS020_04638	2034			NADH oxidase	ATGAGCCACTATCCGCACCTTTTCAGTCCGTTGACCATCAACGGCATGACGCTAAAAAACCGCATTATTATGCCCCCGATGGGCACCAATATGGCCACGCTCAATGGCGAGGTCTCGCAGGAACAGCTGGAATACTACGAACTGCGGGCCAAAGGCGGCACCGGGCTTATCACCATCGAAAACATCTGTATTGATTTCCCTTTCGCCTCCAACGGCACCACCCAGCTGCGGATCGATAACGATCAATATATCCCGCGGCTGTTTAAATTAACCGAGACCCTGCATAAACATGGCGCCTGCGTATCCATTCAGTTAAATCACGCAGGCGCTTCGGCTTATGCCTACCGCCTCGAAGGTCAGACACCGCTCTCCTCCTCGACGACACCCTCGAAAAAGCACGGTAATATTCCGCGGCCAATGACCCATGAGGAAATTTATCACGCGGTGGAAAAATTTGGTGACGCCGCAGAGCGCGTTCGTCGCGCGGGTTTTGACTGCGTCGAAATTCATGCCGGCCACTCCTATTTAATTAGCCAGTTTTTATCGCCGTTATTTAACAAGCGCACCGATGAATTTGGCGGCAGCGTCGAAAACCGCACCCGGATATTAAGTCTGATTGTCGATAAAGTTCGCGCCTGCGTCGGGCCGCGTTTTCCGGTCAGCCTGCGCATTAGCGCCGACGACTTCCTCAAGGGCGGCAATACCCTCGAAGATTCTCTGCGCATCCTTGAGCTCTGCCAGGAGAAGGTCGATATCATCAACGTCTCGGCGGCGCAGAACGACAACCTGAATCTGCAAATCGACCAGATGTCGCTGGAGGATGGCTGGAAGCGTTATCTCTCCCGCGCGGTGCGCGATAAATTCCATAAGCCCACGGTCATCGCCGGCAATATCCGTACCCCGCAGGTGGCCGAGGATATCCTCGCCAGCGGCGATGCCGATCTCATTGCCATTGGTCGCGGTCTGATTGCCGAGCCGGAGTGGGTGCAGAAGGTGCAAAGCGGTAAAGAACGCCTGATGCGCAAATGCATCTCCTGCAACATCGGCTGCGCCGACCATCGCATCGCCCGCTCGCGCCCGCTGCGCTGTTCAATTAACCCGGACATCATTCACGGCGATACCTACAAAACGCGGCGCGTTAATCGCGACATGAACGTGGTCGTCATCGGCGCCGGCACTGCCGGGATGGAGGCCGCCTGCACCGCGGCGGAAGTCGGCTGCCACACCTGGCTGCTGGAGGCGAAAAATCACGTCGGCGGTCTCGCCAGCGATATCGCCCGTCTGCCGGAGAAAAAACGCATCGCGGATTTCCCGCAGTTTATGAAAAACCGCATCGCCGCGCTGGACAACCTGATGCTGCAGGTCGGCAAACGGGCAGACGTGGCCTCGGTTTCCGCCCTGCGTCCGCATCTGATCGTCAATGCCACCGGCTCAACCCCTCTGCTGCCGCCTATTGCAGGACTGCGGGAGAATATTGACGCCGCGGAAGGCAAGGTCTTTTCCATTACCGGCATGATCGACAATCTGGCGAAATTTACCCATGTCGAGGGCAAACGCATCGCCGTTGTCGGCGCGGGCGCCGTTGGCCTTGACGTCATCGAATATTTTACCGCTCGCGGCGCGCAAGCGGTATTAATCGAAATGCAGGACGCCGCCGGTCGCGATCTCGACATCATTACCAGGAATGCCATGTTGACCATGCTCGACGAGCACCAGGTCGAACAGCACATGAATACGCAACTGATGGCGGTGGCTGCCGACCATTTCCAGGTGAAAAATACACAGCATACCTTCGATATCCCCTTCGACTACGGCTTTGTCTGCCTGGGGATGCGTGCCAACCGGACGGGTCTCGACGAGATCGAGCGCTGGGCCAATGCCAATAACGTCAAAATCATGAATATCGGCGACAGCGTGATGGCGCGACGCATTATCGACGGCATCCGCGAAGGCCGCAACGTGCTGGACACCCTCGAAGACATGGGTGCGCTGGGCAGCCGCGAAGCACAACGAATTCCCTTTCTAACTTATTGA	MSHYPHLFSPLTINGMTLKNRIIMPPMGTNMATLNGEVSQEQLEYYELRAKGGTGLITIENICIDFPFASNGTTQLRIDNDQYIPRLFKLTETLHKHGACVSIQLNHAGASAYAYRLEGQTPLSSSTTPSKKHGNIPRPMTHEEIYHAVEKFGDAAERVRRAGFDCVEIHAGHSYLISQFLSPLFNKRTDEFGGSVENRTRILSLIVDKVRACVGPRFPVSLRISADDFLKGGNTLEDSLRILELCQEKVDIINVSAAQNDNLNLQIDQMSLEDGWKRYLSRAVRDKFHKPTVIAGNIRTPQVAEDILASGDADLIAIGRGLIAEPEWVQKVQSGKERLMRKCISCNIGCADHRIARSRPLRCSINPDIIHGDTYKTRRVNRDMNVVVIGAGTAGMEAACTAAEVGCHTWLLEAKNHVGGLASDIARLPEKKRIADFPQFMKNRIAALDNLMLQVGKRADVASVSALRPHLIVNATGSTPLLPPIAGLRENIDAAEGKVFSITGMIDNLAKFTHVEGKRIAVVGAGAVGLDVIEYFTARGAQAVLIEMQDAAGRDLDIITRNAMLTMLDEHQVEQHMNTQLMAVAADHFQVKNTQHTFDIPFDYGFVCLGMRANRTGLDEIERWANANNVKIMNIGDSVMARRIIDGIREGRNVLDTLEDMGALGSREAQRIPFLTY				NA	NA	NA	NA	NA
BMS020_04639	606	leuD1_1	COG0066	3-isopropylmalate dehydratase small subunit 1	ATGGCAGAGAAATTTACCCAACATACCGGCCTGGTGGTTCCGCTGGATGCTGCAAACGTCGATACCGACGCGATCATTCCCAAGCAGTTTCTGCAGAAAGTGACCCGCACCGGCTTTGGCGCGCACCTGTTCAACGACTGGCGCTTCCTCGACGATAAAGGTCAACAGCCGAACCCGGAGTTCGTGCTGAACTTTCCTGAGTACAAAGGCGCATCTATCCTGCTGGCGCGGGAAAACTTCGGCTGTGGCTCCTCGCGCGAGCATGCGCCGTGGGCGCTGACCGATTACGGTTTTAAAGTCGTTATCGCCCCAAGCTTTGCCGATATTTTCTATGGCAACAGCTTCAACAACCAGCTGCTGCCGGTGACGTTGAGCGATGAGCAGGTCGACGAGCTGTTCAAACTGGTGCAGGCCAAACCGGGCATTACGTTTGAAGTGGACCTGGAAGCGCAGGTGGTTAAAGCGGGGGATAAAACCTACAGCTTTAAGATCGACGATTTCCGTCGCCACTGCATGCTCAATGGCCTGGATAGCATCGGCCTGACGCTGCAACATGAAGCGGCTATTTCCGACTATGAGCACAAGCTGCCGGCGTTTATGAATTAA	MAEKFTQHTGLVVPLDAANVDTDAIIPKQFLQKVTRTGFGAHLFNDWRFLDDKGQQPNPEFVLNFPEYKGASILLARENFGCGSSREHAPWALTDYGFKVVIAPSFADIFYGNSFNNQLLPVTLSDEQVDELFKLVQAKPGITFEVDLEAQVVKAGDKTYSFKIDDFRRHCMLNGLDSIGLTLQHEAAISDYEHKLPAFMN	PGPT0001443_1869	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001443-leuD-K01704	NA	NA
BMS020_04640	1401	leuC_1	COG0065	3-isopropylmalate dehydratase large subunit	ATGGCGAAGACGTTATACGAAAAATTGTTTGATGCGCACGTGGTGTATGAGGCGCAAAACGAAACTCCGCTGTTGTATATCGACCGCCATCTGGTGCATGAAGTCACCTCCCCGCAGGCCTTTGACGGCCTGCGCGCCCACGGCCGCCAGGTGCGCCAGCCGGGTAAAACCTTCGCCACCATGGATCACAACGTCTCGACGCAGACCAAAGATATTAACGCGTCCGGCGAGATGGCCCGCATTCAGATGCAGGAGCTGATTAAGAACTGTAAAGAGTTCGGCGTTGAGCTGTACGATCTGAACCACCCGTACCAGGGCATCGTTCACGTGATGGGCCCGGAACAAGGGGTTACCCTGCCGGGGATGACCATTGTGTGCGGCGACTCCCATACCGCCACCCACGGCGCCTTCGGCGCGCTGGCCTTCGGCATCGGCACCTCCGAAGTGGAGCATGTGCTGGCGACCCAGACCCTGAAACAGGGTCGTGCGAAAACCATGAAAATCGAAGTGCAAGGCAAAGCGGCGCCGGGCATCACCGCCAAAGATATCGTGTTGGCGATCATTGGTAAAACCGGCAGCGCCGGCGGCACCGGCCACGTGGTGGAGTTCTGCGGCGAAGCGATCCGCGATCTGAGCATGGAAGGCCGCATGACCCTGTGCAACATGGCGATCGAGATGGGCGCGAAAGCGGGCCTGGTCGCGCCGGATGAAACCACCTTCAATTACGTACGCGGCCGTCTGCACGCGCCGAAAGGCAAAGATTTTGACGATGCGGTGGCGTACTGGAAAACCCTGAAAACCGACGACGGCGCCACATTTGACACCGTAGTGACGCTGCAGGCGGCTGAGATTGCCCCGCAGGTGACCTGGGGCACCAACCCGGGCCAGGTGATTTCGGTCAGCGATAATATCCCCGATCCTGCGTCGTTCAGCGACCCGGTGGAACGCGCCAGCGCCGAGAAAGCGCTGGCCTATATGGGGCTGAAATCCGGCATTCCGCTGACGGAAGTGGCTATCGATAAAGTGTTCATTGGCTCCTGTACCAACTCGCGTATCGAAGATTTGCGCGCGGCGGCGGAAATCGCCAAAGGGCGTAAAGTGGCGCCGGGCGTCCAGGCGCTGGTGGTGCCGGGTTCCGGTCCGGTGAAAGCGCAAGCGGAAGCGGAAGGCCTGGATAAGATCTTTATCGAAGCCGGCTTTGAGTGGCGCTTACCGGGCTGCTCTATGTGTCTGGCGATGAACAACGACCGCCTGAACCCGGGCGAGCGCTGCGCCTCCACCAGCAACCGTAATTTTGAAGGCCGCCAGGGCCGCGGCGGACGCACGCACCTGGTGAGCCCGGCAATGGCCGCGGCGGCAGCTGTGACCGGCCATTTCGCCGATATCCGTAATCTGAAGTAA	MAKTLYEKLFDAHVVYEAQNETPLLYIDRHLVHEVTSPQAFDGLRAHGRQVRQPGKTFATMDHNVSTQTKDINASGEMARIQMQELIKNCKEFGVELYDLNHPYQGIVHVMGPEQGVTLPGMTIVCGDSHTATHGAFGALAFGIGTSEVEHVLATQTLKQGRAKTMKIEVQGKAAPGITAKDIVLAIIGKTGSAGGTGHVVEFCGEAIRDLSMEGRMTLCNMAIEMGAKAGLVAPDETTFNYVRGRLHAPKGKDFDDAVAYWKTLKTDDGATFDTVVTLQAAEIAPQVTWGTNPGQVISVSDNIPDPASFSDPVERASAEKALAYMGLKSGIPLTEVAIDKVFIGSCTNSRIEDLRAAAEIAKGRKVAPGVQALVVPGSGPVKAQAEAEGLDKIFIEAGFEWRLPGCSMCLAMNNDRLNPGERCASTSNRNFEGRQGRGGRTHLVSPAMAAAAAVTGHFADIRNLK	PGPT0001442_3577	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001442-leuC-K01703	NA	NA
BMS020_04641	1092	leuB_1	COG0473	3-isopropylmalate dehydrogenase	ATGTCGAAGAATTACCATATTGCCGTTTTGCCGGGTGATGGCATTGGCCCGGAAGTGATGAACCAGGCGATGAAAGTACTGGAAGCCGTGCGCCAACGTTTTGCCATGCACATTACCACCAGCCAGTACGACGTCGGCGGCGCGGCCATCGACCGTCAGGGAACTCCCCTGCCGCAGGCGACCGTCGCCGGATGCGAGCAGGCGGACGCGATCCTGTTCGGCTCCGTCGGCGGCCCGAAGTGGGAACACCTGCCGCCCGCAGAACAGCCAGAGCGCGGCGCCCTGCTGCCGCTGCGTAAACACTTTAAACTGTTCAGCAACCTGCGCCCGGCCAAACTGTATCAGGGGCTGGAAGAGTTCTGCCCGCTGCGCGCCGACATCGCCGCCAACGGCTTCGACATTCTCTGCGTTCGCGAACTGACCGGCGGCATCTACTTCGGTCAGCCGAAAGGTCGCGAAGGCAGCGGTCAGCATGAGAAAGCTTTTGATACCGAGGTGTATCACCGCTTTGAAATCGAACGTATCGCGCGCATCGCGTTTGAATCCGCCCGTAAACGTCGTCACAAAGTGACCTCCATCGATAAGGCCAACGTCCTGCAGTCGTCCATTCTGTGGCGCGAAATCGTCACCGAGATCGGCAAGGAGTATCCGGACGTTGAGCTGGCGCATATGTATATCGATAACGCCACCATGCAGCTGATTAAAGATCCGTCCCAGTTCGACGTGCTGCTGTGCTCCAACCTGTTCGGCGACATCCTCTCCGACGAGTGCGCAATGATCACCGGCTCAATGGGTATGCTGCCGTCCGCCAGCCTCAACGAACAAGGTTTCGGCCTGTACGAGCCAGCAGGCGGCTCGGCGCCGGATATCGCCGGCAAAAATATCGCTAACCCGATCGCGCAGATCCTCTCCCTGGCGCTGCTGCTGCGCTATAGCCTCGACGCTGACGAGGCGGCGAGCGCGATTGAAAGCGCGATTAACCGCGCTCTGGAGGAAGGCGTTCGTACCGGCGATTTAGCGCGCGGCACGGCAGCGGTCAGCACTGATGAAATGGGCGATATCATTGCCCGCTATGTCGCAGAAGGGGTGTAA	MSKNYHIAVLPGDGIGPEVMNQAMKVLEAVRQRFAMHITTSQYDVGGAAIDRQGTPLPQATVAGCEQADAILFGSVGGPKWEHLPPAEQPERGALLPLRKHFKLFSNLRPAKLYQGLEEFCPLRADIAANGFDILCVRELTGGIYFGQPKGREGSGQHEKAFDTEVYHRFEIERIARIAFESARKRRHKVTSIDKANVLQSSILWREIVTEIGKEYPDVELAHMYIDNATMQLIKDPSQFDVLLCSNLFGDILSDECAMITGSMGMLPSASLNEQGFGLYEPAGGSAPDIAGKNIANPIAQILSLALLLRYSLDADEAASAIESAINRALEEGVRTGDLARGTAAVSTDEMGDIIARYVAEGV	PGPT0001441_1621	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001441-leuB-K00052	NA	NA
BMS020_04642	1572	leuA_2	COG0119	2-isopropylmalate synthase	ATGAGCCAGCAAGTCATTATTTTCGATACGACCTTACGTGATGGCGAACAAGCGTTACAGGCAAGCCTGAGTGTCAAAGAGAAGCTGCAGATTGCTCTGGCCCTTGAGCGCATGGGTGTTGACGTGATGGAAGTCGGTTTCCCGGTTTCTTCTCCGGGCGATTTTGAATCCGTGCAGACCATCGCGCGCACCATCAAAAACAGCCGCGTATGCGCCCTGGCGCGCTGCGTCGAGAAAGATATCGACGTGGCGGCGGAATCCTTAAAGGTGGCCGAAGCGTTCCGTATCCACACCTTCATCGCCACCTCGCCGATGCATATCGCCACCAAACTGCGCAGCACCCTGGATGAGGTCATTGAGCGTGCGGTTTATATGGTGAAGCGGGCGCGCAACTACACTAACGATGTCGAGTTCTCCTGTGAAGACGCCGGCCGTACGCCGATTGCTGACCTGGCTCGCGTCGTGGAAGCCGCGATTAACGCTGGCGCCACCACCATTAATATTCCGGATACCGTCGGCTACACCATGCCGTTCGAGTACGCCAACATTATCAGCGGCCTGTATGAGCGCGTACCGAATATCGACAAAGCCATTATCTCCGTCCATACCCATGATGACCTGGGTATTGCCGTCGGCAACGCCCTCGCCGCGGTCCACGCCGGAGCCCGCCAGGTAGAAGGCGCGATGAACGGTATCGGCGAGCGTGCCGGCAACTGCGCGCTGGAAGAGGTCATCATGGCGATTAAAGTGCGCAAAGACATCATGAACGTGCACACCAATATCAACCACCATGAAATCTGGCGCACCAGCCAGACCGTCAGCCAGATCTGCAACATGCCGATCCCGGCGAACAAAGCCATCGTCGGCACCGGCGCCTTCGCCCACTCCTCCGGTATCCACCAGGACGGCGTGTTGAAGAACCGCGAAAACTACGAAATCATGACCCCGGAATCCATCGGCCTGAACCAGGTACAGCTGAACCTGACTTCCCGCTCCGGCCGCGCGGCGGTGAAACACCGGATGGAAGAGATGGGTTACCAGGAGAGCGATTACAACCTGGATCACCTGTACGACGCGTTCCTGAAGCTGGCGGACAAAAAAGGCCAGGTCTTCGATTACGATCTGGAAGCGCTGGCCTTTATCAACAAGCAGCAGGAAGAGCCGGAGCATTTCCGCCTGGATTACTTCAACGTTCAGTCCGGCTCCAGCGATATCGCGACCGCCTCGATCAAACTGGTCTGCGGGGATGAGATCAAAACGGAAGCCGCCAACGGCAACGGTCCGGTTGATGCTATCTACCAGGCGATTAACCGCGTCACCGATTACAACATTGAATTAGTGAAATATGGCTTAAGCGCGAAAGGCCACGGCAAAGACGCCCTGGGCCAGGTGGATATCGTCGTTGACTACAACGGTCGCCGTTTCCACGGCGTTGGTCTGGCAACGGATATCGTAGAGTCGTCAGCCAAAGCGATGGTTCACGTGCTGAACAACATCTGGCGCGCCGCCGAAGTCGAAAAAGAATTGCAACGCAAAGCTCAGAATAAAGAGAACAATAAGGAAACCGTGTAA	MSQQVIIFDTTLRDGEQALQASLSVKEKLQIALALERMGVDVMEVGFPVSSPGDFESVQTIARTIKNSRVCALARCVEKDIDVAAESLKVAEAFRIHTFIATSPMHIATKLRSTLDEVIERAVYMVKRARNYTNDVEFSCEDAGRTPIADLARVVEAAINAGATTINIPDTVGYTMPFEYANIISGLYERVPNIDKAIISVHTHDDLGIAVGNALAAVHAGARQVEGAMNGIGERAGNCALEEVIMAIKVRKDIMNVHTNINHHEIWRTSQTVSQICNMPIPANKAIVGTGAFAHSSGIHQDGVLKNRENYEIMTPESIGLNQVQLNLTSRSGRAAVKHRMEEMGYQESDYNLDHLYDAFLKLADKKGQVFDYDLEALAFINKQQEEPEHFRLDYFNVQSGSSDIATASIKLVCGDEIKTEAANGNGPVDAIYQAINRVTDYNIELVKYGLSAKGHGKDALGQVDIVVDYNGRRFHGVGLATDIVESSAKAMVHVLNNIWRAAEVEKELQRKAQNKENNKETV				NA	NA	NA	NA	NA
BMS020_04644	885	leuO		HTH-type transcriptional regulator LeuO	ATGGTTGATCTCAATCTGCTTACCGTTTTTGATGCGGTTATGCAGGAACAGAATATTACCCGTGCCGCCCATACGCTCGGCATGTCTCAACCGGCGGTGAGCAACGCGGTTTCACGTCTGAAAGTGATGTTTAATGATGAGCTGTTTGTACGCTATGGCCGCGGTATTCAGCCGACGGCGCGGGCCTATCAGCTGTTTGGCTCAGTGCGTCAGGCGCTGCAGCTGGTACAAAACGAATTGCCAGGCTCCGGTTTTGAACCCTTGAGCAGTGAGCGTGTTTTCAATCTGTGCGTCTGTAGCCCGCTGGATAACATCCTGACGTCGGTAATTTTTAATAAAGTCGCCGAAATCGCGCCCAATATTCATTTAGTCTTTAAATCAGCGCTTAATCAAAATACGGAACATCAGTTACGTTATCAGGAAACGGAATTTGTGATCGGTTATGAAGAGTTTCGTCGTCCTGAGTTTGCCTGTGTACCGCTATTCAAAGATGAAATGGTTCTGGTGGCTAGTCGCAACCATCCGCGTATCTCCGGACCGGTGATGGAGGCTGATATTTATCGCGAGGAGCATGCCGCGGTGGCTCTCGATCGGTATGCCTCATTCAGTCTGCCGTGGTATGACACGGCCGATAAACAAGCGCGCATCGCATATCAAGGTAATGCGATGGTCAGCGTATTAAACGTGGTGTCGCAAACGCAGATGGTGGCCATTGCGCCGCGCTGGCTGGCAAATGAGTTTGCCGATAAGTTAGCGCTGCAAATATTACCTCTGCCGCTGAAGGTGAATAGCCGGACCTGCTATCTCTCCTGGCACGAAGCGGCGGGTCGCGATAAAGGTCATCAGTGGATGGAAGAGCTGCTGGTGGATATTTGTCAGCGCTGA	MVDLNLLTVFDAVMQEQNITRAAHTLGMSQPAVSNAVSRLKVMFNDELFVRYGRGIQPTARAYQLFGSVRQALQLVQNELPGSGFEPLSSERVFNLCVCSPLDNILTSVIFNKVAEIAPNIHLVFKSALNQNTEHQLRYQETEFVIGYEEFRRPEFACVPLFKDEMVLVASRNHPRISGPVMEADIYREEHAAVALDRYASFSLPWYDTADKQARIAYQGNAMVSVLNVVSQTQMVAIAPRWLANEFADKLALQILPLPLKVNSRTCYLSWHEAAGRDKGHQWMEELLVDICQR				NA	NA	NA	NA	NA
BMS020_04645	1725	ilvI_2	COG0028	Acetolactate synthase isozyme 3 large subunit	ATGGAGATGTTGTCAGGAGCCGAGATGGTCGTCCAATCGCTTGTCGATCAGGGCGTCAAGCAAGTATTCGGCTATCCCGGAGGCGCAGTCCTCGATATCTATGATGCGTTACATACCCTTGGCGGTATCGATCATGTGCTGGTTCGCCACGAGCAGGCGGCGGTGCATATGGCGGATGGCCTGGCGCGAGCGACCGGGGAGGTCGGTGTGGTGCTGGTGACCTCAGGGCCTGGGGCGACGAACGCCATCACCGGTATCGCGACGGCCTATATGGACTCTATCCCGCTGGTGATCCTCTCCGGGCAAGTGGCGACATCGCTTATCGGCTACGATGCCTTCCAGGAGTGCGACATGGTGGGGATTTCCCGCCCGGTGGTGAAGCACAGTTTCCTGGTGAAGCAGACCGAAGATATTCCCGGCGTGCTGAAGAAAGCCTTCTGGCTGGCGGCCAGCGGTCGCCCCGGGCCGGTGGTGGTCGATCTGCCGAAGGATATACTCAATCCGGCCAAGAAACTGCCGTACGTCTGGCCAGACGCGGTCAGCATGCGCTCGTATAACCCGACGACCAGCGGTCATAAAGGCCAGATCAAACGCGCCCTGCAGACCCTGGTGGCGGCGAGCAAGCCGGTCGTCTACGTCGGCGGCGGGGCGATCAATGCGCATTGCGAACCTCAGCTGCGCGAGCTGGTGGAAAAGCTGAAGCTGCCGGTGGCCTCCTCCCTGATGGGGCTGGGCGCTTTCCCGGCGACGCACTCGCAGGCGCTGGGGATGCTGGGCATGCACGGCACTTATGAAGCCAACATGACCATGCACCATTCAGACGTGATTTTTGCCGTCGGCGTTCGCTTTGACGATCGGACCACCAATAACCTGGCCAAATACTGTCCGAACGCGACTGTGCTGCATATCGATATCGATCCGACCTCAATCTCGAAAACCGTGCCAGCAGATGTGCCGATCGTCGGCGATGCCCGACTGGTGCTGGAGCAGATGCTGGAGCTGCTGGAGCAGGAAGAGGCGCAGCAGCCGCTGGACGACATTCGCGACTGGTGGCAGCAGATTGAGCAGTGGCGCGCCCGCCATTGCCTGCGCTACGACGACCAGAGCGACAAGATCAAACCGCAGGCGGTGATAGAAACGATCTGGCGCCTGACTCAGGGCGATGCCTATGTCACTTCCGATGTGGGTCAGCACCAGATGTTCGCCGCCCTCTATTACCCCTTCGACAAGCCGCGGCGCTGGATTAACTCCGGTGGCCTCGGCACCATGGGCTTTGGCCTACCGGCTGCGCTGGGGGTCAAAATGGCTCTGCCGGACGAAATGGTCGTCTGCGTGACCGGTGACGGCAGTATCCAGATGAACATTCAGGAACTCTCTACTGCGCTGCAGTATGAGCTGCCGGTCCTGGTGCTTAACCTTAACAACCGCTATCTGGGGATGGTGAAGCAGTGGCAGGATATGCTCTATTCTGGGCGCCACTCGCAGTCCTATATGGAGTCGCTGCCGGACTTCGTTCGTCTGGCGGAAGCCTACGGCCACGTTGGGATCCGCATCAGCGAGCCGCAGGAGCTGGAGACGAAGCTTGCAGAAGCCCTGGAGCAGGTGCGACAGCGCCGGCTGGTGTTTGTCGATGTCACCGTCGACGGCAGTGAGCATGTGTACCCCATGCAGATCCGCGGCGGCGGCATGGATGAAATGTGGTTGAGCAAAACGGAGAGGACCTGA	MEMLSGAEMVVQSLVDQGVKQVFGYPGGAVLDIYDALHTLGGIDHVLVRHEQAAVHMADGLARATGEVGVVLVTSGPGATNAITGIATAYMDSIPLVILSGQVATSLIGYDAFQECDMVGISRPVVKHSFLVKQTEDIPGVLKKAFWLAASGRPGPVVVDLPKDILNPAKKLPYVWPDAVSMRSYNPTTSGHKGQIKRALQTLVAASKPVVYVGGGAINAHCEPQLRELVEKLKLPVASSLMGLGAFPATHSQALGMLGMHGTYEANMTMHHSDVIFAVGVRFDDRTTNNLAKYCPNATVLHIDIDPTSISKTVPADVPIVGDARLVLEQMLELLEQEEAQQPLDDIRDWWQQIEQWRARHCLRYDDQSDKIKPQAVIETIWRLTQGDAYVTSDVGQHQMFAALYYPFDKPRRWINSGGLGTMGFGLPAALGVKMALPDEMVVCVTGDGSIQMNIQELSTALQYELPVLVLNLNNRYLGMVKQWQDMLYSGRHSQSYMESLPDFVRLAEAYGHVGIRISEPQELETKLAEALEQVRQRRLVFVDVTVDGSEHVYPMQIRGGGMDEMWLSKTERT	PGPT0008185_4241	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
BMS020_04646	492	ilvH	COG0440	Acetolactate synthase isozyme 3 small subunit	ATGCGCCGGATATTATCGGTATTACTGGAAAACGAATCGGGCGCATTGTCCCGCGTTATCGGCCTCTTTTCCCAGCGCGGCTATAATATAGAAAGCCTGACTGTCGCCCCGACGGACGATCCGACCCTCTCCAGGATGACCATCCAGACCGTGGGCGATGAAAAAGCGATCGAGCAGATTGAAAAGCAGCTGCACAAGCTGGTGGATGTCCTGCGGGTCAGCGAGCTGGGGCAGGGGGCTCATGTCGAACGCGAAATCATGCTGGTGAAGGTCCAGGCCAGCGGTTACGGCCGTGAAGAAGTGAAGCGCAACACCGAAATCTTTCGTGGACAGATTATCGACGTGACGCCTTCTATCTATACGGTTCAACTCGCCGGCACCAGCGATAAGCTCGACGCTTTCCTTGCCTCCCTGCGCGATGTCGCTCGGATCGTGGAAGTGGCTCGCTCCGGCGTGGTCGGCCTGTCTCGCGGTGATAAAATCATGCGCTGA	MRRILSVLLENESGALSRVIGLFSQRGYNIESLTVAPTDDPTLSRMTIQTVGDEKAIEQIEKQLHKLVDVLRVSELGQGAHVEREIMLVKVQASGYGREEVKRNTEIFRGQIIDVTPSIYTVQLAGTSDKLDAFLASLRDVARIVEVARSGVVGLSRGDKIMR	PGPT0008205_1397	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
BMS020_04647	1005	cra_2	COG1609	Catabolite repressor/activator	GTGAAACTGGATGAAATCGCCCGGCTGGCCGGTGTTTCAAGAACCACCGCGAGCTATGTGATTAATGGCAAAGCGAAGCAGTACCGCGTAAGCGACAAAACGGTCGAAAAAGTGATGGCTGTCGTGCGAGAGCACAACTATCACCCGAATGCGGTCGCTGCTGGCCTGCGTGCAGGACGCACACGCTCTATCGGTCTGGTGATCCCGGATCTGGAGAACACCAGCTATACCCGCATTGCAAATTATCTGGAGCGGCAGGCGCGCCAGCGCGGTTATCAGTTGCTGATTGCCTGCTCGGAGGATCAGCCCGATAACGAAATGCGCTGTATCGAGCATCTGCTACAGCGCCAGGTGGACGCCATCATTGTTTCCACCTCGCTGCCGCCGGAGCACCCTTTCTATCAGCGCTGGGCTAACGATCCGTTTCCGATTGTCGCCCTCGACCGCGCCCTAGACCGCGAGCACTTCACCAGCGTCGTCGGCGCTGACCAGGATGATGCCGAGATGCTCGCCGCCGAGTTGCGGACTTTTCCCGGCGAAACGGTGCTTTATCTGGGCGCGCTGCCGGAACTGTCGGTGAGCTTCCTGCGCGAGCAAGGCTTCCGTAAAGCCTGGCAGGACGATCCGCGTGAGGTGCATTATCTCTATGCCAACAGCTACGAGCGAGAAGCGGCGGCCCAGCTGTTTGAGAAATGGCTTGAAACCCATCCGATGCCGCAGGCGCTGTTCACCACCTCTTTCCCGTTGCTGCAGGGCGTCATGGATGTGACGCTGCGCCGTGAGGGTAAACTGCCTTCCGAGCTGGCGATCGCCACCTTCGGCGATAATGAGCTGCTCGATTTCCTGCAGTGTCCGGTACTGGCCGTGGCCCAGCGCCATCGCGATGTCGCTGAGCGGGTGCTCGAGATCGTCCTCGCCAGCCTCGATGAACCGCGCAAGCCGAAGCCGGGCCTCAGCCGTATTCGTCGTAATCTTTATCGCCGCGGCAGCCTGAATCGCCGTTAA	MKLDEIARLAGVSRTTASYVINGKAKQYRVSDKTVEKVMAVVREHNYHPNAVAAGLRAGRTRSIGLVIPDLENTSYTRIANYLERQARQRGYQLLIACSEDQPDNEMRCIEHLLQRQVDAIIVSTSLPPEHPFYQRWANDPFPIVALDRALDREHFTSVVGADQDDAEMLAAELRTFPGETVLYLGALPELSVSFLREQGFRKAWQDDPREVHYLYANSYEREAAAQLFEKWLETHPMPQALFTTSFPLLQGVMDVTLRREGKLPSELAIATFGDNELLDFLQCPVLAVAQRHRDVAERVLEIVLASLDEPRKPKPGLSRIRRNLYRRGSLNRR	PGPT0017585_414	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017585-fruR1-K03435	NA	NA
BMS020_04648	459	mraZ_2	COG2001	Transcriptional regulator MraZ	ATGTTCCGTGGAGCAACGTTAGTCAATCTCGACAGCAAAGGCCGCCTGGCCGTGCCAACGCGCTATCGCGATGGGCTGATCGAGGACGCTGCCGGTCAATTGGTATGCACCATTGACATTCATCACCCGTGCCTGCTGCTTTATCCATTGCCTGAATGGGAAGTCATCGAGCAGAAATTGTCGCGTTTATCGAGCATGAATCCCGTTGAGCGGCGCGTACAGCGTTTGCTTCTGGGTCATGCCAGCGAATGTCAGATGGATAATGCCGGTCGCTTGCTGATAGCGCCGGTGTTACGGCAGCATGCCGGGCTGACAAAAGAAGTGATGCTGGTCGGGCAGTTTAATAAATTTGAACTGTGGGACGAAACGACCTGGTATCAACGGGTCAAGGAAGATATCGACGCTGAGCAGTCCGCGACCGGTGAACTGTCGGAGCGCCTGCAGGATTTGTCTTTATAA	MFRGATLVNLDSKGRLAVPTRYRDGLIEDAAGQLVCTIDIHHPCLLLYPLPEWEVIEQKLSRLSSMNPVERRVQRLLLGHASECQMDNAGRLLIAPVLRQHAGLTKEVMLVGQFNKFELWDETTWYQRVKEDIDAEQSATGELSERLQDLSL				NA	NA	NA	NA	NA
BMS020_04649	942	rsmH_2	COG0275	Ribosomal RNA small subunit methyltransferase H	ATGATGGAAAATTTTAAACACACTACGGTACTTCTGGATGAAGCCGTCAACGGCCTCAATATTCGTCCAGACGGTATCTATATTGATGGTACCTTTGGTCGCGGCGGTCACTCGCGCCTGATCCTCTCCCAACTGGGAGCGGAAGGACGCTTGCTGGCAATCGATCGCGATCCTCAGGCGATTGCCGTCGCGCAAACCATCGATGATCCCCGCTTTTCCATCGTACATGGTCCATTTTCACAGCTTGCTGAGTACGTCGGCGAGCGCAATCTTACCGGTAAGATCGACGGCATTCTGCTCGATCTTGGCGTCTCCTCCCCGCAGCTTGACGATGCGGAACGCGGCTTTTCCTTTATGCGCGACGGGCCGCTGGATATGCGCATGGATCCGACGCGCGGTCAGTCCGCGGCCGAATGGCTGCAGACCGCTGAAGAAGCGGATATCGCCTGGGTGATTAAAACCTTCGGCGAAGAGCGTTTCGGTAAACGGATCGCCCGCGCGATCGTCGAACGTAATCGCATTGCACCGATGACCCGCACCAAAGAGCTGGCGGAGGTCATCGCCGCGGCGATGCCGGTAAAAGATAAGCACAAACATCCCGCGACCCGTACCTTCCAGGCGGTGCGCATTTGGGTAAACAGTGAACTGGAGGAGATAGAGCAGGCGCTAAAAAGCTCGCTCAGCGTGCTGGCCCCGGGCGGGCGGCTGTCGATCATTAGTTTTCATTCGCTGGAAGATCGCATTGTAAAGCGCTTTATGCGTGAGCAAAGCCGCGGTCCGCAGGTTCCGGCGGGAATACCGATGACCGAATCGCAGCTCAAAAAACTGGGCGGCCGTGAGTTACGAGCACTAGGCAAGTTGATGCCGGGCGAAGAAGAGGTGGCAGAGAATCCACGTGCCCGTAGTTCAGTGCTGCGTATCGCAGAGAGGACGAACGCATGA	MMENFKHTTVLLDEAVNGLNIRPDGIYIDGTFGRGGHSRLILSQLGAEGRLLAIDRDPQAIAVAQTIDDPRFSIVHGPFSQLAEYVGERNLTGKIDGILLDLGVSSPQLDDAERGFSFMRDGPLDMRMDPTRGQSAAEWLQTAEEADIAWVIKTFGEERFGKRIARAIVERNRIAPMTRTKELAEVIAAAMPVKDKHKHPATRTFQAVRIWVNSELEEIEQALKSSLSVLAPGGRLSIISFHSLEDRIVKRFMREQSRGPQVPAGIPMTESQLKKLGGRELRALGKLMPGEEEVAENPRARSSVLRIAERTNA				NA	NA	NA	NA	NA
BMS020_04650	366	ftsL_2	COG3116	Cell division protein FtsL	ATGATCGGCAGAGTGACAGAGGCCTTAAGCAAAGTTAAAGGGTCGATTGGAAGCAACGAGCGCCATGCTTTGCCTGGCGTGATCGGGGACGACCTTCTGCGGTTTGGGAAACTGCCACTCTGCCTGTTCATTTGCATCATTATTACGGCGATTACCGTGGTCACCACCGCGCACCACACGCGCCTGTTGACCGCGCAGCGTGAACAACTGGTTCTGGAACGCGACGCCCTGGACATTGAGTGGCGCAACCTGATCCTCGAAGAGAACGCGCTCGGCGATCACAGTCGGGTTGAACGGATCGCGACCGAGAAGTTGCAGATGCAACACGTCGATCCATCACAAGAAAATATCGTTGTACAGAAATAA	MIGRVTEALSKVKGSIGSNERHALPGVIGDDLLRFGKLPLCLFICIIITAITVVTTAHHTRLLTAQREQLVLERDALDIEWRNLILEENALGDHSRVERIATEKLQMQHVDPSQENIVVQK				NA	NA	NA	NA	NA
BMS020_04651	1767	ftsI_3	COG0768	Peptidoglycan D,D-transpeptidase FtsI	ATGAAAGCAGCGCCAAAAACGCCAAAAGCAAAACGTCAGGAAGAACAGGCCAACTTTATCAGTTGGCGTTTTGCGTTGCTGTGCGGCTGCATTCTGCTGGCGCTGACTTTCCTGCTGGGGCGCGTTGCCTGGCTACAGGTGGTCAGCCCGGATATGCTGGTGCGTCAGGGCGATATGCGTTCCCTGCGCGTACAGGAAGTGTCCACCGCGCGCGGGATGATTACCGACCGCTCCGGACGTCCACTGGCGGTCAGCGTGCCGGTGAAAGCTATCTGGGCCGATCCGAAAGAACTCCATGATGCCGGCGGGGTAACCCTGGATACGCGCTGGAAGGCGCTGGCGGATGCCCTCAATATGCCGCTGGATCAGCTGGCGACGCGCATCAATACCAATCCGCGGATGCGTTTCATCTATCTGGCGCGTCAGGTTAACCCTGACATGGCCGACTACATCAAAAAACTGAAGCTGCCGGGCATTCATCTGCGTGAAGAATCCCGTCGTTACTACCCTTCCGGGGAAGTGACCGCTCACCTCATCGGTTTTACCAACGTCGACAGCCAGGGGATTGAAGGGGTCGAAAAAAGCTTTGATAAATGGCTCACCGGCCAGCCGGGCGAGCGTATCGTGCGTAAAGACCGCTATGGCCGGGTAATTGAAGACATCTCTTCCACCGACAGCCAGGCGGCGCACAACCTGGCGCTGAGTATCGACGAGCGTCTGCAGGCGCTGGTCTATCGTGAGCTGAACAACGCCGTGGCCTTTAACAAAGCCGAGTCCGGCAGCGCGGTGTTAGTGGACGTGAACACCGGCGAAGTGCTGGCGATGGCCAACAGCCCGTCCTACAACCCAAACAACTTCGCCGGCACGGCGAAAGACACCATGCGTAACCGCGCCATCACCGACGTCTTCGAACCGGGTTCGACGGTGAAGCCGATGGTGGTGATGACGGCGCTGCAGCGCGGTATCGTCAACGAAAATACCGTGCTCAATACCGTGCCTTATCGAATTAACGGCCACGAAATTAAAGACGTGGCGCGCTACAGCGAATTGACCCTGACCGGGGTGCTACAGAAGTCGAGTAACGTCGGTGTTTCTAAGCTGGCGTTAGCGATGCCGTCCTCAGCGTTAGTAGATACTTACTCACGTTTTGGGCTTGGAAAGGCGACCAATTTGGGGTTGGTCGGAGAACGCAGTGGCTTATATCCTCAAAAACAACGGTGGTCTGACATAGAGAGGGCCACCTTTTCTTTCGGCTACGGGCTAATGGTAACCCCGTTACAGTTAGCGCGAGTCTACGCAACGATTGGCAGCTACGGCATCTATCGCCCGCTGTCGATTACCAAAGTTGATCCACCGGTTCCGGGCGAGCGTGTCTTCCCGGAATCACTCGTTCGTACCGTCGTTCATATGATGGAAAGCGTGGCGCTGCCCGGCGGCGGCGGCGTGAAAGCGGCGATCAAAGGCTATCGCATCGCGATTAAAACCGGTACGGCGAAAAAAGTGGGGCCGGATGGCCGCTATATCAACAAATATATTGCTTACACCGCAGGCGTTGCGCCCGCCAGCCATCCGCGCTTTGCGCTGGTGGTGGTGATCAACGACCCGCAGGCAGGTAAATACTACGGTGGCGCCGTTTCCGCGCCGGTGTTCGGTGCCATCATGGGCGGCGTATTGCGCACCATGAACATCGAACCGGATGCGCTGGCAACGGGCGAAAAAAGTGAATTTGTAATTAATCAAGGCGAGGGAACAGGTGGCAGATCGTAA	MKAAPKTPKAKRQEEQANFISWRFALLCGCILLALTFLLGRVAWLQVVSPDMLVRQGDMRSLRVQEVSTARGMITDRSGRPLAVSVPVKAIWADPKELHDAGGVTLDTRWKALADALNMPLDQLATRINTNPRMRFIYLARQVNPDMADYIKKLKLPGIHLREESRRYYPSGEVTAHLIGFTNVDSQGIEGVEKSFDKWLTGQPGERIVRKDRYGRVIEDISSTDSQAAHNLALSIDERLQALVYRELNNAVAFNKAESGSAVLVDVNTGEVLAMANSPSYNPNNFAGTAKDTMRNRAITDVFEPGSTVKPMVVMTALQRGIVNENTVLNTVPYRINGHEIKDVARYSELTLTGVLQKSSNVGVSKLALAMPSSALVDTYSRFGLGKATNLGLVGERSGLYPQKQRWSDIERATFSFGYGLMVTPLQLARVYATIGSYGIYRPLSITKVDPPVPGERVFPESLVRTVVHMMESVALPGGGGVKAAIKGYRIAIKTGTAKKVGPDGRYINKYIAYTAGVAPASHPRFALVVVINDPQAGKYYGGAVSAPVFGAIMGGVLRTMNIEPDALATGEKSEFVINQGEGTGGRS	PGPT0023865_2367	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023865-ftsI-K03587	NA	NA
BMS020_04652	1488	murE_2	COG0769	UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase	GTGGCAGATCGTAATTTGCGCGACCTTCTCGCTCCATGGGTGCCAAACGCACCGGAGCGCATTCTGCGAGAGATGACGCTGGACAGCCGGGTGGCGGCTTCCGGCGATCTCTTTATCGCGGTACAGGGTCATCAGGCGGACGGGCGTCGTTATATCCCGCAGGCGATAGCGCAAGGTGTGGCTGCCATTATTGCTGAAGCGCAGGGCGAAGCGAAAGACGGTGAGATCCGTGAAATGCACGGCGTGCCGGTTATCTACCTGAGCCAGCTTAACGAACGTTTATCGGCGCTGGCCGGGCGTTTTTATCATCAGCCGTCGCAGCAGCTGCGTCTGGTGGGCGTGACCGGTACCAACGGCAAAACCACCACCACCCAGCTTCTGGCGCAATGGGCGAAACTGCTCGGCGAAACCAGCGCGGTGATGGGGACCGTCGGCAACGGGCTGCTGGATAAAGTGGTGCCGAGCGAAAACACCACCGGCTCTGCGGTCGATGTTCAGCATGTGCTTTCCGGCCTGGTCGAGCAGGGGGCAACCTTCGGCGCGATGGAAGTCTCTTCCCACGGGCTGGTGCAGCACCGCGTGGCGGCCGTGCAGTTTGCCGCCTCGGTATTTACCAACCTGAGCCGCGACCACCTCGACTACCATGGCGATATGGCGCACTACGAAGCGGCGAAATGGCTGCTGTACTCCACCCACCATTGCGGCCAGGCCATCGTCAACGCTGACGATGAAGTCGGTCGTCGCTGGCTGGCGAAGCTGCCGGACGCGGTGGCGGTGTCGATGGAAGATCATATCAATCCGAACTGCCACGGCCGCTGGCTGAAGGCCACCGCGGTCAACTATCACGACAGCGGCGCCACCATCCAGTTTGACTCCAGCTGGGGCAACGGTGAAATCGAAAGTCGCCTGATGGGCGCCTTTAACGTCAGCAACCTGCTGCTGGCGCTGGCCACGCTGCTGGCGCTGGGCTATCCGCTGGCCGATCTGCTGAAAACGGCGGCTCGTTTACAGCCGGTATGCGGCCGTATGGAAGTGTTCAGCGCGCCCGGTAAACCGGCCGTGGTGGTGGATTATGCCCATACGCCTGACGCGCTGGAAAAAGCGCTGCAGGCCGCGCGCCTGCACTGCAGCGGCAAGCTGTGGTGCGTCTTCGGCTGCGGCGGAGACCGCGACAAAGGCAAGCGTCCGCTGATGGGGGCGATTGCTGAAGAGTTCGCCGATATCGTGGTCGTCACTGACGACAACCCGCGTACCGAAGAGCCGCGGGCGATTATCAACGATATTCTGGCCGGCATGCTCGATGCAGGTCATGCAAAAGTGATGGAAGGCCGTGCGGAAGCGGTGACCAACGCCGTGATGCAGGCGCAGGAGAACGACGTGGTGCTGGTGGCGGGTAAAGGCCATGAAGATTACCAGATCGTCGGCAACCGTCGTCTGGATTATTCCGACCGCGTCACCGTCGCGCGTCTGCTGGGAGCGGTAGCATGA	MADRNLRDLLAPWVPNAPERILREMTLDSRVAASGDLFIAVQGHQADGRRYIPQAIAQGVAAIIAEAQGEAKDGEIREMHGVPVIYLSQLNERLSALAGRFYHQPSQQLRLVGVTGTNGKTTTTQLLAQWAKLLGETSAVMGTVGNGLLDKVVPSENTTGSAVDVQHVLSGLVEQGATFGAMEVSSHGLVQHRVAAVQFAASVFTNLSRDHLDYHGDMAHYEAAKWLLYSTHHCGQAIVNADDEVGRRWLAKLPDAVAVSMEDHINPNCHGRWLKATAVNYHDSGATIQFDSSWGNGEIESRLMGAFNVSNLLLALATLLALGYPLADLLKTAARLQPVCGRMEVFSAPGKPAVVVDYAHTPDALEKALQAARLHCSGKLWCVFGCGGDRDKGKRPLMGAIAEEFADIVVVTDDNPRTEEPRAIINDILAGMLDAGHAKVMEGRAEAVTNAVMQAQENDVVLVAGKGHEDYQIVGNRRLDYSDRVTVARLLGAVA	PGPT0024130_2366	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024130-murE-K01928	NA	NA
BMS020_04653	1359	murF_2	COG0770	UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase	ATGATTCGCTTTACGTTAAGCCAGCTCGCCGCGATTGCTCATGGCGAACGGCAGGGTAGCGATATCGCTATCGACGAGGTGACCACCGACACCCGTAAAGTCACGGCGGGCTGCCTGTTTGTGGCGCTGAAAGGCGAGCGTTTCGACGCCCATGATTTTGTCGAACAGGCGAAAGCGGCAGGCGCCGGCGCGCTGCTGGTGAGCCGTCCGCTGCCCTGCGATCTCCCGCAGGTGATCGTGAAAGATACCCGGCAGGCTTTCGGCGAGTTGGCCGCCTGGGTACGTCAGCAGGTGCCGACCCGCGTCGTCGCCCTGACCGGCTCGTCCGGTAAAACCTCGGTCAAAGAGATGACCGCGGCGATCCTCAGCCAGTGCGGCAGCACGCTGTATACCGCCGGCAACCTGAACAACGATATCGGCGTACCGATGACCCTGCTGCGTCTGACCAAAGAACATCAGTACGCGGTGATTGAGCTTGGCGCCAACCACCAGGGCGAAATCGCCTGGACCGTCAGCCTGACGCGTCCGGAAGCGGCGCTGGTCAACAACCTTGCCGCCGCGCACCTTGAAGGTTTCGGTTCGCTGGCGGGCGTGGCGAAGGCGAAGGGCGAAATCTATACCGGTCTGCCGGAAAACGGCATCGCCATTCTCAATGCCGACAACAACGACTGGCTGAACTGGCAGGCGGTGATTGGCGATCGCAAAGTGTGGCGCTTCTCGCCGAACGCGGCCAACAGCGATTTCACCGCGACTAACGTGCAGATCACCAGCCACGGCACCGAATTTACGCTGCAGACCCCAACCGGCAACGTTGACGTACTGCTGCCGCTGCCGGGACGCCACAACATCGCTAACGCGCTGGCGGCGACCTCGCTGGCGATGGCGGTAGGCGCCGATCTGGCGGCGGTGAAAGCCGGTCTGGCGCAACTGCAGGCCGTTCCGGGACGTCTGTTCCCGATCCGCCTGACCGAGAGCCAGCTGCTGCTGGATGACTCCTATAACGCTAACGTCGGTTCGATGACCGCGGCGGTGCAGGTGCTGTCAGAGATGCCCGGCTTCCGGACGATGGTGGTCGGCGATATGGCGGAGCTTGGCGCGGAAAGCGCGGCTTGCCATCGTGAAGTCGGCGAAGCGGCGAAAGCGGCAGGGCTGGATTGCGTTCTCAGCGTCGGCGCCTTGAGCGCGGATATCAGCCGCGCCAGCGGCGTGGGCGAACATTTTAACGATAAAGCCGCCGTGGTGGCTCGCCTGCGCGAGCTGCTGGCGGAGCATAAGATAATGACCATTTTAGTGAAGGGTTCACGTAGTGCCGCCATGGAAGAGGTAGTACGCGCATTACAGGAGACTGGGACATGTTAG	MIRFTLSQLAAIAHGERQGSDIAIDEVTTDTRKVTAGCLFVALKGERFDAHDFVEQAKAAGAGALLVSRPLPCDLPQVIVKDTRQAFGELAAWVRQQVPTRVVALTGSSGKTSVKEMTAAILSQCGSTLYTAGNLNNDIGVPMTLLRLTKEHQYAVIELGANHQGEIAWTVSLTRPEAALVNNLAAAHLEGFGSLAGVAKAKGEIYTGLPENGIAILNADNNDWLNWQAVIGDRKVWRFSPNAANSDFTATNVQITSHGTEFTLQTPTGNVDVLLPLPGRHNIANALAATSLAMAVGADLAAVKAGLAQLQAVPGRLFPIRLTESQLLLDDSYNANVGSMTAAVQVLSEMPGFRTMVVGDMAELGAESAACHREVGEAAKAAGLDCVLSVGALSADISRASGVGEHFNDKAAVVARLRELLAEHKIMTILVKGSRSAAMEEVVRALQETGTC	PGPT0024145_4088	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024145-murF-K01929	NA	NA
BMS020_04654	1083	mraY_2	COG0472	Phospho-N-acetylmuramoyl-pentapeptide-transferase	ATGTTAGTATGGCTGGCCGAACATTTGGTCAAATATTATTCCGGCTTTAACGTCTTTTCGTATTTGACGTTTCGCGCCATCGTCAGCCTGCTGACCGCGCTGTTCATCTCTCTGTGGATGGGCCCGCGCATGATCGCCCGTCTGCAAAAACTCTCCTTCGGCCAGGTGGTTCGTAACGACGGTCCGGAGTCCCACTTCAGCAAACGCGGCACGCCGACCATGGGGGGGATCATGATCCTCACTGCGATCACCGTGTCAGTGCTGCTGTGGGCTTACCCCTCCAACCCGTACGTCTGGTGCGTGCTGACGGTATTAATCGGCTACGGGATCATCGGCTTCGTTGATGACTACCGTAAAGTGGTGCGCAAAGACACCAAAGGCCTGATCGCCCGCTGGAAGTATTTCTGGATGTCGGTGATCGCGCTGGGCGTGGCGTTCGCGCTCTATCTGGCCGGGAAAGACACCCCGGCGACCGAGCTGGTGGTGCCGTTCTTTAAAGACGTCATGCCGCAGCTGGGGCTGTTCTATATCCTGCTGGCCTACTTCGTGATCGTCGGCACCGGCAATGCGGTTAACCTGACCGACGGTCTCGACGGCCTGGCGATCATGCCCACCGTCTTCGTCGCGGCGGGTTTTGCGCTGGTGGCGTGGGCGACCGGTAACATGAATTTCGCCAACTACCTGCACATCCCCTATCTGCGCCACGCCGGCGAACTGGTGATCGTCTGTACGGCGATCGTCGGCGCGGGGCTGGGCTTTCTGTGGTTTAACACCTATCCGGCGCAGGTCTTTATGGGCGACGTCGGTTCGCTGGCGCTCGGCGGCGCGCTGGGCATTATCGCCGTGCTGCTGCGTCAGGAATTCCTGCTGGTGATTATGGGCGGCGTTTTCGTGGTGGAGACCCTGTCGGTGATCCTGCAGGTCGGCTCCTTTAAGCTGCGCGGTCAGCGTATCTTCCGCATGGCGCCGATCCACCACCACTATGAACTGAAAGGCTGGCCGGAGCCGCGCGTTATCGTGCGCTTCTGGATTATTTCGCTGATGCTGGTGCTGATTGGCCTGGCGACGCTGAAGGTGCGTTAA	MLVWLAEHLVKYYSGFNVFSYLTFRAIVSLLTALFISLWMGPRMIARLQKLSFGQVVRNDGPESHFSKRGTPTMGGIMILTAITVSVLLWAYPSNPYVWCVLTVLIGYGIIGFVDDYRKVVRKDTKGLIARWKYFWMSVIALGVAFALYLAGKDTPATELVVPFFKDVMPQLGLFYILLAYFVIVGTGNAVNLTDGLDGLAIMPTVFVAAGFALVAWATGNMNFANYLHIPYLRHAGELVIVCTAIVGAGLGFLWFNTYPAQVFMGDVGSLALGGALGIIAVLLRQEFLLVIMGGVFVVETLSVILQVGSFKLRGQRIFRMAPIHHHYELKGWPEPRVIVRFWIISLMLVLIGLATLKVR	PGPT0024105_2456	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024105-mraY-K01000	NA	NA
BMS020_04655	1317	murD	COG0771	UDP-N-acetylmuramoylalanine--D-glutamate ligase	ATGGCAGATTATCAGGGTAAAAAAGTCGTCATTATTGGGCTGGGCATGACCGGCCTGTCATGCGTGGACTTTTTCATGGCGCGCGGCGTAACCCCGCGCGTGATGGACACCCGCGTCGCGCCTCCCGGGCTGGATAAATTGCCTGAATCGGTCGAATGCCATGTCGGCGGCCTCAATGATACCTGGCTGCTGGCGGCGGATCTGATTGTCGCCAGTCCCGGCATCGCGCTGGCTCATCCTTCGTTGAGCGCGGCGGCGGACGCTGGCGTAGAGATCGTTGGCGATATCGAACTGTTCTGCCGCGAAGCGCAGGCGCCGATCATCGCCATTACCGGCTCGAACGGCAAAAGCACCGTCACCACCCTGGTGGGCGAGATGGCGAAAGCGGCCGGGGTTAACGTCGGCGTGGGCGGCAATATCGGCCTGCCGGCGCTGATGCTGCTGGATACCGATCGTGAGCTGTATGTCCTGGAGCTCTCCAGCTTCCAGCTGGAAACCACCTCCAGCCTGCAGGCGGTGGCGGCAACCATCCTCAACGTGACTGAGGACCATATGGACCGCTACCCGCTGGGGCTGCAGCAGTATCGCGCGGCGAAGCTGCGGATTTACGAGAATGCAAAGACCTGCGTGGTCAACGCGGACGATGCGCTCACCATGCCGGTACGCGGCGCGGACGATCGCTGCATCAGCTTTGGCGTCGATGTCGGTGACTACCACCTTAACCGTCAGCAGGGCGAGACCTGGCTGCGCGTTAAAGGTGAGAAAGTCCTCAATGTAAAAGAGATGTCTATCACGGGTCAGCATAACTACAGCAACGCCCTGGCGGCGCTGGCGCTGGCCGATGCCGCGGGCCTGCCGCGTGCCAGCAGCCTGAAGGCGCTGACCACCTTTACCGGCCTGGCGCATCGCTTCCAGCTGGTGCTGGATCACAACGGCGTGCGCTGGATTAACGACTCGAAGGCAACCAACGTCGGCAGTACCGAGGCGGCGCTGAACGGCCTGCAGCTTGATGGCACGCTGTATCTGCTGCTGGGCGGCGACGGCAAGTCCGCTGATTTCACCCCGCTGAAGCGCTACCTTGGCGGCGATCGTATCCGCCTGTACTGCTTTGGTCGCGACGGCGCCGAGCTCGCCGAGCTGCGTCCTGAGGTGGCGGTACAAACTGAAACCATGGAACAGGCGATGCGTCAGATAGCGCCCCTGGTGAAAGCGGGTGACATGGTTCTCCTGTCGCCGGCCTGCGCCAGCCTGGATCAGTTTAAGAACTTTGAACAACGGGGCGAGATGTTTGCCCGCCTGGCGAAGGAGTTAGGTTGA	MADYQGKKVVIIGLGMTGLSCVDFFMARGVTPRVMDTRVAPPGLDKLPESVECHVGGLNDTWLLAADLIVASPGIALAHPSLSAAADAGVEIVGDIELFCREAQAPIIAITGSNGKSTVTTLVGEMAKAAGVNVGVGGNIGLPALMLLDTDRELYVLELSSFQLETTSSLQAVAATILNVTEDHMDRYPLGLQQYRAAKLRIYENAKTCVVNADDALTMPVRGADDRCISFGVDVGDYHLNRQQGETWLRVKGEKVLNVKEMSITGQHNYSNALAALALADAAGLPRASSLKALTTFTGLAHRFQLVLDHNGVRWINDSKATNVGSTEAALNGLQLDGTLYLLLGGDGKSADFTPLKRYLGGDRIRLYCFGRDGAELAELRPEVAVQTETMEQAMRQIAPLVKAGDMVLLSPACASLDQFKNFEQRGEMFARLAKELG	PGPT0024125_4050	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024125-murD-K01925	NA	NA
BMS020_04656	1275	ftsW_2	COG0772	putative peptidoglycan glycosyltransferase FtsW	ATGCGTTTCTCTCTCCCACGCCTGAGAATGCCGCAACTGAGCTTGCCTCGGTTGAGACTGCCGCGACTGCCGGGGATGTTTATCTTCGCCTGGCTGTTCGCCGCGCTGAAAGGCTGGGTGATGGGCTCGCGCCCAAAAGATAACGACAGTCTGGTGATGTATGACCGGATGCTGCTGTGGCTGACCTTCGGCCTGGCGGCGATCGGCTTTATTATGGTGACCTCGGCGTCAATGCCGGTGGGGCAGCGTCTGGCGAACGATCCTTTCCTCTTTGCCAAGCGTGACGGCCTGTACATTGTGCTGGCCTTTGTCCTCGCGCTGGTGACGCTGCGACTGCCGATGGATTTCTGGCAGCGCCACAGTACCGCAATGCTGATCGCCTCGATCGTTATGCTGCTGATCGTGCTGGTGGTGGGTAGCTCGGTAAACGGTGCATCGCGCTGGATCGCCCTCGGTCCGCTGCGCATTCAGCCGGCGGAGTTCACCAAGCTGTCGCTGTTCTGCTACATCGCCAACTATCTGGTGCGTAAAGCTGACGAAGTGCGCAACAACCTGCGCGGCTTCTTAAAACCGATGGGCGTGATTTTCGTGCTGGCGATCCTGCTGCTGGCGCAGCCTGACCTCGGTACGGTGGTGGTGCTGTTCGTCACCACGCTGGCGATGCTGTTCCTCGCCGGCGCCAAGCTGTGGCAGTTCATCGCCATTATCGGCATGGGCATCTCGGCGGTGGTCCTGTTGATCCTCGCCGAACCGTACCGTATTCGCCGCGTGACCTCCTTCTGGAACCCGTGGGAAGACCCGTTCGGCAGCGGCTACCAGCTGACCCAGTCGCTGATGGCCTTTGGCCGCGGCGAGATGTGGGGGCAGGGACTCGGAAACTCGGTGCAAAAACTGGAGTATTTGCCGGAAGCGCACACTGACTTTATCTTCGCCATCATCGGCGAAGAACTCGGTTATATCGGTGTGGTACTGGCGCTTTTAATGGTATTCTTCGTCGCTTTCCGCGCCATGTCGATTGGCCGAAAAGCGCTGGAGATCGATCATCGCTTCTCCGGCTTCCTCGCCTGTGCGATTGGTATCTGGTTTAGCTTCCAGGCGTTAGTTAACGTCGGGGCGGCGGCGGGGATGCTGCCGACGAAAGGTCTGACGCTGCCGCTGATCAGTTATGGTGGTTCCAGTCTGCTGATTATGTCGACGGCCATCATGTTGTTGTTGCGAATTGATTATGAAACGCGTCTGGAAAAAGCCCAGGCGTTTACACGGGGTGTTCGATGA	MRFSLPRLRMPQLSLPRLRLPRLPGMFIFAWLFAALKGWVMGSRPKDNDSLVMYDRMLLWLTFGLAAIGFIMVTSASMPVGQRLANDPFLFAKRDGLYIVLAFVLALVTLRLPMDFWQRHSTAMLIASIVMLLIVLVVGSSVNGASRWIALGPLRIQPAEFTKLSLFCYIANYLVRKADEVRNNLRGFLKPMGVIFVLAILLLAQPDLGTVVVLFVTTLAMLFLAGAKLWQFIAIIGMGISAVVLLILAEPYRIRRVTSFWNPWEDPFGSGYQLTQSLMAFGRGEMWGQGLGNSVQKLEYLPEAHTDFIFAIIGEELGYIGVVLALLMVFFVAFRAMSIGRKALEIDHRFSGFLACAIGIWFSFQALVNVGAAAGMLPTKGLTLPLISYGGSSLLIMSTAIMLLLRIDYETRLEKAQAFTRGVR	PGPT0014810_917	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588	NA	NA
BMS020_04657	1047	murG_2	COG0707	UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase	ATGGTGATGGCGGGCGGTACCGGCGGGCATGTGTTCCCGGGACTGGCGGTCGCGCACCATCTAATGGACCAGGGCTGGCAGGTTCGCTGGCTGGGTACCGCCGATCGTATGGAAGCGGATTTAGTGCCGAAAAACGGCATCGAGATTGATTTTATCCGTATCTCCGGCCTGCGTGGCAAAGGGATTAAAGCACAGCTGCTGGCGCCGGTGCGGATCTTCAACGCCTGGCGTCAGGCGCGGGCGATCATGAAGCGTTTCCAGCCGGACGTGGTGCTGGGCATGGGCGGCTATGTGTCCGGGCCTGGCGGTCTGGCGGCGTGGTCGCTGGGGATCCCGGTGGTCCTCCACGAGCAAAACGGCATTGCCGGCCTGACCAACAAGTGGCTGGCGAAGATTGCGAAGAAAGTGATGCAGGCGTTTCCCGGCGCCTTTCCGCATGCGGACGTGGTCGGGAATCCGGTGCGCACCGATGTGCTGGCGCTGCCGCTGCCGGGGCAGCGTCTGGTGGGCCGTCAGGGGCCGATTCGCGTACTGGTGGTCGGTGGCTCTCAGGGCGCGCGCGTCCTGAACCAGACCATGCCGCAGGTGGCGGCGAAGCTCGGCGATACGGTGACCATCTGGCATCAGAGCGGTAAAGGCGGCCAGCAAACCGTGCAGCAGGCCTATGCCGCCGCGGGGCAGCCGCAGCATAAAGTGACGGAATTTATTGATGATATGGCTGCGGCGTATGCCTGGGCAGATGTCGTGGTTTGCCGTTCCGGCGCGCTGACGGTTAGCGAAATCGCGGCCGCGGGCTTACCGGCGCTGTTTGTACCGTTCCAGCACAAAGATCGTCAGCAGTACTGGAATGCGCTGCCGCTGGAGAAAGCCGGCGCGGCGAAAATTCTCGAACAGCCGGCGTTCACGGTTGAGGCGGTAGCCTCTACTCTGGCGAGCTGGGATCGGGAAACCTTGCTGGATATGGCGGAACGAGCGCGTGGCGCTTCGATTCCGGACGCTACCGAGCGGGTAGCAGAAGAGGTCAGCGCCGTAGCTTTGGCGCGCTAA	MVMAGGTGGHVFPGLAVAHHLMDQGWQVRWLGTADRMEADLVPKNGIEIDFIRISGLRGKGIKAQLLAPVRIFNAWRQARAIMKRFQPDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIAKKVMQAFPGAFPHADVVGNPVRTDVLALPLPGQRLVGRQGPIRVLVVGGSQGARVLNQTMPQVAAKLGDTVTIWHQSGKGGQQTVQQAYAAAGQPQHKVTEFIDDMAAAYAWADVVVCRSGALTVSEIAAAGLPALFVPFQHKDRQQYWNALPLEKAGAAKILEQPAFTVEAVASTLASWDRETLLDMAERARGASIPDATERVAEEVSAVALAR	PGPT0024150_3939	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024150-murG-K02563	NA	NA
BMS020_04658	1476	murC_2	COG0773	UDP-N-acetylmuramate--L-alanine ligase	ATGAATACACAAGATTTGGCAAAACTGCGTTCCATAGTGCCCGAGATGCGTCGCGTCCGGCACATTCACTTTGTCGGCATCGGCGGTGCCGGTATGGGCGGTATTGCCGAAGTGTTGGCTAATGAAGGTTACCAGATCAGCGGCTCCGACCTGGCGCCGAATCCGGTGACCCAGCAGCTGTCGCAGCTTGGCGCCACCATTTATTTCAACCATCGCCCGGAAAACGTGCGCGATGCCAGCGTTGTGGTCGTTTCCAGCGCGATTTCCGCCGATAACCCGGAAATCGTCGCCGCGCACGAAGCGCGCATCCCGGTGATCCGCCGTGCGGAAATGCTGGCGGAGCTGATGCGCTTCCGTCACGGGATCGCGATTGCCGGAACTCACGGCAAAACCACCACCACCGCGATGGTGTCCAGTATTTACGCCGAAGCCGGGCTGGATCCGACCTTCGTCAACGGCGGGTTGGTGAAAGCGGCGGGCGTTCATGCGCGTCTCGGCCATAGCCGTTACCTGATTGCGGAAGCGGATGAGAGCGATGCGTCGTTCCTGCATCTGCAGCCGATGGTCGCGATTGTGACCAACATCGAAGCCGACCATATGGATACCTACCATGGCGACTTCGAAAATCTGAAGCAGACCTTTATTAATTTCCTGCACAACCTGCCGTTCTACGGACGCGCGGTAATGTGCGTGGACGATCCGGTTATTCGTGAACTGCTGCCGCGCGTCGGCCGGCAGATCACCACCTACGGTTTCAGCGACGACGCCGACGTTCGCGTAGAAGACTACCGTCAGATTGGGGCGCAGGGGCATTTCCGCCTGGTGCGTCAGGATAAAGAACTGCTGCAGGTGACGCTCAATGCCCCGGGACGCCATAACGCGCTGAACGCGGCGGCGGCGGTTGCCGTGGCGACGGAAGAGGGGATTGACGATCAGGCGATCCTGCGCGCGCTGGAAAGCTTCCAGGGTACCGGCCGTCGCTTCGACTTTCTTGGCGAATATCCGCTGACGGAAGTCAACGGCAAAGCGGGCAGCGCGATGCTGATCGATGACTACGGCCACCACCCGACGGAAGTCGACGCCACTATCAAAGCGGCGCGTGCCGGCTGGCCGGATAAAAATCTGGTGATGGTATTCCAGCCGCACCGTTATACCCGTACTCGCGATCTGTACGATGATTTCGCCAACGTGCTGACCCAGGTCGATGCGCTGCTGATGCTCGATGTCTACCCGGCAGGCGAAGCGCCGATCCCGGGCGCCGACAGCCGCTCGCTGTGCCGTACGATCCGTGGTCGCGGTAAAGTCGACCCGATTCTGGTATCCGACCCGGCGCAGGCCGCGGCGATGCTGGCGTCGGTGCTGACCGGCAACGATTTAGTGCTGGTGCAAGGTGCCGGAAACATTGGAAAAATCGCCCGTCACCTGGCTGAAATCAAACTGATCCCGCAAAAAACGGAGGAGGAGCGCCATGGCTGA	MNTQDLAKLRSIVPEMRRVRHIHFVGIGGAGMGGIAEVLANEGYQISGSDLAPNPVTQQLSQLGATIYFNHRPENVRDASVVVVSSAISADNPEIVAAHEARIPVIRRAEMLAELMRFRHGIAIAGTHGKTTTTAMVSSIYAEAGLDPTFVNGGLVKAAGVHARLGHSRYLIAEADESDASFLHLQPMVAIVTNIEADHMDTYHGDFENLKQTFINFLHNLPFYGRAVMCVDDPVIRELLPRVGRQITTYGFSDDADVRVEDYRQIGAQGHFRLVRQDKELLQVTLNAPGRHNALNAAAAVAVATEEGIDDQAILRALESFQGTGRRFDFLGEYPLTEVNGKAGSAMLIDDYGHHPTEVDATIKAARAGWPDKNLVMVFQPHRYTRTRDLYDDFANVLTQVDALLMLDVYPAGEAPIPGADSRSLCRTIRGRGKVDPILVSDPAQAAAMLASVLTGNDLVLVQGAGNIGKIARHLAEIKLIPQKTEEERHG	PGPT0024120_531	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024120-murC-K01924	NA	NA
BMS020_04659	921	ddlB_2	COG1181	D-alanine--D-alanine ligase B	ATGGCTGATAAAATCGCGGTGCTTTTCGGTGGAACCTCCGCTGAACGTGAAGTGTCGCTGAATTCAGGCGCCGCGGTGCTGGCCGGGCTGCGTGAAGCCGGGGTGGATGCCCATCCGGTTGACCCGCGCGATGTCGATATTACCCAGTTGAAAAAGCTGGGCTTTAAGAAAGCGTTTATTGCACTCCACGGCCGCGGCGGGGAAGATGGCACGCTGCAGGGGCTGTTGGATCTGATCCAGCTGCCTTATACCGGCAGCGGCGTGATGGCTTCGGCGATTTCAATGGATAAACTGCGCAGCAAATGGCTGTGGCAGGGGGCCGGATTACCGGTCGCGCCGTGGGTGGCGCTGACCCGCGCCCAGTTTAGCGCCGGATTATCTGCTGATGTCGAACAGCAGATTGCGGCGCTGGGTCTGCCGCTCATCATCAAGCCCAGCCGCGAAGGCTCCAGCGTTGGGATGTCGAAAGTCAGCGAAAGCTGTGATTTAGCGAGTGCACTCGCGCTGGCTTTTCAGCATGATGATGAAGTTTTGGTCGAAAAATGGCTCAGTGGGCCGGAATTTACCGTCGCCATCGTCGGTGAAGAAATTTTACCGTCAATACGTATCCAGGCGGCTGGAACCTTCTATGATTATGAGGCGAAGTATCTCTCTGATGAGACGCAATATTTCTGCCCAGGATTGGAAGATCCAGCGCGTGAGTCGGTCATTCAGAGCCTGGTGCTTAAAGCCTGGAATGTTCTGGGTTGCAAAGGCTGGGGCCGTATTGACGTGATGCTGGACAGCGATGGCCAGTTTTATCTGCTGGAAGCGAATACTTCCCCGGGCATGACCAGCCATAGCCTTGTACCGATGGCGGCGCGTCAGGCAGGAATGAGCTTCTCCCAGCTTGTTGTACGAATTCTGGACCTGGCGGGGTGA	MADKIAVLFGGTSAEREVSLNSGAAVLAGLREAGVDAHPVDPRDVDITQLKKLGFKKAFIALHGRGGEDGTLQGLLDLIQLPYTGSGVMASAISMDKLRSKWLWQGAGLPVAPWVALTRAQFSAGLSADVEQQIAALGLPLIIKPSREGSSVGMSKVSESCDLASALALAFQHDDEVLVEKWLSGPEFTVAIVGEEILPSIRIQAAGTFYDYEAKYLSDETQYFCPGLEDPARESVIQSLVLKAWNVLGCKGWGRIDVMLDSDGQFYLLEANTSPGMTSHSLVPMAARQAGMSFSQLVVRILDLAG	PGPT0020050_5460	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
BMS020_04660	831	ftsQ_2	COG1589	Cell division protein FtsQ	ATGTCGCAGGCTGCGCTGAATACGCGGAACCATGAAGAGGACGTTTCTTCTTCGCGTCGGAGTAATGGAACGCGGCTGGCAGGGATCGTTTTCCTGCTGGCGGTGCTGTTTACCGTGCTGGTCAGCGGGTGGATGGTTCTTGGCTGGATGGAAGACGCGCAGCGTTTACCGCTGTCGAAGATGGTGGTGACCGGCGAGCGTCACTATACGCGCAATGATGACATCCGCCAGGCGATCCTGGCGCTGGGTTCGCCGGGCACCTTTATGACTCAGGATGTGAACATCATTCAGAGTCAGATTGAACGTCTGCCATGGATTAAGCAGGCGAGCGTCCGAAAGCAGTGGCCCGATGAATTGAAGATTCATCTGGTTGAATATGTGCCGATTGCACGCTGGAATGATCAACATATGGTGGATGCAGAAGGAAATGCCTTCAGCGTGCCGGCGGATCGCACCAGCAAACAGAATTTACCGATGTTATATGGCCCGGAAGGCAGCGAGAACGAAGTGCTGCAAGGGTACCGTGACATGGGGCAGGTGCTGGCAAAGGATAAATTCACGTTGAAAGTGGCGGCAATGACCGCCCGTCGTTCCTGGCAGTTGACGCTTAATAATGACATTAAGCTCAACCTTGGCCGTGGCGACACCATGAAACGGCTTCAGCGCTTTATGGAACTCTACCCGGTTCTTCAGCAGCAGGCGCAGACCGACGGCAAACGGATTAGCTACGTTGATTTGCGTTATGACTCGGGTGCGGCAGTGGGCTGGGTACCTGCTCCCGCAGAGGAAACTAATCAACAACAGAATCAGGCACAGGCAGAACAACAATGA	MSQAALNTRNHEEDVSSSRRSNGTRLAGIVFLLAVLFTVLVSGWMVLGWMEDAQRLPLSKMVVTGERHYTRNDDIRQAILALGSPGTFMTQDVNIIQSQIERLPWIKQASVRKQWPDELKIHLVEYVPIARWNDQHMVDAEGNAFSVPADRTSKQNLPMLYGPEGSENEVLQGYRDMGQVLAKDKFTLKVAAMTARRSWQLTLNNDIKLNLGRGDTMKRLQRFMELYPVLQQQAQTDGKRISYVDLRYDSGAAVGWVPAPAEETNQQQNQAQAEQQ				NA	NA	NA	NA	NA
BMS020_04661	1263	ftsA_2	COG0849	Cell division protein FtsA	ATGATCAAGGCGACGGACAGAAAACTGGTAGTTGGACTGGAGATTGGCACCGCCAAGGTGGCCGCTTTAGTAGGGGAAGTTCTGCCCGACGGCATGATTAATATCATCGGCGTGGGCAGTTGCCCATCGCGTGGTATGGATAAAGGCGGTGTGAACGACCTCGAGTCGGTGGTGAAATGCGTACAGCGCGCCATCGACCAGGCCGAACTGATGGCGGATTGCCAGATTTCATCAGTTTATTTGGCTCTTTCGGGTAAACATATAAGCTGTCAGAATGAAATCGGGATGGTACCGATTTCGGAAGAAGAAGTGACGCTGGATGACGTCGAGAACGTGGTCCATACCGCGAAGTCGGTTCGCGTACGCGATGAGCACCGCGTCCTGCACGTGATTCCGCAGGAATACGCCATTGACTACCAGGAAGGGATAAAAAACCCGGTAGGGCTGTCCGGCGTGCGTATGCAGGCGAAGGTACATCTGATTACCTGCCATAACGATATGGCGAAAAACATTGTTAAAGCGGTGGAACGTTGTGGTCTGAAAGTTGACCAACTTATTTTCGCCGGTTTAGCGGCCAGTTATTCCGTATTAACAGAAGACGAACGTGAGCTGGGCGTCTGCGTGGTGGATATTGGCGGAGGTACAATGGATATCGCCGTCTATACCGGCGGCGCGCTGCGTCACACCAAAGTGATCCCGTACGCGGGCAACGTGGTGACCAGCGATATCGCCTATGCCTTCGGTACGCCGCCGAGCGACGCCGAAGCCATTAAGGTTCGTCACGGTTGCGCGTTGGGTTCCATCGTCGGTAAAGACGAAAACGTCGAAGTACCGAGCGTAGGCGGACGGCCGCCGCGTAGCCTGCAGCGTCAGACGCTGGCTGAGGTGATTGAACCGCGCTATACCGAACTGCTTAATCTGGTCAATGAAGAGATCCTGCAGCTGCAGGAACAGCTCCGCCAGCAGGGGGTTAAACACCATCTGGCGGCGGGGATTGTGTTAACCGGCGGCGCGGCGCAAATTGAAGGTCTGGCGGCCTGTGCGCAGCGCGTGTTCCATACTCAGGTGCGCATTGGCGCGCCGCTGAACATCACCGGTTTAACGGACTATGCCCAGGAGCCGTATTATTCGACGGCGGTGGGGCTGCTGCACTACGGAAAAGAGTCACATCTGAGTGGTGAAGCGGAAGTCGAAAAACGCGTGACGGCGTCGGTGGGCTCGTGGATTAAGCGACTCAACAGCTGGCTGCGAAAAGAGTTTTAA	MIKATDRKLVVGLEIGTAKVAALVGEVLPDGMINIIGVGSCPSRGMDKGGVNDLESVVKCVQRAIDQAELMADCQISSVYLALSGKHISCQNEIGMVPISEEEVTLDDVENVVHTAKSVRVRDEHRVLHVIPQEYAIDYQEGIKNPVGLSGVRMQAKVHLITCHNDMAKNIVKAVERCGLKVDQLIFAGLAASYSVLTEDERELGVCVVDIGGGTMDIAVYTGGALRHTKVIPYAGNVVTSDIAYAFGTPPSDAEAIKVRHGCALGSIVGKDENVEVPSVGGRPPRSLQRQTLAEVIEPRYTELLNLVNEEILQLQEQLRQQGVKHHLAAGIVLTGGAAQIEGLAACAQRVFHTQVRIGAPLNITGLTDYAQEPYYSTAVGLLHYGKESHLSGEAEVEKRVTASVGSWIKRLNSWLRKEF				NA	NA	NA	NA	NA
BMS020_04663	1152	ftsZ_2	COG0206	Cell division protein FtsZ	ATGTTTGAACCTATGGAACTGACCAACGACGCGGTGATTAAAGTCATCGGCGTCGGTGGCGGCGGCGGTAATGCCGTTGAACACATGGTGCGCGAGCGCATTGAGGGTGTTGAATTCTTCGCGGTGAACACCGATGCGCAGGCGCTGCGTAAAACGGCTGTTGGCCAGACTATCCAGATCGGTAGCGGTATTACTAAAGGTCTGGGCGCTGGCGCGAACCCGGAAGTCGGCCGTAATGCGGCGGACGAAGACCGTGAAGCGCTGCGCGCGGCCCTTGATGGCGCAGACATGGTGTTCATCGCGGCAGGCATGGGCGGCGGTACCGGTACCGGCGCGGCGCCTGTTGTTGCCGAAGTGGCTAAGGATCTGGGGATCCTCACCGTGGCGGTGGTCACTAAGCCGTTTAATTTTGAAGGCAAGAAGCGCATGGCGTTTGCTGAGCAGGGGATCACCGAGCTGTCCAAGCACGTTGACTCACTGATCACCATCCCGAACGACAAGCTGCTGAAAGTACTTGGCCGCGGCATTTCTCTGCTTGACGCGTTCGGCGCGGCAAACGACGTCCTCAAAGGCGCGGTGCAGGGTATCGCCGAACTGATCACCCGTCCGGGCCTGATGAACGTCGACTTCGCGGACGTCCGTACCGTGATGTCAGAAATGGGCTACGCGATGATGGGCTCCGGCGTGGCGAGCGGTGAAGACCGTGCGGAAGAAGCGGCTGAAATGGCTATCTCTTCTCCGCTGCTGGAAGATATCGACCTGTCCGGCGCGCGCGGCGTGCTGGTTAACATCACCGCGGGCTTCGACCTGCGTCTGGATGAGTTCGAAACCGTGGGTAACACCATCCGCGCATTTGCTTCGGATAACGCCACCGTGGTTATCGGTACCTCTCTGGACCCGGATATGAACGACGAACTGCGCGTCACCGTAGTGGCGACCGGTATCGGCATGGACAAGCGTCCGGAAATTACCCTGGTGACCAACAAACAGGTTCAGCAGCCGGTGATGGATCGCTACCAGCAGCACGGTATGTCCCCGCTGACGCAAGAGCAGAAGCCGGCGGCAAAAGTGGTGAACGACAATACGCCGCAAACCGCGAAAGAGCCGGATTATCTGGATATCCCAGCCTTCCTGCGTAAGCAAGCCGATTAA	MFEPMELTNDAVIKVIGVGGGGGNAVEHMVRERIEGVEFFAVNTDAQALRKTAVGQTIQIGSGITKGLGAGANPEVGRNAADEDREALRAALDGADMVFIAAGMGGGTGTGAAPVVAEVAKDLGILTVAVVTKPFNFEGKKRMAFAEQGITELSKHVDSLITIPNDKLLKVLGRGISLLDAFGAANDVLKGAVQGIAELITRPGLMNVDFADVRTVMSEMGYAMMGSGVASGEDRAEEAAEMAISSPLLEDIDLSGARGVLVNITAGFDLRLDEFETVGNTIRAFASDNATVVIGTSLDPDMNDELRVTVVATGIGMDKRPEITLVTNKQVQQPVMDRYQQHGMSPLTQEQKPAAKVVNDNTPQTAKEPDYLDIPAFLRKQAD	PGPT0027695_4115	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
BMS020_04664	918	lpxC_2	COG0774	UDP-3-O-acyl-N-acetylglucosamine deacetylase	ATGATCAAACAAAGGACTCTTAAACGTATCGTTCAGGCGACTGGTGTCGGTTTGCATACCGGCAAGAAAGTCACACTGACGTTACGCCCTGCGCCGGCAAATACCGGGGTCATCTATCGTCGCACCGACTTGAATCCACCGGTAGATTTTCCGGCTGATGCCAAATCTGTGCGTGATACCATGCTCTGTACTTGCCTGGTTAATGAGCATGACGTGCGGATTTCTACGGTTGAACACCTGAACGCCGCATTGGCTGGCCTGGGTATCGACAACATTATTGTTGAAGTCGATGCACCGGAAATCCCGATTATGGACGGCAGTGCGGCTCCGTTCGTTTATTTGTTGCTGGACGCCGGCATCGATGAACTGAACTGCGCCAAGAAATTTGTACGTATCAAAGAGACGGTTCGCGTCGAAGATGGCGACAAATGGGCTGAATTCAAACCGTACAATGGTTTTTCGCTGGACTTCACCATCGATTTTAACCATCCGGCGATTGATGCCAGCACCCAGCGCTATACGCTGAACTTCTCGGCCGATGCGTTCATGCGTCAGATTAGTCGTGCGCGTACCTTCGGTTTCATGCGCGATATCGAATATCTGCAGTCCCGCGGCCTGTGCCTGGGCGGCAGCTTCGATTGTGCCATCGTTGTTGACGATTATCGCGTACTGAACGAAGACGGTCTGCGCTTTGAAGACGAATTTGTTCGCCACAAAATGCTGGATGCGATCGGTGACCTGTTTATGTGTGGTCACAACATTATCGGCGCATTCACGGCGTACAAATCGGGTCACGCGTTGAATAACAAACTGCTGCAGGCTGTTCTGGCAAAACAGGAAGCCTGGGAGTATGTGACCTTCGAAGACGACGCAAAACTGCCAATGGCGTTCCGCGCACCGTCGATGGTTTTGGCGTAA	MIKQRTLKRIVQATGVGLHTGKKVTLTLRPAPANTGVIYRRTDLNPPVDFPADAKSVRDTMLCTCLVNEHDVRISTVEHLNAALAGLGIDNIIVEVDAPEIPIMDGSAAPFVYLLLDAGIDELNCAKKFVRIKETVRVEDGDKWAEFKPYNGFSLDFTIDFNHPAIDASTQRYTLNFSADAFMRQISRARTFGFMRDIEYLQSRGLCLGGSFDCAIVVDDYRVLNEDGLRFEDEFVRHKMLDAIGDLFMCGHNIIGAFTAYKSGHALNNKLLQAVLAKQEAWEYVTFEDDAKLPMAFRAPSMVLA	PGPT0022330_1004	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022330-lpxC-K02535	NA	NA
BMS020_04665	429	secM		Secretion monitor	ATGGTCGCGGCCAGCCTCGGCCTGCCTGCGTTAAGCAACGGCCATGAGACCGCGACGCCAGCGAAGGCGACCGCCAGCAACCATAATCCGAGCAAAGTTAATTTCTCCCAGCTGGCGCTGCTGGAGACGAATCGCCGGCCAAACTTTACCGTCGACTACTGGCATCAGCACGCCATTCGCACCGTTATTCGTCATCTCTCTTTCGCCATGGCGCCGCAGGCCTTGCCGGTGGCGGAAGAAGCGTCCCCGCTGCAGGCGCAGCATCTGGCGCTGCTCGACACGCTCAGCGCGCTGCTGACGCAGGACAGCACGCCGCCGGTGGTGTTCCGCCAGGCGGCGTATATCCCTTCCTCATATTCTGCCTTCCGCGTCAGCGCCTGGATAAGCCAGGTGGCGGGGATCCGCGCAGGGCCTCAACGTCTCAGCTGA	MVAASLGLPALSNGHETATPAKATASNHNPSKVNFSQLALLETNRRPNFTVDYWHQHAIRTVIRHLSFAMAPQALPVAEEASPLQAQHLALLDTLSALLTQDSTPPVVFRQAAYIPSSYSAFRVSAWISQVAGIRAGPQRLS	PGPT0029270_207	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0029270-secM-K13301	NA	NA
BMS020_04666	2706	secA_2	COG0653	Protein translocase subunit SecA	ATGCTTATTAAAATGTTAACCAAGGTTTTCGGCAGCCGTAACGACCGTACGCTGCGTCGTATGCGCAAAGTCGTCAATATCATCAACGGTATGGAACCGGCGATGGAAAAACTCTCTGATGACGAGCTGAAAGCGAAAACCGCTGAATTCCGCGCGCGCCTGGAAAAAGGCGAAGTGCTGGAAAACCTGATCCCTGAAGCTTTCGCCGTCGTTCGCGAAGCCAGTAAGCGCGTGTTCGGCATGCGCCACTTCGACGTCCAGCTGCTGGGCGGTATGGTGCTTAACGATCGCTGCATCGCCGAGATGCGTACCGGTGAAGGTAAAACCCTGACCGCGACCCTGCCGGCCTACCTCAACGCGCTGACCGGCAAAGGCGTTCACGTGGTGACCGTCAACGACTATCTGGCCCAGCGTGACGCCGAAAATAACCGCCCGCTGTTCGAATTCCTCGGCATGACCGTTGGCATCAACATGTCCGGCCTGCCGGCGCCGGCGAAGCGTGAAGCCTACGCTGCCGATATCACCTATGGCACCAACAACGAATACGGCTTCGATTACCTGCGCGACAACATGGCCTTCAGCCCGGAAGAGCGCGTTCAGCGTAAACTGCACTATGCGCTGGTGGATGAGGTGGACTCCATCCTGATCGATGAGGCGCGTACCCCGCTGATCATTTCCGGCCCGGCGGAAGACAGCTCTGAAATGTACCGCAAGGTCAACAAGATCATTCCACACCTGATCCGTCAGGAAAAAGAGGATTCGGACACCTTCACCGGCGAAGGCCACTTCTCGGTGGATGAAAAAGCGCGTCAGGTGAACCTGACCGAACGCGGTCTGGTGCTGATTGAAGAGCTGCTGGTACAGGAAGGCATTATGGATGAAGGTGAGTCCCTGTACTCCCCGACCAACATTATGCTGATGCACCACGTCACCGCCGCGCTGCGCGCCCATGCGCTGTTCACCCGCGACGTTGACTACATCGTTAAAGATGGCGAAGTTATCATCGTTGATGAGCACACTGGCCGTACGATGCAGGGCCGCCGCTGGTCCGATGGCCTGCACCAGGCCGTTGAGGCCAAAGAGGGCGTGGAGATCCAGAACGAGAACCAGACTCTGGCCTCTATCACCTTCCAGAACTATTTCCGTCTGTATGAGAAACTGGCGGGGATGACCGGTACCGCCGATACTGAAGCCTTTGAATTCAGCTCCATCTATAAGCTGGATACCGTGGTCGTCCCGACCAACCGTCCGATGATCCGTAAAGACATGGCGGATCTGGTCTATATGACCGAAGCGGAAAAAATTCAGGCGATTATCGAAGATATTAAAACCCGTACCGCAGCCGGTCAGCCGGTGTTGGTGGGGACAATCTCGATCGAGAAATCGGAAGTGGTTTCCCGTGAGCTAACCAAAGCCGGCATTAAGCACAACGTTCTGAACGCCAAGTTCCACGCCAGCGAAGCGGACATCGTCGCCCAGGCAGGCTATCCTTCCGCGGTGACCATCGCTACCAACATGGCGGGCCGTGGTACCGATATTATGCTCGGCGGTAGCTGGCAGGCGGAAGTCGCGGCGCTGGAAAACCCAACGCCTGAGCAGATTGAACAAATCAAAGCCGACTGGCAGGTGCGCCACGATGCGGTACTGGCCGCAGGCGGCCTGCATATCATCGGTACCGAGCGTCATGAATCACGCCGTATCGATAACCAGCTGCGCGGCCGTGCCGGTCGTCAGGGGGATGCCGGCTCTTCCCGCTTCTACCTGTCGATGGAAGATGCCCTGATGCGTATCTTCGCCTCCGATCGCGTATCCGGCATGATGCGTAAACTGGGGATGAAACCCGGCGAAGCCATTGAGCACCCGTGGGTCACCAAGGCTATCGCTAACGCACAGCGTAAAGTCGAGAGCCGTAACTTCGATATTCGTAAGCAGCTGCTGGAATATGATGATGTGGCCAACGACCAGCGCCGGGCAATTTACACCCAGCGTAACGAACTGCTGGACGTGTCTGATGTCAGCGAAACCATCAACAGCATCCGCGAAGACGTGTTTAAGGCGACTATCGATGCCCATATTCCGCCGCAGTCGCTGGAGGAAATGTGGGATATCGAAGGCCTGCAGGAGCGTCTGAAAAACGACTTCGACCTCGACCTGCCAATCAAAGAGTGGCTGGATAAAGAGCCGGAGCTGCATGAAGAGACCCTGCGCGAACGTATTCTGCAGAGCGCGGTAGAAACCTACCAGCGTAAAGAAGAAGTGGTCGGCGCCGAAATGATGCGCCACTTCGAGAAAGGCGTGATGCTGCAGACCCTGGATTCGCTGTGGAAAGAACACCTGGCGGCGATGGACTACCTGCGCCAGGGTATCCACCTGCGCGGCTATGCGCAGAAAGATCCGAAGCAAGAGTACAAGCGCGAATCGTTCTCTATGTTTGCCGCGATGCTGGAGTCACTGAAGTATGAAGTGATCAGCACCCTGAGCAAAGTGCAGGTGCGGATGCCGGAAGAAGTCGAGGCGATGGAGCAGCAGCGTCGTGAAGAGGCCGAGCGCCTGGCGCAGATGCAGCAGCTCAGCCATCAGAGCGATGATGAAGCCGCTGCACAGGATCTGGCGGCGCAAACCGGCGAACGTAAAGTGGGGCGTAACGATCCCTGCCCGTGCGGCTCCGGTAAAAAATACAAACAGTGCCATGGCCGTCTGAGCTAA	MLIKMLTKVFGSRNDRTLRRMRKVVNIINGMEPAMEKLSDDELKAKTAEFRARLEKGEVLENLIPEAFAVVREASKRVFGMRHFDVQLLGGMVLNDRCIAEMRTGEGKTLTATLPAYLNALTGKGVHVVTVNDYLAQRDAENNRPLFEFLGMTVGINMSGLPAPAKREAYAADITYGTNNEYGFDYLRDNMAFSPEERVQRKLHYALVDEVDSILIDEARTPLIISGPAEDSSEMYRKVNKIIPHLIRQEKEDSDTFTGEGHFSVDEKARQVNLTERGLVLIEELLVQEGIMDEGESLYSPTNIMLMHHVTAALRAHALFTRDVDYIVKDGEVIIVDEHTGRTMQGRRWSDGLHQAVEAKEGVEIQNENQTLASITFQNYFRLYEKLAGMTGTADTEAFEFSSIYKLDTVVVPTNRPMIRKDMADLVYMTEAEKIQAIIEDIKTRTAAGQPVLVGTISIEKSEVVSRELTKAGIKHNVLNAKFHASEADIVAQAGYPSAVTIATNMAGRGTDIMLGGSWQAEVAALENPTPEQIEQIKADWQVRHDAVLAAGGLHIIGTERHESRRIDNQLRGRAGRQGDAGSSRFYLSMEDALMRIFASDRVSGMMRKLGMKPGEAIEHPWVTKAIANAQRKVESRNFDIRKQLLEYDDVANDQRRAIYTQRNELLDVSDVSETINSIREDVFKATIDAHIPPQSLEEMWDIEGLQERLKNDFDLDLPIKEWLDKEPELHEETLRERILQSAVETYQRKEEVVGAEMMRHFEKGVMLQTLDSLWKEHLAAMDYLRQGIHLRGYAQKDPKQEYKRESFSMFAAMLESLKYEVISTLSKVQVRMPEEVEAMEQQRREEAERLAQMQQLSHQSDDEAAAQDLAAQTGERKVGRNDPCPCGSGKKYKQCHGRLS	PGPT0025735_3517	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025735-secA-K03070	NA	NA
BMS020_04668	393	mutT	COG0494	8-oxo-dGTP diphosphatase	ATGAAAAAACTGCAAATCGCCGTAGGGATAATTCGCAATCCAGAAGGCGACATCTTTATTACCCAGCGCGCCGCCGATGCCCATATGGCGAATAAACTGGAGTTCCCGGGCGGGAAGATTGAATCTGCTGAAACGCCAGAGCAGGCGTTGATCCGCGAGCTACAGGAAGAGGTGGGGATTACGGTCACCACGTTTTCACTATTTGATAAGCTGGAGTATCAGTTCCCCGATCGCCACATTACGCTGTGGTTTTTCCTCGTGGAAAGCTGGGAAGGCGAGCCCTGGGGCAAAGAGGGGCAGCCGGGACAGTGGATGGCGCGGCAGGCGCTGGATCCGGCGGCGTTTCCCCCGGCGAATGAACCGGTTATCCGCAAACTTATCGCCCAGGGCTGA	MKKLQIAVGIIRNPEGDIFITQRAADAHMANKLEFPGGKIESAETPEQALIRELQEEVGITVTTFSLFDKLEYQFPDRHITLWFFLVESWEGEPWGKEGQPGQWMARQALDPAAFPPANEPVIRKLIAQG				NA	NA	NA	NA	NA
BMS020_04669	195	yacG	COG3024	DNA gyrase inhibitor YacG	ATGTCAGAAGAGACTATCGTCAATTGTCCGACCTGCGGCAAAAATGTGGTATGGGGCGAACAAAGCCCCTATCGTCCGTTCTGCAGCAAGCGCTGCCAGCTGATCGATTTGGGAGAATGGGCAGCAGAGGAGAAGCGCATCCCCAGCGCGGGCGATCTCTCCGATAGCGATGACTGGAGCGAGCAGCAGCCCTGA	MSEETIVNCPTCGKNVVWGEQSPYRPFCSKRCQLIDLGEWAAEEKRIPSAGDLSDSDDWSEQQP	PGPT0008835_290	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
BMS020_04670	744	zapD	COG4582	Cell division protein ZapD	ATGCATACCCCCGTTCTGTTTGAACATCCTCTTAATGAGAAAATGCGCACCTGGCTGCGCATCGAATTTCTGATCCAGCAGATGGCTTTCCATCCGATGATTGCCAGCCATGCCGATGCGCTCCATTTTTTCCGTAACGCCGGCGATCTGCTGGATGTCCTGGAGCGCGGCGAGGTGCGTACCGATCTGGTCAAAGAGCTGGAGCGCCAGCAGCGTAAGCTCCAGTCCTGGGCAGAAGTGCCGGGAGTCGATCAGGAGCGTATTAACGCGCTGCGCCAGCAGCTCAAGCAGTCTTCCAGCACCCTGATGGCCGCGCCGCGCATTGGTCAGTTTCTGCGTGAAGATCGCCTGATTGCGCTAGTGCGTCAGCGTCTGAGTATCCCTGGAGGCTGCTGCAGCTTCGATTTACCGACCCTGCATATCTGGCTCCATATGCCGCAGGCGCATCGTGACGAGCAGGTGGCCAGCTGGCTTGCCAGCCTCGATCCTTTGGTCCAGTCCCTGAGCCTGATCCTCGATCTGATCCGTAACTCCGGGCAGTTTCGCAAACAGACCAGCCTCAATGGCTTTTATCAGGATAATGGCGAAGATGCCGATCTGCTGCGCCTGCGTCTCGATCTGGCCCACCAGCTTTATCCGCAGATCTCCGGCCATAAGAGCCGTTTCGCCATCCGCTTCCTGCCGCTGGACAGTGAGTATGGGATCGTGCCGGAGCGCTTTGATTTTGAACTGGCCTGCTGTTAA	MHTPVLFEHPLNEKMRTWLRIEFLIQQMAFHPMIASHADALHFFRNAGDLLDVLERGEVRTDLVKELERQQRKLQSWAEVPGVDQERINALRQQLKQSSSTLMAAPRIGQFLREDRLIALVRQRLSIPGGCCSFDLPTLHIWLHMPQAHRDEQVASWLASLDPLVQSLSLILDLIRNSGQFRKQTSLNGFYQDNGEDADLLRLRLDLAHQLYPQISGHKSRFAIRFLPLDSEYGIVPERFDFELACC				NA	NA	NA	NA	NA
BMS020_04671	621	coaE_1	COG0237	Dephospho-CoA kinase	ATGGGGTACACAGTCGCGTTAACAGGCGGGATTGGCAGCGGTAAAAGTACGGTTGCCGACGCCTTCGCGCAGCTCGGGATTAACGTTATCGATGCCGATGTTATCGCCCGCCAGGTAGTCGAGCCCGGCACCCCGGCACTCCAGGCCATTGCCGGCCACTTCGGGCCACAGATGATCGCTCCCGACGGCACGCTAAACCGCCGTCTGCTGCGGGAAAAAATTTTTGCTCAGGTGGAGGAAAAAGCCTGGCTCAACGCGCTGTTGCATCCGCTAATTCAGCAGGAAACGCGCCGCCAGATGCAGGCCGCCACCTCCCCTTATCTCCTCTGGGTCGTACCTTTGCTGGTCGAAAACCGCCTGTCCAGCCAGGCCGATCGCGTCCTGGTCGTCGATGTGCCAAAAGAGACGCAAATCGAACGCACCATGCTGCGCGATAAGGTCAGCCGCGAACATGCTGAACATATTCTTGCCGCCCAGGCCACGCGCGAGCAGCGCCTGGCCGTCGCGGACGATGTTATTGAAAACACTGGCACGCCGGATGCAGTGGCATCGGATGTTGCCCGCCTGCACGAAAAGTACTTAACGCTGGCATCGCAGGCCGCCTCACAGGAAAACTCGTAA	MGYTVALTGGIGSGKSTVADAFAQLGINVIDADVIARQVVEPGTPALQAIAGHFGPQMIAPDGTLNRRLLREKIFAQVEEKAWLNALLHPLIQQETRRQMQAATSPYLLWVVPLLVENRLSSQADRVLVVDVPKETQIERTMLRDKVSREHAEHILAAQATREQRLAVADDVIENTGTPDAVASDVARLHEKYLTLASQAASQENS	PGPT0008835_1902	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
BMS020_04672	1044	guaC	COG0516	GMP reductase	ATGCGTATTGAAGAAGATCTGAAGCTTGGTTTCAAAGACGTTCTTATCCGCCCGAAACGCTCTACCCTCAAAAGCCGTTCTGATGTTGAGCTGGAACGTGAATTCACCTTTAAACATTCAGGCCTGACCTGGTCCGGCGTGCCGATTATTGCGGCAAACATGGATACCGTCGGCACCTTCAGCATGGCGAAAGCGCTGGCCACTTTTGGCATTCTTACCGCAGTACACAAGCACTACACCGCAGAAGAATGGCAGGCGTTTGTCCAGAGCGTATCCGCAGACGTTCTCAAGCATGTGATGGTTTCCACCGGTACTTCCGACGCGGATTTCGATAAAACGCAACAGATCCTCTCTGAGAACCCACAGTTGAATTTTGTGTGCATTGACGTCGCCAATGGCTACTCTGAACACTTCGTTCAGTTTGTGGCGAAGGCGCGCGAAGCCTGGCCGCAAAAAACCATTATCGCCGGGAACGTGGTCACCGGTGAAATGTGCGAAGAGCTGATCCTCTCCGGCGCCGATATCGTCAAAGTTGGCATTGGCCCGGGGTCCGTTTGCACCACCCGTGTCAAAACCGGGGTCGGCTACCCGCAGCTCTCCGCCGTGATCGAGTGTGCTGATGCCGCACACGGCCTTGGCGGCCAGATCATCAGCGATGGCGGTTGCACCATGCCGGGCGATGTGGCGAAAGCCTTCGGCGGCGGCGCTGATTTCGTGATGCTCGGCGGTATGCTGGCGGGCCACGAAGAGAGCGGCGGTACTGTGGTTGAAGAGAACGGTGAAAAATTCATGCTGTTTTACGGTATGAGCTCCGAGTCGGCGATGACCCGCCATGTAGGCGGTGTCGCGAAATACCGCGCGGCGGAAGGGAAAACCGTGAAGCTGCCGCTGCGTGGCCCGGTGGACAATACCGCGCGCGACATTCTCGGCGGCCTGCGTTCAGCCTGCACCTACGTTGGCGCCTCGCGACTGAAAGAGCTGACCAAACGCACCACCTTTATCCGCGTTCAGGAACAAGAGAACCGGGTATTCAACAGCCTGTAA	MRIEEDLKLGFKDVLIRPKRSTLKSRSDVELEREFTFKHSGLTWSGVPIIAANMDTVGTFSMAKALATFGILTAVHKHYTAEEWQAFVQSVSADVLKHVMVSTGTSDADFDKTQQILSENPQLNFVCIDVANGYSEHFVQFVAKAREAWPQKTIIAGNVVTGEMCEELILSGADIVKVGIGPGSVCTTRVKTGVGYPQLSAVIECADAAHGLGGQIISDGGCTMPGDVAKAFGGGADFVMLGGMLAGHEESGGTVVEENGEKFMLFYGMSSESAMTRHVGGVAKYRAAEGKTVKLPLRGPVDNTARDILGGLRSACTYVGASRLKELTKRTTFIRVQEQENRVFNSL	PGPT0021450_328	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021450-guaC-K00364	NA	NA
BMS020_04673	1206	gspF	COG1459	Putative type II secretion system protein F	ATGGCGACTAAGCGTCTCTGGCGCTGGCGAGGCGTCGATGCACAAGGCGCTGCTTGTCAGGGGATGCTATGGCAAGCCAGTCGTCCGGAGGTGCTGCATCACCTCCAGCAGCAGCGCATCATGCCGCTGGCTATACGCCGCTGTTCGGTGAAGCAAAGCCTGTGGCGCCCGCGCTACAGCAGCGAAACCATCCGCCAGTTGGCAACCCTGCTGCAGGCCGGGCTACCGCTGGCGGAAGGGTTATCGCTGTTGGCGCAGCAGCAACCGCATGCGCAGTGGCAGGCGCTGCTTGAGGCGCTGGGCCGCGAACTGGCCCAGGGCGTAGCCTTCTCTGCCGCACTGGCGCAGTGGCCGCAGGCTTTTCCGCCACTGTATCTGGCGATGATTAGCACCGGCGAACTGACGGGCAAGCTCGATATTTGCTGCCAGCAGCTGGCCAACCAGCAGCAGGAGCAGCAGCGGCTTGCCGGCAAGGTCAAAAAGGCGCTGCGCTACCCGCTAATCGTGCTCACTCTGGCGCTGCTGGTGGTGCTTGGAATGCTCTATTTTGTCCTTCCCGAATTCACCGCCATCTACCAGACGTTCAATACGCCGCTGCCGTTGTTGACGCGAATGGTTATTGCGGCAGGCGACATGCTGAGCCGCGGCTGGCCGTTGCTGTTGGCCTTTCTGCTGAGCCCGCTGCTGCTCAACCAGCTGGTCCGGCAGCGCGCCGACTGGCTGCTGCGTCGCCAGCAGCTGCTTAACGCGCTCCCTCTCGTCGGCCCCCTGATCGGCGGCCAACAGCTGAGCCTGATATTCACCGTTCTGGCGTTAACCCAAAGCGCCGGTATCAGCTTTCTGCAGGGGCTGCAAAGCGTTGAAGAAACCCTGTCGTGCCCGCTGTGGCGCCAGCGCCTGGCGCAGGCCCGCGCGCTGATCGTTCAGGGGGATCCGATCTGGCAGGCGTTAAGCCGCTGCGGCGGTTTTACACCGCTGTGTCTGCAGCTCATCCGTACGGGGGAAAGCGCGGGGGCGCTGGATCAGATGCTGGAAAACCTGGCGCATCATCATCGTGAGCAGACCCATCAGCGAGCCGACAGTCTGGCTGCGCATCTGGAACCCCTGATGCTGGTAATAACCGGCTCGCTGGTTGGGATCCTGGTGGTGGCGATGTATTTGCCCGTTTTTCACCTGGGCGATGCCATTGGCGGGGCGGGAGGATGA	MATKRLWRWRGVDAQGAACQGMLWQASRPEVLHHLQQQRIMPLAIRRCSVKQSLWRPRYSSETIRQLATLLQAGLPLAEGLSLLAQQQPHAQWQALLEALGRELAQGVAFSAALAQWPQAFPPLYLAMISTGELTGKLDICCQQLANQQQEQQRLAGKVKKALRYPLIVLTLALLVVLGMLYFVLPEFTAIYQTFNTPLPLLTRMVIAAGDMLSRGWPLLLAFLLSPLLLNQLVRQRADWLLRRQQLLNALPLVGPLIGGQQLSLIFTVLALTQSAGISFLQGLQSVEETLSCPLWRQRLAQARALIVQGDPIWQALSRCGGFTPLCLQLIRTGESAGALDQMLENLAHHHREQTHQRADSLAAHLEPLMLVITGSLVGILVVAMYLPVFHLGDAIGGAGG	PGPT0016155_96	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IVa_PILUS_HOMOLOG_PROTEIN,PGPT0016155-hofC-K02505	NA	NA
BMS020_04674	1386	epsE_1	COG2804	Type II secretion system protein E	ATGAAAACAGAACAGCTGATCCCTCTCTGTCGTCGCCATCACGCCCTGCTGCTGCACAGCGATGAGCAGACGATATCCATTGCGGTGGTCGATACCCCACCGACAGAGCTAATGGAGGCGCTGCGTTTCGCGACGCAAAAACGGATCGATATTGAATGCTGGAGCCAGGAGCAGATGGATAAGCGCCTGCAAGTCCAGGAAAAGCAGGCGCTGCTGGCGCAAAATGCAGGGCCGGAAAACATCGCCGAGCGGGTCAACCAGATCCTCGAGCAGGCCCTGCGTCAGCGGGCGTCCGATATTCATATCGAGCCCACGGAAGCGCACTTAAGGATCCGCCTGCGTGTCGATGGCGTGCTACACGCTCTGCCGCTGCTGGCGCCCGAGCTGGCCGCGCCGGTTATCGCACGTCTCAAGGTGATGGCCAATCTCGATATCGCCGAGCATCGTTTGCCGCAGGATGGCCAGTTCGCGCTGAACCTCGCCGGACGGCCGCTCTCCTTTCGCATCGCCACCCTGCCCTGCCGCTATGGCGAGAAAATTGTCCTGCGCCTTCTGCATCAGGTTGACCAGGCGCTGGATCTGGAGGCTCTCGGCCTCTCATCCTCTCAGCTGGCGGCCTTTCGCCAGGCCCTGAATCAGCCGCAGGGGCTGCTGCTGGTCACTGGCCCAACCGGAAGCGGGAAAACGGTGACCCTCTACAGCGCCCTGCAGGCCCGAAACCGGGAGCAAGTGAACATCTGTAGCGTCGAGGATCCTCTGGAGATCCCTATCGCCGGGATGAACCAGACGCAAATCAATCCGCGCGCCGGGCTGACCTTTCACAGCGTGCTGCGCGCCCTGTTACGCCAGGACCCGGATATTGTGATGGTGGGTGAAATCCGCGATGCCGAAACCGCTGAAATCGCGCTGAAAGCCGCTCAAACGGGCCATCTGGTGCTCTCTACCCTGCACACCAATTCCACCAGCGAAACCCTCACTCGCCTGCAGCAAATGGGCATCGCCCGCTGGATGATCTCTTCTGCGCTCTCGCTGGTTATCGCCCAGCGTCTGGTCCGCAAGCTGTGCCCCCACTGCCGGCGCAATGCCGGCAGCGCCGCAGACCTGCCGCACAGTCTGTGGCCCCGCCCGCTGCCGCGCTGGCAGGCAGCAGGCTGCGAAAACTGTTATCACGGGTATCATGGCCGTCTGGCGCTGTTTGAGGTCTTGCCTGTCACCCCGGGGCTACGTCAGGGGATAGTCCAGGGACTCAACGCCCTTGAGATCGAATCTCTGGCGCGAGCCGCGGGCATGATGGCGCTTTTTGAAAGCGGATGTCAGGCTATCGAACAGGGGTTGACGAGCCTCGAAGAGGTGGTGCGGGTGCTGGGGATCCCCCATGGCGACTAA	MKTEQLIPLCRRHHALLLHSDEQTISIAVVDTPPTELMEALRFATQKRIDIECWSQEQMDKRLQVQEKQALLAQNAGPENIAERVNQILEQALRQRASDIHIEPTEAHLRIRLRVDGVLHALPLLAPELAAPVIARLKVMANLDIAEHRLPQDGQFALNLAGRPLSFRIATLPCRYGEKIVLRLLHQVDQALDLEALGLSSSQLAAFRQALNQPQGLLLVTGPTGSGKTVTLYSALQARNREQVNICSVEDPLEIPIAGMNQTQINPRAGLTFHSVLRALLRQDPDIVMVGEIRDAETAEIALKAAQTGHLVLSTLHTNSTSETLTRLQQMGIARWMISSALSLVIAQRLVRKLCPHCRRNAGSAADLPHSLWPRPLPRWQAAGCENCYHGYHGRLALFEVLPVTPGLRQGIVQGLNALEIESLARAAGMMALFESGCQAIEQGLTSLEEVVRVLGIPHGD	PGPT0016150_269	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IVa_PILUS_HOMOLOG_PROTEIN,PGPT0016150-hofB-K02504	NA	NA
BMS020_04675	432			hypothetical protein	ATGGATAAACAACGAGGTTTTACCCTGATTGAACTGATGGTGGTCATCGGCATCATCGCCATTCTCAGCGCCATCGGCATCCCGGCCTACCAGAACTACCTGCGTAAAGCCGCCCTCACCGACCTGCTGCAGACCTTTGTCCCCTACCGGACGGCAATCGAACTTTGCGCGCTCGATCATGGCGGCCTGACGACATGCGACGGCGGCAGCAATGGCATCCCCTCGCCAACAACCACGCGCTACCTCTCCGCCATGAGCGTGGCCAAAGGCGTCGTTACCCTCACCGGCCATGAAAGTCTCAACGGACTGGGCGTCACCCTGACCCCGACCTGGGATAACGCCGAAGGCGTCACCGGTTGGCAGCGGGTCTGCACTATCACCGACAACAGCGCACTTCAGCATGCCTGCGAAGACGTCTTCCGGGTGAAGTGA	MDKQRGFTLIELMVVIGIIAILSAIGIPAYQNYLRKAALTDLLQTFVPYRTAIELCALDHGGLTTCDGGSNGIPSPTTTRYLSAMSVAKGVVTLTGHESLNGLGVTLTPTWDNAEGVTGWQRVCTITDNSALQHACEDVFRVK	PGPT0016145_305	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IVa_PILUS_HOMOLOG_PROTEIN,PGPT0016145-ppdD-K02682	NA	NA
BMS020_04676	894	nadC_2	COG0157	Nicotinate-nucleotide pyrophosphorylase [carboxylating]	ATGTCGCCTCGTCGTTACAACCCCGACCGCCGCCGTGACGTGCTGCTGGAACGAATTAATCTCGATATTACCGATGCTGTCGCACACTCCCTGCGGGAAGATTTGGGCGGCGAAGTCGACGCCAGCAACGATATTAGCGCACAATTATTGCCGCAGGATGCACGCTCCCATGCGGTGGTCATTACCCGCGAAGATGGCGTCTTCTGTGGTAAACGCTGGGTGGAAGAGGTCTTCATTCAGCTCGCCGGTGACGACGTGACGATCACCTGGCACGTCGCCGATGGCGACGCGGTCAAAGCCGATCAACCCCTGTTCGAGCTGGAAGGCCCATCGCGCATTCTGCTCACTGGCGAACGTACGGCGCTGAACTTTGTGCAAACCCTCTCCGGCGTCGCCAGCGTCGTCCGCCGCTATGTCGACCTGCTGGCCGGCACCAAAACCCAACTCCTGGATACGCGTAAAACGCTGCCAGGGCTGCGTACCGCGCTGAAATACGCGGTTCTCTGCGGCGGCGGCGCCAACCATCGTCTGGGGCTGTTCGACGCTTTCCTGATTAAAGAAAACCACATCATCGCCTCCGGCTCGATCCGTCAGGCGGTGGAAAAGGCGTTCTGGCTGCATCCTGATGTGCCGGTGGAAGTGGAAGTGGAAACGCTGGATGAGCTGGAGCAGGCGTTAAAAGCCGGGGCCGATATCATTATGCTCGATAACTTCACCACCGACCTGATGCGCGAGGCGGTGAAAATCACCGCTGGCCAGGCGGCGCTGGAGGTCTCCGGCAACGTCACCTTTGACACCATCCGCGAATTTGCCGAGACCGGGGTCGACTATATCTCCGTCGGGGCCCTGACCAAACATGTGCAGGCGCTCGACCTGTCGATGCGTTTCCGCTGA	MSPRRYNPDRRRDVLLERINLDITDAVAHSLREDLGGEVDASNDISAQLLPQDARSHAVVITREDGVFCGKRWVEEVFIQLAGDDVTITWHVADGDAVKADQPLFELEGPSRILLTGERTALNFVQTLSGVASVVRRYVDLLAGTKTQLLDTRKTLPGLRTALKYAVLCGGGANHRLGLFDAFLIKENHIIASGSIRQAVEKAFWLHPDVPVEVEVETLDELEQALKAGADIIMLDNFTTDLMREAVKITAGQAALEVSGNVTFDTIREFAETGVDYISVGALTKHVQALDLSMRFR	PGPT0013370_883	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013370-nadC-K00767	NA	NA
BMS020_04677	564	ampD		1,6-anhydro-N-acetylmuramyl-L-alanine amidase AmpD	ATGCAGTTGAACGAGGGATGGCTGGTCGGCGCGCGTCGGGTTCCCTCGCCGCACCATGACTGCCGTCCGGATGAAGAAGCCCCTTCCTTACTGGTGGTGCATAACATTAGCCTGCCACCAGGTGAATTTGGTGGTCCATGGATTGACGCGCTGTTCACCGGCACCCTGGATCCGCACGCGCATCCTTTCTTTGCCGAGATCGCTCATCTGCGCGTTTCGGCGCATTGTCTGATTCGCCGTGATGGTGAAATCGTGCAGTATGTGCCTTTCGATAAGCGTGCGTGGCATGCGGGGGTCTCCTGCTATCAGGGTCGCGAACGCTGCAATGACTTTTCCATCGGCATAGAGCTGGAAGGCACGGATACCCTGGCGTATACCGATGCGCAGTACCAGCAGCTGGCGGCGGTGACGGATCTGCTTATCACGATTTATCCTGCCATCGCCACAAACATCACGGGCCATAGCGATATCGCGCCCGTGCGCAAGACAGACCCGGGACCGGCCTTTGACTGGAAAAAATTTCGTGCGCTGCTCAGCGCGCCGTCAGAAAAGGAGACCTCATGA	MQLNEGWLVGARRVPSPHHDCRPDEEAPSLLVVHNISLPPGEFGGPWIDALFTGTLDPHAHPFFAEIAHLRVSAHCLIRRDGEIVQYVPFDKRAWHAGVSCYQGRERCNDFSIGIELEGTDTLAYTDAQYQQLAAVTDLLITIYPAIATNITGHSDIAPVRKTDPGPAFDWKKFRALLSAPSEKETS	PGPT0024100_755	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0024100-ampD-K03806	NA	NA
BMS020_04678	855	ampE	COG3725	Protein AmpE	ATGACGCTGTTTACTACGCTGCTGGTGCTTATCGCTGAACGCCTGTTTAAACTGGGCGAACACTGGCAGCTTGATCATCGGCTGGAGGTGGTGTTCCGCCGGATAAAACATTTCTCGTTGCCGGGAACGCTGCTGATGACCCAGGTCGCCGTCGCGGTGGTCTACCTCATTCAGCGCTTGCTGCAGGGGCAGCTGTTCAACGTACCGCTGCTGGTGTTCTGGATCTTGCTGGGTCTGCTGTGCATCGGCGCCGGCAAGGTTCGGCTGCACTATCATGCCTATCTGAAAGCGGCGTCGCGCAATGACAGCCGCGCCTGCGATGCGATGGCCAGCGAGCTGACGTTGATCCATGGCGTCCCGCCGGGCTGTGATGAGCGCGAGTACCTTAGCGAATTGCAAAATGCGCTGTTATGGATTAACTATCGTTACTACCTGGCGCCACTCTTTTGGTTTGTGGTGGGTGGGGCATGGGGGCCGCTGACGCTTATCGCTTATTGCGTTCTGCGTGCCTGGCAGACGTGGCTGGCGCGCTACCAGACGCCGCATCATCGTTTGCAGTCTGGAATCGATGGTATCCTGCATATTGTCGACTGGCTGCCGGTGCGTCTGGTGGGGGTTGTCTATGCCCTGGTGGGGCATGGAGAGAAAGCGCTTCCGGCGTGGTTTGCATCGTTAGGCGACCGCCATTCGTCGCAGTATCAGGTATTGACCCGCCTGGCGCAGTATTCCCTGGCCCGTGAACCGCACGTGGATAAAGTGGCGACCCCAAAGGCCGCGGTGTCGATGGCCAAGAAAACCTCGCTGGTGGTGGTGGTGATCATGGCGCTGCTGACGATTTACGGCACCCTGGTGTAA	MTLFTTLLVLIAERLFKLGEHWQLDHRLEVVFRRIKHFSLPGTLLMTQVAVAVVYLIQRLLQGQLFNVPLLVFWILLGLLCIGAGKVRLHYHAYLKAASRNDSRACDAMASELTLIHGVPPGCDEREYLSELQNALLWINYRYYLAPLFWFVVGGAWGPLTLIAYCVLRAWQTWLARYQTPHHRLQSGIDGILHIVDWLPVRLVGVVYALVGHGEKALPAWFASLGDRHSSQYQVLTRLAQYSLAREPHVDKVATPKAAVSMAKKTSLVVVVIMALLTIYGTLV	PGPT0028120_271	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028120-ampE-K03807	NA	NA
BMS020_04679	951		COG3940	Extracellular exo-alpha-(1->5)-L-arabinofuranosidase	ATGAACAACTGGCCAAACCCCTTTATTGAGCAACGCGCAGATCCCTTTATTCTGCGCCACCTGAATCATTACTACTTTATTGCCTCAGTGCCGGAATACGACCGGCTGGAGATCCGGCGCGCGGCAACCCTTGAGGGGTTGCGCGATGCTGAGCCGGTAGTGGTGTGGCGCGCACCGCAAAGCGGGCCGATGAGCCAGCTGATTTGGGCGCCGGAGCTACATGAGATAGACGGTAAGTGGTATATCTATTTTGCCGCCACCCATACCCACGATCTGGATGCGCTGGGCATGTTCCAGCATCGCATGTTCGTTATCGAGTGCGCCGACAGCGATCCGCTGACCGGCCGTTGGCAGGAAAAAGGCCAGGTGGTGACGCCTTTCGATACCTTCGCCCTCGATGCCACCACCTTTATCCATCAGGGCAAACGCTGGTACCTGTGGGCGCAAAAATCTCCGCATATCGAGGGCAACTCAAACCTGTATCTCGCTGAAATGGCCAACCCGTGGACGCTAAAAGGCGAGCCGGTCATGCTGAGCAAGCCGGAGTTCGACTGGGAGTGCCGGGGATTTAAGGTCAATGAAGGACCCGCGGTGCTGGTGCATGGCGATAAGCTTTTCATCAGCTATTCCGCCAGCGCCACCGATGAAAACTACTGCATGGGATTGCTCTGGATCGACCGGGAGGCCGATCCGCTGCAGCCGGAAAACTGGCATAAAGCCCCGCAGCCAGTGTTCCGGACCAGCTATGAAAACCGCCAGTATGGCCCGGGCCATAACAGTTTTACCCAAACGCCGGCGGGGGAAGATGTGCTGGTATATCACGCGCGGAATTACACCGAGATTGAAGGCGACCCGCTGTATGATCCCAATCGTCATACGCGGCTAAAACTCGTCGCCTGGAGAGAGGACGGCATGCCCGACTTCGGCATCCCGCCGGCGGATACGCTGTAG	MNNWPNPFIEQRADPFILRHLNHYYFIASVPEYDRLEIRRAATLEGLRDAEPVVVWRAPQSGPMSQLIWAPELHEIDGKWYIYFAATHTHDLDALGMFQHRMFVIECADSDPLTGRWQEKGQVVTPFDTFALDATTFIHQGKRWYLWAQKSPHIEGNSNLYLAEMANPWTLKGEPVMLSKPEFDWECRGFKVNEGPAVLVHGDKLFISYSASATDENYCMGLLWIDREADPLQPENWHKAPQPVFRTSYENRQYGPGHNSFTQTPAGEDVLVYHARNYTEIEGDPLYDPNRHTRLKLVAWREDGMPDFGIPPADTL	PGPT0019091_972	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
BMS020_04680	1407	yicJ_2	COG2211	Inner membrane symporter YicJ	ATGGCAGACAATAGACTTTCAATAAAAGAAAAGATTGGTTATGGGATGGGGGATGCCGGATGCAATATCATCTTTGGCGCCATCATGCTGTTTGTTAACTATTTTTATACCGATATCTTCGGCCTGGCGCCGGCGCTGGTGGGCGTACTGCTGCTGTCGGTGCGCGTCATCGATGCGGTGACCGACCCGATCATGGGCGCCCTCGCCGACCGCACCCGCAGTAAATATGGCCGCTTTCGTCCATGGCTGCTGTGGATTGCCTTCCCCTACGCCCTGTTCAGCGTGCTGATGTTCACCACTCCTGAGTGGACCTATAACAGCAAAGTCATCTATGCGTTTGTCACCTACTTTCTGCTGTCGATTACCTATACCGCGATTAATATACCCTACTGCTCGCTGGGAACGGTGATGACCGCCGACCCGAAAGAGCGTGTTGCCTGCCAGTCCTATCGTTTCGTGATGGTGGGTATCGCCACGCTGCTGCTGTCATTGACGCTGCTGCCCATGGCCGACTGGTTCGGCGGCGCCGATAAAGCAAAAGGCTATCAGATGGCGATGACCGTGCTGGCCTTTATCGGCATGTGTATGTTCCTGTTCTGCTTCGCCACCGTGCGCGAACGCATCCACCCGGCGGTGCAGACCAATGATGAACTGAAAAAAGATCTCAAAGACGTGTGGAAAAATGACCAGTGGGTACGCATCCTGCTGCTCACGCTATGCAACGTCTGTCCGGGCTTTATCCGCATGGCCGCCACCATGTACTACGTCACCTGGGTGATGGGGCAAAGCACCCATTTTGCCACGCTGTTTATCAGCCTCGGCGTGGTCGGGATGATGATTGGCAGCATGCTGGCAAAAGTCCTCACCGACCGCTGGTGCAAACTGCAGGTCTTCTTCTGGACCAACATCGTGCTGGCGATCTTCTCCTGCGCCTTCTATTTCTTTAATCCGCACGCCACCACGCTGATTATGGTGCTCTACTTCCTGCTCAATATCCTGCATCAGATCCCCTCCCCGCTGCACTGGTCGCTGATGTCCGATGTTGACGACTACGGCGAGTGGAAAACCGGCAAGCGCATCACCGGTATTAGCTTCTCCGGCAATCTGTTTTTCCTTAAAGTCGGCCTGGCGGTCGCCGGGGCGATGGTCGGATTCCTGCTGTCATGGTACGGCTACGACGCCGGCGCCAAAGCGCAAAGCGCCTCGGCCCTCAACGGCATCGTGCTGCTGTTCTCGGTCATCCCCGGCGTCGGCTACCTGATCACCGCCGGCGTGGTGCGCCTGCTTAAAGTTGACCGCACCCTGATGCGCCAGATTCAGAGCGATTTAGAGAAGCGCCGCAGCAACTACAGCGAGCTGAATGAATACCAGGAACTGAAAACCAGTGAACACGTAAGGAAAGCCTGA	MADNRLSIKEKIGYGMGDAGCNIIFGAIMLFVNYFYTDIFGLAPALVGVLLLSVRVIDAVTDPIMGALADRTRSKYGRFRPWLLWIAFPYALFSVLMFTTPEWTYNSKVIYAFVTYFLLSITYTAINIPYCSLGTVMTADPKERVACQSYRFVMVGIATLLLSLTLLPMADWFGGADKAKGYQMAMTVLAFIGMCMFLFCFATVRERIHPAVQTNDELKKDLKDVWKNDQWVRILLLTLCNVCPGFIRMAATMYYVTWVMGQSTHFATLFISLGVVGMMIGSMLAKVLTDRWCKLQVFFWTNIVLAIFSCAFYFFNPHATTLIMVLYFLLNILHQIPSPLHWSLMSDVDDYGEWKTGKRITGISFSGNLFFLKVGLAVAGAMVGFLLSWYGYDAGAKAQSASALNGIVLLFSVIPGVGYLITAGVVRLLKVDRTLMRQIQSDLEKRRSNYSELNEYQELKTSEHVRKA	PGPT0014410_1149	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
BMS020_04681	1371	aroP_2	COG1113	Aromatic amino acid transport protein AroP	ATGGAAGGTCAACAGCACGGCGATCGGCTGAAGCGCGGCCTCAAAAACCGCCATATCCAGCTCATCGCGCTGGGCGGGGCTATCGGCACCGGCCTGTTTCTGGGGAGCGCGTCCGTCATTCAGTCCGCCGGCCCGGGTATCATTCTTGGTTACGCGATTGCCGGTTTTATCGCCTTTCTGATCATGCGTCAGCTGGGCGAAATGGTGGTGGAAGAGCCGGTAGCCGGTTCGTTTAGCCACTTTGCTTATAAATACTGGGGCGGCTTTGCCGGCTTCGCCTCCGGCTGGAACTACTGGGTGCTGTATGTCCTGGTGGCAATGGCGGAACTGACCGCCGTCGGCAAATATATCCAGTTCTGGTGGCCGGAAATCCCGACCTGGGCCTCAGCGGCGGTTTTCTTCATCGCCATCAACGCCATTAACCTGACCAACGTGAAAGTGTTCGGTGAAATGGAGTTCTGGTTTGCCATTATCAAAGTGGTCGCCGTCGTGGCGATGATTTTGTTCGGCGGCTGGCTGCTGTTCAGCGGCAACGGCGGCCCGCAGGCGACGGTACGTAACCTGTGGGATCAAGGCGGGTTCCTGCCGCACGGCTTTACCGGGCTGGTGATGATGATGGCGATCATTATGTTCTCCTTCGGCGGTCTCGAGCTGGTGGGTATCACCGCGGCGGAAGCGGATAACCCGGAGCAAAGCATTCCGAAAGCCACCAACCAGGTTATCTACCGTATCCTGATCTTCTATGTAGGCTCGCTGGCGGTCCTGCTCTCGCTGCTGCCGTGGACGCGCGTGACCGCGGACACCAGTCCGTTCGTCCTGATTTTCCATGAGCTTGGCGATACGCTGGTGGCAAACGCCCTCAACGTGGTGGTGCTGACGGCGGCCCTGTCGGTATATAACAGCTGCGTCTACTGCAACAGCCGTATGCTGTTCGGCCTTGCCCAGCAGGGGAACGCGCCGAAAGCTCTGCTCAGCGTCGACAAACGCGGCGTGCCGGTCAATACCATTCTCGTCTCCGCCGTGGTCACCGCCCTGTGTGTGCTGATCAACTACCTGGCGCCGGAATCCGCATTTGGCCTGCTGATGGCGCTGGTGGTCTCCGCCCTGGTGATCAACTGGGCGATGATCAGCCTCGCGCATATCAAATTCCGTCGCGCCAAACAGCAGCAGGGCGTCACCACCCGCTTCCCCGCCCTCTTCTACCCGCTGGGTAACTGGGTGTGCCTGCTGTTTATGGCCGCGGTGCTGATCATTATGCTGATGACCCCGGGGATGGCGATTTCCGTTTGGCTGATCCCGGTATGGATCGCAGTGCTGGGCGTGGGTTATCTGTTTAAACAGAAAGCCGCCGCCACCGTAAAAGCACAATAA	MEGQQHGDRLKRGLKNRHIQLIALGGAIGTGLFLGSASVIQSAGPGIILGYAIAGFIAFLIMRQLGEMVVEEPVAGSFSHFAYKYWGGFAGFASGWNYWVLYVLVAMAELTAVGKYIQFWWPEIPTWASAAVFFIAINAINLTNVKVFGEMEFWFAIIKVVAVVAMILFGGWLLFSGNGGPQATVRNLWDQGGFLPHGFTGLVMMMAIIMFSFGGLELVGITAAEADNPEQSIPKATNQVIYRILIFYVGSLAVLLSLLPWTRVTADTSPFVLIFHELGDTLVANALNVVVLTAALSVYNSCVYCNSRMLFGLAQQGNAPKALLSVDKRGVPVNTILVSAVVTALCVLINYLAPESAFGLLMALVVSALVINWAMISLAHIKFRRAKQQQGVTTRFPALFYPLGNWVCLLFMAAVLIIMLMTPGMAISVWLIPVWIAVLGVGYLFKQKAAATVKAQ	PGPT0020807_614	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020807-aroP-K11734	NA	NA
BMS020_04682	780	pdhR	COG2186	Pyruvate dehydrogenase complex repressor	ATGGCCTACAGCAAAATCCGCCAACCAAAATTATCCGATGTGATAGAGCAGCAGCTGGAGTTTCTGATCCTTGAGGGGACCTTGCGCCCCGGTGAAAAACTCCCGCCTGAACGCGAACTGGCCAAACAGTTCGACGTTTCCCGCCCCTCGCTGCGTGAGGCGATTCAACGCCTCGAAGCCAAGGGCCTGTTGCTTCGTCGTCAGGGAGGTGGAACGTTTGTACAGAGCCGCCTGTGGCAGAGCTTCAGCGATCCGCTGGTCGAGCTGCTGTCCGATCACCCTGAATCCCAATTCGATCTGCTTGAGACCCGTCACGCGCTGGAAGGCATTGCGGCTTATTACGCGGCGCTGCGCAGCAATGATGAAGATCGCGACCGTATCCGCGAGCTGCATCAGGCTATTGAGCGGGCTCAGCAGTCGGGCGATCTGGACGCCGAGTCCGGCGCCGTCGTCCAGTACCAAATCGCCGTCACTGAGGCGGCACACAATGTGGTTTTGCTCCATCTGCTAAGGTGTATGGAGCCGATGCTGGCGCAAAACGTGCGTCAGAACTTTGAATTGCTGTATGCCCGCCGGGAAATGCTCCCGTTGGTCAGCAACCATCGCACTCGCATTTTCGAGGCGATAATGGCCGGGGAGCCGGAGCAGGCGCGTGAGGCGTCGCACCGTCACCTGGCGTTCATTGAGGAAATTTTGCTGGACCGTAGCCGTGAGCAGAGTCGTAGAGAACGCTCGCTGCGTCGTTTACAGCAACGAAAGGACGAGAACTCCGGTTCTTAA	MAYSKIRQPKLSDVIEQQLEFLILEGTLRPGEKLPPERELAKQFDVSRPSLREAIQRLEAKGLLLRRQGGGTFVQSRLWQSFSDPLVELLSDHPESQFDLLETRHALEGIAAYYAALRSNDEDRDRIRELHQAIERAQQSGDLDAESGAVVQYQIAVTEAAHNVVLLHLLRCMEPMLAQNVRQNFELLYARREMLPLVSNHRTRIFEAIMAGEPEQAREASHRHLAFIEEILLDRSREQSRRERSLRRLQQRKDENSGS	PGPT0018120_200	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018120-lldR-K14348	NA	NA
BMS020_04684	2664	aceE_1	COG2609	Pyruvate dehydrogenase E1 component	ATGTCAGAACGTTTACCAAATGACGTGGATCCGATCGAAACTCGCGACTGGCTACAGGCGATCGAATCGGTCATCCGTGAAGAAGGTGTTGAGCGCGCTCAGTATCTTATTGACCAACTCCTTTCTGAAGCCCGCAAAGGCGGGGTGAAAGTGGCTGCTGGCGCATCGACCGGCGGTTACGTGAACACTATTGCCGTTGAAGATGAGCCGGAGTACCCGGGTAATCTGGATCTGGAACGTCGTATCCGTTCTGCGATCCGCTGGAACGCCATCATGACCGTTCTGCGCGCATCGAAAAAAGATCTCGAACTGGGCGGCCACATGGCTTCTTTCCAGTCTTCCGCAACCTTCTACGAAGTGTGCTTCAACCACTTCTTCCGCGCACGCAATGAGCAGGATGGCGGCGACCTGGTGTACTTCCAGGGTCACATCTCTCCGGGCGTTTATGCGCGTGCTTTCCTGGAAGGTCGTCTGACTGAAGAGCAGATGAACAACTTCCGTCAGGAAGTTCACGGTAAAGGTCTGTCCTCTTATCCGCACCCGAAACTGATGCCGGAATTCTGGCAGTTCCCGACCGTTTCTATGGGCCTGGGCCCAATCGGGGCGATTTATCAGGCTAAATTCCTGAAATATCTGGAACACCGTGGTCTGAAAGACACCTCCAAACAAACCGTTTACGCGTTCCTGGGCGACGGTGAGATGGACGAGCCGGAATCTAAAGGCGCGATCACCATCGCGACCCGTGAGAAGCTGGACAACCTGGTCTTCGTTATCAACTGTAACCTGCAGCGTCTTGATGGCCCGGTCACCGGTAACGGCAAAATCATTAACGAACTGGAAGGCATCTTCGCGGGCGCTGGCTGGAACGTTATCAAGGTTATCTGGGGCGGTCGTTGGGATGAGCTGCTGCGTAAAGACACCAGCGGTAAGCTGATTCAGCTGATGGAAGAAACCGTTGACGGTGACTACCAGACCTTCAAATCCAAAGACGGCGCTTATGTGCGCGAGCACTTCTTCGGTAAATATCCGGAGACCGCCGCGCTGGTTGCCGACTGGACTGACGAGCAGATTTGGGCTCTGAACCGCGGCGGCCACGATCCGAAGAAAGTTTACGCTGCACTGAAAAAAGCGCAGGAAACCAAAGGCAAAGCGACCGTCATCCTCGCCCATACCATCAAAGGTTACGGCATGGGTGATACTGCTGAAGGTAAGAACATCGCTCACCAGGTTAAGAAAATGAACATGGACGGCGTTCGCTACGTCCGCGATCGTTTCAACGTGCCGGTTGCCGATGCCGATCTGGAAAAACTGCCGTACGTAACCTTCCCGGAAGGTTCCGAAGAGCACACCTATCTGCACGCTCAGCGTCAGAAACTGCACGGCTATCTGCCGAGCCGTCAGCCGAACTTCACTGAGAAGCTGGAGCTGCCGACGCTGGAAGATTTCCGCCCGCTGCTGGAAGAGCAGAATAAAGAGATCTCTACCACTATCGCGTTCGTTCGTGCCCTGAACGTGATGCTGAAGAACAAATCCATCAAAGACCGCCTCGTGCCGATCATCGCCGACGAAGCGCGTACTTTCGGTATGGAAGGTCTGTTCCGTCAGATCGGTATCTACAGCCCGAACGGCCAGCAGTACACCCCGCAGGACCGTGAGCAGGTTGCTTACTACAAAGAAGACGAAAAAGGCCAGATCCTGCAGGAAGGGATCAACGAGCTGGGCGCAGGCGCATCCTGGCTGGCTGCGGCGACCTCTTACAGTACCAACAACCTGCCGATGATCCCGTTCTACATCTACTACTCGATGTTCGGGTTCCAGCGTATCGGCGACCTGTGCTGGCAGGCAGGCGACCAGCAGGCTCGCGGCTTCCTGATCGGTGGTACTTCCGGTCGTACGACGCTGAACGGCGAAGGTCTGCAGCACGAAGATGGCCACAGCCATATTCAGTCTCTGACTATCCCGAACTGTATCTCTTACGATCCGTCCTACGCCTACGAAGTGGCGGTCATCATGCATGACGGCCTGGAGCGTATGTACGGTGAGAAACAAGAGAACGTTTACTACTACATCACGACCCTGAACGAAAACTACCACATGCCGGCGATGCCGGAAGGCGCCGAGGAAGGTATCCGTAAAGGTATCTACAAACTCGAAACCATCGAAGGTAGCAAAGGTAAAGTTCAGCTGCTGGGCTCCGGTTCTATCCTGCGTCACGTCCGTGAAGCAGCGCAGATCCTGGCGAAAGACTACGGCGTGGGCTCTGACGTGTACAGCGTCACCTCCTTCACCGAGCTGGCGCGTGATGGCCAGGATTGCGAACGCTGGAACATGCTGCACCCGCTGGAAACCCCGCGCGTGCCGTACATCGCTCAGGTGATGAACGACGCTCCGGCTGTGGCATCCACTGACTATATGAAACTGTTCGCCGAGCAGGTTCGTACTTACGTACCGGCTGACGATTACCGCGTACTGGGTACCGATGGCTTCGGTCGTTCCGACAGCCGTGAAAACCTGCGTCACCACTTCGAAGTTGATGCTTCCTATGTGGTCGTTGCAGCGCTGGGCGAACTGGCTAAACGTGGTGAAATCGATAAGAAAGTGGTCGCTGATGCTATCGCGAAATTCGACATCGATGCAGAAAAAGTTAACCCGCGTCTGGCGTAA	MSERLPNDVDPIETRDWLQAIESVIREEGVERAQYLIDQLLSEARKGGVKVAAGASTGGYVNTIAVEDEPEYPGNLDLERRIRSAIRWNAIMTVLRASKKDLELGGHMASFQSSATFYEVCFNHFFRARNEQDGGDLVYFQGHISPGVYARAFLEGRLTEEQMNNFRQEVHGKGLSSYPHPKLMPEFWQFPTVSMGLGPIGAIYQAKFLKYLEHRGLKDTSKQTVYAFLGDGEMDEPESKGAITIATREKLDNLVFVINCNLQRLDGPVTGNGKIINELEGIFAGAGWNVIKVIWGGRWDELLRKDTSGKLIQLMEETVDGDYQTFKSKDGAYVREHFFGKYPETAALVADWTDEQIWALNRGGHDPKKVYAALKKAQETKGKATVILAHTIKGYGMGDTAEGKNIAHQVKKMNMDGVRYVRDRFNVPVADADLEKLPYVTFPEGSEEHTYLHAQRQKLHGYLPSRQPNFTEKLELPTLEDFRPLLEEQNKEISTTIAFVRALNVMLKNKSIKDRLVPIIADEARTFGMEGLFRQIGIYSPNGQQYTPQDREQVAYYKEDEKGQILQEGINELGAGASWLAAATSYSTNNLPMIPFYIYYSMFGFQRIGDLCWQAGDQQARGFLIGGTSGRTTLNGEGLQHEDGHSHIQSLTIPNCISYDPSYAYEVAVIMHDGLERMYGEKQENVYYYITTLNENYHMPAMPEGAEEGIRKGIYKLETIEGSKGKVQLLGSGSILRHVREAAQILAKDYGVGSDVYSVTSFTELARDGQDCERWNMLHPLETPRVPYIAQVMNDAPAVASTDYMKLFAEQVRTYVPADDYRVLGTDGFGRSDSRENLRHHFEVDASYVVVAALGELAKRGEIDKKVVADAIAKFDIDAEKVNPRLA	PGPT0001385_2230	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001385-aceE-K00163	NA	NA
BMS020_04685	1899	aceF_1	COG0508	Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	ATGGCTATCGAAATCAAAGTACCGGACATCGGGGCTGATGAAGTTGAAATCACCGAGATCCTGGTCAAAGTTGGCGACAAAGTAGAAGCTGAACAGTCGCTGATCACCGTAGAAGGCGATAAAGCCTCTATGGAAGTCCCGTCTCCGCAGGCTGGCGTCGTGAAAGAGATTAAAGTCTCCGTCGGCGACAAAACCGAGACTGGCAAACTGATTATGATTTTCGATTCCGCCGAGGGTGCAGCAGCCGCTGCACCTGCGCAGGAAGAGAAGAAAGAAGCCGCTCCGGCCGCTGCTGCGCCAGCCGCCGCCGCGGCAGCGAAAGAAGTGCACGTCCCGGATATCGGCGGCGATGAAGTTGAAGTCACCGAGATCATGGTTAAAGTGGGCGATACCATCGCCGCTGAGCAATCCCTGATCACCGTAGAAGGCGATAAGGCCTCTATGGAAGTGCCAGCGCCGTTCGCGGGTACCGTGAAAGAGATCAAAATCAACACCGGCGATAAAGTATCCACCGGCTCCCTGATCATGATCTTCGAAGTCGCGGGCGCTGCGCCTGCGGCCGCTCCGGCACAGGCTGCCGCTCCGGCTGCCGCGGCACCGGCTGCTGCTGCCGGCGCGAAAGACGTTAACGTCCCGGACATCGGCGGCGACGAAGTTGAAGTCACCGAAGTGATGGTGAAAGTCGGCGATAAAGTGGCTGCTGAGCAGTCCCTGATCACCGTCGAAGGCGACAAAGCGTCTATGGAAGTGCCGGCGCCGTTCGCGGGCACCGTCAAAGAGATCAAAATCAGCACCGGCGATAAAGTCAAAACCGGCTCCCTGATCATGGTCTTCGAAGTGGAAGGCGCTGCGCCTGCCGCCGCTCCGGCTCAGGCTGCTGCACCGGCACCGGCTGCTGCACCGGCTCAGGCTGCTAAGCCTGCCGCGGCGCCGGCTGCGAAAGCAGAAGGCAAAACCGAATTCGCTGAAAACGATGCTTACGTTCACGCGACTCCGCTGATTCGCCGCCTGGCGCGCGAGTTCGGCGTTAACCTGGCGAAAGTGAAAGGCACCGGCCGTAAAGGTCGTATCCTGCGCGAAGACGTTCAGGCCTACGTGAAAGAAGCCGTTAAACGCGCTGAATCCGCACCGGCGGCTGCCGCTGGCGGCGGTATCCCGGGCATGCTGCCATGGCCGAAGGTTGACTTCAGCAAGTTCGGCGAAATCGAAGAAGTGGAGCTGGGCCGTATCCAGAAAATCTCTGGTGCTAACCTGAGCCGTAACTGGGTCATGATCCCCCACGTTACCCACTTCGATAAAACCGATATCACCGATCTGGAAGCGTTCCGTAAGCAGCAGAACGCCGAAGCTGAGAAGCGTAAACTGGACGTGAAATTCACCCCGGTTGTCTTCATCATGAAAGCTGTGGCCGCTGCGCTTGAGCAGATGCCGCGCTTCAACAGCTCGCTCTCCGAAGATGGTCAGCGCCTGACGCTGAAGAAATACATCAACATCGGTGTGGCGGTTGATACCCCGAACGGTCTGGTGGTTCCGGTCTTTAAAGACGTGAACAAGAAGAGCATCACCGAGCTGTCTCGCGAACTGACCACCATCTCGAAGAAAGCGCGCGATGGCAAACTGACGGCGGGCGAAATGCAGGGCGGTTGCTTCACCATCTCCAGCATCGGCGGCCTGGGTACGACCCACTTCGCGCCGATTGTTAACGCGCCGGAAGTGGCCATCCTCGGCGTGTCTAAGTCCGCGATGGAGCCGGTATGGAATGGTAAAGAGTTCGTGCCGCGTCTGATGCTGCCGATCTCTCTGTCCTTCGACCACCGCGTGATCGACGGTGCTGATGGTGCCCGCTTCATTACCATCATCAACAACACCCTGAGCGACATTCGCCGCCTGGTGATGTAA	MAIEIKVPDIGADEVEITEILVKVGDKVEAEQSLITVEGDKASMEVPSPQAGVVKEIKVSVGDKTETGKLIMIFDSAEGAAAAAPAQEEKKEAAPAAAAPAAAAAAKEVHVPDIGGDEVEVTEIMVKVGDTIAAEQSLITVEGDKASMEVPAPFAGTVKEIKINTGDKVSTGSLIMIFEVAGAAPAAAPAQAAAPAAAAPAAAAGAKDVNVPDIGGDEVEVTEVMVKVGDKVAAEQSLITVEGDKASMEVPAPFAGTVKEIKISTGDKVKTGSLIMVFEVEGAAPAAAPAQAAAPAPAAAPAQAAKPAAAPAAKAEGKTEFAENDAYVHATPLIRRLAREFGVNLAKVKGTGRKGRILREDVQAYVKEAVKRAESAPAAAAGGGIPGMLPWPKVDFSKFGEIEEVELGRIQKISGANLSRNWVMIPHVTHFDKTDITDLEAFRKQQNAEAEKRKLDVKFTPVVFIMKAVAAALEQMPRFNSSLSEDGQRLTLKKYINIGVAVDTPNGLVVPVFKDVNKKSITELSRELTTISKKARDGKLTAGEMQGGCFTISSIGGLGTTHFAPIVNAPEVAILGVSKSAMEPVWNGKEFVPRLMLPISLSFDHRVIDGADGARFITIINNTLSDIRRLVM	PGPT0001390_544	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
BMS020_04686	1425	lpdA_1	COG1249	Dihydrolipoyl dehydrogenase	ATGAGTACTGAAATCAAAACTCAGGTCGTGGTACTTGGGGCAGGTCCTGCAGGCTACTCTGCAGCTTTCCGTTGCGCTGATTTAGGTCTGGAAACCGTCATCGTAGAACGTTACAGCACCCTCGGTGGGGTGTGCCTGAACGTGGGTTGTATCCCTTCTAAAGCGCTGCTGCACGTGGCAAAAGTTATCGAAGAAGCGAAAGCGCTGGCCGAACACGGCATCGTTTTCGGCGAACCGAAAACTGATATTGACAAGATCCGCACCTGGAAAGAAAAAGTCATCACTCAGCTGACCGGTGGTCTGGCTGGCATGGCCAAAGGGCGTAAAGTGAAGGTGGTTAACGGTCTGGGTAAATTCACCGGCGCTAACACCCTGGAAGTGGAAGGCGAAAACGGCAAAACCGTGATCAACTTCGACAACGCCATCATCGCGGCGGGTTCCCGTCCGATTCAACTGCCATTTATCCCGCATGAAGATCCGCGCGTATGGGACTCCACCGACGCCCTGGAGCTGAAATCCGTACCGAAACGCATGCTGGTCATGGGCGGCGGTATCATCGGTCTGGAAATGGGTACCGTATACCATGCGCTGGGTTCAGAGATTGACGTGGTTGAAATGTTCGACCAGGTTATCCCGGCGGCCGATAAAGACGTGGTGAAAGTCTTCACTAAACGCATCAGCAAGAAATTCAACCTGATGCTGGAAACCAAAGTGACTGCCGTTGAAGCGAAAGAAGACGGTATTTACGTTTCCATGGAAGGCAAAAAAGCGCCAGCGGAAGCACAGCGTTACGACGCCGTACTGGTGGCTATCGGCCGCGTACCGAACGGTAAAAACCTCGACGCAGGCAAAGCGGGCGTGGAAGTGGACGATCGTGGCTTCATCCGCGTTGACAAACAAATGCGCACCAACGTGCCGCACATCTTTGCTATCGGCGATATCGTCGGTCAGCCGATGCTGGCGCACAAAGGCGTACATGAAGGTCACGTTGCCGCAGAAGTTATCTCCGGCCTGAAACACTACTTCGATCCGAAAGTGATCCCGTCCATCGCCTACACCGAGCCAGAAGTGGCATGGGTCGGCCTGACTGAGAAAGAAGCGAAAGAGAAAGGCATCAGCTACGAAACCGCCACCTTCCCGTGGGCGGCTTCCGGCCGCGCTATCGCTTCCGACTGCGCAGACGGTATGACCAAACTGATCTTCGACAAAGAGACCCACCGTGTTATCGGCGGCGCGATTGTCGGCACCAACGGCGGCGAGCTGCTGGGTGAGATCGGCCTGGCTATCGAAATGGGCTGCGACGCTGAAGACATCGCGCTGACTATCCACGCTCACCCGACTCTGCACGAGTCTGTTGGCCTGGCGGCAGAAGTCTTCGAAGGCAGCATCACCGACCTGCCGAACGCCAAAGCGAAGAAAAAGTAA	MSTEIKTQVVVLGAGPAGYSAAFRCADLGLETVIVERYSTLGGVCLNVGCIPSKALLHVAKVIEEAKALAEHGIVFGEPKTDIDKIRTWKEKVITQLTGGLAGMAKGRKVKVVNGLGKFTGANTLEVEGENGKTVINFDNAIIAAGSRPIQLPFIPHEDPRVWDSTDALELKSVPKRMLVMGGGIIGLEMGTVYHALGSEIDVVEMFDQVIPAADKDVVKVFTKRISKKFNLMLETKVTAVEAKEDGIYVSMEGKKAPAEAQRYDAVLVAIGRVPNGKNLDAGKAGVEVDDRGFIRVDKQMRTNVPHIFAIGDIVGQPMLAHKGVHEGHVAAEVISGLKHYFDPKVIPSIAYTEPEVAWVGLTEKEAKEKGISYETATFPWAASGRAIASDCADGMTKLIFDKETHRVIGGAIVGTNGGELLGEIGLAIEMGCDAEDIALTIHAHPTLHESVGLAAEVFEGSITDLPNAKAKKK	PGPT0001380_3353	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
BMS020_04687	285			hypothetical protein	ATGAAACGCTTTTTAACCAGTGCGCTGGTCGCAGCAACGTGCTTATCCGGTGTAGCCTGCGCGGCTGACGCCACGATTCCGTGGGCGGATAACAGCGGCGGCACGGAAACGACCCATATCGCGGCGATGGGCCAGGATCTGAATGCCCAGCATCAGCAGGTGACGAAGACCAGTGAAGGGGTATGGGCAGCGAATTCCGGCAGCATCAGCGCTGACGAAGCGGCATTGTCCAGTACGAAACCAGCCTTTGCCGGCGATCCGTCACTGATGCCCCACCAGGGCTAA	MKRFLTSALVAATCLSGVACAADATIPWADNSGGTETTHIAAMGQDLNAQHQQVTKTSEGVWAANSGSISADEAALSSTKPAFAGDPSLMPHQG				NA	NA	NA	NA	NA
BMS020_04688	807			hypothetical protein	ATGAGAAACCCATTACCTATTGCCCTGTTCACGTTAATGCTGTCACCGCTTGCCGCCTTCGCCCAGCAGCAATATGCCACCCCCGAGCAGGCCGCAAGCGCGCTGGCCGAGGCGATCGGCCAGCAAAATGACGCGGCGCTGAGCGAGGTGCTTGGCGATAACTGGCAGCATTTTTTACCCCCCGACGGGATCGACCCCACTGCCGTCGACCGCTTCCAGCGCGACTGGCAGGTGAAACATGTGATTGTGCAGCAGGGTGATAACGCCTGGCTTGACGTTGGTAGCGAAGCATGGCGTCTGCCCGTCCCCATCGTCAAATCATCCCAGGGCTGGCGCTTTGATATGGCCGCTGGCGAAGAGGAGATCCTCACCCGCGCTATTGGCCGTAATGAACTGTCGGCGATAGCCGCCATGCACGCCTACGTTGACGCCCAGCAGGATTACTATCAACTGAACCACCGCTGGGCGCAGAAAATCATCAGTAGCGAAGGCAAAAAAGATGGTCTGTACTGGCCCACCTCACCGGGCGAAGCGCCAAGCCCGCTTGGGCCCGCCTTTAGCCCGACGGTACCCGGCAGCGGCTACCATGGCTACCGCTTCCGCATTATCACCGGTAGAGATGAGCAGAGCGTCGCCTTGCTGGCGTGGCCGGTGGCGTGGGGGGAAACCGGCGTGATGAGCTTTATGATCGATCAGCACGATACGGTTTATCAGGCCAATCTCGGTGAAGAGAGTGCGGCAAAGGCCCAGGCGATAACGCGCTTTGCCCCCGACGCTGACGCCGGCTGGCAGGTGGTCAATCCATAA	MRNPLPIALFTLMLSPLAAFAQQQYATPEQAASALAEAIGQQNDAALSEVLGDNWQHFLPPDGIDPTAVDRFQRDWQVKHVIVQQGDNAWLDVGSEAWRLPVPIVKSSQGWRFDMAAGEEEILTRAIGRNELSAIAAMHAYVDAQQDYYQLNHRWAQKIISSEGKKDGLYWPTSPGEAPSPLGPAFSPTVPGSGYHGYRFRIITGRDEQSVALLAWPVAWGETGVMSFMIDQHDTVYQANLGEESAAKAQAITRFAPDADAGWQVVNP				NA	NA	NA	NA	NA
BMS020_04689	1635			hypothetical protein	ATGTCACTGCCGTTCAAACCCCATATTATCACCCTGCTCTGTAGCGCTGGCTTACTCGCGGCGGCGGGAACACTCTATGTGCAAAGCCGTACTCCAGAGACGGTCACTCAGCCGACGGCGCAGCCTGCGCCAGCGCCAACGCCAGCCGCACCCGCCGCCGCGCAGCCGGTGGCCGCCACCTACACCCAGGCGCAGATTGACCAGTGGGTTGCCCCCATCGCGCTCTACCCGGACAGTCTGCTGTCGCAGGTGCTGATGGCTTCCACCTACCCGGACAACGTCATGCAGGCGGTGCAGTGGTCCCAGGATAACCCCACCATGAAAGGGGATCCCGCCGTTCAGGCAGTTGCCAGCCAGCCGTGGGATCCCAGCGTCAAATCGCTTGTCGCTTTCCCTGCCCTGCTGGCGATGATGGGCGAGAATCCGCCCTGGGTGGAAAATCTGGGTAATGCGTTTTTGGCCCAGCCGCATGATGTGATGGACGCGGTGCAGCGCCTGCGTGCCATCGCCCAGGAGACAGGGACGCTGAAATCCACGCCGCAGCAAAAAGTGATTGTCGCCGCAGCGGCGCCTGTGCCGGCCACCACTTCGAAAAGCAGCACCGTATCAACGTCAAGCACTACCGCGGCGGCGCCTGCGCCGACCCAGGTCATAAAAATAGAACCGACCGACCCGCAGGTGGTCTATGTTCCCAACTACAACCCCTCCACCGTCTATGGTACCTGGCCGAACAGCGCCTATCCTCCGGTCTATCTGCCGCCCCCTCCCGGGGAGCAGTTTACCGATAGCTTCGTCAAAGGCTTCGGTTACAGCCTGGGCGTGGCGACCACCTGGGCGCTGTTCAGCAGCATCGACTGGGATGATGATGATGACTACCACCATCACGATGACGACTACCACCGCGGGGATTACTCGCATAATGGCGATAACATCAATATCAATGTGAATAATTTTAACCGCATTACCGGACAAAACCTGCCGGGCGACCACGTAAACTGGCAGCACAATACCGCCTATCGCGGTCATGTGCCATACCCCGATAATACCGTCGCCCAGCGCTTTCATCAGACCAACGTATCCGGCGGACTGAGCGCGACCCAGCATGCGCCGGTCGATCGTGAGGCGCAGCGCCAGGCGGCAATGACCCAGCTTCAGCAGCGCAGCGCGTCGACCGCCACGGCAGGCAACCTGGCGGCAAACACCCCCTCGCGCGATGCCCAGCGTCAGGCGGCCTCGGCGCAGTTGAAACAAGCCACCCAGCGCAGCAACTACCGCGGTTACGACAGCGCGCCGACATCAACCCAGCAGCGTCGAGACGCGGCGAAAGCGCAGTTGAAAAACCCGACGCCGCAGCAACAGCAGCGTAGGGAAACCATTAAGAACCACGAGCAGAATGCTACACCGCAGCAGCAACAGCGCCGGCAGCAGCTCCATTCCGCCACGCCCGCCCAGCGCCAGCAGACGGTCAATCATCTGCGCGCCAGCGCCCTTAGCGGCAACGAAAGCCGCGCCCCCTCCTGGCAAGCGCAGCAGGAACGGGGACGACAGAGTCGTCAGTTTTCCAGCGTAAACCGCGAGCAGCGCGACGGCGCCAGAGAGCGTCTTTCTGAACACCATGAACTACGCCGCCGCTGA	MSLPFKPHIITLLCSAGLLAAAGTLYVQSRTPETVTQPTAQPAPAPTPAAPAAAQPVAATYTQAQIDQWVAPIALYPDSLLSQVLMASTYPDNVMQAVQWSQDNPTMKGDPAVQAVASQPWDPSVKSLVAFPALLAMMGENPPWVENLGNAFLAQPHDVMDAVQRLRAIAQETGTLKSTPQQKVIVAAAAPVPATTSKSSTVSTSSTTAAAPAPTQVIKIEPTDPQVVYVPNYNPSTVYGTWPNSAYPPVYLPPPPGEQFTDSFVKGFGYSLGVATTWALFSSIDWDDDDDYHHHDDDYHRGDYSHNGDNININVNNFNRITGQNLPGDHVNWQHNTAYRGHVPYPDNTVAQRFHQTNVSGGLSATQHAPVDREAQRQAAMTQLQQRSASTATAGNLAANTPSRDAQRQAASAQLKQATQRSNYRGYDSAPTSTQQRRDAAKAQLKNPTPQQQQRRETIKNHEQNATPQQQQRRQQLHSATPAQRQQTVNHLRASALSGNESRAPSWQAQQERGRQSRQFSSVNREQRDGARERLSEHHELRRR				NA	NA	NA	NA	NA
BMS020_04690	2598	acnB_1	COG1049	Aconitate hydratase B	GTGCTAGAAGAATACCGTAAGCACGTAGCTGAGCGTGCCGCCATGGGGATTGTTGCCAAACCCTTAGATGCAACCCAAATGGCCGCGCTGGTAGAACTGCTGAAAAACCCGCCTGCGGGCGAAGAAGAATTCCTGTTAGACCTGCTGATTAACCGTGTACCGCCGGGCGTCGACGAAGCCGCCTATGTTAAAGCTGGATTCCTTGCCGCGATCGCCAAAGGCGAAACGACCTCCCCCCTGGTTACCCCTGAAAAAGCCGTTGAACTGCTGGGCACCATGCAGGGCGGTTACAATATCCACCCGCTGATCGATGCCCTGGACGACGCGAAACTGGCGCCGATTGCCGCGAAAGCGCTGTCCCATACTCTGCTGATGTTCGATAACTTCTACGACGTGGAAGAGAAAGCGAAAGCGGGTAACGAGCACGCTAAACAGGTTATGCAATCCTGGGCCGACGCTGAGTGGTTCCTGAACCGCCCGCAGCTGGCAGAGAAAATCACCGTTACCGTTTTCAAGGTCACTGGCGAAACGAACACCGATGACCTGTCTCCGGCGCCGGATGCCTGGTCGCGCCCGGATATCCCGCTGCACGCCCTGGCGATGCTGAAAAACGCCCGCGAAGGCATTGAACCGGATCAGCCGGGCGTGGTTGGCCCGATCAAACAGATCGAAGCCCTGCAGCAGAAAGGCTACCCGCTGGCCTACGTCGGCGATGTGGTCGGGACCGGCTCTTCACGTAAATCGGCCACCAACTCGGTGCTGTGGTTTATGGGCGACGATATCCCGAACGTGCCGAACAAGCGCGGCGGCGGCCTGTGCCTGGGCGGCAAAATCGCGCCAATCTTCTTCAACACCATGGAAGATGCGGGCGCGCTGCCTATCGAAGTGGATGTGTCAAACCTGAACATGGGCGACGTCATCGACGTTTACCCGTTCAAAGGCGAAGTGCGTAATCACGAGACCAACGAACTGCTGGCCAGCTTCGAGCTGAAAACCGATGTGCTGATCGACGAAGTCCGTGCCGGCGGCCGTATCCCGCTGATCATCGGTCGCGGCCTGACCACCAAAGCCCGTGAAGCGCTGGGTCTGCCGCACAGCGATGTCTTCCGTCAGGCGAAAGACGTGGCGGAAAGCACCCGCGGCTTCTCTCTGGCGCAGAAAATGGTTGGCCGCGCCTGCGGCGTTGCCGGTATCCGCCCGGGCGCCTACTGCGAGCCGAAAATGACCTCCGTGGGTTCTCAGGACACCACCGGTCCAATGACCCGTGATGAACTGAAAGACCTGGCGTGCCTGGGCTTCTCCGCTGACCTGGTGATGCAGTCCTTCTGCCACACTGCGGCCTATCCGAAGCCGGTTGACGTCACCACGCATCATACTCTGCCGGACTTCATTATGAACCGCGGCGGCGTCTCGCTGCGTCCGGGCGATGGCGTGATCCACTCCTGGCTGAACCGCATGCTGCTGCCGGATACCGTGGGCACCGGCGGCGACTCCCACACCCGTTTCCCCATCGGTATCTCCTTCCCGGCGGGCTCTGGTCTGGTGGCCTTCGCCGCCGCGACCGGCGTGATGCCGCTGGATATGCCGGAATCGGTGCTGGTGCGTTTCAAAGGTAAAATGCAGCCGGGCATTACGCTGCGCGACCTGGTCCACGCGATCCCGCTGTACGCCATCAAGCAGGGCCTGCTGACCGTTGAGAAGAAAGGTAAGAAAAACATCTTCTCTGGCCGCATCCTTGAGATTGAAGGTCTGCCGGATCTGAAAGTGGAGCAGGCGTTCGAGCTGACCGATGCCTCCGCTGAACGTTCTGCTGCAGGTTGCACCATCAAGCTGAACAAAGAGCCGATCGTTGAGTATCTGAACTCCAACATCGTCCTGCTGAAGTGGATGATCGCCGAAGGCTACGGCGACCGCCGTACCCTGGAGCGTCGTATCCAGGGCATGGAGAAATGGCTGGCGGATCCGCAGCTGCTGGAAGCCGATGCTGACGCGGAATACGCGGCAGTGATCGACATCGATCTGGCGGATATCAAAGAGCCGATTCTGTGCGCGCCGAACGATCCGGACGATGCCCGCCTGCTGTCTGACGTACAGGGCGAGAAAATCGACGAAGTGTTCATCGGCTCCTGCATGACCAACATCGGCCACTTCCGTGCCGCCGGTAAGCTGCTGGACAGCCACAAAGGCCAGTTGCCGACTCGCCTGTGGGTGGCGCCGCCAACCCGTATGGACGCCGCGCAGCTGACCGAAGAAGGTTACTACAGCGTATTTGGTAAGAGCGGAGCGCGTATCGAAATCCCTGGCTGTTCCCTGTGTATGGGTAACCAGGCGCGCGTCGCCGACGGTGCGACGGTGGTTTCCACCTCTACCCGTAACTTCCCGAACCGTTTAGGTACCGGCGCTAACGTCTATCTGGCCTCTGCCGAGCTGGCAGCGGTGGCTTCTCTGCTCGGTAAACTGCCGACGCCGGAAGAGTACCAGACCTTCGTGGCGCAGGTGGATAAGACAGCGGAAGATACCTATCGCTATCTGAACTTCAACCAGCTGGATCAGTACACTGAAAAAGCTGACGGCGTGATCTTCCAGACCGCGGTGTAA	MLEEYRKHVAERAAMGIVAKPLDATQMAALVELLKNPPAGEEEFLLDLLINRVPPGVDEAAYVKAGFLAAIAKGETTSPLVTPEKAVELLGTMQGGYNIHPLIDALDDAKLAPIAAKALSHTLLMFDNFYDVEEKAKAGNEHAKQVMQSWADAEWFLNRPQLAEKITVTVFKVTGETNTDDLSPAPDAWSRPDIPLHALAMLKNAREGIEPDQPGVVGPIKQIEALQQKGYPLAYVGDVVGTGSSRKSATNSVLWFMGDDIPNVPNKRGGGLCLGGKIAPIFFNTMEDAGALPIEVDVSNLNMGDVIDVYPFKGEVRNHETNELLASFELKTDVLIDEVRAGGRIPLIIGRGLTTKAREALGLPHSDVFRQAKDVAESTRGFSLAQKMVGRACGVAGIRPGAYCEPKMTSVGSQDTTGPMTRDELKDLACLGFSADLVMQSFCHTAAYPKPVDVTTHHTLPDFIMNRGGVSLRPGDGVIHSWLNRMLLPDTVGTGGDSHTRFPIGISFPAGSGLVAFAAATGVMPLDMPESVLVRFKGKMQPGITLRDLVHAIPLYAIKQGLLTVEKKGKKNIFSGRILEIEGLPDLKVEQAFELTDASAERSAAGCTIKLNKEPIVEYLNSNIVLLKWMIAEGYGDRRTLERRIQGMEKWLADPQLLEADADAEYAAVIDIDLADIKEPILCAPNDPDDARLLSDVQGEKIDEVFIGSCMTNIGHFRAAGKLLDSHKGQLPTRLWVAPPTRMDAAQLTEEGYYSVFGKSGARIEIPGCSLCMGNQARVADGATVVSTSTRNFPNRLGTGANVYLASAELAAVASLLGKLPTPEEYQTFVAQVDKTAEDTYRYLNFNQLDQYTEKADGVIFQTAV	PGPT0001470_727	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001470-acnB-K01682	NA	NA
BMS020_04691	363			hypothetical protein	ATGGACTACGAATTTCTGCGCGATATTACCGGAGTGGTAAAGGTGCGAATGTCGATGGATCACGAGGCGATTGGCCACTGGTTCAACGAGGAGGTGAAAGACAATCTTGCTCTGCTTGACGAAGTGGAGCAGGCTGCGCGCACCGTGAAAGGCAGTGAACGTTCCTGGCAGCGTGCCGGACATGAATATACGCTGTGGCTGGATGGCGAAGAGGTGATGATCCGCGCCAATCAGCTGGAATTTTCCGGCGACGAAATTGAGGAGGGGATGAGCTACTACGACGAAGAAAGCCTCTCTCTGTGTGGTGTTGAGGATTTCCTGCAGGTGGTTGCCGCCTATCGTGAGTTTATGCAGCAGCGTTGA	MDYEFLRDITGVVKVRMSMDHEAIGHWFNEEVKDNLALLDEVEQAARTVKGSERSWQRAGHEYTLWLDGEEVMIRANQLEFSGDEIEEGMSYYDEESLSLCGVEDFLQVVAAYREFMQQR				NA	NA	NA	NA	NA
BMS020_04692	795	speD_1	COG1586	S-adenosylmethionine decarboxylase proenzyme	TTGAAAAAATTGAAGCTGCACGGCTTTAACAACCTGACCAAAAGCCTGAGTTTTTGTATCTACGATATCTGTTACGCCAAAACGGCAGAAGAGCGCGACGGCTACATCGCCTATATCGACGAACTTTATAATGCCAATCGCCTGACAGAGATCCTGAGCGAAACCTGCTCTATTATTGGCGCTAATATCCTGAATATCGCCCGCCAGGATTATGAACCCCAGGGCGCCAGCGTGACCATTCTGGTAAGCGAAGAGCCCGTCGACCCGCGGCTTATCGACCAGACCGAACACCCCGGCCCGCTGCCTGAAACCGTGGTCGCCCATCTCGATAAAAGCCATATCTGCGTGCATACCTATCCGGAGAGCCACCCGGAAGGCGGCCTGTGCACCTTCCGCGCCGATATCGAAGTCTCTACCTGCGGGGTTATTTCACCGCTCAAAGCGCTGAACTATCTGATCCACCAGCTGGAATCGGACATTGTGACCATTGACTACCGCGTGCGCGGCTTTACCCGCGACATCAATGGGATGAAGCATTTTATCGATCATGAAATCAACTCAATTCAGAACTTTATGTCTGACGATATGAAGTCGCTGTATGACATGGTCGACGTCAACGTTTATCAGGAAAATATCTTCCATACCAAAATGTTGCTTAAGGAGTTCGACCTTAAGCATTATATGTTCCATACCCGACCGGAAGAGTTGACCGCTGAAGAGCGCAAGGTCATTACCGACCTGCTGTGGAAAGAGATGCGCGAGATTTACTACGGCCGCAATATTCCTGCCGTGTAA	MKKLKLHGFNNLTKSLSFCIYDICYAKTAEERDGYIAYIDELYNANRLTEILSETCSIIGANILNIARQDYEPQGASVTILVSEEPVDPRLIDQTEHPGPLPETVVAHLDKSHICVHTYPESHPEGGLCTFRADIEVSTCGVISPLKALNYLIHQLESDIVTIDYRVRGFTRDINGMKHFIDHEINSIQNFMSDDMKSLYDMVDVNVYQENIFHTKMLLKEFDLKHYMFHTRPEELTAEERKVITDLLWKEMREIYYGRNIPAV	PGPT0007760_1221	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
BMS020_04693	861	speE_1	COG0421	Polyamine aminopropyltransferase	GTGGCCGATAATCCACTGTGGCATGAAACGCTGCATGACCATTTTGGTCAGTACTTTAGCGTTGATAACGTGCTGTACCACGAAAAAACCGATCATCAGGATCTGATCATCTTTGACAACCGCGCCTTTGGCCGGGTGATGGCGCTGGATGGCGTCGTGCAAACCACCGAACGCGATGAGTTTATCTATCACGAAATGATGACCCACGTGCCGCTGCTGGCTCACGGCAACGCCAAGCATGTCCTGATCATCGGCGGCGGCGATGGCGCGATGCTGCGCGAAGTCTCTCGTCATCGCAGCATCGAAAGCATCACCATGGTGGAAATCGACGCCGGGGTGGTCTCATTCTGCCGCCAGTACCTGCCCAACCATAGCGCCGGCGCCTATGACGATCCGCGCTTTACGCTGGTAATTGATGATGGCGTCAATTTTGTTAACCAGACGACGCAAACGTTTGATGTGATCATTTCGGACTGTACCGACCCTATTGGCCCGGGGGAAAGCCTCTTCACCTCGGCTTTTTATGAAGGCTGCAAACGCTGCCTGAATCCGGGAGGGATTTTCGTTGCGCAGAACGGCGTCTGCTTCCTGCAGCAGGATGAAGCGGTCGGTAGCCATCGCAAACTGAGCCACTATTTTCGCGACGTCAGCTTCTACCAGGCGGCGATTCCGACCTATTACGGCGGGATAATGACCTTTGCCTGGGCGAGCGACAACGAGGCGCTGCGCCATCTTTCCAGCGAAATCATTCAGGCGCGCTTTCACAAAGCCAACCTGACCTGCCGCTACTACAATCCGGCAATCCATACGGCGGCCTTCGCCTTACCACAATATCTGCATGATGCTCTGTCCGCACCGTGA	MADNPLWHETLHDHFGQYFSVDNVLYHEKTDHQDLIIFDNRAFGRVMALDGVVQTTERDEFIYHEMMTHVPLLAHGNAKHVLIIGGGDGAMLREVSRHRSIESITMVEIDAGVVSFCRQYLPNHSAGAYDDPRFTLVIDDGVNFVNQTTQTFDVIISDCTDPIGPGESLFTSAFYEGCKRCLNPGGIFVAQNGVCFLQQDEAVGSHRKLSHYFRDVSFYQAAIPTYYGGIMTFAWASDNEALRHLSSEIIQARFHKANLTCRYYNPAIHTAAFALPQYLHDALSAP	PGPT0007750_2572	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
BMS020_04694	1848	smc_1		Chromosome partition protein Smc	ATGAACAGAGCCGCCACGCTGACCCTCAACGCGCCCCTGCTGATGCTCGTCGCGGCGCTGGCGCTTTCAACACCTTTCTTCGCCGGCGCCGCGCCGGCGTTTCTTGACTACGCCCAGCAGCAAACCCAGGCGCATGAAAAAAGCGATGCTGCAACCGCAAAGCAAACGTCAGGCGATCGTCAACCTGCGGATAATAAAAAAAAGACGCCCAATACCGCACAATTGCAAAAAAGAATCGTCAGCCAGCAGGCGACGATTGAGCAAAAAAATAAAACTATTCAGCAATTAAAAAAACAGCTTGCTAACACTCCGGCCACAGAAACCTCCATCGCGAATGAGCATGCGGCCTTAAATAACAAAATAAAAGAATTACAGATCGCCTTAACCGCCGCCACCGCGAAAAATGAGGCGTTAATTAAAAAAGAAGGCGCAGTCCAGAATACGACTCTGCAGCAAAGTCAGGCCGCCGCGCTGAAGCAGATTCAACAATTAACATCACAGCTTCAGCAAGCCGCAGCTGAAAATAAACGGCTCAGCGCCAGCCTCACCGCTCTGAATACAGATAAGCAGACGCTGGCTAACCGGCTCGCCGCGGCAGAGAAGGCGCAGCAGACCACCCTCGACCAGGTCAAAACCCTTAACGCCGACAAACAGCCGTTGGTCAACCGGCTGGCGGCGACGGAAAAAGAGAAGCAGACCGCCCTCGACCAGGTCAAAACCCTTAACGCCGATAAGCAGTCTCTGGCTAACCGGCTGGCGGCGGCGGAAAAAGAGAAGCAGGCTGCTCTCGACCAGGTCAAAACCCTTAACGCTGATAAACAGCCGCTGGTCAACCGGCTGGCAGCGGCGGAAAAAGAGAAACAGGCCGCCCTCAACCAGATCAAAGCCCTTAACGCCGACAAACAGCCGTTGGTCAACCGGCTGGCGGCGGCGGAAAAAGAGAAGCAGACCGCCCTCGACCAGATCAAAGCCCTTAACGCCGATAAGCAGTCGCTGGCTAACCGGCTCGCCGCGGCGGAGAAAGCGCCATCGAGCCGCGCCGATGCCGCCGTGGCGGCAAAAGATGAGCCCCCCGAGATGGCGGCCATAGTGGCGGCCTATCGCCTGCAGGCGGACAAAGATAACGCCCAGCTGCGGATGAAAGAGGATGAAATCCAGCTGCTGCGGACGCAGCTGACGGTCCCGCCGAGAAATACCACCGGCAAAACCGCCGCCAAACTCAGCGCGCCAGGTGAACAGCAGGCTTACGCCATCGGCGCCTCGATGGGTACAGAGGCGCTTAATGTCCTCACGACTCGTCGCACTCAGGGAGTTAACGTCGACGCTGGCCTGGTGCTGCAGGGCATCGAAGATGCTTTCAGCGGCCAGCTTCGCCTCGGCGAACAGGAGCGTAACAAAGCGCTGTTTGACATTTCACAGCAGGTTTTCCAGAACCTGAATAAAATCGAGCAGAAAAACATCAGCGCCGGTCAGAAATACCAGCAGGCGTTTGCGCGCAAAAAAGGTGTGGTCTTCAAAGAGGGCGTCTACAGCCGTATCGATTACCCGGGTAAAGGAAAAATTAGCGGCAACGATCTGGTGACCGTGGTGATCAAAGAGATGCTGACGGACGGAACGGTGATCAATGATATGGAGACGAAAGATCAGGCGCTTACCCAGAAACTGGATGCCTATCCCCCGGTATTTCGCGGGCCGCTGAAGCGCCTGCAGAACCACGGCTCCGTGACGCTGGTCGTCCCGCCCGACAAAGCCTATGGCAGTAAAGGGTTGCCACCGAAGATCCCCCCAGGCGCCACCATGGTCTATTCCGTGCGGATAGTGGATAGCCAACCCGCGCCGGTAAAATAG	MNRAATLTLNAPLLMLVAALALSTPFFAGAAPAFLDYAQQQTQAHEKSDAATAKQTSGDRQPADNKKKTPNTAQLQKRIVSQQATIEQKNKTIQQLKKQLANTPATETSIANEHAALNNKIKELQIALTAATAKNEALIKKEGAVQNTTLQQSQAAALKQIQQLTSQLQQAAAENKRLSASLTALNTDKQTLANRLAAAEKAQQTTLDQVKTLNADKQPLVNRLAATEKEKQTALDQVKTLNADKQSLANRLAAAEKEKQAALDQVKTLNADKQPLVNRLAAAEKEKQAALNQIKALNADKQPLVNRLAAAEKEKQTALDQIKALNADKQSLANRLAAAEKAPSSRADAAVAAKDEPPEMAAIVAAYRLQADKDNAQLRMKEDEIQLLRTQLTVPPRNTTGKTAAKLSAPGEQQAYAIGASMGTEALNVLTTRRTQGVNVDAGLVLQGIEDAFSGQLRLGEQERNKALFDISQQVFQNLNKIEQKNISAGQKYQQAFARKKGVVFKEGVYSRIDYPGKGKISGNDLVTVVIKEMLTDGTVINDMETKDQALTQKLDAYPPVFRGPLKRLQNHGSVTLVVPPDKAYGSKGLPPKIPPGATMVYSVRIVDSQPAPVK				NA	NA	NA	NA	NA
BMS020_04695	369			hypothetical protein	ATGTTATTAGCCGGCTGTAGCAATACCGCCCCTCGCCAGCAGGTAAAACCGCTCACCACCCCGCTAACGTCGCAGCAGCAAGCAGAGCAGGAGCGAGCGGCCAGCGAACAAGCGCGCATTGAATCCTGCCGACAGGCGCTGGACTCGCTAAAAGAGGTTAACCCACAGCAGGCAACCAAACTCAGCAATGACTTCAATGCCTTAGTGCGTGCGGCGTCACAATATAACAGCGTGCGCGAGAAAGTGGCGGATCCCACCCGGCTTGGCATTGACTCCATGTATCAGTTTAAATCCATCAAATTGTGCGCCGATATTCAGAAAACGCTAATCGATAGCCTGGTACAGCGGGGTGAAAGCAAGCAGCCATGA	MLLAGCSNTAPRQQVKPLTTPLTSQQQAEQERAASEQARIESCRQALDSLKEVNPQQATKLSNDFNALVRAASQYNSVREKVADPTRLGIDSMYQFKSIKLCADIQKTLIDSLVQRGESKQP				NA	NA	NA	NA	NA
BMS020_04696	327			hypothetical protein	ATGGTACTCGGCAGCCTGCTTACTCTCTCCGCCAACAGCTACGCGCTCAGCGAATCAGAAGCGGAAGACATGGCTGATTTAACCGCGGTTTTTGTGTTTCTGAAAAACGACTGTGGCTACCAGAACCTGCCCAACACGCAGATCCGTCGTGCCCTGGTGTTCTTTGCCCAGCAGAACCAATGGGACCTGAGCAACTACGACAGCTACAACATGAAAGCGCTTGGCGAAGACAGCTATCGCGATCTCAGCGGCATTAACCTTCCGACGGCGAAAAAATGTAAAGCGCTGGCCCGCGATTCACTTAGCCTGCTGGCTTACGTCAAATAA	MVLGSLLTLSANSYALSESEAEDMADLTAVFVFLKNDCGYQNLPNTQIRRALVFFAQQNQWDLSNYDSYNMKALGEDSYRDLSGINLPTAKKCKALARDSLSLLAYVK				NA	NA	NA	NA	NA
BMS020_04697	1602	cueO	COG2132	Blue copper oxidase CueO	ATGCAACGTCGAGACTTCCTCAAACTGACCGCCGCGGTCAGCATGGCCAGCGCGTTACCGCTTTGGAGCCGTGCGGTCTTTGCGGCCAGTCGCCCGGCCCTGCCGGTACCGCCGCTGTTGACGGCTGATGCGCGCAACCGTATCGCGCTGACCATCCAGGCGGGCAAAACGCAGTTTGGCGCTTTGAACGCCACCACCTGGGGGTATAACGGCTCGCTACTGGGTCCCGCGCTGCAGCTGACGCAGGGGAAGGCTATCACGGTGGACATTACCAACCAGCTGGCAGAGGAGACGACGCTGCACTGGCATGGTCTGGAGGTACCCGGCGAGGTCGACGGAGGACCGCAGGGGGTCATCGCCCCGGGCGCCACTCGGACGGTGAGCTTCACGCCAACGCAGCGGGCGGCCACCTGCTGGTTTCACCCGCATCAGCACGGGACCACCGGTCGGCAGGTGGCGATGGGGCTGGCGGGGCTGGTGCTGATCGAGGATGAAGAGAGCGGACGCCTGCTGTTGCCGAAGCAGTGGGGAATCGATGATGTACCGGTGATTGTGCAGGACAAGAAGTTTACCGCCGCTGGCGAAATTGATTATCAGCTGGATGTGATGAGCGCTGCCGTCGGCTGGTTTGGCGATACGCTGCTGACCAATGGCGCTCTCTATCCTGAACATGCCGCCCCGCGCGGCTGGCTACGTCTGCGCTTGCTGAACGGCTGTAATGCCCGTTCCCTCAATTTTGCGACCAGCGATAAGCGCCCGCTGTACGTGGTGGCCAGCGACGGCGGTCTGCTGGCAGAGCCGGTGAAGGTCAATGAGTTGCCGGTCTTGATGGGGGAGCGTTTTGAGGTGCTGGTGGAAACCAGCGACGGCAAACCTTTTGATCTGGTGACCCTGCCGGTGGGTCAGATGGGCATGGCCATTGCGCCTTTTGATAAACCACAGCCGGTACTGCGCGTCCAGCCGCTGGTCATTCCTGCCTCCGGTAAGCTGCTGGATACCCTGGCCGCTATGCCGGCGCTACCTTCTCTGACGGGGCTGACGCAGCGTCAGCTCCAGCTGTCGATGGATCCGATGCTCGACAGGATGGGCATGCAGGCGCTGATGGAGAAATATGGCGATCAGGCGATGGCAGGGATGGATCACGGCATGATGGGGCACGGCGGGATGGGCGACATGGGGAATATGCACCACGGCGACATGAGCAACATGAACCACGGGTCCGGCATGGATCATGGCATGTCGTCGGGTAAGGGATTTGATTTCCATAACGCCAACCGCATCAACGGCAAAGCCTTCGACATGAATGTGCCGATGTTTGCCGCCGCCAGAGGCCAGTATGAGCGCTGGGTGATTTCGGGTAAGGGCGACATGATGCTGCATCCGTTCCATATCCACGGCACCCAGTTCCGCATCCTGAGCGAAAACGGCAAGCCGCCAGCGGCGCATCGTCGCGGCTGGAAAGATACCGTGCGTGTGGAAGGGGACGTGAGTGAAGTATTAGTGAAGTTTGATCATCCGGCGCCGAAGGAGTTTGCCTATATGGCCCACTGCCACCTGCTGGAACATGAAGACACCGGGATGATGTTGGGGTTCACGGTTTAG	MQRRDFLKLTAAVSMASALPLWSRAVFAASRPALPVPPLLTADARNRIALTIQAGKTQFGALNATTWGYNGSLLGPALQLTQGKAITVDITNQLAEETTLHWHGLEVPGEVDGGPQGVIAPGATRTVSFTPTQRAATCWFHPHQHGTTGRQVAMGLAGLVLIEDEESGRLLLPKQWGIDDVPVIVQDKKFTAAGEIDYQLDVMSAAVGWFGDTLLTNGALYPEHAAPRGWLRLRLLNGCNARSLNFATSDKRPLYVVASDGGLLAEPVKVNELPVLMGERFEVLVETSDGKPFDLVTLPVGQMGMAIAPFDKPQPVLRVQPLVIPASGKLLDTLAAMPALPSLTGLTQRQLQLSMDPMLDRMGMQALMEKYGDQAMAGMDHGMMGHGGMGDMGNMHHGDMSNMNHGSGMDHGMSSGKGFDFHNANRINGKAFDMNVPMFAAARGQYERWVISGKGDMMLHPFHIHGTQFRILSENGKPPAAHRRGWKDTVRVEGDVSEVLVKFDHPAPKEFAYMAHCHLLEHEDTGMMLGFTV	PGPT0004130_225	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_LIGNIN_DEGRADATION|LIGNINASES	PLANT_LIGNIN_DEGRADATION-LACCASES_ACTIVITY,PGPT0004130-cueO-K14588	NA	NA
BMS020_04698	2391	gcd	COG4993	Quinoprotein glucose dehydrogenase	ATGGCTGAAACAAAGTCTCAACAATCAAGGCTCCTGGTGACGCTGACTGCGCTATTTGCAGCGTTCTGCGGCCTCTATCTTTTAATCGGCGGAGCATGGCTGGTCGTGCTTGGCGGCTCCTGGTACTACCCCGTCGCCGGTCTGGTGATGCTGGGCGTGACCGTGATGCTGTTCCGCGGCAAGCGCGCTGCGCTGTGGCTGTACGCCGCGCTGCTGCTGGCGACCATGATCTGGGGCGTCTGGGAAGTCGGCTTCGACTTCTGGGCGCTGACGCCGCGTAGCGATATCCTCGTCTTCTTTGGTATCTGGCTGATCCTGCCCTTTGTCTGGCGTCGTCTGCCGGTGCCTTCCGCTGGCGCCGTAGGCGCGCTGGTCGTCGCCTTGCTGATCAGCGGCGGCATGCTGACCTGGGCCGGTTTTAACGACCCGCAGGAGATCAACGGCACTCTGAGCGCCGACGCCACCCCGGCGGCGCCGATCTCCAACGTTGCCGACGGCGACTGGCCGGCCTATGGCCGCAACCAGGAAGGCCAGCGCTTCTCCCCGCTGAAGCAGATTAACGCCGACAACGTGAAGAACCTGAAGGAAGCCTGGGTGTTCCGCACCGGCGACCTGAAACAGCCGAACGATCCGGGTGAAATCACTAACGAAGTGACGCCGATTAAAGTCGGCGACACGCTCTTCCTGTGTACCGCCCACCAGCGTCTGTTCGCGCTTGACGCCGCCTCCGGTAAAGAGAAGTGGCATTTTGACCCGCAGCTGAACGCCGACCCGTCGTTCCAGCACGTCACCTGCCGCGGTGTCTCGTATCACGAAGCGAAAGCGGATAACGCCCCTGCCGACGTCGTCGCCGACTGTCCGCGCCGCATTATCCTGCCGGTGAACGATGGTCGCCTGTTCGCAGTGAACGCCGACAACGGTAAGCTGTGCGAAACCTTTGCCAACAAAGGTATTCTCAACCTGCAGACCAACATGCCGGTGACCACGCCGGGCATGTATGAACCCACTTCCCCGCCGATTATCACCGATAAGACCATCGTGATTGCCGGCGCAGTTACCGATAACTTCTCTACCCGCGAGCCGTCAGGCGTGATCCGCGGCTTTGATGTGAATACTGGTAAACTGCTGTGGGCCTTCGATCCGGGCGCGAAAGATCCGAACGCCATCCCAAGCGATGAGCATCACTTCACGCTCAACTCACCCAACTCCTGGGCGCCTGCCGCCTACGACGCCAAACTGGATCTGGTCTATCTGCCGATGGGCGTGACCACTCCGGATATCTGGGGCGGTAACCGCACGCCGGAGCAAGAGCGCTATGCCAGCTCGATTGTCGCGCTGAACGCCACCACCGGTAAGCTGGCCTGGAGCTACCAGACCGTCCACCACGACCTGTGGGATATGGACATGCCTTCCCAGCCGACGCTGGCTGACATTGAAGTCAACGGCAAAACCGTGCCGGTCGTCTATGCTCCGGCGAAAACCGGCAACATCTTCGTGCTGGATCGCCGTAACGGCGAGCTGGTGGTCCCGGCCCCGGAAAAACCGGTTCCGCAGGGCGCCGCCAAAGGCGATTACGTCGCCAAAACCCAGCCGTTCTCCGATCTGAGCTTCCGTCCGAAGAAAGATCTGACCGGGGCGGACATGTGGGGAGCCACCATGTTCGACCAGCTGGTGTGCCGCGTGATTTTCCATCAGATGCGCTATGAGGGTATCTTCACCCCGCCATCTGAGCAGGGCACCCTCGTCTTCCCGGGTAACCTGGGGATGTTTGAATGGGGCGGTATCTCCGTCGATCCGAACCGTCAGGTGGCTATCGCCAACCCGATGGCGCTGCCGTTCGTCTCTAAACTGATCCCACGCGGCCCGGGCAACCCAATGGAGCCGCCGAAAGATGCGAAAGGCTCAGGCACCGAGTCCGGCGTGCAGCCGCAGTACGGCGTCCCGTACGGCGTCACCCTGAACCCGTTCCTGTCACCGTTCGGTCTGCCGTGCAAACAGCCGGCCTGGGGCTATATCTCCGCGCTGGATCTGAAAACTAACGAAGTGGTATGGAAAAAACGTATCGGTACCCCGCAGGACAGCCTGCCGTTCCCGATGCCGGTTAAACTCCCATTCACCATGGGTATGCCGATGCTGGGCGGTCCGATCTCCACGGCGGGCAACGTTCTGTTCATCGGCGCGACCGCGGATAACTACCTGCGCGCGTACAATATGAGCAACGGTGAGAAGCTGTGGGAAGCCCGTCTGCCAGCCGGCGGTCAGGCCACCCCGATGACCTACGAAGTGAATGGCAAACAGTATGTTGTCATCTCTGCCGGCGGTCACGGCTCGTTCGGGACCAAAATGGGCGATTATATCGTCGCCTATGCGCTCCCGGATGAGGCGAAATAA	MAETKSQQSRLLVTLTALFAAFCGLYLLIGGAWLVVLGGSWYYPVAGLVMLGVTVMLFRGKRAALWLYAALLLATMIWGVWEVGFDFWALTPRSDILVFFGIWLILPFVWRRLPVPSAGAVGALVVALLISGGMLTWAGFNDPQEINGTLSADATPAAPISNVADGDWPAYGRNQEGQRFSPLKQINADNVKNLKEAWVFRTGDLKQPNDPGEITNEVTPIKVGDTLFLCTAHQRLFALDAASGKEKWHFDPQLNADPSFQHVTCRGVSYHEAKADNAPADVVADCPRRIILPVNDGRLFAVNADNGKLCETFANKGILNLQTNMPVTTPGMYEPTSPPIITDKTIVIAGAVTDNFSTREPSGVIRGFDVNTGKLLWAFDPGAKDPNAIPSDEHHFTLNSPNSWAPAAYDAKLDLVYLPMGVTTPDIWGGNRTPEQERYASSIVALNATTGKLAWSYQTVHHDLWDMDMPSQPTLADIEVNGKTVPVVYAPAKTGNIFVLDRRNGELVVPAPEKPVPQGAAKGDYVAKTQPFSDLSFRPKKDLTGADMWGATMFDQLVCRVIFHQMRYEGIFTPPSEQGTLVFPGNLGMFEWGGISVDPNRQVAIANPMALPFVSKLIPRGPGNPMEPPKDAKGSGTESGVQPQYGVPYGVTLNPFLSPFGLPCKQPAWGYISALDLKTNEVVWKKRIGTPQDSLPFPMPVKLPFTMGMPMLGGPISTAGNVLFIGATADNYLRAYNMSNGEKLWEARLPAGGQATPMTYEVNGKQYVVISAGGHGSFGTKMGDYIVAYALPDEAK	PGPT0001290_687	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION_D_GLUCONATE_BIOSYNTHESIS,PGPT0001290-gcd|gdhAB-K00117	NA	NA
BMS020_04699	537	hpt_1	COG0634	Hypoxanthine phosphoribosyltransferase	ATGAAACATACTGTAGAAGTGATGATCCCGGAATCCGAGATCAAAGCGCGCATCGCGGAACTGGGTCGTCAAATCAACGAACATTATCAGGACAGCGGCAGCGAAATGGTGCTGGTGGGGCTGCTGCGCGGCTCGTTTATGTTCATGGCCGACCTGTGCCGTGAAGTGCAGGTGCCGCATGAAGTCGATTTTATGACCGCCTCGAGCTACGGCAGCGGCATGTCCACTACCCGTGATGTGAAAATCCTCAAAGATCTGGACGAAGACATCCGTGGTAAAGACGTTCTGATCGTGGAAGATATCATCGACTCCGGCAATACCCTGTCTAAAGTGCGTGAGATCCTCAGCTTGCGCGAGCCGAAGTCGCTGGCCATTTGTACGCTGCTGGATAAACCAAGCCGCCGTGAAGTGAATGTTCCGGTTGAGTTCGTCGGTTTCGCCATTCCGGACGAGTTCGTGGTGGGCTACGGTATCGACTACGCTCAGCGCTACCGCCATCTGCCGTATATCGGCAAAGTCACCCTGCTGGACGAGTAA	MKHTVEVMIPESEIKARIAELGRQINEHYQDSGSEMVLVGLLRGSFMFMADLCREVQVPHEVDFMTASSYGSGMSTTRDVKILKDLDEDIRGKDVLIVEDIIDSGNTLSKVREILSLREPKSLAICTLLDKPSRREVNVPVEFVGFAIPDEFVVGYGIDYAQRYRHLPYIGKVTLLDE	PGPT0007295_3122	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007295-hprT|hpt-K00760	NA	NA
BMS020_04700	663	can_1	COG0288	Carbonic anhydrase 2	ATGAATGATATAGATACACTCATCAGCAACAATGCACTATGGTCAAAAATGCTGGTGGAAGAGGACCCCGGCTTTTTTGAGAAACTGTCGCAAACGCAGAAACCGCGCTTCCTGTGGATTGGCTGTTCTGACAGCCGCGTACCCGCTGAGCGACTCACCGGCCTGGAGCCAGGCGAACTGTTTGTGCATCGTAACGTGGCGAATCTGGTGATCCACACCGACCTCAACTGCCTGTCGGTGGTGCAGTATGCCGTCGATGTTCTCGAAGTCGAGCACATTATTATCTGCGGCCACTACGGCTGCGGCGGCGTACAGGCGGCGGTGGAGAACCCGGAGCTGGGGCTCATCGACAACTGGCTGCTGCATATCCGCGATATCTGGTTTAAACACAGCTCGCTGCTGGGGGAAATGCCGGAGGAGCGCCGGCTGGATACCCTTTGTGAACTGAACGTAATGGAACAGGTGTACAACCTGGGACATTCGACGATTATGCAATCGGCGTGGAAGCGCGGACAGAAGGTGACCATCCACGGCTGGGCATATGGCATTCACGACGGACTGCTGCGCGATCTGGATGTGACCGCCGTGAGCCGGGAAACCCTTGAACAGCGCTATCGCCACGGGATCTCCAACCTCAAGATCAAGCACATCAACCACAAATAG	MNDIDTLISNNALWSKMLVEEDPGFFEKLSQTQKPRFLWIGCSDSRVPAERLTGLEPGELFVHRNVANLVIHTDLNCLSVVQYAVDVLEVEHIIICGHYGCGGVQAAVENPELGLIDNWLLHIRDIWFKHSSLLGEMPEERRLDTLCELNVMEQVYNLGHSTIMQSAWKRGQKVTIHGWAYGIHDGLLRDLDVTAVSRETLEQRYRHGISNLKIKHINHK	PGPT0002415_3225	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
BMS020_04701	927	yadG_1	COG1131	putative ABC transporter ATP-binding protein YadG	ATGACCATTGCTCTGGAATTAAAACAGCTCAAAAAAACCTACCCCGGCGGGGTTCAGGCGCTGCGGGGAATTGACCTGCAGGTTGAAGCGGGGGATTTCTATGCCCTGCTGGGCCCGAACGGGGCGGGAAAATCCACGACGATCGGCATCATCAGCTCGCTGGTGAACAAAACCTCCGGTCAGGTCAATGTCTTTGGCTACGATCTGGAGAAAGACGTCGTCAACGCCAAGCGCCAGCTTGGCCTGGTGCCGCAGGAGTTTAACTTTAACCCGTTCGAGACCGTGCAGCAGATCGTCGTTAACCAGGCGGGCTACTACGGCGTTGAACGTAAAGAAGCCATCGCCCGCAGCGAAAAGTACTTAAAACAGCTCGATCTGTGGGAAAAACGCAGCGAACGCGCGCGGATGCTCTCTGGCGGGATGAAGCGCCGCCTGATGATCGCTCGCGCGTTGATGCATGAGCCGAAGCTGCTGATCCTCGACGAGCCGACCGCCGGCGTCGATATCGAACTACGCCGCTCGATGTGGGGCTTCCTCAAGGATCTCAACGATCGCGGAACCACCATAATTCTGACCACTCACTATCTGGAAGAGGCCGAAATGCTGTGCCGCAACATCGGCATCATCCAGCACGGTACGCTGGTGGAAAACACCTCGATGAAAGCGCTGCTGTCGAAGCTGAAATCAGAGACCTTTATTCTCGACCTCGCGCCAAAAAGCCCGGTGCCGAAGCTCGAGGGCTACCAGTATCAGCTGGTCGATACCTCGACGCTGGAAGTGGAGGTCCTGCGCGAGCAGGGGATTAACAGCGTTTTCGCGCAGCTGAGCGCCCAGGGGGTGCAGGTACTGAGTATGCGTAACAAAGCCAACCGTCTGGAAGAGCTGTTTGTCACCCTGGTGCATGAGCGAAAAGGAGAGTCAGCATGA	MTIALELKQLKKTYPGGVQALRGIDLQVEAGDFYALLGPNGAGKSTTIGIISSLVNKTSGQVNVFGYDLEKDVVNAKRQLGLVPQEFNFNPFETVQQIVVNQAGYYGVERKEAIARSEKYLKQLDLWEKRSERARMLSGGMKRRLMIARALMHEPKLLILDEPTAGVDIELRRSMWGFLKDLNDRGTTIILTTHYLEEAEMLCRNIGIIQHGTLVENTSMKALLSKLKSETFILDLAPKSPVPKLEGYQYQLVDTSTLEVEVLREQGINSVFAQLSAQGVQVLSMRNKANRLEELFVTLVHERKGESA	PGPT0006725_10443	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS020_04702	771	yadH_1	COG0842	Inner membrane transport permease YadH	ATGATGCAGCTTTATTGGGTCGCGCTGAAAAGCATCTGGACCAAAGAGATCCACCGTTTTATGCGCATCTGGGTGCAGACGCTGGTGCCGCCGGTGATCACCATGACCCTGTACTTCGTGATTTTCGGTAACCTGATCGGGTCGCGCATCGGCGAGATGCATGGCTTTACCTACATGCAGTTTATCGTGCCGGGCCTGATCATGATGGCGGTGATCACCAACGCATACGCCAACGTCGCCTCGTCGTTCTTCAGCGCCAAGTTTCAGCGCAACATTGAGGAGCTGCTGGTGGCGCCAGTGCCGACGCACGTGATTATCGCTGGCTACGTGGGCGGCGGGGTGGCGCGCGGGCTGTGCGTGGGTATCCTGGTGACCGCGGTGTCGCTGTTCTTTGTGCCGTTCCAGGTTCACTCCTGGCTGTTTGTCGCCCTGACGCTGCTCCTCACCGCGGTGCTGTTCTCGCTGGCCGGACTGCTGAACGCGGTGTTTGCCAAGACCTTCGATGACATCAGCCTGATCCCGACCTTTGTGTTGACGCCGCTGACCTATCTCGGCGGGGTGTTCTACTCGCTGACCCTGCTGCCGCCGTTCTGGCAGGGGCTGTCGCATCTGAACCCCATCGTCTACATGATCAGCGGTTTCCGCTTCGGCTTCCTCGGTATCAACGATGTGCCGCTGGTGACCACCTTTGCGGTGCTGGTGGTCTTCATCGTCGCCTTCTATCTCCTCTGCTGGTCGTTAATCCAGCGCGGTCGCGGCCTGCGTAGCTGA	MMQLYWVALKSIWTKEIHRFMRIWVQTLVPPVITMTLYFVIFGNLIGSRIGEMHGFTYMQFIVPGLIMMAVITNAYANVASSFFSAKFQRNIEELLVAPVPTHVIIAGYVGGGVARGLCVGILVTAVSLFFVPFQVHSWLFVALTLLLTAVLFSLAGLLNAVFAKTFDDISLIPTFVLTPLTYLGGVFYSLTLLPPFWQGLSHLNPIVYMISGFRFGFLGINDVPLVTTFAVLVVFIVAFYLLCWSLIQRGRGLRS	PGPT0006730_18659	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS020_04703	441			hypothetical protein	ATGCTTGGTTGGGTCATTACCTGCCACGATGAGCTGGCGCAGGAGATGCTGGATCGTCTTGAACAAAAATTTGGTCCGCTGGCCCAGTGCCGGGCGGTCAATTACTGGCGCAATCTCAGCAGCAATATGTTGAGCCGGATGATGTGCGATGCGCTGCATGCCACCGACTCCGGAGACGGGGTCATTTTCCTAACCGACAGAACCGGCGCGGCGCCTTATCGGGCCGCGGCGCTGATGAGTCACAAACATACCCACTGCGAAGTGATCTCCGGCGTCAGCTATTCATTACTTGAGCGAATGTATCTGCTGCGGGACACGTTAAGCAGCGAGGCGTTTCGCCAGGCTATCGTCAGCGCGGGCGGGCCGATGGTGAGCAGCCTGTGGCATCAGCAGCAGAAGAACCCCCCGTTCCGGTTGCGTCATGATACCTTTGGAAATTAA	MLGWVITCHDELAQEMLDRLEQKFGPLAQCRAVNYWRNLSSNMLSRMMCDALHATDSGDGVIFLTDRTGAAPYRAAALMSHKHTHCEVISGVSYSLLERMYLLRDTLSSEAFRQAIVSAGGPMVSSLWHQQQKNPPFRLRHDTFGN				NA	NA	NA	NA	NA
BMS020_04704	1254			hypothetical protein	ATGCGCATGCTTGCCCGATTTTTTACTCTGCTTCTTTTACTGACCTCACTCAGCGCCTCCGCCAGTCTGCTTAGCCAGCAGGGCAAACCTGTGCGCTATATGCAAACCACCGAAGACGCGGTGATCTGGGCGCAGGTGGGGAACCATGTGGTCAGCGTGGGCAATGTGCGTGCCGGGCAGATCCTCGCGGTTGTCCCGACGGCGGCTGATTACTATGAGTTTCGCTTCGGCTTCGGCACCGGGTTTATTGACAAGGGCCATCTGGAGCCAGTGCAGGGGAAGCAGCGGGTGGAGGACCGTCTGGGGGATCTCAATAAGCCGCTGAGTAACCAGAATTTACTCACCTGGAAAGATACACCGCTCTATGACGCTCCCTCAGTGAGCAGCGCGCCGTTCGGCACGCTGGCCAATAATCTGCGCTATCCGATCCTCAGCAAGCTGAAAGACCGCCTCAATCAGACCTGGTTTCAGATCCGCATTGGCGATCGGCTGGCGTGGGTCAGCAGTCTGGATGCGCAGGAGGATAACGGGATCCCCGTGCTGACCTATCACCATATTCTGCGTGACGAAGAGAACACCCGTTTCCGCCATACCTCGACCACCACCTCGGTACGCGCCTTCAATAACCAGATGACCTGGCTGCGGGATCAGGGGTATACCACGCTGACCCTGTATCAGCTGGAAGGCTACGTGCGCAATAAAATTAACCTTCCGGCGCGGGCAGTCGCCATTACCTTCGATGACGGTTTGAAATCGGTAAACCGCTACGCCTATCCGGTGTTGAAACAGTATGGCTTCCACGCCACCGCCTTTATTATCTCTTCGCGCATCAAGCGTCATCCGCAGCAATGGGATCCGAAATCGCTGCAGTTCATGAGCATTTCTGAGCTCCGGCAGATCCAGGACGTCTTTGACATTCAGTCGCATACCCACTTCCTGCACCGGGTGGACGCCGGCCGGCGGCCGATCTTATTCAGCCGCAATTACCATAATATTCTGTTTGATTTTGCCCGTTCGCGCCGGGCGCTGAGCCAGTTTAATCCACATGTGCTCTACCTTTCCTATCCCTTCGGCGGCTATAACGCCACGGCGGTGCAGGCGGCGAATGACGCCGGGTTTCATATGGCGGTGACGACGGTGCGTGGGAAGGTGAAGCCGGGGGACAATCCGTTTCTGCTAAAGCGGTTATATATTTTACGCACGGATTCGCTGGAGACGATGTCGCGGCTGATCAGTAACCAGCCGCAGGGGTAA	MRMLARFFTLLLLLTSLSASASLLSQQGKPVRYMQTTEDAVIWAQVGNHVVSVGNVRAGQILAVVPTAADYYEFRFGFGTGFIDKGHLEPVQGKQRVEDRLGDLNKPLSNQNLLTWKDTPLYDAPSVSSAPFGTLANNLRYPILSKLKDRLNQTWFQIRIGDRLAWVSSLDAQEDNGIPVLTYHHILRDEENTRFRHTSTTTSVRAFNNQMTWLRDQGYTTLTLYQLEGYVRNKINLPARAVAITFDDGLKSVNRYAYPVLKQYGFHATAFIISSRIKRHPQQWDPKSLQFMSISELRQIQDVFDIQSHTHFLHRVDAGRRPILFSRNYHNILFDFARSRRALSQFNPHVLYLSYPFGGYNATAVQAANDAGFHMAVTTVRGKVKPGDNPFLLKRLYILRTDSLETMSRLISNQPQG	PGPT0012156_125	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012156-chitin_deacetylase-NA	NA	NA
BMS020_04705	381	panD_1		Aspartate 1-decarboxylase	ATGATGCGTAATATGCTGCAGGGCAAGCTCCACCGCGTAAAAGTGACGCAGGCTGACCTGCACTATGAAGGTTCCTGCGCCATTGACCAGGATTTCCTGGATGCGGCCGGTATTCTGGAGAATGAGACCATTCACCTCTGGAACGTCACCAACGGCAACCGTTTCTCCACCTACGCCATTGCCGCCGAGCGGGGTTCCAGAATCATCTCCGTTAACGGCGCCGCCGCGCACTGCGCCAGCGTCGGCGATATCCTGATCATCGCCAGCTTCGTCACCATGTCTGACGAAGAGGCGCGCCGCTGGCAGCCCAACATCGCCTATTTCGAAGGCGACAACGAAATGAAGCGCCAGGCGAAAGCGATTCCGGTGCAGGTCGCCTGA	MMRNMLQGKLHRVKVTQADLHYEGSCAIDQDFLDAAGILENETIHLWNVTNGNRFSTYAIAAERGSRIISVNGAAAHCASVGDILIIASFVTMSDEEARRWQPNIAYFEGDNEMKRQAKAIPVQVA	PGPT0008890_1416	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0008890-panD-K01579	NA	NA
BMS020_04706	855	panC_1	COG0414	Pantothenate synthetase	GTGCTGATTATAGAATCCGTGCCGCTGCTGCGTCAGCATATCCGCCGTCTGCGTCAGGAAGGCAAGCGTATCGCGCTGGTCCCGACGATGGGCAACCTGCATGATGGTCATATGAAGCTGGTTGATGAAGCCAAAGCCAGCGCGGACGTGGTGGTGGTCAGTATTTTCGTCAATCCGATGCAGTTTGACCGCGCCGATGACCTGGCGCGCTACCCGCGCACCCTGCAGGATGATTGCGAAAAGCTGAACAAGCGTCATGTCGACTTTGTCTTCGCGCCGACGCCGGCGGAAGTCTACCCGCAGGGCACCGAAGGCCAGACCTACGTCGACGTCCCCGGCCTGTCCACTATGCTGGAAGGCGCCAGCCGTCCGGGCCATTTTCGCGGCGTGTCGACCATCGTCAGTAAGCTGTTCAACCTGGTTCAGCCAGACGTCGCCTGCTTTGGCGAGAAAGACTTCCAGCAGCTGGCGCTGATCCGCAAGATGGTTGCCGACATGGGCTACGATATCGATATTATCGGCGTGCCGATCGTCCGCGCGAAGGATGGCCTGGCGCTGAGCTCGCGTAACGGCTATCTGACCGCCGACCAGCGCAAAATCGCCCCCGGTCTGTATAAAGTGCTGAGCGCGGTGGCGGAAAAACTGGCCGCCGGCGACCGTCAGCTCGACGAGATCATCGCTATCGCCGAGCAGGAGCTGAACGAGAAAGGTTTCCGCGCCGACGACATTCAGATCCGCGATGCCGACACCCTGCTTGAGCTGACCGACGCCAGCCAGCGCGCGGTGATCCTGATGGCCGCCTGGCTCGGTCAGGCCCGCCTGATCGACAACCAGATCGTCACGCTCGGTCAGTAG	MLIIESVPLLRQHIRRLRQEGKRIALVPTMGNLHDGHMKLVDEAKASADVVVVSIFVNPMQFDRADDLARYPRTLQDDCEKLNKRHVDFVFAPTPAEVYPQGTEGQTYVDVPGLSTMLEGASRPGHFRGVSTIVSKLFNLVQPDVACFGEKDFQQLALIRKMVADMGYDIDIIGVPIVRAKDGLALSSRNGYLTADQRKIAPGLYKVLSAVAEKLAAGDRQLDEIIAIAEQELNEKGFRADDIQIRDADTLLELTDASQRAVILMAAWLGQARLIDNQIVTLGQ	PGPT0008750_1799	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
BMS020_04707	792	panB_1	COG0413	3-methyl-2-oxobutanoate hydroxymethyltransferase	ATGAAACCGACCACCATTGCCCTGCTGCAGAAATGCAAACAGGAAAAGAAGCGCTTTGCCACCATTACCGCCTACGACCATAGCTTCGCGAAGCTGTTCGCCGATGAAGGCATTAATGTGCTGCTGGTGGGCGACTCGCTGGGAATGACGGTGCAGGGTCACGACTCCACCCTGCCGGTCACCGTGGAAGATATCGCCTATCACACCCGCGCCGTCCGCCGCGGCGCGCCGAACAGCCTGCTGCTCGCCGACCTGCCGTTTATGGCCTACGCCACGCCGGAGCAGACCTTTGAAAATGCCGCCATCGTGATGCGCGCCGGCGCCAATATGGTCAAACTCGAAGGCGGCGCCTGGCTGGCCGAGACCGTGAGGATGCTGGCGGAACGCGCGGTGCCGGTTTGCGGCCACCTCGGCCTGACGCCGCAGTCGGTGAACGTATTCGGTGGCTATAAAGTGCAGGGCCGCGGCGATGCGGCGCAGACCCTGTTTGAAGACGCGTTAGCGCTGGAAGCGGCAGGCGCGCAGCTGCTGGTGCTGGAGTGCGTCCCGGTCGCCCTGGCGAAACGCATCACCGAAGCCCTGACCATTCCGGTGATCGGCATCGGCGCGGGCAACGTCACCGATGGGCAGATCCTGGTGATGCATGACGCTTTCGGCATTACCGGCGGCCACATTCCGAAATTTGCCAAGAATTTCCTTGCCGAGGCGGGCGACATCCGCGCCGCGGTGCGGCAGTATATTGCCGAAGTCGAATCCGGGGTCTATCCGGGCGAAGAACACAGTTTCCATTAA	MKPTTIALLQKCKQEKKRFATITAYDHSFAKLFADEGINVLLVGDSLGMTVQGHDSTLPVTVEDIAYHTRAVRRGAPNSLLLADLPFMAYATPEQTFENAAIVMRAGANMVKLEGGAWLAETVRMLAERAVPVCGHLGLTPQSVNVFGGYKVQGRGDAAQTLFEDALALEAAGAQLLVLECVPVALAKRITEALTIPVIGIGAGNVTDGQILVMHDAFGITGGHIPKFAKNFLAEAGDIRAAVRQYIAEVESGVYPGEEHSFH	PGPT0008740_4010	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
BMS020_04708	480	folK_1	COG0801	2-amino-4-hydroxy-6-hydroxymethyldihydropteridine pyrophosphokinase	ATGACCCTGGTCTATATCGCCCTCGGCAGTAACCTCGCTTCGCCACTGGCGCAGGTGCAGGCGGCCATCCGCGCCCTGGGCGAAATACCTTACAGCCGCGTGGTGAACGTCTCTTCGTTCTACCGTACGCCGCCGCTGGGCCCGCAGGATCAGCCGGACTATCTCAACGCCGCCGTCGCGCTGGAAACCACGCTGGCCCCCGAGGCGCTGCTCGATCACACCCAGCGCATTGAGCTGCAGCAGGGTCGGGTGCGCAAAGCCGAACGCTGGGGGCCGCGCACCCTCGATCTCGATATCATGCTGTTTGGCGATGCGGTCATTAACAGCGAGCGTCTGACCGTTCCGCACTACGATATGAAAAACCGCGGCTTTATGCTCTGGCCGCTGTTCGAGATCGCCCCGGACCTCCGCTTTCCTGACGGCCCTGCGCTGCGTACCGTACTGGATGATCTCGGCGCGACAAAACCCGCTATCTGGTAA	MTLVYIALGSNLASPLAQVQAAIRALGEIPYSRVVNVSSFYRTPPLGPQDQPDYLNAAVALETTLAPEALLDHTQRIELQQGRVRKAERWGPRTLDLDIMLFGDAVINSERLTVPHYDMKNRGFMLWPLFEIAPDLRFPDGPALRTVLDDLGATKPAIW	PGPT0007910_3789	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007910-folK-K00950	NA	NA
BMS020_04709	1311	pcnB_1	COG0617	Poly(A) polymerase I	ATGACGGTGATCCCGCGTGAGCAGCATGCTATTTCCCGCAAAGATATCAGTGAAAACGCCCTCAAGGTCATGTACCGCCTCAACAAGGCGGGCTACGAGTCCTGGCTGGTCGGCGGCGGCGTCCGCGACCTGCTGCTTGGCAAAAAGCCAAAAGATTTTGACGTCACGACCAACGCCACGCCGGATCAGGTGCGTAAGCTGTTCCGCAACTGCCGTCTGGTCGGGCGCCGTTTCCGCCTCGCGCACGTGATGTTCGGGCCGGAAATCATTGAGGTCGCTACCTTCCGTGGCCATCACGAAGGACACACTACCGATCGCGTCACCTCCCAGCGGGGCCAGAACGGCATGCTGCTGCGCGATAACATCTTCGGCTCGATCGAAGAGGACGCCCAGCGTCGCGACTTCACCATTAACAGCCTCTATTACAGCGTGGCGGACTTTACCGTGCGCGACTACGTCGGCGGCATGAAGGATCTGCAGGACGGCGTGATCCGCCTGATCGGCAATCCGGAAACCCGCTATCGCGAGGATCCGGTACGCATGCTGCGCGCGGTGCGCTTCGCCGCCAAGCTGGATATGACCATCAGCCCGGAAACGGCCGAACCGCTGCCGCGGCTGGCCGCCCTGCTCCACGACGTGCCGCCGGCGCGCCTGTTCGAAGAAGTGCTCAAGCTGCTGCAGGCCGGGCATGGCTATCAGACCTACCTGCTGCTGCGGGAATACAACCTGTTCCAGCCGCTGTTCCCGACCATCACCCGCTACTTTACCGAGCGCGGCGATAGCCCGATGGAGCGGATCATCAACCAGGTGCTGAAGAACACCGACACCCGCATTCATAACGACATGCGCGTCAATCCGGCCTTCCTCTTCTCGGTGATGTTCTGGTATCCGCTGCTGGAAACTGCGCAAAAAATCGCTCAGGAGAGCGGTCTGGCGTACTATGACGCCTTCGCGCTGGCGATGAACGACGTACTGGACGAAGCCTGCCGTACGCTGGCGATCCCTAAGCGCATCACCACCCTGATCCGCGATATCTGGCAGCTGCAGCTGCGCATGTCCCGTCGCCAGGGCAAACGCGCCTGGAAGCTGATGGAGCATCCGAAATTCCGCGCCGCCTACGATCTGCTGGAGCTACGCGCCGGCGCTGAAAACAACGGCGAACTGCAGCGTCTGACCAAATGGTGGGGCGAATTCCAGGTCGCCGCGCCGCCGGCGCAAAAAGATATGCTCAACGACCTCGGGGACGATCCGGCGCCGCGCCGTCGCCACCGCCGTCCGCGCAAGCGCGCGCCGCGCCAGGGTAACGCATGA	MTVIPREQHAISRKDISENALKVMYRLNKAGYESWLVGGGVRDLLLGKKPKDFDVTTNATPDQVRKLFRNCRLVGRRFRLAHVMFGPEIIEVATFRGHHEGHTTDRVTSQRGQNGMLLRDNIFGSIEEDAQRRDFTINSLYYSVADFTVRDYVGGMKDLQDGVIRLIGNPETRYREDPVRMLRAVRFAAKLDMTISPETAEPLPRLAALLHDVPPARLFEEVLKLLQAGHGYQTYLLLREYNLFQPLFPTITRYFTERGDSPMERIINQVLKNTDTRIHNDMRVNPAFLFSVMFWYPLLETAQKIAQESGLAYYDAFALAMNDVLDEACRTLAIPKRITTLIRDIWQLQLRMSRRQGKRAWKLMEHPKFRAAYDLLELRAGAENNGELQRLTKWWGEFQVAAPPAQKDMLNDLGDDPAPRRRHRRPRKRAPRQGNA				NA	NA	NA	NA	NA
BMS020_04710	882	gluQ_1	COG0008	Glutamyl-Q tRNA(Asp) synthetase	ATGACTGACTCACGCTATATAGGGCGCTTTGCTCCCTCCCCCTCCGGCGAACTCCACTTCGGCTCTCTGATCGCCGCGCTCGGCAGCTACCTGCAAGCCCGCGCGAACCAGGGTATCTGGCGCGTTCGTATTGAAGATATCGACCCGCCGCGCGAAGTCCCCGGGGCCGCCGACACCATCCTGCGCCAGCTCGACCACTACGGTCTGCACTGGGACGGCGAGGTGCTCTGGCAGTCGCAACGGCACGAAGCCTACCGCGAGGCGCTGGCCTGGCTGGGGGAGCAAGGGCTGAGCTATTACTGCACCTGCACCCGCGCGCGGCTCCACGCCGTAGGCGGGATCTACGATGGTCACTGCCGCGACCTTGGGCTGGGGGCGGAAAACGCCGCGCTGCGTCTGCGCCAGACCCGTCCGGTTCTGCAGTTCACCGACCGCCTGCGCGGCACGCTGGTCGCCAACGAGCCGCTGGCGCGTGAAGATTTTATTATCCACCGTCGCGACGGGCTGTTTGCCTACAACCTGGCGGTGGTGGTCGATGATCACTTTCAGGGGATCACCGAGATCGTCCGCGGCGCCGATCTGATTGAGCCGACGGTGCGGCAGATTTCGCTGTATCAGCATTTTGGCTGGCAGGCGCCGGACTACCTCCATCTGCCGCTGGCCCTCAATGCCGACGGCAATAAGCTCTCTAAACAAAACCACGCGCCGGCGCTGCCGGAAGGCGATCCGCGCCCCGAAATCGTCCGCGCGCTCCGCTTTCTGAATCAGGAGATCGCCGGGGAGTGGCAGGCCCTGAGCGTCGATGATTTACTCGCCCAGGCCGTCGCCAACTGGCAGCCCGCGAAAATCGAGCATTCTCAAATGGCTCCCGCTGAGCTATGA	MTDSRYIGRFAPSPSGELHFGSLIAALGSYLQARANQGIWRVRIEDIDPPREVPGAADTILRQLDHYGLHWDGEVLWQSQRHEAYREALAWLGEQGLSYYCTCTRARLHAVGGIYDGHCRDLGLGAENAALRLRQTRPVLQFTDRLRGTLVANEPLAREDFIIHRRDGLFAYNLAVVVDDHFQGITEIVRGADLIEPTVRQISLYQHFGWQAPDYLHLPLALNADGNKLSKQNHAPALPEGDPRPEIVRALRFLNQEIAGEWQALSVDDLLAQAVANWQPAKIEHSQMAPAEL	PGPT0008460_5881	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
BMS020_04711	456	dksA_1	COG1734	RNA polymerase-binding transcription factor DksA	ATGCAAGAAGGGCAAAACCGTAAAACATCGTCCCTGAGTATTCTCGCCATCGCTGGGGTGGAGCCGTACCAAGAGAAACCGGGCGAAGAGTATATGAACGAAGCCCAGCTGGCGCACTTCAAGCGTATTCTTGAAGCATGGCGTAATCAACTCAGGGATGAAGTGGATCGCACCGTATCGCACATGCAGGATGAAGCTGCTAACTTCCCGGACCCGGTAGACCGTGCCGCCCAGGAAGAAGAGTTCAGCCTGGAGCTGCGTAACCGCGACCGCGAACGTAAACTGATCAAAAAGATCGAGAAAACGCTGAAAAAAGTTGAAGACGAAGACTTCGGCTACTGCGAATCCTGCGGCGTGGAGATCGGCATTCGCCGTCTGGAAGCGCGTCCGACAGCGGATCTGTGCATTGACTGCAAAACCCTGGCGGAAATTCGCGAAAAACAGATGGCGGGCTAA	MQEGQNRKTSSLSILAIAGVEPYQEKPGEEYMNEAQLAHFKRILEAWRNQLRDEVDRTVSHMQDEAANFPDPVDRAAQEEEFSLELRNRDRERKLIKKIEKTLKKVEDEDFGYCESCGVEIGIRRLEARPTADLCIDCKTLAEIREKQMAG	PGPT0014560_431	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
BMS020_04712	717	sfsA	COG1489	Sugar fermentation stimulation protein A	ATGCAGTTTGATCCGCCGTTGCAGCCCGCCATTTTGCTTAAACGTTACAAACGATTTCTTGCCGACGTGGTGACCCCCGATGGCCGCGAGCTGACGCTCCACTGCCCGAATACCGGGGCGATGACCGGCTGCGCCGCCCCGGGCGACACCGTCTGGTATTCCACCTCTGACAATGTGAAGCGCAAATATGCCCACACCTGGGAATTAACTGAAACGCAGCAGGGCGCCGTTATTTGCGTCAATACGCTGCGCGCGAATACGCTGGCGAAAGAGGCGATTTCCGCCGGAATAATCCCTGAACTTTCAGGCTATAACCAGCTGAAAAGCGAAGTGAAATATGGCGCAGAGAATAGCCGTATCGATATTATGTTACAGGCAGATGATCGCCAAAACTGCTATATTGAAGTGAAATCGGTTACGTTGGCGGAGAAAGAATACGGTTATTTTCCCGATGCGGTGACCACGCGCGGTCAGAAGCACCTGCGGGAGCTGATGGCCGTCGCGGCAAATGGCGACCGCGCGGTGATTTTATTTGCCGTCCTGCATTCGGCAATTGACCGTTTCTCTCCCGCGCATCATATTGATGCCAGATACGCACAGCTGTTAACAGAAGCCCGCGACAAGGGGGTGGAAATTCTCGCCTGGAAAGCGGAACTTTCTACGACGAGGATGACTCTGAATAAGCCGATCGCCGTGGTGTTAAACCCCGGTAAATAA	MQFDPPLQPAILLKRYKRFLADVVTPDGRELTLHCPNTGAMTGCAAPGDTVWYSTSDNVKRKYAHTWELTETQQGAVICVNTLRANTLAKEAISAGIIPELSGYNQLKSEVKYGAENSRIDIMLQADDRQNCYIEVKSVTLAEKEYGYFPDAVTTRGQKHLRELMAVAANGDRAVILFAVLHSAIDRFSPAHHIDARYAQLLTEARDKGVEILAWKAELSTTRMTLNKPIAVVLNPGK	PGPT0017980_673	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_SUGAR_FERMENTATION,PGPT0017980-sfsA-K06206	NA	NA
BMS020_04713	537	thpR_1	COG1514	RNA 2',3'-cyclic phosphodiesterase	ATGTCTGAGCCGAAAAGGCTGTTTTTTGCGATTGAACTGCCGCCTGCCATCCGCAAACAGATTGTCCAGTGGCGGGCAACGCACTTCCCGGAGGATGCCGGCAGGCCCGTCGCGGCGGATAACCTTCACCTCACGCTGGCGTTTCTCGGCGAGGTGAGCGCGGAAAAAAAGCGGGCGCTGACCGCCCTCGCCGGCCGCCTCCAGCCGCCGGGCTTTACCCTGACGCTGGACGATGCCGGACAGTGGCTGCGCTCGCGGGTGGTCTGGCTCGGGACCCGTCAGCCGCCGCGCGGCCTGCTGCAGCTCGCCAGCATGCTGCGCGCTCAGGCGGCGCGCAGCGGCTGCTATCAGAGTCCGCAGCCGTTTCATCCGCATATTACCCTGTGGCGCGACGCCCGCCAGGCGGTGCCGATCCCGCCGCCCGGCTTTCGCTGGACGTTTCCGGTGAACGAGTTCGTGCTCTATGAATCCAGCTTTAGCCGGGGGCGCACGCGCTACACGGCGCTGGAACATTATCCGTTTGATAAGGAAAGTTGA	MSEPKRLFFAIELPPAIRKQIVQWRATHFPEDAGRPVAADNLHLTLAFLGEVSAEKKRALTALAGRLQPPGFTLTLDDAGQWLRSRVVWLGTRQPPRGLLQLASMLRAQAARSGCYQSPQPFHPHITLWRDARQAVPIPPPGFRWTFPVNEFVLYESSFSRGRTRYTALEHYPFDKES				NA	NA	NA	NA	NA
BMS020_04714	2430	hrpB	COG1643	ATP-dependent RNA helicase HrpB	GTGTCCTCATTGCCGGTTGCCGCCGTCCTCCCAGAATTGTTATCCGCCCTGCAGCATGCGCCGCAGGTTTTGCTCAATGCGCCGACCGGCGCCGGGAAGTCGACCTGGCTGCCGCTGCAGATCCTTGCCGAGGGCAACATCACGGGACGCATTATCCTGCTGGAGCCGAGGCGTCTGGCGGCGCGCAATGTCGCGCAGCGGCTGGCTGAACTGCTCGGCGAAAAGCCGGGGGAGACCGTGGGTTACCGCATGCGCGCTGAAACCTGCGTCGGACCGCAGACCCGCCTGGAGGTGGTCACGGAGGGGATCCTGACGCGCATGATCCAGCGCGATCCCGAGCTGACGGGCGTGGGGCTGGTGATCCTCGATGAGTTTCACGAGCGCAGCCTGCAGGCGGATCTGGCGCTGGCCCTGCTGCTTGATGTCCAGCAGGGGTTACGTGACGATCTCAAACTGCTGATTATGTCGGCGACCCTCGATAACGAGCGCCTGCAGCGTCTGCTGCCGGAGGCGCCGGTGGTGGTCTCGGAGGGGCGCGCTTATCCGGTGGAGCGTCGCTTCAGCCCGCTCTCCGCGCACCAGCGTTTTGATGAGGCGGTGGCGGTAGCGGCGGCGGAGCTCCTGCGGCATGAACAAGGGTCGATGCTGCTGTTTCTGCCCGGCGTCGGCGAGATCCAGCGCGTTCTCGACCAGCTGACGGAGCGCGTGGCGGAGGATGTCATCCTCTGTCCGCTGTATGGCGCGCTGCCCCTGAGCGAGCAGCGCAAAGCGATCCTCCCGGCGCCGGCCGGGAAGCGCAAAGTGGTGCTGGCCACCAACATTGCCGAGACCAGTTTGACCATCGAGGGCATCCGCCTGGTGGTCGACAGCGCCCAGGAGCGGGTTGCCCGCTTTGACCCGCGCACCGGCCTGACCCGGCTGGTGACGCAGCGCATCAGCCAGGCATCGATGACGCAGCGCGCCGGACGCGCCGGTCGTCTCTCCCCGGGGATCTGCCTGCATTTGCTTGGCAAAGAACAGGCCGAACGAGCGGCGGCGCAGAGCGAACCGGAAATCCTGCACAGCGATCTGTCGGCGCTGTTGCTGGAGCTGCTGCAGTGGGGGTGCCACGATCCGGCTGCGCTGGCCTGGCTGGATCAGCCGCCGGCGGTGAACCTGGCCGCCGCGCGCCGCCTGCTGGAGGCGCTCTCGGCGCTGGACGGCGAGCGGCTGTCGGCGTTTGGCCGCAAAATGGCGACCCTCGGCAACGAGCCCCGGCTGGCGGCGATGCTGGCCGCTGCGCAGACCGATGACGAGGTGGCGACGGCGGCCAGGCTGGCGGCGATCCTCGAGGAGCCGCCGCGCGGCGGACTGGTGGATTTGGCCGCCGTTTTTTCCCGTCAGCAGGCCAACTGGCAGCAGCGGGCGCAGCAGCTGATGAAGCGTCTGGCCTGCCGCAGCGGACAGCCCGACGCCGGACGAATGGCCGCGCTACTGGCGTCGGCCTTCGCCGACCGCATCGCCCGTCGCCGCGGTCAGGAGGGACGCTATCAGCTGGCGAACGGCATGGGCGCGATGCTTGATGCCGACGACGCGCTGGGCCGCCATGAGTGGCTGATCGCCCCGCTGCTGCTGCAGGGCAGCGCCTCGCCGGATGCCCGCATGCTGCTGGCTCTGCCGGTGGATATCGGCGAGCTGATCGCCGCCCGTCCCGAGCTGGCGCAGCGTTCCGACACGGTGGAGTGGGATGAAGCGCAGGGGACGCTGAAAGCCTGGCGGCGGACCGTGACGGGCCAATTGGTGATCAAGACCCAGCCGCTGGCGAAGCCATCTGAGGCGGAGCTGCATCAGGCGATGCTCAACGGTATTCGTGAGAAAGGCCTTGCGGTGCTCAACTGGACGCCAGAGGCCGAGCAGCTGCGACTGCGGCTGCAGTGTGCGGCGCAGTGGCTGCCGGAAGAGGCATGGCCCGCGGTGGATGACGCTTCGCTGCTGGCCTCGCTGGAGGCATGGCTGCTGCCGCAGATGAACGGCGTTCACTCGCTGCGGGCGCTGAAGGCGTTGGATCTGCGTCAGGCGCTACAGGACTGGCTGCCGTGGCCGCTGCGCCAGAAGCTGGATCGCGAGCTGCCGACGCACTATACCGTGCCGACCGGCAGCCGTCTGGCGATCCGATACCATGCGGAGAACCCGCCGGCGCTGGCGGTGCGTATGCAGGAGATGTTCGGCGAGGCCACGACGCCGGTTATCGCCGAGGGGCGGGTGCCGCTGGTGCTGGAGCTGCTGTCGCCCGCCCAGCGTCCTCTGCAGATCACTCGCGATCTCAGCGCCTTCTGGCAGGGAAGCTACCGCGAGGTGCAAAAAGAGATGAAGGGACGTTATCCGAAACACGTCTGGCCGGACGATCCGGCCAACGCCGCCCCGACCCGGCGCAGCAAAAAATATTCGTAG	MSSLPVAAVLPELLSALQHAPQVLLNAPTGAGKSTWLPLQILAEGNITGRIILLEPRRLAARNVAQRLAELLGEKPGETVGYRMRAETCVGPQTRLEVVTEGILTRMIQRDPELTGVGLVILDEFHERSLQADLALALLLDVQQGLRDDLKLLIMSATLDNERLQRLLPEAPVVVSEGRAYPVERRFSPLSAHQRFDEAVAVAAAELLRHEQGSMLLFLPGVGEIQRVLDQLTERVAEDVILCPLYGALPLSEQRKAILPAPAGKRKVVLATNIAETSLTIEGIRLVVDSAQERVARFDPRTGLTRLVTQRISQASMTQRAGRAGRLSPGICLHLLGKEQAERAAAQSEPEILHSDLSALLLELLQWGCHDPAALAWLDQPPAVNLAAARRLLEALSALDGERLSAFGRKMATLGNEPRLAAMLAAAQTDDEVATAARLAAILEEPPRGGLVDLAAVFSRQQANWQQRAQQLMKRLACRSGQPDAGRMAALLASAFADRIARRRGQEGRYQLANGMGAMLDADDALGRHEWLIAPLLLQGSASPDARMLLALPVDIGELIAARPELAQRSDTVEWDEAQGTLKAWRRTVTGQLVIKTQPLAKPSEAELHQAMLNGIREKGLAVLNWTPEAEQLRLRLQCAAQWLPEEAWPAVDDASLLASLEAWLLPQMNGVHSLRALKALDLRQALQDWLPWPLRQKLDRELPTHYTVPTGSRLAIRYHAENPPALAVRMQEMFGEATTPVIAEGRVPLVLELLSPAQRPLQITRDLSAFWQGSYREVQKEMKGRYPKHVWPDDPANAAPTRRSKKYS				NA	NA	NA	NA	NA
BMS020_04715	801	outO_1		Type 4 prepilin-like proteins leader peptide-processing enzyme	ATGACGACATTAGCCGCATTATCGCTGCATTTTCCCCTTGTCTGGTATGGTTTCCTGCTGCTGTTCGGCCTGGCGCTGGGCAGCTTTTACAACGTGGTGATCTACCGTCTGCCGCGCATGCTGACCCAAACCGCGGACGACGAGCCGATAACCCTCAGCACGCCGGGCTCATCCTGCCCGCAGTGTCGCCAGCCGATAGCCTGGCGGGACAATATCCCGCTGCTCAGCTTCCTCTGGCTAGGCCGTCGCGCCCGCTGCTGTCAGGCGCGCATCTCGTGGAGCTATCCGCTGACCGAGCTGGCTACCGGCCTGCTGTTTATCCTCGCCGGGGCGCTGCTCGCGCCGGGCCTGGCGCTGGCGGGCGGCCTGGTGCTGCTCTCCTTCCTGCTGATACTGGCGCGGATTGACGCCCGGACCCAGCTGCTGCCCGATCGCCTGACCCTGCCCCTGCTGTGGGCCGGACTGCTGTTTAATCTTAACGAGGTGTACATTGCGCTGCCGGACGCGGTCGCCGGGGCGATGGCCGGTTATCTGGCGCTGTGGTCGGTCTACTGGCTGTTCCGCCTGCTGACCGGCAAAGAGGCCCTGGGCTATGGCGATTTTAAGCTGCTGGCGGCGCTGGGCGCCTGGTGCGGCTGGCAGGCTCTGCCGCAGGTGCTGTTGCTCGCCTCGGCCAGCGGGCTGGCGTGGACCCTGCTGCAACGCCTGTGGACCCGGCAGTCGCTGCAGCAGCCGCTGGCCTTCGGCCCCTGGCTGGCGCTGGCGGGAGGGGGCGTTTTTCTCTGGCAGCAGATGGTCTAG	MTTLAALSLHFPLVWYGFLLLFGLALGSFYNVVIYRLPRMLTQTADDEPITLSTPGSSCPQCRQPIAWRDNIPLLSFLWLGRRARCCQARISWSYPLTELATGLLFILAGALLAPGLALAGGLVLLSFLLILARIDARTQLLPDRLTLPLLWAGLLFNLNEVYIALPDAVAGAMAGYLALWSVYWLFRLLTGKEALGYGDFKLLAALGAWCGWQALPQVLLLASASGLAWTLLQRLWTRQSLQQPLAFGPWLALAGGGVFLWQQMV	PGPT0026480_70	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026480-gspO-K02464	NA	NA
BMS020_04716	729	outN		Type II secretion system protein N	ATGAAAGCTAACGGGCTCGCAGGTGGGCTACTGCTGGCGCTCTATCTGCTGTGGTTGACCGCCACCGCCCCGGCGCGTCTGTTAGTCCCGATGCTGCCGCCCGAGGTACAGGTGGCCAACCTTAGCGGCAGCATCTGGCGCGGCGCGGCGCAGTCGGTCTCCTGGCGCGGCGTGCGGCTTGAGCGGCTGACGTGGTCGCTCACCCTGGCTGGCTGGCAGATCGCGCTCAGCGATCCCCGCGGCGTGGAGGGTCAGGCCCGGCTGTGGGGCATCCGCGATCTGCGTCTGCAGGAGGGGCGGCTCACCGCCCCCGCCAGCCTGCTTGGACGCTGGCTAACGCCGACTATGCCCGTCAGCGCCGAGGGAGAGGTCACGTTCAGCCTGGCCGAAGCGCACTTCAGCGAGGGGCGCTGCCGGCAAATCACCGCCGGACGCGCGCAGTGGCGTCAGGCCCGGCTGCACTCTCCGGTCGGTAGCCTGGAGCTGGCCCAGGTCAGTGGCGCCTTAAGCTGTACGGCGAACGGCGCCGTGGCGCTGGCCATCCGGCAGGATTCTCATCAGTTGAGCCTCAGCGGCCAGGGAACCCTGTCGCCCGATGGCCGCTATCTGTTTCGCGGTACGCTACAGCCCCGTCAGGGGATGCCGCCCCTGCTGGCGCTGCTGGTCACCCGCCCGATGGCGAAAAACGCCCCGGGCCCGACGCCGTGGCAGCTGCAGGGAAAATGGTGA	MKANGLAGGLLLALYLLWLTATAPARLLVPMLPPEVQVANLSGSIWRGAAQSVSWRGVRLERLTWSLTLAGWQIALSDPRGVEGQARLWGIRDLRLQEGRLTAPASLLGRWLTPTMPVSAEGEVTFSLAEAHFSEGRCRQITAGRAQWRQARLHSPVGSLELAQVSGALSCTANGAVALAIRQDSHQLSLSGQGTLSPDGRYLFRGTLQPRQGMPPLLALLVTRPMAKNAPGPTPWQLQGKW	PGPT0026475_663	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026475-gspN|epsN-K02463	NA	NA
BMS020_04717	486	epsM	COG3149	Type II secretion system protein M	ATGGCTAATCTGCTCATCTGGTGGCGGCAGCGCACGCTATCCGAGCAGCGCCTGCTGCTCGGCCTGGCGGGATTGCTGACAGCCTGCGCCCTCTGGTACGGGCTGTGGCAGCCCTGGCGGGCCCGCGAGGCGCAGTGGCGGCAAACCCTGGTGAAAGAGCAGGCCAGCCTGCGCTGGATGACGCAGCAGGGTCCGCGCCTGCAGCAGCTCAGCCAGCAGCCCGCGCCGGCGGCAAAAGAGGCGCTCACCGCGCTGGTGATGCGCGAGGCGGCGAGCCACGGGCTGGAAGTCGTTCGTCTGCAGCCGCAGGGGAAACGTCTGCAGGTCACCCTTCAGCCCTGCGCCTTCCAGGCGCTAATGGACTGGCTGGACGCCCCGGCGATGCGCGGCGTCAACGCGGTCTCGCTGTCCGTAACCGGGCAGCCGTCGCGGCCGGGCTGGGTCACGGTCAACCATCTGCTGCTGGAGCGCGACGATGAAAGCTAA	MANLLIWWRQRTLSEQRLLLGLAGLLTACALWYGLWQPWRAREAQWRQTLVKEQASLRWMTQQGPRLQQLSQQPAPAAKEALTALVMREAASHGLEVVRLQPQGKRLQVTLQPCAFQALMDWLDAPAMRGVNAVSLSVTGQPSRPGWVTVNHLLLERDDES	PGPT0026470_873	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026470-gspM|epsM-K02462	NA	NA
BMS020_04718	1197	epsL	COG3297	Type II secretion system protein L	ATGAATAAGTTTAACGCTTCCCCCCAGGCCATGCTGATCGTGCGCTTCGCCCCCGGGCAGGCGCCGCTGCACTGGCAACTCTTCGCCCCCGGCGAGCCGCATCACGAAGCCAGCGGCCGGTGGCCGGCTGACGACGCCAGCCCTTTCCCGACGCTGGCGGCGAATTACCCGGCCTGGGTGCTGATCCCGGCCAGCGACTGCGCGTTTCACACCCTCACCCTGCCGGCGGGCCTGCGTAAACCGCCGCTGCAGGTGGCCCCCTTCCTGCTGGAAGAGCAGCTGGCCGACGAGGTGGAAGCCACCCATTTTGCCCTGCTCCACCGCCAGCAGGCCCAGTGCGAGATCGTCGCCGTACAGCGGCAAAAAATGCGCGACTGGCTGGCGCACTGCGAGTCGCTCTCGCTACGGCCCCTGGCGTTGACGCCCGATGTGCTGGCCCTGCCCTGGCAACCGCCGGCGTGGAGCGCGGTGCAGGCGGACGACCAGTGGCTGATCCGCCACCAGCCATGGGCCGGCATGGCGGCGGAACCCCCCTGGCTGGCGGAGCTGCTGCAGGGCGAGGCGGAAGAGCACGTCATCGACAGCTATTCGCCGCCGCCCGCGGCGCCGGGAGAGTGGCGCGCGCAGCCTGCGCAGACGCTGCTCTCCCTCGCCGCAAGTCATCCGGCGGCGCAGAAGCTCAGTCTGCTGCAGGGGGAGTTCGCCGTCCGCCGTCGGCGGCCTGATCAGACGAGCTGGCGTCCGGCGCGGTATGCCGCGCTGGCCCTGGCGCTGCTGCTGGCGGTGAACAGCGTGCTGGATCATCGCGATCTGGCGCGTCAGGCCGAGGCCGCCCGGCAGGCCAGCCGGGCCTACTATCATCGCTGGTTTCCAACGGAGAAAAAGGTGATTAACCCGCGACTGCAGATGCAGCAGCATCTGCAAACCCTTGCCCGTCAGGCGCAGCATGCCCCCCTCGTCGACCGCCTCAGCGCGTTGCAAAACATCATCAGCGAAACGCCGGGGATCCGCCTGCGGGCGCTGAGCTGGGATGCCGCAGGCAACCGTCTGCAGCTGGATATCGCCGCGGCCTCTTCCCGGGCGCTGGAGCAGTTTACCCAGCGAGCGCAGCCGCGGTTTCGCGTCCGGCCAGGCGACATGACCACCAGGCCGGATGGCATTGAGGGACAGCTGACGCTGGAGGAAAACGATGGCTAA	MNKFNASPQAMLIVRFAPGQAPLHWQLFAPGEPHHEASGRWPADDASPFPTLAANYPAWVLIPASDCAFHTLTLPAGLRKPPLQVAPFLLEEQLADEVEATHFALLHRQQAQCEIVAVQRQKMRDWLAHCESLSLRPLALTPDVLALPWQPPAWSAVQADDQWLIRHQPWAGMAAEPPWLAELLQGEAEEHVIDSYSPPPAAPGEWRAQPAQTLLSLAASHPAAQKLSLLQGEFAVRRRRPDQTSWRPARYAALALALLLAVNSVLDHRDLARQAEAARQASRAYYHRWFPTEKKVINPRLQMQQHLQTLARQAQHAPLVDRLSALQNIISETPGIRLRALSWDAAGNRLQLDIAAASSRALEQFTQRAQPRFRVRPGDMTTRPDGIEGQLTLEENDG	PGPT0026465_616	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026465-gspL|epsL-K02461	NA	NA
BMS020_04719	981	gspK	COG3156	Putative type II secretion system protein K	GTGAAAAATCAGCAACGCGGCGTCGCGCTCCTGATGGTGCTGTTCATCCTCGCCCTGATGATGATCCTCGCCAGCGCCATGACCGAACGCACCTCGGTCATGTATCAACACACCGCCGTGACCCTCGATAATCTGCAGGCCAGATGGTACGCCCTGGCGGCGGAAAACATGGCCGCCGCGCTACTGCAACGCGACGCGCTGGACTCGCCCAGTCAAACGAACCTGGCGCAAACCTGGGCGCAGGAGGGGCGCCGCTTTACCCTCGACGATGGCGAAATCCTCGCCACGATCCGCGACGGGCACGCCTGCTTTAATCTCAATGCCATCAACCATCGCGCGGATGAGACCAGCGGCGGTACGCCCTACCCGACCGACGTCTTCGCCCGGCTGCTGGCGCTGCTCGGCGAGTCGCCGCTGCGCGCCAGCCAGATAGCCGCCGCCCTCGGCGACTGGACGGACAGCGACGGCCAGCCGCGGCTGAACGGCGCGGAAGACGAGGTCTATATGGCGCAAACCCCGGGCTATCTCGCCGCCAACCAGCCGATGCAGGATGTCAGCGAGCTGCGCCTGCTGGCCGGAATGGACGCCGCGCTCTATCAGCGCCTGCTCCCCTTCGTCTGCGTCCAGCCGGATGATGCGCTGCAGGTCAATGTCAACACCCTGCGCCCCTCCCAGGCCGCCCTGCTGGCGGCCCTCTTTCCCGGCGATCTGACGCTGCAGGAGGCGCAACAGCTGCTGCACAACCGCCCGCGAACCGGGTGGAGCAGCGTCGCCGCCTTTCTCGCGCAGCCGACGCTGCAGAAAACCGATACCACGCTCGCCCGTCCCTGGCTGACGGTGCACAGCACACGCTTTATCGCCGCCTTCACCGTGGTGACCGGCAACCTTCGCTTTCAGCTGCACAGCGTCCTGCAACAGGAGGGGCGCGCCTTTACCGTCGTCCAGCGGCGATACGGACTTTCTATGGTGGTTGATGAATAA	MKNQQRGVALLMVLFILALMMILASAMTERTSVMYQHTAVTLDNLQARWYALAAENMAAALLQRDALDSPSQTNLAQTWAQEGRRFTLDDGEILATIRDGHACFNLNAINHRADETSGGTPYPTDVFARLLALLGESPLRASQIAAALGDWTDSDGQPRLNGAEDEVYMAQTPGYLAANQPMQDVSELRLLAGMDAALYQRLLPFVCVQPDDALQVNVNTLRPSQAALLAALFPGDLTLQEAQQLLHNRPRTGWSSVAAFLAQPTLQKTDTTLARPWLTVHSTRFIAAFTVVTGNLRFQLHSVLQQEGRAFTVVQRRYGLSMVVDE	PGPT0026460_713	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026460-gspK|epsK-K02460	NA	NA
BMS020_04720	597	xcpW	COG4795	Type II secretion system protein J	ATGATAACGAAAATGCGCGGTTTCACCCTGATTGAAACGCTGCTGGCGCTGGCTATCCTCGCCGTCCTCAGCGCCGCCGCCGTGATGGTGCTGCAGAACGTCATCCGCGCCGATGGCCTGACCCGCGAGAAGAGCCAGCAGATCGCCGCCCTCCAGCGCGCCTTTCGCCAGATCGCCGATGATGTCACGCACATCATTCCCCGTCGCGCCAGAAACAGCGACACGCTTTTCTTCGCCGGACGTTTCCAGTTGCAGAGCGACGACTGGGGGCTGGCCTTCAGCCGCAGCGGCTGGCCGAATCCGCTGGGGATCCTCCCGCGCTCGGAGATCCAGAACGTCAGCTACCGCCTGCGCCAGCAGCAGCTTGAACGACTCAGCTTCGATCAGCAGGATCCGCTGACCGGCAGCCAGCCGACGGTCCGGGTGCTGCTGCGCGAGGTGACGGCGTTTCGCCTGCGGTTTTATGCCGACGGGCGCTGGCAGGAGACCTGGGACCGCTCGCAGTCGCTGCCGCAGGGGCTGGAGATCACCCTGACGCTGGCGAACAGCGGGGAGATAACCCGCCTGTTTTTACTCACCCCGGGAGGCGGCCAGTGA	MITKMRGFTLIETLLALAILAVLSAAAVMVLQNVIRADGLTREKSQQIAALQRAFRQIADDVTHIIPRRARNSDTLFFAGRFQLQSDDWGLAFSRSGWPNPLGILPRSEIQNVSYRLRQQQLERLSFDQQDPLTGSQPTVRVLLREVTAFRLRFYADGRWQETWDRSQSLPQGLEITLTLANSGEITRLFLLTPGGGQ	PGPT0026455_1226	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026455-gspJ|epsJ-K02459	NA	NA
BMS020_04721	366			hypothetical protein	ATGAAACGCGAGAGCGGAATGACGCTTATCGAAGTGATGGTCGCGCTGGTGATTTTCGCCCTCGCCGGCCTGGCGGTGATGCAGTCCACCCTGCAGCAGACGCGCCAGCTTGGGCGTATGGAAGAGAAAATCCTCGCCAGCTGGCTGGCGGATAATCAGCTGGTGCAGCTGCGGCTGGAGAAACGCTGGCCCGCCCTCAGCTGGTCCGAAACCACCGTGGAGGCCGCCGGGACGCGCTGGTTCGTCCGCTGGCAGGGGGTGGAAACCGCGCTGCCGCAGCTGCGGGCGCTGGACGTGGAGGTCCGGCGGCAAAAAAGCGATCCCGCGCCGCTGGCGACGCTTCGCACCTGGGTGACGTCGCCATGA	MKRESGMTLIEVMVALVIFALAGLAVMQSTLQQTRQLGRMEEKILASWLADNQLVQLRLEKRWPALSWSETTVEAAGTRWFVRWQGVETALPQLRALDVEVRRQKSDPAPLATLRTWVTSP	PGPT0026450_1172	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026450-gspI|epsI-K02458	NA	NA
BMS020_04722	516	gspH	COG2165	Putative type II secretion system protein H	GTGTCTCAGCGCGGTTTCACCCTCCTGGAAATGATGCTGGTCCTGCTGCTGATCGGCGTCAGCGCCAGCATGGTGCTGCTGGCGTTTCCCTCCGCCCGTACCCAGGAGGCCGCGCAGATCCTGGCGCGCTTTCAGGCGCAGCTGGACTTTGTCCGCGAGCGCGGGCAGCAAACCGGCCAGCTCTTCGGGATCGTCATCCACCCTGACCGCTGGCAGTTTATGCGCCTGCAGCCTGCAGACGAAGGCGCCCCGGCGGCGGCTGACGACCGCTGGGGCAACGCGCAGTGGCTGCCGCTGCAGGCCGGGCGCGCCACCACGGCGGAAACCCTCCCGCAGGCCAGGCTGATGCTGCGCTTTCCCGACGGCCAGGCGTGGACGCCGGGCGAGCAGCCCGACGTGATCATCTTCCCCGGCGGCGAAGTCACGCCGTTTCAGCTGCGGATTGACACCGCGACGGGCATCAACATCGACGCCCAGGGCGACAGTCAGCCGCTGGCGGCGCGGGAGCAGCCATGA	MSQRGFTLLEMMLVLLLIGVSASMVLLAFPSARTQEAAQILARFQAQLDFVRERGQQTGQLFGIVIHPDRWQFMRLQPADEGAPAAADDRWGNAQWLPLQAGRATTAETLPQARLMLRFPDGQAWTPGEQPDVIIFPGGEVTPFQLRIDTATGINIDAQGDSQPLAAREQP	PGPT0026445_558	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026445-gspH|xcpU|epsH-K02457	NA	NA
BMS020_04723	423	pulG		Type II secretion system protein G	ATGCAACGGCAACGCGGCTTCACGTTACTGGAAATTATGGTGGTGATCGTCATTCTCGGCATCCTCGCCAGCCTGGTGGTACCTAACCTGATGGGCAACAAGGAGAAAGCGGACCGCCAGAAGGTGGTCAGCGATCTGGTGGCGCTCGAGGGGGCGCTGGACATGTATAAGCTGGACAACAGCCGCTACCCGAATACCGAACAGGGACTGCAGGCGCTGGTAACCGCCCCGGCCGCCGAGCCGCATGCCCGCAACTACCCGGAAGGGGGCTATATCCGCCGCCTGCCGCAGGACCCGTGGGGAAATGAGTATCAGCTGTTAAGCCCCGGTCAGCATGGCGCCATCGACGTCTTCAGCGTCGGCCCGGACGGGATGCCCGACACCAATGACGACATCGGCAACTGGACCCTCGGGAAGAAATAG	MQRQRGFTLLEIMVVIVILGILASLVVPNLMGNKEKADRQKVVSDLVALEGALDMYKLDNSRYPNTEQGLQALVTAPAAEPHARNYPEGGYIRRLPQDPWGNEYQLLSPGQHGAIDVFSVGPDGMPDTNDDIGNWTLGKK	PGPT0026440_1791	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026440-gspG|epsG-K02456	NA	NA
BMS020_04724	1215	epsF_1	COG1459	Type II secretion system protein F	ATGGCCCTCTTTCGCTATCAGGCGCTGGACGCGCAGGGCAAAACCCGCCGCGGCGTTCAACAGGCCGACTCCGCCCGCCACGCCCGCCAGCTGCTGCGGGACAAGGGCTGGCTGGCGCTGGAAGTGGCCGCCGCCGACCCGGCGAGCCGGCTGTGGCGCGGCGGGCTGATCGCCCGGCGCACCAGCGCCGGTGATTTAGCCCTGCTCACTCGCCAGCTGGCCACCCTGGTCGCCGCCGGCATTCCGCTGGAAAAAGCGCTCGATGCCGTCGCCCAGCAGTGCGAAAAGGCGTCGCTGAGAACGTTAATGGCTGGGGTGCGCAGCAAAGTGCTTGAAGGCCATTCGCTGGCGGAGGCGATGCGCGCCTATCCCGCCTGCTTCGATGGCCTGTTCTGCGCCATGGTGGCGGCCGGCGAAACCTCCGGCCATCTCGACGGCGTGCTGAACCGGCTGGCGGACTATACCGAGCAGCGCCAGCAGCTTCGCGCCCGCCTGCTACAGGCGATGATCTACCCCATCGTGCTGACGCTGGTCGCCATCAGCGTGATCGCCATTCTGCTCTCCACCGTGGTGCCGAAAGTCGTCGAGCAGTTTGTCCATCTAAAACAGGCCCTGCCCTTCTCTACCCGGCTGCTGATGAGCCTGAGCGACATTGTGCGCAGCGCGGGCCCCTGGCTGGTGCTGCTGTCATTCCTGGCGCTGCTGGGGCTGCGCTATCTGCTGCGCCAGCCCGCCCGGCGGCTCGCCTGGGACCGGGCGCTGCTGCGTCTGCCGGTCATCGGCCGCGTGACGCGCAGCGTCAACAGCGCGCGCTACGCCCGCACCTTAAGCATTCTCAACGCCAGCGCGGTACCGCTGCTGCTGTCGATGCGCATCAGCGCCGGCGTCCTCAGCAATGCCTGGGCGCGCAGCCAGCTGGAGACCGCCAGCGAATCGGTGCGCGAGGGCGTCAGCCTGCATCGCGCGCTGGAGGCCACAGCGCTGTTTCCGCCGATGATGCGCTACATGATCGCCAGCGGCGAGCAGAGCGGTGAGCTGACCGCCATGCTGGAGCGCGCGGCGGAGAACCAGGACCGGGAGCTGAGCGCGCAGATCCAGATGTCCCTCAGCCTGTTTGAACCCCTGCTGGTGGTCACCATGGCCGGCATGGTGCTGTTTATCGTGCTGGCCATCCTGCAGCCGATCCTGCAACTGAATACCCTTATGAGTATGTGA	MALFRYQALDAQGKTRRGVQQADSARHARQLLRDKGWLALEVAAADPASRLWRGGLIARRTSAGDLALLTRQLATLVAAGIPLEKALDAVAQQCEKASLRTLMAGVRSKVLEGHSLAEAMRAYPACFDGLFCAMVAAGETSGHLDGVLNRLADYTEQRQQLRARLLQAMIYPIVLTLVAISVIAILLSTVVPKVVEQFVHLKQALPFSTRLLMSLSDIVRSAGPWLVLLSFLALLGLRYLLRQPARRLAWDRALLRLPVIGRVTRSVNSARYARTLSILNASAVPLLLSMRISAGVLSNAWARSQLETASESVREGVSLHRALEATALFPPMMRYMIASGEQSGELTAMLERAAENQDRELSAQIQMSLSLFEPLLVVTMAGMVLFIVLAILQPILQLNTLMSM	PGPT0026435_1005	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026435-gspF|epsF-K02455	NA	NA
BMS020_04725	1494	epsE_2	COG2804	Type II secretion system protein E	ATGACGCCAGCCGCCGAACGCCGTCCGCTGTTGCCCTTCGCGTGGGCCCGCGCGCACCATCTGGTGCTGCTCAGCGACGGCCAACGCTGCGAAGCGCTGTGCCGCGCTGATACCGCCGCCCGGGCGCTGCTGGAAGCGCGCCGCCTGGCGGACGGGCCGATGAGCGTCAGCCGTCTGGCGCCGGAAGCGTTCGAGAAAGTGCTGGTGCTCAGCTATCAGCGCGACTCGGCGGAAGCGCACCGGATGATGGCCGACATCGGCAATGAGCTTGACCTCTATACCCTCGCCGAAGAGCTGCCGGATACCGACGATCTGCTCGACAGCGAAGACGATGCGCCGATTATCCGTCTGATCAACGCCATGCTCACCGAGGCCATCAAAGAGAAAGCCTCCGATATCCATATCGAAACCTATGAGCGCCATTTGCAAATTCGCTTTCGCGTCGACGGCGTGCTGCGGGAAATTCTGCGCCCGCAGCGGCGGCTGGCCGCGCTGCTCATTTCGCGCATCAAGGTGATGGCGAGCCTGGACATTGCCGAAAAACGGGTGCCCCAGGATGGCCGCATGGCGCTGCGTATCGGCGGGCGGGCGATAGACGTGCGCGTCTCCACCCTGCCCTCCAGCCACGGCGAACGCGTGGTGCTGCGCCTGCTGGACAAAAACAGCGTCAACCTGGATCTGCAGACGCTGGGCATGCCCCCCGCCCTGCTTGACCAGGTCGACGCGCTGATCGCCCGGCCACACGGCATCATTCTGGTCACCGGACCGACCGGATCCGGGAAAAGCACAACGCTCTACGCCGCCCTCAGCCGCCTCGACGCCCGGGAGCGCAACATCATGACCATTGAAGATCCGGTGGAGTATGAGCTGGAAGGTATCGGCCAGACCCAGGTCAACGCCAAAGTCGAGATGACCTTCGCCCGCGGCCTGCGCGCCATACTGCGCCAGGATCCGGACGTGGTGCTGGTGGGCGAAATCCGCGATGGCGAAACCGCCCAGATCGCCGTCCAGGCCTCGCTGACCGGCCACCTGGTGCTGTCGACGCTGCACACCAACAGCGCGCTGGGGGCCGTTTCCCGCCTGCAGGATATGGGGGTGGAGCCCTTTTTACTCTCTACTTCGCTGCTGGCGGTGATGTCGCAGCGGCTGGTGCGTCGGCTGTGCCCGCACTGTCGTCAGCCCTGGCAGGCGGATGCTGACGCCGCCCGGCAGATGGCGGTCCCGGCCGGTACGCCGCTGTGGCAGCCAAAAGGCTGCGCCCGGTGTAATTTCACCGGCTATCGCGGACGCACCGGCATTCACGAGCTGCTGCTCATTGACGACCGCGTCCGCGCCGCCATCCACCGCGGCGAAAATGAGATCACCCTGATCCAGCAGCTGGGGCCAGCCTGGCAGACCCTGCGCCATGCCGGGCGCGATAAAGCGCTGGCGGGGATCACCAGCTGGGAGGAGGTGATGCGGGTCACCGAACAGCAAACGGCGGACAGCGTCTGA	MTPAAERRPLLPFAWARAHHLVLLSDGQRCEALCRADTAARALLEARRLADGPMSVSRLAPEAFEKVLVLSYQRDSAEAHRMMADIGNELDLYTLAEELPDTDDLLDSEDDAPIIRLINAMLTEAIKEKASDIHIETYERHLQIRFRVDGVLREILRPQRRLAALLISRIKVMASLDIAEKRVPQDGRMALRIGGRAIDVRVSTLPSSHGERVVLRLLDKNSVNLDLQTLGMPPALLDQVDALIARPHGIILVTGPTGSGKSTTLYAALSRLDARERNIMTIEDPVEYELEGIGQTQVNAKVEMTFARGLRAILRQDPDVVLVGEIRDGETAQIAVQASLTGHLVLSTLHTNSALGAVSRLQDMGVEPFLLSTSLLAVMSQRLVRRLCPHCRQPWQADADAARQMAVPAGTPLWQPKGCARCNFTGYRGRTGIHELLLIDDRVRAAIHRGENEITLIQQLGPAWQTLRHAGRDKALAGITSWEEVMRVTEQQTADSV	PGPT0026430_1944	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026430-gspE|epsE-K02454	NA	NA
BMS020_04726	1974	pulD		Secretin PulD	ATGAAAAGCCTGCGAAAAATGCTTCCTGCGCTGCTGATATTAACCCCGCTGCTATTTTCTCCGGCCGCCGCGGAGGAATTTTCCGCCAGTTTTAAAGGCACCGATATCCAGGAATTTATCAATACCGTCAGCAAAAACCTGAATAAAACGGTGATTATCGATCCCAGCGTACGCGGCACTATCACCGTGCGCAGTTACGATATGCTCAATGAAGAGCAATATTATCAATTCTTCCTCAGCGTGCTGGATGTATATGGCTTCGCCGTGATTAATATGAATAACGGCGTGCTGAAGGTGGTCCGCGCCAAAGATGCCAAGACCTCGGCCGTTCCGGTCGCCAGCGAGGCCGCGCCGGGCGAAGGCGATGAGGTCGTCACCCGGGTGGTGCCCCTGACCAACGTCGCCGCTCGCGATCTCGCGCCGCTGCTCCGCCAGCTGAACGATAACGCTGGCGCCGGCAGCGTGGTCCATTATGAACCTTCCAACGTCCTGCTGATGACCGGCCGCGCGGCGGTGATCAAACGCCTGCTGACCATTGTCGAACGCGTCGACAACGCCGGGGATCGCAGCGTGGTGACCGTGCCTCTCTCCTGGGCCTCCGCCGCGGAGGTGGTCAAACTGGTTACCGAACTCAATAAAGACACCAGCAAGTCGGCGCTGCCGGGATCGATGGTGGCGAACGTGGTGGCCGATGAGCGCACCAACTCGGTGCTGGTGAGCGGCGAGCCAAACTCGCGCCAGCGCATTATCGCCATGATCAAACAGCTCGACCGCCAGCAGGCGGTGCAGGGCAACACCAAAGTGATCTACCTGAAGTACGCCAAAGCCGCCGATCTGGTGGAGGTCCTGACCGGGATCAGCAGCTCGCTGCAGAACGATAAGCAAAGCGCCAAGCCGGTGGCCGCGATCGATAAAAATATTATTATCAAAGCCCACGGCCAGACCAACGCCCTGATCGTCACCGCGGCGCCGGACGTGATGAACGATCTGGAGCGGGTGATCGCCCAGCTGGATATCCGCCGCCCGCAGGTGCTGGTGGAGGCGATTATCGCCGAAGTGCAGGATGCCGACGGACTCAACCTCGGTATCCAGTGGGCCAATAAAAACGCCGGCATGACCCAGTTTACCAACAGCGGATTGCCGATCTCCACCGCGATCGCCGGCGCCAACCAGTACAACAAAGACGGTACCATCAGCAGCTCGCTGGCCAGCGCCCTCGGCTCGTTTAACGGTATCGCCGCCGGCTTCTACCAGGGGAACTGGGCGATGCTGCTCACCGCCCTCTCCAGCAGTACCAAGAACGATATTCTGGCCACCCCCAGCATCGTCACCCTCGACAATATGCAAGCCACCTTCAACGTCGGCCAGGAAGTCCCGGTGTTAACCGGCTCGCAAACCACCTCCGGCGACAACATCTTCAATACCGTCGAGCGCAAAACCGTGGGCATTAAGCTGAAGGTGAAACCGCAGATTAACGAAGGCGATGCCGTGCTGCTGGAGATTGAGCAGGAAGTATCGAGCGTCGCCGATTCGGCCTCCAGCACCAGCAGCGATCTCGGGGCGACCTTTAATACCCGGACGGTGAATAACGCCGTGCTGGTGGGCAGCGGCGAAACGGTGGTGGTTGGCGGGCTGCTGGATAAAAGCGTCACCGATAGCGCCGACAAAGTGCCGCTGCTCGGCGACATCCCAGTGATCGGCGCGCTGTTCCGCTCCGACAGCAAGAAAGTGTCGAAACGCAACCTGATGCTGTTTATCCGCCCGACCATTATTCGCGACCGCGATGAGTACCGCCGGGCCTCCTCCGGCCAGTACACCGCCTTCAACGATGCGCAAACCAAACAGCGGGGCAAAGAGAGCAGCGAAGCATCGCTCAGCAACGACCTGCTGCACATCTATCCGCAGCAGGAGACCCAGGCCTTCCGCCAGGTTAGCGCCGCCATTGACGCCTTTAACCTCGGAGGCCGCCCATGA	MKSLRKMLPALLILTPLLFSPAAAEEFSASFKGTDIQEFINTVSKNLNKTVIIDPSVRGTITVRSYDMLNEEQYYQFFLSVLDVYGFAVINMNNGVLKVVRAKDAKTSAVPVASEAAPGEGDEVVTRVVPLTNVAARDLAPLLRQLNDNAGAGSVVHYEPSNVLLMTGRAAVIKRLLTIVERVDNAGDRSVVTVPLSWASAAEVVKLVTELNKDTSKSALPGSMVANVVADERTNSVLVSGEPNSRQRIIAMIKQLDRQQAVQGNTKVIYLKYAKAADLVEVLTGISSSLQNDKQSAKPVAAIDKNIIIKAHGQTNALIVTAAPDVMNDLERVIAQLDIRRPQVLVEAIIAEVQDADGLNLGIQWANKNAGMTQFTNSGLPISTAIAGANQYNKDGTISSSLASALGSFNGIAAGFYQGNWAMLLTALSSSTKNDILATPSIVTLDNMQATFNVGQEVPVLTGSQTTSGDNIFNTVERKTVGIKLKVKPQINEGDAVLLEIEQEVSSVADSASSTSSDLGATFNTRTVNNAVLVGSGETVVVGGLLDKSVTDSADKVPLLGDIPVIGALFRSDSKKVSKRNLMLFIRPTIIRDRDEYRRASSGQYTAFNDAQTKQRGKESSEASLSNDLLHIYPQQETQAFRQVSAAIDAFNLGGRP	PGPT0026425_1590	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026425-gspD|epsD-K02453	NA	NA
BMS020_04727	843	outC	COG3031	Type II secretion system protein C	ATGCCAATTTCTGTGATGGGGTTAACAAATATAAATAAAGGGATAATTAAATTATTACCCCGAATTGTGACGCTCATCATATTAATAACCGCCATTCCGCAGCTGGCGAAATTAACCTGGCGAGTGGTATTCCCTGTCAGTTCTGAGGATATTTCCGCCCTGCCGTTAACTGCGCCTCCGGCAGCGGAACCGGAATTAAAAAACGTGCGGCCCGCGTTTACCCTGTTTGGCCTGGCGACGAAAAATCCCCCCGCGCCAGCGGAGGCCACCAGCCTCGATCAGGTGCCGGTTTCCAGCCTGAAGCTACGCCTGGCCGGGCTGCTCGCCAGCAGCAACCCGGCGCGTTCCATCGCGATTATTGAAAAAGGAAATCAGCAGGTTAGCCTTAGCGTCGGCGATACCACCCCGGGATACGATGCACAGATCGCTGCCATCCTGCCAGACCGGATCATCGTCAACTATCAGGGGCGCCAGGAGGCCATTTTATTATTTAACGATACCCGCGCGTCGTCGTCATCGCCCGCCGCCGCGCCCCGTCCGCCCCTTATGAAGCGACTCCGTGAGCAGCCGCAAAATATCCTCACTTATTTAACGATTTCGCCGGTACTCAGCGGCGACAAACTGCAGGGCTACCGACTTAACCCTGGCAAAGACGCCTCGCTGTTTCGCCAGGCCGGCCTGCAGGCAAATGATTTGGCGATCGCCTTAAATGGCATCGATTTACGCGATCAGGAACAAGCGCAACAGGCGCTGCAGAATCTGGCCGATATGACCGAAATAACGCTAACCGTTGAGCGGGAAGGCCAACGACACGATATTGCTTTCTCCCTGGGGGATGAATAA	MPISVMGLTNINKGIIKLLPRIVTLIILITAIPQLAKLTWRVVFPVSSEDISALPLTAPPAAEPELKNVRPAFTLFGLATKNPPAPAEATSLDQVPVSSLKLRLAGLLASSNPARSIAIIEKGNQQVSLSVGDTTPGYDAQIAAILPDRIIVNYQGRQEAILLFNDTRASSSSPAAAPRPPLMKRLREQPQNILTYLTISPVLSGDKLQGYRLNPGKDASLFRQAGLQANDLAIALNGIDLRDQEQAQQALQNLADMTEITLTVEREGQRHDIAFSLGDE	PGPT0026420_449	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026420-gspC|epsC-K02452	NA	NA
BMS020_04728	3291	pulA		Pullulanase	ATGCTCAGATATACCTGTCATGCCCTATTTCTTGGATCGTTAGTATTATTGAGTGGCTGTGATAACAGCTCTTCCTCCTCTTCCTCTGGCTCACCTGGCGAACCCGGTAATCCTGGCACGCCCGACCCGCAGGATGTCGTCGTCCGTTTACCGGACGTTGCCGTCCCTGGCGAAGCGGTACAGGCCTCTGCCAACCAGGCTGTCATTCACCTCGTCGATATCGCCGGCATCACCAGCAGCACGCCGGCCGACTATGCCAGCAAAAACCTCTATCTGTGGAATAACGAAACCTGTGATGCGCTGAGCGCGCCGGTGGCGGACTGGAATGATGTCAGCACCACGCCGACCGGCAGCGACAAATATGGCCCTTATTGGGTGATCCCGCTGACTAAAGAGAGCGGGTGTATCAACGTGATCGTCCGCGATGGCACCAATAAGCTTATCGACAGCGACCTGCGCGTCTCTTTCAGTGATTTCACCGATCGGACGGTATCGGTCATCGCCGGCAACAGCGCGGTCTATGACTCCCGCGCCGACGCCTTCCGCGCCGCCTTTGGCGTGGCGCTGGCCGATGCGCACTGGGTCGATAAGACCACTCTGCTGTGGCCGGGCGGGGAAAATAAACCCATTGTGCGTCTCTATTACAGCCACAGCAGTAAGGTGGCCGCCGACAGTAACGGCGAATTTACCGATAAGTATGTCAAGCTGACCCCGACCACCGTCAGCCAGCAGGTGAGCATGCGCTTCCCGCATCTCGCCAGCTATCCTGCCTTTAAGCTGCCGGATGACGTCAACGTCGAGGAATTGCTGCAGGGCGAGACGGTGGCGATATCCGCCGAAAGCGACGGGATACTGAGCTCCGCCACCCAGGTGCAGACCGCCGGCGTGCTGGATGATACCTATGCCGCCGCCGCTGAGGCGCTGAGCTATGGCGCCCAGCTAACCGATAGCGGCGTGACCTTCCGCGTCTGGGCGCCCACGGCGCAGCAGGTCGAGCTGGTGCTCTACAGTGCGGACAAGAAAGTGGTTGCCAGCCACCCGATGACCCGCGACAGCGCCTCCGGCGCCTGGTCCTGGCAGGGAGGGAGCGACCTGAAAGGCGCGTTCTACCGCTACGCGATGACGGTCTACCACCCGCAGTCGCGCAAAGTCGAGCAGTACGAAGTGACCGATCCCTACGCCCACAGTTTGTCGACCAACTCGGAGTACAGCCAGGTGGTCGATCTGAACGACAGCGCGCTGAAGCCGGAAGGCTGGGACGGGCTGACGATGCCGCACGCGCAGAAAACCAAAGCTGACCTGGCGAAGATGACGATCCACGAATCGCATATTCGCGATCTCTCCGCCTGGGATCAAACCGTTCCTGCGGAGCTGCGCGGTAAGTATCTGGCGCTCACCGCCCAGGAGAGCAATATGGTTCAGCATCTGAAGCAGCTGTCGGCCTCGGGCGTGACCCATATTGAGCTGCTGCCGGTCTTCGATCTGGCGACGGTCAATGAGTTCAGCGACAAAGTCGCCGATATTCAGCAGCCGTTCAGTCGCCTGTGCGAGGTCAACAGCGCGGTGAAGAGCAGCGAGTTCGCGGGTTATTGCGACAGCGGTTCGACGGTTGAAGAGGTGCTGACTCAGCTGAAGCAGAACGACAGTAAGGATAACCCGCAGGTGCAGGCGTTGAATACGCTGGTGGCGCAGACCGACTCCTATAACTGGGGCTACGATCCGTTCCACTACACGGTACCGGAAGGATCCTACGCCACCGACCCGGAAGGCACGGCGCGCATTAAAGAGTTCCGCACCATGATTCAGGCGATCAAGCAGGATCTGGGAATGAACGTCATTATGGACGTGGTGTACAACCACACCAACGCCGCCGGCCCGACCGACCGCACCTCGGTGCTGGATAAGATCGTCCCCTGGTACTATCAGCGTCTGAACGAAACCACCGGCAGCGTGGAATCGGCCACCTGTTGCTCCGACTCGGCGCCAGAGCACCGGATGTTCGCCAAGCTTATCGCCGATTCACTGGCGGTATGGACCACCGATTATAAGATCGATGGCTTCCGCTTCGACCTGATGGGCTACCACCCGAAAGCGCAGATCCTCTCGGCCTGGGAGCGCATTAAAGCGCTGAACCCGGATATCTACTTCTTTGGCGAAGGCTGGGATTCCAACCAGAGCGATCGCTTTGAAATTGCCTCGCAAATCAATCTCAAAGGCACCGGGATCGGCACGTTCTCCGATCGTCTGCGCGACGCCGTGCGCGGCGGCGGGCCGTTCGACTCCGGCGATGCATTGCGCCAGAACCAGGGCGTGGGCAGCGGGGCCGGCGTTCTGCCGAATGAGCTGACCACCCTGACCGACGATCAGGCGCGCCATCTCGCCGATCTGACCCGTCTCGGCATGGCCGGTAACCTTGCGGACTTCGTGCTGATCGACAAAGACGGCGCGGTGAAGAGAGGCAGCGAGATTGATTATAACGGCGCGCCTGGCGGCTACGCGGCTGATCCGACGGAAGTCGTGAACTATGTGTCAAAACACGACAACCAGACGCTGTGGGACATGATCAGCTACAAAGCCGCTCAGGAGGCGGATCTCGACACCCGCGTCCGGATGCAGGCGGTGTCGCTGGCCACGGTCATGCTCGGCCAGGGGATCGCCTTTGACCAGCAGGGCTCGGAGCTGCTGCGCTCCAAATCCTTTACCCGCGACTCGTATGATTCCGGCGACTGGTTTAACCGCGTGGATTACTCCCTGCAGGATAACAACTACAACGTCGGTATGCCGCGCAGCAGCGATGATGGCAGCAACTATGACATCATCGCCCGCGTGAAGGACTGGGTGGCCACCCCGGGTGAAGCCGAGCTCAAGCAGATGACCGCGTTTTATCAGGAGCTGACCGCGCTGCGTAAGTCATCTCCGCTGTTTACCCTCGGCGACGGCGCGACGGTGATGCAGCGTGTGGACTTCCGCAATACCGGCGCCGATCAGCAGACCGGTCTGCTGGTGATGACCATCGATGACGGGATGCAGGCTGGCGCCAGTCTGGACAGCCGCGTCGACGGCATCGTGGTGGCGATTAACGCCGCCCCGGAAAGCCGGACGCTGCAGGATTTCGCCGGCACATCGCTCCAGCTGAGCGCCATCCAGCAGGCGGCGGGCGACCGTTCGCTGGCCAGCGGCGTGCAGATTGCCGCTGACGGCTCGGTCACGCTGCCGGCCTGGTCGGTTGCCGTTCTCGAATTGCCGCAGGGCGAATCGCAGGGCGCCGGCCTGCCGGTGAGCAGTAAATAA	MLRYTCHALFLGSLVLLSGCDNSSSSSSSGSPGEPGNPGTPDPQDVVVRLPDVAVPGEAVQASANQAVIHLVDIAGITSSTPADYASKNLYLWNNETCDALSAPVADWNDVSTTPTGSDKYGPYWVIPLTKESGCINVIVRDGTNKLIDSDLRVSFSDFTDRTVSVIAGNSAVYDSRADAFRAAFGVALADAHWVDKTTLLWPGGENKPIVRLYYSHSSKVAADSNGEFTDKYVKLTPTTVSQQVSMRFPHLASYPAFKLPDDVNVEELLQGETVAISAESDGILSSATQVQTAGVLDDTYAAAAEALSYGAQLTDSGVTFRVWAPTAQQVELVLYSADKKVVASHPMTRDSASGAWSWQGGSDLKGAFYRYAMTVYHPQSRKVEQYEVTDPYAHSLSTNSEYSQVVDLNDSALKPEGWDGLTMPHAQKTKADLAKMTIHESHIRDLSAWDQTVPAELRGKYLALTAQESNMVQHLKQLSASGVTHIELLPVFDLATVNEFSDKVADIQQPFSRLCEVNSAVKSSEFAGYCDSGSTVEEVLTQLKQNDSKDNPQVQALNTLVAQTDSYNWGYDPFHYTVPEGSYATDPEGTARIKEFRTMIQAIKQDLGMNVIMDVVYNHTNAAGPTDRTSVLDKIVPWYYQRLNETTGSVESATCCSDSAPEHRMFAKLIADSLAVWTTDYKIDGFRFDLMGYHPKAQILSAWERIKALNPDIYFFGEGWDSNQSDRFEIASQINLKGTGIGTFSDRLRDAVRGGGPFDSGDALRQNQGVGSGAGVLPNELTTLTDDQARHLADLTRLGMAGNLADFVLIDKDGAVKRGSEIDYNGAPGGYAADPTEVVNYVSKHDNQTLWDMISYKAAQEADLDTRVRMQAVSLATVMLGQGIAFDQQGSELLRSKSFTRDSYDSGDWFNRVDYSLQDNNYNVGMPRSSDDGSNYDIIARVKDWVATPGEAELKQMTAFYQELTALRKSSPLFTLGDGATVMQRVDFRNTGADQQTGLLVMTIDDGMQAGASLDSRVDGIVVAINAAPESRTLQDFAGTSLQLSAIQQAAGDRSLASGVQIAADGSVTLPAWSVAVLELPQGESQGAGLPVSSK	PGPT0012195_243	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-PULLULANASE,PGPT0012195-pulA-K01200	NA	NA
BMS020_04729	558			hypothetical protein	GTGATTGTTCGTGATGACAGTGAAAGAGGGATCCCCCCGCTGGTGGCGCATCAGCCGCCTTCCGCGCAGGCGGACGCGCCGGTGATCCTCGGCCGGATGGTGCAGATCCCAGGCTGGATTATCCCGCTGTACGCCGGATTATTATTCGCGCTCGGCTGGTTTGGCGGCGAGCAGTGGCGTCATCCGGCACCGCCGCAAACGCTGCCCTTGCCGGTGGCGCATGCGGCGCTTCTGCCGTTAACCGCTGCCGGAGAGGCCGCGCCAAAGACGCCGCCGCCGGCGACAAAACCCAGTGCGCCTGCCGCGCCGGTGGTGGACAGCGATACGCTGCCGCCTCTGCGCTATAGCGCGCATGTCTACGCCTCGTTAGCGGAAAAGCGCAGCATTGTGTTAAATGGCAAAGCGTGGACGGAGGGCGACTCCCCGCTGCCCAATCTGGTGGTGGAGCAGATCCAGCAGGATGTGACGATCTTTAGCTTCAACGGCACGACCTTTACCCTCGCGGCGCTGGAGGACTGGCCCGGCGGGAAAATTGACGAGGAGCCGAAAGGCGAATAA	MIVRDDSERGIPPLVAHQPPSAQADAPVILGRMVQIPGWIIPLYAGLLFALGWFGGEQWRHPAPPQTLPLPVAHAALLPLTAAGEAAPKTPPPATKPSAPAAPVVDSDTLPPLRYSAHVYASLAEKRSIVLNGKAWTEGDSPLPNLVVEQIQQDVTIFSFNGTTFTLAALEDWPGGKIDEEPKGE	PGPT0026415_358	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026415-gspB-K02451	NA	NA
BMS020_04730	375	pulS		Pullulanase secretion protein PulS	ATGCGCATTCCGCTTATATTTCCGCTTTGCGTGGTGGCCGTGCTCTCTGGCTGCCAACAGAAACCCGCCTCAACGCTCAGTCCGGCCATCAGTAGCCAGGCGCAGCTCGAGCAGCTCTCGTCCGTGGCGGCAGGAACGCGCTATCTCAAGAATAAATGTAATCGTAGCGATCTGCCCGCCGATGAAGCTATTTATCGCGCGGCGGTGAATGTCGGCAAAGCGCGCGGCTGGGGAAATATTGACCCGGCAACGTTAAGCCAAAATAGCGACCGGCTTTACCAACAGCTTTTACAGGACAGCACCCCGGAAGCCGCGCAGTGCAGTCAATTTAATCGCCAGCTTGCTCCCTTTATTGCCAGCCTGCGCGGCGACTAA	MRIPLIFPLCVVAVLSGCQQKPASTLSPAISSQAQLEQLSSVAAGTRYLKNKCNRSDLPADEAIYRAAVNVGKARGWGNIDPATLSQNSDRLYQQLLQDSTPEAAQCSQFNRQLAPFIASLRGD	PGPT0026485_69	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026485-gspS-K02465	NA	NA
BMS020_04731	2556	mrcB_1	COG0744	Penicillin-binding protein 1B	ATGGCGGGAGATGACCGCGAGCCTATCGGACGTAAGGGAAGACCCTCACGTCCGACAAAACAGAAAGTCACCCGTCGCCGGGTCCGGGAAGAGGACTACGACGACGAGTATGATGACGATGATTATGAGGATGAGAAACCGGTGCCGAGAAAAGGCAAAGGCAAAGGTGGCAAGCCTCGTCGTAAGCGCAGCTGGCTGTGGCTGCTGGTCAAGCTGGGGATTGTCTTCGCGGTGCTGATTGCCGCCTATGGCGTCTACCTCGACCAGAAAATCCGCAGCCGCATTGACGGTAAAGTCTGGGAGCTGCCGGCCGCGGTCTATGGCCGAATGGTGAACCTTGAGCCGGACATGCAGATCAGCAAAAACGAGATGGTGCGTCTGCTGAACGCCACCCAGTATCGTCAGGTCAGCGCGATGACGCGTCCCGGCGAATATACGGTGCAGGCCAACAGCATCGAGATGATCCGCCGTCCGTTCGATTTCCCGGACAGTAAAGAAGGGCAGGTGCGCGCGCGTCTGACCTTCGACGGCGACCATCTGGAAACCATCGAGAATATGGATAACAACCGCCAGTTCGGTTTCTTCCGCCTCGATCCGCGGCTTATCACCATGCTGCAGTCGCCGAACGGCGAGCAGCGTCTGTTCGTGAAGCGCAGCGGCTTCCCCGACCTGCTGGTGGATACGCTGCTGGCGACCGAAGACCGCCACTTCTACGAGCACGATGGTATCAGCCTCTATTCCATCGGCCGTGCGGTGCTGGCGAACCTGACGGCAGGCCGGACGGTGCAGGGGGCAAGTACCCTGACCCAGCAGCTGGTGAAAAACCTGTTCCTCTCCAGCGAACGCTCCTACTGGCGTAAAGCCAACGAAGCGTACATGGCGCTGATCGTCGACGCCCGCTACAGCAAGGATCGTATCCTTGAGCTGTATATGAACGAGGTGTACCTCGGTCAGAGCGGCGATAACGAAATTCGCGGCTTCCCGCTGGCCAGCCTGTACTACTTTGGCCGTCCGGTGGAAGAGCTGAGCCTCGACCAGCAGGCGCTGCTGGTGGGGATGGTGAAAGGGGCCTCGGTCTATAACCCGTGGCGCAACCCGAAACTGGCCCTTGAGCGACGCAATCTGGTGCTGCGTCTGCTGCAGCAGCAGCAGGTCATCGACCAGGAGCTGTACGACATGCTGAGCGCGCGTCCGCTGGGCGTGCAGCCGCGCGGCGGGGTGATTTCACCACAGCCGGCGTTTATGCAGATGGTGCGTCAGGAGCTGCAGGCGAAGCTGGGCGATAAAGTGAAAGATCTCTCCGGCGTGAAGATCTTCACGACCTTCGACTCGGTGGCGCAGGATGCCGCGGAAAAAGCGGCCACTGAAGGGATCCCGGTACTGAAGAAACAGCGCAAGCTGGCAGATCTGGAAACCGCCATGGTGGTGGTGGACCGCTTTACCGGTGAAGTGCGGGCGATGGTCGGCGGCGCGGAGCCGCAGTTCGCCGGCTACAACCGTGCGATGCAGGCCCGCCGGTCGATTGGTTCTCTGGCCAAGCCGGCGACCTATCTGACCGCGCTGAGCCAGCCGAACCAGTATCGCCTGAATACGTGGATCGCCGATGCGCCAGTGACCATTCGCCTGTCCAACGGCCAGACCTGGTCGCCGCAGAACGACGATCGTCGCTTCAGCGGCCAGGTGATGCTGGTGGATGCCCTGACCCGTTCGATGAACGTGCCGACGGTTAACCTCGGGATGGCGCTGGGCTTGCCGGCGGTGGTCGATACCTGGACCAAACTGGGGGCGCCGAAGAATCAGCTCAACGCCGTGCCGGCGATGCTGCTTGGCGCGCTGAACCTGACGCCAATTGAAGTGGCCCAGGCCTTCCAGACCATCGCCAGCGGCGGCAACCGTGCGCCACTCTCCGCCCTGCGGTCAGTGATTGCGGAAGATGGCACGGTGCTGTATCAGAGCTACCCGCAGGCGGAGCGCGCGGTGCCTGCCCAGGCGGCCTACATGACGCTGTGGACCATGCAGCAGGTGGTGCAGCGCGGGACGGGGCGTCAGCTGGGCGCGAAGTATCCGGGCCTCCATCTGGCGGGGAAAACCGGGACCACCAACAATAACGTCGATACCTGGTTTGCCGGGATCGACGGTAGCCAGGTGACCATCACCTGGGTGGGTCGCGATAATAACCAGCCAACCAAACTGTACGGCGCCAGCGGTGCGATGTCGATTTACCAGCGTTATCTGGCGAACCAGACGCCAACGCCGCTGGTGCTGACGGCGCCTGAGGACGTGGTCGACATGGGCGTGGACAGCAACGGCAACTTCGTCTGCAGCGGCGGTATGCGTTCGCTGCCGGTGTGGACGACGCAGCCGGATGCGCTGTGCCGCCAGGGCGAGATGATGCAGCAGCAGCAGTTGCAGCAGCAGGAAGCGAACAACCCGTTCAATCAGTCCGGGCAGCAGCAGCCTCAGCAGCAACAGCAGCAGCAACAGCAGCCGCCGAAGCAGCAGGAGAAGAGCGACGGCGTCGCGGGCTGGATCAAGGATATGTTCGGCAGTAACTGA	MAGDDREPIGRKGRPSRPTKQKVTRRRVREEDYDDEYDDDDYEDEKPVPRKGKGKGGKPRRKRSWLWLLVKLGIVFAVLIAAYGVYLDQKIRSRIDGKVWELPAAVYGRMVNLEPDMQISKNEMVRLLNATQYRQVSAMTRPGEYTVQANSIEMIRRPFDFPDSKEGQVRARLTFDGDHLETIENMDNNRQFGFFRLDPRLITMLQSPNGEQRLFVKRSGFPDLLVDTLLATEDRHFYEHDGISLYSIGRAVLANLTAGRTVQGASTLTQQLVKNLFLSSERSYWRKANEAYMALIVDARYSKDRILELYMNEVYLGQSGDNEIRGFPLASLYYFGRPVEELSLDQQALLVGMVKGASVYNPWRNPKLALERRNLVLRLLQQQQVIDQELYDMLSARPLGVQPRGGVISPQPAFMQMVRQELQAKLGDKVKDLSGVKIFTTFDSVAQDAAEKAATEGIPVLKKQRKLADLETAMVVVDRFTGEVRAMVGGAEPQFAGYNRAMQARRSIGSLAKPATYLTALSQPNQYRLNTWIADAPVTIRLSNGQTWSPQNDDRRFSGQVMLVDALTRSMNVPTVNLGMALGLPAVVDTWTKLGAPKNQLNAVPAMLLGALNLTPIEVAQAFQTIASGGNRAPLSALRSVIAEDGTVLYQSYPQAERAVPAQAAYMTLWTMQQVVQRGTGRQLGAKYPGLHLAGKTGTTNNNVDTWFAGIDGSQVTITWVGRDNNQPTKLYGASGAMSIYQRYLANQTPTPLVLTAPEDVVDMGVDSNGNFVCSGGMRSLPVWTTQPDALCRQGEMMQQQQLQQQEANNPFNQSGQQQPQQQQQQQQQPPKQQEKSDGVAGWIKDMFGSN	PGPT0023880_43	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023880-mrcB-K05365	NA	NA
BMS020_04732	2208	fhuA_2	COG1629	Ferrichrome outer membrane transporter/phage receptor	ATGGCGCGTCCAAAAACTGCTCAGCCAAACCACTCGCTGCGTAAAGTCGCAGCTGTAGTAGCCACGGCGGTTAGCGGCATGTCTGTCTACGCACAGGCAGCAGAACAACCGAAGCAAGAAGAAACCATTACCGTCGTTGCCGCCCCGGCCGCCCAGGAAAGCGCCTGGGGACCGGCGCCGACCATCGCGGCGAAACGTTCCGCCACGGCGACGAAAACCGATACCCCGATTGAAAAAACGCCGCAGTCTGTGTCGGTGGTGACGCGCCAGGAGATGGAGATGCGCCAGCCGACGACGGTAAAAGAGGCGCTCTCCTATACGCCAAGCGTCTTCTCCACCCGCGGCAGTTCGACCACCTATGACGTGGTCACCATTCGCGGCTTCACCACCTCGACGACCGTCAACACCAACCAGTATCTGGACGGCATGAAGCTGCAGGGGAATAACTACTCTGAAGTCTCCATGGATCCTTACTTCCTGGAGCGCGTGGAAGTGATGCGCGGACCAACCTCGGTGCTGTACGGCAACAGCAACCCGGGCGGTATCGTCAGCATGGTCAGCAAACGCCCGACCTCCGAGCCGCTGAAAGAAGTGCAGTTTAAGATGGGCACCGACAATCTGTGGCAGACCGGGTTTGACTTCAGCGACGCCATTGATGATGCCGGCGTCTGGTCCTACCGCCTGACCGGCCTGGGCCGCAGCCAGGATGCCCAGCAGCAGATGGCGAAATCGACCCGCTACGCGGTGGCGCCCTCCTTTAGCTGGCGTCCGGATGATAAAACCGACTTCACCTTCCTGAGCAACTTCCAGAATGATCCGGATGCGGGCTACTACGGCTGGCTGCCGCGCGAAGGCACCGTGGTGCCGTATTACGACGCCAACGGTAAGGCGCATAAGCTGCCGACCGATTTCAACGAAGGCGAGGCGGATAATAAGATCTCCCGCCGCCAGAAGATGGTGGGCTACAGCTTCTCCCATCAGTTCGATGACACCTTTACCGTGCGGCAGAACCTGCGCTATGCCGATGTGCATACGCTCTATCGTTCGGTGTACGGCAATGGCTATGTCGCGCCGGGCTACATGAATCGCGCCTATGTGCGCTCCGACGAGCACCTGAACACCTTCACCGTCGATACTCAGCTGCAGTCTGATTTCGCCACCGGCGCGGTTAGCCATACCCTGCTGACCGGCGTGGACTACTCACGGATGCGTAACGATGTGGATGCCGACTACGGGACGGCGGATCCCATCAGCATGAACAATCCGCAGTACGGCAACCCGAATATTCAGGTCACCTTCCCGTACGCGGTGCTCAACCGGATGGAGCAGACTGGCCTGTACGCGCAGGATCAGATGGAGTGGGATAAATGGGTGATGACCCTGGGCGGCCGTTACGATTACGCCACGACCTCAACGTTAACCCGCGCCACCAACAGCCTGGCGGAGAACCACGACCAGCAGTTCAGCTGGCGCGGCGGCGTCAACTACCTGTTCGATAACGGTATCTCTCCGTACTTCAGCTACAGCGAATCGTTTGAACCGGTATCGGGCGCCAGCAGCAGCGGTAAGCCGTTCGATCCGTCGCGCGGTAAGCAGTATGAAGCCGGCGTGAAATATGTGCCGAAAGATATGCCGGTGGTGGTCACCGCGGCGGTCTATCAGCTGACCAAAGACAAGAACCTGACGGCGGATCCGGCTAACCAGGCGTTCAGCATCCAGACCGGCGAAATCCGCTCCCGCGGCCTTGAGCTGGAGGCGAAGGCGGCGGTGAACGCCAATATTAACGTCACCGCAGCCTACAGCTACACCGATGCGGAGTACACTCACGATACGGTGTTCAACGGCAAACGTCCGGCGGAAGTGCCGCGTAACATGGCCTCCCTGTGGGCGGATTATACCTTCCACGAAACCGCGCTGAGCGGTCTGACGATTGGGGCCGGGGCGCGCTATATCGGTTCAACGGTCAGCTACTACAAAAATGACACCAGCACCGGTAAGAAAAATGATGCCTTTAGTGTGGCCGGTTATGCGCTGATGGATGCGACGGTGAAATACGATCTGGCGCGCTTTGGCCTGCCGGGCTCGTCGGTCGGCGTCAACGTCAACAACCTGTTCGACCGCGAATATGTCTCCAGTTGCTACAGCGAATACGCCTGCTACTGGGGGGCCGGACGTCAGGTCGTCGCCACCGCCACCTTCCGTTTCTAA	MARPKTAQPNHSLRKVAAVVATAVSGMSVYAQAAEQPKQEETITVVAAPAAQESAWGPAPTIAAKRSATATKTDTPIEKTPQSVSVVTRQEMEMRQPTTVKEALSYTPSVFSTRGSSTTYDVVTIRGFTTSTTVNTNQYLDGMKLQGNNYSEVSMDPYFLERVEVMRGPTSVLYGNSNPGGIVSMVSKRPTSEPLKEVQFKMGTDNLWQTGFDFSDAIDDAGVWSYRLTGLGRSQDAQQQMAKSTRYAVAPSFSWRPDDKTDFTFLSNFQNDPDAGYYGWLPREGTVVPYYDANGKAHKLPTDFNEGEADNKISRRQKMVGYSFSHQFDDTFTVRQNLRYADVHTLYRSVYGNGYVAPGYMNRAYVRSDEHLNTFTVDTQLQSDFATGAVSHTLLTGVDYSRMRNDVDADYGTADPISMNNPQYGNPNIQVTFPYAVLNRMEQTGLYAQDQMEWDKWVMTLGGRYDYATTSTLTRATNSLAENHDQQFSWRGGVNYLFDNGISPYFSYSESFEPVSGASSSGKPFDPSRGKQYEAGVKYVPKDMPVVVTAAVYQLTKDKNLTADPANQAFSIQTGEIRSRGLELEAKAAVNANINVTAAYSYTDAEYTHDTVFNGKRPAEVPRNMASLWADYTFHETALSGLTIGAGARYIGSTVSYYKNDTSTGKKNDAFSVAGYALMDATVKYDLARFGLPGSSVGVNVNNLFDREYVSSCYSEYACYWGAGRQVVATATFRF	PGPT0003790_17756	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_04733	798	fhuC_2	COG1120	Iron(3+)-hydroxamate import ATP-binding protein FhuC	ATGCAGGAACAGACTCCGCACGCAGAAACCACCTTCGCGCTGGATCGCGTCACTTTCCGTGTGCCTGGCCGCACGTTGCTCCATCCGCTCTCGCTCACCTTCCCGGCCGGAAAAGTCACAGGCCTGATCGGCCATAATGGCTCCGGCAAGTCGACGTTACTGAAAATGCTTGGCCGCCATCAGCCGCCTTCCGCAGGCGATGTGCTGCTGGACGGCCAGCCGCTGGAGAGCTGGGGCAGCAAAGCCTTTGCCCGCAAAGTGGCCTATCTGCCGCAGCAGCTGCCGCCGGCCGAAGGTATGACGGTGCGCGAGCTGGTGGCGATCGGCCGCTATCCATGGCACGGCGCGCTGGGTCGCTTTGGCGCGGCGGACCGCGAGAAAGTGGAAGAGGCGATTGCGCTGGTAGGGCTGAAGCCGCTCGCCCATCGTCTGGTGGACAGCCTCTCCGGCGGCGAACGCCAGCGGGCGTGGATCGCCATGCTGGTGGCGCAGGATAGCCGCTGTCTGCTGCTCGATGAACCCACCTCGGCGCTGGATATCGCCCATCAGGTTGATGTCCTCGCGCTGGTGCATCGTCTCAGCCAGCAGCGCGGCCTGACGGTGATCGCCGTCCTGCACGACGTTAATATGGCGGCCCGCTACTGCGACTATCTGGTGGCCCTGCGCGGCGGGGAAATGATCGCCCAGGGGACGCCGGCGGAACTGATGCGCAGCGACACCCTGGAACAAATCTACGGCATCCCGATGGGGATCCTGCCGCACCCGGCCGGCGCGGCGCCGGTAAGCTTTGTCTATTGA	MQEQTPHAETTFALDRVTFRVPGRTLLHPLSLTFPAGKVTGLIGHNGSGKSTLLKMLGRHQPPSAGDVLLDGQPLESWGSKAFARKVAYLPQQLPPAEGMTVRELVAIGRYPWHGALGRFGAADREKVEEAIALVGLKPLAHRLVDSLSGGERQRAWIAMLVAQDSRCLLLDEPTSALDIAHQVDVLALVHRLSQQRGLTVIAVLHDVNMAARYCDYLVALRGGEMIAQGTPAELMRSDTLEQIYGIPMGILPHPAGAAPVSFVY	PGPT0003325_451	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|ALBOMYCINS,PGPT0003325-fhuC-K10829	NA	NA
BMS020_04734	891	fhuD	COG0614	Iron(3+)-hydroxamate-binding protein FhuD	ATGATGACCCCGACTCAGATAACCCGACGTCGCCTGCTGACCGCGATGGCGCTCTCGCCGCTGCTGTGGCAGATGCGCGGCGCGCAGGCGGCGAATGTTGACCCGCAGCGTGTGGTCGCCCTGGAGTGGCTGCCGGCGGAGCTGCTGCTGGCGCTGGGCGTCACGCCTTACGGCGTGGCCGATATCCCTAACTATCGCCTGTGGGTAAACGAGCCCGCGCTGCCCGACTCGGTGATCGATGTCGGACTGCGCACTGAACCCAATCTTGAGCTGCTGACGCAGATGAAACCGTCGTTTATCGTCTGGTCAGCAGGCTACGGCCCGTCGCCGGAGAAGCTGGCGCGTATCGCCCCCGGCCGCGGATTCACCTTTAGCGACGGCAAACGTCCGCTGGCGATGGCTCAGCGCTCGCTGCTGGAGATGGCTGACCTGCTGGGCAAACCGCAGCAGGCTCAGCGCCACCTGGCGGAGTTTGAGGCGCTGATGGCGAGCCTGAAGCCGCGTTTTGCCGGGCGCGGCGACCGTCCGCTGCTGATGATCTCCCTGCTCGATCCGCGCCACGTTCTGGTGTTTGGCGAAAACTGCCTGTTCCAGGAGGTGCTTGACCGCTTTGGTATTAAAAACGCCTGGCGCGGCGAAGCGGCGTTCTGGGGCAGCGTCAGCGTTGGCATCGACCGGCTGGCGGCGTTTAACGAGGCCGATGTGATCTGTTTTGATCATGGTAACGAGCGGGAGATGACCCAACTGCTGGCGACCCCGCTGTGGCAGGCGATGCCTTTCGTGCGCGCGGGACGCTTCCAGCGCGTTCCGGCGGTGTGGTTCTATGGCGCGACGCTGTCGGCGATGCATTTTGCCCGCGTGCTGGCCGAGGCCCAGGGGAGTCCGGCATGA	MMTPTQITRRRLLTAMALSPLLWQMRGAQAANVDPQRVVALEWLPAELLLALGVTPYGVADIPNYRLWVNEPALPDSVIDVGLRTEPNLELLTQMKPSFIVWSAGYGPSPEKLARIAPGRGFTFSDGKRPLAMAQRSLLEMADLLGKPQQAQRHLAEFEALMASLKPRFAGRGDRPLLMISLLDPRHVLVFGENCLFQEVLDRFGIKNAWRGEAAFWGSVSVGIDRLAAFNEADVICFDHGNEREMTQLLATPLWQAMPFVRAGRFQRVPAVWFYGATLSAMHFARVLAEAQGSPA	PGPT0003330_698	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|ALBOMYCINS,PGPT0003330-fhuD-K23227	NA	NA
BMS020_04735	1983	fhuB	COG0609	Iron(3+)-hydroxamate import system permease protein FhuB	ATGAATACGCGTATTTCACCGTTAGCCAGTATCCTGCTGGCCGCGCTGCTGGTCGCCGCCTTCGCGTTGAGTATCGTCAATCTCAATGTCGCCTTGCCCTATGCGCAATGGCGGCAGGCGCTGCGGCAGCCGGATAGCGATCAGATTGCCCAGATGCTGTTTCATTACAGCCTGCTGCCGCGGGTGGCCGTTTCACTGCTGGTGGGGGCCGGGCTGGGACTGGTCGGCGTACTGTTCCAGCAGGTGCTGCGCAATCCGCTGGCGGAGCCGACCACCCTTGGCGTCGCCACCGGCGCGCAGCTGGGGATAACGGTCACCACGCTGTGGGCCATCCCCGGCGTGCTGGCGTCGCAGTTTGCCGCGCTGGCCGGGGCCTGTCTGGTGGGTGCGCTGGTGTTTGGCGTCTCCTGGGGCAAGCGTCTGTCGCCGGTAACGCTGATCCTGGCGGGCCTGGTGGTCAGCCTCTACTGCGGGGCGCTTAACCAGCTGATGGTGATTTTCCATCACGACCAGCTGCAGAGCATGTTCCTGTGGAGCACCGGGACGCTGACGCAAACCGACTGGAGCGTGGCGCAGCGCCTGTGGCCGCAGCTGCTGGGCGGGGCGATACTCACCCTGCTGCTGCTGCGTCCGCTGACTCTGATGGGGCTCGATGACGGGGTGGCGCGCAACCTGGGGCTGGCGCTGTCTCTGGCGCGCCTCGGTGCCCTGACGCTGGCGATCGTGATGAGCGCGCTGCTGGTCAACGCAGTCGGGATTATCGGCTTTATCGGCCTGTTCGCGCCGCTGCTGGCGAAAATGCTCGGCGCCCGTCGACTGCTGGCCCGGCTGCTGCTGGCGGCGCTGATCGGCGCGCTGCTCCTGTGGCTTTCCGATCAGGTGATCCTCTGGCTGAGCCGGGTATGGCGGGAAGTCTCCACCGGCTCGGTCACCGCCCTGATTGGCGCGCCCCTGCTGCTGTGGCTGCTGCCGCGGCTGCGCAGCATCAGCGCCCCGGTGATGAACGGCGGCGATAATGTGCAGCCTGAGCGCTATCACGTGCAATGGTTTGTTCTCGGGGGCGTCGCGTTGCTGCTGCTGGCGATGAGCGTGGCGCTGGCCTTTGGTCGCGATGCCCACGGCTGGCTGTGGGCTCACGGCGATCTGCTGGAGCAACTGCTGCCCTGGCGCTGGCCGCGGGTGCTGTCGGCGCTGTTCGCCGGGGTGATGCTGGCGGTAGCCGGCTGTATTATCCAGCGCCTGACCGGCAACCCGATGGCCAGCCCGGAAGTGCTGGGCATCAGCTCCGGCGCCGCCTTTGGCGTAGTGCTGATGCTGTTCTTCGTGCCTGGCGACGCCTTTGGCTGGCTGCTGCCGGCCGGGAGCCTTGGCGCGGCGGCCACTTTGCTGATCATTATGCTGGCCGCCGGGCGGGGCGGTTTCTCGCCGCATCGGATGCTGCTGGCGGGGATGGCGCTCAGTACCGCCTTCACTATGCTGCTGATGATGCTGCAGGCCAGCGGCGATCCGCGTATGGCGCAGATCCTGACGTGGATCTCGGGGTCGACCTACAGCGCGACGCCGGAGAGGGTGGTACGCAGCGGCGCGGTGATGCTGGTCCTGCTGGCGCTGGCGCCGCTCTGTCGCCGCTGGTTAACCATCCTGCCGCTGGGCGGGGAGGCGGCGCGGGCGGTGGGCATGGCGCTGACGTCATCGCGGATTGTTCTGCTGCTGTTGGCGGCCTGCCTGACGGCGGCGGCGACGCTGACCATCGGCCCGCTGAGCTTCGTCGGGCTGATGGCGCCGCATATCGCGCGCATGATGGGCTTCCGGCGAACGCTGCCGCATATGGTGATCTCCGGACTGACTGGCGGGCTGCTGCTGGTCTTCGCCGACTGGTGCGGACGGATGATCATGTTCCCGTACCAGATCCCGGCGGGGCTGCTGTCGACCTTTATCGGCGCGCCGTACTTTATCTATTTGCTGAGGAAACAGAGCCGCTAA	MNTRISPLASILLAALLVAAFALSIVNLNVALPYAQWRQALRQPDSDQIAQMLFHYSLLPRVAVSLLVGAGLGLVGVLFQQVLRNPLAEPTTLGVATGAQLGITVTTLWAIPGVLASQFAALAGACLVGALVFGVSWGKRLSPVTLILAGLVVSLYCGALNQLMVIFHHDQLQSMFLWSTGTLTQTDWSVAQRLWPQLLGGAILTLLLLRPLTLMGLDDGVARNLGLALSLARLGALTLAIVMSALLVNAVGIIGFIGLFAPLLAKMLGARRLLARLLLAALIGALLLWLSDQVILWLSRVWREVSTGSVTALIGAPLLLWLLPRLRSISAPVMNGGDNVQPERYHVQWFVLGGVALLLLAMSVALAFGRDAHGWLWAHGDLLEQLLPWRWPRVLSALFAGVMLAVAGCIIQRLTGNPMASPEVLGISSGAAFGVVLMLFFVPGDAFGWLLPAGSLGAAATLLIIMLAAGRGGFSPHRMLLAGMALSTAFTMLLMMLQASGDPRMAQILTWISGSTYSATPERVVRSGAVMLVLLALAPLCRRWLTILPLGGEAARAVGMALTSSRIVLLLLAACLTAAATLTIGPLSFVGLMAPHIARMMGFRRTLPHMVISGLTGGLLLVFADWCGRMIMFPYQIPAGLLSTFIGAPYFIYLLRKQSR	PGPT0003320_617	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|ALBOMYCINS,PGPT0003320-fhuB-K23228	NA	NA
BMS020_04736	1281	hemL_1	COG0001	Glutamate-1-semialdehyde 2,1-aminomutase	ATGAGCAAATCTGAAAATCTGTACCACGCTGCGCGTGAACTGATCCCCGGCGGCGTTAACTCGCCGGTCCGCGCCTTCACCGGCGTCGGCGGCACCCCGCTGTTTATCGAACGCGCGGATGGCGCTTACCTTTATGACGTGGATGGGAAAGCCTATATCGATTATGTCGGCTCCTGGGGTCCGATGGTGCTGGGCCACAACCATCCGGCGATCCGCAACGCGGTGATCGAGGCGGCGTCCCGCGGCCTGAGCTTTGGCGCGCCGACCGAAATGGAAGTAAAAATGGCGGCGCTGGTGACCGAGCTGGTGCCGACCATGGATATGGTGCGCATGGTGAACTCCGGTACCGAAGCCACCATGAGCGCGATTCGCCTGGCGCGCGGCTTCACCGGCCGCGACAAGATCATCAAGTTCGAAGGCTGCTACCACGGCCATGCCGACTGCCTGCTGGTGAAAGCCGGTTCCGGCGCGCTGACCCTCGGCCAGCCGAACTCGCCGGGCGTGCCGGCTGATTTCGCCAAACATACCCTGACCTGCACCTATAACGACCTCGCCTCCGTGCGCGCGGCGTTCGAGCAGTATCCGCAGGATATCGCCTGCATCATCGTCGAGCCGGTCGCCGGGAACATGAACTGCATTCCGCCGCAGCCGGAGTTCCTGCCGGGCCTGCGCGCGCTGTGCGACGAATTTGGCGCCCTGCTGATCATCGACGAAGTGATGACCGGCTTCCGCGTAGCGCTGGCGGGCGCGCAGGCTTATTACGGCGTGGAGCCGGATCTGACCTGTCTCGGGAAAATCATCGGCGGCGGGATGCCGGTAGGCGCCTTCGGCGGCCGTCGCGAGGTGATGGACGCGCTGGCGCCCACCGGTCCGGTCTACCAGGCCGGAACCCTCTCCGGTAACCCGATCGCCATGGCCGCCGGCTTCGCCTGCTTAAGCGAAGTGGCGCAGCCGGGCGTGCATGAAACCCTCACCGAGCTGACCAACCAGCTGGCGCAAGGCCTGCTGGATGCGGCGCGTGACGCCGGGATCCCGCTGGTGGTCAATAACGTCGGCGGCATGTTCGGCATCTTCTTTACCGATGCCGAAACCGTCACCTGCTATCAGGACGTGGTGAAGTGCGATGTCGAACGCTTCAAGCGCTTCTTCCATCTGATGCTGGAGGAAGGCGTGTACCTGGCGCCGTCAGCGTTTGAGGCTGGCTTTATGTCCGTCGCCCACAGCGAAGAAGATATCGACAATACCATCGACGCCGCGCGTCGGGTATTTGCCAAACTGTAA	MSKSENLYHAARELIPGGVNSPVRAFTGVGGTPLFIERADGAYLYDVDGKAYIDYVGSWGPMVLGHNHPAIRNAVIEAASRGLSFGAPTEMEVKMAALVTELVPTMDMVRMVNSGTEATMSAIRLARGFTGRDKIIKFEGCYHGHADCLLVKAGSGALTLGQPNSPGVPADFAKHTLTCTYNDLASVRAAFEQYPQDIACIIVEPVAGNMNCIPPQPEFLPGLRALCDEFGALLIIDEVMTGFRVALAGAQAYYGVEPDLTCLGKIIGGGMPVGAFGGRREVMDALAPTGPVYQAGTLSGNPIAMAAGFACLSEVAQPGVHETLTELTNQLAQGLLDAARDAGIPLVVNNVGGMFGIFFTDAETVTCYQDVVKCDVERFKRFFHLMLEEGVYLAPSAFEAGFMSVAHSEEDIDNTIDAARRVFAKL	PGPT0003680_4628	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845	NA	NA
BMS020_04737	1419	clcA_2	COG0038	H(+)/Cl(-) exchange transporter ClcA	ATGAAAGCAGAAACTCCCTCTTTTGAAGCACATCAGTTCGTGCGGGTGCGTCGCGGCGATGCGGTGCGCCGGTTGATTCAGCGCGATAAAACGCCGCTGGCGGTGCTGTTTATGGCGGCGGTGGTCGGCACGCTGGCCGGGCTGGTGGGCGTGGCGTTTGAAAAGAGCGTGAACTGGGTGCAGAACCAGCGGATCGGCGCGCTGGCGCAGGTGGCGGATCACTGGTATCTGGTCTGGCCGCTGGCGTTTATCTTGTCGGCGCTGCTGGCGATGGTCGGCTATTTCCTCGTGCGCCGTTTTGCGCCGGAGGCTGGCGGATCGGGGATCCCGGAAATCGAAGGGGCGCTGGAGGAGCTGCGGCCGGTGCGCTGGTGGCGCGTGCTGCCGGTGAAATTCATCGGCGGCATGGGGACCCTGGGCGCCGGAATGGTGCTGGGACGCGAGGGGCCGATGGTGCAACTTGGCGGCAACATTGGACGCATGGTGCTGGATATTTTCCGCATGCGCAGTCCGGAAGCGCGGCACACGCTGCTGGCGACCGGTGCAGCGTCGGGGCTCTCAGCGGCCTTTAACGCGCCGCTGGCCGGTATCCTGTTTATCATCGAAGAGATGCGCCCGCAGTTCCGCTACAACCTGATCTCCATTAAAGCGGTATTTACCGGCGTGATCATGTCGAGCATTGTGTTTCGCATTTTCAACGGCGAGGCGGCAATTATAGAGGTGGGCAAGCTGAGCAATGCCCCGGTGAATACCCTGTGGCTGTACCTGGTGCTGGGGATGCTGTTTGGCTGCTTTGGCCCGTTGTTTAATTTTCTGGTGCTACGCACCCAGGATCTGTTCCAGCGCATTCACGGCGGCCACATCAAAAAATGGGTGTTAATTGGCGGGGTCATCGGCGGGCTTTGCGGCCTGCTGGGGCTGATGCAGCCCTCCGCGGTGGGCGGTGGCTTTAACCTGATCCCCATCGCCGCCGCCGGTAACTTCTCCGTCGGTTTGCTGCTGTTCATCTTTATTGCCCGCGTGGTGACCACGCTGATCTGCTTCTCTTCCGGCGCGCCGGGCGGCATTTTCGCCCCGATGCTGGCGCTTGGCACGCTGCTGGGCACGGCGTTCGGCATGGCGGCTATTCCGCTGTTTCCATCCTACCATCTCGATGCCGGCACCTTCGCCATCGCCGGTATGGGGGCGCTGCTCGCCGCCTCGGTGCGCGCGCCGCTGACCGGGATTGTGCTGGTGCTGGAGATGACCGATAACTATCAGCTCATTTTGCCAATGATTATTACCTGCCTTGGCGCAACACTACTGGCGCAATTCCTCGGCGGTAAGCCTTTGTATTCGACCATTCTGCAACGTACTCTGGCGAAGCAGGAGGCCGAGCAGGCGGCAAAAGCGCAGCAGGCACCCCGGGAGAATACTTGA	MKAETPSFEAHQFVRVRRGDAVRRLIQRDKTPLAVLFMAAVVGTLAGLVGVAFEKSVNWVQNQRIGALAQVADHWYLVWPLAFILSALLAMVGYFLVRRFAPEAGGSGIPEIEGALEELRPVRWWRVLPVKFIGGMGTLGAGMVLGREGPMVQLGGNIGRMVLDIFRMRSPEARHTLLATGAASGLSAAFNAPLAGILFIIEEMRPQFRYNLISIKAVFTGVIMSSIVFRIFNGEAAIIEVGKLSNAPVNTLWLYLVLGMLFGCFGPLFNFLVLRTQDLFQRIHGGHIKKWVLIGGVIGGLCGLLGLMQPSAVGGGFNLIPIAAAGNFSVGLLLFIFIARVVTTLICFSSGAPGGIFAPMLALGTLLGTAFGMAAIPLFPSYHLDAGTFAIAGMGALLAASVRAPLTGIVLVLEMTDNYQLILPMIITCLGATLLAQFLGGKPLYSTILQRTLAKQEAEQAAKAQQAPRENT	PGPT0004990_1741	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0004990-TC_CIC|eriC-K03281	NA	NA
BMS020_04738	345	erpA_1	COG0316	Iron-sulfur cluster insertion protein ErpA	ATGAGTGATGACGTAGCGTTGCCGCTGGAGTTTACCGAAGCCGCAGCCAATAAAGTAAAACACCTGATTGCGGATGAAGATAATCCGAACCTGAAACTGCGCGTGTATATCACCGGCGGCGGTTGCAGCGGTTTCCAGTATGGCTTCACCTTCGACGATCAGGTGAACGAAGGGGATATGACCATTGAGAAACAGGGTGTCGGCCTGGTGGTTGACCCGATGAGCCTGCAGTACCTGGTCGGCGGCTCTGTCGACTATACCGAAGGGCTGGAAGGTTCGCGCTTTATCGTGACCAACCCGAACGCGAAAAGCACCTGCGGCTGCGGGTCCTCGTTCAGCGTTTAA	MSDDVALPLEFTEAAANKVKHLIADEDNPNLKLRVYITGGGCSGFQYGFTFDDQVNEGDMTIEKQGVGLVVDPMSLQYLVGGSVDYTEGLEGSRFIVTNPNAKSTCGCGSSFSV				NA	NA	NA	NA	NA
BMS020_04739	627			hypothetical protein	ATGCTTGTCTATTGGCTGGATATTATTGGCACGGCCGTTTTCGCGATCTCCGGCGTTCTGCTGGCCGGAAAATTACGCATGGACCCGTTTGGCGTGCTGGTGTTAGGCGTGGTGACGGCGGTGGGCGGCGGAACCATCCGCGACATGGCGCTGGCGAATGGCCCGGTATTCTGGGTCAAAGATCCCACCGATCTGGTGGTGGCGATGGTCACCAGCATGTTGACCATCCTGCTGGTCCGCCAGCCGCGCCGGCTGCCGAAATGGATCCTGCCGGTGCTCGACGCCGTCGGTTTAGCGGTGTTTGTCGGCATCGGCGTCAATAAAGCCTTTCTCGCCGGCAGCGGCCCGCTGGTAGCGGTATGCATGGGGGTGGTGACCGGCGTTGGCGGCGGGATAATCCGCGACGTGCTGGCGCGCGAAATTCCTATGATTCTGCGCACCGAGATCTACGCCACCGCCTGTATCGTCGGCGGCATTGTCCACGCCACCGCGCACGACACCTTCCATCTCCCGCTGGAGAATTCGGCGATGATGGGGATGGTGGTGACCCTGGCGATCCGGCTGGCGGCGATCCGCTGGCATCTGAAGCTGCCGACGTTTGCCCTGGACGATAACGGACGGTCATAA	MLVYWLDIIGTAVFAISGVLLAGKLRMDPFGVLVLGVVTAVGGGTIRDMALANGPVFWVKDPTDLVVAMVTSMLTILLVRQPRRLPKWILPVLDAVGLAVFVGIGVNKAFLAGSGPLVAVCMGVVTGVGGGIIRDVLAREIPMILRTEIYATACIVGGIVHATAHDTFHLPLENSAMMGMVVTLAIRLAAIRWHLKLPTFALDDNGRS				NA	NA	NA	NA	NA
BMS020_04740	801	btuF_2	COG0614	Vitamin B12-binding protein	GTGACTAAGTCGCTCTCCTTCGCGCTTGCCGCGCTGCTGTTACTCGCCCCGGCGTGGCTGCTGGCCGCGCCGCGGGTGATCGCCCTCTCCCCCGCCAATACCGAACTGGCCTTTGCCGCCGGGATCACGCCGGTCGGCGTCAGTAGCTATTCCGATTATCCGCCGCAGGCCAAAACGATTGAGCAGGTTGCCAGCTGGCAGGGGATGAACCTGGAGCGCATCGTAGCGTTAAAGCCAGACCTGGTGCTGGCCTGGCGCGGCGGTAATGCCGAACGTCAGGTTAACCAACTGCAGTCGCTGGGTATCCACGTCCTCTGGGTGCAGACTTCGACCATCGAAGAGATCATCGCCACCCTGCGTCAGCTGGCGCAGTGGAGCCCGCAGCCGGAAAAAGCGCAGCAGGCGGCGCAGGCGATGCAGCAGGAATACGATGCGCTGAAAGCGCGCTATGCCAGCGCGCCGAAGAAACGCGTCTTCCTGCAGTTCGGTTCCGCCCCGCTGTTCACCAGCGGCCCCGGCTCGATTCAGGATCAGGTGCTGAGGCTGTGCGGCGGCGAGAATATCTTTGCTGCCAGCCGTGTTCCCTGGCCGCAGGTGAGCCGCGAACAGGTGCTGGCCCGTCAGCCGCAGGCGATTGTGGTGACCGGCGACGCCAGCCGCATCGCCGAGGCGCAGCGCTTTTGGCAACATCAGCTCACCATTTCGTTGATTGCGTTACACAGCGACTGGTTTGAACGCGCAAGCCCACGTATTATCCTCGCCGCCAAACAACTTTGTGCGGCGCTCGACCAGGTAAAATAA	MTKSLSFALAALLLLAPAWLLAAPRVIALSPANTELAFAAGITPVGVSSYSDYPPQAKTIEQVASWQGMNLERIVALKPDLVLAWRGGNAERQVNQLQSLGIHVLWVQTSTIEEIIATLRQLAQWSPQPEKAQQAAQAMQQEYDALKARYASAPKKRVFLQFGSAPLFTSGPGSIQDQVLRLCGGENIFAASRVPWPQVSREQVLARQPQAIVVTGDASRIAEAQRFWQHQLTISLIALHSDWFERASPRIILAAKQLCAALDQVK	PGPT0004685_454	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0004685-btuF-K06858	NA	NA
BMS020_04741	699	mtnN	COG0775	5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase	ATGAAAATTGGCATTATTGGCGCTATGGAAGAGGAAGTTACCCTTCTGCGCGACAAAATCGAAAACCGCCAGACTATCACTATTGGCGGGAGCGAAATCTATACCGGCCAACTTCACGGCGTTGACGTCGCGCTGCTGAAGTCTGGTATCGGGAAAGTGGCGGCGGCAATGGGCGCGACCCTGCTGCTGGAGCGTTGCCAGCCTGACGTGATCATTAATACCGGCTCTGCCGGCGGCCTGGCGTCGACGCTGAAGGTCGGCGATATCGTCGTCTCCGATGAAGCGCGCTACCACGACGCCGACGTCACCGCCTTCGGTTATGAGTACGGCCAGCTGCCTGGCTGCCCGGCGGGCTTTAAAGCGGACGAAAAACTGGTGGCCGCCGCGGAGAGCTGCATTAACGCGTTAGATCTCAATGCCGTTCGCGGCCTGATCGTCAGCGGTGATGCCTTCATTAACGGCTCTGTCGGTCTGGCGAAGATCCGCCATAATTTCCCGCAGGCGATCGCTGTGGAAATGGAAGCGACCGCTATCGCTCACGTTTGCCATAACTTTAAGGTTCCCTTCGTGGTGGTTCGCGCCATCTCCGATGTGGCCGACCAGCAGTCTCACCTCAGCTTTGAGGAGTTCCTTGCGGTCGCCGCCCGACAGTCCACCCTGATGGTGGAGAATCTGGTCCAGAACCTGGCACGTGACTAA	MKIGIIGAMEEEVTLLRDKIENRQTITIGGSEIYTGQLHGVDVALLKSGIGKVAAAMGATLLLERCQPDVIINTGSAGGLASTLKVGDIVVSDEARYHDADVTAFGYEYGQLPGCPAGFKADEKLVAAAESCINALDLNAVRGLIVSGDAFINGSVGLAKIRHNFPQAIAVEMEATAIAHVCHNFKVPFVVVRAISDVADQQSHLSFEEFLAVAARQSTLMVENLVQNLARD	PGPT0014320_1572	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
BMS020_04742	1515	dgt	COG0232	Deoxyguanosinetriphosphate triphosphohydrolase	ATGGCAAAGATTGATTTTCGCAACAAGATAAACTGGCGTCGACGCTTCCGTTCGCCGCCGCGTGTCGAGACGGAGCGCGACATCCTGCGGATCTTCGAAAGCGATCGGGGACGGATCGTTAACTCGCCGGCCATCCGTCGCTTACAGCAAAAAACTCAGGTCTTCCCGCTGGAACGCAACGCGGCGGTGCGTACCCGTCTGACCCACTCGCTGGAGGTGCAGCAGGTGGGGCGTTATATCGCCAAAGAGGTACTGAGCCGGCTGAAAGAGCAGAAGCTGCTGGAAGAGTATGGCCTGGAAGAGCTGACCGGGCCATTCGAGAGCGTCGTGGAGATGGCCTGCCTGATGCACGATATCGGCAACCCGCCGTTTGGCCATTTTGGCGAGGCGGCGATTAACGACTGGTTCCGCCAGCGTCTGGCGCCCGGCGATGCGCTCGGGCAGCCGCTGACCGACGATCGCTGTGAAGTGCAGGCATTACGCCTGCAGGAGGGGGAAACGTCGCTTAACGCGCTGCGCCGCAAAGTGCGCCAGGATCTCTGCTGCTTTGAGGGCAACGCCCAGGGCATTCGTCTGGTCCATACGCTGATGCGCATGAATCTGACCTGGGCGCAGGTCGGCTGTATTCTGAAATATACTCGTCCGGCGTGGTGGTCCGAGGCGACGCCAGCCAGCCACAGTTATTTAATGAAGAAGCCTGGCTACTATTTAGCCGAAGAGGAGTATGTGGCGCGCCTGCGTAAAGAACTGGATCTGGCGCCTTACAATCGGTTCCCATTAACCTGGATTATGGAAGCCGCGGATGACATCTCATATTGCGTCGCGGATCTCGAGGACGCGGTGGAAAAACGTATTTTCAGCGCTGAGCAGCTTTATCAGCATCTTTACGACGCCTGGGGCAGCCATGAAAAAGGATCGTTATTCTCGCAGGTGGTGGAAAATGCCTGGGAGAAATCACGAGCCAATTCCCTGAAGCAGAGCGCGGAAGATCAGTTTTTTATGTATTTGCGGGTGAACACGCTGAATAAGCTGGTGCCCTACGCGGCGCGCCGATTTATTGACAACCTGCCGGCCATCTTTACGGGCGACTTTAATCATGCGCTGCTCGAGGACGACAGCGATTGCAGTCAGCTGCTGGAGCTTTATAAAAATGTGGCGATGAAACAGGTGTTTAGCCATCCGGATGTCGAGCAGCTGGAATTGCAGGGCTACCGGGTGATCAGCGGCCTGCTGGATATCTATCAGCCGCTGCTGAAATTATCACTGGAGGATTTCAGCGAATTAGTGGCGCAGGAGCGGGTACGGCGTTTACCCATTGCCTCCCGACTGTATCAGAAACTTTCAACCCGCCACCGGCTGGCCTATGTGGAAGCGGTAAATAAGCTCGCGCGCACAGCGCCTGAATTTGCGCTGATGGAATACTATTATCGCTGCCGTCTGATTCAGGATTATATCAGCGGGATGACGGATTTATATGCGTGGGATGAATATCGACGACTGATGGCGGTGGAATAG	MAKIDFRNKINWRRRFRSPPRVETERDILRIFESDRGRIVNSPAIRRLQQKTQVFPLERNAAVRTRLTHSLEVQQVGRYIAKEVLSRLKEQKLLEEYGLEELTGPFESVVEMACLMHDIGNPPFGHFGEAAINDWFRQRLAPGDALGQPLTDDRCEVQALRLQEGETSLNALRRKVRQDLCCFEGNAQGIRLVHTLMRMNLTWAQVGCILKYTRPAWWSEATPASHSYLMKKPGYYLAEEEYVARLRKELDLAPYNRFPLTWIMEAADDISYCVADLEDAVEKRIFSAEQLYQHLYDAWGSHEKGSLFSQVVENAWEKSRANSLKQSAEDQFFMYLRVNTLNKLVPYAARRFIDNLPAIFTGDFNHALLEDDSDCSQLLELYKNVAMKQVFSHPDVEQLELQGYRVISGLLDIYQPLLKLSLEDFSELVAQERVRRLPIASRLYQKLSTRHRLAYVEAVNKLARTAPEFALMEYYYRCRLIQDYISGMTDLYAWDEYRRLMAVE	PGPT0021495_247	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021495-dgt-K01129	NA	NA
BMS020_04743	1434	degP	COG0265	Periplasmic serine endoprotease DegP	ATGAAAAAAACCACGTTAGCAATGAGTGCACTGGCTCTGAGTTTAGGTCTGGCATTGTCCCCGCTCTCTGCGAGCGCGGCGGAAACGGCATCTTCGGCCACTAACGCGCAGCAGATGCCAAGCCTGGCCCCGATGCTGGAGAAAGTGATGCCGTCGGTGGTGAGCATTAACGTTGAAGGTAGCACCACCGTTAATACCCCACGGATGCCGCGTAACTTCCAGCAGTTCTTTGGCGATAACTCGCCGTTCTGCCAGGATGGTTCTCCATTCCAGAGTTCGCCGTTTTGCCAGGGCGGCGGACAGGGCGGTCAGCCTGACGGCGGCCAGCAGCAGAAATTCATGGCGCTGGGTTCCGGCGTGATTATTGATGCGGCCAAAGGGTATGTGGTGACCAACAACCACGTCGTGGACAACGCCACCACGATTAAGGTCCAGCTGAGCGATGGTCGTAAGTTTGATGCCAAAGTCGTGGGTAAAGACCCGCGCTCTGATATCGCGCTGATTCAGATTCAGGATCCGAAAAACCTGACGGCAATTAAGCTTGCCGACTCTGACGCGCTGCGCGTCGGCGACTACACCGTGGCTATCGGTAACCCGTTCGGTCTGGGCGAAACCGTGACCTCCGGGATTGTTTCCGCGCTGGGTCGTAGCGGCCTGAACGTGGAAAACTACGAAAACTTTATCCAGACCGATGCGGCGATTAACCGCGGGAACTCCGGCGGGGCGCTGGTGAATCTCAACGGCGAGCTGATCGGCATCAACACCGCCATTCTGGCGCCGGACGGCGGCAACATCGGTATCGGTTTTGCTATCCCGAGCAACATGGTGAAAAACCTGACCGAACAGATGGTGAAATATGGCCAGGTGAAACGCGGCGAGCTCGGCATCATGGGCACCGAACTGAACTCTGAGCTGGCGAAAGCGATGAAAGTCGACGCCCAGCGCGGCGCCTTCGTCAGCCAGGTGATGCCGGGGTCGGCGGCCGCGAAAGCGGGCATTAAAGCCGGCGACGTGATCACCTCTCTCAACGGGAAGGCGATCAGCAGCTTCGCCGCGCTGCGTGCTCAGGTCGGCACCATGCCTATCGGCAGCAAGGTTGAGCTTGGCCTGCTGCGCGATGGCAAACCGGTGACCGTCACCGTCGAACTGCAGCAGAGCAACCAGACCCAGGTTGACTCCAGCACCATCTTCAACGGGATTGAAGGGGCGGAAATGAGCAACAAGGGTCAGGACAAAGGCGTGGTGGTCAATAATGTGAAAGCCGGCACCCCGGCGGCGCAGATTGGCCTCAAGAAAGGCGACATCATTGTCGGGGCCAACCAGCAGCCGGTGAAAAATATCGCCGATCTGCGGAAAATCTTCGACGCCAAACCGTCCGTGCTGGCGCTGAACATTCAGCGTGGCGACGCCTCTATCTACCTGCTGCTGCAGTAA	MKKTTLAMSALALSLGLALSPLSASAAETASSATNAQQMPSLAPMLEKVMPSVVSINVEGSTTVNTPRMPRNFQQFFGDNSPFCQDGSPFQSSPFCQGGGQGGQPDGGQQQKFMALGSGVIIDAAKGYVVTNNHVVDNATTIKVQLSDGRKFDAKVVGKDPRSDIALIQIQDPKNLTAIKLADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRSGLNVENYENFIQTDAAINRGNSGGALVNLNGELIGINTAILAPDGGNIGIGFAIPSNMVKNLTEQMVKYGQVKRGELGIMGTELNSELAKAMKVDAQRGAFVSQVMPGSAAAKAGIKAGDVITSLNGKAISSFAALRAQVGTMPIGSKVELGLLRDGKPVTVTVELQQSNQTQVDSSTIFNGIEGAEMSNKGQDKGVVVNNVKAGTPAAQIGLKKGDIIVGANQQPVKNIADLRKIFDAKPSVLALNIQRGDASIYLLLQ	PGPT0015105_2998	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
BMS020_04744	1212	cdaR	COG3835	Carbohydrate diacid regulator	ATGCGGCAGGGCGACGACTCTTTTATGCTGGTGCCCTGCAAAGGGGAGGATTACATGGCTGGCTGGCATCTCGATACCAAAATGGCGCAGGATATTGTGGCGCGGACGATGCGCATCATCGATACCAACATCAACGTGATGGATGCCCGCGGGCGGATTATCGGCAGCGGCGATCGGGAAAGGATTGGTGAATTGCACGAAGGCGCGCTGCTGGTGCTTTCCCAGGGGCGGGTGGTGGATATCGACGACGCGGTGGCTCGCCATCTGCACGGGGTGCGCCAGGGCATTAACCTGCCGCTGCGCCTGGAGGGGGAGATCGTCGGGGTGATCGGCCTGACCGGCGAGCCGGAGTCGCTGCGAAAATATGGCGAGCTGGTGTGCATGACGGCAGAGATGATGCTGGAGCAGTCGCGACTGATGCATCTCCTGGCGCAGGACAGCCGTCTGCGCGAAGAGCTGGTGATGAACCTGATTCAGGCGGAAGAGCATACCCCGGCGCTGAACGAATGGGCTCAGCGATTAGGCATCGACCTGAATCAGCCGCGCGTGGTGGCGATGATTGAGGTGGACAGCGGCCAGCTCGGCGTAGACAGCGCGATGGCGGAACTACAGCAGCTGCAGAACGCGCTGACCACGCCCGATCGCCATAATCTCGTGGCCATTGTCTCGCTCACGGAAATGGTGGTGCTGAAACCGGCGCTGAACAGCTTTGGCCGCTGGGACGCCGACGATCACGTCCGGCGCGTCGAGCAGCTTATCGCCAGGATGAAAGAGAATGGCCAGCTCCGTTTCCGCGTGGCGTTGGGCAACTTCTTCACCGGCCCCGGGAGTATCGCCCGCTCTTACCGTACCGCTCGCACGACGATGATGGTGGGCAAGCAGCGGATGCCGGAGAGCCGCTGCTATTTCTATCAGGATCTGATGCTGCCGGTGCTGCTTGACAGCCTGCGCGGCGGCTGGCAGGCCAATGAGCTGGCTCGTCCGCTGGCGCGTCTCAAGGCGATGGATAACAACGGGCTGCTGCGGCGAACGCTGCAGGCGTGGTTTCGCCATAACGTGCAGCCGCTGGCGACGTCGAAGGCCCTGTTTATTCATCGCAATACGCTGGAGTACCGGTTGAATCGTATCTCGGAGCTGACGGGGCTGGATCTTGGCAGCTTTGACGACCGGCTGCTGCTGTATATCGCGCTGCAGCTGGATGAACAACGCTAA	MRQGDDSFMLVPCKGEDYMAGWHLDTKMAQDIVARTMRIIDTNINVMDARGRIIGSGDRERIGELHEGALLVLSQGRVVDIDDAVARHLHGVRQGINLPLRLEGEIVGVIGLTGEPESLRKYGELVCMTAEMMLEQSRLMHLLAQDSRLREELVMNLIQAEEHTPALNEWAQRLGIDLNQPRVVAMIEVDSGQLGVDSAMAELQQLQNALTTPDRHNLVAIVSLTEMVVLKPALNSFGRWDADDHVRRVEQLIARMKENGQLRFRVALGNFFTGPGSIARSYRTARTTMMVGKQRMPESRCYFYQDLMLPVLLDSLRGGWQANELARPLARLKAMDNNGLLRRTLQAWFRHNVQPLATSKALFIHRNTLEYRLNRISELTGLDLGSFDDRLLLYIALQLDEQR				NA	NA	NA	NA	NA
BMS020_04745	387			hypothetical protein	ATGTACGATAATCTGAAAAGTCTTGGCATTACCAACCCTGATGAGATCGATCGCTATAGCCTGCGGCAGGAAGCTAACAACGACATTCTGAAAATCTATTTTCAGAAAGACAAAGGCGAATTCTTCGCCAAGAGCGTGAAGTTCAAATATCCGCGTCAGCGCAAAACCGTCGTCGCCGACGGCGTCGGCCAGGGCTACAAAGAGGTCCAGGAGATCAGCCCCAATCTGCGCTACGTCATCGATGAGCTGGATCAGATCTGCCAGCGCGATCGCACTGAAATCGATCTCAAGCGTAAAATCCTCGACGATTTACGCCATCTGGAAAGCGTGGTCACCAATAAGATCAGCGAAATCGAAGCCGATCTGGAAAAGCTCACCCGTAAGTAA	MYDNLKSLGITNPDEIDRYSLRQEANNDILKIYFQKDKGEFFAKSVKFKYPRQRKTVVADGVGQGYKEVQEISPNLRYVIDELDQICQRDRTEIDLKRKILDDLRHLESVVTNKISEIEADLEKLTRK				NA	NA	NA	NA	NA
BMS020_04746	825	dapD_1	COG2171	2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-succinyltransferase	ATGCAGCAGTTACAGAACGTTATTGAGTCCGCCTTCGAGCGTCGCGCCGACATCACGCCGGCCAATGTGGATACCGTGACCCGCGAAGCGGTTAACCAGGTTATTGCCCTTCTGGATTCCGGCGCGCTGCGCGTCGCTGAGAAGATCGACGGTCAGTGGGTGACGCATCAGTGGCTGAAGAAGGCGGTACTGCTCTCTTTCCGTATTAACGATAACCAGGTTATCGATGGTGCGGAAAGCCGCTACTTCGATAAAGTACCGATGAAATTCGCTGACTATGACGAAGCGCGTTTCCAGAAAGAAGGTTTCCGCGTGGTGCCGCCGGCAGCGGTGCGCCAGGGCGCGTTCATCGCCCGTAACACCGTGCTGATGCCGTCCTACGTTAACATCGGCGCCTACGTTGACGAAGGCACCATGGTTGACACCTGGGCCACCGTCGGCTCCTGCGCGCAGATCGGTAAAAACGTTCACCTGTCCGGCGGCGTCGGCATCGGTGGCGTACTGGAGCCGCTGCAGGCGAACCCGACCATCATCGAAGATAACTGCTTCATCGGCGCGCGCTCTGAAGTAGTTGAAGGGGTGATTGTCGAAGAAGGCTCCGTGATCTCCATGGGCGTTTACCTGGGTCAGAGCACCAAAATCTACGATCGCGAAACCGGCGAAGTCTTCTACGGCCGCGTGCCGGCTGGCTCGGTAGTGGTGTCAGGCAACCTGCCGTCGAAAGATGGTAAATACAGTCTGTACTGCGCAGTGATCGTGAAGAAAGTCGATGCTAAAACTCGCGGCAAGGTCGGCATTAACGAACTGCTGCGCACCATCGACTAA	MQQLQNVIESAFERRADITPANVDTVTREAVNQVIALLDSGALRVAEKIDGQWVTHQWLKKAVLLSFRINDNQVIDGAESRYFDKVPMKFADYDEARFQKEGFRVVPPAAVRQGAFIARNTVLMPSYVNIGAYVDEGTMVDTWATVGSCAQIGKNVHLSGGVGIGGVLEPLQANPTIIEDNCFIGARSEVVEGVIVEEGSVISMGVYLGQSTKIYDRETGEVFYGRVPAGSVVVSGNLPSKDGKYSLYCAVIVKKVDAKTRGKVGINELLRTID				NA	NA	NA	NA	NA
BMS020_04747	2664	glnD_1	COG2844	Bifunctional uridylyltransferase/uridylyl-removing enzyme	ATGAGCAACTCATTACCTGACACAGCCTCCCCCCTTCTGCCCATCCCGCCGGAACATCCGGTGAGCTGGCCGCAGGGCGATCTGAACTGTGCTGCAATTAAGGCGCACATCGATACCTTTCAGCACTGGCTGGGCGAGGCGTTTGACGCCGGTATCGCCGCGGAGCAGCTCATTGCGGCGCGCACCGAATTTATCGACCAGTTGCTGCAGCGGTTGTGGATCGCCTGCGGCTTTGAATCCGTCTGCGACCTGGCGCTGGTGGCCGTCGGCGGCTATGGCCGCGGCGAGCTGCATCCGCTCTCTGACGTCGATCTGCTGATCCTCAGCCGCAAAAAGCTGCCGGACGACCAGGCGCAAAAGGTCGGCGAACTGCTGACGCTGCTGTGGGACGTCAAACTGGAGGTAGGCCACAGCGTGCGCACTCTCGAAGAGTGTCTGCTGGAAGGGCTTTCGGATCTCACCGTCGCCACCAACTTAATCGAATCGCGCCTGCTGATCGGCGACGTCGCGCTGTTCCTTGAACTGCAAAAACATATTTTTAGCGACGGCTTCTGGCCATCAGAAAAGTTCTTCGCCGCGAAAGTCGAAGAGCAGAACGTCCGTCATCAGCGCTATCACGGCACCAGCTATAACCTCGAGCCGGACGTGAAAAGCAGCCCCGGCGGCCTGCGCGATATCCATACGCTACAGTGGGTGGCTCGCCGCCATTTCGGCGCCACCTCGATGGATGAGATGGTCGGCTTCGGCTTTCTGACCGAAGCCGAGCGCAATGAGCTCAACGAGTGTCTGCACCAGCTGTGGCGTATCCGCTTCGCGCTGCATCTCGAACTCACTCGCTATGACAACCGCCTGCTTTTCGACCGCCAGCTCAGCGTCGCCCGCCGGCTCGGCTATGAAGGCGACGGCAACCAGCCGATTGAGCATATGATGAAGGACTTCTTCCGCGTCACCCGCCGGGTGAGTGAGCTGAACCAGATGCTGCTGCAGCTGTTTGAAGAGGCCATCCTCGCCCTGACCGAGGATGAAAAACCGCGCCCGATCGATGATGATTTCCAGCTGCGCGGCACGCTGATCGATCTGCGTGACGATACGCTGTTTATTCGCGAGCCGCAGGCCATTCTGCGCATGTTTTATATCATGGTGCGCAACAGCACCATCACCGGCATCTACTCCACGACGTTGCGCCATCTGCGCCACGCCCGCCGCCATCTGACCCAGCCGCTGTGCTATATCCCGGAGGCGCGCACGCTCTTTCTCAGCATGCTGCGCCATCAGGGGGCAGTGAGTCGCGGACTGCTGCCGATGCATCGTCACAGCGTGCTGTGGGCCTATATGCCGCAGTGGTCTCATATCGTCGGCCAGATGCAGTTCGACCTGTTTCACGCCTACACCGTCGATGAACACACCATCCGCGTGATGCTCAAGCTGGAGAGCTTTGCTAAAGAAGAGACCCGTAGCCGCCACCCGCTGTGCGTGGAACTGTGGCCGCGCTTAACGCACCCGGAGCTGATTTTAATCGCCGCCCTGTTCCACGACATCGCCAAAGGGCGCGGCGGCGACCACTCGATCCTCGGCGCACAGGATGTGCTGAAATTTGCCGAACTGCACGGGCTGAACTCCCGTGAAACGCAGCTGGTCGCCTGGCTGGTGCGTCACCACCTGCTGATGTCGGTCACCGCCCAGCGGCGCGATATTCAGGATCCGGAAGTGATTAAGCAGTTCGCCGAGGAGGTGCAAACGGAAAATCGCCTGCGCTATCTGGTGTGCCTGACCGTCGCCGATATCTGCGCCACCAACGAAACCCTGTGGAACAGCTGGAAGCAGAGCCTGCTGCGCGAACTCTATTTCGCCACTGAAAAACAGCTGCGTCGCGGCATGCAAAGCACCCCGGACATGCGCGAACGGGTGCGTCACCATCAGCTGCAGGCGCTGGCCCTGCTGCGGATGGACAATATTAATGAAGAGGCGCTGCATCAAATCTGGAACCGCTGCCGCGCCAACTATTTCGTGCGACATACGCCGACGCAGCTCGCCTGGCACGCCCGCAACCTGCTGCGCCACGATCTGAATAAGCCGATGATCCTCCTGAGCTCGCAGGCCACTCGCGGCGGAACGGAGATTTTTATCTGGAGCCCGGATCGCCCTTACCTGTTCGCCGCGGTGTGTGGCGAACTGGACCGTCGCAACCTCAGCGTCCACGACGCGCAGATCTTCACCACCCGCGACGGCATGGCGATGGATACCTTTATCGTCCTTGAGCCTGACGGCAGTCCGCTGTCCGCCGACCGCCACGAGGCGATCCGCCAGGGTCTGGAACAGACCATCACCCAGCGCAGTTGGGAGCCCCCGGCGCCCCGTCGTCAGGCGGCAAAGCTGCGTCATTTTTCGGTGGACACCGAGGTGAATTTCCTGCCGACCCATACCGATCGCAAATCGTTTCTCGAGCTGATTGCCCTTGACCAGCCCGGGCTGCTCGCCCGCGTCGGTCAGGTGTTCGCCGACCTCGGAATTTCGCTTCACGGGGCGCGAATTACGACAATTGGTGAGCGAGTAGAAGATTTATTTATAATCGCTACCGCCGACCGGCGTGCCCTTAATAATGAGCTGCAACAAGAAGTGCAACAACGGTTGACAGCGGCCCTCAATCCAAACGATAAAGGGTGA	MSNSLPDTASPLLPIPPEHPVSWPQGDLNCAAIKAHIDTFQHWLGEAFDAGIAAEQLIAARTEFIDQLLQRLWIACGFESVCDLALVAVGGYGRGELHPLSDVDLLILSRKKLPDDQAQKVGELLTLLWDVKLEVGHSVRTLEECLLEGLSDLTVATNLIESRLLIGDVALFLELQKHIFSDGFWPSEKFFAAKVEEQNVRHQRYHGTSYNLEPDVKSSPGGLRDIHTLQWVARRHFGATSMDEMVGFGFLTEAERNELNECLHQLWRIRFALHLELTRYDNRLLFDRQLSVARRLGYEGDGNQPIEHMMKDFFRVTRRVSELNQMLLQLFEEAILALTEDEKPRPIDDDFQLRGTLIDLRDDTLFIREPQAILRMFYIMVRNSTITGIYSTTLRHLRHARRHLTQPLCYIPEARTLFLSMLRHQGAVSRGLLPMHRHSVLWAYMPQWSHIVGQMQFDLFHAYTVDEHTIRVMLKLESFAKEETRSRHPLCVELWPRLTHPELILIAALFHDIAKGRGGDHSILGAQDVLKFAELHGLNSRETQLVAWLVRHHLLMSVTAQRRDIQDPEVIKQFAEEVQTENRLRYLVCLTVADICATNETLWNSWKQSLLRELYFATEKQLRRGMQSTPDMRERVRHHQLQALALLRMDNINEEALHQIWNRCRANYFVRHTPTQLAWHARNLLRHDLNKPMILLSSQATRGGTEIFIWSPDRPYLFAAVCGELDRRNLSVHDAQIFTTRDGMAMDTFIVLEPDGSPLSADRHEAIRQGLEQTITQRSWEPPAPRRQAAKLRHFSVDTEVNFLPTHTDRKSFLELIALDQPGLLARVGQVFADLGISLHGARITTIGERVEDLFIIATADRRALNNELQQEVQQRLTAALNPNDKG	PGPT0000660_1150	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	GLN-NITROGEN_REGULATORY_SYSTEM,PGPT0000660-glnD-K00990	NA	NA
BMS020_04748	795	map_3	COG0024	Methionine aminopeptidase	ATGGCTATCTCTATTAAGACATCTGAAGATATTGAAAAAATGCGCGTTGCCGGTCGCCTGGCCGCTGAAGTGCTGGAAATGATCGAACCCTGGGTTAAGCCGGGCGTCAGCACTGGCGAACTGGACCGTATCTGTAACGACTATATCGTTAACGAGCAGAAGGCCATTTCCGCCTGTCTCGGCTATCACGGCTATCCGAAATCCGTCTGCATTTCGGTTAACGAAGTGGTCTGTCACGGTATCCCTGACGACGGCAAGCTGCTGAAAGATGGCGATATCGTGAATATCGACGTGACCGTCATTAAAGATGATTTCCATGGCGATACCTCCAAAATGTTTATCGTCGGCAAACCGACGATTCTTGGCGAGCGCCTGTGCCGCATCACTCAGGAAAGCCTGTACCTGGCGCTGAAGATGGTGAAGCCGGGCATCAACCTGCGCACCATCGGCGCGGCGATCCAGAAATATGTGGAAGCGGAAGGGTTCTCCGTGGTTCGCGAATACTGTGGTCACGGCATCGGCCGCGGCTTCCATGAAGAGCCGCAGGTGCTGCACTACGACTCGCCGGAAACCAACGTCGTGCTCAAACCAGGCATGACCTTCACCATCGAGCCGATGGTCAACGCCGGTAAAAAAGAGATCCGCAGCATGAAAGACGGCTGGACGGTGAAAACCAAAGACCGGAGCTTGTCTGCGCAGTACGAGCATACTATTGTGGTGACAGACAACGGCTGCGAAATTCTGACGCTACGTAAGGATGACACCATCCCGGCGATAATCTCGCACGATGAATGA	MAISIKTSEDIEKMRVAGRLAAEVLEMIEPWVKPGVSTGELDRICNDYIVNEQKAISACLGYHGYPKSVCISVNEVVCHGIPDDGKLLKDGDIVNIDVTVIKDDFHGDTSKMFIVGKPTILGERLCRITQESLYLALKMVKPGINLRTIGAAIQKYVEAEGFSVVREYCGHGIGRGFHEEPQVLHYDSPETNVVLKPGMTFTIEPMVNAGKKEIRSMKDGWTVKTKDRSLSAQYEHTIVVTDNGCEILTLRKDDTIPAIISHDE	PGPT0020010_5548	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
BMS020_04750	726	rpsB_1	COG0052	30S ribosomal protein S2	ATGGCAACTGTTTCCATGCGCGACATGCTCAAGGCTGGTGTTCACTTCGGTCACCAGACCCGTTACTGGAACCCGAAAATGAAGCCGTTCATCTTCGGTGCGCGTAACAAAGTTCACATCATCAACCTTGAGAAAACCGTACCGATGTTCAACGACGCTCTGGCTGAACTGAACAAGATCGCTGCTCGTAAAGGTAAAATCCTTTTCGTTGGTACTAAGCGCGCTGCAAGCGAAGCGGTAAAAGACGCTGCTCTGAGCTGCGACCAGTTCTTCGTGAACCATCGCTGGCTGGGCGGTATGCTGACTAACTGGAAAACCGTTCGTCAGTCCATCAAACGTCTGAAAGACCTGGAAACTCAGTCCCAGGACGGTACTTTCGACAAGCTGACCAAAAAAGAAGCGCTGATGCGTACTCGTGAGCTGGACAAGCTGGAAAACAGCCTGGGCGGTATCAAAGACATGGGCGGCCTGCCGGACGCACTGTTCGTTATCGACGCTGACCACGAGCACATCGCTATCAAAGAAGCAAACAACCTGGGCATCCCGGTATTTGCTATCGTTGATACCAACTCTGATCCGGACGGCGTAGACTTCGTTATCCCGGGTAACGACGATGCAATCCGCGCAGTAAGCCTGTACCTGGGCGCTGTTGCTGCTACCGTTCGTGAAGGTCGCTCTCAGGACCTGGCTTCTCAGGCGGAAGAAAGCTTCGTAGAAGCTGAATAA	MATVSMRDMLKAGVHFGHQTRYWNPKMKPFIFGARNKVHIINLEKTVPMFNDALAELNKIAARKGKILFVGTKRAASEAVKDAALSCDQFFVNHRWLGGMLTNWKTVRQSIKRLKDLETQSQDGTFDKLTKKEALMRTRELDKLENSLGGIKDMGGLPDALFVIDADHEHIAIKEANNLGIPVFAIVDTNSDPDGVDFVIPGNDDAIRAVSLYLGAVAATVREGRSQDLASQAEESFVEAE				NA	NA	NA	NA	NA
BMS020_04751	852	tsf_1	COG0264	Elongation factor Ts	ATGGCTGAAATTACCGCTTCCCTGGTAAAAGAGCTGCGCGAACGTACTGGCGCAGGCATGATGGATTGCAAAAAAGCGCTGACTGAAGCGAATGGCGACATCGAGCTGGCAATCGAAAACATGCGTAAATCCGGCGCGATCAAAGCGGCGAAGAAAGCAGGCAACGTGGCTGCTGACGGCGTGATCAAAACCAAAATCGAAGGCAACTACGGTTACATCCTGGAAGTTAACTGCCAGACTGACTTCGTTGCTAAAGATGGTGGTTTCCAGGCATTTGCTGACAAAGTACTGGACGCCGCTGTTGCGGGTAAAATCTCCGACGTTGAAGTTCTGAAAGCGCAGTTCGAAGAAGAACGTGTTGCCCTGGTTGCTAAAATCGGTGAGAACATCAACATCCGTCGTATCGCTGTTCTGGAAGGCGACGTTCTGGGCAGCTACCAGCACGGTGCGCGCATCGGCGTTCTGGTTGCCGCTAAAGGCGCTGACGAAGAGCTGGTTAAGCAGCTGGCAATGCACGTTGCCGCAAGCAAGCCGGAATTCGTTAAGCCGGAAGACGTGTCTGCTGAAGTGGTAGAGAAAGAGTACCAGGTTCAGCTGGACATCGCGATGCAGTCCGGTAAGCCGAAAGAAATCGCAGAGAAAATGGTTGAAGGCCGCATGAAGAAATTCACCGGCGAAGTTTCTCTGACTGGTCAGCCTTTCGTCATGGAGCCGAGCAAATCTGTTGGTCAGCTGCTGAAAGAGCACAACGCTGACGTGACTGGCTTCATCCGCTTTGAAGTGGGCGAAGGCATCGAGAAAGTTGAGACTGACTTTGCAGCAGAAGTTGCTGCGATGTCCAAGCAGTCTTAA	MAEITASLVKELRERTGAGMMDCKKALTEANGDIELAIENMRKSGAIKAAKKAGNVAADGVIKTKIEGNYGYILEVNCQTDFVAKDGGFQAFADKVLDAAVAGKISDVEVLKAQFEEERVALVAKIGENINIRRIAVLEGDVLGSYQHGARIGVLVAAKGADEELVKQLAMHVAASKPEFVKPEDVSAEVVEKEYQVQLDIAMQSGKPKEIAEKMVEGRMKKFTGEVSLTGQPFVMEPSKSVGQLLKEHNADVTGFIRFEVGEGIEKVETDFAAEVAAMSKQS				NA	NA	NA	NA	NA
BMS020_04752	726	pyrH_1	COG0528	Uridylate kinase	ATGGCTACCAATGCAAAACCCGTCTACAAACGTATTCTGCTGAAATTAAGTGGCGAAGCGCTGCAGGGCTCAGAAGGCTTCGGTATTGATGCAAGCATACTTGACCGCATGGCTCAAGAGATCAAAGAGCTGGTTGAGCTGGGTATTCAGGTTGGCGTAGTAATTGGTGGCGGTAACCTGTTCCGTGGTGCTGGTCTGGCGAAAGCGGGTATGAACCGCGTTGTGGGCGACCACATGGGCATGCTGGCTACGGTTATGAATGGCCTCGCGATGCGCGATGCGCTCCACCGCGCCTATGTGAACGCTCGTTTGATGTCCGCCATTCCGCTGAACGGCGTGTGCGACAACTACAGCTGGGCAGAGGCGATCAGCCTGCTGCGCAACAACCGCGTGGTGATCCTTTCCGCGGGTACCGGCAACCCGTTCTTTACCACCGATTCCGCAGCCTGCCTGCGCGGGATTGAAATTGAAGCCGATGTGGTGCTGAAAGCCACCAAGGTTGACGGCGTATTCACCGCCGATCCGGCCAAAGATCCTTCCGCCACGATGTACGATCAGCTGACCTACAGCGAAGTGCTGGAAAAAGAGCTGAAAGTGATGGATCTGGCGGCCTTCACCCTGGCGCGTGACCATAAATTGCCGATTCGCGTCTTCAACATGAACAAACCTGGCGCGCTGCGTCGCGTGGTGATGGGCGAAAAAGAAGGCACATTGATCACGGAATAA	MATNAKPVYKRILLKLSGEALQGSEGFGIDASILDRMAQEIKELVELGIQVGVVIGGGNLFRGAGLAKAGMNRVVGDHMGMLATVMNGLAMRDALHRAYVNARLMSAIPLNGVCDNYSWAEAISLLRNNRVVILSAGTGNPFFTTDSAACLRGIEIEADVVLKATKVDGVFTADPAKDPSATMYDQLTYSEVLEKELKVMDLAAFTLARDHKLPIRVFNMNKPGALRRVVMGEKEGTLITE	PGPT0021205_2016	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021205-pyrH-K09903	NA	NA
BMS020_04753	558	frr_1	COG0233	Ribosome-recycling factor	GTGATTAGCGATATCAGAAAAGATGCTGAAATCCGCATGGAAAAATGCGTCGAAGCATTCAAAAACCAAATCAGCAAAATTCGCACGGGTCGTGCTTCTCCGAGCCTGCTGGACGGGATTGTTGTTGAATACTACGGTACGCCGACCCCGCTGCGCCAGCTGGCCAGCGTCACCGTCGAAGACTCCCGTACCCTGAAAATCAACGTCTTTGACCGTTCTATGTCCGCGGCTGTTGAAAAAGCGATCATGGCATCCGACCTCGGTCTGAACCCAAGCTCTGCCGGTAGCGATATTCGTGTTCCGCTGCCGCCGCTGACCGAAGAGCGTCGTAAAGATCTGACCAAGATCGTGCGTGGTGAAGCTGAGCAGGCGCGCGTTGCCGTACGTAACGTTCGCCGCGACGCCAACGACAAAGTCAAAGCGCTGCTGAAAGAGAAAGAGATCAGCGAGGATGACGATCGCCGTTCTCAGGACGACGTGCAGAAAATGACTGACGCCGCCATCAAGAAAGTTGACGCGGCGCTGGCAGACAAAGAAGCGGAACTGATGCAGTTCTGA	MISDIRKDAEIRMEKCVEAFKNQISKIRTGRASPSLLDGIVVEYYGTPTPLRQLASVTVEDSRTLKINVFDRSMSAAVEKAIMASDLGLNPSSAGSDIRVPLPPLTEERRKDLTKIVRGEAEQARVAVRNVRRDANDKVKALLKEKEISEDDDRRSQDDVQKMTDAAIKKVDAALADKEAELMQF				NA	NA	NA	NA	NA
BMS020_04754	1203	dxr_1	COG0743	1-deoxy-D-xylulose 5-phosphate reductoisomerase	ATGAAGCAATTAACCGTTCTCGGTTCGACCGGCTCCATTGGCTGTAGCACGCTGGACGTGGTACGCCATAATCCCGGTCGCTTTTCCGTCGCCGCGCTGGTCGCGGGGAAAAACGTTGACCGTATGGTTGAACAATGCCTTGAATTTACCCCCCGTTACGCCGTGATGGACGATGCGCAAAGCGCTGAGCGGTTGCGCACCCGTCTGCAGGAACATGGCTGCCGTACCGAGGTGCTGAGCGGCCAGCAGGCGGCGGCAGAGGTCGCGGCGCTGGAGGAGGTCGATCAGGTGATGGCGGCTATCGTCGGCGCGGCGGGTCTGGTGCCGACGCTGGCGGCGATCCGCGCCGGAAAAACGGTGTTGTTAGCGAATAAAGAGTCGCTGGTGACCTGCGGTCGCTTGTTCATGGAGGCGGTTCAACGGTCGGGGGCGCGATTGCTGCCGGTCGATAGCGAACATAACGCGATTTTTCAGAGTATGCCGGAGACAATTCAGCAGCATCTGGGATACGCTGACCTGGCGCAGAATGGCGTTTCGTCCATTCTGCTGACCGGCTCGGGCGGGCCTTTCCGCGAGACAGCGGTAGCTGAACTGGCGGCGATGACGCCGGATCAGGCCTGCCGTCATCCCAACTGGTCGATGGGACGCAAGATCTCCGTCGACTCCGCCACGATGATGAACAAAGGTCTGGAATATATTGAAGCGCGCTGGCTGTTTAACGCCTCGGCCCGGCAGATGGAGGTCCTTATCCATCCGCAGTCGGTGATCCACTCGATGGTTCGCTATCAGGACGGCAGCGTGCTGGCGCAGCTTGGGGAACCGGATATGCGCACGCCGATCGCTCATACCATGGGCTGGCCGCAGCGGCTGAACTCCGGCGCTAAGCCGCTGGACTTCTGTCAGCTGAGCAATCTGAGCTTCTCCGCGCCAGACTATACGCGGTATCCGTGCCTGAAGCTGGCGATGGAGGCGTTTGACGTCGGCCAGGCGGCGACCACCACGCTGAATGCGGCCAATGAAGAGTCGGTTGCCGCGTTTCTGCAGGGCGATATCCGCTTTACCGATATTGCGGCGGTTAACCTGGCGGTGCTGGATAAGATGAACCTGCTGGAGCCGCAAAGCATTGATGACGTTCTGGTTATCGACGCTGAGGCCCGCGCGGTTGCTCATCAACAGCTAAAGCGGTTGGTCACCCAGGCGTAA	MKQLTVLGSTGSIGCSTLDVVRHNPGRFSVAALVAGKNVDRMVEQCLEFTPRYAVMDDAQSAERLRTRLQEHGCRTEVLSGQQAAAEVAALEEVDQVMAAIVGAAGLVPTLAAIRAGKTVLLANKESLVTCGRLFMEAVQRSGARLLPVDSEHNAIFQSMPETIQQHLGYADLAQNGVSSILLTGSGGPFRETAVAELAAMTPDQACRHPNWSMGRKISVDSATMMNKGLEYIEARWLFNASARQMEVLIHPQSVIHSMVRYQDGSVLAQLGEPDMRTPIAHTMGWPQRLNSGAKPLDFCQLSNLSFSAPDYTRYPCLKLAMEAFDVGQAATTTLNAANEESVAAFLQGDIRFTDIAAVNLAVLDKMNLLEPQSIDDVLVIDAEARAVAHQQLKRLVTQA	PGPT0007585_1015	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007585-ispC|dxr-K00099	NA	NA
BMS020_04755	690	ispU_1	COG0020	Ditrans,polycis-undecaprenyl-diphosphate synthase ((2E,6E)-farnesyl-diphosphate specific)	ATGGATGGCAACGGCCGTTGGGCGAAACGGCAAGGTAAAATTCGCGCTTTCGGGCACAAGGCCGGTGCGAAATCCGTGCGTCGCGCGGTCTCTTTCGCGGCGAATAATGGAATTGAGGCGTTAACGTTATACGCGTTCAGCAGCGAAAACTGGAACCGTCCGGCTCAGGAAGTCAGTGCGCTGATGGAGCTGTTCGTCTGGGCGCTGGATAGCGAAGTCAAAAGCCTGCACCGACACAATGTGCGTTTGCGGATTATTGGCGACACCACGCGCTTCAATGCGCGCCTGCAGGAGCGTATCCGCAAAGCGGAAGCGCTGACCGCGAACAATACCGGCTTAACGCTGAATATTGCGGCCAATTACGGCGGTCGCTGGGATATTACCCAGGGCGTTCGTTTTCTGGCGAAACAGGTACAGGACGGGACGCTGCTGCCTGAGCAGATCACGGAAGACATGCTGAGTCAGCAGGTCTGCATGCATGAACTGGCTCCCGTAGATTTAGTTATTAGGACCGGGGGAGAGCACCGAATAAGTAATTTTCTGATTTGGCAAATTGCCTATGCCGAACTTTACTTTACGGATGTTCTTTGGCCCGATTTTGCTGAACAGGACTTTGAAGGTGCACTCCATGCCTTTGTTAATCGAGAGCGTCGTTTCGGCGGCACTGAGCCGGGTGGCAGTCATGCCTGA	MDGNGRWAKRQGKIRAFGHKAGAKSVRRAVSFAANNGIEALTLYAFSSENWNRPAQEVSALMELFVWALDSEVKSLHRHNVRLRIIGDTTRFNARLQERIRKAEALTANNTGLTLNIAANYGGRWDITQGVRFLAKQVQDGTLLPEQITEDMLSQQVCMHELAPVDLVIRTGGEHRISNFLIWQIAYAELYFTDVLWPDFAEQDFEGALHAFVNRERRFGGTEPGGSHA	PGPT0024180_1086	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024180-uppS|ispU-K00806	NA	NA
BMS020_04756	858	cdsA_1	COG0575	Phosphatidate cytidylyltransferase	TTGCTGAAGTATCGCCTGATATCTGCTTTCGTCTTAATCCCCGTCGTCATTGCGGCGCTGTTTTTATTGCCGCCGATGGGGTTTGCTATCGTGACCCTGGTGGTCTGTATGCTCGCCGCGTGGGAGTGGGGGCAACTGAGCGGTTTCACCTCGACGTCGCAGCGGGTCTGGCTGGCGGTGTTGTGCGGCCTTCTGCTGGCGGCGATGCTGTTTTTGCTGCCGGAATACCATTATGACGTTCATCAACCGATGGTTGAAGGCTCGCTGTGGGCCTCTTTCGCCTGGTGGATCGTCGCGCTGCTGCTGGTGCTCTCTTATCCGGCGTCGGCGGCATTCTGGCGGCACTCGAAAGTGCTGCGCCTTATCTTCGGTATCCTGACCATCGTCCCGTTTTTCTGGGGCATGCTGGCGCTGCGCGCCTGGCACTATACCGATAACCATTACAGCGGCGCGCTGTGGCTACTGTATGTGATGATTTTGGTCTGGGGCGCGGACTCCGGCGCCTATATGTTTGGCAAAATGTTTGGCAAGCACAAGCTGGCGCCGAAGGTCTCGCCGGGGAAAACCTGGCAGGGCTTTTTTGGCGGTTTGCTGACCGCGGCGGTGATCTCCTGGGCCTACGGGGTGTGGGCCCATCTTGACGTTACGCCAACGGTGCTGCTGGTCTGTTCGGTGGTGGCAGCTCTGGCTTCGGTGCTGGGCGATCTGACGGAAAGTATGTTTAAGCGCGAGGCCGGCATTAAGGATAGCGGGCACTTGATTCCCGGACATGGCGGTATTCTCGATCGTATCGACAGCCTGACGGCGGCGGTGCCGGTCTTCGCCTGTCTGCTACTGTTGGTCTTCAGGACGATTTGA	MLKYRLISAFVLIPVVIAALFLLPPMGFAIVTLVVCMLAAWEWGQLSGFTSTSQRVWLAVLCGLLLAAMLFLLPEYHYDVHQPMVEGSLWASFAWWIVALLLVLSYPASAAFWRHSKVLRLIFGILTIVPFFWGMLALRAWHYTDNHYSGALWLLYVMILVWGADSGAYMFGKMFGKHKLAPKVSPGKTWQGFFGGLLTAAVISWAYGVWAHLDVTPTVLLVCSVVAALASVLGDLTESMFKREAGIKDSGHLIPGHGGILDRIDSLTAAVPVFACLLLLVFRTI	PGPT0007685_3131	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE_ACTIVITY,PGPT0007685-cdsA|ynbB-K00981	NA	NA
BMS020_04757	1353	rseP_1	COG0750	Regulator of sigma-E protease RseP	ATGCTGAGCGTGCTCTGGAATCTGGCAGCTTTTATCATTGCGCTTGGCGTACTGATTACGGTACATGAGTTTGGCCATTTTTGGGTAGCGCGCCGCTGCGGTATCCGGGTTGAGCGTTTTTCTATCGGCTTCGGCAAAGCGCTATGGCGGCGGATGGATAAGCAGGGTACGGAGTTCGTCATTGCCCTGATCCCGCTGGGCGGCTATGTCAAGATGCTGGATGAGCGTGTTGAAGCGGTGGCGCCGGAGATGCGCCACTACGCTTTCAATAATAAAACCGTCGGCCAGCGTGCGGCGGTGATTGCCGCCGGTCCCATCGCTAACTTCCTTTTCGCTATCTTTGCCTACTGGTTGGTCTTCATCATCGGCGTTCCTGGCGTTCGCCCGGTAGTGGGTGAAATAACCCCCAATTCGGTTGCCGCGCAAGCACAAATTGCAAAAGGCACGGAACTTAAAGCGATAGATGGTATCGAAACGCCTGATTGGGATGCGGTGCGTCTGCAGCTGGTGGCCAAAATCGGCAACCCGCAAACAATACTTACCGTCGCCCCTTTCGGGACCAATCAGCGCCAGGATAAAATCGTCGATCTGCGGCACTGGGCGTTTGAGCCAGACAAGCAAGATCCCGTGACGTCGCTAGGGATCCAGCCGCGCAGCGCGCAGATTGATACGGTGCTGGCGGAAGTCCAGGCGGGCTCGGCAGCTCAGAAAGCAGGTTTGCAAGCGGGCGACCGGATCGTTAAAGTCGATGGACAACCGTTAACGCAGTGGATGACGTTTGTTAATCTGGTGCGCGATAATCCGGGCAAAGCGCTGGCGCTGGAGATTGAACGGCAGGGGAGTGCGCTGCCGTTAACCCTGACGCCGGATGCAAAAACGGTGAAAGGTAAGGCAGAAGGGTTCGCAGGGGTGGTGCCAAAGGTCATCCCGCTGCCTGAAGAATACAAGACAGTACGTCAGTACGGACCGTTTGCCGCCATCGCTGAAGCCACGGATAAAACCTGGCAGCTGATGTCGCTGACGGTCAGGATGCTGGGTAAATTGATAACCGGTGATGTCAAACTGAACAACCTCAGTGGGCCGATCTCTATCGCTCAGGGGGCTGGAATGTCAGCGGAGTTTGGGTTGATTTATTATCTGATGTTCCTTGCGCTGATTAGCGTGAACCTCGGAATCATCAACCTGTTCCCACTACCCGTACTGGATGGGGGACATCTGCTGTTTTTGGCGATTGAAAAGCTGAAGGGCGGGCCGGTATCCGAGCGAGTTCAAGACTTTAGTTATCGCATTGGCTCAATACTGCTGGTGCTGTTAATGGGGCTTGCACTTTTCAATGATTTCTCTCGGTTATAA	MLSVLWNLAAFIIALGVLITVHEFGHFWVARRCGIRVERFSIGFGKALWRRMDKQGTEFVIALIPLGGYVKMLDERVEAVAPEMRHYAFNNKTVGQRAAVIAAGPIANFLFAIFAYWLVFIIGVPGVRPVVGEITPNSVAAQAQIAKGTELKAIDGIETPDWDAVRLQLVAKIGNPQTILTVAPFGTNQRQDKIVDLRHWAFEPDKQDPVTSLGIQPRSAQIDTVLAEVQAGSAAQKAGLQAGDRIVKVDGQPLTQWMTFVNLVRDNPGKALALEIERQGSALPLTLTPDAKTVKGKAEGFAGVVPKVIPLPEEYKTVRQYGPFAAIAEATDKTWQLMSLTVRMLGKLITGDVKLNNLSGPISIAQGAGMSAEFGLIYYLMFLALISVNLGIINLFPLPVLDGGHLLFLAIEKLKGGPVSERVQDFSYRIGSILLVLLMGLALFNDFSRL	PGPT0011685_1253	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0011685-rseP-K11749	NA	NA
BMS020_04758	2430	bamA_1	COG4775	Outer membrane protein assembly factor BamA	ATGGCGATGAAAAAGTTGCTCATAGCGTCGCTGCTGTTTAGCAGCGCGACTGTATACGGTGCTGAAGGGTTCGTGGTGAAGGACATTCATTTCGAAGGCTTGCAGCGTGTCGCTGTTGGTGCGGCCCTCCTCAGTATGCCAGTGCGTCCTGGCGATACGGTGACCGACGATGATATCAGTAACACTATTCGCGCGCTGTTTGCCACTGGCAACTTCGAGGACGTCCGCGTCCTGCGCGATGGTGATACCCTGCTGGTGCAGGTGAAAGAGCGTCCGACGATCGCCAGCATCACTTTCTCCGGCAACAAGTCGGTGAAAGATGACATGCTCAAGCAGAACCTTGAGGCCTCTGGCGTTCGGGTGGGCGAGTCGCTTGACCGCACGACCATCGCGGACATCGAGAAGGGTCTCGAGGATTTCTACTACAGCGTCGGTAAATACAGCGCCAGCGTCAAAGCGGTGGTTACTCCGCTGCCGCGAAACCGTGTCGACCTGAAACTGGTCTTCCAGGAAGGCGTCTCCGCTAAAATTCAGCAGATCAACATCGTCGGCAACCATGCGTTTTCGACTGATGAGCTGATCTCCCACTTCCAGCTGCGCGATGAAGTGCCGTGGTGGAACGTGGTCGGCGACCGTAAATACCAGAAGCAGAAGCTGGCGGGCGACCTTGAAACCCTGCGCAGCTACTACCTGGATCGCGGCTATGCCCGTTTCAACATCGATTCTACCCAGGTCAGCCTGACGCCGGATAAGAAAGGGATCTACATCACCGTCAACATCACCGAAGGCGATCAGTACAAGTTTTCCGGGGTGCAGGTGACGGGCAACCTCGCCGGCCATTCCGCGGAAATCGAAGCGCTGACCAAAGTCGAGCCGGGTGAACTGTATAACGGCGCGAAAGTGACCAAGATGGAAAACGACATCAAGAAACTGTTGGGTCGTTATGGTTACGCCTACCCGCGCGTGCAGTCGCAGCCGGAGATCAACGACAGCGATAAAACCGTTAAGCTGCACGTCAACGTCGATGCGGGCAACCGCTATTACGTGCGTAAAATTCGCTTCGAAGGCAACGACACCTCCAAAGATGCCGTTCTGCGCCGCGAAATGCGCCAGATGGAAGGCGCGTGGCTGGGCAGCGACCTCGTCGATCAGGGTAAAGACCGTCTCAACCGTTTAGGCTTCTTCGAAACGGTCGATACCGATACCCAGCGCGTCCCGGGCAGCCCGGACCAGGTCGATGTAGTCTACAAGGTGAAAGAGCGTAACACCGGTAGCTTCAACTTCGGTATCGGTTACGGTACCGAGAGCGGCGTCAGCTTCCAGGCGGGCGTTCAGCAGGATAACTGGTTAGGTACTGGCTATGCTGTCGGGATCAACGGCACCAAAAACGACTACCAAACCTATACCGAGCTGTCGGTGACCAACCCATACTTCACCGTAGACGGTGTAAGCCTCGGCGGCCGTGTCTTCTATAATGACTTTGATGCGAACGATGCGGATCTGTCTGACTATACCAACAAAAGCTATGGTACAGACATCACGCTGGGCTTCCCGGTCAACGAATACAACACGCTGCGCGCCGGCGTCGGGTATGTGCATAACTCCCTGTCCAATATGCAGCCGCAGGTGGCGATGTGGCGTTACCTGAACTCGATGGGCCAGTATCCGGACGACACCAACGACCGGAACTCGTTCAGTGCGAATGACTTCACCTTCAACTACGGTTGGACCTATAACAAGCTTGACCGCGGCTTCTTCCCAACGGAAGGTTCGCGCGTCAACCTGAACGGTAAAGTGACCATTCCGGGTTCGGACAACGAATACTACAAAGCGACGTTGGATACCGCCACCTATGTGCCGATCGACAACGATCATGAATGGGTGGTGCTGGGTCGTACCCGCTTTGGCTATGGCGATGGTATCGGCGGCAAAGAGATGCCGTTCTATGAGAACTTCTATGCCGGTGGCTCCAGCACCGTGCGTGGCTTCCAGTCGAACACCATTGGTCCGAAGGCAGTGTATTTCCCGGCAAGCAGCCGTCATGACGATGATGACAGCTACGATAATGAATGTAAGAGCACCGAATCCGCACCGTGTAAATCCGATGATGCGGTGGGCGGTAACGCGATGGCGGTGGCCAGCCTGGAGCTGATTACCCCGACGCCGTTCATTAGTGACAAATATGCGAACTCGGTCCGGACTTCCTTCTTCTGGGATATGGGTACCGTATGGGATACTCACTGGGATTCGAGCGCGTATGGCGGTTATCCGGATTACAGCGATCCGAGCAACATCCGTATGTCTGCGGGTATTGCCGTGCAGTGGATGTCGCCGTTGGGGCCGTTGGTCTTCTCCTACGCCCAACCGTTCAAAAAGTACGATGGAGACAAAGCCGAACAGTTCCAGTTTAACATTGGTAAAACCTGGTAA	MAMKKLLIASLLFSSATVYGAEGFVVKDIHFEGLQRVAVGAALLSMPVRPGDTVTDDDISNTIRALFATGNFEDVRVLRDGDTLLVQVKERPTIASITFSGNKSVKDDMLKQNLEASGVRVGESLDRTTIADIEKGLEDFYYSVGKYSASVKAVVTPLPRNRVDLKLVFQEGVSAKIQQINIVGNHAFSTDELISHFQLRDEVPWWNVVGDRKYQKQKLAGDLETLRSYYLDRGYARFNIDSTQVSLTPDKKGIYITVNITEGDQYKFSGVQVTGNLAGHSAEIEALTKVEPGELYNGAKVTKMENDIKKLLGRYGYAYPRVQSQPEINDSDKTVKLHVNVDAGNRYYVRKIRFEGNDTSKDAVLRREMRQMEGAWLGSDLVDQGKDRLNRLGFFETVDTDTQRVPGSPDQVDVVYKVKERNTGSFNFGIGYGTESGVSFQAGVQQDNWLGTGYAVGINGTKNDYQTYTELSVTNPYFTVDGVSLGGRVFYNDFDANDADLSDYTNKSYGTDITLGFPVNEYNTLRAGVGYVHNSLSNMQPQVAMWRYLNSMGQYPDDTNDRNSFSANDFTFNYGWTYNKLDRGFFPTEGSRVNLNGKVTIPGSDNEYYKATLDTATYVPIDNDHEWVVLGRTRFGYGDGIGGKEMPFYENFYAGGSSTVRGFQSNTIGPKAVYFPASSRHDDDDSYDNECKSTESAPCKSDDAVGGNAMAVASLELITPTPFISDKYANSVRTSFFWDMGTVWDTHWDSSAYGGYPDYSDPSNIRMSAGIAVQWMSPLGPLVFSYAQPFKKYDGDKAEQFQFNIGKTW				NA	NA	NA	NA	NA
BMS020_04759	486	skp	COG2825	Chaperone protein Skp	GTGAAAAAGTGGTTATTAGCTGCAGGTCTGGGTTTGGCAATGGTAACTTCCGCTCAGGCGGCAGATAAAATTGCCCTGGTGAACATGAACAGCCTGTTCCAACAGGTTGCCCAGAAAACTGGCGTTTCCAACACGCTGGAAAACGAGTTCAAAGGCCGCGCTAGCGAACTGCAGCGTATGGAAGGCGACCTGCAGTCTAAAATGCAGCGTCTGCAGTCCATGAAGCCGGGCGCCGATCGTACCAAACTGGAAAAAGACGTGATGGCTCAGCGCCAGACCTTCTCCCAGAAAGCGCAGGCGTTTGAACAGGATCGCGCTCGTCGTTCCAACGAAGAGCGTGGCAAACTGGTGACCCGTATCCAGACTGCCGTACAGAGCGTAGCGAAAGATCAGAGCATCGATCTGGTGGTTGACGCGAATGCCGTTGCATACAACAGCAGCGATGTAAAAGACATCACCGCTGATGTGCTGAAACAGGTTAAATAA	MKKWLLAAGLGLAMVTSAQAADKIALVNMNSLFQQVAQKTGVSNTLENEFKGRASELQRMEGDLQSKMQRLQSMKPGADRTKLEKDVMAQRQTFSQKAQAFEQDRARRSNEERGKLVTRIQTAVQSVAKDQSIDLVVDANAVAYNSSDVKDITADVLKQVK	PGPT0024525_2389	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	OTHER_INTEGRAL_MEMBRANE_REMODELLING__PROTEINS,PGPT0024525-hlpA|ompH|skp-K06142	NA	NA
BMS020_04760	1026	lpxD_1	COG1044	UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase	ATGCCTTCAATTCGACTGGCTGATCTTGCGCAGCAGTTGGATGCAGAATTACACGGTGATGGCGATATCGTCATCACCGGCGTTGCGTCCATGCAGAGCGCGAAAACGGGCCAAATCACTTTCATGGTCAACCCTAAGTACCGTGAACACCTGGCCGCTTGCCAGGCTTCTGCCGTTGTGATGACGCAGGATGATTTGCCTTTTGCCCATAGCGCCGCGCTGGTAGTGCGTAATCCCTACCTGACCTACGCGCGCATGGCTCAAATTCTGGATACCACGCCGCAGCCGGCACAGGATATCGCGCCGAGCGCGGTTATCGATCCGACGGCGAAGCTGGGTATCAACGTTGCCATCGGCGCCAACGCCGTTATCGAATCCGGGGTAGAGCTGGGCGATAACGTGGTCATCGGCGCAGGCTGCTTCGTTGGGAAAAATACGAAAATAGGCGCCGGCTCGCGTTTGTGGGCCAATGTGACCGTTTACCATGAGATTGAGATCGGCGAGAATTGCCTGATCCAGTCCAGCACGGTGATCGGCGCGGATGGCTTCGGCTACGCCAACGATCGCGGCAACTGGGTGAAGATCCCGCAGCTGGGTCGCGTCATTATTGGCGATCGCGTGGAGATCGGCGCCTGCACCACAATTGACCGCGGCGCGCTGGACGATACCGTGATTGGCAACGGGGTTATCATTGATAACCAGTGCCAGATTGCGCATAACGTGGTGATTGGCGACAATACCGCGGTTGCCGGCGGTGTCATCATGGCAGGCAGCCTGAAAATCGGCCGCTACTGCATGATTGGCGGCGCCAGCGTGATTAACGGCCATATGGAAATCTGCGATAAGGTCACCGTCACGGGGATGGGGATGGTGATGCGTCCTATCAGCGAACCTGGCGTATACTCCTCCGGTATTCCGCTGCAGCCGAACAAGGCGTGGCGTAAAACCGCTGCGCTGGTGATGAATATTGACGAGATGAGCAAGCGCCTGAAAGCGATTGAGCGCAAGGTTAATCAACAAGACTAA	MPSIRLADLAQQLDAELHGDGDIVITGVASMQSAKTGQITFMVNPKYREHLAACQASAVVMTQDDLPFAHSAALVVRNPYLTYARMAQILDTTPQPAQDIAPSAVIDPTAKLGINVAIGANAVIESGVELGDNVVIGAGCFVGKNTKIGAGSRLWANVTVYHEIEIGENCLIQSSTVIGADGFGYANDRGNWVKIPQLGRVIIGDRVEIGACTTIDRGALDDTVIGNGVIIDNQCQIAHNVVIGDNTAVAGGVIMAGSLKIGRYCMIGGASVINGHMEICDKVTVTGMGMVMRPISEPGVYSSGIPLQPNKAWRKTAALVMNIDEMSKRLKAIERKVNQQD	PGPT0022340_1939	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022340-lpxD-K02536	NA	NA
BMS020_04761	456	fabZ_1	COG0764	3-hydroxyacyl-[acyl-carrier-protein] dehydratase FabZ	TTGACTACTGACACTCATACTCTGCACATTGAAGAGATTCTGGAACTTCTGCCTCACCGTTACCCGTTCCTGCTGGTAGACCGCGTGCTGGATTTTGAAGAAGGTCGTTTTCTGCGCGCAGTAAAAAATGTTTCTGTAAACGAGCCGTTTTTCCAGGGGCATTTCCCTGGTAAGCCGATTTTGCCGGGCGTCCTGATTCTGGAAGCAATGGCGCAGGCCACCGGGATTCTGGCATTCAAAAGCGTTGGAAAACTGGAACCAGGCGAGCTGTATTACTTCGCGGGTATCGATGAAGCACGTTTCAAACGCCCGGTAGTACCAGGCGATCAGATGATTATGGAAGTCACTTTCGAGAAAACCCGCCGCGGCCTGACCCGTTTCAAAGGCGTTGCGCTGGTTGACGGTAAAGTGGTTTGCGAAGCGACGATGATGTGTGCGCGTAGCCGGGAGGCCTGA	MTTDTHTLHIEEILELLPHRYPFLLVDRVLDFEEGRFLRAVKNVSVNEPFFQGHFPGKPILPGVLILEAMAQATGILAFKSVGKLEPGELYYFAGIDEARFKRPVVPGDQMIMEVTFEKTRRGLTRFKGVALVDGKVVCEATMMCARSREA	PGPT0008365_1800	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008365-fabZ-K02372	NA	NA
BMS020_04762	789	lpxA_1	COG1043	Acyl-[acyl-carrier-protein]--UDP-N-acetylglucosamine O-acyltransferase	GTGATTGATAAAACCGCTTTTGTTCATCCTACCGCCATTGTTGAAGAAGGCGCCGTGATTGGCGCTAACGTCCACATTGGTCCGTTTTGTATTGTTGGCGCCAACGTCGAAATCGGCGAAGGCACCGTACTGAAGTCTCACGTTGTCGTTAACGGCCACACCAAAATCGGCCGTGACAACGAGATCTATCAGTTCGCTTCCATCGGCGAAGTTAACCAGGATCTGAAATATGCTGGCGAACCAACCCGGGTGGAAATTGGCGATCGCAACCGCATTCGCGAAAGCGTCACCATTCATCGCGGCACAGTACAGGGCGGTGGATTAACAAAGGTGGGCAACGATAACCTGCTGATGATTAACGCCCACGTGGCGCACGATTGTACGCTTGGCGATCGCTGCATCCTGGCCAATAACGCGACGCTCGCGGGCCATGTTTCGCTGGATGATTATGTCATTATCGGCGGCATGACTGCGGTGCACCAGTTCTGCGTCATTGGCTCACACGTTATGGTTGGCGGTTGCTCCGGCGTAGCGCAGGACGTTCCGCCGTTCGTGATTGCCCAGGGCAACCATGCAACGCCGTTCGGCGTCAACATCGAAGGCCTGAAACGCCGCGGCTTCAGCCGGGAAGCGATTACCGCGATCCGCAACGCGTATAAACTGCTGTACCGCAGCGGCAAGACGCTGGAAGAAGCCAAGCCGGAGATCGCCGAACTGGCGACTCAGCATCCTGAAGTTCAGCCGTTTGTCGATTTCTTCGCCCGCTCTACCCGCGGCTTGATTCGTTAA	MIDKTAFVHPTAIVEEGAVIGANVHIGPFCIVGANVEIGEGTVLKSHVVVNGHTKIGRDNEIYQFASIGEVNQDLKYAGEPTRVEIGDRNRIRESVTIHRGTVQGGGLTKVGNDNLLMINAHVAHDCTLGDRCILANNATLAGHVSLDDYVIIGGMTAVHQFCVIGSHVMVGGCSGVAQDVPPFVIAQGNHATPFGVNIEGLKRRGFSREAITAIRNAYKLLYRSGKTLEEAKPEIAELATQHPEVQPFVDFFARSTRGLIR	PGPT0022320_1629	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0022320-lpxA-K00677	NA	NA
BMS020_04763	1152	lpxB_1	COG0763	Lipid-A-disaccharide synthase	ATGGCTGAACAGCGTCCCCTGACGATTGCCCTGGTCGCCGGAGAAACCTCCGGCGATATTCTTGGCGCTGGCCTCATCCGCGCCCTCAAAGCACGCATCCCGAATGCGCGCTTTGTCGGCGTGGCGGGACCGCTGATGCAGGCGGAAGGGTGTGAAGCCTGGTACGAAATGGAAGAGCTGGCGGTGATGGGTATTGTTGAAGTGCTCGGTCGCCTGCGTCGCTTACTCCATATTCGCGCCGATTTGACCCGCCGCTTCGGCGAGCTGCGTCCCGATGTTTTCGTCGGTATCGACGCCCCTGACTTCAATATTACCCTCGAAGGGAATCTGAAAAAGCAGGGCATCAAAACCATTCACTACGTCAGCCCATCGGTTTGGGCCTGGCGACAAAAACGCGTTTTCAAAATCGGCAGATCCACCGATCTGGTGCTGGCCTTTCTGCCTTTCGAAAAAGCGTTTTATGACAAATTTAACGTTCCCTGCCGCTTTATCGGCCATACCATGGCGGATGCGATGCCGCTGGATCCTGACAAAGGCGCCGCGCGCGACCGGTTAGGGATCCCGCACGACGTGCGTTGCCTGGCGCTGTTGCCCGGTAGCCGCGGCGCGGAAGTCGAAATGCTCAGTGCGGACTTTCTGAAAACCGCGCAACTTCTGCGGGCTACCTATCCCGATCTGCAGGTGGTGGTGCCGCTGGTTAATGCTAAACGGCGGGAGCAGTTTGAGCGAATTAAAGCTGAGACGGCGCCGGATATGATCGTGCATATGCTGGACGGCCAGGCGCGCGATGCGATGATCGCCAGCGACGCCGCGCTGCTGGCCTCCGGGACGGCGGCGCTGGAGTGTATGCTGGCGAAATGCCCGATGGTGGTTGGCTATCGCATGAAGCCGTTCACCTTCTGGCTGGCGAAGCGGTTGGTTAAAACCGACTACGTCTCGTTGCCGAACCTGCTGGCCGGGCGCGAGCTGGTTAAAGAGCTGCTGCAGGATGAGTGCGAGCCGCAGGCGCTGGCTGCCGCCCTGCAGCCGCTGCTGGCCGATGGCAAAACCAGCCATGAGATGCATGAGACATTCCGCGCGCTGCATCAGCAGATCCGCTGCAACGCCGATGAGCAGGCGGCGGATGCCGTACTGGAGTTAGCAAAACAATGA	MAEQRPLTIALVAGETSGDILGAGLIRALKARIPNARFVGVAGPLMQAEGCEAWYEMEELAVMGIVEVLGRLRRLLHIRADLTRRFGELRPDVFVGIDAPDFNITLEGNLKKQGIKTIHYVSPSVWAWRQKRVFKIGRSTDLVLAFLPFEKAFYDKFNVPCRFIGHTMADAMPLDPDKGAARDRLGIPHDVRCLALLPGSRGAEVEMLSADFLKTAQLLRATYPDLQVVVPLVNAKRREQFERIKAETAPDMIVHMLDGQARDAMIASDAALLASGTAALECMLAKCPMVVGYRMKPFTFWLAKRLVKTDYVSLPNLLAGRELVKELLQDECEPQALAAALQPLLADGKTSHEMHETFRALHQQIRCNADEQAADAVLELAKQ	PGPT0022325_1706	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022325-lpxB-K00748	NA	NA
BMS020_04764	600	rnhB_1	COG0164	Ribonuclease HII	ATGATGGAGTTCGTCTATCCGCATACCCATCTGGTTGCCGGCGTCGATGAGGTCGGGCGTGGCCCCCTGGTTGGCGCGGTGGTGACCGCGGCGGTGATCCTCGATCCGGCGAAGCCGATTGTGGGTCTGAATGATTCCAAAAAACTCAGCGAGAAGCGTCGACTGGCGCTCTTCGATGAGATTAAAGAGAAAGCGCTGTGCTGGAGCCTTGGGCGCGCCGAGCCGCATGAGATCGATGAGCTGAATATCCTGCATGCCACTATGCTGGCGATGCAGCGCGCCGTCGCCGGCCTGAGCATTGTGCCCGAGTTTGTCCTGATCGATGGCAACCGCTGTCCGTCGCTACCGATGCCCTCCCTGGCGGTGGTGAAAGGCGACAGCCGGGTGGCAGAAATCAGCGCAGCGTCTATTCTGGCAAAAGTCACTCGTGACGCCGAAATGGCCACGCTGGACCTCGCATTTCCCCACTACGGATTTGCCCAGCATAAAGGCTATCCCACCGCTGTTCACCTGCAGAAGCTGCAGGAACACGGCGCAACAGAGCATCACCGGCGCAGTTTCGGCCCGGTGAAGCGTGCCCTGGGCCTGGCGTCCAACTAA	MMEFVYPHTHLVAGVDEVGRGPLVGAVVTAAVILDPAKPIVGLNDSKKLSEKRRLALFDEIKEKALCWSLGRAEPHEIDELNILHATMLAMQRAVAGLSIVPEFVLIDGNRCPSLPMPSLAVVKGDSRVAEISAASILAKVTRDAEMATLDLAFPHYGFAQHKGYPTAVHLQKLQEHGATEHHRRSFGPVKRALGLASN				NA	NA	NA	NA	NA
BMS020_04765	3483	dnaE_1	COG0587	DNA polymerase III subunit alpha	ATGGCTGAACCACGTTTCGTACACCTGCGGGTGCACAGCGACTATTCCATGATCGATGGGCTGGCAAAGACCGGGCCGCTGGTCAAGAAGGCGGCCTCGCTTGGCATGCCAGCGCTGGCGATCACCGATTTCACCAACCTCTGCGGGCTGGTGAAGTTCTACGGGACGGGACACGGCGCGGGGATTAAGCCGATCGTCGGCGCCGATTTCCACGTGCAGTGCGACCTGCTCGGCGACGAATTTACCGAGCTGACCGTGCTGGCGGCGAACAACACCGGCTACCAGAACCTGACTCTGCTGATTTCCCGCGCCTATCAGCGCGGCTACGGCGCCCTGGGGCCGTGGATCGATCGCGACTGGCTGGTGGAACATCAGGAAGGGCTGATTCTGCTCTCCGGCGGCCGTAAAGGCGACGTCGGCGTCAGCCTGATCCGCGGCAACATGCCGCTGGTTGAGCAGTGCGTCTCCTTCTATGAAGAGCATTTCCCGGATCGCTATTTTCTGGAGCTGATCCGCACCGGTCGTCAGGATGAAGAGAGTTATCTCCATGCCGCCGTAGCGCTGGCGGAAGCGCGTGGTCTGCCGGTGGTGGCGACCAACGATGTCCGCTTCCTCGACACTGGCGACTTTGACGCCCATGAAATCCGCGTCGCTATTCACGACGGCTTCACCCTCGACGACCCGAAACGGCCGCGCAACTACTCGCCACAGCAATATATGCGCAGCGAGGAGGAGATGTGCGAGCTGTTCGCCGATATTCCGGAAGCGCTGGCAAACAGCGTCGAGATCGCCAAACGCTGCAACGTCACCGTGCGGCTTGGCGAATATTTCCTGCCGCAGTTCCCGACCGGCGATATGACCACGGAAGATTTCCTGGTAATGAAATCGAAAGAGGGTCTGGAAGAGCGGCTGGAATTCCTCTTCCCGGATCCGGAAGTGCGCGCGAAGCGCCGGCCGGAATACGACGAGCGTCTGGATATCGAGCTGCAGGTGATCAACCAGATGGGCTTCCCCGGCTACTTCCTGATCGTGATGGAGTTTATCCAGTGGTCGAAAGATAACGGCGTGCCGGTCGGCCCGGGCCGCGGTTCCGGCGCCGGCTCGCTGGTGGCCTACGCGCTGAAGATCACCGATCTTGACCCGCTGGAATTCGACCTGCTGTTCGAACGTTTCCTCAACCCGGAACGTGTTTCGATGCCCGACTTCGACGTCGACTTCTGCATGGAGAAACGCGACCAGGTTATCGAGCACGTGGCGGATATGTATGGCCGCGACGCGGTATCGCAGATCATCACCTTCGGTACCATGGCGGCGAAGGCGGTCATCCGCGACGTGGGCCGCGTGCTGGGTCACCCGTACGGCTTTGTCGACCGCATCTCCAAGCTGGTGCCGCCCGATCCGGGCATGACGCTGGCGAAAGCCTTTGAGGCCGAGCCGCAGCTGCCGGAGATCTACGAGGCGGACGAAGAAGTGAAAGCGCTGATCGACATGGCGCGTAAGCTGGAAGGGGTGACGCGAAACGCCGGTAAGCATGCGGGCGGCGTGGTTATCGCGCCGACCAAAATCACCGACTTCGCCCCGCTGTATTGCGATGAGCAGGGGCTGCATCCGGTTACCCAGTTTGACAAGAACGACGTGGAATACGCCGGGCTGGTGAAATTCGACTTCCTCGGTCTGCGTACGCTCACTATCATTAACTGGGCGCTGGAGATGATTAACAAGCGCCGTGAGAAGAACGGCGAAGGGCCGCTGGATATCGCCGCCATCCCGCTGGATGACAAGAAAAGCTTCGACATGCTGCAGCGCTCGGAAACCACCGCGGTCTTCCAGCTTGAATCGCGCGGCATGAAAGATCTGATTAAACGCCTGCAGCCGGACTGCTTCGAAGATATGATCGCGCTGGTGGCCCTGTTCCGCCCGGGCCCGCTGCAGTCGGGGATGGTAGATAACTTTATCGACCGTAAGCACGGCCGCGAAGAGATCTCGTATCCGGACGTACAGTGGCAGCATGAAAGCCTGAAACCGGTGCTGGAGCCGACCTACGGCATCATCCTGTACCAGGAACAGGTCATGCAGATTGCCCAGGTGCTGTCCGGATATACCCTCGGCGGCGCGGATATGCTGCGTCGTGCGATGGGTAAGAAAAAGCCGGAGGAGATGGCCAAGCAGCGTTCTATCTTTGAGGATGGGGCGAAGAAAAACGGCGTTGATGGCGAGCTGGCGATGAAAATCTTCGACCTGGTGGAGAAATTCGCCGGTTACGGGTTTAACAAATCGCACTCCGCCGCATACGCGCTGGTTTCTTACCAGACGCTGTGGCTTAAGGCGCACTATCCGGCTGAGTTTATGGCGGCGGTAATGACCGCCGATATGGACAACACCGAGAAGGTCGTTGGCCTGGTGGACGAGTGCTGGCGTATGGGGCTGAAAATTTTGCCCCCGGATATTAACTCCGGCCTGTACCATTTCCACGTCAACGACGACGGCGAGATCGTCTACGGTATCGGCGCCATCAAGGGCGTCGGCGAAGGGCCGATCGAAGCGATCATTGAGGCGCGCAACAACGGCGGTTATTTCCGCGAGCTGTTCGACCTCTGCGCGCGGACCGATATTAAAAAGCTCAACCGTCGGGTGCTGGAAAAACTGATTATGTCCGGGGCGTTCGATCGTCTCGGTCCGCATCGCGCGGCGCTGATGAATTCACTGGGCGATGCGCTGAAAGCCGCCGATCAGCACGCCAAAGCCGAGGCCATCGGCCAGGCCGATATGTTCGGCGTGCTGGCGGAAGAGCCTGAGCAGATTGAACAGTCCTACGCCAGCTGCCAGCCGTGGCCTGAGCAGGTGGTGCTGGATGGTGAAAGGGAGACCCTGGGGCTGTACCTGACCGGGCACCCGATTAACCAGTATTTGAAAGAGATTGAGCGCTACGTCGGCGGCGTGAGGCTCAAAGACATGCATCCGACCGATCGTGGAAAAGTGACCACGGCGGCGGGGCTGGTGATTGCGGCGCGGGTAATGGTCACCAAGCGCGGCAATCGTATCGGCATCTGTACCCTGGATGACCGTTCCGGGCGGCTGGAAGTGATGTTATTCACCGACGCGCTGGATAAATATCAGCAGTTGCTGGAAAAAGACCGCATACTTATCGTCAGCGGACAGGTCAGCTTTGATGACTTTAGCGGGGGGCTTAAAATGACCGCCCGTGAAGTCATGGACATTGACGAAGCCCGGGAAAAATATGCTCGCGGGCTTGCTATCTCGCTGACGGACAGGCAAATTGATGACCAGCTTTTAAACCGACTCCGTCAGTCTCTGGAACCCCACCGTTCGGGAACCATTCCAGTGCACCTCTACTATCAGAGGGCGGATGCACGCGCGCGGTTGCGTTTCGGCGCAACATGGCGCGTCTCTCCGAGCGATCGTTTACTCAACGATCTGCGTGGCCTTATCGGCTCGGAGCAGGTGGAACTGGAGTTTGACTAA	MAEPRFVHLRVHSDYSMIDGLAKTGPLVKKAASLGMPALAITDFTNLCGLVKFYGTGHGAGIKPIVGADFHVQCDLLGDEFTELTVLAANNTGYQNLTLLISRAYQRGYGALGPWIDRDWLVEHQEGLILLSGGRKGDVGVSLIRGNMPLVEQCVSFYEEHFPDRYFLELIRTGRQDEESYLHAAVALAEARGLPVVATNDVRFLDTGDFDAHEIRVAIHDGFTLDDPKRPRNYSPQQYMRSEEEMCELFADIPEALANSVEIAKRCNVTVRLGEYFLPQFPTGDMTTEDFLVMKSKEGLEERLEFLFPDPEVRAKRRPEYDERLDIELQVINQMGFPGYFLIVMEFIQWSKDNGVPVGPGRGSGAGSLVAYALKITDLDPLEFDLLFERFLNPERVSMPDFDVDFCMEKRDQVIEHVADMYGRDAVSQIITFGTMAAKAVIRDVGRVLGHPYGFVDRISKLVPPDPGMTLAKAFEAEPQLPEIYEADEEVKALIDMARKLEGVTRNAGKHAGGVVIAPTKITDFAPLYCDEQGLHPVTQFDKNDVEYAGLVKFDFLGLRTLTIINWALEMINKRREKNGEGPLDIAAIPLDDKKSFDMLQRSETTAVFQLESRGMKDLIKRLQPDCFEDMIALVALFRPGPLQSGMVDNFIDRKHGREEISYPDVQWQHESLKPVLEPTYGIILYQEQVMQIAQVLSGYTLGGADMLRRAMGKKKPEEMAKQRSIFEDGAKKNGVDGELAMKIFDLVEKFAGYGFNKSHSAAYALVSYQTLWLKAHYPAEFMAAVMTADMDNTEKVVGLVDECWRMGLKILPPDINSGLYHFHVNDDGEIVYGIGAIKGVGEGPIEAIIEARNNGGYFRELFDLCARTDIKKLNRRVLEKLIMSGAFDRLGPHRAALMNSLGDALKAADQHAKAEAIGQADMFGVLAEEPEQIEQSYASCQPWPEQVVLDGERETLGLYLTGHPINQYLKEIERYVGGVRLKDMHPTDRGKVTTAAGLVIAARVMVTKRGNRIGICTLDDRSGRLEVMLFTDALDKYQQLLEKDRILIVSGQVSFDDFSGGLKMTAREVMDIDEAREKYARGLAISLTDRQIDDQLLNRLRQSLEPHRSGTIPVHLYYQRADARARLRFGATWRVSPSDRLLNDLRGLIGSEQVELEFD				NA	NA	NA	NA	NA
BMS020_04766	960	accA_1	COG0825	Acetyl-coenzyme A carboxylase carboxyl transferase subunit alpha	ATGAGTCTGAATTTCCTAGATTTTGAACAGCCGATTGCAGAGCTGGAAGCGAAAATCGATTCCCTGACTGCGGTAAGCCGTCAGGATGAGAAACTGGATATTAACATCGACGAAGAGGTGCATCGTCTGCGCGAGAAAAGCGTAGAGCTGACGCGCAAAATCTTCGCCGATCTCGGTGCATGGCAGGTTGCGCAACTGGCGCGCCACCCGCGCCGTCCTTACACCCTGGATTATGTCCGCCTGGCGTTCGACGAATTTGACGAACTGGCCGGTGACCGCGCCTTCGCTGACGATAAAGCGATTGTCGGCGGTATCGCGCGTCTTGACGGTCGTCCGGTGATGATCATCGGCCACCAGAAAGGTCGCGAAACCAAAGAAAAAATTCGTCGCAACTTTGGTATGCCGGCCCCGGAAGGCTACCGCAAAGCGCTGCGCCTGATGGAGATGGCTGAGCGGTTTAAAATGCCGATCATCACCTTTATCGACACCCCGGGCGCCTACCCGGGCGTCGGCGCGGAAGAGCGCGGCCAGTCGGAAGCGATTGCCCGCAACCTGCGTGAGATGTCGCGTCTGAGCGTGCCGGTTATCTGCACCGTGATCGGCGAAGGCGGCTCCGGCGGCGCGCTGGCGATTGGCGTGGGTGACAAGGTCAATATGCTGCAGTACAGCACCTATTCGGTGATTTCGCCGGAAGGCTGCGCCTCCATTCTGTGGAAGAGCGCGGATAAAGCGCCGCTGGCTGCGGAAGCGATGGGCATTATCGCCCCGCGTCTGAAAGAGCTGAAGCTGATCGATTCTATCGTTCCGGAACCGCTGGGCGGCGCCCACCGCAACCCGGAAGCGATGGCGGCAAGCCTGAAAGCGCAGCTGCTGGCGGACCTGGCCGATCTCGATCTTCTCAGCGAAGAAGAGCTGCTGAACCGCCGCTATCAACGTCTGATGAGCTACGGTTACGCCTAA	MSLNFLDFEQPIAELEAKIDSLTAVSRQDEKLDINIDEEVHRLREKSVELTRKIFADLGAWQVAQLARHPRRPYTLDYVRLAFDEFDELAGDRAFADDKAIVGGIARLDGRPVMIIGHQKGRETKEKIRRNFGMPAPEGYRKALRLMEMAERFKMPIITFIDTPGAYPGVGAEERGQSEAIARNLREMSRLSVPVICTVIGEGGSGGALAIGVGDKVNMLQYSTYSVISPEGCASILWKSADKAPLAAEAMGIIAPRLKELKLIDSIVPEPLGGAHRNPEAMAASLKAQLLADLADLDLLSEEELLNRRYQRLMSYGYA	PGPT0001695_1503	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0001695-accA-K01962	NA	NA
BMS020_04767	2190	ldcC	COG1982	Constitutive lysine decarboxylase	ATGATGCTGGGCTTAGGTGAATACCAGGAGGAAAGCGTGAATATCATCGCCATCATGGGGCCTCACGGCGTCTACCACAAAGACGAGCCGATCAAAGAACTGGAAGCGGCGCTGCAGCGCCAGGGCTTTCAGACCATCTGGCCGCAAAATAGCGCCGACCTGCTGCAGTTTATCGAGCACAACCCGCGCATCTGCGGCGTGATCTTCGACTGGGATGAGTACAGCGTCGATCTGTGCAGCGATATTAACCAGCTCAATGAATATCTGCCTCTGTACGCCTTTATTAACGCCCACTCGACGATGGACGTCAGCAGTCAGGATCTGCGCATGACGCTGTGGTTCTTCGAATATGCGCTGGGACTCTCCGAAGAGATCGCCACCCGCATCGGGCAGTATACCCGCGAGTACCTGGACAATATCACCCCGCCATTTACCCGCGCGCTGTTTAACTATGTGCAGGAGGGGAAATATACCTTCTGTACGCCGGGTCATATGGGCGGTAGCGCCTATCAGAAAAGCCCGGTGGGCTGCCTGTTCTATGATTTCTTTGGCGGGAATACGCTGAAGGCGGATGTCTCGATTTCGGTCACCGAGCTGGGCTCCCTGCTGGATCATACCGGCCCGCATCTGGAGGCGGAGGAGTATATCGCTCGCGCCTTTGGCGCCGAGCAAAGCTATATGGTGACCAACGGTACCTCGACGTCCAATAAAATTGTCGGTATGTACTCGGCGCCCGCCGGCAGTACCCTGCTGATTGACCGTAACTGTCACAAATCGCTGGCCCACCTGCTGATGATGAGCGATGTGGTTCCCCTGTGGCTGAAGCCGACCCGCAATGCGTTAGGGATCCTCGGCGGTATCCCCCGGCGCGAGTTTACCCGCGACAGTATTCAGCAGAAAGTGCGCGACACGGGCGGGGCGCAGTGGCCAGTGCATGCGGTGATCACCAACTCCACCTACGATGGGCTGCTCTACAACACCACCTGGCTTAAAGAGACGCTCGACGTCCCGTCGATCCATTTCGATTCCGCCTGGGTGCCGTATACCCATTTCCATCCGATATATCAGGGGAAAAGCGGCATGAGCGGTGAGCGGATCCCCGGAAAAGTCATTTTCGAGACGCAGTCGACGCATAAGATGCTGGCCGCGCTGTCGCAGGCCTCGCTGATCCACATTAAGGGCAACTATGATGAAGAGACCTTTAATGAAGCCTTTATGATGCATACCTCTACGTCGCCGAGCTATCCCATCGTCGCGTCGATTGAGACCGCGGCGGCGATGCTGCGCGGTAACTCCGGTAAGCGCCTGATCCAGCGCTCCATTGAGCGGGCGCTGGATTTCCGCAAAGAGGTGCAGCGACTGCGCGAGGAGTCGGACGGCTGGTTCTTTGATATCTGGCAGCCGGAAGCGGTGGATAAAGCCGAGTGCTGGCCGGTGGCGCCGGGCGATGACTGGCACGGTTTCAAAGATGCCGATGCGGATCATATGTACCTCGATCCGGTGAAAGTCACCATTCTGACGCCGGGTATGGACGAGCAGGGGAATATGGATGAGGAGGGGATCCCGGCGGCGCTGGTGGCGAAGTTCCTCGACGAGCGGGGCGTGGTGGTGGAGAAAACGGGCCCCTACAACCTGCTGTTCCTCTTTAGCATCGGTATCGATAAAACCCGGGCGATGGGTCTGCTGCGCGGCCTGACCGAATTTAAGCGCGCCTACGATCTCAATCTGCGGGTGAAAAATATGTTGCCGGATCTGTACGCGGAAGATCCCGACTTCTACCGCAACATGCGGATCCAGGATCTGGCACAGGGGATCCACCGCTTGATCCGCCAGCACCAGCTGCCGCAGCTGATGCTCAGCGCCTTTGACGTCCTGCCGGAAATGAAAATGACGCCGCATCATGCCTGGCAGCGCCAGATCAAGGGTGAGGTGGAAACCATTGAACTGGAGAACCTGGTGGGCCGAATTTCGGCCAACATGATCCTCCCTTATCCGCCGGGCGTACCGCTGCTGATGCCGGGAGAGATGATCACGGAGGAGAGCCGGGCGGTGCTCGACTTCCTGCTGATGCTCTGCTCAATAGGACGTCATTACCCGGGGTTTGAGACCGATATTCACGGCGCGAAGCGCGATGAGGACGGCGTGTATCGGGTACGAGTCTTAAAAAATGACGAAAGGCTTGCGCGTTAA	MMLGLGEYQEESVNIIAIMGPHGVYHKDEPIKELEAALQRQGFQTIWPQNSADLLQFIEHNPRICGVIFDWDEYSVDLCSDINQLNEYLPLYAFINAHSTMDVSSQDLRMTLWFFEYALGLSEEIATRIGQYTREYLDNITPPFTRALFNYVQEGKYTFCTPGHMGGSAYQKSPVGCLFYDFFGGNTLKADVSISVTELGSLLDHTGPHLEAEEYIARAFGAEQSYMVTNGTSTSNKIVGMYSAPAGSTLLIDRNCHKSLAHLLMMSDVVPLWLKPTRNALGILGGIPRREFTRDSIQQKVRDTGGAQWPVHAVITNSTYDGLLYNTTWLKETLDVPSIHFDSAWVPYTHFHPIYQGKSGMSGERIPGKVIFETQSTHKMLAALSQASLIHIKGNYDEETFNEAFMMHTSTSPSYPIVASIETAAAMLRGNSGKRLIQRSIERALDFRKEVQRLREESDGWFFDIWQPEAVDKAECWPVAPGDDWHGFKDADADHMYLDPVKVTILTPGMDEQGNMDEEGIPAALVAKFLDERGVVVEKTGPYNLLFLFSIGIDKTRAMGLLRGLTEFKRAYDLNLRVKNMLPDLYAEDPDFYRNMRIQDLAQGIHRLIRQHQLPQLMLSAFDVLPEMKMTPHHAWQRQIKGEVETIELENLVGRISANMILPYPPGVPLLMPGEMITEESRAVLDFLLMLCSIGRHYPGFETDIHGAKRDEDGVYRVRVLKNDERLAR	PGPT0007780_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007780-ldcC|cadA-K01582	NA	NA
BMS020_04768	390			hypothetical protein	ATGCTGGGTTTGAAACGGGTTCACCATATTGCCATCATTGCGACTGACTACGCCCGCAGTAAAGCGTTCTATTGCGATATTCTGGGGTTTACGCTGCAAAGCGAGTTTTATCGCGCCGAACGTGACTCCTGGAAGGGCGATCTGGCGCTCAACGGCGAGTATGTGATTGAGCTGTTCTCGTTCCCGTTTCCGCCGGCCCGACCCAGTCGTCCGGAAGCCTGCGGGCTGCGTCATCTGGCCTTTAGCGTGGATGATATCGACGCTGCGGTGGCGCACCTGACGGCGCATGGCGTGGAGTGCGAAGCGATTCGCGTCGATCCCTTTACCGGTAAACGCTTTACCTTCTTTAGCGATCCGGACGACCTGCCGCTGGAAATATATCAGCAGTAA	MLGLKRVHHIAIIATDYARSKAFYCDILGFTLQSEFYRAERDSWKGDLALNGEYVIELFSFPFPPARPSRPEACGLRHLAFSVDDIDAAVAHLTAHGVECEAIRVDPFTGKRFTFFSDPDDLPLEIYQQ				NA	NA	NA	NA	NA
BMS020_04769	1302	tilS_2	COG0037	tRNA(Ile)-lysidine synthase	ATGACGGCTAACATTGCGCATACGCTTCATCCCCATCGCCAGCTGCTGGTGGCCTTCAGCGGCGGTCTGGACTCGACGGTTCTCCTGCATCAGCTGGTGCTGCTGCGGGAACAGGATCCCTCTCTGACGCTGCGGGCGGTGCATGTTCATCACGGCCTTAGCGCCCACGCAGACGACTGGGTGGCGCATTGTCGGCAAATTTGCCAGCAGTGGCAGGTGCCGTTGGCGGTGCATCGCGTGACGTTAGCCCGGGGCGGCCTGGGCGTCGAGGCCCATGCCCGCGCGGCGCGCTATCAGGCCTTTCAGGAGACGCTCCGCGCCGGCGAAGTGTTAGTGACCGCTCAGCACCAGGACGATCAGTGTGAAACGCTGCTGCTGGCGTTAAAACGCGGCAGCGGTCCGACCGGCCTGTCGGCGATGGCGCCATCGTCTCCCTTTGCCGGCAGTCGACTGCTGCGTCCTCTCCTCAATGAAACCCGGGAATCGCTGCGCCAGTGGGCGCTCGCCCACCAGCTGTCATGGATTGAAGATGAGAGTAATCAGGACGATACCTATGACCGCAACTTCCTGCGCCTGCGGGTGATCCCGGTGCTGCGTGAGCGCTGGCCGCACTTTAGCGAGGCCGTCGCCCGCAGCGCCAGCCTGTGCGCCGAGCAGGAGCAGCTGCTGGACGAGATGCTGGCGGCGGAGCTGGCGTCGCTGGTGGCCGAAGACGGGTCACTGGCTATCGCGCCGCTGACGTCGATGAGTTCTCCCCGCCGCGCGGCGTTGCTGCGTCGCTGGCTCGCCGGGCAGCAGGCGCCGATGCCGGCCCGCGAGGTGCCTGAGCGCCTCTGGCACGAGGTGGCGCTGGCGCGGGAAGATGCCAGCCCCTGCCTGCGGTTGGGGGAATTTACCGTCCGCCGTTTTCAGCAGCGCTTGTACTGGGTGAGATATGTACCCGGGCAGACGGACAGCGTCCAGCGCTGGTCAGACTGGCGCCAACCGCTGCGGCTGGCGGACGGTCTTGGTGAGCTGGTGCTGCAGCCGGGCGGCAGGCTGCGCCCGCCCCCGGCGGATGAGCCAGTCACCGTCCGCTTTCGCGCCAGCGGCCATCTGCATATCGTCGGGCGTCATGGCGGCCGTAAGCTGAAGAAGATCTGGCAGGAGCTGGGCGTTGCTCCGTGGCGACGAGACACCACGCCGCTGCTGTTTTACGGCGAAACGCCGATTGCCGCAGCGGACGATCTGTTTGTGACCAACGAAGGTGAAGTCAAAGACGGGGAAGGGATCAGTCTGGCGTGGAGGAAAACGGGCGGTTAA	MTANIAHTLHPHRQLLVAFSGGLDSTVLLHQLVLLREQDPSLTLRAVHVHHGLSAHADDWVAHCRQICQQWQVPLAVHRVTLARGGLGVEAHARAARYQAFQETLRAGEVLVTAQHQDDQCETLLLALKRGSGPTGLSAMAPSSPFAGSRLLRPLLNETRESLRQWALAHQLSWIEDESNQDDTYDRNFLRLRVIPVLRERWPHFSEAVARSASLCAEQEQLLDEMLAAELASLVAEDGSLAIAPLTSMSSPRRAALLRRWLAGQQAPMPAREVPERLWHEVALAREDASPCLRLGEFTVRRFQQRLYWVRYVPGQTDSVQRWSDWRQPLRLADGLGELVLQPGGRLRPPPADEPVTVRFRASGHLHIVGRHGGRKLKKIWQELGVAPWRRDTTPLLFYGETPIAAADDLFVTNEGEVKDGEGISLAWRKTGG				NA	NA	NA	NA	NA
BMS020_04770	261	rof	COG4568	Protein rof	ATGTCAATGAATGATACTTATCAACCCATTAACTGCGATGATTACGACAACCTGGAGCTGGCCTGCCAGCATCACCTGGTGCTGACGCTGGCGCTGAAGGATGGCGAACAGCTGCAGGCGAAGGCCAGCGATCTAATCTCGCGTAAAAATATCGAGTATCTTGTGGTCGAACTCGCCGGCAACGTCCGCGAGCTGCGCCTGGATAAAATCGCCAGCTTCAGTCACCCGGAAATCGGCACCGTGGTGGTGAGCGAATCCTGA	MSMNDTYQPINCDDYDNLELACQHHLVLTLALKDGEQLQAKASDLISRKNIEYLVVELAGNVRELRLDKIASFSHPEIGTVVVSES				NA	NA	NA	NA	NA
BMS020_04771	201			hypothetical protein	GTGGACCACTATTGTGAGTTAATACGCAAGCGGTATGCGGAAATAGCCAGCGGAGACTTAGGGTATATCCCGGATGCGCTGGGTTGCGTGTTGAAAGTATTGAATGAGATTGCGGCGGATGAGGCCCTTTCGGAGTCAGTCAGGGAAAAGGCCGCTTATGCGGCAGCAAACTTACTGGTGAGCGATTATGTCAATGAATGA	MDHYCELIRKRYAEIASGDLGYIPDALGCVLKVLNEIAADEALSESVREKAAYAAANLLVSDYVNE				NA	NA	NA	NA	NA
BMS020_04772	546	yaeQ_1	COG4681	putative protein YaeQ	ATGGCGCTGAAAGCGACGATATATAAAGCCGCGGTGAATGTAGCCGATCTGGATCGCAACCAGTTTCTGGATGCTAACCTGACGCTGGCGCAGCACCCGTCGGAAACCCAGGAGCGCATGATGCTGCGCCTGCTGGCGTGGATCAAATATGCCGATGAGCGGCTGCAGTTTACGCGCGGCCTCTCGTCAGACGACGAGCCGGAGCTGTGGCTGCTTAACGATCATCTCGGGGTTGATCTGTGGATCGAGCTGGGGCTGCCGGACGCGAAACGTCTCAAGAAAGCCTGCTCGCGGGCGCAGGCGGTGGCGTTGTTTGCCTATAACAGCCGGGCGGCTGAAATCTGGTGGCAGCAGAATCAGAACAAGCTTGCGGCGTACCCGAAGCTGACCATCTGGTATCTTGATGATGCCCAGCTGGCGCAGCTTAGCGCTTTTGCCGACCGCACGATGACGCTGCAGGCCACTTTGCAGGAGGGGAGCATCTGGTTGTCCGACGCTCAGAATAATCTGGAAATTCAGCTTACCGCCTGGCAAGGGCCGGCATGA	MALKATIYKAAVNVADLDRNQFLDANLTLAQHPSETQERMMLRLLAWIKYADERLQFTRGLSSDDEPELWLLNDHLGVDLWIELGLPDAKRLKKACSRAQAVALFAYNSRAAEIWWQQNQNKLAAYPKLTIWYLDDAQLAQLSAFADRTMTLQATLQEGSIWLSDAQNNLEIQLTAWQGPA				NA	NA	NA	NA	NA
BMS020_04773	414	arfB_2	COG1186	Peptidyl-tRNA hydrolase ArfB	ATGATTACTATCAGCCGCAGCGTGGCCATTGCCGATAACGAGATCACGCTGGAAGGTATTCGCGCCCAGGGGGCCGGGGGCCAGCACGTGAACAAAGCGTCGACCGCGATCCATCTGCGCTTCGATATTAAAGCCTCGAGCCTGCCGGCGTTTTACAAAGAGCGCCTGCTCGCCGCCAGCCACCACTTAATTTCTGCTGACGGTGTGGTTATCATTAAGGCTCAGGAATATCGCAGTCAGGAGATGAACCGCGAAGCGGCGATCGCCCGGCTGGTGGCCCTTATCAAAGAATTGACCGCAGTGCAAAAAAGTCGCCGGGAGACGCGACCGACTCGGGCATCCAAAGAGCGACGCCTTGCTTCCAAGGCGCAAAAGTCCTCAGTCAAGGCGCTGCGTGGGAAAGTTCGCCAGTGA	MITISRSVAIADNEITLEGIRAQGAGGQHVNKASTAIHLRFDIKASSLPAFYKERLLAASHHLISADGVVIIKAQEYRSQEMNREAAIARLVALIKELTAVQKSRRETRPTRASKERRLASKAQKSSVKALRGKVRQ	PGPT0013740_337	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS020_04774	699	nlpE	COG3015	Lipoprotein NlpE	GTGAAGAAAATCATATTCTCCGTGATAGCGGCCTGTTCGCTGTTCGCGCTGTTTGGTTGTAACCATCGCGCCGAAACTGACACGGTCCAGCCGGCGGCGATGGAAGAGCTCAAGCCGATGCAGCAAAGCTGGCGCGGGGTGCTGCCTTGCGCGGATTGCGAAGGCATCGACACCTCGCTGTTCCTGGAAAAAGACGGCACCTGGGTGATGAATGAGCACTACCAGGGCGCGCGTCGTGAACCATCCTCCTTTGCCTCTTACGGCACCTGGGCGCGTACGGCGGATAAGCTGGTATTGACCAACAGCAAGGGCGAAAAATCGTACTTTCGCGCGAAGGGCGACAAGCTGGAGATGCTCGACCGCAACGGGAGCCCCATTCAGTCTCCCCTCAACTATACCCTGGAGCCGGTGAAGGCCAGCCTGCCGACCACCCCGATGGCGATGCGTGGTATGTACTTCTATATGGCCGATGCGGCAACCTTTACTGATTGCGCGACCGGTAAACGCGTCGCGGTGGCGAATAATGCCCAGCTTGAGCGGGATTATGCCGCTGCCCGCGGCAATGATTCACGTCCGGTGCTGCTGGTGGTGGAGGGGCACTTTACCCTCGAGGCGAACCCGGATACCGGCGAAATGATGAAAACGCTGATGACGGATCGGGCTGGCAAATTTATTCCTGGGAAGGACTGCGGACACTGA	MKKIIFSVIAACSLFALFGCNHRAETDTVQPAAMEELKPMQQSWRGVLPCADCEGIDTSLFLEKDGTWVMNEHYQGARREPSSFASYGTWARTADKLVLTNSKGEKSYFRAKGDKLEMLDRNGSPIQSPLNYTLEPVKASLPTTPMAMRGMYFYMADAATFTDCATGKRVAVANNAQLERDYAAARGNDSRPVLLVVEGHFTLEANPDTGEMMKTLMTDRAGKFIPGKDCGH	PGPT0004140_156	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0004140-cutF|nlpE-K06079	NA	NA
BMS020_04775	843			hypothetical protein	ATGACTGCACCTCTCCTCAGCAGCGGGCTGCTTACCTCCGCCCTGCTCCTGCTTACCGCCTGCACTGTAGACGTCGGCCGCAGCGCCCCTTCCGCATCCGCTATCGATGGCCGCTCACCGCCATGGGCTGTCACCCTCCAGCGTCAAAGCTCGATTGCCGGCAGCAGACTGCGCGAAATCGCCGAAAACGACCTTCGTTCCGGCGACCTGCTCTTCTCCTCCAGCCTTGGCGTCACTTCGCTTGGGATCCGCGCCTTCAGCGCCTCTTCCGTGAGCCACGTCGCGCTGTATCTCGGCGAGGGTCAAATTGCGGAAGCTACCGGCGCCGGCGTGCAGGTGATATCGCTACAGCAAGCGATGGCGCACAGCGATAAACTCTTTGCCCTCAGGGTGCCCGATCTGACGCCGGACCAGGCGATGGCGATGAGAGGTTTTGCCTGGCAGGTCAAAGACAGCGGGTATAACTATCGCGGCATTATTCAGTTTATCCCTTATATGGTCACCAAACCGCTCTGCTCGCTCAACCCTTTCTCGCGTCATTTTCGCCAGCAGTGCGTAAGCGGCCTGGCCAAAGCGCAACTGGGCGATGGGGCCAGCCCCGACAAGAAAGCGTGGTTTTGCTCGGAGTTTGTCAGCGAGGCCTTTGTCAGAGCCGGGCATCCGCTGACCCTGGCGCAGGCGGCGTGGATCAGCCCTTCCGATCTGCTGCACATGCGGGAAGGAGATGTCGCCACCTTTAAACCCGAGACGCAGCTGCAGTATGTCGGGCATCTGAAACTGGGGGTTTATCTTCAGGCCGGTAAACTGGTGCGGTTGAGCAAACCGAAGGCCGGTGCGGAGTAA	MTAPLLSSGLLTSALLLLTACTVDVGRSAPSASAIDGRSPPWAVTLQRQSSIAGSRLREIAENDLRSGDLLFSSSLGVTSLGIRAFSASSVSHVALYLGEGQIAEATGAGVQVISLQQAMAHSDKLFALRVPDLTPDQAMAMRGFAWQVKDSGYNYRGIIQFIPYMVTKPLCSLNPFSRHFRQQCVSGLAKAQLGDGASPDKKAWFCSEFVSEAFVRAGHPLTLAQAAWISPSDLLHMREGDVATFKPETQLQYVGHLKLGVYLQAGKLVRLSKPKAGAE				NA	NA	NA	NA	NA
BMS020_04776	1719	proS_1	COG0442	Proline--tRNA ligase	ATGCGTACTAGCCAATATCTGCTCTCCACTCTGAAGGAGACACCTGCCGACGCCGAGGTAATCAGCCACCAGCTGATGCTGCGCGCCGGGATGATCCGCAAGCTGGCCTCCGGGTTATACACCTGGCTGCCGACCGGCGTGCGCGTCCTGAAAAAAGTCGAAAACATCGTGCGTGAAGAGATGAACAACGCCGGTGCGATCGAGGTGTTAATGCCGGTCGTTCAGCCATCTGAACTGTGGCAGGAGAGCGGTCGCTGGGAGCAGTACGGCCCGGAACTGCTGCGCATAGCCGATCGTGGCGATCGTCCGTTCGTCCTCGGTCCAACCCACGAAGAGGTCATCACCGATCTGATCCGCAACGAGCTGAACTCCTATAAGCAGCTGCCGCTGAACTTCTATCAGATCCAGACCAAATTCCGCGACGAAGTGCGCCCGCGTTTCGGCGTGATGCGCTCCCGCGAATTCCTGATGAAAGATGCGTACTCTTTCCATACTTCGCAGGAATCGCTGCAGGAAACCTACGATGCGATGTACGCCGCTTACAGCAAAATCTTCAGCCGTATGGGGCTGGATTTCCGCGCGGTACAGGCTGATACCGGCTCCATCGGCGGCAGCGCCTCTCATGAATTCCAGGTGCTGGCGCAGAGCGGCGAAGACGATGTGATCTTCTCCGACAGCTCCGACTACGCGGCAAACATCGAGTTTGCGGAAGCCGTTGCGCCGAAAACGCCGCGCGCGAACGCCACCCAGGAGTTGACCCTGGTCGACACGCCGAACGCCAAAACCATCGCCGAGCTGGTTGAGCAGTTCAACCTGCCGATCGAAAAAACCGTGAAAACCCTGCTGGTGAAAGCGGTTGAAGATAGCGCTTCCCCGCTGGTTGCCCTGCTGGTGCGCGGCGATCACGAGCTGAACGAAGTGAAAGCGGAAAAACTGCCGCAGGTCGCCAGCCCGCTGACCTTCGCCACCGAAGAAGAGATCCGCGCCCTGGTGAAAGCCGGTCCGGGCTCCCTGGGTCCGGTGAACCTGCCGGTGCCGGTGATTATCGACCGTACTGTGGCGGTGATGAGCGATTTCGCCGCCGGCGCCAACATCGACGGCAAACACTATTTCGGCATCAACTGGGACCGCGATGTCGCCACGCCGGAAGTCGCTGACATCCGTAACGTCGTTGCCGGCGATCCGAGCCCGGACGGCAAAGGTACCCTGCTTATCAAGCGCGGTATCGAAGTGGGTCATATCTTCCAGCTGGGGACGAAGTACTCCGAGGCGATGAAAGCCGCGGTCCAGGGCGAAGATGGCCGCAACCAGATCCTGACCATGGGTTGCTATGGTATCGGGGTCACTCGCGTGGTGGCGGCGGCGATTGAGCAGAACTTTGACGATCGCGGTATTGTCTGGCCGGATGCGATTGCGCCGTTCCAGGTGGCGATCCTGCCGATGAACATGCATAAATCTTACCGTGTGCAGGAGCTGGCGGAGAAACTGTACGCCGAGCTGAGCGCCCAGGGTATTGAAGTGCTGATGGACGATCGTAAAGAGCGTCCGGGCGTGATGTTCGCCGATATGGAGCTGATCGGTATCCCGCACACCATCGTGCTGGGCGATCGTAACCTCGACAACGACGATATCGAATACAAGTATCGTCGCAACGGTGAGAAGCAGCTGATCAAGACCGGGGATATTGTGGAATATCTGGTTAAAGCGATAAAAGGCTAA	MRTSQYLLSTLKETPADAEVISHQLMLRAGMIRKLASGLYTWLPTGVRVLKKVENIVREEMNNAGAIEVLMPVVQPSELWQESGRWEQYGPELLRIADRGDRPFVLGPTHEEVITDLIRNELNSYKQLPLNFYQIQTKFRDEVRPRFGVMRSREFLMKDAYSFHTSQESLQETYDAMYAAYSKIFSRMGLDFRAVQADTGSIGGSASHEFQVLAQSGEDDVIFSDSSDYAANIEFAEAVAPKTPRANATQELTLVDTPNAKTIAELVEQFNLPIEKTVKTLLVKAVEDSASPLVALLVRGDHELNEVKAEKLPQVASPLTFATEEEIRALVKAGPGSLGPVNLPVPVIIDRTVAVMSDFAAGANIDGKHYFGINWDRDVATPEVADIRNVVAGDPSPDGKGTLLIKRGIEVGHIFQLGTKYSEAMKAAVQGEDGRNQILTMGCYGIGVTRVVAAAIEQNFDDRGIVWPDAIAPFQVAILPMNMHKSYRVQELAEKLYAELSAQGIEVLMDDRKERPGVMFADMELIGIPHTIVLGDRNLDNDDIEYKYRRNGEKQLIKTGDIVEYLVKAIKG				NA	NA	NA	NA	NA
BMS020_04777	708	trmO	COG1720	tRNA (adenine(37)-N6)-methyltransferase	ATGAGTGCATTTCAGTTCGCGCAGATAGGCGTGATCCGCTCGCCGTATAAAGAGAAGTTTGCCGTACCTCGCCAGCCGGGTCTGGTCAAGCACGGCGGCGGAGAACTCCATCTGATCGCGCCCTACAACCAGGCCGACGCCGTGCGTGGTCTGGAAAGCTTCAGCCATCTGTGGATCCTGTTTGTGTTTCATCAGACCATGGAAGGCGGCTGGCGTCCGACGGTGCGCCCTCCCCGTCTCGGGGGCAACGCGCGTATGGGCGTCTTCGCCACCCGCTCCACCTTTCGCCCCAATCCCATTGGCATGTCTCTGGTTGAGCTGAAGGGCGTTCGCTGTCAGAAAGAGCAGGTGATACTGGAACTCGGCAGCCTCGATCTCGTCGACGGTACGCCGGTGGTCGACATCAAACCCTATCTGCCGTTTGCCGAAGCGCTACCCAACGCGCACGCCAGCTACGCGCAACAGGCGCCGCAGGCGGATCAGGTCGTCAGTTTTACCGCCGACGTCGAAACGCAGCTTTTGCATCTGGAGAAGCGTTATCCGCACCTGAAGGCGTTTATCCGAGAGGTGCTGGCGCAGGATCCGCGTCCGGCCTACCGTAAGGAGGAAGAGGCAGGCAAAAATTACGCCGTCTGGCTGCTGGATTTCAACGTCCGCTGGCGGGTGACTGCCTCCGGTTTTGAAGTCTTTGCCCTCGAAGCGCGCTAA	MSAFQFAQIGVIRSPYKEKFAVPRQPGLVKHGGGELHLIAPYNQADAVRGLESFSHLWILFVFHQTMEGGWRPTVRPPRLGGNARMGVFATRSTFRPNPIGMSLVELKGVRCQKEQVILELGSLDLVDGTPVVDIKPYLPFAEALPNAHASYAQQAPQADQVVSFTADVETQLLHLEKRYPHLKAFIREVLAQDPRPAYRKEEEAGKNYAVWLLDFNVRWRVTASGFEVFALEAR				NA	NA	NA	NA	NA
BMS020_04778	408	rcsF		Outer membrane lipoprotein RcsF	ATGCGTGCTTTACCGGTCTGTTTGTTAGCACTCATGTTAAGCGGTTGTTCCATGCTAAGCAGATCTCCCGTTGAACCTGTTCAAAGCACTGCAACTCCCCCGGTTAAATCGGAGCCGAGCAAACCACGCGCAACCCGTCCGGCGCCGGTACGTATTTATACCGATGCGTCAGAGCTGGTAGGTAAACCATTCCGCGATCTGGGGGAAGTGTCTGGCGAGTCCTGCCAGGCCTCGAATCAGGATTCTCCGCCGAATATCCCTACCGCCCGCAAGCGCCTGCAGATTAATGCCGCACGTATGAAAGCCAATGCTGTCCTGCTGCACCGCTGCGAAGTGACCAGCGGCACCCCAGGCTGCTACCGTCAGGCGGTTTGTCTGGGCTCGGCGCTTAACGTCTCGGCGCAATGA	MRALPVCLLALMLSGCSMLSRSPVEPVQSTATPPVKSEPSKPRATRPAPVRIYTDASELVGKPFRDLGEVSGESCQASNQDSPPNIPTARKRLQINAARMKANAVLLHRCEVTSGTPGCYRQAVCLGSALNVSAQ	PGPT0017705_59	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0017705-rcsF-K06080	NA	NA
BMS020_04779	816	metQ_4	COG1464	D-methionine-binding lipoprotein MetQ	ATGGCCTTTAATTTCAAAACCTTTGCGGCAGTTGGTGCGTTAATCGGTTCTCTGGCGCTGGTGGGTTGCGGTCAGGATGAAAAAGATCCGAATCATATTAAAGTCGGCGTTATCGTCGGGGCGGAGCAGCAGGTCGCTGAAGTCGCGCAGAAAGTGGCAAAAGAGAAGTATGGCCTTGACGTTGAGCTGGTGACCTTCAACGATTACGTTCTGCCGAACGAAGCGCTGAGCAAAGGCGATATCGACGTCAACGCCTTCCAGCATAAACCGTATCTCGACCAGCAGATTAAAGACCGCGGCTACAAGCTGGTGGCTGTCGGCAACACCTTCGTCTACCCGATCGCGGGTTACTCGAAGAAAATCAAATCGCTGGACGAACTGCAGCCGGGCTCGCAGATCGCCGTCCCTAACGATCCGACCAACCTCGGTCGTTCTCTGCTGCTGCTGCAGCAGGTGGGCCTGATCAAACTGAAGGACGGCGTAGGCCTGCTGCCGACCTCGCTGGATATCGTCGAGAACCCGAAAAACCTGAAGATTGTTGAACTGGAAGCGCCGCAGCTGCCGCGTTCTCTTGACGACGCGCAGATTGCGCTGGCCGTTATCAACACCACTTACGCCAGCCAGATTGGCCTGACCCCGGCGAAAGACGGCATCTTTGTTGAAGGGAAAGAGTCGCCGTACGTGAACCTGATCGTGGCGCGTGAAGACAATAAAGATGCTGAGAATGTGAAAAAATTCGTTCAGGCTTACCAGAGCGATGAAGTTTACGAAGCAGCAAACAAGATCTTTAACGGCGGCGCAGTGAAAGGCTGGTAA	MAFNFKTFAAVGALIGSLALVGCGQDEKDPNHIKVGVIVGAEQQVAEVAQKVAKEKYGLDVELVTFNDYVLPNEALSKGDIDVNAFQHKPYLDQQIKDRGYKLVAVGNTFVYPIAGYSKKIKSLDELQPGSQIAVPNDPTNLGRSLLLLQQVGLIKLKDGVGLLPTSLDIVENPKNLKIVELEAPQLPRSLDDAQIALAVINTTYASQIGLTPAKDGIFVEGKESPYVNLIVAREDNKDAENVKKFVQAYQSDEVYEAANKIFNGGAVKGW	PGPT0020510_3578	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
BMS020_04780	654	metI_3	COG2011	D-methionine transport system permease protein MetI	ATGTCTGAGGCAATGATGTGGCTGCTGTTGCGCGGCGTATGGGAAACGCTGGCAATGACCTTTGTCTCCGGCTTCTTCGGTTTTGTCCTTGGTCTGCCGGTGGGCGTGCTGCTGTACGTGACCCGTCCGGGGCAAATCGTCGCCAATGCTAAACTGTACCGGACGCTGTCGGCGCTGGTGAACATTTTCCGCTCCATCCCGTTCATTATCCTGCTGGTCTGGATGATCCCGTTTACCCGCGTGATCGTCGGCACCTCAATCGGCCTGCAGGCGGCGATCGTGCCGTTGACGGTGGGCGCCGCGCCGTTTATCGCTCGCATGGTGGAGAACGCCCTGCTGGAGATCCCGACCGGCCTTATCGAAGCCTCCCGGGCGATGGGCGCCACGCCGCTGCAGATCGTGCGTAAGGTTCTGCTGCCTGAAGCGCTGCCGGGTCTGGTCAACGCCGCCACCATCACCCTGATCACCCTGGTGGGCTATTCCGCCATGGGCGGCGCGGTGGGCGCCGGCGGTCTGGGGCAGATTGGTTATCAGTATGGCTATATCGGCTACAACGCCACCGTAATGAATACCGTACTGGTATTGCTGGTTATTCTGGTTTATTTAATTCAATTCTCTGGCGATCGCATCGTCCGGGCTGTGACTCATAAATAA	MSEAMMWLLLRGVWETLAMTFVSGFFGFVLGLPVGVLLYVTRPGQIVANAKLYRTLSALVNIFRSIPFIILLVWMIPFTRVIVGTSIGLQAAIVPLTVGAAPFIARMVENALLEIPTGLIEASRAMGATPLQIVRKVLLPEALPGLVNAATITLITLVGYSAMGGAVGAGGLGQIGYQYGYIGYNATVMNTVLVLLVILVYLIQFSGDRIVRAVTHK	PGPT0020515_3114	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072	NA	NA
BMS020_04781	1032	metN_2	COG1135	Methionine import ATP-binding protein MetN	ATGATTAAACTTTCCAATATCACCAAAGTGTTCCAGCAGGGGAATCGCAGCATTCAGGCGCTGAACAATGTCAGCCTGCATGTCCCTGCCGGACAAATTTACGGCGTCATCGGTGCCTCAGGCGCCGGTAAAAGTACGCTGATTCGCTGCGTTAACCTGCTGGAGCGCCCGACCGAGGGCAGCGTACAGGTTGACGGTCAGGAACTGACTGCGCTGTCGGAAAAAGAGCTAACCCGCGCTCGCCGTCAGATTGGCATGATTTTCCAGCATTTTAACCTGCTGGCATCCCGCACCGTTTTCGGCAACGTGGCGTTACCCCTGGAGCTGGATAACACGCCACAGGCAGAAATCAAACGCCGTGTGACGGAGCTGCTGGATCTTGTCGGCCTGGGCGATAAGCACGACAGCTATCCGGCTAATCTCTCCGGCGGCCAGAAACAGCGTGTCGCCATTGCCCGCGCGCTGGCCAGTAACCCCAAGGTGCTGCTGTGCGATGAAGCCACCAGCGCCCTGGATCCGGCCACCACCCGTTCCATTCTCGAACTGCTGAAAGACATTAACCGTCGTCTGGGGCTGACCATCCTGCTGATCACCCACGAAATGGATGTGGTGAAACGCATCTGCGACTGCGTGGCGGTGATTAGCAACGGCCAGTTGATTGAACAGGACACGGTGAGCGAAGTCTTCTCCCATCCGAAGACGCCGCTGGCCCAGCAGTTTATTCAGTCGACGCTGCACCTGGATATTCCTGATGACTACCAGGCGCGCCTGAAACCTACCGCCACAGCGGATAGCGTACCGATGCTGCGCATGGAATTTACCGGCCACTCCGTCGATGCGCCGCTGCTTTCTGAAACCGCGCGTCGCTTCAACGTGAATAACAACATTATTAGCGCGCAGATGGATTATGCCGGCGGGGTGAAGTTCGGCATCATGCTGACCGAAATGCACGGTACACAGGAAGACACTCAGGCGGCTATCGCCTGGTTGCAGGAACATCATGTAAAAGTAGAGGTATTGGGTTATGTCTGA	MIKLSNITKVFQQGNRSIQALNNVSLHVPAGQIYGVIGASGAGKSTLIRCVNLLERPTEGSVQVDGQELTALSEKELTRARRQIGMIFQHFNLLASRTVFGNVALPLELDNTPQAEIKRRVTELLDLVGLGDKHDSYPANLSGGQKQRVAIARALASNPKVLLCDEATSALDPATTRSILELLKDINRRLGLTILLITHEMDVVKRICDCVAVISNGQLIEQDTVSEVFSHPKTPLAQQFIQSTLHLDIPDDYQARLKPTATADSVPMLRMEFTGHSVDAPLLSETARRFNVNNNIISAQMDYAGGVKFGIMLTEMHGTQEDTQAAIAWLQEHHVKVEVLGYV	PGPT0020520_1765	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
BMS020_04782	567	gmhB	COG0241	D-glycero-beta-D-manno-heptose-1,7-bisphosphate 7-phosphatase	GTGGCAAAGTCAGTACCCGCAATTTTTCTCGACCGTGACGGCACCATTAATGTCGATCATGGCTACGTCCACGAAATCGACAATTTTGAATTTATCGATGGCGTCATTGACGCAATGCGCGAGCTCAAAGAGATGGGCTACGCGCTGGTGCTGGTCACTAACCAGTCCGGTATTGCTCGCGGTAAATTTACCGAAGCCCAGTTTGAAACGCTGACTGAATGGATGGACTGGTCTCTGGCAGACCGTGGCGTCGATCTGGACGGTATCTATTATTGCCCGCATCACCCGCAGGGTGCGGTTGAGGAGTACCGTCAGACCTGTGATTGCCGTAAACCGCATCCGGGGATGCTGATCTCCGCCCGCGATTATCTGCATATCGATATGGCCGCTTCCTATATGGTAGGGGACAAACTGGAAGATATGCAGGCTGCAGCGGCCGCTGATGTCGGTACTAAAGTGCTGGTGCGTACCGGTAAGCCTGTTACTGAAGAAGCGGAAAAAGCCGCGGATTGGGTGCTAAATAGCCTGGCCGAGCTGCCGGCGGCGATTAAAAAGCAGCAAAAATAA	MAKSVPAIFLDRDGTINVDHGYVHEIDNFEFIDGVIDAMRELKEMGYALVLVTNQSGIARGKFTEAQFETLTEWMDWSLADRGVDLDGIYYCPHHPQGAVEEYRQTCDCRKPHPGMLISARDYLHIDMAASYMVGDKLEDMQAAAAADVGTKVLVRTGKPVTEEAEKAADWVLNSLAELPAAIKKQQK	PGPT0023035_728	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-MANNO-HEPTOSE|-PHOSPHATE_MODIFICATION,PGPT0023035-gmhB|yaeD-K03273	NA	NA
BMS020_04783	252	oadG_2	COG3630	Oxaloacetate decarboxylase gamma chain	ATGACTGATGCCGTCCTGTTAGGTGAAGGCTTCACCCTGATGTGCCTCGGCATGGGGTTCGTGCTGGCGTTTCTGTTTCTGCTGATTTTCGCCATCCGGGGGATGTCCGCCGCCGTCAACCGCTTCTTTCCCGAACCGGCTGCGGCGCCGAAAGCGACGCCACTGCCCGCCGTTGCGCCCGCCGGCGACTTCGCCCGCTTAACGCCGGCGATTGTCGCCGCCATTCACCACCACCGCCGTCTTCACCCTTAA	MTDAVLLGEGFTLMCLGMGFVLAFLFLLIFAIRGMSAAVNRFFPEPAAAPKATPLPAVAPAGDFARLTPAIVAAIHHHRRLHP	PGPT0001945_308	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001945-oadG-K01573	NA	NA
BMS020_04784	1290	mntH_1	COG1914	Divalent metal cation transporter MntH	ATGAGTAATTTAGAAAAAACATCTACCGCTGTACCCGCACAAATAGAAATACTGCCCTTCTCTCAATTAATTCGCCGTATTGGTCCGGGAATTGTTCTCACCGGCGTAGTGGTCGGTCCCGGCGCCATCACCACCGCGTCGATGTTAGGGGCGGACTATGGCTATTCCCTGCTATGGCTGCTGATCCCCATTGCCTTTATGGGGATCACCTTCATGTTGACGACCTATCGTATCTCCATGCTCACCGGGATGCCGTCGATAGAAGCTATCCGTCATTATTATGGCAAAGTCGCCGCAGGCTTTGTCGGCGTCGCCACTTTTTTAGCTTGCCTTTTTTTTACCATGGGGAATATCTCGGGGACCGGAGCGGGCATGAACCTGGTTTTCGGCATCGACTGGAAGCTCGGCGCGCTAATAATGATTGCGGTGATGATCTATTGCTATTTTTCTAAAGGTGTTTATTCCAAAGTCGAGAAGGGGATCACCATTTGTATTGTGGCAATGATTTTTGCCTTTTATATCACGCTGGTGGGAACAGGAGGACCGGACTGGAAAGCCAGTGGCGAAGGATTAACGCACTGGATCTTTCCCGCGGGCAGTTTAGTCGCGGCGTTGGGCTTTATTAGCACCAATGCCTCTCTGACGACCGGGATATACGGTACCTATCTTGGTAAAGAGAAAAAATGGAAGAAAGATGACCTTTTTAATGGCGTGATGGTGGCCGATACCGTCGCCCATATCATCGGCGTACTGCTGATCAGCGGGGCGATTATTCTGGTGGGGGCCATCGTCCTTTTTCCCCAAGGGATATCGATTAATACGCCTGCGCAACTGGCGGATTTGTTGACGCCAAGCATGGGGCGTGCCGCGAAATACATTATGGGGGTGGCGTTATTGGGGGCGGGTTTCTCATCATTGCTGGGAAACACTCAGCGTGGGGTTGTTCTGCTTAATTCGGGGTTCAATAAGTCTACTGCGTTGGAAAGTAAAGCGGTGCAGTGGGGATCCATGGTGGTGCTGGTGGTTGCGGGGTTAATTTGCTTTAGCTTCGGCGGCTCTCCGGTGCAGTTAATTTACTTAGCGAATGTCGCAACGGCGGTGTCGACGCCTGTCGCGGGTCTGTTTATCTGCCTGCTGCTGTGGCGAAAGGATATTAATAAAGGATATAAGACGCCAAGGTTATTACAAATATGTATGGTGATCAGCTATCTCTTTTGTTTGTTACTCACTCTCGTCGCCTTGATTAACACCTTACCTAAATTTATATCCTCTCTTTCTACCATGTTTTGA	MSNLEKTSTAVPAQIEILPFSQLIRRIGPGIVLTGVVVGPGAITTASMLGADYGYSLLWLLIPIAFMGITFMLTTYRISMLTGMPSIEAIRHYYGKVAAGFVGVATFLACLFFTMGNISGTGAGMNLVFGIDWKLGALIMIAVMIYCYFSKGVYSKVEKGITICIVAMIFAFYITLVGTGGPDWKASGEGLTHWIFPAGSLVAALGFISTNASLTTGIYGTYLGKEKKWKKDDLFNGVMVADTVAHIIGVLLISGAIILVGAIVLFPQGISINTPAQLADLLTPSMGRAAKYIMGVALLGAGFSSLLGNTQRGVVLLNSGFNKSTALESKAVQWGSMVVLVVAGLICFSFGGSPVQLIYLANVATAVSTPVAGLFICLLLWRKDINKGYKTPRLLQICMVISYLFCLLLTLVALINTLPKFISSLSTMF	PGPT0004370_1525	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT_TRANSPORT_SYSTEM,PGPT0004370-mntH-K03322	NA	NA
BMS020_04785	933	yjhH	COG0329	putative 2-dehydro-3-deoxy-D-pentonate aldolase YjhH	ATGAAAGCACTTGATTTGCGTGGTATTGTTCCAGCCCCCGTTACCCCTTTTACCCGTGATGGCCGCATCGATCATCAAGCGATCAAACGCTTAGGTTCCTGGCTTGGCAGCGTGAAAGGGGTGAAAGGCCTGGTGGTGCTGGGACACGCCGGGGAAGGTACCTTCCTGACTCAGCAGGAGCAGGCCGACGTCATCCGTAGTTTTGTTGACTCGACCGATGGCCGTGTGCCAGTGATCGCCGGTATTACTGGCGAAGGGACGGAAGTGGCGGCGCTGGAAGCGCAGCGCGCCGTCGAAGCTGGCGCCTCGGCGGGTCTGCTGTATCCCTCACACGGCTGGCTGCGTTTTGGCTATCAAAAAGGCGCTCCGCAGGATCGCTATCGCGTAGTATACGAAGAGAGCGGCTTACCCCTTATTCTCTTCCAGTATCCGGATGTCACTAAAGCCACGTATAACCTCGAAACGATGCTGGATATTTCCGCGCAACCCGGGGTCTTTGCGATGAAAAATGGTGTGCGTAATATGCGCCGCTGGGATACGGAAATTCCGGTTATTCGCCGCGAACGCCCTGATTTACAGATCCTCAGCTGTCATGATGAATATCTGCTGCATACCGCCTTTGATATTGATGGTTTCCTTGTGGGGTATGGCAATATTGCTCCGGAACTCCTGCTGGAACTGCTGGAAGCTGGTAAAGCGCAGGATTATGTGAAGGCTAAAGCGGTTCACGATCGCCTGCTACCAGTTACTAAGGCCGTTTATCATCGCGGATCGCATATGGAAGGTACCGTGGCGTTGAAACATGCCCTGGTTGAACGTGGCATTCTGGAACATGCGACCGTTCGTTCACCTCTGCTGCCGCTTGAACCGGGCGCAGAAGAAGAGATCAAAGCGGCTATCCGTGCTGCAGGAATTAAAAAAGCGGTTATTTAA	MKALDLRGIVPAPVTPFTRDGRIDHQAIKRLGSWLGSVKGVKGLVVLGHAGEGTFLTQQEQADVIRSFVDSTDGRVPVIAGITGEGTEVAALEAQRAVEAGASAGLLYPSHGWLRFGYQKGAPQDRYRVVYEESGLPLILFQYPDVTKATYNLETMLDISAQPGVFAMKNGVRNMRRWDTEIPVIRRERPDLQILSCHDEYLLHTAFDIDGFLVGYGNIAPELLLELLEAGKAQDYVKAKAVHDRLLPVTKAVYHRGSHMEGTVALKHALVERGILEHATVRSPLLPLEPGAEEEIKAAIRAAGIKKAVI	PGPT0002080_1407	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
BMS020_04786	108			hypothetical protein	ATGTTTATCAATCTGCATTACGTGATCTATTTCCCACATTGTTACTTACCACCGCTCGCGCCAATTAAGTTGCGTGGAAGAAATAACTACGAATACAATCTCAGCTGA	MFINLHYVIYFPHCYLPPLAPIKLRGRNNYEYNLS				NA	NA	NA	NA	NA
BMS020_04787	978	purR_3	COG1609	HTH-type transcriptional repressor PurR	ATGCAGGATGTGGCCCGCGCCGCAGGTGTGAGTGTTTCAACTGTTTCGCGCGTGCTGGATGAACGCCTTCCCCCTTCCCGTAGCCCCTCCGCTGAGAAAATACGTGAAGCGGCGAAGCAGTTGGGCTATCGACGAGACTACGTGGCGTCCAGTTTGCGCCGTGGCGATACGGGCACGATAGGCGTTCTGGTCCCGAGATTGACCGATACCGTCACGGCGATGTTCTATGAAGCGGTCTCTCAGGCCGCCGCGCGTCAGGGTTATTTCACGGTGGTAGCAACCTGCGGCAACGATCCGGAAACCGAAGAGCGAGCCACGCAATCTCTGCTTGATCGTCGGGTGGACGGCCTGATCCTTTCCACTTGTCGGCTGGGTGACCGCCTGCCCCAGCAGCTGCGGGAAAAACAGATCAACCATGTTTTAGCATTAAGGACCGATGGCATTAGCCCGTCAGCGGTGGGTGATGACGAACTGGGGGGCTATCTGGCGACCCGCCACTTACTGGATTTAGGCCACCGGGAAATCGGCATCATTGCCGGCCCGAATTTCTCATCGAGTACGTTAAACCGGCAAAAAGGTTTCCTGCGCGCCATGCAGGAAGCGCAGGCAGAGGTGAATCCCCACTGGTGGCGAGATTCCGACTTTACCATTGTGGCTGGTGAAAACGCCGGTTATGAAATACTGAATAGCCCTTCCCGCCCCAGCGCTATTTTCGCCGTCAATGATGACCTGGCTATCGGGGTGATGGCCGCCGCGCACCGGCTTGGCCTGCAGATTGGCAACGACGTGTCGTTGGTAGGCTATAACGACATTCCTTTGGTCAGCCGCCTGCCGATACCCTTAACGTCGGTGAAAACGCCCCTCGATCAGCTTGCCAGCCATGCCGTTGAGCTGCTGCTAAGCAATCACGCGGAAAATCCCCAGCGCTATTCTCTGCCCACGCTGATCCCCCGCGCCTCCACGCGACCATATCGCTAA	MQDVARAAGVSVSTVSRVLDERLPPSRSPSAEKIREAAKQLGYRRDYVASSLRRGDTGTIGVLVPRLTDTVTAMFYEAVSQAAARQGYFTVVATCGNDPETEERATQSLLDRRVDGLILSTCRLGDRLPQQLREKQINHVLALRTDGISPSAVGDDELGGYLATRHLLDLGHREIGIIAGPNFSSSTLNRQKGFLRAMQEAQAEVNPHWWRDSDFTIVAGENAGYEILNSPSRPSAIFAVNDDLAIGVMAAAHRLGLQIGNDVSLVGYNDIPLVSRLPIPLTSVKTPLDQLASHAVELLLSNHAENPQRYSLPTLIPRASTRPYR	PGPT0017992_7927	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
BMS020_04788	753	nanC		putative N-acetylneuraminic acid outer membrane channel protein NanC	ATGCATAAAAAAATCGGTTTTATCGTATGTTGCGCGCTTGGGATACCTGCAGTCAGTCACGCCCTGACTTTTGATGTCAGAGGTGGATATCGCGCAGGGAGTCACTCCTACGAATCTCGCTATAAAGTCAGCCAGGGGTGGCAAAACGGCTGGTGGGCGAGTATGGAGATGGATAATAAAAACAATAAAAATAACCACCAGGGAAAAAATGGTACCGATAAAGCCGATGGGTCCCACTCCTTTGGCGACAGCACGGTCGATTACAATGAAATAGAGGTCAACTATAGTTGGCCATTCGCCGAAAAATGGACGTTGCAACCAGGCGGGATCTATCACTGGAGCAGCAAAGGTACCCAACTGCGGCCTTATCTGCGCGTTAATGTTAAAGCCACGCCCGACCTCACCTTTGGCCTGCGTTACCGCTATGACTACAACACTTACGAAACGGTCAATAGCGCCGGCGAGTCGCATCGGGACAGCGTCAATCGCCTGGATATCTATGTTAACTATAAATTTAACGCGCAATGGAGCGCCTTATATCAAGGCACCGTTTATCGACACGTTAATGACGATTATAAATACAGGAATGACAAATCGTCGGCGACAGAAAATGCCTTTACGCTACGCTATAAATGGAATGACTGGTTCAGTCCCTATATCGAATATGATTATCTCGGGAAACAGGGTTACCATGACGGCCAAAATAAAATTTCAGAGTCCCGGTATCGAATTGGAATGACGTTTACGCTCTAA	MHKKIGFIVCCALGIPAVSHALTFDVRGGYRAGSHSYESRYKVSQGWQNGWWASMEMDNKNNKNNHQGKNGTDKADGSHSFGDSTVDYNEIEVNYSWPFAEKWTLQPGGIYHWSSKGTQLRPYLRVNVKATPDLTFGLRYRYDYNTYETVNSAGESHRDSVNRLDIYVNYKFNAQWSALYQGTVYRHVNDDYKYRNDKSSATENAFTLRYKWNDWFSPYIEYDYLGKQGYHDGQNKISESRYRIGMTFTL	PGPT0017275_48	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OLIGOGALACTURONATE_TRANSPORT,PGPT0017275-kdgM|kdgN|nanC|ompL-K22110	NA	NA
BMS020_04790	1338			hypothetical protein	ATGTTAAACAGTATTTTAGTAATACTCTGTCTGATAGCCGTCAGTGCCTTTTTTTCGATATCGGAAATCTCACTGGCCGCCTCACGTAAAATCAAACTGAAACTGCTGGCCGATGAAGGCAACGTCAACGCACAGCGGGTGCTGAAGATGCAGGAGAACCCGGGCACCTTCTTTACCGTTGTGCAGATTGGCCTTAACGCCGTCGCCATTCTGGGCGGTATCGTGGGCGACGCGGCCTTCTCCCCGGCGTTTTATAGCCTGCTCAGCGGGTATATGTCACCGGAGCTCTCCGAGCAGCTGAGCTTCATCATCTCTTTTACCCTGGTCACCAGCTTGTTCATCCTGTTTGCTGACCTGACTCCGAAACGCATCGGTATGATTGCGCCCGAAACCGTGGCCCTGCGCATCATCAACCCGATGCGCTTCTGCCTGTTAGTCTTCCGCCCGCTGGTGTGGTTGTTTAACGGCATGGCTAATATGATCTTCCGCATCTTCAAACTGCCGATGGTGCGGAAAGACGATATCACCTCCGACGATATCTATGCCGTGGTCGAGGCCGGCGCGCTGGCCGGGGTGCTGCGCAAGCAGGAGCATGAGCTGATTGAGAACGTGTTCGAGCTGGAGTCCCGCACCGTTCCTTCCTCCATGACCCCGCGTGAAAGCGTCATTTGGTTTGATTTACATGAAGACGAGCAGAGCCTGAAGAATAAAGTGGCCGAGCATCCGCACTCGAAGTTCCTCGTCTGTAATGAAGATATCGACCATATTATCGGCTACGTCGATTCCAAAGATCTGCTTAACCGCGTGCTGGCGAACCAGAGCCTGGTGCTGACCGGCGGCGTGCAGATCCGCAACACGCTGATCGTCCCGGATACCCTGACCCTCTCCGAAGCGCTGGAAAGCTTCAAAACCGCCGGGGAAGACTTCGCGGTGATCATGAATGAATATGCGCTGGTGGTCGGGATCATCACCCTTAACGACGTGATGACGACTTTGATGGGCGATCTCGTCGGCCAGGGGCTGGAAGAGCAGATCGTCGCTCGCGATGAAAACTCGTGGCTGATCGATGGCGGCACGCCGATTGATGACGTGATGCGCGTGCTGGATATCGACGAGTTTCCGCAGTCCGGGAACTACGAGACCATCGGCGGCTTTATGATGTTTATGCTGCGTAAAATCCCCAAGCGCACCGACGCGGTGAAGTTCTCCGGCTATAAGTTCGAGGTCGTGGATATCGACAACTACCGTATCGACCAGCTGCTGGTGACCCGCATCGATAACAAGCCAACGGTGCTGGTGCCCAAGCAGTCGGAAGCGGCGGAAAGCCAGAACGCCTGA	MLNSILVILCLIAVSAFFSISEISLAASRKIKLKLLADEGNVNAQRVLKMQENPGTFFTVVQIGLNAVAILGGIVGDAAFSPAFYSLLSGYMSPELSEQLSFIISFTLVTSLFILFADLTPKRIGMIAPETVALRIINPMRFCLLVFRPLVWLFNGMANMIFRIFKLPMVRKDDITSDDIYAVVEAGALAGVLRKQEHELIENVFELESRTVPSSMTPRESVIWFDLHEDEQSLKNKVAEHPHSKFLVCNEDIDHIIGYVDSKDLLNRVLANQSLVLTGGVQIRNTLIVPDTLTLSEALESFKTAGEDFAVIMNEYALVVGIITLNDVMTTLMGDLVGQGLEEQIVARDENSWLIDGGTPIDDVMRVLDIDEFPQSGNYETIGGFMMFMLRKIPKRTDAVKFSGYKFEVVDIDNYRIDQLLVTRIDNKPTVLVPKQSEAAESQNA				NA	NA	NA	NA	NA
BMS020_04791	1233	rafB		Raffinose permease	ATGATAACGTCGAATAAAAATTACTTTATCAGCTGTCTGTTTTTCCTGTTTTTCTTTATAGGCTGGGGATGCTGCTACCCCTATTTATCACTGTGGTTAACGGAAACCATCGGTATTAACTACACGGACGTCGGTCTGGTTTATTCTTTCACCGCCATTGTGGCCGTCTGCGTTCAGCCATTATTCGGTTTTATATCGGATAAGCTGGTGTATCGTAAGAATTTGATGTGGATGCTGGCGATAATTATCACCTTATTCGCCCCATACTGGATCTATGTCTTCGCGCCTCTGTTAAAAATAAATGTGTTCCTCGGCGCACTGGCTGGCGGCCTCTATATTGGCATGGCCTACGGCGCAGGCTGCGGGATTTGCGAAGCCTACATCGATAAGGTCAGCCGCGCCTCCGGCTTCGAATTTGGTCGGGCGAGGATGTTTGGCGGCATCGGCGCCGCGATCGGCACCTTTGCGGCAGGAAAGCTCTACGGCATCGATCAGAACATGATTTTCTGGCTGGCCAGCGCGGCAGGTGTCTGCCTGCTGGTGATTGTCTGGAAAATGCAGATCAGCACCCATCAGCAGCAGGGGCTACTGTCTGGCAAAACGTCTCCGGTCACCCTCCGCGATGCCGCCTCGCTGCTGAAAATTAAAAAATTCTGGTTCTTCGCGCTCTATGTGATTGGCGTGGGCGCGGTCTATGAAACCTATGACCAGCAGTTCGCTATCTACTACAGCCACTTTTTTGAGAGTAAAGCCCGGGGCGCAGAAGTCTTCGGTTATTTAACGACAGGGCAGATTTTCCTTGATGCCGTCGTCATGTTCTTTGCGCCGTGGTTTGTGAATAAAATCGGCCCCAAAAATGCGCTGTTATACTGCGGGCTGATTATGAGCTTGCGCATTATCGGTTCCGCGTGGGCTATTGGCCCGATATCCATCAGCCTGATTAAACTTCTCCATGGATTTGAAAGCTCGGTGTTACTCGTCGCGGCGCTTAAATATATTACCGCTAACTTTAACCCCCTGCTTTCAGCGACGGTTTACTTAATTGGTTTTCAGTTTTCAAAAAGCTTTAGCTCTATTTTCCTCTCCACCGGCATCGGCCATATGTACCAGAGAATGGGCTTTACCAGCAGCTATATCGTGCTGGGAAGTATCGCCCTGTGCTTCACGCTCATTTCGTTTATCACGCTGGATAAAGCGCGCGTGTTCTCTTCACAACCTGTGCCCGCGAATTAA	MITSNKNYFISCLFFLFFFIGWGCCYPYLSLWLTETIGINYTDVGLVYSFTAIVAVCVQPLFGFISDKLVYRKNLMWMLAIIITLFAPYWIYVFAPLLKINVFLGALAGGLYIGMAYGAGCGICEAYIDKVSRASGFEFGRARMFGGIGAAIGTFAAGKLYGIDQNMIFWLASAAGVCLLVIVWKMQISTHQQQGLLSGKTSPVTLRDAASLLKIKKFWFFALYVIGVGAVYETYDQQFAIYYSHFFESKARGAEVFGYLTTGQIFLDAVVMFFAPWFVNKIGPKNALLYCGLIMSLRIIGSAWAIGPISISLIKLLHGFESSVLLVAALKYITANFNPLLSATVYLIGFQFSKSFSSIFLSTGIGHMYQRMGFTSSYIVLGSIALCFTLISFITLDKARVFSSQPVPAN	PGPT0016855_600	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_LACTOSE_TRANSPORT,PGPT0016855-lacY|MFS_transporter|OHS_family|lactose_permease-K02532	NA	NA
BMS020_04792	2010	bgaA	COG1874	Beta-galactosidase BgaA	ATGTCTCAGTTATTTTATGGCGTGGCGTATTACGATGAATATATGCCGGAAGATCGGCTGGCCAAGGATATTGCCTTAATGCGCGAAACCGGCATTAACGTAGTGCGTATCGCCGAGTCCACATGGAGTACGCTGGAGCCCGAAGAGGGCCAGTACAATTTCTACCATATCGACCGGGTGCTGGCGGCGATGCATGAGGCCGGCATCGCGGTCATCGTCGGGACGCCGACCTACGCGGTCCCGGCCTGGCTGGCGGCGAAACATCCCGATATTCTGGTCACCACCGTCACAGGGCAGCAAAAGTATGGCCCACGGCAGATCATGGATATCGTCAACCCGACCTTTCGCCGCTATGCCGAAAAAATTATCCGCACGCTGATGGCGCATGTGCAGCACCATCCGGCAATTATCGGCTGGCAACTGGATAACGAAACCAAGCATTACGACAATATCGGCCGCTATATGCAGGAGGGCTTTGTGCGCAGCCTGCAGGAGAAATATCCTGACCTCCGGCAGCTAAATCACGATTTCGGTCTGGATTACTGGAGCAACCGCATTGACCGCTGGCAGGATTTTCCGCCGGTGGAAAATACCATCAACGCCAGCCTCGCCTGCGCCTTTTTCCGTTATCAGCGCCAGCAGGTCACCGAGTATCTGGCCTGGCAGGCGGAGATCGTGCGCGAGTACGCCCAGCCGCATCAGTTCGTCACCCACAACTTCGATTTTGAATGGCGCGGTTACTCTTACGGCGTGCAGCCGCGGGTCGACCATTTTGCGGCAGCGCAGGCACTGGATATCGCCGGTGTTGATATCTATCACCCGAGCCAGGCGCACCTGACCGGGCGGGAAATCGCCTTCGGCGGCGCCATCACCCGCTCGCTTAAGCCGGGCCAGAACTACTTCGTGCTGGAAACGCAGGCGCAGGGTTTCGCCCAGTGGACTCCCTTCCCGGGGCAGCTGCGCCTGCAGGCGTTCAGCCATATCGCCTCCGGCGCCGCCATGGTCTCCTACTGGCATTGGCATTCAATTCATAACGCCTTCGAAACCTACTGGAAGGGGCTGCTCAGCCACGACTTCTCGCGTAATCCGACCTGGCAGGAGGCCACCACTATCGGGGCTGACTTTGCCCGCCTGTCGCCGCAGCTGGCGGAGCTGAAGGCCGAAAACGACGTTGCGCTGCTGATAAGCAATGAGGCAATGGACGCCCTTAACCAGTTCCGCCCCAGCGACGCCGAGGGCAATATTTATAACGATATTTTCCGCCGCTTCCACGATGCGCTGTATGACCACAATATCAGCCTCGATATCATCCACGACGTCAACGAGGAGACCTCTTGCTACCGGGTGCTGATCGTTCCCGGCCTGTACGCTGCCGATGATGGCCTGCTGGCGCGTATCAACCACTATATCGCCGAGGGCGGCAGAGCGCTTATCGGCTTTAAATCGGGCTTTAGCGATGAAAACGTCAAAGTGCGCCGCAGCGCGCAGCCTGGGATCCTGCGGCAGAGCTGCGGCGTCAGCTACAGCCAGTTCACCCTGCCGGAAGGGACAACGGTAAGCTCATGCTGCGCGGATATTGATTGCCGCAACGACAATCAGGCGGAGCTGTGGATGGAGCTGCTGACGCCCGATGCCGGGACCCGCACTCTGCTGCGCTATCAGCATCCGGCATGGGGCGAGTACGCGGCCGCCACCGAAGCGGATTATGGCCGGGGACGATCGATGTACGTTGGCTTCCTGCCGCAGAAGCGATTGATTAGCCAGCTGTTTGATGTACTCACTGCCGATCTCGCATTGCGCTCGCGCACTTCCGCCTATCGCTACCCATTAGTGGTCAAAAAGATGCGTAATCGCGCCGGGAAAACCATCCACTTCCTGTTCAATTACTCTGGCGAGACGCTCGATTTCGGTAGCGAAACGGCGGGGAACGACCTGCTGAGCGGGGAAACAGTGCGCAGCGGCCAGCCGTTGCGCCTCAGGGCATGGGAATTTACTATCATCGAAAGGTAA	MSQLFYGVAYYDEYMPEDRLAKDIALMRETGINVVRIAESTWSTLEPEEGQYNFYHIDRVLAAMHEAGIAVIVGTPTYAVPAWLAAKHPDILVTTVTGQQKYGPRQIMDIVNPTFRRYAEKIIRTLMAHVQHHPAIIGWQLDNETKHYDNIGRYMQEGFVRSLQEKYPDLRQLNHDFGLDYWSNRIDRWQDFPPVENTINASLACAFFRYQRQQVTEYLAWQAEIVREYAQPHQFVTHNFDFEWRGYSYGVQPRVDHFAAAQALDIAGVDIYHPSQAHLTGREIAFGGAITRSLKPGQNYFVLETQAQGFAQWTPFPGQLRLQAFSHIASGAAMVSYWHWHSIHNAFETYWKGLLSHDFSRNPTWQEATTIGADFARLSPQLAELKAENDVALLISNEAMDALNQFRPSDAEGNIYNDIFRRFHDALYDHNISLDIIHDVNEETSCYRVLIVPGLYAADDGLLARINHYIAEGGRALIGFKSGFSDENVKVRRSAQPGILRQSCGVSYSQFTLPEGTTVSSCCADIDCRNDNQAELWMELLTPDAGTRTLLRYQHPAWGEYAAATEADYGRGRSMYVGFLPQKRLISQLFDVLTADLALRSRTSAYRYPLVVKKMRNRAGKTIHFLFNYSGETLDFGSETAGNDLLSGETVRSGQPLRLRAWEFTIIER	PGPT0017815_1378	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308	NA	NA
BMS020_04793	873	araC_2		Arabinose operon regulatory protein	ATGGAACTTGATATCAATGAGCTACTCAATTTCTCGCCATTGATGAAAACCTTTACCTTCAATGCCTGGGTTGTCGCGGGCTTCACGCCGATAACCCGCGGCTCCAAACTGGACTACTACATTAATCGTCCGCAGGGGATGAAAGGTTACATCATCAATCTGACCCTGCGTGGCCAGGCGCGGGCGAAAGCGGGCGATGGCTTTCTTCTGTGTCGGGAAAACGATCTGCTGCTGTTTCCCCCCGGCGTGCCTCATCATTACGGCAGAGACGAACACAGCGAGTATTGGGACCATCTCTGGATCTACTTTATTCCCCGCCCCTACTGGATAGACTGGCTAAAATGGGACCAAACCACACACGGCATCGGCAAAACGACCGTTGCTGACCCCGACCAGCTCCAGCACCTGCGCGATCTGTTCCATGAAGTGATACGCCACCACTCGGCCTCCGCGCCGCTGTCGGAAGCGCTGGCGATGAACGCCCTGGAAAGGTTGATCCTCCGCTGTTTTCAGCAACAGCCCATCAGCAACCGCCACGCCCACGATCCGCGAATTAACGCCGTCTGCGACTACCTTAACGCCCATATCGCGCAAGAGGTAAAAATCGAGACCCTGGCGGCGATGGTATTTATCTCTCCTTCACGTCTGGCGCACCTTTTCAAAAATGAGCTGGGGCAGACGGTTTACGCCTGGCGGGAAGCTCAGCGCATCAACCGCGCCAGGTGGCTCATTCAGAGCACCACACTCCCGCTTAACAAGATTGCCTTATCGGTGGGTTACAGCGATCCGGTCTATTTCACCCGCTTGTTTCGTAAACATAACGGCATTCCACCGGGGGAGTATCGCAAACGCTATGCGGAGATGAAGGGCTGA	MELDINELLNFSPLMKTFTFNAWVVAGFTPITRGSKLDYYINRPQGMKGYIINLTLRGQARAKAGDGFLLCRENDLLLFPPGVPHHYGRDEHSEYWDHLWIYFIPRPYWIDWLKWDQTTHGIGKTTVADPDQLQHLRDLFHEVIRHHSASAPLSEALAMNALERLILRCFQQQPISNRHAHDPRINAVCDYLNAHIAQEVKIETLAAMVFISPSRLAHLFKNELGQTVYAWREAQRINRARWLIQSTTLPLNKIALSVGYSDPVYFTRLFRKHNGIPPGEYRKRYAEMKG	PGPT0017485_361	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
BMS020_04794	207			hypothetical protein	ATGAAAATTTTCCAACGCTACAATCCGCTGCAAGTGGCGAAGTACGTGAAGATCCTGTTTCGTGGACGGTTGTACATCAAGGACGTTGGCGCATTTGAATTTGATAAGGGCAAAATCCTTATCCCGAAGGTCAAGGACAAGCTGCATCTGTCAGTGATGTCCGAAGTCAATCGTCAGGTGTTGCGTCTGCAAACTGAGATGGCATAA	MKIFQRYNPLQVAKYVKILFRGRLYIKDVGAFEFDKGKILIPKVKDKLHLSVMSEVNRQVLRLQTEMA				NA	NA	NA	NA	NA
BMS020_04795	558	ytfJ	COG3054	putative protein YtfJ	ATGACCCTACGTAGCATACTGGCCGCCTCGTTACTCCTCTTCCCGCTGCTGGCCTCAGCGCATAACTTTGTCGACGGCCAGCGCGTGGCGCCGGTCGGCGTCGCGGATCGGGGCGAACTTATTCTGGATAATGATAAGTTTAGCTATAAAAACTGGAATAGCTCGCAGCTGGTGGGAAAAGTGCGAGTCATCCAGCACATCGCTGGACGCTCGTCAGCAAAAGAGAAAAATGCCAACCTGATCGAGGCGATTAAAGCGGCGAGCTTCCCACACGATCGCTATCAGACCACCACCATTGTCAATACCGACGATGCCATCCCGGGCACCGGCATGTTCGTACGCAACAGTATCGAGAGTAATAAACAGCTCTTCCCGTGGTCGCAATTTATCGTCGACAGCAACGGGCTGGTGCGGAAAGCCTGGCAGCTGGACGAGAAGAGCTCCGCGATTGTGGTGCTGGATAAGAGCGGGCGCGTACAGTGGGCCAAAGACGGCGCGCTCACCCAGCAGGAGGTGCAGCAGGTGATCGACCTGCTGCGTAAGCTGCTTAATAAATAG	MTLRSILAASLLLFPLLASAHNFVDGQRVAPVGVADRGELILDNDKFSYKNWNSSQLVGKVRVIQHIAGRSSAKEKNANLIEAIKAASFPHDRYQTTTIVNTDDAIPGTGMFVRNSIESNKQLFPWSQFIVDSNGLVRKAWQLDEKSSAIVVLDKSGRVQWAKDGALTQQEVQQVIDLLRKLLNK				NA	NA	NA	NA	NA
BMS020_04796	744	cysQ_1	COG1218	3'(2'),5'-bisphosphate nucleotidase CysQ	ATGTTAGAACAAGTATGTCAGCTTGCACGGAACGCGGGCGATGCCATCATGGAAGTTTACGATGGAAACCAACCGATCAACGTCGCCAGCAAGAAAGATGATTCTCCGGTCACGGCGGCGGATATCGCGGCGCATAAAGTCATTGTCAGCGGCCTGCAGGCGCTGGATGCCACCATTCCTGTTTTGTCGGAAGAGGACCCGCCGGCCTGGGAAGTGCGTCAGCACTGGCAGCGCTACTGGCTGGTCGACCCGCTGGACGGCACCAAAGAATTTATTAAGCGTAACGGCGAGTTCACCGTCAATATCGCGCTGATTGAAAACGGCAAGCCGACTCTGGGCGTGGTCTACGCGCCGGTGATGAAGGTGATGTACAGCGCGGAAAAAGGCAAAGCCTGGAAAGAAGAGTGCGGCGTGCGCAAGCAGATCCAGGTCCGCGATGCCCGTCCGCCGCTGGTGGTGATCAGCCGCTCCCATGGCAACGATCCCGAGCTGCAGGAGTACCTTGAGCAGCTGGGCGAGCACCAGACCACCTCTATCGGCTCCTCGCTGAAGTTCTGCCTGGTGGCGGAAGGTCAGGCCCAGCTCTATCCGCGCTTCGGGCCGACCAGCACCTGGGACACCGCCGCCGGCCATGCGGTCGCGGTCGCCGCCGGGGCGCATGTTCACGACTGGCAGGGGAAAACCCTCGACTACACGCCGCGTGAATCCTTCCTCAACCCCGGCTTCCGGGTCTCTATTTATTAA	MLEQVCQLARNAGDAIMEVYDGNQPINVASKKDDSPVTAADIAAHKVIVSGLQALDATIPVLSEEDPPAWEVRQHWQRYWLVDPLDGTKEFIKRNGEFTVNIALIENGKPTLGVVYAPVMKVMYSAEKGKAWKEECGVRKQIQVRDARPPLVVISRSHGNDPELQEYLEQLGEHQTTSIGSSLKFCLVAEGQAQLYPRFGPTSTWDTAAGHAVAVAAGAHVHDWQGKTLDYTPRESFLNPGFRVSIY	PGPT0002975_3039	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002975-cysQ-K01082	NA	NA
BMS020_04797	1944	cpdB_2	COG0737	2',3'-cyclic-nucleotide 2'-phosphodiesterase/3'-nucleotidase	ATGATTAAGTTTAGCGCAACGCTCCTGGCCACGCTGATCGCCGCCAGCGTCAGCGCCGCAACGGTCGACCTGCGGATCATGGAAACCACCGATCTGCACAGCAATATGATGGACTTTGACTATTACAAAGATGCCGCCACGGAGAAATTCGGCCTGGTGCGTACCGCCACCCTGATCGAACAGGCGCGGGCAGAAGCGAAAAACAGCGTACTGGTAGATAACGGGGATGTGATCCAGGGGAGCCCGCTGGGCGACTACATGGCCGCCAGGGGGCTGAAAGAGGGCGATGTTCATCCAGTGTATAAGGCGATGAACACCCTGAATTATGCCGTCGGCAACCTGGGCAACCATGAATTCAACTACGGCCTCGACTTCCTGCACAAAGCGCTGGCCGGGGCGAAATTCCCCTACGTGAACGCCAATATCATCGATGCCAAAACCGGCAAACCGCTGTTCACCCCCTACCTGATTCAGGATACCCCGGTTCAGGACAGCGACGGTCAATCCCACACCCTGCGCATCGGCTATATCGGCTTTGTGCCGCCGCAGATCATGACCTGGGATAAAGCCAATCTTAGCGGCAAAGTGACGGTCAACGACATTACCGAAACCGCGCGCAAATATATCCCGGAGATGCGGGCGAAAGGCGCTGACGTGGTCGTAGTGGTCGCGCACTCCGGCCTCTCTGCCGACCCGTATCAGGCGATGGCCGAGAACTCGGTCTACTACTTAAGCCAGGTGCCCGGCGTTGACGCCATCATGTTCGGCCACGCCCACGCGGTGTTCCCCGGCAAAGACTTCGCCAACATTAAAGGCGCGGATATCGCCAGAGGGACGCTGAACGGCGTGCCGGCGGTAATGCCGGGAATGTGGGGCGATCACCTCGGGGTGGTCGATCTGGTGCTGAACAACGACAGCGGAAAATGGCAGGTGACTCAGAGTAAAGCGGAAGCGCGGCCAATCTACGACGCGGTGGCGAAGAAATCGCTGGCGGCGGAAGACGGCAAGCTGGTGGCGGTGCTGAAAGCCGATCACGACGCCACTCGCGAGTTCGTCAGTCAGCCGATCGGCAAGTCCGCCGACAACATGTACAGCTATCTGGCGCTGGTGCAGGACGACCCGACGGTGCAGGTGGTCAACATGGCGCAAAAAGCCTACGTCGAACACTACATTCAGGGCGACCCGGACCTGGCGAAACTGCCGGTGCTCTCCGCCGCCGCGCCGTTTAAAGTCGGCGGGCGTAAAAACGATCCGGCGAGCTTCGTGGAAGTGGAAAAAGGCCAGCTCACCTTCCGCAACGCCGCCGACCTCTATCTCTACCCCAACACCCTGGTGGTGATGAAGGTAAGCGGGAAGGAGGTCAAGGAGTGGCTGGAATGCTCCGCCGGGCAGTTTAACCAGATAGACCCGGCCAGCAGCAAGCCGCAGTCGCTGATCAACTGGGACGGCTTCCGCACCTATAACTTCGACGTGATTGACGGGGTGAACTACCAGATCGACGTCAGCCAGCCGGCCCGCTACGACGGCGAGTGCCAGATGATCCATCCGCAGGCAGAGCGCATCAAGGGCCTGACCTTCAATGGCAAACCGGTCGATCCGCAGGCCACTTTCCTGGTCGCCACCAATAACTATCGCGCTTATGGCGGTAAATTCGCCGGCACCGGCGAAAGCCATATCGCCTTTGCCTCACCGGATGAAAACCGTTCGGTGCTGGCGGCGTGGATTGGCGCGCAATCGAAGAAGGATGGCGCGATCCATCCGGCGGCGGATAACAACTGGCGCCTGGCGCCGATCCACAGTAAGACACCGCTGGATATTCGTTTTGAGACCTCGCCTGGCGACAAAGCCGCGGCGTTTATCAAAGAGAAAGCCCAGTATCCGATGCGCCAGGTGGCCGCCGATGATATCGGCTTCGCCATTTATCAGCTGGATTTGAGTCAGTAA	MIKFSATLLATLIAASVSAATVDLRIMETTDLHSNMMDFDYYKDAATEKFGLVRTATLIEQARAEAKNSVLVDNGDVIQGSPLGDYMAARGLKEGDVHPVYKAMNTLNYAVGNLGNHEFNYGLDFLHKALAGAKFPYVNANIIDAKTGKPLFTPYLIQDTPVQDSDGQSHTLRIGYIGFVPPQIMTWDKANLSGKVTVNDITETARKYIPEMRAKGADVVVVVAHSGLSADPYQAMAENSVYYLSQVPGVDAIMFGHAHAVFPGKDFANIKGADIARGTLNGVPAVMPGMWGDHLGVVDLVLNNDSGKWQVTQSKAEARPIYDAVAKKSLAAEDGKLVAVLKADHDATREFVSQPIGKSADNMYSYLALVQDDPTVQVVNMAQKAYVEHYIQGDPDLAKLPVLSAAAPFKVGGRKNDPASFVEVEKGQLTFRNAADLYLYPNTLVVMKVSGKEVKEWLECSAGQFNQIDPASSKPQSLINWDGFRTYNFDVIDGVNYQIDVSQPARYDGECQMIHPQAERIKGLTFNGKPVDPQATFLVATNNYRAYGGKFAGTGESHIAFASPDENRSVLAAWIGAQSKKDGAIHPAADNNWRLAPIHSKTPLDIRFETSPGDKAAAFIKEKAQYPMRQVAADDIGFAIYQLDLSQ	PGPT0021400_967	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021400-cpdB-K01119	NA	NA
BMS020_04798	378			hypothetical protein	ATGAAAATGGCCGAACCGACGCTGAGCGATAAACTGCGCAACGGCAATCTGTTTGCGGAACAGTGCCCGTCGCGCGATGTGCTTAAACATGTCACCAGCCGTTGGGGCGTGTTGATTCTGGTGGCGCTGCGCGAGGGGACCCATCGCTTCAGCGATCTGCGGCGCAAAATGGGCGGGGTCAGCGAAAAGATGCTGGCGCAGTCGCTGCAGGCCCTCGAGCAGGATGGTTTTATCGACCGCGTCTCTTATCCGGTGGTGCCGCCGCACGTTGAATATAGCCTGACGCCGCTCGGTCTGCAGGTGAGCGATAAGGTGGCCGCCCTGGCGGACTGGATCGAGGTTAATCTGCCCGCGGTGCTGGCGAGCCACGGGGAGTGA	MKMAEPTLSDKLRNGNLFAEQCPSRDVLKHVTSRWGVLILVALREGTHRFSDLRRKMGGVSEKMLAQSLQALEQDGFIDRVSYPVVPPHVEYSLTPLGLQVSDKVAALADWIEVNLPAVLASHGE				NA	NA	NA	NA	NA
BMS020_04799	849	qorB_1	COG0702	Quinone oxidoreductase 2	ATGATCGCCCTTACCGGTGCCACCGGCCAGCTTGGCCACTACGTTCTGCAAGACCTGCTTAAAACCGTTCCTGCCAGCCAGATTGTGGCGATTGTCCGCAACCCGGCCAAAGCCCAGGCGCTCAGCCAGCAGGGCGTCGTCGTCCGCCAGGCCGACTATAGCGACGAAGCGGCATTGACCGCCGCGCTGCAGGGCGTGAATAAACTGCTGTTAATCTCCTCCAGCGAAGTCGGCCAGCGTGCCGTACAGCACCGCAACGTCATCAACGCCGCCAAAGCCGCTGGGGTGAAATTTATCGCCTACACCAGCCTGCTGCACGCCGACACCTCGCCGCTGGGCCTGGCCGGTGAACACATTGAAACCGAGCAGATGCTGGCCGACTCTGGCATCGCTTACGCCCTGCTGCGCAATGGCTGGTATACCGAAAACTATCTGGCCAGCGCGCCGCCGGCGCTGGAGCACGGCGTGTTTATCGGCGCCGCCGGCGAAGGTAAAATTGCCTCCGCTACCCGCGCGGATTATGCCGCCGCGGCCGCCCGCGTTATCGCCGGTGAAGGCCATGCAGGGAAAGTTTACGAACTGGCGGGCGATAACGCCTGGACGCTGAGCGACCTGGCTGCCGAGCTGAGCACGCACAGCGGGAAAAACGTGGTCTATCAGAACCTCAGCGAAGCCGACTTCGCCGCCGCGCTGAAAAGCGTCGGCCTGCCGGCGGGTCTGGCGGATATGCTGGCGGACTCCGACGTCGGCGCCTCGAAAGGCGGGCTGTTTGACGACAGCCACACCCTGAGTACATTGATCGGCCGTCCGACCACTTCCCTTGCCGAAAGCGTGAAAGGCATGCTGTAA	MIALTGATGQLGHYVLQDLLKTVPASQIVAIVRNPAKAQALSQQGVVVRQADYSDEAALTAALQGVNKLLLISSSEVGQRAVQHRNVINAAKAAGVKFIAYTSLLHADTSPLGLAGEHIETEQMLADSGIAYALLRNGWYTENYLASAPPALEHGVFIGAAGEGKIASATRADYAAAAARVIAGEGHAGKVYELAGDNAWTLSDLAAELSTHSGKNVVYQNLSEADFAAALKSVGLPAGLADMLADSDVGASKGGLFDDSHTLSTLIGRPTTSLAESVKGML	PGPT0009465_1733	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009465-qorB-K19267	NA	NA
BMS020_04800	825	rhaS_9		HTH-type transcriptional activator RhaS	ATGCAGGGCGTACCACCCCAATTTAGTGATGAAAAAGATCGTGCGCGCTTTCGCCATCTCGAACAGCTGCCCGGGGTGGAGCTTTACCACGCCCATATCTCCCGCTACGCCTTTGAACCCCATACTCACGAAGCCTTCGGCATCGGCGTGATTGAGCAAGGCGCCGAGCGCTTTCGCTACCGTGGCAGCCAGCATATCGCCGCCGCCAACGCTATTGTCACCATGAATCCCGACGAGCTGCACACCGGCGAAGCGGAAACCGCCGACGGCTGGCGCTACCGGATGATTTATCTGGAGCCGGACCGTCTGGAGGCTATCACCGGGGTGCGCGACTGGTGGTTCAGCGAGGTGGTCCGCGAGGATCCCCTGCGGTCCCGGCGGATTGGCCAGCTAATATATGGCCTGTGGCACAGCGACGATGCGCTGGCCCAGCAGGGAATGCTGCTCGACCTCATCGACACCTTCCGCCCTCTGGCCCACCATGCCTCGGCGCAGGGCGAGACAGGACATCGCTTCGACCGCGTGCGCGACTACCTGCACGATAACTATATGCGCCCCATCACCCTCGACGAGCTGGCTCAGGTGGCGGCGCTTAGCCCGTACCACTTTCAGCGCCAGTTTAAAGCCCACTATCATGTGACGCCCCATCAGATGTTGATGGCCATCCGCCTGTGGCGCGCCAAGGCGTTTCTCACCCACGGCATGCCCGCCGCCGAAGTGGCGATAGCCGTCGGCCTTACCGACCAGTCTCACCTGACCCGCGCCTTCACCCAGCGTTACGGCATTACGCCGGTACGCTATCAGAAGCAGGTCGCCAGGCGCTGA	MQGVPPQFSDEKDRARFRHLEQLPGVELYHAHISRYAFEPHTHEAFGIGVIEQGAERFRYRGSQHIAAANAIVTMNPDELHTGEAETADGWRYRMIYLEPDRLEAITGVRDWWFSEVVREDPLRSRRIGQLIYGLWHSDDALAQQGMLLDLIDTFRPLAHHASAQGETGHRFDRVRDYLHDNYMRPITLDELAQVAALSPYHFQRQFKAHYHVTPHQMLMAIRLWRAKAFLTHGMPAAEVAIAVGLTDQSHLTRAFTQRYGITPVRYQKQVARR				NA	NA	NA	NA	NA
BMS020_04801	972	ytfF_2		Inner membrane protein YtfF	ATGATTAGTGGTGTGTTGTACGCCCTGCTGGCGGGGCTGATGTGGGGATTAATCTTTGTCGGGCCTTTGCTGGTGCCCGAGTATCCGGCGATGCTCCAGTCGATGGGACGCTATCTGGCGCTGGGTCTGATCGCCCTGCCGCTGGCATGGCTCGGGCGCGCGCGTTTGCGCCAGCTGAGCCGGAACGACTGGTGGACCGCGCTGGGTCTGACGATGATGGGAAATCTTATCTATTACGTCTGTCTGGCCAGCGCCATTCAGCGCACCGGGGCGCCGGTCTCCACCATGATTATCGGCACGCTGCCGGTGGTATTGCCGGTCTTCGCCAATCTGCTCTACAGCCAGCGCGACGGAAAGCTGCCGTGGCGGCGCCTGTTTCCGGCGCTGGTCTGCATCGCCGTCGGCCTGATCTGCGTTAACGTCGCGGAACTGCGCCAGGGGTTGCCTGATTTTAGTCCGTGGCGCTACGGCTCCGGCATTGCGCTGGCGCTGGGGTCGGTGGTCTGCTGGGCCTGGTATGCGCTGCGCAACGCCCGCTGGCTGCGGGAGAATCCGCATCAACCGCCGATGATGTGGGCTACCGCTCAGGCGCTGGTGACGCTTCCGGTTTCGCTGGCCGGTTATCTCGCCGCCTGCGCCTGGCTGCACGGTCAGCAGGCCGGGTTCCCCCTGCCCTTCGGCCCGCGCCCGGCGGTGTTCATTACGCTGATGCTGGCCATCGCGGTGCTCTGCTCATGGGTCGGCGCGCTGTGCTGGAATATTGCCAGTCAACGGTTGCCGACGGTGATCCTCGGGCCGCTTATCGTTTTCGAAACCCTGGCCGGGCTCCTGTATACCTTTCTGTTGCGGCAAAGTTTACCACCGCTGCTGACCCTGAGCGGTATCCTGCTGCTGGTGCTCGGCGTGGTCTCCGCCGTACGCGCCAGGCCGGACAAACCGACGTTGCAACCGCTGACGGACGAAAAAAAGTAG	MISGVLYALLAGLMWGLIFVGPLLVPEYPAMLQSMGRYLALGLIALPLAWLGRARLRQLSRNDWWTALGLTMMGNLIYYVCLASAIQRTGAPVSTMIIGTLPVVLPVFANLLYSQRDGKLPWRRLFPALVCIAVGLICVNVAELRQGLPDFSPWRYGSGIALALGSVVCWAWYALRNARWLRENPHQPPMMWATAQALVTLPVSLAGYLAACAWLHGQQAGFPLPFGPRPAVFITLMLAIAVLCSWVGALCWNIASQRLPTVILGPLIVFETLAGLLYTFLLRQSLPPLLTLSGILLLVLGVVSAVRARPDKPTLQPLTDEKK				NA	NA	NA	NA	NA
BMS020_04802	663	ytfE	COG2846	Iron-sulfur cluster repair protein YtfE	ATGGCTTTCCGTGACCAACCTTTAGGCGAGCTGGCGCTGACCATCCCGCGCGCCTCCGCCCTGTTCCGTCAATACGATATGGACTACTGCTGCGGCGGCAAACAGACGCTGGCGCGCGCCGCATCGCGTAAAGCGCTGGATGTCGCGGTGATCGAAGCCGAGCTGGCGAAACTGGCCGAGCAGCCCGTCACCCACGACTGGCGCGCGGCGCCTCTCGCGGAGATTATCGACCATATCATCGTTCGCTATCATGATCGGCACCGCGAACAGCTGCCGGAGCTGATCCTGCAGGCCACCAAGGTGGAACGGGTCCATGCCGATAAACCGAACGTGCCGAAAGGGCTGACGAAGTACCTGACCATGCTGCAGCAGGAGCTCTCCAGCCATATGATGAAAGAGGAGCAGATCCTGTTCCCGATGATCAAACAGGGGATGGGCGCCCAGGCCGGGGGCCCCATCAGCGTGATGGAAAGCGAGCATGACGAAGCGGGTGAACTGCTGGAGGTGATCAAACATATCACCCATAACGTGACGCCGCCGCCGGAAGCGTGCACCACATGGAAAGCGATGTATAACGGTATCAACGAGATGATTGACGATCTGATGGAGCACATCAGCCTGGAAAATAACGTGCTGTTCCCGCGTGCCCTCGCAGGAGAATAA	MAFRDQPLGELALTIPRASALFRQYDMDYCCGGKQTLARAASRKALDVAVIEAELAKLAEQPVTHDWRAAPLAEIIDHIIVRYHDRHREQLPELILQATKVERVHADKPNVPKGLTKYLTMLQQELSSHMMKEEQILFPMIKQGMGAQAGGPISVMESEHDEAGELLEVIKHITHNVTPPPEACTTWKAMYNGINEMIDDLMEHISLENNVLFPRALAGE	PGPT0012950_836	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
BMS020_04803	1404	cycA_2	COG1113	D-serine/D-alanine/glycine transporter	ATGGTAGATCAGGTTAAAGTCGCTGCTGTCGAGCAGGAGCCGACTGAACAATCGCTACGGCGAAATCTCACAAACCGACATATTCAGCTGATTGCAATTGGCGGGGCGATCGGCACTGGATTATTTATGGGTTCTGGCAAAACCATCAGCCTTGCCGGGCCATCCATTATTTTTGTTTATATGATTATCGGTTTTATGCTGTTTTTCGTTATGCGAGCCATGGGCGAATTACTGCTGTCGAACCTCGAATATAAATCCTTCAGCGACTTTGCGGCCGATCTGCTGGGCCCCTGGGCGGGCTACTTTACCGGCTGGACCTATTGGTTCTGCTGGGTGGTGACGGGGATGGCGGACGTGGTGGCGATCACCGCCTACGCGCAGTTCTGGTTTCCCGGACTCTCCGACTGGGTCGCGTCGCTGGCGGTGATCCTGCTGCTGCTGGGCCTGAACCTTGCCACCGTCAAAATGTTTGGCGAAATGGAGTTCTGGTTCGCGATGATCAAAATCGTCGCCATCGTGGCGCTGATCGTGGTCGGCCTGGTGATGGTCATGATGCATTTCAAATCGCCGACCGGCGTCGAAGCCTCTTTCGCGCATCTGTGGAATGACGGCGGCTGGTTCCCGAAAGGGCTGAGCGGCTTCTTCGCCGGCTTCCAGATTGCGGTATTCGCCTTCGTGGGGATTGAGCTGGTCGGTACCACCGCGGCCGAAACCAAAGACCCGGAAAAATCCCTGCCGCGGGCGATTAACTCCATCCCGCTGCGTATCATTATGTTCTACGTCTTCGCGCTGATTGTGATTATGTCGGTGACGCCGTGGAGCTCTGTGGTGCCGAGCAAGAGCCCGTTCGTTGAGCTGTTCGTGCTGGTCGGTCTGCCGGCGGCGGCGAGCCTGATTAACTTCGTGGTGCTGACTTCCGCAGCCTCATCGGCCAACAGCGGTGTCTTCTCCACCAGCCGTATGCTGTTCGGTCTGGCGCAGGATGGTCAGGCGCCGAAGATGTTCGCCAAGCTGTCGAAGCGTGCGGTGCCGGCGAAGGGCTTAACCTTCTCCTGCATGTGCCTGCTGGGCGGTGTGGTGATGCTGATGGTCAACCCGAGCGTGATCGCCGCGTTCACCATGATCACCACGGTGTCGGCGATCCTGTTCATGTTCGTCTGGACCATTATCCTTTGCTCTTATCTGGTCTACCGTAAAAAGCGTCCGCAGCTGCACGAGAAGTCCAAATATAAGATGCCGCTGGGCAAATTAATGTGCTGGGTGTGCATGGCCTTCTTCGTCTTCGTACTGGTGCTGTTGACCCTCGAAGATGACACCCGTGAAGCGCTGATGGTCACCCCGCTGTGGTTCGTTCTGCTGGGTGCGGGCTGGCTGTTTGCCGGCAAAAAACGTCTGGCGAAATAA	MVDQVKVAAVEQEPTEQSLRRNLTNRHIQLIAIGGAIGTGLFMGSGKTISLAGPSIIFVYMIIGFMLFFVMRAMGELLLSNLEYKSFSDFAADLLGPWAGYFTGWTYWFCWVVTGMADVVAITAYAQFWFPGLSDWVASLAVILLLLGLNLATVKMFGEMEFWFAMIKIVAIVALIVVGLVMVMMHFKSPTGVEASFAHLWNDGGWFPKGLSGFFAGFQIAVFAFVGIELVGTTAAETKDPEKSLPRAINSIPLRIIMFYVFALIVIMSVTPWSSVVPSKSPFVELFVLVGLPAAASLINFVVLTSAASSANSGVFSTSRMLFGLAQDGQAPKMFAKLSKRAVPAKGLTFSCMCLLGGVVMLMVNPSVIAAFTMITTVSAILFMFVWTIILCSYLVYRKKRPQLHEKSKYKMPLGKLMCWVCMAFFVFVLVLLTLEDDTREALMVTPLWFVLLGAGWLFAGKKRLAK	PGPT0020615_524	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI_TRANSPORT,PGPT0020615-cycA|ydgF-K11737	NA	NA
BMS020_04804	621	fklB	COG0545	FKBP-type 22 kDa peptidyl-prolyl cis-trans isomerase	ATGGCAACCCCAACTTTTGACACTATCGAAGCGCAGGCAAGTTACGGTATCGGCTTGCAGGTTGGACAACAGCTGAGCGAATCCGGCCTGCAGGGGCTGCTGCCGGAAGCGTTGGTGGCGGGTATCGCCGATGCGCTGGAAGGTAACCAGCCGCAGGTGCCGGTAGAAGCCGTCCACCGTGCGCTGCGTGAAATCCACGAGCGCGCCGACGCCGTGCGTCGCGAGCGTTTCCAGGCGATGGCCGCTGACGGCCAGAAATACCTTGATGAAAACCGCGAGAAAGAGGGTGTGAACAGCACCGAGTCCGGTTTGCAGTTCCGCGTGCTGACCCAGGGCGAAGGCCCGATCCCGGCCCGTACCGACCGCGTACGCGTGCACTACACCGGGAAACTGATCGACGGCACCGTCTTCGACAGCTCCGTCGCCCGCGGCGAACCGGCAGAGTTCCCGGTGACCGGCGTAATCGGCGGCTGGATTGAAGCGCTGACCCTGATGCCGGTAGGTTCCAAATGGGAACTGACCATCCCGCACAACCTGGCCTACGGCGAGCGCGGCGCTGGCGCGTCGATCCCTCCGTTCAGCACCCTGATCTTCGAAGTTGAACTGCTGGATATTATCTAA	MATPTFDTIEAQASYGIGLQVGQQLSESGLQGLLPEALVAGIADALEGNQPQVPVEAVHRALREIHERADAVRRERFQAMAADGQKYLDENREKEGVNSTESGLQFRVLTQGEGPIPARTDRVRVHYTGKLIDGTVFDSSVARGEPAEFPVTGVIGGWIEALTLMPVGSKWELTIPHNLAYGERGAGASIPPFSTLIFEVELLDII	PGPT0015110_180	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015110-ppiA-K03767	NA	NA
BMS020_04805	675			hypothetical protein	ATGCCCGGGCGCTTTGAACTGACATCTACCCTGGCGAAAATCTGGCACGCCCCGGATCATTTTCGCCTCCTGGACCCACTGCCCCCGATGCACCGCCGGGGAATTATCGCTGGCTTCCTGTTGGTGATTATCGGCATTCTGCTTCCCTCAGACGATAGCCAAAACCCGGCGTCCACCAGCCGTGAAGCAAACCTGAATCTGCAGTCGCAGTCCCAGCCGCAAGCTGGCGGCAATCAGGCCGTTCCCCTGCCGCCGATCACCAATACGCCTACCGTGAGCGATGCCGACCAGATGGCGCCGGTCGCCCCGGAGCCGATTCAGGATGAGCAGCCGGATCAGGCGCAGACGCAGCAGCCCGCCGCCTCCCAGCCCTATCAATCCTCATCGCAGCAGTCCGCGCCGGGTATTGAACAGCAATGGCGGACCTATCGCATCGAGTCAGGCAAAACCCTGGCCCAGCTGTTCCGCGATCATGGGCTGCCGGCCACCGACGTTTACGCCATGGCGCAGGTTGAAGGCGCAGGTAAACCATTAAGCACGTTGCAGAGCGGACAGACGGTGCAGATTCGGCAGAACGCCAACGGCGTGGTCACCGGGCTCACTATTGATACCGGCAACGGCCAGCAGGTGCTGTTTACCCGCCAGTCGAACGGCAGCTTTGTGCGCGCGCGCTAG	MPGRFELTSTLAKIWHAPDHFRLLDPLPPMHRRGIIAGFLLVIIGILLPSDDSQNPASTSREANLNLQSQSQPQAGGNQAVPLPPITNTPTVSDADQMAPVAPEPIQDEQPDQAQTQQPAASQPYQSSSQQSAPGIEQQWRTYRIESGKTLAQLFRDHGLPATDVYAMAQVEGAGKPLSTLQSGQTVQIRQNANGVVTGLTIDTGNGQQVLFTRQSNGSFVRAR				NA	NA	NA	NA	NA
BMS020_04806	549			hypothetical protein	ATGAAAGGCGCTAAAAAGCAAAACGCCGGCACAAGGCCGGCGATTTGTTGTTACCAGAACGTCAGAGGCCGATTACTCAGCAACCACGTTGATGATAACTTTAGCGAAAACTTCGCTGTGAACCTGGAAGTCCACTTCGTGCTCGCCAACGTTACGCAGAACGCCGTTCGGCAGGCGAACTTCGCTCTTAGCAACTTTAACGCCTGCTGCAGTGACAGCGTCAGCGATGTCGCGAGTACCGATGGAACCGAACAGTTTACCTTCGTCGCCAGCTTTAGACGCGATGGTTACGGATTCCAGGGCGTTGATCTGCGCAGCACGAGCTTCAGCAGCTGCCAGAACGTCAGCCAGTTTGGCTTCCAGTTCAGCGCGACGTGCTTCGAAGAATTCAACGTTTTTCTTGGTAGCAGGAACAGCTTTACCCTGCGGGACCAGGAAGTTACGAGCATAGCCCGCTTTAACGTTAACCTGATCACCCAGGCTACCCAGGTTTGCTACTTTATCAAGCAGAATAACTTGCATTACCTTATCCTCTCAAAGTCGTATTAA	MKGAKKQNAGTRPAICCYQNVRGRLLSNHVDDNFSENFAVNLEVHFVLANVTQNAVRQANFALSNFNACCSDSVSDVASTDGTEQFTFVASFRRDGYGFQGVDLRSTSFSSCQNVSQFGFQFSATCFEEFNVFLGSRNSFTLRDQEVTSIARFNVNLITQATQVCYFIKQNNLHYLILSKSY				NA	NA	NA	NA	NA
BMS020_04807	228	rpsR_1	COG0238	30S ribosomal protein S18	ATGGCACGTTATTTCCGTCGTCGCAAGTTCTGCCGTTTCACCGCGGAAGGCGTTCAAGAGATCGACTATAAAGATATCGCTACGCTGAAAAACTACATCACCGAAAGCGGTAAGATTGTCCCGAGCCGTATCACCGGTACCCGTGCAAAATACCAGCGTCAGCTGGCTCGCGCTATCAAACGCGCTCGCTACCTGTCCCTGCTGCCGTACACTGATCGTCATCAGTAA	MARYFRRRKFCRFTAEGVQEIDYKDIATLKNYITESGKIVPSRITGTRAKYQRQLARAIKRARYLSLLPYTDRHQ				NA	NA	NA	NA	NA
BMS020_04808	396	rpsF_1	COG0360	30S ribosomal protein S6	ATGCGTCATTACGAAATCGTTTTTATGGTCCATCCTGACCAGAGCGAACAGGTTCCGGGCATGATCGAACGTTACACTGGTGCAATCACTGCAGCAGCAGGTACGATCCACCGTCTGGAAGACTGGGGCCGCCGTCAGCTGGCTTATCCGATCAACAAACTGCACAAAGCTCACTACGTTCTGCTGAACGTTGAAGCGCCGCAGGAAGCGATCGATGAGCTGGAAACTAACTTCCGCTTCAACGACGCCGTTATCCGCAGCATGGTAATGCGTACTAAGCACGCTGTTACCGAAGCATCTCCGATGGTTAAAGCGAAAGACGAGCGCCGTGAGCGTCGCGAAGATTTCGCCAACGAAACCGCAGATGATTCTGAAGCTGGGGATTCTGAAGAGTAA	MRHYEIVFMVHPDQSEQVPGMIERYTGAITAAAGTIHRLEDWGRRQLAYPINKLHKAHYVLLNVEAPQEAIDELETNFRFNDAVIRSMVMRTKHAVTEASPMVKAKDERRERREDFANETADDSEAGDSEE				NA	NA	NA	NA	NA
BMS020_04810	276			hypothetical protein	ATGAAACTGAAAATCATCGCCATGATGGCTGCGCTTTTCTTCAGCGCCAACGCGTTGGCAGCTATCCAAATCACCGAACGACAGGCCCGCAACATGGACGATGTGCAGAGCCTCGGCGTTATCTATATCAATCACAATATGGCCACTGAGCACGAGGCCGAACAGGCCCTTAGCCAGCTGAGCGATGCGCAGGGGGCGAAATATTTTCAGCCCATCCTGATGCACGAACCAGAAACCAACGGCCCGCTTCGCGCCAGCGCGGTGATTTACCGCTAA	MKLKIIAMMAALFFSANALAAIQITERQARNMDDVQSLGVIYINHNMATEHEAEQALSQLSDAQGAKYFQPILMHEPETNGPLRASAVIYR				NA	NA	NA	NA	NA
BMS020_04811	1194	yfcJ_2		putative MFS-type transporter YfcJ	ATGGTTCCGCGTTTCGCCACCTTAGGCCGCATCCCCAAAGGCGTTTGGGTACTCGGCGGCGTCAGCCTGCTGATGGATGTGTCGTCCGAGATGATCCACAGTCTCTTACCGCTGTTTATGGCCACCACCCTCGGCGCCAGCGTGATTATCATCGGTCTTATCGAGGGGCTGGCGGAAGCCACCGCCCTGATCCTGAAAATCTTCTCCGGTGCGATCAGCGACTACGTCGGTAAGCGCAAAGGGCTGGCGCTGCTGGGCTACGGCCTGGGCGCGCTCAGCAAGCCGCTGTTTGCCATCGCCCCGACCTCCGGCGTGGTGTTTAGCGCCCGCATGATCGACCGCGTAGGCAAAGGCATTCGCGGCGCGCCGCGCGACGCGCTGGTCGCCGACGTCACCCCACCGGAGATCCGCGGCGCCGCCTACGGGCTACGTCAGGCGCTGGATACCGTTGGCGCCTTTCTCGGCCCGCTGCTGGCGGTGCTGCTGATGTTTATCTGGGCCAACGATTTTCACGCTATATTCTGGGTGGCGGTTATTCCCGCCGTGCTCTCTATTCTCCTGCTGGGTTTTGGCCTGCAGGAGCCAAAATCCGCCATCGACCATCAACGCAGTAATCCGCTGAAGCGCGAAAATCTGCAAAAGCTCTCCGCCGCCTACTGGTGGGTGGTCGCCATCGGCAGCATCTTCACCCTCGCCCGCTTCAGCGAAGCCTTTCTGGTGCTGCGCGCCCAGCAGATGGAGATCCCGCTGTTTACCATTCCGCTGGTAATGGTGGCGATGAACCTGGTCTACAGCGTTACGGCCTACCCGTTCGGCAAGCTCTCTGACAGCATGAGCCACAGCAAACTGCTGCAGTGGGGACTGCTGGTGCTGATCCTCGCCGATATCGTGCTGGCCCTCAGCGCCCACTGGAGCACGCTGCTGGTCGGGGTCGCGCTGTGGGGAATTCATATGGGGATGACCCAGGGGCTGCTGGCGGCGATGGTCGCCCATACGGCGCCGCCGGCGCTACGCGGCACGGCGTTCGGTATGTTCAACCTGATGAGCGGCCTGGCGCTGTTGCTGGCCAGTACCGGCGCAGGCGTGCTGTGGGAAACCTTCGGCGCCGCTTCGACGTTTTACGCTGGCGCGATAATTTGCGTGGTCACGCTCATCGGCATACGCGCTATGCCGTCGGCTTATCGTCAGGGCTAA	MVPRFATLGRIPKGVWVLGGVSLLMDVSSEMIHSLLPLFMATTLGASVIIIGLIEGLAEATALILKIFSGAISDYVGKRKGLALLGYGLGALSKPLFAIAPTSGVVFSARMIDRVGKGIRGAPRDALVADVTPPEIRGAAYGLRQALDTVGAFLGPLLAVLLMFIWANDFHAIFWVAVIPAVLSILLLGFGLQEPKSAIDHQRSNPLKRENLQKLSAAYWWVVAIGSIFTLARFSEAFLVLRAQQMEIPLFTIPLVMVAMNLVYSVTAYPFGKLSDSMSHSKLLQWGLLVLILADIVLALSAHWSTLLVGVALWGIHMGMTQGLLAAMVAHTAPPALRGTAFGMFNLMSGLALLLASTGAGVLWETFGAASTFYAGAIICVVTLIGIRAMPSAYRQG	PGPT0027480_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HipA-HipB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027480-toxin_hipA-K07154	NA	NA
BMS020_04812	414	ulaF	COG0235	L-ribulose-5-phosphate 4-epimerase UlaF	GTGCATACCCATTCGACGCACGCTACCGCCTGGGCGCAGGCGGGGCTGGCGATCCCGGCGCTCGGCACCACCCATGCGGACTACTTTTTCGGTGATATCCCTTGCACCCGGGCGCTTAGCGCGCAGGAGGTGGATGAGGGCTACGAGCTGAACACCGGGAAAGTGATTATCGAAACGCTGGGCGAGGCAAACCCGTTGCATACGCCGGGGATCGTCGTCTATCAGCACGGGCCGTTCTCCTGGGGGAAAGACGCCCACGAGGCGGTGCACAATGCGGTGGTGATGGAAGAGGTGGCGCGCATGGCGTGGATTGCCCGCGGCATTAATCCGCGGCTGCAGCCGATTGACAGCTGGCTGATGGAAAAACATTTTCTGCGTAAACACGGGCCGAACGCCTACTACGGGCAGAAGTAA	MHTHSTHATAWAQAGLAIPALGTTHADYFFGDIPCTRALSAQEVDEGYELNTGKVIIETLGEANPLHTPGIVVYQHGPFSWGKDAHEAVHNAVVMEEVARMAWIARGINPRLQPIDSWLMEKHFLRKHGPNAYYGQK	PGPT0017420_1491	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
BMS020_04813	717			hypothetical protein	ATGATTGCACTCGAAATGCGCAACCTCGGCGGTGGCGAAATTTTGCATGCCTGCCCGCAGGAGAGTCTGGATAAGCCACTGCCCTGTATCGTCTTTTATCATGGCTTTACCTCGTCAAAACTGGTTTACAGCTACTTTGCAGTGGCGCTGGCCCAGGCGGGTTTCCGGGTGATTATGCCGGACGCGCCGGAGCATGGCGCGCGCTATCACGGTGATGAGACCGGGCGGATGCAGCGCTTCTGGCCGATCCTGCAGCAGAATTTCAGAGAGTTTCCCGCGCTGCGCGAGGCGATTATCGCCGAAGGCTGGCTGGAAGGAGAGCGACTGGCGGTGGCGGGGGCGTCGATGGGGGGAATGACGGCCCTGGGTATCATGACGCATCATCCCGAGCTGAACAGCGTCGCCTGCCTGATGGGGTCGGGTTATTTTCGTTCGCTGTCGCAAACCCTGTTTCCCTCGCCTGGCTTTGATGGCGACAGCCTCAGCGAGTGGGATGTCAGTCATCAGCTGGCGTCGCTCGCCCGGCGGCCACTGCTGCTCTGGCATGGCGATGCCGACGACGTGGTGCCGCCGGCAGAGACCTTCCGGCTTGAGCAGGCGCTCAGGCAGAGCGATCTTGCCGCCAGGCTGACCTGCGTCTGGCAGAAAGGCGTCCGCCATCGCATCACCCCGGAGGCGCTGGCCACGACGGTCGCCTTTTTTCAGCAGCATCTTTAA	MIALEMRNLGGGEILHACPQESLDKPLPCIVFYHGFTSSKLVYSYFAVALAQAGFRVIMPDAPEHGARYHGDETGRMQRFWPILQQNFREFPALREAIIAEGWLEGERLAVAGASMGGMTALGIMTHHPELNSVACLMGSGYFRSLSQTLFPSPGFDGDSLSEWDVSHQLASLARRPLLLWHGDADDVVPPAETFRLEQALRQSDLAARLTCVWQKGVRHRITPEALATTVAFFQQHL				NA	NA	NA	NA	NA
BMS020_04814	309	bsmA		Lipoprotein BsmA	ATGGTTATGCGCAGGTTTTGTCCGTGGTTACTGGCTATCGTCCTCAGCGGGTGTAGCGCTCTGCAGGGAACGCCGGAAGCCCCGCCGCCCGCCACCGACCATCCGCAGGAGATCCAGCGCAACCAGACGGCTGGCCTGCAGAAAATGGCCACGGTGAGCGTACTGATGTACGGTTCGCCGATGGATGTCGAAGCGGCGTTGAAGGCCAAAGCAGAAGCGGCCAAAGCCGATTACTACGTCATCATCATGATCGATGACACCATGGTACCCGGCCAGTGGTATTCGCAGGCGATCCTCTATCGTCGATGA	MVMRRFCPWLLAIVLSGCSALQGTPEAPPPATDHPQEIQRNQTAGLQKMATVSVLMYGSPMDVEAALKAKAEAAKADYYVIIMIDDTMVPGQWYSQAILYRR				NA	NA	NA	NA	NA
BMS020_04815	276			hypothetical protein	ATGAAACGATCTTTTACCCTATCCAGCCTGCTGTTAACCACTGCGACGGCCAACACCTCCGCGCAGTCAGCCGAATTCGCCAGCGCGGATTGCGTCACCGGCCTGAATGAAATCGGTCTGATCTCCGTCGCTAATCTTTCCGGCAGCCAACAGGATGTGGAGCACGCCATTGCCCGCAAAGCGGACGAGCAAGGCGCCTCCTGGTATCGCATTATTCAGATGTACGAGGAACAACAGCCGGACAGCTGGCGCGTGCAGGCCATTCTCTACGCCTGA	MKRSFTLSSLLLTTATANTSAQSAEFASADCVTGLNEIGLISVANLSGSQQDVEHAIARKADEQGASWYRIIQMYEEQQPDSWRVQAILYA				NA	NA	NA	NA	NA
BMS020_04816	1638	aidB_1	COG1960	Putative acyl-CoA dehydrogenase AidB	ATGCACTGGCAAACGCACACCGTTTTTAATCAACCGACCCCGCTGAATAACAGCAATCTGTTCCTGTCTGATTCCGCCCTGCGTGAAGCGGTGGTCCGTGAAGGCGCCGGCTGGGATGGCGATCTGCTCGCCAGCATTGGCCAGCAGCTGGGGACCGCAGAATCGCTGGAGCTGGGACGCCTGGCCAACAGCAACCCGCCGGAGCTGCTGCGCTATGACGCCACCGGCGCCCGACTGGACGACGTTCGCTTCCACCCCGCCTGGCACCTGCTGATGCAGGGGCTGTGCGCGAACCGGGTGCATAATCTCGCCTGGCAGGAGGAGGCCCGTGAAGGCGCGTTTGTCGCGCGCGCCGCTCGCTTTCTGCTCCACGCCCAGGTAGAGGCCGGAACGCTGTGCCCGATTACCATGACCTTCGCCGCGACGCCCCTGTTGCAGCACGCCCTGCCCGCGCCTTTTGGCGACTGGCTGTCGCCGCTGCTGAGCGATCGTTACGATCCCCACCTCGCGCCGGGCGGCCAGAAGCGCGGCCTGCTGATTGGCATGGGGATGACCGAGAAGCAAGGGGGCTCCGATGTGCTGAGCAATACCACCCGCGCGGAGAAAACGGCGGAAGGGTTTTACCGGCTGGTGGGACACAAATGGTTCTTCTCGGTGCCGCAGAGCGATGCCCACCTGGTGCTGGCCCAGGCGCCTGCGGGCCTGTCGTGCTTCTTTGTGCCGCGCCTGCTGCCCGACGGACAGCGCAACGGCGTGCGGCTGGAGCGCTTAAAAGAGAAGCTCGGCAACCGCTCCAACGCCAGTAGCGAAGTGGAGTTTTATGACGCCTGCGGCTGGCTGGTGGGCGACGAGGGCGACGGCGTGCGGCAGATCCTCAGGATGGGCTGCCTGACCCGCTTTGACTGCGCGCTGGGCAGCCATGCCCTGATGCGCCGGGCCTTCTCGGTGGCGCTGTATCATGCGTTACAGCGCCAGGCGTTCGGTAAAAATCTGGTCGATCAGCCGATGATGCGCCAGCTGCTGGGGCAAATGGCGCTCCGTCTTGAAGGACAAACCGCGTTCCTGTTTCGTCTGGCGCGGGCCTGGGACCGTCGGGATGATGCCCGGGAAAGCGCCTGGGCGCGTCTGTTTACGCCTGCGGCCAAGTTTGCCATCTGCAAGGCCGGCATCCCGTTCGTCGCTGAGGCGATGGAAGTCCTGGGAGGGATCGGCTATTGCGAGGAGAGTGAGCTGCCGCGGTTGTATCGCGAGATGCCGGTCAACAGCATCTGGGAAGGCTCCGGCAATATTATGTGCCTCGATGTGATGCGGGTGCTGAGCAAGCAGCCGGCGGCGATGGAGCTGCTGGCCGCGGAGTGTGCGGAGGTGAAAGGACAGAACCGCCATCTCGACCGCGCATGGCGTCAGCTGCAGCAATTGCTGAAACGACCCGCCGAAGAGCAGGGCAGAGAGATTGCCCGGCTGGTCTATCGTCTGGGGGCGGGGGCGCAGATGCTGCGTTTCGCTTCGCCGCCGCTGGCCGAAGCCTGGTGCCGGATGATGCTCGACACGCGCGGCGGCATACGTCTTGACGCGCCGACCCTCGACGACCTGCTGCTGCGGGCCATGGGGCGGGGGCGCCAGGCGCCTCAGGCGTAG	MHWQTHTVFNQPTPLNNSNLFLSDSALREAVVREGAGWDGDLLASIGQQLGTAESLELGRLANSNPPELLRYDATGARLDDVRFHPAWHLLMQGLCANRVHNLAWQEEAREGAFVARAARFLLHAQVEAGTLCPITMTFAATPLLQHALPAPFGDWLSPLLSDRYDPHLAPGGQKRGLLIGMGMTEKQGGSDVLSNTTRAEKTAEGFYRLVGHKWFFSVPQSDAHLVLAQAPAGLSCFFVPRLLPDGQRNGVRLERLKEKLGNRSNASSEVEFYDACGWLVGDEGDGVRQILRMGCLTRFDCALGSHALMRRAFSVALYHALQRQAFGKNLVDQPMMRQLLGQMALRLEGQTAFLFRLARAWDRRDDARESAWARLFTPAAKFAICKAGIPFVAEAMEVLGGIGYCEESELPRLYREMPVNSIWEGSGNIMCLDVMRVLSKQPAAMELLAAECAEVKGQNRHLDRAWRQLQQLLKRPAEEQGREIARLVYRLGAGAQMLRFASPPLAEAWCRMMLDTRGGIRLDAPTLDDLLLRAMGRGRQAPQA				NA	NA	NA	NA	NA
BMS020_04817	732	rlmB_1	COG0566	23S rRNA (guanosine-2'-O-)-methyltransferase RlmB	ATGAGTGAAATGATTTACGGCATCCATGCGGTGCAGGCACTGCTGGAGCGCGCACCTGAGCGTTTTCAGGAAGTTTATATTCTGAAAGGCCGTGAGGATAAGCGCCTGCTGCCGCTGATCCACGCGCTGGAGGCGCAGGGCGTGGTGATTCAGCTGGCCAACCGCCAGTTCCTCGATGAGAAGAGCGAAGGCGCGGTACACCAGGGGATCATTGCCCGCGTGAAGCCGGGGCGTCAGTATCAGGAGAACGATCTGCCGGATCTACTGGCGCAGCTCGATCAGCCGTTCCTGTTGATCCTTGACGGCGTGACCGATCCGCATAACCTCGGCGCCTGCCTGCGCAGCGCCGATGCTGCCGGCGTGCACGCGGTGATTGTGCCGAAAGATCGTTCCGCGCAGCTGAATGCGACGGCGAAGAAAGTGGCCTGCGGCGCGGCGGAGAACGTCCCGCTGATCCGCGTCACCAACCTGGCGCGCACCATGCGCCTGCTGCAGGAGGAGAACGTCTGGATCGTCGGAACCGCAGGTGAAGCCGACCATACGCTGTTCCAGAGCAAAATGACCGGGCCGATGGCGCTGGTGATGGGCGCGGAAGGTGAAGGTATGCGCCGCCTGACCCGCGAGCACTGTGATGAGCTGATCAGCATCCCGATGGCGGGCAGCGTTTCCTCGCTGAACGTCTCGGTGGCCACTGGCATCTGCCTGTTTGAGGCGGTACGCCAGCGCAGCTAA	MSEMIYGIHAVQALLERAPERFQEVYILKGREDKRLLPLIHALEAQGVVIQLANRQFLDEKSEGAVHQGIIARVKPGRQYQENDLPDLLAQLDQPFLLILDGVTDPHNLGACLRSADAAGVHAVIVPKDRSAQLNATAKKVACGAAENVPLIRVTNLARTMRLLQEENVWIVGTAGEADHTLFQSKMTGPMALVMGAEGEGMRRLTREHCDELISIPMAGSVSSLNVSVATGICLFEAVRQRS				NA	NA	NA	NA	NA
BMS020_04818	2439	rnr_1	COG0557	Ribonuclease R	ATGTCACAAGATCCATTCCAGGAACGCGAAGCTGAGAAGTACGCGAACCCAATCCCGAGCCGGGAATTTATCCTCGAACATTTAACCAAACGGGAAAAGCCTGCCAGCCGCGATGAGCTGGCCATCGAGTTAAATATCGAGGGCGAAGAGCAAACCGAAGCGCTGCGCCGCCGCCTGCGCGCGATGGAGCGCGACGGTCAGCTGGTCTTCACCCGCCGTCAGTGCTATGCGCTGCCGGAGCGCCTTGATCTCCTCAAAGGAACCGTTATCGGCCACCGTGATGGCTATGGTTTCCTGCGCGTTGAAGGGCGCAAAGACGATCTCTACCTGTCGTCAGAGCAGATGAAAACCTGTATTCATGGCGACCAGGTGCTGGCCCAACCGCTGGGCGCGGACCGTAAGGGCCGCCGCGAAGCGCGCATTGTCCGCGTCCTGGTGCCGAAAACCAGCCAGATTGTTGGCCGCTACTTTACCGACGCTGGCGTCGGTTTCGTCGTCCCGGACGACAGTCGCCTGAGCTTCGATATCCTGATCCCGCCGGAAGAGATTATGGGCGCGCGGATGGGCTACGTGGTGGTGGTCGAGCTGACCCAGCGCCCGACCCGCCGCACCAAAGCCGTGGGGAAAATCGTCGAAGTGCTGGGCGACAACATGGGTACCGGCATGGCCGTCGATATGGCGCTGCGCACCCATGAAATTCCATACGTCTGGCCGCCGGCGGTAGAAAACCAGGTTTCCGGCCTGAAAGAACAGGTGCCGGAAGAGGCGAAAGCCGGGCGCGTCGATCTGCGCTCCCTGCCGCTGGTCACCATTGACGGCGAAGATGCCCGCGACTTCGATGACGCGGTGTACTGCGAGAAGAAACGCGGCGGCGGCTGGCGCCTGTGGGTAGCCATTGCCGACGTCAGCTACTACGTGCGTCCGGGGACGCCGCTGGACGCTGAAGCGCGCAGCCGCGGAACCTCGGTCTACTTCCCGTCGCAGGTGGTGCCGATGCTGCCGGAAGTGCTGTCTAACGGTCTGTGCTCGCTGAACCCGCAGGTTGATCGCCTGTGCATGGTGTGCGAGATGACGATTTCGTCAAAAGGCCGTCTGACCGGTTATAAATTCTATGAAGCGGTGATGAGTTCACATGCTCGCCTGACCTATACCAAGGTGTGGCATATGCTGCAGGGCGACCAGGAGCTGCGTGAGCACTACGCGCCGCTGGTGAAGCATATTGAAGAACTGCATAACCTCTACAAGGTGCTGGATGGCGCCCGCGAAGAGCGTGGCGGTATCTCATTTGAAAGTGAAGAAGCTAAATTCATCTTCAACGCCGAGCGCCGTATCGAGCGTATCGAACAGACCCAGCGTAACGATGCGCACAAGCTGATTGAAGAGTGCATGATCCTGGCGAACATCTCCGCTGCGCGCTTCGTTGAGAAGGCGCAGGAGCCAGCGCTGTTCCGTATTCACGATAAGCCGAGCACCGAGGCGATTACCGCGTTCCGCAGCGTGCTGGCGGAGCTGGGTCTGGAACTGCCGGGCGGCAACAAGCCGGAGCCGCGCGATTACGCCGAACTGCTGACCTCCATCGCCGATCGCCCGGATGCGGAAATGCTGCAGACGATGCTCCTGCGGTCGATGAAGCAGGCGGTCTACGATCCGGAAAACCGCGGCCACTTTGGCCTCGCGCTGCAGTCCTATGCCCACTTCACCTCGCCGATCCGTCGTTACCCGGATCTGTCGCTGCACCGCGCCATCAAATATCTGCTGGCCAAAGAGCAGGGGCATAAAGGCAATAGCACGGAGACCGGCGGCTGGCACTACAGCATGGAAGAGATGCTGCAGCTGGGCGAGCACTGCTCGATGACCGAACGTCGCGCCGATGAAGCGACGCGCGAAGTCTCCGACTGGCTGAAGTGTGACTTCATGCAGGATCAGGTAGGCAATATCTTCTCCGGGGTTATCGCCAGCGTAACCGGCTTTGGCTTCTTCGTTCGTCTCAACGATCTGTTTATCGACGGCCTGGTGCATGTTTCCTCCCTGGATAACGACTACTATCGTTTCGACCAGGTGGGGCAGCGTCTGATCGGCGAGTCCGGCGGGCAGACCTATCGCCTGGGCGACCGCGTGGAAGTCCGTGTGGAAGCGGTCAACATGGACGAGCGTAAAATCGACTTTACCCTGATCTCCAGCGAGCGCGCGCCGCGTAATGTCGGCAAAACCGCCCGTGAGAAAGCGAAAAAGAGCACCTCCGGCAAACCGGGCGGCCGTCGTCGTCAGGTTGGTAAGCAGGTGAACTTCGAGCCGGACAGCGCGTTCCGCAAAGAAAAAGACCAGGCGAAAGCGAAGCCGAAAGGCGAGAAGAAAGCGAAAAAACCGTCGGCGAAAACGCAGAAAATCGCCGCCGCGACCAAAGCCAAGCGCGCGGCAAAGAAGAAGAGCGCCGAGTGA	MSQDPFQEREAEKYANPIPSREFILEHLTKREKPASRDELAIELNIEGEEQTEALRRRLRAMERDGQLVFTRRQCYALPERLDLLKGTVIGHRDGYGFLRVEGRKDDLYLSSEQMKTCIHGDQVLAQPLGADRKGRREARIVRVLVPKTSQIVGRYFTDAGVGFVVPDDSRLSFDILIPPEEIMGARMGYVVVVELTQRPTRRTKAVGKIVEVLGDNMGTGMAVDMALRTHEIPYVWPPAVENQVSGLKEQVPEEAKAGRVDLRSLPLVTIDGEDARDFDDAVYCEKKRGGGWRLWVAIADVSYYVRPGTPLDAEARSRGTSVYFPSQVVPMLPEVLSNGLCSLNPQVDRLCMVCEMTISSKGRLTGYKFYEAVMSSHARLTYTKVWHMLQGDQELREHYAPLVKHIEELHNLYKVLDGAREERGGISFESEEAKFIFNAERRIERIEQTQRNDAHKLIEECMILANISAARFVEKAQEPALFRIHDKPSTEAITAFRSVLAELGLELPGGNKPEPRDYAELLTSIADRPDAEMLQTMLLRSMKQAVYDPENRGHFGLALQSYAHFTSPIRRYPDLSLHRAIKYLLAKEQGHKGNSTETGGWHYSMEEMLQLGEHCSMTERRADEATREVSDWLKCDFMQDQVGNIFSGVIASVTGFGFFVRLNDLFIDGLVHVSSLDNDYYRFDQVGQRLIGESGGQTYRLGDRVEVRVEAVNMDERKIDFTLISSERAPRNVGKTAREKAKKSTSGKPGGRRRQVGKQVNFEPDSAFRKEKDQAKAKPKGEKKAKKPSAKTQKIAAATKAKRAAKKKSAE				NA	NA	NA	NA	NA
BMS020_04819	426	nsrR	COG1959	HTH-type transcriptional repressor NsrR	GTGCAGTTAACGAGTTTCACCGATTACGGACTACGGGCGCTGATTTATATGGCGTCGCTGCCGGAAGGACGGATGACCAGTATCTCGGAAGTGACCGAGGTCTATGGCGTCTCCCGTAATCATATGGTTAAAATAATCAATCAGTTAAGTCGCATGGGCTACGTAACTGCCGTGCGGGGGAAGAACGGGGGCATTCGCCTCGGCAAACCAGCAGGACAGATCCGCGTCGGTGACGTGGTGCGCGACCTTGAACCCTTATCGCTGGTCAACTGCAGCAGCGAGTTTTGCCACATTACACCAGCCTGTCGTTTGAAACAGGCGCTAGCTGAAGCCGCGCAGAGTTTTCTCAAGGAACTGGATAACTATACGCTGGCTGATTTGGTTGAGAAGAATCAACCGCTTTATAAATTATTGCTGGTGGAGTGA	MQLTSFTDYGLRALIYMASLPEGRMTSISEVTEVYGVSRNHMVKIINQLSRMGYVTAVRGKNGGIRLGKPAGQIRVGDVVRDLEPLSLVNCSSEFCHITPACRLKQALAEAAQSFLKELDNYTLADLVEKNQPLYKLLLVE	PGPT0013005_1606	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITRIC_OXIDE_REDUCTION,PGPT0013005-nsrR|yjeB-K13771	NA	NA
BMS020_04820	1299	purA_1	COG0104	Adenylosuccinate synthetase	ATGGGTAACAACGTCGTCGTACTGGGCACCCAATGGGGTGACGAAGGTAAAGGGAAGATCGTCGATCTCCTGACAGAACGGGCTAAATATGTTGTGCGCTACCAGGGTGGTCACAACGCCGGCCATACTCTCGTAATCAACGGTGAAAAAACCGTTCTCCATCTTATTCCATCAGGCATTCTGCGTGAAAACGTCACCAGCATCATCGGTAACGGCGTCGTGCTGTCTCCGGCTGCGCTGATGAAAGAGATGAAGGGCCTGGAAGACCGTGGTATCCCGGTTCGCGAGCGTCTGCTGCTCTCTGAAGCCTGCCCGCTTATCCTTGACTATCACGTGGCGCTGGACGTGGCACGTGAAAAAGCGCGCGGCGCGAAGGCTATCGGCACCACCGGTCGCGGCATCGGCCCGGCTTACGAAGATAAAGTCGCTCGTCGCGGTCTGCGCGTTGGCGATCTGTTCGATAAAGCAACCTTCGCCGATAAACTGAAAGAAGTGATGGAATATCACAACTTCCAGCTGGTGAACTTCTACAAAGCAGAAGCCGTTGACTACCAGAAAGTGCTGGACGATGTGATGGCGATTGCCGACATCCTGACCGGCATGGTGGTGGACGTTTCCGACCTGCTGGATCAGGCGCGTAAACGTGGCGACTTCGTGATGTTCGAAGGCGCGCAGGGCACGCTGCTGGATATCGACCATGGTACTTATCCGTACGTAACCTCTTCCAACACCACCGCCGGTGGCGTGGCGACCGGCTCCGGCCTGGGCCCGCGTTATGTGGATTACGTTCTGGGTATCATCAAAGCTTACTCGACTCGCGTAGGCGCGGGTCCGTTCCCGACCGAGCTGTTTGATGAAACCGGCGAGTTCCTCTGCAAGCAGGGTAACGAATTCGGCGCCACCACCGGTCGTCGTCGTCGTACCGGCTGGCTGGACGCCGTCGCGGTTCGTCGCGCGGTGCAGATTAACTCCCTGTCCGGCTTCTGCCTGACTAAACTGGACGTCCTCGACGGCCTGAAAGAAGTGAAAATCTGCGTTGGCTACCGTATGCCGGATGGCCGCGAAGTGACCACCACTCCGCTGGCAGCCGACAACTGGGAAGGTATCGAGCCTATCTACGAAACCATGCCGGGCTGGTCTGAAACCACCTTCGGCGTGAAAGAGCGCAGCGGCCTGCCGCAGGCAGCGCTGAACTACATCCAGCGTATTGAAGAGCTGACCGGCGTTCCGGTTGATATCATCTCTACCGGTCCAGACCGTACCGAGACCATGATTCTGCGCGACCCGTTCGACGCATAA	MGNNVVVLGTQWGDEGKGKIVDLLTERAKYVVRYQGGHNAGHTLVINGEKTVLHLIPSGILRENVTSIIGNGVVLSPAALMKEMKGLEDRGIPVRERLLLSEACPLILDYHVALDVAREKARGAKAIGTTGRGIGPAYEDKVARRGLRVGDLFDKATFADKLKEVMEYHNFQLVNFYKAEAVDYQKVLDDVMAIADILTGMVVDVSDLLDQARKRGDFVMFEGAQGTLLDIDHGTYPYVTSSNTTAGGVATGSGLGPRYVDYVLGIIKAYSTRVGAGPFPTELFDETGEFLCKQGNEFGATTGRRRRTGWLDAVAVRRAVQINSLSGFCLTKLDVLDGLKEVKICVGYRMPDGREVTTTPLAADNWEGIEPIYETMPGWSETTFGVKERSGLPQAALNYIQRIEELTGVPVDIISTGPDRTETMILRDPFDA	PGPT0020140_1634	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020140-purA-K01939	NA	NA
BMS020_04821	198			hypothetical protein	ATGAACTCCACCATTTGGCTGGCGCTGGCGCTGGTTTTAGTACTCGAAGGGCTTGGCCCGCTACTTTATCCGCGCGCCTGGCGCAAGATGGTCGCCAGCCTGAGCCAGCTCCCGGATAATTTATTGCGGCGCTTTGGCGGCGGACTTGTGGTTGCCGGGATTGTGATCTACTACATGTTGAGGAAATCGATTGGCTGA	MNSTIWLALALVLVLEGLGPLLYPRAWRKMVASLSQLPDNLLRRFGGGLVVAGIVIYYMLRKSIG				NA	NA	NA	NA	NA
BMS020_04822	291			hypothetical protein	ATGAGAGAATTAACCGCATTTGAAATCGAAAATGTGAGCGGCGCAGGCTGGTTACAGGATGGCCTGGCCTCCTTAGGTAGTAAGGTCGGCGCCGCCGTATGGACGATGGGCACCGATGCCCTGAGCATCAACCTGCCGCTGCTTGGCACCATTAATCTGGCCGATCTGGCGCCGGACCTGGGCAAAACCCTGGGCGAAAGCGTTGGCTCATCTATCGGCGGCACCATCGAGAGTACGCTGGCGAGCCTGCCGGTGATCGGTGGCCTGCTGAACAAGCTGCTCGGCAACTAA	MRELTAFEIENVSGAGWLQDGLASLGSKVGAAVWTMGTDALSINLPLLGTINLADLAPDLGKTLGESVGSSIGGTIESTLASLPVIGGLLNKLLGN				NA	NA	NA	NA	NA
BMS020_04823	1005	hflC_1	COG0330	Modulator of FtsH protease HflC	ATGCGTAAATCTGTTATCGCGATCATTGTCATCGTGCTGGTAGTGCTCTACATGTCAGTCTTTGTCGTGAAGGAGGGCGAGCGCGGTATCACGCTGCGTTTCGGTAAAGTTCTGCGCGACGACGAAAACAAGCCGCTGGTATACGCGCCAGGCCTGCACTTCAAGATCCCGTTTATCGAATCGGTGAAAATGCTGGATGCGCGTATTCAGACCATGGATAACCAGGCTGACCGTTTTGTCACCAAAGAGAAGAAAGACCTGATCGTCGACTCCTATATTAAATGGCGCATCAGCGACTTCAGCCGTTACTACCTGGCCACCGGCGGCGGCGACGTCTCCCAGGCAGAGGTGCTGCTGAAGCGTAAATTCTCGGACCGTCTGCGTTCTGAAATCGGCCGTCTGGATGTGAAAGACATCGTCACCGACTCCCGTGGCCGCCTGACGCTGGAAGTGCGTGATGCGCTGAACTCAGGGTCGGCCGGTACGGAAGACGAGGTTAGCACGCCGGCAGCTGACGACGCGATTGCCAAAGCGGCAGAGCGCGTGGAAGCTGAAACCAACGGCAAAGTGCAGGTGATCAACCCGAACAGTATGGCGGCGCTGGGTATTGAAGTCGTCGACGTGCGTATCAAGCAGATCAACCTGCCGGCGGAAGTGTCGGAAGCGATCTACAACCGTATGCGCGCGGAGCGTGAAGCGGTTGCTCGTCGCCACCGTTCACAGGGTCAGGAAGAGGCGGAAAAACTGCGCGCGACCGCGGACTATGAAGTCACCAAGACGCTGGCGGAAGCCGAGCGCCAGGGCCGTATCCTGCGTGGTGAAGGCGATGCGGAATCGGCAAAACTGTTTGCCGACGCGTTCAGCCAGGATCCGGGCTTCTATTCCTTTATTCGTAGCCTGCGCGCCTATGAGAAGAGCTTCCAGAGCAATCAGGATGTCATGGTCCTGAGCCCGGATAGCGATTTCTTCCGCTATATGCGTTCACCGGATTCGGTGCGTAAATAA	MRKSVIAIIVIVLVVLYMSVFVVKEGERGITLRFGKVLRDDENKPLVYAPGLHFKIPFIESVKMLDARIQTMDNQADRFVTKEKKDLIVDSYIKWRISDFSRYYLATGGGDVSQAEVLLKRKFSDRLRSEIGRLDVKDIVTDSRGRLTLEVRDALNSGSAGTEDEVSTPAADDAIAKAAERVEAETNGKVQVINPNSMAALGIEVVDVRIKQINLPAEVSEAIYNRMRAEREAVARRHRSQGQEEAEKLRATADYEVTKTLAEAERQGRILRGEGDAESAKLFADAFSQDPGFYSFIRSLRAYEKSFQSNQDVMVLSPDSDFFRYMRSPDSVRK				NA	NA	NA	NA	NA
BMS020_04824	1263	hflK_1	COG0330	Modulator of FtsH protease HflK	ATGGCGTGGAATCAGCCCGGTAATAACGGACAGGACCGCGACCCGTGGGGGAGCAGCAAACCTGGCGGCAACTCTGAGGGAAATGGCAACAAAGGCGGTCGCGAGCAGGGGCCGCCGGATCTGGATGATATCTTCCGCAAGTTAAGTAAAAAACTTGGCGGGCTCGGCGGCGGCAAGGGCGGACTGGGCGGCGGCAATAGCGCGCAGGGACCTCGCGGACCGATGGGCGGGCGTATTGTCGGCATCGTTGCCGCGGCGGCAGTGATTATCTGGGCGGCCAGCGGTTTCTATACTATTAAAGAAGCCGAACGCGGCGTGGTCACCCGTTTTGGTAAGTTCAGCCATCTGGTTGAGCCGGGCCTGAACTGGAAGCCGACCTTTATCGATAACGTGCAGGCAGTAAACGTGGAGTCGGTACGTGAACTGGCGGCGTCCGGCGTCATGTTGACCTCTGACGAAAACGTGGTGCGCGTTGAGATGAACGTGCAGTACCGCGTCACCGATCCGGAGCGCTATCTGTTTAGCGTCACCAGCGCGGACGACAGCCTGCGTCAGGCCACCGACAGCGCGCTGCGCGGGGTGATCGGTAAATACACCATGGATCGCATTCTGACCGAAGGTCGTACCGTGATCCGTAGCGATACTCAGCGTGAGCTGGAAGAGACGATTCGCCCGTACAACATGGGCATCACTCTGCTGGACGTCAACTTCCAGACGGCACGTCCGCCGGAAGAGGTGAAAGCCGCGTTTGACGATGCCATTGCCGCGCGTGAGAACGAACAGCAGTACATTCGTGAAGCGGAGGCTTACACCAACGAAGTCCAGCCGCGCGCGAATGGTCAGGCGCAGCGTATCCTCGAAGAGGCACGCGCCTATAAGACCCAGACCGTCCTGGAAGCCCAGGGTGAAGTGGCTCGCTTTGCTAAGATCCTGCCGGAATACAAAGCCGCGCCGGAGATTACCCGCGAGCGTCTGTACATCGAAACGATGGAAAAAGTGCTGAGCCACACCCGTAAAGTGCTGGTTAATGACAGCAAAAACGGCAATCTGATGGTTCTGCCGCTGGACCAGATGCTGAAAGGCGCCGCTGCGCCGGCAGCAAAGAGCGATAGCAGTGACGCCAGCGATCTGCTGCGTCTGCCGCCTGCATCCAGCACTGGCAGCGCCAGCACCTCATCAACCTCGAGCTCAACCGGGGGTAGCATTATGGACCAACGCCGCGCTAACGCGCAGCGTAACGACTACCAGCGTCAGGGGGAATAA	MAWNQPGNNGQDRDPWGSSKPGGNSEGNGNKGGREQGPPDLDDIFRKLSKKLGGLGGGKGGLGGGNSAQGPRGPMGGRIVGIVAAAAVIIWAASGFYTIKEAERGVVTRFGKFSHLVEPGLNWKPTFIDNVQAVNVESVRELAASGVMLTSDENVVRVEMNVQYRVTDPERYLFSVTSADDSLRQATDSALRGVIGKYTMDRILTEGRTVIRSDTQRELEETIRPYNMGITLLDVNFQTARPPEEVKAAFDDAIAARENEQQYIREAEAYTNEVQPRANGQAQRILEEARAYKTQTVLEAQGEVARFAKILPEYKAAPEITRERLYIETMEKVLSHTRKVLVNDSKNGNLMVLPLDQMLKGAAAPAAKSDSSDASDLLRLPPASSTGSASTSSTSSSTGGSIMDQRRANAQRNDYQRQGE				NA	NA	NA	NA	NA
BMS020_04825	1281	hflX_1	COG2262	GTPase HflX	TTGTTTGACCGTTATGACGCCGGTGAGCAGGCGGTACTGGTACACATCTATTTTTCGCAAGACAAAGATATGGAAGACCTCCAGGAGTTTGAAACTCTGGCCTCTTCCGCCGGTGTCGAAGCAATGCAGGTGATTACCGGTAGCCGTAAAGCACCGCACCCGAAGTATTTTGTTGGTGAAGGTAAGGCAGTCGAAATTGCGGAAGCCGTTAAAGCGACCGGCGCTTCGGTCGTGCTCTTCGATCATGCCCTGAGTCCGGCGCAAGAACGCAACCTGGAACGCCTGTGCGAATGCCGGGTTATCGATCGTACCGGTCTTATTTTAGATATTTTCGCTCAGCGCGCGCGCACCCATGAAGGGAAACTGCAGGTCGAGCTGGCGCAGCTGCGCCATATGGCGACCCGCCTTGTCCGCGGCTGGACCCACCTTGAAAGACAAAAGGGCGGGATCGGTTTGCGTGGCCCGGGTGAAACCCAGCTCGAAACTGACCGTCGTTTATTGCGTAACCGCATCATGCAGATCCTGTCGCGGCTGGAAAAAGTCGAAAAACAGCGTGAGCAGGGGCGGCGGTCGCGCGCGAAAGCCGATATTCCAACCGTGTCGCTGGTGGGCTACACCAACGCCGGAAAATCAACGCTCTTTAACCAGATCACCGCCGCCGAGGTCTATGCCGCGAACCAGCTGTTCGCGACCCTGGACCCGACGCTGCGCCGCATTGACGTCCCTGACGTCGGCGAAACGGTGCTGGCCGATACCGTCGGCTTTATTCGCCACCTGCCGCACGATCTGGTGGCCGCGTTTAAAGCGACGTTGCAGGAGACGCGTCAGGCGACGCTGCTGCTGCATGTGATTGACGCGGCGGATGTCCGCGTGCAGGAAAACATTGATGCGGTAAATACAGTTCTCGCTGAAATTGAGGCCGATGAGATCCCGGCGCTGCTGGTGATGAACAAAATCGACATGCTGGACGATTTTGAACCGCGCATCGATCGCGACGATGAAAATAAACCGATTCGGGTCTGGCTTTCCGCTCAGACCGGGGTTGGCGTACCACTGCTTTTTCAGGCGTTAACGGAGCGCCTTTCCGGTGAAGTGGCCCAGCATACGCTGCGATTACCGCCGAAAGAAGGGCGACTGAGAAGCCGTTTCTATCAGCTTCAGGCGATAGAAAAAGAGTGGATGGAGGATGACGGCAGCGTGAGTCTGCAGGTGCGCATGCCGATCGTTGACTGGCGGCGCCTCTGTAAGCAAGAGCCAACGCTTGTTGACTATGTGGTTTGA	MFDRYDAGEQAVLVHIYFSQDKDMEDLQEFETLASSAGVEAMQVITGSRKAPHPKYFVGEGKAVEIAEAVKATGASVVLFDHALSPAQERNLERLCECRVIDRTGLILDIFAQRARTHEGKLQVELAQLRHMATRLVRGWTHLERQKGGIGLRGPGETQLETDRRLLRNRIMQILSRLEKVEKQREQGRRSRAKADIPTVSLVGYTNAGKSTLFNQITAAEVYAANQLFATLDPTLRRIDVPDVGETVLADTVGFIRHLPHDLVAAFKATLQETRQATLLLHVIDAADVRVQENIDAVNTVLAEIEADEIPALLVMNKIDMLDDFEPRIDRDDENKPIRVWLSAQTGVGVPLLFQALTERLSGEVAQHTLRLPPKEGRLRSRFYQLQAIEKEWMEDDGSVSLQVRMPIVDWRRLCKQEPTLVDYVV	PGPT0007245_3103	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007245-hflX-K03665	NA	NA
BMS020_04826	309	hfq_1	COG1923	RNA-binding protein Hfq	ATGGCTAAGGGGCAATCTTTACAAGATCCGTTCCTGAACGCTTTGCGTCGGGAACGCGTTCCGGTTTCTATTTATTTGGTGAATGGTATCAAGCTGCAAGGGCAAATTGAGTCTTTCGATCAGTTCGTGATCCTGTTGAAGAACACGGTCAGCCAGATGGTCTATAAGCACGCAATTTCTACTGTTGTCCCGTCTCGCCCGGTGTCTCACCACAGCAACAATGCTGGCGGCGGTTCCAGTAACTATCACCACGGTGGTAGCGCGCAGGGCTCTTCTGCGCCACAACAAGACAGCGACGACGCCGAATAA	MAKGQSLQDPFLNALRRERVPVSIYLVNGIKLQGQIESFDQFVILLKNTVSQMVYKHAISTVVPSRPVSHHSNNAGGGSSNYHHGGSAQGSSAPQQDSDDAE	PGPT0025560_354	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
BMS020_04827	951	miaA_1	COG0324	tRNA dimethylallyltransferase	ATGAATGATGTAACCGAGGCGAGCCTGCCCAAGGCAATTTTTTTAATGGGCCCGACGGCCTCCGGCAAAACCGCGCTGGCGATAGCCTTACGTAAAGTTTTGCCAGTAGAGTTGATTAGTGTTGATTCCGCCCTCATTTATCGGGGAATGGATATTGGCACCGCCAAACCGGATGCCGCAGAGCTGAGCGCCGCGCCGCACCGGCTGCTGGATATTTTGGATCCTGCAGAGGCCTATTCCGCGGCGGATTTTCGCCGCGATGCGCTGGCGGCGATGGCGGAAATTGTCGCCGCCGGGCGAATTCCGCTGTTAGTCGGCGGGACGATGTTGTATTTCAAAGCGTTGCTGGAAGGATTGTCGCCCTTACCGTCCGCTGACCCAGAGGTCAGAGCGCGGATTGAGCAACAGGCCGCAGAGCAGGGGTGGAACGCGTTACATCAGCAGTTACAGGAGATCGATCCCGTAGCGGCTGCGCGTATTCATCCAAATGATCCGCAAAGGCTTTCCCGGGCACTGGAAGTTTTTTTCATTTCGGGTAAAACTTTAACGGAACTGACGCAAACGTCAGGAGACGCTCTGCCATATCAGGTGCATCAGTTCGCCATCGCCCCGGCGAGCCGTGAACTGCTCCATCAACGCATAGAACAGCGTTTTCATCAGATGTTAGCTTCAGGTTTTGAAGCAGAAGTACGGGCGCTTTTTGCCCGCGGAGATTTGCATACGGATATGCCTTCCATCCGTTGTGTCGGATACCGCCAGATGTGGTCATATCTCAATGGCGAGATCCCATATGATGAGATGGTTTATCGAGGTGTTTGCGCCACGAGACAGTTAGCCAAACGTCAGGTCACCTGGCTGCGCGGTTGGGAAGGTGTGCACTGGTTAGACAGTGAACAACCTGAACAAGCGCTCAACAAAGTATTACAGGTTGTTGGTGCGAGCCAGAACTGA	MNDVTEASLPKAIFLMGPTASGKTALAIALRKVLPVELISVDSALIYRGMDIGTAKPDAAELSAAPHRLLDILDPAEAYSAADFRRDALAAMAEIVAAGRIPLLVGGTMLYFKALLEGLSPLPSADPEVRARIEQQAAEQGWNALHQQLQEIDPVAAARIHPNDPQRLSRALEVFFISGKTLTELTQTSGDALPYQVHQFAIAPASRELLHQRIEQRFHQMLASGFEAEVRALFARGDLHTDMPSIRCVGYRQMWSYLNGEIPYDEMVYRGVCATRQLAKRQVTWLRGWEGVHWLDSEQPEQALNKVLQVVGASQN	PGPT0007210_2080	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0007210-miaA|ipt-K00791	NA	NA
BMS020_04828	1860	mutL_1	COG0323	DNA mismatch repair protein MutL	ATGCCGATTCAGGTTCTGCCGCCGCAGCTCGCCAACCAGATTGCCGCCGGCGAAGTGGTGGAACGGCCCGCGTCGGTGGTGAAAGAGCTGGTTGAAAACAGCCTTGATGCGGGCGCCACGCGAATTGATATTGATATCGAACGCGGCGGCGCGAAGCTCATTCGCATTCGCGATAACGGCTGCGGCATCAAAAAAGACGAGCTGGCGCTGGCCCTGGCTCGCCACGCGACCAGCAAAATCGCCTCGCTCGACGATCTCGAAGCCATTATCAGCCTCGGCTTTCGCGGCGAAGCGCTGGCCAGTATTAGCTCGGTGGCGCGTCTGACGCTCACCTCGCGCACGGCGGAACAGCAGGAAGCCTGGCAGGCGTATGCCGAAGGCCGCGATCAGGCGGTGACGGTGAAGCCGGCGGCGCACCCGGTCGGCACCACCCTGGAAGTCCTCGATCTGTTCTACAATACCCCGGCGCGGCGCAAATTTATGCGTACCGAAAAGACTGAGTTCGGCCACATTGACGAGGTGGTCCGCCGCATTGCGCTGGCGCGCTTCGACGTCACCATCAACCTCAGCCATAACGGCAAGGTGATGCGCCAGTATCGGGCAGTCGCTCAGGATGGCCAACGGGAGCGGCGGCTGGGAACCATCTGTGGCGCCGCCTTTCTTGAACATGCCCTGGCGATTGAGTGGCAGCATGGCGATCTGACCCTGCGCGGCTGGGTCGCCGATCCGCTGCATACCACCCCTGCGCTGGCGGAAATTCAGTATTGCTACGTTAACGGGCGGATGATGCGCGACCGGCTGATCAACCACGCTATCCGCCAGGCCTGTGAAGACAAGCTGGGGGCCGATCAGCAGCCGGCGTTTGTGCTGTATCTGGAGATCGATCCCCATCAGGTGGATGTGAACGTCCACCCGGCCAAGCATGAGGTGCGTTTCCATCAGTCGCGCCTGGTGCATGACTTTATCTACCAGGGCGTACTGAGCGTGCTGCAGCAGCAACTTGACGCGCCGCTGGCGGAAAAAGACGACCCGCCGGCGCCCCGTGCGATGCCGGAGAACCGGATCGCGGCGGGCGGCAACCAGTTTGCGCGGCCGTCGGAAGCGCGTGAACCGGCAACCCGTTTCAGCATCACGCCATCGCGTGAGTCTGCGGCCTCCAGCGGCAGGCCGGGCGGCGCGAGCTGGCCGCACGCGCAGCCGGGTTACCAGAAGCAGCAAGGGGCGCTTTATCGTCAGTTGCTCGACACGCCAACGGCGCCAAAGCCCGCGTTACAGACTCCGGCCACGGCGGAACTGGCCGGTCACAGCCAGAGCTTTGGCAGAGTGCTGACGATTGTGAGCCGCGACTGCGCGCTGCTGGAGCGCGAGGGCGGCCTGGCGCTGCTGTCGTTGACCGTTGCCGAGCGCTGGCTGCGCCAGGCGCAGTTGACCCCGGGAGCAGAGGCCGTCTGTGCCCAGCCGCTGCTGATCCCCCTGCGGTTAAAAGTGACGGAAGGGGAAAAACAGGCGCTGGCCGCCGCGCAGCCGGCGCTGACGCAGCTGGGGATCGATATGCATACCGATGCCCTGCACGTGACGGTGCGCGCAGTCCCTTTACCCTTAAGACAACAAAATTTACAAATCTTGATTCCTGAACTGATAGGCTACCTGGCGCAGCAAAACGCATTCGACGTCGGCAATATCGCCCAATGGATGGCGCGTAATCTGACGAGCGAACAGACGTCATGGAATATGGCGCAGGCGATTGCGCTGCTGGCGGACGTTGAGCGTCTTTGCCCGCAGCTGGTGAGAACGCCGCCGGGTGGCCTGTTACAACCTGTAGATCTCCATTCGGCGATGAATGCCCTGAAAGATGAATGA	MPIQVLPPQLANQIAAGEVVERPASVVKELVENSLDAGATRIDIDIERGGAKLIRIRDNGCGIKKDELALALARHATSKIASLDDLEAIISLGFRGEALASISSVARLTLTSRTAEQQEAWQAYAEGRDQAVTVKPAAHPVGTTLEVLDLFYNTPARRKFMRTEKTEFGHIDEVVRRIALARFDVTINLSHNGKVMRQYRAVAQDGQRERRLGTICGAAFLEHALAIEWQHGDLTLRGWVADPLHTTPALAEIQYCYVNGRMMRDRLINHAIRQACEDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVLQQQLDAPLAEKDDPPAPRAMPENRIAAGGNQFARPSEAREPATRFSITPSRESAASSGRPGGASWPHAQPGYQKQQGALYRQLLDTPTAPKPALQTPATAELAGHSQSFGRVLTIVSRDCALLEREGGLALLSLTVAERWLRQAQLTPGAEAVCAQPLLIPLRLKVTEGEKQALAAAQPALTQLGIDMHTDALHVTVRAVPLPLRQQNLQILIPELIGYLAQQNAFDVGNIAQWMARNLTSEQTSWNMAQAIALLADVERLCPQLVRTPPGGLLQPVDLHSAMNALKDE				NA	NA	NA	NA	NA
BMS020_04829	1359	amiB	COG0860	N-acetylmuramoyl-L-alanine amidase AmiB	ATGAAGTATCGCATAACCACCTGGCTTGCCGCTGCGCTGATGCTGTCGAGTCTTCACGCCACTGCGGCGAGTTTATCCGATATCCAGGTCTCCAACGGAGACCAGCAGGCCCGTATTACTCTTAGCTTTGTCGGTGAACCGGAGTATTCCTTTACCCCGCAGGGCAAACGACTGGTGGCGCTGGATATCAAGCAGACCGGCGTATTGCAGGGACTGCCGCTGAAATTTAGCGGCAGTAACCTTGTGAAGAGTATTCGCGCCGGTACGCCGCAGGATACGCAGACGCTGCGTCTGCTGGTGGATCTGACGGAAGATGGCAAAACCCGGGCGGTGAAGCAGCAGAACGGGGCGAATTACACGGTGGTCTTTACCATCAACGCCGACGCGCCACCGCCGCCACCGCCGCCGCCTCCTGTGGTGGTGAAACGGGCCGACCCGCCGCCGGTAATGCCTTCCCGGACGGCGACGGCGGGACGCAATCCGTTCAGCTCGTCGGGCCACGATCGGCAGACGGTGATGACCCCCTCTCAGCCGGCGATGACCAACAATCAGACCGTGACCCGTCCGGCGGCCCGCACGGTGTCGGCGCAGGATAAGGTGATTATCGCCATCGACGCCGGGCACGGCGGTCAGGATCCTGGCGCGATTGGTCCGAATGGCACCAAAGAGAAGAACGTGACTATCGCTATCGCGCGCAAGCTGCGGGCGCTGCTGAACGCCGATCCGCAGTTTAAACCGGTGCTGACCCGTGACGGGGATTACTTTATTTCGGTAATGGGGCGCTCGGATGTGGCGCGTAAGCAAAACGCCAACTTCCTCGTCTCAATCCATGCCGACGCCGCGCCAAACCGCGATGCCACCGGCGCCTCGGTATGGGTGCTCTCGAACCGTCGCGCCAACAGTGAAATGGCCGGCTGGCTGGAGCAGCATGAGAAGCAGTCTGAACTGCTCGGCGGCGCGGGCGATGTGCTGGCGAACAGCCAGGCCGATCCCTACCTGAGCCAGGCGGTGCTGGATCTGCAGTTCGGTCACTCCCAGCGTGTCGGCTACGATGTGGCGACCAACGTGCTCAGCCAGCTGCAGCGGATTGGCAATCTGCATAAGCGCCGTCCTGAGCATGCCAGCCTCGGCGTACTGCGCTCGCCGGACATTCCGTCGATCCTCGTGGAAACAGGCTTTATCAGTAACAACGGGGAAGAACGGCTGCTGGGGAGCGATGATTACCAGGAGCAGATTGCGGAGGCGATTTACAACGGTCTGCGCAACTACTTTATGCAGCATCCGCTGCAGTCTGCGCCTCGCGGCGAGGCGGCGCAGACCGCCAGCGCCGCAGCGCCAGGCGGGATGTTGATTAACTAA	MKYRITTWLAAALMLSSLHATAASLSDIQVSNGDQQARITLSFVGEPEYSFTPQGKRLVALDIKQTGVLQGLPLKFSGSNLVKSIRAGTPQDTQTLRLLVDLTEDGKTRAVKQQNGANYTVVFTINADAPPPPPPPPPVVVKRADPPPVMPSRTATAGRNPFSSSGHDRQTVMTPSQPAMTNNQTVTRPAARTVSAQDKVIIAIDAGHGGQDPGAIGPNGTKEKNVTIAIARKLRALLNADPQFKPVLTRDGDYFISVMGRSDVARKQNANFLVSIHADAAPNRDATGASVWVLSNRRANSEMAGWLEQHEKQSELLGGAGDVLANSQADPYLSQAVLDLQFGHSQRVGYDVATNVLSQLQRIGNLHKRRPEHASLGVLRSPDIPSILVETGFISNNGEERLLGSDDYQEQIAEAIYNGLRNYFMQHPLQSAPRGEAAQTASAAAPGGMLIN	PGPT0024160_2155	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
BMS020_04830	462	tsaE_1	COG0802	tRNA threonylcarbamoyladenosine biosynthesis protein TsaE	ATGATTAACCGAGTGATTCCTTTACCCGATGAGCAGGCCACGCTGGCCCTGGGCGACCGTATTGCGCAGGCCTGTACCGGCGCCACCGTGATTTACCTGTATGGTGACTTAGGCGCGGGGAAAACCACCTTTAGCCGCGGCTTTTTACAGGCGCTCGGTCACCGCGGCAATGTCAAAAGCCCAACCTATACCCTGGTGGAGCCGTACACCCTCGACAAACTGATGGTGTATCACTTCGATCTCTACCGCCTGGCGGATCCTGAGGAGCTGGAATTTATGGGGATCCGCGATTATTTTGCCGACGATGCCATCTGCCTGGTGGAATGGCCGCAGCAAGGCGCAGGTGTCCTGCCTGACCCGGATGTTGAAATTCACCTTGATTACCAGGCACAAGGGCGTGAGGCGCGCATGACCGCGATCTCCTCACGGGGTGAATCTTTACTGGCGCGTTTAGCCATTTAG	MINRVIPLPDEQATLALGDRIAQACTGATVIYLYGDLGAGKTTFSRGFLQALGHRGNVKSPTYTLVEPYTLDKLMVYHFDLYRLADPEELEFMGIRDYFADDAICLVEWPQQGAGVLPDPDVEIHLDYQAQGREARMTAISSRGESLLARLAI	PGPT0019050_161	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
BMS020_04831	1512	nnr_1	COG0062	Bifunctional NAD(P)H-hydrate repair enzyme Nnr	ATGACGAAAAACCCTGACAGTATACCATACAACATTTGGCCTGCGGAGGCGCTGCGCCTGGCCGAACGAGAGGCGGCGGACAGCCTGGGACTGACGCTGTTTGAACTGATGCAGCGCGCGGGCGAGGCGGCGTTCCAGCTGGCCAGCCGCGCTTTTCCTGACAGCGCGCACTGGCTGATCCTTTGCGGGCATGGCAACAACGGCGGCGACGGATATGTCGTCGCGCGTCTGGCCCAGGCCGCCGGGCGGCGGGTGACGCTGCTGGCGGTGGAGAGTGACAACCCGCTACCGGAAGAGGCGCAGGCGGCGCGGGAGGCATGGCTTAACGCCGGCGGCGTGATCCATGCGGACACTGTCCCCTGGCCAGACGATATCTCACTGATTATTGACGGCCTGCTTGGCACCGGGTTGCGCAGTGCGCCGCGCGAATCCATCGTGGCGCTCATCCACCAGGCGAACCACCATCCTGCGCCTGTGGTGGCTCTGGATATCCCTTCCGGCCTCAATGCGCAGACCGGCGCGACGCCGGGGGCGGTCATTCAGGCCGACCATACGCTGACGTTTATTGCGCTCAAGCCGGGGCTGCTGACCGGCAAGGCGCGGGATGTCGTCGGGCAGCTCCACCATCATGCGCTGGGGCTTGAGCGCTGGCTCGCCGGACAAAGTACCCCCCTGACGCGATTTTGCGCCGCCCACCTTGCCGACTGGCTGCCGCCGCGCCGGGCTACCTCCCATAAGGGCGATCACGGCAAGCTGGCGATCGTCGGCGGCGATCGCGGCACGGCAGGCGCGATTCGCATGTGCGGTGAAGCGGCTTTACGCGCTGGCGCAGGGCTGGTGCGAGTGCTCACTCACCCTGAGAATGTGGCGCCCATTGTCACCGCCCGGCCGGAATTAATGGTGGATGAGCTGACGCCGCAGACCCTGAAAGCCGCGCTGGAATGGGCGGATGTGGTGGCGATTGGCCCGGGACTGGGGCAGAACGAGTGGGGACGCAGCGCCCTGCGCATGGTGGAAAGTGTTAACAAACCGATGGTCTGGGACGCAGACGCGCTGAACCTGCTGGCATTCAATCCCGATAAACGTCACAATCGCGTGCTGACGCCGCACCCCGGCGAAGCGGCCCGTCTGCTGAACGTCAGCGTGGCAGAAATTGAAAGCGATCGCTTACTTTCTGCGCAGCGTCTGGTAAAACGGTATGGCGGCGTGGTCGTGCTGAAAGGCGCGGGCACGGTGGTGGCCAGTGAAAGCGGGGCGATGGGCATTATCGACGCCGGCAATGCCGGGATGGCCAGCGGCGGAATGGGCGATGTGCTCACTGGCATTATCGCCGCATTGTTAGGACAGCACCTGACGCCGTATGATGCTGCCTGTGCCGGGTGCGTCGCGCATGGCGATGCCGCCGACCGACTGGCCGCCCGCGAGGGCACCCGCGGCATGCTGGCGACCGATCTCTTTTCCACGCTCAGGCGTGTTGTTAACCCGGATGTGATTGACGTAGACCATGATTAA	MTKNPDSIPYNIWPAEALRLAEREAADSLGLTLFELMQRAGEAAFQLASRAFPDSAHWLILCGHGNNGGDGYVVARLAQAAGRRVTLLAVESDNPLPEEAQAAREAWLNAGGVIHADTVPWPDDISLIIDGLLGTGLRSAPRESIVALIHQANHHPAPVVALDIPSGLNAQTGATPGAVIQADHTLTFIALKPGLLTGKARDVVGQLHHHALGLERWLAGQSTPLTRFCAAHLADWLPPRRATSHKGDHGKLAIVGGDRGTAGAIRMCGEAALRAGAGLVRVLTHPENVAPIVTARPELMVDELTPQTLKAALEWADVVAIGPGLGQNEWGRSALRMVESVNKPMVWDADALNLLAFNPDKRHNRVLTPHPGEAARLLNVSVAEIESDRLLSAQRLVKRYGGVVVLKGAGTVVASESGAMGIIDAGNAGMASGGMGDVLTGIIAALLGQHLTPYDAACAGCVAHGDAADRLAAREGTRGMLATDLFSTLRRVVNPDVIDVDHD				NA	NA	NA	NA	NA
BMS020_04832	1140	queG_1		Epoxyqueuosine reductase	ATGTCACAGCCCCTCGATCTCGTTCAGTTAGCGCAACAAATCAAACAATGGGGCACAGAGCTCGGGTTCCAGCAGGTCGGTATCGCCGATACCGACCTTAGCGCCAGTGAACCCAAACTGCAGGCATGGCTGGATAAACAATACCACGGCGAAATGGAGTGGATGGCCCGTCACGGTATGATGCGCGCCCGCCCCCACGAACTGCTGCCCGGTACGTTACGCGTCATCAGCGTGCGGATGAACTATCTGCCCGCCAACGCCGCCTTTGCCCGCACCCTGAAAGATCCCGCGCTGGGTTACGTCAGCCGTTATGCCCTTGGGCGTGATTATCATAAGCTGCTACGTAATCGCCTGAAAAAACTGGGTGAGAAGATTCAGGAACAGTGTGCTTCGCTCAATTTTAGACCTTTTGTCGATTCCGCGCCTATCCTGGAGCGGCCCATCGCAGAAAAAGCGGGCCTTGGATGGACAGGTAAGCACTCACTTATCTTAAGCCGCGACGCCGGCTCCTTCTTTTTCCTCGGCGAACTGCTGATTGACCTGCCCTTGCCGGTCGACAGCCCGGTCGCGGAGGAGTGTGGACGCTGCGTCGCATGCATGACCATCTGCCCCACCGGGGCCATCGTCGAGCCCTATACCGTCGACGCCCGCCGCTGCATCTCCTATCTCACCATCGAACTGGAAGGCGCGATCCCGGAGGAATTCCGTCCGCTCATCGGCAACCGGATCTATGGCTGTGACGACTGCCAGCTCATTTGCCCGTGGAACCGTTTCTCACAGCTCACCGATGAAGAGGATTTCAGTCCGCGCCAGGCGCTGCATGCCCCGCCGCTGGTGGAGCTGTTCGCCTGGAGCGAAGCGTGGTTTCTGAAGGTGACCGAAGGGTCGGCGATTCGTCGCATTGGTCACCTGCGCTGGCTGCGTAATATCGCCGTCGCGCTGGGTAATGCGCCCTGGGATGAAGCCCATCTTCGCGCGCTGGAGAGTCGCCTGGGCGAGCACCCGCTTCTCGACGAACACATTGAGTGGGCGATGGCCCAGCAGCTGAAAAAACGGAGCGCCGACGCCGTTGAAGTACAGCTGCCGAAAAAATTACGTCTGGTCAGGGTGGTAGAGAAAGGGCTGCCGCGCGACGCCTGA	MSQPLDLVQLAQQIKQWGTELGFQQVGIADTDLSASEPKLQAWLDKQYHGEMEWMARHGMMRARPHELLPGTLRVISVRMNYLPANAAFARTLKDPALGYVSRYALGRDYHKLLRNRLKKLGEKIQEQCASLNFRPFVDSAPILERPIAEKAGLGWTGKHSLILSRDAGSFFFLGELLIDLPLPVDSPVAEECGRCVACMTICPTGAIVEPYTVDARRCISYLTIELEGAIPEEFRPLIGNRIYGCDDCQLICPWNRFSQLTDEEDFSPRQALHAPPLVELFAWSEAWFLKVTEGSAIRRIGHLRWLRNIAVALGNAPWDEAHLRALESRLGEHPLLDEHIEWAMAQQLKKRSADAVEVQLPKKLRLVRVVEKGLPRDA				NA	NA	NA	NA	NA
BMS020_04836	732	artJ_2	COG0834	ABC transporter arginine-binding protein 1	ATGAGAAAAGTCCTCACCGTCCTGCTGCTGAGCACGCTGGCCATCGGAACCGCGTCAGCCGAGACGCTCCATTTTGGCACCAGCACGGCCAATCCGCCGTTTGTCACCGCCAACGGCAAAAATCAGCCTGTCGGCTTCGATATCGATCTTGCCCAGGCCCTGTGCCAGCAGATGCAGGCGCAGTGCCAGTTCACGGCGCAGCGTTTCGATACGCTGATCCCGGCTTTACGCTTCAAGAAATTTGACGCGGTGATTGCCGGCATGGAAGTGATCCCGATGCGTGAGAAGCAGGTCGCCTTCAGCCGTCCCTATCGCCAGGCGCTCTCCGGGGTGGTGATCGTCAACAAAGATGTCGCCCATACCTTTGCCGACCTGAAAGCCAAAAAAGTCGGCGTGGTGAAAGGCACACTGCATCAACACTATCTGCGTGATAAACAGAAAGCCGTACAGGCTGTTCCTTACGACGACGTCGCCAGCGCCCTGGCCGCGCTGAAGGCCGGGCAAATAACCGGCGTCATGGGCGACTTTGCCACCCTCGACGCCTGGCAGCAGGAGAACCCTGACTACGCCATCATGGATGAACGTGCCACCGACCCGGCTTATTACGGTAAGCAGTATGCAATTGCGGTGCGCAAAGACGATCCGGAGCTACTGAATGCGATCAACGATGCCCTGACCGCGGTCATGGCGACGCCTGACTTCCAGCAGATGCAGCAGAAGTGGTTTAAATAA	MRKVLTVLLLSTLAIGTASAETLHFGTSTANPPFVTANGKNQPVGFDIDLAQALCQQMQAQCQFTAQRFDTLIPALRFKKFDAVIAGMEVIPMREKQVAFSRPYRQALSGVVIVNKDVAHTFADLKAKKVGVVKGTLHQHYLRDKQKAVQAVPYDDVASALAALKAGQITGVMGDFATLDAWQQENPDYAIMDERATDPAYYGKQYAIAVRKDDPELLNAINDALTAVMATPDFQQMQQKWFK	PGPT0020655_229	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020655-artJ-K09996	NA	NA
BMS020_04837	546	orn_1	COG1949	Oligoribonuclease	ATGAGTGCAAATGAAAACAACCTCATTTGGATCGATCTTGAGATGACAGGGCTGGATCCGGAGCGCGATCGCATTATTGAAATCGCCACCCTGGTGACCGATGCCAACCTGAACATTCTGGCCGAGGGGCCGACCATCGCGGTGCATCAATCGGATGCCCAGCTGGCGCTGATGGACGAGTGGAATGTGCGGACGCATACCGGCAGCGGGCTGGTGGATCGCGTGAAGGCCAGCGCCGTCAGCGAGCACGACGCCGAACTGGCGACCATTGAGTTTCTTAAGCAGTGGGTGCCGGCGGGCAAGTCGCCGATCTGCGGCAACAGCATCGGCCAGGATCGTCGCTTCCTGTTTAAGTACATGCCGCAACTGGAAGCCTATTTCCACTATCGCTATCTGGACGTTAGCACGCTGAAAGAGCTGGCGCGTCGCTGGAAGCCGGAAATTCTCGACGGCTTTAAAAAGCAGGGTACCCATCAGGCGATGGACGATATCCGCGAGTCAGTCGCCGAGCTGGCTTACTACCGCGAGCATTTCATTAAGCTGTAA	MSANENNLIWIDLEMTGLDPERDRIIEIATLVTDANLNILAEGPTIAVHQSDAQLALMDEWNVRTHTGSGLVDRVKASAVSEHDAELATIEFLKQWVPAGKSPICGNSIGQDRRFLFKYMPQLEAYFHYRYLDVSTLKELARRWKPEILDGFKKQGTHQAMDDIRESVAELAYYREHFIKL	PGPT0020150_39	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953	NA	NA
BMS020_04838	1062	rsgA	COG1162	Small ribosomal subunit biogenesis GTPase RsgA	TTGAGTAAAAATAAACTCTCCAAAGGCCAGCAGCGCCGCGTCAAAGCCAACCACCAGCGCCGTCTGAAAACCACTGCGGAGAAGGCCGACTACGATGACAACCTGTTTGGCGACACGTCGGAAGGCATTGTCATCAGTCGCTTTGGCATGCATGCCGACGTCGAATCCGCTGACGGCAGCGTGCATCGCTGCAATATCCGCCGGACGATCCGTTCGCTGGTCACCGGCGACCGCGTGGTCTGGCGGCCGGGTAAAGACGCCGCCGACGGCGTAAGCGTCAAAGGGATCGTCGAAGCGGTTCACGATCGCGCCTCCGTCCTGACGCGCCCGGATTTTTACGACGGCGTGAAGCCTATCGCCGCCAATATCGACCAGATCGTGGTAGTTTCCGCGATCCTGCCTGAGCTGTCGCTGAATATTATCGATCGCTATCTGGTGGCCTGCGAGGCGCAGGATATCGAGCCGTTAATTGTCCTGAACAAAATCGATCTGCTGGATGACGATGGCCTGCGCTTCGTCAATGAGCAAATGGACATCTACCGCAACATCGGTTACCGCGTACTGCTGGTCTCCAGCCGTACTCAGGACGGCCTCAAGCCGCTGGAAGCGGCCCTGACCGACCGCATCAGCATCTTCGCCGGGCAGTCCGGGGTGGGTAAATCAAGCCTGCTGAACGCCCTGCTGGGGCTGAATGAGGATCAGATCCTCACCAATGATGTCTCGGACGTTTCCGGCTTAGGCCAGCACACCACCACCGCGGCGCGCCTCTACCACTTCCCGCACGGCGGCGATGTGATTGATTCACCGGGGGTACGTGAGTTCGGCCTGTGGCATCTGGAAGCGGAACAAATCACCAACGGCTTTGTCGAATTCCATGATTATTTAGGCCGTTGCAAATATCGCGACTGTAAACACGATACCGATCCTGGCTGTGCGCTTCGCGAAGCGGTAGAGAGCGGCAAAATCGCCGAAAGCCGTTTCGAGAACTACCACCGAATCCTGGAAAGCATGGCGCAGGTACAGGTAAAAACGCGTAAAAACTTTTCCTCGACCGATGACTGA	MSKNKLSKGQQRRVKANHQRRLKTTAEKADYDDNLFGDTSEGIVISRFGMHADVESADGSVHRCNIRRTIRSLVTGDRVVWRPGKDAADGVSVKGIVEAVHDRASVLTRPDFYDGVKPIAANIDQIVVVSAILPELSLNIIDRYLVACEAQDIEPLIVLNKIDLLDDDGLRFVNEQMDIYRNIGYRVLLVSSRTQDGLKPLEAALTDRISIFAGQSGVGKSSLLNALLGLNEDQILTNDVSDVSGLGQHTTTAARLYHFPHGGDVIDSPGVREFGLWHLEAEQITNGFVEFHDYLGRCKYRDCKHDTDPGCALREAVESGKIAESRFENYHRILESMAQVQVKTRKNFSSTDD	PGPT0009020_1221	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
BMS020_04839	963	psd_1	COG0688	Phosphatidylserine decarboxylase proenzyme	TTGTTAAACGATCTTAAACTTTCACTGCAATACATTCTGCCTAAACTGTGGCTCACCCGCCTCGCAGGCTGGGGTGCGAGCAAACGCGCAGGTTGGCTGACGAAGCTGGTCATCGATCTGTTCGTGAAATACTACAAGGTCGATATGAAAGAGGCGCAGAAGCCGGATACCGCGGCCTATCGCACCTTCAACGATTTCTTTGTGCGCCCGCTGCGCGACGACGTTCGCCCGCTGAATACCGATCCTAACGTACTGGTGATGCCGGCCGACGGCGTGATCAGCCAGCTTGGTGCCATTGAGAACGATAAAATTCTGCAGGCCAAAGGCCACGACTACAGCCTGGAAGCCTTACTGGCCGGCAACTACCAGATGGCCGACCTGTTCCGTAACGGCAGCTTCGCCACCACCTATCTGTCGCCGCGCGACTATCACCGCGTGCACATGCCGTGCAACGGTATCCTGCGCGAAATGATCTACGTTCCTGGCGACCTGTTCTCCGTTAACCATCTGACGGCGCAGAACGTGCCGAACCTGTTCGCCCGTAACGAGCGCGTCATCTGCCTGTTTGATACTGAGTTTGGCCCGATGGCGCAAATTCTGGTGGGTGCGACTATCGTCGGCAGCATCGAGACCGTGTGGTCCGGCACCGTAACCCCGCCGCGCGAAGGTATTATTAAACGCTGGACCTGGCCCGCTGGCGACAGCGAAGGCTCCGTCGCCCTGCTGAAAGGCCAGGAGATGGGCCGCTTCAAACTGGGCTCCACCGTGATCAACCTGTTTGCCCCGGGCCAGGTGAAGCTGGTCGACACGCTGCAAAGCCTGTCCGTGACTAAAATCGGCCAACCGCTGGCGACAACGGTGGAAGTAACCACCGCCGCTGAACCGGCGCCGTTACCGGAAGAAGAGATCCGCGCCGAACATCGCGCCAGCCCGCTGGTTGACGATAAACAAGACCAAGGTTAA	MLNDLKLSLQYILPKLWLTRLAGWGASKRAGWLTKLVIDLFVKYYKVDMKEAQKPDTAAYRTFNDFFVRPLRDDVRPLNTDPNVLVMPADGVISQLGAIENDKILQAKGHDYSLEALLAGNYQMADLFRNGSFATTYLSPRDYHRVHMPCNGILREMIYVPGDLFSVNHLTAQNVPNLFARNERVICLFDTEFGPMAQILVGATIVGSIETVWSGTVTPPREGIIKRWTWPAGDSEGSVALLKGQEMGRFKLGSTVINLFAPGQVKLVDTLQSLSVTKIGQPLATTVEVTTAAEPAPLPEEEIRAEHRASPLVDDKQDQG	PGPT0007700_1380	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DECARBOXYLASE_ACTIVITY,PGPT0007700-psd|PISD-K01613	NA	NA
BMS020_04840	3330	mscM	COG3264	Miniconductance mechanosensitive channel MscM	GTGCGCCTGATATACACTTTCCTGTTGGCCTTGAGCCTCAGTTTCGGGGCGTACGCTGCGACAGCCCCGGATGCTAAACAGATAACCCAGGAACTGGAACAGGCGAAGGCGGCAAAGCCCGCCCAGCCTGAAACCGTTGAAGTTCTGCAGTCCGCCCTGAACGCGCTTGAGGAGCGAAAATCGTCTCTCGAGCGCGCCCGTCAGTATCAGGACGTTATCGACAATTTCCCCAAACTGTTTCAAAGCCTGCGTGCCCAGCTCAACAATCTGAGCGAAGAGCCGCGCCAGGTGCCAGTCGGCCTGACCGCCGATGCGCTGAACCAGGAGATCCTCCAGGTCAGCAGCCAGCTGCTGGAGTCAAGCCGTCAGGCGCAGCAGGAGCAGGATCGCGCGCGTGAAATCGCCGACTCCCTGAACCAGCTGCCGCAGCAGCAAACCGACGCCCGGCGTCAGCTCAATGAGGTTGAGCGCCGCATCGGCACGCAAACCGGCAACAATGCTCTCGCCCAGGCGCAAAATCTTGCCCTGCAGGCGGAATCGGCGCGCCTGAAGGCGCTGGTGGATGAGCTCGACCTCGCCCAGCTTTCCGCCAATAACCGCCAGGAGCTGTCGCGCGCCCGTTCTGAACTGGCGCAAAAGCAGAGCGAGCAGCTGGATGCCTATCTGCAGGCGCTGCGTAATCTGCAGAACAGCCAGCGCCAGCGAGAGGCGGAAAAAGCGCTGGAGAGTACCGAACTGCTGGCGGAGAACAGTGAAAACCTGCCGCCGGACATCACCGCCCAGTTTAAAGTCAACCGCGAACTCTCCCAGGCGCTGAACCAGCAGGCGCAGCGTATGGATCTGGTGGCGTCCCAGCAGCGGCAGGCGACGAATCAAACGCTGCAGGTGCGCCAGGCGTTAAACACCCTGCGCGAGCAGTCGCAGTGGCTGGGCTCCTCCAATCTGCTGGGCGAAGCCCTGCGCGCCCAGGTGGCGCGGCTGCCGGAGCGCCCTCGCCCGCAGCAGCTGGATACGGAAATGGCGCAGCTGCGCGTGCAGCGTCTGCGCTTTGAGGATTTACTCAGTAAGCAGCCGCAGCTGCGGCAGATCCGTCAGGCCGACGGCGAACCGCTGACCAGCGAGCAGAACAAGATCCTGCAGGCGCAGCTACGCACGCAGAACGAGCTACTGAACTCGCTGCTGCGCGGCGGCGATACCCTGATGCTGGAGCTCACCAAGCTGAAGGTCGCCAACGGCCAGCTGGAAGACGCGCTGAAGGAGATCAACGAAGCTACCCACCGCTATCTGTTCTGGACTTCGGACGTCAGCCCCATCGGCTTCTCCTGGCCGCTGGAGATCGTCCAGGATCTGCGGCGCCTGATCTCCCTGGATACCATCAGCGAGCTGGGTAAAGCCAGCGCGATGATGCTCACCAGCAAAGAGACCCTGCTACCGCTGTTTGCCGCCCTGCTGCTGGTTGGCTTCAGCATCAGCTCCAGGCGCCATTTCACCCGCTTCCTTGAGCGCTCCAGCGCTCGGGTGGGGAAAGTCACCCAGGATCACTTCTGGCTGACGCTGCGCACGGTCTTCTGGTCGATACTGGTGGCTTCGCCGCTGCCGGTGCTGTGGATGACGCTCGGCTATGGTCTGCAGTCCGCCTGGCCCTTCCCGCTGGCGGTGGCGATTGGCGATGGGGTCACCGCGACGGTGCCTCTGCTGTGGGTGGTGATGATCTGCGCCACCTTCGCCCGGCCAAACGGGCTGTTTATCGCCCACTTCGGCTGGCCGCGTAACCGCGTGGCGAAAGCGATGCGCTACTACCTGATGAGCATCGGACTGATTGTGCCGCTGATAATGGCGCTGATCATGTTCGATAATCTTAACGACCGCGAGTTCTCCGCCTCGCTGGGCCGCCTGTGCTTCCTGCTGATCTGCGGCGCGCTGGCGGTGGTCACCCTCAGCCTTAAGCATGCCGGCATCCCGCTCTACCTGGATAAAGAGGGGAATGGCGACAACATGGTGAACCGCCTGCTGTGGAACCTGATGCTTGGCGCCCCGCTGGTGGCCATGCTGGCGGCCGCCGTCGGCTACCTCGCCACCGCTCAGGCGCTGCTGGCGCGTCTGGAAACCTCCGTCGCCATCTGGTTCCTGCTGCTGGTGGTCTATCACATTATCCGCCGCTGGATGCTGATCCAGCGGCGCCGACTGGCCTTCGACCGGGCCCGCCATCGTCGCGCGGAAATTCTCGCCCAGCGCGCCCGCGGCGAAGATGAGCCTGTTCACGTCAGCAGCCCGGAAGGATCGGTGGAGACGGAGGTCAGCGAGGTCGATCTCGATGCCATCAGTACCCAGTCGCTGCGTCTCGTGCGCTCTCTGCTGATGCTGATCGCGCTGCTGTCAGTCATCGTGCTGTGGTCGGAAATTCACTCGGCGTTTGGCTTCCTTGAGAATATCTCGTTGTGGGACGTCACCTCGACGGTGCAGGGGGTGGAAAGCCTCGAGCCCATCACCCTTGGCGCAGTGCTGATTGCCATTCTGGTGCTGATCATCACCACTCAGCTGGTGCGCAACCTGCCGGCGCTGCTGGAGCTGGCGATCCTCCAGCACCTCGATTTAACGCCCGGCACCGGCTACGCCATCACCACCATCACCAAGTATTTGCTGATGCTGATCGGTGGGCTGGTGGGCTTCTCGATGATTGGCATTGAGTGGTCGAAGCTGCAGTGGCTGGTCGCCGCGCTGGGTGTGGGTCTCGGGTTTGGCCTGCAGGAGATCTTCGCTAACTTTATCTCCGGCCTGATTATCCTGTTTGAAAAGCCGATCCGCATCGGCGATACGGTCACCATCCGCGACCTGACGGGCAGCGTCACCCGCATCAATACCCGCGCCACCACCATCAGCGACTGGGACCGGAAAGAGATTATCGTGCCGAACAAGGCGTTCATCACCGAACAGTTTATCAACTGGTCGCTGTCGGACTCGGTCACCCGCGTGGTGTTGACGGTGCCGGCTCCGGTGGACGCCGATACCGAAGAGGTGACCAAGATCCTCATCGCCGCGGCGCATCGCTGTTCGCTGGTCATCGATACCCCGGCGCCGGAGGCGTTTCTCGTCGACCTGCAGCAGGGGATCCAGATTTTCGAGCTGCGTATTTTTGCCGCCGAGATGGGGCACCGCATGCCGCTACGCCATGAGATGCATCAGCTGATCCTGGCGGGCTTCCGCGAGCATGGCATTGATATGCCGTTCCCTCCGTTCCAGATGCGGCTGGAAAGTATCGACGGCAGGCAAAGCAGTAAAACCATGACCTCGGCCGGGAAAACCAGCCGACGTACGGCTGGCAGCCTGTAG	MRLIYTFLLALSLSFGAYAATAPDAKQITQELEQAKAAKPAQPETVEVLQSALNALEERKSSLERARQYQDVIDNFPKLFQSLRAQLNNLSEEPRQVPVGLTADALNQEILQVSSQLLESSRQAQQEQDRAREIADSLNQLPQQQTDARRQLNEVERRIGTQTGNNALAQAQNLALQAESARLKALVDELDLAQLSANNRQELSRARSELAQKQSEQLDAYLQALRNLQNSQRQREAEKALESTELLAENSENLPPDITAQFKVNRELSQALNQQAQRMDLVASQQRQATNQTLQVRQALNTLREQSQWLGSSNLLGEALRAQVARLPERPRPQQLDTEMAQLRVQRLRFEDLLSKQPQLRQIRQADGEPLTSEQNKILQAQLRTQNELLNSLLRGGDTLMLELTKLKVANGQLEDALKEINEATHRYLFWTSDVSPIGFSWPLEIVQDLRRLISLDTISELGKASAMMLTSKETLLPLFAALLLVGFSISSRRHFTRFLERSSARVGKVTQDHFWLTLRTVFWSILVASPLPVLWMTLGYGLQSAWPFPLAVAIGDGVTATVPLLWVVMICATFARPNGLFIAHFGWPRNRVAKAMRYYLMSIGLIVPLIMALIMFDNLNDREFSASLGRLCFLLICGALAVVTLSLKHAGIPLYLDKEGNGDNMVNRLLWNLMLGAPLVAMLAAAVGYLATAQALLARLETSVAIWFLLLVVYHIIRRWMLIQRRRLAFDRARHRRAEILAQRARGEDEPVHVSSPEGSVETEVSEVDLDAISTQSLRLVRSLLMLIALLSVIVLWSEIHSAFGFLENISLWDVTSTVQGVESLEPITLGAVLIAILVLIITTQLVRNLPALLELAILQHLDLTPGTGYAITTITKYLLMLIGGLVGFSMIGIEWSKLQWLVAALGVGLGFGLQEIFANFISGLIILFEKPIRIGDTVTIRDLTGSVTRINTRATTISDWDRKEIIVPNKAFITEQFINWSLSDSVTRVVLTVPAPVDADTEEVTKILIAAAHRCSLVIDTPAPEAFLVDLQQGIQIFELRIFAAEMGHRMPLRHEMHQLILAGFREHGIDMPFPPFQMRLESIDGRQSSKTMTSAGKTSRRTAGSL	PGPT0013772_157	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013772-mscM|bspA|yjeP-K22051	NA	NA
BMS020_04841	1503	yjeM		Inner membrane transporter YjeM	ATGCATCAACAACTCAAGAAGATGAGCCTGATTGGGCTGATTCTGATGATCTTCACTTCGGTGTTTGGCTTTGCCAACAGCCCGTCGGCGTTTTATCTGATGGGCTACAGCGCTATGCCGTTTTATCTTTTTTCCGCACTCTTTTTCTTCATTCCGTTTGCGCTGATGATGGCGGAGATGGGCTCAGCCTTTCGTCGGGAAGAGGGCGGCATTTACTCCTGGATGAACCACAGCGTCGGGCCGCGCTTTGCGTTTATCGGCACCTTTATGTGGTTTGCGTCGTACATCGTCTGGATGGTGAGTACCGCGGCTAAGATCTGGGTGCCGCTATCTACCTTTTTGTTTGGCGCCGACAAAACCCAAAGCTGGGCGCTGGGTAGCCTGACCCCGACGCAGACGGTGGGCATTCTGGCGGCCTGCTGGATGGTCGTCGTGACCTTTATTGCCGTCAAAGGGATCAATAAAATCGCCAGGATCACCGCCGTCGGCGGTATCGCGGTGATGGGGCTTAATCTGGTGCTGCTGCTGGTGAGCGGGGCGATCCTGCTGCTCAACGGCGGCCATTTCGCCCAACCGTTAAACTTCGCCCTTTCGCCTAATCCGGGCTATCAGTCGGGTATGGCAATGCTGTCATTTGTGGTATTTGCCATCTTCGCCTATGGCGGAATTGAGGCAGTCGGCGGCTTAGTGGATAAAACCGATAAACCGGAAAAGAACTTTGCCAAAGGGATTATTATCGCGGCGATCGTGATCTCGGTTGGTTATTCGCTGGCGATTGTGCTGTGGGGCGTGAGCGCTAACTGGCAGCAGGTGCTCGGTGCGCGTTCAACCAACCTCGGCAACATCACCTATGTGCTGATGACCAGCCTCGGGAACACGCTCGGCCAGGCTCTGCACATGACGCCAGAGGCGGCAGCCCTCACCGGGATCTGGTTCGCCCGTATTACCGGGCTGTCGATGTTTCTCGCCTATACCGGCGCGTTTTTCACTCTCAGCTATTCGCCGCTGAAAGCGATTATCCAGGGCACGCCAAAAGCGCTCTGGCCATCGGTGATGACCCGTCTCAACGTTAATGGTATGCCCGCCGCGGCGATGTGGCTGCAGTGTTTGCTGGTCGGGGTGTTTATTATCATGGTGTCGTTCGGTGGGGACAGCGCTTCCGCGTTTTATAACAAGCTGACGCTGATGGCCAATGTCTCCATGACTTTGCCTTACCTGTTCCTGACCATCGCCTTCCCGTTCTTCAAGTCAAAAGCGCATCTCGATCGGCCGTTCGTGATTTTCAAAAACCGCCAGTCGACGCTGCTGGCGACCGGCGTGGTGCTACTGGTGGTGACTTTCGCCAATATCTTCACCATTATTCAGCCGGTCATCGACAGCGGGGACTGGAACAGCACGCTGTGGATGGTCGGCGGGCCGATCTTCTTCTCGCTGCTGGCGTTGGCCATTTACGAAAGCTACCGTCGGCGCCTGGCGTCCGGTGTGCTGGTAATGGAGAGCTAG	MHQQLKKMSLIGLILMIFTSVFGFANSPSAFYLMGYSAMPFYLFSALFFFIPFALMMAEMGSAFRREEGGIYSWMNHSVGPRFAFIGTFMWFASYIVWMVSTAAKIWVPLSTFLFGADKTQSWALGSLTPTQTVGILAACWMVVVTFIAVKGINKIARITAVGGIAVMGLNLVLLLVSGAILLLNGGHFAQPLNFALSPNPGYQSGMAMLSFVVFAIFAYGGIEAVGGLVDKTDKPEKNFAKGIIIAAIVISVGYSLAIVLWGVSANWQQVLGARSTNLGNITYVLMTSLGNTLGQALHMTPEAAALTGIWFARITGLSMFLAYTGAFFTLSYSPLKAIIQGTPKALWPSVMTRLNVNGMPAAAMWLQCLLVGVFIIMVSFGGDSASAFYNKLTLMANVSMTLPYLFLTIAFPFFKSKAHLDRPFVIFKNRQSTLLATGVVLLVVTFANIFTIIQPVIDSGDWNSTLWMVGGPIFFSLLALAIYESYRRRLASGVLVMES				NA	NA	NA	NA	NA
BMS020_04842	978	epmA_1	COG2269	Elongation factor P--(R)-beta-lysine ligase	ATGAGCGAGACGGCAACCTGGCAGCCGAGCGCACCCATTCCCAATCTGTTGAAACGCGCGGCGGTGATGGCGGAAATCCGCCGGTTCTTTACCGATCGCGGCGTGCTGGAGGTGGAGACGCCTTGCATGAGTCAGGCGACGGTAACGGATATCCATTTGTTCCCGTTTGAAACCCGTTTCGTCGGCCCGGGCCACTCACAGGGACTCAATCTGTACCTGATGACCAGTCCGGAATACCATATGAAGCGCCTGCTGGCGGCGGGCTGCGGCCCGGTTTTCCAGCTGTGCCGCAGCTTCCGTAATGAAGAGATGGGGCGGCATCACAATCCGGAATTCACCATGCTGGAGTGGTATCGTCCGTGCTATGACATGTATCGTCTGATCAACGAGGTGGACGATCTGCTGCAGCAGGTGCTGGAGTGCCAGCCGGCGGAAAGCCTCTCCTATCAGCAGGCGTTCCAGCGTCATCTGGATATTGACCCGCTCTCTGCCGATAAAGCGCAGCTGCGCGAAGTCGCGGCGAAGCTGGATCTGAGCAATATCGCCGATACTGAAGAAGATCGCGACACGCTGCTGCAACTGCTGTTCACCATGGGCGTGGAGCCGCACATCGGCAAAGATCGGCCGACGTTCATTTATCATTTCCCGGCGACTCAGGCCTCTTTAGCGCAGATCAGCCCGGAAGATCATCGGGTCGCTGAGCGCTTCGAGGTCTATTACAAAGGAATTGAGCTGGCGAATGGTTTCCACGAGCTGACCGACGCCCATGAGCAGCGCCTGCGCTTTGAGCAGGACAATCGCAAGCGGGCCGCGCGCGGCCTCCCGCAGCAGCCCATCGATAACAACCTGCTGGCGGCGCTGGAGGCAGGTCTGCCGGACTGCTCCGGCGTGGCATTGGGCGTTGATCGCGTGGTGATGCTGGCGCTGGGCGCTGAAAGCATCGGCGAAGTGATCGCCTTTACGGTCGACCGCGCCTGA	MSETATWQPSAPIPNLLKRAAVMAEIRRFFTDRGVLEVETPCMSQATVTDIHLFPFETRFVGPGHSQGLNLYLMTSPEYHMKRLLAAGCGPVFQLCRSFRNEEMGRHHNPEFTMLEWYRPCYDMYRLINEVDDLLQQVLECQPAESLSYQQAFQRHLDIDPLSADKAQLREVAAKLDLSNIADTEEDRDTLLQLLFTMGVEPHIGKDRPTFIYHFPATQASLAQISPEDHRVAERFEVYYKGIELANGFHELTDAHEQRLRFEQDNRKRAARGLPQQPIDNNLLAALEAGLPDCSGVALGVDRVVMLALGAESIGEVIAFTVDRA				NA	NA	NA	NA	NA
BMS020_04843	1791	frdA	COG1053	Fumarate reductase flavoprotein subunit	GTGCACACTTTTCAAGCCGATCTCGCCGTAATTGGCGCCGGCGGGGCAGGCCTTCGCGCCGCTATCGCCGCCGCCCAGGCCAACCCCAATGCCAAAATCGCCCTGATTTCTAAAGTCTATCCGATGCGCAGCCATACGGTCGCTGCAGAAGGGGGGTCCGCAGCCGTTGCCCAGGATCACGATAGCTTTGAGTACCATTTTCACGACACCGTCGCCGGAGGCGACTGGCTGTGCGAGCAGGATGTCGTCGACTATTTCGTTCACCACTGCCCGACGGAAATGACCCAACTGGAACAGTGGGGATGCCCGTGGAGCCGCCGCCCTGACGGCAGCGTTAACGTCCGGCGCTTCGGTGGCATGAAGATCGAACGTACCTGGTTTGCCGCCGATAAAACCGGCTTCCACATGCTGCATACCCTCTTCCAGACCTCCCTTCAGTTCCCCCAAATTCAACGCTTTGATGAACATTTCGTCCTTGATCTGCTGGTCGATGACGGCCAGGCCCGCGGCCTGGTGGCGATGAATATGATGGAAGGCACGCTGGTGCAGATCCGCGCCAACGCGGTGGTGCTGGCCACCGGCGGCGCCGGACGCGTCTATCGCTACAACACCAACGGCGGCATCGTTACCGGTGACGGGATGGGTATGGCGCTGGGCCACGGCGTGCCGCTGCGCGATATGGAATTCGTGCAGTATCACCCGACCGGCCTGCCGGGTTCCGGGATCCTGATGACCGAAGGCTGCCGCGGTGAAGGCGGGATTCTGGTCAACAAAAACGGCTATCGCTATCTGCAGGATTACGGCATGGGCCCGGAAACCCCGCTCGGCGAACCGAAGAACAAATATATGGAGCTGGGCCCACGCGACAAAGTGTCCCAGGCCTTCTGGCACGAATGGCGGAAAGGGAACACCATTCCCACGCCGCGCGGCGACGTGGTCTACCTCGATCTGCGCCACCTCGGCGAGAAAAAGCTGCTGGAGCGCCTGCCGTTTATCTGTGAGCTGGCGAAAGCCTACGTCGGCGTCGACCCGGTGAAAGAACCGATTCCGGTACGCCCGACCGCGCACTACACCATGGGCGGCATCGAAACCGATCAACAGTGCGAAACCCGCATCAAAGGGCTGTTTGCCGTGGGCGAATGCTCGTCCGTTGGTCTGCACGGCGCCAACCGCCTGGGCTCCAACTCGCTAGCCGAGCTGGTGGTCTTCGGCCGCCTGGCCGGGGAACAGGCCATGCAGCGCGCCGCGCAAGCGGGCGAGACGAACGGCTCCGCCCTCGATGCGCAGGCTGCCGATGTGGAGCGTCGTCTGAAAGATCTCGTCAACCAGGAGGGTAACGAAAACTGGGCGAAAATCCGCGACGAAATGGGGCTCTCGATGGAGGAAGGCTGCGGCATCTACCGGACGCCAGAGCTGATGCAGAAAACTATCGACAAGCTGGCTGAGCTGCAGGAGCGCTTTAAGCGCGTGCGCATTACCGACAACTCCAGCGTATTCAACACCGATCTGCTTTACACCATTGAGCTGGGACACGGTTTAAACGTTGCCGAATGTATGGCGCACTCGGCCATCGCCCGTAAAGAATCGCGCGGTGCGCACCAGCGTCTGGATGAAGGCTGTACCGAACGCGACGACGTCAACTTCCTCAAACATACGCTCGCCTTCCGCGAGGCTGATGGCGCCACCCGCCTGGAATATGGCGATGTGAAGATCACCACGCTGCCGCCGGCGAAACGTGTTTATGGCGCTGAGGCGGAAGCGGCTGAGAAGAAGGAGACCACCCATGGCTGA	MHTFQADLAVIGAGGAGLRAAIAAAQANPNAKIALISKVYPMRSHTVAAEGGSAAVAQDHDSFEYHFHDTVAGGDWLCEQDVVDYFVHHCPTEMTQLEQWGCPWSRRPDGSVNVRRFGGMKIERTWFAADKTGFHMLHTLFQTSLQFPQIQRFDEHFVLDLLVDDGQARGLVAMNMMEGTLVQIRANAVVLATGGAGRVYRYNTNGGIVTGDGMGMALGHGVPLRDMEFVQYHPTGLPGSGILMTEGCRGEGGILVNKNGYRYLQDYGMGPETPLGEPKNKYMELGPRDKVSQAFWHEWRKGNTIPTPRGDVVYLDLRHLGEKKLLERLPFICELAKAYVGVDPVKEPIPVRPTAHYTMGGIETDQQCETRIKGLFAVGECSSVGLHGANRLGSNSLAELVVFGRLAGEQAMQRAAQAGETNGSALDAQAADVERRLKDLVNQEGNENWAKIRDEMGLSMEEGCGIYRTPELMQKTIDKLAELQERFKRVRITDNSSVFNTDLLYTIELGHGLNVAECMAHSAIARKESRGAHQRLDEGCTERDDVNFLKHTLAFREADGATRLEYGDVKITTLPPAKRVYGAEAEAAEKKETTHG	PGPT0001115_721	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001115-frdA-K00244	NA	NA
BMS020_04844	735	frdB	COG0479	Fumarate reductase iron-sulfur subunit	ATGGCTGAGATGAAAAACCTGAAAGTCGAAGTGGTGCGTTACAACCCGGAGGTCGACACGGCACCGCACAGCGCGTTCTATGACGTGCCTTACGATGAGCAGACCTCGCTGCTGGACGCGCTGGGCTACATTAAAGACAACCTGGCGCCCGACCTGAGCTACCGCTGGTCCTGCCGGATGGCGATCTGCGGCTCCTGCGGCATGATGGTCAATAAGGTACCGAAGCTGGCCTGTAAAACCTTCCTGCGGGATTACACCAAAGGCATCAAGGTTGAAGCGCTGGCCAACTTCCCGATCGAGCGCGATCTGGTGGTGGATATGACCCACTTTATCGAAAGTCTGGAGGCCATTAAGCCGTATATCATCGGCAATAACCGCACCCCGGACCAGGGACCAAACAAGCAGACGCCGGCCCAGATGGCCAAATACCATCAGTTCTCCGGCTGTATCAACTGCGGACTGTGCTATGCCGCCTGTCCGCAGTTCGGCCTGAATCCGGAGTTTATCGGCCCGGCGGCGATCACCCTCGCCCACCGCTATAACGAAGACAGCCGCGACCACGGCAAAAAGGAACGCATGGCGCAGCTTAACGGCCAGAACGGCGTCTGGACCTGTACTTTCGTGGGCTACTGCTCGGAAGTGTGTCCGAAGCACGTCGACCCGGCGGCCGCGATCCAGCAGGGCAAGGTGGAAAGTTCGAAAGACTTTCTTATCGCCACCCTGAAACCACGCTAA	MAEMKNLKVEVVRYNPEVDTAPHSAFYDVPYDEQTSLLDALGYIKDNLAPDLSYRWSCRMAICGSCGMMVNKVPKLACKTFLRDYTKGIKVEALANFPIERDLVVDMTHFIESLEAIKPYIIGNNRTPDQGPNKQTPAQMAKYHQFSGCINCGLCYAACPQFGLNPEFIGPAAITLAHRYNEDSRDHGKKERMAQLNGQNGVWTCTFVGYCSEVCPKHVDPAAAIQQGKVESSKDFLIATLKPR	PGPT0001120_402	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001120-frdB-K00245	NA	NA
BMS020_04845	396	frdC	COG3029	Fumarate reductase subunit C	ATGACGACGAAACGCAAACCCTACGTGCGGCCGATGACCTCCACCTGGTGGAAAAAGCTGCCGTTTTATCGCTTCTACATGGTGCGGGAAGGCACGGCGGTACCGACGGTCTGGTTTAGCATTGTGCTGATTTACGGGCTGTTTGCCCTCAAGCACGGCGCCGAAAGCTGGGCGGGATATATCGGATTCCTGCAAAATCCAGTGGTGGTGATCCTCAATCTGATCACTCTGGCGGCGGCGCTGCTGCACACCAAAACCTGGTTCGAGCTGGCGCCGAAAGCCGCCAACGTCATCATCAAAGGCGAAAAAATGGGGCCAGAGCCGGTGATTAAAGGTCTCTGGGTGGTGACGGCGGTGGTCACCGTGGTGATCCTGTTTGTCGCCCTGTTCTGGTAA	MTTKRKPYVRPMTSTWWKKLPFYRFYMVREGTAVPTVWFSIVLIYGLFALKHGAESWAGYIGFLQNPVVVILNLITLAAALLHTKTWFELAPKAANVIIKGEKMGPEPVIKGLWVVTAVVTVVILFVALFW	PGPT0001125_480	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001125-frdC-K00246	NA	NA
BMS020_04846	360	frdD	COG3080	Fumarate reductase subunit D	ATGATTAATCCCAATCCGAAACGTTCCGATGAACCCGTTTTCTGGGGGCTGTTTGGCGCTGGCGGCATGTGGGGCGCGATTGTCGCGCCGGTGATGGTGCTGCTGGTGGGCATTTTGCTGCCGCTGGGGCTCGCCCCGGCCGACGCCTTCAGCTATGAGCGCGTGCTGGCCTTTGCCCAGAGCTTTATCGGCCGCGCGTTCATCTTTCTGATGATTGTCCTGCCGCTGTGGTGTGGGCTGCATCGTATTCACCACGCCATGCACGACCTGAAAATCCATGTGCCAAACGGCAAATGGGTCTTCTACGGTCTGGCGGCGATCCTCAGCGTCATTACTCTCGTTGGCGTACTGTTTATCTGA	MINPNPKRSDEPVFWGLFGAGGMWGAIVAPVMVLLVGILLPLGLAPADAFSYERVLAFAQSFIGRAFIFLMIVLPLWCGLHRIHHAMHDLKIHVPNGKWVFYGLAAILSVITLVGVLFI	PGPT0001130_19	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001130-frdD-K00247	NA	NA
BMS020_04847	534	blc_2	COG3040	Outer membrane lipoprotein Blc	ATGCGTATCCTGCCGATAATCACCGCGGTCGCCGTCTCGTTCCTGTCTGTCGCCTGCAGCACCCCTGCCCCGCCGCCGGGCGTCACCGTGGTCACCCCCTTCGACGTTCAGCGCTATCTGGGTACCTGGTACGAAATAGCTCGCTTCGACCATCCTTTTGAAAGCGGGCTTGAAAAGGTCACGATCGCCTGGCAGCCGCGCGATGACGGCGGTCTGGACGTGGTCAATAAAGGCTATAACCCCGACCGCGACATGTGGCAGAAAACGGACGGGGTGGCGTATTTTACCGGCGAACCCAGCCGCGCCGCGCTGAAGATCTCCTTCTTCGGCCCCTTCTATGGCAGCTATAACGTCATTGCGCTGGATAAGGAGTATCGGTACGCACTGGTCTGCGGCCCCGACCGCGACTATCTCTGGCTACTGGCGCGAGCCCCCACCATCGCCCCGGAAGTCAGGCAGCAGATGCTGGATATTGCCACCCGGCAGGGTTTTGATATCAGCAAACTGGTCTGGGTTAATCAGCGCTACAACTAG	MRILPIITAVAVSFLSVACSTPAPPPGVTVVTPFDVQRYLGTWYEIARFDHPFESGLEKVTIAWQPRDDGGLDVVNKGYNPDRDMWQKTDGVAYFTGEPSRAALKISFFGPFYGSYNVIALDKEYRYALVCGPDRDYLWLLARAPTIAPEVRQQMLDIATRQGFDISKLVWVNQRYN	PGPT0012970_2048	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012970-blc-K03098	NA	NA
BMS020_04848	318	gdx_1	COG2076	Guanidinium exporter	ATGTCCTGGATAGTCTTATTTATCGCTGGCCTGCTGGAAGTGGTGTGGGCCGTCGGCCTGAAATATACCCATGGCTTTAGCCGCCTGGTTCCCAGCGTCATCACCATCGTCGCGATGGTCGTCAGCATGGCGCTGCTTTCATGGGCGATGAAAACCCTGCCGGTGGGTACCGCTTACGCCGTCTGGACGGGGATCGGCGCCGTGGGCGCCGCTGTGACCGGTATCGTACTGTTAGGTGAATCCGCCAGCGCTATGCGTATCGCCAGTCTTGTCTGCATCGTGGTCGGCATCATTGGCCTGAAGATCAGCGCGCACTAG	MSWIVLFIAGLLEVVWAVGLKYTHGFSRLVPSVITIVAMVVSMALLSWAMKTLPVGTAYAVWTGIGAVGAAVTGIVLLGESASAMRIASLVCIVVGIIGLKISAH	PGPT0028785_1831	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
BMS020_04850	132			hypothetical protein	ATGAAGCGCAGCGTAAAACTCCTGGCGTTACTGTTTCTGAGCAGCGCACTGCTGTCTGGCTGCAATACCGCCCGCGGTTTCGGTGAAGATATTCAGGGCCTGGGTCACGCCATCTCTCGCGCTGTAAGCTGA	MKRSVKLLALLFLSSALLSGCNTARGFGEDIQGLGHAISRAVS	PGPT0026335_235	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-EcnB-EcnA_TOXIN-ANTITOXIN_SYSTEM,PGPT0026335-antitoxin_ecnA-K16347	NA	NA
BMS020_04851	567	efp_1	COG0231	Elongation factor P	ATGGCGACTTACTATAGCAACGATTTTCGTGCTGGTCTTAAAATCATGTTAGATGGCGAACCTTATGCGGTAGAAGCCAGCGAATTCGTTAAACCAGGTAAAGGCCAGGCGTTTGCGCGCGTTAAGCTGCGCCGTCTGCTGACCGGCACCCGCGTTGAGAAAACCTTCAAATCTACTGATTCTGCAGAAGGCGCGGACGTTGTCGATATGAACCTGACTTACCTGTATAACGACGGTGAGTTCTGGCACTTCATGAACAACGAAACCTTCGAACAGCTGTCTGCTGATGCGAAAGCGATCGGTGACAATGCCAAATGGCTGCTGGATCAGGCTGAGTGCATCGTGACCCTGTGGAACGGCCAGCCGATCGCGGTCACCCCGCCGAACTTCGTTGAGCTGGAAATCGTTGAAACCGACCCAGGTCTGAAAGGCGACACCGCGGGTACCGGTGGTAAACCAGCGACCCTGTCTACTGGCGCTGTGGTTAAAGTGCCGCTGTTCGTCCAGATTGGCGAAGTAATCAAAGTGGATACTCGCTCTGGCGAATACGTATCCCGCGTGAAGTAA	MATYYSNDFRAGLKIMLDGEPYAVEASEFVKPGKGQAFARVKLRRLLTGTRVEKTFKSTDSAEGADVVDMNLTYLYNDGEFWHFMNNETFEQLSADAKAIGDNAKWLLDQAECIVTLWNGQPIAVTPPNFVELEIVETDPGLKGDTAGTGGKPATLSTGAVVKVPLFVQIGEVIKVDTRSGEYVSRVK	PGPT0016205_1715	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016205-efp-K02356	NA	NA
BMS020_04852	1029	epmB_1	COG1509	L-lysine 2,3-aminomutase	ATGGCGCATATTGTAACCCTAAATACCCCATCCAGAGAAGATTGGATAACGCAACTTGCCAATGTTGTGACCAGTCCTGATGAACTGCTGCGTCTTTTAAATGTAGATGCTGATGAAAAACTGCTCGCCGGACGTGAGGCCAGACGCCTGTTCCCGCTGCGCGTCCCGCGCGCGTTTATTGCCAGAATGGAGAAAGGCAACCCTGACGATCCGCTGCTTCGTCAGGTACTTACCGCCGAAGAGGAGTTTATCGTCGCCCCCGGCTACTCCACCGATCCGCTGGAAGAACAGCACAGCGTCGTGCCCGGCCTGTTGCACAAATATCGCAACCGGGCCCTGCTGTTGGTGAAAGGCGGTTGCGCGGTCAATTGCCGTTACTGCTTCCGCCGCCACTTTCCTTATGCCGAAAATCAGGGCACCAGGCGCAACTGGCAGACGGCAATGAACTATATCGCTGAGCATCCGCAGCTTGATGAAATCATCTTCTCCGGCGGCGACCCGCTGATGGCGAAGGACCATGAGCTTGACTGGCTAATGACCCAGCTGGAAGCCATTCCGCACGTTAAGCGTCTGCGTATTCACAGCCGATTACCAATCGTGATCCCGGCGCGCATCACCGAGACGCTGGTCAGCCGCTTCCACCGTTCGTCGCTGCAGGTGATCCTGGTTAACCACGTCAACCACGCTAATGAAATTGACGGCGAGTTTCGCGCGGCGATGGCCATGCTGCGTCAGGCGGGCGTCACGCTGCTTAACCAGAGCGTGCTGCTGCGCGGGGTGAACGATAACGCGCAAACCCTGGCCGATCTCAGCAATGCGCTGTTCAATGCCGGGGTAATGCCCTACTACCTGCACGTGCTGGACCGGGTACAAGGGGCGGCACACTTTATGGTCAGCGATGATGAAGCCCGTGAAATCATGCGTGAACTGTTGACCCTCATCTCCGGCTATATGGTGCCGAAGCTGGCGCGAGAGATCGGCGGCGAACCCAGCAAGACGCCGCTGGATTTAGGACTGAAGCAGCGTTAG	MAHIVTLNTPSREDWITQLANVVTSPDELLRLLNVDADEKLLAGREARRLFPLRVPRAFIARMEKGNPDDPLLRQVLTAEEEFIVAPGYSTDPLEEQHSVVPGLLHKYRNRALLLVKGGCAVNCRYCFRRHFPYAENQGTRRNWQTAMNYIAEHPQLDEIIFSGGDPLMAKDHELDWLMTQLEAIPHVKRLRIHSRLPIVIPARITETLVSRFHRSSLQVILVNHVNHANEIDGEFRAAMAMLRQAGVTLLNQSVLLRGVNDNAQTLADLSNALFNAGVMPYYLHVLDRVQGAAHFMVSDDEAREIMRELLTLISGYMVPKLAREIGGEPSKTPLDLGLKQR	PGPT0020325_296	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LYSINE_DEGRADATION,PGPT0020325-empB|yjeK-K19810	NA	NA
BMS020_04853	705			hypothetical protein	ATGGTTTGGCTGGGATTATTTATTTTTGTTATGGATAATAGGGTTGCGTGGGGCAAGGATATGGATGATATTGCATTATTTAATGGCTGTATAATTAATCAGGAGATTATATTTAATGCCAATATGAATGAGCTGCGACCGCTTGCCGGGGATGGGGAGAGAATCAGCCTCAATGCGCCTACCGCCAGATGCTTGCTGCTGCTATTGCAGAATTGCGGCAAAGTGATTTCTCGGGATGAATTTCTGGCGGCTGTATGGGAAACACGGGGAGTGGTAGTTTCGCAAAATACATTTTATCAAAATATCTCTTTGTTGAGAAAATCGCTGCTCAAAGCCGGACTATCTGAGGATATCATTATCACCGTCAGACAAAAAGGCTTTAGCGTCGCCCCGGATACTTTAGTTATCCCGCTCTCGGATGAAGAGTGCGAGAATATGAATCGGGAAAGATTAACGCATTTTCACAGTAGTAAAACTGCTGATGTCATTTTCAATGATACGGGGAAAATTGACCATAAATTAAGTCTTCCACTACCAGTGAATTTAGCAATCCAGGAGAATGATAGGCGGGAAAATAGCGTGAAGGTGGCAGAGAAAGTATCGGAACGATTACATATAACCTTTAAAGTTCCCACCTGGTTAATCGCGCTGATTGTCGTGATGATTGTTATCAATGTTATCGTACTGATCGTGTTACATCGATAA	MVWLGLFIFVMDNRVAWGKDMDDIALFNGCIINQEIIFNANMNELRPLAGDGERISLNAPTARCLLLLLQNCGKVISRDEFLAAVWETRGVVVSQNTFYQNISLLRKSLLKAGLSEDIIITVRQKGFSVAPDTLVIPLSDEECENMNRERLTHFHSSKTADVIFNDTGKIDHKLSLPLPVNLAIQENDRRENSVKVAEKVSERLHITFKVPTWLIALIVVMIVINVIVLIVLHR	PGPT0023730_150	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023730-toxR-K10921	NA	NA
BMS020_04854	564			hypothetical protein	ATGAAAAAGACAATCGTAGCTGTAATGGTCGCTGCATCTGCAGTGCTGAGTGCTCAGGCTTTCGCGGCAGGGAACAGCACCAACCTGACAGTTCTGGGTAAAGTTACTGCAACTGGTGAATCCTGTAACGTAACCCCGGCTCCGCTGATCGCAGGTGGCTCTTTAACTCTGGACGATATCCGAGCTGACAAGTTAGAAAACTTTGCTCTGAACTCTCCTTATAAAGAGCTGGCTAAAGATATTGAATATAAAGTCGAAGACTGTCAGAAAGGTGCTTCTGATTACACCGGTAATATTAGTGTTACTGTTACTGGCGATTACGTCAGCGGCATGAACGACGTTCTGAAAAACCTTGCACCAAACGCTGCCAACAGCGCTGCTGTAACCGTTGTTAATACCGACTGGAGCCGTGTTGATTTAAGCGGTGTTAATGCTGCTCAAACTGTCGCTTATACCGCAGGTACCCCGTCTTACCTGCGTTTTAAAGCTGCATACGTCAGAACAGGTTCTGGCGTAACAACCGGTGACGTGAAAGGCGTAGCTACCTTTACCCTCACTTACTAA	MKKTIVAVMVAASAVLSAQAFAAGNSTNLTVLGKVTATGESCNVTPAPLIAGGSLTLDDIRADKLENFALNSPYKELAKDIEYKVEDCQKGASDYTGNISVTVTGDYVSGMNDVLKNLAPNAANSAAVTVVNTDWSRVDLSGVNAAQTVAYTAGTPSYLRFKAAYVRTGSGVTTGDVKGVATFTLTY	PGPT0016030_724	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016030-fimA-K07345	NA	NA
BMS020_04855	693	focC		Chaperone protein FocC	ATGCGTGAATTATTATTAAAATCAGTAATAGCTTTTTCATTAGTAACTAGTTTCTTTGCCCACAGCGGGATTGTCGTTGACTCAACTCGTCATCTTTATAAAGAAGGCTCACGCGAAATCAACGCGCACATTGAAAACAAAGATGACACTCCCTACTTAATCAAGTCATGGGTAGAAGCCCCAGAAGGAAAAGACACATCATATTTTATGGTAACCCCGCCACTGTTTCGCCTGGAAGGAAAACAGAAAAACACCTTACGTATCTTTCCAAATGCAAATATTTCGAATGCGCCTAAAGATCGTGAATCGGTTTACTTCTTTAATGTCATGTCGATACCACCGACCAGCGATAGTGATGAAGCTAAAAATAAGATTCAGTTAGCTGTTCGACATAAAATGCGACTGATCTTTCGACCGAAAAGTGTTCAAGAATTATCAGCTGATACTGAAGCTAAAAAATTAGAATGGCAAAAAACAAACAACAAGATTACCTTGAAAAATCCGACACCATTTTTTCTTTATTTTAGGTCGGTAAAAATAAATGACAAAGAGATTAACAGCTCAATCCCACACGTAGCCGCCTACTCTACTGTGGAATTCACTTTACCAGCAGGCATAAATGGCTCGGAAATAACATGGATGATAGCAACCGATAGCGGGGGCTCGGGGTCTACCTACTCCTCATCATTCTAA	MRELLLKSVIAFSLVTSFFAHSGIVVDSTRHLYKEGSREINAHIENKDDTPYLIKSWVEAPEGKDTSYFMVTPPLFRLEGKQKNTLRIFPNANISNAPKDRESVYFFNVMSIPPTSDSDEAKNKIQLAVRHKMRLIFRPKSVQELSADTEAKKLEWQKTNNKITLKNPTPFFLYFRSVKINDKEINSSIPHVAAYSTVEFTLPAGINGSEITWMIATDSGGSGSTYSSSF	PGPT0016035_1278	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016035-fimC-K07346	NA	NA
BMS020_04856	2526	elfC_2	COG3188	putative outer membrane usher protein ElfC	ATGTCTAAATTTATAAAAAAAAGAGCTGGAATTCTTGCTGGTGCTCCTTACACAGTTGCTATTCTCATTCCTGCACTGACATTATGTTTGTGCGGTACCGCGACGGCACGTGATTTTTTTGATCCTGATTTCATTAAATCGGTTGGCCAGGACTCTTCATCTATTCCAGATCTATCAGTTTATGCAACCAAGGATTCTCAAGCATCAGGTGAATATCGTGTCGATGTGGTCTTGAATAATGAACTTAAAGAAACAACTAGTATCCTGTTTGTTGAAAAGCAAAATGGAGAGTTGTCACCTTGCTTGAGTATAGAAAAGCTCTCCAGCTATGGTTTACGACTGAGCGCATTCCCAACGTTAAAAAATGATGCAAAAGGATGCGCGAACACAGCTGACATACCAAACTTTACAGCCGATCTCAACTTTAATACACAGCAACTTTTACTATCTATCCCTCAAGCTGCGTTATCAAGCATTGCTCAAGGATATGTGTCGCCTGAAGAGTTTGATGAAGGTATTAATGCGCTGTTGGCAAATTATCAATTCAGCGGCTCAAAAGATTTTGACGAAAAACAAGAATATTACAATTTTAATCTACAGTCCGGGTTAAATGTTGGCCCTTGGCGCATTCGTAACCTGAGTGCATGGAATAAAAATGGCGGCGATAAAAGCAATTGGGACTCCGTTTATCTTTATGCTCAGAGAAGTATCATTCCATTAAAAAGTACATTAGTTATGGGGGAAAGCTCTTCACTTTCAAGTATATTTGATAGTGTTCCTTTTACAGGTATTCAGCTAGCGACAGACACGGATATGATCCCTGAAAGCCTTCGTGGCTTTGCTCCTGTCGTTCGCGGTATTGCCAGAACTAATGCTCGTGTCATCATTAAGCAAAATGGCTATCAAATTTATCAAACATTTGTTGCTCCAGGCGCCTTTGAAATCACCGATCTCTACTCTACTGGCGGTAACGGTGACTTGTACGTGACCGTTGAAGAAGCAGACGGCAGCAAACAAAACTTTGTCGTCGCCTTTGCTTCTTTACCACTTATGCTTCGTGAAGGCCAGATGGAATACGAAATTACCAGTGGTAAATATCGCCCATATGATAACAATACAGATGAAAAACCATTTACCCAAGCAACAATTAGCTATGGGTTATTAAATAATACAACCTTATATGGTGGTTTACAAACAGCATCGGCTTATCAAGCACTTGCATTTGGTGTCGGCCAAAACTTAGGTGAGATTGGAGCCATTTCAAGTGATGTAACTCAAGCCTGGTCGAAAAAACAAGACAACGAAAAAACATCTGGACAGTCCTGGCGTATTCGCTACGGTAAAAATATTCTCGAAACCGGGACGAATGTTTCAGTTGCAGGTTATCGTTACTCAACGAAAGGGTTTAACACCCTATCGGATACGTTCAACACTTATAATGATCATTATAATGCTTCTTCTGCACGTTCTGTGCGAAACAGGACTAACCTGACGGTGAGCCAAAGTTTGGGCGCGAACTTGGGAAGTCTGACAATCTCAGGTTTATTTGAAGACTATTGGGATAGTGGCCGACGCAATAACTCACTAAACATCGGCTATAATGGCGGAGCACGTCGTTTCAACTATTATTTCGGATATAGTTATAATCGCTATTCATGGAGTAATGGTGGTTCTGGCCGAAATGTGGAAGATGATCATCTTCTTTCGTTCACTATATCTGTACCTTTAAGTGAATGGCTTCCGAATACTTATGCTAGCTATAGTATAAATAATAGCAATCCGGGATCCACCGACCAATACGTATCTCTTAATGGTTCAGCGCTGGAAAATAACAATCTGGACTGGAATGTTCAGCAGGGCTATAGCAACCGAGAAGACGCCACTGGCAGCGTCAATGCTACATACAAAGGCTCGTTAGGCCAGGTAACGGGTGGTTACAGCTACAATAAACATAGTCAAATATTAAACTACGGATTGAGTGGAGGTGCATTAGTTCATGCAAATGGCATTACTCTGGGTCAGGAAATGTCCGACACGGCCGTATTAATTAAAGCTCCAGGGTTGGATAATGTTAGACTGGAGAACGACACCAGCATTGAAACGGATTATCGAGGTTATGCCATTATACCTTATGCAACACCTTTCTATCGTACAAGTGTAACGTTAGATAACACAACGTTGAGCGATAATATGGAACTTCCGAATACAACCCAAAAAGTAGTACCTACTCGCGGCGCTATCGTACGAGCTAATTTCGAAGGTACTTTCGGTCGTAGAGCGTTTCTAATTCTCAAAAGATTGTCCGGTGAAAATGTTCCTTATGGTGCAACCGTAACCTTAACAACTGATAAAAAAGCACAGGCCAGTATTGTATCTGATGGCGGTATGGTTTATATGTCAGGCCTAAAAGATAAAGGTGAGGTATATGCTCAATGGGGAGCAAAAACCGATCAGCAATGTAAAGCTACTTATACATTAGCTACGGCAACAGAAAGTATCGCGCAAACCACAGCGGTTTGTCGTTAA	MSKFIKKRAGILAGAPYTVAILIPALTLCLCGTATARDFFDPDFIKSVGQDSSSIPDLSVYATKDSQASGEYRVDVVLNNELKETTSILFVEKQNGELSPCLSIEKLSSYGLRLSAFPTLKNDAKGCANTADIPNFTADLNFNTQQLLLSIPQAALSSIAQGYVSPEEFDEGINALLANYQFSGSKDFDEKQEYYNFNLQSGLNVGPWRIRNLSAWNKNGGDKSNWDSVYLYAQRSIIPLKSTLVMGESSSLSSIFDSVPFTGIQLATDTDMIPESLRGFAPVVRGIARTNARVIIKQNGYQIYQTFVAPGAFEITDLYSTGGNGDLYVTVEEADGSKQNFVVAFASLPLMLREGQMEYEITSGKYRPYDNNTDEKPFTQATISYGLLNNTTLYGGLQTASAYQALAFGVGQNLGEIGAISSDVTQAWSKKQDNEKTSGQSWRIRYGKNILETGTNVSVAGYRYSTKGFNTLSDTFNTYNDHYNASSARSVRNRTNLTVSQSLGANLGSLTISGLFEDYWDSGRRNNSLNIGYNGGARRFNYYFGYSYNRYSWSNGGSGRNVEDDHLLSFTISVPLSEWLPNTYASYSINNSNPGSTDQYVSLNGSALENNNLDWNVQQGYSNREDATGSVNATYKGSLGQVTGGYSYNKHSQILNYGLSGGALVHANGITLGQEMSDTAVLIKAPGLDNVRLENDTSIETDYRGYAIIPYATPFYRTSVTLDNTTLSDNMELPNTTQKVVPTRGAIVRANFEGTFGRRAFLILKRLSGENVPYGATVTLTTDKKAQASIVSDGGMVYMSGLKDKGEVYAQWGAKTDQQCKATYTLATATESIAQTTAVCR	PGPT0016040_1365	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016040-fimD|fimC|mrkC|htrE|cssD-K07347	NA	NA
BMS020_04857	1020			hypothetical protein	ATGAAAAAATTTATTATTTTAATAGGTATATTATTTTCAAGCTTTCAGGCTAACGCCTCTTGCTCTTATAGCAGTACGTCTAGCGGTGCTATCACGGTGAGTTTTGGTACACCTGCTGTCCTGGCCGATCCAACGTTACCTGTTGGGACAATCTTATCCACTGCAGTCCGTGGGAATATTGTTCCAAAAACATTTTCAAATTGTGACCCTGGAGACATATTTGTTGTCAGAACAAACCCAACCGTAAATCAATCTAGTGTAAATAAAATTAACGGGCAGGTCGTTTACGAGACAGGAATTCCAGGTATTGGTTTTCAAATATCTGATATATTAAAGCCTAAAGGGCGATTTATTCCTGCGGTGATTGATCAAACAGAGTCAGCAACAAGCCGATACATTTCTTCGTCAGATATATCAAAACAAGTCATGGTATGGCTAGTAAAAACTGGGCCGATAACCCAAACAAAGTTAACCAATTATATTACAGTATACTATATGGCAGGAACTCCTGCCCAAACGAGTTCTGGTGCTAATAATAATTCGTCTTTGTATAGAATTAACATAGACCTGACGAACATTAAATTTAAAGAAACAACATGTGAAATTTCGCCCAGAGACGGAAATACCGTGAGGTTACAACCTATTGATTTATCAGAGCTTGCTTCACTTTCTGCAGGCAAGGCTGCTGGTAAACCTAAAAACTTTACCGTCGACATAACCTGTCCAACCACAGAAATAAACAAAAATTATCTTTATTGGTTTAACCCTGTTTCTTTAAATTCAACTTCAGCTGATGGTGTTTTACTTAATTCACTTACAGATGGAGCAACAAACGTAGGTATCATTATTAAGAAAGGCTCTAGTGCAATAAAATTCAACGATTTGAGTTATACTTTTACCACGGCAAAGAACCAAAGCCAGACCTTTTCCGCCGATTATTACAAGATAGCAAATCCAGTAACTCTAGGGGTTACTGGAGATGTTAAAGTAGACTTCGAAATTGTTCTTCAGGAAAGATAG	MKKFIILIGILFSSFQANASCSYSSTSSGAITVSFGTPAVLADPTLPVGTILSTAVRGNIVPKTFSNCDPGDIFVVRTNPTVNQSSVNKINGQVVYETGIPGIGFQISDILKPKGRFIPAVIDQTESATSRYISSSDISKQVMVWLVKTGPITQTKLTNYITVYYMAGTPAQTSSGANNNSSLYRINIDLTNIKFKETTCEISPRDGNTVRLQPIDLSELASLSAGKAAGKPKNFTVDITCPTTEINKNYLYWFNPVSLNSTSADGVLLNSLTDGATNVGIIIKKGSSAIKFNDLSYTFTTAKNQSQTFSADYYKIANPVTLGVTGDVKVDFEIVLQER				NA	NA	NA	NA	NA
BMS020_04858	1287	cvaA	COG0845	Colicin V secretion protein CvaA	ATGGCAAATAATCTTTATCGCAAGGAAGCGATTGAATACAAGAAGAACCACTGGAAGGGCAAAGCTCTTATGTTGGCAGGAATTCCTGCATGGTTGGTTTGCACACTTTCCTTTCTTTTTCTAAGCGTACTAATCATTACTCTGACTACTTGTAACTACACTCAGCGTATTGATGTACGCGGGGAAGTGATTACTCTGCCACATTCTATAAACGTATATGCACCACAGCAAGGATTCATAGTAAAGAAATATATTGAGACAGGTGATATTGTCCGAAAAGGAACGCCTCTGTATGAAATAGATGTCTCTCGTTCTACAGTATTTGGTAATGTGACCGATGAGATGAATGCGGTTATTAACGAAAAAATAACCAATGCCGAAGATATTATTGTAAAAATATTAAAAAATAAAGGTGAAACTTTAGAAGCCCTTCATTCTCAAGTGCGCCAGTATGAAGCTTCGTTAAAAGAAACAAAGCAAATGCTGAACGATACAGACACTGGTCTACAAAAGATGAAAGCTAATCTTGCAAGCTATGATAAGTATCTTAAACAAGGCTTGATAACCAAAGATCAATACAACTATCAGCATTCTCTCTATTTTCAACAACAAAGTACGTACCAATCACTTGTTAGCCAGAAAATGCAGCTTGAGACTCAACTTACTCAGCTTAAAAGCGATCTGGTTGTAAAGAGTGCAGATTTTGACAATCAGATTTCTAGCCAAAAAAATCAAATAAACGATTATAAAAATCAGCGTGTTGAATCAAACGCTAACGGCAATGTGGTTATTAAAGCCACCTCGGATGGTAAAATAGAGTCCATAGCTGTAACCGTAGGGCAAATGGTTGACAAAGGCAGTAGTCTTACCCAGATCAAGCCTACAGGAAATATCGAATATTTTCTTATACTATGGTTACCAAACAATAGCATCCCATATGTTAAAAAAGGCGACATTGTTAACATTCGCTACGATGCATTTCCTTCTGATAAATTTGGCCAGTTCCCTGGCATAGTTGAAACAATTTCTTCTGTACCAGCATCGAAGCAGGAGATGTCCGAATATACAAACGTAGTGAGTAATCCAAACCAACAGGAACTCGCACTTTATAAGGCAATTATTAGAATTAAGAATAAAAATTTTGATTATAACGGAAAGACGCTTGAGCTCTCAAATGGACTAAAAGCTCAGGCTATTGTATTCCTGGAAAAGCGTCCTTTATATTTATGGATGTTTGCCCCGTTTCACAAAATCAAGCAAAGCGTAAGTGAACCGATCAATGACTAG	MANNLYRKEAIEYKKNHWKGKALMLAGIPAWLVCTLSFLFLSVLIITLTTCNYTQRIDVRGEVITLPHSINVYAPQQGFIVKKYIETGDIVRKGTPLYEIDVSRSTVFGNVTDEMNAVINEKITNAEDIIVKILKNKGETLEALHSQVRQYEASLKETKQMLNDTDTGLQKMKANLASYDKYLKQGLITKDQYNYQHSLYFQQQSTYQSLVSQKMQLETQLTQLKSDLVVKSADFDNQISSQKNQINDYKNQRVESNANGNVVIKATSDGKIESIAVTVGQMVDKGSSLTQIKPTGNIEYFLILWLPNNSIPYVKKGDIVNIRYDAFPSDKFGQFPGIVETISSVPASKQEMSEYTNVVSNPNQQELALYKAIIRIKNKNFDYNGKTLELSNGLKAQAIVFLEKRPLYLWMFAPFHKIKQSVSEPIND	PGPT0015305_148	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-RaxAB-RaxC_PROTEIN,PGPT0015305-raxA|cvaA-K13408	NA	NA
BMS020_04859	2127	hlyB	COG2274	Alpha-hemolysin translocation ATP-binding protein HlyB	ATGACTAGAGAATTATTTGACAACATTACCAAGCAGCTCAATTTCAAATTACGCAAGAGCACACCCGTTATTTTACAATCAGAAACATCTGAATGTGGTATAGCTTGCCTGGCAATGATCTCCGGATATTATGGACTCAATATTGATCTGCTGAACTTTCGCGATCGCTTTGGAACCCCTGCGCAGGGCGTCACACTTTTATCATTAAGCAAGATTGCTGAACGAGCCGGCCTACAAAATCGAGCTCTTTCGCTGGATCTTGATGAAATGCGCCAGCTCAAGTTGCCTTGTGTTATTCACTGGGGAATGAATCACTACGTTGTTCTTACTAAAGTTCGTAAATCCAGTTTCATTGTACATGATCCTGCGCTTGGTAAACGAGTGATTGGACTTCAAGAGATGTCTAATAATTTTACAGGCATTGCGCTTGAACTGTGGCCGGAGCAAAATTTCCAACAGGAAACAGTTAAATCTCGTCTACGCATGATAGATTTAATGAGCAACATAGTTGGACTTAAAAGTACGCTGCTTAAGATTTTTGCTTTTTCGGTAGTTATTGAAGCCATTGGTTTATTATTACCTGTTGGTACCCAACTGGTAACAGATCACGTTATTATGGCACACGATGAAAGTTTACTTGCCGTAATCTGTATAGGGCTGGTGTCATTTACACTTTTTAGTGCTTTCATCAGCATGTTAAGAGCTTGGACATCTTTGACACTGAATACATTGACAAGCATACAATGGAAAACCAGTATGTTTGATCATCTGTTCAAACTACCCTTATCCTTTTTTGAAAAACGCCATTTAGGTGATATTCAATCAAGATTTTCATCCCTGGAAACAATCAGATCGACATTTACCAATAGCATCGTTACAGGAATCATCGACTCAATAATGACTATCGGGCTTTTGATCATGCTAACGCTTTATGGCGGCTGGCTGTGCTGGGTTGTAGTAGGTTTTACAGCTTGTTATGGCATTATGCGCCTGGCCACATACCGTTTTTATCGCCGCGTATCAGAAGAACAAGTCATCAAAGGGGCACGCTCTAGCTCACATTTCATGGAGTCGTTATATGGCATTGCAACAATTAAGGCTCTTAATTTAAAAGAGCGTCGTTCGAAGCACTGGCTAAATTTAAATATCGATGCCTGTAATGCAACGATTAAACAGAGTCGTTTTGATATGCTTTTTGGCGGAATCAATACCCTTATATCCTCAATTGATCAGGTGGTAATTTTATGGTTAGGGGCTTTAATGGTTATCGATAACCATATGACACTAGGTATGTTTATGGCTTTTAATGCTTACCGAGGCCAATTTTCTCAGAGAGCTTCCAACTTGATCGATCTTTTTATGAAGGTACGAATGCTCTCCTTACATAATGAAAGGATTTCTGAAATTGCTTTCTGCGAGCCGGAAAAAGAATTGCCCTCTCGGCGTATTTTTGAAGAAAATATTGGGGTGAAACTTCAGGTGAAAGATCTTACCTATCAATATGATCCGTTTTCACAGCCTATTATATCTAACTTGAATATTACCATTGAACCGGGTGAGTCTGTTGCTTTAATTGGCCCATCAGGTATTGGAAAAACAACCCTATTAAAAGTAATGAGCGGCTTGCTATCTCCTACAAGTGGTGATGTCTTGGTGAATAATCTTGATATCACTAAAATTGGTATAAATAATTATCGTTTAAGCACTGCTTGCGTACTTCAGGAAGATCGGTTGTTCTCTGGTTCTATTGCTGAAAATATTAGCGGTTTTGATGATAATGCAGATATCGATTTCATTATGGAGTGCGCAAAAAACAGCAATATACATGCTGAAATTATGCAAATGCCCATGGGTTATGAAACACTTATTGGTGAACTGGGTACGGGTATTTCTGGCGGACAAAAACAACGACTCTTGATCGCACGAGCGCTATACCGTAAACCAGGTATTTTATTTATGGATGAAGCAACCAGCCATCTTGATTTACAAAATGAGTATCATATAAACCAATCAATATCTAATTTAAGTATTACACGTGTCATTGTTGCACATCGTCCATCAACAATTGCTTCAGCAGATCGTGTGATCGATCTGTCAAAAAATAACTCAATTTCATTGCCTTGTTAA	MTRELFDNITKQLNFKLRKSTPVILQSETSECGIACLAMISGYYGLNIDLLNFRDRFGTPAQGVTLLSLSKIAERAGLQNRALSLDLDEMRQLKLPCVIHWGMNHYVVLTKVRKSSFIVHDPALGKRVIGLQEMSNNFTGIALELWPEQNFQQETVKSRLRMIDLMSNIVGLKSTLLKIFAFSVVIEAIGLLLPVGTQLVTDHVIMAHDESLLAVICIGLVSFTLFSAFISMLRAWTSLTLNTLTSIQWKTSMFDHLFKLPLSFFEKRHLGDIQSRFSSLETIRSTFTNSIVTGIIDSIMTIGLLIMLTLYGGWLCWVVVGFTACYGIMRLATYRFYRRVSEEQVIKGARSSSHFMESLYGIATIKALNLKERRSKHWLNLNIDACNATIKQSRFDMLFGGINTLISSIDQVVILWLGALMVIDNHMTLGMFMAFNAYRGQFSQRASNLIDLFMKVRMLSLHNERISEIAFCEPEKELPSRRIFEENIGVKLQVKDLTYQYDPFSQPIISNLNITIEPGESVALIGPSGIGKTTLLKVMSGLLSPTSGDVLVNNLDITKIGINNYRLSTACVLQEDRLFSGSIAENISGFDDNADIDFIMECAKNSNIHAEIMQMPMGYETLIGELGTGISGGQKQRLLIARALYRKPGILFMDEATSHLDLQNEYHINQSISNLSITRVIVAHRPSTIASADRVIDLSKNNSISLPC	PGPT0015310_321	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-RaxAB-RaxC_PROTEIN,PGPT0015310-raxB|cvaB-K13409	NA	NA
BMS020_04860	858			hypothetical protein	ATGACTCAAAAAATTAGTGGTATTAACACTGGCGCAATTAAATTTAATGACAAGTTTTTCCTGATGGCAGTAAAAATCAAGGTAGAGGACTCTACTTGTAATACTTATTATATGCAATTAAGCGTTATGCTCGATTTTATTATTCTTATGCGCGATCGCGCACATAAAGCAATAAAAAAACTGCAAGATAAAGGAGAGATTTATAAAGCAAAGATCATTGCCGAGCACGAAAAATTGGCAATGAATATTCCTGCTTTTGAAGAAGAAGAACTACAACAACCTAATCAGGCTAATCTGATTACTTCTATTACTCCGAAATTTGATGATGAACGCTGCACATTGATGGTGATGTTACAAAATGAAAATATCCTTTCCTTAAATATTGCTGACATACAGGCAGAATTTTTCATTTTAGCAGTCCAGCAAGCGCTTAGTGCAACAAATGACACTGAAACACTCAAGCAAATTGCATCGATTCTCGATTTTCTAATACTTTATTTTGTTGATCTTTCAGATTTAAGTTATCTGAACTATAAGGAAATAAACCACCAACCCTGGAAGCAATCATTATTTACTCAACATTTTGCTGTTCTTTATAGCTTTGAAAAGGAACAGGGAGAAGAAATCTTAGCAGGCGCTGTAATTAAAACAAATGCGCAGCCGGACACGGAAGAAGCAAAGAACCTTATCAAGCGGATCGCACTTCTTGTACCAGAGCTCCGGGATATTGTTGAAAAAAGACACTTAGCTCAGACATTTATGAAATTAATACCTGCAGATCAGACTCAAGTTCTTACATTAGATGAATGTATGCGCCCACTCTATGAGTTTTGCCTTGAAACACAGAAAACTCTTTAG	MTQKISGINTGAIKFNDKFFLMAVKIKVEDSTCNTYYMQLSVMLDFIILMRDRAHKAIKKLQDKGEIYKAKIIAEHEKLAMNIPAFEEEELQQPNQANLITSITPKFDDERCTLMVMLQNENILSLNIADIQAEFFILAVQQALSATNDTETLKQIASILDFLILYFVDLSDLSYLNYKEINHQPWKQSLFTQHFAVLYSFEKEQGEEILAGAVIKTNAQPDTEEAKNLIKRIALLVPELRDIVEKRHLAQTFMKLIPADQTQVLTLDECMRPLYEFCLETQKTL				NA	NA	NA	NA	NA
BMS020_04861	354			hypothetical protein	ATGCAGGTAAAATATTTAGCAGGGATTGTCGGCGCAGCCTTACTGTTGGCAGGTTGCAGTTCCAGCAATGAATTAACCTCTGCCGGCCAGAATGTGCGCTTCGTGCAGGAGAAGCCGGGCGCAGAGTGTCAGCTGTTAGGGACCGCGACGGGTAAACAGAGCAACTGGCTCTCCGGCCAGAATGGCGATGAGGGTGGCTCCATGCGCGGTGCGGCTAACGCCCTGCGTAACCAGGCGGCAGCCATGGGCGGCAACGTGATTTATGGCGTCAGCAGTCCGACGCAAAATCTGTTGTCGAGCTTTGTGCCCACCGACAGCGAGATGAACGGCCAGGTTTATAAGTGCCCGAACTGA	MQVKYLAGIVGAALLLAGCSSSNELTSAGQNVRFVQEKPGAECQLLGTATGKQSNWLSGQNGDEGGSMRGAANALRNQAAAMGGNVIYGVSSPTQNLLSSFVPTDSEMNGQVYKCPN				NA	NA	NA	NA	NA
BMS020_04862	1647	groL_1		60 kDa chaperonin	ATGGCAGCAAAAGACGTAAAATTCGGTAACGACGCTCGTGTAAAAATGCTGCGCGGCGTAAACGTACTGGCAGATGCAGTTAAAGTGACCCTGGGCCCGAAAGGCCGTAACGTGGTTCTGGACAAATCCTTCGGCGCGCCGACCATCACCAAAGATGGTGTTTCCGTTGCACGTGAAATCGAGCTGGAAGACAAGTTCGAAAACATGGGCGCGCAGATGGTGAAAGAAGTTGCCTCTAAAGCGAACGACGCGGCAGGCGACGGTACCACCACCGCAACCGTGCTGGCGCAGGCTATCGTGAACGAAGGCCTGAAAGCGGTTGCTGCAGGCATGAACCCGATGGATCTGAAACGTGGTATCGACAAAGCTGTCGTTGCCGCTGTTGAAGAACTGAAAGCGCTGTCCGTTCCGTGCTCTGACTCCAAAGCTATCGCTCAGGTAGGTACCATCTCCGCTAACTCCGACGAAACCGTCGGTAAACTGATCGCGGAAGCGATGGATAAAGTTGGCAAAGAAGGCGTGATCACCGTTGAAGACGGTACCGGTCTGGAAGACGAACTGGACGTGGTTGAAGGTATGCAGTTCGACCGCGGCTACCTGTCTCCGTACTTCATCAACAAGCCGGACACCGGCGCCGTTGAGCTGGAAAGCCCGTTCATCCTGCTGGCTGACAAAAAAATCTCCAACATCCGCGAAATGCTGCCGGTTCTGGAAGCCGTAGCGAAAGCTGGCAAACCGCTGGTTATCATCGCTGAAGACGTTGAAGGCGAAGCGCTGGCGACCCTGGTGGTTAACACCATGCGCGGCATCGTGAAAGTGGCTGCGGTGAAAGCGCCGGGCTTTGGCGACCGTCGTAAAGCCATGCTGCAGGATATCGCGACGCTGACTGGCGGTACCGTTATCTCTGAAGAGATCGGTATGGAGCTGGAAAAAGCGACTCTGGAAGACCTGGGCCAGGCGAAACGCGTGGTTATCAACAAAGACACCACCACCATCATCGATGGCGTTGGCGAAGAATCCGCAATCCAGGGCCGCGTTGCTCAGATCCGTAAGCAGATCGAAGAAGCAACCTCCGACTACGACCGTGAAAAACTGCAGGAACGTGTCGCTAAACTGGCTGGCGGCGTTGCCGTAATCAAAGTCGGCGCGGCAACCGAAGTTGAAATGAAAGAGAAAAAAGCACGCGTCGACGATGCCCTGCACGCCACTCGTGCTGCGGTTGAAGAAGGCGTGGTGGCTGGCGGCGGCGTAGCGCTGGTTCGCGTTGCAGCGAAACTCGCTGGCCTGACCGGTCAGAACGAAGATCAGAACGTCGGTATCAAAGTTGCGCTGCGCGCAATGGAAGCGCCGCTGCGTCAGATCGTGTCCAACGCCGGTGAAGAGCCGTCTGTTGTGGCGAACAACGTGAAAGCCGGCGACGGTAACTACGGTTACAACGCGGCAACTGAAGAATACGGCAACATGATCGACTTCGGTATCCTGGACCCAACCAAAGTCACCCGTTCTGCACTGCAGTACGCGGCTTCCGTGGCTGGCCTGATGATCACCACCGAGTGCATGGTGACCGACCTGCCGAAAGGCGACGCGCCTGATTTAGGTGCTGCTGGCGGTATGGGCGGCATGGGCGGTATGGGCGGCATGATGTAA	MAAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIVNEGLKAVAAGMNPMDLKRGIDKAVVAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLEDELDVVEGMQFDRGYLSPYFINKPDTGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLVIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEESAIQGRVAQIRKQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVDDALHATRAAVEEGVVAGGGVALVRVAAKLAGLTGQNEDQNVGIKVALRAMEAPLRQIVSNAGEEPSVVANNVKAGDGNYGYNAATEEYGNMIDFGILDPTKVTRSALQYAASVAGLMITTECMVTDLPKGDAPDLGAAGGMGGMGGMGGMM	PGPT0014570_2280	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014570-groEL|mopA-K04077	NA	NA
BMS020_04863	294	groS_1	COG0234	10 kDa chaperonin	ATGAGTATTCGTCCGTTACATGATCGTGTGATCGTCAAACGTAAAGAAGTTGAAACCAAATCTGCGGGCGGCATCGTTCTGACCGGTTCTGCAGCAGCTAAGTCAACGCGTGGCGAAATCATCGCTGTCGGTAAAGGCCGCATCCTGGAAAACGGGACCGTGCAGCCGCTGGACGTTAAAGTTGGTGACATCGTGATTTTCAACGATGGCTACGGCGTGAAGACTGAAAAGATTGACAACGAAGAAGTGCTGATCATGTCCGAAAGCGACATCCTGGCAATTGTTGAAGCTTAA	MSIRPLHDRVIVKRKEVETKSAGGIVLTGSAAAKSTRGEIIAVGKGRILENGTVQPLDVKVGDIVIFNDGYGVKTEKIDNEEVLIMSESDILAIVEA	PGPT0014565_2511	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014565-groES|mopB-K04078	NA	NA
BMS020_04864	1251	yjeH	COG0531	L-methionine/branched-chain amino acid exporter YjeH	ATGAGTGGTTTAAAACAGGAGTTAGGGCTGGGACAGGGAGTCGGGTTGCTTTCCACCTCACTGCTGGGCACCGGCGTTTTCGCTGTTCCGGCGCTGGCGGCGCTGGTCGCTGGCGATAACAGCCTGTGGGCATGGCCGTTGCTTATCCTCCTTGTTTTTCCGATTGCCATCGTCTTCGCCCTGCTGGGTCGCCATTTCCCCAGCGCGGGCGGCGTGGCCCACTTTGTCGATATGGCCTTTGGCCCACGTCTGGCCAGCGTCACCGGCTGGCTGTTTTTATCGGTTATCCCGGTCGGACTCCCTGCCGCCCTGCACATCGCCACCGGCTTCGGCCAGGCGCTGTTCGGCTGGCATGATGCGCAGCTGCTGCTGGCGGAGCTAGGTACCCTGGCCATCGTCTGGTGGGTCGGTTCACGTGGCGCCAGCTCCAGCGCCAACCTGCAGACGCTGGTTGCCGTGCTGATCGTGGCGCTGATCGTCGCCGTCTGGTGGCGCGGCGGGATAAGTCCGGCGCAGATCCCCTTCCCCGCCCCGGCGGAGATCGACCGCGGCCAGCTTTTCTCCGCGCTGTCGGTGATGTTCTGGTGCTTTGTCGGCCTGGAAGCCTTTGCCCACCTCGCCTCGGAGTTTAAACACCCCGAGCGCGATTTTCCCCGCGCGCTGATGATAGGCCTGCTGCTTGCCGGTTCGGTCTACTGGGCCTGCACCGTGCTGGTGTTGCACTTCCACGCCTTTGGCGTGGAGATGGCGGCGGCGGCTTCATTACCGAATATCGTGGTCCGCCTGTTCGGCGTCGAAGCGCTGTGGGTGGCCTGCGTCATCGGTTACCTCGCCTGTTTCGCCAGCCTCAATATCTATATTCAGAGCTTCGCCCGCCTGGTCTGGTCGCAGGCGCAGCATAAGCCACAGAGCTACCTCGCGAGGCTGTCGCCGCGGCAGATCCCGCGCAACGCCCTCAACGCCGTGCTGGGCTCCTGCGTGGTCAGCACCTTGTGTATCTATTTTCTCGATATCAATCTGGACGCGCTGATCGTCTATGCCAACGGCATTTTCATCATGATCTATCTGCTGTGCATGCTGGCGGGCTGCCGTTTGCTGCGCGGGCGCTATCGGCTGCTGGCGGCGGTGGGCAGCATTCTCTGTCTGCTGCTGCTGGCGATGGTCGGCTGGAAGAGTCTGTACGCGCTGGTGATGCTGGCGGTGCTGTGGTTGTTTTTACCGAGACGTAAGCTGGCGACAGGAAGCGCATAG	MSGLKQELGLGQGVGLLSTSLLGTGVFAVPALAALVAGDNSLWAWPLLILLVFPIAIVFALLGRHFPSAGGVAHFVDMAFGPRLASVTGWLFLSVIPVGLPAALHIATGFGQALFGWHDAQLLLAELGTLAIVWWVGSRGASSSANLQTLVAVLIVALIVAVWWRGGISPAQIPFPAPAEIDRGQLFSALSVMFWCFVGLEAFAHLASEFKHPERDFPRALMIGLLLAGSVYWACTVLVLHFHAFGVEMAAAASLPNIVVRLFGVEALWVACVIGYLACFASLNIYIQSFARLVWSQAQHKPQSYLARLSPRQIPRNALNAVLGSCVVSTLCIYFLDINLDALIVYANGIFIMIYLLCMLAGCRLLRGRYRLLAAVGSILCLLLLAMVGWKSLYALVMLAVLWLFLPRRKLATGSA				NA	NA	NA	NA	NA
BMS020_04865	477			hypothetical protein	GTGCGTTGGATTCCGTTTATTGCCTTTTTTCTTTACGTTTACATTGAGATATCGATCTTTATCCAGGTCGCGCACGTGTTGGGCGTCTTTATGACGCTGATCCTGGTGATCTTTAGCTCGGTGGTGGGGATGTCGCTGGTGCGCAACCAGGGCTTCAAAAACTTCCTGCTGATGCAGCAGAAGATGGCCGCGGGCGAGAGCCCGGCGGCGGAGATGATCAAGAGCGTCTCGCTGATTATCGCTGGCCTGCTGCTGTTGATCCCGGGGTTCTTTACCGACTTCCTCGGCCTGCTGCTGCTTTTGCCCCCGGTGCAGAAGCACCTGACGATGAAGCTGATGCCGCATTTGCGCTTCAGCCGGATGCCGGGCGGCGGCTTTAGCGCCGAGACTGGCGGCGGAGAGACCTTCGAAGGGGAATACCAGCGCAAGGATGAACAGCGCGACCGTCTGGACCACAAGGACGATCGCCGCGATTAA	MRWIPFIAFFLYVYIEISIFIQVAHVLGVFMTLILVIFSSVVGMSLVRNQGFKNFLLMQQKMAAGESPAAEMIKSVSLIIAGLLLLIPGFFTDFLGLLLLLPPVQKHLTMKLMPHLRFSRMPGGGFSAETGGGETFEGEYQRKDEQRDRLDHKDDRRD				NA	NA	NA	NA	NA
BMS020_04866	1437	aspA	COG1027	Aspartate ammonia-lyase	ATGTTAAACAACATTCGTATCGAAGAAGATCTGTTGGGCACCAGGGAAGTTCCCGCGGACGCTTACTACGGCGTTCATACTCTGCGAGCGATTGAAAACTTCTACATTAGCAACAGCAAAATCAGCGACATACCAGAATTCGTGCGCGGCATGGTGATGGTGAAGAAAGCCGCCGCGCTGGCGAACAAGGAGCTGCAGACCATTCCCAAAAGCGCGGCAAATGCGATTATCGCCGCCTGTGACGAAGTCCTGAATAACGGCAAATGCATGGACCAGTTCCCGGTCGATGTCTTCCAGGGCGGGGCCGGCACCTCCGTAAACATGAACACCAACGAAGTCCTGGCAAACATCGGCCTCGAGCTGATGGGCCACCAGAAAGGCGAATACCAGTACCTGAACCCAAACGATCACGTCAACAAATGCCAGTCCACCAACGATGCCTACCCGACCGGGTTCCGCATTGCGGTGTATGCCTCTATCCTCAAGTTAATCGATGCGATTAAGCAGCTGGGCGAAGGTTTCCAGGCGAAAGCCGAGGAGTTCCAGGACATCCTCAAGATGGGCCGCACCCAGCTGCAGGACGCGGTGCCGATGACCCTCGGTCAGGAGTTCCATGCCTTCAATGTGCTGCTCAATGAAGAGACCAAAAGCATTCTGCGCACCGCGGAGCTGCTGCTGGAAGTGAACCTGGGCGCAACCGCCATCGGCACACGCCTCAACACCCCGGACGGTTATCAACAGCTGGCGGTGCAGAAGCTGGCGGAAGTGAGCAACTTACCGGTCGTTCCGGCGGAAGATCTGATTGAAGCCACCTCGGACTGCGGGGCGTACGTCATGGTTCACAGCTCGCTGAAACGCCTGGCGGTGAAACTGTCCAAGATCTGTAACGACCTGCGCCTGCTCTCTTCCGGACCGCGCGCGGGCCTCAACGAAATTAACCTGCCTGAGCTGCAGGCTGGCTCTTCTATTATGCCGGCGAAGGTTAACCCGGTGGTGCCGGAGGTGGTCAACCAGGTCTGCTTTAAAGTGATCGGCAACGACACCACGGTGACCATGGCCTCAGAAGCCGGGCAGCTGCAGCTGAACGTGATGGAGCCGGTGATCGGCCAGGCGATGTTCGAGTCTATCCACATTCTGACCAACGCCTGCTACAACCTGCTGGAGAAATGCGTCAACGGCATTACCGCCAACAAAGCGGTGTGCGAAGGTTACGTCTATAACTCCATCGGCATCGTCACCTACCTCAACCCGTTTATCGGCCACCACAATGGCGATATCGTCGGCAAGATCTGCGCCGAAACCGGGAAGAGCGTGCGGGAAGTGGTGCTGGAGCGTGGGCTGCTGACGGCGGCGGAGCTGGATGACATTTTCTCCGCGCAAAACCTGATGCATCCCGCTTATAAAGCGAAGCGTTATACCGATGAAAGCGAACAGTAA	MLNNIRIEEDLLGTREVPADAYYGVHTLRAIENFYISNSKISDIPEFVRGMVMVKKAAALANKELQTIPKSAANAIIAACDEVLNNGKCMDQFPVDVFQGGAGTSVNMNTNEVLANIGLELMGHQKGEYQYLNPNDHVNKCQSTNDAYPTGFRIAVYASILKLIDAIKQLGEGFQAKAEEFQDILKMGRTQLQDAVPMTLGQEFHAFNVLLNEETKSILRTAELLLEVNLGATAIGTRLNTPDGYQQLAVQKLAEVSNLPVVPAEDLIEATSDCGAYVMVHSSLKRLAVKLSKICNDLRLLSSGPRAGLNEINLPELQAGSSIMPAKVNPVVPEVVNQVCFKVIGNDTTVTMASEAGQLQLNVMEPVIGQAMFESIHILTNACYNLLEKCVNGITANKAVCEGYVYNSIGIVTYLNPFIGHHNGDIVGKICAETGKSVREVVLERGLLTAAELDDIFSAQNLMHPAYKAKRYTDESEQ	PGPT0020125_686	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020125-aspA-K01744	NA	NA
BMS020_04867	1302	dcuA	COG2704	Anaerobic C4-dicarboxylate transporter DcuA	ATGTTTGGTGCAGAACTGGTTATTGTCCTGCTGGCGATTTATCTCGGCGCCCGGCTCGGCGGCATCGGTATCGGCTTTGCCGGTGGCCTTGGCGTCCTTGTCCTGACGCTTATTTTTCAAATTAAACCGGGTGCGATCCCCTTCGACGTTATTGAAATCATTATGGCGGTGATTGCCGCTATCGCCGCCATGCAGGTCGCAGGCGGAATGGATTACCTGGTCAGCCTCGCCGAACGGATGCTGCGTCGCCACCCGAAATATATTACCTTCCTTGCCCCGCTGGTGACCTGGTTTATGACCGTGCTCGCCGGCACCGGCCATACCGCCTTCTCCACGCTGCCGGTGATCACCGAAGTGGCCAAAGAGCAAGGCATCCGTCCGTCTCGTCCGCTGTCGATTGCGGTGGTGGCCTCCCAGATAGCGATCACCGCTTCGCCCATCTCCGCCGCGGTAGTATTCTTTGCGGGGATCCTGGAGCCGCTGGGCGTTAGCTACCTGATGCTACTGGCCATCTGTATTCCGGTCACCCTGCTGGCGGTGATGCTCACCGCTATCGTCTGCAATTTTCTCGGCTGCGAACTGAAAGACGACCCGGTTTACCAGGAGCGGCTGGCCAAGGGTGAGGTCAGACTGCGCGGCAGCCAGGTGTTTGAGCTGAAGCCGCACGCCAAACGTTCCGTTCTGCTGTTTCTGATCGGCATCGTGGCGGTGATGTTCTACGCCACGGCCATCAGCGATACCGTCGGTCTGATCAAAAACCCGGTACTACCGCGTAACGAGGCGATCGTGGTGTTTATGCTGACCATCGCCACGCTGATCAGCATCACCTGCAAAATCGACACCGGCGAAGTGCTCAATGCCAGCACCTTTAAGTCCGGAATGAGCGCCTGCGTCTGCGTGCTCGGCGTCGCCTGGCTGGGGGATACCTTCGTTAAAGCGCATATCAGCGATATCCAGGCCGTGGCCGGCGACCTGCTGCATAACTACCCGTGGCTGCTGGCGGTGGTGCTGTTCTTTGCCGCCACGCTGCTCTACTCGCAGGCGGCCACCACCAAAGCGCTGATGCCCGCCGCGCTGATGCTGGGCGTGAGCCCTCTCACGGCCATCGCCTCGTTTGCCGCCGTCTCCGCCCTTTTCGTTCTGCCGACCTACCCCACCCTGCTGGCGGCGGTCGAAATGGATGACACCGGCTCCACCCGCATCGGTAAATACGTCTTCAACCACGCCTTCCTGATCCCCGGCGTCATCGCCATTACGCTGTGCGTGATCCTCGGGTTTATTTTTGGCGGCATCATGCTGTAA	MFGAELVIVLLAIYLGARLGGIGIGFAGGLGVLVLTLIFQIKPGAIPFDVIEIIMAVIAAIAAMQVAGGMDYLVSLAERMLRRHPKYITFLAPLVTWFMTVLAGTGHTAFSTLPVITEVAKEQGIRPSRPLSIAVVASQIAITASPISAAVVFFAGILEPLGVSYLMLLAICIPVTLLAVMLTAIVCNFLGCELKDDPVYQERLAKGEVRLRGSQVFELKPHAKRSVLLFLIGIVAVMFYATAISDTVGLIKNPVLPRNEAIVVFMLTIATLISITCKIDTGEVLNASTFKSGMSACVCVLGVAWLGDTFVKAHISDIQAVAGDLLHNYPWLLAVVLFFAATLLYSQAATTKALMPAALMLGVSPLTAIASFAAVSALFVLPTYPTLLAAVEMDDTGSTRIGKYVFNHAFLIPGVIAITLCVILGFIFGGIML	PGPT0017340_649	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0017340-dcuA-K07791	NA	NA
BMS020_04868	324	cutA_1	COG1324	Divalent-cation tolerance protein CutA	ATGACTACGCCTGATGCTGTTGTTGTGCTCTGTACCGCGCCGGATGAAGCGACCGCCCAGGATCTGGCGGCAAAAGCGCTGGCCGAAAAGCTGGCCGCCTGCGCCACGCTCCTGCCGGGCGCCACCTCGCTCTATTACTGGGAAGGGAAGCTGGAGCAGGAGTATGAAGTTCAGATGCTGCTCAAAACCGATCTTGCCCATCAGCAGGCGCTGCTGGACTGCCTGAAGTCTCACCACCCGTATCAAACCCCTGAACTGCTGGTTCTGCCCGTCACGTATGGAGACAACGATTACCTCTCATGGCTTACCGCATCTTTACGCTGA	MTTPDAVVVLCTAPDEATAQDLAAKALAEKLAACATLLPGATSLYYWEGKLEQEYEVQMLLKTDLAHQQALLDCLKSHHPYQTPELLVLPVTYGDNDYLSWLTASLR	PGPT0004080_1474	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-DIVALENT_CATION_TOLERANCE,PGPT0004080-cutA-K03926	NA	NA
BMS020_04869	1797	dsbD_2	COG4232	Thiol:disulfide interchange protein DsbD	ATGGCTTACCGCATCTTTACGCTGATCCTGCTGCTGTGCAGCGCGTCAGCCACCGCCGGGTTATTCGACGCGCCGGGGCGCTCGAACTTTGTGCCTGCTGACCAGGCCTTCGCCTTTGACTTTCAGCAGCAACAGCATGACCTCACCCTGAGCTGGCAAATCAAGGATGGTTACTATCTGTATCGTCAACAGTTTACCTTCCGCGCCGCCGGGGCGACGATCGCCGAACCGGCGCTGCCGGCGGGCGAGTGGCACGAGGATGAGTTTTACGGCAAAAGCGAGATTTTTCGCCAGCGCCTGACCGTCCCGGTCACGGTGAAGCAGGCGGACAAAGACGCCACGCTCACCGTCACCTGGCAGGGTTGCGCCGATGCCGGATTCTGTTATCCGCCGGAGACCAAAGTGATCCCGCTGAGCGCCGTGCTGGCGGCTTCGGCAGATGGCCGGGCGACCACCATTGCCCCTGCGCCGCCGGCGAGCAGCCGTCCGGCGTTCAACCCGCCGCTGCCGGTTGAGCCGCGTCCGGCCCCGGAGGTCGCCACTTCGCCTGCGCCTGCCTCAGCGCCGCCCGCTGACGCCCCCGCCCGCCTGCCTTTCACCGCCCTGTGGGCGCTGCTGATAGGCATTGGTATCGCCTTCACCCCCTGCGTGCTGCCGATGTACCCGCTGATTTCCGGCATCGTGCTGGGCGGCAAACAGCGGCTTTCCACCGCGCGCGCCCTGCTGCTGGCCTTTATTTATGTCCAGGGGATGGCCTTAACCTATACCGCGCTGGGGCTGGTGGTGGCCGCCGCCGGGCTGCAGTTCCAGGCGGCCCTGCAGCACCCGTATGTGCTGGTGGGTCTGTCGGCAGTGTTTATACTGCTGGCGCTCTCCATGTTCGGCCTGTTCACGCTACAGCTGCCCTCCTCGCTGCAGACCCGACTGGCGCTGCTCAGCAATAAACGCCAGGGCGGCTCGCCCGGCGGAGTCTTTGCGATGGGCGCTATTGCCGGGCTGATCTGCTCCCCCTGCACCACTGCGCCGCTGAGCGCCATCCTGTTATATATCGCCCAGAGCGGTAATCTGTGGCTGGGCGGCGGCACGCTGTACCTCTACGCGCTGGGCATGGGCCTGCCGTTGATTCTCGTCACCGTGTTTGGCAACCGTCTGCTGCCGAAGAGCGGCCCGTGGATGAGCCATGTGAAGACCGCCTTCGGATTCGTGATCCTGGCTCTGCCCGTTTTCCTGCTGGAGCGCATCCTCGGCGACCAGTGGGGATTACGTCTGTGGTCAATGCTTGGCGTCGCCTTCTTCAGCTGGGCGTTCATCACCTCGCTGGGCGCGACCCGGCCGTGGATGCGGCTGGCGCAAATCATTCTTCTTGCCGCCGCGCTGGTCAGCGCCCGTCCGCTGCAGGACTGGGCGTTTGGCGCCCCGGCGCTCGAGCAGCAGGCGCATCTGGCCTTCACCCGCGTCAGCTCGGTGACCGAGCTTGATCGGGCGCTGGCGCAGGCAAAAGGCCAGCCGGTGATGCTCGATCTCTACGCCGACTGGTGTGTAGCCTGCAAAGAGTTTGAAAAATACACCTTTCGTTCACCTGACGTGCAGCAGGCGCTGAAAGGCGTCGTGTTATTACAGGTTGATGTGACAAAAAACAGTCCGCAAGACGCCGCGCTGCTGAAGCGCCTGCAGGTGCTCGGTCTGCCGACGATCCTGTTCTTCAACGCGCAGGGCCAGGAACAACCCGACCGGCGGGTCACCGGCTTTATGGATGCTGCGGCATTCAGCGCCCATTTGCGCGATTGGCAAGCGTGA	MAYRIFTLILLLCSASATAGLFDAPGRSNFVPADQAFAFDFQQQQHDLTLSWQIKDGYYLYRQQFTFRAAGATIAEPALPAGEWHEDEFYGKSEIFRQRLTVPVTVKQADKDATLTVTWQGCADAGFCYPPETKVIPLSAVLAASADGRATTIAPAPPASSRPAFNPPLPVEPRPAPEVATSPAPASAPPADAPARLPFTALWALLIGIGIAFTPCVLPMYPLISGIVLGGKQRLSTARALLLAFIYVQGMALTYTALGLVVAAAGLQFQAALQHPYVLVGLSAVFILLALSMFGLFTLQLPSSLQTRLALLSNKRQGGSPGGVFAMGAIAGLICSPCTTAPLSAILLYIAQSGNLWLGGGTLYLYALGMGLPLILVTVFGNRLLPKSGPWMSHVKTAFGFVILALPVFLLERILGDQWGLRLWSMLGVAFFSWAFITSLGATRPWMRLAQIILLAAALVSARPLQDWAFGAPALEQQAHLAFTRVSSVTELDRALAQAKGQPVMLDLYADWCVACKEFEKYTFRSPDVQQALKGVVLLQVDVTKNSPQDAALLKRLQVLGLPTILFFNAQGQEQPDRRVTGFMDAAAFSAHLRDWQA				NA	NA	NA	NA	NA
BMS020_04870	591			hypothetical protein	ATGGAGGAGAACACCGTGCTACGTGAAGACGTCCTGGCAGAAGCCATTAAAATTCTTGAAATTGAAGGTATCGCCAACACGTCGCTGGAGATGGTCGCTGAGCGCGTGTCCTGTCCGACGAGCGACCTGAAACGCTTCTGGCCCGATCGCGAAGCGCTGCTCTACGACGCGCTTCGCTATCTGAGCCACCAGGTGGATGTCTGGCGCCGTCAGCTGCTGCTGGACGACACCTTAAGCGCAGAGCAAAAGCTGCTGGCGCGCTATAGCGCGCTTACCACCTGCGTCAGCAACCAGCGCTACCCCGGCTGTTTATTTATCGCCGCCTGCACATTCTATCCGGATGCCCAGCACCCGATCCACCAGCTGGCGGAACAGCAGAAGCAGGCTTCGCTGGCCTACACCCATGAGCTGCTGACCCAGCTGGAGGTGGATGATCCGGAAATGGTCGCCAAGCAGATGGAGCTGATTGTCGAGGGCTGTCTGAGCCGTCTGCTGATCAAGCGTAGCCAGACGGATGTCGATACGGCGCGGCGGCTGGCAGAAGATATTCTGCGCTTCGCCCAGTGCCGTATGGGCGGGGCCTTAACCTGA	MEENTVLREDVLAEAIKILEIEGIANTSLEMVAERVSCPTSDLKRFWPDREALLYDALRYLSHQVDVWRRQLLLDDTLSAEQKLLARYSALTTCVSNQRYPGCLFIAACTFYPDAQHPIHQLAEQQKQASLAYTHELLTQLEVDDPEMVAKQMELIVEGCLSRLLIKRSQTDVDTARRLAEDILRFAQCRMGGALT				NA	NA	NA	NA	NA
BMS020_04871	2088			hypothetical protein	ATGCGCGCGTTCTTCTGGGCTGCCTGGCTGGGGCTGTGCTCCACACCTCTGCTGGCGGCGCCCCTGCAAGGTTTTTCCTTTGCGCAAAAAGACTGGGAGCTCGCCTGCGATAACACTGGCACCTGCCGGGCGGCAGGTTACGGTGTCCGCATGGGCGAGGTCAGCGTGCTGTTGACCCGCAACGCCGGCAGCGAACAGCACCTCACCGCCACGGCCACCTTCGCGCAGATCGAACACGATATCCCCGCCGACTCCACCGCCAGCCTGCTGATCGACGACCGGGACCTCGGCTCGCTGGATGCCGTGGATGACAGCCACTTCCGTCTGGACAGCGATCAGACCTCCGCCGTGCTGCAGGCCCTGGCGAACCAGCGCAAAATCGAATTCACGCTTAACGGCCAGCACCTGCCGCTTTCCAGCGCCGGCAGCCGCGAGGTGCTGAGTAAAATGGATGCGTTTCAGCGACGAACCGGCACCGCCGACGCGCTGCTGGATAAAGGCGACGCGGGCGACGATGCCATTTTGCCCGCTGCCCCCGCCCCGGAAATCATCGCCGCGCCGGTGATCCACAACGCGCAACCTGTACCGCTGAGCATGCTCCAGCGCCAGAAGCTGTTGCCCGCCCTGACGCCGCTGCTGAACCAGCGCTGTGAAGACTGGCAGAACCCGGCCATTCCGGCGGCAGAGCGCCAGATCACCCTCACCGCGCTGGATAAAACCCATTCGCTGGCGCAGGCGCTCTGCTGGCGAGCGCCCTATAACGATGGCTATGCCCTGTGGCTGGTCGATAACGCCCAGTTGAGCAAACCGCGGCTGCTCACTACCGAGGCCTCCAGCTACGCCAACGGCACGCTGGTCTTCCTGCACAAAGAGCGGGGCATGGCCGACTGCGTAACCGGCGAGACGCGCGTCTGGGAGGGTAAAACCTTCGTTCCCAGCCTGAAGTACAGCACCGGTATGTGCCGGGAAATCACCCCGGGCGGCACCTGGATGCTGCCGACCTTTGTCAGCCAGGTGATCCCGAAGCAGCAGAAAGAAGCGGATAACCTGGCCCTGCGAACGCTGTATAACGCGGTGCTGAAAGCGCAAAAAAGCGATCCGGAACTGGCGCTGAACCGGGTCGCCGAGCAGTTTCCGTTAACCGGCCATATTACCGACTTCACGCTCACTTACGCCGATGACAGCCTGGTGACGACCAGCAAACCGTCCCCGGATATCAGCGATGACGAGTGGCAGGCGTTTCTGCGCTCCGCAATTAGCGCAGATTCAGAAAACGGTAAAGTCAGCTTTACGCTTATCGACCTCGACGGCGACGGCAAACGCGATCTGATCATCGACAGCTACGTGGGCGGCACCGGGCTCTTCAGCTACACCGGGGTGCTCCGGAGAAGCGATGATGATTTTGCCGCCGTCAACGATAGCGACAGTGATAACGGCGATGATTTCGATGCCGGGGTGCCCGGCGCCCTCTTTTCGATCAATGGCCGCGGGGCCAACCAATGGAACCACTGGGTCAAAATCAACGGCCAGGTGTATGCCCTGTGGTACAACGGCCAGTTTGGCGAAGATAATCTCTATCTGCTGCGCCCGTTCAGCACCGCCAGCCAGACGCCCGCGGTGACGGTTCGCTACCGCTATACGCTGAACAGCATCCGCTCCCCGGAGAAAGACCAACCGCTGACCCCCAGCCTGAGCGACAGCGATAAAGCGGATCTGCTGCGCTCGCTGGAGGTGATGCAGGGCAACCTGCTGAAAGACAAACCCGCCAGCGACAACGATGCGCCGATCTGCCCCATTCCGCCCGGCGCCTCCGCCGACGAGGCGGACAACTATTACAGCGGCGTTGCCGTTAACTATATCTATGAGACGGTGGCCTATATTCCGGTCTGGCTGAACGGAAAATGTTATATCGGCACCATTTTCAGCCATCATGGCGCCTATCGTCACGGCGTGGATGCGGAAATTACGCTGAGCTCGCCGCGGGAAGATGAAGAGGTCATTGGTGATTACCTGATCTCCGGGTTGCGCCACGTTATCTCCGTCACCAGCGGCTGGAAAAGCCGTGAAGGCGATAACGGCATGCAGTGA	MRAFFWAAWLGLCSTPLLAAPLQGFSFAQKDWELACDNTGTCRAAGYGVRMGEVSVLLTRNAGSEQHLTATATFAQIEHDIPADSTASLLIDDRDLGSLDAVDDSHFRLDSDQTSAVLQALANQRKIEFTLNGQHLPLSSAGSREVLSKMDAFQRRTGTADALLDKGDAGDDAILPAAPAPEIIAAPVIHNAQPVPLSMLQRQKLLPALTPLLNQRCEDWQNPAIPAAERQITLTALDKTHSLAQALCWRAPYNDGYALWLVDNAQLSKPRLLTTEASSYANGTLVFLHKERGMADCVTGETRVWEGKTFVPSLKYSTGMCREITPGGTWMLPTFVSQVIPKQQKEADNLALRTLYNAVLKAQKSDPELALNRVAEQFPLTGHITDFTLTYADDSLVTTSKPSPDISDDEWQAFLRSAISADSENGKVSFTLIDLDGDGKRDLIIDSYVGGTGLFSYTGVLRRSDDDFAAVNDSDSDNGDDFDAGVPGALFSINGRGANQWNHWVKINGQVYALWYNGQFGEDNLYLLRPFSTASQTPAVTVRYRYTLNSIRSPEKDQPLTPSLSDSDKADLLRSLEVMQGNLLKDKPASDNDAPICPIPPGASADEADNYYSGVAVNYIYETVAYIPVWLNGKCYIGTIFSHHGAYRHGVDAEITLSSPREDEEVIGDYLISGLRHVISVTSGWKSREGDNGMQ				NA	NA	NA	NA	NA
BMS020_04873	291			hypothetical protein	ATGAGAATAAGGGACAGTATTGCGGAGCGGTTAGAAGCCTGCGGGCTCTACCGTCGGGCGGCATCCAGATGGATTGAGGTGATGCAGCGTTGCCTGGACGATGAGGACCGAGAGTGGATCCGTCACCATCGCAATCAGTGTCTGAAAAAAGCGCAACGTCCGCCGGCGCCGAAAGAGGAGTTCGCTGATCTCCACCAGGCGGCAAAGGAGACGCAGTATCGCATGGGCATTGCGAAGCCCTATGGCGAAGCGTTCAGGCTGCCCGGCAAAGGGAAAACCGCCGCCGAGTAA	MRIRDSIAERLEACGLYRRAASRWIEVMQRCLDDEDREWIRHHRNQCLKKAQRPPAPKEEFADLHQAAKETQYRMGIAKPYGEAFRLPGKGKTAAE				NA	NA	NA	NA	NA
BMS020_04874	567			hypothetical protein	ATGATATTAGTTACCCAGGATCACTATCTTTTTCAAGGAGTTAAGAATTTCTTTCCTGATATCATTCAGTTAGATTCTAGCGGAAAAGCGATTTTAGATAATGAGGTTGATGAACTCTCTCTGCTGGTTGATAGCCGTTCGCCGCTTTGTCATTACGATTATCTGGTCATGGAGGCGGCACAATCCAGAAAGCGAATATGCTGTATTGTCCTCGATATGCGCCATCGGGAAGAGCATTTACTCAGTCTGAAATCGTTTTTAAACATGTCATTATCACCCGCCGATATGGCGACCTTATTTGGGCTTTTTCTGGAGATGAAGAGCAAGCGGCTGACCAAAGAGTGGTTCGACAATCTGCGCTTAAGTATGACAGAGCAGCTGATGCTGCGTTTTCTTGGGGCGGGGATGACAATGGAGGAGGTGGCGGTGAATCTGAATACTTCGCTAAAAAGCCTTTACCGCAAGCGGACCGCGCTTTATGAGCGACTGGGGTTAGATAATTTTAATGAAGCCTGCTTATTTATCTTCAAAAATAAACTGCTGGACCAGTCCGGTCGATCGCCATAA	MILVTQDHYLFQGVKNFFPDIIQLDSSGKAILDNEVDELSLLVDSRSPLCHYDYLVMEAAQSRKRICCIVLDMRHREEHLLSLKSFLNMSLSPADMATLFGLFLEMKSKRLTKEWFDNLRLSMTEQLMLRFLGAGMTMEEVAVNLNTSLKSLYRKRTALYERLGLDNFNEACLFIFKNKLLDQSGRSP				NA	NA	NA	NA	NA
BMS020_04875	2490	pgaA		Poly-beta-1,6-N-acetyl-D-glucosamine export protein	GTGTTGTGCAATGGATTCTTGATGAACATATGGCAAATAGAAATGGAAAGATCACCTTATTCAAATACGTTATTGTTTAATCGCAACACGAAACTCTCGCTGTCAATCGGCGTGCTTTTGCTCTTCCCGACGCTGGTTCAGGGAGCGGACTCGCGCTATGACCAGCAGATCCTGCAAGCGCGTCAAGGCCAGTACGCCCCCTTTCTCTCATATCTTCAGCAATACCAGCTGCGGCATGCCTTAACCCCTTCTCAGGTTGCAGACTGGCTGCAGGTAGCCCTCTGGGCCGGCCAGGACGACGAGGTGGTGAAAGTCTGGCGACGCTATCAGGTCTATATGCCGCTTCCCGCACGGGGCACCGCCGCCGCGGCGCAGGCGATGCGCAACCAGAAACAGTGGCAAGCCTCGCTCCTCCTCTGGCAGCAGGCTCTCAGCCAGGCCCCCGACAGTGACGACTATCGTATCGGCTATATCAAGACGCTGGCCGATGCCCGCAAGGACGGCGAGGCGCTCAGCGAAGCGCGTCGCCTGGTGGCGGAGCAGGCGAGCATTGCCCACCTGCAGACCCTCTCTTATGTCTACCTGCGGCTTGGCAAGAGCTGGGACCAGCTGCTGGTGGACACGCAGATCCTCGATCGCGAACCGCAGAATAAAGCCGCGCTGGCGAGCCTGATGGCGACCCTGACCCGCAACCGGATCGACTCCCCCGCCCTCGGCCTCGCGAATAGCGTCGAACTGACGCCCGCGGAAAAGCGCAACCTGCAGCTGAACGCCGCCGCCGAACTGGTGCGCCTTGCCGATACGCCTTCCCGTGAAGAAAAGGCGCGTTACGCGCTGGCCCGCACGGCGCTGGCGCAATACGACGCGATGATCGCCGCCTGGCGTCCCGACCCGCAGGCCGCCCCGGACATCACCCGGGCGCGCATTGACCGTCTGGGCGCGCTGTACGCCAACGCAGACTACGCGCAGGTTATCCGCGAATACCAAAGCCTGATGGCGCAGCAGCAGGCGGTTCCCGACTGGGCCATCGGCTGGGTTATCTCCTCTTATATCGCGCTTAAGCAGATTGAGCCTGCGTTGACGCTTATTCATCAGCATCCCTCGTGGCTGACGAGCCAACAGAATGAAGAACATGAGCTTTTCTTCGCCCTGCTGGACACCGCTCAGTACCCGGCGGCGCAACGGTATGTCGCCCGACTCACCCGGAATGCGCCCTATATCCGTCATCTCTACGGCTCGCCGACGCCCCAGCCGAACGACGACTGGCTCACCGCACAGTCGCTTAACGTGCACTATCTCTCCGCCACCAACGCCCTGCCGCAGGCCGAAGCCCGTATGCAGCGCCTGGCGGCGACGGCCCCCGGCAACCAGGGGCTGCAGATCGACTATGCCGCCCTGCTGCAGGACAGAGGGCTGCCGCGGGCAGCCGAACGCCAGCTGAAAGCGGCGGAAGCCCTGGAGCCCGCCAGCCTGCAGCTGGAGCGCCAGCAGGCCTGGGTCGCCCTCGATCTGCAGGAGTGGCGGCAGATGGATCTGCTGACCGACGACGTTATCGCCCGTTCGCCACGGGATCTGAATACCCAGCGCCTGGCCAGAGCCCGCGAAATCCATCATTTCTCCGAGCTGCGCCTGAGCGTCGGCAAAGGGCTGCATTCCGACAACCCGGTGAGCGGTACCCACGACCTCAGTTTTGAGACGGCGATCTACAGCCCGCCGATAGCCGACAGCTGGCGATTGTTCGGCGGCCACCGCTTTGCCCAAGGCAATTTTGAAGAGGGGAAAGGCAGCCGTCGCCAGCTGTTCGCCGGTATTGAATGGCGTCCGCGCGACGCCTGGGGAGAACTTGAACTCTCCAGCGTCAATTTTCACGGCGAGAATAAGCCCGGCGTCCGCCTCTCCGCCGCGCACGATGTCAACGATCGCTGGCAGCTGGGCGGCGAGCTGGAGCGGATTTCGCAGCAGACGCCGCTGCGCGCGTTACGCAACGGCGTCAGCGCCAACCGCGGCGAAGGCTGGCTGCGCTGGTATCAAAACGAGCGCCGGGAGTACCGCGTCAGCGCGGCCGCCAGCCGCTTTACCGACCACAACCGTCGTCAGGAGTACACCCTCTCCGGTAAAGAGCGCCTCTGGCAGACCCCGTGGCTAACGCTGGATCTGCAGCCCGGTCTGTCGGCCAGCGCCAATAGCCGCACCGACACCGCGTATTACAGTCCGGCCCGCGACCTCGCGGCCACCGCGGCGCTGGCGGTCGATCACACGCTTTACCAGCGGTATGACACCGTCTGGAGTCAGCAGCTACTCGCCGGCGGCGGCAGCTACTGGCAAAAAAATCACGCCGCCGGCGCGATAACGACGCTGGGCTACGGACAGCGTCTGCGCTGGAACAACCTCGTCGACGCCGGGGTGATGCTGAACTGGGACAAACGCCCCTACGACGGTAAACGTGAAAACAACCTCGCTATCACTGTTGATGCAAACATACGGTTTTAA	MLCNGFLMNIWQIEMERSPYSNTLLFNRNTKLSLSIGVLLLFPTLVQGADSRYDQQILQARQGQYAPFLSYLQQYQLRHALTPSQVADWLQVALWAGQDDEVVKVWRRYQVYMPLPARGTAAAAQAMRNQKQWQASLLLWQQALSQAPDSDDYRIGYIKTLADARKDGEALSEARRLVAEQASIAHLQTLSYVYLRLGKSWDQLLVDTQILDREPQNKAALASLMATLTRNRIDSPALGLANSVELTPAEKRNLQLNAAAELVRLADTPSREEKARYALARTALAQYDAMIAAWRPDPQAAPDITRARIDRLGALYANADYAQVIREYQSLMAQQQAVPDWAIGWVISSYIALKQIEPALTLIHQHPSWLTSQQNEEHELFFALLDTAQYPAAQRYVARLTRNAPYIRHLYGSPTPQPNDDWLTAQSLNVHYLSATNALPQAEARMQRLAATAPGNQGLQIDYAALLQDRGLPRAAERQLKAAEALEPASLQLERQQAWVALDLQEWRQMDLLTDDVIARSPRDLNTQRLARAREIHHFSELRLSVGKGLHSDNPVSGTHDLSFETAIYSPPIADSWRLFGGHRFAQGNFEEGKGSRRQLFAGIEWRPRDAWGELELSSVNFHGENKPGVRLSAAHDVNDRWQLGGELERISQQTPLRALRNGVSANRGEGWLRWYQNERREYRVSAAASRFTDHNRRQEYTLSGKERLWQTPWLTLDLQPGLSASANSRTDTAYYSPARDLAATAALAVDHTLYQRYDTVWSQQLLAGGGSYWQKNHAAGAITTLGYGQRLRWNNLVDAGVMLNWDKRPYDGKRENNLAITVDANIRF	PGPT0023475_96	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-POLY-N-ACETYL-GLUCOSAMINE_METABOLISM	CE-EPS-POLY-N_ACETYL-GLUCOSAMINE_BIOSYNTHESIS,PGPT0023475-pgaA-K11935	NA	NA
BMS020_04876	2016	pgaB	COG0726	Poly-beta-1,6-N-acetyl-D-glucosamine N-deacetylase	ATGCTGAACACGACCCTGCGCAACGGCCTGATGCTTCTCGGCTGGCTGTGCCTTATCTTCAGCGTGCGTGCTGAGGAGGTCCCCTTCCTCGCCCCGCAGCAACGACCCCAGCTGGAGGCAAATAACCCCTGGCCGGCGGATCGCTTTCTGGTGCTGGCCTATCATGACGTCGAAGACGCCGCCGCCGACCAGCGTTATCTTTCGGTGCGTACCAGCGCGCTTAATGAGCAGATCGCCTGGCTGCTGCATCACGGCTACCATGCCGTGAGCGTTCAGGACATTCTGGACGCCCATCATGGCCTTAAGCCGCTGCCGCCTAAGGCTTTTCTTCTCAGCTTCGACGATGGCTATAGCAGTTTTTACACTCGCGTCTGGCCGCTGCTTAAAGCCTGGAACGTTCCGGCGCTGTGGGCGCCGGTGGGCAGCTGGGTGGACACTCCCGCCAACCAGCCCGTTAATTTTGGCGGCCTGATGACGCCGCGCGATCGCTTCGCAACCTGGGAGATGGTGCGCGAGCTTAGTCGCTCGCCGCTGGTGGAGATCGGCGCGCACACCTGGGCCTCGCACTACGGCCTGCCGGCCAATCCGCAGGGCAGCAGCGAGCCCGCCGCCGCTAACCGCGGCTGGGATAAAACCACCGGCCGCTATGAAAGCGACGCGCAGTTTACCCGGCGAATGGCCGATGACGTGCAGAAAGTGACGGCGAAAATCCACGACGTCGCCGGGAAAGCGCCGCGCGCCTGGGTGTGGCCCTACGGCGCCGCCAGCGGCAGCACCCTGGCCATCGCCAAACAGCAGGGGTATCAGCTGGCGTTTACGCTGAACGACGGCCTGGGCAACGTGAAGGATCTGGATAATATTCCGCGCATGCTGATCGCCGGTAACCCGTCGATCAAGGCCTTTGCCAACGCAGTGGCGCAGATTCAGGAAGCCGATCCTGTTCGGGTGATGCATGTGGATCTGGACTATGTCTATGACCCCAATCCCGTCCAGCAGGCAAAGAATATCGATAAGCTGGTGCAGCGCGTCTATGACATGAAAATCAGCCACGTCTTTCTGCAGGCCTTCTCCGACCCGCAGGGTGACGGCACGGTCAAGTCGCTCTATTTCCCCAACCGCTGGCTGCCGATGCGCGCCGACCTGTTTAACTTCGTCTCCTGGCAGCTGCAGACCCGCGGCGGGGTGAAGGTTTATGCCTGGATGCCGGTGCTGGCCTTCGATCTCTCGTCCGATCTGCCGCGCGTTCAGCGCTGGGATCCGCAAACCGGGAAGGCGTTACTTGCCCGTCAGCCCTATGTCCGCCTGTCGCCCTGGGATCCCCGGGTTCGCCAGCAGATCACCGACATCTATGAGGATCTGGCCCGACACGCCAGCTTCAGCGGGATTCTGTTCCACGACGACGCCGTGCTGACCGATTTTGAAGACGTGAGCCCGGAGGCGGTCGCCGCCTGGCAGCAGAGTGGCCTGGCGCACGATGCCGGCCCGGTGCCCCAAAGTCCGCAAGAGCGCCAGGCATGGATGCGTTTCAAAAGCCAAACCCTGACCCGCTTCACTCTGCAGCTGCGCCAGTCGGTGCAGGCCATCCGCGGCCCGCAGGTAAAAACGGCGCGTAATCTCTTCGCCCTGCCGATCCTTGAGCCGCAGAGCGAAGCCTGGTTTGCGCAAAATCTGGATGACTTCCTTGCCGCCTATGACTGGACGGTCCCCATGGCGATGCCGCTGATGGAGTCCGTGCCGATTGACGCCAGCCAGGCCTGGCTGACGCGGCTGGTGCAGGCCGTCGCCCGCCGCCCGGGCGCGCTGAAGAAAACCATCTTTGAGCTACAGGCCAGAGACTGGAACCGACGCCAACGCAACGCCATTCCCGACCAACAGCTGGCGGACTGGATGCATTTGCTGCGGCTAAACGGCGTCAAAAACTACGGCTACTACCCAGACGATTTCATTAACAATCAGCCAGATATCTCCCGTATCAGACCGCAATTTTCTTCCTGGTGGTACCCTGACCATGACTGA	MLNTTLRNGLMLLGWLCLIFSVRAEEVPFLAPQQRPQLEANNPWPADRFLVLAYHDVEDAAADQRYLSVRTSALNEQIAWLLHHGYHAVSVQDILDAHHGLKPLPPKAFLLSFDDGYSSFYTRVWPLLKAWNVPALWAPVGSWVDTPANQPVNFGGLMTPRDRFATWEMVRELSRSPLVEIGAHTWASHYGLPANPQGSSEPAAANRGWDKTTGRYESDAQFTRRMADDVQKVTAKIHDVAGKAPRAWVWPYGAASGSTLAIAKQQGYQLAFTLNDGLGNVKDLDNIPRMLIAGNPSIKAFANAVAQIQEADPVRVMHVDLDYVYDPNPVQQAKNIDKLVQRVYDMKISHVFLQAFSDPQGDGTVKSLYFPNRWLPMRADLFNFVSWQLQTRGGVKVYAWMPVLAFDLSSDLPRVQRWDPQTGKALLARQPYVRLSPWDPRVRQQITDIYEDLARHASFSGILFHDDAVLTDFEDVSPEAVAAWQQSGLAHDAGPVPQSPQERQAWMRFKSQTLTRFTLQLRQSVQAIRGPQVKTARNLFALPILEPQSEAWFAQNLDDFLAAYDWTVPMAMPLMESVPIDASQAWLTRLVQAVARRPGALKKTIFELQARDWNRRQRNAIPDQQLADWMHLLRLNGVKNYGYYPDDFINNQPDISRIRPQFSSWWYPDHD	PGPT0023480_179	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
BMS020_04877	1332	pgaC	COG1215	Poly-beta-1,6-N-acetyl-D-glucosamine synthase	ATGACTGATCGCATTATCGCATTGTGCATTTTATGCCTCGTTTTCGGGCTGCCGTTAGGCGTCGCAGCGGTGTTTACCGGCGAGCTTATCCTCGACTTTGTCTTTTTCTGGCCGCTGTTTATGTCGGTGCTATGGATCACCGGGGGTCTGTACTTCTGGTTCCAGCTGGAGCGCCACTGGCCGTGGGGAGAGGAAACCCCGCCGCCGTCGCTGCCGGGCAATCCGCTGATCTCGATCCTGATCCCCTGCTTTAACGAGGAGAAAAACGCCCGGGAGACCATCAGCGCGGCGCTGGCCCAGCGTTACGCCAACCTCGAAGTGATCGCGATTAACGACGGCTCTTCGGACAACACTGCCCAGGTGCTCCAGCAATTGGCGCAGGAGGAGCCAAGGCTGCGGGTGATCCACCTGGCCGCCAATCAGGGAAAAGCGGTGGCGCTCAAAGCGGGCGCCGCCGCCGCGCGCGGCGATCTGCTGGTCTGCATCGATGGCGACGCCCTGCTGGACCGGGATACCGCGGCCTGGCTGGTCGCCCCGCTGATCCACTACCCGCACGTCGGGGCGGTCACCGGCAATCCGCGGATCCGCACCCGATCCACGCTGATCGGCCGCATTCAGGTAGGCGAGTTCTCGTCGATCATTGGCCTTATCAAGCGGACGCAGCGGATCTATGGCCGGGTCTTTACTGTCTCCGGCGTGATCGCCGCCTTCCGGCGTCAGGCTCTGGCGGACGTCGGCTACTGGAGCCCGGATATGATCACTGAAGATATTGATATCAGCTGGAAGCTTCAGCTCCGCCACTGGGACATCTTTTTCGAGCCGCGGGCGCTGTGCTGGATCCTGATGCCTGAGACCCTCAAAGGGTTATGGAAGCAGCGTCTGCGCTGGGCCCAGGGGGGAGCCGAAGTCTTTCTGGTCAACCTGCGCCGCCTGTTTCACTGGCAGCATCATCGGATGTGGCCGCTGTTTCTGGAGTATGCCTGCTCCACGCTGTGGGCCTTTGCCTACGCGGTCACCATCCTGCTGTTTATCCTCAGCCGCCTGATGCCATTGCCGGACAACCTGACAGTGCACAGCCTGTTTCCGCCTGAGTTCACCGGCATGCTGCTCGGCCTGATGTGCCTGCTGCAGTTCGTCGCCAGCCTGTATATCGAACGGCGCTATGAGAAAAAGGTCGCCAAATCCCTGTTCTGGGTGATCTGGTTCCCGATGGTTTACTGGATGATCGGCCTGCTGACCACGCTGGTCGCTTTTCCGAAAGTGATGTTGAAACGTCAACGTTCCCGCGCGCGCTGGGTGAGCCCGGACCGGGGAAAAGGAAGCCTGCGATGA	MTDRIIALCILCLVFGLPLGVAAVFTGELILDFVFFWPLFMSVLWITGGLYFWFQLERHWPWGEETPPPSLPGNPLISILIPCFNEEKNARETISAALAQRYANLEVIAINDGSSDNTAQVLQQLAQEEPRLRVIHLAANQGKAVALKAGAAAARGDLLVCIDGDALLDRDTAAWLVAPLIHYPHVGAVTGNPRIRTRSTLIGRIQVGEFSSIIGLIKRTQRIYGRVFTVSGVIAAFRRQALADVGYWSPDMITEDIDISWKLQLRHWDIFFEPRALCWILMPETLKGLWKQRLRWAQGGAEVFLVNLRRLFHWQHHRMWPLFLEYACSTLWAFAYAVTILLFILSRLMPLPDNLTVHSLFPPEFTGMLLGLMCLLQFVASLYIERRYEKKVAKSLFWVIWFPMVYWMIGLLTTLVAFPKVMLKRQRSRARWVSPDRGKGSLR	PGPT0023485_395	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
BMS020_04878	447			hypothetical protein	ATGAATGAAAATACGCTCATCTTAACCGAACACCGCGTGCTGCCCCGGCTGGTGGACGCCGGCTTAACGCTGCTGGCCTGGCTCGGTTTTCTGTTCTTTCTCTACGCCAATTTGCTGATGCAGTTCATCGCGCCGCCCTCCCCGCGCTGGTCATCGTTGATGGACTCCCTGAATACGGCGCTGGTGTATTTATTGATTGCCGCGCTGAACGGCTGGTTGCTGATCCTCTGGTACCACTATAACCGACGCCGCGCCCATACCCGGCGTCACACCGCGGTGCTTACCCTGCGAGATGAGGAGCTGGCCAGCAGCTTTAACGTCGCCCCGCAGATCATCTCCGAAATGAGTCGCTATAATTTGCTGACCGTTTACCACGATCACATTGGCCAGATTATTGATTTAAAAAGCCACGCGCTGCCGCCGCCCGAGGAGAGGGATCAGGAATGA	MNENTLILTEHRVLPRLVDAGLTLLAWLGFLFFLYANLLMQFIAPPSPRWSSLMDSLNTALVYLLIAALNGWLLILWYHYNRRRAHTRRHTAVLTLRDEELASSFNVAPQIISEMSRYNLLTVYHDHIGQIIDLKSHALPPPEERDQE	PGPT0023490_151	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-POLY-N-ACETYL-GLUCOSAMINE_METABOLISM	CE-EPS-POLY-N_ACETYL-GLUCOSAMINE_BIOSYNTHESIS,PGPT0023490-pgaD-K11937	NA	NA
BMS020_04879	786			hypothetical protein	ATGTCTGGCCACAAGAAATACCTCTCTGTCGCCCTGCTGAGCGCTGTCTTACTGCCGGCGATGGCTTCTGCCGCTGACGCGCCGGCGACTTTCACCGCGGAACAGGAGGCGCAAATCGGCAAAATCGCCGCCGATTACCTGGTCGCCCACCCGGAAGTTCTCCTGCAGGCAAGCCAGAAACTGCAGCAAATTCAGGCTGAGCAGCAGGCCAGCGCGGCCACCCAGGCGGTGCTGAAGAATGCCGCCTTGCTGACCCAGGATAAAAATACCCCGACCTACGGCCCGGCCAACGGCAAAGTCACGGTGATTGAGTTCTTTGACTACCAGTGCGTCTACTGCAGCCGGCTGGCGCCGGTGATGGAGCAGGTGATTAAAGCGCATCCGCAGACCCGCTTCGCTTTTAAAGAGTGGCCTATCTTCGGCGGCCGCTGGGAAAGCTCGCTGGAAGCAGCGAAAACCGGCCTGCAGATCTATCAGCAGAAAGGGGCGGATGCCTATCTGGCCTACCATAACGGGATCTACGCCACCGGACATAACGAAGGCAAGCTGACGACGGCGGATATCCAGCAGCAGGCGAAGAAAGCCGGCTTTGATGCGAAGAAGGCCACCGACGTCGAACCGGTGCTGCAGAGCATTAACGACCTGGCGCAGGAGATTGGTCTCAGCGGCACGCCGGGTGTGATCGTGATGCCGACTACTGGCGCCACGGAAGCCAGCATCACCGTCTTCCCGGGGCTGGCGGATAAAGCCTCGCTCGAAGCCGCCATTAAAAAGGCCGGCGGCTGA	MSGHKKYLSVALLSAVLLPAMASAADAPATFTAEQEAQIGKIAADYLVAHPEVLLQASQKLQQIQAEQQASAATQAVLKNAALLTQDKNTPTYGPANGKVTVIEFFDYQCVYCSRLAPVMEQVIKAHPQTRFAFKEWPIFGGRWESSLEAAKTGLQIYQQKGADAYLAYHNGIYATGHNEGKLTTADIQQQAKKAGFDAKKATDVEPVLQSINDLAQEIGLSGTPGVIVMPTTGATEASITVFPGLADKASLEAAIKKAGG				NA	NA	NA	NA	NA
BMS020_04880	684			hypothetical protein	ATGTATGCGTTTCTTCAACAATGGGACATGGCGGTGATTATGCTGCAGATTGTCGCCATCGACTTACTGCTGGGCGGCGACAACGCCGTGGTGATCGCCATGGCCTGTCGCAAACTGCCGCCACAAAAACGCACCAAAGCGATCGTTATCGGCACCGTAGGCGCTATCCTGGCGCGCATCCTGCTGCTGGCGATCGCCCTGTATCTCCTGTCGCTGCCGTGGCTGAAAATAGTCGGCGCGCTGCTCCTGATGTGGATTGGCATCAGGCTGGTCAGTAATGAGGAGGACGAGAGCGAGGTTGCCAGCTCCGGCAGCCTGTGGCGCACCGCAGTCACCATCACCGTCGCCGATGTGATCATGTCGCTGGATAACGTGCTGGCGGTGGCCGCCGCAGGCAAAGGGCACATTGCGCTGGTCGCCCTCGGCGTGGCGATCAGCATTCCGGTTATCGTCGCCGGCAGCAAGCTGGTGCTGGCCCTGCTCACTCGCTTTCCCGCGGTGGTGCTGCTGGGCGGGATGCTCATCGGCTGGATTGCCGGGTCAATGCTGGTCAGCGACCCTACCCTTCGCCAGCTGTTTCCCACCGCCGGCGACGGCATTGCGCGCCTGGCCGGCGCCATCGGCGCGCTGCTGGTGCTGTTCGCAGGCTGGCGCCGTCGTCCGCGGCCGCAGGTGAAAGACTAG	MYAFLQQWDMAVIMLQIVAIDLLLGGDNAVVIAMACRKLPPQKRTKAIVIGTVGAILARILLLAIALYLLSLPWLKIVGALLLMWIGIRLVSNEEDESEVASSGSLWRTAVTITVADVIMSLDNVLAVAAAGKGHIALVALGVAISIPVIVAGSKLVLALLTRFPAVVLLGGMLIGWIAGSMLVSDPTLRQLFPTAGDGIARLAGAIGALLVLFAGWRRRPRPQVKD				NA	NA	NA	NA	NA
BMS020_04881	918	cbpA_1	COG2214	Curved DNA-binding protein	ATGGAATTGAAGGATTATTATGCCATTCTCGGGGTGCAACCAACCGACGATCTGAAAACCATCAAGACCGCCTACCGCCGCCTGGCGCGCAAGTACCACCCCGACGTCAGTAAAGAAAACGATGCCGAAGCCAAATTTAAGGATCTCGCCGAAGCCTGGGAAGTCCTGAAAGATGAGCAACGGCGCGCGGAATACGATCAGCTCTGGCAGCATCGCAACGATCCCGGGTTCGGTCGCCAGCAGCAGACCCACGAGCAGAGCTACAGCCAGCAGGATTTCGACGACATCTTCTCCTCCATGTTTGGCCAGCAGGCGCATCAGCGTCGCCGTCAGCACGCGTCGCGCGGCCACGACCTGGAGATCGAGGTCGCGGTGTTCCTTGAAGAGACGCTGGCTGAGCAGACCCGCACCATCAGCTATAACCTGCCGGTGTATAACGTGTTCGGCATGATCGAAAGCGAGACGCCAAAAACGCTGAATGTGAAGATCCCCGCCGGGGTGGCCGATGGTCAGCGCATCCGCCTGAAAGGCCAGGGGACGCCGGGCGAAAACGGCGGGCCGAACGGCGATCTGTGGCTGGTGATCCACATCGCCCCGCACCCGCTGTTCGACATCGTGGGACATAACCTGGAGATCGTCCTGCCGCTGGCGCCGTGGGAGGCCGCGCTGGGCGCCAAAGTCACGGTGCCCACCCTGAAAGAGAGCATTCTGCTGACGGTGCCGCCGGGTAGCCAGGCAGGGCAGCGCCTGCGTATCAAGGGCAAAGGGCTGGTGAGCAAAACCCACACCGGCGATTTGTTCGCCGTTATTAAAATTGTGATGCCGCCAAAACCAGATGAAAAAGCGCGTGAGCTCTGGCAACAGCTGGCCACCGCCGAAGCCAGCTTCGATCCGCGTAAGACATGGGGGAAAGCCTGA	MELKDYYAILGVQPTDDLKTIKTAYRRLARKYHPDVSKENDAEAKFKDLAEAWEVLKDEQRRAEYDQLWQHRNDPGFGRQQQTHEQSYSQQDFDDIFSSMFGQQAHQRRRQHASRGHDLEIEVAVFLEETLAEQTRTISYNLPVYNVFGMIESETPKTLNVKIPAGVADGQRIRLKGQGTPGENGGPNGDLWLVIHIAPHPLFDIVGHNLEIVLPLAPWEAALGAKVTVPTLKESILLTVPPGSQAGQRLRIKGKGLVSKTHTGDLFAVIKIVMPPKPDEKARELWQQLATAEASFDPRKTWGKA				NA	NA	NA	NA	NA
BMS020_04882	306	cbpM		Chaperone modulatory protein CbpM	ATGGCTACAGTAACAGTGACGTTTACCATTACCGAATTGTGCCTGCGTACCGGGGTGTCGGAAGAGGAGCTGACGGAGATTGTCGGCTTAGGCATGATTGAACCGCACCAGCCGCAGGCGGACACCTGGCTGTTCGACGACAGCGCGGTGACGATCGTCCATCGCGCGGTGCGCCTGCGTAACGAGCTGGAGCTGGACTGGCCGGGGATTGCGGTGGCGCTGACGCTGCTGGATGAGAACGCGCGGCTGACCCGCGAAAATCGCCTGCTGCAGCAGCGCCTGGCCCGCTTTCTCGCCCACGGATAG	MATVTVTFTITELCLRTGVSEEELTEIVGLGMIEPHQPQADTWLFDDSAVTIVHRAVRLRNELELDWPGIAVALTLLDENARLTRENRLLQQRLARFLAHG				NA	NA	NA	NA	NA
BMS020_04883	372			hypothetical protein	ATGACTCTGGAACGCAGAAAAGTGCTGATTTACCTGCGCCCGGATATCAGCGCCAGCGAGCGCTTCGCGGACGCAAAAATTGAGGCCCACCATCGCGGCGACCGTGGCGATATGTCGCGCACGGCGCTGCTGGCGGGGCTGGCGTTAGGGGAAGTCGATAGCCGCTTGCCGTCGATGCTGGCGGCGCTGCTGGCGGAAGACACTAAACCGGAAACGCTGCGCAAGATGCTGGCCTCGTTCCTTGAGATCCAGCCGGCCTCTTCCGCCCCGGCAGCCGCGCCAGCGGCCGCCCCGGCTAAGGCGCCGGAGCCGCCCGCGCCGGTCAGCGAGAGCGTTTCGGCGCGCAACCTCGCCGGTTCGCTGCCGGACTAA	MTLERRKVLIYLRPDISASERFADAKIEAHHRGDRGDMSRTALLAGLALGEVDSRLPSMLAALLAEDTKPETLRKMLASFLEIQPASSAPAAAPAAAPAKAPEPPAPVSESVSARNLAGSLPD				NA	NA	NA	NA	NA
BMS020_04884	957	parM_1		Plasmid segregation protein ParM	ATGCGCATTTTTATCGATGATGGTTCAACCAATATCAAAATGCTGTGGGAGCAAGATGGCGAAACTTTCACCCATATCAGCCCCAATAGTTTTAAACGCGGCTGGTCTGCCACCTTCGGTTCCGGGAAGCCCTTTAACTACACCGTGGATGATGAAAAGTACTCATTCGACCTGATCACTCCCGATGCGCTCCCGACCAATAATATTGACTGGCAGTACAGCCCGTTGAACTCCATCGCTGTCCATCACGCGCTGCTGACCAGCGGTCTTGAGCCACAGGACGTCGAAATAGTTGTGACGCTGCCGCTGACTGAATTTTATGACGAGGATGCGCAATATCGCCTCGACAACATTGAGCGTAAGAAAAAGAGCCTGCTGCGCGAAGTTAAGCTGAATAAAGGCGTGGTGTTCAACATCACCAAAGTCACCGTGCGCCCGGAATCGATTCCGGCGGGCATTAGCCTGTGCGATGAACTCAAGCCCTCCCATTCGGTGTTGATTATCGACCTCGGCGGCACCACGCTCGATATTTCGATGGTCGCCGGGCAGATGACCTCGGTTTCGCGCATTTACGGCGACCCGAAGCTGGGCGTATCGCTGGTGACCGACGCCGTTAAGCTGGCGCTGGCGCGGGCTAACACCGATACCTCAAGCTATAACGTCGACCAGATCATTATCAATCGCCATGACGAAGCGTACCTGACCGATAACATCAACGATCCGGATGCGGTTTCTGAGGTGAAAAAGGTGATCACTAACAGCATCGAACGTCTGACCACCCGCGTCCTGACGGCTATCGATAGCTTTAAAGGCTACTCGCATGCCATCGTGATTGGCGGCGGCGCGCCGCTGGTTGCCGATGCCATTCGTGAACGTATGGGCCTGCGAGAGGACCGTTTCGTGGTGGCTGAAGAGCCGCAGTTCGCCCTGGTGCGTGGTCTGAAAATTATTGGCTAA	MRIFIDDGSTNIKMLWEQDGETFTHISPNSFKRGWSATFGSGKPFNYTVDDEKYSFDLITPDALPTNNIDWQYSPLNSIAVHHALLTSGLEPQDVEIVVTLPLTEFYDEDAQYRLDNIERKKKSLLREVKLNKGVVFNITKVTVRPESIPAGISLCDELKPSHSVLIIDLGGTTLDISMVAGQMTSVSRIYGDPKLGVSLVTDAVKLALARANTDTSSYNVDQIIINRHDEAYLTDNINDPDAVSEVKKVITNSIERLTTRVLTAIDSFKGYSHAIVIGGGAPLVADAIRERMGLREDRFVVAEEPQFALVRGLKIIG				NA	NA	NA	NA	NA
BMS020_04885	1404	melB	COG2211	Melibiose carrier protein	ATGACAACAAAGCTCAGCTACGGATTTGGTGCCTTTGGTAAAGATTTCGCTATCGGTATCGTCTACATGTACCTGATGTATTACTACACCGATATTGTTGGACTGTCGGTTGGGGTGGTCGGCACCTTGTTTCTGGTGGCGAGGATCCTCGATGCGATAGCCGATCCGATCATGGGTTGGATCGTCAACTGTACGCGATCGCGATGGGGGAAATTCAAACCGTGGATCCTGATTGGCACGATAACCAACTCGGTGGTGCTGTATATGCTGTTCAGCGCCCATCACTTCACCGGCGGGGCGCTGCTGGCATGGGTGTGGCTGACCTACCTGCTGTGGGGGTTCACCTACACCATCATGGATGTGCCGTTCTGGTCGCTGGTGCCGACCATTACCCTCGATAAACGCGAACGTGAACAGCTGGTGCCGTATCCACGCTTTTTCGCCAGCCTGGCGGGATTCGTCACTGCCGGCGTCACACTGCCGTTTGTCAGCGCCGTGGGCGGCGCCGACCGCGGTTTCGGTTTCCAGATGTTCACCTTGGTGTTGATCGCCTTCTTCGTGGTTTCCACCCTCGTCACGCTGCGCAACGTCCACGAGGTTTACTCCTCGGATAGCGGCGTGAGTGAGGATGCCAGCCATCTTTCACTGCGCCAGATGGTGGCGCTGATCTATAAAAACGATCAGCTGGCCTGCCTGTTGGGCATGGCGCTGGCCTATAACACGGCGGCGAATATTATCGCTGGCTTTGCGATTTACTACTTTACCTACGTGATTGGCAGCGCGGAGATGTTCCCGTATTACATGTCCTACGCCGGCGCGGCGAACCTGCTGACGTTGGTGCTGTTTCCGCGGCTGGTGAAAGGGCTGTCGCGGCGCATTCTGTGGGCGGGCGCTTCGATCATGCCGGTGCTGGGCTGCGGCGTGCTGTTGCTGATGGCGCTGAGCGGGGTCTACAACGTCGCGCTGATTTCGCTGGCCGGCGTGCTGTTGAATATCGGCACCGCGCTGTTCTGGGTGCTGCAGGTTATTATGGTGGCCGATACCGTCGACTACGGCGAATATACGATGAACATCCGCTGCGAAAGTATCGCCTATTCGGTGCAGACGCTGGTGGTGAAAGCGGGCTCGGCGTTCGCGGCCTGGTTTATCGCCATCGTGCTCGGTATCATCGGTTATGTGCCGAATGTGGCCCAGTCGTCCCAGACGCTGCTGGGGATGCAGGCGATTATGATTGCGTTGCCGACGCTCTTTTTTGCCCTGACGCTGTTTCTCTATTTCCGCTATTACAAGCTCAACGGCGATATGCTGCGTCGCATTCAGATTCACCTGCTGGATAAATATCGCCGGGTACCGGAAAATGTGGCTGAGCCGGAACGGCCCATTGTGGTACCCAACCAGGTGTAA	MTTKLSYGFGAFGKDFAIGIVYMYLMYYYTDIVGLSVGVVGTLFLVARILDAIADPIMGWIVNCTRSRWGKFKPWILIGTITNSVVLYMLFSAHHFTGGALLAWVWLTYLLWGFTYTIMDVPFWSLVPTITLDKREREQLVPYPRFFASLAGFVTAGVTLPFVSAVGGADRGFGFQMFTLVLIAFFVVSTLVTLRNVHEVYSSDSGVSEDASHLSLRQMVALIYKNDQLACLLGMALAYNTAANIIAGFAIYYFTYVIGSAEMFPYYMSYAGAANLLTLVLFPRLVKGLSRRILWAGASIMPVLGCGVLLLMALSGVYNVALISLAGVLLNIGTALFWVLQVIMVADTVDYGEYTMNIRCESIAYSVQTLVVKAGSAFAAWFIAIVLGIIGYVPNVAQSSQTLLGMQAIMIALPTLFFALTLFLYFRYYKLNGDMLRRIQIHLLDKYRRVPENVAEPERPIVVPNQV				NA	NA	NA	NA	NA
BMS020_04886	1353	melA	COG1486	Alpha-galactosidase	ATGACCGCCCCAAAAATTACCTTTATCGGCGCCGGTTCGACGGTGTTCGTTAAAAATATTCTCGGTGATGTTTTCCAGCGCCCGGCGCTGAAATCGGCGCATGTCGCGCTGATGGATATCGATGACACCCGGCTGGAAGAGTCGCATACCGTGGTGCGCAAGCTGATGGATTCCGTCGGCGCGAAGGGCGAAATCAGCTGCCATCGCGATCGCAAAACCGCCCTGCAGGGCGCCGATTTCGTTGTGGTCGCCTTCCAGATTGGCGGCTATGAGCCCTGTACCGTCACCGATTTTGAGGTCTGTAAACGCCATGGCCTGGAGCAGACCATCGCCGATACGCTGGGTCCGGGGGGCATTATGCGCGCCCTGCGCACCATACCTCACCTGTGGGCTATCTGCGACGACATGACCGAGGTCTGCCCGGACGCCACCCTGCTTAACTACGTCAACCCAATGGCGATGAACACCTGGGCCATCTACGCCCGCTACCCGCATATTAAACAGGTTGGCCTGTGCCACTCGGTGCAGGGAACGGCGGAAGAACTGGCGCGCGATCTTGACCTCAACCCGGCGGATTTACGCTACCGCTGCGCCGGGATTAACCATATGGCGTTCTATCTCTCGCTGGAGAAAAAGCTCGCCGACGGCAGCTATGTCAGCCTTTATCCCGACCTGCTGCAGGCCTACGCCGATGGGCGCGCGCCGAAGCCTAACCTGCACGGCAACCCGCGCTGCGAAAACATCGTCCGCTATGAGATGTTCAAAAAGCTCGGCTACTTTGTGACCGAGTCATCGGAGCATTTTGCCGAATACACGCCATGGTTTATCAAGCCGGGCCGCGAGGACCTTATCGCCCGCTATAAAGTGCCGCTGGATGAATACCCGAAACGCTGCGTCGAGCAACTGGCCAACTGGCATCAGGAGCTGGAGAGCTATCAGCGCGGCGAGCGCATCGAGGTGAAGCCATCCCGTGAGTATGCCAGCACCATCATGAACGCCATCTGGACCGGCGAGCCAAGCGTGGTGTATGGCAACGTGCGCAATGACGGCCTTATCGACAACCTGCCGCAGAGCTGCTGCGTGGAAGTGGCTTGCCTGGTGGACGCCAACGGCATTCAGCCGACCAAAGTGGGCGCGCTGCCGGCGCATCTGGCGGCGCTGATGCAGACCAACATCAACGTGCAGACGTTGCTCACGGAAGCGATCCTCACCGAAAATCGCGATTACGTCTATTACGCCACGATGATGGATCCGCACACCGCCGCGGTGCTGGGGATCGAAGAGATCTACGCGCTGGTGGACGATCTGATCGCCAGCCACGGCGACTGGCTGCCGTCCTGGCTGCATCGTTAA	MTAPKITFIGAGSTVFVKNILGDVFQRPALKSAHVALMDIDDTRLEESHTVVRKLMDSVGAKGEISCHRDRKTALQGADFVVVAFQIGGYEPCTVTDFEVCKRHGLEQTIADTLGPGGIMRALRTIPHLWAICDDMTEVCPDATLLNYVNPMAMNTWAIYARYPHIKQVGLCHSVQGTAEELARDLDLNPADLRYRCAGINHMAFYLSLEKKLADGSYVSLYPDLLQAYADGRAPKPNLHGNPRCENIVRYEMFKKLGYFVTESSEHFAEYTPWFIKPGREDLIARYKVPLDEYPKRCVEQLANWHQELESYQRGERIEVKPSREYASTIMNAIWTGEPSVVYGNVRNDGLIDNLPQSCCVEVACLVDANGIQPTKVGALPAHLAALMQTNINVQTLLTEAILTENRDYVYYATMMDPHTAAVLGIEEIYALVDDLIASHGDWLPSWLHR	PGPT0017850_426	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017850-melA-K07406	NA	NA
BMS020_04887	939	melR		Melibiose operon regulatory protein	ATGGAATACCGCTTCACCTCCCTGCCCCCCGATCCCTTTATGTGCAGCAGCGATGAAAAGCAGAGCCGCAGCCCGCTGGCGCTCTACTCTGAGTATCAGCGTATGGATATCGAGCTGCGCCCGCCGCACGCCATGCCTACCAGCCACTGGCATGGCCAGGTGGAGGTCAACGTGCCGTTCGATGGCGACGTGGAATATTTGATTAATAACGAAGTGGTGCGCATAGAGAAAGGCTATATCACCCTGTTCTGGGCCTGTACGCCGCATCAGTTGACCCGCCCGGGGGATTGCCAGCAGATGGCGATCTTTAACCTGCCGATGCATCTGTTTCTCTCATGGCCGCTGGACCGGGAGCTGATCAACCACGTCACTCACGGGATGGTGATTAAATCCCTCGCCGCCCAGCAGCTGAGCGCCTTCGAGGTGCGCCGCTGGCAGCAGGAGCTGAACCACGACAATGAACAGATTCGCCAGCTGGCGATCGATGAAATCGCCCTGATGCTGAAGCGGCTGAGCCTCGCCGGCTGGCAGCCGATTCTGGTCAACAAAACCTCGCGCACCCATAAGAACAGCGTCTCGCGCCATGCGCAGTTTTATGTCAGCCAGATGCTGGAGTTTATCGCCGCCCACTACGACCAGGCGCTGACCGTCAATGCCGTCGCCGAGCACGTTAAGCTCAACCCGAACTATGCGATGGGGGTATTCCAGAGAGTGATGCAGCAAACCATGAAGCAGTACATTACCGCCATGCGTATCAATCACGTACGGGCGCTGCTGAGCGATACCGACAAGACCATCCTGGATATCGCCCTCACCGCCGGTTTCCGCTCCAGCAGCCGCTTCTACAGCACCTTTACCCGCTACGTGGGGATGCCGCCGCAGCAGTACCGTAAACTCAGCCAACAGCGTCGTCACGGTCTGGCCTTGCCGGAGGCATAA	MEYRFTSLPPDPFMCSSDEKQSRSPLALYSEYQRMDIELRPPHAMPTSHWHGQVEVNVPFDGDVEYLINNEVVRIEKGYITLFWACTPHQLTRPGDCQQMAIFNLPMHLFLSWPLDRELINHVTHGMVIKSLAAQQLSAFEVRRWQQELNHDNEQIRQLAIDEIALMLKRLSLAGWQPILVNKTSRTHKNSVSRHAQFYVSQMLEFIAAHYDQALTVNAVAEHVKLNPNYAMGVFQRVMQQTMKQYITAMRINHVRALLSDTDKTILDIALTAGFRSSSRFYSTFTRYVGMPPQQYRKLSQQRRHGLALPEA				NA	NA	NA	NA	NA
BMS020_04888	1503	proP_4		Proline/betaine transporter	ATGCTTAAAAGGAAAAAAATAAAGCCCATCACCCTTAAGGATGTGACCATCATCGACGATGGTAAACTGAAAAAGGCGATCACCGCGGCCTCTCTGGGCAACGCGATGGAGTGGTTCGATTTCGGCGTCTACGGCTTTGTGGCCTACGCCTTAGGTAAAGTCTTCTTCCCCGATGCCAACCCAAGTGTGCAGATGATTGCCGCACTCGGTACCTTCTCCGTTCCATTTTTAATTCGTCCGCTGGGCGGCCTGTTCTTCGGGATGCTGGGCGATAAATACGGTCGGCAGAAAATTCTCGCGATAACTATCGTGATCATGTCGATAAGTACTTTCTGTATCGGCCTTATTCCTTCGTATGCCACGATAGGTATCTGGGCGCCGATCCTGCTGCTGCTGTGTAAAATGGCGCAAGGCTTCTCGGTCGGTGGTGAATATACCGGGGCGTCGATCTTCGTCGCGGAATACTCCCCTGACCGTAAACGCGGGTTTATGGGCAGCTGGCTGGACTTTGGCTCTATCGCCGGGTTTGTGATGGGGGCCGGCGTGGTGGTCCTGATCTCCAGCGTAGTGGGGGAACAGAACTTCCTTGAGTGGGGTTGGCGTATCCCGTTCTTCCTGGCGCTGCCGCTAGGCATCATCGGCCTCTATCTGCGCCATGCGCTGGAAGAGACCCCGGCGTTCCAGCAGCATGTGGACACCATGGAGCAGGGCGATCGTGAAGGTCTGCAGGACGGGCCGAAGGTCTCTTTTAAAGAGATTGCCACTAAGCACTGGCGTAGCCTGCTGACCTGTATCGGTCTGGTGATTTCCACCAACGTGACCTACTACATGCTGCTGACCTACATGCCGAGCTACCTGTCGCATAACCTGCACTACTCGGAAGACCATGGGGTACTGATCATCATCGCTATCATGGTCGGGATGCTGTTTGTGCAGCCGATTATCGGCATGCTTAGCGACCGCTTCGGCCGTCGCCCGTTTATCCTGATTGGTAGCGTGGCGCTGTTTGCCCTGTCGATCCCGGCCTTCATTATGATCAACAGCAACGTGACTAGCCTGATCTTCGCCGGTCTGCTGCTGCTGGCGGTGGTGCTGAACTGCTTTATCGGGGTGATGGCCTCCTCGCTGCCGGCGATGTTCCCGACGCACATCCGCTTCAGCGCCCTGGCCAGCGCCTTTAACATCTCGGTGCTGATTGCCGGTCTGACGCCAACCCTGGCGGCGTGGCTGGTGGAAACCACTCAGAACCTGATGATGCCGGCGTACTACCTGATGGTGGTCGCCATGGTGGGTATGGCGACGGGCCTGTCGATGAAAGAGACCGCTAACCGCCCGCTGAAAGGGGCGACCCCGGCGGCGTCGGACATCCAGGAAGCGAAAGAAATTCTGGGCGAGCACTACGATAACATCGAGCAAAAAATCGAAGATATCGATCAGGAGATCGCCGATCTGCAGGAAAAACGGTCGCGTCTGGTGCAGCAGCATCCGCGTATCAACGACTAA	MLKRKKIKPITLKDVTIIDDGKLKKAITAASLGNAMEWFDFGVYGFVAYALGKVFFPDANPSVQMIAALGTFSVPFLIRPLGGLFFGMLGDKYGRQKILAITIVIMSISTFCIGLIPSYATIGIWAPILLLLCKMAQGFSVGGEYTGASIFVAEYSPDRKRGFMGSWLDFGSIAGFVMGAGVVVLISSVVGEQNFLEWGWRIPFFLALPLGIIGLYLRHALEETPAFQQHVDTMEQGDREGLQDGPKVSFKEIATKHWRSLLTCIGLVISTNVTYYMLLTYMPSYLSHNLHYSEDHGVLIIIAIMVGMLFVQPIIGMLSDRFGRRPFILIGSVALFALSIPAFIMINSNVTSLIFAGLLLLAVVLNCFIGVMASSLPAMFPTHIRFSALASAFNISVLIAGLTPTLAAWLVETTQNLMMPAYYLMVVAMVGMATGLSMKETANRPLKGATPAASDIQEAKEILGEHYDNIEQKIEDIDQEIADLQEKRSRLVQQHPRIND	PGPT0013645_450	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013645-proP-K03762	NA	NA
BMS020_04889	336			hypothetical protein	ATGCAACTGCCACACTGCCCAAAATGCGATTCGACTTACACTTATGAAGACAACGGCATGTACATCTGCCCGGAATGCGCCCATGAGTGGAACCCTGACGAAGCCACGGAAGAAAACGACGTTCTGATCGTTAAAGATGCCAATGGCAATTTACTGGCCGATGGCGACAGCGTCACGGTAGTGAAAGATCTGAAGGTAAAAGGCAGCTCTTCGATGCTGAAAATCGGCACCAAAGTGAAGAATATCCGCCTGGTCGAAGGCGATCACAATATTGACTGCAAAATTGACGGTTTTGGCCCGATGAAGCTGAAATCTGAATTCGTCAAAAAGAACTGA	MQLPHCPKCDSTYTYEDNGMYICPECAHEWNPDEATEENDVLIVKDANGNLLADGDSVTVVKDLKVKGSSSMLKIGTKVKNIRLVEGDHNIDCKIDGFGPMKLKSEFVKKN	PGPT0030500_1838	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030500-phnA|yjdM-K06193
BMS020_04890	435			hypothetical protein	ATGTCCTTAAGTCCCTACCTTGCCTTTGCGGGCAACTGCGCCGAGGCGATCGCCTTCTATCAGCAGACGCTGGGCGCCGAGCTGATGTTTAAAATGACCTTTGGCGAAATGCCGCCTTCGGCGCAGGAAGCCTCTGACGGCTGCCCGTCTGGCCAGAAGATGGCGGATGACGCCATCGCCCACGCCAGCCTGCGCATCGGCAACGGCGAGCTGATGCTAAGCGACAGCGCCTTCGGGCCCGATGTGCATTACGCCGGCTTCACCCTCGTCCTCGATCCCAACGATGTCGCTGAAGGCCAGCGCTGGTTCGACGCGCTGGCGGTCGGCGGGCGCATTGAGATGGCCTGGCAGGAAACCTTCTGGGCCCACGGCTTCGGCAAAGTCGTCGATCGCTTTGGCGTCCCATGGATGATCAACGTGGTCAAACAAGGCTGA	MSLSPYLAFAGNCAEAIAFYQQTLGAELMFKMTFGEMPPSAQEASDGCPSGQKMADDAIAHASLRIGNGELMLSDSAFGPDVHYAGFTLVLDPNDVAEGQRWFDALAVGGRIEMAWQETFWAHGFGKVVDRFGVPWMINVVKQG	PGPT0030505_1530	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
BMS020_04891	726	phnF	COG2188	putative transcriptional regulator PhnF	ATGCACCTGTCCAGACATCCGACCAGTTATCCCACGCGCTATCAGGAAATCGCCGCCCGGCTTGAGCAGGAGCTGCGCCACCACTATCGCTGCGGCGACTATCTGCCCGCCGAGCAGCAGCTGGCGACGCGCTTCGATGTAAACCGCCATACCCTGCGTCGGGCTATCGACCAGCTGGTTGAGCGCGGCTGGGTACAACGCCGTCAGGGCGTCGGCGTGCTGGTGCTGATGCGGCCGATCGATTACCCGCTCAATGCCCAGGCGCGGTTCAGCCAGAACCTGCTGGAACAAGGCAGCGATCCCACCAGCGAAAAACTGCTGTCGGTACTGCGCCCCGCCAGCGCGCACGTTGCCGAGGCCTTTGGCATTAGCGAGGGCGAGAATGTCATCCACCTGCGCACCCTGCGCCGGGTCAATGGCGTCGCCCTGTGCCTGATTGACCACTACTTTGCCGACCTGCGCTTCTGGCCGGTGTTGCAGACCTTCAGCCACGGCTCGCTGCACAACCTGCTCCGCGATCGGCTTGACGTCGAACTGACCCGGGTGCGCACCAAAATCAGCGCCCGTCGCGCGCAGGCGAAAGAGAGCAAGCTGCTGGAGATCCCCAATATGGCGCCGCTGCTCTGCGTGCGCACCCTCAACAGCCGCCAGGGCGAGCAGGCCGTCACCGAATACTCCGTCAGCCTGACCCGCGCCGACATGATTGAATTCACCATGGAGCACTGA	MHLSRHPTSYPTRYQEIAARLEQELRHHYRCGDYLPAEQQLATRFDVNRHTLRRAIDQLVERGWVQRRQGVGVLVLMRPIDYPLNAQARFSQNLLEQGSDPTSEKLLSVLRPASAHVAEAFGISEGENVIHLRTLRRVNGVALCLIDHYFADLRFWPVLQTFSHGSLHNLLRDRLDVELTRVRTKISARRAQAKESKLLEIPNMAPLLCVRTLNSRQGEQAVTEYSVSLTRADMIEFTMEH	PGPT0002515_386	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002515-phnF-K02043	NA	NA
BMS020_04892	453	phnG	COG3624	Alpha-D-ribose 1-methylphosphonate 5-triphosphate synthase subunit PhnG	ATGCACTTCGATACCGCCACCCGCCAGCGCTGGATGTCCGTGCTGGCCCACAGTGAACCGCAAGATCTTCTGGCACGCATGCACGCCCTGCAGCTGGCGCCGGAGTATGAGCTGATCCGCTCTCCCGAGACAGGCCTGGTGCAGCTTCAGGCCCGGATGGGCGGTATCGGCGACCGTTTCTTCGCCGGCGACGCCACGCTCACCCGGGCGGCGGTACGTCTGGCCGATGGTACGCTCGGCTACAGCTGGATCTTAGGCCGCGACCGCCCGCACGCCGAACGCTGCGCGGCCATCGACGCCCTGCTGCAGTCGCCCCGCCATTTTCACAATTTAATGGAAACCCTGATAACCCCGCTGGAAGCGCTACGCAGCGCGCGCATTGAAGCCCGACGCGCCGAAGTCAACGCCAGCCGGGTCGACTTCTTTACCTTGGTTCGCGGAGATAACGCATGA	MHFDTATRQRWMSVLAHSEPQDLLARMHALQLAPEYELIRSPETGLVQLQARMGGIGDRFFAGDATLTRAAVRLADGTLGYSWILGRDRPHAERCAAIDALLQSPRHFHNLMETLITPLEALRSARIEARRAEVNASRVDFFTLVRGDNA	PGPT0002435_366	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002435-phnG-K06166	NA	NA
BMS020_04893	585	phnH	COG3625	Alpha-D-ribose 1-methylphosphonate 5-triphosphate synthase subunit PhnH	ATGACCTTACAACCCGCTTTTACCCTGGCTGTGCAGGATGCCCAACACAGTTTTCGTCGCCTGCTGAAAGCGATGAGCGAGCCGGGGGTGATTGTCTCCCTGCAGCAATTGCAGCACGGCTGGCAGCCGCTGAACGTCGCCTCCACCAGCCTGCTGTTGACCCTTGCCGATCACGAAACGCCGGTCTGGCTCGCCAGCGCCCTGCATAACGATCTGGTGGGACAGAATCTGCGCTTCCATACCGGCGCGCCGCTGGTGGACCAGCCGCAGCAGGCGGTCTTTGCGGTCGCCAATGACGGCATCAGCGCCGAGCAGCTCAACGTCCTCTCCGCGGGCACCGTCACCGCCCCGGAGACCGGCGTCACGCTGATCGTCCAGCTCGCCAGCCTGAGCGGCGGGCGCATGCTGCGCCTGACCGGGGCAGGCATTGCCGAAGAGCGAATGATCGCCCCTCAGCTGCCGGACTGCATCATTGACGAACTGACGGAGCGCCCGCACCCGTTCCCGCTGGGCATTGACCTGATCCTCACCTGCGGCGAGCGCCTGCTGGCGATCCCGCGCACCACCCACGTGGAGGTTTGCTAA	MTLQPAFTLAVQDAQHSFRRLLKAMSEPGVIVSLQQLQHGWQPLNVASTSLLLTLADHETPVWLASALHNDLVGQNLRFHTGAPLVDQPQQAVFAVANDGISAEQLNVLSAGTVTAPETGVTLIVQLASLSGGRMLRLTGAGIAEERMIAPQLPDCIIDELTERPHPFPLGIDLILTCGERLLAIPRTTHVEVC	PGPT0002440_447	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002440-phnH-K06165	NA	NA
BMS020_04894	1065	phnI	COG3626	Alpha-D-ribose 1-methylphosphonate 5-triphosphate synthase subunit PhnI	ATGTACGTTGCCGTCAAGGGCGGCGAGAAGGCGATCCGCGCCGCTCACGCCTTACAGGAACAGAAACGACGGGGCGATGGACGGCTTCCCGAACTGAGCGTTGACCAGATAAGCGACCAGCTCAATCTGGCGGTGGACCGGGTGATGACCGAGGGCGGCATCGCCGATCGCGAACTGGCGGCGCTGGCGCTCAAGCAGGCCAGCGGCGATAACGTCGAAGCGATCTTCCTGCTGCGCGCCTACCGCACCACCCTGCCGCGGCTGGCGGTTAGCGAACCGATCGACACCGCCGGAATGCGTCTCGAACGCCGCATCTCGGCAGTGTACAAAGATATCCCCGGCGGTCAGCTGCTGGGCCCTACCTACGACTACACCCACCGCCTGCTCGATTTTACCCTGCTGGCGAACGGCGACGCGCCGTCTGTGCCGAAAGCCGATAGCGAAGCGCCGACCTCGCCGCATGTTTTCAGCCTGCTCACGCAGCAGGGGCTGGCGAAGGCCGAGGAAGATCGCGGCACACCGCCCGACGATATCACCCGCACCCCGCCGGTCTACCCCTGCTCGCGTTCTTCGCGCCTGCAGCAGCTGATGCGCGGCGATGAAGGCTACCTGCTGGCGCTGGCCTATTCGACTCAGCGCGGCTATGGCCGCAACCATCCGTTTGCCGGCGAGATCCGCAGCGGCTACGTGCAGGTGGAGATTGTCCCGGAAGAGCTAGGCTTTAGCGTCAATATTGGCGAGCTGCTGCTGACCGAATGCGAAATGGTCAACGGCTTCGTCGCCCCGCAGGATGAACCGCCGCACTTCACCCGCGGCTACGGTCTGACCTTCGGCATGAGCGAGCGCAAAGCGATGGCCATGGCCCTCGTCGACCGCGCCCTGCAGGCGGCGGACTATGACGAAGAGATTGCCGGTCCCGCCCAGGATGAAGAGTTTGTGCTGGCCCACGCCGATAACGTTGAAGCCGCCGGCTTCGTCTCGCATCTAAAGCTACCGCACTATGTCGATTTCCAGGCCGAACTGGCGCTGCTGAAACGCCTGCAACGGGAGAACGAACGTGGCTAA	MYVAVKGGEKAIRAAHALQEQKRRGDGRLPELSVDQISDQLNLAVDRVMTEGGIADRELAALALKQASGDNVEAIFLLRAYRTTLPRLAVSEPIDTAGMRLERRISAVYKDIPGGQLLGPTYDYTHRLLDFTLLANGDAPSVPKADSEAPTSPHVFSLLTQQGLAKAEEDRGTPPDDITRTPPVYPCSRSSRLQQLMRGDEGYLLALAYSTQRGYGRNHPFAGEIRSGYVQVEIVPEELGFSVNIGELLLTECEMVNGFVAPQDEPPHFTRGYGLTFGMSERKAMAMALVDRALQAADYDEEIAGPAQDEEFVLAHADNVEAAGFVSHLKLPHYVDFQAELALLKRLQRENERG	PGPT0002445_697	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002445-phnI-K06164	NA	NA
BMS020_04895	849	phnJ	COG3627	Alpha-D-ribose 1-methylphosphonate 5-phosphate C-P lyase	GTGGCTAACCCACTGACTGGCTATAACTTTGCTTATCTCGACGAGCAAACCAAGCGCATGATCCGCCGGGCTATTCTCAAAGCGGTAGCCATTCCCGGCTATCAGGTGCCGTTCGGCGGTCGCGAAATGCCGATGCCCTACGGCTGGGGCACTGGCGGCATCCAGCTGACCGCCAGCGTCATCGGCGAGAACGACGTGCTGAAGGTGATTGACCAGGGCGCCGATGACACCACCAACGCGGTGTCGATCCGCCAGTTCTTTAAGCGCGTGACCGGCGTCGCCACCACTGAGCGCACTGAAGACGCCACCCTGATCCAGACCCGCCACCGCATCCCGGAGACGCCGCTGGTGGAGGATCAGATCCTGATCTATCAGGTGCCGATCCCGGAGCCGCTGCGCTTTATCGAGCCGCGCGAAACCGAAACCCGCACTATGCACGCCCTGGAAGAGTACGGCGTGATGCAGGTGAAACTGTATGAAGATATCGCCCGCTTCGGCCATATCGCCACCACCTACGCCTACCCGGTGAAGGTCAATGGCCGCTACGTGATGGACCCCTCGCCGATCCCGAAATTCGATAACCCGAAAATGCACATGATGCCGGCGCTGCAGCTGTTCGGCGCCGGGCGCGAAAAGCGGATCTACGCCGTGCCGCCCTATACCCCGGTGGAAAGTCTCGATTTCGACGACCATCCGTTTACCGTCCAGGAGTGGGATGAGCCTTGCGCCATCTGCGGCTCGCGCCACAGCTACCTCGACGAAGTGGTGCTGGATGACAGCGGCCAGCGAATGTTTGTCTGCTCCGATACCGACTATTGCCGCCAGCAGAGCGAGGGGCAGAAAAAATGA	MANPLTGYNFAYLDEQTKRMIRRAILKAVAIPGYQVPFGGREMPMPYGWGTGGIQLTASVIGENDVLKVIDQGADDTTNAVSIRQFFKRVTGVATTERTEDATLIQTRHRIPETPLVEDQILIYQVPIPEPLRFIEPRETETRTMHALEEYGVMQVKLYEDIARFGHIATTYAYPVKVNGRYVMDPSPIPKFDNPKMHMMPALQLFGAGREKRIYAVPPYTPVESLDFDDHPFTVQEWDEPCAICGSRHSYLDEVVLDDSGQRMFVCSDTDYCRQQSEGQKK	PGPT0002450_554	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002450-phnJ-K06163	NA	NA
BMS020_04896	759	phnK	COG4107	Putative phosphonates utilization ATP-binding protein PhnK	ATGAGCCAGCCGTTACTTGCCGTCAATCACCTGACCCATCTCTATGCCCCGGATAAAGGCTTCCGCGACGTCTCCTTCGAACTGTGGCCGGGGGAAGTGCTCGGCATCGTTGGGGAGTCCGGATCCGGTAAAACCACCCTGCTGAAGGCGATTTCCGCCCGCCTGACGCCGCAGCGGGGCGAGGTGCTGTACCAGCAGCGCTCGCTGTACGCCATGAGCGAAGCCGAACGCCGCCGCCTGCTGCGCACCGAATGGGGGGTGGTGCATCAGCACCCAATGGACGGCCTGCGTCGCCAGGTCTCCGCCGGGGGCAACATCGGCGAACGGCTGATGGCCACCGGCGCGCGCCACTACGGCAACATTCGCGCCACCGCCGAAAAGTGGCTGCAGGAGGTGGAGATCCCGCCCTCGCGCATCGACGACCTGCCCACCACCTTTTCCGGCGGCATGCAGCAGCGCCTGCAGATCGCCCGCAATCTCGTCACCCAGCCGAAGCTGGTGTTTATGGATGAACCCACCGGCGGGCTGGATGTGTCCGTGCAGGCGCGGCTGCTTGACCTGCTGCGCGGCCTGGCGGTGGAGCTGAATCTGGCGGTGGTGATTGTCACCCACGATCTCGGCGTCGCCCGCCTGCTGGCGAACCGACTGCTGGTGATGAAGCAGGGCCAGGTGGTGGAGAGTGGCTTAACCGACCGGGTGCTCGACGATCCGCATCACCCTTACACCCAGCTGTTGGTGTCGTCGGTATTGCAGAACTGA	MSQPLLAVNHLTHLYAPDKGFRDVSFELWPGEVLGIVGESGSGKTTLLKAISARLTPQRGEVLYQQRSLYAMSEAERRRLLRTEWGVVHQHPMDGLRRQVSAGGNIGERLMATGARHYGNIRATAEKWLQEVEIPPSRIDDLPTTFSGGMQQRLQIARNLVTQPKLVFMDEPTGGLDVSVQARLLDLLRGLAVELNLAVVIVTHDLGVARLLANRLLVMKQGQVVESGLTDRVLDDPHHPYTQLLVSSVLQN	PGPT0002460_642	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002460-phnL-K05781	NA	NA
BMS020_04897	681	phnL	COG4778	Alpha-D-ribose 1-methylphosphonate 5-triphosphate synthase subunit PhnL	ATGATCCGCGTTGAAAACATTCATAAAACCTTTGTTCTGCACCAGCAGCACGGCGTGCGTCTGCCGGTGCTGGCCGACGCCTCGCTGACCGTTAACGCCGGGGAGTGCGTGGTGCTCCATGGCCACTCCGGCAGCGGCAAATCGACCCTGCTGCGCTCGCTGTACGCCAACTATCTGCCGGACAGCGGCCATATTCATATCCGCCACGGCGACGAATGGGTCGATCTGGTCACCGCCACGCCGCGCAAGGTGCTGGAAGTGCGTCAAACCACCATCGGCTGGGTCAGCCAGTTTCTGCGGGTGATCCCGCGCATTTCGGCGCTGGAGGTGGTGATGCAGCCGCTGCTCGACCTCGGGACGCCGCGTGAAGCGAGCGCCGCCAAAGCCGCCCAGCTGCTGACCCGCCTCAACGTTCCCGAACGTCTGTGGCATCTTGCGCCGTCGACCTTTTCCGGCGGCGAACAGCAGCGGGTCAATATCGCCCGCGGTTTTGCGGTCGACTATCCGATCCTGCTCCTCGATGAACCCACCGCCTCACTGGATGCCAAAAACAGTGCTGCCGTGGTCGACCTGATCCACGATGCCAAAGCGCGCGGCGCGGCCATCGTCGGGATTTTCCATGACGAAGGGGTACGCCGCCAGGTCGCCGACCGGCTGCACCCCATGGGAATGACAGCATGA	MIRVENIHKTFVLHQQHGVRLPVLADASLTVNAGECVVLHGHSGSGKSTLLRSLYANYLPDSGHIHIRHGDEWVDLVTATPRKVLEVRQTTIGWVSQFLRVIPRISALEVVMQPLLDLGTPREASAAKAAQLLTRLNVPERLWHLAPSTFSGGEQQRVNIARGFAVDYPILLLDEPTASLDAKNSAAVVDLIHDAKARGAAIVGIFHDEGVRRQVADRLHPMGMTA	PGPT0002455_652	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002455-phnK-K05780	NA	NA
BMS020_04898	1137	phnM	COG3454	Alpha-D-ribose 1-methylphosphonate 5-triphosphate diphosphatase	ATGATTATCAATAACGTAAAACTGGTTCTCGACGACGACGTGGTACACGGTTCGCTGGAAGTCCAGGGCGGTCGCATTCTCGCCTTCGCGGAAAGCCAGAGCCGGCTGCCGCAGGCGCTGGATGGCGAAGGCGGCTGGCTGCTGCCGGGCCTTATCGAACTGCATACCGATAACCTCGACAAATTCTTTACCCCGCGACCGAAGGTGGACTGGCCGGCCCACTCGGCGATGAGCAGCCACGATGCAATGATGGTCGCCAGCGGCATCACCACCGTGCTCGACGCCGTGGCGATTGGCGACGTGCGCGATGGCGGCGATCGTCTTGAGAATCTGGAGAAGATGGTCAATGCGGTGGAAGAGACGCAAAAGCGTGGTCTTAACCGCGCCGAGCACCGTCTGCACCTGCGCTGCGAGCTGCCGCATCACACCACGCTGCCGCTGTTTGAAAAGCTGATCGAGCGCGAATCGGTGAGCATGGTCTCGCTGATGGATCACTCCCCGGGCCAGCGCCAGTATGCCGATCGCAGCAAGTACCGCGATTACTATCAGGGAAAGTACCATCTGACGCATGACGAGATGGATCGTTTTGAAGCCGAGCAGATGGCCCTGGCCGCTACCTGGTCGCAGCCCAATCGCCAGACCATTGCCGCCATGTGCCGCGCCCGCCGTATCGCCCTCGCCAGCCACGACGACGCCACCGAGGCGCATGTGGCTGAATCCCACCAGTTGGGTAGCGTGATCGCCGAGTTTCCTACCACCCTGGTCGCGGCGCAGGCTTCACGTCAGCACGGGATGCACGTCCTGATGGGGGCGCCGAATATCGTGCGCGGCGGTTCCCACTCCGGCAACGTCGCCGCCCACCAGCTGGCGAATCACGGTTTGCTCGACATTCTCTCTTCCGACTACTACCCCGCCAGCCTGCTGGATGCCGCATTCCGCATCGCCGACGCCGAGGATAACGCCTTCACCCTGGCGCAGGCGATCCGTCTGGTCAGCAAACATCCGGCGCAGGCGCTGGGCCTTGACGATCGCGGCGTCATCGCCGAGGGGAAACGCGCCGACCTGGTGCTGGCGCACCGTCGCGGCGAGCATGTCCACATCGACCATGTCTGGCGCCAGGGAAGGAGGGTCTTTTAA	MIINNVKLVLDDDVVHGSLEVQGGRILAFAESQSRLPQALDGEGGWLLPGLIELHTDNLDKFFTPRPKVDWPAHSAMSSHDAMMVASGITTVLDAVAIGDVRDGGDRLENLEKMVNAVEETQKRGLNRAEHRLHLRCELPHHTTLPLFEKLIERESVSMVSLMDHSPGQRQYADRSKYRDYYQGKYHLTHDEMDRFEAEQMALAATWSQPNRQTIAAMCRARRIALASHDDATEAHVAESHQLGSVIAEFPTTLVAAQASRQHGMHVLMGAPNIVRGGSHSGNVAAHQLANHGLLDILSSDYYPASLLDAAFRIADAEDNAFTLAQAIRLVSKHPAQALGLDDRGVIAEGKRADLVLAHRRGEHVHIDHVWRQGRRVF	PGPT0002465_901	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002465-phnM-K06162	NA	NA
BMS020_04899	564	phnN	COG3709	Ribose 1,5-bisphosphate phosphokinase PhnN	ATGCCGGGGAAACTGATTTGGCTGGTGGGGCCCTCCGGCTCCGGTAAAGACAGCCTGCTGGCGGCGCTGCGCCAGCGCGAGCACCCGCAGCTGCTGGTGGCGCATCGTTACATTACCCGGCCCTTTAACGCCGGTAACGAAAACCATATCGCCCTCAGCGAACATGAATTTTTTACCCGCGCCGAGCAGCATCTCTTTGCCCTCAGCTGGCACGCCAACCATACTTACTATGGCATTGGCGTGGAGATCGACCTCTGGCTGCACGCCGGCTTCGACGTGGTGGCCAATGGATCCCGCGCCCATCTGGCGCTGGCGCGGGAACGCTACGGCGAGGTGCTGGTGCCGATCTGTCTCGCCGTCTCGCCGCCGGTGCTGCGCCAGCGGCTGGAGCAGCGCGGCCGGGAAAATGCGGTGGACATCGCCCAGCGTCTGGACCGCGCCGCGCGCTATAAGCCGGACGATTGCCTGACGCTGAATAACGACGGCAGTCTCCGACAATCGGTCGATGAATTTTTCCGCCTGCTGCGCAGCCACGCGGTGCGCGAAGCGGATCCACTGGTATAA	MPGKLIWLVGPSGSGKDSLLAALRQREHPQLLVAHRYITRPFNAGNENHIALSEHEFFTRAEQHLFALSWHANHTYYGIGVEIDLWLHAGFDVVANGSRAHLALARERYGEVLVPICLAVSPPVLRQRLEQRGRENAVDIAQRLDRAARYKPDDCLTLNNDGSLRQSVDEFFRLLRSHAVREADPLV	PGPT0002470_388	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002470-phnN-K05774	NA	NA
BMS020_04900	759	phnP	COG1235	Phosphoribosyl 1,2-cyclic phosphate phosphodiesterase	ATGAGCCTGACCCTCCGCTTAACCGGCACCGGCGGCGCTCAGCTGGTGCCGGTCTTCGGCTGCGATTGCGCGGCCTGCCGCCGCGCCCGCCGTGAGGAAAGCCATCGCCGCCGCCCCTGTAGCGGGGTGGTGACGTTCAACAGCGCAGTGACGCTGCTGGACGCCGGCAGGCCGGACCTGATGGAACATCATCCCGCCGGCAGCTTTCAGCAAGTGCTGCTAACCCACTATCACCTGGATCATGTGCAGGGGCTGTTTCCGCTGCGCTGGGGCGTGGGCGGGCCGATCCCGGTCTATGGCCCGCCGGACGACGCCGGCTGCGACGATCTGCTCAAGCACCCCGGCCTGCTCGACTTCAGCCATACCGTCACGCCGTTTGTGGTGTTTGAGCTGCAGGGCCTGCGGGTGACGCCCCTGCCGCTCAACCATTCGAAGCTCACCTTCGGTTATCTGCTGGAGTCGGCCCACAGTCGGGTGGCCTGGCTCTCGGATACCGCCGGGCTGCCGGACAAGACGCTGAAGTTTTTACTCAACAATCGCCCGCAGGCGATGATCATCGACTGCAGCCATGAGCCGCGCGCGCAGACCCCGCGTAACCACAACGATTTCACTACCGTTCGCGCCCTTAACCAGGCGATAGGCTGTCCGCGAGTGATCCTCACCCATATCAGCCATCAGTTTGACGTCTGGATGATGGATAACCCGCTACCGGAAGGTTTCGAAGCGGGCTATGACGGGATGGAAATAGTACTGGATTAA	MSLTLRLTGTGGAQLVPVFGCDCAACRRARREESHRRRPCSGVVTFNSAVTLLDAGRPDLMEHHPAGSFQQVLLTHYHLDHVQGLFPLRWGVGGPIPVYGPPDDAGCDDLLKHPGLLDFSHTVTPFVVFELQGLRVTPLPLNHSKLTFGYLLESAHSRVAWLSDTAGLPDKTLKFLLNNRPQAMIIDCSHEPRAQTPRNHNDFTTVRALNQAIGCPRVILTHISHQFDVWMMDNPLPEGFEAGYDGMEIVLD	PGPT0002480_1464	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002480-phnP-K06167	NA	NA
BMS020_04901	372			hypothetical protein	ATGAGATTGGCCCCGATGAAACGTTACGCAACCGCACTGCTCTTTTGCACTCTGTCGCTGACCAGCCTGGCCGCTCGCGCCGATATTATCGATGACGCGATCGGCAATATTCAGCAAGCCATTAACGACGCCTATAACCCGGGCAGTAGCCGTTCCAGTGACGACGACGACAGAGACAACGACGATGGCCGTTATGATGACGGGCGCTATCAAGGGAGCCGCCAGCAGAGTCGTGACAGCCAGCGTCAGTATGACGATCGGCAACGCCAGCTGGACGATCGCCGCCGTCAGCTGGATGAACGCCAGCGCCAGCTCGATCGCGATCGCCGCCAGTTAGAAAGCGATCAGCGTCGTCTGGACGATGACTATTGA	MRLAPMKRYATALLFCTLSLTSLAARADIIDDAIGNIQQAINDAYNPGSSRSSDDDDRDNDDGRYDDGRYQGSRQQSRDSQRQYDDRQRQLDDRRRQLDERQRQLDRDRRQLESDQRRLDDDY				NA	NA	NA	NA	NA
BMS020_04902	2286	rcsC_4		Sensor histidine kinase RcsC	ATGACCGCTCGCCGACACCCGTTTTTCACCAGCGCCCGTGGCCGCCTGCTCTCCTTTAATCTGCTGATGGTGGTCGTCACCCTGCTGGTGAGCGGCGTGGCGGTGTTCGGCTTTCACCACGCCAGCCAGCTGCAGGAGCAGGTGCAGCGCCAGACCCTCAACGATATGCGCGGCAGTATGGATCTGGCGCGGGACACGGCGAATGTCGCCACGGCGGCGGTGCGCCTGTCGCAGGTGGTGGGCGCGCTGGAGTACAAAAGCGAAGCGGAACGGCTGCTGGCGACGCAGCAGGCGCTGAAGCACTCGCTGGCCCAGCTGGCGGCGGCCCCGCTGGCGCAGCAGGAGCAGGCGCTGGTGGCCAGTATTATTCGCCGCAGCAACGCGCTGCAGCAGAGCGTGGCGGAGATGCTGGAGCGCGGCCAGCGCCGCCATCTGCAGCGCAATGCGCTGCTGAGTTCGCTTTACCAGAATCAGAGCAACCTGCGCCATCTCGCCGATCTTAACGATCGCGGCGGGGAGCGGGCGATCGATCCTCGCCGGCTGGCCGAGATGGACCGGCTGATCGTCGCCGCGATCCATACCGTCACGCCGCGGTCGATCGTCCTGCAGCTCGACCAGCTGCGCGGCGACCTGCCGGCCCATAGCGCCGATCCCGCGCTGGCGTTTGTTCTCCCCGACGTCACCCGGGAGCTGGCGAAACTTGCCCCGCTGTCGGCCCAGCTGGAGGAGAGCGACCTGACGATCAGCTGGTACATGTACCACATCAAAGCGCTGGTCGCGCTGCTTAACGACGACATCAATCAGTACGTGACCCGGGTGGCGGAAGCCTCCGAACAGCGGGCGGCGCAGAGCCATCGGGAGCTGCGCTCCATCAGCATGTTTATTCTGCTTTCCGCGCTGCTGGCGCTGGCGATCACCGGCTGCGCCGGGTGGTACATCTACCGTAACCTGGGCTCTAACCTGACCGCTATCTCGCGGGCGATGTCGCGGCTGGCTCAGGGAGAGCCGAACGTCTCGGTGCCGGCCCTGCAGCGGCGCGACGAGCTGGGCGAACTGGCGCGCGCCTTTAACGTTTTCGCCCGCAATACGGCGTCGCTGGAGCACACCACCCGGCTGCTGAAAGAGAAGACCACCCAGATGGAGATCGATCGGATTAAGCGCCAGGAGCTGGAGGAGGCGCTGCTGCACAGCCAGAAGATGAAGGCCGTCGGCCAGCTGACCGGAGGCCTGGCGCATGATTTTAACAACCTGCTGGCGGTGATCATCGGCAGCCTTGAGCTGGTGGAGCCGAATGCGCAGGATGCGCCGCGCCTCACCAGGGCGCTGAAGGCGGCGGAACGCGGGGCGCTGCTGACCCAGCGGCTGCTGGCCTTTTCGCGCAAGCAGGCGCTGCATCCCCAGGCGGTGGCGATGGCGCCGCTGCTGGAGAACCTCAGCGAGCTGATGCGCCACTCCCTGCCGGCGACCTTGAGCCTGGAGATTGAGGCGCAGTCGCCGGCATGGCCGGCATGGATAGACGTCGGCCAGCTGGAAAACGCCCTGATCAATCTGGTGATGAACGCCCGCGACGCCATGGCCGGGCGCACGGGCGTCGTTAAAATTCGCACCTGGAATCAGCGGGTCACTCGCAGCAGCGGCCAGCGGCAGGATATGGTGGCCCTGGAGGTGATCGATCACGGCAGCGGCATGTCGCAGGCGGTGAAAGCCCGGGTGTTTGAACCCTTCTTCACCACCAAAGCCACCGGCAGCGGCAGCGGCCTGGGGCTGTCGATGGTGTATGGCTTTGTGCGCCAGTCGGGCGGCCGGGTGGCGCTGGAGAGCGCGCCGGGGCAGGGGACGACGGTGCGGCTGCAGCTGCCCCGGGCGATGACCGAGGTCGGGAAGGCGGTGGCGCCGGTGGAAGACGAACCCATCCCGGCGGGAGAGCGGCTGGCGCTGGTGCTGGAGGATGAAGAGGATGTTCGCCAGACGCTGTGCGAGCAGCTGCATCAGCTGGGCTGGCTGACGCTGGAAACCGCCAGCGGGGAAGAGGCGCTGCAGCTGCTGGAGGCCTCGCCGGATATCGCCCTGTTGATCAGCGATTTGATGCTGCCCGGCGCGCTGAGCGGCGCCGATGTGATCCATACCGCCCGACGCCGCTTTCCGGCGCTGCCGGTGCTGCTGATCAGTGGTCAGGATTTGCGCCCGGCGCAGAACCCGGCCCTGCCGGAGGTGGAGTGGCTGCGTAAGCCCTTTACCCGCACCCAGCTGGCGCAGGCGCTAAGCGCGGCGTACGCGAGGATTTGA	MTARRHPFFTSARGRLLSFNLLMVVVTLLVSGVAVFGFHHASQLQEQVQRQTLNDMRGSMDLARDTANVATAAVRLSQVVGALEYKSEAERLLATQQALKHSLAQLAAAPLAQQEQALVASIIRRSNALQQSVAEMLERGQRRHLQRNALLSSLYQNQSNLRHLADLNDRGGERAIDPRRLAEMDRLIVAAIHTVTPRSIVLQLDQLRGDLPAHSADPALAFVLPDVTRELAKLAPLSAQLEESDLTISWYMYHIKALVALLNDDINQYVTRVAEASEQRAAQSHRELRSISMFILLSALLALAITGCAGWYIYRNLGSNLTAISRAMSRLAQGEPNVSVPALQRRDELGELARAFNVFARNTASLEHTTRLLKEKTTQMEIDRIKRQELEEALLHSQKMKAVGQLTGGLAHDFNNLLAVIIGSLELVEPNAQDAPRLTRALKAAERGALLTQRLLAFSRKQALHPQAVAMAPLLENLSELMRHSLPATLSLEIEAQSPAWPAWIDVGQLENALINLVMNARDAMAGRTGVVKIRTWNQRVTRSSGQRQDMVALEVIDHGSGMSQAVKARVFEPFFTTKATGSGSGLGLSMVYGFVRQSGGRVALESAPGQGTTVRLQLPRAMTEVGKAVAPVEDEPIPAGERLALVLEDEEDVRQTLCEQLHQLGWLTLETASGEEALQLLEASPDIALLISDLMLPGALSGADVIHTARRRFPALPVLLISGQDLRPAQNPALPEVEWLRKPFTRTQLAQALSAAYARI				NA	NA	NA	NA	NA
BMS020_04903	1521	rbsA_1	COG1129	Ribose import ATP-binding protein RbsA	ATGACCGCCACCCCGGTACTGGAAATGCGCCATATCGCCAAAGCTTTTGGCAAATTCTACGCGCTGAAGGGCGTCGACCTGACGGTCTGGCCCGGCGAGATCCATGCCCTGATGGGGGAAAACGGCGCCGGAAAAAGCACGCTGATGAAGATCCTCGCCGGCGCCTATACCGCCACCAGCGGCGAGATCCTGATCGACGGGAAACCGCAAACGATCCGCGGCCCCAAGGACGCGCTGGCCGCCGGGATCACGTTGATCTACCAGGAGATGCAGCTGGCGCCGAACCTGACCGTCGCGGAAAACATCTTTCTCGGCAGCGAGCTGGCGCGCGGTGGCCTGGTGCAGCGCAAAGCGATGCTCAGCCAGGCGCAGGCGGTGATCGACCGTCTCGGCGCCCAGTTCAAGGCCAGCGACCGGGTGATGACCCTGACCATCGCCGAACAGCAGCAGGTGGAGATCGCCCGCGCTCTGCACCGTCAAAGCCGCATTCTGGTGATGGATGAACCCACCGCCGCCCTCTCCTCGCGGGAAACCCAGCGCCTGTTCGACCTCATCCTGCGCCTGCGTGACGAGGGCATGGCGATCATCTATATCAGCCACCGCATGGCGGAAGTGTATGAGCTCTCCGACCGGGTCAGCGTCCTGCGCGATGGGCAGTATGTCGGCAGCCTGGTGCGCGACAAGCTCAATGCGCCGGAGCTGGTGCGCATGATGGTCGGCCGTCCGCTCAGCGATCTGTTCAATAAAGAGCGCGATATTCCCCGCGGCCAGCCGCGCCTGCGGGTCGAGGATCTGACCGATGGCGGCAAAGTTAAGCCCAGCAGCCTGGTGGTGCATGCTGGCGAAATCGTCGGCCTCGCCGGGCTGGTCGGCGCCGGACGCTCCGAGCTGGCGCAGCTGATCTTTGGCGTGCGCAAAGCCACCGGCGGGGTGATCGAGATCGACGGCGAGCCGGTGGTGATCCACTCGCCGCGCGAAGCCATCGACCATGGAATCGGCTTTCTGACCGAAAATCGCAAAGAGCAGGGCCTGTTTCTCGAACTGGCGGCCCAGGAAAACATCACCATGGCGACGCTGGAACGCGACGCGACCTGGGGGATGCTCAACCGCCGTAAGGCGCAAACTATTTCCGATGACGCCATCCAGCTGCTGAACATCCGCGTGCCTCACGCCCAGGTGCGCGCCGGCGGACTGTCCGGCGGCAACCAGCAGAAGCTGTTAATTTCGCGCTGGGTGGCGATTGGCCCACGCATTCTGATCCTCGATGAACCCACCCGCGGCGTCGACGTCGGCGCGAAAAGCGAGATTTACCGCATCATGAACGACATGGCGCGCCAGGGCGTCGCTATTCTGATGATCTCCAGCGAACTGCCTGAAGTGGTGGGCATGAGCGACCGGGTCTATGTGATGCGCGAAGGGACTATCGCCGGCGAGCTGCAGTCCGGCGATATCAGCCAGGAACAGATCATGACGCTGGCCACCGGCGTGAACGATTCTCACCTTAAGGCAGGGCAACTATGA	MTATPVLEMRHIAKAFGKFYALKGVDLTVWPGEIHALMGENGAGKSTLMKILAGAYTATSGEILIDGKPQTIRGPKDALAAGITLIYQEMQLAPNLTVAENIFLGSELARGGLVQRKAMLSQAQAVIDRLGAQFKASDRVMTLTIAEQQQVEIARALHRQSRILVMDEPTAALSSRETQRLFDLILRLRDEGMAIIYISHRMAEVYELSDRVSVLRDGQYVGSLVRDKLNAPELVRMMVGRPLSDLFNKERDIPRGQPRLRVEDLTDGGKVKPSSLVVHAGEIVGLAGLVGAGRSELAQLIFGVRKATGGVIEIDGEPVVIHSPREAIDHGIGFLTENRKEQGLFLELAAQENITMATLERDATWGMLNRRKAQTISDDAIQLLNIRVPHAQVRAGGLSGGNQQKLLISRWVAIGPRILILDEPTRGVDVGAKSEIYRIMNDMARQGVAILMISSELPEVVGMSDRVYVMREGTIAGELQSGDISQEQIMTLATGVNDSHLKAGQL	PGPT0016600_2373	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
BMS020_04904	999	rbsC_6	COG1172	Ribose import permease protein RbsC	ATGAGCATACCGAAAGAGACCTCCGCGCCGGTCGCGACATCCGCTTCGGCGAAAAAAATGCTGATGGGCGACCTGATGCAGACCGTCGGCATTCTGCCGATCCTCATCCTGATCGTCGCCGTTTTCGGCTTTATCGCCCCCAACTTCTTCACGGAAAGCAATCTGCTGAATATCACCCGCCAGGCCTCGATCAACATTGTGCTGGCGGCGGGAATGACCTTTATCATCCTCACCGGCGGCATTGACCTCTCCGTCGGCTCCATTCTCGGCACCACCGCGGTGGCGGCAATGGTGGTCTCGCTGATCCCGGAGTTGGCGTTGCTGTCGATTCCGGCGGCGCTGATGCTCGGCCTGCTGCTTGGGCTGTTCAACGGCGCGCTGGTGGCCTTCGCCGGGCTACCGCCGTTTATCGTCACCCTCGGTACCTACACGGCGCTGCGCGGCGCCGCCTATCTGCTGGCCGACGGCACCACGGTAATCAACTCCGATATCAGCTTCGAGTGGATCGGCAATGACTACCTCGGCCCGGTGCCGTGGCTGGTGGTCATCGCCCTGGCGGTTATCGCGGTGTGCTGGTTTATCCTGCGCCGAACCACCCTTGGGGTGCATATCTACGCGGTGGGCGGCAACATGCAGGCGGCGCGGCTGACCGGCATCAAAGTCTGGCTGGTGCTGCTGTTTGTCTATGGCATGAGCGGCCTGCTCTCCGGCCTTGGCGGGGTGATGAGCGCCTCCCGGCTGTACAGCGCCAACGGCAACCTCGGGGTCGGCTACGAGCTGGACGCCATCGCCGCGGTCATTCTCGGCGGCACCAGCTTCGTCGGCGGCATCGGCACCATCACCGGTACGCTGGTGGGGGCGCTGATTATCGCCACCCTCAATAACGGTATGACCCTGATGGGGGTCTCCTACTTCTGGCAACTGGTGATCAAAGGGGCGGTGATCATCATTGCGGTGCTGATCGACAAATACCGTACCCGACACCATCAAAGTGCATAA	MSIPKETSAPVATSASAKKMLMGDLMQTVGILPILILIVAVFGFIAPNFFTESNLLNITRQASINIVLAAGMTFIILTGGIDLSVGSILGTTAVAAMVVSLIPELALLSIPAALMLGLLLGLFNGALVAFAGLPPFIVTLGTYTALRGAAYLLADGTTVINSDISFEWIGNDYLGPVPWLVVIALAVIAVCWFILRRTTLGVHIYAVGGNMQAARLTGIKVWLVLLFVYGMSGLLSGLGGVMSASRLYSANGNLGVGYELDAIAAVILGGTSFVGGIGTITGTLVGALIIATLNNGMTLMGVSYFWQLVIKGAVIIIAVLIDKYRTRHHQSA	PGPT0016590_2722	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
BMS020_04905	942	rbsB_3	COG1879	Ribose import binding protein RbsB	ATGCGTTTAAAACCGATAGTCACCGCGCTGTGTGCTGGCGCGCTGCTGGCCGCCTCCCCCTTTGCGTCGGCCAAAGAGCTGAAAGCGATAGGCGTGACGGTGGGCGACCTTGCCAACCCGTTTTTTGTGCAGATCACCAAGGGCGCGGAGCTGGAAGCCCGCAAGCTGGCGGGGGATAACGTCAAAGTGACGCTGGTCTCCAGCGGCTACGACCTGGGCCAGCAGGTGGCGCAGATCGACAACTTTATCGCCGCCAGGGTCGATATGATTATCCTCAACGCCGCCGATTCGAAAGGCATTGGCCCGGCGGTGAAGCGGGCCAAAGAGGCCGGGATCGTGGTGGTGGCGGTTGACGTTGCCGCCGAAGGGGCCGACGCCACCATCACCTCCGATAACACCCAGGCGGGCGAGCTGGCCTGTAAATACATTAGCGACCGTCTGAACAACAAAGGCAACGTGGTGATCATCAACGGGCCGCCTGTCTCCGCGGTACAAAACCGCGTCGAAGGCTGCGAAACGGAGTTCAAAAAACACCCGGATATTAAAATTTTGTCCTCCAACCAGAACGCGAAAGGCAGCCGGGAAGGCGGACTGGAGGTGATGACCTCCCTGCTGGCGGCCAATCCGAAGATTGACGGCGTGTTCGCGATCAACGATCCGACGGCGATTGGCGCCGATCTGGCGGCGAAACAGGCGCAGCGCAGCGAGTTCTTCATCGTCGGCGTCGACGGCAGCCCGGACGGCGAAGAGGCGCTGAAGCGTAAGAACTCGCTGTTCGTCGCGACGCCGGCGCAGGATCCGCAGGTGATGGCGGCGAAGGCGGTGGAAATTGGCTACAACATCCTGCAGGGCAAACCGGCCCCAACCGCGCCGGTGCTGATCCCGGTGACCATGATCGACAAAAACAACGTCAGTTCCTACAAAGGCTGGACCGTGAAATAA	MRLKPIVTALCAGALLAASPFASAKELKAIGVTVGDLANPFFVQITKGAELEARKLAGDNVKVTLVSSGYDLGQQVAQIDNFIAARVDMIILNAADSKGIGPAVKRAKEAGIVVVAVDVAAEGADATITSDNTQAGELACKYISDRLNNKGNVVIINGPPVSAVQNRVEGCETEFKKHPDIKILSSNQNAKGSREGGLEVMTSLLAANPKIDGVFAINDPTAIGADLAAKQAQRSEFFIVGVDGSPDGEEALKRKNSLFVATPAQDPQVMAAKAVEIGYNILQGKPAPTAPVLIPVTMIDKNNVSSYKGWTVK	PGPT0015740_4878	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
BMS020_04906	1017	rbsK_3	COG0524	Ribokinase	ATGGAACGCAAAGGCATCATTGCCGCAGGCAACATGCTGGTCGATCATGTTCACCAGATCAGACAGTGGCCGGAGCGCGGCTGGCTGGTGGAAATTATTCACAGCGAACGCGCCACCGGCGGCGCGCCGCTGAATGTCCTGCTGACCCTGGCCAAAATGCACGCCGGACTGCCGCTGCAGGCGGTCGGCCTGATTGGCGAGGATAACGATGGCGACTACATTACCGCCATGCTCGATCAGTACCATATCAATCGCCAGCTTGTGCAGCGCACCAGCTCCGCCCCCACCTCGATGACTCAGGTGATGACCGACGCCGAAGGCCAGCGCACCTTCTTTCACTCTCCCGGCGCCAACCGCCTGCTTGACCTTCCTGCCTTTGAGCCGCTGGATGCGCCGCTGAAAATTTTCCATCTCGGCTATCTGCTGCTGCTTGAGAGTCTCGATCGCCCCGACGAAGAGTACGGCACCCGCAGCGCGCAGTTGCTGGCGCAAATGCGCGAGCGAGGCTATGAGGTTTCCCTCGATCTGGTGTCGCGCAAGGGCGACCCGCGCTACCGCCCGCTGGTCCTGCCGGCGCTGGCGCATCTTGACTACCTGACCATCAATGAGCTGGAAGCCAGCGAGTTTAGCGGGCTGGAGATTCGTCTACCCAACGGCGAGCCGCACGTCGCCCATATCGCCCGCGCCGCCAGCGCATTGCTTGACGCAGGCGTGCGTCAGCGGGTGGTGATCCACTGTCCGGAGGGGGCATGGGGCGTCTCCCGTACCGAAGCCGGGCGCTGGGTACCGTCATGGCGGCTGCCGCCGGAGGAGATTGTCGGCAGCGTCGGCGCCGGAGATGCCTTCTGCGCCGGCCTGCTGTACGGCAGCCACGAACGCTGGCCGTTAACCGACAGTCTGCAGCTGGCTCATGCCTGCGCCCGCGCCAGCCTGCAGGCCGCCAATGCGATCGACGGCGCCAAAACGCTCTCTGAGCTGCAGGCGTTTATTCAGTTGCAGAATAGTGAGAGGGGTTAA	MERKGIIAAGNMLVDHVHQIRQWPERGWLVEIIHSERATGGAPLNVLLTLAKMHAGLPLQAVGLIGEDNDGDYITAMLDQYHINRQLVQRTSSAPTSMTQVMTDAEGQRTFFHSPGANRLLDLPAFEPLDAPLKIFHLGYLLLLESLDRPDEEYGTRSAQLLAQMRERGYEVSLDLVSRKGDPRYRPLVLPALAHLDYLTINELEASEFSGLEIRLPNGEPHVAHIARAASALLDAGVRQRVVIHCPEGAWGVSRTEAGRWVPSWRLPPEEIVGSVGAGDAFCAGLLYGSHERWPLTDSLQLAHACARASLQAANAIDGAKTLSELQAFIQLQNSERG				NA	NA	NA	NA	NA
BMS020_04907	729	ompR_4		Transcriptional regulatory protein OmpR	ATGAAACCGGTCATTTTAGTGGTTGATGACGACATAGCGATGGGCGAGCTGCTCAGCGATGTGCTCGGCGCGCACGCGTTTGAGGTGCTGGTCTGCCAGACCGGCGGCGACGCGCTGGCGACGGTGGCGCAGCGGGCGGACATCGCGCTGGTTTTGCTGGATATGATCCTGCCGGATACCCATGGTCTGCAGGTGCTCCAGCAGCTGCAGCGCACGCGGCCTGAGCTGCCGGTGGTGATGCTCTCCGGCCTGGGCAGCGAGTCCGATGTGGTGGTGGGCCTGGAGATGGGCGCCGATGATTACATCGCCAAACCGTTCAGTTCGCGGGTGGTGGTCGCCCGGGTGAAGGCGGTGCTGCGGCGCAGCGGGGCGCTGGCCAGCGAGGCGCCGGGCGGCGTCGCCGGCCTGACGTTCAACGGCTGGCGGCTGGATACCACCCGCTGTGAGCTGTATAACCCACAGCAGCAGGCGATCCCGCTGACCCAGGGAGAATACGGTTTGCTGCTGGCGCTGGCGCAGAACGCCCGCCGGGTGCTGAACCGTGAACAGCTGCTGGCGCTAACCCATACCGAAAGCACCGAGGTGTTCGATCGCACCATCGATGTGCTGATCATGCGCCTGCGGCGCAAAATCGAATTGAACCCGCATCAGCCGACGCTGATTAAAACGCTGCGCGGCCTGGGCTATGTCTTTTCCGCCGACGTGACCCACAGCGAGAAGGCGGCGTAG	MKPVILVVDDDIAMGELLSDVLGAHAFEVLVCQTGGDALATVAQRADIALVLLDMILPDTHGLQVLQQLQRTRPELPVVMLSGLGSESDVVVGLEMGADDYIAKPFSSRVVVARVKAVLRRSGALASEAPGGVAGLTFNGWRLDTTRCELYNPQQQAIPLTQGEYGLLLALAQNARRVLNREQLLALTHTESTEVFDRTIDVLIMRLRRKIELNPHQPTLIKTLRGLGYVFSADVTHSEKAA	PGPT0012985_1106	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
BMS020_04908	420	fdhF_2	COG0243	Formate dehydrogenase H	ATGAAAAAAGTCGTCACGGTTTGCCCGTATTGCGCATCAGGTTGCAAAATCAACCTGGTGGTCGATAACGGCAAAATCGTTCGGGCTGAAGCGGCGCAGGGGAAAACCAACCAGGGAACCCTGTGCCTGAAGGGCTATTATGGCTGGGACTTTATTAACGATACCCAGATCCTGACGCCGCGCCTGAAAACCCCCATGATCCGTCGTCAACGCGGCGGCAAGCTGGAAGCTGTCTCCTGGGATGAGGCGCTGGATTACGTCGCCACTCGCCTCAGCGCCATTAAAGCCAAATATGGCCCGGATGCGATCCAAACCACCGGCTCCTCCCGCGGTACCGGTAATGAAACCAACTATGTGATGCAAAAATTCGCGCGCGCCGTTATTGGTACCAATAACGTCGACTGCTGCGCTCGCGTCTGA	MKKVVTVCPYCASGCKINLVVDNGKIVRAEAAQGKTNQGTLCLKGYYGWDFINDTQILTPRLKTPMIRRQRGGKLEAVSWDEALDYVATRLSAIKAKYGPDAIQTTGSSRGTGNETNYVMQKFARAVIGTNNVDCCARV	PGPT0019640_545	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019640-fdhF-K22015	NA	NA
BMS020_04910	1680	fdhF_3	COG0243	Formate dehydrogenase H	ATGAGTAATGCCATCACGGAGATTGATAACACCGATCTGGTGTTTATCTTCGGTTACAACCCGGCGGATTCCCACCCTATCGTGGCGAATCACGTCATTAACGCTAAACGCAACGGGGCGAAAATTATCGTCTGCGACCCGCGCAAAATTGAAACCGCGCGCATCGCCGATATGCACATTGCGCTGAAGAACGGCTCGAATATCGCGCTGCTCAACGCCATTGGCCACGTGATTATTGAAGAGGATCTGTACGATAAATCCTTCGTCGCCAGCCGTTCCGAAGGCTTCGAGGAGTATCGCAAAATCGTTGAAGGCTATACGCCGGAGTCGGTGGAGGAGATCACCGGGGTCAGCGCCCAGGAGATCCGCGCCTGCGCCCGGATGTACGCCAGCGCCAAATCCGCCGCCATTCTGTGGGGCATGGGCGTGACCCAGTTCTACCAGGGCGTGGAGACCGTGCGTTCCCTGACCAGCCTGGCGATCCTCACCGGCAACCTCGGCAAACCGAGCGTCGGCGTCAACCCGGTGCGCGGCCAGAACAACGTCCAGGGGGCCTGCGATATGGGGGCGCTGCCGGATACTTATCCGGGCTATCAGTACGTTAAGTTCCCGGAAAACCGCGAGAAGTTCGCCAAAGCCTGGGGCGTCGACAGCCTGCCGGCACATACCGGCTATCGCATCAGCGAGCTGCCGCACCGCGCGGCGCACGGCGAAGTGCGGGCGGCGTACATTATGGGTGAAGATCCGCTGCAGACCGATGCCGAACTCTCGGCGGTGCGCAAAGCGTTCGACGATCTGGAGCTGGTTATCGTCCAGGACATTTTCATGACCAAAACCGCCTCCGCGGCCGACGTCATCCTGCCGTCCACCTCGTGGGGCGAGCACGAAGGCGTGTACACCGCAGCGGACCGCGGCTTCCAGCGCTTCTTTAAAGCGGTAGAGCCGAAGTGGGATCTGAAAACCGACTGGCAGATCATCAGCGAAATCGCCACCCGGATGGGTTATCCGATGCACTATAACAACACCCAGGAGATCTGGGACGAGTTGCGGCATCTGTGCCCGGACTTCTACGGCGCCACCTACGAGAAAATGGGTGAGCTTGGCTACGTCATGTGGCCGTGCCGCGATGAGTCCGACGCCGATCAGGGGACGTCGTATCTGTTTAAAGAGAAGTTCGATACCCCGAACGGGCTGGCGCAGTTCTTCACCTGCGACTGGGTCGCGCCGATCGATAAGCTCACCGACGAGTACCCGATGGTGCTGTCGACGGTGCGCGAAGTCGGCCACTACTCGTGCCGTTCAATGACCGGTAACTGCGCGGCGCTGGCGGCGCTGGCGGATGAGCCTGGCTATGCGCAGATCAACACCGCCGACGCCGAACGGTTAGGCATTGAGGATGAAGCGCTGGTGTGGGTGAATTCGCGCAAGGGTCGGATCATCACCCGCGCGCAGGTCAGCGACCGGCCGAACAAAGGCGCGGTGTATATGACCTACCAGTGGTGGATTGGCGCCTGTAACGAGCTGGTGTCGGAGAACCTGAGCCCGATAACCAAAACGCCGGAGTACAAGTACTGCGCGGTCAACGTTGAGCGGATTGCCGATCAGCGCGCGGCGGAACAGTACGTGATCGACGAGTACAACAAGCTGAAATCCCGCCTGCGCGAAAGCGCGATGGGTTAA	MSNAITEIDNTDLVFIFGYNPADSHPIVANHVINAKRNGAKIIVCDPRKIETARIADMHIALKNGSNIALLNAIGHVIIEEDLYDKSFVASRSEGFEEYRKIVEGYTPESVEEITGVSAQEIRACARMYASAKSAAILWGMGVTQFYQGVETVRSLTSLAILTGNLGKPSVGVNPVRGQNNVQGACDMGALPDTYPGYQYVKFPENREKFAKAWGVDSLPAHTGYRISELPHRAAHGEVRAAYIMGEDPLQTDAELSAVRKAFDDLELVIVQDIFMTKTASAADVILPSTSWGEHEGVYTAADRGFQRFFKAVEPKWDLKTDWQIISEIATRMGYPMHYNNTQEIWDELRHLCPDFYGATYEKMGELGYVMWPCRDESDADQGTSYLFKEKFDTPNGLAQFFTCDWVAPIDKLTDEYPMVLSTVREVGHYSCRSMTGNCAALAALADEPGYAQINTADAERLGIEDEALVWVNSRKGRIITRAQVSDRPNKGAVYMTYQWWIGACNELVSENLSPITKTPEYKYCAVNVERIADQRAAEQYVIDEYNKLKSRLRESAMG	PGPT0019640_303	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019640-fdhF-K22015	NA	NA
BMS020_04911	687			hypothetical protein	ATGAAATACCTCTTTTTATTTTTACTGGTCATTACCAGCGGCGCAGCGGTGGCCACCGAACCGGGTAGCCGGTATCAACAGCAGGCGGAAGCCGGCGATCGACGCGCGCAATATTACCTTGCGGATACCTGGGTGAGCTCCGGCGATTATCAGAAAGCCGAATTCTGGGCACAGAAAGCAGCGGCGCAGGGCGATGGCGACGCGCTGGCCCTGCTGGCGCAGCTAAAAATTCGCAATCCGCAGCAGGCGGACTATCCGCAGGCCCGCCAGCTGGCGGAAAAAGCCGTCGAGGCCGGCAGTAAATCCGGGGAGATCGTCCTCGCGCGAGTGCTGGTGAACCGTCAGGCTGGCCCCACCGACGTGGCGCACGCCATCACGCTTCTGCAGGATGCCGCCCGGGACAGCGAAAGCGATGCGGCGGTAGACGCCCAGATGCTGCTGGGGCTGATCTACGCCAGCGGCGTGCACGGTCCGGAAGATGATGGGAAAGCGAGCGCCTACTTTAAAGGCAGCTCGGCGCTCTCACGGACCGGCTATGCCGAATACTGGGCCGGGATGATGTTCCAGCAGGGAGAGAAAGGCTTTATCGAACCGAATAAGCAGAAGGCGCTGCACTGGCTTAACGTCAGTTGCCTGGAGGGGTTTGATACCGGCTGCGAAGAGTTTGACAGGATCAGTAAAGGATAA	MKYLFLFLLVITSGAAVATEPGSRYQQQAEAGDRRAQYYLADTWVSSGDYQKAEFWAQKAAAQGDGDALALLAQLKIRNPQQADYPQARQLAEKAVEAGSKSGEIVLARVLVNRQAGPTDVAHAITLLQDAARDSESDAAVDAQMLLGLIYASGVHGPEDDGKASAYFKGSSALSRTGYAEYWAGMMFQQGEKGFIEPNKQKALHWLNVSCLEGFDTGCEEFDRISKG	PGPT0000855_5311	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-ACIDITY|NITROGEN_RELATED_REGULATION,PGPT0000855-exoR-K07126	NA	NA
BMS020_04912	1314	gltP_1	COG1301	Proton/glutamate-aspartate symporter	GTGAAGAAAACAAAAAAAGTCAGTCTGGCCTGGCAAATTTTGCTAGCCCTGGTGCTGGGTATCCTTTTGGGCAGTTATCTGCATTACCACGCCGAAAGTCGCGATTGGTTGATTAGCAATTTACTGACGCCGGCGGGCGATATCTTTATCCATCTGATTAAAATGATCGTGGTCCCGATTGTTATTTCGACCCTGGTGGTCGGGATTGCCGGCGTGGGCGATGCCAAACAGTTAGGCCGGATCGGCGCCAAAACCATTATCTATTTCGAAGTGATCACCACGGTGGCGATCGTGCTGGGTATCACCCTGGCCAACGTCTTCCAGCCGGGAACGGGCATTGATATGTCGCAGCTGGCGGCGGTTGATATTTCGAAATACCAGAACACCACCGCTGAGGTGCAGAGCCATGCGCATGGCCTGATGGGCACCATCCTGTCGCTGGTGCCGACCAACATCGTGGCGTCGATGGCGAAAGGCGATATGCTGCCGATTATTTTCTTCTCGGTGCTGTTTGGTCTGGGGCTCTCCTCGCTGCCGGCGACGCACCGTGAGCCGCTGGTGACGGTCTTCCGCTCCATCTCCGAAACCATGTTCAAAGTCACCCATATGGTGATGCGCTATGCGCCGATCGGGGTGTTCGCCCTGATTTCAGTGACCGTCGCCACCTTTGGTTTCGCCTCGCTGTGGCCGCTGGCCAAGCTGGTGCTGCTGGTTTACTTCGCGATCCTGTTTTTCGCGCTGGTGGTGCTGGGGATTGTCGCCCGCCTGTGCGGCCTGAGCATCTGGATCCTGATCCGCATCCTGAAAGATGAGCTGATTCTGGCTTACTCCACCGCCAGCTCCGAGAGCGTGCTGCCGCGTATTATCGAGAAAATGGAAGCCTATGGCGCGCCGGCGTCGATCACCAGCTTCGTGGTGCCGACCGGCTACTCCTTTAACCTCGATGGCTCAACGCTGTATCAGAGCATCGCGGCGATCTTTATCGCCCAGCTGTACGGCATCGACCTCTCCATCTGGCAGGAGATCACCCTGGTACTGACCCTGATGGTGACCTCGAAAGGGATCGCCGGCGTGCCGGGCGTCTCTTTTGTGGTGCTGCTGGCCACCCTGGGCAGCGTCGGGATCCCGCTGGAGGGCCTCGCCTTTATCGCCGGCGTCGACCGTATCCTCGACATGGCGCGTACCGCGCTGAACGTGGTGGGCAATGCGCTGGCGGTGTTGGTTATCGCCAAGTGGGAGCATAAGTTCGACCGCAAAAAAGCGCTGGCGTATGAACGCGAAGTGCTGGGCAAGTTTGATAAAACCGCGCAATAA	MKKTKKVSLAWQILLALVLGILLGSYLHYHAESRDWLISNLLTPAGDIFIHLIKMIVVPIVISTLVVGIAGVGDAKQLGRIGAKTIIYFEVITTVAIVLGITLANVFQPGTGIDMSQLAAVDISKYQNTTAEVQSHAHGLMGTILSLVPTNIVASMAKGDMLPIIFFSVLFGLGLSSLPATHREPLVTVFRSISETMFKVTHMVMRYAPIGVFALISVTVATFGFASLWPLAKLVLLVYFAILFFALVVLGIVARLCGLSIWILIRILKDELILAYSTASSESVLPRIIEKMEAYGAPASITSFVVPTGYSFNLDGSTLYQSIAAIFIAQLYGIDLSIWQEITLVLTLMVTSKGIAGVPGVSFVVLLATLGSVGIPLEGLAFIAGVDRILDMARTALNVVGNALAVLVIAKWEHKFDRKKALAYEREVLGKFDKTAQ	PGPT0000805_340	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-GLUTAMATE_TRANSPORT,PGPT0000805-gltP|gltT-K11102	NA	NA
BMS020_04913	1959	acs	COG0365	Acetyl-coenzyme A synthetase	ATGAGCCAAATACACAAACACCCTATTCCCGCTAACATTGCGGAACGTTGCCTGATTAACCCGGATCAGTACAAGGCGCAGTATCAACAATCCATAACCGACCCTGATACATTCTGGGGCGAGCAGGGCAAAATCCTTGACTGGATGCGCCCCTACACCCGCGTGAAGAATACCTCCTTTGCGCCGGGTAACATTTCCATCAAATGGTATGAAGACGGCACCCTGAACCTCGCCGCCAACTGCCTCGACCGCCATCTCGCCGAGCGCGGCGATCAAACCGCCATCATCTGGGAAGGCGACGACGCCAGCCAGAGCAAGCACATCACCTACCGTGAACTGCATGCGGACGTCTGCCGCTTCGCCAATGTGCTGCTCGGCCTCGGGATTAAAAAAGGCGACGTGGTCGCCATCTATATGCCGATGGTGCCGGAAGCCGCGGTGGCGATGCTGGCCTGCGCCCGCATCGGCGCCATCCACTCGGTGATTTTCGGTGGCTTCTCGCCGGAGGCGGTGGCCGGACGTATTATCGACTCCAGCTCGCGCCTGGTGATCACCGCGGATGAAGGGCTGCGCGCCGGTCGCGCCATCCCGCTGAAGAAAAACGTCGATGACGCGCTGAAAAACCCGAACGTCAACAGCATTGAACACGTCGTGGTCCTGAAACGTACCGGCGGTAAAATCGACTGGCAGGAAGGCCGCGATCTGTGGTGGAGCGATCTGATGGCGAACGCCAGCGCCGAACACCGCCCCGTCGAGATGAACGCCGAAGATCCGCTGTTCATCCTCTATACCTCTGGCTCCACCGGTAAACCGAAAGGGGTGTTGCACACCACCGGCGGCTATCTGGTCTACGCGGCCACCACCTTTAAATACGTTTTCGATTACCACCCGGGCGATATTTACTGGTGCACCGCCGATGTCGGCTGGGTCACCGGCCACAGCTATCTGCTGTACGGCCCGCTGGCCTGCGGCGCCACCACTCTGATGTTCGAAGGGGTGCCGAACTGGCCAACCCCGGCGCGTATGTGCCAGGTCGTCGATAAGCATAAGGTCAGCATTCTGTATACCGCTCCGACGGCGATTCGTGCCCTGATGGCGGAAGGCGACAAGGCTATCGAAGGCACGGACCGCTCCTCACTGCGCATTCTCGGCTCGGTCGGCGAACCCATTAACCCGGAAGCCTGGGAGTGGTACTGGAAGAAGATCGGTAACGAGAAGTGCCCGGTGATGGACACCTGGTGGCAGACCGAAACCGGCGGCTTTATGATCACCCCGCTGCCGGGGGCGATTGAGCTGAAGGCTGGCTCCGCTACCCGCCCGTTCTTTGGCGTTCAGCCGGTGCTGGTGGATAACGAAGGCCTGCCGCTGGATGGCGCCACCGAGGGCAATCTTGCTATCGCCGACTCCTGGCCCGGCCAGGCGCGAACCCTGTTCGGGGATCATGAGCGCTTTGAGCAAACCTACTTCTCCACCTTCAAAAATATGTACTTTAGCGGCGACGGCGCGCGCCGAGATGAAGATGGCTATTACTGGATCACCGGCCGCGTGGATGACGTTCTGAACGTCTCCGGCCACCGTCTGGGTACTGCCGAGATCGAATCGGCGCTGGTGTCGCACCCGAAAATCGCCGAAGCGGCAGTGGTCGGTATTCCGCACAACATCAAGGGCCAGGCTATCTACGCCTACGTGACGCTCAATCACGGTGAAGAACCGACGCCGGAGCTGTATGCGGAAGTGCGTAACTGGGTGCGTAAAGAGATTGGCCCGCTGGCGACGCCGGATGTTCTGCACTGGACCGATTCGTTGCCAAAAACCCGCTCGGGCAAAATCATGCGCCGCATTCTGCGCAAGATCGCCGCGGGCGACACCAGCAACCTCGGCGATACCTCGACTCTCGCCGATCCTGGCGTAGTGGAAAAACTGCTCGAAGAGAAGCAGGCCATTACCATGCCTTCTTAA	MSQIHKHPIPANIAERCLINPDQYKAQYQQSITDPDTFWGEQGKILDWMRPYTRVKNTSFAPGNISIKWYEDGTLNLAANCLDRHLAERGDQTAIIWEGDDASQSKHITYRELHADVCRFANVLLGLGIKKGDVVAIYMPMVPEAAVAMLACARIGAIHSVIFGGFSPEAVAGRIIDSSSRLVITADEGLRAGRAIPLKKNVDDALKNPNVNSIEHVVVLKRTGGKIDWQEGRDLWWSDLMANASAEHRPVEMNAEDPLFILYTSGSTGKPKGVLHTTGGYLVYAATTFKYVFDYHPGDIYWCTADVGWVTGHSYLLYGPLACGATTLMFEGVPNWPTPARMCQVVDKHKVSILYTAPTAIRALMAEGDKAIEGTDRSSLRILGSVGEPINPEAWEWYWKKIGNEKCPVMDTWWQTETGGFMITPLPGAIELKAGSATRPFFGVQPVLVDNEGLPLDGATEGNLAIADSWPGQARTLFGDHERFEQTYFSTFKNMYFSGDGARRDEDGYYWITGRVDDVLNVSGHRLGTAEIESALVSHPKIAEAAVVGIPHNIKGQAIYAYVTLNHGEEPTPELYAEVRNWVRKEIGPLATPDVLHWTDSLPKTRSGKIMRRILRKIAAGDTSNLGDTSTLADPGVVEKLLEEKQAITMPS	PGPT0002265_2939	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
BMS020_04914	312	yjcH	COG3162	Inner membrane protein YjcH	ATGAATGAACAACTTTGTCAGCGGATAGAAAATAGTGCGCATTTCAGGGAGCTGGTGGCATCACGGCAACGGTTTGCCGCCATTCTGTCAGTGATTATGTTAGTGATCTATGTGGGCTTTATTCTGCTTATCGCCTTCGCGCCAGGCTGGCTCGGCACGCCGCTGCACGCCGGGACCAGCGTCACCCGCGGGATCCCGCTGGGCATCGGGGTGATCGTCATTTCGTTTGTTCTCACCGGTATTTATGTCTGGCGGGCCAACGGTGAATTCGACCGTTTGACCAAGAGCGTTCTCAACGAGGTAAAAGCATGA	MNEQLCQRIENSAHFRELVASRQRFAAILSVIMLVIYVGFILLIAFAPGWLGTPLHAGTSVTRGIPLGIGVIVISFVLTGIYVWRANGEFDRLTKSVLNEVKA	PGPT0001400_298	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CATION_TRANSPORT,PGPT0001400-actP-K14393	NA	NA
BMS020_04915	1656	actP_1	COG4147	Cation/acetate symporter ActP	ATGATCAAGAGAGTCCTGACGGCGCTCGCCGCCACGCTGCTGCCCCTCGGCGTTCAGGCCGCAGACGCCATTACCGGCGCGGTACAGCGCCAGCCGACCAACTGGCAGGCGATTGTCATGTTCCTGATTTTCGTCGCCCTGACCCTGTACATCACTTACTGGGCGTCAAAACGGGTGCGTTCGCGCAGCGATTACTACACCGCCGGCGGCAATATCACCGGTTTCCAGAACGGGCTGGCGATTGCCGGCGACTTTATGTCGGCAGCGTCGTTCCTTGGTATCTCTGCGCTGGTGTATACCTCCGGTTACGACGGTCTGATCTACTCGCTGGGCTTCCTTGTCGGCTGGCCGATTATCCTGTTTCTGATTGCCGAACGTCTGCGCAACCTTGGCCGCTACACCTTTGCCGACGTGGCGTCCTATCGTCTCAAACAGGGACCGATCCGCACCCTCTCCGCCTGCGGCTCGCTGGTGGTGGTGGCCCTCTATCTGATCGCCCAAATGGTCGGCGCCGGCAAGCTGATCCAGCTGCTGTTCGGTCTTAACTATCACGTTGCGGTGGTGCTGGTGGGCGTCCTGATGGTGCTCTATGTCCTGTTCGGCGGCATGCTGGCGACCACCTGGGTGCAGATTATCAAAGCGGTTCTGCTGCTGTTCGGCGCCAGCTTTATGGCCTTTATGGTGATGAAGCACGTCGGCTTCAGCTTCAATAATCTGTTTACCGAAGCGATGGCCGTCCACCCGAAAGGCGCGGCGATTATGAGCCCAGGCGGGCTGGTGAAAGATCCGATATCCGCGCTCTCCCTTGGCCTCGGTCTGATGTTTGGTACCGCCGGCCTGCCGCATATCCTGATGCGTTTCTTCACCGTGAGCGACGCCAAAGAAGCGCGTAAAAGCGTGTTCTACGCCACCGGTTTTATGGGCTACTTCTATATTCTGACCTTTATCATCGGCTTCGGCGCCATCATGCTGGTCGGCGCGAACCCAGTGTTCAAAGACGCGGCCGGACAGCTTATCGGCGGCAATAATATGGCGGCGGTGCATCTGGCGGATGCGGTGGGCGGCAACCTGTTCCTCGGCTTTATCTCCGCGGTCGCCTTCGCCACCATTCTGGCGGTGGTCGCTGGCTTGACGCTGGCGGGCGCCTCAGCGGTGTCGCACGACCTGTACGCCAACGTCTTCCGTAAAGGGGCGACCGAGCGTCAGGAGCTGAAGGTCTCCAAAATTACGGTGCTGATCCTCGGCGTGGTGGCCATTCTGCTGGGCATCCTATTCGAAAATCAGAATATCGCTTTCATGGTCGGCCTGGCGTTCTCTATTGCCGCCAGCTGTAACTTCCCGATTATCCTGCTGTCGATGTACTGGTCGAAGCTGACCACCCGCGGGGCGATGATCGGCGGCTGGCTGGGTCTGCTGACGGCGGTGATTCTGATGATCCTCGGCCCGACCATTTGGGTGCAGATCCTCGGTCATGAGAAAGCGCTGTTCCCGTATGAATACCCGGCGCTGTTCTCCATCGCTATCGCGTTCATCGGTATCTGGCTCTTCTCCGCGACCGATAACTCACTGGAAGGAATGCGCGAGCGCGAGCAGTTCCGCGCCCAGTTCATTCGTTCACAAACCGGGATTGGTATCGAACGCGGCCAGGCGCATTAA	MIKRVLTALAATLLPLGVQAADAITGAVQRQPTNWQAIVMFLIFVALTLYITYWASKRVRSRSDYYTAGGNITGFQNGLAIAGDFMSAASFLGISALVYTSGYDGLIYSLGFLVGWPIILFLIAERLRNLGRYTFADVASYRLKQGPIRTLSACGSLVVVALYLIAQMVGAGKLIQLLFGLNYHVAVVLVGVLMVLYVLFGGMLATTWVQIIKAVLLLFGASFMAFMVMKHVGFSFNNLFTEAMAVHPKGAAIMSPGGLVKDPISALSLGLGLMFGTAGLPHILMRFFTVSDAKEARKSVFYATGFMGYFYILTFIIGFGAIMLVGANPVFKDAAGQLIGGNNMAAVHLADAVGGNLFLGFISAVAFATILAVVAGLTLAGASAVSHDLYANVFRKGATERQELKVSKITVLILGVVAILLGILFENQNIAFMVGLAFSIAASCNFPIILLSMYWSKLTTRGAMIGGWLGLLTAVILMILGPTIWVQILGHEKALFPYEYPALFSIAIAFIGIWLFSATDNSLEGMREREQFRAQFIRSQTGIGIERGQAH	PGPT0001400_2026	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CATION_TRANSPORT,PGPT0001400-actP-K14393	NA	NA
BMS020_04916	1098			hypothetical protein	ATGAAAAAGCTAATTTTATTTTTCATTGTCGTGCTGGTCCCCTCCTACAGCTGGGCGGTATGCGGGGGGAAAAATTACGGCGATATTTCGATGACTAAGCTGCCTGAAAAAATACTGATCAATGCCGGAAATTATACTGCGGGTACGGTGCTGTATGATTCCGGGAAATTGAATCACGCGCAAACGTATATGCTCAATTGCGAGGGGAAAATTTACGCGGTGTTTGCCTGGTCTTCGGGCAATGCCGGGGCGTTGGTCGGCGATAACATCTATACCACCTCGGTGCAGGGGGTCGGGATACGCGTTAAAATGTGGCTTAATATCAGTGGTGAATATGATAACGATACAAATGATTTCGCCCCCGACTCGCAGGTGCATTATATCGGGGATGCCAACTTTGCACTCGGTGAGCCTCGGGGCTTTTTAGATTACTACGCTTCCACCCATTACACCCCGGCGTATCAACTGCAGCTGGTGGCGACTGGCGGCCCGATTGCCAGCAATAGTACATTATCATTTAACGATCCGGTGGCGACGGTATCGGCAAAGGACAGTAATAGCACGGTAGCGATTTCCCAACTGCATATCAGCGGAACCACCAGCATCCAGATGATCCCGATGGGGTGCGTTGTCAGTAGCATCAATCTCAGTTTTGCCATGGGCAGCATCAATACCGGCGAGTTTAATAGCGCGACGAAGGTAGGATCAGCGCGGCAGTCCATGAACCTCTATTGCGAGCCGGGAACCAATGTTTCGATGCGGGTGGTGGCGGCGGAAGCGAGTGGGGATAATCCTGATAACACCGTAATGGCCTTAACGGCAGAAGAGAATGTTGCCACCGGGGTGGGGGTTCAGTTGAATCTGGATGGCGAAGCGCTGCCATTGAATACCGACATCAGCCTCTATACCTCGAGCCGTACGACGGTAACGAACGACGGCGCAGATGCCAGCTATAGCTATTTCACCCATCCCGACAGCCCTGACGGGGCAGCCGCTCAGCAGTCGCTCGCTTTTTCCACAAACTATTATAAGACGGGAAGTATAGTGACAGCAGGTTCAGCAAATGCAGCAGGGGTGATCACCTTCACCTACAACTGA	MKKLILFFIVVLVPSYSWAVCGGKNYGDISMTKLPEKILINAGNYTAGTVLYDSGKLNHAQTYMLNCEGKIYAVFAWSSGNAGALVGDNIYTTSVQGVGIRVKMWLNISGEYDNDTNDFAPDSQVHYIGDANFALGEPRGFLDYYASTHYTPAYQLQLVATGGPIASNSTLSFNDPVATVSAKDSNSTVAISQLHISGTTSIQMIPMGCVVSSINLSFAMGSINTGEFNSATKVGSARQSMNLYCEPGTNVSMRVVAAEASGDNPDNTVMALTAEENVATGVGVQLNLDGEALPLNTDISLYTSSRTTVTNDGADASYSYFTHPDSPDGAAAQQSLAFSTNYYKTGSIVTAGSANAAGVITFTYN				NA	NA	NA	NA	NA
BMS020_04917	552	fimF_3		Protein FimF	ATGAGGATTAAAGACTGCGGAACAGGGGGCTGCGTACTGGCTAGCCTTTTGCTGCTCTCCGCTTCCGGGTTGGCTTACGAGAGCAGCAGCACGGTCAATTTTAAGGTTACGGGCACGATCGAAGCGCCCTCCTGTGAGGTGGCCGTGGATCCGTCGAATCGTATTGATTTAGGCACCGTTCCCTATCAGACGTTCTCCGGAAAAGCGGGATCGAGCAGCGCCAGCGTGCCGGTTAAGCTGCTCTTTTCCCACTGTTCGGCCTATGCGTCGGCGGTGACGATCGCATTCGATGGGGCCCGTTTCGATGAAGCCCACGCTTCGATCTATAAAAGCTATAGGACAGGCAATAACGGGGCCAGCGGCATTGGTTTGCAACTGCTCAGCATGGCCGACCAGCAGCCTCTGGGCCCCGGAGACCAGTATCTCTACACCTTTGATAGCGAAACGGACATCCACACGTTCAACATGGTGGCACGGATGTACTCACCCTATGGCCAGGTGAGTCCCGGTATTGTCGGTTTTACCGCCACGTTTGAAGTGACCTATAAATAA	MRIKDCGTGGCVLASLLLLSASGLAYESSSTVNFKVTGTIEAPSCEVAVDPSNRIDLGTVPYQTFSGKAGSSSASVPVKLLFSHCSAYASAVTIAFDGARFDEAHASIYKSYRTGNNGASGIGLQLLSMADQQPLGPGDQYLYTFDSETDIHTFNMVARMYSPYGQVSPGIVGFTATFEVTYK	PGPT0016040_12	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016040-fimD|fimC|mrkC|htrE|cssD-K07347	NA	NA
BMS020_04918	2592	fimD_3	COG3188	Outer membrane usher protein FimD	ATGATTATGGTATGTCAGGGAAGAAATATACCGCTCTTATTCAGTAGCATTGAGCCGCTATGTTCAACTAAAAGTCTCTGCGTCGCTATTGTTCTGTGCCTGAGTACCCTACCTACTTGCGCCGAGGCCGATGAATATTTCAACCCGAATCTACTCGAAGTTACGGATAATAGTGCGACTTCGGTTGATCTGTCCTATTTTTCGCAAGACGGCGTACCGCCGGGCACCTATCACCTGGATGTTTACGTCAATGATAAGTATGTCGGTTCTGAATCACTCCTGTTCCAGGTAAATAACCCTGACGCTGGTGCAAACGCAACGGCGACTCCCTGTCTTTCTTCGGAGTTTCTTCATTCGTGGCTCATCAATACCGCCGCCTATCCGAAGCTGTTCGAGGCAGGAGAAACCTGTGCTCAACTGTCGGCGATCCCGGGCGTAACGTTTACGGTTTCGCTTGCCCAACAGCGGATAGATTTTACCGTCCCGCAGGCCGCGATGCTGAATCGCCCCAGAGACTATGTGCCGGAGAGCCAGTGGCAGCAGGGGATTAACGCCGGTATTCTCAACTACAGCATTTCCGGGCAGCGCAATACCCCGCGGCATAACGGCGCAACTATCGACAGTCAGTTTATCAGCCTGCAGCCTGGCGTGAATCTGGGGCCGTGGCGCCTGCGCAATTACAGCACCTATAGCCACAGCGACAACACCAGTCGCTGGGAGTCGGTATACTCCTATATCACCCGCGATATCCAAACCCTGCGCAGTCAACTGGTGGTGGGCAACACCTATACGTCGTCCGGCATCTTCGACAGCATGAGCTTTACCGGCCTACAGCTCAGCTCAGATAAAGAGATGTTGCCGGATAGCCTTCACGGGTTTGCGCCGACGATCAAGGGTATTGCGCGTACCACCGCTGAGGTCTCGATCTATCAGAATGGCTATAGCATTTATAAAACCACCGTTGCCCCCGGCGCTTTTGAAATAAAAGATCTTTACGCCACCGGCAGCGCCGGCGATCTGTACGTCAGCATTAAAGAGTCCGACGGCAGCGAGCAAAACTTTGTGGTGCCATTCGCCTCGTTGGCGATCCTGCAGCGCGAGGGCCAACTGGACTATGCGCTGAGCAGCGGCAGAACGCGCTCAGGTAGCTCCGACGATAAAGAATATAACTTTATTCAGTCCTCTCTGGTTTATGGCGTGACCAGCAACGTTACTCTTTATAGCGGTTTTCAGCAGGCGGAAGATAAGTACACCAATTTGCTGTTAGGCGCTGGTTTTAATCTTGGGACTATCGGCGCCCTCTCATTTGATGGTTCTCAGTCATGGGCTGATGTTAACGCCAACGCCGCGGCCACATCGACCAGTCAAGAACAGGGGCAATCTTATCGCGTCCGCTTTAGCAAAAGTTTTCTCCAGACCGGCACCAACTTTTCCGTGGCCGGTTATCGCTATTCCACCGCGGGATACTATTCGTTTCAGGATTTTGTCGATAACGCTTCCACTCAGTATGACTGCTGTACCAGCAAGGGCAGAACGAAAGGCCGTTTTGACGCTTCGGTGTCACAGACGCTGTTTGGCTATGGCTCACTTTCGCTGTCGCTGATCAATGAAACCTACTGGGACAACTCGCGCATGGCGTCGGTCGGGGTGGGCTATAGCGGAGCAATCGGCAAAGCCTCCTACTTTATTAACTATTCCTATAACCGCAACGTGCAGAACACCGATGACAGCGGTGATAACCGGCCGACCAGTGATACGGTCGTCTCCCTGACGTTAAGCATTCCGCTGGGGGACTCACTCTCCGCGAATTACACCTTGAACCATGCCCGCCATAACGACACCACGCACAGCGTGGGACTCAACGGCTCGGCGTTCGAGGATCGCTCCCTGAACTGGAGCGTGCTTGAAGGGTACAACACCCAGGATAAGAGCACTTCCGGCAACCTCAGCGTCAACTACCAGGGAGCAAAAGGCGACGCGGCGGGCGGCTATGGCTACGACCGCTACAGCAATCACTACAGCTATTCGCTGCGCGGCGGCATGGTTGCCCATTCCGGCGGACTCACGCTGTCACGCTTTCTGGGGGAGAGTTCGGCGCTGGTCGAGACCCCCGGCCTCAGCGATGTGACGGTGCGCGGCCAGACAAACGTGACGACGGATGCCGCCGGATATGCCGTGGTGCCCTACGTCCGTCCGTACCATCGTAATAGCCTGGCGCTGGATGAACAGGAAATTCCCGGCGCTGAAGTGGATAACGTTGCCAGAACGGTAGTTCCGACGCGCAACGCGATCGTCAAAGTGCAGTATGACACGCGAATTGGCTATAAGGCGATGCTCACGCTGCGCACCCGCAGCGGGGTGGTGCCCTTCGGCGCGCTGGTGACCCTCGATAACGCGCGGCCTAATACCAGCGTCTCGCGCAGCAATATCGTCGGCGATGAGGGGCAGGTTTACCTGACGGGGTTGCAGAAAAAAGGTCAGCTGTTAGCGCGCTGGGGGGAAAAAAGCAATGAGCAGTGCACCGCTCATTATGATTTTTCCAGCACCACGCTGAGCGACAATATTCTGTTTTATCAGGCCATTTGCCGATAA	MIMVCQGRNIPLLFSSIEPLCSTKSLCVAIVLCLSTLPTCAEADEYFNPNLLEVTDNSATSVDLSYFSQDGVPPGTYHLDVYVNDKYVGSESLLFQVNNPDAGANATATPCLSSEFLHSWLINTAAYPKLFEAGETCAQLSAIPGVTFTVSLAQQRIDFTVPQAAMLNRPRDYVPESQWQQGINAGILNYSISGQRNTPRHNGATIDSQFISLQPGVNLGPWRLRNYSTYSHSDNTSRWESVYSYITRDIQTLRSQLVVGNTYTSSGIFDSMSFTGLQLSSDKEMLPDSLHGFAPTIKGIARTTAEVSIYQNGYSIYKTTVAPGAFEIKDLYATGSAGDLYVSIKESDGSEQNFVVPFASLAILQREGQLDYALSSGRTRSGSSDDKEYNFIQSSLVYGVTSNVTLYSGFQQAEDKYTNLLLGAGFNLGTIGALSFDGSQSWADVNANAAATSTSQEQGQSYRVRFSKSFLQTGTNFSVAGYRYSTAGYYSFQDFVDNASTQYDCCTSKGRTKGRFDASVSQTLFGYGSLSLSLINETYWDNSRMASVGVGYSGAIGKASYFINYSYNRNVQNTDDSGDNRPTSDTVVSLTLSIPLGDSLSANYTLNHARHNDTTHSVGLNGSAFEDRSLNWSVLEGYNTQDKSTSGNLSVNYQGAKGDAAGGYGYDRYSNHYSYSLRGGMVAHSGGLTLSRFLGESSALVETPGLSDVTVRGQTNVTTDAAGYAVVPYVRPYHRNSLALDEQEIPGAEVDNVARTVVPTRNAIVKVQYDTRIGYKAMLTLRTRSGVVPFGALVTLDNARPNTSVSRSNIVGDEGQVYLTGLQKKGQLLARWGEKSNEQCTAHYDFSSTTLSDNILFYQAICR	PGPT0016040_717	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016040-fimD|fimC|mrkC|htrE|cssD-K07347	NA	NA
BMS020_04919	690	lpfB_3		putative fimbrial chaperone LpfB	ATGAGATATCCTTTTTTTGTGGTTGGTTTAGTGCTGTCGTCCTCTATCGCGCAAGCCAGCGTGGTAGTTGGCGGTACGCGCCTTGTCTTTGATGGGACGAAGAATAACGCCGTCATTAACGTTGAGAATAAAGATCCGAGCAGCAATATCGTACAGTCCTGGCTCTCTGTGGCTGATGCTCGCTCACCAGCAAAAGATGCATTTATTATTACACCGCCGCTATTTCGTCTTAAAGCCGGAGAGAAAGGATTTGTGCGCGTTGTGCGTTCAGGAAAGACGCTACCAGACGACCGCGAGTCCATATTTTGGCTTAATATTAAAGGGATCCCGGCAACAGAATATACTCCTGATAAAAATGTCGTGCAGTTTGCTATCAACTCGAAAATAAAATTAATTTACCGGCCTGCCGCATTAAAAGGTAATACACCAGAAAGCTATGCCGACAAATTACAATGGGGTAAAGAAGGGGCGGCGGTAACGGTAAAAAATAGTTCGCCATTGTATATGAATTTCTCACAGATCAGTCTTAACGGTAAAAATATTTCTGGTGCATGGTTTGCAGCCCCGTTTTCTACTTTAAAAATACCCGTCAGGAATAACCTGTCCGCGGCAGGAAAAAAAGAAATCACATGGAGCGTGATTAATGATTATGGTATGTCAGGGAAGAAATATACCGCTCTTATTCAGTAG	MRYPFFVVGLVLSSSIAQASVVVGGTRLVFDGTKNNAVINVENKDPSSNIVQSWLSVADARSPAKDAFIITPPLFRLKAGEKGFVRVVRSGKTLPDDRESIFWLNIKGIPATEYTPDKNVVQFAINSKIKLIYRPAALKGNTPESYADKLQWGKEGAAVTVKNSSPLYMNFSQISLNGKNISGAWFAAPFSTLKIPVRNNLSAAGKKEITWSVINDYGMSGKKYTALIQ	PGPT0016035_1327	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016035-fimC-K07346	NA	NA
BMS020_04920	540	elfA		Laminin-binding fimbrial subunit ElfA	ATGAAGATGAGTAAAAAATTTCTGGCGGGTGCCCTGATTTTCTCTGCCTGCAGCGCGCTGTCTACCGTTGCCCAGGCTGATAACACCATTACCTTTAATGGCGTTGTTTCAGATACCACCTGTACGGCGACCATCGATGGCGGTGTGACTGCCATTGATATGGGCACCACCTCGGTGGCGGACCTGAAAGCGTATACCTACGGTGCAGCTAAGAACTTCTCCTTTAGCTTAGCGGATTGCCCGACGCTGGAAGAGGGGGGAAATAACTCCGCCCGCGTGACTTTCGGCGGGGTTTCCGATACCGCGAATAGCGATTACTTTAAAAACCAGGCAACGGAAGACGCAGCAACGGGCGTCGCTGTGGCGCTGTATGACGAAGCCGGTAGCCTGATGAAAAATAACGAAGAAGGTTCAGATGTCGATATCTCTTCGGGTGCCGCAACGATTCCGTTCACCGTTAAGATGGTGAAATCGGGCGCTGGTGAACCGACAAAGGGTGCCGTTCAGACAACGGTAACTTATAACGTGACCTATCATTAA	MKMSKKFLAGALIFSACSALSTVAQADNTITFNGVVSDTTCTATIDGGVTAIDMGTTSVADLKAYTYGAAKNFSFSLADCPTLEEGGNNSARVTFGGVSDTANSDYFKNQATEDAATGVAVALYDEAGSLMKNNEEGSDVDISSGAATIPFTVKMVKSGAGEPTKGAVQTTVTYNVTYH	PGPT0016030_1396	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016030-fimA-K07345	NA	NA
BMS020_04921	690	yohK_2	COG1346	Inner membrane protein YohK	ATGAGCGATGCCACGCTAAGTATCCTGTGTCTGGTGGCGACGCTGGGCCTCTATTACGCTAACAAAAAACTGTATCGCCGTTTTCATAAACTGCCGTTGATGCCGCTGGTATTTACGCCGATCCTGCTGGTGCTGATCCTGGTGGCAGGCCATATCTCTTATCAGAGCTATATGGGAGAGACCCACTGGCTGCTCTGGCTGCTGGGCCCGGCGACCATCGCCTTTGCCGTCCCGGTCTATGAAAATATCGCGGTGATCAAACGCCACTGGATGTCTCTCAGCGCAGGGGTGGTAACGGCGGTGGTGGTAGCGGTGACCAGTTCCGTGTGGCTGGCGCGCGGATTGATGTTGTCTGACGAAATACAGCGTAGCCTGGCGGTGCGTTCGGTGACCACGCCTTTTGCCCTGGCGGCGGCGAAACCGCTTGGCGGTCAACCCGATCTGGTTGCGCTGTTTGTGGTGATCACCGGCGTCTTTGGTATGGCGGTGGGGGACATGCTGTTTTTACGGCTTGCTATCCGGGAAGGGATGGCGAAAGGGGCCGGGTTCGGGGCGGCCTCCCACGGTGCCGGAACCGCGCGCTCCTATGAGCTGGGCCAGCAGGAGGGCGTAGTGGCCAGCCTGGTGATGATGCTCTCAGGTGTGGTCGTCGTGCTGGCTGCGCCGGTCGTGCGCTGGCTGCTGTTTTAA	MSDATLSILCLVATLGLYYANKKLYRRFHKLPLMPLVFTPILLVLILVAGHISYQSYMGETHWLLWLLGPATIAFAVPVYENIAVIKRHWMSLSAGVVTAVVVAVTSSVWLARGLMLSDEIQRSLAVRSVTTPFALAAAKPLGGQPDLVALFVVITGVFGMAVGDMLFLRLAIREGMAKGAGFGAASHGAGTARSYELGQQEGVVASLVMMLSGVVVVLAAPVVRWLLF				NA	NA	NA	NA	NA
BMS020_04922	408	cidA_1		Holin-like protein CidA	ATGGCCTTCGCGCCAGCTCGCGTTGCCCCTGCTGTGGCGCAGCGACTTCAGATCCCGATACAGGTGCTGCTCTACGTCGGGTTATTCATCTTCGCACAATATCTAGTGAACAGGTGGCAGGTACCCTTGCCGGCCAACTTAGTGGGCATGGTGATGCTCCTGTTGATGATCGTTTGCCGGGTGATCCCCCTCAACTGGGTTCGCGCCGGCGCCCGCTGGCTGTTGGCGGAGATGCTGCTGTTTTTCGTCCCGGCGGTGGTGGCGGTGGTCAATTATGCCCAGCTGTTGATGGTCGACGGATGGCGTATTTTCCTGGTCATTGCGTTAAGCACGCTGATGGTGCTCGGCGCTACGGCCTGGGTCGTTGACAAGGTTTATCGTTACGAAGTGAACAGGATAAAAAAATGA	MAFAPARVAPAVAQRLQIPIQVLLYVGLFIFAQYLVNRWQVPLPANLVGMVMLLLMIVCRVIPLNWVRAGARWLLAEMLLFFVPAVVAVVNYAQLLMVDGWRIFLVIALSTLMVLGATAWVVDKVYRYEVNRIKK				NA	NA	NA	NA	NA
BMS020_04923	882	oxyR_5		Hydrogen peroxide-inducible genes activator	ATGGATATCCGAACGCTGCGCTATTTCGTTGAAGTGGTTCGTCAGCAGAGTTTTACTCGCGCGGCGGAAAAGCTGTTTGTCACACAGCCCACCATCAGCAAGATGCTCAAAAATCTCGAAGATGAACTGAACTGCACGCTGTTGATCCGCGACGGCCGCAAACTGCTGCTTACCGATACCGGGCGCGTGGTTTTTGAACGCGGCCAGGCGATCCTCGGCGAGTTCAGCCAGCTGGAGTCAGAGCTGAGCGATATCAATCACCTGCATAAGGGGGTGCTGCGTCTTGGCATTCCGCCGATGGTCGGGATGCTGATGGCGGAGCCGATCAGCCGTTTCCGCCAGCGCTACCCGGGCGTCGAGCTGAAAATCGCCGAGTTTGGCGGCCTGACGGTCCAGCAGGCGGTCAGCAATGGCGAACTTGATATGGCGATGACCGCCCTGCCGATCGAAGAGGGCAGCAGCCTCACCACCCTGCCGTTGTTCAACCACCCACTGTGCGTCCTGACGCCCAGGACCGCGGCGTGGGAAGGCAAAACGTCGCTCTCGCCGGCGGAGCTGGCGGCGCATCCGCTGGTTATCTACAACGAGGAATTTGCCCTCAGCCAGCAGCTGATGCGCCTGTTTAGCGAGCACGACGTGAAGCCGCGGATCGCTGTGCGCAGCGGCCAGTGGGATTTTCTCGCCGCCATGGTGCAGGCCGGCATTGGCGTGGCGATCCTGCCGGAGCCGATTTGCCAGCGTCTCGACCCGCAGAATTTTTGCTGGATCCCATTGCAAAGCGAGCTGCGCTGGGAGCTGGGGATGATTTGGCGGGAAGGCGTATATATGTCGCGTAGCGCTGAGGCCTGGCTGGCGTGCAGTAAAGCGTTCTGGCTGGAATAA	MDIRTLRYFVEVVRQQSFTRAAEKLFVTQPTISKMLKNLEDELNCTLLIRDGRKLLLTDTGRVVFERGQAILGEFSQLESELSDINHLHKGVLRLGIPPMVGMLMAEPISRFRQRYPGVELKIAEFGGLTVQQAVSNGELDMAMTALPIEEGSSLTTLPLFNHPLCVLTPRTAAWEGKTSLSPAELAAHPLVIYNEEFALSQQLMRLFSEHDVKPRIAVRSGQWDFLAAMVQAGIGVAILPEPICQRLDPQNFCWIPLQSELRWELGMIWREGVYMSRSAEAWLACSKAFWLE				NA	NA	NA	NA	NA
BMS020_04924	1647	nhaK_1	COG0025	Sodium, potassium, lithium and rubidium/H(+) antiporter	ATGGAAATATTCTTTACCATCCTCATCATGACCCTTGTGGTCTCACTCTCCGGGGTAGTGACGCGCGTACTGCCCTTTCAGGTTCCACTCCCACTGATGCAAATCGCCATTGGCGCGCTTCTGGCGTGGCCGACCTTTGGTTTGCATGTTGAATTTGATCCAGAGCTGTTTCTGGTCCTGTTTATCCCGCCGCTGCTGTTCGCCGACGGCTGGAAAACGCCAACTCGCGAATTCATTGAGCACGGGCGCGAGATCCTCGGCCTGGCGCTGGCGCTGGTGGTCGTGACGGTGGTCGGCATCGGCTTTCTGATCTACTGGATTGTGCCGGGCATTCCGCTGATCCCGGCGTTCGCGCTGGCGGCCGTGCTGTCGCCGACCGATGCCGTGGCGCTCTCGGGTATCGTCGGGGAAGGGCGGATACCGAAAAAAATCATGGGCATTTTGCAGGGTGAGGCGCTGATGAACGACGCCTCCGGCCTGGTCTCGCTCAAGTTTGCCGTCGCGGTGGCGATGGGCACCATGGTCTTTACCGTCGGCGGCGCCACCGTCGAGTTTCTGAAAGTGGCGATTGGCGGCGTGCTGGCCGGGTTTGTGGTGAGCTGGTCGTATGGCCGCTCGATGCGCTTCCTCAGCCGCTGGGGCGGTGACGAGCCCGCCACGCAGATCGTCCTGCTGTTCCTGCTGCCGTTTGCCTCCTATCTAATTGCCGAACATATCGGCGTCTCCGGCATTCTGGCGGCGGTGGCGGCAGGGATGACCATCACCCGTTCCGGCGTGATGCGTACCGCGCCGCTGGCGATGCGCCTGCGCGCCAACAGCACCTGGGCGATGCTGGAGTTTGTCTTTAACGGCATGGTGTTTCTGCTGTTGGGCTTGCAGCTGCCGGATATCCTCTCCAGCTCGCTGGTGGCGGCGGAAGCCGACCCCAATGTCGAGACCTGGATGCTGTTTACCGACATCATCCTGATCTATGCCGCGCTGATGCTGGTGCGTTTTGGCTGGCTGTGGTCGATGCGTAAGCTTAGCCAGCGCTTCCTGAAGAAGAAACCGATGGAGTTTGGCTCCTGGACCACGCGCGAGCTGCTGATCTCCTCCGTTGCCGGAGTGCGCGGGGCGATTACCCTCGCCGGTGTGCTCTCTATTCCGCTGCTGCTGCCGGACGGGAATGTCTTTCCGGCGCGCTATGAGCTGATTTTCCTCGCCGCCGGGGTGATCCTGTTCTCGTTGTTCGTTGGGGTGATTGCGCTGCCGATCCTGCTGCGCCACATTGAATCGAGCGATAATGTGCAGCAGCGGAAAGAGGAGCGTCTGGCGCGCGCGGCGACGGCGGACGTGGCGATTGTGGCGATCCAGAAGATGGAAGAGCGGCTGGCGGCGGATACCAAAGAGAATATCGATAACCAGCTGCTGACCGAAGTCAGTTCGCGGGTGATCGGTAACCTGCGCCGCCGCGCCGATGGTCGTAACGATGTGGAAACCTCGATGCTCGAAGAGAGCCTGGAGCGGCGCTTCCGCCTGGCGGCGCTGCGCTCTGAGCGCGGTGAGCTGTACCATCTGCGCGCCACCCGGCAGATCAGTAACGAGACGCTGCAGAAGCTGCTGCACGACCTCGACCTGCTGGAAGCGCTGTTGATCGAAGATCAGTGA	MEIFFTILIMTLVVSLSGVVTRVLPFQVPLPLMQIAIGALLAWPTFGLHVEFDPELFLVLFIPPLLFADGWKTPTREFIEHGREILGLALALVVVTVVGIGFLIYWIVPGIPLIPAFALAAVLSPTDAVALSGIVGEGRIPKKIMGILQGEALMNDASGLVSLKFAVAVAMGTMVFTVGGATVEFLKVAIGGVLAGFVVSWSYGRSMRFLSRWGGDEPATQIVLLFLLPFASYLIAEHIGVSGILAAVAAGMTITRSGVMRTAPLAMRLRANSTWAMLEFVFNGMVFLLLGLQLPDILSSSLVAAEADPNVETWMLFTDIILIYAALMLVRFGWLWSMRKLSQRFLKKKPMEFGSWTTRELLISSVAGVRGAITLAGVLSIPLLLPDGNVFPARYELIFLAAGVILFSLFVGVIALPILLRHIESSDNVQQRKEERLARAATADVAIVAIQKMEERLAADTKENIDNQLLTEVSSRVIGNLRRRADGRNDVETSMLEESLERRFRLAALRSERGELYHLRATRQISNETLQKLLHDLDLLEALLIEDQ				NA	NA	NA	NA	NA
BMS020_04925	1350	ghxP	COG2252	Guanine/hypoxanthine permease GhxP	ATGTCTACGCCTTCAGCGCGTACCGGCGGTTCATTAGACGCCTGGTTTAAAATTTCGGCGCGCGGTAGCACCGTGCGTCAGGAGATTGTTGCAGGTCTTACTACCTTTCTGGCAATGGTGTACTCCGTCATCGTGGTGCCGGGCATGCTCGGAAAAGCGGGCTTCCCGCCGGCCGCGGTGTTTGTTTCTACCTGTCTGGTGGCGGGCGTTGGCTCGCTGGCGATGGGATTATGGGCAAACCTGCCGATGGCCATCGGCTGCGCTATCTCGTTGACCGCTTTCACCGCCTTCAGCCTGGTGCTGGGGCAGCACATCAGTATTCCGGTGGCGCTCGGCGCGGTATTCCTGATGGGCGTCCTGTTTACGGTGATCTCGGCAACCGGCATCCGCAGCTGGATCTTGCGCAACCTGCCGCAGGGCGTGGCCCACGGTACCGGGATCGGGATCGGTCTGTTCCTGTTGCTGATTGCCGCCAATGGCGTTGGCCTGGTGATCAAAAACCCGCTGGACGGTCTGCCGGTGGCGTTGGGGAACTTTGACAGCTTCCCGGTGGTAATGTCGCTGATTGGCCTCGCGGTGATCATCGGTCTGGAAAAAATGAAGGTACCGGGCGGTATTCTGCTGACCATTATCGGCGTGTCGATTGTCGGCCTGATTTTCGATCCTAACGTCCATTTCTCCGGGATTTTCGCCATGCCATCCCTGAGCGATGACCAGGGCAACTCGCTGATTGGCAGTCTGGATATTGTCGGCGCGCTGAATCCGGTCGTGCTGCCCAGCGTACTGGCCCTGGTGATGACGGCGGTCTTTGACGCCACCGGCACCATCCGCGCGGTGGCCGGTCAGGCGAACCTGCTGGACAAAGACGGACAGATCATCAACGGCGGTAAAGCGCTGACCACCGACTCCCTGAGCAGCGTCTTCTCTGGCTTAGTCGGGGCGGCGCCGGCGGCGGTGTATATCGAATCGGCGGCGGGTACGGCAGCCGGCGGTAAAACCGGCCTGACCGCGGTGACGGTAGGGGTCCTGTTCCTGCTGATCCTGTTCCTCTCTCCGCTCTCTTATCTGGTGCCGGCCTACGCGACCGCGCCGGCGCTGATGTACGTCGGCCTGCTGATGCTGAGCAACGTGGCGAAGATCGATTTCAATGACTTCGTTGACGCCATGGCTGGCCTGATCACCGCGGTGTTTATCGTGCTGACCTGCAACATCGTGACCGGCATCATGATCGGTTTCGCGACCCTGGTGATCGGCCGCCTGGTCTCCGGCGAGTGGCGTAAGCTGAACCTCGGCACGGTGATTATCGCTGTGGCGCTGGTGGTGTTCTACGCCGGCGGGTGGGCGATTTAA	MSTPSARTGGSLDAWFKISARGSTVRQEIVAGLTTFLAMVYSVIVVPGMLGKAGFPPAAVFVSTCLVAGVGSLAMGLWANLPMAIGCAISLTAFTAFSLVLGQHISIPVALGAVFLMGVLFTVISATGIRSWILRNLPQGVAHGTGIGIGLFLLLIAANGVGLVIKNPLDGLPVALGNFDSFPVVMSLIGLAVIIGLEKMKVPGGILLTIIGVSIVGLIFDPNVHFSGIFAMPSLSDDQGNSLIGSLDIVGALNPVVLPSVLALVMTAVFDATGTIRAVAGQANLLDKDGQIINGGKALTTDSLSSVFSGLVGAAPAAVYIESAAGTAAGGKTGLTAVTVGVLFLLILFLSPLSYLVPAYATAPALMYVGLLMLSNVAKIDFNDFVDAMAGLITAVFIVLTCNIVTGIMIGFATLVIGRLVSGEWRKLNLGTVIIAVALVVFYAGGWAI	PGPT0007325_2806	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
BMS020_04926	669			hypothetical protein	ATGCTGACGGTACATCATCTTAATCAGTCACGATCGCAACGCGTACTGTGGGCGCTGGAGGAGCTACAGCTGCCTTATCAGATAGTCCGCTATCAGCGGGAAAAGTCGATGCTGGCGCCAGCGGCATTGAAGAAAATCCACCCGCTGGGTAAATCGCCAGTGCTGGAAGACAACGGCTATGTGCTGGCGGAGTCCGGAGCGATCCTTGAGTATTTGCAGGAGAGCTGGGACAGCGATGGGCTGCTGAAGCCACAGGGCGCGGATGACAAACTGCAGTACCGCTTCTGGCTGCACTATGCCGAAGGCTCGCTGATGCCGCTGCTGTTAATGAAGCTGGTGTTCGCCAGCCTCGGCAAACCCCCGGTGCCCTTTGGCGTCCGCTCGCTGGGCTCGCTGCTGGGCAAAGGTATACAGAAAGCGTGGCTCGATCCTCAGTTGGCCACCCATGCGCGGTTCATTGACGACCATCTTGCCACGCGGCCATGGTTTGCCGGCGATCGGCTGAGCATGGCCGATATCCAGATGAGCTTCCCGGTGATGGCGCTGCTGGCCCGCGGCGGCATGCATGATCTTCGCCATATTGAGGCCTGGCGACAGCGGGTGGAGCAGCGCCCGGCCTGGCAGCGGGCTATCGAGCGCGGCGGCCCCTTCACCTTACCCGGCGCCTGA	MLTVHHLNQSRSQRVLWALEELQLPYQIVRYQREKSMLAPAALKKIHPLGKSPVLEDNGYVLAESGAILEYLQESWDSDGLLKPQGADDKLQYRFWLHYAEGSLMPLLLMKLVFASLGKPPVPFGVRSLGSLLGKGIQKAWLDPQLATHARFIDDHLATRPWFAGDRLSMADIQMSFPVMALLARGGMHDLRHIEAWRQRVEQRPAWQRAIERGGPFTLPGA	PGPT0013170_8497	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS020_04928	459	soxR_2	COG0789	Redox-sensitive transcriptional activator SoxR	ATGGAAAAGAAATCACCCCGCATCAAAATGCTGCTGACGCCCGGGGAAGTGGCAAAACGAACCGGCGTGGCGGTCTCGGCCCTCCATTTTTATGAGAGTAAAGGGCTGATCCACAGCCAGCGGAATGCCGGCAATCAGCGGCGCTACCGGCGCGATGTCCTGCGCGCGGTGGCGATTATCAAAATTGCGCAACGTATCGGCATCCCGCTGGCCACCATCGGCGACGCGTTTGGCGTGCTGCCGGAAGGGCACAATCTCAGCGCAAAAGAGTGGAAAATGCTGTCATCACAGTGGCGCGAGGAGCTGGACCGGCGTATCCACACCCTGACGGCGCTGCGCGACCAGCTCGACGGCTGCATCGGCTGCGGCTGTTTATCGCGGCGCGACTGCCCGCTACGCAACCCGGGCGATAAACTGGGGGAAGAGGGGACCGGCGCCCGGCTGCTGGAGGAGGAGTGA	MEKKSPRIKMLLTPGEVAKRTGVAVSALHFYESKGLIHSQRNAGNQRRYRRDVLRAVAIIKIAQRIGIPLATIGDAFGVLPEGHNLSAKEWKMLSSQWREELDRRIHTLTALRDQLDGCIGCGCLSRRDCPLRNPGDKLGEEGTGARLLEEE	PGPT0012955_729	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012955-soxR-K13639	NA	NA
BMS020_04929	330	soxS		Regulatory protein SoxS	ATGTCCCATCAGGATATTATTCAAACACTGATTGAATGGATTGATGAACATATCGATCAACCACTTAACATTGATGTAGTCGCCAGAAAGTCAGGATACTCGAAGTGGTACCTGCAGCGGATGTTCCGCACCGTGATGCATCAGACGCTGGGGGATTATATTCGTCAGCGCCGTCTGCTGCTGGCGGCGGAGGCGTTGCGAACCACCCAGCGGCCGATCTTTGATATCGCCATGGATCTGGGCTACGTCTCGCAGCAAACCTTCTCGCGGGTCTTCCGCCGGGAGTTCGACCGCACCCCCAGCGACTACCGCCATCAGATCTCCGCGTGA	MSHQDIIQTLIEWIDEHIDQPLNIDVVARKSGYSKWYLQRMFRTVMHQTLGDYIRQRRLLLAAEALRTTQRPIFDIAMDLGYVSQQTFSRVFRREFDRTPSDYRHQISA	PGPT0012960_97	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012960-soxS-K13631	NA	NA
BMS020_04930	1605	pdeC	COG4943	putative cyclic di-GMP phosphodiesterase PdeC	ATGGGTGACAGTACGCCGCATAAGGCGCTAAGGCTCATCGGAACGGGGTTGGTTATTTTATTGCCAGTGGTACTGGCATTGTGGTTTGCCCAACTGCGGGCAAAAGCCGAAACCATTGATCAATTACACTCATTTTCGCAGCTGGCGCTGCAAAAAACGGAAATGGTCATCCGCGAAGCGGATCAGGCCCGGGCGAAAGCCAGCCAGTATCGCGGGGAGCTGTGCTCAGCGGACCATCAGCGTTATTTATTGCATATCGTTCGCGGCCTGCTGTATGTGGAAGATCTGATCTACGCTAACGGTCAGCGCTTTATCTGTTCAACGTCCGTTCATCAGCAAACCGGCTGGCGGATGCCGGCGGCCAGTTATACCAAAAAGCCGGATGTCGCGATTTACTATTACCGGGACACGCCGTTTTATCCCGGCTTTGCCATGAACTATATGCAGAAGGGGCCCTATGTGGTGGTGGTCAATCCCTTCTCGTTCAGCTCAGTGATCGCCAGCGATCGCGATTTAGCCTATGGCGTGTTCGATACCAAAACCAACCTCTTTTTCTCGGTTAGTAACAATGTCGAGCCCGCGGAGCTCCATGCGTTAATTCGTGAAGGCGATACCTTTTTTAATCAGAATGGCCGGGTGTATACGATAGCCCGCTCCGCTATCCGGCCGATCGCCGTCATTATGTCCACCTCGCGGGCCAGCTATTATCACAACTTTTGTGACCAGGCCAGCCTGACGCTGCCGCTGGGGATCATCTGCAGTATTTTACTGGTGCTGGTGTGGTCGCGCACCCGCCGGCAGTATCACTCGCCGCGCAATATGCTGCAGCGGGCTCTGAGCTGCCGCCAGCTGCGCCTGCACTACCAGCCGATTATCGATATTAAAAATAACCGCTGCGTCGGGGCGGAAGCGCTGCTGCGCTGGCCAGGGTTTGACGGTCCGGTGATGAACCCGGCGGAGTTTATTCCGCTGGCGGAAAATGAAGGCATGATTGCCCAGGTGACGGACTACGTGGTGGATGAGCTGTTTTACGAAATGGGAGAGTTTCTTGCCAGCCATCCGCAGCTGTACGTGGCGATCAATCTCTCTGCGTCGGACTTCCACTCGGCGCGGCTGATTTCACAGATCAGTGAGAAAGCGCGCAGCTATGCGGTCTGTATCGGGCAGATCAAAATCGAAGTAACCGAGCGGGGGTTTATCGACGTACCGAAGACCACGCCGGTGATTCAGGCGTTCCGCGAAGCGGGCTATGAAATTGCCATCGATGATTTCGGTACCGGCTATTCGAATCTGCATAATCTGCACGCCCTGAACGTCGATATCCTTAAAATCGATAAAACCTTCGTTGATACGCTGACCACCAACAACACCAGCCACCTGATTGCCGAACACATCATCGAGATGGCGCGCGGGTTACGTCTAAAGACTATCGCGGAAGGCGTGGAGACGCCTGAGCAGGTAAGCTGGCTCTACAAGCGCGGCGTGCAGTATTGCCAGGGCTGGCTGTTTGCGAAAGCGATGCCGGCGCGGGAGTTTATGCAGTGGTTAGCCAATGCGCCCGCGCCCGTGAACGTGCCTCAGCCGTCGCGTCACGCGGAGATCTGA	MGDSTPHKALRLIGTGLVILLPVVLALWFAQLRAKAETIDQLHSFSQLALQKTEMVIREADQARAKASQYRGELCSADHQRYLLHIVRGLLYVEDLIYANGQRFICSTSVHQQTGWRMPAASYTKKPDVAIYYYRDTPFYPGFAMNYMQKGPYVVVVNPFSFSSVIASDRDLAYGVFDTKTNLFFSVSNNVEPAELHALIREGDTFFNQNGRVYTIARSAIRPIAVIMSTSRASYYHNFCDQASLTLPLGIICSILLVLVWSRTRRQYHSPRNMLQRALSCRQLRLHYQPIIDIKNNRCVGAEALLRWPGFDGPVMNPAEFIPLAENEGMIAQVTDYVVDELFYEMGEFLASHPQLYVAINLSASDFHSARLISQISEKARSYAVCIGQIKIEVTERGFIDVPKTTPVIQAFREAGYEIAIDDFGTGYSNLHNLHALNVDILKIDKTFVDTLTTNNTSHLIAEHIIEMARGLRLKTIAEGVETPEQVSWLYKRGVQYCQGWLFAKAMPAREFMQWLANAPAPVNVPQPSRHAEI				NA	NA	NA	NA	NA
BMS020_04931	282			hypothetical protein	ATGGCTTCCATTACTACCAGTGTTGTGTTGTTGCGCTGGCCCCTGGTGAGCGCGGTACTGATGTTTCTTGCCAGTTCACTGAATATCCAACTTCGCAAAAGCGATTATGCCGGTCTGGCGGTGATCTGCAGCTGCCTCGGCCTTGCCGCCGCCTGCTGGTTCGCCACCGGTTTGCTCGGCATCACCCTGCTCGATATTGCCAAAATCTGGGGCAATATCAAAGATGTGATGATTGAAGTCATGAGTCAGACACCGCCAGAATGGCCAATGATGATGACCTGA	MASITTSVVLLRWPLVSAVLMFLASSLNIQLRKSDYAGLAVICSCLGLAAACWFATGLLGITLLDIAKIWGNIKDVMIEVMSQTPPEWPMMMT				NA	NA	NA	NA	NA
BMS020_04932	201			hypothetical protein	TTGGATGAGTTTACCGGCACCTTCTTCGTCGGGGCGCCGGATGTCACTACGCTGCCGCTGCTGCTCTATAACGCCAGCATGTCGGGTAACTATCAGGTCTCGTCGATTACCGCGCTGATTTTGCTGGCGCCATCGCTGCTCTTTATGGTGGTGATCCATAAATTTATGCGTCCGGAGATGATGGCGAAACTGGGGAAATAA	MDEFTGTFFVGAPDVTTLPLLLYNASMSGNYQVSSITALILLAPSLLFMVVIHKFMRPEMMAKLGK	PGPT0007845_792	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007845-ABC_SP_P|ydcV-K02053	NA	NA
BMS020_04933	210			hypothetical protein	ATGCTGGCGCATGTCGCCGCCGGCCAGCTCCATGCCTATTATGAAGCACATATGAACAGCTGGGACGCGCTGGCAGGCATGCTGTTGATTGAGGAGGCGGGCGGAACGTGCAATGCGTTTCTCGCCAATGAGGGGCTGCGGCGAGGTAACCGCGTGCTGGCCGGCTGCGCAGGCGTCCAGCCACGACTGGCCGCCCTGCTGGAGAAATGA	MLAHVAAGQLHAYYEAHMNSWDALAGMLLIEEAGGTCNAFLANEGLRRGNRVLAGCAGVQPRLAALLEK	PGPT0018535_7360	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
BMS020_04934	354	iraM		Anti-adapter protein IraM	ATGAAATGGACTATTCTTAATACCCTGATCTGCCCGCAATCCGGCATCGCCTTTTCGGCGATATCCAGCCTGCGTTTCTTAAAATTTATTATGTGGTACGAGGCCGATGTGATCCTGCTGCCCGGCGAGACAATGAAGCTCTATTCCTCAAGAGTTTTAATTAATGACCAGTATCATTCATTAAAAATCTACAATATTGCGGTGTACGACGAGGCGCAGTGGGAAATATTACGCGAGCGGCCATCGTGCCCGTACCATGCCGGCGGCGAGCGGTCTGACTCCTGTTTTTACCAGTCCTTTTGCGCGATTAAGCGCTGCCCGAATAATATTCCCCGCAGCGAAACCTGGCGTTAG	MKWTILNTLICPQSGIAFSAISSLRFLKFIMWYEADVILLPGETMKLYSSRVLINDQYHSLKIYNIAVYDEAQWEILRERPSCPYHAGGERSDSCFYQSFCAIKRCPNNIPRSETWR	PGPT0015085_41	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-MAGNESIUM_STARVATION_RESPONSE,PGPT0015085-iraM|elbA-K21638	NA	NA
BMS020_04935	948	pgrR_8		HTH-type transcriptional regulator PgrR	ATGGCCCGGCGGTTTGATTATCTTTCGGATGTGGAAGTGTTTCTGGCTGTGGCCGAGCGCGGGTCATTTACCGCCGGCGCGGTGGCGCTATCGTCAACGCCGTCGGTGCTCAGCCGGGCCGTCACCCGTCTTGAGACGCGCCTGGGATGTCAGCTGCTGCGCCGTTCCACCCGGCGGATCAGCCTGACTGAGGCCGGAAATGCTTACCTGATTCAGGTCCGCCAGGCATTTGAGGTGCTGGATAATGCCGAACGGGAGGCGCAGGGGCAAAAAGGGTCGCTGTCCGGACGCGTAAAGCTGAGCGTACCCACCACCTGGGGACACTACCGTCTGCCGCCGCGCCTGGCGCTGTTCCGTCAATTACATCCCGATGTACAGATTGAGCTGAATATGACCAACCGTAATGTCGATATTATCGCCGAAGGTTTCGACTTGGTGGTGCGCCAGGGACATTTACCCGACAGTGGTCTGGTGGCAAAAAAACTGGAGGATGCCGGGCTATGTCTGGTGGCCTCGCCGGCTTATTTACGCTCTACGACGCAACCGCTCAATAAAATAGCCGATTTGCGCCATCATTCATGCCTGACCTTTATTTTGCCGGCGACGGGAAAAGTTGCGGAATGGGTATTTCGTGAAAATGACCAGGATATTAACTGGCTACCGCCTTCCTCCCTGCATGTTTCTGATGATGTGCTCGGGGTAGTCTCGTTGGCCCTCGCAGGGGCGGGGATCTGCCAGAGCTATGCGTTTATTGTGCAGGAGGCGGTGGCGCGTGGGGCGCTGGTCCCAGTGCTTCCGGCATTCGCCGGACGCTCACGGCCTTTCTCGGTCGTTTACCCGCCGCATAAAAGCCAGTCAGCCGCCGCACGGGCGTTGATTGCGCTGCTGACCCTGCCGGCGGAAGCTTTGACGACGCTCAGCGCCACATCGTCTGATACGAATGGATGA	MARRFDYLSDVEVFLAVAERGSFTAGAVALSSTPSVLSRAVTRLETRLGCQLLRRSTRRISLTEAGNAYLIQVRQAFEVLDNAEREAQGQKGSLSGRVKLSVPTTWGHYRLPPRLALFRQLHPDVQIELNMTNRNVDIIAEGFDLVVRQGHLPDSGLVAKKLEDAGLCLVASPAYLRSTTQPLNKIADLRHHSCLTFILPATGKVAEWVFRENDQDINWLPPSSLHVSDDVLGVVSLALAGAGICQSYAFIVQEAVARGALVPVLPAFAGRSRPFSVVYPPHKSQSAAARALIALLTLPAEALTTLSATSSDTNG				NA	NA	NA	NA	NA
BMS020_04936	1167			hypothetical protein	ATGCATCGTTTTTCACTTGTTATTCTCGGCCTGCTGTCCCTGGGACAGAACGCGCTGGCGGCAGGAGCCGACGACCCCGCCCATTTAGCGCTCTGGCGCAGTTATGCCGGGGTAACCTGGGAGCAGCGCGTCGATGCGCGCTCCGTCGATGCCCCCATCGCGGGCTTGCATTTTGACGCCGCTGGCCGGGCGTTTGTCAGTACCCCACGCCTGATCTCGCCCCAGGCGCCCGCTACGCTCAGCCTGCTCGATACCGCGTCGCTGAGCGGCCCCGCACGCCTTACCGCCTTTCCATCCACCGAGGCGAACAGCATCAGCGCCGATCCCCGCACGCACCTGCGCAATGTGCTGGGCTTTTATGTCGACCACCGCAACGGCTGGCTGTGGGCATTAGATCAGGGCTTTGTCGCCGGCGAAAAGACGGCGCCGCCGGAGGCGCAAAAGATCATGATTTATGCGCTCAGCGACGGCAAACTGGTGCAGCGTATTCCGCTCGACAGCGTTGCCGATCGTGAAGGGAGCTTTCTTAACGATATTGTGGTCGATGAAGCGCGCCGGGTGGCCTATATCGCCGACAGCGGCCTGCGCAGCGCGCCGGATAACCAGGCCGGACTGATCGTTGTGGATGCTCAGCGTGGGACGGTTCGCCGGGTACTGAATAAGCACCCGGCGCTGATGCCGGTTGCCGGCCTGCAGGTGACGTCCCATGGGGAAACCGTCTGGCCGGGCAATCCCATTATTCTGGGCATCAACGGTATCGCGCTGTCACCGGACCAGGAAACCCTCTACTGGACGGTCACCACCGGCACCACGGCGCGGACCATCGCCACCGCCGCGCTGCGCGATCCCGCCATGAGCGAACGACAACTCGCCGCCGCCATCCGTACAGCGGGTGAGGTCGGCGGGAATAGCGATGGCATCGTGGTCGATAAGCATGGCGCGCTCTATATCACCGATGTGACCCATAACGGTATTGTCCGGTATCGCCCGCAGAGCGGACAGTTCACCCTGCTGGCCGCTGACGAGCGCGTATACTGGCCCGATACGCCGACTATCGGCCCGGACGGCGCGGTAATGTTCACCGCCAGCCATTTAAACCAGCACTTTGCTCAGGCGGTAAAACCGGGCGAAGAGAAATATACCATCTGGAAAGTGGTGCAGCCCTGA	MHRFSLVILGLLSLGQNALAAGADDPAHLALWRSYAGVTWEQRVDARSVDAPIAGLHFDAAGRAFVSTPRLISPQAPATLSLLDTASLSGPARLTAFPSTEANSISADPRTHLRNVLGFYVDHRNGWLWALDQGFVAGEKTAPPEAQKIMIYALSDGKLVQRIPLDSVADREGSFLNDIVVDEARRVAYIADSGLRSAPDNQAGLIVVDAQRGTVRRVLNKHPALMPVAGLQVTSHGETVWPGNPIILGINGIALSPDQETLYWTVTTGTTARTIATAALRDPAMSERQLAAAIRTAGEVGGNSDGIVVDKHGALYITDVTHNGIVRYRPQSGQFTLLAADERVYWPDTPTIGPDGAVMFTASHLNQHFAQAVKPGEEKYTIWKVVQP				NA	NA	NA	NA	NA
BMS020_04937	1581	mltF_1	COG4623	Membrane-bound lytic murein transglycosylase F	ATGAACGCCAACTTGCTATCACGCCTGTTTATCGCCTGGCTCACCTGCCTCGCGACGCTGTTATTCGCCCCTATCCTGCTTGCGGCGGAGGCGGAAAAAGCGCCGCCGGTGGCAACCGAAGACAACACGCTGTCGATCCATATCGACGACATGCTGCAACCGTGGAAAGGCGATCTGCCTGGCATGCTTGATCGGCGCACCATCCGGGTATTAACCACCTACAGCAAGACCTTCTTTTTTATTGATAAGGGAACCCAACGCGGAGCGACGCACGACATTTTCATGGCGCTGGAAAAAGATCTGAATAAACAGCTGGCCAGGGATAAAAAGCTGAAACAGCGCCACCTGAAGCTGCATATCGTTTTCGTGCCGGTCAGCCGGGATAATCTCTTCACCGCGCTCAATGAAGGTAAAGGGGATATCGTCGCCGCCAACCTGACCATCACTCCGTCGCGGGAAGCCCAGGCCGCTTTCGCTCAGCCGCTCTACAGCGGCGTCAAAGAGTTGCTGATCTCCGGCCCGGCGTCGCCAAAGGTCGACAGTCTGGAGCAGCTCTCCGGTCAAACGGTCTTTGTTCGCCGCTCCTCCAGCTATTACGACAGTCTGCAAGCGCTGAACGCCCGATTTGCCAGTGAGTCAAGACCGCCGGTTACCCTGGAAGCGGCGCCGGAAGCGCTGGAGGATGAAGATCTGCTGGAAATGCTCAACGCCGGGCTGGTGCCGTTGATCGTCGTCGATCAGCATAAAGCTGTTTTCTGGAAACAGGTGTTTCCGAAAATCCAGGTCCATGACAACGTGGTGCTGCGCGACGGCGGCAACATTGCGTGGGCGGTACGCCAGGACAGTCCGCAGCTGCTGGCGCTGCTGAACAACTTCGTGAAAAAGAATCGTCAGGGCACCACGCTGGGCAATACTCTCCTGCTGCGTTACCTGAAAAACGCTAAATATGTCAAAAATGCCGCAGCGAGTCAGGAACGGCGCAAGTTCCTCGCCATGGTGGACGTCTTCCGTAAATATGGCGATCGCTACGATGTCGACTGGCTGCTGATGGCGGCCCAGGGATACCAGGAGTCGCGGCTGAACCAGTCGGTTCGAAGCCACGTCGGCGCCGTCGGGGTGATGCAGGTGATGCCCAGCACCGGAAGAGAGCTGAAGGTGGGCGATATTAAACAGCTGGATCCCAACATTCATGCTGGCGTGAAATATATGCGCTGGATGATAGATCGATACTATGCTGATGAGCCCATGACCCGGCTGGATAAAGCGCTATTTACCTTTGCTTCCTACAACGCCGGTCCAGCGCGTATCGCCCGCCTGCGCACCATGACCAAACAGCGCGGGTTTGATCCAAACGTCTGGTTCGGTAATGTCGAAAATCTGGCGGCAGAAAAAATCGGCGCGGAAACGGTGACCTACGTCAGCAATATCTATAAGTATTACATCGCCTATCGGCTGATCGTCGATGACATGGCCCGCAAACAGAAAGCGACGGCCGCGCCGCGGCAGAGGCCAGCGACACAGCCCGCCGCACCGCAGCCAGGCGTGGCGACGCCCGCAACCGCTCAGGTGCCCGCGGCCTGA	MNANLLSRLFIAWLTCLATLLFAPILLAAEAEKAPPVATEDNTLSIHIDDMLQPWKGDLPGMLDRRTIRVLTTYSKTFFFIDKGTQRGATHDIFMALEKDLNKQLARDKKLKQRHLKLHIVFVPVSRDNLFTALNEGKGDIVAANLTITPSREAQAAFAQPLYSGVKELLISGPASPKVDSLEQLSGQTVFVRRSSSYYDSLQALNARFASESRPPVTLEAAPEALEDEDLLEMLNAGLVPLIVVDQHKAVFWKQVFPKIQVHDNVVLRDGGNIAWAVRQDSPQLLALLNNFVKKNRQGTTLGNTLLLRYLKNAKYVKNAAASQERRKFLAMVDVFRKYGDRYDVDWLLMAAQGYQESRLNQSVRSHVGAVGVMQVMPSTGRELKVGDIKQLDPNIHAGVKYMRWMIDRYYADEPMTRLDKALFTFASYNAGPARIARLRTMTKQRGFDPNVWFGNVENLAAEKIGAETVTYVSNIYKYYIAYRLIVDDMARKQKATAAPRQRPATQPAAPQPGVATPATAQVPAA				NA	NA	NA	NA	NA
BMS020_04938	525	ssb_2	COG0629	Single-stranded DNA-binding protein	ATGGCCAGCAGAGGCGTAAACAAGGTGATTCTCGTCGGTAACCTGGGGCAGGACCCGGAAGTACGCTACATGCCAAGTGGCGGCGCAGTCGCCAACTTCACGCTGGCAACTTCCGAATCCTGGCGTGACAAGCAGACCGGCGAAATGAAAGAGCAGACTGAATGGCACCGCGTTGTGCTGTTCGGCAAACTGGCGGAAGTCGCTGGTGAGTACCTGCGTAAAGGCTCTCAGGTGTACATTGAAGGCCAGCTGCGTACCCGCAAGTGGACCGATCAATCCGGTCAGGACAAATACACCACTGAAGTGGTGGTGAACGTTGGCGGCACCATGCAGATGCTGGGCGGCCGTCAGGGCGGCGGCGCACCGGCAGGCGGCGGCCAGCAGCAGGGCGGTTGGGGTCAGCCTCAGCAGCCGCAGGGCGGCAACCAGTTCAGCGGCGGCGCGCAGTCCCGTCCGCAGCAGCAGGCTCCGGCAGCACCTTCCAACGAACCGCCGATGGACTTCGACGACGATATTCCGTTCTAA	MASRGVNKVILVGNLGQDPEVRYMPSGGAVANFTLATSESWRDKQTGEMKEQTEWHRVVLFGKLAEVAGEYLRKGSQVYIEGQLRTRKWTDQSGQDKYTTEVVVNVGGTMQMLGGRQGGGAPAGGGQQQGGWGQPQQPQGGNQFSGGAQSRPQQQAPAAPSNEPPMDFDDDIPF				NA	NA	NA	NA	NA
BMS020_04939	2826	uvrA_1	COG0178	UvrABC system protein A	ATGGATAAGATCGAAGTTCGGGGCGCCCGCACCCATAATCTCAAAAACATCAACCTCGTTATCCCGCGCGACAAACTCATTGTCGTCACCGGGCTTTCCGGGTCTGGCAAATCTTCACTGGCTTTCGACACCCTGTATGCCGAAGGCCAGCGTCGCTACGTCGAATCGCTCTCCGCCTATGCGCGACAGTTCCTGTCGCTGATGGAGAAACCGGACGTCGACCATATCGAAGGGCTGTCGCCGGCGATTTCCATCGAACAGAAATCAACCTCTCACAACCCCCGCTCAACGGTGGGTACTATTACCGAAATTCACGACTACCTGCGTCTGCTGTACGCCCGCGTCGGCGAGCCGCGCTGTCCGGACCACGACGTGCCGCTGGCGGCGCAAACCGTCAGCCAGATGGTCGATAACGTCCTCGCCCAGCCGGAAGGCCTGCGTCTGATGCTGCTGGCGCCCATTATTAAAGAGCGTAAAGGCGAGCACACCAAAACCCTGGAAAACCTCGCCAGCCAGGGCTATATCCGCGCACGGATCGACGGCGAAGTCTGCGATCTCTCGGATCCGCCGAAGCTGGAGCTGCAGAAGAAACACACCATCGAGGTGGTAATTGACCGCTTCAAGGTCCGCGACGATCTGGCGCAACGTCTGGCCGAGTCGTTCGAAACCGCGCTGGAGCTCTCCGGCGGTACCGCCATCGTGGCCAATATGGATGATGAGAAAGCGGAAGAACTGCTGTTTTCCGCCAACTTCGCCTGCCCGATCTGCGGCTACAGCATGCGCGAGCTGGAGCCGCGCCTGTTCTCCTTCAACAACCCGGCGGGCGCCTGCCCGACCTGCGACGGCCTCGGCGTGCAGCAATATTTCGACCCCGATCGCGTGGTGCAAAATCCGGAGCTGTCGCTGGCGGGCGGCGCCATCCGCGGCTGGGATCGGCGTAACTTCTACTACTTCCAGATGCTGAAGTCGCTGGCGGAGCACTACAAGTTCGACGTCGAAGCGCCGTGGGGCACTCTCAGCGCCAGCGTGCAGAAAGTGGTCCTGTACGGTTCCGGTAAAGAGAATATTGAATTCAAATACATGAACGACCGCGGCGACACCTCGGTACGCCGCCATCCGTTCGAAGGCGTGCTGCATAACATGGAGCGCCGCTACAAAGAGACGGAATCCAGCGCGGTGCGCGAAGAGCTGGCGAAGTTCATCAGCAATCGCCCGTGCGCCAGCTGCGACGGTACGCGTCTGCGCCGCGAGGCGCGCCACGTGTTTGTGGAAAACACCCCGCTGCCGACCATTTCCGATATGAGCATCGGTCACGCGATGGACTTCTTCAACAATCTGAAACTCTCCGGCCAGCGGGCGAAAATCGCCGAAAAAGTGCTGAAAGAGATTGGCGATCGCCTGAAGTTCCTCGTCAACGTCGGCCTCAACTACCTGACGCTCTCCCGTTCGGCGGAAACGCTCTCCGGCGGCGAGGCCCAGCGTATCCGTCTGGCGAGCCAGATTGGCGCCGGACTGGTTGGCGTGATGTACGTCCTGGATGAGCCCTCCATCGGCCTGCACCAGCGCGATAACGAGCGACTGCTCGGGACCCTGATTCACCTGCGTAATTTGGGCAACACGGTGATCGTCGTTGAGCATGACGAAGACGCCATTCGCGCCGCCGACCATGTGATCGATATCGGCCCTGGGGCCGGGGTCCACGGCGGCCAGGTGGTGGCGGAAGGGCCGCTGGAGGCCATTATGGCCGTCCCGGAATCCCTGACCGGCCAGTTCATGAGCGGCAAGCGCAAAATTGAAGTGCCGAAGCAGCGCGTGCCCGCCGATCCGGAGAAAGTCCTCAAACTGACCGGCGCGCGCGGCAACAACCTGAAAGACGTGACGCTGACTCTGCCGGTGGGCCTGTTTACCTGCATTACCGGCGTCTCCGGCTCGGGTAAATCAACGCTGATCAACGATACCCTGTTCCCGATTGCCCAGCGTCAGCTTAACGGGGCGACCATCGCCGAACCGGCGCCGTATCGCGATATTCAGGGGCTGGAGCACTTCGATAAAGTCATCGATATCGACCAGAGCCCGATCGGCCGTACGCCGCGCTCCAATCCCGCGACCTATACCGGGGTGTTTACGCCGGTGCGCGAGCTCTTCGCCGGGGTGCCGGAATCACGTTCCCGCGGTTATACGCCGGGTCGTTTCAGTTTTAACGTCCGCGGCGGTCGCTGCGAAGCCTGCCAGGGCGACGGAGTGATCAAGGTCGAAATGCACTTCCTGCCGGATATCTACGTACCGTGCGACCAGTGCAAAGGTAAGCGCTATAACCGCGAAACGCTGGAGATTAAGTACAAAGGCAAAACCATCCACGAAGTGCTGGATATGACCATTGAAGAAGCGCGCGAGTTCTTTGATGCCGTACCGGCGCTGGCGCGTAAGCTGCAAACCCTGATGGATGTCGGCCTGACCTATATCCGTCTCGGCCAGTCGGCGACGACGCTGTCCGGCGGCGAGGCGCAGCGCGTGAAGCTGGCGCGCGAGCTGTCCAAGCGCGGTACCGGCCAGACGCTGTATATCCTCGATGAGCCGACCACCGGTCTGCACTTCGCCGATATCCAGCAGCTGCTGGAAGTGCTGCACCAGCTGCGCGATCAGGGCAATACTATCGTGGTGATTGAGCACAACCTCGACGTGATAAAAACTGCCGACTGGATTGTCGATCTCGGCCCGGAAGGCGGCAGCGGCGGCGGCGAAATTCTGGTTTCCGGTACGCCGGAAACCGTCGCTGAGTGCGAAGCCTCGCACACCGCGCGCTTCCTGAAGCCGATGCTGAAATAA	MDKIEVRGARTHNLKNINLVIPRDKLIVVTGLSGSGKSSLAFDTLYAEGQRRYVESLSAYARQFLSLMEKPDVDHIEGLSPAISIEQKSTSHNPRSTVGTITEIHDYLRLLYARVGEPRCPDHDVPLAAQTVSQMVDNVLAQPEGLRLMLLAPIIKERKGEHTKTLENLASQGYIRARIDGEVCDLSDPPKLELQKKHTIEVVIDRFKVRDDLAQRLAESFETALELSGGTAIVANMDDEKAEELLFSANFACPICGYSMRELEPRLFSFNNPAGACPTCDGLGVQQYFDPDRVVQNPELSLAGGAIRGWDRRNFYYFQMLKSLAEHYKFDVEAPWGTLSASVQKVVLYGSGKENIEFKYMNDRGDTSVRRHPFEGVLHNMERRYKETESSAVREELAKFISNRPCASCDGTRLRREARHVFVENTPLPTISDMSIGHAMDFFNNLKLSGQRAKIAEKVLKEIGDRLKFLVNVGLNYLTLSRSAETLSGGEAQRIRLASQIGAGLVGVMYVLDEPSIGLHQRDNERLLGTLIHLRNLGNTVIVVEHDEDAIRAADHVIDIGPGAGVHGGQVVAEGPLEAIMAVPESLTGQFMSGKRKIEVPKQRVPADPEKVLKLTGARGNNLKDVTLTLPVGLFTCITGVSGSGKSTLINDTLFPIAQRQLNGATIAEPAPYRDIQGLEHFDKVIDIDQSPIGRTPRSNPATYTGVFTPVRELFAGVPESRSRGYTPGRFSFNVRGGRCEACQGDGVIKVEMHFLPDIYVPCDQCKGKRYNRETLEIKYKGKTIHEVLDMTIEEAREFFDAVPALARKLQTLMDVGLTYIRLGQSATTLSGGEAQRVKLARELSKRGTGQTLYILDEPTTGLHFADIQQLLEVLHQLRDQGNTIVVIEHNLDVIKTADWIVDLGPEGGSGGGEILVSGTPETVAECEASHTARFLKPMLK	PGPT0014915_5066	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701	NA	NA
BMS020_04940	357	yjbR	COG2315	putative protein YjbR	ATGACAATTTCGGAGTTATTGCAGTACTGCATGGCGAAGCCGGGAGCAGAGCAGAGCGTCCACAGCGACTGGAAAGCCACGCAGATTAAGGTCTCGGACGTGCTGTTTGCCATGGTGAAGGAGGTCGAAGACCAGCGGCCGGCGGTTGCGTTGAAGGCGAGTCCGGAGCTGGCGGAGCTGCTGCGGCAGCAGCATCGCGACGTCCGGCCCAGCAAGCATCTCAATAAAGCGCACTGGAGCACCGTCTTTCTGGATGGCTCGCTGCCGGATTCGCAAATCTACTACCTGGTCGATGCGTCTTACCAGCAGGCGGTGAAAATGCTGCCGGAGCCGGTCCGGCAGCAGCTTTCCCGCTAA	MTISELLQYCMAKPGAEQSVHSDWKATQIKVSDVLFAMVKEVEDQRPAVALKASPELAELLRQQHRDVRPSKHLNKAHWSTVFLDGSLPDSQIYYLVDASYQQAVKMLPEPVRQQLSR				NA	NA	NA	NA	NA
BMS020_04941	417			hypothetical protein	ATGTGGTATCAGCAAACCCTGACGCTTGGGCCTAAATCCCGTGGTTTTCATCTGGTCACCGACGAAATCCTCGGCCAGATCCGCGGGCTGTCCGGGGTGAAGGTCGGCCTGCTACACCTCCTGCTCCAGCATACTTCCGCTTCCCTGACGCTCAACGAAAACTGCGATCCCACCGTCCGGTATGACATGGAGCAGTATTTTCTTAACGCCGTGCCGGACAATGCGCCGTACGAACATGATTATGAAGGCCCTGACGATATGCCGTCGCACATCAAATCATCGATGCTTGGCGTGTCGCTGATGCTGCCGGTCGAGGACGGACGCGTCAGGCTGGGGACCTGGCAGGGCATCTGGCTGGGGGAGCATCGGATACACGGCGGTTCGCGGCACATCGTTGCGACGCTCATGGGGGAATAA	MWYQQTLTLGPKSRGFHLVTDEILGQIRGLSGVKVGLLHLLLQHTSASLTLNENCDPTVRYDMEQYFLNAVPDNAPYEHDYEGPDDMPSHIKSSMLGVSLMLPVEDGRVRLGTWQGIWLGEHRIHGGSRHIVATLMGE				NA	NA	NA	NA	NA
BMS020_04942	714	aphA	COG3700	Class B acid phosphatase	ATGCGCAAACTTACTCTCGCCCTTGCGGCGGCCTCTCTCCTGTTCACGCTGAACAGCGCCGTCGTGGCGCGCGCCTCCACGCCGCAGCCGCTGTGGGTCGGTACCAACGTGGCCCAGCTGGCCGAGCAGGCGCCGATCCACTGGGTTTCGGTGGCGCAAATTGAGAACAGCCTGCTGGGGCGCCCGCCGATGGCCGTCGGTTTTGATATCGATGACACCGTCCTCTTCTCCAGTCCCGGTTTCTGGCGCGGGCAAAAAACCTTCTCCCCCGGCAGTGAGGATTACCTGAAAAACCCGCAGTTCTGGGAAAAAATGAACAACGGCTGGGACGAATTCAGTATGCCAAAAGAGGTGGCGCGCCAGCTGATTGCCATGCATGTGAAGCGTGGCGACAGCATCTGGTTCGTCACCGGCCGCAGCCAGACCAAAACAGAAACCGTTTCTAAAACCCTGCAGGATGATTTCCTCATCCCGGCCGCCAATATGAACCCGGTGATTTTCGCTGGCGATAAGCCGGGTCAGAACACCAAGACCCAGTGGCTGCAGGCGAAGCAGATAAAGGTTTTCTATGGCGACTCGGATAACGACATTACCGCTGCCCGCGAGGCGGGCGCCCGCGGGATCCGCGTGCTGCGCGCCGCCAACTCCTCCTACAAGCCGCTGCCGATGGCCGGCGCGCTGGGCGAAGAAGTGATCGTCAATTCCGAATACTGA	MRKLTLALAAASLLFTLNSAVVARASTPQPLWVGTNVAQLAEQAPIHWVSVAQIENSLLGRPPMAVGFDIDDTVLFSSPGFWRGQKTFSPGSEDYLKNPQFWEKMNNGWDEFSMPKEVARQLIAMHVKRGDSIWFVTGRSQTKTETVSKTLQDDFLIPAANMNPVIFAGDKPGQNTKTQWLQAKQIKVFYGDSDNDITAAREAGARGIRVLRAANSSYKPLPMAGALGEEVIVNSEY	PGPT0002565_16	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0002565-aphA-K03788	NA	NA
BMS020_04943	1194	tyrB_3	COG1448	Tyrosine aminotransferase	GTGTTTCAAAAAGTTGACGCCTACGCCGGCGACCCAATTCTTTCTCTGATGGAACGCTTCAAAGAAGACCCGCGAAGCGACAAAGTCAACCTGAGTATCGGGCTGTATTACAACGATGACGGCATTATCCCGCAGCTGCAGGCGGTGGCGGAAGCGGAAGCGCGCCTGAACGCCGAGCCGCACGGCGCCTCGCTGTATCTGCCGATGGAAGGGCTGAGCGGCTACCGCCAGGTGATTGCCCCGCTGCTGTTTGGCGCAGAGCATACCGCGCTTAAGCAAAACCGCATCGCCTCCATTCAGACGGTCGGCGGTTCGGGCGCGCTGAAGGTCGGGGCCGACTTCCTCAAACGCTACTTTCCTGAGTCTCATGTCTGGGTCAGTGACCCGACCTGGGAAAACCACATCGCCATATTTGAAGGGGCTGGCTTCGAAGTAAGTACTTACCCCTGGTTTGATAAAGCCACCAACGGCGTGCGCTTTGAAGCGCTGCTGGCGACGCTGCAAACGCTGCCGGCGCGCGACATTGTGCTGCTGCACCCCTGCTGCCACAACCCGACCGGCGCCGACCTGACGCCGGAACAGTGGGATCGTGTGGTGGAGATCCTGAAAGCGCGTCAGCTGATCCCGTTCCTCGACATCGCCTACCAGGGCTTTGGCGCAGGGCTGGAAGAGGATGCCTACGCCATTCGCGCCATCGCCAGCGCCGGGATGCAGATGCTGGTCAGCAACTCCTTCTCCAAAATTTTCTCCCTGTACGGGGAGCGCGTCGGCGGCCTGTCGGTGGTTTGTGAAGACAGTGAAACCGCAGGCCGCGTGCTGGGCCAGCTGAAGGCCACCGTGCGCCGCAACTACTCCAGCCCGCCGAGCTTTGGCGCGCAGGTGGTGGCGACGGTGCTGAACGATGCCGGGCTGAAAGTCACCTGGCAGGCGGAAGTGGACGCCATGCGCGCGCATATCCTGACCATGCGTCAGGCGCTGGTCGACGCGCTGCAGCAGGTTGCTCCGGGCAGCAAAGTGGATTATCTGCTCAAGCAGCGCGGGATGTTCAGCTACACCGGCTTCAGCGCGGCGCAGGTGGATCGCCTGCGCGACGAGTTTGGCGTCTACCTGATTGCCAGCGGACGTATGTGCGTGGCGGGGTTAAACTCACGTAATGTTCAGCAGGTAGCGAAAGCCTTTGCCGCGGTAATGTAA	MFQKVDAYAGDPILSLMERFKEDPRSDKVNLSIGLYYNDDGIIPQLQAVAEAEARLNAEPHGASLYLPMEGLSGYRQVIAPLLFGAEHTALKQNRIASIQTVGGSGALKVGADFLKRYFPESHVWVSDPTWENHIAIFEGAGFEVSTYPWFDKATNGVRFEALLATLQTLPARDIVLLHPCCHNPTGADLTPEQWDRVVEILKARQLIPFLDIAYQGFGAGLEEDAYAIRAIASAGMQMLVSNSFSKIFSLYGERVGGLSVVCEDSETAGRVLGQLKATVRRNYSSPPSFGAQVVATVLNDAGLKVTWQAEVDAMRAHILTMRQALVDALQQVAPGSKVDYLLKQRGMFSYTGFSAAQVDRLRDEFGVYLIASGRMCVAGLNSRNVQQVAKAFAAVM	PGPT0020310_1258	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020310-tyrB-K00832	NA	NA
BMS020_04944	1080	alr_1	COG0787	Alanine racemase, biosynthetic	ATGCAAGCGGCAACTGTAGTTATCAACCGCCGCGCTCTGCGACACAACCTGCAACGTCTGCGTGAACTGGCGCCTGCCAGCAAACTGGTTGCGGTGGTGAAAGCGAACGCCTACGGACACGGTCTTCTTGAGACCGCGCGAACGCTGACCGACGCCGACGCTTTTGGCGTCGCCCGCCTGGAAGAGGCGCTGCGCCTGCGAGCGGGGGGGATCGCCCAGCCGATCCTCCTGCTGGAAGGCTTTTTTGCGGCGGAAGACCTGGCGGTGATCGCCGCTCAGCGTCTGCATACGGCGGTGCATAGCCCCGAACAGCTGGCGGCGCTGGAGCAAGCCGACCTCCCCGAGCCGGTGACCGTGTGGATGAAACTGGATACCGGTATGCATCGCTTAGGGGTGCGCCCGGAGGAAGCTGAGGCGTTTTATCAGCGTCTGAGCCAGTGCAAAAACGTCCGCCAGCCGGTCAATGTGGTGAGCCACTTCGCCCGCGCCGATGAGCCGACCTGCGGCGCCACCGAACGGCAGCTGGATATCTTCACCACCTTTACCGAAGGCAAGCCGGGATGGCGCTCTATTGCCGCCTCGGGCGGCATCCTGCTGTGGCCGCAGTCGCATTATGACTGGGTGCGTCCGGGCATTATCCTGTATGGCGTGTCGCCGCTGGACGATCGCTCCACCGGGAAAGATTTTGGCTGTCAGCCGGTGATGACCCTGACGTCCAGCCTGATTGCCGTGCGCGAGCATAAAGCAGGGGAGCCCGTCGGCTACGGCGGCACCTGGATCAGCGAACGCGACACTCGGCTCGGCGTGGTCGCGATGGGCTATGGCGACGGTTATCCGCGCGCCGCGCCGTCGGGCACCCCAGTGCTGGTCAATGGCCGCGAAGTGCCGATTGTCGGCCGGGTGGCGATGGATATGATCTGTGTTGACCTCGGCCCGCAGGCCGAGGATAAAGCCGGCGACGCGGTGGTGCTGTGGGGAGAGGGACTCCCGGTAGAGCGCATCGCCGAGATAACGAAAGTGAGCGCTTACGAACTTATTACGCGACTGACCTCCCGCGTAGCCATGAAATACCTCGACTGA	MQAATVVINRRALRHNLQRLRELAPASKLVAVVKANAYGHGLLETARTLTDADAFGVARLEEALRLRAGGIAQPILLLEGFFAAEDLAVIAAQRLHTAVHSPEQLAALEQADLPEPVTVWMKLDTGMHRLGVRPEEAEAFYQRLSQCKNVRQPVNVVSHFARADEPTCGATERQLDIFTTFTEGKPGWRSIAASGGILLWPQSHYDWVRPGIILYGVSPLDDRSTGKDFGCQPVMTLTSSLIAVREHKAGEPVGYGGTWISERDTRLGVVAMGYGDGYPRAAPSGTPVLVNGREVPIVGRVAMDMICVDLGPQAEDKAGDAVVLWGEGLPVERIAEITKVSAYELITRLTSRVAMKYLD	PGPT0020040_4154	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775	NA	NA
BMS020_04945	1416	dnaB_1	COG0305	Replicative DNA helicase	ATGGCAGGAAATAAACCCTTCAACAAACCACAGACAGAAACCCGCGAACGCGATCCGCAGCTCGCTGGGCTGAAAGTCCCGCCGCACTCGATTGAAGCGGAGCAGTCGGTGTTGGGCGGTTTAATGCTGGATAACGAGCGCTGGGACGACGTCGCCGAACGCGTCGTTGCCGACGACTTTTATACCCGTCCGCATCGTCATATCTTTACCGAGATGGCGCGCCTGCAGGAGTCGGGCAGCCCGATTGACCTGATCACCCTTGCGGAGTCGCTGGAGCGTCAGGGACAGCTGGACAGCGTGGGCGGCTTCGCCTATCTGGCTGAACTGTCCAAAAATACCCCCAGCGCGGCAAACATCAGCGCCTATGCCGACATCGTGCGCGAACGCGCGGTCGTGCGCGAGATGATCTCGGTGGCCAATGAGATCGCCGAGGCCGGCTTCGACCCGCAGGGGCGAACCAGCGAAGATCTGCTCGACCTCGCCGAGTCCCGCGTCTTTAAAATCGCTGAAAGCCGGGCCAATAAAGACGAAGGGCCGAAAAACATCGCCGATGTCCTCGACGCCACCGTCGCCCGTATCGAACAGCTGTTCCAGCAGCCCCACGACGGCGTTACCGGGGTCAACACCGGCTACGACGACCTCAACAAAAAGACCGCCGGCCTGCAGCCGTCGGATCTGATTATCGTCGCCGCCCGTCCGTCGATGGGTAAAACGACCTTCGCCATGAACCTCGTGGAAAACGCAGCGATGCTGCAGGACAAGCCGGTACTCATCTTCAGTCTCGAGATGCCCTCGGAACAGATCATGATGCGTTCTCTGGCCTCGCTGTCGCGCGTCGATCAGACCCGCATTCGTACCGGTCAGCTGGACGATGAGGACTGGGCGCGGATCTCCGGCACCATGGGCATTCTGCTGGAAAAACGTAACATCTATATCGATGACTCCTCCGGCCTGACGCCGACGGAAGTGCGTTCCCGCGCGCGGCGTATCGCTCGCGAGCACGGCGGTATCGGGCTGATTATGATCGACTACCTGCAGCTGATGCGCGTGCCGTCGCTCTCCGACAACCGTACCCTTGAGATCGCCGAAATCTCCCGCTCGCTGAAGGCGCTGGCCAAAGAGCTGCAGGTGCCGGTGGTGGCGCTGTCGCAGCTGAACCGCTCGCTGGAGCAACGTGCCGATAAACGCCCGGTCAACTCCGACCTGCGTGAGTCCGGCTCTATCGAACAGGATGCCGACTTAATCATGTTCATTTACCGTGATGAGGTCTATCACGAGAACAGCGATCTGAAGGGCATCGCGGAAATTATCATTGGTAAACAACGTAACGGCCCGATCGGCACCGTGCGACTGACCTTCAACGGCCAGTGGTCGCGTTTCGATAATTATGCTGGCCCTCAGTATGATGATGAGTAA	MAGNKPFNKPQTETRERDPQLAGLKVPPHSIEAEQSVLGGLMLDNERWDDVAERVVADDFYTRPHRHIFTEMARLQESGSPIDLITLAESLERQGQLDSVGGFAYLAELSKNTPSAANISAYADIVRERAVVREMISVANEIAEAGFDPQGRTSEDLLDLAESRVFKIAESRANKDEGPKNIADVLDATVARIEQLFQQPHDGVTGVNTGYDDLNKKTAGLQPSDLIIVAARPSMGKTTFAMNLVENAAMLQDKPVLIFSLEMPSEQIMMRSLASLSRVDQTRIRTGQLDDEDWARISGTMGILLEKRNIYIDDSSGLTPTEVRSRARRIAREHGGIGLIMIDYLQLMRVPSLSDNRTLEIAEISRSLKALAKELQVPVVALSQLNRSLEQRADKRPVNSDLRESGSIEQDADLIMFIYRDEVYHENSDLKGIAEIIIGKQRNGPIGTVRLTFNGQWSRFDNYAGPQYDDE				NA	NA	NA	NA	NA
BMS020_04946	984	qorA_1	COG0604	Quinone oxidoreductase 1	ATGGCAACACGCATCGAATTTTCAAAACACGGGGGGCCGGAGGTGCTTCAGGCGGTTGAATTCACGCCCCGCGATCCCGCTGAGCATGAAATTCAGGTCGAAAACAAAGCCATCGGTATCAATTATATCGACACCTATGTTCGTGGCGGCCTCTATCCGCCGCCCTCGCTGCCGAGCGGCCTCGGCACCGAAGCGGCCGGCGTCGTCAGTAAAGTTGGCCATGGGGTATCGCACATTAAGGTAGGCGATCGGGTGGTGTACGCCCAGTCGGCGCTCGGCGCCTACAGCACGGTGCACAATGTGCTGGCCGACAAAGCGGCGGTCCTCCCGGACGCCATCTCTTTCGAACAGGCCGCCGCGTCGTTCCTCAAGGGATTAACGGTCTGGTATCTGCTGCGCAAAACCTATGAAATTAAGCCTGATGAGATGTTCCTGTTTCACGCGGCCGCCGGCGGCGTGGGGCTGATAGCCTGTCAGTGGGCGAAAGCGCTGGGGGCGAAACTTATCGGCACCGTCGGCAGCGCGCAGAAGGCGCAGCGCGCCAAAGCGGCGGGCGCCTGGCAGGTGATTAACTATCGCGAAGAACCTATCGCGGAGCGGCTCAAAGCGCTCACCGACGGTAAGAAAGTCGCCGTGGTCTATGACTCGGTAGGGAAAGATACCTGGGAAGCCTCTCTGGACTGTCTGCAACGCCGCGGCCTGATGGTCAGCTTTGGCAACTCCTCCGGCCCGGTAACCGGCGTTAATCTGGGGATCCTGAACCAGAAAGGTTCTCTGTACGTCACCCGCCCATCGCTGCAGGGCTATATCACCAACCGGGAAGAGCTGGCGGAAGCCTGCAGTGAGCTGTTTTCGCTGATCGCAAGCGGCGTGATTAAAGTGGACGTGCCCGAGAGTCAGACCTATCCGCTGACCGAAGCGCGACGGGCGCATGAAGTTCTGGAGAGCCGGGTGACACAGGGGTCGAGTCTGCTGCTGCCGTAA	MATRIEFSKHGGPEVLQAVEFTPRDPAEHEIQVENKAIGINYIDTYVRGGLYPPPSLPSGLGTEAAGVVSKVGHGVSHIKVGDRVVYAQSALGAYSTVHNVLADKAAVLPDAISFEQAAASFLKGLTVWYLLRKTYEIKPDEMFLFHAAAGGVGLIACQWAKALGAKLIGTVGSAQKAQRAKAAGAWQVINYREEPIAERLKALTDGKKVAVVYDSVGKDTWEASLDCLQRRGLMVSFGNSSGPVTGVNLGILNQKGSLYVTRPSLQGYITNREELAEACSELFSLIASGVIKVDVPESQTYPLTEARRAHEVLESRVTQGSSLLLP	PGPT0013255_5040	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
BMS020_04947	243	pspG		Phage shock protein G	ATGCTGGAACTGTTATTTGTCATCGGATTTTTTGTCATGCTGCTGGTCACCGGCGTATCGCTGTTGGGGATTATCGCCGCCATCGTGGTGGCTACGGCGCTGATGTTCGTCGGCGGTTTGTTTGCTTTAATGATTAAATTGCTGCCGTGGCTGCTGTTGGCGGTGGTGGTGGTGTGGGTTATTCGGGCACTGAAAACCCCGGACGGAAACGCTTTTCGCGACAATAACCGTTGGCGTTACTAA	MLELLFVIGFFVMLLVTGVSLLGIIAAIVVATALMFVGGLFALMIKLLPWLLLAVVVVWVIRALKTPDGNAFRDNNRWRY				NA	NA	NA	NA	NA
BMS020_04948	942	dusA_1	COG0042	tRNA-dihydrouridine(20/20a) synthase	ATGCTCGACTGGACTGACCGGCATTGCCGCTACTTCCTGCGGCTGCTGTCGCGGCATACGCTGCTGTATACCGAAATGGTGACCACCGGGGCGATTATTCACGGCAAAGGGGACTATCTGGCCTATAGCGAAGAAGAACACCCGGTTGCTCTGCAGCTCGGCGGCAGCGATCCGCAGGCCCTGGCGCAGTGCGCGAAGCTGGCCGAGGCGCGCGGCTATGATGAGATCAATCTCAACGTCGGCTGCCCCTCCGATCGGGTGCAGAACGGGATGTTTGGCGCCTGTCTGATGGGGAACGCCCAGCTGGTGGCCGACTGTATCAAAGCGATGCGCGATGTGGTGTCGATCCCGGTCACGGTGAAGACCCGTATCGGCATCGACGACCAGGATAGCTATGAATTCCTTTGCGATTTCATTGAGACGGTCTCCGGCAAGGGCGAATGTGAGATGTTTATTATTCACGCGCGCAAAGCCTGGCTCTCCGGTCTGAGCCCGAAAGAGAACCGCGAGATCCCGCCGCTGGATTACCCCCGCGTCTGGCAGCTGAAGCGCGACTTCCCCCATCTGACGATGGCGATTAACGGCGGCATCAAATCGCTGGATGAAGTCAGAGCACAGCTTGAGCATATGGATGGGGTGATGGTCGGGCGTGAGGCCTATCAGAATCCGGGCATTCTGGCTTCGGTCGACCGGGAGATTTTCGGCGTCGCCGGCGCGGATGCCGATCCCGTGGCCGTCGTGCGGGCCATGTACCCGTATATTGAGCGCGAGCTCAGCAAGGGCACTTATCTGGGCCATATCACCCGTCATATGCTGGGACTGTTTCAAGGTATCCCGGGCGCCCGCCAGTGGCGTCGCTACCTGAGCGAGAATGCGCATAAAGCCGGCGCCGACATTGCGGTGCTGGAGCAGGCCCTGAAGCTGGTGGCCGATAAGCGTTAG	MLDWTDRHCRYFLRLLSRHTLLYTEMVTTGAIIHGKGDYLAYSEEEHPVALQLGGSDPQALAQCAKLAEARGYDEINLNVGCPSDRVQNGMFGACLMGNAQLVADCIKAMRDVVSIPVTVKTRIGIDDQDSYEFLCDFIETVSGKGECEMFIIHARKAWLSGLSPKENREIPPLDYPRVWQLKRDFPHLTMAINGGIKSLDEVRAQLEHMDGVMVGREAYQNPGILASVDREIFGVAGADADPVAVVRAMYPYIERELSKGTYLGHITRHMLGLFQGIPGARQWRRYLSENAHKAGADIAVLEQALKLVADKR				NA	NA	NA	NA	NA
BMS020_04949	489			hypothetical protein	ATGAAACGACCTGATTGCATTCGCCACTGGCGCGAACTGGAAGGGCCCGACGATGCCACTTATCCCGACAGCCCGGAGCGTTTTTCCATTGGCGCGCCGCTGGGGCGCGGTTTACGCCTCAACCGGCTGGGGATCCACCACGAGAGACTGCCGCCCGGGCGGCGCACCTCTTACCCGCACGCGGAGAGCGATGAGGAAGAGTTCATCTATGTGCTGGAGGGCTATCCGGAAGTGTGGATAAACGGCTATCTCTGGAAGCTGGAGCCGGGCGATAGCGTGGGTTTCCCCGCCGGCACCGGTGTTTGCCACACCTTTCTCAATAACACCGAGCAGGAGGTTCGTCTGTTGGTGGTGGGTGAGGCCAACAAAAAGTACAACCGAATTTACTACCCGCTCAATCCCGGCTATGCCGCGACGCGCCAGGATCGCTGGGTTGATCATCCGCCGCAGTTCTTTGGCCCACATGACGGCAAACCGCGGATAAAGTAA	MKRPDCIRHWRELEGPDDATYPDSPERFSIGAPLGRGLRLNRLGIHHERLPPGRRTSYPHAESDEEEFIYVLEGYPEVWINGYLWKLEPGDSVGFPAGTGVCHTFLNNTEQEVRLLVVGEANKKYNRIYYPLNPGYAATRQDRWVDHPPQFFGPHDGKPRIK				NA	NA	NA	NA	NA
BMS020_04950	516	zur_2	COG0735	Zinc uptake regulation protein	ATGGATAAGACCCCTTCGCAAGAGATGTTAGCGCATGCTGAAAAGCTGTGTGCGCAACGCGGCGTACGCCTGACCCCACAGCGTCTGGAAGTGTTGCGCCTGATGAGCCTGCAGCAAGGGGCAATCAGCGCCTACGACCTGCTGGATCTGCTGCGTGAGAAAGAGCCGCAGGCGAAGCCGCCGACGGTCTACCGCGCGCTGGAGTTTTTACTCGAGCAGGGTTTTGTCCACAAGGTGGAATCGACCAACAGCTATGTGCTGTGTCATCTCTTTGACCAGCCAACCCACAGCTCGGCCATGTTTATCTGCGACCGCTGCGGCGTGGTGAAGGAAGAGGCGGCTGAAGGGGTGGAAGATATCATGCACACGCTGGCGGCCAGAATGGGCTTCGCCCTGCGCCACAACGTGATTGAAGCTCATGGCCTTTGCGCGAGCTGCGTGGAAGTGGAAGCCTGCAGCACGCCGGGACACTGCCAGCACGATCATACGATTCAGCTCAAAAAGAAAGCCCGCTGA	MDKTPSQEMLAHAEKLCAQRGVRLTPQRLEVLRLMSLQQGAISAYDLLDLLREKEPQAKPPTVYRALEFLLEQGFVHKVESTNSYVLCHLFDQPTHSSAMFICDRCGVVKEEAAEGVEDIMHTLAARMGFALRHNVIEAHGLCASCVEVEACSTPGHCQHDHTIQLKKKAR	PGPT0003905_195	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003905-zur-K09823	NA	NA
BMS020_04951	210			hypothetical protein	ATGAATAAAGACGAAATCGGCGGTAACTGGAAACAGTTGAAAGGTAAAGCCAAGGAACAGTGGGGCAAACTTACCGATGACGATATGACCGTAATCGAAGGGAAGCGCGACCAGCTGGTCGGCAAAATTCAGGAGCGTTACGGCTATGAGAAAGATCAGGCTGAGAAAGAAGTCTCAGACTGGGAGCATAAGAACGACTATCGCTGGTAG	MNKDEIGGNWKQLKGKAKEQWGKLTDDDMTVIEGKRDQLVGKIQERYGYEKDQAEKEVSDWEHKNDYRW				NA	NA	NA	NA	NA
BMS020_04952	1317	dinF	COG0534	DNA damage-inducible protein F	ATGCTGCTCAACGCTGCCGATAAAGCGCTGTGGCGCCTTGCACTCCCCATGATTTTCTCCAATATCACCGTCCCGCTGCTGGGGCTGGTGGATACCGCGGTGATCGGCCACCTTGACAGCCCGGTATACCTCGGCGGCGTCGCGGTCGGAGCGACGGCCACCAGTTTCCTGTTTATGCTGCTGCTGTTTCTTCGCATGAGCACCACCGGGCTGACCGCTCAGGCCTGGGGGGCCAAAGATCCGCTGCGACTGGCGCGGGCGCTGGTGCAGCCGCTGGCTCTGGCGCTGGGCGCCGGGGTGTTGATTATCCTGTTTCGCCTGCCGCTGATTAACCTCGCCCTGCATATCGTCGGCGGCAGCGAGGCGGTTCTCGAGCAGGCGAGACGGTTTCTCGATATCCGCTGGCTCAGCGCTCCCGCGTCGCTGGCCAACCTTGTGCTGCTCGGCTGGCTGCTGGGGGTCCAGTACGCCCGGGCGCCGGTGATTTTGCTGGTGGTCGGTAATCTGTTGAATATTGTGCTCGACCTGTGGCTGGTGATGGGCCTGCGGATGAACGTCCAGGGGGCGGCGCTGGCCACGGTCACCGCGGAGTACGCCACTCTCATTATCGGCCTGATGATGGCGAAGCGGGTGCTGACGCTGCGCGGCGTGTCGCTGGCGATGCTGAAAAACGCCTGGCGCGGCGACATGCGCCGTCTGCTGGCGTTGAATCGCGACATCATGCTGCGCTCCCTGCTGCTGCAGCTGTGCTTTGGCGCGCTGACCGTCTACGGCGCCCGTCTGGGCAGCGATATCGTGGCGGTCAACGCCGTACTAATGACCATGCTGACCTTTACCGCCTACGCGCTGGATGGCTTTGCCTATGCCGTGGAGGCCCACTCCGGCCAGGCCTACGGCGCGCGCGACGGCAGCCAGCTGCTGGAGGTGTGGCGGGCGGCCTGCCGGCAGTCCGGTATGGTGGCGCTGGCGTTTGCCCTGGTTTACAGCCTGGCGGGGGAGTACATCATCGCGCTGTTAACCTCGCTGCCTTCCCTGCAGCAGCTGGCCGATCGCTATCTGATCTGGCAGACCATCCTGCCGGTGGTCGGGGTCTGGTGCTATCTGCTGGACGGCATGTTTATCGGCGCGACGCGCGGCGCGGAGATGCGGAACAGTATGGCGGTCGCCGCGGCCGGCTTCGCCGTGACGCTGCTTACGGTCCCGGCGCTCGGCAATCACGGCCTGTGGCTGGCACTGGCGGTGTTTCTCGCGCTGCGAGGCCTGTCGCTGGCGCTGATCTGGCGCCGCCACTGGCGACGCGGCACCTGGTTTAGTTAG	MLLNAADKALWRLALPMIFSNITVPLLGLVDTAVIGHLDSPVYLGGVAVGATATSFLFMLLLFLRMSTTGLTAQAWGAKDPLRLARALVQPLALALGAGVLIILFRLPLINLALHIVGGSEAVLEQARRFLDIRWLSAPASLANLVLLGWLLGVQYARAPVILLVVGNLLNIVLDLWLVMGLRMNVQGAALATVTAEYATLIIGLMMAKRVLTLRGVSLAMLKNAWRGDMRRLLALNRDIMLRSLLLQLCFGALTVYGARLGSDIVAVNAVLMTMLTFTAYALDGFAYAVEAHSGQAYGARDGSQLLEVWRAACRQSGMVALAFALVYSLAGEYIIALLTSLPSLQQLADRYLIWQTILPVVGVWCYLLDGMFIGATRGAEMRNSMAVAAAGFAVTLLTVPALGNHGLWLALAVFLALRGLSLALIWRRHWRRGTWFS	PGPT0029115_8370	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
BMS020_04953	609	lexA_1	COG1974	LexA repressor	ATGAAAGCGTTAACGACCAGGCAGCAAGAGGTGTTTGATCTCATTCGGGATCATATCAGCCAGACGGGCATGCCGCCGACGCGTGCGGAGATTGCTCAGCGCTTGGGGTTCCGTTCCCCAAACGCGGCGGAAGAACACCTGAAAGCGCTGGCGCGTAAAGGCGCAATCGAGATCGTCTCCGGCGCCTCGCGCGGTATCCGCCTGCTGACGGAAGAAGAGCACGGCCTGCCGCTGATCGGCCGCGTCGCCGCCGGTGAGCCGCTGCTGGCGCAGCAGCATATTGAAGGCCACTATCAGGTCGACCCGTCGATGTTCAAGCCCAACGCCGATTTTCTGCTGCGCGTCAGCGGGATGTCGATGAAAGACATCGGTATTCTGGATGGCGATCTGCTGGCGGTCCACAAAACCCAGGATGTGCGTAACGGCCAGGTGGTGGTAGCGCGCATTGACGATGAAGTGACGGTGAAGCGCCTGAAAAAGCAGGGCAACGTCGTCGAACTGTTGCCGGAAAACAGCGAATTTACCCCTATCGTTGTCGATCTGCGTCAGCAGAGTTTTACCATTGAGGGTCTGGCCGTTGGCGTGATCCGTAATGGAGAATGGCTGTAA	MKALTTRQQEVFDLIRDHISQTGMPPTRAEIAQRLGFRSPNAAEEHLKALARKGAIEIVSGASRGIRLLTEEEHGLPLIGRVAAGEPLLAQQHIEGHYQVDPSMFKPNADFLLRVSGMSMKDIGILDGDLLAVHKTQDVRNGQVVVARIDDEVTVKRLKKQGNVVELLPENSEFTPIVVDLRQQSFTIEGLAVGVIRNGEWL	PGPT0014895_3461	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014895-lexA-K01356	NA	NA
BMS020_04954	369	dgkA_2	COG0818	Diacylglycerol kinase	ATGGCCAATAATACCACCGGGTTAACCCGAATCATTAAGGCGGCAGGTTACTCCTGGAAAGGATTTCGCGCGGCGTGGATCAACGAGGCCGCGTTTCGTCAGGAAGGTGTCGCCGCCATCGTGGCCGTCGCGATAGCCTGCTGGCTGGACGTCGACGCCATCACCCGCGTATTGCTGATTGGCTCGGTCCTGCTAGTGATGATAGTCGAAATTCTCAACAGCGCGATTGAGGCGGTCGTGGACCGTATTGGCTCGGATTATCACGAGCTTTCAGGGCGCGCCAAAGACATGGGGTCGGCGGCGGTCCTGCTGGCGATTATCATCGCGCTGATCACCTGGGGAACGCTGCTGTGGAGCCATTATCACTAA	MANNTTGLTRIIKAAGYSWKGFRAAWINEAAFRQEGVAAIVAVAIACWLDVDAITRVLLIGSVLLVMIVEILNSAIEAVVDRIGSDYHELSGRAKDMGSAAVLLAIIIALITWGTLLWSHYH	PGPT0024340_4457	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024340-dgkA|DGK-K00901	NA	NA
BMS020_04955	2424	plsB_1	COG2937	Glycerol-3-phosphate acyltransferase	ATGTCCGGCTGGCAACGAATTTACTATAAATTACTGAATTTACCATTACGGGTGCTGGTAAAAAGCAAGTCTATTCCGGCAGAGCCTGCTCAGGAATTAGGACTCGATACCTCGCGTCCGGTCATGTACGTCCTGCCCTATAACTCCAAGGCGGACCTGCTGACGCTGCGCGCCCAATGTCTGGCGCATGATTTACCTGACCCGCTTGAACCGCTGGAAATCGACGGCGCCCTGCTGCCGCGCTACGTATTCATCCACGGCGGGCCGCGCGTATTCACCTACTACACGCCAAAAGAAGAGTCCATCAAGCTGTTCCACGACTACCTCGATCTGCACCGCAACCATCCGGATCTCGATGTGCAAATGGTGCCGGTGTCGGTGATGTTCGGCCGCTCGCCGGGTCGTGAGAAAGGGGAAGTTAATCCGCCGCTGCGGATGCTTAACGGCATTCAGAAATTTTTCGCCGTCTCCTGGCTCGGCCGCGACAGCTTCGTGCGCTTCTCGCCTTCCGTATCGCTGCGCCGCATGGCGGATGAGCACGGTACCGATAAGATCATCGCCCAGAAACTGGCTCGCGTCGCGCGGATGCATTTTGCCCGCCAGCGCCTGGCCGCCGTCGGCCCGCGTCTGCCGGCCCGCCAGGATCTGTTTAACAAGCTGCTGGCGTCGAAGGCCATTGCCCGGGCGGTGGAAGACGAAGCGCGCAGCAAGAAAATTTCCCACGAGAAGGCCCAGCAGAACGCGATTGCGCTGATGGAAGAGATTGCCGCGAACTTCTCTTACGAGATGATCCGCCTGACCGACCGCATTCTCGGCTTCACCTGGAACCGCCTGTACCAGGGCATCAACGTGCATAACGCCGAGCGCGTACGCCAGCTGGCGCACGATGGCCATGAGATTGTCTATGTCCCCTGCCACCGCAGCCACATGGACTATCTGCTGCTCTCTTACGTCCTGTACCACCAGGGGCTGGTGCCTCCGCATATCGCGGCGGGTATCAACCTTAACTTCTGGCCAGCCGGGCCAATCTTCCGCCGCCTCGGCGCATTCTTTATTCGCCGCACCTTTAAGGGCAATAAGCTCTACTCCACGGTGTTCCGCGAGTACCTTGGCGAACTGTTCAGCCGCGGCTATTCCGTAGAGTATTTCGTCGAAGGCGGCCGCTCCCGTACCGGCCGTCTGCTCGATCCGAAGACCGGTACGCTGTCGATGACTATCCAGGCGATGCTGCGCGGCGGCACCCGGCCGATCACCCTGGTGCCGATTTACATCGGCTACGAGCACGTGATGGAGGTAGGGACCTATGCCAAAGAGCTGCGCGGCGCCACCAAAGAGAAAGAGAGTCTGCCGCAGATGGTGCGCGGCTTAAGCAAGCTGCGCAATCTTGGCCAGGGCTACGTTAACTTCGGCGAACCGCTGCCGCTGATGACCTATCTGAACCACCATGTGCCGGAGTGGCGGGAAGCGATTGACCCGATCGAAGCGGTCCGCCCTTCCTGGCTGACGCCGACGGTGAATAACATCGCCGCTGACCTGATGGTACGCATCAACAACGCCGGCGCGGCCAACGCCATGAACCTCTGCTGTACGGCGCTGCTGGCCTCGCGTCAGCGTTCGCTGACCCGTGAGCAGCTCACCCAGCAGCTGGAGTGTTACCTCGCGCTGCTGCGCAATGTGCCCTATTCGCCGGATGCCACCGCGCCGTCCGCTTCGGCCAGCGAGCTTATCGACCACGCGCTGCAGATGAACAAGTTCGAAGTCGAGAAAGACACCATTGGCGACATCATCATTCTGCCGCGCGAGCAGGCGGTGCTGATGACCTACTATCGCAACAACATCGCCCATATGCTGGTGATGCCGTCGCTGTTAGCCGCCCTGGTGACTCAGCATCGTCATCTCAGCCGCGCCGAAGTGCTGCGCCATGTGGAAACGCTCTATCCGTTCCTCAAAGCCGAGCTGTTCCTGCGCTGGGAGAAAGCGGAGCTGGCCGGAGTGATGGATGCGCTGATTGCCGAGATGCTGCGTCAGGAGCTGATCGTCATCGATGGCGATGTGATGAGCCTCAACCCGTCGCACTCTCGCTCTCTGCAGCTGTTGGCCGCAGGCGCCCGCGAGACGCTGCAGCGCTACGCCATTACCTTCTGGCTGCTGAGCGCTAACCCGTCGATCAACCGCAGCTCGCTGGAGAAAGAGAGCCGTACCGTGGCTCAGCGCCTGTCGGTGCTGCATGGCATCAACGCGCCGGAGTTCTTCGATAAAGCGGTGTTCAGCACCCTGGTGTTGACCCTGCGCGATGAAGGCTATATCAGCGATACGGGCGATGCCGAGCCGGAAGAGACCCTGAAGGTCTATCGGATGCTGGCGGATTTGATTACGTCGGATGTACGTCTGACGATCGAAAGCGTCACGCAGGACGACGCGTAA	MSGWQRIYYKLLNLPLRVLVKSKSIPAEPAQELGLDTSRPVMYVLPYNSKADLLTLRAQCLAHDLPDPLEPLEIDGALLPRYVFIHGGPRVFTYYTPKEESIKLFHDYLDLHRNHPDLDVQMVPVSVMFGRSPGREKGEVNPPLRMLNGIQKFFAVSWLGRDSFVRFSPSVSLRRMADEHGTDKIIAQKLARVARMHFARQRLAAVGPRLPARQDLFNKLLASKAIARAVEDEARSKKISHEKAQQNAIALMEEIAANFSYEMIRLTDRILGFTWNRLYQGINVHNAERVRQLAHDGHEIVYVPCHRSHMDYLLLSYVLYHQGLVPPHIAAGINLNFWPAGPIFRRLGAFFIRRTFKGNKLYSTVFREYLGELFSRGYSVEYFVEGGRSRTGRLLDPKTGTLSMTIQAMLRGGTRPITLVPIYIGYEHVMEVGTYAKELRGATKEKESLPQMVRGLSKLRNLGQGYVNFGEPLPLMTYLNHHVPEWREAIDPIEAVRPSWLTPTVNNIAADLMVRINNAGAANAMNLCCTALLASRQRSLTREQLTQQLECYLALLRNVPYSPDATAPSASASELIDHALQMNKFEVEKDTIGDIIILPREQAVLMTYYRNNIAHMLVMPSLLAALVTQHRHLSRAEVLRHVETLYPFLKAELFLRWEKAELAGVMDALIAEMLRQELIVIDGDVMSLNPSHSRSLQLLAAGARETLQRYAITFWLLSANPSINRSSLEKESRTVAQRLSVLHGINAPEFFDKAVFSTLVLTLRDEGYISDTGDAEPEETLKVYRMLADLITSDVRLTIESVTQDDA	PGPT0024370_779	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024370-plsB-K00631	NA	NA
BMS020_04956	867	ubiA_1	COG0382	4-hydroxybenzoate octaprenyltransferase	ATGGAGTGGAGTCTGTCGCAGAATAAGCTGTTGGCGTTTCATCGCCTGATGCGCACTGACAAACCGATCGGCGCCTTGCTGCTGCTGTGGCCGACGCTGTGGGCGCTGTGGGTGGCCTCGCCGGGCGTCCCGCCGCTGTGGATCCTGGCGGTGTTCGTCGCCGGCGTCTGGCTGATGCGCGCCGCCGGCTGCGTGGTGAATGACTATGCCGATCGAAAATTTGATGGTCACGTAAAGCGTACCGCCCGCCGTCCGCTGCCGAGTGGCGACGTCACCGAGAAAGAGGCGCGAACGCTGTTTATCGTTCTGGTGCTGCTCTCCTTCCTGCTGGTGCTCACCCTCAACACCATGACGATTTTGCTGTCGGTGGCGGCGCTGGCGCTGGCGTGGGTCTATCCGTTTATGAAGCGCTACACCCATCTGCCGCAGGTGGTGCTGGGGGCGGCCTTTGGCTGGTCGATCCCAATGGCCTTCTCGGCCGTCAGCGAATCGCTGCCGCTGAGCTGTTGGCTGATGTTCCTCGCCAACATTCTGTGGGCGGTGGCCTACGATACCCAGTATGCGATGGTGGATCGCGATGACGACGTCAAGATCGGCATTAAATCGACGGCGATCCTGTTCGGCGAAAACGATCGTCTGATTATCGGTATCCTGCAGGTGGCCGTGCTGGCGCTGATGGGCGCGGTAGGCTGGCTGAACGGGCTGGGCTGGGAATACTACTGGTCGCTGTTCGTGGCGGCGGGTCTGTTTGGCTGGCAGCAGAAGCTTATCTTCAATCGCGACCGCGATAACTGCTTTAAAGCGTTTATGAACAATAACTACGTCGGGCTGGTGCTGTTCCTCGGCCTGGCGATGAGCTACCTGTAA	MEWSLSQNKLLAFHRLMRTDKPIGALLLLWPTLWALWVASPGVPPLWILAVFVAGVWLMRAAGCVVNDYADRKFDGHVKRTARRPLPSGDVTEKEARTLFIVLVLLSFLLVLTLNTMTILLSVAALALAWVYPFMKRYTHLPQVVLGAAFGWSIPMAFSAVSESLPLSCWLMFLANILWAVAYDTQYAMVDRDDDVKIGIKSTAILFGENDRLIIGILQVAVLALMGAVGWLNGLGWEYYWSLFVAAGLFGWQQKLIFNRDRDNCFKAFMNNNYVGLVLFLGLAMSYL	PGPT0009515_2175	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009515-ubiA-K03179	NA	NA
BMS020_04957	498	ubiC	COG3161	Chorismate pyruvate-lyase	ATGTCCCATCCTGCGCTTACGCGACTGCGTGCGCTGCGCTATTTTGCCGTTATGCCGCCCCTGGCGCCGCCCCTGAGTGACTGGCTGCTGCTGGAGGACTCAATGACCCAGCGTTTTGAGCAACAAGGAAAGCAGGTCACCGTCACCCTGGTTAACGAAGGGTATATCGGGCGTGAGGCGCTGGCTGACGAAGCGGCGCTGTTGCCCGACGAGCCGCGCTACTGGCTGCGGGAGATTATACTCAATGCCGATGGCGAGCCCTGGCTGGCCGGACGCACGGTGGTGCCGGAGTCGACGCTGTGTGGGCCGGAGCTGGCGCTACAGCAGCTCGGGCAGACCCCGCTGGGCCGATACCTGTTCACGTCGTCGACGTTAACCCGCGATTTTATTGAAATTGGTCGCGATGCAGCGCTGTGGGGGCGTCGTTCCCGTCTGCGGCTGAGCGGCAAACCCCTGCTGCTGACCGAGCTGTTTTTGCCTGCGTCGCCGTTGTACTAA	MSHPALTRLRALRYFAVMPPLAPPLSDWLLLEDSMTQRFEQQGKQVTVTLVNEGYIGREALADEAALLPDEPRYWLREIILNADGEPWLAGRTVVPESTLCGPELALQQLGQTPLGRYLFTSSTLTRDFIEIGRDAALWGRRSRLRLSGKPLLLTELFLPASPLY	PGPT0009525_1147	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009525-ubiC-K03181	NA	NA
BMS020_04958	930			hypothetical protein	ATGAAAATGAAGAAAACTCTCGTCGCTCTGTGTTTATCCGCAGGGATGTTGGCATGCGTGCCGGGGATGAGCCTTGCCGATGTTAACTTTGTACCGCAGAACACCAGCGCCGCGCCGTCTATTCCAGCCAGCGCGCTGCAGCAGCTGATCTGGACGCCTGCCGATCAATCGAAGACGCAGAGCGTAGATTTAACCACCGGCGGTCAACGCCTGGATGTTCCAGGGATCGTCGGACCGGTCGCCGCCTGGAGCGTGCCGGCCAATATCGGTGAGCTGACCCTGACCCTCGACAGCGAACTGAACAAACATAAGCAGATTTTTGCGCCGAACGTGCTGATTCTCGACCAGAACATGACGCCAGCGGCGTTCTTTCCCAGCAACTACTTTACCTATCAGCAGCCGGGCGTGATGACTGCCGATCGCCTGGGCGGTGTGATGCGCCTGACCCCGGCGCTGGGCCAGCAGAAGCTCTATGTGCTGGTGTTTACCACTGAAAAAGATCTCCAGCAGACCACCACCCTGCTGGATCCGGCGAAGGCCTATGCCAAAGGCGCAGGCAATGCGGCGCCGGACATCCCGGATCCGATCGCCAAACATACCACCGATGGTGTGCTGAAGCTGAAAGTGAAAACCAACAGCACCTCCAGCGTGCTGGTGGGGCCGCTGTTCGGCTCCTCCGGCCCGGGCCCGGTCACCGTCGGTAACACCGCGGCGCCGGTAGCTGCGCCAGCCGCCGCAGCCGCTGCGGCGCCGGCCGCCAAAAGCGAACCGATGCTCAGCGATACCGAGACCTACTTCAACAACGGTATTAAGCAGGCGGTGAAACAAGGTGACATCGACAAAGCCCTGAAATTGATGAACGAAGCTGAGCGCCTCGGCTCCAAATCCGCTCGTTCCACCTTTATCAGCAGTGTAAAAGGCAAGGGGTAA	MKMKKTLVALCLSAGMLACVPGMSLADVNFVPQNTSAAPSIPASALQQLIWTPADQSKTQSVDLTTGGQRLDVPGIVGPVAAWSVPANIGELTLTLDSELNKHKQIFAPNVLILDQNMTPAAFFPSNYFTYQQPGVMTADRLGGVMRLTPALGQQKLYVLVFTTEKDLQQTTTLLDPAKAYAKGAGNAAPDIPDPIAKHTTDGVLKLKVKTNSTSSVLVGPLFGSSGPGPVTVGNTAAPVAAPAAAAAAAPAAKSEPMLSDTETYFNNGIKQAVKQGDIDKALKLMNEAERLGSKSARSTFISSVKGKG				NA	NA	NA	NA	NA
BMS020_04959	1290	lamB_2	COG4580	Maltoporin	ATGATGATTACTCTGCGCAAACTTCCACTGGCGGTCGCCGTCGCGGCAGGCGTTATGTCTGCTCAGGCGCTGGCTGTCGATTTCCATGGCTACGCGCGTTCCGGCATTGGCTGGACCGGCAGCGGCGGCGAGCAACAGTGCTTCAAAGCGACCGGCGCTCAAAGTAAATACCGTCTTGGTAACGAATGTGAAACCTATGCGGAACTGAAGCTGGGCCAGGAGCTGTGGAAGGAAGGAGATAAGAGTTTTTATTTCGATACTAACGTTGCCTATTCCGTGAATCAGGAAGATGACTGGGAAAGCACCTCTCCGGCGTTCCGTGAAGCCAACATCCAGGGTAAAAACCTGATCGACTGGCTGCCGGGCTCCACGCTGTGGGCGGGTAAACGCTTCTATCAGCGTCATGACGTTCACATGATCGACTTCTACTACTGGGATATCTCCGGCCCGGGTGCAGGTCTGGAAAACGTTGACCTTGGCTTCGGTAAGCTCTCTCTGGCCGCTACCCGTAACTCAGAAAGCGGCGGTTCTTATACTTTCTCCAGCGATGACACCAAGAAATATGCTGCGAAAACTGCCAACGACGTCTTTGACATCCGTCTGGCGGGCCTGGAAACCAACCCGGGCGGCGTGCTGGAGTTAGGCGTCGATTACGGCCGTGCGAACCCGCAGGATGACTATCGCCTGGAAGACGGCGCGTCGAAAGACGGCTGGATGTGGACCGGTGAACATACTCAGTCCATCTGGGGCGGCTTCAACAAGTTTGTGGTTCAGTACGCCACTGACGCAATGACCTCCTGGAACAGCGGCCACTCTCAGGGAACCAGCATCGATAACAACGGCAGCATGATCCGCGTTCTGGATCACGGCGCGATGGACTTCAACGATGACTGGGGCCTGATGTACGTTGCGATGTACCAGGACGTGGATCTGGACAGCAAAAACGGCTCCACCTGGTACACCGTGGGTGTTCGTCCGATGTACAAATGGACGCCGATCATGAGCACCCAGCTGGAAATCGGTTACGACAACGTGAAATCCCAGCGTACCAGCGAAAACAACAACCAGTACAAAATTACTCTGGCTCAACAGTGGCAGGCAGGCAACAGCGTCTGGTCTCGTCCGGCTATCCGTATCTTCGCAACCTACGCGAAGTGGGATGAAAACTGGGGCTACAGCAACACCTCTGGTCTGCAGACGAAAGACAGCAGCGGAAGCGGCGCTTTCACCTCCAGCCGCGGTGACGACAGCGAAGTTACCTTCGGTGCCCAGATGGAAGTGTGGTGGTAA	MMITLRKLPLAVAVAAGVMSAQALAVDFHGYARSGIGWTGSGGEQQCFKATGAQSKYRLGNECETYAELKLGQELWKEGDKSFYFDTNVAYSVNQEDDWESTSPAFREANIQGKNLIDWLPGSTLWAGKRFYQRHDVHMIDFYYWDISGPGAGLENVDLGFGKLSLAATRNSESGGSYTFSSDDTKKYAAKTANDVFDIRLAGLETNPGGVLELGVDYGRANPQDDYRLEDGASKDGWMWTGEHTQSIWGGFNKFVVQYATDAMTSWNSGHSQGTSIDNNGSMIRVLDHGAMDFNDDWGLMYVAMYQDVDLDSKNGSTWYTVGVRPMYKWTPIMSTQLEIGYDNVKSQRTSENNNQYKITLAQQWQAGNSVWSRPAIRIFATYAKWDENWGYSNTSGLQTKDSSGSGAFTSSRGDDSEVTFGAQMEVWW	PGPT0016830_263	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTODEXTRIN_TRANSPORT,PGPT0016830-lamB-K02024	NA	NA
BMS020_04960	1110	malK_2	COG3839	Maltose/maltodextrin import ATP-binding protein MalK	ATGGCGAGCGTACAGCTGCGAAATGTAACGAAAGCCTGGGGTGACGTGGTGGTATCGAAAGATATCAATCTCGATATCCACGAAGGGGAATTCGTCGTGTTTGTCGGGCCATCGGGCTGCGGCAAATCTACCCTGCTGCGTATGATTGCCGGGTTAGAAACTATTACCAGCGGGGACCTGTTTATCGGTGACACCCGCATGAACGAGATCCCACCGGCAGAACGCGGCGTTGGGATGGTATTCCAGTCTTATGCGCTCTATCCCCACCTTTCCGTTGCGGAAAATATGTCGTTTGGCCTGAAGCTGGCCGGCGCGAAAAAAGATCTGATTAACCAGCGGGTGACCCAGGTGGCGGAAGTGCTGCAGCTGGCCCATCTGCTGGAGCGTAAACCGAAAGCCCTCTCCGGCGGTCAGCGCCAGCGTGTGGCGATTGGCCGTACGCTGGTGGCTGAGCCGAGCGTCTTCCTGCTGGATGAGCCGCTCTCCAACCTCGATGCCGCCCTGCGCGTTCAGATGCGTATCGAAATCTCCCGTCTGCATAAGCGACTGGGCCGCACCATGATCTATGTGACCCACGATCAGGTGGAAGCGATGACCCTCGCGGACAAGATTGTGGTCCTCGACGCCGGCCGTGTGGCGCAGGTCGGGAAACCGTTGGAACTCTATCACTATCCGGCTGACCGCTTCGTCGCCGGCTTTATCGGTTCACCGAAGATGAACTTCCTGCCGGTCAAAGTCACCGCGACGGCTATCGATCAGGTGCAGGTTGAACTGCCAAACCGTCAGCAAATCTGGCTACCGGTGGACAGCGCCAACGTTCAGGCGGGCGCCAACATGTCCTTAGGTATCCGCCCGGAGCATTTACTGCCCAGCGATATCGCCGATGTGACCCTCGAAGGCGAGGTTCAGGTTGTCGAGCAGTTAGGTCACGAAACGCAAATTCATATCCAGATCCCCGCCATCCGTCAAAACCTGGTCTACCGCCAGAACGACGTGGTGTTGGTAGAAGAGGGAGCCACATTCGCTATCGGTTTGCCGCCAGAACGTTGCCATTTATTCCGTGAGGATGGCACCGCTTGTCGTCGGCTGCATAAAGAGCCGGGCGTGTAA	MASVQLRNVTKAWGDVVVSKDINLDIHEGEFVVFVGPSGCGKSTLLRMIAGLETITSGDLFIGDTRMNEIPPAERGVGMVFQSYALYPHLSVAENMSFGLKLAGAKKDLINQRVTQVAEVLQLAHLLERKPKALSGGQRQRVAIGRTLVAEPSVFLLDEPLSNLDAALRVQMRIEISRLHKRLGRTMIYVTHDQVEAMTLADKIVVLDAGRVAQVGKPLELYHYPADRFVAGFIGSPKMNFLPVKVTATAIDQVQVELPNRQQIWLPVDSANVQAGANMSLGIRPEHLLPSDIADVTLEGEVQVVEQLGHETQIHIQIPAIRQNLVYRQNDVVLVEEGATFAIGLPPERCHLFREDGTACRRLHKEPGV	PGPT0014160_854	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0014160-malK|mtlK|thuK-K10111	NA	NA
BMS020_04961	1191	malE	COG2182	Maltose/maltodextrin-binding periplasmic protein	ATGAAAATCAAAACTGGCGCTCGCATCCTCGCGCTGTCGGCACTGACCACGATGATGTTTTCCGCCTCTGCCCTCGCGAAAATTGAAGAAGGTAAGCTGGTTATCTGGATTAACGGCGACAAAGGCTACAACGGCCTCGCTGAAGTGGGTAAAAAGTTTGAAAAAGACACCGGCATTAAAGTTTCTGTAGAACACCCGGACAAGCTGGAAGAGAAATTCCCGCAGGTTGCGGCGACCGGCGACGGCCCGGACATCATCTTCTGGGCGCATGACCGTTTCGGCGGCTACGCGCAGTCCGGCCTGCTGGCGGAAATCACCCCGGACAAAGCGTTCCAGGACAAACTCTATCCGTTCACCTGGGATGCCGTTCGCTATAACGGCAAATTGATCGCCTACCCGATCGCGGTGGAAGCGCTGTCCCTGATTTACAACAAAGACCTGGTGCCGAACCCGCCGAAGACCTGGGAAGAGATCCCGGCGCTGGATAAAGAACTGAAAGCGAAAGGTAAGAGCGCGCTGATGTTCAACCTGCAGGAACCGTACTTCACCTGGCCGCTGATCGCTGCCGACGGCGGATACGCGTTCAAGTTTGAAAACGGCAAGTACGATGTGAAAGACGTCGGCGTGGACAGCGCAGGCGCGAAAGCGGGCCTGACCTTCCTGGTTGACCTGATCAAGAACAAGCACATGAATGCCGATACCGATTACTCCATCGCGGAAGCGGCCTTCAACAAAGGTGAAACCGCGATGACCATCAACGGTCCGTGGGCGTGGTCTAACATCGATAAGAGCAAGGTTAACTACGGCGTGACCCTGCTGCCGACCTTTAAAGGCAAACCATCGAAACCGTTCGTTGGCGTGCTGAGCGCGGGGATCAACGCCGCCAGCCCGAACAAGGAGCTGGCGAAAGAGTTCCTCGAAAACTACCTGATGACCGATCAGGGTCTGGAATCCGTTAATAACGACAAACCGCTGGGTGCGGTGGCGCTGAAATCCTTCCAGGAAAAACTGGAAAAAGATCCGCGCATCGCTGCCACCATGGCGAACGCCCAGAAAGGCGAAATTATGCCTAACATCCCGCAGATGTCTGCCTTCTGGTATGCCGTTCGTACTGCGGTTATCAACGCCGCCAGCGGCCGTCAGACTGTCGATGCTGCGCTGAAGGATGCCCAGAGCCGTATCACTAAGTAA	MKIKTGARILALSALTTMMFSASALAKIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVSVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLVPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKFENGKYDVKDVGVDSAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDKSKVNYGVTLLPTFKGKPSKPFVGVLSAGINAASPNKELAKEFLENYLMTDQGLESVNNDKPLGAVALKSFQEKLEKDPRIAATMANAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALKDAQSRITK	PGPT0016295_162	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTOSE|MALTODEXTRIN_TRANSPORT,PGPT0016295-malE-K10108	NA	NA
BMS020_04962	1545	malF	COG1175	Maltose/maltodextrin transport system permease protein MalF	ATGGATGCCGTTAAAAAGAGACACTGGTGGCAAAGTCCGCAACTCACATGGTCTGTGATTGGCTTACTGTGCCTGCTGGTGGGTTACCTTGTTGTTTTGATGTACGCCCAGGGGGAGTACCTGTTCGCCATCATGACGCTGATTTTAAGCTCAGTTGGCCTGTATATTTTCGCTAATCGCAAGGCCTATGCCTGGCGCTATGTCTATCCCGGCCTCGCCGGCATGGGCCTGTTTGTCCTGTTTCCGCTGATCTGTACTATCGCTATCGCGTTCACCAACTACAGCAGCACCAACCAGCTGACCTTTGAGCGCGCGCAGCAGGTGCTGATGGATCGCTCCTTCCAGGCCGGCAAAGCCTATAACTTCACGCTGATCCCGGCAGGCGACGAGTGGAAGCTGGCCCTGACCGATGGCGAGAGCGGTAAAAACTACCTTTCCGATGCCTTTAAATTCGGCGGCGAGCAGAAGCTGGCGTTAAAAGAAACTGACGCCCTGCCGGAAGGCGAGCGCGCCAACCTGCGCGTCATTACCCAGAACCGCACCGCGCTGAACCAGCTGACCGCCGTACTGCCTGATGACAGCAAAGTGATCATGAGCTCGCTGCGCCAGTTCTCCGGCACCCAACCGCTGTATACGCTTGGCGAAAACGGCGAGCTGACCAACAATCAAACCCACGTCAAATACCGCCCGAACAACGACGTTGGTTTCTACCAGGCAATCAACGCCGACGGTAGCTGGGGCACAGAAAAGCTGAGCCCGGGCTACACCGTGACTATCGGCTGGGATAACTTTACCCGCGTCTTCCACGATGAAGGCATCCAGAAACCGTTCTTCGCCATCTTCGTCTGGACGGTGGTGTTCTCGGTTCTGACCGTGGTGCTGACCGTCGCGGTGGGGATGATCCTCGCCTGCCTGGTGCAGTGGGAAGCGCTGAAAGGCAAAGCGATTTACCGTGTCCTGCTGATTCTGCCGTATGCCGTACCGTCATTTATTTCGATTCTGATTTTCAAAGGCCTGTTCAACCAGAGCTTTGGTGAAATCAACATGATGCTCAGCGCGCTGTTCGGCATTAAACCGGCGTGGTTTAGCGACCCGACCACCGCGCGCACCATGATCATCATCGTCAACACCTGGCTGGGCTACCCGTACATGATGATCCTGTGCATGGGGCTGCTGAAGGCGATTCCGGACGATCTGTACGAAGCGTCGGCAATGGATGGCGCCGGCCCGTTCCAGAACTTCTTTAAAATTACCTTCCCGCTGCTGATTAAGCCGCTGACGCCGCTGATGATCGCCAGCTTCGCCTTTAACTTTAACAACTTCGTCCTGATTCAACTGTTGACCAACGGCGGTCCGGACCGTCTCGGCACCACCACCCCGGCCGGTTATACCGACCTGCTGGTGAGCTACACCTACCGTATCGCCTTTGAAGGCGGCGGCGGTCAGGACTTCGGCCTGGCGGCGGCTATCGCAACGCTTATCTTCCTGCTGGTTGGCGCGTTAGCGATTGTGAACCTGAAAGCCACACGCATGAAGTTTGATTAA	MDAVKKRHWWQSPQLTWSVIGLLCLLVGYLVVLMYAQGEYLFAIMTLILSSVGLYIFANRKAYAWRYVYPGLAGMGLFVLFPLICTIAIAFTNYSSTNQLTFERAQQVLMDRSFQAGKAYNFTLIPAGDEWKLALTDGESGKNYLSDAFKFGGEQKLALKETDALPEGERANLRVITQNRTALNQLTAVLPDDSKVIMSSLRQFSGTQPLYTLGENGELTNNQTHVKYRPNNDVGFYQAINADGSWGTEKLSPGYTVTIGWDNFTRVFHDEGIQKPFFAIFVWTVVFSVLTVVLTVAVGMILACLVQWEALKGKAIYRVLLILPYAVPSFISILIFKGLFNQSFGEINMMLSALFGIKPAWFSDPTTARTMIIIVNTWLGYPYMMILCMGLLKAIPDDLYEASAMDGAGPFQNFFKITFPLLIKPLTPLMIASFAFNFNNFVLIQLLTNGGPDRLGTTTPAGYTDLLVSYTYRIAFEGGGGQDFGLAAAIATLIFLLVGALAIVNLKATRMKFD	PGPT0016300_331	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTOSE|MALTODEXTRIN_TRANSPORT,PGPT0016300-malF-K10109	NA	NA
BMS020_04963	891	malG_2	COG3833	Maltose/maltodextrin transport system permease protein MalG	ATGGCTATGGTCCAACCCAAATCGCAGAAGCTACGTTTATTTACCACGCATCTCCTGCTACTGATTTTTATCGCCGCGATTATGTTTCCGCTGCTGATGGTTATCGCTATCTCGCTGCGCGAAGGCAACTTCGCCACCGGCAGCCTGATCCCGGATACCATCTCCTGGGAACACTGGCGTCTGGCGTTAGGCTTCAGCGTCGAACACGCGGATGGCCGCGTCACGCCGCCGCCGTTCCCGGTCCTGCTGTGGCTGTGGAACTCGATTAAGGTCGCCGGGATTACCGCGATCGGCATCGTCGCCCTCTCCACCACCTGCGCCTACGCTTTTGCCCGTATGCGCTTCCCGGGGAAAGCGACCCTGCTGAAAGGGATGCTGATTTTCCAGATGTTCCCGGCGGTGCTGTCACTGGTTGCCCTGTACGCGTTGTTTGACCGCCTGGGCCAGTACATCCCGTTCGTCGGCCTCAACACCCACGGCGGCGTGATCTTTGCCTACATGGGCGGTATCGCCCTGCACGTCTGGACGATTAAAGGCTACTTCGAAACCATCGATGGCTCGCTGGAAGAAGCGGCGGCGCTGGATGGCGCGACCCCATGGCAGGCGTTCCGCCTCGTGCTGCTGCCGCTGTCGGTGCCGATTCTGGCGGTGGTCTTTATTCTGTCGTTCATCGCCGCCATCACCGAAGTGCCGGTCGCCTCGCTGCTGCTGCGCGATGTGAACAGCTATACCCTGGCGGTAGGCATGCAACAGTATCTCAACCCGCAGAACTATCTGTGGGGCGATTTTGCCGCCGCGGCGGTGCTCTCCGCCATCCCAATCACGGTAGTGTTCCTGCTGGCGCAGCGCTGGCTGGTGAACGGCCTGACGGCGGGTGGGGTGAAAGGTTAA	MAMVQPKSQKLRLFTTHLLLLIFIAAIMFPLLMVIAISLREGNFATGSLIPDTISWEHWRLALGFSVEHADGRVTPPPFPVLLWLWNSIKVAGITAIGIVALSTTCAYAFARMRFPGKATLLKGMLIFQMFPAVLSLVALYALFDRLGQYIPFVGLNTHGGVIFAYMGGIALHVWTIKGYFETIDGSLEEAAALDGATPWQAFRLVLLPLSVPILAVVFILSFIAAITEVPVASLLLRDVNSYTLAVGMQQYLNPQNYLWGDFAAAAVLSAIPITVVFLLAQRWLVNGLTAGGVKG	PGPT0016305_206	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTOSE|MALTODEXTRIN_TRANSPORT,PGPT0016305-malG-K10110	NA	NA
BMS020_04964	411	psiE	COG3223	Protein PsiE	ATGTCGTCGGTTTATCGCCCACTGGTGAATTTTATCGCCACTGCGATGCAAACGGTTTTGAATCTGGGGCTGCTGTGCCTGGGGATTATCCTGATTGTCTTCCTTGGTAAAGAGACGCTGCATCTGGCCGATGTCCTCTTTACCCCGGAGCCGACCAGTAAGTACCGGCTGGTGGAAGGACTGGTGGTCTACTTTCTCTACTTCGAATTTATCGCGCTGATCGTCAAGTATTTTCAGTCGGGGTTCCACTTCCCGCTGCGCTATTTCGTCTATATCGGCATCACCGCGATTGTGCGTTTGATCATCATCGATCATGAATCGCCGATGGCGGTGCTCATATACTCCGCCGCGATCCTGATCCTGGTGATTACGCTCTGGCTGTGTAACTCCAATCGCCTGAAACGCGAATAA	MSSVYRPLVNFIATAMQTVLNLGLLCLGIILIVFLGKETLHLADVLFTPEPTSKYRLVEGLVVYFLYFEFIALIVKYFQSGFHFPLRYFVYIGITAIVRLIIIDHESPMAVLIYSAAILILVITLWLCNSNRLKRE	PGPT0015090_391	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0015090-psiE|yjbA-K13256	NA	NA
BMS020_04965	1278			hypothetical protein	ATGTCTGACCAAGCATCCTCACTTTTTATTCGCTGGCTACAGCGAGAAGTCGCACCAGCATTAGGTTGTACGGAACCTGTTGCTATTTCATTTACCACCGCTTACGCCGCGAAACATTTAGCGACACCCTGCGAAAAAATTAGCGGTTTTATTTCTGCCAACCTGTATAAAAACGCCACGGGCGTCACGATTCCCGGCACGACAGTTAATGGCGTCGCGCTGGCCGCCGCCATCGGCGCCTTTGGTGGCGATGCCGATAAGGGATTACAGACCCTGGCAGGCATTACTTCACAGCATGTGGAACAGGCACAAGCGCTGGTGGATGCCGGCCACGTTACTATTGACGTCAAGGATACGCCTGACTTTATTCATCTCGATCTCACCCTCAGCGCCGGTGACCAGACCTGTCGCGTCGTGGTAAAAGGCACGCATACCAATGTGGTCGAGTTATATATTAATGGCGAACAGCAGCCATTACACGCCGGGGAAAATAGCGCCACAGCGCAGACTGAACTGCCAACTTTCTCTCTCCAGGAAGCGTATGACTTTATTATCTCCACCCCGGTTGAGAATATTACGTTTATTCTGGAAGCCGCCCGCCTCAATAGCGCACTGGCTGCAGAAGGCAAATCGAAAAAGTATGGGTTGAATATTAACGGAACATTCTCTGAAGCCGTTAAAAATGGTTTGTTAAGTAATGATTTAATGAGCGAGGTCATTATCAACACCGTCGCAGCTTCCGATGCGCGTATGGGCGGAGCCCCGGTGGTCGCCATGTCGAACTTCGGCTCTGGCAACCAGGGGATCGCAGCGACCATGCCGGTAGTTACCGTCGCCGAGCATCTGAATGCCGATGAAGAGACGCTCGCTCGCGCGCTGGCGCTCTCGCATCTGACGGCCATTTCCATCCATTCGCGCTATACCCGCCTGTCCGCACTGTGCGCGGCCTCTACCGCCGCCATGGGCGCCGCCGCCGGTATGGCATGGCTGTTTACCCGCAATATCGAAACCATCAACACCGCCATCATCAATATGATTAGCGATGTTACCGGCATGATTTGCGATGGCGCTTCCAACAGTTGCGCGATGAAGGTCTCCTCGGTGGTTTCCAGCGCCTTTAAATCTGTGTTGATGGCGATGCAAAACCGCTGCGCCAGCGCCAACGACGGCATTGTCTGCGCCGACGTCGAACAGTCGATTAATAATCTGTGCCGCCTCGTGATTAAGCCTATGGCGCAAACCGATAAAGAGATCATTCGCATTATGGTCAGCAAATAA	MSDQASSLFIRWLQREVAPALGCTEPVAISFTTAYAAKHLATPCEKISGFISANLYKNATGVTIPGTTVNGVALAAAIGAFGGDADKGLQTLAGITSQHVEQAQALVDAGHVTIDVKDTPDFIHLDLTLSAGDQTCRVVVKGTHTNVVELYINGEQQPLHAGENSATAQTELPTFSLQEAYDFIISTPVENITFILEAARLNSALAAEGKSKKYGLNINGTFSEAVKNGLLSNDLMSEVIINTVAASDARMGGAPVVAMSNFGSGNQGIAATMPVVTVAEHLNADEETLARALALSHLTAISIHSRYTRLSALCAASTAAMGAAAGMAWLFTRNIETINTAIINMISDVTGMICDGASNSCAMKVSSVVSSAFKSVLMAMQNRCASANDGIVCADVEQSINNLCRLVIKPMAQTDKEIIRIMVSK				NA	NA	NA	NA	NA
BMS020_04966	741	ygaZ_2	COG1296	Inner membrane protein YgaZ	ATGAATAAAAAAGTCATATTACGCGGCGCCAGCGCCATTATGCCCCTGTGCATCGGGGACTTTCCTTTCTCGTTCATTGTTGGCGCATTAAGCGTCAGCGCCGGCATGAGCGTCTGGCAAAGTACCGCGTGGTCGGCGATTGTGATTGCCGGTTCGGCGCAAATGCTGGCACTGAATATGTTAAAAACCGGCGCCACGCTCGGCGTGATTATTTTCACCACATTAATTATTAATCTTCGCCATGTGCTGTATAGCGCCTCTATTTCCGGCACCGTGCGCGAAGCCTCATTCTTTAAAAAATGCTTTATGTCCTATGCGCTCACCGACGAGGTGTATGCCACCACCGTCAAAGAGATGGAAGGAAATAAAAAGGAAAAATATCTGTTTTATGGTTCGGCGATGGTCACCTTCTGGGCGATTTGGGTGCTGGCCGATTTTCTTGGCGCGCTGGTCGGCGCCTCGTTTCCCCACATTGAGAAATACGGTCTCGATTTCGCCATGGTCGCCGCCTTTATCGCCATCGTGGTGCCGCAAATTAAAAGCCAGGCCTGCACCGTCGCCGCGGTAGTGGCCGCCGTTTCCGGCGTGCTGTTAGTGGTCCTGCCCTACTCGCTGGGTATCGTCGTCGCCTCCGTGCTCGGCGTCCTTGCCGGCCTGTGCGTCGACCTGGCGGAAGAGCGCAAGCAGATGGCAACAACCGAATCCGATATGCCGTTAGTGGAGGCGCTGGAAAATGAGTAA	MNKKVILRGASAIMPLCIGDFPFSFIVGALSVSAGMSVWQSTAWSAIVIAGSAQMLALNMLKTGATLGVIIFTTLIINLRHVLYSASISGTVREASFFKKCFMSYALTDEVYATTVKEMEGNKKEKYLFYGSAMVTFWAIWVLADFLGALVGASFPHIEKYGLDFAMVAAFIAIVVPQIKSQACTVAAVVAAVSGVLLVVLPYSLGIVVASVLGVLAGLCVDLAEERKQMATTESDMPLVEALENE				NA	NA	NA	NA	NA
BMS020_04967	321			hypothetical protein	ATGAGTAATAGCTATTTTATCGCCCTGACGCTGGGCATGGCCGCGGTCACTTTTCTTATTCGTTTCTCGTTTATCGGCCTGGCCGGCAAGATCCAGATGTCTGAGCGGGTGACCAAAACATTGCGCTTCGTGCCGGTCACCGTCCTGCCGGCCATCATCACCATTCAGATCCTGAGCGTGAATTCCAGCATGGAGTTCGACTTAAAAAATCCGAAGGTGATCGCCGCCATTATCTGTACGCTCGCCAGCTTCCGTTTAGGTCTGGTGTGGGTGGTGGTTAGCGGCGTCGGCTCGCTGGTGCTATTGAATTATTTTCTGTAA	MSNSYFIALTLGMAAVTFLIRFSFIGLAGKIQMSERVTKTLRFVPVTVLPAIITIQILSVNSSMEFDLKNPKVIAAIICTLASFRLGLVWVVVSGVGSLVLLNYFL				NA	NA	NA	NA	NA
BMS020_04968	381	ridA_1	COG0251	2-iminobutanoate/2-iminopropanoate deaminase	ATGATTATTACTACCGCTGACGCGCCCGCCGCGATTGGTCCGTACGTTCAGGGCGTCAATCTCGGCGCGATGACCCTCACCTCCGGCCAGCTGCCCATTAATCCGCAGGACGGCACCATGCCCGACGACATTGCCGAACAGGCGCGCCAGTCGCTGGAGAACGTGAAAGCCATCGTCGAAGCCGCCGGCCTCACCGTTGGTCAGATCGTCAAAACCACGGTGTTTGTGAAAGACCTGGCGGATTTTGCCGCCATTAATGCCGCCTACGAGGCCTTCTTTACCGAACATCAGGCGGCCTTTCCGGCGCGCTCCTGCGTGGAAGTAGCCAGGTTACCGAAAGACGCTGGCGTCGAAATCGAAGCGATCGCTTTCGCCCGTTAA	MIITTADAPAAIGPYVQGVNLGAMTLTSGQLPINPQDGTMPDDIAEQARQSLENVKAIVEAAGLTVGQIVKTTVFVKDLADFAAINAAYEAFFTEHQAAFPARSCVEVARLPKDAGVEIEAIAFAR	PGPT0020030_1997	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
BMS020_04969	510			hypothetical protein	ATGTTAACTATCCGAAAGGCATTGCCCGAGGACGCGCCACAACTGAGCGCGATGGGTTATGCCAGTTACCAGCACCACTTCGCCCATCTCTGGCGCAATGCCGATGAACTGGCGTTATTTCTTAAGCAAGAATATGCCGAAGATGCGCTACGTCGGAGTCTTACCGATGCCAACCATCATTGGCTCATCGCCGAAGCCGCTTCCCCCGTTGGTTTCGCTAAATATAGCTTTCAGCAGCGAATGGCTGAAGATGGCACGATGGGTACGCTGCTGCATAAGCTCTACCTGATGCCGGGGGAGACTGGCCACCGCTACGGCGAGCAGATTTTTCACGCCGTCGAGACGCGAGCAAAAACGGCCGGCGAACGCTGGCTGTGGCTGGAAGTACTCGCCGCGAATCCCGCCGCGCGCCGTTTTTACGAACGCCAGGGGATGCAGCCCATCAGAGACACGACTTTCCATTCCGCCAGCCAGCAAAGCACCTTGCATATTCTGGCCAAACCGCTGTGA	MLTIRKALPEDAPQLSAMGYASYQHHFAHLWRNADELALFLKQEYAEDALRRSLTDANHHWLIAEAASPVGFAKYSFQQRMAEDGTMGTLLHKLYLMPGETGHRYGEQIFHAVETRAKTAGERWLWLEVLAANPAARRFYERQGMQPIRDTTFHSASQQSTLHILAKPL	PGPT0007785_1257	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
BMS020_04970	456	fdtC		dTDP-3-amino-3,6-dideoxy-alpha-D-galactopyranose 3-N-acetyltransferase	ATGCCTGAGCTTCGTGATACCGGCGTACGTAACGTCGTCTGTGGGAAAAATGTCGTTATTTACCAGCCCGCCAACCTGTACGACTGCACGCTGGGTGATAACGTCTTCGTTGGACCGTTCGTTGAGATCCAAGGGAATACCCGCATCGGCGCGGAGAGTAAAATCCAGTCGCATACCTTTATCTGCGAGTACGTCACCATTGGCCGGCGCTGTTTTATCGGTCACGGGGTGATGTTCGCCAACGACCTGTTTCGCGACGGCAAACCAAACGCCGACCGCGCCAGCTGGGGGCGGATTGAGATTGGCGATGACGTGTCGATCGGTAGCGGCGCCACGATTCTGGCCGTCAGCATCTGCGACGGCGTGGTGATTGGCGCGGGCAGCGTGGTGACGAAGTCCATCACCGAGAAAGGCGTGTGGGCGGGGAATCCAGCCCGCCTGCTGCGGCGGCTGTAA	MPELRDTGVRNVVCGKNVVIYQPANLYDCTLGDNVFVGPFVEIQGNTRIGAESKIQSHTFICEYVTIGRRCFIGHGVMFANDLFRDGKPNADRASWGRIEIGDDVSIGSGATILAVSICDGVVIGAGSVVTKSITEKGVWAGNPARLLRRL	PGPT0022705_749	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_MANNURONIC_ACID_MODIFICATION,PGPT0022705-wbpD|wlbB-K13018	NA	NA
BMS020_04971	1650	pgi_1	COG0166	Glucose-6-phosphate isomerase	ATGAAAAACATCAACCCAACGCAGACCTCTGCCTGGCAGGCATTACAGAAACACTTCGACGAAATGAAAGATGTCACTATCAGCGAGCTGTTCGCCAAAGATAGCGACCGTTTTTCTAAGTTTTCCGCGACGTTCGACGATCTGATGCTGGTGGACTTCTCCAAAAACCGCATCACCGAAGAGACGCTGGCTAAACTGCAGGATCTGGCGAAAGAGACCGATCTCGCAGGCGCCATCAAGTCGATGTTCTCCGGTGAAAAGATCAACCGCACCGAAGATCGCGCGGTACTCCACGTCGCGCTGCGCAACCGCAGCAATACGCCGATTGTGGTTGATGGCAAAGATGTGATGCCGGAAGTGAACGCTGTGCTGGAGAAGATGAAAGCCTTCTCTGAAGCGATTATCTCCGGTAGCTGGAAAGGCTACACCGGCAAACCGATCACCGACGTGGTCAACATTGGTATCGGTGGCTCCGACCTCGGTCCGTTCATGGTCACCGAAGCGCTGCGTCCATATAAAAATCACCTCAACATGCACTTTGTCTCCAACGTCGATGGCACCCACATCGCCGAAGTGCTGAAGAACGTCAACCCGGAAACCACCCTGTTCCTGGTCGCGTCCAAAACCTTCACCACTCAGGAGACCATGACCAACGCCCACAGCGCGCGCGACTGGTTCCTGGCGACCGCGGGCGACGACAAGCATGTGGCTAAACACTTCGCGGCGCTCTCCACCAACGCGAAAGCGGTTGGCGAGTTCGGCATCGACACCGCCAACATGTTCGAATTCTGGGACTGGGTTGGCGGCCGTTACTCCCTGTGGTCGGCGATTGGCCTGTCCATCATTCTCTCCGTGGGCTTCGACAACTTCGTTGAGCTGCTGTCTGGCGCGCATGCGATGGATAAACACTTCTCCACCACCCCGGCGGAGAAAAACCTGCCGGTGCTGCTGGCGCTGATCGGTATCTGGTACAACAACTTCTTCGGTGCGGAAACCGAAGCGATTCTGCCGTACGACCAGTACATGCACCGTTTTGCCGCCTACTTCCAGCAGGGCAACATGGAGTCCAATGGTAAGTATGTCGACCGTAACGGCCACGCCGTGGACTACCAGACTGGCCCGATTATCTGGGGCGAGCCGGGCACCAACGGTCAGCACGCGTTCTACCAGCTGATCCATCAGGGCACCAAAATGGTACCGTGCGATTTCATCGCCCCGGCTATCACCCACAACCCGCTCTCCGATCATCATCCGAAGCTGCTGTCCAACTTCTTCGCCCAGACCGAGGCCCTGGCCTTCGGTAAATCCCGTGAAGTGGTGGAGCAGGAATATCGCGATCAGGGTAAAGATCCGGCGACCCTGGAGCACGTGGTGCCGTTCAAAGTGTTCGAAGGCAACCGCCCGACTAACTCTATCCTGCTGCGTGAGATCACCCCGTTCAGCCTCGGGGCGCTGATTGCTCTGTACGAGCACAAAATCTTCACCCAGGGCGCGATCCTTAACATCTTCACTTTCGACCAGTGGGGCGTTGAGTTGGGCAAACAGCTGGCTAACCGCATCCTGCCGGAGCTGAAAGACGGCAGCGAAGTCAGCAGCCACGACAGCTCCACTAACGGTCTGATTAACCGTTATAAAGCCTGGCGCGCATAA	MKNINPTQTSAWQALQKHFDEMKDVTISELFAKDSDRFSKFSATFDDLMLVDFSKNRITEETLAKLQDLAKETDLAGAIKSMFSGEKINRTEDRAVLHVALRNRSNTPIVVDGKDVMPEVNAVLEKMKAFSEAIISGSWKGYTGKPITDVVNIGIGGSDLGPFMVTEALRPYKNHLNMHFVSNVDGTHIAEVLKNVNPETTLFLVASKTFTTQETMTNAHSARDWFLATAGDDKHVAKHFAALSTNAKAVGEFGIDTANMFEFWDWVGGRYSLWSAIGLSIILSVGFDNFVELLSGAHAMDKHFSTTPAEKNLPVLLALIGIWYNNFFGAETEAILPYDQYMHRFAAYFQQGNMESNGKYVDRNGHAVDYQTGPIIWGEPGTNGQHAFYQLIHQGTKMVPCDFIAPAITHNPLSDHHPKLLSNFFAQTEALAFGKSREVVEQEYRDQGKDPATLEHVVPFKVFEGNRPTNSILLREITPFSLGALIALYEHKIFTQGAILNIFTFDQWGVELGKQLANRILPELKDGSEVSSHDSSTNGLINRYKAWRA	PGPT0017735_1967	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
BMS020_04973	1350	lysC	COG0527	Lysine-sensitive aspartokinase 3	ATGACAGATTTAGTCGTCGCCAAATTTGGCGGCACCAGCGTTGCTGATTTTGACGCGATGAACCGCAGCATTGATGTGGCGCTGCTCGATGCCAATACCCGTATTGTTGTGCTCTCCGCCTCTGCCGGCGTGACCAACATTCTGGTGGCCTTAGCGGAAGGGCTGGAACCCACCGAACGTTTTGCCCAGCTGGACGCTCTGCGCCAGATCCAGTTCAATATTCTGGAGCGTTTGCGCTATCCCAACGTGATCCGCGAAGAGATTGAGCGCCTGCTGGAAAATATCACCACGCTGGCGGAAGCCGCCGCGCTCGCCTCCTCTAGCGCGCTGACTGACGAACTGGTCAGCCATGGCGAACTGATGTCCACCCTGCTGTTTGTAGAGATTCTGCGTGAGCGCGGAATTCAGGCGCAGTGGTTTGACGCCCGTAAAGTGCTGCGCACTAACGATCGCTTTGGTCGCGCCGAACCGGATATCGCCGCCGTCGCCGAACTGACTCAGCAGCAGCTGACGCCGCGTCTGGCGGAAGGCCTGGTGGTGACGCAGGGCTTTATCGGCAGCGAAGCGAAAGGCCGCACCACCACCCTCGGCCGCGGCGGCAGCGACTATACCGCCGCTCTGCTCGGCGAAGCGCTGAATGCCACCCGCGTCGATATCTGGACCGATGTGCCCGGGATCTATACGACCGACCCACGCGTCGCGCCTGCGGCGAAACGCATCGACGTCATCGCCTTTGAAGAGGCGGCGGAAATGGCCACCTTTGGCGCCAAAGTGCTGCACCCGGCGACCCTGCTGCCTGCCGTGCGCAGCGATATCCCGGTATTTGTCGGCTCCAGTAAAGAACCTAAAGCGGGCGGTACGCTGGTGTGTAAAACCACCGAGAACCCGCCGCTGTTCCGCGCGCTGGCGCTGCGTCGCCGCCAGACGCTGCTGACGCTGCACAGCCTGAATATGCTGCACTCCCGCGGCTTCCTCGCTGAAGTGTTCGGTATTCTGGCGCGCCATAACATCTCCGTCGATTTGATCACCACCTCCGAAGTGAGCGTGGCCCTGACCATGGACACCACTGGCTCAACCTCTGCGGGCGATACCCTGCTGACCCAGGCGCTGCTGACCGAGCTCTCCTCGCTGTGCCGCGTGGAAGTGGAAGAAGACCTGGCGCTGGTTGCCCTGATCGGCAACGAGCTGTCGAAAGCCTGCGGCGTCGGCAAAGAGGTGTTTGGCGTCCTTGATCCGTTTAACATCCGCATGATCTGCTATGGCGCGTCCAGCCACAATCTCTGCTTCCTGGTGCCTGGCGCCGATGCGGAGAAGGTGGTGCAGACGTTGCATCATAATTTGTTTGAATAA	MTDLVVAKFGGTSVADFDAMNRSIDVALLDANTRIVVLSASAGVTNILVALAEGLEPTERFAQLDALRQIQFNILERLRYPNVIREEIERLLENITTLAEAAALASSSALTDELVSHGELMSTLLFVEILRERGIQAQWFDARKVLRTNDRFGRAEPDIAAVAELTQQQLTPRLAEGLVVTQGFIGSEAKGRTTTLGRGGSDYTAALLGEALNATRVDIWTDVPGIYTTDPRVAPAAKRIDVIAFEEAAEMATFGAKVLHPATLLPAVRSDIPVFVGSSKEPKAGGTLVCKTTENPPLFRALALRRRQTLLTLHSLNMLHSRGFLAEVFGILARHNISVDLITTSEVSVALTMDTTGSTSAGDTLLTQALLTELSSLCRVEVEEDLALVALIGNELSKACGVGKEVFGVLDPFNIRMICYGASSHNLCFLVPGADAEKVVQTLHHNLFE	PGPT0014040_1900	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928	NA	NA
BMS020_04974	930	panS	COG0385	Pantothenate precursors transporter PanS	ATGCTCGCAACTCTGACGCGGCTGTTCCCGTTATGGGCACTGCTGCTCTCCGTTCTGGCCTATTACACACCCACCACCTTCACCCCGATCGGCCCGTGGGTTACCACCCTGCTGATGCTGATTATGTTCGGTATGGGGGTACATCTGAAGCTGGCGGATTTCAAACGCGTCCTGTCGCGTCCGGCGCCGGTCGCCGCAGGGATATTTCTGCACTATCTGGTGATGCCGCTCGCCGCCTGGCTGCTGGCGCTGCTGTTTCATATGCCGCCGGAGCTCTCCGCCGGGATGGTGCTGGTGGGCAGCGTCGCCAGCGGGACGGCCTCCAACGTGATGATCTTTCTGGCCAAAGGGGATGTGGCCCTGTCGGTGACCATCTCCTCGGTCTCCACCCTGGTCGGCGTCATCGCGACGCCGCTGCTGACCCGTCTGTACGTCGACGCGCACATTCAGGTCGACGTCATGGGGATGTTGCTGAGCATTCTGCAGATTGTGGTCATTCCCATCGCCCTGGGGCTGATTGTCCATCATCTGCTGCCGAAGGTGGTGAAAGCGGTGGAGCCGTTCCTGCCCGCTTTCTCGATGGTGTGCATTTTGGCGATCATCAGCGCGGTGGTGGCGGGTTCCGCGGCCCATATCGCGTCCGTCGGCCTGGTGGTGATTATCGCAGTGATCCTGCATAACACCATTGGCCTGCTCGGCGGCTACTGGGGCGGACGTCTGTTTGGTTTTGATGAATCCACCTGCCGTACGCTGGCGATCGAGGTGGGGATGCAGAACTCCGGCCTGGCGGCCGCGCTGGGTAAAATTTACTTCGGCCCGCTGGCGGCGCTGCCGGGAGCCCTGTTCTCCGTCTGGCATAACCTGTCCGGTTCGCTGCTGGCCGGATACTGGTCAGGGAAGCCCATCGCCAAAAAAACCAGCAAGCGCTGA	MLATLTRLFPLWALLLSVLAYYTPTTFTPIGPWVTTLLMLIMFGMGVHLKLADFKRVLSRPAPVAAGIFLHYLVMPLAAWLLALLFHMPPELSAGMVLVGSVASGTASNVMIFLAKGDVALSVTISSVSTLVGVIATPLLTRLYVDAHIQVDVMGMLLSILQIVVIPIALGLIVHHLLPKVVKAVEPFLPAFSMVCILAIISAVVAGSAAHIASVGLVVIIAVILHNTIGLLGGYWGGRLFGFDESTCRTLAIEVGMQNSGLAAALGKIYFGPLAALPGALFSVWHNLSGSLLAGYWSGKPIAKKTSKR	PGPT0013890_1996	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013890-panS|yocS|ybaS-K03453	NA	NA
BMS020_04975	273			hypothetical protein	ATGGCACTCCCCCGTATTACACAAAAAGAGATGACCGAGCGCGAACAGCGCGAATTGAAAACGCTGCTTGACCGCGCGCGCATTGCGCACGGCCGCCCGCTGAGCAATGCGGAAACGAACAGCGTAAAAAAGGAATATATCGATAAGCTGATGGCCCAGCGTGAAGCGGAAGCGAAGAAAGCCCGCCAGGTGAAAAAACAGCAGGCTTATAAGACGGATAAGGAAGCGACCTTTTCCTGGTCGGCGAATACGCCGACCCGCGGCAGGCGTTAA	MALPRITQKEMTEREQRELKTLLDRARIAHGRPLSNAETNSVKKEYIDKLMAQREAEAKKARQVKKQQAYKTDKEATFSWSANTPTRGRR				NA	NA	NA	NA	NA
BMS020_04976	876	rluF_2	COG1187	Dual-specificity RNA pseudouridine synthase RluF	ATGCTGCCCGACTCATCAACCCGATTAAACAAATACATCAGTGAAAGCGGCATCTGCTCGCGTCGCGAAGCGGACCGCTTTATTGAACAAGGCAACGTCTTTATCAATGGCAAGCGCGCCACGATTGGCGATCAGGTGAAGCCTGGCGACCTGGTCAAAGTTAACGGACGGTTGATTGAGCCGCGCGAAGCGGATGATCTGGTGCTGATTGCGCTGAATAAGCCGGTCGGCATTGTGAGCACCACGGAAGACGGCGAGCGCGACAACATTGTCGATTTCGTCAACCACAGCAAGCGTATCTTCCCTATCGGCCGTCTGGATAAAGACTCCCAGGGGCTGATATTCCTCACCAATCACGGCGACCTGGTGAATAAGATCCTGCGCGCCGGCAACGACCATGAAAAAGAGTATCTGGTTACGGTCGATAAGCCGGTGACCGATGAGTTCATTCGCGGCATGGGCGCGGGGGTACCGATTCTCGGGACCGTGACCAAAAAATGTAAGGTAAAGAAAGAAGCGCCGTTCGTTTTCCGCATCACTCTGGTGCAGGGGCTGAATCGCCAGATCCGTCGCATGTGCGAGCACTTTGGCTATGAAGTGACGAAGCTTGAGCGTACGCGGATTATGAACGTCAGCCTGACGGGGATCCCGCTGGGTGAGTGGCGCGATCTGACCGATGACGAGCTGATCGATCTGTTCAAGCTGATTGAAAACTCTTCTTCCGAAGCGAAGCCGAAAGCTAAGCCGAAGGCCAAAGCGGCGACCCCCGGCATCAAGCGCCCGGTGGTGAAGATGGAAAATAGCAACGATAAGGGCCGCCCGGCTGGCAACGGCAAGCGTTTCACCCAGCCGGGACGTAAAAAGAAAGGGCGTTAA	MLPDSSTRLNKYISESGICSRREADRFIEQGNVFINGKRATIGDQVKPGDLVKVNGRLIEPREADDLVLIALNKPVGIVSTTEDGERDNIVDFVNHSKRIFPIGRLDKDSQGLIFLTNHGDLVNKILRAGNDHEKEYLVTVDKPVTDEFIRGMGAGVPILGTVTKKCKVKKEAPFVFRITLVQGLNRQIRRMCEHFGYEVTKLERTRIMNVSLTGIPLGEWRDLTDDELIDLFKLIENSSSEAKPKAKPKAKAATPGIKRPVVKMENSNDKGRPAGNGKRFTQPGRKKKGR				NA	NA	NA	NA	NA
BMS020_04977	690	pepE	COG3340	Peptidase E	ATGGAACTGCTGCTACTCAGTAACTCCACGCTGCCGGGGAAAGCCTGGCTGGAACACGCCCTGCCGCTGATTGCCGGTCAGGTCAAAGGCCGCCGGACGGCGGTATTCATCCCCTTCGCTGGCGTGACGCAAACCTGGGATGATTACACGGCCAAAGTGGCTGCGGTTATGGCGCCGATGGCGGTCAGCGTAACCGGTATCCACCGCGTCGCCGACCCTATCGCCGCCATTGAAAGCGCCGAGATGGTGATCGTCGGCGGCGGGAACACCTTCCAGCTGTTGAAAGAGTGCCGCAGCCGCGGGCTGCTGGCGCCGATTGTCGATGTCGTCAAACGCGGGGCGTTGTATATCGGCTGGAGCGCAGGTTCAAACCTCGCCTGCCCGACCATTCGCACCACCAACGATATGCCGATTGTCGATCCGCAGGGATTTGATGCGCTGGGGCTGTTCCCGCTCCAGATTAACCCGCACTTCACCAACGCGTTGCCGACCGGGCATCAGGGTGAAACCCGCGAACAGCGTATCCGCGAACTGCTGGTCGTGGCGCCGGAATTAACGGTGATTGGTTTACCGGAAGGAAACTGGATCCAGGTCACCGATGGTCACGCGACCCTTGGCGGCCCGAACCCGACGCTGTTGTTCAAAGCGGGGGAAGCAGCGGTAACCCTGCCTGCAGGCCACCGCTTCTGA	MELLLLSNSTLPGKAWLEHALPLIAGQVKGRRTAVFIPFAGVTQTWDDYTAKVAAVMAPMAVSVTGIHRVADPIAAIESAEMVIVGGGNTFQLLKECRSRGLLAPIVDVVKRGALYIGWSAGSNLACPTIRTTNDMPIVDPQGFDALGLFPLQINPHFTNALPTGHQGETREQRIRELLVVAPELTVIGLPEGNWIQVTDGHATLGGPNPTLLFKAGEAAVTLPAGHRF				NA	NA	NA	NA	NA
BMS020_04978	1632			hypothetical protein	GTGTTAACTCTGCTACACCTGTTGTCCGCGGTCGCTCTGCTGGTGTGGGGCACGCATATCGTGCGTACCGGGGTGATGCGCGTCTATGGCGCTCGCCTGCGTACCGTTCTCAGTAGCAGCGTAGAGAAAAAGCCGCTCGCCTTCTGCGCGGGTCTTGGCGTGACTGCGCTGGTGCAAAGCAGCAATGCCACCACCATGCTGGTGACCTCGTTTGTCGCCCAGGATTTAGTGGGCCTCACGCCGGCGCTGGTGATGGTGCTGGGGGCCGACGTCGGGACGGCGCTGATGGCGAGGGTGCTGACCTTCGACCTGTCGTGGCTGTCGCCGTTGTTGATATTTATCGGGGTGATTTTCTTCCTCGGCCGCAAGCAGACCCGCGCCGGGCAGCTGGGGCGAGTGGGGATTGGCCTTGGGCTGATCCTGTTGGCCCTGGAGCTGATTGTGCAGGCCGTCCACCCCATTACCCAGGCCAACGGCGTGCAGGTGATTTTTGCCTCGCTGACCGGGGATATTATGCTGGATGCCTTGATTGGCGCCGTATTCGCGATCATCAGCTACTCCAGCCTGGCGGCGGTGCTGCTGACCGCGACGCTGACCGCGGCAGGAGCGATCTCTTTCCCGGTGGCGCTGTGCCTGGTGATTGGCGCCAACCTGGGGTCGGGGCTGTTGGCGATGCTCAACAACAGCGCGGCGAACGCGGCGGCGCGCCGGGTGGCGCTGGGCAGCCTGTTGTTTAAGCTGGTGGGGAGCCTGATCATTCTGCCGTTCGTCCATCCGCTGGCCGCGGCGATGCATAAGCTACCGTTGACCGAGTCCGAGCTGGTTATCTACTTCCACGTTTTTTACAACCTGCTGCGCTGCATCGCGATGGTGCCTTTTGCCGGACCGATGGCGAAGCTGTGCCAGCGCATGATCCGCGATGAACCCGAGCTGGATAACCATCTCAAACCCAAGCATCTCGACCCGTCGGCGCTGGACACCCCGGCGCTGGCGCTGGCCAATGCCGCGCGCGAGACGCTGCGCATTGGTGACGCGATGGAGCAAATGCTGGAGAGCCTGCATAAGGTGATGCATGGCGAACCGCGTCAGGAGAAAGAGCTACGCCGCATGGCGGACGATATCAACGTACTCTACACCGCCATTAAGCTCTATCTGGCGCGAATGCCAAAGGATGAGCTGGCGGAAGAGGAGTCCCGGCGCTGGGCGGAAATTATTGAGATGTCGTTAAACCTCGAGCAGGCCTCCGATATCGTCGAGCGGATGGGCAGCGAGATCGCTGATAAATCGCTGGCGGCGCGGCGCGCCTTCTCGGTGGAAGGGTTAAAGGAGCTGGACGCCCTGTACGATCTGTTGCTCAGCAACCTGCAGCTGGCGATGTCGGTCTTCTTCTCCAGCGATGTGCCCAGCGCCCGTCGCCTGCGGCGCAGTAAACACCGGTTCCGCATTCTTAACCGCCGCTACTCGCATGCGCACGTTGACCGTCTGCATCAGCAGAACGTGCAGAGTATCGAAACCAGTACGTTGCACCTGGCGCTGCTGGGGGATATGAAGCGCCTGAACAGCCTGTTCTGCTCGGTGGCTTACAGCGTGATGGAGCAACCGGATGAAGACGACGAACGGGATGACTATTGA	MLTLLHLLSAVALLVWGTHIVRTGVMRVYGARLRTVLSSSVEKKPLAFCAGLGVTALVQSSNATTMLVTSFVAQDLVGLTPALVMVLGADVGTALMARVLTFDLSWLSPLLIFIGVIFFLGRKQTRAGQLGRVGIGLGLILLALELIVQAVHPITQANGVQVIFASLTGDIMLDALIGAVFAIISYSSLAAVLLTATLTAAGAISFPVALCLVIGANLGSGLLAMLNNSAANAAARRVALGSLLFKLVGSLIILPFVHPLAAAMHKLPLTESELVIYFHVFYNLLRCIAMVPFAGPMAKLCQRMIRDEPELDNHLKPKHLDPSALDTPALALANAARETLRIGDAMEQMLESLHKVMHGEPRQEKELRRMADDINVLYTAIKLYLARMPKDELAEEESRRWAEIIEMSLNLEQASDIVERMGSEIADKSLAARRAFSVEGLKELDALYDLLLSNLQLAMSVFFSSDVPSARRLRRSKHRFRILNRRYSHAHVDRLHQQNVQSIETSTLHLALLGDMKRLNSLFCSVAYSVMEQPDEDDERDDY	PGPT0002650_1538	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0002650-yjbB-K03324	NA	NA
BMS020_04979	3684	metH_1	COG0646	Methionine synthase	GTGAGCAGCAAAGTTGAGCAACTGCATCAGCAGTTAAAAGAACGTATTCTGGTTCTGGATGGGGGCATGGGCACCATGATCCAGGGCTACCGTCTGAGTGAGCAGGACTTTCGCGGTGAGCGCTTTGCTGACTGGCCGTGCGACCTGAAAGGCAACAACGACCTGCTGGTGCTCAGCAAGCCCGAGGTGATCCGCGAGATCCACGACGCCTACTTCGAGGCCGGCGCGGATATCATTGAGACCAACACCTTTAACTCGACGACCATTGCGATGGCGGATTACCAGATGGAATCCCTGTCCGCAGAGATCAACTTTGCGGCGGCGAAGCTGGCCCGCGCCAGCGCCGACGCCTGGACGGCCCGCACGCCGGAAAAACCGCGCTACGTCGCGGGCGTGCTTGGCCCAACCAACCGCACCGCCTCTATTTCGCCTGATGTGAACGATCCGGCGTTCCGCAATATTACCTTTGACCAGCTGGTGGCTGCCTATCGCGAATCCACCCGGGCGCTGGTGGAAGGCGGCGTGGATCTGATCCTGATTGAAACGGTATTTGACACCCTGAACGCCAAAGCGGCCATCTATGCGGTGAAAGAGGAGCTGGAGGCGCTGGGCGTTGACCTGCCGCTGATGATCTCCGGGACCATTACCGATGCCTCCGGCCGCACGCTGTCCGGGCAGACCACCGAAGCTTTCTATAACTCGCTGCGTCACGCCGAAGCCTTATCGTTTGGTCTGAACTGCGCCCTCGGGCCGGACGAACTGCGCCAGTACGTCCAGGAGCTGTCGCGTATCGCTGAGTGCTACGTTACCGCGCACCCGAACGCTGGCCTGCCCAATGCCTTCGGCGAATACGATCTGGATGCCGATACCATGGCGGCGCAGATCCGCGAATGGGCGGAAGCCGGTTTCCTCAATATCGTCGGCGGCTGCTGCGGCACTACGCCGGAACATATCGCCGCCATGAGCCGCGCGGTGGCCGGCTTGCCGCCGCGCCAGCTGCCGGAGATCCCCGTCGCCTGCCGTCTTTCCGGCCTGGAGCCGCTGAATATCGGCGATGACAGCCTGTTTGTGAACGTCGGCGAACGTACCAACGTTACCGGCTCGGCGAAATTTAAACGCTTAATCAAAGAAGAGAAGTACAGCGAAGCGCTGGACGTCGCGCGTCAGCAGGTGGAAAGCGGCGCGCAGATCATCGATATCAACATGGACGAGGGGATGCTCGACGCCGAAGCGGCGATGGTGCGCTTCCTCAACCTGATTGCCGGCGAGCCGGACATTGCCCGCGTGCCGATCATGATCGACTCCTCCAAATGGGAGGTCATCGAAAAGGGCCTGAAATGCATTCAGGGAAAAGGCATCGTTAACTCCATCTCGATGAAAGAGGGCGTCGAACCCTTTATCCACCATGCGAAACTGGTTCGCCGCTACGGCGCCGCGGTGGTGGTGATGGCCTTTGACGAAGTGGGCCAGGCCGATACCCGCGAACGTAAAATTGAGATTTGCCGTCGCGCCTACAAAATCCTCACCGAAGAGGTCGGCTTCCCGCCAGAAGATATTATCTTTGACCCGAATATCTTCGCGGTGGCGACCGGTATCGAAGAACACAATAACTATGCCCAGGACTTTATCGGCGCCTGCGAAGACATCAAACGCGAGCTGCCGCACGCGCTGATCTCCGGCGGCGTCTCCAACGTCTCCTTCTCTTTCCGCGGCAATGACCCGGTACGTGAGGCGATCCACGCGGTATTCCTCTACTACGCGATCCGTAACGGCATGGATATGGGCATCGTCAACGCCGGCCAGCTGGCGATTTACGACGACCTTCCCGCCGAGTTGCGTGACGCGGTTGAAGATGTGATCCTCAACCGCCGCGATGACAGCACCGAAAGATTGCTCGAGCTGGCGGAAAAATATCGCGGCAGTAAAGTTGACGACGGCGCCAATGCCCAGCAGGCGGAATGGCGCAGCTGGGAGGTGAAAAAACGCCTCGAATATTCGCTGGTGAAGGGCATTACCGAATTTATTGAACAGGACACCGAAGAAGCGCGTCAGCAGGCCGCTCGCCCGATTGAGGTGATCGAAGGGCCGCTGATGGACGGCATGAACGTGGTCGGCGATCTGTTCGGCGAAGGCAAAATGTTCCTGCCGCAGGTGGTGAAATCCGCCCGCGTCATGAAACAGGCGGTGGCCTACCTGGAGCCGTTTATTGAAGCCAGTAAAGAGCAGGGCTCCAGTAACGGCAAAATGGTGATTGCCACGGTAAAAGGCGACGTTCATGACATCGGCAAAAACATCGTCGGCGTGGTGCTGCAGTGCAATAACTACGAAATAATCGATCTTGGCGTGATGGTCCCGGCGGATAAAATTCTCAAAACCGCCAAAGAGGTGAACGCGGATCTCATCGGCCTTTCCGGGTTGATTACCCCGTCGCTCGACGAAATGGTTAACGTGGCGAAAGAGATGGAGCGCCAGGGCTTTACCATCCCGCTGCTGATCGGCGGCGCGACCACCTCTAAAGCGCATACGGCGGTGAAAATCGAGCAGAACTACAGCGGCCCGACCGTTTACGTACAGAACGCTTCGCGCACCGTCGGGGTGGTGGCTGCGCTGCTCTCGGACACGCAGCGCGATGAGTTTGTCGCCCGTACGCGCAAAGAGTATGAAACCGTGCGTATCCAGCATGGGCGTAAAAAACCGCGCACCCCGCCGGTGACCCTGGCCGCCGCACGGGAAAACGATCTGGCCTTTGACTGGGAGAGCTACACTCCGCCGGTGGCCCATCGCCTGGGGATTCAGGAGGTGGAAGCCAGTATCGAGACGCTACGCAACTACATCGACTGGACGCCGTTCTTTATGACCTGGTCGCTGGCGGGCAAATATCCGCGCATTCTGGAAGATGACGTGGTGGGGGAAGAGGCGCAGCGCCTGTTCAAAGACGCTAACGAGCTGCTGGATAAGCTGAGCGCAGAGAAAACCCTCAACCCGCGCGGCGTGGTGGGCCTGTTCCCGGCCAACCGCGTGGGCGACGATATTGAAATCTATCGCGATGAAACCCGCACCCACGTGCTGACGGTGAGCCATCACCTGCGCCAGCAGACGGAGAAGGTCGGCTTCGCCAACTACTGCCTCGCCGACTTTGTGGCGCCGAAGCTGAGCGGCAAAGCGGACTACATCGGCGCCTTCGCCGTCACCGGCGGCCTGGAAGAGGACGCGCTGGCGGAAGCCTATGAAGCGCAGCATGATGACTATAACAAGATCATGATCAAGGCCATCGCCGATCGTCTGGCGGAAGCCTTCGCCGAGTATCTGCACGAGAAAGTGCGTAAGGTCTACTGGGGGTATGCGGCCAATGAGAACCTCAGCAATGAGGAGCTTATTCGCGAGAATTACCAGGGGATCCGTCCGGCGCCGGGGTATCCGGCCTGTCCGGAGCACACCGAAAAAGGCACCATCTGGCAGCTGCTGGACGTCGAAGCCCATACCGGCATGAAGCTCACCGAATCGTTCGCCATGTGGCCGGGGGCATCGGTTTCCGGCTGGTACTTCAGCCATCCTGACAGCAAATACTTCGCCGTGGCGCAGATCCAGCGCGACCAGGTCGAAGACTACGCGCTGCGTAAAGGGATGACCCCGGCGGAAGTCGAGCGCTGGTTAGCCCCTAATCTGGGCTATGATGCGGACTAG	MSSKVEQLHQQLKERILVLDGGMGTMIQGYRLSEQDFRGERFADWPCDLKGNNDLLVLSKPEVIREIHDAYFEAGADIIETNTFNSTTIAMADYQMESLSAEINFAAAKLARASADAWTARTPEKPRYVAGVLGPTNRTASISPDVNDPAFRNITFDQLVAAYRESTRALVEGGVDLILIETVFDTLNAKAAIYAVKEELEALGVDLPLMISGTITDASGRTLSGQTTEAFYNSLRHAEALSFGLNCALGPDELRQYVQELSRIAECYVTAHPNAGLPNAFGEYDLDADTMAAQIREWAEAGFLNIVGGCCGTTPEHIAAMSRAVAGLPPRQLPEIPVACRLSGLEPLNIGDDSLFVNVGERTNVTGSAKFKRLIKEEKYSEALDVARQQVESGAQIIDINMDEGMLDAEAAMVRFLNLIAGEPDIARVPIMIDSSKWEVIEKGLKCIQGKGIVNSISMKEGVEPFIHHAKLVRRYGAAVVVMAFDEVGQADTRERKIEICRRAYKILTEEVGFPPEDIIFDPNIFAVATGIEEHNNYAQDFIGACEDIKRELPHALISGGVSNVSFSFRGNDPVREAIHAVFLYYAIRNGMDMGIVNAGQLAIYDDLPAELRDAVEDVILNRRDDSTERLLELAEKYRGSKVDDGANAQQAEWRSWEVKKRLEYSLVKGITEFIEQDTEEARQQAARPIEVIEGPLMDGMNVVGDLFGEGKMFLPQVVKSARVMKQAVAYLEPFIEASKEQGSSNGKMVIATVKGDVHDIGKNIVGVVLQCNNYEIIDLGVMVPADKILKTAKEVNADLIGLSGLITPSLDEMVNVAKEMERQGFTIPLLIGGATTSKAHTAVKIEQNYSGPTVYVQNASRTVGVVAALLSDTQRDEFVARTRKEYETVRIQHGRKKPRTPPVTLAAARENDLAFDWESYTPPVAHRLGIQEVEASIETLRNYIDWTPFFMTWSLAGKYPRILEDDVVGEEAQRLFKDANELLDKLSAEKTLNPRGVVGLFPANRVGDDIEIYRDETRTHVLTVSHHLRQQTEKVGFANYCLADFVAPKLSGKADYIGAFAVTGGLEEDALAEAYEAQHDDYNKIMIKAIADRLAEAFAEYLHEKVRKVYWGYAANENLSNEELIRENYQGIRPAPGYPACPEHTEKGTIWQLLDVEAHTGMKLTESFAMWPGASVSGWYFSHPDSKYFAVAQIQRDQVEDYALRKGMTPAEVERWLAPNLGYDAD	PGPT0008135_1356	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008135-metH-K00548	NA	NA
BMS020_04980	831	iclR	COG1414	Transcriptional repressor IclR	ATGGCCACTACCCCCGTTCCCGCGAAACGCGGCAGAAAACCCGCGGCTGCCACCGCCCAGCAGGCTGGCGGTCAGGTTCAGTCGCTGACCCGCGGCCTGAAATTGCTCGAATGGATTGCCGAGTCCCACAGCAGCGTCGCGCTGACCGAGCTGGCGCAGCAGGCGGGTCTGCCCAACTCAACCACTCACCGTCTGCTGACCACCATGCAGCAGCTGGGTTTCGTTCGCCAGGTCGGCGAGCTGGGCCACTGGGCCGTCGGCGCGCATGCCTTCGTGGTCGGCAGCAGCTTTCTGCAAAGCCGCAATCTGCTGGCGATTGTCCACCCGATCCTGCGCCAGCTGATGGAGGATTCCGGTGAAACGGTGAATCTGGCGGTGCTTGACCAGAGCGACCACCAGGCGATCATTATCGACCAGGTGCAGTGCACCCAGCTGATGCGTATGTCGGCGCCAATCGGCGGAAAACTGCCGATGCACGCCTCCGGCGCCGGGAAGGCGTTCCTCTCGCAGCTGAGCGAAGAGCAGGTGACCAGCCTGCTGCACCGTAAAGGGCTGCATGCCTATACGCATGCCACGCTGGTCTCGCCGCTGCATCTGAAGGAAGATTTAGCGCAGACCCGCAAGCGGGGCTACTCGTTCGATGACGAGGAGCACGCGCTCGGCCTGCGCTGCGTCGCCGCCTGCATTTATGATGAACACCGCGAACCGTTCGCGGCAATCTCCATCTCCGGTCCCATCTCACGCATGACCGATGATCGGGTGACCGAGCTGGGCGCGCTGGTCATTAAGGCCGCGAAAGAGGTCACGCTGGCATACGGCGGGGTTAAATAA	MATTPVPAKRGRKPAAATAQQAGGQVQSLTRGLKLLEWIAESHSSVALTELAQQAGLPNSTTHRLLTTMQQLGFVRQVGELGHWAVGAHAFVVGSSFLQSRNLLAIVHPILRQLMEDSGETVNLAVLDQSDHQAIIIDQVQCTQLMRMSAPIGGKLPMHASGAGKAFLSQLSEEQVTSLLHRKGLHAYTHATLVSPLHLKEDLAQTRKRGYSFDDEEHALGLRCVAACIYDEHREPFAAISISGPISRMTDDRVTELGALVIKAAKEVTLAYGGVK	PGPT0000860_38	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ALLANTOIN_USAGE	N-AQUISITION-ALLANTOIN_METABOLISM,PGPT0000860-allR-K10973	NA	NA
BMS020_04981	1785	aceK_1	COG4579	Isocitrate dehydrogenase kinase/phosphatase	ATGACGCGTGGTCTGGAATTACTGATTGCCCAAACGATATTGCAGGGATTTGACGCTCAGTATGGGCGTTTTCTCGAAGTGACTTCCGGCGCGCAGCAGCGCTTTGAACAGGCCGACTGGCATGCGGTGCAGCAGGCGATGAAACAGCGGATCCACCTCTATGACCACCATGTGGGTCTGGTGGTGGAGCAGCTGCGCTGCATCACGGAGGGAAAAAGCACGGATGCCGACTTTTTGCTGCGGGTGAAAGCCCACTACACCCGTTTGCTGCCGGATTACCCTCGTTTTGAAATTGCCGAGAGCTTTTTCAATTCGGTCTATTGCCGCCTGTTTGACCACCGCTCGCTGACCCCCGAGCGGCTCTTTATTTTCAGCTCGCAGCCCGAGCGTCCTTTTCGCACCCTTCCGCGCCCGCTGGCGAAAGATTTCTATCCAGAGCGCGGCTGGTCGCACCTGCTGGGTAAAGTGCTGTCCGATCTGCCGCTGCGGCTGCCGTGGCAAAATAAAGCGCGGGATATCGGCTATATCATTGCCAGTCTGCAGGAGGCGCTGGGGGAGGAACCGCTCGCCACCTGTCATCTACAGGTCGCCAATGAGCTGTTCTATCGCAACAAAGCCGCCTGGCTGGTGGGCAAACTGGTGATGCCGATGACCACGCTGCCCTTCTTGCTGCCGATCCATCGCAGCGACGAGGGCGAGCTGTTTGTCGATACCTGCCTGACCACCCATGCCGAAGCGAGCATCGTTTTTGGCTTCGCGCGTTCCTATTTTATGGTTTATGCGCCCCTGCCCGGCGCTCTGGTGGAATGGCTGCGCGAGATCCTGCCGGGTAAAACCACGGCCGAGCTGTATATGGCGATTGGCTGCCAGAAGCACGCCAAAACCGAAAGCTATCGCGAATATCTGCACTACATCGCTCGCTGCGATGAGCAGTTTATCGAGGCGCCGGGCATTCGCGGGATGGTGATGCTGGTGTTTACCCTGCCGGGGTTTGACCGGGTGTTCAAGGTGATCAAAGATCGCTTCGCGCCGCAGAAGGAGATGACCGCCGCCCACGTGCGCGCCTGCTATCAGCTGGTAAAGGAGCATGACCGCGTCGGGCGGATGGCGGACACGCAGGAGTTTGAAAACTTCGTGCTGGAGAAACGACAAATCGCGCCAGCGCTGCTGGCGCTGCTGCAGGCGGAAGCGGGGAACAAACTGACCGACCTCGGCGACCGGATTGTCATCAGTCATCTGTATATTGAACGGCGAATGGTGCCGCTCAACCTGTGGCTGGAGCAGGTTAACGGCCAGGCGCTGCGCGATGCGGTAGAAGAGTATGGGAATGCTATCCGCCAGCTGGCCGCCGCCAACATCTTTCCCGGCGATATGCTGTTTAAAAACTTCGGCGTCACCCGCCACGGCCGGGTGGTGTTCTACGACTATGATGAAATCTGCTATATGACGGAGGTGAATTTCCGCCAGATCCCGCCGCCGCGCTATCCCGAGGATGAGCTGGCCAGCGAGCCGTGGTACAGCGTCTCGCCGGGGGATGTGTTTCCGGAGGAGTTCCGCCACTGGCTGTGCGCCGACCCGCGCATTGGGCCGCTGTTTGAGGAGATGCATGCCGACCTGCTGCGCGCCGACTACTGGCGCGAACTGCAGACGCGGATTAAAAACGGTCATGTGGAAGATGTCTATGCTTACCGGCGTAAGCAGCGTTTTAGCGTGCGCTATGGCGCCGATAGTAGGCCGGATAAGGCGTTTACGCCGCCATCCGGCAAGGTGCGCCGATCTGCCTGA	MTRGLELLIAQTILQGFDAQYGRFLEVTSGAQQRFEQADWHAVQQAMKQRIHLYDHHVGLVVEQLRCITEGKSTDADFLLRVKAHYTRLLPDYPRFEIAESFFNSVYCRLFDHRSLTPERLFIFSSQPERPFRTLPRPLAKDFYPERGWSHLLGKVLSDLPLRLPWQNKARDIGYIIASLQEALGEEPLATCHLQVANELFYRNKAAWLVGKLVMPMTTLPFLLPIHRSDEGELFVDTCLTTHAEASIVFGFARSYFMVYAPLPGALVEWLREILPGKTTAELYMAIGCQKHAKTESYREYLHYIARCDEQFIEAPGIRGMVMLVFTLPGFDRVFKVIKDRFAPQKEMTAAHVRACYQLVKEHDRVGRMADTQEFENFVLEKRQIAPALLALLQAEAGNKLTDLGDRIVISHLYIERRMVPLNLWLEQVNGQALRDAVEEYGNAIRQLAAANIFPGDMLFKNFGVTRHGRVVFYDYDEICYMTEVNFRQIPPPRYPEDELASEPWYSVSPGDVFPEEFRHWLCADPRIGPLFEEMHADLLRADYWRELQTRIKNGHVEDVYAYRRKQRFSVRYGADSRPDKAFTPPSGKVRRSA	PGPT0001475_269	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-CITRIC_ACID_BIOSYNTHESIS,PGPT0001475-aceK-K00906	NA	NA
BMS020_04982	1320	aceA_2	COG2224	Isocitrate lyase	ATGGAGCATCTGCACATGAAAACCCGTACCCAACAAATCGAAGAATTAAACAAAGAGTGGACGAACCCGCGCTGGGAAGGGATTACCCGCCCGTACAGCGCGGAAGAGGTGGTGAAATTACGCGGCTCGGTGAACCCGGAATGCACGCTGGCGCAGCTTGGCGCAGCGAAAATGTGGCGTCTGCTGCACGGTGAGGCGAAGAAAGGGTACATCAACAGCCTTGGCGCGCTGACCGGCGGCCAGGCCTTGCAGCAGGCGAAGGCCGGCATCGAAGCCATTTATCTCTCCGGCTGGCAGGTGGCGGCGGATGCTAACCTGGCGTCCAGCATGTACCCGGATCAGTCGCTGTACCCGGCCAACTCGGTACCGGCGGTGGTGGATCGGATCAACAATACCTTCCGCCGCGCCGATCAGATCCAGTGGTCAGCCGGGATTGAGCCGAACGATCCGCGCTTTATCGACTACTTCCTGCCGATCGTGGCGGATGCGGAGGCCGGTTTCGGCGGCGTCCTGAACGCCTTTGAGCTGATGAAATCGATGATTGAAGCCGGTGCAGCGGCTGTTCACTTCGAAGATCAGCTGGCGTCGGTGAAGAAGTGCGGTCATATGGGCGGTAAAGTGCTGGTTCCAACCCAGGAGGCGATACAGAAACTGGTGGCGGCTCGTCTGGCGGCCGACGTGATGGGGGTCCCGACGCTGGTGATCGCCCGTACCGATGCTGACGCTGCCGATTTAATTACCTCAGACTGCGATCCGTACGATCGTGAGTTTATTACCGGAGATCGCACCAGCGAAGGGTTCTTCCGCACCCATGCCGGGATCGAGCAGGCGATCAGCCGCGGGCTGGCTTACGCGCCGTATGCGGACCTGGTGTGGTGTGAAACGTCGAAACCGGATCTCGAGCAGGCGCGTCGCTTTGCCGAAGCCATTCATGCGCGTTTCCCGGGCAAACTGCTGGCCTATAACTGCTCGCCGTCGTTTAACTGGAAGAAAAATCTCGATGATAAAACCATCGCCAGCTTCCAGCAGCAGCTGTCGGACATGGGGTACAAATACCAGTTTATTACTCTCGCCGGGATCCACAGCATGTGGTTCAACATGTTCGACCTCGCCCATGCCTACGCTCAGGGTGAGGGGATGCGCCACTATGTTGAAAAAGTGCAGCAGCCGGAATTCGCCGCCGGGCCGGAAGGCTATACCTTCGTCTCGCATCAGCAGGAGGTGGGCACCGGCTACTTCGACAAGGTCACTACCATTATCCAGGGCGGCGCCTCGTCGGTGACGGCGCTGACCGGCTCGACCGAAGAAGATCAGTTTTGA	MEHLHMKTRTQQIEELNKEWTNPRWEGITRPYSAEEVVKLRGSVNPECTLAQLGAAKMWRLLHGEAKKGYINSLGALTGGQALQQAKAGIEAIYLSGWQVAADANLASSMYPDQSLYPANSVPAVVDRINNTFRRADQIQWSAGIEPNDPRFIDYFLPIVADAEAGFGGVLNAFELMKSMIEAGAAAVHFEDQLASVKKCGHMGGKVLVPTQEAIQKLVAARLAADVMGVPTLVIARTDADAADLITSDCDPYDREFITGDRTSEGFFRTHAGIEQAISRGLAYAPYADLVWCETSKPDLEQARRFAEAIHARFPGKLLAYNCSPSFNWKKNLDDKTIASFQQQLSDMGYKYQFITLAGIHSMWFNMFDLAHAYAQGEGMRHYVEKVQQPEFAAGPEGYTFVSHQQEVGTGYFDKVTTIIQGGASSVTALTGSTEEDQF	PGPT0001550_1208	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLYOXYLIC_ACID_BIOSYNTHESIS,PGPT0001550-aceA-K01637	NA	NA
BMS020_04983	1602	aceB_2	COG2225	Malate synthase A	ATGACGCAGCAGGCGACAATCACCGATGAACTGGCCTTTAGTCAGCCCTATGGCGAGCAGGAGAAGCAGATCTTGACGCCTGAGGCGGTAGAATTCCTGACGGAACTGGTGAGCCGCTTTACGCCGGCGCGCAATAAACTGCTGGCCGCGCGTCTGCAGCAGCAGCAGGCCATTGACGATGGGCAGCTGCCGGATTTTATTTCGGAAACTGCTTCCATTAGAAATGGCGATTGGACCATTCGCGGTATCCCGGCGGATTTGCAGGATCGCCGCGTTGAAATTACCGGCCCCGTCGAGCGCAAGATGGTCATTAACGCGCTGAATGCTAACGTAAAAGTCTTTATGGCGGACTTTGAGGATTCGCTGGCGCCGGACTGGCGTAAAGTCATTGATGGCCAAATCAACCTACGCGATGCCGTGAACGGGACCATCAGCTACACCAATGAGGCTGGCAAAATCTACCAACTACAGCCCAATCCCGCTGTGCTGGTATGCCGTGTGCGCGGCCTGCACCTGCCGGAAAAGCATGTGACCTGGCGTAATGAGGCCATTCCCGGCAGTCTTTTCGATTTTGCGCTCTATTTCTTTCATAACTACCAGGCGCTGCTGGCGAAAGGAAGTGGTCCCTACTTCTATCTGCCAAAAACCCAGGCCTGGCAGGAGGCGGCATGGTGGAACGATGTCTTCAGCTTTACTGAAGATCGCTTTGACCTGCCGCGCGGCACCATCAAGGCCACGCTGCTGATTGAAACACTGCCGGCGGTGTTCCAGATGGATGAGATCCTGCATGCGCTGCGCGACCATATTGTCGGCCTGAACTGCGGCCGCTGGGACTATATCTTTAGCTATATCAAGACGCTGAAAAACCATCCTGACCGCGTACTACCGGACCGCCAGGTGGTGACGATGGATAAACCCTTCCTCAGCGCCTACTCACGGCTGTTGATTAAGACCTGCCACAAACGCGGGGCGTTTGCGATGGGTGGAATGGCGGCCTTTATCCCGAGTAAAGAGGCCGAGCGTAACCGTCAGGTGCTGAATAAAGTCACCGCCGACAAAGAGCTGGAGGCGAACAACGGTCACGATGGCACCTGGATCGCCCATCCTGGGCTGGCGGATACCGCCATGGCGGTGTTTAACCGCGTGCTCGGCGACAAGCCGAATCAGCTCTCGGTGACCCGTAGCGAGGACGCGCCAATTACCGCCGAACAGCTGCTGGCCCCCTGCGAGGGCGAGCGCACGGAAGCCGGGATGCGCGCCAACATCCGCGTGGCGGTGCAGTACATCGAAGCCTGGATCTCCGGCAACGGCTGTGTACCGATTTATGGCCTGATGGAAGACGCCGCGACGGCCGAGATCTCGCGCACCTCTATCTGGCAGTGGATCCATCATCAGAAAACCCTGAACGACGGCACGCCGGTCACGAAAGCGCTGTTCCGCCAGTGGCTGGCGGAAGAGCTGATGGTGATTCAGGAGGAGCTGGGGGAGCACCGCTTCAGCCATGGCCGCTTTGACGATGCGGCGCGGCTGATGGAGCAGATCACCACCTCCGACGAACTGATTGATTTTCTGACATTACCGGGCTACCGCCTGCTGGCCTAA	MTQQATITDELAFSQPYGEQEKQILTPEAVEFLTELVSRFTPARNKLLAARLQQQQAIDDGQLPDFISETASIRNGDWTIRGIPADLQDRRVEITGPVERKMVINALNANVKVFMADFEDSLAPDWRKVIDGQINLRDAVNGTISYTNEAGKIYQLQPNPAVLVCRVRGLHLPEKHVTWRNEAIPGSLFDFALYFFHNYQALLAKGSGPYFYLPKTQAWQEAAWWNDVFSFTEDRFDLPRGTIKATLLIETLPAVFQMDEILHALRDHIVGLNCGRWDYIFSYIKTLKNHPDRVLPDRQVVTMDKPFLSAYSRLLIKTCHKRGAFAMGGMAAFIPSKEAERNRQVLNKVTADKELEANNGHDGTWIAHPGLADTAMAVFNRVLGDKPNQLSVTRSEDAPITAEQLLAPCEGERTEAGMRANIRVAVQYIEAWISGNGCVPIYGLMEDAATAEISRTSIWQWIHHQKTLNDGTPVTKALFRQWLAEELMVIQEELGEHRFSHGRFDDAARLMEQITTSDELIDFLTLPGYRLLA	PGPT0001445_2452	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001445-aceB|glcB-K01638	NA	NA
BMS020_04984	930	metAS	COG1897	Homoserine O-succinyltransferase	ATGCCAATTCGGGTGCAGGACGAGCTACCAGCCGTCAATTTCTTGCGCAATGAAAACGTCTTTGTGATGACGACAACGCGTGCAACAACTCAGGAAATCCGCCCCCTGAAGGTGTTAATCCTCAACCTGATGCCGAAGAAAATCGAGACGGAGAATCAGTTCCTGCGTCTGCTGTCGAACTCTCCGCTGCAGGTGGACATCCAGTTATTACGTATCGATGCGCGTGAGTCACGTAATACGCCGGCGGAGCATCTGAATAACTTTTACTGCAATTTCGATGAGATCTGCGATCAGAACTTCGACGGCCTGATCGTCACCGGCGCTCCCTTAGGCCTGGTTGAATTTAATGATGTCGCTTACTGGCCGCAGATCAAACAGGTGCTGGAGTGGGCCAAGGATCACGTCACTTCGACGCTGTTCGTCTGTTGGGCGGTTCAGGCCGCGCTGAATATTCTGTACGGCATTCCCAAGCAGACCCGCGCCGAAAAGATTTCTGGCGTTTATGAACACCATATTCTTCATCCACACGCTTTACTGACCCGCGGTTTCGACGACTCTTTCCTGGCCCCACACTCACGCTATGCTGACTTTCCGGCAGGGCTTATCCGGGATTATACCGATCTCGAGATCCTCGCGGAGACGGAAGAGGGCGATGCGTATCTGTTCGCCAGTAAAGATAAGCGTATAGCCTTTGTCACCGGCCACCCCGAGTACGATGCCAATACCCTGGCAAGTGAATATTTCCGCGATGTGGAAGCCGGTTTGAACCCTGAGGTTCCCCACAACTATTTTCCGCAAAACGACCCGCAGAACAAACCGCGCGCCACCTGGCGGAGCCACGGTAATCTGCTGTTCGCTAACTGGCTGAACTATTACGTCTACCAGATTACACCATACGATCTGCGTCATATGAATCCAACGCTGGAGTAA	MPIRVQDELPAVNFLRNENVFVMTTTRATTQEIRPLKVLILNLMPKKIETENQFLRLLSNSPLQVDIQLLRIDARESRNTPAEHLNNFYCNFDEICDQNFDGLIVTGAPLGLVEFNDVAYWPQIKQVLEWAKDHVTSTLFVCWAVQAALNILYGIPKQTRAEKISGVYEHHILHPHALLTRGFDDSFLAPHSRYADFPAGLIRDYTDLEILAETEEGDAYLFASKDKRIAFVTGHPEYDANTLASEYFRDVEAGLNPEVPHNYFPQNDPQNKPRATWRSHGNLLFANWLNYYVYQITPYDLRHMNPTLE				NA	NA	NA	NA	NA
BMS020_04985	462	yjaB	COG0454	Peptidyl-lysine N-acetyltransferase YjaB	ATGGTTATTAGCATCCGCCGTTCCCGGCCTGATGAAGGGGATAAACTGATTGCGATCTGGTGTCGGTCAGTCGACGCCACGCACGATTTTCTGTCAAAAGCGTATCGGAGAGAGCTGGAGGAGCTGGTACGTGCCTTTATACCGGAGGCTCCGCTGTGGGTGGCGGTTAACACGGAGGACCAGCCGATCGCCTTTATGCTGCTGACCGGAGATCATATGGATGCGCTGTTCGTCGATCCGGATGTCCGCGGCTGCGGTGTGGGGAGATTGCTGATCGCGCATGCGCTGTCGTTAACGCCAACACTGACGACCAACGTAAATGAGCAGAATGAACAAGCGGTCGGGTTTTATCGGAGAATGGGTTTCAAAGTGACAGGTCGCTCTGAAACGGACGATCTGGGTCAACCGTATCCGTTATTGAATTTGATACATGAGCAGCAGGCTGAAGCAGACTACGATTGA	MVISIRRSRPDEGDKLIAIWCRSVDATHDFLSKAYRRELEELVRAFIPEAPLWVAVNTEDQPIAFMLLTGDHMDALFVDPDVRGCGVGRLLIAHALSLTPTLTTNVNEQNEQAVGFYRRMGFKVTGRSETDDLGQPYPLLNLIHEQQAEADYD				NA	NA	NA	NA	NA
BMS020_04987	741			hypothetical protein	ATGCTTGGTTTGCACGGGGAAATAGTGCTCCTCAGAACGGGGCCGAATAAAATTGTTCGAAGTCTCAGGCTTGGGCTGACTTCTCCGATGACAGCATGTAGCCAAAAGCCCTCCGTTCCGGGTGCGGATCCGGACCCGTGTCCGGGCCATCGTGCTGGCCGCACACCTTGTCGGCAGAGTGATGCGAAAGACCCACTGGATGTTGAAGGGTTCGTTGCCACCATACACTGGACATGCGCGCGCTCCGATTGGAATTTGGCGACACGGCCTCCGCGACTTGGCAATGCGCTAAGCCGGCTCGAAGCGCATTCCGGTGCCGCTCACTCAATGCTGCCGGCAAAGTTGGAGGTTCGTCCGGGCTGCGCGGACGATGGCGAGATGACCATCAGCCAGTCCCGGGGGCCAGTTCTCGGCGGCATCTTCATCATCCTTGGCTGCGTCTTCGGCATATGGGGCAAGCGTCTCCAGGCACGCGCGATCCAGGCCGTTGTGGTGCTGGGTGACGGCCAGATCATTACGCATATCGCCCTCCTGCTGCCAGGTCAGGGTTTGCCTGCAAAGACCGAAGACCTTCGACAGCGTCGAGAGTGCAGCCTTGTATTTGCTGGCATCGTAAAGATGCTTGAAATGCGCTCGCGCCGCTTCCAGTCCAGGCTCTGTGCAGGTTTCAGGCACCGCCAGATAGTCGCCCGTGATGCCCCCGTTATACCCGCAGAACTCCCTGCACTGGGCCCGACGTAA	MLGLHGEIVLLRTGPNKIVRSLRLGLTSPMTACSQKPSVPGADPDPCPGHRAGRTPCRQSDAKDPLDVEGFVATIHWTCARSDWNLATRPPRLGNALSRLEAHSGAAHSMLPAKLEVRPGCADDGEMTISQSRGPVLGGIFIILGCVFGIWGKRLQARAIQAVVVLGDGQIITHIALLLPGQGLPAKTEDLRQRRECSLVFAGIVKMLEMRSRRFQSRLCAGFRHRQIVARDAPVIPAELPALGPT				NA	NA	NA	NA	NA
BMS020_04988	1101			hypothetical protein	ATGCTCTTCAGTATCTATCCAGGCTTGGAGCCGTCAAGAATTCTCACCGGACTCAACCAGTTGCTCCGGGAAGTCATGGTTGCTGCGCTGTCCGGACGACAGGTTGATGAGCGACAGATGCCACCAGGGCTCTATCAGACTGTTTCCGACAATGAACCTACCGCCCAGAAGATCTTGAATTTTTGGAGCAAGGTTTCCGCACTACCTACAGCCGATAAAACCTCTCTATTAGATGCTCTGAACCAAAACATCCCACCCACCGACTTCCTGGGAAACTGCTCCCTTACTCTAATTTCCATCCCAGATGCGATATTCACAGAATTGAAGCAACTGGCATCCCACATGTACGAGAAAACTGCCGATCTTGCCGGAGTAAAGGCAGCTTGCGGCGAGACCTTGACAGATCACTTTTCGCGCTTTCGGAATATCACCCCTCCAGGGAATGGAAACGTTTGTTGCGTCTGTGGCACCGAATCACTTGCGCAGATGCAGTCAAACCCTGAGGACGGGCAATGGCGCGGGCCCTACGACCACATTCTTCCCAAGGACAAATATCCGATATACGGAATTCATCCGGGAAACCTGATCCCTATCTGCCATACCTGCAATTCAAAAGCAAAGCTGGCAAAGGACCTGCTCTTCAACGGAATGCACAGACGCCAGAGCTTCTGCCACTGGACTGAGGTGGTGCACCCCGATGAAATCCAGGTTGAAATTTCCTCTGACAGCGGCTTCCCGCACATGGTAGTCAGCCTCCAAAGCGCATGCCCATCCCGGAACGAAAAGCTGCAAACCTGGGACGCTATCTACAAGATTCGGGCTCGTGTGGAAGGGGAGTTCTTGCCCCTGTTCGAGAAGATTTCTGAAGATATCCCAGTCCAAACAGAGGCGATTTTTCTCGAAGGGCTTAGCCGCAACGCCGAAGCCAAAGCCCGCAGGAGCAGACTTACTCCGTTCAATTATTGGCGAGCGCGCCTTTACAGGGCAGTGATCGAGATGGATTGCGGCGCGCGTGAAGCACTCCGCGAGGCGATAGAGAGCGAGACTCCAGCCGATGATGTGATGAATGCGCTATTTTTCTCCCCCCTAGTGATGATCTGA	MLFSIYPGLEPSRILTGLNQLLREVMVAALSGRQVDERQMPPGLYQTVSDNEPTAQKILNFWSKVSALPTADKTSLLDALNQNIPPTDFLGNCSLTLISIPDAIFTELKQLASHMYEKTADLAGVKAACGETLTDHFSRFRNITPPGNGNVCCVCGTESLAQMQSNPEDGQWRGPYDHILPKDKYPIYGIHPGNLIPICHTCNSKAKLAKDLLFNGMHRRQSFCHWTEVVHPDEIQVEISSDSGFPHMVVSLQSACPSRNEKLQTWDAIYKIRARVEGEFLPLFEKISEDIPVQTEAIFLEGLSRNAEAKARRSRLTPFNYWRARLYRAVIEMDCGAREALREAIESETPADDVMNALFFSPLVMI				NA	NA	NA	NA	NA
BMS020_04989	1671			hypothetical protein	GTGAAACTGATCCGTCTTGAGCTCATCGGCACCTATAAAGGCCTTAAGGACCAAACATTCGATTTTTCATCAGCTCGTGATGACGTCAGTGTCCTGATTGGCCCCAACGGCTCGGGAAAATCTCAGGTGATGGAGCTTATCGCCGAGATCTTTGCCTATCTCGAGCGCCGCCAGCGGCCTGAATTCAAGGTCAGAGACAGCCTTGGGTTCACGTTCCGCATCACTTACGAGCTGACCTCACCGCAAATCGAAGCGCCGAATCGTTATGTGATCGACACCAGCGAGGGCCTAAAAATCAGGATCCTTCGCAAATTGCGCGCGAACTCGCCAGGTGCAGCTGACCAAGTCAGATGGGAAACGATCAACGAAGTAGTGAACCTCAATGAGGTTCGACTACCCCGTGTTGTCGGATACGCCTCTGGCTTATCAGAGAATCTACAGCGCCCGTTCCTGAAAAATGTCGTTCAGTTCCATGACGTCATCCGGGTCCGCTCAAGGCGTCAGGACGAGCTGAATTTGGCTGCCTCGACATCGCGCAGCAGCGATGCAATTGAGGAAAAATACCTGAAGCGACATCCGGGAATATTCGCACTCAATGAAGAAGCAATAAGTGCAGACATCTTCACCTTGGATGATAGGGACACACCCGCGCCGAGAAGTATTTTTCTGGACTACGACTGCGCCTCGCTGCTGATCATGGTTCTCGGAATGTTAGACAACAATCGGCGCAATAAGATCTGGAGCGAAATTCCATTCTGCCACCCTCAAAGGGCAATTCTCCACTACGATCTCCGAGGCCATTCTGCCGCTAAAGATGCAGCGAGTGATATTAAGCGACTCATCGAAATAGCGGGAAAAAAAAAACTGACGCCGCGATCCCCCCGATCCTCGGACGTGCAGTACGAGCGTTACCAGCTTGATCATCTGGCTGCGGACATTGAAATTGACTACGCGGATCCGCTGGTTCAACGGCGGTTTCAGGAGAGCCATCGAGATCCCGCCGCGTGGTTCCTCTCGCTCTACAAGATACAACTGCTCGGCGTTGCGGAATGGCATTCAGAAATGAAAAGGGAGCTGCGCCACGACAACTTTCAGGGGCACGTCAAAAAGCCACTCAAAGGGAAACTACCGCTATCCGTGACCGCGTTATGGATGACCGATGGCGAGCATAGAGTGTCCGTGGACGATCTCAGCGACGGCGAGCTTCAGCTATTGCTGACACTGGGCGCTGTCTTGCTGCTGGGCGATGACGAAACACTGTTCTTGTTCGATGAGCCCGAGACGCATCTGAATCCGAGCTGGCGAACCCGATTCCACTCGGACTTCCGCAACGCCAATCGCGAATCGGGCTCTTCACAAGCACTGATCTCTTCCCACTCACCCTTCCTGGTCTCGTCACTGCCTCGGGAGTCGGTTTTTCATTTCCAGAGGTCCGACGGTGCAACGACGATGGACCTGCCTGCGAGCGAGACGTTCGGCGCATCATTCGACGCACTGATCAAGAAACACTTCGATCTGAAAGCAGCGATTTCTGATACGGCCATATCGGAAATCCGCTCCAAACTAGATAGCTCACAAATGAGTACGCCACAGAAAATAGCCTGGCTTAGAGAATCGCTAGGTGATTCGATGGAACGCTCCTATCTGATCAAACGGCTGGAATCCGAGTAA	MKLIRLELIGTYKGLKDQTFDFSSARDDVSVLIGPNGSGKSQVMELIAEIFAYLERRQRPEFKVRDSLGFTFRITYELTSPQIEAPNRYVIDTSEGLKIRILRKLRANSPGAADQVRWETINEVVNLNEVRLPRVVGYASGLSENLQRPFLKNVVQFHDVIRVRSRRQDELNLAASTSRSSDAIEEKYLKRHPGIFALNEEAISADIFTLDDRDTPAPRSIFLDYDCASLLIMVLGMLDNNRRNKIWSEIPFCHPQRAILHYDLRGHSAAKDAASDIKRLIEIAGKKKLTPRSPRSSDVQYERYQLDHLAADIEIDYADPLVQRRFQESHRDPAAWFLSLYKIQLLGVAEWHSEMKRELRHDNFQGHVKKPLKGKLPLSVTALWMTDGEHRVSVDDLSDGELQLLLTLGAVLLLGDDETLFLFDEPETHLNPSWRTRFHSDFRNANRESGSSQALISSHSPFLVSSLPRESVFHFQRSDGATTMDLPASETFGASFDALIKKHFDLKAAISDTAISEIRSKLDSSQMSTPQKIAWLRESLGDSMERSYLIKRLESE				NA	NA	NA	NA	NA
BMS020_04990	1332			hypothetical protein	GTGAGTGAGTTGCCGGAGGGGTGGCTTGAGCTCAAGCTCGGCGATGTTGTCGACTACGCGGACAACACGACCGTGCAGCCGAATGCGATGCAAGAGGACGCATGGCTGCTCGAACTCGAAGACATCGAGCGCGACTCATCACGCATCCTCACGTACGAAACGGTCGGTGAGCGAAAGCCACAAAGCGCCAAAAACCGCTTCCAAGCGGGCGACGTACTTTACGGAAAGCTCCGCCCGTATCTCAACAAGGTGGTTCGCGCGGACCGCAACGGATACAGCTCAAGCGAAATCATCGCCATCAAGCCCAATCAGCTCGACGGCGGCTATCTCTTTCACTACCTCAAATCACCGCGTTTCCTTGACTACGTAAAGGCAGTGACGCATGGCGTGAGAATGCCGCGCCTCGGAACAGAACAAGCAAAAGCTGCCCCGTTTCTACTGCCGCCGCTCGCAGAGCAAAAGCGCATCGCGCAGAAGCTGGATACGCTGCTGGCCCAGGTCGACACCCTCAAGGCCCGCATCGACGCCATCCCCGCCATGCTCAAGCGCTTCAGACAGTCCACACTCGCTGCGGCCTTTTCAGCTCGCCTAACGGGAGACGGCAACGCCCCCGCTGAAGCTGATCATTGGCAGGAAGTGAAATTTTCATCGGTAATCGAGGACCTGAGGTACGGCACCGCGCAGAAGTGCGACTATAACGGTGGCACTACTGGCGTACTTAGAATCCCCAACATTGGCGATAAGGGGATCGTTCTTAACGACATGAAGTCTTCCGATTTTTCAGAAGCCGAGATCAAGAAGCTTGAGCTCAGGAAGGGGGATATCGTCCTGATTCGCTCGAACGGAAGCGTAGAGCTAGTTGGAAAGTCCGCTGTTGTATCCGAAAAAGAACAGGGCCTTCTATTTGCTGGATACTTAATCCGCGTTCGCCTTGACCAACAGAAATCCAGCCCAGAATTTGTCAATTATTGGCTCAAATCTCCTGCGATTCGCCAAGTAATCGAGCAGATCGCCAGATCCACAAGCGGCGTCAACAACATCAATAGCGACGAAATAAAATCGCTGAAATTCACCTTTCCCTCGCTTTCCGCCCAAACCGAGATCGTCCGCCGCGTCGAACAGCTCTTCGCCTACGCCGACCAACTGGAAGCCAAGGTCGCCGCTGCACAGCAGCGCATCGACGCGCTGACCCAGAGCCTGCTCGCCAAGGCCTTCCGCGGCGAACTGGTGCCACAGGACCCCACCGACGAACCGGCCAGCGTGCTGCTGGACCGCATCCGCGCCCAGCGCGCCGCCGCACCCAAACCCAAGCGCGGCCGCAGCAAAGCCTGA	MSELPEGWLELKLGDVVDYADNTTVQPNAMQEDAWLLELEDIERDSSRILTYETVGERKPQSAKNRFQAGDVLYGKLRPYLNKVVRADRNGYSSSEIIAIKPNQLDGGYLFHYLKSPRFLDYVKAVTHGVRMPRLGTEQAKAAPFLLPPLAEQKRIAQKLDTLLAQVDTLKARIDAIPAMLKRFRQSTLAAAFSARLTGDGNAPAEADHWQEVKFSSVIEDLRYGTAQKCDYNGGTTGVLRIPNIGDKGIVLNDMKSSDFSEAEIKKLELRKGDIVLIRSNGSVELVGKSAVVSEKEQGLLFAGYLIRVRLDQQKSSPEFVNYWLKSPAIRQVIEQIARSTSGVNNINSDEIKSLKFTFPSLSAQTEIVRRVEQLFAYADQLEAKVAAAQQRIDALTQSLLAKAFRGELVPQDPTDEPASVLLDRIRAQRAAAPKPKRGRSKA	PGPT0027175_620	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027175-hsdS-K01154	NA	NA
BMS020_04991	1539	hsdM	COG0286	Type I restriction enzyme EcoKI M protein	ATGACCAACAACGACATCGTCCAGAAACTCTGGAACCTCTGCGACGTCCTGCGCGACGACGGCATCAACTACAGCGACTACGTCACCGAGCTGGTGCTGCTGCTGTTCGTCAAGATGGAATACGAGCAGGTGCAGAACAACGACAATTTCGAGCACAAGCTGCCCGCCGGCAGCCGCTGGCCCGATCTCAACGGCAAGTCCGGCCTCAACCTGCTCAACCACTACCGGCAGATGCTGCTGGACCTGGGCAAGAGCAGCGATCCGATGATCGCCGCCATCTACGCCGATGCGCAGACCCGCCTCAAGGAACCGCGCCATCTGGAAACCCTGGTCACCGCGCTCGACGGGCTGGACTGGTTCAGCGCGCGCGAGGACGGCCTGGGCGACCTCTACGAAGGCCTGCTGCAGAAGAACGCCAACGAGACCAAATCCGGCGCTGGCCAGTACTTCACCCCGCGCCCGCTGATCGACGCCATCATCCGCTGCCTGCAGCCGCAGCCCGGCGAAACCCTGCAGGATCCGGCCGCCGGTACCGCCGGCTTTCTGATCGCCGCCGATGCCTACATCAAGGCCAACACCGACGATCTGTACACGCTGGACGACAAGGCGCGCCGCTTCCAGCAGCACAAGGCCTACACGGGCATGGAGCTGGTGCCCGGCACCCGCCGCCTGGCGCTGATGAACTGCCTGCTGCACGGCATGTCCGGCGAAGGCGCCGGCGTCATCCAGCTCGGCAACAGCCTCGGCAATGCCGGCGCGGCGCTGCCCAAGGTGGACATCATCCTGTCCAACCCGCCGTTCGGCACCGCCAAGGGCGGCGGCGGCCCCACCCGTGACGATCTCACCTACAAGACCAGCAACAAGCAGCTGGCCTTTCTGCAGCACATCTACCGTGGGCTCAAGCCCGGTGGCCGCGCCGCCGTGGTGCTGCCGGACAACGTGCTGTTCGAAGCCGGCGTCGGCACCGAGATCCGCCGCGACCTGATGGACAAGTGCACCCTGCACACCCTGCTGCGCCTGCCCACCGGCATCTTCTACGCACAGGGCGTCAAGACCAATGTGCTGTTCTTCCAGAAGGGCACTGCCGCCAACCCGCGCCAGGACACCGGCTGCTCCCAGGCCACCTGGGTCTACGACCTGCGCAGCAACATGCCCAGCTTCGGCAAGCGCACCCCGTTTGGCCCAGGCCATCTCAAACCGTTCGAGGATGCCTACGGTGCCGACCCCAACGGCGCCAGCCCGCGCACCGATGAAGGCGAGGACGGTCGTTTCCGCTGCTTCACCCGCGCGCAGATCGCCGAGCGCGGCGATTCGCTGGATATCAGCTGGCTCAAGGATGCCGACAGCGTCGATGCCGACAGCCTGCCCGCACCGGAAGTACTGGCCGCCGAAGCCATGGCCGAACTCAGCGAGGCGCTGCGCGAACTCGACGCGCTGATGCAGGCGCTGGGTGCTGGCGATGAAGCGCTGGAACAGAAGCGGCTGCTGGCCGAGGTGATGGGACTGGAAGTGACCAGCGGCGAGGTGGAAGGTGAGTGA	MTNNDIVQKLWNLCDVLRDDGINYSDYVTELVLLLFVKMEYEQVQNNDNFEHKLPAGSRWPDLNGKSGLNLLNHYRQMLLDLGKSSDPMIAAIYADAQTRLKEPRHLETLVTALDGLDWFSAREDGLGDLYEGLLQKNANETKSGAGQYFTPRPLIDAIIRCLQPQPGETLQDPAAGTAGFLIAADAYIKANTDDLYTLDDKARRFQQHKAYTGMELVPGTRRLALMNCLLHGMSGEGAGVIQLGNSLGNAGAALPKVDIILSNPPFGTAKGGGGPTRDDLTYKTSNKQLAFLQHIYRGLKPGGRAAVVLPDNVLFEAGVGTEIRRDLMDKCTLHTLLRLPTGIFYAQGVKTNVLFFQKGTAANPRQDTGCSQATWVYDLRSNMPSFGKRTPFGPGHLKPFEDAYGADPNGASPRTDEGEDGRFRCFTRAQIAERGDSLDISWLKDADSVDADSLPAPEVLAAEAMAELSEALRELDALMQALGAGDEALEQKRLLAEVMGLEVTSGEVEGE	PGPT0027180_4067	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027180-hsdM-K03427	NA	NA
BMS020_04992	999			hypothetical protein	ATGAGAACGTTCGACAAGGCGGCCATTCCGGTCGACGCGCAGCTTGACCTGCTCGCCGAACGCGGCCTGTCGATTCAAGACCGCGAGCGCGCGAAGAAATTTCTCGAAGTCGTCAGCTACTTCCGCCTTAGCGCCTACATGCGTCCATTCCAGACGCATGGCCATACATTCGTCGCGGGGGCACGCTTCCAGCAGGTCACACAGCTCTATGTCTTCGACCAGCGGTTACGGCTGCTGGTGATGGAAGCAATCGAACGTGTGGAGGTCGCGATGCGTGCACTCCTTGGCAACCACATGGGGCCCACCCACGGGGCGCACTGGTATTTGCAACGCGATCTGTTCAAGGACAGGTATCGCCACGAAAAACTGCTGGAGAGCATTCAGAAACGCCAGAACGATGCATTGCGTGACTACCAGCGCGAATCCCAGCAGATTGACCGATCGAACGCATCCGCAAGCAGAAAATCCGAGCTCAAGCGCCGCCGTGCAATCGAGAACTATGCCCGTCACTACGCTTTGAATTACAACACCCCGCCGCTGATGCCCGGCTGGGCTGCACTGGAAGAACTGACGCTCGGCGAACTGTCTCATCTCTATCAGGGCCTCGCCCGGGATATCGATCGCAAGCAGATCGCGCGGGCATTGGGCCTACATGCGCCGCTGCTGGAATCGTGGCTGCATGCCCTGACATCGATCCGGAACATCTGCGCCCACCACAGCCGGCTCTGGAATCGCGAACTGGGCATCCGGCCGACGCTTCCCGCAGCGCCGGATTTCGCCTGGCCGCATCATCTGCTGCAACCCGGTGACCACGCACGCATGTTCCCGGTGCTGTGCATCCTGGCGCTCCTGTTGCGACAGGTCAGCCCCGATACCCACTGGGACCGGCGCCTGCTCGATCATCTGAACGGATTCCGGCAGCTCGACACACGACAGATGGGCTTCCAAGAGAACTGGCAGACCGACCCGTTCTGGCCGCAAGCCATCCCTCACCCGTGA	MRTFDKAAIPVDAQLDLLAERGLSIQDRERAKKFLEVVSYFRLSAYMRPFQTHGHTFVAGARFQQVTQLYVFDQRLRLLVMEAIERVEVAMRALLGNHMGPTHGAHWYLQRDLFKDRYRHEKLLESIQKRQNDALRDYQRESQQIDRSNASASRKSELKRRRAIENYARHYALNYNTPPLMPGWAALEELTLGELSHLYQGLARDIDRKQIARALGLHAPLLESWLHALTSIRNICAHHSRLWNRELGIRPTLPAAPDFAWPHHLLQPGDHARMFPVLCILALLLRQVSPDTHWDRRLLDHLNGFRQLDTRQMGFQENWQTDPFWPQAIPHP				NA	NA	NA	NA	NA
BMS020_04993	3528			hypothetical protein	ATGATGGTCGCTGCGAGATACCACCCCGCCGGGCGCCCCTGTACGGATACGCGTGTGACTGTCGACAGCAACTTCTCTTTCCTGCAAGAACACGACCCGGTGTTCTTCAAACTGGCGTCGATGGCCGAGCAGGTCTTTGCCAGCGACCCCAATACCACCCTGATCAAGCTCCGGCAGTTCGGTGAAGCGCTTGCCCAAGATCTTGCCGGACGCGCCGGCATCATCCACGACCAGCGCACGACCCAGGTGGATCTGATCTACCAACTCGCGCGCGAGTTGCGTTTGGACCGGCGAATCCAGGAGCTGTTCCACGTGCTACGAGTCGAGGGCAACAAGGCGACCCATGGCTTCACCACGCAGTACCGAGAAGCGATGGATGGCCTGAAGGTCGCCCGCGACCTGGCGGTCTGGTACCACCGGGCCTTCGGCAGGAACGCCGCCGAATTCAACGCCGGTGCTTTCATCCCGCCGAAGGATCCAGCTACGCCGTTGCGTGAAGTGCAGGCCGAGGTCAATCGCCTGAAAGCAGAGCTGGATACCGCCCGCCAGCAGCACGACCAGAGCCAGGCGCTCGCCGAGTTGAAGCAAGAGGAGGCCAAGCTCAACGCCGAGCTCGCCGAAGCGATGGACGTCGAAGCGCGTGCGCAGTCGGCGCTGGCAACCCAACGCGAACAGGAACTGCAACAGCTTCGCCAGGATTTCGAACAACGCATCGCCAGCCTGCAACAATCGGATACCACCCGCCAGGCCGCCACCCAACAGGTCGCCGGCGCCACCCAGCAGGCCAGCAGTAACTTCGACCTCAGCGAAGACCTCACCCGCATCCTGATCGACCAGCAGCTGCGCGAAGCCGGCTGGGAAGCCGATTCGCTCGATCTGACCCACGCCAACGGCACCCGCCCGGAAAAAGGCCGCAACCTTGCCATCGCCGAGTGGCCCACCAAGGTGCCGCGCGCCAACGCCGACTACGTGCTGTTCGCCGGCCTCACGCCGGTCGCCATCGTCGAGGCCAAGCGCAAGCGCATCAACATCGCCGACCGGATTCCCCAGGCCGAGCGCTACGCACGCGACTTCGTGATGAGCGGCGAGCTGGCACCGGCCTACCCGATCGCCACCTCGATCACAGGCTGGGCCGATGGCGAGGGCGGCCATTTCCAGGTGCCGCTGGCATTCGCCTGCAACAGCCGTCCTTATGTGAAACAGCTGGCCGAGCAATCGGGCATCTGGTTCCGCGATCTTCGCTCACCGGCCAATCTGCGGCGCCCGCTGCAGATGTTCCACACCCCCGACGACATCGCCGATCTGCTGACCCGCGATCGCGACCAGGCCGAGCGCAATCTCGCCAACGAAGGCATGGCCTACCTCAACCTGCGCGACTACCAGCAGCGCGCGATCCAGGCAGTGGAAGACGCCCTGGCATCGGGCTCACGCAACTGCCTGCTGGCGATGGCCACCGGCACTGGCAAGACGCGCACGATGATTGGCCTGATCTACCGCCTGCTCAAGGCCGAGCGTTTCCGCCGGATCCTGTTCCTGGTCGACCGCTCCGCACTAGGCACCCAGGCCACCGAGTCGATGCACGACATGCAGCTGGAGCAGAACCAGACGCTGGCGCAGATCTACAACCTTGATGGCCTGGACGACACCCGCACCGCTGATGAGACCCGCGTACAGGTCGCCACCGTGCAGGCGATGGTCCGGCGCATCTTTCAGTCCGATGGCCCACCGCCGATCGGCACCTTCGACTGCATCGTCGTCGACGAGGCCCACCGCGGCTACACGCTCGACCAGGAAATGACCGAAGGCGAACTGGCCGTGCGCGACCACGCGCAGTACCTGTCGCAATACCGGCGTGTGCTCGACTACTTCGATGCCTGCCGCATCGGCCTGACCGCCACCCCGGCCAAGCACACCACCGAGATCTTCGGCAAACCGATCTACACCTACAGCTACCGCGAAGCGGTGGCCGATGACTGGCTCATCGACCACGAGCCGCCCATCCGCTACACCACCGAGCTCGGCCAGAACGGCATCCACTTCGATCGCGGCGAGCGCGTCAGCGTAATCAACACGCAGACCGGCGAAGTCGATACCGCCGACCTGGAAGACGAGCTCGACTTCAACATCGAGTCGTTCAACCGGCGCGTGATCACCGCCGACTTCGACCGCGTTGTCTGCGAGGCACTGGCCCGGGAACTCGCGCCGGACGGCGAGGAGAAAACCCTGATCTTCTGCGTCAGCCAGTCCCACGCCGAACGCGTCAAGAACCAGCTGGACGAGGCCTTCAAACAAGTCCATGGCGATCTCTACAACCAGGCCAGCGTGGCGGTGATCACCGGCAAGAGCGACAAGGTCGACCAGCTGATCCGCAACTACAAGAACGAGCGTTACCCCAATGTCGCCGTCACCGTCGACCTGCTGACCACCGGCATCGATGTGCCGCGCATCGCCAACCTGGTGTTCATGCGCCGCGTTCGCTCGCGCATCCTCTACGAACAGATGAAGGGCCGCGCCACCCGCCGCTGCGACGACATCGGCAAGACCGTGTTCCGCATCTTCGATCCGGTCGATCTGTACGCCGCGCTCGAAGACGTCGACACCATGCGCCCGCTGGTCAAGGACCCCAACATCAGCATCGAGCAGCTGGTCCACGAACTCGGCCAGCAGCGTAGCTTCGATGCGCCCGGCAGCAACGGCGGCAGTCATGCCGACGACGCGCTCGACCAGTTGAATCAGCGCATCATGCGCGTGCTGCGCAAGGCCCAGCATCGCGCCGAGCAGCGCCCGGATCTGCGCGACAAGCTCAGCGAGCTGGAAACCTCCTGGGGCGTGCCACCCGCCGAGCTGCATACCCACCTGCACAAGCTCGGTGCGCGCAATGCCGCCAGCTTCCTCGGCGAGCACCCGCGTCTGGTGGAGCAACTGGCCGAAGTCGGCGTGCTGCTGGGCACGGACCGCTATCCGGTCATTTCCGAACACAGAGACACCCTGATCGAACGCGCCCAGAACTACGGCGTCAACGAAAAACCCGCCGACTACCTCGACAGCTTCAACACCTTTATCCGCGAGCAGATCAACCAGTCCGTCGCGCTCAGCGTCATCGTCAACCGCCCCCGCGACCTCACCCGCGCCCAACTGCGCGAAGTGCGCTTGCTGCTCGACCAGCACGGCTACAGCGAGGCCCACCTGCGCGGCGCATGGCGCGACAGCACCCAGCAGGAGGTCGCCGCCAGCATCATCGGCTACATCCGTCGCGCCGCCCTGGGCGAGGCATTGGTGCCGTTCGAGCAGCGAGTCGACAAGGCCATGCAGAGCATCTACGCCCAGCGCAGCTGGACGCCAGTGCAACGACGCTGGCTCAAGCGGCTGGCCCAGCAACTGGTACACGAGGTGGTGATGGACCGCGACACCGTGCAGCGCAATTTCGGCAACGACGGCGGCGCCCCGCAGCTGGACCGCCTGCTCGACGGCCGGCTGGACCAGATCCTCGACGATCTGGGCGACCATCTCTGGGACCAGACGGGCTGA	MMVAARYHPAGRPCTDTRVTVDSNFSFLQEHDPVFFKLASMAEQVFASDPNTTLIKLRQFGEALAQDLAGRAGIIHDQRTTQVDLIYQLARELRLDRRIQELFHVLRVEGNKATHGFTTQYREAMDGLKVARDLAVWYHRAFGRNAAEFNAGAFIPPKDPATPLREVQAEVNRLKAELDTARQQHDQSQALAELKQEEAKLNAELAEAMDVEARAQSALATQREQELQQLRQDFEQRIASLQQSDTTRQAATQQVAGATQQASSNFDLSEDLTRILIDQQLREAGWEADSLDLTHANGTRPEKGRNLAIAEWPTKVPRANADYVLFAGLTPVAIVEAKRKRINIADRIPQAERYARDFVMSGELAPAYPIATSITGWADGEGGHFQVPLAFACNSRPYVKQLAEQSGIWFRDLRSPANLRRPLQMFHTPDDIADLLTRDRDQAERNLANEGMAYLNLRDYQQRAIQAVEDALASGSRNCLLAMATGTGKTRTMIGLIYRLLKAERFRRILFLVDRSALGTQATESMHDMQLEQNQTLAQIYNLDGLDDTRTADETRVQVATVQAMVRRIFQSDGPPPIGTFDCIVVDEAHRGYTLDQEMTEGELAVRDHAQYLSQYRRVLDYFDACRIGLTATPAKHTTEIFGKPIYTYSYREAVADDWLIDHEPPIRYTTELGQNGIHFDRGERVSVINTQTGEVDTADLEDELDFNIESFNRRVITADFDRVVCEALARELAPDGEEKTLIFCVSQSHAERVKNQLDEAFKQVHGDLYNQASVAVITGKSDKVDQLIRNYKNERYPNVAVTVDLLTTGIDVPRIANLVFMRRVRSRILYEQMKGRATRRCDDIGKTVFRIFDPVDLYAALEDVDTMRPLVKDPNISIEQLVHELGQQRSFDAPGSNGGSHADDALDQLNQRIMRVLRKAQHRAEQRPDLRDKLSELETSWGVPPAELHTHLHKLGARNAASFLGEHPRLVEQLAEVGVLLGTDRYPVISEHRDTLIERAQNYGVNEKPADYLDSFNTFIREQINQSVALSVIVNRPRDLTRAQLREVRLLLDQHGYSEAHLRGAWRDSTQQEVAASIIGYIRRAALGEALVPFEQRVDKAMQSIYAQRSWTPVQRRWLKRLAQQLVHEVVMDRDTVQRNFGNDGGAPQLDRLLDGRLDQILDDLGDHLWDQTG	PGPT0027170_158	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027170-hsdR-K01153	NA	NA
BMS020_04995	300			hypothetical protein	ATGTCGACACAGAGCACGGATCATCTGCAACAGTTGGGCTACGTCCTGCCCGAAGAAAGTCATCTGCAGTTGCGCAGGCTGGGAAGCTTCATTCAGCTACTCGCACGGCTGGCGCAGCCGCGGACGCGGGCGGAGGAGTTGATCGAGCCACCTGAGTTGGATATGGACGCGCTGGCGTTTGGCCTGGAATTGCTGGCCGGGCAGGTGGAGCAGGTGGCGGGCAGCGCCGCGTGGTCGCGCGTGATCGTGATGCCGATACGCGGCGGTGCGGTGGATGCCGCCATGGGCGAGGAGCGCTGA	MSTQSTDHLQQLGYVLPEESHLQLRRLGSFIQLLARLAQPRTRAEELIEPPELDMDALAFGLELLAGQVEQVAGSAAWSRVIVMPIRGGAVDAAMGEER				NA	NA	NA	NA	NA
BMS020_04996	231			hypothetical protein	ATGGCCCGTCCTTCGCTGGTGTATGGCGTGACCGTCGAGCAGATCGATGCGTTGGGATTGCTGCTGCAGGCGATCAGTGCTTATGGCGATGCCATCGCGATCAGTGGCCGGCCGATGCACGAACGCAGCCTGCCCACGCTGGGTGAAGCGATCTTCGATGCCGCGTGCGAGGTGTGCGGCATTCTCGATCGGGTTGGCGAACAGCGCCTGGATCGCGCCAAGCCGGATTGA	MARPSLVYGVTVEQIDALGLLLQAISAYGDAIAISGRPMHERSLPTLGEAIFDAACEVCGILDRVGEQRLDRAKPD				NA	NA	NA	NA	NA
BMS020_04997	930	dmlR_24		HTH-type transcriptional regulator DmlR	ATGCAGCTCAAGGCCCTGCGCTACTTCCTCACCGTCGCCGCCACCGGCAGCTTCCTGGCGACCGCGCGCCACTACCGGGTGCCGGCCTCGTCGGTGTCGCGCTTCATCGCCGCGCTCGAACAGGAGCTGGGCCAGCAGCTGTTCTATCGCAGCACCCGCGCGGTGCGGCTCACCGAGGCCGGCGAGCAGTTCCACCTGCAGGTGCGCGACGCGATCGAGCTGCTCGACCAGGCCGCCGAACAGATGGAGCGCAGCGACGCCGACATCCGCGGCATCATCCGCATCAACGCACCCGAATCACTCGGCCGCCTGCATATCGCCCCCAGCGTCAACGCGCTGCAGGCCAAGCACCCGGACCTGATCGTCGAACTGATCCTCACCGACAGCTTGATCGACCCGGTGCAGGACGGCGTGGACATCACCATCCGCATCGGCCCGCTGGTCGATTCCGGACTGATCGGCCGGGTGATCGCCCCGCAGCGCAACCTGGTCGCGGCCAGCCCCGACTACCTCGCCCGCCACGGCACGCCACAGCGCCCGGACGAGCTGCTGCAGCATTGCTGCCTGATCTACAAGGGCCAGCTCGGCACCCAGCGCTGGCACTATCGCGCCACCGGCGAGCAGCCGTTCAAGGCGCTGACCGTCACCGGCCCGCTGTGCAGCAACAACGCCGAAGCGCTGCTGGCCGCCGCCATCGCCGGCCACGGCGTGGTGCTGTTCCCGACCTGGCTGATCAACGCCGACATGCTGCGCAGTGGCACGCTGGTGAACCTGCTCGGCGACTGGGAATTCTCCACCCAACCCGAACCGATCCACCTGCAGATGCTCTCGCCGGAAAACAAGCTGCGCTCGCGCAAGGTGCGCGAAGTGTCCACGTTCCTGCTGCAAGCGATCGGCGATCCGCCGTATTGGGATCGAGCCGAGGGCTGA	MQLKALRYFLTVAATGSFLATARHYRVPASSVSRFIAALEQELGQQLFYRSTRAVRLTEAGEQFHLQVRDAIELLDQAAEQMERSDADIRGIIRINAPESLGRLHIAPSVNALQAKHPDLIVELILTDSLIDPVQDGVDITIRIGPLVDSGLIGRVIAPQRNLVAASPDYLARHGTPQRPDELLQHCCLIYKGQLGTQRWHYRATGEQPFKALTVTGPLCSNNAEALLAAAIAGHGVVLFPTWLINADMLRSGTLVNLLGDWEFSTQPEPIHLQMLSPENKLRSRKVREVSTFLLQAIGDPPYWDRAEG				NA	NA	NA	NA	NA
BMS020_04998	1158	nemA_2	COG1902	N-ethylmaleimide reductase	ATGAGCCGTTTGTTTGAACCGTTCGACCTTGCTGGACTGAGCCTGCGCAACCGCGTGGTGATGGCGCCGTTGACCCGCGCCCGCGCGCCGCACGACGCTGCCGACGAGCGCACCGCGCTGTACTACGCGCAGCGCGCCAGCGCCGGGCTGATCGTCAGCGAGGGCACGCCGATTTCGCGCCAGGGCCAGGGCTATCTGTTCAACCCGGGCATGTTCACCGCCGAGCAGATCGCCGGCTGGCAGCTGACCACCAGCTCGGTGCGCGCCAATGGCGGGCGGATGTTCGCGCAGTTGTGGCATGTCGGCCGCGTCTCGCACCCGACGATCCAGGCCAATGGCGAGCTGCCGGTCAGCGCCAGCTCCAGGCAGGCGGTTGGCGCGCAGGCGTTCGGCTACGACGCGCACGGCACGCCGGCGCTGATCGAGACGCCGGCGCCGCGGCAGCTGGCCACCGATGAGATCGCGGGCATCGTCGAGGCGTTCGCGCAGGCCGCGGCCAATGCGATCGAGGCTGGCTTCGATGGCGTGGAAATCCACGGCGCCAACGGCTACCTGCACGAGCAGTTCCTCAATCCGCTGGTCAACGACCGCGACGACCAGTACTCGGCACAGTCGCTGGAAAACCGCCTGCGTTTCACCCTGGAGGTGATCGATGCGGTGGTCGCGCGGATCGGTGCCTCGCGCACCGCGATCCGGCTGTCGCCGTACGGGCAGCTGTTCGACATGCCGCTGTATCCGCAGATCGATGAGACCTACACCGCGTTGGTCGCGCAGATCGGGCAGCGCAAGCTGGCCTATGTGCACCTGATGGACCAGTCCGGCTACAGAATGGGCGAGGTGTCGATCGATGGCGCTGGCGATACCGGCTTCGTCGGCCTGCTGCGCGGCCTCAAGCCGCTGCTGCCGCACACCGCGCTGATCCTGGCCGGTGGCCTGACCCGCGCGCGTGCCGAGCAGCTGATCGATGCCGGCCTGATCGATCTGGCCGCGTTCGGCGTGGCCTTCATCAGCAACCCGGATCTGGTCGCGCGTTTGCAGCACGGCTGGCCGCTGGCGGAGGCGGACCGCAGCAGGTTCTATGGCGGTGGCGGCGAGGGCTATATCGATTACCCGGCATATCGGCCGACGATGCAGGACACGTCAGTCGCCACTGCATAA	MSRLFEPFDLAGLSLRNRVVMAPLTRARAPHDAADERTALYYAQRASAGLIVSEGTPISRQGQGYLFNPGMFTAEQIAGWQLTTSSVRANGGRMFAQLWHVGRVSHPTIQANGELPVSASSRQAVGAQAFGYDAHGTPALIETPAPRQLATDEIAGIVEAFAQAAANAIEAGFDGVEIHGANGYLHEQFLNPLVNDRDDQYSAQSLENRLRFTLEVIDAVVARIGASRTAIRLSPYGQLFDMPLYPQIDETYTALVAQIGQRKLAYVHLMDQSGYRMGEVSIDGAGDTGFVGLLRGLKPLLPHTALILAGGLTRARAEQLIDAGLIDLAAFGVAFISNPDLVARLQHGWPLAEADRSRFYGGGGEGYIDYPAYRPTMQDTSVATA	PGPT0005930_232	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_TOLULENE|DERIVATE_DEGRADATION	XENOBIOTIC_NITROTOLULENE_DEGRADATION,PGPT0005930-nemA-K10680	NA	NA
BMS020_04999	549			hypothetical protein	ATGAAGAAGAGCTTGACCCTGGCAGCGGCGATCGCCCTGTCCACCCTCTCGGCCAATGCGATGGCCGGCCACGCCTTCGTGCGCGCCGAAGCCGGCAGCAGCGACACCGAGGCCCGCGTCGACGGCTACCGCGGCAGCGAGACCGACAGCACCGGCAGCATCGGCGGCGGCTACTGGTTCACCCCGAACGTTGGCGTGGAAGGCCACGTCGGTTCGCTGTACAGCGAATACCTCGGCTACGACCGCGACTTCGACCTGGTGTCCATCGGCGCCGGCGTGGTGGTGAAGAAGAATTTCGGCGCCGACAACACCGGCTTCTTCGTCGGTGCCCGCGCCGGCATCGCGCGCATGACCGCGCAGGTGCGCGAGGACGATTTCGACGTCACCGACGACGAGAGCTCGACCAAGGCGTATTTCGGCGTCAACGCCGGCTACGACTTCAGCCAGCGCTGGGGCCTGAGCCTGAACTACACCCGCTACAAGGGCGAGTTCAGCGGCGTCCACGTCGACGTGGACACCGTGACCTTCGGCGGCGAATACCGCTTCTGA	MKKSLTLAAAIALSTLSANAMAGHAFVRAEAGSSDTEARVDGYRGSETDSTGSIGGGYWFTPNVGVEGHVGSLYSEYLGYDRDFDLVSIGAGVVVKKNFGADNTGFFVGARAGIARMTAQVREDDFDVTDDESSTKAYFGVNAGYDFSQRWGLSLNYTRYKGEFSGVHVDVDTVTFGGEYRF				NA	NA	NA	NA	NA
BMS020_05000	2664			hypothetical protein	ATGCGCCACACCCTGGTGACCGCCATCGCGCTGGCTCTGGCCGGCACGTCCCTGACCGCTTCGGCGCAGTCCGCCGCCGCGCCTGCCACGCCCGTCGCCGCGGCGGCGTCGATCACCACCCAGCTGCCGCGCACCGCGCGCCCCAGCCATTACGCGGTCGAGATCACCCCGCACGCCGACAAGATGGCGTTCGACGGCAAGGTGAAGATCGATGTCGAGGTGCTGGAAGCGACCAACAGCATCGTGTTGCAGGCGGCCAACCTGAGCTTCGGCGCGGCCTCGCTGGCGCCGGCCAAGGGCAAGCCGCTGGTGGCCACGGTCAGCACCGATGCCGAGGCGCAGACCGCCAGCTTCGCGTTCGCCAAGCCGCTGGCGCCGGGCAAGTACGTGCTGTCCATCGCCTACAGCGGCGTGATCAACACCCAGGCCAACGGCCTGTTCGCGCTGGATTACGCCACCGCCGAGGGCAGCAAGCGCGCGCTGTACACCCAGTTCGAGAATTCCGATGCGCGCCGCTTCATCCCGTCGTGGGACGAGCCGAACTTCAAGGCCACCTTCGACCTGAGCGTGATCGCGCCGGCGGCGCAGATGGCGGTCAGCAACATGCCGGTGGCGCGTGCGACCGAGCTGGGCGGCGGGCTGAAGAAGGTCGTGTTCCAGACCTCGCCGAAGATGTCCACCTACCTGCTGTTCCTGAGCCTGGGCGAGTTCGAGCGCACCACGCTGAAGGCCGACAACGGCACCGAGATCGGCGTGATCGCGCAGACTGGCAAGGTCGACCAGGCCACGTTCGCGCTGGAAGCCAGCCGCGACGTGCTGCGCGAGTACAACGACTACTTCGGCGTGCCGTACCCGCTGCCGAAGCTGGACAACATCGCCGCGCCGGGCCGCAGCCAGTTCTTCAGCGCGATGGAGAACTGGGGCGCGATCTTCACCTTCGAATATTCGCTGTTGCTGGACCCGGCGATCAGCAATGTCTCCGATCAGCAGCGCGTGTTCACCGTGGCCGCGCACGAGATCGCCCACCAGTGGTTCGGCGACCTGGTGACGATGGCGTGGTGGGACGACCTGTGGCTCAACGAGGGCTTTGCGACCTGGATGGAAGGGCGCACCACCGCCAAGCTGCACCCGGAGTGGGACATCGACGGCGTGGATGCGGCCTACACCAGCCGCGGCGCGATGGGCCGCGACGCCTACACCACCACGCATCCGATCGTGCAGCACGTGGCCACGGTGGAGCAGGCCAGCCAGGCCTTCGACGGCATCACCTACGGCAAGGGCTCGGCGGTGATCGGCATGCTGGAGGATTACGTGGGTTCGGCGCAGTGGCGCGATGGCGTGCGCAGCTACATCAAGCAGCACGCGCACGGCAATGCGGTGACCGACCAGCTGTGGACCGAGATCGACAAGGCCGCGCCGGGCAAACACTTCATCGATGTCGCCCACGATTTCACCCTGCAGCCGGGCGTGCCGCTGATCAAGGCCAGCGCCAGCTGCGATGGCGGTAAGACCGTGCTGGCGCTCGAGCAGGGCGAGTACACCGTGGACCGTCCGGGCAAGGTGCCGCTGCACTGGCGCGTGCCGGTGGCGGTGCGCGGTGGCGATGGCCAGGTGGTGCGCGTGCTGGTCGATGGCCAGGCGCAGGTGGAACTGCCGGGCTGCGCTGCGCCGGTGCTGGTCAACGCCGGGCAGAAGGGCTACTTCCGCACGCTGTACGCGCCGGCGCAGTTCAAGGCGCTGGCGGCGGGCTTCAACGCGCTGCCGGTGGTGGACCAGCTCGGCCTGTTGATGGACACCAGCGCGCTGTCGGCGGTGGGCCAGCAGCCGGAAGCCGACCTGCTCGACCTGACCGCCAAGGTGCCGCTGGAGGCCTCGCCGGACCTGTGGCTGCAGGTGGCCGGCACGCTGGGCGGCATCGACGACCTGTACGAAGGCGATGCGCGCCAGCAGGCGGCATGGCGCCGCTACGCGCTGTCGCGGCTGTCGCCGAAGTTCCAGCAGCTGGGCTGGGACAACCGCGATGGCGACTCGGCCAAGACCAAGCAGCTGCGCAGCAGCCTGATCGGGATCCTCAGCGCGCTGGGCGATGCCAAGGTGATCGCCGAGGCGCGCCAGCGCTTCGCCGCGTTCCAGGCCGATCCGGCCTCGCTGCCGGCGGACCTGCGCCGCACCGTGCTCGGCATCGTCGCGCGCAATGCCGACGCGGCCACCTGGGATGCGCTGCATGCGATGGCGAAGCAGGAAACCTCGTCGATGATCCGCGACCAGTACTACAGCCTGCTGGCACTGGCCAAGGACGAGGCGCTGGCCAAGCGCGCGCTGGACATGGCGCTGACCGCCGAGCCGGGTGCGACCAACAGCGCCGGGATGATCGGCACGGTCTCGCGCGAGCATCCGGAGCTGGCGTTCGATTTCGCGGTGGCGCACCGCGCGCAGGTCGACACGCTGGTCGATTCGACCTCGCGTGCGCGCTACTACCCGGGCCTGGGCGGTGGTTCGTCCAAGCTGGAGATGGCCGACAAGATCAAGGCCTACGCAGACCAGTACATCGCGCCGACCTCGCGGCGGGCGGCGGACACCGCGATCGGTGGCATCCAGACCCGGGTCAAGCTGCGTGCGCAGCGTCGCCCGCAGATCGATGCGTGGTTGAAGCGCCAGCACTGA	MRHTLVTAIALALAGTSLTASAQSAAAPATPVAAAASITTQLPRTARPSHYAVEITPHADKMAFDGKVKIDVEVLEATNSIVLQAANLSFGAASLAPAKGKPLVATVSTDAEAQTASFAFAKPLAPGKYVLSIAYSGVINTQANGLFALDYATAEGSKRALYTQFENSDARRFIPSWDEPNFKATFDLSVIAPAAQMAVSNMPVARATELGGGLKKVVFQTSPKMSTYLLFLSLGEFERTTLKADNGTEIGVIAQTGKVDQATFALEASRDVLREYNDYFGVPYPLPKLDNIAAPGRSQFFSAMENWGAIFTFEYSLLLDPAISNVSDQQRVFTVAAHEIAHQWFGDLVTMAWWDDLWLNEGFATWMEGRTTAKLHPEWDIDGVDAAYTSRGAMGRDAYTTTHPIVQHVATVEQASQAFDGITYGKGSAVIGMLEDYVGSAQWRDGVRSYIKQHAHGNAVTDQLWTEIDKAAPGKHFIDVAHDFTLQPGVPLIKASASCDGGKTVLALEQGEYTVDRPGKVPLHWRVPVAVRGGDGQVVRVLVDGQAQVELPGCAAPVLVNAGQKGYFRTLYAPAQFKALAAGFNALPVVDQLGLLMDTSALSAVGQQPEADLLDLTAKVPLEASPDLWLQVAGTLGGIDDLYEGDARQQAAWRRYALSRLSPKFQQLGWDNRDGDSAKTKQLRSSLIGILSALGDAKVIAEARQRFAAFQADPASLPADLRRTVLGIVARNADAATWDALHAMAKQETSSMIRDQYYSLLALAKDEALAKRALDMALTAEPGATNSAGMIGTVSREHPELAFDFAVAHRAQVDTLVDSTSRARYYPGLGGGSSKLEMADKIKAYADQYIAPTSRRAADTAIGGIQTRVKLRAQRRPQIDAWLKRQH				NA	NA	NA	NA	NA
BMS020_05001	1467			hypothetical protein	GTGAATCAATCCATGTTGCTGTCCGCCATCGGCACGCTGGGCGCGTTGCTGGCGTCGTCGTCCGCCATCGCCGCGCCGGTCAGCGTCGGCCGCTATTCGGCCCCGGCCACGCCGGTCGCGGTCTACACCAGCGCCGAAGGCGCCGCGCAGCAGATGGCGCGCGCGCAGGTCGCCGCGGTGGCGCCGGGGCATGCGCTGACCGAGGTGGAGAACTCGATCTTCGTCGACCCCACGCGGCAGTTCCAGGAGGTGCTGGGCATCGGCGGGGCGATCACCGATTCCAGCGCCGAGACCTTCGCCAAGCTCGACAAGGCGCGCCAGGCCGAGCTGCTGCGCGCGTACTACGACAAGGACGCCGGCATCGGCTATTCGCTGGCGCGCACCACCATCCACAGCTCCGATTTCAGCAGCGCCAGCTACACCTACATCAAGGACGGCGACAAGGCGCTGAAGACCTTCTCGGTCGACCACGACCGCAGATACCGCATCCCGATGCTCCGGCAGGCGATCGCCGCGGCGGGCGGCTCGCTGACGCTGTTCGCCAGCCCGTGGAGCGCGCCGGCCTTCATGAAGGACAGCAAGAACATGCTCAAGGGCGGCCACCTGCTGCCCGAGTACGCGCAGGCCTGGGCCGAGTACTACACCCGCTTCATCGCCGCCTATGAGAAGGCGGGCATCCCGATCTGGGGCATCAGCCTGCAGAACGAGCCGATGGCGGTGCAGACCTGGGAGTCGATGCAGTTCTCCGCGGAAGAGGAGCGCGACTTCCTCAAGAACCACCTCGGCCCGACCATGGCCAAGGCCGGTTACGGCGACCGCAAGATCATCGTCTGGGACCACAACCGCGACATGATGGTGCACCGCGCGCACGTGATCTTCGACGACCCGGAGGCGTCCAAGTACGCCTGGGGCATGGGCTTCCACTGGTACGAGACCTGGGCCGGTTTCGCGCCGATGTTCGACAACGTCGCCGCGGTCGCCCAGGCCTACCCGGACAAGCACCTGCTACTGACCGAGGCGACGGTGGAGAAGTTCGACCCGGCCAAGCTGCAGGACTGGGGCAACGGTGAGCGCTACGGCACCGCGATGATCCATGACCTCAACGGTGGCTCGGTCGGCTGGACCGACTGGAACATCCTGCTCGACGAGCACGGCGGGCCGAACCACGTGGGCAACTACTGTTTCGCGCCGATCCATGCCGACACCCGCAGCGGCGAGCTGATCTACACGCCGAGCTACTGGTACATCGGCCACTTCTCCAAGTTCATCCGCCCCGGCGCCAAGCGGGTCAGCGCCGCCAGCAGCCGCAGCAACCTGCTGACCACCGCCTTCCTCAACCGCGACGGCTCGCTGGCGACGGTGGTGATGAACCCGACCGACAAGGCGATCGGCTACAACTACTACGTGGGCGGGGCGTCGACCCGGGTGGAGATCCCGGCGCATGCGATCCAGACCTTGCTGAATTGA	MNQSMLLSAIGTLGALLASSSAIAAPVSVGRYSAPATPVAVYTSAEGAAQQMARAQVAAVAPGHALTEVENSIFVDPTRQFQEVLGIGGAITDSSAETFAKLDKARQAELLRAYYDKDAGIGYSLARTTIHSSDFSSASYTYIKDGDKALKTFSVDHDRRYRIPMLRQAIAAAGGSLTLFASPWSAPAFMKDSKNMLKGGHLLPEYAQAWAEYYTRFIAAYEKAGIPIWGISLQNEPMAVQTWESMQFSAEEERDFLKNHLGPTMAKAGYGDRKIIVWDHNRDMMVHRAHVIFDDPEASKYAWGMGFHWYETWAGFAPMFDNVAAVAQAYPDKHLLLTEATVEKFDPAKLQDWGNGERYGTAMIHDLNGGSVGWTDWNILLDEHGGPNHVGNYCFAPIHADTRSGELIYTPSYWYIGHFSKFIRPGAKRVSAASSRSNLLTTAFLNRDGSLATVVMNPTDKAIGYNYYVGGASTRVEIPAHAIQTLLN	PGPT0018770_233	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCCOSYLCERAMIDASE,PGPT0018770-srfJ|xynC-K01201	NA	NA
BMS020_05002	366			hypothetical protein	GTGCCCCTGACGTCCGATCAAAGCGCCACGCTTGCCCGCCAATTGGTGATCGCCAGCTTCGCCGGGCTCAACCTGCGCCAGGCCGCCCTGCTGTTGCACGAGGTGGCGGGCGACTACCGGCTGCGCCCGGGCGAGGGGGCGGTGATCGGCAGCGATGGTGTGCGCTGGTTCGAAGGGCGCATGGACGCGGTGGCCGACGGCATCTGGCGGGCCGCACGGCGGCCGGAGCTGGTGGTCCTGGCCTGGCGCGAGGCGGTGCCGTGCCCGCAGCAGAACGCGCATGGCTGGTGGGGCATCCCCGAGCTGTGCGAGGCGCGCGTGGCGGTGACGGTGGACCGGGCCGGGGGCAACGCGGCGCAGCCGTGA	MPLTSDQSATLARQLVIASFAGLNLRQAALLLHEVAGDYRLRPGEGAVIGSDGVRWFEGRMDAVADGIWRAARRPELVVLAWREAVPCPQQNAHGWWGIPELCEARVAVTVDRAGGNAAQP				NA	NA	NA	NA	NA
BMS020_05003	2352			hypothetical protein	ATGCGGGACGGGCGCGGCATGGTCGTCAAACTCTGGACCCTGATCGGACTGGCCGGCTGTCTGGCCGCGTCGTCGGCGCTGGCGGCGCCGCGCGGCGGCGATGCCTATGACGCGGTCGATCCGTTCATCGGCACCGGTGGCGAAGGCCACACCTTCCCCGGCGCGACCGTGCCCTACGGCATGGTTCAACTCAGCCCGGACACCCAGATCAAGTCGCGCAAGGAAGGCTACGGCTGGGCCGCCGGCTACCGCTACGACGACAGCACCATCGTCGGCTTCTCGCACACGCACTTCTCCGGCACCGGCCATTCGGACCTGGGCGACGTGCTGCTGATGCCGATCAGCGGCGAGCCCAAGCTCGAACGCGGCGACATCGCCAAGCCCGGCAGCGGTTACACCTCGCGCTTCCGCCATGCCAGCGAGACCGCCGAACCGGGCTATTACGCGGTGACGCTGGACGACTACAACGTGCGCGCCGAGCTCACCACCAGCGCGCGCGTCGGCGTGCACCGCTACAGCTTCCCGAAGGGCAAGCCGGCGCACGTGCTGATCGACCTGCGCACCAGCATGTACGACTACCCCGGCAAGGTGCTGTGGTCGCGGCTGCGCGTGCGCGCCGACGGCACCGTCACCGGCATGCGCGAGACGCGCGGCTGGGCACCGGGCCGTCAGCTGTACTTCGCCATGCGCTTCTCGCGCCCGCTCACCGGCCAGCAGCTGCACGACACCGAACAGGACGTGGTCTACAAGGGCTTCGCGCCGCCGGCCGAGAAGGACCCGTCGGCACGCGCGCAGATCGAGGGCCGCCAGCTGGTCGGCGTGTTCGATTTCGGCGACGGCGGCGGCGCACCGCTGGTGGCCAAGGTCGCGCTGTCGCCGGTCAGCGAGGCCAGCGCGATCGCCAACCTCGACGCCGAGGTCCCCGGCTTCGATTTCGACCGCGTGCGTGCCGACGCGCGTGCGCAGTGGAGCCAGGCGCTGGCCGCGGTCGACGTGCAGGGCGACGCCGACACCCGCACCCGCTTCTACACCGCGCTGTACCACACCATGCTCGGGCCGACGCTGTTCATGGACGTCGATGGCCGCTACCGCGGCCCGGACAACGCGGTGCACCAGGCCAAGGGCTGGAACAACTACTCCACCTTCTCGCTGTGGGACACCTACCGCGCGCTGCACCCGCTGATGACCCTGCTGCAGCCGCCGCAACGCACCAGCGACGTGGTCAATTCGCTGCTCGCCGCGCGCCGCGAAAGTCCGTACGGCATCCTGCCGATCTGGGCGTTCCACGGGCTGGAGACCTGGTGCATGATCGGCTACCACGCGGTGCCGGTGATCGCCGACGCCTACATGAAGGGCATCGGCGGCTTCGACCCCAACGAGGCGCTCGACGCGATGGTCGCCAGCGCGGACTACGGCCCGTACGACGGCATCGCCCAGTACCGCGAACTCGGCTACGTGCCGATCGACGAAGAAGGCGAAGCGGCCAGCAAGACGCTGGAATACGCGTTCGACGACTGGACCATCGCGCAGATGGCACGCAAGCTCGGCAAGACCGCCATCGCCGACGCGTTCGACCAGCGCGCCGGCAACTGGAAGCACGCGTTCGACCCGGCCACCGGCTTCATGCGCGCACGCAAGCGCGACGGCAGCTTCCGCGAGCCGTTCGATCCGTCCGCCAGCGGCTACGGCACCGACTACACCGAAGGCAATGCCTGGCAGTACTCCTGGTACGTGCCGCAGGACGTGGCCGGGCTGGCGGCGGCGCACGGCGGGGCCGACGCGCTGCTCAAGCGCCTGGACGCGGTGTTCGACGCCAAGGTCGACCCGAAGATCTTCGAGCACATGGAAGACATCACCGGCCTGATCGGCTGGTACGCGCACGGCAACGAGCCCAGCCACCACGTCGCCTACCTGTACGCCTACGCCGGCCAGCCGTGGCGTACCCAGGCACGACTCAAGCAGATCATGGACAGCCAGTACGCGGCGCGTCCGGACGGTCTGGCCGGCAACGACGACCTCGGCCAGATGTCGGCCTGGTACGTGTTCACCGCGCTCGGCTTCTATCCGGTCGCACCGGGCAGCAACCAGTACATCATTGGCCGCCCGTTCCTGCCGCGCGCCACGCTCAACCTGCCCAACGGCAAGCATTTCACGCTGATCGCCGACGGCCTGGATGCCGGGCACAGCTACATCGGCAAGGTCACGCTCGACGGCAAGCCGCTGCCGCGCGCCTACCTGACCCACCAGGAGATCCTCGCCGGCGGCGAGCTGCGCGTCACGATGCAGGCCGAACCGAACACGCAGTGGGCGACCGACCCGGCGCAGCACCCGTATTCGATGTCGCAGCACTGA	MRDGRGMVVKLWTLIGLAGCLAASSALAAPRGGDAYDAVDPFIGTGGEGHTFPGATVPYGMVQLSPDTQIKSRKEGYGWAAGYRYDDSTIVGFSHTHFSGTGHSDLGDVLLMPISGEPKLERGDIAKPGSGYTSRFRHASETAEPGYYAVTLDDYNVRAELTTSARVGVHRYSFPKGKPAHVLIDLRTSMYDYPGKVLWSRLRVRADGTVTGMRETRGWAPGRQLYFAMRFSRPLTGQQLHDTEQDVVYKGFAPPAEKDPSARAQIEGRQLVGVFDFGDGGGAPLVAKVALSPVSEASAIANLDAEVPGFDFDRVRADARAQWSQALAAVDVQGDADTRTRFYTALYHTMLGPTLFMDVDGRYRGPDNAVHQAKGWNNYSTFSLWDTYRALHPLMTLLQPPQRTSDVVNSLLAARRESPYGILPIWAFHGLETWCMIGYHAVPVIADAYMKGIGGFDPNEALDAMVASADYGPYDGIAQYRELGYVPIDEEGEAASKTLEYAFDDWTIAQMARKLGKTAIADAFDQRAGNWKHAFDPATGFMRARKRDGSFREPFDPSASGYGTDYTEGNAWQYSWYVPQDVAGLAAAHGGADALLKRLDAVFDAKVDPKIFEHMEDITGLIGWYAHGNEPSHHVAYLYAYAGQPWRTQARLKQIMDSQYAARPDGLAGNDDLGQMSAWYVFTALGFYPVAPGSNQYIIGRPFLPRATLNLPNGKHFTLIADGLDAGHSYIGKVTLDGKPLPRAYLTHQEILAGGELRVTMQAEPNTQWATDPAQHPYSMSQH				NA	NA	NA	NA	NA
BMS020_05004	2286			Beta-xylosidase	ATGCCCATGCGCACCACCCGCCGCAACCTGCTGATCGGAGCAGGCTCCCTTGCCCTGCTCTCGCGCATGCCGCTGGGCTGGGCGTTGCCGCGCGGCGGCGACAGCGCCAGCCCGGCGTTCATCGACGGCCTGCTGGCGCGCATGAGCGTGGAAGAGAAAGCCGGCCAGCTGACCCTGATGGGCTCGGTGGCGGCCACCGCCGCGGCCACCGCGGCCAATCCGGAAACCCGCGCGCCGGCCGCCAGCGAACAGCTGGCCGCGGCCCGCGCCGGCCAGCTCACCGGCGTGTTCAACGGTTCCAGCGTCGGCTGGCACCGGCAGCTGCAGGAGGCGGCGCTGCACAGCCGGTTGAAGATCCCGATGCTGTTCGCCGCCGACGTGATCCATGGCTTCACCACGGTGTTCCCGGTGCCGCTGGGCGAATCGGCCAGCTTCGACCCCGACCTTGCCCACCGCACCGCGCGCGCCGCGGCGCTGGAGGCCAGCGCGGTCGGCATCGACTGGACGTTCGCGCCGATGGTCGACATCGCCCGCGACGCGCGCTGGGGCCGCGGCGTGGAAGGCAGCGGCGAGGACGTGCTGCTCGGCCGGCGCATGGCCGAGGCGCGCGTGCGCGGCTTCCAGGGCGAAGGCCTGGCGCACCCGGATGCGGTGGCCGCCTGCGCCAAGCACTTCGCCGCCTACGGCGCGGCCGAGGGCGGGCTGGACTACAACACCGTCGACGTCTCCGAGCGCACCCTGCGCGAGGTCTATTTCCCGCCGTTCCAGGCCGGTTTCGACGCCGGCGCGCTGACCACGATGGCGGCCTTCAACGAGCTGTCCGGCGTGCCGGCCACCGCCAACACCTGGCTGCTGAGCGAGGTGCTGCGCGGGGAATGGAACTACCAGGGGCTGGTGGTCTCCGATTACACCGGCGACATGGAACTTGTCGCGCACGGCTACGCCAGCGACGAACGCGATGCGGTGAAGAAGGCGTTCCTGGCCGGCGTGGACATGAGCATGCAGAGCGGGCTGTACCTCAAGCACCTGCCAGCGCTGGTCGCCAGCGGCGAGGTGCCGATGGAACAGCTGGACGCCTCGGTGCGCCGGGTGCTGCGCTTCAAGGCCGCACTGGGCCTGTTCGACGACCCGTTCCGGCGCCTCGTCGATGCCCGTGCCAAGGCCCGCCAGCGCCTGCCGGAAACGCTGGAGCTGGCGCGCGAATCGGCGCGCAAGTCGGTGGTGATGCTCAAGAACGAGGGCGACCTGCTGCCGCTGCGCAGCGCCGGCCAGCGCATCGCGCTGATCGGGCCGATGGCGCGCGACATCGCCAACATCCACGGCCCCTGGGTGCTGTTCGGCGGCGACGAGCGCGGCCACGACCTGGCCACGGCGATGCGCGCGGCGATGGCCGCCCCCGACCTGCTGAGCGTGGTCGACGGCAGCGGCTTCGACGAAGCCCTGTCCGGCGGCATCGAGCAGGCGGTCGCCGCCGCGCGCGGCGCCGACGTCGCGGTGCTCGCGGTGGGCGAGCCGTACAAGTATTCCGGCGAGGCGCAGTCGCGCACCGCCATCGTGATCCCAGCCGCGCAGCAGGCGCTGATCGAGGCGGTCGCCGCCACCGGCACGCCGCTGGTGCTGGTGCTCAGCAACGGCCGCGCGCTGGCGCTGGAAGGCGCCGCGCTGGCGGCACCGGCGATCCTGGTCAGCTGGTTCCTCGGCTCGATGTCCGGGCCGGCGCTGGCCGACCTGCTGTTCGGCAAGGCCAGCCCGTCCGGGCGGCTGCCGGTGAGCTTCCCGCGCGAAGCCGGGCAGGCGCCGTATTTCTACGCGCACAAGCCGACCGGACGCCCCGATCCGCATCCGGACAAGCTCGATGCCTACAAGACCCACTACCGCGGCATTCCCAACGCGGCGCAGTTCGCCTTCGGCCACGGCCTGACCTACGGCCGCATCGACTACGCGGCGCTGGAACTCGGCGATGCGCGGCTGGCCGCGGACGGCACCCTGCGCGTGGCCGCCACCATCAGCAACCGCGGCAACCAGGCAGCCGAGGAAGTGGTGCAGCTGTACGTGCGCGACCGCAGCGCCAGCATCACCCGCCCGGTGCGCGAGCTGAAGGATTTCCGCCGCGTCGCGCTCGCCGCCGGCGCCAGCACCCGCGTGGAGTTCACCCTGCGTCGCCAGGACCTGCTGTTCATCGGCACCGCGCTCACGCCGACCGTCGAGGCGGGTACCTTCGACCTGTGGATCGCGCCCTCGGCCGAGGCCGAGGGACTGCACGCCACGTTCGAACTGCTGGGCTGA	MPMRTTRRNLLIGAGSLALLSRMPLGWALPRGGDSASPAFIDGLLARMSVEEKAGQLTLMGSVAATAAATAANPETRAPAASEQLAAARAGQLTGVFNGSSVGWHRQLQEAALHSRLKIPMLFAADVIHGFTTVFPVPLGESASFDPDLAHRTARAAALEASAVGIDWTFAPMVDIARDARWGRGVEGSGEDVLLGRRMAEARVRGFQGEGLAHPDAVAACAKHFAAYGAAEGGLDYNTVDVSERTLREVYFPPFQAGFDAGALTTMAAFNELSGVPATANTWLLSEVLRGEWNYQGLVVSDYTGDMELVAHGYASDERDAVKKAFLAGVDMSMQSGLYLKHLPALVASGEVPMEQLDASVRRVLRFKAALGLFDDPFRRLVDARAKARQRLPETLELARESARKSVVMLKNEGDLLPLRSAGQRIALIGPMARDIANIHGPWVLFGGDERGHDLATAMRAAMAAPDLLSVVDGSGFDEALSGGIEQAVAAARGADVAVLAVGEPYKYSGEAQSRTAIVIPAAQQALIEAVAATGTPLVLVLSNGRALALEGAALAAPAILVSWFLGSMSGPALADLLFGKASPSGRLPVSFPREAGQAPYFYAHKPTGRPDPHPDKLDAYKTHYRGIPNAAQFAFGHGLTYGRIDYAALELGDARLAADGTLRVAATISNRGNQAAEEVVQLYVRDRSASITRPVRELKDFRRVALAAGASTRVEFTLRRQDLLFIGTALTPTVEAGTFDLWIAPSAEAEGLHATFELLG	PGPT0019110_4068	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
BMS020_05005	606	lexA_2		LexA repressor	ATGCCTCCACTGCCACCCCGACGCGCCGCCGTCCTCGCCTACCTGCAGGCGCAGGCGGCGCGTGGCCACGCGCCCAGCCTGGCCGAGATCGCCGCGCAGTTCGGCTTCGCCTCGCGCAACGCTGCGCAGAAGCACGTGCAGGCGCTGGCCGAGGCCGGGCTGATCGAACTGCGCGGCGGCGCGCATCGCGGCATCCGCGTGCCGGGTGGACCGGACCGCGACGCGCTGCTGGCGCTGCCGGTGCTGGGGCGGGTCGCCGCCGGCGTGCCGATCGGCGCCGACATCGGCCTCGACCGCCAGCTGTGGCTGGACCGCGGGCTGTTCTCGCTGCGCCCGGATTATCTGCTGGTGGTGCAGGGCGATTCGATGATCGACGACGGCATCCTCGACGGCGACCTGGTCGGCGTGCATCGCACGGGCGAGGCGCGCAACGGCCAGACCGTGGTCGCGCGCGTCGATGGCGAGATCACCATCAAGCGCTTCGAGCATCGCGGCGAGCGCATCCGGCTGCTGCCGCGCAACCCGGCGCATGCGCCGATCGAGGTCGCCGCCGATGCCGAGTTCGCGATCGAGGGGATCTTCTGCGGCCTGGTGCGGCAGGGCTGA	MPPLPPRRAAVLAYLQAQAARGHAPSLAEIAAQFGFASRNAAQKHVQALAEAGLIELRGGAHRGIRVPGGPDRDALLALPVLGRVAAGVPIGADIGLDRQLWLDRGLFSLRPDYLLVVQGDSMIDDGILDGDLVGVHRTGEARNGQTVVARVDGEITIKRFEHRGERIRLLPRNPAHAPIEVAADAEFAIEGIFCGLVRQG	PGPT0014895_3744	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014895-lexA-K01356	NA	NA
BMS020_05006	615			hypothetical protein	ATGGCCGAAGCGCAGGCCCTGGATGAGCTGTTCGCCGCCCGCACGGTTTGGCATGCCGGACGCGGTACCGCGCTGGCCGCTGGTGGCGAGCCGAGCGGGCATGCCGCGCTCGATGCGGTGCTGCCCACCGCCGGCTGGCCGCGCAAGGCGTTGACCGAACTGCTGCTGCCGGCCGACGGTGTCGGCGAGATCGCGCTGCTGCTGCCGACGCTGGCGCGGATGACCGCCAGCGGCCAGCGCGTGGTGCTGGTGGCGCCGCCGTACGTGCCGTATGCGCCGGCGTGGCAGGCCGGTGGTGTCGACCTGCAGTGGCTGGAGATCATCGATGCCGCCCCGCGCGAAGCGCTGTGGGCGTTCGAGCAGTGCCTGCGCAGCGGCGCCTGCGGCGCGGTGCTGGGCTGGCCGCAGACCGGCGATACGCGCGCGCTGCGGCGGCTGCAGGTGGCCGCCGACAGCGGCGACTGCTGCGGTTTCGCGTTGCGCGACCGGCGGCATGCGCGCAATGCCTCGCCGGCGGCGCTGCGGCTGGAATACCTGGCCGAACGTGGCGCCTGGCAGGTGCTGAAGTGCCGCGGCGGCCAGCTGCCGTCGCAGCCGCTGCGGCTGGTGCAGTGA	MAEAQALDELFAARTVWHAGRGTALAAGGEPSGHAALDAVLPTAGWPRKALTELLLPADGVGEIALLLPTLARMTASGQRVVLVAPPYVPYAPAWQAGGVDLQWLEIIDAAPREALWAFEQCLRSGACGAVLGWPQTGDTRALRRLQVAADSGDCCGFALRDRRHARNASPAALRLEYLAERGAWQVLKCRGGQLPSQPLRLVQ				NA	NA	NA	NA	NA
BMS020_05007	1422	imuB		Protein ImuB	ATGCTGTGGGCCTGCATCCTGCTGCCGCAGCTCGCGCTGGACGCGGTGCTGCGCAAGCAGCCCGAACCGGAGCTGCCGCTGGCGCTGGTCGACGGTCCGGCGCAGCTGCGCAGCCTGCACGCGGTCAACGACGCGGCGGCGCAGGCCGGGCTGAAGCCGGGCATGCGGCTGTCGGCGGCGCATGCGCTGCTGACTCAGGTCCGCACGATCGATTACGACGCCAATGACGAGGCGTACTGGCATCGCTTCCTGGCGGCCTGGGCGTATCGCCACAGCTCGCTGGTCAGCCAGCAGTGGTCGCGCGCGATCGTGCTGGAGGTGCAGGCCAGCTTCCGCCTGTTCGGGCCGTGGCCGCGCTTCGAGCGCCGGCTGCGCGATGAGCTGGACCGGCTCGGCTTCCGTCACCGCATCGCGATGGCGCCGACCCCGCGCGCGGCGCGCGTGCTGGCCGGCTTGCGCGACGGCCTGGCGCTGACCCATCTGGATGGCCTGCGCGCCACGCTCGACCAGGTGCCGGTGCGCCGCGCCGCGCTGCCCGACGATGCCGGCGAGCGCCTGCAGCGGATGGGCCTGCGCAGCCTGGCCGAGCTGCGTGCGTTGCCGCGCGATGGGCTGCGCCGGCGCTTCGGGCTTGGCCTGCTCGCGCATCTCGACCGGCTCTACGGCGAGGCCGACGATCCGTTGACCTGCTACGCGCCGCCGGATCATTTCGACATGCGGCTGGAACTGGGCTACGAGGTCGAAACGCATACCGCCCTGCTGTTCCCGCTGCGGCGCCTGATCGGCGACCTGTGCACCTATCTGTCGATCCGCGATGGCGGCGTGCAGCGCTTCCTGCTGCGGCTGGAGCACGAGCAGGGGCATACCGATGTCGAGGTCGGGCTGCTGGCCGCCGAGCGTTCCCCAGCGATGCTGTTCGAGCTGTCGCGCAACCGGCTGGAGCGGGTGGAGATCGGCCAGCCGGTGGTGGCGATGCGGCTGCTGGCGCGGCAGCTGCCGCCGTTCGTACCGGCTGCACGCGACCTGTTCGACCCGCGCCCGCAGCAGGCGCTGGACTGGCCGCAGCTGCGTGAGCGGCTGCGCGCGCGGCTTGGCGACGAGGCGGTGTACCGGGTGGCGCCGGGCGGCGCTCCGCGTCCGGAGCGTGCGTGGCGGCGGCTGCTTGGCGACGGCGGGACGGCGGCGGGTGCTGCGCCAGCGCGACCGCCGCGTCCGAGCTGGCTGTTGCCACAGCCGGTGCCGTTGACCTCGCCGCCACGCCGCATCGTGTCTGGCCCGGAGCGGCTGGAGAGTGGTTGGTGGGACGACGGCGACGCCCGCCGCGACTACTACGTGATCGAAACCCTGCAGGGCCGCCGCGGCTGGGCGTTCGTCCCTCCGGGCACGCGCGAGGGTTGGATGCTGCATGGATGGTTCGCGTGA	MLWACILLPQLALDAVLRKQPEPELPLALVDGPAQLRSLHAVNDAAAQAGLKPGMRLSAAHALLTQVRTIDYDANDEAYWHRFLAAWAYRHSSLVSQQWSRAIVLEVQASFRLFGPWPRFERRLRDELDRLGFRHRIAMAPTPRAARVLAGLRDGLALTHLDGLRATLDQVPVRRAALPDDAGERLQRMGLRSLAELRALPRDGLRRRFGLGLLAHLDRLYGEADDPLTCYAPPDHFDMRLELGYEVETHTALLFPLRRLIGDLCTYLSIRDGGVQRFLLRLEHEQGHTDVEVGLLAAERSPAMLFELSRNRLERVEIGQPVVAMRLLARQLPPFVPAARDLFDPRPQQALDWPQLRERLRARLGDEAVYRVAPGGAPRPERAWRRLLGDGGTAAGAAPARPPRPSWLLPQPVPLTSPPRRIVSGPERLESGWWDDGDARRDYYVIETLQGRRGWAFVPPGTREGWMLHGWFA				NA	NA	NA	NA	NA
BMS020_05008	3267	dnaE2		Error-prone DNA polymerase	ATGAGCTGGGACGACGCCATCGATGGCGTGGACCGCGACACCCCCGGCGGGCGCATGCCGCGCGCCTGGAGCGTGGCGGCACGGCTGCGCGAGGCCGTGCATCGTGAAGCCGCCAATGACGACATCGCGCACGGCGAGGGCGACGATGGCCTGCCGGGCTACGCCGAACTGCACTGCATCTCGGATTTCTCGTTCCTGCGTGGCGCGTCCGATGCCGAGGCCTTGTTCGCGCGTGCCCAGGCCTGCGGCTACGCCGCGCTGGCGATCACCGACGAATGCTCGCTGGCCGGCATCGTGCGCGGCCTGGAGGCCTCGGAAGCGACCGGGCTGAAGCTGATCGTCGGCAGCGAATTCGTGCTCGTCGATGGGTTGAAGTGCGTGCTGCTGGTGGAAACCCGCGATGGCTACAGCCAGCTGTGCGCGCTGATCACCACCGCCCGCCGCGCCGCCGGCAAGGGCCAGTACACGCTGACCCGCGCCGACGTCGAAGCGCAGTTCCGCGAACAGGCGCCGGAACTGTTCGCGCTATGGCTGCCCGGCGAAACCGCCGATGTGGAACACGCGCGCTGGCTGCAGCAGCTGTTCGGCGAACGCGCTTTCCTCGCGGTGGAACTGCTACGCGAACGCGACGACGGCGCGCGCCTGGCCGAGCTGCTGGCACTCGCACGCCAGCTCGGTATGCCCGCGCTGGCCAGCGGCGACGTGCACATGGCCACGCGGCGCGAGCGCGTGCTGCAGGACACGCTCACCGCGATCCGCCACAACGTCACCCTGGCCGATGCCGGCGCGCGGTTGTTCCGCAATGGCGAGCGCCACCTGCGCGCGCGCCGCACGCTGGGCAACATCTATCCGGCCGAGCTGCTGCAGGCCACGGTGGAGCTGGCGCGGCGCTGCACGTTCAAGCTGCGCGAGGCGACCTATGTGTATCCCAAGGAACTGGTCCCCGACGGGCACACGCCGAGCAGCTGGCTGCGCGAGCTGACCGAGCAGGGGCTGTGCCGGCGCTGGCCGAGCGGTGTGCCCGACAAGGTGCGCGGCCTGATCGAAAAGGAGCTCGCGCTGATTGCCAAGAAGCAATACGAGGCGTTCTTCCTGACCGTCGAGGATGTGGTCCGCTTCGCACGGTCACGCCACATCCTGTGCCAGGGCCGCGGCTCGTCGGCCAATTCGGCGGTGTGCTTCGCGCTGGGCATCACCGCGGTCAATCCGGACGAGACCCGGCTGCTGATGGCGCGCTTCCTGTCGGAAGAGCGCAACGAGCCGCCGGACATCGACGTCGACTTCGAGCATGAGCGGCGCGAGGAGGTCATCCAGTACGTCTACGGCAAGTACGGCCGCGCGCGCGCGGCGTTGGCGGCGACAGTGATCGCCTACCGTGGCAAAAGCGCGGTGCGCGATGTCGCCCGGGTGTTCGGCCTGCCGCCGGACCAGATCGCGCTGCTGGCCAACTGCTTCGGCTGGGGCAATGGCGACACGCCGATGCAGCAGCGGCTGGAGGAAGCCGGCTTCGATGTCGCCAATCCGCTGATCGTGAAGATCATGACGCTGAGCTTCGTGCTGGAGGGAAAGCCGCGGCATCTGTCGCAGCACGTCGGCGGGTTTGTGATCTCCGACCTGCCGCTGTCGACGGTGGTGCCGGTGGAGAACGCGGCGATGGCCGACCGCACCATCATCCAGTGGGAGAAGGACGACCTGGAGACGATGGGCATGCTCAAGGTCGACTGCCTGGCGCTGGGCATGCTGACCTGCATCCGCAAGACGCTGGACCTGATCCGCATCCACCGCCATCGCGACCACGAGATCGCCACGATCCCCGGTGAGGACACGTCGACCTACGCGATGATCCAGCGCGCCGATACTGTCGGCGTGTTCCAGATCGAGTCGCGCGCGCAGATGGCGATGTTGCCGCGGCTGAAGCCGGCACGCTTCTACGACCTGGTGATCCAGGTCGCGATCGTGCGCCCCGGGCCGATCCAGGGCGACATGGTGCATCCGTTCCTGCGCCGACGGCAGGGGCTGGAGCCGGTCAGCTATCCGTCCGAGGGCGTCAGGGAGATCCTCGGGCAGACGCTGGGCGTGCCGCTGTTCCAGGAGCAGGTGATGGAGCTGGTCATCCATGCCGGCTACGACGACAACGAGGCCGACCGGCTGCGGCGCTCGATGGCGGCGTGGAAACGCGGCGGCGACATGGAGTCGCACCGCACGCGCATCCGCGAGCTGATGGAAGCCAAGGGCTACGCGTCGGCGTTCATCGACCAGATCTTCGAGCAGATCAAGGGCTTTGGCTCCTATGGCTTCCCGCAGAGCCATGCCGCTTCGTTCGCCAAGCTGGTCTACGCCAGCTGCTGGCTCAAGCGCCACGAGCCGGCGGCGTTCGCCTGCGGTCTGCTCAACGCGCAGCCGATGGGTTTCTATTCGGCCAGCCAGATCGTGCAGGACGCGCGCCGCGGCAGCCCCGAGCGCGCACCGGTGACGGTGCTGCCGGTCGATGTGCTGCATAGCGACTGGGACAACACCTTGGTCGGTGGCACGCCGTGGCGCAGCGATGCCGAGCCAGGCGAGCAACCCGACATCCGTCTCGGCCTGCGCCAGGTTGCCGGGCTGGCGCAGGCGATGGCCGACGCGCTGGTCGTGGCGCGGCGGCAGCGCCCGTTCGCCAGCGTCGCCGACCTGTGCCTGCGGGCGGGCCTGGACGAGAAGGCCCGCAGCGTGCTGGCCGAAGCCGGTGCGCTGGCTTCGCTGGCCGGGCATCGCAACGCCGCGCGCTGGGCGGTGGCCGGCATCGAACGGCGCCGGCCGCTGCTGCCGGGCAGCCCGGACGAGCAGGAGATCGCGCTGCCGGCGCCGCGCGTCGGCGAGGAGATCAGCGCCGATTACCGCAGTACCGGGCTGAGCCTGGGCCAGCATCCGATGGCGCTGCTGCGCGCGCAGATGCGCCAGCGGCGGATCATCGGCCTGCGCGAGCTGCAGGGCCGCCACCATGGCGCCGGCGTGCACGTGGCCGGGCTGGTGACCCAGCGCCAGCGCCCGGCCACCGCCAAGGGCACGATTTTCGTCACCCTGGAAGACGAGCACGGCATGATCAACGTGATCGTCTGGCCGCACGTGGCGCTGCGCCGGCGGCGCGCGCTGCTGGAGGCGCGGCTGCTGGCGGTGCGTGGGCGCTGGGAGCGCGTCGACGGCGTCGCCCACCTGATCGCCGGCGACCTGCACGACCTCAGCGACCTGCTTGGTGTGCTGGACGTGGCCTCGCGCGATTTCCATTGA	MSWDDAIDGVDRDTPGGRMPRAWSVAARLREAVHREAANDDIAHGEGDDGLPGYAELHCISDFSFLRGASDAEALFARAQACGYAALAITDECSLAGIVRGLEASEATGLKLIVGSEFVLVDGLKCVLLVETRDGYSQLCALITTARRAAGKGQYTLTRADVEAQFREQAPELFALWLPGETADVEHARWLQQLFGERAFLAVELLRERDDGARLAELLALARQLGMPALASGDVHMATRRERVLQDTLTAIRHNVTLADAGARLFRNGERHLRARRTLGNIYPAELLQATVELARRCTFKLREATYVYPKELVPDGHTPSSWLRELTEQGLCRRWPSGVPDKVRGLIEKELALIAKKQYEAFFLTVEDVVRFARSRHILCQGRGSSANSAVCFALGITAVNPDETRLLMARFLSEERNEPPDIDVDFEHERREEVIQYVYGKYGRARAALAATVIAYRGKSAVRDVARVFGLPPDQIALLANCFGWGNGDTPMQQRLEEAGFDVANPLIVKIMTLSFVLEGKPRHLSQHVGGFVISDLPLSTVVPVENAAMADRTIIQWEKDDLETMGMLKVDCLALGMLTCIRKTLDLIRIHRHRDHEIATIPGEDTSTYAMIQRADTVGVFQIESRAQMAMLPRLKPARFYDLVIQVAIVRPGPIQGDMVHPFLRRRQGLEPVSYPSEGVREILGQTLGVPLFQEQVMELVIHAGYDDNEADRLRRSMAAWKRGGDMESHRTRIRELMEAKGYASAFIDQIFEQIKGFGSYGFPQSHAASFAKLVYASCWLKRHEPAAFACGLLNAQPMGFYSASQIVQDARRGSPERAPVTVLPVDVLHSDWDNTLVGGTPWRSDAEPGEQPDIRLGLRQVAGLAQAMADALVVARRQRPFASVADLCLRAGLDEKARSVLAEAGALASLAGHRNAARWAVAGIERRRPLLPGSPDEQEIALPAPRVGEEISADYRSTGLSLGQHPMALLRAQMRQRRIIGLRELQGRHHGAGVHVAGLVTQRQRPATAKGTIFVTLEDEHGMINVIVWPHVALRRRRALLEARLLAVRGRWERVDGVAHLIAGDLHDLSDLLGVLDVASRDFH				NA	NA	NA	NA	NA
BMS020_05009	1971			hypothetical protein	ATGTTGAAACACGCAAGCTTGGCTGCAGCGCTGTCGCTGCTGGCCGTGGCGGGAAGCGCCTGCGCGCAGGTGGATCTGGACGCCTACATCAAGAAGGACAAGTTCACCGATATCGCGCTGTCGCCGACCGGCGAGTATTTCGCCGCGACCGTGCCGATGGAGGACCGCACCGCGCTGGCGATCATGAGTCGGGCGGACAATCGCCTGACCGGCACCTTCGTGCTGGGCAAGAACACCCACGTCAGCGGCTTCCACTGGGTCAACGACAAGCGCGTACTGATCGCCATCGCGGAGAAGCACGGCCTGCTGGACAAGCCGCAGCCGACCGGCGAGCTGTATGCGATCAACGCCGATGGCGGCAGCCCGGACCTGCTGGTCGGCTACCGCGCGCAGGGCAGTGGGCTGGGCACCAAGATCCAGACCCGCAAGGAAGAACTGATTGCCGCGTTCCTGACCGATGACCTGGCCGGCGACGAACGCAACGTCATCGTCGATGTCTGGCCGCTCACCGCCGAAGACCCGTTCACCCGTGCCGAGCGGCTCGACGTGGACAGCGGGCGCCGCGTGCCGGTGGCCAAGGCGCCGGTGAAGCGCGCCCACTTCACCACCGACAACAATGGCGAGGTGCGCTTCGCCCAGGGCGCCGGCATCGACAACGTCAACCAGCTGTACTACCGCGAACGCGATGGTGCGCAGTGGACGATGATCAACGACGAGGGCGTCAACAACCGCATCGAGACGCCGCTCGGCTTCTCCGCCGACAACGCCATCGCCTACCTGCAGGTGCAGAACCCGAGCGGGCCGGATTCCATCGTCGCCTGGGACATCGCCGCCAACCAGCGCAAGGTGGTGCTGCGCGATGCGGTGGCCGATCCGCTGCGGATCATCCATGCCAACGGCACCGCGGTGCCGGTCGGTGCGCTGGTGATGGACGGCAAGGTCAAGTCGATGTTCTTCGACGAGACCTCGCCGACCGCGCGGATGTACCACAGCCTGGAAGCGGCGTTCGGCGGCGATGCGGTCTACGTCACCTCCAGCACCCGCGATGGCCGCACGGTGCTGGTGCGGGCGTATTCCGGCAGCAACCCCGGCGATTTCTACACCTTCGACACGGTGGCCAAGAAGGCCGCGCACCTGATCAGCCGGCGCGAGTGGTTCGATCCGGCCAGGACCGCGACGGTGCAGCCGTTCGCGCTGAAGGCGCGCGACGGGATCGAGCTGCACGGCTACCTGACCCTGCCGCGCAATGCCGGCAAGAACCTGCCGATGGTGGTGATGCCGCACGGCGGCCCGTTCGATGTCTTCGACGGCTGGGGATTCGACAGCGAAGCGCAGATGCTGGCGCAGGCCGGCTACGCGGTGCTGCAGGTCAACTTCCGCGGCTCGGGCAACTACGGGCGCGCGTTCAACCAGGCCGGTGCCCAGCAATGGGGCGGCACGATGCAGGACGACGTGACCGATGCCACCCGCTGGGCGATCCAGCAGGGGTATGCCGATGCGGCGCGCATCTGCATCTACGGCGCCAGCTACGGTGGCTATGCCGCGTTGATGGGCGTGGCCAAGGAACCTGCGCTGTATCGCTGTGCGGCCGGCTATGTCGGCGTCTACGACCTGCCGATGATGTTCACCACCGGTGACATCCAGGAGCGCGGTTCGGGCGAGAATTACCTGAAGGAATGGATCGGCGATCGCAAGACGCTCGACGCGGCCTCGCCGACCAAGCTGGCCGAGCGCATCAAGGTGCCGGTGTTCCTGGCGGCCGGTGGCGAGGACCAGCGCGCGCCGATCAAGCACAGCAAGCTGATGGAAGCGGCGCTGCGCAAGGCCGGGGTGCCGGTGGAAACGCTGTACTACGACACCGAAGGCCACGGCTTCTACGTCGAGGCGCACCAGCGCGAGTACTACACGAAGCTGCTGGCGTTCCTGTCGCGCTCGCTGGGCGGGCAGCCGGCGGCTGCGGCGATGCCGTGA	MLKHASLAAALSLLAVAGSACAQVDLDAYIKKDKFTDIALSPTGEYFAATVPMEDRTALAIMSRADNRLTGTFVLGKNTHVSGFHWVNDKRVLIAIAEKHGLLDKPQPTGELYAINADGGSPDLLVGYRAQGSGLGTKIQTRKEELIAAFLTDDLAGDERNVIVDVWPLTAEDPFTRAERLDVDSGRRVPVAKAPVKRAHFTTDNNGEVRFAQGAGIDNVNQLYYRERDGAQWTMINDEGVNNRIETPLGFSADNAIAYLQVQNPSGPDSIVAWDIAANQRKVVLRDAVADPLRIIHANGTAVPVGALVMDGKVKSMFFDETSPTARMYHSLEAAFGGDAVYVTSSTRDGRTVLVRAYSGSNPGDFYTFDTVAKKAAHLISRREWFDPARTATVQPFALKARDGIELHGYLTLPRNAGKNLPMVVMPHGGPFDVFDGWGFDSEAQMLAQAGYAVLQVNFRGSGNYGRAFNQAGAQQWGGTMQDDVTDATRWAIQQGYADAARICIYGASYGGYAALMGVAKEPALYRCAAGYVGVYDLPMMFTTGDIQERGSGENYLKEWIGDRKTLDAASPTKLAERIKVPVFLAAGGEDQRAPIKHSKLMEAALRKAGVPVETLYYDTEGHGFYVEAHQREYYTKLLAFLSRSLGGQPAAAAMP				NA	NA	NA	NA	NA
BMS020_05010	1188			hypothetical protein	ATGCGTTGGATCACCGCATTACCCCTGCTGCTCGCGCTGGGCGCGACCGCGCTGCCGGCCCACGCCCAGGTCTGGGTCACCGCCTGGACCGCCTCGCCGGCGCCCGACCGCAAGGACGGCACGCCGGAACAGCCGGTGCAGTTCGCCAACCAGAGCGTGCGCCAGGACATGCGCCTGGGCAGCGCCGCGCGCGCGCTGCGCTTCCGCATCAGCAACGAACTCGGCACCGCGCCGCTGAAGCTCGGCGCGGCCAGCGCGCAGCGCACCGGTGCCGCGGGCGCGGCGCTGCCGGTCACCTTCGACGGCCGCAGCGAGGTCACGGTGCCGATCGGCGCGGCGCTGCTGAGCGATCCGGTCGCGCTGGCGATCCCGGCGCTGGGCGAAGTCAGCCTGACGCTGTGGTTCCCCGAGCCGACCCAACCGGCGGTGCGCCGCACGCCGCTGTGGATCGCCGCTGGCCGGGTGGCCGAGGTGCAGGCCAAGGGCCGGCCGGAGTACCGCCAGAACGTGGTGTCGGCGGTGCTGGGCGAGCGTGCCGACCGGCCGACAGTGATCGTCGCGCTCGGCGATTCGATCACCGAAGGCGCCACCGCCACCCGCGGCTCGCACAACCAGTGGCCGGCGCTGCTGGCCACGCGCCTGCAGCAGGCCTGCCCGGACCGCTTCGTGGTGCTCAACGCCGGCATCAGCGGCAACAAGCTGATGGACCACGGCCGCAGCCACAGCGCGCTGGCGCGGCTGGACCGCGACGTCATCGCGACCGCCAATGCCGACCAGGTGATCGTGTTCGAAGGCATCAACGACATCCGCCACGGCGGTGCGCCGGCGCTGCTGCCCGGCCGCAGCGCGCAGGACATGCTGCTCGGCTACCGCCAGATCGCCGACCGCCTGCACCTGCACGGCATCCGCAGCTACCTGGCCACCGTCACCCCGTTCGGCGGCTCCGAGCGCTACGAACCGGTCTCGGCCGCAACCCGCAGCACGATCAACGCCTGGGCGCGCGGCCAGGACACCGGCTTCGACGGCGTGATCGATTTCGACGCCGCGCTGCGCGACCCGGCCAATCCCGAGTCGCTGCCCGACGCGATCACCCGCGACCACCTGCACCCCAACGACGCGGGCTATCGGCGCATGGCCGAGGCGATCGACCTGGGCCTGTTCGGCTGCAAGGTGCCGGCGGCACGTTGA	MRWITALPLLLALGATALPAHAQVWVTAWTASPAPDRKDGTPEQPVQFANQSVRQDMRLGSAARALRFRISNELGTAPLKLGAASAQRTGAAGAALPVTFDGRSEVTVPIGAALLSDPVALAIPALGEVSLTLWFPEPTQPAVRRTPLWIAAGRVAEVQAKGRPEYRQNVVSAVLGERADRPTVIVALGDSITEGATATRGSHNQWPALLATRLQQACPDRFVVLNAGISGNKLMDHGRSHSALARLDRDVIATANADQVIVFEGINDIRHGGAPALLPGRSAQDMLLGYRQIADRLHLHGIRSYLATVTPFGGSERYEPVSAATRSTINAWARGQDTGFDGVIDFDAALRDPANPESLPDAITRDHLHPNDAGYRRMAEAIDLGLFGCKVPAAR				NA	NA	NA	NA	NA
BMS020_05011	753	fabG_9		3-oxoacyl-[acyl-carrier-protein] reductase	ATGCATTTCAACGACAAGGTGGCCATCGTCACCGGTGGCGGCCGCGACATCGGCCGCGCCATCTCGATCAAGCTGGCCGCGGCCGGCGCCAAGGTCGTCATCAACTACGCCAACGACGAGGCCAGCGCACGCGAGACGCTGCGCCAGGTCGAGGCCGCCGGTGGCCAGGCGATCGTGCATCGCGCCGACGTCACCGACGCCGCCGCGGTGGCCGGGCTGGTCGCCGCCACCCAGCAGGCCTTCGGCGCGCGCATCGACGTGCTGGTCAACGTCGCCGGCGGCATGGTGCAGCGGCGGCCGCTGGCCGAGATCGATCCGGCGTTCTTCCACACCGTCATGGACCTCAACATGACCTCGACCTACCTGACCACCCACGCGGTGGTACCGCACATGGCCGACGGTGGTGCGATCGTCAACTTCGCCTCGCAGGCCGGCCGCGACGGCGGCGGTCCTGGCGCGGCGATCTACGCCACCGCCAAGGCCGCGGTGATGACCTTCACCCGCGCGATGGCCAAGGAGCTCGGGCCCAGGGGCATCCGCGTCAACGCGCTGTGCTGCGGCATGATCGCGACCCGCTTCCACGACGACTTCACCAAGCCCGAGGTCCGCACCGCCGTCGCCGGCGCCACCCCGCTGCGCCGCCAGGGCAAGCCGGAGGAAGCCGCCGACGCGGCGGTCTACCTGGCCTCGGACGCGGCCAGCTTCATCACCGGCGCCAACGTCGACGTCAACGGCGGCACCTACTACTCGTAA	MHFNDKVAIVTGGGRDIGRAISIKLAAAGAKVVINYANDEASARETLRQVEAAGGQAIVHRADVTDAAAVAGLVAATQQAFGARIDVLVNVAGGMVQRRPLAEIDPAFFHTVMDLNMTSTYLTTHAVVPHMADGGAIVNFASQAGRDGGGPGAAIYATAKAAVMTFTRAMAKELGPRGIRVNALCCGMIATRFHDDFTKPEVRTAVAGATPLRRQGKPEEAADAAVYLASDAASFITGANVDVNGGTYYS	PGPT0003180_11195	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
BMS020_05012	1329	exuT_4		Hexuronate transporter	ATGAACGTCGAACGGAGCATCGCCCCCGGCCTGCAGCCGCTGCGCCCGGCGCCAGCGCGCTCGGCGGTGCGCTGGCTGATCGTGGCGCTGATCGCGGTGGCCACGGTGATCAACTACATCGACCGCAACGCGCTGGCGGTGATGTGGCCGGAGATCTCCAGGCAGGTCGGCGCGACCAAGGACGACTACGCGCTGCTGGTGACGGTGTTCATGCTGTTCTACGCCGCCGGCCAGTTCGTGTTCGGGCGGCTGTTCGACATCATCGGCACCCGGCTCGGCTTCGCGCTGTCGATCGCGGTGTGGTCGGTGTCGATCGCGCTGCATGCGGCGACCCATTCGATCCTGTCCTTCAGCCTGGTGCGCGCCCTGCTCGGCATCAGCGAGGCCGGCGCCTGGCCGGGCGCGGTCAAGGCCAATGCCGAGTGGTTCCCGGCGCGCGAGCGCGCGCTGGCGCAGGGCATCTTCAATGCCGGCGCCTCGGTCGGGGCGATCATCTCGGCGCCAGCGATCGCGCTGCTGTTCCTGTGGTTGGGCTGGCGCGGCACCTTCGTGCTGGTCGGCGTGCTCGGCTTCGTGTGGCTGCTGCCGTGGCTGTTCGTCTACCGCGCCGGCCCGGACCGGCATCCGTGGGTCAGCGCCGCCGAGCGCGCGCTGATCCTCGACGCGCCGGCCGACGCATCCACCAGCGCGGCGCCGGCCTACCGGCCGACCCTGCGCCAGTTGATGTCGCACCGGCAGAGCTGGGGGATTGTCGTGGCGCGCTTCTTCATCGATCCGATCTGGTGGCTGTTCGTGTCGTGGCTGCCGATCTACCTCGCCGAAACCTTCGGCTTCGACATCAAGCAGATCGGCATCTTCGCCTGGGTGCCGTTCGTCGGCGCGATGCTCGGCAGCCTGAGCGGCGGCTGGTTGTCCGGACGCCTGATCCAGGCCGGCTGGAGCGTCGACCGCGCGCGCAAATGGGCGATCACCGCCGGCGGCGTGGTGATGGCGCCGGCGCTGCTCGGCGCGGTGCTGGCCACCGACCCGGTCTGGGCGGTGCTGACCATCGCCGCGGTGCTGTTCGGCTTCCAGGTCGCGATCGGCAACATCCAGACCCTGCCCGGCGACCTGTTCGACGGCAAGTCGGTCGGCTCGCTGGCCGGCATCGGCGGCCTGGCCGCAGTCGCCGGCACCCTGATCACCACCTGGCTGGTGCCGGTGATGACCAAGACCTCGTACGCCCCGATCTTCATCCTGGTCGCCGCGCTGGTGCCGCTGTCGCTGATCGCGGTCTGGTGGCTCACCGGGCCGATCGTGAAGCTCGACGGCCCGCCGCGGCGCACCTGA	MNVERSIAPGLQPLRPAPARSAVRWLIVALIAVATVINYIDRNALAVMWPEISRQVGATKDDYALLVTVFMLFYAAGQFVFGRLFDIIGTRLGFALSIAVWSVSIALHAATHSILSFSLVRALLGISEAGAWPGAVKANAEWFPARERALAQGIFNAGASVGAIISAPAIALLFLWLGWRGTFVLVGVLGFVWLLPWLFVYRAGPDRHPWVSAAERALILDAPADASTSAAPAYRPTLRQLMSHRQSWGIVVARFFIDPIWWLFVSWLPIYLAETFGFDIKQIGIFAWVPFVGAMLGSLSGGWLSGRLIQAGWSVDRARKWAITAGGVVMAPALLGAVLATDPVWAVLTIAAVLFGFQVAIGNIQTLPGDLFDGKSVGSLAGIGGLAAVAGTLITTWLVPVMTKTSYAPIFILVAALVPLSLIAVWWLTGPIVKLDGPPRRT	PGPT0017205_1212	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_HEXURONATE_TRANSPORT,PGPT0017205-exuT-K08191	NA	NA
BMS020_05013	2241			Alginate lyase	ATGCGCCTGCCCCGCCGTTCGTTGCCCCTTCTGCTGACGCTGGCTGTTGCCGGCGGCATCGCCGCCCCGCTGACCGCCGCGGCGTCACCGCCGGCCATCGGCAACGAGGCGGGCGACGCGTCGACCGCCCCGGTACTGGTCAGTACCGCGCAGTGGCGGCAGATGGCCGACCAGGGCGCGCGCTACCCGCTGTTCGCCAAGGAACAGGCGCGCGCCGAGAAGAGCCTGCGCAGGATGATGCAGCACGGCCCGGACGTGCCGGTGCCGAAGGACAAGGGCGGCGGCCGCACCCACGAGCAGCACAAGCGCAACTACCAGGCGATCCAGGCCGCCGGCGCGCTGTACCGGCTGACCGGCGATGTTGCCTACGCGCACTTCGCGCGCGACATGCTGCTGCAGTACGCCACGCTGTACCCGGGCCTGGGGCCGCATCCACAGGGGCGCGGGCAGGTCCCCGGCCGGCTGTTCTGGCAGGTGCTCAACGATTCGGTCTGGCTGGTCGCGGCGATCCAGGGCTACGACGCGATCCGCAACACGTTGACGCCCACCGAGCGCCGCACCATCGACGACAACGTGTTCCGGCCGATGGCAGCGTTCCTGTCCGGCACGCCGGAGAACTTCGACAAGATCCACAACCATGCGACCTGGGCGGTGGCCGCGGTCGGCATGACCGGCTACGTGCTGCGCGACCCGGCGCTGGTGCGCAAGGCGCTGCGCGGCAGCCACGAGGACGGCAAGGCCGGCTTCATCGCGCAGATCGACCAGCTGTTCTCGCCGGACGGCTATTACGAGGAAGGCCCGTACTACCAGCGCTATGCGCTGGCGCCGTTCATCCTGTTCGCCAACGCGATCGAGCGCAACGATCCCGGCCAGGCGATCTTCCAGCACCGCGACGGCGTGCTGTTGAAGGCGGTCGACGCGCTGGTGCAGAGCAGCTATGGCGGCTACTTCTTCCCGATCAACGACGCCATCCTCGACAAGGGCCTGGACACCGAGGAACTGGTGGCCGGCATCGACATCGCCTACGCGCATACCAGCGATGCCCGGCTGCTGGCGATCGCCCAGCGGCAGAAGCGCGTGCTGCTGGCGCCGGAAGGCCTGAAGGTGGCGCAGGGCCTGGCCGACGGCAAGGGCGCGCCCTACCCGTTCCGTCCGCTGCTGCTGCGCGATGGCCCGGACGGCAGCCGCGGCGGGCTGGCGATCCTGCGCATGGGCGACGCCGACGGCCAGGCGCTGGTGATGAAGGACACCATGCAGGGCATGGGCCACGGCCACTTCGACAAGCTCAACTGGCTGTTCTACGACAACGGCCAGCGCGTGGTGACCGACTACGGCGCCGCGCGCTTCCTCAACGTCGAGGCCAAGTCCGGCGGCATCTACCTGCCGGAGAACACCAGCTGGGCCAAGCAGACCATCGCCCACAACACGCTGGTGGTCGATGAGCACAGCCACTTCGACGGCGACTGGAAGCGCGGCGAGGCGCTGGCGCCGCAGCAGCTGCTGTTCGATATCCGCGACGACACCCAGCTCAGCTCGGCACGGATGCGCGGCGCCTACCCCGGCGTGGAGTTCACCCGCACGCTGGCGCTGCTGCGCCATCCCGACCTGGCGCTGCCGGTGGCGCTCGACCTGCTGCGCGTGCATGGCACCAAACCGGCGCGCTACGACCTGCCGCTGCACTTCAACGGCCAGGTGATGACGCTCGGCTTCGAGGCGCAGCACTTCAGCGCCGAGCGGCCGGTGCTGGGCCAGGCCAACGGCTATCAGCACCTGTGGCTGGATGCGCGCGGTGCGGCGTCGGCGCAGACGCGCACGCTGAGCTGGCTGCTCGACGGGCGCTTCTACACCTATCGCTTCGGCAGCAGCGCGCCGTCGCAGGCGCTGCTGGTGGAGAGCGGCGCCAACGACCCGCAGTTCAACCTGCGCCGCGAGCCGGCGCTGGTGCAGCGCATCGACGGCGCCCGCGATGTCAGCTTCTTCTCGGTGCTGGAACCGCACGGCGAATACAACGGCACCGCCGAGTACGTGCATGGCGCCAACAGCGGCATCACCGACATCGTGCGCAGCCGTGGCGACGACACCGAGCTGCTGGAACTGCACCTGGTCAGCGGCGCGATCCTGGCGCTGGCGGTGGCCGACGATCCGGCCGCGCAGGCCGAGCACGTGATCACTGCCGGCGGCCACCGCTATGCCTGGCGCGGCGGCTATGCGCGCTTCGACCGCGCCAAGGAGACCAAATGA	MRLPRRSLPLLLTLAVAGGIAAPLTAAASPPAIGNEAGDASTAPVLVSTAQWRQMADQGARYPLFAKEQARAEKSLRRMMQHGPDVPVPKDKGGGRTHEQHKRNYQAIQAAGALYRLTGDVAYAHFARDMLLQYATLYPGLGPHPQGRGQVPGRLFWQVLNDSVWLVAAIQGYDAIRNTLTPTERRTIDDNVFRPMAAFLSGTPENFDKIHNHATWAVAAVGMTGYVLRDPALVRKALRGSHEDGKAGFIAQIDQLFSPDGYYEEGPYYQRYALAPFILFANAIERNDPGQAIFQHRDGVLLKAVDALVQSSYGGYFFPINDAILDKGLDTEELVAGIDIAYAHTSDARLLAIAQRQKRVLLAPEGLKVAQGLADGKGAPYPFRPLLLRDGPDGSRGGLAILRMGDADGQALVMKDTMQGMGHGHFDKLNWLFYDNGQRVVTDYGAARFLNVEAKSGGIYLPENTSWAKQTIAHNTLVVDEHSHFDGDWKRGEALAPQQLLFDIRDDTQLSSARMRGAYPGVEFTRTLALLRHPDLALPVALDLLRVHGTKPARYDLPLHFNGQVMTLGFEAQHFSAERPVLGQANGYQHLWLDARGAASAQTRTLSWLLDGRFYTYRFGSSAPSQALLVESGANDPQFNLRREPALVQRIDGARDVSFFSVLEPHGEYNGTAEYVHGANSGITDIVRSRGDDTELLELHLVSGAILALAVADDPAAQAEHVITAGGHRYAWRGGYARFDRAKETK	PGPT0019410_76	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
BMS020_05014	2193			hypothetical protein	ATGCCTGTTCGGATCCGGCCCCTGCCCCTTCCCCTGCTGGTGCTGTGCGGTCTGTCGGCAGCGCTGCCGGCCCTGGCCACCGACCACCTGGTCCATGATCAGGCCGAATACGCCACCGCCAGCGCCGCGCTGCAGCCCGGCGACACCATCGTGCTGGCCGACGGCGTGTGGAAGGATTTCCGGATCCTGTTCAAGGGCGACGGCACCGCCACCGCGCCGATCACCCTGACCGCGCAGACGCCGGGCAAGGTGGTGCTCAGCGGCCAGTCCGACCTGCGCCTGGCCGGCCAGCACCTGCAGGTCAGCAACCTGGTGTTCCGCGATGGCTGGGCGCCCGCCGATGGCGTGGTGGCGTTCCGTGAATCGAGCAAGGCGCGTGCGGTCAACAGCCGGGTCAGCGGCATCGTCATCGACCACTACAGCAAGCCCGATCCAGCCACCTCGGACAACTGGGTGATGCTGTACGGCCACGACAACCGCTTCGACCACGGCCACCTGCTCGGCAAGACCAACGCCGGGCCGACCGTGGTGGTGGTGCGCGACGCCACCCAGGGCCTGGACAACCGCCACCAGATCGACCACGTCTGGTTCGGCCCGCGCCCCAACCTCGGCGCCAACGGCGGCGAGACCCTCCGCGTCGGCACCAGCACCGACTCGCTGTCCGATTCGCACACCACCGTCGACCACAACTGGTTCGAGGAATGCGACGGCGAGGTCGAGATCGTCTCCAACAAGTCCGGCGGCAACCTCTACCGCGGCAACGTGTTCTACCGCTCGCGCGGCGCGCTGACCCTGCGCCACGGCAACGGCAACCTGGTCGAAGGCAACGCCTTCCTCGGCGGCGGCAAGGCCGGCACCGGCGGCGTGCGCGTGATCAACCGCGACCAGACCGTGCGCAACAACTATTTCGAAGGCCTGACCGGGCAGAAGTACTACTCGGCGCTGAGCCTGATGTACGGCCAGGACGCACCCGCGCTGTCGGGCTACGCGCAGGTCGACAACGCGCGCATCGAGAACAACACCTTCGTCGACGTCGCCCACCTGACCTTCGGCGCCGGCCATGACCCCGGCGCCGACAACCCGATCGTGCTGCCGCCGGTGAACAGCCGCGTACGCGCCAACCTGATCGTCAACGGCGCCACCGATCCCGCCACCGTGCTGGTCGACCTGGCCGGCGTGGCATTCAGCGGCAACCTGCAGAGCCCGCAGGCATCGACCGCCTGGCCGGGCGGCGTCAGCGGCCGCAGCGTGCCGATGCAGCGCGCCACCAGCGGCCTGCTGGTGCCGGCCACCGCGCTTGCAGGGATCGGCGCCGATCCGGCACTGGCCCTGGTCAAACGTGAGGACACCGGCGTCGGCTGGTATGCCAAGGACACCAGCAGCGCCGCGCTGGACAGCGGGCGCGATCACCGTGTCGCCCCCGGCCATGACACCTTGCCGGCAGCGCTGGCCGCCGCCGCGCCCGGCGACCGCCTGCTGCTCGCGGCCGGCGACTACCGGCTGAGCCAGCCGCTGGTGATCGCGCGCACGCTCAGCCTGCTGGGACCGGCGCATGGCCGCGCGGTGCTGACCTCGCGCGCGCCGAGCATGTTCGTGCTGCGCGGCGGCAGCCTGCGGCTGGCGCGGCTGACGCTGTCCGGCCGCGATGCCCCACCGAGCGCCGGCAACGCGCTGCTGCGCGCCGGCGCCGACGCCCGCAACTACACGCTGCGGATCGAGGACAGCCGCATCGAGGCGCTCGATCATGCGCCCGGCTTCGACCTGCTCCACGCCGAGCGCGGCAGCATGGCCGACCTGCTCGCGCTGACGCGGGTGGACGTCGCGCAGGTCTCCGGCCGCGCGCTGGCGCTGGCCGCCGAGACCGACGACCGCGGCCGCTACAACGCCGACCGCGTGCAGATCGTCGACAGTCACCTGCGCGACGTCGCCGGCGCCGTGCTCGACCTGTACCGCGGCGGTCGCGACCAGAGCACGTTCGGGCCGAGCCTGCAGGTCGCCGGCTCGTCGTTCATGCGCACCGGTGCGCTGCGGCTGCACGGCGTGCAGCAGGCGACGCTACGCGACAACCGCTTCGTCGACGCCGGCGGCGTGCGCTTCAGCCACCAGGCCGGGCAGCCGACGCTGGCCATGGCCGGCAACCAGTTCGTCGGCACCCCGGCGATCCAGTCCGATACTCCGATCGAGGTTCTGTGA	MPVRIRPLPLPLLVLCGLSAALPALATDHLVHDQAEYATASAALQPGDTIVLADGVWKDFRILFKGDGTATAPITLTAQTPGKVVLSGQSDLRLAGQHLQVSNLVFRDGWAPADGVVAFRESSKARAVNSRVSGIVIDHYSKPDPATSDNWVMLYGHDNRFDHGHLLGKTNAGPTVVVVRDATQGLDNRHQIDHVWFGPRPNLGANGGETLRVGTSTDSLSDSHTTVDHNWFEECDGEVEIVSNKSGGNLYRGNVFYRSRGALTLRHGNGNLVEGNAFLGGGKAGTGGVRVINRDQTVRNNYFEGLTGQKYYSALSLMYGQDAPALSGYAQVDNARIENNTFVDVAHLTFGAGHDPGADNPIVLPPVNSRVRANLIVNGATDPATVLVDLAGVAFSGNLQSPQASTAWPGGVSGRSVPMQRATSGLLVPATALAGIGADPALALVKREDTGVGWYAKDTSSAALDSGRDHRVAPGHDTLPAALAAAAPGDRLLLAAGDYRLSQPLVIARTLSLLGPAHGRAVLTSRAPSMFVLRGGSLRLARLTLSGRDAPPSAGNALLRAGADARNYTLRIEDSRIEALDHAPGFDLLHAERGSMADLLALTRVDVAQVSGRALALAAETDDRGRYNADRVQIVDSHLRDVAGAVLDLYRGGRDQSTFGPSLQVAGSSFMRTGALRLHGVQQATLRDNRFVDAGGVRFSHQAGQPTLAMAGNQFVGTPAIQSDTPIEVL	PGPT0019415_179	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0019415-algL-K01729	NA	NA
BMS020_05015	2940			hypothetical protein	ATGCGGCGCCATTCCGGAGCCATGCCAGTTGCTGTCGTTGCACGCCCTGTCCGTCATTCCGCGCTGAGCCGTGCGCTGCTGCTCGCGCTGGTCGCCGGAGCGCCCGCGGCCTGGGCGCAGCAGGCCAACCCGGCAGCGGCACCGTTGCCGGCCAGTGGCCAGGCCAGTGCCGCCGCGCCGGCCACCACGCTGGAGCAGGTCCAGGTCACCGGCGTGCGCGAGACGATGCAGAGCTCGATCAGCCGCAAGCGCGACGACACGGTGATCTCCGACGTGCTGTCGGCCGGCGACATCGGCGATCTGCCGGCGCCATCGCTGGCCGATGCGATCGAGACCCTGACCGGCGCGGCCTCGACCCGCGACAAGACCGGCGCCTCGGAGATCTCGATCCGCGGCCTTGGCGCCTTCCTCAGCGCCACCAGCTTCAACGGCCGCGAGATCACCAACGGCAGCGGCGACCGCTCGGTCAACTTCAACATGTTCCCGGCCGAGCTGATCAACACCGTGGCGATCTACAAGACCCAGCGCGCCGACCTGATCGAAGGCGGCGTGGCCGGCACGATCGGGCTGGAGACGGTCAAGCCGCTGGATTACGGCAAGCGCGCGATCCAGCTCGAAGGCAAGGGCACCTGGAACGAGTACGACCGCAAGTACCGCGACGAGGCCGGCATCGGCTGGCGCGGCACCGCCAGCTACATCGACCAGTTCACCTTCGACAACGGCGGCAAGCTCGGCATCTCGCTCGGCATCCAGGCGCTGGACGGCAGCGATCCGGAGGAGAGCATGACCAGCGGCTCGACCTGGTACGCCTGCGACGGCAGCAAGACCACCACCGGCAACTGCACCGAGCCGGGTGCGCAGGCGATCGCCGACGGCACCCCGTACTACCTGGTGCCGAGCAGCCGCATCTACCGGCTCAAGCAGGAGCGCAACGATCGCCAGAGCGAGTTCGCCGCGCTCCAGTGGCGGCCCAACGACGTGGTCGAGCTGAATCTCGACTACGAGCACACCGACCGCAACTGGCACGAAAAACGCTCGGACCTGAGCCTGTCCAACACCCGCCGCGGCATCAGCGACCGCGTGGTCGGCGACGACGGCGTGCTGCAGAGCTACTCCGGCAGCACCTCGATCGACTCGACCTCGACGCTGTACGACCGCCACGAGGAATACACCGGCGGCGGGCTGAACCTGATCCTGCGGCCGTCGGCGGCCTGGGAGGTCTCCACCGACCTGTCGTACTCGCACACGCTGCGCCAGGACACCCAGCGCATGACCCGGCTGCGCGCCAACGCGGTCGACATCAACGGCGACGCGGTCGCCGGCATCAGCAGCGGCGCCACCGGCTATGTCGACTACGACTGGAGCAGGCAGGGCGACATTCCGAGCATCCAGCTCGATCCGGCCTTCGACGTGAACAACTGGGACGCCTATTCCGGCGCCGCGCGGGTCACCTCCGAGGAAGAGGACAACGAACACCGCATCCGCGCCGGGCGCTTCGACGTCAGCTACATGCCCGAGGACGGCCTGCTGACCCGGATCAAGGCCGGCGCACGTGTCGCCCAGGCCGACTACCGCTACTTCGACAACACCATCGTCACCGATTACGACCCGCGCAACGCCGCCGACCTGGCGACGATCGTCGCCGCCAACCAGGCCTGCCGCGCGGCGTTCCCGCAGGACGACTTCCTCGCCGACGGCGGCAGCGGCAACACCATCTCCAGCTGGGCCTATTTCGATCCGTCCTGCCTGTACCAGGCGTTCACCGGCAGCATGGCGACCAACGTCGATCCGGACTACCAGGACCCGGCCAACGTCGACATCACCGAGAAGACCAAGGCGCTGTACCTGATGGGCGAGTTCAGCAGCGAGCTGTTCGGGCTGCCGGTGACCGGCAACCTCGGCGTGCGCTGGGTCAAGACCGACGTGCGCTCGCAGGGCGTGCGCGCCGACCTGACCGCCACCAACAACGCCGACGGCACCATCACCCTGACCTCGGGCGGCAACTACCAGACGCTGGTGATGAAGGCCGGCGATGATCGCCTGCTGCCCAGCGCCAACGCGTCGTTCGAACTGCGCCCGGACCTGCTGCTGCGGCTGGGCGCCTACCGCGCGATGTCGCGGCCGGACATCTCCGCGCTGGGTGCCGGGCGCGATTTCAACGTCAGCGAGGGCACCCCGTACGCCAGCCTGGAAGAGGCGTTGGGCGAAGTGCAGGCCACCGGCAACCCGGAGGCCAAGCCGCTGATGTCGTGGAACGGCGACGTGTCGCTGGAGTGGTATCCGAACCCGGACACCGTGCTGGCCGGCGCGGTGTACTGGAAGCAGTTCAACGGTGGCACCGAGACCCAGCTGTTCGACGAGACCTTCAACATCAACGGCGCCGATGTCACCGTGCCGGTGGCGCGCCAGGTCACCACCGACGAGGACAGCACGCTGACCGGCTTCGAGCTGACCGCCTCGCACCGCTTCTCGTACCTGCCCAAGCCGTTCGACGGGCTCGGCTTCAAAGTCAGCTACAACTATGCCGACGCCGATTACCAGACCCAGGATCCGCGGCTGGGCGAACAGCTGGGCACCAATGGCGTGCTGCTGCCGGCGATCGTCGCCCCGGCCGGCCTGAGCGGCTATTCGCGGCACGTGCTGTCCGGCTCGCTGTACTGGGACCTGGGCAAGCTGAGCGTGCAGGCGATCGGCAAGTTCCGCTCGCACTACTACCAGGACTTCGTCGGCAACACCGCGCAGCAGAACCGCTACTACGGCGACAACACCAGCGTCGACTTCCGCGCCACGTACCGGTTCAGCAAGCAGCTCTCGATGTCGCTGGAGCTGATGAACCTGAGCAACGAAGCGCGCGTGGCCTACCAGCCCGAATACGGCAACTTCCGCGAGTACGTGACCTACGGGCGGCGCGCGTACTTGGGTGTACGATACAAGTTCTGA	MRRHSGAMPVAVVARPVRHSALSRALLLALVAGAPAAWAQQANPAAAPLPASGQASAAAPATTLEQVQVTGVRETMQSSISRKRDDTVISDVLSAGDIGDLPAPSLADAIETLTGAASTRDKTGASEISIRGLGAFLSATSFNGREITNGSGDRSVNFNMFPAELINTVAIYKTQRADLIEGGVAGTIGLETVKPLDYGKRAIQLEGKGTWNEYDRKYRDEAGIGWRGTASYIDQFTFDNGGKLGISLGIQALDGSDPEESMTSGSTWYACDGSKTTTGNCTEPGAQAIADGTPYYLVPSSRIYRLKQERNDRQSEFAALQWRPNDVVELNLDYEHTDRNWHEKRSDLSLSNTRRGISDRVVGDDGVLQSYSGSTSIDSTSTLYDRHEEYTGGGLNLILRPSAAWEVSTDLSYSHTLRQDTQRMTRLRANAVDINGDAVAGISSGATGYVDYDWSRQGDIPSIQLDPAFDVNNWDAYSGAARVTSEEEDNEHRIRAGRFDVSYMPEDGLLTRIKAGARVAQADYRYFDNTIVTDYDPRNAADLATIVAANQACRAAFPQDDFLADGGSGNTISSWAYFDPSCLYQAFTGSMATNVDPDYQDPANVDITEKTKALYLMGEFSSELFGLPVTGNLGVRWVKTDVRSQGVRADLTATNNADGTITLTSGGNYQTLVMKAGDDRLLPSANASFELRPDLLLRLGAYRAMSRPDISALGAGRDFNVSEGTPYASLEEALGEVQATGNPEAKPLMSWNGDVSLEWYPNPDTVLAGAVYWKQFNGGTETQLFDETFNINGADVTVPVARQVTTDEDSTLTGFELTASHRFSYLPKPFDGLGFKVSYNYADADYQTQDPRLGEQLGTNGVLLPAIVAPAGLSGYSRHVLSGSLYWDLGKLSVQAIGKFRSHYYQDFVGNTAQQNRYYGDNTSVDFRATYRFSKQLSMSLELMNLSNEARVAYQPEYGNFREYVTYGRRAYLGVRYKF	PGPT0003790_1601	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_05016	744	nanR_1		HTH-type transcriptional repressor NanR	ATGTCCGAGAACCGCCTCTACCAGACCATTGCCAGCAAGATCCTGAAATCGATCGAGAGCGGCGAATTTCCCGCCGGCACGCGCCTGCCTGGCGAGCGCGAGCTGGCCGAGCGTTTCGGCGTCAGCCGGGTCACCATCCGCGAGGCCGAGATCGCGCTGGAGGCGCAGGGCTGGATCGCGATCAAGATCGGCTCCGGCGTCTACGTCAAGCCGCGCCCGCAGCAGGCGCAGGGCGCGCTGCCGGACGTCAGTGCGTTCGACCTGACCGCCGCGCGCGCGGTGTTCGAGGCCGAGGCGGCGGCGCTGGCGGCCGGCAACATCGACGATGCCGGCGTGGCCGAGCTGGAGGCGCTGGCGCAGGCGCTGTGCCGCACCGACCTGTCCGACCAGGAAGCCAGCGACTACGACCGCCGCTTCCACCTGGCGATCGCGCGGATCTCCGGCAATCCGGTGGTCGAACATTTCATCCAGCAGATCTGGCGCATGCGCAACGAGTTGCCGCGCGTGCGCGAGGTCTATGCACGGGTCTGCCACGACGACGGCGCCAACCGCGCCGACGAGCATGCGGCGATCTTCGAGGCGATCCGCGCGCGCGACCCAGCCGCGGCGCGCAGCGCGATGCGGGTCCACTTCCAACGCCTGTTCGAGGCGATGCTGGCGGCAACCGAGAGCGAGGCGCTGGCCGAGATCCGCCGCCGCACCGAACAGGACCGCGAGCGCTTCCTGGCCACGACCCGGATCTGA	MSENRLYQTIASKILKSIESGEFPAGTRLPGERELAERFGVSRVTIREAEIALEAQGWIAIKIGSGVYVKPRPQQAQGALPDVSAFDLTAARAVFEAEAAALAAGNIDDAGVAELEALAQALCRTDLSDQEASDYDRRFHLAIARISGNPVVEHFIQQIWRMRNELPRVREVYARVCHDDGANRADEHAAIFEAIRARDPAAARSAMRVHFQRLFEAMLAATESEALAEIRRRTEQDRERFLATTRI	PGPT0018214_234	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_HEXONATE|HEXURONATE|HEXURONIDE_UTILIZATION,PGPT0018214-exuR-K19775	NA	NA
BMS020_05017	819			hypothetical protein	ATGAAGCTTGAAGCCCTGTTCGAACAACTCTACGTGCTGCCCACCATCCCCAAGGTGGCGATGGACCTGATGCGCCAGTTCAACGACCCGGATATCGACGTCGATACGCTGGCGCGCAGCATCCGCCACGATCCGGTGGTGGCGGCCAAGGTGCTGCGCCTGGCCAATTCCGCCCGTTACCACGGCCTGCGCGACTGCACCAGCGTGGAGGATGCGTCGATGCGGCTGGGCTTCAACACGCTGCGCACGCTGGTGCTGGCCTCGGCCATCGCCAGCGTGTTCCCGGTGCCGCGCAGCTTCGACCTGGCCGGATTCTGGCGCAACAGTTTCGAGGTGGCAGGCATCTGCCGCCTGCTGGCGCGGATGCAGGGCGCCGATGTCGAGACCGCGTTCACCTGCGGCATGATGCACATCATCGGCGAGCTGCTGATCCAGTGCGGCGCGCCCGAGCAGGCCAGCCATCTGCGCCTGGAAACCACCTCGACCGGGCATGCGGCCGAGGAAACGCTGCAGCTGGGCTTCGGCTATCCGGAAGTCGGCGCCGAGCTGGCGCGGCGCTGGAACCTGCCCAAGGTCATCCAGGACTCGATCGCCTTCCAGCTGCATCCCGCCGCCGCGCCGCCGGGCGAGCCGATGCCGGTGCTGGTGGCGCAGGCGGTGCTGGTCTCGGACGTGCTGCGCACCCAGGGGGGCATCACCGCGGAGGCGCGCGACCTGCTGTCCGGGCCGTTGATGGCCTCGGTCGACCTCGATGCGCTGCTGGAGGCGTTGCCGCAGGTGCTGGAGGACGAGCGCAGCTTCGCCGAGATGCTGGCCTGA	MKLEALFEQLYVLPTIPKVAMDLMRQFNDPDIDVDTLARSIRHDPVVAAKVLRLANSARYHGLRDCTSVEDASMRLGFNTLRTLVLASAIASVFPVPRSFDLAGFWRNSFEVAGICRLLARMQGADVETAFTCGMMHIIGELLIQCGAPEQASHLRLETTSTGHAAEETLQLGFGYPEVGAELARRWNLPKVIQDSIAFQLHPAAAPPGEPMPVLVAQAVLVSDVLRTQGGITAEARDLLSGPLMASVDLDALLEALPQVLEDERSFAEMLA				NA	NA	NA	NA	NA
BMS020_05018	1770	dtpD_2	COG3104	Dipeptide permease D	ATGCGCTCGACCGCCGCTTCCGTTCCAGCCCCAGCTTCCGACGATTTCCTCGGCCATCCCAAAGGCGTCTACGTCTGCTTCTTCACCGAAATGTGGGAGCGCTTCTCGTTCTACGGGATGAAGGCGCTGCTGCTGCTGTACCTGACCAAGTACCACCTGTTCGGCGACGACGCCGGCTACGACCTGCTCGGCGCCTACGGCGGCCTGGTCTACTGCATCCCGGTGTTCGGCGGCCTGCTCGCCGACCGCTGGCTGGGCATGCGCAAGGCGGTGGTGTTCGGCGGCATCCTGCTGGTGCTCGGCCACCTCGGCATGGCCTTTGAAGGCCACGCCGCCACCCGTGTCGACGGTGTGGTGGTGCGCGACACCACCGCGCTGGCCTGCACCTACGTCTCGCTGGCGCTGATCATCATGGGCGTGGGCTTCCTCAAGCCCAACATCTCCACCATCGTCGGCAAGCTCTACGCCGAAGGCGACCCGCGCCGCGATTCGGGCTTCTCGCTGTTCTACGCCGGCATCAACCTGGGCTCGCTGTTCGCCTCGCTGGTGTGCGGCTTCATCGGCGAGGCCTACGGCTGGCGCTACGGCTTCGGCGCTGCCGGCATCGGCATGCTGGTCGGCCTGGCGATGTTCCTGTGGGGGCAGAAGTACCTGCACGGCCATGCCGAATCGCCAGCGCCAGCGGCGCTGCGCGAGCGCGTGGCCGGGCTGCCGCGCGAGTGGCTGATCTATGCGCTGGCCGTGGTCGGCGTGCTGCCGGTGGCCTGGCTGATGTGGGCCGCCGGCAACGGCGCGTTCTCGCTCGGCGGCGAAATCTCGCTGGCACTGCTGCTGATGCTGCTGGTGCTGGGCGGCGTGCTGGTCTGGTTCGCCTGGTTCACCGGCACCCAGTGCACGCCGGTGCAGCGCCAGCAGATGTGGGCGCTGATGGCGCTGATCTTCATGACCCTGGTGTTCTTCACCCTGTACGAGCAGACCTACGGCTCGTGGGTGACCTTCACCGACCGCCTGCTGACCAAGGACCTGGTGCCGGCGCTGGTGATCCGCGACGGCACCCCGCTGCCGTGGTCGATCGCCTCGCTGCTGCTGGCGCCGCTGGGCTTCGTGGTCGCCGCGCGGATGTCCGACCGCAACCCGGCCTCGTCGGCGCCGCGCACGCTGTTCATCGCGGTGGTTGCGCTGATGCTGGTGTTCCTGCTGCGCGACTGCATCGTGCTGCCGCAGACCGCCGGTTCGCTGACCTACCTGGGCGCGCTGTTCCTGGTGCTGCTGGCGCCGCTGTTCGCGCTGCTGTGGGCGTGGCTGGAACGGCGCGGCCGCGATCCGTCCAAGCCGATCAAGTCGGCACTCGGATTGATGCTGGCCGGCGTGTCGTTCATCCCGCTGGCGATCGCCGCGCAGCAGGTCGGCCTGAGCGGGCAGATGGCCAGCGTGTGGTGGCTGGTGCTGGCGTACTTCCTGCTGGAAGCCGGCGAAATGTGCCTGGCACCGGTCGGATTGTCGGCGGTGACCCAGCTGGCGTTGCCGCGCGTGGTCAGCCTGATGATGGGCACCTGGTTCCTGGCCACCGCGTTCTCCGAGGCGCTGGCGGCGCTGTTCGGCAAGCTGGCGGCGGTCGAGGTGCCCGACGGGCAGAGCCTGGACCTGGCGCAGGCCTCGGCCGGCTACGCGCACCTGTTCTGGCTGATGACCTGGATCGGTCTGGGCTGCGGCGTGCTCGCGCTGCTGGCCGCGCCGCTGCTGCGGCGGATGATGCACGGGGTCCGCTGA	MRSTAASVPAPASDDFLGHPKGVYVCFFTEMWERFSFYGMKALLLLYLTKYHLFGDDAGYDLLGAYGGLVYCIPVFGGLLADRWLGMRKAVVFGGILLVLGHLGMAFEGHAATRVDGVVVRDTTALACTYVSLALIIMGVGFLKPNISTIVGKLYAEGDPRRDSGFSLFYAGINLGSLFASLVCGFIGEAYGWRYGFGAAGIGMLVGLAMFLWGQKYLHGHAESPAPAALRERVAGLPREWLIYALAVVGVLPVAWLMWAAGNGAFSLGGEISLALLLMLLVLGGVLVWFAWFTGTQCTPVQRQQMWALMALIFMTLVFFTLYEQTYGSWVTFTDRLLTKDLVPALVIRDGTPLPWSIASLLLAPLGFVVAARMSDRNPASSAPRTLFIAVVALMLVFLLRDCIVLPQTAGSLTYLGALFLVLLAPLFALLWAWLERRGRDPSKPIKSALGLMLAGVSFIPLAIAAQQVGLSGQMASVWWLVLAYFLLEAGEMCLAPVGLSAVTQLALPRVVSLMMGTWFLATAFSEALAALFGKLAAVEVPDGQSLDLAQASAGYAHLFWLMTWIGLGCGVLALLAAPLLRRMMHGVR	PGPT0021010_379	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021010-TC_POT-K03305	NA	NA
BMS020_05019	1173			hypothetical protein	ATGCACCACGCCCAGTCCACCGTCCCTGCCGCCCCACTGCCGGGCCACCGCCTCGCCTCGATCGACCAGCTGCGCGGCACGGTGATGCTGCTGATGCTGCTCGACCACGTGCGCGAAACGTTCTACCTGCACCAGCAGCTCAGCGACCCGGTCGATGTCGCGCAGACCGCGCCGGCGCTGTTCCTGTGCCGGCTCCTGGCGCATCTATGCGCGCCGGTGTTCGTGCTGCTGACCGGGCTGTCGGCGTGGCTGTACGGCCAGGGCAAGGACCGCCGCGCGGTCGCCGGCTTCCTGGCCACGCGCGGGCTGTTCCTGGTGGTGCTGGAACTGACCCTGGTGAATTTCGCCTGGACCGCCCAGTTCCCGCCGCAGACCTTGTACCTGCAGGTGATCTGGGCGATCGGCCTGAGCATGCTGGCGCTGGCGGCGCTGCTGTGGCTGCCGCGCGCGGCGCTGGTCGTGCTCGGCGTGGCGCTGGTGGCCGGGCACAACCTGCTCGACGGTTGGCGCCCGCAGGGCGAGGCCGCCGGCGCGCTGTGGGCGGTGCTGCACCAGCGCGGCTGGCTGCAGCCGTTCGACGGCCTGCGCCTGCGCACCTCGTATCCGGTGCTGCCGTGGATCGGGGTGATCGCACTCGGCTATACGCTCGGCCCGTGGTTCGCCCGAGGCGCCGATACGGCGCGGCGCCAGCGCCTGCTGCTCGGCACCGGGTTGGCCGCGCTGGCGGCATTCGCGCTGCTGCGTTGGCTCGACGTCTACGGCGACGCGCCGCGGCTGCACGGCAGTGGCGATGCCTTGCTGGCGGCGATGAGCTTCCTCAACGTCACCAAATACCCGCCATCGCTGCTGTTCCTGCTGCTGACGTCGGGTGTTGGGCTGCTGCTGTTGCGCCTGTACGAAGCGCCGCGACTGGCGGCATGGCTGCGGCCGCTGGCCGACATCGGCGCGGCGCCGATGTTCTTCTACCTGCTGCACCTGTACGTGCTGGCGCTGCTGTCGCTGGCCGCCACCGCGCTGTGGGGGCACAACCACGGGACGTACTTCGGCGTCGGCTCGGTGGCGGCGCTGGTCGTGATCGCCGCCGCGCTCGGCGTGGTGCTGTACTGGCCGACCCGCGCGTTCGCACGGCTGAAGGCACGCCGGCGTGACCTGGCCTGGCTGCGCTACTTCTAG	MHHAQSTVPAAPLPGHRLASIDQLRGTVMLLMLLDHVRETFYLHQQLSDPVDVAQTAPALFLCRLLAHLCAPVFVLLTGLSAWLYGQGKDRRAVAGFLATRGLFLVVLELTLVNFAWTAQFPPQTLYLQVIWAIGLSMLALAALLWLPRAALVVLGVALVAGHNLLDGWRPQGEAAGALWAVLHQRGWLQPFDGLRLRTSYPVLPWIGVIALGYTLGPWFARGADTARRQRLLLGTGLAALAAFALLRWLDVYGDAPRLHGSGDALLAAMSFLNVTKYPPSLLFLLLTSGVGLLLLRLYEAPRLAAWLRPLADIGAAPMFFYLLHLYVLALLSLAATALWGHNHGTYFGVGSVAALVVIAAALGVVLYWPTRAFARLKARRRDLAWLRYF				NA	NA	NA	NA	NA
BMS020_05020	1971			hypothetical protein	ATGAGCAGCGATGCGCAGCCGCGCCAGCTGACCTTCCGTGCCGTGGTCCTCGCGGTCGTCCTGGCGGTGGTGCTGTCGGCCGCCAATGCCTACCTCGGCCTGTTCGCCGGGTTGACCATCGCCACCGCGATTCCCGCGGCGGTCGTCTCGATGGGCGTGCTGCGCCTGCTCGGCGGCGGCAGCATCCTCGAGAACAACATCGTCCAGACCGGCGCCTCGGCCGGCTCGTCGATCGCCGCCGGGGTGATTTTCACGATCCCGGCGCTGGTGATCATGGGCTACTGGCCGGACTTCAAGTACTGGTGGGTGCTCGGCATCGCCGGTCTCGGCGGCCTGCTCGGCGTGCTGTTCTCGGTGCCGCTGCGGCGCTCGATGATCGTCGAGGACCCGCTGCCGTTCCCCGAGGGCAAGGCCGCCGCCGAAGTGCTCAAGGCCGGCGAGAATCCGGGCCCGGGCCTGAAGATCCTGGCGCTGTCCGGCGCGATCGGCGCGCTGGTCAAGCTGGCCGCGGCCAGCGGCCTGCGGCTGATCCCCGATACCTGGACCCAGTCGGCCTACGTCGGCAGCTCCAAGGTCACCGCCTTCCTCGGCACCAACCTGTCGCCGGCGCTGCTCGGCGTGGGCTACATCGTCGGCCTCAACGTCGGCATCGTGGTGGTGTCCGGTTCGATCCTGTCCTGGCACATCGCGATCCCGCTGTACCAGGCGTTCTTCGCCAACAGCGATCCGGCGCTGGCCGCCTCGATCGCCGATGCGTCCTCGGCCGATGCCGCGTTTGCGATCTGGGGCGCGAAGATCCGCTACCTCGGCGTCGGCGCGATGCTGATCGGCGGCATCTGGACGCTGTTCTCGCTGCGCAAGTCGCTGCTCAACGGCATCAAGTCCGGCTTCGCCGCGGCGCGCAAGAGCAGCGGCGGTGCGGTGGTCGCCGAGACCGAGCGCGACCTGCCGATGAAGTGGATGCTGGTGGCGCTGGTGCTGTTCACGCTGCCGCTGCTGGGCCTGTACCAGGCCATCGTCGGCCAGTGGCACGTATCGATCCCGATGACCATCATCATGATCGTCGCCGGCTTCCTGTTCGTGTCGGTGTCGGGCTACCTGGCCGGCCTGATCGGCTCGTCCAACAACCCGGTCTCGGGCATCACCATCTCGACCATCCTGTTCGCCTCGGCGGTGCTGGTGCTGCTGCTGGGCAAGAGCGGGCTGGTGCCGGTCGGCGCCGGCGGCGCGCCGCTGGGCGCGGTCGCGGCGATCATGATCGGTGCGGTGGTGTGCTGCGCGGCGGCGGTCGGCGGCGACAACCTGCAGGATCTCAAGGCCGGCTACCTGGTCGGCGCCACGCCGTGGAAGCAGCAGCTGATGATCGGCATCGGCGCGTTCTCGTGCGCGCTGATCATGGCGCCGGTGCTGAGCCTGCTGTCGCACGCCTACGGCATCGGCGCGCCGACCCCGGAACACCCGAACGCGCTGGCGGCGCCGCAGGCCAACCTGATGGCCTCGGTCGCACGCGGCCTGTTCGGCGGCCAGCTGCCGTGGACAATGATCGGCCTGGGCGCGGTGGTCGGGGCGGTGGTCATCGCCCTCGACGAATGGCTGAAGAAGACCGGCAAGCGTTTCCGCGTGCCGGTGCTGGCCGCGGCGATCGGCATCTACCTGCCGCTGGAGCTGATGGTGCCGATCTTCCTCGGTGGCCTGCTGGCGCACCTGGTCGAGCGCTTCCACAAGGTGCGCGCCGACGACGAGGAAGGCCGCGACCGCGTGCATCGTCCGGGCGTGCTGTTCGCCGCCGGCCTGATCACTGGCGAGGCGTTGATGGGCATCGCGATCGCGATCCCGATCGTGGTCTCGGCGCGTGCCGACGTGCTGGCGCTGCCTGCGTTGTTCCAGCTCAACCAGTGGATCGGCCTGGCGATCCTGGCCCTGGTCGGCTGGCTGATGTACCGCATCGGCAAGCGCGGCGAACAGGCCTGA	MSSDAQPRQLTFRAVVLAVVLAVVLSAANAYLGLFAGLTIATAIPAAVVSMGVLRLLGGGSILENNIVQTGASAGSSIAAGVIFTIPALVIMGYWPDFKYWWVLGIAGLGGLLGVLFSVPLRRSMIVEDPLPFPEGKAAAEVLKAGENPGPGLKILALSGAIGALVKLAAASGLRLIPDTWTQSAYVGSSKVTAFLGTNLSPALLGVGYIVGLNVGIVVVSGSILSWHIAIPLYQAFFANSDPALAASIADASSADAAFAIWGAKIRYLGVGAMLIGGIWTLFSLRKSLLNGIKSGFAAARKSSGGAVVAETERDLPMKWMLVALVLFTLPLLGLYQAIVGQWHVSIPMTIIMIVAGFLFVSVSGYLAGLIGSSNNPVSGITISTILFASAVLVLLLGKSGLVPVGAGGAPLGAVAAIMIGAVVCCAAAVGGDNLQDLKAGYLVGATPWKQQLMIGIGAFSCALIMAPVLSLLSHAYGIGAPTPEHPNALAAPQANLMASVARGLFGGQLPWTMIGLGAVVGAVVIALDEWLKKTGKRFRVPVLAAAIGIYLPLELMVPIFLGGLLAHLVERFHKVRADDEEGRDRVHRPGVLFAAGLITGEALMGIAIAIPIVVSARADVLALPALFQLNQWIGLAILALVGWLMYRIGKRGEQA				NA	NA	NA	NA	NA
BMS020_05021	2067	dpp5	COG1506	Dipeptidyl-peptidase 5	ATGAAGCTCCGTACTGCCCTGCTGCCCCTGGCCCTGCTGGCCGCGCTGCCCGCCGTGGCCGGCGCGCGCGGTTTCGAGGTGCGCGACATGGTCGCGCTCGACCGCGTGTCCGAACCGACGCTCAGCCCCAACGGCGGCACCCTGGTGTTCGCCAAGCGCGAGATGGACGCCGCGCTCAGCAAGGCCAGCACCGGCCTGTGGGTGCGCGACCTGCGCACGCGCGACATGGCCCCGCCGAAGCGCCTGACCCCGGACGGCTGGAACGTGAATTCGCCGGCGTTCTCGGCGGACGGGCAGACCGTGTACTTCCTCAGCGCCAAGTCCGGCAGCCAGCAGCTGTACGCGCTGCCGCTGGCCGGCGGCGAGCCGCGCCAGCTGACCGATTTCGCGGTGGACGTGGACAGCTTCAAGCTCTCGCCGAAGGGCGAGCGCATCGTGTTCAGCGCCGGCGTGTTCCAGGACTGCGGCTCCGACCTGGCCTGCAGCAAGCAGAAGGTCGAGGCCGCTGAAAAATCCAAGGCCAGCGGCAAGGTGTTCGACCAGCTGTTCGTGCGTCATTGGGATACCTGGAACGACGGTCGCCGCAACACCTTGTTCGTCGCCGAGCTGCCGGCCGCGGGCGCCAAGCCGGTGGTCGGCGCATCGGCGATCAGCGCCACCATCGCCGGCGATGCGCCGTCCAAGCCGTTCGGCGGCAACGACGACTACGCCTGGTCGCCCGACGGCAAGAGCGTGGTGGCCAGCATCCGCGTCGCCGGCGCGAAGGAGCCGTGGTCGACCAACTTCGACCTGTACCGCCTGGACGCTGCCGGCCGCAAGGCGCCGGCCAACCTGACCGCCGCGAACCCGGCCTGGGACGCCGGCCCGGTGTTCAGCGCCGACGGCAAGACCCTGTACTACCGCGCGATGAAGCGCCCGGGCTTCGAGGCCGACCGCTTCGGCCTGATGGCGATGGACGTGGCCAGCGGCAGGGCGCATGAGATCGCCCCGGGCTGGGACCGCTCGACCGGCGAGATCGTGTTGTCGGCCGACGGCAAGAGCATCTATACCAGCGCCGACGACGTCGGCGAGCACCCGCTGTTCCAGGTCGCGATCGCCGACGGCAAGGTCACCGAACTGGTCGGCGAGGGCACCGTGCACGCCCCGACGCTGGCCGGCCCGACCCTGGCCTTCACCCGCAACTCGCTCAAGAGCGGCGACCAGATCTTCGTCGCCGACGTGCAGGGCCAGCACCTGCGCGCGATCACCCCAAGCGCCAGCGAGATGCTGCCGGACGTGCAGTTCGGCGACTTCGAGCAGTTCAGCTTCAAGGGTTGGAACGACGAGACCGTGCACGGTTACGTGGTCAAGCCGCACGACTACCAGCCGGGCAAGCGCTACCCGGTGGCGTTCCTGATCCACGGCGGCCCCCAGGGCAGCTTCGGCAACGGCTGGAGCTACCGCTGGAACCCGCAGACCTACGCCGGCCAGGGCTACGCAGTGGTGATGATCGATTTCCACGGTTCCACCGGCTACGGCCAGGCCTTCACCGATGCGATCAGCCAGCACTGGGGCGACCGCCCGCTGGAAGACCTGCAGAAGGGCTGGGCCGCGGCGCAGCAGCAGTATTCCTTCCTCAACGGCGACAAGGCCTGCGCGCTCGGTGCCAGCTACGGCGGCTACATGACCTACTGGATCGCCGGCAACTGGAACCAGCCGTGGAAGTGCCTGGTCGACCACGACGGCGTGTTCGACAACCGCATGATGGGCTACAGCACCGAGGAGCTGTGGTTCAGCGAGTGGGAGAACGGCGGCACCCCGTGGGCGAACCCGGACAAGTACGAGAAGTTCAACCCGGTCAACCACGTCAAGGACTGGCGCGTGCCGATCCTGGTGATCCATGGCCAGAAGGACTTCCGCATCCCGGTGGAGCAGGGCCTGGCCGCGTTCACCGCCGCGCAGGCGCGTGGCATCGAGTCCAAGTTCCTGTACTTCCCGGACGAGAACCACTGGGTGCTCAAGCCGCAGAACTCGATCCTGTGGCACGACACCGTCAACGCCTGGCTCAAGCAGCACATCGGCGACTGA	MKLRTALLPLALLAALPAVAGARGFEVRDMVALDRVSEPTLSPNGGTLVFAKREMDAALSKASTGLWVRDLRTRDMAPPKRLTPDGWNVNSPAFSADGQTVYFLSAKSGSQQLYALPLAGGEPRQLTDFAVDVDSFKLSPKGERIVFSAGVFQDCGSDLACSKQKVEAAEKSKASGKVFDQLFVRHWDTWNDGRRNTLFVAELPAAGAKPVVGASAISATIAGDAPSKPFGGNDDYAWSPDGKSVVASIRVAGAKEPWSTNFDLYRLDAAGRKAPANLTAANPAWDAGPVFSADGKTLYYRAMKRPGFEADRFGLMAMDVASGRAHEIAPGWDRSTGEIVLSADGKSIYTSADDVGEHPLFQVAIADGKVTELVGEGTVHAPTLAGPTLAFTRNSLKSGDQIFVADVQGQHLRAITPSASEMLPDVQFGDFEQFSFKGWNDETVHGYVVKPHDYQPGKRYPVAFLIHGGPQGSFGNGWSYRWNPQTYAGQGYAVVMIDFHGSTGYGQAFTDAISQHWGDRPLEDLQKGWAAAQQQYSFLNGDKACALGASYGGYMTYWIAGNWNQPWKCLVDHDGVFDNRMMGYSTEELWFSEWENGGTPWANPDKYEKFNPVNHVKDWRVPILVIHGQKDFRIPVEQGLAAFTAAQARGIESKFLYFPDENHWVLKPQNSILWHDTVNAWLKQHIGD				NA	NA	NA	NA	NA
BMS020_05022	399			hypothetical protein	ATGTCCGCTCCACGCTCCCCGTATGCCGTCGGCCAGCTCTGGCGCTGCGTCGGACGCACGCCAACGGAAACGCCAACGCTGCTGATCGACCGCATCGAACAGCACCCCAAGGGCACCGGCGAAATCCTGCACGTCACCATCCGCGACATCCAGCTGCGCCACCCCGGCCTGCCCGGTGGCATGCTCACCTCGATGCCGCACGTGCCGGTGATCGGCCAGAGCCTGGAGCTCAGCCAGGCCGAACTGGTCGGCGAGGACGCGCCCGATCCGGCCTACCTGGCCGGCTACACCGAATGGAAGGCGGCGTTCGATGCTGGTCATGCCGGCTCGTTCGGCATCGCCGTTGCCGAGATCCTCGACATCATCGAACGCCAGCTCAGCCAGCGCAGCGCGCACTGA	MSAPRSPYAVGQLWRCVGRTPTETPTLLIDRIEQHPKGTGEILHVTIRDIQLRHPGLPGGMLTSMPHVPVIGQSLELSQAELVGEDAPDPAYLAGYTEWKAAFDAGHAGSFGIAVAEILDIIERQLSQRSAH				NA	NA	NA	NA	NA
BMS020_05023	741	rhaS_10		HTH-type transcriptional activator RhaS	ATGAAAAGCGTCGACCCTGCCGATCTCGAAGCCCTGTTCGATGCCGTCCCCGACGTGCTGTTCTTCGTCAAGGACCGCGAGGGTCGCTACACCCACGTCAACCAGACCATGCTGCGGCGGCTGGGGTTGAAGTCGCGCAAGGAATTGATCGGCAAGCGCGTGGCCGAGGTCTACCCGGCCGGGTTGAGCGATTACGCCAACCAGGACGAGCGCGTGCTCGCCGGTGAGGTCATCGACAACCTGCTCGAGCTGCACCTGTTCGCCAACCGCGAGCCGGGCTGGTGTCTGACCTGCAAGCGCCCGTTGCGGGTGAACGGCGAGATCCAGGGCATCATCGGCATCTCGCGCGACCTCGATCCGCGCGACGGCCACGACACCCAGTACGAAAAGCTGCGCCTGGCGCTGGCCTACCTGCACCTGAACTACGCGCAGAACGTGCGCATGCAGACGCTGGTGGACCTGACCGGGTTCTCGATGTCCAAGCTGCAGCGCTCGTTCCGCCGGGTGTTCCAGCTCACGCCGCAGCAGGTGTTGGCCAAGCTGCGGCTGCAGATGGCGATGCACCTGCTGCATGGCCGCCAGAGCGTGACCGAGATCGGCCATGCCTGCGGCTTCAGCGACCAGAGCGCGTTCACCCGTCAGTTCAAGGCCGCCACCGGTGTGACCCCGAGCGAATACCGCGCGCTGGCCAACGCACGCCTGCTCGAACCGGTGGCGCCGCCGGAGAGTGCGCCGCGTTGA	MKSVDPADLEALFDAVPDVLFFVKDREGRYTHVNQTMLRRLGLKSRKELIGKRVAEVYPAGLSDYANQDERVLAGEVIDNLLELHLFANREPGWCLTCKRPLRVNGEIQGIIGISRDLDPRDGHDTQYEKLRLALAYLHLNYAQNVRMQTLVDLTGFSMSKLQRSFRRVFQLTPQQVLAKLRLQMAMHLLHGRQSVTEIGHACGFSDQSAFTRQFKAATGVTPSEYRALANARLLEPVAPPESAPR				NA	NA	NA	NA	NA
BMS020_05024	177			hypothetical protein	ATGACCCAGGGCGACAAATCCAGCTATACCGCCAAGCAGAAACGCCAGGCCAAGCACATCGAAGACAGCGAGCGCGAGCAGGGCCGCAGCAAGCAGGACGCCGAGCGCATCGCATGGGCCACCGTCAACAAGCAGGACGGCGGCGGCAAGAAGAAACCGGCGCACGCCAAGCACTAG	MTQGDKSSYTAKQKRQAKHIEDSEREQGRSKQDAERIAWATVNKQDGGGKKKPAHAKH				NA	NA	NA	NA	NA
BMS020_05025	2112	katE_1		Catalase C	ATGGCCACCCGCAAGCAGACCGGCAACCCGTCCCACTCCCGCAGCGACACACGTACCGCCGGACCGCGCGACCGGCGCGGCCACGGCGACGAGCTGCACCAGCATGCCGGTGGCACGCATCCGCCACTGACCACCAACCAGGGCATTGCGGTCAGCGACAACCAGAACTCGCTGCGCAGCACGCCGCGCGGACCGACGTTGCTCGAAGACTTCGTGCTGCGCGAGAAGATCACCCATTTCGACCACGAGCGCATTCCCGAGCGCATCGTGCATGCACGTGGCAGCGCCGCGCACGGCTACTTCGAGCTGACGGACTCGCTGGCCGACTACACCACCGCCAGGCTGCTGACCGAAGTCGGCGTCAAAACCCCGGTGTTCACCCGCTTCTCCACCGTCGCCGGTGGCGCCGGCTCGGTCGACACCCCGCGCGACGTGCGCGGCTTTGCGGTGAAGTTCTACACCCAGGAAGGCAACTTCGACCTGGTCGGCAACAACATCCCCGTGTTCTTCATCCAGGATGCAATCAAGTTTCCCGACTTGATCCATGCGGTGAAGATGGAGCCGGACCGTGGCTTCCCGCAGGCTGCGAGCGCGCATGACACCTTCTGGGACTTCATCTCACTGACGCCGGAAGCGTTCCACATGATCATGTGGGCGATGAGCGACCGGGCGATCCCGCGCTCGCTGCGGATGATGGAAGGTTTCGGCATCCACAGCTTCCGCCTGCTCGATGCCGAGGGCCGGAGCACCTTCGTCAAGTTCCACTGGCGGCCGAAACTCGGACTGCAGTCCACGGTCTGGGACGAGGCGGTGAAACTGGCCGGCGCCGATCCGGACTTTCATCGGCGCGACCTGTTCGAGGCGATCCAGGCCGGCGATTTCCCCGAGTGGGAACTCGGCGTGCAGCTGTTCAACGAGGAGGACGCGGCGGCGTTCCCGTTCGACCACCTCGACCCGACCAAGCTGATCCCGGAGGAACTGGTACCACTGCAGATCATCGGCCGGATGGTGCTGGACCGTTGGCCGGACAATTTCTTCGCCGAAACCGAACAGGTCGCCTATTGCCCGGCCAACATCGTGCCGGGCATCGATTTCAGCAACGATCCGCTGCTGCAGGGACGCCTGTTCTCATATCTGGACACCCAGCTCTCGCGCCTGGGCGGACCCAACTTCCACCAGCTCCCGGTCAATGCACCCAAGTGCCCGTTCGCCAACCATCAGCGCGACGGCCACATGCAGATGCAGCGCCCGAAGGGGCGCGTGGCCTACGAGCCGAGTTCGCTGCAGGCCGATTCACCGCGCGAGACCCCGCAAGGTTTCCGCAGTCATGCCACGCCAGCGGACGAGGGGAGCAAGGGCCGCGTGCGTCCGGAGAGCTTCGCCGACCACTACACCCAGGCGCGGCAGTTCTTCCGCAGCCAGACCGCGCCGGAGCAGGCGCATATCGCCAGCGCGCTGGTGTTTGAGCTGTCCAAGGTCGAGACCGCGCATGTGCGCGAGGCAGTGGTCGGGCATCTGCGCCACGTCGATCCAGCGCTGGCGCAGCGCGTCGCCGACGGCCTGGGCCTGGCCACCCTGCCCCCCGCGCCTCCCGCCCAGGTGCAGCCCAACGAGCAGCCGGCATCGCCGGCGCTTCAGATCATCGGCAAGATGAAGGACACGCTGCGCGGACGCACGCTCGGCATCCTCGTCCATGACGGCTCCGATGCAGCTTCGATCAAGGCGCTGCGCAAGGCTGCCGAGTCCGCAGGTGCGATGGTCAAGATCGTCGCACCGCGGCTCGGTGGCGCCACGCTTGAAGACGGCAAGCGGCTGGCCGCCGACGGCCAGCTCGCCGGCACGCCGTCGTTCGTGTTTGATGCGGTGGCGGTGCTGCTCTCGCCCGAGGCGGGCAAGCAACTCGCCAAGGATGCGGCGGCGATCGACTTCGTCAGCAACGCGTGGGCACATCTGAAGGCGATCGCCTACGATGACGGCGCCGCACCGCTGCTGAAGGCCGGCAATGTCGGCAAGGATGCCGGCGTGGTGGCCGCCAGCGACGTCAAGGCGTTCATCGCCGCCGCCAAGACCCGGCAGTGGGCACGCGAACCAAAGGCGCGCATGCTGGCATGA	MATRKQTGNPSHSRSDTRTAGPRDRRGHGDELHQHAGGTHPPLTTNQGIAVSDNQNSLRSTPRGPTLLEDFVLREKITHFDHERIPERIVHARGSAAHGYFELTDSLADYTTARLLTEVGVKTPVFTRFSTVAGGAGSVDTPRDVRGFAVKFYTQEGNFDLVGNNIPVFFIQDAIKFPDLIHAVKMEPDRGFPQAASAHDTFWDFISLTPEAFHMIMWAMSDRAIPRSLRMMEGFGIHSFRLLDAEGRSTFVKFHWRPKLGLQSTVWDEAVKLAGADPDFHRRDLFEAIQAGDFPEWELGVQLFNEEDAAAFPFDHLDPTKLIPEELVPLQIIGRMVLDRWPDNFFAETEQVAYCPANIVPGIDFSNDPLLQGRLFSYLDTQLSRLGGPNFHQLPVNAPKCPFANHQRDGHMQMQRPKGRVAYEPSSLQADSPRETPQGFRSHATPADEGSKGRVRPESFADHYTQARQFFRSQTAPEQAHIASALVFELSKVETAHVREAVVGHLRHVDPALAQRVADGLGLATLPPAPPAQVQPNEQPASPALQIIGKMKDTLRGRTLGILVHDGSDAASIKALRKAAESAGAMVKIVAPRLGGATLEDGKRLAADGQLAGTPSFVFDAVAVLLSPEAGKQLAKDAAAIDFVSNAWAHLKAIAYDDGAAPLLKAGNVGKDAGVVAASDVKAFIAAAKTRQWAREPKARMLA	PGPT0014380_1077	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
BMS020_05026	1047			hypothetical protein	ATGCCTTCGCCCTGCTCCTCCTTCTTGCTGATGCGCCGCGGGCTTGGCGTACTGGCCATCCTGCTCGCGCTGTCAGGCAGCGCGAGCGCTGCGCCCGCACCCGCACCCGCACCCGCACCCGCCCAGCCTGCATTCGAACTGATCGCACTCGGCGTCGAGGGCGGCCTGCACGACGGCGATCTGAGCGCATGGCTGGTGCGTGCGCCCGAGGACGCGCGCCTGCTGGCACTCGATGCCGGCACCCTGCTGCCCGGGATCGAACGCACGCTGGCACGCGCGCCATTGGAATGTGGCACGCCCGACTCCGCGCTGTCGCCGGCCGGCCATGTGCTGCGCGACTGCATCGCCGGCTACTTCATCAGCCATCCGCACCTGGACCATGTCGGCGGGCTGCTGATCGCCGCCACCGACGACAGCCGCAAACCGATCTACGGGCTGGCGTCCACGCTGGATGCCTTGTCGGCGGACTACTTCAACTGGAGCGCCTGGCCGAACTTCGCCGACCGCGGCGCCGCGCCGGCATTGAAGCAGTACGCGCTGCGCACGCAACAACCCGACAGCTGGTTCGACGTCGAAGGCACCTCGCTGCAGGCGCTGCTGCTGCCGCTGCAGCACGACCGCATGACCTCGTCGATGATCCTGCTGCGCAGCGGCGACGCCTACCTGGCCTACTTCGGCGATACCGGCCCGGACCGGCCGCAGCACAGCACGCGCCTGGCCGACGCGTGGCAACGGCTGGCGCCACTGGCGCGCCGCGGCGCGCTGCGCGGCATCGTGATCGAGACCTCCTATGCCAACGGCGTGGCGGACGACAAGCTGTTCGGCCACCTGACCCCGCACTGGCTGCTGCAGGAGCTGCACAACCTCGCCGATGCCAGCGGCGGCCCGAGCGCGCTGCGCGGCCTGCCGGTGCTGGTCACCCACATCAAGCCATCGCTGCAGGCCGGCCGCGATCCGCGCGCCTTGATCCGCAACCAACTGGAACAGGGCAACGACCTTCAGCTGCGGCTGCTGTTCCCGCAGCAGGGCGAGCGGCTGGGGCTGTGA	MPSPCSSFLLMRRGLGVLAILLALSGSASAAPAPAPAPAPAQPAFELIALGVEGGLHDGDLSAWLVRAPEDARLLALDAGTLLPGIERTLARAPLECGTPDSALSPAGHVLRDCIAGYFISHPHLDHVGGLLIAATDDSRKPIYGLASTLDALSADYFNWSAWPNFADRGAAPALKQYALRTQQPDSWFDVEGTSLQALLLPLQHDRMTSSMILLRSGDAYLAYFGDTGPDRPQHSTRLADAWQRLAPLARRGALRGIVIETSYANGVADDKLFGHLTPHWLLQELHNLADASGGPSALRGLPVLVTHIKPSLQAGRDPRALIRNQLEQGNDLQLRLLFPQQGERLGL	PGPT0021490_137	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021490-cpdP-K01120	NA	NA
BMS020_05027	855			hypothetical protein	ATGACGGTCAGCCTGGCGATGCTGCTGCACTCACGGATCGATTCCCAGCTGGATGCGCCCGCGCTGATCCAGCAGCTCTGCGATGACTGGCCGGACCTCGATCCGGCGCTGCTGAAGCCCTCCGCCACCGCGGACGACACCGACGCCAGTGATGGCCATGCCGCCGGGCAGGTGCTGAGCCTGGACTACGACGGCCAGATGATTGCGCTGATGCAGATCCCCGCGCCGATCGGCGATGACATCGCGCAGATCTGCGCGCATAGCCGCCTCTGGCCCGACAGCACGCCCGCGCCCGAGGGCTACACCGCCCATACCCTGGTCACGGTGGTCGGCTTCGGCGATCAGGACGCCGACGAGGGCAATGGCATCGCGCGCGCCGCCCTGCTGAGCAAGGTGCTGGCCTCGGCCATCGCGCTGCGCGAGGACATCCAGGCGGTGTACTTCGGCGACGCCAACCATGTCGTGCTGCCGCAGCTGTTCCGCGACCTCGCCCGGGAACTGCTGCCGCAGCCGCTGCCGATGGCCTGGGTGGCGATCAATGTCGGCCAGCGCCCCGATGGCGTGATGACCGGCCACACCCGTGGCATGGGGATGCTGGGGCTGATGGACATCGAGATTCCGTCCACGCGCGACAGCGCCGAGGACGTCTACGGGCGCCTCACCGGCATCTGCGACTATCTGATCGAACACGGGAACGTCATCAACGACGGCGACACGCTCGGCAGCACGGAGCACGAGCGGATCAAGGTGGTCCATGCGCCCTCGGCCTTCGGCGATGGCCGCCAGGTGATGCGCCTGGACGCCGAGCCGGTCGAAGCGCCGCCGCGCAGCTGGTGGAAGAAGCTGCTCAACTGA	MTVSLAMLLHSRIDSQLDAPALIQQLCDDWPDLDPALLKPSATADDTDASDGHAAGQVLSLDYDGQMIALMQIPAPIGDDIAQICAHSRLWPDSTPAPEGYTAHTLVTVVGFGDQDADEGNGIARAALLSKVLASAIALREDIQAVYFGDANHVVLPQLFRDLARELLPQPLPMAWVAINVGQRPDGVMTGHTRGMGMLGLMDIEIPSTRDSAEDVYGRLTGICDYLIEHGNVINDGDTLGSTEHERIKVVHAPSAFGDGRQVMRLDAEPVEAPPRSWWKKLLN				NA	NA	NA	NA	NA
BMS020_05028	2865	gcvP_2		Glycine dehydrogenase (decarboxylating)	ATGTCCCAGAACACCCCCTCGCTGCGCGACCTCGAACACCACTCGGCCTTCGTCGAGCGCCACATCGGCCCCAACGACGCCGAGATCGCGCAGATGCTCACCGTGGTCGGCCACGGCTCGCTCGATGCGATGACCGATGCGATCGTGCCCGGCAACATCAAGTCGCCGGCCGCGCTGGCGCTGCCCGACGGCATCACCGAAGAAGAGGCGCTGGCCAAGATCCGCGCGATCGCCAGCAAGAACCAGGTGTTCAAGAGCTTCATCGGCCAGGGCTATTACGGCACCCACACGCCGAAGGTGATCCTGCGCAACATCCTCGAGAACCCGGCCTGGTACACCGCCTACACGCCGTACCAGGCGGAGATCTCGCAGGGCCGCATGGAAGCGTTGATCAACTTCCAGACGATGTGCGCCGACCTGACCGGCATGGAGATCGCCAACGCCTCGCTGCTCGACGAAGCCACCGCCGCGGCCGAGGCGATGACCCTGGCCAAGCGCTCGGCCAAGTCCAAGTCCAACACCTTCTTCGTCCACGATGCGGTGCACCCGCAGACGCTGGAACTGCTGCGCACCCGCGCCGAGCCGCTGGGCATCGTGCTGGAACTGGGCACCCCGGAACAGGCGCTGGAGGCCGACGTATTCGGCGTGCTGCTGCAGTACCCGGACAGCTTCGGTCACATCGGCGACCACAAGGCGCTGGCCGAGGCCGTGCACGCGCGCGGCGGCCTGGTCGCCGTCGCCACCGACCTGCTGGCGCTGACCCTGATCGCCGCGCCCGGCGAATGGGGCGCGGACATCGTGGTCGGCAACAGCCAGCGCTTCGGCGTGCCGTTCGGCTTCGGCGGCCCGCACGCCGCGTTCATGGCCTGCCGCGACGCCTACAAGCGTTCGATGCCGGGCCGCCTGATCGGCGTGTCGATCGACGCCGCCGGCAACCCCGCCTACCGTCTGACCCTGCAGACCCGCGAGCAGCACATCCGCCGCGAGAAGGCCACCTCCAACATCTGCACCGCACAGGTGCTGCTGGCGGTGATGGCCTCGATGTACGCGGTGTACCACGGCCCCGACGGTCTGACCCGCATCGCCCGCCGCACCCACCGCCTGGCGGCGATCCTGGCCGCGGCGCTGCGCAGCGCCGGCGTCAGCGTCGGCGAGCGCTTCTTCGACACCCTGCACGTCAAGGGCATCGACGCCGCGGCGATCCACGCCAAGGCGCAGGCCGCCGGCATCAACCTGCGGGCGATCGACAGCGAAGCGGTCGGCATCAGCCTCGACGAGACCACCACCCGCGCCGACCTGGTCGCGCTGGGCGCGCTGTTCGGCGCCACGGTCGACGTCGATGCGCTCGACGCCGCCACCGCCGATGCGCTGCCGCAGGGCCTGCTGCGCACCAGCGCGTTCCTGCAGCACCCGGTGTTCAACACCCACCACAGCGAGCACGAGCTGCTGCGCTACCTGCGCCTGCTGGCCGACAAGGACCTGGCGATGGATCGCACGATGATCCCGCTGGGCTCGTGCACGATGAAGCTCAACGCCACCGCCGAGATGATCCCGGTGACCTGGCCGGAATTCGCTTCGATCCATCCGCTGGCCCCGGCCGCGCAGTGGACCGGCTACAAGCAGCTGATCGACGAGCTGGAAGCGATGCTGGTCGAATGCACCGGCTACGACGCGGTGAGCCTGCAGCCGAACTCCGGCGCGCAGGGCGAATACGCCGGCCTGCTGGCGATCCGCGCCTACCACCGCGCGCGCGGCGAAGGCCATCGCGACATCTGCCTGATTCCCGAATCCGCGCACGGCACCAACCCGGCCTCGGCGCAGATGTGCGGCATGAAGGTGGTGGTGACCAAGTGCGACGCCAACGGCAACGTCGATGTCGACGACATCCGCGCCAATGCCGAGAAGTATTCGGACCGCCTGGCCGCGCTGATGATCACCTACCCGTCCACGCACGGCGTGTTCGAGGAAGACGTGGTCGCGATCTGCGAAGCCGTGCATGCGCACGGCGGCCAGGTCTACACCGACGGCGCCAACATGAACGCCCTGGTCGGCGTGGCCAAGCCCGGCAAGTGGGGCTCGGACGTGTCGCATCTGAACCTGCACAAGACCTTCTGCATCCCGCACGGCGGCGGCGGCCCGGGCGTCGGTCCGTGCGCGGTGAAGGCGCACCTGGCACCGTTCCTGCCGCGCACGCTCGGCGGCGAAGGCGATGTCGGCATGGTCAGCGCGGCCAGCTTCGGTTCGGCGTCGATCCTGCCGATCAGCTGGATGTACATCACCATGATGGGCACCGCCGGCCTGCGCAAGGCGACCCAGGTCGCGCTGCTCAACGCCAACTACATCGCCAAGCGCCTGGCACCGCACTTCAAGACGCTGTACACCGGCCGCAACGGGCTGGTCGCGCACGAGTGCATCCTCGACGTGCGTCCGCTGGAGAAGAGCAGCGGCATCGGCGCCGAGGACATCGCCAAGCGCCTGATCGACTTCGGCTTCCACGCCCCGACCCTGAGCTTCCCGGTCGCCGGCACGCTGATGGTCGAGCCGACCGAGAGCGAATCGCAGCACGAGCTGGACCGCTTCATCGACGCGATGATCCAGATCCGCGAGGAGATCGCCGCGGTCGAGGACGGCCGCCTGGATCGCGACGACAACCCGCTCAAGCACGCCCCGCACACCGCGCTGCAGGTCTCGGGCAGCGAGTGGACCCACGCCTACCCGCGCGAGCTGGCCGCCTTCCCGCTGCCCAGCCTCAAGCAGGCCAAGTACTGGCCGCCGGTGGCACGGGTGGACAACGTCTACGGCGACAAGAACATCATGTGCGCCTGCATCCCGGTCGATGCGTACAAGGAAGACGTCGAGGCCTGA	MSQNTPSLRDLEHHSAFVERHIGPNDAEIAQMLTVVGHGSLDAMTDAIVPGNIKSPAALALPDGITEEEALAKIRAIASKNQVFKSFIGQGYYGTHTPKVILRNILENPAWYTAYTPYQAEISQGRMEALINFQTMCADLTGMEIANASLLDEATAAAEAMTLAKRSAKSKSNTFFVHDAVHPQTLELLRTRAEPLGIVLELGTPEQALEADVFGVLLQYPDSFGHIGDHKALAEAVHARGGLVAVATDLLALTLIAAPGEWGADIVVGNSQRFGVPFGFGGPHAAFMACRDAYKRSMPGRLIGVSIDAAGNPAYRLTLQTREQHIRREKATSNICTAQVLLAVMASMYAVYHGPDGLTRIARRTHRLAAILAAALRSAGVSVGERFFDTLHVKGIDAAAIHAKAQAAGINLRAIDSEAVGISLDETTTRADLVALGALFGATVDVDALDAATADALPQGLLRTSAFLQHPVFNTHHSEHELLRYLRLLADKDLAMDRTMIPLGSCTMKLNATAEMIPVTWPEFASIHPLAPAAQWTGYKQLIDELEAMLVECTGYDAVSLQPNSGAQGEYAGLLAIRAYHRARGEGHRDICLIPESAHGTNPASAQMCGMKVVVTKCDANGNVDVDDIRANAEKYSDRLAALMITYPSTHGVFEEDVVAICEAVHAHGGQVYTDGANMNALVGVAKPGKWGSDVSHLNLHKTFCIPHGGGGPGVGPCAVKAHLAPFLPRTLGGEGDVGMVSAASFGSASILPISWMYITMMGTAGLRKATQVALLNANYIAKRLAPHFKTLYTGRNGLVAHECILDVRPLEKSSGIGAEDIAKRLIDFGFHAPTLSFPVAGTLMVEPTESESQHELDRFIDAMIQIREEIAAVEDGRLDRDDNPLKHAPHTALQVSGSEWTHAYPRELAAFPLPSLKQAKYWPPVARVDNVYGDKNIMCACIPVDAYKEDVEA	PGPT0020480_1876	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020480-gcvP-K00281	NA	NA
BMS020_05030	1233	bcr_3		Bicyclomycin resistance protein	ATGACCGCTTCCACGCCCTCGACCCGCCGCCTGGCGCTGCTGCTCGCCGGCCTGGCGATGTTCGGCCCGTTCTCGATCGACACCATCTTCCCGGCCTTCCACCAGCTCGGCGAGCGCCTGCACGTGGACCAGGTGGCGGTGCAGCAGACGATCAGCGTCTACCTGCTGTTCTACGGGCTGATGAGCGTGGTGCACGGGCCGCTGTCGGATGCGTGGGGTCGCAAGCGGGTGATCGCCGGCGGGCTGGTGGTGTTCATCGGCGCCTCGATCGGCTGCGCGCTGGCAGGCGATCTGACCACGCTGCTGGCGTTCCGCGCGCTGCAGGGGCTGTCGGCCGGCGTCGGCATGATCGTCGGCCGCGCGGTGATCCGCGACGTGTTCCATGGCCACGATGCGCAGCGGCTGATGAGCCAGGTGTCGATGATCTTCGGCATCGCCCCGGCGATCGCGCCGATCATCGGCGGCTGGCTGCTGGCCACCGGGGCCGGCTGGCGGCTGATCTTCTGGTTCCTGGCCGGGTTCTCGGCGCTGCTGCTGGTGGCCACGCTGGCGTTGCTGCCGGAGACCCATCCGCCGCAGGCGCGGCGCGCGCTGAGCCCGGGCCCGCTGCTGCGCGACTACGTGCGGATCGGCTTCAATCCGCGCTTCCAGCGCCTGGCCGCGGCGGGCGCGCTGAACTTCGGCGGCATCTTCCTGTACATCGCCTCGGCGCCGGTGTTCGTGATGCAGCACCTGCGGCTGGGCGAAGGCGATTTCGCCTGGCTGTTCATCCCCACCATCGGCGGCATGACCCTTGGCGCGTTCCTGTCCGGGCGCATGGCCGGGCGCATCCCGGCGCAGCGCCAGGTGCGCATCGGCTTCATCTGCTGTGGGCTGTCGGCGCTGCTCAACGTCGGCTACAACCTGGCCGTGGCCTCGCCGGCATTGCCGTGGGCGGTGGTGCCGATCTTCCTCGGCGGCCTCGGCATGGCGCTGATCTTCCCGATCCTGGCGCTGGCGGTACTGGACATGTACCCGGAGCAGCGTGGCCTGGCGTCCTCGCTGCAAGCCTTCAGCCAGCTGATGATCAACACCGTGATCGCCGGCGTGCTGTCGCCGCTGCTGAGCGATACCCCGCTGCACCTGGCGCTGGGCGCGGCCGCCTTTTTCCTCAGTGGCTGGCTGTTCTGGCGCTGGGACCGACGCCAGTGCCGGCGCGAGCTGCGGGCCCGACAAACGCCGGGCGCGGCCTGA	MTASTPSTRRLALLLAGLAMFGPFSIDTIFPAFHQLGERLHVDQVAVQQTISVYLLFYGLMSVVHGPLSDAWGRKRVIAGGLVVFIGASIGCALAGDLTTLLAFRALQGLSAGVGMIVGRAVIRDVFHGHDAQRLMSQVSMIFGIAPAIAPIIGGWLLATGAGWRLIFWFLAGFSALLLVATLALLPETHPPQARRALSPGPLLRDYVRIGFNPRFQRLAAAGALNFGGIFLYIASAPVFVMQHLRLGEGDFAWLFIPTIGGMTLGAFLSGRMAGRIPAQRQVRIGFICCGLSALLNVGYNLAVASPALPWAVVPIFLGGLGMALIFPILALAVLDMYPEQRGLASSLQAFSQLMINTVIAGVLSPLLSDTPLHLALGAAAFFLSGWLFWRWDRRQCRRELRARQTPGAA	PGPT0029005_893	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
BMS020_05031	414			hypothetical protein	ATGTCGATCGGATCCAAGACCCGCCGAGACGCGCGCCGCCGCCAGGTCGAGCGCGCCCAGCACCAGGCCGACGCCCGCGCCACGGCCGCACCGGCGGTGGAGCCGCATGCCGAGCTGCGCGACCAGTCGCGCAAGCTGCTGGCCGGCATCGTGCGCCGCGACGGCGTCTGGGTGCTGGGCATGGATGGGCGCATCGCCGGTGAGTCCGACAGCGCTGCGCGCGTGCTGGCGCTGATCATGCAGGCCGCCGAGCTGCACGAACGCCAGGGCACCGCGGTGCGGTTGGTGTATTCCGATGCGCTGAAGGACGCGGCACATGCCGAGGCGCGCAACGAAGGCCTGGACTTTCTCCAGTACAAGGCGCGCCTGGCCGGCGAGCTTGGCAAGCCGCCGGCGGGTGGCACGCCGTCGTGA	MSIGSKTRRDARRRQVERAQHQADARATAAPAVEPHAELRDQSRKLLAGIVRRDGVWVLGMDGRIAGESDSAARVLALIMQAAELHERQGTAVRLVYSDALKDAAHAEARNEGLDFLQYKARLAGELGKPPAGGTPS				NA	NA	NA	NA	NA
BMS020_05032	534			hypothetical protein	GTGAACCTGCCGGCAGCGCCGTCGCCGGCGTTGCGTCCGCTGCGCCAGGATGACGCGCCGGCACTGCTGGCGGCGCATCGCGCCAGCGTGGAGCTGCACCGGGGCTGGGTCAGCCCATGCCTGGATCAGGACGGGTTCGATGCCTGGTTCGCACGGGTGGCCGGCGGCGAACTGATCTGCCTGCTGGCCACGGTGCGGCATGAGGGTGCAGAAGTGGTGGTGGTGGGCGTGTGCACCTTCAGCCAGGTCGTGCTGGGCAACTTCTGCAGTGCCTATCTGGGCTACTATGCCTGCGAGCCGGCCGCCGGCCGCGGACTGATGACGCCGGTGCTGCGACAGGCGGTGGCGTACGGCTTCGACCGGCTGGGCCTGCACCGCATCGAGGCCAACATCCAGCCCGGCAACCTGCGCTCGCGGGCGCTGGCGCAGCGTGTCGGTTTCCGCCTCGAAGGCTATTCGCCGCGGTACCTGAAGATCGACGGCGAATGGCGCGACCACGAGCGTTGGGCGCTGCTGGCAGACGACCCGGGCTGA	MNLPAAPSPALRPLRQDDAPALLAAHRASVELHRGWVSPCLDQDGFDAWFARVAGGELICLLATVRHEGAEVVVVGVCTFSQVVLGNFCSAYLGYYACEPAAGRGLMTPVLRQAVAYGFDRLGLHRIEANIQPGNLRSRALAQRVGFRLEGYSPRYLKIDGEWRDHERWALLADDPG				NA	NA	NA	NA	NA
BMS020_05033	2019			hypothetical protein	GTGAACCACCGCCCCGCCCTGTTGGCGCTTGCCCTGGCCGCCGGCCTGCTGTCGTTGTCGGCCTGCCGCAAGCCGGCCGAACCGGACAAGGCCGCGCCCGCCGCGCAGGCCGCCCCCGCCGAGAGCGCCGACCAGTTCGTCGCCCGCATCAACGACGCATACAAGGCGAGCTATCCGGAGATCACCTCGGCACAGTGGCTGTCGGCGACCTACATCAACGGCGACTCGCAACGCGTCGCCGCCAAGGCCAACGAGCGCACCCTGGCCCAGCTCAACCAATGGATCGCCCAGGCGCGCCAGTACGACGGCAAGCCGATGTCGGCCGACAGCGCGCGCGCCTTGCGCCTGCTCAAGCTGATGACCTCGATGCCGGCACCGCGCGATCCGACCCACCTGGCCGAGCTGACCGCGATCGCGGCGAAGATGGAAGGCGATTACGGCGCCGGCAGCTACTGCACCGGCGAGGGCGACGCGCGGCGCTGCCGCCAGCTCGGCGAGCTGGAGCAGGTGCTGGCCGGCAGCCGCGATTACGCCGAACAGCTCGACGCCTGGCAGGGCTGGCATGGCGTTGCCGCGCCGATGCGCAAGGACTACCAGCGTTTCGTCGAGCTCGCCAACGAGGGCGCGCGCGACATGGGCTTCGCCGACGCGGGCGAGCAGTGGCGCAGCGGCTACGACATGCCGCCGGCGCAGATCGCCACCGAGACCGACCGCCTGTGGACGCAGGTCAAGCCGCTGTACGAACAGCTGCAGTGCTATGCGCGCGGCAAACTCGACAAGGAATACGGCGCCGACAAGGGCGAGCTGCCCGGCGGCCTGCTGCCGGCGCACCTGATGGGCAACATGTGGCAGCAGGACTGGTCCAACCTGTGGGACCTGCTGCAGCCCTACCCCGGCGCCGGCGACCTGGACATCACCGCGGCGCTGGAAAAACAGTACCAGGCCAACCTCAGCGCGCAGCTGGCCAAGGCGCCGGGCGACGGCAGCGCCGCCAGCCGGTTCCGCGCCGAACGCGAGGCGCAGCTGCGCACCGCCAGGCAGATGACCGAGCGTGCGCAGGACTTCTATACCTCGCTGGGCATGCCGGCATTGCCTGCGAGCTACTGGCAGCGCTCGCAGTTCATCAAGCCGCTGGACCGCGACGTGGTCTGCCACGCCAGCGCCTGGGACATGAACATGGGCGGCGACGGCACGCCGGACAACGGTGCCGACGTCCGCACCAAGATGTGCATCAAGCCGACCGAGGAAGACTTCACCACGATCTACCACGAGCTCGGCCACATCTATTACGACCTGGCCTACAACCCGCTGCCGCCGCTGTTCCAGGGCGGCGCCAACGATGGCTTCCACGAGGCCATCGGCGACACCATCGTGCTGGCGATGACCCCGCAGTACCTGCAGTCGATCGGCCTGGTCGGCGAGCAGCAGCGCAGCCGCGAGGCGCTGATCAACGCACAGATGCGCATGGCGCTGAGCAAGGTCGCGTTCCTGCCGTTCGGGCTGATGATCGACCGCTGGCGCTGGGGCGTGTTCGACGGCTCGATCACCCCGGACCACTACAACGAGGCATGGTGGCGGCTGAAGGCGCAGTACCAGGGCGTGGCCCCGGCGACGCCGCGCGGCGAGCAGTTCTTCGATCCGGGCGCGAAGTACCACGTGCCGGGCAACACCCCGTACACCCGTTACTTCCTCGCCCACATCCTGCAGTTCCAGTTCTACAAGGGCCTGTGCGAGGCCGCCGGCAACACCGGGCCGCTGTACGAATGCAGCTTCTACGGCAACAAGGAGGCCGGGCAGAAGTTCTGGGCGATGCTGCAGCGTGGCGCCAGCCAACCGTGGCAGGCGACGCTGAAGGAACTGACCGGCAGCGACACGCTCGACGCCGCACCGATGCTGGAGTATTTCGCGCCGATGCAGGAATGGCTCAAGCAGCAGAACGAAGGACGGATGTGCGGCTGGGATGCTGCGGCGGCAAGCAAGGCGACCGCACCGACGCCGGCCGCTGCGACGCCGCACTGA	MNHRPALLALALAAGLLSLSACRKPAEPDKAAPAAQAAPAESADQFVARINDAYKASYPEITSAQWLSATYINGDSQRVAAKANERTLAQLNQWIAQARQYDGKPMSADSARALRLLKLMTSMPAPRDPTHLAELTAIAAKMEGDYGAGSYCTGEGDARRCRQLGELEQVLAGSRDYAEQLDAWQGWHGVAAPMRKDYQRFVELANEGARDMGFADAGEQWRSGYDMPPAQIATETDRLWTQVKPLYEQLQCYARGKLDKEYGADKGELPGGLLPAHLMGNMWQQDWSNLWDLLQPYPGAGDLDITAALEKQYQANLSAQLAKAPGDGSAASRFRAEREAQLRTARQMTERAQDFYTSLGMPALPASYWQRSQFIKPLDRDVVCHASAWDMNMGGDGTPDNGADVRTKMCIKPTEEDFTTIYHELGHIYYDLAYNPLPPLFQGGANDGFHEAIGDTIVLAMTPQYLQSIGLVGEQQRSREALINAQMRMALSKVAFLPFGLMIDRWRWGVFDGSITPDHYNEAWWRLKAQYQGVAPATPRGEQFFDPGAKYHVPGNTPYTRYFLAHILQFQFYKGLCEAAGNTGPLYECSFYGNKEAGQKFWAMLQRGASQPWQATLKELTGSDTLDAAPMLEYFAPMQEWLKQQNEGRMCGWDAAAASKATAPTPAAATPH				NA	NA	NA	NA	NA
BMS020_05034	1662	eptA_2	COG2194	Phosphoethanolamine transferase EptA	ATGAGCACGACCCTGTCGCGCCGCGGCGGCTTCGAGCTGTCCGCCCAGGTTGCCCGCCTGCGCCAATGGCGTCCGGAGATCGCGCTGGAATGGGTGATCCTGGGCAGTTGCGTGTTCTTCGCGCTGGCCTGCAACCAGATGTTCTGGCGCAGCGCGCTGGCCACGCACGACAGCAGCGTGCGCTTCGCGGTGTCGCTGTTCGCGCTGCTGGTCTCCACCCACGCGCTGCTGTTCGGCATGCTGGTGTGGCGCTGGAACGCCCGCCTGCTGCTGACCGCGCTGTTCGTCTGCACCGCCTTCGCCGCGCATTACATGAACAGCTACAGCGTCTACCTTGACGCGGACATGCTGCGCAACGTGCTGCATACCGACCACAAGGAGTCGCGCGAGCTGATGACCCCGGGCCTGATCGCGCCGCTGCTGTTCTACGCGGTGCTGCCAAGCGCGGTGCTGTGGCGGCTGCGGCTGGTCCGGCGCGGCTGGCACCAGGCGCTGGGGATGCGGGCGCTGTTCCTGATGACCGTGGCACTGGTCGGCGGCGGGGCGACGATGGCCTCCTACCAGGACATCTCCGCGCTGATGCGCAACCATCGCGAAGTGCGCTACCTGGCGACGCCGCTGAACTACCTGGTCGCGCTGCGCCAGAACATGAAGTCTGATTCGCCGATCAAGCACGCTCCCAAGGCGCCGATCGAGCACGATGCGATGGCCACGCCGCGCGCACCCGGCAGCCGGCCGCGCCTGCTGCTGGTGGTGGTCGGCGAGACCGCGCGGGCGCAGGACTGGGGCTTGAACGGTTATGCGCGCCAGACCACGCCGGAGCTGGCGCAGACCGGAGTGATCAACTTCCCGGACATGCATTCGTGCGGCACCAGCACCGAGGTCTCGTTGCCGTGCATGTTCTCGCCGTGGGGACGCCACGACTACAACGAGGACCGCATCCGCGGGCACGAATCGTTCCTGCACGTGTTCGAGCATGCGGGCATCGCCACGCTGTGGCGCGACAACCAGTCCGGCTGCAAGGGCGTGTGCGACGGTCTGCAGATCCAGCAGCTCGACGATGCGACCAAGCCCGGCCTGTGCAGCGACGGGCGCTGCATGGACGAGATCCTGCTCGACGACCTCGCTGCCCAGGTCCGCGCGCATCCTGGTGACCGGGTGGTGGTGTTGCACCAGCTGGGCAACCACGGCCCGGCCTACTACCAGCGCTATCCCGCGCGGTTCCGCCGCTTCACGCCGACCTGCGATACCGCCGAGCTTGGCCAGTGCAGCCGCGAGCAGATCGTCAACACCTACGACAACGCAGTGCTGTACACCGACCACTTCCTCGACCGCGCGATCGGCACGCTGCGCTCGCTGCCCGACTACGACACCGCGATGATCTACCTGTCCGACCATGGCGAATCGCTCGGCGAGAAGGGGCTGTACCTGCACGGCGTGCCGTACGCGATCGCCCCCGAGGAACAGACCCGGGTGCCGATGGTGATGTGGTTCTCGCCGGAATTCGCCCATGACCGCGGCCTGGACCTGCAATGCCTGCGGCAGCGCGCCGGCCAATACACCGACCACGACAACCTGTTCCCGTCGGTGCTCGGCCTGATGCAGGTGAAGACCTCGGTGTACGACCGCTCGCGCGACCTGTTCGCCGCCTGCACCGGCTGA	MSTTLSRRGGFELSAQVARLRQWRPEIALEWVILGSCVFFALACNQMFWRSALATHDSSVRFAVSLFALLVSTHALLFGMLVWRWNARLLLTALFVCTAFAAHYMNSYSVYLDADMLRNVLHTDHKESRELMTPGLIAPLLFYAVLPSAVLWRLRLVRRGWHQALGMRALFLMTVALVGGGATMASYQDISALMRNHREVRYLATPLNYLVALRQNMKSDSPIKHAPKAPIEHDAMATPRAPGSRPRLLLVVVGETARAQDWGLNGYARQTTPELAQTGVINFPDMHSCGTSTEVSLPCMFSPWGRHDYNEDRIRGHESFLHVFEHAGIATLWRDNQSGCKGVCDGLQIQQLDDATKPGLCSDGRCMDEILLDDLAAQVRAHPGDRVVVLHQLGNHGPAYYQRYPARFRRFTPTCDTAELGQCSREQIVNTYDNAVLYTDHFLDRAIGTLRSLPDYDTAMIYLSDHGESLGEKGLYLHGVPYAIAPEEQTRVPMVMWFSPEFAHDRGLDLQCLRQRAGQYTDHDNLFPSVLGLMQVKTSVYDRSRDLFAACTG	PGPT0022420_324	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0022420-eptA-K03760	NA	NA
BMS020_05035	771			hypothetical protein	ATGCCGCGCATTCTCCGCCACGCCACCCGCCCGATGCCCGCGTCCTTCCCATCGCCTGCCACTGTCGCGCTGCCCGCGGCGGCACGTCCCTCGCGCTTCCTTCGCCGGCATCTGTGGTGGCCGCTGGCCGGCGCACTGGCGGCAAGCACCGTGCTGATGGGCTTCGGCCTGGACCAGCACCTGGCCGACCTGCTGTACAGCGCCGAAGGCGGCCAGTGGCTGCTCAAGGACCACTGGCTGACCACCAGCGTGGTCCATCACGACGGCAAGCTGCTCAGCACCATCGCCGCGCTCGCGGTGCTGGCGGCCGGGCTGTTCGCGCCCCGCGGCACGCGCCTGCGTGCCTGGCGTCGCCCGCTGCTGGTGCTGGCCGCATCGATCGCGCTCGCCACCGTGCTGGTCTCGGTGCTGAAGTCGTTGACCGGCATGGACTGCCCCTGGGACCTGGCGCGCTACGGCGGCCACCGCCCGTTCGTCGGCCTGTTCGAATCCCGCCACGGACTAGCCGCCAGCGGCTGCTTCCCGGCCGGGCACGCCAGCGCCGGCTACGCCTGGGTGGCGCTGTACTTCTTCGCGCTGGCGGTACGGCCACGCTGGCGTTGGGCCGGCCTCGCTGTCGGCCTCGGCGCCGGGCTGGTGTTCGGCATCTCGCAGCAACTGCGCGGCGCGCACTTCCTGTCGCACGACCTGTGGACGTTGATGGCGTGCTGGTGCTCGGCGCTGGCCTTGCACCTGGCATTCGGCCGCGCCGCCGGGGAGGAGCTGGCATGA	MPRILRHATRPMPASFPSPATVALPAAARPSRFLRRHLWWPLAGALAASTVLMGFGLDQHLADLLYSAEGGQWLLKDHWLTTSVVHHDGKLLSTIAALAVLAAGLFAPRGTRLRAWRRPLLVLAASIALATVLVSVLKSLTGMDCPWDLARYGGHRPFVGLFESRHGLAASGCFPAGHASAGYAWVALYFFALAVRPRWRWAGLAVGLGAGLVFGISQQLRGAHFLSHDLWTLMACWCSALALHLAFGRAAGEELA				NA	NA	NA	NA	NA
BMS020_05036	1683	arnT_2		Undecaprenyl phosphate-alpha-4-amino-4-deoxy-L-arabinose arabinosyl transferase	ATGCTGGCCATGCTGGCGATGCTGCTGGCCCTGGTCGCCGGGCTCGGGCTGCGCCAGCCCAACCCGCCCGACGAGCCGCGCTTCGTGCTTGCCGCGCGCGCCATGGTCGAAACCGGGCAATGGCTGCTGCCGCACCGGGGCAGCGAGCTGTACGCCGAGAAGCCACCGGTGTTCATGTGGATGCAGGCGGCGACGTGGACCCTGTTGCGCGACTGGACGATCGCGTTCCTGCTGCCGTCGCTGCTGGCGGCGCTGGCCACGCTGTGGCTGAGCTGGGATCTGGCGCGGCGGCTGTGGAACCGGCGGGTCGCCGCCTATGCGGTGCTGGCGCTGTTCGCGACGCTGCAGTTCGGGGTGATGGCCAAGCGCGCGCAGATCGACATGGTGCTGGTGGCGCTGACCACGCTGTCGCTGTGGGGCCTGCTGCGGCACCTGCTGCGCGGTCCCGACTGGCGCGGCTGGTGGATCGGCGCGTTCGCCGCCGGCGTCGGCACGGTGACCAAGGGCGTGGGCTTCCTGCCGCTGCTGGTGCTGCTGCCATGGGCCGCATGGCGCTGGCGCATGCGCGCGGACGCCGGCGTGCCGACCACCGGCGGCGCCTGGTGGCGGTGGGCGCTGACCGCGCCGCTGTTCCTGGCCGGCACCGCGGTATGGCTGCTACCGCTCGGTGTGGCCCTGCTGCATCATCCGACCCCGGCGCTGCAGGCGTATGCGCACGAGCTGCTGTTCAAGCAGACCGCGACCCGCTACGCCTCGGCCTGGCACCACATCCAACCCGCCTGGTACTACCTGCAGGTGATCGCCACGCTGTGGCTGCCCGGCTGCCTGCTGCTGCCGCAATTGCTGCCGGCCTGGTGGCGGCGGATCCGCCGCGGCGATCCCCGCCCCTGGCTGCTGGTCGGCTGGGCGCTGCTGGTGCTGCTGTTCTTCAGCGCCAGCCCGGGCAAGCGCGAGGTGTACATCTTCCCGGCATTACCGGCGCTGTGCGTGGCCGCCGCGCCGCTGCTCGGCGGGCTGCTGCGGCAACGCGCGACCCGCGTGATCCTCGCCGGCTACCTGTGGCTGCTGGGCCTCGGCGCGCTGGGCCTGGCGCTGGATGCCCTGCTGCTGCCGCACGGCTGGGCGCAGCGCAGCGCACTGCGGCATGCGATCGATCCATCCGACCTGCACGTGCTTGCGCTCTGGCTGTTGATGCTCGGCATCGGCACCTTGGGCGTGGCGGCGTGGGCACGGCTGCGCCACCTCGGCGTCGCCTGCATCGCTGCCACCGCGTTGCTGTGGACCGTGCACGGCCTCGGCCTGATGCCGGCGCTCGATGCGTACAGCTCGGCGGCGGGCGTGATGCAGCGCGTCGGTGAGCGGATCGGCCCACGCGCGGAGCTGGGCATGGTCGCCTGGCGCGAACAGAACCTGCTGCAGGCCGATCGCCCGGCCACCGACTTCGGCTTCAAGCAGCCGTGGCAGGCGCAATGGGACGCGGCCGGCCCGTGGCTGGCGCAGGCGCCGTCGCGGCGCTGGCTGCTGGTGCTGCGCGAGGCCGTGAGCCCGTGCGTGGACCGCCGCCAGGCGATCGACATCGGCGAGTCCAACCGCAACCACTGGCTGCTGCTGCCCGGCACCGCGTGGCAGGCCGGCTGCACCCTGCGCCTGGGCGCCGACGGCAGCGGCGACGACAGCGACTGA	MLAMLAMLLALVAGLGLRQPNPPDEPRFVLAARAMVETGQWLLPHRGSELYAEKPPVFMWMQAATWTLLRDWTIAFLLPSLLAALATLWLSWDLARRLWNRRVAAYAVLALFATLQFGVMAKRAQIDMVLVALTTLSLWGLLRHLLRGPDWRGWWIGAFAAGVGTVTKGVGFLPLLVLLPWAAWRWRMRADAGVPTTGGAWWRWALTAPLFLAGTAVWLLPLGVALLHHPTPALQAYAHELLFKQTATRYASAWHHIQPAWYYLQVIATLWLPGCLLLPQLLPAWWRRIRRGDPRPWLLVGWALLVLLFFSASPGKREVYIFPALPALCVAAAPLLGGLLRQRATRVILAGYLWLLGLGALGLALDALLLPHGWAQRSALRHAIDPSDLHVLALWLLMLGIGTLGVAAWARLRHLGVACIAATALLWTVHGLGLMPALDAYSSAAGVMQRVGERIGPRAELGMVAWREQNLLQADRPATDFGFKQPWQAQWDAAGPWLAQAPSRRWLLVLREAVSPCVDRRQAIDIGESNRNHWLLLPGTAWQAGCTLRLGADGSGDDSD				NA	NA	NA	NA	NA
BMS020_05037	702	mprA_2	COG0745	Response regulator MprA	ATGCGGCTGCTGGTCATTGAAGACAATCGCAATCTGGTCGCCAACCTGTTCGACTATTTCGAGGCGCGCGGCTACACCCTGGACGCCGCCCCGGACGGGGTGACCGGCCTGCACCTGGCGACCACCCAGCACTACGACGCACTGGTGCTGGACTGGATGATGCCGCGCATGGATGGCCCGGAAGTGCTGCGTCGGCTGCGCGAGGAGCATCGCTCCGAAGTGCCGGTGATCATGCTGACCGCGCGCGACGAACTGCCGGACAAGATCGCCGGCTTCCGCGCCGGTGCCGACGACTACCTGACCAAGCCGTTCGCGCTGCCGGAGCTGGAAGTACGGCTGGAGGCGCTGATGGTGCGCGCGCATGGCCGCAACCGCAGCCGCGTGCTCGAGGTCGCCGACCTGCGCCTGGACCTGGCGACCCTGGAGGCGACCCGCGGCGGCCAGGTGCTGCACCTGTATCCGGCCTGCCGCAAGCTGCTGGAGGTGTTGATGCAGGCCAGCCCCGCGGCGGTCACCCGCGAACGGCTGGAGCATGCGCTGTGGGGCGACGATCCGCCCGACGGCGACATGCTGCGTTCCCACATCTACGACCTGCGCCGCAGCGTCGACGGCCCGTTCGAGCAGAAGCTGATCCACACCCTGCCGCGCGTGGGCTATCGCCTCGGCCCGGTCAGCCAGCAGGAGCAAGCGCATGCCGGCTAG	MRLLVIEDNRNLVANLFDYFEARGYTLDAAPDGVTGLHLATTQHYDALVLDWMMPRMDGPEVLRRLREEHRSEVPVIMLTARDELPDKIAGFRAGADDYLTKPFALPELEVRLEALMVRAHGRNRSRVLEVADLRLDLATLEATRGGQVLHLYPACRKLLEVLMQASPAAVTRERLEHALWGDDPPDGDMLRSHIYDLRRSVDGPFEQKLIHTLPRVGYRLGPVSQQEQAHAG	PGPT0004105_1053	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
BMS020_05038	1296	rcsC_5		Sensor histidine kinase RcsC	ATGCCGGCTAGCCCGGTGGGGCTGCGGCGACGGGTGACGCTGTGGCTGGTGGCGTATGCGGCGCTGCTGTCGCTGGCGGTGTTCGTGCACGGCTACATCGTCAACGAACAGGCCGAGCAGCTGACCTGGCGCTCGCTGCTGACCTCGGAGCTGGACCACTTCGTCCAGCGCAGCCGCGAGGATGCCAACTACCACTGGACCGACACCACCACCGTGCAGTTGTACGGCGACGACGACGAATCGCCGCCGCCGCCGGAGTTCGCGCGCTTCGCCCCGGGCATCCACGACGGCATCGAATACCAGGGGCGCGACAAGGTGCTGCTGGTGCAGGACGTGGACGGCCGCCGGCTGGTGCTGGCGCTGGACATCACCGAGCTGCAGAAGCACGAGAACAACCTCGGCCTGTGGATGCTTGGCTCCAATATCCTGGCGATCATCCTGCTCGGGGTGCTGGTGGCCTGGGGCCTGGGGCGGGTGGTGAAGCCGCTCAGCGACATGGCCCAGCGCATCCACGCGCTGCGCCCGGACCGTCCCGGCCAGCATGTCGATTCCGAACCGGGCGCCAGTGCCGAGCAGGTGGTGATCGCCGATGCGCTCAACGACTACCTGGCCCGCAACGACCTGTTCGTCGAACGCGAGCGCGCCTTCATCGACAGCGCCAGCCACGAGCTGCGCACGCCGATCGCGGTGATCGAAGGCGCCACCGAACTGGCGCTCGGCCACGAGGTATCCGCGCCGGTACGGCAGCAGTTGCTGCGGATCCGCCAGACCACCACGGCGGTGGAGCAGCTGATCTCGCTGCTGCTGGTGCTGGCCAAGGATCCGGCGCGGCTGTCGCGCAGCAGCGACTACGTGCGCCTGGACCAGCTGCTGCCGGACATCGTCGCCGACCATGCCCATCTGAGCGCGGACAAGGACCTCAAGCTCGAGCTTGCGCCGATGCCGGCCTGCGTGGTGTTCGTGCCGGTGGTGGTGGTGCAGGCGGCGATCGGCAACCTGCTGCGCAACGCGATCGAGAACAGCAATCGCGGCGTGGTGCGGATCGGCCTGGCCGCGCCGGCGCTGGTACGGATCGAGGACCCGGGTCACGGCATGACGCCGGAGGAGGTCAGCCGCATCTACGCGCGGATGGCGCGCAGCGAGCAGCCGCGCCAGGGCAGCGGCATCGGCCTGGACCTTGTGGCACGCCTGTGCGAGCACCTGGGCTGGAAGCTGCGCTTCGATTCGGCGGCCGGGCAGGGCACCGTGGCGACGCTGGACATGAGCGGTTCGCTGGCGCATCCCGATCGCGCCTGA	MPASPVGLRRRVTLWLVAYAALLSLAVFVHGYIVNEQAEQLTWRSLLTSELDHFVQRSREDANYHWTDTTTVQLYGDDDESPPPPEFARFAPGIHDGIEYQGRDKVLLVQDVDGRRLVLALDITELQKHENNLGLWMLGSNILAIILLGVLVAWGLGRVVKPLSDMAQRIHALRPDRPGQHVDSEPGASAEQVVIADALNDYLARNDLFVERERAFIDSASHELRTPIAVIEGATELALGHEVSAPVRQQLLRIRQTTTAVEQLISLLLVLAKDPARLSRSSDYVRLDQLLPDIVADHAHLSADKDLKLELAPMPACVVFVPVVVVQAAIGNLLRNAIENSNRGVVRIGLAAPALVRIEDPGHGMTPEEVSRIYARMARSEQPRQGSGIGLDLVARLCEHLGWKLRFDSAAGQGTVATLDMSGSLAHPDRA				NA	NA	NA	NA	NA
BMS020_05039	495			hypothetical protein	ATGACCCCCGCCGCCCCCAACGCAACTCCCGCCCCGGACGTGATCACCGTCGGCGACATCGCCTTCGACGATGCCGCGTCGCTGCTCGCCCGCCACCGCCTGCGCCTGCATCGCATCGACGACGGTGCGGCGATCCCCGGCAGCTACTGGGGCGAGCCGGAGGCCGGCATCATCGGCTGCGACGTGTACGTGCGCGACGACACCCCGGTGCATTCGATGCTGCACGAAGCCTGCCACCTGATCGTGCTGCCCGACGACGCGCGCCGCGCCGCGGTGCATACCGATGCCACCGACTCGGTGGAAGAGGAAGATGCGACCTGCTACCTGCAGATCGTGCTGGCCGGCGAGCTGCCCGGCGTCGGCAGCGACCGGCTGATGGCCGACATGGATGCGTGGGGTTACACGTACCGGCTGGGCTCGACCCGGGCGTGGTTCGAGCAGGATGCCGAGGATGCACGCAGCTGGCTGATCGCCCGCGGCCTGCTGCCTGGCTGA	MTPAAPNATPAPDVITVGDIAFDDAASLLARHRLRLHRIDDGAAIPGSYWGEPEAGIIGCDVYVRDDTPVHSMLHEACHLIVLPDDARRAAVHTDATDSVEEEDATCYLQIVLAGELPGVGSDRLMADMDAWGYTYRLGSTRAWFEQDAEDARSWLIARGLLPG				NA	NA	NA	NA	NA
BMS020_05040	711			hypothetical protein	ATGCACCACGCCGTGCGCACCGCCGTGTTCGCGCTACTGGTCCTGCTGGCCGGTAGCGCGTTCGCTGAGACGACGCCGGCACAGCGCGAGGACGAGCGCGGGCGCACGCTGCAGCAGGCCATCCAGCTGGCGCTCGACCAGCACCAGCCGGCCGCCGCGGTCGCCCTGCTCGAACCGCTGATCGGGCAATACCACCAGCACTACTCCGCGCTGGCGCAACGTCCTTATTGCCCGCGCACCGACGACGAGGGCGACCAGTACGTGGCCGATGGCCTGCGCCAGGCCCGCGCCGACACGGTGATGCTGACCGACCAGCCGACCTGGGCCTACGCGCTGTACTACAAGGGCTATGCCCTGATCGACCTGGGCCGCATCGATGAGGCCCGCGCGGCACTGGAGCAGGCGCTATGGCTGGCGCCGCGCAACGCCCAGTTCCTGTCCGAACTTGCGATCACCTACCAGCGCGAAGGCAACTGGGAACGGATGCTGGCATTGTCCAGCCAGGCGGTGGACGCGGCATCGTTCTCGCCGCCGCAGCTGCGCGACGACGAGCTCGGCCGTGCGCTGCGCAGCAAGGGCTATGCGCTGTTCGAGCTGGCGCAGCTGGACGCCGCCGCGCAGGCCTACCGACAGGCGCTGCAGATCAATCCGGGCGATCAGGACGCCCGCGACGAACTCACCTACATCCTCGCCCGCCAGATTTCGCCATGA	MHHAVRTAVFALLVLLAGSAFAETTPAQREDERGRTLQQAIQLALDQHQPAAAVALLEPLIGQYHQHYSALAQRPYCPRTDDEGDQYVADGLRQARADTVMLTDQPTWAYALYYKGYALIDLGRIDEARAALEQALWLAPRNAQFLSELAITYQREGNWERMLALSSQAVDAASFSPPQLRDDELGRALRSKGYALFELAQLDAAAQAYRQALQINPGDQDARDELTYILARQISP				NA	NA	NA	NA	NA
BMS020_05041	258	minE_2	COG0851	Cell division topological specificity factor	ATGGGCCTGCTCGACTTCCTCAAGACCAAGAAGACCACTGCCGAGACGGCCAAGAACCGCCTGCAGATCATCATCGCGCAGGAACGCAGCCAGCGCGGCGGTCCCGACTACCTGCCGCTGCTGCAACGCGAGCTGCTGGAAGTCATCAAGAAGTACGTCAACATCGATGCCGATGCGGTCAAGGTCGACCTGATCAAGGACGGGGCCAACGACGTGCTCGACATTTCGGTCGCGCTGCCGGAGGACTCGCAGGGCTGA	MGLLDFLKTKKTTAETAKNRLQIIIAQERSQRGGPDYLPLLQRELLEVIKKYVNIDADAVKVDLIKDGANDVLDISVALPEDSQG				NA	NA	NA	NA	NA
BMS020_05042	810	minD_2	COG2894	Septum site-determining protein MinD	TTGGCTGAAATCATCGTAGTCACCTCCGGCAAGGGCGGCGTCGGCAAGACCACCACCAGCGCGAGCCTGGCCTGCGGGCTGGCGCGGCGCGGCAAGAAGGTCGCCGTCATCGACTTCGACGTCGGCCTGCGCAACCTCGACCTGATCATGGGCTGCGAGCGCCGCGTGGTGTACGACTTCGTCAACGTCGTGCATGGCGAGGCCACGCTGAAGCAGGCCCTGATCAAGGACAAGCGCTTCGAGAACCTGTACGTGCTGGCCGCCTCGCAGACCCGCGACAAGGACGCGCTGACCAAGGAAGGCGTTGAGAAGGTGCTCAAGGACCTGGCCGCCGACGGCTTCGACCACATCATCTGCGACTCGCCGGCCGGCATCGAGAAGGGCGCGTTCCTGGCGATGTACTTCGCCGACCGCGCCGTGGTCGTGGTCAACCCGGAAGTGTCCTCGGTGCGCGACTCGGACCGCATCATCGGCCTGCTCGACTCCAAGACCCACAAGGCCGAGAACGGCAGCAGCGTGCCGGCTTCGCTGCTGCTGACCCGCTACAACCCGGTGCGCGTGGAAGGCGGCGAGATGCTGTCGATCACCGATGTCGAGGAAGTGCTGGGCCTGAAGGCGCTGGGCGTGATCCCCGAATCCGGCGACGTGCTCAATGCCTCCAACAAGGGCGAGCCGGTGATCCTGGATCCGGAATCGCCGGCCGGCCAGGCGTACGAAGACGCCGTGGGCCGCATCCTGGGCGAAGACCGCCCGATGCGCTTCACCACCGTTGAGAAGAAGGGCTTCTTCAGCAAGCTGTTCGGAGGGTAA	MAEIIVVTSGKGGVGKTTTSASLACGLARRGKKVAVIDFDVGLRNLDLIMGCERRVVYDFVNVVHGEATLKQALIKDKRFENLYVLAASQTRDKDALTKEGVEKVLKDLAADGFDHIICDSPAGIEKGAFLAMYFADRAVVVVNPEVSSVRDSDRIIGLLDSKTHKAENGSSVPASLLLTRYNPVRVEGGEMLSITDVEEVLGLKALGVIPESGDVLNASNKGEPVILDPESPAGQAYEDAVGRILGEDRPMRFTTVEKKGFFSKLFGG				NA	NA	NA	NA	NA
BMS020_05043	762	minC_2	COG0850	Septum site-determining protein MinC	GTGAATCTGGATTTCGAGCAGGCAGGCGAACTGAAGATCGGCCAGGTCGGCATCGCCAACCTGCGCATCCGTACCCTGGACGTGGCCAGGCTGACGCAGGAGATGCGCGAGCGCGTCGCCCGCGCGCCCAAGCTGTTCGGCCGCGCCGCGGTCATCATCGATTTCGGCGGGCTGGCGCAGATGCCGGACGTGGACACCGCGCGCGCACTGTTGGATGGCCTGCGCGACGCCGGCGTGCTGCCGGTGGCGCTGGCCTACGGCAGCAGCGCCACCGACGCACTGGCGATCGAGCTTGGCCTGCCGCTGCTGGCCAAGTTCCGCGCCCAGTACGAGCGCATCGACGGTGGCGCCGCGCCGGCGTCGTCGCCGCCCCCGCCGGCCCCGGCTCCGACCCCGGCGCGCGCCGAACCGGTCGCCGCGGCCAACCCCGCAAAACCCGGCCGCATGCAGCGCACCGCGGTCCGTTCTGGCCAGCAGCTGTACGCGGAAAACTGCGACCTGAGCGTGCTGGCCACGGTCGGCGCCGGCGCCGAAGTGATCGCCGACGGCAGCATCCACATCTACGGCACGTTGCGCGGCCGCGCCCTGGCCGGCGCGCGCGGCAACACCGAGGCGCGGATCTTCTGCCGCGATTTCCACGCCGAACTGGTCGCCATTGCCGGCCACTACAAGGTGCTGGACGATGTCCCCATGGAGCTGCGTGGCAAGGCCGTCCAGGTCTGGCTGGAGCAGGACCAGATCAAGATCGCCGCGCTGGACTGA	MNLDFEQAGELKIGQVGIANLRIRTLDVARLTQEMRERVARAPKLFGRAAVIIDFGGLAQMPDVDTARALLDGLRDAGVLPVALAYGSSATDALAIELGLPLLAKFRAQYERIDGGAAPASSPPPPAPAPTPARAEPVAAANPAKPGRMQRTAVRSGQQLYAENCDLSVLATVGAGAEVIADGSIHIYGTLRGRALAGARGNTEARIFCRDFHAELVAIAGHYKVLDDVPMELRGKAVQVWLEQDQIKIAALD				NA	NA	NA	NA	NA
BMS020_05044	594			hypothetical protein	ATGTCGATCGTCATCCGCGACGTACGCGAGCACGAGCTCGATTCCGTCCTGGCCCTGAACAACAACGCCGGACTGGCGATCCTTCCGCTGGACTCGGCCAAGCTGCACAACTTCTACGAGAACGCCGAGTACTTCCGCGTCGCCGAGCGCGACGGCAACCTGGCCGGCTTCCTGGTCGGCTTCGGTGCCGACAGCGCCCACGACAGCAGCAATTTCGCCTGGTTCCGCGATCGCTACCCGGACTTCTTCTATATCGACCGCATCGTGGTGGCCAGCCGCCGCCGCGGCGGCGGCGTCGGCCGTGCCTTCTACGCCGACGTGCAGAGCTACGCCGAACTGCGCTACCCGCAGCTGGCCTGCGAGGTGTTCCTCGACCACGGCGCCGATGCGGCGCTGCTGTTCCATGGCAGCTTCGGTTTCCGCGAGGTCGGCCAGAACCTGATGCCCGACGTCGACGTGCGCGCCAGCATGCTGCTCAAGGACATGTGCAGCTACGCGTGGGTCAAGGAGACCTACGGCGGCAACCTGCCGGACCTGCCCTGGGTGGGCCATCCGCGGCCGGTGCGCCGCGGCCAGCGGCCGACGGGGACCTGA	MSIVIRDVREHELDSVLALNNNAGLAILPLDSAKLHNFYENAEYFRVAERDGNLAGFLVGFGADSAHDSSNFAWFRDRYPDFFYIDRIVVASRRRGGGVGRAFYADVQSYAELRYPQLACEVFLDHGADAALLFHGSFGFREVGQNLMPDVDVRASMLLKDMCSYAWVKETYGGNLPDLPWVGHPRPVRRGQRPTGT				NA	NA	NA	NA	NA
BMS020_05045	1191			hypothetical protein	ATGTTGGGATATCTGAGCCATACCCGCGTCCTGCGCTTCGCCGGCCTGTTCACCTGGGCCATCGTCTGCGTGCCGATGCTGCTGATCCAGTTCGCCGGTGGCGAGGCGCCGCCGTTGCTGGCCGGCGAGGCGCTGTGGTCGTTCCTGGCCTACCTGACCTTCGGCAGCAGCTACTTCTGGCTGACCCGCGGGCTGGACAGCGGCGGCCACGCGCGCTGGTACGACCGGCTGGTGCTGTTGCTGCTGACCATCAGTGCGCTGGCGGTCAGCTACTTCAACGGTTCCGGACTGGGCAGCATCCTGATGATGGTCGCGGCCGGGGTGATCCCGTGGCTGCTGCCGGTGCGGGTGGGCGTGCTGTGGCTGCTGCTGAGCCAGCTGGCGGTACTGCCGGTCTACTTCTTCATCCTCGGCTTCTCGCTGGTCGAGGCGCTGATGCAGTCGCTGCTGTACGGCGGCTTCTCGATGTTCATCTTCGTCACCAGCCTGGTGGCGCGGCAGCAGACCGAGGCGCGCGAGGAGCAGCGCCGGCTGAACGCCGAGCTGCGCGCGACCCGCGCGCTGCTGGCCGAGAGCGCCCGGATCAACGAGCGCACCCGGATCTCGCGCGAGCTGCACGACCTGCTCGGCCACCACCTGACCGCGCTGAGCCTGAACCTGGAAGTGGCCGGGCACATCACCGAGGGCCAGGCCCAGGAGCACGTGCGCCAGGCCCACACCCTGGCCAAGCTGCTGCTGACCGACGTGCGCGAGGCGGTCAGCCAGCTGCGCGAGAGCGGGGCGATCGACCTCGGCGCGGCGCTGCGGCCGCTGGTCGCGCAGGTGCCGTCGATCGACATCCACCTGGACATCGCCGCGCCGTTGACCGTCGACGACCCCGAGCGCGCCCATGTGCTGCTGCGCTGTACCCAGGAAATGATCACCAACGCGATCCGCCACGCTGGCGCGCGCAACCTGTGGATCCGGGTCTACCGCGACGGCGCCGACGTGGTGGTCGAAGCCCGCGACGACGGCCTGGGCGCCGACCACGTCGACCCGGGCAACGGCCTGCGCGGCATGCGCGAGCGGCTGGTGCAATATGGCGGCCGGCTGGACGTGGAAACCCGGCGGGGGGCAGGCTTCCACCTGCGCGCCTCGCTTCCTGGCGCACCGGCATTGATGCCGGTGGCCGTATCCGAAGGAGTGTCGTGA	MLGYLSHTRVLRFAGLFTWAIVCVPMLLIQFAGGEAPPLLAGEALWSFLAYLTFGSSYFWLTRGLDSGGHARWYDRLVLLLLTISALAVSYFNGSGLGSILMMVAAGVIPWLLPVRVGVLWLLLSQLAVLPVYFFILGFSLVEALMQSLLYGGFSMFIFVTSLVARQQTEAREEQRRLNAELRATRALLAESARINERTRISRELHDLLGHHLTALSLNLEVAGHITEGQAQEHVRQAHTLAKLLLTDVREAVSQLRESGAIDLGAALRPLVAQVPSIDIHLDIAAPLTVDDPERAHVLLRCTQEMITNAIRHAGARNLWIRVYRDGADVVVEARDDGLGADHVDPGNGLRGMRERLVQYGGRLDVETRRGAGFHLRASLPGAPALMPVAVSEGVS				NA	NA	NA	NA	NA
BMS020_05046	642	lnrK_2	COG2197	Transcriptional regulatory protein LnrK	ATGATCCGTGTGTGCCTGGTCGACGATCAAACCCTGGTCCGCCAGGGCATCCGTTCGCTGCTGGCGCTGGACGACGGGATCGAGGTGGTCGCCGAGGCCGGCGACGGGCGCCAGGCGGTGGAGCAGATCCCGCAGATCAGGCCGGACGTGGTGCTGATGGACATGCGCATGCCGGTGATGTCCGGGCTGGAGGCGCTGCAGACGCTGTCGCGGCAGGGCGCGCTGCCGCCGACGATCATCCTGACCACCTTCGACGACGACCAGCTGGTGCTGGCCGGGCTGAAGGCCGGGGCCAAGGGCTACCTGCTCAAGGACGTGTCGCTGGAGCAGCTGGTCGGGGCGATCCGCACCGTCGCCGACGGCGGCTCGCTGGTGCAGCCGGCGGTGACCCAGCGCCTGCTGTCCGGGCTGGAGCACATGCGCAACGAGTTCGTCAGCCTGGACCGTCCGGACCCGCTGACCGACCGCGAGACCGAGATCCTGCGGCTGATGGCCTCGGGCTTCTCCAACAAGGAAATCGCCAATTCGCTGGGCGTGGCCGAGGGCACGATCAAGAACCACGTGTCCAACATCCTGTCCAAGCTGGGCGTGCGCGACCGCACCCGGGCGGTACTGAAGGCGTTTGAGCTGCAGCTGGTCTGA	MIRVCLVDDQTLVRQGIRSLLALDDGIEVVAEAGDGRQAVEQIPQIRPDVVLMDMRMPVMSGLEALQTLSRQGALPPTIILTTFDDDQLVLAGLKAGAKGYLLKDVSLEQLVGAIRTVADGGSLVQPAVTQRLLSGLEHMRNEFVSLDRPDPLTDRETEILRLMASGFSNKEIANSLGVAEGTIKNHVSNILSKLGVRDRTRAVLKAFELQLV	PGPT0012750_295	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
BMS020_05047	1170			hypothetical protein	ATGACCCGTATTATCGAGTTCCTGATTGCCTTGGGGATCGTCGCTGGCCTGTTCGTCGTTGTCGGCCTGGTGCTGCCCTCGGAACGCCAGATGTCCGAGAGCGTTGAGACCAACCGCAAGATGACCATCGTGTACGACACGTTGAACGGCTTTCAGCGTTTCAAGGACTGGAACCCGCTGGTGCTGCGCGATCCGAAGATCCAGCTGAAGCTGTCGGGTGCTGAGGCGGGCAAGGGTGCGCGCGTCGATTACAGCTCCGGCGAGGGCTACATCGGCGACGGCAGCTGGACGATCACCGACAGCGTCAAGAACGAGCGCGTCGACATCGCCATCGAAGATCCGACCCGCGGCCACGACAAGGTCACCAGCTTCACGCTGGAGCCGACCGGCAAGAACAACCGCAACGTCAAGATCACCCAGGACTACAGCGTCAAGTACGGCTGGAACCTGTTCGGTCGTTACGCCGGCCTGTACGTCAGCCGCCACGTCGGCGACGACCTGAAGCTGGGCCTGTCGCGCCTGTCGAACGTGCTGGCCACCGTGCCGAACTTCGACTACCGCGCCGAGCTGGACGGCAAGCTGGCGCTGAACGATCTGAAGATCGTCGACGTGCCGGCCGAGGACCTGCTGGTGGTCAACGCCGGCAACATCGACCGCGACAACGACACCATCAAGAAGTCCATCAAGGACAACCTTGAGTGGATCAAGCGCACGATGGACGGCAACGGCCTCGAGGCCGCCGGTCCGGTCCGCATCGTGACCACCGATTTCGCCGCCGAGAAGTACGCCTTCGACGTGGTGCTGCCGGTGCGCAAGAAGTCCGGTGCCGCCGCGCCGAAGGCCGATGAGGCCAAGGCCGACGACAAGGCTGCCGAAGACACTGCCGCCACTGCCGACGCCACCCCGGTGGCCGCCAGCGGCGACAAGCTGAAGGTCACCGTGCCGGCGGGTGCCCCGGTCGAGTACGTGCGCACCGAGGCCCACCGTGCCGCGTTCGGCACCTACACCGGCCACATGGCGGGCCTGGATGTGGTGCGCAACTCGCTGCGTGCCTGGTCCGTGACCCACGGCGCCGACGTGGTCGACCGTCCGTACGAAGCCTGGAAGGGCGGCGTGGACAAGTCGTTCACCACCGACGGCACCTACGACGTGTACTGGTCGATCAAGTAA	MTRIIEFLIALGIVAGLFVVVGLVLPSERQMSESVETNRKMTIVYDTLNGFQRFKDWNPLVLRDPKIQLKLSGAEAGKGARVDYSSGEGYIGDGSWTITDSVKNERVDIAIEDPTRGHDKVTSFTLEPTGKNNRNVKITQDYSVKYGWNLFGRYAGLYVSRHVGDDLKLGLSRLSNVLATVPNFDYRAELDGKLALNDLKIVDVPAEDLLVVNAGNIDRDNDTIKKSIKDNLEWIKRTMDGNGLEAAGPVRIVTTDFAAEKYAFDVVLPVRKKSGAAAPKADEAKADDKAAEDTAATADATPVAASGDKLKVTVPAGAPVEYVRTEAHRAAFGTYTGHMAGLDVVRNSLRAWSVTHGADVVDRPYEAWKGGVDKSFTTDGTYDVYWSIK				NA	NA	NA	NA	NA
BMS020_05048	372			hypothetical protein	ATGCGTTTGTACGACCGCCGTTCCAAGAAACCTTCCGTGCTGTCCTGCCTCGGCGCGCTGCTGGCAGCGCTGGCGATCGGCCTGGCGGCGTATGCCGCGCACGGTGTCGCCGAAGCGGTCGCGCAGTCGCGGCTGCAGACCGCCGCGCTGTACCTGTTCGGGCATGGCGTGGCGTTGGCCGTGCTGGGGCCGGCGGCCGAGCGCCTGCTGGCGAAGCTGTCGCTGTCGCTGCTGCTGATCGGCACCGTGCTGTTCTCCGGCAGTCTGGCCGGCGCCGCGCTGTGGCAGGCGCCGACCGCGTTGGCACCGGTCGGCGGCGTGACGATGATGCTGGGCTGGCTGCTGTTTGCGATCAACGCGTTGAGGCGCTGA	MRLYDRRSKKPSVLSCLGALLAALAIGLAAYAAHGVAEAVAQSRLQTAALYLFGHGVALAVLGPAAERLLAKLSLSLLLIGTVLFSGSLAGAALWQAPTALAPVGGVTMMLGWLLFAINALRR				NA	NA	NA	NA	NA
BMS020_05049	675			hypothetical protein	ATGGCCCGCCACCCGCGCGGTTTCGATGTCGAGGCGGCGCATGCGCACCTGCGGCGTCGTGACCGCCGGCTGGCGGCGTGGATGCAGCGGCTGGGGCCGCTGCCGGCGCCGCCGGGCTGGCGCAAGCCGTTCGACCCGGTCGATGCGCTCGCGCGCGCGATCCTGTTCCAGCAGCTCAGCGGCAAGGCCGCCTCGACCATCGTCGGGCGGGTGGAAGTGGCGATCGGCAGCACCCGCCTGCATGCGGACACGCTGGCGCGGATCGACGATGCCGCACTGCGTGCCTGCGGGGTGTCCGGCAACAAGGCGCTGGCGCTGCGCGACCTGGCACGGCGCGAGGCCGCCGGGGAGATCCCGTCGCTGCGGCAGATGGCGTGGATGCACCACGACGCGATCGTCGAGGCGCTGGTGCCGATCCGCGGCATCGGCCGCTGGACCGTGGAAATGATGTTGATGTTCCGGCTCGGTCGCCCCGACGTGCTGCCGATCGATGATCTCGGCGTGCGCAAAGGCGCGCAGCGCGTGGATGGGCAGGAGCTGGCGCCGACGCCGAAACAACTGCTCGCGCGTGGCGAGTGCTGGGGGCCGTACCGCACCTATGCGGCCTTGTACCTGTGGCGGATCGCCGATTTCGTCGAACAGGCCAAGGCCCCGACCAACCGCTCGCAGGACTAG	MARHPRGFDVEAAHAHLRRRDRRLAAWMQRLGPLPAPPGWRKPFDPVDALARAILFQQLSGKAASTIVGRVEVAIGSTRLHADTLARIDDAALRACGVSGNKALALRDLARREAAGEIPSLRQMAWMHHDAIVEALVPIRGIGRWTVEMMLMFRLGRPDVLPIDDLGVRKGAQRVDGQELAPTPKQLLARGECWGPYRTYAALYLWRIADFVEQAKAPTNRSQD				NA	NA	NA	NA	NA
BMS020_05050	1419	dprE1_1	COG0277	Decaprenylphosphoryl-beta-D-ribose oxidase	ATGATCGACGCTGAGCGGCGGCGCCTGCTGGGCGCGCTGGCCGGCGGCGGCGCGCTGCTGCTGGGCGGCTGCGGGCGCGATGGCGGGCGCCCGCGCGTCGTCGACGTCGCCCAGCTCGACGCCACCGAAGTGGCGGCCATCGCGCGCCCGGCCAGCACCGCCGCGCTGCAGCAGCTGCTGCAGGGCAATGCGCGCACGCTGTCGGTCGGCGGCGCGCGCTACAGCATGGGCGGACAGATCGCCGCGCCCGGCTCGCTGCACCTGGACATGCGCGCGATGGACCGGCTGGTGTGGCTGGACGTCGCGCGCCGCAGGGTCCGGGTCCAGGCAGGGATGCGCTGGCGTGCGCTGCAGCAGCTGATCGATCCGCACGAGCTGGCGGTGGCGATCATGCAGAGCTACAGCAACTTCAGCATCGGCGGCTCGGTCTCGGTCAACTGCCATGGCCGCTACCTGCATGCCGGGCCGCTGGTCAATTCGATCCGCGCGCTGCAGCTGGTCGATGCCGGCGGCCAGGTGCACGAACTTGACCGCGAACGCGAACCGGCGCTGTTCGCCGCCGTGGTCGGCGGCTACGGCGGGCTCGGCGTGATCACCGAGGTCGAGCTGGACCTGGCCGACAACCAGCGCCTCGAGCGCGTCGCCCGGCAGCTGCCGCTGGCCGACTATCCGGCCTACTTCGCCACTGAGATCGTCGGCGATCCGCTGGCGGTGATGCACAACGCCGACCTGCTGCCGCCGCACTTCGACCGCCCGCTGGCGATCACCTGGCGCCGCAGCGAGGCGGCGCTGACCGAGCCGCTGCGGCTGGTGCCGCCGCAACTGGATTACGCGCGCGACCAGAACCTGATCTGGGCGGCATCGGAACTGCCGCTCGGCGGGCTGATCCGCGAGCACTACCTGACCGAACGGATCCTGCATGAGCCCGCGGTGGTCCACCGCAACTACCAGGCCAGCCTCGACGCGCGCTCGCTGGAACCGCGCACGCGGATGCTGTCGACCTACCTGTTGCAGGAATACTTCGTGCCGGTCGATGCGCTGCTGCCGTTCGCCAGGACGATGGCCGCGATCCTGCAGCGTCATCAGGTCCATGCGCTGAACATCTCGATCCGCCACTCGCCGGCCGACCCGACCACCCTGCTGCGCTGGGCAGCGGTGCCGGTGGTCTCGTTCGTGCTGTACCACAAGCAGCGCAACAGCCACGCCGCCGACCGCGTCGCCGCCGGCTGGACCCGTGAACTCATCGACGCCGCGCTGGCGCATGGCGGCCGTTATTACCTGCCGTACCGGCGCCACGCCAGCCAGCGCCAGTTCGAGGCGGCGTATCCTGAAGCCGCGCGCTTCGCCGCGCTGCGCCGCGCGCTCGATCCGCAACGGCGCTTCCATAACCGCCTGTGGGACACCTACCTGCCCAGCTGA	MIDAERRRLLGALAGGGALLLGGCGRDGGRPRVVDVAQLDATEVAAIARPASTAALQQLLQGNARTLSVGGARYSMGGQIAAPGSLHLDMRAMDRLVWLDVARRRVRVQAGMRWRALQQLIDPHELAVAIMQSYSNFSIGGSVSVNCHGRYLHAGPLVNSIRALQLVDAGGQVHELDREREPALFAAVVGGYGGLGVITEVELDLADNQRLERVARQLPLADYPAYFATEIVGDPLAVMHNADLLPPHFDRPLAITWRRSEAALTEPLRLVPPQLDYARDQNLIWAASELPLGGLIREHYLTERILHEPAVVHRNYQASLDARSLEPRTRMLSTYLLQEYFVPVDALLPFARTMAAILQRHQVHALNISIRHSPADPTTLLRWAAVPVVSFVLYHKQRNSHAADRVAAGWTRELIDAALAHGGRYYLPYRRHASQRQFEAAYPEAARFAALRRALDPQRRFHNRLWDTYLPS				NA	NA	NA	NA	NA
BMS020_05051	585			hypothetical protein	ATGAACGCACTGGCATGGATGCTGGTACTCCTCGGCGCTGCGGCACCGGCACAGCCCGGCGACACCGCCGCCCCGCCCGCACTGCCCGCACTGCCCGAACGCGCGAGCGACAAACAGCTCAGCGCGATGATCACGGTCGCCGACGAAGCCGCCTACCGCGCGTTCGAGCAGCAGTGGTACAGCCTGCCCAGCGAACAGGCGCCCCATCTCCACACCACTGCGGTGGCGCACCGCGGGCAACCGCTGCGCGTGGCGATCACCTATGCCGGCTGCGCGGGCGACGCCCGCACGCCGCCGCGCTGCACCGCCACGCTCGACCTGCACGTGATCGCCCCCGATGGCCGCGACGACATGCCCGGCAAGGCGCTGTCGCTGGGCGGCGACCAACCGGTGGCTCCGCGCCTGGTCCAGCTCTCCCCCGCCACGCTCGGCATCACCTTCGAAGCGGGAGACAAGGCCGGCCTGTACGAGGTCCGCGCGCGCATCCACGACCCGCTGCAGAACGCGACCGTGGTCGTCGGCGAGCAGATCCAGCTGAGCGACCGGCCGCTGCACCGGCGCCGCAGGCACGATGATCGACGCTGA	MNALAWMLVLLGAAAPAQPGDTAAPPALPALPERASDKQLSAMITVADEAAYRAFEQQWYSLPSEQAPHLHTTAVAHRGQPLRVAITYAGCAGDARTPPRCTATLDLHVIAPDGRDDMPGKALSLGGDQPVAPRLVQLSPATLGITFEAGDKAGLYEVRARIHDPLQNATVVVGEQIQLSDRPLHRRRRHDDRR				NA	NA	NA	NA	NA
BMS020_05052	801			hypothetical protein	ATGCGCACCATCCCACGCCTGCTGCTCAACACCGCATCGATCGAACTGCTGCCGGCCGCACTGCTGCGCGCGCGCAGCAATGCCGATGCGCGCCTGCTCGCCGGTGGCGACTGGCTGCTGCGACGCAAGCGCGATGGCCACTACCTGGCCGTCGCCTCCGCGCGCGGCGTCCAGGCGCTGGTGCCGCGGCTGATGCACGAAGCCGGCATCGATGCCGCGCTGGACCGCCTCGATGCACTGGGCCCGCGCGGGCCGCAGGCCGACGCGCGCACGCTGCCGCTGCACGCGCTGCAGGCGCGACTGGCACAGCTTGGGCTCGATGCCGCGCGTTATGCGCGCGACACCGGCCTGCAGGTCGAGGCGGAACCGGCCACGCTCAGCTTCGCCGGACGCGACCGCTACCGCCGCCCGCTGTGGTTGACCGCTGCGGCCGCACGCGGCTGGCAACGCCTGCGCGCCGCCGCCGCGCGCAACGGTATCGTGCTGGACGCGATCTCCGGTTACCGCAGCCACGACTACCAGCTCGGGATCTTCGAACGGAAACTGGCGCGCGGACTGGAGGTGGCGCAGATCCTCACCGTCAACGCCGCGCCGGGCTTCAGCGAGCACCACGGCGGCAACGCGCTGGACATCGGCACGCCCGGCGAACCGCCGGCCGAGGAGAGCTTCGAGCGCACGCCGGCGTTCGCCTGGCTGCAGGCGCACGCGGCGGATGCCGGCTTCACGCTGAGCTATCCGCGCGGCAATCCGCACGGCATCATCTACGAACCCTGGCACTGGCGCTGGTCGCCCCCGGACTGA	MRTIPRLLLNTASIELLPAALLRARSNADARLLAGGDWLLRRKRDGHYLAVASARGVQALVPRLMHEAGIDAALDRLDALGPRGPQADARTLPLHALQARLAQLGLDAARYARDTGLQVEAEPATLSFAGRDRYRRPLWLTAAAARGWQRLRAAAARNGIVLDAISGYRSHDYQLGIFERKLARGLEVAQILTVNAAPGFSEHHGGNALDIGTPGEPPAEESFERTPAFAWLQAHAADAGFTLSYPRGNPHGIIYEPWHWRWSPPD	PGPT0024055_801	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
BMS020_05053	636			hypothetical protein	ATGAAGGCGCGCCCACACCGCGATGACTCCGGCGGCCTGCCGCCCTCGCTGCACCACGAGACCCGCACCATGTCCGCACGCCGCTTGCCCACGCCCGCCCACCGCCACTACGCGGTCACGTCGCCGTGGCCTTGGGCGCAGCTGCTCTGGCTGTGGCTGCCCCTGCTCGCGGTGGCTGCCCTGATCGCCTGGCTGCATCTCGACCAGCTGCGTGCCGGCGCGCCCGGCGCCTGGTTGCATCCACTCGCGCTGGTGCTGCTCGCCGCCGGCTGCAGCGCAGCCTGCGCACGCCGTGGCATCGAACTCGATGGTGGCGTGCTGACCGTGCGCGCGGCGCTGTTCACCCGCCGCGTCGCGGTCGCTGCGATGCGCCTGGACAGCGCACGCGTGCTCAACCTGGACGAACACACCGGCTTCAAGCCCGGCCTGAAAAAGGCCGCCATCAGCTATCCCGGCCTGACCGCCGGCTACTGCCGCACCCGCGGCGGCGATGCCGGCTTCTACCTGCTGACCGACCGCCAGCGCGCGCTGACGATCCCGCTGCGTGGCGGCGGCTGGCTGGTGCTGAGCCTGCGCGATCCGCGCGGCCTGCTGCAGGCGCTGCGGCACCTGGCAGGGGCCGGGGCGACGCCGTAA	MKARPHRDDSGGLPPSLHHETRTMSARRLPTPAHRHYAVTSPWPWAQLLWLWLPLLAVAALIAWLHLDQLRAGAPGAWLHPLALVLLAAGCSAACARRGIELDGGVLTVRAALFTRRVAVAAMRLDSARVLNLDEHTGFKPGLKKAAISYPGLTAGYCRTRGGDAGFYLLTDRQRALTIPLRGGGWLVLSLRDPRGLLQALRHLAGAGATP				NA	NA	NA	NA	NA
BMS020_05054	1320	estD	COG1073	Esterase EstD	ATGCGCCGCGCGCACTGGTCGACCACCCTGCTGGCGCTGGTTGCCCTGACGCCGCCACTGCACGCCGCCGAAGCGCCGCAGCAGGTCGCCACGGCCCTGCTCGACCAGATGCAGGCCGGCGACTACGCCACCGCCACCGCTGCGTTCGACACGCGCATGCAGGCTGCGCTGCCGGCGGCGAAGCTCGGCGCGGTATGGAGCGCATTACCCCGGCAGTTCGGCCCGCTGCAGGGCCGCGGCGCTCCGGTCGAACAGGCACAGGGCGAGACCACGCTGGTCGCGATTCCATTGCACTACGCCAGGCAGGAACTGATGGCCCGCGTGGCGGTCGACGCCGATGGCAAGGTCGCCAGCCTGATGATCGTGCCAGCGGCCGCGCCCGCCACCGCAGCGGCCACCGACACCGGCTACCGCGAGCAGGCCACCAACGTCGCCGGGCTGCCCGCCACACTGAGCCTGCCGCAAGGCGCTGGACCGTTCCCCGCGGTGGTGCTGGTGCATGGCTCCGGTCCGCACGACCGCGATGCACGCATCGGCCCGAACGCACCGTTCCGCGACATCGCCCACGGACTGGCCGCGCGCGGCATCGCGGTGCTGCGTTACGACAAGCGCAGCTACGCCGCCCCGGAATCACTGGCCGGCGGCAAGCTCAGCCTCGATGGCGAAACCACCGACGATGCAGTCGCCGCGGTCGCGCTGCTGGCCGGCCATCCCGACATTGATGCCCAGCGCATCTACGTGTTCGGCCACAGCCAGGGCGCGCTGCTGGCACCACGCATCGCCGCGCGTTCCGGCCGGGTCGCCGGCCTGGTGCTGCTGGCGCCACCGGCACGGCCAGTGCTGGATCTCCTGCTGGAACAGCTCCGCGCGCAGCCCGGCAGCGATACCCCTGATCGCCGCGCGGCGATCACCCGGGTCGAGGCCGAGGTGCAGCGGATCCGCCAAGCCCCACCCGCCGGCCCCGCCGACAGCGACATGGTCAACCTGCTCGGCGTGCCCGCCCCTGCCGGTTACTGGCGCGCCTTGGACCACACCGATGCGATCGCCGAACTGCAGGCGCTCGGCCCGCTGCCGGTGCTGTGGCTGCAGGGCGAGCGCGACATCCAGGTCAACGCAGCGGACTGGCGGCGCTGGCGCCGGGCGCTGGCGCACGACGCCGCCGCGACCCTGCGCGCCTACCCCGCGCTCAACCACCTCGGCATCGCCGGCAGTGGCCCCGGCAATGCCGCCGAGTACGCGCAGCCCGGGCAGGTCGATGCCGGCCTGATCACCGATGTCGCCCACTGGCTGCAGGCCCAGGCGCCCAAGGCCGGCAGGTGA	MRRAHWSTTLLALVALTPPLHAAEAPQQVATALLDQMQAGDYATATAAFDTRMQAALPAAKLGAVWSALPRQFGPLQGRGAPVEQAQGETTLVAIPLHYARQELMARVAVDADGKVASLMIVPAAAPATAAATDTGYREQATNVAGLPATLSLPQGAGPFPAVVLVHGSGPHDRDARIGPNAPFRDIAHGLAARGIAVLRYDKRSYAAPESLAGGKLSLDGETTDDAVAAVALLAGHPDIDAQRIYVFGHSQGALLAPRIAARSGRVAGLVLLAPPARPVLDLLLEQLRAQPGSDTPDRRAAITRVEAEVQRIRQAPPAGPADSDMVNLLGVPAPAGYWRALDHTDAIAELQALGPLPVLWLQGERDIQVNAADWRRWRRALAHDAAATLRAYPALNHLGIAGSGPGNAAEYAQPGQVDAGLITDVAHWLQAQAPKAGR				NA	NA	NA	NA	NA
BMS020_05055	183			hypothetical protein	ATGAGCAAGCGCTGGAGCTACCAGACGATCGAAATCAAATCCGGCTTCCTGCACAGCACCCTGAGTGCCGCGGCAGTACAGGAGGAACTCACCCGGCAGGGCAACCAGGGCTGGGAACTGGTCAACATCATCGTCGGCAACCCGCTGTCCACGGCGCTGCTGGTGTTCAAGAAGGAAGCCTGA	MSKRWSYQTIEIKSGFLHSTLSAAAVQEELTRQGNQGWELVNIIVGNPLSTALLVFKKEA				NA	NA	NA	NA	NA
BMS020_05056	186			hypothetical protein	GTGAGCGAGAAGAAGGCCTATCCGCTGCGCATCAACGCCGAGGTCCTGGCGGCGGCGCAGCGCTGGGCGGACGACGAGCTGCGCAGCCTCAACGCGCAGATCGAATACGTGCTGCGCGACGCACTGCGCAAGGCCGGGCGGCTGCCCAAGCCTCCTACACCCACGGATGAAGAGGAGTCGACATGA	MSEKKAYPLRINAEVLAAAQRWADDELRSLNAQIEYVLRDALRKAGRLPKPPTPTDEEEST				NA	NA	NA	NA	NA
BMS020_05057	285			hypothetical protein	ATGGATGCCCTGGTTCCCCTGATCGTCGCGCTGACCGGCCTGCCGGCGCTGGGCCTGGCTGCCTGGACCGGCGGCCGCGACGAACCGCACGCGCGCGGCCTCGGCCTGCGCTGGGCCCTGGTCGCGCTGTGCGCCTTCCTCGGCGCCGGCGCGCTGTACTGGGCCGGCGGCAGCCAGCCGCGCGTCTACGCGGTCGCGATCGTGCTGGTCATCGCGGTCAACGCGCTGCTGGTGTCGATGGTGCTGCACCTGCGCCGCGGCGGCGATGGGAAGCACCCGCGGTGA	MDALVPLIVALTGLPALGLAAWTGGRDEPHARGLGLRWALVALCAFLGAGALYWAGGSQPRVYAVAIVLVIAVNALLVSMVLHLRRGGDGKHPR				NA	NA	NA	NA	NA
BMS020_05058	867			hypothetical protein	ATGAAAGAGAAGCCCATCGGTTCCCTGCCCGGCATCCCGCTGATCGTCGCGGTCACCGTGGCCCTGCTGCTGTCGGCCTGGACCCTGGTCGCCGCCGGCGCCGGCCAGCTCCCGGTCCTGGCGATGATCCCGGCGGTGCTGGTGGTCGTGGCCGCGGTGTTCCTGCTGGTCGGCCTGTACATGCTCGAACCCAACCAGGCGGCGGTACTGAGCCTGTTCGGCAAGTACGTCGGCACGGTCAAGGATCCCGGCCTGCGCTGGAACAACCCCTTCTACGCCAAGCGCAAGGTCAGCCAGCGCGTGCGCAACTTCGAGAGTGGCCGGCTCAAGGTCAACGAGCTCGACGGCTCGCCGATCGAGATCGCCGCGGTGATCGTCTGGCAGGTGATGGACGCCTCCGAGGCGGTCTACAACGTCGACGACTACGAAAGCTTCGTGCACATCCAGTCCGAGGCGGCGCTGCGCGCGATGGCCACCAGCTATCCCTACGACCAGCACGAGGACGGGCAGATCTCGCTGCGCAGCCACCCCGTCGAGATCAGCGAGCAGCTCAAGCGGCACCTGGACGAACGCCTGACCCAGGCCGGCGTCGACGTGATCGAGGCACGCATCAGCCACCTCGCCTACGCCCCGGAAATCGCCCAGGCCATGCTGCAGCGCCAGCAGGCCAATGCGGTGATCGCCGCGCGCACCCGGATCGTCGCCGGCGCGGTCGGCATGGTCGAGATGGCGCTGGCCGAGCTGCAGAAGAACGACGTGGTCGCGCTCGACGAGGAACGCAAGGCGCACATGGTCAGCAACCTGCTCACCGTGCTGTGCTCGGACCGCGGCACCCAGCCGATCGTCAACGCCGGCTCGCTGTACTGA	MKEKPIGSLPGIPLIVAVTVALLLSAWTLVAAGAGQLPVLAMIPAVLVVVAAVFLLVGLYMLEPNQAAVLSLFGKYVGTVKDPGLRWNNPFYAKRKVSQRVRNFESGRLKVNELDGSPIEIAAVIVWQVMDASEAVYNVDDYESFVHIQSEAALRAMATSYPYDQHEDGQISLRSHPVEISEQLKRHLDERLTQAGVDVIEARISHLAYAPEIAQAMLQRQQANAVIAARTRIVAGAVGMVEMALAELQKNDVVALDEERKAHMVSNLLTVLCSDRGTQPIVNAGSLY				NA	NA	NA	NA	NA
BMS020_05059	1188	purT_2	COG0027	Formate-dependent phosphoribosylglycinamide formyltransferase	ATGACCACCCTCGGCACACCGTTGTCCCCGTCCGCCACCCGCGTGCTGCTGCTGGGCTCGGGCGAGCTGGGCAAGGAAGTGGCGATCGAACTGCAGCGGTTCGGCGCGGAAGTGATCGCGGTCGATCGCTACGCCAATGCTCCGGCGATGCAGGTCGCGCACCGCTCGCATGTGGTCGACATGCTCGACGCGATGGCGCTGCGCGAGCTGATCGCACGCGAGCAGCCGCACCTGATCGTGCCGGAGATCGAGGCGATCCATACCGAAACCCTGGTGCAGCTGGAGCGCGAGCACGGCCAGAAGGTGGTGCCGACCGCGCGCGCCGCGCGCCTGACCATGGACCGCGAAGGCATCCGCCGGCTGGCCGCCGAGACGCTGGGCCTGCCGACCTCGCCGTACCGCTTCGTCGACACGCTGCAGGAGTACCGCGCCGCGGTCGCCGAGATCGGCCTGCCGTGCGTGGTCAAGCCGGTGATGTCGTCCTCGGGCAAGGGCCAGAGCACGCTGCGCACGGCCGGTGATGTCGATCCGGCCTGGGACTATGCGCAGACCGGTGGTCGCGCCGGTGCCGGCCGCTGCATCGTCGAGGGCTTCATCGACTTCGATTACGAGATCACCCTGCTGACCGTGCGCCACGCCGGCGGCACCGCGTTCTGCGATCCGATCGGGCACTGGCAGAGGGACGGCGACTACCGCGAGAGCTGGCAGCCGCAGCCGATGTCGCCGGCGGCACTGGCCGAGGCGCAGCGCATCGCCCAGGCGGTCACCGACGATCTCGGTGGCTGGGGCCTGTTCGGCGTGGAGCTGTTCGTGAAGGGCGACGCGGTGTGGTTCTCGGAGGTCTCGCCGCGCCCGCACGACACCGGCCTGGTCACCCTGGTCTCGCAGGAGCTGAGCGAATTCGCGCTGCACGCGCGCGCGATCCTCGGCCTGCCGATCCCACTGATCCGCCAGGCCGGTCCGTCGGCCTCGTGCGCGATGCTCGCGCATGGCGAGGGCGTGCCGCTGTTCGAAGGCGTGGCCGCAGCGTTGGCGCAGCCGGACACCGCACTGCGCCTGTTCGGCAAGCCCAGCGTGCACGGCCATCGTCGCGTCGGCGTGACCCTGGCGCGCGGCGAGGACATCGACCAGGCCCGCGCCAAGGCGCGCGACGCCGCCGCGGCGATCACGATCACGCTGCAGGCCTGA	MTTLGTPLSPSATRVLLLGSGELGKEVAIELQRFGAEVIAVDRYANAPAMQVAHRSHVVDMLDAMALRELIAREQPHLIVPEIEAIHTETLVQLEREHGQKVVPTARAARLTMDREGIRRLAAETLGLPTSPYRFVDTLQEYRAAVAEIGLPCVVKPVMSSSGKGQSTLRTAGDVDPAWDYAQTGGRAGAGRCIVEGFIDFDYEITLLTVRHAGGTAFCDPIGHWQRDGDYRESWQPQPMSPAALAEAQRIAQAVTDDLGGWGLFGVELFVKGDAVWFSEVSPRPHDTGLVTLVSQELSEFALHARAILGLPIPLIRQAGPSASCAMLAHGEGVPLFEGVAAALAQPDTALRLFGKPSVHGHRRVGVTLARGEDIDQARAKARDAAAAITITLQA	PGPT0008100_778	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008100-purT-K08289	NA	NA
BMS020_05060	1134			hypothetical protein	ATGATGGCCGTTCCGGCCCCGCCCGGCGCCACGCTGCGCGTGGCCAGCTACAACGTCGCCCTGCACGCCGCCGGCGCGGGCGAACTGGCGCGCGAACTCGACGCCGGCAGCGCCCGCGCCGATGCGGTCGCCGCGGTGCTGCAACGCGTACGTCCGGACGTGGTGCTGCTCAACGAGTTCGACCACGATCCGGCAGGCGCCGCGGCGACACTGTTCCAGCGCCGCTGCCTGGGCGTGGCCCAGCCGCTCGGCGGCGCACCGCTGCACTACCCGTACCGCTACGCGGCCGCGGTCAACACCGGCGCCCCCAGCGGACTGGATCTGGATGGCGATGGCCGCAGCGACGGTCCCGGCGACGCCTGGGGCTACGGCGCCTATCCCGGCCAGTACGGCATGCTGCTGCTCTCGCGCTATCCGCTCGATGCCGCCGCGGCGCGCAGCTTCCGCCTGCTGCGCTGGAGTGCGTTGCCGGATGCGCGCCGGCCGCATGACCCGGCCAGCGGCCGGCCGTTCCATGCCGATGCGGTCTGGCAGCAGTTGCGGCTGTCGTCGAAATCGCACTGGGACGTGCCGGTGCGAACGCCGCTGGGCACCGTGCACCTGCTGGCCTCGCACCCCACACCACCGGCGTTCGATGGTCCCGAGCGGCGCAACCTGCTGCGCAACGCCGACGAGTTGCGACTGTGGCAGGCCTATCTCGACGACGGCGACGGCCGCAGTCCCTGGCTGTGCGACGACGACGGTCGCCGCGGCGGGCTGGCGGCCGATGCGCGCTTCGTGCTGCTCGGCGATCTCAACAACGATCCGCACGACGGTGCCGGTGACCACACCGCGATCGCCACGCTGCTGGCGCATCCGCGCCTGCTGCCCGACGCGCTGCCGCGCAGCGTGGGCGGCGCCCGCGCGATGGCCGCCTACGCCGAGGCCGGCATCGTCCATCGCGGCGACCCGGGCCTGGTCACCTGCGACTTCGGCCCGCGCGTGTTCGCGTTGCGGCTGGATTACGTGCTGCCCTCGCGCGGGCTGCGCCGGCTCGATGGCGGCGTGTTCTGGCCGGCGCCGGACGCAGCCGACGCGGCACTGGCCGAAGCCAGCGACCATCGGCTGGTGTGGGCGGACCTGGCGCTGGCGTGA	MMAVPAPPGATLRVASYNVALHAAGAGELARELDAGSARADAVAAVLQRVRPDVVLLNEFDHDPAGAAATLFQRRCLGVAQPLGGAPLHYPYRYAAAVNTGAPSGLDLDGDGRSDGPGDAWGYGAYPGQYGMLLLSRYPLDAAAARSFRLLRWSALPDARRPHDPASGRPFHADAVWQQLRLSSKSHWDVPVRTPLGTVHLLASHPTPPAFDGPERRNLLRNADELRLWQAYLDDGDGRSPWLCDDDGRRGGLAADARFVLLGDLNNDPHDGAGDHTAIATLLAHPRLLPDALPRSVGGARAMAAYAEAGIVHRGDPGLVTCDFGPRVFALRLDYVLPSRGLRRLDGGVFWPAPDAADAALAEASDHRLVWADLALA	PGPT0002580_18	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-PHYTASE_PRODUCTION,PGPT0002580-phy|phyA|phyB|phyC-K01083	NA	NA
BMS020_05061	768	bpt	COG2935	Aspartate/glutamate leucyltransferase	ATGGCCATCCACGCCGACACCCACGACGACCTGCGGCTGTTCCAGACCGGCCAGCACGCGTGCGGTTACTGGCCGGACCGGTTGGCCCGCGACCTGGTGCTCGACCCCTACGACCCGCGCCTGGGCTCGCTGTATCCGCAGGCGCTGGCCTGGGGCTTCCGCCGCTCCGGCGACCTGGTCTATCGCCCGCACTGCGAGCAATGTCGCGCCTGCGTGCCGGTGCGCATCCCCGTGCAGCGCTTCGTTCCCGATCGCAGCCAGCGCCGCTGCCTGGCGCGCAACGCCGACCTGGTCGCGCGCATCGTCGCCGCCGAGCGCAGCGACGAGCAGTTGGCGCTGTACCAGCGCTACCTGCGCCACCGCCACCCGGCCGGCGGCATGGACGAACACGGCCCCAGCGAGTTCGACCAGTTCCTGATCGGGCGCTGGTCGCACGGGCGCTTCCTGGAGATCCGCGAACCGGCCAGTGCCGGCCAGCCGGGCCGGTTGCTGGCGGTGGCGGTGACCGACGTCACCGCGCAGGCGTTGTCGGCGGTCTACACGTTCTACGACCCGGACCACGCCGCGCGCGGGCTGGGCACGCTGGCGATCCTGCGCCAGATCGAATGGGCGCGCCGCGAGGGGCTGGCGCATGTCTATCTCGGCTACTGGATCCGCGGCCACGAGAAGATGGACTACAAGCGGCGCTTCCATGCGCTCGAAGCCTATGACGGCCGCCAGTGGCGCGATTTCGCCGCTGGCTGGGGCGCGATCAGCGCGATCGGCTGA	MAIHADTHDDLRLFQTGQHACGYWPDRLARDLVLDPYDPRLGSLYPQALAWGFRRSGDLVYRPHCEQCRACVPVRIPVQRFVPDRSQRRCLARNADLVARIVAAERSDEQLALYQRYLRHRHPAGGMDEHGPSEFDQFLIGRWSHGRFLEIREPASAGQPGRLLAVAVTDVTAQALSAVYTFYDPDHAARGLGTLAILRQIEWARREGLAHVYLGYWIRGHEKMDYKRRFHALEAYDGRQWRDFAAGWGAISAIG				NA	NA	NA	NA	NA
BMS020_05062	573			hypothetical protein	ATGACCAACCGCAAACCCCTCCTCGTGCTGGCCGTGCTGGCCACCTTCGCCACTGGCGCCGCGCTGGCGGTCGATACGCCGCAGGCCGATCCCGCGGCCCATGGCCCAACCAAGCTCGACAAGAACGGCGACGGCGTGATCGACCGCAGCGAGGCCGCGGCCGACCCGCGCCTGGCGGCGCGCTTCGATGCGCTCGACATCAACAAGGACGGCAAGCTCTCGCGCGACGAGTTGCCGCGCCACCACGGCCGCAAGGGCCCGCACGACGGCCGTATGGCCAAGCTCGACAGCAACAAGGACGGGCGCATCAGCCGCGAGGAGGCCAAGGCCGATCCCAAGTTCGCCGCGCGTTTCGACGCGATGGACGTGAACAAGGACGGCTACGTCGACAAGGTCGACTTCCAGGCCAGGATGCAGCAGCACCGCGATGCGTGGTTCGCCGCCGCCGATACCGACAAGGACGGCAAGCTGAGCAAGGCCGAGTTCGACGCGGCGTCGGCCAAGCGCGGGCAGTACGATGGCCACCACCGCGACGGCAAGCCGCCGATGCCCAAGCCCGAGCCGAAGCAGTAA	MTNRKPLLVLAVLATFATGAALAVDTPQADPAAHGPTKLDKNGDGVIDRSEAAADPRLAARFDALDINKDGKLSRDELPRHHGRKGPHDGRMAKLDSNKDGRISREEAKADPKFAARFDAMDVNKDGYVDKVDFQARMQQHRDAWFAAADTDKDGKLSKAEFDAASAKRGQYDGHHRDGKPPMPKPEPKQ				NA	NA	NA	NA	NA
BMS020_05063	1164			hypothetical protein	ATGAACGCCGAAGCCCTCGACCTGATGCTGCAGCGGGAACTGCCCAACGCCCGCGATGGCTGCCCACATGCCTATGGCCGCATCGTCGGCGCCTGCCAGAACACGGTCACCGCGATCGCGCTGGCGATCACCCGCGACGTCGCCGCCAGCGAGGACATCGCCCAGGAGGCGTTCCTGCGCGCCTGGCAGCAGCTGGCCCGGCTGCACAGCCCGGCCAGCTTCATGCCGTGGCTGCGCCAGATCACCCGCAACCTGGCGCGCGACTGGTTGCGCGCGCAGCGGCGCCGGCCGATGAGCGGCGAAGCCGCCGAGATCGCCATCGGCATGGCCGCCGATCCGGCGCCCTCGCCCGGCGAGCGCCTGCAGCAGATCGAAGAAGAACAGGCCGCGGCCGAGATCATCTCGGCACTGCCCGAGGACAGCCGCGAGACGCTGCTGCTGTATTACCGCGAGGGCCAGCGTTCGCAGCAGGTCGCCGACCTGCTCGGGATCAGCGACGCGGCGGTGCGCAAGCGGCTGTCGCGGGCGCGCAGCAGCGTGCGCGAGGAACTGATGCAGCGTTTCGGCCGCTTCGCCTGCGGCAGCGCGCCGGGGCTGGCGTTCGGCCAGACGCTGACCCTGGCGATCGCCGCCGGCAAACCAGCGCTGGGCGGCGGGCTGGAGGCAGTGACCGGCGGCGTCGGTGCCGGGATCGCGACCAAGTCCGTGCTCGGCGCCGCCGGTGCTGGTGGCGCCGCAGCGGTCACCGGCCTGCTCGGCGGCCTGCTGGCCGGCGGCGCGGCGTTCTGGTTCAGCTTGCGCATGCTGCTGCGCTATGCCGACGATGAAGGCGAACGCCAGCGCATCGTCGTCGCCTACCGCCGCTATGTGCTGCGCTCGCTGGCGGCCATCGCCGTAGCGCTCGCGGTGGCAGTGGGCAGCAGCGGCTTCTGGCCGCTGACACTGGCCTGCCTGGCCGGGCTGCTGCTGGTGAACTACGACATGCTTGTGTCACTGCCGGCGGTGATGACCCCGCTACTGCGGCGCGACGCGCAACGTCGCCCCGAAGGCGCGGTCCGCCGGCAGATGAGCTACCGGCTCAGTTTCGGCGCCAGCGGCATCTTCGTCACCAATGCCTGCGTGCTGATGATGCTGGTGCCGCTGTTGCTGCAGCGGACACTGTGA	MNAEALDLMLQRELPNARDGCPHAYGRIVGACQNTVTAIALAITRDVAASEDIAQEAFLRAWQQLARLHSPASFMPWLRQITRNLARDWLRAQRRRPMSGEAAEIAIGMAADPAPSPGERLQQIEEEQAAAEIISALPEDSRETLLLYYREGQRSQQVADLLGISDAAVRKRLSRARSSVREELMQRFGRFACGSAPGLAFGQTLTLAIAAGKPALGGGLEAVTGGVGAGIATKSVLGAAGAGGAAAVTGLLGGLLAGGAAFWFSLRMLLRYADDEGERQRIVVAYRRYVLRSLAAIAVALAVAVGSSGFWPLTLACLAGLLLVNYDMLVSLPAVMTPLLRRDAQRRPEGAVRRQMSYRLSFGASGIFVTNACVLMMLVPLLLQRTL				NA	NA	NA	NA	NA
BMS020_05064	501			hypothetical protein	ATGCGCAAGATTTTCAGCAGCCAGCGCGTCGAAACCGCCGAAGGCGTGGCCCACATGCTGCGCGAGGCCGGCATCGAAGTGCGCCTGAGCAACGGCCGCTCCTACCAGAGCAAGCGCAGCGGGCAGTTCAGTTACCTCGACAAGGGCAATGCGCAGAACCACCCGACCGTGTGGATCGTGCACGCCAACGACCAGGCGCGCGCGCGCGAGCTGCTGCGCGAGGCGCGGCTGCTCGACACCACCCGCCGCGACATGCCCTACGCCGAGTACGCCTTCAGCGAGCAGCCCGAGGCGGCCGGCGGGCGCAGCTGGGCGACGCGGATCCGCTTGATCCTGTTGCTGGTGATCGGCGCGGTGGCGCTGTTCATCACCCTGCGCCACCGCGCGGTCCGCACCGAGGCACCGCCGCAGCCGCCGGCTGCGAGCGCGCCGGCGCAACAGGCCCCGGCGACGCCAGCACAGGACGAGGAAGTGCGCATCCGGATCGAGCCGGGCAAGTAA	MRKIFSSQRVETAEGVAHMLREAGIEVRLSNGRSYQSKRSGQFSYLDKGNAQNHPTVWIVHANDQARARELLREARLLDTTRRDMPYAEYAFSEQPEAAGGRSWATRIRLILLLVIGAVALFITLRHRAVRTEAPPQPPAASAPAQQAPATPAQDEEVRIRIEPGK				NA	NA	NA	NA	NA
BMS020_05065	912	tesB_2	COG1946	Acyl-CoA thioesterase 2	ATGCCCTTGTCCGTCCCCGCCGCACCCGTCGTTTCCGAACTGATCAGCCTGCTCTCGCTGGAGCGCCTGGAAGACAACCTGTTCCGCGGCCAGAGCCGCGACATCGGCACCAAGTACGTGTTCGGTGGACAGGTGCTCGGCCAGGCACTGGCCGCGGCGCAGGCCACGGTCGACAACGGCCGCCAGGCGCATTCGCTGCATGCCTACTTCCTGCGCGCCGGCGACATCGACGCACCGATCGTCTACGACGTCGATCGCACCCGCGACGGCGGCAGCTTCTCGGTGCGCCGGGTCACCGCGATCCAGCACGGCAAAGTGATCTTCTTCAGCGCGGCCTCGTTCCAGGAGCATGAGGACGGCGCCGAGCACCAGACCAAGATGCCCGAGGTGCCGCCGCCGGAGGACATCGAACAGACCCCGCCAGTCGCCCCCGAGGTGATGGCCAAGCTGCCGCCGAAGGTGCAGCGCTGGCTGACCCGCGGCGGCCCGTTCGAGTTCCGCCACGTCTATCCGCGGGACGAGCTCAACCCGCCCAAGCGCCCGCCGTTCCAGCAGATGTGGCTGCGCCTGACCGAACCGGTCGGCGACGATGGCGCACTGCATCGCGCGCTGCTGGCCTACGCGTCCGACTTCCAGCTGCTGGGCACCTCGACCTTCCCGCATGGGATCAGCTACTACACCCCGAACGTGCAGATGGCCTCGCTCGATCACGCGCTGTGGTTCCACCGTCCGTTCCGCACCGACGACTGGCTGCTGTATTCGCTCGACAGCCCGACCGCGCAGGAATCGCGCGGGTTGGCGCGCGGGCAGTTCTTCACCCGCGACGGCGTGCTAGTCGCCAGCACCACCCAGGAAGGCCTGATCCGCGTGGTCCGCGACGGCAGCGCCACCGCCGTGCCGGCCAAGGACTGA	MPLSVPAAPVVSELISLLSLERLEDNLFRGQSRDIGTKYVFGGQVLGQALAAAQATVDNGRQAHSLHAYFLRAGDIDAPIVYDVDRTRDGGSFSVRRVTAIQHGKVIFFSAASFQEHEDGAEHQTKMPEVPPPEDIEQTPPVAPEVMAKLPPKVQRWLTRGGPFEFRHVYPRDELNPPKRPPFQQMWLRLTEPVGDDGALHRALLAYASDFQLLGTSTFPHGISYYTPNVQMASLDHALWFHRPFRTDDWLLYSLDSPTAQESRGLARGQFFTRDGVLVASTTQEGLIRVVRDGSATAVPAKD	PGPT0001835_342	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001835-tesB-K10805	NA	NA
BMS020_05066	780	fadB_1		Fatty acid oxidation complex subunit alpha	ATGAGCGGTTACGTCCAGATCCACGAGCACGGCGCGGTCCGCGAGATCCGGCTGGCGCGCGCACCGGTCAACGCGCTCGACGATGCGCTGTGCGCGGCGCTGGTGACCGCGCTGCAGGCGGCGTTCGCCGAGGGCCGCCACGGCGTGGTGCTGTCCGGTGGCGAGCGGATCTTCTCGGCCGGACTGGACGTGCCGCACCTGCTCGCGCACGGCAACGATCGCGCCCGCCTGCATGCCAGCTGGAGCGCGTTCTTCGAGGTCGCGCGCACGCTGGCGCATGCGCCGGTGCCGGTGGTTGCGGCGCTGACCGGGCATGCCCCGGCCGGCGGCTGCGTGCTGGCGCTGTGCTGCGACTACCGGGTGATGGCGCGCAGCCCCGACCCGGCCCAGCCCTACGCGCTCGGCCTGAACGAGGTGCAGGTGGGGCTGGCCGCACCGGAGGGCATCCAGCGCCTGCTGCGGCGCGTGGTCGGCGCCTACCGTGCCGAGCGCCTGCTGGTCGCCGGCACGATGGTGCCGGCCGAGCAGGCACTGCGGATCGGCCTGGTCGATGCACTCGCCGATGGCGCCGACGTGGTCGCCGAGGCCGTGGCCTGGCTGCAGGCGCTGCTCGCGCTGCCGCGCCAGCCAATGCTGGCGACCCGTGCGATCGCCCGTGCCGACCTGCGCGAGGCCCTGGAACCGCAACACATCCAGCTCGACCGCTTCGTCGACGCCTGGCAGTCGCCGGACACCCAGGCCGCACTGCAGGCGTTGGCGGCGCGGTTGCGCAAGGGCTGA	MSGYVQIHEHGAVREIRLARAPVNALDDALCAALVTALQAAFAEGRHGVVLSGGERIFSAGLDVPHLLAHGNDRARLHASWSAFFEVARTLAHAPVPVVAALTGHAPAGGCVLALCCDYRVMARSPDPAQPYALGLNEVQVGLAAPEGIQRLLRRVVGAYRAERLLVAGTMVPAEQALRIGLVDALADGADVVAEAVAWLQALLALPRQPMLATRAIARADLREALEPQHIQLDRFVDAWQSPDTQAALQALAARLRKG	PGPT0021855_349	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021855-ECI1|DCI-K13238	NA	NA
BMS020_05067	453			hypothetical protein	ATGACCCGCATCTTCCGCACGCTTGCCGCGACCTGCCTGGCATTGGCGGCCCTGCCGGCCTGGGCCGCGGCCGATCATGCCTGCCTGGCGCTGGAGAAGGGCTGGATCCGCCTGCCGCCAGCCGCGGCGGCGATGCCGATGGCGGCCGGTTTTGGCACGTTGCGCAACGGCTGTGCGACGCCGGTGGTGGTGCAGTCGCTGAGCAGCCCGGCGTTCGCCGACGTGACGCTGCATGAGACCATGGTCCACGACGGGATGAGCCACATGCGCGCGTTGCCGCAGCTGCAGCTGGCGCCGGGGCAGGCCGCCACGCTCGCGCCCGGCGGCATGCACCTGATGCTGATGCAGCCGGCGACGCCGCCGCAGGCCGGCCAGCGCGTGCCGCTGCTGCTGCACCTGGCCGATGGCCGCCAGGTGCGGGTGGAACTCGAGGTGCGCAGCGCCGCGCCCTGA	MTRIFRTLAATCLALAALPAWAAADHACLALEKGWIRLPPAAAAMPMAAGFGTLRNGCATPVVVQSLSSPAFADVTLHETMVHDGMSHMRALPQLQLAPGQAATLAPGGMHLMLMQPATPPQAGQRVPLLLHLADGRQVRVELEVRSAAP				NA	NA	NA	NA	NA
BMS020_05068	411	fadM_2	COG0824	Long-chain acyl-CoA thioesterase FadM	ATGAGCGAACACGAGCACAAGGTCCTGGCGCGCATCCCGATCAGCGTGCGCTGGCGAGACATGGACAGCATGGGCCACGTCAACAACGCCAAGTACATCTCCTACCTGGAAGAAGCGCGCGTGCGCTGGATGCTCGGCGTCGAAGGCGTGTCGATGAGCGACCGCATCGCACCCGTGGTCGCCGCGACCAACGTCAACTACCGCCGCCCGATCGTGTGGCCGAACGACATCCTGGTCGAGCTGTTCGTCGAGCGCATGGGCAACAGCAGCGTCACCATCGGCCACCGCATCCTCGACCAGCAGGACGATGCCACGCTGTATTCGGACGGCAACGTGGTGGTGGTGTGGATGGACACCCAGACCGGCAAGAGTGCCACGCTGCCCGACGCGGTCCGCGCCGCCTGCAGCTGA	MSEHEHKVLARIPISVRWRDMDSMGHVNNAKYISYLEEARVRWMLGVEGVSMSDRIAPVVAATNVNYRRPIVWPNDILVELFVERMGNSSVTIGHRILDQQDDATLYSDGNVVVVWMDTQTGKSATLPDAVRAACS	PGPT0001850_7427	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
BMS020_05069	2970	uvrA_2	COG0178	UvrABC system protein A	ATGGCGATGGATTACATCCGCATCCGCGGCGCGCGGACGCACAACCTCAAGAACCTCGACCTCGACCTGCCCCGCGACAAACTGATCGTGATCACCGGCCTGTCCGGCTCGGGCAAGTCGTCGCTGGCCTTCGACACGATCTATGCCGAAGGCCAGCGCCGCTACGTCGAGTCGCTGTCGGCCTACGCCCGGCAGTTCCTCAGCGTGATGGAGAAGCCGGACATCGACCACATCGAGGGTCTGTCGCCGGCGATCTCGATCGAGCAGAAGTCGACCTCGCACAACCCGCGTTCGACCGTCGGCACGATCACCGAGATCTACGACTATCTGCGCCTGCTGTACGCGCGCGTGGGCACCCCGCGCTGCCCCGACCACGGCTACCCGCTGGAGGCGCAGACGGTCAGCCAGATGGTCGACCAGGTGCTGACGCTGGACCCGGAGCAGCGCTACATGCTGCTGGCGCCGGTGATCCGCGACCGCAAGGGCGAGCACGCCCAGGTGTTCGAGCAGCTGCGCGCGCAGGGCTTCGTGCGCGTACGCGTGGACGGCGAGCTGTACGAGATCGACGCGGTGCCGCCGCTGGCACTGCGCCAGAAGCACACCATCGAGGCGGTGATCGACCGCTTCCGCCCGCGCGAGGACATCAAGCAGCGCCTGGCCGAATCGTTCGAGACCGCGCTCAAGCTCGGCGACGGCATGGCCGCGGTGCAGTCGCTGGACGATGCCAAGGCCGCACCCTCGCTGTTCTCGTCCAAGTATTCCTGCCCGGTCTGCGACTACTCGCTGCCCGAGCTCGAACCGCGCCTGTTCTCCTTCAACGCGCCGATGGGCGCCTGCCCGAGCTGCGACGGCCTGGGCATGGCCGAGTTCTTCGACCCGGCCAAGGTCGTGGTGCACCCGGAGCTGTCGCTGTCGGCCGGCGCGGTGCGCGGCTGGGACCGCCGCAACGCCTACTACTTCCAGCTGATCGCCTCGCTGGCCAAGCACTACAAGTTCGACGCCGATGCGCCGTGGCAGTCGCTGCCCGAGGACGTGCGCCAGGCGGTGCTGTACGGCAGTGGCGAGGAGGTGATCACCTTCACCTACTTCACCGAGGCCGGCGGCCGCACCCAGCGCAAGCACCGCTTCGAGGGCATCATCCCGAACCTGGAGCGCCGCTACCGCGAGACCGAATCGCCGGCGGTGCGCGAGGAACTGGCCAAGTACATCAGCGAACGCGCCTGCCCGGACTGCGGTGGCGCACGCCTGAACAAGGCCGCGCGCAACGTGTTCGTCGCCGATCGCCCACTGCCTGACATCGTGGTGATGCCGATCGACGAGGCGCTGGGCTTCTTCCGCGACCTGAGCCTGCCCGGCTGGCGCGGCGAGATCGCCGCCAAGATCGTCAAGGAGATCGGCGAGCGGCTGGGCTTCCTGGTCGACGTCGGCCTGGATTACCTGACGCTGGAGCGCAAGGCCGACACGCTGTCCGGCGGCGAGGCGCAGCGCATCCGCCTGGCCAGCCAGATCGGCGCCGGCCTGGTCGGCGTGATGTACGTGCTGGACGAGCCGTCGATCGGCCTGCACCAGCGCGACAACGAGCGCCTGCTCGGCACCCTGACCCGGCTGCGCGACCTCGGCAACACGGTGATCGTGGTCGAGCACGACGAGGATGCGATCCGTCTGGCCGACCACGTGCTCGACATCGGCCCCGGCGCCGGCGTGCATGGCGGCGAGATCTGCGCCCAGGGCACGCTGCAGGACATCCTGGAATCGCCGCGCTCGCTGACCGGGCAGTACCTGTCGGGCAAACGCCAGATCGAGATTCCCAAGCAGCGCCACAAGCCCAACCCGAAGATGACGCTGCACCTGCGCGGCGCCACCGGCAACAACCTCAAGGGCGTGGACCTGGCAATCCCGGCCGGGCTGCTGACCTGCGTGACCGGCGTGTCCGGCTCGGGCAAGTCGACGCTGATCAACGACACCCTGTTCTCGCTGGCCGCCAACGAGATCAATGGCGCCTCGCACCAGATTGCGCCGTACCGCGAGATCGAGAACCTCGACCTGTTCGACAAGGTCGTGGACATCGACCAGTCGCCGATCGGCCGCACGCCGCGCTCCAATCCGGCCACCTACACCGGCCTGTTCACCCCGCTGCGCGAACTGTTCGCGCAGGTGCCGGAAGCGCGCGCGCGCGGCTATTCGCCTGGCCGCTTCAGCTTCAACGTGCGCGGCGGCCGCTGCGAGGCCTGCCAGGGCGACGGCATGATCAAGGTGGAGATGCACTTCCTGCCCGACGTGTACGTGCCGTGCGACGTCTGCGGCGGCAAGCGCTACAACCGCGAGACGCTGGAGATCCTGTACAAGGGCCACAGCATCAACGACGTGTTGGAAATGACCGTCGAGGATGCGCTGCGGTTGTTCGAGCCGGTGCCGGCGATCGCGCGCAAGCTGGAAACGCTGGTCGACGTCGGCCTGAGCTACATCAAGCTCGGCCAGAGCGCGACCACGCTGTCCGGCGGCGAGGCGCAGCGCGTCAAGCTGTCCAAGGAACTGTCGCGGCGCGACACCGGCCGCACCCTGTACATCCTCGACGAGCCGACCACCGGCCTGCACTTCCACGACATCGAAGCGCTGCTCGGCGTGCTGCACAAGCTGCGCGACGAGGGCAACACGGTGGTGGTGATCGAGCACAACCTGGACGTGATCAAGACCGCCGACTGGATCGTCGATCTCGGCCCCGAGGGCGGCCACCGCGGCGGCACCATCCTGGTCTCCGGCACGCCGGAGGACGTGGCCGCGCACGAGGCGTCGTACACCGGCCAGTTCCTGGCCAAGATGCTGCCGGCCAGCAGCGTGCGCCCGGGCAGCAAGCCGGCCGCCGTGGCCAACAAGCCCGACGCGCTGCCGCCGCGCAAGAGCAAGCCGGAAAAGGCCGCCAAGGCCGCCAAGACCCCCTCCAAGACCAGCAAGAAGAAGACCGAACGATGA	MAMDYIRIRGARTHNLKNLDLDLPRDKLIVITGLSGSGKSSLAFDTIYAEGQRRYVESLSAYARQFLSVMEKPDIDHIEGLSPAISIEQKSTSHNPRSTVGTITEIYDYLRLLYARVGTPRCPDHGYPLEAQTVSQMVDQVLTLDPEQRYMLLAPVIRDRKGEHAQVFEQLRAQGFVRVRVDGELYEIDAVPPLALRQKHTIEAVIDRFRPREDIKQRLAESFETALKLGDGMAAVQSLDDAKAAPSLFSSKYSCPVCDYSLPELEPRLFSFNAPMGACPSCDGLGMAEFFDPAKVVVHPELSLSAGAVRGWDRRNAYYFQLIASLAKHYKFDADAPWQSLPEDVRQAVLYGSGEEVITFTYFTEAGGRTQRKHRFEGIIPNLERRYRETESPAVREELAKYISERACPDCGGARLNKAARNVFVADRPLPDIVVMPIDEALGFFRDLSLPGWRGEIAAKIVKEIGERLGFLVDVGLDYLTLERKADTLSGGEAQRIRLASQIGAGLVGVMYVLDEPSIGLHQRDNERLLGTLTRLRDLGNTVIVVEHDEDAIRLADHVLDIGPGAGVHGGEICAQGTLQDILESPRSLTGQYLSGKRQIEIPKQRHKPNPKMTLHLRGATGNNLKGVDLAIPAGLLTCVTGVSGSGKSTLINDTLFSLAANEINGASHQIAPYREIENLDLFDKVVDIDQSPIGRTPRSNPATYTGLFTPLRELFAQVPEARARGYSPGRFSFNVRGGRCEACQGDGMIKVEMHFLPDVYVPCDVCGGKRYNRETLEILYKGHSINDVLEMTVEDALRLFEPVPAIARKLETLVDVGLSYIKLGQSATTLSGGEAQRVKLSKELSRRDTGRTLYILDEPTTGLHFHDIEALLGVLHKLRDEGNTVVVIEHNLDVIKTADWIVDLGPEGGHRGGTILVSGTPEDVAAHEASYTGQFLAKMLPASSVRPGSKPAAVANKPDALPPRKSKPEKAAKAAKTPSKTSKKKTER	PGPT0014915_911	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701	NA	NA
BMS020_05070	309	rplU	COG0261	50S ribosomal protein L21	ATGTACGCAGTTTTGGTAACCGGCGGTAAGCAATACCGCGTGGCGCAGGGCGAAAAGCTCCGCGTCGAGAAGCTCGAAGTCGAAGCCGGCAACGAGATCAAGTTCGACAACATCCTGATGCTCGGCGACGCCGACGGCATCAAGGTCGGCGAGGCCCTGAAGGGCGCGTCGGTCACCGCCAAGGTTGTGGCCCATGGCCGCGCCGACAAGGTGAAGATCATCAAGTTCCGTCGCCGCAAGCACCACATGAAGCATCAGGGTCACCGGCAGTACTACACCGAAATCGAAATCACCGGCATCGCCGGCTGA	MYAVLVTGGKQYRVAQGEKLRVEKLEVEAGNEIKFDNILMLGDADGIKVGEALKGASVTAKVVAHGRADKVKIIKFRRRKHHMKHQGHRQYYTEIEITGIAG				NA	NA	NA	NA	NA
BMS020_05071	261	rpmA_2	COG0211	50S ribosomal protein L27	ATGGCACACAAAAAGGGCGTAGGCTCCTCGCGCAACGGCCGCGATTCCAACCCGAAGTACCTGGGCGTCAAGATCTACGGCGGCCAGGCCATCGAGGCCGGCAACATCATCGTGCGTCAGCGCGGCACCCAGTTCCATCCGGGCGCCGGCGTCGGCCTGGGTCGTGACCACACGCTGTTCGCGCTGGTCGACGGCAAGGTCGAGTTCTCGGTGAAGGGCGCCAAGAAGCGCCGCACCGTGAGCGTCGTCACCGAGGCGTAA	MAHKKGVGSSRNGRDSNPKYLGVKIYGGQAIEAGNIIVRQRGTQFHPGAGVGLGRDHTLFALVDGKVEFSVKGAKKRRTVSVVTEA	PGPT0019510_13	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0019510-icd2-K00030	NA	NA
BMS020_05072	1065	obg		GTPase Obg	ATGAAACTCGTAGACGAAGCTGAAATCCAGGTGATCGCCGGCAATGGCGGCAATGGCTGCGTCGGCTTCCGGCGCGAGAAGTTCATTCCGCTCGGCGGTCCGGATGGTGGCGATGGCGGCAACGGCGGCAGCGTCTGGCTGGTCGCCGATGAGAACCTCAACACCCTGGTCGATTTCCGCCACGAGCGCATCTTCAAGGCGCAGCGCGGCGAGAACGGCATGGGCCGGCAGATGTACGGCAAGGGCGGCGAGGACAAGGTCATCACCGTGCCGGTCGGCACCGTGATCATGAATGTCGACACCGACGAGGTGATCGGCGACCTGACCCGGCATGGCGATCGCCTGCTGGTCGCCAAGGGTGGCAAGGGCGGCCTGGGCAACATGCACTTCAAGAGTTCGGTCAATCGTTCGCCGCGCCAGGCGCTGCCGGGCGAGGAGGGCGAGGAGCGCCTGCTCAAGCTGGAGCTGAAGCTGCTGGCCGATGTCGGCCTGCTCGGCTTCCCCAATGCCGGCAAGAGCACCTTCATCCGCGCCGTCTCGGCGGCGACGCCGAAGGTGGCCGATTACCCGTTCACCACGCTGTACCCGAACCTGGGCGTGGTCAGCGTCGAGGCGCACCGCAGCTTCGTGATCGCCGACGTGCCGGGCCTGATCGAGGGCGCGGCCGAGGGTGCCGGCCTCGGTACCCAGTTCCTGCGCCACCTGCAGCGCACCCGCCTGCTGCTGCACCTGGTGGACATCTCGCCGATGGAAGGTGGGGTCGAGGGCGTGTCGCCGGCCGGGCAGGTGCGCCTGCTGGAGCGCGAGCTGGAGCGGCACGATCCGGAGCTGCTGCACAAGCCGCGCTGGCTGGTGCTGAACAAGGCCGACATGATGTTCGAGGACGAGGCCCAGGCCGCCGCCGATGCGGTGCTGGCCGAGCTCGGTTGGACCGGGCCGCATTACCTGGTGTCGGCGCTGGGGCGCGAGGGCACCTGGCCGATCATGAAGGACATCATGGCGTTCTTCGATCGCCAGAAGGCCGAGGCGGCTGAGGCGGCGGAAGTGGCCGCCAATGGCGGCTGA	MKLVDEAEIQVIAGNGGNGCVGFRREKFIPLGGPDGGDGGNGGSVWLVADENLNTLVDFRHERIFKAQRGENGMGRQMYGKGGEDKVITVPVGTVIMNVDTDEVIGDLTRHGDRLLVAKGGKGGLGNMHFKSSVNRSPRQALPGEEGEERLLKLELKLLADVGLLGFPNAGKSTFIRAVSAATPKVADYPFTTLYPNLGVVSVEAHRSFVIADVPGLIEGAAEGAGLGTQFLRHLQRTRLLLHLVDISPMEGGVEGVSPAGQVRLLERELERHDPELLHKPRWLVLNKADMMFEDEAQAAADAVLAELGWTGPHYLVSALGREGTWPIMKDIMAFFDRQKAEAAEAAEVAANGG				NA	NA	NA	NA	NA
BMS020_05073	270	rpsT	COG0268	30S ribosomal protein S20	GTGGCCAATATCAAGTCCGCCAAGAAGCGCGCCAAGCAGACCGTTGTGCGCAACGCGCGCAATACGGCTCAGCGTTCGCAGCTGCGCACCGCCGTCAAGAAGGTGATCAAGGCCCTTGACGCCAACGATGCCGCCGGCGCCGAAGCCGCCTTCGCCGTCGCCCAGCCCCTGCTCGACCGGTTCAGCTCCCGTGGCCTGATCCACAAGAACAAGGCTGCTCGCCACAAGAGCCGCCTGACCGCCCGCATCAAGGCCATCAAGGCCGCCTGA	MANIKSAKKRAKQTVVRNARNTAQRSQLRTAVKKVIKALDANDAAGAEAAFAVAQPLLDRFSSRGLIHKNKAARHKSRLTARIKAIKAA				NA	NA	NA	NA	NA
BMS020_05074	1593	murJ_2	COG0728	putative lipid II flippase MurJ	ATGTGGCGGGGCGTGCTGTCGTTCAGCAGCATGACAATGATCTCGCGGGTGCTGGGCCTGGTCCGCGACTGGTCGATCAGCTACAGCTTCGGCACCAGCGCCACCACCGACGCGTTCTGGGTAGCCTTCCGGATCCCCAATTTCCTGCGCCGGCTGTTCGCCGAGGGCTCGTTCTCGACCGCCTTCGTGCCTGTGTTCACCGAGGTGAAGGAAACCCGCAGCCACGCCGAACTGCGCGAGCTGATGTCGCGGGTGTCCGGCACCCTGGGGGCCGCGCTGCTGGTGGTGACCGCGCTCGGGCTGCTGTTCACGCCGCAGCTGGCGACCCTGTTCAGCGACGGCCAGGCGGCCGACCCGGAGAAGTACGCCCTGCTCAAGGACCTGCTGCGGCTGACCTTCCCGTTCCTGCTGTTCGTGTCGTTGACCGCGCTGGCCGGTGGCGCGCTGAACAGCTTCCAGCGCTTCGCGATGCCGGCGCTGACGCCGGTGATCCTCAACCTGTGCATGATCGCCGGCGCGCTGTGGCTGGCGCCGCGGCTGGAGGTGCCGATCCTGGCGATGGGCTGGGCGGTGCTGCTGGCTGGCGTGCTGCAGCTGCTGTTCCAGTTCCCGTCGCTGAAGCAGGTCGACCTGTTGACCCTGCCGCGCTGGGGCTGGAGCCACCCGGACGTGCGCCGGGTGATGACCCTGATGGTGCCGACCCTGTTCGGCTCGTCGATCGCGCAGATCAACCTGCTGCTGGATACGGTGATCGCCGCGCGCCTGTTCGACGGCTCGCAGTCCTGGCTGTCGCAGGCCGACCGGTTCCTGGAGCTGCCGCTGGGCCTGTTCGGGGTGGCGCTGGGCACGGTGATCCTGCCGGCGTTGTCGCGCCACCACGTCAAGACCGACGGCGAGGGGTTCTCGGCGGCGCTGGACTGGGGGCTGCGGACCACGCTGCTGATCGCGGTGCCGGCGATGGTCGGGCTGATGCTGCTGGCCACGCCGCTGGTGGCGACGATGTTCCAGTACGGCAAGTTCACCGCGTTCTCGACCCAGATGACCGCGCTGTCGGTGCTCGGGCTGAGCTTCGGCCTGCCGGCGTTCGCGCTGGTGAAGGTGATCCTGCCGGCGTTCTATGCACGCAAGGACACCCGTACCCCGGTGCGCGCCGGCGTGGTCTCGCTGGTGGCCAACATGGCGCTGAACATCGCCTTCCTGGCGTTGCTCTACCACCTGATGGTGGCGCCGGAGGTGCGCGCGCTGGGGGTGATGGAGGCGCTCAAGCGCACCCCGGGCCTGCACCTGGCACTGGGCATGGCCAGTGCGCTGGCCAGCTACATCAACCTGGGGCTGCTGTGGTTCTGGCTGGGGCGGGCCGGGGTCTACCGGCGCAGTCCCGGCTGGAGCCGGTTCCTGGTGCGGCTGGTGCTGTCCTGCCTGGCGATGGCGGCGGTGGTCGGCGGTGGCCTGCACTGGCTGCCGGAATTCACCGGGATGGACAAGTGGCACCGCTTCGGCGCGCTGTTCGGCCTGGTGGCCGCGGGCGGGGCGACCTATGCGCTGATGCAGGTGGCGCTCGGGTTCCGTCCGCGCGACCTGCGCGGGCGCTGA	MWRGVLSFSSMTMISRVLGLVRDWSISYSFGTSATTDAFWVAFRIPNFLRRLFAEGSFSTAFVPVFTEVKETRSHAELRELMSRVSGTLGAALLVVTALGLLFTPQLATLFSDGQAADPEKYALLKDLLRLTFPFLLFVSLTALAGGALNSFQRFAMPALTPVILNLCMIAGALWLAPRLEVPILAMGWAVLLAGVLQLLFQFPSLKQVDLLTLPRWGWSHPDVRRVMTLMVPTLFGSSIAQINLLLDTVIAARLFDGSQSWLSQADRFLELPLGLFGVALGTVILPALSRHHVKTDGEGFSAALDWGLRTTLLIAVPAMVGLMLLATPLVATMFQYGKFTAFSTQMTALSVLGLSFGLPAFALVKVILPAFYARKDTRTPVRAGVVSLVANMALNIAFLALLYHLMVAPEVRALGVMEALKRTPGLHLALGMASALASYINLGLLWFWLGRAGVYRRSPGWSRFLVRLVLSCLAMAAVVGGGLHWLPEFTGMDKWHRFGALFGLVAAGGATYALMQVALGFRPRDLRGR	PGPT0024200_1354	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_LIPID_II_FLIPPASE_ACTIVITY,PGPT0024200-murJ|mviN-K03980	NA	NA
BMS020_05075	948	ribF_1	COG0196	Bifunctional riboflavin kinase/FMN adenylyltransferase	ATGAGCAGGCTTTTTAGAGACGTCGAGGGCGGGACCCTGTTCCCGCACGGAAGCGTGGTCTGCATCGGCGCCTTCGATGGCCTGCATCTGGGTCACCGCGCGCTGGTGCGGCATGCGGTGGCGCGCGCGCGCGCGCTCAATGTGCCCGCGGTCGCGGTCAGTTTCGAGCCGCTGCCGCGCGAATTCTTTGCCCATGGCGCCCCGCCGCCGCGGCTGACGCTGGCGCGTGCCAAGGTCGAGGGGTTGCTGGGCTTCGGCGCCGATGGCGTCGGCCTGGTGCGTTTCGACGGTCGCCTGTCGGCGATGAGCGCCGAGGACTTCGTGCGCAAGGCCCTGGTCGGGCGGTTGTGCGCGAAGGAGGTCTGGATCGGGCCGGAGTTCCGTTTCGGCCATAAACGCGGCGGCGACATCGCGTTGCTGCAGGCGCTTGGCGCCGAGCTGGGCTTCGCCGCCGGCGAGATCGCGCCGGTGCACCTGCATGGCGAGCGGATCTCGGCCACGCGCATCCGTGAGTTGCTGGTGGCGGGCGAGTTCGCCCACGCCAGCGACCTGCTCGGGCGGCCGTATGCGATCGGCGGGCGGGTGGTGCGCGGGCAGCAGCTTGGGCGCACGCTGGGCTTCCCGACCGCGAACCTGCGTTTCCCGCACACGCCGGCGCTGGCCGGCATCTACGCGACCTGGGTGCATGGCGTGTTCGAACAGCCGTGGCCGTCGGTCTCCAGCTTCGGCACCCGGCCGACCGTGGCCGGCGTGGAGCCGCTGCTGGAAGCGCACCTGTTCGACTTCCATGGCGACCTGTACGGCCGCCACATCGAGGTCGAGTTCGTCGCCAAGCTGCGCGACGAGGAAAAATTCTCCGGGCTGGACGCCCTGACCGAACAGATGCACCGCGATGCCGAACAGGCGCGCCGCATCCTCAACGAACACCGACTGCGAGCAACCGCGTGA	MSRLFRDVEGGTLFPHGSVVCIGAFDGLHLGHRALVRHAVARARALNVPAVAVSFEPLPREFFAHGAPPPRLTLARAKVEGLLGFGADGVGLVRFDGRLSAMSAEDFVRKALVGRLCAKEVWIGPEFRFGHKRGGDIALLQALGAELGFAAGEIAPVHLHGERISATRIRELLVAGEFAHASDLLGRPYAIGGRVVRGQQLGRTLGFPTANLRFPHTPALAGIYATWVHGVFEQPWPSVSSFGTRPTVAGVEPLLEAHLFDFHGDLYGRHIEVEFVAKLRDEEKFSGLDALTEQMHRDAEQARRILNEHRLRATA	PGPT0008625_97	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
BMS020_05076	2835	ileS_1	COG0060	Isoleucine--tRNA ligase	GTGAGCCAGGATTACAAAGCCACCCTCCACCTGCCGGCGACGGAGTTCCCGATGCGCGGCGATCTGCCCAAGCGCGAGCCGGCGATGCTCGAGCGCTGGGAGCAGGAGGGGCTGTATGCGCAGCTGCGCGAGAACGCCAAGGGCCGCCCGCTGTTCGTGCTGCACGACGGTCCGCCGTACGCCAACGGTGCGATGCACCTGGGCCATGCGGTCAACAAGGTGCTGAAGGACGTGATCGTCAAGTCGCGCTACCTGGCCGGCTTCGACGCGCCGTACATCCCGGGCTGGGATTGCCACGGCCTGCCGATCGAGATCGCGATCGAGAAGAAGTTCGGCAAGGTCGGGGTCAAGCTCGATGCGACCGAGTTCCGGCAGAAGTGCCGCGAATACGCCGCCGAGCAGATCGATCTGCAGCGCACCGGGTTCAAGCGCCTGGGCGTGATCGGCGACTGGGACAACCCGTACAAGACCCTGGATTTCCGCTTCGAGGCCAATGAGATCCGTGCGCTGGCCAAGGTCATCGACAACGGTCACCTGACCCGCGGCGTGAAGCCGGTGCACTGGTGCTTCGACTGCGGCTCGGCGCTGGCCGAGGCCGAGATCGAATACGCCGACAAGGTCTCGCCGACCATCGACGTCGGCTATGCCGCGCGTGATGCGGCGGCGCTGGCCAGCAAGTTCGGCGTGCAGCTGCCGGCGGGCGTCGAGGTCGCGGTGCCGATCTGGACCACCACGCCATGGACGCTGCCGGCCTCGCTGGCGGTGTCGCTGGGCGCGGAAATCGAGTACGCGCTGGTCGAGGGCCCGGCCCGCGACGGCACGCCGCGCTGGCTGGTGCTGGCCACTGCGCTGGCCGGCAAGGCGCTGGCGCGCTACGGCATCGCCGGCGAGCCTGTGGTGCACGGCCATGCCAAGGGCGCGGCGCTGGAAGGCCTGCTGCTGGCGCATCCGTTCTACGCCGAGCGCGACATCCCGCTGCTGCTGGGCGCGCACGTGTCCGACGAGGACGGCACCGGCGCGGTCCACACCGCGCCCGGCCACGGCCAGGAGGACTACCAGGTTTCCAAGCAGTACGGCCTGATCGAACGCTACAGCGCCGCGCAGATCAATCCGGTCGACGGCCGCGGCGTGTACCTGCCCTCGACGCCGGCGTTCGGCGCGCTGGAACTGGCCGGGCTGCACATCTGGAAGGCCAACGACGCCATCATCGACGGCCTGCGCGGCAACGGCATGCTGCTGGCCGCCGGCAAGATGGAGCATAGCTATCCGCATTGCTGGCGCCACAAGACCCCGATCGCGTTCCGCGCCACCCCGCAGTGGTTCATCTCGATGGAGCAGGCCAACCTGCGCGCCGACGCGTTGAAGGCGATCGAAGGCGTGACCTGGTACCCGGAGTGGGGCCAGGCGCGCATCGCCGGCATGATCGAGGGGCGCCCGGACTGGACGATCTCGCGCCAGCGCACCTGGGGCGTGCCGATCGCGCTGTTCGTGCACCGCGAGAGCGGCGAGCCGCATCCGCGCAGCGTCGAGCTGATGCGCCAGGTCGCCGACAAGGTGGAGCAGGGCGGCATCGACGTGTGGTATTCGCTGGACGCCGCCGAGCTGCTCGGCGACGAGGCCGCGCAGTACGACAAGATCACCGACATCCTCGATGTCTGGTTCGACTCCGGCGTCACCCACGAGGCGGTGCTGGCCGACCGCGGCCTGCCCAAGCCGGCCGACCTGTACCTGGAGGGCAGCGACCAGCATCGCGGCTGGTTCCAGTCCTCGTTGCTGACCGGCGTGGCGATCGACAAGGCTGCGCCGTACCGGCAGTGCCTGACCCACGGGTTCACCGTGGACGAGCACGGCCGCAAGATGTCCAAGTCGCTGGGCAACGGCATCGAGCCGCAGGACATCATGAAGACGCTGGGCGCGGACATCCTGCGCCTGTGGATCGCCTCGGCCGACTACAGCAACGAGATGTCGCTGTCGCAGGAGATCCTCAAGCGCAACGCCGATGCCTACCGCCGCATCCGCAATACCGCGCGCTTCCTGCTTGGCAACCTGCACGGGTTCGAGCCGGCGCGCGACAGCGTGGCGCTGGCCGACATGGTGGCGCTGGACCGCTGGATCGTGCATCGCGCGTTCGAGGTGCAGGAGAAGATCACCGCCGCCTACGACCGTTACGACTTCGCCACGATCGTGCAGGCGCTGCTGAACTTCTGCAGCGTCGACCTCGGTTCGCTGTACCTGGACGTCACCAAGGACCGCCTGTACACGATGCGCGAGGATTCGCGCGGCCGGCGTTCGGCGCAGACCGCGATGTTCCATGTCGCCGAGGCGTTCGTGCGCTGGATCGCGCCGGTGCTGACCTTCACCGCCCAGGAGCTGTGGGGCTACCTGCCGGGCGAGCGCAAGCAACACGTGCTGTTCGCGACCTGGTACGACGGCCTGGCGCCGCTGCCGGCCGATGCCGCGCTGGGTGCGACCGACATCGACAAGCTGCTGGCGCTGCGCGAGCAGGTCGCCAAGGTGCTGGAGCCGATGCGCGCCAATGGCGTGATCGGCGCGGCGCTGGAGGCGGAGATCACCGTGGCCGCCGATGCCGCCACCGCCGCGCGCTGGCAGCCGCTGGCCGAAGAGCTGCGCTTTTTGTTCATCAGCGGCGATGTCGCGGTGCGCGAAGCCAGCACCGACGAGGTCTTCGTCAGCGCGCAGCCGACCACCAAGGCCAAGTGCGTGCGCTGCTGGCATCACCGTGCCGACATCGGCGCTGATCCCGAGCACCCGGAGCTGTGCGGCCGCTGCGCCAGCAACGTCGCCGGCGCGGGCGAGGAGCGGCGCTGGTTCTGA	MSQDYKATLHLPATEFPMRGDLPKREPAMLERWEQEGLYAQLRENAKGRPLFVLHDGPPYANGAMHLGHAVNKVLKDVIVKSRYLAGFDAPYIPGWDCHGLPIEIAIEKKFGKVGVKLDATEFRQKCREYAAEQIDLQRTGFKRLGVIGDWDNPYKTLDFRFEANEIRALAKVIDNGHLTRGVKPVHWCFDCGSALAEAEIEYADKVSPTIDVGYAARDAAALASKFGVQLPAGVEVAVPIWTTTPWTLPASLAVSLGAEIEYALVEGPARDGTPRWLVLATALAGKALARYGIAGEPVVHGHAKGAALEGLLLAHPFYAERDIPLLLGAHVSDEDGTGAVHTAPGHGQEDYQVSKQYGLIERYSAAQINPVDGRGVYLPSTPAFGALELAGLHIWKANDAIIDGLRGNGMLLAAGKMEHSYPHCWRHKTPIAFRATPQWFISMEQANLRADALKAIEGVTWYPEWGQARIAGMIEGRPDWTISRQRTWGVPIALFVHRESGEPHPRSVELMRQVADKVEQGGIDVWYSLDAAELLGDEAAQYDKITDILDVWFDSGVTHEAVLADRGLPKPADLYLEGSDQHRGWFQSSLLTGVAIDKAAPYRQCLTHGFTVDEHGRKMSKSLGNGIEPQDIMKTLGADILRLWIASADYSNEMSLSQEILKRNADAYRRIRNTARFLLGNLHGFEPARDSVALADMVALDRWIVHRAFEVQEKITAAYDRYDFATIVQALLNFCSVDLGSLYLDVTKDRLYTMREDSRGRRSAQTAMFHVAEAFVRWIAPVLTFTAQELWGYLPGERKQHVLFATWYDGLAPLPADAALGATDIDKLLALREQVAKVLEPMRANGVIGAALEAEITVAADAATAARWQPLAEELRFLFISGDVAVREASTDEVFVSAQPTTKAKCVRCWHHRADIGADPEHPELCGRCASNVAGAGEERRWF				NA	NA	NA	NA	NA
BMS020_05077	510	lspA_1	COG0597	Lipoprotein signal peptidase	GTGTCTGAAGCTTCCAAACCCAAACCCAATGCGCTGATCTGGCTGCTGTTGTCGGCGGCGATCATCGGCCTGGACCAGTGGAGCAAGGCCTGGGTGCTGGCCAGCCTGCCCGAGTACACCCCGGTGCCGGTGATCGACGGCTTCTGGAACTGGTATCGCACCTACAACACCGGTGCCGCCTTCAGCTTCCTGAGCGATGCTGGTGGCTGGCAGCTGTGGTTCTTCACCGCGATGGCGGTCGGCATCAGCGGCCTGCTGGCGTTCTGGCTCAGCCGTACCGCCCGCGGCGCCTGGCGCAGCGCGCTGCCATACGCGCTGGTGATCGGCGGGGCGATCGGCAACGTGATCGACCGCCTGATCCATGGCCACGTGGTCGATTTCATCCAGTGGTACGTCGGCGAGCACTACTGGCCGTCGTTCAACGTCGCCGACTCGGCGATCGTCGCCGGCGCGGTCGGGATCGCACTGTTCGGCCTGTTCGACGGCAAGAAGGCGCAAAAGGCGGGATAA	MSEASKPKPNALIWLLLSAAIIGLDQWSKAWVLASLPEYTPVPVIDGFWNWYRTYNTGAAFSFLSDAGGWQLWFFTAMAVGISGLLAFWLSRTARGAWRSALPYALVIGGAIGNVIDRLIHGHVVDFIQWYVGEHYWPSFNVADSAIVAGAVGIALFGLFDGKKAQKAG	PGPT0004770_707	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004770-pbrB|pbrC-K03101	NA	NA
BMS020_05078	951	ispH_1	COG0761	4-hydroxy-3-methylbut-2-enyl diphosphate reductase	ATGGACGTCCTGCTCGCCAATCCCCGTGGTTTCTGCGCCGGCGTCGACCGCGCGATCGAGATCGTCAAGCGCGCCATCGAAACGCTCGGCGCGCCGATCTACGTGCGTCACGAAGTGGTGCACAACCGCTTCGTGGTCGACGACCTGAAGGCGCGCGGCGCGATCTTCGTCGAGGAACTCGACGAGGTGCCCGACAACCACACGGTGATCTTCAGCGCGCACGGCGTCTCGCAGGCGGTGCGTGCCGAGGCCGAGCGGCGCGGCTTGAAGGTGTTCGACGCGACCTGCCCGCTGGTGACCAAGGTCCATTTCGAGGTTGCCCGGCATTGCCGCGCCGGCCGTGACGTGGTGCTGATCGGGCATGCCGGCCATCCCGAGGTCGAGGGCACGATGGGGCAGTGGGACCGCGAGCGCGGTACCGGCAGGATCTACCTGGTGGAGGACATCGACGATGTCGCCACGCTGCAGATCGAGCAGCCGGAGAACTTCGCCTACACCACCCAGACCACGCTGTCGGTGGACGATACGGTCGGCATCATCGATGCGCTGCGCGCGCGCTTCCCGGCGATGATGGGGCCGAAGAACGACGACATCTGCTACGCCACCCAGAACCGCCAGGACGCGGTGCGCGAACTGGCCGGACAGTGCGACCTGGTGCTGGTGGTCGGTTCGCCCAACAGCTCCAACTCCAACCGCCTCAGCGAGCTGGCGCGGCGCGAAGGCGTGGAGTCCTACCTGATCGACAACGCCGGCGAGATCGACCCGGCCTGGGTCGCCGGCAAGCGCCGCGTCGGCCTGACCGCCGGTGCCTCGGCGCCGCAGGTGCTGGTCGACGGCGTCATCGCGCGGCTGCGCGAGCTTGGCGCCGACGGCGTGTCGGAGCTGGCCGGCGAACCCGAATCGATGGTGTTCGCGCTGCCCAAGGAGCTGCGGCTGCAGCTGGTGGGGTAG	MDVLLANPRGFCAGVDRAIEIVKRAIETLGAPIYVRHEVVHNRFVVDDLKARGAIFVEELDEVPDNHTVIFSAHGVSQAVRAEAERRGLKVFDATCPLVTKVHFEVARHCRAGRDVVLIGHAGHPEVEGTMGQWDRERGTGRIYLVEDIDDVATLQIEQPENFAYTTQTTLSVDDTVGIIDALRARFPAMMGPKNDDICYATQNRQDAVRELAGQCDLVLVVGSPNSSNSNRLSELARREGVESYLIDNAGEIDPAWVAGKRRVGLTAGASAPQVLVDGVIARLRELGADGVSELAGEPESMVFALPKELRLQLVG	PGPT0007615_1378	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007615-ispH|lytB-K03527	NA	NA
BMS020_05079	900	araB_3		L-arabinolactonase	ATGGCCACGCCGGCGCCGCGTGCACTGGCGGCGGCGCGCTGCGTCTGGCCGCTGGCGGCGAGCCTGGGCGAAGGCGCGTGCTGGTCGGTGCACGAGCAGGCGCTGTACTTCGTCGACATCCTCGGCCACCGCCTGCACCGCTATGCGCCCGGCGGCGCGACGACGATGAGCTGGCAGTTCGCCGAGGAAGTCAGCGCGGTCGCCGAGCGCCGCGACGCCGCCGGGCTGCTGCTCAGCCTGCGTCACGACCTGGCGCTGTTCGACCCGGCCAGCGAGGTGCTGACCCGGGTGCACCGGCCCGAACCGGACCGCCCGGGCAACCGCTTCAACGACGGCAAATGCGACGCCCGCGGGCGCTTCTGGGCCGGCAGCACCGATTTCGCCTGCACTGCCGCGACCGGCGCGCTGTACCGCTACGACGGCGATGGTCGCTGCACACGCCAGCTCGACCAGGTCCATATCGCCAATGGTCCGACCTGGTCGATGGATGGCCGCACCATGTTCTTCAACGAGACCGGCGATGCGCGCACCTGGGCGATCGATTTCGACCCGGACACCGGCACACTCGGCCAACGTCGGCTATGGCTGCAGCACGCCGAGGCCGATGGCGCGCCGGACGGCATGACCACCGATGCCGACGGCCGGATCTGGATCGCCCGCTGGGGCGGCGCGGCGGTGAGCTGCCATGACGCGGCCGGCACGTTGCTGGCGCGCATTGCGCTGCCGGCCTCCCAGGTCACCAGCTGTGCATTCGGCGGCCCCAAGCTGCGCACGCTATACGTGACCACTGCGGCGGTCGGGCTGGACGCGGCGCAACGCAGCCGCGAGCCGCTCGCCGGCGGGCTGTTCGCGATCGAACTGGATGTCGCCGGCCTTCCGGCGCAGCGCTTCGCCGGCTGA	MATPAPRALAAARCVWPLAASLGEGACWSVHEQALYFVDILGHRLHRYAPGGATTMSWQFAEEVSAVAERRDAAGLLLSLRHDLALFDPASEVLTRVHRPEPDRPGNRFNDGKCDARGRFWAGSTDFACTAATGALYRYDGDGRCTRQLDQVHIANGPTWSMDGRTMFFNETGDARTWAIDFDPDTGTLGQRRLWLQHAEADGAPDGMTTDADGRIWIARWGGAAVSCHDAAGTLLARIALPASQVTSCAFGGPKLRTLYVTTAAVGLDAAQRSREPLAGGLFAIELDVAGLPAQRFAG	PGPT0014335_9	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014335-yvrE-K14274	NA	NA
BMS020_05080	1725	araC_3		L-arabonate dehydratase	ATGGGCTCACCGAAGAAGCCGGTCCGCCGCAGCCAGGAGTGGTTCGGTCGCGATGGCAAGCAGGGCTCGTACTACCGCAGCTGGCTCAAGGGACTGGGCCTGCCGAACGACATGTTCGATGGCCGCCCGGTGATCGGCATCTGCAATACCTGGTCGGAACTGACCCCGTGCAACAGCTCCTTCCGCGAGCTGGCCGAACACGTCAAGCGCGGCGTCTACGAGGCCGGCGGCCTGCCGCTGGAATTCCCGGTGATGTCGCTGGGCGAGACCCAGATCCGCCCGACCGCGATGCTGTTCCGCAACCTCGCCAGCATGGACGTGGAGGAATCGATCCGCGCCAATCCGCTCGACGGCGTGGTGCTGCTGATGGGCTGCGACAAGACCACCCCGTCGCTGCTGATGGGCGCGGCCAGCGTCGACCTGCCGACCATCGGTCTGTCCGGCGGCCCGTCGCTGTCGGGCAACTGGCGCGGCCAGCCGGTCGGCTCCGGCACCGGGGTGATCCAGATGTCGGAGATGGTGCGTGCCGGCACCCTCAGCCAGGCCGAATTCGTCGAGGCCGAAGCCTGCATGCAGCGTTCCAAGGGCAGCTGCATGACGATGGGCACCGCCTCGACGATGGCCAGCATGGTCGAGGCGCTGGGCATGTCGCTGCCGGAGAACGCGGCGATCCCCGCGGTCGACGCGCGCCGCTTCCGGCTCGCGCACCTGAGCGGGCGGCGCATCGTCGAGATGGTGAAGGAGGATCTGCGGATGTCGAAGATCCTGACCCGCGCTGCGTTCGCCAACGCGATCAAGGCCAATGCCGCGATCGGCGGCTCGACCAACGCGGTGATCCACCTGCTGGCGCTGGCGCGCCGCATCGGCGTGGAGCTGCTGCTCGACGACTGGGACACGCTCGGCTCGCGGCTACCGTGCCTGGTCAACCTGAAGCCCTCCGGCCAGTACCTGATGGAGGATTTCTACTACGCCGGCGGGCTGCCGGCGGTGCTGCGCGAGATCGCCCCCCACCTGGAACTGGACGCGCTGACCGCCAACGGCCGCACGCTCGGCGAAAACGTCGCCGATGCGCCGTGCTGGAACCGCGACGTGATCCATCCGCTCGACGCGCCGTTCAAGGCCGAAGCCGGCATCGCCGTGCTGCGCGGCAACCTGGCGCCGGACGGCGCGGTGATCAAGCCATCGGCGGCCTCGCCGCACCTGCTGCAACACCGCGGCCGCGCGGTGGTGTTCGAGGACATCGCCGACTTCAAGGCGCGCATCGACGACGAGGCACTCGACATCGACGAGACCTGCGTGATGGTGCTGAAGAACTGCGGCCCGCGCGGCTATCCCGGCATGGCCGAGGTCGGCAACATGCCGCTGCCGCCGAAGCTGCTGCGGCGTGGCATCACCGACATCGTGCGCGTCTCCGATGCGCGCATGAGCGGCACCGCCTACGGCACCGTGGTGCTGCACACCTCGCCGGAAGCCGCCGCCGGCGGCACCCTGGCGCTGGTCCGCGATGGCGACTTCATCGAGCTGGACGTGCCGAACCGGCGCCTGCACCTGGACGTGGCCGACGACGAGCTGGCCCGCCGGCGCGCCGGCTGGGTGCCGCTGCAGGCGCCGACGCGCGGCTGGGCCAAGCTGTACGTCGACCACGTGCAGCAGGCGCATCTCGGTGCCGACCTCGACTTCCTGGTCGGCGGCAGCGGCGATACCGTCGGCGGCGACTCGCACTGA	MGSPKKPVRRSQEWFGRDGKQGSYYRSWLKGLGLPNDMFDGRPVIGICNTWSELTPCNSSFRELAEHVKRGVYEAGGLPLEFPVMSLGETQIRPTAMLFRNLASMDVEESIRANPLDGVVLLMGCDKTTPSLLMGAASVDLPTIGLSGGPSLSGNWRGQPVGSGTGVIQMSEMVRAGTLSQAEFVEAEACMQRSKGSCMTMGTASTMASMVEALGMSLPENAAIPAVDARRFRLAHLSGRRIVEMVKEDLRMSKILTRAAFANAIKANAAIGGSTNAVIHLLALARRIGVELLLDDWDTLGSRLPCLVNLKPSGQYLMEDFYYAGGLPAVLREIAPHLELDALTANGRTLGENVADAPCWNRDVIHPLDAPFKAEAGIAVLRGNLAPDGAVIKPSAASPHLLQHRGRAVVFEDIADFKARIDDEALDIDETCVMVLKNCGPRGYPGMAEVGNMPLPPKLLRRGITDIVRVSDARMSGTAYGTVVLHTSPEAAAGGTLALVRDGDFIELDVPNRRLHLDVADDELARRRAGWVPLQAPTRGWAKLYVDHVQQAHLGADLDFLVGGSGDTVGGDSH	PGPT0017465_403	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017465-araC-K13875	NA	NA
BMS020_05081	927	araA_2		L-arabinose 1-dehydrogenase (NAD(P)(+))	GTGTCAAAGATCAACCTCGCAATCGTTGGTGTCGGCAAGATCGTGCGCGACCAGCACCTGCCGGCGGTGGCCGGCAACGACGGCTACCGGCTGGTGGCCGCGGCCAGCCGCCACGGACGGGTCGAGGGCATCGACAACTTCGCTTCGATCGAACAGATGCTGGCCGCGGTGCCGGGGATCCAGGCGGTGTCGCTGTGCATGCCGCCGCAGTACCGCTACCAGGCGGCGGTGGCGGCGCTGGAGGCGGGCAAGCACGTGTTCCTGGAAAAACCGCCGGGCGCGACCCTGTCGGAGGTCGCCGACCTGCAGGCGCTGGCCGATGCGCGGGGGCTGTCGCTGTTCGCCAGCTGGCATTCGCGCTACGCGCCGGCGGTGGACGCGGCCAGGGCGTTCCTGGCCGCGACCCGGGTCGTGTCGATGCGGGTGATCTGGAAGGAGGACGTGCGCCAGTGGCACCCGAACCAGGAATGGATCTGGCAGGCCGGCGGGCTGGGCGTGTTCGATCCGGGCATCAACGCGCTGTCGATCGTCACCCGGATCCTGCCGCGGCCGGTGTTCGCCACCGCCGCGCAGCTGGAATTCCCGGAGAACCGCGAGGCGCCGATCGCCGCGTCGATCACCTTCACCGATGCGCAGGGGCTGGATCTGGTGGCCGAGTTCGACTGGCGCCAGACCGGCAAGCAGCGCTGGGACATCGTGGCGCAGACCGAGGCGGGCGAGATGCTGCTGTCCGAGGGCGGCGCTAGGCTGTCGGTGGATGGTGCGCTGGTGCACGAACAGCCGGAACAGGAATACCCGGGGCTGTACCGGCGCTTCGCCGAGCTCATCCAGGCCGGTCGCTCCGATGTCGACCTGGCGCCGCTGCGGCATGTCGCCGATGCCTTCATGCTGGGCCGGCGCAAGGTGGTCGAGCCGTTCCACGACTGA	MSKINLAIVGVGKIVRDQHLPAVAGNDGYRLVAAASRHGRVEGIDNFASIEQMLAAVPGIQAVSLCMPPQYRYQAAVAALEAGKHVFLEKPPGATLSEVADLQALADARGLSLFASWHSRYAPAVDAARAFLAATRVVSMRVIWKEDVRQWHPNQEWIWQAGGLGVFDPGINALSIVTRILPRPVFATAAQLEFPENREAPIAASITFTDAQGLDLVAEFDWRQTGKQRWDIVAQTEAGEMLLSEGGARLSVDGALVHEQPEQEYPGLYRRFAELIQAGRSDVDLAPLRHVADAFMLGRRKVVEPFHD	PGPT0002205_130	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GALACTONIC_ACID_BIOSYNTHESIS,PGPT0002205-gal-K00035	NA	NA
BMS020_05082	939	gbpR_2		HTH-type transcriptional regulator GbpR	ATGCCTGCCCCGCCCTGGTTCGTGCGCGCCCGCCTCAAGACCCGTCAGCTGATGCTGCTGATCGCCATCGACGAGGAAGGCAATATCCACCGCGCCGCCGAGCTGCTGAACATGTCGCAGCCGGCCGCATCCAAGCTGCTCAAGGACCTCGAGGACATGATGGGGGTGGCGCTGTTCGAACGCCTGCCGCGCGGCATGCGGGCGACCTGGTACGGCGAGAGCATGATCCGCCACGCACGCATCGCGCTGTCCAGCCTCGGTGAGGCCGGCGCCGAGATCGAGGCGCTGAAGGCCGGCCATGCCGGCAGCGTCGGGATCGGCGCGATCGCCGGTGCGGCGATGACGCTGCTGCCGACCACGCTGGCGCGGATCACCCGCCAGCACCCCGGGCTGCGCGTCTCGCTGACGGTGGAAAGCAGCGACGTGCTGCTCGAACAACTGGCGCAGAACAAGCTCGATTTCCTCGTCGCGCGGCTGTTCGCCCGCCACGACAAGAGCCACCTGCACTACGAGGCGCTGGCCGAGGAAGAAGTCTGCGCGATCGCCCGCCCGCAGCATCCCATCCTCGCGCTGGCCAAGCCCGGCCTGCGCGAACTGGCGCAGGCGTCATGGATCGTGCCGCCGGAAGGCAGCGTGCTCCGGCACCGTTTCGAGCTGATGTTCCAGAGCGCCGGACTGCAGCCGCCGGCGCAGGTCATCGGCACCGCGGCGTTGATGTTCCTGACCAAGATGCTGCAGGAAAGCGACTACCTGGCCGTGGTTCCGGTCGACGTGGCGCGCCACTACGCCGAGCACGGCATGGTGCGCATCCTGCCGGTGGAGCTGTCGTGCCGGATGGATTCGTTCGGCATCATCACCCGCACCGACTGGCTGCTCTCGCCGGGTGCGCAGACCGTGCTGGCGGCGATGAAGGCCGCCGCCGCGGAGGTCTACGGCTGA	MPAPPWFVRARLKTRQLMLLIAIDEEGNIHRAAELLNMSQPAASKLLKDLEDMMGVALFERLPRGMRATWYGESMIRHARIALSSLGEAGAEIEALKAGHAGSVGIGAIAGAAMTLLPTTLARITRQHPGLRVSLTVESSDVLLEQLAQNKLDFLVARLFARHDKSHLHYEALAEEEVCAIARPQHPILALAKPGLRELAQASWIVPPEGSVLRHRFELMFQSAGLQPPAQVIGTAALMFLTKMLQESDYLAVVPVDVARHYAEHGMVRILPVELSCRMDSFGIITRTDWLLSPGAQTVLAAMKAAAAEVYG				NA	NA	NA	NA	NA
BMS020_05083	1023			hypothetical protein	ATGCGATTGATCCAGTTTCTTGCGGATGTGGATGCAGCGCCGGGCGCTGCCACCCGGGTCGGCGTGGTGAGTGCGGACGGTCGTCAGGTGCGCCAGCTCGATGGCGTGGCCTCCACCTACGCGCTGGCCAGCGCGGCGATCGCGGCCGGACGCACGCTGCAACAACAGGCGCTGGAGCAGGCTGGCGACACGCTGCTGGACTACCCGGGGTTGCTGGCCGCCCAGCGCGTGCTGCCACCGCTGCAGCATCCGGATCCGGCGCACTGCCTGGTCACCGGCACCGGCCTGACCCACCTGGGCAGCGCCGCCACCCGCGATGCGATGCACCAGACCCTGCAGAAGCAGAGCGACGCCGGCACCCTCACCGATTCGATGAAGGTGTTCCAGTGGGGCGTGGAAGGCGGCATCCCCAAGGACGGCAAGCCCGGCGCGCAGCCGGAATGGTTCTTCAAGGGCGACGGCGGCATCGTCGTCGCGCCGGGCGCGGCGCTGCCGTCGCCGGAGTTCGCGCTCGATGGTGGCGAGGAGCCGGAACTGGTCGGGCTGTACCTGATCGGCCCGGATGGCACGCCGTACCGGCTCGGGTTTGCGGTCGGCAACGAGTTCTCCGACCACGTCACCGAACGGCAGAACTACCTGTACCTGGCGCATTCCAAGCTGCGTGCGTGCGCGGTCGGCCCGGAGCTGCGCCTGGGCGAGCTGCCGCCCGACCTGCGCGGCGCCAGCCGCATCCGCCGCGGCGACGCGGTGATCTGGGAAAAGCCCTTCGTCACCGGCGAGGCCAACATGTGCCACTCGCTGGCCAACCTCGAATACCACCACTTCAAGTACGCCGCGCACCGCCGGCCGGGCGACGTGCACCTGCATTTCTTCGGCACCGCCACGCTCAGCTTCGCCGACCAGGTGACGGTGCAGCCGGGCGACCGCTTCGAGATCGAGCTGCCTGGCTTCGGCGCGCCGCTGGTCAATCCGCTTGGCCGCGTCGAGTCCGGGTTCGCCCTCGGCGGCGTGCGTGCACTGTGA	MRLIQFLADVDAAPGAATRVGVVSADGRQVRQLDGVASTYALASAAIAAGRTLQQQALEQAGDTLLDYPGLLAAQRVLPPLQHPDPAHCLVTGTGLTHLGSAATRDAMHQTLQKQSDAGTLTDSMKVFQWGVEGGIPKDGKPGAQPEWFFKGDGGIVVAPGAALPSPEFALDGGEEPELVGLYLIGPDGTPYRLGFAVGNEFSDHVTERQNYLYLAHSKLRACAVGPELRLGELPPDLRGASRIRRGDAVIWEKPFVTGEANMCHSLANLEYHHFKYAAHRRPGDVHLHFFGTATLSFADQVTVQPGDRFEIELPGFGAPLVNPLGRVESGFALGGVRAL	PGPT0017806_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LYXONATE_DEGRADATION,PGPT0017806-2_keto3_deoxy_L_lyxonate_dehydratase-NA	NA	NA
BMS020_05084	1437	aldHT		Aldehyde dehydrogenase, thermostable	ATGAGCCAGCGTTTCAGCAGTTATATCGCCGGGCAATGGGTGGCCGGCAGCGGCAGCGATGCCGATGAGAATCCGTCCAACCTGGACGCACCGGTCGGCAGCTACGGCGTGGTCGATGCCGCGCTGACCGCGCAGGCGGTGGAGGCCGCCGCCGCGGCGTTGCCGACCTGGTCGCTGGGCAATCCGCAGCAGCGCGCCGACATCCTCGATGCCGTCGGCAGCGAGATCCTCGCCCGCAAGGAGGAACTGGGCCGGCTGCTGGCGCTGGAAGAGGGCAAGACCCTGCCGGAAAGCATCGGCGAGGCCGCGCGCGCAGGCCAGATCTTCAAGTTCTTCGCCGGCGAGGCACTGCGCATTCCCGGCGAGAAGTTGGCCTCGACCCGCCCGGGCGTGGAGGTGGAGATCACCCGCGAGCCGGTCGGCGTGGTCGGCATCATCGCGCCGTGGAATTTTCCGCTGGCGATCCCGGCCTGGAAGATCGCCCCGGCGCTGGCCTACGGCAACACGGTGGTGTTCAAGCCGGCCGAGATCGTGCCCGGCTGTGCCTGGGCGCTGGCCGAGATCCTCAGCCGCGCCGGCTTGCCCGAGGGCGTGTTCAACATGGTGATCGGCGCCGGTCGCGTGGTCGGCCAGGCGCTGGTCGAACACCCGAAGCTGGACGCGCTGACCTTCACCGGCTCGGTGCCGACCGGCAACGCGCTGCTCAAGCAGGCGGCCGCGCGCGGGCTGAAGATCCAGCTGGAGATGGGCGGCAAGAACCCGCTGGTCGTGCTCGCCGATGCCGACCTGGACAAGGCGGTGGAGTGCGCGGTCAACGGCGCGTATTTCTCCACCGGCCAGCGTTGCACCGCCTCCAGCCGGCTGATCGTGGAGAACGCGATCTACGACGCGTTCGTCGCCCGCACCCAGGCGCGCCTGGCCAGGGTCAAGGTCGGCGATGCGCTGCAGGCCGGCGTCGACATCGGCCCGGTCGCCAGCCAGGCCCAGCTGGCCATCGACCTGTCCTATATCCAGGCCGGGCACGAGGATGGCGGCGAACTGCTGTTCGGCGGCGAGCGGGTCGAATGCGCCACGCCGGGGCATTACCTGGCGCCGACGCTGTTCGCGGCCAAGCCATCGGACCGCATCGTGCGCGAGGAGATCTTTGGTCCGGTGGCGGCATTGTTGCGCGCCGACGACTACGCGCACGCACTGGCGCTGGCCAACGACACCGAGTTCGGCCTGTGCGCCGGGATCTGCACTAGCTCGCTCAAGCACGCCACGCATTTCAAGCGGCATGCACAGGCGGGCATGGTGATGGTCAACCTGCCCACCGCCGGGGTCGACCCGCACGTGCCGTTCGGGGGGCGCAAGGCGTCCAGCTATGGGCCGCGCGAGCAGGGGCGCTATGCGGTCGAGTTCTACACCACGGTGAAGACCGCCTACACGGCGGCCTGA	MSQRFSSYIAGQWVAGSGSDADENPSNLDAPVGSYGVVDAALTAQAVEAAAAALPTWSLGNPQQRADILDAVGSEILARKEELGRLLALEEGKTLPESIGEAARAGQIFKFFAGEALRIPGEKLASTRPGVEVEITREPVGVVGIIAPWNFPLAIPAWKIAPALAYGNTVVFKPAEIVPGCAWALAEILSRAGLPEGVFNMVIGAGRVVGQALVEHPKLDALTFTGSVPTGNALLKQAAARGLKIQLEMGGKNPLVVLADADLDKAVECAVNGAYFSTGQRCTASSRLIVENAIYDAFVARTQARLARVKVGDALQAGVDIGPVASQAQLAIDLSYIQAGHEDGGELLFGGERVECATPGHYLAPTLFAAKPSDRIVREEIFGPVAALLRADDYAHALALANDTEFGLCAGICTSSLKHATHFKRHAQAGMVMVNLPTAGVDPHVPFGGRKASSYGPREQGRYAVEFYTTVKTAYTAA	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
BMS020_05085	969	ytfQ_1		ABC transporter periplasmic-binding protein YtfQ	ATGCACAACCGTTTACTTGTGGGCGCGGTACTGGCATTGGCGGCGCTGGCCGCTGGCTGTTCGCGCGGCGAACACGCCGGGCAGCCCGGGCAGGTCACCGTCGGCTTCAGCCAGGTGGGCGCGGAAAGCGAATGGCGCACCGCCAATACCGCCTCGGTGAAGGCCGCGCTGGCCGCGCCGGAGTTCCGCCTGAAGTTCTCCGATGCGCAGCAGAAGCAGGAGAACCAGATCAAGGCGCTGCGTTCGTTCATCGCCCAGCGCGTGGACGTGATCGCGTTCTCGCCGGTGGTCGAGTCCGGCTGGGAGACCGTGCTGCGCGAGGCCAAGGCCGCGGGCATCCCGGTGGTGCTGACCGATCGCGCGGTGAAGGTTTCCGACGCATCGCTGTATGCCACCTTCATCGGCTCGGACTTCGTCGAGGAAGGACGCCGGGCCGCGCACTGGCTGCTGCGCGACAGCGCCGGCAAGGCCGGTCCGATCCGCGTCGCCGAACTGCAGGGCACGGTCGGCTCGGCACCGGCCAACGACCGCATGCGCGGCTTCCATGAGGTGCTCGATGCCGACAGCCGCTTCCAGGTGGTGCGCTCGCAGAGTGGCGACTTCACCCGCGCCAAGGGCAAGGAAGTGATGGAGGCGTTCCTGAAGGCCGAGGGCAACAGGATCGATGTGCTGTTCGCCCACAACGACGACATGGCGATCGGCGCGATCCAGGCGATCGAGGAAGCCGGGCTGAAACCGGGCCAGGACATCCGCATCGTCTCCATCGACGGCGTGCACGGCGCGTTCGAGGCGATGAAGGCCGGCAAGCTCAACGCCACCATCGAGTGCAACCCGCTGTTCGGACCGCAACTGGCGCAACTGATCCGCGACGTGAAGGCCGGCAAGCCGGTGCCGCCGCGGGTGGTGGTGGACGAAGGAGTGTTCACCCAGGACCAGGCCGCCGCCGAACTGCCCCGGCGCAAGTACTGA	MHNRLLVGAVLALAALAAGCSRGEHAGQPGQVTVGFSQVGAESEWRTANTASVKAALAAPEFRLKFSDAQQKQENQIKALRSFIAQRVDVIAFSPVVESGWETVLREAKAAGIPVVLTDRAVKVSDASLYATFIGSDFVEEGRRAAHWLLRDSAGKAGPIRVAELQGTVGSAPANDRMRGFHEVLDADSRFQVVRSQSGDFTRAKGKEVMEAFLKAEGNRIDVLFAHNDDMAIGAIQAIEEAGLKPGQDIRIVSIDGVHGAFEAMKAGKLNATIECNPLFGPQLAQLIRDVKAGKPVPPRVVVDEGVFTQDQAAAELPRRKY	PGPT0016625_451	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016625-ytfQ-K23508	NA	NA
BMS020_05086	1512	fruK_1	COG1129	Fructose import ATP-binding protein FruK	ATGAGCGAGCAGACGAGCGCGGTGGTGCTGCAGGCGTCGGGGCTGGGCAAGCGCTACGGTGCCACGGTCGCGCTGGAGGACGTGAGGCTATGCCTGCGCGCCGGCGAGATCCACGCGCTGATGGGCCAGAACGGCGCCGGCAAATCGACCCTGATCAAGCTGCTGACCGGGGTGGAAGCGCCCGATGGCGGCCGCATCGAACTGGACGGCCAGCCGATCGCGCCGGCCACGCCGCTGCAGGCGCAGCAGGCCGGCATCAGCACGGTGTACCAGGAGGTGAACCTGTGCCCGAACCTGTCGGTGGCCGAGAACCTCTACGCCGGCCGCTATCCACGCCGGCGCTGGAGCCGGGCGATCGATTGGCCGCAGGTGCACCGTGGCGCGCGTGCGCTGATGCAGGGCTTGAACCTGGATATCGACGTCGAGTTACCGTTGGCGCACTACCCGGTGGCGATCCAGCAGATGGTGGCGATCGCACGTGCGCTGGGCGTGTCGGCGCGGGTGCTGATCCTGGATGAGCCGACCTCCAGCCTCGACGAAGGCGAGGTGCGCGAGCTGTTCCGGGTGATGCGACAGCTGCGCGAGCGCGGCATGGCGATCGTCTTCGTCAGCCACTTCCTCGACCAGGTCTATGCGGTGAGCGATCGCATCAGCGTGCTGCGCAATGGCCGCCTGGTCGGTGAGTACCTGCCGGCCGCGTTGCCGCAACCGGCGCTGGTGGCGGCAATGGTCGGGCGCGAGGTGGCGCTGGCTGACGGGCGCGCCGACGCCGATGCGGCGCTGGCCGTGGCGCCGGTGGTGATCGAGGCGCAGGGCCTGGGGCGGCGCGGCAAGCTGCTGCCGACCGACCTGCAGGTGCGCGCCGGCGAAGTGCTGGGGCTGGGCGGCCTGCTCGGCTCAGGGCGCACCGAGCTGGCGCGGCTGCTGTTCGGGCTGGATCGCGCCGAGCAGGGCGAGCTGCGCGTCGGTGGCCAGCGTCGGCGCTTCGCCCACCCCGGCGATGCGGTCGCCCATGGGCTGGCGCTGTGTCCGGAAGAACGCAAGACCGAGGGCATCGTCGCCGAGCTGTCGGTGCGCGAGAACATCGTGCTGGCGTTGCAGGCGCGGCTGGGCTGGCGGCGGTTCCTGGCGCGCGGCCGCCAGAACGCGCTGGCACACCGCCTGGTGCAGGTGCTGGGAATCAAGACCGCCGACATCGAGACGCCGGTCGGCGCGTTGTCCGGCGGCAACCAGCAGAAGGTGGTGCTGGCGCGCTGGCTGGCGACCGAGCCGGCGCTGCTGATCCTGGACGAGCCCACCCGTGGCATCGATATCGCCGCCAAGCAGGACATCATGGCCGAGGTGGTGCGGCTGGCGCGGCAGGGCATGGCGGTGCTGTTCATTTCCGCCGAGATCGACGAATTGACCCGGCTGTGCGACCGCATCGCAGTGATGCGCGAGCGACGCAAGGCCGGCGAGCTTGCGGGTGGGTGCGACGGCCAGCAGGTGCTGGCGCTGATCGCCGGGCAGTGA	MSEQTSAVVLQASGLGKRYGATVALEDVRLCLRAGEIHALMGQNGAGKSTLIKLLTGVEAPDGGRIELDGQPIAPATPLQAQQAGISTVYQEVNLCPNLSVAENLYAGRYPRRRWSRAIDWPQVHRGARALMQGLNLDIDVELPLAHYPVAIQQMVAIARALGVSARVLILDEPTSSLDEGEVRELFRVMRQLRERGMAIVFVSHFLDQVYAVSDRISVLRNGRLVGEYLPAALPQPALVAAMVGREVALADGRADADAALAVAPVVIEAQGLGRRGKLLPTDLQVRAGEVLGLGGLLGSGRTELARLLFGLDRAEQGELRVGGQRRRFAHPGDAVAHGLALCPEERKTEGIVAELSVRENIVLALQARLGWRRFLARGRQNALAHRLVQVLGIKTADIETPVGALSGGNQQKVVLARWLATEPALLILDEPTRGIDIAAKQDIMAEVVRLARQGMAVLFISAEIDELTRLCDRIAVMRERRKAGELAGGCDGQQVLALIAGQ	PGPT0016635_808	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016635-ytfR-K10820	NA	NA
BMS020_05087	1086	ytfT_1		Inner membrane ABC transporter permease protein YtfT	ATGGCCAAGGTGATGACCGAAAACACGTCTTCTGTGCCGGCCGCGCCGGCAGCGCGGTCCGGGTGGCTGCGCGACCTGCTCGCTTGGCCGCTGCTGTGGCCGCTGCTGACGCTGGCGCTGCTGCTGCTCGGCAATGGCCTGTTCAATCCCGGCTTCCTGACGCTGCAATGGCGCGATGGCCACCTGTACGGCAACCTGGTCGATATCGGCAACCGCGCCGCGCCGCTGGTCCTGGTGTCGTTGGGCATGACCCTGGTGATCGCGGTGCGCGGCCTGGACATCTCGGTCGGTGCGGTGCTGGCGATCGCCGCCACGGTCGCGGCGTGGACCATCGCTCGCTTCGGCGCTGATGCCGGGTTGTGGCCACTGGCGGCGGCGATCGGTACGGCGCTGCTGGTGGCGGCGCTGTGCGGGCTGTGGAACGGCCTGCTGGTGGTCAAGGCCGGGATGCAGCCGATCATCGCCACGTTGATCCTGATGGTGGCCGGGCGCGGCATCGCGCAACTGCTCAGCGACGGCCAGATCCTGACCATCTACTACGCGCCGTATGCGTTCCTGGGCAATGGCTTCGTGTGCGGCGTGCCGTTCTCGCTGGTGCTCGCCGCGGCGGTGTTCGTGCTGCTGCACCTGCTGCTGGAGCGCACCGCGCTGGGCCTGTTCGTGCGCGCGATCGGCTACAACCCGGTGGCCGCGCACGTGGCCGGGGTGCGCGCGCGGGCGATCACGCTGGCGCTGTACGTGTTCTGCGGGCTCAGCGCCGGCCTGGCCGGGCTGCTGGTCAGTTCCAACGTCGCCAGTGCCGATGCCAACAACGCCGGCCAGCTGCTGGAACTGGATGCGATCCTGGCGGTCAGTCTGGGCGGCACCGCGCTTGGCGGTGGCCGCTTCAGCCTGGCTGGCAGCCTGGTCGGCGCACTGATCATCCAGACCCTGACCTCGACCATCTACGCGATCGGCGTCCCGCCGCAGGTCAACCTGGTGGTCAAGGCGGTGCTGGTGTTCGCGGTGATGCTGCTGCAGTCGGCGCAGTTCCGCACGCAGCTACGTGGCTGGCTGCGGCGGGCGCCAGCGGGAGCGATACGATGA	MAKVMTENTSSVPAAPAARSGWLRDLLAWPLLWPLLTLALLLLGNGLFNPGFLTLQWRDGHLYGNLVDIGNRAAPLVLVSLGMTLVIAVRGLDISVGAVLAIAATVAAWTIARFGADAGLWPLAAAIGTALLVAALCGLWNGLLVVKAGMQPIIATLILMVAGRGIAQLLSDGQILTIYYAPYAFLGNGFVCGVPFSLVLAAAVFVLLHLLLERTALGLFVRAIGYNPVAAHVAGVRARAITLALYVFCGLSAGLAGLLVSSNVASADANNAGQLLELDAILAVSLGGTALGGGRFSLAGSLVGALIIQTLTSTIYAIGVPPQVNLVVKAVLVFAVMLLQSAQFRTQLRGWLRRAPAGAIR	PGPT0016630_174	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016630-ytfT|yjfF-K23509	NA	NA
BMS020_05088	1020	yjfF_1		Inner membrane ABC transporter permease protein YjfF	ATGAGTGCGATCCCTGCGGCCGATGTGGCCGGTGCACGGGCGCGGCGGCAGCGCGATCCGCGCACGCTGGCACTGCTGGTGACGATCGGCCTGTTCGTGGCGATGTCCGCGGCCGGCGGCATCCTCTACGAAGGCTTCCTGTCGCCGCAGGTGTTTCTCAACCTGCTGATCGACAACGCCTTCCTGCTGATCGTCGCGGTGGGCATGACCTTCGTGATCCTCACTGGCGGCATCGATCTTTCGGTCGGCGCGGTGGTGGCGTTCAGCACGGTGCTGTCGGCCGAGCTGGTGCAGCGGCATGGCTGGCCGCCGCTGTCGGCGATCGGGCTGGTGCTGGCGCTGGGCGGCGCATACGGCGCGGCGATGGGCGTGCTGATCCAGCGCTACCGCCTGCAGCCGTTCGTGGTGACGCTGGCCGGGATGTTCCTGGCGCGTGGCGCGGCAACGCTGATCAGCGTCGATTCGATCGACATCGACCAGCCGCTGTACGCGGCCATCGCCAACTGGCGGCTGCCGCTGGGCGCCGGCAGCGGCGTGTCGGCAGGAGCGCTGGTCGCGCTGGCGGTGGTGGTCGCCGGCAGCGGGCTGGCGGCGCTGACCCGCTTCGGGCGCACCGTGTACGCGATCGGCGGCAATCGCCAGTCGGCGCTGCTGATGGGCCTGCCGGTCGTGGCGACCGAGATCGGCGTGTATGCGCTCAGTGGTTTCTGCGCGGCGCTGGCAGGAGTGGTCTATACGTTCTACATGCTCAGTGGCTACAGCCTGCACGCGCTGGGGTTGGAGCTGGATGCGATCGCCGCGGTGGTGATCGGCGGCACGCTGCTGTCCGGCGGCAGCGGCTACGTGCTCGGCAGCCTGTTCGGGGTGCTGATCCTGGGGTTGATCCAGACCCTGATCGCGTTCGATGGCAGCCTCAGCTCGTGGTGGACGCGCATCGCCATCGGCATGCTGCTGCTGGCGTTCTGCCTGCTGCAGCGGCTGTTCGCCACCCGCCAGCGCCGCCATGGAGAGGTCGCGTGA	MSAIPAADVAGARARRQRDPRTLALLVTIGLFVAMSAAGGILYEGFLSPQVFLNLLIDNAFLLIVAVGMTFVILTGGIDLSVGAVVAFSTVLSAELVQRHGWPPLSAIGLVLALGGAYGAAMGVLIQRYRLQPFVVTLAGMFLARGAATLISVDSIDIDQPLYAAIANWRLPLGAGSGVSAGALVALAVVVAGSGLAALTRFGRTVYAIGGNRQSALLMGLPVVATEIGVYALSGFCAALAGVVYTFYMLSGYSLHALGLELDAIAAVVIGGTLLSGGSGYVLGSLFGVLILGLIQTLIAFDGSLSSWWTRIAIGMLLLAFCLLQRLFATRQRRHGEVA	PGPT0016630_695	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016630-ytfT|yjfF-K23509	NA	NA
BMS020_05089	1935			hypothetical protein	GTGAACCAGACCTCGGCAACCGGATTGAACCGCCGTGGCTTCCTGCGCACCGGTGGCGCCACCACGGCGGCGCTGGCGTTGGCCGCGCATGTGCCGGCCGGCGCGACCACGGCGCCGCCCGCGGCGCGCGTCGATGCGGTGCAGTGGCGGGAGCGGCCGTTCGCGCTGGCGCAGGTGAGTCTGCTGGAAGGGCCGTTCCAGCAGGCGCGCGCGCGCGACCGGCAGTTCCTGATGTCGCTGCCGAACGAGCGCCTGCTGCACTGCTTCAGGCTCACCGCGGGCCTGCCGTCGGCCGCTGAGCCGCTGGGGGGCTGGGAATCGCCGCACTGCGAGATCCGTGGCCACTTCGCCGGCGGGCACTACCTGTCCGCGTGCGCGCTGCTGTACGCCTCCACCGGCGACGTGGCGGTACGGCGCAAGGCCGATGCGCTGGTGGCCGGGCTGGCACAGTGCCAGCGCCAGGACGGCTATCTCGGCGCCTATCCCAGCACGTTCTACGACAGGCTCGGGCGCGGCGAGGAGGTGTGGGTGCCGATCTACACGCTGCACAAGCTGCTGGCCGGCCACCTGGACATGGCGCGGCTGTGCGGCAACGTGCAGGCGCGCACGACCGCGCGCCGCCTGGCCGACTGGCTCGGCGCCTGGATGGATGGCTTCGACGATACGCAGTGGCAGGCGATCCTCAAGGTCGAGTTCGGCGGGGTGCAGGAATCGTTGCTGGAGCTGTACCAGCTCGAGGGCAGGGCGGACTACCGGCGCTGGGCGCTGCGGTTCCAGCAGCCCGGCCTGCTCGAACCGCTGCAGCAGGGGCGCGACGCGCTCGACGGCCTGCATGCCAACACCCAGATCCCGAAGATCGTCGCCGCCGCCCGTGCCTACGAGGTCGACGGTGATCCGCGGCAGCGGGCGATCGCCGAGACGTTCTGGAAGATCGTCACCGGCCATCACGCCTACTGCACCGGTGGAACCAGCGACTACGAGCACTTCGGCCGGCCCGACCATCTGGCCGGGCGCCTGTCCGGCCACAGCCACGAGTGCTGCTGCACCTACAACCTGCTCAAGCTGACCCGCCACCTGCATGGCTGGCAGCCGGATGCGGCGTTGATGGACTACTACGAGCGGGCGCTGTTCAACGCCCGCCTCGGCACCCAGGACGAGGCCGGCATGATGATGTACTTCGTGCCGATGGATGCCGGCTACTGGAAGCTCTACAACACCCCGTTCGATTCGTTCTGGTGCTGCACCGGCACCGGCGCGGAGGATTTCGCCAAGCTGCAGGACACGATCTATTTCCACGACGAGGACGGGCTGAGCGTCAACCTGTTCATCGCCTCGCGGCTGCACTGGCCCGAGCAGGGCCTGCGTCTGACCCAGCACACGCGCTTCCCGGACGAGCCAGTGACCCGCCTGCAGTTCGAACTCAAGCGCCCGCGCGAACTGTCGCTGCGCCTGCGCATCCCGTACTGGGCGCAGGGCGCGCAGCTCACGCTCAATGGCCAGCTGCAGGCGCTGCGGTTGCAGCCGGGCAGCTACGCCACGCTGCGCCGGCGCTTCGCCGATGGCGACCGCGTCGAGCTGTCGCTGCCGATGGCGCTGCATGCCGCGCCGCTGGCGGACGAGCCCAGCCTGCAGGCGATGATGTACGGCCCGCTGGTGCTGGCCGCACGGCTGGGCAGCGACGGCATTCCCGCCGCGCAGCTGCATGTGGCCGACCAGCGGCCGTCGTTGAACCGGATCGTCGGCCGGCAGATTCCCACCGCCTTCCAGCCACCGCAGGGCAGCTGGGTGAGGGCCAGCGATGCGGCGGCGCTGGAGTTCCGTGCCGAAGGCATCGACGGCCCGCTGCAGCTGGTGCCGCTGAACCGGATCCTGCACGAGCGCTACGCGGTGTATTGCCGGGTGCGGCCGCAATGGGAGAAGAATCCGCAGTTCTGA	MNQTSATGLNRRGFLRTGGATTAALALAAHVPAGATTAPPAARVDAVQWRERPFALAQVSLLEGPFQQARARDRQFLMSLPNERLLHCFRLTAGLPSAAEPLGGWESPHCEIRGHFAGGHYLSACALLYASTGDVAVRRKADALVAGLAQCQRQDGYLGAYPSTFYDRLGRGEEVWVPIYTLHKLLAGHLDMARLCGNVQARTTARRLADWLGAWMDGFDDTQWQAILKVEFGGVQESLLELYQLEGRADYRRWALRFQQPGLLEPLQQGRDALDGLHANTQIPKIVAAARAYEVDGDPRQRAIAETFWKIVTGHHAYCTGGTSDYEHFGRPDHLAGRLSGHSHECCCTYNLLKLTRHLHGWQPDAALMDYYERALFNARLGTQDEAGMMMYFVPMDAGYWKLYNTPFDSFWCCTGTGAEDFAKLQDTIYFHDEDGLSVNLFIASRLHWPEQGLRLTQHTRFPDEPVTRLQFELKRPRELSLRLRIPYWAQGAQLTLNGQLQALRLQPGSYATLRRRFADGDRVELSLPMALHAAPLADEPSLQAMMYGPLVLAARLGSDGIPAAQLHVADQRPSLNRIVGRQIPTAFQPPQGSWVRASDAAALEFRAEGIDGPLQLVPLNRILHERYAVYCRVRPQWEKNPQF	PGPT0019100_1269	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
BMS020_05090	1404	yicJ_3	COG2211	Inner membrane symporter YicJ	ATGCACAAGCAGAAACTTTCCGTGATCGAGAAGCTCGGTTACGGCGCCGGCGACATGGCCGTCAACGTGGTGATCTCGTCGATGATGCTGATCATCACGTTCTTCTACACCGACGTGTACGGGCTCAAGCCGCAGGATGTGGCGTTGCTGTTCATCGTGGTGCGGATGATCGACGCGTTCGCCGATCCGATGATGGGCATGTTCACCGACCGCCACAGCACGCGCTGGGGGCGCTACCGGCCCTACTTCCTGGTGATGGCGGTGCCGTTCGGGATCTCGGTGTTCCTGACCTTCACCACGCCCGATGTCGGCTACAACCTCAAGCTGGTGTGGGCCTACGCCACCTACCTGCTGGTGATGCTGGTGTTCACTGCGGTCACCATCCCCTACATCTCGCTGATCGGCGTGCTCACCGCCGACCCGCAGGAGCGGCTCTCGGCCAATGGCTACCGGCTGTTCTTCGCCAAGGTCGCCGCGTTCCTGGTCACCATCGTGGTGCCGCAGCTGGCGGTGGTCTGGGGCGGCGGGCACCTGGCCGAGGGCTACCGCTGGGCGATGGGCCTGATGGGGCTGCTGGCCACGGTGCTGTTCCTGTTCTGCTTCTTCGCCACCACCGAGCGCATCCAGCACCAGGTCGAGCGCAAGCCGTTCGCGCTGCAGCTGCGGCTGCTGCTGCGCAACGACCAGTGGCTGATCCTGGGCACCGTGTGCATCGTTGGCACCATCGGCTACGTGATCCGCGGCTCGGTCGCGGCGTACTACGCCAAGTACTACCTCGGCGGCGATGCCGGGCTGATGTCGGCGTTCATGGCCACCGGCGTGGTGGCGGCGATCCTGGCGATGGTGGTGTCCACCTGGATCACCAAGAGCTACTGCAAGGTCAAGCTGTTCCGCTACAGCCAGCTGGCGGTGGGCGTGCTCAGCGTGGCGATGTACCTGCTGGTCAAGCCCGGCGACACGCTGCTGGCGTTCGTGCTGTATTTCCTGATCAGCCTGGTGGTGGACCTGCATGCGCCGGTGTTCTGGTCGGCGATCGCCGAGGCCGTGGATTACGGCCACGCCCGCAGCGGCAAGCGCGTGGCGGGGCTGGCGTTCGGTGGCATCTCGTTCTGCCAGAAGGCCGGCATGGGCGTGGCCGGGGCGATCGTCGGATGGCTGCTGGCTGGCTTCCACTACGTGCCTGACCAGGCGCAAAGCGCCTTCACCTTGCACGGCATCGCGCTGATGCTGACCATCATCCCCGGCCTGTTCCACGTGCTGATGGGCGGGCTGATGTTCCTGTACCGCATCACCGACGACTACTACCGCCAGCTCAAGGCGCAGATCGTCGAGGAAGTCCATGAGCCGGCGGCCGAAAGCCGCGCCGCCGGCTTTTCCACCCGCACCACGGAATGTCCGACATGA	MHKQKLSVIEKLGYGAGDMAVNVVISSMMLIITFFYTDVYGLKPQDVALLFIVVRMIDAFADPMMGMFTDRHSTRWGRYRPYFLVMAVPFGISVFLTFTTPDVGYNLKLVWAYATYLLVMLVFTAVTIPYISLIGVLTADPQERLSANGYRLFFAKVAAFLVTIVVPQLAVVWGGGHLAEGYRWAMGLMGLLATVLFLFCFFATTERIQHQVERKPFALQLRLLLRNDQWLILGTVCIVGTIGYVIRGSVAAYYAKYYLGGDAGLMSAFMATGVVAAILAMVVSTWITKSYCKVKLFRYSQLAVGVLSVAMYLLVKPGDTLLAFVLYFLISLVVDLHAPVFWSAIAEAVDYGHARSGKRVAGLAFGGISFCQKAGMGVAGAIVGWLLAGFHYVPDQAQSAFTLHGIALMLTIIPGLFHVLMGGLMFLYRITDDYYRQLKAQIVEEVHEPAAESRAAGFSTRTTECPT	PGPT0014410_1601	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
BMS020_05091	951		COG3940	Extracellular exo-alpha-(1->5)-L-arabinofuranosidase	ATGACGCTGCACAACCCCTTCATCCTGCACCGCGCCGATCCGTTCGTGACCCGTCGCGATGGCCACTACCTGTTCACCGCCTCGGTGCCGGAATACGACCGTGTGGTGCTGCGTCGCGCGCCAACCCTGCATGGCCTGCGCGATGCCGAGGAGAAGACGCTGTGGACGGCGCCGGCCAGCGGCCCGGCCAGTTCGTTGATCTGGGCGCCGGAGATCCACCACGGCGGTGATGCCTGGTACGTGTATTTCGCCGCCGCGCCCTCGCGCGAGATCAAGCACGACCTGTTCCAGCACCGCATGTACGCGCTGCGCAATCCCGCCGACAACCCGATGGACGGTACGTGGGAATTCGCCGGCCAGGTCGACAGCGGCATTGATGCGTTCTGCCTCGATGCCACCGCGTTCGAACACCACGGCCGGCGCTACTACCTGTGGGCGCAGAAGCACCCGGACATCCCCGGCAATTCCAACCTGTACATCGCGCCGCTGGCCACGCCGACCACGTTGGGCGGCGCACCGGTGCTGCTGAGCAGGCCGGAGCTGGACTGGGAAGTGCAGGGGTTCATGGTCAACGAAGGCCCGGCAGTGCTGGTGCGCCATGGCAAGGTGTTCGTCAGCTATTCGGCCAGCGCCACCGATGAGCGCTACGCGATGGGGTTGCTGTGGGCCGATGCCGACGCCGACCTGCTCGATCCGGCCAGCTGGCACAAATCCGCCACGCCGGTGTTCGTGACCGACGTGGAGCGCGAGGTCTACGGCCCCGGCCACAACAGCTTCACCACCACCGAGGATGGCGGCACCGACCTGCTGGTCTACCACGCGCGCAACTACCGGCAGATCGAAGGCGACCCGCTGTGGAACCCGGACCGGCAGATGTGCGTGCAGCCGCTGCTGTGGGACGCGCAGGGCATGCCGGTGTTCGGCCGGCCGCAACGCGAGGTCGCCCTGTGA	MTLHNPFILHRADPFVTRRDGHYLFTASVPEYDRVVLRRAPTLHGLRDAEEKTLWTAPASGPASSLIWAPEIHHGGDAWYVYFAAAPSREIKHDLFQHRMYALRNPADNPMDGTWEFAGQVDSGIDAFCLDATAFEHHGRRYYLWAQKHPDIPGNSNLYIAPLATPTTLGGAPVLLSRPELDWEVQGFMVNEGPAVLVRHGKVFVSYSASATDERYAMGLLWADADADLLDPASWHKSATPVFVTDVEREVYGPGHNSFTTTEDGGTDLLVYHARNYRQIEGDPLWNPDRQMCVQPLLWDAQGMPVFGRPQREVAL	PGPT0019091_947	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
BMS020_05092	1059	arbA	COG3507	Extracellular exo-alpha-(1->5)-L-arabinofuranosidase ArbA	GTGATCGCGCGTGCATTGCTGGCCGCCGCATTGGCGCTGGCATTGCCCGCCGCCGCGCAGCAGGCGCCTGCCGACAACAGCGACATGATGGCCGCACCTCCGGTCGCCACGCCGCGCAAGGGCTATTCGGCCGACGTGCTGGCGCACGACCCGGTGATGATCCAGCAGGGCAACACCTGGTACCTGTTCATCACCGGGCCCGGCATCAGCGTCTACAGCTCCAAGAACCTGAAGACCTGGAAGGCCGAGGCGCCGGTGTTCGCCGCGATCCCGGCGTGGGCCTACCGGATCGTGCCGGACTTCAACGGCCACGTGTGGGCGCCGGACATCTCGCTCCACGACGGCGTCTACACGCTGTACTACTCGATCTCCAGCGGCGGCAAGAACACCTCGGCGATCGGCGCGGCCACCAACACCACGCTGGATCCGGCCGATCCGGCGTTCAAGTGGGTCGACCACGGCATCGTGGTCGAGTCGGTGCCGTATCGCGACGCCTGGAACGCGATCGATCCGAACCTGGTCGAGGATGCCGCCGGCCAGGCATGGCTGGCGTTCGGCTCGTTCTGGGGCGGGCTGAAGCTGGCCAGGCTGTCGGCCGACCGCCTGCACCTGGCCGAGCCGGCCGAGTGGCACACCATCGCCCGTCGCGAACGGCCGTGGCAGACCGACGATGCCGACCCCGAGCCCGGCGCGGTCGAAGCGCCCTTCGTGTTCAAGCGCGATGGCTGGTTCTACCTGTTCTCCTCCTGGGACCATTGCTGCCGTGGCCTCAAGAGCGACTACCGGATCATGCTCGGCCGTTCGCGCGACGTGCGTGGCCCGTACCTGGACCGCGATGGCCGGCGCCTGGACCAGGGCGGTGGCAGCGAGCTGCTGCATGGCAATGCGCGCTGGGTCGGCCCCGGGCATAACAGCGCCTACACCTTCAACGGCCGCGACTACCTGGTCTTCCACGCCTACGACGCTCGCGACAACGGCCGGCCCAAGCTGCAGGTGCTGCCGCTGCAGTGGGATGCCGATGGCTGGCCGCGGGTGCAGGCAGACGGCTGGCAGCGCTGA	MIARALLAAALALALPAAAQQAPADNSDMMAAPPVATPRKGYSADVLAHDPVMIQQGNTWYLFITGPGISVYSSKNLKTWKAEAPVFAAIPAWAYRIVPDFNGHVWAPDISLHDGVYTLYYSISSGGKNTSAIGAATNTTLDPADPAFKWVDHGIVVESVPYRDAWNAIDPNLVEDAAGQAWLAFGSFWGGLKLARLSADRLHLAEPAEWHTIARRERPWQTDDADPEPGAVEAPFVFKRDGWFYLFSSWDHCCRGLKSDYRIMLGRSRDVRGPYLDRDGRRLDQGGGSELLHGNARWVGPGHNSAYTFNGRDYLVFHAYDARDNGRPKLQVLPLQWDADGWPRVQADGWQR	PGPT0019090_770	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINANASE,PGPT0019090-abnA-K06113	NA	NA
BMS020_05093	2442			hypothetical protein	GTGAACAGATCGCTCGCTGCGATCGGCGCCTGCGCGCTGCTCGCATTTGCCCCGCTGTGCGCGCCTGCCGCCAACGACCCCGTCGGCAAGGTCCGGCCGACGCCGGCGCCACGGCTCGACGACAGCGTCCACACCGGTGAGACCGCCGCGTGGCTGCGCAGCTCGACGCGGCCCGGGCCGGGCAAGTCGCTACCACCGTATTTCGAGGACGTGTCGGTGCACGATCCGTCGATCATCAGGGCCGATGGCCATTACTACATCTTCGGCTCGCACCTGGCCGCCGCGCGCAGCGACGACCTGCTGCAGTGGCAGCTGATCGGCAGCGGCGTCACTGCCGACAACCCGCTGTTCGACAACGTGCTCAGCGAACTGGCCGAGACCCTGGCCTGGGCACAGAGCGACACGTTGTGGGCCGCGGATGTGATCCGCCTGGCCGATGGTCGTTATTACATGTACTACAACGCCTGCAAGGGCGACTCGCCGCGCTCGGCGCTGGGCCTGGCGGTGGCCGACAAGCCCGAAGGCCCGTACCGCGACCTCGGCATCCTGCTGCGCTCGGGCATGTGGGGCCTGCCCAGCGAGGACGGCACGCTCTACGACGCGCTGGTGCATCCCAACACCGTCGACCCGGACGCGTTCTTCGATGCCCAGGGCAAGCTGTGGATGGTGTACGGCTCGTATTCGGGCGGTCTGTTCATCCTGCAGATGGACCCGGCCACCGGCCGGCCGCTGCCGCAGCAAGGCTACGGCAAGCACCTGATGGGCGGCAACCATGCGCGCATAGAGGGCGCCACCATCGACTACAGCCCCGAGACCGGCTGGTACTACCTGTTCACCTCGTTCGGCGGGCTGGCCGCCGATGGCGGCTACAACGTGCGGGTTGCACGTTCGCGCGCGCCTGACGGTCCATACCTGGATGCGCGCGGCATCGACATGGCCAGCGTCAAGGCCGATCCGGCGCTGCCACTGTTCGACGATGCCAGCATCCAGGGCTACGGCCAGAAACTGATCGGCAACTTCGTCTTCGACCGCAAGCTTGGCGAGCCGGGGACCGGCAGCGGCCGCGGCGACGTCTCGCCCGGCCACAACAGCGTCTACCGCGACCCGCGCGACGGGCGCTGGTTCCTGGTGTTCCACACCCGCTTCCCGCACCGTGGCGAGGCGCACCAGGTGCGCGTGCACGAGATGTTCCTCAACGACGATGGCTGGCCGGTGCTGGCGCCGTACCGCTACGCAGGCCATGCGCGGCGCGATGTGCAGCGCAGCGACGTGGTCGGCGACTACAAGCTGGTGGTGCACGAGAAACAGATCAGCGCGGCGATCCCCGCATCGCGCGATCTGCAGCTGGGCCGCGATGGCAGCGTCAGCGGCGCACTGCGCGGCACCTGGCGCGTGCACGGTCGCAACCGCATCAGCCTGGAGCTGGCCGATGGGCGCAAGGAAGGCGTGCTGTCGTGGCAGTGGAACGAGACCGCGCAGGACGACGTGCCCACCTTCAGCGTCACCGGCGCCGACGGCATCGCCCTGTGGGGCAGCCGCCTGCCCCAGCGCAGCACCGCGCAGGCGCTGCAGGACATCCTCGACGACATCGCGCTGCCCGCCAGCACCGGTGTGGACCTGCGCCTGCCGGCCACCGCGATGCGCGGCGCCACCGTGCGCTGGCGTTCGGCCGACCCGCAGTGGCTCGACGATGCCGGCCACATCACCCGCCCCGGCAGCGACCAGGGCGACCGGGTCGTGCGCCTGGTCGCCACCGCCCAGCTGCGCGGCCAGAGCGCCAGCCGCACGCTCAAGCTGGTGGTCAAGGCCAGGCGCAGCGACGGCCTGGTCGCCGCCTACCGCTTCGACGGCGACCTGCGCGACAGCAGTGGCCAGCGCGATGCCGGCACCGTCGCCGGCGAGCTGATCGATGCGCCCGACGGCAACATCACCTTCGTTGCCGGCAGGCGTGGCCGCGCCGCGCAGTTCGATGGAGCCAGCAGCATCCGCCTGCCCCCGGGGCTGATCCAGGGCGACCACTACAGCGTGGCGTTCTGGATCCGTCCGGATGCCTTGTCGATGTACACGCCGAGCTTCTTCGCCGCGCGCGACGGCGACCATTGGATCAGCATGCTGCCGATGGGCCATGCCGGCGTTGGCGGCGACAGCATGCTGTGGTCCGGCACCGCCTGGTACGACGCCGGGCTCGGCCTGAAGCTGCAGACCGGGCAATGGGCGCACGTCGCCTTCAGCGTCGACGCCGGCCAGCTCAAGGTCTATGTCGATGGCGCGCTGCGCTATTCCGGCAGCGGCTTTCCCTCCGTGTTCGACGGCAGCGACGGCGTCTTCAGCCTCGGCGGCAACTGGTGGGACAGCCCCTACCGCGGGGCGATCGATGAACTGCGCATCTACGAAACCGCGCTGGACGCCGCGCAGGTACGACAGCTGGCGAGCGAAGGCTGA	MNRSLAAIGACALLAFAPLCAPAANDPVGKVRPTPAPRLDDSVHTGETAAWLRSSTRPGPGKSLPPYFEDVSVHDPSIIRADGHYYIFGSHLAAARSDDLLQWQLIGSGVTADNPLFDNVLSELAETLAWAQSDTLWAADVIRLADGRYYMYYNACKGDSPRSALGLAVADKPEGPYRDLGILLRSGMWGLPSEDGTLYDALVHPNTVDPDAFFDAQGKLWMVYGSYSGGLFILQMDPATGRPLPQQGYGKHLMGGNHARIEGATIDYSPETGWYYLFTSFGGLAADGGYNVRVARSRAPDGPYLDARGIDMASVKADPALPLFDDASIQGYGQKLIGNFVFDRKLGEPGTGSGRGDVSPGHNSVYRDPRDGRWFLVFHTRFPHRGEAHQVRVHEMFLNDDGWPVLAPYRYAGHARRDVQRSDVVGDYKLVVHEKQISAAIPASRDLQLGRDGSVSGALRGTWRVHGRNRISLELADGRKEGVLSWQWNETAQDDVPTFSVTGADGIALWGSRLPQRSTAQALQDILDDIALPASTGVDLRLPATAMRGATVRWRSADPQWLDDAGHITRPGSDQGDRVVRLVATAQLRGQSASRTLKLVVKARRSDGLVAAYRFDGDLRDSSGQRDAGTVAGELIDAPDGNITFVAGRRGRAAQFDGASSIRLPPGLIQGDHYSVAFWIRPDALSMYTPSFFAARDGDHWISMLPMGHAGVGGDSMLWSGTAWYDAGLGLKLQTGQWAHVAFSVDAGQLKVYVDGALRYSGSGFPSVFDGSDGVFSLGGNWWDSPYRGAIDELRIYETALDAAQVRQLASEG	PGPT0019090_96	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINANASE,PGPT0019090-abnA-K06113	NA	NA
BMS020_05094	1551	abf2	COG3534	Intracellular exo-alpha-L-arabinofuranosidase 2	ATGCTGAAGAACGTGCTGCGCCCGCTGGCGCTGACGACCGCCCTGCTCGCCTTCGGCGCCGCCGCCGAAGGCCCGATCCAGGTCAGTGCGACGCTGCACGCCGACCAGCCAGGCCCGCAGGTCTCGCGCAACCTGTTCGGCCAGTTCGCCGAGCACCTTGGCAGCGGCATCTACGGTGGCATCTGGGTCGGCCCGGACTCGAAGATCCCCAACACCGGCGGCTACCGCGACGACGTGGTGGCGGCGCTGAAGGCGATCGCGGTGCCGAACGTGCGCTGGCCCGGCGGCTGCTTCGCCGACGAGTACCACTGGCGCGATGGCATCGGCCCGCGCGCGCAGCGCCCGACCAGCGTCAACACCCACTGGGGCGGCGTGGAGGAACCCAACAGCTTCGGCACCCACGAATTCATGGCGTTCACCGAGCTGCTCGGCACCCAGGCCTACGTGGCCGGCAATGTCGGCGACGCCTCGCCCGACGAAATGGCGCAGTGGGTGGAATACATGACCGCACCGACCCGCTCGACCCTGGCCAACGAGCGCCGCGCCAATGGCCGCGAGCAGCCGTGGAAGGTGCCTTACTTCGGCGTCGGCAACGAGCTGTGGGGCTGCGGCGGCAACATGCGCCCGGAATACGCCGCCGACCTGTACCGGCGCTACCAGACCTTCGTCAAGGCGCCAGCCGACCAGAAGATCCTGAAGATCGCGCCCGGCCCGAACGTCGACGACTACGCCTGGACCGAAGTGATGATGCGCGAGGCCGGCAAGTTCATGGACGGCCTGAGCCTGCACTACTACACCCTGCCCGGTGGCTGGCCGCCGAAGGCGTCCTCGACCGACTTCGACGAGACTGCGTGGATCGAGACGCTGCAGCAGGCGCTGCGCATGGACGAGCTGATCCGCAAGCACAGCGCGATCATGGACAAGTACGACCCGGACAAGAAGGTCGCGCTGGTGGTGGACGAATGGGGCACCTGGTATGCCGGCCTGCCCGACGTCAATCCGGGCTTCCTGCACCAGCAGAACACCCTGCGCGACGCGCTGGTGGCGTCGCTGACGCTGGACGTGTTCACCCAGCATGCCGACCGCGTGCGGATGGCTAACATCGCGCAGATGATCAACGTGCTGCAGGCGATGATCCTGACCGACGGGCCGAAGATGCTGCTGACCCCGACCTACCATGTCTTCCAGATGTACCTGCCGTACCAGGATGCGACCTACCTGCCGCTGCAGATCCAGTCGCCGCAGTACAGCCACGGCCAGTACACGGTGCCGGCGGTGCACGGCTCGGCGGTGAAGGCCAAGGACGGCCACGTCTACGTGGCGCTGACCAACCTGGACCCGAACGATGCGGCCAAGGTGCGGGTGAAGGTCGATGGCGGCCATGCCAGCTCGGTGAGCGGGCAGATCCTGACCGCGCCGGCGATCACCGCGCTCAATACCTTCGACAAGCCCGACGCGGTCACGCCGGTGGCGTTCGACGGCGCCCGCCTGCAGGGCGGCACGCTGCAGGTGAAACTGCCGGCCAAGTCGATCGTGATGTTGAAGCTGTAG	MLKNVLRPLALTTALLAFGAAAEGPIQVSATLHADQPGPQVSRNLFGQFAEHLGSGIYGGIWVGPDSKIPNTGGYRDDVVAALKAIAVPNVRWPGGCFADEYHWRDGIGPRAQRPTSVNTHWGGVEEPNSFGTHEFMAFTELLGTQAYVAGNVGDASPDEMAQWVEYMTAPTRSTLANERRANGREQPWKVPYFGVGNELWGCGGNMRPEYAADLYRRYQTFVKAPADQKILKIAPGPNVDDYAWTEVMMREAGKFMDGLSLHYYTLPGGWPPKASSTDFDETAWIETLQQALRMDELIRKHSAIMDKYDPDKKVALVVDEWGTWYAGLPDVNPGFLHQQNTLRDALVASLTLDVFTQHADRVRMANIAQMINVLQAMILTDGPKMLLTPTYHVFQMYLPYQDATYLPLQIQSPQYSHGQYTVPAVHGSAVKAKDGHVYVALTNLDPNDAAKVRVKVDGGHASSVSGQILTAPAITALNTFDKPDAVTPVAFDGARLQGGTLQVKLPAKSIVMLKL	PGPT0018655_704	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINOFURANOSIDASE,PGPT0018655-abfA-K01209	NA	NA
BMS020_05095	2856	btuB_6		Vitamin B12 transporter BtuB	ATGATGAGTGCACACAAGACCCGGCAGGCCAGCGGCCTGCTACGGGCGGCGCTGCCTGCCGCCCTGTCCATGGCGATCGCCGCCACCGCCGCCGCACAGGACGCGCCCACACCCGTCCCGGATGCGAAACGAACCTGCCCGACCGCGCAGGACCCGCAAGCACCCTGCCCGCCACCCAACACCGACAGTTCCGTGGTCGAGCTCGACCAGGTGCAGGTGCGTGGCGTGCGCGAGTCGCTGATGAATGCCATCGCGCTCAAGCAGAGCACCATCCAGGTGGTCGATGCGATCGTCGCCGAGGACATCGGCAAGTTCCCCGACAACAACCTGGTGGAAGCGCTGCAACGGGTGACCGGCGTGCAGACCACCAACCGCGGCAGCGGCGAGGTAGCGACCGTGTCCATCCGTGGTCTCAGCGACGTCACCACCACCGTCAACGGCCGCAACATCTTCACCGCCTCCGGTCGTGCGGTGGCGTTGGCCGACATCCCCGCCAGCCTGCTGGCCAGCGCCGAGGTCTACAAGACCCGCGCCGCCTCGCAGATCGAATCGGGCATTGCCGGGGTGATCGACATCCACACCCATCGCCCGTTCGACTTCGAGGGCAGCACGATCTCGGTGGCCGCGCGCGGCATCTACCAGGACCAGGCCGACAAGACCGACCCCAACATCAGCGCGCTGTTCTCCAACATCTGGCAGGTGGGCGATGGCCGCTTCGGTGCGCTGGCCAACGTCTCCTATGCCGAGACCAACTACCGCGACCAGAGCGTGACCGCCGGCGCGGTGGTGCCGTTCTTCAGCGACGACGCACCCGCGGGGTACGTGCCTTACCAGCGCATCGACACCAGCATCAACGGTGCCGAGGTCTGGCAGCCTGGCCTGGTGGCGGGCCTGCCCTATGCGGCCGGCTCGACGGTGTCGGTCAACGGCCAGGACTACGACTACCTGCTCTCGCGCGATGCGATCTTCGCCAGCGACTTCACCGGCAAGCGCGAGCGCCCGGCGGCCAACATCTCACTGCAGTGGGCGCCGAACGACAGCTCCGAATACACCTTCGAGGCGTTCTACAACGGCTACCGCAACCAGTCGTTCAATTCGCTGCTGTTCTCGTTCGTCGACTGGTGGGGGGATCTCGGCACCGACCCTGCATCGAGCCTGCAGCTGTACCCGGGCACCAACGTAGTGAAGTCGCGCGTGGTCGGCTCGCCGTACAACTTCACCAGCGGCGACCTGACCACCAGCCGCACCGACAGCTACCTCTACGCGCTGGGCGGCAAGTGGGATGTCGGCGACCGGCTGAAGCTGCGCTCGGAGGTCAACTACCAGAACAGCAAGTACACCACCGACTTCTTCGCCATGCGCGCCGACCGCGTCACCAACTCGGTGTGGGTGGATTTCAACAGCGGCGGCGGCATTCCGGCCTTCGGCTTCACCGACAACCCGGCCACCACCGGCGTCGACGAAAGCAACGCTGCCGATGCCTCGCAGTGGGCGCTGGCGCAGCTCTACGACAATGCCAACTACGCCAAGGGCGACGCGGCCACCTTCACCTTCGACGGCGACTACGCCGCCGATCTGGGCCCGCTGTCGCGGCTGTCCTTCGGCGTGCGCTACGACGACCGCAGCGCCAGCGAAGGCCAGCGCACCGCCTCGGCCGACCCGTGCAACGCGGCGGTGGCAGGCTGTTCGCTGTCCACCGACGGCCTAGCCTGGACCAACAGCGGATTCTTCGACGGGCAATCCAATGTGCCGACCTCCTGGGTCGTGCCCAACGGCTACTACATCCGCGACAACGCCGATTACTACCGCGCGCTCTACGGCCTGCCGACCAGCAACGAACTGGTGATGACCGAGAACTTCCACGTCAGCGAGGCCACCACCGCGCTGTACCTGCAGGGCGACTTCGACACCGACATCGGCCTGGACGGCCAGATCGGCGCGCGCTACGTCAACGTCGACACCGACATGCACTTCGGCGAGGGCGCGGCCAAGGCCCACGCCTCCAAGGTGCTGCCGAGCATGACCGTGCGCTACCACTTCACCCCGGAACTGATGGTGCGCCTGGCCTACGGCCAGACCCTGGCCCGGCCGAGCTTCTCCCAGCTCAACCCGAACATCATCTACGTCGAGGACGTGACCAATATCGGCTACGGCACCGCCACCGGCGGCAACCCGAACCTGAGGCCGGTGGAGTCCAAGAACTACGACGTGTCGGTGGAATGGTATTTCTCGCCGGGCAACGCCCTGTACGGCACGCTGTTCCGCCGCGACATCGACGGCATGGTCAGCGACTTCCGCCGCCGCGTGACCTACGACAACTACGATTACATCCTGACCCAGCCCGACAACGCCTCCAATGGCGTGCTGAAGGGCTTCGAACTCGGCCTGATCTACTTCCCCGACGACCTGCCCGGCGTGCTCAAGGGCCTCGGCGTGCAGGCCAGCTACACGTCGCTGCGCTCCGGGCAGGACATCCCGGTCACCAACAGCGCCGGCGAGGTGGTGGGCAGCGAACACACGCCGATGTTCGGCATTTCCGACAGCTCCTACAGCGTGGTGCTGGCCTACGAGCGCGCGAAGTTCTCCTCGCGCCTGTCCTACGTGTGGCGCGACGACTTCCTTCACCACTACGAGGCGGCGCAGTTCGCCAATCCGCTGGGCGTCTACTACAAGGCCGAGAGCAGCCTGGATTTCCAGCTCAGCTACGACGCCAGCAAGAACTGCACGCTGACCTTCGACGCCACCAATCTGACCAACGAAAAGAACCAGAGCTACTATCAGTACGCCGACATCTACAACTTCGGCACCACGCTGTACAGCCGGACCTTCTCGCTCGGCCTGCGCCTGCGCTTCTGA	MMSAHKTRQASGLLRAALPAALSMAIAATAAAQDAPTPVPDAKRTCPTAQDPQAPCPPPNTDSSVVELDQVQVRGVRESLMNAIALKQSTIQVVDAIVAEDIGKFPDNNLVEALQRVTGVQTTNRGSGEVATVSIRGLSDVTTTVNGRNIFTASGRAVALADIPASLLASAEVYKTRAASQIESGIAGVIDIHTHRPFDFEGSTISVAARGIYQDQADKTDPNISALFSNIWQVGDGRFGALANVSYAETNYRDQSVTAGAVVPFFSDDAPAGYVPYQRIDTSINGAEVWQPGLVAGLPYAAGSTVSVNGQDYDYLLSRDAIFASDFTGKRERPAANISLQWAPNDSSEYTFEAFYNGYRNQSFNSLLFSFVDWWGDLGTDPASSLQLYPGTNVVKSRVVGSPYNFTSGDLTTSRTDSYLYALGGKWDVGDRLKLRSEVNYQNSKYTTDFFAMRADRVTNSVWVDFNSGGGIPAFGFTDNPATTGVDESNAADASQWALAQLYDNANYAKGDAATFTFDGDYAADLGPLSRLSFGVRYDDRSASEGQRTASADPCNAAVAGCSLSTDGLAWTNSGFFDGQSNVPTSWVVPNGYYIRDNADYYRALYGLPTSNELVMTENFHVSEATTALYLQGDFDTDIGLDGQIGARYVNVDTDMHFGEGAAKAHASKVLPSMTVRYHFTPELMVRLAYGQTLARPSFSQLNPNIIYVEDVTNIGYGTATGGNPNLRPVESKNYDVSVEWYFSPGNALYGTLFRRDIDGMVSDFRRRVTYDNYDYILTQPDNASNGVLKGFELGLIYFPDDLPGVLKGLGVQASYTSLRSGQDIPVTNSAGEVVGSEHTPMFGISDSSYSVVLAYERAKFSSRLSYVWRDDFLHHYEAAQFANPLGVYYKAESSLDFQLSYDASKNCTLTFDATNLTNEKNQSYYQYADIYNFGTTLYSRTFSLGLRLRF	PGPT0003790_2869	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_05096	2694	btuB_7		Vitamin B12 transporter BtuB	ATGAATTTCGTGAGCAGCAAGCGGCGTGCGCAGCGCCTGATCGTGGCCGCCCTGCCGGCGGCCCTGGCGCTGGCGATCGCCGTGCCCGACGCACGGGCACAGCCGCAGGATGCGCCACCAGCGTCGTGCAGCAATGCCGACGGCACGCCATGCCAGGCCGCTGGCGACGCCACCAAACAACTCGACACAGTCGAAGTGCGCGGTGTCCGCGGCAGCGTCGCCAGCGCGATCGCACTGAAGCAGAACAACCTGCAGATCACCGATTCGATCGTCGCCGAGGACATCGGCAAGCTGCCCGACAACAGCGTCGCGGCCGCCCTGCAGCGCGTCACCGGCGTGCAGGTCGCGCGCGGCGCCGGCGAGGTCAACACGGTGCTGGTGCGCGGCCTGCCCGACGTGGTCACCACCCTCAACGGCCGCAACGTGTTCACCACCACCGGCCGCAGCATGGCGCTGGCCGACATCCCGGCCGACCTGCTGCAGCGCGTCGACGTCTACAAGACCAGCGGCGCCGATGCCATCGAAGGCGGCATCGGCGGGCTGATCGACGTGCGCCTGCGCCGCCCGTTCGACTTCGACGACGACTGGACCGTGGCCGGCAGCGTGCGCCCGGTCTACAGCCGCAATTCCGGCGAGGCCGACCCCAATGGCAGCCTCACCGGCAACAAGATCTGGAACACCGACGCCGGCAAGATCGGCGTGATGGCCAGCGTCTCCTACCAGTCGCAGCGCTACCAGGAAAGCAACACCTTCGACGGCATCTACACCCTGAAGGACAACCCGATGGGGACCGGCGACCAGGTCTACATCCCCGACACCATCGGCTCGATCTACACCCTCGGCGACCGCGACCGGCGCTCGGCCAACCTGACCCTGCAGTGGGCGCCGAGCGAGAACAGCGAGCTGTACTTCGAGAACTTCTACGTCGGCTACCGCAACGCGAACCAGGTCAACTTCTGGATTCCGCTGCCGACCCTGGTCGATTCCAGCAACGTCATCAGCCTGACCACCAAGCCCGGCACCAACGTCGCCCAGAGCATCACCGCACGCGACCTGTTCACCCTGACCAGCAACCAGGCCTACCAGAACAGTTCGGACACCTACCAGAGCGCGCTCGGCGGCCACTGGAAAGGCGAACGCCTGACCCTGTCCACCGACCTGGCCTACACCTACAGCAAGGCCGACAACCGCAGCTTCATCCTCGACACCGCGTTCATCGCGCCGGTGATGACGATGACCTTCGACAACAACGGCGCCTCCAACGCGGTGGTGACCAACTACGACGGCAGCGCCTACGACGTCGGCGACGCCTCCAATTACTGGCTGCACCAGTACTACGACGCCTGGAGCCGGCAGACCGGCAAGGACTGGTCGTGGAAGGGCGATGCCAACCTGCAGCTCGACGTCGGCCCGCTGACCTTCCTGGACTTCGGTATACGCGCCAGCCAGCGCAAGGCCGAGAACGTCGCCGCCGACACCGGCGGACGCACCAACATCAGCGGCGCCACGGTCTATGTCGATGACTTCGACGGGCTGGCCGGGCTGACCCCGAGCAACTTCCTCAACGGCAACCGGAACACCTCCACCAACCAGTGGATGGTGGCCAACCGCGAGTACCTGCTGGCCAACGCCGCGGCGATCCGCGCCGCGATGGGTTACGACGCCGCCGACCCGACCGCCAACCCGGCGCTGTACTTCAACGACCAGGAAGACACCTACGCGGCCTACCTGCAGGCACGCTACTCGGCCAGCATCGGCGGCATGGCGCTGGACGGTGCGTTCGGCGTGCGCGCGGTAAAGCTGGAATCAGAGCTGGACGGCACTCAGATCGTCGACGGCGCGCAGTCACCGGTCAGCATCGACAAACGCGACGACCAGCTGCTGCCGAGCTTCAGCGCCAACCTGGCGCTGCGCGACAACCTGCTGCTGCGTGCGTCCTACGGCAAGTCGATCACCCGGCCCAGCTTCGCCAACCTCAACCCGCAGCTGTCGCTGTACCAGGCCACCGCCACCGTGCCGGCGACCGGCAGCGGCGGCAACCCGGACCTGGACGCGGTCGAGTCGGAGAACGCCGACCTGTCGCTGGAATGGTATTTCCGCCCAGGCTCGCTGCTGTCGCTGGCCGGCTTCCATCGCAGCATCGACGGCTACATCCAGACCTATGCCAGCGACGAGGTGATCGACGGCGTCACCTATTCGGTGAGCCGCCCGCGCAACACCGGCCACGGCTCGTTGAAGGGCGTGGAGCTGGCGTACACCCAGTTCTTCGACTTCCTGCCCGGCTGGCTGTCCGGCTTCGGCACCCAGCTCAACGCCACCTTCATCGATGCGCAGACCGAGTCGCCGACCGGCGAGATGCAGGACCTGGTCAACGTCTCCGACCGCGCCTACAACGCGGTGCTGATCTACGAGAAGGGCGGCTTCTCCAGCCGGCTGGCCTACAACTGGCGCAGCAAGTACGCGCTCAGCTACACCGCCAGCGGCGACCAGCCGCAGTCGATCTATGTCGCACCGGTGGACTCGCTGGACTTCGCGATGAGCTACGACTTCGACGACCACCTGACGATGTCGATCGAGGCCACCAACCTGCTCGACTCGGTGACCCGCAACTACTTCACCGACGAATCGCTGTTCCCGCGCGACGTCGGCGTCATGGAGCGCACCTTCTCCATCGGCCTGCGCTTCCGCTTCTGA	MNFVSSKRRAQRLIVAALPAALALAIAVPDARAQPQDAPPASCSNADGTPCQAAGDATKQLDTVEVRGVRGSVASAIALKQNNLQITDSIVAEDIGKLPDNSVAAALQRVTGVQVARGAGEVNTVLVRGLPDVVTTLNGRNVFTTTGRSMALADIPADLLQRVDVYKTSGADAIEGGIGGLIDVRLRRPFDFDDDWTVAGSVRPVYSRNSGEADPNGSLTGNKIWNTDAGKIGVMASVSYQSQRYQESNTFDGIYTLKDNPMGTGDQVYIPDTIGSIYTLGDRDRRSANLTLQWAPSENSELYFENFYVGYRNANQVNFWIPLPTLVDSSNVISLTTKPGTNVAQSITARDLFTLTSNQAYQNSSDTYQSALGGHWKGERLTLSTDLAYTYSKADNRSFILDTAFIAPVMTMTFDNNGASNAVVTNYDGSAYDVGDASNYWLHQYYDAWSRQTGKDWSWKGDANLQLDVGPLTFLDFGIRASQRKAENVAADTGGRTNISGATVYVDDFDGLAGLTPSNFLNGNRNTSTNQWMVANREYLLANAAAIRAAMGYDAADPTANPALYFNDQEDTYAAYLQARYSASIGGMALDGAFGVRAVKLESELDGTQIVDGAQSPVSIDKRDDQLLPSFSANLALRDNLLLRASYGKSITRPSFANLNPQLSLYQATATVPATGSGGNPDLDAVESENADLSLEWYFRPGSLLSLAGFHRSIDGYIQTYASDEVIDGVTYSVSRPRNTGHGSLKGVELAYTQFFDFLPGWLSGFGTQLNATFIDAQTESPTGEMQDLVNVSDRAYNAVLIYEKGGFSSRLAYNWRSKYALSYTASGDQPQSIYVAPVDSLDFAMSYDFDDHLTMSIEATNLLDSVTRNYFTDESLFPRDVGVMERTFSIGLRFRF	PGPT0003790_1701	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_05097	1071	mro	COG2017	Aldose 1-epimerase	ATGCAGCATGTGTTCGGCCACCTCTCCGATGGCACCGACGTGGTCGCCATCCCGCTGGGTAACGCGCATGGGCTGCGCGCCGAGGTGCTGAGTTACGGCGGCATCCTGCGCTCGCTGCATGTGCCGCTGGACGATGGCGAGGCGAACGTGGTGCTTGGCCTGGCCGATCTGTCGGCGTACCTGGCCGACCGCGACAACCTGGGCATCCTGGTGGGGCGTTACGGCAATCGCATCGCCGCGGGGCGCTTCACCCTGGATGGCGTGGAGTACCAGCTCGACCGCAACGAAGGCGGCAACCATCTGCACGGCGGCGGCCATGGCTTCGGCAGGCTGCCCTGGCAGGTGCGCGAGGTTGGCGAGGCGCACGTCGTGCTGGGCCTGCATTCGCCGGCGCAGGACCAGGGCTACCCGGGGACGCTGGATGTGCAGGCCAGCTACCGCCTGCGCGGCCATGTGCTGGAACTGGAATACCAGGCCAGCGTCGATGCCGCCACGCCGCTCAACCTGACCCATCATCCCTACTTCAACCTGGCCGGCGATCCGGCCGTGCCGGTCGCGCAGCAGTTGCTGCGGGTTCCCGCGGAGGCGTACCTGCCGGTGGGAGATGGGTTGATTCCGACCGGCGAGATCGTGGCCGTCGCCGGAACCGCCTTCGACTTCCGCCAGCCGGCGAGCATGGATGCGCGCCGCGACCGGTGCGCGCCGCAACTGGCGATCGCCGGCGGCTACGACCACTGCCTGGTGCTGGAGCCGGGGGCGCCCTGCGTGGCCGAACTGTATGCGCCGCAGAGTGGGCTGGCGATGCGCATCCTCAGCCGGGTGCCGGCCGTGCAGGTCTACGAGGGCCAGATGCTGGTGCCGGAGCGCGGGCATGGCATGTGCCTGGAGCCGCAGCAGTTCCCGGACGCTCCCAACCACGCGCACTTCCCGCCGACGGTGCTCAGGCCCGGCGAGCGTTACCGCCATCGCATCAGCTACTGCTTCGCCCAACCGGGGCGTGACGCCGACTGGGCAACGGTCACGGCCGCGCTGGATGCCAGTATCGCGGCCTCGGCGTTGCCCGAAGACTGA	MQHVFGHLSDGTDVVAIPLGNAHGLRAEVLSYGGILRSLHVPLDDGEANVVLGLADLSAYLADRDNLGILVGRYGNRIAAGRFTLDGVEYQLDRNEGGNHLHGGGHGFGRLPWQVREVGEAHVVLGLHSPAQDQGYPGTLDVQASYRLRGHVLELEYQASVDAATPLNLTHHPYFNLAGDPAVPVAQQLLRVPAEAYLPVGDGLIPTGEIVAVAGTAFDFRQPASMDARRDRCAPQLAIAGGYDHCLVLEPGAPCVAELYAPQSGLAMRILSRVPAVQVYEGQMLVPERGHGMCLEPQQFPDAPNHAHFPPTVLRPGERYRHRISYCFAQPGRDADWATVTAALDASIAASALPED	PGPT0017825_2211	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
BMS020_05099	936	cyoA_2	COG1622	Cytochrome bo(3) ubiquinol oxidase subunit 2	ATGATTCCGTTGAAACATCTTGGGCGTGTTCTCCGTCCAGGCCTGCTGTTGCCGGCGCTGCTGCTGACCGGCTGCAACTCGGCCATCCTCAATCCCAAGGGCCAGATCGGCCAGGATGAGAAGACCCTGCTGATCACCGCCGTGGTGCTGATGCTGCTGGTCGTCATCCCGGTGATCGTGATGACCATTGTCTTCGCCTGGAAGTACCGGGCCTCCAACACCAAGGCCCGCTACGAGCCCAACTGGTCGCATTCCACCGCGATCGAGGTGGTCGTGTGGTCCATCCCGTGCCTGATCATCCTGGTGCTGGCGGTGCTGACCTGGCGCTCCTCGCACGCGCTGGACCCGTTCAAGCCGCTGGAGTCCGACGTCAAGCCGGTCACCATCGAGGCGGTGGCGCTGGATTGGAAGTGGTTGTTCATCTACCCCGACCAGGGCATCGCGACCGTCAACGAGATCGCGTTCCCGGTGAACACCCCGGTGAACTTCAAGATCACCTCCGACACGGTGATGAACTCGTTCTTCATCCCGCAGCTGGGCACGCAGATCTACGCGATGGCTGGCATGGAGACCAAGCTGCACCTGATCGCCAACGAGCCGGGCGACTTCGCCGGCATCTCGGCGAACTACAGCGGCCATGGCTTCTCGAAGATGCGCTTCACCGCGCGTGCCACCGCCGACCAGGCGGGCTTCGATGCGTGGGTGGCCAAGGTCAAGGCGGCGCCGCAGTCGCTGCAGGCCGCCGAGTTCCAGGCGCTGGCCGCCAACCACAACGACAAGGACGTGTATCCGGTCACCTACTACGCGTCGGTGCAGAACGGCATGTTCAAGTCGCTGATCGACAAATACATGATGGGCAAGGGCCAGCACATGGACCATGACCATCAGGCCCCGGCCGGCGAGCCGGTGGCCATGTGCACCTCTGGAGACAAGTGA	MIPLKHLGRVLRPGLLLPALLLTGCNSAILNPKGQIGQDEKTLLITAVVLMLLVVIPVIVMTIVFAWKYRASNTKARYEPNWSHSTAIEVVVWSIPCLIILVLAVLTWRSSHALDPFKPLESDVKPVTIEAVALDWKWLFIYPDQGIATVNEIAFPVNTPVNFKITSDTVMNSFFIPQLGTQIYAMAGMETKLHLIANEPGDFAGISANYSGHGFSKMRFTARATADQAGFDAWVAKVKAAPQSLQAAEFQALAANHNDKDVYPVTYYASVQNGMFKSLIDKYMMGKGQHMDHDHQAPAGEPVAMCTSGDK				NA	NA	NA	NA	NA
BMS020_05100	2007	cyoB_2	COG0843	Cytochrome bo(3) ubiquinol oxidase subunit 1	ATGCTGGGCAAACTTTCCCTCGAGTCGGTGCCCTACCAAGAGCCGATCGTCATGGTCACGCTGGTTGCGGTGGCCCTGGGCGGTGCGGCTGTCGTAGGCGCGATGACGTATTTCAAGCTGTGGGGCTGGCTGTGGCGCGAGTGGCTGACTTCGGTCGACCACAAGCGCATCGGCGTGATGTACATCGTCGTGGCCCTGGTGATGCTGCTGCGCGGCTTCGCCGACGCGATCATGATGCGTGCCCAGCAGGCCACGGTGGCCGCCACCAATGGCGGCGACGGCTTCCTGCCACCACACCATTACGACCAGATCTTCACCGCGCACGGCGTGATCATGATCTTCTTCATGGCCATGCCGTTCATGACCGGCCTGATCAACATCGTGGTGCCGCTGCAGATCGGCGCGCGCGACGTGGCGTTCCCGTTCCTCAACTCGCTCAGCTTCTGGCTGTTCGTGTCGGGCGTGATCCTGATCATGCTGTCGCTGTTCGTGGGTGAGTTCGCCCAGACCGGCTGGCTGGCCTATCCGCCGCTGTCGGAGATGGAGTACAGCCCAGGAGTCGGTGTCGACTACTACATCTGGGCATTGCAGCTATCCGGCCTCGGAACGCTGCTGACCGGCGTCAACTTCATCGTGACGATCTTCAAGATGCGCGCCCCGGGCATGACCCTGATGCGCATGCCGATCTTCACCTGGACCGCGCTGGTCACCAACGTGCTGATCGTCGCCGTGTTCCCGATCCTGACCGTCGCCCTGGCGCTGCTGGGTGCGGACCGCTACCTGGGCACGCACTTCTTCACCAATGACGGTGGCGGCAACGCCATGATGTACATCAACCTGATCTGGATCTGGGGCCACCCGGAGGTCTACATCCTGGTGCTGCCGGCGTTCGGCATCTACTCGGAAGTGATCGCGACCTTCGCCCGCAAGAAGCTGTTCGGCTACACCTCGATGGTCTATGCGACCGCGTGCATCGGCGTGCTGTCGATGATCGTGTGGCTGCACCACTTCTTCACCATGGGTGCCGGCGCCAACGTGAATGCCTTCTTCGGCATCACCACGATGATCATCTCGATCCCGACCGGCGTGAAGCTGTTCAACTGGCTGTTCACGATGTTCCGCGGCCGCCTGCACTTCACCGCGCCGGTGCTGTGGACGATCGCGGCCATGGTCACCTTCACCATCGGCGGCATGACCGGCGTGATGATGGCGATCCCGGCGGTGTCGTTCGTGCTGCACAACTCGCTGTTCCTGATCGCCCACTTCCACAACGCGATCATCGGCGGCGTGGTGTTCGGCTACCTGGCGGGCCTGGCCTACTGGTTCCCGAAGGCGCTGGGCTTCAAGATCAGCGACGCGCTGGGCAAGGCCGCCGCGGCCTGCTGGATGCTGGGCTTCTTCGTCACCTTCACCCCGCTGTACGTGCTGGGCTTCATGGGCATGACCCGTCGCCTCAACACGTTCAACCACCCCGAGTGGACCCCGTGGCTGTACGTCTCGGCGGTCGGCGCCTGCATCATCGCCCTGGGCATCTTCTTCAACCTGGCGCAGATCGGCGTTGGCATCTGGAAGCGCAAGCAGAACATCGACTACACCGGCGATCCGTGGGATGGCCGCACGCTGGAGTGGTCGACCTCCTCGCCGCCGCCGTTCTACAACTTCGCCCACCTGCCGCAGGTCGATGGCATCGACCAGTTCTGGGAGAACAAGCAGAAGGGCAAGGGTTGGGTGCGTCCGGCCAAGTACTTCGACATCCACATGCCGCGCAACACGGCGGCCGGGTTCTGGATCGGCATGTTCGGCACCGTGCTGGGCTTTGCGCTGATCTGGCACATCTGGTGGCTGGCGGTGGTGGGCCTGGTCGGCATGATCGGCAGCTTCATCGTCCGGACCTTCGACAACGACATCGACTACTACGTGCCGGCGGCCGAGGTTGAGCGCATCGAGAACGAGCGCTTCGCCCTGCTCGAGCAGCATCAGGCGGCACATGCCGCGAAGGCGGTTTGA	MLGKLSLESVPYQEPIVMVTLVAVALGGAAVVGAMTYFKLWGWLWREWLTSVDHKRIGVMYIVVALVMLLRGFADAIMMRAQQATVAATNGGDGFLPPHHYDQIFTAHGVIMIFFMAMPFMTGLINIVVPLQIGARDVAFPFLNSLSFWLFVSGVILIMLSLFVGEFAQTGWLAYPPLSEMEYSPGVGVDYYIWALQLSGLGTLLTGVNFIVTIFKMRAPGMTLMRMPIFTWTALVTNVLIVAVFPILTVALALLGADRYLGTHFFTNDGGGNAMMYINLIWIWGHPEVYILVLPAFGIYSEVIATFARKKLFGYTSMVYATACIGVLSMIVWLHHFFTMGAGANVNAFFGITTMIISIPTGVKLFNWLFTMFRGRLHFTAPVLWTIAAMVTFTIGGMTGVMMAIPAVSFVLHNSLFLIAHFHNAIIGGVVFGYLAGLAYWFPKALGFKISDALGKAAAACWMLGFFVTFTPLYVLGFMGMTRRLNTFNHPEWTPWLYVSAVGACIIALGIFFNLAQIGVGIWKRKQNIDYTGDPWDGRTLEWSTSSPPPFYNFAHLPQVDGIDQFWENKQKGKGWVRPAKYFDIHMPRNTAAGFWIGMFGTVLGFALIWHIWWLAVVGLVGMIGSFIVRTFDNDIDYYVPAAEVERIENERFALLEQHQAAHAAKAV	PGPT0004025_380	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
BMS020_05101	630	cyoC_2	COG1845	Cytochrome bo(3) ubiquinol oxidase subunit 3	ATGTCCAGCAACACTCTCGACCAACACCAGGCCGCCCACGCGGGCGGCCACCACGACGATCACGAGCACCACGACGCCGGTGGCAACACCATCTACGGCTTCTGGGTGTACCTGATGAGCGACTGCTTGCTGTTCGCCGGCCTGTTCGCCACCTATGCCGTCCTGTCGGGCGCCACGGTGGACGGGCCGACGGCCAAGGAGCTGTTCGACCTCAAGTTCGTGCTGGTGGAAACCTTCCTGCTGCTGTTCAGCTCGCTGACCTTCGGCCTGGCGGTGATCTCCGCGCACAAGCACAAGATGGGTGGCCTGTACGGCTGGCTGGCGGTGACGGCGCTGTTCGGCATCGGCTTCCTGTGCATGGAGGTCTACGAGTTCCAGCACCTGATCCATGAGGGTGCCGGCCCGGGGCGCAGTGCGTTCCTGTCCTCGTTCTTCCTGCTGGTGGGCACGCACGGCCTGCACGTGGCGTCCGGCCTGCTGTGGATGCTGGTGCTGGTGATCCAGATCGCCAAGAACGGCCTGACCGCGCGCAACAGCACCCGCCTGGCGTGCCTGAGCCTGTTCTGGCACTTCCTGGACATCATCTGGATCGGCGTGTTCACCGTCGTCTACCTGCTGGGAGCCCTGTAA	MSSNTLDQHQAAHAGGHHDDHEHHDAGGNTIYGFWVYLMSDCLLFAGLFATYAVLSGATVDGPTAKELFDLKFVLVETFLLLFSSLTFGLAVISAHKHKMGGLYGWLAVTALFGIGFLCMEVYEFQHLIHEGAGPGRSAFLSSFFLLVGTHGLHVASGLLWMLVLVIQIAKNGLTARNSTRLACLSLFWHFLDIIWIGVFTVVYLLGAL	PGPT0004035_2329	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
BMS020_05102	327	cyoD_2	COG3125	Cytochrome bo(3) ubiquinol oxidase subunit 4	ATGGCTGACAACCACACCCATTCCGAAAGCCACTCCGGCGGTCTGAAGTCCTACCTGGTCGGTTTCGTGATGGCGGTGATCCTCACCGTCATCCCGTTCGCGATGGTCATGAGCGGCGCGTTCTCCAAGGGCGTCACCGTGATCGTGATCTCGGTGCTGGCCGCGGTGCAGATGCTGGTCCACATCGTCTACTTCCTGCACCTGGACCGCTCGCCCGAGCAGCGCTCCAACGTGCAGGCCGGCCTGTTCTCGGTGCTGATGATCGGCATCGTGATCATTGGCTCGCTGTGGGTCATGCACAACCTCAACGTCAACATGATGCATTGA	MADNHTHSESHSGGLKSYLVGFVMAVILTVIPFAMVMSGAFSKGVTVIVISVLAAVQMLVHIVYFLHLDRSPEQRSNVQAGLFSVLMIGIVIIGSLWVMHNLNVNMMH				NA	NA	NA	NA	NA
BMS020_05103	1890			hypothetical protein	ATGAAGATCCGTTCCCTGCTGGCGCTGTCGCTGGCTGCCGCGCTCGCCGCACCCGCCGCGCAGGCGCAGACCGCCGCGCCGCGCGATGTCCCCTACGATGGCGTGCTGCGCATCGACGTCGATGCCACCGACATCGGCCGCCGCATCTTCCGCGTGCGTGCCACCATGCCGGCCAGCGCCGGCACGATGACCCTGCTGTACCCGGAATGGATTCCCGGCCACCACTCGCCCAGCGGCACCATCGACAAGATGGCCGGCCTGGTGGTGAAGGCCGACGACGGCCGCGTGCTGAAGTGGGTGCGCGACCAGTACGACGTGTACGCGTTCAAGGTCGAGGTGCCCGAGGGCGTGCAGGCGATCAGCGCCGAGTTCCAGTTCCTGTCCTCGCAGGGCCAGGGCCAGGGGCGGGTGGTGATGACCCCGGAAATGCTCAACCTGCAGTGGAACAGCACCTCGCTGTACCCGGCCGGCTACTACGCGCGCAACATCAAGACCGTGGCCAGCGTGACCCTGCCGCAGGGCTGGGATTACGCCACCGCGCTGGAGACCGACAGCAAGGTCGGCAACAAGGTGACGTTCAAGCCGATCGACTACGACGACCTGGTCGATTCGCCGATCTTCGCCGGCAAGTACCACAAGCGCATTGCGCTGGATGCCAGCGGCAAGCAGCCGGTCTACCTCAACGTGTTCGCCGACGAGGCCAAGTACCTCGAAGCCAAGCCGGAGCAGATCAAGGTGCACCAGCAGTTGGTGCAGCAGATGGACAAGCTGTACGGCGCACGCCATTTCGACCACTACGACTTCCTGCTGGCGCTGACCGGCAAGCTTGGCGGCATCGGCCTGGAGCACCACCGGTCCAGCGAGAACAGCGGCGCGACCGGCTACTTCACCGAGTGGGACAAGACCTGGGCCGGGCGCGACCTGTTGGCGCATGAGTTCAACCATTCCTGGGACGGCAAGTACCGCCGCGGTGCCGACCTGGCCACGCCGAACTTCAACGTGCCGATGGGCGACAGCCTGCTGTGGGTCTACGAGGGCCAGACCCAGTTCTTCGGCCACGTGATCGCCGGGCGTTCGGGCCTGTGGAGCCAGGACCAGGCGCGCGACATGCTCGCCAACGTCGCGGCGACCTACGACCGCGGCCGTCCGGGCCTGGCCTGGCGCAATGTCCAGGACACCACCAACGACCCGACCATCGCCCAGCGTGCGCCGCGCTCGTACCGCAACTACCAGATGAGCGAGGACTACTACTCCGGCGGCCAGATGGTGTGGCTGGCGGTGGACGGCAAGCTGCGTGACCTGAGTGGCGACAAGCGTTCGATCGACGACTTCGCCAAGGCGTTCTTCGGCATGAAGAACGGCGACTGGGACGTCAACCCGTATACCTTCGACGAGGTGGTGTCCACGCTCAACGGCATCGTCGCCTATGACTGGGCCAGCTTCCTGCGCGAGCGCATCGACGGCCATGGTCCGCTGATCGACGGCATCGCCTCGCACGGCTGGAAGCTGGTCTACACCGACACGCCGAACGAGGCGTTCAAGGCGATCGAGGCGCGCAGCAAGGGCGTCAATCTGACCTACTCGCTGGGCCTGTCGGTCGGCGCCAAGGGCGATGTGTCCGACGTGCTGTGGGACAGCCCGGCCTTCAATGCCGGCATCGGCAGCGGCATGAGCATCGTCGCGGTCAACGGCAAGGAGTTCAGCCCGGATGCGCTGAAGGATGCGGTCACCGCGGCCAAGGGCAGCCAGGCGCCGATTACCCTGCTGGTGAAGCAGTTCGACCGCTACGACAGCATCAGCATCGACTACCACGGTGGCCTGCTGTATCCGAAGCTGGAGCGGATCGCCGGCAAGCCCGACCGCCTGGCCGAGCTGTACAAGGCGCGCTGA	MKIRSLLALSLAAALAAPAAQAQTAAPRDVPYDGVLRIDVDATDIGRRIFRVRATMPASAGTMTLLYPEWIPGHHSPSGTIDKMAGLVVKADDGRVLKWVRDQYDVYAFKVEVPEGVQAISAEFQFLSSQGQGQGRVVMTPEMLNLQWNSTSLYPAGYYARNIKTVASVTLPQGWDYATALETDSKVGNKVTFKPIDYDDLVDSPIFAGKYHKRIALDASGKQPVYLNVFADEAKYLEAKPEQIKVHQQLVQQMDKLYGARHFDHYDFLLALTGKLGGIGLEHHRSSENSGATGYFTEWDKTWAGRDLLAHEFNHSWDGKYRRGADLATPNFNVPMGDSLLWVYEGQTQFFGHVIAGRSGLWSQDQARDMLANVAATYDRGRPGLAWRNVQDTTNDPTIAQRAPRSYRNYQMSEDYYSGGQMVWLAVDGKLRDLSGDKRSIDDFAKAFFGMKNGDWDVNPYTFDEVVSTLNGIVAYDWASFLRERIDGHGPLIDGIASHGWKLVYTDTPNEAFKAIEARSKGVNLTYSLGLSVGAKGDVSDVLWDSPAFNAGIGSGMSIVAVNGKEFSPDALKDAVTAAKGSQAPITLLVKQFDRYDSISIDYHGGLLYPKLERIAGKPDRLAELYKAR				NA	NA	NA	NA	NA
BMS020_05104	522			hypothetical protein	ATGCAGCGGGTACTGGTGGTAGGCAGCCCCGGCGCGGGCAAGAGCCGCTTCGCGCAGGCATTGGGGGCCGGGCTCGGCATCGAGGTGATCCACCTCGATGCCCATTATTGGAGCGCCGGCTGGCGCGAGCCGAGCCGGGCCGAGTGGAGCACGCGGCTGGCGGCGTTGCTGGCGGCGCCGGCTTGGGTGATGGATGGCAACTATTCGCACACCCTGGCGCAGCGCCTGCTGGCCTGCGACAGCGTGGTGCTGCTCGACCTGCCGCGCGCACTGTGCCTGTGGCGGGTGCTGTGGCGGAGCTGGCGCAGCCGCGGCCGGGTGCGCGCGGACATGGCGCCAGGCTGCCCGGCGCGCTTCGACCTGGCGTTCCTACTGTATGTCTGGCGTTATCGGGCGCGTTCCCGGCCGAAGGTGCTGGACTTGCTGGAGCAGCGCCGTGGCGAGGTCGCGGTGCATCGGCTGCGCTCGCGGCGGCAGGTGCGCCAGTTCCTGCTGGCGCATGCAGACGGCGTGGCCGGGTAG	MQRVLVVGSPGAGKSRFAQALGAGLGIEVIHLDAHYWSAGWREPSRAEWSTRLAALLAAPAWVMDGNYSHTLAQRLLACDSVVLLDLPRALCLWRVLWRSWRSRGRVRADMAPGCPARFDLAFLLYVWRYRARSRPKVLDLLEQRRGEVAVHRLRSRRQVRQFLLAHADGVAG				NA	NA	NA	NA	NA
BMS020_05105	1404	radA_1	COG1066	DNA repair protein RadA	ATGGCCAAAGCCTCCACGAAGGCGCGCACCGCGTATGTCTGCAACGAATGCGGCGCCGAGTACAGCAAGTGGCAGGGCCAGTGCGGCGAATGCGGGGCCTGGAACACGCTGAGCCAGATCGTGCTGGAGAGCGCGGCGCCGGCCGGCAAGGGCAGCACCGCCGCGAACCGCCGTAGCGGCTGGGCCGGCGCGGTCGAAGCGCCGAAGGTCACCGCGCTCAAGGACGTGCAGCACGCCGAGCATGCGCGCGTATCGACCGGCATCGGCGAACTTGACCGGGTGCTCGGCGGCGGCCTGGTCGAGGGCGCGGTGGTGCTGGTTGGTGGCGATCCGGGTATCGGCAAGTCGACCCTGCTGCTGCAGGCGGTGGCGAAGATGGCGGCCGAGCTGCCGGTGTTGTACGTCACCGGCGAGGAGTCGCTGTCGCAGGTGGCCGGGCGCGCGGTGCGGCTGGAGCTGCCGCTGGACGGCATCAATGCGCTGTCGGAAACCGGCATCGAGCAGATCCTGCAGCATGCCAGCGTCGCGCGTCCGCGGTTGATCGTTGCCGACTCGGTGCAGACGCTGTGGAGCGAGTCGCTGACCGCTGCACCCGGTTCGGTCAGCCAGGTGCGCGAGAGCGCGGCGCGGCTGGTGCGCTACGCCAAGGAAACCGGCACCGCGGTGTTCCTGGTCGGCCACGTCACCAAGGAGGGTGGCATCGCCGGCCCGCGCGTGCTCGAACACATGGTCGATGCGGTGCTGTACTTCGAGGGCGACAGCGGCAGCCGCTTCCGCGTGCTGCGCGCGTTCAAGAATCGCTTCGGCGCGGTCAACGAGCTGGGCGTGTTCGCGATGGGCGAGAAAGGCCTGAAAGAGGTGGCCAACCCGTCGGCGATCTTCCTGTCCGGCGGCAGCACGCGCCAGCCCGGCAGCTGCGTGATGGTCACCCGCGAGGGCACCCGACCGCTGCTGGTGGAGGTGCAGGCACTGGTGGACGCCTCGCCGCTGTCCAATCCGCGCCGCGTCGCGGTCGGCCTGGAGCAGAACCGTCTGGCGATGCTGCTGGCGGTGCTGCACCGGCATGGCGGGGTGATGGTCGGCGACCAGGACGTCTTCATCAACGTGGTCGGCGGCATCCGCGTGCAGGAAACCGCGGCCGACCTGCCGGCCTTGCTGGCAGTGCTGTCGTCGCTGCGCGACCGGCCGTTGGCGGAGAAGACCATCGCGTTCGGCGAGGTTGGCCTCTCGGGTGAGATCCGCCCGGTGCCGAACGGCGAGGAGCGCCTGCGCGAGGCGGCCACGCATGGGTTCAGGCGCGCGATCGTGCCGAAGGCGAATGCGCCCAAGGCCGGCAGCGTCAAGGGCATGGAGGTGATCGCGGTGGAGCGCCTGTCGCAGGCGCTGGAGGCGGCCAGCGAGTAG	MAKASTKARTAYVCNECGAEYSKWQGQCGECGAWNTLSQIVLESAAPAGKGSTAANRRSGWAGAVEAPKVTALKDVQHAEHARVSTGIGELDRVLGGGLVEGAVVLVGGDPGIGKSTLLLQAVAKMAAELPVLYVTGEESLSQVAGRAVRLELPLDGINALSETGIEQILQHASVARPRLIVADSVQTLWSESLTAAPGSVSQVRESAARLVRYAKETGTAVFLVGHVTKEGGIAGPRVLEHMVDAVLYFEGDSGSRFRVLRAFKNRFGAVNELGVFAMGEKGLKEVANPSAIFLSGGSTRQPGSCVMVTREGTRPLLVEVQALVDASPLSNPRRVAVGLEQNRLAMLLAVLHRHGGVMVGDQDVFINVVGGIRVQETAADLPALLAVLSSLRDRPLAEKTIAFGEVGLSGEIRPVPNGEERLREAATHGFRRAIVPKANAPKAGSVKGMEVIAVERLSQALEAASE	PGPT0014905_1190	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014905-radA-K04485	NA	NA
BMS020_05106	384	yhaI_1	COG3152	Inner membrane protein YhaI	ATGGAATGGATGTTGATGCCGCTGAAGCGCTACGCCGACTTCAGTGGCCGCTCGCGCCGCAAGGAGTTCTGGATGTTCACGCTGCTGCAGGCGATCGTGTATGTCGCACTGTTCGTGCTGATGGCGATCGGCGGGGCGATGAGCAATGACGGCAAGCCGGGCGCGCTGGCGATCCTGGCGCTGGTGGTGATGGGCCTGTTCGCACTGGCGACGCTCGTGCCGGTCATCGCGGTTTCGGTGCGCCGCTTCCACGACCAGGGCAAGTCGGGCTGGTTCTATCTGCTCAGCTTCGTCCCGTTCGGCGGCCTGATCGTGACGGTCTTCATGTGCCTGCAGGGCCAGGCCGGTCCGAACCAGTACGGTCCCGACCCGAAGCAGGGCTGA	MEWMLMPLKRYADFSGRSRRKEFWMFTLLQAIVYVALFVLMAIGGAMSNDGKPGALAILALVVMGLFALATLVPVIAVSVRRFHDQGKSGWFYLLSFVPFGGLIVTVFMCLQGQAGPNQYGPDPKQG				NA	NA	NA	NA	NA
BMS020_05107	1851	htpG_3		Chaperone protein HtpG	ATGCAAGACTCCTCCGTCGAGGCCGCAGGCGCCTCGCAGATCCGCCGCGCCGGCGTCGACCTCAATGGTCTGATGTCCGTGCTCGGCAAGCATTTGTATTCCACGCCGATGGTGGCGCTGCGCGAGCTGGTGCAGAACGCACACGACTCGATCGTGCGACGCCGGCTCGAACAGCCCGACTGGCACGCTCCGGCGCGCATCGAGGTGCATGGCGATCTCGCTGCCGGCATCGTGCGCATCGTCGATACCGGTGCCGGCCTGACCCAGCAGGAAATCCACGACTACCTGGCCACGGTCGGGGTCGGCTATACCCGCGGGCTGCGCCAGGCCGGTGCCGACGAGGACGGCCTGATCGGCATGTTCGGGCTCGGCTTCCTGTCGGCGTTCGTGCTGGCGCGCAAGGTGACCGTGCGCACCACCTCCTACCAGGCGCCGACGCAGGGGCACTGCTACGTGTCCAGCAATGCCGAGCAGTACAGCGTGACGCCGATCGCGGCGCGTACGGTCGGCACCGAGGTCGAGCTGGAGCTGCACGACGATTTCCGCATGCTGGCCCAGGAAGGGCGGTTGCGCGACATCCTGGGCCGCTACTGCGCGCTGCTGCGCGAGCCGATCCATATCGGCGGCGACGCGCAGGCGATCAATCCCGAGCCGCCGCCGTGGCGCCGTGGCGAGGAGGCGGTGGCGCTGCATCCGGTGCAGGCGCGGCGCCGCGACCTGGAGTTCGCCGCGCGCTTCGAGCGCCACTTCGCGCCGTTGTGCGCGATGCCGCTGCGGCCGGACGGCGACAGCGATGCCATCGGCCTGTTGTGGGTGCAGGACGGCGCGACCTACGGCACCAGCGACAACCGCAACCTGTCGGTATTCCTGCGCGGCATGCTGCTCGACGACGATGCGCGCGACCTGCTGCCGCCGTGGGCGGGCTTCATCGGCGGGGTGATCGAATCCAGCCGGCTCACGCCGACCGCCAGCCGCGAGGACCTGCAGCGCGACGGTGCCTACACCGCCGTGCAGCACGCGCTGGGCGAGGCGCTGGTGCGCGGCCTGGCCGAGGTCGCGCGCAGCCAGCCGGAGGCCTGGCGGCGCGTGCTGGCGCGGCACAACGAGGCGCTGCTCGGTGCGGCCCTGTGTGACGAGCGCCTGTTCGACCTGCTGGTCGACCATGTGCGCGTGCCGACGTCGCAGGGCGACCTGCCGGCGCGCGATCTGCCCTCGCGTGGCGCGGTGCACGTGATCCTGGACAGCGAGAGCGGCTTCGAGGAGATGCTGTTCCGCGCGATGGGCGTACCGGTGGCCTACGGCAACCGCTACGCGGTGGTGCCGTTCCTGCGTCGCTGGTGCCAGGCGCGCGGTGTGCGCCTGGTCGAACTGGGCACCGAGCAGGGCAACCGCCAGCTGTTCCGGCTCGACACGCTGCCAGCCCCGCAGTTGGCCTGGCTGGAACAGCACCTGGGCGATGCCGAGACGCTGGTGGCCGCGCGCTTCGCGCCGGCCGAACTGCCGCTGGTGGTGGTGCCCGACCGCGAAGCCGAACTCAAGCGCCGGCTGGAGGACGACGAGAACGATAAGCGCGTCTCCACCGCGGCGCTGCGGCTGGCGCGGCAGTTCACCGCACGCATCGAGGCGCGGCAGCCGCGCCGGCTGTACGTCAACCTCGACAATCCGGCGGTGCAGGCGCTGCTGGCCGCTTGCGCCGATGGCAACCCGCAGGCCGAGACAGCCGCGCGGCTGCTGCGCGCGCTGAAGGTGATCGTGTCGGCGCAGTCGCGCGGCACTCACGATGCCGCCGCCGATCTCAATGCCGCATTCGCTGGTTTCGCCGACGCCGTGACCCGGCTGTTGGCGCGCTGA	MQDSSVEAAGASQIRRAGVDLNGLMSVLGKHLYSTPMVALRELVQNAHDSIVRRRLEQPDWHAPARIEVHGDLAAGIVRIVDTGAGLTQQEIHDYLATVGVGYTRGLRQAGADEDGLIGMFGLGFLSAFVLARKVTVRTTSYQAPTQGHCYVSSNAEQYSVTPIAARTVGTEVELELHDDFRMLAQEGRLRDILGRYCALLREPIHIGGDAQAINPEPPPWRRGEEAVALHPVQARRRDLEFAARFERHFAPLCAMPLRPDGDSDAIGLLWVQDGATYGTSDNRNLSVFLRGMLLDDDARDLLPPWAGFIGGVIESSRLTPTASREDLQRDGAYTAVQHALGEALVRGLAEVARSQPEAWRRVLARHNEALLGAALCDERLFDLLVDHVRVPTSQGDLPARDLPSRGAVHVILDSESGFEEMLFRAMGVPVAYGNRYAVVPFLRRWCQARGVRLVELGTEQGNRQLFRLDTLPAPQLAWLEQHLGDAETLVAARFAPAELPLVVVPDREAELKRRLEDDENDKRVSTAALRLARQFTARIEARQPRRLYVNLDNPAVQALLAACADGNPQAETAARLLRALKVIVSAQSRGTHDAAADLNAAFAGFADAVTRLLAR	PGPT0014640_3859	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-PR1_LIKE_PROTEINS,PGPT0014640-hptG-K04079	NA	NA
BMS020_05108	2298			hypothetical protein	ATGGATATCTGGAACTGGGTCGAGAAGCTGCAGGACGACCTGCGCGAAGCCGGGCAGCCGCAGAACGCGCAGCTGCTGAGCCGCTTCACCGATCATGTCAGCGACTTGGAGATCGCACGTGCCGAGGCGCTGCTGCCCGAAGCGCGCGCGCTCGGCAAAACCCTGCGCAATCCGTGGCTGGACGTGTTCGTCGGCCATTGGGAGATGCGCAACCGGGTCGGCAACCTGTGCGAGGGCGAGCGTGCGCTCGGCGATGCGGTGGCGCTGTTCGAGCGCGCGCACCGCGCCGACGCGGCCGAATGCCCGCAATCGGTGTGCGTGACGCAGGACCTGGCGGCCTGCTATGCCAACGTCGACGGCCCGGGCTGGGCCGACGAGCGCATCGAGGTCTGCGACGAGACCCTGGCGAAGATCAACCCGGGCTGGAGCTGCTTCCAGTGCGTGAGCTGCGAGCGCGCCGACGCGATGCAGGACGGTGGGCGCGGCGATGCGGCGCTGGACTACCTGCAGGCGCAGGCGCAGGCGATCCTTGCCCACGGCGGCAGCGTCTACGACGGCATCCCCGAGATGCGCATCAAGATCCTGCTCGACCTCGGCCGTGCCGAGGAGGCGCTCGCGCGGGTCGAACAGCGCGAAGCCGAGGTCGAAGGCGGGGAGTGGGCCAACTGCAGCCAGCCGCGGCAGCTGCAGAAGGCGCATGCGCTGGCCTTGCTCGGTCGCGACGATGCGGCGATGGAGGCGCTGCCGCCGTGGCGGCAGATCGCCCCCGGTTACCGGCGCACCTGGATGCGCGTGGTGGCGTTGCTGGTCGCGCGCGCGCCGGAGCGCAACAGCTGGGACCTGGGCAACCGGGTGCAGCAGACGCTGGAGCACTTCTCGCAGGCCGGCGCGCACCGGGTGGTGATCGAGCTGGCGGTGCCGGCGGTGGAGATGGCCTTGCAGCGCGGCGCGGTGTGGGTCGCCAGGCGCCATCTGGCGCTGGCGCGGCGCCACCTGCCGCAGCTGCGTCAGGACCTGGGCGCGGCGACGACGCTGGATGCGCTGGCCGCGGCGATCGATGCCGCGCCGGAGCAGGCGCCGTTGCCGGTGCCGGCCGACGCGCTGCTGGGCTGGCTGGACGCGCAGTCCGGCGAGGACAGCCCGCGCGATCCCGAACGCGAGGTGCAATGGCTGCTGCAGGCGCTGCAGCAGCGCCCGGACGATGCCGACCTGCTTGGCGTGACTGCCTCGGCGCTGGCCGCCTGCGCCGCCGACGATGAGGCCATCGCGCTGCTATGGGGCTATCTGGAGCGCCACGCCAGCGAGGAACAGCCGCTGGCCTACCGCCTGCTCGAACTGCTGCTGGCGCGCGACGACGACGCCGAGGTGCGGCGGCTGGCGCAGCTGTTCCGCGCACAGGTGCCGGTCACCGCGTGCTGGGCGGAGATGCAGCTGGCGCGCAAGAACGCTGACTGGCCGGCGCTGGAACAGGCCGCAGGCGCGTTGCTGGCGCTGTCGCCGGGGTCGCATGGCGCGCGCAGCCTGCTGGCGCGCACGCTGCGCGACCAGGGCCGCTTCACCGAGGCGGTGGCGTGTTACCGGCACCTGACCGAGGTGCTGGAAGAGCCGCGCGCGGCGCACTGGGACCTGATGACCGCGGCCAGTGCCGCCGGCGACTGGGCCAGCGTGCGCGCCGCGGCGGCAACGCTGGAGATGCCGGTCGATCCGGGCGAAGGCGTCATCGAGGAAGATTGGGGCTGGGTGATCGTGCGCTGCGTGGAGAACGGCGATCCGCTGGAGTTCTACGCGCGCCGCACCGGCCCGGTGACCGCGCGGATCGCCGAGAACGCGCCGGCCAACCGCAGCCAGCATGTCGGCGACTGGGTGGTGTTCGATGCCGAGCTGGTGCATCCGGCGCCGGAAGATGAGGAAGAGCGCAAGCGCTTCATCCCGACCTATGCGCTGGTGCATGTGCTGCAGTCGGGCGGTTTCGCGCGCAGCTGGCTGGTGGACGGTGCGCATCCCGGTGACGAGGCGTTCGCGGCATTGCGCGAGACCATCGAGGCACGCGGCTGGAAGCTGTGGGTGCACAGCCGCGAGGACTACCAGGTGACCGATCCGGACAGCGGCGAGGTGAGCCTGCCCGGCATCTACTTCACGGTGGCGCTGCCGCAGGACGTGCCGGCGCTGGAGCTGCACCAAGCGCTGGCGAGCGGCACCGCCGGCTGGACGCATCCGCTGTGCTGGCTGCGCCTGGCCGAAGCCTGCGGCCAGGACGACGAGGCGCAGATGGAGATCATCCGCCGCTACGGACTGTAG	MDIWNWVEKLQDDLREAGQPQNAQLLSRFTDHVSDLEIARAEALLPEARALGKTLRNPWLDVFVGHWEMRNRVGNLCEGERALGDAVALFERAHRADAAECPQSVCVTQDLAACYANVDGPGWADERIEVCDETLAKINPGWSCFQCVSCERADAMQDGGRGDAALDYLQAQAQAILAHGGSVYDGIPEMRIKILLDLGRAEEALARVEQREAEVEGGEWANCSQPRQLQKAHALALLGRDDAAMEALPPWRQIAPGYRRTWMRVVALLVARAPERNSWDLGNRVQQTLEHFSQAGAHRVVIELAVPAVEMALQRGAVWVARRHLALARRHLPQLRQDLGAATTLDALAAAIDAAPEQAPLPVPADALLGWLDAQSGEDSPRDPEREVQWLLQALQQRPDDADLLGVTASALAACAADDEAIALLWGYLERHASEEQPLAYRLLELLLARDDDAEVRRLAQLFRAQVPVTACWAEMQLARKNADWPALEQAAGALLALSPGSHGARSLLARTLRDQGRFTEAVACYRHLTEVLEEPRAAHWDLMTAASAAGDWASVRAAAATLEMPVDPGEGVIEEDWGWVIVRCVENGDPLEFYARRTGPVTARIAENAPANRSQHVGDWVVFDAELVHPAPEDEEERKRFIPTYALVHVLQSGGFARSWLVDGAHPGDEAFAALRETIEARGWKLWVHSREDYQVTDPDSGEVSLPGIYFTVALPQDVPALELHQALASGTAGWTHPLCWLRLAEACGQDDEAQMEIIRRYGL				NA	NA	NA	NA	NA
BMS020_05109	204			hypothetical protein	ATGATCCGTTACACCATTGCCGACATGACCTGCGGCAACTGCGTACGCCATATCACCCAGGCCGTGCACACGGTGGCACCCGATGCCCGGGTCGAGGCCGACCTGGCCCAGCATCAGCTGCGCATCGAAGGCGGCGCCGACGAGGCCGTGGTGCGCGCGGCGATCGTGGAGGCCGGTTACACGCCGGCACCGCTGGCTGGCTGA	MIRYTIADMTCGNCVRHITQAVHTVAPDARVEADLAQHQLRIEGGADEAVVRAAIVEAGYTPAPLAG	PGPT0004125_3707	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213	NA	NA
BMS020_05110	2511	actP_2		Copper-transporting P-type ATPase	ATGCCTGCATCCATCCCCACGCCGGAGCGCCCCGCGCGCGCGGCCGGCGCAACGTTGCGCCTGCCGGTCACCGGCATGACCTGCGCTTCGTGCGTGCGCCACGTCGAGAAGGCCATTGCCGCGGTGCCCGGCGTCGCGGCGGTGCAGGTCAACCTCGCCACCGGCGAGGCGGCGGTACAGGCCGGTGCGGCGCTGGATGCGGCCGCGGTGGTCGCCGCGGTCGAGCATGCCGGCTACGCGGTGCCGCTACGCACGTTGTCGCTGGGCGTGGACGGTATGACCTGCGCGTCCTGCGTGGCCCATGTCGAAAACGCGCTGCGCCGGGTGCCGGGCGTCGAGTCGGCCGTGGTCAATCTCGCCACCGGTATCGCGCAGGTCGGCCTGCGCGACGGCGTCGCCACGCCCGAGGCGCTGGCCGACGCGGTGCGCGCGGCGGGCTACACGCCGCGGCAACTGGCGCGCGATGGCGATGCCGCGCCGGGCCGGCCTGACGAGGCGCAGGCGGTCGCCGCACTGCGCCGCGCGCTGCTGATCGCGGCGGCACTGGCTGCGCCGGTGGTGGTGCTGGAGATGGGCGGGCACCTGCTGCCCGGGTTCCATCACTGGCTCGCGCAGACGCTTGGCGAGCAGCCCAGCCGGCTGCTGCAATGCGCGCTCGCGACGCTGGTGCTGGCGTGGCCGGGGCGCGGCTTCTTCATTCGCGGCCTGGCCTCGCTGCGCCATCGTGCGCCGGACATGAACGCGCTGGTCGCGGTCGGCGCCGGCGCGGCCTGGAGCTATTCGCTGGTCGCCACGTTCCTGCCGCGGGTGTTGCCCGAAGGCACCAACCATGTGTATTTCGAAGCCGCGGCGGTGATCGTGGTGCTGGTGCTGCTGGGGCGCTGGCTGGAGGCGCGCGCACGTGGTCACACCTCCGATGCGATCCGCCATCTGGTCGGGTTGCAACCGCGCGTGGCGCATGTGCAGCGCGGCGACGCCGTGGTCGAGGTGGCGCTGGCCGAGGTGATCGTCGGCGACGAGGTGCTGGTGCGCCCTGGCGAGCGCGTGCCGGTCGATGCGGACGTCATCGACGGGACGTCCTACGTCGACGAATCGATGCTCAGTGGCGAACCGGTGCCGGTGCACAAGCAGGCCGGCGCGCGCGTGGTCGGCGGCACCGTCAACGGCAACGGCGCGCTGCGGCTGCGCGCGACCGGCGTTGGCGCCGATACCGTGCTGGCGCAGATCGTGCGGATGGTCGAGCAGGCGCAGGGCAGCAAGCTGGCGATCCAGGCGCGGCTGGACCAGGTCACCGCCTGGTTCGTGCCGGCGGTGATGGCCGCCGCGCTGCTGACCTTCGTCGCCTGGCTGCTGTTCGGGCCCGCACCGGCGCTCGGCCTGGCGCTGGTCAATGCGGTGTCGGTGCTGATCATCGCCTGCCCGTGCGCGATGGGCCTGGCCACCCCGGTATCGATCATGGTCGGCACGGGGCGGGCGGCGCAGATGGGCGTGCTGTTCCGCCGCGGCGATGCGTTGCAGGCGCTGCGCGAGGTGCAGGTGGTCGCCTTCGACAAGACCGGCACGCTGACCCAGGGGCATCCGGTGCTGACCGGGCTGCAGCTGGCCGAGGGATTCGACGCCGCCGACGTGCTGGCCTTGGCCGCCGCGGTGGAGGCCGGGTCCGAACATCCGCTGGCACGGGCGATCGTCGCCGCGGCGCGCGCACGGGGGCTGGCGCTCGCGCCGGCCGACGGCTTCGTTGCCGATGCCGGCGAGGGCGTGCGGGCGCAGGTGGCCGGCCGGCCGGTCGTGCTCGGGACCGAGCGCTACCTGCGGCGACTGGGCATCGATGCCGGGGCACTCGCGGCGGCGGCCGAGGCCGCCAGCACGCAGGGCCAGGGCGTGCTGTTCATCGCGCTCGACGGGCGGCTGGCGGCGCTGGCCACCGTGGCCGATCCGCTCAAGCCGGGCGCGCGCGAGGCGGTGGATGCGCTGCACGCGCTCGGGCTGCGCGTGGCGATGGTCAGCGGCGACCGCCAGGCCACCGCCGAGGCGGTCGCGCGCAGGCTCGGCATCGACGAGGTGCGGGCCGACGTGCTGCCGGCGGGCAAGGTCGAGGCGCTGCGCCAGCTCGGCGCCGGCGGCCGCGGCATCGCCTTCGTCGGCGATGGCATCAACGACGCGCCGGCGCTGGCCCAGGCCGAAGTCGGCATCGCGATCGGCACCGGCACCGACATCGCGATCGAATCGGCCGACGTGGTGCTGATGGCCGGCGACCCGCGCGGCGTGGTCAACGCGATCACGGTGGCGCGCGCCACCTTGCGCAACATCCGCCAGAACCTGTTCTGGGCCTTCGCCTACAACGTCGCGCTGATTCCGTTGGCGGCCGGCGCGCTGTATCCGTTCACCGGCACGCTGCTGTCGCCGATGGCCGCGGCGGCGGCGATGGCGCTGTCGAGCGTGTTCGTGGTGGGCAATGCGCTGCGGCTGCGACGCCTGCGCCCGGAACTGATCGCGCCGGCCGTGGTCTGA	MPASIPTPERPARAAGATLRLPVTGMTCASCVRHVEKAIAAVPGVAAVQVNLATGEAAVQAGAALDAAAVVAAVEHAGYAVPLRTLSLGVDGMTCASCVAHVENALRRVPGVESAVVNLATGIAQVGLRDGVATPEALADAVRAAGYTPRQLARDGDAAPGRPDEAQAVAALRRALLIAAALAAPVVVLEMGGHLLPGFHHWLAQTLGEQPSRLLQCALATLVLAWPGRGFFIRGLASLRHRAPDMNALVAVGAGAAWSYSLVATFLPRVLPEGTNHVYFEAAAVIVVLVLLGRWLEARARGHTSDAIRHLVGLQPRVAHVQRGDAVVEVALAEVIVGDEVLVRPGERVPVDADVIDGTSYVDESMLSGEPVPVHKQAGARVVGGTVNGNGALRLRATGVGADTVLAQIVRMVEQAQGSKLAIQARLDQVTAWFVPAVMAAALLTFVAWLLFGPAPALGLALVNAVSVLIIACPCAMGLATPVSIMVGTGRAAQMGVLFRRGDALQALREVQVVAFDKTGTLTQGHPVLTGLQLAEGFDAADVLALAAAVEAGSEHPLARAIVAAARARGLALAPADGFVADAGEGVRAQVAGRPVVLGTERYLRRLGIDAGALAAAAEAASTQGQGVLFIALDGRLAALATVADPLKPGAREAVDALHALGLRVAMVSGDRQATAEAVARRLGIDEVRADVLPAGKVEALRQLGAGGRGIAFVGDGINDAPALAQAEVGIAIGTGTDIAIESADVVLMAGDPRGVVNAITVARATLRNIRQNLFWAFAYNVALIPLAAGALYPFTGTLLSPMAAAAAMALSSVFVVGNALRLRRLRPELIAPAVV	PGPT0004090_2144	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
BMS020_05111	489	hmrR		HTH-type transcriptional regulator HmrR	ATGAACATCGGCGAAGCGGCAGGGCGTTCGGGCGTGTCGGCCAAGATGATCCGCTACTACGAACAGTCCGGCCTGATCCCCGCCGCGCACCGCCGTTCCTCCGGCTATCGCGAATACGGCGAGGACGACGTGCACCGCCTGCGCTTCGTGCGTCGCGCGCGCGACCTGGGCTTCAGCGTCGAACAGATCGGCGAGCTGCTGTCCTTGTGGGGCGACCATGGCCGCGCCAGCGCCGATGTGCATGCGGTGACGTTGGAGCACATCGCCCAGCTGCGCACCAAGGCGGCGGAGATCCAGGGCATGATCGACGTGCTGCAGCGCCTGGCCGACGGCTGCCATCACGACGACAGCCCGCAGTGCCCGATCCTCGATGAACTGGCCGCCGAGCCCCGTCCAAGCTGTGCCAGCGTCGCCCCGGTGGCGCATGCGCACCGCTTCGGTCGGCCCGGCGAGCGAGCGCCACGGCGGGCCGCCGAACGCCGCGGCTGA	MNIGEAAGRSGVSAKMIRYYEQSGLIPAAHRRSSGYREYGEDDVHRLRFVRRARDLGFSVEQIGELLSLWGDHGRASADVHAVTLEHIAQLRTKAAEIQGMIDVLQRLADGCHHDDSPQCPILDELAAEPRPSCASVAPVAHAHRFGRPGERAPRRAAERRG	PGPT0004135_131	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
BMS020_05112	798	ypjD_2	COG4137	Inner membrane protein YpjD	ATGACAATCGTTCTCATCGCCATCGCCCTGTACCTGCTGGCGGCCGGACTGCTGGTCGGCAACGCCGCCCGGGACGACGGCAGGCCGCACCATGGCTGGCAGATCCCGGCGCTGGGCGCCATCGTGCTGCACGCCGCCTACCACGTGACGGTGGCCACGCGCATCGCCGGCGGGCCTGACATGCATTTCTTCGCCGCGCTGTCGCTGGTGGCGCTGGGCATGGCGGCACTGACCTCGCTGGTCGGCGCCCGCGGCAAGATGGCCGCGCTGGGCGTGGTGGTGTTCCCGCTGGCGGCGCTGCTGCTGGGCTGCTACCACGGCCATGGGCACGCGCCGAGCGCCGCGCTCGGCTGGCGACTGGAAGTGCACGCCTGGCTGGCGCTGCTGGCCTACGCCACGCTCGGCATCGCCGCACTGCTGGCGATCATGTTGTGGCTGCAGGAGCGCGCGCTGCGCCAACGCCACTTCAACAGCTGGCTGCGTGCGCTGCCGCCGCTGACCGAGCTGGAAACCCTGCTGTTCCGCACGATCACCGCCGGCTTCGGCCTGCTGACCCTGACCCTGTTGACCGGGCTGCTGTTCGTCGAGGACTTCCTGGCCCAGCGGCTGCTGCACAAGACCGTGCTGAGCGTGCTGTCGTGGCTGGTGTTCGGCGCGCTGCTGGTCGGGCGCTGGCGCAACGGCTGGCGCGGCGGCAAGGCGGTGCACTGGACGCTGACCGCGATGGCGCTGCTGGTGCTGGCGTTCTTCGGCAGCAAGTTCGTGATCGAACTGGTACTGGGCGCCCCGCAGGGCTAA	MTIVLIAIALYLLAAGLLVGNAARDDGRPHHGWQIPALGAIVLHAAYHVTVATRIAGGPDMHFFAALSLVALGMAALTSLVGARGKMAALGVVVFPLAALLLGCYHGHGHAPSAALGWRLEVHAWLALLAYATLGIAALLAIMLWLQERALRQRHFNSWLRALPPLTELETLLFRTITAGFGLLTLTLLTGLLFVEDFLAQRLLHKTVLSVLSWLVFGALLVGRWRNGWRGGKAVHWTLTAMALLVLAFFGSKFVIELVLGAPQG				NA	NA	NA	NA	NA
BMS020_05113	1380	ffh_2	COG0541	Signal recognition particle protein	ATGTTCGAATCCCTCACCCAGCGTCTTTCCGGCACCATCGAGCGCCTGCGCGGCCGTGGCCGCCTGACCGAGGAGAACATCCGCGAGGCCACCCGCGAGGTGCGCATCGCGCTGCTGGAGGCCGACGTCGCGCTGCCGGTGGTGCAGGCGCTGATCGAGCGGATCAAGGTGCGTGCGGTCGGCCAGGAAGTGCTGAAGTCGCTGACCCCGGGCCAGGCGCTGATCAAGGTCGTGCGCGACGAGCTGACCGCGGTGATGGGCGCCTCGGCGGCCGACCTGAACCTCAACGTGCCGGCGCCGGCGATCTTCCTGATGGCCGGCCTGCAGGGCGCGGGCAAGACCACCACGGTCGGCAAGCTGGCCAAGCACCTGAAGGAAAAACGCAAGAAGAAGGTGATGGTGGTCTCGGCCGACGTCTACCGCCCGGCCGCGATCGAGCAGCTCAAGACCCTGGCCGAGCAGGTCGGGGTGCTGTTCTTCCCGTCGGAGGCGACCCAGAAGCCGGTCGACATCGTCAAGGCGGCGATCGCCGACGCGCGCAAGTCGTTCGTCGACGTGCTGCTGGTCGATACCGCCGGCCGCCTCGCCATCGACGAGGCGATGATGGCCGAGATCAAGGCGCTGCACGCCGCGGTCAACCCGGCCGAGACGCTGTTCGTGGTCGACTCGATGACCGGCCAGGACGCTGCCAACACCGCCAAGGCGTTCGGCGAGGCGCTGCCGCTGACCGGCGTGGTGCTGACCAAGACCGACGGCGACGCCCGCGGCGGCGCCGCGCTGAGCGTGCGCTACATCACCGGCAAGCCGATCAAGTTCGTCGGTACCGGCGAAAAGGTCGACGGCCTGGACGTGTTCCATCCGGACCGCGTCGCCAGCCGCATCCTCGACATGGGCGACGTGCTGTCGCTGGTCGAGCAGGTACAGCAGACGGTGGACCAGGAAAAGGCCGCCAAGCTCGCTGCCAAGGTCGCCAAGGGCAAGAAGTTCGACCTCAACGACATGAAGGAACAGCTCGAGCAGATGCAGAACATGGGCGGCATCGGCGGGCTGATGGACAAGCTGCCGGGCCTGGGCCAGATCCCCGAGCACCTGAAGCAGCAGGTGACCCAGGGCAAGGAAGTGCCGCGGATGATCGCGATCATCAACTCGATGACCAAGCGCGAGCGCCGCAACCCGGCTCTGCTGAACGGGTCGCGCCGCGCCCGCATCGCCAAGGGCGCCGGCCTGCAGCCGTCCGACGTCAACAAGCTGATGAAGCAGTACCAGCAGATGGAGAAGATGATGTCCAAGCTCTCCGGCGGCGGCATGAAGGGCCTGATGCGCAACATGAAGGGCATGATGGGTGCGATGGGCGGCCGCGGCGGACTGCCGTTCCGCTGA	MFESLTQRLSGTIERLRGRGRLTEENIREATREVRIALLEADVALPVVQALIERIKVRAVGQEVLKSLTPGQALIKVVRDELTAVMGASAADLNLNVPAPAIFLMAGLQGAGKTTTVGKLAKHLKEKRKKKVMVVSADVYRPAAIEQLKTLAEQVGVLFFPSEATQKPVDIVKAAIADARKSFVDVLLVDTAGRLAIDEAMMAEIKALHAAVNPAETLFVVDSMTGQDAANTAKAFGEALPLTGVVLTKTDGDARGGAALSVRYITGKPIKFVGTGEKVDGLDVFHPDRVASRILDMGDVLSLVEQVQQTVDQEKAAKLAAKVAKGKKFDLNDMKEQLEQMQNMGGIGGLMDKLPGLGQIPEHLKQQVTQGKEVPRMIAIINSMTKRERRNPALLNGSRRARIAKGAGLQPSDVNKLMKQYQQMEKMMSKLSGGGMKGLMRNMKGMMGAMGGRGGLPFR	PGPT0025750_3057	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025750-ffh-K03106	NA	NA
BMS020_05114	1065	pnoA_2		Nitronate monooxygenase	ATGAATTCCTCCATCCAGCATCGCGTCACCAGCTTCTGCGCACGCTTCGGCCTGCGCCTGCCGATCCTGCTCGGGCCGATGGCGGGCGCCTGTCCGGTGGCGCTGTCGGCGGCAGTTGCCAATGCCGGCGGCATGGGCGCGATGGGCGCGGTGCTGTCGCCGGTGGAGCAGATCAGCAGCTGGATGGCTGAATTCCGTGCGGCCAGCAGCGGCCCGGCGCAGATCAACCTGTGGGTGCCCGATCCGCCGCCGCAACGCGACGCCACCGCCGAGGCGGCGACGCGCGCGTTCCTGGCGCACTGGGGGCCGCAGGTGCCGGCCGACGCCGGCGATGCCGGCCCGGCCGATTTCGACGCGCAGTTCGAGGCGCTGCTGGCGGCCCGGCCGGCGGTTGCTTCGTCGATCATGGGGCTGTTCCGGCCGGAGCAGGTTGCGCGGCTGAAGCAGGCCGGCATCGCCTGGTTCGCCTGCGCGACCACGCTGGCCGAAGCGCTCGCGGCCGAGCAGGCCGGTGCCGATGCGGTGGTCGCGCAGGGCGCCGAAGCTGGCGGTCACCGCGGCGCGTTCGATGCGGCGCGTGCCGAACAGCAGATGGTCGGGCTGTTCGCGCTGCTGCCCCGGCTCGCCGACCGGCTGCAGGTGCCCGTGATCGCTGCCGGCGGCATCGGCGATGGGCGCGGCATCGCCGCAGCGCTGATGCTTGGCGCGTCGGCGGTGCAGGTCGGTACCGCGCTGCTGCGCACGCCCGAGGCCGGCATCGCCAATGCCTGGGCCGATGGCCTGGCCGTCGCCGAGCCCGAGCACGCGCGGCCGACGCGTGCGTTCAGTGGCCGGCTCGGGCGCGCGCTGGCCACGCACTATGTGCTGGCGGCCGAAACCGGACCCGCGCCGCGGCCGTACCCGGTGCAGCGCGGGTTGACTGCACCGATGCGTCAGGCCGCGACCCGCGCCAACCGCCTCGACGCGATGCAGGCCTGGGCCGGGCAGTCGGCGTGGATGGCGCCGTCGCGGCCGGCCGGCGAACTGCTCGGCGCGTGGTGGGCGCAGGCCGGGGCGCTGTTGTGA	MNSSIQHRVTSFCARFGLRLPILLGPMAGACPVALSAAVANAGGMGAMGAVLSPVEQISSWMAEFRAASSGPAQINLWVPDPPPQRDATAEAATRAFLAHWGPQVPADAGDAGPADFDAQFEALLAARPAVASSIMGLFRPEQVARLKQAGIAWFACATTLAEALAAEQAGADAVVAQGAEAGGHRGAFDAARAEQQMVGLFALLPRLADRLQVPVIAAGGIGDGRGIAAALMLGASAVQVGTALLRTPEAGIANAWADGLAVAEPEHARPTRAFSGRLGRALATHYVLAAETGPAPRPYPVQRGLTAPMRQAATRANRLDAMQAWAGQSAWMAPSRPAGELLGAWWAQAGALL	PGPT0006800_1790	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
BMS020_05115	801			hypothetical protein	GTGACCAGCCTGCTCCACTGCAACGGCGCGGTGGCCGACACGGCGGCGCTGGCGGCGCTGGCGCAGGTCAATTACGGCCACTTCACTTCGCTGCAGCTGCGCGGCGGGCGCGCCCGTGGGCTCGATCTGCACCTGCAGCGGCTGCAGCATGCCACCCAGGCGCTGTTCGCCGCGGCACTGGAGCCGGAGCGGCTGCGCGCCTGGCTGCGCCTGGCCCTGGCCGACTTCGGCAGTGGCGATGCGTCGCTGCGGATCACCGTGTTCGCGCGCGACTTCGATTTCCGCGATCCGCTGCGCGTGGTCGTTCCCGACGTGCTGGTGGCGTTGTCGCCGCCGTCGACGATCGCCGGCGCGCCGCTGCGGGTGCTGCCGGTACACGCTCTGCGCGAGTTCGCGGAGTTCAAGCATGTCGGAACATTTCCGCTGTTCCAGCACCGGCGGCTGGCGCGCGCGGCCGGTTACGACGACGTACTGCTGGTGTCGCCGGTCGACGGGCGCATCGCCGAGGGCGCGGTCTGGAACCTGGGGCTTTGGGACGGGCAGGGCATGACCTGGCCGGACGGCCCGGCGCTGGCCGGGACCCAGCAGCGTCTGTTGCAGGACGGGCTGGACGCGCTGGGCGTGCCGCAGCGCGTTGCACCGGTGCGGCTTGGGGAGCTGGGTGGGTTCCAGGCGGCGTTCGCCTGCAATTCCCGGGGGCAGCAGGCGTTGCGTGCGATCGGCGAACATGAATTCGCGCAGACGGGACTGCCGGCGGTGCTGGAGCAGGCCCTGCAGACCCGCCCATGGCAGGCGCCCTGA	MTSLLHCNGAVADTAALAALAQVNYGHFTSLQLRGGRARGLDLHLQRLQHATQALFAAALEPERLRAWLRLALADFGSGDASLRITVFARDFDFRDPLRVVVPDVLVALSPPSTIAGAPLRVLPVHALREFAEFKHVGTFPLFQHRRLARAAGYDDVLLVSPVDGRIAEGAVWNLGLWDGQGMTWPDGPALAGTQQRLLQDGLDALGVPQRVAPVRLGELGGFQAAFACNSRGQQALRAIGEHEFAQTGLPAVLEQALQTRPWQAP	PGPT0008020_1804	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008020-pabC-K02619	NA	NA
BMS020_05116	261	rpsP_2	COG0228	30S ribosomal protein S16	ATGGTCAAGATCCGACTGACCCGCGGCGGCGCCAAGAAGCGTCCGTTCTACCACATCATCGTCACCGACGTGCGCAGCGCGCGCGACGGCCGCAACATCGAGCGCGTGGGCTACTACAACCCGGTCGCCCAGGGCGGCGAGCAGCGCATCGTGCTGGACCTGGCCCGTGTCGACCATTGGGTCAAGAACGGCGCCCAGCTGACCGACAAGGTCCGCAACCTGGTCAAGGAAGCGGCCAAGGCCCAGGCCGTCGCGGCCTGA	MVKIRLTRGGAKKRPFYHIIVTDVRSARDGRNIERVGYYNPVAQGGEQRIVLDLARVDHWVKNGAQLTDKVRNLVKEAAKAQAVAA				NA	NA	NA	NA	NA
BMS020_05117	513	rimM_2	COG0806	Ribosome maturation factor RimM	ATGAAGGATACCGAGCGCCGCATCCTGCTGGGCAGGATCATCGGCGCTTTTGGCGTGCGTGGCGAGCTCAAGCTCGAGTCCTGGACCGAGCCGCGGCTGGCGATCTTCGCCTATCAGCCGTGGATCCTGCGCGCACCAAACGGGCAGGAGACCACCCTGGCGGGCGCGCGTGGCCGCGATTCCGGCAAGCACCTGGTGGCGACGTTCCCCGGCATCGACGACCGTACCGTGGTCGAGGCGATGCGCGGAACCGAGATCTACGTGGCGCGCAGCGCCTTGCCGCCGCCCAAGCCCGACGAATACTACTGGGTCGACCTGGAAGGGTTGGACGTGGCCACCGTCGACGGTGTCGCGCTCGGCCATGTCTCGCACCTGTTCTCGACCGGCGCCAACGACGTGCTGGTGGTGCGCGGTGACCGCGAGCGGATGATTCCGTTCGTGCGCGGCGACTACGTCCAGTCCATCGACTTCGAGCGCAACCTGGTCGTGGTCGACTGGGACCCCGAATTCTGA	MKDTERRILLGRIIGAFGVRGELKLESWTEPRLAIFAYQPWILRAPNGQETTLAGARGRDSGKHLVATFPGIDDRTVVEAMRGTEIYVARSALPPPKPDEYYWVDLEGLDVATVDGVALGHVSHLFSTGANDVLVVRGDRERMIPFVRGDYVQSIDFERNLVVVDWDPEF				NA	NA	NA	NA	NA
BMS020_05118	759	trmD_2	COG0336	tRNA (guanine-N(1)-)-methyltransferase	ATGCGTATCGACGTCATCACCCTGTTTCCGGACTTCATCGCGCAGTCGGCCGCGCTGGGCGTGGTCGGGCGCGCGCAGGAGCGCGGTCTGCTCGACCTGCGCGGCTGGAACCCGCGCGACTATGCCGAAGGCAACTACCGTCGCGTGGACGATCGCCCGTTCGGCGGCGGCCCGGGCATGGTGATGCTGATCGAGCCGTTGCGCGCGGCATTGGCGGCCGCGCGCGCCGCCGACCCTGCGCCGGCGCCGGTGATCTACCTGAGCCCGCAGGGGCGTCCGCTGACCCAGGCGCGGGTGCGCGAACTGGCGGCGTTGCCACGGATGATCCTGCTGTGCGGGCGCTACGAGGGCGTGGACGAGCGTTTCCTGGCGGCCGAGGTCGACGAGGAGATCTCGCTCGGCGACTACGTGCTGTCCGGCGGCGAACTGGGCGCGGCGGTGATCGTCGATGCGGTCACGCGGGTGCAGGAGGGTGCGCTCGGCGATGCCGAATCGGCGGTGCAGGACAGTTTCGAGGGTCCGGAGCGGCTGCTCGACTGTCCGCACTACAGCCACCCGGCCGCACATGCGCTGGGGGAGGTGCCGGAGGTGCTGCGCTCGGGCAACCATGCGGCGATCGCCCGTTGGCGCCGGCAGCAGTCGCTGGTGCGGACCTGGCAGCGGCGTCCGGACCTGATCGATCGCGCCACGCTGTCCAAGAGCGACCGCGCGCTGCTGGATGCGGCGCTGGCCGCCCTGGCGGGGGAAGGTGGGGCCTGA	MRIDVITLFPDFIAQSAALGVVGRAQERGLLDLRGWNPRDYAEGNYRRVDDRPFGGGPGMVMLIEPLRAALAAARAADPAPAPVIYLSPQGRPLTQARVRELAALPRMILLCGRYEGVDERFLAAEVDEEISLGDYVLSGGELGAAVIVDAVTRVQEGALGDAESAVQDSFEGPERLLDCPHYSHPAAHALGEVPEVLRSGNHAAIARWRRQQSLVRTWQRRPDLIDRATLSKSDRALLDAALAALAGEGGA	PGPT0007595_17	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
BMS020_05119	405	rplS_2	COG0335	50S ribosomal protein L19	ATGAGCAAGCTGAACAAGTCCATCGTCGCGGAATTCGAATCCGCCCAGATCACCCGCGAACTGCCGCAGTTCAGCCAGGGCGACACCGTCGTGGTGAACGTCAAGGTCAAGGAAGGCAACCGCGAGCGCGTGCAGGCCTACGAAGGCGTCGTGATCGGCACCAAGAACGCCGGCCTGAACTCCTCGTTCACCGTCCGCAAGATCTCGCACGGCTACGGCGTCGAGCGCGTGTTCCAGACCCACAGCGCCACCATCGACTCGGTCGAAGTGAAGCGCCGCGGTAAGGTCCGCGCCGGCAAGCTGTACTACCTGCGTGGCCTGGAAGGCAAGGCTGCCCGCATCAAGGAAGACCTGGCCGCCGTCGCCAAGGCCAAGGCCGAGAAGGCCGCCGCCGCCGCCGAGTAA	MSKLNKSIVAEFESAQITRELPQFSQGDTVVVNVKVKEGNRERVQAYEGVVIGTKNAGLNSSFTVRKISHGYGVERVFQTHSATIDSVEVKRRGKVRAGKLYYLRGLEGKAARIKEDLAAVAKAKAEKAAAAAE				NA	NA	NA	NA	NA
BMS020_05120	1452	mepA_2		Multidrug export protein MepA	ATGCCCCGTCCCAACCTCGTCGAAGGTCCGATCGGAAAAAGCCTGCTGCTGTTCGCGCTGCCGATCATGGCGGGCAACATCGCGCAATCGCTCAACGGCTCGATCAATTCGGTGTGGATCGGGCGCTATCTCGGCGAAGCGGCGCTGACCGCGGCGGCCAACGCCAACAACATCATGTTCTTCCTGATCGGCTCGGTGTTCGGCATCGGCATGGCCGCCACCATCCTGATCGGCCAGGCAATCGGCGCCGGCAACACCGCCCAGGCGCGCCGGGTGATGGGCACCAGCGCCACCTTCTTCGGTGGCATCTCGGTGCTGATCGCGGTGTGCGGGGTATGGCTGGCGCGGCACCTGCTCGCCTGGATGGGCACGCCGGTCGAATCACTGGGACTGGCGGTGGACTACCTGCGGGTGATCTTCCTGGCGATGCCGCTGCTGTACCTGTTCGCATTCCTGTCGGCGGCGCTGCGCGGCGCCGGCGATTCGCGCACGCCGTTCCGCTTCCTGCTGCTGTCGGTGGCGCTGGACATCGTGCTCAACCCGGTGCTGCTGTTCGGCCTCGGCCCGTTCCCGGCGCTGGGCATCGCCGGCGCCGCGTGGGCCACGCTGTGTGCGCAGGCGATCGCGCTGACCGGCCTGCTGCTGCACATGCGACGCAAGCGCCATGTGCTGTGGCTGGGCCGGCGCGACGCCGCGCTGTTCCTGCTCGACCTGCCGATCCTGCGCGCGCTGATCATCAAGGGCGTGCCGATGGGCCTGCAGATGGTGCTGATCTCGCTGGCGATGATCGCGATGATGAGCATGGTCAACGGCTTCGGCACCGAGACCGCGGCCGGCTACGGCGCCGCGCTGCAGCTGTGGACCTACGTGCAGATGCCGGCGATGGCGATCGGCGCAGCCTGCTCGGCAATGGCCGCGCAGAACATCGGCGCGCGCCGCTGGGACCGGGTGGAGGCCACCACCCGCACCGGCGTGCTCGCCAACTTCCTGTTGACCGGCGCGCTGATCGTGCCGCTGATCGTGCTCGACCAGTGGACGCTGGCGCTGTTCCTGCCCGCCGACAGCGAGGCGCTGCAGATCGCCCGCCACCTCAACCACATCGCGATCTGGTCGTTCCTCCTGTTCGGCGTGACCTTCGTGGTCTCCGGCGTGGTCCGCGCCACCGGCGCGGTGATCCCGCCGCTGGTGATCCTCGGCCTGGCGTTGTGGGGCGTGCGCGTACCGCTCGCCCAGCTGTTGATGCCGGCATGGGGCGCCGATGCGGTGTGGTGGAGCTTCCCGGCCAGCTCGCTGGTGGCGATGCTGCTGTCGCTGGCCTACTACCGCTGGGGAGGTTGGCGTCGGGCGCACATGCTGGCAGCCTCCGAACGCGAACTGGCGGTGCCGGCGGAAGTGCCGGCCGCGCCGCCGGCGCCGGTGGCCGACATCGCCGACGGCGACAACGCGCGCTGA	MPRPNLVEGPIGKSLLLFALPIMAGNIAQSLNGSINSVWIGRYLGEAALTAAANANNIMFFLIGSVFGIGMAATILIGQAIGAGNTAQARRVMGTSATFFGGISVLIAVCGVWLARHLLAWMGTPVESLGLAVDYLRVIFLAMPLLYLFAFLSAALRGAGDSRTPFRFLLLSVALDIVLNPVLLFGLGPFPALGIAGAAWATLCAQAIALTGLLLHMRRKRHVLWLGRRDAALFLLDLPILRALIIKGVPMGLQMVLISLAMIAMMSMVNGFGTETAAGYGAALQLWTYVQMPAMAIGAACSAMAAQNIGARRWDRVEATTRTGVLANFLLTGALIVPLIVLDQWTLALFLPADSEALQIARHLNHIAIWSFLLFGVTFVVSGVVRATGAVIPPLVILGLALWGVRVPLAQLLMPAWGADAVWWSFPASSLVAMLLSLAYYRWGGWRRAHMLAASERELAVPAEVPAAPPAPVADIADGDNAR				NA	NA	NA	NA	NA
BMS020_05121	279			hypothetical protein	ATGTCGTTGAATGCAAAGGAATTGTTGTTGGGACTGGTGGCGCTGGCGATGGCCGGCTGCGCCAGCAATGCGCGGCTGATGGATGCGCAGGTACGGCCGGCGGATCGCAGCGACTGCGCGCTGCGCTCCAGCGCGCTCAACCGGGCGCCCAGCGGCTCGGCCAGCGTGCAGGACAGCCGCTGCAGCGCGCCCGACGATGGCCATGACGGCCTGTACTGGTCCAGCAGCAGTGGTGGTGAAGCGATGAAGGCTGATTTCAGTGGGCGGCATGACAAATGA	MSLNAKELLLGLVALAMAGCASNARLMDAQVRPADRSDCALRSSALNRAPSGSASVQDSRCSAPDDGHDGLYWSSSSGGEAMKADFSGRHDK				NA	NA	NA	NA	NA
BMS020_05122	411	hslR_2	COG1188	Heat shock protein 15	ATGACAAATGAGCAGCAGGCCGCGCCGGCCGCGGTGCGGCTGGATGTGTGGCTGTGGGCGGCGCGGTTCTTCAAGACGCGTAGCCTGAGCAAGCAGGCGATCGAGACCGGCAAGGTCGACGTGGCGGGGCAGCGCCCCAAGTCCTCGCGCGCGGTGCGCGTGGGTGAGCAGCTGCGCGTGCAGCGCGGCGATGAAGTGTTCGAGATCGAGGTGCGCGGGCTCAGCGAGCAGCGCGGCCCGGCGCCGGTGGCACAGCAGCTGTACCTGGAATCGCCGGCCTCGATCGAGGCCCGCGCGCAGGTGCGTGCACTGCGGTTGGCGGCGCGCGACGGCTATCAGGCGCCGGAGCATCGGCCCGACAAACGGGCGCGGCGGTTGATCCGCGCGCTGGGCGATATCGACGCGCTGTAG	MTNEQQAAPAAVRLDVWLWAARFFKTRSLSKQAIETGKVDVAGQRPKSSRAVRVGEQLRVQRGDEVFEIEVRGLSEQRGPAPVAQQLYLESPASIEARAQVRALRLAARDGYQAPEHRPDKRARRLIRALGDIDAL	PGPT0014620_696	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014620-hslR|yrfH-K04762	NA	NA
BMS020_05123	2199	katG_2	COG0376	Catalase-peroxidase	ATGAGCACGCCAAGCGAACACGCCACCCCTGCCCCGATCGACACGCCCACGCCGGGCGCAGCCAAGTGCCCGTTCCACCAGGCGCCGCCGCAGATCGCCGGCGCCGGCACCAATAACCGCGACTGGTGGCCGAACCAGCTGCGCGTGGACCTGCTGAACCAGCATTCCAACCGCTCCAATCCGCTCGGCGAGGACTTCGACTACCGCAAGGCCTTCAAGGGCATCGACTACAGCGCGCTGAAAGCCGACCTGCGCGCGGTGCTGGTCGACTCGCAGGCGTGGTGGCCGGCCGACTGGGGCAACTACGCCGGCCTGTTCATCCGCATGGCCTGGCATAGCGCCGGCACCTACCGCATGGTCGACGGCCGCGGCGGCGCCGGGCGCGGCCAGCAGCGATTCGCCCCGCTCAATGCCTGGCCGGACAACGTCAGCCTGGACAAGGCGCGCCGCCTGCTGTGGCCGGTGAAGCAGAAGTACGGCCAGCAGGTGTCGTGGGCCGACCTGATGGTGCTGGCCGGCAACGTGGCGCTGGAGAACGCCGGCTTCCGCACCTTCGGCTTCGGCGGCGGGCGCGAGGACGTGTGGGAGCCGGACCTGGACGTGAACTGGGGCGACGAGAAGACCTGGCTGGCCCATCGCAATCCGGAAAGCCTGGCCAGCAACCCGCTCGCCGCCACCGAGATGGGCCTGATCTACGTCAATCCGGAAGGCCCGAACGCCAGCGGCGACCCGGCCTCGGCGGCACCGGCGATCCGCGCCACCTTCGGCAACATGGCGATGGACGACGAGGAGATCGTCGCGCTGATCGCCGGCGGCCATACCCTCGGCAAGACCCACGGCGCCGCCGCGGCCGACAACGTCGGCGTCGATCCGGAAGCGGCCGACCTGGAAGCGCAGGGTTTTGGCTGGACCAGCCGCCACGGCAGTGGCGTCGGTGCCGATGCGATCACCTCCGGGCTGGAGGTGGTGTGGAGCCAGACCCCGACGCAGTGGAGCAACTACTTCTTCGAGAACCTGTTCAAGTACGAGTGGGTGCAGACCCGCAGCCCGGCCGGTGCGATCCAGTTCGAGGCCAAGGACGCGCCGGAGATCATCCCCGACCCGTTCGACCCGGCCAAGAAGCGCAAGCCGACCATGCTGGTCACCGACCTGACGCTGCGCTTCGATCCGGAGTTCGAGAAGATCTCGCGGCGTTTCCTCAACGACCCGCAGGCGTTCAACGAAGCCTTCGCCCGCGCCTGGTTCAAGCTGACCCACCGCGACATGGGCCCGAAGGCGCGTTACCTCGGCCCGGAAGTGCCGAAGGAAGACCTGATCTGGCAGGACCCGCTGCCGGCGCCAACCCACACCCCGAGCCCGACCGACATCGCCGAGCTGAAGGGCCAGATCGCTGCGGCCGGGCTGTCGGTCGGCGAACTGGTGACGGTGGCCTGGGCCTCGGCCTCGACCTTCCGCGGCGGCGACAAGCGCGGCGGTGCCAACGGCGCGCGGCTGGCGCTGGCGCCGCAGAAGGACTGGCCGGTCAATGCCGGTGCCATCGCCACGCTGGGCAAGCTGCAGGCGATCCAGCAGGCGTCGGGCAAGGCCTCGCTGGCCGACGTGATCGTGCTGGCCGGCGTGGTCGGCATCGAACAGGCCGCCGCGGCCGCCGGCGTGGCGGTGCAGGTGCCGTTCGTGCCGGGTCGGGTCGATGCCAGCGCGGAGCAGACCGATGCCGCCTCGTTCGACATGCTCGAACCGATCGCCGACGGCTTCCGCAACTACCGCCGCCTGCACGGCGGGCCGAGCACCGAGACGCTGCTGATCGACAAGGCCCAGCAGCTGACCCTGACCGCGCCGGAACTGACCGTGCTGATCGGCGGCCTGCGCGTGCTCGGTGCCAACTTCGACGGCAGCGCGCATGGCGTGCTGACCGACCGGGTCGGTGTGCTCAGCAACGACTTCTTCGTCAACCTGCTGGACATGCGCACCGCGTGGAAGGCCACCGACCCGAAGGCCGAACTGTTCGAGGGCCGCGACCGCAGCAGCGGCGAGCTGCGCTACACCGGCACCCGCGCCGACCTGGTGTTCGGCTCCAACGCGGTACTGCGCGCGCTGGCCGAGGTCTACGCCAGCAGCGACGGCAAGGAGAAGTTCGTACGCGACTTCGTCGCCGCCTGGACCAAGGTGATGCACCTGGACCGCTTCGACCTGGCGTAA	MSTPSEHATPAPIDTPTPGAAKCPFHQAPPQIAGAGTNNRDWWPNQLRVDLLNQHSNRSNPLGEDFDYRKAFKGIDYSALKADLRAVLVDSQAWWPADWGNYAGLFIRMAWHSAGTYRMVDGRGGAGRGQQRFAPLNAWPDNVSLDKARRLLWPVKQKYGQQVSWADLMVLAGNVALENAGFRTFGFGGGREDVWEPDLDVNWGDEKTWLAHRNPESLASNPLAATEMGLIYVNPEGPNASGDPASAAPAIRATFGNMAMDDEEIVALIAGGHTLGKTHGAAAADNVGVDPEAADLEAQGFGWTSRHGSGVGADAITSGLEVVWSQTPTQWSNYFFENLFKYEWVQTRSPAGAIQFEAKDAPEIIPDPFDPAKKRKPTMLVTDLTLRFDPEFEKISRRFLNDPQAFNEAFARAWFKLTHRDMGPKARYLGPEVPKEDLIWQDPLPAPTHTPSPTDIAELKGQIAAAGLSVGELVTVAWASASTFRGGDKRGGANGARLALAPQKDWPVNAGAIATLGKLQAIQQASGKASLADVIVLAGVVGIEQAAAAAGVAVQVPFVPGRVDASAEQTDAASFDMLEPIADGFRNYRRLHGGPSTETLLIDKAQQLTLTAPELTVLIGGLRVLGANFDGSAHGVLTDRVGVLSNDFFVNLLDMRTAWKATDPKAELFEGRDRSSGELRYTGTRADLVFGSNAVLRALAEVYASSDGKEKFVRDFVAAWTKVMHLDRFDLA	PGPT0013165_2467	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PHENYLALANINE_DEGRADATION,PGPT0013165-katG-K03782	NA	NA
BMS020_05124	624			hypothetical protein	ATGAACGATGCCAGCCTCGCCGGCAGCCTGCTGCAGCAGTTGCAGGGCAACGGCATGCAGCAGATCGCCCACCAGCTCGGCACCGACCCGGCCAAGGCCAGCAGCGCGGTCGCCACCGCGCTGCCGCTGCTGCTGGGGGCGCTCGGCCGCAATGTGCAGCAGCCCGGCGGCACCGAGGCGCTGCTCGGCGCCCTGCAGCGCGACCACGCCCCGTCCGCAGGCGGCGACCTCGACCTGGGCGGCCTGCTCGGTGCGGTGCTCGGTGGTGGTGGCTCGGCGCAGACCGATGGCGCCGGCATCCTCGGCCACATCTTCGGCGGCGCGGCGCCCCAGGCCAGCACCGGCCTCGGCCAGGCGACCGGCCTGGACAGCGGCCGCGCCTCGCAGCTGCTGCAGATCCTCGCCCCGATCGTGTTGTCGTTCCTGGCCCAGCGCTTTCTCGGCGGCAACGACGGAGGCGGCCAACAGCTCGGCCCGGCGCTGACGCAGGAACACCGGCAGGCGCGCCAGGATGCCGGCCTCGACGGTCTGCTTGGCAGCGTGCTGGACCAGGACGGCGACGGCCAGCTGGGCGTCGGCGACCTGCTCAAGCTCGGCAGCGGCCTGTTCGGTGGGCAGCGCTGA	MNDASLAGSLLQQLQGNGMQQIAHQLGTDPAKASSAVATALPLLLGALGRNVQQPGGTEALLGALQRDHAPSAGGDLDLGGLLGAVLGGGGSAQTDGAGILGHIFGGAAPQASTGLGQATGLDSGRASQLLQILAPIVLSFLAQRFLGGNDGGGQQLGPALTQEHRQARQDAGLDGLLGSVLDQDGDGQLGVGDLLKLGSGLFGGQR				NA	NA	NA	NA	NA
BMS020_05125	696			hypothetical protein	ATGACCATCCGCGCCACCCGCCTGTTGCACCTGCTCGACGCACTGCGCGGCCGCCGCCGTGCGGTGGCCGGGGCCGAACTCGCCAGCACGCTCGGGGTCAGCCTGCGCACGCTGTACCGCGACATCGCCACGCTGCGTGCGCAGGGTGCCGACATCCTTGGCGATCCGGGCGTGGGCTACACGCTGCGCCCAGGCTTCCTGCTGCCGGCGCTGAACTTCAGCGAGGACGAACTGGAGGCGCTGACGCTGGGCGCGCGCTGGGTCGCGCAGCAGGCCGATCCGGAACTGGCGCAGGCCGCGCAGCGCGCGATCGCGCGGATCGCCGCGACCTTGCCGGCCCGGCTGCGGCTGGCGATCGACACCAGCGGCCTGCTGGTGCCGTCCGCCGATCCGGGGCGGACGCCGGCACCGTGGTTGCCGGTCCTGCGGCGCGCGATCCGGCTCGAACACGTGCTGCGCATGGCGTATGTCGATGCCTCGGGGCAGACCACGCAGCGGCTGGTCTGGCCGTTCGCGATGGCCTTCCTGGGCGGCCACGGGATCATCGCAGCCTGGTGCGAACTGCGGCGCGACTTCCGCCATTTCCGCGCCGACCGCGTGCTGGAACTGGTCGATGACGGCGAGCGCTATCCCTCGCACCGGCACCTGCTGATCAAGCGTTGGCGCGTGGCCACCGGCTACGGCCTGGACTCCTGA	MTIRATRLLHLLDALRGRRRAVAGAELASTLGVSLRTLYRDIATLRAQGADILGDPGVGYTLRPGFLLPALNFSEDELEALTLGARWVAQQADPELAQAAQRAIARIAATLPARLRLAIDTSGLLVPSADPGRTPAPWLPVLRRAIRLEHVLRMAYVDASGQTTQRLVWPFAMAFLGGHGIIAAWCELRRDFRHFRADRVLELVDDGERYPSHRHLLIKRWRVATGYGLDS				NA	NA	NA	NA	NA
BMS020_05126	648	gst_2	COG0625	Glutathione S-transferase GST-4.5	ATGCACGAGACCCTGACCCTGTACACCCATCCGATGTCGCGCGGCCGCGTCGCACGCTGGATGCTCGAGGAGACCGGGCTGCCGTACGACACCAGGATCCTCGACTACGGCGCGGCGATGAAGGCGCCCGACTACCTGGCGATCAATCCGATGGGCAAGGTGCCGGCGCTGGTGCACGGCGAGGCGGTGGTGACCGAGAACGCGGCGATCTGCGCCTACCTGGCCGAGCTGGTGCCGCAGCGCCTGCTGGCGCCGCCGGAGGATTCGCCCGAGCGTGCCGCGTACTTCCGCTGGCTGTTCTTCATGGCCGGCCCGTTCGAGGCGTTGCTGACCGCGAAGGAGGCCGGCGCGCTGGCCAAGCCGGTCAGCGCCGGCTATGGCAGCGAGGACGACCTGCTGCGCACGTTGGAGCAGGCCGTCGATGGCCGCATCCATCTGGCCGGCGAACGCTTCACCGCGGTCGACCTGTACGTCGCCGCGTGCCTGGGCTACTACCTGCGCATCGGCGCGCTGGCGCCACGCCCGGCGTTCGTCGCGTTCGCGCAGGCACATGCCAGCCGCCCGGCGGCGCTGCGTGCGATGGCGCTGGACAACGCGTTGATGGCCCAGCATCCGAATCCCAATATGCCGGCGCCGGTGGCGGCGTAA	MHETLTLYTHPMSRGRVARWMLEETGLPYDTRILDYGAAMKAPDYLAINPMGKVPALVHGEAVVTENAAICAYLAELVPQRLLAPPEDSPERAAYFRWLFFMAGPFEALLTAKEAGALAKPVSAGYGSEDDLLRTLEQAVDGRIHLAGERFTAVDLYVAACLGYYLRIGALAPRPAFVAFAQAHASRPAALRAMALDNALMAQHPNPNMPAPVAA	PGPT0013170_12397	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS020_05127	2622	mutS_2	COG0249	DNA mismatch repair protein MutS	TTGCACGCCACCGATCCAAGCACCAAGACCGCCGCCGCCAAGGGCGCGGTGGAACACACCCCGCTGATGAAGCAGTACTTCGCCGCCAAGGTCGACCATCCCGACCTGCTGCTGTTCTTCCGCATGGGCGACTTCTACGAGCTGTTCTACGACGACGCGCGCAAGGCCGCGCGCCTGCTCGACATCACCCTGACCCAGCGCGGCAGTTCCGGCGGCGCGCCGATCCCGATGGCCGGCGTGCCGGTGCATGCCTACGAGGGCTATCTGGCGCGACTGGTCGCGCTGGGCGAATCGGTGGCGATCTGCGAGCAGATCGGCGACCCGGCGCTGGCCAAGGGCCTGGTCGAACGCAAGGTGGTGCGCATCGTCACCCCCGGCACGGTCACCGACGAAGCGCTGCTGGACGAGCGCCGCGACACCCTGCTGATGGCGCTGGCGCGGACTAAGGCCGGCTACGGCCTGGCCTGGGCCGACCTGGCCGGCGGCCGCTTCCTGGTCAACGAGGTCGACAGCGACGACGCGCTGGAAGCCGAGCTGGCGCGGCTGGAACCGGCCGAGCTGCTGGTGCCCGACGAGGAGAACTGGCCCGAGTTCCTGCGCCAGCGCAGCGGCGTGCGCCGGCGCGCGCCGTGGCTGTTCGACGCCGATTCCGGGCGCCGCCAGCTGCTGGCGTTCTTCAAGCTGCACGACCTGTCCGGCTTCGGCATCGACGACAAGCCGCGCGCCACCGCCGCGGCCGGCGCGCTGCTCGGCTATGTCGAGGAAACCCAGAAACAGCGCCTTCCGCACCTGACCTCGATCGCGATGGAAGTGGCCGGCGAGGCGATCGCGATGAACGCCGCCACCCGTCGTCATCTCGAATTGGATACCCGCGTCGACGGCGACACCCGCAACACCCTGCTCGGCGTGCTCGACAGCACCGTGACGCCGATGGGCGGGCGCCTGCTGCGGCGTTGGCTGCACCGCCCGCTGCGCCTGCGCGCGGTGCTGGCCGCGCGCCACCACGCGGTCGGCACGCTGATCGACCGCGGCGCCGATGCCGACCTGCGTGAGGCGTTCCGCGCGCTCGGCGACCTGGAGCGCATCCTGACCCGGGTCGCGCTGCGTTCGGCGCGACCGCGCGACTTCTCCACCCTGCGCGATGGCCTGGGCCTGCTGCCGCAGGTGCGCGCGATCCTGCAGCCGCTGGATTCGCCGCGGCTGCAGGCGCTGTTCGGCGCGCTCGGCGAGCACGACGCCACCGCGCACCTGCTGGCAAGCGCGATCGCCGAGCAGCCGCCGCTGAAGCTGTCCGACGGCGGCGTGATCGCCACCGGCTTCGACGCCGAGCTGGACGAGCTGCGTCGGCTGTCGACCAACGCCGACCAGTTCCTGATCGACCTGGAACTGCGCGAGCGCGAGAGCAGCGGCATCCCGACCCTGAAGGTCGGCTACAACCGCGTGCACGGCTATTACATCGAGATCAGCAAGGGCCAGGCCGACAAGGCGCCGGTGCACTACACCCGCCGCCAGACCCTGACCAATGCCGAGCGCTACATCACCGAGGAACTGAAGTCGTTCGAGGACAAGGTGCTGTCGGCGCGCGAACGTTCGCTGTCGCGCGAGAAGCTGCTGTACGAACAGCTGCTGGACACGCTCGGCGCCGAGCTGGAAGGCCTCAAGCAATGCGCCGCGGCGCTCAGCGAACTGGACGTGCTGGCCGGCTTCGCCGAGCGCGCGCAGGCGCTGGACTGGGCCTGCCCGGAGCTGCAGGAGGCGCCGTGCCTGCGCATCGAGCGCGGCCGCCATCCGGTGGTCGAGGCGGTGCGCGAGCAGCCGTTCGAGCCCAACGACCTGGACCTGCATCCGGAGCGCCGCATGCTGGTGATCACCGGCCCGAACATGGGCGGTAAATCGACCTACATGCGCCAGAACGCGTTGATCGTGCTGCTGGCGCATATCGGCAGCTACGTGCCGGCGCAGCGCGCGGTGATCGGCCCGATCGACCGCATCCTGACCCGCATCGGCGCCGGCGACGACCTGGCCAAGGGCCAGTCGACCTTCATGGTCGAGATGGCCGAGACCAGTTACATCCTGCACCACGCCAGCGCGCAGTCGCTGGTGCTGATGGACGAGATCGGCCGCGGCACCTCGACCTACGACGGCCTGGCACTGGCCGACGCGGTGGCACGCCACCTGGCGCATGCGAACCGCTGCTATACGCTGTTCGCCACGCACTACTTCGAGCTGACCGCGCTGGCCGACGAAAGCATCGAAGGCGGCGCCAGCGGGATTGCCAATGTGCACCTGGATGCGGTCGAGCACGGCGAGCAGCTGGTGTTCATGCATGCGGTCAAGGACGGCCCGGCCAACCGCAGCTTCGGCCTGCAGGTGGCGGCACTGGCCGGCCTGCCCAAGGCCACCGTCGCGCAGGCACGGCGCCGGCTGGCGGAACTCGAACAGCGCGGCGGCGAATCGCATGCGGCCACAATGGTGCCGCAGGCGCTGGATTCGCCGCAGCAGTTCGGCCTGTTCACCGCCCCGACCTCGGCCGCGCAGGAAGCGCTGGTCGCGATCGATCCGGACGAGCTGACCCCCAAGCAGGCGCTGGAAGCGCTGTACCGGCTCAAGGCGCTGCTGTAA	MHATDPSTKTAAAKGAVEHTPLMKQYFAAKVDHPDLLLFFRMGDFYELFYDDARKAARLLDITLTQRGSSGGAPIPMAGVPVHAYEGYLARLVALGESVAICEQIGDPALAKGLVERKVVRIVTPGTVTDEALLDERRDTLLMALARTKAGYGLAWADLAGGRFLVNEVDSDDALEAELARLEPAELLVPDEENWPEFLRQRSGVRRRAPWLFDADSGRRQLLAFFKLHDLSGFGIDDKPRATAAAGALLGYVEETQKQRLPHLTSIAMEVAGEAIAMNAATRRHLELDTRVDGDTRNTLLGVLDSTVTPMGGRLLRRWLHRPLRLRAVLAARHHAVGTLIDRGADADLREAFRALGDLERILTRVALRSARPRDFSTLRDGLGLLPQVRAILQPLDSPRLQALFGALGEHDATAHLLASAIAEQPPLKLSDGGVIATGFDAELDELRRLSTNADQFLIDLELRERESSGIPTLKVGYNRVHGYYIEISKGQADKAPVHYTRRQTLTNAERYITEELKSFEDKVLSARERSLSREKLLYEQLLDTLGAELEGLKQCAAALSELDVLAGFAERAQALDWACPELQEAPCLRIERGRHPVVEAVREQPFEPNDLDLHPERRMLVITGPNMGGKSTYMRQNALIVLLAHIGSYVPAQRAVIGPIDRILTRIGAGDDLAKGQSTFMVEMAETSYILHHASAQSLVLMDEIGRGTSTYDGLALADAVARHLAHANRCYTLFATHYFELTALADESIEGGASGIANVHLDAVEHGEQLVFMHAVKDGPANRSFGLQVAALAGLPKATVAQARRRLAELEQRGGESHAATMVPQALDSPQQFGLFTAPTSAAQEALVAIDPDELTPKQALEALYRLKALL				NA	NA	NA	NA	NA
BMS020_05128	1137	pntAA	COG3288	NAD(P) transhydrogenase subunit alpha part 1	ATGAGTCTGGAGATCGCGGTACTGAAGGAAACCCAGGCCGGCGAGCGCCGCGTGGCGATGGTGCCCGCGGTCGCCGCCCGGTTGGCGAAGCTCGGCGTGGCGCTGGCGATGCAGCGCGGCGCGGGCGTTGCGGCCACCTATGCGGACGCCGCGTACGCGGAGGTGCGGCTGGAGGACGATCCGCGCGCGCTGGTGGCCGGCGCCGACATCGTGCTGGCGGTGCAGCCGCCGCCGCTGGAGATCATCGAGGCGATGAAGCCGGGCAGCGTGCTGGCCAGCTTCGTCCATGCCGGTGCGCATCCGGCGCTGGTCGCGGCGCTGCAGGCACGTGGCATCACCAGCCTGGCGATGGAACTGGTGCCGCGCATCAGCCGCGCGCAGTCGCTGGACGCGCTGTCCAGCCAGGCCGCGTTGGCCGGTTACTACGCGCCGCTGCTCGGCGCGGTGCACATGCCGCGGATCCTGCCGATGATGACCACCGCGGTCGGCTCGCTGCGTGCAGCCAAGGTGCTGGTGATGGGCCTGGGCGTGGCCGGGCTGTCGGCACTGGCGACCGCGCGCCGGCTCGGTGCGGTCACCGAGGGCTACGACGTGCGCCCGGAGACCCGCGAGCAGGCCGCATCGCTGGGGGCGAAGTTCGTCGATACCGGCATCGATGCGCGCGGCGACGGCGGCTATGCGCGCGAGCTCACCGCCGAGGAGCAGGCGCAGGTGCAGCAGGTGCTCGGCCAGCACCTGGCGGCCGCCGACATGGTCATCACCACCGCCGCGGTGCCGGGGCGCCCCGCGCCGCGACTGATCTCCGCCGCGCAGGTGGCGGCGATGAAGCCGGGCGCGGTGGTCGTCGATCTTGGCGCCGAAGGTGGCGGCAACTGCGAGGGCACCGTGCCCGGGCAGACCGTCACGGTCGGCGCGGTGACGCTGCTCGGCCCGCTCAACGTGCCGTCGGCGCTGGCCCAGCACGCCAGCGAGCTGTACGCCAAGAACCTGCTCAACCTGATGACGCTGATCGTCAAGGAAGGCGCGCTGGTGCTGGATTTCGACGACGAGGTGGTCGCCGGCACCACGCTCACCCACGCCGGGCAGATCCGTAACGAAGCGGCCCGGCGCGCGCTCGACGCCGCCGCGGCCCAGTAA	MSLEIAVLKETQAGERRVAMVPAVAARLAKLGVALAMQRGAGVAATYADAAYAEVRLEDDPRALVAGADIVLAVQPPPLEIIEAMKPGSVLASFVHAGAHPALVAALQARGITSLAMELVPRISRAQSLDALSSQAALAGYYAPLLGAVHMPRILPMMTTAVGSLRAAKVLVMGLGVAGLSALATARRLGAVTEGYDVRPETREQAASLGAKFVDTGIDARGDGGYARELTAEEQAQVQQVLGQHLAAADMVITTAAVPGRPAPRLISAAQVAAMKPGAVVVDLGAEGGGNCEGTVPGQTVTVGAVTLLGPLNVPSALAQHASELYAKNLLNLMTLIVKEGALVLDFDDEVVAGTTLTHAGQIRNEAARRALDAAAAQ	PGPT0013500_1424	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013500-pntA-K00324	NA	NA
BMS020_05129	309	pntA_4	COG3288	NAD(P) transhydrogenase subunit alpha	ATGTCCATCGATACATCCATGACCTGGCTGATCGCCCTGTACGTGTTCATGCTCGCCGCGTTCACCGGTTACGAGGTGATCGCGCGCGTGCCGTCGATCCTGCACACGCCGCTGATGTCCGGCTCCAACTTCATCCACGGCATCGTCGTGGTCGGCGCACTGCACGTGCTGCTCAACGCCACCACGCCGCTGGCGCAGGTGGTCGGCTTCTGCGGCGTCGCGCTCGGCGCGGCGAATGCTGCAGGCGGCTACGTGGTCACCGACCGCATGTTGGCGATGTTCAAGACCAGCGCACGCAAGGAGTCCTGA	MSIDTSMTWLIALYVFMLAAFTGYEVIARVPSILHTPLMSGSNFIHGIVVVGALHVLLNATTPLAQVVGFCGVALGAANAAGGYVVTDRMLAMFKTSARKES	PGPT0013500_3470	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013500-pntA-K00324	NA	NA
BMS020_05130	1416	pntB_3	COG1282	NAD(P) transhydrogenase subunit beta	ATGATCGTGCAACACATCCAGGGCCTGAGCGGGTTGGTCGCGGCGTTGTTGTTCATCCTCGGCCTGAAGCGGATGTCCTCGCCGGCCACGGCGCTGTCGGGCATTGTCGTGGCCGGTGTCGGCATGCTGGTCGCGGTCGCGGCCGGCTTCCTCGCGCTGGCGGACCTGGCGCCTGCTGCGCGTCCGCACCTGGGGGTCAACCTGACCCTGGCACTGCTCGCGCTGCTGCTCGGCTGCGGCTGGGCCTGGCGCAGCGGGCGCAAGGTGGCAATGACCGCGATGCCGCAGATGGTGGCGCTGTACAACGGCATGGGCGGTGGCGCCGCGGCGGCGATCGCCGCGGTGGAACTGATCGAGCCGGGCACGCCGGGCCCGCTGCTGCTGGTGGTGACCTTCGCCGGCGCGCTGATCGGCGCGGTGTCGCTGACCGGCTCGGTGATCGCCTGGGCCAAGCTCGACGGGCGCATCAACAAGCCGTGGCGCTTCGGCGGCCAGCGCGTGTTCAACGGCGCGGTGTTCGTGGCCACGCTGGCGCTGGGCGTGGCGGCGATCGTGCTGCACGGCAGCCAAGCCGGCGCGCTGCTGGCCGGGCTGTTCTTCGCCGGTGCGCTGGCCTTCGGCGTGCTGATGACGCTGCCGATCGGCGGTGCCGACATGCCGGTGGTGATCTCGCTGTACAACGCCTTCACCGGCCTGGCGGTCGGCCTGGAAGGCTACGCGCTGCAGAACCCGGCGCTGATGATCGCCGGCATGGTGGTGGGCTCGGCCGGCACCTTGCTGACCGTACTGATGGCCAAGGCGATGAACCGTTCGCTGGCCAACGTGCTGTTCTCCAACTTCGGCGACGGCGCCGCCAGCGGCGCTGCCGAGGTGGCCGGGCAGATGAAGGCCACCGACGCCGGCGACGCCGGCATCGCGATGCGCTATGCCTCCAGCGTGATCATCATCCCCGGCTACGGGCTGGCGGTGGCGCAGGCGCAGCAGAAGCTCTACGAATTCGTGAAGCTGCTGCAGGCCGCCGATGTCGAGGTCAGGTTCGCGATCCATCCGGTCGCCGGGCGCATGCCCGGGCACATGAACGTGCTGCTGGCCGAGGCCGGCGTGCCCTACGACCTGATCTTCGACATGGAAGACATCAACGCCGATTTCGCCAATACCGACGTGGCGCTGGTGATCGGCGCCAACGACGTGGTCAATCCGGCCGCGCGCAGCGACAAGGCCTCGCCGATCTACGGCATGCCGATCCTCGACGCCGACCAGGCGCGCCAGGTCTACGTGATCAAGCGCGGGCAGGGCAAGGGCTATGCCGGCGTGGAGAACCTGCTGTTCTTCCAGGACAACTGCAACATGGTCTACGGCGATGCCCAGGCCGTGCTCAACCAGATGGTCCAGGCGGTCAAGGGGTTGGCCGCCTGA	MIVQHIQGLSGLVAALLFILGLKRMSSPATALSGIVVAGVGMLVAVAAGFLALADLAPAARPHLGVNLTLALLALLLGCGWAWRSGRKVAMTAMPQMVALYNGMGGGAAAAIAAVELIEPGTPGPLLLVVTFAGALIGAVSLTGSVIAWAKLDGRINKPWRFGGQRVFNGAVFVATLALGVAAIVLHGSQAGALLAGLFFAGALAFGVLMTLPIGGADMPVVISLYNAFTGLAVGLEGYALQNPALMIAGMVVGSAGTLLTVLMAKAMNRSLANVLFSNFGDGAASGAAEVAGQMKATDAGDAGIAMRYASSVIIIPGYGLAVAQAQQKLYEFVKLLQAADVEVRFAIHPVAGRMPGHMNVLLAEAGVPYDLIFDMEDINADFANTDVALVIGANDVVNPAARSDKASPIYGMPILDADQARQVYVIKRGQGKGYAGVENLLFFQDNCNMVYGDAQAVLNQMVQAVKGLAA	PGPT0013505_1273	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013505-pntB-K00325	NA	NA
BMS020_05131	1389	gabD1_1	COG1012	Succinate-semialdehyde dehydrogenase [NADP(+)] 1	ATGGCATATGCAACCACCAATCCGTACACCGGCGAAGTCGTCAAGCGCTTCGCCAACGCCACCGACGCCGAGGTCGCCCAGGCGCTGGACAAGGGCCAGGCCGCCTTCGATGCCTGGAAGCAGCTCGCCGTCGCCGCGCGGGTGAAGGTGTTGAAGAAGGCAGCCGAGCTGCTGCGCGCCCGCCACACCGACTACGCCAGGCTGCTGACGCTGGAGATGGGCAAGCTGATCGGCGAGGCCGAGGCGGAGGTCGAGCTGTCGGCGCAGATCCTGGAGTACTACGTCGACAACGCCGAGGCGCTGCTGGCGCCGGAGAAGCTGCCGAGCAAGCATCCGTCGTACACCCAATCCTGGGTCGAGCACGTGCCGCAGGGCATCCTGCTGGCGGTCGAGCCGTGGAACTTCCCGTACTACCAGATCGTGCGTATCGCCGCGCCGCAGCTGGCCGCCGGCAACGTGCTGATCCTCAAGCACGCCTCCAACGTGCCGCAGTGCGCGGCCGCGTTCGAGGCGCTGTTCCGCGAGGCCGGGTTGCCGGATGGTGGCTTCAGCAACCTCTATGCGACCCGCGACCAGGTCAAGGCGATCATCGACGATCCGCGCGTGCAGGGTGTGGCGCTGACCGGTTCGGAAGGCGCTGGTGCGATCGTCGCCGCGCAGGCCGGCAACGCGCTGAAGAAATCGACGATGGAACTGGGCGGTGCCGATGCCTTCGTGGTGCTGGCCGATGCCGAGCTGGACAAGGCAGTGCAGTGGGCGGTGACCGGGCGGCACTGGAACGGCGGCCAGGTGTGCTGCTCGTCCAAGCGCATCATCGTCGTCGACGCGGTCTACGACGCGTTCCTGGCCAAGTACAAGGCCGGCGTCGCCACGCTGCGTGCCGGCGATCCGATGGACCCGGCGACTACGCTGGCGCCGCTGTCCTCGCAGGGAGCGGTCGATGATCTCAAGGCGCAGCTGGCGCAGGCGGTGGCGCACGGCGCCACGCTCGAGGTGATCGGCGCGCCGGTGCCGGCCCAGGGCGCGTTCTTCCAGCCGGTGCTGCTGAGCATGGCCGAGGACAACCCCGCCTATGGCTGGGAATTCTTTGGTCCGGTGTCGCAGGTGATCCGCGCCAAGGACGAGGCCGACGCGATCCGCATCGCCAACGATTCGCCGTTTGGGCTGGGCGGCTCGGTGTTCACCACCGACATCAAGCACGGCATCGAGGTGGCGCAGCAGATCTCCACCGGCATGGTCTACATCAACCATCCGACCGGCGTGGCCGCGGACCTGCCGTTCGGCGGTGTGCGCCGCTCCGGCTACGGTCGCGAACTGGTTGGGCTGGGCATCAAGGAGTTCGTCAACCACAAGCTGATCGCGGTGACCGACATCGACGGCGCGTTCTGA	MAYATTNPYTGEVVKRFANATDAEVAQALDKGQAAFDAWKQLAVAARVKVLKKAAELLRARHTDYARLLTLEMGKLIGEAEAEVELSAQILEYYVDNAEALLAPEKLPSKHPSYTQSWVEHVPQGILLAVEPWNFPYYQIVRIAAPQLAAGNVLILKHASNVPQCAAAFEALFREAGLPDGGFSNLYATRDQVKAIIDDPRVQGVALTGSEGAGAIVAAQAGNALKKSTMELGGADAFVVLADAELDKAVQWAVTGRHWNGGQVCCSSKRIIVVDAVYDAFLAKYKAGVATLRAGDPMDPATTLAPLSSQGAVDDLKAQLAQAVAHGATLEVIGAPVPAQGAFFQPVLLSMAEDNPAYGWEFFGPVSQVIRAKDEADAIRIANDSPFGLGGSVFTTDIKHGIEVAQQISTGMVYINHPTGVAADLPFGGVRRSGYGRELVGLGIKEFVNHKLIAVTDIDGAF	PGPT0001580_5961	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
BMS020_05132	1971	ohyA		Oleate hydratase	ATGAATGCCCCTGTTCCCCCTTCGTTCGAGCATGCCCCCGACGCGACCGCCCGCTACTGGCACAACGCGGCGGACAACAGCCTGCCGCCGCCGGACATGGTCGGCCCCTACCAACGCTTCAAACCACTGCCCGGCGAAGGCATCGGCACGCGCAAGGCGTGGATCGTCGGCGCCGGGATCGCCGGCATGGCCGCCGCCTTCTACTTGATCCGCGACGGCCACATGCCGGGTGAGAACATCACGCTGATCGACGCGCTCGACATCGAAGGTGGCTCGCTCGATGGCGCCGGCAACGCCGAGGACGGCTACCTGGTGCGCGGCGGCCGCGAGATGAACTGGAACTACGACAATCTCTGGGACATGTTCCAGGACGTGCCGGCACTGGAACTGCCCGCAGGCTTCAGCGTGCTGGACGAATACCGGCTGACCAACGACGCCGACCCGAACTGGTCCAAGGCCCGGCTGATGCACCAGCAGGGGCGGATCGTCGAGGACTTCGCCACGTTCGGGCTGAGCCGCACGCAGCAGTGGGAGGTGGTCAGCCTGCTGCTCAAGCGCAAGGACGAACTGGACGACCTCACCATCCAGGACCACTTCAGCGAAGGCTTCCTGCGCAGCAGGTTCTGGTTCCTGTTCCGCTCGATGTTCGCCTTCGAGAACTGGCACAGCCTGCTCGAGATGAAGCTGTACATGCACCGCTTCCTCGATGCGATCGACGGCTTCGGCGACATGTCGGCGCTGGTGTTCCCCAAGTACAACCAGTACGACAGCTTCGTCACCCCGCTGATCAGCCACCTGCGCGCCAAGGGCGTGCAGATGCGCTTCGGCACCAAGGTGCTGGACATGGACTTCGACGTGGATGGCGAGGCCCGCACGGTGACCGCGCTGCACACGCGCACCCGCGATGGCGACGGCCGCATCGAGGTGGCACCGCGCGACCTGGTGATCGCGCTGACCGGTTCGATGACCGAGGACACCGGCTACGGCGACATGGACACGGCGCCACCGCTGCACAGCCACGCCGGCGGCCCGACCGAGGACAGCGGCTGGGGCCTGTGGCGCAACCTGGCCCGGCAGTCGCCGGTGTTCGGCAAGCCGGACAAGTTCTGCGGCAATGTCGCCGGTTCGATGTGGGAATCGGCCACGCTGACCTGCAGCCCCTCGCCGCTGCTGGAGCGCATGCGCGCGCTGTCGGTGAACGCACCGACCTCCGGCCGTACCGCGACCGGCGGCATCATCACCTTCACCGATTCCAACTGGGTGCTCAGCGTCACCATCAACCGCCAGCCGCACTTCCCCGGCCAGCCCGAGGACACCGTGGTGATGTGGATGTACGCGTTGCTGATGGACCAGCCCGGCAACCATGTCGGCAAGCCGATGCCGGCCTGTACCGGGCGCGAGATCCTGGCCGAGCTGTGTTTCCACCTGGGCATCGCGCAGGGCGAACTGGATGCGGTGGTCGCCAACACCAAGGTCCGGCTGGCGCTGATGCCCTACATCACCGCGCAGTTCATGCCGCGTGCGGCCGGCGATCGACCGCCGGTGGTGCCGCACGGCTGCAGCAACCTGGCGCTGGTCGGGCAGTTCGTCGAGACCGCCAACGACGTGGTGTTCACGATGGAGAGCTCGGTGCGCACCGCGCGCATCGCCGTCTACAGCCTGCTGGCATTGCCCAAGCAGGTGCCGGACCTCAGCCCCACCCAGTACGACATCCGCAGCCTGCTGCGTGGTGCGCGTGCGCTCAACAACGGCGAGCCATTCCCCGGCGAACGGCTGCTGCACAAACTGCTGGATGGCACCTACTACGCGCACGTGTTGCCGCCGCTGCCCAGCAGCGAAGGCGAAACCACCCGCCGCGAGCGGCTGCAGGCCGAACTGGCGCGCCTGGGCGACAAGGGCGGCTGGCTGCTGCAGGGCGCGGCGCGCTGGATCGACCAGCTCGGCCGCCGGCTACGCCGTCCAGGCGCCTGA	MNAPVPPSFEHAPDATARYWHNAADNSLPPPDMVGPYQRFKPLPGEGIGTRKAWIVGAGIAGMAAAFYLIRDGHMPGENITLIDALDIEGGSLDGAGNAEDGYLVRGGREMNWNYDNLWDMFQDVPALELPAGFSVLDEYRLTNDADPNWSKARLMHQQGRIVEDFATFGLSRTQQWEVVSLLLKRKDELDDLTIQDHFSEGFLRSRFWFLFRSMFAFENWHSLLEMKLYMHRFLDAIDGFGDMSALVFPKYNQYDSFVTPLISHLRAKGVQMRFGTKVLDMDFDVDGEARTVTALHTRTRDGDGRIEVAPRDLVIALTGSMTEDTGYGDMDTAPPLHSHAGGPTEDSGWGLWRNLARQSPVFGKPDKFCGNVAGSMWESATLTCSPSPLLERMRALSVNAPTSGRTATGGIITFTDSNWVLSVTINRQPHFPGQPEDTVVMWMYALLMDQPGNHVGKPMPACTGREILAELCFHLGIAQGELDAVVANTKVRLALMPYITAQFMPRAAGDRPPVVPHGCSNLALVGQFVETANDVVFTMESSVRTARIAVYSLLALPKQVPDLSPTQYDIRSLLRGARALNNGEPFPGERLLHKLLDGTYYAHVLPPLPSSEGETTRRERLQAELARLGDKGGWLLQGAARWIDQLGRRLRRPGA				NA	NA	NA	NA	NA
BMS020_05133	2211			hypothetical protein	ATGGCCCAGGTCCCGATCAAGCCATCCACTTCCGAGACGGACGCCTCGCCGGCGCCGCCCGCGTCGCTGCCTGTCGCCGACGATCTTGAGACCCTGCGCGCCGCGCTGGCCGAGGAACGCCAGCAGCGCCAACGCCTGGAAGCAGTGATCGAAGCGGTCGCACCGGCGCGCTGGGAGTGGGACATCGCCGAGCACCGCGTGCAGCTGGAGCCGGGCTGGGCCGCGATCCTCGGCTACACCCTGGAGGAACTGGCCCCGATCGACGAGGACACCTGGCGCAACCTGGTGCACCCGGACGACCTGGCCGCCAGCCGCGAGGCGATGCGGGCGCACGCCGACGGACTCACCGAGACCTACGAAGCGGTGTTCCGCATGCGCCACCGCCGTGGCTACTGGCTGTGGATCCAGAGCCGCGCACGCATCTACCAACGCGACGCCGACGGCCGGCCGCTGCGCATGGCCGGCGCGCTCAGCGATGTGTCCGCACTGCACCAGGTCAAGCGCGATGCGGCGCAGACCCGCTTGCAGCTGCAGGCGCTGATCGAAGCCTCCGACGACGTCGCGATCATCGCCACCGACACCGAGGGCAACATTTCCCTGTTCAACGCCGGCGCCGAGCGCCTGCTCGGCTATCGCGCCGAGGAGGTGGTCGGCAAGCTGACCCCGGTCGCGTTCCATGTCCCCGAGCAGCTGCAGGCACGCATGCAGCTGGCGCGCGAACGCCTCGGGCGCGAACCGACGCCATTCGAATCGCTCAACTTCGAGACCGTCGACGGCACTGCCACCGGCGACTGGACATTCGCCCGCAAGGACGGCTCGCGCTGCCAGGTGCGGCTGTCGATCACCGAGCTACGCGACGCCGCCGGCGCACGCGTGGGCCTGTTCGGCATCGCCATCGACCTCACCCCGATCATCGAAGCGCGCGAGCAGGCGCGAATCGAGGCGGAGAAGTTCTCCGGCGCGTTCCGCGCCGCCGCGCTCGGCATGGCACTGGTGTCGCTGGAAGGTGGTTGGCTGGACGTCAACGACGCGCTGTGCGCGATGCTCGGCTACAGCCGCGAACAATTGCTGCGCACCGATTTCCAGAGCCTCACCCACCCGGAGGACCTGGACAGCGACCTGGCCCTGCTGCAGCGGCTGGTCGCCGGTGAGATCGAGTCCTACCAGATGGACAAGCGCTACATCGCCCACGACGGCCGCCTGGTCTGGGCCCGGCTGTCGGTGTCGATGCTGCGCGCGCCCGACGGCGCACCGCTGCACTTCGTCTCGCAGATCCAGGACGTGACCCTGGAAAAGACCTCGCTGCAGCGCCTGCGCGATTCGGAGGAGCGCACCCGGATCACCCTGGACACCGTGCTGGACCTGGTGGTGACGCTCGACGAGCGCGGCGTGGTCCAGTACGCCAACGCCGCCGCGCAACGCCTGCTCGGCGACGAGACCCGTCCCTCGCCGGTGGGCCGGCGCATCCAGGACGTGCTGCGCATGACCACCGAGTACGCGCCGCGCACCGTGCTCGACCTCGCCCCCCTGCTCGAGGAGGAGGCCAATGCGGTCGACCTGGGCCAGGACCTGCTGCTGCCGGTCAACGGCAGCCTGATGCCGATCGAGATCACCCGCGCCTGGCTGCGCGATACACAGGGCCGCAGCGAAGGTGCGGTCTGGGTGATCCGCGACGTCACCCAGCAACGCATGCGCCAGCGCGAGGCCTTGCGCCTGGCCGAGGTCGACCCGCTCACCGAGCTGGCCAACCGCCGCGGCTTCGACGGGCAGCTGGAGGAAGCGCTGCTGCGCCTGCGCGAGCGCGGCCAGCCGTCCTCGCTGATCTATATGGACCTGGACGGCTTCAAGGCAGTCAACGACCAGCACGGCCACCCGGCCGGCGACCTGGTGCTGGAGCGCGTGGGCCGGCTGCTGAAATCCAGCGTGCGCGACCTCGACGTGGTCGCCCGGCTTGGCGGCGACGAGTTCGCCGCGATCCTGCTGGGCTGCTCGCTGCCGCGCGCGCAGCGCATCGCCGAAGACCTCAGCAGCGCGATCAAACAATTGGCCATTCCCTACGAGGACGGCGCGGTGCTCAACGTCGGCGCCAGCATCGGCGTGACCGCACTGCGGCCGGACATGAGCGGCGAGACTGCGGTCGCCGCGGTCGATGCGCTGTGCTACCAGGCCAAGGCCCGCGGCCGCAACAACGTGCAGGTCGGCGAGGACTGA	MAQVPIKPSTSETDASPAPPASLPVADDLETLRAALAEERQQRQRLEAVIEAVAPARWEWDIAEHRVQLEPGWAAILGYTLEELAPIDEDTWRNLVHPDDLAASREAMRAHADGLTETYEAVFRMRHRRGYWLWIQSRARIYQRDADGRPLRMAGALSDVSALHQVKRDAAQTRLQLQALIEASDDVAIIATDTEGNISLFNAGAERLLGYRAEEVVGKLTPVAFHVPEQLQARMQLARERLGREPTPFESLNFETVDGTATGDWTFARKDGSRCQVRLSITELRDAAGARVGLFGIAIDLTPIIEAREQARIEAEKFSGAFRAAALGMALVSLEGGWLDVNDALCAMLGYSREQLLRTDFQSLTHPEDLDSDLALLQRLVAGEIESYQMDKRYIAHDGRLVWARLSVSMLRAPDGAPLHFVSQIQDVTLEKTSLQRLRDSEERTRITLDTVLDLVVTLDERGVVQYANAAAQRLLGDETRPSPVGRRIQDVLRMTTEYAPRTVLDLAPLLEEEANAVDLGQDLLLPVNGSLMPIEITRAWLRDTQGRSEGAVWVIRDVTQQRMRQREALRLAEVDPLTELANRRGFDGQLEEALLRLRERGQPSSLIYMDLDGFKAVNDQHGHPAGDLVLERVGRLLKSSVRDLDVVARLGGDEFAAILLGCSLPRAQRIAEDLSSAIKQLAIPYEDGAVLNVGASIGVTALRPDMSGETAVAAVDALCYQAKARGRNNVQVGED	PGPT0026205_374	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|CRP_SIGNALLING_PATHWAY,PGPT0026205-yegE-K21084	NA	NA
BMS020_05134	1395	ramB	COG1396	HTH-type transcriptional regulator RamB	ATGCCCGCCAGCCACCGCCATCTCGGAGCCCGCCTGCGCCGCCTGCGCCAGCAGCAGGGCCTGAGCCAGGCCGAACTGGCGCGACGCCTGCAGCTCTCGCCGAGCTACCTGAACCAGATCGAGCGCAACCAGCGCCCGCTGACCGCGGACGTGCAGCAGCGGCTGCAGGCGGTGCTCGGCGATCTGGAAGCGTTGTTCGAGCCCGGCGACCCGGCCGCGCTGGCCACCCCGTTGGGCGAGACCCTGCGCGCGCTCGGCCATGGCGATGCCGGCGCCACCGACCTGCGCGCCCTCGCCGGCGACCATCCGCAGGTCGCGCTGGCCCTGCTCGACCTGCACCGCCAGCACCGCCAGCTGCAGGAACGCGCCGCCGCGCTGGAACTGCAGCTTGGCCATGCCCCGGCCGCGGCGCCGCTGCTGCCACCGGGCGACCAGGTCCGCGACTACTTCAACCGCGCCCACAACCACGTCGCCGAGCTGGACCAGGCCGCCGAGGCGCTGCATGCCGAACTGGCCGTGGCCAGCCCGTCCGAGCTGGTGCCGCGCCTGCGTCAACGCCTGCTCGAGCGCCACGGCCTGCAGGTCCGCGCGATCGGCAGCGATGACGCCCCCCCGGGCGGCGACAAGCGCGTGCTCGACCCCACCCACCGCACGCTATGGCTGGCCGACCATCTCAAGCCCGGCCAGCAGGCGTTCCAGCTGGCCGCGCAACTGGCCCTGCTCGACTACACGCCGCTGCTGCAGGCGCGCATCGACGACGCCGGCTTCGACGACCCCGAACGCACCGCGCTGATGCGCATCGGCCTGTCCAACTACTTCGCCGGCGCGCTGGTGATGCCGTACGCCGACGTCCTGGCCAGCGCGCGGGCGTGGCGCTACGACATCGACCGCCTGGCCCAGCACTTCGGGGTCGGCTTCGAGGCGGTCTGCCACCGGCTCAGCACCCTGCAGCGCCCGGGCGCCGAGGGCCTGCCGATCTTCTTCCTGCGCGTGGACCGCGCCGGCAACGTGTCCAAGCGCCATTCCTCGACCGATTTCCACTTCTCCCACGTCGGCGGCGCCTGCCCGTTGTGGATCGTCTACGAGGCGTTCAACCAGCCGGGGCGGATCCTGACCCAGATCGCGCGCATGCCCGACGGTCGCCGCTATTTCTGGCTGGCGCGCCAGGTCAGCAGCGGCGAACCCGGCTACGGGCGCCCACGCAAGACCTTCGCCGTCACCGTCGGCTGCGACCTGCGCCATGCCGACCAGCTGGTCTATGCGCGTGGCTGGGACCTGGAGGCGGTCGACGACGCGGTGCCGATCGGCCCGGGCTGCCTGACCTGCGAACGCGCGCACTGCGTGCAGCGGGCCTTCCCCGCCCTGCCTCGACTGCGCACGCCCCCCCGGCCGTGA	MPASHRHLGARLRRLRQQQGLSQAELARRLQLSPSYLNQIERNQRPLTADVQQRLQAVLGDLEALFEPGDPAALATPLGETLRALGHGDAGATDLRALAGDHPQVALALLDLHRQHRQLQERAAALELQLGHAPAAAPLLPPGDQVRDYFNRAHNHVAELDQAAEALHAELAVASPSELVPRLRQRLLERHGLQVRAIGSDDAPPGGDKRVLDPTHRTLWLADHLKPGQQAFQLAAQLALLDYTPLLQARIDDAGFDDPERTALMRIGLSNYFAGALVMPYADVLASARAWRYDIDRLAQHFGVGFEAVCHRLSTLQRPGAEGLPIFFLRVDRAGNVSKRHSSTDFHFSHVGGACPLWIVYEAFNQPGRILTQIARMPDGRRYFWLARQVSSGEPGYGRPRKTFAVTVGCDLRHADQLVYARGWDLEAVDDAVPIGPGCLTCERAHCVQRAFPALPRLRTPPRP				NA	NA	NA	NA	NA
BMS020_05135	1506	mmsA	COG1012	Methylmalonate-semialdehyde dehydrogenase [acylating]	ATGAGCGAATCCGTCTCCCGCGTGTCCCTGCTGATCGACGGCGACTTCGTCGAATCGGCGACCACCGACTGGAAGGACGTGGTCAATCCGGCCACCCAGGCGGTGCTGGCCAAGGTCCCGTTTGCGACCGCGGCCGAGGTCGATGCCGCGGTTGCCGCGGCCAAGGCGGCGTTCACGACCTGGCGCAAGACCCCGATCGGCACCCGCGCGCGGATCTTCCTGAAGTACCAGCAGCTGATCCGCGAGCACATGGGGGAGCTGGCGGCGCTGCTGACCGCCGAACAGGGCAAGACCCTGCCCGATGCCGAAGGCGACGTGTTCCGCGGCCTGGAGGTGGTCGAGCACGCCGCGGCGATCGGCAACCTGCAGCTCGGCGAACTGGCCAACAACGTCGCTGGCGGCGTGGACACCTACACACTGCAGCAGCCGTTGGGCGTATGCGCCGGCATCACCCCGTTCAACTTCCCGGCGATGATCCCGCTGTGGATGTTCCCGATGGCGATCGCCACCGGCAACACCTTCGTGCTCAAGCCGTCCGAGCAGGACCCGATGGTGACGATGCGGCTGGTCGAGCTGGCGCTGGAGGCCGGCATCCCCAAGGGCGTGCTGAACGTCGTGCATGGCGGGCCCGACGTGGTCAACGCGATCTGCGACCACCCGGACATCAAGGCGGTGTCCTTCGTCGGTTCGACCAAGGTCGGTACCCACGTCTACAACCGCGCCTCGCTGGCCGGCAAGCGCGTGCAATGCATGATGGGGGCGAAGAATCACGCGGTGGTGCTGCCGGACGCGAACAAGGAACAGACCCTCAACGCGATGGTCGGCGCCGCGTTCGGCGCGGCCGGCCAGCGCTGCATGGCCGCTTCGACGCTGGTGCTGGTCGGTGAGGCGCGCAGCTGGATTCCCGACCTGGTGGCCAAGGCGAAGACGCTCAAGGTCAACGGCGGCACCGAAGCCGGCACCGACGTCGGGCCGCTGATCTCCTGTGCCGCGCGCGAGCGCGTCGAAGGCCTGATCGCCTCCGGCGTGGAGCAGGGCGCGAGGCTCGAACTCGATGGCCGCAATCCGCACGTGGCCGGTTACACGCGCGGCAACTTCGTCGGTCCGACGATCTTCTCCGGGGTCACGCCGGGCATGCGCATCTACGACGAGGAGATCTTCGGGCCGGTGCTGGTGATCCTCGGCGCGGACACGCTCGACGACGCCATCGCGCTGGTCAATGCCAACCCGAACGGCAACGGCACTGCGGTGTTCACCCAGTCCGGCGCGGCCGCGCGGCGCTTCCAGGAGGACATCGACGTCGGCCAGGTCGGCATCAACGTGCCGATCCCGGTGCCGGTGCCGCTGTTCTCGTTCACCGGCTCGCGCGCCTCCAAGCTCGGCGACCTCGGTCCGTACGGCAAGCAGGTGGTGATGTTCTACACCCAGACCAAGACCGTGACCGCGCGCTGGTTCGACGACAGCACGCTCGGCCACGGCGTCAACACCACGATCAACCTGAAGTGA	MSESVSRVSLLIDGDFVESATTDWKDVVNPATQAVLAKVPFATAAEVDAAVAAAKAAFTTWRKTPIGTRARIFLKYQQLIREHMGELAALLTAEQGKTLPDAEGDVFRGLEVVEHAAAIGNLQLGELANNVAGGVDTYTLQQPLGVCAGITPFNFPAMIPLWMFPMAIATGNTFVLKPSEQDPMVTMRLVELALEAGIPKGVLNVVHGGPDVVNAICDHPDIKAVSFVGSTKVGTHVYNRASLAGKRVQCMMGAKNHAVVLPDANKEQTLNAMVGAAFGAAGQRCMAASTLVLVGEARSWIPDLVAKAKTLKVNGGTEAGTDVGPLISCAARERVEGLIASGVEQGARLELDGRNPHVAGYTRGNFVGPTIFSGVTPGMRIYDEEIFGPVLVILGADTLDDAIALVNANPNGNGTAVFTQSGAAARRFQEDIDVGQVGINVPIPVPVPLFSFTGSRASKLGDLGPYGKQVVMFYTQTKTVTARWFDDSTLGHGVNTTINLK	PGPT0002295_1466	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
BMS020_05136	1182	acdA_2	COG1960	Acyl-CoA dehydrogenase	ATGAATGCCGCGATGCAGATGCCGTTCGAGACGGCCGAGCTCAACGAGGAGCAGGAGGCGTTCCGCCAGGCCGCGCGCGATTTCGCGCTGAAGGAGCTGGCGCCGCATGCCGCGCGCTGGGACGAGGAGGGGCAGTTTCCGCGCGAGGCGCTGGCCAAGGGCGGTGAACTGGGCTTCTGCGGGCTGTATACCGACGAAGCCTGCGGCGGGCTGGGGCTGAAACGGCTGGATTCGGCGATCGTGTTCGAGGAAATGGCGGCGGTGGATCCGTCCACCTCGGCGTTCTTCTCGATCCACAACATGGCCACCTGGCTGATCACCAGCTTCGCGCAGGAACCGCTGCGCCGGCACTGGGGCCCCGCGCTCGCCAGCGGCGAGAAGCTGGCCTCGTATTGCCTGACCGAGCCGGGCGCCGGCTCCGACGCGGCCGGGCTGAAGACCCGCGCGGTGCGCGATGGCGACGACTACGTGCTCGATGGCAGCAAGGCCTTCATCTCCGGCGCCGGGGCCACCGACGTGCTGGTGGTGATGGCGCGCACCGGCGAAGAGGGCGCGCGCGGCATCAGCGCCTTCGTGGTGCCGGCCGATGCGAAGGGCATCAGCTACGGGCGCAAGGAAGAAAAGATGGGCTGGAACAGCCAGCCCACGCGCGGCATAACCTTCGAGGGCGTGCGCATTCCCGCGGGCAACCTGCTGGGCAAGGAGGGCGAGGGTTTCAAGCTGGCGATGAAGGCGCTGGATGGCGGTCGCATCAACATCGCCGCCTGCTCGCTGGGCGCCGCGCAGGGCGCGCTGGACGCGGCGCGGCGCTACATGGGCGAGCGCCGCCAGTTCGGCAAGAAGCTGGCCGATTTCCAGGCGCTGCAGTTCAAGCTCGCCGACATGGCCACCCAGCTGGTCGCCGCGCGGCAGATGGTGCACACCGCCGCGCGCAAGCTCGATGCCGGCGCGCGCGATGCCACGGTCTGGTGCGCGATGGCCAAGCGCTTCGCCACCGACGCGGGATTTGCGATCTGCGACGAGGCGCTGCAGATCCATGGCGGCTACGGCTACATCCGCGAGTACCCGATCGAGCGGCTGCTGCGCGATTCGCGCGTGCACCGGATCCTGGAGGGGACCAACGAAGTGATGCGCATGATCGTCGCCCGCCACCTGCTGTCCACCGACGAGGAACTGCGATGA	MNAAMQMPFETAELNEEQEAFRQAARDFALKELAPHAARWDEEGQFPREALAKGGELGFCGLYTDEACGGLGLKRLDSAIVFEEMAAVDPSTSAFFSIHNMATWLITSFAQEPLRRHWGPALASGEKLASYCLTEPGAGSDAAGLKTRAVRDGDDYVLDGSKAFISGAGATDVLVVMARTGEEGARGISAFVVPADAKGISYGRKEEKMGWNSQPTRGITFEGVRIPAGNLLGKEGEGFKLAMKALDGGRINIAACSLGAAQGALDAARRYMGERRQFGKKLADFQALQFKLADMATQLVAARQMVHTAARKLDAGARDATVWCAMAKRFATDAGFAICDEALQIHGGYGYIREYPIERLLRDSRVHRILEGTNEVMRMIVARHLLSTDEELR	PGPT0002285_345	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
BMS020_05137	798	crt_1	COG1024	Short-chain-enoyl-CoA hydratase	ATGAGCGCCTGGTTGCAGCGCGAGCATGCCGGCCTGAAGGTCGAGCGCGATGGCCATGTCGCCATCCTCACCCTGTCCAATCCGCCGGCCAACACCTGGACCGTGCACAGCCTGGCCGCGTTGCGCGAGCTGGTGGTGGCGCTGAACGCCGATCGCGGCATCTACGCGCTGGTGGTCACCGGCGAAGGCGGCAAGTTCTTCAGCGCCGGGGCCGAACTCAAGCAGTTCGCTGACGGCGACAAGGCCGCCGCACGCGCTGCCGCGCGCCGCTTCGGCGAGGCGTTCGAGGCCTTGAGCGGCTTCCGTGGGGTGTCGATCGCCGCGATCAACGGCTACGCGATGGGCGGCGGGCTGGAATGCGCGCTGGCCTGCGACCTGCGCGTCGCCGAGGAACAGGCGCAGCTGGCGCTGCCGGAAGCGAGCGTGGGCCTGCTGCCGTGCGCCGGCGGCACCCAGAACCTGCCGCGGCTGGTCGGCGAAGGCTGGGCGAAGCGGATGATCCTGCTCGGCGAGCGCATCGATGCGGCGACCGCGCTGCGCATCGGGCTGATCGAAGAGCTGGTGGGACAGGGTGAAGCGAAGGCGCGCGCGCTGGAATGGGCGCACCAGGCGGGCCGGCAGAGTCCCGCGGCGGTGGCCGCGTGCAAGGCGCTGGTGCAGTCCACCCGCCATGGCAGCCATGCCGCAGCGCTGGTGGCCGAACGCGAGGCCTTCGTCGACCTGTTCGACAGCGCCGACCAGGCCGAGGGCGTGAACGCCTTCCTGGAAAAGCGCGCGCCGCAGTGGAGCAACGCATGA	MSAWLQREHAGLKVERDGHVAILTLSNPPANTWTVHSLAALRELVVALNADRGIYALVVTGEGGKFFSAGAELKQFADGDKAAARAAARRFGEAFEALSGFRGVSIAAINGYAMGGGLECALACDLRVAEEQAQLALPEASVGLLPCAGGTQNLPRLVGEGWAKRMILLGERIDAATALRIGLIEELVGQGEAKARALEWAHQAGRQSPAAVAACKALVQSTRHGSHAAALVAEREAFVDLFDSADQAEGVNAFLEKRAPQWSNA	PGPT0008390_165	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008390-fadB-K13767	NA	NA
BMS020_05138	1143	menB_2		1,4-dihydroxy-2-naphthoyl-CoA synthase	ATGAACCTGCCGGTCGACGTCGAGGCGCCGGTGCTGTTCGAGGAACGCGATGCCGGCGGCGGGCGCCGCATCGGCATCGCCACCCTCAATATGCCGGGCTCGCTCAATGGGTTGTCGCTGGCGATGACCCGCTTGCTGGATGCGCGCCTGCGCGCCTGGTCCGCCGATGCCGCGATCGCCTGCGTGGTGCTGCGCGGTGCTGGCGAGAAGGCGTTCTGTGCCGGCGGCGACCTGCAGGGGCTGTACCGCAGCATGCGCGAGCAGCCGCAGGCCGACGGCGATATCGCCGCCAACCGCTACGCCGCGCAGTTCTTCGAAGAGGAGTACCGCCTCGACCACTTCATCCATACCTATCCCAAGCCGATCCTGTGCTGGGGCCACGGCATCGTGATGGGCGGCGGCATCGGCCTGATGGCCGGTGCCAGCCATCGCGTGGTCACCGAGCGCTCGAAGCTGGCGTTCCCGGAGATCGGCATCGGCCTGTTTCCGGATGTGGGCGGCAGCTGGTTGCTGCGGCAGGTGCCGCGTGGGGCCGGCATGTTCCTGGCGCTCACCGGCGCGCCGCTCAACGCCAGCGATGCGATCCATGCCGGGTTGGCGGACGTGTGCATCGACAGCAGCCAGCATGAGGCGGTGCTCGATGCCTTGTGCGGGCACGCCTGGAGCGGCGACGCGGGCGACGACCGCGAGCAGCTGCACCGTTTCCTCGATGACAGCGCGCAGACGCTGCCGCCGGGACCGCTGCAGGAACACGCAGCGCTGCTGCGCGACATCGTCGCGCTGCCGACCTTGGAGGCGGTGGTCGCGGCGATCGCGCGGATCGACAGCGAGGAGCCGTGGTTGCGGGCCGCGGTCGCCACGCTGCGCGGCGGCGCGCCCGGCTCGGCACGGCTGGCCTGGGAGCTGCAGCGTGGCGACGCCACGCGCACCTTGGCCGATGCGTTCCGCACCGAGTACACGGTGGCGCTGCACGCGGCGGCGCACGGCGATTTCGCCGAGGGCATCCGTGCGCTGCTGATCGACAAGGACCGCACGCCGCATTGGCAGCCGGCGACGCTGGAGGAGGCGGATGCGGCCTGGGCCGCGCGCTTCTTCGCGGCGCCATGGCCGCCGGCACAGCATCCGTTGGCCGACCTGAGGTAA	MNLPVDVEAPVLFEERDAGGGRRIGIATLNMPGSLNGLSLAMTRLLDARLRAWSADAAIACVVLRGAGEKAFCAGGDLQGLYRSMREQPQADGDIAANRYAAQFFEEEYRLDHFIHTYPKPILCWGHGIVMGGGIGLMAGASHRVVTERSKLAFPEIGIGLFPDVGGSWLLRQVPRGAGMFLALTGAPLNASDAIHAGLADVCIDSSQHEAVLDALCGHAWSGDAGDDREQLHRFLDDSAQTLPPGPLQEHAALLRDIVALPTLEAVVAAIARIDSEEPWLRAAVATLRGGAPGSARLAWELQRGDATRTLADAFRTEYTVALHAAAHGDFAEGIRALLIDKDRTPHWQPATLEEADAAWAARFFAAPWPPAQHPLADLR	PGPT0001860_209	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0001860-paaF|echA-K01692	NA	NA
BMS020_05139	891	mmsB	COG2084	3-hydroxyisobutyrate dehydrogenase	ATGAGCCGTATCGCCTTCATCGGACTGGGCAACATGGGCGGCCCGATGGCCGCCAATCTGGTCAAGGCCGGCCACGCGCTGCGCGTGTTCGACCTGGTGCCGGCCGCGCTCGACGCCGCGGTCGCCGCTGGTGCCACGGCGGCCGCGACGGCCGCCGATACTCTGATCGATGCTGAGATCGTCGTATCGATGTTGCCGGCCAGTCGCCACGTCGAGGGCCTCTACCTCGGCGAAGGCGGCATCCTGGCGCGGATTCCCGCCGGCGCCCTGGTCATCGACTGCAGCACGATCGCCCCGGCCGCGGCGCGCAAGGTCGCCGAGGCCGCTGCCGTGCGCGGGCTGCAGATGCTTGATGCGCCGGTGTCGGGTGGCACCGCCGGGGCCGCCGCCGGCACGCTGACCTTCATCGTCGGCGGCGACGCCGGGGCGCTGGAACGCGCGCGCCCGCTGCTGCAGGCGATGGGGCGCAACATCTTCCACATGGGCGCGGCCGGTGCCGGCCAGGTCGCCAAGCTCTGCAACAACATGGCGCTGGGCGTGATCATGGCGGTCACCGGCGAGGCGGTGGCGCTCGGTGTCGCGCACGGCCTCGATGCCAGCGCGCTGTCGCAGATGATGGCGGTCAGTACCGGGCGCAGCTGGGCCACCGAGGTCTGCAATCCGTGGCCGGGCGTGCTCGAGAACGCGCCGGCCTCGCGTGGCTACAGCGGCGGCTTCGGCAACGACCTGATGCTCAAGGACCTGGGGCTGGCGGTGGAGGCGGCGATGTCCAGCGGTGCCTCGATCCCGCTCGGTGAACTGGCACGCAACCTCTATGCGATGAACAGTCGTGCCGGCAACGGCAAGCTGGACTTCTCCAGCGTGGTGAAGTTGGTCGCCGACGTCGGCTGA	MSRIAFIGLGNMGGPMAANLVKAGHALRVFDLVPAALDAAVAAGATAAATAADTLIDAEIVVSMLPASRHVEGLYLGEGGILARIPAGALVIDCSTIAPAAARKVAEAAAVRGLQMLDAPVSGGTAGAAAGTLTFIVGGDAGALERARPLLQAMGRNIFHMGAAGAGQVAKLCNNMALGVIMAVTGEAVALGVAHGLDASALSQMMAVSTGRSWATEVCNPWPGVLENAPASRGYSGGFGNDLMLKDLGLAVEAAMSSGASIPLGELARNLYAMNSRAGNGKLDFSSVVKLVADVG	PGPT0018170_869	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
BMS020_05140	1104	czcD		Metal cation efflux system protein CzcD	ATGCGCGGCACTAACGTGTGCGCATTCAACCGGGCCGCGACGATGGGACACGACCACAACCACGCACCGAGCGTGATCCGCCACGAGACACCGTTGTGGTGGGCGTTGGCGCTGACCGGCGGTTTCATGGCCGCCGAGATCGTCGGCGCGTTCCTGACCAACAGCCTGGCGCTGCTTTCCGACGCCGCGCACATGGCCACCGATACCCTGGGACTGATGGTCGCGCTGCTCGCGGTGCGGCTGAGCCGGCGTCCGCCGGATGCGCGCCGCACCTACGGCTATGCGCGGCTGGAAGCGCTCGGCGCGCTGTTCAACGGCGCGTTGCTGTTCCTGGTCGGCGCCTACATCCTGTGGGAGGCGGTGCAGCGATTCCGTGCGCCGCAACCGATCGCCACCACCGGCATGCTGGTGGTCGCCTCGCTCGGCCTGGTGGTCAACCTGGTGGCGATGAAGCTGCTGCACGCCGGCAGCGGCGAGAGCCTCAACGTCAAGGGCGCGTATCTCGAAGTGTGGAGCGACATGCTCGGCTCGGTGGCGGTGATCATCGGCGCGCTGCTGATCCGCGTGACCGGCTGGCACCTGCTCGATCCGCTGCTGGCGGTGCTGATCGGCCTGTGGGTGCTGCCGCGCACCTGGCTGCTGCTGCGCGAGGCGATCAACGTGCTGCTCGAAGGCGTGCCGAAGGGTGTGGACCTGGCTGCGGTGCGGGCGGCGCTGTGTGCGCAGCCGGGCGTCGTGGACGTGCATGATCTGCACGTCTGGGCGCTGGCCTCCAGTACCCCGGCGCTGACCGCGCACGTAGTGGCCGCCGACGGGATCGAGGGCGACGGCCTGCGCCGCGAACTGGCGACGCTGCTGCACGCGCGCTTCGACATCGACCACGTGACCCTGCAGGTCGAGGCCGACCATTGCGGCGACGCCTGTGCGGTGCACGGGCCGGCGAAGGCGCATGCGCACGCCGACGGCCATGCACATGACCATGGTGACCACGACCACGACCACGACCACGACCACGACCACAGTCGCAGTCGCAGTCACAGTCATGACCATGACCATGACCGGCACGTCGATGCCCGCGGCCATCACGGCGTGACGCATCGCTGA	MRGTNVCAFNRAATMGHDHNHAPSVIRHETPLWWALALTGGFMAAEIVGAFLTNSLALLSDAAHMATDTLGLMVALLAVRLSRRPPDARRTYGYARLEALGALFNGALLFLVGAYILWEAVQRFRAPQPIATTGMLVVASLGLVVNLVAMKLLHAGSGESLNVKGAYLEVWSDMLGSVAVIIGALLIRVTGWHLLDPLLAVLIGLWVLPRTWLLLREAINVLLEGVPKGVDLAAVRAALCAQPGVVDVHDLHVWALASSTPALTAHVVAADGIEGDGLRRELATLLHARFDIDHVTLQVEADHCGDACAVHGPAKAHAHADGHAHDHGDHDHDHDHDHDHSRSRSHSHDHDHDRHVDARGHHGVTHR	PGPT0004255_708	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004255-czcD|zitB|yrdO-K16264	NA	NA
BMS020_05141	2118	fadJ_2	COG1024	Fatty acid oxidation complex subunit alpha	ATGATAACGGGCCTTTCCATACATACCCGGATGGTCAGTCCGATGCTCTCAGGCTTCGATGGGCTCCGATTCAGTCACTGGCAAGCGGAGATCCGCGACGACGGCGTGGTCGTGCTCAGCCTCGACCGCCAGGACGCGGCGGTCAATGCGTTTTCCCAGGACGTGCTGCTGGAACTCGGCGACCTGATCGAGCGCATCGCGATCGATCCGCCCAAGGGCGTGGTGATCCGTTCGGGCAAGGCCAACGGCTTCATCGCCGGCGCCGACCTGAAGGAATTCCAGGAGTACGACCGCCGCGGCACCGTCAACGACGCGATCCGCCGCGGCCAGAGCACGTTCCAGAAGCTGGCCGAACTGCCCTGCCCCACGGTGGCGGCGATCCACGGCTTCTGCATGGGCGGCGGTACCGAGATCGCGCTGGCCTGCGACTACCGCATCGCCAGCGACGATGCCTCCACCCGCATCGGCCTGCCCGAGACCAAGCTCGGCATCTTCCCCGGCTGGGGCGGCAGCGCCCGGCTGCCGCGCCTGATCGGCGCACCGGCGGCGATGGACCTGATGCTGACCGGACGCACCGTGTCGGCCAGTGCCGCGCGCGGCATGGGCCTGGTCGACAAGGTCGCCGCACCGGCGGTGCTGCTCGATGGTGCGGTCGCACTGGCGCTGTCCGGCGCCACCCGGCCGCTGAAGCAGCGCCTGCTCGGCTGGGCCAGCAACACCTGGCTGGCGCGCAAGCTGCTCGCCCCGCAGATGACCAAGCAGGTCGCGCGCAAGGCCAAGAAGGACCACTACCCGGCGCCGTACGCGCTGATCGGGGTCTGGCAGCGCGCCGGCGGCAGTGGCATCCAGGCACGCCTGGATGCCGAGCGCCGCGCAGTGGTCAAGCTGGCCAGCACCCCGACCGCGCGCAACCTGATCCGCATCTTCTTCCTGACCGAACGGCTCAAGGGCCTGGGCGGCAAGGATCACGGGATCAAGCACGTGCACGTGGTCGGCGCCGGCGTGATGGGCGGCGACATCGCGGCCTGGTCGGCCTACAAGGGCTTCGAGGTGACGCTGCAGGACCGCGAACAGCGCTTCATCGACGGCGCGCTCGGCCGCGCCCAGGAGCTGTTCGGCAAGCGTGTGCGCGATGCCGCCAAGCGACCGGCGGTGGCGGCGCGGCTGCGGGGCGACCTGGCTGGCGACGGCGTGGCACGCGCCGACCTGGTGATCGAGGCGATCATTGAGAACCCCGAGGCCAAGCGCGCGCTGTACGAAACCGTCGAGCCGCGCTTGAAGCCGGACGCGCTGCTGACCACCAACACCTCCTCGATCCCGCTGGACGAGCTGCGCGAGCACATCGACCGCCCGGCGCAGTTCGCCGGCCTGCACTACTTCAACCCGGTGGCGATGATGCCGCTGGTGGAGATCGTCCAGCACGACCGGCTGGACGCGGCCACGACCCGGCGCCTGGCGGCGTTCTGCAAGGCGCTGGACAAGTTCCCGGTGCCGGTGGCCGGCACCCCGGGCTTCCTGGTCAACCGGGTGCTGTTCCCGTACATGCTGGAAGCGGCCAACGCCTATGCCGAGGGCATCCCCGGCGCGGTGATCGACAAGGCCGCGGTGAAGTTCGGCATGCCGATGGGCCCGATCGAGCTGATCGACACCGTGGGCCTGGACGTGGCCGCCGGCGTCGGCGCAGAGCTGTCGCCGTTCCTCGGCCTGCAGCTGCCGGCGGCGCTGGCGACGGTCGAGCCGGGCAAGCGCGGCAAGAAGGATGGCCAGGGCCTGTACACGTGGCAGCAGGGCGAACGCGGCAGCAAGGCGGTCAAGCCGGAGGTTCCGGCCGGCTACCAGGCGCCGGACGACCTGGAAGACCGCCTGATCCTGCCGCTGCTCAACGAAGCGGTGGCCTGCCTGCACGACGGCGTGGTCGCCGACGCCGACCTGCTCGATGCCGGGGTGATCTTCGGCACCGGCTTCGCCCCGTTCCGCGGCGGTCCGATCCAGCACATCCGCGCGACCGGCGCCGATGCGCTGCTGGCGCGCCTGAAGGCGCTGCAGGCGCGTCACGGCGAGCGCTTTGCGCCGCGCCCGGGCTGGGATTCGCCACTGCTGCGCGAACCGGTGGCCTGA	MITGLSIHTRMVSPMLSGFDGLRFSHWQAEIRDDGVVVLSLDRQDAAVNAFSQDVLLELGDLIERIAIDPPKGVVIRSGKANGFIAGADLKEFQEYDRRGTVNDAIRRGQSTFQKLAELPCPTVAAIHGFCMGGGTEIALACDYRIASDDASTRIGLPETKLGIFPGWGGSARLPRLIGAPAAMDLMLTGRTVSASAARGMGLVDKVAAPAVLLDGAVALALSGATRPLKQRLLGWASNTWLARKLLAPQMTKQVARKAKKDHYPAPYALIGVWQRAGGSGIQARLDAERRAVVKLASTPTARNLIRIFFLTERLKGLGGKDHGIKHVHVVGAGVMGGDIAAWSAYKGFEVTLQDREQRFIDGALGRAQELFGKRVRDAAKRPAVAARLRGDLAGDGVARADLVIEAIIENPEAKRALYETVEPRLKPDALLTTNTSSIPLDELREHIDRPAQFAGLHYFNPVAMMPLVEIVQHDRLDAATTRRLAAFCKALDKFPVPVAGTPGFLVNRVLFPYMLEAANAYAEGIPGAVIDKAAVKFGMPMGPIELIDTVGLDVAAGVGAELSPFLGLQLPAALATVEPGKRGKKDGQGLYTWQQGERGSKAVKPEVPAGYQAPDDLEDRLILPLLNEAVACLHDGVVADADLLDAGVIFGTGFAPFRGGPIQHIRATGADALLARLKALQARHGERFAPRPGWDSPLLREPVA	PGPT0001870_1722	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0001870-fadJ-K01782	NA	NA
BMS020_05142	621	algU	COG1595	RNA polymerase sigma-H factor	ATGGCCGAAGTCGAAACACCTCAGGAGCTGGATCTGGAACTGGTCCGGCGTGTGCAGCGCGGCGAGTCCGCGGCGTTCGATGTGCTGGTGCGCAGGTACCAGCACCGGATCGTCGCCCTGATCGGGCGCTACATCGCCGACTGGAGCGAATGTCAGGACGTGGCCCAGGACACCTTCATCCGCGCCTACCGCGCGATCGGGAGTTTCCGCGGCGACGCCCAGTTCTATACCTGGTTGCACCGCATCGCCGTGAACACCGCCAAGAACCATCTGGTCGCGCACAACCGCCGCCCGCCCACCGACGACATCGACGTCGCCGATGCGGAGCAGTTCGAGGGTGGGGTGCGCCTGCGCGACACCGATACGCCGGAACATGAACTGATGCGCCAGGAGCTGGAACAAACCGTGATGCGCGCGGTCCAAGCCTTGCCAGAGGAACTGCGTGCCGCCATCACCCTGCGCGAGGTGGAGGGCATGAGCTACGAGGACATCGCGCAGAAGATGGGTTGTCCGATCGGAACGGTGCGCTCGCGCATCTTCCGGGCCCGCGAGGCCATCGACGCAGAACTGCGGCCGTTGTTGGACACCGCCAGTGCTACCCGTGAGCGACATCGCGTATGA	MAEVETPQELDLELVRRVQRGESAAFDVLVRRYQHRIVALIGRYIADWSECQDVAQDTFIRAYRAIGSFRGDAQFYTWLHRIAVNTAKNHLVAHNRRPPTDDIDVADAEQFEGGVRLRDTDTPEHELMRQELEQTVMRAVQALPEELRAAITLREVEGMSYEDIAQKMGCPIGTVRSRIFRAREAIDAELRPLLDTASATRERHRV	PGPT0014960_4462	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS020_05143	483			hypothetical protein	ATGAAACAGATCACCCTTAGCGATATGCAGCAGCAGAGCGAAGCGGCGGCCAGTTCCCCGCGCTTACGTGCCCATCGCAATTTTCACCCTGAGCTGAGCGACCCGGTGCAGCGTCTGGCTATCGCTATGGAACCCGGCACCTATATCCGCCCGCACCGGCACCGACATACCTTTGAACTTTTGCTGCCGCTGAAAGGTCGCTTTGTGGTGCTAAATTTTGATGATCATGGCGCGATCACTAACCGGGTGGTGCTGGGTGAAACCTGCATGGCGCTGGAAATGGAGCCTGGCACCTGGCATACGGTGCTCTCACTCGACGCTGGTGGAATGGTATTTGAAGTCAAACAAGGCGCTTATCAACCGCTTGCTGAAATCGACACTATGGACTGGGCGCCAGCAGAAGGTCAGCCGGGTACCGCGGAGATGATGTCCTGGTATGCCATCGCGCAGCCAGGAGATCGCTATCCCTCTGTAACCCGGTAA	MKQITLSDMQQQSEAAASSPRLRAHRNFHPELSDPVQRLAIAMEPGTYIRPHRHRHTFELLLPLKGRFVVLNFDDHGAITNRVVLGETCMALEMEPGTWHTVLSLDAGGMVFEVKQGAYQPLAEIDTMDWAPAEGQPGTAEMMSWYAIAQPGDRYPSVTR				NA	NA	NA	NA	NA
BMS020_05144	813			hypothetical protein	ATGGAGTATTGTTCCCTTTCCCGGGCGCAAAAATTATTAAACTGTGAAATTGAAGACATTCTTCACTGGCATGATATCGGTGCGATCAATCTATGCCTGAAGCTTAACCCGACGCGGGGAACACTAAAACTCGCCGTCCTTTCTCATCAGGAAAAAGAGGTAACCAACACATTTAATCCACTCAATTCATCTGAGACGCTGGAAACCTACTGGTCGCCACACTCCCATATCCATAGCATTTTGCGGATTGATGGCGATATTCCCGTCATGGAAACCCAGAGCGGGAATACCGTCACGCAGTTCAACGTCAAGGTCACAGCTTCAGGACTCTGGCATCCGCACAGCCGGAATTTAATGGCGTTGCTGGAGGCGCCTAACGATATTCATCGTGAAAACAGGTTCAGCATGATGCTGCCTGAGAAACCGTTTGTTTATTGTCACTTCATTCCGCAGGAAGCCGAAAACCCCATCCTGTCATTGAGTCGGCTCTATATTACCAGTCAGGCAATTGAGAAAATATTTGCCCATAGCATTAGCGCCCGACCGATGGATGTCACAAAAAATCCGCTACGGCAACAAACCGGTTATATCCATCAGGAATTAACCTCACTTCCGCAAAGTGAGGTACTGCTGGAATTTATCCACGATCTTATTCTGTCCCATAGTTTATTTAATGTGAAATTGCAGACCATGGCTGAGCCAGACAAGACCCAGCTCTTTCATCACGTGCTGGAAAGGCTGAAGGAGGAAGTCATGCTTAGAGAGAATGCCCTGCCCGACGAGGCCGACACCAGCAACGCAGCCCACCGTTAA	MEYCSLSRAQKLLNCEIEDILHWHDIGAINLCLKLNPTRGTLKLAVLSHQEKEVTNTFNPLNSSETLETYWSPHSHIHSILRIDGDIPVMETQSGNTVTQFNVKVTASGLWHPHSRNLMALLEAPNDIHRENRFSMMLPEKPFVYCHFIPQEAENPILSLSRLYITSQAIEKIFAHSISARPMDVTKNPLRQQTGYIHQELTSLPQSEVLLEFIHDLILSHSLFNVKLQTMAEPDKTQLFHHVLERLKEEVMLRENALPDEADTSNAAHR				NA	NA	NA	NA	NA
BMS020_05145	909	cynR_3		HTH-type transcriptional regulator CynR	ATGCTCCTGCGCCATCTTTCCTACTTTATCGCTGTGGCAGAACACCGTGGCTTTACCCGCGCCGCCGCGGCGCTGCACGTCTCCCAGCCGGCGCTGTCACAGCAGATCCGCCAGCTGGAAGCCATGCTGGAGGTTCAGCTTTTCGACCGCTCTGGCCGTTATATCCGGTTAACCGATGCCGGAGAGATCTGGCTGGAGTATGCCCGCCGGGCGTTACGCGATCTTGAGGAGGGGCGGCGCGCTCTGCATGACGCTGAGGATCTGCAGCGCGGCAAACTCCGCATTGCCATGACGCCGACCTTCACCACCTATATGCTGGGACCGCTGGTGGAAAACTACTATCGACGCTACCCCGGCGTGAAATTGCTGATCCAGGAGATGAACCAGGAGCGCATGGAAATGATGTTGCTGCAGGATGAACTGGATGTCGGCATCGCCTTTGACGACAGTCGTTCCCCGGATATTGTCGTTCAGCCGCTGCTGACGGAAACCCTCGCGCTGGTGGTGAGCCGCACGCATCCTCTGGCCAGAGAGAACGCGCTCAGGCTGCAGGCGCTCGACGCGCAGCCGCTGATTTTACTGAGCAGCGAGTTTGCCACCCGGGAGCAGATCGATCGTTATTGTCGTCGTCATCGGCTCGAACCTGACGTGCAGATGGAGGCCAACTCTATCGGCGCCGTTCTGTCGGTCATTCGGCGAACGCCCCTTGCGACACTGCTGCCGGCGGCGATCGCCGGGCAGTATGATGATGTGGTGGCGATTGAGCTGGAACCCGCGCTGCTGCAGCGAACGGCCTGTTTGCTCCAGCGCAGGGATGCGTGGCAGAGCGCCGCGGCACGCGAATTTATCGCCCTGGCGCGGGAGATTGCGATAACGCTTGAGCAGGAAAACCGCCTGCCTCCTGCCTGA	MLLRHLSYFIAVAEHRGFTRAAAALHVSQPALSQQIRQLEAMLEVQLFDRSGRYIRLTDAGEIWLEYARRALRDLEEGRRALHDAEDLQRGKLRIAMTPTFTTYMLGPLVENYYRRYPGVKLLIQEMNQERMEMMLLQDELDVGIAFDDSRSPDIVVQPLLTETLALVVSRTHPLARENALRLQALDAQPLILLSSEFATREQIDRYCRRHRLEPDVQMEANSIGAVLSVIRRTPLATLLPAAIAGQYDDVVAIELEPALLQRTACLLQRRDAWQSAAAREFIALAREIAITLEQENRLPPA				NA	NA	NA	NA	NA
BMS020_05146	459	guaD_2	COG0590	Guanine deaminase	ATGTCCGCTCACGATCGCTATCTCCAGCGCGCCTTAGCGCTGGCAAAACACAACACAACCCACGGTGGTCGCCCCTTTGGCGCCGTGATGGTGCGCCATAACGAGGTTGTCGCCGAAGCCGTCAACACCTTTCATCTGAGCGGCGACCCAACGGCGCATGCCGAACTGAATGCCGTTCGCGATATTGCCGCCAGGCTGGGAAGCGAAGTTCTGCGCGAATGCGTTATTTACGCCAGCGGACAGCCTTGTCCGATGTGTCTTAGCGCACTCTATTTAACCGGCGTGCGGGAAGTATTTTTCGCCAACAGCAATCAGGACGGAGAGCCTTTTCAGCTATCTACCGCCGCGATTTATCAGCAGTTGCAGCAGCCGCTGGCGCAGCAGACGTTGCCGATCCATCATCGCCCCCAGCCGGAGGGGCTGGCAGTTTATCAGCGGTGGGCGGAACAGCAGCCATGA	MSAHDRYLQRALALAKHNTTHGGRPFGAVMVRHNEVVAEAVNTFHLSGDPTAHAELNAVRDIAARLGSEVLRECVIYASGQPCPMCLSALYLTGVREVFFANSNQDGEPFQLSTAAIYQQLQQPLAQQTLPIHHRPQPEGLAVYQRWAEQQP	PGPT0021515_2752	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021515-guaD-K01487	NA	NA
BMS020_05147	1197	yycB	COG2807	putative transporter YycB	ATGAAAGCCGTGTTGCGACAGAATCTGACGCTGGGGATCCTGGTGCTGATCGGCATAAATATGCGGCCGCTGCTCACCTCCATCGGCCCTTTGCTTCCGGAGATCCGCGCCGCCAGTGGGATGAGCTATACCCTGGCCGCGCTACTGACCGCCCTGCCGGTGGTAGCGATGGGCGTGCTGGCGCTGGCCGGCGGCTGGGTCGATCGTCATGTCGGTCAAAACCGTAGCATTGCGCTAAGCCTGCTGATTATCGCGGCGGGCGCCCTGTTGCGGGAAATCGCCCCGAATAGCGGCCTACTGCTCACCAGCGCCCTGGCCGGAGGCGTTGGCATCGGCATCATCCAGGCTGCCATCCCGGCGGTGATTAAGCGCTTATTCGCCCGACGGACGCCGCTGGTAATGGGGCTATGGTCAGCTGCGCTAATGGGCGGTGGCGGGTTAGGCGCCGCGTTAACGCCGTGGCTGGCGTCGCACAGCACAGCCTGGCGGGATGCGCTGGCCTGGTGGGCGCTCCCCGCCCTCCTCGCCCTGCTCAGCTGGCTGGCGATTTGCCGGCACCTGCCCCGTGCTCCGCATCAGACCAGCGCCGCCCCCCGGGTAGCGATTATTGGCCAGCGCCGCGCCTGGACGCTGGGGCTCTATTTCGGACTGATCAATGCTGGCTACGCCAGTCTGATCGCCTGGCTGCCGCCCTATTATATGCAGCTTGGCGACAGCGCCCAGTACAGCGGCTCGCTGCTGGCGTTGCTGACGGTTGGGCAAACCGCGGGCGCGCTGCTGCTGCCGGCGCTGGCTCGCCAGGATGACCGGCGCCAGCTTCTGCTGTGTGCTCTGGCGCTCCAGCTGATTGGCTTCTGCGGCTTCATCTGGCTGCCGCAGCACTTCTCCGCGCTCTGGGCTCTCGCCTGCGGCGTCGGTCTGGGCGGCGCGTTTCCCCTGTGCCTGGTGCTGGCCCTCGATCATGCCGGACAACCGACGGTGGCCGGCCGGCTGGTAGCCTTTATGCAGGGTATCGGATTTATTATCGCCGGCCTGTCGCCCTGGCTTTCCGGCCTGCTGCGTAGCCTGAGCGGGAACTACACCCTTGACTGGTCCTGGCATGCGCTCTGTGTCCTGTTACTCATGGCGATCACGCTGCGCTTTATCCCGGCACACTACCCTGCCGAGTGGCGACAGCGCGCCTCTGATCTGCATTAA	MKAVLRQNLTLGILVLIGINMRPLLTSIGPLLPEIRAASGMSYTLAALLTALPVVAMGVLALAGGWVDRHVGQNRSIALSLLIIAAGALLREIAPNSGLLLTSALAGGVGIGIIQAAIPAVIKRLFARRTPLVMGLWSAALMGGGGLGAALTPWLASHSTAWRDALAWWALPALLALLSWLAICRHLPRAPHQTSAAPRVAIIGQRRAWTLGLYFGLINAGYASLIAWLPPYYMQLGDSAQYSGSLLALLTVGQTAGALLLPALARQDDRRQLLLCALALQLIGFCGFIWLPQHFSALWALACGVGLGGAFPLCLVLALDHAGQPTVAGRLVAFMQGIGFIIAGLSPWLSGLLRSLSGNYTLDWSWHALCVLLLMAITLRFIPAHYPAEWRQRASDLH	PGPT0005211_1776	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_CYANATE_DETOXIFICATION	XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449	NA	NA
BMS020_05148	1215	alaC_1	COG0436	Glutamate-pyruvate aminotransferase AlaC	ATGGCTGAATCCAGTCCTGAACGCCGTTTTACGCGTATCGATCGTCTCCCTCCGTACGTTTTTAATATTACTGCCGAACTGAAAATGGCTGCGCGCCGGCGCGGCGAAGATATTATTGATTTCAGTATGGGCAATCCCGATGGCGCGACGCCGCCGCATATCGTGGAAAAACTCTGCACCGTCGCCCAGCGGCCTGACACCCATGGTTACTCTACCTCGCGGGGGATCCCACGCCTGCGTCGCGCTATTTCGCGCTGGTATGAAGAACGCTATAACGTCGATATCGATCCGGAATCGGAAGCGATCGTCACCATTGGTTCGAAAGAGGGGCTGGCGCACCTGATGCTGGCGACGCTGGATCATGGCGACACCGTGCTGGTGCCGAACCCCAGCTACCCGATCCATATCTACGGCGCGGTGATTGCCGGGGCGCAGGTGCGCTCGGTGCCGCTGGTGGAAGGGGTGGATTTCTTTAACGAACTGGAACGCGCCATCCGCGAGAGCTATCCGAAGCCGAAGATGATGATCCTTGGCTTTCCCTCGAATCCGACCGCGCAGTGCGTCGAGCTGGATTTCTTTGAAAAGGTTGTCGCCCTGGCGAAGCAGTATGACATCCTGGTCGTCCACGATCTGGCCTATGCCGATATCGTGTATGACGGCTGGAAAGCGCCCTCCATCATGCAGGTGCCCGGCGCACGCGATGTCGCCGTCGAGTTCTTTACCCTGTCGAAAAGCTATAACATGGCCGGCTGGCGCATTGGCTTTATGGTCGGTAATAAGACCCTGGTGAACGCCCTTGCCCGCATCAAAAGCTACCATGACTACGGCACGTTTACGCCGCTGCAGGTGGCGGCGATCGCTGCCCTGGAGGGCGATCAGCAATGCGTGCGGGATATCGCTGAACAGTATAAGCGCCGCCGCGATGTGCTGGTGAAAGGGCTCCATGAGGCCGGCTGGATGGTGGAGTGTCCGAAAGCGTCCATGTACGTCTGGGCGAAAATTCCGGAACCTTATGCCGACATGGGCTCGCTGGAGTTTGCGAAAAAGCTGCTTAACGAAGCGAAGGTTTGCGTTTCTCCGGGGATTGGCTTTGGCGATTATGGCGATACCCATGTCCGCTTCGCGCTGATCGAGAACCGGGACCGGACGCGTCAGGCGATCCGCGGCATTAAGGCGATGTTCCGCGCGGATGGCTTGCTGCCCGCCGCGAGCTAG	MAESSPERRFTRIDRLPPYVFNITAELKMAARRRGEDIIDFSMGNPDGATPPHIVEKLCTVAQRPDTHGYSTSRGIPRLRRAISRWYEERYNVDIDPESEAIVTIGSKEGLAHLMLATLDHGDTVLVPNPSYPIHIYGAVIAGAQVRSVPLVEGVDFFNELERAIRESYPKPKMMILGFPSNPTAQCVELDFFEKVVALAKQYDILVVHDLAYADIVYDGWKAPSIMQVPGARDVAVEFFTLSKSYNMAGWRIGFMVGNKTLVNALARIKSYHDYGTFTPLQVAAIAALEGDQQCVRDIAEQYKRRRDVLVKGLHEAGWMVECPKASMYVWAKIPEPYADMGSLEFAKKLLNEAKVCVSPGIGFGDYGDTHVRFALIENRDRTRQAIRGIKAMFRADGLLPAAS				NA	NA	NA	NA	NA
BMS020_05149	1698	ypdA	COG3275	Sensor histidine kinase YpdA	ATGCACGAAATCTTTACTATGATGCTGGCGGTCTATGATCGTGCGGCCCTGATGCTTATTTGCCTGTTTTTTCTCATTCGCCTGCGCCTGTTCCGCGAACTGTTGCATAAGTCGGCGCATACGCCGAAAGAGCTGCTGGCTGTCACCGCCATTTTCTCGCTGTTCGCGCTCTTCAGTACCTGGTCCGGTGTGCCGGTGGAAGGATCGCTGGTAAACGTGCGCATCATCGCCGTGATGTCCGGCGGGATCCTGTTTGGTCCCTGGGTGGGGGCCATTGTCGGGGTGATTGCCGGTGTGCACCGCTATCTGATTGATATTGACGGCGTGACCGCCGTGCCCTGCTTTATCACCAGCATCATCGCCGGCCTGCTGTCGGGGTTGATTAACCGCAAAGTGGCCCGCGATCAACGCTGGAAAATCGGCATTCTGGCCGGAATGGTCTGCGAGACTCTGACCATGATCCTGGTGGTGATCTGGGCCCCTTCCCTCAGCCTCGGCGTGGATATTGTTTCGAAAATTGGTATCCCGATGATCCTCGGCAGCGTCTGCATCGGTTTTATCGTGCTGCTGGTGCAGAGCGTGGAAGGGGAAAAGGAGGCCAGCGCCGCGCGGCAGGCGAAACTGGCGCTCGACATTGCCAACAAAACCCTGCCGCTGTTCCGTCAGGTCAACAGCGATTCTCTGCGCCAGGTTTGCGACATTATCCGCCGCGACATTACCGCCGACGCGGTGGCGATCACCAATACGGAACACGTGCTGGCCTACGTGGGCGTCGGTGAAGCCAACTATCAACATCATAACGATGTCATCAGTCCCACCACCCGACAGGCCATCCGTTATGGAAAAATCATTATTAAAAACAATGATGAAGCCCACCGCACGCCGGAAATCCACTCCTTGATGGTCATTCCGCTGTGGGAAAAAGGGGTGGTCACCGGTACGCTAAAAATCTATTACTGCCACGCCCATCGCATCACCTCGACGCTGCAGGAGATGGCGATAGGCCTGTCACAAATCATCTCCACCCAGCTGGAGGTTTCCCGCGCCGAACAGCTACGGGAGATGGCCAACAAAGCGGAGCTGCGCGCTCTGCAAAGCAAGATTAACCCGCACTTTTTATTCAATGCCCTGAACGCGATCTCCTCCTCGATTCGCCTTAATCCGGACACCGCGCGCCAGCTCATTTTTAATCTGTCGCGCTATCTGCGCTATAACATCGAATTAAAAGACGATGAGCAGATTGATATCAAACGAGAGCTCTATCAGATCAAAGATTACATCGCCATTGAACAGGCGCGATTCGGCGACAAACTGACGGTTATCTATGATATTGACGACGACGTCAGCTGCGTGATCCCAAGCCTGCTTATCCAGCCTCTGGTGGAAAATGCCATTGTGCACGGCATTCAGCCGTGTAAAGGGAAAGGCGTGGTGACGATCGGCATCAATGAGTGCGGTAATCGGGTTCGCATCAGCGTTCGCGACACCGGCAACGGCATCGATCCCGCCGTGGTCGCCCGCGTGGAAGCCGATGAAATGCCGGGTAACAAAATCGGCCTGCTCAACGTTCATCATCGGGTGAAACTTCTCTATGGCGAGGGGCTGCATATCCGCACCCTGACGCCAGGAACGGAGATCGCTTTTTATGTCCCCAATCACTCTACGCCGCAGGCGCTGACGGAGTCTCTGTTGTCATGA	MHEIFTMMLAVYDRAALMLICLFFLIRLRLFRELLHKSAHTPKELLAVTAIFSLFALFSTWSGVPVEGSLVNVRIIAVMSGGILFGPWVGAIVGVIAGVHRYLIDIDGVTAVPCFITSIIAGLLSGLINRKVARDQRWKIGILAGMVCETLTMILVVIWAPSLSLGVDIVSKIGIPMILGSVCIGFIVLLVQSVEGEKEASAARQAKLALDIANKTLPLFRQVNSDSLRQVCDIIRRDITADAVAITNTEHVLAYVGVGEANYQHHNDVISPTTRQAIRYGKIIIKNNDEAHRTPEIHSLMVIPLWEKGVVTGTLKIYYCHAHRITSTLQEMAIGLSQIISTQLEVSRAEQLREMANKAELRALQSKINPHFLFNALNAISSSIRLNPDTARQLIFNLSRYLRYNIELKDDEQIDIKRELYQIKDYIAIEQARFGDKLTVIYDIDDDVSCVIPSLLIQPLVENAIVHGIQPCKGKGVVTIGINECGNRVRISVRDTGNGIDPAVVARVEADEMPGNKIGLLNVHHRVKLLYGEGLHIRTLTPGTEIAFYVPNHSTPQALTESLLS	PGPT0026305_329	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
BMS020_05150	738	ypdB	COG3279	Transcriptional regulatory protein YpdB	ATGAAAGTTATCATTGTGGAGGATGAGTTTCTGGCCCAACAGGAACTCTCCTGGCTTATCAACACCCACAGCCAGATGGAGATCGTCGGCAGCTTTGACGACGGACTGGACGTGCTGAAATTTCTCCAGCACAACAAGGTCGACGCCATCTTTCTCGATATCAATATTCCATCGCTGGACGGCGTTCTGCTGGCGCAGAACATCAGCCAGTTCGCCCATAAGCCTTTTATCGTCTTTATCACCGCGTGGAAAGAACACGCCGTGGAAGCCTTTGAGCTGGAGGCGTTTGACTACATTCTGAAGCCCTACCAGGAGTCGCGCATCATCAATATGCTGCAGAAGCTGACCGCCGCCTGGCAGCAGCAAAATAACGCCGCTTCCGGGTTAACCAGCGTGGCGCCTCGGGAAAACGACACCATCAATCTGATAAAAGATGAGCGGATCATCGTCACCAGCATTCATGATATCTATTATGCCGAGGCGCACGAGAAGATGACCTTCGTCTACACTCGCCGGGAGTCATTCGTCATGCCGATGAACATTACCGAATTCTGCAGCAAACTGCCCACCGCACATTTCTTTCGCTGTCACCGCTCGTACTGTGTGAATCTCAGCAAAATTCGGGAAATTGAGCCGTGGTTTAACAATACCTATGTGCTACGCCTGCGCGACCTGGAGTTTCAGGTTCCGGTCAGTCGCAGTAAAGTGAAAGAGTTTCGCCAGCTGATGAATCTGTAG	MKVIIVEDEFLAQQELSWLINTHSQMEIVGSFDDGLDVLKFLQHNKVDAIFLDINIPSLDGVLLAQNISQFAHKPFIVFITAWKEHAVEAFELEAFDYILKPYQESRIINMLQKLTAAWQQQNNAASGLTSVAPRENDTINLIKDERIIVTSIHDIYYAEAHEKMTFVYTRRESFVMPMNITEFCSKLPTAHFFRCHRSYCVNLSKIREIEPWFNNTYVLRLRDLEFQVPVSRSKVKEFRQLMNL	PGPT0026304_1671	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
BMS020_05151	966	glk_2	COG0837	Glucokinase	ATGACAAAATTTGCTTTAGTAGGAGATGTCGGGGGGACCAACGCCCGCCTGGCGCTGTGTGATCTGGCGAGCGGAGAGATCTCTCGTGCAAAGACCTATTCCGGGCTCGATTACCCCAGTCTGGAGGCGGTGGTACGCGTCTATCTCGAGGAGCATCAGGTGACGGTCAGCGAAGGCTGTATCGCTATCGCCTGCCCGATCACCGGCGACTGGGTGGCGATGACCAACCATACCTGGGCCTTCTCCATCGCCGAGATGAAGCGCAACCTTGGCTTTGCGCACCTGGAGATTATCAACGATTTCACCGCCGTTTCAATGGCCATCCCGATGCTGAAAGCCGAGCACCTGATTCAGTTCGGCGGCAGCGCGCCGGTAGCCGGCAAACCGATCGCCGTTTATGGCGCCGGAACCGGGCTGGGCGTAGCCCATCTGGTACACGTTGATAAGCGCTGGGTCAGCCTGCCGGGCGAAGGCGGCCATGTCGATTTTGCGCCGAACAGCGAAGAAGAGGGCATTATTCTGGAAGAGCTGCGCGCTGAGCTGGGGCATGTCTCCGCAGAACGCGTCCTCTCCGGTCCTGGTCTGGTCAACCTTTATCGCGCGATAGTCAAATCGGATGGTCGACTGCCGGAGAACCTGCAGCCGCGTGAGGTCACCGAGCGGGCGCTGGCGGATAGCTGCACCGACTGTCGCCGGGCGCTGTCGCTGTTCTGCGTCATTATGGGGCGCTTCGGTGGAAACCTGGCGCTGACCCTGGGGACGTTTGGCGGCGTCTATATCGCTGGCGGCATCGTGCCGCGCTTCCTGGAGTTCTTTAAAGCCTCCGGCTTCCGCGGCGGTTTTGAGGACAAAGGTCGTTTTAAAGCCTATGTCCAGGATATCCCGGTTTACCTGATCGTGCATGACAACCCAGGCCTGCTGGGCTCCGGCGCGCATCTGCGTCAGACGCTGGGTCAGGTGCTGTAA	MTKFALVGDVGGTNARLALCDLASGEISRAKTYSGLDYPSLEAVVRVYLEEHQVTVSEGCIAIACPITGDWVAMTNHTWAFSIAEMKRNLGFAHLEIINDFTAVSMAIPMLKAEHLIQFGGSAPVAGKPIAVYGAGTGLGVAHLVHVDKRWVSLPGEGGHVDFAPNSEEEGIILEELRAELGHVSAERVLSGPGLVNLYRAIVKSDGRLPENLQPREVTERALADSCTDCRRALSLFCVIMGRFGGNLALTLGTFGGVYIAGGIVPRFLEFFKASGFRGGFEDKGRFKAYVQDIPVYLIVHDNPGLLGSGAHLRQTLGQVL	PGPT0017730_1708	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017730-glk-K00845	NA	NA
BMS020_05152	1236	yfeO		Putative ion-transport protein YfeO	ATGCTCCATCCTCGCGCCAGAACAATGCTGATCCTGTCGGTGCCGGCTATCCTGATTGGCATCGCCTCCAGTCTGATCCTGATCGGCGCGATGAAGATTGCTGCGTTGCTGCAGCGCATCCTGTGGAGCAATCTGCCAGTGCAGTTTGGAGTAAGCGCCGAGAACCCGCTGTGGATCATCGCCATTCTCACGGCGACGGGGATCGCGGTGGGCCTGGTCGTCCGTTACAGCCCGGGGCATGCCGGGCCGGACCCGGCGACCGAGTCGTTAATCGGCGCGCCCATTGCCACCGGCGCGCTGCCCGGGCTGCTGGCGGCGCTGATCCTTGGCCTCGCCGGCGGCGTCAGCCTCGGCCCGGAGCATCCGATTATGGTGGTGAATATTGCGCTGGCCGTCGCCGTCGGCTCCCGACTGTTCCCGCGGGTCAGCTCTCTTGACTGGACCATTCTCGCGGCCTCAGGCACCATCGGCGCCCTCTTCGGCACCCCGGTGGCCGCCGCGCTGATTTTTTCGCAAACCCTCAACAGCAGCAACGAGTCGCCGCTATGGGATCGTCTGTTTGCCCCGATGCTTGCCGCCGCCGCGGGCGCGCTGACGACCGGGCTGTTTTTCCACCCCCACTTCACGCTGCCGCTCCCACACTATAGCCAGATGCACTTCGTCGATATTATCAGCGGCATGATCGTCGCCCTGATCGCTATCGCCGTCGGTATGGTCGCCGTCTGGTGTCTGCCGCGCCTGCACACGCTGATGCATCGCCTGAAAAACCCGATCCTGACGCTGGGCCTCGGCGGCTTGCTGTTAGGGATCCTCGGGACCATTGGCGGACATTTAACGTTGTTTAAGGGGCTGGATGAGATGCAGCAGCTGGCCTTCAGCCAGACGCTGACCGCCTCGGATTATCTGCTCATCGCGCTGGTTAAACTGGCTGCGCTGGTTCTCGCCTCGGCCTGCGGCTTCCGCGGCGGGCGGATTTTCCCCGCGGTCTTCGTCGGCGTGGCGCTTGGGCTGATGCTGCATGCCCACGTGGACGCCGTGCCGGCGGCGATCACCGTCTCCTGCGCGATCCTCGGCATGGTGCTGGTCGTCACCCGCGACGGCTGGCTGAGCCTGTTTATGGCCGCCGTGGTGGTGCCGGACACCACGCTGCTGCCGCTGCTGTGCATTGTGATGCTCCCGGCCTGGCTGCTGCTGGCCGGGAGGCCCTTGATGATTGCCAGACACCATACCGACTAA	MLHPRARTMLILSVPAILIGIASSLILIGAMKIAALLQRILWSNLPVQFGVSAENPLWIIAILTATGIAVGLVVRYSPGHAGPDPATESLIGAPIATGALPGLLAALILGLAGGVSLGPEHPIMVVNIALAVAVGSRLFPRVSSLDWTILAASGTIGALFGTPVAAALIFSQTLNSSNESPLWDRLFAPMLAAAAGALTTGLFFHPHFTLPLPHYSQMHFVDIISGMIVALIAIAVGMVAVWCLPRLHTLMHRLKNPILTLGLGGLLLGILGTIGGHLTLFKGLDEMQQLAFSQTLTASDYLLIALVKLAALVLASACGFRGGRIFPAVFVGVALGLMLHAHVDAVPAAITVSCAILGMVLVVTRDGWLSLFMAAVVVPDTTLLPLLCIVMLPAWLLLAGRPLMIARHHTD				NA	NA	NA	NA	NA
BMS020_05153	1662	ipdC	COG3961	Indole-3-pyruvate decarboxylase	ATGCAACCGACTTACACTATTGGGGATTATCTGCTGGATCGCCTCGTCGACTGCGGTATTGACCGCTTGTTCGGCGTGCCGGGAGATTACAACTTACAGTTTCTCGACCGGGTCATTGCGCACAATGCGTTGGGGTGGGTCGGCTGCGCCAACGAGCTCAATGCGGCCTATGCTGCTGACGGTTATGCACGCATTAAGGGAGCCGGTGCGTTACTTACAACCTACGGCGTCGGCGAACTGAGCGCGCTGAACGGCGTGGCGGGCAGCTATGCGGAGCATATTCCGGTATTACATATCGTCGGCGCGCCCTCCACTGGCGCTCAGCAGCGCGGCGAACTGCTGCATCACACCCTTGGCGACGGCGATTTCCGCCATTTTGCGCGGATGAGCGAGCAGATCACCTGTAGCCAGGCGCTGCTGACCGCCGGCAACGCCTGCCATGAGATCGACCGTGTTCTGCGCGATATGCTGACGCATCATCGGCCTGGCTATCTGATGCTGCCGGCCGATGTCGCCAGAGCGGCAGCGATTGCCCCAGCGCAGCGCTTGCTGGTGGAGGCCGCTCCGGCGGATGAAAACCAGCTCGCCGGATTCTGCGAGCATGCCAGCCGCCTGCTGCGGGGCAGTCGACGCATCTCCCTGCTGGCGGACTTCCTCGCGCAACGCTATGGCCTGCAAAACACGCTCCGGGAGTGGGTGGCTAAAACCCCCGTCGCCCACGCCACCATGCTAATGGGCAAGGGGCTGTTCGATGAGCAGCAGAGAGGTTTTGTCGGCACCTACAGCGGTATCGCCAGCGCGCCGCAGACCCGGGAGGCCATCGAAAACGCCGACACCATCATCTGCATCGGCACGCGCTTCACCGACACCATCACCGCGGGATTCACCCAGCATCTGGCGCGGGATAAGACGATAGAGATCCAGCCCTTCGCGGTCAGGGTGGGCGATCACTGGTTCAGCGGCGTGCCGATGGATCAGGCACTGGCTGCGCTGATGACCCTTTCCGCACCGCTGGCGGCGGAGTGGGCTGCGCCTCAGGTCGTGGCGCCGGAAGTGGAGGAGGGGGCCGACGGCGAACTCACGCAGAAAAATTTCTGGGCGACGGTGCAGGGGGCGCTGCGTCCCGGCGATATTATTCTCGCCGACCAGGGGACGGCCGCCTTCGGCATTGCCGCGCTGAAGCTGCCGTCAGAGGCGTCGCTGATCGTCCAGCCGCTGTGGGGCTCGATTGGTTTTACCCTCCCGGCCGCCTATGGCGCGCAAACCGCGGCGGCAGAGCGGCGGGTGGTGCTGATTGTCGGCGATGGCGCCGCCCAGCTGACGATTCAGGAGATGGGCTCTATGCTGCGCGATAAGCAAAAGCCGCTTATTCTGCTGCTGAATAACGAAGGGTATACCGTGGAACGGGCGATTCACGGCCCGGAGCAGCGCTACAATGACATTGCCCTGTGGGACTGGCGACGCCTGCCGGAAGCCTTCGCCCCGGACGTTGCCTCGCGCTGCTGGCGGGTTACGCACACCGATGAGCTACGGGAGGCGATGGCGGAGAGCATCACCTCCGATATGCTCACCCTGGTGGAAGTGATGCTGCCGAAAATGGATATCCCCGATTTCCTGCGCGCGGTGACGCAGGCGCTGGAGGAACGAAACAGCCGCGTTTAG	MQPTYTIGDYLLDRLVDCGIDRLFGVPGDYNLQFLDRVIAHNALGWVGCANELNAAYAADGYARIKGAGALLTTYGVGELSALNGVAGSYAEHIPVLHIVGAPSTGAQQRGELLHHTLGDGDFRHFARMSEQITCSQALLTAGNACHEIDRVLRDMLTHHRPGYLMLPADVARAAAIAPAQRLLVEAAPADENQLAGFCEHASRLLRGSRRISLLADFLAQRYGLQNTLREWVAKTPVAHATMLMGKGLFDEQQRGFVGTYSGIASAPQTREAIENADTIICIGTRFTDTITAGFTQHLARDKTIEIQPFAVRVGDHWFSGVPMDQALAALMTLSAPLAAEWAAPQVVAPEVEEGADGELTQKNFWATVQGALRPGDIILADQGTAAFGIAALKLPSEASLIVQPLWGSIGFTLPAAYGAQTAAAERRVVLIVGDGAAQLTIQEMGSMLRDKQKPLILLLNNEGYTVERAIHGPEQRYNDIALWDWRRLPEAFAPDVASRCWRVTHTDELREAMAESITSDMLTLVEVMLPKMDIPDFLRAVTQALEERNSRV	PGPT0007185_142	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TRYPTOPHANE_DEGRADATION,PGPT0007185-ipdC|ppdC-K04103	NA	NA
BMS020_05154	993	gpr_2	COG0667	L-glyceraldehyde 3-phosphate reductase	ATGGTTTACCAGGCAAGTACCACGCGATATCAAACGATGGCCTATCGTCGCTGCGGCCGCAGCGGCCTTCAGCTGCCGGCAATTTCTCTCGGTCTGTGGCATAACTTTGGCGATGAAACGCGGGTGGAAACCAGCCGGCAGATGCTCCAGCACGCATTTGACCTCGGCATTACCCATTTCGACCTGGCCAACAACTATGGGCCGCCGCCGGGCTCGGCGGAGAGCAATTTTGGCCGCATCTTCAAAGAGGCGCTCCTGCCCTATCGCGATGAGTTGATCATCTCCACCAAGGCGGGCTACACCATGTGGGACGGCCCTTACGGCGACTGGGGTTCACGCAAATATCTGGTGGCCAGCCTTAACCAGAGCCTGCAGCGCATGGGGCTGGAATATGTCGATATTTTTTATCATCACCGCCCGGACCCGGAGACACCGCTGACGGAAACGATGCGCGCGCTTGATCACCTTGTCCGCCAGGGTAAAGCGCTGTACGTCGGCATCTCCAACTATCCGCTGGCCCAGGCGCGGGAGGCGGTGAAGATCCTTAACGATCTCGGCACCCCCTGCGTCATTCACCAGCCCCGCTACTCCATGTTTGAACGCGGCGTGGAAGAGGGGCTGCTGGATTTTTTGCAGACGGAAGGGGTGGGAAGTATAGCGTTTTCACCGCTGGCCGGCGGACAGCTCACCGACCGCTATCTCAACGGCATTCCGGCAGACTCACGTGCCGCCAGCAGCAGTCGTTTTCTGCAGCCGGAGCAGCTGACCAGCGCCAGATTAGAAAAAATTCGTCAGCTGAATACGCTGGCGGAAGCACGCGGGCAGAAGCTGTCGCAGATGGCGCTGGCCTGGGTGCTGCGCGAGGAAAAAGTCACCTCCGTGCTGATCGGCGCCAGCAAAACCGCCCAGCTGGATGACGCTGTCGGAATGCTGAAACATCGTCATTTCAGCGCCGAAGAGTGCGCCGCGATTGATGCCATCCTGGCGCTGTAA	MVYQASTTRYQTMAYRRCGRSGLQLPAISLGLWHNFGDETRVETSRQMLQHAFDLGITHFDLANNYGPPPGSAESNFGRIFKEALLPYRDELIISTKAGYTMWDGPYGDWGSRKYLVASLNQSLQRMGLEYVDIFYHHRPDPETPLTETMRALDHLVRQGKALYVGISNYPLAQAREAVKILNDLGTPCVIHQPRYSMFERGVEEGLLDFLQTEGVGSIAFSPLAGGQLTDRYLNGIPADSRAASSSRFLQPEQLTSARLEKIRQLNTLAEARGQKLSQMALAWVLREEKVTSVLIGASKTAQLDDAVGMLKHRHFSAEECAAIDAILAL	PGPT0008285_1382	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-HYDROXYACETONE_VOLATILE_BIOSYNTHESIS,PGPT0008285-yghZ-K19265	NA	NA
BMS020_05155	360			hypothetical protein	ATGTTCAGGTCACTGATTCTGGCAGCAGTACTGCTGGCCGCAGCGCCATTAGTCGCTAACGCTGGTGAAATCACCCTGTTGCCATCGATAAAATTACAAATTGGCGATCGTGACAATTACGGTAACTACTGGGACGGTGGCAGCTGGCGCGACCGTGATTACTGGCGTCGTCACTATGAATGGCGTGATAACCGTTGGCATCGTCATGACAACGGCTGGCACAAAGGCTGGTACAAAGGCAGAGATAAAGCCTGGGAGCGCGGCTATCGCGCGGGCTGGAGCGACCGCGACGATCGCCGCGGCGGCTGGGGACGTGGTCCCGGCGGGCGCGGTCACGGTCATGGACATGGCCATCACTAA	MFRSLILAAVLLAAAPLVANAGEITLLPSIKLQIGDRDNYGNYWDGGSWRDRDYWRRHYEWRDNRWHRHDNGWHKGWYKGRDKAWERGYRAGWSDRDDRRGGWGRGPGGRGHGHGHGHH				NA	NA	NA	NA	NA
BMS020_05156	1242	mntH_2	COG1914	Divalent metal cation transporter MntH	ATGACTAGCAGTCGCGTTGAGAATAGCAGTAGTCGCGCCGCGCGCAAGGTGAAGCTCGCCTTAATGGGGCCAGCTTTCGTCGCTGCCATTGGCTATATCGATCCGGGTAATTTCGCCACGAATATTCAGGCTGGCGCCAGCTTTGGCTATCAGCTGCTGTGGGTGGTGGTATGGGCCAACCTGATGGCAATGCTGATCCAGGTGCTCTCTGCCAAACTCGGCATTGCCACCGGTAAAAACCTGGCCGAGCAGATCCGCGACCATTACCCGCGCCCGGTAGTGTGGTTTTACTGGGTGCAGGCGGAAATCATCGCCATGGCCACCGATCTGGCCGAATTTATCGGCGCTGCGATTGGCTTTAAGCTGGTGCTGGGCGTATCGCTTCTGCAAGGGGCGGTGCTGACCGGGGTGGCGACCTTCCTGATCCTGATGCTGCAGCGGCGCGGACAAAAACCGCTGGAGAAGGTGATTGGCGGCTTGCTGCTGTTTGTTGCCGTCGCCTATGTCGTTGAATTGATCTTTTCCCAGCCCGCGCTGGCTCCCCTGACCAAAGGGCTGGCGATCCCTACGCTGCCCAACGGCGAGGCGGTATTCTTAGCCGCCGGGGTGCTGGGGGCCACCATTATGCCGCACGTGATCTACTTACACTCCTCGCTTACCCAGCATCTGCACGGCGGGACGCGAAAAGAGCGCTATAACGCGACCCGCTGGGATGTGGCGATCGCCATGACCATTGCCGGGTTCGTCAACCTGGCGATGATGGCGACCGCCGCGGCGGCATTCCATTTCAATGGCCATACCGGCGTCGCCGATCTTGATCAGGCTTACAGAACGCTGGAGCCGCTGCTGAGCCATGCGGCGGCGACCATCTTTGGCCTCAGCCTGGTCGCTGCAGGTTTATCATCGACGGTGGTGGGGACTCTCGCAGGTCAGGTGGTCATGCAGGGCTTCATTCGCTTTCATATTCCGCTGTGGTTTCGCCGGGCGGTCACTATGCTGCCGTCGTTTGTCGTCATTCTGCTGGGGCTGGATCCAACGCGCATCCTGGTGATGAGTCAGGTGTTGCTGAGCTTTGGTATTGCGCTTGCCCTGGTACCGCTGCTGATATTTACCAGCAATGCAAAGCTAATGGGAGACCTGGTGAATACCCGCTGGGTGAGAGGCATCGGCTGGGCGATAGTCGCGATTGTGGTGAGCCTGAACGGCTGGTTAATTGTGGGATCGCTGCTCGGGGTGGATTAA	MTSSRVENSSSRAARKVKLALMGPAFVAAIGYIDPGNFATNIQAGASFGYQLLWVVVWANLMAMLIQVLSAKLGIATGKNLAEQIRDHYPRPVVWFYWVQAEIIAMATDLAEFIGAAIGFKLVLGVSLLQGAVLTGVATFLILMLQRRGQKPLEKVIGGLLLFVAVAYVVELIFSQPALAPLTKGLAIPTLPNGEAVFLAAGVLGATIMPHVIYLHSSLTQHLHGGTRKERYNATRWDVAIAMTIAGFVNLAMMATAAAAFHFNGHTGVADLDQAYRTLEPLLSHAAATIFGLSLVAAGLSSTVVGTLAGQVVMQGFIRFHIPLWFRRAVTMLPSFVVILLGLDPTRILVMSQVLLSFGIALALVPLLIFTSNAKLMGDLVNTRWVRGIGWAIVAIVVSLNGWLIVGSLLGVD	PGPT0004370_2064	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT_TRANSPORT_SYSTEM,PGPT0004370-mntH-K03322	NA	NA
BMS020_05157	1203	nupC_2	COG1972	Nucleoside permease NupC	ATGGACCGCGTCTTGCATTTTGTCCTCGCGATCGTTGTGGTGGCTATACTGGCCCTGTTGGTCAGTCATGACCGTAAAAAGATCCGTATTCGTTATGTTGTTCAACTGCTTGTCATTGAAGTCCTGCTGGCCTGGTTCTTCCTGAACTCCGATATTGGTCTGGGTTTTGTGAAAGGCTTCTCCGAGATGTTTGAAAAACTTCTCGGCTTTGCCAACGAAGGGACAAACTTCGTGTTCGGCAGCATGAACGACAAAGGTCTGGCCTTCTTCTTCCTTAAGGTTCTGTGCCCTATCGTCTTCATTTCCGCGTTGATCGGTATTTTGCAGCATATTCGCATCCTGCCGATTGTTATTCGCGCCATCGGTACCGTGCTGTCGAAAATCAACGGCATGGGCAAGCTGGAGTCCTTCAACGCCGTCAGCTCGCTGATCCTCGGCCAGTCGGAAAACTTTATTGCCTATAAAGATATTCTCGGCAAAATGTCGCGCAACCGTATGTACACCATGGCGGCGACCGCGATGTCCACCGTATCGATGTCCATCGTCGGCGCATACATGACCATGCTGCAGCCGAAGTACGTCGTCGCGGCGCTGGTGCTCAACATGTTCAGCACCTTTATCGTTCTGTCGTTGATTAACCCGTACCGTGTGGAAGAGAGTGAAGAAAATCTGCAGATGTCGAATCTGCACGAAGGTCAAAGCTTCTTCGAGATGCTGGGCGAGTACATTCTGGCGGGCTTTAAAGTCGCGATTATCGTGGCGGCGATGCTGATCGGCTTCATCGCGCTGATCTCCGCGCTGAACGCCCTGTTCGCCACTGTGACCGGCTGGTTCGGCTACAGCATCTCCTTCCAGGGGATCCTTGGCTATATCTTCTACCCGGTCGCCTGGGTGATGGGCGTGCCGGCAAGCGAAGCGCTGCAGGTGGGCAGTATTATGGCTACCAAGCTGGTCTCCAATGAATTCGTCGCCATGATGGATCTGCAGAAAATCGCCTCGACGCTCTCCCCGCGCGCGGAAGGCATTATCTCTATCTTCCTGGTCTCCTTCGCCAACTTCTCGTCTATCGGCATCATCGCCGGGGCGATCAAAGGTCTGAACGAAGAACAGGGCAACGTGGTTTCTCGCTTCGGTCTGAAGCTGGTTTACGGCTCCACGCTGGTCAGCGTCCTGTCTGCTTCTATTGCGGCTCTGGTTCTGTAA	MDRVLHFVLAIVVVAILALLVSHDRKKIRIRYVVQLLVIEVLLAWFFLNSDIGLGFVKGFSEMFEKLLGFANEGTNFVFGSMNDKGLAFFFLKVLCPIVFISALIGILQHIRILPIVIRAIGTVLSKINGMGKLESFNAVSSLILGQSENFIAYKDILGKMSRNRMYTMAATAMSTVSMSIVGAYMTMLQPKYVVAALVLNMFSTFIVLSLINPYRVEESEENLQMSNLHEGQSFFEMLGEYILAGFKVAIIVAAMLIGFIALISALNALFATVTGWFGYSISFQGILGYIFYPVAWVMGVPASEALQVGSIMATKLVSNEFVAMMDLQKIASTLSPRAEGIISIFLVSFANFSSIGIIAGAIKGLNEEQGNVVSRFGLKLVYGSTLVSVLSASIAALVL	PGPT0021065_118	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021065-nucp-K11535	NA	NA
BMS020_05158	2172	pdeA		putative cyclic di-GMP phosphodiesterase PdeA	ATGGTTGATAAAATTAACATTAATATCAAAAAAACTCTGTTGGCCTTTATCGTCTGTTTAGTCGCTATTCCGCTGGCTCGTTTTATTTCACCGCAAACGGTTATAGATGGCAATCTTATTTATATTGCCTGGCTGCCAATCAGCGTAATGTTTTCTGTTATTTTTATCTTTGGTCGCTATGCGATTGCGCCATTAATTCTCGCATTTGCCATTACCAATAGCCTGATAATTAAATTAACGCTACCGCAGGCGTTTATCTTACTCTTTTGTCAGCTGTTTGCGGTGTTCGTCTCCTGCGCTATTCTAAGACTGTTGGTGGGTAAGCGCTGGCGCTGTGGTCCAACGGCGAAACATATGGGGGCGCGGATCTTCTGGGGCGGGTTCTTCGCGCCGGTGCTGCTGAAAATCACCATGTACCTCGCCGGACAATATTTTGCGTTTCCCCTATCTATTACCAGCTATTTTGGTAGTATGCCGTTGATTTACACCGTAATAGATATTCAAAGTTTAATCAGCGCAGCATTAATTTTTACCACCTTTTTATATTATCCAATGCGGATGATTATCAATCCACGCTACGCTCGACGATTCTGGCGGCAGGAATGTTTACCGTGGCTGGCAGCAAAATATCGTTCCTTTACGCTATATTGGTTTATCGCGCTGGCGGTGATATTAACGCTATTGTGTGCGCCGTATCAGTCTGAATTTATTGCCGGTTATTTAGTTCCGGTGATTTTTATCGTCTACTTTATCGGGATTAGCCGGATTGGTCATGCGCTACTGCGTATTTCATGGTCGGTCTCGGCTTTTTTACTGGTGGTGTATAACAAAAACTTTCTCCAGGGCGTCCAAAGCGAGTATTCATTATCCTTTGTGCTGTCAGTGTTGATCTCCTTTACTATCTGTTTGTTTTATATGGCAGACACCTATGCCCGCAGCGATCGCAATAAACGCCGCTGGCGTAGTCAGGCGGAAGAAGATCCGCTGACTGGCTTGCCTAACCTGCGCGCGCTGGAGAGCCATTTACAAAGCTGTCCGCAGCAGGTTATCTGCAGCCTACGTATTCATAATCTCGACTTTCTCAGCAGGCATTATGGCCTGATGATGGGGGTGGACTGTAAACGGCAGATTATTCGGGCGCTGCAACCGCTGCTGGGGGCGGCGGATAAAGTTTTCCAGGTGCCGGGCAGCGAACTGATCCTCGTGCTTGACGGACCGGAGCCTTCATCCCGTTTGCATCATATGGTCGCGGTTCTCAACCACAAAAAATTCAGCTGGCACAATCAGCCGCTGGATCTGGAGTTTGGCGCGGCCTGGGGCCGCGACGACGGTCAGCGCGAGGGACTTCACCAGATGCTGGGTCAGCTAAGCTGGCTTTCCGAACAGGCGGGCAGCGAACGTCGGGTGCTGGCGCTGGATGAGGAGCAGGAGCTGGTGGTGGATCAAACCACCGAGCAGGTGCGCCTCCTCATGCGCGTCAAGCAGGTGCTCAAAGAGCGGGCGCTCATGCTCTATGCGCAACCGATTCAGAACAGGGAAGGGGAGGGATATCATGAGATCCTCACCCGGATGCGCTGTGGCGATAGCGTCATTATGCCCGATCAGTTTATCCCGTTGATTGTGCAGTTTAACCTCAGCCAACGTTTCGACATGCTGGTGCTGGAGACCTTGTTCAGCGTGCTTCATCAGCACGCTGGCCAGCGATTCTCGGTCAATCTGCTGCCTGCGACCCTGATGCAAAAGGATAGCGCCGCGCAGATTATCGCGCTGTTTCAACGCTATGCGGTCTCACCAGACCTTATCACTATTGAAGTCACTGAAGAGCAGGCCTTTTCCAATGCCGACATCAGCCGGCAAAATCTTGAAGCGCTGCGCGCGTTTGGCTGCGCCATCGCCATTGATGACTTTGGCACCGGATATGCGAACTATGAACGACTGAAGCATCTGCAGGCCGATATCATCAAGATTGACGGCTGCTTCGTCCGCGACATCCTCACTGACCCGCTGGACGCCATTATGGTGAAATCGATTGTCGAGATGGCGCGGGCGAAACGGATGAGCGTGGTGGCGGAATATGTCGAAAGCGAACCGCAAAAAGCGCGCTTGCTGGAGCTGGGGGTGAATTATCTGCAGGGCTACCTGGTGGGCAAGCCTCAGCCGCTGGGCGAATGA	MVDKININIKKTLLAFIVCLVAIPLARFISPQTVIDGNLIYIAWLPISVMFSVIFIFGRYAIAPLILAFAITNSLIIKLTLPQAFILLFCQLFAVFVSCAILRLLVGKRWRCGPTAKHMGARIFWGGFFAPVLLKITMYLAGQYFAFPLSITSYFGSMPLIYTVIDIQSLISAALIFTTFLYYPMRMIINPRYARRFWRQECLPWLAAKYRSFTLYWFIALAVILTLLCAPYQSEFIAGYLVPVIFIVYFIGISRIGHALLRISWSVSAFLLVVYNKNFLQGVQSEYSLSFVLSVLISFTICLFYMADTYARSDRNKRRWRSQAEEDPLTGLPNLRALESHLQSCPQQVICSLRIHNLDFLSRHYGLMMGVDCKRQIIRALQPLLGAADKVFQVPGSELILVLDGPEPSSRLHHMVAVLNHKKFSWHNQPLDLEFGAAWGRDDGQREGLHQMLGQLSWLSEQAGSERRVLALDEEQELVVDQTTEQVRLLMRVKQVLKERALMLYAQPIQNREGEGYHEILTRMRCGDSVIMPDQFIPLIVQFNLSQRFDMLVLETLFSVLHQHAGQRFSVNLLPATLMQKDSAAQIIALFQRYAVSPDLITIEVTEEQAFSNADISRQNLEALRAFGCAIAIDDFGTGYANYERLKHLQADIIKIDGCFVRDILTDPLDAIMVKSIVEMARAKRMSVVAEYVESEPQKARLLELGVNYLQGYLVGKPQPLGE				NA	NA	NA	NA	NA
BMS020_05161	354			hypothetical protein	ATGCTCAAGGAACGAATGACACCTGAAGAAATCGCCCATCTGACCGGCTACAGCCGGCAAACTATCAATAAGTGGGTGCGGAAAGAAGGCTGGCAGACCTCTCCGCGGCCTGGCGTCCAGGGCGGTAAGGCGCGCCTGGTCCATGTCAATGAGCAAGTCAGGGAGTTTATCCGCAGCGCCCAGCGCGTGGCGGAGACGCCCGGCACCTATTCTCCCCACGACAGCGATCTGGAATCGCTGCTGCTGACCCTCTGTAAAGAACTCACTCCCAGCGAGCAGAAGCAGCTTATGTCGCTGCTGTTACGCGAGGGGATCACCGGGTTACTGCTTCGGTTAGGGATCCGCGATCGGTAA	MLKERMTPEEIAHLTGYSRQTINKWVRKEGWQTSPRPGVQGGKARLVHVNEQVREFIRSAQRVAETPGTYSPHDSDLESLLLTLCKELTPSEQKQLMSLLLREGITGLLLRLGIRDR				NA	NA	NA	NA	NA
BMS020_05162	393			hypothetical protein	ATGATGAAACTAAAAGATAAAATGACGCCCGCAGAGCTTGCCGACTACCTGGGGCTGGCGAGACAAACGATCAATCGCTGGGTTCGTGAGAAGAAATGGCGCACGGAAACGATACCCGGCGTCAAAGGAGGCCGAGCACGGCTGGTGGTCATCGACCAACCTGTGCGCGAGTTTCTGACGAACATTCCCGCCAGACGCCATCTGTTTAGCGACAATCATCTCGCGGAATCGCCAGGCGCTTACCTGGTCAATGAAGCGGACGCGATCTGGCGGCAAATCACAGAAACCCTGCAACTGATGACTCCGGCAGAACAGCTGCAGCTCCGCGACCTGCTGGCCCGGGAAGGGATTAGCGGTTTTCTTGCCCGCCTCGGCATCGCCAGCCCGGCGTAA	MMKLKDKMTPAELADYLGLARQTINRWVREKKWRTETIPGVKGGRARLVVIDQPVREFLTNIPARRHLFSDNHLAESPGAYLVNEADAIWRQITETLQLMTPAEQLQLRDLLAREGISGFLARLGIASPA				NA	NA	NA	NA	NA
BMS020_05163	1419	gltX_2	COG0008	Glutamate--tRNA ligase	ATGAAAATCAAAACTCGCTTCGCGCCAAGCCCAACCGGCTATCTGCACGTTGGCGGTGCGCGTACTGCTCTCTATTCCTGGCTTTTTGCCCGTAACCACGGCGGTGAGTTTGTACTGCGTATTGAAGACACCGATCTCGAACGCTCCACCCCGGAAGCAATTGAAGCCATCATGGATGGCATGAACTGGCTGAATCTGCAATGGGACGAAGGTCCCTATTACCAGACTAAACGTTTCGATCGTTATAACAACGTGATCGATGAGATGCTGGAAGCCGGTACCGCTTATAAATGCTATTGCTCAAAAGAGCGTCTGGAAGCGTTGCGCGAAGAGCAAATGGCGAACGGTGAGAAGCCGCGTTACGATGGACGCTGCCGCCATAGCCACGAGCATCATGCCGATGATGAGCCGTGCGTGGTGCGTTTCGCCAACCCGCAGGAAGGGTCGGTTATTTTTGACGATCAGATCCGCGGACCTATCGAGTTCAGCAACCAGGAGCTGGACGATCTGATCATTCGCCGTACCGATGGTTCCCCGACCTACAACTTCTGCGTCGTAGTGGATGACTGGGACATGGCGATCACCCACGTGATCCGTGGTGAAGATCATATCAACAACACGCCGCGCCAGATCAACATCCTTAAAGCGCTGAATGCGCCGGTGCCGGTATACGCGCACGTATCGATGATCAACGGCGACGATGGCAAGAAACTCTCCAAACGCCACGGGGCGGTCAGCGTGATGCAGTATCGCGACGATGGCTACCTGCCGGAAGCGCTGCTGAACTATCTGGTGCGTCTGGGCTGGTCCCATGGCGATCAGGAGATCTTCACCCGCGAAGAGATGATCGAGTTCTTCTCGCTGGGGGCGGTCAGCAAATCCGCGAGTGCGTTCAACACCGACAAGCTGCTGTGGCTGAACCATCATTACATTAATACGCTGCCGGCGGAGTATGTGGCGACGCATCTGCAGTGGCATATTGAGCAGGAAAATATCGATACCCGCAACGGTCCGCAGCTGGCCGAGTTGGTGAAGCTGCTGGGCGAGCGTTGCAAAACGCTGAAAGAGATTGCCCAGAGCTGCCGCTACTTCTATGAAGAGTTCGCTGAATTCGACGCCGACGCGGCGAAGAAACATCTGCGTCCGGTAGCGCGTCAGCCGCTGGAAGTCGTCCGCGACAAGTTGGCGGCGATTAGCGACTGGACGGCGGAAAACGTCCACCACGCGATTCAGGCGACCGCTGATGAGCTGGAAGTGGGCATGGGTAAAGTCGGTATGCCGCTGCGCGTGGCCGTTACCGGTGCAGGGCAGTCTCCTGCGCTTGACGTTACCGTCCATGCAATCGGCAAGTCCCGTAGCGTAGAGCGTATCAATAAAGCGCTGGCTTTTATCGCTGAGCGCGAAGGCCAGGCGTCCTGA	MKIKTRFAPSPTGYLHVGGARTALYSWLFARNHGGEFVLRIEDTDLERSTPEAIEAIMDGMNWLNLQWDEGPYYQTKRFDRYNNVIDEMLEAGTAYKCYCSKERLEALREEQMANGEKPRYDGRCRHSHEHHADDEPCVVRFANPQEGSVIFDDQIRGPIEFSNQELDDLIIRRTDGSPTYNFCVVVDDWDMAITHVIRGEDHINNTPRQINILKALNAPVPVYAHVSMINGDDGKKLSKRHGAVSVMQYRDDGYLPEALLNYLVRLGWSHGDQEIFTREEMIEFFSLGAVSKSASAFNTDKLLWLNHHYINTLPAEYVATHLQWHIEQENIDTRNGPQLAELVKLLGERCKTLKEIAQSCRYFYEEFAEFDADAAKKHLRPVARQPLEVVRDKLAAISDWTAENVHHAIQATADELEVGMGKVGMPLRVAVTGAGQSPALDVTVHAIGKSRSVERINKALAFIAEREGQAS	PGPT0008460_3534	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
BMS020_05169	927	cynR_4		HTH-type transcriptional regulator CynR	ATGAATTACTCTCTGCGTCAGTTAAAAGTATTTGTTACCGTCGCCCGCGCCAGGAGCTTTAGCCGGGCGGGGGAGATGATTGGCTTAAGCCAGTCGGCCGTCAGCCACAGCGTCAAGGAGCTGGAGCATCAGACCGGGGTCCGTCTCCTAGACCGTACCACCCGGGAGGTGGTCCTCACCGAGGCGGGTCAGCAGCTGGCAGGCAGGCTGGAGCGTTTGCTCGATGAGCTGGCGGTGACGCTGCGCGATGCCGGTCGGGTAGGCCAGCAGCTGAGCGGCACCGTCAAGGTTGCCGCCAGTCAGACGATTTCCGCCCACCTTATTCCCCAGTGTATTGCCCACAGCAATCGTCGCTATCCTGATATCGATTTCGTCCTGCACGACCGGCCCCAGCAGTGGGTGCTGGAGAGTATTCGCCAGGGGGAAGTGGATTTCGGCATTGTGATTGACCCTGGCCCGGCGGCGGACCTGCAATGTGAAGTGGTCCTGGCGGAACCTTTTTTGCTGCTCTGCCGGGAGGATCATCCTTTTGCCAGCCTGACTGAAGTGCCATGGCAGGCGCTACAGAATGAGAGACTGATCCTGCAGGACTATGCCTCCGGCAGCCGTCCGCTGATTGATGCGGCTCTCAGCAGGCTGGCTGTGCGGGCGAACATTGTGCAGGAGATTGGCCATCCGGCAACGCTGTTTCCGATGGTGGAGTCGGGAATTGGCATCAGCGTACTGCCGGCGCTGGCGCTGCCGTTACCGCAGGGAAGCCATCTGGCGGTGAAGCGACTCACTCCGATAATGGAGCGGCAGCTGATGCTGGCATGCCGGAAAAATCGCTCGCTGTCGACCGCCGCCCAGGCCTTATGGGAAATCGTGCGAGAAGAAGGGGAGAATCTCACCGCCGCCAGGGTTGAAGATCCGCTGTATCAGCGTTGA	MNYSLRQLKVFVTVARARSFSRAGEMIGLSQSAVSHSVKELEHQTGVRLLDRTTREVVLTEAGQQLAGRLERLLDELAVTLRDAGRVGQQLSGTVKVAASQTISAHLIPQCIAHSNRRYPDIDFVLHDRPQQWVLESIRQGEVDFGIVIDPGPAADLQCEVVLAEPFLLLCREDHPFASLTEVPWQALQNERLILQDYASGSRPLIDAALSRLAVRANIVQEIGHPATLFPMVESGIGISVLPALALPLPQGSHLAVKRLTPIMERQLMLACRKNRSLSTAAQALWEIVREEGENLTAARVEDPLYQR				NA	NA	NA	NA	NA
BMS020_05170	999			hypothetical protein	ATGAAACTTTTCCGCATTCTCGATCCGTTTACGGCAACCCTGGTCACCGTTGTCCTGTTGGCCTCATTCTTCCCGGCCCGTGGCGCTTTCGTCCCCTTCTTTGAACATCTGACCACCGCCGCCATCGCCCTGCTGTTCTTTATGCACGGCGCCAAACTCTCCCGGGAGGCAATTATCGCCGGCGGCAGCCACTGGCGTTTGCATCTCTGGGTGATGTGCAGCACCTTTATTCTCTTCCCGGTGCTGGGGGTTCTGTTTGCCTGGTGGGCGCCGGTGAAGGTCGATCCGATGCTCTACAGCGGCTTTATTTATTTGTGCATTCTGCCGGCCACCGTGCAATCCGCCATCGCCTTCACCTCGCTGGCCGGAGGCAACGTCGCGGCGGCGGTCTGCTCAGCCTCGGCCTCCAGCCTGTTGGGCATCTTTGTTTCACCGCTGCTGGTGGGTGCTCTGATGAACCTTCATGGCGCAGGCGGTAGCCTTGAGCAGGTCGGAAAGATCATGCTGCAGCTGCTGTTGCCTTTCGTGCTCGGCCATTTATCGCGGCCGTGGATCGGCAACTGGGTGGCGAAGCATAAGAAGTGGATTGGTAAGACCGACCAGACCTCGATTCTGCTGGTGGTTTACTCCGCCTTTAGCGAGGCGGTGGTGAACGGCATCTGGCATAAAGTAGGTCTGGGATCGCTGCTGTTTATCGTGGTGGTCAGCCTGGTGCTGCTGGCCATCGTCATCGCGGTCAATGTGTTCGTCGCCCGCCGCTGCGGCTTTAACAAAGCCGATGAAATTACCATCGTCTTCTGCGGTTCGAAAAAGAGCCTGGCCAACGGCATCCCGATGGCCAATATTCTCTTTCCGACCTCCATCCTCGGCATCATGGTGCTGCCGCTGATGATCTTCCATCAAATCCAGCTGATGGTCTGCGCGGTGCTGGCGCGGCGCTATAAACAGCAAACCGATGCGCGTCTCGCTCAGGAAAAGGCCAACGCCGCCAAAGCTTAA	MKLFRILDPFTATLVTVVLLASFFPARGAFVPFFEHLTTAAIALLFFMHGAKLSREAIIAGGSHWRLHLWVMCSTFILFPVLGVLFAWWAPVKVDPMLYSGFIYLCILPATVQSAIAFTSLAGGNVAAAVCSASASSLLGIFVSPLLVGALMNLHGAGGSLEQVGKIMLQLLLPFVLGHLSRPWIGNWVAKHKKWIGKTDQTSILLVVYSAFSEAVVNGIWHKVGLGSLLFIVVVSLVLLAIVIAVNVFVARRCGFNKADEITIVFCGSKKSLANGIPMANILFPTSILGIMVLPLMIFHQIQLMVCAVLARRYKQQTDARLAQEKANAAKA				NA	NA	NA	NA	NA
BMS020_05171	219			hypothetical protein	GTGGATAAAGCGCAGCTGGTCGAGATCGCCAATACTGAGATGCCGTTCGGTAAATACAAGGGGCGTCGTTTAATCGATGTCCCGGAGGAGTATTTATTGTGGTTTGCGCGCAAGGATCAATTCCCTGCCGGCCATCTCGGCGAGCTGATGGCGCTGACCCTGCTGATTAAAAGCGAGGGGCTGAGCGATCTGGTCCAGCCCCTGAAGAAAGCGCGTTAA	MDKAQLVEIANTEMPFGKYKGRRLIDVPEEYLLWFARKDQFPAGHLGELMALTLLIKSEGLSDLVQPLKKAR				NA	NA	NA	NA	NA
BMS020_05172	2016	ligA_1	COG0272	DNA ligase	ATGGAACCGATCGAACAACAACTGACTGAACTGCGAACCACGCTTCGCCATCATGAATACCTGTACCACGTTATGGACGCACCGGAAGTGCCCGATGCGGAGTATGACCGGCTGATGCGCGAGCTGCGCGAGCTGGAGAGCCAGCATCCGGAGCTGATTACCCCGGATTCACCGACTCAGCGCGTGGGGGCGGCGCCGCTGACCGCCTTCAGCCAGATCCGCCATGAAGTGCCGATGCTGTCGCTGGACAACGTGTTTGACGAAGAGAGCTTTCTGGCCTTCAACAAGCGGGTGCAGGATCGCCTGAAAAGCACTGACCCTCTCATCTACTGCTGCGAGCTGAAGCTCGACGGCCTCGCGGTGAGCATTCTCTACGAAAACGGCGTGCTGGTGCAGGCTGCGACCCGCGGCGATGGCACCACCGGCGAGGACATTACCTCTAACGTGCGAACCATCCGCACCATCCCGCTCAGGCTGCATGGCGATAATATTCCCGCACGCCTGGAAGTGCGCGGGGAAGTGTTCCTCCCGCAGGCCGGGTTCGAAAAAATCAATGAAGAAGCTCGACGCACCGGCGGAAAAGTGTTTGCTAACCCGCGCAATGCGGCGGCGGGCTCGTTGCGCCAGCTGGATCCGCGCATCACCGCGAAGCGACCGCTTACTTTCTTCTGCTACGGCGTTGGGGTGCTGGAGGGCGGTGAGCTGCCGGCCAGCCACTCGGCCCGTTTACAGCAGTTTAAAGCATGGGGATTACCGGTGAGCGATCGCGTCACCCTATGTCATACCCCCGAGGAAGTGCTCACTTACTATCGTAAAGTCGAGGAAGATCGTCCCCATCTGGGCTTTGACATTGATGGCGTGGTGATCAAAGTCGATTCGCTGGCGCTGCAGGAGCAGTTAGGTTTCGTGGCCCGCGCGCCGCGCTGGGCCGTGGCCTTTAAGTTCCCCGCCCAGGAGCAGATGACTTTCGTCCGGGACGTGGAGTTCCAGGTGGGCCGCACCGGGGCGATTACGCCGGTGGCGCGCCTGGAGCCGGTCCATGTCGCCGGCGTGCTGGTGAGTAATGCCACGTTGCATAATGCCGATGAGATCGAACGCTTAGGCTTGAAAATCGGAGACAAGGTGGTGATTCGCCGGGCAGGCGACGTGATCCCTCAGGTGGTCAACGTGGTGCTTTCCGAACGCCCGGCAGATGCCCGGGATGTTGAATTCCCGACCCACTGCCCGGTCTGTCAGTCCGACGTTGAGCGAGTGGAAGGCGAGGCGGTAGCCCGCTGTACCGGCGGCCTTATCTGCGGCGCGCAGCGTAAAGAGTCGCTCAAGCACTTTGTCTCCCGTCGCGCGCTGGACGTTGACGGCATGGGCGACAAGATAATCGACCAGCTGGTGGAGAAAGAGTACGTCCATACCCCGGCGGATCTGTTCCGACTGACCGCAGGGAAACTGACCGGGCTGGATCGGATGGGGCCGAAGTCCGCGCAAAACGTGGTCAACGCTCTCGAGAAAGCCAAAGAGACAACCTTTGCGCGTTTCCTCTACGCCTTAGGCATTCGCGAGGTAGGAGAAGCGACGGCGGCGGGCCTGGCGGCGCATTTCGGCACCCTCGAGGCCCTGGAGCAGGCTTCCATTGAGGAGCTGCAGAAGGTCCCTGATGTCGGCATTGTGGTCGCCACCCATACCTTCAACTTCTTTGCCGAAGAGAGCAACCGCGATGTCATCGCGCAGCTGCTGACGGAAGGGGTTCACTGGCCGGCGCCGGTGGTGGTGAAGGCGGAAGAGATTGACAGCCCGTTTGCAGGCAAAACCGTCGTCCTGACCGGCAGCCTCAGTCAGCTGTCGCGGGATGACGCCAAAGCGCGTCTGGTGGCGCTGGGGGCGAAGGTGGCGGGCAGCGTATCGAAGAAGACCGATCTGGTGATTGCTGGCGAAGCGGCGGGTTCTAAGCTGGCGAAAGCGCAGGAGCTCGGCATCGAGGTGATTGACGAAGCCGAAATGATGCGTCTGCTGGGAGAATAA	MEPIEQQLTELRTTLRHHEYLYHVMDAPEVPDAEYDRLMRELRELESQHPELITPDSPTQRVGAAPLTAFSQIRHEVPMLSLDNVFDEESFLAFNKRVQDRLKSTDPLIYCCELKLDGLAVSILYENGVLVQAATRGDGTTGEDITSNVRTIRTIPLRLHGDNIPARLEVRGEVFLPQAGFEKINEEARRTGGKVFANPRNAAAGSLRQLDPRITAKRPLTFFCYGVGVLEGGELPASHSARLQQFKAWGLPVSDRVTLCHTPEEVLTYYRKVEEDRPHLGFDIDGVVIKVDSLALQEQLGFVARAPRWAVAFKFPAQEQMTFVRDVEFQVGRTGAITPVARLEPVHVAGVLVSNATLHNADEIERLGLKIGDKVVIRRAGDVIPQVVNVVLSERPADARDVEFPTHCPVCQSDVERVEGEAVARCTGGLICGAQRKESLKHFVSRRALDVDGMGDKIIDQLVEKEYVHTPADLFRLTAGKLTGLDRMGPKSAQNVVNALEKAKETTFARFLYALGIREVGEATAAGLAAHFGTLEALEQASIEELQKVPDVGIVVATHTFNFFAEESNRDVIAQLLTEGVHWPAPVVVKAEEIDSPFAGKTVVLTGSLSQLSRDDAKARLVALGAKVAGSVSKKTDLVIAGEAAGSKLAKAQELGIEVIDEAEMMRLLGE				NA	NA	NA	NA	NA
BMS020_05173	1047	zipA_1	COG3115	Cell division protein ZipA	ATGATGCAGGATTTGCGTCTGATATTAATCATTGTTGGCGCGATCGCCATAATCGCTTTACTGGTACATGGTTTCTGGACCAGCCGTAAAGAACGTTCTTCGATGTTTCGCGATCGCCCACTGAAACGTATGAAGTCGCGCGACGATGAGTCGGAAAACGACGACTTTGATGATAATGTTGAAGGCGTAGGTGAAGTCCGCGTTCATCCGGTGACTCACGCTCCGCACGGCGCGCATGGGGAGCATGAAGCCCCTCGTCAGGCGCCGCAGCACCAGTACCAGCCGCCTTACGAGCGCCAGATGCAGCAGCCTGTGCGTCCTGAGGAACCGGTTCGTCAGGCGCCGCCGCGCCAGGCCCCGGCACAACCGCAGGGACAACCGTCTGCGCCGCATGCGGCTCCACAGCCTGGCTGGCAACAGCCGCAACCCGCGCAGCCGCAACACCAGCCGCAACCTGCTGTGCAACAGCCTGTCGCGCCGCAGCCGGTGACCCCGACCGTCGCCCAGCCGCAGCCGGCCGCTCCGCAGCAGCCTGCGCCCCAGCCTGTTGCCGCGCCGCAGCCCGCGGTTGCTGAACCGCAGCCGACAGAGCCGCAGCAGCCTGCAGCGCCCCAGCCGAAAGAGCGTAAAGAGACGGTCATCGTGATGAACGTTGCCGCGCACCATGGCGCGCAGCTTAACGGCGAGGTGCTTATCAATAGCATCCAGCAGGCCGGGTTCAAGTTTGGTGAAATGAATATTTTCCACCGCCATCTGAGCCCGGACGGCAGCGGCCCGGTACTGTTCAGCCTGGCCAACATGGTGAAGCCGGGGACCTTCAATCCGGACAGCATGGCGGATATGATGACCCCTGGGGTGACTATCTTTATGCAGGTCCCTTCCTACGGTGATGAACTGCAGAACTTCAAGCTGATGCTGCAGTCTGCGCAGTATATCGCCGATGAAGTGGGCGGCGTGGTGCTTGACGATCAGCGTCGCATGATGACGCCGCAAAAACTGCGTGAATACCAGGATCGTATTCGCGAAGTGAAAGACGCGAACGCCTGA	MMQDLRLILIIVGAIAIIALLVHGFWTSRKERSSMFRDRPLKRMKSRDDESENDDFDDNVEGVGEVRVHPVTHAPHGAHGEHEAPRQAPQHQYQPPYERQMQQPVRPEEPVRQAPPRQAPAQPQGQPSAPHAAPQPGWQQPQPAQPQHQPQPAVQQPVAPQPVTPTVAQPQPAAPQQPAPQPVAAPQPAVAEPQPTEPQQPAAPQPKERKETVIVMNVAAHHGAQLNGEVLINSIQQAGFKFGEMNIFHRHLSPDGSGPVLFSLANMVKPGTFNPDSMADMMTPGVTIFMQVPSYGDELQNFKLMLQSAQYIADEVGGVVLDDQRRMMTPQKLREYQDRIREVKDANA				NA	NA	NA	NA	NA
BMS020_05174	762	cysZ	COG2981	Sulfate transporter CysZ	ATGGTTTCATCATCCGCACCGACCCCGCGTAGCGGCGTATACTACTTTTCGCAGGGCTGGAAACTCATCAGGCTGCCGGGCATACGTCGTTATGTCTTCCTGCCTTTACTGGTTAACGTGCTGCTGATGGGCGGTGCTTTCTGGTGGCTGTTTACCCGTCTCGACAGCTGGATCCCTTCGCTGATGAGCCATGTGCCTGACTGGCTGCAGTGGCTAAATTACCTGCTGTGGCCGGTGGTGGTGCTGTCGATCCTGCTGGTGTTTGGCTATTTCTTTTCTACTATTGCCAACTGGATTGCCGCCCCGTTCAGCGGCCTGCTGGCGGAACAGCTGGAAGCGCGTCTGACTGGCGCCACCCCGCCGGACGTCGGCGTCTTTGGCATCATGAAGGATATTCCGCGCATCATGAAGCGTGAGTGGCAGAAGCTGGCCTGGTACCTGCCCCGCGCCATCGTACTGTTGCTGCTCTACTTTATACCCGGCGTTGGCCAGACGGTGGCCCCGGTACTCTGGTTCCTGTTCAGCGCATGGATGCTGGCGATTCAATACTGCGATTACCCCTTCGATAACCACAAGGTCCCCTTCAGGACCATGCGCGAAGCGCTGCGCAGCCGCAAGGTGATGAATATGCAGTTTGGCGCGCTCACCAGCCTGTTCACCATGATCCCGGTGTTAAACCTGGTGATCCTCCCGGTGGCTATCTGCGGCGCCACCGCCATGTGGGTCGATTGCTATCGCGACAGACACGCCAGCTGGAAGTAA	MVSSSAPTPRSGVYYFSQGWKLIRLPGIRRYVFLPLLVNVLLMGGAFWWLFTRLDSWIPSLMSHVPDWLQWLNYLLWPVVVLSILLVFGYFFSTIANWIAAPFSGLLAEQLEARLTGATPPDVGVFGIMKDIPRIMKREWQKLAWYLPRAIVLLLLYFIPGVGQTVAPVLWFLFSAWMLAIQYCDYPFDNHKVPFRTMREALRSRKVMNMQFGALTSLFTMIPVLNLVILPVAICGATAMWVDCYRDRHASWK	PGPT0003010_756	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003010-cysZ-K06203	NA	NA
BMS020_05175	972	cysK	COG0031	Cysteine synthase A	ATGAGTAAGATTTTTGAAGACAACTCCCTGACTATCGGTCATACGCCGCTGGTACGACTGAACCGCATTGGTAACGGCCGTATCCTGGCAAAGGTAGAATCTCGTAACCCGAGCTTTAGCGTAAAATGCCGTATCGGCGCCAATATGATCTGGGATGCTGAAAAGCGCGGCGTGCTGAAACCGGGCGTGGAACTGGTCGAACCGACCAGCGGCAACACCGGTATCGCCCTCGCCTACGTGGCGGCGGCTCGCGGCTACAAGCTAACGCTAACCATGCCGGAAACCATGAGCATCGAGCGTCGTAAGCTTCTGAAAGCGCTGGGCGCCAACCTGGTGCTGACTGAAGGCGCCAAAGGCATGAAAGGCGCCATTCAGAAAGCGGAAGAGATTGTCGCCAGCAACCCGGAAAAATTCCTGTTGCTGCAGCAGTTCAGCAACCCGGCTAACCCGGAAATCCACGAAAAGACCACCGGCCCGGAAATCTGGGAAGACACCGACGGTCAGGTGGATGTCTTCATCTCCGGCGTAGGTACCGGCGGTACGCTGACCGGCGTCAGCCGCTACATTAAAAACACCAAGGGCAAAAAAGATCTGTTCACTGTCGCGGTTGAACCGACCGATTCGCCGGTTATCTCCCAGGCGCTGGCGGGTGAAGAGCTCAAGCCGGGCCCGCACAAAATTCAGGGCATCGGCGCCGGCTTCATTCCTGGTAACCTGGATCTGAAGCTGGTGGACAAAGTGATCGGCATTACCAATGATGAAGCGATCTCCACGGCACGCCGCCTGATGGAAGAAGAAGGCATCCTCGCGGGTATCTCTTCCGGGGCCGCCGTTGCCGCGGCGCTGAAGCTGCAGGAAGATGAAGCCTTTACCAATAAGAATATTGTGGTTATCCTGCCTTCCTCGGGTGAGCGTTATTTAAGCACCGCGCTGTTTGCCGATCTCTTCACCGAGAAAGAACTGCAACAGTAG	MSKIFEDNSLTIGHTPLVRLNRIGNGRILAKVESRNPSFSVKCRIGANMIWDAEKRGVLKPGVELVEPTSGNTGIALAYVAAARGYKLTLTMPETMSIERRKLLKALGANLVLTEGAKGMKGAIQKAEEIVASNPEKFLLLQQFSNPANPEIHEKTTGPEIWEDTDGQVDVFISGVGTGGTLTGVSRYIKNTKGKKDLFTVAVEPTDSPVISQALAGEELKPGPHKIQGIGAGFIPGNLDLKLVDKVIGITNDEAISTARRLMEEEGILAGISSGAAVAAALKLQEDEAFTNKNIVVILPSSGERYLSTALFADLFTEKELQQ	PGPT0002810_3613	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
BMS020_05176	258	ptsH_2	COG1925	Phosphocarrier protein HPr	ATGTTCCAGCAAGAAGTTACCATTACCGCTCCGAACGGTCTGCACACCCGCCCTGCTGCTCAGTTTGTTAAAGAAGCTAAAGGCTTCACTTCTGAGATCACTGTAACCTCCAACGGCAAAAGCGCCAGCGCCAAAAGCCTGTTCAAACTGCAGACTCTGGGCCTGACCCAGGGCACCGTAGTAACCCTCTCCGCGGAAGGCGAAGATGAACAGAAAGCGGTTGAGCATCTGGTTAAACTGATGGCTGAACTCGAGTAA	MFQQEVTITAPNGLHTRPAAQFVKEAKGFTSEITVTSNGKSASAKSLFKLQTLGLTQGTVVTLSAEGEDEQKAVEHLVKLMAELE	PGPT0016875_3367	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
BMS020_05177	1728	ptsI_3	COG1080	Phosphoenolpyruvate-protein phosphotransferase	ATGATTTCAGGCATTTTAGCATCCCCGGGTATCGCCTTCGGCAAAGCACTGCTGCTGAAGGAAGATGAAATTGTCATCGACCGGAAGAAAATTTCTGCCGATAAGGTTGATCAGGAAGTCGAACGTTTCCTGAGCGGCCGCGCCAAGGCCTCCGCCCAGCTGGAGGTCATCAAAACCAAAGCTGGTGAAACTTTCGGTGAAGAAAAAGAAGCCATCTTCGAAGGGCATATTATGCTGCTGGAAGATGAGGAGCTTGAGCAGGAAATCATAGCCCTGATTAAAGATAAGCATATGACTGCCGACGCGGCAGCCAATGAAGTTATCGACGGTCAGGCCACTGCCCTGGAAGAGCTGGACGATGAATACCTGAAAGAACGTGCGGCTGACGTACGTGATATCGGTAAGCGCCTGCTGCGCAACATCCTTGGTCTGGCCATCATCGATCTGAGCGCGATTCAGGATGAAGTCATTCTCGTCGCCGCCGATCTGACCCCGTCAGAAACCGCACAGCTGAACCTGAAAAAAGTGCTGGGTTTCATCACCGACGCGGGCGGCCGTACCTCCCACACCTCCATCATGGCGCGTTCCCTAGAACTGCCGGCCATCGTGGGCACCGGCAGCATCACGGCGCAGGTGAAAAACGGCGACTATCTGATTCTCGACGCGGTTAACAACCAGGTTCTGATCAACCCGTCTAACGAGCAAATTGAAGCGCTGCGTAATCTGCAGGCTCAGGTTGCGGAAGAAAAAGCCGAACTGGCGAAACTGAAAGATCTGCCGGCGATTACTCTCGACGGCCATCAGGTTGAAGTGTGCGCCAACATTGGTACCGTTCGCGACGTCGAAGGTGCTGAGCGCAACGGCGCCGAAGGCGTAGGCCTGTATCGTACTGAATTCCTGTTCATGGATCGCGACGCGCTGCCAACCGAAGAAGAGCAGTTTGCGGCTTATAAAGCGGTGGCTGAAGCCTGTGGCTCTCAGGCCGTTATCGTGCGTACCATGGACATCGGCGGCGACAAAGAGCTGCCGTACATGAACTTCCCGAAAGAAGAGAACCCGTTCCTCGGCTGGCGTGCTGTGCGTATCGCGATGGATCGTAAAGAGATCCTCCGCGATCAGGTTCGCGCCATCCTGCGTGCCTCCGCTTTCGGTAAGCTGCGCATTATGTTCCCGATGATCATCTCTGTTGAAGAAGTGCGTGCGCTGAAGAAAGAGATCGAAATCTACAAACAGGAACTGCGTGACGAAGGTAAAGCATTTGACGAATCCATTGAGATCGGCGTGATGGTGGAAACACCGGCTGCGGCGACCATTGCTCGTCATCTGGCCAAAGAAGTTGATTTCTTTAGTATCGGCACCAATGATTTAACGCAATATACTCTGGCAGTTGACCGTGGTAATGATATGATTTCACATCTTTACCAGCCGATGTCACCGTCTGTACTGAATCTGATTAAGCAAGTTATTGATGCTTCTCACGCTGAAGGTAAATGGACTGGCATGTGCGGTGAGCTTGCGGGCGATGAACGTGCTACACTTCTGTTGCTGGGTATGGGGCTGGACGAATTCTCTATGAGCGCCATTTCCATCCCGCGCATCAAGAAGATTATTCGTAACACGAACTTCGAAGATGCGAAAGTATTAGCAGAGCAGGCTCTTGCTCAACCGACAACGGACGAGTTAATGACGCTGGTTAACAAGTTCATTGAAGAAAAAACAATCTGCTAA	MISGILASPGIAFGKALLLKEDEIVIDRKKISADKVDQEVERFLSGRAKASAQLEVIKTKAGETFGEEKEAIFEGHIMLLEDEELEQEIIALIKDKHMTADAAANEVIDGQATALEELDDEYLKERAADVRDIGKRLLRNILGLAIIDLSAIQDEVILVAADLTPSETAQLNLKKVLGFITDAGGRTSHTSIMARSLELPAIVGTGSITAQVKNGDYLILDAVNNQVLINPSNEQIEALRNLQAQVAEEKAELAKLKDLPAITLDGHQVEVCANIGTVRDVEGAERNGAEGVGLYRTEFLFMDRDALPTEEEQFAAYKAVAEACGSQAVIVRTMDIGGDKELPYMNFPKEENPFLGWRAVRIAMDRKEILRDQVRAILRASAFGKLRIMFPMIISVEEVRALKKEIEIYKQELRDEGKAFDESIEIGVMVETPAAATIARHLAKEVDFFSIGTNDLTQYTLAVDRGNDMISHLYQPMSPSVLNLIKQVIDASHAEGKWTGMCGELAGDERATLLLLGMGLDEFSMSAISIPRIKKIIRNTNFEDAKVLAEQALAQPTTDELMTLVNKFIEEKTIC	PGPT0002025_1302	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
BMS020_05178	510	crr	COG2190	PTS system glucose-specific EIIA component	ATGGGTTTGTTTGATAAATTGAAATCTCTGGTTTCTGATGACAAGAAAGACACCGGAACTATTGAGATTGTTGCTCCCCTCTCCGGTGAGATCGTCAACATTGAAGACGTGCCGGATGTGGTTTTTGCGGAAAAAATTGTGGGCGATGGGATTGCCATCAAACCGACCGGCAACAAAATGGTCGCGCCGGTAGACGGTACCATTGGTAAAATTTTCGAAACCAACCATGCGTTCTCTATTGAATCTGATAGCGGCATCGAGCTGTTCGTTCACTTCGGTATTGATACCGTTGAACTGAAAGGCGAAGGCTTCAAGCGTATCGCTGAAGAAGGCCAGCGCGTGAAAGTCGGCGACCCGGTTATCGAATTCGATCTGCCGCTGCTGGAAGAGAAAGCCAAGTCGACCCTGACTCCGGTGGTTATCTCCAACATGGACGAGATCAAAGAGCTGATCAAACTGTCCGGTAGCGTGACCGTGGGTGAAACCCCGGTAATCCGCATCAAGAAGTAA	MGLFDKLKSLVSDDKKDTGTIEIVAPLSGEIVNIEDVPDVVFAEKIVGDGIAIKPTGNKMVAPVDGTIGKIFETNHAFSIESDSGIELFVHFGIDTVELKGEGFKRIAEEGQRVKVGDPVIEFDLPLLEEKAKSTLTPVVISNMDEIKELIKLSGSVTVGETPVIRIKK	PGPT0014090_211	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
BMS020_05179	240			hypothetical protein	ATGAAAAGCTATCGGTTAGTGATCCGTCAGCAGGGACGCATTGTTGGTCATTTTGATACTTCAGGGGAGGCGGCGCTGGAGGATGCCTGCGTGGCGCGGTCGCTGTTCGGCCTGGCCGGTGGATATCAGTGTGAACTGCTGGTCTCTGACAGCGAGCGGCGAATTCTGGAGAGCACTCCGGAAGGATTGCGTATCTTATCCCGCGAAAAATACTATCAGCCGGTGACCCACGCGATATAA	MKSYRLVIRQQGRIVGHFDTSGEAALEDACVARSLFGLAGGYQCELLVSDSERRILESTPEGLRILSREKYYQPVTHAI	PGPT0009125_64	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
BMS020_05180	867	pdxK_1	COG2240	Pyridoxine/pyridoxal/pyridoxamine kinase	ATGGGCCAGCAAGATGACATACAATCAGTGCTCTTTCACGACAAAAGCCGGGCGTCGGAAGTCGATATCGTCGCCGTGCAGTCGCAGGTAGTCTACGGCAGCGTCGGCAACAGCATCGCGGTACCGGCGATTAAACAGCACGGTCTGCGCGTGCTGGCGGTGCCGACGGTGCTGTTCAGCAATACGCCCCATTATGAGACGTTCTATGGCGGCATTATCCCGGAGGAGTGGTTTGTCGGGTACCTGCAGGCGCTGGAGGAGCGCGACGCGTTGCGCGAACTGCGTGCGGTGACCACCGGTTATATGGGCAACGCCGTGCAAATTGAACGTCTGGCGCAGTGGCTGACGCGGGTCCGCGACCGCCATCCCGATCTCTGTATTCTGGTGGATCCGGTGATTGGCGATGTCGACAGCGGCATCTACGTCAAGGCCGAGATCCCGGACGCCTATCGTCAGCACCTGCTGCCGCTGGCGCAAGGGATCACCCCTAATCTGTTTGAGCTGGAGACGCTGAGCGGCCAGCGCTGTCGCAATCAGCCGGAGGCGGTCGCCGCGGCGCGTAGCCTGCTGTCGGACAGCCTCAAATGGGTGGTGATCACCAGCGCGCCGGGAGAGGCTGATTCGACGATCAATGTGCTGGTGGTGACGGCCGATGCGGTGGAGGTGGTGGTTCACCCGCGGGTGGAGACGGATTTAAAGGGTACCGGCGATCTGTTCTGCGCCGAGCTGGTGAGCGGGTTGCTTTCCGGCCTGGCGCTGGGGGCTGCGACGGAGGCAGCCGCCCAGCGCGTGCTGGAGGTGATGAACTGGACTGCCGCGCAGGGATGTGACGAACTGATCCTGCCGCCGCTGGAGAAACAGAGATGA	MGQQDDIQSVLFHDKSRASEVDIVAVQSQVVYGSVGNSIAVPAIKQHGLRVLAVPTVLFSNTPHYETFYGGIIPEEWFVGYLQALEERDALRELRAVTTGYMGNAVQIERLAQWLTRVRDRHPDLCILVDPVIGDVDSGIYVKAEIPDAYRQHLLPLAQGITPNLFELETLSGQRCRNQPEAVAAARSLLSDSLKWVVITSAPGEADSTINVLVVTADAVEVVVHPRVETDLKGTGDLFCAELVSGLLSGLALGAATEAAAQRVLEVMNWTAAQGCDELILPPLEKQR	PGPT0009125_1156	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
BMS020_05181	1299	ptsJ	COG1167	Vitamin B6 salvage pathway transcriptional repressor PtsJ	ATGTTTGCCGGAAAAACCGCCAGCGATATCTTCGATCATATCCGCCATCTGGTGCAGAGCGGTGGCTTGCAGCCCGGAGAGGTTCTGCCGCCGGTCCGCGAGCTCGCCAGCCAGCTTGCGGTGAATCGCAATACCGTCGCCGCCGCCTATAAACGGCTGGTCACCTCCGGGCTGGCCGTCAGCCAGGGACGGAACGGCACAGCTATCAAAGCACGGGATCCGCTGCCGGCGCTGGAAGGCGGTGACCCCACGACGCCGCTGAACGATCTTTCCAGCGGCAATCCGGACCCCGCCAGGCTGCCTGATTTACCACGCTATCTGGGCCAAATTGCCCGCACGCCCCGCCTGTATGGCGATGCCCCCATCGAGCCGCGGCTAGGAGAATGGGCTGAGGCATGGTTTGCCAGGGAGATAACCGTTCCCTTTGCCCTGAATCTCGCCAGCGGGGCGATTGACGCGCTGGAGCGTCTGCTGTGCGCCTTGCTGCTCCCCGGCGACGGCGTGGTGGTTGAAGATCCCTGTTTTCTCAGCAGCATCAATATGGTGCGTTACGCTGGCTTTACCCCCTGCCCGGTGGCGGTGGATGCCGAGGGGATGGATCCAGACGGGCTGGAGGAGGCGTTACGCAACGGCGCGCGGGCGGTGATCTTGACCCCTCGCGCGCACAATCCTACCGGCTGTAGCCTGACGGAAACCCGGGCGCATGCCCTGCGGGAGGTGCTGGCCCGCTATCCGCAGGTGCTGGCGATCGTCGATGACCATTTTGCCCTGCTGTCGGCCACGCCCTGGTTTTCTCCTCTGCCAGCGAGCACCCAACGCTGGGCGGTGGTGCGTTCGATGTCAAAAACACTCGGGCCAGACCTGCGGCTGGCTTTTATCGCCAGCGATGTCGACACCTCCTCCGCGCTGCGTCTGCGGCTTAACGCCGGCAGCCAGTGGGTCAGCCATCTGCTGCAGGATCTGACGCTGGCCTGTCTCACCGATAAGGCGTTTATCGCCTCGATGACGGAGACCCGCCGTCACTATCGGCAACAGAATGAGAAACTGGCGGCAGCGCTGGCCCGGCACGGCGACAGTCATGCTGCGCCTGGCGATGGCCTCAATTTCTGGCTGCCGCTGCCAACGGCGAGCCAACCCTACGCCTTACGCCTGGCCCGGGCCGGCTGGCTGGTCCGCGAGGGGGAGGTGTTTGGCATCCGTACGCCCTCCCACGGGCTACGCCTGTCGCTGGGCCGCCTGAGCGACGCTGAGATTGCCCGCCTGGCGGCCGATATAGCCCAGGTCTTAAACGCCCCCTGA	MFAGKTASDIFDHIRHLVQSGGLQPGEVLPPVRELASQLAVNRNTVAAAYKRLVTSGLAVSQGRNGTAIKARDPLPALEGGDPTTPLNDLSSGNPDPARLPDLPRYLGQIARTPRLYGDAPIEPRLGEWAEAWFAREITVPFALNLASGAIDALERLLCALLLPGDGVVVEDPCFLSSINMVRYAGFTPCPVAVDAEGMDPDGLEEALRNGARAVILTPRAHNPTGCSLTETRAHALREVLARYPQVLAIVDDHFALLSATPWFSPLPASTQRWAVVRSMSKTLGPDLRLAFIASDVDTSSALRLRLNAGSQWVSHLLQDLTLACLTDKAFIASMTETRRHYRQQNEKLAAALARHGDSHAAPGDGLNFWLPLPTASQPYALRLARAGWLVREGEVFGIRTPSHGLRLSLGRLSDAEIARLAADIAQVLNAP				NA	NA	NA	NA	NA
BMS020_05182	396	yybH	COG4319	putative protein YybH	ATGCATCATATTGACCTGACGCTAAAAACAGTCATTGAGGCCTGCGACCGCGCTATCTCGCAGGAAGATTACGATACCCTGATGGGCTATTACGCGGAAGACGCCGCGCTGGTCGTCAAACCGGGCATGGTGGTTAGAGGGAAAGAGAATATCCGCAAAGCGTTTATCGCCATTGCCGACTATTTCCAGCACCGGCTGATAGTGACTCAGGGGAAAATGGAGGTCATCGAGGGCGGCGGCAATGCGCTGGTGATTATGGAGACCCGGCTGGATATCCCGACGGCACAGGGGATAACACAGGTTACGCGACGCGCAACCTATGTCTTTCAGAAGCAGGGCGAGCGCTGGCTGTGCACCGTCGATAACTCCTACGGCACCGACCTGCTCGATGATTAA	MHHIDLTLKTVIEACDRAISQEDYDTLMGYYAEDAALVVKPGMVVRGKENIRKAFIAIADYFQHRLIVTQGKMEVIEGGGNALVIMETRLDIPTAQGITQVTRRATYVFQKQGERWLCTVDNSYGTDLLDD				NA	NA	NA	NA	NA
BMS020_05183	912	cysM	COG0031	Cysteine synthase B	GTGAATACACTCGAACACACCATCGGCAATACCCCTCTGGTCAGGCTTCAGCGTCTGGGGCCGGACAATGGCAGCGAAATCTGGGTCAAACTTGAAGGCAATAATCCAGCCGGTTCGGTGAAAGATCGCGCTGCGCTGTCGATGATCGTTGAAGCGGAAAAGCGGGGCGAAATTCAGCCCGGCGACGTGCTAATTGAAGCGACCAGCGGCAACACCGGTATCGCGCTGGCGATGATCGCCGCGCTGAAAGGCTACCGGATGAAGCTGCTGATGCCCGACAACATGAGCCAGGAGCGCCGGGCCGCGATGCGCGCCTATGGCGCCGAGCTGATCCTGGTCACCAAAGAGCAGGGGATGGAGGGGGCCCGCGACCTGGCCCTGGAGATGGCTCAGCGCGGGGAGGGCAAACTGCTCGATCAGTTCAACAACCCGGACAACCCCTACGCCCACTACACTACCACCGGGCCGGAAATCTGGCAGCAGACCGAGGGGCGTATCACCCACTTTGTCTCCAGTATGGGGACCACCGGCACCATTACCGGCGTGTCACGTTTTCTGCGCGAACAGAGTAAACCGGTGACCATTGTCGGCCTGCAGCCGGAGGAGGGCAGCAGTATTCCCGGGATACGCCGCTGGCCGGCAGAGTATATGCCGGGGATCTTTAACGCTTCGCTGGTGGATGCGGTGCTGGATATTCATCAGCAGGATGCCGAGAACACCATGCGTCAGCTGGCGGTACAGGAAGGCATTTTCTGCGGCGTCAGCTCTGGCGGCGCGGTAGCCGGGGCGTTACGTATCGCTCGTGAAAATCCAGGCGCGGTGGTGGTGGCGATCGTCTGCGATCGCGGCGATCGCTACCTCTCCACCGGCGTGTTCGGCGAGGAACACTTTAGCCAGGGAGCGGGTATTTAA	MNTLEHTIGNTPLVRLQRLGPDNGSEIWVKLEGNNPAGSVKDRAALSMIVEAEKRGEIQPGDVLIEATSGNTGIALAMIAALKGYRMKLLMPDNMSQERRAAMRAYGAELILVTKEQGMEGARDLALEMAQRGEGKLLDQFNNPDNPYAHYTTTGPEIWQQTEGRITHFVSSMGTTGTITGVSRFLREQSKPVTIVGLQPEEGSSIPGIRRWPAEYMPGIFNASLVDAVLDIHQQDAENTMRQLAVQEGIFCGVSSGGAVAGALRIARENPGAVVVAIVCDRGDRYLSTGVFGEEHFSQGAGI	PGPT0002820_292	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0002820-cysM-K12339	NA	NA
BMS020_05184	1095	cysA_1	COG1118	Sulfate/thiosulfate import ATP-binding protein CysA	ATGAGCATTGAGATTGCCAATATTAAGAAATCGTTTGGTCGCACCCAGGTGCTGAATGATATCTCGCTGGATATCCCTTCCGGACAAATGGTTGCGCTGCTGGGGCCTTCCGGCTCCGGGAAAACGACCCTGCTGCGGATTATCGCCGGGCTGGAACATCAGACCAGCGGTCATATCCGCTTCCACGGTACCGACGTCAGCCGGATGCACGCCCGCGACCGTAAAGTGGGCTTCGTCTTCCAGCACTATGCGCTGTTCCGCCATATGACGGTGTTCGATAACATCGCCTTTGGCCTGACCGTGCTGCCGCGCCGCGAACGACCCAACGCCGCGGCGATTAAAGCCAAAGTGACCAAACTGCTGGAGATGGTGCAACTGGCTCACCTGGCGGATCGCTATCCGGCGCAGCTGTCCGGTGGTCAGAAACAGCGCGTGGCGCTGGCGCGCGCCCTGGCGGTAGAGCCGCAAATTCTGCTGCTGGATGAACCTTTCGGCGCGCTGGATGCGCAGGTGCGTAAAGAGCTGCGCCGCTGGCTGCGTCAGCTGCATGAAGAGCTGAAATTTACCAGCGTGTTCGTCACCCACGATCAGGAAGAGGCGATGGAAGTTGCCGACCGGGTGGTGGTGATGAGCCAGGGCAACATCGAACAGGCCGATGCGCCTGAACGCGTGTGGCGTGAGCCGTCGACCCGCTTCGTGCTGGAGTTCATGGGGGAAGTGAATCGCCTGCAGGGGGTTATCCGCGGCGGACAGTTCCACGTTGGCGCTCACCGCTGGCCGTTAGGCTATACCCCGGCTTACCAGGGGCCGGTGGATCTGTTCCTGCGTCCGTGGGAAGTGGACATCAGCCGCCGAACCAGCCTGGATTCGCCGCTGCCGGTGCAGGTCCTGGAGGCCAGCCCGAAAGGCCACTACACCCAATTAGTCGTCCAGCCTCTGGGGTGGTATGACGAACCGCTGAGCGTGGTGTTAACGGGCGATGAGGCGCCGTCCCGCGGCGAACGGCTGTTCGTCGGGCTGCAAAACGCGCGCCTGTACAACGGTACCGAGCGTATCGAGCCGCGCGGCGAGCTTGCTCTGGCGCAGTCGGCCTGA	MSIEIANIKKSFGRTQVLNDISLDIPSGQMVALLGPSGSGKTTLLRIIAGLEHQTSGHIRFHGTDVSRMHARDRKVGFVFQHYALFRHMTVFDNIAFGLTVLPRRERPNAAAIKAKVTKLLEMVQLAHLADRYPAQLSGGQKQRVALARALAVEPQILLLDEPFGALDAQVRKELRRWLRQLHEELKFTSVFVTHDQEEAMEVADRVVVMSQGNIEQADAPERVWREPSTRFVLEFMGEVNRLQGVIRGGQFHVGAHRWPLGYTPAYQGPVDLFLRPWEVDISRRTSLDSPLPVQVLEASPKGHYTQLVVQPLGWYDEPLSVVLTGDEAPSRGERLFVGLQNARLYNGTERIEPRGELALAQSA	PGPT0002990_327	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002990-cysA-K02045	NA	NA
BMS020_05185	876	cysW_2	COG4208	Sulfate transport system permease protein CysW	ATGGCGGAAGTTACTCAATTGAAACGCTACGACGCGCCCCGCATCAACTGGGGAAAATGGTTTCTGATTGGCGTCGGGATGATGGTCTCCGCCTTCATCCTCGTGGTGCCGATGCTTTACATCTTTATCCAGGCCTTCAGCAAAGGGTTAATGCCGGTGCTGGAAAACCTGGCCAATCCGGATATGCTCCACGCCATCTGGCTGACGGTGATGATCGCCTTGATTACCGTGCCGGTGAACCTGGTGTTCGGGACCTTGCTGGCCTGGCTGGTCACGCGCTTTACGTTCCCGGGACGCCAGCTGCTATTGACGATGCTGGATATCCCGTTCGCTGTCTCGCCGGTGGTAGCCGGTCTGGTTTATCTGCTGTTCTACGGCTCTAACGGTCCGCTGGGCGGCTGGCTTGATGCGCATAACCTGCAAATCATGTTCGCCTGGCCGGGCATGGTGCTGGCGACGATCTTTGTCACCTGTCCGTTTGTGGTGCGTGAGCTGGTGCCGGTGATGATGAGTCAGGGCAGTCATGAAGATGAGGCGGCGGTCTTGCTGGGCGCTTCCGGCTGGCAGATGTTCCGCCGGGTGACGCTGCCCAATATTCGCTGGGCGCTGCTGTACGGCGTGGTGTTGACCAACGCCCGCGCCATCGGCGAATTCGGCGCGGTGTCGGTGGTCTCCGGTTCGATCCGCGGAGAAACGCTGTCGCTGCCGCTGCAAATTGAATTACTGGAGCAGGATTACAACACCGTCGGCTCGTTTACCGCCGCGGCCCTGCTGACGTTAATGGCTATTCTGACCCTGTTTTTAAAGAGTATGTTGCAATGGCGTCTGGCCAATCAGGAAAAACGCGCGCAACAGGAGGGAAATCATGAGCATTGA	MAEVTQLKRYDAPRINWGKWFLIGVGMMVSAFILVVPMLYIFIQAFSKGLMPVLENLANPDMLHAIWLTVMIALITVPVNLVFGTLLAWLVTRFTFPGRQLLLTMLDIPFAVSPVVAGLVYLLFYGSNGPLGGWLDAHNLQIMFAWPGMVLATIFVTCPFVVRELVPVMMSQGSHEDEAAVLLGASGWQMFRRVTLPNIRWALLYGVVLTNARAIGEFGAVSVVSGSIRGETLSLPLQIELLEQDYNTVGSFTAAALLTLMAILTLFLKSMLQWRLANQEKRAQQEGNHEH	PGPT0003005_713	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003005-cysW-K02047	NA	NA
BMS020_05186	834	cysT_2	COG0555	Sulfate transport system permease protein CysT	ATGTTTGCTGTGTCGTCCAAGCGCGTGCTGCCGGGCTTTACCCTAAGCCTCGGCACCAGCCTGCTGTTTGTCTGTCTGATTCTGTTATTACCGCTCAGCGCGCTGGTGATGCAGCTGGCGCAGATGAGCTGGGCGCAGTACTGGGATGTGATCACCAACCCGCAGGTGGTGGCGGCCTATAAGGTGACGCTGCTGTCGGCGTTCGTGGCCTCGATTTTTAACGGCGTCTTCGGCCTGCTGATGGCGTGGATCCTTACCCGCTATCGTTTTCCGGGCCGCACGCTGCTGGATGCCTTAATGGATCTGCCGTTTGCGCTGCCGACGGCGGTGGCCGGCCTGACCCTGGCTTCGCTGTTTTCGGTTAACGGCATTTACGGGGAATGGCTGGCTAAGTTCGATATTAAAGTGACCTATACCTGGCTCGGTATCGCCGTGGCGATGGCGTTCACCAGCATCCCCTTCGTGGTACGTACCGTGCAGCCGGTGCTGGAAGAGCTGGGACCGGAATATGAAGAAGCAGCGGAAACGCTGGGCGCTACGCGCTGGCAGAGCTTCCGCAAGGTGGTGCTGCCGGAGCTGTCGCCAGCGCTGCTGGCGGGCATTGCCCTGTCGTTTACCCGCAGCCTCGGCGAATTTGGCGCGGTGATTTTTATCGCCGGCAACATCGCGTGGAAGACGGAAGTGACGTCGCTGATGATCTTTATTCGACTGCAGGAGTTTGACTATCCGGCGGCGAGCGCCATCGCCTCGGTGATCCTGGCCGCCTCACTGCTGCTGCTGTTTTCCATCAATACCCTGCAGAGTCGCTTTGGTCGACGCGTGGTAGGTCACTAA	MFAVSSKRVLPGFTLSLGTSLLFVCLILLLPLSALVMQLAQMSWAQYWDVITNPQVVAAYKVTLLSAFVASIFNGVFGLLMAWILTRYRFPGRTLLDALMDLPFALPTAVAGLTLASLFSVNGIYGEWLAKFDIKVTYTWLGIAVAMAFTSIPFVVRTVQPVLEELGPEYEEAAETLGATRWQSFRKVVLPELSPALLAGIALSFTRSLGEFGAVIFIAGNIAWKTEVTSLMIFIRLQEFDYPAASAIASVILAASLLLLFSINTLQSRFGRRVVGH	PGPT0003000_1345	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003000-cysT|cysU-K02046	NA	NA
BMS020_05187	1017	cysP	COG4150	Thiosulfate-binding protein	ATGGCCGTTAAATCACTGAAAAAAGGATATCTGGCGCTGGCGGCTTCCATGCTGCTGGTGGCGCAGGCGCAGGCGACGGAGCTGCTGAACAGCTCCTATGATGTCTCCCGCGAGCTGTTTGCCGCCCTTAACCCGCCTTTTGAGCAGCAGTGGGCGAAGGACAATGGCGGGGACAAGCTGACCATCAAGCAGTCGCACGCTGGCTCGTCCAAGCAGGCGCTGGCGATCCTGCAGGGCCTGAAGGCGGACGTGGTGACCTACAACCAGGTGACGGACGTGCAGATCCTGCATGACAAAGGCAACCTGATCCCGGCCGACTGGCAAAGCCGCCTGCCGAACAACAGCTCGCCGTTCTATTCGACGATGGGCTTCCTGGTGCGCAAAGGCAACCCGAAAAACATTCATGACTGGAACGACCTGGTCCGCTCCGACGTTAAGCTGATCTTCCCGAACCCGAAAACCTCGGGCAACGCGCGGTACACCTACCTGGCGGCCTGGGGCGCGGCGGATAAAGCCGACGGCGGCGATAAAGCCAAAACCGAACAGTTTATGACCCAGTTCCTGAAGAACGTCGAAGTCTTCGACACCGGCGGACGCGGGGCGACCACCACCTTCGCCGAGCGCGGCCTGGGCGATGTGCTGATCAGCTTCGAGTCGGAAGTGAACAATATTCGCAAGCAGTATGAGGCGCAGGGATTTGAAGTGGTGATCCCGAAAACCAACATTCTGGCGGAGTTCCCGGTGGCCTGGGTGGATAAAAACGTCAAAGCCAACGGCACGGAAAAGGCGGCGAAGGCCTACCTGAACTGGCTCTACAGTCCGCAGGCGCAGACCATCATTACCGAATACTACTATCGGGTAAACAACCCGAAAGTGATGGATTCGCTGAAGGATAAATTCCCGCAGACCGAACTGTTCCGCGTGGAGGACAAGTTTGGCTCCTGGCCTGAGGTGATGAAAACCCACTTCGCCAGCGGCGGCGAACTGGACAAACTGCTGGCGGCGGGGCGTAAGTAA	MAVKSLKKGYLALAASMLLVAQAQATELLNSSYDVSRELFAALNPPFEQQWAKDNGGDKLTIKQSHAGSSKQALAILQGLKADVVTYNQVTDVQILHDKGNLIPADWQSRLPNNSSPFYSTMGFLVRKGNPKNIHDWNDLVRSDVKLIFPNPKTSGNARYTYLAAWGAADKADGGDKAKTEQFMTQFLKNVEVFDTGGRGATTTFAERGLGDVLISFESEVNNIRKQYEAQGFEVVIPKTNILAEFPVAWVDKNVKANGTEKAAKAYLNWLYSPQAQTIITEYYYRVNNPKVMDSLKDKFPQTELFRVEDKFGSWPEVMKTHFASGGELDKLLAAGRK	PGPT0002995_403	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002995-cysP|ylnA-K02048	NA	NA
BMS020_05188	123			hypothetical protein	ATGCTGGCGGTGAAACTTGTAGCTGGCAAAACGGCGATCGCGCAGCTGGTGCCACAGGCGGCGCTCCTGCGGCGTCAGGTGGCGGCGCAACTGCCGGGCGTAATTTGTGCTGTTTTCCATTAA	MLAVKLVAGKTAIAQLVPQAALLRRQVAAQLPGVICAVFH				NA	NA	NA	NA	NA
BMS020_05189	900	yfeX	COG2837	Dye-decolorizing peroxidase YfeX	ATGTCTCAGGTTCAGAGCGGCATTTTGCCGGAACATTGCCGCGCGGCGATTTGGATTGAAGCCAATATCAAAGGGGACGTTAACGCCCTGCGCGAAGCGAGCAAAAATTTTGTCGATAACGTGGCCACCTTCCAGGCTAAATTCCCTGACGCTAAACTCGGTGCGGTGGTGGCGTTCGGCAATACCGTCTGGCGTCAGCTGAGCGGCGGCGAAGGGGCGGAGGAGTTAAAAGATTTTCCGGTCTACGGCAAAGGGCTGGCGCCATCCACCCAGTATGACCTGCTGATTCATATTTTATCCGCCCGCCATGAAGTGAACTTCTCGGTGGCGCAGGCCGCGCTGGCCGCCTTTGGCGACGCTATCGAGGTGAAAGAAGAGATCCACGGCTTCCGCTGGGTGGAAGAGCGTGACCTCAGCGGCTTCGTCGACGGCACCGAAAACCCGGCGGGGGAAGAAACCCGTCGTGAAGTGGCGGTGATCAAAGACGGCGTGGACGCGGGCGGCAGCTACGTATTCGTCCAGCGCTGGGAGCATAATCTCAAACAGCTGAACCGCATGAGCGTGCCGGATCAGGAGATGATGATTGGCCGCACCAAGGATGCCAACGAAGAGATCGATGGCGACGCACGTCCGGTCACGTCTCACCTGAGCCGCGTTGACTTAAAAGAAGATGGCAAAGGGCTGAAAATCGTCCGCCAGAGCCTGCCGTATGGCACCGCCAGCGGTACCCATGGCCTCTATTTTTGCGCCTACTGCGCGCGTCTGTACAACATCGAGCAGCAGCTGCTGAGCATGTTCGGCGATACCGACGGCAAACGCGACGCGATGCTGCGCTTCACCAAACCGGTGACCGGCGGCTATTACTTCGCGCCGTCCCTGGAGCGTATTCAGGCGCTGTAA	MSQVQSGILPEHCRAAIWIEANIKGDVNALREASKNFVDNVATFQAKFPDAKLGAVVAFGNTVWRQLSGGEGAEELKDFPVYGKGLAPSTQYDLLIHILSARHEVNFSVAQAALAAFGDAIEVKEEIHGFRWVEERDLSGFVDGTENPAGEETRREVAVIKDGVDAGGSYVFVQRWEHNLKQLNRMSVPDQEMMIGRTKDANEEIDGDARPVTSHLSRVDLKEDGKGLKIVRQSLPYGTASGTHGLYFCAYCARLYNIEQQLLSMFGDTDGKRDAMLRFTKPVTGGYYFAPSLERIQAL	PGPT0013090_1101	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013090-yfeX-K07223	NA	NA
BMS020_05190	576	yfeY		putative protein YfeY	ATGAAATCGCTACGTGTAATGCTCTGCGCGCTTCCGCTGGCGCTGACCGGCTGTTCAACGATGAGCGCGGTCAACTGGTCGGCGGCCTATCCGTGGAACTGGTTTGGTTCTTCCACCGAGGTGACCGAGCAGGGGGTGGGGAAACTGACGGCGTCCACGCCGCTCAACGAACAGGCCATTAGCGATGCGCTGGGGAGCGACTACCGTTTGCGCAGCGGAATGAAGACCGATAAGGGGAATATCGTCCACTACTTTGAAGCGCTGAAAGACAACAGCGTGGCGCTGACCATCAATGGCGACAACGGCGCCATCAGCCGGATTGACGTGCGCGATGCCGAAATCAAAACCGCCAGCGGCGTGAAAATCGGCACACCGTTCAGCGACCTGTACAGCAAAGCCTTCGGCAACTGCCAGAAAGGCAGCAATGACAATGGCGCGGTCGTCGAGTGTCAGGCCGAGGGGAGCCAGCATATCAGTTACGCCTTCACCGGTCACTGGAGCGGCCCGGAGGAGCTGATGCCCTCCGACGATACGCTGAAAAACTGGAAGGTCAGCAAAATTATCTGGCGTCGCTAA	MKSLRVMLCALPLALTGCSTMSAVNWSAAYPWNWFGSSTEVTEQGVGKLTASTPLNEQAISDALGSDYRLRSGMKTDKGNIVHYFEALKDNSVALTINGDNGAISRIDVRDAEIKTASGVKIGTPFSDLYSKAFGNCQKGSNDNGAVVECQAEGSQHISYAFTGHWSGPEELMPSDDTLKNWKVSKIIWRR				NA	NA	NA	NA	NA
BMS020_05191	450	yfeZ		Inner membrane protein YfeZ	ATGAAGAATACTGAGTTTATCCCCGCCGATTTTGATGCCCATGGCCGTCTGCGTCTGCCTTTCCTTTTCTGGTGCGTGCTGTTGTTACAGGCCCGCACCTGGGTGCTATTCTTGATGGCCGGCGCGTCGCGTCAGCAGGGCGACGCGATTCTTAATCTGTTCTATCCCGATCACGACCGCTTCTGGCTCGGTCTACTCCCCGGCGTGCCGGCGGTGCTGGCCTTTCTGCTTAGCGGCTATCGTCAGCGCCTGCCGCGCCTGTGGCGGGCGATGCGCTGGCTGCTGGTGTTATCGCAAGTGCTGCTGTTGCTGTGGCAGCCGATGCTATGGCTGAGCGGCGAATCTCCCTCCTCGCTGACCATCGGACTGCTGGCGGCGGATGGTTATGCCCTGTGGTGGCTGGCGACCAGCCGTCGCCTCGGCGCCTGTTTTCGCCAGACCACCTTTTAA	MKNTEFIPADFDAHGRLRLPFLFWCVLLLQARTWVLFLMAGASRQQGDAILNLFYPDHDRFWLGLLPGVPAVLAFLLSGYRQRLPRLWRAMRWLLVLSQVLLLLWQPMLWLSGESPSSLTIGLLAADGYALWWLATSRRLGACFRQTTF				NA	NA	NA	NA	NA
BMS020_05192	426	ypeA	COG0456	Acetyltransferase YpeA	ATGGAGATTCGCGTTTTTCGCCAGCAGGATTTCGAAGAGGTTGTGACGCTGTGGGAGCGTTGCGATCTGCTGCGTCCCTGGAACGATCCGGAGATGGATATTGAGCGCAAGCTGAATCACGATGTCAGCCTGTTTCTGGTGGCGGAAGTGAACGGCGAAGTCGTCGGTACGGTGATGGGCGGATATGACGGCCATCGCGGGTCGGCCTACTATCTGGGCGTCCATCCTGAATATCGCGGTCGGGGGATCGCGAACGCGCTGCTCAACCGTCTGGAGAAAAAGCTGATTGCTCGCGGCTGCCCGAAAATCAATATTATGGTCCGCGAGGACAACGACGTGGTGCAGGGGATGTACGAGCGGCTGGGCTATGAGTACGCCGATGTTCTGACCCTGGGCAAACGCCTGATTGAAGATGAAGAATACTGA	MEIRVFRQQDFEEVVTLWERCDLLRPWNDPEMDIERKLNHDVSLFLVAEVNGEVVGTVMGGYDGHRGSAYYLGVHPEYRGRGIANALLNRLEKKLIARGCPKINIMVREDNDVVQGMYERLGYEYADVLTLGKRLIEDEEY				NA	NA	NA	NA	NA
BMS020_05193	873	amiA	COG0860	N-acetylmuramoyl-L-alanine amidase AmiA	ATGAGCACTTTTAAACCCTTAAAAATACTTGCTTCGCGCCGTCAGGTGCTGAAAGCCGGGCTGGCTGCCATGACGCTGAGCGGCGTCACTGCACAGGTCAGCGCAAAAGAGCAGCCACTGAAAACATCAAATGGACACAGCAAACCCGCCGCCAAAAAGGCCGGCGCACGCCGCATTGTGATGCTCGACCCGGGCCACGGCGGCATCGACACCGGGGCTATCGGCCATAACGGCTCGAAAGAGAAGCATGTGGTGCTGGCGATCGCTAAGAACGTGCGCAGCATCTTGCGCAGCAACGGCATTGACGCCCGACTGACCCGCACCGGCGATACCTTTATCCCGCTGTATGACCGCGTGGAGATTGCCCATCAGCACGGCGCCGATCTGTTTATGTCGATCCACGCCGATGGCTTCACCAACCCGAGCGCTGCCGGCGCCTCGGTGTTCGCTCTGTCAAACCGCGGCGCCAGTAGCGCCATGGCGAAATACCTCTCCGATCGCGAAAACCGCGCCGACGAGGTCGCCGGTAAGAAAGCGACGGATAAAGACCATCTGCTGCAGCAGGTGCTGTTCGATCTGGTACAGACCGACACCATTAAAAACAGCCTGACGCTGGGCTCGCATATCCTGAAAAAGATCAAGCCGGTGCATAAGCTGCACAGCCGGAATACCGAACAGGCGGCGTTCGTGGTGCTGAAGTCGCCGTCCATACCGTCCGTGCTGGTGGAAACCTCGTTCATTACGAACCCGAATGAGGAAAAACTGCTCGGCACCACCGCCTTCCGGCAGAAAATCGCCACCGCGATTGCCAACGGCATTATCAGCTATTTCCACTGGTTCGATAACCAGAAAGCCCATTCGAAGAGACGTTAA	MSTFKPLKILASRRQVLKAGLAAMTLSGVTAQVSAKEQPLKTSNGHSKPAAKKAGARRIVMLDPGHGGIDTGAIGHNGSKEKHVVLAIAKNVRSILRSNGIDARLTRTGDTFIPLYDRVEIAHQHGADLFMSIHADGFTNPSAAGASVFALSNRGASSAMAKYLSDRENRADEVAGKKATDKDHLLQQVLFDLVQTDTIKNSLTLGSHILKKIKPVHKLHSRNTEQAAFVVLKSPSIPSVLVETSFITNPNEEKLLGTTAFRQKIATAIANGIISYFHWFDNQKAHSKRR	PGPT0024160_5445	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
BMS020_05194	900	hemF_1	COG0408	Oxygen-dependent coproporphyrinogen-III oxidase	ATGAAACCCGATGCCGCGCAGGTTAAAACTTTTCTGCTCCAGCTGCAGGACAGCCTCTGTCAGCAGCTAAGCGCCGTGGATGGCGCGCCGTTTATTGAAGACGCCTGGCAGCGGGAAGGCGGCGGCGGCGGACGCAGCCGGGTGCTGCGCGACGGCAATGTGTTCGAGCAGGCGGGGGTCAACTTTTCCCATGTCCATGGCGACGCCATGCCAGCCTCCGCCACCGCCCACCGCCCGGAGCTGGCCGGACGCAGCTTTGAAGCCATGGGCGTCTCGCTGGTGGTCCATCCGCTGAACCCCTATGTGCCCACCAGCCACGCCAACGTGCGGTTCTTTATTGCCGAAAAGCCTGGCGCCGAGCCGGTGTGGTGGTTCGGCGGCGGCTTTGATTTAACCCCTTACTACGGCTTTGAAGAGGATGCCGTCCACTGGCATCGTACCGCCCGCGATCTGTGTCTGCCGTTCGGCGAAGCCGTCTATCCGCGCTATAAAAAATGGTGCGATGATTATTTCTATCTGAAGCACCGCCAGGAACAGCGCGGGATAGGCGGTCTGTTCTTTGACGACCTGAACACCCCGGATTTTGACCACTGCTTCGCCTTTATGCAGGCAGTGGGTAACGGTTACGCTGACGCCTATTTACCCATCGTCGAACGCCGAAAAGCCACGCCGTACGGCGAGCGTGAGCGCCATTTTCAGCTCTATCGCCGCGGCCGCTACGTCGAATTCAATCTGGTCTGGGACCGTGGCACCCTGTTCGGTCTGCAGACCGGCGGTAGGACGGAATCTATTCTGATGTCGATGCCGCCGCTGGTACGCTGGGAATATGATTACCAGCCGGAGGCCGGCAGCCCTGAGGCGGCGCTGAACGAGTTTATTAAAGTGAAAGCCTGGATCTGA	MKPDAAQVKTFLLQLQDSLCQQLSAVDGAPFIEDAWQREGGGGGRSRVLRDGNVFEQAGVNFSHVHGDAMPASATAHRPELAGRSFEAMGVSLVVHPLNPYVPTSHANVRFFIAEKPGAEPVWWFGGGFDLTPYYGFEEDAVHWHRTARDLCLPFGEAVYPRYKKWCDDYFYLKHRQEQRGIGGLFFDDLNTPDFDHCFAFMQAVGNGYADAYLPIVERRKATPYGERERHFQLYRRGRYVEFNLVWDRGTLFGLQTGGRTESILMSMPPLVRWEYDYQPEAGSPEAALNEFIKVKAWI	PGPT0003205_2417	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003205-hemF-K00228	NA	NA
BMS020_05195	2280	maeB_2	COG0280	NADP-dependent malic enzyme	ATGGATGAGCAGTTAAAACAGAGCGCCCTCGACTTCCACGAATTTCCGGTTCCCGGAAAAATCCAGGTCTCGCCGACCAAACCTCTCGCCACCCAGCGCGATCTGGCGCTGGCCTACTCGCCGGGCGTCGCGGCCCCCTGTCTGGAAATCGAAAAAGATCCGCTGGCGGCTTACAAATATACCGCCCGCGGCAACCTGGTGGCGGTCGTCTCCAACGGCACCGCGGTGCTGGGGCTTGGCAACATCGGCGCCCTGGCCGGCAAACCGGTAATGGAGGGCAAAGGCGTCCTGTTTAAGAAATTTGCCGGCATCGATGTGTTTGATATCGAAGTCGATGAGCTGGACCCGGACAAATTCATTAACGTCGTCGCCGCCCTCGAGCCGACCTTCGGCGGCATCAACCTCGAAGATATTAAAGCGCCGGAGTGTTTCTACATTGAGCAGCAGCTGCGCGAGCGGATGAATATTCCGGTGTTCCATGACGATCAGCACGGTACGGCGATCATCAGCACCGCGGCGATCCTCAACGGCCTGCGCGTCGTTGAGAAGAATCTGTCCGACGTGCGGATGGTGGTCTCCGGCGCGGGGGCGGCGGCTATCGCCTGCATGAACCTGCTGGTGGCGCTGGGGATGCAAAAGCACAACATCGTGGTCTGCGATTCGAAAGGCGTTATCTATAAGGATCGTGAGCCGAACATGGCGGAAACCAAAGCGGCCTACGCGGTGGAAGACGACGGCAAACGCACCCTCGATGACGTGATCGACGGCGCGGACATTTTCCTCGGCTGCTCCGGTCCGAAAGTGCTGACCCCGGAGATGGTGAAGAAGATGGCGCGCGCGCCGCTGATCCTCGCCCTGGCCAACCCGGAGCCGGAAATTCTGCCGCCGCTGGCGAAGCAGGTCCGCGATGACGCCATCATCTGCACCGGCCGCTCCGACTACCCTAACCAGGTCAACAACGTCCTCTGCTTCCCGTTCATCTTCCGCGGCGCGCTGGACGTCGGCGCGACGGCGATCAACGAAGAGATGAAGCTGGCGGCGGTGCATGCCATTGCCGAGCTGGCCCACGCCGAGCAGAGCGAAGTGGTCGCCTCCGCCTACGGCGATCAGGATTTAAGCTTTGGCCCGGACTACATTATTCCGAAACCGTTCGATCCGCGGCTGATCGTCAAGATCGCCCCCGCGGTGGCGAAGGCGGCGATGGACTCCGGCGTGGCGACGCGCCCGATCGCCGATTTTGACGCCTATATCGAGAAGCTGAGCGAATTCGTCTATAAGACCAACCTGTTTATGAAGCCTATCTTCTCTCAGGCGCGCAAAGAGCCGAAGCGCGTGGTGCTGGCGGAAGGGGAGGAGACCCGGGTGCTGCACGCCACCCAGGAGCTGGTGTCGCTGGGGCTGGCCAAACCGATTCTGGTGGGGCGCCCGAGCGTGATTGAAATGCGCATCCAGAAGCTGGGCCTGCAGATCAAGGCCGGCGTTGACTTCGAGATCGTCAATAATGAATCCGACCCGCGGTTTAAAGAGTACTGGAGCGAGTACTACCAGCTGATGAAACGCCGCGGCATTACCCAGGAGCAGGCGCAGCGGGCGGTGATTAGCAACACCACGGTGATTGGCGCCATCATGGTTCACCGTGGCGAAGCGGATGCGATGATCTGCGGCACCATTGGCGAGTACCACGACCACTACCGCGTGGTGCAGCCGCTGTTCGGCTATCGCGACGGCGTCAGCACCGCCGGGGCGATGAACGCGCTGCTGCTGCCGAGCGGCAACACCTTTATCGCTGACACCTATGTCAATCACGATCCATCGCCGGAAGAGCTGGCGGAGATCACCCTGATGGCGGCGGAAAGCGTGCGTCGCTTTGGTATCGAACCGCGGGTGGCGTTGCTGTCACATTCCAACTTTGGCTCTGCCGACTGCCCGTCCGCCAGCAAGATGCGCAGAACCCTTGAGCTGGTGAAGGCACGCGCGCCGGAGCTGATGATCGATGGCGAAATGCATGGCGACGCCGCGCTGGTGGAAAGCATTCGCAACGATCGCATGCCGGACAGCCCGCTGAAGGGGTCGGCCAATATTCTGGTGATGCCGAATATGGAAGCCGCCCGGATCAGCTATAACCTGCTGCGCGTCTCCAGTTCGGAAGGGGTCACCGTCGGGCCGGTGCTGATGGGGGTAGCGAAGCCGGTGCATATCCTGACGCCGATCGCCTCTGTGCGTCGCATCGTGAATATGGTGGCGCTGGCGGTTGTCGAAGCGCAAACCGAACCGCTGTAA	MDEQLKQSALDFHEFPVPGKIQVSPTKPLATQRDLALAYSPGVAAPCLEIEKDPLAAYKYTARGNLVAVVSNGTAVLGLGNIGALAGKPVMEGKGVLFKKFAGIDVFDIEVDELDPDKFINVVAALEPTFGGINLEDIKAPECFYIEQQLRERMNIPVFHDDQHGTAIISTAAILNGLRVVEKNLSDVRMVVSGAGAAAIACMNLLVALGMQKHNIVVCDSKGVIYKDREPNMAETKAAYAVEDDGKRTLDDVIDGADIFLGCSGPKVLTPEMVKKMARAPLILALANPEPEILPPLAKQVRDDAIICTGRSDYPNQVNNVLCFPFIFRGALDVGATAINEEMKLAAVHAIAELAHAEQSEVVASAYGDQDLSFGPDYIIPKPFDPRLIVKIAPAVAKAAMDSGVATRPIADFDAYIEKLSEFVYKTNLFMKPIFSQARKEPKRVVLAEGEETRVLHATQELVSLGLAKPILVGRPSVIEMRIQKLGLQIKAGVDFEIVNNESDPRFKEYWSEYYQLMKRRGITQEQAQRAVISNTTVIGAIMVHRGEADAMICGTIGEYHDHYRVVQPLFGYRDGVSTAGAMNALLLPSGNTFIADTYVNHDPSPEELAEITLMAAESVRRFGIEPRVALLSHSNFGSADCPSASKMRRTLELVKARAPELMIDGEMHGDAALVESIRNDRMPDSPLKGSANILVMPNMEAARISYNLLRVSSSEGVTVGPVLMGVAKPVHILTPIASVRRIVNMVALAVVEAQTEPL	PGPT0001685_1487	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001685-maeB-K00029	NA	NA
BMS020_05196	957	tal_2		Transaldolase	ATGAATCAGCTAGACAGTATTAAGCAGTTCACCACCGTGGTCGCCGACAGCGGCGACATCGAATCCATCCGCCACTACCATCCGGAAGATGCCACCACCAACCCCTCCCTGCTGCTGAAGGCCGCCGGGCTGGCGTCCTATAGCGGACTCATCGACGACGCGATCGCCTGGGCCAAAAAGCAAGGAGGCAGCCGCGAAGCGCAGGTAACTCACGCCTGCGATAAGCTGGCGGTCAATTTTGGCGCGGAGATCCTCAAAAGCATTCCTGGCCGTGTCTCCACCGAGGTGGACGCCCGGCTCTCCTTCAACCGGGAGAAGAGTATCGAGAAGGCGCGCCATCTGGTGGCGCTGTATCAGGAGATGGGCATTGATAAGTCACGGATCCTGATCAAGCTGGCCTCCACCTGGGAGGGGATCCGCGCCGCCGAAACGCTGGAAAAAGAGGGGATCCACTGCAACCTGACGCTGCTGTTTTCCTTCGCCCAGGCCCGGGCCTGCGCCGAAGCCGGGGTCTATCTGATCTCCCCTTTCGTCGGGCGTATTTATGACTGGTATCAGGCGCGCAAACCGCTGGATCCTTACGTGGTTGAGGAAGATCCAGGGGTGAAATCCGTGCGCAATATCTATGACTACTTCAAACAGCATAAATACAACACCATCGTGATGGGCGCCAGCTTCCGCCGCACCGAGCAGATCCTCGCCCTGGTCGGCTGCGACCGCCTGACCATCGCCCCGCCTTTATTAAAAGAGCTGCAGGCCAGCGACGCCCCGGTGGTGCGCAAACTGATCCCTGCCAGCCAGATCCTGCCGCGCCCGGTGCCGCTCAGCGAGGCGGAGTTCCGCTGGGAACATAATCAGGATCCTATGGCGGTCGAAAAGCTGGCGGAGGGTATCCGCCTGTTCGCCGTCGATCAACGCAAACTGGAAGATCTGCTTGCCGCCAAACTGTCACTTTAG	MNQLDSIKQFTTVVADSGDIESIRHYHPEDATTNPSLLLKAAGLASYSGLIDDAIAWAKKQGGSREAQVTHACDKLAVNFGAEILKSIPGRVSTEVDARLSFNREKSIEKARHLVALYQEMGIDKSRILIKLASTWEGIRAAETLEKEGIHCNLTLLFSFAQARACAEAGVYLISPFVGRIYDWYQARKPLDPYVVEEDPGVKSVRNIYDYFKQHKYNTIVMGASFRRTEQILALVGCDRLTIAPPLLKELQASDAPVVRKLIPASQILPRPVPLSEAEFRWEHNQDPMAVEKLAEGIRLFAVDQRKLEDLLAAKLSL	PGPT0017375_2595	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_PENTOSE_METABOLISM,PGPT0017375-talA|talB-K00616	NA	NA
BMS020_05197	1995	tktB	COG0021	Transketolase 2	ATGTCCCGAAGAGAGCTTGCCAATGCCATCCGCGCCCTGAGTATGGACGCGGTGCAGAAAGCCAATTCCGGCCACCCCGGTGCGCCAATGGGGATGGCAGATATTGCCGAAGTGCTGTGGAACGATTTTCTCAAGCACAATCCGCAGAACCCTGGCTGGGTGGACCGCGACCGCTTTATTCTGTCCAACGGCCACGCGTCGATGCTGCTCTACAGTCTGCTGCACCTGACCGGCTACGATCTGCCGCTGTCAGAACTGAAGCAGTTTCGCCAGCTGCACTCTAAAACGCCGGGTCACCCGGAGCATGGCTATACCCCCGGGGTGGAGACCACCACCGGCCCGCTGGGCCAGGGGCTGGCGAACGCCGTCGGTATGGCCATTGCCGAACGTACCCTGGCGGCGCAGTTTAACCGCCCCGGTCATGAGATTATCGACCATCACACCTGGGTTTTCATGGGCGATGGCTGTCTGATGGAGGGGATCTCCCATGAAGCCTGTTCGCTGGCAGGCACGCTCGGACTGGGCAAGCTGATCGGTTTTTACGATCACAACGGCATCTCCATCGACGGCAAAACCGAAGGCTGGTTTTCCGACGATACAGCGGAACGCTTCCGCGCCTACCACTGGCATGTGATCGGCGATATCGACGGCCACGATCCGCAGGCCATCAAACAGGCCATTACGGAAGCGCAGGCGGTGAAAGATAAGCCGTCGCTGATCATCTGTCGGACCATCATCGGCTTCGGTTCGCCCAACAAAGCCGGCTCAGAGGAGTCGCACGGCGCGGCGCTGGGTGAAAAAGAGGTGGCCCTGGCCCGCCAGCAGCTGGGCTGGAAATATCCGCCCTTTGAGATCCCGAAAGAGATCTATCAGGGCTGGGATGCGCGGCCACGCGGCGAAAAAGCCGAGCACGCCTGGAACGAGAAATTCGCCGCCTACCAGCAGCAGTTCCCGGAACTGGCCGCTGAGCTAACCCGTCGCATGGCAGGCGCCCTGCCGGAAGATTTTGCCGCGACGGCGCGTGACTACGTGGCGAAGCTGCAGGCCGAGCCGGCGAAGATCGCCAGCCGTAAAGCCTCGCAGAATGCGCTGAACGCGTACGGCCCCCACCTCCCGGAGCTGCTGGGCGGTTCGGCGGATCTCGCGCCGAGTAACCTGACCATCTGGTCTGGCTCGACATCGATTAAAGAGGATGCCGCCGGCAACTATATCCACTACGGCGTGCGCGAATTCGGCATGACCGCGGTGGCCAACGGCATCGCCCTGCACGGGGGCTTCATTCCCTATACCTCGACCTTTCTGATGTTTGTGGAATACGCCCGCAACGCAGCGCGCATGGCGGCCCTGATGAAGGCCCGGCAGATCATGGTCTATACCCATGACTCCATCGGTCTTGGGGAAGACGGTCCGACCCACCAGGCGGTGGAACAGCTGGCCAGTCTGCGGCTGACGCCCAACTTCAGCACCTGGCGCCCTTGCGACCAGGTGGAGACCGCCGTCGCCTGGCAGGCGGCCATCGCGCGTCAGGGCGGACCGACGGCGCTGATCCTGTCGCGACAAAACCTGGCGCAGATGCCGCGTACCCCGCAACAGGTTCAGGATATCGCCCGGGGCGGCTACGTGCTGAAGGATGCCGGCGGCAAACCCGACCTGATCCTCATCGCCACCGGCTCGGAAGTGGAAATCACCGTCCTGGCGGCGGAAAAACTGTTGGCCAACGGAGTGAATGTGCGGGTGGTTTCGCTCCCCTCCACCGACGTGTTTGATGCTCAGGACGAGGCCTGGCGCGAGTCGGTGCTGCCGTCGGACGTCAGCGCCCGGGTGGCCGTCGAGGCCGGGATAGCGGACTACTGGTATAAATATGTCGGTTTAAAAGGCAAGATCGTCGGCATGACCGGCTACGGTGAATCCGCCCCGGCGGAGCAGCTGTTCCCGTTCTTTGGCTTTACGGTCGACCATATCGTCGCCACCGCCGAACAGGTGCTTAACGGGTGA	MSRRELANAIRALSMDAVQKANSGHPGAPMGMADIAEVLWNDFLKHNPQNPGWVDRDRFILSNGHASMLLYSLLHLTGYDLPLSELKQFRQLHSKTPGHPEHGYTPGVETTTGPLGQGLANAVGMAIAERTLAAQFNRPGHEIIDHHTWVFMGDGCLMEGISHEACSLAGTLGLGKLIGFYDHNGISIDGKTEGWFSDDTAERFRAYHWHVIGDIDGHDPQAIKQAITEAQAVKDKPSLIICRTIIGFGSPNKAGSEESHGAALGEKEVALARQQLGWKYPPFEIPKEIYQGWDARPRGEKAEHAWNEKFAAYQQQFPELAAELTRRMAGALPEDFAATARDYVAKLQAEPAKIASRKASQNALNAYGPHLPELLGGSADLAPSNLTIWSGSTSIKEDAAGNYIHYGVREFGMTAVANGIALHGGFIPYTSTFLMFVEYARNAARMAALMKARQIMVYTHDSIGLGEDGPTHQAVEQLASLRLTPNFSTWRPCDQVETAVAWQAAIARQGGPTALILSRQNLAQMPRTPQQVQDIARGGYVLKDAGGKPDLILIATGSEVEITVLAAEKLLANGVNVRVVSLPSTDVFDAQDEAWRESVLPSDVSARVAVEAGIADYWYKYVGLKGKIVGMTGYGESAPAEQLFPFFGFTVDHIVATAEQVLNG	PGPT0011200_3963	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
BMS020_05198	1047			hypothetical protein	ATGCTTTTTCGCATCATTTTTTTCCTCTTTCTGGCGGTGCTGCCTTGCTCACAGGCATGGTCGGCACCGGCGCAGCAGCGCTTCAACGACTGGCAGGTCACCTGTAATAACCAAAATTTCTGCGTCACCCGCAACGTGGGGCTGCATTATGGTCTGGTGATGACCCTCAGCCGCAGCGCCGGGGCGGCTACTGACGCCAGCCTGCGTATCGAACTGGGCGGCACCGGCAATCCGGTGGCGACGCTCGCGCCGATAGCGCCGCGCCTGCTGCTGGATGGTAAACCGCTGTCCCTGACCGACAAGCGCTGGCGCATTGAAGATAAACTCATTAAAACCGACGACAGCGTGACGATCGATGCCTTCCTCCAGCGGGTCCAGGAGGGAAAAACCCTCTCACTGGCCAACGGCCTGCAGACCATCTCCCTGCAGGGGCTGAAAGCGGCCCTGCTATTTATCGATGCCCGGCAAAAGCGGGTGGGCAGCGAAACGGCCTGGGTCGGCAAAGGGGAGGAGCCGCCGCTCAGCGTACCGCCGGCGCCGGCGCTGCGCGCGGTGGCGAGCGCGGTCACGGCGCAGTCGCCGCTGGGACGTGATGAACTCAACGATCTGATGGATTACGGCAATGAGCGGATGAGCAACAGCAACTGCTCCCTCGATCCGTTCCGCCGCGAAATTCGCGTCACTGCGCTGACGGATGACAAAGTGCTGCTGATGACCAGCTGCGAATCCGGGGCGTACAACACCGTCTGGCTGGCCTGGCTGGTCTCCCGCCAGCGCCCGTATGTCGCCCGTCAGGTGCGGCTGACGCTGCCATTTCAGCCGCCCGGCGAGGCGCCGCGGGAGATTGAGCTGATTAACGCCAGCTATGATGACCGTCGTCATGAGCTGGTGACCCTGGACAAGGGGCGCGCGTCTGGCGATTGCGGGATCCAGACCCGCTGGCGTTTTGACGGCCAGCGGTTCAGCCTCTCCCGTTACGCACAGCAGCCGACGTGTGACAACTGGCAGGGGCCAGATGCCTGGCCCACGCTGTGGATCACCCGTTAA	MLFRIIFFLFLAVLPCSQAWSAPAQQRFNDWQVTCNNQNFCVTRNVGLHYGLVMTLSRSAGAATDASLRIELGGTGNPVATLAPIAPRLLLDGKPLSLTDKRWRIEDKLIKTDDSVTIDAFLQRVQEGKTLSLANGLQTISLQGLKAALLFIDARQKRVGSETAWVGKGEEPPLSVPPAPALRAVASAVTAQSPLGRDELNDLMDYGNERMSNSNCSLDPFRREIRVTALTDDKVLLMTSCESGAYNTVWLAWLVSRQRPYVARQVRLTLPFQPPGEAPREIELINASYDDRRHELVTLDKGRASGDCGIQTRWRFDGQRFSLSRYAQQPTCDNWQGPDAWPTLWITR				NA	NA	NA	NA	NA
BMS020_05199	597	nudK_2		GDP-mannose pyrophosphatase NudK	ATGTCACTCAATATTCACGTCATTAAAGATAAAATCCTCTCTGAGAACTGGTTCGTACTACGCAACATGACCTATGAGCTGACGCGGGCGGACGGCAGCGTCGTGCGCCACAAACGCGAGGTCTACGATCGCGGCAATGGCGCCACCGTGCTGCTGTATAACCGCCATAAGCAGACGGTGGTCCTGGTGCGTCAGTTCCGGGTCGCCACCTGGGTCAATGGCAATCATGACGGCATGCTGATTGAAACCTGCGCCGGGCTGCTGGACAACGACGAGCCGGAGGCCTGCATTCGGAAAGAGGCGGTGGAAGAGACCGGCTATGAAGTGGGCGAGGTGCGAAAGCTGTTTGAGCTGTTTATGTCGCCAGGCGGCGTCACCGAAGTGGTGCATTTCTTTATCGCCGAGTACAGCGACGCCCAGCGAACCACCAGCGGCGGCGGGGTGGATGACGAAGCCATCGAGGTGCTGGAGCTGCCCTTTAGCCAGGCGCTACAGATGGTCGCTGATGGGGAGATCCGCGACGGGAAAGCGGTCATTCTGCTGCAGTATCTGCAAACCTCCGGCCTGATGTTGGGGAACTCTGACAAATCCGATTGA	MSLNIHVIKDKILSENWFVLRNMTYELTRADGSVVRHKREVYDRGNGATVLLYNRHKQTVVLVRQFRVATWVNGNHDGMLIETCAGLLDNDEPEACIRKEAVEETGYEVGEVRKLFELFMSPGGVTEVVHFFIAEYSDAQRTTSGGGVDDEAIEVLELPFSQALQMVADGEIRDGKAVILLQYLQTSGLMLGNSDKSD	PGPT0017890_28	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017890-nudK-K12945	NA	NA
BMS020_05200	1983			Ferredoxin--NADP reductase	ATGAACCACTTTATATTGAGCGATAGCCGAAAATGTATCGGTTGCCAGGCCTGCGAAGTGGCCTGCGTAATGGCGCATAACGAGGAGCAACATGCGCTGACCCCGCAGCGCTTTTTGCCCCGTATCACCGTGATTAAAGCAGAAGGGCAGCGTAACGCCATCACCTGCCGCCACTGCGAAGACGCCCCCTGCCTCCGCAGCTGCCCCAACGGCGCCATCGCCCAGACTGGCGACAGCGTTCAGGTCTGTCAGGAGAAATGCATTGGCTGTAAATCCTGCATGGTGGCCTGCCCGTTCGGGGTGATGCAGGTCGTGGTCACGCCGGAAGCCGCAGGCCAGGTGAAAGCCAGCGCGCAAAAATGCGATCTGTGCGCGGGCCGCGAGGCGGGACCGGCCTGTGTGGAAAACTGTCCGGCGCAGGCGCTGACCCTCGCCGACGATGAGACATTGACCACGCTGGCCAGGCAGCGGCGTCTGCGATCGGCCTGCCAGGAGGCGCAGCCGTGGCAGCGCGGCGCGGCCCCCGCCAGGCAGCCCGACGCCGGCGAGAAGGCCAGGCAAATGGCGATGACGCCGCCGCGCGGAGAGCCGGATAAGCTGGCGGCGGAGGCGCGTAAGAGCCACTTTGAGGAGATCTATCAGCCGTTCACCCCGACGCAGGCCAGGCAGCAGGCCGCCCGCTGCCTGAAATGTGGAGAACACAGCATCTGTGAATGGACCTGTCCACTGCATAACCACATTCCGCAGTGGGTCGAGCTGGTGAAGGCAGGGGATATCGCCGCCGCGGTCGCCCTGTCCCATCAGACCAACTGTCTGCCGGAGATCACCGGCCGCGTCTGCCCTCAGGACCGGCTGTGTGAGGGCGCCTGCACCCTGCGCGATGAAAGCGGCGCGGTCACCATCGGCAATATTGAGAGATTTATATCCGACCAGGCGCTGGCCAGCGGCTGGCGTCCGGACCTCTCGCAGGTTAAGCCGAGCGGCAAACGGGTGGCGATTATCGGCGCCGGACCGGCCGGGCTGGCCTGCGCCGATGTGCTGGTGCGCCACGGCGTACAGCCGGTGGTCTTTGACCGTCATCCGGAGATCGGCGGCCTGCTGACCTTCGGCATTCCGGCGTTCAAGCTGGATAAGTCACTGCTGGCCCGGCGGCGGGCGATTTTCTGCGAGATGGGCGTCCACTTTGAGCTCAACTGCGAGGTGGGGAAAGATATCCCCCTGGCGACGCTGCTGGCTGAGTATGACGCGGTGTTCGTCGGCGCCGGAACCTATCGCTCCATGAAGGCCGGCCTGCCGAATGAAGAGGCGCCCGGGGTCTACGACGCGCTGCCGTTTCTTATCGCCAACACCAAACAGGTGATGGGGCTGACGGAATCGGCGCTGGAGCCTTATGTCAACACCGCCGGGCTGAACGTGGTGGTGCTGGGGGGCGGCGATACGGCGATGGACTGCGTGCGCACCGCGCTGCGCCATGGCGCCCGCCAGGTGACTTGCGCCTATCGGCGGGATGAAGCCAACATGCCGGGCTCGAAAAAAGAGGTCAAAAACGCCCGCGAAGAGGGGGCGCTCTTTGAGTTTAACGTCCAGCCGGTGACGCTTGAGCTGGACGAGAACGGACGGGTGAACGGGGTTCGCTTTTTGCGCACCGAGCTTGGCGCGCCGGACGCCGGCGGAAGACGCCGCCCGACGCCGATCCCCGGCAGCGAGTTTGTTATGCCGGCAGAGGCGGTGATCATGGCCTTTGGCTTCCACCCGCACCGCATGCCCTGGCTGGAAGCGGCCGGGGTGGCGCTGGACAGCCAGGGGCGGATTAAAGCCGGAGTGGAGAGCCGTTACCGTTATCAGACCAGTCAGGAGAAGATCTTTGCCGGCGGCGATGCCGTGCGCGGCGCCGACCTGGTGGTAACGGCGATGGCGGAAGGCCGTCACGCGGCGCAGGGGATCCTTGACTATCTGGGGCTGAAAACGACGCCGCTTCACTGA	MNHFILSDSRKCIGCQACEVACVMAHNEEQHALTPQRFLPRITVIKAEGQRNAITCRHCEDAPCLRSCPNGAIAQTGDSVQVCQEKCIGCKSCMVACPFGVMQVVVTPEAAGQVKASAQKCDLCAGREAGPACVENCPAQALTLADDETLTTLARQRRLRSACQEAQPWQRGAAPARQPDAGEKARQMAMTPPRGEPDKLAAEARKSHFEEIYQPFTPTQARQQAARCLKCGEHSICEWTCPLHNHIPQWVELVKAGDIAAAVALSHQTNCLPEITGRVCPQDRLCEGACTLRDESGAVTIGNIERFISDQALASGWRPDLSQVKPSGKRVAIIGAGPAGLACADVLVRHGVQPVVFDRHPEIGGLLTFGIPAFKLDKSLLARRRAIFCEMGVHFELNCEVGKDIPLATLLAEYDAVFVGAGTYRSMKAGLPNEEAPGVYDALPFLIANTKQVMGLTESALEPYVNTAGLNVVVLGGGDTAMDCVRTALRHGARQVTCAYRRDEANMPGSKKEVKNAREEGALFEFNVQPVTLELDENGRVNGVRFLRTELGAPDAGGRRRPTPIPGSEFVMPAEAVIMAFGFHPHRMPWLEAAGVALDSQGRIKAGVESRYRYQTSQEKIFAGGDAVRGADLVVTAMAEGRHAAQGILDYLGLKTTPLH				NA	NA	NA	NA	NA
BMS020_05201	3114	acrB_3	COG0841	Multidrug efflux pump subunit AcrB	ATGGCGAATTTCTTTATCGATCGCCCCATTTTTGCGTGGGTGCTGGCAATCCTGTTATGCCTGACGGGCACCCTTGCCATTTTGTCGCTACCGGTTGAACAGTATCCCGATCTGGCCCCGCCGAATGTGCGGGTCACGGCCAACTATCCCGGCGCTTCCGCGCAAACCCTGGAGAATACCGTCACCCAGGTTATCGAACAGAATATGACCGGCCTCGATAACCTGATGTATATGTCATCCCAGAGCAGCGCCACCGGCCAGGCGACCATCACCCTCAGTTTTACCGCCGGTACCGACCCGGACGAAGCCGTGCAGCAGGTGCAAAACCAGCTGCAGTCGGCGATGCGTAAACTGCCGCAGGCGGTGCAAAACCAGGGGGTAACGGTGCGCAAGACTGGCGATACCAATATCCTGACCCTCGCCTTCGTCTCCACCGACGGCAGTATGGATAAACAGGATATCGCCGACTACGTCGCCAGTAACATTCAGGACCCGCTCAGCCGCGTCAACGGCGTAGGGGATATCGACGCCTACGGCTCGCAATACTCAATGCGCATCTGGCTCGATCCGGCAAAGCTCAATAGCTTCCAGCTGACCACCAAGGATGTTACCGACGCCATCAGTTCGCAGAACGCCCAGATTGCCGTCGGCCAGCTCGGCGGCACGCCTTCCGTCGATAAGCAGGCGCTGAACGCCACCATCAACTCGCAATCTCTGCTGCAAACCCCGGAACAGTTTCGCAATATCACCCTGCGCGTCAATCAGGATGGTTCAGAAGTGACCCTCGGCGATGTCGCTACCGTGGAGATGGGGGCGGAGAAGTACGACTATCTTAGCCGCTATAACCGCCAGGCCGCCTCTGGCCTGGGAATTAAGCTCGCCTCCGGCGCCAACGAAATGGCCACCGCGGAGCGCGTGATCGCTCGCCTCAATGAGCTGTCGCAGTATTTCCCGCACGGGCTGGAATATAAAGTCGCCTACGAGACCACCTCCTTCGTGAAGGCTTCCATTACCGACGTGGTGAAAACCCTGCTGGAGGCGATCCTGCTGGTTTTCCTCGTGATGTATCTGTTCCTGCAGAACTTCCGCGCCACCCTGATCCCGACCATCGCCGTGCCGGTGGTGCTGATGGGCACCTTCGCGGTGCTTTATGCCTGTGGCTACAGCATCAACACCCTGACGATGTTCGCGATGGTGCTGGCTATCGGCCTGCTGGTGGATGACGCCATCGTGGTGGTGGAAAACGTTGAGCGCATCATGAGCGAGGAAGGCCTGTCGCCGCGGGAAGCCACCCGCAAATCGATGGGACAAATTCAGGGCGCGCTGGTGGGGATCGCGATGGTGCTGTCGGCGGTGTTTGTGCCAATGGCCTTCTTCGGCGGCACCACCGGCGCTATCTATCGCCAGTTCTCAATTACTATCGTCGCGGCGATGGTCCTCTCGGTGCTGGTGGCCATGATCCTCACCCCGGCCCTTTGCGCCACCCTGCTCAAACCGGTTAAGCCAGGTGAATCTCATGAGAGAAAAGGCTTCTTCGGCTGGTTCAACCGCACCTTTAACCGCAGCGCCAGCCGCTATGAAACCTTCGTCGGCAAAATTCTTCATCGCTCGCTGCGCTGGATGCTGATCTACGTCGTTCTGCTCGGCGGGATGGTGTTCCTGTTCCTGCATCTGCCCACCTCATTCCTGCCGCTGGAGGATCGGGGGATGTTCACCACCTCGGTACAGTTGCCGAGCGGCAGCACCCAACAGCAGACGCTGAAAGTGGTGCAGAAAGCGGAAGATTACTTCCTCAATAACGAGAAGCAAAACGTGGAGTCGGTGTTCGCTACCGTTGGCTCCGGCCCCGGCGGCAACGGGCAGAACGTAGCCCGTATGTTCGTGCGCCTCAAAGACTGGGACCAGCGCGATCCGCAAACCGGCTCCTCCTTTGCCATTATTGAACGCGCCACCAAAGCGTTTAATCAGATCAACGAAGCCCGGGTCATCGCCAGCAGCCCGCCGGCGATCAGCGGCCTCGGCAGTTCGGCAGGCTTCGATATGGAGCTGGAAGATCACGCCGGTAAGGGGCACGATGCGCTGATGGCGGCGCGCGATACGCTGCTTGAGCTGGCGGGTAAAAACCCGCTGTTGACCCGGGTCCGGCATAACGGGCTCGACGACAGCCCGCAGCTGCAGGTCGATATCGATCAGCGTAAAGCTCAGGCGCTGGGCGTCTCCATTGACGACATCAACGATACGCTGCAAACCGCGTGGGGGTCGAGCTACGTCAACGACTTTATGGATCGCGGGAGGGTGAAGAAAGTCTACGTCCAGGCGGCGGCGAAATATCGAATGCTGCCTGACGATATCAATCTCTGGTACGTCCGCAACAGCAGCGGCACGATGGTGCCGTTCTCGGCCTTCGCCACCTCACGCTGGGAGACCGGCTCGCCGCGTCTGGAGCGCTACAATGGCTATTCGGCGGTGGAGATCGTCGGTGAGGCGGCGCCGGGCATCAGTACCGGTACCGCGATGGACATGATGGAGAAACTGGCCGCGCAGCTGCCAACCGGCTTTGGCCTCGAATGGACCGCCATGTCCTATCAGGAACGCCTCTCCGGCGCTCAGGCGCCGGCCCTGTACGCGATTTCTCTGCTGGTGGTGTTCCTGTGCCTGGCGGCGCTGTACGAGAGCTGGTCGGTGCCGTTCTCGGTGATGCTGGTGGTCCCGCTCGGGGTGATTGGCGCCCTGCTGGCGACCTGGATGCGCGGCCTGGAGAATGACGTTTACTTCCAGGTGGGCCTGTTGACGGTGATCGGCCTGTCGGCGAAAAACGCCATTCTGATCGTCGAGTTCGCCAATGAGCTCAACGAGAAAGGCCAGGATCTGCTCAGCGCCACGCTGTCGGCCTGCCGTCAGCGCCTGCGCCCCATTCTGATGACCTCGCTGGCGTTTATCTTCGGCGTCCTGCCGATGGCCACCAGCACCGGAGCCGGCTCCGGCAGCCAGCATGCGGTCGGTACCGGGGTGATGGGCGGGATGATCTCCGCCACCGTGCTGGCCATCTTTTTCGTACCGCTGTTCTTTGTGCTGGTGCGCCGCCGCTTTCCGCTGAAGGAGCGTCCGCAATAA	MANFFIDRPIFAWVLAILLCLTGTLAILSLPVEQYPDLAPPNVRVTANYPGASAQTLENTVTQVIEQNMTGLDNLMYMSSQSSATGQATITLSFTAGTDPDEAVQQVQNQLQSAMRKLPQAVQNQGVTVRKTGDTNILTLAFVSTDGSMDKQDIADYVASNIQDPLSRVNGVGDIDAYGSQYSMRIWLDPAKLNSFQLTTKDVTDAISSQNAQIAVGQLGGTPSVDKQALNATINSQSLLQTPEQFRNITLRVNQDGSEVTLGDVATVEMGAEKYDYLSRYNRQAASGLGIKLASGANEMATAERVIARLNELSQYFPHGLEYKVAYETTSFVKASITDVVKTLLEAILLVFLVMYLFLQNFRATLIPTIAVPVVLMGTFAVLYACGYSINTLTMFAMVLAIGLLVDDAIVVVENVERIMSEEGLSPREATRKSMGQIQGALVGIAMVLSAVFVPMAFFGGTTGAIYRQFSITIVAAMVLSVLVAMILTPALCATLLKPVKPGESHERKGFFGWFNRTFNRSASRYETFVGKILHRSLRWMLIYVVLLGGMVFLFLHLPTSFLPLEDRGMFTTSVQLPSGSTQQQTLKVVQKAEDYFLNNEKQNVESVFATVGSGPGGNGQNVARMFVRLKDWDQRDPQTGSSFAIIERATKAFNQINEARVIASSPPAISGLGSSAGFDMELEDHAGKGHDALMAARDTLLELAGKNPLLTRVRHNGLDDSPQLQVDIDQRKAQALGVSIDDINDTLQTAWGSSYVNDFMDRGRVKKVYVQAAAKYRMLPDDINLWYVRNSSGTMVPFSAFATSRWETGSPRLERYNGYSAVEIVGEAAPGISTGTAMDMMEKLAAQLPTGFGLEWTAMSYQERLSGAQAPALYAISLLVVFLCLAALYESWSVPFSVMLVVPLGVIGALLATWMRGLENDVYFQVGLLTVIGLSAKNAILIVEFANELNEKGQDLLSATLSACRQRLRPILMTSLAFIFGVLPMATSTGAGSGSQHAVGTGVMGGMISATVLAIFFVPLFFVLVRRRFPLKERPQ	PGPT0003285_242	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003285-acrD|yffA-K18324	NA	NA
BMS020_05202	354	yffB_1	COG1393	Protein YffB	ATGCTCACCATGTACGGAATTAAAAACTGCGATACCATTAAAAAAGCCCGCCGCTGGCTGGAAGCACATCAGATTGACTATCGCTTCCATGACTACCGCGCCGATGGCCTCGACCGCGCGCAACTGGATACCTTTATTGCCGAACTGGGCTGGCAGGCGCTGCTGAACACCCGCGGCACCACCTGGCGCAAGCTGGACGAATCGCTGCGCAACAGCATCGATAATGCCGATGCCGCCGCCGCATTGATGCTGGAAATGCCGGCGATTATCAAACGCCCATTGCTCTGCGCGCCCGGTCGTCCTATGCTGCTGGGTTTTAGTGAAGCAAGTTATCAGCAGTTTAACGAGGTATAG	MLTMYGIKNCDTIKKARRWLEAHQIDYRFHDYRADGLDRAQLDTFIAELGWQALLNTRGTTWRKLDESLRNSIDNADAAAALMLEMPAIIKRPLLCAPGRPMLLGFSEASYQQFNEV	PGPT0004720_3449	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004720-arsC1-K00537	NA	NA
BMS020_05203	1128	dapE_1	COG0624	Succinyl-diaminopimelate desuccinylase	ATGTCTTGCCCGGTCATTGAGCTGGCTCAGCAGCTTATTCGCCGCCCTTCCCTTAGCCCCGATGATGCGGGATGCCAGGCGTTAATGATTGAACGCCTGCGTGCGATCGGCTTTACCGTTGAACCGATGGATTTCGGCGATACGCAGAACTTCTGGGCCTGGCGCGGCCACGGCGAGACGCTGGCCTTCGCCGGCCACACCGACGTGGTCCCGGCAGGCGACGCCGACCGCTGGATCAATCCGCCGTTCGAACCCACCATCCGCGACGGGATGCTGTTTGGCCGCGGGGCGGCAGATATGAAAGGCTCGCTGGCGGCGATGGTGGTTGCCGCTGAGCGTTTTGTCGCGCAGTACCCGAACCACCGGGGCCGGCTGGCGTTTTTGATTACCTCTGATGAAGAGGCCAGCGCCAAAAACGGCACCGTCAAAGTGGTGGAGACGCTGATGGCGCGTAACGAGCGTCTGGACTACTGTCTGGTCGGCGAACCCTCCAGTACCGAAGTGGTCGGCGATGTGGTGAAAAACGGCCGCCGCGGCTCGCTGACCTGCAATCTGACCATTCACGGCGTACAGGGCCATGTCGCCTATCCGCACCTTGCCGATAACCCCGTCCATCGCGCGGCGCCGATGCTGGCGGAGCTGGTCACTATCGAGTGGGATAAAGGCAATGAATACTTCCCGCCGACCAGCATGCAGATTGCCAACGTGCAGTCCGGCACCGGCAGCAACAACGTGATCCCTGGCGATATGTTCGTCCAGTTCAACTTCCGCTTCAGTACGGAACTGACGGACGAGATGATCAAAGCCCGGGTGGTCGCCCTGCTGGAAAAATACCAGCTGCGTTACAGCGTGGAGTGGTGGCTCTCCGGCCAGCCGTTCCTCACCGGACGGGGCAAGCTGGTGGATGCGGTCGTCAACGCGATTGAGCACTATAATGAGATCAAACCGCAGCTGTTAACCAACGGCGGCACCTCAGACGGACGGTTTATCGCGCGCATGGGGGCGCAGGTGGTAGAGCTGGGCCCGGTGAACGCCACGATTCACAAAATTAATGAATGTGTGAACGCCGCCGACCTGCAGCTGCTGGCGCGGATGTATCAACGCGTAATGGAACAGCTGGTCGCCTGA	MSCPVIELAQQLIRRPSLSPDDAGCQALMIERLRAIGFTVEPMDFGDTQNFWAWRGHGETLAFAGHTDVVPAGDADRWINPPFEPTIRDGMLFGRGAADMKGSLAAMVVAAERFVAQYPNHRGRLAFLITSDEEASAKNGTVKVVETLMARNERLDYCLVGEPSSTEVVGDVVKNGRRGSLTCNLTIHGVQGHVAYPHLADNPVHRAAPMLAELVTIEWDKGNEYFPPTSMQIANVQSGTGSNNVIPGDMFVQFNFRFSTELTDEMIKARVVALLEKYQLRYSVEWWLSGQPFLTGRGKLVDAVVNAIEHYNEIKPQLLTNGGTSDGRFIARMGAQVVELGPVNATIHKINECVNAADLQLLARMYQRVMEQLVA				NA	NA	NA	NA	NA
BMS020_05204	204			hypothetical protein	ATGGAATGGCTTATTAAACACTGGTGGATTCTGGTGCTGGTCTTTTTGGTGGGGGTAATTATCAACGTGATTAAAGATCTGAACCGCGTTGACCACAAAAAATTCCTCAACAACAAACCCGATCTGCCGCCGCACCGTGATTTTAACGATAAATGGGACGATGACGACGACTGGCCGAAGCACGACCAGTCGAAGAAACCGTAA	MEWLIKHWWILVLVFLVGVIINVIKDLNRVDHKKFLNNKPDLPPHRDFNDKWDDDDDWPKHDQSKKP				NA	NA	NA	NA	NA
BMS020_05205	696			hypothetical protein	ATGAAACACGATCATTTTATTGTTCAAAGCCCTGCGACGCCTGCGCAACAGCTGTTGCTGCTGTTTCATGGCGTGGGGGATAACCCGGTCTCCATGGGGCAAATTGGCAGCTGGTTCGCGCCGCAGTTTCCTGATGCGCTGATCGTTAGCATTGGCGGGGTGGAGCCTTGCGGTCCCAACGGCCGGCAGTGGTTTTCGGTGCAGGGAGTGACGGAAGAGAATCGTCAGCAGCGTATCGACGCCATTATGCCGACCTTTATTGACATTGTGCGCTACTGGCAGGAAAAGAGCGGCGTCAGCCCGCTGGCCACCGCGCTGATCGGCTTCTCTCAGGGGGCGATCATGTCGCTGGAGAGCATCAAAGCGGCGCCGGAGCTGGCTTCGCGGGTGATCGCCTTTAATGGCCGCTACGCGACGCTGCCGGTCACCGCAACGACGGCCACCACCATTCACCTGATCCACGGTGGTGACGATCGGGTTATCGATCTGGCGTGGGCGGTGTCGGCTCAGGAGGCGTTGTTGCAGGCGGGGGGCGACGTGACCTTAGATATTGTTGACGATCTGGGGCATGCCATTGACGATCGCAGCATGCAGTTCGCGATTGAGCGACTGCGCTATACCGTGCCGAAGCACTATTTTGATGAGGCGCTGAGCGGCAGTACGCCGAAAGGGGACGATATCATCGAAATGCTGTAA	MKHDHFIVQSPATPAQQLLLLFHGVGDNPVSMGQIGSWFAPQFPDALIVSIGGVEPCGPNGRQWFSVQGVTEENRQQRIDAIMPTFIDIVRYWQEKSGVSPLATALIGFSQGAIMSLESIKAAPELASRVIAFNGRYATLPVTATTATTIHLIHGGDDRVIDLAWAVSAQEALLQAGGDVTLDIVDDLGHAIDDRSMQFAIERLRYTVPKHYFDEALSGSTPKGDDIIEML	PGPT0028515_890	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
BMS020_05206	2004	tmcA	COG1444	tRNA(Met) cytidine acetyltransferase TmcA	ATGATGGACGCGTTGCTTGACCTCACCGCGCAGATGGCGCGGGAGGGAATTCGCCGCCTGCTGGTACTCAGCGGCGACGAGGCCTGGACGCTGCAGCAGGCGCAGGCGCTGCGGGAGAGGCTCGCCGGCGATGGCCTGTGGGTGGGCCCCGAGCCGGTTTTCGCGCCCGGGGTGGCGCCTGGCGCCCTGAAGACGCTGCTGGGGCGGGAAGTCATGCACGCCTTTTTCGATGCCCGGCGCGGATTTGATGTAGCCGCCCTGGCGGCCCTGAGCGGTACCCTGCGGGCGGGAAGCTGGCTGGTGCTGCTGACGCCCCCCTTCGCCGACTGGCCGTCCCGGGTGGATGAGGACTCCCTGCGCTGGAGCGATACGCCCAACCCGATCTCTACCCCCCACTTTGTTCTCCGCTGCTGTCGGCAGTTTATCGCCGACCCCGATGTGCTGCTCTGGCGGCAGTCGGACTCGCCGCGGCTCCCGCTGGCCGTCCCGCGCCCTGACTGGCATCCCGCCGAGGGTCACCCGCTGGCCGAACAGGCGGCGATCCTTGCGCAATTGTTGCGTCTACCGCCCGGTATCGCGGCGGTGACGGCTGAACGAGGGCGTGGCAAATCCGCCCTCGCGGGCATGTTGCTGCGCCAGCTCGCGGGCGAGGCCATCGTTACCGCCCCGACCCGCAGCGCCGTCGATGTGCTGGCGAGCTTTGCCGGCGAGGCGTTTCGCTTTATGGCGCCTGATGCGCTGCTGTCATCGAAAGAAACGGCGTCCTGGCTGATTGTCGATGAGGCCGCGGCCATTCCGGCTCCGCTTCTCCGGCAGCTGGTAAGCCGTTTTCCCCGCACGCTACTCACCACGACGGTGCAGGGTTATGAAGGCACCGGGCGCGGGTTCCTGCTGAAATTTTGCGCCAGCCTGCCCCATCTGCAGTCGTTTAGCCTGAGCGCGCCGATCCGCTGGGCCGCGGGCTGTCCGCTGGAGTCAGCCATCAGTCAGCTGCTGATCTTCAGCGATGAGGCATTTCGCGATGCGCCGACGGGGGAGGTTGCCGTGGAAGAGGTCGATCAGTCCAACTGGCAAACGCGGCCGGCGCTGCCGGAGGCGATGTACCAGCTGTTGTCCGGGGCGCATTACCGCACTTCTCCTCTCGATCTGCGGCGCATGATGGACGCGCCGGGCCAGGCTTTCCGCTGTGCACGCGCCGGCGGCGCGGTGGCGGGCGCGCTGTGGCTGGTGGCCGAGGGGGGACTTTCTCCTGAACTCAGCCGGGCGGTGTGGGCGGGTTTTCGCCGGCCGCGAGGGAACCTGGTCGCCCAGTCGCTGGCGGCGCATGGCGGCAGTCCCCTCGCGGCGACGCTGCGCGGGCTGCGGGTCAGTCGGATCGCCGTCCACCCCGCCCGCCAGCGCGAAGGGCTGGGGCAGCAGATGATCGCGGATATCGCCACCGATGCCGCAGGTTATGACTATCTCTCCGTCAGCTTTGGCTATACCCCTGAGCTGTGGCGCTTCTGGCAACGCTGCGGGTTTATCCTCGTGCGGCTGGGCACTCATCGCGAGGCCAGCAGCGGATGCTATACCGCGATGGCTCTGTTCCCGCTGACTGCAGCGGGGCATCAGCTCGCGCAGCGGGAGGCACAGCGGCTACAACGCGATGAATACTGGCTGCGCCCGTGGCGGGACGCGCCCGCGCCGCTGCCGGCCGTTTCAGGGGCTATGCTTAGTGAAGAGGACTGGCTGGAAGCGGCCAGCTTTGCCTTCGCCCATCGCCCGCTGGCCGCGGCGCTGGGTTGCCTCAATCGTCTGCTGATGCAGGTCGACATGCCGTTGCCGGCGCTGCGCGGGCGCCTGCAGGGGGACGAAGAGGCCGAACTCTGCGCCGCGCTGCAGCTAACAGGGCGTAAAGCGCTGCTGGCGAGATGGCGTCAGGAGGCCGCTGACGCTTTGCGCTTCCTCGATGCAGCGCGCGCTGAGGCGCTGCGTCAGCAGGTAGCGCACCTGCAATTTTTTTAA	MMDALLDLTAQMAREGIRRLLVLSGDEAWTLQQAQALRERLAGDGLWVGPEPVFAPGVAPGALKTLLGREVMHAFFDARRGFDVAALAALSGTLRAGSWLVLLTPPFADWPSRVDEDSLRWSDTPNPISTPHFVLRCCRQFIADPDVLLWRQSDSPRLPLAVPRPDWHPAEGHPLAEQAAILAQLLRLPPGIAAVTAERGRGKSALAGMLLRQLAGEAIVTAPTRSAVDVLASFAGEAFRFMAPDALLSSKETASWLIVDEAAAIPAPLLRQLVSRFPRTLLTTTVQGYEGTGRGFLLKFCASLPHLQSFSLSAPIRWAAGCPLESAISQLLIFSDEAFRDAPTGEVAVEEVDQSNWQTRPALPEAMYQLLSGAHYRTSPLDLRRMMDAPGQAFRCARAGGAVAGALWLVAEGGLSPELSRAVWAGFRRPRGNLVAQSLAAHGGSPLAATLRGLRVSRIAVHPARQREGLGQQMIADIATDAAGYDYLSVSFGYTPELWRFWQRCGFILVRLGTHREASSGCYTAMALFPLTAAGHQLAQREAQRLQRDEYWLRPWRDAPAPLPAVSGAMLSEEDWLEAASFAFAHRPLAAALGCLNRLLMQVDMPLPALRGRLQGDEEAELCAALQLTGRKALLARWRQEAADALRFLDAARAEALRQQVAHLQFF				NA	NA	NA	NA	NA
BMS020_05207	873			hypothetical protein	ATGCGCTGGCAAGGGCGTCGCGAAAGCGACAATGTTGAAGATCGACGCGGTCAATCGGGCTCGCCGTTTGGCGGCGGGGGCGGCGGCTTCCGGCTGCCGAGCGGGAAGGGCGGCATTGTGCTGCTGATTATTGTGCTGGTGGCGGGCTATTACGGCGTGGATTTGACCGGCATGCTGACCGGCGAACCGATGCCGCAGCAGCAGACCTCCACGCAGCGCTCCATCAGTCCAAAAGACGATGAAGCGGCGAAGTTTACTTCGGTGATCCTGGCCACCACCGAAGATACCTGGGGACCGATCTTTGAAAAGATGGGCCGCCAGTACCCCCAGCCAAAGCTGGTGCTCTACCGCGGCGCGACCCGTACCGGCTGCGGTACCGGCCAGTCGGTGATGGGGCCGTTCTACTGTCCTGCCGACAGCACGGTCTATATCGACCTGTCATTCTACGATGAGATGAAAAATAAACTGGGCGCCGACGGCGACTTTGCCCAGGGGTACGTCATTGCCCATGAAGTGGGTCATCACGTGCAAAAACTGCTGGGCATTGAGCCGAAGGTCCGCCAGCAACAGCAGCATGCCACCGAGGCCGAAGCCAACCGGCTGTCGGTTAAGATGGAGCTGCAGGCAGACTGCTTCGCCGGCGTCTGGGGCCATAATATGCAGCAGCAGGATATTCTGGAAACCGGCGATCTGCAGGAGGCGCTGAACGCCGCCGAGGCCATCGGCGACGACCGTCTGCAGCAGCAGAGCCAGGGGCGGGTGGTACCGGACAGCTTTACCCACGGCACGTCAAAACAGCGCTACACCTGGTTCAAACGCGGTTTCGACAGCGGCGACCCGGCGCAGTGCAACACCTTCGGCAGCGCCCTGTAA	MRWQGRRESDNVEDRRGQSGSPFGGGGGGFRLPSGKGGIVLLIIVLVAGYYGVDLTGMLTGEPMPQQQTSTQRSISPKDDEAAKFTSVILATTEDTWGPIFEKMGRQYPQPKLVLYRGATRTGCGTGQSVMGPFYCPADSTVYIDLSFYDEMKNKLGADGDFAQGYVIAHEVGHHVQKLLGIEPKVRQQQQHATEAEANRLSVKMELQADCFAGVWGHNMQQQDILETGDLQEALNAAEAIGDDRLQQQSQGRVVPDSFTHGTSKQRYTWFKRGFDSGDPAQCNTFGSAL				NA	NA	NA	NA	NA
BMS020_05208	714	purC_1	COG0152	Phosphoribosylaminoimidazole-succinocarboxamide synthase	ATGAAAAAGCAAGCTGAGTTGTATCGTGGTAAGGCGAAGACAGTATACAGCACCGATAATCCGGACCTGCTGGTACTGGAATTCCGTAACGATACGTCAGCAGGTGATGGCGCGCGCATCGAGCAGTTCGATCGTAAAGGCATGGTGAATAACAAGTTCAACCACTTCATTATGAGCAAACTGGCAGAAGCGGGCATCCCTACCCAGATGGAAGCGCTGCTCTCCGATACCGAATGCCTGGTGAAAAAACTGGATATGGTGCCGGTGGAGTGCGTGGTGCGTAACCGTGCGGCAGGCTCGCTGGTAAAACGTTTAGGCATTGAAGAAGGTATCGAGCTGAATCCGCCGCTGTTCGATCTGTTCCTGAAAAACGATGCCATGCACGATCCGATGGTCAACGACTCCTACTGCGAAACCTTCGGCTGGGTGAGCAAAGAGAATCTGGCGCGGATGCGCGAGCTGACCTACAAAGCCAACGACGTGCTGAAAAAACTGTTCGATGACGCCGGTCTGATTCTGGTGGACTTTAAGCTGGAGTTTGGTCTGTTCAAAGGCGAAGTGGTGCTGGGCGATGAGTTTTCGCCGGACGGCAGCCGCCTGTGGGACAAAAACACCCTTGATAAAATGGACAAAGACCGATTCCGCCAGAGCCTTGGCGGCCTGATCGAAGCCTACGAAGAAGTGGCTCACCGCCTGGGCGTTAAGCTCGACTAA	MKKQAELYRGKAKTVYSTDNPDLLVLEFRNDTSAGDGARIEQFDRKGMVNNKFNHFIMSKLAEAGIPTQMEALLSDTECLVKKLDMVPVECVVRNRAAGSLVKRLGIEEGIELNPPLFDLFLKNDAMHDPMVNDSYCETFGWVSKENLARMRELTYKANDVLKKLFDDAGLILVDFKLEFGLFKGEVVLGDEFSPDGSRLWDKNTLDKMDKDRFRQSLGGLIEAYEEVAHRLGVKLD	PGPT0021565_3953	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021565-purC-K01923	NA	NA
BMS020_05209	1035	bamC	COG3317	Outer membrane protein assembly factor BamC	ATGGCTTACTCAGTACAGAAGTCGCGCCTGGCGAAGGTTGCGGGTGTTTCGCTGGTTCTACTCCTCGCGGCCTGTAGTTCCGACTCGCGCTATAAGCGTCAGGTGAGCGGTGATGAGGCCTATTTACAGGCGTCACCGTTGAGCGAACTTCACGCGCCGGCGGGGATGATCCTGCCGATTCAGGTGGGTGATTACAACATTCCGGTGGCCAACAGCACCGGCGCGGTCGGCAAGGCGCTGGACATTCGCCCGCCGGCGCAGCCGCTGGCATTGGTTAGCGGCGCCCGCACCCAGTTTAACGGTGATACCGCGACGCTGATGGTCGAAAACGGCCGCAGCGGTTCGCTGTGGGCGCAGGTTACCAGCATTCTTCAGTCGAAGAACTACGTTATCGCCAAGCGCGATGATGCGAGCCAGACGCTGAACACCGACTGGGTTGAGTGGAACCGTCTTGATGAAGATCAGCAGTATCGCGGTCGTTATCAAATCTCCGTCAAACCGCAGGGCTATCAGCAAGCGGTTGTGGTCAAGCTGGTGAATCTGGAGCAGGCGGGTAAACCGGTTGCCGATCCGGCGTCACTGCAGCGCTACAGCACCGCCATGCTGAACGTCATTTCGGAAGGCCTGGACATGAACGCCACCAGCGCCCAGAACGCCGCTCAGCGCAGCGCGGGCGCCACCTTCGACGTGCAGAGCGCTGCCGACGATACTGGCCTGCCAATGCTCGTCGTTCGCGCGCCGTTTAACATGGTGTGGCAGCGTCTGCCGGGCGCCCTCGAGAAAGTGGGGATGAAAGTGACCGACAGCACGCGCTCTCAGGGCAGCATGGCGCTGACCTACAAGCCGCTGTCTGACAGCAGCTGGCAGGAGCTGGGCGCACGCGACCCGCAGCTGGTCTCCGGTGACTACAAACTTCAGGTCGGCGACCTCGATAACCGCAGTAGCCTGCAGTTCATCGACCCGAAAGGCCACACCCTGACGCAGTCGCAAAATGACGCTCTGGTAGCCGTATTCCAGGCCGCATTTAACAAGTAA	MAYSVQKSRLAKVAGVSLVLLLAACSSDSRYKRQVSGDEAYLQASPLSELHAPAGMILPIQVGDYNIPVANSTGAVGKALDIRPPAQPLALVSGARTQFNGDTATLMVENGRSGSLWAQVTSILQSKNYVIAKRDDASQTLNTDWVEWNRLDEDQQYRGRYQISVKPQGYQQAVVVKLVNLEQAGKPVADPASLQRYSTAMLNVISEGLDMNATSAQNAAQRSAGATFDVQSAADDTGLPMLVVRAPFNMVWQRLPGALEKVGMKVTDSTRSQGSMALTYKPLSDSSWQELGARDPQLVSGDYKLQVGDLDNRSSLQFIDPKGHTLTQSQNDALVAVFQAAFNK				NA	NA	NA	NA	NA
BMS020_05210	879	dapA_4	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGTTCACGGGAAGTATTGTAGCGCTTGTCACGCCGATGGATGAAAACGGTAATGTCTGCCGGACAAGCCTGAAAAAACTGATTGATTACCATGTCGCCAACGGAACCTCGGCGATCGTTTCGGTAGGGACTACCGGTGAATCCGCAACGCTGAGCCATGAAGAGCATGGCGACGTGGTGATGATGACGCTGGAACTGGCTGACGGGCGTATCCCGGTTATCGCGGGAACGGGAGCCAATGCAACCGCAGAGGCGATTAGCCTGACCAAACGTTTTAACGACAGCGGCGTTGTCGGCTGCCTGACGGTCACTCCTTATTATAACCGTCCGACCCAGGAAGGCCTGTTCCAGCACTTTAAAGCTATCGCCGAACATACTGACCTGCCGCAAATTCTGTATAATGTGCCGTCCCGTACCGGTTGCGATATGCTGCCGGAAACCGTTGGCCGTCTGGCGCAAATTAAAAATATTGTCGGTATTAAGGAAGCAACAGGGAACTTAAGTCGTGTTCACCAGATCAAAGAGCTGGTTTCAGACGACTTTATTCTGCTGAGCGGTGACGATGCGACCGGTATGGACTTTATGCAGCTCGGCGGCGTGGGCGTGATTTCCGTTACCGCCAACGTGGCGGCGCGCGAAATGGCCGACATGTGCCGTCTGGCGCTGGCGGGTCAATTTGCCGAAGCCCGGGCGATTAACCAGCGTCTGATGCCATTGCATACAAAATTATTTGTCGAACCCAATCCTATCCCGGTGAAATGGGGATGCAAGGCGTTGGGTCTTGTGGCGACCGATACGCTGCGCTTGCCGATGACGCCTATCACCGACCAGGGTCGTGAAGCCGTTACCGCCGCGCTGAAGCATGCCGGTTTGCTGTAA	MFTGSIVALVTPMDENGNVCRTSLKKLIDYHVANGTSAIVSVGTTGESATLSHEEHGDVVMMTLELADGRIPVIAGTGANATAEAISLTKRFNDSGVVGCLTVTPYYNRPTQEGLFQHFKAIAEHTDLPQILYNVPSRTGCDMLPETVGRLAQIKNIVGIKEATGNLSRVHQIKELVSDDFILLSGDDATGMDFMQLGGVGVISVTANVAAREMADMCRLALAGQFAEARAINQRLMPLHTKLFVEPNPIPVKWGCKALGLVATDTLRLPMTPITDQGREAVTAALKHAGLL	PGPT0002080_7684	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
BMS020_05211	567	gcvR_1	COG2716	Glycine cleavage system transcriptional repressor	TTGACAGCCTCATTACAACACTATCTGGTTATTACCGCCCTGGGGGCTGACCGTCCCGGCATCGTGAATACGATCACTCGCCACGTCAGCAGCTGCGGTTGTAATATCGAAGACAGCCGGCTGGCCATGCTCGGTGATGAGTTTACGTTTATCATGCTGCTTTCCGGTTCGTGGAATGCGATTAACCTGATCGAATCAACCCTGCCGCTGAAAGGCGCGGAGCTGGAGCTGTTGATCGTGATGAAACGCACCACCGCGCGCCCGCCGCAGGCCATGCCAAACACCGTCTGGGTCCAGGTTGAGGTGCCGGACTCACCGCATATCATCGAGCGCTTCACTGCCCTGTGCGATACATGGAATATGAATATCGCGGAACTGGTGTCCCGCACGCAGCCGGGAGACGGCGATTCCGCGCAGCTTTTTATCCAGATAACGGCTCACAGCCCTGCGACGCAAAATGCAGCAAATATCGAACAAGCGTTCAAAGCCCTATGTACAGAACTCAACGCACAAGGCAGTATTAACATCGTTAATTATTCACAGCATGATGAACAGGATGGAGTTTAA	MTASLQHYLVITALGADRPGIVNTITRHVSSCGCNIEDSRLAMLGDEFTFIMLLSGSWNAINLIESTLPLKGAELELLIVMKRTTARPPQAMPNTVWVQVEVPDSPHIIERFTALCDTWNMNIAELVSRTQPGDGDSAQLFIQITAHSPATQNAANIEQAFKALCTELNAQGSINIVNYSQHDEQDGV	PGPT0026370_211	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026370-gcvR-K03567	NA	NA
BMS020_05212	471	bcp_1	COG1225	Peroxiredoxin Bcp	ATGACCCCACTGAAAGCCGGTGATCTTGCACCGAAATTTAGCTTACCGGACCAGGACGGCGAGGAAGTAAATTTAACCGACTTCCAGGGACAGCGTGTCCTGGTTTATTTTTACCCGAAAGCCATGACCCCGGGCTGCACCGTCCAGGCGTGCGGCTTGCGCGATAATATGGACGACCTGAAAAAAGCCGGTGTGGAAGTGCTGGGCATCAGCACCGATAAACCGGAAAAGCTCTCCCGTTTCGCCGAAAAAGAGCTGCTGAACTTTACGCTGCTGTCTGATGAAAACCATCAGGTTTGCGAGCAGTTTGGCGTCTGGGGCGAAAAATCCTTTATGGGGAAAACCTACGACGGGATCCACCGTATCAGCTTCCTCGTTGATGCCGATGGCAAAATCGAACACGTCTTTGATGACTTCAAAACCAGCAATCACCACGACGTGGTGTTGAACTGGCTGAAAGAAAACGCCTGA	MTPLKAGDLAPKFSLPDQDGEEVNLTDFQGQRVLVYFYPKAMTPGCTVQACGLRDNMDDLKKAGVEVLGISTDKPEKLSRFAEKELLNFTLLSDENHQVCEQFGVWGEKSFMGKTYDGIHRISFLVDADGKIEHVFDDFKTSNHHDVVLNWLKENA	PGPT0013120_3207	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013120-bcp|PRXQ|DOT5-K03564	NA	NA
BMS020_05213	1065	yhhT_2	COG0628	Putative transport protein YhhT	ATGCTCGAGATGTTAATGCAGTGGTACCGCCGTCGATTCAGCGACCCTGAGGCGATAGCGCTGCTGGTTATTTTGCTTGCCGGTTTCGGCATCATGTTCTTTTTCAGCGGCCTGCTGGCCCCGTTACTGGTGGCTATCGTGCTGGCCTATCTGCTGGAGTGGCCGACCGTTCGCCTGGAGCGCATCGGCCTGTCGCGCACCTGGGCGACCTCGCTGGTGCTAATCCTCTTTGTGGGTATTCTGCTCTTGCTGGCCTTTGTGGTGCTGCCGGTGGCCTGGCAGCAGGGGATCTACCTTATCCGCGATATGCCGGGCATGCTTAACAAGCTCTCTGATTTCGCCGCCACGCTGCCGCGGCGCTATCCGGCGTTGATGGATGCCGGCATCATCGATGCGATGGCGGAAAATATGCGCACCCGGATGCTGACGGTGGGCGACTCGGTGGTGAAGTATTCTCTCGCCTCGCTGGTGGGGCTGCTCACGCTGGCGGTCTATCTGGTGCTGGTGCCGCTGATGGTCTTCTTCCTGCTGAAGGATAAAGAGCAGATGCTCAACGCGGTACGCCGCGTGCTGCCGCGAAACCGCGGTCTGGCCGGGCAGGTATGGAAGGAGATGAACCAGCAAATCACCAACTACATTCGCGGTAAGGTGCTGGAGATGATTGTCGTCAGCGTCGCCACCTGGATAGGCTTTATCCTTTTCGGCCTCAACTACTCGCTGCTGTTGGCGGTGCTGGTGGGCTTCTCGGTGCTGATCCCCTATATCGGCGCGTTTGTGGTGACCATTCCGGTGGTAGGGGTGGCGCTGTTTCAGTTTGGCGCAGGCACCGAGTTCTGGAGTCTGTTCGCGGTCTATCTGATTATTCAGGGACTGGACGGTAACCTGCTGGTACCGGTGCTGTTCTCGGAAGCGGTGAATCTGCACCCGCTGGTGATTATCCTGTCGGTGGTGATCTTTGGCGGTTTGTGGGGATTCTGGGGCGTCTTCTTCGCCATTCCGCTGGCCACGTTAATTAAAGCGGTGGTGCATGCCTGGCCGGATGGCCTGGTCGTCGACGACGACTAA	MLEMLMQWYRRRFSDPEAIALLVILLAGFGIMFFFSGLLAPLLVAIVLAYLLEWPTVRLERIGLSRTWATSLVLILFVGILLLLAFVVLPVAWQQGIYLIRDMPGMLNKLSDFAATLPRRYPALMDAGIIDAMAENMRTRMLTVGDSVVKYSLASLVGLLTLAVYLVLVPLMVFFLLKDKEQMLNAVRRVLPRNRGLAGQVWKEMNQQITNYIRGKVLEMIVVSVATWIGFILFGLNYSLLLAVLVGFSVLIPYIGAFVVTIPVVGVALFQFGAGTEFWSLFAVYLIIQGLDGNLLVPVLFSEAVNLHPLVIILSVVIFGGLWGFWGVFFAIPLATLIKAVVHAWPDGLVVDDD				NA	NA	NA	NA	NA
BMS020_05214	1464	bepA_5	COG4783	Beta-barrel assembly-enhancing protease	ATGTTCAGGCAGTTGAAGAAAACGCTGGTGGCGACCGTGATCGCGTCGCTGACGCTGGGTTCGTTAGGCCCTGCTTTTGCTGACTCCGCAGATACCCTGCCGGACATGGGGACCTCCGCAGGAAGCACGTTGTCGATTGGTCAGGAAATGCAGATGGGGGATTACTACGTCCGCCAGCTGCGCGGCAGCGCGCCGCTGATCAACGACCCTCTGCTGGTGCAATATATCAACGGGCTGGGCATGCGTCTGGTCTCGCATGCGAATTCGGTGCGCACCCCGTTCCACTTCTATTTGATTAATAACGACCAAATTAACGCCTTCGCCTTCTTCGGCGGCAATGTGGTCCTCCACTCCGCCCTGTTCCGCTACTCCGATAACGAGAGCGAACTGGCCTCTGTCATGGCGCACGAAATTTCCCACGTTACGCAGCGGCATCTCGCCCGCGCAATGGAAGATCAGAAACGCAATGCGCCGCTGACTTGGGTCGGCGCGCTGGGTTCAATTCTGCTGGCGATGGCCAGCCCGCAGGCCGGGATGGCGGCGCTGACCGGGACGCTGGCCGGCACCCAACAGGGCATGATCAGCTTCACCCGTCAGAACGAAGAAGAGGCCGACCGGATCGGTATTCAGGTTCTGCAACGCTCAGGATTCGACCCGCAGGCCATGCCGATGTTTATGGGTAAACTGCTTGATGAGTCGCGCTACTCAACGCGGCCGCCGGAAATGCTGCTCACCCACCCCCTGCCGGAAAGCCGGCTTGCCGATGCCCGTAACCGCGCCAACCAGATGCGCCCGGTTGTCGTACAGTCCTCAGCGGACTTCTATCTGGCGAAGGCGCGTACCCTCGGAATGTACACCAACGGCGACAATAAGCTAGGCACCGATCTGCTCAACGCCTGGGATAAAGGCAATATCCGCCAGCAGCATGCCGCGCAGTATGGCCGCGCTCTGCTGGCGATGGAAAGCAACAACTTTGACCAGGCGCGCAAAACGCTGCAGCCGCTGCTCAGCGCCGATCCGCAAAATCCCTGGTATCTCGATCTGGCCACCGATATCGACCTCGGGCAGAAGAAAACCGGCGACGCCATCAACCGCCTTAAAAACGCTCGTGAACTGCGCACCAATCCGGTGCTGCAGTTGAACCTGGCCAACGCCCTCCTGCAGGGCGGACAGCCCGGGGAAGCGGCGACCATCCTGAATCGTTATACCTTTACCTACAAAGAGGATGGCAACGGCTGGGACCTGCTGGCGCAGGCGGAAGGCGCCCTGGGCAATCGCGACCAGGAGCTGGCGGCGCGGGCAGAAAGCATGGCGCTGGTCGGCCAGCTGGAACAGGCGATTTCCCTGCTCAGCAGCGCCAGCTCGCAAGTGAAACTCGGTAGTCTGCAGCAGGCCCGCTACGATGCCCGCATCGACCAGCTACGTGAGCTACAGGCCCGCTTCCGCCCCTACCAAAAAATGTAA	MFRQLKKTLVATVIASLTLGSLGPAFADSADTLPDMGTSAGSTLSIGQEMQMGDYYVRQLRGSAPLINDPLLVQYINGLGMRLVSHANSVRTPFHFYLINNDQINAFAFFGGNVVLHSALFRYSDNESELASVMAHEISHVTQRHLARAMEDQKRNAPLTWVGALGSILLAMASPQAGMAALTGTLAGTQQGMISFTRQNEEEADRIGIQVLQRSGFDPQAMPMFMGKLLDESRYSTRPPEMLLTHPLPESRLADARNRANQMRPVVVQSSADFYLAKARTLGMYTNGDNKLGTDLLNAWDKGNIRQQHAAQYGRALLAMESNNFDQARKTLQPLLSADPQNPWYLDLATDIDLGQKKTGDAINRLKNARELRTNPVLQLNLANALLQGGQPGEAATILNRYTFTYKEDGNGWDLLAQAEGALGNRDQELAARAESMALVGQLEQAISLLSSASSQVKLGSLQQARYDARIDQLRELQARFRPYQKM				NA	NA	NA	NA	NA
BMS020_05215	360	yfgD	COG1393	putative protein YfgD	ATGACCGACGCGGTAAAAATTTACCATAACCCACGCTGCTCGAAGAGCCGCGAAACGCTGAGCCTGTTGAAGAGCCACGGCATCGATCCTGAGGTGGTGCTTTATCTTGAGACGCCACCGGATGCCGGGACGCTGCGTCAACTGCTGCAGCTGCTGGGTATGGAGAGCCCCCGCGAGCTCATGCGCCAGAAAGAGGATCTGTATAAATCGCTCAATCTTGCCAACCCGGCGCTCAGCGACGCCGCGCTGATACAGGCGATGGTCGACAACCCTAAGCTCATCGAACGCCCAATTGTCGTCAGCCGCGGCCAGGCGCGTATTGGCCGACCACCGGAGCAGGTCCTTGAGATCGTGAGCTAA	MTDAVKIYHNPRCSKSRETLSLLKSHGIDPEVVLYLETPPDAGTLRQLLQLLGMESPRELMRQKEDLYKSLNLANPALSDAALIQAMVDNPKLIERPIVVSRGQARIGRPPEQVLEIVS	PGPT0004720_1773	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004720-arsC1-K00537	NA	NA
BMS020_05216	912			ISNCY family transposase ISSen7	ATGAAAAAACCAACCTCAACGCCTCACGATGCCGTATTTAAGACCTATCTCTCCCACCCTGATACCGCCCGCGATTTTCTGCGGCTGTACCTGCCCGAGACGCTGCTTAAAGTGTGCGATCTGCGTACGCTGCATCTCGAGTCCGGGCATTTTGTCGAAGACGATCTGCGTCCCTTTTACGCCGACATTCTGTATTCCCTGAAAACCACGGCGGGAGACGGCTATATTTATGCGCTTATCGAACACCAGAGCACGCCCGACCGGCATATGGCCTTTCGTCTGATGCGCTACGCCATCGCCGCCATGCAGCGCCACCTTGATGCCGGCCACGATCGGCTGCCGCTGGTGATCCCTGTTCTCTTCTACCACGGTCTGGTAAGCCCCTACCCGTTCTCACTGCGCTGGCTCGATGAATTCGTCGCTCCGGAGCTGGCCGGCCACCTTTATCACGGGGCGTTTCCGCTGGCGGACATTACCGTCATTCCGGATGACGACATTGCCACCCATCAGCGCATGGCGACGCTGGAGTTACTGCAAAAACATATTCGACAACGCGATCTGGCGCAGCTCCTCGACAAACTGAGCGAATTATTATTGACTGGTCTGGCGACGGAATCGCAGGTACAAGCCCTGATGCACTATCTGGTGCAGGCAGGCAACGCGCGAGAGCCGATCAAGTTCATTCGCGAGCTGGCGTTACGTACGCCGCAGCACAAGGAGACGTTGATGACAATTGCGGAATATCTGGAACAGCAGGGTTTGGAGCGGGGCCTGGCGCAGGGCCGTCAGGAAGGCCGGAAAGAAGAGGCGCAGCGTATCGCCGCCGCTATGCTACACAGTGGCCTGGCGCGCGACCTGGTCGCCCGGTTGACCGGGCTGACGGAGGAGGAACTGACTCCGCAGGCGGACTAG	MKKPTSTPHDAVFKTYLSHPDTARDFLRLYLPETLLKVCDLRTLHLESGHFVEDDLRPFYADILYSLKTTAGDGYIYALIEHQSTPDRHMAFRLMRYAIAAMQRHLDAGHDRLPLVIPVLFYHGLVSPYPFSLRWLDEFVAPELAGHLYHGAFPLADITVIPDDDIATHQRMATLELLQKHIRQRDLAQLLDKLSELLLTGLATESQVQALMHYLVQAGNAREPIKFIRELALRTPQHKETLMTIAEYLEQQGLERGLAQGRQEGRKEEAQRIAAAMLHSGLARDLVARLTGLTEEELTPQAD				NA	NA	NA	NA	NA
BMS020_05217	483	hda_2	COG0593	DnaA regulatory inactivator Hda	GTGGGCTACGTGCCGCTGGATAAACGCACCTGGTTTGTGCCGGAGGTGCTGGAGGGGATGGAACAGCTGGCCCTGGTCTGCATCGATAACATCGAGTGCGTCGCCGGGGATGAGCCCTGGGAAATGGCCATCTTTAATCTCTACAACCGGATCCTGGAATCAGGTAAAACCCGGCTGTTGATCACCGGCGACCGGCCGCCGCGGCAACTGAATCTTGGTCTGCCGGATCTTGCCTCGCGGCTTGACTGGGGGCAGATCTATAAGCTGCAGCCGCTGTCGGATGAAGACAAACTGCAGGCCCTGCAGCTGCGCGCCAGACTGCGCGGCTTCGAGATGCCGGAGGACGTGTGCCGCTTCCTGCTGAAGCGGCTGGATCGCGAGATGCGCTCGCTATTTATGACCCTTGATCAGCTGGATCATGCCTCGATTACCGCTCAGCGCAAGCTGACGATCCCCTTCGTGAAAGAGATCCTTAAACTCTAG	MGYVPLDKRTWFVPEVLEGMEQLALVCIDNIECVAGDEPWEMAIFNLYNRILESGKTRLLITGDRPPRQLNLGLPDLASRLDWGQIYKLQPLSDEDKLQALQLRARLRGFEMPEDVCRFLLKRLDREMRSLFMTLDQLDHASITAQRKLTIPFVKEILKL				NA	NA	NA	NA	NA
BMS020_05218	1287	uraA	COG2233	Uracil permease	ATGACGCGCCGTGCTATCGGGGTGAGTGAAAGACCGCCGCTTTTACAGACTATCCCGCTTAGTTTGCAGCACCTGTTTGCCATGTTCGGCGCAACGGTGCTGGTGCCAATCCTGTTCCACATCAACCCGGCCACCGTGCTGCTGTTCAACGGTATTGGTACGCTGCTGTACCTCTTTATCTGTAAAGGCAAAATCCCGGCGTATCTGGGATCGAGTTTCGCCTTTATCTCTCCGGTGCTGCTCCTGCTGCCGCTGGGCTATGAAGTGGCGCTGGGCGGTTTCATTATGTGCGGCGTGCTGTTCTGCCTCGTCTCCTTTATTGTCAAAAAAGCCGGTACCGGCTGGCTGGATGTGATGTTCCCCCCGGCGGCGATGGGGGCCATCGTGGCGGTTATCGGTCTGGAGCTGGCAGGCGTGGCGGCCAATATGGCCGGGCTGCTGCCAGCCGACGGCCAGTCACCGGACAGCAAAACCATTATTATCTCGATGGTAACCCTGGCGGTGACGGTGTTTGGTTCGGTCCTGTTCCGCGGCTTCCTGGCGATTATCCCGATCCTGATTGGCGTTCTGGTGGGCTATGCGCTGTCGTTTGTGATGGGCGTGGTTGATACCACCCCGATCGCCGAAGCGCACTGGTTCGCGCTGCCAACCTTCTACACACCGCGTTTTGAATGGTTCGCCATCTTCACCATTCTGCCCGCTGCGCTGGTGGTGATTGCCGAGCACGTCGGTCACCTGGTGGTGACGGCCAATATCGTCAAACGCGATCTGATCCGCGACCCGGGCCTGCATCGTTCGATGTTTGCCAATGGCCTGTCGACGATCATTTCCGGCTTTTTCGGCTCGACGCCTAACACCACCTACGGGGAAAATATCGGCGTGATGGCGATTACCCGCGTCTACAGCACCTGGGTTATCGGCGGCGCGGCGATCATTGCGATTCTGCTCTCCTGCGTCGGCAAACTGGCGGCGGCGATCCAGATCATCCCGGTGCCGGTGATGGGCGGCGTGTCGCTGCTGCTGTACGGGGTGATCGGCGCCTCGGGGATCCGCGTACTGATTGAATCGAAGGTGGATTACAGCAAAGCGCAGAATCTGATCCTCACCTCCGTGATCCTGATCATCGGCGTCAGCGGTGCCAAAGTGCACATCGGCGCCGCTGAGCTGAAAGGGATGGCGCTGGCCACCATCGTGGGTATCGCGCTCAGCCTGATTTTCAAGCTTATCAGCGTCCTGCGTCCGGAAGAGGTGGTTCTCGACGCCGTGGATAGCGAAGAGGTTAAATAA	MTRRAIGVSERPPLLQTIPLSLQHLFAMFGATVLVPILFHINPATVLLFNGIGTLLYLFICKGKIPAYLGSSFAFISPVLLLLPLGYEVALGGFIMCGVLFCLVSFIVKKAGTGWLDVMFPPAAMGAIVAVIGLELAGVAANMAGLLPADGQSPDSKTIIISMVTLAVTVFGSVLFRGFLAIIPILIGVLVGYALSFVMGVVDTTPIAEAHWFALPTFYTPRFEWFAIFTILPAALVVIAEHVGHLVVTANIVKRDLIRDPGLHRSMFANGLSTIISGFFGSTPNTTYGENIGVMAITRVYSTWVIGGAAIIAILLSCVGKLAAAIQIIPVPVMGGVSLLLYGVIGASGIRVLIESKVDYSKAQNLILTSVILIIGVSGAKVHIGAAELKGMALATIVGIALSLIFKLISVLRPEEVVLDAVDSEEVK				NA	NA	NA	NA	NA
BMS020_05219	627	upp_2	COG0035	Uracil phosphoribosyltransferase	ATGAAGATTGTGGAAGTCAAACACCCACTCGTCAAACACAAGCTGGGCCTGATGCGCGAGCACGACATCAGCACCAAACGCTTCCGTGAACTCGCCTCAGAAGTGGGCAGCTTACTGACTTATGAAGCCACCGCCGATCTGGCAACCGAGAAAGTGACCATCGAAGGCTGGAACGGCCCGGTGGAAGTTGAGCAGATCAAGGGCAAGAAAATTACCGTCGTGCCTATCCTGCGCGCAGGCCTCGGCATGATGGAAGGGGTGCTTGAGCACGTGCCAAGCGCGCGTATCAGCGTGGTGGGTATTTATCGCAATGAAGAAACCCTCGAGCCGGTACCTTACTTCCAGAAGCTGGTGTCCAACATTGATGAGCGTATGGCGCTGGTGGTTGACCCGATGCTGGCCACCGGTGGGTCGATGATCGCCACTATCGATCTGCTGAAAAACGCCGGCTGCACCAGCATCAAGGTGCTGGTGCTGGTGGCGGCGCCGGAAGGGATTGCCGCGCTGGAGAAAGCGCACCCGGACGTTGAGCTGTATACCGCCTCTGTCGATAAGGGACTGAACGAGCACGGGTACATCATTCCCGGTCTCGGCGATGCCGGCGACAAGATCTTTGGTACGAAATAA	MKIVEVKHPLVKHKLGLMREHDISTKRFRELASEVGSLLTYEATADLATEKVTIEGWNGPVEVEQIKGKKITVVPILRAGLGMMEGVLEHVPSARISVVGIYRNEETLEPVPYFQKLVSNIDERMALVVDPMLATGGSMIATIDLLKNAGCTSIKVLVLVAAPEGIAALEKAHPDVELYTASVDKGLNEHGYIIPGLGDAGDKIFGTK	PGPT0021240_3489	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021240-upp-K00761	NA	NA
BMS020_05220	1431	bglA_3	COG2723	6-phospho-beta-glucosidase BglA	ATGTCCGGATTTAAAGAAGGTTTTCTGTGGGGCGGCGCGGTGGCGGCGCATCAGTTAGAGGGCGGCTGGCAGGAGGGGGGCAAGGGGGTCAGCGTGGCGGATGTCATGACCGCCGGCGCCCACGGGGTGCCGCGGGAAATCACCGATGGCGTGGTAGCGGGGAAAAACTACCCGAACCATGAGGCGATCGATTTTTATCATCGCTACCCGCAGGACCTGGCGCTGTTTGCCGAAATGGGCTTTAAATGTTTCCGCACCTCGATTGCCTGGACGCGTATTTTCCCGCAGGGCGATGAACAGGAGCCGAACGAGGCTGGCCTGCAGTTTTATGACGATCTGTTCGACGAATGTCTGAAACACGGTATTGAACCGGTCATTACGCTGTCGCATTTTGAAATGCCCTATCACCTGGTCACCGAGTACGGCGGCTGGCGTAACCGCAAGCTGATCGACTTTTTCGTGCGCTTCGCCAGGGTCGTCTTCACCCGCTACCAGCATAAAGTGAAGTACTGGATGACCTTCAACGAGATCAACAACCAGGCCAACTACCATGAGGACTTTGCCCCCTTCACCAACTCCGGTCTGAAGTATGTGCCGGGTGAAGATCGGGAACCGGTGATGTACCAGGCCGCACATTATGAGCTGGTGGCCAGCGCCCTGGCGGTGAAAGCGGCGCGCGAGATCAACCCTGCTCTGCAGATAGGCTGCATGATCGCCATGTGTCCCATTTATCCGCTGACCTGCGCGCCGGACGATATGATGATGGCGATGAACGCCATGCACCGCCGGTACTGGTTCACCGACGTCCACGTGCGCGGCCGCTATCCGCAGCATCTGCTCAACTATTTTGCCCGCCGCGGCTTTAGCCTGGACATGACCGAAGCCGATCGTCAGGCGTTAACCGAAGGCTGTGTCGACTACATCGGCTTTAGCTACTATATGTCCTTCGCCACCAAAGCCACCGAAGATAACCCATTGCTCGATTATGATGAAACCACCAGCCTGGTCTCCAACCCGTACGTGAAAAAGTCGGACTGGGGCTGGCAGATAGATCCGGTCGGCCTGCGCTATTCGCTGAACTGGTTCTGGGATCACTATCAGCTACCGCTGTTTATTGTCGAAAACGGTTTTGGCGCGATCGATGTTCGTGAAGCGGACGGCAGCGTGGATGACCAGTACCGTATCGATTATCTCTCCGCCCATATCGCGGAGATGAAAAAGGCGGTGGTCGAAGATGGTGTTGACCTGATGGGCTATACCCCGTGGGGCTGTATCGATCTGGTTTCCGCCGGCACGGGGGAGATGAAAAAACGCTACGGCTTTATCTACGTGGATAAAGATAATGAAGGCAACGGCACGCTGGACCGCAGTAAGAAGAAGTCGTTCGACTGGTATAAGAAGGTGATTGCCAGCAACGGGGAGCAGCTATAA	MSGFKEGFLWGGAVAAHQLEGGWQEGGKGVSVADVMTAGAHGVPREITDGVVAGKNYPNHEAIDFYHRYPQDLALFAEMGFKCFRTSIAWTRIFPQGDEQEPNEAGLQFYDDLFDECLKHGIEPVITLSHFEMPYHLVTEYGGWRNRKLIDFFVRFARVVFTRYQHKVKYWMTFNEINNQANYHEDFAPFTNSGLKYVPGEDREPVMYQAAHYELVASALAVKAAREINPALQIGCMIAMCPIYPLTCAPDDMMMAMNAMHRRYWFTDVHVRGRYPQHLLNYFARRGFSLDMTEADRQALTEGCVDYIGFSYYMSFATKATEDNPLLDYDETTSLVSNPYVKKSDWGWQIDPVGLRYSLNWFWDHYQLPLFIVENGFGAIDVREADGSVDDQYRIDYLSAHIAEMKKAVVEDGVDLMGYTPWGCIDLVSAGTGEMKKRYGFIYVDKDNEGNGTLDRSKKKSFDWYKKVIASNGEQL	PGPT0019255_2134	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0019255-bglA-K01223	NA	NA
BMS020_05221	894	bglK	COG1940	Beta-glucoside kinase	ATGAAGATTGCGGCATTTGATATCGGCGGCACCGCGCTAAAGATGGGCGTCATGACCCGCGACGGCAGGCTGCTGGAAACCGCGAAGCAGTCAATCAATGACAGCGATGGCGATCATATCTTACAGACCATCTTGTCGTGGCTGGCGGCCCACCCGTCGTGCGAAGGTATAGCCATCAGCGCGCCGGGCTATGTCGATCCGCACAGCGGCTTTATCACCATGGGCGGCGCTATCCGTCGATTTGACAACTTCGCCATGAAATCGTGGCTCGAGACGCGAACCGGGCTGCCGGTCTCGGTGGAAAACGACGCCAACTGTGTGCTGCTGGCCGAGCGCTGGCAGGGCAAAGCGGCGGAAATGGCCAATTTTCTGGTGCTCACTATCGGCACTGGCATCGGTGGAGCGATTTTTTGCCAACATCAGTTGATCCACGGGGCGCGTTTTCGCGCCGGTGAGTTCGGCTATATGCTTACCGATCGTCCTGGCGGACGCGATCCCCGTCGCTACTCGATGAATGAAAACTGCACCCTGCGGGTGCTTCGCCATCGCTATGCGGAACATATTGGCGCGCCGCTGGATAGCGTCACTGGCGAAATGATTTTTGACCGCTACGACGCCGGCGACCCGGTTTGCCAGCGTCTGGTCGCCGAGTTCTTCAATGGCCTGGGCCATGGCCTTTATAACCTCGTCAATATCTTCGATCCGCAGACTATTTTTATCGGCGGCGGCATTGTGGAACGCCCAGGATTTCTGACGCTGCTGCGCCAGCATCTGGCCTGGTTCGGCATTGCCGACTATCTCGATACCGTCAGTCACGGCAATGATGCCGGCCTGATTGGCGCGGTTTACCATTTCAATCAGCACTATCGTTCGCCTGGCGACGATCGACCTTAG	MKIAAFDIGGTALKMGVMTRDGRLLETAKQSINDSDGDHILQTILSWLAAHPSCEGIAISAPGYVDPHSGFITMGGAIRRFDNFAMKSWLETRTGLPVSVENDANCVLLAERWQGKAAEMANFLVLTIGTGIGGAIFCQHQLIHGARFRAGEFGYMLTDRPGGRDPRRYSMNENCTLRVLRHRYAEHIGAPLDSVTGEMIFDRYDAGDPVCQRLVAEFFNGLGHGLYNLVNIFDPQTIFIGGGIVERPGFLTLLRQHLAWFGIADYLDTVSHGNDAGLIGAVYHFNQHYRSPGDDRP				NA	NA	NA	NA	NA
BMS020_05222	1038	purM_2	COG0150	Phosphoribosylformylglycinamidine cyclo-ligase	GTGACCGACAAAACCTCTCTCAGCTATAAAGATGCCGGCGTGGATATTGATGCAGGCAACGCTCTCGTCGACCGTATTAAGGGCGTGGTGAAGAAAACCCGTCGCCCGGAAGTGATGGGTGGACTGGGCGGATTCGGCGCGCTGTGCGCACTGCCGCAGAAATACCGCGAGCCGGTACTGGTCTCCGGCACCGACGGCGTCGGTACCAAGCTGCGTCTGGCAATGGATCTGAAGCGTCACGACACCATCGGCATCGACCTTGTCGCCATGTGCGTGAACGACCTGGTGGTTCAGGGCGCTGAGCCGCTGTTTTTCCTTGATTATTACGCCACCGGTAAACTGGACGTCGATACCGCAGCCAGCGTCATCAACGGCATCGCCGAAGGCTGCCTGCAGTCCGGTTGCGCGCTGGTGGGCGGCGAGACCGCAGAGATGCCGGGGATGTACCACGGCGAAGATTACGACGTGGCGGGTTTTTGCGTCGGGGTGGTGGAAAAATCAGAAATCATCGACGGCAGCAAAGTCGCTGACGGCGACGTGCTGGTGGCGCTGGCCTCCAGCGGCCCGCACTCTAACGGCTATTCGCTGGTGCGTAAGATTATTGAAGTTAGCGGCGTTGACCCGCAGACCACCGACCTTGACGGCAAACCGCTGGCCGACCATCTGCTGGCGCCGACCCGCATCTATGTGAAATCGGTTCTCGACCTGATTGCCAGCGTTGACGTCCACGCCATCGCCCATCTGACCGGCGGCGGCTTCTGGGAAAATATTCCGCGCGTGCTGCCGGACAACACCCAAGCGGTGATTGATGAGTCTTCCTGGCAGTGGCCGTCCGTCTTCAACTGGCTGCAAACCGCCGGTAACGTCAGCCAGCATGAGATGTACCGTACCTTTAACTGCGGCGTGGGGATGGTTATCGCCCTGCCGGCTGCAGAAGCAGACAAGGCCATTGCCCTGCTGAACGAGAAAGGTGAAAACGCGTGGAAAATCGGGTATATCAAAGCCTCCGATTCCGAACAGCGTGTGGTCATTGCATGA	MTDKTSLSYKDAGVDIDAGNALVDRIKGVVKKTRRPEVMGGLGGFGALCALPQKYREPVLVSGTDGVGTKLRLAMDLKRHDTIGIDLVAMCVNDLVVQGAEPLFFLDYYATGKLDVDTAASVINGIAEGCLQSGCALVGGETAEMPGMYHGEDYDVAGFCVGVVEKSEIIDGSKVADGDVLVALASSGPHSNGYSLVRKIIEVSGVDPQTTDLDGKPLADHLLAPTRIYVKSVLDLIASVDVHAIAHLTGGGFWENIPRVLPDNTQAVIDESSWQWPSVFNWLQTAGNVSQHEMYRTFNCGVGMVIALPAAEADKAIALLNEKGENAWKIGYIKASDSEQRVVIA	PGPT0021570_3402	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021570-purM-K01933	NA	NA
BMS020_05223	642	purN_2	COG0299	Phosphoribosylglycinamide formyltransferase	ATGAAAAACATTGTGGTGCTGATTTCCGGTAGCGGCAGTAATTTGCAGGCGATCATCGACGCCTGCGGCCGGAAACAGATAAACGGCACCCTGCGTGCGGTATTCAGTAACAAGGCCGATGCGTTCGGCCTTGAGCGCGCGCGCGCGGCCGGGATCCCGGCCCACGCGCTGGCGCAAAGTCAGTTTGCCGACCGGGAAACGTTTGATCGTCAGCTGATGCATGAAATTGACGCCTACGCCCCGGATCTGGTGGTGCTGGCGGGCTATATGCGTATCCTTAGCCCCGCCTTCGTCAGCCACTATCAGGGACGTCTGCTGAACATCCACCCTTCGTTACTGCCTAAGTATCCTGGCCTGCATACCCATCGCCAGGTGCTGGAAAACGGTGACGAGGAGCATGGGACCTCGGTGCACTTCGTCACCGACGAGCTGGACGGCGGTCCGGTTATCCTGCAGGCCAAAGTGCCGGTCTTTGCTGGCGACAGCGAGGAAGAGGTCACGGCGCGGGTTCAGACCCAGGAACATGCCATTTATCCGCTGGTGATAAGCTGGTTCGTTGAGGGACGTCTGCGCATGGAGGGCAACCACGCCTGGCTGGATGAACGACAGCTTCCCCCCCAGGGCTATGCCGCTGAAGAATGA	MKNIVVLISGSGSNLQAIIDACGRKQINGTLRAVFSNKADAFGLERARAAGIPAHALAQSQFADRETFDRQLMHEIDAYAPDLVVLAGYMRILSPAFVSHYQGRLLNIHPSLLPKYPGLHTHRQVLENGDEEHGTSVHFVTDELDGGPVILQAKVPVFAGDSEEEVTARVQTQEHAIYPLVISWFVEGRLRMEGNHAWLDERQLPPQGYAAEE	PGPT0008095_1589	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008095-purN-K11175	NA	NA
BMS020_05224	2061	ppk_2	COG0855	Polyphosphate kinase	ATGGGCCAGGAAAAGCTATACATCGAAAAAGAACTCAGCTGGTTGTCTTTTAACGAGCGCGTGCTGCAGGAAGCGGCGGACAAGAGTAACCCGCTGATTGAGCGCATGCGCTTCTTAGGGATCTACTCCAACAACCTTGATGAGTTTTACAAAGTGCGCTTCGCTGAGCTTAAGCGCCGGATTATTATCAGTGAAGAACAAGGCAGTACCGCCCATTCTCGCCACCTGTTAGGCAAAATCCAGGCCCGCGTTCTGAAGGCCGATCAGGAATTCGATAGTCTGTATAACGAACTGCTGCTGGAGATGGCGCGCAACCAGATCTTCCTGATCAATGAGCGTCAGCTGTCCGTCAATCAGCAGGCCTGGCTGCGCAACTACTTTAAACAGTATTTGCGCCAGCATATCTCGCCGATCCTGATTAACCGCGAAACGGACCTCGTGCAGTTTCTGAAAGATGATTACACCTATCTGGCGGTGGAGATTATCCGCGGGGAAAACATCAACTATGCCCTGCTGGAAATTCCGTCGGATAAGGTCCCGCGCTTCGTAAACCTGCCGCCGGAAGCGCCTCGTCGCCGTAAGCCAATGATCCTGCTGGATAACATTCTGCGCTATTGCCTGGACGACATCTTTAAAGGCTTCTTTGATTACGATGCGCTGAACGCCTACTCGATGAAAATGACCCGTGACGCCGAATACGATCTGGTGCATGAGATGGAGTCGAGCCTGATGGAGCTGATGTCCTCCAGCCTGAAACAGCGCCTGACCGCCGAGCCGGTTCGCTTCGTCTACCAGCGCGATATGCCGGACGCGATGGTCGAAATGCTGCGCGATAAGCTCTCCATCTCCAACTATGACTCAATGCTGCCGGGCGGCCGCTATCACAACTTTAAAGACTTTATCGGCTTCCCGAACGTGGGTAAGGCCAATCTGGTCAATAAACCTATGCCGCGCCTGCGTCATCTGTGGTTTGATAAATTCCGCAACGGCTTCGACGCCATTCGCGAACGCGATGTGCTGCTCTACTACCCCTATCATACTTTTGAGCATGTGCTGGAGCTGCTTCGCCAGGCCTCGTTCGACCCCAGCGTACTGGCGATCAAAATCAACATCTACCGCGTGGCCAAGGATTCGCGCATCATCGACGCGATGATCCACGCCGCCCACAACGGTAAAAAAGTCACCGTGGTGGTGGAGCTGCAGGCGCGTTTTGACGAAGAGGCCAACATTCACTGGGCGAAGCGCCTGACGGAAGCGGGCGTTCACGTGATCTTCTCCGCGCCGGGCCTGAAGATCCACGCCAAGCTGTTCCTTATCTCGCGTAAAGAAGGCGATGAGGTGGTGCGCTACGCCCACATCGGCACCGGTAACTTCAACGAGAAGACCGCGCGGATCTATACCGACTATTCGCTGTTAACCGCCGATGCGCGCATTACCAATGAAGTCCGCCGGGTGTTTAACTTTATTGAAAACCCCTACCGCCCGGTCAGCTTCGATTACCTGCTGGTGTCGCCGCAGAACTCGCGTCGTCTGCTGTATGAGATGATCGACCGCGAGATCGCTAATGCGCAGAACGGGCAACCGTCCGGTATTACCCTGAAGCTGAACAACCTGGTGGACAAAGGGCTGGTGGACAGACTGTATGCCGCCTCCAGCTCCGGTGTGCCGGTCAACCTGTTGATCCGCGGCATGTGCTCGCTGATCCCCGGTCTGGAAGGCATCAGCGAAAATATTCGCGTCATCAGCATTGTGGACCGTTTCCTCGAGCACGACCGGGTCTACTGTTTTGAAAACGGTGGCGATAAGCAGGTCTGGCTCTCCTCTGCCGACTGGATGACGCGTAATATCGATTATCGTATCGAAGTTGCCGCTCCGCTGCTCGACCCGCGCCTGAAACAGCGGGTGCTGGATATTTTTGATATCCTGTTCAACGATACGGTAAAAGCGCGCTATCTTGATAAAGAACTGAGTAATCGCTATGTGCCGCGCGGCAATCGCCGTAAAGTGCGCGCTCAGATGGCGATTTACGATTATCTCAAATCACTCGAACAACCCGACTAA	MGQEKLYIEKELSWLSFNERVLQEAADKSNPLIERMRFLGIYSNNLDEFYKVRFAELKRRIIISEEQGSTAHSRHLLGKIQARVLKADQEFDSLYNELLLEMARNQIFLINERQLSVNQQAWLRNYFKQYLRQHISPILINRETDLVQFLKDDYTYLAVEIIRGENINYALLEIPSDKVPRFVNLPPEAPRRRKPMILLDNILRYCLDDIFKGFFDYDALNAYSMKMTRDAEYDLVHEMESSLMELMSSSLKQRLTAEPVRFVYQRDMPDAMVEMLRDKLSISNYDSMLPGGRYHNFKDFIGFPNVGKANLVNKPMPRLRHLWFDKFRNGFDAIRERDVLLYYPYHTFEHVLELLRQASFDPSVLAIKINIYRVAKDSRIIDAMIHAAHNGKKVTVVVELQARFDEEANIHWAKRLTEAGVHVIFSAPGLKIHAKLFLISRKEGDEVVRYAHIGTGNFNEKTARIYTDYSLLTADARITNEVRRVFNFIENPYRPVSFDYLLVSPQNSRRLLYEMIDREIANAQNGQPSGITLKLNNLVDKGLVDRLYAASSSGVPVNLLIRGMCSLIPGLEGISENIRVISIVDRFLEHDRVYCFENGGDKQVWLSSADWMTRNIDYRIEVAAPLLDPRLKQRVLDIFDILFNDTVKARYLDKELSNRYVPRGNRRKVRAQMAIYDYLKSLEQPD	PGPT0002685_3433	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002685-ppk-K00937	NA	NA
BMS020_05225	1533	ppx_2	COG0248	Exopolyphosphatase	ATGCCAATAAACGAAAAAACCCCTCGACCGCAGGAGTTCGCTGCGGTTGACCTTGGTTCGAACAGTTTTCATATGGTGATCGCCCGTGTCGTCGACGGCGCCATGCAGATCATCGGACGCCTGAAACAGCGCGTACATCTGGCCGATGGCCTCGATGAAAACTCGGTGTTGAGCGAAGAAGCCATGACCCGCGGGCTGAACTGCCTGTCGCTGTTTGCCGAACGCCTGCAGGGATTTTCTCCCTCCAGCGTCTGCATCGTCGGGACGCATACGCTGCGTCAGGCGACCAATGCGGCGGAGTTTCTTAAACGCGCGGAAAAAGTGATCCCCTACCCGATCGAGATCATCTCCGGTAATGAAGAAGCGCGCCTGATATTTATGGGCGTGGAGCACACGCAGCCGGAGCGCGGCCGTAAGCTGGTGATTGATATCGGCGGCGGTTCGACCGAGCTGGTCATCGGTGAAGATTTTGAGCCCCGCCTGGTGGAAAGCCGCCGCATGGGGTGCGTGAGTTTCTCCCAGGCCTACTTCCCGGGCGGGACGATCAATAAGGAAAATTTTCAGCGCGCTCGCCTGGCGGCGGTGCAAAAGCTGGAAACCCTGGCCTGGCAGTTCCGTATTCAGGGCTGGACCGTGGCGCTGGGCGCCTCCGGCACCATTAAAGCCGCCCAGGAAGTGCTGGTGGCGATGGGCGAGAAGGACGGGTTTATTACGCCGGAACGCCTCGAAATGCTGGTCAGTGAGCTGCTAAAGCATAAAAACTTCGACGCGCTCAGCCTGCCCGGCCTCTCGGAAGACCGTAAAGCGGTCTTTGCCCCGGGGCTGGCGATACTGTGCGGCGTGTTTGACGCATTAGCCATTAAAGAGCTTCGTCTGTCTGATGGCGCGCTGCGTGAAGGCGTGCTGTACGAAATGGAAGGCCGTTTCCGCCACCAGGATATTCGTAGCCGCACGGCGCAGAGTCTGGCGAATCAGTACAACATCGATCGCGAACAGGCGCGCCGGGTGCTGGAAACCACCACCCTTATGCTGGAGCAGTGGCAGGAGCAGAATCCGAAGCTGGCCAATCCACACCTCGCGGCGCTGTTGAAGTGGGCGGTGATGCTCCATGAGGTGGGCCTGAATATTAACCACAGCGGCATGCACCGCCACTCGGCCTACATTCTGCAGAACAGCGACCTGCCGGGCTTCAACCAGGAGCAGCAGATGCTGATGGCCACGCTGGTGCGCTATCATCGCAAAGCGATAAAACTCGACGACCTGCCGCGCTTTACGCTGTTCAGGAAAAAGCAGTTTCTGCCGCTGATCCAGCTGCTGCGCCTCGGCGTGCTGCTGAATAACCAGCGTCAGGCCACCACCACGCCGCCGACGCTACGGCTGCAGACGGAAGCTCACCACTGGACGCTGACCTTCCCGCACAACTGGTTTAGCCAGAATGCGCTGGTGCTGCTGGATCTGGAAAAAGAGCAGCAGTACTGGGAAGGTGTGCCGGAGTGGCTGCTGAAAATTGCGGAAGAAGAGCCAGACGCCTGA	MPINEKTPRPQEFAAVDLGSNSFHMVIARVVDGAMQIIGRLKQRVHLADGLDENSVLSEEAMTRGLNCLSLFAERLQGFSPSSVCIVGTHTLRQATNAAEFLKRAEKVIPYPIEIISGNEEARLIFMGVEHTQPERGRKLVIDIGGGSTELVIGEDFEPRLVESRRMGCVSFSQAYFPGGTINKENFQRARLAAVQKLETLAWQFRIQGWTVALGASGTIKAAQEVLVAMGEKDGFITPERLEMLVSELLKHKNFDALSLPGLSEDRKAVFAPGLAILCGVFDALAIKELRLSDGALREGVLYEMEGRFRHQDIRSRTAQSLANQYNIDREQARRVLETTTLMLEQWQEQNPKLANPHLAALLKWAVMLHEVGLNINHSGMHRHSAYILQNSDLPGFNQEQQMLMATLVRYHRKAIKLDDLPRFTLFRKKQFLPLIQLLRLGVLLNNQRQATTTPPTLRLQTEAHHWTLTFPHNWFSQNALVLLDLEKEQQYWEGVPEWLLKIAEEEPDA	PGPT0002595_1096	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002595-ppx|ppx_gppA-K01524	NA	NA
BMS020_05226	2229	pdeF		Cyclic di-GMP phosphodiesterase PdeF	ATGAATTTATTAAAATACTATCAACAATATCGCGACAAATGGTGGGCCTTACCGCTTCTCCTGCCTGTGCTGTTATTACCCCTTGCCAGAGGGATGAATACATATACCGTGCTGAATGGTCACATGGTTTATCTTTATTATCTTCCCCTGGCGCTGGTGCTCAGCCTGATGATGTTTTTCGGCTGGGCGGCGATCCCCGGTATTATCGTTGGCCTGCTGCTTACGCTGGCCCGGGGCATGACGCCGGAACAGGCCTTTGGCGTACTGTTCCATTTTCTGATCCCCTGCGTACTCTGCTGGGGCGGATACCGCATCTTTGTTCCCCAACGGCAGCAGGTATCGCACGGTAACGTCAGACTGATGCCGCATCGTTTGTTCTGGCAAATGCTGCTCCCTTCGGTCATTTTTCTGATTCTGTCGCAGATCGCCGAGTTTCTGGGGCTGCATCCGCGCACAACGGAGATGACCGGCGTCTCGCCGTTTAGTTTACGGTCGTTAATCACCTTTCAGGCGCTGATGGTAGGGTGCCTGACCGGCGTGCCCTTATGTTATTTACTGCTGCGGGTAATTCGTAACCCTTTTTATTTGCGCGGATTTATTTCTCAGGTTCGCTTACAAATTGATCCAAAAATAAAAAAAATTGAAATCATCAGCTGGGTGGCGATATTAATCCTGCTGCTGGGGCTATTATTGATGCCGCTTAATGATAGCAGCACTATATTCAGTACAAATTATACATTATCCTTACTGATGCCGGTGATGCTGTGGGGGGCGATGCGTTTTGGCTATCGCTTTATCTCGCTGATCTGGACGCCGGTACTGATCGCCGTGATCCATTTTCATTACCGTTATTTACCCATTTATCCAAGTTATAACACTCAGCTGGCGATCACCTCGTCAAGCTATCTGGTGTTCTCGTTTATTGTCGCCTATACGGCGATGCTGGCGACACAGCAGCGGCTGATCTACGCCCGCGTCCGACAGATGGCCTTCCTCGACCCGGTGGTACATATGCCGAATCTGCGGGCGCTGAGCCGGGCGCTGAACGGCGCGAGCTGGTCGACGCTCTGTTTTTTGCGTATTCCTGAGCTTGAGCTGCTGGGCCGCCACTATGGGGTGCTGTTGCGCATTCAGTATAAGCAAATGCTGGCGAATCACCTGCGTGCGCTGCTGCAGCCGAACGAAGCGGTATATCATCTTGCCGGTCACGATTTAGTGTTTCGTCTCAACAGCGAAGGGCACCAGGCGCGCATTCACTTAATTGAGCGCTCCCTGCGACAGTTCCGTTTTCACTGGGACGGGGTCCCCCTGCAGCCGCGGATCGGCATGAGCTATTGCAACGTCCGCTCGCCGGTGAAGCATCTGTATTTGCTGCTTGGCGAGCTGAACACGATTGCCGACATGTCGCTGGCCAGCGGCCATCCGGAGAATTTGCAGCGCCGCGGCGCCGGGCATGTCCAGCAGGATCTGAAAGACAAAGTGGTGATGATGAACCGCATCCTCAAGGCGCTGGAGCAAGACCATTTTGTCCTGATGGCGCAACCTATCCAGGGCATTCGCGGCGACAACTACCATGAAGTGTTGTTGAGGATGAAAGGGGAGTCGGGGGAGCTGACGGGGCCAAACGAGTTCCTGCCGGTGGCGCACGAGTTTGGGCTGTCCACGCGCGTGGATCAGTGGGTCATTGAGCACACCCTGGCCTTTATGGATGCCAACCGGCGGTCGCTGCCCGGTCTGCGGCTGGCGATCAACCTCTCTCCGGTCTCGCTGAGCCGCAGTCAGTTTCCCGAGGAGGTGGAAAACCTGCTGCAGGCCTATAACATTGAGCCATGGCAGATTATCTTCGAGCTGACCGAAAACTATGCGCTCAGCAACCCCGAGCTGGTTTGCCAGACATTAGAGCGTCTGCGGGTGCTGGGCTGCCGGGTGGCGATCGATGATTTTGGTACCGGCTACGCCAGCTATGCGCGGTTAAAAACGATGAACGTCGATATTCTTAAAATCGACGGCAGCTTTATTCGCAATCTGCTCGCCAGCAGTCTTGATTACCAGGTGGTGGACTCTATCTGTCGTCTGGCTCGGATGAAGAACATGCAAGTGGTGGCCGAATATGTCGAGTCGCCGGAGATACGCCAGGCGGTCATCGCGCTGGGGATAGATTATATGCAGGGCTATGATATTGGCGTTCCGGTACCTCTGGCGCAGCTGGCGGAGGGGATGAGCGCCTGA	MNLLKYYQQYRDKWWALPLLLPVLLLPLARGMNTYTVLNGHMVYLYYLPLALVLSLMMFFGWAAIPGIIVGLLLTLARGMTPEQAFGVLFHFLIPCVLCWGGYRIFVPQRQQVSHGNVRLMPHRLFWQMLLPSVIFLILSQIAEFLGLHPRTTEMTGVSPFSLRSLITFQALMVGCLTGVPLCYLLLRVIRNPFYLRGFISQVRLQIDPKIKKIEIISWVAILILLLGLLLMPLNDSSTIFSTNYTLSLLMPVMLWGAMRFGYRFISLIWTPVLIAVIHFHYRYLPIYPSYNTQLAITSSSYLVFSFIVAYTAMLATQQRLIYARVRQMAFLDPVVHMPNLRALSRALNGASWSTLCFLRIPELELLGRHYGVLLRIQYKQMLANHLRALLQPNEAVYHLAGHDLVFRLNSEGHQARIHLIERSLRQFRFHWDGVPLQPRIGMSYCNVRSPVKHLYLLLGELNTIADMSLASGHPENLQRRGAGHVQQDLKDKVVMMNRILKALEQDHFVLMAQPIQGIRGDNYHEVLLRMKGESGELTGPNEFLPVAHEFGLSTRVDQWVIEHTLAFMDANRRSLPGLRLAINLSPVSLSRSQFPEEVENLLQAYNIEPWQIIFELTENYALSNPELVCQTLERLRVLGCRVAIDDFGTGYASYARLKTMNVDILKIDGSFIRNLLASSLDYQVVDSICRLARMKNMQVVAEYVESPEIRQAVIALGIDYMQGYDIGVPVPLAQLAEGMSA				NA	NA	NA	NA	NA
BMS020_05227	174	yfgG		Protein YfgG	ATGCGTAAACGACATCGATTTAACCGTCGCATGACCCGTATCGTACTGCTTATCAGCTTTCTCTTCTTCTTTGGACGCTTTGTCTACTCCTCCATTGGCGCCTGGTACCATCACCAGGATAAAAAAGCGTCGCAGGAGTCAACGCTCACCGTCGAGCCTTCCGCCCGCGAGTAA	MRKRHRFNRRMTRIVLLISFLFFFGRFVYSSIGAWYHHQDKKASQESTLTVEPSARE				NA	NA	NA	NA	NA
BMS020_05228	888	yofA_2	COG0583	HTH-type transcriptional regulator YofA	ATGACAACACTGAACCTGGGAAACCTGGCGACCTTCCGGCTGGTCGTACAGCGCGGCAGCTTCTCCGCCGCCGCCGACGCGCTGGGGATCTCCCAGCCAGCCGTCAGCCTGCAGGTGCGTCAGCTGGAGCAATTTTTACAGACTCGGCTGCTGGAGCGCACCGGGCGTGGGATCAAGGCGACGGCGGCGGGAATGGCGCTGCTGGCCCACAGCGAGCAGATCGATCGGGCGGTGAATAGCGCGGTGCAGTCGGTCAGCGCATTTAGCCAGGAAGTTAATGGCTCGTTGACGCTGGGGACCGGCGCGACGGCCTGCATTCATCTTCTTCCGCCGCTGCTGCAGCATCTTCGTCAGCAGCACCCGCTGCTGACGGTGGGGGTGACCACCGGCAACACGCTGGATATCGTCCGGGCGGTGGAGGAAAACCGGCTCGATCTTGGACTGGTTACCCTGCCCGTGCAGGGGCGCAGTCTGGCAGTGACAGCAGTGGTTGACGAGGAGTTCGTGGTCATTCATCCCAGCCACGAGGCGGGGATCCCGGCGGTGTGCACCCCTGAAGCGCTGCAGGCGCTGCCGCTCATTGCCTTCGAGGCGGGCAGCGGCACGCGGGATCTGATTGACCGCTGGTTCCGTTCGGCGGGCCTGGCGGTCACGCCGGTGATGCAGCTGGGAAGCATCGAGGCGATCAAACGCATGGTGCGGGCCGGGCTGGGCTACAGTATTGTGCCCCGCATGGCGGTGGAGCAGGCGGAGGATCGCTGTGGCTTAACGGTACATTCTCTGGCCCCGTCGCTGTACCGTCAGCTGGCGGTTGTCATGCGTCAGGATAAAGTGATTACCAAAGGAATGGCGGAAATGCTGCGACTGCTACAGGCCGTGCGCTTATAA	MTTLNLGNLATFRLVVQRGSFSAAADALGISQPAVSLQVRQLEQFLQTRLLERTGRGIKATAAGMALLAHSEQIDRAVNSAVQSVSAFSQEVNGSLTLGTGATACIHLLPPLLQHLRQQHPLLTVGVTTGNTLDIVRAVEENRLDLGLVTLPVQGRSLAVTAVVDEEFVVIHPSHEAGIPAVCTPEALQALPLIAFEAGSGTRDLIDRWFRSAGLAVTPVMQLGSIEAIKRMVRAGLGYSIVPRMAVEQAEDRCGLTVHSLAPSLYRQLAVVMRQDKVITKGMAEMLRLLQAVRL				NA	NA	NA	NA	NA
BMS020_05229	1182			hypothetical protein	ATGGAAACACCGGCTATTCCCCGACGCCTCGCCTTCACGGCGGGCGCTCAGCAACTGATCAACTGGGGTATCTCTTTTTATATGCCCGGCACCTTTGCCGGGGCGATGTCGGCAGATACCGGCTGGTCATCCCCACAAATCTACTCAGGCCTGACGCTCGCCATGCTGGTGATGGCCACCCTCTCGCCGTTTGTCGCCCGGCTGCTGTCGCGTGCTGGCGGGCAACGCGTGGTGATGGCAGGCTCCCTGCTGCTCGCCGTCGGTTGTCTGCTTATGGCTGACGCACACTCACTTGTCGCCTGGTACAGCGCCTGGCTGTTGACCGGCATCGGCATGCGTTTGTCGCTGTATGACGCGCTGTTTGCCGCGCTGGTTAATCTCTACGGCAAGCAGGCGCGACGGACGATCTCCCGCATAACCCTGACGGGTGGGCTGGCCTCGGTGGTGTTCTGGCCGCTGGGGGAGGCTCTGCTCGCGGCCATGAGCTGGCGGGAAGCACTGCTGATCTATGCCCTGTTCGGCTTGCTAAGCGCCGCGTTAACCCTGTCGCTACCCAATAAAACAGGCTTTATCGTCAATAAACCCGCCGCCCCTGCCGCGGTACGGGATCGGCGAAACGGCTGGCTGTACGCCGCGTTTATCGCGCTGATCACCTTTGTCTCTAATGGCACTTCCACCCATCTGCCGGAATTTATCATAAGCGTCGGTCTGCCGGTTGCCGTCGGCATGTTATGGGGCGTTGGACAGACTGGTGCACGGTTTCTGGAGGTGGTGGCCGGGGCGGGGCTCACCCCGCTTCGCCTGACGCTGCTTACCGCGCTGGCTATGCCGGTGTGCTTTATGCTCGGCCTGAGTAGCTCGCTTTTTCTCTGGTCAGCCGCCGGTTTTGTGCTGAGCTACGGGGCGATTAACGGGCTGGTGACCATCGTCAAAGCCACGCTGCCGCTGCAGTTGTTTGCCCCTGAAGCGTACGCCAGACGCACCGGGGTGCTGCTGATCCCGGCCCAGCTGATGGCGGCGGCCTCCCCGCTGGCCTATGCGTGGCTGAACCGGGCTTTAGGGACGATCGGGGCGATGTGGCTGTCGTGGGGGTTAACGCTGCTGATTGCCGTACTGGCGGTGGCTATCGTCAAGGGGCAGGCATCGCACCAGGCTGAGGGTATCCCTGCCCTTAGCGACTAG	METPAIPRRLAFTAGAQQLINWGISFYMPGTFAGAMSADTGWSSPQIYSGLTLAMLVMATLSPFVARLLSRAGGQRVVMAGSLLLAVGCLLMADAHSLVAWYSAWLLTGIGMRLSLYDALFAALVNLYGKQARRTISRITLTGGLASVVFWPLGEALLAAMSWREALLIYALFGLLSAALTLSLPNKTGFIVNKPAAPAAVRDRRNGWLYAAFIALITFVSNGTSTHLPEFIISVGLPVAVGMLWGVGQTGARFLEVVAGAGLTPLRLTLLTALAMPVCFMLGLSSSLFLWSAAGFVLSYGAINGLVTIVKATLPLQLFAPEAYARRTGVLLIPAQLMAAASPLAYAWLNRALGTIGAMWLSWGLTLLIAVLAVAIVKGQASHQAEGIPALSD				NA	NA	NA	NA	NA
BMS020_05230	726	fabG_10		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAATCACGAAAAGGTAGCGTTGATTTTCGGCGGCGCGCGCGGTATCGGGGCGGCCATTGCGGCGCGACTGGCGCACGAGGGCTATCGGGTTGCCATCACCTGGGTATCACGCCCGGATCGGGCGCAGGCGCTGGTCTCAACGATTGAGCAACGGGGCGGTCAGGCGATAGCCATTGAAGCCGACAGCGCAGACCCCAGGGCTATCCAGGCCGCGGTGGATAAGACATTACGGCACTACGGCAGGCTGGATGTCGCGGTGGTAAATGCGGGCGTGCTGCGTCTCGGTACCCTTGAGGCCTATTCGCTGGACGATCTGGATACCACCCTGGCCGTCAACGTGCGTGGTGTCTTCCTTGCCATTCAGGCGGCGGTTAAGCCGATGGCGGAAGGGGGGCGTGTGATCACCATCGGCAGTAATACCGCGGTGCGTACCGGCCATGTGGGCAGTAGCGTGTATGCCATGAGTAAAGCGGCTGTCGCCTCAATGGTGCAGAACCTTGCGCTGGATCTGGCGCCACGGCGCATCACGATTAACAACATCCAGCCGGGGCCCATCGCCACCGATATGACTGCCGGAATGGCGGAGCAGATCGTCGGGCGCATTCCCTTGCAGCGTATGGGCGAACCGGACGAAATCGCCTCGCTGGCGGCCTGGCTTGCCGGTGAATCGTCCGGCTACATGACGGGTACAAGCCTGACCATCGACGGCGGCTTTGTGCTCTAG	MNHEKVALIFGGARGIGAAIAARLAHEGYRVAITWVSRPDRAQALVSTIEQRGGQAIAIEADSADPRAIQAAVDKTLRHYGRLDVAVVNAGVLRLGTLEAYSLDDLDTTLAVNVRGVFLAIQAAVKPMAEGGRVITIGSNTAVRTGHVGSSVYAMSKAAVASMVQNLALDLAPRRITINNIQPGPIATDMTAGMAEQIVGRIPLQRMGEPDEIASLAAWLAGESSGYMTGTSLTIDGGFVL	PGPT0003180_20762	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
BMS020_05231	462			hypothetical protein	ATGATACGTCCACATTTACTCTTCACGCTGTTCGCGCTGACATCAGGCTGCGCCTGGGCTGCACCGCTTAGCGGACTCAGCGCCGCGGATGTTAACGGCCCCGCCGCCGTTGCACCGCCCGAACAGCCCCAGCCACCGGCAACACTGATTGTGGATCCGCCGCTGGCGGGCCCGCTGAGTAAAGGTGCGGTCTTTATTCAATACCGCGCCGAGAACATGCGTATTGAACCGGTGTTCGGGCCCGAGGCGCTGAAAGTGGCGCCGCGCATCGGCCATATCCACGTCATCGTGGATGACAACCCCTGGCACTGGGCCGACGCCAGCGGCGAGCCGGTTATTCTGGTGGGCCTGCCTGCCGGTCATCACAAGGTGACCCTTATTCTCGCCGATCCAACCCATAAACCTGTTGATCGCAAGACCGTCGAATTCATCGTACCGCCGCATGCTGCGGTTATGCACTGA	MIRPHLLFTLFALTSGCAWAAPLSGLSAADVNGPAAVAPPEQPQPPATLIVDPPLAGPLSKGAVFIQYRAENMRIEPVFGPEALKVAPRIGHIHVIVDDNPWHWADASGEPVILVGLPAGHHKVTLILADPTHKPVDRKTVEFIVPPHAAVMH				NA	NA	NA	NA	NA
BMS020_05232	255	bhsA_4		Multiple stress resistance protein BhsA	ATGAAAGCATTACTGATTGCTGTTCTGACCTTCTCCGCCGCAATGGCGTCTTCCGCTTTCGCTGCCCGGGAAATTAACCAGCCTCAGGGGCTGCAAAAAATTGGCACCGTTTCCGACAGCAGCGGCGCAACGTCGCTGGCGGATCTGGAGGCGAAACTGCAGGCCAAAGCCGTTAAAGCGGGCGCCGGTGCGTTTCGCATTACCTCCGCCGGGGGGAACAACACCCTGTCGGGCACCGCAGATATTTACCGTTGA	MKALLIAVLTFSAAMASSAFAAREINQPQGLQKIGTVSDSSGATSLADLEAKLQAKAVKAGAGAFRITSAGGNNTLSGTADIYR	PGPT0015005_209	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0015005-comC|ycfR|bhsA-K12151	NA	NA
BMS020_05233	750			hypothetical protein	ATGAAAAAACAGTCTCTTCATACCTTCGCGGTGGGCCTGCTGCTGGCCGCCGCCAGCGGTACCGCACTGGCGAGTAGCAATAAAACCGTGGTGCTGGTGCACGGCGCTTTTGCCGACGGCAGCAGCTGGAACCAGGTGATCGACAGACTGCAACGCCAGCATACCGAGGTCATTGCCGTTCAGCTGCCGCTCAACTCGCTGAAAGAGGATGTCGCCGCAACCCAGCGCTCCATCGCCCGGGCCCACGGGGATGTGGTGCTGGTAGGCCACTCCTGGGGCGGGACGGTGATCAGCGAGGCGGGTAACGCTGCGCGGGTCAAATCGCTGGTTTACGTGGCGGCGTTTGCCCCGGACTCGGGCCAGTCGACTGCGGATCTGGCGGGGAGCTACCCTGCCCCACCGGGCAGCGCAGGTATTGCTAAAACCGCAGAGGGTTTTCTCTGGTTACCTGAAAAATCGGTACGCCAGGACTTTGCGCCAGATATTAAGGCTGCTGAGCAAAACAGGCTGATCGCCACCCAGGGCCCGATCCGCGCGGAGGCCTTTACCGAAAAGGTCACGCATGCGGCCTGGCATGATAAGCCGAGCTGGTATGTGGTCAGCAAGAATGACCGGATGATCAATCCGGATCTGGAGCGTTCGATGGCGAAGGCGATTGATGCGAAAACCACTGAGGTGGCGGCAAGCCATGTGTCGATGGTGAGCCAACCGGAGGAGATTGCCCGGGTGATTGAGCAAGCGGTGAAATGA	MKKQSLHTFAVGLLLAAASGTALASSNKTVVLVHGAFADGSSWNQVIDRLQRQHTEVIAVQLPLNSLKEDVAATQRSIARAHGDVVLVGHSWGGTVISEAGNAARVKSLVYVAAFAPDSGQSTADLAGSYPAPPGSAGIAKTAEGFLWLPEKSVRQDFAPDIKAAEQNRLIATQGPIRAEAFTEKVTHAAWHDKPSWYVVSKNDRMINPDLERSMAKAIDAKTTEVAASHVSMVSQPEEIARVIEQAVK				NA	NA	NA	NA	NA
BMS020_05234	174			hypothetical protein	ATGAAAGACCGTAGTCACGGCGAGGCAATGGAAGAGCTTATCCACGCCGAACCGTCTTATATGGCGAAGCTGCTGGCCGAGGTTGTTCATGATGGCAATGCGGATGAGTTGGCAATCATGGAGCAGCAGATGTCGGGTGCTTTTGCCATGAGAGAAGTTAACCCGGCGTCATGA	MKDRSHGEAMEELIHAEPSYMAKLLAEVVHDGNADELAIMEQQMSGAFAMREVNPAS				NA	NA	NA	NA	NA
BMS020_05235	1752			hypothetical protein	ATGATAAAAAGAATAGATAAAATCGCCATAACTAATGTTAAGGGAATCGAAAACTCTGTTTTTGATGTTCAGCTTATTCCAAACAAGCCGACACTCGTTGTAGCTCCCAACGGTTTCGGAAAAAGCTCCATTACTGCCGCTTTCGGCTCCCTGCGTTCGAAAAAGATGGATTTGGATAAGGATGAATACCACAGGGGCGATGAAGAACGTCATCCATCCCTTAAAATCAGTTATACCATGCAGGATGGGAGCAAGATTGATAAAGAAGCAAATCATACAAAAAATGATCTGGCAGCGACATTTGGCGTTCATGTAATTAATAGCCAGTTGGTTTCAAAAGCAAAAAAACTCAAAATTGCGGGCGCTAACATCGTTACTTCAGCAATTGAAGTCACTCCAGTCGTACTAATCAAAAGTATTCCTCCAAAAGAAAAATTTCGTTACTCCTTCGCAGCAGTAAAAGGTGACTTCGGGAAAAACGGAAAGGCATTGCCAAACATTTCAAGCATTCTCGCCGATAACCGGGTGATGGCCAAAATTTGGAATCAGGTCGATTTTACTAAACAGGGTCAGGCCGGTGTTAATAAGGCTATAAGAGCGCTACAAGATGAGATCAACGCCGGAACTGGAAACTCGGATAAAATCCTTGCCGGCGTTAAGGATGAAACAATACAAGCGGTGTCAGCCATAGACTTCGTTAGCGGCATGTTGTCTGTTTTCGCGGAATCCGGTGTAAACTATTCCTCGCAAATTGAGGCTATTCTCGCAGCCTTACAGATTAGTAATATTCATGCCAGCGACAAGGCCGCCTTTAAAAAGGCAGGAGAGCGCGCTAACTATGTGTTCGAAAAGGCGTCCTATGTTGAGGACTTCTCTGCGCTGAAAGGAACTTGGCATAATATTCAGCCAAAGGAAACAGCGGATGGACTTGTGATTGCCTTTCCGAAGGCAAACCAGATTTCCAACGGAGAACGAGATATCATTTGCTTTGTAGCTCAGCTGAAAAAGGCCAAGCTCCAACTCAAGAAAAACAAGGCCATTATTTTAGTAATTGATGAGATATTTGACTATCTAGACGACGCCAATCTGGTTGCCTGCCAATATTATCTGACACAAATGATTGCGGAAGTGAAATCTGACGGTCGCCAAATTTTTCCATTAATTATGACTCACTTAAATCCTGGATTCTTCAGGAATTTTACTTTTAGCGATCAAAAAGTTTGCTATCTAAACAAAATTTCGGTCTCGGACAAAGCGGTCGAAAGCATAATCTCTAAGAGAGATGACCCCTCCATATCGGACGCAATTTCTAAGCACTTTCTGCATTTTCACTCGGACGACATGGACCTATCTAACGAGTTTAAGAACCTTGGGCTCCCGGCTGATCTGGCCACAGCGTCCCAGTTTTCAGTGCATTGTGCTAGCCATGTGCAGAGATATGTTGAAGGTAAAGGTTTCGATCCCCTTGCAGTTTGCAGTGGCGTGCGTCGAAAGGTAGAGCAATTAATCTTCGCTTCATTAGCGGAAGAGTCTCGCGAAGAGTTTTTATCGACACACAAAACCGTCAACAAATTACAATTCGCAGAGTCTGTGGGAACTACCGTTCCTGAAGTCTATTTTTTGCTGGCTGTAATTTATAATGATGCGATGCATGTAAGGCCCAACCAAGATAATTTTTCTGGATTAGGAACAAAACTGTCTAACCTAACCATCAAGCACATGATTTCCACAATGATTCAGCCCGACGCCTAA	MIKRIDKIAITNVKGIENSVFDVQLIPNKPTLVVAPNGFGKSSITAAFGSLRSKKMDLDKDEYHRGDEERHPSLKISYTMQDGSKIDKEANHTKNDLAATFGVHVINSQLVSKAKKLKIAGANIVTSAIEVTPVVLIKSIPPKEKFRYSFAAVKGDFGKNGKALPNISSILADNRVMAKIWNQVDFTKQGQAGVNKAIRALQDEINAGTGNSDKILAGVKDETIQAVSAIDFVSGMLSVFAESGVNYSSQIEAILAALQISNIHASDKAAFKKAGERANYVFEKASYVEDFSALKGTWHNIQPKETADGLVIAFPKANQISNGERDIICFVAQLKKAKLQLKKNKAIILVIDEIFDYLDDANLVACQYYLTQMIAEVKSDGRQIFPLIMTHLNPGFFRNFTFSDQKVCYLNKISVSDKAVESIISKRDDPSISDAISKHFLHFHSDDMDLSNEFKNLGLPADLATASQFSVHCASHVQRYVEGKGFDPLAVCSGVRRKVEQLIFASLAEESREEFLSTHKTVNKLQFAESVGTTVPEVYFLLAVIYNDAMHVRPNQDNFSGLGTKLSNLTIKHMISTMIQPDA				NA	NA	NA	NA	NA
BMS020_05236	1005			hypothetical protein	ATGTTTGAAGAAACAATCCGCGCACTAAAAAAGCTTGGCGACGAAAAATCTACCGTCGCATTTTCCACAGACGATAGCGATTACTTTGATCGCGAGTGTCCCGCACCAGAATGCTTAGCTCAGTTCAAGGTTCTGATGGAAGATTGGAAGTCTAAGGTAAGGGATGAGGAGGTCTTTTGTCCGTTCTGCGGTCATACCGCTGATGCTCAGAAGTGGTGGACGCAGGAACAGCTGGATCATGCGCGGGACGTTGCTCTGGCGAAGGTTAAGGCGACTTTAGGTGGTGCACTTCGCCTTGACGCACAGAGATTCAATCAGAGGCAGCCCAAGGGGGGATTCATCTCGATGAGCATGAAGGTGAACAGCATACCTCAGCATGTCCCGATCCCCTATGCTGCGGCGGCACCCATGCGTCTCAAGATTGCCTGTGGAGAATGCGGATGTCGGTATGCCGTTGTCGGGGCGGCGTATTTCTGTCCGTCTTGTGGGGCAAACGCTGCAGAGCTTGTCTTCGAACTCACTGCCCAAGGCATCCGGCAGTCGCTTGAAGCGGTTGACGCCATTAGAGCCGCTATCTCGGACGCAGACACTGCTGAGAACACGTGCCGTCTGATCGTTGAGAGCGCTTTGCAGAACTCAGTCACGGCATTTCAGAGGGTTGCAGAAGCGCTTCACGCGCGCATAGCCCCGACGGTGAAGACACGACGCAATGCATTTCAGAATCTTTCCGAGGGCTCAGCTCTTTGGGAGGCCGCGATAGGGGGAGGTTACGATAAGCATCTTACCACCGTCGAGATGAAACAACTGACAACGGCCTTCCAACAACGTCATCTGCTTGCTCATACACAGGGTGTTGTCGACGATGACTACATCCGGAAAACCGGTGACACACGATACAAATTAGGACAGCGGTTGGTGATCAAGCGTGAGGCTGTGGCTGAAGCGCTTAATCTAATCGAGCAATTGACGCGTGGCATCCGTCAGGACGCCAAGGATAAAGGGTGA	MFEETIRALKKLGDEKSTVAFSTDDSDYFDRECPAPECLAQFKVLMEDWKSKVRDEEVFCPFCGHTADAQKWWTQEQLDHARDVALAKVKATLGGALRLDAQRFNQRQPKGGFISMSMKVNSIPQHVPIPYAAAAPMRLKIACGECGCRYAVVGAAYFCPSCGANAAELVFELTAQGIRQSLEAVDAIRAAISDADTAENTCRLIVESALQNSVTAFQRVAEALHARIAPTVKTRRNAFQNLSEGSALWEAAIGGGYDKHLTTVEMKQLTTAFQQRHLLAHTQGVVDDDYIRKTGDTRYKLGQRLVIKREAVAEALNLIEQLTRGIRQDAKDKG				NA	NA	NA	NA	NA
BMS020_05237	402			hypothetical protein	ATGTCTGAGATAACCGTGCCAACCAGTCATGTTTCGCTCTGCTCAAATTGCTTCACTGATGAAGGGCTGCGGATCGACGCTGCAAGACATGGCCTTGAACAACAAGGCGAATGCCCAAATTGCCAAAGCCCGGATGGGAAAAAACTGACCCGAGACCAGATTAAAGGTTTGGCGTGGCGCTTTTTCGTAAGCGGAACCACCGTCCGTTGTGACTACGGCGCAGCGCCAGTGATTCAGTTCAACGAGCACCATTATGGCCAAGGTGACATCGCCCCGTCAACGTGGCTTAAGAATGACGTAAAGCTTATTGAGGAGGTCGCTAAAATTGGATTTTTCTATTACGGCCCTCGATGGTGGATGGTCGGTGAAGTCGAGCCGCTAGCAAATGGCATTAAAAACTGA	MSEITVPTSHVSLCSNCFTDEGLRIDAARHGLEQQGECPNCQSPDGKKLTRDQIKGLAWRFFVSGTTVRCDYGAAPVIQFNEHHYGQGDIAPSTWLKNDVKLIEEVAKIGFFYYGPRWWMVGEVEPLANGIKN				NA	NA	NA	NA	NA
BMS020_05238	1839	rep_2		ATP-dependent DNA helicase Rep	ATGAGGACATGGATAGAAAGCGAAGCGGATATTCAAGTCCGTGCATGCATCGATGGTCATCGTAGTTTTGCGATGATAGCCGGCGCAGGCGCGGGCAAGACTAGTTCACTGGTAGATGCTCTTGGCCGGGTTCGGGATAATGAAGGTAATGTCCTTAGAAAGCATGGTCAACGCATTGCTTGTATTACCTTTACCAAGCGTGCGGTTGAGGTCATCAAGAAAAGATTGGGGTTTGATGAGTTGTACCTAGTTTCGACTCTTCATGGATTTCTGTGGGGCTTGATTAGCCATTTCCACGAAAATATTCGTCAAGCGTTATATGAAAGCCGTATTCCAAATCTTATAGACAAGGCTAGGGAAGATGATAACGGCGGTAACAGCAAAAAGGCACTTAAAGCCCGTGCAAAAATAGAACGACTGACAGAACAGCTTTCCCTTCTCGAAGCAGTCAATCATTTTGACTATTCTGACACTAGCTTCAGTGATTACGAAAAAGGACAGATTGGGCATGATGATGTCATAGAAATTGCAACCTACTTGCTTAAAAATAATCAAACACTTAGACGGATCATTGGCCTGCGTTTCCCTTACATCTTCGTCGACGAAGCACAGGACACATTTGAGGGAATCGTCTCAGGACTCAATCTCGTCTGTGCGGGTGATGAACTTCCTATGATTGGCTATTTTGGTGACCCTTGGCAGCAGATTTATGACCGAAGTGCCGGTGATTTTTCGCCACCAGACAAAGGTAAAGTCATCAAGAAAGCTGAAAACTTTCGCTGTTCTAAAAGTGTTATCCGACTTCTCAATGCTTATCGTGGAGATGTTGAGCAGTATGCTGCTGGCGAAAATGCTGAATGTGAAGGCAGTGTTGAATTTTTGCTAATTAAAGCAGAAGAGCCAACAGAACCACGCAGGCGCTATTCAGAAGAACAGATTGAGCGGGCGCTAGCTCGTATGGATGCTGCAGTCGAAAACTGGGGTTGGGCAGGTCGCGACGATGTCATGAAGCTCTTCCTGGCACGTCAAATGATCGCGCGACGGCTTGGCTTCGCTGATCTCAATCGCCTCTTCACTGGAGACTATGCCTCATCAAGGGCTCAAGATGCTTTTGAGGAAGGAACGCATTTCCTTCTTAAACCATTTCTTTCGACGATTTGCCCTCTCATAACAGCTCAAAGCCAAGGTGACGATCGAAAAATTATTAATCTACTTCGTAGAGATAGTCCTGCTTTCGCGAGCAATGGATTAAATGCGGAAAAGTCACTGAAAGTGATGATTGAGACTTCGAGGTCTTTGGTTAAGCAGTTACATGCTTTGTGGGATACCGAAACGATTGGAACGATCCTTCACTTTTGCGTCGAGATGCAGATAATCCAGCCCTCAGAAAGATTGAGTGAGCATCTTGAACGTCCTCCACGTACTGAGCCTTTCAGTGAGGAGCTTCACAGTTTCGACAAAGGAGACTGGCTCGCAGACTCATTTTTTAAAATGGCCACAGGGGGAGTCTCCCGCTATTTCGAATATCTTAACAACAATACCGCCTATAGCACTCAACATGGAGTAAAGGGCGAGGAATATCCAAAGGTATTGGTCGTTTATGATGATGTCGAAGCAGCATGGAACCAATACAGCTTTAGTAAAACCCTTACTCCTCTCACCGCTGGGGTGCCCTCTGATCGGCAACGCTCTGTAACTCAGAAGCTCGTGTATGTCTCGTTTTCCCGTGCTGAGGAGGATCTACGTATAGTACTTTTCACAGCTAATCCAGAGGGAGCTCAAGCTGAACTAATTGAAAGTAAACTATTGTCGCCTGATCAAATACGAATTATGGCCTGA	MRTWIESEADIQVRACIDGHRSFAMIAGAGAGKTSSLVDALGRVRDNEGNVLRKHGQRIACITFTKRAVEVIKKRLGFDELYLVSTLHGFLWGLISHFHENIRQALYESRIPNLIDKAREDDNGGNSKKALKARAKIERLTEQLSLLEAVNHFDYSDTSFSDYEKGQIGHDDVIEIATYLLKNNQTLRRIIGLRFPYIFVDEAQDTFEGIVSGLNLVCAGDELPMIGYFGDPWQQIYDRSAGDFSPPDKGKVIKKAENFRCSKSVIRLLNAYRGDVEQYAAGENAECEGSVEFLLIKAEEPTEPRRRYSEEQIERALARMDAAVENWGWAGRDDVMKLFLARQMIARRLGFADLNRLFTGDYASSRAQDAFEEGTHFLLKPFLSTICPLITAQSQGDDRKIINLLRRDSPAFASNGLNAEKSLKVMIETSRSLVKQLHALWDTETIGTILHFCVEMQIIQPSERLSEHLERPPRTEPFSEELHSFDKGDWLADSFFKMATGGVSRYFEYLNNNTAYSTQHGVKGEEYPKVLVVYDDVEAAWNQYSFSKTLTPLTAGVPSDRQRSVTQKLVYVSFSRAEEDLRIVLFTANPEGAQAELIESKLLSPDQIRIMA				NA	NA	NA	NA	NA
BMS020_05239	2106			hypothetical protein	ATGAAAGTAAGTAGTGTAGCGATTCGGAACTTCCGTCGATTGGAAAATGTGCAGATTGACATTGAAGAGAAGGAGTCCATTTTTGTTGGTCCCAACAACAGTGGCAAAACTTCTGCCACTGCGGTTTTTCGTTGCTTTCTGGGGGGACGAGATTTCAAGATCTACGACTTTTCTGTCGCCCGGATAGCAGATTTCGACACATTTGGAGCGACCGGAGATGATACGCTCGTCCCCAAAATTAGTCTGGACCTTTGGTTCACTATCGACCCAGAAAGCATCGGTTTTGGTAGAGTTTTCACATTATTGCCAAATCTTTCGGATTTCACGAGTGTAGGGATTAGGCTGTCGTATGAGGTCTCTGAGGTAAGGAAGTTATACGAGAATTACAACGCTGCCTATCCTCCCAAGGAAGATGGAACGCGCTCTAAGTCGCTTTCGCAATATCTATCTATCGACGGAAATCTTGGCCGACATTTTACGGTTTGTTACTACTCACTAGACGAGAAGATTCAGGAGGGAGCACCGTCTGAGATCTTGTCGAGTTATCTTGATCCTGACGAAGGCAAGCGTCTTCTTAAGCAGCTCATACGTGTTGAGTTCGTGGACGCGCAGCGCAACATTAACGATGACAACAGCAGTCGCAGTAATAGGCTCTCTTCGGTATTTGCCACCTTCTACCAAAAGAATCTTGAGCAGGTTGACCATGCCGCTGATGCTCACAGCGTAATCGATGCGAATAACAAACAGCTGACTGATCACTATGCAAAGCAGTTTGCCCCACTGATCAATCTCATCAAGCGCCTTGGTGTGCCGTCAATTAATGATCGCGAATTGCAGATTATATCATCGCTTAGCCCCGAGACTGCTCTTCGGGGGAATACCGAATTACTTTATATTGACCCTAGCCGGAAGCATGAACTACCTGAGCTCTATAACGGTCTTGGATTCAAAAATCTAATTTATATGGCCATTCAGGCTCGTCACTTCCATTCTCAATGGGTAATGACCACCGAGAACAGACCTCTGTGCCTGATGATCTTCATTGAAGAACCTGAAGTTCATCTCCATGCTCAGGTACAACAAACTTTTATATCCAACATTTGGCAGGTAATTAATCAGTCCGCTGAGGTGGCTGGAGAACCGAATCTCGTACCGCAACTTGTCATAACCACGCATTCCTCACATATCATGGAGGCTGTGGATTTTGAGAAAGTTCGCTATTTCCAGCGCTGCCATTGTGAGGGTGAAACAGAAGCTGCTGGCATTCGCAATGCGTCAATGGTTCGAAGCCTCCGCGCTTTCCAGCCGAATGTGGAGACAATTGATGGTAAGGTTATTCCACCATCAGAATCGCTAGCCTTCCTTAAACGCTATTTACGTCTTACACACTGCGACCTATTTTTCGCCGATGCTGGCATCCTTGTTGAAGGCGCTGTTGAGAAGTTGTTAATGCCGACCATGATTGAGCGTGCTGCAGAGCGATTACGGACTGTGTATCTCACAGTTTTGGAGGTAGGGGGAGCGTATGCTCACCGTTTCGAGGGTTTGCTTAGTTTCCTTCATATTCCCTATCTAGTTATCACTGACATTGATTCAGTTTCACCTACCGGTTATCCCAAAGCCTGTCGAGCGGATGTTGCTGGAGCAAAAACGTCCAACGCGTCCCTAAAGAAACTTTGTGGGCTGACAACAATTGACCAACTGATCGCATTGACTTGCGCGCAGAAGCAGCACAACGATAAGGATCGTTGCATCGCTTTTCAGACAGATGTTTTGGTCGAGGAAAATGATGCCAGCGAGATGTTGCGTCCGCGCACATTGGAAGAAGCAATTGTATATGAGAATTTTAGGCTACTTCGAACTGGTGCTTTATCTATTGGCATTCCTGTCCGAGCGTCTCTCAGCGACGCTTACCAGGATGTTTACGAAAGGGTTCGGTCGGATAATTTCAAAAAAACTGATTTTGCCATGGACATCTTGGCTTGCGCTGAGCAATGGATTGTCCCTGTATATATTGCCGAAGGGTTGAAATGGCTTGAGTCGCGCCTGTTACCCCCACTACCAGTTGTGGTGGATACAGAAGCCTCTGTCGCGGCGGGAGAATAG	MKVSSVAIRNFRRLENVQIDIEEKESIFVGPNNSGKTSATAVFRCFLGGRDFKIYDFSVARIADFDTFGATGDDTLVPKISLDLWFTIDPESIGFGRVFTLLPNLSDFTSVGIRLSYEVSEVRKLYENYNAAYPPKEDGTRSKSLSQYLSIDGNLGRHFTVCYYSLDEKIQEGAPSEILSSYLDPDEGKRLLKQLIRVEFVDAQRNINDDNSSRSNRLSSVFATFYQKNLEQVDHAADAHSVIDANNKQLTDHYAKQFAPLINLIKRLGVPSINDRELQIISSLSPETALRGNTELLYIDPSRKHELPELYNGLGFKNLIYMAIQARHFHSQWVMTTENRPLCLMIFIEEPEVHLHAQVQQTFISNIWQVINQSAEVAGEPNLVPQLVITTHSSHIMEAVDFEKVRYFQRCHCEGETEAAGIRNASMVRSLRAFQPNVETIDGKVIPPSESLAFLKRYLRLTHCDLFFADAGILVEGAVEKLLMPTMIERAAERLRTVYLTVLEVGGAYAHRFEGLLSFLHIPYLVITDIDSVSPTGYPKACRADVAGAKTSNASLKKLCGLTTIDQLIALTCAQKQHNDKDRCIAFQTDVLVEENDASEMLRPRTLEEAIVYENFRLLRTGALSIGIPVRASLSDAYQDVYERVRSDNFKKTDFAMDILACAEQWIVPVYIAEGLKWLESRLLPPLPVVVDTEASVAAGE				NA	NA	NA	NA	NA
BMS020_05240	438			hypothetical protein	ATGTCCAGAACTCCAGATTCACGGTTACGCCATGAGGGCTTTCGCAAAGCAGAGGCTTCCCTGAGACTTGAAGGAATGGACCCCAATGGTACGCCTCTGTACGAGTCCGTTAAGGCACGTATTATTTCAGGCGAGCTGACGTATGAGCAGGGGCGTTCTGAGATTCTTGCATACTACACAAAAGCAGATACCGCCGGGCCTGTAACAGTGGGAGAAATTCTGACAGAGGAATTTTTAAAACCGCTGAACATGTCAAATGATGAACTGGCGGAAGCTATGGGTATCTGCAAGCAGTATATTGACGATATTATCTGCGGTTTGCGTCGTCTTACAAATGACGATGCTCGCATTCTTGCTGCCATATTTGGGACTGATGAGGACTTCTGGAGTAATCTGCAGAAGTTGCAAGATCATAGGGAAAACGACGTAAGTAATTAA	MSRTPDSRLRHEGFRKAEASLRLEGMDPNGTPLYESVKARIISGELTYEQGRSEILAYYTKADTAGPVTVGEILTEEFLKPLNMSNDELAEAMGICKQYIDDIICGLRRLTNDDARILAAIFGTDEDFWSNLQKLQDHRENDVSN	PGPT0027585_88	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HigB-HigA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027585-antitoxin_higA_1-K21498	NA	NA
BMS020_05241	1392			hypothetical protein	ATGAAAATAGTAAGTAAGCTCACCTTTTTAGGTATCATACTTTTCTTTTCTATAAATGCCTATGCTGGTCAATTAGATAGTAGCGGGCTACTTGATACTTTATTAGATAAGTTTCAACAAGTAGCCAGTACATGGACAACAGTAATTGCTGACTATGCAAATTGGCTCTTCTGGGGGCTGGTATTAATAAGTATGGTTTGGACATTTGGTATGATGGCGATGCATGGGGAAGGGTTGACAGGCGTACTTGCTGAAATAGTTCGCTTTTTTGCCGTCATTGGTTTTTTTTATTATCTTTTAATCAACGGCCCATCCATATCGCAATCCATAATTAATTCAATGAGACAACTTGCAGCAAACGCTTTAGGAATAAGTACTGGTATTTCGCCCTCAAGCATAGTTGATATGGCGTTTGCGATATTAACAAAGGTCAGTTCAGTCGCATCAATTTGGTCGCCAATGATATCCACCATTATGATAACAGTCGCGATAATCGTTTTGGTGGTAATGTCCCTTATAGCGATAAATATGCTAATCATGTTGGTTTCTGCATGGGTGTTATGTTATGCAGGAGTTATATTGCTTGGGTTTGGTGGTTCGAAATGGACCTCTGATATATCAATTAATTACTTACGAACTGTTTTATCGATTGGCATTCAATTATTCACGATGACATTAATTATTGGTATTGGACAATCATTTATAGATCAATATTTTTCTCTTATTAAAGATGATGTTCCTGATCTTAATAGTCTTATCGTTTTGCTTCTGGCGTCAATTATCTTATTAGTATTAACGAATAAGCTACCACTGTTGTTATCAGGTGTTGTAGGAGGGGCTTCCTTACAAGGGATTGGTGGGTTTGGGGCGGGTATGATTACCGGCGCTGCCGCTACTGCCATCAGCGGTGCTGGAGCAATGGCGATGGGGGCATCAGCTCATGTCAGCGGCGGAGCCTCTGCATTAAAGGCAGCGTTCGAGTCTGCGCAATCTGCCATGGCCGAAGAATCTGGTTCTGGCGGTGGAGGCGGTTCCGGTGGAGGATTTGGCGGCGGGGAAGATACCGGTTCCGTAGATACTTCTGGCGACCAACCCTCAGGCGGTTCCGGTGGTTCGTCTGCTGGGAGCAGTTCAGGTAGCGCCAGCGGAGGAAGTCAGGGGTTTGCTTCATTCTCACGAGCTGGCCGTATGGCAAGCCATATGGGAAGCATTATGGCTAACGGCGCTGCTGAGTACCAGGCAATGAAGCGAAGTGGCAATTCTTCTCGTGTCCAACAGACTATTGGAGGGGAGTTGGCGGCTCAGATACGTAAACAAACAGCTACTCGTCGGGATAACCGCGAACATGATGATTTTGCCGGAGATAGCTTATCCGGCAATAATAAATCTTGA	MKIVSKLTFLGIILFFSINAYAGQLDSSGLLDTLLDKFQQVASTWTTVIADYANWLFWGLVLISMVWTFGMMAMHGEGLTGVLAEIVRFFAVIGFFYYLLINGPSISQSIINSMRQLAANALGISTGISPSSIVDMAFAILTKVSSVASIWSPMISTIMITVAIIVLVVMSLIAINMLIMLVSAWVLCYAGVILLGFGGSKWTSDISINYLRTVLSIGIQLFTMTLIIGIGQSFIDQYFSLIKDDVPDLNSLIVLLLASIILLVLTNKLPLLLSGVVGGASLQGIGGFGAGMITGAAATAISGAGAMAMGASAHVSGGASALKAAFESAQSAMAEESGSGGGGGSGGGFGGGEDTGSVDTSGDQPSGGSGGSSAGSSSGSASGGSQGFASFSRAGRMASHMGSIMANGAAEYQAMKRSGNSSRVQQTIGGELAAQIRKQTATRRDNREHDDFAGDSLSGNNKS	PGPT0025455_244	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-TRB_SECRETION_SYSTEM,PGPT0025455-trbL-K07344	NA	NA
BMS020_05242	795			hypothetical protein	ATGGATTTAATTTTCCAAGTGGTTTCATTACAAAGAGGGATTTTAGCCGCTAAAAAAGGTTTAATAGTTCCTTTCGTGGCGTCCGTCATGGCATTACCGGTGAAGGCCGGAATTCCCGTTATTGATGGCACTAATGTGATTCAGACCACAATCAGCGCAGTTAACAACGTTCAGGCTGTGGCTAAACAAATCCAGCAGTACCAGACGCAGCTGCAGCAGTATGAAAACATGCTGCAGAACACCGTAGCACCTGCGGCCTATATCTGGGACCAGGCAAATTCAACAATTAATAAATTGTTGCAGGTGCAGGATACCCTTAATTACTACAAGAATCAGGCCGGGAGTCTCGATGCGTACCTGAACCGATATCAGGATGTTAACTACTACAGGTTATCACCTTGCTTTAACAGTAATGTTGAATGTACCTCGTCTGAAATTAGCGCATTGCGTGAAGCTGAACAGAACAGTTCAGGGGCACGTAAAAAGGCCAATGACGCGCTATTTAAGGTAATTGACGAACAGCAGAACACCCTGCAGAGCGATGCTGATAACCTTGCAGATTTGCAAACTCAGGCAACCGGCTCACAAGGGCAAATGGAAGCTATTCAGGCCGCTACCCAGCTTGCCAGTGCGCAGACAAACCAGTTACTGCAAATCCGCTCGCTTTTGGTAGCTCAACAAAACGCCGCGGCAACACTGGCACAGGCTCAGGCCGATAAAGAAGCCCAACAAATAGCTGCTGATGAGAAAGTATTAGCTGGACAGAACACACCAAGCCCGAAGCGAATTTGGTGA	MDLIFQVVSLQRGILAAKKGLIVPFVASVMALPVKAGIPVIDGTNVIQTTISAVNNVQAVAKQIQQYQTQLQQYENMLQNTVAPAAYIWDQANSTINKLLQVQDTLNYYKNQAGSLDAYLNRYQDVNYYRLSPCFNSNVECTSSEISALREAEQNSSGARKKANDALFKVIDEQQNTLQSDADNLADLQTQATGSQGQMEAIQAATQLASAQTNQLLQIRSLLVAQQNAAATLAQAQADKEAQQIAADEKVLAGQNTPSPKRIW	PGPT0025445_116	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-TRB_SECRETION_SYSTEM,PGPT0025445-trbJ-K20266	NA	NA
BMS020_05244	762			hypothetical protein	ATGATAACTGGTAATAAAGTTACACCTACTAGTACAGCTCTGCAGGCTAGAGTCATTCTGTACCAACCAAGTCAACGTCCCTTGGCGCTGAAGGGACAGTGGATGGAGACTAGTTTTGGTCGTTGTCGTGTTACCGGAAGACTAGGACAACGTCATGCGGATATTGTCGAAACAATGCTCTATGTGGCCGAGAAACGTCGAGAAATTTCTGATGGAGGAATCGAATTATTAGTAGATCCAGCGAAAGTACGCCGAATTCTATCCGATGCACAATACAGTTATGATCGAATTAAAAAACTACTTGTTGATCTACGAGTGGCAACTGTTGAAATAGTAACACCAGATTTAGAAAAACACGGTTATTCCATTCTAGGCGGTTTAATTGACCATGTCGTGCCTTCACCAATGACTAGGCGTAATCCTCTAACTGGTGGTGAACGTAACCTGTGGAGAGTGCGCTTAGGTGTTGCATTAGTAATGTTGTTGAAGCGAGATTTGCATTTTCATCATGATCCAGGCCCCATTGCTCGTCTTCAGCATGGTATTAGCCAAGCAGTTGCACGTCATATATTAACACATAAGCATGATCCTAAAGGCGGCTGGCATATTGATACATTAATTTTAGCTGTCAGTGGGGAAGGTACTAATAATATGACATTGCGTAACTATCGGAGAAGATTAAAAGAAGATAGCAAAAAATTTCTAGCAATTGGTATTGAGATACAAAACTCTAGGATAAAACGAGCTACAACGGCCCGGTAG	MITGNKVTPTSTALQARVILYQPSQRPLALKGQWMETSFGRCRVTGRLGQRHADIVETMLYVAEKRREISDGGIELLVDPAKVRRILSDAQYSYDRIKKLLVDLRVATVEIVTPDLEKHGYSILGGLIDHVVPSPMTRRNPLTGGERNLWRVRLGVALVMLLKRDLHFHHDPGPIARLQHGISQAVARHILTHKHDPKGGWHIDTLILAVSGEGTNNMTLRNYRRRLKEDSKKFLAIGIEIQNSRIKRATTAR				NA	NA	NA	NA	NA
BMS020_05245	858	repA_1		Regulatory protein RepA	ATGTCATTGAACATAATGGAAGCATTTGAAGCTAAGCCACAACCAATTGATTACGTCTTACCTAATTTGGCTATTGGTACTATCGGAGCGATTGTTTCTCCGGGAGGCGCTGGAAAGTCAATGCTGGCATTACAATTGGCTGTGCAGATTACTTGTGGTGTAGATCTTTTAAACTTTGGTGAATATCCGACTGGGTTGGTGGCATATTTACCTGTGGAGGACTCTGAAACCATCGTTCACCATCGTTTATATGCTTTGGGAAAATATCTAACAGCACGTCAGCAGCAGATTGTAGCTGATAAGCTACTGGTCGAACCTTTGGTAGGGAAGTGTCCAAATATTTTCTTGCCGGATTGGAGTAACTTGATCAATGAAGTTTCAAAAGGTAGACGTTTAATAATTTTGGATACTCTTCGCCGTTTCCACCAGGAGGATGAGAATAATAGCGCAGCAATGTCCAAAGTCATTGGAAAGCTAGAAGGTATTGCTGCTGATACTGGATGTTCGATTATATTTCTACACCATTCAAACAAAGGCGCTGCCACGATGGGGGTTGGTGATATACAGCAGGCAAGCAGGGGTAGTAGCGTCCTGGTTGATAATATACGGTGGCAATCTTATCTGGCGGGCATGACCGCCTTGGAAGCGAAGACGTATGGTATTTCTGATGATGTTCGAGGTCAATTTGTTAGATTTGGAATAAATAAAGCAAATTATGGAGAACGTGCTCCAGATCGTTGGTTACAGAGACATGAGGGGGGAGTATTAAGGATAACGCAACTCAAATCGAAGAATAAAAAACAAATAGCAAAAGAATGTATGTCTTCATTGAGTGGTGCAGAAAATGATAACTGGTAA	MSLNIMEAFEAKPQPIDYVLPNLAIGTIGAIVSPGGAGKSMLALQLAVQITCGVDLLNFGEYPTGLVAYLPVEDSETIVHHRLYALGKYLTARQQQIVADKLLVEPLVGKCPNIFLPDWSNLINEVSKGRRLIILDTLRRFHQEDENNSAAMSKVIGKLEGIAADTGCSIIFLHHSNKGAATMGVGDIQQASRGSSVLVDNIRWQSYLAGMTALEAKTYGISDDVRGQFVRFGINKANYGERAPDRWLQRHEGGVLRITQLKSKNKKQIAKECMSSLSGAENDNW				NA	NA	NA	NA	NA
BMS020_05246	963			hypothetical protein	ATGAAAATTACTATCTGGGAAGGCTGTGACCTCACAGTTGCAGCTGCAATTAAATTATTTGTAGAGCGTAGTTATCCGTACTCCATATTTTCACGGAGGTATCCAATACTGCGTCTCATACAGGAAGTTATTGATCCAGCAGTAGCTGCTTATGTAAATTCCCTGCCACCAAGTCATAAAGACTACATTTCTGGAGTAAATCTAGGATTTAGTGATGTACTTAAAAAAGTGGGCTTAAACGTCGTAGTACAGGCACAAAGACTTCTTTTGCGTAATTTCGTTCTGACTTTAGATCAACAAACTTCTCTTGATAAATGCTTTACCGCTACGATTGAGTCTCTTATTGAATTAGTCAGTGAGTGCGCATCCAAGCGGCCGAAGAAATCCTCTCCTGCAAAAGGAGTAACTATAAATTCACAGCGTAAGCTCGGTTATTGCGAGTTCTGCGGTAATCTAACCGAATTTTCCAAGTTGATCAGTGAGATATCAGAATTTGTTGCTAACGATAATGAGTTCCCCGTTCATGAAAAACAGGTCCTTAGTCATCGATATTGTTCTGACCATAGGCCCAAACTCACCAATGGTCTATGGAATCCCAAATACAGGCAAGGAAAGCGGTCTCTCGAACAGTTCAATAAAGAATTAATAAGGCTTAGACGGCAATGCGCTAAACCGCATAAAGCTAACGCAAACACAGGGGATATATTGATTGATACCTATTTTCATGAGTGGATGCAGGGTCAAACTTTAACCCCAGCAGATCTAGATAAACTTAGGAATATTGCCAGACGAATGGTTGACTCCAAATTCACTGATACTAAGAAAAAAATAATCATATTAAAACACCAAGGTTTTAACCAGTTTGAAACCGCACAGGTTTTAGAAAAAAATCACTACACACCTATGACAAAGCAGGCTGTGTCCAAGGCCTTAGCGTCTGTGAGGAAAGAATTTTATATTTAA	MKITIWEGCDLTVAAAIKLFVERSYPYSIFSRRYPILRLIQEVIDPAVAAYVNSLPPSHKDYISGVNLGFSDVLKKVGLNVVVQAQRLLLRNFVLTLDQQTSLDKCFTATIESLIELVSECASKRPKKSSPAKGVTINSQRKLGYCEFCGNLTEFSKLISEISEFVANDNEFPVHEKQVLSHRYCSDHRPKLTNGLWNPKYRQGKRSLEQFNKELIRLRRQCAKPHKANANTGDILIDTYFHEWMQGQTLTPADLDKLRNIARRMVDSKFTDTKKKIIILKHQGFNQFETAQVLEKNHYTPMTKQAVSKALASVRKEFYI				NA	NA	NA	NA	NA
BMS020_05247	630			hypothetical protein	GTGCCTGAGTTGTCTGTAATTATACAATGGATGAATCAATACCCTAAGACCGGCTGGCTATTGCTGTGTATCTATATTGCACTCGGTGTAGTTCGTCACAGAGTAATTAATGCTGAATCTGGAAGTGTATTTCGTGGACTACTCAATCTTAGGAAGCGCCGGCTAGAGCAAATGCTGACACAGCCATATTTGAATAAAAATGCGGTCCGTCTGGCAAAGCGTGAGCTTCGTCAGCGCAGCCTTTATCGGCTCACAGGCTTGTATAATTATCGGCTGCAGGATTTGGCTGTAATAATGTGTGATCGTTATGGGTTGCGGGCTGGTTATCTCAAGCCGTGGCGTAACTGGCTCGAAGAACGGGATGGACGGATTGTGTTCAACAGGAAATGGCATTGTTTTCGCTGGCGTCTTTTTCTGGTAGGTCAGATTGTAAACACAGTTCTACTAATATTATTCATTATGTATATAGTTTCTCATTCTTCGGCCGAAATGATCGCACCGCTTATGTTACTCTTCATGCTTGTATGGTGGTTTCCTTGGCTAATGATCACCTCGGTACCTACCCCTAGGTGGACTCGCGAAATGGAAGTCTATCTTGAGAAATTTAACGCTGAACAGACCATGGTTTAA	MPELSVIIQWMNQYPKTGWLLLCIYIALGVVRHRVINAESGSVFRGLLNLRKRRLEQMLTQPYLNKNAVRLAKRELRQRSLYRLTGLYNYRLQDLAVIMCDRYGLRAGYLKPWRNWLEERDGRIVFNRKWHCFRWRLFLVGQIVNTVLLILFIMYIVSHSSAEMIAPLMLLFMLVWWFPWLMITSVPTPRWTREMEVYLEKFNAEQTMV				NA	NA	NA	NA	NA
BMS020_05248	1191	intA_2	COG0582	Prophage integrase IntA	ATGTTGACTGACACTAGGCTGCGTCACCTTAAGCCGAAGGAGAAACTCTATAAAGTTAATGACCGTGATGGTCTGTATGTTGCGGTCACTCCGGCTGGAACTATTTCATTTCGTTATAACTATTCAATAAACGGAAGACAGGAGACCGTTACTTTTGGCCGCTATGGTGTTGGAGGGATCACGCTTGCAGAAGCGCGTGAACGGCTCAATGAAGCTAAAAAAATGGTTGCCAGTGGAAGATCGCCAGCGAGGGAAAAAGCCAGAGATAAAGCTCGTATCAAAGATGCGGAGACTTTTGGTGCATGGGCTGAGAAATGGTTACGCGGTTATCAAATGGCTGAATCGACGCGTGATATGCGGCGTTCGGTATATCAAAGGGAGTTGAAGTCAAAATTTGCGCAGCAGAAATTGACCGAGATTACACATGAAGACTTACGCGCATTAACCGATAACATTGTCGAGAGAGGGGCACCGGCGACAGCTGTGCACGCCAGAGAGATTGTATTGCAAGTCTATCGCTGGGCTATTGAGCGCGGTCAGAAGGTTGAGAATCCCGCTGATCTGGTACGGCCTGCAAGCATAGCGAAATTTGAGCCTCGTGACAGGGCATTGACGCCAGTTGAAATTGGTCTGATGTATCGGTACATGGAACGGGTAGGAACGACGCCATCAATCAGAGCAGCGGTTAAACTTTTGCTGTTAACGATGGTACGTAAAAGTGAGCTTACTAACGCAACCTGGAACGAGATCAATTTTAGTGAGGCATTATGGACGATACCAAAGGAGAGGATGAAACGACGTAATCCACATTTGGTTTTTCTTTCCAGACAGGCAATGGATATTATGATTGCTCTCAAAACCTTTGCCGGTAGCTCTGATTTTATCCTTCCTTCGCGGTACGATTCCGATGCGCCAATGAGTAGCGCTACTTTAAACCGGGTTTTGACACTGACGTATCGTCTGGCTCAGAAAGAAGGGGACTTGTTACCTAAGTTTGGTCCCCATGACTTACGGCGTACTGCCAGCACCTTGCTACATGAGGCCGGGTACAATACTGACTGGATTGAGAAGTGCCTTGCCCATGAACAAAAGGGGGTACGAGCTGTTTATAACAAGGCTGAATATCGTGAGCAGAGGGCCGAGATGCTACAAGATTGGGCGAATATGATTGATGAATGGACTAGTAAGTAG	MLTDTRLRHLKPKEKLYKVNDRDGLYVAVTPAGTISFRYNYSINGRQETVTFGRYGVGGITLAEARERLNEAKKMVASGRSPAREKARDKARIKDAETFGAWAEKWLRGYQMAESTRDMRRSVYQRELKSKFAQQKLTEITHEDLRALTDNIVERGAPATAVHAREIVLQVYRWAIERGQKVENPADLVRPASIAKFEPRDRALTPVEIGLMYRYMERVGTTPSIRAAVKLLLLTMVRKSELTNATWNEINFSEALWTIPKERMKRRNPHLVFLSRQAMDIMIALKTFAGSSDFILPSRYDSDAPMSSATLNRVLTLTYRLAQKEGDLLPKFGPHDLRRTASTLLHEAGYNTDWIEKCLAHEQKGVRAVYNKAEYREQRAEMLQDWANMIDEWTSK				NA	NA	NA	NA	NA
BMS020_05249	1578	guaA_1	COG0518	GMP synthase [glutamine-hydrolyzing]	ATGACGGAAAACATTCATAAACATCGCATTCTCATTCTCGACTTCGGGTCACAGTATACTCAGCTGGTGGCGCGTCGCGTGCGTGAGCTGGGCGTCTACTGTGAGCTGTGGGCATGGGATGTCACGGAAGCACAGATCCGCGAATTTAATCCAAGCGGCATCATTCTTTCCGGCGGCCCGGAAAGCACCACCGAAGAGAACAGCCCGCGCGCGCCGCAGTATGTGTTCGAAGCCGGCGTGCCGGTATTTGGCGTCTGCTACGGTATGCAGACCATGGCGATGCAGTTGGGCGGCCATGTAGAAGGCTCTAACGAGCGTGAGTTTGGCTACGCGCAGGTTGAAGTGGTTAACGACAGCGCGCTGGTGCACGGTATCGAAGACTCTCTGACCGCGGACGGCAAACCGTTGCTGGACGTGTGGATGAGCCACGGCGACAAAGTCACCGCCATCCCGTCTGACTTCGTCACCGTCGCCAGCACCGACAACTGCCCGTTCGCCATTATGGCCAACGAAGAAAAACGCTTCTACGGCGTGCAGTTCCACCCGGAAGTGACCCATACCCGTCAGGGGATGCGTATGCTGGAGCGCTTCGTGCGCGACATCTGCCAGTGCGAAGCCCTGTGGACCCCGGCGAAAATCATCGACGACGCCGTTGAGCGTATCCGCCAGCAGGTTGGCGATGACAAAGTGATCCTCGGCCTCTCCGGCGGCGTGGACTCTTCGGTGACCGCGATGCTGCTGCACCGCGCCATCGGCAAAAACCTGACCTGCGTATTCGTGGATAACGGTCTCCTGCGTCTGAACGAAGCCCAGCAGGTGATGGACATGTTCGGCGACCACTTTGGCCTGAACATTGTTCACGTCGAAGGCGAGCAGCGCTTCCTCGACGCGCTGAAAGGCGAGAACGATCCGGAAGCGAAACGTAAGATTATCGGCCGCGTCTTCGTGGAAGTGTTCGACGAAGAAGCGCTGAAGCTGGACGACGTCAAATGGCTGGCGCAGGGCACCATCTACCCTGACGTTATCGAATCTGCCGCTTCCGCTACCGGTAAAGCGCACGTCATCAAATCTCACCACAACGTGGGCGGCCTGCCGAAAGAGATGAAGATGGGGCTGGTTGAGCCGCTGCGCGAGCTGTTCAAAGACGAAGTGCGTAAGATCGGTCTGGAGCTGGGTCTGCCGTACGATATGCTCTACCGTCATCCGTTCCCGGGTCCGGGCCTCGGCGTGCGCGTGCTGGGCGAAGTGAAGAAAGAGTACTGCGACCTGCTGCGTCGCGCCGACGCTATCTTCATCGAAGAGTTGCACAAAGCTGACCTGTACAACAAAGTGAGCCAGGCGTTCACCGTGTTCCTGCCGGTTCGCTCCGTCGGCGTGATGGGCGATGGCCGTAAATACGACTGGGTGGTTTCCCTGCGTGCGGTGGAAACCATCGACTTCATGACCGCGCACTGGGCGCACCTGCCGTATGATTTCCTCGGCCGCGTCTCTAACCGCATTATCAATGAAGTGAACGGTATCTCCCGCGTGGTGTATGACATCAGCGGTAAGCCGCCAGCAACGATCGAGTGGGAATGA	MTENIHKHRILILDFGSQYTQLVARRVRELGVYCELWAWDVTEAQIREFNPSGIILSGGPESTTEENSPRAPQYVFEAGVPVFGVCYGMQTMAMQLGGHVEGSNEREFGYAQVEVVNDSALVHGIEDSLTADGKPLLDVWMSHGDKVTAIPSDFVTVASTDNCPFAIMANEEKRFYGVQFHPEVTHTRQGMRMLERFVRDICQCEALWTPAKIIDDAVERIRQQVGDDKVILGLSGGVDSSVTAMLLHRAIGKNLTCVFVDNGLLRLNEAQQVMDMFGDHFGLNIVHVEGEQRFLDALKGENDPEAKRKIIGRVFVEVFDEEALKLDDVKWLAQGTIYPDVIESAASATGKAHVIKSHHNVGGLPKEMKMGLVEPLRELFKDEVRKIGLELGLPYDMLYRHPFPGPGLGVRVLGEVKKEYCDLLRRADAIFIEELHKADLYNKVSQAFTVFLPVRSVGVMGDGRKYDWVVSLRAVETIDFMTAHWAHLPYDFLGRVSNRIINEVNGISRVVYDISGKPPATIEWE	PGPT0021580_1734	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
BMS020_05250	1467	guaB_1	COG0516	Inosine-5'-monophosphate dehydrogenase	ATGCTACGTATCGCTAAAGAAGCCCTGACGTTTGACGACGTCCTCCTCGTTCCCGCTCATTCTACCGTTCTGCCGAATACAGCCGATCTCAGCACTCAGCTGACGAAAACCATTCGTCTGAATATTCCTATGCTCTCCGCAGCCATGGATACCGTAACGGAAGCGCGTCTGGCTATTGCCCTGGCACAGGAAGGCGGCATCGGCTTTATTCACAAAAACATGTCCATCGAGCGCCAGGCGGAAGAAGTTCGCCGCGTGAAGAAACATGAGTCCGGCGTGGTCACCGACCCGCAGACCGTTCTGCCGACCACCACCCTGCGTGAAGTGAAAGAGCTGACCGAGCGTAACGGCTTCGCCGGCTACCCGGTGGTTACCGAAGAGAACGAGCTGGTCGGCATCATCACTGGCCGCGACGTGCGTTTCGTCACCGATCTGAACCAGCCGGTCAGCGTCTACATGACCCCGAAAGAGCGTCTGGTTACCGTTCGTGAAGGCGAAAGCCGTGAAGTGGTCTTTGCGAAGATGCACGAAAAACGCGTTGAGAAGGCGCTGGTTGTGGATGAGAGCTTCCACCTGCGCGGGATGATCACCGTAAAAGACTTCCAGAAAGCGGAACGTAAACCGAATGCCTGTAAAGATGAGCAGGGCCGTCTGCGCGTAGGCGCTGCGGTCGGCGCCGGCGCGGGCAACGAAGAGCGCGTTGACGCGCTGGTGGCTGCGGGCGTTGACGTCCTGCTGATCGACTCCTCTCACGGCCACTCCGAAGGCGTTCTGCAACGTATTCGTGAAACGCGCGCGAAATACCCGGACCTGCAAATCATCGGCGGCAACGTCGCCACTGGCGCAGGCGCGCGCGCGCTGGCGGAAGCCGGCTGCAGCGCGGTGAAAGTGGGCATCGGCCCGGGCTCCATCTGTACTACCCGTATCGTGACCGGCGTAGGCGTGCCGCAGATCACCGCGGTTTCCGACGCGGTGGAAGCGCTGGAAGGCACCGGTATTCCGGTTATCGCCGACGGCGGTATCCGTTTCTCCGGCGACATCGCTAAAGCGATCGCGGCCGGTGCGGCGGCAGTGATGGTCGGCTCCATGCTGGCCGGTACCGAAGAATCCCCGGGCGAAATCGAACTCTACCAGGGCCGCTCTTACAAATCCTATCGCGGGATGGGTTCCCTCGGCGCGATGTCGAAAGGCTCCTCTGACCGCTACTTCCAGAGCGATAACGCCGCTGACAAACTGGTGCCGGAAGGTATCGAAGGCCGCGTGGCCTATAAAGGCCGCCTGAAAGAGATCATTCACCAGCAGATGGGCGGCCTGCGCTCCTGTATGGGTCTGACCGGCTGTGGTACCATTGACCTGCTGCGTACCAAAGCTGAATTCGTACGCATCAGCGGTGCGGGCATTCAGGAAAGCCACGTTCACGACGTGACCATCACCAAAGAGTCCCCGAACTACCGTCTGGGCTCCTGA	MLRIAKEALTFDDVLLVPAHSTVLPNTADLSTQLTKTIRLNIPMLSAAMDTVTEARLAIALAQEGGIGFIHKNMSIERQAEEVRRVKKHESGVVTDPQTVLPTTTLREVKELTERNGFAGYPVVTEENELVGIITGRDVRFVTDLNQPVSVYMTPKERLVTVREGESREVVFAKMHEKRVEKALVVDESFHLRGMITVKDFQKAERKPNACKDEQGRLRVGAAVGAGAGNEERVDALVAAGVDVLLIDSSHGHSEGVLQRIRETRAKYPDLQIIGGNVATGAGARALAEAGCSAVKVGIGPGSICTTRIVTGVGVPQITAVSDAVEALEGTGIPVIADGGIRFSGDIAKAIAAGAAAVMVGSMLAGTEESPGEIELYQGRSYKSYRGMGSLGAMSKGSSDRYFQSDNAADKLVPEGIEGRVAYKGRLKEIIHQQMGGLRSCMGLTGCGTIDLLRTKAEFVRISGAGIQESHVHDVTITKESPNYRLGS	PGPT0021445_801	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088	NA	NA
BMS020_05251	1392	xseA_1	COG1570	Exodeoxyribonuclease 7 large subunit	ATGTTACCCTCTCAATCCCCCGCAATTTTTACCGTTAGCCGCCTCAATCAGACGGTGCGTCTGCTGCTTGAGCGCGAAATGGGCCAGGTCTGGATCAGCGGCGAGATCTCTAACTTCAGCCAGCCTTCTTCCGGCCACTGGTACTTCACCTTAAAAGACGATAACGCCCAGGTGCGCTGCGCGATGTTCCGCAACAGCAACCGCCGGGTCACGTTTCGCCCACAGCATGGGCAGCAGGTGCTGGTTCGCGCCAACATCACCCTGTATGAGCCGCGCGGCGACTACCAGATTATCGTCGAAAGCATGCAGCCCGCCGGCGAAGGGTTGCTGCAGCAGAAGTATGAGCAACTGAAAGCGCAGTTAACCGCGGAAGGGCTGTTCGATCAAAAACATAAGCAGGCGCTCCCCTCCCCCGCCCGCTGCGTCGGGGTCATCACCTCGAAAACCGGCGCCGCGCTGCACGATATTCTTCATGTCCTCAGACGCCGCGACCCCGGGCTGCCGGTGATCGTCTACCCGACCGCGGTCCAGGGTGACGATGCCCCCGGGCAGATTGTGCGCGCCATCGCGCTGGCGAACGCGCGTCAGGAGTGTGACGTGCTGATTGTCGGACGCGGCGGCGGTTCGCTGGAGGATCTGTGGAGTTTTAACGATGAGCGGGTGGCGCGCGCTATCTTCGCCAGCCAGATCCCTATCGTCAGCGCCGTCGGCCATGAAACCGACGTCACTATCGCTGATTTTGTTGCCGACCTGCGAGCGCCGACCCCTTCTGCCGCCGCGGAGATCGTCAGCCGTAATCAGCAGGAGCTGCTGCGCCAGCTACAGGCCGGGCAGCAGCGGCTGGAGATGGCGATGGACTATTTCCTCGCCAGTCGCCAGCGCCGTTTTACCCAGTTGTTCCATCGTCTGCAGCAGCAGCACCCGCAGCTGCGGCTGGCTCGCCAGCAGACCGCACTGGAACGCCTGCGCCAGCGGATGCGCATCGCCGTGGAATCGCAGCTTAAACGCGCCGAGCAGCGGCAAAAGCGCACTGTTCAGCGCCTGAATCACTATAACCCGCAGCCGCGTATCCACCGGGCGCAATCGCGCGTCCAGCAGCTGGAATACCGGCTGGCGGAAACGATGCGTGGCCGCCTCAGCGAGCGGCGTGAACGGTTTGGTCACGCGGTGACCCATCTGGAGGCGGTGAGTCCCTTAGCCACCCTGGCGCGCGGCTATAGCGTCACTTCGGTGAGCGACGGCACGGTGTTGAAGCAGACAAAACAGGTCAAAACCGGCGATCTGCTCACCACCCGCCTGAAAGACGGCTGGGTCGAAAGCGAAGTGAGGCAGATTGCGCCGGTGAAAAAAACGCGGGCCAGAAAGCCATCGCCGCCTAAACCAGCGGAATAA	MLPSQSPAIFTVSRLNQTVRLLLEREMGQVWISGEISNFSQPSSGHWYFTLKDDNAQVRCAMFRNSNRRVTFRPQHGQQVLVRANITLYEPRGDYQIIVESMQPAGEGLLQQKYEQLKAQLTAEGLFDQKHKQALPSPARCVGVITSKTGAALHDILHVLRRRDPGLPVIVYPTAVQGDDAPGQIVRAIALANARQECDVLIVGRGGGSLEDLWSFNDERVARAIFASQIPIVSAVGHETDVTIADFVADLRAPTPSAAAEIVSRNQQELLRQLQAGQQRLEMAMDYFLASRQRRFTQLFHRLQQQHPQLRLARQQTALERLRQRMRIAVESQLKRAEQRQKRTVQRLNHYNPQPRIHRAQSRVQQLEYRLAETMRGRLSERRERFGHAVTHLEAVSPLATLARGYSVTSVSDGTVLKQTKQVKTGDLLTTRLKDGWVESEVRQIAPVKKTRARKPSPPKPAE				NA	NA	NA	NA	NA
BMS020_05252	219	yfgJ		putative protein YfgJ	ATGGAACTTGATTGCCCTCTGTGCCACGCGCCGTTAGATGTCAAAGGCAGCAGCGCGCATTGCGCTCAGTGCGAAAGGGTATTTGCCCTTGAGGCGCGCTGCCCGGAATGCCACCAGCCGCTGGAGGTGCTGAAGGCGTGCGGCGCGGTGGATTACTTTTGCCAGCACGGGCACGGCCTGATCTCGAAAAAACGGGTGGAGTTTATTCCGCTGGTTTAG	MELDCPLCHAPLDVKGSSAHCAQCERVFALEARCPECHQPLEVLKACGAVDYFCQHGHGLISKKRVEFIPLV				NA	NA	NA	NA	NA
BMS020_05253	1080			hypothetical protein	ATGCAAATAGGATTTATCGGCCTCGGCGCGGTGGTGGAAACCGCCTATTTACCCGCGCTGCGTCGCCTCGGATACCGTATTGACAGCTGCCAGGGCTATGACCTGGACAGCAGCAGAGCGCTGCCGGGGATCCAGCGCTGCAGTTCGCTGTCGGCGTTGCTGGCCAAACCCCTGGATACGCTCTTTATCACCACGTCATCCCTCCAGCACCTGCCCGTGCTGGAGAGGGCGTTAGCCAGCGCCATTCCCCGCATCGTGGTGGAGAAACCGATAGTGGCCAACCTTGAGCAGGCCGCGCGGCTGCGGGCGCTGCTGGCGCCGGCGGGGGAGGCCGGTCGGGTGCTGGCCCTCGACCACTGGATGGCGCGTGGGTTAGCCCTGAACGCTCTTGCTCCGCCGTGGCAGGCGGAAGAGGAGGGCAGCGGCCTGCCGCCGCCGCACCTTTCAGCGCAGGATATCGCCTGGATAGAAGGCTATTTGCAGGAGCCAAGCGGCTTTAACGCTGCCGGAGAACCGGTCGCGCTTAACTTTGCCACCGGCGAGCTGGATAGCCGGCGGCTGCGTCATCCTGACGGCGTGATCCTCGATATCGGTACCCATGTCTTGGCGATGCTGCGGGAAACGCTGCTCGACTGCGGGGGCGATGTGACGCTGGACCTCGCCGTTCGGGCGGCGAAAGACCCTCTCGGCCGAGATATTGCTCATGGGGATACGGTCACTGCCGAGGGAGAGGCGCATCTGCAGGGACGGCTGGGCGATATCCCGCTGAATATCTGGCTTAACAAATATGCCGGTCCCGCGGGCGGGCAAAAGGGAATGCGGATAGGGCTGCGGGACGGGCGACTGCTTGCCCTCGATCGCGCCCCTGATGGCGAGGTGGCGACGCTACAGGACGGCGAGCGGATCCAGCGCTGGACCCGGCCCGGAGCGATCTATGCGCACTGTCTCGATGAGCAGATCCTTGGCGCGGAGAATGTGTTTACCCGGGCGCCCGAAAGCGTGGCCGGGCTGACGCGGCGTCGGCTTGAGGAAGTGGAATGGCTGCTCAGGTTGCAGCAGGAATTACGCGGCCCTCATTAA	MQIGFIGLGAVVETAYLPALRRLGYRIDSCQGYDLDSSRALPGIQRCSSLSALLAKPLDTLFITTSSLQHLPVLERALASAIPRIVVEKPIVANLEQAARLRALLAPAGEAGRVLALDHWMARGLALNALAPPWQAEEEGSGLPPPHLSAQDIAWIEGYLQEPSGFNAAGEPVALNFATGELDSRRLRHPDGVILDIGTHVLAMLRETLLDCGGDVTLDLAVRAAKDPLGRDIAHGDTVTAEGEAHLQGRLGDIPLNIWLNKYAGPAGGQKGMRIGLRDGRLLALDRAPDGEVATLQDGERIQRWTRPGAIYAHCLDEQILGAENVFTRAPESVAGLTRRRLEEVEWLLRLQQELRGPH				NA	NA	NA	NA	NA
BMS020_05254	1479	der_1	COG1160	GTPase Der	ATGATACCTGTGGTCGCGCTTGTCGGGCGCCCTAACGTTGGAAAATCCACGCTCTTTAACCGCCTGACGCGCACTCGTGATGCGCTGGTTGCGGATTTCCCGGGGCTGACTCGTGACCGTAAGTACGGTCGGGCCGAAGTCGAAGGCCGCGAATTCATCTGTATCGATACCGGTGGTATTGATGGTACGGAAGAGGGCGTGGAAACCCGGATGGCGGAGCAGTCGCTGCTGGCAATCGAAGAGGCCGATGTGGTGCTGTTTATGGTCGATGCGCGCGCGGGCCTGATGCCGGCGGACATCGCGATCGCTAAACACCTGCGCTCTCGTGAAAAGCCCACCTTCCTGGTGGCTAACAAAACCGACGGCATCGACGTCGACCAGGCGATGGCGGACTTCTGGTCGCTCGGCCTGGGCGATATCTATCCTATTGCCGCTTCGCACGGCCGCGGCGTGACCAGCCTGCTTGAGCAGGCCCTGCTGCCATGGGTCGATGAGGTTAATCCTCAGGAAGAAGTGGATGAAGACGCCGAATACTGGGCAAAATTCGAAGCTGAGCAGAACGGTGAAGCGGAAGAAGAACCGGAAGACGATTTCAATCCGCAGGATCTGCCGATCAAGCTGGCGATTGTCGGACGTCCTAACGTCGGTAAATCGACGCTCACCAACCGCATCCTCGGCGAAGATCGCGTGGTGGTCTATGATATGCCGGGCACCACCCGCGACAGCATTTACATCCCGATGCAGCGTGACGAGCGCGAATACGTGCTCATCGATACCGCCGGGGTGCGCAAGCGCGGTAAAATTACTGACGTGGTGGAGAAATTCTCGGTCATCAAGACGCTGCAGGCGATTGAAGACGCCAACGTCGTGCTGCTGGTGATTGATGCCCGCGAAGGCATCTCCGATCAGGATCTGTCGCTGCTGGGCTTTATCCTCAACAGCGGCCGCTCCCTGGTGATCGTCGTCAACAAATGGGACGGCCTGAGCCAGGAAGTGAAGGAGCAGGTGAAAGAGACTCTCGACTATCGTCTGGGCTTTATCGACTTTGCCCGGGTGCACTTCATCTCCGCTCTGCACGGCAGCGGCGTCGGCAACCTGTTTGAATCGGTACGTGAAGCCTACGATAGCGCAACCCGCCGCGTAAGCACCGCGATGCTCACCCGGATCATGAACATGGCGGCGGAAGATCATCAGCCACCGCTGGTTCGCGGCCGTCGCGTGAAGCTGAAATATGCCCACGCCGGGGGCTACAACCCGCCTATCGTGGTGATCCACGGTAACCAGGTGAAGGATCTGCCGGATTCCTACAAGCGCTATCTGATGAACTATTTCCGTAAATCCCTGGACGTGATGGGTACGCCAATCCGTATCCAGTTCAAGGAAGGGGAAAACCCGTTCGCCAACAAGCGCAACACCCTGACGCCGAACCAGATGCGGAAACGTAAGCGCCTGATCAAGCACATCAAGAAAAGCAAATAA	MIPVVALVGRPNVGKSTLFNRLTRTRDALVADFPGLTRDRKYGRAEVEGREFICIDTGGIDGTEEGVETRMAEQSLLAIEEADVVLFMVDARAGLMPADIAIAKHLRSREKPTFLVANKTDGIDVDQAMADFWSLGLGDIYPIAASHGRGVTSLLEQALLPWVDEVNPQEEVDEDAEYWAKFEAEQNGEAEEEPEDDFNPQDLPIKLAIVGRPNVGKSTLTNRILGEDRVVVYDMPGTTRDSIYIPMQRDEREYVLIDTAGVRKRGKITDVVEKFSVIKTLQAIEDANVVLLVIDAREGISDQDLSLLGFILNSGRSLVIVVNKWDGLSQEVKEQVKETLDYRLGFIDFARVHFISALHGSGVGNLFESVREAYDSATRRVSTAMLTRIMNMAAEDHQPPLVRGRRVKLKYAHAGGYNPPIVVIHGNQVKDLPDSYKRYLMNYFRKSLDVMGTPIRIQFKEGENPFANKRNTLTPNQMRKRKRLIKHIKKSK				NA	NA	NA	NA	NA
BMS020_05255	1179	bamB_1	COG1520	Outer membrane protein assembly factor BamB	ATGCAATTGCGTAAATTACTTTTGCCAGGGCTGCTTTCCGTTACCTTGCTGAGCGGGTGTTCGCTGTTTAATAGCGAAGAAGATGTGGTGAAAATGTCACCGCTGCCGACGGTAGAAAACCAGTTTACGCCGTCCACGTCCTGGAGCACCTCGGTTGGCGATGGTATCGGCGAATTTTACTCTAACCTTCATCCGGCCTTCGCCGACGGCGTAGTCTATGCCGCTGACCGTAAAGGCACCGTCAAAGCGCTGAGCGCTGACGACGGCAAAGAGGTGTGGTCGGTGAATCTGGCGGAGAAAGATGGCTGGTTCTCGCGCACCCCGGCGCTGCTTTCCGGCGGTGTGACCGTCTCGGGCGGCCATGTTTATATCGGCAGTGAGAAAGCGCAGCTGTATGCGCTGAATACCAGCGATGGTACCGTGGCCTGGCAAACCCGCGTCGCCGGCGAAGCGCTGTCGCGCCCGGTGGTGAGCGATGGCATGGTGCTGGTCCACACCAGTAACGGCCAGCTGCAGGCGCTGAATGAGACCGATGGCGCCGTGAAGTGGACGGTTAACCTGGATATGCCTGCGCTCTCCCTGCGCGGCGAATCCGCTCCGGCCACCGCCTACGGCGCGGCGATCGTGGGCGGCGACAATGGCCGCGTCAGCGCGGTATTGATGCAGCAGGGGCAGATGATTTGGCAGCAGCGTATTTCCACGGCCACCGGGCCGACGGAAATCGACCGTCTGAGCGACGTCGACACCACGCCGATTATCGTCAACGGCGTTGTCTATGCGCTGGCTTACAACGGTAACCTGACCGCGCTGGATCTGCGCAGCGGCCAGATTATGTGGAAACGCGAGCTGGGTTCGGTGAATGATTTTATCGTCGATGGCAACCGTATCTATCTGGTTGACCAGAATGACCGCCTGCTGGCGCTGACTACCGATGGCGGCGTGACCCTGTGGACACAAAGCGATCTGCTGCACCGTTTGCTGACCGCGCCGGTGTTGTATAATGGCAATCTGGTGGTCGGCGATAGCGAAGGCTATATGCACTGGGTGAACCCGGAAGATGGCCATTTTGTGGCGCAGCAGAAAGTGGACAGCTCCGGTTTCCTGACCGACCCGGTTGTGGCCGATGGTCGACTGCTGATCCAGGCGAAAGACGGTACGCTGTACGCGATTACGCGTTAA	MQLRKLLLPGLLSVTLLSGCSLFNSEEDVVKMSPLPTVENQFTPSTSWSTSVGDGIGEFYSNLHPAFADGVVYAADRKGTVKALSADDGKEVWSVNLAEKDGWFSRTPALLSGGVTVSGGHVYIGSEKAQLYALNTSDGTVAWQTRVAGEALSRPVVSDGMVLVHTSNGQLQALNETDGAVKWTVNLDMPALSLRGESAPATAYGAAIVGGDNGRVSAVLMQQGQMIWQQRISTATGPTEIDRLSDVDTTPIIVNGVVYALAYNGNLTALDLRSGQIMWKRELGSVNDFIVDGNRIYLVDQNDRLLALTTDGGVTLWTQSDLLHRLLTAPVLYNGNLVVGDSEGYMHWVNPEDGHFVAQQKVDSSGFLTDPVVADGRLLIQAKDGTLYAITR				NA	NA	NA	NA	NA
BMS020_05256	621			hypothetical protein	GTGGAAACTTTTAACAACGAGAACGATCAGGTCGATGCGCTGAAGCGCTTCTTTGCCGAAAACGGCAAAGCGCTGGCGGTCGGGGTGATTTTAGGGATTGGCGCGCTGGTTGGCTGGCGCTACTGGACCTCCCATCAGCAGGATACCGCCAGAGACGCGTCGCTGGCTTACGAAAAGGCGACTTCCGCGCTGAAATCAAATACGCCAGACGTGCTGTCAGGGGCGGAGAAGTTCGCGGCTGACAATAAAAATACCTACGGCGCCTTCGCCTCTCTCGAGCTGGCACAGCATTTTGTTGAACAGAACGATCTGCCGAACGCCGAAAAGCAGCTTCAGCAGGGGCTGGCGGCCGCGTCTGATGATAACCTGAAATCGGTTATCAGTATGCGTCTTGCCCGCGTTCAGCTGCAGATGAAGCAGGCTGATGCGGCGCTGAAAACCCTCGACAGCATTAAAGGCGAAGGTTGGACCGCGATTGTGGCTGATTTGCGCGGCGAAATTCTGTTGAGCAAAGGCGATAAGCAAGGGGCCCGTGCGGCGTGGGAAGCTGGCGTGAAAAGCGATGCTTCTCCTGCGCTCAGCGAAATGATGCGTATGAAAATGAATAATTTGTCCATCTGA	METFNNENDQVDALKRFFAENGKALAVGVILGIGALVGWRYWTSHQQDTARDASLAYEKATSALKSNTPDVLSGAEKFAADNKNTYGAFASLELAQHFVEQNDLPNAEKQLQQGLAAASDDNLKSVISMRLARVQLQMKQADAALKTLDSIKGEGWTAIVADLRGEILLSKGDKQGARAAWEAGVKSDASPALSEMMRMKMNNLSI				NA	NA	NA	NA	NA
BMS020_05257	1275	hisS_1	COG0124	Histidine--tRNA ligase	GTGGCAAAGAACATTCAAGCCATCCGTGGCATGAACGATTATCTGCCGGGCGAAACCGCTCTCTGGCAGCGCATTGAAGGCTCACTGAAGCAGGTGCTCGGTAGCTACGGTTACAGCGAAATCCGTTTGCCGATTGTAGAGCAGACCCCGTTATTCAAACGCGCGATCGGCGAAGTGACCGACGTGGTTGAAAAAGAGATGTACACCTTTGAGGACCGCAACGGCGACAGCCTGACGCTGCGTCCGGAAGGGACGGCGGGCTGCGTACGAGCCGGCATCGAACATGGTCTGCTGTACAATCAAGAACAGCGCCTGTGGTACGTCGGGCCGATGTTCCGCCACGAGCGTCCGCAGAAAGGCCGTTACCGCCAGTTCCATCAGATCGGCGCCGAAGTTTTCGGCCTGCAGGGGCCGGACATCGATGCGGAGCTGATCATGCTGACCGCGCGCTGGTGGCGTGAGCTGGGCATCTCCGATCATGTCAGCCTTGAGCTGAACTCCATCGGTTCTCTTGAAGCCCGCGCCAACTACCGCGACGCGCTGGTGGCTTATCTCGAGCAGTTTACCGATAAGCTTGATGAAGACAGCAAACGCCGGATGTATACCAATCCGCTGCGGGTGCTGGACTCCAAAAACCCGGACGTGCAGGCGCTGCTGAACGACGCGCCGGCGCTCGGCGATTATCTCGACGAAGAGTCGAAAGCCCACTTTGCCGGCCTGTGCGCGTTGCTTGACAATGCCGGGATCCGCTATACCGTCAACCAGCGCCTGGTGCGCGGCCTCGACTACTATAACCGCACCGTGTTTGAGTGGGTGACCACCAGTCTCGGTTCTCAGGGCACCGTCTGCGCCGGCGGCCGTTACGACGGCCTGGTTGAGCAGCTTGGCGGTCGTGCCACCCCGGGCGTGGGCTTCGCCATGGGTCTGGAACGTCTTGTTTTACTGGTCCAGGCAGTGAATCCGGAATTTAAAGCCGATCCTGTTGTCGATATATACCTGGTAGCCTCCGGGACCGATACTCAGTCCGCCGCCATGCGTCTGGCTGAGCAGGTTCGCGATGCGCTGCCCGGCGTGAAACTGATGACCAACCACGGTGGCGGCAACTTTAAGAAGCAGTTCGCCCGTGCCGATAAATGGGGCGCACGTATCGCCCTGGTGGTGGGTGAGTCAGAGATCGCTGACGGAAACGTGGTAGTGAAGGATTTACGCTCAGGTGAGCAAACTACCGTAACGCAGGAGAGCGTTGCCGCGCATTTGCGCACACTTCTGGGTTAA	MAKNIQAIRGMNDYLPGETALWQRIEGSLKQVLGSYGYSEIRLPIVEQTPLFKRAIGEVTDVVEKEMYTFEDRNGDSLTLRPEGTAGCVRAGIEHGLLYNQEQRLWYVGPMFRHERPQKGRYRQFHQIGAEVFGLQGPDIDAELIMLTARWWRELGISDHVSLELNSIGSLEARANYRDALVAYLEQFTDKLDEDSKRRMYTNPLRVLDSKNPDVQALLNDAPALGDYLDEESKAHFAGLCALLDNAGIRYTVNQRLVRGLDYYNRTVFEWVTTSLGSQGTVCAGGRYDGLVEQLGGRATPGVGFAMGLERLVLLVQAVNPEFKADPVVDIYLVASGTDTQSAAMRLAEQVRDALPGVKLMTNHGGGNFKKQFARADKWGARIALVVGESEIADGNVVVKDLRSGEQTTVTQESVAAHLRTLLG				NA	NA	NA	NA	NA
BMS020_05259	1122	ispG_1	COG0821	4-hydroxy-3-methylbut-2-en-1-yl diphosphate synthase (flavodoxin)	ATGCATAACCAGGCTCCGATTCAACGTAGAAAATCTAAACGTATTTACGTTGGTAATGTGCCAATTGGCGATGGGGCTCCCATCGCCGTTCAGTCAATGACTAATACGCGCACCACTGATGTGGCGGCAACCGTAAATCAAATCAAAGCGTTAGAGCGCGTGGGCGCGGATATTGTCCGCGTCTCTGTTCCGACGATGGACGCCGCCGAGGCGTTCAAACTGATCAAACAGCAGGTCAACGTCCCGCTGGTCGCCGATATCCACTTTGACTACCGTATTGCGCTGAAAGTCGCGGAATACGGCGTCGACTGCCTGCGTATCAACCCGGGCAACATCGGCAACGAAGAGCGCATCCGCATGGTCGTAGATTGCGCGCGCGATAAAAATATCCCGATCCGCATCGGCGTTAACGCCGGCTCGCTGGAAAAAGATCTGCAGGAAAAATATGGCGAGCCGACGCCGCAGGCGCTGCTCGAATCCGCCATGCGCCACGTCGATCATCTCGATCGCCTCAATTTCGATCAGTTTAAAGTCAGCGTTAAAGCCTCCGACGTCTTCCTGGCGGTAGAGTCTTATCGCCTGCTGGCGAAACAGATCGATCAACCGCTGCACCTCGGGATCACCGAAGCGGGCGGCGCGCGCAGCGGCGCGGTGAAATCGGCGATCGGTCTTGGGCTGCTGTTGTCCGAAGGGATCGGCGATACGCTGCGCGTCTCGCTGGCGGCGGATCCGGTGGAGGAGATCAAGGTCGGCTTCGATATCCTCAAATCGCTGCGTATTCGTTCCCGCGGTATTAATTTCATCGCCTGCCCGACCTGTTCGCGTCAGGAGTTTGACGTTATCGGGACGGTGAACGCCCTGGAGCAACGTCTGGAAGATATCATCACTCCGATGGATGTTTCGATCATCGGCTGCGTGGTGAACGGCCCGGGCGAAGCGCTGGTTTCCACCCTCGGCGTGACCGGCGGCAACAAGAAAAGCGGCCTGTATGAAGACGGCGTGCGTAAAGATCGCCTGGACAACAACGACATGATCGACCAGCTGGAAGCGCGGATCCGCGCCAAAGCCTCGATGCTCGATGAAGCCCGTCGGATTGACGTTCAACAGCTTGAAGCAAAATAA	MHNQAPIQRRKSKRIYVGNVPIGDGAPIAVQSMTNTRTTDVAATVNQIKALERVGADIVRVSVPTMDAAEAFKLIKQQVNVPLVADIHFDYRIALKVAEYGVDCLRINPGNIGNEERIRMVVDCARDKNIPIRIGVNAGSLEKDLQEKYGEPTPQALLESAMRHVDHLDRLNFDQFKVSVKASDVFLAVESYRLLAKQIDQPLHLGITEAGGARSGAVKSAIGLGLLLSEGIGDTLRVSLAADPVEEIKVGFDILKSLRIRSRGINFIACPTCSRQEFDVIGTVNALEQRLEDIITPMDVSIIGCVVNGPGEALVSTLGVTGGNKKSGLYEDGVRKDRLDNNDMIDQLEARIRAKASMLDEARRIDVQQLEAK	PGPT0007580_2720	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007580-gcpE|ispG-K03526	NA	NA
BMS020_05260	990	rodZ_1	COG1426	Cytoskeleton protein RodZ	ATGAATACTGAAGCCACTCAAGATCATCAAGAAGCAAACACCACGGGCGCGCGTCTGCGTCACGCCCGCGAACAACTCGGACTTAGCCAGCAAGCGGTGGCAGAACGCTTATGCCTGAAGGTGTCCACGGTTCGTGATATTGAAGACGATAAGGCGCCTGCCGACCTCGCTTCCACCTTCCTGCGCGGGTACATCCGCTCCTATGCTCGCCTCGTACATATCCCGGAAGACGAGCTGCTGCCGATGATGGCTAAGCAAGCGCCCATCCGCGCGGCGAAAGTCGCGCCAATGCAGAGCTTCTCTTTAGGTAAACGTCGCAAAAAACGCGACGGCTGGCTGATGAGCTTCACCTGGCTGGTGCTGTTTGTGGTTATCGGCCTGAGCGGCGCCTGGTGGTGGCAAGACCATAAGGCGCAGCAGGAAGAGATCTCCACCATGGCCGATCAGTCTTCCGCTGAGCTGAACAGCGGCGACACCAGCAGCCAGAGCGTGCCGCTGGATACCAGCGCCCCGGCAGCCCCGACCGCCGATAGCGCTGCGAACAGCGCGCCAACCGATACCGCCAGCGCCCCGACCACCAGCGCCCCGGCCCAGACGCCGGCGGACAATAACGCCGTTGTCGCGCCTTCCCAGGCCAATGTCGATACCGCAGGCGCGGCGCCGACGGCGCCGGCTACCCCGGCCTCGCCATTGCCGACCGATCAGGCGAACGTGACGAACCCGGCGGCGGCGCAGGATCTGGTGATGAACTTTTCCGCCGATTGCTGGCTGGAAGTGAGCGATGCCACCGGCAAAAAACTGTTCAGCGGCCTGCAGCGTAAAGGCGGCAACCTGAACCTGAGCGGTCAGGCGCCGTATAAGCTGAAAATTGGCGCCCCGGCTGCGGTAGAGATCCAGTATCTGGGCAAGCCTGTCGATTTAAGTCGTTTTATCAGAACTAACCAGGTTGCGCGTCTGACCCTTAATGCCGAATCATCACCGGCGCAGTAA	MNTEATQDHQEANTTGARLRHAREQLGLSQQAVAERLCLKVSTVRDIEDDKAPADLASTFLRGYIRSYARLVHIPEDELLPMMAKQAPIRAAKVAPMQSFSLGKRRKKRDGWLMSFTWLVLFVVIGLSGAWWWQDHKAQQEEISTMADQSSAELNSGDTSSQSVPLDTSAPAAPTADSAANSAPTDTASAPTTSAPAQTPADNNAVVAPSQANVDTAGAAPTAPATPASPLPTDQANVTNPAAAQDLVMNFSADCWLEVSDATGKKLFSGLQRKGGNLNLSGQAPYKLKIGAPAAVEIQYLGKPVDLSRFIRTNQVARLTLNAESSPAQ				NA	NA	NA	NA	NA
BMS020_05261	1167	rlmN_1	COG0820	Dual-specificity RNA methyltransferase RlmN	ATGTCTGAACAAATTGTCACGCCTGATACCGCCGCTCTGACGGTGCCGAACAAAGATGCCAAAATCAACCTGCTGGATTTAAACCGTCAGCAGATGCGCGAGTTTTTCAAAAACATGGGCGAGAAGCCTTTCCGCGCCGATCAGGTGATGAAATGGATGTATCACTACTGCTGCGACGACTTTGATGAGATGACTGACATCAACAAAGTCCTGCGCAGTAAACTGAAAGAAGTGGCGGAGATCCGCGCCCCGGAAGTGGTTGAAGAGCAACGCTCAACCGACGGGACCATTAAATGGGCGATTGCCGTTGGCGATCAGCGCGTCGAGACCGTCTATATCCCGGAAGAAGACCGCGCCACCCTGTGCGTCTCCTCCCAGGTAGGCTGCGCGCTGGAGTGTAAATTCTGCTCCACCGCCCAGCAGGGCTTTAACCGCAACCTGCGGGTTTCCGAAATTATCGGCCAGGTCTGGCGCGCGGCGAAAATCGTCGGCGCGGTGAAGACCACCGGCGTACGTCCGATCACCAACGTGGTGATGATGGGCATGGGCGAGCCGCTGCTGAACCTCAACAATGTCGTTCCGGCAATGGAAATCATGCTCGACGATTTCGGCTTTGGCCTCTCCAAACGTCGCGTCACCCTGTCGACTTCCGGCGTGGTGCCGGCGCTGGATAAACTCGGCGATATGATCGACGTCGCGCTGGCCATCTCCCTGCACGCGCCGAACGACACCATTCGTGACGAAATCGTCCCGATCAACAAAAAGTACAACATCGAGACCTTCCTCAACTCGGTGCGCGGCTATATTTCGAAGTCCAACGCCAACCAGGGCCGGGTGACCATCGAGTACGTGATGCTGGATCATGTCAACGACGGCACCGAGCACGCCCACGAACTGGCGGCGCTGCTGAAAGATACGCCGTGCAAGATCAACCTGATCCCATGGAACCCGTTCCCGGGCGCGCCGTATGGCCGCAGCTCCAACAGCCGCATCGACCGTTTCTCCAAAGTCCTGATGGAGTACGGCTTTACGACCATCGTGCGTAAAACGCGCGGCGACGATATCGATGCCGCCTGCGGTCAGCTGGCGGGCGACGTCATCGACCGTACCAAGCGCACGCTGCGTAAGCGGATGCAGGGCGAAGCGATTGACGTAAAAGCGGTCTGA	MSEQIVTPDTAALTVPNKDAKINLLDLNRQQMREFFKNMGEKPFRADQVMKWMYHYCCDDFDEMTDINKVLRSKLKEVAEIRAPEVVEEQRSTDGTIKWAIAVGDQRVETVYIPEEDRATLCVSSQVGCALECKFCSTAQQGFNRNLRVSEIIGQVWRAAKIVGAVKTTGVRPITNVVMMGMGEPLLNLNNVVPAMEIMLDDFGFGLSKRRVTLSTSGVVPALDKLGDMIDVALAISLHAPNDTIRDEIVPINKKYNIETFLNSVRGYISKSNANQGRVTIEYVMLDHVNDGTEHAHELAALLKDTPCKINLIPWNPFPGAPYGRSSNSRIDRFSKVLMEYGFTTIVRKTRGDDIDAACGQLAGDVIDRTKRTLRKRMQGEAIDVKAV				NA	NA	NA	NA	NA
BMS020_05262	432	ndk_1	COG0105	Nucleoside diphosphate kinase	ATGGCTATTGAACGTACTTTTTCCATCATCAAACCAAACGCGGTGGCAAAAAACGTTATTGGCAGCATCTTTTCCCGCTTTGAAGCTGCAGGGTTCAAAATCGTCGGCACCAAAATGCTGCACCTGACCGTAGAGCAGGCTCGTGGTTTCTATGCTGAACACGAAGGTCGCCCGTTCTTCGACGGTCTGGTTGAGTTCATGACCTCCGGCCCGATCGTGGTTTCCGTCCTGGAAGGCGAAAACGCCGTTCAGCGTCACCGTGACCTGCTGGGCGCCACCAACCCGGCAAACGCCCTGGCGGGTACCCTGCGCGCTGACTACGCTGACAGCTTCACCGAGAACGGCACCCACGGTTCCGACTCTGTAGAATCCGCTGCACGCGAAATCGCGTTCTTCTTTGCTGAAGGCGAGGTTTGCCCACGCACTCGCTAA	MAIERTFSIIKPNAVAKNVIGSIFSRFEAAGFKIVGTKMLHLTVEQARGFYAEHEGRPFFDGLVEFMTSGPIVVSVLEGENAVQRHRDLLGATNPANALAGTLRADYADSFTENGTHGSDSVESAAREIAFFFAEGEVCPRTR	PGPT0021210_2872	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021210-ndk-K00940	NA	NA
BMS020_05263	2325	pbpC_1	COG4953	Penicillin-binding protein 1C	ATGCGCGTAGTGCATCGGGTAAAACGCCGCTGGCGCTGGCTGGCGGCGTTTATTTTTCTGCTGTGGCTGGCGGTTCTGACCGCCGATCGCCTGTGGCCGCTGCCGCTGCATGACGTCACGCCTGCCCGGGTGGTCGTGGCGGAGGACGGGACCCCCCTGTGGCGGTTTGCCGACGCGCAGGGCGTCTGGCGTTATCCGGTGACTCTCGCCGACGTGTCGCCGCGCTATCTGCAGGCGCTTATTCAGTATGAGGACCGCTGGTTCTGGCGCCATCCGGGGGTCAATCCCTTCGCTGTAGTGCGCGCCGCCTGGCAGGATCTCACCTCCGGGCGGGTCATTTCCGGCGGCAGTACCCTCACCATGCAGGTGGCGCGCCTGCTCGATCCCCACCCCCGCACTTTCGGCGGCAAGCTGCGCCAGCTGTGGCGGGCGCTGCAGCTGGAGTGGCATCTGTCAAAGAGCGAAATCCTGACCCTGTATCTGAATCGTGCGCCCTTTGGCGGCACCCTGCAGGGGATCGGCGCGGCCAGCTGGGCTTATCTCGGCAAGCCGCCCGCGCAGCTCAGCTACGGCGAGGCGGCGCTGCTGGCGGTGCTGCCCCAGGCACCCAGCCGTTTACGTCCGGACCGCTGGCCGCAGCGGGCCCAGGCGGCGCGGGATAAAGTCCTTGCGCGCATGGTCAGCCAGGGCGTCTGGCCGAGACTGGCGGTAAAGGAGGCGATGGAGGAGCCGGTGTGGCTGTTTCCGCGGCAGATGCCGCAGCTGGCGCCGCTCTTCGCCCGCCGGACGCTGGCGACCAGTCGTGAGGAAAAAGTGGTGACGACCCTCGATGCCGGACTGCAGCGGCAGCTCGAGGATCTGGCGCTGAACTGGAAGTCGCGCCTGCCGCCGCGCAGTTCGCTGGCGATGGTTGTCGTCGACCACACGGATATGAAAGTCCGCGGCTGGGTGGGGTCGGCGGATATTACGGACGACAGTCGCTTTGGCCACATTGATATGGCGTCGGCGGTCCGTTCGCCTGGGTCGGTGCTGAAACCCTTTATTTATGCGCTGGCGATGGATGAAGGGCTGATCCATCCGGCGTCGTTATTGCAGGATGTGCCGCGGCGCTTTAGCGATTATCGCCCCGGTAACTTTGACAGCGGCTTTCACGGCCCGGTGAGCGCCAGCGACGCGCTGGTGCGCTCCCTGAATCTGCCGGCGGTCCAGGTGCTCGAAGCCTACGGGCCCAAACGTTTCGCGGCGAATTTGCGCAATGCCGGGTTGCCCCTGATGCTGCCCGCCGGCGCCGAGCCGAATCTGTCGTTGATCCTCGGCGGCGCCGGGGCGAGGCTGGAAGATATCGTCGCGGCGTACAGCGCCTTTGCCCGCCACGGGAAGGCGGCGCGGCTGCGCATGACGCCCGGAGACCCGCTGGTGGAAAGGGCGCTGATATCCCCGGGGGCGGCGTGGATCGTCCGGCGCATCCTGGCCGGCGAAGCGCAGCCGGTTCCCGATGCCTCACTCCCGCAAGTGGTGCCGCTGGCCTGGAAGACCGGCACCAGCTACGGGTATCGCGATGCGTGGGCGGTGGGCCTCAATGCGCGTTATCTGATTGGCATCTGGACCGGGCGTCCGGACGGTACGCCGGTGGTGGGGCAGTTTGGCTTCGCCAGCGCGGTGCCGTTGCTCAATCAGGTCAATAATCTGCTGCTCGCCCGCCCGGCGATGAGCCGCGGCGGCCTGCCGGTCGATCCGCGACCGGCAACGGTCAGCCGCGGGACGCTCTGCTGGCCCGGCGGCCAGGCGCTGCCGGCGGGCGACAGCAACTGCCGTCGTCGCCTGGCCAGCTGGCTGCTGGAAGACAGCCAGCCGCCGACCCTGCTGTTGCCGGGGCAGGAGGGCGTGCGCGGGATCCGCTTCCCGGTGTGGCGCAATGAACACGGCGAACGGGTGGCGGCGGATTGTCCCGGGGCGCGCGAAAGTGTGGTGGAGGTCTGGCCGCTGCCGCTGGATCCCTGGCTACCGCCGGGGGAACGTCGCTCCGCGCGTCTGGGGCCGGCATCGAAGGCATGCCCGCCGTTGCAAACTCAGGATGCCGCGCCGCTGGTGCTCTCCGGGATTCGCGAGGGGGCGGTGATTAAACGTCTGCCGGGGGAGGCGCGGGTGATGTTGCCCCTGCAAACCAGCGGTGGTGAAGGGCGGCGCTGGTGGTTTATCAACGGCCAGCCGATAGATGCCGCCGGCGCGAGAACCACGCTAACTCTGGATAAGCCCGGTGAGTGGCAGCTGGTGGTGATGGATGAGGCAGGACAAACGGCGGCCGCGCGTTTTACCCTGCAATAA	MRVVHRVKRRWRWLAAFIFLLWLAVLTADRLWPLPLHDVTPARVVVAEDGTPLWRFADAQGVWRYPVTLADVSPRYLQALIQYEDRWFWRHPGVNPFAVVRAAWQDLTSGRVISGGSTLTMQVARLLDPHPRTFGGKLRQLWRALQLEWHLSKSEILTLYLNRAPFGGTLQGIGAASWAYLGKPPAQLSYGEAALLAVLPQAPSRLRPDRWPQRAQAARDKVLARMVSQGVWPRLAVKEAMEEPVWLFPRQMPQLAPLFARRTLATSREEKVVTTLDAGLQRQLEDLALNWKSRLPPRSSLAMVVVDHTDMKVRGWVGSADITDDSRFGHIDMASAVRSPGSVLKPFIYALAMDEGLIHPASLLQDVPRRFSDYRPGNFDSGFHGPVSASDALVRSLNLPAVQVLEAYGPKRFAANLRNAGLPLMLPAGAEPNLSLILGGAGARLEDIVAAYSAFARHGKAARLRMTPGDPLVERALISPGAAWIVRRILAGEAQPVPDASLPQVVPLAWKTGTSYGYRDAWAVGLNARYLIGIWTGRPDGTPVVGQFGFASAVPLLNQVNNLLLARPAMSRGGLPVDPRPATVSRGTLCWPGGQALPAGDSNCRRRLASWLLEDSQPPTLLLPGQEGVRGIRFPVWRNEHGERVAADCPGARESVVEVWPLPLDPWLPPGERRSARLGPASKACPPLQTQDAAPLVLSGIREGAVIKRLPGEARVMLPLQTSGGEGRRWWFINGQPIDAAGARTTLTLDKPGEWQLVVMDEAGQTAAARFTLQ	PGPT0023940_635	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023940-pbpC-K05367	NA	NA
BMS020_05264	4950	yfhM_1	COG2373	Alpha-2-macroglobulin	ATGAAACCATTTCGTTTAGCGGCGCTGTCACTGGCGCTCCTTACCGCATTTTCATTAACCGGGTGTGATGACAGCGGTACACCGCAGGCTACGGCCCCGACGCCGGCCGCCGATAGCGGCCCTGGCGCGGCGGCAAAACCGGACAGCGCCCAGCTGGCGGCGCTGGCGGAAAAAAGCCAGGGCAAAGCGCTGACGCTGCTCGACGCCTCGGAGGTGCAGCTGGATGGCGCCGCGACCCTGGTGCTGACCTTTTCCGTACCGCTGCAGCCGGACCAGGATTTCTCCCGCAGCGTGCACCTGGTGGATAAGAAGAGCGGTAAGGTAGATGGCGCGTGGGAGCTGGCGCCGAACCTGAAAGAGCTGCGTCTGCGTCACCTTGAGCCAAAGCGCGAGCTGATTGTCTCGGTCGACCCGACGCTGACCGCCCTGAACAAGGCGACGCTCGATAAACCGTTCGAGAAGATCCTGACTACCCGCGATATCGCTCCAAGCGTCGGATTTGCCAGCCGCGGCTCGCTGCTGCCGGGCAACGTGATCGCCGGTCTGCCGGTGATGGCGCTGAACGTCGATAACGTCGACGTGAACTTCTTCCGCATTAAGCCGGAATCGCTCTCGGCCTTCGTCAGCCAGTGGGAATACCGCAATTCATTAAGCAACTGGGAATCCGACGAGCTGCTGAAGATGGCCGATCTGGTATACAGCGGCCGCTTTGACCTCAATCCGGCGCGCAATACCCGCGAAAAGCTGCTGCTGCCGCTGAGCGACATCAAGCCGCTCCAGCAGCCTGGCGTCTACGTGGCGGTCATGAACCCGGCGGGTCATTATAGCTACAGCAACGCGGCGACGCTGTTTACCCTTAGCGACATCGGCGTGTCGGCGCATCGCTACCACAACCGGCTGGACGTCTTTACCCAGAGCCTGGAAAACGGCGCCGCCCAGTCTGGTATCGATGTCCAGCTGCTCAACGCCAAAGGGCAGACCCTGGCGCAGGCGAAAAGCGATAGCCAGGGCCACGTCACCCTGCAAACCGATAAAGAAGCCGCGCTGCTGCTGGCGCGCAAAGAGGGACAGACCACGCTGCTCGACCTCAAACTGCCGGCGCTGGATCTGGCGGAGTTCTCCATTGCCGGCGCGCCAGGCTTCAGCAAACAGTTCTTTATGTTTGGCCCACGGGATCTCTATCGTCCGGGCGAAACGGTGATCCTCAATGCGCTGCTGCGCGATAGCGACGGCAAGCCGCTGGCGGAACAGCCGGTGAAGCTGGAGGTGGTCCAGCCGGATGGCCAGGTGATCCGCTCGGTGATGAGCAAACCGGTTAACGGCCTGTACCAGTTTACTTATCCGCTCGACAGCGGCGCGGCCACCGGAATGTGGCACATTCGTGCCAGCACCGGCGACAACCAGCCCCGCGAGTGGGATTTCCACGTCGAAGACTTTATGCCGGAACGCATGGCGCTGAAGCTGACGCCGCAGGCGGCGCCGGTCGCGCCGAATGCCGATGTCGCCTTTGACGTCAGCGGCGCTTATCTCTACGGCGCGCCGGCCAGCGGCAACCCGCTGCAGGGCAAACTGTTCCTGCGCCCGCTGCGCGACGCCGTCGCCGCGCTGCCGGGCTTTGAGTTCGGCGATATCGCAGAAGAAAATCTCTCCCGCAGCCTTGATGAAGTCCAGCTGACGCTGGATGAAAAAGGCCATGGCGAAGTGACCACCTCCAGCCAGTGGCAGGATAGCCATTCGCCGCTGCAGGTGGTGTTGCAGGCGAGCCTGCTGGAGTCCGGTGGGCGTCCGGTCACCCGTACGGTTAAGCAGCCGATCTGGCCTGCCGAGGCGCTGCCGGGGATCCGCCCGCAATTTACCCTGAAGGACGTTTACGACTACCGCACCGACACCACGGTGAAGCAGCCGGTGGTGGATGAAAACAGCAACGCCGCGTTCGATATCGTCTATGCCGACGCCAAAGGCGAGAAAAAAGCCGTTTCCGGCCTGCAGGTGCGACTGATCCGCGAGCGCCGGGATTATTACTGGAACTGGTCCGATAGCGAAGGCTGGCAGTCGCAGTTCGATCAAAAAGATCTGCAGGAGGGCGAGGAGTCGCTGGATCTGCAGGCCGGCCAGATCGGTAAAGTGAGCTTTCCGGTTGAGTGGGGCTCCTATCGCCTGGAGGTGAAAGGACCGGACGATGTCGTCAGCAGCGTGCGCTTCTGGGCGGGCTACAGCTGGCAGGATAACAGCGAAGGCACCGGCGCAGCGCGCCCGGACCGGGTCACCATGAAGCTGGATAAACCGAGCTATAAGCCGGGCGACACCATCAGGCTGCACATCGCCGCCCCGGCGGCGGGTAAAGGCTACGCGATGGTGGAATCCAGCGAAGGGCCGCTGTGGTGGCAGGAGATTGACGTACCCGCCGAGGGGATGGACCTGTCGATCCCGGTGGATAACGCCTGGAATCGACACGACCTCTACCTCAGCACGCTGGTGGTTCGCCCCGGCGATAAATCCCGCTCGGCGACACCGAAACGCGCGGTGGGCCTGCTGCATCTGCCGCTGGGCGATGAAAACCGTCGCCTGACGCTGGCGCTGGAGGCCCCGGATAAAATGCGCCCCAACCAGCCGCTGACGGTGAAAGTGAAAGCCAGCGTCAAAGAGGGAGAGGCGCCGAAGCAGGTTAACGTTCTGCTCTCGGCTGTCGATAGCGGGGTGCTGAATATTACCGATTACGCCACCCCTGATCCGTGGAACGCCTTCTTTGGCCAGAAACGTTATGGGGCGGATATTTATGATATTTACGGCCAGGTGATTGAAGGGCAGGGGCGTGTGGCCAGTCTGCGCTTCGGCGGCGATGGCGACGAGTTAAAACGTGGCGGTAAACCGCCGGTTAACCATGTGACCATCATCGCCCAGCAGGCGCAGCCGGTGGTGCTGAACGATCAGGGCGAAGGGACGGTGACGCTGCCGATCGGTGATTTTAACGGCGAGCTGCGGGTGATGGCTCAGGCCTGGACGGCGGATGACTTCGGCAGCAGCGAAGATAAAGTGGTGGTGGCCGCCCCGGTCATCGCCGAGCTGAATACCCCGCGCTTCCTCGCCAGCGGCGACACCACCCGTCTGGCGCTGGATCTCAGTAACCTGACCGATAAACCGCAAACTCTGCAGGTACACCTTGCCGCCAGCGGACTGGTGACCTTGACCGAGGGTCAAATGCCGTCGGTGCAGCTGGCGCCGGGGGCGCGCAGCACGCTGTTTGTGCCGGTGAGCGCGCTGCCGGGCTTTGGCGATGGCCAGGTGAGCGCCACTATCAGCGGCCTGAGCCTGCCGGGGGAAACCTTCGCCCCGCTGCAGAAGCAGTGGAAAATCGGCGTTCGTCCGGCGTTCCCGGCGCAAACCGTCAACAGCGGCGCCGTGCTGCAGCCCGGCGAAAGCTGGCAGGCGCCGGCGGCGCAATCGGCAGGTTTCGCCCCGCAGACGCTGCAGGGCCAGCTGCTGCTCAGCGGCAAGCCGCCGCTGAATCTCGCGCGCTATATCCGCGACCTGAAAGCCTATCCTTACGGCTGCCTTGAGCAGACCGCCAGCGGCCTGTTCCCGTCCCTGTATACCAGCGCGGCGCAGCTAAAAGCGCTGGGCATCAGCGGGGACAGCGACGAAAAACGTCGCGCGGCAATCGATGTCGGGATCTCGCGCCTGCTGCAGATGCAACTGGAAAACGGCGGCTTTGCGCTATGGGATAAAGAGGGGCCGGAAGAGTACTGGCTGACCGCTTACGCCATGGATTTCCTTGTTCGCGCGGGCGAGCAGGGCTATAGCGTACCGGTCAACGCCATTAATAAAGGTAACGAACGCCTGCTGCGCTATCTTCAGGAGCCGGGGCTGATGACCGTGCGCTACAGCGACGACGCCCAGGCCAGCCGCTTTGCCGCTCAGGCCTATGCCGCGCTGGTGCTGGCGCGTCAGCAAAAAGCCCCGCTCGGCGCATTGCGTGAAATCTGGAGCCGTCACGACCAGGCGCGATCCGGCCTGCCGCTGCTGCAGCTCGGCATTGCGCTGAAAACCATGGGCGATGCGCCGCGCGGCGATGAGGCCATGAAGCTGGCGGTTGCCACGCCGCGCCAGGGTGAGAATCGTTGGCTGGGCGATTACGGCAGCCCGCTTCGCGATGACGCGCTGAAGCTGGCGCTGCTGGAAGAGAACAAGCTGCTGCCGGAGGTGCAAAACACGCTGTTGAGCACGCTGTCGGAAGAGGCCTACGGCCAGCGCTGGCTGTCGACCCAGGAAACCAATGCCCTGTTCCTTGCCGGACGTACGCTTGCCGACCTGCCGGGCGACTGGCAGGCGCAAACCTCGCTGCAGGCTGAGCCGCTGGCCGGCGATAAAGCGCAAACCCGTAACCTCGACGGCGATCGGCTGGCGACGTTGCAGGTGAGCAACACCGGCAGTCAACCGCTGTGGCTGCGTCTGGACAGTAGCGGCTATCCGCAAAGCGCGCCGCAGCCGGGCGGCAACGTCCTGGGAATTGAACGCGCCGTTTTCGATACCCAGGGGCGGCAGAAGTCGCTGTCGTCGCTGCGCAGCGGCGAACTGGTGCTGGTCAAGCTGGAGGTGACCGCCAGACGCAACGTGCCTGACGCGCTGGTGGTTGACCTGCTGCCGGCGGGACTCGAGCTGGAAAACCAGAATCTGGCCAACAGCAGCGCCAGCCTGCAGGAGAATGGCGAAGCGGTGCAAAACCTTCTTAACCAGATGCAGCAGGCCGATATTCAGCATATCGAGTTCCGCGACGACCGCTTCGTCGCCGCTGTCGCGGTCAATGAAGGTCAGCCGGTGACGCTGGTCTACCTGGCGCGGGCGGTCACGCCGGGCACCTACCAGGTCCCGCAGCCGCAGGTGGAATCGATGTATGTGCCGCAGTGGCGGGCGACCGGGACCGCCAGCGGTCCGCTCACCGTGACGCCGTAA	MKPFRLAALSLALLTAFSLTGCDDSGTPQATAPTPAADSGPGAAAKPDSAQLAALAEKSQGKALTLLDASEVQLDGAATLVLTFSVPLQPDQDFSRSVHLVDKKSGKVDGAWELAPNLKELRLRHLEPKRELIVSVDPTLTALNKATLDKPFEKILTTRDIAPSVGFASRGSLLPGNVIAGLPVMALNVDNVDVNFFRIKPESLSAFVSQWEYRNSLSNWESDELLKMADLVYSGRFDLNPARNTREKLLLPLSDIKPLQQPGVYVAVMNPAGHYSYSNAATLFTLSDIGVSAHRYHNRLDVFTQSLENGAAQSGIDVQLLNAKGQTLAQAKSDSQGHVTLQTDKEAALLLARKEGQTTLLDLKLPALDLAEFSIAGAPGFSKQFFMFGPRDLYRPGETVILNALLRDSDGKPLAEQPVKLEVVQPDGQVIRSVMSKPVNGLYQFTYPLDSGAATGMWHIRASTGDNQPREWDFHVEDFMPERMALKLTPQAAPVAPNADVAFDVSGAYLYGAPASGNPLQGKLFLRPLRDAVAALPGFEFGDIAEENLSRSLDEVQLTLDEKGHGEVTTSSQWQDSHSPLQVVLQASLLESGGRPVTRTVKQPIWPAEALPGIRPQFTLKDVYDYRTDTTVKQPVVDENSNAAFDIVYADAKGEKKAVSGLQVRLIRERRDYYWNWSDSEGWQSQFDQKDLQEGEESLDLQAGQIGKVSFPVEWGSYRLEVKGPDDVVSSVRFWAGYSWQDNSEGTGAARPDRVTMKLDKPSYKPGDTIRLHIAAPAAGKGYAMVESSEGPLWWQEIDVPAEGMDLSIPVDNAWNRHDLYLSTLVVRPGDKSRSATPKRAVGLLHLPLGDENRRLTLALEAPDKMRPNQPLTVKVKASVKEGEAPKQVNVLLSAVDSGVLNITDYATPDPWNAFFGQKRYGADIYDIYGQVIEGQGRVASLRFGGDGDELKRGGKPPVNHVTIIAQQAQPVVLNDQGEGTVTLPIGDFNGELRVMAQAWTADDFGSSEDKVVVAAPVIAELNTPRFLASGDTTRLALDLSNLTDKPQTLQVHLAASGLVTLTEGQMPSVQLAPGARSTLFVPVSALPGFGDGQVSATISGLSLPGETFAPLQKQWKIGVRPAFPAQTVNSGAVLQPGESWQAPAAQSAGFAPQTLQGQLLLSGKPPLNLARYIRDLKAYPYGCLEQTASGLFPSLYTSAAQLKALGISGDSDEKRRAAIDVGISRLLQMQLENGGFALWDKEGPEEYWLTAYAMDFLVRAGEQGYSVPVNAINKGNERLLRYLQEPGLMTVRYSDDAQASRFAAQAYAALVLARQQKAPLGALREIWSRHDQARSGLPLLQLGIALKTMGDAPRGDEAMKLAVATPRQGENRWLGDYGSPLRDDALKLALLEENKLLPEVQNTLLSTLSEEAYGQRWLSTQETNALFLAGRTLADLPGDWQAQTSLQAEPLAGDKAQTRNLDGDRLATLQVSNTGSQPLWLRLDSSGYPQSAPQPGGNVLGIERAVFDTQGRQKSLSSLRSGELVLVKLEVTARRNVPDALVVDLLPAGLELENQNLANSSASLQENGEAVQNLLNQMQQADIQHIEFRDDRFVAAVAVNEGQPVTLVYLARAVTPGTYQVPQPQVESMYVPQWRATGTASGPLTVTP				NA	NA	NA	NA	NA
BMS020_05265	858	sseA_1	COG2897	3-mercaptopyruvate sulfurtransferase	ATGTCCACCTCGTTTTTTGTCGCCGCCGACTGGCTGGCGGAACATATTGATGACCCGGAGATCCAGATTATCGACGCCCGCATGGCGCCCGCCGGGCAGGAGGCCCTGCGCGATATGGCCGCGGAGTACCGCGCCGGCCACGTGCCGAACGCGCTGTTTTTCGATATCGAGGCGCTGTCCGATCACACCAGCCCGCTGCCGCATATGATGCCGCGCGCCGAGGCGTTTGCCGTGGCCATGCGCGAACTGGGCGTCTGCAGCGATAAGCACCTGGTCGTCTATGACGAAGGCAATCTGTTTTCCGCCCCGCGCGCCTGGTGGATGCTGCGCGCCTTTGGCGTGGAGAAAGTGTCGATTCTGGCCGGTGGGCTGGAGGGCTGGCGTCGCGACGAGCTGCCGCTGGAACAAGGGGTGCCGGAGGTGGCCGAAGGAGAATTCGACGTGCGGTTCGATCCTCAGCAAATTAAGCGCCTGACCGACGTGCTGCTGGTCAGCCATGAAGGATCGGCGCAGATTGTCGATGCGCGTCCGGCGGCCCGGTTTAACGGCCAGGCTGACGAACCGCGCCCGGGCCTGCGGCGCGGGCATATCCCCGGCGCGCTGAACGTCCCGTGGACAGAGCTGGTGATTAACGGCGAGCTGAAGACCGTCGACGAGCTGAACGACATCTTTTTGCGTCAGGGCGTCGATTTTGATCGGCCCATTATCGCCAGCTGCGGATCCGGCGTGACGGCGGCGGTGGTCGTGCTGGCGCTCACCACGCTTGGCGTAAACGGCGTCTGTCTGTACGACGGCTCATGGAGCGAATGGGGGGCGCGCAGCGATCTGCCGATTGAACCGGCTCCTGCCGCTCAGTAA	MSTSFFVAADWLAEHIDDPEIQIIDARMAPAGQEALRDMAAEYRAGHVPNALFFDIEALSDHTSPLPHMMPRAEAFAVAMRELGVCSDKHLVVYDEGNLFSAPRAWWMLRAFGVEKVSILAGGLEGWRRDELPLEQGVPEVAEGEFDVRFDPQQIKRLTDVLLVSHEGSAQIVDARPAARFNGQADEPRPGLRRGHIPGALNVPWTELVINGELKTVDELNDIFLRQGVDFDRPIIASCGSGVTAAVVVLALTTLGVNGVCLYDGSWSEWGARSDLPIEPAPAAQ	PGPT0002045_2719	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
BMS020_05266	651			hypothetical protein	ATGGCTTTTTCATTAGCGGATCTCATGGATGTCGTACACAAGCACAACCGCAATCCCACCCCGAAACCGATGCCTGTAGACGAAGTGGATCGCCTGCGCGTCCGGAAATACCGTGATCCGCAAAATAGCGAAACCGTGGCGCTTCCGGAGAGTCTGAAAGCGCTGCTGGCCTACGATTGCCAGCTGACAAGCCCCTACGGTCAACGGGTGCTGGAATCGGTTCTGAACGCCATTGATGAACATGGCGTCCTGCTTTCCGACTCACTGGATGAAGAGGCTTATTATATGAATGGCCTTGATATGATCGGGCTGGATTTTGAAGAGCTAATGCCCGTCTGGAACGACGATCCGCGTCTTCCTGCCCTGATTCGCCTCTGCCATCCCGGGGATCAGCAGGTATTTATCTATGTCACCGAGCGTGATGAACAGGGTGAATATCCTGTCGTCCGTTTCGAGGGTAAAGAGAATGAGCTTTGGCTGGCAGAATCGTCGCTGATTGAATATTTGCAGGGGATTTTTACCGGTGGAAAGGAGAGCCACGACGAATGGCAGCATCAACAAGCCCTCAACGAGTCACGCGATGGCGCCTTGCTGGAGCTGGAATATATTCATGAGGATCTTTACGCCAGGCTCGAAGGTTGTCCTGACTAA	MAFSLADLMDVVHKHNRNPTPKPMPVDEVDRLRVRKYRDPQNSETVALPESLKALLAYDCQLTSPYGQRVLESVLNAIDEHGVLLSDSLDEEAYYMNGLDMIGLDFEELMPVWNDDPRLPALIRLCHPGDQQVFIYVTERDEQGEYPVVRFEGKENELWLAESSLIEYLQGIFTGGKESHDEWQHQQALNESRDGALLELEYIHEDLYARLEGCPD				NA	NA	NA	NA	NA
BMS020_05267	843			hypothetical protein	ATGGCATTAGTCTCCAACCCACATTCTGCTTATTCCCCGCGCCTTCCCTGGCTGGGAGGCATAGCTGGCCTTCTGGTCGGCGGCGCAATCCTCTATTTTTGGCAGCAATGGAACCGGACATGGTTAAGCCTGGTTCCTGCGCCCGTTTCCGTTTATACCCGCTTTCTCGGCGTCACTTTGGAAGACGTCCCGCTGATCACCTATGGTCATCAGGCGCTGCTGGGTTTTCTGATGGTGCTGCTCGCGCCCGGTTACGGTAAATCGACGCTTGCCGCATGGATGATGCACAACCCGGCGTCAAGCCGCCGCTGGCCCGGCGAGGTACTCCGTGCCTGGGCGATGAAATTTGGCCTGCTGGTCATGGTCTTTTGCAATCTGTTCTTTTTGTCCCGGGTCGGATCCGGAACCCTGGCGTTTTATATTTTTATTCTCCAGCACGTCAGCGTTGCCGCGGCAGTGGCATCAGGGGTGCTGCTGCTGCGTGACGCCCGACGTCTGGCCCGCACGTTCGACGCTCAGCTGGCGGATCTGCGCCTTCTGATGCTCCTCACCCTCGGGTTCCAGACGATTTTGCCGGCGCAGATCGCGCTGATGAGCGCCCGGGGCGTGAATACACCGCTGGGCTGGTATATTGTCATTGCGCAGATGGCGGGGGTGTTACTGGCGTTTATGCTGGTCGCCGGGCTGGTAGCAGCGCTACGCTATCTGCTGGGAGAGGAAAGGTGCCGGGCCTTGCGCGGGGATATGGCGCTCTTCAACGGCGTCGTCACGCTGTGCGTGACGGGATTTCTGCTCTATAACATGGTGTCAGCCTATCCGCGGATCGTTGCCGCCCTGCATTAA	MALVSNPHSAYSPRLPWLGGIAGLLVGGAILYFWQQWNRTWLSLVPAPVSVYTRFLGVTLEDVPLITYGHQALLGFLMVLLAPGYGKSTLAAWMMHNPASSRRWPGEVLRAWAMKFGLLVMVFCNLFFLSRVGSGTLAFYIFILQHVSVAAAVASGVLLLRDARRLARTFDAQLADLRLLMLLTLGFQTILPAQIALMSARGVNTPLGWYIVIAQMAGVLLAFMLVAGLVAALRYLLGEERCRALRGDMALFNGVVTLCVTGFLLYNMVSAYPRIVAALH				NA	NA	NA	NA	NA
BMS020_05268	777			hypothetical protein	ATGTCCGAAACCAAAAACGAATTAGAAACCCTGCTGGAAAAAGCGGCTACCGAGCCCGCTCATCGTCCGGCATTTTTCAGCGCGCTGCTTGAGGCCACCGTCTGGGTACCAGGCAGCGCAGCCGATGGCGAGCAGATTGTCGAAGATAGCGCGCTGGATCTGCAGCACTGGGAAAAAGATGACGGCACGTCGGTCATTCCGTTCTTCACTTCGCTTGAGGCCCTGCAGCAGGCGGTGGAAGACGAACAGGCTTTCGTGATGATGCCGGCCCGCACGCTGATGGCGATGACTCTCGGTGAATCGCTGTTCCTCAACCCGAAGCTGCCGAACGGTAAAGCGTTCACCCCGCGCGAAATCAGCCATCTGCTCGGGGAAGAGGGCAGCCCGCTCAGCACCCAGACGGTGCTGGAAGGGGGGGAAGCGCTGCTGCTGTCTGAAGTCGCCGAGCCGCCGGCGCAGATGGTGGATTCGCTGACCACGCTGTTCAAAACGCTGAAAACCGTCAAGCGGGCGTACCTGTGCTCGATCAAAGAGCACGCCGACGCGCCCGCTAATCTGCTGATCGGCATTGAAGCGGAAGGGGATATCGAGTCCATCATTCAGACCACCGGCAGCGTGGCCACCGATACCCTGCCCGGCGATGAGCCGATCGATATTTGCCAGGTGGTGGAAGGCGAGAAGGGCATCAGCCACTTTATGATTGCCCATATCACGCCGTTCTATGAAAAGCGCTGGGGCAGCTTCCTGCGCGATTTCAAACAAAACCGTATTATCTGA	MSETKNELETLLEKAATEPAHRPAFFSALLEATVWVPGSAADGEQIVEDSALDLQHWEKDDGTSVIPFFTSLEALQQAVEDEQAFVMMPARTLMAMTLGESLFLNPKLPNGKAFTPREISHLLGEEGSPLSTQTVLEGGEALLLSEVAEPPAQMVDSLTTLFKTLKTVKRAYLCSIKEHADAPANLLIGIEAEGDIESIIQTTGSVATDTLPGDEPIDICQVVEGEKGISHFMIAHITPFYEKRWGSFLRDFKQNRII				NA	NA	NA	NA	NA
BMS020_05269	1287	pepB	COG0260	Peptidase B	ATGACCGAAGCCATGAAGATTACGCTTTCCACTCAGCCAGCCGATGCGCGCTGGGGAGAAAAGGCGTCTTACAGCATTAATCATGACGGCATCGCCCTGCATCTCAACGGCAAAGACGACCTGGGCTTGATTCAGCGCGCGGCGCGTAAAATTGACGGCATGGGAATCAAACATGTCGCGTTAAGCGGCGAAGGCTGGAACACCGACCGCGCGTGGGCGTTCTGGGCGGGTTATAAAGGCCCGAAAGGCACTCGTAAAGTTGAATGGCCGACGCTGGACGATGCGCAGAAAAGCGAGCTGGATAACCGTCTGACCATTATTGACTGGGTGCGCGACACCATCAATGCGCCGGCGGAAGAGCTGGGCCCGGAACAGCTGGCGCAGCGCGCCGTCGACCTGCTGTGCAGCGTGGCGGGCGAGAAGATGAGCTATCGCATCACCAAAGGCGAAGATCTGCGTGAGCAGGGCTATCTCGGCCTGCACACGGTGGGCCGCGGCTCCGAGCGCCCGCCGGTTTTGCTGGCGCTGGACTATAACCCGACCGGCGATAAAGAAGCCCCGGTATATGCCTGTCTGGTAGGTAAAGGCATCACCTTTGATTCCGGCGGCTACAGCATCAAACAGAGCGCCTTTATGGATTCAATGAAATCCGATATGGGCGGCGCGGCGACTATCACCGGCGCCCTGGCCTTCGCTATTACCCGCGGGCTGAACAAGCGCGTGAAGCTCTATCTGTGCTGCGCCGACAACCTGATCAGCGGTAACGCTTTCAAACTGGGCGATATTATTCATTATCGCAACGGCAAAACCGTCGAAGTCATGAACACCGACGCCGAAGGTCGTCTGGTGCTGGCGGATGGCCTGATTGACGCTTCGGCGCAGAAGCCGGAGCTGATCATCGATGCCGCCACCCTGACCGGCGCGGCGAAAACCGCGCTCGGCAACGACTACCACGCGCTGTTCAGCTTTGACGATGCGCTGGCGAATCGCCTGCTGGCGAGCGCTCAGGCGGAAAATGAAGCGTTCTGGCGTCTGCCGCTGGCCGAATTCCACCGTCATCAGCTGCCGTCTAATTTCGCGGAACTGAACAATACCGGCAGCGCCGCCTATCCGGCCGGCGCCAGCACCGCGGCGGGCTTCCTGTCCCATTTCGTGGAAAACTACCACCAGGGCTGGCTGCATATCGACTGTTCGGCAACCTACCGCAAATCTGCCGTTGAGCAGTGGTCGGCGGGCGCGACAGGGCTTGGCGTACGTACTATCGCCAATCTGCTGACGGCTGAGTAA	MTEAMKITLSTQPADARWGEKASYSINHDGIALHLNGKDDLGLIQRAARKIDGMGIKHVALSGEGWNTDRAWAFWAGYKGPKGTRKVEWPTLDDAQKSELDNRLTIIDWVRDTINAPAEELGPEQLAQRAVDLLCSVAGEKMSYRITKGEDLREQGYLGLHTVGRGSERPPVLLALDYNPTGDKEAPVYACLVGKGITFDSGGYSIKQSAFMDSMKSDMGGAATITGALAFAITRGLNKRVKLYLCCADNLISGNAFKLGDIIHYRNGKTVEVMNTDAEGRLVLADGLIDASAQKPELIIDAATLTGAAKTALGNDYHALFSFDDALANRLLASAQAENEAFWRLPLAEFHRHQLPSNFAELNNTGSAAYPAGASTAAGFLSHFVENYHQGWLHIDCSATYRKSAVEQWSAGATGLGVRTIANLLTAE				NA	NA	NA	NA	NA
BMS020_05270	201	iscX	COG2975	Protein IscX	ATGGCACTGAAATGGACCGACAGTCGTGAAATCGGCGAAGCGCTGTATGACGCTTACCCTGACCTCGACCCAAAAACCGTTCGCTTTACCGACATGCATCAGTGGATTTGCGATCTGGAAGAGTTTGATGATGACCCGAACGCATCCAATGAAAAAATTCTCGAGGCGATTCTGTTAGTCTGGTTAGACGAAGCCGAATAA	MALKWTDSREIGEALYDAYPDLDPKTVRFTDMHQWICDLEEFDDDPNASNEKILEAILLVWLDEAE	PGPT0014555_303	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043	NA	NA
BMS020_05271	336	fdx_2	COG0633	2Fe-2S ferredoxin	ATGCCAAAAATTGTATTTCTGCCCCACCAGGACCTGTGTCCGGATGGCATCGTTGTGGAAGCTGAGACCGGTGAAACTATTCTGGATGCGGCGCTGCGTAGCGGCATCGAGATTGAACACGCCTGCGAAAAATCCTGTGCCTGCACCACCTGCCACTGCATCGTGCGTGAAGGCTTTGACTCGCTGGCGGAAAGTACCGAAGATGAAGACGATATGCTGGATAAAGCCTGGGGACTGGAGCCTGACAGCCGCCTGAGCTGCCAGGCGCGCGTCACTGACGAAGATCTGGTCGTTGAGATCCCGCGTTACACCATCAACCACGCACGCGAGCACTAA	MPKIVFLPHQDLCPDGIVVEAETGETILDAALRSGIEIEHACEKSCACTTCHCIVREGFDSLAESTEDEDDMLDKAWGLEPDSRLSCQARVTDEDLVVEIPRYTINHAREH	PGPT0006786_993	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0006786-fdx|cndB-K04755
BMS020_05272	1851	hscA	COG0443	Chaperone protein HscA	ATGGCCTTATTACAAATTAGTGAGCCCGGCCTGAGCGCCGCGCCGCACCAGCGTCGTCTGGCGGCCGGTATCGACCTGGGCACCACCAATTCTCTGGTGGCTACCGTGCGTAGCGGCCAGGCCGAGACTCTGCCCGATCATCAAGGCCGCTATCTGCTGCCGTCGGTGGTGAATTACCACGCATCGGGGCTGACCGTCGGCTATGACGCCCGGCTGAACGCCGCCCAGGATCCCGCCAATACCATCAGCTCCGTGAAACGGATGATGGGGCGCTCCCTCGCTGATATCCAACACCGCTATCCGCATCTGCCATATCAGCTGCAGGCCAGTGAAAACGGCCTGCCGATGATCCAGACCGCCGGCGGCCTGCTGAACCCGATTCGCGTCTCCGCCGATATCCTGAAAGCGCTGGCCGCCCGGGCCACTGAAGCGCTGGCCGGCGAGCTCGACGGCGTGGTCATCACCGTCCCCGCTTACTTTGATGACGCCCAGCGTCAGGGGACCAAAGACGCGGCGCGCCTGGCGGGTCTGCACGTGCTGCGCCTGCTTAATGAACCGACCGCGGCGGCTATCGCCTATGGCCTTGATTCCGGCCAGGAAGGGGTGATTGCGGTCTACGATCTCGGCGGCGGCACCTTTGATATTTCTATTCTGCGCTTAAGCCGCGGGGTGTTTGAAGTGCTGGCCACCGGCGGCGACTCGGCCCTCGGCGGCGATGATTTCGATCATCTGCTGGCGGACTACCTGCGCGAGCAGGCGGGCTTTAGCGACCGTAGCGACAACCGCCTGCAGCGTGAGCTGCTGGATGCCGCCATCGCGGCGAAAATCGCCCTTAGCGATGCCGAGGTGGCGCACGTTGAGGTCGGCGGCTGGCAGGGCGATATTACTCGCAGCCAGTTTAACGATCTGATCGCCCCGCTGGTAAAACGCACGTTAATGGCCTGCCGCCGGGCGCTGAAAGACGCTGGCGTTGAGGCGCAAGAGGTGCTGGAAGTGGTGATGGTCGGCGGTTCCACCCGCGTGCCGCTGGTGCGCGAGCGCGTCGGCGACTTCTTCGGTCGCACCCCGCTGACCTCCATCGACCCTGACAAAGTCGTCGCCATTGGCGCGGCGATCCAGGCCGATATTCTGGTCGGCAACAAGCCGGACAGCGAACTGTTGCTGCTCGACGTTATCCCGCTGTCGTTAGGGCTGGAAACCATGGGCGGCCTGGTGGAGAAAGTGATCCCGCGTAATACCACCATTCCGGTGGCCCGCGCCCAGGAGTTCACCACCTTCAAAGATGGCCAAACGGCGATGTCCATTCATGTGATGCAGGGCGAGCGTGAGCTGGTGCAGGATTGCCGCTCCCTGGCGCGCTTTGCGCTGCGCGGTATCCCGGCGCTGCCGGCGGGCGGGGCGCATATTCGCGTCACCTTCCAGGTGGACGCCGATGGCCTGCTGAGCGTCACGGCGATGGAAAAGTCGACCGGCGTGGAAGCCTCTATTCAGGTGAAACCGTCTTACGGTCTGACCGATGGCGAAATCGCCACCATGATTAAAGATTCGATGAGCTACGCCGAACAGGATATTCAGGCGCGCATGCTGGCTGAACAGAAAGTGGAAGCCGCACGCGTCCTGGAGAGCCTGACAAGCGCGCTGGCCGCCGACGCCGCGCTGTTAAGCGCCGCGGAGCGTCAGGCTATCGATGCCGCTGCGGAGCAGGTACGCGCCGCCGCGGCAGGCGACGACGCCGACGCCATTAAAGAAGCGATTAAAAATATCGACACACAAACCCAGGAATTCGCCGCCCGCCGTATGGATCAGTCGGTCCGTATCGCGCTGAAAGGCCAATCCGTGGACGAGGTTTAA	MALLQISEPGLSAAPHQRRLAAGIDLGTTNSLVATVRSGQAETLPDHQGRYLLPSVVNYHASGLTVGYDARLNAAQDPANTISSVKRMMGRSLADIQHRYPHLPYQLQASENGLPMIQTAGGLLNPIRVSADILKALAARATEALAGELDGVVITVPAYFDDAQRQGTKDAARLAGLHVLRLLNEPTAAAIAYGLDSGQEGVIAVYDLGGGTFDISILRLSRGVFEVLATGGDSALGGDDFDHLLADYLREQAGFSDRSDNRLQRELLDAAIAAKIALSDAEVAHVEVGGWQGDITRSQFNDLIAPLVKRTLMACRRALKDAGVEAQEVLEVVMVGGSTRVPLVRERVGDFFGRTPLTSIDPDKVVAIGAAIQADILVGNKPDSELLLLDVIPLSLGLETMGGLVEKVIPRNTTIPVARAQEFTTFKDGQTAMSIHVMQGERELVQDCRSLARFALRGIPALPAGGAHIRVTFQVDADGLLSVTAMEKSTGVEASIQVKPSYGLTDGEIATMIKDSMSYAEQDIQARMLAEQKVEAARVLESLTSALAADAALLSAAERQAIDAAAEQVRAAAAGDDADAIKEAIKNIDTQTQEFAARRMDQSVRIALKGQSVDEV	PGPT0014555_6318	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043	NA	NA
BMS020_05273	516	hscB	COG1076	Co-chaperone protein HscB	ATGGACTATTTCACCCTCTTCGGGTTACCAGCCAGCTATACCCTCTCGCTTGAACAACTGGCTGTCCGGTATCAGGATCTGCAGCGCCAGTACCATCCGGATAAATTTGCCAGCGCGCCCGCTGCGGAACAGCTTGCGGCGGTTCAGTATTCCGCCACCATTAACCAGGCCTGGCAGACGCTGCGCCATCCCCTGACCCGCGCAGAATACCTCCTCTCGCTGCATGGCTTCGATCTGGCCAGCGAGCAGCATACCGTTCGCGATACCGCGTTCCTGATGGAACAGCTGGAACTGCGCGAAGAGCTGGATGAGATCGGCCAGGCGAAAGACGAAGCGCGGCTGGAAGGCTTTATCAAACGAGTGAAAGCGCTGTTTGATACCCGCCATCAGCTGATGGTTGACCAATTGCATAATGAGAGCTGGGAGGCGGCGGCGGACACGGTTCGTAAGCTCCGTTTCCTCGATAAACTGCGCAGCAGTGCTGAAGAACTCGAAGAAAAACTGCTCGATTTTTAA	MDYFTLFGLPASYTLSLEQLAVRYQDLQRQYHPDKFASAPAAEQLAAVQYSATINQAWQTLRHPLTRAEYLLSLHGFDLASEQHTVRDTAFLMEQLELREELDEIGQAKDEARLEGFIKRVKALFDTRHQLMVDQLHNESWEAAADTVRKLRFLDKLRSSAEELEEKLLDF				NA	NA	NA	NA	NA
BMS020_05274	324	iscA	COG0316	Iron-binding protein IscA	ATGTCGATTACTCTTAGCGACAGTGCAGCAGCGCGAGTCAATGCCTTCCTGGCAAACCGCGGAAAAGGGTTTGGCCTGCGCCTGGGCGTGAGAACCTCCGGCTGCTCAGGTATGGCCTATGTACTGGAGTTTGTTGACGAGCCGGCGGCTGAAGACACCGTGTTTGAAGACAAAGGCGTGAAGGTCGTGATCGACGGCAAAAGTCTGCAATTCCTCGACGGCACGCAGCTGGACTTCGTCAAAGAAGGCCTTAACGAAGGGTTCAAGTTCACTAACCCTAACGTCAAAGATGAGTGCGGCTGCGGCGAAAGCTTTAACGTATAA	MSITLSDSAAARVNAFLANRGKGFGLRLGVRTSGCSGMAYVLEFVDEPAAEDTVFEDKGVKVVIDGKSLQFLDGTQLDFVKEGLNEGFKFTNPNVKDECGCGESFNV	PGPT0006740_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_QUENCHING	CE-QUORUM_QUENCHING-AHL-DEGRADATION,PGPT0006740-cpxB-K14338	NA	NA
BMS020_05275	387	iscU	COG0822	Iron-sulfur cluster assembly scaffold protein IscU	ATGGCTTACAGCGAAAAAGTTATCGATCATTACGAGAACCCGCGCAACGTCGGCTCTTTTGACAACAGCGACGAGAACGTCGGCAGCGGCATGGTCGGCGCGCCGGCCTGCGGCGACGTGATGAAGTTGCAGATTAAAGTCAACAATGAAGGTATCATTGAAGACGCGCGCTTCAAGACCTACGGCTGCGGTTCCGCTATCGCTTCCAGCTCTCTGGTCACCGAGTGGGTGAAGGGTAAATCCCTGGACGAAGCGCAGGCGATCAAGAATACCGATATCGCCGATGAACTGGAGCTGCCGCCGGTGAAAATTCACTGCTCTATTCTGGCGGAAGACGCGATTAAAGCCGCGATTGCGGATTACAAAAGCAAACGTGAAGCAAAATAA	MAYSEKVIDHYENPRNVGSFDNSDENVGSGMVGAPACGDVMKLQIKVNNEGIIEDARFKTYGCGSAIASSSLVTEWVKGKSLDEAQAIKNTDIADELELPPVKIHCSILAEDAIKAAIADYKSKREAK	PGPT0000075_2659	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000075-nifU|iscU-K04488	NA	NA
BMS020_05276	1215	iscS	COG1104	Cysteine desulfurase IscS	ATGAAATTACCGATTTACCTCGATTACTCCGCAACCACGCCGGTGGACCCGCGTGTTGCCGAGAAAATGATGCAGTTCCTGACCATGGACGGGACCTTTGGTAACCCGGCCTCCCGTTCCCACCGTTTTGGCTGGCAGGCTGAAGAGGCGGTTGATATCGCCCGCAATCAGATTGCCGAGCTGGTCGGTGCCGACCCGCGCGAAATCGTCTTTACCTCTGGTGCGACTGAATCCGACAACCTGGCGATCAAGGGTGCAGCCAACTTTTATCAGAAAAAAGGCAAGCACATCATCACCAGCAAAACCGAGCATAAAGCGGTTCTGGATACCTGCCGTCAGCTGGAGCGCGAAGGCTTCGAAGTGACCTACCTGGCGCCGCAGAGCAATGGGATTATCGATCTGAAAGAGCTGGAAGCGGCGATGCGTGACGACACCATCCTGGTTTCCATCATGCATGTGAATAACGAAATCGGCGTGGTGCAGGATATCGCTACCATCGGCGAGATGTGTCGCGCCCGCGGTATCATTTACCACGTTGACGCCACCCAGAGCGTGGGCAAGCTGCCTATCGATCTGAGCCAGCTGAAAGTTGACCTGATGTCCTTCTCCGGTCACAAAATCTACGGTCCGAAAGGCATCGGCGCGCTGTACGTGCGTCGTAAGCCGCGTATTCGTATCGAAGCGCAAATCCACGGCGGCGGTCACGAGCGCGGTATGCGTTCCGGTACTCTGCCTGTTCACCAGATCGTCGGCATGGGTGAAGCTTACCGTATCGCCAAAGAAGAGATGGAAAGCGAGATGGCGCGTCTGCGCACGCTGCGCAACCGTCTGTGGAACGGCGTGAAGGATATGGAAGAAGTGTACCTCAACGGCGACCTCGAGCAGGGCGCGCCGAACATTCTTAACGTCAGCTTTAACTATGTTGAAGGCGAGTCGCTGATTATGGCGCTGAAAGACCTGGCGGTTTCCTCCGGTTCAGCCTGTACTTCCGCGAGCCTTGAGCCATCCTACGTGCTGCGCGCGTTAGGCATGACTGATGAACTGGCGCACAGTTCTATTCGTTTCTCTTTAGGTCGTTTCACTACCGAAGAAGAGATTGACTACGCCATCAACCTGATTCGTAAATCCATTGGCCGTCTGCGCGAGCTTTCTCCACTGTGGGAAATGTTCAAACAGGGCGTGGATCTGAACAGTATTGAATGGTCACATCACTAA	MKLPIYLDYSATTPVDPRVAEKMMQFLTMDGTFGNPASRSHRFGWQAEEAVDIARNQIAELVGADPREIVFTSGATESDNLAIKGAANFYQKKGKHIITSKTEHKAVLDTCRQLEREGFEVTYLAPQSNGIIDLKELEAAMRDDTILVSIMHVNNEIGVVQDIATIGEMCRARGIIYHVDATQSVGKLPIDLSQLKVDLMSFSGHKIYGPKGIGALYVRRKPRIRIEAQIHGGGHERGMRSGTLPVHQIVGMGEAYRIAKEEMESEMARLRTLRNRLWNGVKDMEEVYLNGDLEQGAPNILNVSFNYVEGESLIMALKDLAVSSGSACTSASLEPSYVLRALGMTDELAHSSIRFSLGRFTTEEEIDYAINLIRKSIGRLRELSPLWEMFKQGVDLNSIEWSHH	PGPT0000065_1713	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
BMS020_05278	492	iscR	COG1959	HTH-type transcriptional regulator IscR	ATGAGACTGACATCTAAAGGGCGTTATGCCGTGACCGCGATGCTTGACGTTGCGCTCAACTCTGAAACGGGCCCGGTGCCGTTGGCAGATATTTCAGAGCGTCAGGGAATTTCGCTTTCCTATCTGGAACAGCTGTTCTCTCGCCTGCGTAAAAATGGCCTGGTTTCCAGCGTTCGTGGCCCAGGCGGCGGTTATCTGTTAGGTAAAGATGCCGGCAGTATCGCCGTCGGCGAAGTCATTAGCGCCGTGGACGAATCCGTTGACGCCACCCGTTGCCAGGGCAAGGGCGGCTGTCAGGGCGGTGATAAATGCCTGACTCACGCGCTGTGGCGCGATCTGAGCGAACGCCTGACCGGCTTCCTGAACAATATCACCCTCGGGGAACTGGTGAATAACCAGGAGATCCTCGATGTTTCCGGTCGTCAGCATCAGCACGAAACCCAGCGCAATGCGCGCACCCAGGACGCGATCGACGTTAAGCTGCGCGCCTGA	MRLTSKGRYAVTAMLDVALNSETGPVPLADISERQGISLSYLEQLFSRLRKNGLVSSVRGPGGGYLLGKDAGSIAVGEVISAVDESVDATRCQGKGGCQGGDKCLTHALWRDLSERLTGFLNNITLGELVNNQEILDVSGRQHQHETQRNARTQDAIDVKLRA	PGPT0004960_567	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-ANTIMONY_HOMEOSTASIS,PGPT0004960-iscR-K13643	NA	NA
BMS020_05279	735	trmJ_1	COG0565	tRNA (cytidine/uridine-2'-O-)-methyltransferase TrmJ	ATGCTGCAAAATATTCGAATCGTACTGGTAGAAACCTCCCACACCGGCAATATGGGCTCCGTTGCCCGCGCGATGAAAACCATGGGCTTAACCAACCTGTGGCTGGTCAATCCGCTGGTGAAACCTGATTCCCAGGCCATTGCGCTGGCCGCGGGCGCCAGCGACGTCATTGGCAACGCGCAGATCGTCGATACCCTTGATGAAGCGCTGGCGGGCTGTAGCCTGGTGGTTGGCACCAGCGCGCGCTCCCGCACGCTGCCGTGGCCGATGCTCGATCCCCGCGAATGCGGCCTGAAAAGCATCGCCGAAGGCCAGCATGCGCCGGTGGCGTTGGTGTTTGGCCGCGAGCGCGTTGGCCTGACCAACGACGAACTGCAGAAGTGTCACTACCATGTGGCCATCGCCGCCAACCCGGAGTACAGCTCGCTGAACCTGGCGATGGCGGTGCAGGTTATCGCCTACGAAGTGCGGATGGCCTGGCTGGCGGCGCAGGAGCAAGCGCAGCCGGCGGTTGAGCACGAAGAAGCGCCGTACCCGCTGGTGGATGACCTGGAGCGTTTCTACGGTCATCTTGAGCAGACGCTGCTGGCGACGGGCTTTATTCGCCCGAATCATCCGGGGCAGGTGATGAACAAACTGCGTCGTCTGTTCACTCGTGCGCGCCCGGAAAGCCAGGAGCTGAACATCCTGCGCGGCATGCTGGCCTCGATTGACCAGCAGAATAAAGGCAAGTAA	MLQNIRIVLVETSHTGNMGSVARAMKTMGLTNLWLVNPLVKPDSQAIALAAGASDVIGNAQIVDTLDEALAGCSLVVGTSARSRTLPWPMLDPRECGLKSIAEGQHAPVALVFGRERVGLTNDELQKCHYHVAIAANPEYSSLNLAMAVQVIAYEVRMAWLAAQEQAQPAVEHEEAPYPLVDDLERFYGHLEQTLLATGFIRPNHPGQVMNKLRRLFTRARPESQELNILRGMLASIDQQNKGK				NA	NA	NA	NA	NA
BMS020_05280	804	suhB_2	COG0483	Inositol-1-monophosphatase	ATGCATCCGATGCTGAACATCGCCGTGCGCGCCGCGCGCAAGGCGGGTAATTTAATTGCCAAACACTACGAAACGCCAGACACCGTAGAAACCAGCCAGAAAGGCAGCAATGATTTTGTGACCAACGTCGATAAAGCCGCCGAAGCGATTATTATCGAAACCATTCGCAAATCTTACCCGCAGCACACCATTATCACCGAAGAAAGCGGTGAACACGCTGGTGAAGAGCAGGATGTTCAATGGGTTATCGATCCACTGGATGGCACCACCAACTTCGTTAAACGTCTGCCGCACTTCTCTGTTTCCATCGCCGTACGCATCAAAGGCCGTACTGAAGTCGCGGTGGTTTACGATCCGATGCGTAACGAACTGTTCACCGCGACCCGCGGCCAGGGCGCGCAGCTGAACGGCTACCGTCTGCGCGGCAGCAACGCTCGCGACCTCGACGGCACCATCATCGCGACCGGCTTCCCGTTCAAGGCGAAGCAGCACGCCACCACTTACATGAATATTCTCGGCAACATGTTCACCGAATGCGCCGATTTCCGCCGCACCGGCTCCGCCGCGCTGGATCTGGCCTACGTTGCCGCCGGCCGCGTTGACGGTTACTTTGAAATTGCCCTGAAACCATGGGATTTCGCCGCAGGCGAGCTGATCGCCCGTGAAGCAGGCGCTATCGTTTGCGACTTCACCGGCGGTCATAACTATATGCTGACGGGCAACATCGTTGCCGGTAACCCGCGTGTGGTGAAAGCGATGCTGGCGAATATGCGCGAGCAGCTGAGCGACGCGCTGAAGCGTTAA	MHPMLNIAVRAARKAGNLIAKHYETPDTVETSQKGSNDFVTNVDKAAEAIIIETIRKSYPQHTIITEESGEHAGEEQDVQWVIDPLDGTTNFVKRLPHFSVSIAVRIKGRTEVAVVYDPMRNELFTATRGQGAQLNGYRLRGSNARDLDGTIIATGFPFKAKQHATTYMNILGNMFTECADFRRTGSAALDLAYVAAGRVDGYFEIALKPWDFAAGELIAREAGAIVCDFTGGHNYMLTGNIVAGNPRVVKAMLANMREQLSDALKR	PGPT0018535_4030	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
BMS020_05281	981			hypothetical protein	ATGTCAGTAATTTTTACCCCGCGCACGCGCGCGTCGCGCTGGAAAGCGCTGTGGCCGTTGGCGCTACTGCTGGCCGTGAGCGTCACGGGCGGCTTCTGGCTGTGGCAGGCCTGGCCGCAGGTGCTGATGCAGAGCGCGGTCTGGCAGCGCGCGCTCAATCTGGAGCTCAGCCGCCTGCTGCAGGCGGTGGCGGAGAACCCGGCGGCGGCGGGGCTGTCGCTGCTTGGGTTCAGCTTCGTTTACGGGGTGCTCCATGCCTTAGGGCCAGGCCACGGCAAAATTGTCATTACCACCTGGCTTGCCACCCATCCCTCGAAGTTGAAATCGAGTATTAACCTGACGCTGGCCGCCTCTTTATTGCAGGGGCTGGTGGCTATCGCGCTGGTGGTAGTGGTGCTGGCGCTGCTGCAGCTGCCGGCGCGCCAGCTGCATCTCAGTAGTTTCTGGCTCGAGAAGGGGAGCTATTTGCTGGTGGGCGCGTTAGGTCTGCTGCTCTGCTGGCGGGCGCTGAAAAAGCTGCGTCTGCTGCTGAGCCGGCCAACGTTTACCGCGTTTACCCCGCATCATGCTCATAACGAACACTGCGGCTGCGGGCATCAGCATCTCCCGGCCCCGGAGCAGCTGCAGGCCGGCGACGACTGGCGGGCTCGCACCGTGATTGTCCTGTCGATGGGCATGCGTCCCTGCTCGGGGGCGATCATGGTCCTGCTGTTCAGCAAGGTGATCGGGGTGTTCAACTGGGGGATGGCGGCGGCGCTGGCGATGGCGGCAGGGACCTCATTAACTATCACGGCGCTGGCGCTGCTGGTGCACAGTTTTCGCCAGCTGGCGGTGAAGCTGGGTCGGCATCAGGCGCCGCCGCTGTGGCGTCAGGTGGGCTGGCTGACGCTGGCGCTGGCCGGCGGCGTGGCGCTGCTGGTGGCCGCTGTCGTGATGTGGAGTAGCGCGATCGCGCCAGGCGGCGGTTTGCGGCCGTTTTAG	MSVIFTPRTRASRWKALWPLALLLAVSVTGGFWLWQAWPQVLMQSAVWQRALNLELSRLLQAVAENPAAAGLSLLGFSFVYGVLHALGPGHGKIVITTWLATHPSKLKSSINLTLAASLLQGLVAIALVVVVLALLQLPARQLHLSSFWLEKGSYLLVGALGLLLCWRALKKLRLLLSRPTFTAFTPHHAHNEHCGCGHQHLPAPEQLQAGDDWRARTVIVLSMGMRPCSGAIMVLLFSKVIGVFNWGMAAALAMAAGTSLTITALALLVHSFRQLAVKLGRHQAPPLWRQVGWLTLALAGGVALLVAAVVMWSSAIAPGGGLRPF	PGPT0004550_775	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004550-rcnA-K08970	NA	NA
BMS020_05282	639			hypothetical protein	ATGAACAGAGTGAAACAATGCACCAGCGCGGCGTTTTTCATGGTTTTATCATGGACAGCCGCCGCGCATCCGCATAGCTTCATCAGTTTGCAGAGCGAGCCGGTGGTCAAAGACGGCCTGCTGAGCGGGTTTAAAATGCGCTGGACGATGGATGAAATTACCTCATCGGATCTGCTCTACGACGCCGGAAACGCTAAACCAGGCAGCGAAGTATGGAAAAAACTGGCGGCGGAGGTGATGGCCAACGTGCTCGGCCAGCACTATTTCAGCGAGCTGTGGCACAACGGCCAGCGGGTGAAATTTGAAAATCGCCCCGACGGCTACGGTCTTGAGCGCGACGGCCTGCAGGCGGTACTGACCTTCACCCTGCCGCTGGCGACGCCGCAACCCGTTGCCGGACAGACATTTACCTTTTCCACTTTCGACCCGACCTACTATGTCGACATGTTTTATGACAAAGATAGCGATTTTTCCCTGCCCGCAGGGCTGCAGGCCGACTGTAAGGCAACGGTAATGACGCCAAAACCGAATGACAAAATGCTCTCATACGCCCAGTCGCTGGATAAAGCGGATGCGCCGCCGGAGGATATGGCGCTGGGCAGCTATTTTGCCCAGAAGGTGACCCTGACATGTCAGTAA	MNRVKQCTSAAFFMVLSWTAAAHPHSFISLQSEPVVKDGLLSGFKMRWTMDEITSSDLLYDAGNAKPGSEVWKKLAAEVMANVLGQHYFSELWHNGQRVKFENRPDGYGLERDGLQAVLTFTLPLATPQPVAGQTFTFSTFDPTYYVDMFYDKDSDFSLPAGLQADCKATVMTPKPNDKMLSYAQSLDKADAPPEDMALGSYFAQKVTLTCQ				NA	NA	NA	NA	NA
BMS020_05283	1278			hypothetical protein	ATGATGACCGTCATTGAACCACCATCTGCGCTTTCCAGTCCACAGCGCCGTAGCCAGGTGCTCCTGATGTTTTATCTGCCCGGACAGTCGGTAACGACTGAACGGCTTGGCAGAATCAACCTCGTTGATGAGACCACGGCCCGGCAGGATATTGAGGAGACCGGACGCGAAATTCAGCGTTACCACCGCCTGACCCTTCGGTCACAGGTGGACGGCAGCTATCGGATTGAAGGCGCCGCGCTCGACCAACGTTTATGCCTGCTGCATGCGCTGCGGCGGGGCCTGCGCCTGTGCCCGCAGTTCGTTAACCATCATTTTACCCCGGCGCTGAAAACGCAGCTTAAACAGGAAGGCATCGCCCGTACCCTGTACGATGATACTAACCTGCAGGCGCTGGTGAACCGCTGCGCGCGAGCGCTCAATCGCCAGTTCGACTGCCGGGACGTTCAGTTTCTGCGCCTGTACCTGCAGTACTGTCTGCTTGAGCATCACCGGGGATATTCACCCGACTTCAATGATGAACAGCAACGCTGGGCGCAGACCGCCGCCGAGTTCACGTTGGCGCAGGAGATTGTCCGCCACTGGCAGCGTCGGGTCGGCGCGACGCCGCATGTCGGAGAGCCTTTTTTCCTCTCGCTGCTGTTTATGATGCTCAAAACCCCCGATCCGCTTCGCGATGGTCACCCGCAGGATCGACGCCTGCGGCTGGCTATTTCCGGCCTGATCCACCGCTTCCAGATGCTCGCCGGCAGGTCGTTCAGTGACGAGCAGGGGCTGAGCGATCAGCTTTATATTCACTTGTCGCAGGCGTTGATCCGCAGCGTGTTTGCTATCGGCATCGATAACACGCTCACAGAGGAAGTGAGCCGGCTCTATCCTCGCTTACTGCGCACCACCCAGGCGGCATTGAGCGAATTCGAGGAGGCCTGGCACGTCCGTTTTAATGAGGAAGAGACCGGCTTAATCGCGGTGATCTTTGGCGCCTGGCTGATGCAGAAAAGCGACCTGCATGAGAAGCAGGTCCTGCTGCTGACCGATGATAATCCGGATATGGAGGCGGCCCTGGAGCAGCAGTTGCGCGAACTGACGCTGCTGCCGCTGAACATCAAATACCAGAGCGTAGAGCGCTTTCAGAAAGAGGGGGCGCCCAAAGGGGTGACGCTTATCGTCACCCCCTATGCGACGGCGCTGCCGCTGTTTTCACCGCCGCTGATCCACGCGGAGAACTGCTTCACTGAACGCCAGCAGCAGCATATCTGCGCGATGCTCGAAGACTAG	MMTVIEPPSALSSPQRRSQVLLMFYLPGQSVTTERLGRINLVDETTARQDIEETGREIQRYHRLTLRSQVDGSYRIEGAALDQRLCLLHALRRGLRLCPQFVNHHFTPALKTQLKQEGIARTLYDDTNLQALVNRCARALNRQFDCRDVQFLRLYLQYCLLEHHRGYSPDFNDEQQRWAQTAAEFTLAQEIVRHWQRRVGATPHVGEPFFLSLLFMMLKTPDPLRDGHPQDRRLRLAISGLIHRFQMLAGRSFSDEQGLSDQLYIHLSQALIRSVFAIGIDNTLTEEVSRLYPRLLRTTQAALSEFEEAWHVRFNEEETGLIAVIFGAWLMQKSDLHEKQVLLLTDDNPDMEAALEQQLRELTLLPLNIKYQSVERFQKEGAPKGVTLIVTPYATALPLFSPPLIHAENCFTERQQQHICAMLED				NA	NA	NA	NA	NA
BMS020_05284	1137	hcaT		putative 3-phenylpropionic acid transporter	ATGGTCTTGCACTCCACGCGCTGGCTGGCGCTCAGTTACTTCACCTACTTTTTTAGCTACGGTATTTTTCTGCCCTTCTGGAGCGTCTGGCTGGCCGGTAACGGACTGACCCCGGAAACCATCGGCATCTTGCTCGGCGCCGGTCTGGTAGCCCGTTTTCTCGGCAGCCTGCTGATCGCCCCGCGGGTGAGCGACCCCTCCCGGCTGATCGCCGCGCTGCGCGTGCTGGCGCTGTTAACCTTGCTCTTCGCGCTGGCCTTCTGGGCCGGCAGCCACGTCGCATGGCTGCTGGCGATCATTGTGGGCTTCAACCTGTTCTTTTCGCCGCTGGTGCCGCTGACGGATGCCCTGGCCAATACCTGGCAAAAGCAAATCACCATGGACTATGGCCGGGTGCGGCTATGGGGCTCCATCGCCTTTGTGATTGGTTCGGCGCTGACCGGCAAGCTGGTGAGCCTGTTTGATTACCGGGCGATCCTGCTGATGCTCAGCCTGGGCGTCGCCTCGATGCTGCTCGGCATGCTGCTGAAACCGTCGGTGATGCCCGAGGGGGCGTCGCGCCAGCAGCAGGGGGCCGGACTGGCGGCCTGGCTGACGCTGGTGCGCCAGAGCTGGCGCTTTCTCGCCTGCGTTTGCCTGCTGCAGGGGGCGCACGCCGCCTACTACGGCTTTAGCGCCATTTACTGGCAGCAGGCAGGCTATTCGGCCTCGGCGGTGGGCTATTTGTGGTCGCTAGGCGTGGTGGCGGAAGTGGTGATCTTCGCGCTGAGTAAAAAGGTGTTCCGCCGCTTTAGCGCGCGGGATCTGCTGCTGCTCTCTGCCCTGTGCGGGCTGGTCCGCTGGACGCTGATGGGCTGGACCACGGCGCTGCCGGGGCTTATCCTCGCGCAGATCCTTCACTGCGGCACCTTTACGGTGTGTCATCTGGCGGCGATGCGCTATATCGCCGCTCGCCAGGGCAGCGAAGTGATCCGCCTGCAGGCCGTCTACTCCGCGGTGGCGATGGGCGGCAGTATTGCCATCATGACCGTCTTCGCCGGCTTCCTCTACCAGCACCTGCACCAGGGCGTGTTCTGGGTGATGGCGCTGCTGACCATCCCGGCGCTGGCTATCCGGCCAAAAACGGTGGCGGCCTAG	MVLHSTRWLALSYFTYFFSYGIFLPFWSVWLAGNGLTPETIGILLGAGLVARFLGSLLIAPRVSDPSRLIAALRVLALLTLLFALAFWAGSHVAWLLAIIVGFNLFFSPLVPLTDALANTWQKQITMDYGRVRLWGSIAFVIGSALTGKLVSLFDYRAILLMLSLGVASMLLGMLLKPSVMPEGASRQQQGAGLAAWLTLVRQSWRFLACVCLLQGAHAAYYGFSAIYWQQAGYSASAVGYLWSLGVVAEVVIFALSKKVFRRFSARDLLLLSALCGLVRWTLMGWTTALPGLILAQILHCGTFTVCHLAAMRYIAARQGSEVIRLQAVYSAVAMGGSIAIMTVFAGFLYQHLHQGVFWVMALLTIPALAIRPKTVAA	PGPT0028051_1540	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
BMS020_05285	837	yphB	COG2017	putative protein YphB	ATGGCGGAAGCGTGGATTCTGGAGAACGCGCATCTGCGGATGTGCGTCTCTTCTCTGGGCGGCAAAGTGCAAAGTTTATTCTCGCGGCACTATCAGGCGCCGGTGCTATATGAAAATCCCGCCGGCGGCATGTTTCCGATGCTGCCGATGGCCAATCGCGTTGCCGGAAATCGCTTTATTTTTCAGGGACGCGAGATAGTCCTGCCACGTCACCACGCCGACGCGCATTTTTTTCTCCACGGCGACGGTTGGCTGCAGCGTTGGGATATCATTGCGCGCGGGGGCGATTTTTGCGTGTTACAGCTACGTCGGCAGCATGTCTGCGGTTTCGATTACCTGGCGCAGATCCGCTATCAGTTGCAGGGTAACCAACTGATAGCGTCGCTGATGCTTACCCACTGCGGTAGTACGCCTATGCCCTACGGCGGCGGTTTTCATCCCTTTTTCTCCTTTGATAAGCGCAGCACGGCGCAGTTTGCCGCCAGTGGCTACTGGCCGGAAGGGGAACAGCACCTGCCGCTGGACTGGCAAAGCCATCTTCCCGGCTATGCCGATTTCAGCCACCCGCAGTACGGTGAGGATCGCTGGCTAAACGTCGGCTATTCCGGCTGGAGCGGGCGGGCGAGGGTGATTAGTGATGTGATGGATGTCACAATTCTTTCGCAAACTCCGTGGTTGATGCTTTTCAGAATGCAGGATGAACCGTTCCTTTGCCTCGAGCCGCAAACTCACCCGGTAAACGCCCATAACATGGACGGCCAACCGGGGCTGCGGGTTTTGGGCACTGGAGATACGCTGAACTTTTCGCTAACAATTGACGTTCAGGGGCGCGGATAG	MAEAWILENAHLRMCVSSLGGKVQSLFSRHYQAPVLYENPAGGMFPMLPMANRVAGNRFIFQGREIVLPRHHADAHFFLHGDGWLQRWDIIARGGDFCVLQLRRQHVCGFDYLAQIRYQLQGNQLIASLMLTHCGSTPMPYGGGFHPFFSFDKRSTAQFAASGYWPEGEQHLPLDWQSHLPGYADFSHPQYGEDRWLNVGYSGWSGRARVISDVMDVTILSQTPWLMLFRMQDEPFLCLEPQTHPVNAHNMDGQPGLRVLGTGDTLNFSLTIDVQGRG	PGPT0017825_5527	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
BMS020_05286	1437	xylE_1		D-xylose-proton symporter	ATGAATAATGCGCAGACACATCTCAAAATGGGCTACGTCTGGACTATCTGTCTGGTCGCCGCCTGCGGTGGTTTACTGTTTGGCTATGACTGGGTAGTCATTGGCGGCGCAAAGCCATTTTATGAAGCCTGGTTTTCTATTACCGATCCGGCACAGTCCGGCTGGGCGATGAGTTCGGCGTTGGCGGGCTGCGTTTTCGGCGCATTAATCTCGGGATGGTGCGCCGATAAACTCGGGCGCAAGCGGCCCTTAATACTGTCCGCCGTGCTGTTCAGCGCCTCGGCGTGGGGGACGGCGGTCGCCAGCAGTTTCGATATGTTTGTGGTTTACCGCATTGTGGGCGGCGTGGGGATTGGTCTGGCTTCCGCTCTCAGCCCGCTTTACATTGCCGAAGTCAGCCCGGCAGAAAAAAGAGGGCGCTTTGTTGCGATAAACCAGCTCACTATCGTGATTGGCGTGCTGGCCGCTCAGCTTATCAACCTGATGATTGCGGAACCCGTGGCGACGGGAGCGACACAGCAAATGATTGTCGAAACCTGGAACGGGCAGATGGGCTGGCGCTGGATGTTCGGCGCAGAACTGGTGCCGGCGCTGGCGTTTCTGATACTAATGTTCTTTGTTCCCGAATCGCCGCGCTGGCTCATGAAGGCCGGGAAGCCCGAGCGCGCCCGCGCCGCGCTGGAACGCATTGGTTCCGCCGACTATGCAGACAGAATATTACGCGACATCGCGCACACGCTGGAAAAAGATAACCATAAAATCTCCTATAGCGCGCTGCTGGCTCCGCAGGTAAAACCGATCGTTATCATCGGCATGGTCCTCGCCGTCTTCCAGCAGTGGTGCGGAATTAACGTCATCTTCAACTACGCACAGGAGATTTTTGCCTCGGCGGGATTCGATATTAACAGCACGCTGAAATCGATTGTCGCAACAGGGATCGTCAACCTGGTGTTTACCCTCGCCGCGCTGCCGCTGGTGGATAAGATCGGCCGCCGTAAACTGATGCTGCTCGGCGCTTCCGGATTGACGCTGATCTATGTGCTGATTGCCGGCGCTTACGCCATGGGCATTATGGGCTGGCCGGTACTGTTGTTGGTGCTGGCGGCGATTGCCATTTACGCTTTGACCCTGGCGCCGGTCACCTGGGTGCTGCTGGCGGAAATCTTCCCTAACCGCGTTCGCGGACTCGCCATGTCTTTAGGCACCCTGGCGCTGTGGATTGCCTGTTTCTTGTTAACCTACACTTTCCCGCTGCTTAATGCCGGTCTGGGCGCGGCGGGCAGCTTCCTGCTGTATGGTGTCATTTGCGCCGCCGGCTATCTCTATATTCTGCGCAACGTGCCGGAAACAAAGGGGATCACTCTCGAAGCCCTGGAAGAACAGCTGGCGCAACGCCATACGGGCGTTAATGCGGCGAAGCAGGAGCAGATGCGCTAA	MNNAQTHLKMGYVWTICLVAACGGLLFGYDWVVIGGAKPFYEAWFSITDPAQSGWAMSSALAGCVFGALISGWCADKLGRKRPLILSAVLFSASAWGTAVASSFDMFVVYRIVGGVGIGLASALSPLYIAEVSPAEKRGRFVAINQLTIVIGVLAAQLINLMIAEPVATGATQQMIVETWNGQMGWRWMFGAELVPALAFLILMFFVPESPRWLMKAGKPERARAALERIGSADYADRILRDIAHTLEKDNHKISYSALLAPQVKPIVIIGMVLAVFQQWCGINVIFNYAQEIFASAGFDINSTLKSIVATGIVNLVFTLAALPLVDKIGRRKLMLLGASGLTLIYVLIAGAYAMGIMGWPVLLLVLAAIAIYALTLAPVTWVLLAEIFPNRVRGLAMSLGTLALWIACFLLTYTFPLLNAGLGAAGSFLLYGVICAAGYLYILRNVPETKGITLEALEEQLAQRHTGVNAAKQEQMR	PGPT0014450_217	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_XYLOSE_TRANSPORT_II,PGPT0014450-xylE-K08138	NA	NA
BMS020_05287	3267			hypothetical protein	ATGTACGGTTCGGTTAAGGTCTGGCAGGAAATAATTACATTACCTACGTGGACGACGGGGGCGGAGGATCCGAACCCCATGTTTCTGGAAAAACGCGTTTATCAAGGCTCCTCCGGTAACGTCTATCCCTACGGCGTGATTGACACCCTGACCGGCGAACGTGAGATGCGTGATTATCAGGCAGTATGGATGGAGAATGATTTCATTCGAATTATGCTGTTACCGGAACTCGGCGGCCGTATTCATCGTGCGTATGACAAGGTCAAACAGCGCGATTTCGTCTACTACAACGAAGTGGTGAAACCCGCGTTGGTTGGGCTATTAGGGCCTTGGATCTCCGGCGGTATCGAGTTCAACTGGCCTCAGCACCATCGTCCAACCACTTTTATGCCCGTTGATTTCACCATTACGCAGGGTGAACACGGTGAACAAACGGTGTGGATGGGGGAAGTCGAACCGATGCGCGGCTTACAGTTGATGGCTGGCTTCACGCTGTACCCGGACAGGGCGCTCGTGGAAATTACCGGCAAAGTGTTTAACGGTAACGCCACACCGCGCCATTTTCTGTGGTGGTCAAACCCAGCGGTGAAGGGGGGAGACGATCACCAGAGCGTATTCCCGCCAGACGTCACGGCGGTGTTCGATCACGGTAAACGTGCCGTCTCGTCATTTCCTATTGCCACCGGTACCTATTACAAAGTGGACTATTCCGTGGGTGTCGATATATCTCGCTATAAGAATGTGCCAGTCCCCACTTCCTACATGGCGGAAAAGTCAGAATATGATTTTGTCGGCGCCTGGCATCACGGCGAGCGCGGTGGCTTGCTGCACGTGGCGGATCATCACATCTCGCCCGGAAAAAAACAGTGGTCATGGGGTCACGGCGAGTTTGGTCAGGCTTGGGATCGTCAGTTGACCGACGAAAACGGCCCTTATATTGAGCTGATGACCGGGGTGTACACCGATAACCAGCCGGACTTCACCTGGCTTGCACCGTATGAAGAGAAGGTTTTTGTACAGAATTTTCTCCCCTACAGTGAGCTATCGTCGGTGCAGAACGCCAGTACCCGGCTGGTGATGCGTCTTGAACGTCAGGCGTCGCAGCTGGCGCTGGGGCTGTATGCCGTTGCGCCGCTGCACGACGTGCGGGTGGAAATTCGCGATGGCGAGCAAACGCTGTGGCGTACGCAGGTGACGCTGGAGCCGGGCGAAAGCTGGCAGGAGACGCTGGCGGAGGGGTGGCCGCAGCGCCTGACCATGGCGGTGTTAGCCAGCGATGGTACGCCGCTGCTGCAGTATGAGGAGCACATTCCCGAAGCGACGCCGCTGCCCAACGCCGCCAGCGCGCCAAAGCAGCCACACGAATTGCATAACCCTGAAGAACTTTATTTCATCGGCCAGCATATTGAGCAGTACAACCACGCCAGCCGTTACGCCGAGGATTATTACCGTAGGGCCATTGAACTGGACCCGGAGGACTATCGCAATAACGTGGCGCTGGGCAATCTGGCGCTGAACCGTGCCGACTGGCTGATGGCGCAGCGCTGTGCTGAATCGGCGCTGGCTCGAGCACATCGACTGAACAAGAACCCACGCGATGGAGAAGCTAGTCTACTGCTGGGGGCGGCTTTCGAGCGTCAGGGCGAAGTGAGCAAAGCATGGGATAGCTACTATAAGGCAAGCTGGAGCGGCAACTGCCGCGATGCGGCGTTTTATTCGTTGGCGCGGCTGGCGATGGTGCGCGGCGATGAGGCTGACGCGCTGGCAAAGGTTGAACTCAGCCTGCAGTTTAATGGCAGTAATAACCTCGCGATGGGGTTGAAAGCGCTGGCGCTTGCAACAACGCAGAGTCAACAGACGGCGTTGACCTACATTGACCTGGCGTTGAAAACGCACCCGCTGAGCTATGTGTTGCACTATGCGCGTTGGGCCATTAGCGGCGATGAGGCGTCGGGCGACGCATTGCGTCAGGTGACCGGGGGACGAGGTATTAACGCCAGTACGCTGGCGGGGTGGCTGGTATCGCTGGGTAAAAAGCAGGCGGCTAGCGAACTGCTGGCGCTGCTGGACTGTCAGGAAACATTGCCGCTGCTTTGGCAGGCTTCGCTCAGCGACAACCCGCAGTCATATCTACTTAATGCCCAGCGCAGTTTTGCCAAATGCGTCCGCTTCCCCAATACGCTCGATGAAGTAGTGATGCTGCAATCTCTGCAACAGGACGCCTTTGCCTGTTATCTGCTCGGTTGCTTCTGGTACAGCAAACGTCGCTATGATGATGCCATTGCCTGCTGGCAGCAGACGCTGGCGCAACAGCCCGACTTTGCGCCCGTGCACCGGTTGTTGGGGATCTACGCCTGGAATAAACAGCATAACGCCCAACTGGCGAGCCGCTATTTACAACAAGCGGTGGCACTGGAGCCAGACAACGCCCGCTTCTTATTTGAGCTGGATTATCTCAACAAACAGCAGGGCCAGAGTCGGGAAGCGCGGCTGGCGTTACTGACGCCGCGTCGCGAAGTGGTGCTCAAGCGTGACGATCTCACTGCCGAGCTGCTCAGCCTGTGGAATGGCGTTGGGGAATATGCCGAGGCGGCGCAGGTGCTGCGCGAACGCGATTTCCATCCTTGGGAGGGCGGGGAAGGGAAGGTAACGGGGCAGTATCTGCTTAACCAAATCCATCGTGCGCTGACGGCGATGTCCCTGGGCGATAGCGGCCTGGCGATAGAATTACTACAGCAGGGGCTACGCTATCCGCTGAACCTGGGGGAAGGGCGCTTGCCGGGGCAGACCGATAACGACATCTGGTATCTGCTGGCGCACTGCCATCAAATGCGAGGCGAAGACGCGCTGGCCGTTCAGGCGCTGTCGCGGGCGCTGCTGGGGGATTACGGCCTGAGCGCCGGGCGTTACTACAATGACCAGCCTGCTGACTATTTGTTCTGGCAGGGTATGGCGATGCGGGCAAACGGTCAGTCTTCTGAAGCGGATGCGCATTTCCACAGCTTCCTCGACTGGGTAGAACAACAGCGTGACTGCGTGCCGGAAACGGACTTCTTTGCCGTATCGCTGCCGGATCTGGTGGCGCTGGACGTCAGCCCGGAGCAGCAACATCAGCAGCACTGCTTGTTTATTGAAGCGCTGGGCCATCTGGGGCTGGGGAATGTATCCGCCAGCCAGCAGGCGATGCAGCGGCTTCTGCAGCTGAACCCGGCTCACGATAAGGCGCATCTGATTCGTCATGCCCTGCAAAGCGGCATTTTTTCCTGA	MYGSVKVWQEIITLPTWTTGAEDPNPMFLEKRVYQGSSGNVYPYGVIDTLTGEREMRDYQAVWMENDFIRIMLLPELGGRIHRAYDKVKQRDFVYYNEVVKPALVGLLGPWISGGIEFNWPQHHRPTTFMPVDFTITQGEHGEQTVWMGEVEPMRGLQLMAGFTLYPDRALVEITGKVFNGNATPRHFLWWSNPAVKGGDDHQSVFPPDVTAVFDHGKRAVSSFPIATGTYYKVDYSVGVDISRYKNVPVPTSYMAEKSEYDFVGAWHHGERGGLLHVADHHISPGKKQWSWGHGEFGQAWDRQLTDENGPYIELMTGVYTDNQPDFTWLAPYEEKVFVQNFLPYSELSSVQNASTRLVMRLERQASQLALGLYAVAPLHDVRVEIRDGEQTLWRTQVTLEPGESWQETLAEGWPQRLTMAVLASDGTPLLQYEEHIPEATPLPNAASAPKQPHELHNPEELYFIGQHIEQYNHASRYAEDYYRRAIELDPEDYRNNVALGNLALNRADWLMAQRCAESALARAHRLNKNPRDGEASLLLGAAFERQGEVSKAWDSYYKASWSGNCRDAAFYSLARLAMVRGDEADALAKVELSLQFNGSNNLAMGLKALALATTQSQQTALTYIDLALKTHPLSYVLHYARWAISGDEASGDALRQVTGGRGINASTLAGWLVSLGKKQAASELLALLDCQETLPLLWQASLSDNPQSYLLNAQRSFAKCVRFPNTLDEVVMLQSLQQDAFACYLLGCFWYSKRRYDDAIACWQQTLAQQPDFAPVHRLLGIYAWNKQHNAQLASRYLQQAVALEPDNARFLFELDYLNKQQGQSREARLALLTPRREVVLKRDDLTAELLSLWNGVGEYAEAAQVLRERDFHPWEGGEGKVTGQYLLNQIHRALTAMSLGDSGLAIELLQQGLRYPLNLGEGRLPGQTDNDIWYLLAHCHQMRGEDALAVQALSRALLGDYGLSAGRYYNDQPADYLFWQGMAMRANGQSSEADAHFHSFLDWVEQQRDCVPETDFFAVSLPDLVALDVSPEQQHQQHCLFIEALGHLGLGNVSASQQAMQRLLQLNPAHDKAHLIRHALQSGIFS	PGPT0030850_35	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYSYSTEM_ASSEMBLY,PGPT0030850-ycf3-NA
BMS020_05288	1197	nagC_2	COG1940	N-acetylglucosamine repressor	ATGCAGCGCACCGGTTTAAATAACGCCCGGGTCAGACAGGCCAATAAATCCATTTTTCTGGCTCATCTCTGGCGGGAGAAGCAGTTGAGTAAATCCCAGCTTTCTCAGCTCACCGGGCTCTCTATTCCGGCGGTGAGCAATATTCTTGAAGAGCTGCTCAGCGAGGGACTGATCGATCATTCCACAGAAAAAATGAGCAAACGCGGCGTGAACAGCGGAAGTTACCAGATCCCCGCGCGCGGAGCCTGGACGCTATGCATGAATATTACGCCGACCAGTATTGAGTATCAGCTTGCCGACGCCCGTCTACTGGCAGTTGACGGCCACCACCATTTGCCCATAGACCCACCGACGCCGCAGGCTCTGCTGGAGGCCATCGTGGAATGCTGGCGGCGTATCCACCGCCGCTACCCGCAGCACACCATCAATCTCGCGCTTGGCGTCCATGGGCAGGTTGATCCGATCACCGGCGTGTCTCAAACTATGCCTCAGGCGCGCTGGAAAACACCGATCGAAATAAAGTACCTCCTTGAGGAACAGCTCGGCGTGCAGGTGCGGGTGGATAATGACTGCGTGATGCTGGCGCTGGCGGAGAAGTGGCAGCATCAGGGTCTGCAGCCGGATTTCTGCGTGATCAACGTTGACTATGGTATCGGCTCGTCATTTGTGATTAACGATCATATTTATCGCGGAAGCCTCTACGGCAGCGGGCAGATTGGACACACGATTGTGAATCCTGACGGCAAAGCCTGCGACTGCGGGAGATATGGCTGTCTTGAAACCGTAGCCTCCCTCAGCGCGTTGAAAAAACAGGCGCGGATGTGGCTTAAAACCCAGCCTGAGGCGCGGCGCTCCCCGGAGCAGTTAACCACGGCATCACTCATTGAGGCCTGGGAACAGGGAGATGTGCAACTTCGCGCATGGGTGGATAACGCCGCCAACGCTATTGGCTTAAGCCTGTATAATTTCCTGAATATATTAAATATTAATCAGATCTGGCTTTACGGGCGCAGCTGCGCCTTTGGTGAGCAGTGGCTGGAAAATATCGTCAAACAAACGGGTTTCAACCCATTTGATCATGGTGATACGCCGCGAGCGCACGCCACCCAAATTGGCTTTGGCCAGCTGACCCGCGCCCAGCAGCTGATGGGGATAGGCTATCTGTACGTTGAGGAGCAGTTGCAGACGCTGGTTTAG	MQRTGLNNARVRQANKSIFLAHLWREKQLSKSQLSQLTGLSIPAVSNILEELLSEGLIDHSTEKMSKRGVNSGSYQIPARGAWTLCMNITPTSIEYQLADARLLAVDGHHHLPIDPPTPQALLEAIVECWRRIHRRYPQHTINLALGVHGQVDPITGVSQTMPQARWKTPIEIKYLLEEQLGVQVRVDNDCVMLALAEKWQHQGLQPDFCVINVDYGIGSSFVINDHIYRGSLYGSGQIGHTIVNPDGKACDCGRYGCLETVASLSALKKQARMWLKTQPEARRSPEQLTTASLIEAWEQGDVQLRAWVDNAANAIGLSLYNFLNILNINQIWLYGRSCAFGEQWLENIVKQTGFNPFDHGDTPRAHATQIGFGQLTRAQQLMGIGYLYVEEQLQTLV				NA	NA	NA	NA	NA
BMS020_05289	423	yphA	COG2259	Inner membrane protein YphA	ATGAACACACTCCGCTATTTTGATTTTGGCGCATCCCGCTCTCTGCTACTGCTTATCGCCCGCATCGCCGTGGTAGTTCTGTTTATTCTTTTTGGCTACCCCAAACTGCTGGGCTTTGACGGTACGGTGCAGTACATGGCCGCCTCCGGCGCGCCGATGCCGAGCCTGGCGGCGATTATCGCCGTCATTATGGAAGTGCCTGCCGCCATTTTAATTGTGCTGGGCTTTTTCACCCGCCCGCTGGCGGTCATCTTTATCTTCTACACCCTGGGCACCGCGGTGATTGGCCATCACTACTGGGATATGACTGGCGATGCGGTATTGCCGAACATGATTAACTTCTGGAAAAACGTCAGCATCGCCGGCGCTTTCCTGCTGCTGGCGGTAACCGGCCCCGGAGCGATTTCGCTCGACCGCCGCTAA	MNTLRYFDFGASRSLLLLIARIAVVVLFILFGYPKLLGFDGTVQYMAASGAPMPSLAAIIAVIMEVPAAILIVLGFFTRPLAVIFIFYTLGTAVIGHHYWDMTGDAVLPNMINFWKNVSIAGAFLLLAVTGPGAISLDRR	PGPT0028505_1952	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
BMS020_05290	1254	glyA_2	COG0112	Serine hydroxymethyltransferase	ATGTTAAAGCGTGAAATGAACATTGCCGATTATGATGCCGAACTGTGGCAGGCTATGGAGCAGGAAAAAGTACGTCAGGAAGAGCACATCGAACTGATCGCCTCCGAAAACTACACCAGTCCGCGCGTGATGCAGGCGCAGGGCTCTCAGCTGACCAACAAATATGCTGAAGGATATCCGGGCAAGCGTTACTACGGCGGCTGCGAATATGTCGACGTGGTTGAGCAGCTGGCTATCGACCGCGCGAAAGAGCTGTTCGGCGCTGACTATGCTAACGTCCAGCCGCACTCCGGCTCCCAGGCTAACTTTGCCGTCTACACCGCGCTGCTGCAGCCGGGCGATACCGTGCTGGGGATGAACCTGGCGCAGGGCGGCCACCTGACTCACGGCTCTCCGGTTAACTTCTCCGGCAAACTGTACAACATCATCCCTTACGGTATTGATGAGTCCGGCAAAATTGACTATGACGACATGGCGAAGCAGGCTCAGGAACATAAACCGAAGATGATCATCGGTGGTTTCTCCGCTTACTCCGGTATCGTTGACTGGGCAAAAATGCGTGAAATCGCTGACAGCATCGGCGCATACCTGTTTGTCGATATGGCGCACGTGGCAGGCCTGATCGCCGCTGGCGTGTATCCGAACCCGGTTCCGCATGCTCACGTCGTGACCACCACCACCCACAAAACCCTGGCGGGTCCGCGCGGCGGCCTGATCCTGGCGAAAGGCGGTAGCGAAGAGCTGTACAAGAAACTGAACTCTGCGGTATTCCCAAGCGCGCAGGGCGGCCCGCTGATGCACGTTATCGCAGCGAAAGCGGTGGCGCTGAAAGAAGCGATGGAGCCAGAGTTTAAAGTTTACCAGCAGCAGGTTGCGAAAAACGCCAAAGCAATGGTGGAAGTGTTCCTGAACCGCGGCTACAAAGTGGTGTCTGGCGGTACTGAGAACCATCTGTTCCTGCTGGACCTGGTGGATAAAAATCTGACCGGTAAAGAAGCTGACGCTGCCCTGGGCCGCGCCAACATCACCGTCAACAAAAACAGCGTGCCGAACGATCCGAAGAGCCCGTTCGTAACCTCCGGTATCCGTATCGGTTCTCCGGCAGTGACTCGCCGCGGCTTTAAAGAAGCGGAAGTCAAAGAGCTGGCTGGCTGGATGTGTGATGTGCTGGACAATATCAATGACGACGCGGTCATTGAGCGCGTGAAAGGCAAAGTCCTGGATATCTGCGCCCGCTTCCCGGTTTATGCGTAA	MLKREMNIADYDAELWQAMEQEKVRQEEHIELIASENYTSPRVMQAQGSQLTNKYAEGYPGKRYYGGCEYVDVVEQLAIDRAKELFGADYANVQPHSGSQANFAVYTALLQPGDTVLGMNLAQGGHLTHGSPVNFSGKLYNIIPYGIDESGKIDYDDMAKQAQEHKPKMIIGGFSAYSGIVDWAKMREIADSIGAYLFVDMAHVAGLIAAGVYPNPVPHAHVVTTTTHKTLAGPRGGLILAKGGSEELYKKLNSAVFPSAQGGPLMHVIAAKAVALKEAMEPEFKVYQQQVAKNAKAMVEVFLNRGYKVVSGGTENHLFLLDLVDKNLTGKEADAALGRANITVNKNSVPNDPKSPFVTSGIRIGSPAVTRRGFKEAEVKELAGWMCDVLDNINDDAVIERVKGKVLDICARFPVYA	PGPT0008090_4751	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
BMS020_05291	1191	hmp	COG1017	Flavohemoprotein	ATGCTCGACGCTCAAACCATCGCTACGGTCAAAGCCACCATCCCCCTGCTGGTAGAGACTGGACCAAAATTAACCGCCCATTTCTACGATCGTATGTTTGCGCATAACCCGGAGCTCAAAGAGATCTTCAATATGAGCAACCAGCGCAACGGCGACCAGCGAGAAGCGTTGTTCAACGCCATTGCCGCCTACGCCAGCAATATCGATAACCTGCCCGCCCTGCTGCCGGCGGTGGAAAAAATCGCCCAGAAACACACCAGTTTCCAGATCAAACCGGAGCAGTACAACATCGTGGGCAGCCATCTGCTGGCGACCCTCGATGAAATGTTCAGCCCGGGTCAGGAAGTCCTTGATGCCTGGGGGAAAGCTTACGGCGTGCTGGCGAACGTCTTTATCGGCCGCGAAGCCGAGATCTATCAGCAAAACGCCAGTAAAACCGGCGGCTGGGAAGGGACCCGCGCGTTCCGCATCGTGAAGAAAACCCCGCGCAGCCAGCTTATCACCAGCTTTGAGCTCGAGCCGGTCGACGGCCAGCCGGTCGCCGATTACCAGCCTGGCCAGTATCTGGCCATCTGGCTGAAGCCGGAAGATTTCGAATATCAGGAAATTCGCCAGTACTCCCTGACCCGCAAAGCGGACGGCAAGGGCTACCGCATCGCGGTTAAACGCGAGGAAGACGGCCAGGTTTCCAGCTGGCTGCATAACCATGCCAGCGAAGGCGATGTGGTCTATCTGGCGGCGCCGGCCGGGGACTTCTTCCTTAACGTTGAGCCGCAGACGCCGGTCACTCTGCTCTCCGGCGGCGTCGGGCAAACGCCGATGCTGGCGATGCTGGATGCGCTGGCGAAGAGCCGCCATCAGGGTCAGGTGAACTGGTTCCATGCGGCGGAAAATGGCGAAGTCCATGCCTTTGCGGATGAAGTGCAGGCGCTCGGCGCGGCGCTGCCGGCGTTTACCGCTCACGTCTGGTATCGCAACCCGAGCGAGGCCGACCGTCAGGCAGGACGTTTTGATAGCGAAGGTTTTATGGATTTAGCGGCGGTGGCGGAAACCCTTCGCGACCCGCAGATGCAGTTCTATCTCTGCGGCCCGGTGGCCTTTATGCAGTATGCGGCGCAGCAGCTGGTGGCGCTGGGGGTGAATAAAGACAACATTCATTACGAATGCTTCGGGCCGCATAAGGTGCTGTAA	MLDAQTIATVKATIPLLVETGPKLTAHFYDRMFAHNPELKEIFNMSNQRNGDQREALFNAIAAYASNIDNLPALLPAVEKIAQKHTSFQIKPEQYNIVGSHLLATLDEMFSPGQEVLDAWGKAYGVLANVFIGREAEIYQQNASKTGGWEGTRAFRIVKKTPRSQLITSFELEPVDGQPVADYQPGQYLAIWLKPEDFEYQEIRQYSLTRKADGKGYRIAVKREEDGQVSSWLHNHASEGDVVYLAAPAGDFFLNVEPQTPVTLLSGGVGQTPMLAMLDALAKSRHQGQVNWFHAAENGEVHAFADEVQALGAALPAFTAHVWYRNPSEADRQAGRFDSEGFMDLAAVAETLRDPQMQFYLCGPVAFMQYAAQQLVALGVNKDNIHYECFGPHKVL	PGPT0013000_1181			NA	NA	NA	NA	NA
BMS020_05292	339	glnB_2	COG0347	Nitrogen regulatory protein P-II	ATGAAAAAGATTGATGCGATTATTAAACCTTTCAAACTGGATGACGTGCGTGAAGCGCTGGCCGAAGTCGGCATCACCGGGATGACGGTAACGGAAGTGAAAGGCTTTGGCCGCCAGAAAGGGCACACCGAACTCTACCGCGGCGCGGAGTATATGGTGGATTTTCTGCCGAAAGTGAAAATTGAAATCGTGGTGACCGACGATATCGTCGATACCTGTGTGGATACCATCATCCGTACCGCGCAGACCGGCAAAATCGGTGACGGTAAAATCTTTGTCTTTGATGTCGCGCGCGTGATTCGTATCCGTACCGGCGAAGAAGACGACGCGGCGATTTAA	MKKIDAIIKPFKLDDVREALAEVGITGMTVTEVKGFGRQKGHTELYRGAEYMVDFLPKVKIEIVVTDDIVDTCVDTIIRTAQTGKIGDGKIFVFDVARVIRIRTGEEDDAAI	PGPT0000650_1357	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000650-glnB|glnY-K04751	NA	NA
BMS020_05293	1338	qseF	COG2204	Transcriptional regulatory protein QseF	ATGACGATCCGTAAACCGGCGCGTTTGCTGCTGGTGGATGACGATCAGGGGCTGCTGAAGCTGCTGGGCATGCGCCTGGTCAGCGAAGGCTATAGCGTGGTCACCGCCGAGAGCGGCCCGGAAGCGCTGCGCGTGCTGGGGCGTGAGAAGGTAGATCTGGTGATTAGCGATCTGCGGATGGATGAAATGGACGGTCTGCAGCTGTTCAGTGAGATCCAGAAGGGGCAGCCCGGCATGCCGGTGATCATTCTCACCGCCCATGGCTCGATCCCCGACGCGGTGGCGGCCACCCAGCAGGGCGTCTTCAGCTTCCTGACTAAGCCGGTTGATAAAGACGCCTTGTATCAAGCCATTGATGAGGCGCTGGAGCAGCGCTCGCCAGCCACCGATGAAGCCTGGCGTCAGGCCATTGTCACCCGCAGCCCGCTGATGCTGCGCCTGCTCGAGCAGGCCGGGATGGTGGCGCAATCCGACGTTAGCGTGCTGATTAACGGCCAGAGCGGGACCGGGAAGGAGATAGTCGCCCAGGCGATCCACAACGCCAGCCCGCGTCATGACAAGCCGTTCGTGGCGATTAACTGCGGCGCGTTGCCGGAACAGCTGCTCGAGTCCGAACTGTTCGGCCATGCGCGGGGCGCCTTTACCGGCGCGGTCAGCAACCGCGAAGGGTTATTCCAGGCCGCCGAAGGCGGTACGCTGTTTCTCGATGAGATTGGCGATATGCCGGTCGCCCTGCAGGTGAAGCTGCTGCGCGTCCTGCAGGAGCGTAAGGTACGCCCGCTCGGCAGCAACCGCGATATCGAGATCAACGTGCGGATCATCTCCGCCACCCACCGCGACCTGCCGAAGGCGATGGCTCGCGGCGAGTTTCGCGAAGATCTGTTCTATCGCCTCAATGTGGTTAACCTGAAGATCCCGCCGCTCTCCGAACGCACGGAAGATATTCCGCTGTTAGCCAACCATCTGCTGCGTCAGTCCGCCGATCGCCATAAGCCGTTCGTACGGGCGTTTTCCAGCGATGCGATGAAGCGGCTGATGGCCGCCAACTGGCCGGGCAATGTGCGCCAGCTGGTGAACGTGATTGAGCAGTGCGTGGCCCTGACCTCGTCGCCGGTGATTGGCGATGCGCTGGTGGAGCAGGCGCTGGAGGGCGAGAACACCGCCCTGCCGACCTTTGTGGAGGCGCGCAATCAGTTTGAGCTGAACTACCTGCGCAAGCTGCTGCAGATTACCAGGGGCAACGTCACCCATGCGGCGCGGATGGCTGGACGCAACCGCACTGAATTCTATAAGCTGCTGTCGCGCCATGAGCTCGACGCCAACGACTTTAAAGAGTAG	MTIRKPARLLLVDDDQGLLKLLGMRLVSEGYSVVTAESGPEALRVLGREKVDLVISDLRMDEMDGLQLFSEIQKGQPGMPVIILTAHGSIPDAVAATQQGVFSFLTKPVDKDALYQAIDEALEQRSPATDEAWRQAIVTRSPLMLRLLEQAGMVAQSDVSVLINGQSGTGKEIVAQAIHNASPRHDKPFVAINCGALPEQLLESELFGHARGAFTGAVSNREGLFQAAEGGTLFLDEIGDMPVALQVKLLRVLQERKVRPLGSNRDIEINVRIISATHRDLPKAMARGEFREDLFYRLNVVNLKIPPLSERTEDIPLLANHLLRQSADRHKPFVRAFSSDAMKRLMAANWPGNVRQLVNVIEQCVALTSSPVIGDALVEQALEGENTALPTFVEARNQFELNYLRKLLQITRGNVTHAARMAGRNRTEFYKLLSRHELDANDFKE	PGPT0018845_461	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-SULFATE|PHOSPHATE_PERCIPITATION|SIGNALLING,PGPT0018845-qseF|glrR-K07715	NA	NA
BMS020_05294	687	qseG		Quorum-sensing regulator protein G	ATGTCCCAATTCCTGGCCTGGCGCCGTTCCCTTAGCGGATGGCTGCTCTCAGGCATTGCTTGTCTGACGCTGGCGGGGTGTTCCGCCGGCTTCTCGCCGCATAGTGCGGAAGGTGCCGCCGCCCCCGGGCAGGCGCAGCATCAGGTGGCCGATTTTGTCGCGGTGGACTGCGCCGATATCTGGGCGCACAGCAGCGATGCCAGCGACAAAAACCCCCTCTACTGGCTGCGGGGCATTGACTGCGCCGATCGTCTCGCGCCGGCGCAGGCGCGAGCGGAGGCGAAACGCCATACCGACGACAGCTGGCAGGACGCGTTCCGCCGCGGCATTCTGCTTGCCGATGCCAAAATTACCCCTGACGAGCGCCGCGAGCTGGTGGCGCGTCTCGACACCTTCAGCCCGCAAATCGCCGTTCAGGTCCGCCCGCTGTATCAGCTCTGGCGCGACGGGCAGGCCCGTCAGCTGCAGCTGGTGGAGGAGCGAGCCCGCTACGCGAAGCTTCAGCAGTCCAGCGATAGCGAGCTGGAGACGTTGCGCCAGCAGGAGCAGTCGCTGCGCGAACAGCTGGAGTTGACCACCCGTAAGCTGGAGAATCTGACGGATATTGAACGCCAGCTCTCCAGCCGCAAGCCGGGCGGCAATTTCGGCAGCGAAAAAGTGCCGGAGGTGATCCATGACGATCCGTAA	MSQFLAWRRSLSGWLLSGIACLTLAGCSAGFSPHSAEGAAAPGQAQHQVADFVAVDCADIWAHSSDASDKNPLYWLRGIDCADRLAPAQARAEAKRHTDDSWQDAFRRGILLADAKITPDERRELVARLDTFSPQIAVQVRPLYQLWRDGQARQLQLVEERARYAKLQQSSDSELETLRQQEQSLREQLELTTRKLENLTDIERQLSSRKPGGNFGSEKVPEVIHDDP				NA	NA	NA	NA	NA
BMS020_05295	1440	glrK		Sensor histidine kinase GlrK	ATGATTGAGACCACACCCTTGAAGCGACTCTCTCTTTTTCCCCGTTCGCTGCGTCAGCTGGTGACGCTCTCCTTTGTGCTGATCCTGCTGCCGTTGCTGGTGCTGGCCTGGCAGGCCTGGCAGAGCCTCAATGCCCTCAGCGCCCAGGCGGCGCATATCAACCGCACTACGCTGGTCGATGCCCGCCGCAGCGAGGCGATGATCAATGCCGCGCTGGAGATGGAGCGCAGCTATCGCCAGTACTGCGTGCTGGACGATCCGACGCTGGCGCGCGTCTATCAAAACCAGCGGCAGCGCTACAGCCAGATGCTGGACGCGCACGCCGGCGTGCTGCCGGACGAGAAGCTCTGGCAGGCGCTGCGCCAGGATGTCAGCGATCTGGCGCAGCTGCAGTGTAACAACAGCGGCCCCGACGCCCAGGCAGCCGCCAGACTGGAAGTGTTCGCCAGTAATAACAGCGACATGGTCCAGGCGACCCGGGCGGTGGTCTATTCCCGCGGCCAGCAGCTGCAGCAGGAGATTGCCGAGCGCGGCCAGTTTTTCGGCTGGCAGGCGCTGGTGCTGTTTCTGCTGAGCCTGGCGCTGGTGCTGCTTTTTACCCGCATGATCATCGGCCCGGTGAAAGGCATCGAAAGAATGATCAACCAGCTGGGGGCAGGGAAGTCGCTGGACGACGCGGCATTGTTTACCGGCCCGCGCGAGCTGCGCTCGGTGGGCAAGCGCATTATCTGGCTCAGCGAGCGCCTGGCATGGCTGGAGTCGCAGCGGCATCAGTTTCTTCGCCATCTGTCGCATGAGCTGAAAACCCCGCTGGCCAGTATGCGTGAAGGCACCGAGCTGTTGGCCGACCGTGTCGCCGGGCCGCTGACGCCGGAGCAGCAGGAGATCGTCGAGATCCTCGACAGCAGCAGCCGCAACCTGCAAAAGCTGATTGAACAGCTGCTGGACTACAACCGCAAACAGGCCGACGGCCCGGTAGCCCGGGAAGAAGTGGACCTGGTGGAGCTGGTGGAAAACGTCGTGGCGGCGCACAGTTTGCCCGCGCGGGCTAAACTGATGCATACCGAGCTGGCGCTGCAGGCGCGGCATTGTCTGGCAGAGCCTGCGCTATTGATAAGCGTAATGGATAATCTCTACTCCAATGCGGTGCACTATGGCGCTGAATCCGGTAACATTCGTATCCATAGCTACCGGCACGGAGAGCAGGTGCGTATTGATGTCGCCAACAGCGGCGAACCGATCCCGGCCGCGGAAAAGAATATGATTTTTGAGCCCTTTTACCAGGGGAGTCACCAGCGTAAAGGGGCCGTAAAAGGCAGTGGACTGGGGTTAAGCATCGCCCGCGACTGCGTCCGTCAGATGCAAGGGGAGCTCAGTCTGGTTGACGCCCCCGCCGGGCAGGTCTGTTTTCGCATTACGCTTCCCTCAGCGCTGGAATAA	MIETTPLKRLSLFPRSLRQLVTLSFVLILLPLLVLAWQAWQSLNALSAQAAHINRTTLVDARRSEAMINAALEMERSYRQYCVLDDPTLARVYQNQRQRYSQMLDAHAGVLPDEKLWQALRQDVSDLAQLQCNNSGPDAQAAARLEVFASNNSDMVQATRAVVYSRGQQLQQEIAERGQFFGWQALVLFLLSLALVLLFTRMIIGPVKGIERMINQLGAGKSLDDAALFTGPRELRSVGKRIIWLSERLAWLESQRHQFLRHLSHELKTPLASMREGTELLADRVAGPLTPEQQEIVEILDSSSRNLQKLIEQLLDYNRKQADGPVAREEVDLVELVENVVAAHSLPARAKLMHTELALQARHCLAEPALLISVMDNLYSNAVHYGAESGNIRIHSYRHGEQVRIDVANSGEPIPAAEKNMIFEPFYQGSHQRKGAVKGSGLGLSIARDCVRQMQGELSLVDAPAGQVCFRITLPSALE	PGPT0018840_209	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-SULFATE|PHOSPHATE_PERCIPITATION|SIGNALLING,PGPT0018840-qse|glrK-K07711	NA	NA
BMS020_05297	3888	purL_1	COG0046	Phosphoribosylformylglycinamidine synthase	ATGATGGAAATTTTGCGTGGTTCACCTGCACTGTCGGCATTCCGTATTAATAAACTGCTGGCACGATTTCAGGCGGCCAACCTTCCGGTAAGCGCCATATATGCCGAGTATATTCATTTTGCCGATCTGAACGCCCCGCTGAGCACTGACGATCGCGAGCGCCTGGCGCGACTGCTTAAGTATGGCCCGAGCTTAAACAGCCATACCCCGACCGGTAAATTACTGCTCGTGACCCCTCGCCCTGGCACCATCTCTCCCTGGTCTTCTAAAGCTACCGATATCGCCCATAACTGCGGCCTGGCTCAGGTTGTGCGTCTGGAGCGCGGCGTAGCGTATTATGTTGAAGCCTCGACCCTGACCGAAGCGCAGTGGGCCGCGGTGGCGGCGGAACTGCACGACCGCATGATGGAGAGCGTCTTCGACGCGCTGGAAGCGGGCGAAAAGCTGTTCGCTCACCATCAGCCGACGCCGGTGACCAGCGTTGACCTGTTGGGCGAAGGGCGTCAGGCGCTGATTGACGCCAACCTCCGTTTGGGGCTGGCGCTGGCAGATGACGAAATTGACTACCTGCAGGACGCCTTTACCCGTCTGGGACGCAATCCGAACGATATCGAGCTGTATATGTTCGCCCAGGCGAACTCAGAGCACTGTCGTCACAAAATTTTCAACGCCGACTGGATCATCGACGGCGAACAGCAGCCGAAGTCGCTGTTCAAAATGATCAAAAACACCTTCGAAAAAACGCCGGACTACGTCCTGTCGGCCTATAAAGACAACGCCGCGGTGATGGAAGGGTCTGAAGTGGGGCGCTATTTTGCCGACCACCAGACCGGACGCTATGACTTCCATCAGGAGCCGGCGCACATTCTGATGAAGGTGGAAACCCATAACCACCCGACGGCCATCTCCCCATGGCCGGGCGCGGCAACCGGCTCCGGCGGCGAAATCCGCGATGAAGGCGCCACCGGCCGCGGCGCGAAGCCGAAAGCGGGCCTGGTGGGCTTCTCGGTTTCCAACCTGCGCATCCCGGGCTTCGAACAGCCGTGGGAAGAAGATTTCGGCAAGCCGGATCGCATCGTCACCGCCCTGGACATCATGACCGAAGGCCCGCTGGGCGGCGCGGCGTTTAACAACGAATTTGGTCGCCCGGCGCTGAACGGCTACTTCCGCACCTATGAAGAGAAAGTCACCAGCCATAACGGTGAAGAGCTGCGCGGCTACCACAAACCAATCATGCTGGCCGGCGGTATCGGCAACATCCGCGGCGAGCACGTGCAGAAGGGCGAGATTACCGTCGGCGCGAAGCTGATCGTTCTCGGCGGTCCGGCGATGAACATCGGCCTCGGCGGCGGCGCGGCGTCTTCCATGGCCTCCGGCCAGTCCGATGCCGACCTCGATTTCGCCTCCGTCCAGCGTGACAACCCGGAAATGGAGCGTCGCTGTCAGGAAGTGATCGACCGCTGCTGGCAGCTGGGCGACGCCAACCCGATCCTGTTTATCCACGACGTCGGCGCCGGCGGTCTCTCCAACGCCATGCCGGAGCTGGTCAGCGACGGCGGCCGCGGCGGTAAATTCCAGCTGCGCGATATCCTGAGCGATGAGCCAGGCATGAGCCCGCTGGAGATCTGGTGTAACGAATCGCAGGAACGTTATGTCCTGGCGGTCGCCCCGGAGCAACTGCCGCTGTTCGACGAGCTGTGCCGCCGCGAGCGCGCGCCTTATGCGGTTATCGGCGAAGCCACCGCCGAGCAGCACCTGAGCCTGAGCGACAGCCACTTTAACGATCAGCCGATCGATCTGCCGCTGGACGTCCTGCTTGGCAAAACGCCGAAAATGACCCGTGACGTGCAGACCCTGAAAGCCCAGGGCAGCGCGCTGGATCGCCAACCGATTACCATCGCCGATGCGGTTAATCGCGTTCTGCACCTGCCGACGGTGGCCGAGAAAACCTTCCTCGTGACCATCGGCGACCGCACCGTGACCGGCATGGTCGCCCGCGACCAGATGGTCGGCCCGTGGCAGATCCCGGTGGCCAACTGCGCGGTCACCACCGCCAGCCTCGACAGCTACTACGGCGAAGCGATGGCGATGGGCGAGCGCGCCCCGGTTGCTCTGCTGGACTTCGCCGCCTCCGGCCGTCTGGCGGTTGGCGAAGCGCTGACCAATATCGCCGCCACGCAGATTGGCGAGCTGAACCGCGTGAAGCTGTCGGCTAACTGGATGGCCGCCGCCGGCCACCCGGGCGAAGACGCAGGTCTGTATGAGGCGGTGAAAGCGGTGGGCGAAGAGCTGTGCCCGGCGCTGGGCCTGACCATTCCGGTCGGCAAAGACTCAATGTCGATGAAAACCCGCTGGCAGGAAGGCAGCGAGCAGCGTGAGATGACCTCTCCGCTGTCGCTGGTGATCTCCGCCTTCGCCCGTGTCGAAGATGTTCGTCATACCGTCACGCCGCAGCTCTCGACGGAAGATAACGCCCTGCTGCTGATCGACCTCGGTAAAGGGCACAACGCGCTGGGCGCGACGGCGCTGGCGCAGGTCTATCGCCAGCTCGGCGACAAGCCGGCTGACGTGCGCGATGTCGCGCAGCTGAAAGGCTTCTGGGATGCGATGCAGGCCCTGGTGGCGCAGCGTAAACTGCTGGCCTACCACGACCGCTCCGACGGCGGCCTGCTGGTCACCCTGGCGGAAATGGCCTTTACCGGCCACTGTGGACTGGAAGCGGATATCGCCGCGCTGGGCGACGACCGTCTGGCGGCGCTGTTCAACGAAGAGCTGGGGGCGGTGATTCAGGTCCGCGCCGCAGACCGTGAGGCAGTGGAAGCCATTCTGGCGGTTAACGGCCTGGCGGACTGCGTGCATTACCTCGGTAAAGCGGTCGAGGGCGATCGCTTCGTGCTGACCGCCAGCGGTCAGACGGTGTTTAGCGAAAGCCGCACCACCCTGCGCATGTGGTGGGCGGAAACCACCTGGCAGATGCAGCGTCTGCGCGACAACCCGGCCTGCGCCGATCAGGAGCACGAGGCGAAAGCCAACGACGCCGATCCGGGCCTTAATGTGAAGCTCTCGTTTGATATTAATGACGACGTCGCCGCGCCGTACATTGCCACCGGCGCGCGTCCGAAAGTGGCCGTCCTGCGCGAGCAGGGGGTGAACTCTCACGTTGAAATGGCGGCAGCCTTCCATCGCGCCGGCTTTGACGCCATCGACGTGCATATGAGCGACCTGCTGGCGGGCCGCACCGGTCTGGGCGATTTCCATGCCCTGGTGGCCTGCGGCGGCTTCTCCTACGGCGACGTGCTGGGGGCAGGCGAAGGCTGGGCGAAGTCGATTCTGTTCAACGAGCGCGTGCGCGATGAGTTCGCGACCTTCTTCCATCGTCCGCAGACCCTGGCGCTCGGCGTGTGCAACGGCTGCCAGATGATGTCCAACCTGCGCGAGCTGATCCCGGGCAGCGACCTGTGGCCGCGCTTTGTGCGCAACCAGTCTGACCGCTTTGAAGCGCGCTTCAGCCTGGTGGAAGTGACGCAAAGCCCGTCTCTGCTGCTGGAAGGCATGGTTGGCTCACAGATGCCGATTGCGGTCTCCCACGGCGAAGGGCAGGTGGAAGTGCGCGACAGCGCGCATCTGGCCCAGCTGGAGAGCAAAGGTCTGGTGGCGCTGCGCTTCGTGGACAACTTCGGCAAAGTGACCGAAACCTATCCGGCGAACCCGAACGGTTCCCCGAACGGTATCACCGCGGTGACCAGCGAAAGCGGGCGCGCGACCATCATGATGCCGCACCCGGAACGCGTCTTCCGCACCGTAAGCAACTCCTGGCACCCGGAAAACTGGGGCGAAGACAGCCCGTGGATGCGTATCTTCCGCAACGCGCGTAAACAGCTGGGTTAA	MMEILRGSPALSAFRINKLLARFQAANLPVSAIYAEYIHFADLNAPLSTDDRERLARLLKYGPSLNSHTPTGKLLLVTPRPGTISPWSSKATDIAHNCGLAQVVRLERGVAYYVEASTLTEAQWAAVAAELHDRMMESVFDALEAGEKLFAHHQPTPVTSVDLLGEGRQALIDANLRLGLALADDEIDYLQDAFTRLGRNPNDIELYMFAQANSEHCRHKIFNADWIIDGEQQPKSLFKMIKNTFEKTPDYVLSAYKDNAAVMEGSEVGRYFADHQTGRYDFHQEPAHILMKVETHNHPTAISPWPGAATGSGGEIRDEGATGRGAKPKAGLVGFSVSNLRIPGFEQPWEEDFGKPDRIVTALDIMTEGPLGGAAFNNEFGRPALNGYFRTYEEKVTSHNGEELRGYHKPIMLAGGIGNIRGEHVQKGEITVGAKLIVLGGPAMNIGLGGGAASSMASGQSDADLDFASVQRDNPEMERRCQEVIDRCWQLGDANPILFIHDVGAGGLSNAMPELVSDGGRGGKFQLRDILSDEPGMSPLEIWCNESQERYVLAVAPEQLPLFDELCRRERAPYAVIGEATAEQHLSLSDSHFNDQPIDLPLDVLLGKTPKMTRDVQTLKAQGSALDRQPITIADAVNRVLHLPTVAEKTFLVTIGDRTVTGMVARDQMVGPWQIPVANCAVTTASLDSYYGEAMAMGERAPVALLDFAASGRLAVGEALTNIAATQIGELNRVKLSANWMAAAGHPGEDAGLYEAVKAVGEELCPALGLTIPVGKDSMSMKTRWQEGSEQREMTSPLSLVISAFARVEDVRHTVTPQLSTEDNALLLIDLGKGHNALGATALAQVYRQLGDKPADVRDVAQLKGFWDAMQALVAQRKLLAYHDRSDGGLLVTLAEMAFTGHCGLEADIAALGDDRLAALFNEELGAVIQVRAADREAVEAILAVNGLADCVHYLGKAVEGDRFVLTASGQTVFSESRTTLRMWWAETTWQMQRLRDNPACADQEHEAKANDADPGLNVKLSFDINDDVAAPYIATGARPKVAVLREQGVNSHVEMAAAFHRAGFDAIDVHMSDLLAGRTGLGDFHALVACGGFSYGDVLGAGEGWAKSILFNERVRDEFATFFHRPQTLALGVCNGCQMMSNLRELIPGSDLWPRFVRNQSDRFEARFSLVEVTQSPSLLLEGMVGSQMPIAVSHGEGQVEVRDSAHLAQLESKGLVALRFVDNFGKVTETYPANPNGSPNGITAVTSESGRATIMMPHPERVFRTVSNSWHPENWGEDSPWMRIFRNARKQLG	PGPT0021585_1730	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021585-purL-K01952	NA	NA
BMS020_05298	1617	mltF_2	COG4623	Membrane-bound lytic murein transglycosylase F	ATGCCGCTCATTCGACGACAACCTTGCGTTTTTTCCGGACATCGCCTGCTGAGGAACCTGAAGCTGCAGAAGATTAACGCGCTGAAAAAATTAAAGATTAATTATCTGCTCATCGGCATTGTCACCCTTTTGCTGGCGGCTGCCCTGTGGCCGTCGATCCCCTGGTCCGGTAAACCGGAGAACCGGGTGGCGGGCATTATCGCTCGCGGCGAGCTACGCATCAGCACCATCAACTCGCCGATGACCTTCGCCACCATGAACAATAAAACCTTCGGCCTGGACTACGAACTGGCGAAGCAGTTTGCCGACTACCTCGGCGTGACGCTTAAGATAACCGTCCGCCAGAACATCAGCCAGCTGTTTGACGACCTCGACGACGGTCAGGCCGATATGCTGGCCGCCGGGCTGGTCTATAACCAGGAGCGGGTGAAAAACTACCAGGCCGGCCCTGGCTACTACTCCGTTTCCCAACAGCTGGTCTATCGCGTCGGCAATACCCGGCCGCGCAGCCTCGCGGCGCTGACCGCCGAGCAGCTCGCCATCGCCCCGGGTCACGTGGCGATCAACGACCTGCAGGTACTGAAAGCGGAGAAATACCCGGATCTTGCCTGGCGCGTGGACGAAAAGCGCGGCACCACCGCGCTGATGCAGGCGGTGATTGACGGCAAACTCGATTACACCATCGCCGACTCGGTGGCCGTCAGCCTGTTCCAGCGCGTCCATCCGGAGCTGGCGGTAGCCCTCGATATCACCGACGAACAGCCGGTCACCTGGTTCAGCGCCCGGGACGACGATAATTCGCTGTCGGCGGCGATGCTTGATTTCTTCAACAATATTAATGAAGACGGCACCCTGGCGCGCCTGGAAGAGAAGTACCTCGGCCACGGCAACGATTTCGATTATGTCGATACCCGCACCTTCCTGCGCGCGGTGGAAAACATTCTTCCGGAGGTGCAGCCGCTGTTTGAAAAGTACGCCCGCGAGATCGACTGGCGCCTGCTGGCCGCCATCGCCTGGCAGGAATCCCACTGGGATCCGCAGGCCACCTCGCCTACCGGCGTGCGCGGCATGATGATGCTTACGCGTAATACGGCGCAGAGTCTGGGGCTGACTGACCGGACCGATGCGGCGCAGAGCATCGACGGCGGTATGCGCTATCTCCAGGATATGATGGATAAAGTGCCGGATTCGATCCCGAAAGATGAACGCATCTGGTTTGCGCTGGCCGCTTACAATATGGGCTATGCCCATATGCTGGACGCCATGGCGCTCACCCGCAAACAGAAAGGCAATCCCAACAGCTGGGCAGACGTTAAGCTGCGTTTACCCCTGCTGAGCCAGAAACCCTATTACAGCAAACTTAAATACGGCTATGCCCGCGGCCATGAGGCCTACGCCTATGTGGAAAACATCCGCAAATATCAGATAAGCCTTGTCGGCTATTTGTCAGAAAAGGAGCGCCAGCAGCAGCAAACGCTGGCCCTGGCGGAGGATTACCCGGCGGTGCTCCCCAATGAGCTCGAACAGCCGCAGGAGACCACCCTGCCCTTTTTCAAGTTTCGCGCCGATAAACAGATGGATAATGCCCGGATGAAACTCCCCGGCCACCTGTATTAA	MPLIRRQPCVFSGHRLLRNLKLQKINALKKLKINYLLIGIVTLLLAAALWPSIPWSGKPENRVAGIIARGELRISTINSPMTFATMNNKTFGLDYELAKQFADYLGVTLKITVRQNISQLFDDLDDGQADMLAAGLVYNQERVKNYQAGPGYYSVSQQLVYRVGNTRPRSLAALTAEQLAIAPGHVAINDLQVLKAEKYPDLAWRVDEKRGTTALMQAVIDGKLDYTIADSVAVSLFQRVHPELAVALDITDEQPVTWFSARDDDNSLSAAMLDFFNNINEDGTLARLEEKYLGHGNDFDYVDTRTFLRAVENILPEVQPLFEKYAREIDWRLLAAIAWQESHWDPQATSPTGVRGMMMLTRNTAQSLGLTDRTDAAQSIDGGMRYLQDMMDKVPDSIPKDERIWFALAAYNMGYAHMLDAMALTRKQKGNPNSWADVKLRLPLLSQKPYYSKLKYGYARGHEAYAYVENIRKYQISLVGYLSEKERQQQQTLALAEDYPAVLPNELEQPQETTLPFFKFRADKQMDNARMKLPGHLY	PGPT0014715_67	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0014715-yfhD-K18691	NA	NA
BMS020_05299	510	tadA_2	COG0590	tRNA-specific adenosine deaminase	GTGTCTGACCTCGAACTCAATGATGAATACTGGATGCGTCATGCCCTGACGCTGGCGAAGCGCGCCTGGGAAGAGGGCGAGGTGCCGGTGGGCGCGGTGCTGGTGCATAACAATCAGGTCATTGGCGAGGGCTGGAACCGGCCGATAGGCCGTCACGACCCCACCGCCCATGCGGAAATTATGGCCTTACGCCAGGGCGGGCTGGTGCTGCAAAACTATCGCCTGATCGACGCCACGCTGTACGTGACCCTCGAGCCCTGCGTGATGTGCGCGGGCGCGATGGTGCACAGCCGTATCGCCCGCCTGGTGTTTGGTGCCAGGGATGCCAAGACCGGCGCCGCCGGCTCGCTGATGGATGTTCTGCACCACCCGGGAATGAACCATCGGGTTGAGATTAGCGAAGGCGTGCTGGCGGGATCCTGCTCTGCTATGCTGAGCGACTTCTTCCGCTGGCGGCGGGAAGAGAAAAAAGCGCTGAAGAAAGCCCGGGAGCAGAACGGGGAAAGTTAA	MSDLELNDEYWMRHALTLAKRAWEEGEVPVGAVLVHNNQVIGEGWNRPIGRHDPTAHAEIMALRQGGLVLQNYRLIDATLYVTLEPCVMCAGAMVHSRIARLVFGARDAKTGAAGSLMDVLHHPGMNHRVEISEGVLAGSCSAMLSDFFRWRREEKKALKKAREQNGES	PGPT0006855_11	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROPROPENE_DEGRADATION,PGPT0006855-dhaA-K01563	NA	NA
BMS020_05300	636	pgpC	COG0560	Phosphatidylglycerophosphatase C	TTGCAGCACAGTGAACGGAGAGTGGTGTTTTTCGATCTGGACGGAACCTTGCATCAACAGGATATGTTCGGCAGTTTTCTGCGCTACCTGCTGCGCCATCTGCCGCTGAACCTGCTGCTGGTGGTGGCGATGGGGCCGGCGATCCTTGCCGGGCTGGCGGTGTGCGGGCGGGCGGCGCGCTGGCCGATGAGCCTGCTGCTGTGGGCGTCAACCTTTGGCCGTCGCGAGGCGGTACTGAAGCGGCTGGAAGCGGAGTTTGTCGGCTGGTTTCGTCATCATGTGACGGCGTTTCCGGTGGTTCATGCGCGGCTGACGGCCTACCTGACCAGTACCGATGCCGACGTCTGGTTGATCACCGGCTCGCCGCAGTCGCTGGTGGAACAGGTCTATCGCGATACCCTCTGGCTGCCGCGGGTGAATCTGATAGCCAGCCGCACCGCGCGCCGCTGGGGCGGCTGGGTATTGACCCTGCGCTGCCTGGGCCATGAAAAGGTGGTGCAGCTGGAGAAAAAGATTGGCGCTCCGCTGCAGCTGTATAGCGGCTATAGCGATAGCGAGCAGGATAACCCATTGCTCGGCTTTTGCCAGCATCGCTGGCGGGTCACCCCGCAGGGAGAGCTGCAGCAGCTGGAGTAA	MQHSERRVVFFDLDGTLHQQDMFGSFLRYLLRHLPLNLLLVVAMGPAILAGLAVCGRAARWPMSLLLWASTFGRREAVLKRLEAEFVGWFRHHVTAFPVVHARLTAYLTSTDADVWLITGSPQSLVEQVYRDTLWLPRVNLIASRTARRWGGWVLTLRCLGHEKVVQLEKKIGAPLQLYSGYSDSEQDNPLLGFCQHRWRVTPQGELQQLE	PGPT0007720_492	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATASE_ACTIVITY,PGPT0007720-pgpC-K18697	NA	NA
BMS020_05301	849	murR_1	COG1737	HTH-type transcriptional regulator MurR	ATGAACTGTTTAACGCGTATTCGTCAGCGCTATCCCACCCTGGCGGCGAGCGACAAAAAGTTGGCCGATTTTATTCTGAGCCAACCCGATGATACCCGGCACCTCAGCTCGCAGCAGCTGGCGGTGGAAGCCGGTGTGAGTCAGTCCAGCGTGGTTAAATTTGCCCAGAAACTGGGGTTCAAAGGCTTTCCGGCGCTGAAGCTGGCGCTGAGTGAAGCGCTGGCCAGCAGCCCGGATCCGCACTCCGTTCCGGTACATAACCACATTCGCGGTGACGACCCGCTGCGTCTGGTGGGCGAGAAACTCATTAAAGACAATGTCGCCGCCATGCATGCCTCGCTGGACGTCAACACTGAAGAGACGCTGCGGGAAGCCGTCACGCTGCTGCGCAACGCCCGGCGGGTGATCGTCACCGGGATTGGCGCGTCCGGCCTGGTGGCGCGTAACTTTAGCTGGAAGCTGATGAAGATCGGCGTTAATGCTGTTTCGGAGCAGGATATGCACGCCCTGCTGGCGACGGTGCAGGCCATGTCCAGCGACGATCTGCTGCTGGCGATCTCTTACTCCGGCGAGCGTCGGGAGATCAATATGGCGGCCGGTGAAGCGCTGCGCGTGGGCTCCAGGATCCTGGCGATCACCGGCTTTAGCCCTAACGCCCTGCAGCAGCAGGCGACCCACTGCCTGTACACCATCGCCGAAGAGCAGGCGACGCGCAGCGCGGCCATCTCTTCCACCAGCGCGCAAATGATGCTCACCGACCTGCTGTTTATGGGGCTGGTGCAGCAGGATCTGGAGCGGGCGCCGGAGCGCATTCGCCATAGCGAAGCGCTGGTGAAAAAGCTGGTCTGA	MNCLTRIRQRYPTLAASDKKLADFILSQPDDTRHLSSQQLAVEAGVSQSSVVKFAQKLGFKGFPALKLALSEALASSPDPHSVPVHNHIRGDDPLRLVGEKLIKDNVAAMHASLDVNTEETLREAVTLLRNARRVIVTGIGASGLVARNFSWKLMKIGVNAVSEQDMHALLATVQAMSSDDLLLAISYSGERREINMAAGEALRVGSRILAITGFSPNALQQQATHCLYTIAEEQATRSAAISSTSAQMMLTDLLFMGLVQQDLERAPERIRHSEALVKKLV				NA	NA	NA	NA	NA
BMS020_05302	261	yfhL	COG1145	Ferredoxin YfhL	ATGGCGCTGTTAATTACCAAAAAATGCATCAACTGCGATATGTGCGAGCCGGAGTGCCCCAATGAGGCCATTTCGATGGGTGACAGCATTTATGAAATTAACAGCGACCTCTGCACCGAATGCGTGGGCCATTACGACACGCCCACCTGCCAGAAGGTGTGCCCGATCCCAAATACCATTCTGAAAGATCCGGCACACGTCGAGAATGAAGAACAGCTGTGGGATAAATTCGTCCTGATGCACCACGCGGATAAAATTTAA	MALLITKKCINCDMCEPECPNEAISMGDSIYEINSDLCTECVGHYDTPTCQKVCPIPNTILKDPAHVENEEQLWDKFVLMHHADKI	PGPT0003976_53	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACTERIOFERRITIN-ASSOCIATED_FERREDOXIN,PGPT0003976-yfhL-NA	NA	NA
BMS020_05303	381	acpS	COG0736	Holo-[acyl-carrier-protein] synthase	ATGGCCATCCTCGGGCTGGGTACCGACATCGTCGAGATCGCCCGCATCGAGGCGGTGATCGCCCGCAGCGGCGATCGCCTTGCCCGCCGGGTGCTGAGCGACCATGAATGGAGCATCTGGGAGCAGCACCAGCAGCCGGTGCGTTTCCTGGCGAAACGCTTTGCGGTCAAGGAAGCGGCGGCGAAAGCGTTGGGGACCGGGATCCGCAACGGGTTGGCCTTTAATCAGTTCGAAGTTTACAACGATGAGCTGGGCAAGCCGAAGCTGCGGCTATGGGGTGAGGCGCAACGGCTGGCGGAACGACTGGGGGTGAGCCATATTCATGTCACGCTCGCCGATGAGCGGCATTACGCCTGCGCCACGGTGATTGTCGAAAGCTAA	MAILGLGTDIVEIARIEAVIARSGDRLARRVLSDHEWSIWEQHQQPVRFLAKRFAVKEAAAKALGTGIRNGLAFNQFEVYNDELGKPKLRLWGEAQRLAERLGVSHIHVTLADERHYACATVIVES	PGPT0008840_2114	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0008840-acpS-K00997	NA	NA
BMS020_05304	732	pdxJ_2	COG0854	Pyridoxine 5'-phosphate synthase	ATGGCTGAATTACTGTTAGGGGTCAATATTGACCATATCGCGACCTTGCGTAACGCCCGCGGCACCGCTTACCCGGATCCGGTTCAGGCGGCTTTCATTGCCGAACAGGCCGGCGCCGACGGCATAACCGTGCATCTGCGCGAAGACCGCCGCCATATCACCGATCGCGATGTGCGTATCCTGCGCCAGACGCTGCACACCCGCATGAACCTTGAAATGGCGGTCACCGAAGAGATGCTGACGATCGCCTGCGAAACCAAACCGCATTTCTGCTGCCTGGTGCCGGAGAAGCGTCAGGAAGTGACCACCGAAGGTGGACTGGACGTGGCCGGCCAGCGCGACAAGATGCGTGATGCCTGTCAACGCCTGGCGGATGCCGGCATCCTGGTCTCCCTGTTTATCGATGCGGATGAAGCGCAGATCAAAGCGGCAGCGGACGTTGGCGCGCCCTATATCGAAATCCACACCGGCTGCTATGCCGATGCTAAAACCGACGCCGAGCAGGCGAAGGAGCTGGAACGTATTGCCAAAGCGGCCACCTACGCCGCCAGCCTCGGCCTGAAGGTCAATGCGGGTCACGGTCTGACCTATCACAACGTGAAAGCGATTGCTGCGCTGCCGGAAATGCATGAGCTGAATATCGGCCACGCGATTATTGGCCGGGCGGTAATGAGCGGCCTGAAAGAGGCGGTGGCGGAAATGAAACGTCTGATGCTGGAAGCGCGCGGCTAA	MAELLLGVNIDHIATLRNARGTAYPDPVQAAFIAEQAGADGITVHLREDRRHITDRDVRILRQTLHTRMNLEMAVTEEMLTIACETKPHFCCLVPEKRQEVTTEGGLDVAGQRDKMRDACQRLADAGILVSLFIDADEAQIKAAADVGAPYIEIHTGCYADAKTDAEQAKELERIAKAATYAASLGLKVNAGHGLTYHNVKAIAALPEMHELNIGHAIIGRAVMSGLKEAVAEMKRLMLEARG	PGPT0009170_1990	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009170-pdxJ-K03474	NA	NA
BMS020_05305	738	recO_1	COG1381	DNA repair protein RecO	GTGGATGGATGGCAGCGCGCCTTTGTCCTGCATAGCCGACCGTGGAGCGAAACCAGCCTGATGCTGGACGTCTTCACGGAAGAATCCGGTCGCGTGCGCCTGGTTGCCAAGGGCGCACGCTCCAAACGCTCGAATCTTAAAGGCGCTTTACAGCCCTTTACCCCCTTGCTGGTTCGCTTCGGCGGCCGCGGCGAAGTCAAAACCCTGCGCAGCGCGGAAGCTGTCTCGCTGGCGCTGCCGCTCAGCGGCATCACCCTCTACAGCGGTCTTTACGTTAACGAGCTTATCTCCCGCGTGCTTGAGCACGAAACGCGCTTCTCCGAACTCTTTTTTGACTATCTGCACTGCATTCAGGCGCTCGCCGGGGCCAGCGGCTCGCCGGAGCCTGCGCTGCGGCGCTTTGAGCTGGCGCTGCTCGGACACCTGGGCTATGGCGTGGATTTTCTCCACTGTGCCGGGAGCGGCGAGCCGGTGGACGACACCATGACCTACCGCTATCGCGAAGAAAAAGGCTTTATTGCCAGCCTGGTGATTGATAACAACACGTTTACCGGGCACCATTTGAAAGCGTTGGCGAGTCGCGAGTTTCCTGATGTTGATACGTTGCGCGCCGCGAAGCGCTTTACCCGTATCGCCCTGAAGCCCTATCTCGGCGGCAAACCGCTCAAGAGCCGGGAATTGTTTCGCCAGTTTATGCCCGCGCGAAAGGCGCGAGCGGATAATACGAATAATGATTAA	MDGWQRAFVLHSRPWSETSLMLDVFTEESGRVRLVAKGARSKRSNLKGALQPFTPLLVRFGGRGEVKTLRSAEAVSLALPLSGITLYSGLYVNELISRVLEHETRFSELFFDYLHCIQALAGASGSPEPALRRFELALLGHLGYGVDFLHCAGSGEPVDDTMTYRYREEKGFIASLVIDNNTFTGHHLKALASREFPDVDTLRAAKRFTRIALKPYLGGKPLKSRELFRQFMPARKARADNTNND				NA	NA	NA	NA	NA
BMS020_05306	906	era_1	COG1159	GTPase Era	ATGAGCGAAGAAAAAAGTTATTGTGGGTTTGTCGCCATCGTGGGTCGTCCAAACGTTGGCAAATCCACGCTGTTGAATAAGCTGCTTGGGCAGAAGATCTCGATCACCTCCCGTAAAGCGCAGACCACCCGTCACCGCATCGTCGGCATCCATACCGAAGGGCCGTATCAGGCGATTTACGTCGATACCCCGGGCCTGCATATGGAAGAAAAGCGCGCCATTAACCGCTTAATGAACAAAGCGGCCAGCAGCTCTATTGGCGATGTTGAGCTGGTCATCTTCGTGGTGGAAGGCACCCGCTGGACGCAGGACGACGAGATGGTGCTCAACAAGCTGCGCGACGCCAAAGCGCCGGTGATCCTCGCGGTCAACAAAGTGGATAACGTGCAGGAAAAAGCGGATCTGTTACCGCATCTGCAGTTCCTCGCCAGCCAGATGAACTTCCTTGATATCGTGCCGATGTCGGCGGAAACGGGGACCAACGTCGACACCATTGCGTCGATCGTGCGTAAGCATCTGCCGGAAGCGATCCACCACTTCCCGGAAGATTATATTACCGATCGTTCTCAGCGCTTTATGGCTTCCGAAATCATCCGTGAAAAACTGATGCGTTTCCTCGGCGCTGAGCTACCGTACTCCGTCACCGTGGAAATCGAACGTTTCGTGACCAACGAGCGTGGCGGTTACGACATCAACGGCCTGATCCTTGTCGAGCGTGAAGGGCAGAAGAAGATGGTGATTGGCAACAAAGGCGCCAAAATCAAAACCATCGGCATCGAAGCGCGTAAGGACATGCAGGAGATGTTTGAAGCGCCGGTCCACCTCGAGCTGTGGGTCAAAGTGAAATCCGGCTGGGCCGATGACGAGCGCGCCCTGCGCAGTCTCGGTTATGTTGACGACCTCTGA	MSEEKSYCGFVAIVGRPNVGKSTLLNKLLGQKISITSRKAQTTRHRIVGIHTEGPYQAIYVDTPGLHMEEKRAINRLMNKAASSSIGDVELVIFVVEGTRWTQDDEMVLNKLRDAKAPVILAVNKVDNVQEKADLLPHLQFLASQMNFLDIVPMSAETGTNVDTIASIVRKHLPEAIHHFPEDYITDRSQRFMASEIIREKLMRFLGAELPYSVTVEIERFVTNERGGYDINGLILVEREGQKKMVIGNKGAKIKTIGIEARKDMQEMFEAPVHLELWVKVKSGWADDERALRSLGYVDDL				NA	NA	NA	NA	NA
BMS020_05307	681	rnc_1	COG0571	Ribonuclease 3	ATGAACCCCATCGTAATTAATCGGCTTCAACGAAAGCTGGGCTACACTTTTCATCATCAGGAGCTGTTGCAACAGGCATTAACTCACCGCAGTGCCAGCAGCAAACATAATGAGCGCCTGGAATTTTTAGGCGACTCCATTTTAAGTTTCGTGATCGCTAATGCGCTGTATCATCGCTTTCCTCGCGTGGATGAAGGCGACATGAGCCGTATGCGCGCGACGCTGGTGCGTGGCAACACGCTGGCGGAAATCGCCCGCGAGTTTGAACTGGGCGAATGCTTGCGCCTCGGGCCGGGCGAACTGAAAAGCGGCGGTTTCCGTCGCGAATCGATTCTCGCGGACACCGTTGAAGCGTTAATTGGCGGGGTTTTCCTCGACAGTGATATTCAGAACGTTGAACGCTTAATCCTCTCCTGGTACCAGACTCGTCTGGACGAAATCAGCCCGGGCGATAAGCAAAAGGATCCGAAGACGCGTCTGCAGGAGTATCTGCAGGGTCGTCATCTGCCGCTGCCGTCCTACCTGGTAGTCCAGGTGCGCGGCGAAGCGCACGATCAGGAATTTACTATCCACTGCCAGGTCAGTGGCCTGAGTGAACCGGTGGTTGGCACAGGTTCCAGCCGTCGTAAGGCGGAGCAGGCTGCCGCCGAACAGGCGCTGAAAAAGCTGGAGCTGGAATGA	MNPIVINRLQRKLGYTFHHQELLQQALTHRSASSKHNERLEFLGDSILSFVIANALYHRFPRVDEGDMSRMRATLVRGNTLAEIAREFELGECLRLGPGELKSGGFRRESILADTVEALIGGVFLDSDIQNVERLILSWYQTRLDEISPGDKQKDPKTRLQEYLQGRHLPLPSYLVVQVRGEAHDQEFTIHCQVSGLSEPVVGTGSSRRKAEQAAAEQALKKLELE				NA	NA	NA	NA	NA
BMS020_05309	975	lepB_1	COG0681	Signal peptidase I	ATGGCGAACATGTTTGCCCTGATCCTGGTGATTGCAACCCTGGTGACGGGCGTTTTATGGTGCCTGGACAAGTTCATTTTTGCACCGAAACGTCGTGAGCGTCAGGCCGCTGCTCAGGCAGCGACCGGCGAGCAGCTGGACAAAAAGACGTTGAAGAAAGTCGGCCCGAAACCGGGCTGGCTGGAAACCGGCGCATCGGTTTTCCCGGTGCTGGCGATCGTTCTGGTGGTACGTTCATTCATTTATGAGCCGTTCCAGATCCCGTCAGGTTCGATGATGCCGACTCTGCTGATTGGCGATTTCATCCTGGTGGAGAAATTTGCCTACGGCATTAAAGATCCTATCTACCAGAAAACGCTGATCGAGACGGGTCATCCGAAGCGCGGCGACATCGTGGTGTTTAAATATCCGGAAGACCCACGCCTGGACTACATCAAGCGCGCGGTGGGGCTCCCGGGGGATAAAGTCACCTACGATCCGATTGCCAAGCAGGTCACTATTCAGCCGGGCTGCAGCTCCGGACAGGCCTGCGGCAACGCGCTGCCGGTGACTTACTCCAACGTGGAGCCGAGCGATTTCGTTCAGACCTTCTCCCGCAGCAACGGCGGCGAAGCGAGCAGCGGTTTCTGGCAGCTGCCGAAGGGCGAAACCAAAGCCGACGGCATTCGCCTCACCGAGCGTCAGGAGACGCTGGGCGACGTCACGCATCGTATTCTGATGGTGCCGATTGCTCAGGATCAGGCTGGCATGTATTACCATCAGAGCGGTCTGCCGCTGGCCACCTGGATTGTGCCGCCGGGTCAGTACTTCATGATGGGCGACAACCGGGATAACAGCGCCGACAGCCGTTACTGGGGCTTTGTGCCGGAAGCAAACCTGGTCGGGAAGGCCACCGCTATCTGGATGAGTTTTGAAAAGCAGGAAGGTGAATGGCCGACCGGCGTGCGGTTATCGCGCATTGGTGGAATTCATTAA	MANMFALILVIATLVTGVLWCLDKFIFAPKRRERQAAAQAATGEQLDKKTLKKVGPKPGWLETGASVFPVLAIVLVVRSFIYEPFQIPSGSMMPTLLIGDFILVEKFAYGIKDPIYQKTLIETGHPKRGDIVVFKYPEDPRLDYIKRAVGLPGDKVTYDPIAKQVTIQPGCSSGQACGNALPVTYSNVEPSDFVQTFSRSNGGEASSGFWQLPKGETKADGIRLTERQETLGDVTHRILMVPIAQDQAGMYYHQSGLPLATWIVPPGQYFMMGDNRDNSADSRYWGFVPEANLVGKATAIWMSFEKQEGEWPTGVRLSRIGGIH				NA	NA	NA	NA	NA
BMS020_05310	1800	lepA_1	COG0481	Elongation factor 4	ATGAAGAATATACGTAACTTTTCGATCATCGCTCACATCGACCACGGTAAGTCGACGCTGTCTGACCGTATCATCCAGATTTGCGGTGGCCTTTCTGATCGTGAAATGGAAGCCCAGGTTCTGGACTCCATGGATCTTGAGCGCGAACGCGGGATCACCATCAAGGCGCAGAGCGTCACCCTGGACTATAAGGCCAACGACGGTGAGACCTATCAGCTGAACTTTATCGACACCCCGGGCCACGTGGACTTCTCTTATGAAGTTTCCCGTTCCCTCGCCGCGTGCGAAGGCGCGCTGCTGGTGGTTGACGCCGGGCAGGGCGTAGAAGCCCAGACCCTGGCCAACTGCTACACCGCGATGGAGATGGACCTGGAGGTCGTTCCGGTACTCAACAAGATCGACCTGCCTGCGGCCGACCCTGAGCGCGTAGCGGACGAAATTGAAGATATCGTCGGGATCGACGCCCACGACGCGGTGCGCTGCTCGGCGAAAACCGGCGTCGGCGTGACCGAGGTGCTGGAGCGTCTGGTGCGCGATATTCCGCCGCCGGAAGGCGATCCGGACGCGCCGCTGCAGGCGCTGATTATCGACTCCTGGTTCGATAACTACCTCGGCGTGGTATCGCTGGTACGAATTAAAAACGGCACCATGCGCAAGGGCGACAAGATCAAGGTCATGAGCACCGGCCAGGTCTATAACGCCGACCGTCTGGGCATCTTCACGCCGAAACAGGTTGACCGTACCGAGCTGAAATGCGGCGAGGTAGGTTGGCTGGTCTGCGCGATCAAAGACATCCTTGGCGCGCCGGTGGGCGATACCCTGACCGCCGCCCGCAACCCGGCAGACAAAGCGCTGCCTGGCTTTAAGAAGGTGAAACCGCAGGTGTATGCTGGCCTGTTCCCGGTAAGCTCCGATGATTATGAAGCTTTCCGCGACGCGCTGGGCAAACTGAGCCTCAACGACGCCTCTCTGTTCTACGAGCCGGAAAGTTCTACCGCGCTGGGCTTCGGCTTCCGCTGCGGCTTCCTCGGCCTGCTGCACATGGAGATCATTCAGGAGCGTCTGGAGCGTGAATACGATCTTGACCTGATCACCACCGCGCCGACGGTAGTTTACGAAGTGGAGACCACCTCCAAAGAAGTTATCTACGTCGACAGCCCGTCCAAGCTGCCGCCGCTGAATAATATTCAGGAGCTGCGTGAGCCGATCGCCGAGTGTCACATGCTGCTGCCGCAGGAGTTCCTCGGCAACGTGATCACCCTGTGCGTGGAGAAACGTGGCGTGCAGACCAACATGGTTTACCACGGTAAACAGGTGGCGCTGACCTACGAAATCCCGATGGCGGAAGTGGTGCTCGACTTCTTCGACCGTCTGAAGTCTACCTCCCGCGGCTATGCGTCGCTGGACTACAACTTCAAACGCTTCCAGGCGTCGAACATGGTACGCGTCGATGTGCTGATCAACGGCGAGCGCGTCGATGCGCTGGCGCTGATCACCCACAACGATAACGCGCCGTATCGCGGCCGCGAGCTGGTGGAAAAGATGAAAGATCTTATTCCGCGTCAGCAGTTCGACATCGCGATTCAGGCGGCCATCGGCAACCACATCATCGCGCGCTCTACCGTGAAACAGCTGCGTAAAAACGTGCTGGCGAAATGCTACGGCGGTGACGTCAGCCGTAAGAAAAAGCTGCTGCAGAAGCAGAAAGAAGGTAAGAAGCGTATGAAGCAGGTCGGTAACGTTGAACTGCCGCAGGAAGCGTTCCTCGCCATTCTGCACGTTGGTAAAGACGGCAAATAA	MKNIRNFSIIAHIDHGKSTLSDRIIQICGGLSDREMEAQVLDSMDLERERGITIKAQSVTLDYKANDGETYQLNFIDTPGHVDFSYEVSRSLAACEGALLVVDAGQGVEAQTLANCYTAMEMDLEVVPVLNKIDLPAADPERVADEIEDIVGIDAHDAVRCSAKTGVGVTEVLERLVRDIPPPEGDPDAPLQALIIDSWFDNYLGVVSLVRIKNGTMRKGDKIKVMSTGQVYNADRLGIFTPKQVDRTELKCGEVGWLVCAIKDILGAPVGDTLTAARNPADKALPGFKKVKPQVYAGLFPVSSDDYEAFRDALGKLSLNDASLFYEPESSTALGFGFRCGFLGLLHMEIIQERLEREYDLDLITTAPTVVYEVETTSKEVIYVDSPSKLPPLNNIQELREPIAECHMLLPQEFLGNVITLCVEKRGVQTNMVYHGKQVALTYEIPMAEVVLDFFDRLKSTSRGYASLDYNFKRFQASNMVRVDVLINGERVDALALITHNDNAPYRGRELVEKMKDLIPRQQFDIAIQAAIGNHIIARSTVKQLRKNVLAKCYGGDVSRKKKLLQKQKEGKKRMKQVGNVELPQEAFLAILHVGKDGK	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
BMS020_05311	480	rseC	COG3086	Protein RseC	ATGATCAAAGAGTGGGCCACCGTGGTTTCCTGGCATAACGGCGTGGCGCAGGTGCACTGCGACGTTAAAGCCTCCTGCAGCAGTTGCGCCTCCCGCGCCGGCTGCGGCAGCCGGGTATTAAACAAGCTGGGGCCGCAGACCAGCCATACCATCAGCGTGCCCTGCGAGCAGCCGTTGACGGCGGGGCAAAAAGTGGAGCTGGGGATCGCCGAGAGCAGTCTGCTGGGTTCGGCGCTGTTGGTCTACATGGCGCCGCTGGTGGGGCTGTTTGTGATGGCGTCGATTTTCCAGGTGCTGTTTGCCAGCGATATCGCTTCGCTGTGCGGCGCGCTGCTGGGCGGCGTCGGCGGGTTTCTGGTGGCGCGCGGTCTGTCGCCGCAGCTGGCAGCGCGCCAGTCGTGGCAGCCGGTGATTCTGAGCGTCGCGTTGCCGCCGGATCTGGTGCGTATCGAAACGCCTTCCTCCGACATGGGTCAGTGA	MIKEWATVVSWHNGVAQVHCDVKASCSSCASRAGCGSRVLNKLGPQTSHTISVPCEQPLTAGQKVELGIAESSLLGSALLVYMAPLVGLFVMASIFQVLFASDIASLCGALLGGVGGFLVARGLSPQLAARQSWQPVILSVALPPDLVRIETPSSDMGQ				NA	NA	NA	NA	NA
BMS020_05312	957	rseB	COG3026	Sigma-E factor regulatory protein RseB	ATGAAGCAACTTTGGTGTGCCATGTCGCTCATGGCAGGCAGTCTGTTGTTCTCTGTCAACGCCTCGGCTGATACATCGTCCGGGGCGTTGTTGCAGCAGATGAACCTGGCCAGCCAGTCCCTCAATTATGAGCTGTCTTTCGTCAGCATCAGCAAACAAGGCGTTGAGTCGCTGCGCTATCGTCACGCTCGACTGAACAATCAACCGCTGGCGCAGCTTCTGCAGCTGGACGGTCCGCGCCGGGAAGTGGTCCTGCGCGGTACGGAAATCAGCTATTTTGAACCCGGCCTCGATCCGTTCACCCTGAACGGCGACTATATCGTCGATTCGCTGCCGTCGTTGGTTTACAGCGATTTCAAACGTCTCAGCGCAGCCTATGATTTTATCTCCGTGGGCCGTACCCGTATCGCCGACCGCCTCTGCGACGTGATCCGCGTCGTGGCTCGCGACGGCACGCGCTATAGCTTTATCGCCTGGCTGGACGCTGAGACCAAGCTGCCGCTGCGCGTCGATTTGCTCGACCGCGACGGTGAAACGCTGGAGCAGTTCCGGGTCGTCTCTTTCAACGTTGGCGATAACGTCAGCGCCAGCATGGAGACGCTGGCGAAAGCGAATTTGCCGCCGCAGCTGTCGGTGCCTGAAGGGGGCGACAAAGCCAACTTCAACTGGGCGCCAACGTGGCTCCCGCAGGGCATGACTGAGGTCTCCAGCAGCCAGCGTCGTCTGCCCACCTTTGATGGTCCGGTAGAATCACGTCTCTATTCCGACGGCTTGTTCAGCTTCTCGATCAATATCAACCGCGCCACCGCGGCCAGCAGCGACCAGCTGTTGCGCACCGGCCGACGCACCGTCAGCACGACGGTACGCGATAACGCGGAGATCACCGTGGTGGGCGAACTGCCGCCGCAGACGGCGAAGCGTATCTCAGACAGCATTAAATTCAAGGCAGTACAATGA	MKQLWCAMSLMAGSLLFSVNASADTSSGALLQQMNLASQSLNYELSFVSISKQGVESLRYRHARLNNQPLAQLLQLDGPRREVVLRGTEISYFEPGLDPFTLNGDYIVDSLPSLVYSDFKRLSAAYDFISVGRTRIADRLCDVIRVVARDGTRYSFIAWLDAETKLPLRVDLLDRDGETLEQFRVVSFNVGDNVSASMETLAKANLPPQLSVPEGGDKANFNWAPTWLPQGMTEVSSSQRRLPTFDGPVESRLYSDGLFSFSININRATAASSDQLLRTGRRTVSTTVRDNAEITVVGELPPQTAKRISDSIKFKAVQ				NA	NA	NA	NA	NA
BMS020_05313	651	rseA	COG3073	Anti-sigma-E factor RseA	ATGCAGAAAGAAAAACTTTCGGCTTTAATGGATGGTGAAACGCTGGATAACGAACTGCTCAACGAGCTGAGTCGTTCTTCTGAGATGCAAAAAACCTGGGAGAGTTATCACCTTATCCGCGATACGCTGCGTGGCGATACCGCAGAGGTGCTGCAATTTGATATCTCCGCCCGGGTGATGGCCGCCATTGAAAATGAGCCCGTTCGTCAGACGGCGCCGCTTATTCCTGAATCTCAGCCCGCACCGCACCAGTGGCGGCAGATGCCGTTCTGGAACAAAGTGCGTCCGTGGGCCAGCTCACTGACCCAGATGGGCGTTGCCGCCTGCGTATCGCTTGCGGTTATCGTCGGCGTCCAGCACTATAATGGGCAGTCTGATGCCGCTCAGCAGCCAGAGGCGCCGGTGTTCAATACGCTGCCGATGATGGGTAAAGCGAGCCCGGTAAGCCTTGGCGTACCGGCTGACGTATCAGCAGGTAGCGGCCAGCAGGCTCAGGTCCAGGAACAGCGTCGGCGGATTAACGCCATGCTGCAGGACTACGAACTGCAGCGCCGCCTGCACGCTGAGCAGCTTCAGTTTGGCCAGGCCCAGACTCAGCAGGCCGCAGTCCAGGTGCCGGGTTATCAAACTTTAGGAACGCAATCGCAGTAA	MQKEKLSALMDGETLDNELLNELSRSSEMQKTWESYHLIRDTLRGDTAEVLQFDISARVMAAIENEPVRQTAPLIPESQPAPHQWRQMPFWNKVRPWASSLTQMGVAACVSLAVIVGVQHYNGQSDAAQQPEAPVFNTLPMMGKASPVSLGVPADVSAGSGQQAQVQEQRRRINAMLQDYELQRRLHAEQLQFGQAQTQQAAVQVPGYQTLGTQSQ	PGPT0014976_323	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014976-rseA-K03597	NA	NA
BMS020_05314	576	rpoE_1		ECF RNA polymerase sigma-E factor	ATGAGCGAGCAGTTAACGGATCAGGTCCTTGTTGAACGGGTCCAGAAAGGAGATCAGAAAGCGTTTAATTTGCTGGTAGTGCGCTATCAGCATAAGGTCGCGAGCCTGGTTTCCCGCTATGTACCGCCGGGCGATATCGCTGACGTCGTTCAGGAATCGTTCGTTAAGGCATGGCGTGCGCTGGACTCTTTCCGGGGAGATAGCGCTTTTTACACCTGGTTATACCGTATCGCCGTCAATACGGCGAAGAATTATCTGGTTGCTCAGGGACGCCGTCCGCCGTCCAGCGATGTTGACGCTAACGAGGCGGAAAACTTCGAAAGCGGCGGGGCGTTGAAAGAAATTTCGAACCCTGAGAACTTAATGTTGTCAGAAGAACTGAGACAAATAGTTTTTCGTACCATTGAATCGCTTCCGGAAGATTTACGCATGGCAATTACGTTACGGGAGCTGGATGGCCTAAGCTATGAAGAGATAGCCGCTATCATGGATTGTCCGGTTGGGACGGTGCGTTCGCGTATCTTCCGGGCGCGAGAAGCTATTGATAATAAAGTTCAACCGCTTATCAGGCGTTGA	MSEQLTDQVLVERVQKGDQKAFNLLVVRYQHKVASLVSRYVPPGDIADVVQESFVKAWRALDSFRGDSAFYTWLYRIAVNTAKNYLVAQGRRPPSSDVDANEAENFESGGALKEISNPENLMLSEELRQIVFRTIESLPEDLRMAITLRELDGLSYEEIAAIMDCPVGTVRSRIFRAREAIDNKVQPLIRR	PGPT0014960_5017	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS020_05315	1620	nadB	COG0029	L-aspartate oxidase	ATGAATACCACTCCTGACTTCTCTTGTGATGTGTTGATTATCGGCAGCGGCGCTGCCGGCCTCTCTCTTGCGCTGCGCCTGGCAGAGCACAGTTCGGTGACGGTGTTGAGCAAAGGGCCGATCAGCGAAGGTTCGACATTCTATGCGCAGGGCGGGATTGCCGCCGTCTTCGACGAGACCGACAGTATTGAATCCCATGTCGAAGATACCCTGATAGCCGGCGCAGGGTTATGCGATCGCCATGCGGTCACCTTCGTCGCCAGCAACGCCAGGCCATGCGTCCAGTGGCTTATCGATCAGGGCGTATTGTTTGATACCCAGGTCCAGGCCAATGGCGAAGAGAGCTATCATCTCACGCGCGAAGGGGGCCACAGCCATCGGCGCATTCTTCACGCCGCCGACGCTACCGGCAAAGCGGTGGAGACGACGCTGGTCGATAAAGCCCTCGCCCATCCCAATATCCGCATCCTTGAGCGCAGCAATGCCGTCGACTTGATCGTATCGGATAAGATTGGCCTGCCGGGCACGCGCCGGGTGGTCGGGGCATGGATCTGGAACCGCAATAAAGAGCGCGTGGAAACCTGCAGCGCGAAGGCGGTGGTGCTCGCCACCGGCGGAGCCGCCAAGGTTTATCAATACACCACTAACCCCGACGTCTCTTCCGGAGACGGTATCGCGATGGCCTGGCGGGCGGGCTGCCGGGTGGCGAATCTGGAATTCAACCAGTTTCACCCCACCGCGCTGTATCATCCGCAGGCGCGCAATTTCCTGCTGACCGAAGCGCTGCGCGGCGAAGGCGCCCACCTTAAACGCCCGGACGGCACCCGCTTTATGCCGGACTTTGACGAACGCGGCGAGTTGGCCCCACGCGATATCGTCGCCCGCGCCATCGATCATGAGATGAAGCGCCTTGGCGTTGACTGTATGTTCCTTGATATCAGCCATAAACCCGAGGCGTTTGTTCGCCAGCACTTCCCGATGATTTACGAAAAGCTGCTCGGTCTGGGAATTGATTTAACCAAAGATCCGGTGCCGGTCGTCCCTGCCGCGCATTACACCTGCGGCGGCGTGATGGTGGATGATAATGGCCGCACCGACGTCGATGGGTTATACGCCATCGGCGAAGTCAGCTATACCGGGCTGCACGGCGCGAACCGTATGGCCTCGAACTCGCTGCTGGAGTGTCTGGTTTACGGCTGGTCCGCCGCAGAAGATATTGCCCGTCGCCTGCCGCTGGCCCAGAAGGTCAGCACCCTGCCGGCGTGGGATGAAAGTCAGGTGGAGATCCCGGATGAACTGGTGGTTATCCAACATAACTGGCACGAGCTGCGCCTGCTGATGTGGGATTACGTGGGGATTGTGCGCACCACCCGCAGGCTGGAGCGCGCCCTGCGGCGCATTACCATGCTGCAGCAGGAGCTGGATGAGTATTACGCCCGCTTCCGCGTCTCGAATAATCTGCTGGAGCTGCGCAATCTGGTGCAGGTGGCGGAACTTATCGTACGCTGCGCGATGTTGCGCAAAGAGAGCCGGGGACTGCATTACACCCTCGACTATCCGCAGCCGCTGCCGAACAGCGGTCCGTCGATATTGTCGCCCCTGGCTCACATAAAGAGATAA	MNTTPDFSCDVLIIGSGAAGLSLALRLAEHSSVTVLSKGPISEGSTFYAQGGIAAVFDETDSIESHVEDTLIAGAGLCDRHAVTFVASNARPCVQWLIDQGVLFDTQVQANGEESYHLTREGGHSHRRILHAADATGKAVETTLVDKALAHPNIRILERSNAVDLIVSDKIGLPGTRRVVGAWIWNRNKERVETCSAKAVVLATGGAAKVYQYTTNPDVSSGDGIAMAWRAGCRVANLEFNQFHPTALYHPQARNFLLTEALRGEGAHLKRPDGTRFMPDFDERGELAPRDIVARAIDHEMKRLGVDCMFLDISHKPEAFVRQHFPMIYEKLLGLGIDLTKDPVPVVPAAHYTCGGVMVDDNGRTDVDGLYAIGEVSYTGLHGANRMASNSLLECLVYGWSAAEDIARRLPLAQKVSTLPAWDESQVEIPDELVVIQHNWHELRLLMWDYVGIVRTTRRLERALRRITMLQQELDEYYARFRVSNNLLELRNLVQVAELIVRCAMLRKESRGLHYTLDYPQPLPNSGPSILSPLAHIKR	PGPT0013355_1057	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013355-nadB-K00278	NA	NA
BMS020_05316	738	yfiC	COG4123	tRNA1(Val) (adenine(37)-N6)-methyltransferase	ATGTCTCAGTCGAAGTTTGCGCTGCCGCGCAATGGTTTTACCTTCAAACAGTTTTTTGTCGCCCACGATCGTTGCGCGATGAAGGTGGGTACCGACGGCATTTTGCTCGGCGCCTGGGCGCCGATTGCCGGGGTGAAACATGTGCTGGATATTGGCGCCGGCAGCGGCCTGCTGGCGCTAATGCTCGCGCAGCGTACCGGCGATGATGTGCGTGTCGATGCGGTCGAACTGGATGAGGAGGCCGCCTCCCAGGCGCAGGAAAATGCTCTTGCGTCGCCATGGGCTTCGCGGGTTGAGGTCTGTCAGGCAGATATTCATCAGTGGCAGCCGCCGCAGACCCGACGCTATCAACTGATAATCAGTAACCCGCCCTTTTTTGCGGAAGGGGTGCCTTGCGCCACCTCGCAGCGGGAGCAGGCGCGGTATACCACGACGCTCGATCACGCTTCTCTGCTGACCTGTGCCGCTGAGCATATCACCGAAGAAGGCTTTTTTTGCGTGGTGCTGCCGGTCGATATCGGTAATGCGTTTATCGAACGGGCAACCGCGATGGGCTGGCACCTGCGACTGCGCACTGACGTGGCGGAGACCGAGATGCGGCCGCCGCATCGGGTGCTGCTGGCTTTCTCCCCGACGGCGGGGGAGTGTTTCAGCGACAGGCTGGCGATCCGCGGGCCAGAGCAGCAGTATTCAGAAGGCTTTACCGCTCTGACCGAGGATTTTTATCTCTTTATGTGA	MSQSKFALPRNGFTFKQFFVAHDRCAMKVGTDGILLGAWAPIAGVKHVLDIGAGSGLLALMLAQRTGDDVRVDAVELDEEAASQAQENALASPWASRVEVCQADIHQWQPPQTRRYQLIISNPPFFAEGVPCATSQREQARYTTTLDHASLLTCAAEHITEEGFFCVVLPVDIGNAFIERATAMGWHLRLRTDVAETEMRPPHRVLLAFSPTAGECFSDRLAIRGPEQQYSEGFTALTEDFYLFM				NA	NA	NA	NA	NA
BMS020_05317	1332	srmB_1	COG0513	ATP-dependent RNA helicase SrmB	ATGACTGTAACGACTTTTTCCGAACTTGAACTAGATGAAAACCTGCTGGAAGCCCTCCAGGATAAAGGTTTCACTCGCCCGACAGCCATTCAGGCCGCCGCTATTCCGCCTGCGCTCGATGGCCGTGACATTCTCGGTTCAGCGCCGACCGGCACCGGTAAAACGGCGGCGTATCTGCTGCCAGCGTTGCAGCACCTGCTCGATTTCCCGCGTAAGAAATCCGGCCCGCCGCGTATTCTTATCCTGACGCCGACCCGTGAGCTGGCGATGCAGGTGGCTGACCACGCCCGCGAGCTGGCGAAGCATACCCATCTGGATATCGCCACCATTACCGGCGGCGTAGCCTACATGAACCACGCGGAAGTGTTCAGCGAAAACCAGGACATCGTGGTCGCCACCACTGGTCGCCTGCTGCAGTATATAAAAGAAGAGAACTTCGACTGCCGCGCCGTCGAGACCCTGATCCTCGATGAAGCCGACCGCATGCTGGACATGGGCTTTGCGCAGGATATCGAAACCATCGCCGGTGAAACCCGCTGGCGCAAGCAGACCATGCTGTTCTCCGCGACGCTGGAAGGCGATGCGATCAAAGACTTCGCTGAGCGCCTGCTGGAAGAGCCGGTTGAAGTTTCCGCTACCCCGTCGACTCGCGAGCGTAAGAAAATCCATCAATGGTACTATCGCGCGGACGATATCGAACATAAGACCAGGCTGCTGGTGAATCTGCTGCAACAGCCGGAAGCTACCCGCGCTATCGTCTTTGTGCGCAAGCGCGAGCGCGTGCATGAGCTGGCCAACTGGCTGCGTGAAGCGGGGATTAACACCTGCTGGCTGGAGGGCGAGATGGTGCAGGCCAAGCGTAACGAAGCCATTAAGCGTCTGACCGACGGCCGCGTAAACGTGCTGATCGCCACCGACGTCGCCGCCCGCGGTATCGATATTCCGGACGTCAGCCACGTCTTTAACTTCGATATGCCGCGCACCGCCGACATCTATCTGCACCGTATCGGTCGTACCGGCCGTGCAGGTAAGAAAGGCACCGCGATTTCGCTGGTTGAAGCGCACGATCACCTGCTGCTGGGCAAGATCGGCCGCTACGTTGAAGAACCGCTGAAAGCTCGCGTGATTGATGAATTGCGACCAAAAACCCGCGCGCCAAGCGAGAAGTTGACCGGTAAGCCATCGAAGAAAGTGCTGGCGAAACGCGCCGAGAAAAAAGAGAAAGAAAAAGAGAAGCCGCGGGTGAAGAAGCGCCACCGCGATACGAAAAATATCGGTAAGCGCCGGAAGCCAAGCGCGACCGGGACGCCATCAGCGTCGAGCGAAGAGTAA	MTVTTFSELELDENLLEALQDKGFTRPTAIQAAAIPPALDGRDILGSAPTGTGKTAAYLLPALQHLLDFPRKKSGPPRILILTPTRELAMQVADHARELAKHTHLDIATITGGVAYMNHAEVFSENQDIVVATTGRLLQYIKEENFDCRAVETLILDEADRMLDMGFAQDIETIAGETRWRKQTMLFSATLEGDAIKDFAERLLEEPVEVSATPSTRERKKIHQWYYRADDIEHKTRLLVNLLQQPEATRAIVFVRKRERVHELANWLREAGINTCWLEGEMVQAKRNEAIKRLTDGRVNVLIATDVAARGIDIPDVSHVFNFDMPRTADIYLHRIGRTGRAGKKGTAISLVEAHDHLLLGKIGRYVEEPLKARVIDELRPKTRAPSEKLTGKPSKKVLAKRAEKKEKEKEKPRVKKRHRDTKNIGKRRKPSATGTPSASSEE	PGPT0013740_2989	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS020_05318	384	grcA	COG3445	Autonomous glycyl radical cofactor	ATGATTACTGGTATCCAAATTACTAAAGCGGCAAACGACGACCTGCTGAACTCTTTCTGGCTGCTGGATAGCGAAAAAGGCGAAGCGCGTTGCCTGTGCGCCAAAGGTGGTTTTGCGGAAGATGACGTGGTGGCAGTCAGCAAACTGGGTGAAATCGAATACCGTGAAATCCCGGTAGACGTGAAACCAGAAGTTCGCGTGGAAGGCGGTCAGCACCTGAACGTTAACGTGCTGCGTCGCGAAACCCTGCTGGACGCGGTTGAGCATCCTGAAAAATACCCGCAGCTGACCATTCGTGTTTCCGGCTACGCGGTACGCTTCAACTCCCTGACCCCGGAACAGCAGCGCGACGTTATCGCTCGTACCTTTACCGAAAGCCTGTAA	MITGIQITKAANDDLLNSFWLLDSEKGEARCLCAKGGFAEDDVVAVSKLGEIEYREIPVDVKPEVRVEGGQHLNVNVLRRETLLDAVEHPEKYPQLTIRVSGYAVRFNSLTPEQQRDVIARTFTESL				NA	NA	NA	NA	NA
BMS020_05319	690	ung_1	COG0692	Uracil-DNA glycosylase	ATGACCACCCCTTTAACCTGGCATGACGTGCTGGCGGATGAAAAGCAACAACCCTATTTTCTCAATACTCTGAAGACCGTCGCCGAAGAGCGCCAGTCCGGGATCACCATCTATCCACCGCAAAAAGATGTCTTTAATGCGTTTCGCTTTACCGAACTGGGCGATGTCAAAGTCGTCATTCTCGGTCAGGACCCCTATCACGGCCCGGGACAAGCCCACGGTCTGGCGTTCTCGGTTCGCCCCGGCGTCGCAATCCCGCCCTCGCTGCTGAATATGTACAAAGAGCTGGAGGCCACTATCCCTGGCTTTACCCGCCCTACCCATGGTTACCTGGAAAGCTGGGCGCGCCAGGGGGTGCTCCTGCTTAATACGGTCCTGACCGTCCGCGCCGGGCAGGCGCACTCGCACGCCAGCCTCGGCTGGGAGACGTTTACCGATAAGGTAATCGCGTTAATCAATGAGCACTGCGAGGGGGTGGTCTTTCTGCTGTGGGGCTCCCATGCGCAGAAGAAAGGCGCGATTATCGATCGCCAGCGCCACTGCGTACTGAAGGCGCCGCACCCTTCACCGCTCTCCGCGCATCGCGGCTTCTTTGGCAGCAACCATTTCGTGCAGACCAATCAGTGGCTGGCCGATCGCGGCGAAGCGCCGATTGACTGGATGCCGGTCCTTCCCGCCGAAAGCGAGTGA	MTTPLTWHDVLADEKQQPYFLNTLKTVAEERQSGITIYPPQKDVFNAFRFTELGDVKVVILGQDPYHGPGQAHGLAFSVRPGVAIPPSLLNMYKELEATIPGFTRPTHGYLESWARQGVLLLNTVLTVRAGQAHSHASLGWETFTDKVIALINEHCEGVVFLLWGSHAQKKGAIIDRQRHCVLKAPHPSPLSAHRGFFGSNHFVQTNQWLADRGEAPIDWMPVLPAESE	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
BMS020_05320	1086	yfiF_1	COG0566	putative tRNA/rRNA methyltransferase YfiF	ATGAGCGACGAACTGAAAAATAAAAGCGGCAAGGTCAAAGTGATGTATGTCCGCAGTGATGATGATTCTGACAAACGCACCCATAACCCACGTACCGGGAAAGGGGGAGGTCGTCCAGGAAAATCTCGTGTTGACGGCCGCAGCCGCCCTGCGCGTGACGAACGAAACAGTCGCGGTGACGATCGTAAACGCGATGACCGCAAGCGTGATGAGCGCAAGCGCGATGATTTTAATCGTGACGATGCGTCCCCGTGGCGTACCGTTTCTCGCGCTCCTGGCGATGAGACGCCGGTAAAAGAGGATCACGGCGGGATCAGCGGGAAGAGCTTTATCGATCCGGAAGTACTGCGTCGCCAGCGTGCGGAAGAGACCCGCGTGTATGGTGAAAACGCCTGTCAGGCCCTGTTCCAGAGCCGACCGGAAGCCATTGTCCGCGCCTGGTTTATCCAGAGCGTGACGCCGCGCTTTAAAGAGGCGCTGCGCTGGATGGCGGCTAACCGTAAAGCCTACCATGTGGTTGATGAAGCCGAGCTGGCGAAAGCCTCCGGGACCGATCACCACGGCGGCGTCTGCTTCCTGATCAAAAAACGCCACGGTACCTCTGTTGCCCAGTGGGTCGCGAAGGCCGCAGAAGAAGATTGCGTCCTGGCGCTGGAGGACGTGGGTAACCCGCACAACCTCGGGGCGATCATGCGCAGCTGCGCGCACTTCGGCGTGAAGGGTGTTGTGGTTCAGGATGCCGGCGTGCTGGAGTCCGGCGCGGCGATCCGTACGGCGGAAGGCGGTGCGGAACATGTTGAACCGATCACCGGCGACAGCTTCATCGATACTCTGGATCAGTTCCGTCAGTCGGGCTATGCGATTGTCTCGACCTCCAGCCATAATGGTACCCCGCTGTTTAAAGCCGAGCTGCCGAAGAAAATGGTGCTGGTGTTAGGCCAGGAGCGCGATGGCCTGTCGGATGCAGCGATCTCCAGCGCGGACCTCAGCGTCGCCATCGATGGTACCGGCAATGTCGAAAGCCTGAACGTCTCTGTGGCGACCGGCGTCCTGCTGGCGGAATGGTGGCGTCAGAACAAGGCGTAA	MSDELKNKSGKVKVMYVRSDDDSDKRTHNPRTGKGGGRPGKSRVDGRSRPARDERNSRGDDRKRDDRKRDERKRDDFNRDDASPWRTVSRAPGDETPVKEDHGGISGKSFIDPEVLRRQRAEETRVYGENACQALFQSRPEAIVRAWFIQSVTPRFKEALRWMAANRKAYHVVDEAELAKASGTDHHGGVCFLIKKRHGTSVAQWVAKAAEEDCVLALEDVGNPHNLGAIMRSCAHFGVKGVVVQDAGVLESGAAIRTAEGGAEHVEPITGDSFIDTLDQFRQSGYAIVSTSSHNGTPLFKAELPKKMVLVLGQERDGLSDAAISSADLSVAIDGTGNVESLNVSVATGVLLAEWWRQNKA				NA	NA	NA	NA	NA
BMS020_05321	426	trxC_1	COG0526	Thioredoxin 2	ATGAATACCGTTTGTGCCAGTTGTCAGGCTCTGAACCGCCTCCCGGACGATCGTAGCGCGGATGGCGCAAAGTGCGGACGCTGCGGTCACGATCTTTTTGATGGCGACGTCATCAACGCGACCGGGGCAACGCTGGATAAACTCTTAAAGGACGATCTGCCGGTCGTTGTCGATTTCTGGGCGCCATGGTGCGGTCCCTGCCGCAGCTTCGCACCGATCTTTGAAGACGTCGCGGAAGAGCGTAGCGGGAAGATGCGTTTTGTGAAAGTTAACACCGAAGCGGAACGTGAGCTTAGCGCACGGTTTCGTATCCGCAGCATCCCGACCATTATGATGTTCAAAAATGGCGAAGTGATCGACATGCTCAATGGCGCGGTGCCAAAAGCGCCATTTGATAGCTGGCTGAACGAAGCCGGACAGCAGTAA	MNTVCASCQALNRLPDDRSADGAKCGRCGHDLFDGDVINATGATLDKLLKDDLPVVVDFWAPWCGPCRSFAPIFEDVAEERSGKMRFVKVNTEAERELSARFRIRSIPTIMMFKNGEVIDMLNGAVPKAPFDSWLNEAGQQ	PGPT0013061_831	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013061-trxC-K03672	NA	NA
BMS020_05322	699			hypothetical protein	ATGACTGATAACGCTGTCCTTCGCCTGCGCGCCGAACGTCTCGCGCGAGCCACCCGCCCTTTCCTTGCTCGCGGCAACCGCATCCGCCGCTGCCAGCGCTGTCTGCTGCCGCTCAAGCAGTGCCTGTGCGCCACGTTAACGCCGGCGCAGGCCACCAGCCGTTTCTGCCTGGTGATGTTTGATACGGAGCCGATGAAGCCCAGCAACACCGGCCGGCTCATCGCCGATATTCTGCCGAATACCGAGGCTTATCAATGGTCGAGAACCGAGCCGCCGCAGGGGCTGCTCGATCTGGTCGCCCATCCCGATTACCAGCCGATGGTGGTGTTCCCCGCCTCCTACGCCGCACCGGAGCGCCAGGTCCTGAGCGCGCCGCCGTCCGGCAAACCGCCGCTGTTTATCATGCTCGACGGCACCTGGACCGAAGCGCGTAAAATGTTCCGTAAGAGCCCTTATCTGGACGCGCTGCCGATCATCTCCGTCGATCTGTCGCGCATCTCAGCCTACCATCTGCGCGAGGCGCACGCCGACGGACAATATTGTACCGCGGAAGTGGCTATCGCCCTGCTGGATCTGGCGGGCGATGCGCCGGCCGCCGCAGCGCTTGGCGAACACTTCACCCGCTTTCGGACCCGCTACCTGGCGGGAAAAACCCAGCATAAGGGCAGTATCACAGCGGGCCAGGTGGAAAACGTTTAA	MTDNAVLRLRAERLARATRPFLARGNRIRRCQRCLLPLKQCLCATLTPAQATSRFCLVMFDTEPMKPSNTGRLIADILPNTEAYQWSRTEPPQGLLDLVAHPDYQPMVVFPASYAAPERQVLSAPPSGKPPLFIMLDGTWTEARKMFRKSPYLDALPIISVDLSRISAYHLREAHADGQYCTAEVAIALLDLAGDAPAAAALGEHFTRFRTRYLAGKTQHKGSITAGQVENV				NA	NA	NA	NA	NA
BMS020_05323	2652	pat_2	COG0454	Peptidyl-lysine N-acetyltransferase Pat	ATGAGCCAACGAGGCCTTGAAGCGCTGCTGCGACCAAAATCCATCGCCGTTATTGGCGCATCAATGAAGCCGCAGCGCGCTGGCTATCTCATGATGCGCAACCTGCTAGCCGGCGGCTTCAATGGCCCGGTACTGCCGGTGACCCCCGCCTGGAAGGCGGTGCTTGGGGTGCTGGCGTGGCCCACCATCGAGAAGCTGCCGTTTACGCCGGATCTGGCGGTGCTTTGTACCAACGCGCGACGTAATCTCGAGTTGCTCGAAGCACTGGGGCAGAAAGGCTGCAAGACCTGCATCATCCTCTCTTCGCAGCAGGAACAGTATCCGGCGTTGCTCGAATGCGCTGCGCGCTATCAGATGCGCCTGCTCGGCCCAAACAGCCTGGGGCTGCTGGCGCCGTGGCAAGGCCTGAACGCCAGCTTTTCGCCGGTCGCGATCCACCGCGGTAAACTGGCCTTTATCTCGCAGTCGGCCGCCGTCTCCAACACCATCCTTGACTGGGCGCAACAGCGCGAGATGGGGTTTTCCTACTTCATCGCACTGGGCGATAGCCTGGATATAGATGTCGATGACCTGTTGGACTTTCTGGCCCGCGACAGCAAAACCAGCGCCATTTTGCTTTACCTTGAGCATCTCAGCGACGCGCGCCGGTTTGTCTCCGCCGCGCGCAGCGCCTCGCGAAACAAGCCAATCCTGGTGATCAAAAGCGGCCGTAGTCCCGCGGCGCAGAAACTGTTGCACGTCAATTCAGGGATGGATCCGGCATGGGATGCGGCCATCCAGCGTGCTGGTCTGCTGCGGGTCCAGGATACCCATGAGCTGTTCTCCGCCGTAGAAACCCTGAGCCATATGCGCCCGCTGCGCGGTGAAAAACTGATGATCGTCAGCAACGGCGCGGCGCCGGCGGCGCTGGCGCTGGATGAGCTTTGGTTGCGTAACGGTAAGCTGGCGACCCTCAGTGAGGAGACGCGCGACGCCCTGCGCCAGGCGCTGCCGGGCGGCGTTGAGATCGCCAACCCACTGGATCTACGCGATGACGCCAGCAGCGAACACTATCAGCGGGCGGTGAATATTCTGCTTAACAGCCAGGACTACGACGCGCTGCTGGTGATCCACTCGCCCAGCGCCGCCGCGCCGGGCACCGAGAGCGCCCTGGCGCTGATAGACGCCCTGAAGCACCATCCGCGTGGCAAATATGTCACCGTGCTGACCAACTGGTGCGGCGAATTCTCTTCCCAGGAGGCGCGACGGCTGTTCAGCGATGCCGGCCTTCCCACCTACCGTACGCCGGAGGGCACCATCACCGCCTTTATGCATATGGTCGAGTACCGCCGTAACCAGAAACAGCTGCGCGAGACTCCAGTGCTGCCGGACTCGTTAACCGCCAATACCAGCGAAGCGCATGCTCTGCTCCAGCAAGCGATAGATGACGGCGCCACCACGCTGGATACCCACGAGGTCAGCCCGGTGCTCCGGGCCTACGGTATCCACACACTGCCAACCTGGATCGCCGCTGACAGCGCGGAAGCGGTGCATATCGCTGAGCAGATAGGCTATCCGGTTGCGTTGAAGCTGCGTTCCCCGGATATTCCGCACAAATCAGAAGTACAGGGGGTCATGTTGTATCTGCGTACCGCGGCAGAAGTACAGCAGGCAGCGGATGCGATGATCGATCGCGTCAGGTTGGCCTGGCCCCAGGCGCGCATTCATGGCCTGCTGGTGCAGAGTATGGCCAATCGCGCCGGCGCCCAGGAGCTGAGAGTGGTGGTTGAGCACGATCCCCTCTTCGGCCCGTTGATTATGTTGGGCGAAGGCGGCGTGGAGTGGCGGGCCGAGGACCAGGCCGCTGTGGCGCTGCCGCCGCTGAATATGAACCTGGCGCGTTATCTGGTGATCCAGGCGATCAAAAATAAGAAGATCCGCGGCCGCAGCGCATTGCGACCGCTGGATATCGCAGGCTTAAGCCAGCTGCTGGTTCAGGTCTCGAACCTGATCGTCGACTGCCCGGAGATCCAGCGGCTGGATATTCATCCCCTGCTCGCCTCCGGCAACGAGTTTACGGCGCTGGACGTTACCCTGGGGCTTGCTCCCTTTAGCGGCGACAGTGAAAGCCGTCTCGCTATTCGTCCCTATCCGCACCAGCTGGAGGAGTGGGTGGTGATGAAAAATGGCGATCGCTGTCTGTTCCGGCCGATCCTTCCGGAAGATGAACCGCAGTTGCTCGCGTTTATCGCTCAGGTCACCAAAGAAGATCTCTATTATCGCTATTTTAGTGAGATCAACGAATTTACCCATGACGACTTAGCCAATATGACCCAGATCGACTACGATCGAGAAATGGCGTTCGTCGCCGTCAGGACCACCGCGGAACAGAGCGAGATCCTCGGCGTGACGCGGGCGATCTCCGACCCTGACAATATTGATGCCGAGTTTGCTGTGCTGGTCCGTTCAGATTTGAAAGGGTTAGGCCTGGGGCGAAGGCTGCTGGAAAAGCTGATCGCCTATACGCAAAGCCATGGCCTGCAACGGCTGAATGGGATTACGATGCCGAATAACCGAGGCATGATCGGCCTCGCCAGAAAGCTGGGATTCACCGTTGATATTCAGCTGGAAGATGGGATTGTCAGTCTGTCGCTGCCCCTGAATCAGGGATAA	MSQRGLEALLRPKSIAVIGASMKPQRAGYLMMRNLLAGGFNGPVLPVTPAWKAVLGVLAWPTIEKLPFTPDLAVLCTNARRNLELLEALGQKGCKTCIILSSQQEQYPALLECAARYQMRLLGPNSLGLLAPWQGLNASFSPVAIHRGKLAFISQSAAVSNTILDWAQQREMGFSYFIALGDSLDIDVDDLLDFLARDSKTSAILLYLEHLSDARRFVSAARSASRNKPILVIKSGRSPAAQKLLHVNSGMDPAWDAAIQRAGLLRVQDTHELFSAVETLSHMRPLRGEKLMIVSNGAAPAALALDELWLRNGKLATLSEETRDALRQALPGGVEIANPLDLRDDASSEHYQRAVNILLNSQDYDALLVIHSPSAAAPGTESALALIDALKHHPRGKYVTVLTNWCGEFSSQEARRLFSDAGLPTYRTPEGTITAFMHMVEYRRNQKQLRETPVLPDSLTANTSEAHALLQQAIDDGATTLDTHEVSPVLRAYGIHTLPTWIAADSAEAVHIAEQIGYPVALKLRSPDIPHKSEVQGVMLYLRTAAEVQQAADAMIDRVRLAWPQARIHGLLVQSMANRAGAQELRVVVEHDPLFGPLIMLGEGGVEWRAEDQAAVALPPLNMNLARYLVIQAIKNKKIRGRSALRPLDIAGLSQLLVQVSNLIVDCPEIQRLDIHPLLASGNEFTALDVTLGLAPFSGDSESRLAIRPYPHQLEEWVVMKNGDRCLFRPILPEDEPQLLAFIAQVTKEDLYYRYFSEINEFTHDDLANMTQIDYDREMAFVAVRTTAEQSEILGVTRAISDPDNIDAEFAVLVRSDLKGLGLGRRLLEKLIAYTQSHGLQRLNGITMPNNRGMIGLARKLGFTVDIQLEDGIVSLSLPLNQG				NA	NA	NA	NA	NA
BMS020_05324	1356	pssA	COG1502	CDP-diacylglycerol--serine O-phosphatidyltransferase	ATGTTGTCAAAATTTAAGCGTAATAAACATCAACAACACCTTGCCCAACTCCCTAAGCTTTCTCAGTCAGTTGATGATGTAGAGTTCTTTTACGCCCCTGCGGATTTCAGGGAAGCGTTACTGACCCGGATTGCCAACGCCACTCAGCGTATATGCATTATTGCGCTCTACCTGGAGCAAGATGATGGCGGAAAAGGAATTTTGCAGGCCCTTTATGACGCCAAACGTCAGCGTCCGCAACTGGATGTTCGCGTCCTCGTGGACTGGCACCGCGCTCAACGTGGCCGTATCGGCGCCGCCGCCTCCAACACCAATGCTGACTGGTATTGTCGGATGGCCAATGAAAATCCGGGCGTAGAAATCCCCGTTTACGGCGTGCCGATTAACACCCGGGAGGCGCTCGGCGTTCTCCATTTCAAAGGCTTTATTATCGATGACTGCGTCCTCTACAGCGGCGCCAGCCTGAACGATGTTTATCTGCATCAGCATGATAAGTACCGCTATGACCGCTATCAGTGCATCCGTAACGGCAAAATGGCGGACGTCATGTTCGACTGGGTCGACAATAATCTGGTTCAGGGACGCGGTGTAAATCGTCTCGACAGACCGGATCGGCCAAAAAGTCCGGAAATCAAAAACGATATTCGCCAGTACCGTCAGGAGCTGCGCGACCGCAGCTACCATTTTGTCGGCACCGCCGGTGACGAAGAACTCTCCGTCACCCCGCTGGTAGGCCTGGGGAAATCCAGCCTGCTGAACAAAACTATCTTTCACCTGATGCCCTGTGCCGAGCACAAGTTAACGATCTGCACCCCCTACTTCAACCTTCCTGCCGTGCTGGTAAGAAATATCATCCAGCTGCTGCGCGACGGTAAACAGGTGGAGATTATTGTCGGCGATAAAACCGCTAACGATTTCTATATTCCGGAAGATCAGCCGTTTAAAATCATCGGCGCGCTTCCTTATCTGTATGAGATCAACCTGCGGCGTTTCCTCAGCCGGCTGCAGTATTATGTGAATACCGATCAGCTGATCGTCCGCCTGTGGAAGGATGACGATAACAGCTACCACCTGAAGGGCATGTGGGTTGACGACGAGTGGATGCTGCTCACCGGCAACAACCTTAACCCGCGCGCCTGGCGACTCGATCTGGAAAATGCCATTCTGATCCACGATCCAAAGCAGCAGCTGGGAGCCATGCGGGAGAAAGAGCTGAAGCTCATCCGCACCCACACCACGGTGGTGAAACATTATCGGGATCTGCAAAGTATTGCCGACTATCCGGTGAAAGTGCGTAAACTGATCCGCCGACTGCGGCGGATCCGCATTGACCGGCTGATCAGCCGTATTCTCTGA	MLSKFKRNKHQQHLAQLPKLSQSVDDVEFFYAPADFREALLTRIANATQRICIIALYLEQDDGGKGILQALYDAKRQRPQLDVRVLVDWHRAQRGRIGAAASNTNADWYCRMANENPGVEIPVYGVPINTREALGVLHFKGFIIDDCVLYSGASLNDVYLHQHDKYRYDRYQCIRNGKMADVMFDWVDNNLVQGRGVNRLDRPDRPKSPEIKNDIRQYRQELRDRSYHFVGTAGDEELSVTPLVGLGKSSLLNKTIFHLMPCAEHKLTICTPYFNLPAVLVRNIIQLLRDGKQVEIIVGDKTANDFYIPEDQPFKIIGALPYLYEINLRRFLSRLQYYVNTDQLIVRLWKDDDNSYHLKGMWVDDEWMLLTGNNLNPRAWRLDLENAILIHDPKQQLGAMREKELKLIRTHTTVVKHYRDLQSIADYPVKVRKLIRRLRRIRIDRLISRIL	PGPT0007690_252	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PSS-RELATED_EXOPOLYSACCHARIDE_METABOLISM	CE-EPS-PSS-RELATED_EXOPOLYSACCHARIDE_BIOSYNTHESIS,PGPT0007690-pssA-K00998	NA	NA
BMS020_05325	324			hypothetical protein	ATGCGTACGATAATCGTGATTGCTTCGCTGATGTTAACGGGCTGCAGCCACATGGCAAATGATGCATGGTCCGGTCAGGACAAAGCCCAGCATTTTCTGGCCTCGGCGATGCTGTCTGCCGCCGGCAATGAATATGCGCAACATCAGGGTTACAGCCGGGACCGCAGCGCTGCTATCGGCCTGATGTTTTCCGTCAGCCTCGGCGCCTCAAAAGAGCTTTGGGACAGCCGCCCGGCAGGCAGCGGCTGGAGCTGGAAGGATTTCGCCTGGGATGTAGCCGGCGCGACCACCGGCTACGCTGTTTGGCAACTGGCGCACCAGTAA	MRTIIVIASLMLTGCSHMANDAWSGQDKAQHFLASAMLSAAGNEYAQHQGYSRDRSAAIGLMFSVSLGASKELWDSRPAGSGWSWKDFAWDVAGATTGYAVWQLAHQ				NA	NA	NA	NA	NA
BMS020_05326	1299	kgtP_1		Alpha-ketoglutarate permease	ATGACAGAGAGTAGCATTACCGAACGGGCCGCGCCGGAGCAGGCCGATACCCGTCGTCGTATTTGGGCAATTGTTGGCGCTTCCTCGGGAAATCTGGTTGAGTGGTTTGATTTTTACGTCTACTCATTCTGCTCGCTCTATTTTGCCCATATCTTCTTTCCCTCCGGAAACACCACCACTCAACTTTTACAAACGGCAGGCGTATTCGCCGCCGGATTTCTGATGCGTCCTATCGGTGGGTGGCTGTTTGGTCGGATCGCCGACCGCCGCGGACGTAAAGCTTCCATGCTTATTTCGGTCTGTATGATGTGCTTTGGTTCACTGGTGATTGCCTGCCTGCCGGGCTACGCGGTCATCGGCACCTGGGCTCCGGCGCTGCTGCTGTTGGCCCGTCTGTTTCAGGGGCTGTCGGTCGGTGGAGAATATGGCACCAGCGCGACCTATATGAGTGAAGTGGCGATTGAAGGAAAGAAAGGCTTCTATGCCTCTTTCCAGTACGTCACGTTAATTGGCGGTCAACTGCTGGCGGTATTAGTGGTCGTGGCGCTCCAGCAGGTGCTGAGCGACGAAGATTTGCATGCCTGGGGATGGCGTATTCCTTTTGCTCTCGGGGCAGTACTGGCTATCGTCGCGCTGTGGCTGCGTCGCCAGCTGGACGAAACCTCGAAGCAGGAGACCCGGGCGCTGAAAGAGGCTGGCTCATTTAAAGGGTTGTGGCGTAATCGCCGGGCTTTCGTGATGGTGTTGGGCTTTACTGCCGCCGGATCGCTGACCTTCTATACCTTTACTACCTATATGCAAAAGTATCTGGTCAACACGGCGGGTATGACGGCCAGCACCGCCAGCGTGATCATGACCGCGGCGCTGTTCGTTTATATGCTGGTTCAACCGCTGTTCGGCGCCTTTTCGGATAAAGTTGGCCGCCGTACCTCCATGCTGTGCTTTGGCGTGCTGGCGACATTATTTACCGTGCCTATCCTGAGCGCCTTGCAAAAAGTGAGCTCACCCTATGCTGCCTTCGGCCTGGTGATCTGCGCCTTGCTGATTGTCAGTTTCTATACCTCGATCAGCGGCATCCTGAAGGCCGAGATGTTCCCGGCGCAAGTTCGCGCGCTTGGGGTAGGGCTGTCCTATGCCGTCGCGAATGCCCTGTTTGGCGGCTCGGCGGAATATGTCGCGCTGTCGCTGAAATCGGCGGGGATAGAGCACGCGTTCTACTGGTACGTGACGGTGATGGCGGCCATCGCCTTCCTGGTCTCCCTGATGCTGCATCGCAAAGGCAAAGGCCTGCGTCTTTAG	MTESSITERAAPEQADTRRRIWAIVGASSGNLVEWFDFYVYSFCSLYFAHIFFPSGNTTTQLLQTAGVFAAGFLMRPIGGWLFGRIADRRGRKASMLISVCMMCFGSLVIACLPGYAVIGTWAPALLLLARLFQGLSVGGEYGTSATYMSEVAIEGKKGFYASFQYVTLIGGQLLAVLVVVALQQVLSDEDLHAWGWRIPFALGAVLAIVALWLRRQLDETSKQETRALKEAGSFKGLWRNRRAFVMVLGFTAAGSLTFYTFTTYMQKYLVNTAGMTASTASVIMTAALFVYMLVQPLFGAFSDKVGRRTSMLCFGVLATLFTVPILSALQKVSSPYAAFGLVICALLIVSFYTSISGILKAEMFPAQVRALGVGLSYAVANALFGGSAEYVALSLKSAGIEHAFYWYVTVMAAIAFLVSLMLHRKGKGLRL	PGPT0001525_1013	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_KETO-|OXOGLUTARATE_TRANSPORT,PGPT0001525-kgtP-K03761	NA	NA
BMS020_05328	447			hypothetical protein	ATGTTTCCCGTGCTCAAGACCGCAAGCCTTTCGTTCGCGCTGCTGGCCGCCGCCACCCTGGCGCCGTCGGCGCATGCCGCCGGCAACATCGACTGCGACCTGCGCTTCAACCTGTCCGGCTGGTCGGTGTTCTACAAGACCGCCAGCGGAACCGGCACCATCAGCTGCGACAACGGCGCCCGCATCCCGGTCACCATCACCGCCAAGGGCGGCGGGCTGACCGTGGGCAAATCCAAGATCGTCGACGGCAAGGGTAAATTCACCGGCGCCTACAGCCTCAACGACCTGATCGGCACCTATGGCGGCGCCGAGGTGCATGCCGGTGCGGTCAAGTCCAGCAACGCACAGGTGGTGACCAAGGGCGATATCTCGCTGGCGCTGGCCGGCACCGGCGAAGGCTGGGACCTGGGCGTGGGCTTCGGCAAGTTCGTGATCGCGCGGCGCTGA	MFPVLKTASLSFALLAAATLAPSAHAAGNIDCDLRFNLSGWSVFYKTASGTGTISCDNGARIPVTITAKGGGLTVGKSKIVDGKGKFTGAYSLNDLIGTYGGAEVHAGAVKSSNAQVVTKGDISLALAGTGEGWDLGVGFGKFVIARR				NA	NA	NA	NA	NA
BMS020_05329	786			hypothetical protein	ATGACCCGTTCCGTCTCCGCGCTGCTGGCGCTGCTGCTCGCCCTTCCCGCCACCCTCGCCCATGCCGCCGTGCCGGTGCAGGCCTACACCGTGGTCAAGACGTTCCCGCACGATCCAGGCGCCTATACCGAAGGCCTGTTCTATCTGGATGGCTATCTGTACGAAAGCACCGGCGAAGTCGGCGCCTCCGGCATCCGCAAGGTCGAGCTGGCCAGTGGCCGCGTGCTGCAGCAGGCGGTGACGCCGCCGCCGTTCTATGGCGAAGGCATCGTCGCCAGCGGCGGGCGCCTGGTGCAGCTGACCTGGCGCAACCAGCAGGGCTTCGTCTACGACCTGGCCACGTTCAAGCCGTTGGCGCGCTTCGGCTATCGCGGCGAAGGCTGGGCGCTGACCAGCGACGGCAAGACCCTGTACATGAGCGACGGCAGCGCCCGCATCCGCCTGCTGGACCCGGACACGCTGCAGCAGACCGGCAGCATCGAGGTCACCGCCAACGGGCGCCCGCTGGACAATCTCAACGAGCTGGAATGGATCAAGGGCGAGCTGTTCGCCAATGTCTGGCTGAGCACCCGCATCGCCCGCATCGACCCGGCCAGCGGCCGGGTGATCGCCTGGATCGACCTGGCCGACCTGGTCCCGCCCGCGTCCACGCTCGAAGACCCGGGCAACGACGTGCTCAACGGCATCGCCTACGACGCCGCCAACGACCGGTTGTTCGTGACCGGCAAGCGCTGGCCGGTGCTGTACGAGATCCGCCTGGCGGCCCTGCCTGGCGATGGGCATTGA	MTRSVSALLALLLALPATLAHAAVPVQAYTVVKTFPHDPGAYTEGLFYLDGYLYESTGEVGASGIRKVELASGRVLQQAVTPPPFYGEGIVASGGRLVQLTWRNQQGFVYDLATFKPLARFGYRGEGWALTSDGKTLYMSDGSARIRLLDPDTLQQTGSIEVTANGRPLDNLNELEWIKGELFANVWLSTRIARIDPASGRVIAWIDLADLVPPASTLEDPGNDVLNGIAYDAANDRLFVTGKRWPVLYEIRLAALPGDGH				NA	NA	NA	NA	NA
BMS020_05330	804	yafV_2		Omega-amidase YafV	ATGCAAGACCTGCGCATCTCGCTCGTCCAGGGCGACACCCGCTGGCACGATCCGGCCGGCAACCGCGAGCATTACGGCGCGTTGATCGCGCCGCTGGCCGGGCAGACCGACCTGGTGATCCTGCCGGAAACCTTCACCAGCGGCTTTTCCAACAATGCGATCTTCCGCGCCGAAGGCATGGACGGGCCGAGCGTGGCCTGGATCCGCGAGCAGGCGCAGGCGCTCGGCGCGGCGGTCACCGGCAGCGTGCAGCTGCGCACGCCCGACGGCGTGTTCAACCGGCTGCTGTGGGCCACGCCCGACGGCGCGCTGCAGCATTACGACAAGCGCCACTTGTTCCGCCACGCCGGCGAGCATGAGCGCTACGCCGCCGGCAACGAGCGCCTGTGCGTGGATTGGAAGGGCTGGCGGATCAATCCGCAGATCTGCTACGACCTGCGCTTCCCGGTGTTCTGCCGCAACCGCTACGACGTCGAGCGCCCCGGTGCGATGGATTTCGACCTGCAGATCTTCGTCGCCAACTGGCCGTCGGCACGTGCCTACGCCTGGCGCACGCTGCTGCGCGCGCGCGCGATCGAGAACCTGTGCTACGTGGCCGCGGTCAACCGCGTCGGCGTGGACGGCAACGACCTGCACTACGCCGGCGACAGCGCCCTGATCGATTTCCTCGGCCAGCCGCAGCTGGAAGTGCGCGAGCGCGAGCAGGTGGTGACGACCACGGCTTCGGCGGCGGCGCTGGCCGAACATCGGGCGCGCTTCCCGGCGATGCTGGATGCCGATGCGTTCGCGCTGACCGAGCGCTGA	MQDLRISLVQGDTRWHDPAGNREHYGALIAPLAGQTDLVILPETFTSGFSNNAIFRAEGMDGPSVAWIREQAQALGAAVTGSVQLRTPDGVFNRLLWATPDGALQHYDKRHLFRHAGEHERYAAGNERLCVDWKGWRINPQICYDLRFPVFCRNRYDVERPGAMDFDLQIFVANWPSARAYAWRTLLRARAIENLCYVAAVNRVGVDGNDLHYAGDSALIDFLGQPQLEVREREQVVTTTASAAALAEHRARFPAMLDADAFALTER				NA	NA	NA	NA	NA
BMS020_05331	1149	ybdL_2	COG0436	Methionine aminotransferase	ATGCTCCCGACCACCAAGCTGCCCAAGGTGGGCACCACCATCTTCACCGTGATGTCGCAGCTGGCGGCCGAGCATGGCGCGGTCAACCTGGGCCAGGGTTTTCCGGATTTCGCGGTGCCACAGCGGCTGGTCGACGAGCTGGACAAGGCGATGCGCGCCGGGCTGAACCAGTATCCGCCGATGACCGGCGTGGCGCCGCTGCGCCAGGCGATCGCCGGCAAGGCGCTGCGCTGCTACGGCGCCACGGTCGATGCCGAGACCGAGATCACCGTCACCAGCGGCGCGACCGAGGCGATCTTCAATGCGATCCACGCGGTGGTGCGCCCGGGCGAGGAGGTCATCGTGCTCGACCCAGCCTACGACTGCTACGAGCCGGCGATCGACCTGGCCGGCGCGCGCGCGGTACACGTGGCGCTGGATCCGCAGACCTTCGCGGTCGACTGGGGCAAGGTGCAGGCGGCGATCACCCCGAACACCCGGCTGCTGATGATCAACAGTCCGCACAACCCGTCCGGGGCGATGCTGTCGGCCGATGACATGCGTGCGCTCGCCGATATCCTGCGCGGCACCGACATTTTCCTGATCTCCGACGAGGTCTACGAGCACATCGTGTTCGACGGCCGTCAGCACCAATCGGTGCTGCGCTGGCCGGAACTGCGCGAGCGCGCGTTCGTGGTCTCCAGCTTCGGCAAGACCTACCACTGCACCGGCTGGAAGATCGGCTACGCGATCGCGCCGCCGGCGCTCAGCGCCGAGTTCCGCAAGGTCCACCAGTACAACACCTTCGCCAGCTTCGGCCCGGCCCAGCACGCGTTCGCAGCGATGATCCGCGACGAGCCCGAGCACGACGAGCAGCTCGGCGCGTTCTACCAGGCCAAGCGCGACCACTTCCGCGAACAGCTGCTGGGCACCCGGCTGAAGCCGCTGCCGGTGCCGGGCGGTTACTTCCAGCTGGTCGACTACTCGGCGGTCAGCGACCTGCCGGACCACGAGTTCGTCAAGTGGCTGACCACCGAGATCGGTGTTGCCGCGATCCCGCTGTCGCCGTTCTACGAGGCGGCGCCGGCCGGCCAGCGCCTGGTGCGGCTGTGCTTCGCCAAGAACCAGGCAACGCTGGATGCGGCGATCGCGCGGCTGCAGAAGCTCTGA	MLPTTKLPKVGTTIFTVMSQLAAEHGAVNLGQGFPDFAVPQRLVDELDKAMRAGLNQYPPMTGVAPLRQAIAGKALRCYGATVDAETEITVTSGATEAIFNAIHAVVRPGEEVIVLDPAYDCYEPAIDLAGARAVHVALDPQTFAVDWGKVQAAITPNTRLLMINSPHNPSGAMLSADDMRALADILRGTDIFLISDEVYEHIVFDGRQHQSVLRWPELRERAFVVSSFGKTYHCTGWKIGYAIAPPALSAEFRKVHQYNTFASFGPAQHAFAAMIRDEPEHDEQLGAFYQAKRDHFREQLLGTRLKPLPVPGGYFQLVDYSAVSDLPDHEFVKWLTTEIGVAAIPLSPFYEAAPAGQRLVRLCFAKNQATLDAAIARLQKL	PGPT0020025_1026	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020025-ybdL-K14287	NA	NA
BMS020_05332	645	ccmA_2	COG4133	Cytochrome c biogenesis ATP-binding export protein CcmA	ATGACCGACCCGCAGTATTCCGCGCCGCCCCTGCTCGCCGCGCACGCGCTGGCTTTCACCCGCAACGAGGAGCCGGTGTTCGGCCCGCTCGACTTCCACGTCGACGCCGGCGAAGCCCTGCTGGTGCAGGGCGGCAACGGTGCCGGCAAGACCACCCTGCTGCGCGTGCTGGCCGGCCTGCTGCACCTGGAGGCGGGACGGATCGAGATCGACGGGCGCCCGGCGCGGCGCGCCGACCGCAGCCGCTACATCGCCTACCTCGGCCACCTGCCGGCACTGAAGGCCGACCTGACCACGTTGGAGAACCTGCACTTCCTGTGCGGGCTGCATGGCCGCCGCGCCAAGCAGATGCCCGGCAACGCGCTGGCGATCGTCGGCCTGGCCGGTTACGAGGACACCCCGGTGCGGCAGCTCTCGGCCGGGCAGAAGAAGCGCCTGTCGCTGGCGCGGCTATGGCTGTCGCCGGCGCCGCTGTGGCTGCTGGACGAGCCCTACGCCAACCTCGACCTGGACGGCATCACCCTGGTCAACCGGATGATCTCGGCGCACCTGCGCGGCGGTGGCGCCGCACTGGTCACCACCCACGGCGCCTATGCGGCGCCGCCGGTGCGCACGCGCATGCTGGAACTGGGGGCGGCGGCATGA	MTDPQYSAPPLLAAHALAFTRNEEPVFGPLDFHVDAGEALLVQGGNGAGKTTLLRVLAGLLHLEAGRIEIDGRPARRADRSRYIAYLGHLPALKADLTTLENLHFLCGLHGRRAKQMPGNALAIVGLAGYEDTPVRQLSAGQKKRLSLARLWLSPAPLWLLDEPYANLDLDGITLVNRMISAHLRGGGAALVTTHGAYAAPPVRTRMLELGAAA				NA	NA	NA	NA	NA
BMS020_05333	696	ccmB_2	COG2386	Heme exporter protein B	ATGAGCATGCCCTCGCCCACCCCGTCGTTGTGGCAGTCCGCGCGCGCCCTGCTCGCGCGCGACCTGCAACTGGTCTGGCGCCGCCGCGGCGACGCGTTGCAGCCGGCGCTGTTCGCGCTGCTGATCGTGGTGCTGTTCGCGCTCGGCCTGGGCACCCGCCCGCAGCTGCTGGCCGCCGCCGCACCGGCGGTGCTGTGGCTGGCGGTGCTGCTGGCCGGGCTGCTGTCGCTGGACTCGCTGTTCCGCGGCGACGTCGAGGACGGCTCGATGGAGCAATGGCTGCTGGCGCCGGTGCCGCTGGCCTGGCTGATCGCGGTACGGGTCGTGCTGCACTGGGCGATCACCGCGCTGCCGCTGATCGTGGCCACGCCGCTGCTTGGCGAATTGCTGCACCTGCCGCACGCGCAGCTGCCGATGCTGCTGGCGTCGCTGGCGCTGGGCACGCCGCTGCTGAGCCTGCTCGGCGCGGTGGTCGCCGCGCTGACCGTCACCATGAAGCGCTCTGGTATCCTCGTGGCGTTGCTGGCATTGCCGCTGTACGTCCCGGTGCTGGTGTTCGGTGCGGGCAGCGTCGCCGCCAGTGCGCAAGGCCAGGATGCCGTCGGCGCGCTGCTGCTGCTCGGCGCCGGGCTGGTCGTCGGACTGGTGCTGGCGCCGCTGGCGGCAGCCGCGGCGATCCGCATCTCGCTCAGCTGA	MSMPSPTPSLWQSARALLARDLQLVWRRRGDALQPALFALLIVVLFALGLGTRPQLLAAAAPAVLWLAVLLAGLLSLDSLFRGDVEDGSMEQWLLAPVPLAWLIAVRVVLHWAITALPLIVATPLLGELLHLPHAQLPMLLASLALGTPLLSLLGAVVAALTVTMKRSGILVALLALPLYVPVLVFGAGSVAASAQGQDAVGALLLLGAGLVVGLVLAPLAAAAAIRISLS				NA	NA	NA	NA	NA
BMS020_05334	750	ccmC_2	COG0755	Heme exporter protein C	ATGAATCCCGTCGTCCGCTGGTTCCATCAACTCGGCTCGCCGCCGTACTTCGATCGTTTCGCCCGCCGCTGGGCGCCGTGGTGCTACGCCGTCGCGCTGGTGCTGCTCGGGCTCGGGCTGTGGCAGGCGCTGTTCGTGGCCCCGGCCGACTACCAGCAGGGCGACAGCTTCCGCATCCTCTACATCCACGTGCCCAGCGCCTGGATGAGCCTGTTCGTGTTCGGCCTGATGGCGCTGTACGCGGCGATCGCCCTGGTCTGGCGGATCAAGCTGTGCGAGATCCTGGCGATGTCGTGCGCCCCCATCGGCGCCGCGTTCACCCTGGTCACGCTGCTCACCGGCAGCATCTGGGGCAAGCCGATGTGGGGCACCTGGTGGGACTGGGACCCGCGCCTGACCACCGAGCTGATCCTGCTGTTCCTGTACCTGGGCGTGATCGGGCTGTACCAGGTGATCGACGACCATCGCAATGCCGCACGCGCGGCCGGCCTGCTGGCGATCGTCGGCGTGGCGCTGCTGCCGGTGATCCGTTATTCGGTGGTGTGGTGGAACTCGCTGCACCAGGGCCAGACGATCAGCCTGTTCGGCAAGTCGCACATGGACCCGAGCATGCTGCTGCCGCTGTGGCTGATGGTGTTCGCCACCAAGTTCTGGTTCGCCGGCTCGCTGCTGGTGCGCGCCCGCGCCGACAACCTGCGGCGCGAGGCCGGCAAGGACTGGGTGGCCAAGCTCGCCAAGGAACGCGCATGA	MNPVVRWFHQLGSPPYFDRFARRWAPWCYAVALVLLGLGLWQALFVAPADYQQGDSFRILYIHVPSAWMSLFVFGLMALYAAIALVWRIKLCEILAMSCAPIGAAFTLVTLLTGSIWGKPMWGTWWDWDPRLTTELILLFLYLGVIGLYQVIDDHRNAARAAGLLAIVGVALLPVIRYSVVWWNSLHQGQTISLFGKSHMDPSMLLPLWLMVFATKFWFAGSLLVRARADNLRREAGKDWVAKLAKERA				NA	NA	NA	NA	NA
BMS020_05335	174			hypothetical protein	ATGAGCTACCTGCACTACGTGATCGCCGCCTATGCGGTGTTCGTCGCCGCACTGGCGTGGGACTGGCTGGCCGCGCGCTGGCAGGTCCGCCGTGCGCTGCGCCAGGCGCGCGCACGCCGCCAGCGCCAGCGCGGCAAGGCCGCGGCGGCCAGCGACGCGGAGCTGGTGCGTTGA	MSYLHYVIAAYAVFVAALAWDWLAARWQVRRALRQARARRQRQRGKAAAASDAELVR				NA	NA	NA	NA	NA
BMS020_05336	450	ccmE_2	COG2332	Cytochrome c-type biogenesis protein CcmE	TTGAACCCGGTCCGGCGCAGGCGCCTGCTGCTGGTGGCGCTGCTGGTGCTGGCGGCCGGCCTGGCGACCACGCTGGTGGCGCTTGCGTTGCAACGCAACGTCGCCTATCTGTACACGCCCTCGGAAGTACTGCGCGGCGAGGCCGGCGAGCACGCCCGCTTCCGTCTTGGCGGCATGGTCGAGAAGGGCTCGTTCCAGCGCGCCCCCGGCTCGCTGCAGGCGCACTTCCGGGTCACCGATGGCGACGCCCAGCTCGCGGTGCGCTACGACAAGATCCTCCCCGACCTGTTCCGCGAGGGCCAGGCGGTGGTCGCGACCGGCAGCATGCACGATGGCGTGTTCGTCGCCGAAGACGTGCTGGCCAAGCACGACGAGACCTACATGCCCAAGGAAGTTGCCGACAAGATGGGCGCGGCGCACCGCAAGCACCAGGTGGTCGAAACGCAATGA	MNPVRRRRLLLVALLVLAAGLATTLVALALQRNVAYLYTPSEVLRGEAGEHARFRLGGMVEKGSFQRAPGSLQAHFRVTDGDAQLAVRYDKILPDLFREGQAVVATGSMHDGVFVAEDVLAKHDETYMPKEVADKMGAAHRKHQVVETQ				NA	NA	NA	NA	NA
BMS020_05337	1932	ccmF_2	COG1138	Cytochrome c-type biogenesis protein CcmF	ATGCTGCCTGAACTCGGCCAGGTCCTGCTGATCCTGGCGCTGCTGGTCGCACTGGTGCAGGCGGCGCTGCCGCTGGCCGGCGCCCAGCGCGGCCGGCAGGCGTGGATGGCGATCGCACGCCCGGCCGCGTATGCGCAGCTGGCGCTGCTCGCCGGCGCCTTCGCGGTGCTGACCCACGCCTTCCTGGTGCAGGACTTCTCGGTGCGGTACGTGGCCGAGAATTCCAACACGCTGCTGCCGCTGATCTACCGCTATTCGGCGGTGTGGGGCGCGCACGAGGGCTCGCTGCTGCTGTGGACGCTGATCCTGGCGCTGTGGGGCGCGGCGGTGGCGACCTGGTCGCGGGCCCTGCCCGAGCGCGTGCTCGCGCGCGTGCTCGGGGTGATGGCGGTGATCAGCCTCGGCTTCCTCGCCTTCCTGCTGTTCACCTCCAATCCGTTCGCGCGCCTGCTGCCGGTGCCGGCCGAGGGCGCCGACCTCAATCCGCTGCTGCAGGATCCCGGCCTGATCGTGCACCCGCCGATGCTCTACACCGGCTATGTCGGCTTCGCGGTTCCGTTCGCGTTCGCGATCGCCGCGCTGCTGGAAGGGCGCATCGACGCGCAGTGGCTGCGCTGGACGCGGCCGTGGACCAATGTCGCCTGGGGCTTCCTGACCCTCGGCATCGCGCTCGGCAGCTGGTGGGCGTACTACGAGCTGGGCTGGGGCGGCTGGTGGTTCTGGGACCCGGTCGAGAACGCCAGCTTCATGCCGTGGCTGGCCGGCGCGGCGCTGCTGCATTCGCAGGCGGTCACCGAGAAGCGCGGCAGCTTCGGCGGCTGGACCGTGCTGCTGGCGATCGCCGCGTTCGCGCTGTCGCTGCTGGGCACTTTCCTGGTCCGCTCGGGCGTGCTGACCAGCGTGCACAGCTTCGCCGCCGACCCGACCCGCGGCGTGTTCATCCTGGTGTTCCTGCTGCTGATCGTCGGCGGCTCGCTGCTGCTGTACGCGCTGCGCGCGCCGCGGCTGGCACCGGCCGACACGGCGCGTTCGGCATTCGCCGGCTATTCGCGCGAGACCCTGCTGCTGGCCAACAACCTGCTGCTGGCCTGCGCCTGCGCGATGGTGCTGCTGGGCACGCTGTATCCGTTGATCGCCGACGCGCTCGACCTCGGCAAGCTGTCGGTCGGCCCGCCCTACTTCGGCACGCTGTTCGTGCTGCTGATGGCGCCGCTGGTGGCGCTGCTGCCGTTCGGGCCACTGACCCGCTGGCAGCGCGAGCAGGCCAGCCGTCCGCTGGCGCTGCTGGCACCGTGGGCCGCGCTGGCGGTGCTGGCCGGCGTGCTGGGTTGGCTGGCCGCGCCGCAGGGCCGGCTCAAGGCCGGGCTCGGCGTGGCCGCGGCGACCTGGGTGCTGCTGGGCACGCTGCGCTTCGTCGCCACCCGCTGGCGCGCGCAGGGCCGGCGCTTCACCCCGGAAATGCTCGGCATGTGCCTGGCCCATGCCGGCATCGCGGTGTTCCTGGCCGGCGCGCTGCTGGTGGAATCGCTGAGCGTGCAGCGCGAGGTCGCGCTGGCGCCGGGGCAATCGCTCGAACTCGGCCGCTACGCGCTGCGCTTCGACGGGCTGGATGAAGCGCGCGGGCCGAACTATCTGTCCGACCGCGCCACGCTGACGGTGCTGCGCGCCGACCGCGAGATCGCCACCCTGCATCCGGAGAAGCGCCGCTATGCCGCCGGCGGCCAGGTGATGACCGAGGCCGGCATCCTGCCCGGCGCGTTCGGCGACCTCTACGTTGCCCTCGGCGAGCCGTTGGGCAACGATGCCTGGGCGGTGCGCGCGCACAGCAAGCCGTTCGTGCGCTGGATCTGGTTCGGCGCGCTGTTGATGGCGCTGGGCGGGTTCGTCACCGCCGCCGACCGGCGCTTCCGCCGCATTCCGGAGAAGTCCTGA	MLPELGQVLLILALLVALVQAALPLAGAQRGRQAWMAIARPAAYAQLALLAGAFAVLTHAFLVQDFSVRYVAENSNTLLPLIYRYSAVWGAHEGSLLLWTLILALWGAAVATWSRALPERVLARVLGVMAVISLGFLAFLLFTSNPFARLLPVPAEGADLNPLLQDPGLIVHPPMLYTGYVGFAVPFAFAIAALLEGRIDAQWLRWTRPWTNVAWGFLTLGIALGSWWAYYELGWGGWWFWDPVENASFMPWLAGAALLHSQAVTEKRGSFGGWTVLLAIAAFALSLLGTFLVRSGVLTSVHSFAADPTRGVFILVFLLLIVGGSLLLYALRAPRLAPADTARSAFAGYSRETLLLANNLLLACACAMVLLGTLYPLIADALDLGKLSVGPPYFGTLFVLLMAPLVALLPFGPLTRWQREQASRPLALLAPWAALAVLAGVLGWLAAPQGRLKAGLGVAAATWVLLGTLRFVATRWRAQGRRFTPEMLGMCLAHAGIAVFLAGALLVESLSVQREVALAPGQSLELGRYALRFDGLDEARGPNYLSDRATLTVLRADREIATLHPEKRRYAAGGQVMTEAGILPGAFGDLYVALGEPLGNDAWAVRAHSKPFVRWIWFGALLMALGGFVTAADRRFRRIPEKS	PGPT0000484_36	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000484-nrfE-K04016	NA	NA
BMS020_05338	612	dsbE_2	COG0526	Thiol:disulfide interchange protein DsbE	ATGTCCGCCCCGTCTTCCTCACGTCTGCCGCCCGCCGCGCTGATCACCGGCGCGCTGCTGTTCATCGCGCTGGCCGCCCTGCTGGTGTACGCGGTGCAGCGCTCGGCCGCACCGGACCGCGACACCCTGCCCTCGGCGCTGATCGGCAAGCCGGCGCCGGACTTCAGCCTGCCGCTGCTGCACGATCCGGCCACCCGGGTGAGCGCGGCCGACCTGCGCGGCGCGCCGTACCTGCTCAATGTCTGGGGCAGCTGGTGCCCGGCCTGCCGCGAGGAGCACCCGGTGCTGAGCCGCTTCGCACTGAGCAAGCGCGTGCGGGTGATCGGCTACGACTGGAAGGACCAGCGCGAGGACGCGCTGCGCTGGCTGGAGCAGCTCGGCAATCCGTTCTTGGCGGTGCTGTTCGACCCCGAAGGACGCACCGCGATCGACTGGGGCGTGGCCGCCGCGCCGGAGACCTTCCTGGTCGATGCCGCCGGCGTCGTGCGCTGGAAGCACAGCGGCGCACTGACCGATGCGGTGATCCGCGACGAGCTGCTGCCGGCGCTGCTGCAGGCCGAGCGCGATCATCCCCCAGCGGCGCCGGCGCAGCCATCCAGCGCCACGCCATGA	MSAPSSSRLPPAALITGALLFIALAALLVYAVQRSAAPDRDTLPSALIGKPAPDFSLPLLHDPATRVSAADLRGAPYLLNVWGSWCPACREEHPVLSRFALSKRVRVIGYDWKDQREDALRWLEQLGNPFLAVLFDPEGRTAIDWGVAAAPETFLVDAAGVVRWKHSGALTDAVIRDELLPALLQAERDHPPAAPAQPSSATP				NA	NA	NA	NA	NA
BMS020_05339	438			hypothetical protein	ATGAACCGCATCGCGCTCCTGCTGCTGATGCTGCTGTGCGCCGGCAGCGCCCAGGCCGGCCCGATCGGCGACCCGACCCCGCTGTACTACCGCAGCGCGGCCGAGGAGACCCGTTTCCACGCGCTGACCGCCGAACTGCGCTGCGTGCAGTGCCAGAACCAGTCGCTGGCCGACTCCAACGCACAGATCGCCCACGACCTGCGCCGCGAGATCCTCGACCTGATGCAGCAGGGCCGCAGCGATGCGCAGATCAAGCAGTTCCTGGTCGCGCGCTACGGCGAGTTCGTGCTGTACCGCCCGCGGGTGGAAGAACGCACCTGGCTGCTGTGGTTCGGCCCGTTGGCGCTGCTGCTGATCGGCGCCGTGCTGGTGGCGCGCATGGTGCGCCGCCATCGCGGCGCCAGCCAGCCCCCGCTCGGAGACGAGCACGAGTGGTGA	MNRIALLLLMLLCAGSAQAGPIGDPTPLYYRSAAEETRFHALTAELRCVQCQNQSLADSNAQIAHDLRREILDLMQQGRSDAQIKQFLVARYGEFVLYRPRVEERTWLLWFGPLALLLIGAVLVARMVRRHRGASQPPLGDEHEW	PGPT0000486_12	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000486-nrfF-K04017	NA	NA
BMS020_05340	1029			hypothetical protein	GTGGTGACCACGCTGTTCGCCCTGCTCGCCGGCGCGCTCGCGCTGGGCGTGTTCGCCACGGTGCTGTGGCCGCTGCGCCGGCAGTCGCCACGCGTGTTGCTGGCAGCCAGCGTGCTGCTGGCCCTGGCCGGGTTCGCGCTGTACCGCATCGTCGGCACGCCTGCGGCACTGCAGCCGCAGCAGGCCGCCGCAGCGCCGGCTGCGCCACGCGATCTCGACGAGGCGATCGCGCAGCTGCGCCAGGCACTGGCGACGCACCCGGAACAGACCGAGGGCTGGCTGCTGCTCGGGCGCGCGCTCGCCAGCGCCGGCCAGGCCGAACAGGCCCGTGACGCCTTCGCCCGCGCCGCCGCGCTGGCGCCGGACCAGCCCGAAGTGCTGGTCGCCGCAGCGCAGGCACGGATGCTCGCGCGCAAGGACCAGACCCTCGACGCCGACGCGGTCGCGCTGCTCGAACATGCGCTCGCGCTGCGCCCGGACCACCAGCGCGCACGCTGGTTCCTCGGCGTCGCCCAGCGCCAGGCCGGGCAACCGGCGCAGGCCGCGCAGACCTGGCAGCCGCTGCTGGCGCAGGTCGATGCGGCCACCCGTGCCAGCCTGGTCGAACAGATCAACCTGGCGCGCCAGGATGCCGGGCAACCGCCGCTGGATGCCGCGCTGGCCGCTCCGCCGGGCGCCCAAGGTGCAGGCCTGACCGTCAAGGTCGCGCTGGACCCGGCGCTGGCCGCACAGCTTCCGGCCGATGCCAGCGTGTTCGTGATCGCACGCATCCCCGGCGGTCCGCCGATGCCGGTCGCGGCCGAGAAGCACGCACTGTCCGACTTGCCGTTGACGGTCACCCTCGACGACGGCGACAGCCCGATGCCGACGCAGAAGCTGTCGGCGCTGGCCAAGGTCGAGGTGCTGGCACGGCTGTCGCGCAGCGGCAACGCCCTGCCGCAGCCGGGCGACATCAGCAGCGCGCCGGTCACGGTCACGCTGCCGGCATCGCAACCGGTCGAACTGGTGCTGGGCGCCGCCGCGCGCTGA	MVTTLFALLAGALALGVFATVLWPLRRQSPRVLLAASVLLALAGFALYRIVGTPAALQPQQAAAAPAAPRDLDEAIAQLRQALATHPEQTEGWLLLGRALASAGQAEQARDAFARAAALAPDQPEVLVAAAQARMLARKDQTLDADAVALLEHALALRPDHQRARWFLGVAQRQAGQPAQAAQTWQPLLAQVDAATRASLVEQINLARQDAGQPPLDAALAAPPGAQGAGLTVKVALDPALAAQLPADASVFVIARIPGGPPMPVAAEKHALSDLPLTVTLDDGDSPMPTQKLSALAKVEVLARLSRSGNALPQPGDISSAPVTVTLPASQPVELVLGAAAR				NA	NA	NA	NA	NA
BMS020_05341	1143		COG2021	Serine O-succinyltransferase	ATGACTGAATTCATCCCGCCCGGAAGCCTGTTCCACGCCCTGCCCTCGCCGTTCCCGATGAAGCGCGGCGGCGCGCTGCACGGCGCGCGCATCGCCTACGAGACCTGGGGCACGCTGGCGCCGGACCACGGCAACGCGATCCTGATCGTCACCGGGCTGTCGCCGAACGCGCATGCCGCACGCAACGCCGGCAATCCCGAGCCGGGCTGGTGGGAGGCGATGCTCGGCCCCGGCAAGCCAATCGACACCGACCGCTGGTTCGTGGTCTGCGTGAACTCGCTCGGCGCCTGCAAGGGCTCGACCGGCCCGGCCTCGCTCGATCCGGCCACTGGCGTGCCGTATCGGCTGGCGTTTCCCGAGCTGTCGATCGAGGACGTCGCCGACGGCGCCGCCTCGGTGGTGCACGCACTCGGCATCACGCAGCTGGCCTGTGTGGTCGGCAACTCGATGGGGGGCATGACCGCGCTGGCGCTGCTGCTGCGCCATCCCGGCATCGCCCGCACCCATATCAACATCTCCGGCAGCGCGCAGGCGTTGCCGTTCTCGATCGCGATCCGTTCGCTGCAGCGCGAGGCGATCCGGCTCGATCCGGACTGGAACGGCGGCAACTACGACGAGACGCGTTATCCGGAATCGGGCATGCGCATGGCGCGCAAGCTCGGCGTGATCACCTACCGCTCGGCGCTGGAATGGGACGGCCGCTTCGGCCGGGTGCGGCTGGATTCGGACCAGACCGCCGACGACCCGTTCGGGCTGGAGTTCCAGGTCGAGAGCTATCTGGAAGGCCACGCGCGGCGCTTCGTGCGCTTCTTCGATCCGAACTGCTACCTGTACCTGAGCCGCTCGATGGACTGGTTCGACCTCGCCGACTACGCCGACGATGCCGTGCGCGACGGCGCCTCCAGCGATGCCGCGGTGCTGGCCGGGCTGGCCAGGATCAAGGTCGACAAGGCGCTGGCGATCGGCGCCAACACCGACATCCTGTTCCCGGTGCAGCAACAGCAGCAGATCGCCGACGGCCTGCGCGCCGGCGGTGCCGATGCGCGCTTCCTCGGCCTGGAATCACCGCAGGGCCACGATGCGTTCCTGGTCGATTTCGAACGCTTCGGCCCGGCAGTGCGCGCGTTCCTGGACGAGGTGTAG	MTEFIPPGSLFHALPSPFPMKRGGALHGARIAYETWGTLAPDHGNAILIVTGLSPNAHAARNAGNPEPGWWEAMLGPGKPIDTDRWFVVCVNSLGACKGSTGPASLDPATGVPYRLAFPELSIEDVADGAASVVHALGITQLACVVGNSMGGMTALALLLRHPGIARTHINISGSAQALPFSIAIRSLQREAIRLDPDWNGGNYDETRYPESGMRMARKLGVITYRSALEWDGRFGRVRLDSDQTADDPFGLEFQVESYLEGHARRFVRFFDPNCYLYLSRSMDWFDLADYADDAVRDGASSDAAVLAGLARIKVDKALAIGANTDILFPVQQQQQIADGLRAGGADARFLGLESPQGHDAFLVDFERFGPAVRAFLDEV	PGPT0011520_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-CYCLOSERINE_METABOLISM,PGPT0011520-dcsE-K19726	NA	NA
BMS020_05342	1680		COG1132	putative ABC transporter ATP-binding/permease protein	ATGAAGCATCCCCGCGACCATGACGACCTGCGCGCGGTGTTCGCGGCCCATCGCGGCCGCCTGCTGCTGAGCGCATTGCTGGTGTTGATCACGATGCTGGCCGGGGTGGGCCTGCTTGGGCTGTCCGGCGGCTTCCTGACCGCGGCGGCGCTGGCCGGCGTGGCCGGTGGCCTGGCCGGCTTCAACTTCTTCTCGCCGTCGGCGGGCATCCGCGCCTTGACCTTCGCGCGCATCGTGTCGCGCTACGGCGAGAAGCTGCTCGGCCACGATGCCACGCTGCGCATCGCCCGCGACCTGCGGGTGTGGTTCTTCCGCCTGGCGCTGCCGCTGGCGCCGGGCCGGCTGTCGGCGACGCGCACCGGCGACCTGCTGGCGCGCCTGATGGGCGATATCGGCGAAGTCGATGGACTGACGGTGCGGGCACTGGCGCCGCTCGCGGCGCTGCTCGGCGTCGGCGTGGCCGGCGTGGCGTCGGCGGCATTGATCCATCCGCTGGCGGCGCTGCTGCTGGCCGTGGTCGGGACCGCGATCGGTCTGCTGGTGCCGTGGCAGGTGGCACGTGGCGCGCAAGCGCGCGAGCGCGCCCGCGCGGCGCGGCGCACCGAGCTGCGCAGCCTGGCGTTCGAGGGGCTGGAAGGTGCGGCCGACCTGCGCGCGCTCGGCGCCGACGACGCCTGGATCGCGCGCGTGGATGCCGCGGCCGGTGCGTTGCGCCACGACGATGCGCGGCAACGCCAGCGCTTGATCACCGGCAACGCACTGCATGCCGGCTGCGGCGCGATCGGCGTGCTGGCGATGGTGTGGCTGGCGCTGTCGCTGGCCGAGCGCGGCATCGTCGCGCCGGAGCTGGCGGCCTCGCTGGTGTTCCTGATGATGGCGCTGCTCGAGGTCTGGGCCGGTGCGGGGCTGGCCTGGCAGGCGCTGCAGTCCGGGCGCGTCGCCGCGCAGCGACTGCAGGCGATCGTCGCGCAGCCGCCGATGGTGTGCGATCCGGATGCGCCGGTCGCGGCGCCCGCGCATGGCGCGCTGGTCTTCGACGCGGTCTGTTTTGCCTGGGCGGACGGCGAGCGCCGCGTGCTCGACGCACTGTCGTTGCGCGTACTGCCGGGCGAGCGCATCGCCATCGGCGGCGACAGCGGCTGCGGCAAGACCACCTTGTCCTCGCTGTTGCTGCGGCTGTGGGACCCGCAGGCCGGGCAGGTCAGTTTTGCTGGCGTCGATCTGCGCACGATGGCGCAGGCGGACTGGCACCGGCGCATCGCCTGGTTGCCGCAGAACGCGCCGGTGTTCGCCGGCAGCGTGCGCGAGAACCTGATGATCGGCCGCGATGACGCCGACGATGCGGCGCTATGGCATGTGCTCGAGCAGGTGCGGCTGGGCGAGTGGGCGCGCCGCAACGGCGGACTGGAGACCTGGGTTGGCGAGAACGGCGCGACGATGTCGGCCGGCCAGGCGCGCCGGCTGGCGCTGGCGCGTGCGCTGCTGCGCGATGCACCGCTGATGCTGCTGGACGAGCCGACCGAAGGTCTGGACGTGGACACCGCGCATGCGCTGCTGCACGACCTGGTGGCCGCGCTCGAAGGGCGCACGCTGGTGATGATCACCCACGACAGCCTGCCGCCAGGTATCGTCGAACGGCGTTACCGGATGCAGGACGGGCGCGTGCAGCTGCTGTCGTAG	MKHPRDHDDLRAVFAAHRGRLLLSALLVLITMLAGVGLLGLSGGFLTAAALAGVAGGLAGFNFFSPSAGIRALTFARIVSRYGEKLLGHDATLRIARDLRVWFFRLALPLAPGRLSATRTGDLLARLMGDIGEVDGLTVRALAPLAALLGVGVAGVASAALIHPLAALLLAVVGTAIGLLVPWQVARGAQARERARAARRTELRSLAFEGLEGAADLRALGADDAWIARVDAAAGALRHDDARQRQRLITGNALHAGCGAIGVLAMVWLALSLAERGIVAPELAASLVFLMMALLEVWAGAGLAWQALQSGRVAAQRLQAIVAQPPMVCDPDAPVAAPAHGALVFDAVCFAWADGERRVLDALSLRVLPGERIAIGGDSGCGKTTLSSLLLRLWDPQAGQVSFAGVDLRTMAQADWHRRIAWLPQNAPVFAGSVRENLMIGRDDADDAALWHVLEQVRLGEWARRNGGLETWVGENGATMSAGQARRLALARALLRDAPLMLLDEPTEGLDVDTAHALLHDLVAALEGRTLVMITHDSLPPGIVERRYRMQDGRVQLLS				NA	NA	NA	NA	NA
BMS020_05343	1725	cydD_2	COG4988	ATP-binding/permease protein CydD	TTGAGCGATACCGCGGCAGCGCCCGGCGCCCCCCATCAGCTGCGCCGCGGGCGGGACCGCTGGCTGGCCTCACTGGCACAACGCGCATCGGCGGCCCGCAGCCTGGCTGCGCTGGCGGTCGCTCTCGGCGGCGTATTGATGGTCGTCCAGGCCGGCGCGATCGGCTGGCTGGTCGATGCGGTGCTGGTGCAGCATCGGCCGCTGGCCGGGCTCGGCCCGGCATTCGCGCTGCTTGCCGGGGTGATGCTCGCGCGCGTGCTGCTGCAGACCGCCGCGCAGGCGCTGGCGGGGCGTGTCGCCGATGTGGCCAAGCGCGAATTGCGGCGCCGGCTGTATCGGCGCCTGGTCGAATGCGGGCCGCTGTGGCTGCGGCAACGGCGCAGCGGCGAACTCGGCGAACTGATGCTGGCCCACGCCGAAGCGCTGGAAGGGTATTTCAGCGGATTCCAGCTCGCCCGCATCGAAGTGATGGTTGTGCCGCTGGTGATCCTGCTGGCGGTGCTGCGGGTGGACTGGGTGGTGGCGCTGATCTTCATCGGCACCGCGCCCCTGATTCCAGTGTTCATGATGCTGGCCGGCTGGGGCGCGGAGGCCGCCGGGCGCGACCAGCTGGCCGAACTGGCGCGCATGGGCGGGCACTTCGCCGACCGCTTGAAGGGGCTGGGCCTGCTGCGCCTGTACGGACGTGGCGCCCGGGAACTGGAGGGCATCGCCGCCGCCGCCGAGGGCGTGCGCGTGCGCACGCTCAAGGTGTTGCGGATCGCGTTCCTGTCTTCGACGACGCTGGAGTTCTTCGCCTCGGTCAGCGTGGCGATGGTGGCGCTGTACCTGGGCCTGGGCTACCTGGGCATGATCGGTTTCGGGCCGGAGAAACAGCTTGGCACCGGCGTGTTCTGCCTGCTGCTGGCGCCGGAGTTCTACGCGCCGCTGCGACGATTGGCCGCACACTATCACGACCGCGCCAATGCGCTGGCCGCAGTGGCCGAGGTCGAGCGCCTGCTGGAGGCGCCGGCTGACGCGCTGGCGCCTGCAGTGCCGTCGCCGGAAGCGCCCGCGCGCGCACCGGAAGTGGCCGAGACGCATGCCGCGTTGCTGCGCGTGGAACACGTCGCGCTGCGCCCATGCGGCGCCGCGGCGGCAGTGCTGCAGGACCTGTCCTTGGTGTTGCAGCCGGGCCAGCGCCTGGCCGTGGTCGGACCCAGCGGCAGCGGCAAGAGCACCCTGCTGGAAGCGCTGGCCGGCTGGTTGCCGCCGGAGCAGGGGCGCATCCTGCGCCGTCCGGGCATCAGCATCGGCTATGCCGGGCAGCGGCCCTACCTGTTCCAGGGCAGCATCGCCGACAACCTGCGCCTGGCCGACCCGCAGGCCAGCGAACGCCGCCTGCGCGCGGTGGCCGAAGCGGCGCAGGTGCTGCGCTTCGCCGAACGCCTGCCGCAGGGCCTGGACACGCCGATCGGCGAGCGCGGCTTCGGCCTGTCCGGTGGCGAGGCGCGGCGCATCGCGCTGGCGCGGCTGCTGCTGCGCGAGCCGGATCTGCTGCTGCTGGACGAACCCACCGCCTTCCTCGACCCCGAGACCGAAGCCGAGCTGCTGCACAGCCTGGGCAACTTCGCCCGCGGGCGCGGCGTGGTGATTGCCACGCACAGCCCTGCGGCGATGGCCTGGGCCGATGCCAGCGTCAGCCTCGCGTCCGCCGCGATCCGCACGGAGGGCGCGCCCGCATGA	MSDTAAAPGAPHQLRRGRDRWLASLAQRASAARSLAALAVALGGVLMVVQAGAIGWLVDAVLVQHRPLAGLGPAFALLAGVMLARVLLQTAAQALAGRVADVAKRELRRRLYRRLVECGPLWLRQRRSGELGELMLAHAEALEGYFSGFQLARIEVMVVPLVILLAVLRVDWVVALIFIGTAPLIPVFMMLAGWGAEAAGRDQLAELARMGGHFADRLKGLGLLRLYGRGARELEGIAAAAEGVRVRTLKVLRIAFLSSTTLEFFASVSVAMVALYLGLGYLGMIGFGPEKQLGTGVFCLLLAPEFYAPLRRLAAHYHDRANALAAVAEVERLLEAPADALAPAVPSPEAPARAPEVAETHAALLRVEHVALRPCGAAAAVLQDLSLVLQPGQRLAVVGPSGSGKSTLLEALAGWLPPEQGRILRRPGISIGYAGQRPYLFQGSIADNLRLADPQASERRLRAVAEAAQVLRFAERLPQGLDTPIGERGFGLSGGEARRIALARLLLREPDLLLLDEPTAFLDPETEAELLHSLGNFARGRGVVIATHSPAAMAWADASVSLASAAIRTEGAPA				NA	NA	NA	NA	NA
BMS020_05344	1593	cydA_4	COG1271	Cytochrome bd ubiquinol oxidase subunit 1	ATGATCGACTCGACAGTTGCAGAACTGTCGCGGCTGCAGTTCGCACTGACCGCGATGTACCACTTCCTTTTTGTTCCCCTCACCCTGGGACTGTCCTTCATGATCGCGATCATGGAGAGCGTCTATGTCATGACCGGACGTGACGTCTGGCGCCGCATGACGATCTTCTGGGGCGTGCTGTTCGGCATCAACTTCGCGATGGGTGTCGGCACCGGCATCGTGATGGAATTCCAGTTCGGCATGAACTGGTCCTACTACAGCCACTACGTCGGCGACATCTTCGGCGCACCGCTGGCGATCGAAGGCCTGATGGCATTCTTCCTGGAAGCCAGCTTCATCGGCTTGTTCTTCCTCGGCTGGAACCGCCTCTCGCGCGTGCAGCACCTCACCGTGACCTGGCTGATGGCGCTGGGCACCAACCTGTCGGCACTGTGGATCCTGATCGCCAACGGCTGGATGCAGAACCCGGTCGGCGCGGTGTTCAACCCGGAAACCATGCGCATGGAGGTGGTCGACTTCATGGCGGTGCTGTTCAACCCGGTGGCGCAGGCCAAGTTCGTGCACACCGTCAGCGCCGGCTACGTGCTGGGCGCCACCTTCGTGATGTCGATCAGCGCGTTCTACCTGCTGCGCGGCAAGCACCGCGACATCGCCCGCCGCTCGTTCGCGGTGGCCGCGGCGTTCGGCCTGCTGTCCTCGCTGTCGGTGGTGGTGCTGGGTGACGAGAGCGGCTACGCCGCCAGCGAGCACCAGAAGATGAAGCTGGCCGCGATCGAGGCGATGTGGGAAACCGAGAAGGCCCCGGCCGACTTCACCGCCTTCGGTATCCCGAACCAGCAGACCCACAAGAACGACTACGCGGTGAAGATCCCCTACCTGATGGGCCTGATCTCCACCCGTTCGTTGAACCAGCCGGTCCCGGGCATCCTGGAGCTGGTCGAGCGCGCCGAGCACCGCATCCGCGGCGGCCAGCTCGCCTACGGTGCGCTGCAGCGCCTGCGCGCCGACAAGAATGACGTCGAAGCCCGCGCGATGTTCGACAAGCACTGGCAGGACCTGGGCCATGGCCTGCTGCTGAAGCGCTACCGCGACGACATCGGCAACGCCACGCAGGAGGAAATCGCCCAGGCCGCGATGGACACCGTGCCGCGCGTGCTGCCGCTGTTCTGGACCTTCCGCGTGATGGCGGCGATCGGCTTCTACCTGATCGCGTTCTTCGCCGCCTCGTTCTGGTTCGCCTGCAAGCACAACTTCGAGGACAAGCGCTGGTTCCTGAAGCTTGCGCTGTGGACCCTGCCGCTGCCGTGGATCGCGATCGAGTGCGGCTGGTTCGTCGCCGAGTACGGCCGCCAGCCGTGGGCGGTGGAAGGCGTGCTGCCGACGTTCTATGCAGCTTCGGGGCTGGCGCTGCGCGACATCCTGCTGACGCTGTGCGGCTTCACCGCGCTGTACACCACGCTGATCGTGATCGAGATCAAGCTGATGCTGAAGTCGATCCGCAAGGGTCCGGACGAACTGGCGCCGCCGCTGGCCGCGCCGAAGCCGCCCGTCGCCCCCCTCAGCACCGAAGCGCTTGCCGGCAACCAGCCGTAA	MIDSTVAELSRLQFALTAMYHFLFVPLTLGLSFMIAIMESVYVMTGRDVWRRMTIFWGVLFGINFAMGVGTGIVMEFQFGMNWSYYSHYVGDIFGAPLAIEGLMAFFLEASFIGLFFLGWNRLSRVQHLTVTWLMALGTNLSALWILIANGWMQNPVGAVFNPETMRMEVVDFMAVLFNPVAQAKFVHTVSAGYVLGATFVMSISAFYLLRGKHRDIARRSFAVAAAFGLLSSLSVVVLGDESGYAASEHQKMKLAAIEAMWETEKAPADFTAFGIPNQQTHKNDYAVKIPYLMGLISTRSLNQPVPGILELVERAEHRIRGGQLAYGALQRLRADKNDVEARAMFDKHWQDLGHGLLLKRYRDDIGNATQEEIAQAAMDTVPRVLPLFWTFRVMAAIGFYLIAFFAASFWFACKHNFEDKRWFLKLALWTLPLPWIAIECGWFVAEYGRQPWAVEGVLPTFYAASGLALRDILLTLCGFTALYTTLIVIEIKLMLKSIRKGPDELAPPLAAPKPPVAPLSTEALAGNQP	PGPT0026700_417	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
BMS020_05345	1155	cydB_4	COG1294	Cytochrome bd-I ubiquinol oxidase subunit 2	ATGGATTTCGTACTGCTCGACTACACGACACTGCGCGTGATCTGGTGGCTGCTGCTCGGCGTGCTGCTGGCCGGCTATGCGGTGATGGACGGCTTCGACCTCGGCGTCGGCACCCTGCTGCCGTTCGTGGCCAAGACCGATGACGAACGCCGGCTGGTGATCAACACCATCGGCCCGGTCTGGGAAGGCAACCAGGTGTGGCTGATCCTGGGCGGCGGCGCGATCTTCGCCGCCTTCCCGCCGCTGTACGCGGTCAGCTTCTCCGGGTTCTACCTGGCGATGTTCGTGATCCTGTTCGCGCTGATCCTGCGCCCGGTGGGCTTCAAGTTCCGCGGCAAGATGCCCAGCCAGCGCTGGCGCAACAACTGGGACTGGGCGCTGTTCATCGGCGGCTTCATCCCGGCGCTGATCATGGGCGTGGCGGTCGGCAACGTGCTGCTCGGCGTGCCGTACCACTTCGACGACACCATGCGCGCGTTCTACACCGGTTCGTTCTTCGGCCTGCTGACCCCGTTCGCGCTGCTGGCCGGCCTGCTCAGCGTGAGCATGCTGGTCGCCCACGGTGCGGCGATGCTGGTGCTGAAGACCGACGGCCCGGTGGCCGAACGCTCGGCCAAGTACGGCAGCATCGCCGCCTTCGTGGCCTTCGTGCTGTTCGCACTGGGCGGCGTGCTGGTGGCGACCTGGCTGCCGGGTTACAGCGTGACCTCCTCGCTGCCGACCGACCTGGACACCAACCCGCTGCTGAAGACCGCCGTGATCAACGCCAGTGCCGGTGGCTGGCTGCACAACTACAGCACCATGCCGGCGACCCTGCTGGCGCCGATCGCCGGCCTGGTCGGCCTGCTGCTCAACGGCGTGCTGCTGCGCGCCCGCCGCGGCGGCCTGGCCTTCCTGGCCTCGGCGGTGGCGGTGGTGGGCATCGTGATGACGGTGGGCTTCGCCGCCTTCCCGTTCCTGCTGCCCTCCTCCAGCGTGCCGGGCTCCAGCCTGACGCTGTGGGATGCCTCCAGCAGCCACCTGACGCTGTGGATCATGCTGCTGGCCACCGTGGTGTTCCTGCCGATCATCCTCGGCTACACCACCTGGGTGTTCCGCGTGCTGAAGGGCAAGGTCACCACCAGCGAAATCGGCGAAACGCCGAACGCCTACTGA	MDFVLLDYTTLRVIWWLLLGVLLAGYAVMDGFDLGVGTLLPFVAKTDDERRLVINTIGPVWEGNQVWLILGGGAIFAAFPPLYAVSFSGFYLAMFVILFALILRPVGFKFRGKMPSQRWRNNWDWALFIGGFIPALIMGVAVGNVLLGVPYHFDDTMRAFYTGSFFGLLTPFALLAGLLSVSMLVAHGAAMLVLKTDGPVAERSAKYGSIAAFVAFVLFALGGVLVATWLPGYSVTSSLPTDLDTNPLLKTAVINASAGGWLHNYSTMPATLLAPIAGLVGLLLNGVLLRARRGGLAFLASAVAVVGIVMTVGFAAFPFLLPSSSVPGSSLTLWDASSSHLTLWIMLLATVVFLPIILGYTTWVFRVLKGKVTTSEIGETPNAY	PGPT0026705_258	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
BMS020_05346	114			hypothetical protein	ATGTGGTATTTCGCCTGGATCCTCGGCACCGGACTGGCCTCGCTGGCCGCCGTTCTGAACGGCATGTGGTTCGAGATGCGCGAGGACAACGCCGCCAACGACGCGCGGCGCTGA	MWYFAWILGTGLASLAAVLNGMWFEMREDNAANDARR				NA	NA	NA	NA	NA
BMS020_05349	1329	dgoT_3		D-galactonate transporter	ATGCAGATCGAACCCCGCAACGCCCCTCCCGTGCCCACCGCCATGGCGAACAGCCCACCCGCGCCGGGCCACACCCGTCTGTCGATCCTCGCCCTGCTCGCCGCCGGCACGGTCATCAACTACCTCGACCGCGCCATCATCGGCATCTCCGCGCCGGCGATCTCGCACGAGCTGGGCATCGACGCGGCGACGATGGGCCTGGTGTTCTCCGCGTTCTCCTGGTCGTACGTGGCGATGCAGGTGCCCGGCGGCGTGCTGCTCGATCGCTTCGGCGCACGGATCACCTACGTTGTCTCGATCATCGGCTGGTCATTGGCGACGCTGCTGCACGGCATGGCCACCGGGCTGGCTTCGCTGCTGGGCTTCCGCCTGTTGCTTGGCTTCGCCGAAGCGCCCTGCTTCCCCACCAACAGCCGGGTCGTGGCGACCTGGTTTCCACGCCAGGAACGCGCGCGCGCCACCGGCGTATACACCATCGGCGAATACATCGGCCTGGCCTTCCTGAGCCCGGTGCTGTTCCTGGTGCTGGGCCAATTCGGCTGGCGCACGCTGTTCGCCACCACCGGCATCCTCGGGCTGCTGTTCAGCGCGCTGTGGTGGCGCCGCTACCGTGAACCGGCCGAGCACCCCCGCGTCGGCAGCGCCGAGTTGGCATACATCGAAGCCGGCGAAGGCATGGGCCGGCAGACCGCCGTCGCCACACCGTTCCGCTGGTGCAACGTCGCCAAACTACTGCGCCACCGGCAGATCTGGGGCGCCTGCATCGGCCAGTTTTCCAGCAACGCCACGCTGCTGTTCTTCCTGACCTGGTTCCCGACCTACCTGGCCGACGAGCGCCACATGGCCTGGGCGCAGATGGGCTACTTCTCGGTGCTGCCCTTCGTCGCCGCGGCGATCGGCGTGCTGTTCGGCAGCGCGCTGTCCGATCGCATGACCCGCGCCAGCGGCAACGCCTCGCGCGGCTGCAAGCTGCCGATCGCCGCCGGCCTGGCACTGTCGACCAGCGTGGTGGCGGCGAACTTCTGCAGCGACGACCGGGTGATGATCGCGATCCTGTCGCTGGCCTTCTTCGGCCAGGGCATGGCCAGCCTCGGCTGGACGGTGATCTCCAACATCGCCCCGCGCCCGCTGCTCGGATTGACCGGCGGCGTGTTCAACTTCGCCGCCAACCTCGCCGGCATCATCACCCCGGTGGTCATCGGCTGCATCGTCGCCCGCACCGGCTCGTTCTTCTGGGCGCTTTGGTTCATCGGTGCGCTGGCGCTGGTCGGCGTGCTTGCCTACGCGCTGCTGCTGGGCGAAGTGAAGCGGCTCGACATCGAAACCTGA	MQIEPRNAPPVPTAMANSPPAPGHTRLSILALLAAGTVINYLDRAIIGISAPAISHELGIDAATMGLVFSAFSWSYVAMQVPGGVLLDRFGARITYVVSIIGWSLATLLHGMATGLASLLGFRLLLGFAEAPCFPTNSRVVATWFPRQERARATGVYTIGEYIGLAFLSPVLFLVLGQFGWRTLFATTGILGLLFSALWWRRYREPAEHPRVGSAELAYIEAGEGMGRQTAVATPFRWCNVAKLLRHRQIWGACIGQFSSNATLLFFLTWFPTYLADERHMAWAQMGYFSVLPFVAAAIGVLFGSALSDRMTRASGNASRGCKLPIAAGLALSTSVVAANFCSDDRVMIAILSLAFFGQGMASLGWTVISNIAPRPLLGLTGGVFNFAANLAGIITPVVIGCIVARTGSFFWALWFIGALALVGVLAYALLLGEVKRLDIET	PGPT0002190_325	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_GALACTONATE_TRANSPORT,PGPT0002190-dgoT-K08194	NA	NA
BMS020_05350	1224	aroK_2		Shikimate kinase	ATGCCGCGGGGGCTGCGCTATCATCCGCTGCCGTCGCCCTGCCTGCGCCGGCACGCGATGCCGCCGCGCGTGGCGCACGCGCATCGCCACCGGCCACTTCGCACGCATGACACCCACACCACCACGCCCGCTTCACCGCCTGCCCCGCGCCCGGACCCGCACGGCGGGCGCGCGATGAACGGCTCCAGGCGCGTGCGCCACGTCGTCCTCACCGGCCCGATGGGCGCCGGCAAGACCAGCACCGGCAAGCTGCTGGCCAAGCGCCTGGGGCGCCCGTTCGCCGACGTCGATGGCGAGATCGTCAAGCAGCACGGTCCGATCGGCCACATCTTCTCCGAGCATGGCGAGGCGACCTTCCGCCGCATCGAGGCCAGGACCCTGGCCGCGTTGCTGGCGCAGCCGCCCGCGGTGATCTCACTGGGCGGCGGCACCATCCTCAGCGCGCAGTCGCGCAAGCGGCTGGCGCGCGAGTTCGTGATCTTCCTGGATGTCAGCCGCGAAGCCGTGGTCCGTCGTCTCGCCGGCGAGGATCGCCCGTTGCTCAAGCACGACATCGCCAACTGGGGCATGGCCGACTGGGTCTTCATCTACGAGAACCGCCGCGAGCTGTACGACACTGTCTCGGGCGTGCGCATCGATACCAGCCAGCGCAGCGTCGAGCAGGTGGTCGAGGCGATCGTGGCCGAGCTGCCGGTCGCGGTGACCGACGTGCCGCTGCCCGAGCGCGCGGTGACCGGCAATGCCGAACCGCTGCCGATGACCGCGCACCAGTTCGCCGCACCATGGGCGCGACGCGAGCGCGACCTGCGCCAGCTCGAACTGATCGCGCTGCTGCGGCGTGCGGCGAGCGTGACCACCGAAGGTTCGGACGCGCTGCTGGGCGAGCACGGCTTGAACCGCGGCCAGTTCGACATCCTCGCCGCGCTGCACCGCCATGATGGCCCGGCGATGACCCAGGCCGAACTGGCCGAGCAGATGCAGGTCACTCCGGCCGGCATCCAGAAGCGCCTGGCCGGGTTGTTCGGCGGCGGCCTCGTCGAGCGCCTTCCGGCCGAAGACGACGGGCGCAAATACCTGCTCGGCCTGACCAGCGATGGCCGCGCCCACCTGGAACAGATCATGGACGGCTTCATCTCGTCCGAGGGCGCCGCACTGGCGCGGCTGGACTCGGCCGACCAGCGCCAGCTGATCGCGCTGCTGCGGCTGCTGCTCGGCATCGGCTGA	MPRGLRYHPLPSPCLRRHAMPPRVAHAHRHRPLRTHDTHTTTPASPPAPRPDPHGGRAMNGSRRVRHVVLTGPMGAGKTSTGKLLAKRLGRPFADVDGEIVKQHGPIGHIFSEHGEATFRRIEARTLAALLAQPPAVISLGGGTILSAQSRKRLAREFVIFLDVSREAVVRRLAGEDRPLLKHDIANWGMADWVFIYENRRELYDTVSGVRIDTSQRSVEQVVEAIVAELPVAVTDVPLPERAVTGNAEPLPMTAHQFAAPWARRERDLRQLELIALLRRAASVTTEGSDALLGEHGLNRGQFDILAALHRHDGPAMTQAELAEQMQVTPAGIQKRLAGLFGGGLVERLPAEDDGRKYLLGLTSDGRAHLEQIMDGFISSEGAALARLDSADQRQLIALLRLLLGIG				NA	NA	NA	NA	NA
BMS020_05351	2046			NADH oxidase	ATGAACACTGCAACCTTGCTCAACAGCACGCTCGAGCCGGCCGGTGCCGGCATTCCCAGGACCTTGTTGTCGCCGTTGACGATCGGCTCGATGACGCTGCGCAACCGCGTGGTGATGCCACCGATGGGCACCAATTTCGCCGCGGTGACCGGCGAGATGACGCCGCGCCACCTGGCCTACTATCGCGAGCGGGCCAAGGGCCACACCGGGCTGATCATCGTGGAGAACGTCTGCGTGCAGTATCCGCAGGGCTCCAACGGCTTCACCCAGCTGCGCCTGGACCACGACAGCTTCATTCCCGGCCTGTCGGTGCTGACCGAGATGCTGCACAGCCACGGCAGCCGCGTCGCGGTGCAGCTCAACCACGCCGGCGCGTCGGCCAGCGCCGAGCGCACCGGAATGGAATCGGTGTCGTCCTCGGATCAGCCGTCCAAGCGCGGTGCCGGCATCCCGCGCGCGCTCACCCATGCGGAGATCGCCACCATCGTGGCCAACTTCGGCAAGGCCGCGCGCCGCGCCAAGGCCGCCGGCTTCGACGCGGTGGAAGTGCACGCCGGCCACTCCTACCTGCTGTGCCAGTTCCTGTCGCCGCTGTACAACCGCCGCGACGATGCGTACGGCGGCAGCGCCGAGAACCGCGCGCGGATCGTGCGCGAAGTGCTGGCGGCGGTGCGTGCGCAGGTCGGCGCCGACTTCCCGGTGCTGCTGCGGCTGTCGGCGGACGAGCTGGTGCAGGGCGGCAACACGCTGGAGGACACGCTGGCGCTGGCCGCGCACTTCGCCGATGGCGTGGATGCGTTCAACGTCTCGGCCGCGGTCAACGACACGCTGCAGTACCAGATCGACAAGATGTCGCTGCGCGACGGCTGGCGCAGCTACATGGCGCGGGCTTTCCGCGAGCGCTTCGGCAAGCCGACCATCACCAGCGGCAACATCCGCGACCCGCAGGTGGCCGAGCGCATCCTGCTCGAAGGCGACGCCGACCTGATCGCGATCGGTCGCGGCCTGATCGCGGACCCGCACTGGGTGCGCAAGGTCGAGCAGGGGCGTGCCGACGAGATCATCCCCTGCGTGTCATGCAACATCGGCTGCGCCGACAACCGCATCCGCAACGGGCGCCCGATCCACTGCACGGTGAACCCGGAGATCGTCGACAGCGAGGGCTATCGCCGCCGCCGGGTGCGTCGCGCGGTCAAGGTGGTGGTGGTCGGCGGCGGCAACGCCGGCATGGAAGCGGCCTGCACCGCGGCCGAGCTCGGCTGCGAGGTCGTGGTGATGGAGCGCGAGCGCGAACTCGGCGGCATGGTGCGGATCGCCGCGCGGCTGCCGGCCAAGGACCGCATGAACCACCTGATCGCCTATCTCGGCCGCCGCGCGCAGGCGGCGGGGGTCGAGGTGCGTTTCGGTACCGAGGCCAGCGTCGATGCGGTGGCCGCCGAGCTGCCGGACATCGTGGTCAACGCCACCGGCGCGGCGCCGGTGCTGCCGCCGATCGCCGGCCTGCGTGAGCGCGTCGACGTGGCCGGCTCGCGCGTGTACTCCATCGTCGGCATGTCGCGCGAGATCGCCAGCTTCGGCGACAGCGTGGTGTTGGACGGCCAGCCGGTGGTGGTGGTGGGCGGTGGCGCGGTCGGGCTGGACGTGGTCGAGCACGTCACCGAGCTCGGTGCCCGCGTCACCCTGGTCGAGCGCCTGCCGAAGATCGCCAACGACCTGGACCTGGTCACCGACCTGCAGATGCACGAGATGCTGCAGCAGTACGGTGTGGACGTGTTGACCCGCACCGCGCTGAAGGAAGTGCGCGATGGCGCAGTCGTGGTCGAGGGTGCGGACGGTGGCGAGCGGCTGCTGCCGTCGGTGGCGACCTTCATCTGCCTGGGGCTGCGTGCCAGCAATGGCTTGCACGGGCAGCTGCAGGAGCGCTTCGCCGGCACGGCCACCCGCGTCTACAACATCGGCGACTCGGTGCGCGCACGCAAGATCATCGACGGCATCGCCGAAGGGCGCCAGATCATCGGCGTGCTCGAGGAGATCGACGCGCTGTAG	MNTATLLNSTLEPAGAGIPRTLLSPLTIGSMTLRNRVVMPPMGTNFAAVTGEMTPRHLAYYRERAKGHTGLIIVENVCVQYPQGSNGFTQLRLDHDSFIPGLSVLTEMLHSHGSRVAVQLNHAGASASAERTGMESVSSSDQPSKRGAGIPRALTHAEIATIVANFGKAARRAKAAGFDAVEVHAGHSYLLCQFLSPLYNRRDDAYGGSAENRARIVREVLAAVRAQVGADFPVLLRLSADELVQGGNTLEDTLALAAHFADGVDAFNVSAAVNDTLQYQIDKMSLRDGWRSYMARAFRERFGKPTITSGNIRDPQVAERILLEGDADLIAIGRGLIADPHWVRKVEQGRADEIIPCVSCNIGCADNRIRNGRPIHCTVNPEIVDSEGYRRRRVRRAVKVVVVGGGNAGMEAACTAAELGCEVVVMERERELGGMVRIAARLPAKDRMNHLIAYLGRRAQAAGVEVRFGTEASVDAVAAELPDIVVNATGAAPVLPPIAGLRERVDVAGSRVYSIVGMSREIASFGDSVVLDGQPVVVVGGGAVGLDVVEHVTELGARVTLVERLPKIANDLDLVTDLQMHEMLQQYGVDVLTRTALKEVRDGAVVVEGADGGERLLPSVATFICLGLRASNGLHGQLQERFAGTATRVYNIGDSVRARKIIDGIAEGRQIIGVLEEIDAL				NA	NA	NA	NA	NA
BMS020_05352	1269	ydiM_2		Inner membrane transport protein YdiM	ATGAGACCCGCAACAAACTACCTACCCACCGCAGTGACGTTCTATCTCAGCTACTTCGTCCATGGCATGGCGGTGATCATGCTTGCCCAGCATTCGGCCGTACTGCAGGCGCAGTGGGGCACCACCGAAGGCAAGGTGTTGCTGGCAATCAGCGGCATCGGCATCGGCAAGGTGCTCGGCGCGGGCATCTGCGGCGTGCTGTCGGATCGCTTCGGCCGCCGCCCGGTCGCCTCGCTCGGGCTCGCGCTCTTCATCGCCTACTTCGTCGGCATCCTGCTCAGCAACAGCTGGCAGGTCGGCTTCGCGCTGGCGGCATTGATGGGCATCGCCAACTCGCTGCTCGACGCCGGCTCCTATCCGACGCTGATGGAGTCCTACCCCAAGACCGCCGGCACCATGGTGCTGTTCATCAAGATCTTCGTCTCCGCCGGCCAGCTGGTATTGCCGCTGGCGATCGCCACGCTGATCGGCCACGGCCTGTACTGGGGATGGACGCCGATCGCCTGCGCGGTGCTGCTGGCAGTGATGCTGGTGGCGCTGCAGTTCGCCCGCTTCCCGGACTACCGGGCGCTGGCCGCCGAGCAGGCACGCAGCATCGCCGAGAGCACCAGCAACGCCGCCCGCGGCACGCAGAAGACCAACGCCAGCATCGGCATCGAGGGCGTGGCGCTGATCCTGATCGGCTTCACCTCCACCGCGACGTTCTGGCTGGCACAGAACTCGCTGCCGGCGATCGGCCAGCACCTTGCCGGCATGGGCGACACCGCGGCACGCAGCCTGATCTCCATCTACTCGGTCGGCTCGCTGGTGTCGGTGTTCGTGACCGGCGCGCTGATCGCCCGCTGGTTCAAGGAGGTGCAGTTCCTGGTGCTGTATCCGGCGATCTCCGCCCTGGCCTACGTCGGCCTGCTGGTCTTCCACAGCCCGGCGGCGTATCAGGCGCTCGCCTTCGTGATCGGCTTCTCTGCCGCCGGCGGCGTCCTGCAGTTGGCGATGACCGCGATGGCGCAGTTCTTCCCCAGCGGCAAGGGCAAGATCACCGGCATCATCAGCACCGCCTCCAGCCTGTCCGCGTTCGCGTTGCCCTATGCCACCGGCGTGCTGGTCGGCGCCGGCACCGACGACTCCAGCTACCGCAACGTGGTGCTGATGGGCGCCGCCGTCGCTGCTGTCGGCGCGGTTCTCGCCATCGTCGTGCTGTTCCGCCACGCGGCGGTCTTCGGCCACGCAGCGCGTACGCCGTCCGCGCTCGCCAATGCCGGCAAGTAG	MRPATNYLPTAVTFYLSYFVHGMAVIMLAQHSAVLQAQWGTTEGKVLLAISGIGIGKVLGAGICGVLSDRFGRRPVASLGLALFIAYFVGILLSNSWQVGFALAALMGIANSLLDAGSYPTLMESYPKTAGTMVLFIKIFVSAGQLVLPLAIATLIGHGLYWGWTPIACAVLLAVMLVALQFARFPDYRALAAEQARSIAESTSNAARGTQKTNASIGIEGVALILIGFTSTATFWLAQNSLPAIGQHLAGMGDTAARSLISIYSVGSLVSVFVTGALIARWFKEVQFLVLYPAISALAYVGLLVFHSPAAYQALAFVIGFSAAGGVLQLAMTAMAQFFPSGKGKITGIISTASSLSAFALPYATGVLVGAGTDDSSYRNVVLMGAAVAAVGAVLAIVVLFRHAAVFGHAARTPSALANAGK				NA	NA	NA	NA	NA
BMS020_05353	765	aroD_2	COG0710	3-dehydroquinate dehydratase	ATGCAAACCGTAACGCTCAGGGCCGTGACGCTCGGCGAGGGCATCCCCAAGATCTGCGTTCCCCTGGTCGGCACGACCATCGAAGCGCTGCGCAAGGGCGCCGCCGCACTCAATCCGTCCGACTACGACGTGGTCGAACTGCGCATCGACTTCCTCGACGGCGTCGAGACCCCGGCCGCGGTGAACGCCGCGATCACCGCGGTCCGCCAGGCGCTGCAGCCGGCCGCGCCGCTGCTGTTCACCTTCCGCACGCTGCAGGAGGGCGGCAACCGCGCCATCGATGCCGATGCCTACGAGGCGCTGATCGCACTGGCCGTCGCCAGCGAGCAGGTCGACGCCGTCGACGTCGAGATGTTCACCGAGCGGGCGCACCTGCTGCGCATCGTCGCCAACGCCCACGCGCATGGCATCAAGGTGGTCATGTCCTCGCATGACTTCGACAAGACCCCGCCGCGCGAGGAGATCGTCGCCCGCCTGGCCACGCAGCAGGAGCTCGGCGCCGACGTGGTGAAGATCGCGGTGATGCCGCGCAGCGCCCGCGACGTGGTCACACTGATCGACGCCACCGAAACCTTCACCAGCGGTCCGGCCCAGCGCCCGGCGATCACGATGTCGATGGGCGGCCTCGGCGCCGTCTCGCGCCTGACCGGCGAGGCGTTCGGCTCGTGCCTGACCTTCGGCGCGGTGGGCACCGCCAGCGCACCGGGCCAGGTCGCCGCCAGCAAGCTCCGCGCGGTGCTCGACGTCGTGCACAACGCACGCTGA	MQTVTLRAVTLGEGIPKICVPLVGTTIEALRKGAAALNPSDYDVVELRIDFLDGVETPAAVNAAITAVRQALQPAAPLLFTFRTLQEGGNRAIDADAYEALIALAVASEQVDAVDVEMFTERAHLLRIVANAHAHGIKVVMSSHDFDKTPPREEIVARLATQQELGADVVKIAVMPRSARDVVTLIDATETFTSGPAQRPAITMSMGGLGAVSRLTGEAFGSCLTFGAVGTASAPGQVAASKLRAVLDVVHNAR	PGPT0012885_193	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_QUINATE_CATABOLISM,PGPT0012885-aroD-K03785	NA	NA
BMS020_05354	891	aroE_2	COG0169	Shikimate dehydrogenase (NADP(+))	ATGGAACCCAAGATCATCTCCGTGACCACCAAGCTGATCGCCCTGCTCGGCACCCCGCTCGGGCAGTCGTTCGCGGCGCGCATGCAGAACGCGGCGTACGCCAAGCTCGGCCTCGACTACTACTACTTCCCGGTCGAAGTGGACAACACCGGCCTGGAGGCCGTGATCAACGGCTTCCGGCACATGAACTTCGCCGGCTTCGCGGTCACCAAGCCGAACAAGATCAAGGTGCTGGACTACCTCGACGAACTGGATCCGCTCGCCGAGAAGATCGGCTCGGTCAACACCGTGGTGATGAAGGACGGCCGCCTGCGCGGCTACAACACCGACGGCTCGGGCTGGACCCAGTCCCTGCTCGATGCCCGCCCGGGCATCGACCTGTCCAAGACCACGTTCTTGATCTACGGCGCCGGCGGCGCATCCCGCGCGATCGCCACCACGCTCGCCGACTCTGGCGCGGCCAAGCTCTACATCACCGACATGGTCGAGGACGCGTCCAAGTCGCTGGTTGATGACATCAACCGGTTCGCCAAGGTCGCCGAGTACGTGCCGTTCAACGAGCGCCCCTACCTGCTGGCCGAGAAGTCCGACGTGTTGATCAACGGCACCGGGCTGGGCATGGGCTCGCATCTGAACGAATCGCCGGTGCCGGAACAGTACCTGCGCAAGGAGCTGTTCACCTGCGACCTGATCTACAACCCGCTCAAGACCAAGCTACTGATCGACGCCGAGAAGAAGGGCGCCGGGATCCTCAACGGTCTGGAGATGTCGATCAACCAGGGCGCCAAGCAGGTCGCGTTGTGGGCCCCGGGCACCCCGGAACCGGTGCAGATCATGCGTGACATCATCCACGACATCATCGCGCCCCCGGCAGGCAAGAAGGCCGCCTGA	MEPKIISVTTKLIALLGTPLGQSFAARMQNAAYAKLGLDYYYFPVEVDNTGLEAVINGFRHMNFAGFAVTKPNKIKVLDYLDELDPLAEKIGSVNTVVMKDGRLRGYNTDGSGWTQSLLDARPGIDLSKTTFLIYGAGGASRAIATTLADSGAAKLYITDMVEDASKSLVDDINRFAKVAEYVPFNERPYLLAEKSDVLINGTGLGMGSHLNESPVPEQYLRKELFTCDLIYNPLKTKLLIDAEKKGAGILNGLEMSINQGAKQVALWAPGTPEPVQIMRDIIHDIIAPPAGKKAA	PGPT0012890_1494	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
BMS020_05355	1914	cocE_1		Cocaine esterase	ATGCCCATGCCGCGTTCCCTGGTGCTGGCGCTCGCCTGCGCCGCCTGCATCCCGTCCGCGTTCGCCCAGACCGCGCCGATGACCCCGGACATCACCGGCAAGCCGTTCGTCGCGCCGGATGCGGCCAACGACTACATCAAGCGCGTGGTGGAGATCCCGATGCGCGACGGGGTGAAGCTGCACACCGTCATCGTGCTTCCCAAGGGGGCGCATGGGGCGCCGATGCTGTTGACCCGCACGCCGTACAACGCCGACGGCCGCGCCGCGCGCATGCAGTCGCCGCACATGAAAGACATGCTACCGCAGGGCGACGACGTATTCGTTGCCGGCGGCTACATCCGCGTGTTCCAGGACATCCGCGGCAAGTATGGCTCGGAAGGCGACTACGTGATGACCCGGCCGCTGCGCGGCCCGCTCAACGACACCGCGGTCGACCACGCCACCGACGCCTGGGACACCATCGACTGGCTGGTCAAGAATGTGCATGAGTCCAACGGCAAGGTCGGCATGATCGGTTCCTCGTATGAGGGCTTCACCGTGGTGATGGCGTTGACCAACCCGCACCCGGCGTTGAAGGTCGCCGCACCCGAGAGCCCGATGATCGATGGCTGGATGGGCGACGACTGGCTCAACTACGGCGCGTTCCGCCAGGTCAACTTCGACTACTTCACCGGCCAGCTGAGCAAGCGCGGCAAGGGCGAGGGCATCGCCCGCGCCGGCTACGACGACTATGCCAACTTCCTCGCCGCCGGTTCGGCCGGCGACTATGCGCGCGCCGCCGGGTTGGAGCAGCTGCCGTGGTGGCACAAGCTCACCGAGCACCCGGCCTACGACAGCTACTGGCAGCAGCAGGCGCTGGACAAGGTGATGGCGAAGACGCCGTTGAAGGTGCCGACCATGTGGCTGCAGGGCCTGTGGGACCAGGAGGACATGTACGGCGCCAACCACAGCTACCAGGCGATGGAGGGGCGCGATCGCGGCAACGACAAGAACTACCTGGTGATGGGCCCGTGGCGCCACAGCCAGGTCAACTATGCCGCCGAGAACCTCGGCGACATCCGCTTCGATGGCGACACCGCGCTGCAGTTCCGCCGCGACGTGCTCAAGCCGTTCTTCGACCAGTACCTGGTCGATGGCGCGCCCAAGGCCGACACCCCGCCGGTGCTGATCTACGACACCGGCGCGATGCACTGGGACCGCCTGGCGACGTGGCCGCAGAGTTGCGCCAGCGGCTGCGGCGCCAAGAGCAAGCCGCTGTACCTCGGTGCCGGCGGCACGCTGTCCTTCGATGCACCCAAGGCCGGGCAGGGCGAGTACGCGGAATACGTGTCCGACCCGGCCAAGCCGGTGCCGTTCGTGCCGCGGCCGGTGCACTTCGGCGACCGCGAGATGTGGACCACCTGGCTGGTCAAGGACCAGCGCTTCGTCGATGGCCGCCCGGACGTGCTGACCTACGTCAGCGCGCCGCTGGATGCGCCGCTGCGCATCGCCGGCGTGCCCAAGGTCAACCTGCAGGCATCCACCAGCGGCAGCGACAGCGACTGGGTGGTGAAGCTGATCGACGTGTACCCGGAAGAGGATGCCGACGCGCCGAAGATGGGCGGCTACGAGCTGCCGGTGTCGTTGGCGATCCTGCGTGGCCGCTACCGCGAGAGCTTCGAGCATCCGCAGGCGATCACCCCGAATCAGGCGCTGGATTACAAGTTCGACCTGCCCAACGCCAACCACACCTTCGAGAAGGGCCATCGGGTGATGGTGCAGGTGCAGTCCAGCCTGTTCCCGCTGTACGACCGCAACCCGCAGACCTACGTGCCGAACATCTACTTCGCCAAGCCGGGCGACTACCAGAAGGCGACCCAGCGCATCTGGAGTACGCCCGAGCACGCCAGCTTCATCGAGTTGCCGGTGCGCTGA	MPMPRSLVLALACAACIPSAFAQTAPMTPDITGKPFVAPDAANDYIKRVVEIPMRDGVKLHTVIVLPKGAHGAPMLLTRTPYNADGRAARMQSPHMKDMLPQGDDVFVAGGYIRVFQDIRGKYGSEGDYVMTRPLRGPLNDTAVDHATDAWDTIDWLVKNVHESNGKVGMIGSSYEGFTVVMALTNPHPALKVAAPESPMIDGWMGDDWLNYGAFRQVNFDYFTGQLSKRGKGEGIARAGYDDYANFLAAGSAGDYARAAGLEQLPWWHKLTEHPAYDSYWQQQALDKVMAKTPLKVPTMWLQGLWDQEDMYGANHSYQAMEGRDRGNDKNYLVMGPWRHSQVNYAAENLGDIRFDGDTALQFRRDVLKPFFDQYLVDGAPKADTPPVLIYDTGAMHWDRLATWPQSCASGCGAKSKPLYLGAGGTLSFDAPKAGQGEYAEYVSDPAKPVPFVPRPVHFGDREMWTTWLVKDQRFVDGRPDVLTYVSAPLDAPLRIAGVPKVNLQASTSGSDSDWVVKLIDVYPEEDADAPKMGGYELPVSLAILRGRYRESFEHPQAITPNQALDYKFDLPNANHTFEKGHRVMVQVQSSLFPLYDRNPQTYVPNIYFAKPGDYQKATQRIWSTPEHASFIELPVR				NA	NA	NA	NA	NA
BMS020_05356	1257	proA_2	COG0014	Gamma-glutamyl phosphate reductase	ATGAGCAACGACATCAAGACCCTCGCCCTGCAGTGCCGCGACGCCGCACAGGCGCTGGCGCAGCTGTCTTCCGCAGCCAAGCGCGAGCTGCTGGAGGCGATGGCGGCGGCACTGGAGGCCGACCAGGCGGCGATCCTGGCCGCCAACGCGCAGGACCTGGATGCCGCGCGCGCCAAGGGCACCGGCAGCGCGATGCTGGACCGTCTGGCGCTGGATCCCAAGCGCCTGGCCGGCGTTGCCGCGGCGCTGCGTGAAGTCGCCGCGCTGCCCGATCCGGTCGGCATGGTGACGCGTACCGAGGTGCGACCGAACGGCATCGAGGTGCGCAAGGTGCGGGTGCCGCTGGGGGTGATCGCGATGATCTACGAGGCGCGCCCGAACGTGACCGCCGATGCCGCGGCGCTGTGCATCAAGGCCGGCAACGGGGTGATCCTGCGCGGCGGCTCGGAGGCGATCCATTCCAATACCGCGATCGCCGCGGCGCTGAAGCGCGCGCTCGCCGCCGCCGGCATTCCCGATGCGGCGCTGACCCTGGTCACCGACCTGCGCCGCGAGACCATGCTGGAGCTGCTGCAGCTGAGCGACATCGTCGATCTGGCGATCCCGCGCGGTGGCGAGGGGCTGATCCGCTTCGTCGCCGAACACGCGCGGGTGCCGGTGATCAAGCACTACAAGGGCGTGTGCCATCTGTTCGTCGATGCCTCGGCCGATCCGGCGCTGGCGCTGCGCCTGCTGGTCGACGGCAAGGTGTCGCGTCCGGCCGCCTGCAATTCGCTGGAGACGCTGCTGGTGCACGCCGACCTGGCGCCGCGCTTCCTGCCGCAGGCGGCGCAGGCGCTGCGCGCGCACGGCGTGGAGCTGCGCGGCGACGAGGCCAGCCGCGCCATCGTGGCCGACATGGGGGTGGCCAGCGACGAGGACTACGCGGCCGAATACCTCGACCTGGTGATCGCGGTGCGCGTGGTGCCCGACCTGGATGCGGCGATCGCGCATATCCGCCACTACGGCTCGGACCACACCGAGGTGATCGCCACCGCCGATGCCGGCAACGCCGAGCGCTTCGTGCAGGCGCTGCGCTCGGCGGTGGTGATGGTCAATGCCTCCTCGCGCTTCTCCGATGGCGGCGAGCTCGGGCTTGGCGCGGAGGTCGGCATCTCGACCACGCGGCTGCATTCCTACGGCCCGATGGGGCTGGAAGCGCTGACGGTCGAGCGCTTCGTGGTGCGCGGCGAAGGGCAGACCCGCAATATTCCATAG	MSNDIKTLALQCRDAAQALAQLSSAAKRELLEAMAAALEADQAAILAANAQDLDAARAKGTGSAMLDRLALDPKRLAGVAAALREVAALPDPVGMVTRTEVRPNGIEVRKVRVPLGVIAMIYEARPNVTADAAALCIKAGNGVILRGGSEAIHSNTAIAAALKRALAAAGIPDAALTLVTDLRRETMLELLQLSDIVDLAIPRGGEGLIRFVAEHARVPVIKHYKGVCHLFVDASADPALALRLLVDGKVSRPAACNSLETLLVHADLAPRFLPQAAQALRAHGVELRGDEASRAIVADMGVASDEDYAAEYLDLVIAVRVVPDLDAAIAHIRHYGSDHTEVIATADAGNAERFVQALRSAVVMVNASSRFSDGGELGLGAEVGISTTRLHSYGPMGLEALTVERFVVRGEGQTRNIP	PGPT0014215_4077	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014215-proA-K00147	NA	NA
BMS020_05357	1152	proB_2	COG0263	Glutamate 5-kinase	ATGAACGACATCGCCCGTCCCAGCGCTTTCACCGAGCAAACGTTGCCGCCGTGGCGGCGCGCAGTGCTCAAGGTCGGCAGCAGCCTGCTCGCCGCCGATGGCGGCGGGTTGACCCCGCGTTTCGCGCTGGGCCTGGCGCAGTTCGTCTCGGCCAACCTGGTGGCCGGGCGCGAGGTGGTGATCGTGTCGTCGGGTGCGGTCGCCGCCGGTCGCGCGATCGTGCCGAAGGCGGCCGAAGCCGGTGCCGCGATCGCCGCACGCCAGGCGCTTGCCGCGCTCGGCCAGGCGCAGCTGATTGCGTTGTGGCAGCGCTTCTTCGAACGTCCGGTCGCGCAGGTGCTGCTGACCCACGACGACCTGCGCAACCGCCGCCGTTACCTCAACGCGCGCGCCACGCTGCTGGAGCTGCTGGCGCTGGGCGCGCTGCCGGTGGTCAACGAGAACGACACCGTCTCCGTCGACGAACTCAAGCTCGGCGACAACGACAACCTCGCCGCGACCGTGGCGGCGCTGGTCGACGCCGATGCGCTGTTCATCGCCACCGATATCGACGGGCTGTATACCGCCGATCCGCGCAGCAACCCCGACGCGCGCCCGCTCGACGCGGTGCCGGAGCTGAGCGCCGAGGTGTTCGCGATGGCCGGCGGCAGCGGCAGCGCGGTCGGCACCGGTGGCATGCGCACCAAGCTCGAGGCGGCCTCCAAGGCCGGCGCCGCCGGCGTGGAGACCTACCTGTTCAACGGCCGCAGCGGCGAGGTGGTGCGCGGGCTGGCCCAGGACCGGCTGCGCGGCACCCGCATCCACGCCGCGCAGACCCGCATCGCCGCGCGCAAGTCGTGGCTGCGGCACGCACCGCTGGCGCCCGGTGCGCTGCTGGTCGATGCCGGCGCGGCGCGGGCGCTGGTGGAAAAGGGCGCCTCGCTGCTGCCGGGTGGTGTCAGCGCCGCCGAGGGCGACTTCCGCCGCGGCGACATGGTCGAGATCGTGCTGCGCGACGAGAGCGGCGAGCGCCGCCTGGCGCGCGGCATCAGCCAGTATTCGGCGCTGGACGTGCGCCGCATCGCGCGCCGGCACTCGCGCGACATCGAATCGGTGCTGGGGTACAACTACGGCGAGAACGTGGTGCACCGCGACGATCTGGTGCTGGTGTGA	MNDIARPSAFTEQTLPPWRRAVLKVGSSLLAADGGGLTPRFALGLAQFVSANLVAGREVVIVSSGAVAAGRAIVPKAAEAGAAIAARQALAALGQAQLIALWQRFFERPVAQVLLTHDDLRNRRRYLNARATLLELLALGALPVVNENDTVSVDELKLGDNDNLAATVAALVDADALFIATDIDGLYTADPRSNPDARPLDAVPELSAEVFAMAGGSGSAVGTGGMRTKLEAASKAGAAGVETYLFNGRSGEVVRGLAQDRLRGTRIHAAQTRIAARKSWLRHAPLAPGALLVDAGAARALVEKGASLLPGGVSAAEGDFRRGDMVEIVLRDESGERRLARGISQYSALDVRRIARRHSRDIESVLGYNYGENVVHRDDLVLV	PGPT0014220_672	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014220-proB-K00931	NA	NA
BMS020_05358	258			hypothetical protein	ATGCGGTATTACCTGGTGATGGCCAAGCGCAAGGCGGATTTCCCGGCCGATGTGGTCGGGCCGCACAAGGAGTGGCTGATCACGTTGAAGATCGAGGGCCAGCTGCACATGACCGGCGGCTTCAGCGACGGCAGCGGCGGCGCCTACATCCTCAAGAACCTCGACAGCCTGGAGCAGGCCAAGGCGTTGGTCGCCACCGACCCGCTGGCGTTGCGCGACGCGTCCGAGCTGACCGTGTACGAGTGGAACACGCCCTGA	MRYYLVMAKRKADFPADVVGPHKEWLITLKIEGQLHMTGGFSDGSGGAYILKNLDSLEQAKALVATDPLALRDASELTVYEWNTP				NA	NA	NA	NA	NA
BMS020_05359	1299	argH_1	COG0165	Argininosuccinate lyase	ATGACCAACCTCCTGTGGCAGAAGCCCGGCGTCGCGGTCGACGCCAAGATCCAGACTTTCCTCGCCGGCGACGACGTGATCCTCGACCGCGAGTTCTTCCTGTACGACATCGCCGCCAGCACCGCGCATGCCGAAGGCCTGCAGCACATCGGCATCCTGTCGGCCGAGGAGCTGGACGGGCTCAAGCGCGAGCTGGCGATCCTCGGCGAGGATTTCCGCAGCGGCGCGTTCGTGCTCGACGAGCAGTACGAGGATTGCCATTCGGCGATCGAGGCGCGGCTTACCGAGCGCCTCGGCGACGCCGGCCGGCGCATCCACACCGGGCGCAGCCGCAACGACCAGATCCTGGTCGCGACCCGGCTGTGGCTGAAGGACAAGCTGACCCGCGTGGCGCAGATCAGTCGCGAGATCGCCAAGGTCGCGCTCGATCGCGCCGAGGCTGAGCAGGCGCTGCCGCTGCCGGGCTACACCCACATCCAGCGCGCCGTGGTGTCGTCGGCCGGGATGTGGTGGGCCGGCTGGGCCGAGGCCTTCATCGACAACGCGATCCGCGCTGTCGATACCTTCAAGCTGGTCGACACCAATCCGCTCGGCACCGCCGCCGGCTACGGCGTCAACCTGCCGCTGGACCGCGCCCACACCACCCAGGCACTCGGCTTCGCGCGCCTGCAGGTATCGCCGATCTACGCGCAGCTCTCGCGCGGCAAGTTCGAGCTGGCCGCGCTGGAAGCGCTCGGCGGCGCCACGCTGGACCTGCGCCGCATCGCCTGGGACCTGTCGCTGTACACCAGCGGTGAGTTCGGCTTCGTCGCGCTGCCGGCGCAGTACACCACCGGCAGCTCGATCATGCCGAACAAGCGCAACCCGGACGTGATCGAGCTGATGCGTGCGACCCATGCCAGCGTCGCCGCGGCGCGTACCGAGATCGAGCAGCTGCTGTCGCTGCCGTCGGGGTACCAGCGCGACCTGCAGAACAGCAAGGGCGCGATCGTGCACGGCTTCGGCCGCGGCCTGGCCGCGCTGGAGCTGCTGCCGGCGCTGCTGGCCAACCTGGAGTGGCGCGAGGACAAGATCCGCGCGGCGATCGATTCCGGCATGTACGCCACCGATGTGGCGGTGGAAGCCGCGGTCGCCGGCGTGCCGTTCCGCGAGGCCTACAAGGCCGCCGCGGCCAGCGCCGACACCGCGGGGCAGGGACGTACGCCGGAAGGCAGCCTGGCCGCGCGCGTGTCGCCCGGCGCGGCTGCCGACCTGCAGCTGGACGTGCTGCGCGGACGTTGGGCGGCGTTGCCGGGCTGA	MTNLLWQKPGVAVDAKIQTFLAGDDVILDREFFLYDIAASTAHAEGLQHIGILSAEELDGLKRELAILGEDFRSGAFVLDEQYEDCHSAIEARLTERLGDAGRRIHTGRSRNDQILVATRLWLKDKLTRVAQISREIAKVALDRAEAEQALPLPGYTHIQRAVVSSAGMWWAGWAEAFIDNAIRAVDTFKLVDTNPLGTAAGYGVNLPLDRAHTTQALGFARLQVSPIYAQLSRGKFELAALEALGGATLDLRRIAWDLSLYTSGEFGFVALPAQYTTGSSIMPNKRNPDVIELMRATHASVAAARTEIEQLLSLPSGYQRDLQNSKGAIVHGFGRGLAALELLPALLANLEWREDKIRAAIDSGMYATDVAVEAAVAGVPFREAYKAAAASADTAGQGRTPEGSLAARVSPGAAADLQLDVLRGRWAALPG				NA	NA	NA	NA	NA
BMS020_05360	948	argC_1	COG0002	N-acetyl-gamma-glutamyl-phosphate reductase	ATGAGCAAGACCTACACCCTGGGCATCGTCGGTGCCCGCGGCCATACCGGCGCCGAGCTGATCAAGCTGGTCGCCGCCCATCCGCAGCTGCAGTTGGCGTTCGTGTCCTCGCGCGAGCTGGATGGCCAGCCGGTCAGCGACCACAACGCCGCCTACAGCGGCGCGCTGCGTTTCGAGAACCTGGACCCGGCCGCGGTCGCGGCCAAGAGTGCCGACGCGGTGATCCTGGCGCTGCCCAACGGCAAGGCGCAGGCCTATGCCGAGGCGATCGCCGCGGCGCGCGCGGACACGGTGATCGTGGACCTGTCGGCTGACTACCGCTTCGATCCGTCCTGGTACTACGGCCTGCCGGAGCTGACCCGCGGCCGCTATGCCGGGCAGAAGCACATCAGCAACCCGGGCTGCTATGCGACCGCGATGCAGCTGGCGATCGCGCCGCTGCTGGACCAGCTGGCCGGCCCTCCGCAGTGCTTCGGCGTGTCGGGTTATTCCGGCGCCGGCACCACGCCGTCGGACAAGAACAATCCGGCGCTGCTGGCCGACAACCTGATGCCGTACGCGCTGACCGACCACATGCACGAACGCGAGGTGTCGCGCCATCTCGGCGTGCCGGTGGAGTTCATGCCGCACGTGGCGGCGCATTTCCGCGGCATCACCATGACCGTGAACCTGTGGCTGCAGCAGCCGATGACCCGCGAGGCGATCAAGGCGCTATACGTGGAGCGCTATGCCGGCGAGCCGCTGATCGAGATCGTCGACGACGCGCCGTGGGTCAGCCGCATCGCCGGCAAGCACGGCGTGCAGATCGGCGGTTTCACCACCGCGCCCGGCAACAAGCGCGTGGTGATCGTGGCGACGCTGGACAACCTGCTCAAGGGCGCGGCGACGCAGGCGATGCAGAACCTCAACCGGGCGCTGGGCATCGACGAGCTGACCGCGATCATCTGA	MSKTYTLGIVGARGHTGAELIKLVAAHPQLQLAFVSSRELDGQPVSDHNAAYSGALRFENLDPAAVAAKSADAVILALPNGKAQAYAEAIAAARADTVIVDLSADYRFDPSWYYGLPELTRGRYAGQKHISNPGCYATAMQLAIAPLLDQLAGPPQCFGVSGYSGAGTTPSDKNNPALLADNLMPYALTDHMHEREVSRHLGVPVEFMPHVAAHFRGITMTVNLWLQQPMTREAIKALYVERYAGEPLIEIVDDAPWVSRIAGKHGVQIGGFTTAPGNKRVVIVATLDNLLKGAATQAMQNLNRALGIDELTAII	PGPT0014251_3693	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014251-argC-K00145	NA	NA
BMS020_05361	612			hypothetical protein	ATGGGCGAGACGCCGTTGCCGCTGAGCTGGCGCGAGGTGCCGACGTTGCGCGGCGCCCACGCCACGCTGGAGCCGTTGTCGGCCGATCATGCCGAAGGCCTGCGCGCGGCGCTGGCCGGCAGCGGGCTGGAGCGGCTGTGGTACACCAACGTGCCGGCGCCGGAGGCGGTCGACGGCTATATCGCCGCGGCGCTGCAGGTGCAGGCCGAAGGCAAGGTGCTGGCGTTCGCGGTGCGCGATGCCGCCGGCGACATCGTCGGCTCGACCCGCTTCTACGGGCTGGAGCCGGAAGTGCCGAAGCTGCTGATCGGCTACACCTGGTATGCACCGCGCGTGCAGCGCAGCGGCGTCAACACCGAGTGCAAGCTGATGCTGCTGCGGCACGCCTTCGAAAGCATGGGCTGCATCAGCGTCGGCTTCGAGACCAGCTGGTTCAACCATGCCTCGCGCGCGGCGATCGCCCGGCTCGGCGCACGCCAGGACGGCGTGCTGCGCAACCACAAACGTCACGCCGACGGGACGCCGCGCGATACCGTCGTGTTCTCCATCATCGATCCGGAATGGGCGGCGGTGAAACGCCACCTGCAGTTCCGCCTGGAAGCCAACGCATGA	MGETPLPLSWREVPTLRGAHATLEPLSADHAEGLRAALAGSGLERLWYTNVPAPEAVDGYIAAALQVQAEGKVLAFAVRDAAGDIVGSTRFYGLEPEVPKLLIGYTWYAPRVQRSGVNTECKLMLLRHAFESMGCISVGFETSWFNHASRAAIARLGARQDGVLRNHKRHADGTPRDTVVFSIIDPEWAAVKRHLQFRLEANA	PGPT0028780_7	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
BMS020_05362	1338	argB_1		Acetylglutamate kinase	ATGAATATCCAAATGTCGCTGCCCGCCGCCACCAAACAGACCCGCCAGACCATCGTGCGCCTGCTCTCGAGCATGGCCAGTGCGAAGGAGATCAGCCAGTACCTGAAGCGCTTCTCGCAGCTGGACGCCAAGCGCTTCGCCGTGGTCAAGGTCGGCGGCGCGGTGCTGCGCGACGAGCTGGACGACCTGACCTCGTCGCTGACCTTCCTGCAGGAAGTCGGGCTGACCCCGATCGTGCTGCACGGCGCCGGCCCGCAGCTGGATGCCGAGCTGTCGGCCGCCGGCATCGTCAAGCAGACCGTCAACGGCCTGCGCGTGACCTCGCCGGAAGGCCTGGCGATCGTGCGCAAGGTGTTCCAGGCCTCCAACCTGAAGCTGGTCGAGGCGCTTCAGCAGAACGGCGCGCGCGCGACCTCGATCACCGGCGGCGTGTTCGAGGCCGACTACATGGACCAGGCGACCTACGGCCTGGTCGGCGAGGTCAAGGCGGTCAACCTGGCGCCGATCGAGGCCAGCCTGAAGGCCGGGTCGATCCCGGTCATCACCAGCCTCGGCGAGACCGCCAGCGGGCAGATCCTCAACATCAACGCCGACTTCGCCGCCAACGAACTGGTGCGCGAGCTGCAGCCGTACAAGATCATCTTCCTGACCGGCACCGGCGGCCTGCTCGACGAGCAGGGCAAGGTGATCGACTCGATCAACCTGTCCACCGAGTACGACCACCTGATCCAGCAGCCGTGGATCCACGGCGGCATGAAGGTCAAGATCGAGCAGATCAAGGACCTGCTGGACAAGCTGCCGCTGGAATCGTCGGTGTCGATCACCCGGCCGGCCGACCTGGCCAAGGAACTGTTCACCCACAAGGGCTCGGGCACGCTGGTGCGCCGTGGCGAGCGCGTGCTGCGCGCGACGACCTGGGACGAACTGGACCTGCCGCGTTTGAAGACCCTGATCGAATCGAGCTTCGGCCGCGAACTGCTGCCGGACTACTTCACCCGCACCAAGCTGCTGCGTGCCTACGTCAGCGAGAACTACCGCACCGCGGTGGTGCTCACCGACGAGGCCGAGGGCGTGTACCTGGACAAGTTCGCGGTGCTCGACGATGCCCAGGGCGAGGGCCTTGGGCGTGCGGTCTGGAACGTGATGCGCGAAGAGACCCCGAGCCTGTTCTGGCGCTCGCGCCACAACAACCAGGTCAACATCTTCTACTACGCCGAGTCCGACGGCTGCTTCAAGCAGGAGAAGTGGAAGGTGTTCTGGTACGGCATGGACAGCTTCGAGCAGATCCAGCGCTGCGTGGCGCATTGCGCCACGCGCCAGCCGACCCTGGTGGGTTGA	MNIQMSLPAATKQTRQTIVRLLSSMASAKEISQYLKRFSQLDAKRFAVVKVGGAVLRDELDDLTSSLTFLQEVGLTPIVLHGAGPQLDAELSAAGIVKQTVNGLRVTSPEGLAIVRKVFQASNLKLVEALQQNGARATSITGGVFEADYMDQATYGLVGEVKAVNLAPIEASLKAGSIPVITSLGETASGQILNINADFAANELVRELQPYKIIFLTGTGGLLDEQGKVIDSINLSTEYDHLIQQPWIHGGMKVKIEQIKDLLDKLPLESSVSITRPADLAKELFTHKGSGTLVRRGERVLRATTWDELDLPRLKTLIESSFGRELLPDYFTRTKLLRAYVSENYRTAVVLTDEAEGVYLDKFAVLDDAQGEGLGRAVWNVMREETPSLFWRSRHNNQVNIFYYAESDGCFKQEKWKVFWYGMDSFEQIQRCVAHCATRQPTLVG	PGPT0014248_78	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014248-argB1-K22478	NA	NA
BMS020_05363	1098	argE'	COG0624	N-acetyl-L-citrulline deacetylase	ATGACCTCATTGCTCGAAACCACGCTGACGCACCTGGACAAGCTGGTGTCCTTCGACACCCGCAACCCGCCGCGCGCGATCACCACCGGTGGCATCTTCGACTACCTGCGCGCGCAGCTGCCGGGCTTCAACGTCGAGGTCATCGACCACGGCGCTGGCGCGGTCAGCTTCTACGCGGTGCGCGGCACGCCGAAGTACCTGTTCAACGTGCACCTGGATACGGTGCCGGATTCGCCCCACTGGAGCGCCGATCCGCACGTGATGCGTCGCACCGACGACCGCGTGATCGGCTTGGGCGTCTGCGACATCAAGGGCGCCGCCGCGGCGTTGGTGGCCGCGGCCAATGCCGGCGACGGCGACGCCGCGTTCCTGTTCTCCTCCGACGAGGAAGCCAACGATCCGCGCTGCATCGCCGCCTTCCTCGCGCGCGGTCTTGCGTACGAGGCGATCCTGGTCGCCGAGCCGACGATGAGCGAGGCGGTGCTGGCGCATCGCGGCATCAGCTCGGTGCTGATGCGGTTCGCCGGTCGCGCCGGGCATGCCTCGGGCAAGCAGAATCCGTCCGCGAGCGCGCTGCACCAGGCGATGCGTTGGGGCGGCAAGGCGCTGGATCACGTCGAGTCGCTCAGTCATGCGCGCTTCGGCGGCCTGACCGGGCTGCGCTTCAACATCGGCCGGGTCGAAGGCGGGATCAAGGCCAACATGATCGCGCCGGCCGCCGAGCTGCGCTTCGGCTTCCGCCCGCTGCCGTCGATGGACATCGATGCGCTGCTGGCGACGTTCGCTGGTTTCGCCGAGCCGAGTGCTGCGCATTTCGAGGAAACCTTCCGTGGGCCGAGCCTGCCTTCGGGCGACATCGCGCGCGCCGAGGAGCGCCGGCTGGCTGCGCGCGACGTCGCCGATGCGCTCGACCTGCCGATCGGCAACGCGGTCGACTTCTGGACCGAAGCCTCGCTGTTCTCAGCCGGCGGCTACACCGCGCTGGTCTACGGCCCGGGTGACATCGCCCAGGCGCACACCGCCGACGAATTCGTCACGCTGGAGCAGTTGCAGCGCTACGCCGAATCGGTCCATCGCATCATCAACGGTCCGCGCTGA	MTSLLETTLTHLDKLVSFDTRNPPRAITTGGIFDYLRAQLPGFNVEVIDHGAGAVSFYAVRGTPKYLFNVHLDTVPDSPHWSADPHVMRRTDDRVIGLGVCDIKGAAAALVAAANAGDGDAAFLFSSDEEANDPRCIAAFLARGLAYEAILVAEPTMSEAVLAHRGISSVLMRFAGRAGHASGKQNPSASALHQAMRWGGKALDHVESLSHARFGGLTGLRFNIGRVEGGIKANMIAPAAELRFGFRPLPSMDIDALLATFAGFAEPSAAHFEETFRGPSLPSGDIARAEERRLAARDVADALDLPIGNAVDFWTEASLFSAGGYTALVYGPGDIAQAHTADEFVTLEQLQRYAESVHRIINGPR	PGPT0014254_2939	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014254-argE-K01438	NA	NA
BMS020_05364	444			hypothetical protein	ATGCACACCCTGCGCATCAGCACCGACAAGCACGAGTTGGACGTGGAGGCGATCCACGGTTTCCTCTCGACCGAGGCGTATTGGAGCCGCGGCATTCCGCGCGCGACGGTGGAGGCGGCGATCGCCGGCTCGCTGTGCTTCGGTGGCTACCTCGATGGCGCGGGACAGGTGGCGTTCGCGCGGGTCATCACCGATGGCGCGACCTTCGGCTACCTGGCCGACGTGTTCGTGCTGCCGGCGCATCGCGGCCACGGTTACAGCAAGCAGCTGGTCGCCGCGATCATGGCGCATCCGCAGCTGCAGGGGCTGCGCCGCTTCATGCTCGCCACCTCCGACGCGCATGCGCTGTACGCGCAGTACGGATTCGTCGCGCCGGGCAAGCCGCAGACGCTGATGGAAGTGCTGCGTCCCGACATCTACCAGGCAGCCACGGCCGCCTCCTGA	MHTLRISTDKHELDVEAIHGFLSTEAYWSRGIPRATVEAAIAGSLCFGGYLDGAGQVAFARVITDGATFGYLADVFVLPAHRGHGYSKQLVAAIMAHPQLQGLRRFMLATSDAHALYAQYGFVAPGKPQTLMEVLRPDIYQAATAAS				NA	NA	NA	NA	NA
BMS020_05365	1194	argG_2	COG0137	Argininosuccinate synthase	ATGAGCAAGAAAGACATCGTCCTCGCCTTCTCCGGCGGCCTCGACACCAGCTTCTGCATCCCGTACCTGCAGGAACGTGGCTACGCCGTGCACACCGTGTTCGCCGATACCGGCGGCGTGGATGACGAGGAGCGCGATTTCATCGAGAAGCGCGCCGCCGAGCTCGGCGCGGCCAGCCACGTCACCGTCGACGGTGGCCCGTCGATCTGGGAGGGCTTCGTCAAGCCGTTCGTCTGGGCCGGCGAGGCCTACCAGGGCCAGTACCCGCTGCTGGTGTCGGACCGCTACCTGATCGTCGACGCCGCGCTCAAGCGCGCCGATGAGCTGGGCACCAAGGTGATCGCGCACGGCTGCACCGGCATGGGCAACGACCAGGTGCGCTTCGACCTGGCGGTCAAGGCGCTGGGCGACTACGAGATCGTCGCGCCGATCCGCGAGATCCAGAAGGAACACACCCAGACCCGCGCCTATGAGCAGAAGTACCTCGAGGACCGCGGCTTCGGCGTGCGTGCCAAGCAGAAGAGCTACACCATCAACGAGAACCTGCTGGGCGTGACCATGTCCGGCGGCGAGATCGACAAGTGGGAAGCCCCGGGCGAGGGCGCGCGCGGCTGGTGCGCGCCGCGCAATGCGTGGCCGACCGAGGCGCTGACCGTGACCCTGAAGTTCGTCGAGGGCGAGGCGGTGGAGCTGGACGGCAAGCCGCTGCCGGGCGCGCAGATCCTGGCCAAGCTCAACAAGCTGTTCGCGCAGTACGGTGTCGGCCGCGGCGTCTACACCGGCGACACCGTGATCGGCCTGAAGGGTCGCATCGTGTACGAAGCGCCGGGCCTGATCTCGCTGCTGGCCGCGCACCGTGCGCTGGAAGACGCGGTGCTGACCAAGCAGCAGAATCGCTTCAAGCCGGACGTGGCGCGCAAGTGGGTCGAGCTGGTCTACGAAGGCTTCTACCACGATCCGCTGAAGACCGACCTGGAAGCGTTCCTGAAGTCCTCGCAGTCCAAGGTCAACGGCGAAGTGACGCTGGAAACCCGTGGCGGCCGCGTGGACGCGGTGGCGGTGAAGTCGCCGCACATCCTCAACGCCAAGGGCGCGACCTACGCGCAGTCGGCGGACTGGGGCGTCGAGGAGGCGGAGGGCTTCATCAAGCTGTTCGGCATGAGCTCCACGCTGTACGCCTCGGTCAATCGCTGA	MSKKDIVLAFSGGLDTSFCIPYLQERGYAVHTVFADTGGVDDEERDFIEKRAAELGAASHVTVDGGPSIWEGFVKPFVWAGEAYQGQYPLLVSDRYLIVDAALKRADELGTKVIAHGCTGMGNDQVRFDLAVKALGDYEIVAPIREIQKEHTQTRAYEQKYLEDRGFGVRAKQKSYTINENLLGVTMSGGEIDKWEAPGEGARGWCAPRNAWPTEALTVTLKFVEGEAVELDGKPLPGAQILAKLNKLFAQYGVGRGVYTGDTVIGLKGRIVYEAPGLISLLAAHRALEDAVLTKQQNRFKPDVARKWVELVYEGFYHDPLKTDLEAFLKSSQSKVNGEVTLETRGGRVDAVAVKSPHILNAKGATYAQSADWGVEEAEGFIKLFGMSSTLYASVNR	PGPT0020130_4652	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020130-argG-K01940	NA	NA
BMS020_05366	1011	argF'	COG0078	N-acetylornithine carbamoyltransferase	ATGTCCCTGAAGCACTTCCTGAACACCCAGGACTGGAGCCGCGCCGAACTCGACGCACTGTTGACCCAGGCGGCGCTGTTCAAGCGCAACAAGCTCGGCAGCGAACTGAAGGGCAAATCGATCGCGCTGGTGTTCTTCAACCCGTCGATGCGTACCCGCACGAGCTTCGAGCTGGGCGCGTTCCAGCTGGGCGGCCATGCGGTGGTGCTGCAGCCGGGCAAGGATGCGTGGCCGATCGAGTTCAACCTCGGCACGGTGATGGACGGCGACACCGAGGAGCACATCGCCGAAGTGGCCAAGGTGCTGGGACGCTACGTCGACCTGATCGGCGTGCGCGCGTTCCCGAAGTTCGTCGACTGGTCCAAGGACCGCGAGGACCAGGTGTTGAAGTCGTTCGCCAAGTACTCGCCGGTGCCGGTGATCAACATGGAGACGATCACCCACCCGTGCCAGGAGCTGGCCCACGCGCTGGCACTGCAGGAACACTTCGGCACCAGCGACCTGCGCGGCAAGAAGTACGTGCTGACCTGGACCTACCATCCCAAGCCGCTCAATACCGCGGTCGCCAATTCGGCGCTGACGATCGCCACGCGCATGGGCATGGACGTGACCCTGCTGTGCCCGACCAAGGACTACATCCTCGACGAGCGCTACATGGGCTGGGCCGAGCAGAACGTCGCCGAGAGCGGCGGTTCGCTGCAGGTCAGCCATGACATTGAAAGTGCCTATGCCGGTGCCGACGTGGTCTACGCCAAGAGCTGGGGCGCGCTGCCGTTCTTCGGCAACTGGGAGCCGGAAAAGCCGATCCGCGACCAGTACAAGCACTTCATCGTCGACGAGGCCAAGATGGCGCTGACCAACAACGGCGTGTTCTCGCACTGCCTGCCGCTGCGCCGCAACGTGAAAGCCACCGATGCGGTGATGGATTCGCCCAACTGCATCGCCATCGACGAGGCCGAGAACCGCCTGCACGTGCAGAAGGCGATCATGGCCGCGCTCGTTTCCCAGTAA	MSLKHFLNTQDWSRAELDALLTQAALFKRNKLGSELKGKSIALVFFNPSMRTRTSFELGAFQLGGHAVVLQPGKDAWPIEFNLGTVMDGDTEEHIAEVAKVLGRYVDLIGVRAFPKFVDWSKDREDQVLKSFAKYSPVPVINMETITHPCQELAHALALQEHFGTSDLRGKKYVLTWTYHPKPLNTAVANSALTIATRMGMDVTLLCPTKDYILDERYMGWAEQNVAESGGSLQVSHDIESAYAGADVVYAKSWGALPFFGNWEPEKPIRDQYKHFIVDEAKMALTNNGVFSHCLPLRRNVKATDAVMDSPNCIAIDEAENRLHVQKAIMAALVSQ				NA	NA	NA	NA	NA
BMS020_05368	630			hypothetical protein	ATGCCATGCGCCACCGGATGGGTGGCGTTCAGCCCCGGGGGCAGGGAGGTGCCTACACTTAAGGAATTCCTTACATCTGCGTGCCTGGTCTTGAGACACGTCCCGTTCCTGCCCCTGCTGGCCTGCCTGTTGAGCTGCCCCGCGTTCGCGGCGCCCGCCGCCGATGGCGACGATGCAGCCAACAAGAACCGTGTCGTGGTGGTGGAGAACGTCAAGCTCGACTACGCGCAGGTGCTTAACGTCGAGCCGGTCTACCAGACCCTGCGCGCGACCCGCACCGAGGAACAGTGCGAGCAGACCCCGGCCGAACAGGCCGCGCCGGTCGATCCAGCGGCCGCCGAGGGCGAAGGCCGGCTGTCGCGGATGATGGATTCGGTCAAGGACATCTTCAGCAAGCGCCCGGCCCAGGCCGCGGCCACGCCGGCCCCGCCGCCGACCAGCACCCGCCGCAACTGCAAGGTGGTCGAGGTGCAGCGCGAGTTCCGCCGGCCGATCGCCTACGACGTGGACTACGTCTACAAGGGCACCAAGTACCGCTCGCGCCTGCCCGAGGACCCGGGCAACCGGCTGCGGGTGCGGGTCTCGGTCACGCCGTACATCCCCGACGCGATCCTGGCGCCGCCGCGCTGA	MPCATGWVAFSPGGREVPTLKEFLTSACLVLRHVPFLPLLACLLSCPAFAAPAADGDDAANKNRVVVVENVKLDYAQVLNVEPVYQTLRATRTEEQCEQTPAEQAAPVDPAAAEGEGRLSRMMDSVKDIFSKRPAQAAATPAPPPTSTRRNCKVVEVQREFRRPIAYDVDYVYKGTKYRSRLPEDPGNRLRVRVSVTPYIPDAILAPPR				NA	NA	NA	NA	NA
BMS020_05369	1368	cysS_2	COG0215	Cysteine--tRNA ligase	ATGAGCCTGCGCCTGCACAACAACCTGACCCGCCGGGTCGAGGAATTCACGCCGCTCGACGTCGCTGCCGGTCCCACCATGTATGTGTGCGGCCCCACGGTCTACAACTACGTCCACATCGGCAACGCCCGCGGCCCGGTGGTGTTCGGGGTGCTGGCCGACCTGCTGCGGCGGCGCTACGGCAAGCTGCGCTATGCGCGCAACATCACCGACGTCGACGACAAGATCAACGCCGCGGCGATCGAGCAGCAGGTGCCGATCAAGACCATCACCGACAAGTTCGCCGGCGCCTACCGCGAGGACATGGCGGCGCTGGGCGTGGTGCCGCCGGACATCGAGCCGGAGGCCACCGCGCACATGGCGCAGATCGTCGCGATGATCGAGCGGCTGATCGCCAACGGCCACGCCTATGCCGCCGAGGGCCACGTGCTGTTCGCGGTGAAGACCTTCGACGGCTACGGCAAGCTCTCGCGCCGCGACCCGGACGAGATGCTGGCCGGCGCCCGCGTCGAGGTCGCCCCGTACAAGCGCGACGCCGGCGATTTCGTGCTGTGGAAGCCGTCCTCGGACGAGCTGCCCGGCTGGGACTCGCCCTGGGGCCGTGGCCGCCCGGGCTGGCACATCGAGTGCTCGGCGATGGCCGCCGCGCACCTGGGCGAAACCATCGACATCCACGCCGGCGGCGTCGACCTGCAGTTCCCGCACCACGAGAACGAGGTCGCGCAAAGCGAATGCGCGCACGGCGGCAAGACCTTCGCCCGATTCTGGCTGCACAACGGCATGCTCAACTTCGGCGGCGCCAAGATGAGCAAGTCGATCGGCAACATCGAGCGTGTGCACGACCTGGTGCGCAAGCACCCGCCCGAAGCGCTGCGCTACGCGCTGCTGAGCGCGCACTACCGCCAGCCGCTGGACTGGTCCGACGCGCTGATCGACCAGGCCCGCAGCACGCTGGACCGGTTGTACGGCACCTTGCGCGACCTGGCTGACGTCACGGCCACGGCGGCGATCCCGCAGGCGATCGAGGATGCACTCGACGACGACCTCAACACCCCGCAGGCGCTGGCCGAACTGGCGCGCATCGCCGCCGAGGCGCGCCGTGGCGACGCAGGCGCCGACCGCGCGGCGCTGAAGGCGGCGTTGCTGGGTGCAGGCCTCGCGCTCGGCCTGCTGCAGCAGGCGCCGGAAACCTGGTTCCAGGGCGGTGCCGGCGACGATGACGCGCGCATCCAGGACCTGATCGACGCCCGCACCGCGGCCAAGCAAGCCCGCGACTTCGCCCGCGCCGACGCGATCCGCGACCAGCTCGCCGCCGACGGCATCGTGCTGGAAGACACCCCGCAGGGCGTGCGCTGGAAGCGCGGATGA	MSLRLHNNLTRRVEEFTPLDVAAGPTMYVCGPTVYNYVHIGNARGPVVFGVLADLLRRRYGKLRYARNITDVDDKINAAAIEQQVPIKTITDKFAGAYREDMAALGVVPPDIEPEATAHMAQIVAMIERLIANGHAYAAEGHVLFAVKTFDGYGKLSRRDPDEMLAGARVEVAPYKRDAGDFVLWKPSSDELPGWDSPWGRGRPGWHIECSAMAAAHLGETIDIHAGGVDLQFPHHENEVAQSECAHGGKTFARFWLHNGMLNFGGAKMSKSIGNIERVHDLVRKHPPEALRYALLSAHYRQPLDWSDALIDQARSTLDRLYGTLRDLADVTATAAIPQAIEDALDDDLNTPQALAELARIAAEARRGDAGADRAALKAALLGAGLALGLLQQAPETWFQGGAGDDDARIQDLIDARTAAKQARDFARADAIRDQLAADGIVLEDTPQGVRWKRG	PGPT0002985_5832	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002985-cysS-K01883	NA	NA
BMS020_05370	441	sufE_2	COG2166	Cysteine desulfuration protein SufE	ATGACCGACTCCCCCTTCCCGCTCGAACCCACCGCCGCCGCCGCGCAGGCGGAGATCGCCGATGAATTCTCGTTCTTCGGCGACTGGTCCGAGCGCTACCAGTACCTGATCGACCTCGGTCGCAAGCTGCCGGACTTCCCCGAGGCGTGGAAGAGTGAGGAGCACCGCCTGCACGGCTGCCAGTCGATGGTCTGGATCGTGCCGGAGGGCAACGCCGAGCGGCTGGTGTTCCATGCGATCAGCGATTCGGCGATCGTCTCCGGACTGATCTACCTGGCGCTGCGGGTCTACTCGGGCCGCTCGGCTGCCGAGATCCTCGCCACCGAGCCGGAGTACCTGGCCACCATCGGCCTGTCCAAGCACCTGTCACCGACCCGCTCCAACGGGGTCGCGGCGATGCTCGCCTTCATCCGCGACACCGCCAAGGCGCAACAGGCGTGA	MTDSPFPLEPTAAAAQAEIADEFSFFGDWSERYQYLIDLGRKLPDFPEAWKSEEHRLHGCQSMVWIVPEGNAERLVFHAISDSAIVSGLIYLALRVYSGRSAAEILATEPEYLATIGLSKHLSPTRSNGVAAMLAFIRDTAKAQQA	PGPT0020195_269	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0020195-sufS-K11717	NA	NA
BMS020_05371	1263	entS_2		Enterobactin exporter EntS	GTGAGCGCGCCGGACAGCGCCGCCAGCGCCCCTGCCGCCACCAGCGTCCACGACATCCTCTCCCGCCCCGGCTTCAACCGCCTGCTGATCTACCGGATCGGCGCGATCCTGTCCTACCAGGTGGTCTCGGTCGCGGTCGGCTGGCACATCTACCAGATCACCGGCAATCCGCTGTCGCTGGGCCTGATCGGCCTGGCCGAGGTGCTGCCGTTCATCTGCACCGCGCCGTTCGCCGGCTACCTGGTCGACCACCTGCCGCGGCGCCGGCTCGGCATGGCCGCCAGCTTCGGCCTGCTGCTGACCGCGCTGACCCTGCTGGCGGTCACCCGCGGCTGGCTGCCGACCCACGGCACCTGGCCGATGTACGCGGCGGTGTGCCTGACCGGCATGGTCCGCTGCTTCCTGACCCCGGTCTACAACGCGCTGTTCGCGCGCGTGCTGGAGCGGCGCCAGTTCGCACGCGGCACCAGCGTGGCCAACGTGTTCTTCCAGAGCGGGCTGGTGCTCGGCCCGGCGCTGGGCGGTGGACTGATCGCACTCGGCGGCACCACCCTCGCCTATGCGGTGGCCACCGTGCTGTCGGCGCTGGCGATCGTGGTGCTGTTCGGGCTGAAGGTCGAGGAGCCGGTCGCCGGTGGTCCGCGCGCACCGGTGTTCCAGAGCATCGCCGAGGGCGCGCGCTTCGTGTTCTCGCACCAGATCATGCTCGGCGCGATGGCGCTGGACCTGTTCTCGGTGCTGCTCGGTGGCGCGGTGTCGATGCTGCCGGCGTTCATCCACGACATCCTGCAGCACGGCCCGGAAGGCCTGGGCATCCTGCGCGCCTGCCCGTCGCTGGGCGCGGTCGCCGCCGGCCTGTGGGTCGCCCGCCATCCGATCGACCGCAACGCCGGGCGCATCCTGATGATCTGCGTGGCCGCGTTCGGCGTCTGCACGATCGCCTTCGGGCTGTCGCGGCACTTCTGGCTGTCGGCGTTGATCCTGGTCGCCTACGGGCTGTGCGACGGCGTCTCGATGGTGCTGCGCTCGACCATCATGCAGCTGGCCACGCCGGACGAGATGCGCGGCCGGGTGTCGTCGATCAACAGCATCTTCATCAGCTCGTCCAACGAACTGGGCGCGTTCTACGACGGCGTGATGGCGCGCTGGCTCGGCCTGGTGCCGGCGGTGGTGCTGGGCGGCTGCGTGACCCTGGGCGTGGTCGGCATCACCGCGCTGAAGGCGCCCAGGCTGCGCCAGCTCAACGTGCGCGACCTGCACTGA	MSAPDSAASAPAATSVHDILSRPGFNRLLIYRIGAILSYQVVSVAVGWHIYQITGNPLSLGLIGLAEVLPFICTAPFAGYLVDHLPRRRLGMAASFGLLLTALTLLAVTRGWLPTHGTWPMYAAVCLTGMVRCFLTPVYNALFARVLERRQFARGTSVANVFFQSGLVLGPALGGGLIALGGTTLAYAVATVLSALAIVVLFGLKVEEPVAGGPRAPVFQSIAEGARFVFSHQIMLGAMALDLFSVLLGGAVSMLPAFIHDILQHGPEGLGILRACPSLGAVAAGLWVARHPIDRNAGRILMICVAAFGVCTIAFGLSRHFWLSALILVAYGLCDGVSMVLRSTIMQLATPDEMRGRVSSINSIFISSSNELGAFYDGVMARWLGLVPAVVLGGCVTLGVVGITALKAPRLRQLNVRDLH	PGPT0003290_47	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN_TRANSPORT,PGPT0003290-entS|ybdA|cbsS-K08225	NA	NA
BMS020_05372	1182	glpQ_2	COG0584	Glycerophosphodiester phosphodiesterase, periplasmic	ATGCGTGGATGGATCCTGATGGGAGCGGTGGTGATGGCGTTGACCGGCGTGATCGCTCCGGCACAGGCGCAGCCGGCGGCTGGCGAGACCGCACCGCCGCCGCGGCTGGTGATCGCTCATCGCGGTGCCAGCGCGCTGCGTCCCGAGCACACCCTGGCGGCCTACGCCAAGGCGATCGCCGATGGCGCCGACTATGTCGAACCGGACCTGGTCTCGACCCGCGATGGCGTGCTGGTGGCGCGCCACGAGAACGAGATCGGCGGCACCACCGATGTCGCCGCGCACCCGGAATTCGCCGCGCGCAGGACCGCCAAGACCATCGATGGCGAACGCATCGAGGGCTGGTTCAGCGAAGACTTCACCCTGGCCGAGCTGAAGACGCTGCGCGCGCGTGAGCGCCTGCCGCAGCTGCGCGGCACCGGCTACGACGGCCAGTTCCAGGTACCGACGCTGGACGAGATCATCGACTTCGTCGCCGCCGAGTCCGCCACGCGCGGGCGCCGCATCGGCCTGATCCCGGAGATCAAGCACGGCAGCCATTTCGCCAGGCTCGGCCTGGCGATGGAGGACCGGCTGCTCGATACGCTGGCCGCGCACGCCTATACGCGCAGCGCACCGGTGGCGATCCAGTCGTTCGAGATCGGCAACCTGCGCTACCTGCACCAGCAGCTGCAGGCGCGCGGGATCGGCAACGTCAGCCTGGTGCAGCTGATCGGCGATCCGCTGCAGCGCCCGGGCGATGTGCTCGCCGCCGGCGGCAGTACCCGCTACATCGACATGCTCACGCCGACCGGGCTGGCCGGGATCGCCGCCTACGCGCGCTACCTGTCGCCGGAACTGGGCTGGCTGCTGCGCCCGGATGCGCAGCAGCGGCTGACCCGGCCGACCGCGGTGGTGCCGGCGGCGCACGCCGCGGGGCTGCTGGTGGTGCCGTACACGTTCCGCCCGGAGAACCAGTTCCTGGCCAAGGGCGCGTGGCCGGGCGGCGATGCCCGCAGCCGCAATCCGCAGGCGATGGTCGCGGCGATCCGCGCCTACCTCGACATCGGCATCGATGGCTTCTTCACCGACGACCCGGCGCTGGGGCGCGAGGCGGTCGACGGCTGGGTGCCGGGGCAGTCCGGCCTGGGCGACGGCCATGCGCCAACGCAGGTGATGCCGGTCGAGCTGCCTGGCGCCTGA	MRGWILMGAVVMALTGVIAPAQAQPAAGETAPPPRLVIAHRGASALRPEHTLAAYAKAIADGADYVEPDLVSTRDGVLVARHENEIGGTTDVAAHPEFAARRTAKTIDGERIEGWFSEDFTLAELKTLRARERLPQLRGTGYDGQFQVPTLDEIIDFVAAESATRGRRIGLIPEIKHGSHFARLGLAMEDRLLDTLAAHAYTRSAPVAIQSFEIGNLRYLHQQLQARGIGNVSLVQLIGDPLQRPGDVLAAGGSTRYIDMLTPTGLAGIAAYARYLSPELGWLLRPDAQQRLTRPTAVVPAAHAAGLLVVPYTFRPENQFLAKGAWPGGDARSRNPQAMVAAIRAYLDIGIDGFFTDDPALGREAVDGWVPGQSGLGDGHAPTQVMPVELPGA	PGPT0018470_1864	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
BMS020_05373	1071	menH_5		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGGCGCGCCGACGCACGTTCCTGAAGGTCACAGCGGTGCTCGCCGCCGGGCTGCTGGCGGTGGTCGCGCTGGGGCCGCGGCAACGCGCGCAGGTGGCGCCATCGCCGCTGCCGCCGGTGGCACAGGATCCCCTGCAGCTGCAGCAGTGGCTGCAGGCGCGCGAAGCCCAGGCCTGCCCGCTGCGCGCCGACACCGCCGCGCGCATCGTCTGGGCCGATCCGGCGCATCCTGGCAAGCGCGACTGCGCGATCGTCTACCTGCACGGCTTCAGCGCCAGCCAGGGCGAGGGCGCGCCGGCGCACCGCCAGCTGGCCGCCGACTTCGGCTGCAACCTGTACCTGCCGCGGCTGCCCGGGCACGGACTGCAGACCGCCGACGCATTGCGCGGGGTCAGCGCGCAGACGCTGCTGGATGCGGCCAGCGAGGCGCTGGCGGTCGGCCAGGTGCTGGGGCGGCGGGTGGTACTGGTCGGCAGTTCGATGGGCGGCGCGCTGGCGCTGCAGACCGCCGCCCAGCATCCCGAGCACGTGACCGCGCTGGTGCTGTGGTCGCCGCTGGTGCGCGAGTACAACGCGCAGCTGCAGCCGCTGATGTGGCCGTGGGGTGCGCAGCTGCTGCTGTGGAAGCGCAATCATGGCGATCCGGTGCTGCGCCATCCGGTCGACAGCCCGTACTGGGCCGATGCGATCCATGTCGACGGCTATCGGGCGCTGGCGACGCTGACCCGCGGCGGCATGCGCCCGGCCACCTATGCGGCGATCCGCATGCCGGTGTTCGTCGGCGCCTGGTACAAGGATCCACAGCACCAGGACGGCACGGTGTCGGTGGCGGCAATGCGGCAGATGTTCGCCGCGCTGGGCACGCCACCGGCACGACGCGAGTGGATGGAGTTCCCCGAGGCTGGCAATCATGTGATCGCCTCGCCACTGCGCTCCAGGCAGGCGGCGCAGGTGGTGCAGGCCAGCTGCCGGTTCCTGTGGCAGGACGCGGGGCTGGCGCCGGTCATGCCGACGGCGTGCGCGGTGCCGGCGCTGGCCGGGGTGGGCGACGATGGTTCGACGACGAGGTGA	MARRRTFLKVTAVLAAGLLAVVALGPRQRAQVAPSPLPPVAQDPLQLQQWLQAREAQACPLRADTAARIVWADPAHPGKRDCAIVYLHGFSASQGEGAPAHRQLAADFGCNLYLPRLPGHGLQTADALRGVSAQTLLDAASEALAVGQVLGRRVVLVGSSMGGALALQTAAQHPEHVTALVLWSPLVREYNAQLQPLMWPWGAQLLLWKRNHGDPVLRHPVDSPYWADAIHVDGYRALATLTRGGMRPATYAAIRMPVFVGAWYKDPQHQDGTVSVAAMRQMFAALGTPPARREWMEFPEAGNHVIASPLRSRQAAQVVQASCRFLWQDAGLAPVMPTACAVPALAGVGDDGSTTR				NA	NA	NA	NA	NA
BMS020_05374	2334	btuB_8		Vitamin B12 transporter BtuB	ATGACTCCGACGCCGCTGCTGCGTGTTTCCCTGTTGTCCCTCTCGGTCATGACCAGTCTTGCCGCCGCCGCGGCGCACGCCGAGGAGGCCGATGGCGCCGGCGGCGAGGTGCAGCAGCTGGAGCGCATGACCGTCACCGCGCAGAAGCGCGAGCAGCAGGTCGCCGACGTGCCGCTCTCGATCAGCGCCTACAGCGGCGAACTGCTGCGCAAGCTCGGCATCACCCGCATGGACGAGCTGAGCGCGTGGGTGCCAGGGTTCCATGCGCAGCTGCAGAGCCCGAACAACCCGGGCTACGTGGTGCGCGGCATCACCACCGACAGTGGTGACAGCACCCAGACTTCGCGCGTGTCGATCTTCCAGGACGGCGTGGACATCAGTCGCTCGCGTGGCTCGGCGGTGGCGCTGTACGACCTGCAGCGGATCGAGGTGCTGCGTGGCCCGCAGGGCACCTTGTTCGGCCGCGGCGCCGAGGCCGGCGCGGTGTCGTTGATCCAGAACAAGGCCAGCAACAGCAGTGAAAGCGGCTTCGACGCTGAGCTCGGCAACTACGCCAGCCGGCGCATCAGCGCGTTCTACAACGCCCCGCTCAACGAAGCGGTTTCCGCGCGCATCGCGTTGTACGACGCCGAGCACGATGGCTACGTGGACAACCTCAGTGGTGGCGAGCTCAACGGCGAGGACACCCAGGCCGCGCGGCTGAGCCTGCATTTCGAGCTGGAAGACGGCGCGATCGACGCGATTTTCAACTGGCAGCACGACACCCCGCCGGGTACCGATTTCCACGGCAACCAGATCGCCACTCGCAACGGCTCGACCGATGTCTACGGCGATTCCGACCTCAACCGCGGCGATGCGCTGGGCCTGGACCGCACCATCTACGGCCTCACCGTATTGGGCAATTTCCGCCTGGGCGAGAGTTGGCAGCTCAACAGCACCACCGGCCTGCGCCGCTTCAATTCCAACGAGCAGTTCGACGCCGACGGCAGCAATCTCGACATCCTGGAGATGGGCGAGTACGTCAAGAGCAAGCAGGTCAGCCAGGAATTCCGCTTCAACTACGATGGCGGCGGCCGCGTGCGCGGCTTCACCGGCGCCAATTTCTTCTACGAGAAGGGTGAGCAGCGCGTGTCGCTGCAGACCGACGAGGCGGCGCTGTTCTCCAGCGTGGTATGGCCGCTGCTGCTGCAGTCGTACCCGAGCTACGCGGCCTACCAGAACCAGGTCGACATGCTCACCGCGGCCAACTACAACCCGGTGCAGTACCTGCTGGCCGGCGCCTACGTGCCGTTCAACAACGACATCACCGAAGGCTACGCCAATTCCAACACCACCAAGGCGCTGGAGGCGTTCGGCGACGTGACCGTCGATGTCACCGATCGGCTGTCGTTGACCGGTGGCGTGCGGGTCTCGCGCGAGGACGTGACCTCCGGCTACCGCACCTACGATGCCGACGGCGCCGGCACGCTGGGCGTGCTCGGGCTGACCACGGGCGGCGTGTCGGTGTATCCGAACAACTTGTGGGCCAGCACGGGCGGGCAGGTGCTGCGTGCTTCGGACAGCTTCTGGGGCGTGACCGGGCGACTGGTCGCCAACTACCGCATCGGCGATGCCGGCAACCTCTATGCCAGCGTCGCGCGTGGACGCAAGCCGGACGTGATCCAGGTCGAGGCCGATGCCACCACCGAGCTGCCGGCGGAGATCCTGACCAGTGGCGAGATCGGCCTGAAGGGCGAACTGGCCGATGGGCGCTTCCTGTACGACCTGTCGGCGTTCTACTACGACTACAAGAATTTCCAGTCCAGCGCCTACGTCGACGGCCAGTACAAGACCCGCAACGCCGGGCGCGCGCATGCGCCGGGGTTCGAGATGTCGCTGCAGCACAACGTCAGCGCCGACCTCGGCGTGCTGCTCAACTACACCTGGATGCGGGCGCGCTTCAACGCGGTGGACGAGGACGGCTCGGTGCAGGCCTTGTCCGGCAACCGCCTGCGCATGAGCCCGGACAACAGTGCCTCGCTGGCAGTGATGTACAGCCATGACATCGGCGGCAACCGCCGCTTCTACCTGCGCCCGAGCTACCAGTGGAAGGACCGGATGTTCTTCGACGACGAGAACACCGCCGGGCTGGAGCAGAAGGCCTACGGCCTGGTCAACCTGCGTATCGGCGTGAGCTTCGACGGCGGGCGTTGGGACGTGGGCCTGTTCGGCGCCAACCTGGCCGACGAGAAATACCTGATCGACGCCGGCAACACTGGCGCGACGTTCGGCCTGCCGACCTACATCCGCGGCGCGCCGCGCACGTTCGGCGTCAGCGTGTCGGGGCGCTTCTGA	MTPTPLLRVSLLSLSVMTSLAAAAAHAEEADGAGGEVQQLERMTVTAQKREQQVADVPLSISAYSGELLRKLGITRMDELSAWVPGFHAQLQSPNNPGYVVRGITTDSGDSTQTSRVSIFQDGVDISRSRGSAVALYDLQRIEVLRGPQGTLFGRGAEAGAVSLIQNKASNSSESGFDAELGNYASRRISAFYNAPLNEAVSARIALYDAEHDGYVDNLSGGELNGEDTQAARLSLHFELEDGAIDAIFNWQHDTPPGTDFHGNQIATRNGSTDVYGDSDLNRGDALGLDRTIYGLTVLGNFRLGESWQLNSTTGLRRFNSNEQFDADGSNLDILEMGEYVKSKQVSQEFRFNYDGGGRVRGFTGANFFYEKGEQRVSLQTDEAALFSSVVWPLLLQSYPSYAAYQNQVDMLTAANYNPVQYLLAGAYVPFNNDITEGYANSNTTKALEAFGDVTVDVTDRLSLTGGVRVSREDVTSGYRTYDADGAGTLGVLGLTTGGVSVYPNNLWASTGGQVLRASDSFWGVTGRLVANYRIGDAGNLYASVARGRKPDVIQVEADATTELPAEILTSGEIGLKGELADGRFLYDLSAFYYDYKNFQSSAYVDGQYKTRNAGRAHAPGFEMSLQHNVSADLGVLLNYTWMRARFNAVDEDGSVQALSGNRLRMSPDNSASLAVMYSHDIGGNRRFYLRPSYQWKDRMFFDDENTAGLEQKAYGLVNLRIGVSFDGGRWDVGLFGANLADEKYLIDAGNTGATFGLPTYIRGAPRTFGVSVSGRF	PGPT0003790_14141	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_05375	2328	bglB_2	COG1472	Thermostable beta-glucosidase B	ATGGGAATGATGCAGAACAAGACCGGCCTGGCGCCGCTGGCGATCGGCGTGGCGCTGGGCCTGTTCGGCGCTGGCACCGCCTTCGCCGAAGCGTTGCCGCAGCTGGGCAAGGACCCGCTCGACAAGGTGGTCGCGGCGCTGACGCTGGAGGAGAAGGTGGCGCTGGTCACCGGCCAGGGCATGAGCTTCCCCGGTCTGTCCGAGGACATGCAGGCGCCGGTGGTCGGCGGCAGCAATGACGCCAAGGTGCCCGGTGCGGCCGGCACCACCTATCCGGTGCCGCGGCTGGGCATCCCGTCGATCGTGCTGGCCGACGGCCCGGCCGGCGTGCGCATCGACCCGACCCGCAAGGACGCGCCGGGCAAGACCTTCCATGCCACCGCGTTCCCGATCGGCAGCGCGCTGGCGACCTCGTGGGACGTCGGCCTGGTGCGCGAGGTCGGCGCGGCGATCGGCCGCGAGGCGCGCGACTACGGCGTCGACGTGATGCTGACCCCGGCGCAGAACATCCACCGTTATCCGCTCGGCGGGCGCAACTTCGAGTACTACTCCGAAGACCCGGTGGTGTCGGGCAACATCGCCGCGGCGCTGGTGCAGGGCCTGCAGGACGAGGGCGTGGGTGCATCGGTCAAGCATTTCGCCGTCAACAACCACGAGTGGAACCGCAACACCATCGACGTCAAGGCCGACGAGCGCGCGCTGCGCGAGATCTACCTGAAGAGCTTCGAGATCTCGATCGGCAAGGGCCGGCCGTGGACGGTGATGTCCAGCTACAACAAGCTCAATGGCACCTACACCTCGGAGAACCGCTGGCTGTTGACCGACGTGTTGCGCCAGCAGTGGGGCTACCAGGGCCTGGTGATGACCGACTGGTTCGGCGGCAAGGACGCGGTGGCGCAGCAGAACGCCGGCAACGAACTGCTGATGCCGGGCACCGGCAAGCAGCAGCGCGACATGCTCGCGGCGGTGCGCGCCGGGCGGCTCAGCCAACAGATACTGGACCGCAACGTCGCCCGGGTGCTGGCGCTGATCGAGCAGACCCATACCTTCAAGCACACCCCGCATGCCGACCAGCCCGACCTCAAGGCCAACGCGCAGGTGTCGCGCCAGGCCGCGACCCAGGCGATGGTGCTGCTGAAGAACGATGCCGCCGCGCTGCCGCTGCGCGCCGCGGCCAAGGTCGCGCTGCTCGGCGACAGCAGTTACCAGATGGTCACCGGCGGCACCGGCAGCGGCGACGTCAACAAGGCCTACAGCATCTCGCTGCTGCAGGGGCTGGGCGACGCCGGCTTCGCCACCGATGCGACGCTGGCCAGCCGCTACGCCGACTACCTGCGCGAGCAGACCGCCAAGCTGCCGGAAACGCCGTGGTTCCTGCCCAAGCCGCGGGTGCCCGAGCGCGTGGTGGACGCGGCCGAGCTGCAACGGCTGGCCCGCACCCAGGACGTGGCGGTGCTGACCATCGGCCGCGCCTCGGGCGAGTTCGTCGACCGCAAGCCCGAGGACGACTTCGAGTTGAGCGCGACCGAGCGCAGCTTGTTGCAGCAGGCCGCCAAGGCCTTCCACGCGCAGGGCAAGCAGCTGGTGGTGGTGCTGAACATCTCCGGCGTGGTCGAGACCGCCAGCTGGCGCGATCTCGCCGACGCGATCGTGCTGGCCTGGCAGCCGGGCCAGGAGGCCGGCCATGCGGTCGCCGACGTGCTGTCGGGCAAGGTCAATCCGTCCGGCAAGCTCGCCGACACCTTCGCGCTGACGCTGCAGGACTATCCGTCGGCGCAGGGCTTCCCGGGCAAGGTGCTGCTGGGGCCGGACCCGAACGCCGATTCGTTGTTCGGCAAGATCGACCGCGCCGCCGAGATCGACTACACCGACGGCATCTGGGTCGGCTACCGCCACTTCAACACACGCAAGGTCGGCGTCGCCTATCCGTTCGGCTACGGCCTGTCGTACACGCGCTTCGGCTACAGCGCACTGAAGGTCGACAGCCGCGATGATGCCGGCAGCGTGCAGGCCAGCGTCACCGTGACCAACACCGGCAAGGTCGCCGGCAAGGACGTGGTGCAGGTCTACATCGCCGCGCCGCAGGGCAGCCTGGACAAGCCGGAGGAGGAGCTGCGCGCGTTCGCCAAGACCGGGCTGCTGCAGCCAGGGCAGTCGCAGACGCTGCAGTTCGAGATCGCCGGCAAGGACCTGGCCTCGTTCGATCCGCAGCGCAAGCGCTGGGTCGCCGACGCGGGGACCTACCAGCTGCGCATCGGTGCGTCCTCGCGCGACATCGTGCTCACGCAGGACTTCGTGAAAGCCGCGAGCAGCGATTACGCGCCGTGA	MGMMQNKTGLAPLAIGVALGLFGAGTAFAEALPQLGKDPLDKVVAALTLEEKVALVTGQGMSFPGLSEDMQAPVVGGSNDAKVPGAAGTTYPVPRLGIPSIVLADGPAGVRIDPTRKDAPGKTFHATAFPIGSALATSWDVGLVREVGAAIGREARDYGVDVMLTPAQNIHRYPLGGRNFEYYSEDPVVSGNIAAALVQGLQDEGVGASVKHFAVNNHEWNRNTIDVKADERALREIYLKSFEISIGKGRPWTVMSSYNKLNGTYTSENRWLLTDVLRQQWGYQGLVMTDWFGGKDAVAQQNAGNELLMPGTGKQQRDMLAAVRAGRLSQQILDRNVARVLALIEQTHTFKHTPHADQPDLKANAQVSRQAATQAMVLLKNDAAALPLRAAAKVALLGDSSYQMVTGGTGSGDVNKAYSISLLQGLGDAGFATDATLASRYADYLREQTAKLPETPWFLPKPRVPERVVDAAELQRLARTQDVAVLTIGRASGEFVDRKPEDDFELSATERSLLQQAAKAFHAQGKQLVVVLNISGVVETASWRDLADAIVLAWQPGQEAGHAVADVLSGKVNPSGKLADTFALTLQDYPSAQGFPGKVLLGPDPNADSLFGKIDRAAEIDYTDGIWVGYRHFNTRKVGVAYPFGYGLSYTRFGYSALKVDSRDDAGSVQASVTVTNTGKVAGKDVVQVYIAAPQGSLDKPEEELRAFAKTGLLQPGQSQTLQFEIAGKDLASFDPQRKRWVADAGTYQLRIGASSRDIVLTQDFVKAASSDYAP	PGPT0019110_4324	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
BMS020_05376	1626	pnbA_3	COG2272	Para-nitrobenzyl esterase	ATGAAAGCATGGTCTGGATGGTGGCTTGGGTTGGCGGCGAGCGCCGGACTGGCGGCCTGCGGCGGCCAGGCCCCGGCCGCCGCAGGCGCAGCGGCCAAGCCCGCGGCCGACGACGGCCTGGTGGTGACGGTGCCGGGCGGGCAGGTCAGCGGTGTCGCCGCTGATGCGGTGGTGGCCTACAAGGGCATCCCGTTCGCGGCGCCGCCGGTGGCCGGCTTGCGCTGGCGGCCGCCGCAGCCGGTGCAGCCGTGGCAGGGCGTGCTGAAGGCCGAGGCCTACAAACCGGACTGCGCGCAGCTGCCGTTCCCGGGCGACGCCGCGCCGTTGGGCGTGCCCCCGGCCGAGGACTGCCTGGGCATCAACGTGTGGAAGCCGGCCAGCGCCAGCCGCGCCAGGCCGGTGCCGGTGATGGTGTGGATCTACGGCGGCGGCTTCGTCAACGGCGGTTCCTCGCCGGCGGTCTACGACGGCAGCGCGTTCGCGCGCGACGGGGTGATCCTGGTCAGCTTCAACTACCGGGTCGGGCGCTTCGGCTTCTTCGCCCACCCGGCGCTCAGCGCCGAAGCACGCGCGCACGCCGAGCCGGTCGGCAACTACGGCTACATGGACCAGCTGGCGGCGCTGCAGTGGGTCAAGGCCAACATCGCCGCGTTCGGTGGCGACCCGGGCAACGTGACCTTGTTCGGCGAATCGGCCGGCGGCGCCTCGGTGCTGCAGTGGCTGGTCAGCCCGGCGGCCAAGGGCCTGTTCCAGCGTGCGGTGGTGATGTCCGGCGGCGGCCGCGGGCCATTGCTGCCGAGCCGCGAGCTGGACGCGCCGAATGCGCAGGGCATGCCCTCGGCCGAATCCACCGGCGTCGCCTTCGCGCATGCCAACGGCATCGACGGGACCGACGCGCAGGCATTGGCGGCGCTGCGCGCGCTGCCGGCCGACAAGGTGGTGGACGGGCTCAACATGGGCACGATGGGCGCGGCCGCGGCAACCTATGTCGGTGGCCCGATCCATGACGGCCAGCTGGTTGCCGCGACCACCGAGCAGGCGCTCGGCGCCGGGCAATGGAACCAGGTGCCGGTGGTGATCGGCTCCAACAGCGACGACCTGGGCTTCTCCGCCGCGACCGACAAGGACGGCGTGTTCGCCGCGTTCGGCGCCAACGCGGGCAAGGCGCGCGCGCTGTACGACCCCGACGGCAAGGGTGCGTTCGCCGCGGTTGCCTGGCAGGCCGGGATGGACCGGATGATGGGCGAGCCGGCGCGCTTCGTTGCCGCCACGGTGGCCGGGCAGGGCGTCGCCAGCTGGTTGTACCGCTTCGATTACGTCGCCGAAGCGCTGCGCACGCAGGCGCACGGTGCCTCGCATGCCAGCGAGCTGCCCTACGTGTTCGACACGCTGCAGGCGCGCGCAGGCGCGCAGGCGAGCGCTGCCGACCGCGCCGCCGCCGCCCAGCTCCACGCGTACTGGACCGGGGTGGCGCTGCACGGCCAACCGGGCGGCGAGGGCCTGCCGGCATGGCCGGCCTATGTGCCGAGCGAGGGCCGGCTCATGCAGTTCGGCACCGAGGGGCCGCAGTACCAGACCGACCCACGCGGGCCGCGGCTGGACCTGGTCGAGCACAGCCACCAGTAG	MKAWSGWWLGLAASAGLAACGGQAPAAAGAAAKPAADDGLVVTVPGGQVSGVAADAVVAYKGIPFAAPPVAGLRWRPPQPVQPWQGVLKAEAYKPDCAQLPFPGDAAPLGVPPAEDCLGINVWKPASASRARPVPVMVWIYGGGFVNGGSSPAVYDGSAFARDGVILVSFNYRVGRFGFFAHPALSAEARAHAEPVGNYGYMDQLAALQWVKANIAAFGGDPGNVTLFGESAGGASVLQWLVSPAAKGLFQRAVVMSGGGRGPLLPSRELDAPNAQGMPSAESTGVAFAHANGIDGTDAQALAALRALPADKVVDGLNMGTMGAAAATYVGGPIHDGQLVAATTEQALGAGQWNQVPVVIGSNSDDLGFSAATDKDGVFAAFGANAGKARALYDPDGKGAFAAVAWQAGMDRMMGEPARFVAATVAGQGVASWLYRFDYVAEALRTQAHGASHASELPYVFDTLQARAGAQASAADRAAAAQLHAYWTGVALHGQPGGEGLPAWPAYVPSEGRLMQFGTEGPQYQTDPRGPRLDLVEHSHQ	PGPT0030515_1147	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TANNIN_DEGRADATION	PUTATIVE-TANNIN_DEGRADATION-1,PGPT0030515-pnbA-K03929
BMS020_05377	1332			hypothetical protein	ATGAACACACGCTATTCCGCGACACATCGCAGCCGTCTGCGCTGGCTGCTGCCGGCCGTCTGCCTCGGCGCCGCCGCGCCGGCCTGGGCCGAAGCCGGCCAGTCCCAGGCGCAGGCCTGCCACGACTACGACCGCTACATCACCCGCGGCTCGGAGTCGCCGATCATCAGCACCTGCGAGACGCTGTCACCGGACCTGCTCGGGCTGCGCCCGAAGATGGTCGACAACGGTTGGCTGTTCATGGGCTTCTACAGCGCCGGCGAGACCTACGACCTGCGTGGCCAGGAGGCGCGCCCGCAGCAGTACAACGGCCAGCGCCCGAGCTACAGCGGGACCTTGTCGACGATCCTGACCTACGACCTGTCGCGGCTGGGCTGGTGGGGCCGGCAGTCGCAGCTGACGATGGAGGTCAACAGCTGGCGCAGCACCTACGCCAACGGCGGCATCAACGACGATGCGGCGGTGGCGCAGTTGTCGGTGCAGCAGCAGTTCGCCGATGGCCGGGTGCGGCTGCAGTACGGCTATTACGGCATGCTCGGGCAGTTCTACGGCATGTTCCTCGGCACCAGTACCGCGTCCTCGGCGCTCGGCCCGACCAGCATCATCCCCAACCTGGTCGGCATGAGCATGTACAAGCCGGCACCGGGCGTGGATGTGCGCCTGTACTCCAAGAGCGGGCGCTTCTACGACCACTTCGGCGTGTCGCGCAGCCAGAGCCCGGACGGCTTCATCGCCGATTCCGAAGCCAACGGCTCGGGCCTGAAGTGGAGCGTGGACGGCGCCAAGCCGGTCTACGTCAACGAGATCGGCTACCGCGTCGCGCCCAGCGCAGACAGCCGCATGACCTGGATCCGCCAGGGCGTGATCTACAACCGCAGCAGCTACTTCGACTACAAGGCCCAGGCCTACCAGCCGATCAACCGCGGCTTCTACCTGGTCGGCGACCACCAGTTCTGGCAGCCGGACCCGGGCATGCCGCACCGCGGCTGGTACTTCAACCTGAAGACCGACTACGCGCCGCCGAAGAGCAACATCTACACCGCCGATTACGCCGCCACGCTGTACAGCCTGGCGCCGTTCGCCAGCCGCCCCGGCGACATGGTCTCGCTCGGCTACACCTACAACAAGATCAGCAAGGACGCGCAGCGCTACATGATCGGCCAGGGCTACGACGCGGTGGACTACAGCACCACCGCGTCGGCCTCGTATGCGCTGCGCGCCGCGCGCGGCATCTACTGGACCAACACGCTCAGCTACACGCGCAACCCGGTGTTCACCACGCATCATCCCGATGCGCTGGTGCTGCAGAGCCAGCTGACGTTCTCGTTCTGA	MNTRYSATHRSRLRWLLPAVCLGAAAPAWAEAGQSQAQACHDYDRYITRGSESPIISTCETLSPDLLGLRPKMVDNGWLFMGFYSAGETYDLRGQEARPQQYNGQRPSYSGTLSTILTYDLSRLGWWGRQSQLTMEVNSWRSTYANGGINDDAAVAQLSVQQQFADGRVRLQYGYYGMLGQFYGMFLGTSTASSALGPTSIIPNLVGMSMYKPAPGVDVRLYSKSGRFYDHFGVSRSQSPDGFIADSEANGSGLKWSVDGAKPVYVNEIGYRVAPSADSRMTWIRQGVIYNRSSYFDYKAQAYQPINRGFYLVGDHQFWQPDPGMPHRGWYFNLKTDYAPPKSNIYTADYAATLYSLAPFASRPGDMVSLGYTYNKISKDAQRYMIGQGYDAVDYSTTASASYALRAARGIYWTNTLSYTRNPVFTTHHPDALVLQSQLTFSF				NA	NA	NA	NA	NA
BMS020_05378	114			hypothetical protein	ATGCTGGTGAAAGCGCTCTTCGATACCCGTAGATGGGTGCCCGCCGCGGTCCGCGGCCGGCGTCAGGCGCTCCGCCGTCCGCGTGCCCCGCACCCGGGGCCGGCCACGGCCTGA	MLVKALFDTRRWVPAAVRGRRQALRRPRAPHPGPATA				NA	NA	NA	NA	NA
BMS020_05379	654	slmA_3		Nucleoid occlusion factor SlmA	GTGCCCAACCCCGCTCCAGACCGCCCTGTCCGCCGCCGCCGTTCGCCCAAGGGTGAGCAGCGCCGTCGCGAGATCCTCGATGCGGCGCTGCGGGTGTTCGCACGCGACGGCTACGGCAGCGCCTCGATCGCCGCGGTCGCCGCCGAGGTCGGGCTGACCCTGCCCGGCCTGCTGCACTATTTCCCGAGCAAGACCGAGATGCTGCTGGCGGTGCTGGAGATGCGCGACGCGCGCGGCGCGCCGCTGCCCGGCCAGGGCGATGCCAGCCTGGAGACCGCGCTGCGCGCGCCGCCGCCGAGCTGGGCCGAACTGCTCGACCAGCTGCGCCGGATCAACCGCGCCAACGCGGCGATGCCGGGGGTGATCCGGGCGTTCTCGCTGCTCAATGCCGAAAGCCTGGTCGAGGCGCATCCGGCCCAGGCCTGGTTCGCCGACCGCGCCGACAAGGTGCTCGCCCACATCGCGCGCACCCTGCGCCAGGCCCAGCAGCAGGGCGAGGTCACCGCCGATGCCGATCCGGAGCAGGTCGCCGCCGAGCTGGTCGCGGTGATGGACGGCCTGCAGATGCTGTGGCTGCGCCATCCGCACAAGGCCGACCTGGTGCAGTCCTTCGAGGGCTACCTCACGCGGCTGGAGCGCGGCCTGCGCCCCTGA	MPNPAPDRPVRRRRSPKGEQRRREILDAALRVFARDGYGSASIAAVAAEVGLTLPGLLHYFPSKTEMLLAVLEMRDARGAPLPGQGDASLETALRAPPPSWAELLDQLRRINRANAAMPGVIRAFSLLNAESLVEAHPAQAWFADRADKVLAHIARTLRQAQQQGEVTADADPEQVAAELVAVMDGLQMLWLRHPHKADLVQSFEGYLTRLERGLRP				NA	NA	NA	NA	NA
BMS020_05380	1050	dksA_2		RNA polymerase-binding transcription factor DksA	GTGGCTGCTAAAAAACCTGCAAAGAAGGCCGTCCAGGCCGCCAAGAAAACCGCCAAGCCTGTTGTGAAGAAGGTCGCGGCGGCGAAGTCCGCCTCCAAACCGGTCGTCAAGGCCGTGAAGAAACCGGCTGCTCCGCAACCGGCTGCCAAGAAGGCACCCGTCAAGAAGGCCGCACCCGCCAAGAAGCCGGTGGTCGCCAAGAAGGCGGCACCCGTGAAGAAGGCGGCCCCTGCGGCCAGCAAGCCCGTGAAGAAGGCCGCCGCGCCTGCCACCAAGCCGGTGGTGAAGGCGGTGACCAAGAAGGCGCCCGCCACCAAGGCGGTCGCCAAACCCGCGCCGAAGCCTGCTGCCAAGCCGGTTCCGGCCAAGTCTGTCCCGGTCAAGGCTGCCAAGCCCACGCCGGCTCCGGCCAGCAAGGCCGTCGCCGCCAAGCCGGCACCCGTGACCCCGCCTACCAAGAATCCCGTGCCCGTTTCGAAATCCTCAGCGAAGACCCCGAGCAAGTCCGAATCGCCCGCCAAGCCCGCCGCGTCCCGTCCGGTCGGCAAGGTGGCGGTCGCCGTGACCTCCAAGCCCTCCGCGCCGACGCCGCGCAGCAAGTACAAGGTGGTCGAATACGCCACCGACGAGGCCACCGGCCGCCCGATCCTGCCGGCCGGCTACAAGCCGGCGCCGGACGAGGAGTACATGAGCGCGCTGCAGCTCGAGTACTTCCGCCAGCGCCTGCAGCAGTGGCGCAACGACCTGGTCGAGGAATCCAAGCAGACCATCGAGAACCTGCGCGAGGAAGTGCGTGACATCGGCGACGAGGCCGAGCGTGCGACCCGCGAGACCGAGAACTCGCTGGAACTGCGGACCCGCGACCGTTACCGCAAGCTGATCGGCAAGATCGACAGCACGCTCAAGCGCCTGGAAGGCGGTGACTACGGTTACTGCGTCGATACCGGCGAAGAGATCGGCCTGGACCGCCTCGAGGCGCGCCTGACCGCCGAGCGCACCATCGACGCCCAGGAGCGTTGGGAGCACATGCAGAAGCAGCAGGGCGACTGA	MAAKKPAKKAVQAAKKTAKPVVKKVAAAKSASKPVVKAVKKPAAPQPAAKKAPVKKAAPAKKPVVAKKAAPVKKAAPAASKPVKKAAAPATKPVVKAVTKKAPATKAVAKPAPKPAAKPVPAKSVPVKAAKPTPAPASKAVAAKPAPVTPPTKNPVPVSKSSAKTPSKSESPAKPAASRPVGKVAVAVTSKPSAPTPRSKYKVVEYATDEATGRPILPAGYKPAPDEEYMSALQLEYFRQRLQQWRNDLVEESKQTIENLREEVRDIGDEAERATRETENSLELRTRDRYRKLIGKIDSTLKRLEGGDYGYCVDTGEEIGLDRLEARLTAERTIDAQERWEHMQKQQGD				NA	NA	NA	NA	NA
BMS020_05381	1356	pyrC_2	COG0044	Dihydroorotase	ATGACCAGTACCCTGATCGTGAACGCCCGCCTGGTCAACGAGGGCCGCGAATTCGTCTCCGACCTGCGCATTGGCGCCGACGGCCGGATCGCCCGGATCGCACCGAAGATCGACGCCGAACCCGGCGAGACCGTGATCGACGCCGCCGGCCGGCTGCTGCTGCCCGGCATGGTCGACGACCAGGTCCACTTCCGCGAACCCGGCCTGACCCACAAGGGCGACATCGCCACCGAATCGGCCGCCGCGGTCGCCGGTGGCCTGACCACCTTCATGGAGATGCCCAACACCAACCCGCCGACGCTCAATGCCGAGGCGCTGGAGGCCAAGTACGCGCTGGCCGCCGGCCGCGCCTGGGGCAACCATGGCTTCTACATGGGCGCCAGCAACGACAACCTGGCCGACATCCAGCGCACCGACCCCAAGGCCACGCCGGGGGTGAAGGTGTTCATGGGTGCCTCGACCGGCAACATGCTGGTCGACAACCCGGAGACGCTGGATGCGATCTTCCGCGACACCCCGGTGCCGATCATCACCCACTGCGAGGACACCCCGACCATCAACGCCAACGCGGCGCAGTACCGCGAGAAGTATGGCGATGACATCCCGGTCGAGTTCCACCCGGACATCCGCTCGCGCGAGGCCTGCATCAAGTCGACCCAGCTGGCGCTGTCGCTGGCGCGCAAGCACGGCACCCGCCTGCACGTGCTGCACATCTCCACCGCCGACGAGCTGGCGCTGTTCGAGAAGGGTCCGCTGCTGGACGAGAACGGCAAGCACCGCAAGCAGATCACCGCCGAGACCTGCATCCACTTCCTGCGCTTCGACCGCCGCGATTACGCGCGCCTGGGCAACCAGATCAAGTGCAACCCGGCAGTCAAGGAGTCGTCCGACCGCGAGGCGCTGATCGCCGCGGTCGCCGACGGCGTCATCGACGTGCTCGCCACCGACCACGCCCCGCATACCTGGGAAGAGAAGCAGCAGACCAACTACGCGCGCGCCCCCGGCGGCCTGCCGCTGGTGCAGTTCGCGCTGGTCGCCGCGCTGGAACTGGTGCACGAAGGCAAGACCACCGTAGCCAACATCGTGCAGAAGTTCGCGCACGCGCCAGCACAGCTGTTCGATGTCGCCGACCGCGGCTTCCTGCGCGAAGGCTACTGGGCCGACCTGGTGCTGATCGACGACACCCCGTTCACCGTCAAGCGCGAGGACGTGCTGTCCAAGTGCGGTTGGTCGCCGTTCGAAGGCACCACGTTCCATTCCAGGATCGCCGCGACCTGGGTCAACGGCAAGCTGGCCTGGGACGGCAGCAAGCTGGTCGGTACGCCGAACGGCCAGCGCCTGAGCTTCAACCGCTGA	MTSTLIVNARLVNEGREFVSDLRIGADGRIARIAPKIDAEPGETVIDAAGRLLLPGMVDDQVHFREPGLTHKGDIATESAAAVAGGLTTFMEMPNTNPPTLNAEALEAKYALAAGRAWGNHGFYMGASNDNLADIQRTDPKATPGVKVFMGASTGNMLVDNPETLDAIFRDTPVPIITHCEDTPTINANAAQYREKYGDDIPVEFHPDIRSREACIKSTQLALSLARKHGTRLHVLHISTADELALFEKGPLLDENGKHRKQITAETCIHFLRFDRRDYARLGNQIKCNPAVKESSDREALIAAVADGVIDVLATDHAPHTWEEKQQTNYARAPGGLPLVQFALVAALELVHEGKTTVANIVQKFAHAPAQLFDVADRGFLREGYWADLVLIDDTPFTVKREDVLSKCGWSPFEGTTFHSRIAATWVNGKLAWDGSKLVGTPNGQRLSFNR	PGPT0021145_555	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465	NA	NA
BMS020_05382	849			hypothetical protein	ATGCGGGCGGCGCTGCTGCTGGCCGTCGCCTGCGCGACGGCCGTCTCCGCCCTGCCCGCGACGATGCCGGCCGCCCAGGCCCAGGCCGCCGATGCACGCGTCGTGTTCCCGGCCAGCGTGTCGCAGGGCGCGCTGGTGATCGGCAAGGTGCCCGCCGGCAGCCGGGTCGACTACGCCGGGCGTTCGCTGCGGGTCAGCGGCTATGGCAGCGTGGTGCTCGGCGTCGGCCGCAACGAAGCCGGACCGCTGCAGCTGCGCATCACCCGCCCGGATGGCGGCAGCGAGACCGCCAGCATCGCGGTGACCCCGCGCGACTGGCCGGTCGAGGTGGTCAACGGCGTGCCGCCGAAGACCGTCAACCCGCCACCAGCGATCGCCGCGCGGATCGAACGCGAGCAGGCCCAGGTCACCGCCGCGCGCGCCCGCGACGACGACCGCCCGGATTTCGCCCAGGCCTTCATCTGGCCGGTGCAGGGCCGCATCAGCGGCCGCTTCGGCAACGCCCGCGTGTACAACGGCCAGGCCGGCGGCTCGGGCCACTCCGGCATGGACATCGCGGTGCCGACCGGCACCCCGGTCAAGGCCCCGGCGGCCGGGGTGGTCACCTTCGCCAACCCGGACCTGTACCTGACCGGCGGCACCGTGCTGCTCGACCATGGCTTCGGGGTCAGCTCCAACTTCCTGCACCTGTCGCGGATCGACGTGAAGGTCGGCGACCGCGTGCAGCAGGGCCAGGTGATCGGCGCGGTCGGCGCGACCGGGCGTGCGACCGGGCCGCATCTGCATTGGGGGATGAACTGGTTCGACGTCCGCATCGATCCACTGCTGGTCTTGGAACGCGGGAAGTAG	MRAALLLAVACATAVSALPATMPAAQAQAADARVVFPASVSQGALVIGKVPAGSRVDYAGRSLRVSGYGSVVLGVGRNEAGPLQLRITRPDGGSETASIAVTPRDWPVEVVNGVPPKTVNPPPAIAARIEREQAQVTAARARDDDRPDFAQAFIWPVQGRISGRFGNARVYNGQAGGSGHSGMDIAVPTGTPVKAPAAGVVTFANPDLYLTGGTVLLDHGFGVSSNFLHLSRIDVKVGDRVQQGQVIGAVGATGRATGPHLHWGMNWFDVRIDPLLVLERGK				NA	NA	NA	NA	NA
BMS020_05383	1368	potE		Putrescine transporter PotE	ATGACCCTCGAGAAGCTCAAACCCACCCTCGGCACCTGGCAGCTGTGGGGCATCGCCGTCGGTCTGGTGATCTCCGGCGAATACTTCGGCTGGAGCTATGGCTGGGGCACCGCCGGCACGCTTGGCTTCCTGGTCACCGCGGCGATGGTCGCGGTGATGTACACCTGCTTCATCTTCAGTTTCACCGAGTTGACCACGGCGATCCCGCACGCGGGCGGACCGTTCGCCTACAGCCTGCGCGCGTTCGGCCGCGGCGGCGGCATGGTCGCCGGCATCGCCACGCTGATCGAGTTCGTGTTCGCCCCGCCGGCGATCGCGATGGCGATCGGCGCCTACCTCAACGTGCAGTTCCCGGGCCTGGATCCGCGCGTGGCGGCGATCGGCGCCTACGCGGTGTTCATGACCTTGAACATCCTCGGCGTGGCGATCGCGGCCACCTTCGAGCTGATCGTCACCCTGCTGGCGGTGATCGAGCTGCTGGTGTTCATGGGCGTGGTCGCGCCCGGCTTCAGCGTCGCCAACTTCGTCGCCAACGGCTGGGCCGGCAGCGACACGTTCGGGCCGGCCGCAATCGGCGGCATCTTCGCCGCGATCCCGTTCGCGATCTGGTTCTTCCTGGCGATCGAGGGCGCGGCGATGGCCGCCGAGGAAGCCAAGGACCCCAGGCGCACGATCCCGCGCGCCTACATCGGCGGCATCCTGACCCTGGTGCTGCTGGCGCTGGGGGTGATGGTGTTCGCCGGCGGCGTCGGCGACTGGCGCCAGCTGTCCAACATCAACGACCCGCTGCCGCAGGCGATGAAGGCGGTGGTCGGGCACAGTTCGGCGTGGCTGCACATGCTGGTGTGGATCGGCCTGTTCGGCCTGATTGCCAGCTTCCACGGCATCATCCTGGGCTATTCGCGCCAGTTTTTCGCACTCGCCCGTGCCGGCTTCCTGCCGCACGGCCTGGCCAAGCTGTCACGCTTCCGCACCCCGCATCGTGCGATCCTCGCCGGCGGCGTGATCGGCATCGCGGCCATCCTCAGCGACGGCGTGGTGCAGATCCAGGGCATGTCGCTGACCGCGGCGATGATCACCATGTCGGTGTTCGGAGCGATCGTGATGTACGTGATGAGCATGGCCAGCCTGTTCAAGCTGCGCCGAAGCGAGCCAGGCTTGGAGCGCAGCTTCCGCGCGCCGGGCTATCCGCTGGTGCCGGGGATCGCGCTGGTGCTGGCGCTGGTGTGCCTGGCAGCGATGATCTGGTTCAACCCGCTGGTCACGGCGATCTTCGCCGGACTGATGCTGCTGGGCATCGGCAGCTGCATCGCCAGCCTGCGCCAGGGTGGCGCGGCGTCAGCCGAGTCCGCCACCGAGCCGGCATGA	MTLEKLKPTLGTWQLWGIAVGLVISGEYFGWSYGWGTAGTLGFLVTAAMVAVMYTCFIFSFTELTTAIPHAGGPFAYSLRAFGRGGGMVAGIATLIEFVFAPPAIAMAIGAYLNVQFPGLDPRVAAIGAYAVFMTLNILGVAIAATFELIVTLLAVIELLVFMGVVAPGFSVANFVANGWAGSDTFGPAAIGGIFAAIPFAIWFFLAIEGAAMAAEEAKDPRRTIPRAYIGGILTLVLLALGVMVFAGGVGDWRQLSNINDPLPQAMKAVVGHSSAWLHMLVWIGLFGLIASFHGIILGYSRQFFALARAGFLPHGLAKLSRFRTPHRAILAGGVIGIAAILSDGVVQIQGMSLTAAMITMSVFGAIVMYVMSMASLFKLRRSEPGLERSFRAPGYPLVPGIALVLALVCLAAMIWFNPLVTAIFAGLMLLGIGSCIASLRQGGAASAESATEPA				NA	NA	NA	NA	NA
BMS020_05384	1407	eutB_2	COG4303	Ethanolamine ammonia-lyase heavy chain	ATGAGCGGCTTCACCCACGTCGTCGGCGGCGAGCGCTACCTGTTCGCCGACCTGAAGGCGCTGCTGGCGAAGGCGACGCCAGCGCGCTCGGGCGACGTGCTGGCCGGCATCGCCGCCGACAGTGCGCGACAGCGCGTGGCCGCGCAGATGGCGCTGGCCGACCTGCCGCTGCGGCACTTCCTCGACGAGGCGGTGATTCCCTACGAGGACGACGAAGTCACCCGGCTGATCGTCGACAGCCACGACGCGGACGCCTTCGCGCCCATCGCCCACCTCACCGTCGGCGGCCTGCGCGACTGGCTGCTGGGCCAGGACGCCGACGCAGCGACGCTGGCCGCGCTGGCACCGGGGCTGACTCCGGAGATGGCCGCCGCGGTGTCCAAGCTGATGCGGGTCCAGGACCTGGTACTGGTGGCACAGAAGATCCGCGTGACCACCGCGTTCCGCAATACGCTCGGGCTGCGCGGCCGGCTGAGCACGCGGCTGCAGCCCAACCATCCCACCGACGATCCGGCCGGGATCGCCGCCAGCGTGCTCGACGGGCTGCTGTACGGCAACGGCGACGCGGTGATCGGCATCAACCCGGCCAGCGACTCGCTGCCGGCCACCTGCGAGCTGCTGCGGCTGCTCGACGGGGTCATCGCCGGCTATGCGATCCCGACCCAGGCCTGCGTGCTGGCCCACGTCACCACCACGATCGAGGCGATCGCGCGCGGCGCGCCGGTCGACCTGGTGTTCCAGTCGATCGCCGGCACCCAGGCCGCCAACGCCAGCTTCGGCATCGACCTGGCGCTGCTGCGCGAAGGTTACGAGGCCGGGCTGTCGCTGCGCCGCGGCAGCGTCGGCGACAACGTGATGTATTTCGAGACCGGGCAAGGCAGCGCGCTGTCGGCCGGCGCCCACCACGGGGTGGACCAGCAGACCTGCGAGACCCGCGCCTACGCGGTGGCGCGCCACTTCAAGCCGCTGCTGGTCAACACCGTGGTCGGCTTCATCGGCCCGGAGTACCTGTACGACGGCAAGCAGATCATCCGCGCCGGGCTCGAGGATCATTTCTGCGGCAAGCTGCTCGGCGTGCCGATGGGCTGCGACATCTGCTACACCAACCACGCCGAGGCCGACCAGGACGACATGGACGTGCTGCTGACCCTGCTCGGCACCGCCGGCATCAATTTCATCATGGGCATCCCCGGCAGCGACGACGTGATGCTGAACTACCAGACCACCTCGTTCCACGATGCGCTGTACGCGCGCCAGGTGCTGGGCCTGCGGCCGGCGCCGGAGTTCGAGGCCTGGCTGGAGCAGCACGGCATCCTGCGCCTGCGCGACGGCCGTTTCGAACTTGGCGGCACGCTGCCGCCGGCGTTCCGGCGCGCGCTCGAACGAGGCGACGAGCGCGCGGCATGA	MSGFTHVVGGERYLFADLKALLAKATPARSGDVLAGIAADSARQRVAAQMALADLPLRHFLDEAVIPYEDDEVTRLIVDSHDADAFAPIAHLTVGGLRDWLLGQDADAATLAALAPGLTPEMAAAVSKLMRVQDLVLVAQKIRVTTAFRNTLGLRGRLSTRLQPNHPTDDPAGIAASVLDGLLYGNGDAVIGINPASDSLPATCELLRLLDGVIAGYAIPTQACVLAHVTTTIEAIARGAPVDLVFQSIAGTQAANASFGIDLALLREGYEAGLSLRRGSVGDNVMYFETGQGSALSAGAHHGVDQQTCETRAYAVARHFKPLLVNTVVGFIGPEYLYDGKQIIRAGLEDHFCGKLLGVPMGCDICYTNHAEADQDDMDVLLTLLGTAGINFIMGIPGSDDVMLNYQTTSFHDALYARQVLGLRPAPEFEAWLEQHGILRLRDGRFELGGTLPPAFRRALERGDERAA	PGPT0000605_186	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_GLYCEROPHOSPHOLIPID-ETHANOLAMINE_AMMONIA-LYASE_ACTIVITY,PGPT0000605-eutB-K03735	NA	NA
BMS020_05385	837	eutC_2	COG4302	Ethanolamine ammonia-lyase light chain	ATGAGCGGCAGCCAGCCGGACCCGTGGACCCCGCTGCGCCGACTGACCCCGGCACGGATCGCGCTCGGCCGCGCCGGCACCAGCCTGCCGACCGCAGCCCACCTGGACTTCCAGCTCGCCCATGCGCAGGCGCGCGATGCCGTGCATCAGGCGTTCGATCCCGGGCCACTGCAGCAGGACCTGCGCGCACGCGGCCGCCACGCGCTGCTGCTGCATAGCGCCGCCCCCGATCGCCATGCCTACCTGCAGCGCCCGGACCTGGGGCGGCGGCTGGATGCACCGTCGGTCGACGCGGTGCGCGCGCACGTGGCGCTGCATGGCGGCGGCGCCGACCTGGCGGTGGTGGTCGCCGACGGACTGTCGGCACTGGCGGTGCACCGGCACGCGCCGGTGATGCTGGAACGGATCGAAGCGCTGGCCGCGCGCCATGGCTGGTCGCTGGCGCCGCTGGCGCTGGTCGCGCAGGGCCGGGTCGCACTCGGCGACGAGGTCGGCGAACTGCTGCGCGCACGCGCGGTGGTGGTGCTGCTCGGCGAGCGCCCGGGGCTCAGCTCCCCCGACAGCCTCGGCCTGTACCTGACCTGGGCGCCGCGGATCGGCTGCAACGACGCGCTGCGCAACTGCATCTCCAATATCCGCGGCGAAGGCCTGGGCTATGCCGAGGCCACGCACAAGCTCGATTACCTGCTCGGCGAGGCGTTCCGTCGGCGGCTGTCCGGAGTACAGCTGAAGGACGAAGCCAGCGCACCAGCCGCGGCGCTGGAAGGCCACGCCGCGCGTGCAGGCAATTTCCTGCTGCCGGATCCGGATGTACCGTCGCCGGGTCCGTCGTCGTAG	MSGSQPDPWTPLRRLTPARIALGRAGTSLPTAAHLDFQLAHAQARDAVHQAFDPGPLQQDLRARGRHALLLHSAAPDRHAYLQRPDLGRRLDAPSVDAVRAHVALHGGGADLAVVVADGLSALAVHRHAPVMLERIEALAARHGWSLAPLALVAQGRVALGDEVGELLRARAVVVLLGERPGLSSPDSLGLYLTWAPRIGCNDALRNCISNIRGEGLGYAEATHKLDYLLGEAFRRRLSGVQLKDEASAPAAALEGHAARAGNFLLPDPDVPSPGPSS	PGPT0000610_460	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_GLYCEROPHOSPHOLIPID-ETHANOLAMINE_AMMONIA-LYASE_ACTIVITY,PGPT0000610-eutC-K03736	NA	NA
BMS020_05386	693			hypothetical protein	ATGAGCCACTCCAGCGCCCTCGACAGCTTCCTCGACAAATGGCGCAGCCGCTGGCCGGAATGGGCCGTGGCCGAGCCGTTCGTGCCGGAGCCGCAGCGGCGCACCGTGGTGGCCTGGTTCGCGCTGCTGCAGGAGTTCGAGGACATCATGAACATCGTCGGCGACCCGCTGCCGGCCGATGCCAAGCTGGCCTGGTGGCAGCAGGAACTGCGCGACTGGGACGGACGGCGCTCGCGGCATCCGCTGGGACGGGTGCTGGAGCCGTTGCCGGCGCCGTGGGCCGCATTGGCCGAGGTGCTGCCGCTGGTGCAGGCCGCGCGGACCGCGCCGGCGACGCTGGCGCAGGCGCTGCAGCAGCTGCAGCCGTTCGCCGAAGCGGTCGTGGCGGTGGAGCGGGTGTTGTTCGCCCGCGTGGCCGGGCGCGACGATGCGCGCGCGGTGGCGGTGCAGTGGTTGCAGGCACGCAGCGTGGCCGCCGGTTCCGCGGGGCGGCCGGCCGGGGTCGAAGAGGCGCGCTGGCGCGCCGAGTTGCTGGGGGCCTGGCCGGGCAAACCGGCGCTGGCGCGTCCGCGCCGGGTCTGGTCGCGGTTGGCGCGGCTGCGACTGCAGCGCGAACAGGCCGGCAAGGCGGTGTTCGCGCCGCCGGTGCAGCAGCTGTGGCACAGCTGGCGCGCGGCCAGTGGCGGCGCCTGA	MSHSSALDSFLDKWRSRWPEWAVAEPFVPEPQRRTVVAWFALLQEFEDIMNIVGDPLPADAKLAWWQQELRDWDGRRSRHPLGRVLEPLPAPWAALAEVLPLVQAARTAPATLAQALQQLQPFAEAVVAVERVLFARVAGRDDARAVAVQWLQARSVAAGSAGRPAGVEEARWRAELLGAWPGKPALARPRRVWSRLARLRLQREQAGKAVFAPPVQQLWHSWRAASGGA				NA	NA	NA	NA	NA
BMS020_05387	774	gph_2		Phosphoglycolate phosphatase	GTGAATGCTGGGGACCGGGCGTTCGGCAGCGGCGCCGGGGCCGGCATAGCGCCGAACCTGCCCCGCGCTGAGGGCGCGGTCCCGCCTGGCACCGCGACGCGGTTCCCGCGCGCGGTGTTGTTCGACCTGGATGGCACCCTGCTCGACAGTGCGCCGGACATGCTGGCCACCGCCAACGCGATGCTGGCCGAACGCGGGCGCGCGCCGATCACGCTGGAGGCGTTGCGGCCGGTGGTGTCCAAGGGCTCGCGGGCGATGCTCGGCGTGGCCTTCGCCGAGCTGGCCGCGGAGGCGCGCGATGCGCTGGTGCCGGAATTCCTCGATCGCTACGAGCGCCTGGTCGGCCAGCACGCGCGCCTGTTCGACGGCGTAGCGGCGATGCTCGATGCGCTCGACGCGGCCGGCACGCTCTGGGGCATCGTCACCAACAAGCCCGAATACCTGGCGCGGCTGGTGCTGCCGCAGCAGGACTGGGAGCGGCGCTGCGCGGTGCTGATCGGCGGCGACACCCTTGCCGAACGCAAGCCGCACCCGCTGCCGCTGCTGGTCGCTGCCGAGCGCATCGGCGTGGCTGCGACCGACTGCGTCTACGTCGGCGACGACGAACGCGACATCCTGGCGGCGCGCGCGGCCGGCATGCCGTCGGTGGCGGCGTTGTGGGGCTACCGGCTCGACAGCGACGATCCGCTGGCCTGGCAGGCCGATCGCCTGCTCGAAAGCGCCGCGCCGCTGTGCGTGGCCGAGGCCTGGCCTGCGACGACCGCGCAGGCCTGA	MNAGDRAFGSGAGAGIAPNLPRAEGAVPPGTATRFPRAVLFDLDGTLLDSAPDMLATANAMLAERGRAPITLEALRPVVSKGSRAMLGVAFAELAAEARDALVPEFLDRYERLVGQHARLFDGVAAMLDALDAAGTLWGIVTNKPEYLARLVLPQQDWERRCAVLIGGDTLAERKPHPLPLLVAAERIGVAATDCVYVGDDERDILAARAAGMPSVAALWGYRLDSDDPLAWQADRLLESAAPLCVAEAWPATTAQA	PGPT0019045_233	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_MURAMATE_DEGRADATION,PGPT0019045-mupP-K22292	NA	NA
BMS020_05388	723	ubiG_2	COG2227	Ubiquinone biosynthesis O-methyltransferase	ATGAACGACACCGCGCACTCCGACCACGGGCGCAACTTCAATCAGGCGGAACTGGACAAGTTCGCCGCGCTGGCCAACCGCTGGTGGGACGCCGACGGCCCGCAGAAGCCGTTGCACGCGCTCAACCCGGTGCGGCTGGACTACGTCGGCGCGCGCGTGGCGCTGGCCGGCGCGCGCGTGCTCGACGTCGGCTGCGGCGGCGGCCTGCTCAGCGAGGCGCTGGCCCGCCAGGGCGCGCAGGTCACCGCGATCGACCTGGCCCCCGAGCTGGTCAAGGTCGCGCGCCTGCATGGGCTGGAATCCGGGGTCAAGGTCGACTACCGCGTGCAGGCGGTGGAAGCGCTGGCCGAGGAGCAGCCCGAGAGCTTCGACGCGGTGACCTGCATGGAGATGCTGGAGCACGTGCCGGATCCGACCTCGATCGTGGCCGCCTGCGCGCGCCTGCTCAAGCCCGGCGGCCGCCTGTTCCTGTCGACGATCAACCGCACGCCGGCTGCGTTCGCACTGGCCGTGGTCGGTGCCGAATACGTGGCGCGGCTGCTGCCCAAGGGCACCCACCACTACCAGGAATTCATCAAGCCGGCCGAACTGGCGGGCTGGCTGCGCGCGGTCGACCTGCAGCTGGAGGACGTCAGCGGCATGGCCTACGCGCCGTGGCGCAACAAGGCGCGGCTGTCCTCGCGTACCGAGGTGAACTACCTGGCCTGCGCGGTGAAGCCGTGA	MNDTAHSDHGRNFNQAELDKFAALANRWWDADGPQKPLHALNPVRLDYVGARVALAGARVLDVGCGGGLLSEALARQGAQVTAIDLAPELVKVARLHGLESGVKVDYRVQAVEALAEEQPESFDAVTCMEMLEHVPDPTSIVAACARLLKPGGRLFLSTINRTPAAFALAVVGAEYVARLLPKGTHHYQEFIKPAELAGWLRAVDLQLEDVSGMAYAPWRNKARLSSRTEVNYLACAVKP	PGPT0009545_1306	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009545-ubiG-K00568	NA	NA
BMS020_05389	1341	dadD_1		5'-deoxyadenosine deaminase	GTGACCCAGACCATTCCTGAATCCGTTGATCTGCTGATCGAAGCCGGTTACGTCGTTCCCGTCGAGCCGCATGCGGTGGTGCTGGAAGACCACGCTGTCGCGGTACGCGACGGGGCGATCGTGGCGCTGCTGCCGCGTGCCGAGGCCCGTGCGCGTTTCACCGCCGCCGAGGTGGTCTCGCGCCCCGATGCGGTGCTGATCCCCGGCCTGGTCAACGCCCACACCCACAACCCGATGACGCTGCTGCGTGGCGTCGCCGACGACCTGCCGCTGATGGTGTGGCTGCAGCAGCACATCTGGCCGGTCGAGGCCGCGGTGATCGGGCCGGAGTTCGTCGCCGACGGCACCACGCTGGCGATCGCCGAGATGCTGCGCGGCGGCACCACCTGCGCCAACGAAAACTACTTCTTCCCCGACGTGCAGGCCGCGGTCTACAAGAAGCACGGCTTCCGTGCGCTGGTCGGCCTGCCGGTGATCAATTTCCCGACCGCCTGGGCCAAGAGCGACGACGAGTACTTCGACAAGGCCGGCGAGGTGCACGATGCCTGGCGCGGCGACGCGCTGGTGTCCACCGCATTCGCGCCGCATGCGCCGTACACCGTCAGCGACGCCAACTTCGAGCGCGTGCGCATGCTGGCCGACCAGCTCGACATGCAGGTGCACCTGCACACGCACGAGACCGCGCAGGAGATCGCCGACTCGCTGAAGGAGTACGGGCAGCGCCCGCTGGCGCGGCTGGACCGGCTCGGCCTGGTCAACGACCGCCTGATCGCGGTGCACATGACCCAGCTGACCGAGGCCGAGATCCACCTGTGCGCCGAGCGTGGCGTGCACGTGGCGCACTGCCCGGAATCCAACCTCAAGCTGGCCTCGGGCTTCTGCCCGGCCTGCGCGCTGGTGCGCGCCGGGGTCAACCTGGCGATCGGCACCGACGGCTGCGCCAGCAACAACGACCTGGACATGTTCAGCGAGAACCGCACCGCGGCGATCCTGGCCAAGGCGGTCGCCAACGACGCCACCGCGCTGGACGCGGCGACCACGCTGCGCGCCTCGACGCTCGGTGGTGCGCGTGCGCTGGGCTTCGGCGACAGGATCGGTTCGATCGAGGTCGGCAAGCAGGCCGACCTGGTCTGCGTGGACCTGTCGGCGCTGGAAACCCAGCCGCTGCACCACGTGCTGTCGCAACTGGTCTATGCCGCCGGCCGCCACCAGGTCAGCGACGTGTGGATCGCCGGCAAGCGCAAGCTCGACCAGCGCCGCCTGATCGGCATGGATACCGATGCGCTGGTCGCCAACGCACGGCAGTGGCGCGCACGCATCCGCACGCTGCACCCCGAGTAA	MTQTIPESVDLLIEAGYVVPVEPHAVVLEDHAVAVRDGAIVALLPRAEARARFTAAEVVSRPDAVLIPGLVNAHTHNPMTLLRGVADDLPLMVWLQQHIWPVEAAVIGPEFVADGTTLAIAEMLRGGTTCANENYFFPDVQAAVYKKHGFRALVGLPVINFPTAWAKSDDEYFDKAGEVHDAWRGDALVSTAFAPHAPYTVSDANFERVRMLADQLDMQVHLHTHETAQEIADSLKEYGQRPLARLDRLGLVNDRLIAVHMTQLTEAEIHLCAERGVHVAHCPESNLKLASGFCPACALVRAGVNLAIGTDGCASNNDLDMFSENRTAAILAKAVANDATALDAATTLRASTLGGARALGFGDRIGSIEVGKQADLVCVDLSALETQPLHHVLSQLVYAAGRHQVSDVWIAGKRKLDQRRLIGMDTDALVANARQWRARIRTLHPE	PGPT0023665_1158	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023665-mtaD-K12960	NA	NA
BMS020_05390	648			hypothetical protein	ATGCTCAAGGAAGAAGCGCAGGACCGGGAGTTGAAGGACCGGTTCCCACACGATCGCGTGGTGTTCTTCAGTGATGCGGTGTTCGCGATCGCGATCACCCTGCTGGCGATCGAACTGAGGCTGCCCGGCGCCGAGGCGTCCGGGCATGCCGCCGATGCACACGGGGTGACCGCGATGTTCGTGGCCTACTTCATCAGCTTCGCGGTGATCGGGCTGTTCTGGAGCGGCCACATGCAGACCTGGCGCCACGTGCGCCACGTCAACGGCAAGCTTGTGTGGACCACGCTGCTGCAGCTGATGTTCGTCGCGCTGATGCCGTTCGCCACCCGCGAGTATTCGGTGTACTTCTCCGGCGCCAGTCCCGGGCGCTTCGCGTTCTACGCGTTCGTGCTGGCGATGATCTCGCTGTTCGCGTTGGTCACCCGCCGGATCGTGGTGCGCCAGGAGGACCTGTACGCGCGGATCGGCGTGCAGGCCACGCGCTGGCTGCTGTGGCGCGCGGCGGTCCCGCTGCTGGTGTTCGCGCTGTGCATCCCGATGGCCTTCGTGATCCCCGTGTGGTGCGGCAGTGTCCTGTTCATGCTGATCTTCCCGTGCCTGGCGTTGGCCAAGCGCTGGATCCAGCGCCATCCAACCCAAGCGGACTGA	MLKEEAQDRELKDRFPHDRVVFFSDAVFAIAITLLAIELRLPGAEASGHAADAHGVTAMFVAYFISFAVIGLFWSGHMQTWRHVRHVNGKLVWTTLLQLMFVALMPFATREYSVYFSGASPGRFAFYAFVLAMISLFALVTRRIVVRQEDLYARIGVQATRWLLWRAAVPLLVFALCIPMAFVIPVWCGSVLFMLIFPCLALAKRWIQRHPTQAD				NA	NA	NA	NA	NA
BMS020_05391	567	efp_2	COG0231	Elongation factor P	ATGGCCACTGTTGGCATGAACGATGTCAAGAACGGGATGAAGATCCTGGTCAACAACGAACCGGCGGTCATCACCGAGACCGAGTACGTCAAGCCGGGCAAGGGCCAGGCCTTCACCCGCGTCAAGTACCGCTTCATCAAGTCCGGCCGCGTAGTGGAAATGACCATGAAGGCGACCGATGACGCGGAACTGGCCGACGTCGTCGATACCGACATGAACTACATGTACAGCGACGGCGAGTACTGGCACTTCATGGACCCGGAGACCTTCGAGCAGGTCCAGGCCGACAAGGCCGGCATGGGCGGTGCCGAGAAGTGGCTCAAGGGCGAGGAAGCCTGCATCGTGACGCTGTGGAACGGCGCGCCGATCTGGGTGCAGCCGCCGAACTTCGTCGAGCTGAAGATCACCGAGACCGACCCGGGCGTGCGCGGCGATACCTCCGGCGGCGGCGGCAAGCCAGCCACGCTGGAAACCGGCGCGGTGGTGCGCGTGCCGCTGTTCGTCAACCAGGACGAAGTGATCAAGGTCGATACCCGTTCGGGCGAATACTCGGCCCGGGTGAAGTAA	MATVGMNDVKNGMKILVNNEPAVITETEYVKPGKGQAFTRVKYRFIKSGRVVEMTMKATDDAELADVVDTDMNYMYSDGEYWHFMDPETFEQVQADKAGMGGAEKWLKGEEACIVTLWNGAPIWVQPPNFVELKITETDPGVRGDTSGGGGKPATLETGAVVRVPLFVNQDEVIKVDTRSGEYSARVK	PGPT0016205_1993	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016205-efp-K02356	NA	NA
BMS020_05392	1026	epmB_2	COG1509	L-lysine 2,3-aminomutase	ATGATACCTGCAGCCCCCCTCTCCTTGCAGCCAGCCCCCGCCTCCTCCGCTCCGGTCCGCTGGCAGCAGCTGTGGCGCGACGCGGTGCGCGACCCGCGCGCGCTGCTGGCGATGCTGGGCCTGGAGCAGCAGGCCGGGCGGCTGTCCGACGCCGCCGCGGCGCAGTTCGCGCTGCGTGTGCCGCATGGCTTCGTCGCCCGCATGCGCCACGGCGACATCCACGACCCGCTGCTGCGCCAGGTGCTGCCGGTCACCGAGGAAATGGCGCTGGTGCCGGGCTTCGGCCTGGACGCGGTCGGCGACGGCGCGGCGAAAACCGCTACCGGGGTGATCCAGAAGTACCGCGGCCGCGCCCTGCTTGTGGCCACCGGCAGCTGCGCGGTGCATTGCCGCTACTGCTTCCGCCGCCATTTCCCCTACGCCGAGGAGACCGCCGCGCGCGACGGCTGGCGCGAGGCGGTGGCGGCGATCGCCGCCGATCCCAGCATCGACGAGGTGCTGCTGTCCGGCGGCGACCCGCTGTCGCTGGCCACGCCCAAGCTGGTCGAGCTGACCGACGCGCTGCGCGCGGTCCCGCACCTCAAGCGCCTGCGCATCCACAGCCGACTGCCGGTGGTGCTGCCGGAGCGGGTCGACGCCCCGCTGCTGGCCTGGCTGCGCGCGCTGCCGTGGCCGGTCGCCTTCGTCATCCACGCCAACCATGCCAACGAATTCGACCCCGCGGTCGATGCGGCGATGGCCGCGCTGCGCACGGCCGGCGCGCAGCTGTTGAACCAGGCGGTGCTGCTGCGCGGGGTCAACGACTCCGTCGAGGCACTGGCCGCGCTGAGCGAGCGCAGCTTCGCCGCCGGCGTGCTGCCCTATTACCTGCACCAGCTCGACCGCGTGGCCGGCGTCGCCCACTTCGAGGTCGACGACGCTCGCGCCCGCGCCCTGCACGCCGAGCTGGCCACGCGCCTGTCCGGCTACCTGGTGCCGAAGCTGGTCCGCGAGATCCCCGGCGACACCGGCAAGCGCCCGCTGTAG	MIPAAPLSLQPAPASSAPVRWQQLWRDAVRDPRALLAMLGLEQQAGRLSDAAAAQFALRVPHGFVARMRHGDIHDPLLRQVLPVTEEMALVPGFGLDAVGDGAAKTATGVIQKYRGRALLVATGSCAVHCRYCFRRHFPYAEETAARDGWREAVAAIAADPSIDEVLLSGGDPLSLATPKLVELTDALRAVPHLKRLRIHSRLPVVLPERVDAPLLAWLRALPWPVAFVIHANHANEFDPAVDAAMAALRTAGAQLLNQAVLLRGVNDSVEALAALSERSFAAGVLPYYLHQLDRVAGVAHFEVDDARARALHAELATRLSGYLVPKLVREIPGDTGKRPL	PGPT0020325_334	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LYSINE_DEGRADATION,PGPT0020325-empB|yjeK-K19810	NA	NA
BMS020_05393	2121			hypothetical protein	ATGAGTCGCTGGCGTTCCGGCCTGCAGGCCAGGTTCCTGCTGGTGATGGGGCTGGCGTTCGCGCTGGTGCTGGCGATCGTGCTGCTGCTGTTGCAGCGGCAGGCGGCGATGCAGCACGAGGTGCGCACGCTCAGCGGCGACATCATCCACGCGCTGTTCGAGCGCACCCTGCGCTCGCGCGGCGAGGCGCTGGCCACCGAGCTCGCCGGTGCGCTGGTCAACCCGCTGTACTACTCCGACCTGGACCAGGTCGGCGCGCTGGTGCGCAATACCTCGCGGCAGCAGGTCGTGGCCTATGTGCTGGTGTACGACGCCCAGGGCCGGCTGATCCACGACGGCTCGGTCGACATCCCCGATTACGGGCGACCGATGCAGGATCCGCTCGCCGCCAAGGCGGTGGCGGCCAAGGCCCTGGAGGTGCAGGCCTCGGCCAACGTGCTCGACGTGGCGATGCCGATCATGATCGGGCGCGAACGCCTGGGCGGGGTACGCGTGGGCATGTCCAACGCGCAGGCGCGGCAGCGCGAGGCGCAGGCCAATACCCTGCTGCTCGGTCGGCTCGACGAGGCCGGCCGGCGCGGACTGGGTTGGATGCTGGCGCTGCTGGCGCTGTTGCTCGGCGTCGGCTTGGCGTTGGCGTGGTTCGTGCAGCGCACGCTGGTCGCGCCGATCCGCTGGCTGGCGCAGGCGGCCAAGCAGATCGAGGAAGGCGACTACGCGGTGCGGCCGCCGCCGGGGCGGCGCCACGACGAGTTGGGCGAGCTGATGGACGCGTTCGGCCGGATGAGCGAGAGCATCGCCCGTCACGACCGCGAGGTCCGGCACATGGCCTACACCGACGCGTTGACCGGGCTGACCAACCGCCTGGCGTTCCGCGAGGGCCTGGACCACCGGCTGATGGCGGCGCGCAGTTCCGGCCAGCAGCTGGCGCTGCTGTTCGCCGACATCGACGACTTCAAGCGGGTCAACGACACCCTCGGGCACGAGGCTGGCGACGAGGTGCTGCTGCAGTTCGCCGCGCGGATCGGCGTGGCGGTGGCCGAGCAGGGTGGGGACGATGCGCTGCTGGCGCGCTTCGGCGGCGACGAGTTCGTGATCCTGCTGCAGGCCGCCGATGCACGGGGTGCCGCCGCGCGGCTGGCCGACCGGCTGGTGCAGGACCTGCGCCGGCCGTTGGCGGTGCCGGGGCGCGAGGTGTTCCTGGGCACCTCGATCGGCATCACGCTGTTCCCAGATGATGCCAACGACGCGACCACGCTGCTGAAGAACGGCGACATCGCGATGTACCAGGCCAAGGTCGCCGGCAAGAACTGCCATCGCTTCTACAGCCGCGCGATGGACCACGCGGTGGAGCGGCGCGTGCACATGGAGCACGAGCTGCGCGGGGCCTGGGAGCGCGGCGAGCTGCGGCTGGTCTACCAGCCGATCCACCGCACCAGCGACCGGCGCCTGGTCGGCGTCGAGGTGCTGCTGCGCTGGCAGCATCCCAGCCTGGGCGCGATTCCGCCGTCGACCTTCATCGACGTGGCCGAGCAGAGCGGGCTGATCGAGGTGATCGGGCCCAAGGTGCTGCGCGCGGCCTGCCTGGAGGCGGTGCAGTGGCCGCTGGCCGACGACGGGCAGGGCCTGTTCATCTCGGTCAACGTATCGCCGCGGCAGCTGCGCAGCGGCGACCTGGCCGATTCGGTGGCGCGCTGCCTGGCCGAATCCGGGTTGCCAGCCGCGCGGCTGCACCTGGAGCTGACCGAGACCGCGGTGATCGGCGACGAGATGCTGGCCGCCAGCCTGCTCGACAAGCTGCATCGTACCGGCGTGAAGGTCTGGCTGGACGACTTTGGCACCGGCTTCTCCGGACTCAGTCACCTGCGCCAGGTGCCGGTGGACGGGGTCAAGATCGACAAGAGCTTCGTCGCCGACCTGCAGCGCGATCCGGACGACCTGGCCCTGACCACCGCGATCATCGCGATGGCGCATTCGCTGGGGATCACCGTGGTCGCCGAGGGCATCGAGCAGGAGGCCCAGTTCAACCTGCTGCGCGAGCGCGGCTGCGACCTTGGCCAGGGCTACTGGTTCAATCGCCCGCTGAGCAGCACCGACCTGGTGCGGTTGCTGGAGGGCTGA	MSRWRSGLQARFLLVMGLAFALVLAIVLLLLQRQAAMQHEVRTLSGDIIHALFERTLRSRGEALATELAGALVNPLYYSDLDQVGALVRNTSRQQVVAYVLVYDAQGRLIHDGSVDIPDYGRPMQDPLAAKAVAAKALEVQASANVLDVAMPIMIGRERLGGVRVGMSNAQARQREAQANTLLLGRLDEAGRRGLGWMLALLALLLGVGLALAWFVQRTLVAPIRWLAQAAKQIEEGDYAVRPPPGRRHDELGELMDAFGRMSESIARHDREVRHMAYTDALTGLTNRLAFREGLDHRLMAARSSGQQLALLFADIDDFKRVNDTLGHEAGDEVLLQFAARIGVAVAEQGGDDALLARFGGDEFVILLQAADARGAAARLADRLVQDLRRPLAVPGREVFLGTSIGITLFPDDANDATTLLKNGDIAMYQAKVAGKNCHRFYSRAMDHAVERRVHMEHELRGAWERGELRLVYQPIHRTSDRRLVGVEVLLRWQHPSLGAIPPSTFIDVAEQSGLIEVIGPKVLRAACLEAVQWPLADDGQGLFISVNVSPRQLRSGDLADSVARCLAESGLPAARLHLELTETAVIGDEMLAASLLDKLHRTGVKVWLDDFGTGFSGLSHLRQVPVDGVKIDKSFVADLQRDPDDLALTTAIIAMAHSLGITVVAEGIEQEAQFNLLRERGCDLGQGYWFNRPLSSTDLVRLLEG				NA	NA	NA	NA	NA
BMS020_05394	834			hypothetical protein	GTGCTGGTGCTGGGCCGCATCAGTGACGATCCAAAGGCCCACTACGATCAGCTGAAGCCGCTGCTGGACTACGTCGTGCCGCGGATGCGCGATGTCGGCATCCGCGAGGGGCGAATCCTGATGGCGCGCGACGCGCAGCAGATGGCGAGCTACCTGCGCCGCGGCCGCGTGGACTGGGTGACCGAAACCGCCGGGACCGCGATGGTGCTGCAGCAGCGCAGTGGCGCGCGGCCATTGCTGCTGACCGAGCGCGGCGGCGTGCGCGAGTACCACGGCGTGGTGTTCGTGCGCCGCGACAGCCCGGTGCAGCGGCTGGACGAACTGCGCGGCCACGCCATCGCCCTGCAGAGTACGTATTCGACCAGCGCCTACCTGCTGCCGATGCTGGCGCTGCTGCAGGCCGGTCTGCGCCCGGAAATCCTCAGTTCGCCCAGTGACGAGCCGGCGCCGGATTCGGTCGGTTACGTGTTCGCGCGTTCGGAAAGCAACATCGCCGCGCTGGTGCACAAGCGGGTGGTGGACGCGGGCGCGTTCAGCAATCTCGATCTGGACGACCGGCAACGCGTGCCGGAATCGTTCCGGCGCGATTTCCGCGTGATCCACGCCACCGCGGCGGTGCCGCGCGCATTGGAAATGGTGAGGCCAGGGATGGACCCGAACGTGGAGCGCAGGTTGCGCGAGGTGTTGCTGGAGGCCGCGAACGATCCGAACGCGGCGCCGGCGTTGCGGGCCTTTTTCGGCGCCTCCGGCTTCCGGGTGGTCGATCCGCTGACCCGGCAGCGCCTGGATGCGCTGCGCAGCGGCCTGCATCGGGTCCGGCTGGAGGTCGAATGA	MLVLGRISDDPKAHYDQLKPLLDYVVPRMRDVGIREGRILMARDAQQMASYLRRGRVDWVTETAGTAMVLQQRSGARPLLLTERGGVREYHGVVFVRRDSPVQRLDELRGHAIALQSTYSTSAYLLPMLALLQAGLRPEILSSPSDEPAPDSVGYVFARSESNIAALVHKRVVDAGAFSNLDLDDRQRVPESFRRDFRVIHATAAVPRALEMVRPGMDPNVERRLREVLLEAANDPNAAPALRAFFGASGFRVVDPLTRQRLDALRSGLHRVRLEVE	PGPT0002525_1688	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002525-phnD-K02044	NA	NA
BMS020_05395	774	trmJ_2		tRNA (cytidine/uridine/adenosine-2'-O-)-methyltransferase TrmJ	ATGACGTTCATGACCGCTTCCGCCCGTATCCGTTTCGTTCTTGTCGGCACCCAGCACCCGGGCAACATCGGGGCCGCGGCGCGGGCGATGAAGACGATGGGCCTGGCGCGGCTGGTACTGGTGGCGCCGGAAAAGGCCCCGGACGACGAGGCCTTCCGGCGCTCGGCCGGGGCCGAGGACGTGATCGGCGATGCCCCGGTGTTCGCCACCCTGGCCGAGGCGGTGGCCGATTGCACCCTGGTGCTGGGGTGCACCGCGCGTTCGCGCCGGGTGCAGCTGGAAGAGCTGCTGCCGGGCGATGGCGGCCGTCGCGCGGTGGCCCGTGCCGGCGAGGGCGCCGAAGTGGCGTTCGTGTTCGGGCGCGAGCGCACCGGGCTGACCAACGAGGAACTGCAGCTGTGCCAGCTGGCGGTGCACATCCCCTCGGATCCGGCGTTCAGTTCGCTCAACCTGGCCGCGGCGGTGCAGGTGCTGGCCTATGAAGTGCGGTTGGCGACGCTGGCCGCGGCCGAGGCCGGCGGGGGCGACGGCGGCGAGCCGGGGTTCCGCGAGGGGGCGGCCAGCCATGCACAGGTCGAAGGCTTCTTCGGCCAGCTCGGCGAGACCCTGGACCAGATCGACTTCCACAAGGGCCGCTCGCCTGATTCGGCGATGCGCAAGCTGCGCCGGTTGTTCGCCAAGGCCGAACTGACCGAGCAGGAAGTGCGGCTGCTGCGCGGCGTGCTGTCCGACGCGCAGCGCATGGCGATGCTGGCGCGCGCCGCCGGCGAGTGA	MTFMTASARIRFVLVGTQHPGNIGAAARAMKTMGLARLVLVAPEKAPDDEAFRRSAGAEDVIGDAPVFATLAEAVADCTLVLGCTARSRRVQLEELLPGDGGRRAVARAGEGAEVAFVFGRERTGLTNEELQLCQLAVHIPSDPAFSSLNLAAAVQVLAYEVRLATLAAAEAGGGDGGEPGFREGAASHAQVEGFFGQLGETLDQIDFHKGRSPDSAMRKLRRLFAKAELTEQEVRLLRGVLSDAQRMAMLARAAGE				NA	NA	NA	NA	NA
BMS020_05396	834	suhB_3	COG0483	Inositol-1-monophosphatase	ATGCAGAAACCCGCCGTCACCGTCATGGTCAAAGCCGCCCGCCTCGCCGGCAACGTGCTGTTGCGCAACATCAACAAGCTCGAGGCGCTGAACGTGGTGCAGAAGGGGCGCATGGATTATGCCAGCGAGGTGGACGCCGACGCCGAGAAGGTGATCGTCAAGGAGCTCAAGCGCGCCTACCCGGACTACGCGGTGTTCGGCGAGGAAGGTGGTGTGCAGGGCGGCAGGGGCGGCCGCTATACCTGGGTGATCGACCCGCTCGACGGCACCAGCAACTACCTGCACGGCTTCGGCCACTACTGCGTGTCGATCGCGCTGGTCGAGAACGGCGAGCCGATCGACGCGGTGATCTTCGACCCGCTGCGCAACGAGCTGTTCACGGCCAGCAAGGGCCACGGTGCCGTGCTGAACGACCGCCGCATCCGCGTTGCCGAGCGCAAGGACCTGGAAGGCGCGATGATCCACACCGGCTTCGCCCCGCGCGAGCGCGGCCGCGCCAGCGCCCAGCTCAAGTGCGTGGACGCGCTGCTGGTCCAGGCCGAGGACATCCGCCGCACCGGTTCGGCCGCACTGGACCTGGCCTACGTGGCCTGCGGTCGTGCCGATGCGTACTTCGAGGCCGGCGTGAAGGCGTGGGACATCGCTGCCGGCGTGCTGCTGGTGCGCGAGGCCGGCGGCCGCGTCTGCGACTACAAGGGCGCCACCCCGCCGCGCATGGACAACATGGGTCCGGAGACCCAGCAGATCGTCGCCGGCAACATCAAGATCAGCGATGCGCTGCAGAAGGTCATCGTCAACAGCGGCTACGCGCGCGAGTTCGACGCGAAGTTCTGA	MQKPAVTVMVKAARLAGNVLLRNINKLEALNVVQKGRMDYASEVDADAEKVIVKELKRAYPDYAVFGEEGGVQGGRGGRYTWVIDPLDGTSNYLHGFGHYCVSIALVENGEPIDAVIFDPLRNELFTASKGHGAVLNDRRIRVAERKDLEGAMIHTGFAPRERGRASAQLKCVDALLVQAEDIRRTGSAALDLAYVACGRADAYFEAGVKAWDIAAGVLLVREAGGRVCDYKGATPPRMDNMGPETQQIVAGNIKISDALQKVIVNSGYAREFDAKF	PGPT0018535_2033	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
BMS020_05397	1149	bcd	COG1960	Acyl-CoA dehydrogenase, short-chain specific	GTGGATTTCAGCTTCACCGAAGAGCAATTGATGATCCAGGACGTGGCGCGCCGGATCGCCCAGGAAAAGATCGCCCCGAGCGCCGAGCATTTCGACCGCAGCGGCGAGTTCCCGCTGGAGAACATCCAGCTGCTGGGCGAGAACGGGCTGATGGGCATCGAGGTGCCGGCCGAGTACGGCGGCGCCGGCATGGACCCGATCAGCTACGTGCTGGCGATGGTGGAGATCGCTGCTGGTGATGCGGCGCATTCGACCATCATGTCGGTCAACAACTCGCTGTTCTGCACCGGCATCCTCAAGAACGGCAGCGAGGCGCAGAAGCAGACCTACGTGCGCGCGATCGCCGAGGGCACGCACATCGGCGCATTCGCGCTGACCGAGCCGCAGTCCGGCTCGGACGCGTCGGCGATGCGCTGCCGGGCGGTCAAGCAGGCCGATGGCACTTACCTGATCAATGGCAAGAAGAGCTGGATCACCTCCGGCCCGGTCGCCAAGTACATCGTGCTGTTCGCGATGACCGAGCCGGACAAGGGTTCGCGCGGCATCACCGCGTTCATGATCGACACCGACCGGCCCGGGTTCCACCGTGGCAAGACCGAGCCCAAGCTCGGCATCCGCGCCTCGGCGACCTGCGAGATCGAGTTCGCCGATTACGTGGCGCAGCCGGAGGACGTGGTCGGCGGCGAGGGGCAGGGCTTCAAGACCGCGATGGGCGTGCTCGACGCCGGCCGCATCGGCATCGCCTCGCAGGCGGTGGGCATCGCCCGCGCCGCCTACGAGAAGACGCTGGAGTACGTGCGCGAGCGCAAGGCGTTCGGCGCGGCGATCGGCACCTTCCAGATGACCCAGGCCAAGATCGCCGACATGAAGTGCCGGCTCGACGGGGCGCTGCTGCTGACGCTGCGCGCGGCGTGGCTGAAGGGGCAGGGCAAGCCGTTCGGCACCGAGGCGGCGGTGGCCAAGTTGACCGCGTCGGAGGCGGCGATGTGGATCACCCACCAGGCGGTGCAGATCCACGGCGGCATGGGCTACTCCAAGGAGATGCCGCTGGAGCGTTACTTCCGCGATGCGAAGATCACCGAGATCTACGAGGGCACCTCGGAAATCCAGCGGTTGGTGATCGCCCGCGCCGAGACCGGGCTGCGCTGA	MDFSFTEEQLMIQDVARRIAQEKIAPSAEHFDRSGEFPLENIQLLGENGLMGIEVPAEYGGAGMDPISYVLAMVEIAAGDAAHSTIMSVNNSLFCTGILKNGSEAQKQTYVRAIAEGTHIGAFALTEPQSGSDASAMRCRAVKQADGTYLINGKKSWITSGPVAKYIVLFAMTEPDKGSRGITAFMIDTDRPGFHRGKTEPKLGIRASATCEIEFADYVAQPEDVVGGEGQGFKTAMGVLDAGRIGIASQAVGIARAAYEKTLEYVRERKAFGAAIGTFQMTQAKIADMKCRLDGALLLTLRAAWLKGQGKPFGTEAAVAKLTASEAAMWITHQAVQIHGGMGYSKEMPLERYFRDAKITEIYEGTSEIQRLVIARAETGLR	PGPT0002285_319	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
BMS020_05398	930	COQ5		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGGACCTGGAAGACTGGTCGACCCGCCTGAAGGTCTTCGCCGACGCCACCCGCGTGCGCCTGCTCGCCCTGCTCGAGCAGGAAGAGCTGACCGTGGCCGAGCTGTCGGCGATCACCCGGCTGGCGCAGCCGCGGGTGTCCACCCACCTGGCCAAGCTGAAGGAGGCCGGCCTGGTCCGCGACCGCCGCGCCGGTGTGTCAGCGTACTACCGCTTCGACGAAACCCAGCTCGACCCGGCCCAGCGCGCCCTGTGGCACGCGCTGAGCACCGGCAGCGACGACCCGTTGCTGCGCCAGGACGCCGAACGGGTCGCCGCGGTGCTGGCCAACCGCGCCGCCGACCAGAACTGGGCCGACTCGGTCGCCGGCGACATGGAGCGCCACTACTCGCCCGGCCGCACCTGGGAAGCGCTGGCGCGCACCGCGCTGCCGCTGCTGGAAACCGGCGACGTGCTCGACATCGCCTCCGGCGACGGCGTGCTGGCCGAACTGGTCGCGCCGCATTCCAATCGCTACATCTGCATCGACACCAGCGCCCGCGTGGTCGCCGCGGCCAGCGAGCGGCTGCGCAAGCTGAAAAACGTCGAGGTGCGCGAAGGCGACATGCACGCGCTGCCGTTCGCCGATGCCAGCTTCGACCTGGTGGTGCTGATGCATGCGCTGACCTACGCCGCCAAGCCGGCGCAGGCGGTGGCCGAGGCGGCGCGCGTGCTGCGCCCGGAAGGCCGGCTGCTGCTGTGCTCGCTGGCCAAGCACGAGCACCGCGCCGCGGTCGAGGCCTACGGCCACGTCAATCTCGGCTTCAGCGAGAAGGAGCTGCGCAAGTTCGTCGACAAGGCCGGACTGGAAGTGTCCAGCCTGGAAACCGTCACCCGCGAAAAGCGCCCGCCGCATTTCGAGGTGATCTCGCTGATCGCCCGCAAGCCCTGA	MDLEDWSTRLKVFADATRVRLLALLEQEELTVAELSAITRLAQPRVSTHLAKLKEAGLVRDRRAGVSAYYRFDETQLDPAQRALWHALSTGSDDPLLRQDAERVAAVLANRAADQNWADSVAGDMERHYSPGRTWEALARTALPLLETGDVLDIASGDGVLAELVAPHSNRYICIDTSARVVAAASERLRKLKNVEVREGDMHALPFADASFDLVVLMHALTYAAKPAQAVAEAARVLRPEGRLLLCSLAKHEHRAAVEAYGHVNLGFSEKELRKFVDKAGLEVSSLETVTREKRPPHFEVISLIARKP				NA	NA	NA	NA	NA
BMS020_05399	1101	metH_2	COG0646	Methionine synthase	ATGAACACCCTGCCCTGGCTCAAGCCCGAACGCGCCACCAAGCTGATCGCGGCGCTGCGCGAACGCATCCTGATCATCGATGGCGCGATGGGCACGATGATCCAGCGCCACCGGTTGGAAGAGGCCGACTACCGCGGCGAACGGTTTGCCGACGGGTTCGACCGCGAGCACGCCGAGGACGGGCACGTGCACGGTCCGGGCTGCGACCATGGCCACGACCTGAAGGGCAACAACGACCTGTTGCTGCTGACCCGGCCGGAGGTCATCGCCGGCATCCACCGCGCCTATCTCGATGCCGGTGCCGACCTGCTCGAGACCAACACCTTCAACGCGACCTCGGTCAGCCAGGCCGACTACCACCTCGAACACCTGGTCTACGAACTCAACAAGGCCGGCGCGCGGGTCGCGCGCGAGGTCTGCGACGCGGTCGAAGCGCTCACCCCGGACAAGCCGCGCTTCGTCATCGGCGTGCTTGGCCCGACCAGCCGCACCGCCTCGATCAGCCCGGACGTCAACGATCCCGGCTTCCGCAACACCAGCTTCGACGAACTGCGCGCGACCTACCGCGAGGCGATCGAGGGGCTGATCGACGGCGGCGCCGACACCCTGATGGTCGAGACCATCTTCGACACGCTCAACGCCAAGGCCGCGCTGTTCGCGATCGAGGAAGTGTTTGATGTCCGTGGCGGACGCCTGCCGATCATGATTTCCGGCACGATCACCGATGCCTCCGGCCGCACCCTGTCCGGGCAGACCGCCGAAGCGTTCTATGCCTCGGTCGCGCACAGCCGGCCGCTGTCGGTCGGCTTGAACTGCGCGCTCGGCGCCAGGGACCTGCGCCCGCACGTGGAGACCCTGTCGATCGTCGCCGACAGCCATGTCAGCGCGCACCCCAACGCCGGCCTGCCCAACGCGTTCGGCGAATACGACGAGACGCCCGAGGAGATGGCGGCGACGTTGAAGGAATTCGCCCAGTCCGGCCTGCTCAACATGGTCGGTGGCTGCTGCGGCACCTCGCCGGACCACATCCGCGCGATCGCCCAGGCGGTGGCCGGCATCGCCCCGCGCGCCCTGCCGGACGCACTGGAGCGCGCGGCATGA	MNTLPWLKPERATKLIAALRERILIIDGAMGTMIQRHRLEEADYRGERFADGFDREHAEDGHVHGPGCDHGHDLKGNNDLLLLTRPEVIAGIHRAYLDAGADLLETNTFNATSVSQADYHLEHLVYELNKAGARVAREVCDAVEALTPDKPRFVIGVLGPTSRTASISPDVNDPGFRNTSFDELRATYREAIEGLIDGGADTLMVETIFDTLNAKAALFAIEEVFDVRGGRLPIMISGTITDASGRTLSGQTAEAFYASVAHSRPLSVGLNCALGARDLRPHVETLSIVADSHVSAHPNAGLPNAFGEYDETPEEMAATLKEFAQSGLLNMVGGCCGTSPDHIRAIAQAVAGIAPRALPDALERAA	PGPT0008135_3706	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008135-metH-K00548	NA	NA
BMS020_05400	2688	metH_3	COG0646	Methionine synthase	ATGAGCACGTCGCCCCGCTACACCCGCCTGTCCGGCCTGGAACCGCTGGTCATCACCCCGGACCTGCTGTTCGTCAACGTCGGCGAGCGCACCAACGTCACCGGCAGCGCGCAGTTCCGCAAGCTGGTCAAGGAAGAACGCTACGAGGAAGCGGTCGACGTCGCCCGCCAGCAGGTCGCCAGCGGCGCGCAGATCCTCGACGTCAACATGGACGAGGGCCTGATCGATTCCGAGAAGGCGATGACCCGCTTCCTCAACCTGATCATGTCCGAGCCGGATATCGCCCGCATCCCGGTGATGGTCGACTCCTCCAAGTGGAGCGTGATCGAAGCCGGCCTGAAATGCCTGCAGGGCAAGAGCGTGGTCAACTCGATCTCGCTGAAGGAAGGCGAGGAACTGTTCATCGAGCACGCGCGCAAGGTGCTGCGCTATGGCGCCGCCGCGGTGGTGATGGCCTTCGACGAGGTCGGCCAGGCCGATACCTGCGCACGCAAGGTCGAGATCTGCACCCGCGCCTACAGGATCCTCACCGAGCAGGTCGGCTTCCCGCCCGAGGACATCATCTTCGACCCGAACATCTTCGCGGTCGCCACCGGCATCGAGGAGCATGACAACTACGCGGTCGACTTCATCGAGGCCACCCGCATCATCAAGCAGACGCTGCCGCACTGCCACGTGTCCGGCGGCGTCTCCAACGTGTCGTTCTCGTTCCGCGGCAACGAGACGGTGCGCGCGGCGATCCACTCGGTGTTCCTGTACCACGCGATCAAGGCCGGCATGGACATGGGCATCGTCAATGCCGGTGCGATGCCGATCTACGACGAGCTGGAACCGGAGCTGCGCGAGCGCGTCGAGGACGTGATCCTCAACCGCCGCAAGGACGGCACCGAGCGCCTGCTGGAGATCGCCGAGCGCTACAAGGGCAAGAAGGGCGAGAAGAAGACCGAAGACCTCGCCTGGCGCGGCAAGCCGGTGCGCGAACGCCTGGCGCATGCGCTGGTGCACGGCATCGACGCCTTCGTCGAAGAGGACACCGAGGAAGCGCGCCAGCAGGCCTCGCGGCCGCTGGACGTGATCGAAGGCCCGCTGATGGACGGCATGAACGTGGTCGGCGACCTGTTCGGCGCCGGCAAGATGTTCCTGCCGCAGGTGGTGAAGTCCGCCCGCGTGATGAAGAAGGCGGTGGCCTACCTGCTGCCCTTCATCGAGGAGGAGAAGCTGCGCACCGGCGATGTCGGCAAGTCCAACGGCAAGATCATCATGGCCACGGTCAAGGGCGACGTGCACGACATCGGCAAGAACATCGTCGGCGTGGTGCTGGCCTGCAACAACTTCGAGGTGGTCGACCTCGGCGTGATGGTGCCGGCGCAGACCATCCTCGACCGCGCACGCGCCGAGAATGCCGACATCATCGGCCTGTCCGGGCTGATCACGCCGTCGCTCGAGGAGATGACCCACGTCGCGCGCGAGATGCAGCGCCAGGGCTTCGAGATGCCGCTGATGATCGGCGGTGCCACCACCTCGCGCGCGCACACCGCATTGAAGATCGACCCGCACTACAGCGCGCCGACGGTGTGGGTGAAGGACGCCTCGCGCGCGGTCGGCGTGGCGCAGTCGCTGATCTCGCGCGACCTGCGCGCGGCCTTCGTCGCCGCCAACGACGCCGACTACGCCGAGATCCGCCAACGCCACAAGAACCGCGGCGATGCCAAGCGCCTGGTGTCGCTGGGCCACGCGCGCGGGCAGAAGTTCGATGGTCGCTGGGATGCGTACATCCCCCCGGCACCGAAGCAGCCCGGCCTGCACGTGCTCGACGATTACCCATTGAACGAACTGGCCGAGGCGATCGACTGGACGCCGTTCTTCCAGGCCTGGGAACTGGCAGGCAAGTTCCCGGCGATCCTGACCGACGAGATCGTCGGCACCCAGGCCAGCGAGCTGTACGCCGATGCGCGCGCGATGCTGACGCGGATCGTCGAGGAGCAGTGGCTGACCGCGAAGGGCGTGCTCGGGCTGTGGCCGGCCAACAGCGTCGGCGACGACGTGGTGCTGCAGCACGCCGATGGCGAAACCACGCTGCATTTCCTGCGTCAGCAGGTCGACAAGCCGGTCGAGCGCCCGGACTTCTGCCTGGCCGACTTCATCGCGCCGCGCGACAGCGGGCGCCAGGACTGGATCGGCGCGTTCGCGGTCACCGCCGGCATCGGCATCGAGCCGCACGTGGCGCGCTTCGAGGCCGCGCACGACGACTACAACGCGATCCTGCTCAAGGCGCTGGCCGACCGCCTGGCCGAAGCCTTCGCCGAGCGCCTGCACCAGCGCGTACGCACCGAGTTCTGGGGCTATGTCGCCGACGAGACGCTCGACAACGAAGCGCTGATCGCCGAGAAATACCGCGGCATCCGCCCCGCTCCGGGCTATCCGGCGTGTCCCGAGCACAGCGAGAAGGACACGCTGTTCCGCCTGCTCGACGCTCCCGGCAACGCAGGCATGACGCTGACCGAAAGCTTCGCGATGCTGCCCACCGCGGCGGTGTCGGGCTACTACTTCAGCCATCCGGACAGCCAGTACTTCGTGGTCGGCCGCGTATCCAAGGAACAGGCGGCCGACTACGCGCGCCGCAAGGGCGTGGAGCTGGCGCAGGTGGAGCGGTGGCTGGCATCCAACCTGGACTACGACCCCGAATAG	MSTSPRYTRLSGLEPLVITPDLLFVNVGERTNVTGSAQFRKLVKEERYEEAVDVARQQVASGAQILDVNMDEGLIDSEKAMTRFLNLIMSEPDIARIPVMVDSSKWSVIEAGLKCLQGKSVVNSISLKEGEELFIEHARKVLRYGAAAVVMAFDEVGQADTCARKVEICTRAYRILTEQVGFPPEDIIFDPNIFAVATGIEEHDNYAVDFIEATRIIKQTLPHCHVSGGVSNVSFSFRGNETVRAAIHSVFLYHAIKAGMDMGIVNAGAMPIYDELEPELRERVEDVILNRRKDGTERLLEIAERYKGKKGEKKTEDLAWRGKPVRERLAHALVHGIDAFVEEDTEEARQQASRPLDVIEGPLMDGMNVVGDLFGAGKMFLPQVVKSARVMKKAVAYLLPFIEEEKLRTGDVGKSNGKIIMATVKGDVHDIGKNIVGVVLACNNFEVVDLGVMVPAQTILDRARAENADIIGLSGLITPSLEEMTHVAREMQRQGFEMPLMIGGATTSRAHTALKIDPHYSAPTVWVKDASRAVGVAQSLISRDLRAAFVAANDADYAEIRQRHKNRGDAKRLVSLGHARGQKFDGRWDAYIPPAPKQPGLHVLDDYPLNELAEAIDWTPFFQAWELAGKFPAILTDEIVGTQASELYADARAMLTRIVEEQWLTAKGVLGLWPANSVGDDVVLQHADGETTLHFLRQQVDKPVERPDFCLADFIAPRDSGRQDWIGAFAVTAGIGIEPHVARFEAAHDDYNAILLKALADRLAEAFAERLHQRVRTEFWGYVADETLDNEALIAEKYRGIRPAPGYPACPEHSEKDTLFRLLDAPGNAGMTLTESFAMLPTAAVSGYYFSHPDSQYFVVGRVSKEQAADYARRKGVELAQVERWLASNLDYDPE	PGPT0008135_3052	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008135-metH-K00548	NA	NA
BMS020_05401	645			hypothetical protein	ATGACCGCGTCCCCACCGCCGTCCATCGCCGCCGCCCCGCCCGCGCACGCCGCCAGCCGCCACAGCTGGCTGGACGACGTGCAGGGCCTGGCGTTCGGCATCGTGATGACCGCCTTCGGGCTGTCCATGCTCAAGGCCGCCGGCCTGATCACCGGCCAGTTCGCCGGCCTGTCGTTGCTGCTGGCGCAGACCTGCGGCTGGAGCTTCGGGCTGACCTTCGTGCTGCTGAACCTGCCGGTCTACCTGTTCGCGCTGCGTTACCGCGGCCTGCGCTTCACCCTGAAAACGCTGATCGCCGTCACCGGGGTGTCGCTGCTGGCGCAGGCCGCGCCGCAGTGGGTCCAATACGCCCACCTGGACCCGCTGGCGGCGACGCTGATCGGTGGCCTGGCCCAGGGTATCGGCCTGATCGCGCTGTTCCGCCACGGTGCCAGCTGCGGTGGCATCGGCATCATCGCGCTGCAGCTGCAGGACCGCACCGGCTTCCGCGCCGGCTGGGTGCAGCTGATCTTCGACCTGTGCCTGTTCGTCAGCGCCGGCTTCCTGCTCGACGCCCGCGCGATGCTGCTGTCACTGCTTGGCGCGGCGGTGCTCAACCTCAGCATCGCGATGAACCACCGCCGCGACTGGTACACCGCGCAGTAG	MTASPPPSIAAAPPAHAASRHSWLDDVQGLAFGIVMTAFGLSMLKAAGLITGQFAGLSLLLAQTCGWSFGLTFVLLNLPVYLFALRYRGLRFTLKTLIAVTGVSLLAQAAPQWVQYAHLDPLAATLIGGLAQGIGLIALFRHGASCGGIGIIALQLQDRTGFRAGWVQLIFDLCLFVSAGFLLDARAMLLSLLGAAVLNLSIAMNHRRDWYTAQ				NA	NA	NA	NA	NA
BMS020_05402	1224	yihS	COG2942	Sulfoquinovose isomerase	ATGAGCCCATTGCCAGAAGTCCCCACGCCGGAGTTCCGTTCGCCCGAGTTCCTGCGCGCGCACATCGCCGACACGATGGCGTTCTACCACCCGCGCTGCATCGACCCGGATGGCGGCTTCTTCCAGTACTTCCGCGACGACGGCAGCGTCTACGATGCCGGCCATCGCCACCTGGTCAGCAGCACCCGGTTCGTCTTCAACTACGCGATGGCGTATCGCGAGTTCGGCAGCGCCGAGTACCTCGACGCCGTGCAGCATGGCCTGCGCTACCTGCGCGACGTGCATCGCAACCCCGAAACCGGTGGTTATGCGTGGACGCTGCGCGATGGCGTGGTCGAGGACGACATGAACCACTGCTACGGCGTGGCGTTCGTGCTGCTGGCGTATGCGTGCGGACTGAAGGCTGGCGTCGCGCAGGCGCGTGGGTGGATGGACGAAACCTGGAATCTGCTCGAGCAGCGCTTCTGGGAGCCGGCGTTCGGCCTGTACAAGGACGAGGCCGACGGGCAGTGGAACTTCACCGGCTACCGCGGCCAGAACGCCAACATGCACATGTGCGAGGCGATGCTGGCGGCGTACGAGGCCAGCGGCGAGCAGCGCTATCTCGAGCGTGCGCTGTTGCTGGCCGAGCACATGACCCGGCGGCAGGCGGCCAAGGCCGGCGGGCTGGTGTGGGAGCATTACGACACCCAGTGGAACATCGACTGGGACTACAACCGCGACAATCCCAAGCACCTGTTCCGGCCATGGGGGTTCCAGCCCGGCCATCAGACCGAATGGGCCAAGCTGCTGTTGTTGCTGGACCGCTACACCGGCGCGGAATGGCTGCTGCCGACCGCGCGCCACCTGTTCGACGTGGCGGTGGAGCGCTCATGGGATGCAGAACGCGGCGGGCTGTACTACGGCTTTGCGCCTGCCGCGGCCGATGGCTCGGTGGCGGTCTGCGACGACGACAAGTACTTCTGGGTGCAGGCCGAGTCGTTGGCGGCGGCGGCGCTGCTGGCCGCGCGCAGCGGCGACGCGGCCTACTGGCAGTGGTACGACCGGCTGTGGGCGTATTCCTGGAAGCACATGGTCGACCATCGTCATGGTGCGTGGTATCGCATCCTCGACGCCGACAACCGCAAGTACAGCGACGAGAAGAGCCCGGCCGGCAAGACCGACTACCACACGATGGGCGCCTGCCACGAGGTGTTGAACGTGGTGCGGCCGCCGCGCGGCTGA	MSPLPEVPTPEFRSPEFLRAHIADTMAFYHPRCIDPDGGFFQYFRDDGSVYDAGHRHLVSSTRFVFNYAMAYREFGSAEYLDAVQHGLRYLRDVHRNPETGGYAWTLRDGVVEDDMNHCYGVAFVLLAYACGLKAGVAQARGWMDETWNLLEQRFWEPAFGLYKDEADGQWNFTGYRGQNANMHMCEAMLAAYEASGEQRYLERALLLAEHMTRRQAAKAGGLVWEHYDTQWNIDWDYNRDNPKHLFRPWGFQPGHQTEWAKLLLLLDRYTGAEWLLPTARHLFDVAVERSWDAERGGLYYGFAPAAADGSVAVCDDDKYFWVQAESLAAAALLAARSGDAAYWQWYDRLWAYSWKHMVDHRHGAWYRILDADNRKYSDEKSPAGKTDYHTMGACHEVLNVVRPPRG	PGPT0017735_4	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
BMS020_05403	993	scrK_2	COG0524	Fructokinase	GTGAGCGCGCGCCACGGCGTGTTGTGCTTCGGCGAGGCGCTGATCGACATGCTGTCGCAGCCGCCGGCCACGCCGGAGGCGCCGCGTGCGTTCCTGCAGTTCGCCGGCGGTGCGCCGGCGAACGTCGCCGTGGCGGTGGCGCGGCTGGGCGGCGAGGGCCGCTTCGCCGGCATGCTCGGCCAGGACATGTTCGGCGACTTCCTGCTGCAGAGCCTGCGCGACGCCGGCGTGGACACCCGCAGCGTGGTCCGCACCGACGCGGCCAAGACCGCGCTGGCGTTCGTCGCGCTCGATGACGAGGGCGAGCGCAGCTTCAGCTTCTACCGGCCGCCGGCGGCGGACCTGCTGTTCCGTGCCGGGCATTTCGCCGCGGACTGCTTCGATGGTGTCGGCGCGTTCCACGTCTGCTCCAACAGCATGACCGAGGCGGAGATCGCCCAGGCCACGCTCGATGGCATGCGCCTGGCGCGCAGCGCTGGGGCGCTGGTCAGCATGGACCTCAACCTGCGGCCGATGCTGTGGGCCGCTGGCGTGGACCCGGCGCCACGACTGTGGCAGGCGCTGGCGCTGGCCGACGTGGTCAAGCTCTCGCGCGAGGAACTGGAGTTCCTCGCCGCCAGCCTCGACGGCGACGAGGCTGCGGTGGTGGCGCGGCTGTGGCAGGGGGCAGCGACGCTGCTGCTGGTCACCGATGGCAGCCGGCCGCTGCGCTGGATCACCCGCGAGGGCGGTGGCGAGCTGCAGCCGTTCCGGGTGCAGATCCAGGACAGCACCGGTGCCGGCGATGCCTTCGTCGGTGGCCTGCTGCATGCCCTGGTGCGGCAGGTCGGCGACGCGGGCGATCTTTCGCGGTTGTGCCGAGATATCGATACCATGCGTGGGATCCTGCGCTTCGCCGCCGCGGTCGGTGCGCTTGCGGTCACCCGCAAGGGCGCCTTTGCGGCGATGCCGAGCCATGACGATGTCCTTTCCCTGATCCGCGAGCAGCCATGA	MSARHGVLCFGEALIDMLSQPPATPEAPRAFLQFAGGAPANVAVAVARLGGEGRFAGMLGQDMFGDFLLQSLRDAGVDTRSVVRTDAAKTALAFVALDDEGERSFSFYRPPAADLLFRAGHFAADCFDGVGAFHVCSNSMTEAEIAQATLDGMRLARSAGALVSMDLNLRPMLWAAGVDPAPRLWQALALADVVKLSREELEFLAASLDGDEAAVVARLWQGAATLLLVTDGSRPLRWITREGGGELQPFRVQIQDSTGAGDAFVGGLLHALVRQVGDAGDLSRLCRDIDTMRGILRFAAAVGALAVTRKGAFAAMPSHDDVLSLIREQP	PGPT0017625_699	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
BMS020_05404	1281	fucP_2	COG0738	L-fucose-proton symporter	ATGACCAGCAAACCACCCGTCAACAACCGTGTCGCCTTGTCGGTGGCCACCACGATCTTCTTCATGTGGGGCTTCCTGACCTGCCTCAACGACATCCTGATCCCGCACCTGAAGGCGGTGTTCGACCTGAACTTCGCCCGCGCGATGCTGGTGCAGTTCACGTTCTTCGGCGCCTACTTCCTGATGTCGCTGCCGGCCGAGCGCCTGGTGGCGAAGCTGGGCTACAAGGGCGGCATCGTCGCCGGCCTGGCGATCGCCGGCATCGGCGCGCTGGGCTTCTGGCCGGCGGCGGAACTGCGGGTGTATTCGGCATTCCTCGGCGCGCTGTTCGTGCTGGCCACCGGCATCACGGTGCTGCAGGTCGCCGCCAATCCGTATGTGTCGCTGCTCGGCCCGGAACAGACCGCATCGAGCCGGCTGACACTGGCGCAGGCGTTCAACTCGCTCGGCACCGCGATCGCGCCGCTGTTCGGTGGCTGGCTGATCCTGTCCAACACGGTGATGAGCGGCGACAAGATCGAGGCGCTGGCGCCGGCCGAGCAGCTGGCCTACCGCGCCCAGGAGGCGCAGGCGGTGCAGGGCCCGTACGTGGGCCTGGCGGTGGTGCTGTTCCTGCTGGCGGTGTTCGTCTACCTGTTCCGCCTGCCGTCGCTGACCGAGGCGACCGAGAAGGGCGACGCCGGCCATCGGCATACCCTGGCCGAGGCGCTGCGGCATCCGCACGTGGTGTTCGGCGTGCTGGCGATCTTCTTCTACGTCGGCGCCGAGGTGTCGATCGGCAGCCTGATGGTGAACTACTTCGCGATGCCGCAGATCGGCGGTTTCAGCGAAACCCAGGCCACCCACTACGTGTCGGCGTACTGGACGATGGCGATGATCGGGCGCTTCATCGGCTCGGCGCTGCTGGCGAAGATCTCGCCGCGCCTGCTGCTGTCGCTGTTTGCGCTGATCAACGCGCTGCTGCTGGTGCTGTCGGTGTCGTCCAGCGGCATGCTGGCGGTGTATGCGCTGGTGGCGATCGGCCTGTTCAACTCGATCATGTTCCCGACCATCTTCGCGCTGGGCATCGAGCGCCTGGGGCCGCTGACCGGGCGTGCGTCGAGCCTGCTGGTGATGGCGATCGTCGGCGGTGCGCTGGTGCCGTACCTGCAGGGCCAGCTGGCCGACCACTTCGGCCTGCAGCCGTCGTTCCTGCTGCCGGCGCTGTGCTACGGCTACATCGTGTTCTACGGCCTGTGGGGTTCGCGCGTGCGCGGCGCGCTGGCGGAGAAGCAGGCGTGA	MTSKPPVNNRVALSVATTIFFMWGFLTCLNDILIPHLKAVFDLNFARAMLVQFTFFGAYFLMSLPAERLVAKLGYKGGIVAGLAIAGIGALGFWPAAELRVYSAFLGALFVLATGITVLQVAANPYVSLLGPEQTASSRLTLAQAFNSLGTAIAPLFGGWLILSNTVMSGDKIEALAPAEQLAYRAQEAQAVQGPYVGLAVVLFLLAVFVYLFRLPSLTEATEKGDAGHRHTLAEALRHPHVVFGVLAIFFYVGAEVSIGSLMVNYFAMPQIGGFSETQATHYVSAYWTMAMIGRFIGSALLAKISPRLLLSLFALINALLLVLSVSSSGMLAVYALVAIGLFNSIMFPTIFALGIERLGPLTGRASSLLVMAIVGGALVPYLQGQLADHFGLQPSFLLPALCYGYIVFYGLWGSRVRGALAEKQA	PGPT0016725_1003	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_FUCOSE_TRANSPORRT,PGPT0016725-fucP|MFS_transporter|FHS_family|L_fucose_permease-K02429	NA	NA
BMS020_05405	2067			hypothetical protein	ATGCAGACGAGCACAGCACGGAGCGGCTACTTCCCCCATATCGACGGCCTGCGCGCGATCGCGGTGCTGGCGGTGATCGTCTACCACCTGGACCCGCGCTGGCTGCCCGGCGGCTTCCTCGGCGTCGACGTGTTCTTCGTGATCTCCGGCTTCGTGGTCAGTGCCTCGGTGGACCGCCTGCCGCCGGTGTCCGCCGCTGCGGGCCTGCTGCGCTTCTACGCGCGCCGGTTGCGCCGCATCGCCCCGGCGCTGCTGGCCTGCCTGCTGGTCACGGCCCTGGTCAGCGCCTTGTTCATTCCGGAGTCGTGGTTGAGCGAGACCAGCGACCGGACCGGGCGGATGGCCTTCGTCGGCCTGAGCAACTGGGTGCTGGCCAGTACCGGCAACGACTACTTCTCGCCGCGCACGGAATTCAATCCGTACATGCACACCTGGTCGCTGGGTGTGGAGGAACAGTTCTACCTGCTGTTCCCGTGGTTGTTCCTGCTGTGGGCGCGCGGCGCGCGGGCGCGCACCGCGTCGCTGCTGCTGGTGGTGCTGGCCTGCGTCGCCTCGCTGGGATTCGCCTGCTGGCGCGCGCAGGTGCCGGGCCAGGAGATCGCCGCGTTCTACCTGACCGGTACGCGCCTGTGGCAGCTCGGCGCCGGTGTGCTGCTGTACCAGGCGATGGCGGCGTCCGGGGTGTTCGCGCGCGGTCTGGCGCTGCCGCGCGGGCTGCGGGTGGGGCTGATGCTGCTCGCGTTGGCGGCGGTCGCCACGGGGTTCTGGGCGGCACGCCCGGGCCACTCGCCATGGCCCGATGGCGCCTGGGCGGTCCTCGGGACGCTGGCGGTGCTGGCGTTCGCGCATGGTCCGGCCGGGCAGGGCGTGGCGCGCTGGTTGGCGTGGCCGGCGCTGGTCGCGATCGGGCGCTGGTCGTATTCGCTGTACCTGTGGCACTGGCCGGTGCTGGTGGTGTTGCGCTGGACCTGCGGGCTCGAGACCGGCTGGGCCAAGGGGCTGGCGCTGGGGCTGACATTCCCGCTGGCCCTGGCCTCGTACCGCTGGGTGGAAACGCCGTTCCGGCGCGGCGTGATGCGCTGGCCGGACCGGCGCTGGGTGATGGCCGGCGTGGCGGCGCTGGTGCTGGCCGGCGGCATCCAGGCGCTGGTGGTGAAGGCCACGCCCTACCTTTCGCTCAGCGTGGTCAGCCGGCATCCGCTCGACTGGTATGCCTACGCCAAGGGGCTGCGCAAGGAGTTCCCCGGTTGCAGGCTCAGCAACAACACCGAGGTGGTGGACGGCGTGCTGGTGCGCAGCTTCGCCGGGCAGGGCTGCCCGGGCCATGCGGCCACCGGGCGACGGCTGTTCGTGGTCGGCGATTCGCATGCGATGGCCTACAACGAACTGCTGCGCCGCTATGCGCTGGGCGAGGGCGTCGCAGTGCGGCTATACGGCACCGGTGGCTGCGCGGTCGCCGACCTGCAGGCCTGGGGCGGCAGCAGCCCGGCCTGCCAGGCGTTCCTGCAGGCGGCGCTGGGCGATGTCGGCGCGCGTGCGACGTCCGGCGACGTGGTGTTCCTGCCCGGCCTGCGGATGCCGCGACTGGCCGACCAGGACGAACTGTTCGACTTCACCCGCAACCTGCACGAGCTGCAGTCCGCCGATGCGCAGGCCGGGCGCGCCCAGCTGGTGGCGGCGACCGCGGCGCGGTTGCGGCCGTTGGCCGATGCCGGGGTGCGGATCGTGCTGGAGGCGCCCAAACCGTTGCTGCAGGCGCCGCCGTACCGGTGCTCCGATTGGTTCAATCGCGGCAATGCGGTGTGCCGACGTGGCGCCGCAATCGACCGCGCGAGCATGGAGCAGTACCGCGCGCCGGCGCTGCAAGGCTTGCAGACGCTGGCCCGGGACCTGCCGGGAGCGCGGCTGTGGGACCCGCTGCCGCTGCTGTGCGATGCGACACAATGCAGCGGCCGGTACGCGGGGCGCCCGTTGTATTTCGATGCCGACCATCTCAGCGGCTACGGCAATCGCCACCTGCTCGCGTCGTTCAGTGCCGCAATGGACCAGGCCTACGCGACGCCTTGA	MQTSTARSGYFPHIDGLRAIAVLAVIVYHLDPRWLPGGFLGVDVFFVISGFVVSASVDRLPPVSAAAGLLRFYARRLRRIAPALLACLLVTALVSALFIPESWLSETSDRTGRMAFVGLSNWVLASTGNDYFSPRTEFNPYMHTWSLGVEEQFYLLFPWLFLLWARGARARTASLLLVVLACVASLGFACWRAQVPGQEIAAFYLTGTRLWQLGAGVLLYQAMAASGVFARGLALPRGLRVGLMLLALAAVATGFWAARPGHSPWPDGAWAVLGTLAVLAFAHGPAGQGVARWLAWPALVAIGRWSYSLYLWHWPVLVVLRWTCGLETGWAKGLALGLTFPLALASYRWVETPFRRGVMRWPDRRWVMAGVAALVLAGGIQALVVKATPYLSLSVVSRHPLDWYAYAKGLRKEFPGCRLSNNTEVVDGVLVRSFAGQGCPGHAATGRRLFVVGDSHAMAYNELLRRYALGEGVAVRLYGTGGCAVADLQAWGGSSPACQAFLQAALGDVGARATSGDVVFLPGLRMPRLADQDELFDFTRNLHELQSADAQAGRAQLVAATAARLRPLADAGVRIVLEAPKPLLQAPPYRCSDWFNRGNAVCRRGAAIDRASMEQYRAPALQGLQTLARDLPGARLWDPLPLLCDATQCSGRYAGRPLYFDADHLSGYGNRHLLASFSAAMDQAYATP				NA	NA	NA	NA	NA
BMS020_05406	636			hypothetical protein	ATGAGCGATACCCTTCGCGACCAGTTGCTCGGGCTCGGTTTCAAGCCCGCCCCCAAGCCCGAACGCAAGCCGGACGCGCGTCGTCCGCAGCCCGCTGCCAAACCGGGTGCCAAGCCCGGCGCCAAGCCGGCCGGCAAGCCCGCTGGCCACCGGCCGCAGGGCCCGGCCGCAGGCAAGCGCCCGCACGGTGCCAAGCCGCCGCGCAGCCGCGAGGACATCGACCTGGCCAAGGCCTACGCGATCCGCGCGCAGCGCGAGAAGGACGAGCGCATCGAGGCCGAGCGGATCAAGCAGGAAGAAGCGCGCCAACGCCGTGAGGCCAAGGCCAGGCTCGAGGAGCTGCTGAAGGACAAGGCGCTGAACCTGGCCGATGCCGACATCGCCCGGCACTTCCCGTATGGCGGCAAGATCAAGCGCATCTACGTCAGCGCCGAGCAGCTCAAGGCGCTCAACGCCGGCGAACTCGGCGTGGTCCAGCTCAACGGGCGCTACCTGCTGGTAAGCGCGGCGGTACTGGCCGAGACCGAGACGGTGTTCGCCGCGGCGGTGGCGCTGAAGGTCGATCCGAACGCGCCGGCCGAGGACGACCCGTACGCCGACCCGCAGTACCAGGTGCCCGACGACCTGGTCTGGTAA	MSDTLRDQLLGLGFKPAPKPERKPDARRPQPAAKPGAKPGAKPAGKPAGHRPQGPAAGKRPHGAKPPRSREDIDLAKAYAIRAQREKDERIEAERIKQEEARQRREAKARLEELLKDKALNLADADIARHFPYGGKIKRIYVSAEQLKALNAGELGVVQLNGRYLLVSAAVLAETETVFAAAVALKVDPNAPAEDDPYADPQYQVPDDLVW				NA	NA	NA	NA	NA
BMS020_05407	237	slyX_2	COG2900	Protein SlyX	ATGCATGAGCACATGACGCCGCACGAGCAGGCCATCGAGGCGCGGCTGGTCGAGCTGGAAATGCGACTGTCCTTCCAGGAGCAGGCGCTGGCCGAGCTGAGCGAGGCCCTGGCCGACGCGCGCATGACCAGCGCCCGCAACGCCGAGACGATCCGCTACCTGATCGAAGATCTCGGCAAGGTGCGTTCGTCGCTGTATTCCGATCCGGCCGACGAACCGCCGCCGCCGCATTACTGA	MHEHMTPHEQAIEARLVELEMRLSFQEQALAELSEALADARMTSARNAETIRYLIEDLGKVRSSLYSDPADEPPPPHY				NA	NA	NA	NA	NA
BMS020_05408	960			hypothetical protein	ATGAAGATGGGAATGCGCGGCGCGGCAGCGTCGTTTCTGATCGTGGCAATGGCGGCCTCCGCGCCCGCGATGTCGCAGCAACCGGCCGCAGCCGCGGCGAAGAAGGAGATTTCCGTTTTGACCTCTGACCGCGAGAAAGTCAGCTACGCCATCGGCCTGGACGTGGCCCGTTCGTTCGAGCCGATCGCCCAGGACATCGATCTGGCCGCGATGCAGCGCGCCATCGAGAACGCCTTCAAGGGTGGCAAGCCGCTGCTGTCGGATGAGCAGACCCAGGCCACCGATACCGCCCTGCGCACCGCGCTGGCGGTCCGCAACGGCCAGCAGATCCCGGGCATGGCGCCGGGCAGCCAGCCGCCGGCGGTGTCCAAGGAAAACGTCGGCCTGATGCTGGGTGACCGCGCGGTCGGCCCGTCGCTGGCGCGCATCCAGGGCGACATCGAGCTGCCGGTGCTGCTGCAGGCCGTGCGCACGGTGTTCGAGAAGGGCCAGCCGCTGCTGAGCCAGCAGGAAGCCGCGGCGACGCTGCAGGCCTTCGGTACCGCCAAGAAGGCCGCGGCCGGGCGTGAGAACCGCGAGGAAGGCAATGCGTTCCTGGCCAAGAACAAGACCGTCAAGGGCGTGATCACCACCGCGTCGGGCCTGCAGTACATGGTGCTGCGCCAGGGCAGCGGCGAGCGCCCGAGCGCGACCAGCAAGGTCAAGGTCAACTACGAAGGCAAGCTGCTCGACGGCACCGTGTTCGACAGCTCCTACCAGCGCGGCCAGCCGGCCGAGTTCGGCCTGAACCAGGTCATCAAGGGCTGGACCGAAGGTCTGTCGCTGATGCCGGTCGGTTCCAAGTACCGCTTCTGGATCCCGTCCGAGCTGGCCTATGGCGCCGATGGCACCCAGGGCGGCCCGATCGGCCCGGATGCGACGCTGACCTTCGACGTGGAACTGATGGGCATCCTGCCCTGA	MKMGMRGAAASFLIVAMAASAPAMSQQPAAAAAKKEISVLTSDREKVSYAIGLDVARSFEPIAQDIDLAAMQRAIENAFKGGKPLLSDEQTQATDTALRTALAVRNGQQIPGMAPGSQPPAVSKENVGLMLGDRAVGPSLARIQGDIELPVLLQAVRTVFEKGQPLLSQQEAAATLQAFGTAKKAAAGRENREEGNAFLAKNKTVKGVITTASGLQYMVLRQGSGERPSATSKVKVNYEGKLLDGTVFDSSYQRGQPAEFGLNQVIKGWTEGLSLMPVGSKYRFWIPSELAYGADGTQGGPIGPDATLTFDVELMGILP				NA	NA	NA	NA	NA
BMS020_05409	567	btuE_3	COG0386	Thioredoxin/glutathione peroxidase BtuE	ATGAATCCGCTGAAATCGCTGTTTTCCGTTGTTTTTGCTGGCGTTTTGCTGGTCGCCGGGAGCGCCTCGGCGGCATCGCTGCTGGACCTGTCGTACCGTCCGCTGGCCGGCAAGGAGCCGGTGAACCTGAACAAGACCTATGGCGGCAAGGTGCTGCTGGTGGTGAATACGGCCAGCAAGTGCGGCTTCACCCCGCAGTACGACGGGCTGGAGGCGCTGCAGACGCGCTTCGCGGGCAAGGGCTTTTCGGTGCTCGGCTTCCCGTCCAACGACTTCAAGGGCCAGGAGCCCGGCAGCGAGCAGCAGATCCGCGAGTTCTGCACGCTGACCTACGGAGTCAAGTTCCCGATGTTCGAGAAGGTGCACGTGCTCGGCGAGGACGCCACGCCGCTGTACCGCGAACTGACCCAGGCCACCGGCGTGGCGCCGGGCTGGAACTTCCACAAGTACCTGGTGGGACGCGACGGCAAGGTGCTGGCGCAGTTCCCCAGCAAGGTCGCGCCGGACGATCCGGCGCTGGTCGCGGCGATCGAGCGTGCGCTGCAGGCGCCGACGCCGTCGCGCTGA	MNPLKSLFSVVFAGVLLVAGSASAASLLDLSYRPLAGKEPVNLNKTYGGKVLLVVNTASKCGFTPQYDGLEALQTRFAGKGFSVLGFPSNDFKGQEPGSEQQIREFCTLTYGVKFPMFEKVHVLGEDATPLYRELTQATGVAPGWNFHKYLVGRDGKVLAQFPSKVAPDDPALVAAIERALQAPTPSR	PGPT0013115_1768	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013115-bsaA|gpx|btuE-K00432	NA	NA
BMS020_05410	246			hypothetical protein	ATGAACTCCAGGCGATTCAGGCAACCGGTACCGCTGGTGCTGTGCGCCGCTGCCCTGCTCTGTGCCGGATGGCTGGGGGCCGCTTCCGGCAGGAGCACGGACACCGGCGCCGATTATGGCGCTTCGGGAACGGATCAGGAAAACGCGACACCTGTCGAGGACAGCCAGCGGCCCGCACGCCGCCTGCGCTCCTCGCTGTCGATGCCCTACTTCTCCTTCGCGCAGGTCCTGCGTCCACGGAGCTGA	MNSRRFRQPVPLVLCAAALLCAGWLGAASGRSTDTGADYGASGTDQENATPVEDSQRPARRLRSSLSMPYFSFAQVLRPRS				NA	NA	NA	NA	NA
BMS020_05411	363			hypothetical protein	ATGAGCGACATCCAGTGGAGCGACGGCGCTCCCATCTACCGCCAGCTGAAGGATCGCGTGATCGCGATGATGCTGGACGGCATCCTCAAACCCGGCGATGCACTGCCCTCGGTCCGCCAGGTGGCGGCCGAGTACCAGCTGAACCCGATCACGGTCTCGCGCGCCTACCAGGAACTGGCCGACGAGAACCTGGTCGAGAAACGCCGCGGGCTCGGCATGTTCATGACCGAGGAAGCGGCGCTGAAGCTGCGTGGCAACGAACGCGAGCGCTTCCTCACCGAGGAATGGCCGACGGTGCTGGAACGGATCCAGCGACTGGGACTGACTTTGGAAGACCTGATGCCCATGGGGAAATCGTCATGA	MSDIQWSDGAPIYRQLKDRVIAMMLDGILKPGDALPSVRQVAAEYQLNPITVSRAYQELADENLVEKRRGLGMFMTEEAALKLRGNERERFLTEEWPTVLERIQRLGLTLEDLMPMGKSS				NA	NA	NA	NA	NA
BMS020_05412	873	btuD_11		Vitamin B12 import ATP-binding protein BtuD	ATGAATGCGGTGCTTGAACCTGTCGTCGACGCACGCGGCCTGCGCAAGGCCTATAAGAACAAGGTGGCGCTGGCCGGCGCGACGTTTCGCATCGAGGCCGGCCGCATCATCGGCCTGATCGGGCCGAACGGCGCCGGCAAGACCACCGCGCTGAAGGCGATCCTCGGCCTGACCGGCTTCGAGGGCGAGCTGCGCGTGCTCGGGCTGGACCCGCGCACCCAGCGCGACCAGTTGATGAACGATGTCTGCTTCATCGCCGACGTGGCGGTGCTGCCGCGCTGGCTGCGGGTCGGCGAGGCGGTGGATTTCGTTGCCGGCATCCACCCGCGTTTCGACCGCTCCCGCTGCGAACGCTTCCTGGCAAACACCCAGCTCAACCCGAAACTGCGGGTGCGCGAACTGTCCAAGGGCATGATCGTGCAGCTGCACCTGGCGCTGGTGATGGCGATCGACGCGCGCCTGCTGGTGCTCGACGAGCCGACCCTGGGCCTGGACATCCTGTACCGCAAGCAGTTCTACCAGCGCCTGCTGGAAGACTACTTCGACGAGCAGAAGACCATCATCGTCACCACCCACCAGGTCGAGGAGATCGAGCACATCCTCACCGACGTGATGTTCATCCGCGACGGCCAGATCGTGCTGAACGCGGAGATGGAACACCTGTCCGACCGCTACACCGAGGTGCTGGTCGCCGGCGAACACGTCGCCACCGCACGCGCGCTGGCGCCGATCGACGAGCGCGCACTGCCGTTCGGCAAGACCGTCATGCTGTTCGACGGCGCGCCCAAGGCGCAGCTCGCCACGCTCGGCGAAACCCGCAACCCCGGCCTGGCCGACCTGTTCGTGGCCATCATGAAGGGAACCTACGCATGA	MNAVLEPVVDARGLRKAYKNKVALAGATFRIEAGRIIGLIGPNGAGKTTALKAILGLTGFEGELRVLGLDPRTQRDQLMNDVCFIADVAVLPRWLRVGEAVDFVAGIHPRFDRSRCERFLANTQLNPKLRVRELSKGMIVQLHLALVMAIDARLLVLDEPTLGLDILYRKQFYQRLLEDYFDEQKTIIVTTHQVEEIEHILTDVMFIRDGQIVLNAEMEHLSDRYTEVLVAGEHVATARALAPIDERALPFGKTVMLFDGAPKAQLATLGETRNPGLADLFVAIMKGTYA	PGPT0006725_17926	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS020_05413	993			hypothetical protein	ATGAACGCCGCACTGTCCAACTCCAAGCCGGCCGGCACCTTCGTCTGGCTGCTCAAGCGCGAATACTGGGAACACCGCGGCGGCTTCCTGTGGGCGCAGCTGATCACCGGCGGCATCGCGGTGTTCTTCGCCCTGCTCGGCGCGGTCATCGGCGTGGTCAGCGCCCGCCGCGCCGGTGTGTCCGGCACCGCCGACGGCATCGGCGACATGGACGAATACGCACGCATGATGGGCTCGATCGGCGACGGCCTGCTGCTCACCGGCATCGGCATCGCCTCGGTGGTGCTGGCCTTCGTGGTGTTCTTCTACTCGCTGGGCAGCCTGTACGACGACCGCCGCGACCGCAGCATCCTGTTCTGGAAATCGCTGCCGGTGTCGGACACCCAGACCGTACTGTCCAAGCTCGCCTGGGCGCTGCTGCTGGCGCCGCTGATCTCGATCGCGATCGGGCTGGTGGTCGGCTTCGCGCTGTGGCTGGTGGCGATCCTCGGCACGCTCGGTGCCGGCGCGCCCAGTCCGTTCGCGATGGCGGTTCACTCGCACCCGTTCCACATGGTCTGGCTGATGCTGGTGACGGTGCCGATGGGCCTGCTGTGGTCGCTGCCGACGATCGGCTGGCTGATGTTCTGCTCGGCCTGGGCGACCAGCAAGCCGTTCCTGTGGGCGGTGCTGCTGCCGCTGCTGGCCTGCGTGATGATCAGCATCCTCGGCGCGATGCCGGGCGTGCACCTGCCGCTGGGCTGGATCTGGTACGTGGTCGCCTACCGCGGCCTGCTCAGCACCCTGCCCGGCACCTGGTCGCCGCGCAGCCTGCGCGGCAGCACGATCAGCACCGACGACCTCCAGTCGCCGAGCGACGTGGTCAACTGGGTGCTGCAGCACAACAACCCACGCCTGGTCTACGGCGATGCCGACATCTGGATCGGCGCGGTCGTCGGCGTGGCCTTCATCGTCGCCGCCATCTACCTGCGCCGCCGCGCCGGCGAAGTTTGA	MNAALSNSKPAGTFVWLLKREYWEHRGGFLWAQLITGGIAVFFALLGAVIGVVSARRAGVSGTADGIGDMDEYARMMGSIGDGLLLTGIGIASVVLAFVVFFYSLGSLYDDRRDRSILFWKSLPVSDTQTVLSKLAWALLLAPLISIAIGLVVGFALWLVAILGTLGAGAPSPFAMAVHSHPFHMVWLMLVTVPMGLLWSLPTIGWLMFCSAWATSKPFLWAVLLPLLACVMISILGAMPGVHLPLGWIWYVVAYRGLLSTLPGTWSPRSLRGSTISTDDLQSPSDVVNWVLQHNNPRLVYGDADIWIGAVVGVAFIVAAIYLRRRAGEV	PGPT0006730_8689	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS020_05414	825			hypothetical protein	ATGCGTCTGCTGCACCTGATTCCCGTGACCCTGCTGCTGGCGCCCGCGCTGGCCCTGGCCGAGGCGCCCTGCCAGCACAGCGAGGCGCGCGCGCTCAAGCTGGACCTGGCCGGCGTGCGCACGGTCCGCTTCGACGTGCATTCGCACAACCTGCACGTGCAGGCCTCGGCCGGCGCCGGCAACAGCATCGACGGCCGCGCCTGCGCCTCCAGCGCCGACCTGCTCCCGCACCTGCAGGTGCTGCAGCGGCGCGACGGCGACCGCCTGGTGGTCAGCCTCGAGGCCGACAGCGTACTGCGGCAGGCGTTCAACAGCGGCTACGCCTACCTCGACATGCACGCCCAGGTTCCGGACAACGTGCTGGTGCAGCTCGACGTCGGCTCCGGCGATGCCTGGGCCAGTGGCGCCGCCAGCCTCAGCGCCGACATCGGCTCTGGCGATGTCGAAGCCAGCGCGACCAAGGGCAAGGTGACCGCCAAGGTCGGGTCCGGCGACCTCACGATCAACGGCGCCGGCGCGTTCGACCTGCTCGGCGTCGGTTCCGGCGACGTGCGCGCCAGCGACATTCGTGGCGCAGCCAGCATCGGCACGATCGGCTCCGGCGACGTGACCCTCAATCGCGTCGCCGGCCCGGTCAAGGCCGGCAAGCTCGGCTCGGGCGATTTGGACATCACCGGCGTGCGTGGCGACGTCAGCGTCGAGGCGATCGGCTCCGGCGACCTCGACGTGCGCGACGTCGACGGCGCGCTGACCCTGCAGCGCAAGGGCAGCGGCGACGTGCGCCATCGCGACGTACGCGGCGCCGTCTCGCTGCCGCGCGACTGA	MRLLHLIPVTLLLAPALALAEAPCQHSEARALKLDLAGVRTVRFDVHSHNLHVQASAGAGNSIDGRACASSADLLPHLQVLQRRDGDRLVVSLEADSVLRQAFNSGYAYLDMHAQVPDNVLVQLDVGSGDAWASGAASLSADIGSGDVEASATKGKVTAKVGSGDLTINGAGAFDLLGVGSGDVRASDIRGAASIGTIGSGDVTLNRVAGPVKAGKLGSGDLDITGVRGDVSVEAIGSGDLDVRDVDGALTLQRKGSGDVRHRDVRGAVSLPRD				NA	NA	NA	NA	NA
BMS020_05415	591			hypothetical protein	ATGAAGTCCCGCCACACTGCAGTATTGCTGGCCACTACGCTGGCGCTGTGCGCCTGCCAGCGCAACAGCGACGACCTGGCAAGCCGCGTGCAGCACACCGCCGACAAGGTCGCAGCCAAGGTCCAGGCCAAGATCGAAGCCAAGAACGCCGTGCTCGCCGATGCAAACATCCACCTCGGCGACGATGACGCGCACGCCAACCTGCCCAAGGCCGAACTCACCCCGCAGGGCGACTTGCTGATCGGCGGCAAGGCGGTGCCCTTGACGCCCGAACAGAAGGCCTTGTCGCTGGCCTACCGCCAGCAGCTCATGGCCATCGCCCAGCAGGGGCTGGAAGTCGGCAAGCAGGGCGCCCGCCTCGGCGTACGCGCCGCCAGCGAGGCATTGAGCGGCGTGCTCAATGGCGATGCCGACAAGGTCGGCGCCCAGGTCGAGGCCCAGGCCGAGCAGATCAAACAGGACGCGCTGAAGATCTGCGACAGCCTCGGCACGGCGAAGACCGCACAGGACGCCTTCGCCGCGGCGGTACCGCAGTTCAAGCCCTACGCGACGCTGGGGCAGACGGACATCGACGATTGCCGCAAAGAGTGA	MKSRHTAVLLATTLALCACQRNSDDLASRVQHTADKVAAKVQAKIEAKNAVLADANIHLGDDDAHANLPKAELTPQGDLLIGGKAVPLTPEQKALSLAYRQQLMAIAQQGLEVGKQGARLGVRAASEALSGVLNGDADKVGAQVEAQAEQIKQDALKICDSLGTAKTAQDAFAAAVPQFKPYATLGQTDIDDCRKE				NA	NA	NA	NA	NA
BMS020_05416	216			hypothetical protein	ATGCACATCCGATGTCACCGGTTCGCTCCCGCGCTGGTGTGGGCGCTGTTTTTTGGCCACGCTTCCGCTCAGCGCGCTTACCGCGCAGCAGGACGCCACCCGGCAGGGGCCAGCCAACGCCGGCGCGCTGCCCAGGATGCGCTGGCAGGCGCGGCACCGGCCTTCCAGCCTTATGCCGAGGTGGACATGCAGGACATCGCGGAGTGCCGGTCCTGA	MHIRCHRFAPALVWALFFGHASAQRAYRAAGRHPAGASQRRRAAQDALAGAAPAFQPYAEVDMQDIAECRS				NA	NA	NA	NA	NA
BMS020_05417	573			hypothetical protein	ATGGAGAAGCACATGCTGCCGAAGCGCCTGATCCTGTTCACGCTGATCGCACTGGCAGGGTCCGCCTGCAGCAATGAAGCAGGCAGTCAAGCACTGATCGGTGCGGTCGAACGCGGCGATCTGGCCGCCGTCAACCGCGCCATCGCCGAGGGCGACGCGCTCGACGTAGTCCAGCATGGCGACGGCACCGCACTGATGATCGCCGCGCGTCGAGGCGACGAAGCGATCGTCCAGGCGTTGCTGCGTGCGGGCGCCGGCCCTGATGTCTCCGCGCATGGCGATGGCAATGCGTTGATCGCCGCGGCCGCCGGCAACCAGATCAACGTGGCACGGCTGCTCCTCGCCGCTGGGGCCAGCGTGGACGCCATCGTTCCCGGCGACGAGACGCCACTGATCAATGCGGCCCGGCGCGGTCATCTGGCGATGGCGCAGCTGCTTGTCGACCACGGCGCCGACGTGAATCTGGGCGTCCTCGCCGACGGCGGTCGTTGGCGCTTGCCATTGAACCAGGCCAGGGACGACGCGATGCGCGACTACCTGGTCGGCAAGGGTGCGGTGGCCGCCCGCCGCTGA	MEKHMLPKRLILFTLIALAGSACSNEAGSQALIGAVERGDLAAVNRAIAEGDALDVVQHGDGTALMIAARRGDEAIVQALLRAGAGPDVSAHGDGNALIAAAAGNQINVARLLLAAGASVDAIVPGDETPLINAARRGHLAMAQLLVDHGADVNLGVLADGGRWRLPLNQARDDAMRDYLVGKGAVAARR				NA	NA	NA	NA	NA
BMS020_05418	840			hypothetical protein	ATGCGCAACCACCTGCAGCGCGCGATGGCCATCACGGGCCTGATGATCATCAGCATGGCGCGGGCCGGGGCAGCCACGCCACACGCGGACTTCCTGTTCGTCGGCAGTTACCACATGAACAACCCAGGCCGCGACGTGCACAACGTCAAGGCCGACGATGTGCTGTCGGAGCGACGCCAGCGCGAGATCGCCGAGGTCGCCACGCTGATCGAGCGCTACCGGCCGACCAAGGTGATGGTGGAACGCGATATCGCAAAGAGCGACGAAACCGCGCGACAGTACACAGAGTCCTGCGCGGGGCGACGGTCGCTGACGCGCGACGAGACCGAACAGCTCGGATTCCGCATCGCCTGCGACCTGCATCTGACCACCGTGTACGCGATCGACCAGGATGCACTGACGCCAAACGTCGACGAAGACGCGATCGACTGGCCCAAGGCCGTGGAACGCCACCAGCAACACGCGCAGTACGATGCCTTCATGGCCGCAGGCAAGGCCCTCAACGATGAGGGCCAACGCCGCATGCAGCGCGACTCGATCCTCGACATCCTGCGCTGGTACAGCGCGGACACCTGGTTACGCCACAATGCCGCCAGCTACTACCATCTAGGCCTCTTCGGTACGCGTGACGACCCGGCTGGCGCCAACTGGATGCAGTACTGGTACGGCCGCAACCTGGCGATCTTCAACAACATCGCACGCCTGACCGAACCCGGCGACCGCGTCCTGGTGATCTACGGCGCAGGCCACGGCAACATGCTGCGCCAGTTCGCCAACGACTCCGGCGCCTACCGCGTGCACGATCCGCTGCACTGGTTGTCGGCGGATATCTCTCCCTGA	MRNHLQRAMAITGLMIISMARAGAATPHADFLFVGSYHMNNPGRDVHNVKADDVLSERRQREIAEVATLIERYRPTKVMVERDIAKSDETARQYTESCAGRRSLTRDETEQLGFRIACDLHLTTVYAIDQDALTPNVDEDAIDWPKAVERHQQHAQYDAFMAAGKALNDEGQRRMQRDSILDILRWYSADTWLRHNAASYYHLGLFGTRDDPAGANWMQYWYGRNLAIFNNIARLTEPGDRVLVIYGAGHGNMLRQFANDSGAYRVHDPLHWLSADISP				NA	NA	NA	NA	NA
BMS020_05419	894			hypothetical protein	ATGGGACACACACACTGCCACCGCCGCATGACCACCGCCCCGTGGCGCCACGCGCTGCACTTCGCGGCGCTGGCCTGCCTGCTGGTCGCCACGGCCGACGCCGCGGAAGCCGGGCCGCCGGCTGGCTCCAGCGCTGCCTGTGCGCGGTTCGATGCACTGGCGGCGCAGGCGCAGATGCATGCGCCGTTCGAGCTGGTCGATGGGCGCATCTACGTCCAGGCACAGGTCAACGGACGCGGCCCGTTCCGCTTCGCCGTCGACACCGGCGCCAGCGGTGCCGGGCGCGCGGACAGCGCCCTGGTGACCGCGCTCGCCCTGCCACTGCTCGGCACGACGACGCATTCCGACGGGGTCAGCAGCAGCCAGCAGCGGACCACGCGGCTCGCCACGCTGGAACTGGCCGGCTACGTGCAACGCGATCTTGAGGTGATCACCCGCGACTATGCGTCGCAGCTCGCCGCCGACGGCCTGCTGCTGATCGATTACCCGACACGCATGCTGTGGTTCTCCCGCAACGCGACGCTGGCGCCCGGCGACGGCGCTCTGGCCTACACCCGTGCCTTCCGCATCCCGGTCTCCATCGCCGGCGTCGCCAGCGAAGGCAACCTCGATACCGGTGCCAACGTCGCCTTCGTGCTGCCGCAGGCGCTCTACGCGCGCCTGGGCGCGGGCCCGCAGGGCGAGGCTGCCACGGGCAGGCTGAGCAATGGCACGGTGGACACGCGACGAGTGACCGTGGCTGGACCGGTGCGGGTCGGCGATCTGGAACTGAGCAACGTCGAGGCGCGGGTATCGGAGCGCTATCCCGAACTGCTGATCGGCGCGCATGCGCTGCAGCAGGCGGCATTGATGCTCGACCAGCGCACGCAGCGGGTGGCGGTGTGCCGGCGCTGA	MGHTHCHRRMTTAPWRHALHFAALACLLVATADAAEAGPPAGSSAACARFDALAAQAQMHAPFELVDGRIYVQAQVNGRGPFRFAVDTGASGAGRADSALVTALALPLLGTTTHSDGVSSSQQRTTRLATLELAGYVQRDLEVITRDYASQLAADGLLLIDYPTRMLWFSRNATLAPGDGALAYTRAFRIPVSIAGVASEGNLDTGANVAFVLPQALYARLGAGPQGEAATGRLSNGTVDTRRVTVAGPVRVGDLELSNVEARVSERYPELLIGAHALQQAALMLDQRTQRVAVCRR				NA	NA	NA	NA	NA
BMS020_05420	420			hypothetical protein	ATGAAATACATCGCCCTGCTTTGCCTCGCCACGCTGCTGATGCTGACCGCCTGCAGCCAGCAAACCTCCTCGCGCGCCGAACGTTCCAAGCCGCGCGTGTCGGTGACCGCCGACAACGTGCAGCTGCGCCGCGCGCCGGCGCCGAATGCCGACATCGGCGCTGATGGCATGCTGAAGATCGACGACATCAAGGTGCCGCTGCCCGCCGACCGCCAGGCCCAGCTGCAGTCGCTGTTCGGCCAGCTGCAGATCCTGCGCCAGAACGCGCTGACCGATGCCGCGCCCGATCCGAAGATGGCGCCGGTACCGTTGCAGTCCACCCCGCAGATCGACGCGCTCAAGACCGAGCTGCTGGGCACGGTGCCGTCGCTGGCGCCGTACCAGGACAGCTTCACCTTGCTGCAGGCCGAACGGCACTAG	MKYIALLCLATLLMLTACSQQTSSRAERSKPRVSVTADNVQLRRAPAPNADIGADGMLKIDDIKVPLPADRQAQLQSLFGQLQILRQNALTDAAPDPKMAPVPLQSTPQIDALKTELLGTVPSLAPYQDSFTLLQAERH				NA	NA	NA	NA	NA
BMS020_05421	1419	fumC_2	COG0114	Fumarate hydratase class II	ATGAGCGAGAACTACCGCGTCGAACACGACAGCATGGGCGAACTGAAGGTGCCCGCCGATGCATTGTGGGGCGCGCAGACACAACGGGCGGTGCAGAACTTTCCGGTCTCGGGCCAGCCGATGCCGCGCGGCTTCATCCGCGCGCTCGGCCTGATCAAGGGGGCGGCCGCCGGCGTCAACGCCGAACTCGGCCTGTTGCCGAAGGCGGCGGCCAAGGCGATCCAGGCCGCTGCAGCCGAGGTCGCATCCGGCGCGCACGACGCGCATTTCCCGATCGACATCTACCAGACCGGGTCGGGTACCTCGTCGAACATGAATGCCAACGAGGTGATCGCCACGCTGGCCTCGCGCTCGCTCAAGGACGGCGCAGGCAAGGCCAGGATCCACCCGAACGACCACGTCAACCTCGGCCAGAGTTCCAACGACGTGGTGCCCACTGCGATCCGGGTCAGCGCGCAGCTGGCCGTGGTCGAACAGCTGCTGCCGGCGCTCAAGCACCTGCGCAAGACCATCGACAAGCGCGCCAAGCCGCTCGACAAGGTGGTCAAGACCGGCCGCACCCACCTGATGGACGCGATGCCGCTGACCTTCGGCCAGGAATTCCGCGCCTGGTCGGCGCAGCTGGCCTCGGCGCAGGAGCGCATCGAGGACAGCCTCAAGCGGCTGCGCCGGCTGCCGCTGGGCGGCACCGCGATCGGCACCGGCATCAACGCCGATCCGCGCTTCGGCGGCAAGGTCGCCAAGGCGCTGAGCGCGGCGACCAAGGCGAAGTTCGACAGCGCCGAGAACAAGTTCGAGGGCCTGGCCGCGCAGGACGATGCGGTGGAGCTGTCCGGCCAGCTCAACGCGCTGGCGGTGGCGTTGATCAAGATCGCCAACGACCTGCGCTGGATGAACGCCGGGCCGCTGGCTGGGTTGGGCGAGATCGAGCTGCCGGCGCTGCAGCCGGGGTCGTCGATCATGCCGGGCAAGGTCAACCCGGTGATTCCCGAAGCGACGGTGATGGCGTGCGCGCAGGTGATCGGTCACCACGCCGCGATCACCGTGGCCGGCCAGACCGGCAACTTCCAGCTCAACGTGACCCTGCCGCTGATCGCGGCCAACCTGCTCGATTCGATCACGCTGCTGGCCAACGTGTCGACGCTGCTGGCCGATTCGGCGATCGCCGGTTTGAAGGTGCGCCAGGACAAGGTGAAGGAAGCGCTGGAGCGCAACCCGATCCTGGTGACCGCGTTGAATCCGGTGATCGGCTACGAGAAGGCCGCGGCGATCGCCAAGCGTGCCTACAAGGAGCAGCGGCCGGTGCTGGAGGTGGCCAAGGAAGACAGTGGGCTGGGTGAGGCCGAGTTGCGCCAGCTGCTCGATCCGGCCGCGCTGACCGAAGGCGGCATCCACGCCGGCGGCGGTGGCGGCGGCTGA	MSENYRVEHDSMGELKVPADALWGAQTQRAVQNFPVSGQPMPRGFIRALGLIKGAAAGVNAELGLLPKAAAKAIQAAAAEVASGAHDAHFPIDIYQTGSGTSSNMNANEVIATLASRSLKDGAGKARIHPNDHVNLGQSSNDVVPTAIRVSAQLAVVEQLLPALKHLRKTIDKRAKPLDKVVKTGRTHLMDAMPLTFGQEFRAWSAQLASAQERIEDSLKRLRRLPLGGTAIGTGINADPRFGGKVAKALSAATKAKFDSAENKFEGLAAQDDAVELSGQLNALAVALIKIANDLRWMNAGPLAGLGEIELPALQPGSSIMPGKVNPVIPEATVMACAQVIGHHAAITVAGQTGNFQLNVTLPLIAANLLDSITLLANVSTLLADSAIAGLKVRQDKVKEALERNPILVTALNPVIGYEKAAAIAKRAYKEQRPVLEVAKEDSGLGEAELRQLLDPAALTEGGIHAGGGGGG	PGPT0001650_1410	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
BMS020_05422	1317			hypothetical protein	ATGATCGGCAATGTCCTGCTGCTGTTCGTCGCCCTGCTGCTGGTACTGCTGAACGGCTTCTTCGTCGCCGCCGAGTTCGCGCTGGTCAAGCTGCGCCACACCCAGGCGGTGGGCCTGGCCGAGCACCACGGCTGGCGCGGCCGCCTGCTGCTCAGCGTGCACGGCCACCTCGATGCCTACCTGTCGGCCTGCCAGCTCGGCATCACCCTGGCCTCGCTCGGCCTGGGTTGGGTCGGCGAGCCGGCGTTCGCGCACCTGCTGGCGCCGCTGTTCGACGTGCTCGGCCTGTCGGCCGAGGCCGCGCAGCTGACCGCGCTGGTGATCGCCTTCAGCGTGATCTCGTTCCTGCACATCGTGCTGGGCGAACTGGCGCCGAAGTCGATGGCGATCCGTCGCCCGGACCGCATGTCGCTGTGGACTGCCGCGCCGCTGTACCTGTTCTACTGGGCGATGTACCCGGCGATCTGGCTGCTCAACACCAGCGCCAACCTGCTGCTGCGCGCACTGGGCTGGGGCGAGGTGGAGCACACCTCGCACCGCTACTCGCGCGAGGAACTGAAGCTGATCCTCGGCCGCCAGCCGGCCGACAGCGCCACGCCCGACCACGACATGGCGCTGATGAGTCATGCGCTGGAACTGCCCGACCTGGTCGCCGGTGACCTGATGCGGGCGCGCGAGCACCTGCGCAGCCTGCGCGACGGCATGGACCTGGAGGCGGTGCTGGCCGAGTTCGCCGACTCGCGCTACACCCGCTACCCGTGGTTCGCCGGCGACGGCGAGGACGTGGCCGGCGTGCTGCACATGAAGGACGTGCTGGTCGAACTGGCCCGCGGCCATCGCCCGAGCGACCTGCGCGCACTGCTGCGTCCGGCCAGCCCGGTCGCGCTGGAAACCCCGGTGACCCAGGTGCTGGAGAAATTCCGCGGCGGCGGCACCCACATGGCGCTGTGCGTGGACGAGCACGGCCGCATCCTCGGCTACTTCACCCTCGAGGACCTGCTGGAAGTGGTGGTCGGCGACATCGAGGACGAGCACGTGCACGTGGTCAAGGACGCACCGGTGCGCGCGCCGGACGGCTCGCTGCTGGTCTCCGGCACCACCTCGATCTTCCGCCTGGAACGCCTGCTCGGCCGCGACATGACCGCGCCGGAGCACGTCAATTCGGTCGGCGGGCTGATCGTGCACCAGCTGCAGCGGCTGCCCGAGGAAGGCGAAAGCCTGCAGCTGGATGGCCACCAGGTCACGGTGCGGCGCATGGTCGGCCACCGCATCCAGGCGGTGGCGGTGCAGCCGGCCACGGAATCGGCCGGGGCCTAG	MIGNVLLLFVALLLVLLNGFFVAAEFALVKLRHTQAVGLAEHHGWRGRLLLSVHGHLDAYLSACQLGITLASLGLGWVGEPAFAHLLAPLFDVLGLSAEAAQLTALVIAFSVISFLHIVLGELAPKSMAIRRPDRMSLWTAAPLYLFYWAMYPAIWLLNTSANLLLRALGWGEVEHTSHRYSREELKLILGRQPADSATPDHDMALMSHALELPDLVAGDLMRAREHLRSLRDGMDLEAVLAEFADSRYTRYPWFAGDGEDVAGVLHMKDVLVELARGHRPSDLRALLRPASPVALETPVTQVLEKFRGGGTHMALCVDEHGRILGYFTLEDLLEVVVGDIEDEHVHVVKDAPVRAPDGSLLVSGTTSIFRLERLLGRDMTAPEHVNSVGGLIVHQLQRLPEEGESLQLDGHQVTVRRMVGHRIQAVAVQPATESAGA				NA	NA	NA	NA	NA
BMS020_05423	939			hypothetical protein	ATGCGCCCGCTCCACGTCTGGATCCTCACCGCCGCCGCGCTGCTCGGCGCCAGCCCTGCCGTCGCCCAGTCGGGCGAATTCGCCACCCGTGCCGACCGGCTCTACCAGCGTCCGCCGGACATCGCCCGCTGCGACCCGGGCCAGCTGCTGCCGGCGCAGCGGCAGCGGGCGCTGGCGGTGGTCAACGAAATCCGTCGCCTGCATGGGCTGGCGGCGGTGGGCTACGACGCCGGCCGCGATGCGATGGCCGAGCAGGCGGCCCTGATCGTCGCCGCCAACGGCCAGCTCAGCCACTTTCCGGGGCCGTCGTGGCGCTGCTACTCCGAGGTCGGGCAGAAAGGCGCGCGCTCGAGCCTGCTGTACGGCGGCGTGGTGTCGCCGCTGCTGCAGTTCATGGACGTCGAGGCGCTGATCGCCGCCTGGCTCAGCGACGCCGACAATGTCGGCGCCGACGCGATCGGCCATCGCCGCTGGCTGCTCGATCCGTTCCTGAAGGACATCGCCTTCGGCATGGTCGCCGGGCCCATGCCGGGCGGGGCGATGTCGATGGCCGCCGCTCTGCGGCCGGTGCCGGCGCCCCCCGGCGAGCGCGCCAGCGCGTCGCAGGACTATGTGGCCTGGCCGGTCGGCGACTATCCGGCGCGCTATTTCGACGTGCGCGCGCCGCTGTCGTTCTCGGTGTTCGTCGATGGCTCGCGCAAGTCGCTGAACCGCCAGGTCGACTATGCCCGGGTGTCGATCCGGGTCAGCGACGCCGGCGGCCGGGCGCTGCCGGTCAGCGACGTGCATGCCGACAGCGAGGGCTTCGGCCTGCCTAACAGCCTGCGCTTCCGCGTTGCCGGCTTGCGCCCCGGCGTGCGCTACGAGGTGGCGATCGACGACGTCGATGTGCAGGGCGCCGCGCGCGACTACCGCTACTGGTTCCGCATCGGGCTTTGA	MRPLHVWILTAAALLGASPAVAQSGEFATRADRLYQRPPDIARCDPGQLLPAQRQRALAVVNEIRRLHGLAAVGYDAGRDAMAEQAALIVAANGQLSHFPGPSWRCYSEVGQKGARSSLLYGGVVSPLLQFMDVEALIAAWLSDADNVGADAIGHRRWLLDPFLKDIAFGMVAGPMPGGAMSMAAALRPVPAPPGERASASQDYVAWPVGDYPARYFDVRAPLSFSVFVDGSRKSLNRQVDYARVSIRVSDAGGRALPVSDVHADSEGFGLPNSLRFRVAGLRPGVRYEVAIDDVDVQGAARDYRYWFRIGL				NA	NA	NA	NA	NA
BMS020_05424	1368	purB_2	COG0015	Adenylosuccinate lyase	ATGTCGGAATCCGCCCTGCTCGCCCTGTCCCCGCTCGACGGCCGCTATGCCTCCAAGGTCGATGCGCTGCGCCCGATCTTTTCCGAATACGGGCTGATCCGCGCCCGCATCAAAGTCGAGATCGAATGGCTGCTGGCGCTGGCCGCCGAGCCGGGCATCGTCGAACTGGCCGACTTCTCCGCCGCCGGCAAGGCCCGGCTGCGTTCGCTCGCCGACGGTTTCTCGCCGGCGCAGGCCGCGCGGGTCAAGGAGATCGAGCGGACCACCAACCACGACGTCAAGGCGGTCGAGTACTTCATCAAGGAGCAGCTCAAGGACGACGCCGAGCTCGGCCCGGCGCTGGAGTTCGTGCATTTCGCCTGCACCAGCGAGGACATCAACAACCTGTCCTACGGGCTGATGCTGGAACAGGCCCGGCGCGAGGTGCTGCTGCCGTCGCTGCAGGGCGTGGCCGCCACGCTGCGCACGATGGCGCACGCGCAGGCCGCCCAGCCGATGCTGTCGCGCACCCACGGCCAGACCGCCTCGCCGACCACGCTCGGCAAGGAACTGGCCAACGTGGTGGCGCGCCTGGAGCGCCAGATCCGCCAGATCGCCGCGGTCGAGCTGACCGGCAAGATCAACGGCGCGGTCGGCAACTACAACGCCCACGTCAGCAGCTACCCGGACGTGGACTGGCCGGGCTTCGCGCAGCGTTTCGTCGAGAGCCTGGGCCTGGTGTTCAACCCGTACACCACGCAGATCGAACCGCACGACAACGTCGCCGAGATCGGCGATGCCGCGCGCCGCGCCAACATCATCCTGATCGACCTGGCCCGCGACATCTGGGGCTACATCTCGCTGGGCTACTTCAAGCAGAAGCTCAAGGAAGGCGAAGTCGGTTCCTCGACGATGCCGCACAAGGTCAACCCGATCGACTTCGAGAACGCCGAGGGCAACTTCGGCATCGCCAACGCGCTATTCGAGCATTTCAGCGCCAAGCTGCCGATCAGCCGCTGGCAGCGCGACCTCACCGACTCGACCGTGCTGCGCGCGCTCGGCACCGCGTTCGGCCACAGCCAGGTGGCGCTGGATTCGCTGGCCAAGGGCCTGGGCAAGCTGACCGTGAACCCCGAGCGCCTCGACGGCGACCTCGACGCGGCCTGGGAAGTGCTGGCCGAAGCGGTGCAGACGGTGATGCGCCGCCACGGCCTGCCCAACCCGTACGAGCAGCTGAAGGCGCTGACCCGCGGCCAGGGCATCACCGCCGAATCGATGCGCGCCTTCGTCGAAACGCTGGCGCTGCCCGAAGACGCCAAGCAAGCGCTGCGCACGCTGACCCCGGGCAGCTACACCGGCCTGGCCGAGCAGCTGGCCAAGGCGATCTGA	MSESALLALSPLDGRYASKVDALRPIFSEYGLIRARIKVEIEWLLALAAEPGIVELADFSAAGKARLRSLADGFSPAQAARVKEIERTTNHDVKAVEYFIKEQLKDDAELGPALEFVHFACTSEDINNLSYGLMLEQARREVLLPSLQGVAATLRTMAHAQAAQPMLSRTHGQTASPTTLGKELANVVARLERQIRQIAAVELTGKINGAVGNYNAHVSSYPDVDWPGFAQRFVESLGLVFNPYTTQIEPHDNVAEIGDAARRANIILIDLARDIWGYISLGYFKQKLKEGEVGSSTMPHKVNPIDFENAEGNFGIANALFEHFSAKLPISRWQRDLTDSTVLRALGTAFGHSQVALDSLAKGLGKLTVNPERLDGDLDAAWEVLAEAVQTVMRRHGLPNPYEQLKALTRGQGITAESMRAFVETLALPEDAKQALRTLTPGSYTGLAEQLAKAI	PGPT0021555_3166	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021555-purB-K01756	NA	NA
BMS020_05425	405			hypothetical protein	ATGCGCCTGCTGATCAACCTCGACGTGCCCGACCTGGATGCCGCCGAACGGCTGTACCGGGCCGCGTTCGCGCTCGTCCCCGGGCGCCGCTTCGGGACCGCCGCGCGGGAACTGCTCGGCGCCGCGGTACCGCTCTACCTGCTGCAGCAGGCGCCCGGCACGCCCGCGGCCGGCGCGCACCGGCGCGACTACGCCCGCCACTGGACCCCGCTGCACCTGGACGTGGTGGTCGACGATCTCGATGCCGCGCTGGCACGGGCGCTGCAGGCCGGCATGGTGCAGGAAGACGCGCCGCGCGAGGCCGCCTGGGGCCGGATCGTGCGCCTGGCCGACCCGTTCGGCCACGGCTGGTGCCTGCTGCAGTTCAGCGCAGCAGGCTACGACGCGGTGGCCGACCGCGCATGA	MRLLINLDVPDLDAAERLYRAAFALVPGRRFGTAARELLGAAVPLYLLQQAPGTPAAGAHRRDYARHWTPLHLDVVVDDLDAALARALQAGMVQEDAPREAAWGRIVRLADPFGHGWCLLQFSAAGYDAVADRA				NA	NA	NA	NA	NA
BMS020_05426	1236			hypothetical protein	ATGAAGAAGACCAAGTCCTCCCTGCCGTTCGAGATCCAGGCCAGCGCCCAGTACCCGCTGGGCATGCCGGCCGAACGCTTCCTGCGCGACTACTGGCACAAGCGCCCGCTGCTGATCCGCAACGCGTTCCCGGACTTCCAGACCCCGGTGACGCCCGAAGACCTGGCCGGCCTGGCCTGCGAGGAAGGCGTGCTGGCGCGGATGATCAGCCTGGACCGCGACAGCGGCGTCTGGGACGTGCGCACCGGCCCGTTCCAGGAAGAGGACTTCCCTGGCCTGCCCGACCACGACTGGACCCTGCTGGTGCAAGACGTCGACAAGTGGGATCCGGACGTGCGCGCGCTGCTGGAACAGTTCCGCTTCCTGCCGCGCTGGCGCGTGGACGACATCATGATCAGCTTCGCCGCCACCGGCGGTTCGGTCGGCGCGCATGTCGACCACTACGACGTGTTCCTGCTACAGGCACACGGCCACCGCCGCTGGCAGATCGACGCCAGCGTGGCGCTCGGCCGCAAGGCGCCGGACCTGGCGTTCCGCGACGACGTCGCGATCAAGCTGCTGCGCCAGTTCAACGTCACCCACGACTGGGTGCTGGCCCCGGGCGACATGCTCTACCTGCCGCCGCTGGTGCCGCACCACGGCGTCGCCGAGGATCCGTGCCTGACCTTCTCGGTCGGCATGCGCGCGCCGTCCTCGGCCGAGCTGATCGGCGACTACCTCGACACCCTGGTCGCCGACGCCGACGATGCCGTGCGCTACCACGACGAGGACCTGGCCGTGCCGGCCGATCCGTACGAGATCGACACGGTGGCGATGAACCGCGTGGTCGAGGCGCTGAACGCGCTGCGCATGAACGACCCGGACACGCTCGGCGACTGGTTCGGCCGTTTCATCACCACCTACCGCGCCAGCGGCGACGTGGTGCCGCCGCCTCAGGCCCCGGACGCGGCGGCGATCGCCGCCGCATTGGACGAGGGCGCGCGCCTGTACCGCCACCCGTGGTCGCGCCCGGCCTGGCGCCGCGCCAAGCGCGGGGCGACGCTGTTCTGCACCGGCCAGTCGTTCCCGATGACGATCGCCGACGCGCAGCGCCTGGCGGCGGCCGAGTCGCTCGGTGCGGGCGAATACGCCGCGCTCGGCGCCAAGGCGCGCGACGCGGTGGTCGAGCTGGTCGCGCAGGGTCACTACCTGCTCGGCGACGGCGACGACGCGCAGCACGACGACGCGATGCCATGA	MKKTKSSLPFEIQASAQYPLGMPAERFLRDYWHKRPLLIRNAFPDFQTPVTPEDLAGLACEEGVLARMISLDRDSGVWDVRTGPFQEEDFPGLPDHDWTLLVQDVDKWDPDVRALLEQFRFLPRWRVDDIMISFAATGGSVGAHVDHYDVFLLQAHGHRRWQIDASVALGRKAPDLAFRDDVAIKLLRQFNVTHDWVLAPGDMLYLPPLVPHHGVAEDPCLTFSVGMRAPSSAELIGDYLDTLVADADDAVRYHDEDLAVPADPYEIDTVAMNRVVEALNALRMNDPDTLGDWFGRFITTYRASGDVVPPPQAPDAAAIAAALDEGARLYRHPWSRPAWRRAKRGATLFCTGQSFPMTIADAQRLAAAESLGAGEYAALGAKARDAVVELVAQGHYLLGDGDDAQHDDAMP				NA	NA	NA	NA	NA
BMS020_05427	891			hypothetical protein	ATGACCCGACCGCCCTTCAGCGTCGTCCTCGGCAATGCCAGCGTCCATGCCGACGCCCTGGCGCGGCTGCGGGCGACGGTGGAGGCCGGCCTGCCGCCCACGGCGGACGACGCCGCGGCCGATGCACTCGGCATGCACGCCTTCGCGCTTGCCGCCGATGGCGAGCTGATCGGGCACGCGCGCCTGTCGGCCGCACGCCGGATCGATGCGGTGCGGGTGGTGCCGGACTGGCGCCGGCGCGGCGTCGGCAGCGCGCTGCTGCACAGCCTGGTCGAGCAGGCCCGCACACTGGGCTGGAGCGGGCTGGAGGCGGCAGGCAATCCCGCCGCCCGCAGCCTGCTCGGCAACCTCGGCTTCCTGCCGGCGGCAACCGGCGCGGACGCCGCGTCGCGGCACCAGCTGCGCCTGGACGGCCCGATGGCGGTCGACGGCCTCACCGCCGCGGTCGCCGCAAGCTGCGCGGTGATCACCCAGGCACGGCGCGGCCTGTGGCTGTACAGCCGGGCGCTGGACCCCGGCCTGCTGGACGCGCCGGAGGTGGTCGCGGCGCTGCGCCGCTTCGCCACCGCCCGCCACGCCACCTCGGTGCAGGTGCTGCTGCAGGACGGCACCGCCGCCCGTTCCAGCGACGCCCCGCTGCTGCGGCTGGCGCAGCGCCTGGGCAGTACGTTCAGCTTCCGGCGGGTCAGCGACCCGGTCGACACCGGCTACCCCTCGGCCTACCTCCTGTCCGACCGCGGCGCCTACTACTTTCGTCCAACAGGCCACCGCTACGACGACGGCGAGACCTGGCTGCAAGGGGCTGCGCGCACGCGCCAACTGCAGCGGGAATTCGCGCAAGTGTGGGAACGCAGCCCGCTTTGGCAGGAAATCCGCCCGCTCGGGATCTGA	MTRPPFSVVLGNASVHADALARLRATVEAGLPPTADDAAADALGMHAFALAADGELIGHARLSAARRIDAVRVVPDWRRRGVGSALLHSLVEQARTLGWSGLEAAGNPAARSLLGNLGFLPAATGADAASRHQLRLDGPMAVDGLTAAVAASCAVITQARRGLWLYSRALDPGLLDAPEVVAALRRFATARHATSVQVLLQDGTAARSSDAPLLRLAQRLGSTFSFRRVSDPVDTGYPSAYLLSDRGAYYFRPTGHRYDDGETWLQGAARTRQLQREFAQVWERSPLWQEIRPLGI				NA	NA	NA	NA	NA
BMS020_05428	2871	sucA_2	COG0567	2-oxoglutarate dehydrogenase E1 component	GTGCGCAGGCCACAGCAACCAGACACCCAGACCCGACTCACGATCGTGGACAATCAACTGAAGCAGTTTGCGCAGTCTTCGCAGCTCGCCGGCGGCAACGCCGCCTATATCGAGGAGCTCTACGAGCAGTACCTCGTCTCCCCCGACAGTGTCGATCCCAAGTGGAAAACCTATTTCGATGGGTTCCACGGCCGTGAGGCCGGGGATGTGCCGCACTCGGCCGTCATCGCCCACATCGGCGAGGCCGCGCGCAATGCGGTCAACGCCGGGACCGGCGGCGGGGCCAGCGACGAGCGCGAGCGCAACGTCGGCCGGCTGATCACCGCCTACCGGTCGCGCGGCCACCTCGCCGCCCGCCTCGACCCGCTGGGGCTGACCCCGCCGGTCAACCCGCCGGACCTGGACCTGCCGTTCCACAGCCTGTCGCAGTCCGACCTGGGCGACGACTTCAGCACCGGCGGCGTCGGCGGCCAGCCGCGAATGAAGCTGCGCGACCTGTTCGCGCGCCTCAAGAGCACCTACGCCGGCAGCATCGGCTCGGAGTTCATGTACATCGCCGATGTCGAACAGCGCCAGTGGATCTACCAGCGCCTGGAGCGCGACGGTGGCAGCTACAAGGCCGATGCCGGCACCCGCAAGCGCGTGCTGGAGCGGCTGACCGCGGCCGAGGGCCTGGAGCGCTACCTGCACACCAAGTACGTCGGCCAGAAGCGCTTCTCGCTGGAAGGCGGCGACTCGCTGATCCCGATGATGGACGTGATGGTCCGCCGCGCCGGCGCCGAGCGCATGCGCGACGTGGTGATCGGCATGGCCCACCGCGGCCGCCTCAACGTGCTGATCAACACCCTGGGCAAGAACCCGCGCAAGCTGTTCGACGAGTTCGAAGGCAAGTTCGAGCACGCCCACGACGACCGCGCCCACACCGGCGACGTGAAGTACCACATGGGCTTCTCGGCCGACGTGGCGACCCCGGGCGGCCCGCTGCACCTGGCGCTGGCGTTCAACCCTTCGCACCTCGAGATCGTCGACCCGGTGGTCGCCGGCTCCGTGCGTTCGCGCCAGGAGCGCTACGGCGACACCGCGCGCGAGCGCGTGCTGCCGATCCTGATCCACGGCGACGCCGCGGTGGCCGGCCAGGGCGTGGTGATGGAGCTGCTGCAGATGTCGCAGGCGCGCGGTTTCGCCATCGGCGGCACGGTGCACATCGTCATCAACAACCAGGTCGGCTTCACCACCAGCCGCGTCGACGACGTGCGCTCGACGCTGTACTGCACCGACGTGGCCAAGATGGTCGAAGCGCCGGTGTTCCACGTCAACGGCGACGACCCGGACGCGGTGGCCTATGTCACCGAACTGGCCTACGACTTCCGCCAGAAGTTCAAGAAGGACGTGTTCATCGACCTGGTCTGCTACCGCCGTTGGGGCCACAACGAGGCCGACGAGCCGGCGGTGACCCAGCCGGTGATGTACCAGATCATCCGCAAGCACCAGACCACCCGCGAGCTGTACGCCGCGCAGCTGGAAAAGGACGGCGTGCTGCAGGCCGGCGAGGCCCAGGCGCTGGTCGATGCCTACCGCGTCAAGCTGGATTCGGGCGAGTACACCACCGAGCTGGCCCCGCGCCGCGAGGATGAGTTCGCGATCGACTGGTCCAAGTACCTGACCGGCAGCCTGAAGGACAAGATCGACACCGGTTACGAGCGCAAGGCGCTGGACCGCCTGGCCGGGCTGATCAACACGATCCCGGCCGGCATCGAGATGCACAACCGGGTCAAGAAGATCTACGAAGACCGCGCCAAGATGACCAGCGGCGAACTGCCCGCCGACTGGGGCTTCGCCGAGAACCTGGCCTACGCCACCGTGCTCGAGGAAGGCCATCGCCTGCGCCTGGTCGGCGAGGATGCCGGTCGCGGCACGTTCTTCCACCGCCACGCGATCATCCACGACCAGAAGACCGACGAGTACTACCTGCCGCTGCGCCAGCTGGTGCAGAACCCGGACGACGCCACCGTGATCGACTCGCTGCTCAGCGAAGAGGCGGTGATGGGCTTCGAGTACGGCTACTCGACCACCGACCCCAACACCCTGTGCATCTGGGAAGCGCAGTTCGGCGACTTCGCCAACGGCGCGCAGGTGGTGATCGACCAGTTCATCGCCGCCGGCGAAGCCAAGTGGAGCCGCCTCAGCGGCCTGGTGCTGCTGCTGCCGCACGGCTACGAAGGCCAGGGCCCGGAGCACAGCTCCGCGCGCCTGGAGCGCTTCCTGCAGCTGTGCGCGATGGAGAACATGCTGGTCTGCACCCCGACCACGCCGGCCCAGTGCTTCCACATGCTGCGCCGTCAGCTGTGCATGACCACGCGCAAGCCGCTGGTGGTGATGTCGCCGAAGTCGCTGCTGCGCCACAAGCTGGCGGTGTCGACGCTGGACGAGCTGGCCAACGGCGAGTTCCAGCACATCATCGGCGACGCCGTGGCCGATCCGGCCAAGGTCAAGCGCGTGGTGGTCTGCTCGGGCAAGGTCTACTACGACATCCTGGAAGATGCGCAGAAGCGCGGCCAGGACGACGTGGCGATCATCCGCGTGGAGCAGCTGTACCCGTTCCCGCGCGCCCAGCTCGCCGCCGAGCTGGCCAAGTACAGCAACGCCACCGACGTGGTCTGGACCCAGGAAGAGCCGCAGAACCAGGGCGCCTGGTACCAGATCAAGCACCACCTGCAGGCGGTGCTGCCCAAGGGTCGCGAACTGCATTACGCCGGTCGCGCGCGCTCGGCCTCCCCGGCTGCCGGCCACATGGCCGAGCACGTCGAGGAGCTCAAGCAGCTGCTCGCCGACGCTCTGGTCAATCCGTTCAACGACCAGGTTGCTGAATAA	MRRPQQPDTQTRLTIVDNQLKQFAQSSQLAGGNAAYIEELYEQYLVSPDSVDPKWKTYFDGFHGREAGDVPHSAVIAHIGEAARNAVNAGTGGGASDERERNVGRLITAYRSRGHLAARLDPLGLTPPVNPPDLDLPFHSLSQSDLGDDFSTGGVGGQPRMKLRDLFARLKSTYAGSIGSEFMYIADVEQRQWIYQRLERDGGSYKADAGTRKRVLERLTAAEGLERYLHTKYVGQKRFSLEGGDSLIPMMDVMVRRAGAERMRDVVIGMAHRGRLNVLINTLGKNPRKLFDEFEGKFEHAHDDRAHTGDVKYHMGFSADVATPGGPLHLALAFNPSHLEIVDPVVAGSVRSRQERYGDTARERVLPILIHGDAAVAGQGVVMELLQMSQARGFAIGGTVHIVINNQVGFTTSRVDDVRSTLYCTDVAKMVEAPVFHVNGDDPDAVAYVTELAYDFRQKFKKDVFIDLVCYRRWGHNEADEPAVTQPVMYQIIRKHQTTRELYAAQLEKDGVLQAGEAQALVDAYRVKLDSGEYTTELAPRREDEFAIDWSKYLTGSLKDKIDTGYERKALDRLAGLINTIPAGIEMHNRVKKIYEDRAKMTSGELPADWGFAENLAYATVLEEGHRLRLVGEDAGRGTFFHRHAIIHDQKTDEYYLPLRQLVQNPDDATVIDSLLSEEAVMGFEYGYSTTDPNTLCIWEAQFGDFANGAQVVIDQFIAAGEAKWSRLSGLVLLLPHGYEGQGPEHSSARLERFLQLCAMENMLVCTPTTPAQCFHMLRRQLCMTTRKPLVVMSPKSLLRHKLAVSTLDELANGEFQHIIGDAVADPAKVKRVVVCSGKVYYDILEDAQKRGQDDVAIIRVEQLYPFPRAQLAAELAKYSNATDVVWTQEEPQNQGAWYQIKHHLQAVLPKGRELHYAGRARSASPAAGHMAEHVEELKQLLADALVNPFNDQVAE	PGPT0001530_2388	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
BMS020_05429	1203	sucB_2	COG0508	Dihydrolipoyllysine-residue succinyltransferase component of 2-oxoglutarate dehydrogenase complex	ATGGCCACCGAAGTCAAAGTCCCGGTACTGCCCGAATCCGTCTCCGACGCCACCATCGCCAGCTGGCACAAGAAGGCCGGTCAGGCGGTCAAGCGCGATGAGAATCTGGTCGACCTGGAAACCGACAAGGTCGTGCTCGAAGTCCCCTCGCCGGTCGACGGCGTGCTGAAGGAAATCAAGTTCGACGAAGGCAGCACCGTCACCAGCAACCAGGTGCTGGCGATCATCGAGGAAGGCGCAGTCGCCGAGGCCGCTCCGGCCGCTCCGGCTGCCGAAGCCAAGAAGGCCGACGCTCCGGCTGCCGCGGCTCCGGCCAAGGCCGCTGCGCCGGCGCCGGCCGCCAAGTCGGCGGCCGACAGCCTGCCGCCGGGCGCGCGCTTCTCGGCGATCACCGAGGGCGTCAACCCGTCCGAGGTCGACGGCACCGGCCGCCGCGGCGCGGTCACCAAGGAAGACATCCTGAACTACGCCAAGAACGGCGGAGCCGGCAAGGCTGCCGGCGCGCGTCCGGAAGAGCGCGTGGCGATGACCCGCGTGCGCAAGACCATCGCCAAGCGCCTGATGGACTCCAAGAACTCCACCGCGATGCTGACCACCTTCAACGAGGTCAACCTCGCCAAGGTGTCGGCCGCGCGCAAGGAGCTGCAGGACGAGTTCCAGAAGGCCCACGGCATCAAGCTTGGTTTCATGAGCTTCTTCGTCAAGGCCGCCGCCAACGCGCTGCAGCGCTTCCCGCTGGTCAACGCCTCGATCGACGGCGACGACATCATCTACCACGGCTACAGCGATATCTCGATCGCCGTCTCCACCGAGAAGGGCCTGGTGACGCCGGTGCTGCGCAACGTCGAACGCCAGTCGTTCGCCGACATCGAGAAGGGCATCGCCGACTACGCCGCCAAGGCGCGCACTGGCAAGCTCGGCCTGGAGGAACTGCAGGGCGGCACCTTCACCGTGACCAACGGCGGCACCTTCGGCTCACTGCTGTCCACGCCGATCATCAACCCGCCGCAGAGCGCGATCCTGGGCATGCACGCGATCAAGGAGCGTCCGATCGCCGAGAACGGCCAGGTCGTGATCGCGCCGATGATGTACCTGGCGCTGTCCTACGACCACCGCATCATCGACGGCAAGGACTCGGTGCAGTTCCTGGTGGACATCAAGAACCAGCTGGAAAACCCGGGCCGCATGCTGTTCGGCCTGTAA	MATEVKVPVLPESVSDATIASWHKKAGQAVKRDENLVDLETDKVVLEVPSPVDGVLKEIKFDEGSTVTSNQVLAIIEEGAVAEAAPAAPAAEAKKADAPAAAAPAKAAAPAPAAKSAADSLPPGARFSAITEGVNPSEVDGTGRRGAVTKEDILNYAKNGGAGKAAGARPEERVAMTRVRKTIAKRLMDSKNSTAMLTTFNEVNLAKVSAARKELQDEFQKAHGIKLGFMSFFVKAAANALQRFPLVNASIDGDDIIYHGYSDISIAVSTEKGLVTPVLRNVERQSFADIEKGIADYAAKARTGKLGLEELQGGTFTVTNGGTFGSLLSTPIINPPQSAILGMHAIKERPIAENGQVVIAPMMYLALSYDHRIIDGKDSVQFLVDIKNQLENPGRMLFGL	PGPT0001535_3233	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
BMS020_05430	1428	lpd_2		Dihydrolipoyl dehydrogenase	ATGGCTGAGAACTACGACGTCGTCGTCATCGGTGCCGGCCCGGCCGGCTACCACGCCGCCATCCGCGCTGCCCAGCTGGGCATGAAGGTCGCCTGCATCGACGCGGCGCTGGGCAAGGACGGCAAGCCCGCCCTTGGCGGCACCTGCCTGCGCGTGGGCTGCATCCCGTCCAAGGCGCTGCTGGATTCGACCCACCAGTACTGGAACATGCAGCACCAGTTCGCCGACCACGGCATCAGCTTCAAGGATGCCGCCATCGACGTGCCTGCCATGGTCGCCCGCAAGGACAAGATCGTGAAGCAGTTCACCGGCGGCATCGGCATGCTGTTCAAGGCCAACAAGATCACCGCCTACTACGGCTTCGCCGAGCTGCAGGCCGGGCGCAAGGTCAAGGTCAAGCAGCACGACGGCAGTGAAGTCGAGCTGACCGCCACCAACGTGATCCTGGCCGCCGGCTCGGATTCGATCGAACTGCCGTTCGCCAAGTTCGACGGAGACACCATCGTCGACAACGTCGGCGCGCTCGACTTCACCGCGGTGCCCAAGCGCCTGGTGGTGATCGGCGCCGGCGTGATCGGCCTGGAACTGGGCAGCGTGTGGCGCCGCCTCGGCGCCGAGGTCACCATCCTCGAGGCGCTGCCGGAGTTCCTGCCGGCCGCCGACGCCGAAGTCGCCAAGCTGGCGGCCAAGGAACTGAAGAAGGAAGGCCTGGACATCCGCCTGGGCGCCAAGGTCAGCAAGACCGAGGTCGGCAAGGACAAGCAGGTCACCATCACCTACACCGACGCGGCCGGCGAGCAGACCCTGGTGGTCGACAAGCTGCTGGTGGCGGTCGGCCGCAAGGCCGCGACCAAGGGCCTGCTGGGCGAAGGCACCGGCGTGCAGCTCAACGAGCGCGGCCAGATCGTCGTCGACGACCACTGCCACACCGGCGTGGACGGCGTGTGGGCGATCGGCGACTGCGTGCGCGGCCCGATGCTGGCGCACAAGGGCTTCGAGGAAGGCATCGCGGTCGCCGAACTGATCGCAGGCCTGCCGGGCCACGTCAACTTCGACACCATTCCGTACGTGATCTACACCGCGCCGGAAATCGCCTGGGTCGGCAAGACCGAGCAGCAGCTCAAGGCCGAGGGCGTGCCGTACAAGGCCGGCACCTTCCCGTTCGCAGCGGTCGGCCGCGCGGTGGCGATGAACGAGGCCGTCGGCTTCGTCAAGGTCATCGCCCACGCCGAAACCGACCGCGTGCTGGGCCTGCACCTGATCGGCCCGAGCGTGTCCGAGCTGGTCCACGAGGGCGTGCTGACGATGGAGTTCAGCGGCTCGGCCGACGACCTGGCGCGCATCTGCCACGCCCACCCGACCCTGTCGGAAGCGATCCACGATGCCGCGATGGCGGTCAGCAAGCGCGCGATCCACAAGGCCAACTGA	MAENYDVVVIGAGPAGYHAAIRAAQLGMKVACIDAALGKDGKPALGGTCLRVGCIPSKALLDSTHQYWNMQHQFADHGISFKDAAIDVPAMVARKDKIVKQFTGGIGMLFKANKITAYYGFAELQAGRKVKVKQHDGSEVELTATNVILAAGSDSIELPFAKFDGDTIVDNVGALDFTAVPKRLVVIGAGVIGLELGSVWRRLGAEVTILEALPEFLPAADAEVAKLAAKELKKEGLDIRLGAKVSKTEVGKDKQVTITYTDAAGEQTLVVDKLLVAVGRKAATKGLLGEGTGVQLNERGQIVVDDHCHTGVDGVWAIGDCVRGPMLAHKGFEEGIAVAELIAGLPGHVNFDTIPYVIYTAPEIAWVGKTEQQLKAEGVPYKAGTFPFAAVGRAVAMNEAVGFVKVIAHAETDRVLGLHLIGPSVSELVHEGVLTMEFSGSADDLARICHAHPTLSEAIHDAAMAVSKRAIHKAN	PGPT0001380_2563	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
BMS020_05431	207			hypothetical protein	ATGACCACCGCGACCCGCCGTACCCTGCAGGTGCTGGGCGCACTGCTGCTGTTCGCCGGGCTGCTGCAGCTGACGCTGCCGCTGCTGCGCGGCAGCTCGATCGCCTATGCCGGCGTCGGCGCGCTGTTCATGCTCTTCGGCGCCGCCGCGCTGCTGCTGGGCCAGCGCGCCGCCGGCGCCACCTCGGCACGCCCGCCGGCTCCCTGA	MTTATRRTLQVLGALLLFAGLLQLTLPLLRGSSIAYAGVGALFMLFGAAALLLGQRAAGATSARPPAP				NA	NA	NA	NA	NA
BMS020_05432	594		COG1611	Putative cytokinin riboside 5'-monophosphate phosphoribohydrolase	ATGAAATCGATCTGCGTGTACTGCGGCTCCAACCCCGGCAGCAAGCCCGTCTACACCGAACGCGCCATCGCGCTCGGCCAGCGCATCGCCGCCGATGGCCTGCGCCTGGTCTATGGCGGCGGCAACGTCGGCCTGATGGGCACCGTCGCCAATGCCGTGCTCGATGCCGGCGGCGAGGTCGTCGGCATCATCCCGCAGCAGCTGGCCGACAAGGAAGTCGCGCATCGCCACCTGACCGAACTGCAGGTGGTCGGCTCGATGCACGAGCGCAAGATGCGCATGTTCGACCTGTCCGATGCCTTCGTCGCCCTGCCCGGTGGCTTCGGCACGATGGACGAGATGTTCGAGATGCTGACCTGGCGCCAGCTCGGCATCGGCAACAAGCCCTGCGCGTTCCTCGACGTGGACGGCTTCTACAGCCCGCTGATCGGCATGATCGATCACATGGTGGCCGAGCGCTTCCTGCACCCGGAGCAGCGCCAGGACCTGTGGCACGGCGAGGACGTCGAGGCGATGCTGGCGTGGATGCGCAGCTACCAGCCGGCCCGCGCCGAGAAGTGGATGGACGAGAAGCTCAAGGCGCTGCAGCGCTGA	MKSICVYCGSNPGSKPVYTERAIALGQRIAADGLRLVYGGGNVGLMGTVANAVLDAGGEVVGIIPQQLADKEVAHRHLTELQVVGSMHERKMRMFDLSDAFVALPGGFGTMDEMFEMLTWRQLGIGNKPCAFLDVDGFYSPLIGMIDHMVAERFLHPEQRQDLWHGEDVEAMLAWMRSYQPARAEKWMDEKLKALQR	PGPT0007225_557	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007225-log|yvdD-K22522	NA	NA
BMS020_05433	2874			hypothetical protein	ATGGACAGCCACAACGTTGCGGACATCGGCATCCCGCGTGCAGGCGCCTACGGCGGCGGCACCGCGCGCCTGCTCGCCGGGCTGTCGCCAGGCATCGCGGTCGCGTTGAGCTGGCGCGCCGGCGACGATGCGCCGGAGCTGCAGGGCTGGGGCGCCTCGGCGGCGCTGCGCGGCGCGGTGCAGGCCGCGTTGGACGCGCCGGGGGCGATCCCGGAGCACATCCAGGCCTGGACCGGTGCCGATGGCGTGCGGTTCGCGCTTGGCGTGGAAGCGATCCCGGACTGGAGCGCCGAGCAGCAGCAGGCCTGGTGGCTGGCCGCGCGCCGGCTGGCCGAGGCCGCGCTGCAGCGGCGCCGGCTGGCGTCGCAGGTGGACGGGCTGGAAGCGTCCAAGCGCCTGCAGGAGGCGTTGTACGTGATCGCCGATCTGGCCGGCAACGAACTCGACCTGCCGCAGATGCTGCAGCGCATCCACCGCGTGGTGGCGTCGCTGATGTACGCCGAGAACTTCTACATCGTCGAGTACGACGCGGTCGACGAGAGCCTGCGATTCGTGTACTTCGCCGATTCCGTGGACCGCTTCGACGCCAATCCCGGCCGACGCTTCCACCGCGAGGAGCTGCCCAACAGCCTGACCTTCGCCCTGATCGAGCGCGGCACGCCGTTGTGGGGGCCGTCGTGGCAGCTGGTGATGGAGCTGGGCATTCCGCACGACCCCACGCGCGGCCCGGACAGCCATGACTGGCTTGGCGTGCCGATGCTGCGCGACGGCAAGGTCGTCGGCGCGATCGTCGTGCAGAGCTACGACGAGCACATCGTGTTCAGCAGCGAGGACCGCAGCCTGCTGACCTTCGTCGCCCAGCACGTGCAGACCGCGCTGGATCGACGCCACGCCAAGCAGCAGCTGGCCGCGCGGGTGGAAGAGCGCACCGCCGAGCTGCAGCGCGCCAACCGCAAGCTGCAGGACGAGATCGTCGAGCGCAAGCGTGCCGAGAAGCTGCAGCTGGCGCTGTTCCGGATCAGCGAGCTGGCGACCGCCTCGGAAAGCCTGCCGCAGTTCTACGCGGAAGTGCACGCGGTGGTCGGCGACCTGCTGGACGCGCGCAATTTCTACATCGGCCTGATCGACGCATCGGGCGAGGGCCTGGAGTTTCCGTACTCGGTCGACGAGCACAACGGCACACGGCCGCCACGGCGCTTCAGCGGCGGCCTGACCGAGTACGTGATCGGGCTGCGCACCGCGCTGCTGGCCGACCGCGAGCGCATTGATGCGCTGGCCGCGGCCGGCGAGGTGCGCGGGTTCGGCGTGCGCGCCAGCAGCTGGCTCGGCGTGCCGTTGTTCATCGAGGAGGACGTGGTCGGCGCGGTGGTGGTGCAGAGCTACTCGCCGGAGATCGGCTACGACATCCACGACCAGCGCCTGCTGGCGTTCGCCGCGCACAACATCGGCAACGGCCTGGCGCGGCAGCGAAGCCAGGCGCGGCTGCGCCAGGCCCACGCCGAGCTGGAGCGGCGCGTGCAGGAACGCACCCGCGAACTGGCCCAGCTCAACGAGCAACTGGTCGGGCAGATCGCCGAGCGCATGCGCGCCGAGCAGCGGCTGACCCACCAGGCGATGCACGATGCGCTGACCGGGCTGCCGAACCGTACCCATCTGCTGGACCGGCTCGGCGATGCGCTGAATGCCGCGCACAGCGGTGGCGCCGCGTTCGCGGTGCTGTTCCTGGATCTGGACCGCTTCAAGCTGGTCAACGACAGCGTCGGCCATGCCGCCGGTGACCGCATGCTGGTCGAGGTCGCCAAGCGCATCGTCTCGACGGTGCGCGCCGGCGACGTGGTGGCGCGGCTGGGCGGCGACGAATTCGCGATCCTGATGCGCTGCCCGGAGGGCGGCATCGAATCGGCGCGCGACCTGGCGCGGCGCCTGCAGCAGGTGCTGGGCCAGCCGATGTGGGTGGCTGGGCGCGAGCTGTTCCCGTCGGGCAGCCTGGGCGTGGCGTTCTGGAACGAAGGCTACCGTTCCGGCGAGGAGCTGCTGCGCGACGCCGATGCGGCGATGTACCGCGCCAAGGCGCAGGCGCAGGAGCGGTTCGCGGTGTTCGACGAGGCGATGCGCGAGGAGGCGCTGCGCAGCCTCGACCTGGAGGCGGACATCCGGCGCGCGCTCAACAACCGCGATTTCCGCCCGTACTACCAGCCGATCGTGCGCCTGGACGATGGCCGCGTGGTCGGCCACGAGGCGCTCCTACGCTGGGAGCACGAGAGCCGCGGGCTGTTGCGCCCGGATGCGTTCATCCATCTCGGCGAGGGCAGCGGACTGATCGAGCACGTCGACTGGCAGCTGTACGAGCAGGTGATCAACCACCTGGCCAGCGGCGGCCACGGCTATGTGTCGGTCAACGTCTCGCCGCTGCATTTCCGCTCCGGCGGCTTCGCCGAACGCCTGCTCGGTCTGGTCGATGCGGCTGGCGCCGATCCGACCCGGCTGCGGCTGGAAATCACCGAGGTCGCGCTGCTCGACGACGAGCCGCGCACGCTGGAGATCCTCAACCAGCTGCGCGCCCGCGGCGTGCTGATCCAGCTGGATGATTTCGGCACCGGCTATTCGGCGTTGTCCTACCTGCACCGCTTCCCGATCTCGGCGCTGAAGATCGACCGCAGCTTCGTCGCCAGCCTGCACCAGGGCGAGGGCCAGGACTCGCTGGCGCTGGTGCGCAGCATCCTGGCGCTGGCGGCGACGCTGGGCATCGAGACGGTCGGCGAGGGCATCGAGACCGAGCGCCAGCTGCAGACCCTGCGCGAATTCGGCTGCCACTACGGCCAGGGCTTCCTGCTCGGCACCCCGGCGCCGACGACGGTGGAAACGGCGGCCTGA	MDSHNVADIGIPRAGAYGGGTARLLAGLSPGIAVALSWRAGDDAPELQGWGASAALRGAVQAALDAPGAIPEHIQAWTGADGVRFALGVEAIPDWSAEQQQAWWLAARRLAEAALQRRRLASQVDGLEASKRLQEALYVIADLAGNELDLPQMLQRIHRVVASLMYAENFYIVEYDAVDESLRFVYFADSVDRFDANPGRRFHREELPNSLTFALIERGTPLWGPSWQLVMELGIPHDPTRGPDSHDWLGVPMLRDGKVVGAIVVQSYDEHIVFSSEDRSLLTFVAQHVQTALDRRHAKQQLAARVEERTAELQRANRKLQDEIVERKRAEKLQLALFRISELATASESLPQFYAEVHAVVGDLLDARNFYIGLIDASGEGLEFPYSVDEHNGTRPPRRFSGGLTEYVIGLRTALLADRERIDALAAAGEVRGFGVRASSWLGVPLFIEEDVVGAVVVQSYSPEIGYDIHDQRLLAFAAHNIGNGLARQRSQARLRQAHAELERRVQERTRELAQLNEQLVGQIAERMRAEQRLTHQAMHDALTGLPNRTHLLDRLGDALNAAHSGGAAFAVLFLDLDRFKLVNDSVGHAAGDRMLVEVAKRIVSTVRAGDVVARLGGDEFAILMRCPEGGIESARDLARRLQQVLGQPMWVAGRELFPSGSLGVAFWNEGYRSGEELLRDADAAMYRAKAQAQERFAVFDEAMREEALRSLDLEADIRRALNNRDFRPYYQPIVRLDDGRVVGHEALLRWEHESRGLLRPDAFIHLGEGSGLIEHVDWQLYEQVINHLASGGHGYVSVNVSPLHFRSGGFAERLLGLVDAAGADPTRLRLEITEVALLDDEPRTLEILNQLRARGVLIQLDDFGTGYSALSYLHRFPISALKIDRSFVASLHQGEGQDSLALVRSILALAATLGIETVGEGIETERQLQTLREFGCHYGQGFLLGTPAPTTVETAA				NA	NA	NA	NA	NA
BMS020_05434	594	yigZ_1	COG1739	IMPACT family member YigZ	ATGTCCGATACGCTCGCCGCCCCGTTCCAGCACGCCCAGGAAATCAAGCACAGCCGTTTCCTCGCGCTGGCAGCGCCGATCGTCGACGCGGCGACGGCACTGGCGTTCATCCGCAGCGTCGCCAGCGCCGATGCCACGCACAACTGCTGGGCCTACCGCGACGGCCAGGACTACCGTTCCAGCGACGACGGCGAGCCGGCCGGCACCGCCGGGCGGCCGATCCTGGCGGCCATCGACGGCCAGGGGTTCGACCGCGTGGTGGTGGTGGTCACGCGCTGGTACGGCGGCATCAAGCTCGGTGCCGGCGGCCTGGTCCGCGCCTACGGCGGTACCGCGGCCGAATGCCTGCGGCTGGCGCCGCGCCAGCCCTTGCTGACCCTGACCACGCTGCAGCTGGCCTGCGGCTTCGAGGACATCGGCAGCGTGCACGCGGCACTGGCCGCGCATGCGGCCAGCAAGCAGGACGAGCGGTTCAGCGCCGAAGGGGTGGAACTGCAGCTGCAGCTCCCGCAGGACCAGTGCGAGGCCTTGAAAATCCGCCTGCGCGACGCCACCCGGAATCGCATACGTTTCGTGGACCCGCCTCCCGCATGA	MSDTLAAPFQHAQEIKHSRFLALAAPIVDAATALAFIRSVASADATHNCWAYRDGQDYRSSDDGEPAGTAGRPILAAIDGQGFDRVVVVVTRWYGGIKLGAGGLVRAYGGTAAECLRLAPRQPLLTLTTLQLACGFEDIGSVHAALAAHAASKQDERFSAEGVELQLQLPQDQCEALKIRLRDATRNRIRFVDPPPA				NA	NA	NA	NA	NA
BMS020_05435	1767	bmrA	COG1132	Multidrug resistance ABC transporter ATP-binding/permease protein BmrA	ATGACCGAGACCCCGCCCCCCGAGGCCAAATCGCTGCGCCGTCTCGGCGACCTGCGCACCCTGTGGCCGTTCGTGCAACGCCACCGCAGCCTGTTCTACCTGTGGCTGGTGGCGCTGGCGATCTCCTCCAGCGCGACGCTGAGCCTGCCGGTGGCGGTGCGGCGGATGATCGACAACGGCTTCAGCGACGGCGGCCACATCAACCAGTCGTTCCTGCTGCTGTTCGCGGTCGCGGTGGTACTGGCGCTGGCCACCGCTGCACGCTTCTACTTCGTCTCGCTGCTGGGCGAACGCGTGGTCGCCGACCTGCGCGGGCGCCTGTACGCGCACCTGATCGGGCTGGATGCCAGCTTCCACGACCGCAACCGCAGCGGCGAGCTGGTCTCGCGGCTGTCGGCCGACAGCGAACTGCTGCGCGGGGTGATCGGCAGCACGATGTCGGTGGCGCTGCGCAGCACCGTCACCGTGGTCGGCAGCCTGGTGATGCTGTTCGTCACCAGCGCGCACCTGGCCGCGTACTCGCTGATCGGCATCCCGATGGCGGTGCTGCCGATCGTCATCGGCGCGCGCTATCTGCGCAAGATCTCCCGCGCCAGCCAGGACCGCGTCGCCGACGCCAACACGCTGGCTGCCGAAACCCTCGGCGCGGTACGCACGGTGCAAGCGCATGCGCGCGAGCCGTACGAGACCGGGCGCTTCGGCCAGGCGCTGGCGGTATCGGTGGACACCGCACGGCGCCGGGTGCGGGCGCAGGCCATCGTCACCGCGGCGGCGATCATGCTGGTGTTCGGCGCGATCGTGCTGGTGCTGTGGTCCGGCGCGCACGAGGTCGCCAGCGGCCAGATGAGCGCCGGCACGCTCGGCCAGTTCGTGCTGTACGCGATGTTCGGCGGCGGCTCGGTGGCCTCGCTGGCGGAAGTATGGAACGAACTGCAACGTGCCGCGGGCGGCATGGGCCGCATCGCCGAGCTGCTGCAGGAACGCGCCAGCATCGTCGCCCCATCGGCGCCGCAGCCGCTGCCGGCACCGGTGCGCGGCGCGATCCACTTCGAGCAGGTGGTGTTCCGTTACCCGCAACGGCCGGACATGCTGGCGCTGGATCATTTCGACCTGCACATCCAGCCCGGCGAGACCGTCGCGCTGGTCGGGCCCTCGGGGGCCGGCAAGAGCACGGTGCTGGCGATGTTGCTGCGCTTCCACGATCCGGAAAGCGGCGCGGTGCGGGTGGACGCGCAGGACCTGCGCACGCTCGATCCGGCCGCGCTGCGCGAGCACATCGCGCTGGTGCCGCAACAGCCCACCCTGTTCGCCGCCAGCGCCGCCGACAACATCCGCTATGGCCGGCTCACGGCCAGCGACGCCGAGATCGAGGCCGCGGCCACCGCGGCCGAGGCCGACGCGTTCATCCGCGCCCTGCCCGACGGCTATGCCAGCGAGCTCGGCGAACGCGGCGCACGCCTCTCAGGCGGCCAGCAGCAGCGCGTGGCGATCGCCCGGGCGCTGCTCAAGGATGCGCCGATCCTGCTGCTCGACGAAGCCACCAGTGCGCTCGACGCGCAAAGCGAGCGCGCGGTGCAGCAGGCGCTGGAGCGGCTGATGGCCGGGCGCACCACGCTGGTGATCGCACACCGCCTGGCGACCGTGCTGAAGGCCGATCGCATCGTGGTGATGGACCATGGCCGCATCGTCGCCCAGGGCACCCATGCCGAGCTGCTCGCCGAGGGTGGCCTGTACGCCGAGCTGGCCCGGCTGCAGTTCATCGACTGA	MTETPPPEAKSLRRLGDLRTLWPFVQRHRSLFYLWLVALAISSSATLSLPVAVRRMIDNGFSDGGHINQSFLLLFAVAVVLALATAARFYFVSLLGERVVADLRGRLYAHLIGLDASFHDRNRSGELVSRLSADSELLRGVIGSTMSVALRSTVTVVGSLVMLFVTSAHLAAYSLIGIPMAVLPIVIGARYLRKISRASQDRVADANTLAAETLGAVRTVQAHAREPYETGRFGQALAVSVDTARRRVRAQAIVTAAAIMLVFGAIVLVLWSGAHEVASGQMSAGTLGQFVLYAMFGGGSVASLAEVWNELQRAAGGMGRIAELLQERASIVAPSAPQPLPAPVRGAIHFEQVVFRYPQRPDMLALDHFDLHIQPGETVALVGPSGAGKSTVLAMLLRFHDPESGAVRVDAQDLRTLDPAALREHIALVPQQPTLFAASAADNIRYGRLTASDAEIEAAATAAEADAFIRALPDGYASELGERGARLSGGQQQRVAIARALLKDAPILLLDEATSALDAQSERAVQQALERLMAGRTTLVIAHRLATVLKADRIVVMDHGRIVAQGTHAELLAEGGLYAELARLQFID				NA	NA	NA	NA	NA
BMS020_05436	192			hypothetical protein	ATGTCGTTCCGACAGTTCCCCGCCACCGCAGCCGATGGCGAGACCTACGTGATCATCGAATTCCGCGACAGCGATCCGGCGCAGGCCGACTCGCACGCCGCGCCGCGCTACGAACTGGCCGATGGACGCCACCTGCTCCGCCAGGGCCAGCAATACACCACCACCGGCGGCGAACTGACCTTGCACACCTGA	MSFRQFPATAADGETYVIIEFRDSDPAQADSHAAPRYELADGRHLLRQGQQYTTTGGELTLHT				NA	NA	NA	NA	NA
BMS020_05437	1119			hypothetical protein	ATGACGCCGCCCGCGCGTCCGCTGGTCGGCATCGTCGGCAGCGCCGGGGCGTACGGGCGCTGGCTGGCGCAGTTCCTGCAGCAGCGGATGGGGCTGGAGGTGATCGGCCACGATCCGGCCGATCCGGATTCGCTCGACGAGGCCACGCTGGTCGCGCGTGCCGAGGTGCTGGTGTTCTCCGCGCCGATCCGCCACACCGAGGCGCTGATCCGGCGCTACATCGCGCTGGCCGGCGGCGTCGAGCGCGGCAGGCTGTGGCTGGACGTCACCTCGATCAAACAGGCCCCGGTCGCGGCGATGCTGGAATCGCAGGCCGAGGTGGTCGGCCTGCACCCGATGACCGCACCGCCGAAATCGCCGTCGTTGAAGGGCCGGGTGATGGTGGTCTGCGAGGCACGGCTGCAGGCCTGGGCACCGTGGGTGGCGCAGCTGTGCGAGGCGCTGGAAGCGGAGTGCGTGCCGGCCAGCCCCGAGCACCACGATCGGGTGATGGCGCTGGTGCAGGCGATGGTGCATGCAACGCACCTGGCGCAGGCCGGCGTGCTGCGCGGCTACGCGCCGCTGCTCGGCGACCTGCAGGCATTGATGCCGTTCCGCTCGGCCTCGTTCGAGATGGACACCGCGGTGATCGCGCGCATCCTGTCGCTCAACCCGGCGATCTACGAAGACATCCAGTTCGGCAACCCGTATGCCGGTGAGATGCTCGATCGGTTGCTGGCGCAGCTGCAGCAGCTGCGCGCGCTGGTGGCGCAGGGCGACGACGCGGCGCGCGCGCGCTTCCGCGCCGAGTTCCTGCTCGCCAACCGCGAGGCGATCGGCGAGCAGGCCTTGAAGCAAGGCAATTACGGCTACGAGCGGCTGGGCTATCTGCTGGCCGACCTGACCGAGGCGCGTGCACTCAGCGTCTACTTGCCGGAAGACCAGCCGGGCTCGCTGCGCGTGTTGTTGCACGTGTTCGAGCGGCACCGGGTCAACCTGGCTTCGATCCATTCCTCGCGCACGCCGGCCGGCGAGCTGCATTTCCGCATCGGCTTCGACCACGCCGACGATGCCGAGGCGCTGCAGCGTGCCGCTGCGGAGATCGATGCCAGTGGCATCGGCCGGATGCTGGTGCGCTGA	MTPPARPLVGIVGSAGAYGRWLAQFLQQRMGLEVIGHDPADPDSLDEATLVARAEVLVFSAPIRHTEALIRRYIALAGGVERGRLWLDVTSIKQAPVAAMLESQAEVVGLHPMTAPPKSPSLKGRVMVVCEARLQAWAPWVAQLCEALEAECVPASPEHHDRVMALVQAMVHATHLAQAGVLRGYAPLLGDLQALMPFRSASFEMDTAVIARILSLNPAIYEDIQFGNPYAGEMLDRLLAQLQQLRALVAQGDDAARARFRAEFLLANREAIGEQALKQGNYGYERLGYLLADLTEARALSVYLPEDQPGSLRVLLHVFERHRVNLASIHSSRTPAGELHFRIGFDHADDAEALQRAAAEIDASGIGRMLVR				NA	NA	NA	NA	NA
BMS020_05438	909	pdxK_2	COG2240	Pyridoxine/pyridoxal/pyridoxamine kinase	ATGAACGCACCCCACGAAAGCCACCTCGTCCACGGCCGCCGCCAGCGCCCGGACGGTCCGTCCCCGATCGACGTCATCTCGGTGCAGTCGCAACTCGTCTACGGCCATGCCGGCAACAGTGCGGCGGTGCCGCCATTGCGCGCGCTGGGCGTGCGCGTGGCCGAGATCCCGACCACGCTGCTCAGCAATGCGCCGTTCTACAGCACCCTGCGTGGACGCATCCTGCCGGCCGACTGGTTCGCCGACCTGTTGCTCGGGGCGAGCGAACGCGGCCTGCCGCAGCGGGCGAAGATGCTGGTGTCCGGCTACTTCGGCAGCCTGGCCAATGGTGAGGCGTTCGCCGACTGGCTCGATGGCGTGCGCAGCGAGGCGCCGCAGCTGCGCTACTGCCTGGATCCGGTGATCGGCGATACCCACACCGGGCCTTACGTCGAGCCGGCATTGGAGCGGGTGTTCGCCGAGCGCCTGCTGCCGCATGCGTGGCTGGTGACGCCCAACGCCTACGAACTGGGCCGGCTCAGCGGCCGTGACAGCCTGGCCCAGGACGACGCGATCGCCGCGGCGCAGGAACTGCTGGCGCGCGGGCCGGAATGGGTGCTGGCGCACAGCGTTGCCGGCGCCACCGGCGAGTTGGTGACGCTGGCGGTCGGACGCAGCGGCGTGTGGCGCTGGGTCACGCCCTACCTGCCGGTGGACGTGGCCGGCACCGGCGACGTGCTGATGTCGCTGCTGGTCGCGTTCCTGCTGCGCGGCGAGCGCTTCGAGGCGGCGGTGGGGCGCGCGCTGGCCGGCGTGCATGCGGCGCTGGAGGCGACCCTGGCCGATGGCTACGAGGAGTTCGACGTGCTGGCGGCCTCGCCGGCGGCACTGGCCACGCCGGGCCGCTTCCAGCTCGAGCGCCTGGCATGA	MNAPHESHLVHGRRQRPDGPSPIDVISVQSQLVYGHAGNSAAVPPLRALGVRVAEIPTTLLSNAPFYSTLRGRILPADWFADLLLGASERGLPQRAKMLVSGYFGSLANGEAFADWLDGVRSEAPQLRYCLDPVIGDTHTGPYVEPALERVFAERLLPHAWLVTPNAYELGRLSGRDSLAQDDAIAAAQELLARGPEWVLAHSVAGATGELVTLAVGRSGVWRWVTPYLPVDVAGTGDVLMSLLVAFLLRGERFEAAVGRALAGVHAALEATLADGYEEFDVLAASPAALATPGRFQLERLA	PGPT0009125_580	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
BMS020_05439	711			hypothetical protein	ATGATCGCCAGGCTGCTGGTCGCGCTGGCGTTGCTGCTCGCGATGCCCGGCGCCGTCGCCGGCACGGTCGAGGCGCGCGACTACGACGCGTTCTGGTTGTGGGCGGGCGTGCAGCCGCAGCCGGTGCTGGCGCAGGCGCGGCGCATCTACCTGCTGCAGGGCGAGGTGCCGTTGGCCGCCGGTGCGCCGGCACGGCTGGTCTCGCAACGCGCGGCGCTGCCGCGGCTGCGGCATTGTGATGTCTGGCTGGTGCTGCGGGTCGAGCGGATCGACTGGACGCCGGCGTTGTTCGCGCAGGTGCTGGCGCAGCTGCGCCGCTGGCGCCTGGCCGGCAACCGGGTGGTGGGCCTGCAGATCGATTTCGATGCCGGGACCCGCAATCTTGACCGCTACGTCGCGTTCCTGGGCGAGCTGCGCAGGCGGCTGCCGGCCGAGTACCAGCTCGGCATCACCGGCCTGCTCGACTGGAGCGTCAACGGCCGCGCCGAGGTTGTCGGCGCGCTGGCGGGGATCGTCGACGAGGTGGTGCTGCAGATCTACCAGGGGCGCCGGGTGATTGCCGACTATCCGCGCTATGTCGCCAGGCTTGGCGCGCTACGCGTGCCGTTCCGGATCGGCCTGCTGCAGGATGGCGACTGGCAGCCGCCGGACGGAGTGCAGCGCAATCCATTCTTCCGCGGCTACGTGGTGTTCCTGCACAACGCGCGCTGA	MIARLLVALALLLAMPGAVAGTVEARDYDAFWLWAGVQPQPVLAQARRIYLLQGEVPLAAGAPARLVSQRAALPRLRHCDVWLVLRVERIDWTPALFAQVLAQLRRWRLAGNRVVGLQIDFDAGTRNLDRYVAFLGELRRRLPAEYQLGITGLLDWSVNGRAEVVGALAGIVDEVVLQIYQGRRVIADYPRYVARLGALRVPFRIGLLQDGDWQPPDGVQRNPFFRGYVVFLHNAR				NA	NA	NA	NA	NA
BMS020_05440	2097			hypothetical protein	ATGGAGATCGGCCTTTCCGGCCTTGGGCGCATCGCCGCCCTGTTGTTGGGGGCATGCGTGGCCGCCCCCGCATACGCCAGTTCCGACATGGGCTGCGAACCCCGCCTGGTGCTGGAGTTCGGCGGGTTCACCGGCTGCGCGGGCAACGCCACGTTGTCGCCGGGCAACGACACCCGGGTCAACCTGGTCCTGCTGATGCGCGATGTCGCGGCCGCACCTGCAGCGCTGCCCGGCGGTCCGGCTGCGCCGGTGTTCTCGTGGGACATGCTGGCGATGGCGCTGCGGCCGACGCAGGTCGACGCGAACGGCGCCAGCGTGGCGGTCTATGCCGGCGAAGCCGATCGCTGCAACAGCGATGCGCAGGGAAGCGAGGACTTCAGCCAGGCGCTGGCCGCCAACGCGCGGGTGCCGGAACCGGAGAAGCAGGTGCTGCGCTCGGCGCGGTCCGGGCTCGCCTGTTCGCAGGACGATGCCGGCGACGATGTCGACCCGCTGGCGTCACTGTCATCGTCGGCGGGCAAGGAGTTCGCGCGCTACCTGCTCGGAGCGGCGGCGTTCTACGCGGCCGACTTCGCCACCGCGGCCGCCGAGTTCGATGGCCTGCGCAAGGCGTCCGACCCCTGGGTGCGCGAGGCCGCGCGCTACATGCAGGCGCGGGTGGCGCTCAATGCCGCGCAGGCCGATGGCTTCGACGAATACGGGGTGCAGCGCAGCGCCGAGCATTTCGAACAGGCCGCGCTGGCGCGGGCCGAGCAGGGGTTCCGCGACTACCTGCATGCCTATCCGCGGGGCCGCTACGCCGATTCCGCGCGCGGGCTGATCCGCCGCGTCTACTGGCTGGGCGGCGATCGCGCGAAGCTGGCGCAGGAATACGAGCGCCTGATGCGCATCCCGGCCGCCGAACGTGGGGTGTCCGATGCCGACCTGGCGCAGGAGATCGATAGCAAGCTGCTCGACGGCGCGAGCGATCGCGATGTGCTGACCTCGCCGTTGCTGCTGGCGGTATCGGACCTGCAGTTGATGCGCGACGCCGAGGGTGGCCCGGCGCTGTCGCTCGAACAGCTGGAAGCGCAGCGCCCGCGCTTTGCATCGGAGCCGGCATTGTTCGCGCTGCTGCTGGCCAGCGCGCAGTTCTACATCGAGGGCGCGCCGAAGCAGGCGTTGCCGTTGCTGGACGAGGCGGTGCTCAAGGCGCCTCGTGGCAGCGTCGCGTTCTCCGCGGCGATGCTCAAGGGCATCGCGATGGACGCGGCCGGCACGCCGGCCCCGGCGGCCTACTGGCGCGCGCTGCTCGGCGGCGCCGAGCCGAGCCTGCAGCCGCCGCTGGCGCAGCTGGCGCTGGCGCTGCGGCTGGAGCGCGACGGTGCGCTGGACGAGGTGTTCGCGCCGGGCTCGCTGATCATCGACCGGCGCGTACGCGACCAGCTGCTGACCTACGCGGCAGGACCGGCGCTGCTGCGCCGCCAGGCGCTGGCCACCACGGTGCCGGCGCACGAGCGTGAGCTGGCCGCGTTCGTGCTGCTCTACAAGGAGCTCACCCGCGGGCAGCCGCAGGCCTTCCTCGCCGATCGTTCGGCGCTGGTGGAAGTGCCGCATCCGCAGGAGGCAACACCCGCGCCGGCGCTGGCCTGGCTGGCCTACGAACGAGCGCCGCTGAGCGTGTTCTCCGGTGCGTTCGCCAACGATTCGGCCTATGCGTGCCCGGCGATCGAGGTGGTCGCCGCGACCCTGGCAGGCACGCCCGGCGACGTGCACGCGCAGCTGTGCCTGGCCGATTTCATCCGACTGTCCGGCTTCGACCACGCCGCGATCGACCATGCGCCGGCAGCGGCGGAACTCGGCGGCGCGCCGTCGCAGTTCGCCGGTGCGATCTATGCGCGCCAGCCGGTCTACCAGCGCGTCATCGACGCGGCCACGGCGTCCGCCGAGGAGCAGGCCTACGCGCTGTATCGCGCGGTGTACTGCTATGCGCCGGGCGGCAGCAACGACTGCGGCGGTGCCGATGTGCCGGTCGCGCAGCGCAAGCGCTGGTTCCAGCAGCTGAAGACCCGGTTTCCGGCATCGGCGTGGGCGCAGGACCTGAAGTACTACTGGTGA	MEIGLSGLGRIAALLLGACVAAPAYASSDMGCEPRLVLEFGGFTGCAGNATLSPGNDTRVNLVLLMRDVAAAPAALPGGPAAPVFSWDMLAMALRPTQVDANGASVAVYAGEADRCNSDAQGSEDFSQALAANARVPEPEKQVLRSARSGLACSQDDAGDDVDPLASLSSSAGKEFARYLLGAAAFYAADFATAAAEFDGLRKASDPWVREAARYMQARVALNAAQADGFDEYGVQRSAEHFEQAALARAEQGFRDYLHAYPRGRYADSARGLIRRVYWLGGDRAKLAQEYERLMRIPAAERGVSDADLAQEIDSKLLDGASDRDVLTSPLLLAVSDLQLMRDAEGGPALSLEQLEAQRPRFASEPALFALLLASAQFYIEGAPKQALPLLDEAVLKAPRGSVAFSAAMLKGIAMDAAGTPAPAAYWRALLGGAEPSLQPPLAQLALALRLERDGALDEVFAPGSLIIDRRVRDQLLTYAAGPALLRRQALATTVPAHERELAAFVLLYKELTRGQPQAFLADRSALVEVPHPQEATPAPALAWLAYERAPLSVFSGAFANDSAYACPAIEVVAATLAGTPGDVHAQLCLADFIRLSGFDHAAIDHAPAAAELGGAPSQFAGAIYARQPVYQRVIDAATASAEEQAYALYRAVYCYAPGGSNDCGGADVPVAQRKRWFQQLKTRFPASAWAQDLKYYW				NA	NA	NA	NA	NA
BMS020_05441	1128	dnaJ_1	COG0484	Chaperone protein DnaJ	ATGAGCAAGCGCGACTACTACGAAGTGCTGGGCGTGGCCCGTACCGCCAGCGACGACGAGCTGAAGAAGGCCTATCGCCGCTGCGCGATGAAGTACCACCCGGACCGCAACCCGGGCGATGCCGCGGCCGAAGCCTCGTTCAAGGAGTGCAAGGAGGCCTACGAGGTCCTCTCCGACGGTAACAAGCGCCGCGCCTACGATGCCCATGGCCATGCCGCGTTCGAGCACGGCATGGGCGGCGGTGGTCCGGGCGGCCCGGACATGGGCGACATCTTCGGCGACATCTTCGGCAACATCTTCGGCGGCGCCGGTGGTGGTGGCGCGCGGCAGGCGCGGCGCGGCGCCGATATCGGCTACGTGCTGGAGCTGGACCTGGAAGAGGCGGTGGCCGGTGTCGAGCGCCGCATCGAGATCCCGACCCTGGTCGAGTGCTCGCCGTGCCACGGCAGTGGCTCGGAAGACGGCAAGGTCGAGACCTGCACCACCTGCGGTGGGCGCGGCCAGGTGCGCATCCAGCGCGGCATCTTCGCGATGCAGCAGAGCTGCCCGCATTGCGCCGGGCGCGGCCAGATCATCCAGAACCCCTGCAAGGCCTGCCATGGCGCCGGTCGTGTCGAGGAAGAGAAGACGCTGTCGGTGAAGATCCCCGCCGGCGTCGATACCGGCGACCGCATCCGCCTGGCTGGCGAGGGCGAGGCCGGTCCGGCCGGCACCCCGGCTGGCGACCTGTACGTGGAAGTGCGGGTGCGCGAGCACACGATCTTCCAGCGTGATGGCGACGACCTGCACTGCGAGGTGCCGATCCGGATCTCGCAGGCCGCGCTCGGCGACACGGTGCGCGTGGCCACGCTCGGCGGCGAGGCGGAGATCCGCATCCCGGCTGAGACCCAGACCGGCAAGCTGTTCCGCCTGCGCGGCAAGGGCGTGCGTTCGGTGCGCAGCCGCAGCGAAGGCGACCTGTACTGCCGCGTGGTGGTGGAGACCCCGGTCAACCTCACCGCCGCGCAGCGCAAGCTGCTGGAGGACTTCGAAGCCACCTTCACCGGCGAGGATGCGCGCAAGCATTCGCCGAAGTCGGCGACGTTCCTCGATGGCGTCAAGGGCTTCTGGGACCGGATGACCTCCTGA	MSKRDYYEVLGVARTASDDELKKAYRRCAMKYHPDRNPGDAAAEASFKECKEAYEVLSDGNKRRAYDAHGHAAFEHGMGGGGPGGPDMGDIFGDIFGNIFGGAGGGGARQARRGADIGYVLELDLEEAVAGVERRIEIPTLVECSPCHGSGSEDGKVETCTTCGGRGQVRIQRGIFAMQQSCPHCAGRGQIIQNPCKACHGAGRVEEEKTLSVKIPAGVDTGDRIRLAGEGEAGPAGTPAGDLYVEVRVREHTIFQRDGDDLHCEVPIRISQAALGDTVRVATLGGEAEIRIPAETQTGKLFRLRGKGVRSVRSRSEGDLYCRVVVETPVNLTAAQRKLLEDFEATFTGEDARKHSPKSATFLDGVKGFWDRMTS	PGPT0014545_4543	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686	NA	NA
BMS020_05442	1926	dnaK_3	COG0443	Chaperone protein DnaK	ATGGGCAAGATCATCGGCATCGACCTCGGCACCACCAACTCGTGCGTGGCGATCATGGACGGCGGCAAGGCCCGCGTCATCGAAAACTCCGAAGGCGACCGCACCACGCCTTCGATCGTCGCCTATACCAAGGACGGCGAAGTGCTGGTGGGTGCCTCGGCCAAGCGCCAGGCGGTCACCAACCCGAAGAACACCCTGTACGCGGTGAAGCGCCTGATCGGCCGCAAGTTCACCGACGCCGAAGTCCAGAAGGACATCGCGCACGTGCCGTACACCATCCTGGCGCACGACAACGGCGACGCCTGGGTGCAGAGCAGCGACGGCAAGAAGATGGCGCCGCAGGAAATCTCCGCGCGCGTGCTGGAAAAGATGAAGAAGACCGCCGAGGACTTCCTGGGCGAGAAGGTCACCGAGGCGGTCATCACCGTGCCGGCCTACTTCAACGACAGCCAGCGCCAGGCGACCAAGGACGCCGGCCGCATCGCCGGCCTGGACGTCAAGCGCATCATCAACGAGCCGACCGCGGCGGCGCTGGCCTATGGCCTGGACAAGAACGGCGGCGACCGCAAGATCGCCGTGTACGACCTCGGCGGCGGCACCTTCGACGTGTCGATCATCGAGATCGCCGAAGTCGACGGCGAGAAGCAGTTCGAAGTGCTGGCCACCAACGGCGACACCTTCCTCGGCGGCGAAGACTTCGACAACCGCGTCATCGAGTACCTGGTGGACGAGTTCCAGAAGGACCAGGGCATCGACCTGCGCAAGGATCCGCTGGCGCTGCAGCGCCTGAAGGACGCGGCCGAGCGCGCCAAGATCGAGCTGTCGTCCGCGCAGCAGACCGAAGTGAACCTGCCGTACGTGACCGCCGACGCCTCGGGTCCGAAGCACCTGAACATCAAGCTGACCCGCGCCAAGCTGGAAGCGCTGGTGGAAGACCTGATCAAGAAGTCGATCGAGCCGTGCCGCACCGCGCTGAACGACGCCGGCCTGCGTGCCAGCGACGTCAACGAGGTGATCCTGGTCGGCGGCCAGACCCGCATGCCGAAGGTGCAGACCGCAGTGGCGGAGTTCTTTGGCAAGGAGCCGCGCAAGGACGTGAACCCGGACGAGGCCGTGGCGCTGGGTGCTGCGATCCAGGGCGGCGTGCTGGCCGGTGACGTCAAGGACGTGCTGCTGCTGGACGTGACCCCGCTGTCGCTGGGCATCGAGACCATGGGCGGCGTGTTCACCAAGATCATCGAGAAGAACACCACGATCCCGACCAAGGCCTCGCAGACCTTCTCGACTGCCGAGGACAACCAGTCGGCCGTGACCGTGCACGTGCTGCAGGGTGAGCGCGAGCAGGCCCGCTTCAACAAGTCGCTGGCCAAGTTCGACCTGTCCGGCATCGAGCCGGCGCCGCGCGGCCTGCCGCAGGTGGAGGTGTCCTTCGACATCGACGCCAACGGCATCCTGCACGTCTCGGCCAAGGACAAGAAGACCAACAAGGAACAGAAGGTCGAGATCAAGGCCGGTTCGGGCCTGTCGGATGACGAGATCGCCCGGATGGTCGCCGACGCCGAAGCCAACCGCGAGGAAGACAAGAAGTTCCACGAGCTGGTCACCGCGCGCAACCAGGCCGATGCGCTGATCCACGGCACCCGCACCGCGATCACCGAGCACGGCAGCAAGGTGCCGGGCGACGTGATCGGCAAGGTCGAGTCGGCGCTGGCGGACCTGGAAACTGCGATGAAGGGCGACGACAAGGGCCAGATCGAGGCCAAGACCAAGGCGTTGGAAGAGGCTGGCCAGTCGCTGTACGCGGCTGCCGCCGCGGCCGAGCAGGGTGGTGCGACCGGTGGCGACGCCGGTGCGCAGCAGGCCCGCGGTGCCGCCGACGACGTGGTGGACGCCGAGTTCACCGAGGTCAAGGACGACAAGAAGTAA	MGKIIGIDLGTTNSCVAIMDGGKARVIENSEGDRTTPSIVAYTKDGEVLVGASAKRQAVTNPKNTLYAVKRLIGRKFTDAEVQKDIAHVPYTILAHDNGDAWVQSSDGKKMAPQEISARVLEKMKKTAEDFLGEKVTEAVITVPAYFNDSQRQATKDAGRIAGLDVKRIINEPTAAALAYGLDKNGGDRKIAVYDLGGGTFDVSIIEIAEVDGEKQFEVLATNGDTFLGGEDFDNRVIEYLVDEFQKDQGIDLRKDPLALQRLKDAAERAKIELSSAQQTEVNLPYVTADASGPKHLNIKLTRAKLEALVEDLIKKSIEPCRTALNDAGLRASDVNEVILVGGQTRMPKVQTAVAEFFGKEPRKDVNPDEAVALGAAIQGGVLAGDVKDVLLLDVTPLSLGIETMGGVFTKIIEKNTTIPTKASQTFSTAEDNQSAVTVHVLQGEREQARFNKSLAKFDLSGIEPAPRGLPQVEVSFDIDANGILHVSAKDKKTNKEQKVEIKAGSGLSDDEIARMVADAEANREEDKKFHELVTARNQADALIHGTRTAITEHGSKVPGDVIGKVESALADLETAMKGDDKGQIEAKTKALEEAGQSLYAAAAAAEQGGATGGDAGAQQARGAADDVVDAEFTEVKDDKK	PGPT0014555_2227	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043	NA	NA
BMS020_05443	519	grpE_2	COG0576	Protein GrpE	ATGAACCAAGACCACCCCGAATTCGACTCCGAAGATCCGTCCCAGAACCAGCCGTCCGCCGATCCGGTGCAGGACGAGCTGGAGGCCCTGCGCAGCGAGGTCGCCCTGGTCAAGGCCGACGCCCTGCGCGAGCGTGCCGACCTGGAGAACCAGCGCAAGCGCATCGCCCGCGACGTGGAGAACGCGCGCAAGTTCGCCAACGAGAAGCTGCTTGGCGAGCTGCTGCCGGTGTTCGACAGCCTCGACGCCGGGCTGACCGCCGCCGGCAGCGAGCCGAGCCCGCTGCGCGACGGCCTGGAGCTGACCTACAAGCAGCTGCTGAAGGTCGCCGCCGACAACGGCCTGAGCCTGCTCGACCCGACCGGCCAGCCGTTCAACCCCGAACACCACCAGGCCATCAGCCAGGTCGACGCCTCCGGCGTCGCCCCGGGCCATGTCGCCCAGGTGTTCCAGAAGGGCTACCTGCTCAACGAGCGCCTGCTGCGCCCTGCGCTGGTGGTCGTCGCCAGCGAAGGCTGA	MNQDHPEFDSEDPSQNQPSADPVQDELEALRSEVALVKADALRERADLENQRKRIARDVENARKFANEKLLGELLPVFDSLDAGLTAAGSEPSPLRDGLELTYKQLLKVAADNGLSLLDPTGQPFNPEHHQAISQVDASGVAPGHVAQVFQKGYLLNERLLRPALVVVASEG	PGPT0014650_3574	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0014650-grpE-K03687	NA	NA
BMS020_05444	1050	hrcA	COG1420	Heat-inducible transcription repressor HrcA	ATGCGCGCTTCATCCACGCCCTCGCTCGATCCCCGTGCCCGCCAGCTGCTGCGGACGCTGATCTCGCGCTATATCCGCGACGGCGAGCCGGTCGGCTCCAAGACCCTGGCCCAGCATGCCGGGCTGGACGTCAGTGCCGCCACCATCCGCAACATCCTGGCCGACCTGGAGGACGTGGGGCTGTTGGCCTCGCCGCATACCTCGGCCGGGCGGGTGCCCACCGCGCACGGCTACCGGGTGTTCGTCGACAGCCTGGTGCAGATGCAGCCGCCGGCCGAGGACGAGGTGCGCCGGCTGCGCGCCGAGCTGGCGCCGGGGGCGGGCACCCAGTCGCTGCTGGGCAGCGCCTCGGAGATGCTGTCGGCGATGAGCCACTTCGTCGGCGTGGTCAGCGCGCCACGCCGCGAGCAGTTCGCCTTCCGCCACATCGATTTCGTCGCGCTCGACGCCCGCCGCGTGCTGGCGATCCTGGTGTTCGCCGACAACGAGGTGCAGAACCGGGTGATCGAGCCGCGCCGCAGCTACGACCCGGCCGAGCTGGAGCGGGTCGCCAACTACCTGAACGCCCACTTCGCCGGCCGCGCGCTGGCCGACATCCGCGCCAGCCTGCTGCGCGAGCTGCGCCTGGCCAAGGACGAGATGGAGCAGGTGCTGGCGCACAGCGTCGACCTGGCCGGCGAGGTGCTGCAGCCGGCGTCCGGCGAGGACATGCTGCTGGCCGGGCAGACCCGCTTGATGGGGGTGCAGGACCTGTCCGACCTGGACCGGCTGCGCGAGCTGTTCGAGGCCTTCGCCAGCAAGCGCGAGATCCTGCAGTTGCTGGAGCGCACGATCCAGGCCCCGGGCGTGCGCATCTTCATCGGCGAGGAGACCGGTGTGGTGTCGCTGGAGGACGTCTCGCTGGTCACCGCGCCGTATGCCGCGCACGGGCAGGTGCTGGGCGTGCTGGGGGTGATCGGGCCCAAGCGCATGGCCTACGACCGGCTGATCCCGCTGGTGCAGACCGCTGCCGAGGTGCTGGGCGCGGCGATGGAGCCGCCAGAGCGCTGA	MRASSTPSLDPRARQLLRTLISRYIRDGEPVGSKTLAQHAGLDVSAATIRNILADLEDVGLLASPHTSAGRVPTAHGYRVFVDSLVQMQPPAEDEVRRLRAELAPGAGTQSLLGSASEMLSAMSHFVGVVSAPRREQFAFRHIDFVALDARRVLAILVFADNEVQNRVIEPRRSYDPAELERVANYLNAHFAGRALADIRASLLRELRLAKDEMEQVLAHSVDLAGEVLQPASGEDMLLAGQTRLMGVQDLSDLDRLRELFEAFASKREILQLLERTIQAPGVRIFIGEETGVVSLEDVSLVTAPYAAHGQVLGVLGVIGPKRMAYDRLIPLVQTAAEVLGAAMEPPER				NA	NA	NA	NA	NA
BMS020_05445	1662	recN_2	COG0497	DNA repair protein RecN	ATGCTCAGACATCTCTCGATCAAGGATTTCGCCGTTGTCCGCGCCACCGAGCTGGAGTTCGGCCCCGGCATGACCGTGGTCTCCGGCGAGACCGGCGCCGGCAAGTCGCTGATGGTGGACGCGCTCGGCTTCCTGTCCGGGCTGCGCGCCGACTCCGGCGTGGTCCGCCACGGCGCCGAGCGCGCCGAGCTGTCGGCCGAGTTCGCCCTCGACGACGGCCCGGCCCGCGCCTGGCTGGTCGAGAACGCGCTCGACGACGAGGACCAGTGCCAGCTGCGCCGGGTGATCCGCGCCGACGGCGGCTCGCGGGCCTGGATCAACGGCCGCCCGGTGACGTTGTCGCAGCTTGGCGAGCTGGCCGGCCACCTGGTCGAGATCCACGGCCAGCACGAGCACCAGGCGCTGCTCTCGCGCCCCAGCCAGCTGGCGCTGCTCGATGCCTATGCGCGCAACGCCGCCGAGCGCGAGCAGCTGCGCCTGGCCAGCAACCGCTGGCAGGCCCTGCTCGACGAACGCGAGGCCCTGGCCGGCCAGGGCGACGTCTCCGACCGCATCGGCTTCCTTGAACACCAGCTGGCGGAACTCGAACGCGAGGACCTGGAGCCGGCGGCGATCGCCGCGCTCGACGCCAACCACCGCCGCCAGGCCCATGCCACCGCGCTGATCGGCGCCTGCGAGCGCGTCGCCGGCCAACTCAATGGTGACGACGGCGAGTCCGTGCTCGGTCTGCTGCAGGGCGGCCGCCACGAGCTGTCGCGGGTCGCCGAGCACGAACCGCGGCTGCGCGAGGTCGACGCGCTGCTCGACAGCGCCGCGATCCAGCTCGACGAGGCGCTGGCGCTGCTCGACCGCATCCGCGACGACCTCGATGCCGATCCCGAGCAGTTCGAGGCGATGGAACGCCGGCTCGGCCGCCTGCACGACCTGGCGCGCAAGCACCGGGTCGCCCCGGACCAGCTGGCCGAGCAGCGCGACCGCATGAGTGCCGACGTCGAGGCGCTGCGCGGCGCCGACGTGCGCCTGCAGAAGATCGACGCGCTGATCGCCGATGCCAGCGCCGACTGGCGCCAGGTCGCCGCCGCGCTGAGCGCGACCCGCAGCACCGCCGCGACCACGCTCGGCGCCGACACCACCGCATTGATCGCCGAGCTCGGCATGGGCGGCGGCCGCTTCCTGATTGAACTGCAGCCGCAGGACAACCAGCGCCCGGACCCGAATGGCGCCGAGCGGGTGGAATTCCTGGTCGCTGCCAACGCCGGCCAGCCGCCGCGGCCGCTGCGCAAGGTCGCCTCCGGCGGCGAGCTGGCACGCATTTCGCTGGCGATCGAAGTCGCCACGCTGGGCCTGGACGCGGTGCAGACGATGGTGTTCGACGAGGTCGACACCGGCATCGGCGGCGCCGTGGCCGACATCGTCGGGCAGAAGCTGCGCGCGCTCGGCGAGCAGCGCCAGGTGCTGTGCGTGACCCACCTGCCGCAGGTCGCGGCCAAGGGCCACACCCATTACCGGGTCAGCAAGGCCCCGGTCGATGGCATGACCCAGAGCGCGGTCGAACGGCTGGACGCGACCGGCCGCCAGGAAGAGCTGGCGCGGATGCTCGGCGGCGTCGACGTCAGCAAGGAAGCCCGCGCCGCCGCGCGCAAGCTGCTGCAGGACGCCTGA	MLRHLSIKDFAVVRATELEFGPGMTVVSGETGAGKSLMVDALGFLSGLRADSGVVRHGAERAELSAEFALDDGPARAWLVENALDDEDQCQLRRVIRADGGSRAWINGRPVTLSQLGELAGHLVEIHGQHEHQALLSRPSQLALLDAYARNAAEREQLRLASNRWQALLDEREALAGQGDVSDRIGFLEHQLAELEREDLEPAAIAALDANHRRQAHATALIGACERVAGQLNGDDGESVLGLLQGGRHELSRVAEHEPRLREVDALLDSAAIQLDEALALLDRIRDDLDADPEQFEAMERRLGRLHDLARKHRVAPDQLAEQRDRMSADVEALRGADVRLQKIDALIADASADWRQVAAALSATRSTAATTLGADTTALIAELGMGGGRFLIELQPQDNQRPDPNGAERVEFLVAANAGQPPRPLRKVASGGELARISLAIEVATLGLDAVQTMVFDEVDTGIGGAVADIVGQKLRALGEQRQVLCVTHLPQVAAKGHTHYRVSKAPVDGMTQSAVERLDATGRQEELARMLGGVDVSKEARAAARKLLQDA				NA	NA	NA	NA	NA
BMS020_05446	411	fur_2	COG0735	Ferric uptake regulation protein	ATGGAATCACACGACCTGCGCAAAGTCGGTCTCAAGGTCACGCATCCGCGGATGCGCATCCTCGAGCTGCTCGAGCAGAAGAGCGCCCAGCACCATCTGAGCGCCGAGGACATCTATCGCCAGCTGCTTGAGCATGGCGACGAGATCGGTCTGGCCACGGTCTACCGGGTGCTGACCCAGTTCGAGGCCGCCGGGCTGGTGCTCAAGCACAATTTCGAAGGCGGCCAGGCCGTCTACGAACTGGATCGCGGCGGCCACCACGACCACATGGTCGACGTGGACACCGGCAAGATCATCGAGTTCGAAAGCGAGGAGATCGAGGCGCTGCAGCGCCAGATCGCCGCCCAGCACGGCTACGAGCTGGAGGAGCACTCGCTGGTGCTGTACGTGCGCAAGAAGCGCGGCCGCTGA	MESHDLRKVGLKVTHPRMRILELLEQKSAQHHLSAEDIYRQLLEHGDEIGLATVYRVLTQFEAAGLVLKHNFEGGQAVYELDRGGHHDHMVDVDTGKIIEFESEEIEALQRQIAAQHGYELEEHSLVLYVRKKRGR	PGPT0003880_4574	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003880-fur|furB|zur-K03711	NA	NA
BMS020_05447	393	bamE_2		Outer membrane protein assembly factor BamE	ATGCGCAATCTCCTGCTGGTCGCCGCTGTTGCCCTCTCCACCGCTGGCTGCGGCATCATCTACAAGCAGCCTATCTACCAAGGCAACCTGATCAAGCAGAGCGCCGTGGAACAGCTGCAGGTCGGCCAGAGCAAGCAGCAGGTGTCCGCGCTGCTGGGCACGCCGTCGATCCCGGACCCGTTCCACGCCCAGCGCTGGGACTACACCGCGACCCAGCGTACCGACCGCCTGGCGCACACCGAGATCAAGAACTTCACCGTCTACTTCCAGAACGACCAGGTCGTGCGCTGGGATGGCGAGTACTTCCCGGAACAGGACCTGGAGCTGGCCAAGGCCGCCCCGCGCCAGTTCGGCCGCAACCTGGCCAAGGACAAGAAGAAGGGCGGCCGCTGA	MRNLLLVAAVALSTAGCGIIYKQPIYQGNLIKQSAVEQLQVGQSKQQVSALLGTPSIPDPFHAQRWDYTATQRTDRLAHTEIKNFTVYFQNDQVVRWDGEYFPEQDLELAKAAPRQFGRNLAKDKKKGGR				NA	NA	NA	NA	NA
BMS020_05448	255			hypothetical protein	GTGCGCGTGGAGGTCGTCATCGCCTGGCCGGAGCGTGCACAGCGCCGGATCGTCGAGGTGCCTGATGGTGCCCGGGTGGCCGATGCGGTTGCCGCCGCCGGGCTGGACCCGGCGGGCGAAGCGGTCGCGCTGGCGGTACACGGGCTGCTCGCGCGGGGCGACCAGGTCCTGCATCCGGGCGACCGGGTGGAACTGCTCAGGCCGTTGCTGGTCGACCCGAAGGAGGCCAGGCGCCGACGCGCCCGGCCAGCCTGA	MRVEVVIAWPERAQRRIVEVPDGARVADAVAAAGLDPAGEAVALAVHGLLARGDQVLHPGDRVELLRPLLVDPKEARRRRARPA	PGPT0027445_1364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-RatA-RatB|YfjG-YfjF|RatAB-SsrAS_SYSTEM,PGPT0027445-antitoxin_ratB|yfjF|pasI-K09801	NA	NA
BMS020_05449	432	pasT	COG2867	Persistence and stress-resistance toxin PasT	ATGCCTACCATTCGCCGTAGCGCCCTGGTCGAACACAGTGCCGCGCGCATGTTCGACCTGGTCAACGATGTCGCCGCCTATCCCCGCCGTTTCGCCTGGTGCGATGCCGCGCACCTGCTGGAGCAGGGCGAGCATCGGCTGGTGGCCCGGCTCGACCTGGGGCTGGGTTCGTTCCGCACCTGGTTCACCACCGAGAACACGCTGGACCGCCCGCACCGCATCGACATGGCGCTGCGCGACGGCCCGTTCAAGCGCCTGGACGGGCGTTGGGAGTTCCATGCGCTGGACGAGAACGCCTGCAAGGTCAGCCTGAGCCTGGATTTCGAGCCGACCTCGCGGCTGCTGGGGCCGGCGCTGGCGCTGGGCTTCCAGGGGCTGGCCGACCGCATGGTCAACGACTTCGTGCGCGTGGCCGACCGCGAAGAGGGCTGA	MPTIRRSALVEHSAARMFDLVNDVAAYPRRFAWCDAAHLLEQGEHRLVARLDLGLGSFRTWFTTENTLDRPHRIDMALRDGPFKRLDGRWEFHALDENACKVSLSLDFEPTSRLLGPALALGFQGLADRMVNDFVRVADREEG				NA	NA	NA	NA	NA
BMS020_05450	504	smpB_2	COG0691	SsrA-binding protein	ATGAGCAAGAAACCCGCCAAGGATAAAGCAAACGGCGCGACGGCCAACAAGACCATCGCCCTGAACAAGCGTGCACGCCACGAGTACCACATCGAGGAACGCTTCGAAGCCGGCATGGCGCTGCAGGGCTGGGAGATCAAGTCGATCCGCGCCGGCCGTGCCAACATCATCGACGGCTACGCCCATATCCGCGGCGGCGAGCTGTTCCTGGTCGGCGCGCAGATCACCCCGTTGATCCAGGCCTCGACCCATGTCGTGGCCGAGGAACGCCGCACCCGCAAGCTGCTGCTGCACCGGCGCGAGATCGACAAGCTGATCGGCCGGGTCGAGCGCGATGGCTACACGATCGTGCCGACCGCGATGTACTGGAGCAAGAACAAGATCAAGCTCGAAGTGGCGCTGGCCAAGGGCAAGCAGGACCACGACAAGCGCGACGCCGCCAAGGACCGCGACTGGGCCCGCGACAAGCAGCGCATCATGCGCCGCCACAACCGCGACGCCTGA	MSKKPAKDKANGATANKTIALNKRARHEYHIEERFEAGMALQGWEIKSIRAGRANIIDGYAHIRGGELFLVGAQITPLIQASTHVVAEERRTRKLLLHRREIDKLIGRVERDGYTIVPTAMYWSKNKIKLEVALAKGKQDHDKRDAAKDRDWARDKQRIMRRHNRDA	PGPT0014355_276	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
BMS020_05451	2415			hypothetical protein	ATGACGGCTGGATCGAGTGGCGGCGGCAAGGCCGGAATGCGGCGCGATGCGCTGCCGGGCATCGCGGGCGAGGCGCCGTCGATGCAGGCGGCGATGGCGCTGGCGCAGGGGCGGGCGCGCACCGTGGTGTACGTGCACGGGATCGGCAACAAGCCGCCGGCGGAGGTGCTGCGTGCGCAGTGGGACCGGGCCCTGTTCGGGCATGCGATGGGCGAGCGCACGCGCATGGCGTACTGGGTCAACCGCGAGCGCTACCCGGTGCCGGAGGCCGCCGACCCGGGCGGGCGCGATGCCGGGCCGACCCTCGCGCCGGCCGAGCAGCGGGTGCTGGGCGCGCTGGGCTGGATGCCGGACGCCGAGAGCCTGGAGGCATTGGCCGGCCGCATCGCCGGCTCGGCGCGCGAGCGCGAGGATCTGCTGCGGCTGTTGGCCGAGTTGCAGCGTGTCGAGGCAGGCGCGGCGGGGCCGCAGGCCAAAGGCGTGATTGATGTGGTCAACCGCACCCTGCTGCGGCTGGTGTCGGCGGCGCTGCTGCAGGACGTGCACGACTTCTTCTACGTCCGCGCGCGGCGCGAGGCGATGCGTGCCGCATTGTTGGAGCGCCTGCGAGCCGGGGGCGGCCCGTTCGTGGTGGTCGCGCACAGCCAGGGGTCGATGATCGCCTACGACGTGCTGCGCGAACTGGCGCGCGACGAGGTCGATGTGCCGCTGTTGCTGACCATCGGTTCGCCGCTGGGCCTGCCGGTGGTGCGCAGCATGTTCAAGCATTGGACCAGGACCCGCAAGCTGCCGTTCCCGGCCTGCGTCGGGCGTTGGGTGAACGTTGCCGAGCGGCGCGATCCGGTTACCTTCGACGACGACCTGGGCGACGACATCGGTGGCGCGCGCGGGCGCTTCGTCAACATCGCCGGCACGGGCATCAACCTCGATGCGCGGCGCGACCCGCATTCGGCCTCGGGTTACCTGTCAATCGCCCAGGTGCGGGCCGAGGTCCGTGCGGCGGTCGGCGTCGGCTTCGACCAGCCGGTCGCCAACACCGTGCTGCTGAAGGACCTGTCCGAGCAGCTGGAGGCGCGCAGTGCCGCGCACCGGCATGAGGTGCTGATCGAGCTGGACCGGCTGGCGCCCGGGCGCGACATGGAGCGTGCGCGTGCGCAGCTGGTGGACTGGCTGCGCGCCCTGGTCGCGGCGACGACCGGGCTGCGCGGCGCGCGCGTCGACGAGACGATGATGCTGGAGGATGGCCTGCAACGTTACGTGGCGGCGCGGCTGACCCGGTTCGAGATCGAGGCGCTGCGCGACCGCCACCGCGCGCTGGGGTTCAAACGGCTGTGGCGCGATGCCGGCAAGCGTGCGCTGGTGCGCGAGTCGCGCGCGGTGATCCATGCCGACGCGGCGCAGGTCGCCTACGGCGCGCGCGGGCAGGGCATCGGCTGGGCGGTGCTGGATACCGGCATCGCCGCGGCGCATCCGCACTTCTACGATCCCGAGTTGCGCGACAGCGTCGTCGAGCAGTGGGATTGCACTCAGCGCGGCAAGCCGCGGCGGCTGCAGCGTGGCGACGGCGAGGCGTTCGCGCGGCTGGATCGCAACGGCCACGGCACCCACGTCGCCGGGATCATCGCCGGTCACTGCGATGCGGCGTTGCCGCTGGCCGATGGCAGCGCCGGGCCGGCGCAGGCGTTCGCCGGGATGGCGCCGGACGCGCGGCTGTATGGCTTCAAGGTGCTGGGTGACGACGGCGAGGGCAATGATGCGTGGATCCTCAAGGGCATCCAGCAGGTCGCCGAGATCAACGCGCGCGCCGGCGAGCTGGTGATCCATGGGGTCAACCTCAGCCTGGGTGGCAATTTCGACCCGGAGAACTACGGCTGCGGTTTCACCCCGATCTGCAACGAGCTGCGCCGGCTGTGGCGGCAGGGCGTGGTGGTGGTGCTGGCGGCCGGCAACGAGGGCATGGCCTGGCTGTTGCAGGGCGATGGCGAGGCCTATCCGGCCAACATGGATCTGACCATCGGCGATCCGGCCAACCTGGAGGAGGCGATCGCGGTCGGCTCGGTGCACAAGAGCCAACCGCACAACTACGGTGTCTCCTACTTCTCCTCGCGCGGCCCGACCGCCGACGGGCGCGCCAAGCCTGACGTGGTCGCGCCCGGCGAGAAGATCCTGTCGGCGCACCACGATTTCCGCGCGGGCGATCCGCTCAGCCTGATGGTGGAGATGAGCGGCACCAGCATGGCCGCGCCGCACGTGGCGGGGCTGGTCGCCGGGTTCCTGTCGGTGCGGCGGGAGTTCATCGGCTTCCCCGACAAGGTCAAGCAGCTGCTGCTGGACAGCTGCGTCGATCTGCAGCGCGACCGTTACGCGCAGGGGCGCGGCATTCCCAACCTGGTCAAGATGCTGGCCGCGACCTGA	MTAGSSGGGKAGMRRDALPGIAGEAPSMQAAMALAQGRARTVVYVHGIGNKPPAEVLRAQWDRALFGHAMGERTRMAYWVNRERYPVPEAADPGGRDAGPTLAPAEQRVLGALGWMPDAESLEALAGRIAGSAREREDLLRLLAELQRVEAGAAGPQAKGVIDVVNRTLLRLVSAALLQDVHDFFYVRARREAMRAALLERLRAGGGPFVVVAHSQGSMIAYDVLRELARDEVDVPLLLTIGSPLGLPVVRSMFKHWTRTRKLPFPACVGRWVNVAERRDPVTFDDDLGDDIGGARGRFVNIAGTGINLDARRDPHSASGYLSIAQVRAEVRAAVGVGFDQPVANTVLLKDLSEQLEARSAAHRHEVLIELDRLAPGRDMERARAQLVDWLRALVAATTGLRGARVDETMMLEDGLQRYVAARLTRFEIEALRDRHRALGFKRLWRDAGKRALVRESRAVIHADAAQVAYGARGQGIGWAVLDTGIAAAHPHFYDPELRDSVVEQWDCTQRGKPRRLQRGDGEAFARLDRNGHGTHVAGIIAGHCDAALPLADGSAGPAQAFAGMAPDARLYGFKVLGDDGEGNDAWILKGIQQVAEINARAGELVIHGVNLSLGGNFDPENYGCGFTPICNELRRLWRQGVVVVLAAGNEGMAWLLQGDGEAYPANMDLTIGDPANLEEAIAVGSVHKSQPHNYGVSYFSSRGPTADGRAKPDVVAPGEKILSAHHDFRAGDPLSLMVEMSGTSMAAPHVAGLVAGFLSVRREFIGFPDKVKQLLLDSCVDLQRDRYAQGRGIPNLVKMLAAT				NA	NA	NA	NA	NA
BMS020_05453	2133	btuB_9		Vitamin B12 transporter BtuB	ATGCGCCAACGTTTCCCGCGTCGCTCCCCGCTGTTCCTGTCCCTCTCCCCGCTCGGCCTGCTGGCCTGCATCACTTCCCCCGCCGCACGCGCCGACGCGCCCGACCAGGCGGTGACGCTGGATGCGGTCAAGGTCAACGCCAATGCCGACGATCTGGCCAAGGCCCGCGCCGCGCTGAAGGCGGTGCCCGGTGCCGGCAATGTCATCGACCTGCAGCAGGTCGAACAGGGCCGCACCGGCGGCAATGCCGACGTGCTGGCCTACCAGCCCGGCATCTATGCGCAGTCGCCCGGCAACGAGGGCATCAAGGTCTCGATCCGCGGCTCGGGCATCAACCGCGCGCCCGGCGCGCATGCCTCCGGTGTGTCGGTGTCGCTGGACGGCCTGCCGCTGACCTTCTCCGGCGGCACGCCCTACGAACTGCTGGAACCGCTGTGGCTGAGCCGGGTCGAGGTGCTGCGCGGCGCCAACGGCTTCGACCGCGGCGCGCTCACCCTGGGCGGCGCGATCAACTACGTCAGCCGCAGCGGCCGCGACGCGCCCGGGCTGGAGCTGCGCTACGAAGGCGGCAGCTACGGCTACCGCAAGCGCAGCCTCGGCTATGGCGGCGTGCAGGGCGATGTCGACTATTACTTCGCCTACACCGACACCGACTACGACGGCTACCAGGCGCATGCCTCCGGCAGCGGCAAGGGCGCGATGGCGAACATCGGCTGGCAGATCAATCCCGACCTGGTGACGCGCTTCTTCGTGCGCTACCGCGAGACCGAGCACGACACGCCCGGGCGCCTGACCCAGGCGCAGATCCGCAGCAATCCGCGCGCGGCCAACCCGAGCTATGTGGCGATCGATGCACGCCGGCCACAGCCGGGCAGCACCTGGATCGGCAACACCACCACGCTGCAGCTCGACGATGCCTCCACGCTGACCGCCGGGCTGGTCTACCACAAGTTCCCGATGGACTTGAACGAGAGCCTGTACCGCCAGCAGCTCGACTACGCCGACCTCAACGGCACGCTCGATTACCGCCATCGGCACACGCTGTTCGGCCGCGACAGCGTGACCACGGTCGGGCTGCGCGTCACCCACGACCTGGAGGCGAACGTGCGCGAGACGCTGCGCTATGCCAGCAACGGCTACCCGGCCGGCACGCTGACGCGGCGCTTCGAACATCTCGGCACCGACAGCGTGCTGCATGCCGGCAACGACCTGGCGCTGACGCCGGATTTGCACCTGGTCACCGGGCTGGCGCTGGTGCACACCAGCCGCGACGTCGCGGTGACCTGGCCGAGCAGCGGCGGCCATCTGTCCGAACACAGTTGGGACTATGCGCCGCGCTTGGGCATGACCTGGCAGGCCACGCCCGGCGTGCAGCTGTTCGGCAACCTCAGCCGTTCGGTCGAACCGGCGCATCCGTGGTCGATGATCTGGGGCTCGGGCCGCTATTTCGCCGCCGGCAATGGGCCCTCGAGCGGTCGCCAGAGCACGCCGGTGCACCTGGACAACCAGACCGCCGACACCCTGGAACTGGGTGCGCGCGGCGACAACGCGCTCGGCCATTGGGAGCTGACCGGCTACTACAGCAACGTGCGTCATGAGCTGCTGACCGTGGCCACCCAGACCGAGCCGACGCTGGTCGTGGCCGAATCCAATGCCAGCCCGACCGTGCATCGCGGCATCGAGGCCGGGTTGGACAGCACGCTGTGGCGTGGCGATGCCGGCAGCCTGTCGCTGCGCCAGGCCTACACCTTCAGCGACTTCCGCTACCGCCACGACGCCACCTTCGGCGACAACGTACTGCCCGGCCTGCCGCGCCACTACTACCAGGCCGAACTGCGCTACGCGCATCCGAGCGGCCTGTACGCCGCGCTCAACACCGAGTACGCCTCGAAGATGGCGGTGGACTACGCCAACAGCGTCTGGGCCGACGGCCACCTGATCTTCGGCACCCGGGTCGGCTACGACGCACCGGGTGGGCGCTGGCAGGCCTGGGTGGAAGCGCGCAACCTCGCCGACCGCCACTACGCGGCGACGATCACCCCCGGCTACAACGACGCCGGCGCCGATGCGGCACGCGCCACGCCGGGCGAAGGTCGCGGCGTGTATGCCGGGGTGAGCTGGCGCTTCGACTAA	MRQRFPRRSPLFLSLSPLGLLACITSPAARADAPDQAVTLDAVKVNANADDLAKARAALKAVPGAGNVIDLQQVEQGRTGGNADVLAYQPGIYAQSPGNEGIKVSIRGSGINRAPGAHASGVSVSLDGLPLTFSGGTPYELLEPLWLSRVEVLRGANGFDRGALTLGGAINYVSRSGRDAPGLELRYEGGSYGYRKRSLGYGGVQGDVDYYFAYTDTDYDGYQAHASGSGKGAMANIGWQINPDLVTRFFVRYRETEHDTPGRLTQAQIRSNPRAANPSYVAIDARRPQPGSTWIGNTTTLQLDDASTLTAGLVYHKFPMDLNESLYRQQLDYADLNGTLDYRHRHTLFGRDSVTTVGLRVTHDLEANVRETLRYASNGYPAGTLTRRFEHLGTDSVLHAGNDLALTPDLHLVTGLALVHTSRDVAVTWPSSGGHLSEHSWDYAPRLGMTWQATPGVQLFGNLSRSVEPAHPWSMIWGSGRYFAAGNGPSSGRQSTPVHLDNQTADTLELGARGDNALGHWELTGYYSNVRHELLTVATQTEPTLVVAESNASPTVHRGIEAGLDSTLWRGDAGSLSLRQAYTFSDFRYRHDATFGDNVLPGLPRHYYQAELRYAHPSGLYAALNTEYASKMAVDYANSVWADGHLIFGTRVGYDAPGGRWQAWVEARNLADRHYAATITPGYNDAGADAARATPGEGRGVYAGVSWRFD	PGPT0003790_21418	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_05454	960			hypothetical protein	ATGGACACCATCGACGCGCAAGACGCGCAGCAGCTGCACGAGGACGCCTACGCGGCGATGGAGCGCGGCGACCTGCACGAGGCGGTGCGTGGATTCAGCGCACTGGTCGCCCTGGCGCCGGAGCGCCCGGGCTACCACTACATGCTCGGCCTCGCGCACAAGTACCTGTGCGAGTGGCCGGCCTCGCTGCGGCACAACCTGCGCGCGATCGAACTGGATGACGCGCCCAACGAAGGCGCACGCTGGAATGCCGGCATCGCCGCCACCGCACTGGGCGATTGGGCCGAAGCGCGCCGCCAGTGGGCCGCCTGCGGCATCGCCGTGCCGGAAGGCGACGGACCGATCGACGGCGATTTCGGTGTCGCGGTGGTCAGGCTGCACCCATGGTCGGGCGGGGAAACGCTGTGGATGCGCCGCATCGATCCGGTCCGCGCGCGCCTGCTCAACGTACCGCTACCCGAAAGCGGCCATTGCTTCGGCGACATCGTGCTGCACGACGGCGCCGCCACCGGCACGCGCCGCAGCGGCGAACGCGATGTCCCGGTCTTCAATGCGCTGGAACGACTGCAATCCTCGGACTTCCAGACCTTCGTCGCCTTCGTGCGCTGCGACGACCAGGCCGCGCTGGACGACCTGCTCGATGCCAGCGCACCGGGGCTGGGGTACCTCGAGGACTGGACCACCGGCATGGTCAATTACTGCATGCGCTGCAGCTACGGCACGCCGCATTCGCACGCCGATGCCAGCGATCCGGCCGAGTGGGATCCCGACCATACGATCGGCATCGCCGCACAAAGCCGGCGCACCGTCGACACCCTGCTCAATGCCTGGACCGCGCGCGGCGAGGCCCGCCATGTCGAGGCGATCGAACGCAACGCGCAGCCGATCCCCGCGCAGGACCCGACGGACCACCACGCTTGGTGGCGCTCGCCCGAGCCGGACCCGGCGGACGCCGGATAG	MDTIDAQDAQQLHEDAYAAMERGDLHEAVRGFSALVALAPERPGYHYMLGLAHKYLCEWPASLRHNLRAIELDDAPNEGARWNAGIAATALGDWAEARRQWAACGIAVPEGDGPIDGDFGVAVVRLHPWSGGETLWMRRIDPVRARLLNVPLPESGHCFGDIVLHDGAATGTRRSGERDVPVFNALERLQSSDFQTFVAFVRCDDQAALDDLLDASAPGLGYLEDWTTGMVNYCMRCSYGTPHSHADASDPAEWDPDHTIGIAAQSRRTVDTLLNAWTARGEARHVEAIERNAQPIPAQDPTDHHAWWRSPEPDPADAG				NA	NA	NA	NA	NA
BMS020_05455	561			hypothetical protein	ATGCAACTGCGGATGCAGGCGTTGACGCGTGCGTGCTGGCACGACCTGGAGGCGCTGTTCAATGCCCGCGGTTGCGGCGAGGCGCGGCGCTGCTGCTGGTGCATGTTCTACCGGATCCGCGGCCGGCTGCAGGCGGCCACGCTGGCGCGCGCGCAGCTCGAGGCGCTGGCCGGCGTCGATCCGCCGCCGGGCCTGCTGGGATATCGCGACGGCGTTGCGGTGGGCTGGGTCTCGCTCGGGCCGCGCGAGGATTACGCCAAGCTGGCGACGTCGCCGCTGATGAAGCCGGTGGATGCGCTCGCGGTGTGGTCGATCGTCTGCTTCGTGGTGCCTTCCGAACACCGGGGCCAGGGCGTGGCGCGCGCATTGCTGCAGGGCGCGGTCGCCTATGCGCGGCAGCGCGGTGTTGCCTGGCTGGAAGCCTATCCGCTCGATACGGAGGTGCCGGGGCATGCCAAGGCCGACTGGTTCGGCTCGCGCCGCATGTTCGCCGAGGCCGGTTTCGTCGAGATCGCGCGGCGACGCGCGGATCGGCCGGTGATGCGGCTGGCGCTGGGATGA	MQLRMQALTRACWHDLEALFNARGCGEARRCCWCMFYRIRGRLQAATLARAQLEALAGVDPPPGLLGYRDGVAVGWVSLGPREDYAKLATSPLMKPVDALAVWSIVCFVVPSEHRGQGVARALLQGAVAYARQRGVAWLEAYPLDTEVPGHAKADWFGSRRMFAEAGFVEIARRRADRPVMRLALG				NA	NA	NA	NA	NA
BMS020_05456	1578	pdeB_2	COG4943	putative cyclic di-GMP phosphodiesterase PdeB	ATGAGCCGACGAACCGTACTGCTGCTGGCGACCCTGCTGGCCCTGATCGCCGGTGTCGCGCCGTTGCTGGCGTTCTTGGTGTTGTCGCGGGAGCGGGCGGTGGAGGGCGAAAAGGCCCATCTGAACGACTACGCCAACTGGACCCTGACGCGCGCATCGCTGACCCTTGACCAGGGCAAGGACGCATTGCACGCGCTCGAGCGCGAGGGCTGGGACGACTGCTCGCCGGCGCACATCGACCGCATGCGCCGGCTGACGCTGCAGAACCGCGCGGTCGACGAGATCGGCTTCTTCAGGGACGGCAAGCTGGCATGTACCAGCTGGGGCGTGGTCGATCGGGCGATCCCGCAGAACACGCCGGACTACAACCTGGGCGACGGCTTCGGCCTGTACCTGGGCATCAAGCCGATGGTGACCCAGGCCGGGCCGATGATGGCGCTCAGCGACGGCCGCCACAACGCGTTGATCAGTCCCGGGCGCATGGTCGACGTGCTGCTCGACAAGAAGATGACCATCGGCGTGTCCACCGGCGACGGCCAGGTGATCGCGGTGTCGGCCGATGCCGATCCGGCGTTGGTGCGGCAGTTGGGCGAGCAGACCGGCCAGGGTATGGATGCGCGGCATCTGTACGCCTCGGTCGGCGACCACGGGCTGGTCGCGTTCGCATTCTCCGACGTGGCCGCGTTGGAGGGGATGGTCAACCGCGAGCGCACGCTGCTGATTCCACTGGCGATGCTGGTCTCGCTGCTGCTGATCGGCGTGGTGGTGTGGGTGTCGCGGCAGCGCCTGTCGCCGCACAAGGAACTGCAGATCGCGATCCGCCGCCGGGAATTCATCGCCTACTACCAGCCGTTGATCGACCTGCGCAGCGGGCGTTGCGTCGGTGCCGAGGCACTGGTGCGCTGGCGGCGCCCGGACGGCACGCTCGGCATGCCCGACAGCTTCGTGCCGCTGGCCGAGGAACACGGCCTGGTGGAGAAGCTGACCGACCTGGTGATCCGCGCAGTGGTCGAGGACCTGTCGCAGATGTCGGGCCTGGACCGTGGCGTCCACGTGGCGATCAACATTTCGCCCGGTGACATGCAGAGCGGGCGCTTCCTGCCGGTGCTCGATGCCGCACTCAGCGGCAGCGGCGTGGATCCGGCGCAGATCTGGCTGGAGGCGACCGAACGCGGTTTCATGGAGGCCGAAGCGGCCTGCCGGGTCATCCAGGAGGCGCGCGACCGCGGCCATCGCGTCGCCATCGACGATTTCGGCACCGGCTATTCCAGCCTGGCGCTGCTGGAGTCGCTGCCGGTGGATACGCTGAAGATCGACCGCTCCTTCGTCAACGCGATCGGCCGCGACGCGGCCACCGGCATCGTGACCCCGCACATCATCGAGATCTGCCACGGCATGGGCTTCGAGATCGTCGCCGAGGGCGTGGAGACCCCCGAGCAGGAGACCTACCTGCGCAAGGCGGGCGTGCAGTACGCGCAGGGCTGGCTGTATTCCAAGGCGCTGCCGGCGGCGGAGTTCACGGCGTTCCTGCGCCGCCGCAACGTCGCCTCGGTGGTGCCGCTGCGCGCGGTGGCCTGA	MSRRTVLLLATLLALIAGVAPLLAFLVLSRERAVEGEKAHLNDYANWTLTRASLTLDQGKDALHALEREGWDDCSPAHIDRMRRLTLQNRAVDEIGFFRDGKLACTSWGVVDRAIPQNTPDYNLGDGFGLYLGIKPMVTQAGPMMALSDGRHNALISPGRMVDVLLDKKMTIGVSTGDGQVIAVSADADPALVRQLGEQTGQGMDARHLYASVGDHGLVAFAFSDVAALEGMVNRERTLLIPLAMLVSLLLIGVVVWVSRQRLSPHKELQIAIRRREFIAYYQPLIDLRSGRCVGAEALVRWRRPDGTLGMPDSFVPLAEEHGLVEKLTDLVIRAVVEDLSQMSGLDRGVHVAINISPGDMQSGRFLPVLDAALSGSGVDPAQIWLEATERGFMEAEAACRVIQEARDRGHRVAIDDFGTGYSSLALLESLPVDTLKIDRSFVNAIGRDAATGIVTPHIIEICHGMGFEIVAEGVETPEQETYLRKAGVQYAQGWLYSKALPAAEFTAFLRRRNVASVVPLRAVA				NA	NA	NA	NA	NA
BMS020_05457	522	pitA_2	COG1247	L-methionine sulfoximine/L-methionine sulfone acetyltransferase	ATGCACCAGGTCGACTGCACCGAAGATCGTCACGCCGACGCGATCCTGGCGATCTTCAACGACGCCATCCTGCATTCGACCGCGCTGTACGACTACGTGCCGCGCCCGCGCAGCGCGATGACCAGCTGGTTCGCCGACAAGCAGGCCGCCGGGCATCCGGTGATCGGGTTGGAAGACGACGCCGGCGAGCTGCTCGGCTTCGCTTCCTACGGGCCGTTCCGCCCCCGCCCGGCCAACAAGTACACGATGGAACACTCGGTCTACGTCGCGCCCGCCCACCGCGGCAAGGGGCTTGGCCGGAGCCTGCTGGAGCTGATCGTGGCCGAGGCCGACCGGCGCGGCGTCCACACCCTGGTCGGCGGTATCGACCTGGGCAACGCCGCCAGCATCGCCCTGCACGAGGCGCTCGGGTTCGAGCGCGCCGGGGTGATCCGCCACGCCGGCTTCAAGTTCGGACGCTGGCTGGACCTGGTGTTCTACCAGCGCCTGCTGAGCGGCCCGGCGCATCCGGTCGACGGCTGA	MHQVDCTEDRHADAILAIFNDAILHSTALYDYVPRPRSAMTSWFADKQAAGHPVIGLEDDAGELLGFASYGPFRPRPANKYTMEHSVYVAPAHRGKGLGRSLLELIVAEADRRGVHTLVGGIDLGNAASIALHEALGFERAGVIRHAGFKFGRWLDLVFYQRLLSGPAHPVDG				NA	NA	NA	NA	NA
BMS020_05458	783			hypothetical protein	GTGCCGCCGCCGCCGGATGGTTTGAATGGCGGCATGGAATCGGATCTGATGGCGTTGTGGCCGCTGTGCGTGGCGGTGTTCGTGCTGGCCGGGGGCGTCAAGGGCGCCACCGGCATGGGCTTGCCGACGGTGGTGATGGGCGTGCTGGCCGGGGTGATGCCGGCGCCGCTGGCGGCCGCGTTGCTGGTGGTGCCGTCGCTGCTGAGCAATGTGCAGCAGCTGTTCGCTGGCCCGGCACTGTGGGCGCTGCTGCGGCGGCTGTGGCCGATGCTGGTGATGATGGTGGTCGCCACCGTGCTGGCGGCGCCGTGGCTGGCCGGCGCCGGCCACGCGATCTCGCCGGGCTGGCTCGGCCTGGTGCTGGTGCTGTACGCGCTGCAGGCGCTGCGGCCACGGCCGTGGCGGATCGCGGCGGCGGCCGAGCGCTGGCTGGCGCCGCTGGTCGGGGCCTGTGCCGGCGTTGCCGGCAGCGCCACCGGGGTGTTCCTGGTGCCGTCGGTGCCCTACCTGCAGGCGATCGGGCTGGAGCGCGACGTGCTGGTGCAGGCGCTGGCGCTGTCGTTCACCGTGTCGACGCTGGCGCTGGGGGGCGTGCTGCTGCGCCACGGGGTGATGGATGGCCCGCTGGCGCTGTGGTCGCTGGCGATGGTGCCGCCGTCGCTGTTGGGCATGGCGCTGGGCAACTGGGTGCGCCATCGGGTCAGCCCGCTGGCGTTCCGGCGCGGCTTCCTCGCCTGCCTGTTGCTACTGGGCATCGACCTGATGTGGCGGGCCTGGCACTGA	MPPPPDGLNGGMESDLMALWPLCVAVFVLAGGVKGATGMGLPTVVMGVLAGVMPAPLAAALLVVPSLLSNVQQLFAGPALWALLRRLWPMLVMMVVATVLAAPWLAGAGHAISPGWLGLVLVLYALQALRPRPWRIAAAAERWLAPLVGACAGVAGSATGVFLVPSVPYLQAIGLERDVLVQALALSFTVSTLALGGVLLRHGVMDGPLALWSLAMVPPSLLGMALGNWVRHRVSPLAFRRGFLACLLLLGIDLMWRAWH				NA	NA	NA	NA	NA
BMS020_05459	897	cynR_5		HTH-type transcriptional regulator CynR	ATGCACTTCGACCTGACCGATCTGCGCCTGTTCCTGCACGTGGTGGAAGCCGGCAGCATCACCGCCGGCGCCGCCCGCGCCCACCTGTCGCTGGGCGCGGCCAGCGAACGCCTGCGCGGCATGGAGGACACCGCCGGCCTGCCGCTGCTGGAGCGCCATGCACGTGGCGTACTGGCCACCGCCGCCGGCGAGACCCTGCTGCACCACGCCCGGCTGATCCTGCGCCAGAACACGCTGCTGCACGGCGAGCTGGGCGAGTTCGCCCGCGGCGCGCGCGGCCGCATCCGCCTGCTCGCCAACACCGTGGCGATCACCGAATACCTGCCGCAGCCGCTGGCGGCGTGGATGGCGGCGCACCCGGAGGTCGACATCGAGCTGAAGGAACGCACCAGCAGCGTCGCGCTGAAGATGGTGCAGGCCAACCTCGCCGACCTGGCGATCGTCTCCGACGCGCTCGCCAGCGACGCGCTGCAGGCGCGTCCGTTCGCGCTCGACCGGCTGGTGCTGGCGGTACCGCGCGGCCATCGCCTGGCCAGGCAACGCCAGGCCCACTTCGCCGACCTGGCCCGCGAAAGCTTCATCGGCCTCGGCGACGGCGGCGCGCTGCAGGACCATATCGACGAACATGCCGCCCGTGCCGGCTTCCAGCTGTCGCTGCGCATCCGCCTGCGCACCTTCGAAGGCATGCTGCGGATGGTCGCGGCCGGCGTCGGCATCGCGATCGTGCCGGCCATCGCCGCGCGCAACCATCGCCTGCCCGGCGTGCACTGCCTGGCGCTCAGCGATGCCTGGAGCGTGCGCAACCTCGCGCTGTGCTTCCGCGACGAAGCCACGCTGCCGCCGCCGGCGCGCTCGCTGCTCGCGCACCTGCTGGCGAGCGCCGGCACCCCGGCATGA	MHFDLTDLRLFLHVVEAGSITAGAARAHLSLGAASERLRGMEDTAGLPLLERHARGVLATAAGETLLHHARLILRQNTLLHGELGEFARGARGRIRLLANTVAITEYLPQPLAAWMAAHPEVDIELKERTSSVALKMVQANLADLAIVSDALASDALQARPFALDRLVLAVPRGHRLARQRQAHFADLARESFIGLGDGGALQDHIDEHAARAGFQLSLRIRLRTFEGMLRMVAAGVGIAIVPAIAARNHRLPGVHCLALSDAWSVRNLALCFRDEATLPPPARSLLAHLLASAGTPA				NA	NA	NA	NA	NA
BMS020_05460	666			hypothetical protein	GTGCATCTGCGTCCCCCTCCGGCCCGCCTGCTGGCCATCGGTTTCACCTTGATCGCCGCTGGCTGCGCCAGCACCCGTCCGCTGCCGTATACGGGCATCGCGTCGGCGCCGTACCTGCGGCCCAACGCCGACAGCCGCGGCGACCGCACGCCGTACGTCTACCAGGCCGCGCAGGTCGACTGGCAGCAGTATTCGCGGGTGATGCTCGATCCGGTCGGCGTGTACGCCGGGCCGGACAGCCAGTTCGAGAAGGTCTCCGAGCAGGACAAGCGGATGCTGGCCGACTACATGGCCGAGCAGTTCCGCGAAGCGCTGGCGCATCGCTACTGGTTCTCCTCCGGGCCGGGTGCGGGCACGTTGCGGGTGCGCCTGACCCTGACCGGGGCCAAGCCCAGCACCCGCCTGATCGGCACCATGATGAAGGTCGATCTTGCCGGCGGCCCGTACAACGCGGTGCAGGCCGCGCGCGGTCGCGAGGGGGCGTTCATCGGCTCGGTCAGCTATTCGGTGGAGATCTTCGACACCGCCAGCAACCAGTTGCTCGCCGCCTACGTGGAAAAGCAGTACCCGAGCGCGATGAACCTCAAGGCCAGCCTCGGCACGCTGGATGCGGCCAAGGCCGGGATCAGGAAGGGCGCCGAGGCGCTGACCAGGAAGCTGTGGTGA	MHLRPPPARLLAIGFTLIAAGCASTRPLPYTGIASAPYLRPNADSRGDRTPYVYQAAQVDWQQYSRVMLDPVGVYAGPDSQFEKVSEQDKRMLADYMAEQFREALAHRYWFSSGPGAGTLRVRLTLTGAKPSTRLIGTMMKVDLAGGPYNAVQAARGREGAFIGSVSYSVEIFDTASNQLLAAYVEKQYPSAMNLKASLGTLDAAKAGIRKGAEALTRKLW				NA	NA	NA	NA	NA
BMS020_05461	210			hypothetical protein	ATGCGTCCCCCACGAACCCCGTTGCGTCCGGCCTGGCGGCCACCGGTCGTCGCCACCCGCGATGTCTGGTGTGCGTTGCTCGACCTGCATGCCGGGCAACGTCGGCGCCGGGTCTTGCGCTGGCTCGCCCGCCGTCTGGTCGTCGTGTCGTTGGCCGTGGCGCTGCTGCTCACCGTCTGTCCGCTGCTCGTGCTGTGGGCGATGGCCTAG	MRPPRTPLRPAWRPPVVATRDVWCALLDLHAGQRRRRVLRWLARRLVVVSLAVALLLTVCPLLVLWAMA				NA	NA	NA	NA	NA
BMS020_05462	1137	sasA_6		Adaptive-response sensory-kinase SasA	ATGAAATCGCTGCAGTGGCGGATGATGCTGCCGTTCGCGGCGATCCTGGCGCTGGTCTGGGCGATGACCATCTCGATGATGGTCGCCAGCCTGACCCACGGCGCGGACAGCTTCTGGGACCGGCAGCTGGAATCGGCGAGCGACCAGCTGCTGCGCCTGCTTCCCGGCGAGGTGCAGGCCGGCGTGGTCGGCGAAGCGGCCATGCGTGCCTTCAAGAGCGGCCTGCTCGCGCTGGCGCTCAATACCGTGCAGTTGCTGCTGGTCGGGCTGCTGATGTGGGCGGCGGTGCGCAGGTCGCTGCAACCGCTGCGCAGCCTGTCGGCGGAGATCGCCACGCGCCGGCCATTCGATGCCACGCCGCTGCCGGTGGCGCAGGTGCCCGACGAGGTCAGGCCGCTGATCGCGTCGTTCAACGCGCTGCTGGCGCGGGTCGACAAGGCGGTGCAGGGCGAGCGCCAGTTCATCGCCGATGCCGCGCACGAACTGCGTACCCCGCTGGCGGCATTGCATGCCTACGCCGAGGTCGCGCGCGGCGCGCGCGATCTGGTCCAGAAGGACCAGGCGCTGGAGCGGCTGATCGAGGTCTCGCGCCGCAGCAACCGGCTTGCCGAGCAGTTACTCGACCACGCGCAGCTGGATGCAGGTCTGAACCCAGCCGGTTACGGTCCGGCCGATCTCGACGTGCTGGCCCGGCACGTGATCGGCGAACTTGACATGGAAGCGGCCGCGCGCGGGGTACGGCTGTCCCTGCGCGGCGCACCCTGCCGGGTGGAGTGCGACCTCGACGCGATCGGCATCCTGCTGCGCAACCTGATCGACAACGCGATCCGGCATGGGCGTGGCGACGGCGCGGTCGAGGTGGTCTGCGGCTACGCGTGCCGCAGCGATGGCGTGCATCCGTTCGTCGAGGTCAGTGACGACGGTCCCGGCGTGCCGGAGCAGGAGCGTGAGGCGATCTTCCGGCGCTTCCATCGCCTGGCCGGCAGCGAGGCGCGCGGCAGCGGCATCGGCTTGTCGCTCGTGGCCGGCATCGCCCGCTTGCATGAGGCGGTCATCGAAGCCGGCACCGGCATGGACGATGCGGGCTTCCGCGTGCGCGTGCTGTTTCCCGCGCTCAGCGCGCACGAGGCCGGCTGA	MKSLQWRMMLPFAAILALVWAMTISMMVASLTHGADSFWDRQLESASDQLLRLLPGEVQAGVVGEAAMRAFKSGLLALALNTVQLLLVGLLMWAAVRRSLQPLRSLSAEIATRRPFDATPLPVAQVPDEVRPLIASFNALLARVDKAVQGERQFIADAAHELRTPLAALHAYAEVARGARDLVQKDQALERLIEVSRRSNRLAEQLLDHAQLDAGLNPAGYGPADLDVLARHVIGELDMEAAARGVRLSLRGAPCRVECDLDAIGILLRNLIDNAIRHGRGDGAVEVVCGYACRSDGVHPFVEVSDDGPGVPEQEREAIFRRFHRLAGSEARGSGIGLSLVAGIARLHEAVIEAGTGMDDAGFRVRVLFPALSAHEAG	PGPT0003920_1382	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
BMS020_05463	666	qseB_4		Transcriptional regulatory protein QseB	GTGCACCTGCTGCTGGTTGAAGACGACGCGATGCTGGCGCAGGCGATCTGCGACGGGGTACGGCAGCACGACTGGGAGGTCGACCGGGTCGCCAGCGCCGGGGCGGCCAAGGCGGCGCTGGTCGAGCATGCCTACTCGGCGGTGCTGCTCGACATCGGCCTGCCGGGCGAGACCGGACTGGCGGTGATCCGCTTCCTGCGCGAGCGTTACGACCCGATCCCGGTGATCGTGCTGACCGCGCGCGGCCAGCTCAGCGAGCGCATCCGTGGGCTGGACGCCGGCGCCGACGACTACCTGGTGAAGCCGTTCCAGTTCGACGAACTGCTGGCGCGGATACGTGCAGTGACCCGCCGCAGCGAAGGGCGGGTGGTGTCGGTGCTGCGGCATGGCGAGGTGGCGTTGGATCCGGCCAGCCACCGGGTGACGCGCGACGGCGAGTGGGTGCCGCTGAGCGCGCACGAATACCGGCTGCTGCTGGCGCTGATGGCGCGCAGCGGCAGGGTGGTGACGCGCGATTACCTGGAGGAGCTGCTGTACGGCGGGCGCTCCGACGTGGGCAGCAATTCGATCACGGTGTTTGTCCACCAGCTGCGCCGCAAGCTCGGCGACGGCGTCATCACGACCGTGCATGGACACGGCTACATGGTCGGGAGCACGCGCGCATGA	MHLLLVEDDAMLAQAICDGVRQHDWEVDRVASAGAAKAALVEHAYSAVLLDIGLPGETGLAVIRFLRERYDPIPVIVLTARGQLSERIRGLDAGADDYLVKPFQFDELLARIRAVTRRSEGRVVSVLRHGEVALDPASHRVTRDGEWVPLSAHEYRLLLALMARSGRVVTRDYLEELLYGGRSDVGSNSITVFVHQLRRKLGDGVITTVHGHGYMVGSTRA	PGPT0003915_284	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
BMS020_05464	2694	gyrA_2	COG0188	DNA gyrase subunit A	ATGGCCGAAACAGCCAAGGAAATCATCCAGGTCAACCTGGAAGACGAAATGCGCAAGAGCTACCTCGATTACGCGATGAGCGTGATCGTGGGGCGGGCGCTCCCAGACGCCCGCGACGGGCTCAAGCCGGTGCATCGCCGCGTGCTGTTCGCGATGAACGAACTGGGCGCGCACAGCAACAAGCCGTATTTCAAGTCGGCGCGTATCGTCGGTGACGTGATCGGTAAGTACCACCCGCACGGCGACAGCGCGGTCTACGACACGTTGGTGCGCATGGCGCAGCCGTTCTCGCTGCGCTACCTGCAGATCGACGGCCAGGGCAACTTCGGTTCGGTCGACGGCGACTCCGCCGCGGCGATGCGTTACACCGAGGCGCGCATGTCGCGCTTCAGCCACGAGATCATGGCCGACATCGACAAGGAAACCGTCGATTTCGTGCCCAACTACGACGAGAAGGAGCTGGAGCCGTCGGTGATGCCGACGCGCATCCCGAACCTGCTGGTCAACGGTTCTGCCGGCATCGCGGTCGGCATGGCCACCAACATCCCGCCGCACAACCTGACCGAGGCGATCAACGCCTGCATCGCGTTGATCGACAACCCGGAGCTGGATGTCGACGGTCTGATGGAACACATTCCGGGCCCGGATTTCCCGACCGCCGGCATCATCAACGGCACCGCCGGCATCACCGCCGGCTACCGTACCGGCCGTGGCCGCGTGCGCATCCGCGCCAAGGCCGAGATCGAGATCACCGACAACGGCCGCGAGGCCATCGTCGTCACCGAGATTCCGTACCAGGTCAACAAGGCGCGTCTGATCGAGAAGATCGCCGAGCTGGTCAAGGAAAAGAAGATCGAGGGCATCTCCGAGCTGCGCGATGAGTCCGACAAGGACGGCATGCGCATCTACATCGAGGTCAAGCGCGGGGAATCGGCCGAGGTCGTGCTGAACAACCTGTACCAGCAGACCCAGATGGAGTCGGTGTTCGGCATCAACATGGTGGCGCTGGTCGACGGCCGCCCGCAGCTGCTCAATCTCAAGCAGATGCTGGAGGCGTTCATCCGCCACCGCCGCGAGGTCGTCACCCGCCGCACCATCTTCGAACTGCGCAAGGCCCGCGCCCGCGCGCACATCCTCGAAGGCCTGACGGTCGCGCTCGCCAACATCGACGAGATGATCGAGCTGATCAAGACCTCGGCCAACCCGCAGGAGGCCAAGGAGCGCATGCTGGCCAAGACCTGGGTGCCGGGTCTGGTCGGGTCGCTGCTCGGCGCCGCCGGTGCCGAGGCCTCGCGTCCGGAAGACCTGCCCAAGGGCGTCGGTCTGGTCAACGGCTTCTACCAGCTCAGCGAGGTCCAGGCGCAGCAGATCCTGGAGATGCGCCTGCACCGCCTGACCGGCCTGGAGCAGGAAAAGCTGACCGAGGAATACCGGCAGCTGCTGGAGGTCATTGCCGGGCTGATCCGCATCCTGGAAAACCCCGACGTGCTGCTGCAGGTGATCCGCGAGGAACTGGAGAACGTGCGTGCCGAGTTCGGCGACGAGCGCCGCACCGAGATCCGCCACAGCGAGGAAGACCTCGACATCCTCGACCTGATCGCGCCGGAAGACGTGGTGGTCACGCTGTCGCACGCCGGCTACGCCAAGCGCCAGCCGGTGTCGGCGTACCGTGCGCAGAAGCGCGGTGGCCGTGGCCGCAATGCCGCGGCGACCAAGGACGAGGATTTCATCGACCAGCTGTGGCTGGTCAACACCCATGACACGCTGCTGACCTTCACCAGCAGCGGCAAGGTGTTCTGGCTGCCGGTGCACCAGCTGCCGGAGGCCGGCTCGAACGCGCGTGGGCGTCCGATCATCAACTGGATCCCGCTGGAAGCCGGCGAGCGCGTGCAGGCGGTGCTGCCGGTGCGCGAATACGCCGAAGGCCGCTTCGTGTTCTTCGCCACCCGCAACGGCACGGTCAAGAAAACCCCGCTGAGCGAGTTCGCGTTCCGCCTGGCGCGCGGCAAGATCGCCATCAACCTTGACGAGGGCGATGCGCTGGTCGGCGTCGGCCTGACCGACGGTGAGCGCGACGTGCTGCTGTTCGCCTCGAACGGCAAGACCGTGCGCTTCGGCGAGGACAAGGTGCGGTCGATGGGCCGCACCGCCACCGGCGTGCGCGGCATCAAGCTGGCCAAGGGCGAGGAGGTGGTCAGCCTGATCGTCGCCGAGTCCGCGGGTGGGATCGAGGACGAGAACGAGGACGACAGCGCCGAGGACGCGGTGGAGAGCGCGGTCGAGGGCGAGATCGTCGACAGCGGCGCCGACAGCGGCGACGTCGCCTACATCCTGACCGCCACCGAGAACGGCTACGGCAAGCGCACCCCGCTGACCGAGTATCCGCGCAAGGGCCGCGGCACCCAGGGCGTGATCGGCATCCAGACCACCGAGCGCAACGGCAAGCTGGTCGCCGCGGTGCTGCTGGGGGCGCCCGACGAGGTGCTGCTGATCTCCGATGGCGGCACCCTGGTGCGCACGCGCGGTTCGGAAATCTCGCGCGTGGGCCGCAATACCCAGGGCGTGACCCTGATCCGGCTGTCCAAGGGCGAGAAGCTGCAGGCGGTCGAACGCCTGGACGCGACCCTGGCCGACGGCGACGAGCAGGGCGAGGACGCGGCCGATACGGCGGCCGAGCAGCAGCCGCAGGCCTGA	MAETAKEIIQVNLEDEMRKSYLDYAMSVIVGRALPDARDGLKPVHRRVLFAMNELGAHSNKPYFKSARIVGDVIGKYHPHGDSAVYDTLVRMAQPFSLRYLQIDGQGNFGSVDGDSAAAMRYTEARMSRFSHEIMADIDKETVDFVPNYDEKELEPSVMPTRIPNLLVNGSAGIAVGMATNIPPHNLTEAINACIALIDNPELDVDGLMEHIPGPDFPTAGIINGTAGITAGYRTGRGRVRIRAKAEIEITDNGREAIVVTEIPYQVNKARLIEKIAELVKEKKIEGISELRDESDKDGMRIYIEVKRGESAEVVLNNLYQQTQMESVFGINMVALVDGRPQLLNLKQMLEAFIRHRREVVTRRTIFELRKARARAHILEGLTVALANIDEMIELIKTSANPQEAKERMLAKTWVPGLVGSLLGAAGAEASRPEDLPKGVGLVNGFYQLSEVQAQQILEMRLHRLTGLEQEKLTEEYRQLLEVIAGLIRILENPDVLLQVIREELENVRAEFGDERRTEIRHSEEDLDILDLIAPEDVVVTLSHAGYAKRQPVSAYRAQKRGGRGRNAAATKDEDFIDQLWLVNTHDTLLTFTSSGKVFWLPVHQLPEAGSNARGRPIINWIPLEAGERVQAVLPVREYAEGRFVFFATRNGTVKKTPLSEFAFRLARGKIAINLDEGDALVGVGLTDGERDVLLFASNGKTVRFGEDKVRSMGRTATGVRGIKLAKGEEVVSLIVAESAGGIEDENEDDSAEDAVESAVEGEIVDSGADSGDVAYILTATENGYGKRTPLTEYPRKGRGTQGVIGIQTTERNGKLVAAVLLGAPDEVLLISDGGTLVRTRGSEISRVGRNTQGVTLIRLSKGEKLQAVERLDATLADGDEQGEDAADTAAEQQPQA	PGPT0027705_867	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
BMS020_05465	1059	mtnA_2	COG0182	Methylthioribose-1-phosphate isomerase	ATGAACGATACCGCCATCGATTACGCCCGTTACGACCATGTCCGCCCGATCCTGTGGACCGGCGATGCCCTCGAACTGCTGGACCAGCGCAAGCTGCCTTTCGTGGTCGAACATGTGCGCTGCGAGGACAGTGACGCGGTGGCCGCGGCGATCCATGCGCTGACGGTACGCGGCGCGCCGGCGATCGGCATCGCCGCCGCCTGGGGCACGGTGCTGGCCGCGCACGAGATCCAGGCCGACGACGGCACCGCTGCATTGCTCAAGCTCGAGCCGGCGGTGCAGCGCCTGAATGCCGCGCGCCCGACCGCGGTCAACCTGGGCTGGGCGCTGGCGCGGATGCGTCGTGCGCTGGCCACGGCTGGCAGCGACTGGCGCGAGGTGCTCGCGCGCGAGGCGCAGGCGATCACCGACGAGGATCTGGCCGCCAACCGCCACATGGGGGCGCTCGGCGCCGGGCTGATCGCCGCCGGCAGTGGCGTGCTGACCCATTGCAACACCGGCTCGCTGGCCACCGCCGGCTTCGGCACCGCGCTCGGCGTGATCCGCGCCGGCGTCGCCCAGGGCCACATCGCCCGCGTGTTCGCCGGCGAGACACGGCCGTGGCTGCAGGGCGCGCGCCTGACCGTGTGGGAGCTGCAGCAGGACGGCATCGACGCGACCCTGATCGCCGATTCGGCCGCCTCGCACCTGATGAAGACCGGTGCGGTGCAGTGGGTGATCGTCGGTGCCGACCGCATCTGCGCCAATGGCGACACCGCCAACAAGATCGGCACCTACCAGCTGGCGATCGCCGCCCGCCACCACGGGGTCAAGTTCATGGTGGTGGCGCCGTCGTCCACGGTGGACATGGACACCGCCAGCGGCGAGCTGATCGAGATCGAGCAGCGTGATCCGGGCGAACTGTTCGGCGTCGGCGGCGTGCGTACTGTCGCCGAGGGCATCCAGGCCTGGAACCCGGTGTTCGACGTGACCCCGGGCGAGCTGATCGATGCGATCGTCACCGAGCGCGGGGTGATCGAGCGTCCCAGCGCCGCGGCGATGCGCGCAGCCTTCGCCTGA	MNDTAIDYARYDHVRPILWTGDALELLDQRKLPFVVEHVRCEDSDAVAAAIHALTVRGAPAIGIAAAWGTVLAAHEIQADDGTAALLKLEPAVQRLNAARPTAVNLGWALARMRRALATAGSDWREVLAREAQAITDEDLAANRHMGALGAGLIAAGSGVLTHCNTGSLATAGFGTALGVIRAGVAQGHIARVFAGETRPWLQGARLTVWELQQDGIDATLIADSAASHLMKTGAVQWVIVGADRICANGDTANKIGTYQLAIAARHHGVKFMVVAPSSTVDMDTASGELIEIEQRDPGELFGVGGVRTVAEGIQAWNPVFDVTPGELIDAIVTERGVIERPSAAAMRAAFA				NA	NA	NA	NA	NA
BMS020_05466	693			hypothetical protein	ATGAGGTGGGTGTTCGTCCTGTGCGTTGCCATGGTGTTGCCGTCCCGTGCCGGGGCGGCCGACGCGCAGGGCGCGTCGTTGCCGCTGGAGGTGCGTTGCGAGTCGAACGGACTCGGTCGCGAGCATTGTCCGCTCGACACCGCGCAGGGCGTGCAGCTGGTGCGCCAGCTGTCGGCGGCGAGCTGCATCCGTGGCAGCGAATGGGATGTCGAGCCGGGCGGCGTCTGGGTCGCACTCGGGTGCCGCGGCGATTTCCGCGCGATGCAGCCGATGGTGCAGGCGGAAACGCTGACGCGGCGCGTGGTCCGCTGCGAATCCGATGGGCGCAAGCGCAGTTGCCCGGTGATGCTGCGCGGGGTGCCGGTACGCTTGCTGCGGCAGCTGTCGGTGTGGCCGTGCAAGGAGGGCCGCAGCTGGGGCGTGGGGCGCAACGAGATCTGGGTGTCGCGCGGCTGCGATGGCGAATTCGAGCTGGGGGCCGAGGATGGCTCAGGTTTCGTCGCCGCGCCGCGCATGGTCACCTGCGAATCCAAGAGCCGCGCGCGCCGGCTGTGCGGGATCAGCGTCGAACGCAGTGTGCGCCTGGGCCGGCAGATCTCCGGCACGCCATGCGTGGAAGGCAGCACCTGGGGCTGGAGCCGCGACGGGATCTGGGTCGACGGCGGCTGCCGCGGCGAGTTCGTGGTGAACTGA	MRWVFVLCVAMVLPSRAGAADAQGASLPLEVRCESNGLGREHCPLDTAQGVQLVRQLSAASCIRGSEWDVEPGGVWVALGCRGDFRAMQPMVQAETLTRRVVRCESDGRKRSCPVMLRGVPVRLLRQLSVWPCKEGRSWGVGRNEIWVSRGCDGEFELGAEDGSGFVAAPRMVTCESKSRARRLCGISVERSVRLGRQISGTPCVEGSTWGWSRDGIWVDGGCRGEFVVN				NA	NA	NA	NA	NA
BMS020_05467	963	epmA_2	COG2269	Elongation factor P--(R)-beta-lysine ligase	GTGAGCAGCGAGCGGATCGATATCGGCGCGCTGCGCCTGCGCGCACGGCTCAACGCGCTGATCCGCGGCTTCTTCGCCACGCGCGACGTGCTCGAGGTCGAGACCCCGATCATGTCCGCGGCCGGCAACACCGAGCCGAACATCGAGAGCTTCACCACGCGCTTCAGCGGGCACGTGGATGCCGGCGCGCCGCTGCGCTGGCTGCGCACCTCGCCGGAATACCCGCTCAAGCGCCTGCTCGCCGCCGGCGTCGGCGACTGCTACGAGCTGGGCCGGGTGTTCCGCAATGGCGAGGCCGGCGGACGGCACAATCCCGAGTTCACCATGCTGGAGTGGTACCGGGTCGGCTGGGACCATCGCCAGCTGGCCGGCGAGACCGTGGCGCTGGTGCAAGCGGCGCTGGCGCTGGTCGGCCGCGAGGCGGTGGTGCAGGTCACCAGCTACCGTCAGTTGTTCATCGATGCGCTGCGGCTGGATGCGTTGACGGCGCCGATCGAGCAGCTGCAGGCGGCGCTGGGCGAAGTCCGCATCGATGGCGACGGATTGGGTCGTGACGACTGGCTGGACCTGCTGATGACCCATCGCATCCAGCCGGCGTTCCCGGCCGATCGCATCACCGTGGTGCACGACTGGCCGGCCAGCCAGGCCGCGCTGGCGAAGATCCGCCACGACGATCCGCCGGTGGCCGAGCGTTTCGAGCTGTACCTGGGCGTCTACGAGGTGGCCAACGGCTACCACGAGCTCAACGACGCCGCCGAGCAGCGTGCACGCTTCGAGCGCGACAACCGCGTGCGTGCCACGCGCGGCCTGCCGCAGCCGCCGCTGGATCTGCCGTTGCTCGCCGCGCTGGACGCGATGCCGCACTGCGCCGGCGTGGCGGTCGGTGTGGACCGGCTGCTGATGGCGATGTGCGGCAGCGCGCGGATCGCCGACGTGCTGGCGCTGGACTTCGCGCGCGCCTGA	MSSERIDIGALRLRARLNALIRGFFATRDVLEVETPIMSAAGNTEPNIESFTTRFSGHVDAGAPLRWLRTSPEYPLKRLLAAGVGDCYELGRVFRNGEAGGRHNPEFTMLEWYRVGWDHRQLAGETVALVQAALALVGREAVVQVTSYRQLFIDALRLDALTAPIEQLQAALGEVRIDGDGLGRDDWLDLLMTHRIQPAFPADRITVVHDWPASQAALAKIRHDDPPVAERFELYLGVYEVANGYHELNDAAEQRARFERDNRVRATRGLPQPPLDLPLLAALDAMPHCAGVAVGVDRLLMAMCGSARIADVLALDFARA				NA	NA	NA	NA	NA
BMS020_05468	2502	ligA_2		DNA ligase	ATGCCTGCCTCCCAGACTCCCGTCGCGCGTATCGCCGAGCTGCGTCAGCGCATCGACGATGCCAACTACCGCTACCACGTGCTCGACGAGCCGCAGATTCCGGATGCGGACTACGACCGGCTGATGCGCGAGCTGGAGGCGCTGGAGGCGGCGCATCCGCAGCTGGCCAGCGCCGACTCGCCGACCCAGCGCGTCGGCCACGCCGCCGGCAGCCGCTTCGCCGAAGTGCGTCACGCGATTCCGATGCTGTCGCTGGGCAATGCCTTCAGCGACGAGGAGGTGCACGAGTTCGTGCGCCGCATCGACGAGCGCCTGGAGACCCGCGCGCCGGCATTCTCGGCCGAGCCCAAGCTCGACGGGCTGGCGATCAGCCTGCGCTACGAGGACGGCGAGTTCGTGCTTGGCGCCACCCGTGGCGATGGCGCCACCGGCGAGGACGTCACGGCCAACCTGCGCACCGTGCGCGCGATCCCGCTGCGCCTGCGTGGCGAAGGCTGGCCGCAGGTGCTGGAGGTGCGCGGTGAGGTCTACATGCCGCGCGCCGATTTCGAGGTGTACAACGAGGATGCGCGCCTGCACGGCGGCAAGGTGCTGGCCAATCCGCGCAACGGCGCGGCCGGATCGCTGCGCCAGCTCGATTCGCGGATCACCGCGCAGCGCCCGCTGGCGTTCTTCGCCTACGGCATCGGCGAGGTGCAGGGCGGCGAACTGCCGCAGACGCATTCGGCGATCCTGCAGCAGCTGCGCGGCTGGGGGTTCCCGGTCAGCAGCCTGGTCAAGGTGGTCAACGGCGCCGACGGCCTGCTCGGCTACTACCGCGAAATCGGCAAGGCGCGCGACGGCCTGGCCTTCGATATCGACGGGGTGGTCTACAAGCTCGACGACCTGGCCGGGCAGCGCGAAATGGGCTTCGTCTCGCGCGCGCCGCGCTGGGCGATCGCGCACAAGTTCCCGGCGCAGGAGCAGTCCACCCGGGTCAACGACATCGAGATCCAGATCGGCCGCACCGGCGCGGCGACGCCGGTGGCGCGGCTGGAGCCGGTGCAGGTGGCCGGCGTGGTCGTCACCAATGCCACGCTGCACAACGCCGACCAGATCGCGCGGCTGGACGTGCGCGTTGGCGACATGGTGATCGTGCGCCGCGCCGGCGACGTGATTCCGGAAGTGGTCAGCGTCATCCTCGAACAGCGTCCTGCCGCTACGACGGCGTGGCAGATGCCGATGCAGTGCCCGGTGTGCGGCTCGGAGATCGTGCGCGAGGAAGGGGCCGCGGCATGGCGTTGCTCGGGTGAGTTGAGCTGCCCGGCGCAGCGCAAGGAAGCGATCCGTCATTTCGTCTCGCGTCGCGCGATGGATGTCGACGGGCTGGGCGAGAAATTCATCGAGGTGCTGGTCGATGCCGGCGTGGTGCAGGGCGTGGCCGACCTGTACCAGTTGACGCTGGACCAGCTGCTGCAGCTGAAGCTGGTGACCGGGGCGGAGACGCCGCATGCGTTCCTGCGCGAGGCGCGCGAGCACCTGGCCAGCGCCGCGCATGCGCGTCTGGAAGGCATGCTGCAGGGGTTGGGCGTGGACCTCGATGATGCGGCCTCGGTGCCGGAGGGTTGGCAGGCGGCGCTGCTGCGCACCGGCCTGCCGGCGTTCGACTGGAACCGCAGGAAGATCGCCACCAAGTGGGCGGAGAACCTGATCGAGGCGATCGAGCGTTCGCGCGACACCACGCTGGAGCGCTTCCTGTTCGCGCTCGGCATCGAGCATGTCGGCGAGAGCACCGCCAAGGCACTGGCGCTGTGGTTCGGCGACCTGGAGCTGATCCGGCAGATGCCGTGGCCGCTGTTCAAGCGCGTGCCCGATATCGGCGGCGAAGTGGCGCGTGCGCTCGGCCACTTCTTCGATCAGGCCGGCAACCAGCAGGCCATTGACGCGCTGCTCGCGCGCGGCGTGCGCATCGCCGATGCGCATCCGCCGTCGCCGAAGCTGCGCGGCGAGCTGAGCTTCGCGCGGCTGCTGGAAGATCTGGAAATTCCCAAGGTTACCGGCGTGCGTGCAGCGCAGATCGCCGCGGTCGCCGCGTCGCTGCCGGCGCTGCGCGAGGCCGGGCATGCGCGGCTGATCGACGCAGGCGTGCCGCAGGCGGTGGTCGAGGCGTTGACCGCGTGGCTGTCGGATCCGGCGCAGGCCGCGTTCGCGCAGCGTGCGCAGGCCATGCTCGACACGTTGCTGCAGCGCCTGCCGCAGGCCGAGCAGGTCGCTGCCGGCCCGCTCGACGGCAAGACCGTGGTGCTGACCGGCAGCCTGTCGGCGCTGACCCGCGACGACGCCGGCGTGCGGCTGGAGGCGCTGGGCGCCAAGGTCGCCGGCAGCGTGTCGAAGAAGACCAGCTTCGTCGTGGTCGGCGAGGATGCCGGCTCCAAGCTTGCCAAGGCGCAGGCGCTGGGCGTGGAGATCTGGGACGAGGCGCGGCTGCTGGCGTTCCTGGGCGCACACGGGAAGGCGCCGTGA	MPASQTPVARIAELRQRIDDANYRYHVLDEPQIPDADYDRLMRELEALEAAHPQLASADSPTQRVGHAAGSRFAEVRHAIPMLSLGNAFSDEEVHEFVRRIDERLETRAPAFSAEPKLDGLAISLRYEDGEFVLGATRGDGATGEDVTANLRTVRAIPLRLRGEGWPQVLEVRGEVYMPRADFEVYNEDARLHGGKVLANPRNGAAGSLRQLDSRITAQRPLAFFAYGIGEVQGGELPQTHSAILQQLRGWGFPVSSLVKVVNGADGLLGYYREIGKARDGLAFDIDGVVYKLDDLAGQREMGFVSRAPRWAIAHKFPAQEQSTRVNDIEIQIGRTGAATPVARLEPVQVAGVVVTNATLHNADQIARLDVRVGDMVIVRRAGDVIPEVVSVILEQRPAATTAWQMPMQCPVCGSEIVREEGAAAWRCSGELSCPAQRKEAIRHFVSRRAMDVDGLGEKFIEVLVDAGVVQGVADLYQLTLDQLLQLKLVTGAETPHAFLREAREHLASAAHARLEGMLQGLGVDLDDAASVPEGWQAALLRTGLPAFDWNRRKIATKWAENLIEAIERSRDTTLERFLFALGIEHVGESTAKALALWFGDLELIRQMPWPLFKRVPDIGGEVARALGHFFDQAGNQQAIDALLARGVRIADAHPPSPKLRGELSFARLLEDLEIPKVTGVRAAQIAAVAASLPALREAGHARLIDAGVPQAVVEALTAWLSDPAQAAFAQRAQAMLDTLLQRLPQAEQVAAGPLDGKTVVLTGSLSALTRDDAGVRLEALGAKVAGSVSKKTSFVVVGEDAGSKLAKAQALGVEIWDEARLLAFLGAHGKAP				NA	NA	NA	NA	NA
BMS020_05469	1119	hisC_2	COG0079	Histidinol-phosphate aminotransferase	GTGTCGTCCTCCGTCTCGCGCCGTTCCTTCCTGCACCTGGCCTCCTCCGGGCTCGCGCTCTCCGCCATCGGCCTGTCCGGCCCCGCCGAGGCCGCCAAGAAGCGCGCGCCGGCGCCGACCGTCCCGCCGGCCAGCGGCACCGTGTACCTGAACTTCAACGAGTGCCCGCTCGGTCCCTCGCCCGCCGCGCAGCAGGCCGCGAGCGCCATCGTGCCGCGCGCGGGCCGCTACCTGTTCGAGATGAGCCAGGACCTGACCCAGGCGATCGCCGGCATCGAACAGCTGCCGACCGACCATATCGCGCTGTTCCCGGGCTCCAGCGACCCGCTCAACCGCTGCGGCGCGCTGTTCACCAGCAAGCTCGGCGGGGTGGTGGTCGCCGATCCGACCTTCGAAGGCATTGCCGATGTTGCCGCGCGCAATGGCGCGCCGGTCTACAAGGTGCCGCTGCGCGCCGACGGCGCCCATGACGTCAAGGCGATGGCCAAGGCCGCACCGAACGCCGGGCTGATCTACATCTGCAACCCCAACAATCCGACCGGCTCGATCACCCCGCGCGCGGACATCGAGTGGTTGCTGACCAACAAGCCGGCCGGCAGCATCGTCGTGGTCGACGAGGCCTACATCCACTACAGCGACGAGGCCACGGTCGTGCCGCTGGTGCGCGAGCGCCAGGACCTGATCGTGCTGCGCACCTTCTCCAAGCTCTATGGCATGGCCGGCCTGCGCCTGGGCGCGGCACTGGCGTCGCCGGGGCTGCTCGACCGGCTGGCCGTGCTCGGCGAGAACCCGCTGGCGGTCACCGCGATGGCCGCCGGCCTGGCCAGCCTGCGCGATCCGCAGCTGGTGCCGGAGCGGCGCAGCGAGAACACCCGGGTGCGCGAGGCGACCATCGCCTGGCTCAAGGACAAGGGCTACAAGTGCCTGCCGTCGCAGTCGAACTGCTTCATGGTCGACGTCAAGCGCGATGGCAAGGCGTTCACCGCGGCGATGCAGAAACAGGGTGTGCTGGTCGGCCGCAGCTGGCCGATCTGGCCGCAGCGCGTGCGCATCACCGTCGGCACCGAAGCGGAGATGCTGCGCTTCCGCGAGGCATTCCTGAAGGCGCGCCGCGGCTGA	MSSSVSRRSFLHLASSGLALSAIGLSGPAEAAKKRAPAPTVPPASGTVYLNFNECPLGPSPAAQQAASAIVPRAGRYLFEMSQDLTQAIAGIEQLPTDHIALFPGSSDPLNRCGALFTSKLGGVVVADPTFEGIADVAARNGAPVYKVPLRADGAHDVKAMAKAAPNAGLIYICNPNNPTGSITPRADIEWLLTNKPAGSIVVVDEAYIHYSDEATVVPLVRERQDLIVLRTFSKLYGMAGLRLGAALASPGLLDRLAVLGENPLAVTAMAAGLASLRDPQLVPERRSENTRVREATIAWLKDKGYKCLPSQSNCFMVDVKRDGKAFTAAMQKQGVLVGRSWPIWPQRVRITVGTEAEMLRFREAFLKARRG	PGPT0020305_1549	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
BMS020_05470	732	zipA_2		Cell division protein ZipA	ATGTCCGAAGTGGCCATGATCCGGATCGGCGTGCTGGTGGCCGGTCTGTTGCTTCTTGCCGCCATCTTCCTGTTCGGGCGCCCGAAGAAGCCGGCACAGGGGCGACGCCTGGACAACGCCGATGGCGCCACGCGCGAGCGGCGCGAACCGGTGATCGGTGGCGATGCCGCGACCGGCGCCGCCGAGGGCGAGGGCGGCGTTGAGGGCGACCAGGCCGAGCTGGCGCTTGGCGGCGCTGAGGCCGAGGAAGGTTCCGAACTCGGCAAGCGGCCGAGCCAGGATTTCGACAAGATCGTCTCGCTGTTCGTGGCGGCCAAGTCCGGGCAGGTGCTGCGCGGCGAGGACATCGTCGTCGCTGCCGAGAAGACCGGGCTGGTGTTCGGTCACATGAACGTGTTCCACCGCCTGGTCGAAGGACGCCCGGAGCGTGGCCCGATCTTCAGCATGGCCAGCATCCTCAAGCCGGGCAGCTTCGACATGACCCACATCCGCGAGATGGAGACGCCGGCGATCGCGTTCTTCCTGACCCTGCCGGCGCCGATGGGCGCGCTGGAAGCGTGGGAGACGATGCTGCCGACCGTGCAGCGCATGGCCGAGTTGCTCGATGGCGTGGTGCTGGACGACAGCCGCAACGCGCTGGGCCGGCAACGCATCGCCCACATCCGCGACGACCTGCGCGCCTACGACCGCCAGCATCAGGCGCCGCCGCTGACCAAGACCCCGCGCTGGTAA	MSEVAMIRIGVLVAGLLLLAAIFLFGRPKKPAQGRRLDNADGATRERREPVIGGDAATGAAEGEGGVEGDQAELALGGAEAEEGSELGKRPSQDFDKIVSLFVAAKSGQVLRGEDIVVAAEKTGLVFGHMNVFHRLVEGRPERGPIFSMASILKPGSFDMTHIREMETPAIAFFLTLPAPMGALEAWETMLPTVQRMAELLDGVVLDDSRNALGRQRIAHIRDDLRAYDRQHQAPPLTKTPRW				NA	NA	NA	NA	NA
BMS020_05471	3504	smc_2	COG1196	Chromosome partition protein Smc	ATGCGCCTTTCCACCATCAAACTGTCCGGTTTCAAGTCGTTCGTCGATCCGACCACGCTGCACCTGCCGACCAACATGACCGGTGTCGTGGGGCCGAACGGCTGCGGCAAGTCCAACATCATCGACGCGGTGCGCTGGGTGATGGGCGAAAGCTCGGCCAGCCGCCTGCGCGGCGATTCGCTGACCGACGTGATCTTCTCCGGTTCCAGTGCCCGCAAGCCGGTGGCGCAGGCAACCGTCGAGCTGATCTTCGACAACAGCGACCACACGATCAGCGGCGAATACGCCTCTTACAACGAAATCTCGGTCAAGCGCCTGGTCAGCCGTGACGGCTCCAGTGCCTATTACCTCAACGGCGCCAAGTGCCGCCGCCGCGACATCACCGACCTGTTCCTCGGCACCGGCCTGGGCCCGCGCAGCTACTCGATCATCGAGCAGGGCATGATCAGCCAGATCATCGAGGCGCGCCCGGAAGACCTGCGCGTGTACCTGGAGGAGGCCGCCGGTATCTCCAAGTACAAGGAGCGCCGCAAGGAGACCGAGACCCGCATCCGCCATACCCGCGAGAACCTGGATCGCCTCAACGACCTGCGCGAAGAGATCACCAAGCAGCTCGCCCACCTGCAGCGCCAGGCCAAGCAGGCCGAGCAGTACCAGGCGCTGCAGGAAGAGCGCCGGGTCAAGGACGCGGAGTGGAAGGCGCTGGGCTACCGCGCGCTGGATGGGCGGTTGCAGGGGCTGCGCGAGAAGCTGTCGCAGGAAGAGACCAAGCTGCAGCAGCTGATCGCCGAGCAGCGCGACGCCGAGGCGCGCATCGAGACCGGGCGCGTGCGTCGCGAGGATGCGGCCGAGGCGTTGGCCAAGGCCCAGGCCGACGTCTACCAGGTCGGTGGCGCGCTGGCGCGCATCGAGCAGCAGATCCAGCACCAGCGCGAGCTGTCGCAGCGCCTGTACAAGGCGCGCGACGAGGCGCAGAGCCAGCTGCAGGAACTGACCCAGCACATCACCAGCGACGCCTCGCGCCTGGCGGTGCTTGAGGAGGCGATGGCCGAGACCGAGCCGCGGCTGGAGCAGCTGCGCGAGGACAATGAATTCAAGCAGGACGCGCTGCGCGAGGCCGAGACGGCGCTGGCCGACTGGCAGCAGCGCTGGGAGCACCACACCCGCGACACCGGCGAAGCCTCGCGTGCCGGCGAAGTCGAGCGCACCCGCGTGGACTACCTGGACAAGCAGGCGCTGGAGGCCGAGCGGCGTCGCGAGGCGCTGCTGGCCGAGCGCGGCGGCTTCGACCTGGAGGCGCTGGACGAGACCTTCGAGCAGATCCAGCTGCAGCACGAGACGCAGAAGACCGCGATCGACACGCTGACCGAGCAGGTCGAGGCGCGCAAGCAGGCCGCGGCCGTGCTGCAGGATGCCCAGCGTGCCAGCCAGGCCGACCTGGCCGAGGTGCGCAAGCAGGCGCAGGCCGCGCGCGGCCGCCTGGCGTCGCTGGAAACCCTGCAGCAGGCCGCGCTTGGCCAGGAGCAGGGCGCGGCGGTGGCCTGGCTGAAAGCGCGCGGTCTTGATTCGGCGGCGCGCGTCGGTGAGCGCATCACGGTTGAATCGGGCTGGGAGAACGCGGTCGAGAGCGCGCTCGGCCAACTGATCGAAGGCGTGCTGGTCGATGCGCCGGAAACCTTGGTCGATGCGCTCGGCGAGCTCGGCGACGGGCGCATCGCGCTGGTCGCCGGCAGCACCGGCAACGCCAGTTTCGCCCCGACCTCGCTGGCCGCCAAGGTGCAGGGGCCGCTGGCGATCCGCCGCCTGCTGGCGCGCCTGCACGGCGCCGACGATCTGGTCGCGGCGCGCGCGCTGCAGGCCACGCTCGGCGACGGCGATTCGGTGATCACCCGTGGCGGCGAACGCCTCGGCGAGGGCTGGGTGCGGGTGTCGCGCTCGGGTGCGGCCAAGCAGGGCGCGCTGCTGCGCGAACGCGAGATCCAGGACCTGCGCAGCCAGATCGAGGCGCTGCATGAGCGCGAGGGCGAACTCGAAGAGCGCCTGGCCAGCCTGCGCGAGCAGCTGCTGGCGGCCGAGCAGCAACGCGAGGACGTGCAGCGCCAGCTGTACCAGGGCCATCGCGCGGTCTCGGAGCTGGCCGGCCAGCTGCAGAGCCACCAGGGCAAGCTGGACGCGGCACGCACCCGCATCGAACGGATCGAAGCCGAACTGGAGCAGATCGTCGGCACGCTCGATGCCAGCCGCGAGCAGGCCAGTCAGGCGCGCGCCAAGCTCGAAGATGCGGTCGAGCGCATGGGCGACCTGGAGAGCACCCGCCAGGCGCTGGAGGCCGAGCGCCGCCAGCTGACCGAGGCGCGCGACCTCGCCCGCGACGGCGCGCGCAGCGTGCGCGAGGCCTCGCACGCGCTGGCGCTGACGCTGGAATCGCAGCGCAGCCAGGTGTCCTCGCTGCGGCAGACGCTGGAGCGCATGGACAGCCAGCGCGGCCAGCTCGATACCCGCCTGGAAGACCTGCTGGCGCAGCTCAGCGACGGCGATTCGCCGGTCGAGGATCTCGAACAGCAGCACCAGGCCGCGCTCGGCGAGCGCGTGCGCACCGAGCGCGTGCTCGGCGAGGCGCGGGCGCTGCTGGACGGCATCGACGGCGAACTGCGCAATTTCGAACAGACCCGGCAGCAGCGCGACGAGCAGGCGCTGGCGCAGCGCGAGCGCATTTCCCAGCGCCGCCTCGACCAGCAGGCGCTGGTGCTCAGCGCCGAGCAGTTGCAGGAGGCGGTGGAGAAGGCCGGCTTCGTGCTGCAGGACGTGGTCAACGCCTTGCCCGACGCGGCCGACCCCGGCGAGTGGGAGCAGGCGGTCGGGCAGATCGACGTACGCATGCGCCGGCTGGAGCCGGTCAACCTCGCCGCGATCCACGAGTACGGCGAGGCCGCGCAGCGCGCCGAATACCTCGAAGCGCAGAACGTGGACCTCAACACCGCGCTGGAAACGCTCGAGGACGCGATCCGCAAGATCGACCGCGAGACCCGCGGCCGCTTCAAGGACACCTTCGATCGGGTCAATTCCGGCGTGCAGGCGCTGTATCCGCGCCTGTTCGGCGGTGGCCACGCCTACCTGGAACTGACCGGCGAGGACCTGCTCGACACCGGCGTGACCATCATGGCGCGCCCGCCGGGCAAGCGCGTGTCGAGCATCTCGTTGCTGTCCGGTGGCGAGAAGGCGATGACCGCGGTGGCGCTGGTGTTCGCGATCTTCCAGCTCAACCCGGCGCCGTTCTGCCTGCTCGACGAGGTCGACGCACCGCTGGACGAGGCCAACGTCGGCCGCCTGGCCAACATGGTCAAGGAAATGAGCGAGAAGGTGCAGTTCCTGTTCGTCAGTCACAACAAGGCGACGATGGAAGCGGCACACCAGTTGTCGGGCGTGACGATGCGCGAGCCGGGCGTCAGCCGCCTGGTCAGCGTGGACCTCGCCGAGGCGGCGCGTTTGGCCGGCGCGGCCTGA	MRLSTIKLSGFKSFVDPTTLHLPTNMTGVVGPNGCGKSNIIDAVRWVMGESSASRLRGDSLTDVIFSGSSARKPVAQATVELIFDNSDHTISGEYASYNEISVKRLVSRDGSSAYYLNGAKCRRRDITDLFLGTGLGPRSYSIIEQGMISQIIEARPEDLRVYLEEAAGISKYKERRKETETRIRHTRENLDRLNDLREEITKQLAHLQRQAKQAEQYQALQEERRVKDAEWKALGYRALDGRLQGLREKLSQEETKLQQLIAEQRDAEARIETGRVRREDAAEALAKAQADVYQVGGALARIEQQIQHQRELSQRLYKARDEAQSQLQELTQHITSDASRLAVLEEAMAETEPRLEQLREDNEFKQDALREAETALADWQQRWEHHTRDTGEASRAGEVERTRVDYLDKQALEAERRREALLAERGGFDLEALDETFEQIQLQHETQKTAIDTLTEQVEARKQAAAVLQDAQRASQADLAEVRKQAQAARGRLASLETLQQAALGQEQGAAVAWLKARGLDSAARVGERITVESGWENAVESALGQLIEGVLVDAPETLVDALGELGDGRIALVAGSTGNASFAPTSLAAKVQGPLAIRRLLARLHGADDLVAARALQATLGDGDSVITRGGERLGEGWVRVSRSGAAKQGALLREREIQDLRSQIEALHEREGELEERLASLREQLLAAEQQREDVQRQLYQGHRAVSELAGQLQSHQGKLDAARTRIERIEAELEQIVGTLDASREQASQARAKLEDAVERMGDLESTRQALEAERRQLTEARDLARDGARSVREASHALALTLESQRSQVSSLRQTLERMDSQRGQLDTRLEDLLAQLSDGDSPVEDLEQQHQAALGERVRTERVLGEARALLDGIDGELRNFEQTRQQRDEQALAQRERISQRRLDQQALVLSAEQLQEAVEKAGFVLQDVVNALPDAADPGEWEQAVGQIDVRMRRLEPVNLAAIHEYGEAAQRAEYLEAQNVDLNTALETLEDAIRKIDRETRGRFKDTFDRVNSGVQALYPRLFGGGHAYLELTGEDLLDTGVTIMARPPGKRVSSISLLSGGEKAMTAVALVFAIFQLNPAPFCLLDEVDAPLDEANVGRLANMVKEMSEKVQFLFVSHNKATMEAAHQLSGVTMREPGVSRLVSVDLAEAARLAGAA				NA	NA	NA	NA	NA
BMS020_05472	450	rplI	COG0359	50S ribosomal protein L9	ATGAAGCTGATTCTCCTGCAGAAGGTGACCAACCTCGGCGGCCTGGGCGACCTGGTCGACGTGAAGCCGGGCTACGGCCGCAACTTCCTCGTGCCGCAGGGCAAGGCCGTGCCGGCCACCGAGGCCAACGTTGCCGAGTTCCAGGCCAAGCGTGCCGAGTACGAAGCCAAGGCCAAGGCGTCGCATGACGATGCGCAGGCCCGTGCCGCCAAGTTCGAAGGCGCCAGCGTCACCATCGCCGCCCACGCGTCGACCGAAGGCAAGCTGTACGGCTCGGTTGGCCCGCGCGACATCGCCGAGGCGTTCACCGCCGCCGGCCTGCCGCTGGAAAAGAGCGAAGTCATCCTCGGCGAAGGCGCGTTCCGCAACATCGGCGAGTACGACGTGGTGGTGCACCTGCACGCCGACGTCGAGACCACCGTCAAGATCGTCGTCGAATCCGACGCCTGA	MKLILLQKVTNLGGLGDLVDVKPGYGRNFLVPQGKAVPATEANVAEFQAKRAEYEAKAKASHDDAQARAAKFEGASVTIAAHASTEGKLYGSVGPRDIAEAFTAAGLPLEKSEVILGEGAFRNIGEYDVVVHLHADVETTVKIVVESDA				NA	NA	NA	NA	NA
BMS020_05473	231	rpsR_2	COG0238	30S ribosomal protein S18	ATGTCCAAGTTCTTCCGTCGCCGCAAGTTCTGCAAGTTCACTGCCGAAGGTGTCAAGGAGATCGACTACAAGGATCTCAACACCCTGCGCCAGTACCTCACCGAGAACGGCAAGATCGTGCCGAGCCGCGTGACCGGCACCAAGTCGAAGTACCAGCGCCAGCTGGCCACGGCCGTCAAGCGCGCCCGTTTCCTGGCCCTGATTCCGTACACCGACAACCACGACGTGTGA	MSKFFRRRKFCKFTAEGVKEIDYKDLNTLRQYLTENGKIVPSRVTGTKSKYQRQLATAVKRARFLALIPYTDNHDV				NA	NA	NA	NA	NA
BMS020_05474	435	rpsF_2	COG0360	30S ribosomal protein S6	ATGAGTCGTCATTACGAAATCGTGTTCCTGGTCCATCCGGACCAGAGCGAACAGGTCCCGGCCATGATCGAGCGCTACAAGGCGCTGGTCGAGGGCGGCAACGGCACCATCCACCGTCTGGAAGACTGGGGCCGCCGTCAGCTGGCGTACCCGATCCAGAACCTGGTGAAGGCGCACTACGTGCTGCTGAACATCGAAGCCGACCAGGCCGTGCTGAACGAGCTGGTCGAAGCGTTCCGCTTCAACGATGCGGTGCTGCGTCATCTGGTGATCAAGCGCGATGGCGCCGACACCGAGCAGTCGCTGATCATGAAGAGCAAGGACGAGAAGGGTGACAAGCCCGAGCGTGGCGAGCGTCGTCGCCGTGACGACGAAGAGGGCGAGGGCGGCAACGCTTCGTCCGACAACGACGGCGACAACGCCGAAGCCGCCTAA	MSRHYEIVFLVHPDQSEQVPAMIERYKALVEGGNGTIHRLEDWGRRQLAYPIQNLVKAHYVLLNIEADQAVLNELVEAFRFNDAVLRHLVIKRDGADTEQSLIMKSKDEKGDKPERGERRRRDDEEGEGGNASSDNDGDNAEAA				NA	NA	NA	NA	NA
BMS020_05475	339	sufA_2	COG0316	Protein SufA	ATGGCCGTCACCCTCAGCCCCCTTGCCCTGGAGCGCGTGCAGCGCTTCGTCCAGCTCACGCCCGGCACGCTTGGGCTGCGCTTCGGCGTGACCCGCACCGGCTGTTCCGGCTGGGGCCACATCACCGACCTGGCGCGCGAGCAGCGCGACGGCGACACGGTGTTCGAGCAGGACGGGGTGCGCATCTTCGTCGACGCGCAGAGCCTGCCGCTGGTGGACGGCACCCGCATCGACTTCGGCAAGCACGGGCTCAGCGAGACCTTCACGTTCAGCAACCCGAACGCGACCGCCGAATGCGGCTGCGGCGAGAGTTTCACGACCGAGGCCGACAAGGTCTGA	MAVTLSPLALERVQRFVQLTPGTLGLRFGVTRTGCSGWGHITDLAREQRDGDTVFEQDGVRIFVDAQSLPLVDGTRIDFGKHGLSETFTFSNPNATAECGCGESFTTEADKV				NA	NA	NA	NA	NA
BMS020_05476	1401	asnS_2	COG0017	Asparagine--tRNA ligase	ATGACGGTGGTCAGCGTTGAACATGCGCTTGCCGGGAAGATCCCGGCCGGCGGCGAGGTGACGGTCCGCGGCTGGGTGCGTACCCGGCGCGATTCCAAGGCGGGCCTGAGCTTCGTCAATGTCAGCGATGGCTCCTGCTTCGCCGCGATCCAGGTGGTCGCGCCGTCGGACCTGCCCAACTACGAGAGCGAGATCAAGAAGCTGACCGCCGGCTGCTCGGTGATCGCCACCGGCACCCTGGTGGCCTCGCAGGGCCAGGGCCAGAGCTTCGAGATCCAGGCGCAGTCGCTGGAAGTGGTCGGCTGGGTCGAGGACCCGCTGACCTACCCGATCCAGCCCAAGCCGATGTCGCCGGAGTTCCTGCGCGAAGTCGCGCACCTGCGCCCGCGCACCAACCTGTTCGGCGCGGTCACCCGCATCCGCAACTGCCTGGCGCAGGCGGTGCACCGCTTCTTCCATGAGAACGGCTTCCTGTGGATCTCGACGCCGATCATCACCACCTCCGACGCCGAGGGCGCCGGCCAGATGTTCCGGGTCTCGACCCTTGACCTGGCCAACCTGCCGCGCACCGACAAGGGTGAGGTGGACTTCAGCCGCGACTTCTTCGGCAAAGAGACCTTCCTGACCGTGTCCGGCCAGCTCAACGTCGAGGCCTACGCGCTGTCGCTGAGCAAGGTCTACACCTTCGGCCCGACCTTCCGCGCCGAGAACAGCCACACCACCCGCCACCTGGCCGAGTTCTGGATGATCGAGCCGGAGATCGCCTTCGCCGACCTGGCCGAGGACGCGCGCGTGGCCGAGCAGTTCCTCAAGTACCTGTTCAAGGCGGTGCTGGACGAGCGCGCCGACGACCTGGCCTTCATCGCCGAGCGCGTCGACAAGAACGCGATCAGCAAGCTGGAAACCTTCATCAACGCGCCGTTCGAGCGCATCGAGTACTCCGATGCGATCACCCTGCTGCAGAAGTCCGGCAAGAAGTTCGACTTCCCGGTCGAATGGGGCCTGGACCTGCAGACCGAGCACGAGCGCTGGCTGACCGAGGAACACGTCGGCCGCCCGGTCGTGGTGACCAACTACCCCGAGCACATCAAGGCGTTCTACATGCGCCTGAACGACGACGGCAAGACCGTCGCGGCGATGGACGTGCTGGCCCCGGGCATCGGCGAGATCATCGGCGGCAGCCAGCGCGAGGACCGGCTGGACGTGCTGGACGCGCGCATGGCGCAGTTCGGCCTGGACCCGGCCCATTACGGCTGGTACCGCGACTTCCGCCGCTACGGTGGCGTGCCGCATGCCGGCTTCGGCCTGGGCTTCGAGCGCCTGGTGGTCTACGTGTGCGGTCTGGGCAACATCCGCGACGCGATCGCCTACCCGCGCGCGCCGGGCAGCGCGGAGTTCTGA	MTVVSVEHALAGKIPAGGEVTVRGWVRTRRDSKAGLSFVNVSDGSCFAAIQVVAPSDLPNYESEIKKLTAGCSVIATGTLVASQGQGQSFEIQAQSLEVVGWVEDPLTYPIQPKPMSPEFLREVAHLRPRTNLFGAVTRIRNCLAQAVHRFFHENGFLWISTPIITTSDAEGAGQMFRVSTLDLANLPRTDKGEVDFSRDFFGKETFLTVSGQLNVEAYALSLSKVYTFGPTFRAENSHTTRHLAEFWMIEPEIAFADLAEDARVAEQFLKYLFKAVLDERADDLAFIAERVDKNAISKLETFINAPFERIEYSDAITLLQKSGKKFDFPVEWGLDLQTEHERWLTEEHVGRPVVVTNYPEHIKAFYMRLNDDGKTVAAMDVLAPGIGEIIGGSQREDRLDVLDARMAQFGLDPAHYGWYRDFRRYGGVPHAGFGLGFERLVVYVCGLGNIRDAIAYPRAPGSAEF				NA	NA	NA	NA	NA
BMS020_05477	249			hypothetical protein	GTGCTGTCGCTGCAGGCAGCGGTCAGCGTGCAGCTGGCGCTGTACGTGATCGCGATCGTGGCGGCGGTGGTCGCCACGGTGCGCTGCGTGAAGCTGCAGCGGCTGGCCAGCCGCCAGCCGCGCGGCTGGTGGGACGGCGACGATGCCAGGCGCGCGGTGCCGCATGCGCTCAAGCCGCTGTGGATCACCGCGCTGGCGCTGCTGCTCGGCGCTTTCGCCCCGCGCCTGCTCGGCGCGCTGGGCGCATGA	MLSLQAAVSVQLALYVIAIVAAVVATVRCVKLQRLASRQPRGWWDGDDARRAVPHALKPLWITALALLLGAFAPRLLGALGA				NA	NA	NA	NA	NA
BMS020_05478	303			hypothetical protein	ATGACGCTGTTCTTCGCCTTGTGCTTCGTCGGCGTCGCCGTCGCCGGGTTCAGCGCGTTCGTGATCTTCTGGCCGCTGACCCTGGTGCACCTGCGCGACCGCCATCCGGCGCTGGCCGAGGCTTTCGGCGCCGGCGCCTTCCTCAAGCCGGACGCACTGCGCTGGCTGCTGGCGCGGCGCTACCGCGACCAGCGCGACAGCGGCCTGTCCGGGCTGGCCACACCGGCCTGGCTGGCGTTGCTGACCATTTTCATTGGCCTGGGCATGGCATTGCTGCTCGGCCTGCTTTCCAAGGTGATGTGA	MTLFFALCFVGVAVAGFSAFVIFWPLTLVHLRDRHPALAEAFGAGAFLKPDALRWLLARRYRDQRDSGLSGLATPAWLALLTIFIGLGMALLLGLLSKVM				NA	NA	NA	NA	NA
BMS020_05479	315			hypothetical protein	ATGAACGAGAACGAAGCCCCCAACGACCAGTGGTGGCTGGCCAGCCTTGGCCGCCTGCTGATCTGGGCGCGCCTGCGGATCAAGGACGCCGGCACCGCCGAGGTGCTCGACAGCGACGGCAAGCTGCTGACCTACGACAGCGAAGACAGCGCGCGTGCCGCGTTGTTCGACGCCGAGTTCGTCGCCTACGACGGCCTCGACGAGGAGGACGCGCTGGCGCGCGGCTTCTCGCTGCAGGAGATCGCGCCGCCGCAGAGCGCCAGCGATGAAGACCTGCACGGCCGCATGACCCAGACGCTGGGCCACCGCGCCTGA	MNENEAPNDQWWLASLGRLLIWARLRIKDAGTAEVLDSDGKLLTYDSEDSARAALFDAEFVAYDGLDEEDALARGFSLQEIAPPQSASDEDLHGRMTQTLGHRA				NA	NA	NA	NA	NA
BMS020_05480	633	paiB	COG2808	Protease synthase and sporulation protein PAI 2	ATGTACACCCCGCGCCACTTCGCCAGCGACGACCTGCAGGCGCTCGACGCGCTATTCGCGCACGATCCGTTCGTGACCCTGCTGACGCCGGGCGAAGGCGCCCTGCCCGTGGTCTCGCACCTGCCGGTGCTGTACGCACGCGACGGCGCGGCGGTACGGCTGGAAGGCCACTGGGCTCGCCCGAACCCGCAGGCCGGCGATGCCGCCGAGGCCTTGGCGATCGTCCACGGCCCGCACGCCTACCTGTCGCCCTCCTGGTATCCGGACAAGGACGCCGCGGCGCGGGTGCCGACCTGGAACTACGCGGTCGCGCACCTGCACGGGCGGCTCCAGACGCTGCGCGACGCCGCCGCACTGGCCGATCTGATCGGGCGCCTGAGCGATCGCTTCGAGGCCGGCGTCGGCAGCGACTGGCGCTTCGAGCCCGAGCGCACCGAGCACGCCCGCCAGCTGCGCGGCATCGTCGGCTTCCGTTTCGAAGTCACGCGGGTCGAGCTGAAGCTCAAGCTCAGCCAGAACCATCCCGGCGCGAACATCGACGCGGCGATCACCGCGCTGCGGCAGCGCCCGGAGCAGGATGCGCAGACCACGGCGGCATGGATGCAGCGCTGGCGCCCCGACGCGCCCGACTGA	MYTPRHFASDDLQALDALFAHDPFVTLLTPGEGALPVVSHLPVLYARDGAAVRLEGHWARPNPQAGDAAEALAIVHGPHAYLSPSWYPDKDAAARVPTWNYAVAHLHGRLQTLRDAAALADLIGRLSDRFEAGVGSDWRFEPERTEHARQLRGIVGFRFEVTRVELKLKLSQNHPGANIDAAITALRQRPEQDAQTTAAWMQRWRPDAPD	PGPT0014760_800	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ENVELOPE_REMODELLING_REGULATION	CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014760-paiB|yumE-K07734	NA	NA
BMS020_05481	663	can_2	COG0288	Carbonic anhydrase 2	ATGAGTTCCCTGACCCAACTGCTCGACAACAACCGCGAATGGTCCGCACGGATCAATAAGGAGGACCCGGAGTTCTTCGCGCGGCTGTCCAAACAGCAGAAGCCCGAATACCTGTGGATCGGCTGTTCCGATTCGCGCGTGCCGGCCAACCAGATCATCGACATGGCGCCGGGCGAGGTGTTCGTGCACCGCAACGTCGCCAACGTCGTGGTGCACACCGACCTCAACTGCCTGTCGACGATCCAGTTCGCGGTCGACGTACTGAAGGTCAAGCACATCCTGGTGGTCGGCCACTACGGCTGCGGCGGCGTGTTCGCCAGCCTGACCCAGGCGCGCATGGGCCTGGTCGACAACTGGATCCGCCACGTCACCGATGTCGCCGACAAGCACGCCGACTGCCTGCACGCCGCCGGCGAGCTGCCGCTGCAGCACGCGCGCTTGTGCGAGCTCAACGTACTCGAACAGGTCGTGCACGTGGCCCGCACCACGGTCGTGCAGGACGCGTGGTCGCGCGGCCAGGCGCTGACCGTGCATGGCTGGGTCTACAGCCTGCGTGACGGCCTGGTGCACGACCTCGGCATGGACCTGACCGGCCCGGACGACCTCGATGCGCACTACCCCGACGCGCTGGCCCGGATCCAGGCCGACCGCGAAGACCGCTGA	MSSLTQLLDNNREWSARINKEDPEFFARLSKQQKPEYLWIGCSDSRVPANQIIDMAPGEVFVHRNVANVVVHTDLNCLSTIQFAVDVLKVKHILVVGHYGCGGVFASLTQARMGLVDNWIRHVTDVADKHADCLHAAGELPLQHARLCELNVLEQVVHVARTTVVQDAWSRGQALTVHGWVYSLRDGLVHDLGMDLTGPDDLDAHYPDALARIQADREDR	PGPT0002415_3343	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
BMS020_05482	537	nbaC		3-hydroxyanthranilate 3,4-dioxygenase	ATGCTGACCGCTCCGATCAACCTGCAGGCCTGGATCGAGGAACACCGCCACCTGCTCAAGCCGCCGGTCGGCAACAAGTGCATCCAGCAGGACGACTTCATCATCATGATCGTCGGTGGGCCGAACGCGCGCACCGACTATCACTACGATGAAGGCCCAGAGTGGTTCTACCAGCTCGAAGGCGAGATGGTGCTGAAGGTGCAGGAAGATGGCGTCGCGCGCGATATCCCGATCCGCGCCGGCGAAGTGTTCCTGCTGCCGCCGAAGGTGCCGCATTCGCCGCAACGCATGCCCGATTCGGTCGGCCTGGTGGTCGAGCGCCGGCGGCTGGCGCACGAGCAGGATGGCCTGATGTGGTTCTGCCAGGCCTGCAACCACAAGCTCTACGAAGAATACTTCCCGCTCGGCAACATCGAGACCGACCTGCCGCCGGTGTTCGAGCGCTTCTACCGCTCGCTGGAGGCGCGTACCTGCGCGAAGTGCGGCGCGCTGCATCCGGCGCCGGAGCGGTATGCGCAGGAGCCTGCGGGCGGCTGA	MLTAPINLQAWIEEHRHLLKPPVGNKCIQQDDFIIMIVGGPNARTDYHYDEGPEWFYQLEGEMVLKVQEDGVARDIPIRAGEVFLLPPKVPHSPQRMPDSVGLVVERRRLAHEQDGLMWFCQACNHKLYEEYFPLGNIETDLPPVFERFYRSLEARTCAKCGALHPAPERYAQEPAGG				NA	NA	NA	NA	NA
BMS020_05483	1278	kynU		Kynureninase	ATGACCGACCTGCTGTCGCGTTCCCATGCCGTCGCCCTCGACGCCGCCGATCCGCTGCGCCATCTGCGCGGCGAATTCCTGTTTCCGCAACACGCCGGCGCCGACCAGGCCTACTTCGTCGGCAACTCGCTCGGCCTGCAGCCGCGTGGCGCGCGCGCGATGGTGCAGCAGGTGCTCGACCACTGGGGCACGCTCGCGGTCGAAGGCCACTTCACCGGGCAGGCGCAGTGGATGACCTACCAGGAGCTGCTCACCGAGCCGCTGGCGCGCGTGGTCGGCGCGCTGCCGGAAGAAGTGGTGGCGATGAACACGCTGAGCGTGAACCTGCACCTGATGATGGTCAGCTTCTACCGCCCCACCCGCGCGCGCCCGGCGATCCTGATCGAGGCCGGTGCGTTTCCCTCCGATCGCCATGCGGTCGAATCGCAGATCCGCTTCCATGGCTTCGATCCGGCCACCGACCTGATCGAAGTACAGCCAGACGCGCCCGACGGCACGCTGTCGATGGCCGCGATCGAACGCGCGATCGCCGAACACGGCCCGCGCCTGGCGCTGGTGCTGTGGCCGGGCATCCAGTACCGCACCGGCCAGGCGTTCGACCTGGCGCGGATCGTGCAGCTGGCGCAGGCGCAGGGCGCGGCGGTCGGCTTCGACCTGGCGCATGCCGTCGGCAACCTGGCGCTGACGCTGCACGACGACGGCGCCGACTTCGCGGTGTGGTGCCACTACAAGTACCTCAACGCCGGGCCGGGCGCGGTCGGCGGCTGCTTCGTGCATGCGCGCCATGCGCGCGCCGAGCTGCCGCGCTTCGCCGGCTGGTGGGGGCACGAGAAGCAGACCCGCTTCCGCATGGCGCCCGAGTTCACCCCGACGCCGGGCGCAGAGGGCTGGCAGCTGAGCAATCCGCCGATCCTGGCGATGGCGCCGCTGCGCGCTTCGCTGGAGCTGTTCGACCAGGCCGGCATGCCGGCGCTGCGCGCCAAATCCGAACAACTGACCGGCCTGCTGGAAGCGCTGATCCACGCGCGGCTCGCGTCGGTGCTGAGCATCGTCACGCCGCGCGAGCCGGCGCAGCGCGGCTGCCAGCTGTCGCTGCGCGTGGCCGGCGGGCGCGAACGCGGCCGCAGCCTGTTCGAGCACCTGCAGTCGGTCGGCGTGCTTGGCGACTGGCGCGAGCCGGACGTGATCCGGATCTCGCCGGTGCCGCTGTACACCCGTTTCGTCGACCTGCACCGCTTCGTCGAGGCGGTCGAAGGCTGGGCCGGCAGGCCAGCGTAG	MTDLLSRSHAVALDAADPLRHLRGEFLFPQHAGADQAYFVGNSLGLQPRGARAMVQQVLDHWGTLAVEGHFTGQAQWMTYQELLTEPLARVVGALPEEVVAMNTLSVNLHLMMVSFYRPTRARPAILIEAGAFPSDRHAVESQIRFHGFDPATDLIEVQPDAPDGTLSMAAIERAIAEHGPRLALVLWPGIQYRTGQAFDLARIVQLAQAQGAAVGFDLAHAVGNLALTLHDDGADFAVWCHYKYLNAGPGAVGGCFVHARHARAELPRFAGWWGHEKQTRFRMAPEFTPTPGAEGWQLSNPPILAMAPLRASLELFDQAGMPALRAKSEQLTGLLEALIHARLASVLSIVTPREPAQRGCQLSLRVAGGRERGRSLFEHLQSVGVLGDWREPDVIRISPVPLYTRFVDLHRFVEAVEGWAGRPA				NA	NA	NA	NA	NA
BMS020_05484	1377	kmo_1		Kynurenine 3-monooxygenase	ATGCACGACCGCACCTTGGACACACAACGCTCCCTTACCCTGATCGGCGCCGGCCTGGCCGGCTCCCTGCTGGCCATCCTGTTGTCGCAGCGCGGCTGGAAGGTCGAACTGTACGAACGCCGCGGCGACCCGCGCATCAAGGGCTACGAGTCCGGCCGCTCGATCAACCTGGCGCTGGCCGAACGCGGCCGCCATGCGTTGCGCCAGGCCGGTGCCGAGGACGCGGTGATGGCGCGTGCGGTGATGATGCGCGGACGCATGGTGCACCCGGTCGACGCGCCGGCGCAGCTGCAGCGCTACGGCCGCGACGACAGCGAGGTGATCTGGTCGATCCACCGCGCCGATCTCAACCTCAGCCTGCTGGAACTGGCCGAACAGGCCGGCGCGCGCGTGCACTTCTACCGGCGCCTGCACACGGTGGATTTCGACGCCGGCTACGCGCGCTTCATCGACGACCGTGACGACCAGCCGCACGACATCCACTTCCGCACGCTGATCGGCGCCGACGGCGCCGGTTCGGCGCTGCGCGCGGCGATGAACCGCAAGAGTCCGCTGGGCGAGCGGATCGAGTTCCTCGGTCATTCCTACAAGGAGCTGGAGATCCCGCCCACTGCCGATGGCGGCTTCCGCATCGAGCGCAATGCGCTGCACATCTGGCCGCGCGGCCATTACATGTGCATCGCGCTGCCCAACGATGGCGGCACCTTCACCGTGACGCTGTTCCTGCCCAACGAGGGCGAGCCGAGCTTCGCCAGCACCCGCAGCGGCGAGGAGGCACAGGCGCTGTTCGCGCGCGAGTTCCCCGACGCGCTGGCGCTGATCCCGCGCCTGCGCCAGGACTGGGACGAACATCCGCCCGGCCTGCTCGGCACGCTGTACCTGGACCGCTGGCACCTCGGCGACCGCGCCGCGCTGCTCGGCGATGCCGCGCATGCGATGGTGCCGTTCCACGGCCAGGGCATGAACTGCGCGTTCGAGGACTGCGTGGCGCTGGCCGAGATGCTGTGTGCGCACGATGACATCGCCGCGGCGTTCGCCGCGTTCGAGGCCGCGCGCAAGCCCAACGCGCTGGCGATCCAGACGATGGCGCTGGAGAACTACATCGAGATGCGCGACCGCGTCGACGATCCCGACTTCCTGCTGCAACGCGAACTCGAACGTGAGCTGCAGGCGCGCTGGCCGACCCGCTTCGTGCCGCATTACACGATGGTGACCTTCCTGCGCACGCCGTATGCGCTGGCGCTGGCGCGCAGCGAGATCCAGCGCGCGATCCTGGTCGAGGCCACGCGCGGGCATGCCGACCTGTCGCGGATCGACTGGACGGCGCTGGAGCAGGTCGTGCATGCGCGGCTGGCGCCGTTGGATGGCGCGCATTGA	MHDRTLDTQRSLTLIGAGLAGSLLAILLSQRGWKVELYERRGDPRIKGYESGRSINLALAERGRHALRQAGAEDAVMARAVMMRGRMVHPVDAPAQLQRYGRDDSEVIWSIHRADLNLSLLELAEQAGARVHFYRRLHTVDFDAGYARFIDDRDDQPHDIHFRTLIGADGAGSALRAAMNRKSPLGERIEFLGHSYKELEIPPTADGGFRIERNALHIWPRGHYMCIALPNDGGTFTVTLFLPNEGEPSFASTRSGEEAQALFAREFPDALALIPRLRQDWDEHPPGLLGTLYLDRWHLGDRAALLGDAAHAMVPFHGQGMNCAFEDCVALAEMLCAHDDIAAAFAAFEAARKPNALAIQTMALENYIEMRDRVDDPDFLLQRELERELQARWPTRFVPHYTMVTFLRTPYALALARSEIQRAILVEATRGHADLSRIDWTALEQVVHARLAPLDGAH				NA	NA	NA	NA	NA
BMS020_05485	1440	sbcB_2	COG2925	Exodeoxyribonuclease I	ATGCCCGACAGCTTTCTCTTCTACGACCTGGAAACCTTCGGCCAGGATCCGCGCAAGACCCGCATCGCGCAGTTCGCCGCGGTGCGCACCGATGCCGAGCTGCGCGTGGTCGACGAACCGGTCAGCTTCTTCGTGCAGCCGGCCGACGACCTGCTGCCCTCGCCCTACGCGACCCTGGTCACCGGCATCACCCCGCAGCACGCGCAGCGCGAGGGCGTCACCGAGGCCGAAGCGTTCGCCCGCATCGCCGAGCTGATGGCGCGGCCGCAGACCTGTTCGCTGGGCTACAACACACTGCGTTTCGACGACGAGTTCGTGCGCCACGGGCTGTTCCGCAACTTCCACGATCCGTACGAGCGCGAGTGGCGCGGCGGCAATTCGCGCTGGGACCTGCTCGACATGCTGCGGCTGGTGCATGCACTGCGTCCGGACGGCATCAGCTGGCCCAAGCGCGAGGACGGCGCGACCTCGTTCAAGCTCGAACACCTGGCGCTGGCCAACGACGTGCGCGAAGGCGATGCGCACGAGGCCTTGTCCGACGTCTACGCCACCATCGGCATGGCGCGGCTGTTCCGCCAGGCGCAGCCGAAGATGTGGGAGTACGCGCTGCGGCTGCGCGACAAGCGCTATGCCGCCAGCCTGCTCGACGTGGTCGCCGGCAGCCCGGTGCTGCACGTTTCGCAGCGCTATCCAGCCGCGCGCCTGTGCGCCGCGCCGGTGCTGCCGCTGACGCGGCATCCGCGCATCGACAGCCGGGTGATCGTGTTCGACCTCGACGGCGAGATCGAGCCGCTGCTGCGGCTGTCGCCGGAGGAGATCGCCGACCGCCTGTACACTCCGGCCGCCGACCTGCCGGAGGGCGAGCAGCGCATCGCGTTGAAGGAAGTGCACACCAACAAGGTGCCGGCGCTGGTGGCCTGGAACCACCTTCGCGGCGACGATTTCGCGCGGCTGCGCATCGACCCGGACGCGGTGCAGGCCAAGGCCGCGCTTCTGCGCGCCGCCGGCCCGGAACTGGCCGAGAAGGTGCGCCGGGTCTACGCCGGCGAGCGCGCCGCAACGCCCTCGGACGTCGATGCCTCGCTGTACGACGGCTTCCTGGCCGAGGGTGATCGCCGGTTGATGCCGCTGGTGCGCAGCAGCGCGCCGGCCGACCTCGCCGCGCTGGAAAACCGCTTCCGCGATCCGCGCCTGCCCGAACTGCTGTTCCGCTACCGCGCGCGCAACTGGCCGCAGACGCTGACCACCGACGACCAGCAGCGCTGGGACGACTACCGCCGCCAGCGCCTGCAGCTCGACAATGGGCTGTCCGAACTGACCTTCGACCAGCTGCACGCGCAGATCGCCGATCTACGCGCCGCTCACCCCGACGATGCTACCAAGCAGGCCCTGCTCGACCAGCTGGCCGCCTGGGGCCAGGACCTGCAACGCACCCTATGA	MPDSFLFYDLETFGQDPRKTRIAQFAAVRTDAELRVVDEPVSFFVQPADDLLPSPYATLVTGITPQHAQREGVTEAEAFARIAELMARPQTCSLGYNTLRFDDEFVRHGLFRNFHDPYEREWRGGNSRWDLLDMLRLVHALRPDGISWPKREDGATSFKLEHLALANDVREGDAHEALSDVYATIGMARLFRQAQPKMWEYALRLRDKRYAASLLDVVAGSPVLHVSQRYPAARLCAAPVLPLTRHPRIDSRVIVFDLDGEIEPLLRLSPEEIADRLYTPAADLPEGEQRIALKEVHTNKVPALVAWNHLRGDDFARLRIDPDAVQAKAALLRAAGPELAEKVRRVYAGERAATPSDVDASLYDGFLAEGDRRLMPLVRSSAPADLAALENRFRDPRLPELLFRYRARNWPQTLTTDDQQRWDDYRRQRLQLDNGLSELTFDQLHAQIADLRAAHPDDATKQALLDQLAAWGQDLQRTL				NA	NA	NA	NA	NA
BMS020_05486	687			hypothetical protein	ATGACGAGCTATTTCTCCGACGCCAGCTTCAAGTTCCTGCGCAACCTGGAACGCCACAACGACAAGGCCTGGTTCAACGAGCACAAGGCGCAGTACGAAGATCACGTGCGCCAGCCGTTCCTGCGCCTGATCACCGACCTGCAGCCGGCGCTGGCCGAGGTCAGCGAGCACTTCCGCGCCGACCCGCGCACCCAGGGCGGATCGCTGTTCCGGATCTACCGCGATGCGCGCTTCTCCAACGACAAGTCGCCGTACAAGAGCTGGCAGGGCGCGCGGCTGTTCCATGCGCGCCGGCGCGAGGTCGCCGCGCCATCGTTCTACATCCACCTGCAGCCCGGCGGCTGCTTCGTCGGCGCCGGCATCTGGCACCCGGAACCGGACACGCAGCGCCGCATCCGCCAGTTCATCTTCGACAACCCCGGCAGTTGGAAGACCGCCGCGCACGATCCCAAGCTGCTGCGCCGCTTCGAGCTGGCGCAGGAGGAGAAGATGGTGCGTTCGCCACGCGGCTTCCCGGCCGACTTCGCGTTCCTGGAAGACCTCAAGCAGCGCAACTGGGTGATGTGGCGCAGCCTCGACGATGCGGCGATGACCGGCCCGCGCCTGCTCGGCACATTGGAAAAGGATCTGGCCGCGCTCGGCCCGTTCGTCGACTACCTGTGCGCGGCGCTGGACCTGGAGTTCTAG	MTSYFSDASFKFLRNLERHNDKAWFNEHKAQYEDHVRQPFLRLITDLQPALAEVSEHFRADPRTQGGSLFRIYRDARFSNDKSPYKSWQGARLFHARRREVAAPSFYIHLQPGGCFVGAGIWHPEPDTQRRIRQFIFDNPGSWKTAAHDPKLLRRFELAQEEKMVRSPRGFPADFAFLEDLKQRNWVMWRSLDDAAMTGPRLLGTLEKDLAALGPFVDYLCAALDLEF				NA	NA	NA	NA	NA
BMS020_05487	549			hypothetical protein	ATGAAAAAGACCTTGTTGTGGCTGGCCCCGCTGCTGGTGCTGCTGGCACTGGCCGGCTACGTGATCGCCGGCCCGTACCTGGCCATCCGCGGCATCGGCCAGGCGATCGAGCACCAGGACATGGCGCAGCTCGAGCGTCACGTCGACTTCCCCGCCCTGCGCGTCAACCTCAAGGCCCAGCTCGACGACTACCTGGTGCGCCAGGCCGGCCCGGAGATGCAGTCCAGCCTGCTTGGCGCGTTCGCGCTGCAGCTGGCCGGCGGCCTGGGCGGCAGCGCGGTCGACACCCTGGTCACCGCGCCCGGCATCGCCGCGCTGCTGCAGGGGCGCACGCTGTGGAAACGCGCCAACGGTCGCACCGTCGGCGGCGACACCTGGGCCGCCACCGAGCCCGACCGCCCGCTGCAGGACGCGCACGGACGCTTCGAATCGACCCGGCGCTTCACCGCCACCGTGCAGACCGCCGCGGGTACCCCGGTGGTGTTCGTGCTCAGCCGCGACGGGCTACGCTGGAAATTGACCAACATCGTGCTGCCCCTGGAGCAATGA	MKKTLLWLAPLLVLLALAGYVIAGPYLAIRGIGQAIEHQDMAQLERHVDFPALRVNLKAQLDDYLVRQAGPEMQSSLLGAFALQLAGGLGGSAVDTLVTAPGIAALLQGRTLWKRANGRTVGGDTWAATEPDRPLQDAHGRFESTRRFTATVQTAAGTPVVFVLSRDGLRWKLTNIVLPLEQ				NA	NA	NA	NA	NA
BMS020_05488	975		COG2220	putative protein	ATGAGCCGCAACCCTTATTACGACGGCCCCGTCAGCGACCACTTCGACGGCCTGCGCTTCTTCAATCCCGACCATCCCTCCACCGACCGTGGCCTGCGCGAGCTGCTGCGCTGGCGCCTGCAGGGCACGCGCCAGCGCTGGAGCTCCCCGCCGCCGGTGGTTCCGTCGCGCCCGCGCGAACGCGAGCAGGCACTGACCGTCACCCTGATCGGCCACGCCAGCGTGCTGATCCAGGTCGGCGGGCACAACCTGCTGGTCGATCCGGTCTGGGCCGAGCGCGCCAGCCCGCTGCGCGGTTTCGGCCCGCGCCGCTACAACGCGCCCGGTATCGCGTTCGACGACCTGCCGCCGATCGACACGCTGCTGATCACCCACAACCACTACGACCACCTCGACCTGGACACGCTGCGGCGCCTGCAGCAGGCGCACGCGCCGCAGCTGGTCACGCCGCTCGGCAACGACACGCTGATCGCACGCCAGCTGCCCGGACTGCGCGCCACCGCACTGGACTGGTGGCAATCGCATCGCATTGATGCCATCGAGATCACCGTCACTCCGGCACTGCATTGGTCCTCGCGCAGCCTGTCGGACCGGCGCATGGCGCTGTGGGGCGGCTTCCACCTGCGCCACGCCGACCACAGCTGCTACATCGCCGGCGACACCGGCTACGGCAACGGCTGGCCGTTCCGGCTGCTGCGCGAACGGCTCGGCGCGCCGGACCTGGCGTTGCTGCCGATCGGCGCGTACGAGCCGCGCTGGTTCATGCGCGACCAGCACATGGATGCCGCCGAGGCGGTGCAGGCGATGCGCGACTGCGGCGCGCGCCAGGCGCTGGGCCTGCACTGGGGCACGTTCCAGCTGACCGACGAGGCGCGACTGGCGCCAAAGGAGCTGCTGGCGGCGACACTGCAGGCGCAGGCACTGGGCCCGGACAGCTTCATCGCGATGGAAGCCGGCCAGCGCTGGCAGCGTTGA	MSRNPYYDGPVSDHFDGLRFFNPDHPSTDRGLRELLRWRLQGTRQRWSSPPPVVPSRPREREQALTVTLIGHASVLIQVGGHNLLVDPVWAERASPLRGFGPRRYNAPGIAFDDLPPIDTLLITHNHYDHLDLDTLRRLQQAHAPQLVTPLGNDTLIARQLPGLRATALDWWQSHRIDAIEITVTPALHWSSRSLSDRRMALWGGFHLRHADHSCYIAGDTGYGNGWPFRLLRERLGAPDLALLPIGAYEPRWFMRDQHMDAAEAVQAMRDCGARQALGLHWGTFQLTDEARLAPKELLAATLQAQALGPDSFIAMEAGQRWQR				NA	NA	NA	NA	NA
BMS020_05489	738	speE_2		Polyamine aminopropyltransferase	ATGATCCGCCGCGCTGAACCGGGGCGCGGGTCCGGCGCGCCGTACGTGCACCGGACCTGGCGCTATGTCGAACTGCAGTTCCGCGGCGAGGTCACCCAGACCCGGATGCTGCGCTGGTGTCCAGACTGGCTGCTGGTCGGCTACACGCGCACGATGCTGGCCGCGCTGCTGCTCAACCCGCGTCCGGCGCGGATCGGCATCATCGGCGTCGGCGGCGGTGCGCAGGCCAAGTTCTGCCATCGCCACCTGCGGCACAGCCGGATCGAGGCGATCGAGAACGATGCCGGGGTGCTGGCGCTGCGCGCGGCGTTCCGGATTCCGCCCGACGATGCGCGCCTGCAGGTCGAGCTCGGCGACGGCGCGGCCTGGCTGCGCCGGCAGCGCGGGCGCTTGGACCTGCTGCTGGTGGATGCCTACGACCTGCACGGCATCCCGCCGGCGCTGTCGACGCCGGCCTTCTACCGCGATTGCCAGGCTGCACTCGGCGCCGCCGGGGTGATGGCGAGCAATCTGTACGCCACCGACACGCGCATGCACCTGCGCCGGCTGGGCGAGGCCTTCGACGGCCGCGTCGAGGCGCTGGACGAACCGGGCATGGACAACAGCGTGGCCTTCGCCTGGAACGGCGCGGCGCCTGCGCGCGATGCCGATGCCGCACTGGCGGCGTTGCCGTGGCTGGCGCGGCGCCAGCTGGCGACGCCGCTGCGCCGCCTGGCGCAGGCGCTGGCCGCGCGCTGA	MIRRAEPGRGSGAPYVHRTWRYVELQFRGEVTQTRMLRWCPDWLLVGYTRTMLAALLLNPRPARIGIIGVGGGAQAKFCHRHLRHSRIEAIENDAGVLALRAAFRIPPDDARLQVELGDGAAWLRRQRGRLDLLLVDAYDLHGIPPALSTPAFYRDCQAALGAAGVMASNLYATDTRMHLRRLGEAFDGRVEALDEPGMDNSVAFAWNGAAPARDADAALAALPWLARRQLATPLRRLAQALAAR	PGPT0007750_3974	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
BMS020_05490	963			hypothetical protein	ATGGCCGACAACACCCCCCGTTTGCTGACCGTCGCGGTGACCTCGCGCGCCCTGTTCGACCTGGAAGAGGGCCACGCCCTGTTCGAAGGCGATGGCGTGGAGGCCTACGCCGCCTACCAGCGCGCCCACGAGGACGACATCCTCGCCCCGGGCGTCGCCTTCCCGGTGGTGCGCAAGCTGCTGGCGCTGAACACCGGCGCGCCGCCGGATTCGCCGCGGGTCGAGGTGATCCTGCTGTCGCGCAATTCGGCCGATACCGGCCTGCGCATCTTCAATTCGATCCAGCACTACGGGCTGGGCATCGTGCGCGCCACCTTCACCTCGGGCGAGCCGACCTGGCCATACGTCAAGCCGTTCGGTACCGATCTGTTCCTGTCGGCCAACCCGGATTCGGTGCGGCGCGCGCTCGGCCACGGCATCGCCGCCGCGCACATCCTGCCGCGCTCGCCGGGTGAGCAGGCCGCCGCCGCCGAGGCGATCGTCGCCAACGACGAAAGCCGGCTGTCGACCCAGCTGCGCATCGCCTTCGACGGCGACGCGGTGATCTTCGGCGACGAGAGCGAGCGGGTCTCGCGCGAGCAGGGCGTGGAGGCGTTCGGTCGCCACGAACAGCAGCGCGCACGCGAACCGCTCAGCGGCGGCCCGTTCCGCGCGTTCCTGTCGGCGCTGCATGCATTGCAGGCCGCCTTCCCGGCCGGCGAGGCCTCGCCGATCCGCACTGCGCTGGTCACCGCGCGTTCGGCGCCGGCGCACGAGCGGGTGATCCGCACCCTGCGCGAATGGGACGTGCGCCTGGACGAGGCGCTGTTCCTTGGTGGGCGGCACAAGGGCCCGTTCCTGGAAGCGTTCGGCGCGGACATCTTCTTCGACGATTCGCAGCACAACATCGACAGCGCGCGCCAGCACCGCAGCGTGGCCGCCGGCCACGTGCCGCACGGTGTTGCCAATGATCCGCCGCGCTGA	MADNTPRLLTVAVTSRALFDLEEGHALFEGDGVEAYAAYQRAHEDDILAPGVAFPVVRKLLALNTGAPPDSPRVEVILLSRNSADTGLRIFNSIQHYGLGIVRATFTSGEPTWPYVKPFGTDLFLSANPDSVRRALGHGIAAAHILPRSPGEQAAAAEAIVANDESRLSTQLRIAFDGDAVIFGDESERVSREQGVEAFGRHEQQRAREPLSGGPFRAFLSALHALQAAFPAGEASPIRTALVTARSAPAHERVIRTLREWDVRLDEALFLGGRHKGPFLEAFGADIFFDDSQHNIDSARQHRSVAAGHVPHGVANDPPR	PGPT0013395_2517	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
BMS020_05491	387	rob_3	COG2207	Right origin-binding protein	ATGGCGATTTCGCAGCCGTCCCCGCCTGCGCCGTTGCCGGCGCCGCTGGACCCAGCCTGGCCGGCCGCGGTGCGGCGGGCGGTGGCCTATGTCGAACTGCACCTGCGCGAGCCGATCCGGGTCGAGGAGCTGGCTGCGGCGGCCTGCATGAGCCGCTTCCATTTCGCCCGGGTGTTCCGCGCGAGCACCGGCTGCAGTCCGATGGAATACCTGCGCCAGCGCCGCATCGTGCAGGCGCAATGGCTGCTGCGCGAGCGCGGCCGCAAGGTCTGCCAGGTCGCCAGCGAGCTGTGCTTCTTCGACCAGAGCCACTTCGTGCGCAGCTTCCGCCGTGTCACCGGCTGCACCCCGGCGTGCTTCGCCCGCGCGGCACAGGCGCAGGCCTGA	MAISQPSPPAPLPAPLDPAWPAAVRRAVAYVELHLREPIRVEELAAAACMSRFHFARVFRASTGCSPMEYLRQRRIVQAQWLLRERGRKVCQVASELCFFDQSHFVRSFRRVTGCTPACFARAAQAQA				NA	NA	NA	NA	NA
BMS020_05492	384			hypothetical protein	GTGCAGCGACTGTATGCGATGTTCCCGGACCGCGGCCCCGGTATCGGCTTGCTGCTGCTGCGGGTGGAGTTGGCGTTGCTGGTGCTGCTCGACCCGCACGGCGCCTGGCTGGCGCCCCCCGCCGGTTGGCCGATGCAGGCGATGTGGGGCGCCGCGCTGTTGCTGGCCTGTGGCGCACTGACGCCGCTGGCGCTGCTGTTGGCGGTGGTGCTGACCGCGGCACGGCTGCCGGAACCGATGGCGCTGCTGCTGCTCGGGTTGATGCTGAGCGTGTTCCTGCTGGGGCCCGGCGCGTACTCGCTGGATGCGCGGCTGTTCGGGCGCCGGCTGGTGCGCGAAGGCGGCGCGGGGAGCTTGCCGCGTCGCGATCACCCGAAAGAGTAG	MQRLYAMFPDRGPGIGLLLLRVELALLVLLDPHGAWLAPPAGWPMQAMWGAALLLACGALTPLALLLAVVLTAARLPEPMALLLLGLMLSVFLLGPGAYSLDARLFGRRLVREGGAGSLPRRDHPKE				NA	NA	NA	NA	NA
BMS020_05493	2964			hypothetical protein	ATGCGGCGATGCCTGGCCGCGACGCTCGTGCTGCTGGCCTCCGGCGCATCGGCGGCGCCGGCGGGCACGCCGCTGCACGGCTTCAACCACAGCGCGTGGACGATGGAACGCGGCGCGCCGGGCGACATCTGGGACATCGCGCAGGCCGACGACGGCACGCTGCGGCTGGCGACCGGCTCGGGCCTGTACCGCTTCGATGGTCGCAGTTTCACGCGCGAGAACCCGCCGCCGGGCAGCACGTTTTCCTCCAGCAACATGACCACGCTCGAAGGCGACGGCCGCGGTGGCTGGTGGATCGGCTATTTCGACGCCGGCGTGAGCCACCTCGACGCCACCGGCATCCAGCACTACCAGCGCGCCCAGGGCATGCCGCCCGGCCTGCTGCCGCGCCTGCAGCGCGATGCCGGCGGCAGGCTGTGGGCCGCCAGCGATGGCGGCCTGCGCTGGTTCGACGGGCGACGCTGGCAGCCCGCGCCGCGCGCACTCGGCTTCGCCGGCACGCGCGCGCACTGGCTGCTGCGCGACCAGCGCGGCGCGCTGTGGGTCGCCGATGACGCGCGCCTGTGGGTGCTGGACCCCGGCGCCGCCCGCTTCCGCGACACCGGCGTGGCGGTCGCCGCCTTCGCCACCCTGGCCGAGCGTCCGGACGGCGAACTTTGGCTGGGCGACCGCCGCGACGGGCTGATGCCGGTCGCCAACGCCGCTGGCGTGCTGCCGGCCGCGCAGCGCCGGGCCCGCGCCCTGCCCGAGCTGCGCGCCGAACGCCTGCGTTTCAGCCGCGACGGCAGCCTGTGGGTGAGCCTGCTGCCGCCGGACCACGGCCTGGCCCGGATCGAATTCGCCAGCGACGGCACGCTGGCGCGGGTCGCCCGCTTCGATGCCGCGCAGGGGCTGACCTCGCCACGCCCGTCGCCGCTGCTGGAAGACCGCGAGGGCAACCTATGGGTCGGCACCAATCTCGGCCTGGATCGTTTCCGCCCGCTCGCCGTGCATCGCCTGCAGGGCGCCACCGCGCTGCAGGCGCTGTTCCGCGACCGCCAGGGCCAGGTGTACGGCTACGGCGAGACCTTGCAGCCGGCACTGCTGGACGCATCGCCCGGGCACGCCGCCGCACCGGCCGACAGCGCCGATGGCTGGATGGCGATGGACGACCGCCTGGCGCACTGGCAGCGCGGACAGCGCAACGCGCTGCCCCCTGCCGCGCCGGCCGCACGCCTGCATGCGATCAGCGGCGACGTCGACGCGCTGTGGGCCTGCGTGGACGACAGCCTGCGGCACTGGCAGCCCGGCGGCGGCTGGCGCCTGCTCGCACGCCTGCCGGGGTCCCACTGCACGGTCGTGAGCGCGCACGGCGGCGACCTGCTGCTCGGCGACGCCAACGGCCGGCTGCACCGGCTGCGTGCGGGCGCGTCCGCGCTCGACCCACAGGCCACTGCGCTGGACGTCGGCGCGATCACCGCGATCGACGACGACCCGCAACTGCCGTTGGTCGCCGGCGAACGCGGCCTCGCGGTGGGCGACGCGCAGGGCCACTTCCGGCGGCTGCAGGTGCAGCCGGCGGACCTGCTCGACGGCATCAACGGCATCGCCCGCGACGCGGCCGGGCAGGTGTGGCTGTACGGCGTGCGCGGGCTGCTGCGGATCGAGCACCGGGCGCTGCAGGACGCCGCCCGCGATGGCCTGCCGCTCAGGCATGCGCGGCTGTTCGATGCCACCGACGGCCTGCCCGGCATTTCCCGCCAATCCGGGCCGGTGCCGACCCTGCAGCGCGATGCCAACGGCGTGCTGTGGCTGGCCAGCAACCAGGGGCTGGCGTGGCTGGACACGCGGCAGCCGCACCGCAACCCGATCGCGCCGCAGGTCCGCATCGGCGACATCGCCTTCGGCGACCGGCGCGTGCCGTTGGAGGACGGCGCGGTGCTGCCCAAGCGCACCACGCAGCTGCAGATCGACTACACCGCCAGCGCACTGGCGCGACCGGACCGCGTGCGCTACCGCTACCGGCTGTCCGGGCTGGAACAGGACTGGCACGACGCCGGCGAGATGACCCGTGCCAGCTACGCCAACCTCGGCCCGGGCCACTACCGCTTCGAGGTGGTGGCCGAGAACGAGGACGGTGTCGCCAGCGCCGCGGCCGCGCGCACGTTCCAGATCCAGCCGGCCTTCACCCAGACCGCGGCGTTCAAGCTCCTGTGCGCGGCGCTGGCGCTGGCTGGGCTGGCCGCGGCGGTGCGCATCCGCAGCCACCAGCTTGCCGCGCGCATGCGCATGCGCCTGGAGGAACGCCACCTCGAGCGCGAGCGCATCGCCCGCGAGCTGCACGACACCCTGCTGCAGGGCACCCAGGGGCTGATCCTGCGCCTGCATGCGACCAGCCAGCGGCTGGCCGCCGACGATCCGACCCGCGGCGCGTTGGAGACCGCAATGAGTCTGGCCGAACAGAGCATGGCCGAAGGCCGCGAGCGGGTGAGCGGGCTGCGCAGCCGCGCGGCGATGCGCCACGAACTCGGCCGCACGCTGCTGCAGGTGCACGCCGAACTGCCGGCCGGAACCGCGCCGGAGCCGCGCCTGCTGGTGGAGGGCGAGCCGCTGCCGCTGCGCCCGGAGATCGCCGAGGAACTGCAGCTGCTCGGACGCGAGGCGCTGCTCAACGCATTCCGCCACGCCGCCGCGCAAGCCGTGGAGATCGAGGTCGGCTACGGCGCGCGGACGCTGCACCTGCGCATCCGCGATGACGGTCGCGGCCTGCCCGATACCGCGCCGGCCACCGCGCACTGGGGCCTGGCCGGGATGCGCGAGCGCGCCCAGCGGATCGGTGCGAAGCTGTCGGTGTGGTCGCGCCCGGGCGCCGGCACCGAAATCCAGGTCAGCCTGGCGGCGAGCCGCGCCTACCTGCCACGCATCCACCGCAGCGGCTGGCGCTGGCTGCGCCCCACCGCATTGCACAGTGGAGATGAAGCATGA	MRRCLAATLVLLASGASAAPAGTPLHGFNHSAWTMERGAPGDIWDIAQADDGTLRLATGSGLYRFDGRSFTRENPPPGSTFSSSNMTTLEGDGRGGWWIGYFDAGVSHLDATGIQHYQRAQGMPPGLLPRLQRDAGGRLWAASDGGLRWFDGRRWQPAPRALGFAGTRAHWLLRDQRGALWVADDARLWVLDPGAARFRDTGVAVAAFATLAERPDGELWLGDRRDGLMPVANAAGVLPAAQRRARALPELRAERLRFSRDGSLWVSLLPPDHGLARIEFASDGTLARVARFDAAQGLTSPRPSPLLEDREGNLWVGTNLGLDRFRPLAVHRLQGATALQALFRDRQGQVYGYGETLQPALLDASPGHAAAPADSADGWMAMDDRLAHWQRGQRNALPPAAPAARLHAISGDVDALWACVDDSLRHWQPGGGWRLLARLPGSHCTVVSAHGGDLLLGDANGRLHRLRAGASALDPQATALDVGAITAIDDDPQLPLVAGERGLAVGDAQGHFRRLQVQPADLLDGINGIARDAAGQVWLYGVRGLLRIEHRALQDAARDGLPLRHARLFDATDGLPGISRQSGPVPTLQRDANGVLWLASNQGLAWLDTRQPHRNPIAPQVRIGDIAFGDRRVPLEDGAVLPKRTTQLQIDYTASALARPDRVRYRYRLSGLEQDWHDAGEMTRASYANLGPGHYRFEVVAENEDGVASAAAARTFQIQPAFTQTAAFKLLCAALALAGLAAAVRIRSHQLAARMRMRLEERHLERERIARELHDTLLQGTQGLILRLHATSQRLAADDPTRGALETAMSLAEQSMAEGRERVSGLRSRAAMRHELGRTLLQVHAELPAGTAPEPRLLVEGEPLPLRPEIAEELQLLGREALLNAFRHAAAQAVEIEVGYGARTLHLRIRDDGRGLPDTAPATAHWGLAGMRERAQRIGAKLSVWSRPGAGTEIQVSLAASRAYLPRIHRSGWRWLRPTALHSGDEA				NA	NA	NA	NA	NA
BMS020_05494	642	vraR		Response regulator protein VraR	ATGACGCACGCCTCTTCGACGATCGGCGTCCTGGTGGTCGACGACCACCCGCTGCTGCGCGACGGCCTGGCCGCGATGCTGTCCAACCAGGCCGACATGCGCCTGCTCGGCGAGGCGCGCGACGGCGCCGAGGCGGTCGCGCGCTATGCCGAACTGCGCCCGGACGTGGTGCTGATGGACCTGCGCCTGCCGCAGATGGACGGCGTGGAAGCCACCCGCCGCATCCGCGCGTTCGATCCCGATGCGCGCATCATCGTGCTCACCACCTACCGCGGCGATGCGCTGGCGGTGCGCGCATTCCAGGCCGGCGCCAGCGCCTACATGCTCAAGGACACGCTGCGCCGCGACCTGGTCGACACCCTGCGCAACGTGCACGACGGCAAGCGCTACCAGATGCCGCCGGCGATCGCCGAGAGCCTGGCCGCACACGTGCTCGAGGACCGCCTGTCGCAGCGCGAGACCGACGTGCTGGCGCAGGTTGCCGGCGGCCATTCCAACAAGGTGATCGGCCAGCGCCTGGCGATCTCGGAACAGACCGTCAAGGCGCACATGAAGAACATCCTCAGCAAGCTGGGTGCGCGCGACCGCACCCACGCGGTCACCGAGGCGCTGCGGCGCGGGATCCTGTCGCTGGACGGCTGA	MTHASSTIGVLVVDDHPLLRDGLAAMLSNQADMRLLGEARDGAEAVARYAELRPDVVLMDLRLPQMDGVEATRRIRAFDPDARIIVLTTYRGDALAVRAFQAGASAYMLKDTLRRDLVDTLRNVHDGKRYQMPPAIAESLAAHVLEDRLSQRETDVLAQVAGGHSNKVIGQRLAISEQTVKAHMKNILSKLGARDRTHAVTEALRRGILSLDG	PGPT0014870_66	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
BMS020_05495	825	cpo_2		Non-heme chloroperoxidase	ATGAGCCAGTACGTCACCGTCAAAGACGGCGCCAAGATCTTCTACAAGGACTGGGGCAGCGGCCAGCCGGTCGTGTTCGCGCACGGCTGGCCGTTGTCGTCCGACGCCTGGGACCCGCAGATGCTGTTCATGGGTCAGCACGGCTATCGGGTGATCGCCCACGACCGCCGCAGCCACGGCCGCTCCAGCCAGACCTGGAACGGCAACGACATGGACACCTATGCCGACGACCTGGCTGCGGTGCTCGAGGCGGCCAATGTCAGCGACGCGATCCTGGTCGGCCACTCCACCGGTGGCGGCGAGATCAGCCACTACGTCGGCCGCCATGGCAGCAAGCGCGTGGCGAAGATGGTGCTGGTCGGCGCGGTGCCGCCGCTGATGCTGAAGACCGAGGCCAACCCGCACGGCACGCCGCTGAGCGCGTTCGACGGCATCCGCAGCGGCGTCGCCGGTGACCGCTCGCAGTTCTACCAGGACCTGACCACGCCGTTCTTCGGTGCCAACCGCGACGGCCACAAGGTCACCCAGGGCATGCGCGACAGCTTCTGGCTGCAGGGCATGCTCGGCGGCGTGAAGGGCCAGTACGACTGCATCCACGAGTTCTCGCAGGTGGACTACACCGAGGACCTGAAGAAGATCGACGTGCCGACCCTGGTGATCCACGGCGACGACGACCAGATCGTGCCGATCGATGCGTCCGGCAAGCTGTCGGCGAAGATCGTCAAGGATGCGCAGTTGAAGATCTATCCGGGCGCGCCGCACGGCCTGACCGTGACCCATGCCGAGCAGTTCAACCAGGACCTGCTGGCGTTCGCCAAGGGCTGA	MSQYVTVKDGAKIFYKDWGSGQPVVFAHGWPLSSDAWDPQMLFMGQHGYRVIAHDRRSHGRSSQTWNGNDMDTYADDLAAVLEAANVSDAILVGHSTGGGEISHYVGRHGSKRVAKMVLVGAVPPLMLKTEANPHGTPLSAFDGIRSGVAGDRSQFYQDLTTPFFGANRDGHKVTQGMRDSFWLQGMLGGVKGQYDCIHEFSQVDYTEDLKKIDVPTLVIHGDDDQIVPIDASGKLSAKIVKDAQLKIYPGAPHGLTVTHAEQFNQDLLAFAKG	PGPT0013125_1823	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433	NA	NA
BMS020_05496	786	NADK	COG0061	NAD kinase	ATGAGCTCCGTTCCGTTTCCCGAGACCCCCCGCATCTGTTTCCTGGCCAGCAGCGCGCCACAGGCGCAGCAGGCGCGTGGGCAACTGGTGGCCCGTTATGGCGACCATCCCGTCGAGGACGCCGACGTGCTGTGCGCGCTCGGCGGCGATGGCTTCATGCTGCAGACCCTGCATCGCCACGGCGGCGCCGGCAAGCCGGTGTTCGGCATGAAGCTGGGCTCGATCGGGTTCCTGATGAACCAGTACCGCCAGGATGATCTGCATGCGCGGCTGCGCCGTGCCGAGCCGGCCAACCTGCGGCCGCTGGAAATGCTGGCACAGACCGAATCGGGCACCACCACCGGCTCGCTGGCCTACAACGAGGTGTCACTGCTGCGGCAGACGCGGCAGGCCGCGCACCTGTGCGTGGACCTCAACGGGCAGACCCGCATCGACGAGCTGATCGGCGACGGCGTGCTGGTCGCCACGCCGGCCGGCAGCACCGCCTACAACTCCTCGGCGCATGGCCCGATCCTGCCGCTGGGCTCGCATACGCTGGCGCTGACGCCGATCGCGCCCTATCGCCCGCGGCGTTGGCGCGGCGCGATCCTCAAGGCCGACACCGAGGTGCGCTTCCGGGTGCTGGACCCGTACAAGCGCCCGGTCAGCGTGACCGCCGATTCGCACGAGACCCGCGATGTGGTCGAGGTGACGATCCGCGAATCGCGCGAGCATCGGGTGACCTTGCTGTTCGATCCAGAGCACAACCTGGAAGAGCGGATCTTCAACGAGCAGTTCGTGGTCTAG	MSSVPFPETPRICFLASSAPQAQQARGQLVARYGDHPVEDADVLCALGGDGFMLQTLHRHGGAGKPVFGMKLGSIGFLMNQYRQDDLHARLRRAEPANLRPLEMLAQTESGTTTGSLAYNEVSLLRQTRQAAHLCVDLNGQTRIDELIGDGVLVATPAGSTAYNSSAHGPILPLGSHTLALTPIAPYRPRRWRGAILKADTEVRFRVLDPYKRPVSVTADSHETRDVVEVTIRESREHRVTLLFDPEHNLEERIFNEQFVV	PGPT0013490_6134	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858	NA	NA
BMS020_05497	4992	gdh	COG2902	NAD-specific glutamate dehydrogenase	ATGAAACCCAAGAAAGCCGCTTCGAAAACGACCAAAGCACCCGCACGGACCGCGACCAGGAAAGCCGCGTCGACCGTCGTGCCGGATACCCGGGATTTCAGCCTGGAGCCGATCTTCGCCGCGCTGCGCAAGCGTTACCCGGCGGCCCGGCAGACCGAGGCCCTGGCCTTCGCCGCGGACTTCTACCGGCGCATGCAGGAGGACGAGTTCCCGCACCACACCGCCGAGGAATGGGCCGCGCTGGCCGGGGACATGCTGGAGTTCTCGCGCGCGCGCAAGGCCGACACCGCCAACGTGCGGGTGTTCAATCCGGGCAGCAAGGCCAACGGCTGGGAGTCGCCGCACACGGTGCTGCAGATCGTCAACGACGACATGCCGTTCCTGGTCGACTCGGTCAGCATGACCCTGTCCGAGCTGGGCATCGGCGTGCACGTGCTGGGCCACCCGGTGCTGCGCTACAGCCGCGACCGCGCCGGCAAGCTGGTCACCGTCGGCGAGGGCAAGCCCGAATCGCTGATGGTGCTGGAGATCGACCGCCAGCCGGCCGAGGACATGAAGCGCGTCGAGGATGCGGTGCGCGCCGCGCTGGCCGAGGTCCGCCAGGTGGTCAAGGACTGGAGCGCGATGCGCGAGAAGATGGTCGCGCTGGCCGACGACCTCAGCACCCGGCGCATGCCGGTCGACGATGCGGTGCGGCGCGAGGCGCAGGAGTTCCTGCGCTGGGCCTCGTCGGACCACTTCACCTTCTTCGGCTACCGCGAGTACCGGGTCGACAAGCAGGGCGGCCAGGAGATGCTGGTGCCGGACGAGAAGACCGGCCTGGGCCTGCTGCGCGGCACCGACAAGTCGCCGGCGCGGCCGGTGGCGACGCTGGCCGCGCACAGCCTCAACGCCAGCACCGGCGTGCGCGACGGGCTGATCCTGACCAAGACCAACGCCCGCTCGCGCGTGCACCGCAACGGCTACATGGACTACATCGGCGTGCTGGAATTCGACGCCAAGGGCCGGATCACCGCCGAGCAGCGCTTCCTCGGCATGTTCACCTCCGGCGCCTACAACCGTCGCCCGTGGGAAATCCCGCTGGTGCGCCAGCGCTATGAGTACGTGATGGGCAAGTCCGGCCTGTCGCCGACCAGCCACAGCGGCAAGGCGCTGCGCCACATCCTGGAAACGCTACCGCGCGAGGAGCTGTTCCAGTCCAACGAGGCTGAGCTGTTCGCCACCGCGATGGGCATCCTCGGGCTGCAGGAGCGCGTGCGCAGCCGCCTGTTCGTGCGCCGCGACAAGTACGGCCGCTTCATCTCGGTGCTGGTGTACATCCCGCGCGAGCGCTTCAACACCGACGTGCGCCTGCGCATCGAGGCGCTGCTGAAGGATGCGCTGCACGGCGAGCACGTCGATTCCAGCGTGGTGCTGGGCGAGTCGCCGCTGGCGCAGCTGCACCTGATCGTGCGGCCCAAGTCCGGCGAGGCGCTGGAGTTCGACACCAGCGAGCTGGAACAGCGCCTGGCGCACCTGCTGCGCAACTGGCAGGACGACCTGCGCGAGGCACTGGTCGCGCGCCACGGCGAAGGTGAGGGCCTGCGCCTGGCGACCCGCTACGGGCGTGCGCTGCCGGCCGGCTACATCGAGGATTCCACCGCCGAGGCGGCGGCCACCGACGTCGAGCACCTGGCCTCGCTGGACGGCCCGGACGACCTGCACCTGAGCCTGCAGAGCTCGCAGCGCCCGAACATGGCCAACCTGCGCCTGAAGCTGTACCGGCAGCTCGACGACATCCCGCTGTCGGACGCGCTGCCGATGATGGAGAACCTCGGCCTGCGGGTGATCTCCGAGCGGCCGTACCGGCTGCAGCTCGGCGATACGCCGGTGTACATCCAGGACTTCGAGGTCGAGTCGATCGCCGGCGCGATCGATCCGGGTAGCGTCGATGCCGCCTTCGGCGATGCGTTCAAGCAGATCTGGAACGGCGCCGCCGAGAACGACGGTTTCAACCGCCTGGTGCTGGCCGCCGGCCTGCACTGGCGCCAGGTCGCGGTGCTGCGCGGCTACTGCAAGTACCTGCTGCAGACCGGCGTGCCGTTCTCGCAGGCCTACGTCGAAGCCACGTTCAACCGCTACCCGCTGCTGGCGCGGCTGCTGGTGGAGCTGTTCGAGGCCCGTTTCGATCCGGCGACCGGCAGCGAGAGCAAGGCGCAGATCGCCGAAGGCCAGGCCCGCTTCAAGGCCCAGCTGGACGTGCTGGCCGCCGGCGACGAAGCCACGCTGAAGGCGCTCGAGCCGTTGCTCGCCGCACGCAGCGCCGACCGCGCCGCGCAGCAGGAGGCCGCGCGCACCGCGCTGCTGAAGCTGATGGACCGCGTCGACAGCCTCGACGATGACCGCATCCTGCGCAGCTTCATCGGCGTGATCGACGCGACCCTGCGCACCAGCTACTACCAGACCGGCAGGGACGGCAGCCTCGGCCACTGCATCAGCTTCAAGTTCGATTCGGCCAAGGTGCCGGACCTGCCCAAGCCGCGTCCGTACCGCGAGATCTTCGTGTACGGCCCGCGCGTGGAAGGCGTGCACCTGCGGTTCGGCGCCGTCGCGCGTGGCGGCCTGCGCTGGTCCGACCGCCGCGAGGATTTCCGCACCGAGGTGCTGGGCCTGGTCAAGGCGCAGATGGTCAAGAACACGGTGATCGTGCCGGTCGGCGCCAAGGGCGGCTTCTTCGCCAAGCTGCCGCCGGTCGGCGGCGACCGCGACGCGGTGTTCGCCAACGGCGTGGCCTGCTACAAGCTGTTCATCCAGGGCCTGCTGGACATCACCGACAACATCGTCAACAACAAGATCGTGCCGCCGATCGACGTGGTCCGCCACGACCAGGACGATCCGTACCTGGTGGTCGCCGCCGACAAGGGCACCGCGACGTTCTCCGACATCGCCAATGGCCTGGCCATCGACCACGGCTTCTGGCTGGGCGACGCGTTCGCCTCCGGCGGCTCGGTCGGCTACGACCACAAGGGCATGGGCATCACCGCGCGCGGCGCCTGGGAGTCGGTCAAGCGCCATTTCCGTGCGATGGGCCGCGACAGCCAGAGCGAGGATTTCAGCTGCGTCGGCATCGGTGACATGAGCGGCGACGTGTTCGGCAATGGCATGCTGCTGTCGCGCCACATCCGCCTGCTCGCCGCGTTCGACCACCGCCACATCTTCCTCGATCCGACCCCGGACGCGGCCAGCTCGTTCGCCGAGCGCGAGCGCCTGTTCAAGCTGCCGCGTTCGTCGTGGGCCGACTACGACGCCAAGCTGGTCAGCAAGGGCGGCGGCATCTACCCGCGCACGCTGAAGGCGATCGAGATCACCCCGCAGGTGCGCGAGGTGCTGGCGCTGGACGCGGCGGTCAAGAGCCTGTCGCCGAACGAGCTGATGAACGCCATCCTCAAGGCGCCGGTCGACCTGTTCTGGAACGGCGGCATCGGCACCTACGTGAAGGCGGCCAGCGAGACCCACGCCGACGTCGGCGACCGTGCCAACAACGGCCTGCGCGTCAACGGCGGCGAGCTGCGCTGCAAGGTGGTGGGCGAGGGCGGCAACCTCGGCCTGACCCAGCTGGGCCGCATCGAAGCGGCGCAGGCCGGCGTGCTGCTCAACACCGACTTCATCGACAACTCCGCCGGCGTGGACACCTCCGACCACGAGGTGAACATCAAGATCCTGCTCAACGACGTGGTGCAGGCCAAGAAGCTCAGCTACGACGCGCGCAACAAGCTGCTGGCCTCGATGACCGACGAGGTCGCCGAGCTGGTGCTGTGGGACAACATCCGCCAGAACCAGGCGCTGAGCCTGATGGAGCGCATGAGCGTCAAGCGACTCGGCTCCAAGCAGCACTTCATCCGCACGCTGGAGAAGCAGGGCCTGCTCGATCGCCAGATCGAGTTCCTGCCGTCCGATGCCGAGCTGTCGGCGCGCAAGGCGCGTGGCCAGGGCCTGACCCGTCCGGAACTGGCGGTGCTGCTGTCGTACTCCAAGCTGGTGGCGTTCCAGCAGCTGCTGGAATCGGACATCCCCGAGGATCCGTACCTGTCCAAGGAGCTGCAGCGCTACTTCCCGCAGCCGTTGCAGAAGAAGTACGCCGAGGCGATGGACAAGCACCGTCTGAAGCGCGAGATCATTGCCACCGCGGTCACCAACACCACCATCAACCGGATGGGCGCGACCTTCCTGATGCGCATGCAGGAAGACACCGGCCGCAGCATTGGCGAGGTCGCCAAGGCCTACACGATCAGCCGCGAGACGCTGGATGCGCGTGCGCTGTGGACCCAGATCGACGCGCTCGACGGCAAGGTGCCGGAGTCGGTGCAGATCGACGCGCTCGAGGTGGTCTGGTCGCTGCAGCGTGCGTTCGTGCGCTGGCTGCTGTTGCGCCCGGGCGCGATGCCCGGCATCACCGCGGCGGTGGAGCGCTACCACGGTCCGTTCAACGACATCCGCGTGGCCTCCGGCGTGCTGCCCGACTCGCAGCGTCCGTCCTATGAGAACTCGGTGCAGGAGTGGAAGCAGAAGGGCGTGCCGGCGGCGCTGGCGCAGCAGCTGTCCGAGCTGCAGTTCCTGGAGCCGGCGTTCGACATCATCGAACTGGCCCGCACCCGCAAGCTCAAGCCGGTGGACGTGTCCAAGGTGCACTTCCGCCTGGGCGAGGCGCTGCAGCTGCCGTGGCTGTTCGAGCAGATCGACGCGCTGGAGGTCAATGGCCGCTGGCACGCGGTGGCGCGTGGCGTGTTGCGCGATGAGCTGGCCGCGCACCAGCGCACGCTGACCGGGCAGGTGCTGTCGATGTCCGGCGCCAACGCCGAGCAGAAGGTCGAGCAGTGGCTGTCGCGCGACGACACCGGCCTGCGCTTCACCCTGGCGATGCTGGCCGAACTGGCCGAGCAGAAGACGCTGGACTACCCGACCGTGTCGGTGGCGGTGCAGCGGCTGGGGCAGCTGGCGGCGCACGGGGTGTGA	MKPKKAASKTTKAPARTATRKAASTVVPDTRDFSLEPIFAALRKRYPAARQTEALAFAADFYRRMQEDEFPHHTAEEWAALAGDMLEFSRARKADTANVRVFNPGSKANGWESPHTVLQIVNDDMPFLVDSVSMTLSELGIGVHVLGHPVLRYSRDRAGKLVTVGEGKPESLMVLEIDRQPAEDMKRVEDAVRAALAEVRQVVKDWSAMREKMVALADDLSTRRMPVDDAVRREAQEFLRWASSDHFTFFGYREYRVDKQGGQEMLVPDEKTGLGLLRGTDKSPARPVATLAAHSLNASTGVRDGLILTKTNARSRVHRNGYMDYIGVLEFDAKGRITAEQRFLGMFTSGAYNRRPWEIPLVRQRYEYVMGKSGLSPTSHSGKALRHILETLPREELFQSNEAELFATAMGILGLQERVRSRLFVRRDKYGRFISVLVYIPRERFNTDVRLRIEALLKDALHGEHVDSSVVLGESPLAQLHLIVRPKSGEALEFDTSELEQRLAHLLRNWQDDLREALVARHGEGEGLRLATRYGRALPAGYIEDSTAEAAATDVEHLASLDGPDDLHLSLQSSQRPNMANLRLKLYRQLDDIPLSDALPMMENLGLRVISERPYRLQLGDTPVYIQDFEVESIAGAIDPGSVDAAFGDAFKQIWNGAAENDGFNRLVLAAGLHWRQVAVLRGYCKYLLQTGVPFSQAYVEATFNRYPLLARLLVELFEARFDPATGSESKAQIAEGQARFKAQLDVLAAGDEATLKALEPLLAARSADRAAQQEAARTALLKLMDRVDSLDDDRILRSFIGVIDATLRTSYYQTGRDGSLGHCISFKFDSAKVPDLPKPRPYREIFVYGPRVEGVHLRFGAVARGGLRWSDRREDFRTEVLGLVKAQMVKNTVIVPVGAKGGFFAKLPPVGGDRDAVFANGVACYKLFIQGLLDITDNIVNNKIVPPIDVVRHDQDDPYLVVAADKGTATFSDIANGLAIDHGFWLGDAFASGGSVGYDHKGMGITARGAWESVKRHFRAMGRDSQSEDFSCVGIGDMSGDVFGNGMLLSRHIRLLAAFDHRHIFLDPTPDAASSFAERERLFKLPRSSWADYDAKLVSKGGGIYPRTLKAIEITPQVREVLALDAAVKSLSPNELMNAILKAPVDLFWNGGIGTYVKAASETHADVGDRANNGLRVNGGELRCKVVGEGGNLGLTQLGRIEAAQAGVLLNTDFIDNSAGVDTSDHEVNIKILLNDVVQAKKLSYDARNKLLASMTDEVAELVLWDNIRQNQALSLMERMSVKRLGSKQHFIRTLEKQGLLDRQIEFLPSDAELSARKARGQGLTRPELAVLLSYSKLVAFQQLLESDIPEDPYLSKELQRYFPQPLQKKYAEAMDKHRLKREIIATAVTNTTINRMGATFLMRMQEDTGRSIGEVAKAYTISRETLDARALWTQIDALDGKVPESVQIDALEVVWSLQRAFVRWLLLRPGAMPGITAAVERYHGPFNDIRVASGVLPDSQRPSYENSVQEWKQKGVPAALAQQLSELQFLEPAFDIIELARTRKLKPVDVSKVHFRLGEALQLPWLFEQIDALEVNGRWHAVARGVLRDELAAHQRTLTGQVLSMSGANAEQKVEQWLSRDDTGLRFTLAMLAELAEQKTLDYPTVSVAVQRLGQLAAHGV	PGPT0014290_76	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014290-gdhB-K15371	NA	NA
BMS020_05498	627			hypothetical protein	ATGTCCTCCCCTCCCGCGCTCAGCCCGGATGCCCGCGACCGCAGCGTCCTCGACGCGGTGCACGCCGTGCTGGCCGAACAGGGCATGCGCCTGAGCATGGACGCGGTCGCCCAGCGCGCCGGCTGCTCCAAGCAGACCCTGTATTCCCGCTACGGCAACCGCCGCAACCTGATGCGGCTGGTGATGCACGACTACGTCGACGGCGCGGTGGCGCCACTGCGCCCGCACGTCGCCGACGTCCGCCAAGCGCTGCTGGCCTTCGCTGCCCATCATCTCGACGAGCTCAACGACCCCCGCGTGGTGCAGGCCTGCCGGCTGATCGACGCCGAAGCCCACACCCTCCCCGAGGAGGCCCGCCAGATCCATGAAGACGGCGTGGAGACGCTGCAGCGGAGGCTGGCAGAATGGCTGCAGGGCGCCATTGCAGCAGGCCAGCTCAGGCATGACGATCCGCACTTCATGGCCGAGCTGCTGCTCGGCATGCTCGTGGGATTGGATTTCGAAAGGCAGAGGTTCCACTCGCCGCACCGGGCCGCCGTGGAAGACCGGCGGCGATGGGCCACTTTCGCCGTGGACAGTTTCCTTCGCGCCTTCGCTCCCGAAGGCCGCCCCGAATTCAAACCATAA	MSSPPALSPDARDRSVLDAVHAVLAEQGMRLSMDAVAQRAGCSKQTLYSRYGNRRNLMRLVMHDYVDGAVAPLRPHVADVRQALLAFAAHHLDELNDPRVVQACRLIDAEAHTLPEEARQIHEDGVETLQRRLAEWLQGAIAAGQLRHDDPHFMAELLLGMLVGLDFERQRFHSPHRAAVEDRRRWATFAVDSFLRAFAPEGRPEFKP				NA	NA	NA	NA	NA
BMS020_05499	1236	acrE_2		Multidrug export protein AcrE	ATGATCGCCCCGCTTCGCTCCCTTGCACTGGCCTGCGCCATCACGGCGGCCGTGGCCGCCTGCGGCAAGCAGGAACAGCAGCAGATGCCCACGCCTGAAGTCAGCGTGCTCGACGCCCAGCCGCAGACCCTGCCGCTGCAGCGCGACCTGGTCGGCCGCCTGTCGGCCTACCGCTCCGCCGACGTGCGCGCGCGCGTGGCCGGCGTGCTGCAGAAGCGCGTCTACACCGAAGGTACCGACGTCAAGGAAGGCCAGGCGCTGTTCCTGATCGACCCGGCGCCGCTGCAGGCCGCGCTGTCGCAGGCCCAGGGCGAGCTGGCCTCGGCCCAGGCCACCTACGCCAACGCCAAGGTCGCCGCCGACCGCGCGCGCAGCCTGGCGCCGCAGAAGTACGTCTCGCAGTCCGACCTGGACAGCGCCGAGGCCACCGAGCGCACCTCGGCCGCCGCCGTGCAGCAGGCCAAGGCCGCGGTCGAGACCGCGCGCATCAACCTCGGCTACGCCACCGTCACCGCGCCGATCAGCGGCCGCGCGGGCAAGCAGCAGGTCACCGAGGGCGCGCTGGTCGGCTCCTCGGACGTCACCCTGCTGACCACGGTCGACCAGATCGACCCGCTGTACGTCAATTTCTCGATGAACAGCGACGAGCTCTCGCAGCTGCGGGCCGCGCAGGGCCAGGGCAGCATCCAGCTCAGCGGCGACGGCAAGTCGACCGTCGCTGTGCAGCTCGGCGACGGCAGCACCTATCCGCACCAGGGCACGCTGGACTTCTCGGCGGTGACCGTCGACCCGAGCACCGGCACGGTGTCGCTGCGCGCCACCCTGCCCAACCCGGAGCACGCACTGCTGCCGGGTGCGTTCGTGACCTTCAACGCCACCCTGGGCCAGCGCAACGGCGCCTACCTGGTGCAGCAGGCCGCGGTGCAGCGCGACACCATCGGCGCCTACGTACTGGTGGTCGGCAAGGACGGCAACGTGGCGCGCAAGAACATCACCCTCGACGGCCAGCAGGACGGCAAGTGGGTGGTCAGCGGCGGCCTCGCCGCCGGCGACCAGGTCATCGTCGAAGGCCTGCAGAAGGTCAAGGAAGGCCAGCCGGCCAAGGCGGTGAAGTGGGACCCGAACGCCAAGCCGGCCCAGCAGGGCCCGGCCGGCGCGGCGCCCGCGCAGCCTGCGGCCAAGCCGTCCGAAGACAGCGCCGACAAGGCCGCTCCGGCCACGTCTGAGAAGCAGTAA	MIAPLRSLALACAITAAVAACGKQEQQQMPTPEVSVLDAQPQTLPLQRDLVGRLSAYRSADVRARVAGVLQKRVYTEGTDVKEGQALFLIDPAPLQAALSQAQGELASAQATYANAKVAADRARSLAPQKYVSQSDLDSAEATERTSAAAVQQAKAAVETARINLGYATVTAPISGRAGKQQVTEGALVGSSDVTLLTTVDQIDPLYVNFSMNSDELSQLRAAQGQGSIQLSGDGKSTVAVQLGDGSTYPHQGTLDFSAVTVDPSTGTVSLRATLPNPEHALLPGAFVTFNATLGQRNGAYLVQQAAVQRDTIGAYVLVVGKDGNVARKNITLDGQQDGKWVVSGGLAAGDQVIVEGLQKVKEGQPAKAVKWDPNAKPAQQGPAGAAPAQPAAKPSEDSADKAAPATSEKQ	PGPT0003275_289	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585	NA	NA
BMS020_05500	3171	acrB_4	COG0841	Multidrug efflux pump subunit AcrB	ATGCCTAAATTTTTCATCGAACACCCGATTTTCGCCTGGGTGGTGGCGATCCTGATCTCGCTCGGCGGCGTGATCTCGATCCTCAACCTCGGCGTCGAGTCGTATCCGACCATCGCACCGCCCCAGGTGACGGTGACCGCCAACTACCCCGGCGCCAGCGCCGACACCACCGAGAAGTCGGTCACCCAGGTGATCGAGCAGCAGCTGACCGGCATCGACCACCTGCTGTATTTCAGCTCGTCCTCCGGCTCCAACGGCCGCGCCACCATCACCCTGACCTTCGAGACCGGCACCGATCCGGACATCGCCCAGGTCCAGGTGCAGAACAAGGTGTCGCTGGCCAGCCCGCGCCTGCCGACCGAGGTGACCCAGCAGGGCGTGGTGGTGGCCAAGGCCAACGCCGGCTTCCTGGAAGTGGTCGCACTGCAGTCGGACAACCCGTCGATCGACCGCAACGCGTTGAACGACCTGATGGCCGCGCGCGTACTGGAGCAGATCTCGCGCGTGCAGGGCGTCGGCAGCACCCAGCAGTTCGGCGCCGAGTACGCCATGAACATCTGGCTCAACCCGGAGAAGCTGCAGGGCTACCACCTGTCGGCCAGCGACGTGTACAGCGCGATCGGCGCGCAGAACGTGCAGTTCGCCGCCGGCTCGATCGGCGCCGACCCGGCGCCGGACGGCCAGGGCTTCACCGCCACGGTCTCGGCCGAGGGCCGCTTCAGCTCGCCGGAGCAGTTCGAGAACATCATCCTGCGTGCCGACAGCGACGGTGCCACGGTGCGCCTGAAGGACGTCGCCCGGGTCGGCTTCGGCCCGTTCAACTACGGATATGACACCCAGTACAACGGCAAGCCGATCGCCGCGCTGGCGATCCAGCTGCTGCCGGGCGCCAACGCGCTGAACGTGGCCGAAGCGGTGCACGCCAAGATGGACGAGCTGTCGGCCAGCTTCCCGCAGGGCGTGAGCTGGTTCACCCCGTACGACAGCACCAAGTTCGTCACCATCTCCATCGAGGAAGTGGTGCACACGCTGGTGGAAGCGATCGTGCTGGTGTTCCTGGTGATGCTGGTGTTCCTGCAGAACTTCCGCGCCACCATCATCCCGACCCTGGTCATCCCGGTGGCCCTGCTCGGCACCTTCATGGGCATGCTGATGATCGGCTTCACGATCAACCAGCTGACCCTGTTCGCGATGGTGCTGGCGATCGGCATCGTGGTCGACGACGCGATCGTGGTGATCGAGAACGTCGAGCGCATCATGACCGAGGAGCACCTGGCGCCGAAGGCCGCCACGGTCAAGGCGATGACCCAGATCACCGGCGCGGTGGTGGCGATCACCGTGGTGCTGGCGGCGGTATTCATCCCGTCGGCGCTGCAGCCCGGCGCCGCCGGCGCGATCTACAAGCAGTTCGCGTTGACCATCGCGATGTCGATGGCGTTCTCGGCGTTCCTGGCACTGAGCTTCACCCCGGCGCTGTGCGCGGCGTTCCTCAAGCCGACCCACAGCCAGAAGAAGAACTGGGTGTACCGCACCTTCGACAAGTACTACGACAAGCTCGCCCACCGCTACGTGCGCGTGGTCGGCAACACGCTCAACCGCGCGCCGCGCTGGATGGTGCTGTTCGTGGTGCTGATCGTGCTGTGCGGCTTCCTGTTCACGCGCATGCCCAGCAGCTTCCTGCCGGAAGAGGACCAGGGCTTCGCGCTGGCGATCGTGCAGCTGCCGCCGGGCGCCACCAAGACCCGCACCAACGAGGTGTTCGCGCAGATGCGCGGCGTGCTCAAGAACGTGCCAGAAGTGGAAGGCCTGCTGTCGGTCACCGGCTTCAGCTTCGTCGGTTCCGGCGAGAACGTCGGCATGGGCTTCCTGCGCTTCAAGGACTGGGATGAGCGCGACCACACCGCCGAGCAGCTGATCCAGCAGCTCAACGGCATGTTCTACGGCATCAAGGGCGCGCAGATCTTCGTGGTCAACCTGCCCACGGTGCAGGGCCTGGGCCAGTTCGGCGGTTTCGACATGTGGCTGCAGGACCGCGCCGGCGCCGGCCAGGAAGCATTGACCCAGGCACGCAACACCCTGCTGGGTGCGGCCGCGCAGCGCCAGGACGCGCTGGTCGGCGTGCGTCCGAACGGGCTTGAGAACTCGCCGCAGCTGCAGCTGCACGTGGATCGCGTGGCGGCACAGGCGATGGGCCTGTCGGTCAGCGACGTCTACAGCGCGATCCAGCTGATGCTGGCGCCGGTGTACGTCAACGACTTCTTCTACCAGGGCCGCATCAAGCGCGTGAACGTGCGTGCCGACGATGCCTACCGCACCGGTCCGGAGTCGCTGCGCAGCTACTACGTGCCCAGCAGTTCGGCCACCGATGCCGACGGCCAGGCGTCGATGATCCCGCTCAGCAACGTGGTCAAGTCCGAATGGACGTATGCCTCGCCGTCGCTGAACCGCTACAACGGCTACTCGGCGGTGGAGATCGTCGGCAACCCGGCACCGGGCGGCAGCTCGGGCCAGGCGATGGCGGCGATGGAGCAGATCGTCCACGAGCAGCTGCCGAACACCTTCGGCTTGGACTGGTCGGGCATGTCCTACCAGGAAATCATCGCCGGCAACGCCGCCACGCTGCTGCTGGTGCTGTCGGTGGTGGTGGTGTTCCTGTGCCTTGCGGCGCTGTACGAGAGCTGGTCGATCCCGGTCTCGGTGCTGCTGGTGGTGCCGATCGGTGTGCTCGGTGCGGTGGCGTTCTCGCTGCTGCGCGGCCTGCCCAACGACCTGTACTTCAAGATCGGCATGATCACGGTGATCGGCCTGGCGGCCAAGAACGCGATCCTGATCGTGGAGTTCGCGGTCGAGCAGCGCGCCGCCGGCAAGACCCTGCGCGAGGCGACGATCGAGGCGGCGCACCTGCGCTTCCGCCCGATCCTGATGACCTCCTTCGCGTTCATCCTCGGCGTGCTGCCGCTGGCGATCTCCACCGGCGCCGGCGCCAACTCGCGCCATTCGATCGGTACCGGCGTGATCGGCGGCATGGTGTTCGCCACCGTGCTCGGCGTGATCTTCATCCCGCTGCTGTTCGTGGTGGTGCGGCGGATGCTGGGCGACAAGCTCGATGAGCAGTCCAAGGAGTTCATCGAGGCCCGCAAGGCCGGTGGCGAGACGCGCCCGGATCGCTGA	MPKFFIEHPIFAWVVAILISLGGVISILNLGVESYPTIAPPQVTVTANYPGASADTTEKSVTQVIEQQLTGIDHLLYFSSSSGSNGRATITLTFETGTDPDIAQVQVQNKVSLASPRLPTEVTQQGVVVAKANAGFLEVVALQSDNPSIDRNALNDLMAARVLEQISRVQGVGSTQQFGAEYAMNIWLNPEKLQGYHLSASDVYSAIGAQNVQFAAGSIGADPAPDGQGFTATVSAEGRFSSPEQFENIILRADSDGATVRLKDVARVGFGPFNYGYDTQYNGKPIAALAIQLLPGANALNVAEAVHAKMDELSASFPQGVSWFTPYDSTKFVTISIEEVVHTLVEAIVLVFLVMLVFLQNFRATIIPTLVIPVALLGTFMGMLMIGFTINQLTLFAMVLAIGIVVDDAIVVIENVERIMTEEHLAPKAATVKAMTQITGAVVAITVVLAAVFIPSALQPGAAGAIYKQFALTIAMSMAFSAFLALSFTPALCAAFLKPTHSQKKNWVYRTFDKYYDKLAHRYVRVVGNTLNRAPRWMVLFVVLIVLCGFLFTRMPSSFLPEEDQGFALAIVQLPPGATKTRTNEVFAQMRGVLKNVPEVEGLLSVTGFSFVGSGENVGMGFLRFKDWDERDHTAEQLIQQLNGMFYGIKGAQIFVVNLPTVQGLGQFGGFDMWLQDRAGAGQEALTQARNTLLGAAAQRQDALVGVRPNGLENSPQLQLHVDRVAAQAMGLSVSDVYSAIQLMLAPVYVNDFFYQGRIKRVNVRADDAYRTGPESLRSYYVPSSSATDADGQASMIPLSNVVKSEWTYASPSLNRYNGYSAVEIVGNPAPGGSSGQAMAAMEQIVHEQLPNTFGLDWSGMSYQEIIAGNAATLLLVLSVVVVFLCLAALYESWSIPVSVLLVVPIGVLGAVAFSLLRGLPNDLYFKIGMITVIGLAAKNAILIVEFAVEQRAAGKTLREATIEAAHLRFRPILMTSFAFILGVLPLAISTGAGANSRHSIGTGVIGGMVFATVLGVIFIPLLFVVVRRMLGDKLDEQSKEFIEARKAGGETRPDR	PGPT0003280_648	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003280-acrB|acrE|mexB|adeJ|smeE|mtrD|cmeB-K18138	NA	NA
BMS020_05501	996	rbsR_3	COG1609	Ribose operon repressor	GTGAGTATCAGCATCAACGACGTGGCCCGCGTGGCCGGGGTCTCCAAGTCCACGGTGTCACGGGTGCTAGGCCATGGACCGGTCAGCGAGGACGTGCGCGCCCGCGTGGAGGCGGCGATCCGCCAGACCGGCTACCGTCCGAACCTGATGGCGCGACGGTTGCGCTCGCGCCAGACCGGCATCGTCGGCCTGGTCGTGGCCGACATCCGCAACCCGTTCTTCACCGCGCTGATCCGCGCGGTCGAGGAAGTGGCGTATCGCGAAGGCCTGCGGGTCACGTTGTGCAACACCGACGAGGATCCGGAGCGCGAGGCGCTGTACCTGCAGCTGATGCAGGAGGAGCGGATCAGCGGGCTGATCTTCGCCCCGACCCGGGTCACCGTGGGTCGGCTGGCGCAGCTGCCGCTGGACTTCCCGACGGTACTGGTCGACCGCGCGGTGGCCGGGGCCGGCTACGACAGCGTGGTGCTGGACAATCCGGCGGCGATGGCCGGCCTAGTCGAGCACCTGATCGCGCAGGGCTATCGCCGCATCGGCGGCCTGTTCGGCAGCACCAGCACCACCGCCGCCGAGCGCCGCGACGGCTACCTGGCCGCGATGGGCCGGGCCGGACTGGCGCCGGTCTACCGCGAGGTCGAGCCCACCGCCGAGGCCGCCATCACCGTGGTCGAGCGCTGGCTCGGCGATGCGGACCCGCCGCAGGCGATCGTCGCCAGCAACAGCCTGCTGCTGAGCGGTGCGTTGAAGGCGGCGCGCAGCGCCGGCCTGGCCATTCCTAGGCAGTTGGCGCTGGCGGGGTTCGACAACGAACGCTGGACCGAGCTGGTCGAGCCGGGCATCACCGTGCTGGAACAGCCGGTGGACGCGATGGGGCGCGCGGCGATGGGGCTGCTGCTGGAACGCATGCGCAGCCCGGACCTGCCGGTGCGGCGGCTGGTGATGGCCGGGCGCTGCGTGGTGCGCGGGTCGACCGCGCCGGTGTCGCCTGCAGGGTGA	MSISINDVARVAGVSKSTVSRVLGHGPVSEDVRARVEAAIRQTGYRPNLMARRLRSRQTGIVGLVVADIRNPFFTALIRAVEEVAYREGLRVTLCNTDEDPEREALYLQLMQEERISGLIFAPTRVTVGRLAQLPLDFPTVLVDRAVAGAGYDSVVLDNPAAMAGLVEHLIAQGYRRIGGLFGSTSTTAAERRDGYLAAMGRAGLAPVYREVEPTAEAAITVVERWLGDADPPQAIVASNSLLLSGALKAARSAGLAIPRQLALAGFDNERWTELVEPGITVLEQPVDAMGRAAMGLLLERMRSPDLPVRRLVMAGRCVVRGSTAPVSPAG	PGPT0017585_177	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017585-fruR1-K03435	NA	NA
BMS020_05502	1653			hypothetical protein	ATGCGCATGTTGTTGCTGTCCGCCTGCTTGTTCGTGGGGGGCATCGCGCAGGCGGCCAACGACGTGCCCGGCGGCGGCATCGACGCGACCGCGCTGTCGCAGCACGTGCGGGTGCTGGCCTCGGACGCGTTCGAAGGACGCGCGCCGGCCAGCGATGGCGAGCAGCGCACCGTCGACTACCTGGTCGCCGCGTTCGGCAAGGCCGGGCTGCAGCCCGGCGGCGACAAGGGCGGTTGGACCCAGGCAGTGCCGCTGGTGCGCGCGACGGTGGAAGGCCCGGTCAGCGCGACGCTGACCGTGGCCGGGCACAGCCAGGCACTGGTCAATGGCGAGGACGTGACCCTGCAGAGCCTGCGCCCGCTCAACCACGTGCAGCTCAAGGATGCGCCGCTGGTGTTCGTCGGCTACGGCATCACCGCGCCAGAGCGCGGCTGGGACGACTACAAGGGCGTGGACCTGCACGGCAAGATCGCGGTGGTGCTGATCAACGACGCCGACTTCGAGAGCGCCCAGCCGGGCAGGTTCGATGGCAAGGCGGTGACCTACTACGGGCGCTGGACCTACAAGTACGAGGAAGCGGCGCGGCGCGGCGCCGCCGGCGTGCTGATCGTGCACGAGACCGCGCCGGCCGCATACGGCTGGAACACCGTGCGCAGCTCCGGGCTGTCGCCGGTGTTCGACATCGAGCGCACCGTCGCCGACGCCAAGGCCCAGCACGTGCCGGCGCGCGGCTGGATGCAGCGCGCACTGGCCGAATCGCTGTTCAAGCAGGCCGGGCTGGATTTCGACGCGGCCAAGCGCAGCGCGCAGCAGCCCGACTTCAAGCCGCTGGCACTGGGCGATGCGACGCTGTCGGTGGATTTCCGGGTCAAGCGCGAGCGCGTGGTGACCCGCAACGTGGTCGCCAAGATTACCGGCAGCAGCCACCCGGACGAGACGGTGATCTTCTCCGCGCACTGGGATGCGTTCGGGATCGGCGCACCCGATGCCAGCGGCGACCGCGTGCGGCGTGGTGCGGTCGACAACGCCACCGGCGTGGCCAGCGTGCTGGAGCTGGCGCGGGTGTTCGCGGCCGGTCCGACGCCGCAGCGCACGCTTTACTTCATCGCGCTGACCGCCGAGGAGAAGGGGCTGCTCGGCGCCAACTACTATGCCGCGCACCCGCTGGCGCCGCTGGACAAGACCGTGGCGGTGTTGAACATGGAAATGTTCAGCCCGGACGGCCCGACCCGCGACATCGCCAGCTGGGGCAACGGCCGGGTGTCGCTGGAAGGCGCGCTGCAGCAGGCGGCGCAGGCGCGCGGGCGCACGTATTCGCCGGACCCGAACCTGGAAGCGGGCTTCTTCTACCGCGCCGACCACTTCGCGTTCGCCCGCATGGGCGTGCCGGCGATCACCGTCGGCCCCGGGCTGGACATGCTCGACGGCGGCCAGGCGCGCGGCAAGGCCTTGCGCGAGCAGTACTTCGCCGACTGCTATCACCAGGCCTGCGACCGCTGGACCCCGCAATGGGATGCCAGCGGCCATGCCGCCGACACCACGCTGGTCTACGACCTCGGCGAGAAGCTGGCCAACAGCCGTGACTGGCCGCGCTGGCAGGATGGTTCGGAGTTCAAGGCGATCCGCGACGCCAGCGAGGCGGCGCGGGACTGA	MRMLLLSACLFVGGIAQAANDVPGGGIDATALSQHVRVLASDAFEGRAPASDGEQRTVDYLVAAFGKAGLQPGGDKGGWTQAVPLVRATVEGPVSATLTVAGHSQALVNGEDVTLQSLRPLNHVQLKDAPLVFVGYGITAPERGWDDYKGVDLHGKIAVVLINDADFESAQPGRFDGKAVTYYGRWTYKYEEAARRGAAGVLIVHETAPAAYGWNTVRSSGLSPVFDIERTVADAKAQHVPARGWMQRALAESLFKQAGLDFDAAKRSAQQPDFKPLALGDATLSVDFRVKRERVVTRNVVAKITGSSHPDETVIFSAHWDAFGIGAPDASGDRVRRGAVDNATGVASVLELARVFAAGPTPQRTLYFIALTAEEKGLLGANYYAAHPLAPLDKTVAVLNMEMFSPDGPTRDIASWGNGRVSLEGALQQAAQARGRTYSPDPNLEAGFFYRADHFAFARMGVPAITVGPGLDMLDGGQARGKALREQYFADCYHQACDRWTPQWDASGHAADTTLVYDLGEKLANSRDWPRWQDGSEFKAIRDASEAARD				NA	NA	NA	NA	NA
BMS020_05503	933	gloB_3		Hydroxyacylglutathione hydrolase	ATGCCTGCCGATTCCAGCATCCACACCATCGACACCGGCTTCCAGCGCCCGCGCTTCGACGCCGCCTACCTGATCGTCGAGCAGGGACGCGGCGCGTTCGTCGATTGCGGCACGGCGCTGTCGGTGCCTGCACTGCTGGCGGCGCTGCACGATGCCGGGCTGGCGCCGACGGACGTGGACTGGCTGATCCTCACCCACGTGCACCTCGACCATGCCGGCGGTGCGGGCCAGCTGATGCGGCTGCTGCCGAACGCGCGCCTGCTGGTGCATCCGCGCGGCGCGCCGCACATGATCGACCCGGCACGGCTGGTGGCCGGCGCCACCGAGGTCTATGGCGAGGAGGAAATGGCGCGCAGCTACGGCCACGTCCTGCCGGTGGCCGCCGAGCGGGTGGTGGTCGCGCGTGATGCCGGCAGCATCGAACTGGCTGGACGCGCATTGCTGTGCATCGAGACGCCAGGCCATGCTCGTCATCATCAATGCGTGTGGGACGCGCGCAGCCGCAGCTGGTTCTGCGGCGACGCATTCGGCATCGCCTATCGCGAACTGGACAACGCCGCCGGCGAGGCGTTCGTGATCCCGACCTCTTCGCCGGTGCAGTTCGAACCGGAACCGATGCGGGCGTCGATCGCGCGGATGCTGGCCTTCGCCCCCGAGGCGCTGTATCTGACCCATTACGGCCGGGTCGAGAATGCGGTGCGGCTGGCCGAGGCGCTGTACGCGCAGATCGAGGCGATGGTGACGATCGCGCGCGACTGCGACGGCCGCGCCGACCGCCACGCGGCGCTGGTCGCTGCGCTCGGCGCGCTGTACACGGCACGCGCCCGTGCGCATGGCTGCACCCTCGACGATGCCGGCGTGCTGGCGCTGCTGGCCACCGATATCGAGCTCAACGCGCAGGGCCTGGCCTGCTGGCTGGACCGCGGACGCTGA	MPADSSIHTIDTGFQRPRFDAAYLIVEQGRGAFVDCGTALSVPALLAALHDAGLAPTDVDWLILTHVHLDHAGGAGQLMRLLPNARLLVHPRGAPHMIDPARLVAGATEVYGEEEMARSYGHVLPVAAERVVVARDAGSIELAGRALLCIETPGHARHHQCVWDARSRSWFCGDAFGIAYRELDNAAGEAFVIPTSSPVQFEPEPMRASIARMLAFAPEALYLTHYGRVENAVRLAEALYAQIEAMVTIARDCDGRADRHAALVAALGALYTARARAHGCTLDDAGVLALLATDIELNAQGLACWLDRGR				NA	NA	NA	NA	NA
BMS020_05504	1299			hypothetical protein	ATGACCACCCGTGTCCTGACCGGCATCACCACGTCCGGCACCCCGCATCTGGGCAACTACGTCGGCGCGATCCGCCCGGCGATCGCCGCCAGCCGCGATCCCGGCAGCGAGAGCTTCTACTTCCTCGCCGACCTGCACAGCCTGATCAAGGCGCAGGATCCGGATCGCACCCAGCGTTCGACGCTGGAGATCGCCGCGGCGTGGCTGGCCTGCGGCCTGGACCCGGACAAGGTGTGGTTCTACCGCCAGAGCGACGTGCCCGAGACCACCGAGCTGATGTGGCTGCTGACCTGCGTGGCCGGCAAGGGCATCCTCAACCGCGCCCACGCCTACAAGGCCGCGGTGGACAAGAACAGCGCCGAAGGCGAGGACGCCGATGCCGGGGTCACCGCCGGGCTGTTCATGTACCCGGTGCTGATGGCTGCCGACATCCTGATCTTCAACGCGCACAAGGTGCCGGTCGGGCGCGACCAGATCCAGCACATCGAGATGGCGCGCGATTTCGCCCAGCGCTTCAACCATGTCTACGGCAAGGAGCACTTCGTGCTGCCGGAGGCGCTGGTCGACGACAACGTCGCCACGCTGCCGGGCCTGGATGGGCGCAAGATGAGCAAGAGCTACGGCAACACCATTCCGCTGTTCGCGCCGCGCGCGGAACTGAAGAAGCTGGTGGCGTCGATCCTGACCGACTCGCGCGCACCGGGCGAGCCGAAGGACACCGAGGGCTCGGCGCTGTTCCAGCTGTACCAAGCCTTCGCCACGCCGGCCGAGACCGCCGTGTTCGCGCAGGCATTCGCCGACGGCATCGGCTGGGGCGAGGCCAAGCAGCAGCTGTTCGAGCGCATCGATGCCGAGATCGCGCCGCTGCGCGAGCGCTACGAGGCCTTGATGGCCGAGCCGGCGAAGATCGAGGCGATCCTGCGTGCCGGCGGCGCCAAGCTGCGCGCGCAGTACGCCACGCCGTTGCTGGCCACGCTGCGCGATGCGGTCGGGCTGCGCGACCTGTCCAGCCAGGCGGGTGCCGCCACGGCCAAGCCGGCGGCGAAGGCGGCGCTGCCGGTGTTCAAGCAGTACCGCGAGAAGGACGGGCGCTTCTACTTCAAGTTGCACGACGGCGAGGGCGCGCTGCTGCTGCAGAGCGAGGGTTTCGATTCGCCGCGCGAGGCCGGCCAGCTGATCGGCGTGCTCAAGCAGGCCGAGCAGGGCGACCAGCTGCAGAGCCCGCTGGTGAAGATCGAGGCCGAGGTCGCCGCGGTGCTGGAGGCGCTGCGCGCACTGCGCGCGGCCGCCGAGGGCTGA	MTTRVLTGITTSGTPHLGNYVGAIRPAIAASRDPGSESFYFLADLHSLIKAQDPDRTQRSTLEIAAAWLACGLDPDKVWFYRQSDVPETTELMWLLTCVAGKGILNRAHAYKAAVDKNSAEGEDADAGVTAGLFMYPVLMAADILIFNAHKVPVGRDQIQHIEMARDFAQRFNHVYGKEHFVLPEALVDDNVATLPGLDGRKMSKSYGNTIPLFAPRAELKKLVASILTDSRAPGEPKDTEGSALFQLYQAFATPAETAVFAQAFADGIGWGEAKQQLFERIDAEIAPLRERYEALMAEPAKIEAILRAGGAKLRAQYATPLLATLRDAVGLRDLSSQAGAATAKPAAKAALPVFKQYREKDGRFYFKLHDGEGALLLQSEGFDSPREAGQLIGVLKQAEQGDQLQSPLVKIEAEVAAVLEALRALRAAAEG	PGPT0007120_811	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
BMS020_05505	216			hypothetical protein	ATGAACAAAGACATCATTTCCGGCAAGTGGACCCAGCTCAAGGGCAAGATGCAGGCGCAATGGGGCGACCTGACCGACGACGATTTCGATGTCGCCGCCGGCAACGCCAAGTACCTCTCCGGCAAGCTGCAGGAACGCTATGGCTGGGACCGCGACCGTGCCGAGAAGGAAGTGCATGCCTTCGAGGAAAGCCTGCGCCGCGACACCCGCGACTGA	MNKDIISGKWTQLKGKMQAQWGDLTDDDFDVAAGNAKYLSGKLQERYGWDRDRAEKEVHAFEESLRRDTRD				NA	NA	NA	NA	NA
BMS020_05506	135			hypothetical protein	ATGAAGCGAGTGATGGTTATGGCGGTACTGGCGATGTTCTCGGTGGCGATGCTGTCCGGCTGCAACACCGTGGCCGGTGCCGGCAAGGACATCCAAGGTGCTGGCGACAAGATCGAGGGCGCGGCGAAGAAGTAA	MKRVMVMAVLAMFSVAMLSGCNTVAGAGKDIQGAGDKIEGAAKK	PGPT0026335_156	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-EcnB-EcnA_TOXIN-ANTITOXIN_SYSTEM,PGPT0026335-antitoxin_ecnA-K16347	NA	NA
BMS020_05507	153			hypothetical protein	ATGAAGCGAGTGCTGACGTTGATGATGCTGGGCCTGTTCGCCGCGGGTGTGCTGAGCGGCTGCAACACCGTTGCCGGTGCCGGCAAGGACATGCAGGGTGCGGGCCAGAAGGTCGAGAACACCGCGGACAAGTGCAGCGACGGCAAGTGCTGA	MKRVLTLMMLGLFAAGVLSGCNTVAGAGKDMQGAGQKVENTADKCSDGKC	PGPT0026335_60	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-EcnB-EcnA_TOXIN-ANTITOXIN_SYSTEM,PGPT0026335-antitoxin_ecnA-K16347	NA	NA
BMS020_05508	924	rocF		Arginase	ATGTCCAGGCAATTTCCCCCGGTGTCGCTGATCGGCGTGCCCACCGACATCGGTGCTGGGCATCGCGGCGCGCGGATGGGGCCGGAGGCGTTGCGCATCGCCGGCCTGGCCGAGGCGCTGGCGGCGCGCGGCGTGGAGGTGCACGACAGCGGCAACCTCGATGGTCCGCGCAATCCCTGGCAGGCGCCGGTCGGCGGCTACCGCCACCTCGACGAAGTGGTGGCCTGGAACCGCGCGCTGATGGAGGCCAGCTACGCCGCCCTGCAGCAGGGGCGGATGCCGATCATGCTCGGCGGCGACCATTGCCTGGCGATCGGTTCGATCACCGCGGTGGCGCGCTGGTGCCGCGAACAGGGCAAGGCGCTGCGGGTGCTGTGGCTGGATGCGCACTCGGACTTCAATACCAGCGAGGTCACTCCGTCGGGCAACGTGCACGGCATGCCGGTGGCCTGCCTGTGCGGGCTGGGGCCGCATGCGTTGACCCATCTGGGCGGCGACGCGCCGGCCCTGCAGCCGCACCAGGTACGGCAGATCGGCATCCGCTCGGTCGATCCGGACGAGAAGCGGCTGATCAAGCAGCATCGCGTCGATGTCTACGACATGCGCTACATCGACGAGGCCGGCATGAAGAAGACCATGGAAGCGGCACTGGCCGGGCTCGATGCCGATACCCACCTGCACGTCAGTTTCGACGTCGACTTCCTCGACCCGAGCATCGCCCCGGGCGTGGGCACCACGGTGCCGGGCGGGCCGAACTACCGCGAGGCGCAGCTGGTGATGGAGATGATCGCCGACACCGGGCGCATGGGCTCGCTGGACATCGTCGAGCTCAACCCGGTGATCGACACCCGCAACCTGACCGCCGAGCTGGCCGTGGACCTGGTGGAAAGCCTGTTCGGCAAGTCCACGCTGATGCGCGACTGA	MSRQFPPVSLIGVPTDIGAGHRGARMGPEALRIAGLAEALAARGVEVHDSGNLDGPRNPWQAPVGGYRHLDEVVAWNRALMEASYAALQQGRMPIMLGGDHCLAIGSITAVARWCREQGKALRVLWLDAHSDFNTSEVTPSGNVHGMPVACLCGLGPHALTHLGGDAPALQPHQVRQIGIRSVDPDEKRLIKQHRVDVYDMRYIDEAGMKKTMEAALAGLDADTHLHVSFDVDFLDPSIAPGVGTTVPGGPNYREAQLVMEMIADTGRMGSLDIVELNPVIDTRNLTAELAVDLVESLFGKSTLMRD	PGPT0020100_1147	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020100-rocF-K01476	NA	NA
BMS020_05509	453			hypothetical protein	ATGCCCGCCAGTTCCGTCAACCAGGTTGTCCGCGCCGCACTCGGCGACACGCCCAAGCCGGCCGCGGGTTACGATCTCGCCCGCGTCGACGACGCGTTCGCGCAGCAGTTCGCGCGCGAATCCGGCATCCGGCTGCTGATGCTGTCCACCGCCGACGGACGCGCGGTGGCCCAGCGCTCCACACTCGATGTCGACGGCCGCCGCCTGGCGGCGATGGCCAACTCGTTCCTCACCCTCGGCGAGACCGTCTCGCGCGAGCTCGGCCTGAGCGAAGCCGACTACGCCACTGTGTGCACGCGCATGGGCAACGTGGTGCTGATCCGCATCCGCGCCGACAAGCCGCTGACCCTGACCGCGGTCGCCAGCCAGGACACCAACATGGCCGCGCTGCTGTTCAACGCGCGCGAATGCGCCGGCCGGGTCGAGTTCGCGCTGCGCGCGCCGGCCGCCTGA	MPASSVNQVVRAALGDTPKPAAGYDLARVDDAFAQQFARESGIRLLMLSTADGRAVAQRSTLDVDGRRLAAMANSFLTLGETVSRELGLSEADYATVCTRMGNVVLIRIRADKPLTLTAVASQDTNMAALLFNARECAGRVEFALRAPAA				NA	NA	NA	NA	NA
BMS020_05510	360			hypothetical protein	GTGTCGAAGCTCAATCTGGAAGAACTGCATTCGCTCGGCGGCTTCATCGGCTCGGCGCTCGTCGACAGCGACAGCGGCATGGCGCTGGCGATCACCGGCGGCAGCGGCCTGAACCTGGAACTGGCGGCGGCCGGCAATACCGAAGTGATCCGCGCCAAGCGCCGCGTCGCCAGCCAGCTCGGGCTGGGCGATGCGATCGAGGACGTGCTGATCACCCTGACCACCCAGTACCACCTGATCCGCCCGCTGGAGAGCAACGCGGCGCTGTTCCTGTACGTGGTGCTGGACCGCGCCAAGGCCAACCTGGCGATGGCGCGCCACGAGCTGAAGTCGTTCGAAAAGACGCTGGATTTCAGCTGA	MSKLNLEELHSLGGFIGSALVDSDSGMALAITGGSGLNLELAAAGNTEVIRAKRRVASQLGLGDAIEDVLITLTTQYHLIRPLESNAALFLYVVLDRAKANLAMARHELKSFEKTLDFS				NA	NA	NA	NA	NA
BMS020_05511	936			hypothetical protein	ATGACCACTCCGATCCGTGCCGTCCAGCTCGTCACCGCCGGGCTGGACGTGCTGCACGCCACCCGCCTGAAACTGGCCTGCTCGCTGCTGCTGGCCGACCGCATCGACGTGACCTTGCGCGAATGGCGCGACGCCGGCGACGCCCACGCCGACCTGGTCGTGGCCGGCCAGGAGCCGGACGCGCGCGACGCGCTGGTGGCGCTGCGCGGTAGCCGCCAGCTGCTGGCGATCCGCCGCGATGCGCGCGACAACGCCATCGGCGAACTGCAGCACGGCGCCACCGTGCGCGACATCCACGAGCGCCTGCGCCTGCTGCTGCAGGCCGGCCAGCCGACGGTGGCCACGCAGCGGCCGCTGCTGGTGCAGGCGATCCTCGCCCCCGACGCGCATCGTCCGCAGCAGTTCGTGCTCGGCGACTGCCGCATCGTGTTCGATCCAGCGCGCGCCTGCCTGCAGTTGCCGCACGCCCTCGGCCTGGACACCCTGCTCGACCTGCTGGCCCGCCACGGCTGGAGCCAGCAGCCACTCGCCGCCGCGCAGGACCCGGCGCTGCCGCGCCAGCTGTCGGTCGAGGCACTGCTGTTCGCGGTCGCCGACCGCCACCCGGACTGGCTGCCGCCAGCCCCCGGCGTGGAGCAGCCGTTGCAGCTGCGCCAGTGGCCGGACCTGGCCGGCGAGGCCGCACCGGCGGGTTGGCTGGTCGCGATCGCCCAGCTGCATGCGCGCCCCTGGCGCGCCGACGCGCTCGCCAACGCCTGCCGGCTGCCGGCACCGGTCGTCGACAGCCTCTTCGCCGCCGCCACCGCAAGCGGACTGGCGCATTTCCAGGAGACCGCCTTGCCCACCCCCAACCCGCGCCGCAGCGCATCCAGCTCGCGCTTCCTGTCCTGGGTCGCGCGACGCTTCGGCCTCAGCCTGGTGCAGGCGGCCGCATGA	MTTPIRAVQLVTAGLDVLHATRLKLACSLLLADRIDVTLREWRDAGDAHADLVVAGQEPDARDALVALRGSRQLLAIRRDARDNAIGELQHGATVRDIHERLRLLLQAGQPTVATQRPLLVQAILAPDAHRPQQFVLGDCRIVFDPARACLQLPHALGLDTLLDLLARHGWSQQPLAAAQDPALPRQLSVEALLFAVADRHPDWLPPAPGVEQPLQLRQWPDLAGEAAPAGWLVAIAQLHARPWRADALANACRLPAPVVDSLFAAATASGLAHFQETALPTPNPRRSASSSRFLSWVARRFGLSLVQAAA				NA	NA	NA	NA	NA
BMS020_05512	543			hypothetical protein	ATGAGCATGCCTGCCAACAAGCTGGTGTTCGTCGGCGGCATGGGGGCCGGCAAGACCACCGCGGTCCGCGCGATCTCCGACATCGAGCCGGTCAGCACCGAAATGCCGCTCAGCCAGGATGCCTACGGCGAGAAGATCCACACCACCGTGGCGCTGGACTACAGCTCGATCGAGCTCGACGATGGCGAGCTGTTGCACGTCTACGGCGTGCCCGGGCAGAAGTACCTGGACTTCATGTGGCCGCTGGTCTGCGAAGGCGCGCTGGGGGTGATCGTGCTGGCCAGCGCGCGCCATCCGGACATCGTCGAGGACACCCTGGCGCTGCTGCGCGAGTTCGCCGCGATCGCGCCCGATGCCAGCCTCGCCGTCGGCGTGACGATGACCGATGTGCACGAGGAGTTCCTGGTCCCGCCGTTCCGCGCCGCACTGGCCGACGCCGGCTTCCGCATCCCGGTGATGCGGGTGGACGCGCGGTCGGCGGTGCAGGTGACGTTCCTGGTGAAATCGCTGCTGTCCTACAGCAGCACCGTCGCCGTCGACTGA	MSMPANKLVFVGGMGAGKTTAVRAISDIEPVSTEMPLSQDAYGEKIHTTVALDYSSIELDDGELLHVYGVPGQKYLDFMWPLVCEGALGVIVLASARHPDIVEDTLALLREFAAIAPDASLAVGVTMTDVHEEFLVPPFRAALADAGFRIPVMRVDARSAVQVTFLVKSLLSYSSTVAVD				NA	NA	NA	NA	NA
BMS020_05515	672			hypothetical protein	ATGCTCGTTCGCGCCCTTATCGTCGTCCTGGCCATCCTCAACCTCGGTGTCGCGCTGTGGTGGGCTTCGCGCCCGGCCGCACCGGACATCGCCGTGCCGGCACCAGCCGCCGGCGTCGCCACGCTGCAACTGGCGCAGCAGGGCGAGGCCGCCGCGCCGCCGCCCAGTGCGCCGGCCAGTGCCGCGGCCGCGCCGGCCGACGTCGTGGCGCCGACGGTGGCCAGTGCCGAGTGTTTCAGCATCGGCCCGTTCTCGAGCCGGGCCGAGGCCCACGCTGCGCTCAGCCGCGGCCGCGGTGCCGGTGCCGAAGGCCGGGTGCGCGAGGAGGTGGCCGCCGATGCGACCAGCTACCGCGTGCTGCTGCCGGTGGCCGGCGACCGCGAGGCCGCGCAGGCTGCGGTCAAGCGCATCGCCGATGCCGGGTTCAGCGACTACTACCTGATCGCCCAGGACGGCCACAACAGCATCGCGCTCGGGCAGTACCGCAGCCGCGATGGCGCCGAGCGCCGCCAGCAGGCGCTGGCCGACGCCGGCTTCGCGGCCGAACTGCTGCCCAGCGGCGGCGGTGCGTCGCGCTGGTGGTCGGACCTGCGCACCGCCTCCGGCAGCGCGGTCCGGCAGGCGTTCGCCAGTGGCCTGCTGCGGTCGCTGGAGTGCGCGCGCATGCGCTAG	MLVRALIVVLAILNLGVALWWASRPAAPDIAVPAPAAGVATLQLAQQGEAAAPPPSAPASAAAAPADVVAPTVASAECFSIGPFSSRAEAHAALSRGRGAGAEGRVREEVAADATSYRVLLPVAGDREAAQAAVKRIADAGFSDYYLIAQDGHNSIALGQYRSRDGAERRQQALADAGFAAELLPSGGGASRWWSDLRTASGSAVRQAFASGLLRSLECARMR				NA	NA	NA	NA	NA
BMS020_05516	735	coaX		Type III pantothenate kinase	ATGAGCGACTGGCTGTTCGACCTGGGCAATTCCCGGTTCAAGTTCGCCCCGCTGCAGGGCGCGCGCGCGGGCGACGTGCAGGCCTGGGCGCACGGCGCCGAGGCGATGGATGCGGCGGCGTTGGCGGCGTTGCCGCGCGGACGCGCCGCCTACGTGGCCAGCGTTGCGGCGCCGGCGCTGACCGCGCGGGTGCTGGAGACGTTGCAGGCGCGTTTCGAGCGCGTCACCGTCGCGCGCAGCAGTGCCGCCTGCGCCGGCGTGCGGATCGGCTATGCCGAGCCGGCGCGCTTAGGCGTGGATCGTTTCCTGGCGTTGCTCGGCGTGCGTGGCGAGGGTCATGTGCTGGTCGCCGGCGTCGGCACCGCGTTGACCATCGACCTGCTCGATGCCGACGGCGGCCATCGCGGCGGCCGCATCGCCGCCTCGCCGACGACGATGCGCGAGGCGCTGCATGCCCGCGCGGCGCAGCTGCCGGCCGCGGGCGGCGACTACGCCGAATTCGCCAACGACACCGCCGATGCGCTGGCCTCCGGCTGCGACGGCGCGGCGGTGGCGTTGATCGAGCGCAGCCACGCGCAGGCGCAGGCGCTGCTCGCCGGCCCGGTGCGGCTGGTGGTGCACGGCGGCGGCGCCCCGGCGCTGCTGCCGTGGCTGCCGCAGGCGGCGTACCGCCCGCCGCTGGTGCTCGATGGCCTGGCGGCCTGGGCCGGGCACCATGGCGTGGGGCATGGGTAG	MSDWLFDLGNSRFKFAPLQGARAGDVQAWAHGAEAMDAAALAALPRGRAAYVASVAAPALTARVLETLQARFERVTVARSSAACAGVRIGYAEPARLGVDRFLALLGVRGEGHVLVAGVGTALTIDLLDADGGHRGGRIAASPTTMREALHARAAQLPAAGGDYAEFANDTADALASGCDGAAVALIERSHAQAQALLAGPVRLVVHGGGAPALLPWLPQAAYRPPLVLDGLAAWAGHHGVGHG	PGPT0008780_2801	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
BMS020_05517	966	birA_1	COG0340	Bifunctional ligase/repressor BirA	GTGGACGACCGCCTGTTGCTGGCCAAACTCGCCTCCGGGCGCCTGTCCGGCGATGCGCTGGCGCGCGACTTCGGCATGACCCGGGCCGCGATCTGGAAGCGGATCCAGAACCTGCGCGGGGCCGGACTGGAGATCGAGGGCCGGGCCGGCGACGGCTATACCCTGGCCCATCCGGTCGAGCTGCTCGATCCGGCGGTGATCCGCGCCGGCCTGCCGGCCCCGGCGGCCGCGCAGCTGGCCGCGCTGGAGGTGGCCTGGACGCTGGAATCGACCAACACCGAACTGCTGCGGCGTCCGTTGCCGGATGCCGGTGCGGCGGTGCTGCTGGCCGAGCGCCAGACCGGCGGCCGTGGCCGCCGCGGCCGCCAGTGGGCCTCGCCGCTGGCCTGCCATGTCTATCTGTCGCTGGCGCGCGGTTTCTCCGGCGGGCTGGCGCGGCTGGGCGGGCTGAGCCTGGCCGCCGGCGTGGCGGTGGCCGAGGCGCTGCGCGCGGAGGGCTTCGCCGAGGTCGGCCTGAAGTGGCCCAACGACCTGCTGGCGGGCGGGCGCAAGCTTGGCGGGCTGCTGGTCGAGGGCGGTGGCGAAGTGGCCGGGCCGGCGCGGGCGGTGATCGGGCTGGGCCTCAACGTGCACATGCCGGCGACGGCGGCGGCCGCGATCGACCAGCCCTGGGTGGATCTGGACACGCTGGCCGAGCGCACGGTGTCGCGCAACCCGCTGGTCGCGGCGGTGCTGGCGCGGCTGCTGCCGGCGCTGGCGCTGTTCGAGGCCGAGGGGCTGGCGCCGTTCCTGCCGCGGTATGCGGCCCTGGATCTGCTTGCCGGCAGGCCGGTGCGGGTCGAGGAGGCCGGGGTGCTGCGCGAGGGCATCGCGCGCGGGCTGGCCGACGATGGCGCGTTGCGGGTGGAGATCGGCGGCGAGCTGCGGCACGTCCACGCCGGCGAGGTCAGCGTGAGGGCCCGATGA	MDDRLLLAKLASGRLSGDALARDFGMTRAAIWKRIQNLRGAGLEIEGRAGDGYTLAHPVELLDPAVIRAGLPAPAAAQLAALEVAWTLESTNTELLRRPLPDAGAAVLLAERQTGGRGRRGRQWASPLACHVYLSLARGFSGGLARLGGLSLAAGVAVAEALRAEGFAEVGLKWPNDLLAGGRKLGGLLVEGGGEVAGPARAVIGLGLNVHMPATAAAAIDQPWVDLDTLAERTVSRNPLVAAVLARLLPALALFEAEGLAPFLPRYAALDLLAGRPVRVEEAGVLREGIARGLADDGALRVEIGGELRHVHAGEVSVRAR	PGPT0022055_1347	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
BMS020_05518	282			hypothetical protein	ATGCGCCGACTCGCTCCCTGCATGATCCTGCTGCTGGTGCCTGGCCTGGCCCTGGCATCGGCGGGCGGCTATCCAGATCCGGACCGCGGCACCTGCCTGGACACACCGGAACAGGCCGGCCATGCCGCGCCCGGCGACGCGACCGGCAACGCCAGCCGCGCGACCCCGCCACCGGCCCACGCCCCGGCCACCAGCCAGGGCGGCGGTGGCGGCGACGAGCTGCTGCTGCCGCGCGTGCGCATGCCGCGCTGGCACAGTTTCCTGCCAGGCATGTTCCGCTGA	MRRLAPCMILLLVPGLALASAGGYPDPDRGTCLDTPEQAGHAAPGDATGNASRATPPPAHAPATSQGGGGGDELLLPRVRMPRWHSFLPGMFR				NA	NA	NA	NA	NA
BMS020_05519	558	mtfA_2	COG3228	Protein MtfA	GTGCTGCTGGCGGCAACCTGCTGCCTGCCGCTGCTGGAATTCGGCGCGGCCGGCTGGCGCGGCTGGTCGCAGCTGATCGTCTACCCGGACGCGTTCCGCGTGCAGCGCAGCCACGTCGATGCCGCCGGCGTGCTGCACGAATGGGAGGACGAGCTGATCGGCGAAGCCTGGGACCAGGGGCCACTGATCGTGTCCTGGGCCGACGTGCGCGCCGACATCGCCGACCCGAGCGCCGGCTACAACGTGGTCGTGCACGAGATGGCGCACAAGCTCGATGCGCTGGACGGCGTGCTCGACGGCACGCCGCTGCTGCCGCACGCCTGGCAACGTGCCTGGGCGCAGGATTTCCAGCACGCCTACGACGCCTTCTGCCACCAGGTCGACCGCGGCCGCGCCACCGCGATCGACGCCTATGCGGCCGAGGCGCCGGAGGAATTCTTCGCCGTGGCCAGCGAGTACCACTTCTCGGCGCCGGCGGTGCTGCGCCAGGCGATGCCCGAAGTGGCCGGGCACCTGGAGCGCCTTTACGGGCCCTCGCCCTTCGCCGGCAACCGCTGA	MLLAATCCLPLLEFGAAGWRGWSQLIVYPDAFRVQRSHVDAAGVLHEWEDELIGEAWDQGPLIVSWADVRADIADPSAGYNVVVHEMAHKLDALDGVLDGTPLLPHAWQRAWAQDFQHAYDAFCHQVDRGRATAIDAYAAEAPEEFFAVASEYHFSAPAVLRQAMPEVAGHLERLYGPSPFAGNR				NA	NA	NA	NA	NA
BMS020_05520	1191			hypothetical protein	ATGCAACGACGTCAGTTCCTGGCCGGGCTCGCCGGCAGTGCGATGGCCGGCGCCAGCCTGAGCTGGTCCGGGCGCTTGTTCGCCGCGCCCGCGGCGCAGCCGCGCCTGCTGGTGGTGTTCCTGCGCGGCGGCTATGACTGCAACAACCTGCTGGTGCCTTACACCAGCGACTTCTACTACCAGGCGCGTCCCAACCTGGCGATCGCCCGGCCCGATCCGGCCAGCGCCGATGGCGCGGTCGCGCTCGATGCGCAGTGGGCATTGGCACCGGCACTGCGCGCGAGCCTGTTGCCGTTCTGGCAGCGCGGCCAGCTGGCCTTCGTGCCGTTCGTGGGCACCGACGATCTCTCGCGCAGTCACTTCGAGACCCAGGACGACATCGAGTCGGGCGCGCCCGGCCGCGACCATCGCTCCGGATTCCTGGCGCGGCTGTCGGGCGTGCTGACCGGGGTACCGGCGATCGCCTTCACCGATTCGTTGCCGTTGGTGTTCCAGGGCCGCGGCGACATTCCCAACCTGTCGTTGCGCGGCAACGCCAAGCCGGTGTTCGATGCCCGCCAGGCGGCGCTGCTGGCCGACATGTACCGTGGCACCGCCCTGGCCGGCAGCGCCCGCGAGGGCCTGGCGCTGCGCCAGCAGGTGGCGCAGGAGCTGCAACAGGAGATGCAACGGGCCAGCCGGGGCGCGGCCGGTGCAGGCAGCTTCGTCGAGACCACCCGGCGCATGGCCGCGCTGATGCGCGAGCGCTACCGCCTTGGGTTCGTCGATGTCGGTGGTTGGGATACCCACGTCAACCAGGGCGGTGCCGAAGGGGCGCTGGCCACCAATCTGAAGAACCTGGGGCAGGGCCTGGTCGCGTATGCCGATGCGCTCGGTGATGCCTGGCGCGACACCGTGGTGGTGGTCGTGTCCGAATTCGGCCGCACCTTCCGCGAGAACGGCGACAAGGGCACCGACCATGGCCATGGCACGGTGTATTGGGTGCTGGGCGGTGGCGTGCGTGGCGGCCGCATCGCCGGCGAGCAGGTCGAGGTCGCGCAGGCCCAGCTGTTCCAGGACCGCGACTACCCCGTGCTGACCCACTACCGCGCGCTGCTCGGCGGGCTGCTGCAACGCCTGTGGGGGCTGGATCGTGCGCAGCTGGAGCAGGTGTTCCCGGGGGCTGCGCCGCGCGACCTGCAGCTGGTCTGA	MQRRQFLAGLAGSAMAGASLSWSGRLFAAPAAQPRLLVVFLRGGYDCNNLLVPYTSDFYYQARPNLAIARPDPASADGAVALDAQWALAPALRASLLPFWQRGQLAFVPFVGTDDLSRSHFETQDDIESGAPGRDHRSGFLARLSGVLTGVPAIAFTDSLPLVFQGRGDIPNLSLRGNAKPVFDARQAALLADMYRGTALAGSAREGLALRQQVAQELQQEMQRASRGAAGAGSFVETTRRMAALMRERYRLGFVDVGGWDTHVNQGGAEGALATNLKNLGQGLVAYADALGDAWRDTVVVVVSEFGRTFRENGDKGTDHGHGTVYWVLGGGVRGGRIAGEQVEVAQAQLFQDRDYPVLTHYRALLGGLLQRLWGLDRAQLEQVFPGAAPRDLQLV				NA	NA	NA	NA	NA
BMS020_05521	1542			hypothetical protein	ATGAGCACGAGCGCAGCGCGCATGCGCGCAATCCGGGCGTGGCTGATGGTGGCGCTGTGCCTGGCCGTAATCACGGCACCAGCCGCGGCCGCAGCGGCCCGATCCGCGCCCGCATCGGTGCGCTGGCTGCAGCGCGTGACGTTCGGCGTGGACAGCGCCAGCCTGGCGGCCCTGCAGCGGCAGGGGCCGCGCGACTTCCTGCGCGCGCAGCTCGCTGCCAGCGACGGCGATGCGGCATTGCCGCCGGTCGTGCAGGCGCAGCTGCAGTCCTATCCGGCGCTGCAGCTGCCGGTGGAGGCGCTGCTGGCGCAGCAGGCGCAGCGCAACGCGCAGATCCGCGCGTTGCCCGAGGGCGCCGACAAGGTGGCGGCGCGCAAGGCGCTGCGCGAGGACGGCCGGGCGCTGGTGCAGCAGGTGCGCCAGGCGGAGGTGCTGCGCGCGATCCATTCCCCCGACCAGCTGCGTGAGCAGCTGGTGTGGTTCTGGAATAATCATTTCAGCGTCCACGCGCAGAAGGGCCGGCTCGGCTGGATGCTGGGCGACTATGTCGACAACGCGATCCGCCCGCACGTCGCCGGCCATTTCGCCGACCTGGTGCTGGCGACGCTGAAGAGCCCGGCGATGCTCGAGTACCTGGACAACGCGCACAACGCCAAGGGCAGGGTCAACGAGAACTACGCCCGCGAGCTGATGGAGCTGCACATGCTGGGCGTGGATGCCGGCTACACCCAGCAGGACATCCAGCAGCTGGCACTGGTGCTGACCGGTGCCGGCATCGTGCCGCCGCGGCGGCACGGCGTGCCGAAACTGCCGCCTGCCTTGCAACGTCACTATCTGCGCGAGGGTGCGTTCGAGTTCAACCCGGCCCGCCACCAAGGCGGCGACAAACGCCTGCTCGGCCAGCGTGTGGCTGGTGGCGGCTTCGACGAGATCGAGCGCGCGGTGCACCTGCTGGCGGCGCAACCTGCCTGCGCGCGCTTCGTCTCGCAGCGGCTGGCCGAGTACTTCGTCGGCGACCGGCCGCCGGCGGAACTGGTGGCGCGCATGGCGCGCACCTTCCAGCGCACCGACGGCGATCTTGCCGCGGTGGTGCGCACGCTGGTCGAATCGCGCGCGTTCGCCGATGCGGCCCCGGCGCAGTTCAAGGATCCCTACCGCTACCTGGTGTCGGCGGCGCGGCTGGCCTACGACGGCCAGCCGATCGTCGATCCGCGGCCGCTGGTGAACTGGCTGGGCCAGATGGGCGAGCCGTCGTTCGGGCGCATCACGCCGGACGGCTGGTCGTTGCAGTCCTCGTCCTGGACCAGCTCGGGGCAATTGGCCAAGCGGTTCGAGATCGCGCGGGCGCTCGCCAACGGCGGTCCACGCCTGCTCGGTCCGATGCAGGCAGCTTCGCCGGCCGGTTTGGCGCAGACGCCGCTGTTCCAGCAGGCGTTGGCCCCGACGCTGTCGCCGGCCACGCGCACGGTGCTGGCACAGGCGCGTTCCCGCCAGGAGTGGACGGCATTCGTGCTGGCATCGCCGGAATTCAACCATCGCTGA	MSTSAARMRAIRAWLMVALCLAVITAPAAAAAARSAPASVRWLQRVTFGVDSASLAALQRQGPRDFLRAQLAASDGDAALPPVVQAQLQSYPALQLPVEALLAQQAQRNAQIRALPEGADKVAARKALREDGRALVQQVRQAEVLRAIHSPDQLREQLVWFWNNHFSVHAQKGRLGWMLGDYVDNAIRPHVAGHFADLVLATLKSPAMLEYLDNAHNAKGRVNENYARELMELHMLGVDAGYTQQDIQQLALVLTGAGIVPPRRHGVPKLPPALQRHYLREGAFEFNPARHQGGDKRLLGQRVAGGGFDEIERAVHLLAAQPACARFVSQRLAEYFVGDRPPAELVARMARTFQRTDGDLAAVVRTLVESRAFADAAPAQFKDPYRYLVSAARLAYDGQPIVDPRPLVNWLGQMGEPSFGRITPDGWSLQSSSWTSSGQLAKRFEIARALANGGPRLLGPMQAASPAGLAQTPLFQQALAPTLSPATRTVLAQARSRQEWTAFVLASPEFNHR				NA	NA	NA	NA	NA
BMS020_05522	1419	sasA_7		Adaptive-response sensory-kinase SasA	GTGGCTGTCCGTTTCTGGTCCATGCGGCGCTGGCGGCCGCGCTCGCTGCAGGCGCGGCAGCTGTTGGCTGCCAGCATCAGTCTGGTCGCGTTCCTGGCGCTGGCCGGCTACGCGCTGGACGCGGTGTTCGCGCAAACAGCCGAGAGCAACCTGCGCGAGCGGCTGAAGAACTACGCCACCAGCTACGTCAAGAGCATCGAGTTCGTCCGCGACGGCTCGCTGTACATCGGCGAGCAGCCGCCGGATCCGCGCTTCGACGTGCCCGGCGGCGGCGTCTACGCCGAGGTGGTGCGGCCGAACGAGCGCTGGACCTCGATGTCGGCCGAAGGCCCGGTGCTGCCGCAGTCCGGTGGCATGCTGGCGCCGCGCGAGGAGCGCTTCGAAGGCCCGCTGCCGCTGCTGCAGATCGACGGCAGCCAGGGCGAGGTGTACCGCTACGGCATGGGCGTGAGCTATGTCGAGCGCGAGCACGGCAACGAGATCCCCTACACCATCTACGTGATGGAGGACGCGCGCGGCCTCGGTGCACAGCTGCGCCGCTTCCGCGGCAGCGTGTGGTTCTACCTCGGCAGCGCCGGCATCTTCCTGGTGCTGCTGCAGGCCTTCATCCTGCAGTGGAGCCTGCGTCCGCTGCGGCGCGTGGTGAACGAGCTGACTCGGGTGCAGCGCGGCCTGGCCCAGGGCATGAGCGAGAACCACCCGCGCGAGCTGGAACCGCTGACCGACAGCATCAACGCCTTCATCGAGTCCGAGCGCGAGAATCTGGAGCGCCAGCGCAACACCCTGGCCGACCTGGCGCACAGCCTGAAGACGCCGCTGGCGGTGCTGCGCAGCCAGCTCGACAACGCCGGCGCCGAGGCCGAGCTGCGCGAGGAGCTGGATGTGCAGCTGCGGCGCATGAACAACCTGGTCTCCTACCAGCTGGCGCGCGCGGCCTCCAGCGGCCACAAGCTGTTCTCCGCGCCGCTGGAGATCGAGTCCAACGCCGAGGAGATCGTGCGTGGGCTGGAGAAGGTCTACGCCGCCAAGGGCGTGCTGTGCGAGTTCGAGATCGATCCGGAAGCGCGTTTCCACGGCGAGCCGGGCGACCTGCAGGAACTGCTCGGCAACCTGCTGGAGAACGCCTTCAAGTGGGCGCACCGGCGGGTGCTGCTGACTGCGCGCGCCGAGGCCGCCAGCGGCACGCGTCGCGCCGGCCTGACCCTGGCGGTGGACGACGATGGCCCCGGCATCGCCCCGGAGGACGTGGCCAAGATCCTGCAGCGCGGCGTGCGCGGCGACGAGCGCGTGCAGGGCCACGGCATCGGCCTGTCGATCGTGCAGGACCTGGTGCGCGGCTACCGCGGCGAGATGCACGTGCTGCGTTCGGAAGAACTGGGCGGCGCACGCTTCGAAGTGACCCTGCCGCCGGGACTGTGA	MAVRFWSMRRWRPRSLQARQLLAASISLVAFLALAGYALDAVFAQTAESNLRERLKNYATSYVKSIEFVRDGSLYIGEQPPDPRFDVPGGGVYAEVVRPNERWTSMSAEGPVLPQSGGMLAPREERFEGPLPLLQIDGSQGEVYRYGMGVSYVEREHGNEIPYTIYVMEDARGLGAQLRRFRGSVWFYLGSAGIFLVLLQAFILQWSLRPLRRVVNELTRVQRGLAQGMSENHPRELEPLTDSINAFIESERENLERQRNTLADLAHSLKTPLAVLRSQLDNAGAEAELREELDVQLRRMNNLVSYQLARAASSGHKLFSAPLEIESNAEEIVRGLEKVYAAKGVLCEFEIDPEARFHGEPGDLQELLGNLLENAFKWAHRRVLLTARAEAASGTRRAGLTLAVDDDGPGIAPEDVAKILQRGVRGDERVQGHGIGLSIVQDLVRGYRGEMHVLRSEELGGARFEVTLPPGL	PGPT0011065_299	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_ACIDIC_STRESS	ACIDIC_STRESS_REGULATION,PGPT0011065-phoQ-K07637	NA	NA
BMS020_05523	684	phoP_5		Virulence transcriptional regulatory protein PhoP	ATGCGTATCCTTCTGGTCGAAGACGAAGCCCCGCTGCGCGAGACCCTCGCGGCGCGCCTGAAGCGCGAAGGCTTTGCGGTCGACGCCGCGCAGGATGGCGAGGAAGGCCTGTACATGGGGCGCGAGGTGCCGTTCGATGTCGGCATCATCGACCTCGGCCTGCCGAAGATGTCGGGCATGGAGCTGATCAAGGCTCTGCGCGACGAAGGCAAGAAATTCCCGGTGCTGATCCTGACCGCGCGTTCGAGCTGGCAGGACAAGGTCGAAGGCCTCAAGCAGGGTGCCGACGACTACCTGGTCAAGCCGTTCCACGTCGAAGAACTGCTGGCGCGCGTCAACGCGCTGCTGCGCCGCGCCGCCGGCTGGAGCAAGCCGACGCTGGAGTGCGGCCCGGTCGCGCTGGATCTGGCGGCGCAGACCGTCAGCGTCGCCGGCAGCAACGTCGACCTGACCAGCTACGAGTACAAGGTGCTCGAGTACCTGATGATGCACGCCGGCGAACTGGTCTCGAAGGCCGACCTGACCGAGCACATCTACCAGCAGGACTTCGACCGAGACTCCAACGTGCTGGAAGTGTTCATCGGCCGCCTGCGCAAGAAGCTGGACCCGGACGGCGAGCTGAAGCCGATCGAGACCGTGCGCGGCCGCGGCTACCGTTTCGCGATCCCGCGCAACGAGGGTTGA	MRILLVEDEAPLRETLAARLKREGFAVDAAQDGEEGLYMGREVPFDVGIIDLGLPKMSGMELIKALRDEGKKFPVLILTARSSWQDKVEGLKQGADDYLVKPFHVEELLARVNALLRRAAGWSKPTLECGPVALDLAAQTVSVAGSNVDLTSYEYKVLEYLMMHAGELVSKADLTEHIYQQDFDRDSNVLEVFIGRLRKKLDPDGELKPIETVRGRGYRFAIPRNEG	PGPT0011060_221	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS|LIPID|IVA_REGULATION,PGPT0011060-phoP-K07660	NA	NA
BMS020_05524	375			hypothetical protein	GTGACCGTCGTGCTCCGCTCCACCGCTATCGTCGCCGCCCTGTTGGCTGGGGTGCTGGCGGCTGCGCCGGTGGTCGCGCAGGAGCGTGGCGGCATGACCCCGGAGCCGCGCACGATCATGCCGCAGACCGCGCGCAGCGACGGCGGCCGTTCGCTGTCGGATGCGATCCGGCGGGTGCAACGGTCCACCGGTGGACAGATCCTCGGGGCGGAACGGGTGCCGTTCGACGGCCGCAGCATCAACCGGGTGAAGTACCTGGACGACCGCGGGCGCGTGCGCTACATGGACGACCCCGTGCCGGAGCGGTCCCAGCCGAGGGCACCCGATCGCCAGCCGCGCGACGGGCAGGATCCACCACGCGGCGATAACCCCTGA	MTVVLRSTAIVAALLAGVLAAAPVVAQERGGMTPEPRTIMPQTARSDGGRSLSDAIRRVQRSTGGQILGAERVPFDGRSINRVKYLDDRGRVRYMDDPVPERSQPRAPDRQPRDGQDPPRGDNP				NA	NA	NA	NA	NA
BMS020_05525	762			hypothetical protein	ATGGCAGCACGACGACGGGCGCGCAGGGCGCGGTGGTGGCAGCGCGCAGTGGTGCTGCTGGGCAGCGTGCCGGTGATCGCGGCGGCGGCGACGCTGGAGGAATGCCGCGATGCCGCCGCCGCGCAGTTGCCGGCGCAGGCGCGCGCGGCGTTGCCGCGGATCGATGGCGTGCCCAGGCAACTGCTGGCCCTGCGCGGCTACCTGCGCACGCGCGACCTGGCCGAGCGCTGGAGCTGGGACGCGGCGACCATCGCCGCCTGGCCCGGCTCGCCCGCGCAGCAGGCCGCCGAGGCCGCGGTGGCGCGGGTACAGGCCGCGTTCGCCGCGCAGAACCCCGGCTACAGCCTGCACGTGAACCTGCAGGTGCGCAGCCTCGACGAGCAGCTGCGCAAGTGGAACGGCAACCCCGCGGTGGCGGCTGCGGCCGATGCCCTGGGCGAGGCCGCCCGCCGCGCCTGCAGCGGCGAGCGGATGCCGGCGTTCGCCGCCTGGCTGCGCGCCTATGTGCCGGCGCGCGCGCTGCCGCTGGCGGCGCCCGGGCTGTCGGCGCACGGCCAGGGTCGGGCCTATGACTTCCAGGTACAGGATGCGCAGCGGCTGGTCGCCGGCACCGACAGCGGCCGCGTCCGCGCCGACTGGGTCGTGCCGGGATGGGACCGGCGCCTGGCGCGGGCGGTGCACGCCGCCGGCGATGCGTTCGACGGGCCGCTGCGCGCGCCCGATGAACCGTGGCACTACCGCTACGTCGGCGCCGCGCGCTGA	MAARRRARRARWWQRAVVLLGSVPVIAAAATLEECRDAAAAQLPAQARAALPRIDGVPRQLLALRGYLRTRDLAERWSWDAATIAAWPGSPAQQAAEAAVARVQAAFAAQNPGYSLHVNLQVRSLDEQLRKWNGNPAVAAAADALGEAARRACSGERMPAFAAWLRAYVPARALPLAAPGLSAHGQGRAYDFQVQDAQRLVAGTDSGRVRADWVVPGWDRRLARAVHAAGDAFDGPLRAPDEPWHYRYVGAAR				NA	NA	NA	NA	NA
BMS020_05526	843			hypothetical protein	GTGCCCCATTACGCCGGCCCCCTGCTGACCCGCGCCACCGCCACCGCCCTGCTCGCCGCGCGCGACGCTGGCGCCGTGCGCTGGCACGGCTCGCTGGACCTCGGTCGCTGCGAGGATGACGCGGCGCTGGCGGCCGACGACTGGGGCTGGCGCGGCCAGCGCTACCCGTACCCGGGCAAGCTCAAGGACCGCACCCTGCACTACTGGGACGGCGAAGACTTCGCCGCGGTGTCGCGCTACAGCGGCGCGCTGATCAAGCTGGTGCCGACCGACTGGGGCGCGCCGACCTTCGAGATCGACGGCATCAAGATGCTGCCGACCGCGAAGACCTCGCCGTTCGAGGATGCGCGGCGCAAGGTCGCGCTGGTCGAACCGGCCGGGCGGGTGGTGCTCGATACCTGCGGCGGGCTGGGTTATTTCGCCGCCTGCTGCCTGGAGGCTGGCGCGGCGCGGATCCACTCCTTCGAGAAGAACGCCGACGTGCTGTGGCTGCGCACGCTCAACCCGTGGTCGCCGGACCCGGACGCGCCGGCCAGCGGCGGGCGCCTGCAGCTGACCCACGCCGACGTGTCGCAGGCGATCGCCCAGGTCGGCGACGGCTCGGTGGATGCGCTGCTGCACGATCCGCCGCGCTTCGGCATCGCCGGGGAACTGTATTCGCAGGCGTTCTACGACCAGCTGGCGCGGGTCCTGCGCCGCGGCGGCAAGCTGTTCCACTACACCGGCAGCCCGAACCGGCTGACCAGCGGCCGCGACGTGCCGCGCGAGGTCGCGCGACGGCTGGAAACAGCCGGCTTCCGCGCCGAGCTGGCGCTGGACGGCGTACTCGCCCAGCGGCGCTGA	MPHYAGPLLTRATATALLAARDAGAVRWHGSLDLGRCEDDAALAADDWGWRGQRYPYPGKLKDRTLHYWDGEDFAAVSRYSGALIKLVPTDWGAPTFEIDGIKMLPTAKTSPFEDARRKVALVEPAGRVVLDTCGGLGYFAACCLEAGAARIHSFEKNADVLWLRTLNPWSPDPDAPASGGRLQLTHADVSQAIAQVGDGSVDALLHDPPRFGIAGELYSQAFYDQLARVLRRGGKLFHYTGSPNRLTSGRDVPREVARRLETAGFRAELALDGVLAQRR				NA	NA	NA	NA	NA
BMS020_05527	723	yhhW_2	COG1741	Quercetin 2,3-dioxygenase	ATGCTCGACATCATCAAGGCCAACACCCGCGGCATCGCCAACCATGGCTGGCTGTCCTCGCGCCACACCTTCTCGTTCGGCCACTACTACAACCCGCGCATGATCGGCTTCTCCGACCTGCGCGTGATCAACGACGACCGCGTCGCGCCGGGCCAGGGCTTCGGCAAGCATCCGCACAACGACATGGAGATCTTCTCCTACGTGCTCGACGGCGCGCTGGAGCACAAGGACTCGATGGGCACCGGTTCGGTGATCCGCCCCGGCGACGTGCAGCTGATGAGCGCCGGCAGCGGCGTGGCGCACAGCGAGTTCAACCACTCGCAGAGCGACAGCGTGCACTTCCTGCAGATCTGGCTGCTGCCGGACCGCACCGGCGCCGAGCCGCGCTACCAGCAGCAGCACGTCTCCAGCGAGGACAAGCGCGGCCGCCTGCGCCTGGTGCTGTCGCCGGAAGGCGACGACGGTTCGCTGCGCATCCGCCAGGACGCGCGGGTCTACGCCGGGTTGTTCGACGGCGCGGAGACCGCCACGCTGACGCTGCCGGAGCAGCGCCACGCCTACGTGCACGTGGCGCGCGGCACGCTCAGCCTCAATGGCGAGGCGCTGGGCGAGGGCGACGGCGTGCGCCTGCGCGACGTGCGCGAGCTGCGCTTCAGCGATGGCGTGGGTGCCGAGGTGCTGGTGTTCGACCTGCGCCCGAACGAGTACCCGCAGATGCCGTGA	MLDIIKANTRGIANHGWLSSRHTFSFGHYYNPRMIGFSDLRVINDDRVAPGQGFGKHPHNDMEIFSYVLDGALEHKDSMGTGSVIRPGDVQLMSAGSGVAHSEFNHSQSDSVHFLQIWLLPDRTGAEPRYQQQHVSSEDKRGRLRLVLSPEGDDGSLRIRQDARVYAGLFDGAETATLTLPEQRHAYVHVARGTLSLNGEALGEGDGVRLRDVRELRFSDGVGAEVLVFDLRPNEYPQMP	PGPT0019980_4527	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
BMS020_05528	435	yqjF_2	COG2259	Inner membrane protein YqjF	ATGCACACCGCTTCGCTCACCGCCGTCGGCAGCACCGCCGGCCGCGCCCTGCTCGCCTCGCTGTTCCTCGTCAGCGGTGCCGGCAAGCTCGCCGCTCCGGCCGCGACGATGGCCTACATCGCCTCCACCGGCATGCCGGCGCCGCTGCTGGGCTACCTCGGCGCGCTGGCGGTCGAGCTCGGCCTGGCCACCGCGCTGCTGCTGGGCTACCGCGCCCGTGCCGTGGCGGTGCTGATGGCGCTGTTCGCGCTGGTCACCGCGGTGCTGTTCCATGCCGACTTCGGCGACCAGAACCAGACCATCCACTTTCTGAAGAACCTGGCCATCGCCGGCGGCCTGCTGCAGGTGGCGGCCCACGGCGCCGGCGCGCTGAGCCTGGATGCGCAGCGCACGCGCCGCATCCAGCACGACGCCCGCATCGCCGCCGCGTTCTGA	MHTASLTAVGSTAGRALLASLFLVSGAGKLAAPAATMAYIASTGMPAPLLGYLGALAVELGLATALLLGYRARAVAVLMALFALVTAVLFHADFGDQNQTIHFLKNLAIAGGLLQVAAHGAGALSLDAQRTRRIQHDARIAAAF	PGPT0028505_4348	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
BMS020_05529	912	pgrR_9		HTH-type transcriptional regulator PgrR	ATGAGCCAGCTCGAAGACATGCGCATCTATGTGGCCACGGTCGAGGACGGCAGCTTCACCGCGGCCGCCGAACGCCTGGGCCTGTCCAAGCAGGTGGTCAGCAAGCGGGTGATGGCGCTGGAGGCGCGGCTCGGCGTGCGCCTGCTGCTGCGCACCACCCGGCGGCTGCGCCCGACCGCGCCCGGGCTGGCCTATTTCGAACAGGCGCGCGAGCTGGTGCGCCAGGTCGACGCGATGGACGCCTCGATCGCCCGCCACAACGCCAGCCCGCGCGGCCCGCTGCGGATCACCGCGCCGATGTCGTTCGGCACCCTGCACCTGGGGCCGTTGCTGCCGCGCTTCCTGCTGGCGCACCCCGAAGTGACGCTGGAGATGGACCTGGGCGACCGCACCGTCGACCTGGTCGGCGAGGGGTACGACATGGCGATCCGGATCGGCACGCTGGCCGATTCCAGCCTGGTCGCGCGCACCATCGCGCCGATGGAGATGCGCCTGTGCGCCAGCCCGGACTACCTCGCCCGGCGCGGCCGCCCGGCCAGTCCGCGCGAGCTGCGCAGCCACGACTGCGTGCTGTATGGGCACGGCAAGCACGTGGAATGGGTGTTCCAGCACGGCGGGCGGCGCGAGACGGTGGCGGTCAGCGGGCGGATGCGGGTCAACAACGGCGAGCTGGTGCGCGACGCCGCACTGGCCGGGCTCGGCCTGGCCTACCTGCCGACCTTCATCGTCGGCGAGGCGCTGGCCGATGGCCGCCTGGTCAGCGTGCTCGAGGAGGCCTGCCCGCCGCCGGCCGCGGTCCACGCGGTCTACCCGCAGCACCGCCAGGGCGCGCTGGTGGTGCGCGCCTTCATCGACTTCCTGGTGTCCAGCTTCGCCGCGCCGCCGCGCGCGCCGGCCAGCGCGCCGCGCTAG	MSQLEDMRIYVATVEDGSFTAAAERLGLSKQVVSKRVMALEARLGVRLLLRTTRRLRPTAPGLAYFEQARELVRQVDAMDASIARHNASPRGPLRITAPMSFGTLHLGPLLPRFLLAHPEVTLEMDLGDRTVDLVGEGYDMAIRIGTLADSSLVARTIAPMEMRLCASPDYLARRGRPASPRELRSHDCVLYGHGKHVEWVFQHGGRRETVAVSGRMRVNNGELVRDAALAGLGLAYLPTFIVGEALADGRLVSVLEEACPPPAAVHAVYPQHRQGALVVRAFIDFLVSSFAAPPRAPASAPR				NA	NA	NA	NA	NA
BMS020_05530	2343	ptpA	COG1506	Prolyl tripeptidyl peptidase	ATGCCCTCCATGCTCGTTCCGCGCCACCTGCTTGGCGCCCTCGCCCTCGCCCTCGCCGTCACCGCACAACCCGCGCTGGCCGCCGCTCCCACCGTCAGCGACGCCGATTACGCCCGCGCCGAGCGCATGCTCGGCTACCTCGCGCAGCCGCTGGTGGACCACCAGGTCAGCCGCGTCGACTGGCTCGACGCGCGCCACTTCGCCTACACCGACCACGACGCCAGCGGCGACCACCTGCTGCGCATGGACGTGGCCAGCGGCAAGGCCACGCCGCTGCTCGACCAGAAGGCACTGGCGAAGTCGCTCAACGCCCTGCTCGCCACCGGCGACAAGCCGCTGGACCCGGCCCGGCTGTCGATCCGCGCGATCACCCTGGCCGCCGACGGCCGCTACCGCTTCGACGTGCGCGGCACCACCGTGCTGTGCGATGCCAAGGCGCACTGCGCCAAGGCCTACGCCAAGGACACGCTGGAACCGGGCACGCCCTCGCCGGACGGCCGCCAGGAAGCCTTCGTGCGCGACTGGAACCTGTGGCTGCGCGACCGCGCCAGCGGCCAGGAGACCCAGCTGACCACCGACGGCAGCAAGGATTACGGCTACGCCACCGACAACGCCGGCTGGTCGCACAGCGACAAGGCCATCGTCGCCTGGTCGCCGGATTCGAAGAAGATCGCCACCTTCCGCCAGGACCAGCGCAAGGTCGGCGAGATGTACCTGGTGAAGACCAAGCTTGGCCACCCCGAGCTGGAAGCGTGGAAATACCCGCTGGCCGGCGACAAGGAGGTGACGATGATCGAGCGCGTCGTCATCGACCTGCCCAGCCGCCAGCTGGTGCGCCTGCAGATGGCGCCTGACCAGCGCCGTTCCACCCTGTGCGATGACATGGCCTGCGCCCCGGACGGGGTGATCACCGACATCAAGTGGGCCAAGGACGGCAAGACCTTCGCTTTCGTCTCGGTCTCGCGCGATTACAAGCAGGCCTGGTTCCGTATCGCCGACACCGCCACCGGCGCGGTGCGCACGGTGTTCGACGAGAAGGTGCCGAGCTACTACGAAAGCGGCCAGGTCGGCGCCAACTGGGACTACCTGCCCGAGAGCAACGAGGCGATCTGGTTCTCCGAGCGCAGCAACTGGGGCCAGCTGTACCTGTACGACCTGGCCAGCGGCCAGCCCAAGCACGCCATCACCCGCGGCGACGGCAACGTGACTGAGCTGCTGCGCGTGGATGCCACCACCCGGACCGCCTGGTTCCGCGGCGTCGGCCGCACGCCCGGGATCGACCCGTACTTCCAGCAGCTGTGGAAGGTCAGCCTCGACGGCGGCACGCCGGTGCTGCTGTCGCCGGAAGCGGCCGACCACGCGATCAGCCTGGCGCCGGATGGCCGCCACTTCGTCGACGCCTACTCGACCGCGACCACGCCGACGGTGACCGTGCTGCGCGATGCCGGCGACGGCCGCACCACCGCCACGATCGCCCGCACCGACATCGCGCGCCTGCAACAGGCCACCGGCTGGGTGCCGCCGCAGCCGATCACGGTGAAGGCGCGCGACGGCAGCACCGACCTGTACGGCATGCTGTTCAAGCCGTCCAACTTCGATGCGGCCAGGAAGTACCCGATCGTCACCTACATCTATCCGGGCCCGCAGACCGGCTCGGTGCGTGGGCGCAGCTTCCTGGTCGACCGCAGCGGCAACCAGGCGCTGGCTGAACTCGGCTTCATCGTCATCGCCATCGATGGCATGGGCACGCCGTGGCGCTCCAAGGCGTTCCACGACACCTGGTACGCCGACATGGGCGACAACACCCTGCCCGACCAGGTCGCCGCGCTGAAGCAGCTGGCCGCGCGCTATCCGTGGATCGATGCCGGCCGCGCCGGCATCTGGGGCCACTCCGGCGGCGGCAACGCCTCCACCACCGCGATGCTGCGCTACCCGGAGGTCTACAAGGTGGCCTGGTCGGAGAGCGGCAACCACGACAACCGCCTCTACGAAGATGCCTGGGGCGAGAAGTACCAGGGCCTGCTAACCACCGACAAGGACGGCAAGACCAGCTACGACAACCAGTCCAACCCGGCGCTGGCCGCACGCCTGCAGGGCCGGCTGATGCTGGTCCACGGCACCATGGACGACAACGTGCCGCCGGACCACTCGCTGCTGATGGCGCAGGCGCTGATGAAGGCCGGCAAGTCGTTCGACATGCTGATGCTGCCCAACGCCCGCCACGGCTACGGCACCGAGTACACCCCGTACATCAACCGCCGCCGCTGGGACTACTTCGTCGAGCACCTGATGGGCGCCACGCACCCGCAGGACTATGCAATGCAGCCGATGCCCAAGCCGTAA	MPSMLVPRHLLGALALALAVTAQPALAAAPTVSDADYARAERMLGYLAQPLVDHQVSRVDWLDARHFAYTDHDASGDHLLRMDVASGKATPLLDQKALAKSLNALLATGDKPLDPARLSIRAITLAADGRYRFDVRGTTVLCDAKAHCAKAYAKDTLEPGTPSPDGRQEAFVRDWNLWLRDRASGQETQLTTDGSKDYGYATDNAGWSHSDKAIVAWSPDSKKIATFRQDQRKVGEMYLVKTKLGHPELEAWKYPLAGDKEVTMIERVVIDLPSRQLVRLQMAPDQRRSTLCDDMACAPDGVITDIKWAKDGKTFAFVSVSRDYKQAWFRIADTATGAVRTVFDEKVPSYYESGQVGANWDYLPESNEAIWFSERSNWGQLYLYDLASGQPKHAITRGDGNVTELLRVDATTRTAWFRGVGRTPGIDPYFQQLWKVSLDGGTPVLLSPEAADHAISLAPDGRHFVDAYSTATTPTVTVLRDAGDGRTTATIARTDIARLQQATGWVPPQPITVKARDGSTDLYGMLFKPSNFDAARKYPIVTYIYPGPQTGSVRGRSFLVDRSGNQALAELGFIVIAIDGMGTPWRSKAFHDTWYADMGDNTLPDQVAALKQLAARYPWIDAGRAGIWGHSGGGNASTTAMLRYPEVYKVAWSESGNHDNRLYEDAWGEKYQGLLTTDKDGKTSYDNQSNPALAARLQGRLMLVHGTMDDNVPPDHSLLMAQALMKAGKSFDMLMLPNARHGYGTEYTPYINRRRWDYFVEHLMGATHPQDYAMQPMPKP				NA	NA	NA	NA	NA
BMS020_05531	555			hypothetical protein	ATGGCGAACAAGGCGTGGTGGTGGGCGTTGCTGGCGATGCTGCCGCTGCTGGGGCAGGCCGCACCGGCGCCGGTGGACGGCAAGGTGCAGGCCAAGGCGTTCGCCGACCTGTATGCCTCGCTCTGTCTGGAGCACCTGGGCGATCTGGACGCCCTGCGCGCACGCCTGTCCTCGGTGCCGCGGCTGAAGCCCGAGTCGGCGGCATTCTTCCTGTCCGGCCAGCCCGGCGATGCCTGGGCGGTCAGCGACCAGCGTGGCGACTTCGTGGTGGCGCTGCCGGCCAATGCGCGCATCTGCCTGGTGTACGCCCGCCATGCCGACATCGACGCGGTGCAGCGCCAGTTCACCGCGCTGGTCGAGGAGGCGCCGTATCCGTTCGTCTTCACCAAGCTGCCGACGCCGGCCACCGCTGCTGGCAACCACACGGTGCGCACGCTCAGCTATGCGTGGAAGTCGCCGGGTAGCGGCCGCCGCACGCTGTTCACGCTGAATCTCGATCCGGCCGGAACGGCACGCCCGCAGGTGATGGCGTCGGCGGCGCTGGAAGGGCGCTGA	MANKAWWWALLAMLPLLGQAAPAPVDGKVQAKAFADLYASLCLEHLGDLDALRARLSSVPRLKPESAAFFLSGQPGDAWAVSDQRGDFVVALPANARICLVYARHADIDAVQRQFTALVEEAPYPFVFTKLPTPATAAGNHTVRTLSYAWKSPGSGRRTLFTLNLDPAGTARPQVMASAALEGR				NA	NA	NA	NA	NA
BMS020_05532	648			hypothetical protein	ATGTCCCTGCGCCCCCCGTTGACGCTGATCCTGCTGCTGGCCTGCCTGCTGCTGCCGTGGCCGCAGGCGCTGGCACGCGACGCCAGGCCGCAGCCGCAGGATGGCGACCTGCTGTTCGTCACCGCCGCCGGCACCGGCCTGAGCGGGGCGATCGACGATGCCACCGCGCACGCCGCCGGCCCCAGCTTCGACCATGTGGCGCTGGTCGCCCACGACGGCGCCACGCCGGTGGTGCTGCATGCCGACGAGAAGGGCTCGCGCGAGCAGACGCTGGCCGCGTTCCTCGACGAGGCCGCGGCCAAGCAACGCCAGGTGCATCTGTACCGGCTCGACGGCCAGGCGCGTGCCACGATCCCTGCGGCAATCGCGCAGGCGCGGCGCATGCTTGGCAAGCCGTACAACCTCACCTACGTGCAGGCCGAGGACAGCTACTACTGCTCGGACTTCATCGAGCGCGCCTTCCGCAGCGGGCACGTGTTCGCGCTGCAGCCGATGAACTTCAAGAATCCCAAGACCGGGCAGATCGCCCCGTACTGGGTCACGTTCTACCGCGAGAAGGGCATGGCGGTCCCGCAGGGAATGCCCGGCACCAATCCCAACGACATGGCGCGCACGCCGGCGCTGCACGCGCTGGGCACGCTGAACTAA	MSLRPPLTLILLLACLLLPWPQALARDARPQPQDGDLLFVTAAGTGLSGAIDDATAHAAGPSFDHVALVAHDGATPVVLHADEKGSREQTLAAFLDEAAAKQRQVHLYRLDGQARATIPAAIAQARRMLGKPYNLTYVQAEDSYYCSDFIERAFRSGHVFALQPMNFKNPKTGQIAPYWVTFYREKGMAVPQGMPGTNPNDMARTPALHALGTLN				NA	NA	NA	NA	NA
BMS020_05533	444			hypothetical protein	ATGAACATGCGTATGGCCCTGGCCTGCGGTGCACTGCTGGCGTTGGCCGGCTGCGCGACCACCCCGATGGCGCCGACAATCCGGGTGATGCCGGCGCCGAACCAGCCGTTCCAGGCATTCCAGGCCGACGACGCGGAGTGCCGCCAGTACGCGGCCGGCGCGGTGAAGGGCATGGCCGACCAGAGCAACAACAAGGCCGTTGGCGGCGCCGTGGTCGGCTCGCTGCTCGGCGCGGCGGTGGGGGCGGCGCTGGGCGGTCCGGGGCCGCATCACGACAACGGGCTGGTGGCCGCCGGTGCGGTGGCTGGCGGCGCGATCGGCGCCAGCAACGGCGCCGACGCCGCGGGCAGTTCCCAGTACGGCATCCAGCAGGCCTACGACACCGCCTACGCGCAGTGCATGTACGCGCGCGGCAACCAGGTGCCGGGGGCCGCCGCGCACTGA	MNMRMALACGALLALAGCATTPMAPTIRVMPAPNQPFQAFQADDAECRQYAAGAVKGMADQSNNKAVGGAVVGSLLGAAVGAALGGPGPHHDNGLVAAGAVAGGAIGASNGADAAGSSQYGIQQAYDTAYAQCMYARGNQVPGAAAH				NA	NA	NA	NA	NA
BMS020_05534	471			hypothetical protein	ATGATCACGATCCCCCGTTTGCTGTTCCTCGCCGCGTTGTGCATGGCCAGCGGCGCCTATGCGCGCGAGCCCGGGCCGCATGGCGGCAGCCACGGGCCGGGCGGCGGCCCCGGCGCCGCGCCGGCACCGCGCTTCCATGGCGACGTCGGCCGCTTTGGTCCGGACGACCGCGCGCTGTGGCGCGGTGGCGGTTGGCACCACGAATACCGTGACGGTCGCTGGGGCTGGTGGTGGGTCGTCGATGGCCTGTGGTACTGGTACGACGCGCCGATCTATCCCTACCCGGGCATGGTCTCGGTGGTGACCTATGCGCCGCCACCGGTGCCGCCGCCGCCGGTGGTCGAGGTCGCGCCTGCCGCGCCCGAACCGGTCGCCGCACCGCCGCGCTTCCGCTATTTCTGCCCCGGCCACGGCTACTACCCGGATATCCAGACCTGCCCGACCGATTTCGTCCGGCAGCCGATTCCCTGA	MITIPRLLFLAALCMASGAYAREPGPHGGSHGPGGGPGAAPAPRFHGDVGRFGPDDRALWRGGGWHHEYRDGRWGWWWVVDGLWYWYDAPIYPYPGMVSVVTYAPPPVPPPPVVEVAPAAPEPVAAPPRFRYFCPGHGYYPDIQTCPTDFVRQPIP				NA	NA	NA	NA	NA
BMS020_05535	282			hypothetical protein	ATGCTGTTGCTGCTGCTGGTGGGGAGCGTCGTCGTGGTCGCGCTGTTGATCGCCGTGGCGATGCGTGCGGCGCAGGCGCCGCGTGGCGCCCGTGCAGCCGCGACGTCTCCCAGCGACGGCGGGCCGCTGCCGTGGGAGCCGGTGAATCAGTACGTCGCAGACGAAGCACGGGCGTTGGCGGGCGATGCCGGCTGCGCAGCCGGCGATGCCAGTGGTGGTGGCGACAGCGACAGTGGCGCGGGTTGCGACAGCTCGGACAGCTCGGGGTCATCCAGCGACTGA	MLLLLLVGSVVVVALLIAVAMRAAQAPRGARAAATSPSDGGPLPWEPVNQYVADEARALAGDAGCAAGDASGGGDSDSGAGCDSSDSSGSSSD				NA	NA	NA	NA	NA
BMS020_05536	363			hypothetical protein	ATGAACAGCATGATGGGCTGGATGGCCGCTGCGCTGCTGGCGGTACCGTGCGTCGCGGCAGCGCAGGACCTGGTCAAGACCTCCGGCGGCATGGCGAAGGTGCTGCGTGAAGATGCGCGCATGCGCGTGATCGAACTGACCGTGCCGCCGGGCAAGCACACCGGCATGCATACCCATGGCGAAGGCATCGTGTATTTCCTCACGCCATCGATCGCCACCCAGATCGAGCCGGACGGGGCCGCGCAGACACTGCGCTTCCAGCGGGGCGAGGTGCATCCGCTCGGCCGTGGCGCGCACGACACCGTGAACAGCGGCACCGCTCCCACGCGGACGCTGATCGTGGAGTTGAAGCCGCCGCGCTGA	MNSMMGWMAAALLAVPCVAAAQDLVKTSGGMAKVLREDARMRVIELTVPPGKHTGMHTHGEGIVYFLTPSIATQIEPDGAAQTLRFQRGEVHPLGRGAHDTVNSGTAPTRTLIVELKPPR				NA	NA	NA	NA	NA
BMS020_05537	861			hypothetical protein	ATGCCGCGCCCTGCCCTGCTGCTCGCCAGCGTCCTGCTGCTCCTGCCGCCAGGCGCACGTGCCGACGAGGCGCCCGCGGCCAAGCCGGATGCGCATGGCCGCCGCCCACAGGTGTCTTCGACCCAGTGCGGACTGTCCACCACGTTCAACGTGCTGGCCGACAGCGGTGGCATCTGGCTGTACCGCGATGCCGGCACGCCGCGCGAGATCTTCTTCCACGACGGCGAGCTGAGCGTGGACCAGAAGGTGCGCGCCACCAGCGATGCCGATGCGCAGCGGCTGCGGCGGATGGAAACGCAGGCCCGTGCGCTAATGCCGCAGGTGGCCGGCATCGCCCGCGACGTGGCCGACATCAGCTACGACGCCCTGGGCGGGGTGATCGAGATCCTCACCGGCAGCACGCTCAACGCGTGGAAGATCGAGCGCCGGCGCAAGCGCGCGCTTGCCTACATCGACGGCACGCTCGGCAAGGGGCGCTGGGACCAGAAGGCGTTCGATGGCAACTTCGAGCGCTACGTCGAGGAAGAAGCCGAAACCTTCAAAGGCAGCATCGCCCGCCACGTGCTGTGGCAGGTGGTCACCGGGCGTGCCGAGCACATGGACGAACGCGCCGAACGCATGGGCGACACGCTCGACGTGAAGCTGGAAGCGCGCAGCGCGCAGATCGAGGCCAAGGCCGATGCGCTGTGCAGCCAGGTCGCGGCATTGCAGCAGCTGCAGGATGCGCTGGAGTTCCGCTACGACGGCCAGCCGCTACGCATGCTCGGCGATGCCACCGCCGCCACCGCCGACGCAACGCAGGTGCCCACCGATGACGACGCTGGCGATCGGCCGCGTGGCAATGCGATCCAGACGCCATGA	MPRPALLLASVLLLLPPGARADEAPAAKPDAHGRRPQVSSTQCGLSTTFNVLADSGGIWLYRDAGTPREIFFHDGELSVDQKVRATSDADAQRLRRMETQARALMPQVAGIARDVADISYDALGGVIEILTGSTLNAWKIERRRKRALAYIDGTLGKGRWDQKAFDGNFERYVEEEAETFKGSIARHVLWQVVTGRAEHMDERAERMGDTLDVKLEARSAQIEAKADALCSQVAALQQLQDALEFRYDGQPLRMLGDATAATADATQVPTDDDAGDRPRGNAIQTP				NA	NA	NA	NA	NA
BMS020_05538	906			hypothetical protein	ATGCGCGTTTTCCTTACAGGTGCGACCGGCTTCATCGGCTCGCACGTCGTTCCCGAGCTGCTGGCTGCCGGTCATCAGGTGCTCGGCCTGACCCGTTCCGACGCCGGTGCACGCCGGCTTGCGCTGGCCGGTGCCGAGGTCCATCGCGGCACGCTGGAAGAACCGGACAGCCTGCGCGCCGGTGCCGAACGGGCCGATGCGGTGATCCACACCGCGTTCGACCACGACTTCGGCAACTTCGTGGCGAACTGTGCCAAGGACCGGCGTGTGATCGAAGCGATGGGGATGGCGCTGAAGGGCTCCGGGCGACCGTTGCTGATCACCTCGGGCGTGGGCATGGGCAGTGCCGCGCCGGGGCAGGTGGCCAGCGAGGAGGTATTCGACCGGCAAGCGCTGCATCCACGCGCGGCGTCGGAGCTGGCCGGCGAGGCCTTGCTGGAGCAAGGGGTGAACGTGTCGGTGGTGCGCTTGCCGCAGGTGCACGACACGCGCCGGGCGGGATTGATCTCCCCCTACATCGAGCTCGCCTTGCGTAGCGGGCAGGTGGCCTACGTCGGCGCTGGCGACAACCGCTGGTCGGCGGCGCACGTGGGCGATGTGGCGCGGCTGTACGTGCTTGCACTGGCGCAGGCCCAGCCGGGACTCCGCCATCACGCCGTGGCCGAGGAGGGGGTGACGCTGCGGCAGATCGCCGAGACCATCGCCGCCGGCACCGGCTTGCCGCTGGCGTCGTTGCAGGGCGATGCCAGCGACGCCTACTTCGGCTGGCTGGCGATGTTCGCCGGCAGCGACATGCGCGCCTCCAGCGCGATCACCCGTGCGCGGCTGGGCTGGCAGCCGCGCGGACCGGGGTTGCTGCAGGACCTGCGCGAGATGGCGTACGCGGCACCGGACGTGCAGGGCTGA	MRVFLTGATGFIGSHVVPELLAAGHQVLGLTRSDAGARRLALAGAEVHRGTLEEPDSLRAGAERADAVIHTAFDHDFGNFVANCAKDRRVIEAMGMALKGSGRPLLITSGVGMGSAAPGQVASEEVFDRQALHPRAASELAGEALLEQGVNVSVVRLPQVHDTRRAGLISPYIELALRSGQVAYVGAGDNRWSAAHVGDVARLYVLALAQAQPGLRHHAVAEEGVTLRQIAETIAAGTGLPLASLQGDASDAYFGWLAMFAGSDMRASSAITRARLGWQPRGPGLLQDLREMAYAAPDVQG				NA	NA	NA	NA	NA
BMS020_05539	342			hypothetical protein	ATGCTGCAGGTTCTGCTCACGCTGCTCCCGCTGGCGCTCTGCGTCTACCTGATCCGCTTCAGCCGTGGCCGTATGCAGCGCGCCTTGCAGGCAAGCCTTGCCGAACAGTGGTTCAGCACCCCACAGGGCAAGGTCAGCGGAGCCCAGCTGGAGGTGGTCAAGCGCAGCGTCCAGGTCGCGCGCTCGCCCGGCAACACCCCGTCGGAGCTGTTCTGGTACTGCACCGGGCCTGGACCGAGCTACTTCCTCGCGATCGCCAAGGTGAAGCTGGCCGGACGGCGCTATCAGATCGACTGGATCGTGCGTCCGCTCAGCGAGCAACGCTTCCGTGCCGCGCTCTGA	MLQVLLTLLPLALCVYLIRFSRGRMQRALQASLAEQWFSTPQGKVSGAQLEVVKRSVQVARSPGNTPSELFWYCTGPGPSYFLAIAKVKLAGRRYQIDWIVRPLSEQRFRAAL				NA	NA	NA	NA	NA
BMS020_05540	1071			hypothetical protein	ATGCTGCTGGCGCTGGCCATGCCGGGCGTCGACGCGATCGCGCAGGCGTCATCCAGCCAGGCAGATGGGGAACGGGAGGCCGCGAAGGAAGGCGCGCACAAACGGCCCTCGCCGTGGCTGCTGGTGCCACTGGTCAGCAGCAATCCCAAGCTCGGCAGCTCGGTCGGCCTGATGGCCGGCTACGTGCGCAAGCTCGATGCGACCTCGGAGCCGTCGATGCTGGCGATGCAGCTGCAGCGCTCCAACACGTCCTCGCGGACCTATGGCGCGGGCGGCAAGGCGTTCTGGGGCGACAACGCCAACCAGCTGCAGTTCGGCGTGGGAGGCGGCAAGGTCACCAACGACTATCTCGACTTCCTCGGCAGTGGCCAGCAGGTGCTTTCCGACGAAACCCTGCGCGGCTACTTCCTGCGCTACCAGCATGGGCTGCGTCCGCACTGGTATGCCGGCGCCCAGCTGCTGCATTCCAACTACGGCGTGGATGCGGGCGATCCGCTGTCGGACCAGATCCTCGAGGACGCCGGCCTGGCTGGTTCGGTCTCGGCCGGGCTCGGCTTGATCGTGTCCTACGACACCCGCGACAACACCAACAACCCGTCGTCCGGCATGCAGGTGCAGCTGCACAACTTCGCCTTCCGCGACGGCTTCGGCAGCGATGACGACTACGACCAGGTGACCGGCGAGTTGAAGTGGTTCACCCGCACCGGTCCGAGCAACGTGCTGGTGGTCCATGGCAAATGGCGCTGGACCAAGGATGCACCGGCCTCGAAGAAGAGCACGGTGGAACTGCGCGGCTACACCCGCGGCCAGTACCTGGGGCGCAACGCGTTGAGCGTGGAGCTCGAGGACCGCTACATGTTCCGCCCGCGCTGGGGCGTCAAGGCGTTCGGCGGGGTCGCCTGCCTGTACGGCGACGGCGAGCATTGCAGCGGCGACAACCTGTATCCGATGGGCGGTGGCGGTCTGTTCTTCGTGCTCAAGCCGGAGGCCAATATGGTCATCGCCGCCGAGTTCGCACAGGGCAATGGCGACAACCGCGGCTTCTACCTGACCTTCGGCCACCGCTTCTGA	MLLALAMPGVDAIAQASSSQADGEREAAKEGAHKRPSPWLLVPLVSSNPKLGSSVGLMAGYVRKLDATSEPSMLAMQLQRSNTSSRTYGAGGKAFWGDNANQLQFGVGGGKVTNDYLDFLGSGQQVLSDETLRGYFLRYQHGLRPHWYAGAQLLHSNYGVDAGDPLSDQILEDAGLAGSVSAGLGLIVSYDTRDNTNNPSSGMQVQLHNFAFRDGFGSDDDYDQVTGELKWFTRTGPSNVLVVHGKWRWTKDAPASKKSTVELRGYTRGQYLGRNALSVELEDRYMFRPRWGVKAFGGVACLYGDGEHCSGDNLYPMGGGGLFFVLKPEANMVIAAEFAQGNGDNRGFYLTFGHRF				NA	NA	NA	NA	NA
BMS020_05541	318			hypothetical protein	ATGTCCCGACCGTTGGCGCCCGCCGGGCGCGTGTTTGCGTTTGCTGCCTTCCTCGAAGGCTTCACCTGGGCCGGCCTGCTGGTCGGCATGTGCTTCAAGTACGGGCCGGTGGGCAACGCGCTCGGGGTGAAACTGTTCGGCCCGCTGCATGGCGCGGCGTTCCTGTTCTACGTCGCGGTGACCTTGCTGGTCGGCCTGCGCCTGCGCTGGCCATGGTGGGGTGTGCTGGTGGCGCTGGCCGCCGCGGTGCCGCCGTTGGTGACGATCCCGCTGGAGATCTGGTTCCGCCGCATCGGGCTGTTGGCGCGGCGCGACTGA	MSRPLAPAGRVFAFAAFLEGFTWAGLLVGMCFKYGPVGNALGVKLFGPLHGAAFLFYVAVTLLVGLRLRWPWWGVLVALAAAVPPLVTIPLEIWFRRIGLLARRD				NA	NA	NA	NA	NA
BMS020_05542	1977	cocE_2		Cocaine esterase	ATGCGCATGAAGAACGGAGCGTCCGCGCTGGTCGCGGTCGGGGTCACGCTGCTGGGGATGGCGGTGGCTGGCGCGCAACAGAAGCCGGATCCGCAGGCGGAGCTGATCGCCAAGCGCAATGCCACCGAGAAGGAGCTCGAGGAGGTGGCGGTCATCGATCGCAAGGTGATGGTCAAGATGCGCGACGGCAAGCTGATGGCCGCCGACATCTACCGTCCGAAGACCGCCGGCAAGGTGCCGGTGATCTTTTCGCGCACGCCGTACAACTTCAACTACTGGGACGTGAAGCTGGGCGCGCCGCGCGACATGAGCGCCCCGCTGGCCGCGGTCAAGCACGGCTACGCCTACGTCGAGATGCAGGAGCGCGGGCACTTCTTCTCGCAGGGCAACTACGACATCCTCGGCATGCCGCTGAGCGATGCCACCGATGCGCTGGCGTGGATGCGCACGCAGCCGTGGTCCACCGGCAAGGTCGGCACCACCGGGTGCTCCTCCACCGCCGAATGGCAGCTGGCCGCGGTGGCGCAGGACGATCCTGCTTTGGCCACCTTCAACGTGCAGGGCTTCGGCGCCGGCGTCGGCAAGGTTGGCCCGTACTACGAGCAGGGCAATTGGTACCGCGGCGGCGCGATGCAGATGCTGTTCATCTCGTGGATCTACGACTACGGCATCCAGAACCAGGTGCGTCCGCTGTTTCCGGCCGGCACCACGCAGGCGGAGCTGGTCAACGCCTCGCGCTTCTACGACCTGGCGCCGCAGATGCCGCCGGTCGATTGGGACAAGGCGTTCTGGCACCTGCCGGAGAAGGACATCATCAAGGCGGTCGGCGGCCCGCCGGGGATCTTCGATACGAAGATGCCGGTGGCCACCGGCGGCAACATGGTGGCGCGCGCACCGAACGATCCGGCTTGGTACAAGGGCGGGTTGTGGCACGAGACCATGAAGATCAATCGCCCCGGCCTGTGGTTCATGAGCTGGTTCGACGTGTCGGTGTCGCCGAACCTGGCCGCGTACAACAAGGTGCGGCAGACCGCCGACAAGGCGATCGCCGACCAGCAGTACGCGGTGATCGCGCCGGTGCTGCACTGTGCCTACAAGCGTGCGACCGAGCACACCATGGTCGGCGAGATGGACATGGGTGATGCACGCTTCGACTACGACGCACTGGTCTATGGCTGGTTCGATCACTACCTCAAGGGCGAGGACAGCCCGGCGTTGGCCAAGCAGCCCAAGGTCATGTACTACGTGATGGGCGCCAACCGCTGGAAGAACGCGCAGACCTGGCCGCCGGCCGGCACCACGCAGCAGACGCTGTTCCTGGGCAGCGGTGGTAGCGCCAACACGCTGTACGGCGATGGCACGTTGCAGGCGTCGGCACCGGCGCAGGACATGCCCGACCGCTACGTCTACGACCCGGCCAATCCGGTGCGCACGCTCGGCGGCGGCGGCTGCTGCCAGGGCAAGACCAAGTTCGGCTCGTTCGACCAGCGCGAGCAGGAAGCGCGCAATGACATCCTGGTCTACCAGACCGAGCCGTTGAAGCAGGGCGTGGAGCTGAGCGGGCCGATCACGGTGACGCTGTACGTGGATTCCAGCGCCAAGGACACCGACTTCACCTTCAAGCTGATCGACGTGCAGCCGGATGGCCGCTCGCTCAACATCACCGAGAACATCCAGCGCATGCGCTACCGCGACGGCTACGACAAGCGGGTGTGGATGGAGCCGGGCAAGGTGGCCAAGGTGACGTTCCAGCCGATCGACACCGCGTACTACTTCAAGCCCGGTCACCGGCTGCGTCTGGACGTGTCGAGCAGCAACTTCCCGCGCTTCGACCGCAACCTCAACACAGGTGGCAACAACTACGACGAGGAGCACGGGGTGATCGCGCACAACGCGGTACACCACGGCGCGCAGTACCCGTCCAGCGTCACGTTGACGGTGATGCCGGAGAGTGGCGGCGAGGCTGCTGCGAACTGA	MRMKNGASALVAVGVTLLGMAVAGAQQKPDPQAELIAKRNATEKELEEVAVIDRKVMVKMRDGKLMAADIYRPKTAGKVPVIFSRTPYNFNYWDVKLGAPRDMSAPLAAVKHGYAYVEMQERGHFFSQGNYDILGMPLSDATDALAWMRTQPWSTGKVGTTGCSSTAEWQLAAVAQDDPALATFNVQGFGAGVGKVGPYYEQGNWYRGGAMQMLFISWIYDYGIQNQVRPLFPAGTTQAELVNASRFYDLAPQMPPVDWDKAFWHLPEKDIIKAVGGPPGIFDTKMPVATGGNMVARAPNDPAWYKGGLWHETMKINRPGLWFMSWFDVSVSPNLAAYNKVRQTADKAIADQQYAVIAPVLHCAYKRATEHTMVGEMDMGDARFDYDALVYGWFDHYLKGEDSPALAKQPKVMYYVMGANRWKNAQTWPPAGTTQQTLFLGSGGSANTLYGDGTLQASAPAQDMPDRYVYDPANPVRTLGGGGCCQGKTKFGSFDQREQEARNDILVYQTEPLKQGVELSGPITVTLYVDSSAKDTDFTFKLIDVQPDGRSLNITENIQRMRYRDGYDKRVWMEPGKVAKVTFQPIDTAYYFKPGHRLRLDVSSSNFPRFDRNLNTGGNNYDEEHGVIAHNAVHHGAQYPSSVTLTVMPESGGEAAAN				NA	NA	NA	NA	NA
BMS020_05543	309			hypothetical protein	ATGGTTCCTGCCAATCTGTTTGCCGATGCACATCCACCCACCGAAGGCGAGCGCTTCGAAACCCTGCTCGCCCATCGCAACCTGATGATCGAACGCATCATCAGCTCGGCCCGGATCACACCGCACGCGTACGTGCAGGCTCAGGACGAATGGGTGCTGATGGTGCATGGCGAGGCCACGCTGGAGGTCGCCGGTGAGCATGTCGCCCTGCGCAGCGGCGACCACCTGTTCCTCGCAGCCGGCACCCCGCACACGGTGTGCGAGGTGTCGGAAGGGGCGTTGTGGTTGGCGGTGCATCTGCACGCCTGA	MVPANLFADAHPPTEGERFETLLAHRNLMIERIISSARITPHAYVQAQDEWVLMVHGEATLEVAGEHVALRSGDHLFLAAGTPHTVCEVSEGALWLAVHLHA				NA	NA	NA	NA	NA
BMS020_05544	201			hypothetical protein	ATGACCCGCGCCAAGACCCCTTATGTGTCCACCAAGACCTCCGAGGCGAAGATCTCCGGAACCAGCATCAGCGAGCATATCGCGGCCTTCGAGAAATCCGGCGGCAAGATCGAGGTGCTGGGCAATACCCCGATGCATTCTCCGCGGACGCTGAAGGCGGCTGCCGGCGGCCACGACCCGGGGGACAAGTCCGCCTCCTGA	MTRAKTPYVSTKTSEAKISGTSISEHIAAFEKSGGKIEVLGNTPMHSPRTLKAAAGGHDPGDKSAS				NA	NA	NA	NA	NA
BMS020_05545	672			hypothetical protein	ATGCCGGGCTATTCCACCCGTAACGACGCCGTCTCCATCGGCGGCCAGGTCTATCGCCTGCGCGTGCTGAGCGACAAACAGCAATGCTCCGCGCCCGGTGGGCATGCCGCACGGCTGGGCATCTCCTACTCGCAGTGGTACCTGTTCGGCCAGGTCTGGCCATCCGCACGCCTGCTCGCCCAGGCGATGAACAGGTTCGACGTCGCCGGCAAACGCGTGCTCGAACTCGGCTGCGGCATCGGCCTGGCGAGCCTCGTCCTCCAACAGCGCGGCGCTGATGTGGTCGCCTCGGACATGCATCCACTCGCCGAGCCCTTTCTGGCCCACAACGCAGCGCTGAATGCGCTACCCGCCGTGCGCTACCGGCAGCTGCGCTGGGATGTGCCGTTGCCGTCCCTGGGCCACTTCGACCTGATCATCGCCAGCGATGTGCTCCAAGGGATGGAACACGCAACGCTGCTGGCTGGCATCGTGGACCGTCACGCGCATCCGCAAGCGGAGGTCCTGCTGACCGATCCCGGCCACGGCAACCGCGACCGATTCAGCCGCTTGATGGACACGCGTGGGTTCACCCTGCTGGAAGAAGCGTGCCCAATGGACGACCGCGACATGCCGCCTTACCGGGGCCGGTTGCTGCATTACACCCGCGGGATACGCCAGGTGCATCCATGA	MPGYSTRNDAVSIGGQVYRLRVLSDKQQCSAPGGHAARLGISYSQWYLFGQVWPSARLLAQAMNRFDVAGKRVLELGCGIGLASLVLQQRGADVVASDMHPLAEPFLAHNAALNALPAVRYRQLRWDVPLPSLGHFDLIIASDVLQGMEHATLLAGIVDRHAHPQAEVLLTDPGHGNRDRFSRLMDTRGFTLLEEACPMDDRDMPPYRGRLLHYTRGIRQVHP				NA	NA	NA	NA	NA
BMS020_05546	291			hypothetical protein	ATGAACAGCTGCACGCGCTGCGACGCGGTCTGCTGCCGCCTGACAGTGGTGGTGCAGCCGGAGGATCGGATCCCGGCGCACCTGACCACCTCGCTCGGCGGGATCACCATCATGGCCCGTGACGAGGAGGGCTGGTGCGTTGCCATTGATGGCGCGCGGATGAACTGCGGCATCTACCAGACCCGCCCCGATGTGTGCAGAAGATTCCGCATGGACGGCAGCTACTGCGTCGCGGTACGCGAAGACTATGCCCGCGATCGCGCACGCGGAATTCCCCTGCTGCTGGAATGA	MNSCTRCDAVCCRLTVVVQPEDRIPAHLTTSLGGITIMARDEEGWCVAIDGARMNCGIYQTRPDVCRRFRMDGSYCVAVREDYARDRARGIPLLLE				NA	NA	NA	NA	NA
BMS020_05547	747	fabG_11		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGGGCAAGCTTGCAGGCAAGGTGGCAGTGGTGACGGGCGCATCGAAGGGCATCGGTGCGGGGATCGCGGTGGCGCTGGCGGCCGAAGGGGCCGCAGTGGTGGTGAACTATGCGTCCAGCCGCAGCGGGGCCGATGCGGTGGTCGCACGCATCACCCAGGCCGGCGGACGCGCGGTTGCGGTGCAGGCCGACGTCGCCAGGGGTGACCAGGCGCAGGCGCTGATCGCGGCCGCGGTGGCGCAGTTCGGCCGGCTCGACATCCTGGTCAACAATTCCGGCGTGTACGAAGTGGCGCCGCTGGAGGACATCACCGAGGCGCACTTCCGCCGCCAGTTCGACGTGAACGTGCTGGGGCTGCTGCAGGTCACCCAGGCGGCCGTCCCGCATCTGGGCGACGGTGCCAGCGTCATCAATATCGGCTCGGTGGTGAGCACGATGACGCCGCCGGGCATGGCGGTCTACACGGCAACCAAGGGCGCGGTGGACGCCATCACCGGCGTGCTGGCGCGCGAGCTGGGACCGCGCGGGATCCGCGTCAACAGCATCAACCCTGGCATGGTCGATACGGAAGGTGCGCAGGCCGCCGGCTTCGTGGGCTCCGAGTTCCAGGCGCAGATCGTCGCGCAGACCCCGCTGGGGCGCATCGGCACGCCGGCGGATATCGCCTCGGCGGCGGTGTTCCTGGCATCGGATGCTGCGGCGTGGCTGACCGGCGAGCTGGTCAAGGCCGGGGGCGGGCTGCGCTGA	MGKLAGKVAVVTGASKGIGAGIAVALAAEGAAVVVNYASSRSGADAVVARITQAGGRAVAVQADVARGDQAQALIAAAVAQFGRLDILVNNSGVYEVAPLEDITEAHFRRQFDVNVLGLLQVTQAAVPHLGDGASVINIGSVVSTMTPPGMAVYTATKGAVDAITGVLARELGPRGIRVNSINPGMVDTEGAQAAGFVGSEFQAQIVAQTPLGRIGTPADIASAAVFLASDAAAWLTGELVKAGGGLR	PGPT0003180_12897	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
BMS020_05548	942			hypothetical protein	ATGAGTGAACAGATCCCGGGCGTGGATGGCGACGGCGACGTGTACAAGACGCTGCTGGAGTCGACCAGGGCGATTCCGTGGCGTATCGACTGGCAGAGCATGAGCTTCAGCTACATCGGCCCGCAGATCGAGGAGCTGCTGGGCTGGCCGCAGGGAAGCTGGGTGGGCATCAACGACTGGGTCGAGCGCATGCACCCGGACGATCGCGACTACGTGGTGAACTTCTGCGTGTCGCAGTCCAAGGCCGGTGTCGACCATGAGGCCGACTACCGCGCGCTGACCGCGTCCGGCGAATACGTGTGGATCCGCGACGTGGTGCATGTGGTGCGCAAGGACGGCGAGGTCGAGGCGCTGGTCGGCTTCATGTTCGACATCAGCGAGCGCAAGAAGACCGAGGAGCACCTGATCCGCCTGCAGAAGCAGCTGGAGGAGCTGTCCTACCAGGACGGCCTGACCGGCATCGCCAACCGGCGCATGTTCGACACCGTGCTGGAGCGCGAATGGGCCGCGGCCCAGCAGGCCGGCACGCCGCTGTCGTTGATCATGTTGGATATCGACTACTTCAAGCAGTACAACGACCACTACGGCCACATCAAGGGCGACGAGGCGCTGCGCACGGTGGCCAAGACCCTGGCGCAGGCGACCAACAACCCCAGGGACTTCGTCGCCCGCATCGGCGGCGAGGAGTTCGTCTGGCTGTTGCCGGAGACCTCGGCGGCCAAGGCGCGCCAGGTGGCGGAGAAGTGCATGCAGCTGGTGCGCCAGCAGGAGATCGCGCATGCGCGCTCGGAGGTCTCGCCCTTGCTGACGCTGAGCCTGGGTGTCGGCACCGCGACCCCCGGTGCGGAGGCGACGGCGCTGGCGTTCATCGGCGAGGTCGATGTGCTGCTGTACCGGGCCAAGCGCAATGGACGCATGCGCGCCGAGTACGGGGTGTTCTGA	MSEQIPGVDGDGDVYKTLLESTRAIPWRIDWQSMSFSYIGPQIEELLGWPQGSWVGINDWVERMHPDDRDYVVNFCVSQSKAGVDHEADYRALTASGEYVWIRDVVHVVRKDGEVEALVGFMFDISERKKTEEHLIRLQKQLEELSYQDGLTGIANRRMFDTVLEREWAAAQQAGTPLSLIMLDIDYFKQYNDHYGHIKGDEALRTVAKTLAQATNNPRDFVARIGGEEFVWLLPETSAAKARQVAEKCMQLVRQQEIAHARSEVSPLLTLSLGVGTATPGAEATALAFIGEVDVLLYRAKRNGRMRAEYGVF				NA	NA	NA	NA	NA
BMS020_05549	1602			hypothetical protein	ATGGATGACCAACGTAGCGAGAATTCAGTTGCCACCGCGCGTGCCTGGACGCAGGGCAACATCGCCGGCCTGGACGACAGCATGACCCGGCGGCTGGTGGCCTCCACCGTCTATACCGAGAGCAACGGCGGCGATCTGCAGATCACCAATACCCAGGGCTATGTCGGCCGCTACCAGGCCGGCGCCGGCTGGCTGGCCGACGCGGGCCTGGTCAACCAGCAGCGCTACCAGCAGGCGCTGCAGCAATCGGGCTTCAGCCGTGAGTGGGACTGGGCGGTGTCCGGTGGCATGACCCAGTTCCTGGAGAATCCGGACAACTGGAACAACGGCCTCAGCCTGGAGCAGTACAAGGCCTCGGCCGAGGTGCAGGATGGCGCTTTCAAGACCATCAGCGATGCGGCCTACCAGCAGGCGATGAACACCGGCGTGCTGCATGAGGGCGACACCCAGGAACACGTCGCCGGCATCCTGAAGGCGCGGCACATCTCCGGCGCAGGTGGTGCGGCGCAGGTGGTGCAGGGCAGTTCGGTGGCCGATTCCAATGGCACCAGCAATGCCGATTACTACAACGACATCGCCATCAACCAGGATCGGCTGGACGCACGGATGGAGCTCGATCCGGCGCGTGATCGCAGCGTGCTGATCCGTGGCGCGCTGCAGGACAGCCAGCTGGCGCAGGGCGAGAAGGGCGAGGGCGTGCGCCAGCTGCAGGAGGCCTTGGCCGCGCGCGGCTACGACCTGGGCACCGTGGACGGCAAGTTCGGACCGACCACGGCGCAGCGTGTGCGCGACTATCAGCAGGCCGAGGGCCTGCCGGTGACCGGCGTGGCCGATGCGGCGATGTTGTCGACGCTGGGCGTGGGCGAGCACATCCATCAGATGCCCGATGGCGCCTTGCGTGATGGCCGCCTGGAGCGCGGCGAGAAGGGCGATGGCGTGCGCGCGTTGCAGCAGGCGCTGCGCGACAACGGTGAGCAGGTCAGCGTGGACGGCGATTTCGGCTCGGGCACGCGCAGTGCCGTCGAGCGCTATCAGCAGGGCGCGGGGTTGCCCGTCACCGGCGTGGCCGATGCCGCGACCCTGCAGTCGCTGGAGCTGGGCAGCCTGTTGCAGCAGCCGACCCAACAGGCGCAGCCAGCGCCGTCGCAGCCGGCACCTGCCGAGGCCGCGACGCCGTCGCCGCCGGCGGACGCAGCGCAGCCGGCACCCTCGGCCGAGCGGCCACTGAGCATGGCCGACGCCGCGCATCCGGACCACGCGATGTACACCGACGTGGTCGGCAAGCTGGAAGCGCTCGGCGAGCGCGGCACGTTCCAGGGCCGCGAGGCATTGGAGCGCACCGCAGGCCAGATCGTGCTGGAGGCGCGGGTCAGTGGCCTGCAGCAGGTCGACCACGTGGTGCCGAGCACCAGCGGCGGCTTCATCGCGGTCGAGGGTGAACTGCGCGATCCGGGGCATCACCGCATCTATGTTGGCCAGGACCAGGCGGTCAGCCAGTCGGTCGAGCAGAGCAGCCGCCAGCTGGAAAGCCTCACCGCGGACATGCAGCGAACCCAGGCACAGGAGCAGGTGCAGAGCCAGGCGCGCAGCATGGCGATGTGA	MDDQRSENSVATARAWTQGNIAGLDDSMTRRLVASTVYTESNGGDLQITNTQGYVGRYQAGAGWLADAGLVNQQRYQQALQQSGFSREWDWAVSGGMTQFLENPDNWNNGLSLEQYKASAEVQDGAFKTISDAAYQQAMNTGVLHEGDTQEHVAGILKARHISGAGGAAQVVQGSSVADSNGTSNADYYNDIAINQDRLDARMELDPARDRSVLIRGALQDSQLAQGEKGEGVRQLQEALAARGYDLGTVDGKFGPTTAQRVRDYQQAEGLPVTGVADAAMLSTLGVGEHIHQMPDGALRDGRLERGEKGDGVRALQQALRDNGEQVSVDGDFGSGTRSAVERYQQGAGLPVTGVADAATLQSLELGSLLQQPTQQAQPAPSQPAPAEAATPSPPADAAQPAPSAERPLSMADAAHPDHAMYTDVVGKLEALGERGTFQGREALERTAGQIVLEARVSGLQQVDHVVPSTSGGFIAVEGELRDPGHHRIYVGQDQAVSQSVEQSSRQLESLTADMQRTQAQEQVQSQARSMAM				NA	NA	NA	NA	NA
BMS020_05550	729			hypothetical protein	ATGCGTAGCGCCAAGACGATCAAATTCTCATGCCTGCTGCTGGCCGCCTCATTGGTGGCGGCGTGCCAGGCCGGGCAGGATTCCAATGCGGCTCCGGCCTCCGCAGCAGCAGGGGCGGCCGATGCCCCCGCGGTGCATGCCGAAGCTGCGCCTGCAGATGCCACGCCCGCCGCGACGCCGGTCGAGGCTTCTGCGCTGCGCGCTGCGCTGGTGCTGCTTGCCGCCTCGCAGCCGCCGTCGTGGGCGCAGGTGAAGGCGAGCGCCGGCCTGGGTGAGCTGGTACCGGCAGACGGTGTCCGCGTCTATCCGGTCGGCGTGCGTGGCAAGACGACGCTGGCCGGCTTCGGCGAGGCGGCGTTGCCGGATGGCCAGGTCGGCGCCGGCGCTGCAACGCGGACTGGCAACGAAGGCGAGGCCAGCGTGACCTTTGCCGGCGATACCGCGACCGCCCTGATGGTGGTGGTGCGCAAGTTCTACCCGCGCAGCGATTACGCCAAGGTGCTGCGCGCGCAGTTGCACGCCGGTGACCGGCTGGTGCGTCGCGATGGCGTCTGTGACGACGCGGCCGCGGCACCGTCGATGGAGTACTGGTTGGCGCTGGAAGGCGCCGCGCGGCCGCTGGCCGTGACCGCGTCGACGCTGGATGGCGGCAACAGCGGGCCGGGCTATACCGATTTCGAGTTCCGGCGCGCGGGCGCCAACGTCAAGCTGGCGCAGTGCGATCGCTGA	MRSAKTIKFSCLLLAASLVAACQAGQDSNAAPASAAAGAADAPAVHAEAAPADATPAATPVEASALRAALVLLAASQPPSWAQVKASAGLGELVPADGVRVYPVGVRGKTTLAGFGEAALPDGQVGAGAATRTGNEGEASVTFAGDTATALMVVVRKFYPRSDYAKVLRAQLHAGDRLVRRDGVCDDAAAAPSMEYWLALEGAARPLAVTASTLDGGNSGPGYTDFEFRRAGANVKLAQCDR				NA	NA	NA	NA	NA
BMS020_05551	402			hypothetical protein	ATGATCGCCTTTCGTTTCATCCTTGCTGCCGGCGCCCTGTTACTGGTCGCCTGCGCGTCAGCCGCCGAGCCGAAGGATCCAGCCTGGACCAGCTATCCCAAGCAACTCCATGGCAACTGGATGCCGCAGGACATGGCTTGCCCGGTCCCCATCAACCACGATGGCGATGCGTTGGTGGTGATCTCCGAGAAGGTCCTGAACAACTACGAAGACTCCAGCAAGCCTTCTCGGATTTCCGAGATCAAATCCGGGCCTGGCCCGTTGGTGTGGTCAATTGACTCCTACCTCAATGTCGCCGGGGACGGATACGACACCAACGTTACCGAGATCTTCCTGCTCGCAGGCGACCAGCTGGTGATTGCCGACAAGGAACGGGTAAGAACCTTCCACCGCTGCCGCTAG	MIAFRFILAAGALLLVACASAAEPKDPAWTSYPKQLHGNWMPQDMACPVPINHDGDALVVISEKVLNNYEDSSKPSRISEIKSGPGPLVWSIDSYLNVAGDGYDTNVTEIFLLAGDQLVIADKERVRTFHRCR				NA	NA	NA	NA	NA
BMS020_05552	378			hypothetical protein	GTGCGCAGCGCCGGCGGCAAGGCCAGCGGCTACAGGAAGTTCAAGTTCGCCGCGGCGCATTCCAAGTACATGCACGATGCCATCGCCAAGCGCATCAACAAGGTCGATGCCGCGCCGTTCTGGGGCTACCGGCTGCACGAGGTACGGCCCGAGATCGGCGACATCGTCTGCAAGTGGCGCGAGACACCGCGCGACTACGACGATGCCGCCGCCAGCGATGCGTTCAAGAGCCACGGCGACATCATCGTCAGCGTGCGCCCCGACTACGTGCTGGCGATCGGCGGCAACGTGCGCAACTCAGTGAACATCACCCGCTACAGGAAGACCGGCGCAGGCTACCTCGCCCCGCAGGACGGGGTGTTCATGCACCTCGTGTAG	MRSAGGKASGYRKFKFAAAHSKYMHDAIAKRINKVDAAPFWGYRLHEVRPEIGDIVCKWRETPRDYDDAAASDAFKSHGDIIVSVRPDYVLAIGGNVRNSVNITRYRKTGAGYLAPQDGVFMHLV				NA	NA	NA	NA	NA
BMS020_05553	627			hypothetical protein	ATGAGTGCGACTCACTCGAAAAGCGCGTTCCTGTACACGCAGGTCCGGCGGGCGCTGCAGTCCGGCAGCTATGCGCCCGGGCAGCGGATCGACCCAGCCACACTCGCCAGGCACTTCAAGACCAGCGCCACGCCGGTGCGCTTCGCGCTGTACCGGCTGGTCGGCGAAGGCATGGTGGCCGACCACGCCCGTGCCGGGCTGCATGTTCCGCTGCTCACCGAAGTGGCGATGCGTGACCTGTACGACTGGATGCTGCGCCTGCTGCTGATGGCCTGCGACCTGGTAGCGACACCATCACCAAGACAGGCGACGCGCGGCGAGTCCATTGTCGACCCCGATGTGGTCAAGCTGACCTGGAAGCTGTTCGACGCCATTGCCGAATCCACCGCGCATCGCGCCCTGCACCAGGCGGTGAGGCGGGCCAACGATCAGCTGGCGCCGATCCGCCGCGCCAAGCAGCCCCTGCTCGAAAGCACCTTTACCGAGTTCGATGCCCTGGACCAGTTGTGGAAGGCACGCGAGATCCCCGCGCTGAAGGCCGCTTTAGGCGCCTATCACGAACGTCGCAAGGAGCTGGTGCCGCGCATCGTGGCGTCACTGAGCGACCACAGGGAATTGCTGCGCTGA	MSATHSKSAFLYTQVRRALQSGSYAPGQRIDPATLARHFKTSATPVRFALYRLVGEGMVADHARAGLHVPLLTEVAMRDLYDWMLRLLLMACDLVATPSPRQATRGESIVDPDVVKLTWKLFDAIAESTAHRALHQAVRRANDQLAPIRRAKQPLLESTFTEFDALDQLWKAREIPALKAALGAYHERRKELVPRIVASLSDHRELLR				NA	NA	NA	NA	NA
BMS020_05554	141			hypothetical protein	ATGGACACGAACGAGAACGCCCGCACCCACGTGCAGGATGAAGTGATCGAGCTCGGCGTCGCCAGCGTCGAGACCAGGGGCCAGATGGGAATCACCGAGAACTTCGGTGCGGTTCCCCTCGACGGCATCTCCGATGCCTGA	MDTNENARTHVQDEVIELGVASVETRGQMGITENFGAVPLDGISDA				NA	NA	NA	NA	NA
BMS020_05555	678			hypothetical protein	ATGGCCGTGCTGCGGGTGAATGACGACCTGTCCTACTGCATGGTCGATGGGCATCTGATCTTTCTGGACATCGGGCGCGACCGCTACTTCCGCCTCTCGCGCTCATTGGAATCCTCGTTCATCCGCTACCTGCAGGACGACGACATCCACGCCGGTGGCATCTCCCGGCTGTTGGAGCAGCGGGTACTGACGGATGTGGTGCCCAGCCACCACCCACCCATGCGGCGAGTGCCGACCAGCCCAACGCACAGTGCGCTGGAGATGACGACGGCATCCACCCGAGCGACGTCCACGCCCGCCATCGAAGTAGCCGCGCTGGTCCTCTCCACACACATCCAACTGAGAACACGGAAGCTCAAGCGCGTACTCGACCGCCTCCACCGCCATCGCGACGGCAGCCCATCCATGCCAGCGCCGTCGTCGAACGAAGCACTCCGGGCAGCATGCTGGACAGAGGCGTTCCGAGGCGCCCGTGCGCTCGTCCCCATCGATACCCGCTGCCTGCCCGACTCGATCGCCCTCGCCCGATTCCTGGCAAGGCGGCAGCTTTGCGTAGACCTGGTGTTCGGCGTCACCAGCGAACCGTTCTCAGCGCATTGCTGGGTGCAGTACCAGGGCATCGTCCTCAACGACACGCTGGACCACGTCCACGCGCATACGCCGATCCGGGTGGCCTGA	MAVLRVNDDLSYCMVDGHLIFLDIGRDRYFRLSRSLESSFIRYLQDDDIHAGGISRLLEQRVLTDVVPSHHPPMRRVPTSPTHSALEMTTASTRATSTPAIEVAALVLSTHIQLRTRKLKRVLDRLHRHRDGSPSMPAPSSNEALRAACWTEAFRGARALVPIDTRCLPDSIALARFLARRQLCVDLVFGVTSEPFSAHCWVQYQGIVLNDTLDHVHAHTPIRVA				NA	NA	NA	NA	NA
BMS020_05556	1722			hypothetical protein	ATGTCCGGTGACTATCTCATCCTGCTTGGCAAAGCATCCTTCGACCAGCTTCCGCCCGACCTCGGTCTACAGGTTCGTTATGCAACAGACCAAGCCACCCTGCTTTGCGACGACGCACTTTCCGTGCTGACGCTGCCCGATGGCAGCGTGCTCATCGGCCATCTCTTCAACCACGACGGCACGCCCGTCGATGTTGATGTGTCATTAGGTTCAACCAGCGACACGGAAGCGGTGCAGCAGTACATCCTCTCTCGCTTCTGGGGCACCTACCTGCTCATCCAGCCGGGCACGATGCACGCGCCAGCGCTCCAAGTGATCCGCTCCGCCACCGCCGCGGGGAACCTGCCATGCGTCTATTCGATGGCCGACGGGTCCGGCTTCATCACGTCCGACATCCTCCTGGCGGAGCGGGCTGGTCTCTACCACAGGCGGATCGACTGGACCTTCATCGCGCATCGTCTGCGCTATCCGGACATCAAGACGCAACGTACCGGGCTGGAAGGTGTGAACGAGCTGCTGCCCGGCTGCAGGCTGGTCATCGACGGTGAGCGCACGTGGGTACAAACCGCGTGGTCGCCATGGACCTTCGTGGCACCGGAGCAGCGATTTGATGACCCGCGCGAGGCCGCCGCGGCGATCCGCGCCGCAGTGACGGCATCCGTCCGTGCCTGGGCCAGTATCGACACCTCGATCCTGCTGGAGCTGTCCGGCGGGCTGGATTCGTCCATTGTTGCGGCTTGCCTGGGCGAAAGCCAGGCAGACGTCACCTGCTACAACCTGGTCACGCCAGTGCCGGGCGTCGACGAGCGCCACTATGCCGCCTTGATGGCCGACCAGTTGGGCGTACCGCTGCATACCGAGCATCTGGCACTCGATGGCGCCCGGTTGGATTTCGACATCTCCGCATCGGCGTTCGCACCCGGCGTTGGCCTGCTGCAGTTCACCATCGACCAGATCATGGAGCGTGCCGCCGCCCACCATGCCGCCACGGCCTACCACTCCGGCGGCGGGGGCGATTCGGTGTTCTGCTACCTGCGGACCGCGGCACCAGCCGCCGATGCATTCAAGGCGGCGGGAGCAACGGTGGCATTGAACGCCATCCGTGATCTGGCGCAGCTGCACCAATGCACCTTGTGGAAAGCCGCCTGGCTGACGTTTGCCAAGCTGCGCCGGCCACCGCGTTCGCCGTTCCGCGAAGTGCCGACCTTCCTTGCTGAATCCAGCCCGCGCCCGATGCCGGAGCTGCATCCCTGGTTCGCTACGCCACCCGATGCATTACCGGGCGACCGCGAGCGCATCTTCGACCTGGCCGGTAACCAGCTCTTCCAGGGACAGGCACCACGCGCGGCCAGAAGGCCCCTGCGCTTTCCGCTGCTGACCCAGCCGGTCATGGAAGCCTGCCTGCGTTCGCCGAGCTGGATGTGGATCAGCGGCGGTCGCAATCGCGCTCTCGTGCGGGACGCGTTCGTCGATTGCCTCCCGGCGGACATCCTCAACCGGAGGAGCAAGGCCACCTACATGGCCTACCTTGGCGCAATCTACACACGCAACAGACACCAGATCGGCGAGTTCCTGTTGTCCGGGCGCCTCCATGCGCAGGGGTTGCTAGATGGCCCCGCCATCACCGCGTTCCTGGCAACGCAAATGGCACCGCGCGACCAGACGTTCCTGCGCATGTTCGACCTGTGCATGGTCGAGAACTGGGTACGGCAGCAGCCCTGA	MSGDYLILLGKASFDQLPPDLGLQVRYATDQATLLCDDALSVLTLPDGSVLIGHLFNHDGTPVDVDVSLGSTSDTEAVQQYILSRFWGTYLLIQPGTMHAPALQVIRSATAAGNLPCVYSMADGSGFITSDILLAERAGLYHRRIDWTFIAHRLRYPDIKTQRTGLEGVNELLPGCRLVIDGERTWVQTAWSPWTFVAPEQRFDDPREAAAAIRAAVTASVRAWASIDTSILLELSGGLDSSIVAACLGESQADVTCYNLVTPVPGVDERHYAALMADQLGVPLHTEHLALDGARLDFDISASAFAPGVGLLQFTIDQIMERAAAHHAATAYHSGGGGDSVFCYLRTAAPAADAFKAAGATVALNAIRDLAQLHQCTLWKAAWLTFAKLRRPPRSPFREVPTFLAESSPRPMPELHPWFATPPDALPGDRERIFDLAGNQLFQGQAPRAARRPLRFPLLTQPVMEACLRSPSWMWISGGRNRALVRDAFVDCLPADILNRRSKATYMAYLGAIYTRNRHQIGEFLLSGRLHAQGLLDGPAITAFLATQMAPRDQTFLRMFDLCMVENWVRQQP	PGPT0020150_4817	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953	NA	NA
BMS020_05557	2085			hypothetical protein	ATGACGTTCGGCTCGGGTAGGGCGCTGTGGCTGTGCTGCGGCGTGGTGAATGGATTGGCAGCGTTCCTCGCCGCGGAGCCGGTGCGTGCCACCTCGCCGCGGCAGCTGGTGGAGATCACCGATTTCGCAAGCCCGGTGGTGTCGCCGGACGGCGCGCTGGTGGCGTTCCGGGTGATGCGGGCCTCGGTGGAACGCAACAGCTACGCCGCGGACTGGTATGTGCAGCGCATGGATGGCACGACGCCGCCACGTCGCGTGGGCGATGGCGGGGTGCCGCTGCGTGATTCCGCAGGCGTGCCGCAGCCGGCCGTGCCGGTGTGGTCGCCGGATGGGCGTTGGATCTACTACCGCGCGATGGTCGATGGTGGCATCGACGTGTGGCGTGCATCGGCTGATGGCGCGGCGGTGGAGCGCGTCAGCGAAGGGAATGCCGATGTGCGTGACTTCTGGCTAAGTGCCGATGGCGGCACGCTGTCGTACAGCACCGGCCCGGCACGCGATGCGGTGGCCGCGATGGAACAGCGCGAATACGACGCGGGCATCCGCGTGGATCGCACCACGCCACTCGGCCAGGGCTTGTTCCGCTCCGGCGTTACCGAGGGGCGCCCGGCAACCCAGCGCCTGGGCGTGATGTTCAACCGGGTCGGTCTTGCCGACGCGGTGCCGGACCATTGGAACCATGTGCAGCTCGCCACCGGCGTGGTGCGCGACGGCGCTGCGCAGCACCACCCACCTGCGCCGCTGGCGCCGGCCGATCTTGCCAACGGTGTGCGCGACGTCTGGAAGCTTGAGCGCGATCCTGCAGCCGGGCGCATCGCGCTGCTGACGCGTAGCGCGGCAACAACCGATGCACCGCGCGTGGTGATGGGGCTGCTGCAGGATGCGAAGGCGCGCAGATGGAGCCCGTGTACTGCGCCGGCATGCACCGGCAAGGCGATCAGCGCCGTGCAGTGGCGGCCCGGCACGGACGAAGTGGTCTTCACCGTCACCGCCTACGACGACGGCTTCGCGCAATCGCTGCACCGCTGGAACGTCGTCACCGGGCAGGTGCAGCCGGTCGCCTCGTCGTCCGGCATGTTCGCGGGCGAGGACCGCTGGGGCGCCGGCCGTTGCGGCGTATCAATGGGAGCGCTGGCCTGTGTGACCGCCGATGCGGGCCGCCCACCGCGTCTGGAGCGGGTGGACCTGCAGAGCGGGGCACGCACCATTCTGTTCGACCCCAATGCCGCATTGGCGCAGGATCTTGCAGACCTGCCGGTAGAGCTTCTGCGCTGGCAGGACGCGCAAGGGCGGTGGTTCACCGGGCAGTTCCATCGCGCCCGCCACACGGGCGGCGCGCCATCACCGCTGTTCGTCACCTATTACCGCTGCATGGGCTTCCTGCGCGGCGGCTCCGGCGACGAATGGCCGCTGGCGGCGATGGCGGAGCAGGGCATCGCCACGCTGTGCATCAACGCACCCGCGTTCCCGGCGGATGCGGCGGAGCGCTATGGACTCGGGCTATCGGCCGTCACCAGCGCGGTGGACCTGCTGGCATCACGCGGCCGCATCGATCGCCAACGCGTGGGCATGGGCGGCATCAGCTTCGGCAGCGAGGTGACGATGTGGACGCTGCTCCACTCCAGGCTGCTGGCCGCCGCATCGATGGCATCACCCACCACCTCACCGCTGTATCGGCTGCTCGGCAGCAATATCGGCGATCCCTTCCTACAGCTGTTGCGCAGCAACTGGCAGCTGGGCAGCCCCGACGAGACACCGGCGCAATGGCGGGCGATCTCGCCGACCGACAACCTGCCGAACATCAACGCCCCGATCCTGATGCAGTTCTCCGAACAGGAATACATGCACGGACTCGACTACGCCATCCCGCTGATGCAGGCACAGCGCGCCGACCTCTACGTCTTCCCCAACGAGCCACACAACAAGTTCCAACCCCGCCACAAGCTCGCGGCATACCAGCGCAACCTGGACTGGTTCCGGTTCTGGCTGCAGGGCTACGAGGATGCGGATCCGCGCAAGGTCGGGCAGTACCAGCGTTGGCGGGAGATGCGGGTGGCTTGGGACCCGGACAATCCCACAAACTGA	MTFGSGRALWLCCGVVNGLAAFLAAEPVRATSPRQLVEITDFASPVVSPDGALVAFRVMRASVERNSYAADWYVQRMDGTTPPRRVGDGGVPLRDSAGVPQPAVPVWSPDGRWIYYRAMVDGGIDVWRASADGAAVERVSEGNADVRDFWLSADGGTLSYSTGPARDAVAAMEQREYDAGIRVDRTTPLGQGLFRSGVTEGRPATQRLGVMFNRVGLADAVPDHWNHVQLATGVVRDGAAQHHPPAPLAPADLANGVRDVWKLERDPAAGRIALLTRSAATTDAPRVVMGLLQDAKARRWSPCTAPACTGKAISAVQWRPGTDEVVFTVTAYDDGFAQSLHRWNVVTGQVQPVASSSGMFAGEDRWGAGRCGVSMGALACVTADAGRPPRLERVDLQSGARTILFDPNAALAQDLADLPVELLRWQDAQGRWFTGQFHRARHTGGAPSPLFVTYYRCMGFLRGGSGDEWPLAAMAEQGIATLCINAPAFPADAAERYGLGLSAVTSAVDLLASRGRIDRQRVGMGGISFGSEVTMWTLLHSRLLAAASMASPTTSPLYRLLGSNIGDPFLQLLRSNWQLGSPDETPAQWRAISPTDNLPNINAPILMQFSEQEYMHGLDYAIPLMQAQRADLYVFPNEPHNKFQPRHKLAAYQRNLDWFRFWLQGYEDADPRKVGQYQRWREMRVAWDPDNPTN				NA	NA	NA	NA	NA
BMS020_05558	2373	btuB_10		Vitamin B12 transporter BtuB	ATGGGGAAGCGACTGGCAGGGACGCATCACACTCGATCCACCTTGAAGCAGAAGACCTTGGCCGCGGCGGTCCTTGCATGGCTGCCGCTGTACGGAATGGCGGCACAGGAACCACAGGCTGCCGACGCGCAGGATGCGGCGAAGTCCGCGACGGAGTCGGCGGCGACGGAGCTGGAAACCATCGTCGTCACCGGCACCCGCATCCGCGGCGGCACCACGCCCTCGCCGGTGGTGACGATCGATAGCGAGCGCATCCGCGAGGAGGGCTTTGCCGACCTGGGCGAGGTGGTGCGCAGCCTGCCGCAGAACTTCTCCGGTGGGCAGAACCCGGGCATCGCCGCGGGTGCCACCGGCGGCGGGCAGGGCAACCAGAACATCACTGGCGGATCCGGCCTGAACCTGCGCGGCTTGGGCCAGGATGCGTCGCTCACGCTGCTCAATGGGCGCCGCATGTCCTACGGCGGTTTCGTGCAGATGGTGGATATCAGCGCCATCCCGGTGGAGGCGGTGGACCGCATCGACATCGTCGCCGATGGCGCCTCGGCCATCTATGGCTCCGATGCGGTGGGTGGTGTGGCCAACATCATCCTGCGTCGCGACTTCGACGGCGTGGAGGTGGGCAGCCGTTACGGCACCGCCACCGATGGTGGATTGACCACGCGCGAGTACACCGCCACCGGCGGTGCCCGCTGGCAGAGCGGTGGGCTGATCGCCACCTGGAAGCACAGCGAGAACGATCCGATCCGCGCCGACCAGCGCGACTACGCGCAGGACATGTATGCCCCCTCCACGCTGTACCAGGGCGGCGAGCTGCGCAGCGGCCTGCTCAGTGCCCACCAGAGCCTGGGGGAGCTGGCGGAGCTGACGCTCGATGCCTTCCGCACACAGCGCAGCATCAGCACCGATCTGGCGTACGCCAGCAACTACGAGCACAACGCACCGGAGACGACCACCTCGCTGCTCGCCCCGGGGCTGGAGGTGTATCTGCCGGGCGACTGGGCGATGTCGCTCGGTGGCAGCTGGGGCCGCGAGGCCACCGATGTGGACTACACGGTGGTGGTACCGGCAACAGGCAGTGCCACGGTGTCGCGCACCGCTTACCGCAACCGTAGCCGCGCCTACGAGCTGGGCGCGGAAGGGCCGCTGCTGGCGCTGCCCGGCGGCGATGTGAGGTTGGCGCTGGGCGTGGGCTATCGCTCGAATGCGTTCGAAAACCGCAACCTGGTGAGCGGCTACACCCAGGTGGATGGCGAGGTGGGCAGCCGCTACGGCTATGCCGAATTGAACGTGCCGCTGGTGGGGCCGCAGCAGGATGTGGCGGGCGTGCGGCGGCTGAGCATCACCGGCGCGGTGCGCGGCGAGGACTACGACAGCTTTGGCGGCGTGAGCACACCCAAGTTCGGAGTGATCTACGGCCCCAGCGATGACGTCACCGCCAAGCTGTCGTGGGGCAAGTCGTTCAAGGTGCCCACCTTGTCGCAGCAGTACCTGGTCGGCGACGCCATCCTGTTCCCGGCGGCGGTGCTCGGTGCCACCGGCTATGCCGCGGATGCGACGGCGGTGCTGATCGGTGGCGGCAGCACCACGCTGCGTCCGGAGCGGGCCCGCACCTGGAGTGCATCGCTGGCGTTTCATCCGCAGGCCGTGCCGGGGCTGGAGGCGGAGCTGAGCTGGTTCGATATCGACTACGAAGACCGCGTGGTGCAGCCGCTGGTGCCGGCGCAGGCATTGGGCAACCCGGCCTTCGCGCCGTTCATCACCTGGGCGCCGACGCAGGCGCAACTGGCCGAGGCGCTGCAGGGCTATCGCTTCATTAACGGCACTGGCGCCCCCTATGTACCTGCGCAGGTGGTGGCGATCGCCAGCAACCAGTATGTGAACACCGCGCGCCAGCGGGCCAGGGGCGTGGACCTGAGCTGCAATTGGCGGGTGGGGCTGGAGGCTGGGGCACTCACCTTCCGCGGTGCTCTCACCTGGCTGGACAGCACCCGGCAGGTGTCGGCCTGGCTGCCCAGCTACGATCTGGCCGGCACCTTGTTCCAGCCGGTCAAACTCAGCGGCCGGATGGGCACGGTGTGGCAGCAGGGCGGTTTCAGCGCGGCGCTGTTTGGCAACTACAAGGACGGCGTGACCAACACCGCGGACGGCACCGATGGTGCCTCGTTCACCACCTTCGATACCACGCTGCGTTACGACACCGGGGACGGTGCCGGCATGTGGTCCGGGCTGGCGTTCGAGCTTGCGGTGCAGAACGCCTTCAACCGCGCGCCCCCGCTGTACGCCACCACCACGCGGACGTATGCGCCTTACGACTCCACCAACTACTCGGCCATCGGCCGCTACCTGAGCCTTGCGGTGTCCAAGCACTGGTGA	MGKRLAGTHHTRSTLKQKTLAAAVLAWLPLYGMAAQEPQAADAQDAAKSATESAATELETIVVTGTRIRGGTTPSPVVTIDSERIREEGFADLGEVVRSLPQNFSGGQNPGIAAGATGGGQGNQNITGGSGLNLRGLGQDASLTLLNGRRMSYGGFVQMVDISAIPVEAVDRIDIVADGASAIYGSDAVGGVANIILRRDFDGVEVGSRYGTATDGGLTTREYTATGGARWQSGGLIATWKHSENDPIRADQRDYAQDMYAPSTLYQGGELRSGLLSAHQSLGELAELTLDAFRTQRSISTDLAYASNYEHNAPETTTSLLAPGLEVYLPGDWAMSLGGSWGREATDVDYTVVVPATGSATVSRTAYRNRSRAYELGAEGPLLALPGGDVRLALGVGYRSNAFENRNLVSGYTQVDGEVGSRYGYAELNVPLVGPQQDVAGVRRLSITGAVRGEDYDSFGGVSTPKFGVIYGPSDDVTAKLSWGKSFKVPTLSQQYLVGDAILFPAAVLGATGYAADATAVLIGGGSTTLRPERARTWSASLAFHPQAVPGLEAELSWFDIDYEDRVVQPLVPAQALGNPAFAPFITWAPTQAQLAEALQGYRFINGTGAPYVPAQVVAIASNQYVNTARQRARGVDLSCNWRVGLEAGALTFRGALTWLDSTRQVSAWLPSYDLAGTLFQPVKLSGRMGTVWQQGGFSAALFGNYKDGVTNTADGTDGASFTTFDTTLRYDTGDGAGMWSGLAFELAVQNAFNRAPPLYATTTRTYAPYDSTNYSAIGRYLSLAVSKHW	PGPT0003790_11155	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_05559	819			hypothetical protein	ATGCGCGAGGCGGGTCACCGGGCCGGGCCCGCGTATCAGGCTGGGGCGTGGGCCTGCGTGGCCGGTGCGCCGGCCTGGCACTGGCGAAACGATGGGTCTTGGCTTCGATCATGGCGCGCTGCCACCCATATCCCGCCGGACCTCATCGAGCCGCGGTACGCCGCGCATCCCGATGGGACATCGCTGATGCGCGCCGAGGCCTGCACGCGCTCACCCGGCACAGCTCCCACTGCTGCACCCAGGCCCAGGGGCGTCGGCCCTGTTGGCACGATTGAACGTATATCCATAGCCGATGGTGACCATGCCGTCGACTACGTCGCGCGGGCGCGCATGCAGCCCGACGGCGCCAGCCATCATGATGCGGAGGCGGTCGTGGCGACCCTTTTCGCTCAGGTCGAGATGGCCCATGCGACCTCGCTATACGCCGCTTTGAATGCTTCCCTACTTATTGCGCCACTGTGCTTGGCAGTCCGCAGAGGTCTGTGCGTGCTTCAAGGAAAGATCGTCCCGGAGCGATACTCGATCCAGCTTGTCGTCAATCGCGATGATGTCGATATCCTGGCCGGCTTCCCGGATGGTTGCTCCCAGCTTCCAGTGGATCTGCTTGCCGTCGAGTACCGCGTGAGCGACGTACTTCCCGCCACTGCGCCCGCTTTCCACTGTCAGGACCGCGCTGTTGCCGTTGGCAGATCCTGCGACCCTCCCGCCCTCATCGATCTGGGACAGCCCGATACGGGCGCTGTCATAGCTGCCGCACAGTCGGCTCCCGTCTTGGACGAGATCGAGGTTGAAGCCCCCGCACGCTGTATCGGGCCTTGA	MREAGHRAGPAYQAGAWACVAGAPAWHWRNDGSWLRSWRAATHIPPDLIEPRYAAHPDGTSLMRAEACTRSPGTAPTAAPRPRGVGPVGTIERISIADGDHAVDYVARARMQPDGASHHDAEAVVATLFAQVEMAHATSLYAALNASLLIAPLCLAVRRGLCVLQGKIVPERYSIQLVVNRDDVDILAGFPDGCSQLPVDLLAVEYRVSDVLPATAPAFHCQDRAVAVGRSCDPPALIDLGQPDTGAVIAAAQSAPVLDEIEVEAPARCIGP				NA	NA	NA	NA	NA
BMS020_05560	246			hypothetical protein	ATGAGCGACATATCCGAACGGATCTACGATCGGGCAACGGAGTATCTGGTCCACAGCCAGATCGAGACCGAGCAGGAACGGCAGGAGCGCGAACGCTGGCTGGCCGAGGACCCCCTGCATCAGCGGGCCTACGACGAGATGGTCGAGATCGACGCGCTGGTGACGCTTGCGGCGGCGGATGCCAACCTGCTTGCACGCGCCGCGCGGCATCTTGAAAAGCTGCGGAAGTTGCGGGGGAAGACGTAG	MSDISERIYDRATEYLVHSQIETEQERQERERWLAEDPLHQRAYDEMVEIDALVTLAAADANLLARAARHLEKLRKLRGKT				NA	NA	NA	NA	NA
BMS020_05561	570	fecI_1	COG1595	putative RNA polymerase sigma factor FecI	GTGACGCATGGACCCGATGGACCAGGGGATGAGGGCGGCAGCGAGGACGCGCGCGTACGACGCAGGGCCGTGTTCGACGAGGTGGTGGCGCGTTCGCGTGGGGATCTGCTGAAGTTCATGCGGCGGCGCATACGCGATGCGGAGACCGCCTCCGACCTCACCCAGGAGACCCTGTTCCGCATGCTGGTCTATCGCGATGCGCCCAACATCGACAGCCACGTGCGCCTGATGTACCGCATCGCCCACAACCTGGTGCTGGAACATCGTCGGCAGTATTCCCGGCGCCATGTGGCCGACCATGTGCCGCTCGACGCGGTGGAACCACCGGCAGCGGACGTGTCGTCGGTCGAGGAGCTCGTCGATGCACGCCACCTGCTTGAGGTGATCTTCAAGCGCACCTTCGAGTCGCTGTCGCCGCGCTGCTGCCTGGCCTTCAAGCTCAGCCGCATCGATGGGCTGTCGTATCCGGAGATCGCGCGCACCATGGGGATCTCGGTGAAGATGGTGGAGAAGCACATCAGCCGCGCCCTTGCGGCGTGTCGCGCCGACGCCGGCTGGCCAGGGCGCTAG	MTHGPDGPGDEGGSEDARVRRRAVFDEVVARSRGDLLKFMRRRIRDAETASDLTQETLFRMLVYRDAPNIDSHVRLMYRIAHNLVLEHRRQYSRRHVADHVPLDAVEPPAADVSSVEELVDARHLLEVIFKRTFESLSPRCCLAFKLSRIDGLSYPEIARTMGISVKMVEKHISRALAACRADAGWPGR				NA	NA	NA	NA	NA
BMS020_05562	852			hypothetical protein	ATGGCGCTCCCGCCCGCGCTCGATTGCGGTGCGGCGCCAGTCCCCGATGACGCAGCCGGCATGATGCCGACCACCGCGAGCCCGGAACCAGCATGCACCGCGGCATGGCGTTGGAATCCGGACGGTTCCGGCCTTGCCCGGCAGATCGCCCCGGTAGTGACCGAGGGTGGCACGCGCCACAACGACCACGACCTGTCCAGTCGCATCGGCCTGCGCACAGTGGACGCCGCGTGCGGCTGGGGCCGCCATGCCGGATGCAGGTTCAAAACGGTCCGCACCGAGGGGGGCAGCATCAGGTTTCGACGCTGCCCACCTTCAGCCCATGGACGTCGAAGGGCTCGCTGTCCCTGGTGTACCGGTTTGCCAACGCCAAGGACGACGCGGCGCGCTCCAAGCGCAGGCAGGTCAGATCGGCGACCCGCCCACCGGGATCTGCGATCAGATCGGCGACGATTCACGTCTGAGGTAGCGCGCATGGATTCAGCCGCACAGGTAGACGGGCGCCTCCCGGCAGCACGCCTCCCCAGCCCAGCCGCGCGCGACGCCGGGCGCAGGCATCAGCACCCACCCGACACGCCGAACCCACCTGGCCCGCCACGTCGCGCAGATGGCGGCGCCGGCGGCAGCCCGGCCAGGTGGCTGAGCAGACCTGCAGTGCGCCTGCGCAGTGGATTCGCGCCTAGGGGATGGCCTTCGCCAGGTCCTGGAGCTGCGCGGTCCGCTCACGTGTCAGCCGCTGTCGGCACTCCTGGGCAAGCGCCTCCTGCATCTGGCGCGACATGCCCTCCACCAGCGGCTCGGCCTGGCAGTACGCATCGCGGTATGTGCGCCACGCCGCAACCGAAGCAGTGA	MALPPALDCGAAPVPDDAAGMMPTTASPEPACTAAWRWNPDGSGLARQIAPVVTEGGTRHNDHDLSSRIGLRTVDAACGWGRHAGCRFKTVRTEGGSIRFRRCPPSAHGRRRARCPWCTGLPTPRTTRRAPSAGRSDRRPAHRDLRSDRRRFTSEVARMDSAAQVDGRLPAARLPSPAARDAGRRHQHPPDTPNPPGPPRRADGGAGGSPARWLSRPAVRLRSGFAPRGWPSPGPGAARSAHVSAAVGTPGQAPPASGATCPPPAARPGSTHRGMCATPQPKQ				NA	NA	NA	NA	NA
BMS020_05563	564			hypothetical protein	ATGGTCGATAGGGATGCGGGAGCTGCAGCAGACATGCGTGTCCGCGCGCGGGGACGGCGGCGCTGCTTGATTGGCGCGGCATTGAGCCTGCTCTTGGCGTCAGGCCTCCATGCATTGGCGGGCAATGGCGCGCCGCCAGCACAGCCGCCAGCGACGACGGCAGCAGACTGCTCCGTGACCGGTTCTGTCCGTGACCGCACGACCTGCTACCTGGCGCTGCCGGAAGATCGATGCCGGGCGATCGGCGCGGCATGCACGTCGCTTCAGGATGCGCGCGCGCAGGACGCGGCATTGGCGCACGCCGAGCAGGACATCCTCGCAAAGGCCACGACGCGCTATGCCAGCTATCTTGCCGACGACGCCGAGTATCTCAATGATCTGCACGAACGCTTCACTGCTTCGGTTGCGGCGTGGCGCACATACCGCGATGCGTACTGCCAGGCCGAGCCGCTGGTGGAGGGCATGTCGCGCCAGATGCAGGAGGCGCTTGCCCAGGAGTGCCGACAGCGGCTGACACGTGAGCGGACCGCGCAGCTCCAGGACCTGGCGAAGGCCATCCCCTAG	MVDRDAGAAADMRVRARGRRRCLIGAALSLLLASGLHALAGNGAPPAQPPATTAADCSVTGSVRDRTTCYLALPEDRCRAIGAACTSLQDARAQDAALAHAEQDILAKATTRYASYLADDAEYLNDLHERFTASVAAWRTYRDAYCQAEPLVEGMSRQMQEALAQECRQRLTRERTAQLQDLAKAIP				NA	NA	NA	NA	NA
BMS020_05564	489			hypothetical protein	ATGGCTGAGCAGAAGCGGTCAGGATCGTGGCTTTCGATGATCACGCTGGTGGTGGCAATGGAACTGGCGACCTCGTGCGCCAGCGCCGCCTCCGCGAGTGGGCCACCCGTGTTTTCCGGCGAGTGGGCGTATGCGAAGAAGTGCGACTCCGGCCACTATCTGAGCCTGAGTCTGCGCCAGCGCGCCGGTCGTGTGACGGGGGACTGGAGCGAAGGTACCCATGCACGCGGGAGTGACGGATACCTGCGGGGCGAGGTCCGTGGCGATACCTTGTACGTGCGCTACTGCAGCGATGATGGAGGCGCGGGATACTCCATCTGTCCCACCTTCGCACCGCCGGAAGACCAGTTCAGGATCGAGGCGGGGTTGCTTGTCCGCTATCAGAAGTACGGTGCTGACTACCGGCGCAGTGTTGCGCTCCACCCGGACATTGCCGGAAGAGCTGTGCCGTTCGATCAGCAATGCACGGATTCCGCGGACGGCCAATGA	MAEQKRSGSWLSMITLVVAMELATSCASAASASGPPVFSGEWAYAKKCDSGHYLSLSLRQRAGRVTGDWSEGTHARGSDGYLRGEVRGDTLYVRYCSDDGGAGYSICPTFAPPEDQFRIEAGLLVRYQKYGADYRRSVALHPDIAGRAVPFDQQCTDSADGQ				NA	NA	NA	NA	NA
BMS020_05565	960			hypothetical protein	ATGCGTATTTCGCACCTCTTCATGCTCGGGCTGCTCGCGCTTCCATTCCATGCGTTCGCGGCGGAGGCGGCGGCATACAGCCCATACGCGGAACCGGCGCGGGTGCGCGCCTTCGGCCAGAACGGTGTTGGCCTGACCCTCTACACCAATGCCGTCTGCGACGACGAATACGAGGAAGAGATCGATGTCTCTGGTTCCATCGGCAATGTGTTCCGGTCGTTCGTCGGCGACCTGAAGAGCAGCTCGCTGGGCATGCCGGAAACCGTTGGCACGCGCACCATGCACGAAGGGAAGATGATCGGCGCGAAGCCGTACTTCCGCGAGTATCCGTTGGTCGCCGGGCAGCCGGTATTGGCTGAGGCGGAGATTCGAACCGCCGACATTCCCGGCGCCGTGCGCTGCAGCCGCAAGCTCAGGCTCGGCTTCGTTCCTGTCGCCGGTGCGGATTACGAAGTCGGCATGAAGTTCAACAGCAGCATGTGCCTGCTGACGATCGTGCGCGTGGATTCTGGATCCACGGGCGAAGTTCCGATCTCATCTGCGCCCGTATCAAAGTGCAATGACAAGGCCGAGCAACAGCCGGCCGCCCGGCCGCTGCTCGTGTTCCTGTTCCAGCCCGAGGAAGTCCAGTACCGTCTTGAAGGCTATTCCTTCACCGAGTTCGACTCCGAAGACGATGCACCCAAGCAGGCTGAATCGTTCGATGCCGATCTGCGCGATGCCTCCGAGCAAGCCGGCGCCACGGTCTGCGCCGTTGTGCCGTCGCATGACTTCCACAGCCCGCTGTACGACAAGCTGCATGCGCTGCTGAGCGAGCGTGGGTCGGCATTGCCGGGCATCGTGGAGGACAGCGATGGTGTTCGTGGCGCATTGAAGCTGGCGACGGATGCCCCTGTCGGCTTCGACACGGCGGCGTACTACTGCATGCGCGCCGCGGCACAGGCATCCGCCGCGAACTGA	MRISHLFMLGLLALPFHAFAAEAAAYSPYAEPARVRAFGQNGVGLTLYTNAVCDDEYEEEIDVSGSIGNVFRSFVGDLKSSSLGMPETVGTRTMHEGKMIGAKPYFREYPLVAGQPVLAEAEIRTADIPGAVRCSRKLRLGFVPVAGADYEVGMKFNSSMCLLTIVRVDSGSTGEVPISSAPVSKCNDKAEQQPAARPLLVFLFQPEEVQYRLEGYSFTEFDSEDDAPKQAESFDADLRDASEQAGATVCAVVPSHDFHSPLYDKLHALLSERGSALPGIVEDSDGVRGALKLATDAPVGFDTAAYYCMRAAAQASAAN				NA	NA	NA	NA	NA
BMS020_05566	576			hypothetical protein	ATGTTGGGAGCGCATCGCTGGCTGCGGGCCAGCCTGTTGATCATCCTGGGGCTGGTGCTTGCTGCCTGTTCCAGCCGTGACCCGCAACCGCCGGAGCCGCTGGACTTGAGCCAGCCGATCACAGTGGATCAAACCGGGCAGGAGGTACGGTTTGAGTTCGAGATGACTGCGCGGAACTTCAGACCGGACCGTACCTATGCGTTGGAGCTTGAGGTGCAACACGATGGGCCGCCAAGCGCCGTGGATCCGGACATGCGCAGCTTGATCCTTCCGTTCGAGGTCACCCTGCAGCAATGGACTGAAGGAACCTGGCGCGAGGTCGCCACCTACGACAGCTACCAGGCCTTCGAGCGCCACGCTGGCCGGGCCCTTCCCGCCTGGCATACGTCAGGCGAATGGCGATATGCAAGGCTGAGCGCGGGTAGCGATGGCACGTATCGATGGACCATCGTCGCTCTGCCGGTAGAGCTTGATGCTCGCTATCGCTTGGACGTTCGCACGGTACAAGCGACGCCCCTCCTACAGCACTATTCAACGCATTTGCGGATTCATGCAGCCCAGCCCGTGGGAAAGTAG	MLGAHRWLRASLLIILGLVLAACSSRDPQPPEPLDLSQPITVDQTGQEVRFEFEMTARNFRPDRTYALELEVQHDGPPSAVDPDMRSLILPFEVTLQQWTEGTWREVATYDSYQAFERHAGRALPAWHTSGEWRYARLSAGSDGTYRWTIVALPVELDARYRLDVRTVQATPLLQHYSTHLRIHAAQPVGK				NA	NA	NA	NA	NA
BMS020_05567	1083			hypothetical protein	ATGGACAAGCCGCGTTATACCGTCGACATTGTGATCGCCGCACCTGGTACACCCCTGATTGATCCGAAGACTGGTGAGCAGGAGCGCCTGGCGGGCGTGCTGCAGACCTCCACGCCGGGCCACATGTTCTATGTTCTGCACGCCCCTGGTACCCCTGCGCAGAGCTACGGTTTCGCGCCATCAGCTCACGGAAGCATGAACGGACCTGGCGAAGTCAAGTCAGATGACGCGGATGTCTACAGGAATCCGCATTACACCCGGACCCTCGAAATCAGCGAAGCGCAGTACAACAAGCTCCAGGAGTTCGGCAAGAATTCTGAGAGCCTTGGTTTCAGTAAGCACTACCAGGACGTGCGCAACAACTGCGTCGACTTCACCTGGGCCGCGCTGAACCATGCGGGCATCGAGCGCAAGAAGAGCATCGACGTCAACGCGCTGGGAGGCTTCATCGGGCAGGCGTTTCCCGACGCTCGCATCCCCCTTCCGATCAAGGGCGAAGGCAAGGACGGCTACCGCCCGCTGCGCAATATCCACGGCGTGGACAGCATCGAAGCGCCATTCCCGGACAGCGAGCTGAACAAGACGCACTACAACGAGATGCCCGAGCGCGATCCGCTACAGAGAGCGCTTTCGGAGGAGGAGCAGCATGGCCTGCCAGCTGATCGCGCCTTGGCGTCCAATCCTTCAGATGCACGCCACCAGAACGACCCGCTGCTGGCGCAGATCAATCAAGGTGTGGCCCGCCTCGATGCAGACAATGGTCGCTCCTTCGATACCACCAGCCAGAACATCGGCGCCAGCCTGTACTCCCTGGCCAAGACCCATGGCATCACGCAGGTCGACCACGTCCTGCTGAGCGAACGCACTGCCCAGGCCGATGCCGCGCAGAACATCTTCATCGTGCAAGGCGACCGCAACGACCCTGCTCACCTGCGTGCCAGCATGCCGACCGCGCTTGCAGCGCAGACGCCGGCTGCGGCATCGTTCGAACGCGCCGAACAGCTAGCCCAGACGCAGGTTCACACCCATGAAGCGCCGCAACAGCACGAAGTGCGGGAACACTCCGGCCCCCGCATGGTGTGA	MDKPRYTVDIVIAAPGTPLIDPKTGEQERLAGVLQTSTPGHMFYVLHAPGTPAQSYGFAPSAHGSMNGPGEVKSDDADVYRNPHYTRTLEISEAQYNKLQEFGKNSESLGFSKHYQDVRNNCVDFTWAALNHAGIERKKSIDVNALGGFIGQAFPDARIPLPIKGEGKDGYRPLRNIHGVDSIEAPFPDSELNKTHYNEMPERDPLQRALSEEEQHGLPADRALASNPSDARHQNDPLLAQINQGVARLDADNGRSFDTTSQNIGASLYSLAKTHGITQVDHVLLSERTAQADAAQNIFIVQGDRNDPAHLRASMPTALAAQTPAAASFERAEQLAQTQVHTHEAPQQHEVREHSGPRMV				NA	NA	NA	NA	NA
BMS020_05568	921			hypothetical protein	ATGGATAGAGCCTATGCCGATACCGTCCGGCTGTTGCTGGCGGTCGCGCCCGACGTTTTCGTCAACGACATCTTCGCCCTGAAGGGTGGCACCGCACTCAATCTGTTCTTGCATGACATGCCGCGCCTGTCGGTGGACATCGACGTGGTGTACGTGCCTTGGCAGACGCCGCGCGAACAGGCGCTGGCCGATATCGCAGGCGAACTGGACGCGATCGTCAAGCGACTGGATCGCTTTGGTCTGCGGACCCGGAAGATTGCCGCCGACGGAATGGGCGATACCAAACTGCTGGTCGAGACCGAAAGCGAGCAGGTCAAGATCGAGGTCAACACCGTCTTCCGCGGGACCGTTCTGCCGATCGAGCGGCGTACGCTGTCGCCCCAGACTGCCGATGTGTTCAGTGTCGAACTGGAACTGCCGACGTTGGCGCCGGCTGAGTTGTACGGCAGCAAGCTGGTCGCCGCACTCGATCGCCAGCACCCGCGCGACCTGTTCGACGTATGGACGATGTTCGAGTCGGGCGGGTTGAGCGACGACATGGTGGAATGCTTCACGGTCTATCTCGCCGGGCATCATCGGCCGATTCATGAGGTGCTGTTCGGCAATGACAAGGACATCGCCACCGAATACCGCAGCCATTTCGCCGGCATGACCCGAGATCCCGTCGAACTCGACACGCTGCTCGCCGCCAGAACACAGCTGAAGGATGAGCTGCCGCAGCGGCTGAGCGAGCGCCACCGCCAATTCCTGGTGGGCCTGGCGCGCGCCGAACCGGACTGGAGCCTGCTCCGTTGCGAGCATGCGGCGGAACTGCCGGCGCTCCGCTGGAAGCTGGCCAACCTTGCGACGTTCCGCGACCGCAGGCCGGCGGACTTCGAGCGCCAAGCCGGATTGCTTGCCCAGCAACTGGGGGTGTCATGA	MDRAYADTVRLLLAVAPDVFVNDIFALKGGTALNLFLHDMPRLSVDIDVVYVPWQTPREQALADIAGELDAIVKRLDRFGLRTRKIAADGMGDTKLLVETESEQVKIEVNTVFRGTVLPIERRTLSPQTADVFSVELELPTLAPAELYGSKLVAALDRQHPRDLFDVWTMFESGGLSDDMVECFTVYLAGHHRPIHEVLFGNDKDIATEYRSHFAGMTRDPVELDTLLAARTQLKDELPQRLSERHRQFLVGLARAEPDWSLLRCEHAAELPALRWKLANLATFRDRRPADFERQAGLLAQQLGVS	PGPT0027691_2689	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_IV_AbiEii_TOXIN-ANTITOXIN_SYSTEM,PGPT0027691-toxin_AbiEii-na	NA	NA
BMS020_05569	759			hypothetical protein	ATGCAACGAAATAGCAAGCACAATTTAATCAAGCGGGTTCAGACCCAATTGCCGCGTGGGGCGCCGTTCGACCTGCCCGTTCTGGACCGTCTCGGCGTCTCGCCGCAACTGGCGGCCCAGTACGTCAAGAGTGGCTGGCTGGTGCGCCTGGCCCAAGGCGTCTATGCCTTCCCGAACGACGCGCTGGATGCCTTCGCGACGCTCCGCTTCCTGCAGACCCGCGTCCCCGGCCTGCACGTGGCGGGCAAGAGCGCGCTGGCGCTGCAGGGGGTGCGCCACAACCTCGGCACCCGCGCGCCCTGGCTGCTGTGGGGCGATAGTCGTTTCACGTTGCCTGACTGGTTCACGTCGCGTTTCCCGGCCCGCTACGTCAGCGCCAGGGTGTTCAACTGGCCCGATGACGCCTTGCCGGCCAAGACCCTGACCACGCCACCGGGCATGACCGACGGCGTGCAGGTGTCGGTGCCCGAACGCGCCGTGCTTGAACTGCTGTACGAGGTCGGCACCCACCAGAGCCTGGAAGAAGCCCGTCAGCTGTTCGAGAGCCTGCGCAATCCACGCAAGGACCTGCTGGCCCTCCTGTTGCAGTGCTGCACCAGCGTCAAGGCTGTACGCCTATGCCTGACCTGGGCCCGCGAGACCAACCTGCTCGATGTCGACGCCCTGCGTTCGCACTATGCGCTGCCGGTCGGCAGCGACCAGCGCTGGATGACCCGCCTCAAGGACGGCACGTTGCTGAGCCTGCGCCCGCATGGATAG	MQRNSKHNLIKRVQTQLPRGAPFDLPVLDRLGVSPQLAAQYVKSGWLVRLAQGVYAFPNDALDAFATLRFLQTRVPGLHVAGKSALALQGVRHNLGTRAPWLLWGDSRFTLPDWFTSRFPARYVSARVFNWPDDALPAKTLTTPPGMTDGVQVSVPERAVLELLYEVGTHQSLEEARQLFESLRNPRKDLLALLLQCCTSVKAVRLCLTWARETNLLDVDALRSHYALPVGSDQRWMTRLKDGTLLSLRPHG				NA	NA	NA	NA	NA
BMS020_05570	738			hypothetical protein	ATGGCGAACCAGAGCATCAGCATTGCCGTCGGGACGGAGCGGCGCGCCGTCTATGCCGTTGCGTCGGCACCATCCGCACATGCGGCGATGGGCAGGGCATCGCCTTGCCGAAGCGAGCGCCCGTGGCGGCCACTGCACATCCGTGCGTCATTCGCCAAGCCGACGATTGCGGCCTGCGCGCGACGCTATGAACCAAGGCTCCCTGCCCATCATTGGCGTGTGCGCGAGGAGGACGACGCATGCCGGGCGCGGTTCGACCAGGCCGTCACCACGCTGCGGGCCGACCTGCTCCGGTACATGCGCCGCCGCGTCCGCGACCCGGACACGGCCGCCGATCTCACCCAGGAAACGCTGTTGCGCATGCTGCGTTACCGCGACGTGTCCTATATCCAGGACTACGCGCTGCTGATGTACCGCATCGCCCACAACCTGGTGCTGGAGCATGGGCGCACGCGCCGCCATGCGCATGCGACGGCCCATGTGTCGCTGGATCTGCTCGAGCCGCTGGCAGCGGGCGGGCCCGCGGTGGAAGCGATCGTGGACGCCCAGCGCACCGTGGAGCACCTGCTCACCTACACCCTCGCCAGCCTGCCACCGCGGTGCCGTGAAGCGTTTGTCCTACACCGCTTCGAAGGCTTGTCCTACCCCGAAGTCGCTACGGCGATGGGCATCTCGGTGAAGATGGTGGAGAAGCATGTCAGTCGTGCGCTGGCGGTGTGCCGTGCGGAGGCCGGGTAG	MANQSISIAVGTERRAVYAVASAPSAHAAMGRASPCRSERPWRPLHIRASFAKPTIAACARRYEPRLPAHHWRVREEDDACRARFDQAVTTLRADLLRYMRRRVRDPDTAADLTQETLLRMLRYRDVSYIQDYALLMYRIAHNLVLEHGRTRRHAHATAHVSLDLLEPLAAGGPAVEAIVDAQRTVEHLLTYTLASLPPRCREAFVLHRFEGLSYPEVATAMGISVKMVEKHVSRALAVCRAEAG				NA	NA	NA	NA	NA
BMS020_05571	258			hypothetical protein	ATGACTGCCAAGTCGATCCACAAAGCCGAGTACCAACCGCTGCTCGCATTGCTGAGAGCGATGCGCGAGAAGTCTGAGCTCAACCAAGCAGAATTGGCTGCCAAGTTGGCGCGCCCGCAGTCCTACATCAGCGACGTGGAGCGCGGTGCACGACGCCTGGACCTGCTGCAACTGCGTGAGTACTGCCTCGCGTGCGGCCAGGATCTGGTTCCGTTCGTCAAGAAGTTTGAGAAAGCCGTCGCTGACGGCTTGCTCTGA	MTAKSIHKAEYQPLLALLRAMREKSELNQAELAAKLARPQSYISDVERGARRLDLLQLREYCLACGQDLVPFVKKFEKAVADGLL				NA	NA	NA	NA	NA
BMS020_05572	324			hypothetical protein	ATGCCCACAGCCAACGCCCATGACATGTTCATCAAGCGCCTCCGCGAGAAGCGCTTGGCTCTGAAGATTTCTCAGCGGGAGCTTGGCCGGAGAATTGGACTCTCGGAGGACGTTGTGTCCAGCAGAGTGACTCGATACGAGCGCGGCGGCTCAGAGCCCGATTTCGTTACCGCCAGCAAGATGGCAACGGAGCTCGGCGTCCCACTGGCGTATCTGTTGGCCGACAATGAGGTCCTCGCAGACATCATCCTCGCAGTAGCTAGCCTGTCGCCTGTGGAACAGAAGAAGATGGCCGCTGAGCTGAAGGCAAAGACCAAGCGCTGA	MPTANAHDMFIKRLREKRLALKISQRELGRRIGLSEDVVSSRVTRYERGGSEPDFVTASKMATELGVPLAYLLADNEVLADIILAVASLSPVEQKKMAAELKAKTKR				NA	NA	NA	NA	NA
BMS020_05573	1281			hypothetical protein	ATGAAGCGCTTCCGCATGGGGGAGTTGTATCGCTACGCTAAGCCGGCCCTGCCGGAGGAGCCACTGATTGATGGCCTGCCCAACTTCCATCACGTGGTGTCAGTGCAAGGGATGCCCACGTTACAGCTCGAAAGCGGAATTAGTCCTCCAGCCCCAACCCGTGCTGTTGATGGTGAACGCCTCGCCGTTGTTCTGCTTTCCAGCAACGAGCACAAGCGCGGATCAGTGGAGAACCCCTGGCACAACACGCTGGCGCCGGATGAGGGGTTTGCCCGCTATTTCGGTGACAACAAGACGCCCGATGTGGATCCCGGGACGGCGCTGGGCAACAAAACTCTGCTGCGTCAATTCGAGCTGCACACCTCGCCCGACCGTGCCAAGCGCGAGCGGGCAGCCCCTGTCCTTCTGTTCCGTTCCTCGAAGAAGGGCTTCAAGGAGTTCGCTGGCCTGGCACTGATCGTGGGCGCAAGGCGTGTGACGCAGTTCTCCGAGAAGAACGGCGGCTTCTTTACCAACTACCTGTTCGACCTGGCGGTGCTGTCGTTGACCGAAGAGGACGAAAGCCTGGCCATGCTGTGGATCCATGATCGGCGCGATCCGGCGCATACGGCGAACATTGCCAACGCTCACGCGCCGCAGGCCTGGCAGCGTTGGGTGAAGTTCGGCAGCCCTGAGATCGAACGCATCAAGCGTCGCGTTGCGCGCTACCACATCCTGCCCAAACGCGATCAGGTCGCACCGCATGCGTCCGATGTCGGCAAGACGCTGGAAACCATCTATCGGTTCTACGAGCCCAAGCGCCACCGCTTCGAGGCTCTCGCAAGTCTGGCGTGCGAGTCCATGGTGCGTGGCACAGGTGCCGAGTACCACCGTGGCTGGCTCACCCGAGGGACAGGTGATGGCGGCTTGGACTTCGTGGGCCGCATCGACATCGGTGATGGCCTGTGGGGAACCAAGTTGGTGGTCCTGGGCCAAGCCAAGTGCGAGAAGATCGACGCCCCCACGGGAGGCGTTCACATCGCAAGAACCGTTGCCAGGCTGCGGCGGGGCTGGGTAGGGGCCTACGTCACCACCTCATTCTTTTCAGAAGCGGTCCAGCGCGAGGTCTATGACGACCAGTATCCGGTGCTGCTGCTCAATGGCGTTGGGCTGGCGAACGAGGTCACGAAGCTGCGGCTTGCCGGCGGATTTACCAGCACCGAGAAGTTCCTTGAGCACGTGGACGCCGACTACGAGGCGCAGGTCAGCAGCCGGCGGCCAGAAGAGGTGCTTTGGGACTGA	MKRFRMGELYRYAKPALPEEPLIDGLPNFHHVVSVQGMPTLQLESGISPPAPTRAVDGERLAVVLLSSNEHKRGSVENPWHNTLAPDEGFARYFGDNKTPDVDPGTALGNKTLLRQFELHTSPDRAKRERAAPVLLFRSSKKGFKEFAGLALIVGARRVTQFSEKNGGFFTNYLFDLAVLSLTEEDESLAMLWIHDRRDPAHTANIANAHAPQAWQRWVKFGSPEIERIKRRVARYHILPKRDQVAPHASDVGKTLETIYRFYEPKRHRFEALASLACESMVRGTGAEYHRGWLTRGTGDGGLDFVGRIDIGDGLWGTKLVVLGQAKCEKIDAPTGGVHIARTVARLRRGWVGAYVTTSFFSEAVQREVYDDQYPVLLLNGVGLANEVTKLRLAGGFTSTEKFLEHVDADYEAQVSSRRPEEVLWD				NA	NA	NA	NA	NA
BMS020_05574	729			hypothetical protein	ATGGACGTGGCGGCGATTGTGAAAATTATCGAGAGTGGGGACAAAATAGCAATTCTATTATTGATTCCTTTGGTTGCACCGGCTTTAAGCAAAGGCCTATTTGCCCTGAGTGCCGTTCGTTATCAGCGCCAAAAAGAGTTCCTAGAGCTCTGGAGGGAGGTTAGCCTTCGTCAGGATGCATTGTGGCTCGAGGAGATATTTAGGCTTCGCTATAGGGCCGAAATAGCAGCGCCGCTGATCCAGCACGTTCTGTCGCTAACGCATCCCTCCGCGAAGCTAAGGAGGTTGGCGAAGACCTCCCGCCACTTCAAGTTGGATGCTACGCAATCGCTTGTCGTATGGACTAAGCCGAGGCGAGCGCGTCTGAGTTGGTTTCTCTTAGAATGGATTTTTGGTTATTTTTCGTACTTTATATGCGCCTTCGTTGGTAGTTTTTGCTTTTACTTCGTCTGGAAAGTTCGGTCGTTCGATGCTATGGGGCTAGCTTTCCTGGGTCTGCTTCTCTTAGTCATGGCAGTTGTTTCGCTATTCCAGGCGATTGCGTTAGCCGAGGCGCGATCGACGCTCGCGTTCGTCAATGACCGCCAGTCGCCGAGCCCCTTTGCTAGACTCAGGTGGTGCATTAGTAGAGCGATGTTAGCGATTAGGCGAGTCTTATCGCTTGGCTGGAAGCTTGCATTGCCCCTCCGCGCAATCATTGATAAGCGGCGTGAGCGAGTTGGCCGGTAA	MDVAAIVKIIESGDKIAILLLIPLVAPALSKGLFALSAVRYQRQKEFLELWREVSLRQDALWLEEIFRLRYRAEIAAPLIQHVLSLTHPSAKLRRLAKTSRHFKLDATQSLVVWTKPRRARLSWFLLEWIFGYFSYFICAFVGSFCFYFVWKVRSFDAMGLAFLGLLLLVMAVVSLFQAIALAEARSTLAFVNDRQSPSPFARLRWCISRAMLAIRRVLSLGWKLALPLRAIIDKRRERVGR				NA	NA	NA	NA	NA
BMS020_05575	792			hypothetical protein	ATGCGAACTGGAAAATTCAAATTCGAATTGCGCTTAGATCTCTTTAGATCTCAGGATCAGTACGAGCTTCTTCAGGGGAGCGAATGGGAATGGCGATTCTATGAATCTGAATCTCCATTTCAAGGATTTAGTTCGGTTTGGAATTCTAATTCGACTGAGCGTCCGCGTATCGCATATGCGAAGTGGCTTCGCGAAGTTGCACGTGGCGGCGTATATATATGGTTAGTGTTCCACCCTCCCGGAGCTAATGTGCGCGAAAATTATTATAGATTTCTGCATGTCGGGAAGGCCGATGGTGATATGCGGAAGCGCATCCAAGATCATTGTCGTAACCAGTTTAGGCCGATGTCTAAAGGTGGCGAGCCCTGCAGGATGGATAGAATCTATGGGCCGCTAAGAGCGACTGCTGATGGCTTTGGTGATCTGGGATCTGCCCTGTGGGATGGAGGAGCAGGGGGCGAGAATGCTCCAGGCTTCGAGAGCGACGTGCAACGGCGGCGAATGGCGGCTGAAGAATTTCTTAGACACGCGCGAATAGTTGTTATTTCCCCGGCAACTGATAGTTGCGAGGCCGTTCGTAAGATCAGGGAGCTTGAGTCAATTATCGGTTCTGCGGCATGGAAGTTGCTTGCAAGATGGCCCGGTGATATTCAAACAACGAACACGCAGAACGCAGGAATGAATGAAGCCTGCAAGGACGGCGCTGACGTGGAAGTTGCCAGAAACATTAATGCCCAAATTGTAGCTATGCTTCCAGAAGTAGCTCGATCATCTATCGTGGGTGCCTCATGA	MRTGKFKFELRLDLFRSQDQYELLQGSEWEWRFYESESPFQGFSSVWNSNSTERPRIAYAKWLREVARGGVYIWLVFHPPGANVRENYYRFLHVGKADGDMRKRIQDHCRNQFRPMSKGGEPCRMDRIYGPLRATADGFGDLGSALWDGGAGGENAPGFESDVQRRRMAAEEFLRHARIVVISPATDSCEAVRKIRELESIIGSAAWKLLARWPGDIQTTNTQNAGMNEACKDGADVEVARNINAQIVAMLPEVARSSIVGAS				NA	NA	NA	NA	NA
BMS020_05576	624			hypothetical protein	GTGAGCGACGTTGTGGTTGTCTGTGCAGATGTAGGGTCCGTTGCCAGGAATAAGTTCGCGTGGTGGAGCTCCGCGAAAATCGCCGGAAATTCCCCACAGGGTCTCGCCTTGTATGTCAGCGAGAAGCTGAATGCTGGCGAGCATGTTGCTCTCGGATTCGAATGCCCACTCTTTGTGCCACTAAGTGATGATGCGGCTTCGCTCGGTAAGGCGAGGCTGGGCGAGGGTCAGCGCTCCTGGAGTGCGGGAGCCGGCTGCGGAGCATTGGCAACAGGCCTGGTCCAGGTTGCGTGGGTACTGCGGGAGATCAAGAGTCTCCTATCGCGGCCATCAGCAGCATTTCTGGACTGGGATGAATTCCGCGCCGCAGATTCTGCGTTGCTCCTGTGGGAGGCATTTGTAACAGACGAAGCGAAGGGGAGGACAGATCAAGAGGATGCCCAACGGGGCGCAGAGGCATTTATTCGATCACTTCCATACCCGGTCGCTTGTAGCGCAGTGACGTGTGAGACCGAGGTCTATTCATTGATTGGTGCCGCCATCCTTCGCGCTGGGTGGTCCGATGATTCCACGCTTCTCCGTCAAGCGTGCCTCGTGCTACGTGCTTGCGATCAAAATGCCTGA	MSDVVVVCADVGSVARNKFAWWSSAKIAGNSPQGLALYVSEKLNAGEHVALGFECPLFVPLSDDAASLGKARLGEGQRSWSAGAGCGALATGLVQVAWVLREIKSLLSRPSAAFLDWDEFRAADSALLLWEAFVTDEAKGRTDQEDAQRGAEAFIRSLPYPVACSAVTCETEVYSLIGAAILRAGWSDDSTLLRQACLVLRACDQNA				NA	NA	NA	NA	NA
BMS020_05577	744			hypothetical protein	ATGTGTGGCTATTGCACGGAGCGCGCCGTAATTGAGCACCGGCTATTGGAACCGGAGGAGCCCTTAGACCCCTTCTTCGAGTCTGTGTATATGCAGGATGCCCCAGACTGGACGAGCCATATTCGAGCTCTAGGGGGTGCCAGTAGTCCTGTGATGGCAGCCACTGTGATCTGCCGATGGTGGGATGATCTTCAGGGTGGTAAGGAGTCAATGGACGTGACTGAGCTGAGGTCCCTGCTCGGTAGCTCTTCGCCAATTGAGGATGCGCTGCAGGAGCCTTTGGCCGTGCCAGATGCGCGGCAAATCTTGAAGGCGTATTGCGCTGCGAATCTTGATGGTAGCCCCGGAGGTTGGAGCGATCAGGAGCTTGTGGAGAATTTCGCCAGTGTCTATCGGGCCCTTCTTGTGGTCGCGCAGGGAGCGCCAATTGACAATGTCATTGTGAAAATTGCGCTTTCCATGCCCAATGTCACGCCGGCGTTCGCAGCCCTCGATCTATGGCTGAAGCGCCGAGCGCTGCGGGTGTGCGTCCAGCGAGACCCCACGACCTTCCTTGTGGACAACGGAAATGCAATCCGACTCGTAGAGCTTGCGGCACTTCTACTCATTGATGCCATTCCATCACTATGTTTACAAGAAGTCGGGAGATTGCTAGTCCGTAGCGATTTGTGTGGAGAAGGGTTCATGGATGAGAGTATTGAAGCCATATCTAAACTTGCTGCCAAGAGAGCGGCTAGCATGTGA	MCGYCTERAVIEHRLLEPEEPLDPFFESVYMQDAPDWTSHIRALGGASSPVMAATVICRWWDDLQGGKESMDVTELRSLLGSSSPIEDALQEPLAVPDARQILKAYCAANLDGSPGGWSDQELVENFASVYRALLVVAQGAPIDNVIVKIALSMPNVTPAFAALDLWLKRRALRVCVQRDPTTFLVDNGNAIRLVELAALLLIDAIPSLCLQEVGRLLVRSDLCGEGFMDESIEAISKLAAKRAASM				NA	NA	NA	NA	NA
BMS020_05578	693			hypothetical protein	ATGGACGAGACAGATCTGACGCTGCGAGCATCACTGACGTTCACTGCAATCGAATCACGCTTGAGCAAGATTCCGGAGTTCGCGAGCGGGGGGACGCGTACGCCACGGCTTATCCAACTAGCCGCTACCGTCATGTCAGCGGGCATATTCGTTGCGTTAGCGGCTTCCATCCTGGCGTCCACGCGACTTCCACTTTCATGGCTTGAGACAACTGCCATTGCCGGTTGGTGGACCGCTCTTGTCGGCGCCTCGCCACTCGTGATCTATGGCGGCTATCGCGTCGTCACCAACCTTCGTCAGTGGACACGCGAACAGGCTCAACGCACCGACCACCAGCTAGAACACCTGCTTCAGTTGGTCGAATGGCTGCGTGGGCATCCCGCAGCTCGCTTGCGTACGCTTCTTGACCACGCCAAGTACAGCCATGCTCGCCGCACTGGTCGGATAGCCCTGATTGCAGGAGGTGTCGACAAGCTTGGAGTGCTTCCTGTGTTGATCGCGCTCTTTCTGACGCTTCGTGCAGGAGGAAATCCACTTGCCATATCACCTTGGGCCGCCCTAGTCGGTCTGCTGCTCATGACTCTATGGACGATCTGCTGGACCGCCACATCCGCCAAGGGTCAGCTTCAGACTTACGAGTATCTGCTCGACATGGCACTTAAGACGCAAGATTCAAGCGGCGCCAATTCCTAG	MDETDLTLRASLTFTAIESRLSKIPEFASGGTRTPRLIQLAATVMSAGIFVALAASILASTRLPLSWLETTAIAGWWTALVGASPLVIYGGYRVVTNLRQWTREQAQRTDHQLEHLLQLVEWLRGHPAARLRTLLDHAKYSHARRTGRIALIAGGVDKLGVLPVLIALFLTLRAGGNPLAISPWAALVGLLLMTLWTICWTATSAKGQLQTYEYLLDMALKTQDSSGANS				NA	NA	NA	NA	NA
BMS020_05579	837			hypothetical protein	ATGCCTCCCAAGGGGCAGTTCCTCAAGTGGATCGGTAATAAAAAGCGCTTTGCTAGTCAGATCGCTGAACTTTTCCCAAGCAGCTTCAATACTTACTACGAGCCGTTCGTGGGTAGTGGTGCGGTCTTGGCCACCCTGAACCCAGTCAAGGCGGTTGCGTCGGATGCATTTGGCCCGTTGATTGAGTTGTGGAGTGCACTCAAAGACAGCCCCAGCGAAGTTATAGGGTGGTACGAAGAGCGCTACGACCTAGCGTCGCGACTCGGAAAGAAGGAGGCTTATGCGCATGTGCTCGCTTCGTACAACCGTCAGCCTAATCCCGCCGATTTTTTATATCTTTCACGGACGTGCTACGGCGGAGTGATTCGCTTTCGGAAGGCTGACGGGTATATGAGCACCCCATGTGGTGTGCATAATGCTATGTCCCCCGAGAAATTTAGTGAGCGAGCGGAAGAATGGAGTCTCCGCATTCAGCGCACTACGTTCCTGCATAGCGATTACAGAAGCGTCATGGCTCAGGCGCGCGCGGGTGACTTGGTGTACTGCGATCCTCCCTATGTCGATTCGCAGCGGATTCTGTATGGTGCCCAAAAATTTCGGCTCGCAGAGCTTTATGAAGTTATCGCAGATTGCAAGCGCCGCGGTGTTTATGTTGCCCTGAGTATTGATGGTACAAAGAAGTCTGGAGAAAGCGTCGTTTCGATAAGTCCACCAGAGGGTCTTTTTGAAGAGGAGGCATTTGTCGACGTCGGGCGATCTATGCTCCGACGATTTCAGTTGGATGGTATGACACTTGAAAACGAAGTGGTGTCAGATCGGCTTCTTCTGACCTATTAG	MPPKGQFLKWIGNKKRFASQIAELFPSSFNTYYEPFVGSGAVLATLNPVKAVASDAFGPLIELWSALKDSPSEVIGWYEERYDLASRLGKKEAYAHVLASYNRQPNPADFLYLSRTCYGGVIRFRKADGYMSTPCGVHNAMSPEKFSERAEEWSLRIQRTTFLHSDYRSVMAQARAGDLVYCDPPYVDSQRILYGAQKFRLAELYEVIADCKRRGVYVALSIDGTKKSGESVVSISPPEGLFEEEAFVDVGRSMLRRFQLDGMTLENEVVSDRLLLTY	PGPT0027190_834	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0027190-dam-K06223	NA	NA
BMS020_05580	237			hypothetical protein	ATGGGGAACGATACCGAACGCTATGAGTTGCTGTGCACCCTCCTGCGGAGCGTCCGCACGACCGCTGGACTCACCCAGACTGACGTCGCAAATGCCTTAGGCAAGCCGCAGTCGTACGTAAGCAAGTACGAGAGCGGGGAACGCCGTTTGGATCTCATTGAGCTTGATGACCTGTGCAGATGCCTTGGAACAGACTTGGTGAGTCTTGTTGCCAGCTTCCTGGAGGCTAAGCAATGA	MGNDTERYELLCTLLRSVRTTAGLTQTDVANALGKPQSYVSKYESGERRLDLIELDDLCRCLGTDLVSLVASFLEAKQ				NA	NA	NA	NA	NA
BMS020_05581	924			hypothetical protein	ATGAAGGGCAACCCGGAGTTCATGAGTCAGCCCAAGGACTTTTGGGCAATGGTACGGGCGCTGTCCGAAGCGCTTGGCTATACAACGCGCCAACAACGGGGGGAGCCCAAGGGCGACGGCACAGTACGGGCATATTCTCCATGGGAGATGGGTCTCGCGCTCCAGAAGATGAACCTTCGTGCTGATATAGTTCTTGACGCGCAAAATAATGTAACGCCCGACGGACAAATTCTAGCTCGCTATTTTCAGTACCGTGCAGACGTTCTGAATAATTTTGCGCGGATTCACCTGATGACGGCCGATGAAGCGCGGGACCTATACGAACTCGTGAGGGGGCGCATCCTTCACCCCTGCAACATTCATTTTCCGATGAACAAGCAGAAGGGCCTCATGAAGCAGGTGGCCTTCCTTACAGCGCTTGTGAACATGCTGATGAGTGAAGCGCTTGGCGGAAGGCCCTGTTGTTATGACCCCTGTCAATTAACGACTTTCACTCGGAATGGCGCTCCTGTCCGTGTGCTATCCCGCCGAGTGGATGGCGCATTCCCGAGCCCCATCAATCCCATTGGCATTTGGGAAATTAAGGAATACTACTACACAACTAGTTTTGGAAGCCGTATCGCAGATGGCGTTTACGAGACGCTACTTGATGGCATGGAACTGCAGGAAGTTCATAATGCAGAAAATATCCGTGCGGATCACCTACTTGTTATTGACGGCTTCAGGACCTGGTGGCTAGACGGCAAATCTTATCTCTGCCGAATTATCGACATGCTGAACATGGGCTACGTATCCGAAGTCATCTTCGGCCGGGAGATCATGGATCGCATTCCAGTCGTAGCGCGGGAATGGGCGCAGACATATGAAGCAGGGATCAGAGCACCGATGACGCATTCATTCCCGCCCGGTCAACACCTTATTTGA	MKGNPEFMSQPKDFWAMVRALSEALGYTTRQQRGEPKGDGTVRAYSPWEMGLALQKMNLRADIVLDAQNNVTPDGQILARYFQYRADVLNNFARIHLMTADEARDLYELVRGRILHPCNIHFPMNKQKGLMKQVAFLTALVNMLMSEALGGRPCCYDPCQLTTFTRNGAPVRVLSRRVDGAFPSPINPIGIWEIKEYYYTTSFGSRIADGVYETLLDGMELQEVHNAENIRADHLLVIDGFRTWWLDGKSYLCRIIDMLNMGYVSEVIFGREIMDRIPVVAREWAQTYEAGIRAPMTHSFPPGQHLI				NA	NA	NA	NA	NA
BMS020_05582	2109			hypothetical protein	ATGAGCAAAGAGCTAATGGCTTTCGCACTGGTAGCCGAAGAATATGAAAAAACAGGAGATCCACTCCGGGGTCTAAAGCCTTTGTTCGCCCCGCTTCTTACTGAGGGGCGTGGAAAACCCTTTGATCCTGAGCGCTTCTCAGAAGATTTTACGAAAGCCTACGGCCTTCAGATGTCTTCATTTGTTGCTGCTGCCCTATCTGAGCGAATGCATGAGTTGGGTCTCCTTGAGCGTCGCTATGATAAGAATTCCGGAGACACTTATCACGTAAGGAGCTTTGAGTGGGAGCCGGAGTCCATTGCGGAGGCGCAGGTCGAGGGGACTATTGAGCTTTTTGTTGAGTGGGCAAAGAGTAAATCGAGCGAATATAGAAAGGAATTCACCAAGGGACAGCTTGAAGACGCAATTCTAGTGAGGCTTGCGAGGCCGGAATTTGCATCCATGTTTGTACAGCAAGCCGAAGAAAAGAACTCAAGGCTGCGTAAACTTATGGGTGTTGCGGGAGTTGATTTAAGTGCCAAGGATGAGGCCTTCTTCGACTATCTTGTCGCCGCTTTCGTACTTCATGCGTCGAACAATGCTCCAGCCGTCTTCGACTCGATCTCTCAGATATCTTATGGATCACTGATTGCGGATGCTGTGGCCGGATTAGCGGTTCCAACTCTGCGCGAGGATGCAGGGAGGAGGCTGAGGCTGGTCTTGGATGCGCCTCTTATTCTAGATCTTCTGGATCTAAATTCCTCTGCGCACAAACAATATGCGATGGGTTTGCTGGATATTGCTAGAGAAGCGGATTTGATGCTGGCAACCTTTGACCATTCATTGGATGAGATGCGGCAGACCATCCAAGCGACGTTGGAGGCTAGCGTGCGGGGCGAGGGATACGGCCCTATGGCTCAGCGTTTAAGAACGGAGCCGGGAAAACGTTTGAGTGCAGCCCTAACGCGTGATCACCTCAGAGAGAAGGTTGCCGAGCTGGGAATAACCATTCTCCGTGCAGAGATGTATCGCGAGGCCAGATACGCCAAATGGTTTCCAGAGGAGAGGGTTGATGCCATACGTAATGCAATCGGCGATCTACATGAGCATTTGGAAGCGAGGATTAGGGATGCTGAGAGCGTGGCGGCGGTAGCCCGACTAAAGGGGGATAGGAGTGACGCAGAGTCGCTCTTCGAGTCCGGAACAATATTTGTCACCAGAAATTCGGTGCTGGCGAAGCGGGTCAACAAGGCTCTATCTAGGGGGAGAAGTGGCCCTCAGCCCACCTTTACTGTTGCAACAGATGGACAAATCGCGGGTGTGCTTTGGTTTGTTGGTGGAATGAAAGGGGTCGAGCTATCTCGTAGGAGGCTGATCGCAAACTGCTCCGCGGCAGTCCTACCGAAGAAAGAGTTGATATCTCGCTTGGCATCGACATTGGATGGAATCGATCCAGGTTTGAGGAAGGAATTCGAGGTCCTCATGGCCGATGGCCGAGCTAGCCTGTGCGTAATGAGATTGACTGCAGGCGATATGGATCTAATAGATCGCGACAAGTCTTTGGAGCTTGTAGATGTGATGCGCAGGGAGCTGAGTGCTCCAGCCTTAGAACGGGCCGAGGCTGCCGAGTTGAGGGCATCGGAGATTGCACAGACGGCTGCCGCTACACTCGGAGAGGCAAACAAGATCATCGAGGATGCGCGCACGGAAACAGTTAAGGCTATCGAGGAGGGGGGGCGGAAAGCGCAGGAGTTTGATCTTCGATTAGCTCAGCTAACGCATGAAATCGAGATTGAAAGGCAGAATAAACTTAATGCGTTAGCTGAGGCGTCGAACGCAAATCAAGACATTATTCGAGATATTGCCGATAGAGAGGTGGCATACGATAAGCATCGATTCGATCTTGCTCGACGACTGCGAGCGGAGCTTCTGTTGCTTGGCGCTGTCGTAACTTTTTTAGCGATTCGACAGGATGCACCTTTGTGGCTCCGAATCGGTGCAGCCATTACGTCATTGATTACCGTAGGATTTCTAGCTCGGTTTGGCGGCCAGATCATTTCGATCATGGCGGACTGGCAATTCAGAAAGGAGCGGGGCGAGATCGATGCGCTGAGGCGTCATGCTAAGTGA	MSKELMAFALVAEEYEKTGDPLRGLKPLFAPLLTEGRGKPFDPERFSEDFTKAYGLQMSSFVAAALSERMHELGLLERRYDKNSGDTYHVRSFEWEPESIAEAQVEGTIELFVEWAKSKSSEYRKEFTKGQLEDAILVRLARPEFASMFVQQAEEKNSRLRKLMGVAGVDLSAKDEAFFDYLVAAFVLHASNNAPAVFDSISQISYGSLIADAVAGLAVPTLREDAGRRLRLVLDAPLILDLLDLNSSAHKQYAMGLLDIAREADLMLATFDHSLDEMRQTIQATLEASVRGEGYGPMAQRLRTEPGKRLSAALTRDHLREKVAELGITILRAEMYREARYAKWFPEERVDAIRNAIGDLHEHLEARIRDAESVAAVARLKGDRSDAESLFESGTIFVTRNSVLAKRVNKALSRGRSGPQPTFTVATDGQIAGVLWFVGGMKGVELSRRRLIANCSAAVLPKKELISRLASTLDGIDPGLRKEFEVLMADGRASLCVMRLTAGDMDLIDRDKSLELVDVMRRELSAPALERAEAAELRASEIAQTAAATLGEANKIIEDARTETVKAIEEGGRKAQEFDLRLAQLTHEIEIERQNKLNALAEASNANQDIIRDIADREVAYDKHRFDLARRLRAELLLLGAVVTFLAIRQDAPLWLRIGAAITSLITVGFLARFGGQIISIMADWQFRKERGEIDALRRHAK				NA	NA	NA	NA	NA
BMS020_05583	2688	aceE_2	COG2609	Pyruvate dehydrogenase E1 component	ATGAATTGGTTGAACGAAGTGCTGCAGAACGATCCGAACCCGCTCGAGACCCAGGAGTGGCTCGAATCGCTCAAGGCGGTCATCGACGTCGAAGGCCCTGATCGCGCGCACCAGCTGCTCGAAGGCATGGTCGAACAGACCCGCCGGGCGGGCGCCTACCTGCCGTTCTCGCCCACCACCGAATACGTCAACACCATCGCCCCCGCCAACGAGGCCAAGAGCCCCGGCGACTCGGCGCTGGAGTGGAAGATCCGCTCGATCATCCGCTGGAACGCCATGGCCACCGTCGTGCGCGCCAACCGCAAGCCCGGCGACCTCGGCGGCCACATCGCCTCGTTCGCCAGCTCGGCCACCCTGTACGACGTCGGCTTCAACCACTTCTGGCGCGCCCCGAGCGACAGCCACCCGGGCGACCTGCTGTACATCCAGGGCCACAGCGCCCCGGGCATCTACTCGCGCGCCTTCCTCGAAGGCCGCATCAGCGAAGCCCAGCTCGACAACTTCCGCATGGAAGTGGACGGCCAGGGCATCTCGTCCTACCCGCACCCGTGGCTGATGCCGGAGTTCTGGCAGACCCCGACCGTGTCGATGGGCCTGGGCCCGCTCGGCGCGATCTACCAGGCGCAGTTCATGAAGTACCTGGAGAACCGCGGCCTGATCGAGAAGTCCGACCGCAAGGTGTGGTGCTTCATCGGCGACGGCGAGAGCGACGAGCCGGAAACCCTCGGCGCCATCGCGCTGGCCGGCCGCGAAGGCCTGGACAACCTGATCTTCGTGGTCAACTGCAACCTGCAGCGCCTGGACGGCCCGGTGCGCGGCAACGGCAAGATCATCCAGGAACTGGAAGGCGTGTTCCGCGGCGGCGGCTGGAACGTCATCAAGCTGCTGTGGGGCGGTTACTGGGATGCCCTGCTGGCCAAGGACACCAACGGCGTCCTGAAGAAGCTGATGATGGAAACCGTCGACGGCGAATACCAGAACTGCAAGGCCTTCGGCGGCGCGTATACCCGTGAGCATTTCTTCGGCAAGTACCCGGAGACCGCCGCGATGGTCGCCGGCCTGTCCGACGACGACATCTGGCGCCTCAACCGCGGCGGCCACGACCCGCACAAGGTGTACGCCGCCTACCACCAGGCCGTGAACACCAAGGGCATGCCGACCGTGATCCTGGCCAAGACGGTCAAGGGCTACGGCATGGGCAGCGCCGGCGAGGCGCTCAACCCCACCCACCAGACCAAGAAGCTGGACGACGAAGCGGTCAAGCACTTCCGCGACCGCTTCAACATCCCGGTCACCGACGCCCAGCTGGCCGACGGCCAGGTGCCGTTCTACCACCCGGGCAAGGACTCGCCGGAAGTGCAGTACATGCTGCAGCGTCGTGAAGCCCTCGGCGGCTTCCTGCCGCAGCGCCGCACCAAGGCGACCAAGTCGTTCGTCGCCCCGGGCCTGGACAAGTTCGACCGCCTGCTCAAGGACAGCGGCGAGCGCACCTACTCCACCACCATGTCCTTCGTGCAGAGCCTGAACATCGCCCTGCGTGACAAGGAGCTGGGCCCGCGCATCGTGCCGATCGTGGCCGACGAGGCCCGCACCTTCGGCATGGAAGGCATGTTCCGCCAGATCGGCATCTACGCCCCGTTCGGCCAGAAGTACAAGCCGGTCGACGCCGACCAGCTGATGTACTACCGCGAAGACCAGTCCGGCCAGGTGCTGCAGCAGGGCATCAGCGAGCCGGGCGCGATCGCCTCGTGGATGGCCGCCGGCACCAGCTACTCGGTGTCCAACGTGCCGATGCTGCCGTTCTACATCTACTACTCGATGTTCGGCTTCCAGCGCGTGGGCGACATCGCCTGGCAGGCCGCCGACATGCGCACCCGCGGCTTCCTGCTCGGCGGCACCGCCGGCCGCACCACGCTCAACGGCGAAGGCCTGCAGCACGAAGATGGCTTCAGCCAGATCGTCGCCGGCGGCATTCCCAACGTGCGCAGCTACGACCCCACCTTCGGCTTCGAAGTGACCGTGATCATGCAGCACGGCATCAAGGCGATGATGGAAGAGCAGAAGGACGAGTACTACTACATCACCCTGATGAACGAGAACTACGCCCACCCCGGCATGCCGGAAGGCGCCGAGGACGGCATCATCAAGGGCATGTACCTGCTCAAGGACGCCGGCAAGCCCAAGAAGGGCGAACTGCGCGTGCAGCTGCTGGGCTCGGGCACCATCCTGCGCGAAGCCATCGCCGCTGCCGAGCTGCTGGACAAGGACTTCGGCGTCACCGCCGACATCTGGTCCTGCCCCAGCTTCAACGAACTGCGCCGCGACGGCTTCGACGCCGAGCGCTGGAACCGCCTGCATCCGGAAGGCGAGCAGCGCAAGCCGTTCGTCACCGAACTGCTGGAAGGCCGCCAGGGCCCGGCGATCGCCGCCACCGACTACGTGCGCCTGTTCGCCGACCAGATCCGCGCCTTCGTGCCGATGACCTACAGCGTGCTGGGCACCGACGGCTTCGGCCGCTCCGACACCCGCGCCAACCTGCGCCGCCACTTCGAGGTGGACCGCTACTACATCGCCCACGCGGCGATCGCGGCCCTGGCCAAGGACGGCAAGATGACGGCCAAGGACGTGGCCCGGGCGATCAAGCAGTACAAGATTGATCCGGAGAAGGCGAACCCTGTGGGAGTTTGA	MNWLNEVLQNDPNPLETQEWLESLKAVIDVEGPDRAHQLLEGMVEQTRRAGAYLPFSPTTEYVNTIAPANEAKSPGDSALEWKIRSIIRWNAMATVVRANRKPGDLGGHIASFASSATLYDVGFNHFWRAPSDSHPGDLLYIQGHSAPGIYSRAFLEGRISEAQLDNFRMEVDGQGISSYPHPWLMPEFWQTPTVSMGLGPLGAIYQAQFMKYLENRGLIEKSDRKVWCFIGDGESDEPETLGAIALAGREGLDNLIFVVNCNLQRLDGPVRGNGKIIQELEGVFRGGGWNVIKLLWGGYWDALLAKDTNGVLKKLMMETVDGEYQNCKAFGGAYTREHFFGKYPETAAMVAGLSDDDIWRLNRGGHDPHKVYAAYHQAVNTKGMPTVILAKTVKGYGMGSAGEALNPTHQTKKLDDEAVKHFRDRFNIPVTDAQLADGQVPFYHPGKDSPEVQYMLQRREALGGFLPQRRTKATKSFVAPGLDKFDRLLKDSGERTYSTTMSFVQSLNIALRDKELGPRIVPIVADEARTFGMEGMFRQIGIYAPFGQKYKPVDADQLMYYREDQSGQVLQQGISEPGAIASWMAAGTSYSVSNVPMLPFYIYYSMFGFQRVGDIAWQAADMRTRGFLLGGTAGRTTLNGEGLQHEDGFSQIVAGGIPNVRSYDPTFGFEVTVIMQHGIKAMMEEQKDEYYYITLMNENYAHPGMPEGAEDGIIKGMYLLKDAGKPKKGELRVQLLGSGTILREAIAAAELLDKDFGVTADIWSCPSFNELRRDGFDAERWNRLHPEGEQRKPFVTELLEGRQGPAIAATDYVRLFADQIRAFVPMTYSVLGTDGFGRSDTRANLRRHFEVDRYYIAHAAIAALAKDGKMTAKDVARAIKQYKIDPEKANPVGV	PGPT0001385_1376	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001385-aceE-K00163	NA	NA
BMS020_05584	1977			hypothetical protein	ATGCCTCGCACATCGCAGCCGCCCACCTCCGGCGTGTCCTGGCGGCACAGCCTGCGCACCCGCATGGTGGCGACCGGCGCGCTGTCGCAGGTGCTGTTGCTGGCCGGGTTGGCGCTGCTGCTGTACGCGGGCATCCGCATGGACATCACCCGCAACTCGCACAAGGAAACCGAGGGCCTGGCGCAGCAGACCGCGCGCGGGCTGCAGGCGACGATGGAGTCGGTGCAGGTGAGCGGGCGCATCCTCGCCGCGCACGTGGGCACCGCCGGGCACCAGCCGTTCGTGCTGCGCTCGCTGCTGCTGGGCACGCTGAGCGGCGATGGCGACATCACCGGTGCGGCGGTGGTGATCGAACCGGGCACGTTCAAGGACGGCAAGGGCGCGTTCGCCTGGCATGTGGAACGCACCGCCACCGGCATGCGCGACGATGGCAGCCCGAGCGTGCTGGCGCGCTACCGCGACGCGGACTGGTACAAGCGCACGCTGCGCGATGATGTGACCTGGTGGTCCGAGCCGTACCTCAATGGCGATGGCGGCCGCCAGTACCTGAGCACCTTCAACCTGCCGCTGCACCTGCTGGGCGAGATGGCGGGCACGCCACCGTCCGGGCTGGTCAGCGTGGACGTGCCGATGGAACGGCTGCGCGCGATCGTGCGCGAGCTGCCGGCCGATACCGGGCTGCAGCCGATGCTGTTCTCGCCGGGCGGGATGATCGTGATGCACCCGGACCCGTCACTGGCGTTCCGCCGCACCATCGCCACCCAGGTGCGGCTGCGCCGGCCGGACCTGGCGCCGCTGGCGCAGGCGGTGGCGCAGCGGCGCTCGCTGTCGTTCCAGCACGTGGCGCCCGACGGCGGGCACTACATCACCCATGTGATGCGGGTCGGCGATACCGGCTGGACGTTCGCGCTGTCGGCGTCGCAAGACTTCGCGCTGGCCGGCCTCAACCGGGTGGCGCTGGTCACCGGGCTGGTCGGGCTGCTGGCGCTGGCGCTGTGGCTGCTGCTGATCGGGCGCTATGCACGGGCGCTGACGCAGCCGATCGAGGACATCACCGACTCGGCGCAGCACTTCCACAACGGCGAGTTCGACTATCCGCTGGAGCACCTGGAGCGACCGGACGAGGTTGGGGTGATGGCGCGCGCGTTCGATGCGGCGCGCACCTCGATCCGCGACCAGTTCGACGAGATCGGGCGCATGACCGCCGCGCGCGAGCGCATGCAGAGCGAGCTGGAGATCGCCCGCGACATCCAGCAGGCGATGCTGCCGCCCGGGCGCACCTTCGACAGCGACACCACCCACCTGGAGGCGGCGGCGATGCTGGAGCCGGCCAAGACCGTGGGCGGCGACTTCTACCACTTCTTCGAGACCGCGCCGGGGCAGTTGTGGTTCGTGATCGGCGACGTGTCCGACAAGGGCGTGCCGGCGGCGCTGTTCATGGCGCGCGCGGTGACCGTGCTGGAGGTGGCCGCGCGCCGCTACACGCGGCCGGACGCGATCCTGGCCGCGGCCGCGCAGCGCCTGGCCGAGCACAACGAGACCTGCATGTTCGCCACGGTGTTGTGCGGGCTGATCCATGTCGACAGCAGCGACTACTGGATCGCCAGTGCCGGCCACGAGCCGCCGCTGCTGCTGGAGGCCGACGGCACGGTGGCGACGCTGCCGCTGGAATGCGGGCCGCCGCTGGGGATCGATTCGGACCTGAGCTTCCCGGTGCTGCATGCGCGGATGGCGCCGGGGCAGACCCTGCTGGGCTATACGGATGGCGTGACCGATGCGCTGGATGCGCAGCAGCGCAACTATGGCGAGGTGCGCCTGGCCGCTGCGCTGCGGGCCGGGCGCAGCGCCGCCGAGCAGTGCGTGGCCGTGTTGGAGGACATCCGCCGTTTCACCGGAGACGCGGACCAGTTCGACGACATCACGCTGCTGGCGATCCGCTTGCGCCAGGAGCCCAACGGGACGGACGAGCCCTCATGA	MPRTSQPPTSGVSWRHSLRTRMVATGALSQVLLLAGLALLLYAGIRMDITRNSHKETEGLAQQTARGLQATMESVQVSGRILAAHVGTAGHQPFVLRSLLLGTLSGDGDITGAAVVIEPGTFKDGKGAFAWHVERTATGMRDDGSPSVLARYRDADWYKRTLRDDVTWWSEPYLNGDGGRQYLSTFNLPLHLLGEMAGTPPSGLVSVDVPMERLRAIVRELPADTGLQPMLFSPGGMIVMHPDPSLAFRRTIATQVRLRRPDLAPLAQAVAQRRSLSFQHVAPDGGHYITHVMRVGDTGWTFALSASQDFALAGLNRVALVTGLVGLLALALWLLLIGRYARALTQPIEDITDSAQHFHNGEFDYPLEHLERPDEVGVMARAFDAARTSIRDQFDEIGRMTAARERMQSELEIARDIQQAMLPPGRTFDSDTTHLEAAAMLEPAKTVGGDFYHFFETAPGQLWFVIGDVSDKGVPAALFMARAVTVLEVAARRYTRPDAILAAAAQRLAEHNETCMFATVLCGLIHVDSSDYWIASAGHEPPLLLEADGTVATLPLECGPPLGIDSDLSFPVLHARMAPGQTLLGYTDGVTDALDAQQRNYGEVRLAAALRAGRSAAEQCVAVLEDIRRFTGDADQFDDITLLAIRLRQEPNGTDEPS				NA	NA	NA	NA	NA
BMS020_05585	444			hypothetical protein	ATGAAGCTGGACCTGGCGTTCCACCCCACCCTGGACGAGCTGGCCGGGCTGAACGACCGGCTTGAAGACACTCTGCACGACGAGGGCGTGCACCACGAGCGCATCGGCCAGGTGCGGCTGATCGTGGAGGAGCTGGCCTGCAACGCGATCAGCCACGGCGCCAGCGCGCAGCCCGCCGCGGCGTCCGCGCTGCACCTGAGCCTGCGCATGGACCCGGAGCGGCTGGTGCTGGAGTTCCGCGACGAAGGCTCGCCGTTCGACCCGCGCAGCGGCCCGGCCCCGGCGCTGGACGCCCCGGTCAGCGAGCGCCCGATCGGTGGGCTGGGCCTGTTCCTGATCGGGCAGATCGCCGATCACATCGCCTATCACCGCGAAGGCGCATACAACGTGGTACGTATCACCCTGCTGCGCCCCTATTCTCCCGCCGTCGAGAGCCTGCCATGA	MKLDLAFHPTLDELAGLNDRLEDTLHDEGVHHERIGQVRLIVEELACNAISHGASAQPAAASALHLSLRMDPERLVLEFRDEGSPFDPRSGPAPALDAPVSERPIGGLGLFLIGQIADHIAYHREGAYNVVRITLLRPYSPAVESLP	PGPT0014950_1116	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014950-rsbW-K04757	NA	NA
BMS020_05586	381			hypothetical protein	ATGACCACGCTCAGCATCCAGATCGATCCCCCGCAGGACACCCGCCAGCGGGTCAGCCTCAGCGGACGGCTGGACACCCACACCTACCAGGCGCTGGACGAGGCACTGTCGCCGCTGCTGGCCACCCGGATCGTCACCCTGGTGCTGGACATGGCCGGGCTGGAGTACATCTCCAGCGCCGGCATCCGCTCGATCTTCAAGGCCCGCAAGGCGCTGGCCGGGCGCCAGGGCCGGGTGCTGGTGACCCATCCGCAGCCGCAGATCCGCAAGGTCTTCGACATGGTCAAGGCAGTGCCGCTGGGCGAGATCTTCACCTCCGCCCAGGAGCTGGACGACTACCTGGAAGCGATGCAGCGCAAGGTGATCGAGCACGACGCCTGA	MTTLSIQIDPPQDTRQRVSLSGRLDTHTYQALDEALSPLLATRIVTLVLDMAGLEYISSAGIRSIFKARKALAGRQGRVLVTHPQPQIRKVFDMVKAVPLGEIFTSAQELDDYLEAMQRKVIEHDA	PGPT0014350_358	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749	NA	NA
BMS020_05587	720	lutR_1	COG2186	HTH-type transcriptional regulator LutR	ATGACGATTGCGCCCGAACCTCGTGCCGGCCGGAAGCGCGTGCCGCTCTACGAGGAGGTCGCCGAGCGCCTGCGACAGAAGATCTACGACTACGAGCTGCCGCCGGGCGAATGGATCGACGAGCCGGCGCTGGCCGAGGAGCTGGCGATCAGCCGCACGCCGCTGCGCGAGAGCCTCAAGCTGCTCGCCGCCGAAGGCCTGGTGCAGATCGATGCCGGGCGCGGCAGCCGGGTCACCCGGTTGACCTTGGAAGACCTCAACCAGCTGTTCCCGGTGATGGCGATGCTGGAAGGCCGCTGCGCCTACGAGGCGGTGCGCCGCATCGACGATGCCGGCGTGGCCACGCTGGAGCAGCTGCACGCGGCGATGGAAGCGGCCGCCGCCGCCGGCGACCTGGCCGAGTACTACCGCAACAACTACGTGATCCACGAGACCGTGCAGGAATACGCCGGCAACCCCTGGCTGATCCGCGTCACCCACGACCTGCACCGCATCCTCAAGATGCACCGCGGCCGCCAGCTGCTGACCCCGGGCCGCATGGCGCAGTCGCTGGCCGAACACCGCGAGCTGATGGACTGCGTGCGCCGCCGCGATGCCGAAGGCGCCGAGGCGACGATGAACCGCCACCTGCTCAGCCAGGGCCAGGCGCTGGCGGCCTATGTCGCCGCCGGCGGCATGCTCAACGTGCCGGCACCGCTGCCGCATTCGGGCGGGGTCTGA	MTIAPEPRAGRKRVPLYEEVAERLRQKIYDYELPPGEWIDEPALAEELAISRTPLRESLKLLAAEGLVQIDAGRGSRVTRLTLEDLNQLFPVMAMLEGRCAYEAVRRIDDAGVATLEQLHAAMEAAAAAGDLAEYYRNNYVIHETVQEYAGNPWLIRVTHDLHRILKMHRGRQLLTPGRMAQSLAEHRELMDCVRRRDAEGAEATMNRHLLSQGQALAAYVAAGGMLNVPAPLPHSGGV				NA	NA	NA	NA	NA
BMS020_05588	765			hypothetical protein	GTGATCGAGACCTTGATGAAGGTGGTCGACAAGAACAGCCTGCTGGCCGGCTTTGCGATCATCGGTGCGATCATGCTGATCGCGCAGCTGGTCTCGCGCCACCTCACCGGTGGACGCGTGCACGCCTCGGCGATCGCGATCTTCTTCGGCCTGGTGCTGGCCTGGTTCGGCGGGCTGTCCACCGGCGGCAGCAAGGGCCTGGCCGACGTGCCGCTGTTCGCCGGCGTCGCGGTGATGGGCGGGGCGATGCTGCGCGATTTCGCCATCATCGCCACCGCGTTCGGCGTTGATGTGCGCCAGCTGCGTGGGGCGGGCCTGGCCGGCATGATCTCGCTGCTGCTCGGCGTGCTGGTCAGCTTCGTGGTCGGCGCCGCGGTCGCCTACGCGTTCGGCTACACCGATCCGGTCAGCATGACCACGATCGGTGCGGGCGCGGCAACCTACATCGTCGGCCCGGTCACCGGTGCGGCGATCGGCGCCAGCTCGGACGTGATGGCGCTGAGCATCGCCGCCGGGCTGATCAAGTCGATCCTGGTGATGGTCGGCACGCCGTTCGCGGCGCGCTTCATCGGCCTCAACAACCCGCAGACCGCGATCGTGTTCGGTGGCCTGATGGGGACCACCAGTGGCGTCGCCGGCGGCCTGGCCGCGACCGATGCACGGCTGGTGCCGTATGGCGCGATGACGGCGACGTTCTACACCGGCTTGGGCTGCCTGCTGTGCCCGTCTGTGCTGTTCCTCATCACCCGGGCGCTGTTCGGCTGA	MIETLMKVVDKNSLLAGFAIIGAIMLIAQLVSRHLTGGRVHASAIAIFFGLVLAWFGGLSTGGSKGLADVPLFAGVAVMGGAMLRDFAIIATAFGVDVRQLRGAGLAGMISLLLGVLVSFVVGAAVAYAFGYTDPVSMTTIGAGAATYIVGPVTGAAIGASSDVMALSIAAGLIKSILVMVGTPFAARFIGLNNPQTAIVFGGLMGTTSGVAGGLAATDARLVPYGAMTATFYTGLGCLLCPSVLFLITRALFG				NA	NA	NA	NA	NA
BMS020_05589	396			hypothetical protein	ATGGTCATCTACGGTGTTGCTTTGCTGGCGATCTGCACGATCGTCGGGTTGTACATAGGCGAGCTGCTCGGCCTGAGCATCGGCGTGCAGGCCAACGTCGGCGGCGTCGGTTTCGGCATCATGCTGCTGATCGGCATTTCGACCTGGATGCACAAGCGCGGCCGCACGCCGCTGACCGACTACGGCGTCAACTTCTGGAATGCGATCTACATCCCGATCGTGGTGGCGATGGCGGCGCAGCAGAACGTGCTGGCCGCGCTCAAGGGCGGCCCGGCGGCGATCCTCGCCGGCGTGCTTGCCACCGCCGCCTGTGGTGCGCTGATTCCGGTGTTCAACCGGCTGCGCAGCACACCGGTCGAGCCGCTGCCGCCGCTGGTCGAAGGAGAACTGCCGTGA	MVIYGVALLAICTIVGLYIGELLGLSIGVQANVGGVGFGIMLLIGISTWMHKRGRTPLTDYGVNFWNAIYIPIVVAMAAQQNVLAALKGGPAAILAGVLATAACGALIPVFNRLRSTPVEPLPPLVEGELP				NA	NA	NA	NA	NA
BMS020_05590	918	pksC	COG0331	Polyketide biosynthesis malonyl CoA-acyl carrier protein transacylase PksC	ATGAGCCTGGCGATCCTGTGTCCAGGGCAGGGCGGCCAGCATCCGGCGATGTTCGCCCGCGTGCAGGACGACCGCGCCGCTGCACCGGTGTTCGACGCCGCCAGCGACGTGCTCGGCCGCGACCTGCGTGCGCTTGCCGCGCACGACGACCGCTACCACAACCGCTACGCGCAGTCGCTGGTCTGCGCCGGTGCACTGGCGCACTGGCAGGCGTTGCAGTCGCGCCTGCCGGAGCCGGCACTGGTGCTGGGCTACAGCGTCGGCGAGCTGGCCGCACATGCGGTGGCCGGCGCGTTGGACATCGACAGCTGCCTGGCACTGGCCGCCGAGCGTGCACGCCTGATGGACCAGGCCAGTCCGGTCGATGCCGGACTGCTGGCGGTGATCGGCCTGCGAGCACCGGCGATCGAGCGGCTGTGCGCGCAGCACGAGGTCGCGGTAGCGATCGTCAATGGCGAAGACCACTACGTGCTCGGCGGCCCGCTGGCCGCGCTGCGTGCAGCGGACCAAGCCGCCAGCGCGCAGCATGCGCGCGCCGTCGCGCTGCCGGTCACGGTGCCGGCGCATACCCGCTGGTTGCAGGCGGCAGCCGATGGCTTTGCCGTCGCGCTGCAGGCGGCAACGCCGCGCGCACCCCGGATCACGGTGCTGGCGGGCGTCGACGCGCTGCCGGTGCCAAACGCCACGCGCCTGGTCGGCACGCTCGCCGCGCAGATCGCCCGGCCGCTGCAATGGCATGCGGTGCTCACCCAGGCGGTGGAGCGCGGCGCCGATGTCTTCCTTGAGCTGGGCCCTGGCGGGGCGCTGGCACGCATGGTGCGCGACGCGTTCCCGCAGTGCGAGGCACGCGCGGTCGAGGATTTCAAGACGCTGGACGGCGTCGTGGAGTGGGTCGGACGAAGGCAGGAGCCGCAGTGA	MSLAILCPGQGGQHPAMFARVQDDRAAAPVFDAASDVLGRDLRALAAHDDRYHNRYAQSLVCAGALAHWQALQSRLPEPALVLGYSVGELAAHAVAGALDIDSCLALAAERARLMDQASPVDAGLLAVIGLRAPAIERLCAQHEVAVAIVNGEDHYVLGGPLAALRAADQAASAQHARAVALPVTVPAHTRWLQAAADGFAVALQAATPRAPRITVLAGVDALPVPNATRLVGTLAAQIARPLQWHAVLTQAVERGADVFLELGPGGALARMVRDAFPQCEARAVEDFKTLDGVVEWVGRRQEPQ	PGPT0008350_4411	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
BMS020_05591	813	citG_3	COG1767	2-(5''-triphosphoribosyl)-3'-dephosphocoenzyme-A synthase	ATGGCCCATCGCTTCGGGCGCCTGGCCATTGCCAGCCTGCACACCGAGCTGGCCTGCGCACCCAAGCCCGGCCTGGTGACGCCGTTCGATCGCGGCAGCCATGACGACATGGATGCGTCCACCTTCCTGCGCAGCCTGTTCGCATTGCGCGGCTACTTCGTCGCCATCGCCCAGGCCGGCATCACCGATGCCCCCTTCGCACAGCTGCGCACGCTCGGCATCGCCGCCGAGCGCGCGATGCTGCGCGCCACCAACGGCATCAACACCCATCGCGGTGCGATCTTCAGCCTCGGCCTGCTGGTCGCCACCGCGGCGCGGTTGCATGCGGCGCGCGGCATGTCCGCACCCGGCGAGGCGGTCTGCGCCGCGGTCGCCAACTGGCGCGCCGGCCTGCTCGCCGCACCACTCGATCCCGCCAGCCACGGCCAACGCATGCGCCGCTTGCATGACGTGCAGGGTGTGCGCGAACAGGCCGCCGCCGGCTATCCGCTGCTGGCCGAGGTCGCGCTGCCGACATTGCGCGCCGCGCGCCACGCTGGCTTGTCGCGCGATGCCGCATCGGCGCAGACACTGATGGCGCTGGTCGCCGCGCTCGATGATCTCAACCTGCTGCATCGCGGCGGAATGGCCGGCCTGCGCGAGGCGCAGCGGCTTGCGCACGACTTCCTCGAAAACGGTGGCGCCTACACCCGCGATTGGCAGCCGCGCCTGCACGCCATCGGCAACGCATTCGTCGCCCAGCGGCTCAGCCCCGGTGGCAGCGCCGACCTGCTCGCCTGCGCCTGGTTCCTGCACCTGCAGGAGGCACCATGA	MAHRFGRLAIASLHTELACAPKPGLVTPFDRGSHDDMDASTFLRSLFALRGYFVAIAQAGITDAPFAQLRTLGIAAERAMLRATNGINTHRGAIFSLGLLVATAARLHAARGMSAPGEAVCAAVANWRAGLLAAPLDPASHGQRMRRLHDVQGVREQAAAGYPLLAEVALPTLRAARHAGLSRDAASAQTLMALVAALDDLNLLHRGGMAGLREAQRLAHDFLENGGAYTRDWQPRLHAIGNAFVAQRLSPGGSADLLACAWFLHLQEAP	PGPT0019605_548	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019605-mdcB-K13930	NA	NA
BMS020_05592	642	mdcG_2		Phosphoribosyl-dephospho-CoA transferase	ATGCTGGCCCGGCACGCCATCGCCTGGATCGATGCCGATGCCCCCTGGCAGGCGTTGACGCCGGGCGCGCAGGCGCGCCTGCGCGCCTGGTTCGCCGATGGCCATCCGGCGATCGTCGCGCGCCGCGACGGCAGCGAGCCACACGGCATGCTGCGGCTCGGCGTGCCGCTGCCGCCGGCCGAACACAAGCAGCGCCTGGGCCTGGTGCTGCCGGCGGCGCAGCTGCGCCGGCACACCCCGCCGCCGACGCTCGACATGGTGATCGTGCATGCACCGCCGGCCTGGCGTGATGCGCTGCAGGCGCTGGCCCATGCCAGTGCGGCGCTTGGCGTCGCGCCGCGCGTGTTCGGCAGCTTCGCCTGGCAGGCGCTGACCGGGCTGGCGTACGTGCACGACGCTTCGGACCTAGACCTGCTGTGGCCAGTGGCGACGCCGGCGCAGGCCGATGCGGTCGTCGCGGTGCTCAGGCAGTGGGAGCTGCGCCACGCGCGCCGCGCCGATGGCGAGCTGCTGTTGCCCGACGACAGCGCCGTGAACTGGCGCGAATACGCCGGCAGCGAGCGCCATGTACTGCTCAAGAGCGACGACGGTTGCCGCATGGCACCGCGCGATGGCCTGTTCGCGCTGCGGAGCGTGGCATGA	MLARHAIAWIDADAPWQALTPGAQARLRAWFADGHPAIVARRDGSEPHGMLRLGVPLPPAEHKQRLGLVLPAAQLRRHTPPPTLDMVIVHAPPAWRDALQALAHASAALGVAPRVFGSFAWQALTGLAYVHDASDLDLLWPVATPAQADAVVAVLRQWELRHARRADGELLLPDDSAVNWREYAGSERHVLLKSDDGCRMAPRDGLFALRSVA	PGPT0019625_237	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019625-mdcG-K13934	NA	NA
BMS020_05593	705	madD		Malonyl-S-ACP:biotin-protein carboxyltransferase MADD	ATGGTACTGAGCGAACTGCTCGATCAGTTGTTCCCGCGCGGCCACGCGGTCCGCCAGCGCGACGGCGTGCTGACCGGCAGCGCCACCACGGAGGATGGCGAGGTCACGGTGATCGGCACCGCCGACAAGCTCGAAGTTGGCGTCGACCATGCGTTGGCCCTGGCCGCGCACGTGCTGACCAGCACCCGTGCGTATCCGCAGCGCCCGATCGTGATGCTGGCCGACACCGCCGGTCAGCGCCTGTCGCGCCGCGACGAACTGCTCGGCATCAACGGCTACTTCGCCCACCTGGCCAAAACCATCGACCTGGCGCGCCGGCGCGGGGCGCGGCTGGTGACGCTGGTCTATGGCGAATCGGTCAGCGGCGGCTTCCTGTCGTTCGGGCTGATGGCCGACCACATCCATGCGCTGCCCGAGGCGCAGGTGCGGGTGATGGACCTGCGTGCGATGGCGCGGGTCACCAAGCAGCCGCTGGACAAACTGCGGGCGCTGAGCGAGAGCTCGCCGGTGTTCGCGCCGGGCGTGGAGAACTACGTGGCGATGGGTGCGGTGGAATCGTTGTGGGAAGGCGACCTGGCGGCCGCGCTGCAGCATGCGCTGGCCACGCCAGTCGACGGCGATCCGCGCCGGTTGCGGGGCGAACAGCGCGGAGGGCGCACGCTGGCGCGCGGCATCGCCGCCGCGGTGCGGGCGGGCGAGGCCTGA	MVLSELLDQLFPRGHAVRQRDGVLTGSATTEDGEVTVIGTADKLEVGVDHALALAAHVLTSTRAYPQRPIVMLADTAGQRLSRRDELLGINGYFAHLAKTIDLARRRGARLVTLVYGESVSGGFLSFGLMADHIHALPEAQVRVMDLRAMARVTKQPLDKLRALSESSPVFAPGVENYVAMGAVESLWEGDLAAALQHALATPVDGDPRRLRGEQRGGRTLARGIAAAVRAGEA	PGPT0019620_466	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019620-mdcE-K13933	NA	NA
BMS020_05594	921	madC_2		Malonyl-S-ACP:biotin-protein carboxyltransferase MADC	ATGACCACCATTCCCAGCAATGCGCGCAGCTACTACGAGGCCGACGCGCGCGAGCGCATCGCCGGCCTGCTCGATGCGGGTTCCTTCAGCGAATTCTTCGGCCCACTGCACCGCGCGATCAGCCCGCACCTGGCCCAGCTGGATGCACCAGGGCAGTTCGACGACGGCATCGTGGTCGGTGCCGGCACGCTGGCTGGGCGCCGCGTGCTGATCGCCGCGCAGCAGGGCCAGTTCATGGGCGGCGGCGTTGGCGAGGTGCATGGCGCCAAGCTGGTCGGCCTGCTCGAACGCGCTGCCGACACGCGGCCGGACGCGGTCCTGCTGCTGCTCGACACCGGCGGCGTGCGCCTGCACGAGGCCAATGCCGGGCTGATCGCGATCTCCGAGATCATGCGCGCCACGCTGGCCGCACGTGCCGCCGGCGTGCCGGTGATCGCGCTGGTCGGCAGCGGCAACGGTGCGTTCGGCGGCATGGGCATCGTCGCGCGCTGCTGCAGCGCGGTGATCATGTCCGAGGAAGGGCGGCTGTCGCTGTCCGGCCCGGAAGTGATCGAGACCGTGCGCGGCGTGGAGGAATTCGATTCGCGCGACCGCGCGCTGGTGTGGCGCACCACCGGCGGCAAGCACCGCTACCTGCTCGGCGAAGCGGCCGCGCTGGTCGCCGACCGCTTCGACGCGTTCGCGCGCGCCACGCTGGAGGTGCTGGCGCAGCTGCAGGTGCCGGCATCGGACGAGGATCTGCTCGCCGCGCTGGAGGGCGAGCATGCACGGCTGGCGATGCGCATCGACGCCTTCGGCGATTGCCGTGACGGCATCGCCATCTGGGAGGCGCTCGGCATCGCCGATCCGCAGCGCCTGCCGCTGCTCGACACCGGGGCGTTCATCGCCGCCACCGCAGACCGGAGGGCCTCATGGTACTGA	MTTIPSNARSYYEADARERIAGLLDAGSFSEFFGPLHRAISPHLAQLDAPGQFDDGIVVGAGTLAGRRVLIAAQQGQFMGGGVGEVHGAKLVGLLERAADTRPDAVLLLLDTGGVRLHEANAGLIAISEIMRATLAARAAGVPVIALVGSGNGAFGGMGIVARCCSAVIMSEEGRLSLSGPEVIETVRGVEEFDSRDRALVWRTTGGKHRYLLGEAAALVADRFDAFARATLEVLAQLQVPASDEDLLAALEGEHARLAMRIDAFGDCRDGIAIWEALGIADPQRLPLLDTGAFIAATADRRASWY	PGPT0019615_147	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019615-mdcD-K13932	NA	NA
BMS020_05595	318	mdcC_2		Malonate decarboxylase acyl carrier protein	ATGGAAACCCTGCGTTATCGCTATGACGGCCGCGAGGCCACCACCACGACTGCATCGCATGCACTGGTCGGCGTGGTCGCCTCGGGCAACCTGGAAGTGCTGGTGGAGCGCGCGCCGCTGGACGGCGCGATGGAGATCACCATCGTCACCGCCGCGCGCGGCTTCGGCACGGTGTGGCAGGCGGTGCTCGACGACTTCGTCGCGCGCCATCCGCTGCGCGACGTACGCATCGCGATCAACGATGTCGGCGCAACGCCTGCGGTGGTCAGCCTGCGGCTGGACCAGGCGATCGAGGTGCTGCAGGAGAGCGGCGCATGA	METLRYRYDGREATTTTASHALVGVVASGNLEVLVERAPLDGAMEITIVTAARGFGTVWQAVLDDFVARHPLRDVRIAINDVGATPAVVSLRLDQAIEVLQESGA	PGPT0019610_72	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019610-mdcC-K13931	NA	NA
BMS020_05596	1647	madA_2		Acetyl-S-ACP:malonate ACP transferase	ATGAGCCACTCCTGGGACCGTCTCGGCGAAAGCCGCCGCCGCCGCCTGCAACGCGCCGCCGCGCTGGCGCCGCGAGGCCGGCATGTCGCCGCTGCCGACGTGGTCGCGCTGCTGGAAGCGGTGATCGAGCCGGGCGACCGGGTCTGCCTGGAAGGCAACAACCAGAAGCAGGCCGACTTCCTCGCCCAATGCCTGACCCGGGTCGATCCGGCGCGCGTGCACGACCTGCACATGGTGCAGTCGGTGCTGTCGCTGCCGTCGCACCTGGACGTGTTCGAGCGCGGCATCGCCAGACGGCTGGACTTCTCCTTCTCCGGGCCGCAGGGCGCGCGCCTGGCTGGTCTGGTCGCCAACGGCCAGATCGAGATCGGTGCGATCCACACCTACCTGGAACTGTTCGGCCGCTACTTCATCGACCTGACCCCGCGCATCGCGCTGATCGCCGCGCAGGCCGCCGATCGCCACGGCAACCTCTACACCGGGCCGAACACCGAGGACACCCCGGCGATCGTCGAGGCCACCGCGTTCCATGGCGGCATCATCATCGCCCAGGTCAACGAGATCGTCGACACCCTGCCGCGCGTGGACATCCCGGCCGACTGGGTCGACTTCGTCACCCATGCGCCCAAGCCCAACCACATCGAACCGCTGTTCACCCGCGACCCGGCGCAGATCTCCGAAATCCAGGTGCTGATGGCGATGATGGCGATCAAGGGCATCTACGCCGAGTACGGCGTGCAGCGGCTCAACCACGGCATCGGCTTCGACACCGCGGCGATCGAGCTGCTGCTGCCGACCTACGCCGAATCGCTGGGGCTGAAGGGCAGGATCTGCCGGCACTGGGCGCTCAATCCGCATCCGGCGCTGATCCCGGCGATCGAAGCGGGCTTCGTCGAGTCGGTTCATTCGTTCGGTTCCGAACTCGGCATGGAGGCCTACATCGCCGCGCGCCCGGATGTGTTCTTCACCGGTGCCGACGGCACGATGCGCTCCAACCGCGCGTTCTCGCAGACCGCCGGCCTGTACGCCTGCGACATGTTCATCGGCTCGACGCTGCAGATCGACCTGCAGGGCAACAGCTCCACCGCCACCCGCGACCGCATCGCCGGCTTCGGCGGCGCACCGAACATGGGCTCGGACGCGCGTGGCCGCCGCCATGCCAGCGAAACCTGGCTGAAGGCTGGACGCGAAGCGGCGCGCCCGGGCGAGATGCCACGCGGACGCAAGCTGGTCGTGCAGATGGTCGAGACCTTCCGCGAGCACATGGCGCCAGCGTTCGTCGACAAGCTCGATGCGTGGGAGCTGGCCGAGCGCGCCAACATGCCGCTGCCGCCGGTGATGATCTACGGCGACGACGTCAGTCACGTGCTGACCGAGGAAGGCATCGCCAACCTGCTGCTGTGCCGCACGCCAGAAGAGCGCGAACAGGCGATCCGCGGCGTCGCCGGCTATACCGCGATCGGGCTTGGCCGCGACAAGGCCGCGGTCGAGAACCTGCGCGACCGCGGCGTGATCAAGCGCCCGGAAGACCTGGACATCCGCAGCCGCGACGCCACACGCGACCTGCTCGCCGCACGCACGGTCAAGGATCTGGTGCGCTGGTCCGGTGGGTTGTACGACCCGCCGAAACGTTTCCGCAACTGGTGA	MSHSWDRLGESRRRRLQRAAALAPRGRHVAAADVVALLEAVIEPGDRVCLEGNNQKQADFLAQCLTRVDPARVHDLHMVQSVLSLPSHLDVFERGIARRLDFSFSGPQGARLAGLVANGQIEIGAIHTYLELFGRYFIDLTPRIALIAAQAADRHGNLYTGPNTEDTPAIVEATAFHGGIIIAQVNEIVDTLPRVDIPADWVDFVTHAPKPNHIEPLFTRDPAQISEIQVLMAMMAIKGIYAEYGVQRLNHGIGFDTAAIELLLPTYAESLGLKGRICRHWALNPHPALIPAIEAGFVESVHSFGSELGMEAYIAARPDVFFTGADGTMRSNRAFSQTAGLYACDMFIGSTLQIDLQGNSSTATRDRIAGFGGAPNMGSDARGRRHASETWLKAGREAARPGEMPRGRKLVVQMVETFREHMAPAFVDKLDAWELAERANMPLPPVMIYGDDVSHVLTEEGIANLLLCRTPEEREQAIRGVAGYTAIGLGRDKAAVENLRDRGVIKRPEDLDIRSRDATRDLLAARTVKDLVRWSGGLYDPPKRFRNW	PGPT0019600_396	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019600-mdcA-K13929	NA	NA
BMS020_05597	525	yqjI_2	COG1695	Transcriptional regulator YqjI	ATGCATCCCCATTGGCCCCATCCCGTGCGACACCACCTCGACAGCGAGCCCACCGGCGGGCGTCGCGGCCGCCGCCCGCTTGGCCACGGCGACCTGCGCCTGCTGTTGCTGGCCCTGATCGAACAGCAGCCCCGCCACGGCTACGAGCTGATCCGGCTGATCGCCGAGCTGTTCAGCGGGGTCTACACACCCAGCGCCGGCGCGGTGTACCCGACGCTGGCGACGATGGAGCAGCAGGGCTGGATCGCCGCCGACAGTGACGGCGGCCGCAAGCGCTATGCGATCACCGACGCCGGGCGCGCCCAGGTGGCGGGCGAGCGCGAGGCGATCGACGCGGCGCTGCTGCGCACCCGGCGCAGCGCGCGCGACCTGGCCAAGGCGGCGATGCCGGCACCGATCCGCGACGCATTGCGCCGGCTCAAGCGCGGCCTGATCACCCGCCACGGGCGCTGGGACGAAGCCGAGATCGCCCGCGTCGCGGCACTGCTCAACCAGGCCGCCGACGGCATGGACGAGGCGGAATGA	MHPHWPHPVRHHLDSEPTGGRRGRRPLGHGDLRLLLLALIEQQPRHGYELIRLIAELFSGVYTPSAGAVYPTLATMEQQGWIAADSDGGRKRYAITDAGRAQVAGEREAIDAALLRTRRSARDLAKAAMPAPIRDALRRLKRGLITRHGRWDEAEIARVAALLNQAADGMDEAE				NA	NA	NA	NA	NA
BMS020_05598	408			hypothetical protein	ATGAACGCCGCCGCGCTGCGTGCCCTGTTCGCCGACAGTGCGCTGCGGGTCACCCGCCCGCGGCTGGCGGTGGTCGCCGCGCTGCAACGCCAGCGCGCGCCGATCGACGCGCAGCGCCTGCATGCCGAACTGCGCGGCGCGGACGCGCGCACCAGCCTCGGCACCGTCTACCGCACCCTGCGCGAACTCGAGCGGCTGGCGCTGGTGGACGTGCAGGTCGCGCCACACGGCCGCCTGCGCTGGCGCCTGCGCGAGGCCATGCCCCCGTTCCCTGCACTGCCTGCCGACGCCAGCGCGCAGGGGCCCTCCCCCGTGGCACGACTGGCCGAACAGGCCGCCCGCCTCGGCTACCGACTGATCCCGCTGGCACCGCACGGTGCCGCCCCCTCGCAACAGGACATCCCATGA	MNAAALRALFADSALRVTRPRLAVVAALQRQRAPIDAQRLHAELRGADARTSLGTVYRTLRELERLALVDVQVAPHGRLRWRLREAMPPFPALPADASAQGPSPVARLAEQAARLGYRLIPLAPHGAAPSQQDIP				NA	NA	NA	NA	NA
BMS020_05599	789	yqjH_2	COG2375	NADPH-dependent ferric-chelate reductase	ATGAGTTCCCACGACAACCACATCGTCCGCCACGAGATCCAGCGGCGCACGCTGCAGGTGCTGCGCACCGAGGCCCTGACCCCGTCGATGCGCCGCATCGTGCTCGGTGGCGAGGCACTGGCCGGCTTCCACAGCGCCGCGCCGGACGACCACATCAAGCTGTTCTTCGCCAACGCCGCCGGCGAGGTGGTGGTGCCGGAGATGACGCCGCAGGGTCCGCGCCTGCCGGAGGGTGCGCTGCCCTCGCCGATGCGCGACTACACCCCGCGCTTCCACGATGCCGACGCCGGCGAGCTGACCATCGATTTCGTGCTGCATGGCGCAGGTCCGGCAACCAGCTGGGCGGCGGATGCACAACCGGGCGACGCGTTGACCGTCGCTGGCCCGCGCGGCTCGTTCATCGTCGCCAACGACTACGACCACTACGTGCTGATCGGCGACGAGACCGCGTTGCCGGCGATCGGCCGCTGGCTGGAGGAAATGGACGAAGGCATGCAGGCCGAGGTGTTCATCGAGATCGGCGACGAGGCCGAGCGCCAGCCGCTGCAAAGCGCGGCCGACGTGCGCATCCACTGGCTGGAGCGCAACGGCGTGGACGCCGCCACCAGCACGCTGCTGGAAGATGCGCTGCGCGACTTCGATGCGCCCGACGGCGATGCGTTCTACTGGATCGCCACCGAATCGCGGCGTGCGCGGATGATGCGCAAGTTCGTCGAAGGCCACCTGCACGTGGACCCGCATTCGATCCGCGCGACCGGCTACTGGAAGGCCGGCCCAGACGAGGAGTAA	MSSHDNHIVRHEIQRRTLQVLRTEALTPSMRRIVLGGEALAGFHSAAPDDHIKLFFANAAGEVVVPEMTPQGPRLPEGALPSPMRDYTPRFHDADAGELTIDFVLHGAGPATSWAADAQPGDALTVAGPRGSFIVANDYDHYVLIGDETALPAIGRWLEEMDEGMQAEVFIEIGDEAERQPLQSAADVRIHWLERNGVDAATSTLLEDALRDFDAPDGDAFYWIATESRRARMMRKFVEGHLHVDPHSIRATGYWKAGPDEE	PGPT0004045_141	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS,PGPT0004045-ygjH-K07229	NA	NA
BMS020_05600	354			hypothetical protein	ATGACGCCCGCGCAGGCACTGGCCGGCCTGGCCGCCGATGCAATCACCTTGCGCCCGCTGCTGGACGCGGTGCTGGCCGCACAGGCGCGGCTGCAGGCGGCCGAGCAGGCCGTCGCCGACGTGGCCGACGTGCTGCGCCGCGACCAGAAGTTCGCGCCGCCGGGCCGCCCGTCGCTGCACCTGGTGCAGTTGCGGCGCCAGCAGGCGGGCGTCAAGCAGGCCGCATTGGTGGCACGGCGCGAGCTGGCCCAGGCCGCGCAGGCCTTCGTGCACGCGGCCAAGTTGCCGCTGAAGCCGGACCAGCCGCCAAGCGCGGCGGTGCTGGCATGGCTGCGGCGGCATCAGCTTGGCTGA	MTPAQALAGLAADAITLRPLLDAVLAAQARLQAAEQAVADVADVLRRDQKFAPPGRPSLHLVQLRRQQAGVKQAALVARRELAQAAQAFVHAAKLPLKPDQPPSAAVLAWLRRHQLG				NA	NA	NA	NA	NA
BMS020_05601	714	yceI_2		Protein YceI	ATGAAGACCACCCAGAAGCTGCTGCTGCCGTTCGCCCTGACCCTGGCCATCGCCGCCTGCTCCAAGCCGGCCGAACAGGCCGCCGCGCCGGCCGCCGAAACCCCGGCCGCCGCGCCGGCCGAAGCCGCGCCGGCCGCGCCCGCGGTCGAGGCGATCAAGGCCGTCTCGGGCACCTACACCCTCGACCCGACCCACACCGACGTGCTGGTGCAGTGGAGCCACTTCGGCTTCTCCAAGCCGAGCGCGCACTTCGGCATCACCGAGGGCAAGCTGGTCTATGACGCCGATGACGTCAGCAAGTCCACCGTCGAAGTCACGATCCCGGTCACCGCGATCGACACCTTCGTGCCGAAGCTGGACGAGCACCTGAAGAGCGCCGACTTCTTCGACGCCGCCAAGTTCCCGACCGCCACCTTCAAGAGCACCGAAGTGAAGGCCGCCGGCACCAACGAGCTCGACGTCACCGGCAACCTGACCGTGAAGGACCAGACCAAGCCGGTCACCCTGCACGTGACCCTCAATGGCGCCGGCGAGCACCCGATGCTGAAGAAGCAGGCGATCGGCTTCAGCGCCACCGGTACGATCAAGCGCACCGACTTCGGCGTGGGCAACTACGCGCCGAACGTCAGCGACGACGTGCAGCTGACCATCACCACCGAAGGCGCCCTCGACGACGCAGCCGCCGCCCCGGCCGCGACCGAAGAGAAGAAGTAA	MKTTQKLLLPFALTLAIAACSKPAEQAAAPAAETPAAAPAEAAPAAPAVEAIKAVSGTYTLDPTHTDVLVQWSHFGFSKPSAHFGITEGKLVYDADDVSKSTVEVTIPVTAIDTFVPKLDEHLKSADFFDAAKFPTATFKSTEVKAAGTNELDVTGNLTVKDQTKPVTLHVTLNGAGEHPMLKKQAIGFSATGTIKRTDFGVGNYAPNVSDDVQLTITTEGALDDAAAAPAATEEKK				NA	NA	NA	NA	NA
BMS020_05602	591	rutE_2	COG0778	putative malonic semialdehyde reductase RutE	ATGTCCGACGTGCTCGACGCCGCAGCGCTGGACCAGCTGTTCCGCACCGCGCGCACCCAGAACGCCTTTCTCGACCGGCCGGTCGAGGACAGCCAGCTGCACGCGCTCTATGACCTGCTGAAGTGGGGCCCGACCGCAGCCAACGCCACGCCGGCGCGCCTGGTGTTCGTCAAATCCGCCGAGGCCAAGCAGAAGCTGGCGCCGGCCCTGGCCGAGAACAACCTGGCCAAGAGCCTGGCCGCACCGGTCACGGTGATCGTCGGCTACGACCTGGATTTCCACGAGAAGCTGCCGTACCTGTTCCCGCATACCGATGCCAAGGCCTGGTTCGATGGCCCGCGCGAGCAGCGCTACGAAGCGGCGATGCGCAACGGCTCGCTGCAGGGCGCCTACCTGATCCTGGCCGCGCGCGCGCTGGGCCTGGATGCCGGCCCGATGTCCGGCTTCGACAACGCCAAGGTCGATGCGGCGTTCTTCGCCGGTACCGCGATCAAGTCCAATTTCCTGGTCAACCTCGGCTACGGCGACCCGGCGGCAGTGTTCCCGCGCCTGCCGCGGCTGTCCTTCGACGAAGCGGCGCGTATCGCCTGA	MSDVLDAAALDQLFRTARTQNAFLDRPVEDSQLHALYDLLKWGPTAANATPARLVFVKSAEAKQKLAPALAENNLAKSLAAPVTVIVGYDLDFHEKLPYLFPHTDAKAWFDGPREQRYEAAMRNGSLQGAYLILAARALGLDAGPMSGFDNAKVDAAFFAGTAIKSNFLVNLGYGDPAAVFPRLPRLSFDEAARIA	PGPT0021290_522	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021290-rutE|ycdI-K09019	NA	NA
BMS020_05603	972			hypothetical protein	ATGTCGGATGTGCAACGATCGGGCCCGCTCTGGGCGATCAGCGACGGCCGCGCCGGCAACGCACGCCAGGCCGCGGCACTGGCCGAGGCGCTCTCCGGCACCGCCGCATGCACGCTGACGGTCTCGCCGCGCGCGCCGTGGCGCTGGCTGGCGCCGCGGCGCATTCCGGGCGACACGCATGCGTTCGGCGCTGATTTCGCCACGCTGCTGCACGCTCCGCCCGCACTCGCCATCGGCTGCGGGCGCCAGGCGGCGTTGGCCACGCGTTTGTTGCGCGCGCGCGGAAGCCGCGTGGTGCAGGTGCTCGATCCCCGCCTGCCGCCGCGTCACTGGGACCTGCTGGTGGTGCCCGAACACGACCGCCTGCGCGGCGCCAACCTGATTCCGATGGTAGGCAGCCTGCATCCGGTCGACGATGCGTGGCTGGCCGCAGGCCGCGCCGCATTCCCGGCGCTCGGCGTCCTGCCCGGCCCACGCGTGGCGCTGCTGCTGGGCGGGCCGACGTCCGAGGTACCGTGGACCGACGCCGATCTCGCCCACCTGCTCGACGCGCTGGCAGCATTGCTGCGCGACGGCGGCAGTGTGCTGGCGACCACTTCGCGCCGCACCCCCGCCGCATCGACCGCTTGGCTCAGGCAGCGCCTGGCTGCACTGCCCGGCGTGCTGTGGTGCGACGCGCGCGATGGCGCCAATCCGTACGCCGGGTTGCTCGGCTGGGCCGATGCGATCATCTGCAGCGCCGATTCCAGCAACCTGCTGTCCGAGGCGGCCGCCACGCACGCGCCGCTGCACGCGGCCTTCAGCGAGCGCGCGCGCGGCAAGCTGGCCCACCTGCACGATGCGCTGGCGCGCGCCGGCCGGCTCTCGGCGCTGGACACGCTGCTGGGCGCTGCCGACGCCAAGCCACTGCGCGAGACCGCACGCGTGGCCGCACTGGTGCGCGAACGCCTGGGCCTGCCCGCGCCGTACTGA	MSDVQRSGPLWAISDGRAGNARQAAALAEALSGTAACTLTVSPRAPWRWLAPRRIPGDTHAFGADFATLLHAPPALAIGCGRQAALATRLLRARGSRVVQVLDPRLPPRHWDLLVVPEHDRLRGANLIPMVGSLHPVDDAWLAAGRAAFPALGVLPGPRVALLLGGPTSEVPWTDADLAHLLDALAALLRDGGSVLATTSRRTPAASTAWLRQRLAALPGVLWCDARDGANPYAGLLGWADAIICSADSSNLLSEAAATHAPLHAAFSERARGKLAHLHDALARAGRLSALDTLLGAADAKPLRETARVAALVRERLGLPAPY				NA	NA	NA	NA	NA
BMS020_05604	1488	lnt_2		Apolipoprotein N-acyltransferase	ATGGACGTGGACCGCTCGCCTTCGTGGCCAGCCAGCCTGACCGGCACGTTGCTCGCCGGCGCCAGCCTGTGGGCCGGCATCGGCCTGCAGCCGCCATGGTGGTGGGCACTGCTGGCACCGGCGCCGCTGCTGTGGCTGGCCTATGCCCAGCCCCGGCGTGGCCGCGCCGCCGTGCTGGTCCTGCTGGCCTGCCTGCTCGGTGCCAGCCACTACACCGGCTATTTCCGCCTGGTGATGCCGTGGGTGCCGGCGCTGCTGGCGACCGCCGGCGTGGCCCTGCTGTGGTTCGTCGTGGTGATGGGCGCGCGCCGCGTGGTGCTGGGGCTGCACAGCGGCTGGAGCGTGCTGGCCTACCCGCTGGGCTGGGCAGGCATCGACCTGCTCTGCGCCTGGCTGCTGCCCGATGGCAACTGGGCCAGCCCGGTGTATCCGCTCGCCGGCGTGCTGCCGCTGCTGCAGCTGAGCGCCATCGCCGGCAGCAGCGGCATGCTGTTCATCGCCTGCCTGCCGGCCTCGGCGCTGGCACTGCTGCTGGCGCGCAGCATGCCGCGCCGCCAGCTTCTGCCGATGGTGGTGGCGAGCGGCGCGCTGCTGGCGATCGCGCTGGGATTCGGCAGCTGGCGGCTGCACGATGCCGATGCCGATGCCGATGCCGCGCCCAGCCTGCCGGTCGGCATCGCCTCGATCGACGATCCGATCGGTCCGCAGGCCACGCCGGCGTACTGGCAGCCGATCCGCGACCGCTACGACGCGCTGGTCGCGCAGCTGGCCGCGCAGGGCGCGCAGCTGGTGCTGCTGCCGGAGAAGATCGCCACAGTGCCGCCGGCCGAGCTGGCGCGCTGGCAGGCGCACTTCGCCGCGCTGGCCCGCCACCACCGGCTGTGGCTGGTGGTGGGGATCGCCGAGCACGGGCCGCACCCGCGCAACCGCGCCTGGCTGTTCGATCCGCAGGGCCGGCGCGTGGCCGATTACGGCAAGCACATCCTGGCGCCGCCGGAGCGCCGCGAGGACTATGCGGCCAGCGATGCCTACGCGGTGCAGACGGTGGCCGGGCGGCGCATCGGCCTGGCGATCTGCAAGGACATGCATTTCGCCGCGCTAGGCCGCGCCAACGGCATGCGCGCGCCGACGGCGATGCTGGTGCCGGCCTGGGATTTTGCCTACCGCGACGCCTGGCTGGCCGAGCGCATCACCGCGATGCGCGGCGTGGAAAGCGGTTATGGCGTGGCGCGTGCGGCGCGCGAAGGCCTGCTGTCGGTCAGCGACGCGCACGGGCGCATCCTCGCCCAGCGCACCAGCGCGCCGATGCCGGGCGCCACGCTGTTGGCGCGCCTGCCGGTCGCGGCGCAGATCGCCACGCCGTACCTGCGCCTCGGCGATGCGTTCGGCATCGGCGCGCTGGTGGCCTGGCTGCTGCTGGCCGGGCTGGCCCAGCGGCGCGCGCGGGCACGGCGCGCGCTTGGCGCCGCCGCGTCGCGGCCGGGATAA	MDVDRSPSWPASLTGTLLAGASLWAGIGLQPPWWWALLAPAPLLWLAYAQPRRGRAAVLVLLACLLGASHYTGYFRLVMPWVPALLATAGVALLWFVVVMGARRVVLGLHSGWSVLAYPLGWAGIDLLCAWLLPDGNWASPVYPLAGVLPLLQLSAIAGSSGMLFIACLPASALALLLARSMPRRQLLPMVVASGALLAIALGFGSWRLHDADADADAAPSLPVGIASIDDPIGPQATPAYWQPIRDRYDALVAQLAAQGAQLVLLPEKIATVPPAELARWQAHFAALARHHRLWLVVGIAEHGPHPRNRAWLFDPQGRRVADYGKHILAPPERREDYAASDAYAVQTVAGRRIGLAICKDMHFAALGRANGMRAPTAMLVPAWDFAYRDAWLAERITAMRGVESGYGVARAAREGLLSVSDAHGRILAQRTSAPMPGATLLARLPVAAQIATPYLRLGDAFGIGALVAWLLLAGLAQRRARARRALGAAASRPG	PGPT0024470_3258	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024470-lnt-K03820	NA	NA
BMS020_05605	567	yhhQ_2	COG1738	Queuosine precursor transporter	ATGTCCACCCGTTCGCTCCACCGCTTCGCGCCCGTCACCGCCACCGCCTTGGCCTGGTCGGTGCTGGCGATGGCCGCGGTGGTGCTGCTGTCGAACGTGCTGGTGCAGTACCCGATCAACGACTGGCTGACCTGGGGCGCGTTCACCTATCCGGCGGCGTTCCTGGTCAGCGATGCGGTCAACCTGCGCTTCGGGCCGCAGGTGGCGCGGCGGGTGGCGTGGTGCGGCTTCGTGGTGGCGGTGGCGCTGTCGGTCTGGGTGGCCACGCCGCGCATCGCGGCGGCCTCGTGCAGTGCGTTCATCTGCGCGCAGTTGCTCGACATCGCGGTGTTCCATCGCCTGCGCAGCGGCAGCTGGTGGCGCGCGCCGGCGGTCTCCACGCTGTGCAGCGCCACGCTGGACACGGCGATCTTCTGGTCGATCGCCTTCGCCGGCATGGCGTTGCCGTGGATCAGCTGGGCCACCGGCGACCTGGCGGTGAAGCTGGCGATGGGGCTGTTCCTGCTGGCGCCGTTCCGGGCGCTGCTGCGGCAGCGGATGCCGGCGAGGCCGGACGGAGCCGCGTAG	MSTRSLHRFAPVTATALAWSVLAMAAVVLLSNVLVQYPINDWLTWGAFTYPAAFLVSDAVNLRFGPQVARRVAWCGFVVAVALSVWVATPRIAAASCSAFICAQLLDIAVFHRLRSGSWWRAPAVSTLCSATLDTAIFWSIAFAGMALPWISWATGDLAVKLAMGLFLLAPFRALLRQRMPARPDGAA				NA	NA	NA	NA	NA
BMS020_05606	2922	glnE_2	COG1391	Bifunctional glutamine synthetase adenylyltransferase/adenylyl-removing enzyme	ATGGCCCCGTGCGCATTGCGCGACGCCTGCGAACGGCGCGCACGCGCCGCGGCGGCGCACGCGGGATGCCAGAATCCACGCATGACGCCGTCCACCGCCACCGCTTCGCCCCCTGATTCCGTCGATGCCGCACTCGATGCGCTGTGCGAACGCGCGCTGGCGCGGATGCGCCAGGCCCAGCCTGCCGACGCCGCCTGGCCGCCGCCGGGCATCGATCTGGACGCTCTGCGTGCGCTGGCGACCGCCAGCGATTTCGCGGTGGAGACGTTGTGCCGGCAACCGGCGCTGCTCGCGCACCTGGCCCAGGCCGATCCGCCACCGTGGCCTGCGCCGGTGCTGGTGCAGGCCGAGCCGGGCGCGTGGCCGGCGTTGTTGCGGCGGTATCGCTGCGCCGAATCGACCCGCATGGTCTGGCGTGACCTGCGCGGCCTGGACAGCGTCGATGCAACGCTGGCGGCATGCACGCGGCTGGCCGAGCAGTGCCTGCAGCTGGCGCTGGACGCGCTGGAGGCGCTGTTCGCGCAGCGTCACGGCCAGGTGCGCGCCGCCGACGGCATGCCGCAGCGGCTGGTGGTGTTCGGGCTGGGCAAGCTCGGCGGCGGCGAGCTGAACTTTTCCTCCGACATCGACCTGGTCTACGCCTATCCGCAGGGCGGCGAATCGGACGGCGCGCGTCCGCTCGCGGCCGAGGAATACTTCGCCCGGCTTGGCCAGCAGCTGGCACGCCTGCTCGACGAGACCACCGTGGATGGCTTCAGCCACCGCGTCGACCTGCGCCTGCGCCCGTTCGGCACCGCCGGGCGGGTCGCGCTGTCGTTCGCCGGCATGGACCAGTACTTTCAGCGCGAAGGCCGCGACTGGGAACGCTACGCGTGGCTCAAGGCGCGTGCGGTGGCCGGCGATATCGCCGCCGGCGAGACCTGGCTGCAGACACTGCGGCCGTTCGTCTACCGGCGCTACCTCGACTTCACCGCGCTCGATGGCCTGCGGGAGATGAAGGCGGCGATCACCGCCGAGGTCGCGCGCAAGGACCGCCTGCACGACATCAAGCGCGGACCCGGCGGCATCCGCGAGATCGAGTTCCTGGTGCAGGCGCTGCAACTGATCCGCGGCGGCCGCGAGGCCTCGCTGCGCGAGCGGCGCCTGCTGCCGGCGCTGGCCGCGCTGGTGGCGCTGCGCCAGATCGACGCCGGCACCGGCGCGGTGCTGGCCGAGGCGTACCGTTTCCTGCGCCGGCTGGAAAATCGCCTGCAGATGCTGCGCGACGCGCAGACCCATCTGCTGCCGGACGGCGCCGAGGACCGCCTGCGGATCGCGCGCGGACTCGGTTACGCCGACTGGCCGGCGCTGCTGGAGCAGCTGGACCTGCAGCGGGCAAAGGTCTCGGCGGAATTCGCCGAACTGCTGGCGCCGCGCCGCCGCCAGCTCGCCCCGGATGTGGTGGCCGAGTACTGGCGCGCGCTGCCCGAGGCCGGCGATGGCGCGCAACTGGGCGCGCTCGGCTTCGCCGATGCCGGCACCGCCGACCAGTCGCTGCGCGATTTCGCCCAGTCGCTGGGCGTGCGCAGCCTGTCGGATGCAGCGCGGGCGCGGTTGGACCGGGTGGTGCCGGCGCTGCTGCATGCGGCCACGCGCTCGCCGCAGCCGGACGCGGCGCTGCGTCGCGTGCTCGGCCTGCTGCAGGCGATCCTGCGCCGCACCAGCTATCTGGCGCTGCTCGACGAGCAGCCGACCGCGCTGGCCCGCCTGGTCGACGTATTGGCGCGCAGCGCGTTGCTGTCCGAGCGCCTGATGGCCTACCCGGTGCTGCTGGACGAACTGCTGGACACCCGCATCGGCGGGCCGTTGCCGGATGCGGCGTCGATCGCGCGTGCCTGCGAGGCGACGTTGGCGATCGACGACCCGGAAGCGGCGTTGCGCGAACTCAACGAGCGCCGGCTGGCGATCAGCTTCCGCATCGCGCTGGCCACGCTCGACCGGCGCCAGCCGGCGGTGGCCGGCACCCGCCAGCTGGCCTGGCTGGCCGATGCGGTGGTCATCACGGTCGAGGCGATGGCGCGCCGGCAGCTGGTCGACGCGCATGGGCAGGTGCCCGGCGGCCGCTTCGCGATCATCGGCTACGGCAGCCTGGGCGGGGTCGAGCTCGGCTTCGGCTCGGACCTCGACCTGGTGTTCCTGTACGACCACCCGGCGGGGATCGCGCAGTCCGATGGCGTGCGTCCGCTCGAATCGGGCCGCTGGTTCGCCCGCCTGGCACAGAAGGTGATGGCCCTGCTTGGCGCCGAAACCGGCGCCGGGCGGCTGTACGACATCGACGTGCGGCTGCGCCCCGACGGCGGCAAGGGCGCGCTGGTGTCATCGCTGGCCAGCTACCGCGACTACCAGCGCGACCGCGCCTGGACCTGGGAGCACCAGGCGCTGGTGCGCGCGCGTGGCGTGGCCGGTGACGCCAGCCTGTGCGCCGCGTTCGCCCAGGTGCGCGAGGCCACGCTGGCGCGCGAGCGCGATCCGGCGGCGCTGCGCGACGACGTGGTGAAGATGCGCGGGCGCATGCGGGCCGAACTGGACCGCAGCGATGCGGCGCGCTTCGACCTGAAGCAGGGCGCGGGCGGGCTGGTCGACCTGGAATTCGTGCTGCAGGCCGGTGTGTTGCTGCAGGCGCGCGTCGCGCCGGCGCTGCTGGCCGCCCACGACACGCCGGCGTTGATCGATGTGCTCGCCGCGGCCGGATGGTTGCCCGTCGCGGCGATCCCGGCGCTGCATGACGCGCACGCCGCGCTGCTGGCCGCCGGCCTCGCCTGCACCCTGGACCGGCGCCCGCGGCTGACCGCCGAGGATGCGGCGATCGCGCAGGCGCGCGCGACGATCACCCACATCGCCCAGGCCCAGGCACTGCCGTTTCCACCGGGCAAGGACGGGTAA	MAPCALRDACERRARAAAAHAGCQNPRMTPSTATASPPDSVDAALDALCERALARMRQAQPADAAWPPPGIDLDALRALATASDFAVETLCRQPALLAHLAQADPPPWPAPVLVQAEPGAWPALLRRYRCAESTRMVWRDLRGLDSVDATLAACTRLAEQCLQLALDALEALFAQRHGQVRAADGMPQRLVVFGLGKLGGGELNFSSDIDLVYAYPQGGESDGARPLAAEEYFARLGQQLARLLDETTVDGFSHRVDLRLRPFGTAGRVALSFAGMDQYFQREGRDWERYAWLKARAVAGDIAAGETWLQTLRPFVYRRYLDFTALDGLREMKAAITAEVARKDRLHDIKRGPGGIREIEFLVQALQLIRGGREASLRERRLLPALAALVALRQIDAGTGAVLAEAYRFLRRLENRLQMLRDAQTHLLPDGAEDRLRIARGLGYADWPALLEQLDLQRAKVSAEFAELLAPRRRQLAPDVVAEYWRALPEAGDGAQLGALGFADAGTADQSLRDFAQSLGVRSLSDAARARLDRVVPALLHAATRSPQPDAALRRVLGLLQAILRRTSYLALLDEQPTALARLVDVLARSALLSERLMAYPVLLDELLDTRIGGPLPDAASIARACEATLAIDDPEAALRELNERRLAISFRIALATLDRRQPAVAGTRQLAWLADAVVITVEAMARRQLVDAHGQVPGGRFAIIGYGSLGGVELGFGSDLDLVFLYDHPAGIAQSDGVRPLESGRWFARLAQKVMALLGAETGAGRLYDIDVRLRPDGGKGALVSSLASYRDYQRDRAWTWEHQALVRARGVAGDASLCAAFAQVREATLARERDPAALRDDVVKMRGRMRAELDRSDAARFDLKQGAGGLVDLEFVLQAGVLLQARVAPALLAAHDTPALIDVLAAAGWLPVAAIPALHDAHAALLAAGLACTLDRRPRLTAEDAAIAQARATITHIAQAQALPFPPGKDG	PGPT0000655_2109	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000655-glnE-K00982	NA	NA
BMS020_05607	2172			hypothetical protein	ATGACTCCGCCCCGGCCCCACTGGCCGCGTCTGCGCCGCTGGTTCGTGCTGCCGGCCGCGGCGCTGTACCTGCTGTATCTGCTGGCCGGCAACGTGTTCCTCAACACCGCGCTGTTCGACCGGGTCACCGACCGCAAGCCGCAGAAGTTCGCGATGGACACCGGGCCGGCGCTGACCCTGATCCCCGGCCATGTGATCGCCTGGAACGTGCGCATGCGCGGCCACGTGCAGCACACGGTGTATGTGCTGCGCGCCGACCGCGCCAGCGGGCGGCTGGCGGTATGGCCGCTGTTCCGGCGCGAGGTCCGGGTCACCCGGATCGAGGCGACCGGGGTCGATGCCGAGGTCGACCGGGTCGCGCCGCTGGTGGCATCGCCGGCGCCGGGCGACCGCGGCTGGACGCTGCGCTTCGACGCGATCCATAGCGACAGCATCCGCAGCGCGCGGATCGGCAAGCTGCTGCTGACCGGCAAGGGCAGCGCCACGGTCGGCTTCCTGAAGCAGGTCAAAGGCGGGCCGTCGGAGCTGTTCCCGTCGCAGGTGCGCTTCGACGACGCGCAGGTCGCCTACGCCGGGCTGGTGCTGCTGCAGCAGGCGCGGATCGAAGCCGACGTCGCCTATCCGCGCCATTACCGCACCCAGGCGCCGGGCGTGCGCAAGCTCGGCCTCACCGATGCGCGGCTGCGCATCGCCGGGCGCACGCTGGCGCTGAAGATCGACACCGGCGGCAGCACCAAGGTGGCGACGGTGCCGGCGCAGGCCACGCTGGAGGCCGACCTGGGCCTGGACGATGGCGCGCTGGCGCGGGGCAGTCGCGCGGTCTGGCGCTTCCCGGTGCTGGCCGGCCCCGGCGCCACCGACCGCGGCATGCTCGCGCTGCAGCTGGACGTGGCCGAGGACATCCGCGTGCAGGCACGGCTGCCGCGCGATCCGGCGACCGGCAGCGAACTGCATGCCGACCTGCGCGTGGCCGGGCGCACGCTGCCATTCGACGCGCCGGCCACGCTGCTGCCGCGCACCTCCGGCACGTTGCGTGGGCGCTGGCAGTTCGAATCGTTGAACTGGATCAGCGACCTGTTCGTGCGCAAGCCGTGGTTCCGCCTCGACGGCGGCGGGCTGGTCGAGGCCGACCTGCGTATCGCCGCCGGCCAGCTCGATACCGGCAGCACGCTCGACGTGCCGCATGCCGATGCGGTGGCCACGGTGGCCGACAACCGCATCAGCGGCGCCGCGCACGCGCATGGCGAAGTCGTGGCCGGCGGCGAGGCGGGCCAGCTGCGGCTCGATGTGGCCATGGAGCGGTTCGCGGTGGCCGCCAGCGACGCGCCGACGCGGCCGTTCGTGCAGGGCCGGGACCTGGCCCTGCGGCTGTCCGGCGATGCGCGCCTGCATCGGCTGAAGGACAGCCTGCAGGCGCGGCTGACGTTCCAGGACGCGCGCGTGCCGGATGTGGCCGCCTACAACCGCTACCTGCCGCGTCGCAACGTGCGCCTGCTCGGCGGCAGCGGTGCGATCGACGGCGACCTGCACCTGGATGCCGCCGGCGAGGTCGGCACCGGTCGCGTGCGGCTGCGCGGACGCGACCTGCGCGTGGCGCTGTCCGGCGTGGCGATGCAGGGCGACGCCGACCTGGATGTGCACGTGCGCCGTGCCGATCTGCAGCAGCATGCATTCGACCTCGGCGGCTCGCGCCTGCAACTGCGTCGCATGCGCCTGGGCAGCGACGCGCAGGATTGGTGGGCGTCGCTGGATATCGGCCGTGGCCGCATCGATGCGCGCACGCCGTTCCGTATCGAGGCCGATGCGGCGATGCGCATGCGCGATGCCGGGCTGGTGCTGGCGGTGTTCGCGCAGCGCGCCGACTACCCGCGCTGGATCCTGCGCCTGCTCGATGCCGGCGAAGTGCAGGCCAACGCGCGCCTGCGCTGGCAGCGCGAGCAACTGGTGCTGGACGAACTGCAGGCCGAAAACGCGCGCGTGTCGATGCGTGCGAAGCTGGCCATCGACGACGTGCATCGGCGTGGCGCGCTGTACCTGCGCTGGGGCATGCTCGGTGTCGGCGTGCAGCTGCAGGACGAGCTGCGCCAGTGGCACCTGGCCAACGCACGCGACTGGTATGCCGCGCAGCCGGCGTTGCTGCCCGCCGACAAGGCTGCTGACGGTGCCGATTGA	MTPPRPHWPRLRRWFVLPAAALYLLYLLAGNVFLNTALFDRVTDRKPQKFAMDTGPALTLIPGHVIAWNVRMRGHVQHTVYVLRADRASGRLAVWPLFRREVRVTRIEATGVDAEVDRVAPLVASPAPGDRGWTLRFDAIHSDSIRSARIGKLLLTGKGSATVGFLKQVKGGPSELFPSQVRFDDAQVAYAGLVLLQQARIEADVAYPRHYRTQAPGVRKLGLTDARLRIAGRTLALKIDTGGSTKVATVPAQATLEADLGLDDGALARGSRAVWRFPVLAGPGATDRGMLALQLDVAEDIRVQARLPRDPATGSELHADLRVAGRTLPFDAPATLLPRTSGTLRGRWQFESLNWISDLFVRKPWFRLDGGGLVEADLRIAAGQLDTGSTLDVPHADAVATVADNRISGAAHAHGEVVAGGEAGQLRLDVAMERFAVAASDAPTRPFVQGRDLALRLSGDARLHRLKDSLQARLTFQDARVPDVAAYNRYLPRRNVRLLGGSGAIDGDLHLDAAGEVGTGRVRLRGRDLRVALSGVAMQGDADLDVHVRRADLQQHAFDLGGSRLQLRRMRLGSDAQDWWASLDIGRGRIDARTPFRIEADAAMRMRDAGLVLAVFAQRADYPRWILRLLDAGEVQANARLRWQREQLVLDELQAENARVSMRAKLAIDDVHRRGALYLRWGMLGVGVQLQDELRQWHLANARDWYAAQPALLPADKAADGAD				NA	NA	NA	NA	NA
BMS020_05608	1515			Succinyl-CoA:acetate CoA-transferase	ATGTCCGACGAACGCATCCTCGATGCGCGCCTGCGCGCCCGTCTCGTTTCCGCCGAAGAAGCCGCCGCCCTGATCGCCCCCGGCGAGACCGTGGCGATGAGCGGCTTCACCGGATCGGGCTACCCCAAGGCGGTGCCGATGGCGCTGGCGCGGCGCATCGAGGCCGCGCACCAGGCCGGCGAGAAGTTCCAGATCAAGCTGATGACCGGCGCCTCGACCGCACCGGAACTCGACGGCGCACTGGCCAAGGCCGACGGCATCGCGCTGCGGATGCCGTTCCAGACCGACCCGGACGCGCGCAACCGGATCAACGCCGGCACCCTGGACTACATCGACATCCACCTCAGCCACGTCGCCCAGCACGTCTGGTTCGGCTTCTACGGCGAGATCGACACCGCCGTGGTCGAGGTCTCGGCGATCCGCGAGGACGGCGCGCTGGTGCCGTCGACCTCGATCGGCAACAACAAGACCTGGCTGGACCTGGCCAAGAAGGTGATCGTCGAGGTCAACGACTGGCAGCCCGCCGAGATCGAGGGCATGCACGACGTCTACTACGGCACCGCGCTGCCGCCGCACCGCAAGCCGATCCCGCTGGTGCACGGCGACGACCGCATCGGCCAGACCACGCTGCGCTGCGATCCGGACAAGATCGTCGCGGTGGTGCGCACCAACGGCCCGGACCGCAATAGCCCGTTCACCCCGGCCGACGAGAACAGCCGGCTGATCGCCGGGCACCTGATCGAATTCCTCAAGCACGAGGTCGCCAAGGGCCGGTTGCCGGCGAACCTGCTGCCGCTGCAGTCCGGCGTCGGCAACATCCCCAACGCGGTGCTGGCCGGGCTGGCCGACAGCGGCTTCCGCGACCTGGAAGCGTTCACCGAGGTGATCCAGGACGGCATGCTCGACCTGCTCAAGTCCGGCGTGCTGCGCTACGCCTCGTGCACCGGCTTCGCGCTGAGCCCGGCCGCCAACGAGGAGTTCAAGCGCAACATCGGCTTCTACCGCGAGCGCATCGTGATGCGCACGCAGGAGATCTCCAACCATCCGGAACTGGTGCGCCGGCTCGGCTGCATCGGCATGAACGGCATGATCGAGGCCGATCTCTACGGCAACGTGAACTCCACCCACGTGATGGGCTCGCGGATCATGAACGGCATCGGCGGCTCGGGCGACTTCGCCCGCAACGGCTTCCTGTCGACCTTCCTGAGCCCGTCCACCGCCAAGAACGGCACCATCTCGGCAATCGTGCCGATGGTCAGCCACGTCGACCACACCGAGCACGACGTGGCGATCATCGTCACCGAGCAGGGCCTGGCCGACCTGCGCGGGCTGACGCCCAAGCAGCGCGCACGCACGCTGATCGACAACTGCGTGCATCCGGATTACCGCGCGCAGCTGGCCGACTACTTCGACCGCGCCCTGCACGACAGCTACGGCAAGCACACCCCGCACCTGCTGCCCGAAGCGCTGTCCTGGCACCAGCGCTGGCTCGACACCGGCACGATGCAGGCCTGA	MSDERILDARLRARLVSAEEAAALIAPGETVAMSGFTGSGYPKAVPMALARRIEAAHQAGEKFQIKLMTGASTAPELDGALAKADGIALRMPFQTDPDARNRINAGTLDYIDIHLSHVAQHVWFGFYGEIDTAVVEVSAIREDGALVPSTSIGNNKTWLDLAKKVIVEVNDWQPAEIEGMHDVYYGTALPPHRKPIPLVHGDDRIGQTTLRCDPDKIVAVVRTNGPDRNSPFTPADENSRLIAGHLIEFLKHEVAKGRLPANLLPLQSGVGNIPNAVLAGLADSGFRDLEAFTEVIQDGMLDLLKSGVLRYASCTGFALSPAANEEFKRNIGFYRERIVMRTQEISNHPELVRRLGCIGMNGMIEADLYGNVNSTHVMGSRIMNGIGGSGDFARNGFLSTFLSPSTAKNGTISAIVPMVSHVDHTEHDVAIIVTEQGLADLRGLTPKQRARTLIDNCVHPDYRAQLADYFDRALHDSYGKHTPHLLPEALSWHQRWLDTGTMQA	PGPT0001545_202	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001545-aarC|cat1-K18118	NA	NA
BMS020_05609	1074	aroG_2	COG0722	Phospho-2-dehydro-3-deoxyheptonate aldolase, Phe-sensitive	ATGCCCCCGCACACCGATGACCTCCGTATCCGCAAGATCGAACCGTTGACGCCGCCGGCGCAGCTGCTGTCGCTGCTGCCCTGCGACGAACGCGCCTCGCAGACCGTGTCCGCCTCGCGCGCGGCGCTGCACGAGATCCTGCATGGCCGCGACGACCGCCTGGCGGTGGTGGTCGGCCCGTGCTCGATCCACGATCCGGTCGCGGCGATGGAGTACGCCCAGCGCCTGCGTCCGCTGCGCGACAGCCTCGGCGACGCGCTGGAGATCGTCATGCGGGTGTACTTCGAGAAGCCGCGCACCACGGTCGGCTGGAAGGGCCTGATCAACGATCCGGACCTGGACGGCAGCTTCCAGATCAACAAGGGCCTGCGCATCGCGCGCGGCCTGCTGCGCGACATCAACCACCTTGGCCTGCCGGCCGGCGTGGAGTTCCTGGACATCATCTCGCCGCAGTACATCGCCGACCTGGTCGCCTGGGGCGCGATCGGTGCGCGCACCACCGAGAGCCAGGTGCACCGCGAGATGGCCTCGGGGCTGTCGTGCCCGGTGGGCTTCAAGAACGGCACCGGCGGCGACGTGAAGATTGCGGTCGATGCGGTCGGCGCGGCGTCGCACCCGCACCATTTCCTGGCCGTCACCAAGGACGGGCAGACCGCGGTCGCCGCCACCGCCGGCAATCCGGACTGCCATGTGATCCTGCGCGGCGGCAAGGCCCCGAACTACGACGCCGACAGCGTCGCCGCCGCGGTCCAGGTGCTGCAGAAGAACGGCCAGGCGGCGCGGCTGATGGTCGACGCCAGCCACGCCAACAGCGGCAAGAACCCGGACAACCAGCCCAAGGTGATCGAGGACATCGCCGCCCAGCTTGAGGACGGCCAGCGCGCGATCGTCGGGGTGATGGTGGAGAGCCACCTGGTCGGCGGGCGCCAGGAGCTGGTCGACGGTTGCGAATTGACCTACGGCCAGAGCATCACCGACGGCTGCATCGACTGGGACACCTCGGTGCAGGTGCTGGAGCGGCTGGCGCAGGCGGTGCGGGCGCGGCGCAAGCGCGGCGTCGCCGAAGCCGCCTGA	MPPHTDDLRIRKIEPLTPPAQLLSLLPCDERASQTVSASRAALHEILHGRDDRLAVVVGPCSIHDPVAAMEYAQRLRPLRDSLGDALEIVMRVYFEKPRTTVGWKGLINDPDLDGSFQINKGLRIARGLLRDINHLGLPAGVEFLDIISPQYIADLVAWGAIGARTTESQVHREMASGLSCPVGFKNGTGGDVKIAVDAVGAASHPHHFLAVTKDGQTAVAATAGNPDCHVILRGGKAPNYDADSVAAAVQVLQKNGQAARLMVDASHANSGKNPDNQPKVIEDIAAQLEDGQRAIVGVMVESHLVGGRQELVDGCELTYGQSITDGCIDWDTSVQVLERLAQAVRARRKRGVAEAA	PGPT0012920_4192	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012920-3_deoxy_7_phosphoheptulonate_synthase|aroF|aroG|aroH-K01626	NA	NA
BMS020_05610	2895	btuB_11		Vitamin B12 transporter BtuB	ATGAGCAGACGCAGCAGTGTTCTTGCTTTGACTATCGCGTTGGCGCTGTATGCCAACGCCGGCCTCACGCACGCGCAGGACAGCGGCACCACGCAGACAACCGCCGGCACGCCGGCCGCCACCGACCTGGATGCCGTTTCGGTCACCGGCTCGCGCATCAAGCGCGCCCAGGTCGAGGGCGCCCAGCCGGTGGTGACGATCACCTCCGAGCAGATCCAGCAGGAGGGCTTCCAGACCGTCTACGACATGCTGAGCACGATGAACCAGCAGGGCTCGGTCGAGGCCGACACCCAGTGGGGCTCGCATACGCCGAATGCCTCGCCGATCAACCTGCGTGACCTCGGGCCCGGACGCACGTTGCTGCTGGTCAACGGCCACCGCGTCGCCGACTACCCGCTGCCTTACGGCGGCGAGAGCAACTTCTCCAACTACAGCAACATCCCGACCGCGGCGGTCGAGCGGATCGAGATCCTCACCGGCGGCGCCTCGGCGATCTATGGTTCGGACGCGATCGCCGGCGTGGTCAACGTGATCCTCAAGCAGGGATACCAGGGCGACCAGGTGCGGCTGCGCGGCGGCACCGCCACCGAGGGCGGCCGCGACAGTTACGACTTCTCGTGGGCCGGCGGCCGCAGCGGCCAGGACTGGAGCCTGACCTACGCGGTGCAGGCCAGCAAGCGCGAGGCGCTGACCGGGCGCGACCGTCCGCAGATGGATGACCAGGACGACATGGCGTACTCGAACTGGACCGCGCAGAACCGTCTGTACGGCTTCAACGCCTACACCGGCCTGAGCCTGGTCGACGCCAGCACCTCCGAGCGCCTGGCCGCGCCGGCCGGTACATGCGAGCGCTTCGGCGGCGAGTTCATCAACGCCGACCGGCTCAGCTACAACGAGAACACCGGCGCGCTGACCAACTACGGAAGCTACTGCGGGATGAGCAGCGACTACAGCGACTGGACCCTGGTCAGCGGCAGCGAGGATCTGTCCGGCTACCTGTACGGCACCTGGGACTTCAGCGACACGCTGCACGGCTGGGCCAACCTGTCGGTCAACAAGAGCACCGGCACCTGGACCTACGATCCACCCTACGTCTACCTCGGCCCGTACTACGACGCCGAGCTGGGCCGCAGCCTGTACGCGATCCGGCAGATGACCCGTTACGAGGCCGGCAGCTGGGACAACCTTGCCAACTACAACAAGGAACTGTCCTGGGACGTCAGCGTCGGCCTGAAGGGGGTGTGGGCCGACCGCTTCGACTGGGAGCTCAGCGCCGGACGCTCGCGCTACGAGGTCGACGAATACATCCGCACCGTCGACAACGCCAAGGCGACCGCCTATTTCCTCGGCGAGCAGCTCGGCACCACCGCCGACGGCACGCCGATCTACGATCTCAACGAGGACCGCTGGTACAGCCCCTTGTCGCGCAGCGAGTACGACGACCTGGTCGCCAAGTCGCACAACGCGGCCTCGTCGTGGGTCAACCAGGGCAGCTTCACCGTCAGCGGCGACCTGCTGCAGGGCTGGGCCGGGCCGATCCGCTTCGCCGCGGTCGCCGAGATCGCGCGCCAGGGCTACCACCTCAATCCGGATCCGTGCGCCAACGAGTGCTACTACGTCGACGTGGTCGACAGCGGCGGCGGCGAGCGCACCCGCAGCTCCGGTGGGCTGGAATTCGAGGTGCCGCTGCTGGACTCGCTGACCGCCAGCCTGGCCGGCCGCTACGACCGCTATGGCAGCTACAAGTCCTACGCCTCGGACCTGGCCACCGACATCGGCACCCAGAGCGACACCACCTGGAGTGCGGGCCTGGAGTGGCGCCCGCTCGACAGCCTGCTGCTGCGTTCCAGCCTGGCCACCAGCTTCCGCGCGCCCGATATGCACTATGTGCTGGGCGAGCCGAGCTCGACCAACCAGACGCTGATCGACCAGTACAAGTGCATCAGCAGCGGCGCCTATCTCACCGGCAACTGCTCGGACGAGAACAGCGACGTCTACTACACCGTCGCGGTGAACCGGCGCGGCACGCCGGACCTGAAGTCCGAGCATGGCCGCTCGTTCACCGGCGGCTTCGTCTGGGACATCGCCCAGGGCCTGTCGCTGACCGCCGACTACTACAAGATCCGCCTGGAGGACATGATCCAGGACCTCGACCGCGACACCATCCTCGCCGCCGAGGCCGGCTGCCGTACCGGCACCACCACCAGTGGCGGCACCTGGACCAATCCCGGCGGCGACGAGTACTGCGCGACGATCCTCTCACGCGTGGTGCGCGATGCCGACGGCAACATCGTCAGCGTCGAGCGCGGCCCGATCAACCTGGCGCAGATGGAGACCTCGGGCGTCGACGTGTCGCTGAAGTACCGGCTCAACACCGACAGCCTTGGCAACTGGCAGTTCTCGCTCGACTACAACAACCTGATCAGTTACTACGAGCAGATCTACCGCACCGACGAGAACCAGAACAAGCGCGACCAGAAGGTGCGCAGCAAGGTGCGCGGCAGCGTGCACTGGGATCGTGGCAACTGGGACGCGACGCTGTACTTCAAGCGCTTCGGCTCGACCCGCGCGGTCAACTGGGGCACCTGCCGGCGCTTCGACGATGGCTACCAGCCCGCGGCGGGCGACGACTGCGTGGTCACCGACACCGCCAGCGCGCATTACGGTGACAGCACCACCCACTACTACGGCCGGGTCGGACCGGCCTGGTATTGGAATGCCAGCGTCGGCTACCGCATCACCGACAAGATGAAGATCAATTTCTACGTCAACAACATCTTCAACACCGTCGGCTACGAGAACAAGGAGGCGTACTACAGCTACGCCTTCTACAACACCACGCTGTACAACGCGATCGGCCGCGAGGTCGCCGCCGAGTACGTGTTCGACTTCTGA	MSRRSSVLALTIALALYANAGLTHAQDSGTTQTTAGTPAATDLDAVSVTGSRIKRAQVEGAQPVVTITSEQIQQEGFQTVYDMLSTMNQQGSVEADTQWGSHTPNASPINLRDLGPGRTLLLVNGHRVADYPLPYGGESNFSNYSNIPTAAVERIEILTGGASAIYGSDAIAGVVNVILKQGYQGDQVRLRGGTATEGGRDSYDFSWAGGRSGQDWSLTYAVQASKREALTGRDRPQMDDQDDMAYSNWTAQNRLYGFNAYTGLSLVDASTSERLAAPAGTCERFGGEFINADRLSYNENTGALTNYGSYCGMSSDYSDWTLVSGSEDLSGYLYGTWDFSDTLHGWANLSVNKSTGTWTYDPPYVYLGPYYDAELGRSLYAIRQMTRYEAGSWDNLANYNKELSWDVSVGLKGVWADRFDWELSAGRSRYEVDEYIRTVDNAKATAYFLGEQLGTTADGTPIYDLNEDRWYSPLSRSEYDDLVAKSHNAASSWVNQGSFTVSGDLLQGWAGPIRFAAVAEIARQGYHLNPDPCANECYYVDVVDSGGGERTRSSGGLEFEVPLLDSLTASLAGRYDRYGSYKSYASDLATDIGTQSDTTWSAGLEWRPLDSLLLRSSLATSFRAPDMHYVLGEPSSTNQTLIDQYKCISSGAYLTGNCSDENSDVYYTVAVNRRGTPDLKSEHGRSFTGGFVWDIAQGLSLTADYYKIRLEDMIQDLDRDTILAAEAGCRTGTTTSGGTWTNPGGDEYCATILSRVVRDADGNIVSVERGPINLAQMETSGVDVSLKYRLNTDSLGNWQFSLDYNNLISYYEQIYRTDENQNKRDQKVRSKVRGSVHWDRGNWDATLYFKRFGSTRAVNWGTCRRFDDGYQPAAGDDCVVTDTASAHYGDSTTHYYGRVGPAWYWNASVGYRITDKMKINFYVNNIFNTVGYENKEAYYSYAFYNTTLYNAIGREVAAEYVFDF	PGPT0003790_2794	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_05611	1641	groL_2	COG0459	60 kDa chaperonin	ATGGCTGCCAAGGATATCCGTTTCGGTGAAGACGCCCGTTCGCGCATGGTGCGCGGCGTCAACGTGCTCGCCAACGCCGTCAAGGCGACCCTGGGCCCGAAGGGCCGCAACGTCGTGCTCGAGAAGAGCTTCGGCGCCCCGACGATCACCAAGGACGGCGTGTCCGTCGCCAAGGAGATCGAACTGGCCGACAAGTTCGAGAACATGGGCGCGCAGATGGTCAAGGAAGTCGCTTCCAAGACCAACGACAACGCCGGTGACGGCACCACCACCGCGACCGTGCTGGCCCAGGCGCTGATCCGCGAGGGCGCCAAGGCGGTTGCCGCCGGCATGAACCCGATGGACCTGAAGCGCGGCATCGACAAGGCCGTGGTGGCCGCGGTCGCCGAGCTGAAGAACCTGTCCAAGCCGACCGCCGACGACAAGGCGATCGCCCAGGTCGGCACGATCTCGGCCAACTCGGACGAGTCGATCGGCAACATCATCGCCGAGGCGATGAAGAAGGTCGGCAAGGAAGGCGTGATCACCGTCGAGGAAGGCTCGGGCCTGGAGAACGAGCTGGACGTCGTCGAGGGCATGCAGTTCGACCGCGGCTACCTGTCGCCGTACTTCATCAACAACCAGCAGAGCCAGTCGGCCGATCTGGACGACCCGTTCATCCTGCTGCACGACAAGAAGATCTCCAACGTGCGTGACCTGCTGCCCGTCCTCGAGGGCGTGGCCAAGGCCGGCAAGCCGCTGCTGATCGTCGCCGAGGAAGTCGAAGGCGAAGCGCTGGCGACCCTGGTGGTCAACACCATCCGCGGCATCGTCAAGGTCGTGGCGGTCAAGGCCCCGGGCTTCGGCGACCGTCGCAAGGCGATGCTGGAAGACATGGCCGTGCTGACCGGCGGCACCGTGATCTCCGAGGAAGTGGGCCTGTCGCTGGAGAAGGCCACGATCAAGGATCTGGGCCGCGCCAAGAAGGTGCAGGTCTCCAAGGAGAACACCACCATCATCGACGGCGCCGGCGATGCCGCTGGCATCCAGGCCCGTGTCACCCAGATCAAGACCCAGATCGAAGACACCTCGTCCGATTACGACCGTGAGAAGCTGCAGGAGCGTGTGGCCAAGCTGGCCGGCGGCGTTGCGGTGATCAAGGTCGGTGCCGCGACCGAAGTCGAGATGAAGGAAAAGAAGGCCCGCGTCGAAGACGCCCTGCACGCCACGCGCGCTGCGGTGGAAGAAGGCGTGGTCCCGGGCGGCGGCGTGGCCCTGGTGCGCGCGCTGACCGCGGTCGGCAACCTGACCGGTGCCAACGAAGACCAGACCCACGGCATCCAGATCGCCCTGCGTGCGATGGAAGCCCCGCTGCGCGAGATCGTCGCCAACGCCGGCGAAGAGCCGTCCGTGATCCTCAACAAGGTCAAGGAAGGCACCGGCAACTACGGCTACAACGCCGCCAACGGCCAGTTCGGCGACATGGTCGAGTTCGGCATCCTGGATCCGACCAAGGTGACCCGTTCGGCGCTGCAGAACGCCGCTTCGATCGCCGGCCTGATGATCACCACCGAAGCGATGGTGGCCGAGGCTCCGAAGAAGGACGAGCCGGCGATGCCGGCCGGCGGTGGCATGGGCGGCATGGGCGGCATGGACTTCTAA	MAAKDIRFGEDARSRMVRGVNVLANAVKATLGPKGRNVVLEKSFGAPTITKDGVSVAKEIELADKFENMGAQMVKEVASKTNDNAGDGTTTATVLAQALIREGAKAVAAGMNPMDLKRGIDKAVVAAVAELKNLSKPTADDKAIAQVGTISANSDESIGNIIAEAMKKVGKEGVITVEEGSGLENELDVVEGMQFDRGYLSPYFINNQQSQSADLDDPFILLHDKKISNVRDLLPVLEGVAKAGKPLLIVAEEVEGEALATLVVNTIRGIVKVVAVKAPGFGDRRKAMLEDMAVLTGGTVISEEVGLSLEKATIKDLGRAKKVQVSKENTTIIDGAGDAAGIQARVTQIKTQIEDTSSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEDALHATRAAVEEGVVPGGGVALVRALTAVGNLTGANEDQTHGIQIALRAMEAPLREIVANAGEEPSVILNKVKEGTGNYGYNAANGQFGDMVEFGILDPTKVTRSALQNAASIAGLMITTEAMVAEAPKKDEPAMPAGGGMGGMGGMDF	PGPT0014570_3148	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014570-groEL|mopA-K04077	NA	NA
BMS020_05612	288	groS_2	COG0234	10 kDa chaperonin	ATGAGCATCAAGCCGCTTCACGACCGCGTGGTAGTCAAGCCGATCGAAGCCGACGAGATTTCCGCCGGCGGCATCGTGATCCCGGACTCGGCCAAGGAAAAGTCGACCAAGGGCGAGATCGTCGCCGTCGGCGCCGGCAAGCCGCTGGACAACGGCAGCGTGCGCGCACCGTCGGTCAAGGTCGGTGACAAGGTCATCTACGGCCAGTACGCCGGCAGCAGCTACAAGGCCGAAGGCATCGAGTACAAGGTCCTGCGCGAAGACGACATCCTCGCCATCATCGGCTGA	MSIKPLHDRVVVKPIEADEISAGGIVIPDSAKEKSTKGEIVAVGAGKPLDNGSVRAPSVKVGDKVIYGQYAGSSYKAEGIEYKVLREDDILAIIG	PGPT0014565_4096	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014565-groES|mopB-K04078	NA	NA
BMS020_05613	1761			hypothetical protein	ATGAGGTCGCTGTCCCCTGTTCTTTCGTTCGCCTGCCTGCTGGCGCTTTCCCCCGGCGCCCAGGCCACCGTGTTCATCAACGAACTCCACTACGACGATGCCACTGCCGCCGGCGATGCCGGCGAGGCCGTCGAAGTGGTCGCCACCGCCGGCGAGACACTGACCGGCTACCGGATCGTGCTCTACAACGGCAGTTCACCCAGCGCCGCCAAGGCCTATTCGGACACCGCCGTGCCAGCCGGGAGCCTGGTCAGCTGCGGCGGCCAGGCCCGCATCGCCACCGTGAGCTATGCCAGCAACGGCATCCAGAACGGTCCCAACGACGGGTTGGCGCTGGTCGATGCCAGCGGCCAGGTCGTGCAGTTCCTCAGCTACGAGGGGGCGATCACCGCCGCCGACGGCGCCGCCGCCGGCATGACCAGCACCGAGCTGCCGGTCAGCGAGAGCAACTCCACCGCCGCCGGGACCTCGCTGCAGCTGGCCGGCAGTGGCACCAGCGCCGCCGACTTCAGCTGGCAGTCCTCGCAGGCGCAGACCTTCGGCGCCTGCAACCTGGGCCAGCAGTTCAGCGGCAGCGGCGGGGGCGGCAGCGCCCCGACGATCACCGCCACCTCGCCGGCCGACGGTGCCAGCAACGTGCCGGTCGCCGGCGACCTGTCGGTGAGCTTCAGCGAGGCGGTCAGCGCCGGCAGTGGCGCGTTCGCGCTGGCCTGCTCGAGCTCCGGCACCGTCGCGCTGAGCTGGTCCGCCAATGCGACCACCTTCGCGCTGGGCACCGCGGCAACCCTGCAGCCGGGCGAGCAATGCAGCCTGGCCGTCAACGCCGCGGCGATCACCGACGCCGACGGACTGCATCCGGCCGCGGACCTGCAGGTCGCCTTCAGCGTCGCGGCGGCCGATGCCGGCGGTGACGGCTATTACAGCCGGATCAACACCTCCAGTGCCTCGCAGCTGCGCTGCTCGCTGCACGCGACCATCAAGGACCACACGGTCTATCCGTACAGCAGCAGCTCCGGTACCAGCACCTGGACGATCCTGGAGATCGCCGACGAGGACCCGGGCGACAGCAGCCGCATCCTCGATGCCTACCGCAACCGCAGCTACGCCAAGGGCAGCGACCGCGCGGGCACCGGCAGCGGGCTGACCTACAACCGCGAGCACAGCTGGCCGAACTCGCTCGGCTTCGGCACGGCGACCGGTGACAAGGGCCTGCCGTACGCGCCCTACACCGACACCCACATGCTGTATCTGACCGACGCCACCTGGAACGCCGACCGCGGCAACAAGCCGTACGCGGACTGCACCAGCGGCAGCTGCGGCGCCCGCGCCACCGAGGCCAACGCCGGCTACGGCGGCAGCAGCGCGCGTGGCGATTCCAACTGGGTCGTCAGCCCGGACGGCAACGGCGGCAGCTTCGAGGTCTGGGACCACCGCAAGGGGGACATGGCGCGGGCGGTGATGTACATGGCGATCCGCTACGAGGGCGGCACCGATGCCAACGGGCAGTCCGAGCCGGACCTGGAGCTGACCGACGACCGCAGCAAGATCGTCAAGACCAGCGCTTCGCCGGCCTACATGGGCCTGCTGTCGACGCTGATCGCCTGGCACCAGGCCGATCCGCCGGACGATGCCGAGCGCGCCCGCAATGAAGTGGTCTACAGCTTCCAGGGCAACCGCAACCCGTTCGTCGACCACCCCGAATGGGGCACCGCGGCGCTGTTCACCTCCAGCCAGCCGGCGACCTGCCAGCTGGCCGACTAG	MRSLSPVLSFACLLALSPGAQATVFINELHYDDATAAGDAGEAVEVVATAGETLTGYRIVLYNGSSPSAAKAYSDTAVPAGSLVSCGGQARIATVSYASNGIQNGPNDGLALVDASGQVVQFLSYEGAITAADGAAAGMTSTELPVSESNSTAAGTSLQLAGSGTSAADFSWQSSQAQTFGACNLGQQFSGSGGGGSAPTITATSPADGASNVPVAGDLSVSFSEAVSAGSGAFALACSSSGTVALSWSANATTFALGTAATLQPGEQCSLAVNAAAITDADGLHPAADLQVAFSVAAADAGGDGYYSRINTSSASQLRCSLHATIKDHTVYPYSSSSGTSTWTILEIADEDPGDSSRILDAYRNRSYAKGSDRAGTGSGLTYNREHSWPNSLGFGTATGDKGLPYAPYTDTHMLYLTDATWNADRGNKPYADCTSGSCGARATEANAGYGGSSARGDSNWVVSPDGNGGSFEVWDHRKGDMARAVMYMAIRYEGGTDANGQSEPDLELTDDRSKIVKTSASPAYMGLLSTLIAWHQADPPDDAERARNEVVYSFQGNRNPFVDHPEWGTAALFTSSQPATCQLAD				NA	NA	NA	NA	NA
BMS020_05614	336	cutA_2	COG1324	Divalent-cation tolerance protein CutA	ATGCACGCCGACGATCCGGTCCAGCTGCTGTTCGCCACCTGCCCCGACGAGGCCAGCGCCGCGCGGATCGCCCGCGCGTTGGTCGAGGAAGGCCTGGCCGCCTGCGTGACCCAGCTGCCCGGCGCCCGCTCGACCTACCGCTGGCAAGGCGCGGTGGAGCAGGCCGAGGAAATCCAACTGCTGGCCAAGACCCGCCGGAGCAGGGTGCAGGCGGCGATCGCCCGCCTGCAGCAGCTCCACCCCTATGAACTGCCGGAGGCGCTTGCGGTCGAAGCCAGCGCCGGCCTGCCCGCCTACCTGGACTGGGTGCGCGCCGAGACCGCCGAGGACCGATGA	MHADDPVQLLFATCPDEASAARIARALVEEGLAACVTQLPGARSTYRWQGAVEQAEEIQLLAKTRRSRVQAAIARLQQLHPYELPEALAVEASAGLPAYLDWVRAETAEDR	PGPT0004080_1119	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-DIVALENT_CATION_TOLERANCE,PGPT0004080-cutA-K03926	NA	NA
BMS020_05615	2262	dsbD_3		Thiol:disulfide interchange protein DsbD	ATGACGTTGCTGCACCGTTTCGCCCTGCTGTGCGTGCTGGCCCTGGCCAGCGCCAGTGCCGCCGCCTTCGACGAATCCGACCTGCTGCCGGTCGACAAGGCCTTCGAGCTGCAGGCGCATGCGCCGCAGCGCGACGTGATCGAGCTGGACTGGAAGGTCGCGCCCGGCTACTACCTGTACCGGCATCGCACCACGGTCAAGGCGCTGTCCGGGTTCGACGCCGGCACGCTGACCCTGCCCGACGGGCGGCGCAAGCACGATGAGTTCTTCGGCGACGTCGAGACCTACCACGGCAGCCTGCACGCCACCCTCGGCGGCCAGGCCGCGGCCGGCGCGCGCACGGTGACGCTGGAGGTGCGCTACCAGGGCTGCGCCGATGCCGGCGTGTGCTACCCGCCGCAGAAGCGCACGCTGAGCGTGGCGCTGCCGGGCCCCGACGGCGATGCCGGCGCGTCCGCGGCGCCGACCGCCGGCGCCGGGATGATCCCGGCACGCCCGGCGTTCCGCCTGCCCGGCGCCGGTGCCGGCGCGGTCGACAGCCTGCCGCTGCCGGCCGAGCAGGCGTTCGGCTTCGAGGCCATCGTCGGCGACGGCAACACCCTGCTGCTGCGCTTCACCCCGGCACCGGGCTATTACCTGTACCGCGACCGCACCTCGCTGGCGCTGGAAGGCACCGGCGGCATCCGCACCGGCGTGCCGCAGTGGCCGCAGGGCCGCTCGCACCACGACGAGCATTTCGGCGACGTGGTGGTGTATTTCGACCAGGCCGAGGTCAACCTGCCACTGCTGCGCGACCAGCGCGCGCCGGCCGACGTGACCCTGGTCGCAACGTTCCAGGGCTGCCAGACCGACGGCATCTGCTACCCGCCGATGACCCGCCGGGTGAAGCTGGCGCTGCCGGAGGGCAAGGTCTCCCCGCCGGGCCAGGCCGCCGCCGCGCCGCTGCCGATCCAGCCGCCGGCGCCGGGCACGCTCGGCGCCGGTGCGCCGGCGACCGCGACCGCGACCGCGACCGATGCCTCGGCCGACAATGCCGGGCGCAGCCTGCCGCCGCCGCGCGAGCGCAACCTGCTGGCGGTGCTGCTGCTGGCCCTGCTCGGCGGCCTGGTGCTGAACCTGATGCCCTGCGTGCTGCCGATCCTGTCGTTGAAGGTGCTGGGCCTGGCCCACAGCGGCGAGAGCCGCGCGCGCGCGCGCAGCCATGCGCTCTGGTATTCGCTGGGCGTGCTGCTGTCGTTCGCGGCGATCGGCGGGCTGGTGATCGCGCTGCGCGCGGCCGGCCAGGCCGCCGGCTGGGGCTTCCAGCTGCAGCAGCCGTGGTTCGTCGCCGCACTGGTCTATCTGATGTTCGCGCTGGGACTGAGCATGACCGGGGTGTTCACCCTGGGCAGCAGCCTGGGTGGGGTCGGCCAGTCGCTGGCCTCGCGGCGCGGCCCGGTCGGCGACTTCTTCACCGGCGTGCTGGCCTGCGTGGTGGCCAGCCCGTGCATCGCCCCGTTCATGGGCTCGGCGCTGGCCTATGCGTTCACCGCGCCGGCGCCGCTGGCAATGCTGGTGTTCATCGCGCTCGGCCTGGGCCTGGCGCTGCCGTTCCTGCTGATCGGCTTCGTGCCGTCGCTGGCGCGCCGGCTGCCGCGCCCGGGGGCATGGATGGAGACGCTCAAGCAGGTGCTGGCGTTCCCGATGTACCTCACCGCGATCTGGCTGCTGTGGGTGCTGGGCAAGCAGCGCGGCGTCGATGCGATCGCGCTGGTGCTGGTCGGGGCCACGCTGTTGGCGCTGGGCGCATGGTGGTTCGAGCGCAGCCGCTGGCAAAGCCGGCGCCTGGGCATGGGCCTGTCGCTGGCGATGCTGCTGCTGGCGCTGGTGCCGGTGTGGGGGGTGACCCGCATGCACGCCCCGGCCAGCGCCGCCAGCGCCGGCGAGGTCGCCTACTCGCCGCAGATGCTCGACCGGCTGCGTGCCGACAACCGCGTGGTGTTCGTCAACATGACCGCCGACTGGTGCGTGACCTGCAAGGCCAACGAGAAGAACGTGCTCGGCAGCGATGCGTTCCGCGACACGCTGCGCCGGGTCGACGCGGTCTACATGACCGGCGACTGGACCAACGTGGACCCACAGATCAGCGCGTTCCTGGACCAGCACCAGGCGGTCGGCGTGCCGCTGTACGTGGTCTACGGCCCCGGCGCGCCGCCGACGGTGTTGCCGACCGTGCTCAGCGAGGCGATCGTCGAGGACGCGCTGCTGCGCGCCTCGCGCTGA	MTLLHRFALLCVLALASASAAAFDESDLLPVDKAFELQAHAPQRDVIELDWKVAPGYYLYRHRTTVKALSGFDAGTLTLPDGRRKHDEFFGDVETYHGSLHATLGGQAAAGARTVTLEVRYQGCADAGVCYPPQKRTLSVALPGPDGDAGASAAPTAGAGMIPARPAFRLPGAGAGAVDSLPLPAEQAFGFEAIVGDGNTLLLRFTPAPGYYLYRDRTSLALEGTGGIRTGVPQWPQGRSHHDEHFGDVVVYFDQAEVNLPLLRDQRAPADVTLVATFQGCQTDGICYPPMTRRVKLALPEGKVSPPGQAAAAPLPIQPPAPGTLGAGAPATATATATDASADNAGRSLPPPRERNLLAVLLLALLGGLVLNLMPCVLPILSLKVLGLAHSGESRARARSHALWYSLGVLLSFAAIGGLVIALRAAGQAAGWGFQLQQPWFVAALVYLMFALGLSMTGVFTLGSSLGGVGQSLASRRGPVGDFFTGVLACVVASPCIAPFMGSALAYAFTAPAPLAMLVFIALGLGLALPFLLIGFVPSLARRLPRPGAWMETLKQVLAFPMYLTAIWLLWVLGKQRGVDAIALVLVGATLLALGAWWFERSRWQSRRLGMGLSLAMLLLALVPVWGVTRMHAPASAASAGEVAYSPQMLDRLRADNRVVFVNMTADWCVTCKANEKNVLGSDAFRDTLRRVDAVYMTGDWTNVDPQISAFLDQHQAVGVPLYVVYGPGAPPTVLPTVLSEAIVEDALLRASR				NA	NA	NA	NA	NA
BMS020_05616	651			hypothetical protein	ATGACCTTGTTCCTCGACGGCGCCGCCGGCCCGATCCAGCTGCTGCTCGAAGCGCCTGCCGGCGCCGCGCGCGGCATCGCGGTGATCAGCCACCCGCAGCCGCTGCTTGGCGGCACGCCCGCGCACCCGGTGCCGCACGCCATCGCCAGGCGCCTGCTGGAACGGGGCTGGATCGCGGCGCGCCCGAGTTTCCGCGGCGTCGACGGCAGCGCGGGCCACTACGACGGCGGCGTCGGCGAGGCCGAGGACACCGTGCAGGTCGTGCAGGCGCTGCGCGCACGCCATCCCGGCCTGCCGCTGGCGCTGGTCGGCTTTTCCTTCGGCGCGCACGTGCACGCGCGCAGCGCCTGCCTGCTGGAAGCCGATGCCCCGGCCGAGGCGGTGGTGCTGCTGGGCCTGCCGATCGGCGCGGCCGGCGGCAACCGCCATTACGAGGCGATGCCGCTGCCGGCCCGCACCCTGCTGCTGCACGGCGAGCTGGACGAGATGGCGCCGCTGCCGAACCTGCTGGACTGGGCGCGCCCGCGCCGGCATCCGGTGACGGTGTTCGCCGGCAGCAACCACTTCTTCAAGGGCTGCCTGGAGCGCGCGCTGGACGATGTGGCACTGCACCTGCAGCAGCTGCCACCGGGCCGCCGCCAGCACGACTGA	MTLFLDGAAGPIQLLLEAPAGAARGIAVISHPQPLLGGTPAHPVPHAIARRLLERGWIAARPSFRGVDGSAGHYDGGVGEAEDTVQVVQALRARHPGLPLALVGFSFGAHVHARSACLLEADAPAEAVVLLGLPIGAAGGNRHYEAMPLPARTLLLHGELDEMAPLPNLLDWARPRRHPVTVFAGSNHFFKGCLERALDDVALHLQQLPPGRRQHD				NA	NA	NA	NA	NA
BMS020_05617	1191			hypothetical protein	ATGTCGCGTGCCTGCCGCGCGGCGCGTCCTCCACTCCCGCCACCCGTGTCCACGCCCGTTCCCGCCCCGATCCTGCAGGTCTGCCAGCTGCTCAACCGGCTCGGCCGCGAACTGCTGTCGGCCGAACGCCGGCCGCAGCGCCTGCTGGACGAGGCCGAGACCATCCTCTCGGTCCTGCTGGCGATCGTGATCGCGCACCTGGTCGGCGCCCACAACGTCGGCTGGGCCGCCTTCAGCGGCTACATGGTGATGCGCGCCCAACTCGCCGAAACCCTCAGCCGGGGCACCCTGCGGGTGCTCGGCACGGTCGCCGGCGCGCTGCTGGCGTGGTGGCTCACCGCCTGGCTGGGCGGTTCGCTGCTGCTGGCCAGCGTGGCGCTCGCGCTGGTCGGCGGCACCACCCTGTACGCGGCGCTGACCCGGCGGCGCAGCTATGCCTGGCTGTTCACCAGCCTGACCTTCAGCATGGTGGTACTCGACGTGCTGCAGGCGCCGCTGGCCGATGTGCGCGCGTTCGCCCAGACCCGGGTGCTGGAAGTCGCTTCCGGTACCGTGGCCTGCATGACGGTCAGCCTGCTGTCGGCGTGGACGGTGCGGCCGAAGGTGCATGGCCGCCAGTTCTTCTTCGTCCCGACCGTGCCCGCCGCCAGTCCGCCGGGCTGGGAGCGCAGCGCCGCGCTGCATGCGCTGCAGGCCGCGATCGGGCTGGCGCTGCTGCCACCGCTGTCGCGCTGGATCGGCGCTGAGACACTGAGCCAGGCGGCGATCACCATCACCGCGGTGATGATGGTCCCGCTGGCGGCGCTGGACCGGTCGCGGGTGCTGATCACCACCCGGGTGCTGCACCGCTTCGCCGGCTGCCTGCTGGGCGCCGGCGTGGCCGCGCTGTTCCTGCTGTTCAGCCGCGGCAATCTGCCGGCGACGCTGCTGCTGATGGCGCTGGGCATCGCCGCCGGGCGCCACCTCGAGAACAGCGGCCAACCGTTCGCCTACATCGGCACCCAGTTCGCGCTGGCCTTCCTGGTGGTGTTCGTCCCCGACCACTACCAGGCGGTATCGAGCGCACCAGGCTGGGAGCGCCTGGCCGGCATCGTCTGCGGCCTGGTGCTGCTGTTGCTGGTGCGCGAAGGCTGGTACCGCTGCGCCACAGCGCAACGCGCGCGCCAGAGCGGGGACGCACGGCCGCGCTAG	MSRACRAARPPLPPPVSTPVPAPILQVCQLLNRLGRELLSAERRPQRLLDEAETILSVLLAIVIAHLVGAHNVGWAAFSGYMVMRAQLAETLSRGTLRVLGTVAGALLAWWLTAWLGGSLLLASVALALVGGTTLYAALTRRRSYAWLFTSLTFSMVVLDVLQAPLADVRAFAQTRVLEVASGTVACMTVSLLSAWTVRPKVHGRQFFFVPTVPAASPPGWERSAALHALQAAIGLALLPPLSRWIGAETLSQAAITITAVMMVPLAALDRSRVLITTRVLHRFAGCLLGAGVAALFLLFSRGNLPATLLLMALGIAAGRHLENSGQPFAYIGTQFALAFLVVFVPDHYQAVSSAPGWERLAGIVCGLVLLLLVREGWYRCATAQRARQSGDARPR				NA	NA	NA	NA	NA
BMS020_05618	447	aroQ1	COG0757	3-dehydroquinate dehydratase 1	ATGGCGCGACTGCTGCTGCTGCATGGCCCCAACCTCAACCTGCTCGGCACCCGCGAGCCGGAGGTCTATGGGTCGACCACGCTGGCGCAGATCGACCAGGACCTGGGCGCGCGCGCCGCAGCCGCCGGGCACCAGCTGGCCTGCCTGCAGAGCAATGCCGAACACGTGCTGGTCGAACGCATCCACGCCGCCCGCGACGAGGGCGTGGCGTTCATCCTGATCAACCCGGGCGCGTTCACCCACACCTCGGTGGCGCTGCGCGATGCCCTGCTCGGAGTCGCGATCCCGTTCGTCGAGATCCACCTGTCCAACCCGCATGCGCGCGAGCCGTTCCGCCACCACAGCTACCTGAGCGACAAGGCGCTCGGCGTGGTCTGCGGCTTCGGCGCCGACAGCTACCGCATGGCCCTGCAGGGCGTGCTGGCGCGGCTGGAGGCCGCCGCGTGA	MARLLLLHGPNLNLLGTREPEVYGSTTLAQIDQDLGARAAAAGHQLACLQSNAEHVLVERIHAARDEGVAFILINPGAFTHTSVALRDALLGVAIPFVEIHLSNPHAREPFRHHSYLSDKALGVVCGFGADSYRMALQGVLARLEAAA	PGPT0012905_2131	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
BMS020_05619	480	accB_2	COG0511	Biotin carboxyl carrier protein of acetyl-CoA carboxylase	ATGGATCTCCGCAAAATCAAGAAGCTGATCGACCTGCTGGAAGAATCGAATCTCGCCGAAATCGAGATCAAGGAAGGCGAGGAAAGCGTGCGCCTGGCGCGTGCGGTCGCCCCCAGCCCGGTGATCGCCGCCGCGCCGATGGCACCGGCGCAGGTCGCCGCCCCGGCCGCCGCGGCGATGCCGATGAGCTCGCCGACCGAGGCCTCCACCGGCGGCACCGCCAAGGCCGGCAACGCGCTGCCGGACGGCCACGTGCTGCGCGCGCCGATGGTCGGCACGCTGTACACCTCGCCGGCGCCGGACAAGCCGGCCTTCGTCAGCGTCGGCCAGACCGTCAAGGCGGGCGACACGCTGGCGATCATCGAGGCGATGAAGATGTTCAACCCGATCGAGGCCGACGTCTCCGGCACGATCGTGGCGATCCTCGGCGAGAGCGGCCAGCCCGTGGAATTCGACCAGCCCCTGTTCGTGATCGGCTGA	MDLRKIKKLIDLLEESNLAEIEIKEGEESVRLARAVAPSPVIAAAPMAPAQVAAPAAAAMPMSSPTEASTGGTAKAGNALPDGHVLRAPMVGTLYTSPAPDKPAFVSVGQTVKAGDTLAIIEAMKMFNPIEADVSGTIVAILGESGQPVEFDQPLFVIG	PGPT0001700_1698	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
BMS020_05620	1368	accC_2	COG0439	Biotin carboxylase	ATGCTCGACAAGGTCGTAATCGCCAACCGCGGTGAGATCGCGCTGCGCATCCTGCGCGCGTGCCACACGCTCGGCATCCGCACGGTCGCGGTGCACTCCACCGTCGACCGCAACCTCAAGCACGTGGCGATGGCCGACGAGTCGGTGTGCATCGGCCCGGCGCCGTCCAGCGAGAGCTACCTCAACATCCCGGCGCTGATCGCCGCGGCCGAGGTCACCGACGCGCAGGCGATCCACCCCGGCTACGGCTTCCTCTCCGAGAACGCCGACTTCGCCGAGCGCGTGGAGCAGTCCGGCTTCATCTTCATCGGCCCGAAGGCCGACACCATCCGCCTGATGGGCGACAAGGTGGAAGCGATCCGCGCGATGAAGGCCGCCGGCGTGCCGTGCGTGCCAGGCAGCGGCGGTCCGCTGGGCGAGGACATCGTCGCCAACACCAAGATCGCCCGCGAGATCGGCTACCCGGTCATCATCAAGGCGGCCGGCGGCGGCGGCGGCCGCGGCATGCGCGTGGTGCACACCGAGAGCGCGCTGAAGGCCGCGATCGAGACCACCAAGAGCGAAGCCAAAGCCGCCTTCAGCAACGACCAGGTGTACATGGAGAAGTTCCTGGAGAATCCGCGCCACGTGGAGATCCAGGTGCTGGCCGACGGCCAGGGCAACGCGATCCACCTCGGCGAACGCGACTGCTCGATGCAGCGCCGCCACCAGAAGGTGGTGGAGGAAGCGCCGGCGCCGGGCATCACCGAGGAGCTGCGCAACGAGATCGGCAAGGTCTGCGTGGAAGCCTGCATCCGCATCGGCTACCGCGGCGCCGGCACGTTCGAGTTCCTGTTCGAGAACGGCCGCTTCTACTTCATCGAGATGAACACCCGCATCCAGGTGGAGCATCCGGTGACCGAGCGCATCACCGGCATCGACCTGGTGTGCGAGCAGCTGCGCATCGCCGCCGGCCACAAGCTCAGCATCAAGCAGAGCGACATCGTGCTGCGCGGGCATGCGATCGAGTGCCGCATCAACGCCGAGGACCCGGAAACGTTCATGCCCAACCCGGGCCTGATCACCGCGTTCCACCCGCCGGGCGGCCCGGGCGTGCGCGTCGACACGCACATCTACAGCGGCTACAAGGTCCCGCCGAACTACGATTCGATGATCGGCAAGCTGATCGTGCACGGCCCCGATCGCGAGACCGCGATCGCGCGCATGCGCGTGGCGCTGAGCGAGATGGTCGTGGACGGCATCAAGACCAACATCCCGCTGCAGCAGCGGATCATGCGCGACAAGGGCTTCCAGGCCGGTGGGCAGAACATCCACTACCTGGAAAAGCGCCTGGCCGAGCGCAAGAACCAGTCGATCGCACTGGTCTGA	MLDKVVIANRGEIALRILRACHTLGIRTVAVHSTVDRNLKHVAMADESVCIGPAPSSESYLNIPALIAAAEVTDAQAIHPGYGFLSENADFAERVEQSGFIFIGPKADTIRLMGDKVEAIRAMKAAGVPCVPGSGGPLGEDIVANTKIAREIGYPVIIKAAGGGGGRGMRVVHTESALKAAIETTKSEAKAAFSNDQVYMEKFLENPRHVEIQVLADGQGNAIHLGERDCSMQRRHQKVVEEAPAPGITEELRNEIGKVCVEACIRIGYRGAGTFEFLFENGRFYFIEMNTRIQVEHPVTERITGIDLVCEQLRIAAGHKLSIKQSDIVLRGHAIECRINAEDPETFMPNPGLITAFHPPGGPGVRVDTHIYSGYKVPPNYDSMIGKLIVHGPDRETAIARMRVALSEMVVDGIKTNIPLQQRIMRDKGFQAGGQNIHYLEKRLAERKNQSIALV	PGPT0001705_1368	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
BMS020_05621	369			hypothetical protein	ATGACATACCGACGCTGGCTGCATGGCGCCAAGTTCTGGCTGCTGGTACTGCTGTTCGTCGCCTATGCGGCGGCGGCGGTGGGCGTGGTGATGATCGATACCGCCGAGGACCGCTACCGCGGGCTGTCGCAGGTGCGCCTGACCGAGGTCGGCAGCAATGCCGGCCAGCGCCGCGCGGCGGCTGCCGACGTGGCCGCGGTGTATCGCGCGCAGAGCGGGTTGCCGTTCGCGGCGCTGCCGAGCGGCGCGACCTTCCAGATCGTCTGGCCGGATGGATCGACCGAGACCATGCGCATCGTCGATCCGCGTTCGCAGGGCGGCATCGAGCCGGTCGCCGGGACCCAACAGGCCGCGCCGCAGGCGCACTGA	MTYRRWLHGAKFWLLVLLFVAYAAAAVGVVMIDTAEDRYRGLSQVRLTEVGSNAGQRRAAAADVAAVYRAQSGLPFAALPSGATFQIVWPDGSTETMRIVDPRSQGGIEPVAGTQQAAPQAH				NA	NA	NA	NA	NA
BMS020_05622	933			hypothetical protein	ATGCCGTTCGTCCGCGCCCCTGCCAGGTGGTGGCTGCTCGCGCCCGCGCTCGCGCTGGTCGGCGCGTGGTGGCTGCGTGCGCCGTCGGCGCACGAGGGGGCGGAGTCGCGCGCGGCGGTGTTCGCGCCGGCGCCATTGGCGCCCGCGCCGGTCCAGCCGGAGCGGCTGGTGGCGCGGACCAGCGCGGTCGGGCCGGGCCTGCCGCTGCCGCAGCGTGCCGGCCTGGAGCAGCCCGACCTGTACCGTTACGCGCAGCAGCTGCGCCAGGCGCTGGCGCAGGGTGATGCCGGCGCCGGCTGGATGCTCAGCCGCGTCTACGATTATTGCGCTGGCTATGCGCGCGATCCGGCCGGCTACGCCGGCGACAGTGCCTGGATGGCGACGCAGGCCAATCCGGGCGTGGCCGCGCTGCACGAGGCCCGTGACCGGGTCGCGGCGCGGTGCGCGGGCTTCGCGCCGGCCGATGGCCTGTCCTGGCAGCAGGTGGTGCAGGCGCGCGAGGACGCAGCCGCGGCCGGCAACCTGGCCGCCGAGGCCTCGCTGTTGGCGCTGGGTCAGCCTCTGGACGGCTCCACGGCCTATAAACGGGGCCTGGTCCAGCGTGTGCTGGCCTCGCGCGACCCGGAGGCCTACCTGGCGTTGTCGCCGGCCATGGGCGTGCGTGCGGCCGGCGACGACAGCTATCGGGGGTTCGTCGCCGGCGACCAGTACGCCGAGCTGGCGTGGCAGGTGGCGGCCTGCCGGCTGGGGCTGGACTGCGGCGCGCAGGGCAGCCTGATGACCAGCTACTGCGCCAACGCCGGCATCTGCTCGCAGGATGCCGCACAGGATTTCGAGTCTTTCGTATACGACGCCGCGGTGCCGCGGCAGGGGTCTGGGACAATGGACGCGATGGTCGAGGCGCTGGTCGCCGGTGAAGGAGTGAAGTCATGA	MPFVRAPARWWLLAPALALVGAWWLRAPSAHEGAESRAAVFAPAPLAPAPVQPERLVARTSAVGPGLPLPQRAGLEQPDLYRYAQQLRQALAQGDAGAGWMLSRVYDYCAGYARDPAGYAGDSAWMATQANPGVAALHEARDRVAARCAGFAPADGLSWQQVVQAREDAAAAGNLAAEASLLALGQPLDGSTAYKRGLVQRVLASRDPEAYLALSPAMGVRAAGDDSYRGFVAGDQYAELAWQVAACRLGLDCGAQGSLMTSYCANAGICSQDAAQDFESFVYDAAVPRQGSGTMDAMVEALVAGEGVKS				NA	NA	NA	NA	NA
BMS020_05623	921	prmA_2	COG2264	Ribosomal protein L11 methyltransferase	ATGCCGTTCCTCGAATTGACCCTGCGCTGCTCCGAATCCACCCAACCGCGGTTCGAGAACGCGCTGGAAGACGTCGGCGCGCTGGCGGTGACCATGCTCGACGCCGATGCCGACACCAGCAACGAGCGCGCGATCCTGGAACCGGGCGTCGGCGAGACCCCACTGTGGGAATCGCTGGTACTGACCGCGCTGTTCCCCGACGACAGCGATGCCTTGCTGCTGCTGGCGGCGCTGGAAGCGTTCGATCCGGAACTGGACTGGAGCGGCGTGCAGTTCCGCAAGGTCGAGGACGAGGACTGGGAACGCGCCTGGCTGGACCAGTTCCAGCCGATGCGGTTCGGTGCGCGCACCTGGATCGTGCCGTGGAACCATGAGCTGCCGGACGACGCACAGGCCACCGACGCGGCGGTGGTGCGGCTGGATCCGGGCCTGGCGTTCGGCTCGGGTACCCATCCGACCACCGCGCTGTGCCTGCGCTGGCTGGACACGCTGGCCGGACAGGGCGAGCTGCAGGATCGGCAGGTGCTCGATTTCGGCTGCGGCTCCGGCATCCTGGCGCTGGCAGCGCTGAAGCTGGGCGCCGCCGGCGCGGTCGGCGTCGACAACGACCCGCAGGCCCTGCTGGCCACCCACGACAACGCCGAGCGCAACGCGGTCGACGCGCAGCTGGCGGTGTACCTGCCGCAGGACGAGCCGGTGCGCACCTACCCGGTGGTGGTCGCCAACATCCTCGCTTCGGCGCTGGATGCACTGGCCGAGACGCTGGCCGCGCGCGTCGCTGCCGGCGGCCGCATCGCGCTGTCGGGCATCCTGCACGGCCAGGAGGACGAGCTGCTGACGCGCTACGCGGCCTGGTTCGACGACCTGCACGCGACCCAGGATGGCGACTGGATGCGCATCGACGGCCGCCGTCGCGGCTGA	MPFLELTLRCSESTQPRFENALEDVGALAVTMLDADADTSNERAILEPGVGETPLWESLVLTALFPDDSDALLLLAALEAFDPELDWSGVQFRKVEDEDWERAWLDQFQPMRFGARTWIVPWNHELPDDAQATDAAVVRLDPGLAFGSGTHPTTALCLRWLDTLAGQGELQDRQVLDFGCGSGILALAALKLGAAGAVGVDNDPQALLATHDNAERNAVDAQLAVYLPQDEPVRTYPVVVANILASALDALAETLAARVAAGGRIALSGILHGQEDELLTRYAAWFDDLHATQDGDWMRIDGRRRG				NA	NA	NA	NA	NA
BMS020_05624	786			hypothetical protein	ATGAGCGAAGACACGCCGTCGCCACAACCGCTGGCCACGTTCCTGCGCGCCGGTACCGCACCGGCGCCGGGCGCGCGTACGGACACGCCGGCGCAGGCGCCCGACCACGGCGACGCGGACGCCGCGCCCGCCACGGCCAGCGAGGTCACCGAGGTCAGCGAGCCGAGCGCGCAGGCCGGCGCGGCGACGCCGGCCGAGCCGTCGGCCGGGGATGCCACGGACGCCGCCACGGAGCCGCAGCCGGCGGCACCGTCCCCCGCCGTGCACGCCGCCGCTCCCAGCTTCATGCAGCCCACGCGCACCAGCACGGTGCGCCGGCGCGTGCCCGGCTGGCAGTGGGGCGTGGCCGCGGCGCTGACCGCGCTGCTCGGCCTGCAGCTGGTGCTGGCCGACCGCGCACGCCTGGCCAACGATGCCGGCTGGCGCCCGCTGCTGGGCGGGCTGTGCAGCGTACTGCGCTGCGCGCTGCCGCCGTGGCACGAACCGCAGGCGTTCACCATGCTCACCCGCGAGGTGCGCCCGCAGCCGGGCCGCGCCGGCGTACTGCGGATCCAGGCCAGCTTCCGCAACGATGCGCGCTGGGCGCAGCGCTGGCCGTGGCTGCAGCTGTCGCTGTCCGATGCAGACGGCCGGGTGATCGGCAGCCGGGTGTTCGCCCCGCACGAATACCTCGGCCATCCGGTCGCCGACAGCGAGACGCTTGCACCAGGACAGAGCACGCAGATCGAGTTCCAGGTGCGCGAACCGGCGGCCAGCACCGCAGCGTTCACCTTCGACTTCCGCTGA	MSEDTPSPQPLATFLRAGTAPAPGARTDTPAQAPDHGDADAAPATASEVTEVSEPSAQAGAATPAEPSAGDATDAATEPQPAAPSPAVHAAAPSFMQPTRTSTVRRRVPGWQWGVAAALTALLGLQLVLADRARLANDAGWRPLLGGLCSVLRCALPPWHEPQAFTMLTREVRPQPGRAGVLRIQASFRNDARWAQRWPWLQLSLSDADGRVIGSRVFAPHEYLGHPVADSETLAPGQSTQIEFQVREPAASTAAFTFDFR				NA	NA	NA	NA	NA
BMS020_05625	219	fis_2	COG2901	DNA-binding protein Fis	TTGCGCGAGCACGTCGCGCAATCCGTCCGTCGCTATCTGCGCGACCTGGACGGCAGCGAGGCGGACGATGTCTACGAGATCGTGCTGCGCGAGATGGAAATCCCGCTGTTCGTGGAAGTGCTCAACCACTGCGAAGGCAACCAGAGCCGCGCCGCGGCGATGCTCGGCATCCACCGCGCCACGCTGCGCAAGAAGCTCAAGGAATACGGGCTGGCCTGA	MREHVAQSVRRYLRDLDGSEADDVYEIVLREMEIPLFVEVLNHCEGNQSRAAAMLGIHRATLRKKLKEYGLA	PGPT0025570_454	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI1|AI-2|CAI-1_PERCEPTION|SIGNALLING,PGPT0025570-fis-K03557	NA	NA
BMS020_05626	1587	purH_1	COG0138	Bifunctional purine biosynthesis protein PurH	ATGTCCGCTGATTTCCTGCCCGTCCGCCGGGCCCTGCTCTCCGTTTCCGACAAGACCGGCCTGGTCGATCTCGCCAAGGCGCTGGCCGCGCGCGGCGTCGAACTGCTGTCCACCGGCGGCACCGCCAAGGCGATCCGCGACGCCGGCCTGGCGGTCAAGGACGTCTCCGACGTCACCGGCTTCCCGGAAATGATGGACGGCCGGGTCAAGACCCTGCACCCGCTGGTGCACGGCGGCCTGCTCGGCCGTGCCGGGCTGGATGATGCAGTGATGGCCGAACACGGCATCGCCCCGATCGACCTGCTGGTGCTGAACCTGTACCCGTTCGAAGCGGTGACCGCCAAGGCCGACTGCACGCTGGCCGACGCGGTCGAGAACATCGACATCGGCGGCCCGGCGATGCTGCGCAGCGCGGCCAAGAACTTCGCCCGCGTCGCCGTGGCCACCAGCCCGGACCAGTACGCCGGCCTGCTCGCCGAGCTGGAGGCCAACGATGGCCAGCTGTCGGCAGCGCAGCGTTTCGCGCTGTCGGTGGCGGCGTTCAACCGCGTCGCGCAGTACGACGCGGCGATCAGCAACTATCTCTCGGCGATCACCGACACCTCGACCGAGGTGCCGGCGCGCAGCGCGTTCTCCGCGCAGGCCAACGGCAGCTTCGTCAAGGTGATGGACCTGCGCTACGGCGAGAACCCGCACCAGCAGGCGGCGTTCTACCGCGACCTGTATCCGGCACCGGGTTCGCTGGCGACCTTCGAGCAGCTGCAGGGCAAGGAGCTGAGCTACAACAACATCGCCGACAGCGATGCGGCCTGGGAATGCGTGCGCCAGTTCGACGCGCCGGCCTGCGTGATCGTCAAGCACGCCAACCCGTGCGGCGTGGCGGTCGGCGTGGCCTGCGGCGACGCCTACGAGCTGGCCTACGCCACCGACCCGACCAGCGCGTTCGGCGGCATCCTCGCCTTCAACCGCACGCTGGACGCGGCCACCGCCAAGGCGATCCTCGACCGCCAGTTCGTCGAGGTGCTGATCGCGCCGGACTACGAGCCCGCTGCCCTGGACTACGCGACCAAGAAGGCCAACGTGCGCGTGCTGCGCATCCCGATGGCGCCGGCGTCGACCGGCTTCATCGATACCAAACGCATTGGGTCGGGCCTGCTGATGCAGACCGCCGACGATCGCGTGGTGACCCGCGACGAGCTGAAGGTGGTGACCAAGCTCGCGCCGAGCGATGCGCAGTTCGCCGACCTGCTGTTCGCGTGGAAGGTGGCCAAGTTCGTCAAGTCCAACGCGATCGTCTACGCCAAGGACAACCGCACGATCGGCGTCGGCGCCGGGCAGATGAGCCGGGTGTATTCGGCACGCATCGCCGGCATCAAGGCCGCCGATGCCGACCTGGTGGTCGAGGGCTCGGTGATGGCGTCCGACGCGTTCTTCCCGTTCCGCGACGGCATCGACGCCGCCGCGGCCGCCGGCATCAAGGCGGTGATCCAGCCGGGTGGCTCGATGCGCGACAACGAAGTCATCGCCGCGGCCGACGAGCACGGCATCGCGATGGTGTTCACCGGCGTGCGGCATTTCCGCCACTGA	MSADFLPVRRALLSVSDKTGLVDLAKALAARGVELLSTGGTAKAIRDAGLAVKDVSDVTGFPEMMDGRVKTLHPLVHGGLLGRAGLDDAVMAEHGIAPIDLLVLNLYPFEAVTAKADCTLADAVENIDIGGPAMLRSAAKNFARVAVATSPDQYAGLLAELEANDGQLSAAQRFALSVAAFNRVAQYDAAISNYLSAITDTSTEVPARSAFSAQANGSFVKVMDLRYGENPHQQAAFYRDLYPAPGSLATFEQLQGKELSYNNIADSDAAWECVRQFDAPACVIVKHANPCGVAVGVACGDAYELAYATDPTSAFGGILAFNRTLDAATAKAILDRQFVEVLIAPDYEPAALDYATKKANVRVLRIPMAPASTGFIDTKRIGSGLLMQTADDRVVTRDELKVVTKLAPSDAQFADLLFAWKVAKFVKSNAIVYAKDNRTIGVGAGQMSRVYSARIAGIKAADADLVVEGSVMASDAFFPFRDGIDAAAAAGIKAVIQPGGSMRDNEVIAAADEHGIAMVFTGVRHFRH	PGPT0008110_2300	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008110-purH-K00602	NA	NA
BMS020_05627	855			hypothetical protein	ATGCGTCTACCCGGTGCACCGCGCACGGCGCTGACGGCGATCGCCGCAGCGCTCGCACTGGCGGCGTGCCAGCCGGCTACGCCACCGTCGCCGCCCACTACGGCGGCGCCCAGCGCTGCGCCAGCCAGCACGCCGGCGCCGGCCCATGTCAGCCGTACCGCCAAGCTCGCGCGCTTCCTGCAGCAACGGTACGGCGCGGCCGCACAGCTGCGCGGCGACTGGACGGGCCGTTGGGGCGATGGCGACGATGCCCGCGAGGTGAGCTACCACGTCTGCGCCGAGCAGCCGGTGGTGATCGGCGACCGCTGGCAGCAGCTGCTGGCGGTCTGCGGCACACTCGCCGATGCCGGCCATCCCGATCCTGGCGTGATCGACTTCCACGTCCTGCGCGATGGCGGCGAGCGCTTCGAAGTCGCCGCCAGCCTGACCGGGCAGACGTTCGGCAGCATGGGCAATCCCGGCGAAGTCTCGGTGCTGAGGCTCGGCAGCGACTTCTACGGCTTCCTGGTCCGCCATGGCTGGGCCGGACAAGGCTATCTGCTGCTATCCCAGGATCTGGTGGTGCCTGGCCGCGACGGACTGGTCAACGCCGGCTCGCTGCGGCGGCATATCGACAACCAGGCCGCGCTGGACTGCGACGCGCACGACGCTGGCTGCGATAGCGAGCGTTTCGACGTCGATTTCGATCTCCAGCCGGACGCCAGCGATCCCACCGCGCGGATCTGGCCGCTGGACGTGCGCGAGGAGGGGCACGCCTGCGGTCATGCGCTGTCGCGCCAGCATCGTTTCAGCCTCGACACCACGCATTGGACCTATCCGTTCCCGGACGCGCTGCGACGCGAAGGCTGCGATTGA	MRLPGAPRTALTAIAAALALAACQPATPPSPPTTAAPSAAPASTPAPAHVSRTAKLARFLQQRYGAAAQLRGDWTGRWGDGDDAREVSYHVCAEQPVVIGDRWQQLLAVCGTLADAGHPDPGVIDFHVLRDGGERFEVAASLTGQTFGSMGNPGEVSVLRLGSDFYGFLVRHGWAGQGYLLLSQDLVVPGRDGLVNAGSLRRHIDNQAALDCDAHDAGCDSERFDVDFDLQPDASDPTARIWPLDVREEGHACGHALSRQHRFSLDTTHWTYPFPDALRREGCD				NA	NA	NA	NA	NA
BMS020_05628	1287	purD_1	COG0151	Phosphoribosylamine--glycine ligase	TTGAAGATCCTCGTCATCGGCTCCGGCGGCCGTGAACACGCCCTGGCCTGGAAGCTCGCGCAATCCCCGCGCGTCACCGAGGTGCTGGTCGCGCCGGGCAACGCCGGCACCGCGACCGAAGCGCGCTGCCGCAACGTGGCGGTCAAGGTCACCGATCTCGACGGCCTGCTGAAGCTTGCCCAGGACGAGGCCGTCGCGCTGACCGTGGTCGGCCCGGAAGTGCCGCTGGTGCTCGGCGTCGTCGATCGCTTCCGCGCCGCCGGCCTGCGCATCTTCGGGCCGACCGCCAAGGCGGCGCAGCTGGAAGGCAGCAAGGCGTTCGCCAAGGACTTCCTCGCCCGCCACGGCATCCCCACCGCCTACTACGCGGTGCATACCGAGGTCGATGCGGCGCTGGCCTACGTGCGCGAAAAGGGCGCGCCGATCGTCATCAAGGCCGATGGCCTGGCTGCCGGCAAGGGCGTGATCGTGGCGATGACGCTGGACGAGGCCGAAGCGGCGGTGCGCGACATGCTCGCCGGCAACGCGTTCGGCGACGCCGGTGCACGCGTGGTGATCGAGGAATTCCTCGACGGCGAGGAAGCCAGTTTCATCTCGATGGTCGACGGCACGCATGCGCTGCCGATGGCCACCAGCCAGGACCACAAGCGCGTCGGCGACGGCGACACCGGCCCGAACACCGGCGGCATGGGCGCGTATTCGCCGGCACCGGTGGTCACCGCCGAGGTGCACGCACGGGTGATGCGCGAAGTGGTCGATCCGACCGTGCAGGGCATGATCGCCGACGGCGTGCCGTTCACCGGCTTCCTCTACGCCGGGCTGATGATCGACGCCAGCGGCGCGCCGAAGGTGATCGAATTCAACGTGCGCTTCGGCGACCCGGAGACCCAGCCGGTGATGTTGCGCCTGCAGTCGGACCTGGTTGATCTGGTCGAAGCGGCGATCGACGGCAAGCTCGACCAGGTCGAAGCGCAGTGGGATCCACGTCCGTCGCTGGGCGTGGTGATCGCAGCGGCGCCGTACCCGGAAACGCCGATCACCGGCGACGTCATCGGCGGCCTCGACGCGGTGCCGGCCAGCGCCAAGGTGTTCCATGCCGGCACCGCGCTGGATGCGGCCGGCAACGTGATCAGCGCCGGCGGCCGCGTGCTATGCGTGGCCGCGCTTGGCGACAGCGTGTCCGACGCGCAGCGCCACGCCTACGCCGGCGTCGACGCGATCAGCTGGACCAACGCGTTCCATCGCCGCGACATCGGCTGGCGCGCGATCGCGCGCGAGCAGGGCTGA	MKILVIGSGGREHALAWKLAQSPRVTEVLVAPGNAGTATEARCRNVAVKVTDLDGLLKLAQDEAVALTVVGPEVPLVLGVVDRFRAAGLRIFGPTAKAAQLEGSKAFAKDFLARHGIPTAYYAVHTEVDAALAYVREKGAPIVIKADGLAAGKGVIVAMTLDEAEAAVRDMLAGNAFGDAGARVVIEEFLDGEEASFISMVDGTHALPMATSQDHKRVGDGDTGPNTGGMGAYSPAPVVTAEVHARVMREVVDPTVQGMIADGVPFTGFLYAGLMIDASGAPKVIEFNVRFGDPETQPVMLRLQSDLVDLVEAAIDGKLDQVEAQWDPRPSLGVVIAAAPYPETPITGDVIGGLDAVPASAKVFHAGTALDAAGNVISAGGRVLCVAALGDSVSDAQRHAYAGVDAISWTNAFHRRDIGWRAIAREQG	PGPT0021575_978	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021575-purD-K01945	NA	NA
BMS020_05629	2097	fcuA_1		Ferrichrome receptor FcuA	ATGTCGCCTGTGTTCTCCGTCCATTGCCGTTCCTCCTTCCGTGGTGCGCGCGCGCCCCGACTGGCGCTGCTGGCAACCGCGCTGTTCGCCGCTACCGCCGCGCACGCCGCTGAGGACGATGCCGAGCGCCGCGGCACCGCCACCGAGCTCGACGCGGTCAGCGTCACCGCCGACCGCGTGCAGGCCAACACCGGCGCGCTCGGCGACCGCAGCGTGCGCGACACGCCGTTCGCGATCGCGGTGGTGGACAAGGAGGACCTGGCCAAGCGCCAGGTGGTGACGCTGGGCGATGCCTTCTTCAACGATCCGTCGGTAGTGACCCAGGTCGGCCGCGACAGCAGCGGCTGGAGTTCGCCGATCATCAACCGCGGCCTCGGGCTGTCCTGGGACAGCTACCGCATCAACGGCATGAAGGTCTCGTCGTGGGGTGGCGAATGGCCGCTGGAAGTGATGGAGCAGGTGGAGCTGCTCAAGGGCCCGGTCGGGTTTCTGTACGGCTTCGGCGCGCCCGGCGGCATGGTCAACTACACCACCAAGAAGCCGACCGACGAGACCACCGCCTCGGTGCGGCTGGGCTGGCGCTCGGCCGGCATCGGCAGCGGCCAGGTCGACGTCGGCGGACGCTTCGGCAACGAAGACATGTTCGGCTACCGCTTCAACCTGGTGCGCGAAAAGGGCGAGACCGCCAGCGGCGGCCATCTCGACCGCAAGGTCGCCTCGGCGGCGCTGGACGCGCGCCTGAGCGACACGCTGACCTGGACCGCCGACATGGTCTACCAGGACCGCAAGCTGGAAGACGAAGCGCCGCAGTACTACTTCCGCGGCCTCACCTCGGTGCCGCGGGCGATCAGCGGCGACGTCGATAATGCGGTGGACGGCAGCTACTACAACATCCGCTCCAAGCTGCTCTCGACCGGCCTGGAATGGCGCTTCGCCGACGGCTGGAAGGCCAGCCTGAACTACGGCGTGGTGACCTCCTGGAGCGCGGTCAACAAGATCTTCGCCTACATCGACAACAACAATGGCGACTATGCGGTCAACGCCTACGAGCTCGGCGGCGAAAGCGATTGGCGGCAGCTGCAGGCGATGGTCCAGGGGCAGTTCGCCACCGGCCCGCTGACCCACCAGCTGGTCGCCGGCGCCTCGCAGCAGGAGGAAACCGGCTGGGATCGCCCCTCGCGCTGGCAGACCATCGGCCGCGGCAATCTCTACGACTGGCAGGGGATGCGCTACGACGGCAGCTACCTGGGCGCGCAGACGCGCAGCAGCAGGACGGTGCAGAAGGGCGTGTTCCTCAGCGACACGATCGCGTTCGCGCCGGGCTGGTCGCTGCTGGCCGGCTGGCGCTACAACGATTACGAGGAAGTCGGCGCGTACCACACCTATCCGGTCACCCCGACCTACGCGCTGCTGTACAAGCCAACCGAAACGGTGACGCTGTATGCCAGCTACATCGAATCGCTGGAAGCCGGCAGCCGCGTCGGCGACGACTACCTCAACGCCGGCGACGTGCTCGACGCCACCATCAGCAAGCAGTACGAGATCGGCGCCAAGATCGAACAGCCGCGCTGGAACGCCAGTGCGGCCGCATTCCGGCTCGAGCGCGGCGCCAACATCGACCGCATCACCGACGCCGGCACCTACCTCGAACAGGACGGCATCACCCTGTACCAGGGCCTGGAAGCCAGCGGCGACGTGCGCCTGACCGACAACCTGCGCGTCGGCGGCGGCGCGACCTGGCTTGATTCCCAGTACGACAAGCTGGACAGCAACGCCACCTACACCGGCAACCGGGTGACCTTCGCCGCGCGCTGGCAGGGCGTGCTGCATGCCGATTACGAGATTCCGGCGGTCAACGGGTTGAGCGTGTACGGCGCGCTGCGCTACTTCGGCGACGTCTACTACGACACCGCCAACACGCTGAAGCTGCCCGACTACACCCTGGCCAGTGCCGGCGCCGGCTACCGCATGCAGGTGGCCGGGCATCCGCTGACCTGGCGGCTGAGCATCGACAACCTGACCAACCGCAAGTACTGGCTGACCAACAGCATCGGCGCCTCGCGCACCTACGCGCTGAGCGTGCAGTTCGACCTCTGA	MSPVFSVHCRSSFRGARAPRLALLATALFAATAAHAAEDDAERRGTATELDAVSVTADRVQANTGALGDRSVRDTPFAIAVVDKEDLAKRQVVTLGDAFFNDPSVVTQVGRDSSGWSSPIINRGLGLSWDSYRINGMKVSSWGGEWPLEVMEQVELLKGPVGFLYGFGAPGGMVNYTTKKPTDETTASVRLGWRSAGIGSGQVDVGGRFGNEDMFGYRFNLVREKGETASGGHLDRKVASAALDARLSDTLTWTADMVYQDRKLEDEAPQYYFRGLTSVPRAISGDVDNAVDGSYYNIRSKLLSTGLEWRFADGWKASLNYGVVTSWSAVNKIFAYIDNNNGDYAVNAYELGGESDWRQLQAMVQGQFATGPLTHQLVAGASQQEETGWDRPSRWQTIGRGNLYDWQGMRYDGSYLGAQTRSSRTVQKGVFLSDTIAFAPGWSLLAGWRYNDYEEVGAYHTYPVTPTYALLYKPTETVTLYASYIESLEAGSRVGDDYLNAGDVLDATISKQYEIGAKIEQPRWNASAAAFRLERGANIDRITDAGTYLEQDGITLYQGLEASGDVRLTDNLRVGGGATWLDSQYDKLDSNATYTGNRVTFAARWQGVLHADYEIPAVNGLSVYGALRYFGDVYYDTANTLKLPDYTLASAGAGYRMQVAGHPLTWRLSIDNLTNRKYWLTNSIGASRTYALSVQFDL	PGPT0003790_24219	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_05630	2121	fcuA_2		Ferrichrome receptor FcuA	ATGTCCCGTTCTTGCCCCCGCTGCGCCGCGCTGGCGCTCGCGACCACCGCCGCGCTGTCCGTGCCGGCGCATGCCGCCGACAACGCCGCCGCCGACGCGACCACAACGCAGGCCACCGACCTGGATGCGGTGCAGGTCAGCGCTTCGATGCCCGATGCCGGCACCGGCGCGCTCGGCCAGCGTCCGCTGCGCGACACGCCGTTTTCGATCACCCGCATCGACGCGGCCGAGCTGGCCGAGCGCCAGGTCAATTCGCTGGCGCAGATGTTCATCACCGATCCGTCGGTGTCCGGCAACGTCGGCGCCTACAACAGCAGCTGGTACACCACGATCCAGGTGCGCGGGCTGCCGGTGAGCTACACCAACGGCTACAAGATCAACGGCATGCCGCTGTACACCTACGGCGCCGAGTGGCCGTACGAGAGCATGGAGCAGGTGCAGCTGCTGAAGGGCGCCAGCGCCTTCATGTACGGCTTCGGCGCGCCTGGCGGCATCGTCAACTACATCACCAAGAAGCCGACCGACACACCGCTGCTCGACCTGACCCTCGGCTACCGCGACGGCAGCATCGCCACCGCGCACGTCGACACCAGCCGCCGCTTCGGCGCCGACGAGCGCTTCGGCTACCGCCTCAACGTGCTGCGCGAGCAGGGCGACAGCTACAACGACACCCATGTCGAGCGCACCCTGGCCACGCTCGGCTTCGACGCGCGGCTGAGCGACAGCCTGACCTGGACCGCCGACCTGCTCTACCAGGACCGCACGCTGGAGAACGAGTCACCGGCGCTGGTGTTCACCACCTACACCGACAGCGTGCTGCCGAAGCGGCTCGATCCGCGCCGCAGCCGCGCGATCCACGACAGCTTCTTCAACACCGAGATGCAGGCGGCGATGACCGGCCTGCAGTGGCGCCTCGACGAGCACTGGAACGCGCGCGTCGACGTGAGCTACAGCAAGTTCCGCAGCGCGATCAACAAAGTCTGGGACTACGTCCTCAACCAGCAGGGCGACACCAATACCTACATGTACGACCTCGCCAACCGGGTCGAGAACTACATGGCGCAGGCGCTGGTCGAGGGCCGCTTCAGCACCGGCCCGATACGCCACCAGCTGGTCGCCGGGGCCAGCTGGCAGCAGGCCGACAGCGGCTGGGCACGGGTCAACCTGTGGCAGCTGATCGGCCAGTCCAACCTGTATGAGGACAGCACGCTCAGCTACCACAGCACCCACGCGCGCGACACCTACCGCGGCAGCCGCATCGTGCAGAAGGCGCTCTTCGCCAGCGATACGCTGTCGGTGGGCGAACACTGGTCGCTGCTGCTCGGGATGCGCGAGACCCGCTACGCGCAGGACAGCTGGAACGCCGCCGGCGTGCACACCGCGCGCTACCGCAAGCCTGCCACCACGCCGACCGCGGCGCTGCTGTTCAAGCCGAGCGACAGCCAGACCCTGTATGCCAGCTACGTGCAGTCGCTGGAGCAGGGCAGCACGGTCGGGGCGACCTACGAGAACCGCAACGAGGTGCTGCCGCCGCTGGAAAGCACCCAGTACGAGGTCGGCTACAAGTTCGAGCGGCCCGGCTATGCGTTGGATGCGGCACTGTTCCGGATCGAGAAGGGCGCCGAGTACGCCAACGCCGCCAACTACTACGTGCAGGACGGCAAGACCCGCTACCAGGGCGTGGACCTGAGCGCGCGCGTGCAGCTGACGCCGCGCTGGAGCGTCGGCGGCGGCGCGACCCGGCTCAATGCCGAGTACCTCGACAATACCGCCGCCGCGCTCGGCCGCACGCCCGCCGGCGTGCCGCAGTTCCAGGCCACGCTCAACACCAGCTACGAACTCGAAGCGGTGCCGGGCCTGAGCGTGCACGCGGCGGCCAAGCATTACGGATCGAGCTGGTACGGCACCTCGCTGTATACCCAGCTGTACGACCTGAAGATCCCCTCGTTCACCCTGCTCGACGCCGGCGCCGGCTACCGCACGCGCTGGGGCGCGCAGCCAGTGACGCTGCGTGCCGAGGTCTCCAACCTCACCGACCGCCGCTACTGGACCAACGACAGCGGCGGCGGTGGCTATGGCGCGCCGCGTACCTGGTCGGTCAGCGCGCAGTTCTCGTTCTGA	MSRSCPRCAALALATTAALSVPAHAADNAAADATTTQATDLDAVQVSASMPDAGTGALGQRPLRDTPFSITRIDAAELAERQVNSLAQMFITDPSVSGNVGAYNSSWYTTIQVRGLPVSYTNGYKINGMPLYTYGAEWPYESMEQVQLLKGASAFMYGFGAPGGIVNYITKKPTDTPLLDLTLGYRDGSIATAHVDTSRRFGADERFGYRLNVLREQGDSYNDTHVERTLATLGFDARLSDSLTWTADLLYQDRTLENESPALVFTTYTDSVLPKRLDPRRSRAIHDSFFNTEMQAAMTGLQWRLDEHWNARVDVSYSKFRSAINKVWDYVLNQQGDTNTYMYDLANRVENYMAQALVEGRFSTGPIRHQLVAGASWQQADSGWARVNLWQLIGQSNLYEDSTLSYHSTHARDTYRGSRIVQKALFASDTLSVGEHWSLLLGMRETRYAQDSWNAAGVHTARYRKPATTPTAALLFKPSDSQTLYASYVQSLEQGSTVGATYENRNEVLPPLESTQYEVGYKFERPGYALDAALFRIEKGAEYANAANYYVQDGKTRYQGVDLSARVQLTPRWSVGGGATRLNAEYLDNTAAALGRTPAGVPQFQATLNTSYELEAVPGLSVHAAAKHYGSSWYGTSLYTQLYDLKIPSFTLLDAGAGYRTRWGAQPVTLRAEVSNLTDRRYWTNDSGGGGYGAPRTWSVSAQFSF	PGPT0003790_25834	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_05631	2103	fatA_1		Ferric-anguibactin receptor FatA	ATGATGCCGACGCCCTCCCCCCGCTCCACCGTGCTGCCCCGTCTTGCCCTGTTGCCGCTGGCGCTGGCCATCTGCCAGGCCGCCCATGCCGACGAGGCGCGTATCCCGCTCAAGGCCAAGGACCTGGATGCGGTGCAGGTGGAAGCACAGCAGCTGCGCCAGTCCAGCAGCGCGCTCGGCGACCGCGCGGTGATCGACACCCCGTTCGCGATCACCACCGTCGACAGCGAGCAGCTGCAGCAGCGCCAGGTCAACGCGCTCGGCACGGTGTTCGCCGCCGACAGCTCGGTGACGCCCGGCGGCAACAGCTACGGCATGTGGTCCTCGCTGCTGTACGTGCGCGGGCTGACGCTGGACTACAGCAACAGCTACAAGATCAACGGCATGCCGTTCTACTCGTTCGGGGTGGAACTGCCGACCGAGATGTTCGAGCAGGTGCAGCTGCTGAAGGGCGCGACCGGCTTCATGTACGGCTTCGGCGCGCCGGGCGGCATCGTCAACTACGTGACCAAGCGGCCGACCGACACGCCACTGCTCAGCGTCGACGTCGGCTACCGCTCCGATGCGCTGTTCAGCGAACACATCGACCTCGGCGGGCGCAGCGACGGCGGCCGCTTCGGCTACCGCGTCAATGCCAGCAATGAATACGGCGACACCTACAACGGCTCGCGCTTGAGCCGGCAGGCGCTGGGCGCGGCGTTCGAGGTGCGGTTCAGCGACAGCCTGAGCTGGGACACCGACCTGCTGTACCAGCGCCGTCGGATCGACAACCCGATGCCGTACATCGCGTTGAACAACTACACCGGCAGCACCTTCCTGGACAGCATCGACGGCGGCCGCAACCTGTCCAGCGCGGCGGCGTTCGGCGATACCCGCTCCAGCTACGGCGCCACCCGCCTGCGCTGGCGCTTCGCCCCGGACTGGAGCGCCGAGCTCGGCTACAGCGCGCTGCGCACCGACCAGCGCTTCGACCAGGAATACCTGTACGTCACCAACGCGGCCGGCGACTACGTCAACAACACCTTCGTCGGCCACAACACGCCGACCTTCGCGGTGACCCAGGCGCAGCTGCAGGGCCGCTTCGACACCGGCGTCCTGCATCACCAGCTGGTCGCCGGCGCGTCGGCGCAGGTGCAGCAGATGTACGTCAGCCGCAATGGCCAGTTCGGCCCCAGCGGCACCGGCAACCTGTACGACTTCACCGCACTGGACTGGCATCCGCTCGAATCGGACACCGTCTACCACTCGGCCAGCTACCGCCAGCAGGCGCTGTTCGTCAGCGACACGATCGGCTTCGGCGAGCACTGGTCGCTGCTGGCCGGGCTGCGCCACACCCGCTACACCCAGCTCGGCTACGCCGCCAGCGGCGCGCGCACCAACATCTATCAGAAGTCGCCGAACACGCCGACGGTGGCGCTGATGTACAAGCCCGACGCACACAGCACCTACTACGCAAGCTACGTCGAATCGCTGGAAGCCGGCAGCACGGTGGGGTCGAGCTATGCCAACGCCGGCGAGGTGCTGCCGCCGATGGTCAGCAAGCAGGCCGAACTCGGCTTCAAGGCCGAACACCCGCGCTGGTCGGCCAATGCGGCGGCGTTCCGCATCCAGCGCGGCGCGACCTATACCACCGCCGACAACAACTACGTGCAGGACGGCGAGATCCGCTACCAGGGCGTCGAGCTGCAGGGGCTGGTGCGGCCGCTGCAGGACTGGAGCCTCGGCGCCAGCGTGACCCTGCTCGATGCCGACTACCAGCGCAGTTCCGCCGCGCTGGCCGGCAAGCGTCCCGGCGGCGTCGCCCGGCGCATCGGCAGCGTGCAGCTGGAGCACACCTTCAGCACGTTGCCGGCGCTGAGCATGCACCTGGACGCGCGCTACACCGGGCCGATGTCGCTGGTCCCGGGCAAGCCGCTGCGGGCGCCCGGCTACACGTTGTTCAACCTCGGTGCCGGCTACCGCATGCAGTGGGGCACGCATCCGCTGACCCTGCGCGCCGAGCTGCAGAACCTGCTGGACAAGGGGTATTGGCAGGGCGGCAGCTACCTGATCCAGCAGGGCACGCCGCGCACGCTGGCATTGAACGCCAAGTTCGATTTCTGA	MMPTPSPRSTVLPRLALLPLALAICQAAHADEARIPLKAKDLDAVQVEAQQLRQSSSALGDRAVIDTPFAITTVDSEQLQQRQVNALGTVFAADSSVTPGGNSYGMWSSLLYVRGLTLDYSNSYKINGMPFYSFGVELPTEMFEQVQLLKGATGFMYGFGAPGGIVNYVTKRPTDTPLLSVDVGYRSDALFSEHIDLGGRSDGGRFGYRVNASNEYGDTYNGSRLSRQALGAAFEVRFSDSLSWDTDLLYQRRRIDNPMPYIALNNYTGSTFLDSIDGGRNLSSAAAFGDTRSSYGATRLRWRFAPDWSAELGYSALRTDQRFDQEYLYVTNAAGDYVNNTFVGHNTPTFAVTQAQLQGRFDTGVLHHQLVAGASAQVQQMYVSRNGQFGPSGTGNLYDFTALDWHPLESDTVYHSASYRQQALFVSDTIGFGEHWSLLAGLRHTRYTQLGYAASGARTNIYQKSPNTPTVALMYKPDAHSTYYASYVESLEAGSTVGSSYANAGEVLPPMVSKQAELGFKAEHPRWSANAAAFRIQRGATYTTADNNYVQDGEIRYQGVELQGLVRPLQDWSLGASVTLLDADYQRSSAALAGKRPGGVARRIGSVQLEHTFSTLPALSMHLDARYTGPMSLVPGKPLRAPGYTLFNLGAGYRMQWGTHPLTLRAELQNLLDKGYWQGGSYLIQQGTPRTLALNAKFDF	PGPT0003790_18870	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_05632	1164	mdtA_4		Multidrug resistance protein MdtA	ATGACCGACACCGCGCTCCACTTCCGCCGCCTGCTTCGTCCCGTTCCGCTGCTCGCCACCGCCGCGCTGGCGGCTGCCATCGTGCTGGTCTGGCGCGCTGGTGGCGAGGCGCCCCTGCAGGAGGCTGCCGGCGAGCGCGCCACGCCGGTACGCATCGCCACCGCCACGCGCGAGGACCTGGCGGTGCGGATCAAGGCGCTGGGCACGGTCACGCCGCTGCACACCGTGACGATCCGCAGCCGGGTCGATGGCGAACTGCAGCGCGTGGCGTTCGAGGAGGGCCAGCAGGTGGTCGCCGGCCAGCTGCTGGCGCAGATCGACCCGCGCGCCTACCAGGTCGCGCTGGCCGAGGCCGTGGCGACCCAGCGCCAGAACCGCGCCGAGCTCGACAACGCGCGCCAGCAGCTGCGGCGTTACCGCGACCTGCACGGCGCGCGCTACGTGTCGGCGCAGGAGCTGGCCGACCAGCAGTCCAAGGTCGCGCAGTTCGAAGCTCGCCAGCAGGTCGACCAGGCCGCGGTCGATGCGGCTCGATTGCTGCTGGATTACACCCGCATCACCGCGCCGGTCGCCGGCCGCATGGGCCTGCGCGCGGTCGACGCCGGCAACCTGGTGCACGACGACGACAGCGACGGCATCGCCACGCTGACCCAGGTCGCGCCGATCAGCGTGCTGTTCACCATCGCCGAGGCCGACGTGGCGCCGGTGCTGGAGGCGCTGCGGGCGCAACCGCGGCTGACCGTGGAAGCCTGGGACCGCGAGGAACGCCGCCATCTCGCCGACGGCGCGCTGGCCAGCGTCGACAACCGCATCGACACCGCCACCGGCACGCTGCGGCTGCGCGCGGTGTTCGCCAACGCCGACCAGGCGCTGTTCCCCAACCAGTTCGTCAACGCACGCCTGCGCTTGGCCAGCCGCGAGTCGGTGGTGATCCCGCACGCGGCGGTGCAGTACGGCAGCAAGGGCAGCTACGTCTACGTGGTCGATGCGGCCAACACCTCCAGCGTGCGCGCGGTGGTGCTCGGCCCGGCAGACGGCGAACGGGTGGCGGTCAGCGAAGGCCTGGCCGCCGGCGAGCGGGTGGTGCTGGAAGGCATCGACGGCCTGCGCGACGCCGCCAAGGTCGAGATCGTCGCCGAGGCCGACGCGCAGAGCGAGGCATGA	MTDTALHFRRLLRPVPLLATAALAAAIVLVWRAGGEAPLQEAAGERATPVRIATATREDLAVRIKALGTVTPLHTVTIRSRVDGELQRVAFEEGQQVVAGQLLAQIDPRAYQVALAEAVATQRQNRAELDNARQQLRRYRDLHGARYVSAQELADQQSKVAQFEARQQVDQAAVDAARLLLDYTRITAPVAGRMGLRAVDAGNLVHDDDSDGIATLTQVAPISVLFTIAEADVAPVLEALRAQPRLTVEAWDREERRHLADGALASVDNRIDTATGTLRLRAVFANADQALFPNQFVNARLRLASRESVVIPHAAVQYGSKGSYVYVVDAANTSSVRAVVLGPADGERVAVSEGLAAGERVVLEGIDGLRDAAKVEIVAEADAQSEA	PGPT0003585_1422	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003585-mdtA-K07799	NA	NA
BMS020_05633	3075	mdtB_2	COG0841	Multidrug resistance protein MdtB	ATGAACCTCTCGCGCCCGTTCGTGCTGCGCCCGGTGGCGACCACGCTGCTGATGCTGGCGCTGCTGCTGGCCGGCACGCTGGCCTACCGGCTGCTGCCGGTGGCGGCGCTGCCGCAGGTCGATTACCCGGTGATCCAGGTGCAGACGCTGTATCCCGGCGCCAGCCCGGGGATCACCGCCAGCGCGGTGACCGCGCCGCTGGAGCGCCAGCTCGGGCAGATTCCCGGCCTGCGCCAGATGACCTCGGCCAGTTCCGGCGGTGCCTCGGTGATCACCCTGCAGTTCACCCTCGACACAGCGCTGGCGGTGGCCGAGCAGGAAGTGCAGGCGGCGATCAACGCCGCCGACAGCCTGCTGCCGGACGACCTGCCGGTGCCGCCGGTGTACCGCAAGGTCAATCCGGCCGACACCCCGATCCTGACCCTGGCGGTGACCTCGACCACGCTGCCGCTGCCGCGCGTGCACGATCTGGTCGACACCCGCATGGCGCAGCGGCTGTCGCAGCTGCCCGGGGTCGGCCTGGTCAGCCTGGCCGGCGGCCAGCGCCCGGCGGTGCGGATCGAGGTCAACCCGGTCGCGCTGGCCGCGGCCGGGCTGTCGATGGACGCGATCCGCGAAGCGATCGCCGCGGCCAACGTCAACCTGCCCAAGGGCAGCTTCGACGGCCCGACCCGCGCGGTGATGCTCGACGCCAACGACCAGATGCGCTCGGCCGACGAATACCGCGCGCTGGTATTGAAGTACAGCAACGGCGCGCCGCTGCGGCTGGGCGATGTCGCCAGCGTCAGCGACGGCGCCGAGAACCGCCAGCTGGCGGCCTGGTCCGGCGACGCGCCGGCGGTACTGGTCAACATCCAGCGCCAGCCCGGCGCCAACGTGATCGCGGTGGTGGACAGCGTGCGCGCGTTGCTGCCGCAGCTGCGCGCCAGCCTGCCGGCCGGCGTCGAGGTGGCGGTGCTCAGCGACCGCACCGAATCGATCCGCGCCTCGGTGCGCGGCGTGCAGCACGAGCTGGTGACCGCGCTGGCGCTGGTGGTGATGGTGACGTTCGTGTTCCTGCGCAACCTGCCGGCGACGCTGATCCCCGGCATCGCGGTGCCGTTGTCGCTGGTCGGCACGTTCGCGGTGATGCTGCTGGCCGGCTTCTCGCTCAACAACCTGACACTGATGGCGCTGACGATCGCCACCGGCTTCGTGGTCGACGACGCGATCGTGATGCTGGAGAACATCGCCCGCCACCTGGAACGCGGCGAGAAGCCGCTGGACGCCGCACTGAAGGGCGCGCGCCAGATCGGCTTCACCCTGGTGTCGCTGACGCTGTCGCTGATCGCGGTGCTGATCCCGCTGCTGTTCATGGCCGACCTGGTCGGCCGGCTGTTCCACGAGTTCGCGGTGACGCTGGCGGTGGCGATCGCACTGTCGCTGCTGGTGTCGCTGACGCTGACGCCGATGATGTGCGCCTACCTGCTCAAGCCCGGCCTGGCGCACGCCGAAGGCGCGCGCCAGGGTGACCTGTTCGACCGCGTGATCGGCGGGTACGACCGCGCCCTGCACTGGGTACTGCAGCGCCAGCCGCTGATGCTGGCCGCGACGCTGGCGACCGCGCTGCTGACGGTGGCGCTGTACCTGTGGGTGCCGAAGGGCTTCTTCCCGGTGCAGGATGCCGGCCTGCTGCAGGGCATCAGCGAGGCGCCGCAGGCGGTCTCGTTCGAGGCGATGCGGCAGCGCCAGCAGGCGCTGGCCGCGGCGGTCGGCGCCGACCCGGCGGTGGCCAGCGTGGCGTCCTACATCGGCGTCGACGGCAGCGTCGCCACCCTCAACAGCGGCCGCCTGCTGATCGAGCTGAAGCCGCACGCCGAGCGCGACGGCGCGGCCGCGGTGATCGCGCGCCTGCAGCAGCGGGTGGCGAAGATTCCCGGCATCGCGCTGTACCTGCAGCCGGTGCAGGAGCTGGGGATCGAGGACCGCATCAGCCGCACCCAGTACCAGTTCACCCTGACCAGCCCGGAGCCGGCGCAGCTGTCGGAATGGACGCCGAAACTGCTGGCGGCGCTGCGCCGCGAACCGGCGCTGGCCGACGTCGCCAGCGACCTGCAGGACCGCGGCATGCAGGCCTATGTCGACATCGACCGCGCGGCGGCCGCGCGCCTGGGCGTCAGCGTGCAGGACGTGGCCGATGCGCTGTACGACGCGTTCGGCCAGCGCCAGATCTCGACGATCTTCACCCAGGCCAGCCAGTACCGGGTGGTGCTGGAGGCGCGCCAGGACTTCCAGGCCGGGCCGGAGGCGATCGCCCGCCTGCACGTCACCGCCAGCGACGGCGCACGCGTGCCACTGTCGGCGCTGGCGCGGGTCGAACAGCGCCCGGCGTCGCTGCTGGTCAACCACGTCGGCCAGTTCCCGGCGGTGACGCTGTCGTTCAACCTCGCGCACGGCGCCTCGCTCGGGCAGGCGGTGGAAGCGATCGAACGCACCCGCGCCGAGGTCGGCCTGCCGGCGGCGATCGAACTGCGCCTGCAGGGTGCCGCGGCGGCGTTCCGGCAATCGCTGTCGAGCACGCTGTGGCTGGTGCTGGCGGCGGTGGTGGTGATGTACATCGTGCTCGGCGTGCTCTACGAGAGCTTCATCCACCCGATCACGATCCTTTCGACGCTGCCGTCGGCGACGGTCGGCGCACTGCTGGCGCTACTGCTCGGCGGCCATGCGCTCGACCTGATCGCGGTGATCGGCATCGTGCTGCTGATCGGCCTGGTCAAGAAGAACGCGATCATGATGATCGACTTCGCGCTGGAGGCGCAGCGCGAACATGGCATGAGCCCGCGCGAGGCGATCCACCAGGCCGCGCTGCTGCGCTTCCGGCCGATCCTGATGACCACGCTGGCGGCGCTGTTCGGCGCGGTGCCGCTGATGCTGGCCAGCGGCTCGGGCGCCGAGCTGCGCCAGCCGCTCGGGCTGGTGATGGTCGGCGGGCTGGTGGTCAGCCAGGTGCTGACGCTGTTCACCACGCCGGTGATCTACCTGTTCTTCGACCGGCTGGCGCGGCGCCGCGCACCGTTGCAGGAGGCGGTCGCGTGA	MNLSRPFVLRPVATTLLMLALLLAGTLAYRLLPVAALPQVDYPVIQVQTLYPGASPGITASAVTAPLERQLGQIPGLRQMTSASSGGASVITLQFTLDTALAVAEQEVQAAINAADSLLPDDLPVPPVYRKVNPADTPILTLAVTSTTLPLPRVHDLVDTRMAQRLSQLPGVGLVSLAGGQRPAVRIEVNPVALAAAGLSMDAIREAIAAANVNLPKGSFDGPTRAVMLDANDQMRSADEYRALVLKYSNGAPLRLGDVASVSDGAENRQLAAWSGDAPAVLVNIQRQPGANVIAVVDSVRALLPQLRASLPAGVEVAVLSDRTESIRASVRGVQHELVTALALVVMVTFVFLRNLPATLIPGIAVPLSLVGTFAVMLLAGFSLNNLTLMALTIATGFVVDDAIVMLENIARHLERGEKPLDAALKGARQIGFTLVSLTLSLIAVLIPLLFMADLVGRLFHEFAVTLAVAIALSLLVSLTLTPMMCAYLLKPGLAHAEGARQGDLFDRVIGGYDRALHWVLQRQPLMLAATLATALLTVALYLWVPKGFFPVQDAGLLQGISEAPQAVSFEAMRQRQQALAAAVGADPAVASVASYIGVDGSVATLNSGRLLIELKPHAERDGAAAVIARLQQRVAKIPGIALYLQPVQELGIEDRISRTQYQFTLTSPEPAQLSEWTPKLLAALRREPALADVASDLQDRGMQAYVDIDRAAAARLGVSVQDVADALYDAFGQRQISTIFTQASQYRVVLEARQDFQAGPEAIARLHVTASDGARVPLSALARVEQRPASLLVNHVGQFPAVTLSFNLAHGASLGQAVEAIERTRAEVGLPAAIELRLQGAAAAFRQSLSSTLWLVLAAVVVMYIVLGVLYESFIHPITILSTLPSATVGALLALLLGGHALDLIAVIGIVLLIGLVKKNAIMMIDFALEAQREHGMSPREAIHQAALLRFRPILMTTLAALFGAVPLMLASGSGAELRQPLGLVMVGGLVVSQVLTLFTTPVIYLFFDRLARRRAPLQEAVA	PGPT0003590_856	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003590-mdtB-K07788	NA	NA
BMS020_05634	3195	mdtC_2	COG0841	Multidrug resistance protein MdtC	ATGCGCAGCGACAGCGGCGCACGCCGTGGGGCGCAGCGCATGAGCCGCGACGCGACGCCGGGCAGTGCGCTCGCCCGGCTGTTCATCGACCGCCCGGTCGCCACCACCCTGCTCGCGGTCGCGGTGGTGCTCGCCGGCCTGTTGGCGCTGTACCGGCTGCCGGTGGCGCCGCTGCCGCAGGTCGACTACCCCGCGATCGAAGTCGAGGTCGAGCTGCCCGGCGCCAGCCCGGCGTCGATGGCCGCCACCGTCGCCACCCCGCTGGAACGCGCGCTCGGCACCATCGCCGGCATCACCAAGATCGAGTCGTCGAGCAGCCAAGGCGCGACCAGCATCGAACTGCAGTTCGCGCTGGAACGCGATGTCGACAATGCTGCGCGCGACGTGCAGGCCGCGCTCAACGCCGCGCGCGCGCAGCTGCCCAGTGGCATGCCGGGCATGCCGAGCTACCGCAAGGTCAACCCGTCGCAGGCGCCGATCATGGCGCTGGCGCTGACCTCGTCGCGCTGGACGCCCGGCCAGCTGTACGACCTGGCCTCGACGGTGATCGCGCAGAAGCTGGCGCAGGTGCCCGGGGTCGGCCAGGTCCAGGTCGGCGGCAGTTCGCTGCCGGCGGTGCGGGTGTCGCTCGATCCGAACGCGCTCAACCACCATGCGCTGGCGCTGGACGAGGTCGCCGCGGCGATCGGCGCGGCGAACGCGCTGACCCCGCTCGGCAGCGTCGCCGACGCGCGCCGGCAGTGGCAGATCGATGCCGGGCTGCAGCTGCAAGGCGCCGCCGATTACCGCGACCTGCTGGTGGCGGTACGCGACGGCCGGCCGGTGCGGCTGGGCGATGTCGCCACGGTCAGCGAGGGTGTCGAGAACCGCTACGCCAGCGGCTTCCACAACCACGACCCGGCGGTGCTGCTGATCGTCAGCCGCCAGCCCGATGCCAACATCATCGAGACCGTCGCGGCGATCCACGCGCAGATGGACACGCTGCAGGCGCTGGTGCCGGCCGCGGTGCGGATGAAGGTGGTGATGGACCGCTCGCCGGTGATCCGCGCCACCCTGCACGAAGCCGAGCTGACCCTGCTGCTGGCGGTGCTGCTGGTGATCGCGGTGGTGCTGGGCTTCCTCGGCCATTGGCGTGCGGCGCTGATCCCGGCACTGGCGATCCCGGTGGCGCTGTTCGGCGCGCTGGCGCTGATCTGGCTGCTCGGCTTCTCGCTCAACACGCTGTCGCTGATGGCGCTGATCGTCGCCGCGGTGCTGGTGGTCGACGATGCGATCGTGGTGCTGGAGAACATCACCCGCCACCGCGAACGCGGCAGCGGCGCCTGGCAGGCGGCGGTCCGCGGCGCCGCCGAGGTCGCGCCGACCCTGGTGTCGATGAACCTGGCGCTGGCGGTGGTGTTCGTCGCGATCCTGTTCCTGGACCCGTTCGTGCAGCGGCTGTTCCGCGAGTTCGTGCTGACCCTGGTCGCGGCGATGGCGGTATCGCTGCTGGTGTCGCTGAGCCTGACGCCGATGCTGTGCGGGCGGCTGCCTGTAGGAGCGGCTTCAGCCGCGAGGGGATCTCCCGGGAAAGCTTCATCGCGGCTGAAGCCGCTCCTACAGGGGTTCCCGCGCTGGTTCCGCGCGTTGCGCCGCCGCTACGTGGCCAGCCTCGCTGCCACGTTGCGGCGGCTGCCGTGGATGCTGGCGCTGTTCGCGTTGGTCATCGCCGCCAATGTCTGGCTGTTCGCACAGGTGCCCAAGGGCGTGGTGCCGCAGCAGGACACCGCGCAGCTGCGCGGCTTCGCGCGCGGCGACGACGGGCTGTCGTTCCAGGTGATGCAGCCGAAGATCGATGCCTACCGCGCACTGTTGCTGGCCGACCCGGCGGTCGAGGACATCGTCGGCTTCATCGGCGGCGGCACCGGGGTCAACAACGCTTTCATCATGATCAAGCTCAAGCCGCTGGCCGAGCGCGGCGTGTCGAGCCAGCAGGTGATCGACCGCCTGCGCGCCCACATGCCCAAGGTGCCGGGCGGCGCGCTGTACCTGTGGGTCGACCAGGACCTCAAGCTGGAAGGCGCCGGCGAGAGCGGCAAGGTCGACTACCAGCTGATGGCGTCGGACCTCGACCTGCTGCGCACCTGGACGCCGCGCGTGGCGAGCGCGCTGCGCCAGCTGCCGGAGCTGGTCGACGTCGAATCCGGCGGCGACGAAGGCATGCGCCAGGTCACGCTGCGGATCGACCGCGAGGCGGCCGCACGGCTCGGCATCGACATGCGCACGATTGCCTCTGTGCTCAACAATTCCTTCAGCCAGCGCCAGGTCGCCACCCGCTACGACACCCTCAACCAGTACCGCGTGGTGATGGAACTGGACCCGCGCTATACCCAGAGCCCGTCGACGCTGCAGCAGGTCTACGCGATGGGCGGCGACGGCCAGCGCGTGCCGCTGTCGGCGTTCGCGCACTGGGACTACACGATGGCGCCGGACCGGATCTACCACCAGGGCCAGTTCGCCTCGGCCTGGATCGAGTTCGCGCTGGCGCCGGGCGTAAGCCTGCAGCAGGCGATGGCCGCGGTCGACCGCGCGGTCGCCGCGGTGATGCTGCCGCCGGGCATCCACGGCACGTTCGGCGCCGAGGCCAGTGGGCTGGAGAAGATCCAGGCGCGGCTGCCGTGGCTGGCGCTGGGCGCGGCGCTGGCGGTCTATCTCGTGCTGGGCATGCTCTACGAGAGCGTCCTGCAGCCGCTGACGATCCTGTCGACGCTGCCGGCCGCCGGCATCGGTGCGCTGGCGGCGCTGTGGGCGTTCGGCGGCGAGCTCAACCTGATCTCGCTGCTCGGATTGTTCCTGCTGGTCGGGGTGGTGATGAAGAACACCATCCTGCTGGTCGATTTCGCTCTCGCCGCGCAGCGCCGCGGCATCGCGCCGGCACGGGCGATCGCCGAAGCGGCGCGGCTGCGCTTCCGCCCGATCCTGATGACCAGCATCGCCGCGCTGCTCGGCGCCTTGCCGCTGATGGCGACCGGCGGCGAAGGCTGGGAGCTGCGGCGGCCGCTCGGCATCGCCATCGTCGGCGGCCTGCTGCTGAGCCAGCTGCTGACGCTGTACACCACCCCGGCGGTGTTCCTGGCGCTGGCCGGGCTGCGCCGGCGGGTGCGCCTGGCGCCCCACCGCGACAACGCGCGCGACGCGACGCCGGCGCAGCGCTGA	MRSDSGARRGAQRMSRDATPGSALARLFIDRPVATTLLAVAVVLAGLLALYRLPVAPLPQVDYPAIEVEVELPGASPASMAATVATPLERALGTIAGITKIESSSSQGATSIELQFALERDVDNAARDVQAALNAARAQLPSGMPGMPSYRKVNPSQAPIMALALTSSRWTPGQLYDLASTVIAQKLAQVPGVGQVQVGGSSLPAVRVSLDPNALNHHALALDEVAAAIGAANALTPLGSVADARRQWQIDAGLQLQGAADYRDLLVAVRDGRPVRLGDVATVSEGVENRYASGFHNHDPAVLLIVSRQPDANIIETVAAIHAQMDTLQALVPAAVRMKVVMDRSPVIRATLHEAELTLLLAVLLVIAVVLGFLGHWRAALIPALAIPVALFGALALIWLLGFSLNTLSLMALIVAAVLVVDDAIVVLENITRHRERGSGAWQAAVRGAAEVAPTLVSMNLALAVVFVAILFLDPFVQRLFREFVLTLVAAMAVSLLVSLSLTPMLCGRLPVGAASAARGSPGKASSRLKPLLQGFPRWFRALRRRYVASLAATLRRLPWMLALFALVIAANVWLFAQVPKGVVPQQDTAQLRGFARGDDGLSFQVMQPKIDAYRALLLADPAVEDIVGFIGGGTGVNNAFIMIKLKPLAERGVSSQQVIDRLRAHMPKVPGGALYLWVDQDLKLEGAGESGKVDYQLMASDLDLLRTWTPRVASALRQLPELVDVESGGDEGMRQVTLRIDREAAARLGIDMRTIASVLNNSFSQRQVATRYDTLNQYRVVMELDPRYTQSPSTLQQVYAMGGDGQRVPLSAFAHWDYTMAPDRIYHQGQFASAWIEFALAPGVSLQQAMAAVDRAVAAVMLPPGIHGTFGAEASGLEKIQARLPWLALGAALAVYLVLGMLYESVLQPLTILSTLPAAGIGALAALWAFGGELNLISLLGLFLLVGVVMKNTILLVDFALAAQRRGIAPARAIAEAARLRFRPILMTSIAALLGALPLMATGGEGWELRRPLGIAIVGGLLLSQLLTLYTTPAVFLALAGLRRRVRLAPHRDNARDATPAQR	PGPT0003595_1117	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003595-mdtC-K07789	NA	NA
BMS020_05635	2208	yccS_2	COG1289	Inner membrane protein YccS	ATGTCCCGATTCGAACGCCGCCTCAACCAGTTGTGGGCCCATGAGAAGGCGAGCTACGGCCTGCGCGTGCTGCTGGCACTGGGCGTGGCGATGGGCGTGTGCTGGCACCAGCAGCAGCTCGGCGCGGTGCCGGCGCTGTTCCTGGGCATCATCGCCAGTGCGATCGCCGAGACCGACGACAACTGGCTGGGCCGGACCAAGTCGGTGCTGTTGTCGCTGGCCTGCTTCGCCGCCGCCGCGACTGCGGTGGTGCTGCTGTTCCACCATCCGCTGGCGTTCGTCGCCTGCCTGGCCGCCTCGACCTTCGCACTGACCCTGCTCGGCGCACTCGGCGAGCGCTATGCCTCGGTCGCGCAGGCCACGGTGGCGCTGGCGATCTACGCGATGATCGGCATGGACCAGCACGGCGGGCGCGACCCGGCCGCGGCCTGGCACGGCGCCTTCCTGCTGCTGCTCGGCGCCACCTGGTACGGGCTGCTGTCGATCCTGTGGACGGTGCTGTTCGCCAACCGCCCGGTGCGCGAGCGGCTGGCGCGGCTGTTCTTCGAGCTCGGCCGCTATCTGCGGCTGAAGGCCGACCTGTTCGAGCCGGTGCGGCAGAGCGACCTGCACGCGCGGCGGCTGGCACTGGCCGAGCAGAACGCCCGGGTGGTCGCGGCGCTCAACGCGGCCAAGAACGCGATCATCAGCCGCTTCGGCCGCTCCGGCCGGCCCGGCGTGCAGTCCGGCGTGTACTTCCGCCTGTACTACATGGCGCAGGATTTCCACGAACGTGTCAGCGCCTCGCACTATCCGTACGAAGCGTTGACCGAGGCGTTCTTCCACAGCGACGTGCTGTACCGCTGCCAGCGCCTGCTGGCGCTGCAGGGCAAGGCCTGCGCGCTGCTTGGCGAGGCGATCCGGCTGCGCCGGCCGTTCGAATACGGCGAGCAGACCGCGCTGGCCACCGCCGACCTGCGCGCCTCGATGGAATTCCTGCACGCGCGCGGCGACGCCGCGCTGCGGCGCCTGCTCGGCTCGCTGGAGCTGCTGGTGACCAACCTGCAGACGATCGAGCGGCGGCTGTCGGACGCGGCGCGTTCGGATACCACCAGCGACACGCTGGATACGCGCCTGCGCGATTCGGCGCCGCACACGCTGGCGGAGATGGCCTCGCGCATCGGCCAGCAGCTCACCCCGACCTCGCTGCTGTTCCGCCACGGCCTGCGCATGGCGATCGCGCTGACCGCCGGCTACGTGCTGATGAGCTTCATCCACGCCAGCAACGGCTACTGGATCCTGCTGACCACCGCGTTCGTGTGCCGGCCCAACTACGGCGCCACGCGCTTGCGGCTGGTGCAGCGCATCGCCGGCACCCTGCTCGGTCTGGTGGCCACCTGGGCGCTGATGCAGCTGTTCCCCGGCATCGAGCTGCAGCTGCTGTTGGCGCTGCTGGGCGCGCTGGTGTTCTTCGTCACCCGCACCGACCGCTACATGCTGGCGACCGCGGCGATCACGGTGATGGCGCTGTTCTGCTTCAACCTGCTCGGCAACGGCTTCGTGCTGATCTGGCCGCGGCTGATCGACACCGTGATCGGCTGCGCGATCGCCGCCGCGGCCTCGTTCCTGATCCTGCCGGACTGGCAGGGCCGGCGCCTGAACCTGGTGATGGGCAACGTGCTGGCCAGCAGCGCGCGCTACCTGGCGCAGGTGCTGGAGCAGTACCGCAGCGGCATGCGCGACGACCTGCCGTACCGCATCGCCCGCCGCGACATGCACAACGCCGATGCGGCGCTGTCGACCGCGCTGTCGAACATGCTGCGCGAGCCGGGCCGCTACCGTCGCAACCTCGATGCCGGCTTCCGCTTCCTGGCGCTGGCCAACACCCTGCTCGGCTATCTCTCCGCGCTGGGTGCGCACCGCGGCACGTTCGCCGATGGCGATGCCGGGCTGGTCGTGCGCGCCGGCGACTACTTGCAGCAGGCCTTGTCGGCGCTGGCCGATGCGCTGGTACGGCGCGCGCCGCCGCCGCCGGCCGACGAAGAGGCCGAGCGCGCGATGGCCGAACAGCTCGAGGACGATGCCGGCATCGACGACCCGCGCCAGCGCCTGGTACGCACCCAGCTGGCGCTGACGCTGCGTCTGCTCGGCAAGCTGCGCGCGGCGGCCGACGCGGTACTCGCACCGGCCGCCGCCGGCCCCGCCAGCGTGGCGACCGATCCGGCCTGA	MSRFERRLNQLWAHEKASYGLRVLLALGVAMGVCWHQQQLGAVPALFLGIIASAIAETDDNWLGRTKSVLLSLACFAAAATAVVLLFHHPLAFVACLAASTFALTLLGALGERYASVAQATVALAIYAMIGMDQHGGRDPAAAWHGAFLLLLGATWYGLLSILWTVLFANRPVRERLARLFFELGRYLRLKADLFEPVRQSDLHARRLALAEQNARVVAALNAAKNAIISRFGRSGRPGVQSGVYFRLYYMAQDFHERVSASHYPYEALTEAFFHSDVLYRCQRLLALQGKACALLGEAIRLRRPFEYGEQTALATADLRASMEFLHARGDAALRRLLGSLELLVTNLQTIERRLSDAARSDTTSDTLDTRLRDSAPHTLAEMASRIGQQLTPTSLLFRHGLRMAIALTAGYVLMSFIHASNGYWILLTTAFVCRPNYGATRLRLVQRIAGTLLGLVATWALMQLFPGIELQLLLALLGALVFFVTRTDRYMLATAAITVMALFCFNLLGNGFVLIWPRLIDTVIGCAIAAAASFLILPDWQGRRLNLVMGNVLASSARYLAQVLEQYRSGMRDDLPYRIARRDMHNADAALSTALSNMLREPGRYRRNLDAGFRFLALANTLLGYLSALGAHRGTFADGDAGLVVRAGDYLQQALSALADALVRRAPPPPADEEAERAMAEQLEDDAGIDDPRQRLVRTQLALTLRLLGKLRAAADAVLAPAAAGPASVATDPA				NA	NA	NA	NA	NA
BMS020_05636	1209			putative transporter	ATGAACGCGCACACCTCCCACCCACCCTTGCGCCGCAGCCTGGTGCTGCTGATGGCGATGGCCACCGGCCTGGCGGTGGCGAGCAACTATTACGCCCAGCCGTTGCTGGAGATCCTGGCGCGCGAGTTCGCCATCGACGTCGGCCGCGCCGGCCTGGTGGTGACCACCGCGCAGCTGGCCTATGCCGCCGGGCTGTTGCTGCTGGTGCCGCTGGGCGACCGGCTGGAACGGCGCCGGCTGATCGTGGCGCTGTACGCGCTGAGCGCGGTGGGCCTGCTGCTGAGCGCCAACGCGCACGGTTTCGGCCTGCTGCTGCTGGGCACGCTGCTGACCGGCGCCAGCTCGGTCAGCGCGCAGATCCTGGTGCCGTTCGCCGCCACGCTGGCCGCGCCGCACGAGCGCGGCCGGGTGATCGGCACGGTGATGAGCGGGCTGCTGCTGGGCATCCTGCTGGCGCGCACCGCCTCGGGCCTGCTGGCCGGGCTGGGCGGCTGGCAGACCGTGTACTGGGTCGCCGCGGCGCTGATCCTGGTGGTCGCCGCGCTGCTGTGGCGCGGCCTGCCCGAGCATCCCGGCCACGCCACGCTGTCCTACCCGCGGCTGGTCGGCTCGGTGCTGGCGCTGCTGCGCGACGAGCCGGTGCTGCGCGCGCGCGCGGTGCTGGGCGGACTGCTGTTCGCCGGCTTCAGCATCTTCTGGACCACGCTGGCGTTCCTGCTGTCCGGGCCGGACTACGGCTACGGCACCGCGACGATCGGCCTGTTCGGCTTGGTCGGCGCCGCCGGTGCGCTGGCCGCCAACCTGTCGGGCAAGCTCAACGACGGCGGCCGCGGCCACTGGGTGACCTGGGGCGGGCTGGGCCTGCTGCTGGCGTCGTGGGCACTGCTGGCGGCGGCGCCGCAGTCGCTGCTGGCGCTGGTGGTCGGCGTGCTGCTGCTGGACGTGGCGGTGCAGGGCGTGCACATCGGCAACCAGAGCGTGATCTATGCGCTCGATCCGGCCGCGCGCAACCGCATCACCTCGGCCTACATCACCTGCTACTTCATCGGCGGCGCAGCCGGCTCCAGCGCCGGGGCAGTGGCCTATGCCGCGGCCGGCTGGAACGGCGTGGTGCTGACCGGCGCGGTGTTGGCGCTGCTGGCGCTGGGCTGGGCGGCGCTGACCGTGCGCCACGACCGCGCTGGCGATGCGGCGCTCGCCTCGCGCTGA	MNAHTSHPPLRRSLVLLMAMATGLAVASNYYAQPLLEILAREFAIDVGRAGLVVTTAQLAYAAGLLLLVPLGDRLERRRLIVALYALSAVGLLLSANAHGFGLLLLGTLLTGASSVSAQILVPFAATLAAPHERGRVIGTVMSGLLLGILLARTASGLLAGLGGWQTVYWVAAALILVVAALLWRGLPEHPGHATLSYPRLVGSVLALLRDEPVLRARAVLGGLLFAGFSIFWTTLAFLLSGPDYGYGTATIGLFGLVGAAGALAANLSGKLNDGGRGHWVTWGGLGLLLASWALLAAAPQSLLALVVGVLLLDVAVQGVHIGNQSVIYALDPAARNRITSAYITCYFIGGAAGSSAGAVAYAAAGWNGVVLTGAVLALLALGWAALTVRHDRAGDAALASR				NA	NA	NA	NA	NA
BMS020_05637	882	gltC_5		HTH-type transcriptional regulator GltC	ATGATCACCCTGCGCCAGCTCGAATTCGCCGTCGCGGTCGCCGAGGAAGCCGGCTTCACCGCGGCGGCGGCGCGCTGCCATACCGTGCAGTCCGCGCTCAGCCACCAGATCGCCAAGCTCGAGGCGCAATTGGGCACGCGCCTGTTCGACCGCCACGGCCGCCGCGTGCGGGTCACCGCCGCCGGCGAGGTGTTCCTGCACAACGCGCGCGCCACCCTGCGCGCGGCGCAGCGCCTGCACGAGGAGATGGCCGAGGCGGTCGGCGTGGTGCGCGGGCGCATCCAGATCGGCCAGATCTCCTCGTTGACCACGGTGCAGGTGCCGGCGCTGCTGGCGGCGTTCCGCCAGGCCCATGCCGAAGTCGACGTGCACCTGCGCACCGGCATGAGCGAGGCGCTGCTGCACGAGCTCGACGCCGGCCGGCTGGACGTGGCGGTGGTCGGCGTCGGCCCGCACGTTGCGCTACCCGAACAGCGCCTGCTGCTGCACGAGGAGGGCCTGTCGATGATCGCCGCGCCCAGCCATCCGCTGGCGCGGCGCCGGCAGGTGCGGCTGGCCGACCTCGACGACGTGCCGATGGTCGGCCTGGTCGCCGGCGCCGGCGTGCGCGGCATCGTCGACACCGCCTTCGTCGCCGCAGGGCTGACCCAGCGCCTGCAGTACGAAGCCACCCACGCCGACCTGATGCGGCAGCTGGTCGCCGCCGAACTCGGCGTCGGCATCGTGCCCGACACGATGGCGGTGACGATGGCCGACATCGCGGTGGTGCCGCTGCGCCCGCACTACCGCTTCCTGACCTACGCCTGCTGGGGCCGCGACCCGACCCCGGCCGCGCGCGCCTTCGTCGCGCTGCTGCGCGAGCGCCACGCACTGCAGGCCTGA	MITLRQLEFAVAVAEEAGFTAAAARCHTVQSALSHQIAKLEAQLGTRLFDRHGRRVRVTAAGEVFLHNARATLRAAQRLHEEMAEAVGVVRGRIQIGQISSLTTVQVPALLAAFRQAHAEVDVHLRTGMSEALLHELDAGRLDVAVVGVGPHVALPEQRLLLHEEGLSMIAAPSHPLARRRQVRLADLDDVPMVGLVAGAGVRGIVDTAFVAAGLTQRLQYEATHADLMRQLVAAELGVGIVPDTMAVTMADIAVVPLRPHYRFLTYACWGRDPTPAARAFVALLRERHALQA				NA	NA	NA	NA	NA
BMS020_05638	795	fabG_12		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAAGATCGACCTGACCGGCAAGACCGCCCTCGTCACCGCCTCCACCGGCGGCATCGGCCACGCGATCGCACGCGGGCTGGCTGCCAGCGGCGCGGCGGTCGTGCTCAACGGCCGCAGCGCCGACAGCGTGGCGCGTGCGCGCGCGCGGCTGCTCGACGCAGTGCCCGACGCAGTCGTGCACGCCGCGCCGGCCGACCTTGGTGATGCCGATGGCGTCGATACGCTGCTGGCCGTGCTGCCGCCGGTCGACATCCTGGTCAACAACGCCGGCATCTTCGGCCCGCTGGATTTCTTCGACACCGACGACGCCACCTGGGAACGCTACTGGCAGACCAACGTGATGTCCGGGGTGCGCCTGTCACGCGCGCTGCTGCCGGCGATGGTCGAACGCGGCTGGGGCCGGGTGGTGTTCATCTCCTCCGAATCGGCGCGCAACATCCCCGCCGACATGATCCACTACGGCGTCAGCAAGACCGCGCAGCTGGCGTTGGCGCGCGGCCTGGCCAAGCGCGTCGCCGGCAGCGGCGTCACCGTCAACAGCGTGCTGCCGGGGCCGACCATCTCCGACGGTTTCGCCGAGATGATGCGCGACGAAGTCGCGCGCACCGGCAAGCCGCTGGACACGCTGGCGCGCGAGTTCGTGATGGCACAGCGGCCGAGTTCGGTGATCCAGCGCGCGGCCAGTGTCGAGGAAGTGGCCAACATGGTGGTCTACGTCTGCTCGCTGCAGGCCTCGGCGACCTCCGGCGCGGCGCTGCGCGTGGATGGCGGCGTGGTCGACGACATCCTCTGA	MKIDLTGKTALVTASTGGIGHAIARGLAASGAAVVLNGRSADSVARARARLLDAVPDAVVHAAPADLGDADGVDTLLAVLPPVDILVNNAGIFGPLDFFDTDDATWERYWQTNVMSGVRLSRALLPAMVERGWGRVVFISSESARNIPADMIHYGVSKTAQLALARGLAKRVAGSGVTVNSVLPGPTISDGFAEMMRDEVARTGKPLDTLAREFVMAQRPSSVIQRAASVEEVANMVVYVCSLQASATSGAALRVDGGVVDDIL	PGPT0003180_3403	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
BMS020_05639	1884	aas_2		Bifunctional protein Aas	ATGTCCGGCTATAGCCAGTTTTCGCTGCTCAGGCAGCGCCGCTTCCTGCCGTTCTTCGCCGTCCAGGCGCTGGGCGCCTTCAACGACAACGTCTACCGCCAGGCGATCATCGCGCTGCTGATCTATCTCAGCATCGGCCAGGCGCAGATGACGATCTACACCAACCTCGCGCCGGCACTGTTCATCCTGCCGTACTTCCTGTTCTCGGCGATCGCCGGGCAGGTCGCCGAGAAGCTGGAGAAGCAGAAGCTGATCGTGATCACCACGACGATGGAGATCACGATCATGTCGCTGGCCGCGATCGGCTTCGTCACCCAGAACATGGTGGTGCTGCTGGTGGCGCTGTTCTGCACCGGCCTGCAGTCCACGCTGTTCGGCCCGGTGAAGTACTCGATCCTGCCCTCGGTGCTGAAGCCGGAGGAACTCACCGGCGGCAATGGCCTGGTCGAGATGGGCACCTCGATCGCGATCCTGTGCGGGATGATCTTCGGCGGGCTGATCTTCGAGCTGGCCGGCGCGCACGGGCCGATGGTCGCGGCGGTGGCGGTGATCGCGATCGCGATCTGCGGCAACCTCGCCGCGCGCATGATCCCGCGCGTGGACGCCGGCGCGCCGGAGCTGAAGGTGCATTGGAACCCGCTGCCGGAGTCGCTGGCGATCATGCGCCTGACCCGCAAGCAGCTGGCGGTGCGCAACGCGATCCTCGGCGTGTCATGGTTCTGGTTCGTCGGCACCGTGCTGACCGCGCAGCTGCCGGGCTACGCACTGGCCAACCTCGGCGGCGAGCGGCTGTACATCTTCGCGCTGGCGCTGTTCTCGATCGGCACCGGCGCCGGCTCGCTGCTGTGCGAGAAGCTGTCCGGGCGCACCGTGGAGATCGGCCTGGTGCCGCTGGGCGCGTTCGGCATCAGTGCGTTCCTGCTCGACCTGTACTTCGCCCGCCCGGGCGCGGCCGGCGTCAGCGGCCTGGACGTGGCCGGCTTCGTCGCCCAGCCCGGCAGCTGGCGGATCATGCTCGACCTGGTCGGCATCGGCATGTTCACCGGCTTCTTCGTCGTGCCGTTGTTCGCGCTGATCCAGAGCCGCACGCCCAGGGCCGAGCTGTCGCGGGTGATCGCCGGGCTGAACATCCAGAACTCGCTGTTCATCGTGGTCGCCGCGCTGCTCGGCATCGCGGTGCAGCGCCTGCTCGGCTGGAGCATCCCGCAGGTGTTCCTGGCGCTGGCGATCGCCAACACGCTGGTGGCGCTGTGGATCTTCAGCATCGTGCCGGAATTCATGATGCGGCTGCTGAGCTGGATGATGGTGCGCGCGCTGTACCGGCTGCGGCTGCACGGCATCGAGCGCAACGTGCCCGACGAAGGCGCGGCGCTGATCGTCTGCAACCACGTCAGCTACATGGATGCGCTGATCCTGGCCGCGACGATCCCGCGTCCGGTGCGCTTCGTCATGTACTACAAGATCTTCAACATCCCGGTGATGCGCTGGATCTTCCGCACCGCCAAGGCGATCCCGATCGCCGGCGCGCGCGAGGACCCGGTGCTGATGCAGCGCGCGTTCGACCAGATCGACGCGGCGCTGGCCGATGGCGAGCTGGTCTGCATCTTCCCGGAAGGCGCGCTGACCAAGGACGGGGCGATGGCGCCGTTCAAGTCCGGCGTGGAGAAGATCCTGGCCAGGCGTCCGGTGCCGGTGGTGCCGATGGCGCTGCGCGGGATGTGGTCGAGCATGTGGAGCCGGCGCGATTCGCGCCTGCACCGGATGCGCCTGCCGCGGCGCTTCCGCGCGCATATCGACGTGGTGGCCGGCGAGCCGATGCCGGCCTCCAGCGACGCCCAGGCGCTGGAAGCGCGCGTGCGCGCGCTGCGCGGCGAGCACGCCTGA	MSGYSQFSLLRQRRFLPFFAVQALGAFNDNVYRQAIIALLIYLSIGQAQMTIYTNLAPALFILPYFLFSAIAGQVAEKLEKQKLIVITTTMEITIMSLAAIGFVTQNMVVLLVALFCTGLQSTLFGPVKYSILPSVLKPEELTGGNGLVEMGTSIAILCGMIFGGLIFELAGAHGPMVAAVAVIAIAICGNLAARMIPRVDAGAPELKVHWNPLPESLAIMRLTRKQLAVRNAILGVSWFWFVGTVLTAQLPGYALANLGGERLYIFALALFSIGTGAGSLLCEKLSGRTVEIGLVPLGAFGISAFLLDLYFARPGAAGVSGLDVAGFVAQPGSWRIMLDLVGIGMFTGFFVVPLFALIQSRTPRAELSRVIAGLNIQNSLFIVVAALLGIAVQRLLGWSIPQVFLALAIANTLVALWIFSIVPEFMMRLLSWMMVRALYRLRLHGIERNVPDEGAALIVCNHVSYMDALILAATIPRPVRFVMYYKIFNIPVMRWIFRTAKAIPIAGAREDPVLMQRAFDQIDAALADGELVCIFPEGALTKDGAMAPFKSGVEKILARRPVPVVPMALRGMWSSMWSRRDSRLHRMRLPRRFRAHIDVVAGEPMPASSDAQALEARVRALRGEHA	PGPT0021850_173	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_ACYLTRANSFERASE_ACTIVITY,PGPT0021850-aas-K05939	NA	NA
BMS020_05640	348			hypothetical protein	ATGCAGGTTTCAGATCCAACGCCGCCGGCCGTGCCGGCCGCGGCACCAGTGCAGCACATCCACCACCACTACCAGCCGGTCAAGGACAGCAGCACCGCGGTCCTGCTGGAACTGCTGCCGGGCTTCTTCTTCCAGACCTTCGGCATCGGCCACATCTACGCCGGCAACGTCGGCATCGGCCTGCTCTTCATGTTCGGCTACTGGGCGCTGCTGGTGGTGAACATCCTGCTGATGTTCGTGATCATCGGCTTCATCACCGCCCCGCTGTGCTGGATCCTGGCGATGGTGCTGTCCTCGATCACCGCCGCCAACGCCTGCAAGCCGCGCCACGTCGTGGTGCGGACCTGA	MQVSDPTPPAVPAAAPVQHIHHHYQPVKDSSTAVLLELLPGFFFQTFGIGHIYAGNVGIGLLFMFGYWALLVVNILLMFVIIGFITAPLCWILAMVLSSITAANACKPRHVVVRT				NA	NA	NA	NA	NA
BMS020_05641	381			hypothetical protein	ATGAGCGACATCCCACCGCCCCCGCCGCCGCCCGTCGAGCCGCCGCCGGCCCCGCAGCCGCCGCCCGCGCCGGCCGCCGGCGTGCTGGTCGAGCCGATCCCGAACTACCTGGCCTGGTCGATCGTCTCCACCGTGATCGGCTTCTGCCTGTGCTGCCCGGCGCTGATCACCGGCATCGTGGCGATCGTGTTCTCCAGCAAGGTCAACTCGCTGCTCAACCAGGGCGATGTCGACGGCGCCAAGCGTGCCTCGGCCAATGCCAAGACCTGGTGCTGGGTCACCACCGCGCTGGCGATCATCGGCCTGCTGATCAACATCGGCGCGCTCGCCACCGGCGGCATGGAAAGCTACATGAACTACATCCAGCAGATGCAGCATTGA	MSDIPPPPPPPVEPPPAPQPPPAPAAGVLVEPIPNYLAWSIVSTVIGFCLCCPALITGIVAIVFSSKVNSLLNQGDVDGAKRASANAKTWCWVTTALAIIGLLINIGALATGGMESYMNYIQQMQH				NA	NA	NA	NA	NA
BMS020_05642	414			hypothetical protein	TTGATCGCACTGAAGCCGATCCACTGGCTGGGACTGGGTGCGGCCGCCACGGCGGCCGCGCTCGGCACCGCACTGCTGTATCGGTTCGATCCGAATGCGCCGGGAAACCCGTTTCCCGGCTGCATCTTCCTCGCCCTGACCGGCTTCTACTGCCCCGGCTGCGGCATGACCCGCGCATTGCATGCGCTGGTGCACTTCCAGTTCGCACGCGCCTTCGCGATGAATCCCGGGGTGATGAGCGGACTGCTGCTGACGCCCGGGCTGCTGGCGTGGCGTGCCGGCTGGCGCGCGCGCTGGTTCGCGCCGGTGGTGGCGGTAGTGTCCGAGCCGAAGTTCTGGCTGTGGGCGATCCCGGTCTACTGGATCGCGCGCAACCTGCCCTGGTATCCGTTCACCCTGCTCGCGCCGGGCTGA	MIALKPIHWLGLGAAATAAALGTALLYRFDPNAPGNPFPGCIFLALTGFYCPGCGMTRALHALVHFQFARAFAMNPGVMSGLLLTPGLLAWRAGWRARWFAPVVAVVSEPKFWLWAIPVYWIARNLPWYPFTLLAPG				NA	NA	NA	NA	NA
BMS020_05643	894			hypothetical protein	ATGTTCACCACCCTGGTCGCCGTGATCGTCGCGCTTGCGCTGGGCCATGTCGTGCCCGCGCAGGTCGCGTCGCTGCGTCGATTCGCCTGGCTGGCGCATTGGGTGGCGTGGCTGGACCGGCATCTGGGCGAGAGCCCAGCGTGGCGCGGGCGCTATGGCGCGGCGCTGGTGCTGCTGCCGCCGCTGCTGCTGGTCGCGCTGCTGCAGTGGGCGCTGGTCAACACCTGGTACGGACTGCCGTCGCTGCTGTTCGGCGTGCTGGTGCTGGCCTGGACCTGGGGCCCGCGCGATCTGGACCGCGACGTGGAGGCGGTGATCGACGCCGACGACGCCACCGCGCGCCGCGAGGCGATCTCGCACCTGCAGGCTGCCGGCGGCAGCCTGCACGAGGACACCCATTCGCTGGTCGAGGCGGTGGTGGTCAATGGCCTGCGGCGCTGGTTCGCGGTGATGTTCTGGTTCCTGCTGCTCGGTCCGAGCGGCGCGTTGGCGTACCGCGTGCTCGCGCTGCTGGTGGAAGGTCCGCTGTCGCGGCGGTTGCCGGATGCGCACCTGGCCGGCGCGCATCGCGTGCTGGCGGCATTGGAGTGGCCGGTGGCGCAGCTGATGACGCTGTCGATGGCGCTGGTCGGCAACTTCGATACGGTGCTGCGCGCCTGGCGCGAAGCACAGGGCAACCGCTGGGCGCTGGAGCCGGCCTTCCTCGGCGCGGTCGCGCGCGCCAGCGTCAGCGCCGAGCTGCGCGAAGAGGCGCACGACTACACCGAGGCCGGGTTGGTGCCGGTGTGGCGGCGGTTGCCGGAAGTGCGCGACGCGATGAGCCTGGTCTGGCGCGTGCTGTTGCTGTGGATGGTGGTGCTGGCGCTGCTGGTGATCGCCGGCTGGGTGGCCTGA	MFTTLVAVIVALALGHVVPAQVASLRRFAWLAHWVAWLDRHLGESPAWRGRYGAALVLLPPLLLVALLQWALVNTWYGLPSLLFGVLVLAWTWGPRDLDRDVEAVIDADDATARREAISHLQAAGGSLHEDTHSLVEAVVVNGLRRWFAVMFWFLLLGPSGALAYRVLALLVEGPLSRRLPDAHLAGAHRVLAALEWPVAQLMTLSMALVGNFDTVLRAWREAQGNRWALEPAFLGAVARASVSAELREEAHDYTEAGLVPVWRRLPEVRDAMSLVWRVLLLWMVVLALLVIAGWVA	PGPT0028120_54	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028120-ampE-K03807	NA	NA
BMS020_05644	915	nudC_1		NADH pyrophosphatase	ATGTCGATCGCCGCGCCGCTTTCCGGTTTCTCCTTCGTTTCCGCCCCGCTGGACCGTGCCGATCCGTTGCGCGACGACGCCGACGCGATCGCGCGGCTGTGGCCGTCCGCCGCGGTGCTGGTGCTCGACGAGGGCGGCACCGCCTACGCCGATGAGGCTGGCCAGCCGCTGGCGTTGCGCGGCGCCGACCTCGGCGCCGGCCCGGGCACCGCGGTGTTCCTCGGCCTGCAGGGCGAGCACGCTTGGTTCGGTGTCGACGCGGCGCTGCTGGCGCTGCCGCCAGCGCCGCGCCGGGTCGACCTGCGTGAAGCCGCCGCGCACTGGGATGCCGGCGTCGCCGCGGCCTTCGCCTACGCACGCGGCATGTCGTACTGGCAGGCGCGCACGCGCTTCTGCGGGGTCTGTGGCGGCGCGGTGGCGTTTCGCCGCGCCGGCTTCGTCGGGCACTGCGCGCAATGCGGCACCGATCACTATCCGCGCGTGGATCCGGCGGTGATCGTCGCGGTCGGCGACGGCGCGCGGCTGCTGCTGGGCCGCCAGGCGAGCTGGGTGCCGCGGCGCTACTCGGTGATCGCCGGCTTCGTCGAACCGGGCGAGGCGCTGGAGCAGACCGTGGCGCGCGAAGTGCACGAGGAGACCCGGGTGCGGATCGAGGCCTGCGGCTATCTCGGCTCGCAGCCGTGGCCGTTTCCGGGCGCGCTGATGCTGGGATTCCAGGCGCGCGCCGCCGCCGGCCAGCAGCCGCAGGTCGATGGCGAGCTGGAAGACGCGCGCTGGGTCGCGCGCGAGGAGGTCGCCGCGGCGATGCAGCGCGACCGTGACGACGACGGCGAAGGCCTGCGCCTGCCGCCGCCGATCTCGATCGCGCGTGCGCTGATCGAACACTGGTACCACGCCGGCACCTTGGCGCCGTAA	MSIAAPLSGFSFVSAPLDRADPLRDDADAIARLWPSAAVLVLDEGGTAYADEAGQPLALRGADLGAGPGTAVFLGLQGEHAWFGVDAALLALPPAPRRVDLREAAAHWDAGVAAAFAYARGMSYWQARTRFCGVCGGAVAFRRAGFVGHCAQCGTDHYPRVDPAVIVAVGDGARLLLGRQASWVPRRYSVIAGFVEPGEALEQTVAREVHEETRVRIEACGYLGSQPWPFPGALMLGFQARAAAGQQPQVDGELEDARWVAREEVAAAMQRDRDDDGEGLRLPPPISIARALIEHWYHAGTLAP	PGPT0013440_1500	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013440-nudC-K03426	NA	NA
BMS020_05645	384	erpA_2	COG0316	Iron-sulfur cluster insertion protein ErpA	ATGAGCACGTTCGTTTCCCTGCCCACCGCCGCCGCGCCCGACTACCAGTCGCTGGATCGCCCGCTGAATTTCACCGGGGCGGCCGCCGCCAAGGTGCGCGAGCTGATCCAGGAAGAGGGGAACGGCGAGCTGGCGCTGCGCGTGTACATCCAGGGCGGCGGCTGTTCCGGCTTCCAGTACGGCTTCGAGTTCGACGAGAACCGGGCCGAGGACGATCTCGCCGTCGATACCGACGGCGTGACCCTGCTGGTCGATCCGCTCAGCCTGCAGTACCTGATGGGCGCCGAGGTGGATTACACCGAGAGCCTGACCGGGGCGCAGTTCGTGATCCGCAATCCGAACGCCAAGACCACCTGCGGCTGCGGCAGCAGCTTCAGCGTCTGA	MSTFVSLPTAAAPDYQSLDRPLNFTGAAAAKVRELIQEEGNGELALRVYIQGGGCSGFQYGFEFDENRAEDDLAVDTDGVTLLVDPLSLQYLMGAEVDYTESLTGAQFVIRNPNAKTTCGCGSSFSV				NA	NA	NA	NA	NA
BMS020_05646	438			hypothetical protein	ATGTTCGGTAACAAGACCAGCCGCGGCGAACAGACCGTGGTCGATACGCTCATTGGCGCGCAGGTGGTGATCCGCGGCGACCTGACCTTCAGTGGCGGGCTGTACATCGAGGGCCGCGTGCTCGGCAAGGTGATCGCCGACGAGGGCAGCAAGGCCACGGTGACGCTGGCCGATGGCGGTTGCGTGGAAGGCGAGGTGCGCGCGCCGGTGGTGATCATCAACGGCCAGCTGAATGGCGACGTGCATGCCGCCGAGCGGGTCGAACTGGCCGCCAACGCGCGCGTGCAGGGCAACGTGCACTACCAGGTGGTGGAGATGAGTGCCGGGGCGCAGCTGACCGGCCGTTTGATCCATACCGGGACGGTCGCGGCATTGCCGTCGCCGGCGGAACGCAGCGTCGACGTCGACGCGATGGAACCGGCGGCCGCCAGCGCTTGA	MFGNKTSRGEQTVVDTLIGAQVVIRGDLTFSGGLYIEGRVLGKVIADEGSKATVTLADGGCVEGEVRAPVVIINGQLNGDVHAAERVELAANARVQGNVHYQVVEMSAGAQLTGRLIHTGTVAALPSPAERSVDVDAMEPAAASA				NA	NA	NA	NA	NA
BMS020_05647	738			hypothetical protein	ATGAGCCAGCCCAGACCGCAGATCCGCATCAACCAGCCGCAGCGCGGCGCGCCGCCACGGCGCTGGGGGCTGTTGGCCGTGTTCGTGCTGGCCTGGCTGGCGACGCTGGGGGTGACCTGGTGGCTGGCCAGCCGCAGCGCGGTGCCGCGCCTGGCCGAGGCCGAGGCCGAGCTGCGCCAGGCGCGCCAGCGCGAGGCCGGGCAGGCCGCACAGCTGGCCGAGCTGCGCCAGCGCCAGGTCAATCTGACGATGTCGGACAAGATCAGTCGCGCCGCCAACACCGAGATCCAGGCCTCGCTGGCCGAACGCGACGAGCAGATCGCCGCGCTGCGTGCCGATGTCGCCTTCTACGAGCGCCTGGTTGGTTCGACCAGCCAGCGCAAGGGCTTGAACGCGCATTCGATCGAATTCAGCCCCGAGGCCGGCGGCACCTGGAGCTATACCGCGGTGCTGACCCAGAACCTCAACCGCGGCGCGATCAGCCAGGGCCAGATGCGCTTCGCGGTGGAGGGCGTGCGCGCCGGCAAGCTGGCCACGGTCAGCTGGGACGAGTTGCACCAGAAGCAGGGCGTGGCTGGGCAGGACTACTCGTTCCGCTACTTCCAGCAATTGAGCGGCAGCGTGATCCTGCCCAAGGATTTCACCCCGCAACGTGTGAGAATCTCGCTGTCCGGCGGTGGGGCGCCGGTCAACCAGACCTTCGATTGGAAACGCGTCGGTGACGACGCGGGGGAGTAG	MSQPRPQIRINQPQRGAPPRRWGLLAVFVLAWLATLGVTWWLASRSAVPRLAEAEAELRQARQREAGQAAQLAELRQRQVNLTMSDKISRAANTEIQASLAERDEQIAALRADVAFYERLVGSTSQRKGLNAHSIEFSPEAGGTWSYTAVLTQNLNRGAISQGQMRFAVEGVRAGKLATVSWDELHQKQGVAGQDYSFRYFQQLSGSVILPKDFTPQRVRISLSGGGAPVNQTFDWKRVGDDAGE				NA	NA	NA	NA	NA
BMS020_05648	612			hypothetical protein	GTGGAAGAAGCTCATCTGTTCGTGATCGGCATCCTGCTGGCCTGGCTGGCCGGCATCCGCGTCTACCTGACCGTCTTCGGGGTCGGCCTGGCCGGCCTGCTGGGCTGGGTCGAGCTGCCGCCGGCGCTGCAGGCCACGCAGTCGTGGTGGGTGCTGGGCACCTCCGGCGCGCTGGCGCTGGCGGAGTTCTTCGCCGACAAGATTCCCGGCGTGGATTCGGCCTGGGACCTGCTGCAGACCCTGGCGCGGATCCCGGCCGGCGCGTTCCTGGCCGCGGCGACGCTGTCCCCGGACGGCCAGCTCGGTCCCGCCGCCCTGGCCGCCGGAGCCGGCATCGCATTGACCAGCCATGGCCTCAAGGCCGGCACCCGGGCCCTGCTCAACACCTCGCCGGAACCGGCCAGCAACTGGGTCGCCTCGGTCGCCGAGGACACCGTGGTCACCGCCACCCTGGCGCTGGCGCTGGCGCACCCGTGGCTGGCGCTCGGCTTCGTGCTGGCCGCCAGCCTGCTCGGCGCACTGCTGGTGTGGTGGGTCTGGCGGCTGCTGTGGCGCGGCATGAAGCGGCTGACCGCCCCGCTGCGCGCGCCCGCGGGCTCGCCGCTGCCGTGA	MEEAHLFVIGILLAWLAGIRVYLTVFGVGLAGLLGWVELPPALQATQSWWVLGTSGALALAEFFADKIPGVDSAWDLLQTLARIPAGAFLAAATLSPDGQLGPAALAAGAGIALTSHGLKAGTRALLNTSPEPASNWVASVAEDTVVTATLALALAHPWLALGFVLAASLLGALLVWWVWRLLWRGMKRLTAPLRAPAGSPLP				NA	NA	NA	NA	NA
BMS020_05649	1935	rcsC_6		Sensor histidine kinase RcsC	ATGGCCGCCAGAGATCCGGTTTCCCCTCCATCCCGTGAGGACACGGCGCCGCGCGGCCGCGCGCTGCGCGCCGAGACGCCGCCGGCCGACTACTGGCGGCGCTGGGCCGACAGCCCCGTGGCCACGGCAACGGAGCCCTCCGTGCGCGCCGACGCGCCCCCCGCGGCGCCCGCCGCACCGGCGCTGCCCGCCAGCAACCCGGCGCCAGCCGTCAGCAACATCACCCCCAACGTGGGCGATGCCGCGGCGGAGTCGGCCACGGCGCCCGAGCTGCCGGCCCCGAGCGACGCGCCGTACCGCATCCTGATCGTCGAGGACGACCGCTCGCAGGCGCTGTTCGCCCAGAGCGTGCTGCACGGCGCCGGCATGCACGCACAGGTGGAGATGACCGCCGCCAACGTGCAGCAGGCGATCCGTGATTACGCGCCCGACCTGATCCTGATGGACCTGCACATGCCGGACCTGGACGGCCTGCGCCTGACCACGCTGATCCGCCAGCACCCGCAGCACCAGCTGCTGCCGATCGTGTTCCTGACCGGCGATCCCGACCCGGAGCGCCAGTTCGAGGTGCTCGACAGCGGCGCCGACGACTTCCTCAACAAGCCGATCCGCCCGCGCCACCTGATCGCCGCGGTCTCCAACCGGATCCGCCGCGCCCGCCAGCAGGCCCAGCTCGACCAGGCCGCGCCGGCACCGGCGGCGACCAGCAATCCGGAAACCGGCCTGCCGACGCGCGCCTACGTGATGCAGCAGCTGGCCGACACGCTCGCCAGCGGCAACCAGGCCGGGCTGTTGTTCATCGAGATCGCCAGCGCGCTGGGCCTGCGCGAGCGCTTCGGCTACGCCGCCTTCGAGCGCCTGATGCTCCAGGCCGGCCATCGCCTCGCCGCGGCGACCCGCCCGCACGTGCTGGCGCGCCTGAACGACAACAGCTTCCTGCTGCTGGCCACCGGGATCGGCCCGGCACAGCTGGCGCCGCTGGCACGCGACCTGCGCGCCCAGCTGTCGGCACAGCCGCTGCAGGTGCGCGAAGGCGAAGTGGTGCACCTGCGCTGCGTGGTCGGCCATGCACCGCTGTCGGCCGGCTTCGCCGATGCCGGCAGCGCGCTGGAGGCGGTCGAGCGCACCGCGCTGCAGGCCCGCCTCGATCCCGATGGCGCCAGCGCCTACGTCGCGCCCGACAGCCGCGAGCGCGAAGAACACCTCAAGCTGGTCGCCGGGCAACTGGAGCTGGCCTACCAGCCGATCGTCGCCGTCGCCGGCGGCGCCACCGCGCAGTACCAGGTGCTGCTGCGGCTGCGCCAGGCCGACGGCACCCTGCTCTCGGCCGGCCAGGTGATCCCCGCCGCCGAGGCCGCCGGGCGCATCGGCGACCTCGACCAGCAGGTGCTCGAACACGCGATCGGCCTGCTGCACCTGTACCAGCACGCGACCCCGCCGCTGCGCCTGTTCGTCTCGCAGTCGGCACGCACGCTGGCGCGCGAGGCTTTCGCCGACTGGCTGCTGGAATCGGTGCGCACGCGCGGCATCGAAGGCACCTCGCTGGTGATCGACGTGCGCCTGCAGGATGCGCTGATCCACGCGGTCACGCTGCAGCAGTTCTGCGCCCGGCTGATGCCGGAGGGCGTGCAGTTCTGCATCAGCCAGTTCGAACCGGGCGCCGAGGCCAACGCGCTGCTGTCGCAGCTGCCGCTGGGCTACATCCGCCTGGCCGGGCGCTTCGCCGGCGCCCACGCCGACGGCGCGTTGCGCGATGAGCTGCGCGCGGTGATCGACCTGGCGCACCGCCAGGGGCTGCAGATCATCGGCCAGCAGATCGAGGACGCGCAGGCCGCCGCCGCGATGTGGATGAGCGGGGTGGACTTCATCCAGGGCAACCTGGTCCAGTCGGTCGGCAACGACCTGAACTTCGATTTCCAGAACGCGGTGCTCTGA	MAARDPVSPPSREDTAPRGRALRAETPPADYWRRWADSPVATATEPSVRADAPPAAPAAPALPASNPAPAVSNITPNVGDAAAESATAPELPAPSDAPYRILIVEDDRSQALFAQSVLHGAGMHAQVEMTAANVQQAIRDYAPDLILMDLHMPDLDGLRLTTLIRQHPQHQLLPIVFLTGDPDPERQFEVLDSGADDFLNKPIRPRHLIAAVSNRIRRARQQAQLDQAAPAPAATSNPETGLPTRAYVMQQLADTLASGNQAGLLFIEIASALGLRERFGYAAFERLMLQAGHRLAAATRPHVLARLNDNSFLLLATGIGPAQLAPLARDLRAQLSAQPLQVREGEVVHLRCVVGHAPLSAGFADAGSALEAVERTALQARLDPDGASAYVAPDSREREEHLKLVAGQLELAYQPIVAVAGGATAQYQVLLRLRQADGTLLSAGQVIPAAEAAGRIGDLDQQVLEHAIGLLHLYQHATPPLRLFVSQSARTLAREAFADWLLESVRTRGIEGTSLVIDVRLQDALIHAVTLQQFCARLMPEGVQFCISQFEPGAEANALLSQLPLGYIRLAGRFAGAHADGALRDELRAVIDLAHRQGLQIIGQQIEDAQAAAAMWMSGVDFIQGNLVQSVGNDLNFDFQNAVL				NA	NA	NA	NA	NA
BMS020_05650	2307	rcsC_7		Sensor histidine kinase RcsC	GTGGCAACGCCGCCCCGCCGCAGTGCCGCGTCGTGGCTGGGGGTGGCCGCAGCGCTCGCCGCACTGAGCGCCGGCGGCGCCCTGCTCGCCGGCCTGCACGGCCCCTGGGCGTGGTTGCTGGGCGGCGCGCTGCTGGCGCTGGTCGCCACGCTCGCCTGGCAGGCCAGTGGCTGGCGCGACGCACAGGCGCTGGCCGAACAGCGCCACCAGCACCTGCGCGCGATCGAGCGCGAACGCGACGGCATGGTGCAGGAGCTGCGCCGCCACGACCAGCTCGAACAGCAGATGCTGCTGGCCAAGCAGGCCGCCGAGGCGGCGGTGCTGGCCAAGGGCGAGTTCCTGGCGACGATGAGCCACGAGATCCGCACTCCGCTCAACGGCATCATCCCGATGCTGGACCTGATCGCCCGCGGCGAACTCGCCCCGGACCAGCGCGAGATGCTGCAGACCGCGACCGCCAGCTCGATGCAGCTGTTGCGGATCGTCGACGACATCCTCGACTTCTCCAAACTGGAGGCGGACAAGCTCGAGCTGGAGATCACCACCTTCAACCTGCGCGAACTGCTCGAAGGCGTGGTGCTGCTGATGCAGCGCGCCGCCGAGGACAAGCGCCTGCGCCTGGCACTGGAACTCGACCCGGCGGTGCGGTTGCCGGTGCGTGGCGACCCGGTGCGGCTGCGCCAGGTGCTCGGCAACCTGATCAGCAACGCGATCAAGTTCACCGAGCGCGGTGGCATCGACATCCAGGTCCGCCGGCTCGGTGAGGCCAAGGCCCAGCACCTGCTGCGGTTCCAGGTCCGCGACAGCGGCATCGGCATCGCCGCCGAGCAGCAGGCACGGCTGTTCCGCTCCTTCACCCAGGCCGATGCGTCGACCACGCGCCTGTATGGCGGCACCGGCCTCGGCCTGGCGATCTGCAAGCGCATCGTCGACCTGATGGGCGGGCGCATCGGCGTCGAATCCGAGACCGGCAAGGGCGCGACGTTCTGGTTCGAAGTGCCGCTGCTGAAGGTCGCCGGCGACCTGCCGGCGCTGGCCCCGAACGCCGGCGGTGCGCGCGTGCTGCTGATCTCGGCCGATGCGCGGCTGATGCAGCGCATGAGCAGGCTGATGGACGGCTGGGGCATGAGCGTGCACGGCGTGGCCACCACCCAGGAAGCACTGGAGCGCCTGCGCAATGCCGCCAACGGCAGCCCGGCGGGCCGCTACGGCTTCGTCATCGCCGACCACGACACCCTGCGCTACAGCGCCCGCGCTCTGCAGCGCGCGCTCACCCGCCCGGACGAATACGGTGAGCCGCGGCTGATCTGGCTGTATGGCGAACACGCTCTGCCGGACGAGCTGCAGCACCATCCCGACCTGGCGCCGCGGCAGGCCCCGGACACCGAGATCCGCGCCCTGCTGCTGCCGCGCGACACCCCCTCGCCCGCGCCCGAGCCGGCCGCCGCGGCTGACACCGCCCCGGCCGCGGCGAGCCCGGCGCGGCCCCAGCCGGCGCGGATCCTGCTGGTCGAGGACAACCCGGTCAACCTGCTGGTCGCGCAGAAGATGCTGGGCGTGCTCGGCCACGAAGCCGAGACCGCGACCAATGGCGAGCTGGCGCTCGCGGCGATGGCGCGCGGTCGTTACGACCTGGTGCTGATGGACTGCCAGATGCCGGTGCTGGACGGCTACGAAGCCACCCGCCGCTGGCGCGCGATGGAAGTGGAAACGCATGCGCGGCCGCTGCCGATCATCGCGATGACCGCCAACGCGATGGCCGGCGACCGCGAGCGCTGCCTGCATGCCGGCATGGACGATTACCTGTCCAAGCCGGTCTCGCGCGAGCATCTCGATGCCTGCCTGGCGCGATGGCTGCCGCAGATGGCGCGCAGCGAGCCAGCCCCGGGCGTGCTGGTGCAGGCGCAGCCGGAGGCGACCGTGGTGCAGGCGGCGACGCTGCCGGTGCTCGATACCGAGGTGCTGGAGGAACTGCACGAGGTCGCCGGCGCGGACACCGCGCGGATCATCGGCCTGTTCCTGGAGGATGCGCCGACGCTGATCGCGCAACTCGAAGCGGCAGCCTCGACCGGCGACACCGACCTGCTGCGCGACGCCGCGCACACGCTGAAGTCGTCCAGCGCCAACGTCGGTGCGGTCGCGCTGTCCAACGCGGCGCGGCGCATCGAGCTGGCCGCGCGCACCGGCATCGTCGAACGCCCTGCGGTGATGGTCGCGCTGGTGATCGCCGAGAACGCCCGCGCGCGGTTGGCGCTGACCGGGCACGCCGGCCGGCTGGCAAGTGCCTCGCCGGCGCGGACGCCGTGA	MATPPRRSAASWLGVAAALAALSAGGALLAGLHGPWAWLLGGALLALVATLAWQASGWRDAQALAEQRHQHLRAIERERDGMVQELRRHDQLEQQMLLAKQAAEAAVLAKGEFLATMSHEIRTPLNGIIPMLDLIARGELAPDQREMLQTATASSMQLLRIVDDILDFSKLEADKLELEITTFNLRELLEGVVLLMQRAAEDKRLRLALELDPAVRLPVRGDPVRLRQVLGNLISNAIKFTERGGIDIQVRRLGEAKAQHLLRFQVRDSGIGIAAEQQARLFRSFTQADASTTRLYGGTGLGLAICKRIVDLMGGRIGVESETGKGATFWFEVPLLKVAGDLPALAPNAGGARVLLISADARLMQRMSRLMDGWGMSVHGVATTQEALERLRNAANGSPAGRYGFVIADHDTLRYSARALQRALTRPDEYGEPRLIWLYGEHALPDELQHHPDLAPRQAPDTEIRALLLPRDTPSPAPEPAAAADTAPAAASPARPQPARILLVEDNPVNLLVAQKMLGVLGHEAETATNGELALAAMARGRYDLVLMDCQMPVLDGYEATRRWRAMEVETHARPLPIIAMTANAMAGDRERCLHAGMDDYLSKPVSREHLDACLARWLPQMARSEPAPGVLVQAQPEATVVQAATLPVLDTEVLEELHEVAGADTARIIGLFLEDAPTLIAQLEAAASTGDTDLLRDAAHTLKSSSANVGAVALSNAARRIELAARTGIVERPAVMVALVIAENARARLALTGHAGRLASASPARTP				NA	NA	NA	NA	NA
BMS020_05651	471	bfr_1	COG2193	Bacterioferritin	ATGAAGGGTGACAGCAAAGTCATCGAATTCCTCAACAAGGTGCTCTACAACGAGCTCACCGCGATCAACCAGTACTTCCTGCACGCCAAGATGCTGAAGAACTGGGGGCTCAAGGAGCTCGCCGAGCATGAGTACAAGGAGTCGATCGAGGAGATGAAGCACGCGGACCGGCTGGCCGACCGCATCCTGTTCCTCGAGGGGCTGCCGAACTTCCAGGCGCTCGGCAAGCTGCGCATCGGCGAGTCGCCGACCGAGATGTTCCGCTGCGACCTGGCGCTGGAGCGCGAGGCCGCCGAGGTGCTGCGCCAGGCCATCGCCCACGCCGAGGGCATCGCCGACTACGTCAGCCGCCAGTTGTTCGCCGACATCCTCGAGTCCGAGGAAGAGCACATCGACTGGCTGGAAACCCAGCTGGATCTGGTCGAGCGGATCGGCGAGCCGAACTACCTGCTGACCAAGCTGGAAGACTGA	MKGDSKVIEFLNKVLYNELTAINQYFLHAKMLKNWGLKELAEHEYKESIEEMKHADRLADRILFLEGLPNFQALGKLRIGESPTEMFRCDLALEREAAEVLRQAIAHAEGIADYVSRQLFADILESEEEHIDWLETQLDLVERIGEPNYLLTKLED	PGPT0003965_2311	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003965-bfr-K03594	NA	NA
BMS020_05652	252			hypothetical protein	ATGGCGTTGCCCGCCTTCCGGGCGCCAGCCGTGTCGCCGAACGTGTACGTCTGCATCTGCAACGGGGTCACCGACCAACAGATCCGCGAAGCCGCCGCCAATGGATGCGCCAACGTGTCCGAGCTGACAATGCGTACCGGCTGTGGTTCCAACTGCGGTTCCTGCCTCGACATGGCCGCCGACCTGCTCGCCCAGGCGCGCGCGGTGCACGACTTCCCGTTGCCGCTGGTCGGCCTGGCATCGGCCGCCTGA	MALPAFRAPAVSPNVYVCICNGVTDQQIREAAANGCANVSELTMRTGCGSNCGSCLDMAADLLAQARAVHDFPLPLVGLASAA	PGPT0003975_274	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACTERIOFERRITIN-ASSOCIATED_FERREDOXIN,PGPT0003975-bfd|yheA-K02192	NA	NA
BMS020_05653	612	rppH_2		RNA pyrophosphohydrolase	GTGATCGATCCGGACGGCTACCGACCCAACGTCGGCATCGTGCTGATGCGGCAGGACGGTCAGGTGTTCTGGGCGCGCCGTGTGCGCCGGGACGGCTGGCAGTTCCCGCAAGGCGGCATGAACACCGACGAGACCCCGGTCGAAGCCATGTATCGCGAACTCCGCGAGGAGACCGGGCTGATGCCCGAGCACGTGGAAGTGCTCGGCGCGACGCCCGGCTGGCTGCGCTACCGCCTGCCGGCGCGGGCCATCCGGCGCAGCGAAAAGCAGGTCTGCATCGGCCAGAAGCAGGTCTGGTTCCTGCTGCGCCTGACCGGCGACGAGTCGCACGTGTGCCTGGACCATACCGATTCGCCCGAATTCGACCTGTGGCGCTGGGTGGACTTCTGGTACCCGGTCGAACATGTGGTGATGTTCAAGCGCGGGGTCTACGCGCGCGCGCTGCGGCACCTGGCGCCACTCGCGCAGGACATCGCCGGGATGGCGGTCGGGGCGATGCCCGAGCGCGCCCAGCAGGCCTGGATGCCCGGCAACACGGCCGGCCATGATCGCCCGCGCAAGCGGCCGCGACGCCGCGGTGCCGGGCGCCGGGCCGGTGTTGGCAATGATTAA	MIDPDGYRPNVGIVLMRQDGQVFWARRVRRDGWQFPQGGMNTDETPVEAMYRELREETGLMPEHVEVLGATPGWLRYRLPARAIRRSEKQVCIGQKQVWFLLRLTGDESHVCLDHTDSPEFDLWRWVDFWYPVEHVVMFKRGVYARALRHLAPLAQDIAGMAVGAMPERAQQAWMPGNTAGHDRPRKRPRRRGAGRRAGVGND				NA	NA	NA	NA	NA
BMS020_05656	393	rpsI_2	COG0103	30S ribosomal protein S9	ATGGCTATCACGCAAAACTACGGCACTGGCCGCCGCAAGTCCTCCACCGCTCGCGTGTTCCTGCGCAAGGGCACCGGCAACATCACCGTCAATGGCCGTCCGCTGGACGAGTTCTTCGGCCGTGAGACCGCGCGCATGATCGTGCGCCAGCCGCTGGAGCTGACCAAGAACACCGAGAGCTTCGACATCACCGTGACCGCCGTCGGCGGTGGCACCACCGGCCAGGCCGGTGCGATCCGCCTGGGCATCGCCCGCGCGCTGGTGGAGTACGACGAAACCCTGAAGTCCGAGCTGCGCAAGGCTGGCTTCATGACCCGCGACGCCCGCGAAGTCGAGCGTAAGAAGGTCGGTCTGCACAAGGCCCGTCGCGCCACCCAGTTCTCCAAGCGCTGA	MAITQNYGTGRRKSSTARVFLRKGTGNITVNGRPLDEFFGRETARMIVRQPLELTKNTESFDITVTAVGGGTTGQAGAIRLGIARALVEYDETLKSELRKAGFMTRDAREVERKKVGLHKARRATQFSKR				NA	NA	NA	NA	NA
BMS020_05657	429	rplM_2	COG0102	50S ribosomal protein L13	ATGAGCACTTTCACCGCAAAGTCCGAGACCGTCCAGCGCGACTGGTACGTCGTCGACGCCTCTGGCAAGACGCTGGGCCGTCTGGCCACCGAGCTCGCCCGCCGTCTGCGTGGCAAGCACAAGCCCGTCTACACCCCTCACGTTGATACCGGCGACTACCTGGTCGTGATCAACGCCGAGAAGATCGCCGTCACCGGCAAGAAGCTGCAGGACAAGATGTACCACCGCTTCACCGGCTACATCGGCAACCTGAAGAGCGAGAACCTGGCCCAGGCGCTGGAGCGCCACCCGGAGCGCGTGATCGAGATCGCCGTCAAGGGCATGCTGCCGAAGGGCCCGCTGGGTCGTGCGATGTACCGCAAGCTCAAGGTCTACGCCGGCCCGAACCACCCGCACGCCGCCCAGCAGCCGCAAGTTCTGGATATCTAA	MSTFTAKSETVQRDWYVVDASGKTLGRLATELARRLRGKHKPVYTPHVDTGDYLVVINAEKIAVTGKKLQDKMYHRFTGYIGNLKSENLAQALERHPERVIEIAVKGMLPKGPLGRAMYRKLKVYAGPNHPHAAQQPQVLDI				NA	NA	NA	NA	NA
BMS020_05658	762	coq7	COG2941	3-demethoxyubiquinol 3-hydroxylase	GTGATACAGAAGGGGCGGCATGATACATGGATACCCGACCCCGCGCAAACCGACCCCGCCGCACTGGCCTGGGCGCCGCCTGCGCCGGACAATGACAGCCCCCAAGCCGCCCTGGCCATTGCCGTGCCACGCATCTTCACGCCCCTGGACGTCCTGCTGACCGAGGCCCAGCGCGCCCTCGATACCGCCCTGGGCAACCCGGGCGCGATGCGCCCGAACCCGGCCGGCGACACCCCTGCGACGGAGCTGGACGCCGCGGGGCGCCGCCACGCCGCCGGGCTGATGCGGATCAACCACGTCGGCGAGGTCTGCGCCCAGGGCCTGTATTTCGGCCAGGCGGCGGTTGCACGCGAACCGACGATCCGCCAGCACCTGCTCGACGCCGCCCAGGAGGAAACCGACCACCTGGCCTGGTGCAGCGAGCGCCTGCGCGAGCTGGACAGCCGCCCCAGCCTGTTCAATCCGGCCTGGTACGCGGGCAGCTACGCCCTCGGCGTCGTCGCCGGCCTGGCCGGGGACCCTTGGAGCCTGGGGTTCGTGGTCGAGACCGAGCGCCAGGTCGAGGCGCACCTGGACGAACATCTGCAGACCCTGCCGGCCGATGACCAGCGCAGCCGCCGGATCCTCAGCGTGATGAAGGCCGACGAGGCCCGCCACGCCGACCATGCCGAGCAGGCCGGCGCACGCGTCCTGCCGCCGCCGATCCCGTCGGCGATGGCATTGGCATCGAAGCTGATGAAGGCGATCGCCTACCGGCTCTGA	MIQKGRHDTWIPDPAQTDPAALAWAPPAPDNDSPQAALAIAVPRIFTPLDVLLTEAQRALDTALGNPGAMRPNPAGDTPATELDAAGRRHAAGLMRINHVGEVCAQGLYFGQAAVAREPTIRQHLLDAAQEETDHLAWCSERLRELDSRPSLFNPAWYAGSYALGVVAGLAGDPWSLGFVVETERQVEAHLDEHLQTLPADDQRSRRILSVMKADEARHADHAEQAGARVLPPPIPSAMALASKLMKAIAYRL	PGPT0009541_353	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009541-COQ7_like-K06134	NA	NA
BMS020_05659	318	gdx_2		Guanidinium exporter	ATGGCCTGGATCTATCTGCTGCTGGCAGGCGTGTTCGAGATCGGCTTCGCGGTCGGCATGAAGTACTCGGAGGGCTTCAGCCGCCCGCTGCCGAGCCTGGCGACGGTGGCCGCGGCGCTGGTCAGCCTGTACCTGATGAGCCAGGCGATGAAGGTCATCCCGGTCGGCACCGCCTATGCGATCTGGACCGGCATCGGTGCGATGGGCGTGGCGGTGCTCGGCATCGTCCTGTTCAACGACAGCGCCTCGCCGGCGCGACTGGGCTGCGTGGCGCTGATCGTCGCCGGGGTGATCGGCTTGAAGCTCGCTTCGGCCTGA	MAWIYLLLAGVFEIGFAVGMKYSEGFSRPLPSLATVAAALVSLYLMSQAMKVIPVGTAYAIWTGIGAMGVAVLGIVLFNDSASPARLGCVALIVAGVIGLKLASA	PGPT0028785_1643	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
BMS020_05660	795	speD_2	COG1586	S-adenosylmethionine decarboxylase proenzyme	GTGGTCAAGCCGTTGCCTCGCCTGAGGTTGCAGGGTTTCAACAACCTCACCAAGGCGCTGAGCTTCAACATCTACGACGTCTGCTACGCCCGTACCGAGGAGGAGCGCCAGCGCTACATCGAGTACATCGACGAGCAGTACGACGCCGACCGCCTGACCCAGATCCTGACGGATGTGGCCGAGATCATCGGCGCCAACATCCTGAACATCGCGCGCCAGGACTACGATCCGCAGGGTGCGTCGGTGACGATCCTGATCTCCGAAGAGCCGGTGATCGACAAGAAGCAGGCCGGCAAGGAGCTGATCTCCGACGCCGTGGTCGCGCACATGGACAAGAGCCACATCACCGTCCATACCTATCCGGAAACGCATCCGCAGGAAGGCATTGCCACCTTCCGTGCCGACATCGACGTCGCCACCTGCGGCGTGATCTCGCCGCTGAAGGCGTTGAACTACCTGATCGAGTCGCTCGAGTCGGACATCGTGATCATGGATTACCGGGTGCGCGGCTTCACCCGTGACGTGAAGGGCAAGAAGCACTTCATCGACCACAAGATCAACTCGATCCAGAACTTCCTGGCCAAGAACATCAAGTCGCGCTACGAGATGTTCGACGTCAACGTCTACCAGGAAAACATCTTCCACACGAAGATGCACCTGAAGGACTTCGACCTGGACCAGTACCTGTTCGAGGAAAAGGCCAAGAACCTCTCGTTCAAGGAGCGCATGAAGATCGAGGCGCTGCTCAAGCGCGAGATCGAAGAGCTGTTCCACGGCCGCAATCTGGCCGAGTAA	MVKPLPRLRLQGFNNLTKALSFNIYDVCYARTEEERQRYIEYIDEQYDADRLTQILTDVAEIIGANILNIARQDYDPQGASVTILISEEPVIDKKQAGKELISDAVVAHMDKSHITVHTYPETHPQEGIATFRADIDVATCGVISPLKALNYLIESLESDIVIMDYRVRGFTRDVKGKKHFIDHKINSIQNFLAKNIKSRYEMFDVNVYQENIFHTKMHLKDFDLDQYLFEEKAKNLSFKERMKIEALLKREIEELFHGRNLAE	PGPT0007760_1330	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
BMS020_05661	690	clp	COG0664	CRP-like protein Clp	ATGAGCCCAGGCACTCCCAACAACGCGACGACGGTACGTCACAGTACCGCGCCCTTGACGCTGGACGCTGCGACCATCGAGCGGTTTCTGGCCCACAGCCACCGCCGCCGCTATCCGACCCGGACCGACGTGTTCCGCCCCGGCGACCCCGCCGGCACGCTGTATTACGTGATCAGCGGCTCGGTCAGCATCATCGCCGAGGAAGACGATGACCGCGAACTGGTGCTGGGCTACTTCGGCGCCGGCGAATTCGTCGGCGAAATGGGCCTGTTCATCGAGTCCGAGACCCGCGAGGTGATCCTGCGCACCCGCAGCCAGTGCGAGCTGGCCGAGATCAGCTACGAGCGCCTGCACCAGCTGCTGCAGGGCAGCCTGGCGATGGACGCGCCGCGGCTGCTGTATGCCATCGGCGTGCAGCTGTCCAAGCGTTTACTGGATACCACGCGCAAGGCCAGCCGCCTGGCATTCCTGGACGTCACCGACCGCATCGTGCGCACCCTGCACGACCTGGCGCGCGAACCGGAGGCGATGAGCCACCCGCAGGGCACCCAGCTGCGCGTGTCGCGCCAGGAACTGGCGCGACTGGTCGGCTGCTCGCGTGAGATGGCCGGCCGGGTGCTGAAGAAGCTGCAGGCCGATGGCCTGCTGCATGCACGCGGCAAGACCGTGGTCCTGTACGGCACGCGGTGA	MSPGTPNNATTVRHSTAPLTLDAATIERFLAHSHRRRYPTRTDVFRPGDPAGTLYYVISGSVSIIAEEDDDRELVLGYFGAGEFVGEMGLFIESETREVILRTRSQCELAEISYERLHQLLQGSLAMDAPRLLYAIGVQLSKRLLDTTRKASRLAFLDVTDRIVRTLHDLAREPEAMSHPQGTQLRVSRQELARLVGCSREMAGRVLKKLQADGLLHARGKTVVLYGTR	PGPT0015075_1924	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
BMS020_05662	717			hypothetical protein	ATGAGTGGGCCGTATCCGACCCCGCGCGATGACGCGCCGCTGGTGGTCTTCGACTTCGACCACACGCTCTACGACGGCGATTCCGGCAGCCACCTGTTCGCCTGGCTGATCCGGCGCAACCCGTTGCGCCTGCTGGTGGCGCTGCTGGCGACGCCGCTGCTGGGGCCGATGGTGGCGATGCTGCCGACCCGTCGTCGCGGCGTGTCCGGCTACGTCTGGATCGCCACGTTCGGCCTGCACCGGGCCCGCGAGTTCAACCGCGTGATCGATGCCTACGTGCTCAAGCACGAGGCCGAGGTGCGCCGGCGGCTGCTGCCGCACGCGTTGGGCGTGTTCGCGCGCCATCGCGCCGCTGGCGACCGGGTGATCGTCGCCACCGGCGCGCCGCCTGAGCTGGCGCGGGCGATCCTGGGCTTCGTCGCGCACCAGGACGTGCCGGTGATCGGCAGCCTGGTTGGGCCACGGCTGGGCGCGGTGACCGCGACCCGTCACTGCCACAACGAAGAGAAGATGCGGATGCTGCGCGAGCGTGGCTACGGCGACATCGCGATCGCCTATTCCGACAGCACCGCCGACCTGCCGCTGTTGAAGGCGGCCAAGGCGCCGGTAGTGGTGAACCCGAAGCGCGGCAAGGAAGCGCTGTTCCGGCAGCTGCTGCCGGCTGGTACGCCGGTGCTGAATTGGGGATGCGGCGATCGTGGGGGCGATCCGGCTTGA	MSGPYPTPRDDAPLVVFDFDHTLYDGDSGSHLFAWLIRRNPLRLLVALLATPLLGPMVAMLPTRRRGVSGYVWIATFGLHRAREFNRVIDAYVLKHEAEVRRRLLPHALGVFARHRAAGDRVIVATGAPPELARAILGFVAHQDVPVIGSLVGPRLGAVTATRHCHNEEKMRMLRERGYGDIAIAYSDSTADLPLLKAAKAPVVVNPKRGKEALFRQLLPAGTPVLNWGCGDRGGDPA	PGPT0007720_68	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATASE_ACTIVITY,PGPT0007720-pgpC-K18697	NA	NA
BMS020_05663	792	trpC_1		Indole-3-glycerol phosphate synthase	ATGAGCGACATCCTCACCACCATCCTGGCCCGCAAGGCCGAAGAAGTCGCCGAGCGCCGGCTGCGCGTGCCGCTGACCGAGCTGGTTGCACGCGTGCAGGACCTGCCGGTCACGCGCGGCTTCACCGCGGCGCTGCAGGCGAGCATCGCCCAGGGCGATCCGGCGGTGATCGCCGAGGTCAAGAAGGCCAGCCCGTCCAAGGGCGTGATCCGCCCGGATTTCCGCCCGGCCGATATCGCGGTCAGCTACGAGTTCGGTGGCGCCAGCTGCCTGTCGGTGCTGACCGATGTCGATTTCTTCCAGGGCGCCGATGCCTACCTGCAGCAGGCGCGCGAAGCCTGCACGCTGCCGGTGCTGCGCAAGGACTTCACCGTCGACCCGTACCAGGTGTACGAGGCGCGCGTGCTCGGCGCCGACTGCATCCTGCTGATCGTTGCCGCACTCGACGACCCGCAGCTGGCCGATCTGTCGGCGCTGGCGCTGCAGCTGGGCATGGACGTGCTGGTCGAAGTGCACGACATCGACGAGCTGGAGCGGGCGATCCAGGTGCCGGTGCCGATGATCGGCATCAACAACCGCAACCTGCGCACCTTCGAGGTCACGCTGCAGACCACGCTGGGGATGAAGTCGGCGGTGCCGAGGGATCGGCTGCTGGTCACCGAGAGCGGCATCCTGGCGCCGGCGGACGTGAAGCTGATGCGCGACAACGGCGTCGATGCGTTCCTGGTCGGCGAGGCCTTCATGCGTGCCGAGGAGCCGGGCGAGTCGCTGCGCCAGCTGTTCTTCACATGA	MSDILTTILARKAEEVAERRLRVPLTELVARVQDLPVTRGFTAALQASIAQGDPAVIAEVKKASPSKGVIRPDFRPADIAVSYEFGGASCLSVLTDVDFFQGADAYLQQAREACTLPVLRKDFTVDPYQVYEARVLGADCILLIVAALDDPQLADLSALALQLGMDVLVEVHDIDELERAIQVPVPMIGINNRNLRTFEVTLQTTLGMKSAVPRDRLLVTESGILAPADVKLMRDNGVDAFLVGEAFMRAEEPGESLRQLFFT	PGPT0007080_2124	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
BMS020_05664	351	yqjZ	COG2329	putative protein YqjZ	ATGAGCACGGACGACGCCGCGTTCGCCGCATTGCCTTCGCCGCCGTACTGGGCCGTGGTGTTTTCTTCGCGCCGCAGCGCTGGCGATGACGCCGGCTATGGCGAAGCCGCCACCCGGATGGTGGCGCTGGCCCGGCAGCAGCCGGGGTTTCTGGGGGTCGAGTCGGCGCGTGGCGACGATGGCTTCGGCATCACCGTTTCGTACTGGGAGAGCGAGGCCGCCATCGCCGCCTGGCGTGCCCATGCGGAACACGCGGCGGTGCGCGCAACCGGCCGGCGCGACTGGTACCGGCATTTCGAACTGCGCGTGGCGAAGGTGGAGCGCGCCTACGGCGGCGGCCAGGCCCCCTGA	MSTDDAAFAALPSPPYWAVVFSSRRSAGDDAGYGEAATRMVALARQQPGFLGVESARGDDGFGITVSYWESEAAIAAWRAHAEHAAVRATGRRDWYRHFELRVAKVERAYGGGQAP	PGPT0013170_364	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS020_05665	1029	trpD	COG0547	Anthranilate phosphoribosyltransferase	ATGCCGATCACTCCACAAGAAGCCCTGCAGCGCACCATCGAGCACCGCGAGATCTTCCACGACGAGATGGTCGCGCTGATGCGCCAGATCATGCGTGGCGAGGTCTCGGACATGATGGTCGCGGCGATCCTGACCGGCCTGCGGGTGAAGAAGGAAACCGTCGGCGAGATCGCCGGCGCCGCCACGGTGATGCGCGAATTCTCGCGCCGCGTGGAGGTGGCCGACCGCAGCCACATGGTCGACATCGTCGGCACCGGTGGCGACGGTTCGCACACCTTCAACATTTCCACCTGCGCGATGTTCGCCGCCGCCGCCGCCGGTGCGCGCGTGGCCAAGCACGGCAATCGCAGCGTGTCCTCCAAGTCCGGCAGCGCCGACGCGCTGGAGGCGCTCGGCGCGGTGATCGAGCTGCAGCCGGAGCAGGTCGCCCGCGCGATCGCGCAGACCGGCATCGGCTTCATGTACGCGCCGATCCACCACCCGGCGATGAAGGTGGTGGCGCCGGTGCGGCGCGAGATGGGCGTGCGCACGATCTTCAACATCCTTGGCCCGCTGACCAACCCGGCCGGTTCGCCGAACATCCTGATGGGCGTGTTCCATCCCGACCTGGTCGGCATCCAGGCGCGCGTGCTGCAGGAACTGGGCGCCGAGCGCGCGCTGGTGGTGTGGGGCCGCGACGGCATGGACGAGCTGTCGCTCGGCGCCGGCACCCTGGTCGGCGAGCTGCGCGATGGCCAGGTGCGCGAGTACGAGGTGCATCCGGAGGATTTCGGCATCGCGATGTCGGCCAGCCGCAACCTCAAGGTCGCCGATGCCGCCGAGTCGCGCACGATGCTGCTGGACGTGCTCGCCAACGTGCCGGGCCCGGCGCTGGATATCGTCGCACTCAACGCCGGCGCCGCGCTGTACGTGGCCGGCGTGGCCGCCAGCATCGCCGACGGCATCGTCCGCGCGCGCGCCGTCATCGCCGATGGCAGCGCCGCGGCCAAGCTGCACGAGTACGTCCGCTTCACCGGAGCGCTGGCATGA	MPITPQEALQRTIEHREIFHDEMVALMRQIMRGEVSDMMVAAILTGLRVKKETVGEIAGAATVMREFSRRVEVADRSHMVDIVGTGGDGSHTFNISTCAMFAAAAAGARVAKHGNRSVSSKSGSADALEALGAVIELQPEQVARAIAQTGIGFMYAPIHHPAMKVVAPVRREMGVRTIFNILGPLTNPAGSPNILMGVFHPDLVGIQARVLQELGAERALVVWGRDGMDELSLGAGTLVGELRDGQVREYEVHPEDFGIAMSASRNLKVADAAESRTMLLDVLANVPGPALDIVALNAGAALYVAGVAASIADGIVRARAVIADGSAAAKLHEYVRFTGALA	PGPT0007090_1805	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
BMS020_05666	663			hypothetical protein	ATGTTGGTGGCGTCATCGTCCGTCGATACCCGCGCGGGTGGCGCCATGCACTTCTACGAGCCGGCGGATGGTCACGGCCTGCCGCACGATCCATTCAACGCGATCGTCGGCCCGCGCCCGATCGGTTGGATCGGTTCGCGCGGTGCCGATGGCATCGCCAACCTGGCGCCCTACAGCTTCTTCAACGCGTTCAACTACACGCCGCCGATCGTCGGCTTCGCCAGCATCGGCTGGAAGGACAGCGTGCGCAACATCGAGGCGACTGGCGAATTCACCTGGAACCTGGCGACGCGCCCGCTGGCCGAGGCGATGAATGCCAGCTCGGCGATGGTCGCGCCGGAGGTCGACGAGTTCGTGCTTGCGGGCCTGGAAGCTGCACCGTCACGGCTGATTGCCGCGCCGCGGGTGGCTGCCAGTCCGGTCAGTTTCGAGTGCCGGCTCAGCCAGTTGCTGCCGCTGCAGAGCGCGGATGGCACGCCGATCCAGACCTGGTTGGTGCTGGGCGAAGTCGTCGGCGTGCATATCGCCCGCGATGCGCTGGTCGACGGCATCTACGATCCGGCAGCGGTACGCACGATCCTGCGTGCCGGTGGCCCCGCCGACTACTACGACGTGCCCGAACAGGCGCGCTTTAGGATGTTCCGGCCGCGCGCTGCCGAATGA	MLVASSSVDTRAGGAMHFYEPADGHGLPHDPFNAIVGPRPIGWIGSRGADGIANLAPYSFFNAFNYTPPIVGFASIGWKDSVRNIEATGEFTWNLATRPLAEAMNASSAMVAPEVDEFVLAGLEAAPSRLIAAPRVAASPVSFECRLSQLLPLQSADGTPIQTWLVLGEVVGVHIARDALVDGIYDPAAVRTILRAGGPADYYDVPEQARFRMFRPRAAE				NA	NA	NA	NA	NA
BMS020_05667	351			hypothetical protein	ATGCGCCGGCTCGCCCGATGTGCTGCTGTTGCCCTGACACTGGCGCCGTTGATCGCGCAGGCCGCGGTCGTGCCGTCGTCGGCGGCGTGTGCGGTGCCGGCGATCAAGCAGGCGGCCAGGCTGCTGGAGTTCCACTTCGGCGGCGCCGATGACCGCATGCAGGTCGACGACACCGCCAAGCCGCTGCCGTCGATCGTCAATCCGGCCAATCCGAAGCAGCGCTTCGATGTGCTTGAGGTGTGGGCGACGATCTACAAGGGCAGCTACCGGATGCGCTTCGAGTACTACCACATGGATGACGGCGACTGCGTGCTGATGGGGCAGGAAATCCTCGAGTACGCCGACCTGTGA	MRRLARCAAVALTLAPLIAQAAVVPSSAACAVPAIKQAARLLEFHFGGADDRMQVDDTAKPLPSIVNPANPKQRFDVLEVWATIYKGSYRMRFEYYHMDDGDCVLMGQEILEYADL				NA	NA	NA	NA	NA
BMS020_05668	579	trpG	COG0512	Anthranilate synthase component 2	ATGCTGCTGATGCTCGACAACTACGACAGCTTCACCTACAACCTCGTGCAGTACCTGCAGGCGCTGGGTGCCGAGGTCACGGTGGTGCGCAACGATGCGCTGACGGTGGCGCAGATCGCCGCGCTCAAGCCCGAGCGCATCGTGGTCTCGCCCGGCCCGTGCACGCCGAACGAGGCCGGCATCTCGTTGGAGCTGATCGAGACGCTCGGCCCGACCACGCCGATCCTCGGCGTCTGCCTCGGCCACCAGAGCATCGGCCAGGTCTACGGCGGCGACGTGATCCGTGCCGGCAACATCATGCATGGCAAGGTCTCGCCGATCCGCCACGAGGGCAAGGGCGTGTTCGCCGGCCTGCCGGACCGCTACCAGGCCACGCGCTACCACTCGCTGGTGGTCGACAAGACCACGTTGCCGGACGCGCTGGAAATCACCGCCTGGACCGAGAACCCGGATGGTTCGATGGAAGAGATCATGGGCTTGCGCCACCGCGAGTACCCGGTGGAGGGCGTGCAGTTCCATCCCGAGTCGATCCTCACCGAGCACGGCCACGCACTGCTGAAGAACTTTCTGGAGCGTTGA	MLLMLDNYDSFTYNLVQYLQALGAEVTVVRNDALTVAQIAALKPERIVVSPGPCTPNEAGISLELIETLGPTTPILGVCLGHQSIGQVYGGDVIRAGNIMHGKVSPIRHEGKGVFAGLPDRYQATRYHSLVVDKTTLPDALEITAWTENPDGSMEEIMGLRHREYPVEGVQFHPESILTEHGHALLKNFLER	PGPT0007105_2655	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-HQQ|PQS_BIOSYNTHESIS,PGPT0007105-trpG|phnB-K01658	NA	NA
BMS020_05669	951			IS481 family transposase ISAeme21	ATGAACCTGCATAAACATGCCCGATTGACGCCCCATGGTCGAGCGCTGCTCGTGCGCCGGATCATGGGCGAAGGACTGCGGGCGGAGGACGCCGCGCAGGCCAGTGGCGTCAGTGCCCGCATCGCCTACAAGTGGCTCGAGCGCTTCCGCTGCGAGGGAGATTCTGGATTGGCTGATCGCAGTTCTCGTCCGGCGTTTTGTCCACGCGCCACGCCCGGATCAGTCGTGGAGCAGGTCCTGGAACGACGGCGCCAGCGCCAGACCTATCGGCAGATCGGCGATGCGCTGGAACTGGGCCACAGCACCGTGGCCCGGATCGTGCGGCGTGCCGGCCTGAACCGGCTCTCTTCGCTAGAACCGCCACGGGCGCAGAACCGCTACGAGCACCCCGAGCCCGGCGACATGCTGCATCTGGACATCAAGAAACTGGGGTGCTTCTGGCGCCCCGGCCACCGGGTGACCGGGGATCGTACCCGGGCCAGCGATGGCGCCGGCTGGGACTACGTCCACGTCGCCATCGATGACCACTCGCGCGTTGGCTTTTCCTGTATCCACCAAGACGAGCGCGCGATCAGTGCCGTGCATGCGCTGATCGCGGCCCTGCGCTACTACCGCACGCTGGGTGTGTCCTTCCGTCAGGTGCTGACCGACAACGGCGCCTGCTATCGATCCACCCGGTTCGCCCGGGCGATGCGCAGGCTCGGCCTGAAGCATTGCCGCACACGGCCTTATACGCCGCGCACCAACGGCAAAGCCGAACGCTTCATCCAGACCAGTCTGCGCGAGTGGGCCTACGCTCGCGTCTACGACAACTCCGACCAGCGAGCCGCAGAACTGGCAGCCTGGCTGCACAGCTACAACTGGCGCCGCCCGCACGCCAGCCTTGACTACAAACCACCAATCTCCAGAATCCCGATCCCTGTGAACAACGTGATGGCTTTACACAGCTAG	MNLHKHARLTPHGRALLVRRIMGEGLRAEDAAQASGVSARIAYKWLERFRCEGDSGLADRSSRPAFCPRATPGSVVEQVLERRRQRQTYRQIGDALELGHSTVARIVRRAGLNRLSSLEPPRAQNRYEHPEPGDMLHLDIKKLGCFWRPGHRVTGDRTRASDGAGWDYVHVAIDDHSRVGFSCIHQDERAISAVHALIAALRYYRTLGVSFRQVLTDNGACYRSTRFARAMRRLGLKHCRTRPYTPRTNGKAERFIQTSLREWAYARVYDNSDQRAAELAAWLHSYNWRRPHASLDYKPPISRIPIPVNNVMALHS				NA	NA	NA	NA	NA
BMS020_05670	912			hypothetical protein	ATGATTACAACAACCGATCTGAGAATAGCGTTTTCGGACATCAGACTTAAGTTTTTGAAGCTCCACACCGTTCCGTTGAGCCCAGCCTCGCCCCGTCGGGGGCACAGTCGGTACGACAGTAGCGCAAACCTGCCAAGCGCCGCTGCTTTGCTTGAACGAACTCTCATCCAGATCATCTCGATCTATGAAGAGCGCGCGGGCGCTGAGCAATCATTCGAGCAGCGTTGGCTAGCTACGAGTGGGAAGCTTCAAGAGTTTGGCGATGCGACCAGCTACCGAGTCTGGAAAGAAGAGCGGGCCCATCCGGAGAGCGAGTTCCAAAAGTTCCTTCGCGATCTTCGTGTATCAACTGGCGGCACGCCTATCGCCGAGAAGGCCAATCACGAGAAGTGGTTGAGGAAGGCCACGCAGGAGGTGACGGACATTGCGATTGGCTACTGGATCGAAGCGAAGAACGCCTTGGACTCTGGCGATGCGGCCCGAGCCCTCCATGCGCTGATCGAGTGCCACTACTACATCGGAATCATCAACTCACCTATCACCCACTCCGAGGCGATGCGCACACAGGGACGTAAACGAGGGCAGCGAGAACGAGAGGCGCTGGAGCAGGCTGCTGTCACTGTGCTCCGCGCCATGTTGGAAGATCGTCCGAAGAAGCTTTTTCGTGACGGGCTGACAATGATCGGCACCGTCGTCATGAAGTTAGAAAGTACGCCGGAGTTTAAGAGCGTCCTAGCTGAGTACGATCAGACCGCCACTGCAGGAAAGGTTGTCGAGAACGCCCTGAGTGACCGTCTCACCGATACACTATTCGCTTGGTCAACCTCCAGATCAAAGCAGCATCCCGAGCTCAAGGAGGTCTTTGACACAGCGTTAAAGCTGCTCTGCGAACCGAGAGCAAAGAAAAAATGA	MITTTDLRIAFSDIRLKFLKLHTVPLSPASPRRGHSRYDSSANLPSAAALLERTLIQIISIYEERAGAEQSFEQRWLATSGKLQEFGDATSYRVWKEERAHPESEFQKFLRDLRVSTGGTPIAEKANHEKWLRKATQEVTDIAIGYWIEAKNALDSGDAARALHALIECHYYIGIINSPITHSEAMRTQGRKRGQREREALEQAAVTVLRAMLEDRPKKLFRDGLTMIGTVVMKLESTPEFKSVLAEYDQTATAGKVVENALSDRLTDTLFAWSTSRSKQHPELKEVFDTALKLLCEPRAKKK				NA	NA	NA	NA	NA
BMS020_05671	411			hypothetical protein	ATGAGCAACACCGTTACCTCCCCCCGCAACCGCATTGCATCTCGCGTCCTTCGGGGCGCTGAAGCTTCCCGTAGCTCGAGCGCAAAGCTCGACCAGATCGAGGGGGGCTTTCAGGGTACCACCCTTCAGCGTATCGACCGCATGCTCGCGGAGGTTCTCGCCCGCAGCACCACCAGCTCGGCGTATACCGCTGACGAACCGCGCGCAATCCGCCTTCCTGAAGTGCTCCGGACCCTGGGCATCGGCAAGAGCAGCTGGTACCAGCGCCTTAATCCTCGCTCCCCTTCTTACGACTCGTTGGCTCCCCAGCCGTTCAAGTTGGGCAATTCCGAGCGCTCGCCATCTCTGTGGTGGCGCTCGGAAATCATCGCCTATCTCGAAATCCGCGCGACCGCGTCGCGCAATCGCTAA	MSNTVTSPRNRIASRVLRGAEASRSSSAKLDQIEGGFQGTTLQRIDRMLAEVLARSTTSSAYTADEPRAIRLPEVLRTLGIGKSSWYQRLNPRSPSYDSLAPQPFKLGNSERSPSLWWRSEIIAYLEIRATASRNR				NA	NA	NA	NA	NA
BMS020_05672	384			hypothetical protein	ATGAAAATTAAGAACGAAACCACTATGAACAACAAGCTCAAGGACGAGCGCCTGGCCATGCTTCAGCGCAAGCTCGAGCAAGCCCTGTTGATGAGGGCACCCAGCGCCGAGTCCACCTTCTCCGAGGCCTACGAGCTGATCGAACGCACCATCAAAAATGGACTTCCGCAGAAGGAAATCATCGCGCTGGTGAATGAGACTTACGACCTGAAGCTGCATCCGGCCATCTTCCGGGAGCTGCTGAGGAAAGAGCGTGAGGCCCGAGATTCGGGTGGTCACCCGGCCCTGTGCCCGAGCTGTGGTCACGCCCTCGCACCGACGCAATTGGACGAGCCCGCAAAGAAAGCCGTGAAGGCATCCTCCCCCATGGCAGGTGCGCAATGA	MKIKNETTMNNKLKDERLAMLQRKLEQALLMRAPSAESTFSEAYELIERTIKNGLPQKEIIALVNETYDLKLHPAIFRELLRKEREARDSGGHPALCPSCGHALAPTQLDEPAKKAVKASSPMAGAQ				NA	NA	NA	NA	NA
BMS020_05673	1452			hypothetical protein	ATGATGCGCCCGCACCTTGCGCCGTACCCCATCGACTCGCTGACGGACAGCTTCTTCTACGCGGGCAAGGAGGTATATAACGCCACGCAGACGCCGGACTCCCTGGTCGCGCTGGTTCTTCTGTCGTCGGCCTCTACCGTGTGCCAACGCCTCACCGATGTTGTCTTGCCCGTCGCAGGCGGACTGGTTAGCCCGGTCTCGCTGTACCTGATGTTCATCGGCGAGTCTGGCGAACGGCGCACTACCGTCAACTCCATGATCGCCGCGCCGATCTACGCTCACGACGAACTCGCCACCGCGAAGCGGACCGAGTCCATGAGTATTTACAAGGCCAAAGTCGAGATCTGGAAGCTGAAGAAGAAGCGCATCCTCAAGACCATCAGCCAGTTTCAGGGTGACGGCATGGATATCACCCACCTCGAGTTCGAACTTATCGAACACAATAAGCTTGAGCCTGTGCCTCCCAAGCGACGGGATATCGTGCACCAGAACATGACCGAAACCGCGATCTACGAATCTCTGGAAGGAGATGGCCAATCCATCTCCTTCATCACCGACGAGGGCCAACTCATGCTCGACTCCCCGACCATGCGTAATCTTGGTCTTTTCAACAAGCTCTGGGATGGCCCCAGGACGCTCCCGATGCAGCGCGCAGACAACAAGCTTTTGTCGGTTCACAACCCGCGGACTTCGATGCACGTCATGACCCATTACGCGGTAGTCCGCAAGTACCTTCAGAAGAAGGGCGATATAGCCCGGGGGTCGGGAACGCTTGCCCGATTCCTGATGGCGATGCCTCCTTCGACCAAGGGCTACCGCGAGGCTCGCTACGACCCGTCCGCAATGCCCTACCTTGAGAAATTCAAGTCGCGGCTTGGCGAGCTCCTAAAACTGAATGGAGAAATGGCCGATTCCGGAATCACGGTGCGTTCAAAGCTCAAGTTCTCGGATCATGCTGCAGCACTTTGGCGCCGAACCGCGAATGACATTGAACAAGAAATGCGGCCAGAGGAGGGACGCTACGCCGAATGCAGCGACGTCGCTTCCAAGCTCATGGAAAATGCAAGCAGGATCGCGGCCATCATGCACCTTTTTGAAGGCTACGCGGGCGACATTGACGAGGAGACCCTCAGGCGAGCCATCGCAATTTCAAAGTGGCATCTCCACGAATTTCAGCGGCTTTTCGTCGACGGCGGTGTTCCTGAGGAGGAAATCGACGCCATGAAGTTGATGCGGTATCTGGATAACAAGTACTGGAGGTTCGGCGGATCCGCTGCCGTTGAAAGTACCATCGTCGCTCACAACTGCGGGATCCGCCCCAAGGCCCGCATGGATGCAGCGGTTGATGTGCTGGTTCGGTGGGGAGAAGTCGCCATTTCCCGGGACAAAAACGACAAGCGCAAATACCTGATCCACCGACGTTCCCCCGCTTTCAGTAGCGGGGCTCTTTAG	MMRPHLAPYPIDSLTDSFFYAGKEVYNATQTPDSLVALVLLSSASTVCQRLTDVVLPVAGGLVSPVSLYLMFIGESGERRTTVNSMIAAPIYAHDELATAKRTESMSIYKAKVEIWKLKKKRILKTISQFQGDGMDITHLEFELIEHNKLEPVPPKRRDIVHQNMTETAIYESLEGDGQSISFITDEGQLMLDSPTMRNLGLFNKLWDGPRTLPMQRADNKLLSVHNPRTSMHVMTHYAVVRKYLQKKGDIARGSGTLARFLMAMPPSTKGYREARYDPSAMPYLEKFKSRLGELLKLNGEMADSGITVRSKLKFSDHAAALWRRTANDIEQEMRPEEGRYAECSDVASKLMENASRIAAIMHLFEGYAGDIDEETLRRAIAISKWHLHEFQRLFVDGGVPEEEIDAMKLMRYLDNKYWRFGGSAAVESTIVAHNCGIRPKARMDAAVDVLVRWGEVAISRDKNDKRKYLIHRRSPAFSSGAL				NA	NA	NA	NA	NA
BMS020_05674	3306			hypothetical protein	GTGGCATCGGATTACCAGGAAATCTGCCGGAAGAACCGCGAGGACTACGGCAAGAAGGGGGCGAAAAAGTCTGGCGATCTGGCTGCCGGCCTTTACGATGACGAAACCCATTTCATCTACGAGTTGCTCCAGAACGCTGAGGACGCGCTCAAGCGCCGTGGCGAGGGCTGGAAGGGCTCCCGGCAGGTCAACTTCACCCTGGACGATGCCCAGCTGGCGCTGTCCCACTACGGCCACCCGTTCACCGAGAACGACGTGCGCAGCGTCTGCGACATCTCCGAGAGCACCAAGGACGAGAGCTCGATTGGCCGTTTCGGGCTGGGCTTCAAGTCGGTTTACAAGGTTTCAGACTTGCCGGAGATCCATTCCGGCGACGAAGACTTCGTCATCGAGGACTACCTGTTCCCCAAACAGGCCGAGCGGACCCGCCGCGATGCCGACGAAACCCATATCCTCCTTCCGCTGAAGACGGATGCCGCCAAATTCAAGGCGCGTATCGGTGCAGGCCTCAAGGCGCTGGGGGCGAGCTCCCTACTGTTCCTGCGCCACATCCGGGAAATTTCCTGGCGCATCGAGGGCGGTGCGTCGGGCTTGTACCTGCGTGACGATCCCGAAGTGTTGGGCGACAACGTCAGTCGGATCAAGTTGATCGGCCAAGCCACCGGCCAAGCGGACATCGACCAAGATTGGCTGGTGTTCCACCGGGACGTGGGAAAAGGCCGCGTCGAACTGGCCTTCTCGGTCATCACCGACAAAGACGACAAGTCCAAGTGGGGCGTTCAACCACTACCGGCGTCTCCGTTGGTGGTGTTCTTCCCGACGGCTTACCAAACCAACCTCGGCTTCTACCTGCAAGGCCCATTCCAGAGCACGCCAAGCCGCGACAACATTCGAAACGATGAGCCTTGGAATCACCGGCTGATTGCTGAAGCTGCGTCCGTGCTGGTCGAAGCAATGACTTGGCTGCGCGACAACAACCGATTGGACGTGAATGCTCTGCGCTGTCTGCCGCTGGACAGAGCCAAATTCCCCGATGGCAGGCTGTTCGCGCCGATGTTTGAGGCGACGCTGGAAGCTTTCAAGGCGCAGCCCTTTCTGCCTAACAACGACGGCGGCTATTCGCTTGCCGAACAGTCAAAGCTGGGGCGCACCACAGAGCTGCGCGAACTGTTCGACAGCGAGCAGCTTTCAACGTTGTACGCGGTCGAGCACACGAATTGGCTGACTGGCGACATCACCCAGGATCGCGCCAACGACATCCGTATGTACGTCACCAAAGAACTCGATATCAAGGAAGTCCATCCGCGCGACATCTTCCCGATGTTGGCCAAGCCTTTCCTCGAAGCGCAATCCGACGAGTGGATTGCCGGCGTGTACGAGTTCTTGAAAGATCAGGGGGCAATCAAGCCGCTGTTGGTGAACACGCCCCTCTTACGCTTGGTGAACGGCACACATGTCACTACCAAGTCGAACGGACTTCCCAATGCCTTCCTGCCGACGGGCGAGGAGACCGGCTTTCCAACTCTGAAGCCATCGGTATGCACCTCCGAAGCTGCGATGGAATTCCTTGTCTCTCTTGGGATACATGCGCCCGATCCCGTTGATGCCGTAATTCGGAACGTCCTACCCAAGTACCAGGCCGAAGGCGAAATTGACACCTCAAACTACGACGATGATATCGCCCGAATCCTCGGGGCCTTCGAGACGGACTCCGCATCAAAGTGTGCAACGCTTCTCGAAGAGCTTAAGAAGTCGCACTTCGTCATGGCCGTCTCCGCCGAAGATGGAAGCGAATATCTGGAAAGGCCGGGTGATCTCTACATCGCCACTGATCGACTAACCAAGCTGTTCGAGGGTGTCGAAGGTATTTCCCTCGCAGACAGCAGCTACGACTGCTTGCGCGGCGAGCGCGTGCGCGATTTGCTGGAAGCATGTGGCGCATTGCGCTATCCGCGACCAGAGAAGACGCCGCACGAATCCCATTGGAGCGAGCGGCTCAAGACGCTTCGCGCTCTTTCGGGTTATCCGCATTCGTCGGGGCAGAATGACCGCATTGAAGATTTTACGCTTCAGGGCTTTAGCAAGCTGCTCGAACTCTTGCCGAGCCTTTCTGTTGAAAAGCGCATCGAACGTGCTCGACTGATCTGGGAAAGTCTTGGCGATCTGGAGGAGCGCCGTGGACGAGGCGTCTTCGAGGGTTCTTACACCTGGACACACAACGGGAGGAGGTTCGCCCCTCCTTACCCTGCTGCCTTCGTGAGAACTCTCAACGAAGCAGCATGGATTCCGGACGCCAATGGTGATCTGGTTTCCCCGAAGCTCGTCATCTTTGAGAGCCTTGGATGGAAGACGAACCCTTTCCTGCAATCAAAAATCATCTTCAAGCCCAACATCATCGACCAGTTGGCAAAAGAAGCCGACATTGATCCAGCCGCGCTTGATCTATTGCGCAAGTTCAAGTTGACCGAGGCGGATCTTGCCGCGCTTGTTGCCGAGAAGTTCGGCACAGCGCTGTCGACTGGAAGTGAGGATGCGACCTCACCTTCGCCAATCGTTGCCGATGAGCCCACCAGCCCAGTGTCTGAGGGATCTGTCTATCATGAGAACAAGGACTTGTATGGCGAGGACATGCCTGACATCCCGGAAAGCACGCACGATCCCGATGACAGCGATGATAACGAGTTTGGGCATTCCGGCCGTGGCTCGAACGCACGTTCAAGCAGCAGTCACTCGGTCAATGGTGCTGGCAATGCCTCCGGTAGTGGTAGCGGCACTAAGACCGGAACATCCTCAGACGGAGGCGGATATTCCTCCTCGATGCGCGAGCATGGGAAACGCACACCAGGCAGCGTTGGCGGCAGGCCTTTCATCTCCTATGTCGGCACCCATCCCGATGAGGAAGAAGATGATCCTGATGGCCTCAACCAGTCGCAACGCATGGACATCGAAGCCGAGGCCATCAAGCACATCCTCGAAGCAGAGCCGCACCTGCACAGAACCGAAGCGGGCAACCCCGGTTTTGACTTGCTGGAGAAGGATGCCGGCAATGTGCCCGTTCGCTGGATAGAGGTCAAAGCGATGACCGGATCACTTGAGGATCGTCCGGTCACGTTGTCCCACACTCAGTTCGAGCATGCTCTCCAGAAGCAGGGCGGGTATTGGCTCTACGTCGCCGAATTCGCCACGACCCCGGAGCAACGCCGCATCCAGCGCATCCAGAACCCGGCGGGCAATGCAAAGTCCTTCACCTTCGACAAGGGTTGGAAGCACATCGCATTGCCCGATCCGCCAACCAAGGGCGCATGA	MASDYQEICRKNREDYGKKGAKKSGDLAAGLYDDETHFIYELLQNAEDALKRRGEGWKGSRQVNFTLDDAQLALSHYGHPFTENDVRSVCDISESTKDESSIGRFGLGFKSVYKVSDLPEIHSGDEDFVIEDYLFPKQAERTRRDADETHILLPLKTDAAKFKARIGAGLKALGASSLLFLRHIREISWRIEGGASGLYLRDDPEVLGDNVSRIKLIGQATGQADIDQDWLVFHRDVGKGRVELAFSVITDKDDKSKWGVQPLPASPLVVFFPTAYQTNLGFYLQGPFQSTPSRDNIRNDEPWNHRLIAEAASVLVEAMTWLRDNNRLDVNALRCLPLDRAKFPDGRLFAPMFEATLEAFKAQPFLPNNDGGYSLAEQSKLGRTTELRELFDSEQLSTLYAVEHTNWLTGDITQDRANDIRMYVTKELDIKEVHPRDIFPMLAKPFLEAQSDEWIAGVYEFLKDQGAIKPLLVNTPLLRLVNGTHVTTKSNGLPNAFLPTGEETGFPTLKPSVCTSEAAMEFLVSLGIHAPDPVDAVIRNVLPKYQAEGEIDTSNYDDDIARILGAFETDSASKCATLLEELKKSHFVMAVSAEDGSEYLERPGDLYIATDRLTKLFEGVEGISLADSSYDCLRGERVRDLLEACGALRYPRPEKTPHESHWSERLKTLRALSGYPHSSGQNDRIEDFTLQGFSKLLELLPSLSVEKRIERARLIWESLGDLEERRGRGVFEGSYTWTHNGRRFAPPYPAAFVRTLNEAAWIPDANGDLVSPKLVIFESLGWKTNPFLQSKIIFKPNIIDQLAKEADIDPAALDLLRKFKLTEADLAALVAEKFGTALSTGSEDATSPSPIVADEPTSPVSEGSVYHENKDLYGEDMPDIPESTHDPDDSDDNEFGHSGRGSNARSSSSHSVNGAGNASGSGSGTKTGTSSDGGGYSSSMREHGKRTPGSVGGRPFISYVGTHPDEEEDDPDGLNQSQRMDIEAEAIKHILEAEPHLHRTEAGNPGFDLLEKDAGNVPVRWIEVKAMTGSLEDRPVTLSHTQFEHALQKQGGYWLYVAEFATTPEQRRIQRIQNPAGNAKSFTFDKGWKHIALPDPPTKGA				NA	NA	NA	NA	NA
BMS020_05675	2919	rep_3		ATP-dependent DNA helicase Rep	ATGCCAGGGGACGAGGCGACACTGTTGAGCAAGGCCAACCCGCAGCAGCAGGAAGCCATTCTGGCCACGGAGGGCCCGGTGCTCATCATCGCGGGGCCAGGGTCGGGCAAGAGCTTCACGCTGGTCGAACGCATCGTTTATCTCATCACCCACAAGGGTGTTGCGCCGGAGTCGCTACTTGTCGTCACCTTCACCGACAAGGCGGCGCGTGAGCTGACCACCCGCATTTCCAACCGGCTGGCTGACCTAGACATCAAGTTCAACTTGAACGAGATGTACCTCGGCACCTTCCACTCCATTTGCCTGCGGCTGTTGGAAGACCACCAAGAATACACGCGGCTCAAGCGCAGCTTCACCCTGTTCGACCAATTCGATCAGCAGTACTTCCTGTACCAGAGAATCAAGGAGTTCCGCACCATCGCGGACGCCAATCTGGTCATGGGCGATGACGCCATCGGTCGCTGGAACCAGTCCGAGAACCTGCTGCACTGGCTCAACAAGGTCAGCGAGGAGGCACTGGACGCGGACATGCTGGCGCACGCCCCGGAGGTCGAGGTGAAGGCGCTTGGGCTGTTGTTCCTGCGCTATCAGGAACTCCTGGCCGAGCACAATGCGCTGGACTTCTCCGGCATCCAGTTCGAAGCGCTGAAGCTGCTGGAACAGCACCCTCAGGTGCTGGAGGCGATACGCGCCAAGATGTCCTACCTGATGGTGGACGAGTACCAGGACACCAACACCATCCAGGAACGCCTGCTCCTGCTGCTGGCCGGCGAGAAACAGAACCTGTGCGTGGTCGGCGACGATGACCAGGGCTTGTACCGCTTCCGTGGCGCGACCATCCGCAACATCCTCGAATTCCCCGAGCTCTTTGCCGATGGCCAGTGCAAGCAGATCAGGCTGGCGGTCAACTACCGCTCGCACCCGGACATAATCCGCTTCTACAACGCGTGGATGCGTGAGCAGACTTGGGATGACGGCGAGCGCAGCTTCCGCTACGACAAGCAGATCCAGGCGCGCGAAGCCGAGTTCCCGCACGTTCCGGCCGTCCTCAAGCTCCGGGCCGTCGATCCCACTGACGAAAGCGCCAACTGGCACGCCGAGGTGCTGACCTTCCTCAACACCCTGAAGGACTCCGGCAAGCTGACCGACTGGAACCAGGTCGCTTTTCTGTACCAGTCGGTGAAGAGTGACCGCGTCCAGGACTTGGCTCACTTCCTGGAAGGGGCCGGCGTGCCGGTTTACTCACCCCGCTCCAACCTGTTCTTCGAGCGGGAAGAAGTGCGGCTGATGATCGGCGCGCTGATCTTCCTGTTTCCGCAGTTCTCCAAGGTGCGGGTATGGGCGGAGGGCGCGACCCTGCCGATCTGGGACTACTACGACCAACAGTGCTTCAAGCCTTTCGCGGACGAGCTGCGCAAGCCGGAGAGCAAGGCCCTTCTGGACTGGGCGCGTCCCCTGGCGAAACACCATGTCGTGTTGGCCCAGAGTACGGACTATGCGTTCTCCAGCCTGTTCTACCAACTGCTGCGATTCCCGCTGTTCTCCCGCTATCTCGATGAGGAAGCCACCCAGGGCGTGGACAAGGGCCGTGCAGCGCGCAACCTCGCCACGTTCTCCAGCCTGCTGACCAAGTTCGAGTACCTTCACCACGTCAACGTGTTGAACCCGGAGTGGCTGGATCGGAATCTGGTCGCTCTCTTCAATCAGTACATGCGCTTTTTGAAGGATGGCGGCATTGGCGAATACGAAGATGTGGCCGACTACGCGCCCAAGGGCTGCGTGAGCTTCCTGACCATCCACCAGGCCAAAGGGCTGGAGTTTCCGGTGGTGGTATGCGGGTCGATGGAGTCCGTGCCTCGCAAGCAGCACAAGGACATGGATGTATTGCTGGAGGAAGGTGGCTACTTGTCCAAGGCCACCTTCGAGCCTCTGGAGCACATCAAGACCTTCGACTTCTGGCGACTGTTCTATACCGCATTCTCCCGGCCGCAGAACCTGCTGGTGCTGGCCGCGCAGCAGCGCGAGGGCAAAGGCCAGCGCCGAGCGCCATCCAAGTATTTCGAGCGCATGTTCGATGAGCTACCGCCGTGGCGCAGCGTGGACCTGGGGTCGCTCAACTACGAGCCGGTGAAGGAGATCAGCCTCAAGCGCGAGTATTCCTTCACCTCGCACATCACCGTGTTCGAGAACTGCGCCGAGCAGTACCGATTCTTCAAGGAGCTGGATTTCGCACCCATCCGCGAGAGCCAGATCCTGTTCGGTACGCTGGTACATCAGACGATCGAAGACATTCACAAAACTGTCCTGCGCGGCGAGGAAGGCACGCTCAATGCGGGCATGATCGAGGGCTGGTTCTCGGCCAACTACGCCACGCTCTCGAAGAAGGAGCGCGTGTACTTGGCAGCCGGCTCGCAGCGGGCGGCGCTGAAGCACATCCTGCGCTACTACGAGCGCGAGAAAGGGCACTGGGACAGGATCAAGGAGGCCGAGGTCGACATTTCGCTGGTCAAGGACAGCTACATTCTTAAGGGCAGCGTGGACTTGATCCTAGGCGAGAACGACACGGTCGAGATCATCGACTTCAAGTCGGAAAAGAAGCCCGACATGGAGAAGGACAAGGAACGGCTGAAGCAGTACCAGAGCCAGTTGGAGGTGTACGCCCATCTGGTCGAAGAACGCACCGGGCAGAAGGTCAGCCGGATGCACCTGTATTACACCGGCGAGGAAGGCGGCAACCCTTACGTCTCCTTCCCCAAGGACGACCGCGCGATCGGCAAGACCATCGCGCGGTTTGATGACATCGTGGCCCGTATCGAGCGACAGGACTATCAGATGGCGGCGCGACCGGCCAAACTGTGCGTCGAGTGCGACATGCGGGCCTATTGTGACAACAAGAATTGGAAGTTTAGGAAGAACTGA	MPGDEATLLSKANPQQQEAILATEGPVLIIAGPGSGKSFTLVERIVYLITHKGVAPESLLVVTFTDKAARELTTRISNRLADLDIKFNLNEMYLGTFHSICLRLLEDHQEYTRLKRSFTLFDQFDQQYFLYQRIKEFRTIADANLVMGDDAIGRWNQSENLLHWLNKVSEEALDADMLAHAPEVEVKALGLLFLRYQELLAEHNALDFSGIQFEALKLLEQHPQVLEAIRAKMSYLMVDEYQDTNTIQERLLLLLAGEKQNLCVVGDDDQGLYRFRGATIRNILEFPELFADGQCKQIRLAVNYRSHPDIIRFYNAWMREQTWDDGERSFRYDKQIQAREAEFPHVPAVLKLRAVDPTDESANWHAEVLTFLNTLKDSGKLTDWNQVAFLYQSVKSDRVQDLAHFLEGAGVPVYSPRSNLFFEREEVRLMIGALIFLFPQFSKVRVWAEGATLPIWDYYDQQCFKPFADELRKPESKALLDWARPLAKHHVVLAQSTDYAFSSLFYQLLRFPLFSRYLDEEATQGVDKGRAARNLATFSSLLTKFEYLHHVNVLNPEWLDRNLVALFNQYMRFLKDGGIGEYEDVADYAPKGCVSFLTIHQAKGLEFPVVVCGSMESVPRKQHKDMDVLLEEGGYLSKATFEPLEHIKTFDFWRLFYTAFSRPQNLLVLAAQQREGKGQRRAPSKYFERMFDELPPWRSVDLGSLNYEPVKEISLKREYSFTSHITVFENCAEQYRFFKELDFAPIRESQILFGTLVHQTIEDIHKTVLRGEEGTLNAGMIEGWFSANYATLSKKERVYLAAGSQRAALKHILRYYEREKGHWDRIKEAEVDISLVKDSYILKGSVDLILGENDTVEIIDFKSEKKPDMEKDKERLKQYQSQLEVYAHLVEERTGQKVSRMHLYYTGEEGGNPYVSFPKDDRAIGKTIARFDDIVARIERQDYQMAARPAKLCVECDMRAYCDNKNWKFRKN				NA	NA	NA	NA	NA
BMS020_05676	1794			hypothetical protein	ATGAGCAACACTAAACCCGTGCAGAACGGCCTGCAACTGCCCGCACCCGACAATGGCACCACCAATGTCGAGAAATACGAGTTCGAGCCGATCAAGGGCTCCCCGATGTTGAGATGGGACGGCAAGCGCCCCTTCACGGCGGCGCAATTCTATCCAGCGCAGTTGAAGGAAGTCTTCGGCGAAGAGGTTGGTGGCTGGCGCAACAAGATTTTCTGGGGCGACAACCTTCAGGTGATGAGTCATCTGCTCAAGCATTTCCGCGGCAAGGTAAATCTGATCTACATCGATCCGCCGTTCGACTCGAAGGCGGACTACAAGAAGAAAATAGAACTCAAAGGCAAGACGACTGAGTCCAACTCCACAACCTTCGAGGAAAAGCAGTACGGTGACATCTGGACAAACGATGAGTACCTCCAGTTTATGTTCGAGCGGCTCGTTCTAATCCGCGAGCTACTTGCAGACTCTGGCAGCTTGTACTTGCATTGCGATTGGAATAAGAGCCATCACCTCCGCTGCATATTGGACGAAGTTTTCGGACCATCCAATTTCAAGAACGAGCTTTACTGGTACTACTACAACAAGATGCCCGACACACGAAAAGGCATGTTTCCTCGCGCCACCGACACGATCCTTTGGTACGCAAAAGATAGATCCAAATCCATCTTTAATCCGCTCACCGAGATGCGTGACAGGCCGGTAAAGCAGCTTGTCCGCAAGAAAGTCGACGGGAAAATGATTAACGCCAGAGACGCCGATGGCAATGTGATGTACCAAATGAGCGACACGCGTGTCATTGACAACGTGTGGCGCCTCTCCATGCTTCAGCCTGCGGACAAAACTGAAAATCTCTTCTACCCCACGCAGAAGCCGGAGCATCTGATCGAGCGCATTCTGCGCGCATCAACCAATCCAGGCGATCTGGTGTTCGATTGCTTCATGGGTTCAGGCACGACGCAAGCCGTCGCCATGAAATTGGGGCGTCGATTCATTGGCGCGGACATCAACCTCGGTGCGATTCAGACAACCACCAAGCGATTGCTTTGTTTGGCGGACGAGCTGCGCCAGCGCACACTGGGCGGTGAGGAAAAGCACTACACCGGCTTCGAGCTCTACAACGTCAACCACTACGACGTGTTCCGCAATCCGTTGCAGGCCAAGGAACTGCTGATCGAAGCGCTAGAAATCCAGAAGCTCGAGTTCAACACCGTGTTCGACGGCGAGAAGGACGGCCGCATGGTCAAGATCATGCCGGTCAACCGCATCGCCACCTGCGCCGACCTCAATGAACTGATCGCCGGCTTCGACTACAAAGCCTGGGAACGTCGCAAGGCCGAAGCGCCGACGCGCCCTGTCGAAAGGGTCACGCTGGTGTGTATGGGCCACGAGCCCGACCTGGCTGCCCAATTGGTGCTGGCCGCCAAGCCCTACCTGATCAACGTGGAAGTGGTGGATATCTTGCGCGACAAGTCCAACCTGGAGTTCAAGCGCGATTCCGAAGCCAAGGTCATCATCAAGAAGGGGGAGCTGGTCATCGAGCGCTTCTACCCGATGAACCTGCTGCAAAAGCTGTCCTTGCAGAAGGAATCAGCAGGCGATTGGCGCGAGCTGGTCGAATCGGTGCTAATCGACTGGAACTACGACGGCGCAGTGCTGCAACCGGCTTCGGTGGACATCCCGGACAATAACGAGCTGGTCGTCGGCAAGTACAAGGTTCCTACCGACGCGGGCACCATCCGCGTGAAGATCACCGACCTGCTGTCCGAATCGTGGGAAGGAAGTATCGACAATGGCTAA	MSNTKPVQNGLQLPAPDNGTTNVEKYEFEPIKGSPMLRWDGKRPFTAAQFYPAQLKEVFGEEVGGWRNKIFWGDNLQVMSHLLKHFRGKVNLIYIDPPFDSKADYKKKIELKGKTTESNSTTFEEKQYGDIWTNDEYLQFMFERLVLIRELLADSGSLYLHCDWNKSHHLRCILDEVFGPSNFKNELYWYYYNKMPDTRKGMFPRATDTILWYAKDRSKSIFNPLTEMRDRPVKQLVRKKVDGKMINARDADGNVMYQMSDTRVIDNVWRLSMLQPADKTENLFYPTQKPEHLIERILRASTNPGDLVFDCFMGSGTTQAVAMKLGRRFIGADINLGAIQTTTKRLLCLADELRQRTLGGEEKHYTGFELYNVNHYDVFRNPLQAKELLIEALEIQKLEFNTVFDGEKDGRMVKIMPVNRIATCADLNELIAGFDYKAWERRKAEAPTRPVERVTLVCMGHEPDLAAQLVLAAKPYLINVEVVDILRDKSNLEFKRDSEAKVIIKKGELVIERFYPMNLLQKLSLQKESAGDWRELVESVLIDWNYDGAVLQPASVDIPDNNELVVGKYKVPTDAGTIRVKITDLLSESWEGSIDNG	PGPT0027230_682	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
BMS020_05677	2709			hypothetical protein	ATGGCTAAGGGCACGCGCAAGGCCAAGGAAACCACGACGAGCGTGGCCGCCTCGCTCGACTTCGCCTTCTTCCGCTTCCTGTGGCAGTTTTACCAGTCGAACAAGGGCAAGGTTCGCCAGAACTACCGCGAGCTGACCCGCAAGTTCCTGGACTTCAACGACCCGGACAGGAATCCCAAGGCCTTCCTGCGCCAGCCGCAGTTCGAAGCCCTGGAAACGTATATCTTCCTGAAGGAGTTCCTGGGCAACGCCAAGGTCGAGGAAATCTTCAAGGCATGGTACGAGCGCAGCGGCAAGTTCGAGGGACGGCAGTTCGGCTCATTCCGAGGCACCGCCGGGCAGGAGATGTTCCAGTTCGGCGACTCCGACGAGTTGGAGCTGAGCTCGTACAAAGCCCTGTTCGACCGGATGCGCAGGAACAGCCGGATGTACCCCAACTACATCTTCGCGCTGACGATGGGAACCGGCAAAACCATCCTGATGGCGACGTGCATCTTCTACGAGTTCCTGCTCGCTAACAAATTCCCGAAGGCGGCCGAGTTCTGCCACAACGCCCTGGTGTTCGCACCAGACAAGACGGTACTGCAATCACTGAAGGAGATCGAAGGCTTCGACCTCGCATCGGTCGTCCCACCGGAGTACGTCGCATGGATGGCGGCCAATCTGCACTTCCACTATCTGGAAGAAGCCGGCACCTCGCTGGACACGATGGACAGGTCCAAGTTCAACGTCATCGTCTCCAACACCCAGAAGATCATTCTCAAGCGCCAACACAAGGACAAGACCGCTGCCGACAAGCTGTTCGGGGCCACCGCGGAAGTCCTGACGCCGTCGAGCGTGTACGACGAGAACGCCGACCTCTATGGCTTCGACCAGCCCGAGGATGAGGCTGACCTAACCACCAACCAGCGTTTCGAGAAGCTGCGCCGGCTGGAGCAATTGGGCATCTACGTGGACGAGGCGCACCACGCCTTCGGCAAGATGCTGGCGAAAGACATGGGGATCGGCCAGAAGGAGAACGACACCAGCCTGCGCACCACCATCGACGTGCTGGCCAAGAGCCTGAAGGATGCCGGCACTCATGTCGTCGCTTGCTTCAACTATACGGGCACGCCTTACGTGGGTCGCGACGTGCTTCCGGAAGTTGTCTATGCCTATGGCCTATCCGAATCCATAGAGAAGGGTTTCCTGAAGAAGGTCGTTCTGCACGGCTACACCAAGACCCGCACGAGCGAGTTTGTCGACATCGCCATTGAGAGCTTCTTGACCGAGACCCGGGAGCTACAGCCGGAAGGAATGCTCCCCAAAATCGCGTTCTTTGCGGCAACGGTTGATGAATTGACGCAGGAGCTCCGCCCGGCCGTTGAAGATGCCTTGCGCAAACATGGCATTCCAGCGTCCAGAATCCTAGTCAACGTGGGTGACGACAAGATCACCTCCAACGACGATATCCGCGAGTTCAACCGACTCGACACGGTCGACTCAGAGAAGCAGTTCATTCTCCTGGTCAACAAAGGCCGGGAAGGCTGGAACTGCCGCTCCCTGTTCTCTGTTGGCCTTTTCCGCGAACCAAAGTCGAAGATTTTTGTTCTGCAGGCCTCCATGCGCTGCTTGCGCGCCATCGGCGAGGCACAGCACACCGGTCACGTCTATCTTTCCGATGACAACCTGGCAATCCTGAATGACGAGCTTCAGCAGAATTTTCGCATCACGGCGGATGAACTGCAGAAGAAGGGCAAGGACAAGGATGCAGTGCAGGTGCACGTCGTCCCTCCCCCTGTCAAGATCAAGCTTGTCCGGGTGCGCAAGCTGCACAGCATCAGAGAGTTGGACGTCAAACCGGGCCAACCGCTGGGCCTGGACCGATCCGACAAGGACGCATGGGGTTCGCTGATCGAGAAGTACCGCCTGATCGAGACCCAACAGGAAGGCCTGACGGCCGATGACGCCGCTCGCGCAAAGGACAGCCGCACATTCGACCTGACCGAACGTAGGGAAAAGCGCACGTTCTCACGCATGACCCTGGTCGCCGAAGTCTCCCGCTACCTCAATCGAAGCCCCCTGGAGATCGAGGACATTCTGGACTCCACGCAGGAAGGCACGGATGAACTCGTCGCCATGGCCAACGAGTTCAACGAGCTTCTATACGACGAGATCATTCCCCGCCTGTTTCGCCTGCTGTACGAGCTGGATCCGTCCGAAGAGAAAGAAGAGCACGAGGTTGAGCTCATCAAGATTCCCGACAAGGGCTACTACGAAGTCAGTGCTGCGAAGGACAAGATCGCAAGGCGCGATGACGCGTCCTTGTCTGATGAGGAAAGAACCAAGAGCTTCCACCTTGATGCCTATTGCTTCGACTCGGGCTCCGAGCGCCAGTTGTTCTGGGATCTTCTTCGGGAGAAGAAGGTCAGGAAGCTCTACTTCACCGGCATGCTTACGCACGGCCAGTCCGAGTTCTTCGTCCAATACATCGATCCTGAGTCCCGCACGGTACGCAGCTACTACCCCGACTTCGTTTTCCAGAGGGAGGAGCCGGATGGATCACTCAAGTACGTCATCGTCGAGGTGAAGGCCGACAACCAGATCGAAGATGCGGTCGTGCAAGCCAAGAAGGACTTCGCGAGCCAGATGGCAGTCGCCAGCGGCATGGAGTACCGCATCTTGCCTTCGTCCCAGGCGGATGCCCGGGGGTACCGGGTGCTCCTGTAG	MAKGTRKAKETTTSVAASLDFAFFRFLWQFYQSNKGKVRQNYRELTRKFLDFNDPDRNPKAFLRQPQFEALETYIFLKEFLGNAKVEEIFKAWYERSGKFEGRQFGSFRGTAGQEMFQFGDSDELELSSYKALFDRMRRNSRMYPNYIFALTMGTGKTILMATCIFYEFLLANKFPKAAEFCHNALVFAPDKTVLQSLKEIEGFDLASVVPPEYVAWMAANLHFHYLEEAGTSLDTMDRSKFNVIVSNTQKIILKRQHKDKTAADKLFGATAEVLTPSSVYDENADLYGFDQPEDEADLTTNQRFEKLRRLEQLGIYVDEAHHAFGKMLAKDMGIGQKENDTSLRTTIDVLAKSLKDAGTHVVACFNYTGTPYVGRDVLPEVVYAYGLSESIEKGFLKKVVLHGYTKTRTSEFVDIAIESFLTETRELQPEGMLPKIAFFAATVDELTQELRPAVEDALRKHGIPASRILVNVGDDKITSNDDIREFNRLDTVDSEKQFILLVNKGREGWNCRSLFSVGLFREPKSKIFVLQASMRCLRAIGEAQHTGHVYLSDDNLAILNDELQQNFRITADELQKKGKDKDAVQVHVVPPPVKIKLVRVRKLHSIRELDVKPGQPLGLDRSDKDAWGSLIEKYRLIETQQEGLTADDAARAKDSRTFDLTERREKRTFSRMTLVAEVSRYLNRSPLEIEDILDSTQEGTDELVAMANEFNELLYDEIIPRLFRLLYELDPSEEKEEHEVELIKIPDKGYYEVSAAKDKIARRDDASLSDEERTKSFHLDAYCFDSGSERQLFWDLLREKKVRKLYFTGMLTHGQSEFFVQYIDPESRTVRSYYPDFVFQREEPDGSLKYVIVEVKADNQIEDAVVQAKKDFASQMAVASGMEYRILPSSQADARGYRVLL	PGPT0027225_924	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_III_R-M_SYSTEM,PGPT0027225-res-K01156	NA	NA
BMS020_05678	714	mobA_1		Mobilization protein A	ATGGCCAACTATCGCGTTGAGGTGAAGAGCGGCAAGAAGGGAACCTGCGTCGAGCACAGTCGCTACGACGCCCGCATCGGAGACAAGTGGGAGGACAGGGATGACCTGATCGGACTTGAGTTCGGCAACTTCCCGGAGTGGAGCCAGAACAAACCCCTGCTCTTCTGGAAGCACGCCGACAAGCACGAGCGCAAGAACGCGGCGGCTTATCGCGAATGGATCATCTCGCTGCCGAACGAACTCGATCAAGAGCAGAACATGCGGCTGGGGAGGAGGATCGCATTGCTGGTGGCCGGACCCCGGCCCTGGCAGATGGCCTTCCATGGCCCGGAAGGAAAGCTCTCGGGCAACCCGAACCCGCACCTCCACGTGATGACCTCGGACAGGGCACCCGATGGCGTCCCGCGACCGCCGCAGCAGTACTTCTGCCGATACAACGCTAGGCACCCCGAGCGAGGGGGGTGCAAGAAGCTCAGCGGGGGCATGACGCATCAGCAGGTGAGCCAAGAATTGGTAGCCACCCGGGAAGGCATCGCCGATCTGACGAACGAGGCACTGGCCGAAGCCGGGTTGGAGGTCCGCGTCGATCACCGAAGCCTGCGGGATCAGGGCATCGATCGAGTTCCGGGAATTCATCTGGGCCCGGCGAGGGTTAAGAGGATGACGGGCGAGAAACGCCAGGAGCACGCAGCGAACAAGGACGGAGAAAACTAG	MANYRVEVKSGKKGTCVEHSRYDARIGDKWEDRDDLIGLEFGNFPEWSQNKPLLFWKHADKHERKNAAAYREWIISLPNELDQEQNMRLGRRIALLVAGPRPWQMAFHGPEGKLSGNPNPHLHVMTSDRAPDGVPRPPQQYFCRYNARHPERGGCKKLSGGMTHQQVSQELVATREGIADLTNEALAEAGLEVRVDHRSLRDQGIDRVPGIHLGPARVKRMTGEKRQEHAANKDGEN				NA	NA	NA	NA	NA
BMS020_05679	264	ycgL_2	COG3100	Protein YcgL	ATGCAAGCCTACGTCTACAAAAGCCAACGCAAACCGGACACCTTTGTCTTCCTTGCCCGTCGCGACGACTTCGCGGCGTTGCCCGAGCCCGTGCAGGCGCAGCTGGCGCCGTTCGCCTACGTGCTCGAGACCGAACTGACCCCGGAACGCCGCCTGGCCCGCGCCGATGCGGCGCAGGTGCGCGCGCAGCTGGTCGAACGCGGCTACTACCTGCAGTTCCCGCCGACGCTGGCGACCAGCACCACCGGTCAAGCCGATGAGTGA	MQAYVYKSQRKPDTFVFLARRDDFAALPEPVQAQLAPFAYVLETELTPERRLARADAAQVRAQLVERGYYLQFPPTLATSTTGQADE				NA	NA	NA	NA	NA
BMS020_05680	1215			hypothetical protein	GTGACCGCAGCACAGTCGCAGCCCCGCCTGACCCCTCTTGCCCTCACCGCCTTCACGGCCACCACCGCCTTGGGTGCCGGCCGTGGTGCGCTGGCGCGCGCCTTGCGCGAGCAGCGCAGTGGACTGCGTCCGAACGATTTCGGCAGCGATCCGCTGCCGTGCTGGATCGGCCGCGTCGACGGACTGGAGGCGCTGGCCTTGCCCCCGCCACTGGCGCAGTGGGACTGCCGCAACAACCGCCTGGCGTGGCTGGCGCTGCAGCAGGACGGCCTGCCCGAGGCGCTGCAGGCGGCGATCGCGCGCCATGGCGCCGACCGCATCGCGCTGGTGCTGGGCACCTCGACCTCGAGCATCGGCGCGACCGAGGAAGCCTATACCCGGCTGCAGCATGACGACGCCGGCACCGCCCACATCCCGGCCGACCTGGCGCGGCCGGCGCTGCATACGCCGCATTCGCTGGGCATGTTCGTGCAGGCCGCGACCGGCCTGCGCGGTCCGGCGGTGACCGTGGCCACCGCCTGTTCGTCCAGCGCCAAGGTGTTCGCGCAGGCGGCACGGCTGATCGAGGCCGGCGTGGTCGACGCGGCGCTGGTCGGCGGCGTCGACACCCTGTGCGGCAGCGTGCTGTTCGGCTTCAACGCGCTGCAGCTGGTCGCCGCCGCGCCATGCCAGCCGTTCGACGCGCGCCGGGTCGGGCTGTCGCTGGGCGAAGCCGGCGGCTTCGCGCTGCTCGAGCGCGACGGCGCGGCGCTGGCCTGGCTGCGCGGCTACGGCGAATCCAGCGACGCCCACCACATGTCCGCGCCGCACCCGGAAGGCCTCGGCGCGAGACTGGCGATGACCGAGGCGCTGGCCCGCGGCGGCATCGACGCCGCCCAGGTCGGTTACCTGAACCTGCACGGCACCGCGACCCCGGCCAACGACAGCATCGAGGCCGCCGCGGTCGCCGCGGTGTTCCCGGACACGCTGCATGCCAGTTCGACCAAGGCCTGGACCGGACATACGCTGGGTGCGGCCGGGATCGTCGAATCGGTGATCGCCCTGCTCGCGCTGCGCGACGGGCTGCTGCCCGGCACCCTCAACAGCAGCGAGCCCGACCCCGCCTGCGGCCCACAGATCCGCTTCGCTCCGGCCGAGCGCCGCATCGAGTACGCGATGAACAACTCCTTCGGCTTCGGGGGCAACAACTGCACGCTGTTGTTCGCCCGCGCATGA	MTAAQSQPRLTPLALTAFTATTALGAGRGALARALREQRSGLRPNDFGSDPLPCWIGRVDGLEALALPPPLAQWDCRNNRLAWLALQQDGLPEALQAAIARHGADRIALVLGTSTSSIGATEEAYTRLQHDDAGTAHIPADLARPALHTPHSLGMFVQAATGLRGPAVTVATACSSSAKVFAQAARLIEAGVVDAALVGGVDTLCGSVLFGFNALQLVAAAPCQPFDARRVGLSLGEAGGFALLERDGAALAWLRGYGESSDAHHMSAPHPEGLGARLAMTEALARGGIDAAQVGYLNLHGTATPANDSIEAAAVAAVFPDTLHASSTKAWTGHTLGAAGIVESVIALLALRDGLLPGTLNSSEPDPACGPQIRFAPAERRIEYAMNNSFGFGGNNCTLLFARA	PGPT0013310_1880	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0013310-fabB-K00647	NA	NA
BMS020_05681	804			hypothetical protein	ATGAGTGCCGTCCACACCACCCCGGTGCTGCGCGCGCGCATCGAAGGCGTCGGCTTCTGGACCCGCGGCCTGCCCGGCTGGACCCAGGCCCAGGCATACGCGCAGGACCGCAACCTGCCCGCCGATGCGCCGGCGCGGCCTTCGCCGCAGCTGCTGGCACCGAACGAGCGGCGCCGTGCACCGGAAACGGTCGCGGTCGCACTGGACGTGGCGCTGGCCGCCTGCGAGGCGGCCGGCCGCGCGCCGGCCGCGCTGCCGTCGGTGTTCGCCTCGACCCATGGCGACCTGGCAATCACCGACTACATGGCGACCACGCTGGCGCAGGATCCGCGCGCCCTGTCGCCGACCCGCTTCCACAATTCGGTGCACAACGCCGCCGCCGGCTACTGGACGATCGGCGCCGGTGCCACCGTGCCGGCGACCGCGATCAGCGCCTACCGCGCCAGCTTCGCCCAGGGCCTGCTCGAGGCACTGGTGCAGCTGCATGCTGGCAGTGAGGCGGTGTTGCTGGTCGGCTACGACGGCGGCGGCAGTGGGCCGCTGGGCGAGATGGCGCTGAGCGATGGCCTGCTCGGCGGCGCGCTGGTGCTCGGCGGCGCCGACAGCGCGCACGGCGTGCGGCTGGCAGCGCGCTGGGAGGATGGCGAAGCCGATGCCGGCGACGGTCCACTGGCCGCTTTCGCCGCCGCCAACATCATGGCCGGCATGCTGCCGCTGTTCGATGCGCTGGCGCTGCGCCAGTCGCATGCGCGCCTGCATGCCGGCCCCGGCCGGGTGCTGGTGCTGGAGCTCGAGCATGGCTGA	MSAVHTTPVLRARIEGVGFWTRGLPGWTQAQAYAQDRNLPADAPARPSPQLLAPNERRRAPETVAVALDVALAACEAAGRAPAALPSVFASTHGDLAITDYMATTLAQDPRALSPTRFHNSVHNAAAGYWTIGAGATVPATAISAYRASFAQGLLEALVQLHAGSEAVLLVGYDGGGSGPLGEMALSDGLLGGALVLGGADSAHGVRLAARWEDGEADAGDGPLAAFAAANIMAGMLPLFDALALRQSHARLHAGPGRVLVLELEHG				NA	NA	NA	NA	NA
BMS020_05682	807	rgtE_1	COG0463	Dodecaprenyl-phosphate galacturonate synthase	ATGGCTGAGCCGCTCAGCGCACAGGTCGCGGTGGTGATCCCGGCGTTCAACGAGGCGCTGCGGATCAGGGAGATCGTGCAGGCAGCGCTGGCCGAGTTGGCGCTGGTGATCGTCGTCGACGACGGGTCCAGCGACTCGACCGTGACACAGCTGCGCGACCTGCCGGTGGTGCTGGTCCGCCATCCGCAACGGCGCGGCAAGGGCGCCGCGCTGCGCAGCGGCTTTGCCGAGGCGCTGCGACGCGGCTGCCGCGGCGTACTGACGATGGACGGCGACGGCCAGCACGATGCCGCCGACCTGCCGCGGCTGCTGCAGGCCGCCGCCTGCCACCCCGGCGACATCGTGATCGGCGCGCGCCTGCGTCACCGCGCCCAGCAGCCGCTGCACCGTCGTCTCGCCAATGCATTCGGCGATTGGGGCATCGGCTGGGGCTGCGGCTTCCGCATCGCCGACAGCCAGAGCGGCCAGCGCTACTACCCGGCCGCGGTATGCGCGCTCGGCGACATTCCCGGCGAGGACTTCGTGTTCGAGGCGCAGCTGCTGATCTCGGCCGCGCGCACGCTCGGCGCCGGCGCGGTGTCGGTGCCGATCGAGACCACCTACCGCGGCGACGCCAGCCACGGGGCGATGCGCCGCAGCCACTTCCGGCCGCTGCGCGACCTGTACCGGATCACCTCGCACGTGGTCGCGCAGGTGATCGCCTACGGCAATGTCGTGGAGGAATACCGGCGCACCCGCGCCACGCCGCCGCGCATCCACGATCCGGACGGCAGCCTGGCCGCGTCGGTGCGGCGCGCCTATTCCTGA	MAEPLSAQVAVVIPAFNEALRIREIVQAALAELALVIVVDDGSSDSTVTQLRDLPVVLVRHPQRRGKGAALRSGFAEALRRGCRGVLTMDGDGQHDAADLPRLLQAAACHPGDIVIGARLRHRAQQPLHRRLANAFGDWGIGWGCGFRIADSQSGQRYYPAAVCALGDIPGEDFVFEAQLLISAARTLGAGAVSVPIETTYRGDASHGAMRRSHFRPLRDLYRITSHVVAQVIAYGNVVEEYRRTRATPPRIHDPDGSLAASVRRAYS				NA	NA	NA	NA	NA
BMS020_05683	735	fabG_13		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGATGAATTCCACCCCACGACGTGCACTGGTCACCGGCGGCAGCGGCGACATCGGCGGCGCGGTCTGCCGCCGCCTGGCCGCCGACGGCCTGCAGGTGCTGGTCCACGCCAATGCCAACCTGGCGCGCGCACAGGCGCTGGTCGATGAGATCCTCGCCGCTGGCGGCAGCGCCCGCGCGGTCGCCTTCGACGTCGCCGATGCGGCCGCCAGCGCGGCGGCGATCGAGACGCTGCTCGCCGACGGCCCGATCCAGGTGCTGGTCAACAACGCCGGCATCCACGACGACGCGCCGATGGCCGGGATGCGTGCCGAACAGTGGACGCGGGTGATCGACGTGTCGCTGCACGGCTTCTTCCACGTCACCCAGCCGCTGCTGCTGCCGATGGCGCGCACCCGCTGGGGCCGCATCGTCAGCGTCTCCAGCGTCGCGGCGGTGCTGGGCAACCGTGGCCAGAGCAACTACGCCGCGGCCAAGGCGGCGCTGCACGGGGCGTCCAAGTCGCTGGCGCGGGAGATGGCCAGCCGCGGCATCACCGTCAACGTGGTCGCGCCCGGGGTGATCGAGGGCGCGATGGCCGGGCAGGCGTTCCCGCCGGAGCTGATCAAGCAGACCGTGCCGGCCGCGCGCGCCGGGCGGCCGGAGGAAGTCGCCGCGCTGGTCGGCTTCCTGTGCTCGGATCTGGCTAGCTACGTCAACGGCCAGGTGATCGGGGTCAATGGCGGCATGGCCTGA	MMNSTPRRALVTGGSGDIGGAVCRRLAADGLQVLVHANANLARAQALVDEILAAGGSARAVAFDVADAAASAAAIETLLADGPIQVLVNNAGIHDDAPMAGMRAEQWTRVIDVSLHGFFHVTQPLLLPMARTRWGRIVSVSSVAAVLGNRGQSNYAAAKAALHGASKSLAREMASRGITVNVVAPGVIEGAMAGQAFPPELIKQTVPAARAGRPEEVAALVGFLCSDLASYVNGQVIGVNGGMA	PGPT0003180_18393	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
BMS020_05684	438			hypothetical protein	ATGCTGGGGCGTGAGCGGATCCTGGAACTGGTGCCGCATGCCGGCGCGATGTGCCTGTGGGACGAGGTGCGCAGCTGGGACGCGACGCGGATCGTGCTGGCCGCACACAACCACCGTGATCCCGACCATCCGCTGCGCCGCGACGGCCAGCTGGCGGCGGTCCATCTGTGCGAGTACGGCGCGCAGGCGATGGCGGTGCACGGCGGTCTGCTCGGCGGTGAGGCCGCCGGGCCGGCGCGCGCCGGCATGCTGGTGTCGCTGCGCGGCGTCGCGCTGCAGGTGGCGCGCATCGATGATCTCGACGACGTACTGCTCGGCGAGGCCGAGCTGCTGGTCGCCGGTGCCGACAGCCAGCAGTACGCATTTCGCATCCACCACCGCGGGCAGCTGCTGGCCGAAGGCCGCGCGGCGGTGATCCTGCAACCGGAGGAGCCATGA	MLGRERILELVPHAGAMCLWDEVRSWDATRIVLAAHNHRDPDHPLRRDGQLAAVHLCEYGAQAMAVHGGLLGGEAAGPARAGMLVSLRGVALQVARIDDLDDVLLGEAELLVAGADSQQYAFRIHHRGQLLAEGRAAVILQPEEP				NA	NA	NA	NA	NA
BMS020_05685	2349			hypothetical protein	GTGCCACGCGCGCTGACCCCGCTGCAGCGCACCTTGCTGGCGCTGGCGTGGCTGGCGGTGCTCGGCGTGCTCGGCTACCTGCTCGGCACCCGGCTGCCGCTGTCCGGCGACCTGCGCCGCTTCATGCCGGAGGCGCGCACGCCGGCGCAGCAGCTGTTGATGGACGAACTCGGCGAAGGGCCGGGCTCGCGGCTGCTGATGATCGCGCTGTCCGGCGCCGCGCCGGACACGCTGGCTGCGCAGTCGCGCGCGCTGCACGACGCGCTGGCCGCGCAGCCGCAGTTCGTCAGCGTGCTCAACGGCCAGGCGGCGGGGCTGGATGCCTTTCCCGACGCGCTGCTGGCCTACCGCTACCTGATGACGCCGGCACCGGGCGCCGACGCGTTCGACGCCGCGCACCTGGCCGAGGCGCTGCAGCAGCGCGTGCAGGATCTCGGCTCACCGGCCGCTGAGCTGGTGGAGCCGCTGCTCGGCCGCGATCCGACCCTGCAGACCCTGCAGGTCGCGCAGGCGCTGCAGCCGCCACGCCAGCCGCGGCTGATCGACGGGGTGTGGTTCGACCGCGCCGGCCAGCAGGCGCTGCTGCTGGTGCAGACCCGCGCGCCGGGCTTCGATCCCAGTGGCCAGGCGAGTGCGGTGCAGGCGATCGAGCAGGCATTCGCGACGGTTTCGGCCGGCAGTGGCGCGCGCCTGGAGATGACCGGGCCGGGCGCGTTCGCCGCCAAGATCAGCGCCCGCACCAGTGGCGAGGCGGGCACGATCGGCACGATCGACACGATCGGCATGGTGTTGCTGCTGCTGTTGGCCTACCGCAGCTGGAAGGCGCCGTTGCTCGGTTTCCTGCCGCTGGCCACCGCCGGGTTGGCCGGGCTGGCCGCGGTCGCGGCGCTGTTCGACGGCGTGCACGGCATCACCATCGCGTTCGGCTTCACCCTGATCGGCGTGGTGCAGGACTACCCGGTGCACTTCCTCAGCCACCAGCGCCCCGGGCAGTCGGCCTGGGCCAACGTGCGCCACCTGTGGCCGACCCTGGGCACCGGCGTGGCCTCGACCTGCATCGCCTACCTGACCTTCCTGTTCTCCGGCGTCGATGGGCTGCGTCAGCTGGCGGTGTTCACGATCACCGCGCTGGCCGCCGCCGCGCTGGCGACCCGCTTCGTGCTGCCGGCGCTGGTTGATCCGGCACGTCGTGATGTCGCCGATTCGGCGCGGCTGGCGCGGTTGTGGAGCGCGATCGAGCGCCTGCCGCGGCCGCGCTGGTCGCTGCTGGCGCTGGCGCTGGTCGCGTTGGCGCTGGTCTGGCGTGCGCCGCAGCCAGCCTGGGAGAACGACCTGTCCAAGCTGACCCCGGTCGATCCGGCCGACCTGCTGCGCGACGGCCAGCTGCGCGCCGAGCTCGGTGCGGCCGACGTGCGCTACGTGCTGGCGTTGCGCGCGACCGATCCCGAACAGGCGCTGCAGGCGTCGGAGAAGCTGCGCCCGGCGCTGGATGCCGAGGTCGCGGCCGGCCGCCTCGGTGGCTACGACATGGCCGCGCGCTACCTGCCCAGCGCCGCGCTGCAGCGCGCGCGCCAGGCCGCTTTGCCTGCGCCGGCGACGCTGCAGGCGGCGCTGGCCCAGGCGCTGGCCGACTCGCCGTTCCGCGCCGATGCGTTCGCCGGCTTCCTCGCCGATATCGAACGCGCCCGCACCGCCGCACCGTTGCGCGCGCAGGACCTGGCCGGCACGCCGCTGGCGACGGTGGTCGATGGCCTGCTGCGGCGTGGCGATGGCCAGGCCATCGCGCTGGTGTCGCTGGCCACGCCGGTCGACCCGGCAACGCTGGCCACGCTGGCGCAGGCCCACGGCGCCGAGCTGATCGACATGAAACAGGCGTCCGAGTCGCTGGTCGCCGCGTACCGTGGCCGGCTGCTGCTGGCGCTGGCGGTGGCGGCGCTGCTGCTGGTGGCGACGGTGGCGGTCGCGCTGCGGCGCTGGCGGCGTTGCGTGCGGGTGCTGCTGCCGATGGCGTTGACCACGCTGCTGACGCTGGCGGTGCTGCGCAGCGCCGGGGTCGAGCTCAACCTGTTCCACCTGATCGGGCTGATCCTCGGCGCCGGCCTGGGGCTGGACTACGGGCTGTTCTTCGAGCACGCCGGCGATGGCCGCGCCGACCAGCTGCGCACGCTGCACGGGCTGGTGGTGTGCAGCGTGATGACCCTGGTGGTGTTCGCGCTGCTCGGCGCCTCATCGATCCCGGTGCTGCGGGCGATCGGCACCACGGTCACGCTGGGCGTGATCGGCAACTTCGTGCTGGCGTTGCTGGTGTCCCGGCACCCGGCACAGGAGGCGGCCGATGCTGGGGCGTGA	MPRALTPLQRTLLALAWLAVLGVLGYLLGTRLPLSGDLRRFMPEARTPAQQLLMDELGEGPGSRLLMIALSGAAPDTLAAQSRALHDALAAQPQFVSVLNGQAAGLDAFPDALLAYRYLMTPAPGADAFDAAHLAEALQQRVQDLGSPAAELVEPLLGRDPTLQTLQVAQALQPPRQPRLIDGVWFDRAGQQALLLVQTRAPGFDPSGQASAVQAIEQAFATVSAGSGARLEMTGPGAFAAKISARTSGEAGTIGTIDTIGMVLLLLLAYRSWKAPLLGFLPLATAGLAGLAAVAALFDGVHGITIAFGFTLIGVVQDYPVHFLSHQRPGQSAWANVRHLWPTLGTGVASTCIAYLTFLFSGVDGLRQLAVFTITALAAAALATRFVLPALVDPARRDVADSARLARLWSAIERLPRPRWSLLALALVALALVWRAPQPAWENDLSKLTPVDPADLLRDGQLRAELGAADVRYVLALRATDPEQALQASEKLRPALDAEVAAGRLGGYDMAARYLPSAALQRARQAALPAPATLQAALAQALADSPFRADAFAGFLADIERARTAAPLRAQDLAGTPLATVVDGLLRRGDGQAIALVSLATPVDPATLATLAQAHGAELIDMKQASESLVAAYRGRLLLALAVAALLLVATVAVALRRWRRCVRVLLPMALTTLLTLAVLRSAGVELNLFHLIGLILGAGLGLDYGLFFEHAGDGRADQLRTLHGLVVCSVMTLVVFALLGASSIPVLRAIGTTVTLGVIGNFVLALLVSRHPAQEAADAGA				NA	NA	NA	NA	NA
BMS020_05686	624			hypothetical protein	ATGCTGCTCTGCGCCGCCGTGGCAGCGCCCGCGGCGGCCACTGACGGCGGCGCCGACGCGGCCGCGATCGTGCAGGCGCTGGCGCGGCCGGCGCCGAGCGCGACCGCGTTCGTCGAACTGCGCGGCTCGGCGCTGCTGAAGCAGCCGCTGCGGATCAGCGGTGAATACCGCCGGCCTGACGCCGCCACGCTGGTGCGCGAGGTGCGTGCGCCGTACCACGAGACCACCACGATCCGCGGCGACACCGCGACCATCGTCCGCGATGGCAAGCCGCCGCAGCAGTTCTCGCTGGCGCGCGCGCCGGAGCTGGCCGGGTTGCAGTCGAGCTTCAGTGCGTTGCTGGCCGGCGATGCCGCGGCGCTGGCACGCCAGTACCGGCTGCAGGCCAGTGGTGGCGATGGTGGCTGGACGCTGACCCTGCAGCCGCAGGATCCGGCGCTGGCGCGGCGGGTGCGCGCGGTGGTGCTGCACGGCGCCGGCGACGAGCTGCGCTGCATCGAGACCACGCCGGCGCGCGGCGACGCGCAGCGCACCCTGCTCGGCAGCGCCGCGCAGGCCGCCGCGACGCAGCTCGATGGCGACGCGCTGGCGCGGCTGTGCGCCGGCCAGCAGGCGCTGCGATGA	MLLCAAVAAPAAATDGGADAAAIVQALARPAPSATAFVELRGSALLKQPLRISGEYRRPDAATLVREVRAPYHETTTIRGDTATIVRDGKPPQQFSLARAPELAGLQSSFSALLAGDAAALARQYRLQASGGDGGWTLTLQPQDPALARRVRAVVLHGAGDELRCIETTPARGDAQRTLLGSAAQAAATQLDGDALARLCAGQQALR				NA	NA	NA	NA	NA
BMS020_05687	975			hypothetical protein	GTGAGCGCCAACTGGAAGCAGCGCCCGGAGGGCGGCGGGCGGTTCGCGATCGGGCTGATCGTCGGCATCGCGCGTGCCTGCGGGCGCCGCGCGACCCGGCTGCTGCTGTATCCGATCACCGCGTATTTCCTGCTGGTGCGCGGCCCCGAACGTGCCGCCTCGCGCGCCTACCTGACGCGTGCGCTGGGTCGGCCGGCGAGGCTGCGCGACGTCGCCCGCCATATCCATACCTTCGCCAGCACGATCCTCGACCGGGTGTTCCTGCTCGGCGGCCGGCTCGAGCTGTTCGACATCCGCGTCGACGGCCTGGACGCGCTACACGCCGCGCTCGCGCACGGCCGCGGGGTGCTGGTGTTCGGCTCGCACCTGGGCAGCTTCGATGCGCTGCGCGTGCTCAAGCGGCTGCGTGGCGACATCGCGCTGCGGGTGGTGCTGGACAAGGCCCACAATGCCGCGATCAGCCAGGCGCTGGACGCGCTCGACCCGGAGTTGGCGGCCGGCATCATCGACGCCGGCATGGACGGGGCGAGCGTGGCGCTGGCGATCAAGCAGGCCGCCGACGAGGGCGCGCTGGTGGCGATGCTGGTCGATCGCGCGCAGCCCGGTGAACCGGCGCTGCGCCAGCCGTTCCTGGGCGCCAGCGCGCCGCTGCCGACCACCCCGTGGCTGATCGCCGCCGCGCTCGGCGTGCCGGTGGTGACCGCGTTCGGTGTCTACCGCGGTGGCAACCGCTATGCCCTGTCGTTCGAGGCGTTCAGCGAGCGCCTGGTGCTGCCGCGCCAGCAACGTGCCGCGCAGCTGGCCGAGGTGATGGGCCGCTATGCCGCCCTGCTGCAGGCGCGCACCCTCGATGCGCCGTTCAACTGGTTCAATTTCTATGACTTCTGGCAAGACGATGGCTCGATTCCCGATGCGTGCGCGACACCTGCCGATGCTGCTCTGCGCCGCCGTGGCAGCGCCCGCGGCGGCCACTGA	MSANWKQRPEGGGRFAIGLIVGIARACGRRATRLLLYPITAYFLLVRGPERAASRAYLTRALGRPARLRDVARHIHTFASTILDRVFLLGGRLELFDIRVDGLDALHAALAHGRGVLVFGSHLGSFDALRVLKRLRGDIALRVVLDKAHNAAISQALDALDPELAAGIIDAGMDGASVALAIKQAADEGALVAMLVDRAQPGEPALRQPFLGASAPLPTTPWLIAAALGVPVVTAFGVYRGGNRYALSFEAFSERLVLPRQQRAAQLAEVMGRYAALLQARTLDAPFNWFNFYDFWQDDGSIPDACATPADAALRRRGSARGGH				NA	NA	NA	NA	NA
BMS020_05688	291			hypothetical protein	ATGCGGTTCAGCGTGCCGGCCGACCATCCCTGCCTGCCCGGGCATTTCCCGGGGCGGCCGCTGGTGCCCGGGGTGGTGATCCTGGATGCGGTGCTGGCCGCGATCCAGGCCCAGACCAGCACGCCGCTGCAGGCGCTGCGGCTGGACCGGATCAAGTTCGTGCAGCCGCTGCTGCCGGAACAGCAGGCCGAGATCGCGCTCGACGGTGCGGACCCGGCCTGGACGTTCACGGTCCACCACGCCGGCGTGCTGCTGGCCAGCGGCAGCGTGCGCCGCGCGGAGGCCGGGTGA	MRFSVPADHPCLPGHFPGRPLVPGVVILDAVLAAIQAQTSTPLQALRLDRIKFVQPLLPEQQAEIALDGADPAWTFTVHHAGVLLASGSVRRAEAG	PGPT0008365_3402	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008365-fabZ-K02372	NA	NA
BMS020_05689	741			hypothetical protein	ATGTCGAGTCGCACCGCACCCACTGACCCGGCCGTCCACCCGGAGGACACCGGGCCGGCGGTGGCGCTGCGCGCGCTGTTGCTGCTGGCCTATCCGCTGCTGTCGCATGTCGCCAGCCTGCGCGACGATGGCCGCTGGTCGGCCGCCGCGCTGGCCAGCCTGGTGCTGCTGATGCTGCTGGGGCCGCTGCTGCACCGGCGCGCCTGGGCGCTGGTGGTGCTGGCGCTGGCCGTGGCCGCGCTGGTGTGGCTGGCCGGCTCGCCCTATGCCTGGATCACCCTGCTGGCGCCGCCGGTGGTGTTCACCGCGCTGGTGGCCTGGGTGTTCGCGCGCACCCTGCGCCACGGGCAGGTGCCGCTGGTGACGCGGATCGTGCGTGCGCTGCACGCCCAGGCCGGGCTGGCGGTGAGCAGCGAGGTCGAGCGCTACACCCGCGGCGTGACCGCGGCCTGGGCGCTGCTGCTGGCCGCGCTGACCCTGGCCAACCTGGTGCTGGCGCTGCTGGCCGAGCCGGACGGCGTGCTGGCGATGCTCGGCCACGCGCCGGCCTGGTCGATCAGCCACGCGCAGTGGTCGTGGTTCGCCAACCTGGCCTGCTGGGGGCTGCTGGGCGGGTTCGCGTTGGTCGAATACGCGGTGCGCCGCCGTTTCGTCGGCGAACAGCCGTACCGCAATGCCGCTGATTTCGCCCGCCAGCTGGCCCGGCTCGGACCGGGCTTCTGGCGCGAACTGCTGCGCTGA	MSSRTAPTDPAVHPEDTGPAVALRALLLLAYPLLSHVASLRDDGRWSAAALASLVLLMLLGPLLHRRAWALVVLALAVAALVWLAGSPYAWITLLAPPVVFTALVAWVFARTLRHGQVPLVTRIVRALHAQAGLAVSSEVERYTRGVTAAWALLLAALTLANLVLALLAEPDGVLAMLGHAPAWSISHAQWSWFANLACWGLLGGFALVEYAVRRRFVGEQPYRNAADFARQLARLGPGFWRELLR				NA	NA	NA	NA	NA
BMS020_05690	270			hypothetical protein	ATGTCGCAACAAACCGACGCCGAGCATGCGCTCGCTGAACTGCTGGTCGAGAGCCTGAACCTGGAAGGCGTCGAACCGGCTTCGATCGATCCGGAGGCCGCGCTGTTCAACGAGGGGCTGGGCCTGGATTCGATCGATGCGCTGGAGTTGGCGTTGGCGATCGGCAAGCAGTACGGCGTGCAGCTGCGTTCGGACAGCGAGGACAACCGCCGCGTGTTCGCCTCGCTCAGGACGCTGTCGGCGCATGTCGAGTCGCACCGCACCCACTGA	MSQQTDAEHALAELLVESLNLEGVEPASIDPEAALFNEGLGLDSIDALELALAIGKQYGVQLRSDSEDNRRVFASLRTLSAHVESHRTH	PGPT0011375_1547	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
BMS020_05691	1011			hypothetical protein	ATGAGCCGTCCGCTCGCCGCCATGTCCGCCACGGCGACCCTGCAGGTCGAGTACGCCACACCGGACCGGCTCGACGCCCTACTCGCGGACGACCGGGTGCTGGCGGTGTTCGGCTTCCGCGCCGGTGATGCCACGCCACCAAGCCTCGACCCGCGCTACCTGCAGGTCGGGTTGGACGCGTACGGCACGCCCAGGCTGGAGGTGTGGCGCTGCGCCGGCCCGGTCCAGGCCGGATACGACGATGGACTGGCCTGGGCCCGCGACGATGCGCTGGCCTACGGCAGCCTGCAGGTCGCCGAAGCCGCGCATGGCGGCATCGCCGCGGCGGCCGAGTACGCCTACCGGCGGATCGGCGAGCACCTGGCCGGCAGCGCCCGGCCGCACCTGCTGCGGATCTGGAACTACCTCGACGCGATCACCGACGGCGAAGGCGACGACGAGCGCTACCGGCACTTCTGCGTAGGCCGCGCGCGCGGCATCGGTGCGATCGACGTGCAGACCCTGCCGGCGGCGACCGCGATCGGCCGGGTCGACGGCGTGCGCGTGTTGCAGGTGTACTGGCTGGCCGCGCGGGCGCCGGGCACGCCGCTGGAGAACCCGCGTCAGGTCAGCGCCTACCACTACCCACGCCGCTATGGCCCGCAGTCGCCGAGCTTCGCCCGGGCGATGTTGCCGCCGACCGGTGCCGACATGCCATTGCTGCTGTCGGGCACCGCCAGCGTGGTCGGCCACGAGACCCGCCATGGCGGCGACCTGCTGGCGCAGGTCGGCGAGACCTTCGCCAATTTCGAGGCCCTGCTCGGCGCGGCACGACAGCGCGCGCCGGCGCTGCCAGCCGGCTTTGGCGCCGGCAGCCGGCTCAAGACCTACGTCAGCCGGGCCGAGGACCTGGCCTTGGTGGATGCCGCCCTGCAGCAGCGGCTAGCGGCCGCGGTGCCGCGCATCCTGCTGCACGCGGTGGTGTGCCGGCGCGATCTGGCGATGGAGATCGACGGCGTGCATGCCGGCTGA	MSRPLAAMSATATLQVEYATPDRLDALLADDRVLAVFGFRAGDATPPSLDPRYLQVGLDAYGTPRLEVWRCAGPVQAGYDDGLAWARDDALAYGSLQVAEAAHGGIAAAAEYAYRRIGEHLAGSARPHLLRIWNYLDAITDGEGDDERYRHFCVGRARGIGAIDVQTLPAATAIGRVDGVRVLQVYWLAARAPGTPLENPRQVSAYHYPRRYGPQSPSFARAMLPPTGADMPLLLSGTASVVGHETRHGGDLLAQVGETFANFEALLGAARQRAPALPAGFGAGSRLKTYVSRAEDLALVDAALQQRLAAAVPRILLHAVVCRRDLAMEIDGVHAG	PGPT0009510_93	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009510-xanB2-K18240	NA	NA
BMS020_05692	1362			hypothetical protein	ATGTCCGCCAGTGCCCAATCCCTCGCCCCGTCCGGCCAAGCCGCGCCGTCGATCGTGCTTGGCGCGGGCGCGCCGGCACGCACCATCGCCTGGGTCGACGGCCATCCGGTCAACCTGGCCACGTTCCAGGCCCAGGTGCGCGCGCTGGCGGCGCGGCTGCCGGCGGCCGCGCATGCGGTGAACCTGTGCGAGGACCGCTACCGCTTCCTGGTGGCGCTGTGCGCGGTGGCGGTACGCGGCCAGGTCACGCTGCTGCCGCCGTCGCGGGCACCGGCGGTGGTCGAAGAGGTGATGCGGCAGTCGCCGGGCAGCTACGCGCTCGGCGATGAGGCGCTGGCCGTCGCGCCGGCCGGCTACCTGCAGCTGCCGGCGGTGCTGCCCGAGGCCGACGGCCCGGTGCCACAGGTGGCGGCCGACGCGGTGGCGGTGATCGGCTTCACCTCAGGCAGCACTGGCAAGCCCAAGCCGTACCCGAAGACCTGGGGCGCGTTCCGCGACGGCTGTCGGCAGAACCTGCTGGCGCTGGCGCATCTGTGGGACGAGCGCGCCCCGATCGTGGTGGCCACGGTGCCGCCGCAGCACATGTACGGCATGGAGATGTCGGTGATCCTGCCGTTGCTGGCCGAGGTCGCCGTCGCCAATGGCCGGCCACTGTTCCCTCGGGACGTTGCCGAGGCGCTGGCGGCACTGCCGGCGCCGCGGCTGCTGGTCAGCACGCCGGTGCACCTGCGTTCGCTGGTCGCCGCTGGCGTCGCGATGCCGGCGGTGGCGGGCGTCGTCTCGGCCACCGCGCCGCTGGCGGCCGACCTGGCCGCCCAGGCCGAGGCCTGCTTCGGTGGTCCGTTGTGCGAGGTGTTCGGTTCGACCGAGACCTGCATCTTCGCCCGCCGCCGCACCGCGCAGGACACGGCCTGGACGCCGCTGCCCGACGTGCGGCTGGTGCCGCAGCCGGACGGGACCCTGGTGCAGGCCCCGCATCTGCCGCAGCCGGTGGCGCTGGCCGACGTGATGGAGATCCTCGCCGATGGCCGCTTCCTGCTGCGTGGGCGCCAGGCCGACCTGCTCGAGATCGCCGGCAAGCGCGCCTCGCTCGGCGACCTGACCCGACGCCTGCTGGCGGTGCCCGGGGTGGTGGATGGCGTGGTGGTACAGCTGGACGCGGTCGAGGGCCAGAGCGTGCAGCGGATCGGTGCTGTGGTGGTCGCGCCGGCGCTGGACGAAGCCGCGTTGCTGGCGGCGCTGCGCGGGGCGATGGACCCCGTGTTCCTGCCGCGCCGGCTGCGGTTCATTGCGCGTCTGCCGCGCAACGAGACCGGCAAGGTCCCGCGCGCGGAGCTGCTGGCACTGCTCGACGGCGCCTAG	MSASAQSLAPSGQAAPSIVLGAGAPARTIAWVDGHPVNLATFQAQVRALAARLPAAAHAVNLCEDRYRFLVALCAVAVRGQVTLLPPSRAPAVVEEVMRQSPGSYALGDEALAVAPAGYLQLPAVLPEADGPVPQVAADAVAVIGFTSGSTGKPKPYPKTWGAFRDGCRQNLLALAHLWDERAPIVVATVPPQHMYGMEMSVILPLLAEVAVANGRPLFPRDVAEALAALPAPRLLVSTPVHLRSLVAAGVAMPAVAGVVSATAPLAADLAAQAEACFGGPLCEVFGSTETCIFARRRTAQDTAWTPLPDVRLVPQPDGTLVQAPHLPQPVALADVMEILADGRFLLRGRQADLLEIAGKRASLGDLTRRLLAVPGVVDGVVVQLDAVEGQSVQRIGAVVVAPALDEAALLAALRGAMDPVFLPRRLRFIARLPRNETGKVPRAELLALLDGA				NA	NA	NA	NA	NA
BMS020_05693	2373	tolB_2		Tol-Pal system protein TolB	ATGCCCAGACTGCTGCCGCTTTCCCTGCTGTTGCTGACCGCCACCGCCGCCGCCCAGGCGCCCACCGCGCCGCTGACCATCGAACAGGTGATGGCCGATCCGGACTGGATCGGGCCGTCGGTCGACCAGGCCTGGTGGTCTTGGGACGGGCGCCAGGTCGAATACCTGCTCAAGCGCAACGCCAGCCCGGTGCGCGACACCTTCCGCCAGGGCATCGACGGCCAGGCCGCCGCCCGGCGCGTGGCCGACGACGCCCGCGCCGGGCTGGACGCGGCCGACCCGGTCTACGACCGCAGCCGCAGCCGCATGCTGTTCGCGCGCAACGGCGACATCTTTCTGCGCGACCTGCGCAGCGGCGCGCTGACCCAGCTGACCCGCAGCAACCAGGCCGAATCGCGCCCGCAGTTCGCCGCCGACGGCGGCGCGATCTGGCGCGCCGGCAACGACTGGTACCACTGGAGCCCGAACGGCGCGACCAGCCAGGTCGCGGTGGTCAAGGCCGAGCGCGACCCCGACGCCAAGCCCAAGCCCGACGTGCTGCGCGAGCAGCAGCTGGCGACGCTGGCCACGCTGCGCAACGACCGCGCCCAGCGCGAGGCGCTCAAGCAGCAGGAAGCGGCCTGGCGCAAGGCCGATCCGACCCGCGCGCCGGGCCCGGTATACCTGGGCGACGACGTCGAGATCGTCGACAGCGCGTTGTCGCCGGACGGCCGCCACCTGCTGGTGGTGACCCAGGCCAAGGGCGCCGAGGAAGGCCAGGCCGGCAAGATGCCGCAGTACGTGACCGAGTCCGGCTACGAGGAATTCAAGGAAGTACGCACCCGGGTCGGCCGCAACACCCCGGTGCCGCAGGCGCTGTGGCTGGTCGACAGCGCTGCCGGCAGCGCGCGCAAGCTGGCGTTCTCGGCGCTGCCGGGCATCGCCACCGACCCGCTGGCGGCGCTGCGCAAGGCCGCCGGCAAGGACGCGCTGAAGGGCGAGCGCGCGGTGCGCATCGAAAGCGACGGCGACGGCAGCGGCCCGGCGATCCACTGGAGCGACGACGGCCGCAACGTGGCCGTGGAGATCCGCGCGGTCGACAACAAGGACCGCTGGATCGCCAGCGTCGACGTCGACCAGGCCACGCTGGCCTCGCGCCACCGCCTGCACGACGAGGCCTGGATCAACTGGAGCTTCAACGACTTCGGCTGGCTGGCCGACAACCGCACGCTGTGGCTGCTGTCGGAGGAATCGGGCTACTCGCACCTGTACACGGTCAGCGGCGACGCCAAGCCGAAGCAGCTGACCTCGGGCAAGTGGGAAGTGTCGGCGCCGCAGCCGTCCGCGGACGGCCGCAGCTTCTACTTCGTCTGCAACCAGAAGTGGCCGGGCGACTACGAGGTCTGCAAGGTCGACGCCAATGGCGGCGCGGTCAGCGAGCTGACGGCGCTCGACGGCGTCGAGGACTTCAGCGTGTCGCCGGACGGCAGCCGCCTGCTGGTGCGCTACTCCGGCGCCTACCTGCCGCCGCAGCTGGCAGTGGTGCCGGCGAGCGGCGGCCAGGCCAGCGTGCTGACCGATACCCGCAGCGCCGCGTTCAAGGCCCAGCCGTGGGTGCAGCCGCAGTACGTGCAGGTGCCGTCCAAGCATGGCGCCGGCACGATCTGGGGCAAGTACTACGGCCCGGCCAACCCGGAGCCGGGCAAGCACTACCCGATCGTGATGTTCGTGCACGGCGCCGGCTACCTGCAGAACGTGTCCAAGCGCTACACCCCGTACTTCCGCGAGCAGATGTTCCACAACCTGCTGGTGCAGAAGGGCTACATCGTGCTCGACCTGGACTACCGCGCCTCGGAGGGCTACGGCCGCGACTGGCGCACCGCGATCTACCGCAACATGGGCCATCCGGAGCTCGAGGACTACCTGGACGGCCTGGACTGGCTGGTCGCCACCAAGCAGGGCGACCGCGCCAACGCCGGCATCTACGGCGGCAGCTACGGCGGCTTCATGACCTACATGGCGATGTTCCGCGCCCCGGGCACGTTCAAGGCCGGCGCCGCGCTGCGCCCGGTCGGCGACTGGATGCAGTACAACCACGAATACACCTCCAACATCCTCAACACCCCGGAGCTGGATCCGCAGGCGTACAAGACCTCCTCGCCGATCAACTACGCCGAGGGCCTGCAGGGCCACCTGCTGATCGCCCACGGCATGGTCGACGACAACGTGTTCTTCAAGGACTCGGTCGACATGACCCAGAAGCTGATCGAGCTGCACAAGGACAACTGGGAGATCGCCCCGTACCCGCTGGAGCGCCACGGTTTCACCCGCGCCGACTCCTGGCTGGACGAGTACAAGCGCATCCTCAAGCTGTTCGAGCAGGAACTGAAGTGA	MPRLLPLSLLLLTATAAAQAPTAPLTIEQVMADPDWIGPSVDQAWWSWDGRQVEYLLKRNASPVRDTFRQGIDGQAAARRVADDARAGLDAADPVYDRSRSRMLFARNGDIFLRDLRSGALTQLTRSNQAESRPQFAADGGAIWRAGNDWYHWSPNGATSQVAVVKAERDPDAKPKPDVLREQQLATLATLRNDRAQREALKQQEAAWRKADPTRAPGPVYLGDDVEIVDSALSPDGRHLLVVTQAKGAEEGQAGKMPQYVTESGYEEFKEVRTRVGRNTPVPQALWLVDSAAGSARKLAFSALPGIATDPLAALRKAAGKDALKGERAVRIESDGDGSGPAIHWSDDGRNVAVEIRAVDNKDRWIASVDVDQATLASRHRLHDEAWINWSFNDFGWLADNRTLWLLSEESGYSHLYTVSGDAKPKQLTSGKWEVSAPQPSADGRSFYFVCNQKWPGDYEVCKVDANGGAVSELTALDGVEDFSVSPDGSRLLVRYSGAYLPPQLAVVPASGGQASVLTDTRSAAFKAQPWVQPQYVQVPSKHGAGTIWGKYYGPANPEPGKHYPIVMFVHGAGYLQNVSKRYTPYFREQMFHNLLVQKGYIVLDLDYRASEGYGRDWRTAIYRNMGHPELEDYLDGLDWLVATKQGDRANAGIYGGSYGGFMTYMAMFRAPGTFKAGAALRPVGDWMQYNHEYTSNILNTPELDPQAYKTSSPINYAEGLQGHLLIAHGMVDDNVFFKDSVDMTQKLIELHKDNWEIAPYPLERHGFTRADSWLDEYKRILKLFEQELK				NA	NA	NA	NA	NA
BMS020_05694	417			hypothetical protein	GTGAGCCCGGCCGCGCCGATCCGCATCGTCGCCGCGCTGGTCGGCGACGGCGCCGGTCGCGCGCTGCTGGTGCGCAAGCACGGCTCGACGACCTTCATCCAGCCCGGTGGCAAGCGCGAGCCGGGCGAGGACGCGCTGGCGACGCTGGCGCGCGAGCTGCGCGAGGAGCTCGGGGTCGGCATCGTCGCCGGCAGCGCACGGGCGCTGGGCAGCTTCGAGCACGACGCGGTGCACGAGACCGGCCGGCGCGTGCAGGCCGAGGTCTTCGCGGTGGTGCTCGACGGCGCGCCCAGTGCGCAGGCCGAGATCGCCGAGCTGCGCTGGATCCACGCCGCCCCGCCCTACCCGGTCGCGGTGGCGCCGCTGAGCGCCGAGTGCATCCTGCCGCTGCTGGCCCACGCCGGGAACGCCGCATGA	MSPAAPIRIVAALVGDGAGRALLVRKHGSTTFIQPGGKREPGEDALATLARELREELGVGIVAGSARALGSFEHDAVHETGRRVQAEVFAVVLDGAPSAQAEIAELRWIHAAPPYPVAVAPLSAECILPLLAHAGNAA	PGPT0021230_1527	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021230-udk-K00876	NA	NA
BMS020_05695	546			hypothetical protein	ATGAGCGCAGCGGCAACCCGCAGCGGCTTCGTCACCACGATGGCGCTGTTGTCGCTGGCACTGGCCGGGCTCGGCGTCGTCGCCAACCTGGTGCAGGCGCTGGCGGCACTGGCGATGCCGTCCGGCGCCGATCTGGCCGTCCTGCTGCCGCCCGGCGTGCCGATGCCTCCGCTGCTGGACTGGCTGGACCGGCACCTGCTGGCGCTGTCGCTGGCCGGCGCGCTCGGCTCGGCGCTGCTGGGCGCGGTGTCCTGGGGCCTGCTGCGGCGGCACGAATGGGGCCGGCGCGGCTTCATCGCGCTGCTGCTGCTGGCCGCGCTGGGCAATTTCGCCAGCCTGCCGCTGCTGGACCACGCCTTCGACGGCCTGGGTCCGGCGATGACGGCGCTGAACGGCCTCGACGGCGGCGACCTGCAGGTGCTGCTGGCGACGATGCAGCGCACGCTGTTCTGGGGCGGGCTGCTGGGCGCGCTGGCGGTGGCCGCGCTGCACGGCTGGATCGCCTGGCGCCTGGGCCGGCCGGACATCCGCGCCGAATTCGGCTGA	MSAAATRSGFVTTMALLSLALAGLGVVANLVQALAALAMPSGADLAVLLPPGVPMPPLLDWLDRHLLALSLAGALGSALLGAVSWGLLRRHEWGRRGFIALLLLAALGNFASLPLLDHAFDGLGPAMTALNGLDGGDLQVLLATMQRTLFWGGLLGALAVAALHGWIAWRLGRPDIRAEFG				NA	NA	NA	NA	NA
BMS020_05696	948	hemF_2	COG0408	Oxygen-dependent coproporphyrinogen-III oxidase	ATGAACGAGTTCGACCGCGTCCGCGACTACCTCACCGACCTGCAGGACCGCATCTGCGCCGCCATCGAAGGCGCCGACGGCCAGGCCCGCTTCCACGAAGACCGCTGGCAGCGCGGTGAGGGCAGCGGCGCCACGTCCGCGGGCTCCGGCGCCTCCGGCCCGTCCCTAGGCGGCGGCGGCCGCACCCGCATCCTGCGCGACGGCGCGGTGTTCGAGCAGGCCGGGATCGGCTTCTCCGACGTCGCCGGCACCCAGCTGCCGCCGTCGGCCAGCGCGCACCGCCCGGAGCTGGCCGGCGCCAGCTGGCGCGCCTGCGGCGTCTCGCTGGTGTTCCACCCGCGCAACCCGTACCTGCCGACCACCCACGCCAACGTGCGCTACTTCCGCGCCGAGCGCGACGGCGAGCCGGTCGCGGCCTGGTTCGGCGGCGGCTTCGACCTGACCCCGTTCTACCCGTTCGACGAGGACGTGCTGCACTGGCACCGCACCGCCCGCGATCTGTGCGCGCCGTTCGGCGACGAGCGTTACCCCGCGCACAAGCGCTGGTGCGACGAGTACTTCTTCCTGCGCCACCGCAACGAGACGCGCGGCGTCGGCGGGCTGTTCTTCGACGACCTGCATGGCGACTTCGACAACGACTTCGCCTACCTGCGCGCGGTCGGCGACGGTTTCCTCGACGCCTACCTGCCGCTGGTCGAGCGCCGCAAGGACACCCCGTACGGCGAGCGCGAGCGCGAGTTCCAGCTGTATCGGCGCGGGCGCTACGTCGAGTTCAACCTGGTCTACGACCGCGGCACCCTGTTCGGGCTGCAGAGCGGCGGCCGCGCCGAGAGCATCCTGATGAGCCTGCCGCCGCGGGTGCGCTGGGAATACGGCTTCCAGCCCGCCCCGGGCGGCGACGAGGCGCGCCTGGCCGATTACCTGCTGCCGCGCGATTGGCTGGGTTGA	MNEFDRVRDYLTDLQDRICAAIEGADGQARFHEDRWQRGEGSGATSAGSGASGPSLGGGGRTRILRDGAVFEQAGIGFSDVAGTQLPPSASAHRPELAGASWRACGVSLVFHPRNPYLPTTHANVRYFRAERDGEPVAAWFGGGFDLTPFYPFDEDVLHWHRTARDLCAPFGDERYPAHKRWCDEYFFLRHRNETRGVGGLFFDDLHGDFDNDFAYLRAVGDGFLDAYLPLVERRKDTPYGEREREFQLYRRGRYVEFNLVYDRGTLFGLQSGGRAESILMSLPPRVRWEYGFQPAPGGDEARLADYLLPRDWLG	PGPT0003205_2192	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003205-hemF-K00228	NA	NA
BMS020_05698	2766	polA_2	COG0258	DNA polymerase I	ATGAGCAGATTAGTCCTGATCGACGGGTCCAGTTACCTGTACCGCGCGTTCCACGCGCTGCCGCCGCTGAGCAATGCCCAGGGCGAACCCACCGGCGCGCTGTTTGGCGTGGTCAACATGCTGCGCGCGACGCTGAAGGAGAAGCCCGACTACGTCGCCTTCGTCGTCGATGCGCCCGGCAAGACCTTCCGCGACGCGCTCTACCCGGAGTACAAGGCGCAGCGCCCGCCGATGCCCGACGACCTGCGCGCGCAGGTGCAGCCGATGTGCGACATCGTGCACGCGCTGGGCATCGACATCCTGCGCATCGACGGGGTCGAGGCCGACGACGTGATCGGCACGCTGGCGCTGCAGGCCGCGGCCGACGGCATCGCGGTGACGATCTCCACCGGCGACAAGGATTTCGCCCAGCTGGTGCGCCCGGGCGTGGAGCTGGTCAACACGATGAGCGGCAGCCGGATGGATTCGGATGCGGCGGTGTTCGACAAGTTCGCGGTCAATCCCGGCCAGATCGTCGACCTGCTGGCGTTGATGGGCGACACCGTCGACAACGTGCCGGGCGTGGAGAAGTGCGGGCCGAAGACCGCGGCCAAGTGGCTGGGCGAATACGGCTCGCTGGACGCGATCATCGCCAGCGCCGACAAGATCAAGGGCAAGATCGGCGACAACCTGCGCGCGGCGCTGCCGCGGCTGCCGCTGAACCGCGAACTGGTCACGATCAAGACCGACGTGGCGCTGGACAAGCGGCCCCAGGACCTGGCGCTGCGCGCGCCGGAAGCCGAGTCGCTGCGCGGGCTGTACGCGCGCTACGGCTTCACCCAGGCGCTGAAGGAGCTCGACGGCGGCAGCGTCGGCGCGATGGTGGCCGAACGGGAACCGGGCAAGGCGCGCGGCAATGGCTTCAGCAGCGCGTCGGCGGCGGCCCCGGCCGCTGGCCTCGATCCGGCGTTGGCGGCCAAGGGTGCCTACGAGACCATCCTCGATGCCGAGCAGCTGCAGGCCTGGATCACCACGCTGCGCGCCGCCGGCCAGTTCGCCTTCGATACCGAGACCGACAGCCTCGACCCGATGCAGGCCAACCTGGTCGGGCTGAGCGTGGCCGCCGAGCCCGGCAAGGCCGCCTACCTGCCGCTGGCGCACGACTATCCCGGCGCGCCGGCCCAGCTGGACCGCGCGCAGGCGCTGGCGCTGCTGCGGCCGCTGCTGGAGGACGCCGGGGTGCGCAAGCTCGGCCAGCACGGCAAGTACGACCTGCACGTGATGCGCCGCCACGGCATCGCGCTGGCCGGCTACGCCGATGACACCCTGCTGGAAAGCTTCGTGCTCGACTCCGGCAGCGCCCGCCACGACATGGACAGCCTGGCCAGGCGCCACCTCGGCTACGAGACGATCAAGTACGAGGACGTGGCCGGCAAGGGCGCCAAGCAGATCCCGTTCGGGCATGTCGGCCTGGACGAGGCCACGCAGTACGCCGCCGAGGATGCCGACATCACCCTGCGCCTGCACCGCGTGCTGGCGCCGCGGCTGGCGGCCGAGCCGGCGCTGGAATCGGTCTACCGCGACATCGAGATGCCGCTGGTGGCTGTGCTGGAGCGGATCGAGGCCAACGGCGTGCAGGTTGACGCCGACGAACTGCGCCGGCAGAGCGCCGACCTGTCGCGGCGCATGCTGGCCGCGCAGCAGAAGGCCACCGAACTGGCCGGGCGCCAGTTCAACCTGGACTCGCCCAAGCAGCTGCAGGCGCTGCTGTTCGACGAGCTCAAGCTGCCGGCGCTGGTGAAGACGCCGAAAGGCCAGCCGTCGACCAACGAGGAAGCGCTGGAAGCGATCGCCGACCAGCACGAGCTGCCGCGGGTGATCCTGGAGTACCGCGGCCTGGCCAAGCTGCGCAGCACCTACACCGACAAGCTGCCGGAGATGATCCACCCGCAGACCGGGCGCGTGCATACCAGCTACCACCAGGCCGGTGCTGCCACCGGACGGCTGTCCTCGTCCGATCCGAACCTGCAGAACATCCCGATCCGCACCGACGACGGCCGCCGCATCCGCCGCGCCTTCGTCGCGCCGGCCGGGCGCAAGCTGGTGGCCTGCGACTACTCGCAGATCGAGCTGCGGATCATGGCGCACCTGTCCGGCGATCCGGGCCTGGTGGCGGCGTTCGAATCCGGCGCCGACGTGCACCGCGCCACCGCGGCCGAAGTGTTCGGACGCCAGATCGACGAGGTCAGCGCCAACGAACGCCGCGCCGCCAAGGCGATCAACTTCGGCCTGATGTACGGCATGGGCGCGTTCGGCCTGGCGCGCCAGCTCGGCATCGGCCGCGGCGAGGCGCAGGACTACATCGCGCTGTACTTCAGCCGCTTCGCCGGCGTGCGCGACTACATGGAGGCGACCCGCCAGCAGGCACGCGAGAAGGGCTACGTGGAGACCGTGTTCGGGCGCCGGCTGTACCTGGACTACATCAACGGCGGTACCCAGGCGCAGCGTGCCGGCGCCGAGCGCGCTGCGATCAACGCGCCGATGCAGGGCACCGCGGCGGACATCATCAAGCGCGCGATGGTCGGCGTGGACGGCTGGCTGTCGGCGCATGCCAGTCAGGCGCTGATGATCCTGCAGGTGCACGACGAACTGGTGTTCGAGGTCGACGCGGACTTCGTCGACACCCTGCGCAGCGAGGTGGTGGCACGGATGGAGGCGGCGGCGCAGCTGAAGGTGCCGTTGGTGGTCGACACCGGCGTCGGCGCGAACTGGGACGAGGCGCACTAA	MSRLVLIDGSSYLYRAFHALPPLSNAQGEPTGALFGVVNMLRATLKEKPDYVAFVVDAPGKTFRDALYPEYKAQRPPMPDDLRAQVQPMCDIVHALGIDILRIDGVEADDVIGTLALQAAADGIAVTISTGDKDFAQLVRPGVELVNTMSGSRMDSDAAVFDKFAVNPGQIVDLLALMGDTVDNVPGVEKCGPKTAAKWLGEYGSLDAIIASADKIKGKIGDNLRAALPRLPLNRELVTIKTDVALDKRPQDLALRAPEAESLRGLYARYGFTQALKELDGGSVGAMVAEREPGKARGNGFSSASAAAPAAGLDPALAAKGAYETILDAEQLQAWITTLRAAGQFAFDTETDSLDPMQANLVGLSVAAEPGKAAYLPLAHDYPGAPAQLDRAQALALLRPLLEDAGVRKLGQHGKYDLHVMRRHGIALAGYADDTLLESFVLDSGSARHDMDSLARRHLGYETIKYEDVAGKGAKQIPFGHVGLDEATQYAAEDADITLRLHRVLAPRLAAEPALESVYRDIEMPLVAVLERIEANGVQVDADELRRQSADLSRRMLAAQQKATELAGRQFNLDSPKQLQALLFDELKLPALVKTPKGQPSTNEEALEAIADQHELPRVILEYRGLAKLRSTYTDKLPEMIHPQTGRVHTSYHQAGAATGRLSSSDPNLQNIPIRTDDGRRIRRAFVAPAGRKLVACDYSQIELRIMAHLSGDPGLVAAFESGADVHRATAAEVFGRQIDEVSANERRAAKAINFGLMYGMGAFGLARQLGIGRGEAQDYIALYFSRFAGVRDYMEATRQQAREKGYVETVFGRRLYLDYINGGTQAQRAGAERAAINAPMQGTAADIIKRAMVGVDGWLSAHASQALMILQVHDELVFEVDADFVDTLRSEVVARMEAAAQLKVPLVVDTGVGANWDEAH				NA	NA	NA	NA	NA
BMS020_05699	288			hypothetical protein	ATGAAACGAGCGAGCCTGGCGCTGGCGCCCCTGTTGCTGCTGGCCGGTTGCGCCACCACCGGGCCGGACGGCGCGCCGATGAACCTGCGCGATGCCGATGTCAGCAGCAAGACCATGGGCAACGGCGACACGATCGACGAGTACCGCGTCGCCGGGCAGCTGCGCATGGTCAAGATCACCCCCTCGCGCGGCGCGCCCTACTACCTGTACGACAAGGACGGCGACGGCCGCTTCGACAACCAGAAGGACGGCGTGTCGCCGGTCTACTGGAAGCTCTACAGCTGGTGA	MKRASLALAPLLLLAGCATTGPDGAPMNLRDADVSSKTMGNGDTIDEYRVAGQLRMVKITPSRGAPYYLYDKDGDGRFDNQKDGVSPVYWKLYSW				NA	NA	NA	NA	NA
BMS020_05700	1032			hypothetical protein	ATGACCGCCGCCGCACTCGACACCCTGCTGTCCCCGCTCGCGGACGAGGCCCCGTGCGGGCCCGACCTGGAGTACGACAGCGAGTTCATGGCGCTGGAGCGCGCCGCCGCCAGCCGCGCCGAGCGGATGGTCGGCGACAGCGTGCTGGCCGCCGAGGAGCCGGACTGGGACAAGGTCGGCGAGCTTGCGCTGGCGGTGCTGCAGCGCAGCCGCGACCTGCGCGTGGCCGCGCATCTCAGCGCGGCCTGGACCCGGCTGCGCGGCCTGGACGGCTGCAGCGACGGCCTGGCATTGGTGCATGGCCTGCTCGAACGGCACTGGGCCGGCGTGCACCCGCAGCTCGATGCCGAGGACGACGACGATCCCACCGCGCGGGTCAACGCGCTGCTGGCGCTGGCCGACCCGCAGCACCTGCTTGGGCACCTGCGCGGCATCGCGTTCGTGCAATCGCCGCGGCTGGGGCGCTTCAGCCTGCGCGACCTGCGCATCGCCCAAGGCAGCCTGAAGGTGCCCGGCGACGCCGCGCCGCCGAGCCTGGCCGAGATCGAGGCCTGCTGCCTGGACTGCCCGCTGGACCAGCTGCAGGGCGCGGCCGCCGCCAGCCAGCAGGCGCTGGCCGCGGCACGGGCGATCGATGCCCTGCTCGGCGAGCAGCTCGGCAGCGCCTCGCCCGACCTCAAGCCGCTGCTGGCCGACCTGGGCGAGCTGGATCGCTTCCTGCAACCGCAGTGGCTGGCGCGCAGCGGCGTCGTGGCGGCCGTTGGCGGGGACGACGCAGCCAATGCGGGCGCGGAGGCGGGCGCGGCGCGTCCGCCGACGGGGCCGACACGGATCGAGACGCCGGAGGACGTGCGTCGGCGCCTGGAGGAGATCTGCGAGTACTACGCGCGCACCGAGCCGTCGAGCCCGGTGCCGATGCTGCTGCGGCGCGCGCAGCGGCTGATCGGCAAGGATTTCCTCGACCTGCTGCGCGACCTGGCCCCGGGCGGGGTGGACGAGCTGGAGCGGGTCACCGGCCGCGCCGGGGACTGA	MTAAALDTLLSPLADEAPCGPDLEYDSEFMALERAAASRAERMVGDSVLAAEEPDWDKVGELALAVLQRSRDLRVAAHLSAAWTRLRGLDGCSDGLALVHGLLERHWAGVHPQLDAEDDDDPTARVNALLALADPQHLLGHLRGIAFVQSPRLGRFSLRDLRIAQGSLKVPGDAAPPSLAEIEACCLDCPLDQLQGAAAASQQALAAARAIDALLGEQLGSASPDLKPLLADLGELDRFLQPQWLARSGVVAAVGGDDAANAGAEAGAARPPTGPTRIETPEDVRRRLEEICEYYARTEPSSPVPMLLRRAQRLIGKDFLDLLRDLAPGGVDELERVTGRAGD	PGPT0025910_706	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025910-impA-K11902	NA	NA
BMS020_05701	5622			hypothetical protein	ATGAACCGCATCTACCGACTGGTGTTCAATCCTTGCCTGGGCCAGGTCCAGGTGGCCTCCGAGCTGGCGCGCCCGGGTGCTGGCGGCACGCGCGCGTCGGCGGCGGTCCGCCTGCGTCCGGCGCTGCTGGCGGCAGCGCTGGCACTGGCCGCCAGCGCGCATGCGGCCAGTTCGCTACCGACCGGCTTCACTGTCGGTAGCGGCACGGTGAGCCAGGCGACCAGCACCGATGGTCTGACGATGACGCTGACCCAGACCGGCAGCAAGGCACTGCTCAACTGGAGCGATTTCAGCATCGGCAGCGGCTACGCGGTCAACTTCGCCCAGGATTCGGCATCGGCGCTCACCCTCAACGTGGTGACCGGCGGCATCCCCAGCGAGATCTACGGCAACCTCACCGCGAACGGCGGTGTGTTCCTGATCAATCCCAACGGCATCCTGTTCGGCAACGGCGCGCAGGTGAGCGTCGGCAGCCTGGTTGCCACCACCTTGGCGCTGACCGATGACGATGGCAACAACAACTACACGTTCACCAAGAGCGGTGGCACGACCGCACTGGTGAACTACGGCACGATCCAGACCAGCAGCGGCGGTTCGGTCACGCTGCTGGCGCCGGTGATGGTCAACACCGGCACGATCGACGCCAGCAGCATCGCGCTGCTCGCCGCCAACAAGGCGGTGCTGACCTACGAGCCGGGGCTGGGCGTATCGGCGTCGTTGCAGGCCAGCGTCACCGACGTCGGCGGGGCCGGCAGTGCGATCAACAACTCCGGCACGCTGTCCGCCGACAGCGTGACCCTGCGCTCGATCGTGCAGAGTGGGCTGCTCAGCACCGCGATCAACATGGGCGGCACGATCACCGCCAGCACGCTGGTGGCCAATACGTCTGGCAGCGGCGCACTGGTTTCATCGGCGAACGTCGATGCCGATTACATGGTCGCCAGCACCAGCGGGGCCTTCACCCAGAGCAGCGGCAAGCTCGTCGTGGATGCGCTGGATCTGAACGTCGCCGGCGCGGCCACGCTGACGGCGGGCGAGAACGCCATTTCCACGTTGCAGGGCACGGTCGGCGCCGCGCTGACGCTGAGCAACACGACCGCGCTTGGGCAGGCCTACGAACTCACCGTGGGTGGCACCACGATGATCGACAACGGCAGCGCCGACATCACCCTGACCAATTCGGGCAATGCCTTCAGCAGCCAGGTCAATCTCGCTGGCGGCGATGTCGCCGTGACCAGCGGCAGCGCACTGAGCATCGGCAACCTGTCCGCCGAGGGCGACGTCGCGCTGAGCGGCAGCACGCTGAGCCTCACCAGCGCGATCGACACCGGCAGCAACGCATTGAGCCTGAGTGCGACCTCCGGCGTGCTTAGTCCCAGCGTGGCACTGTCCGGCGGTGCGGTCAGCCTGTTCGGGGCCGGCGGCATCAGCCTCGGCGCCGATGTCACCGCCAGCACGCTGACGCTGGGCAGCACCAATACCAATATCGTGCAGGCCAGCGGCACGCTGGACGTCGATGGCAGCACCACGGCGAGCGCCGGCAGTGGCGACGTGGTACTCAACGGTTCGACCAACCAGTTCGGCGGCGCGGTCACCACGACCGGCGACGATGTCACGCTGTCGACCAGTGGCGCGCTGCTGCTCGGCGACAACGACGTCGGCGGTGCCTTCAGCGCCTACGGCGGCAGCAGCATCGCCCAGGCCAGCGGCACCCATCTGGAGCTCGACGGAACCAGCGATTTCAGTTCCAACGGCAACATCACCCTGACCAACAGCGGCAACGTGTTCGGCGGGGCGGTCGATCTCGATGGCGCCGCGATCACCGTGAGCAGCGCGCAGGCGCTGAACGTCGGCAGCGTGACCGCCGCGGGCGATGTCGCGCTCAGCGGCAGCACGTTGAGCCTGACCACGGCGCTGGACGTCGGCGCGCATGCGCTCAGCCTGAGTGCGAGCAACGGCTCGCTGACGGTCGGCAACGCCCTCAGCGCCGGCGCGGTCACGCTGTACGGCAGCGACGGGGTCACGCTCGGCGGCGACATCAGCGCGCAGGCGCTGGCCATCAGCAGCACCAATGCCGGGATCGTCCAGACAGCCGGCGGGCTGACCGTGTCCGCCGGGACCACGATCGATGCCGGCAGCGGTGCGGTCAGCCTCGGCAGCGTCAGCAACCTGTTCGGTGACGCAGTCACGTTGAACGGCGGCGCGCTGGACGTCGTCGCCAGCGGCACGCTGACCCTGGGCACGGTCAGCGGCAGCAGCCTGGTGGCGACGGCATCCACGATCGCGCTGGATGGCGACGTCACCACCAGCGGCGGGCAGACCTACGACGGCAGTGTCGATGTCGCCGGCAGCGCCACGCTGACCAGCACCCTGGGCGGCGACCTGGCGTTCACCGGCGCCATCGGGGGCGCCGGTTCGCTGGCGCTGACCGGCGCCGGCGCGGTCGACATCGACGGCGATGTCGACCTGCAGGGCAGTCTCGACGTCGACGCCGGCAGTTTCAGTGCGCATGCGATCAGCCTCGGCGGCGATCTGGAACTGGACACCACCAGCGCCATCACCCAGAACGGTGCGTACGTGGTCGATGGAACCACCACCATCGATGCCGGTGGCAACGCGATCACCCTGAGCAATGCCGGCAACCAGTTCGGCGGCGACGTCAGCCTGAGCGGTGGCGCGGTGGCGATCCGCAATGCCGGCGCGCTCAGCCTGGCATCGGTCGATGCCAGCAGCCTGGATGCCGGCAGCAGCGGTGCGCTGAGCACTGGCACGCTGGATGTGGCCGGCAATGCGGTCCTCGACGGCGCCGGAGTGAGTCTGGGTGGCACGGACGTGGGCGGCACGCTGGCGGTGACCAGCAGCGCCGGCATCACCCAGACCGCTGCGCTGGACGTGGACGGCAGCAGCAGCTTCATCGCCAGTGGCGACATCAGCCTGGCCAATGCCGGCAACCACTTCGGCCAGGCGGTGACGCTGACCGGTGCCGATGTGAGCGTCGCCAGCGGCTCGGCGCTCAGTGTCGCCAGCGTCAGTGCCAGTGGCGACGTCACCCTGGATGCCGCGTCGCTGACCAGCAGCGGCACGATCAGCGGGCAGGCGCTGGATCTGACCGGCAGCAATGGCATCACCCTGGGGGGCAACGTCAGCGCGCAGTCGCTGGCGCTGAGCAGCAGCAACGCGGCGATCAGCCAGAGCGCGGGCAGCCTCACGGTCGCTGGTACGACCACGGTCGACGCCGGCAGTGGCGCGGTCAGCCTGAGCCAAGCCGGCAACACCTTTGGTGCCGCGGTCGCGCTCAACGGCGGTGCGCTGGCGATCGCCGCCGACGGCACGCTGGCCCTGGGCAGCGTGACCGGCAGCAGCCTCAGCGCGACCGCCGACACGATCGCGCTGGGCAGCGCCATCAGCACCAGCGGCGGGCAGAGCTATGTCGGCGAGGTCAGCGTCGACAGCGCAGTGGCGCTGGCCGGCAGCACGCTGAACTTCAGCGGTGGCATCGACGGCAGCGGCTCGCTGGCGTTGAGCAGCGCCGGCGCGGTGGCGATCGGCGGCGACGTGGACCTGCAGGGCAGCCTCGCGGTCGACGCCGACAGTTTCAGTGCGCAGGCGATCAGCCTCGGTGGTGATCTGGATCTGGACACCACCAGCGCCATCACCCAGAACGGTGCGTACGTGGTCGATGGAACCACCACCATCGATGCCGGCGGCAACGCGATCACCCTGAGCAATGCCGGCAACCAGTTCGGCGGCGACGTCAGCCTGAGCGGTGGCGCGGCGGCGATCCGCAATGCTGGCGCGCTCAGCCTGGCGGCGGTCGATGCCAGCAGCCTGGATGCCGGCAGCAGCGGCGCGCTGAGCACTGGCACGCTGGATGTGGCCGGCAATGCGGTCCTCGACGGCGCCGGAGTGAGTCTGGGTGGCACGGACGTGGGTGGCACGCTGGCGGTGACCAGCAGCGCCGGCATCACCCAGACCGCTGCGCTGGACGTGGACGGCAGCAGCAGCTTCATCGCCAGTGGCGACATCGCGCTGAACAATGCCGGCAACCGCTTCGACGGTACGGTCACCGTGGACGGCGCCGCCGTCACGATCGCGGCCGCCACTGGCCTGGGCCTGGCCAGCGTCGACGCCGACAGCCTGGATGCCAGCGCCGGTGGCGCGCTCGATCTGGGCAGCGCCCGCATCGGTGGGGATGCCAGCCTGAGCGGCGCCGGCATCGCCTTCGGCAGCGTCACGATCGGCGGCGACCTGCAGGCCAGCAGCAGTGCGGCGATCAGCCAGCGCGCGGCGCTGACCGTCGGCGGCACCAGCACCTTGGCCGCCAATGGCGCGGTGATCCTGGATCAGGCCGACAACGACTTCCAGGGCGCGGTCAGCGTCGCCGGCAGCCAGATCGCACTGGCCGATGCCAACGACCTGCAGATTGCCAGCGCCAGTGTCGGCAGCGCCGGCATCAGGGGCAGCATCACCGCCGCCAGCGTGCAGCGCAGCGCGGCCACGACCACCGCCGCCAGCGGCGGCGTGTCGCTGGTCGCAGGCGGCAGCCTGGACCTGGAGGGGGCCATCGATGCCGGCAGCGGCGACCTGGTCCTGGCGTCCAACGGGGGCAGCCTGACCACCCGCGCCGCGCTCAGTGGCGGCAACGTCAGCCTGAGCGGACGCGATGGCCTGACCCTCGGCAGCGACGTCACCGCCAGCGGCACGCTGGCACTCGCCAGCGAGGGTGCGATCAGCCAGACCGGTGGGGTGCTGACCGCGGCGACGCTGACCGGCAGTGCCGGTGGCAGCGCGACGCTGGACGGCGACAACCAGATCGCCGCGCTCGGCGACTTCAGCGCCACCTCGCTGAGCCTGGGCAACGCGCGCGCGCTCGATGTCACCGGCACGGTCGATGCCGGCAGCACCCTGCTGCTGGACGTGCGCAGCGGCGACCTGGCGATCGACGGCAGCCTCAGCGCCGACGCGGTGCGGCTGCAGGCGGCCGGCGCGATCAGTGAGAGCGGCACCGGCCGCGTTGTCGCCAGCACGCTCAGCGGCAGTGCCGGTGGCGCGACGATGCTCGGCGACGCCAGCACCTTCGCCGCCAACCAGGTGCAGACGCTGGGTGATTTCCAGTCCCATGGCGGCTTCAGCATGACCAACGCGTGCACGCTGACGCTGGCTTCGCTCAACGGCAGCAGCTTCAGCGTCGACGCCGGTACCGCCGCGTTCTTCCTCAAGGTCGACGGCGGCGACCTGCTGCAGCGTGGCACCACCCCGGTGCTCGCCGGCCGCGGCACCTGGTGGTCGAGCGGCCACATCGGCACCGCGGACGCGCCGATCTACGTGGTCACCAGCGACACCGCGCAGGTGGTGGACTTCATCGGCCTGCCGCCGGCGTACTTCTACGCGCTGAGCCGCAGCGGTTCGCCGGTGTTCGTCGGCGGCGCGATCAACCTGCCGACCTCGGCGCTGGCCACGCGCGCGCAGAGCGGCACGCTCAAGCGCGTGGCCTATGTCGACATGGGCGCGTTGAACGCCCAGTACCGCCCGTTCGGCATCGTGCAGCCGGGTATCCGCCTGCCGGCCGACCAACAGCCGGCCTGCGATGCCGGCGACCCGGACGCCGGCTGCGCGCAGTGA	MNRIYRLVFNPCLGQVQVASELARPGAGGTRASAAVRLRPALLAAALALAASAHAASSLPTGFTVGSGTVSQATSTDGLTMTLTQTGSKALLNWSDFSIGSGYAVNFAQDSASALTLNVVTGGIPSEIYGNLTANGGVFLINPNGILFGNGAQVSVGSLVATTLALTDDDGNNNYTFTKSGGTTALVNYGTIQTSSGGSVTLLAPVMVNTGTIDASSIALLAANKAVLTYEPGLGVSASLQASVTDVGGAGSAINNSGTLSADSVTLRSIVQSGLLSTAINMGGTITASTLVANTSGSGALVSSANVDADYMVASTSGAFTQSSGKLVVDALDLNVAGAATLTAGENAISTLQGTVGAALTLSNTTALGQAYELTVGGTTMIDNGSADITLTNSGNAFSSQVNLAGGDVAVTSGSALSIGNLSAEGDVALSGSTLSLTSAIDTGSNALSLSATSGVLSPSVALSGGAVSLFGAGGISLGADVTASTLTLGSTNTNIVQASGTLDVDGSTTASAGSGDVVLNGSTNQFGGAVTTTGDDVTLSTSGALLLGDNDVGGAFSAYGGSSIAQASGTHLELDGTSDFSSNGNITLTNSGNVFGGAVDLDGAAITVSSAQALNVGSVTAAGDVALSGSTLSLTTALDVGAHALSLSASNGSLTVGNALSAGAVTLYGSDGVTLGGDISAQALAISSTNAGIVQTAGGLTVSAGTTIDAGSGAVSLGSVSNLFGDAVTLNGGALDVVASGTLTLGTVSGSSLVATASTIALDGDVTTSGGQTYDGSVDVAGSATLTSTLGGDLAFTGAIGGAGSLALTGAGAVDIDGDVDLQGSLDVDAGSFSAHAISLGGDLELDTTSAITQNGAYVVDGTTTIDAGGNAITLSNAGNQFGGDVSLSGGAVAIRNAGALSLASVDASSLDAGSSGALSTGTLDVAGNAVLDGAGVSLGGTDVGGTLAVTSSAGITQTAALDVDGSSSFIASGDISLANAGNHFGQAVTLTGADVSVASGSALSVASVSASGDVTLDAASLTSSGTISGQALDLTGSNGITLGGNVSAQSLALSSSNAAISQSAGSLTVAGTTTVDAGSGAVSLSQAGNTFGAAVALNGGALAIAADGTLALGSVTGSSLSATADTIALGSAISTSGGQSYVGEVSVDSAVALAGSTLNFSGGIDGSGSLALSSAGAVAIGGDVDLQGSLAVDADSFSAQAISLGGDLDLDTTSAITQNGAYVVDGTTTIDAGGNAITLSNAGNQFGGDVSLSGGAAAIRNAGALSLAAVDASSLDAGSSGALSTGTLDVAGNAVLDGAGVSLGGTDVGGTLAVTSSAGITQTAALDVDGSSSFIASGDIALNNAGNRFDGTVTVDGAAVTIAAATGLGLASVDADSLDASAGGALDLGSARIGGDASLSGAGIAFGSVTIGGDLQASSSAAISQRAALTVGGTSTLAANGAVILDQADNDFQGAVSVAGSQIALADANDLQIASASVGSAGIRGSITAASVQRSAATTTAASGGVSLVAGGSLDLEGAIDAGSGDLVLASNGGSLTTRAALSGGNVSLSGRDGLTLGSDVTASGTLALASEGAISQTGGVLTAATLTGSAGGSATLDGDNQIAALGDFSATSLSLGNARALDVTGTVDAGSTLLLDVRSGDLAIDGSLSADAVRLQAAGAISESGTGRVVASTLSGSAGGATMLGDASTFAANQVQTLGDFQSHGGFSMTNACTLTLASLNGSSFSVDAGTAAFFLKVDGGDLLQRGTTPVLAGRGTWWSSGHIGTADAPIYVVTSDTAQVVDFIGLPPAYFYALSRSGSPVFVGGAINLPTSALATRAQSGTLKRVAYVDMGALNAQYRPFGIVQPGIRLPADQQPACDAGDPDAGCAQ				NA	NA	NA	NA	NA
BMS020_05702	1677	shlB_3		Hemolysin transporter protein ShlB	GTGTCGATGAAGCACACCACGCTGGCGATGGCGCTGCTCGCCGTGCTGCCGGCCGCGTCGCTGCACGCGCAGCAGGCGCCTGCGCGCGACGACGCCGCGGTGCAGCAGATTCCGGCGCTCGCCACGCGCACGCCCGGGGTCACGCTGGAGGTGCGCGGGTTCCGCGTCACCGAGGTCGGCGAGCATGCCAAGCGCGGCATCACCCCGCAGGCGATGCAGGCGCTGGCCGATGCCAGGTTCGCCGAGCTGGCCCACGGCGCGGCCAGCGCGCAGCTGGATTTCACCCAGCTGCAGGCGGTGGCCGGCGCGTTGACCGAGGCCTACCGCAAGGCCGGCTTCCTGGTCAGCACCGCGTTCCTGCCGCAGCAACAGCTCGGCGCCGATCGCATCGTCGAGATCCGGGTCATGGAAGGCCGCATCGGCCGGGTGCTGGTGCAGGGCAATCGCCGCTACCGCAGCCAGACCCTGTCCGGCGTTGCCGAACGCATGCGCGGGCAGCCGCTGCGCCGCGCCGACATCGACGCGGCGCTGCTGTACGCGCGCGACCTGCCGGGCGTGTCGGTGTCGTCGGTGCTGCAGCCGGGCGAGCACGAGGGCGAGACCGACCTGGTGCTGGTGGCGCGCGAATCCGGGCGCCCGTACGAGGTCAGCATCGGTGCCGACAACCACGGCACCGAACAGACCGGGCGCAACCGCATCCAGGCCGGGTTGACCTGGAACAGCCCGCTCGGGCTCGGCGACGTGTTCGCGGTCAGCGGCACCTATGCGTTCACTCCGGAAGCCAGCCGCGCCGGTGCGCTGTCCTACAGCGTGCCGATCGCCGGCGTGCCGGGCCTGTCGGTGCTGGCCGGGGCCAACAACAGCGAGCTCGAGGTCAACAGCGGTCGGCTCGCCGCACTCGACCTGAAAGGACCGGCCTCGCAGCGTTACCTCGGCGCGGACTGGAAGTTCGTCAACCGCGAGAGCCTGCAGCTGACTGGTTCGGCGCGGCTGATCCGCGAGACCTCGCGCTTCGAGATCGCCAGCTTCCTGCTGGCCAAGCAGAAGTACGACGTCGCCGAACTCGGCCTCGGCCTGCGCCACACCGACGCGCGCTGGCACGGGGTCAACCTGGCGCAGCTGAGCGTGCGCCACTCGCTCGACGACCGCTCCGCCGAGGACGATTACATCAACCCCTACCGCAACAGCCGCTTCACCGTGGCCCGGCTCGGCGTGATGCGGCTGCAGTACCTGACCCGCAGCCAGCGCCTGCTGTTCAAGCTCAACGGCCAGTACAGCAACAACGCGCTGGCGGCGATGGAGCAGCTGCAGCTGGGCGGCAACGACAGCGTGCGCGGTTACGCGCTGGGCGAAACGCTCGGCGACCGCGGCTACTACACCGCGCTGGAGTACCACGTCGACGCGCCCGGCTTCGGCGATGCGGTGTCGCCGTTCCAGGGCGTGCCGTGGCGCGAGGTGCTGGAGTTCGACCTGTTCGTCGACCACGGCCGGGTGTTCGACAGCACCAGCCATACCGCACCGCTCACCTTGGCCGGTGCCGGCGGCGGGCTGACGTTCCGCCTGCGCCGCTTCCACAACCTGGAGCTGCGCCTGGCCGCGGCGCTGCCGACCAGCGCCGCGCAACCGAGCGACGACAAAGACGTCCGCGTGTACGCGCGGCTTGGCATGACGTTCTGA	MSMKHTTLAMALLAVLPAASLHAQQAPARDDAAVQQIPALATRTPGVTLEVRGFRVTEVGEHAKRGITPQAMQALADARFAELAHGAASAQLDFTQLQAVAGALTEAYRKAGFLVSTAFLPQQQLGADRIVEIRVMEGRIGRVLVQGNRRYRSQTLSGVAERMRGQPLRRADIDAALLYARDLPGVSVSSVLQPGEHEGETDLVLVARESGRPYEVSIGADNHGTEQTGRNRIQAGLTWNSPLGLGDVFAVSGTYAFTPEASRAGALSYSVPIAGVPGLSVLAGANNSELEVNSGRLAALDLKGPASQRYLGADWKFVNRESLQLTGSARLIRETSRFEIASFLLAKQKYDVAELGLGLRHTDARWHGVNLAQLSVRHSLDDRSAEDDYINPYRNSRFTVARLGVMRLQYLTRSQRLLFKLNGQYSNNALAAMEQLQLGGNDSVRGYALGETLGDRGYYTALEYHVDAPGFGDAVSPFQGVPWREVLEFDLFVDHGRVFDSTSHTAPLTLAGAGGGLTFRLRRFHNLELRLAAALPTSAAQPSDDKDVRVYARLGMTF				NA	NA	NA	NA	NA
BMS020_05703	300			hypothetical protein	GTGAACGAGTGGGAACGCCATGCCAACCAGGGCCTGCAATCGTTGGGCGAGGCCTACCAGCGCGGGCAGATCGACCGCGAGGCATACCGCGCGCGGCGGCGGCGCCTGCTGCGCGGCATCCGCGAGCAGCAGGCGCAGACCCAGCCCAACCTGCTGCGTCCGCTGGCGCAGCCGGCGGCAACCGGCAGCACATCCGCAGTGCGAACCGGGGCGTGCGTGAAGTGCGTAGCGCTTCGCATCGTGTGCGCGATCATCGGCCTGGGGTTGGTCGCGTGGTGGCTGTTGCGGGGGGAAGGCTGA	MNEWERHANQGLQSLGEAYQRGQIDREAYRARRRRLLRGIREQQAQTQPNLLRPLAQPAATGSTSAVRTGACVKCVALRIVCAIIGLGLVAWWLLRGEG				NA	NA	NA	NA	NA
BMS020_05704	3534	pknD_1		Serine/threonine-protein kinase PknD	GTGCACGAGGACACGCTTTCCGTGGTTGAACTGGTCACCGCCTTCCGTACCGGCAGGCTCGATCTGCCGGCCGTGCTCGCCGCGCTGTCGCAGCGCGGCACGCTGGCCGAGGACGACTACCGCAGCGGCGTGGACACGCTGTGGAAGCTGCGCCAGGAGCAGGCGCTCGATGAGGCCACTGTCGGCACGCTGCTGCAGCGGCTGGATGCGCTGCGTGCGCCGGCGGTGGCCGGCGACGACGTCACCGTGGTCAAGCCGGCGCGCGCGCCGGGCGCCGAGGACGAGTTCACCCGCGTGCAGCCGGCCAGCCTCGCCCCGGCCGCGCCGGTCGAGGGCGGCACCGGCACCGGGACGGGCACCGCCTCGCACAGTTCCAGCCTGGCCAGCTGGGAGCGCGTGGCCGCGGCCAGCGGCCAGTACGTCACCGTCGGCAGCGTGCTCAAGGGCCGCTTCCACCTGGAACGCGAGCTCGGCCGTGGCGGCATGGGCGTGGTCTACCTGGCACGCGACGCGCGCAAGGTCGAGGCGCGCGACCGCGACCCGTGGCTGGCGGTCAAGGTGCTCAGCGACGAGTTCCGCCGCCATCCCGATTCGCTGGTGGCGCTGCAGCGCGAGGCGCGGCGCTCGCAGCAGCTGGCGCACGACAACATCGTGCGGGTCTACGACTTCGACAAGGACGAAGGCATCGTGTTCATGACGATGGAGTTCGTCGACGGCTGCGACCTGCGCACGCTGATCCGCGAACAGGCCTACACCGGCATGCCGCTGGCGCGTGCGCGGCCGCTGATCGAAGGCATGGCGCGTGCGCTCGGGCGCGCGCATGCGGCCGGCATCGTGCATTCGGACTTCAAGCCCGGCAACGTGATGGTCACCGCGGACGGCGTGCCCAAGGTGTTCGATTTCGGCATCGCCCGCGCCGGCCAGCACAAGGCAGACGTCGCCGGCGAGCAGACCGTGTTCGATGCCGCCACGCTCGGCGCGCTGACCCCGGCGTACGCCAGCCTGGCGATGCTGCGCGGCCAGGCGCCGACCCCGGCCGACGACATCTATGCGCTGGGCTGCGTCTGTTTCGAACTGCTCACCGGCAAGCACCCGTTCGACAAGCTCAGCGCCGAGGTCGCCCAGCGCGAAGGGCGCCGGCCGCCGCCGCTACCCGGGCTGAGCAAGCGTCAGTACCGCACGCTGTGCGCGGCGGTCGCCTTCGACGCCGACAGGCGTGTGCCCGACGTGGCGACGCTGCTGGAAGGCCTGCGCGAGATCGGCTGGCGCGAGCGCCACCTGCCGGCGCTCGGCTACGGCGCCGCCGCGGTGGTGGTGCTGACGCTGGCCGGCGTCGGCATCTCGCGCCACCTCGATGCCAGGCGCCTGGCCGAGGTCACCGCGCGGCTGGATGCCAACGATCCGCAGGCCTATCGCGACGAACAGCAGGCCTGGGCCGGGCTGTCCGCGCTCGACCCGGATGAGCGCGCGCGCTTCATGGTCGAACATGCCGCCCTGGTCGAAGGCTTCCTGCTGCGCCGGCTGGATGCGCTGTGGAAGCCGGCCGCCGGCCGCTACGACTATCCGGGCACCGCCGGCGTGTACGCGCTGCGGGAGCGGCTGCGGCTGTTCTCGCCGGCACTGGACCGGCGCCGCACCCAGATCGAGCGCGAGCGCGACCTGCAGCTCAACGCGCTCGACAGCCGCGTGGCCACGTTGCTGCAGCAGGGCGCGCTGTTTGGCGCAGGTGCCGATGGCCTGCCGGCGACACTGGCGGCGATTGCCGCGATCGACTCGGGCAGCGCGCTGCTGCACGACCCGGAACTGGAACTGGCCTACACCAACGCGATCGAGCGCGCGCTCGCCGCGCAGGACGAGGCGGCCGCGCGCAGCGCACTGGCCCAGGCGCAGGCGCAGTTCCCGCAATCGCTGCGCCTGAAGCTGCTTGCCACGCAGCTGCAGCCGAGCAGCAGCGCGGTGTCGGCCGCGGCCCCGGCCGATGCTGCGGCGGCGACGGCCGCGCTGGACACGCTGCTGCGGCAGCCGCAGGCCGATGCGGCATGGCAGGGCAAGGTCGGCGCCGCACTGCAGACGCTGCGCACCCAGGCCCCGGCGCAGCTGGCGCCGGCGCAGGCGCGGCTGGCCGAATCCGTTGCCGCCACGCTGGCCACGCACAGCAGTGCCGAGCAGCTGCCCGACGATCTGCTGCTGCTGCAGTTCGCGCTGCAGCAGGCCCCGGATGCGCCGGCGCTGCAGCAGCAGCGCGAGGTGTTGCAGCAGCGCCAGCAGGCGCTGCTGGCCGGCCTGGATGCCGAACGCAACCAGGCCGAGCTGGCCGCACGCAGCGAATCGCTGCGCCGCGCGGTCGCCGCCGGCGACCTGGACAAGGCCGCGCGCCTGCTCGAACGCCTGCGCACGCTGGCGGCGGACGATGCGTTCGTGCGCGATGGCGCACCGGCACTGCTCGAACAGGCTTACCAGCAGCAGGCCGCACAGCAGGTGGCGCGTGGCGATTTCGCCGCCGCCGGCGCCCAGGTCGATGCCGGCCTGCGCGTGCTTGGTGCGCGCCGCGCGCTGCAGGCCATGCGCGACCGCTACGCGGTGGTGGCCGCGGTGATGGCGCTGACCCCGGCCACGCCGGCGGCTGAACGCGCCCGCGTCGCCCAGCAGCTAGAAGCGCAGTACCGCAACGATGCGCGCGCGCTGGAGCAGCTCGAACGCGACATGCATGCGCGTGGCCAGCTCGAGGAGGAATCGCTGCGCCTGCACCTGCAGCGGGGTGGCGCGGTGCAGCCGCTGCCGGCACCCGCTGCCGCGAGTAAACCCGCGACCAGCACCAGGCCAGCGGCCGGCACCAGCACCGCAGCGCTGCCGCGCGCGCCGGCCAGCACGGTCGCCGATGACGAGGAACCGCTGCCGCCGGTCCCCGATGGCCCCGATCCCTGTGCCGGCAGTGCCGGCGCCGCACGTACCTGCTACGACGCGGTCGGCGGCGTCCGCGGCCCGATGCTGGTGGTGGTGCCCGGCGTCGGCGGCGGCAGCGCCTACGCGCTGTCGCGCGGCGAGGTCGCCGTCGACGACTTCAACCGCTACTGCAGCGCTACCGCGCGCTGCGTGCCCAAGCCGCTGACCAGCGCCGAGCAGGGCCGCCTGCCGGCGCAGAACGTCACCCTGGCCCAGGCCCGTGGCTACGCGCGCTGGCTGACCCGCGCCAGCGGCGGTTGGCGCTACCGCCTGCCCAGCGATGCCGAGTGGCTGCACGCGGCGCAGGCGCAGCAGCAATGGCGGCAGGCGCCGGACAGCAACTGTATTCCGCCCACCAGCAGTGCCGGGGCCGGGGCGCCGGTCGGTGTGCGCGGCCGCGAGCCCAACCCGTGGGGGTTGGTGAACCTGTCCGGCAACGTCTGGGAGTGGGTCGTCGATGGCGCCGGCGCGGCGCTGCGCGGGGGTAGCTACGCCAGCTACTGGTCCGACTGCAGCGTGCAGGCGCGGCGCGATGCGCCAGGCAGCGCGCAGCCCGATGTCGGCTTCCGGGTGTTGAGGGAACTGAAGTGA	MHEDTLSVVELVTAFRTGRLDLPAVLAALSQRGTLAEDDYRSGVDTLWKLRQEQALDEATVGTLLQRLDALRAPAVAGDDVTVVKPARAPGAEDEFTRVQPASLAPAAPVEGGTGTGTGTASHSSSLASWERVAAASGQYVTVGSVLKGRFHLERELGRGGMGVVYLARDARKVEARDRDPWLAVKVLSDEFRRHPDSLVALQREARRSQQLAHDNIVRVYDFDKDEGIVFMTMEFVDGCDLRTLIREQAYTGMPLARARPLIEGMARALGRAHAAGIVHSDFKPGNVMVTADGVPKVFDFGIARAGQHKADVAGEQTVFDAATLGALTPAYASLAMLRGQAPTPADDIYALGCVCFELLTGKHPFDKLSAEVAQREGRRPPPLPGLSKRQYRTLCAAVAFDADRRVPDVATLLEGLREIGWRERHLPALGYGAAAVVVLTLAGVGISRHLDARRLAEVTARLDANDPQAYRDEQQAWAGLSALDPDERARFMVEHAALVEGFLLRRLDALWKPAAGRYDYPGTAGVYALRERLRLFSPALDRRRTQIERERDLQLNALDSRVATLLQQGALFGAGADGLPATLAAIAAIDSGSALLHDPELELAYTNAIERALAAQDEAAARSALAQAQAQFPQSLRLKLLATQLQPSSSAVSAAAPADAAAATAALDTLLRQPQADAAWQGKVGAALQTLRTQAPAQLAPAQARLAESVAATLATHSSAEQLPDDLLLLQFALQQAPDAPALQQQREVLQQRQQALLAGLDAERNQAELAARSESLRRAVAAGDLDKAARLLERLRTLAADDAFVRDGAPALLEQAYQQQAAQQVARGDFAAAGAQVDAGLRVLGARRALQAMRDRYAVVAAVMALTPATPAAERARVAQQLEAQYRNDARALEQLERDMHARGQLEEESLRLHLQRGGAVQPLPAPAAASKPATSTRPAAGTSTAALPRAPASTVADDEEPLPPVPDGPDPCAGSAGAARTCYDAVGGVRGPMLVVVPGVGGGSAYALSRGEVAVDDFNRYCSATARCVPKPLTSAEQGRLPAQNVTLAQARGYARWLTRASGGWRYRLPSDAEWLHAAQAQQQWRQAPDSNCIPPTSSAGAGAPVGVRGREPNPWGLVNLSGNVWEWVVDGAGAALRGGSYASYWSDCSVQARRDAPGSAQPDVGFRVLRELK				NA	NA	NA	NA	NA
BMS020_05705	717	stp_2	COG0631	Serine/threonine phosphatase stp	ATGAACCTGGCCACCGCCGCCTACGCCTCGGCCGGCCACACCGATACCGGCAAGGTGCGCCGCCTCAACGAGGACGCGATCCTGCTGCGCGACGACCTCGGCCTGTGGGTGGTCGCCGACGGGCTCGGCGGGCATGCCGCCGGCGACTACGCCAGCGGGCTGATCGTGCAGCGGCTGGCGGCGCTGCAGCGGCCCGACGACGTGGTCGACTTCATCGAGGAGATCGAGGACGCGCTGGAGCAGGTCAACGCCGAGCTGCTCCAGCGCGCGCGCGGCCAGCAGGTGGACCTGATCGGCTCGACCGTGGTGGTGCTGGTCTACGACCGCGATTTCATGCTGTGCGGCTGGGTCGGCGACAGCCGCGCTTACGGCGTCGACGGCGGCCGCCTGCGCCAGCTCACCCGCGACCACGTGCACGGGGTCAAGGACGACGCCACCCAGTTCGCACACGCCGGCCCCAGCCCCGGTGCGCTGACCCGCGCGGTCGGCGCGCAGGAGCCGCTGCTGGTCGACTGGGTGGTCGCCAGCCATGCCAGTGGCGCGCCGTTCCTGCTGTGCAGCGACGGCATCAACAAGGAGATCCCGGATGCGGAGCTGGAACTGGAATGCCGGCGCGTGCGCGAACCGCGCGCGTTGCTGGCCAGGTTGTTCGAACTGGCGCTCGGCCGCGCTGCCCGCGACAACGTGTCGGCGGTCGTGGTGCGCCTGCAGGAGTGA	MNLATAAYASAGHTDTGKVRRLNEDAILLRDDLGLWVVADGLGGHAAGDYASGLIVQRLAALQRPDDVVDFIEEIEDALEQVNAELLQRARGQQVDLIGSTVVVLVYDRDFMLCGWVGDSRAYGVDGGRLRQLTRDHVHGVKDDATQFAHAGPSPGALTRAVGAQEPLLVDWVVASHASGAPFLLCSDGINKEIPDAELELECRRVREPRALLARLFELALGRAARDNVSAVVVRLQE	PGPT0030420_726	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
BMS020_05706	633			hypothetical protein	ATGCACGCCGAGGCTGCGAACACCGCAACGGGGTTCTTCGGCAAGCTGCCGTGGGCCGGCGATTTCGTCCAACGCCGGCTGCCGCACGACCTGGTGCAGGGCTGGGATGCGCACGCCTGCGAGGTATTGGCCGGCGCGCCACACCTGGCCGCCGGCCAAACCCCGTGGGCGCTGCTGTGCGCGCCCGGCACCTGCGGCGCGGCGGCCTGGGCCGGCGTGGTGGTGGGTGGGGCCGATCGCGTCGGCCGGCGCTTTCCGTTGCTGCTGGCGCGGCCGTGCGGCGCCGATGCCGATGCTGGCGGCCTGCTCGGCGGCGGGCTGGCCTGGTTCGTCGCCGCGCGCGCGCTGCTGGCGCTGCTGCGCAGCGGCGGCCTGGCCGACACCGATGCCTTCGATGCCGCGGTTGTCGCACTGCCGGCGCCCACGGTCGACACCGAGGCGCCCACGCTGCGCCGCGACCTGGCCGGCGCTGCGGCGCCCGCACACGCCGCGGCGTGGCGGCACTGCCTGCAGGCCGGTGGCAGCATGTGGTGGCGTGGGGATGCGCTGCCGTGCGTGCTGCCAGGCCTGCCCGATGCCGCCGCCTGCCTGCGCGCGCTGGCAGCGGATGCGGCCGCGGAGGTGGACGCATGA	MHAEAANTATGFFGKLPWAGDFVQRRLPHDLVQGWDAHACEVLAGAPHLAAGQTPWALLCAPGTCGAAAWAGVVVGGADRVGRRFPLLLARPCGADADAGGLLGGGLAWFVAARALLALLRSGGLADTDAFDAAVVALPAPTVDTEAPTLRRDLAGAAAPAHAAAWRHCLQAGGSMWWRGDALPCVLPGLPDAAACLRALAADAAAEVDA				NA	NA	NA	NA	NA
BMS020_05707	3501			hypothetical protein	ATGCGCACGCTGCTCGGAAAACTGCGCGATGGTGGCTGGGCGATCCTGCTCGGCGCGCTGCTGCTGGTCGCGCTGGTGTGGTTCGGCGGCCCCTGGCTCGGTATCGGCGGGCGCCAGCCGCTGGCCGGGGTCTGGGCGCGGCTGCTGACGCTGCTGGCGCTGGCGCTGCTGGGCCTGGGACTGTGGCAGCTGCGGCGTTGGCGCGCGCGCCGCCAGGCACGCCGCATCGATGCGGCGCTGACCGATGGCGACGATCGCGCGCAACGCGCCGCCGGCGAACGCCGCCAGCTCGAGAGCCGGTTCCAGGAGGCGTTGCAGCTGCTGCGCCGGCGTCGCGGCGGCGGCAACCTCTACGCGCTGCCGTGGTATGCGGTGATCGGCCCGCCCGGCTCGGGCAAGAGCACGCTGCTGCAGCATTCCGGGCTGCACTTCCCGCTGGCCGGGCGCTTCGGCAGCGAGGCGGTGCGCGGCGTCGGCGGCACCCGTCACTGCGACTGGTGGTTCACCGACGAGGCGGTGTTCCTCGATACCGCTGGGCGCTACACCACCCAGGATTCGGACCGCGCGGTCGATGCCGGCGGCTGGCTGGATTTCCTGCGCCTGCTGCGCCGCCATCGCCGCCGCCGCCCGCTCAACGGCGTGATCGTGACGATGAGCCTGTCGGACCTGCTGCTGCTCGACGCGGCCGAGCGCGACCAGCATGCGCAGGCGATCCGCCGCCGCCTGGACGAACTCACCGAACAGCTGCGGGTGCCGGTGCCGGTGTACCTGGTGCTGACCAAGTGCGACCTGCTGGCCGGCTTCGGCGAGTTCTTCGACGACCTCGGCCCGCAGCAGCGCGGCCAGGTCTGGGGCATGTCGTTCGCGCTGGAAAAGACCCGCGACGGCACCGCCGCGCGCGGCTTCGCCGATGGCTATGCGCGCCTGCTCGACCGGCTCAACGCGCGCGTGCTGCAGCGCCTGCACGATGAGCGCGAACGGCCGCGCCGCGCCGCGCTGCTGGCGTTCCCGCCGCAGTTCGCCGCGCTCGGCGAGCCGGCGCGGCAGTTCGTCGATGCGGTGTTCAGCGGCCATGCCTACGGGCCGGCGCCGCTGCTGCGCGGGGTGTACCTGACCTCCGGCACCCAGGACGGCACGCCGATCGACCGCATGCTCGGCGCGGTCGCGCGCAGCTTCGGCCTGGATCCGGCACGCGCGCCGGCGCCGAGTGCGCAGCCGCGCACGTTCTTCGTCGAACAGCTGCTGCGTGGCGTGGTGCTGCCCGAGTCCGGGCTGGCCGGCACCAACCCCGGCCACGAACGCCGCCGCGCCTGGCTGCAGGCCGCCGCCTACGCCGGGGTGGTGCTGGCCACGGGGGCGCTGCTGCTGGCGCTGGCCGGCAGCTACCGCGGCAACCGCGCCTACCTGGCGCAGGTCGCGCAGGCGCTGGCCGAGCGCCGACCATCGGCGGACCCGTCCGCCGCCGCGGACCTGCGCGGCTACTACGCACGCAGCGTGCAACGGCTGCAGGCGACCGAAGCGGTGCTGCAGGTCGCGCAGCCGGCCACGCCGGCGCCGTGGTCGCTGGGCTGGGGGCTGGGCCAGCGTGCGGCGATCGGCGGCGAGCTGCAGCAGGCCTATGTGCGCGAACTCAACGCGCTGCTGCTGCCCGGATTGGCGGCGCAGCTGCGCCGCGGGCTGCAGGCCAGCGCCGGCGACCCGCAGGCGCTGTACTACTACCTCAAGGGCTACCTGATGCTGGGCGACAGCGCCCACCTGCAGCCGGACGAGCTGCGCACGCTGGCGGCGATCGACCTGCGCCGGCTGTTCCACGACGATCCAGTGCAGGCGCAGGCGTTGGATGCACAGCTCGGTGCGCTGCTGGACACGCCGGGGCGGCTGCGCGCGATCAGCCCCGAGCCGCTGCTGGTCGAACAGGCCCGCACCAGCCTGCGCGCGGCCGACCTGGCCACGCTGGTCTACAGCAACCTCAAGCTCGGCGCCGGCGCGCTGCCCGGCCAGCCGTTGCGGCTGGACCGCGCGCTCGGCCTGCTTGCCGATGCGTTCCAGCGCCGCAGCGGCACGCCGCTGTCGGCGCCCTGGCCGGCGCTGTACACCCAGCCGGTGTTCGCCCAGCTCGCCGCGCAGGGCGTGGACGAGGCGGTCGAGCGCTTCGTCGCCGACGACTGGGTGCTGGGCCGCCAGCGCATCGATCCACTCGGTCGCGCGCGGCTGGCGCAGCAGGTGCTGCGCCTGTACGAGCAGGATTACATCCGCGCCTGGGACGCGCTGCTGGCCGACCTGCAGCTGGCACCCAGCGCCGATGCCGCGCAGGCCTCGGCGCTGGTGGCCAAGCTGTCCGGGCCGAGCTCGCCGCTACGGCTGCTGCTGGCGCTGCTGCGCGAGCAGACCCAGGACCTGCTGCGTGCGCCGCCGGCCGCCGGCGTGACCGATGCGCTGCAGGCCGCTGCCGGCAAGGCCGCGACCCAGGCCGCCGGCAAGCTGCCCGGCGGCAACGCGGCGCTGAAGGCGGCGCTCGCGCGCAGCGGCGACGACGCGGCGGGCGCGCCGCCGCCTGGCGTGGCGATCAGCGAGCATTTCGCCGCGCTGGCGCAGCTGTGTGCCGGTGCACCCGGCGCGACGCCGCTCGATGCTGTGCTGGCCACCTTCGACCAGCTCGGCAAGCGCCTGCTCGCGCCGCCAGCGGCCGCCGGCGCGCCCGACCCGGCGCTGCTGCTGGCGCGCCAGCAGGCCGCGCAGCTGCCGCCGCCGGTCTCGGGCTGGCTGCTGGCGCTGACCGGGCAGAGCACCACATTGCTCGACCGTCAGGCCAAGGCCGCGCTCGACGACACCGTGGCGCAGTCGGTCGACCAGGTCTGCGCGGAGTTCGTGCGCGGGCGCTATCCATTCGATCCGGATGCGACCAGCGACATCCCGGTGCAGAACTTCGGTGAGCTGTTCGGCTACGGCGGCCGCTTCGACAGCCTGTACCGCGACACGCTGGCGCCGCTACTCGATACCCGCGGCGCGCGCTGGCAATGGAAGCAGCCCGACGGCGTGGCCGCCAGCGACACCGCGCTGCCGGCGCGGATGCAGCTGGCCGATGCGATCAAACGCAAATATTTCCGCAGCGGCGCGCAGCCGCAGGTCGGCTTCACCGTGCTGGCGCCGGCGCTGCCGGAGGGCGTGGCGCGGCTGGAGATCGACATCGACGGGCAGCGCTTCGAGGTGCGCGCCGGCGCGGCGGCGAGCATGCCGATGACCTGGCCCGGGCCGACCCCGGGGCGGGTGTCGATCGTCGCCTTCGATGCCGCCGATGCGCGCCTGGGCGGGGTCGACTACCAGGGCGACTGGGCGCTGTTCCGCGCGCTGCAGGCCGGCCACCTGCGCGCTGAATCTGACCTGCGCTACGTCGCCGATTTCGACCTCGCCGGCCACCCGGCGCAGCTGGCACTGCAGGCGGCCAACCTGCGCCATCCCTTCCTCGACGGCGACGTCGCCCGATTCCGCTGTGGGAGCTGA	MRTLLGKLRDGGWAILLGALLLVALVWFGGPWLGIGGRQPLAGVWARLLTLLALALLGLGLWQLRRWRARRQARRIDAALTDGDDRAQRAAGERRQLESRFQEALQLLRRRRGGGNLYALPWYAVIGPPGSGKSTLLQHSGLHFPLAGRFGSEAVRGVGGTRHCDWWFTDEAVFLDTAGRYTTQDSDRAVDAGGWLDFLRLLRRHRRRRPLNGVIVTMSLSDLLLLDAAERDQHAQAIRRRLDELTEQLRVPVPVYLVLTKCDLLAGFGEFFDDLGPQQRGQVWGMSFALEKTRDGTAARGFADGYARLLDRLNARVLQRLHDERERPRRAALLAFPPQFAALGEPARQFVDAVFSGHAYGPAPLLRGVYLTSGTQDGTPIDRMLGAVARSFGLDPARAPAPSAQPRTFFVEQLLRGVVLPESGLAGTNPGHERRRAWLQAAAYAGVVLATGALLLALAGSYRGNRAYLAQVAQALAERRPSADPSAAADLRGYYARSVQRLQATEAVLQVAQPATPAPWSLGWGLGQRAAIGGELQQAYVRELNALLLPGLAAQLRRGLQASAGDPQALYYYLKGYLMLGDSAHLQPDELRTLAAIDLRRLFHDDPVQAQALDAQLGALLDTPGRLRAISPEPLLVEQARTSLRAADLATLVYSNLKLGAGALPGQPLRLDRALGLLADAFQRRSGTPLSAPWPALYTQPVFAQLAAQGVDEAVERFVADDWVLGRQRIDPLGRARLAQQVLRLYEQDYIRAWDALLADLQLAPSADAAQASALVAKLSGPSSPLRLLLALLREQTQDLLRAPPAAGVTDALQAAAGKAATQAAGKLPGGNAALKAALARSGDDAAGAPPPGVAISEHFAALAQLCAGAPGATPLDAVLATFDQLGKRLLAPPAAAGAPDPALLLARQQAAQLPPPVSGWLLALTGQSTTLLDRQAKAALDDTVAQSVDQVCAEFVRGRYPFDPDATSDIPVQNFGELFGYGGRFDSLYRDTLAPLLDTRGARWQWKQPDGVAASDTALPARMQLADAIKRKYFRSGAQPQVGFTVLAPALPEGVARLEIDIDGQRFEVRAGAAASMPMTWPGPTPGRVSIVAFDAADARLGGVDYQGDWALFRALQAGHLRAESDLRYVADFDLAGHPAQLALQAANLRHPFLDGDVARFRCGS	PGPT0025960_1088	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025960-impL|vasK|icmF-K11891	NA	NA
BMS020_05708	1239			hypothetical protein	ATGAACGCACAGGGCAGCGAGCGGCCGCGGCCGCAGGCGGTCGGCGCCGGCGAGCCGGCACGCGCGGAGATCAGCGAGTTCCTCGGCGACAGCCTCAACCCGCTGGTGCAGGCGGCCACGCCGCTGCTGCTGCTGGCGGTGCAGCTGCGCCACAGCGCGCACGCGCCGGACGTGCTGCTGCTGCGCGAACAGGCCGAACTGCAGCTGCGCAAGTTCGAAGGCCGGGTGCGCGACGCGCGCTGCGCGCCGGAGGCGGTGATGACCGCGCGCTACGTGCTGTGCGCGGCGCTGGACGAGGCGGTGCTCAATGCGCCGTGGGGCGAGCGCAGCGGCTGGGCGCAGCGCACGCTGCTGGTGACCTTCCATGGCGAGTCCTACGGCGGGGCGAAGTTCTTCGCGATCCTGGACCGGCTGGTCGAGGACGTGCCGCGCCACGTCGAGCTGCTGGAGCTGCTGTACCTGTGCCTGGTGCTCGGCTTCGCCGGACGCTACCAGATCGAGGCCGATGGCGCGGTGCGGCTGTCGGCGATCCAGGATGATCTGTACCGGCGCATCCGCAGCCAGCGTGGCGGCGTGCCGCAGGAGCTGTCGCCGCAATGGCGCGGGGTCGAGGACCGGCGCCACCGGCTCGGCCGCCATCTGCCGGTGTGGGTGGTGGCGCTGGCGGCGGCGTGCACGCTGCTGGCGGTGTTCGCCTGGCTGCATGCGCGGCTCAACGCGCTGTCGGCGCCGATCAGCGCGCAGGCGGCGCAGATCGGGATCGAGACCGGGCGGGTGCCCGAACAGGTACGCGCGGTGCCGACGCTGCGGCTGGCGCAGCTGCTGGCGCCGGAGCAGCAGGCCGGCCAGCTCAGCGTCGAGGAGCAGGCCGACGGCAGTGCCCGGGTGCGTTTGAACGCGGCGGCGATGTTCGCCTCCGGCGGCGTCGAGGTCGATCCGGCGCAGCGCCCGCTGCTGGCCAAGATCGCCGCCGCGCTGGACCAGCTGCGCGGGCGGGTGATCGTGGTCGGCCACACCGACGACCAGCCGCTGCGCTCGCTCACCTTCAAGGACAACTACGCACTGTCGGCGGCGCGCGCGCAGGCGGTGGCGCAGGTGCTCGGCAGCGGCCTGCGCGATGCGGCGCGGATCGAATCGGTCGGCGCCGGCGACTCGCAGCCGCTGGCGCGCCCGCCGCAGCTGCCGGCCAACCGCACGCGCAACCGGCGCGTTGAAATCCTGTTCCAGCCCGGGGACTGA	MNAQGSERPRPQAVGAGEPARAEISEFLGDSLNPLVQAATPLLLLAVQLRHSAHAPDVLLLREQAELQLRKFEGRVRDARCAPEAVMTARYVLCAALDEAVLNAPWGERSGWAQRTLLVTFHGESYGGAKFFAILDRLVEDVPRHVELLELLYLCLVLGFAGRYQIEADGAVRLSAIQDDLYRRIRSQRGGVPQELSPQWRGVEDRRHRLGRHLPVWVVALAAACTLLAVFAWLHARLNALSAPISAQAAQIGIETGRVPEQVRAVPTLRLAQLLAPEQQAGQLSVEEQADGSARVRLNAAAMFASGGVEVDPAQRPLLAKIAAALDQLRGRVIVVGHTDDQPLRSLTFKDNYALSAARAQAVAQVLGSGLRDAARIESVGAGDSQPLARPPQLPANRTRNRRVEILFQPGD	PGPT0025955_491	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025955-impK|ompA|vasF|dotU-K11892	NA	NA
BMS020_05709	1338			hypothetical protein	ATGACCCAGCACAACAAGGTCGTATGGAGCGAAGGGCTGTTCCTGCGGCCACAGCATCTGCAGCAGCAGGAGCGCTACCTGGAGCGCTACGTCGAGCTGCGTGCGGCGCCGCTGCAGGCGCAGGGCTGGGGCTTCAGCGAACTGGAGCTGGAGACCGACCTGCTGGCGATCGGCAAGCTCGGCATCCGCCGCGCGCGCGGCGTGTTTCCCGATGGCACGCCGTTCGCGATGCCCGGCGACGATCCGCTGCCGGCGCCGCTGGAACTGGACCTCAACACCCGCGACCAGACCGTCTACCTGACCCTGCCGCTGCGCTCGCCGGCGCAGCCGGACACCGGCCGTGCGGAATCGCCGCCGGACCAGCTGTTCCGCTACCGCGTGCGCGAGAGCGAGGCGCTGGATGCCTCCGGCAGCGTCGAGGAGCGGGTGCTGCTGGAAGTGGGTGGCCTCAATACCCGCCTGCTGCCGGCGGCGCAGCCGCAGGAAGGGCTGGCGCGGATCGCGCTGGCGCAGGTGCTGGAGGTGCGCGCCGATCGCCGCGTGCAGCTCGACGACGGCTTCGTGCCCAGCGTGGCGGTGGTCGGCGCGGCGGCGCGGCTGGGCACCTTCCTGGTCGAACTGCTCGGCCTGCTGCACCAGCGCGGGGAGGCGCTGGCGTCGCGGGTGGCGCTGACCGACCGCGGCGGTGCCGCCGAGATCGCCGACTTCCTGCTGCTGCAGCTGGTCAACCGCTGGCAGCCGCTGCTGGCGCACTGGGCCGCGCAGCCGGCGCTGCACCCGGAGACGCTGTACCGCGCGCTGCTGGCGCTGGCCGGCGAACTGAGCACGTTCACCGCGCCGGGCAAGCGCCCGTCGGCGTTCGCGCCGTATCGCCACGACGCGCTGCGCGAGAGTTTCGAGCCGCTGATCGCGGCGCTGCGCGGCAGTCTCAGCGCGGTGCTGGAGCAGACCGCGCTGGCGATCCCGGTGCAGGCGCGCAAGTTCGGCGTGTGGGTCGCGGTGGTGCCCGATCCGGGCCTGCTCGACAGCGCGCAGTTCGTGCTCGCCTGCAAGGCCGACCTGCCGGCCGAGGAGCTGCGCCGCAGGCTGCCGGCGCAGGCCAAGATCGGCCCGGTCGAACAGATCCGCGACCTGGTCAACCTGCAGCTGCCGGGCGTGGCGCTGGCGCCGATGGCGGTGGCGCCGCGGCAGATCCCGTACCACGCCGGCCACGTCTATTTCGAATTCGACACCCAGTCGCCGCTGTGGCGCGCGCTGCATGGCGCCGGCGGCCTGGCCTTCCACCTCGGCAACGAGTTCCCGGGACTGGCGCTGCAACTGTGGGCGATCAGGGGATGA	MTQHNKVVWSEGLFLRPQHLQQQERYLERYVELRAAPLQAQGWGFSELELETDLLAIGKLGIRRARGVFPDGTPFAMPGDDPLPAPLELDLNTRDQTVYLTLPLRSPAQPDTGRAESPPDQLFRYRVRESEALDASGSVEERVLLEVGGLNTRLLPAAQPQEGLARIALAQVLEVRADRRVQLDDGFVPSVAVVGAAARLGTFLVELLGLLHQRGEALASRVALTDRGGAAEIADFLLLQLVNRWQPLLAHWAAQPALHPETLYRALLALAGELSTFTAPGKRPSAFAPYRHDALRESFEPLIAALRGSLSAVLEQTALAIPVQARKFGVWVAVVPDPGLLDSAQFVLACKADLPAEELRRRLPAQAKIGPVEQIRDLVNLQLPGVALAPMAVAPRQIPYHAGHVYFEFDTQSPLWRALHGAGGLAFHLGNEFPGLALQLWAIRG	PGPT0025950_1105	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025950-impJ|vasE-K11893	NA	NA
BMS020_05710	1296			hypothetical protein	GTGTCGCCCGCCCAGCAGAACCTGATCCTCACCGTCGGCGGACGCCAGGCCGCGCAGTTCGGCAGCGCCGCGCAGACCACCTTCGTCCAGAACGGCGGCAGCATCGGCCGCGCCGACGAGTGCGACTGGGTGTTGCCGGCGTCCGGGGTGTCGCGCACCCACGCGCTGGTGCGCTACCTCAACGGCATGTATTTCATCGAGGACTGCAGCACCAACGGCATGCTGCTCAACGGCGCCGCGCTGGTCCGCGGCGAGCCGGCCGCGCTCGCCGATGGCGACCGCCTGCAGGTGGACAGCTTCGAGATCGAGGTGCGCCTGCAGCAGATCGGCCAGAGCGCCGCGGCGGTGGCCGCGGCCGAGTTCAATCCTGACCTGACCCAGGTGGCGCCGACGCCGCGCCAGCCGGCGGCGGCCGCGCCGATGCCGGCCGAGGATCCGTTCGAGCAGCTGTGGGGCAGCCTGCAGCAGGCGCCGCCGCGGCCGCCAGCCGTCGCCGACGCATCGCTGGCCGCGTTGCTGCCGCAGCCGGCCGCCGAGCTGGACCCGCTGCGCCTGCTGCAGCCGGCCGCGCCGGTGTCGGCGGTCGCGCGCAGCGATGCCGACGCCTGGCACCACAGCGCCGCCAGCCAGGACCACTTCCGCCCGCCATCACCGGCGCGCAGCGGCGTGGAATTGCCCGAGGACTGGGACCTGACCCAGGGCGATTTCGCACCGCCGCCCGCGCCGTTGCCCGTCGCCCAGGCGGCACCTGCGGCACCGGCGCTGGCCGACGAGGAACGCATCCTGGCGATCGTTGTCGACGGGGTGATGGAGGCGCTGCGCGCACGTGCGGAGATCAAGAACACCTTCCGCCTGCCGGTCACGGTGATCCAGCGCTCGGAGAACAATCCGCTGAAATTCGCCGCGACCACGCGCGAGGCGCTGGACAAGCTGGCCGCGCCGGACGGCGGCGCATTCCTGACCGGCGCGGCGGCATTCGAGGACGCCTTCGACGACATCCGCTGCCACCAGATGGCGATGCTCGCCGGCATGCGCGCGGCGTACGAGGCGCTGCTGTTCCACTTCAGTCCGGACCGGCTGGAGCAGGACGTCGACCAGGGCGGGCGGCGCCCGACCTTCGGCGGCAAGGGCCGCTACTGGGAGCGGTACCGCGAACAGTTCCAGACCCTGGTGCGCGATCCGGACGACTGCTTCCGGCGCCTGTTCGGCGACGAGTTCGCGCGTGCCTACGAAACCCAGCTGGCGCGCTACAAGTCCGCGCGCCGTGATGCGCGCGGGCAGGGCGGCGCGCGCTGA	MSPAQQNLILTVGGRQAAQFGSAAQTTFVQNGGSIGRADECDWVLPASGVSRTHALVRYLNGMYFIEDCSTNGMLLNGAALVRGEPAALADGDRLQVDSFEIEVRLQQIGQSAAAVAAAEFNPDLTQVAPTPRQPAAAAPMPAEDPFEQLWGSLQQAPPRPPAVADASLAALLPQPAAELDPLRLLQPAAPVSAVARSDADAWHHSAASQDHFRPPSPARSGVELPEDWDLTQGDFAPPPAPLPVAQAAPAAPALADEERILAIVVDGVMEALRARAEIKNTFRLPVTVIQRSENNPLKFAATTREALDKLAAPDGGAFLTGAAAFEDAFDDIRCHQMAMLAGMRAAYEALLFHFSPDRLEQDVDQGGRRPTFGGKGRYWERYREQFQTLVRDPDDCFRRLFGDEFARAYETQLARYKSARRDARGQGGAR	PGPT0025945_143	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025945-impI|vasC-K11894	NA	NA
BMS020_05711	537			hypothetical protein	ATGGACGCGGTGAGCCAGGCCTGCGCGCAGATGGAGATCGCCCCGGCCGCGTGCGCGCTGCTGCAACCGGCGATGACCCCGCTGCAGGCGGTGCAGGTGCTGCTCGGCGCCGGTCAGGTGCAGCCGGCGCTGCAGCTGGCGGCGCGGCTGCTGCCCAAACGCTACGTGGTGGCCTGGCTGTGCCAGTGCGCGCGTGGCGAGGACGCGTTGGCACCTGAAGCGCGCGCCGGTGCCGCGCTGGCCGAGAAGTGGCTGCGCGAGCCGAGCGAACCCAACCGCCGCGCGGCCTACGAGTTCGCCAATGCCGGCCGCTACGGCTCGCTCGGCGCGTGGCTGGCGGCCAGTGCCGGCTGGGCCGATGGCAGCCTGGCGCCGGCGCGGCAGGAGGCGCCGGTGCCGCCGCCGGAGCACTTGACCGCGCGTGCCGCGGTGGCCGCCTTGAACCTGCTCGCCGCGCAGCAGCCAGCGGCGTTCCAGCAGCGCCGCCGCGGCTATGCCGAACAGGCGCTGGGGCTGCTGGCCGGTGCCGCGCGATGA	MDAVSQACAQMEIAPAACALLQPAMTPLQAVQVLLGAGQVQPALQLAARLLPKRYVVAWLCQCARGEDALAPEARAGAALAEKWLREPSEPNRRAAYEFANAGRYGSLGAWLAASAGWADGSLAPARQEAPVPPPEHLTARAAVAALNLLAAQQPAAFQQRRRGYAEQALGLLAGAAR				NA	NA	NA	NA	NA
BMS020_05712	2007			hypothetical protein	ATGGCGCGCACGATCACCCTGCAATCGGACCTGGGCGAACAGCTGCTGTTCGTGCAGCTGCAGGCCAACGAGGCGCTGGGCCGTCCGTACCGCTTCATGGTCGATGCGCTGTGCTCGGACAAGCAGCCGGACCTGGCCCGGCTGCTGGGCACGCCGATGGTGGTGGGGCTGCAGGAGGAAGGCGGCAGCCGTCAGTTCCACGGCATCGTCGCCGAGGTTGAGCGGGTCGGCTGGCGTGATGTGCAGGGGCTGGTCCATGCCCACCTGCAGATCGTGCTGATGCCGCGGCCATGGTTGCTGGCGCATCGCCGCGACTGCCGCATCCACAGCGCGCAGGCCGTGCCGCAGCTGGTGCGCGCGTTGCTGCAGGAAGTGGGCTACACCGACGTGCGGCTGAGCCTGTCGGGCAGCTACCCGGTGCGCGAGTACTGCGTGCAGTACCGCGAGAGCACGCTGGACTTCATCAGCCGGCTGCTGGAGCAGGAAGGGATCTACTACTACTTCGAGCACTCCGCGCAGGCGCATACGCTGGTGTTGGCCGACGGCATCGGCGCGCATGCGCGGCGCGCCCCGTTCGCGATCCTGCCGTATCTGGACGAAGCCGAAGCGCGCGACCCGCGCGTGGCCGGCGTTTCGCGCTGGCGCCAACGCCGCGCGCTGCACGCCACCGCGCAGCAGCTGGACGACTACGACCCGCTGCGCCCACGCGCCTCGCTGCTGGTCGACGAGGCGCTGGCCGGTGACGGGCTGCATGGCGTGTCGGGCCTGCACGACTACGACTGGGGTGGCGGCCATGCCGCGACCGAGGACGGGCGCCGCTACGCGCAGGTGCGGGTCGAGGCCCACAACGCCGAGCGTGCCAGCTGCCGCGGGCACACCCATGCCTGGGGCTTGGCGGTGGGCCAGCTGTTCGAACTGCGCGGCTGCCCGGAGGACGGGGCCAACCAGGAATACCTGGTCACCGCCGCCGAGACCACGCTGCGCGAAGGCAGCCATGCCTCCGCTGGCGGCGTGCCGGGGCCGCTGCTGGAGTGCAGCTTCCATGCACTGGAGGGGCGGCTGCCGTTCCGCAGCGTCGCGCGCACGCCGTCGCCGCGCATCGCCGGGCTGCAGAGCGCGGTGGTGGCCGGCGAGCGCGACGAGGACATCGCGGTGGACCAGTACGGCCGGGTCACGGTGACCTTCCACTGGAGCAGCAGTGCCCGTCCCAACGGCAAGGCGTCGTGCCCGGTGCGCGTGGCCTCGGCCTGGGCCGGCAAGGGCTGGGGGCTGCAGGCGTTGCCGCGGGTCGGCCAGGAGGTGCTGGTCGGCTTCCTCGACGGCGACCCGGACCGCCCGCTGATCGTCGGCAGCGTCTACAACGCCGACCACATGCCGCCGTACGCGCTGCCCGATGCGCGCACCCAGAGCGGCATCCGCAGCCGCAGCCATCCCGACGGCGGCGCCGACGCCTACAACGAGCTGCGCTTCGACGACCGCAAGGGCGAGGAGGATTTCCTGCTGCATGCGCAGAAGGACATGCACGTGGAGGTCGAGCACGACCAGGAGCTGCACATCGAGCACGACCAGCGCTACACCATCGACAACGACCAGAGCGGCAAGGTCAAGCACGACCGCCGCGTGGTGGTCGACAACGAGGACGTGCTCGAGGTCGGCGCCAATGCCAGCCATACCGTGCGCCGCACGTTCACCCTCGATGCCGGCAGCAAGATCGAGCTGGTCACCGGCGCGTCGAGCCTGGTGATGACCAGCGCCGGCGAGATCACCCTCAAGGGCATCAACATCACCCTGGAGGCATCCAACGGGCTGAGTTTCGACGCCGGCGTGCAGGCCGCCTTCAGTGCCGGCGCGACGATGGACATCGGCGCCGGCGCCAGCGTGAAGCTGCATTCGGATGCGCTGCTGCAGCTGCAGGGCGGCGCCAGCGCCGAGCTGAAGGCGCCGATGCTGAGCCTGTCCGGCGACGCGCTGGCCAAGCTGGCCGCGGCGCTGGTGATGATCGGATGA	MARTITLQSDLGEQLLFVQLQANEALGRPYRFMVDALCSDKQPDLARLLGTPMVVGLQEEGGSRQFHGIVAEVERVGWRDVQGLVHAHLQIVLMPRPWLLAHRRDCRIHSAQAVPQLVRALLQEVGYTDVRLSLSGSYPVREYCVQYRESTLDFISRLLEQEGIYYYFEHSAQAHTLVLADGIGAHARRAPFAILPYLDEAEARDPRVAGVSRWRQRRALHATAQQLDDYDPLRPRASLLVDEALAGDGLHGVSGLHDYDWGGGHAATEDGRRYAQVRVEAHNAERASCRGHTHAWGLAVGQLFELRGCPEDGANQEYLVTAAETTLREGSHASAGGVPGPLLECSFHALEGRLPFRSVARTPSPRIAGLQSAVVAGERDEDIAVDQYGRVTVTFHWSSSARPNGKASCPVRVASAWAGKGWGLQALPRVGQEVLVGFLDGDPDRPLIVGSVYNADHMPPYALPDARTQSGIRSRSHPDGGADAYNELRFDDRKGEEDFLLHAQKDMHVEVEHDQELHIEHDQRYTIDNDQSGKVKHDRRVVVDNEDVLEVGANASHTVRRTFTLDAGSKIELVTGASSLVMTSAGEITLKGINITLEASNGLSFDAGVQAAFSAGATMDIGAGASVKLHSDALLQLQGGASAELKAPMLSLSGDALAKLAAALVMIG	PGPT0030410_3679	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
BMS020_05713	2844	pknD_2		Serine/threonine-protein kinase PknD	ATGCTGAGCGTCGAACACTGGCGGCAGCTGGAGGCGCTGTTCCACCGCGCCAGCGCGTTGCCGCGCGAGCAGCGCGACGCGTTCGCGCGCGAGGCCGCCGGGCACGATCCGCCGCTGCTGCGCGAGCTGGAGAAGATGCTGGCGGTGGAGGCCGAAGCCACCGTGCGGCTGCGCATGCCGTTGCAGCAGGCGGCCTCGACCTTGCAGCCGCCAGCGGTGTTGCCGGCCGGTACCCGCTGTGGGCCGTGGGCGGTGGATGGGGTGATCGGCTCGGGCGGCATGGGGCGGGTCTATCTCGGCCACCGTGCCGATGGCGCCTACAACCAGCAGGTGGCGATCAAGCTGATCGCCAACCCGGGCCTGGACGCGCGCCAACACGCGTTCTTTGAATTTGAATGCCGGATGCAGGCGCAGATGCACCATCCGGCGATCGCGCAGATCTACGACGCCGGCGTGCATGCCGGCGAACGGCCCTACCTGGTGATGGAGTACATCGCCGGCGAGACCATCGAGCGCTGGTGCGAGCAGCGCCGTGCGCCGCTGGCGCGGCGCGTGCAGCTGGTGATGCAGGTCTGCCAGGGCGTGCAGCACGCGCACCAGAAAGGCGTGATCCATCGCGACCTCAAGCCCAGCAACGTGCTGGTCGGCGAGGTCGACGACCACCCGCAGCCGAAGGTGATCGACTTCGGCATTGCCATCGGCGGGCCGGCGGCGGCCCACGAGGGCGGCGCCGGCGGCACGCCGGGGTACATGAGCCCGGAACAGACCGGCACCGAGATCGACATCGACGCGCGTAGCGACGTGTTCTCGCTCGGCGCGCTGCTTTACGAGCTGCTGTGCGGGCAGCGCCCGCCGGCACTGCCTGGGACCGGACTGTCGCCGCTGCAGGCGCTGGCAGCGTTGGAGCCGGAGCAGCAACTGGCGGTGGCGCAGGCACGGCGCTGCACCTTGGCCGGGCTGCGCCGGGCGCTCGAGGACGGGCTGGATGCGATCGTGCGCAAGGCCACCCAGCCCGAGCGCGCGCGCCGCTACGACGCGGTGTCCACGCTGCTGGCCGACCTCGACCGCTGGCAGCACGACCTGCCGCCGCTGGCGGTGGCCAGCCCGCCGCTGCTGGTGGCGCGCAAGTTCCTGCAGCGCCACCGCCTGCCGGTCGCGGCGGCAGCTGCGGTGTGCGGCTGCCTGGTCGCGGGGCTGCTGGCCTCGCTGTGGGCGCTGTCACAGGCGCGCGACCAGCAGCAGGTGGCCGCGCACCGGCAACAGCAGCTGGAGCGCAGCGTGGCGTTCCAGCAGGAGATGCTGCAGAGCGTGGATATCGATGCGATGGGGCATGCGGTCGCCGCCGCGCAGGGCAATCCCAGCCAGGTGCAGACCACGCCGCCGGCGTCGGATACCGCACGCGATCTGCTCGAACGCTACGTCGTCGCGCATGCGCTGGAGCGCCTGCAGCACGATTTCGACGACGACCCGGTGCTGGCCACCGACCTGCGCCAGTCGCTGGCGCGGGTGCTGACCGCGATCGGTCGCTATCCGGCGGCGATCACCGAGCTGCGCACCGTGCTGGCGTCGCTGCGCACGCTGCAGCAGCCGCCGGCGCGGGTCGCCGCGGCGATGTTCGACCTCGCCGACGTGCTGTACCGGCAGGGCGATTTCGCCCAGGCCGATGCGACGCTGGCCGAGGCCGGCGCGCTGCGCCAGGCCGACAGCAACGACGCGCTGTGGCTGCGCCTGGACGCGCTGAAAACGCGGGTGCTGCTCGCCCAGGGACAGCCGCAGCAGGCGTTGACCCAGCAGCTGGCGCTGCTGCAGGACTGGAGCACGCGCCTGCCGGCGCAGGATGCGGCGCTGCTCGACATCGAGCTGGATACGGTGGAAACGATGATCCGGCTGACCCGGCGCGAGGATGCGCTGGTACGGCTGCAGGCGCTGCTGCCGCGGTTGCGTGCCGAGTACGGCCGCGACGCGCCGCGCACGCTGGCCGCGACCCTGCTGCTGGCCGACCTGCTCAATACCAGCAACCAGTACGAGGCTTCGCTGACGCTGGCGGCGGAGGTCCGCGACCAGCGCGAGCGCAGCCTCGGCGCCGATCATCCCGACACCTTGCAGGCCAAGGCGCTGGAGGCGACCAACCGGGTGCGGCTGGCGCAGGACCCGGCGGCGTGGGCGCAGGCCGAAGCGTTCGTGCGCGACCTGGTCGAGCACCAGCGCCGGGTGTTCGGCGCCACCCACCCGGAGACACTGCGTTCGACCGGCGACCTGATCCGCATCCTGGCCAAGCAGGACGCGCCGGCCAAGCTGGAGCAGGCGATCACCATGCAGCGTGCGCTGCTGCAGCTGCGCACCGAGCTGCTCGGCCCGCTGCATCCGGACACGCTGTTCACGCTTGGTGGGCTGGCCAGCATGCTGGCGCGTACCGACCGCTACGACGAGGCGCGGCGGACCGCGCGCCAGACCCTGGACGGGCTGACCGCGACGATGCCGGGCGACTACTGGTTGATCGCCGGCACCTGGGACGTGCTCGGCCAGGCCGAGGACCGCGCCGGCAACCTGGCCGCCGCGCGCGATGCGCATGCGCACGCGTTGCGCTTCCGTGCCGACCTGCGTGGCGTGTACGACGCGCACACCACCGAGAGTGCGGCGCGGTTGTACGAAGTGCTGGCGCGGATGCACGACCGTGCCGCGATGGCGCAGATCCAGCGCACCTACCTCGATCCGGTGATCGCGCGCGATCCGCTCACGCTCAATGCCTCGCAGCGCTCGGTGCGCGACGCGGCGGTGCGGGCGCTGCAGGGCGCCGATGCGGTCGACGACGGCGGCCAGCTGGCGGCGCGCGCCGGGCGTTGA	MLSVEHWRQLEALFHRASALPREQRDAFAREAAGHDPPLLRELEKMLAVEAEATVRLRMPLQQAASTLQPPAVLPAGTRCGPWAVDGVIGSGGMGRVYLGHRADGAYNQQVAIKLIANPGLDARQHAFFEFECRMQAQMHHPAIAQIYDAGVHAGERPYLVMEYIAGETIERWCEQRRAPLARRVQLVMQVCQGVQHAHQKGVIHRDLKPSNVLVGEVDDHPQPKVIDFGIAIGGPAAAHEGGAGGTPGYMSPEQTGTEIDIDARSDVFSLGALLYELLCGQRPPALPGTGLSPLQALAALEPEQQLAVAQARRCTLAGLRRALEDGLDAIVRKATQPERARRYDAVSTLLADLDRWQHDLPPLAVASPPLLVARKFLQRHRLPVAAAAAVCGCLVAGLLASLWALSQARDQQQVAAHRQQQLERSVAFQQEMLQSVDIDAMGHAVAAAQGNPSQVQTTPPASDTARDLLERYVVAHALERLQHDFDDDPVLATDLRQSLARVLTAIGRYPAAITELRTVLASLRTLQQPPARVAAAMFDLADVLYRQGDFAQADATLAEAGALRQADSNDALWLRLDALKTRVLLAQGQPQQALTQQLALLQDWSTRLPAQDAALLDIELDTVETMIRLTRREDALVRLQALLPRLRAEYGRDAPRTLAATLLLADLLNTSNQYEASLTLAAEVRDQRERSLGADHPDTLQAKALEATNRVRLAQDPAAWAQAEAFVRDLVEHQRRVFGATHPETLRSTGDLIRILAKQDAPAKLEQAITMQRALLQLRTELLGPLHPDTLFTLGGLASMLARTDRYDEARRTARQTLDGLTATMPGDYWLIAGTWDVLGQAEDRAGNLAAARDAHAHALRFRADLRGVYDAHTTESAARLYEVLARMHDRAAMAQIQRTYLDPVIARDPLTLNASQRSVRDAAVRALQGADAVDDGGQLAARAGR				NA	NA	NA	NA	NA
BMS020_05714	564			hypothetical protein	ATGGAGACAAGCCTGCCGCAGGAGGACCAGATCACCCGGCTGCTGGCGCGCTGGCAGGACGGCGACGTGCCGGCCAGCGACGCGTTGGCGCGGATGGTCTATGACGAACTGCACTGCATCGCGGTGCGCAATCTGTCGCGCAACGCCAGCGGTGGGCTGCAGGCCACCGAGCTGGTCAGCGAGGCGTGGATGCGCCTGTGTGGGCGTGCCGATGGCTTCGCCTCACGCAGCCACTTCTATGCGATCGCCGCGTTGCAGATGCGCCACCTGCTGGTCGACCTGGCGCGCATGCACGATCGCGGCAAGCGCCGTGGCGAACAGGTCACGCTGACCATGCGCCTGGCCGATCCGGCCGCGCAGCCGCTGGAGATGGCGGCGATCGCCGAGGCCTTCGACGAATTGATCCAGCTGGACGCGCGCAAGGCGCGCGCGTTCGCGTTGACCGAGCTGGTCGGGATGACCGTGGCCGAGACTGCGGCGGCGCTGGAGGTGTCGGTGCCGACCGCCGAGCGTGACCTGCGCTTCGTGCGGGTCTGGCTGGCGGCGCGGCTGGCGCCATGCTGA	METSLPQEDQITRLLARWQDGDVPASDALARMVYDELHCIAVRNLSRNASGGLQATELVSEAWMRLCGRADGFASRSHFYAIAALQMRHLLVDLARMHDRGKRRGEQVTLTMRLADPAAQPLEMAAIAEAFDELIQLDARKARAFALTELVGMTVAETAAALEVSVPTAERDLRFVRVWLAARLAPC				NA	NA	NA	NA	NA
BMS020_05715	288			hypothetical protein	ATGCAGCCCGCAGCCCGCCTGACTGACCTGCATACCTGCCCGATGGTGACCGGCGTGGTGCCGCATGTCGGCGGGCCGATCACCGCGCCGGGTGCGCCGACAGTGCTGATCGGTGGCTTGCCTGCGGCGCGGGTGTCGGATCTGTGTACCTGCGTCGGGCCGCCGGACAGCATCGTCAAGGGCTCGACCAAGGTGTTCATCAAGGGACTCCCGGCGGCGCGCTTGGGCGATACCACCGCGCACGGCGGGGCGATCGTGCTGGGGTGTTTCACGGTGCTGGTGGGCTAA	MQPAARLTDLHTCPMVTGVVPHVGGPITAPGAPTVLIGGLPAARVSDLCTCVGPPDSIVKGSTKVFIKGLPAARLGDTTAHGGAIVLGCFTVLVG				NA	NA	NA	NA	NA
BMS020_05716	153			hypothetical protein	ATGCTGGCTGTGGAAGTGAATCTGACCCCGTTCCTCACCGAAGTGAATCTGACCCCGTTCCTCGACCCCGTTCCTCGAACTTTACTCCGTTACCTCCGGGAGTACGGCCGTGACGAAGTCAACCTGACCCCGTTAGTCGGTGGACCCCGTTAG	MLAVEVNLTPFLTEVNLTPFLDPVPRTLLRYLREYGRDEVNLTPLVGGPR				NA	NA	NA	NA	NA
BMS020_05717	858			hypothetical protein	ATGAAAGATTTTATTGCTGCTTTTCGACCACAGGATGGAGATCTCGTTTATGGCAGAGCAGAAGCGCGAGGTGCTTACTTCAATCAATTCACTGCCGCTCAGATCAATGACATCAATACAATGAATTCGTGGGTAACCATTGATCAATACAATGACTTTTTTGGCTCGTCAGGCGATGCATTCTTTAATGATGAAAACCCCAATGTGCTCAAAGTAAAAAAACATCTCGGAGACAAAGGTGCGGTCGCGAATACGACTTCTCCTGATGCACGGTTTCAGGCGCAGCGCCAAGCGTACGGCACGCGATTGGCCTCTTCCCGCTACTCGCCTGTCAATGTTCTGGTTCCGACGGTCAGGCGTGAGCAGAAGCTAGAAGCAGAGGGATTTAGTGAGGGATCCATCGTACAGGCCAGGGTGATTGATGCGAGTGAAGCGTTGAAGATGAATATGGCCTACAAGTCCATTCGAAGGTCTTGCAAGTTCGGCATTGGAATGGTGGCCATCGAAGCGGCCTTTCGAGCCCCGAGAGCAAAAATTCGTTTTGTTCTTGATGGGCTGGATATGAAGAGCATAGCGCGGAAGGATGTCCTTCCCGGCTATTCCCGTAGCGCAGTTCCAATCACCTCGTCAGAATTGCGATACGTCTACCGGAACTGGGGGGATCTGAATAGTATTGTAAAATTCTATGTGAATCTTGCTGCCGTTGATCCGCCGTGGATTACTGACTGGGATCTTCCGAGCATTGTGGCCCCTGGCCTTCCGACTCAGACGCTTGCCTGCAAAACATACTGGGACGAGTATGGCTTACATCGGTCAGGCAAGTACAAGGGGGCGGTCCCTAATAAGACTCTAATTTGA	MKDFIAAFRPQDGDLVYGRAEARGAYFNQFTAAQINDINTMNSWVTIDQYNDFFGSSGDAFFNDENPNVLKVKKHLGDKGAVANTTSPDARFQAQRQAYGTRLASSRYSPVNVLVPTVRREQKLEAEGFSEGSIVQARVIDASEALKMNMAYKSIRRSCKFGIGMVAIEAAFRAPRAKIRFVLDGLDMKSIARKDVLPGYSRSAVPITSSELRYVYRNWGDLNSIVKFYVNLAAVDPPWITDWDLPSIVAPGLPTQTLACKTYWDEYGLHRSGKYKGAVPNKTLI				NA	NA	NA	NA	NA
BMS020_05718	207	clpV1_2	COG0542	Protein ClpV1	GTGAACCTGACCCCGTTTTCCGTGGAGCTGGTGGTTTCGCGGTGTACGGAAGGCGAATCGGGCGGCCGGATGATCGATGCGATTTTGACCAACACAATGCTTCCCGACGTTTCGCGCGAATTCCTCAACCGCATGATCGCTGGTGTGCCGGTGATGGGACTGAAGGTGGGCGCTAAAGAGGCGGAATTTTCGTATGCGTTTGGGTAA	MNLTPFSVELVVSRCTEGESGGRMIDAILTNTMLPDVSREFLNRMIAGVPVMGLKVGAKEAEFSYAFG	PGPT0025985_262	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025985-vasG|clpV-K11907	NA	NA
BMS020_05719	405			hypothetical protein	ATGTCATTCAATCCCAAGGCACCGAAGACCGGCATGACCCCGTCCAGCGGCAACGGGAACCCGCCATCGACGGCGCAGGTGGTAGCATCGGCCATAGTGCCGACGACCATTGCTGCCCAGGCTGCTCTGGTCCGTCATGTCGGACAGGCGCAAGCCGCAGGGTTTCGTCCTTCCCTGGTAAGTCTGCTGTTTAATGCCAGAAGCTATATGGCGGCGCCGATGCCGGTGAAGCTCGGTACCGCAGCGCTCATTGCCACTTCGACAGCCGTGAAAAAGGCAAGCGGCATCGGTCCGAAAGAGCTCGTGGACTATGGAATGTCGCATTTTTGCAGACCAGTCGAAGACTTCTTCAAGCGCTTCCCGCCCGGGGGGGGGGACGGGGATGATGGCGGTATCACCGGATAA	MSFNPKAPKTGMTPSSGNGNPPSTAQVVASAIVPTTIAAQAALVRHVGQAQAAGFRPSLVSLLFNARSYMAAPMPVKLGTAALIATSTAVKKASGIGPKELVDYGMSHFCRPVEDFFKRFPPGGGDGDDGGITG				NA	NA	NA	NA	NA
BMS020_05720	2733	clpV1_3	COG0542	Protein ClpV1	ATGACCGAGATCAGCCGTGCCGCGTTGTTCGGCAAGCTTAATCCGCTGGCCTACCGCGCGATCGAGAGCGCGACCGTGTTCTGCAAGCTGCGCGGCAATCCCTACGTGGAGCTGGTGCATTGGCTGCACCAGCTGCTGCAGCTGCAGGACTCGGACCTGCACCGCATCGTGCGCCATTTCCAGCTCAATCCATCCGCGCTGGCGCGTGACGTCACCGAGGCGCTGGAGCGGCTGCCGCGCGGCGCCGGCGGCGTCACCGACCTGTCGGCCAACGTCGAGGAGGCGGTCGAGCGCGGCTGGGTGTATGCCTCGCTGAGCTTCGGCGAGGCGCAGGTGCGCAGCGGCTACCTGATCGTCGGCGTCCTCAGCGTGCGCAGCCTGCGCGCCGTGCTGTCCGGCATCTCGCGCGAGTTCGACAAGCTCAAGCCGGAGGCGCTGGGCGAGCAGTTCGCGTCGATTGTGTCTGGCTCGCCCGAGGACGGGCAGCGCCCCAGCGACGGCTTCCAGCTCGGCGCCGCAGGCGAACCGGGCGAGGCCAGCGGCGCGATCGCCCCGGCCGCGCTGGGTAAGCAGGAGGCGCTGACCAAGTTCACCACCGACCTGACCGCGCAGGCGCGCGACGGCACGCTCGACCCGATCATCGGCCGCGACGACGAGATCCGCCAGGTCGTGGACATCCTGATGCGCAGGCGGCAGAACAACCCGATCCTGGTCGGCGAGGCCGGCGTCGGCAAGACCGCGGTGGTCGAAGGCCTGGCCCAGCGCATCGCCCGCGGCGACGTGCCGCCGGCGCTGAAGGACGTGCAGCTGCGCGCGCTCGATGTCGGCCTGCTGCAGGCCGGGGCCAGCATGAAGGGCGAGTTCGAGCAGCGCCTGCGCGCGGTGATCGACGAGGTCCAGGCCAGCCCGAAGCCGATCATCCTGTTCGTCGACGAGACCCACACCCTGGTCGGCGCCGGTGGCGCGGCCGGCACCGGCGATGCCGCCAACCTGCTCAAGCCGGCGCTGGCGCGCGGCACGCTGCGCACCGTCGGTGCGACCACCTGGGCCGAGTACAAGAAGTACATCGAGAAGGATCCTGCACTCACACGTCGCTTCCAGGCGGTGCAGGTCGACGAGCCCGACGAGGCCAAGGCGGTGCGGATGATGCGCGGCGTGGCCTCGATGATGGAGAAGCACCACCAGGTGCAGATCCTCGACGAGGCGCTGGAGGCGGCGGTCAAGCTCAGCCACCGTTACATCCCCGCGCGCCAGCTGCCGGACAAGTCGGTCAGCCTGCTCGACACCGCCTGCGCGCGCGTGGCGGTGAGCCTGCATGCAGTGCCGGCCGAGGTCGATGACAGTCGGCGGCGGATCGAATCGCTGCAGACCGAGATCGGCATCATCGAACGCGAACGCGCGATCGGCATTGCCGTCGACGAACGCGCCGCCAGCTGCACGCAGGCACTCGCTGATGAACAGCAGCGACTGGATGCGCTGGAAGCACGCTGGACCGATGAGAAGGCACTGGTCGATGAACTGCTGGCGCTGCGCGCGCAGCTGCGCGCCGGACATGCCCCGGTCGAAGGCACCGGCAGTGCGCTGGAGGCGGCCGCCGCGCAGCAGATGCAGGACGTCACCAGCGAACCGCCCTCGGGCAACGAACGCGCCGCGCTGTTGGCCCGCCTGCGCGAGGTGCAGGTCGAGCTGGCCACGCTGCAGGGCGAATCGCCGCTGATCCTGCCGACGGTGGACTACCAGGCGGTGGCCGCGGTGGTCGCCGACTGGACCGGCATCCCGGTCGGGCGCATGGCGCGCAACGAGATCGACACCGTGCTGCGCCTGCCCGAACTGCTCGGCCAGCGCGTGATCGGCCAGGACCACGCGATGGAGATGATCGCCAAGCGCATCCAGACCAGTCGCGCCGGCCTGGACAACCCGGACAAGCCGATCGGCGTGTTCCTGCTGGCCGGCACCTCCGGCGTCGGCAAGACCGAGACCGCGCTCGCGCTGGCCGAAGCGCTGTACGGCGGCGAGCAGAACCTGATCACCATCAACATGAGCGAGTACCAGGAAGCGCACACGGTGTCCTCGCTGAAGGGCGCGCCGCCGGGCTATGTCGGTTACGGCGAAGGCGGCGTGCTAACCGAGGCGGTGCGGCGCAAGCCGTATTCGGTGGTGCTGCTCGATGAGGTGGAGAAGGCGCATCCGGACGTGCACGAACTGTTCTTCCAGGTGTTCGACAAGGGCTGGATGGAAGACGGTGAAGGCCGCCGCATCGATTTCCGCAACACGCTGATCCTGCTGACCAGCAACGCCGGCACCGAGCTGATCGCCAGCCTGTGCGCCGACCCCGAGCTGCTGCCGGATCCGGAAGGCATGGCCAAGGCACTGCGCGAGCCGCTGCTGAAGGTGTTCCCGCCGGCACTGCTGGGACGGCTGGTGGCGATTCCGTACTACCCGCTCAGTCCGGACATGCTCGGCAAGATCGTGCGGCTGCAGTTGAACCGGATCAAGAAGCGGATCGAAGCGCGCTACAAGATTCCGTTCGAGTACGGCGACGACGTGGTGAAGCTCGTCGTCGAGCGCTGCACCGAGAGCGAATCCGGCGGCCGCATGATCGACGCGATCCTGACCAACACCATGTTGCCGGAGATTTCCCGCGAGTTTCTCAATCGGATGATTGAGGGGAGGGCGATTGAAAGAGTACGGGTTGGGGTGGAGAAGGGTGAGTTTGGTTACGGGTTTGGGTGA	MTEISRAALFGKLNPLAYRAIESATVFCKLRGNPYVELVHWLHQLLQLQDSDLHRIVRHFQLNPSALARDVTEALERLPRGAGGVTDLSANVEEAVERGWVYASLSFGEAQVRSGYLIVGVLSVRSLRAVLSGISREFDKLKPEALGEQFASIVSGSPEDGQRPSDGFQLGAAGEPGEASGAIAPAALGKQEALTKFTTDLTAQARDGTLDPIIGRDDEIRQVVDILMRRRQNNPILVGEAGVGKTAVVEGLAQRIARGDVPPALKDVQLRALDVGLLQAGASMKGEFEQRLRAVIDEVQASPKPIILFVDETHTLVGAGGAAGTGDAANLLKPALARGTLRTVGATTWAEYKKYIEKDPALTRRFQAVQVDEPDEAKAVRMMRGVASMMEKHHQVQILDEALEAAVKLSHRYIPARQLPDKSVSLLDTACARVAVSLHAVPAEVDDSRRRIESLQTEIGIIERERAIGIAVDERAASCTQALADEQQRLDALEARWTDEKALVDELLALRAQLRAGHAPVEGTGSALEAAAAQQMQDVTSEPPSGNERAALLARLREVQVELATLQGESPLILPTVDYQAVAAVVADWTGIPVGRMARNEIDTVLRLPELLGQRVIGQDHAMEMIAKRIQTSRAGLDNPDKPIGVFLLAGTSGVGKTETALALAEALYGGEQNLITINMSEYQEAHTVSSLKGAPPGYVGYGEGGVLTEAVRRKPYSVVLLDEVEKAHPDVHELFFQVFDKGWMEDGEGRRIDFRNTLILLTSNAGTELIASLCADPELLPDPEGMAKALREPLLKVFPPALLGRLVAIPYYPLSPDMLGKIVRLQLNRIKKRIEARYKIPFEYGDDVVKLVVERCTESESGGRMIDAILTNTMLPEISREFLNRMIEGRAIERVRVGVEKGEFGYGFG	PGPT0025985_226	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025985-vasG|clpV-K11907	NA	NA
BMS020_05721	1074			hypothetical protein	ATGGACGGCCAGACCCGGCGCGCTGCTGGCGCTGTAGCGCCGGCGCCGGCGCTGCTCGCCGCGCTGGCGCAGGCGCCGGAGGCGTTCGAGCTGTTCGCCGCGCTGCGCCTGCTCGAGCGCGCGCATCCGCAGGCGCCGCGGCTGGGGTGCTCGACGCGGCCGGCCGACGACCCGGTGCGGTTGCGCCACAGCCCGTCGCTGGCATTCGCCACTCGCGATATTGACCGCGTCGAGCCGGCACGCGAGGGCCGCCCGCCGGCGCTGCACGGGCTGGTGCTCGGCCTGTTCGGACCGAACGCGCCGCTGCCGTTGCACCTGACCGAGTACGCGCTGCAGCGCCAGCGCAACGCCCGCGACCAGAGCCTGGCCGCGTTCGCCGACGTGTTCCACCACCGCATGCTGGGCCTGTTCTACCGCGCCTGGGCCGACGCGCAGCCGGTGGTGCACGCCGACCGCCCCGCCGACGACCGTTTCCGCACCTATGTCGGCGCGCTGGTGGGCCTGGCCACGCCCGGCCTGCAGGACCGCGACGCGTTGCCGGATGACCACCGCCGCCATTTTGCCGGCCGGCTGTTGCCGCTGGCGCGCAACAGCGAAGGCCTGCGCGGCCTGCTCGAACACGCGCTGCGCGTGCCGGTGCAGGTGATCGACTTCGTTGCCGAATGGATGCGCCTGCCGCGCGATGCGCACCTGCATCTGGGCGGTGCGCTGCGCAGTAGCGTGCTGGGCCGCAGCGCGGTGCTCGGCGCGCAGGTACGCGGCTGTCAGCACCGCTTCCGCCTGCGCATCGGCCCGCTCGACCTGGCCACGTTCCGGCAGTGGCTGCCGGGCGGGCGTGCGCTCGACCAGCTCACCGCCGCGGTGCGCGGCTACATCGGCGATGCCCAGGCCTGGGACGTGCAGCTGGTGCTGCGCGCCGACCAGGTGCCGCGCATGCGCCTGGGCCGCAGCGGCCGGCTCGGCCTGGACAGCTGGATGGGTCAGCGCGCCTGGAGCATCGCCGATGCCGACGAGGTGGTGGTGCGCCCGCGCATCGCCACCGTTTCCCCGTCTTCCCAAGGACCTTCCCGATGA	MDGQTRRAAGAVAPAPALLAALAQAPEAFELFAALRLLERAHPQAPRLGCSTRPADDPVRLRHSPSLAFATRDIDRVEPAREGRPPALHGLVLGLFGPNAPLPLHLTEYALQRQRNARDQSLAAFADVFHHRMLGLFYRAWADAQPVVHADRPADDRFRTYVGALVGLATPGLQDRDALPDDHRRHFAGRLLPLARNSEGLRGLLEHALRVPVQVIDFVAEWMRLPRDAHLHLGGALRSSVLGRSAVLGAQVRGCQHRFRLRIGPLDLATFRQWLPGGRALDQLTAAVRGYIGDAQAWDVQLVLRADQVPRMRLGRSGRLGLDSWMGQRAWSIADADEVVVRPRIATVSPSSQGPSR	PGPT0025940_1130	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025940-impH|vasB-K11895	NA	NA
BMS020_05722	1875			hypothetical protein	ATGGACCCGCGCCTGCTCCGCCACTACAACCGCGAGCTGCAGCATCTGCGCGAGATGGGCGCGGAGTTCGCCCAGGAATATCCCAAGATCGCCGGGCGGCTGGGCATGGACGGCATCGAGTGCGCCGACCCGTACGTGGAGCGCCTGCTGGAGGGCTTCGCCTTCCTCGCCGCACGCGTGCAGCTCAAGCTCGACGCGCAGTACCCGGTGTTCACCCAGCACCTGCTGGAGATGGTCTATCCGCACTTCCTGGCGCCGGTGCCGTCGATGGCGGTGGTGCAGCTGCAGCCGGACCTGAAGGACGCCAACCTCGCCGCCGGCCATCGCGTGGCGCGTCACACCGCGCTGCGCGGCGTACCCGGCGCCGACGAGCGCACCGCCTGCGAGTACCGCACCGCGCATCCGGTGACGCTGTGGCCGCTGGCGATGGTGGAAGCCAAGTACTTCGACAGCCCGGCGGCGCTGGCGGCGGCCGATATCGCGCTGCCAGCGGGCTTGCCGGTGCGTGCCGGGCTGCGCCTGCGCCTGCAGAGCCAGGCCGGGGTGCCGCTGGACGCGCTGGCGCTGGACGCGCTGCCGCTGTTCATCGCCGGCAGCGACGAGCTGCCCAAACGCCTGTACGAGCAGCTGCTGGGCAATGCGTGTGGCTACTGGGTGCGCGTGGATGGTGCCGCGCCGCACTGGCAGGACGGCGAGGCGATCGCCGCGCGCGGTTTCGACGACGATGAAGCCCTGCTGCCCTACGACGGCCGCTCCTTCGGCGGCTACCGCCTGCTGCAGGAATACTTCGCCTGCCCGGAGCGCTTCCTGTTCGTGGAATTCGCCGGGCTGCGGCGCAGCCTGCAGCGCGCCAACGGCGACGTCTTCGAGATCGTGGTGCTGTTCGACCGAAGTGTCGCCAGCCTGCACAACGCGGTGTCGGCCGACAACTTCCGGCTGTTCTGCACGCCTGCGGTCAACCTGTTCCCGCGCCGCGCCGACCGCATCCATCTCGCCGCCGGCCGCCATGAATACCACGTGCTGGCCGACCGTACCCGGCCGATGGACTTCGAGATCCACAGCGTCACCCAGGTCGATGGCTACGGCGACAGCCAGGAGCCGGAGCAGCGCTTCCTGGCGTTCTACGGCGGCGATGCGCGCACCTGGCACGACCCGCACCATGCCTATTACACGCTGCGGCGCGAGCCGCGCCAGCTGTCGGCCAGGCAGCGCCGTCACGGCGCGCGCTCCAGCTATGTCGGCAGCGAGCTGTTCGTCAGCCTGGTCGATGCGCACGACACGCCGTACCCGAGCCGGCTGCGCCAGCTTGGCCTGCAGCTGCTGTGCAGCAACCGCGACCTGCCGCTGCAGATGCCGGTCGGCAAGGGCCGCACCGACTTCAGCCTGGAAGGCGGCGCGCCGGTGGCGGCGGTGCGCTGCGTCGCCGGCCCGACCCGACCGCGCCCGGCGGTGGATGGCGGCGAGTCGGCGTGGAAGCTGCTCAGCCACCTGCAGCTGAACTACCTGTCGCTGTTCGAGGATGGCGACACGCGCGGCGCCAACGCGCTGCGCGAGATGCTGGCGCTGTACTGCGATCCATTCGACGCCGGCGCGCAGCGCCAGCTGGAAGGACTCAAATCGGTGGTCGCACGCAGCATCGTGCGGCGCATCCCGGTGCCCGGCCCGATCACCTTCGGCCGTGGCCTGGAAATCACCCTGACCTGCGAGGACACCGCCTTCGAAGGCACCGGCGCCTACCTGCTGGGCGCGGTACTGCGGCACTTCTTCGCGCGCTATGTCTCGATCAATGCCTTCACCGAGACCGTGCTGCGCACCGTCGAACGCAACGAGGTGGCCCGATGGACGGCCAGACCCGGCGCGCTGCTGGCGCTGTAG	MDPRLLRHYNRELQHLREMGAEFAQEYPKIAGRLGMDGIECADPYVERLLEGFAFLAARVQLKLDAQYPVFTQHLLEMVYPHFLAPVPSMAVVQLQPDLKDANLAAGHRVARHTALRGVPGADERTACEYRTAHPVTLWPLAMVEAKYFDSPAALAAADIALPAGLPVRAGLRLRLQSQAGVPLDALALDALPLFIAGSDELPKRLYEQLLGNACGYWVRVDGAAPHWQDGEAIAARGFDDDEALLPYDGRSFGGYRLLQEYFACPERFLFVEFAGLRRSLQRANGDVFEIVVLFDRSVASLHNAVSADNFRLFCTPAVNLFPRRADRIHLAAGRHEYHVLADRTRPMDFEIHSVTQVDGYGDSQEPEQRFLAFYGGDARTWHDPHHAYYTLRREPRQLSARQRRHGARSSYVGSELFVSLVDAHDTPYPSRLRQLGLQLLCSNRDLPLQMPVGKGRTDFSLEGGAPVAAVRCVAGPTRPRPAVDGGESAWKLLSHLQLNYLSLFEDGDTRGANALREMLALYCDPFDAGAQRQLEGLKSVVARSIVRRIPVPGPITFGRGLEITLTCEDTAFEGTGAYLLGAVLRHFFARYVSINAFTETVLRTVERNEVARWTARPGALLAL	PGPT0025935_198	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025935-impG|vasA-K11896	NA	NA
BMS020_05723	504			hypothetical protein	ATGGCCGAGCTGACCACCACCGAACGCCTGCAGCCCTCGCTGCTCGATCGCCTCACCGACGACGAGCCGCTGCGCCGCGACGAGAGCCGCGAGCAGCGGGTGATCTCGGCCACGCGGTTGCGCGAATGCGTCACCCGCGACCTGTCGTGGCTGCTCAACAGCGTGCAGCTCGCAGCCAGCGTCGTACTCGACGAGGTGCCCGAGGTCGCCCGCTCGGTGCTCAACTACGGCATCCCGGACCTGACCGGGCTGGAACTGGCCGCGCTCGACGCGGCCACGCTGCAGCAGCGCCTGCGCGAGGCGATCCTGCGCTATGAGCCGCGCCTGATCGCGCACACGCTGCAGGTCGGCGTGCATGCCAACAGCGAGCGGATGGACCGCAAGTCGCTGGTGTTCGATATCCGCTCGGAGATGTGGGCGCAGCCGATCCCGCTGAACCTGTACCTGAAGACCGAGGTGGATCTGGAAACCGGCAAGCTCGACCTGATCGAGGGCTACGCGTGA	MAELTTTERLQPSLLDRLTDDEPLRRDESREQRVISATRLRECVTRDLSWLLNSVQLAASVVLDEVPEVARSVLNYGIPDLTGLELAALDAATLQQRLREAILRYEPRLIAHTLQVGVHANSERMDRKSLVFDIRSEMWAQPIPLNLYLKTEVDLETGKLDLIEGYA	PGPT0025930_370	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025930-impF-K11897	NA	NA
BMS020_05724	822			hypothetical protein	ATGAACATCCAGCTGACCACCGGCCCGGTCGCCTCCGCCAACACGGCGCAGACGTTGCTGCGCGCCGGCCAGCTGGATGGCGCATTGCAGGCGCTGACCGCACGCGTGCGGGCGGCGCCGGCCGATGCCAACGAGCGGGTGTTCCTGTTCCAGCTGCTGGCGGTGCTCGGCCAATGGCGGCGTGCGGGCGAACAGCTGCAGACCGCGGTCAAGCTCGATCCGAGCTATGCGCTGCTGGCAGCCACCGGGGAGGTGCTGCTGCGGGCCGAAGCCGAGCGTGTCGCGGTATTCGCCGGGGTGCGACTGCCGACGGTGCTGGGGACGCCGGAGCCGTGGCTGGCGCCATTGCTGCAGGCGCTGCAGCTGGACGCGCGTGGGGAGCCTGGCGCCGCGGCGCCATTGCGCGCGAGTGCGCTGGAGCAGGCGCCGGCAGTCGCCGGCAGCGTGGATGGCGTGCCGTTCGCGTGGCTCGGCGACGCCGATGCACGCTTCGGTCCCTGCCTGGAGGTGATCACCCAGAACGGCTACGCGTGGCTGCCGCTGGCACAGCTGCGCGAGCTGCGCCTGGACGTGCCGGCCGATCTGCGCGACACCGTCTGGTTGCCGGCCGAGCTGGTCTGGGCCAGCGGTGCCGAGGCGGTGGCGTACGTGCCGGTGCGCTATCCGGGCAGCGAGAGCTGCGGCGACGCGGCGCTGCAGCTGGGGCGGCGGACCGACTGGAACAGTGCCGGCCATGGCCTGGGCCAGCGCATGCTCGCCACCGACACCGGTGAGACCGCGTTGCTGGATGCGCGTCGCATCGTGTTCGGCGAGCTCGGCTGA	MNIQLTTGPVASANTAQTLLRAGQLDGALQALTARVRAAPADANERVFLFQLLAVLGQWRRAGEQLQTAVKLDPSYALLAATGEVLLRAEAERVAVFAGVRLPTVLGTPEPWLAPLLQALQLDARGEPGAAAPLRASALEQAPAVAGSVDGVPFAWLGDADARFGPCLEVITQNGYAWLPLAQLRELRLDVPADLRDTVWLPAELVWASGAEAVAYVPVRYPGSESCGDAALQLGRRTDWNSAGHGLGQRMLATDTGETALLDARRIVFGELG	PGPT0025975_334	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025975-impE-K11898	NA	NA
BMS020_05725	501	hcp1	COG3157	Protein hcp1	ATGGCATTCGACATGCATCTGAAGTTCAAGGGCTCCGCGGTCACCATCGAAGGCGGCTCGACCCATGCCAAGCACAAGAACGAGATCCCGGTGCTGGCCTGGTCGTGGGGCCTGAGCAACAGCGGCGACCTGCACAGCGGCGGCGTCAGTGCCGGCGGCAAGGCGCACGTGCAGGACATCTCGTTGACCAAGTACGTCGACAAGAGCTCCAACGCGTTGTTGCAGGCCGCCGCCACCGGCGCGCGCCTGGAGGAGGCGTGGCTGTACGTCACCAACGCCACCGGCGAGCAGACCGACTACGTCACCCTGCATCTGTCCAACGGCGTGCTGGTCACCTCGGTGTCGACCGGCGGTTCCGGTGGTGAGGACCGCCTGACCGAGAACATCACCCTGCATTTCGGCAAGTTCCAGTACTCGTTCCAGCCGCAGCTGCCGGACGGCAAGGCCGATGGTGGCCCCAAGCCGTTCACCTATGACATGCAGGCCGTGGCCAAGGCCTGA	MAFDMHLKFKGSAVTIEGGSTHAKHKNEIPVLAWSWGLSNSGDLHSGGVSAGGKAHVQDISLTKYVDKSSNALLQAAATGARLEEAWLYVTNATGEQTDYVTLHLSNGVLVTSVSTGGSGGEDRLTENITLHFGKFQYSFQPQLPDGKADGGPKPFTYDMQAVAKA	PGPT0025980_484	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0025980-hcp-K11903	NA	NA
BMS020_05726	1494			hypothetical protein	ATGAGCACCGAACAGCTGGCCGAAGCCGGCAGCGCCACCGCGACCGTCGAGGCCGGCGATTTCGCCGCGCTGCTCAGCCGCGAATTCAAGCCCAAGAGCGAACGCGCCAAGGAAGAGGTCGAGTCGGCGGTGCGCACGCTGGCCGAGCAGGTGCTCAGCCGCGCCGACGTGGTCACCGAAGACGTCTCGCAGACGATCAAGGCCTATATCGCCGAGATCGACCGCAAGCTCACCGAGCAGCTCAACCAGGTGCTGCACCACGCCGACTTCCAGCAGCTGGAAAGCGCCTGGCGTGGCCTGCACTACCTGGTCAACAACACCGAGACCGACACCCAGCTGAAGATCCGGGTGCTCAACATCTCCAAGAAGGAACTCGGCAAGACCCTCAAGCGCTACAAGGGCACCGCCTGGGACCAGAGCCCGATCTTCAAGAAAGTCTACGAACACGAATACGGCCAGCTTGGCGGCGAGCCGTATGGCTGCCTGGTCGGCGATTACTACTTCGACCAGAGCCCGCCGGACGTGGAACTGCTGGCCGGCATCGCGCAGGTGGCCTCGGCGGCGCATGCGCCGTTCATCGCCGCGGCCGCGCCGAAGTTGATGGGCATGGACAGCTGGAACGAGCTGGCCAACCCGCGCGACCTGGCCAAGATCTTCTCCACCCCGGATTACGCGGCCTGGCGTTCGCTGCGCGACTCGGAGGACTCCAAGTACATCGGCCTGGCGATGCCGCGCACCTTGTCGCGGCTGCCCTACGGCGCCAGTACCAACCCGGTCGAGGACTTCGACTTCGAGGAGGACACCGCCGGCGCCGATTCGTCCAAGTACACCTGGCAGAACGCCGCTTACGCGATGGCGGTCAACATCAACCGCTCGTTCAAGCAGTACGGCTGGTGCTCGCGGATCCGTGGCATCGAGTCCGGCGGCGCGGTCGAGGGCCTGCCGACCCACACCTTCCCGACCGACGACGGCGGCGTGGACATGAAGTGCCCGACCGAGGTGGCGATCACCGACCGCCGCTCGGCCGAGCTCGACAAGATGGGGCTGATGCCGCTGGTGCACCGCAAGAACTCGGACATGGCCGCCTTCATCAGCGCGCAGTCGTTGAACAAACCGGCCGAGTACGACAACCCCGATGCCACCGCCAACGCCGCGCTGGCCGCGCGCCTGCCGTACATGTTCGCCTGCACCCGCTTTGCGCATTACCTCAAGTGCATCGTGCGCGACAAGATCGGCTCGTTCTCCAGCCGCGACCAGATGGAGAACTGGCTCGGCAAGTGGATCCTCAACTACGTCGACGGCGATCCGGCCAACTCCAGCGAGGAGTACAAGGCCAGCCATCCGCTCGCCGCCGCCGAGGTGGTGGTCGAGGAGGTCGAGGGTGCGCCCGGCTACTACACCTCCAAGTTCTTCCTCAAGCCGCACTACCAGCTCGAAGGGCTGACCGTGTCGCTGCGACTGGTGTCGCGGCTGCCGTCGCAGGCCAAGGCCTGA	MSTEQLAEAGSATATVEAGDFAALLSREFKPKSERAKEEVESAVRTLAEQVLSRADVVTEDVSQTIKAYIAEIDRKLTEQLNQVLHHADFQQLESAWRGLHYLVNNTETDTQLKIRVLNISKKELGKTLKRYKGTAWDQSPIFKKVYEHEYGQLGGEPYGCLVGDYYFDQSPPDVELLAGIAQVASAAHAPFIAAAAPKLMGMDSWNELANPRDLAKIFSTPDYAAWRSLRDSEDSKYIGLAMPRTLSRLPYGASTNPVEDFDFEEDTAGADSSKYTWQNAAYAMAVNINRSFKQYGWCSRIRGIESGGAVEGLPTHTFPTDDGGVDMKCPTEVAITDRRSAELDKMGLMPLVHRKNSDMAAFISAQSLNKPAEYDNPDATANAALAARLPYMFACTRFAHYLKCIVRDKIGSFSSRDQMENWLGKWILNYVDGDPANSSEEYKASHPLAAAEVVVEEVEGAPGYYTSKFFLKPHYQLEGLTVSLRLVSRLPSQAKA	PGPT0025920_820	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025920-impC-K11900	NA	NA
BMS020_05727	507			hypothetical protein	ATGGCGAACAGCCAGAAATTCATCGCCCGCAATCGGGCGCCGCGGGTGCAGATCGAATACGACGTGGAGGTCTACGGCGCGCAGAAGAAGGTCAATCTGCCGTTCGTGATGGGCGTGATGTCGGACCTGTCCGGGGCCAACGCCGGCGAGCTGCCGTCGCTGGAGGAGCGCAAGGCGCTGGAGATCGACGTCGACAACTTCGACAGCCGGTTGCAGTCGATGAAGCCGCGCGTGGTCTTCAACGTGCCCAACACGCTCACCGGCGAGGGCAACCTGTCGGTGGACATCACCTTCGAGAGCATGGACGACTTCTCGCCGGCGGCGGTGGCGCGCAAGGTCGCGCCGCTTGCCAAGCTGCTGGAGGCACGCACCCAGCTGGCCAACCTCGATACCTACATGGACGGCAAGGCCGGCGCCGAGGAACTGATCGCGCAGGTGCTGCGCGATCCGGCGCTGCTGCAGGCACTGGCATCGGCGCCCAAGCCCGGCGCCCAGGACGAGGAGTGA	MANSQKFIARNRAPRVQIEYDVEVYGAQKKVNLPFVMGVMSDLSGANAGELPSLEERKALEIDVDNFDSRLQSMKPRVVFNVPNTLTGEGNLSVDITFESMDDFSPAAVARKVAPLAKLLEARTQLANLDTYMDGKAGAEELIAQVLRDPALLQALASAPKPGAQDEE	PGPT0025915_908	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025915-impB-K11901	NA	NA
BMS020_05728	441			hypothetical protein	ATGAACGACTTCTATTCCGCCTCGGTGATCGGGGCGCTGGCCGCCGATCTCGGCGCCACCGCGGGCAGCCGGGTCATGTTGGCCAGGCCGGGATGCACGCTGCCGGCCGACGAGGCCGGGCTGTCGGAGATCCTGGATTTCATCGACGTGCACCTGGGCGAGTGCGAGCTGGACGAACGCATGATCCGGGGCGCGTTCCGGCTGTCGCGGCCGACCCTGTACCGGCTGTTCCAGGCGCTGGGCGGGGTCGCCCGCTATATCCGCGAACGGCGCCTGCGGCTGGCCTACCGGCACCTGCAGCGCGACCCCGCCTGCAGCCTGACCTGGCTGCTGTACGAGGTCGGGTTCGCCTCCGAGCGGCAGTTCCAGCGCGCGTTCCAGGCCCGCTTCGGGATGTCGCCGGCGCACTGGCGCCAGACCTGCCGCCGCCGGGACAGCTGA	MNDFYSASVIGALAADLGATAGSRVMLARPGCTLPADEAGLSEILDFIDVHLGECELDERMIRGAFRLSRPTLYRLFQALGGVARYIRERRLRLAYRHLQRDPACSLTWLLYEVGFASERQFQRAFQARFGMSPAHWRQTCRRRDS				NA	NA	NA	NA	NA
BMS020_05729	447			hypothetical protein	ATGTACAAGCGCATCCTGATTGCCATCGATGGTTCCGAGCTGGCCAACCGCGGCCTGCAGCAGGGCCTGGCCCTGGCCAAGGCCACCGGCGCGGCGGTCGATATCGTCACCGTGTCCGAACCGTGGGCGATGGGCATGTACGACGCGATGGGCTGGAGCGTGGGCTACGAGGCCAGCCCCGAATACCGCAAGGAGCGCGAGGAGGGGGCCCAGGCCATCCTCGCCCCCGCGCTGGAACAGGCCGCCGCGGCAGGCGTGTCGGCCCAGCCGCACCACGTGCTGGACCGCTACGCCGCCGAGGGCATCCTGCAGACCGCCAAGGACGCTGGCAGCGACCTGGTGGTGATGACCTCGCACGGCCGCCGCGGCATGAGCCGGGTGCTGCTCGGCAGCCAGACCATCGAAGTGCTGACCGGCAGCACGGTCCCGGTGCTGGTGGTGCGCTGA	MYKRILIAIDGSELANRGLQQGLALAKATGAAVDIVTVSEPWAMGMYDAMGWSVGYEASPEYRKEREEGAQAILAPALEQAAAAGVSAQPHHVLDRYAAEGILQTAKDAGSDLVVMTSHGRRGMSRVLLGSQTIEVLTGSTVPVLVVR				NA	NA	NA	NA	NA
BMS020_05730	495			hypothetical protein	GTGAAGGTGAAGGACGCGCGGATCGAGGTGGAGTTCGTCGTGCGCGCCGATTCGCCGATCTGTCTGCGCCGCAACCGCGGCGGTGACGCGCCTTGCCCGGCGCCCGGCCGCTACCGCTGGGCCTATGCCTGGGCGCCGGGCACGCTGACCCGGCTGCCGGGCGGCAGCCACGACGCGGTCGCGCCGCGCGCGCACTTTCCGCCACGGCTGCAGGACGACTGGGTGGTGGCCGGCACGGCGTGCCCGCAGGCGCAGGTGGGCGCTCCGGCGCGCACGCTGCGGTTCGGCTGGGACCGCATGACCGGGCTGGGCGAGGACGGCTGGGCCGACGGCATCGCCGTGCTGGCGCAGGTGCCGTGGACCTGGCGGATCCTGATCGGACGCAGGGGACAGGCGACGCCGACGCCGGCGGTGTTCGTGCTCAGCGAGGACGAACGCCGGCTGATCGTCGCCGAACCGGGCCGGGTGCGGACCTACGACCGCTGCCGCGGCTGA	MKVKDARIEVEFVVRADSPICLRRNRGGDAPCPAPGRYRWAYAWAPGTLTRLPGGSHDAVAPRAHFPPRLQDDWVVAGTACPQAQVGAPARTLRFGWDRMTGLGEDGWADGIAVLAQVPWTWRILIGRRGQATPTPAVFVLSEDERRLIVAEPGRVRTYDRCRG				NA	NA	NA	NA	NA
BMS020_05731	369			hypothetical protein	ATGCACACATGGAGTGTGCGGGTATGGGGGCTATGCCTGATCGCCGGCGCATGCCCGGCCGCAGGCGTCGGCGCGATGGATGGCCTGCAGCCGCAGCGCATCGCCGAGCAATGGCAGCAGTTCGCGCCGACCGACGACATCGTGTCCGAGCACTATGCCGGCTTCGCCCAGGCGCATGATCTGGATGGCGACGGCCGCGAGGAGATCGTCTACCTCGCCACGGCCTACTGCGTCGGCTCCGGCGCCGATTGCCCCAACGCGCTCCGGGTGCTGACCCGGGTGGTGCCGGGCAAGGGCCGGATCACCCACGGCGACGATCCCTACGAAACCCGTGCGCGTCGTACCGGCTACATGCCGGACGCGGCCTAG	MHTWSVRVWGLCLIAGACPAAGVGAMDGLQPQRIAEQWQQFAPTDDIVSEHYAGFAQAHDLDGDGREEIVYLATAYCVGSGADCPNALRVLTRVVPGKGRITHGDDPYETRARRTGYMPDAA				NA	NA	NA	NA	NA
BMS020_05732	2169	uvrD_1	COG0210	DNA helicase II	TTGCTCGATCACCTGAACCCCGCCCAGCGCGAGGCCGTTTCCGCACCGCCGGGGCACTATCTCGTGCTCGCCGGTGCCGGTTCCGGCAAGACCCGCGTGCTGACCCATCGCATCGCCTGGCTCAACGAAGTCCACGGCGTGCCCACCCACGGCATCTTCGCGGTGACCTTCACCAACAAGGCCGCCGGCGAGATGCGCCACCGCATCGACCTGCAGCTGCGCAACGGCAGCCGCGGCGCGTGGATCGGCACCTTCCACGGCCTGGCGCACCGCCTGCTGCGGCTGCACTGGATGGAGGCCAAGCTGCCCGAAGGCTTCCAGGTGATGGACAGCGACGACCAGCTGCGGCTGGTCAAGCGCGTGGTGCAGGGCCTGGAGCTGGATGACGGCAAGTACCCGCCCAAGCAGCTGGCGTGGTGGATCAACGAGCAGAAGGACGAAGGCCGGCGCCCACAGCACATCCAGCCCGAGCCGCACGACGACTACACCGAGGTCCGGCGCCAGGTCTACGCCGCCTACCAGGAGCGCTGCGACCGCGCCGGCCTGCTCGATTTCGCCGAGCTGCTGCTGCGCGCGCACGAGCTGCTGCGCGACAATCCGGCGCTGCTGGCGCACTACCGTGCGCGTTTCCGCGAGATCCTGGTCGACGAGTTCCAGGACACCAACGCGATCCAGTACGCCTTCGTGCGGGTGCTGGCCGGTGATTCCGGCAACGTGTTCGTGGTCGGCGACGATGACCAGGCGATCTACGGCTGGCGCGGTGCCAAGGTCGAGAACGTGCAGCGCTTCCTGAAGGATTTCGGCGGCGCGCAGGTGATCCGGCTGGAGCAGAACTACCGCTCCAGCGCCAATATCCTCGGCGCCGCCAACGCGGTGATCGCGCACAACCCCGACCGCATCGGCAAGCAGCTGTGGACCGATTCCGGCGACGGCGAGCCGATCGACCTGTACGCGGCCTACAACGAGATCGACGAGGCGCGCTGGGTGGTCGAGCGCGCGCGCCAGTGGGTGCGCGACGGCGGCAGCCATGCCGAGGTCGCGGTGCTGTACCGCTCCAATGCGCAGTCGCGCGCGCTGGAAGAGGCGTTGCTGTCCGAACAGGTGCCGTACCGCGTCTACGGCGGCATGCGCTTCTTCGAGCGCGCCGAGATCAAGGACGCGCTGGCCTACCTGCGGCTGCTGACCAACCGCGACGACGATGCCGCGTTCGAACGCGCGGTCAACACCCCGGCGCGCGGCATCGGTGAGCGCACCCTGGACGAGGTGCGGCGGCTGGCGCGTGCGCAGGCGCTGTCGCTGTGGGACGCGGCGATGGCCTGCACCCAGTCCGGTGAACTGGCCGCACGCGCGCGCAACGCGCTGGCCGGGTTCCTCAGCCTGGTCGGACAGTTGTCGGCCGAGACCGGCGAGATGGACCTGAAGGAGCGCATCGACCACGTGCTGGCGCGCTCGGGCCTGCGCGAGCACTGGGCCAAGGAGAGCCGCAACGGCCTGGATTCGGAATCGCGCACCGAGAACCTGGACGAACTGGTGTCGGTGGCCTCGCGCTTCGTGCGCCCGGAGGACGAGGACAGCCAGGGCATGACCGAGCTGGTCGCGTTCCTGGCCTATGCGGCGCTCGAAGCCGGCGAGGGCCAGGCGCAGGCCGGCGAGGAGGGCGTGCAGCTGATGACGCTGCATTCGGCCAAGGGCCTGGAATTCCCCCTGGTGTTCATGGTCGGGCTGGAGGACGGGCTGTTCCCGAGCGGCCGGTCGCTGGAAGAAAGCGGGCGGCTGGAGGAAGAGCGCCGGCTGGCCTATGTCGGCATCACCCGCGCGCGGCAGAAGCTGGTGCTCAGCTACGCCGAATCGCGCCGGATCCACGGCCAGGACAACTACAACGTGCCCTCGCGCTTCCTGCGCGAGATCCCGCGCGAGCTGCTGCATGAAGTGCGGCCGAAGGTGCAGGTCTCGCGCCCGGCCTCGCTCGGTGCGGCACGCGGGGCGGGGCATGCGGTGGTCGAGGCCGCGCCGATCAAGCTCGGTGCGATGGTCAGCCACCCCAAGTTCGGCGAAGGCGTGGTCACCGACTACGAAGGCAGCGGCGCGCACGCGCGCGTGCAGATCGAGTTCGCCGAGGCCGGCAGCAAGTGGCTGGTGATGGCCTACGCCAACCTCACCCAGCTGTAG	MLDHLNPAQREAVSAPPGHYLVLAGAGSGKTRVLTHRIAWLNEVHGVPTHGIFAVTFTNKAAGEMRHRIDLQLRNGSRGAWIGTFHGLAHRLLRLHWMEAKLPEGFQVMDSDDQLRLVKRVVQGLELDDGKYPPKQLAWWINEQKDEGRRPQHIQPEPHDDYTEVRRQVYAAYQERCDRAGLLDFAELLLRAHELLRDNPALLAHYRARFREILVDEFQDTNAIQYAFVRVLAGDSGNVFVVGDDDQAIYGWRGAKVENVQRFLKDFGGAQVIRLEQNYRSSANILGAANAVIAHNPDRIGKQLWTDSGDGEPIDLYAAYNEIDEARWVVERARQWVRDGGSHAEVAVLYRSNAQSRALEEALLSEQVPYRVYGGMRFFERAEIKDALAYLRLLTNRDDDAAFERAVNTPARGIGERTLDEVRRLARAQALSLWDAAMACTQSGELAARARNALAGFLSLVGQLSAETGEMDLKERIDHVLARSGLREHWAKESRNGLDSESRTENLDELVSVASRFVRPEDEDSQGMTELVAFLAYAALEAGEGQAQAGEEGVQLMTLHSAKGLEFPLVFMVGLEDGLFPSGRSLEESGRLEEERRLAYVGITRARQKLVLSYAESRRIHGQDNYNVPSRFLREIPRELLHEVRPKVQVSRPASLGAARGAGHAVVEAAPIKLGAMVSHPKFGEGVVTDYEGSGAHARVQIEFAEAGSKWLVMAYANLTQL				NA	NA	NA	NA	NA
BMS020_05733	1422			hypothetical protein	ATGAACGAAGCGTTGTCCCCGCAGGAATACGATGTCGCCATCATCGGCGCCGGTGCCGCCGGCGTGCTGGTGGCGATCCAACTGCTGCGCCTGGCGCAGGGCCCGTTGCGGCTGCTGCTGCTCGATCCGCAACCGTGGCTGGCGCAGGGCGTGGCCTATGCGACCACGCGTCCGGAGCACCTGCTGAACGTGCCGGCCGGCAAGATGAGCGGCTTCGCCGATGCGCCGTCGGACTTCGTCGATTACCTGCTGGCGCAGCCGGCGTTCTCCGCCACGACGGCGGCGGACCTTGCCGGCCGCTACGTGCCGCGCCTGCATTACGCCGGTTACCTACGCGAACGCCTGGCCCGGGCCTGCGCCGCGTCGCCGGCGCAGCTGGAACAGCGCTGCACCCGCGTGCTGGCGATGGAGACCGAAGCACGGGGCGCGTGCCTGGCACTGGCCGGCGGCGCCAGCGCGCGTGCCGCCGCGGTGGTGCTGGCGGTCGGCAACGCGCTGCGGCCGTTGCCGTTGCGCGGCGCCACCGGGCTGTCCGCCGAGCACCGCATCGAGGCCTGGGACAGCGCCGCGGTGGCCACGGTGCCCGCCGATGCGACGGTCTGCATCATCGGCTCCGGGCTGAGCATGGCCGACAGCGTGGTCACCCTGGACGCCTGCGGCCATCGCGGACCGGTCCACGTGATTTCCCGGCATGGATTGCAGCCGTTGCCGCATGCCGACGGTGCGCCCTCGCGCTTCGATGCGCAGCGCTTGCTGCCGCTGTCGTTGCGTCGGCGCATGCGGCTGCTGCGCGACGTGGTGCGCGAGGAAGCCGTGCACGGCGTGCCGTGGCAGAGCGTGATGGACCGGCTGCGGCCGCACGTGCAGGCGCTGTGGTGCAGTCTGGATGCGGTCGACCAGCGGCGCTTCCTGCGCCACGTGGTGCGCTATTGGGATGTGCACCGCCATCGCATCGCGCAGCCGGTGTACGCCAGCCTGCAGGCACTGCAGGCCAGCGGCCAGCTGCGCTGGCACCGCGCCCGGCTGGACGCGGCGTTCGCTGCCGGCGCCTGCGTGCGCATCGACGGCCGTGACCGCGCCGGCCGCAGCCTGCAGCTGGATGCGCACCGGGTGATCAACGCCACCGGCGTGGAGATGCGGGTGCAGGCGATGCGCAACCCGCTGCTGCAGCAGCTGCTGGGCAGCGGGCTGGCCCAGCCTGGCCCGCACGGGATCGGTGTGGACACCGATGCCGACGGCTGCCTGCGCGGCGCCGACGGCCGGGCCGACCCGCGCATCCACGTGCTTGGCAGCCTGCGCATCGGCCGCCTGTGGGAGAGCCTGGCGATTCCGGAGCTGCGCGAACAGGCGCGCGATACGGCGGCGCGGCTGTGGGAGGGATTTGAGCGCCGGCAGGCGGTAGAGACGGTGGGTCGGGACTGA	MNEALSPQEYDVAIIGAGAAGVLVAIQLLRLAQGPLRLLLLDPQPWLAQGVAYATTRPEHLLNVPAGKMSGFADAPSDFVDYLLAQPAFSATTAADLAGRYVPRLHYAGYLRERLARACAASPAQLEQRCTRVLAMETEARGACLALAGGASARAAAVVLAVGNALRPLPLRGATGLSAEHRIEAWDSAAVATVPADATVCIIGSGLSMADSVVTLDACGHRGPVHVISRHGLQPLPHADGAPSRFDAQRLLPLSLRRRMRLLRDVVREEAVHGVPWQSVMDRLRPHVQALWCSLDAVDQRRFLRHVVRYWDVHRHRIAQPVYASLQALQASGQLRWHRARLDAAFAAGACVRIDGRDRAGRSLQLDAHRVINATGVEMRVQAMRNPLLQQLLGSGLAQPGPHGIGVDTDADGCLRGADGRADPRIHVLGSLRIGRLWESLAIPELREQARDTAARLWEGFERRQAVETVGRD				NA	NA	NA	NA	NA
BMS020_05734	1419	clsA_3	COG1502	Cardiolipin synthase A	ATGCTGCCCGACTGGATCGAAGGCACCTGGCTGCTGGCGCTGGACTGGCTGATCCGGCTGGCCGCGCTGCTGTGGATTCCTGCCCGCACCACGCCTGGCGCGGCGCGCAGCTGGCTGCTGCTGGTCGGCTTCGTGCCACTGCTCGGGCTGCCGCTGTACCTGCTGTTCGGCCATCCGTGGCTGTCGCGCGAGCGCATCCAGCGCCAGGCGCAGGCCTCGCAGGTGATCCGCGAACAGCAGGCGGCGGTGGCTGCGCTGCGTTGGCCGCCGGCCGAGGGCAGCGTGGCCGCGGAGATGGTGCCGCTGGTCGAGCGTCAGGGCGATTTCATGCCGACCCGCGGCAACCAGGTGCAGCTGCTCGGCGACTACCAGGCCTCGCTGGAGGCGCTGATCGCGGCGATCGACGAGGCGCGCGAGCGTGTGCATCTGCTGTACTACCTGATGTTCGACGATGCGGTCGGCGATGCGGTGGTCGCAGCGCTGCTGCGCGCCGCCGCGCGCGGGGTGCGTTGCCGGGTGCTGCTGGACGCGGTCGGCGCCAAGCGCGGCATCCGCCGCTACCGCAAGGCGCTGGCCGCAGGCGGGGTGACGATGCTGGCAATGCTGCCGGGCGGGCTGCGCTGGCGCCGCAGCGGGCGCATGGACCTGCGCAACCATCGCAAGATCGCGGTGATCGACAACCGCATCGGCTTCGTCGGTTCGCAGAACCTGGCCGCGCCGGCGTTCGTCCCCGGCCACCCCAACCGCGAGCTGGTCGCACGCGTGCAGGGACCGGTGGTCAACCACCTGGAGGCGGTGTTCGCCAGCGACTGGTTCGTCGAGACCGGCGAGCGCCTGCAGGTGCTGCCGGACGCGCCGGTGCATGCCGCCGGCGCAGCGGCGCAGCTGCTGCCGAGCGGCCCGGCCTATCCCTTCGAGAATGCGCGCGACGCGGTCAATGCGCTGATCCACCTGGCGCGGCGCAGGATCGTGCTGGTCACGCCGTACTTTGTGCCCGACGAGGCCACGCTCAGCGCGCTGCGCATCGCTGGCGTGTCCGGCGTGGACGTGCAGCTGATCCTGTCCGAAAGCAACAACCAGCGCCTCACCGCCTGGGCGCAGGAGGCGTACTACGACGAGCTGCTGCGCTGCGGGGTCAAGATCGCGCTGTACCGGCCGCACTTCCTGCATGCCAAGCACCTCAGCGTGGACGACGACGTGGCGCTGGTCGGTTCGATCAACCTCGACATCCGCTCGTTCGCGCTCAACGCCGAGATCGGCATGCTGTGCTACGACGCCGGCGTGGTCGCGCAACTGCGCGAGGTGGAACGCGGCTATCTCGCCGATGCACGCCAGCTCACCCTGGCGCAATGGCGCGCGCGCCCGGCCTGGCGCCGCAGCCGCGAGGGCATCGCGCGGCTGGCCGATGCGTTGATGTAG	MLPDWIEGTWLLALDWLIRLAALLWIPARTTPGAARSWLLLVGFVPLLGLPLYLLFGHPWLSRERIQRQAQASQVIREQQAAVAALRWPPAEGSVAAEMVPLVERQGDFMPTRGNQVQLLGDYQASLEALIAAIDEARERVHLLYYLMFDDAVGDAVVAALLRAAARGVRCRVLLDAVGAKRGIRRYRKALAAGGVTMLAMLPGGLRWRRSGRMDLRNHRKIAVIDNRIGFVGSQNLAAPAFVPGHPNRELVARVQGPVVNHLEAVFASDWFVETGERLQVLPDAPVHAAGAAAQLLPSGPAYPFENARDAVNALIHLARRRIVLVTPYFVPDEATLSALRIAGVSGVDVQLILSESNNQRLTAWAQEAYYDELLRCGVKIALYRPHFLHAKHLSVDDDVALVGSINLDIRSFALNAEIGMLCYDAGVVAQLREVERGYLADARQLTLAQWRARPAWRRSREGIARLADALM	PGPT0007725_3363	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
BMS020_05735	1290			hypothetical protein	ATGTCCATTGGCTTTGGTTATAGTTGTGGTGTGGACATGAAGCCGGAACTGAACCTCAGGCACCTGCATGCGCTGGTGCTCGTGCGCCAGGCCGGCGGCATCAGCGCGGCCGCGCCGCTGGCCAACCTGTCGCAGCCGGCGCTGACCCAGGCGATCGCGCGGCTGGAGGCGCAGCTGGACGTGGTGCTGTTCCAGCGCCAGCCCGGCGGGGTGGTCGCGACCGAGGCGACCGAGCTGCTGGTACCGCGGATCGAACGCGCGCTGGCGCACGTCGCGCGTGGCGTGCGGCTGGCGCGGCGCGCGCAGCGGCTGCCCGGCAACGCCGCGGTCGAACGCCGGGTCACGCTCGGCCAGCTGCGCGCGCTGGATGCGGTCGACAACGCCGGCAGCTACTCGCTGGCGGCCGCGCGCGCGGGCGTGTCGCAACCGGCGATCTACCGCGCGGTGCACGAACTGGCCGCGCTGATCGAAGTGCCGCTGACGGTGCGCCGCGGCAAGACCGTGCAGCCGACCCCGGCCGCGACCCGGCTGCTGCGGCTGGTACGGCTGGCGCTGGCCGAACTCGCCGCCGGGCTCGACGAACTGGCCGCGCTGCGCTCCAAGGACGCCGGCCGGATCACCCTCGGAGTGATGCCGCTGGCGCGCGCGATCCTGCTGCCGCAGGTGTTGGCGCGGTTCGCGCGCGCCCATCCCGGCGCCGCGGTCAACGTGATCGAAGGGCCTTACAGCGAGCTGCTCGGCGACCTGCGCGACGGCCGCCTGGACCTGCTGATCGGCGCGCTGCGCGACCCGTTGCCGGTGCGCGACGTGGTGCAGGAGGGCCTGTTCGACGACGAGCCGGTGATCGTCGGCCGCAGCGGCCACCCGCTGGCTGGCGGCGGCTTCGAGGTCGCGCGGCTGCTGGAGTTTCCGTGGGTGATCGCCGCCACCGGCGCGCCGGTGCGCGCGCGCTGGGAGCGGATGTTCCGCGCGCATGGACTGGAGCCCCCACGGCTGCGGATCGAATGCGGCTCGGTGCTGATCATTCGCGGCCTGCTGCTGGAGGACGACTGGCTGACGCTGATGTCGCGCGACCAGTTCCTGTTCGAACGCCGCGCCGGGATGCTGTGCGAGATTGGTGGTGCCGGCCCGGACGTGCGCAGGCGCATCGGCCTGACCACCCGCGCCGACTGGCACCCGACCCGGCTGCAGTCGGCGTTCGTCGCCACCTTCCGCGCGGTCTGCGGCGAGCGCGACCTGGCCCACGACGACGGCGCCTGGCCGTTCCGCTACGCCGCGCCGGTGCAGTGA	MSIGFGYSCGVDMKPELNLRHLHALVLVRQAGGISAAAPLANLSQPALTQAIARLEAQLDVVLFQRQPGGVVATEATELLVPRIERALAHVARGVRLARRAQRLPGNAAVERRVTLGQLRALDAVDNAGSYSLAAARAGVSQPAIYRAVHELAALIEVPLTVRRGKTVQPTPAATRLLRLVRLALAELAAGLDELAALRSKDAGRITLGVMPLARAILLPQVLARFARAHPGAAVNVIEGPYSELLGDLRDGRLDLLIGALRDPLPVRDVVQEGLFDDEPVIVGRSGHPLAGGGFEVARLLEFPWVIAATGAPVRARWERMFRAHGLEPPRLRIECGSVLIIRGLLLEDDWLTLMSRDQFLFERRAGMLCEIGGAGPDVRRRIGLTTRADWHPTRLQSAFVATFRAVCGERDLAHDDGAWPFRYAAPVQ	PGPT0019915_71	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0019915-galR-K16516	NA	NA
BMS020_05736	672	ligK_2	COG0684	4-carboxy-4-hydroxy-2-oxoadipate aldolase	ATGTCGCGCGTCGTCACCACGTTTGAACGCACCCCGCTGGCCCTGGTGGATGGCCTGGCCGAGGCCGGCGTCGCCACCGTGCACGAGGCCCAGGGCCGCAGCGGCCTGCTGCACCACCGGTTGCGCCCGATCTACGCCGGCGCCCGCATCGCCGGTACCGCGGTCACCGTGTCGGTGCCGCCCGGCGACAACTGGATGATGCACGTGGCGATCGAGCAGCTGCGCGCTGGCGACGTGCTGGTGGTCGCGCCGACCAGCGACTGCTGCGACGGCTACTTCGGCGACCTGCTGGCGACCTCGGCACAGGCCCGCGGTTGCCGCGGGCTGATCATCGACGCCGGCGTGCGCGACGTACGCGACCTGACCCGGATGGGCTTCCCGGTGTGGAGCCGGGCGATCTGCGCGCAGGGGACGGTCAAGGAGACGCTGGGTTCGGTCAATGTGCCGCTGGTCTGTGCCGGCGCACTGGTGCAGCCGGGCGACGTGATCGTCGCCGATGACGATGGCGTCTGCGTGGTGGCGCGCGCCGACGCCACACGCGTGCTCGCCGAGGCGCAGGCACGCGAGGAACGCGAGGCGGCCAAGCGCGAACGCCTTGCGGCCGGCGAACTCGGCCTGGACATCTATGCGATGCGCGAGCGCCTGCAGGCCAAGGGGTTGCGCTATGTCTGA	MSRVVTTFERTPLALVDGLAEAGVATVHEAQGRSGLLHHRLRPIYAGARIAGTAVTVSVPPGDNWMMHVAIEQLRAGDVLVVAPTSDCCDGYFGDLLATSAQARGCRGLIIDAGVRDVRDLTRMGFPVWSRAICAQGTVKETLGSVNVPLVCAGALVQPGDVIVADDDGVCVVARADATRVLAEAQAREEREAAKRERLAAGELGLDIYAMRERLQAKGLRYV	PGPT0002085_898	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0002085-ligK|galC-K10218	NA	NA
BMS020_05737	1056	ligU		(4E)-oxalomesaconate Delta-isomerase	ATGTCTGACGGCGTGCGCGCGATGTGGATGCGTGGCGGCACCTCCAAGGGCGGGTTCTTCCTGGCCGACGAGCTGCCGACCGACGCCGCCGCGCGCGACGCCTTCCTGCTGCGCGCCTACGGCTCGCCGGATGCGCGCCAGATCGACGGCATGGGCGGCGCCGACCCGCTGACCTCCAAGGTCGCGATCGTGGCGCGCTCGACACGCGACGACGCCGATGTCGACTACCTGTTCCTACAGGTGTTCGTCGACCAGGCGCTGGTCAGCGACGGGCAGAACTGCGGCAACATGCTGGCCGGGGTCGGCCCGTTCGCACTCGAGCGCGGCCTGCTGCAGGCCAGCGGCGCGCGCACCGAGGTGCGGATCTTCATGGTCAACACCGGCAAGCTCGCCACCGCCACGGTGGAGACGCCGGGCGGGCAGGTGCGCTACGACGGGCAGGCGCGCATCGACGGCGTGCCCGGCAGCGCCGCGCCGGTGCCACTGGCGTTCGCCGACATCGCCGGTTCCTCGTGCGGCGCGCTGCTGCCGACCGGCAACGCGGTCGACGTGATCGACGGCATCCAGGTGACCTTGATCGACAACGGCATGCCGTGCGTGGTGCTGCGTGCCGACGACCTCGGCATCAGCGGCTACGAGGACCGCGACACGCTCGACGCCAACGACGTGTTGAAAGCGCGGCTTGAGGCGATCCGCCTGCAGGCCGGGCCGTTGATGCAGCTCGGCGACGTCGCAGGGCAGAGCGTGCCGAAGATGATGCTGGTGGCCGCGCCGCGCCACGGCGGCGCGATCAGCGTGCGTTCGTTCATCCCGCACCGCTGCCACGCCTCGGTCGGCGTGCTCGGCGCGGTCAGCGTCGCCACCGCCTGCCTGTTGCCGGCCTCGCCGGCCCACGCGCTGGCGCAGCTGCCGGAAGGGCGGCAGCTGCAGCTCGACGTGGAGCACCCCAGCGGCGCCACCGGTTGCGTGATCGACCGCGACGCCGACGGCACCGTCACCCGCGCCGCGGTGCTGCGCACCGCCAGAAAACTCTTCGACGGGCTGCTGTTCGGCTGA	MSDGVRAMWMRGGTSKGGFFLADELPTDAAARDAFLLRAYGSPDARQIDGMGGADPLTSKVAIVARSTRDDADVDYLFLQVFVDQALVSDGQNCGNMLAGVGPFALERGLLQASGARTEVRIFMVNTGKLATATVETPGGQVRYDGQARIDGVPGSAAPVPLAFADIAGSSCGALLPTGNAVDVIDGIQVTLIDNGMPCVVLRADDLGISGYEDRDTLDANDVLKARLEAIRLQAGPLMQLGDVAGQSVPKMMLVAAPRHGGAISVRSFIPHRCHASVGVLGAVSVATACLLPASPAHALAQLPEGRQLQLDVEHPSGATGCVIDRDADGTVTRAAVLRTARKLFDGLLFG	PGPT0005280_310	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0005280-galD-K16514	NA	NA
BMS020_05738	1314	dctA_3	COG1301	Aerobic C4-dicarboxylate transport protein	ATGACTGTTGTAGGGAAGCGGCCCGGCCGCTTCGGCATCCTTGGCCAGCTGTGGTTCCAGGTGCTGGCCGGCACCGTGCTCGGCATCGTCGTCGGCTGGCTGGCGCCGGACGCCGGCGCGGCGATGAAGCCACTTGGCGACGCGTTCATCAAACTGATCCGGATGATGATCGGGCCGATCATCTTCGTCACCGTGGTGCACGGCATCGCCGGCATGAGCGACATGCGCAGCGTCGGCCGGCTGGCGTTCAAGTCGATCGTCTATTTCGAGGTGATCACCATCCTGGCGCTGGTGGTCGGCCTGATCGGCGTCGACCTGTGGCAGCCCGGCGCTGGCATGAACATCGACCCGAGCACCATCGATACCGCGTCGATCCAGGGCTATGTGCACACCGCGCACGACCAGACGGTCACCGCGTACATCATGAACATCATTCCCAACACGCTGGTCAGCGCGTTCACCGAGGCGCACGTGCTGCAGGTGCTGTTCGTGTCGGTGCTGTTCGGGGTGGCGCTGGCCGCCTGCGGCGAACGCGGCGCGCCGGTGATGCGGGTGATCGAGGGCACTTCGGCGGCGCTGTTCCGGATCATCGGCTACGTGATGTACTTCGCGCCGATCGGTGCGTTCGGCGCGATCGCCTTCACCGTCGGCAAGTTCGGCGCCGGCTCGCTGGCGTCGCTGGGCGAGCTGATCCTGGAGTTCTTCGTGGTCTGCGCGGTGTTCACCGCGGTGGTGTTCGGCGTGGTCTGCCGCTGGTGCGGGGTCAGCCTGTGGCGCCTGCTCGGCTACATCCGCGACGAGATCGTCGTGGTCGCCGCCACCACCTCGACCGAGACCGTGCTGCCGCGGCTGATCGAGAAGATGAAGAAGGTCGGCTGCGAGGAAAGCGTGGTCGGCTTCGTGATCCCGGCCGGCTACTCGTTCAACCTCGATGGCACCTGCCTGTACCTGACCACGGTCGCGGTGTTCCTGGCCCAGGCCACCAACACCGACCTGACGTTCTGGCACGAACTCGGCCTGATCGCGGTGCTGCTGCTGACCTCGAAGGGTGCGGCCGGCGTCGCCGGCGCGGCGTTCGTGGTGCTGGCGGCGACGCTGGCCACCACCGGCACCATTCCGGTGGCGAGCATCGCGCTGATCCTCGGCATCCACCGCATCCTCGCCGAAGGCCTGACCTTCGTGAACCTGGTCGGCAACGCGGTCGCCACGATCGTCATCGCCAAGTGGGAAGGCAAGCTCGACGAGACCTTGCTGGCCGAGACCATCGGCAACCGCAGCCTGCGCCAGCGCCGCCTCGGCGCACAGCAGGCCTGA	MTVVGKRPGRFGILGQLWFQVLAGTVLGIVVGWLAPDAGAAMKPLGDAFIKLIRMMIGPIIFVTVVHGIAGMSDMRSVGRLAFKSIVYFEVITILALVVGLIGVDLWQPGAGMNIDPSTIDTASIQGYVHTAHDQTVTAYIMNIIPNTLVSAFTEAHVLQVLFVSVLFGVALAACGERGAPVMRVIEGTSAALFRIIGYVMYFAPIGAFGAIAFTVGKFGAGSLASLGELILEFFVVCAVFTAVVFGVVCRWCGVSLWRLLGYIRDEIVVVAATTSTETVLPRLIEKMKKVGCEESVVGFVIPAGYSFNLDGTCLYLTTVAVFLAQATNTDLTFWHELGLIAVLLLTSKGAAGVAGAAFVVLAATLATTGTIPVASIALILGIHRILAEGLTFVNLVGNAVATIVIAKWEGKLDETLLAETIGNRSLRQRRLGAQQA	PGPT0001450_1599	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0001450-dctA-K11103	NA	NA
BMS020_05739	1317	oprB_3	COG3659	Porin B	GTGTCCCGTATCACCCGTTCCACCCTGGGCCTGCTGCTGGGAGGGCTTGCCACCGGCGTCATCACGCCGGCGGCAGCACAGCAGCCAGGTGCAGCGAGCGCATCCAGCAGCAAGGTTCCCGATGGCATCGACCTGACGCTCGACTTCGTCGGCAACGTCGCCTCCAACCCGATCGGCGGCAACGAACAGGGCACCGAAGGTTCGTACTGGTGGATGGCTGAATCCAAATTCGACCTGGACAAGCTGTTCGGCCTGCACGGCACCGAAGTCGACGTACAGGGCGCCTGGTTCGCCGGGCGCAACCTAGCGCGCGAGAAGATCGGCAGCTCGATCAGCGCGCAGCAGACCTGGCGCCCGGTCGCCGGCGGCCGCCTGACCCGCTTCACGATCAAGCACCGCTTCGACAACGGCCTGAGCATCACCGCCGGGCGCACCGCGCTGAACAGCTACTTCAACAGCTCATCGCTCAACTGCGTGTTCATGAGCAACGCGATGTGCCTGACGCCGTACGGTGCGATCACCGACATCGGCATCACCGCCTACCCGAACTCGTCGTGGGCCGGCATCGTGCGCTTCGACGCCAAGTCGCACTGGTACGTGCAGGCCGGTGTGTTCGACTACAACAACGATCTGAACAAGGCCGGCAAGAACGGCCTGGACTTCTCCTGGAACAACGGCAGCGGCACGCTCAGTGCCGGCGAAGTCGGCTACCAGACCACCTTCGCCAACGACCGCCTGCCGCGCGCCTACCGGCTTGGCGTCTACCGCAACACCGATGGCGGCAGCAATCCGTTCTACGACGTCAACGGCAACTCCGCCGGGCTGACTGGCAAGAGCCTGGCCAAGCAGGACGGCGACCGCGTCGGCTGGTACGCGATGGGCGACCAGACCGTGTGGCGCGGCGACGGCAAGCGCAACCTGGCGCTGTTCGGGCGCTACTACATCAACACCGGCAACCCGGCAGCGGTGAAGTACTTCGCCGCGCTCGGCGCGGTCAAGACCGGCACCTTCGCCAGGCGCGACCAGGACACGCTGGCACTCTTCGTCTCCGATACCCACTTCGATCCGCTGGAGATGGCCTACCTGCGCGACCGCCGCGCCCGCTACGGCGGCAGCGGCACGCCACACAACGACGAGATCATCGCCGAGCTGAGTTATGGCTGGGCGGTGCATCGCGGCGTGCGGCTGATGCCGAACCTGCAGTACGTCATCAATCCCGATCCGATCTACGCACCCAAGCGCATCACCGACATTCCCGACACGCTGATCGTCGGCCTGCGCGTGGACGTGCACTTCGCCGACCTGTTCGGTTGGTGA	MSRITRSTLGLLLGGLATGVITPAAAQQPGAASASSSKVPDGIDLTLDFVGNVASNPIGGNEQGTEGSYWWMAESKFDLDKLFGLHGTEVDVQGAWFAGRNLAREKIGSSISAQQTWRPVAGGRLTRFTIKHRFDNGLSITAGRTALNSYFNSSSLNCVFMSNAMCLTPYGAITDIGITAYPNSSWAGIVRFDAKSHWYVQAGVFDYNNDLNKAGKNGLDFSWNNGSGTLSAGEVGYQTTFANDRLPRAYRLGVYRNTDGGSNPFYDVNGNSAGLTGKSLAKQDGDRVGWYAMGDQTVWRGDGKRNLALFGRYYINTGNPAAVKYFAALGAVKTGTFARRDQDTLALFVSDTHFDPLEMAYLRDRRARYGGSGTPHNDEIIAELSYGWAVHRGVRLMPNLQYVINPDPIYAPKRITDIPDTLIVGLRVDVHFADLFGW				NA	NA	NA	NA	NA
BMS020_05740	1023	ligJ		2-keto-4-carboxy-3-hexenedioate hydratase	ATGATCATCGACTGCCACGGCCACTACACCACCGCACCGGCCGGCCACGACGCCTTCCGCAAGGCGCAGGTCGCGCACTTCAACGACCCGTCGCTGCCTGCACCGGTCTACCCGGCCATCTCCGACGACGAACTACGCGACAGCGTCGAACAGAACCAGCTGCGCCTGCTGCGCGAGCGCGGCGCCGACATGACGATCTTCTCGCCGCGCGCCAGCACCATGGCCCACCACGTCGGCGATGAGGCAGTCAGCCAGGCATGGACACGCCGCTGCAACGACCTGATCGCGCGCGTGGTGCAGCTGTATCCGGACACCTTCATCGGCGTGTGCCAGCTGCCGCAGTCGCCGGGCGTGCCGATCGCCCGTTCGATCGCCGAGCTGGAGCGCTGCGTCAACCAACTCGGCTTCGTCGGCTGCAACCTCAACCCGGACCCGTCCGGTGGCCACTGGGCCGGCGTGCCGCTGACCGACAAGGCCTGGTACCCGTTCTTCGAGAAGATGGTCGAGCTCGACGTGCCGGCGATGGTGCACGTGTCCGGCAGCTGCAACCACAACTTCCACGCCACCGGCGCGCACTACCTCAACGCCGACACCACCGCCTTCATGCAGTTTCTGCAGGGCGACCTGTTCAAGGACTTCCCCGAGCTGCGCTTCATCATCCCGCACGGCGGCGGTGCGGTGCCGTACCACTGGGGGCGCTTCCGCGGCCTGGCCGACATGCTCGGCAAGCCGCCGCTGGCCGAGCACGTGATGAAGAACGTGTTCTTCGATACCTGCGTCTATCATCAGCCCGGCATCGACCTGCTGTTCGAGGTGATCGACATCGACAACATCCTGTTCGGCTCGGAGATGGTCGGCGCGGTACGCGGCATCGACCCGCAGACCGGCCACTACTTCGACGACACCAAGCGCTACATCGACGCGCTGGCGATCTCCGACGCTGACAAGGCCAAAGTGTTCTCCGGCAACGCCCGCCGCGTCTACCCGCGGCTGGATGCGCAGCTGAAAACGAGGGGACTGTGA	MIIDCHGHYTTAPAGHDAFRKAQVAHFNDPSLPAPVYPAISDDELRDSVEQNQLRLLRERGADMTIFSPRASTMAHHVGDEAVSQAWTRRCNDLIARVVQLYPDTFIGVCQLPQSPGVPIARSIAELERCVNQLGFVGCNLNPDPSGGHWAGVPLTDKAWYPFFEKMVELDVPAMVHVSGSCNHNFHATGAHYLNADTTAFMQFLQGDLFKDFPELRFIIPHGGGAVPYHWGRFRGLADMLGKPPLAEHVMKNVFFDTCVYHQPGIDLLFEVIDIDNILFGSEMVGAVRGIDPQTGHYFDDTKRYIDALAISDADKAKVFSGNARRVYPRLDAQLKTRGL	PGPT0005260_255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0005260-ligJ-K10220	NA	NA
BMS020_05741	891	pmdD	COG3618	2-pyrone-4,6-dicarbaxylate hydrolase	ATGGCGGCGTTCCAGAAGGATGCGGACTGGCTGGATTTCCACCCCGACCCGAGCAAGCCGCGGTTCGTGCTGCCGGACGGCGCGGTCGACGCGCATTGCCATGTGTTCGGCCCGGGCGATGCATTCCCGTACGCACCGGAGCGCAAGTACACCCCGTGCGATGCCGGCAAGGACCAGCTGTTCGCGCTGCGCGACTTCCTTGGCTTCGAGCGCAACGTGATCGTGCAGGCGACCTGCCACGGCGCCGACAACCGCGCGCTGGTCGATGCGCTGTGTGCCGCCGGCGAACGCGCACGCGGCATCGCCACGGTGCGCGACACGGTGACCGATGCCGAACTGCAGGCGCTGCACGCCGCCGGCGTGCGCGGCGTGCGCTTCAACTTCGTGCGCCGGCTGGTCGACCCCAAACCGGATGCGTACTACCACGCGATCATCGCGCGCATCGCCCCGCTCGGCTGGCAGGTGGTGATCTATTTCGAGGCCGCCGACCTGGAAGAGCGCTGGGATTTCTTCACCTCGCTGCCGACCACCGTGGTGGTCGACCACATGGGTCGCCCCGACGTCACCCAGCCGATGGATGGCCCCGAGTTCCAGCGCTTCGTGCGACTGATGGCCGAGCACGAGAACGTCTGGAGCAAGGTCAGCTGCCCCGAGCGGCTGTCGAAGACCGGCCCGGACGGTTACGACGACGTGGTGCCGTTCGCCAGGTACCTGGTCGAGCGCTTCCCCGACCGCGTGCTGTGGGGCACCGACTGGCCGCACCCGAACATGAAGGGCCACATGCCCGACGACGGCAAGCTGGTCGACTTCATCCCGAAGATCGCGGTCAGCGCCGACCTGCAGCGCAAGCTGCTGGTGGACAACCCGATGCGGCTGTACTGGGGCGAGTGA	MAAFQKDADWLDFHPDPSKPRFVLPDGAVDAHCHVFGPGDAFPYAPERKYTPCDAGKDQLFALRDFLGFERNVIVQATCHGADNRALVDALCAAGERARGIATVRDTVTDAELQALHAAGVRGVRFNFVRRLVDPKPDAYYHAIIARIAPLGWQVVIYFEAADLEERWDFFTSLPTTVVVDHMGRPDVTQPMDGPEFQRFVRLMAEHENVWSKVSCPERLSKTGPDGYDDVVPFARYLVERFPDRVLWGTDWPHPNMKGHMPDDGKLVDFIPKIAVSADLQRKLLVDNPMRLYWGE	PGPT0005265_216	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_AMINOBENZOATE_UTILIZATION,PGPT0005265-ligI-K10221	NA	NA
BMS020_05742	165	rpmG_2	COG0267	50S ribosomal protein L33	ATGGCAGGCAAGCGCGACAAGATCCGTCTGATTTCCTCGGCCGGTACCGGCCACTTCTACACGACGGACAAGAACAAGAAGAACACCCCCGGGAAGATGGAATTCCTGAAGTACGATCCGGTCGTGCGCAAGCACGTCCTGTACAAGGAAGGCAAGATCAAGTAA	MAGKRDKIRLISSAGTGHFYTTDKNKKNTPGKMEFLKYDPVVRKHVLYKEGKIK				NA	NA	NA	NA	NA
BMS020_05743	237	rpmB_2	COG0227	50S ribosomal protein L28	ATGTCCCGCGTATGCCAAGTTTCCGGCAAGCGAGTGCAGACGGGTAACAACGTCTCGCACGCCAACAACAAGACCCGCCGTCGTTTCCTGCCCAACCTGCACGAGCGCCGCTTCTGGGTCGCCAGCGAGAACCGCTGGGTCAAGCTGAAGGTTTCCGCGCATGCACTGCGCACCATCGACAAGAACGGCATCGATTCCGTTCTGGCTGAGCTGCGTGCGCGCGGCGAAAAGGTCTGA	MSRVCQVSGKRVQTGNNVSHANNKTRRRFLPNLHERRFWVASENRWVKLKVSAHALRTIDKNGIDSVLAELRARGEKV				NA	NA	NA	NA	NA
BMS020_05744	3168	czcA		Cobalt-zinc-cadmium resistance protein CzcA	ATGCTTGAACGCCTGATCCGCATCGCCATCGCCCAGCGCTGGCTGGTGCTGGCCCTCACCGTCGCGCTGGTGCTGGTCGGCCTCTGGAGCTTCCGCCAGCTGCCCATCGATGCCACCCCCGACATCACCAACGTGCAGGTGCAGATCAACACCGCCGCGCCGGGCTATTCGCCGCTGGAGAGCGAGCAGCGCATCACCTACGCGGTGGAGACCGCGATGGCCGGCCTGCCGCGGCTGCAGCAGGTGCGCTCGCTGTCGCGCTACGGGCTGTCGCAGGTGACGGTGGCGTTCGAGGACGGCACCGACCTGTATTTCGCCCGCCAGCAGGTGGCCGAACGGCTGGCGCAGGTGCGCTCGCAGCTGCCGGCCGGACTCGACCCGCAGCTGGGGCCGATCGCCACCGGCCTCGGCGAGATCTTCATGTACACCGTCGATGCCGATCCGCAGGCGCGCAAGCCCGATGGCAGCGCCTACACCGCCACCGACCTGCGCACGCTGCAGGACTGGGTGATCCGGCCGCAGCTGCGCGGCGTGCCGGGGGTGACCGAGGTCAGTGCGATCGGCGGCTACCAGCGCCAGGTCCACATCACCCCGGATCCGGCCCGGCTGCGCGCGCTCGGCTTCACTCTCGAGGACGTTGCCGCCGCGGTCGAGGCCAACAACCAGAACCTCGGCGCCGGCTACATCGAGCGCAACGGCCAGCAGTTCCTGGTGCGCATCCCTGGCCAGGTCGCCGACCTGGCCCAGCTTGGCGACATCGTGCTCGACCGCCGCGAAGGCGTGCCGATCCACGTCCACGACGTGGCGACGGTGGCCGACGGCCCGGAGCTGCGCAGCGGGGCGGCCACCCGCAACGGCCACGAAGTGGTGATGGGCACGGTGATGATGCTGGTCGGCGCCAACAGCCGCGAGGTCGCGCAGGCGGTGGCCGCCAAGCTGCAGCAGGCCCAGGCCAGCCTGCCAGCGGGGGTGACCGTCAGTGCCAGCTACGACCGCACCGCGCTGGTCGACCGCACCATCCAGACCGTGGCCAAGAATCTGCTCGAAGGCGCGCTGCTGGTGATCGTGGTGCTGTTCGCGCTGCTGGGCAACGTGCGTGCGGCGTTGATCACCGCGGCGGTGATCCCGCTGGCGATGCTGTTCACCCTGACCGGCATGGCGCACGGCGGCGTCTCGGCCAACCTGATGAGCCTGGGCGCGCTGGACTTCGGCCTGATCGTCGACGGCGCGGTGATCATCATCGAAAACTGCCTGCGCCGCTTCGGCGAACGCCAGCACGTGCTGGGCCGCGCGCTGAGCGCCGCCGAACGCTTTGCCGAGACCGCCAGCGCCACCGCCGAGGTGATCCGTCCCAGCCTGTTCGGGCTGGGCATCATCAGCGCGGTGTACCTGCCGATCTTCGCGCTCACCGGCGTGGAAGGAAAAATGTTCCACCCGATGGCGATCACCGTGGTGCTGGCATTGAGCGGGGCGATGCTGCTGTGCCTGAGCTTCGTGCCGGCGACGATCGCGCTGTTCCTCGGCGGCCGGGTGCGCGAGCACGAGAACCCGGTGATGGCCTGGCTGCGCCGGCGCTACCAACCGCTGCTGGCGGCGACGCTGCGGCATGGGCGCTGGGTTGCCGGCGGTGCGCTGGTGCTGGTGCTGGGCTGCGGCGCGCTTGCCACCCGCCTGGGCAGCGAGTTCGTGCCCAGCCTGGACGAGGGCGACGTGGCGATGCATGCGATGCGCATCCCCGGCACCGGGCTGGCGCAGTCGGTGCGGATGCAGCTGCAGATCGAGCGGCGGCTGCTGCAGGTGCCGGAGGTGGCCACGGTGTTCTCCAAGATCGGCACCGCCGAAGTAGCCTCCGATCCGATGCCGCCGTCGGTCGCCGACACCTTCATCATGATGAAACCGCGCCAGGCCTGGCCAGACCCGCGCAAGCCGCGCGCGACGCTGCTGGCCGAACTCGAAGCGGCCGTCGCGCCGCTGCCCGGCAACAACTACGAGTTCACCCAGCCGATCCAGATGCGCATGAACGAGCTGATCGCCGGCGTGCGCGCCGACGTCGCGGTGATGCTCTATGGCGACGACCTGGGCACGCTGCGCAGCGTCGGCCAGCGGCTGGTACAGGTGGTCGCGGCGGTGCCCGGTGCGGCCGACGTGCGGCTGGAGGAGACCAGCGGATTGCCGCTGTTGAGCATCGTGCCCGACCGCACCCGGCTGGCCGGCTACGGGCTCAACCCGGGCCAGCTGCAGGCCACCGTGGCCACCGCGGTCGGCGGCCAGGTGGCGGGGCAGCTGTTCGATGGCGACCGCCGCTTCGACATCGTCGTGCGCCTGCCCGAAGCGCTGCGCCAGGATCCGGCGGCGCTGGCCGACCTGCCGGTGTCGCTGGAGCCGGCGCTGGCCGGCGGCAATGCCGACGAACTCAGTCGCGGCCAGGCCGCCGCCAGCGGCGCGCCGCGCACCGTGCCGCTGCGCGAGCTCGCCACGCTGCAGATCAGCGAGGGGCCGAACCAGATCAACCGCGACAACGGCAAGCGCCGCATCGTGGTCACCGCCAACGTGCGCGGACGCGACCTCGGTGGCTTCGTCGCGCAGCTGCAGCGCGAGGTGCAAGGTCGCGTGGCGTTACCGGCCGGCTACTGGGTCGGCTACGGCGGCAGCTTCGAACAGCTGATCTCGGCCAGCCAGCGGCTGGCGGTGGTGGTGCCGGCGACCCTGCTGCTGATCTTCGTGCTGCTGTACTGGGCGTTCGGCTCCGCGCGCGACGCGGCGGTGGTGTTCAGTGGCGTGCCGCTGGCGCTGACCGGCGGGGTGCTGGCCTTGGCGCTGCGCGGATTGCCGCTGTCGATCTCGGCCGGCGTGGGCTTCATCGCGCTGTCGGGCGTGGCGGTGCTCAACGGGCTGGTGATGATCAGCTTCGTGCGCCAGCTACGCGCGGACGGGCGCTCGCTGGCCGATGCCGTGCGCGAGGGTGCGCTGGGACGCCTGCGGCCGGTGCTGATGACCGCGCTGGTGGCTTCGCTGGGCTTCGTGCCGATGGCGTTCAACGTCGGTGCCGGCGCCGAGGTGCAGCGCCCGCTGGCGACGGTGGTGATCGGCGGCATCGTCTCCTCGACGCTGCTGACCCTGCTGGTGCTGCCGGTGCTGTACCGCTGGGCGCATCGGCGCGGGGGCTGA	MLERLIRIAIAQRWLVLALTVALVLVGLWSFRQLPIDATPDITNVQVQINTAAPGYSPLESEQRITYAVETAMAGLPRLQQVRSLSRYGLSQVTVAFEDGTDLYFARQQVAERLAQVRSQLPAGLDPQLGPIATGLGEIFMYTVDADPQARKPDGSAYTATDLRTLQDWVIRPQLRGVPGVTEVSAIGGYQRQVHITPDPARLRALGFTLEDVAAAVEANNQNLGAGYIERNGQQFLVRIPGQVADLAQLGDIVLDRREGVPIHVHDVATVADGPELRSGAATRNGHEVVMGTVMMLVGANSREVAQAVAAKLQQAQASLPAGVTVSASYDRTALVDRTIQTVAKNLLEGALLVIVVLFALLGNVRAALITAAVIPLAMLFTLTGMAHGGVSANLMSLGALDFGLIVDGAVIIIENCLRRFGERQHVLGRALSAAERFAETASATAEVIRPSLFGLGIISAVYLPIFALTGVEGKMFHPMAITVVLALSGAMLLCLSFVPATIALFLGGRVREHENPVMAWLRRRYQPLLAATLRHGRWVAGGALVLVLGCGALATRLGSEFVPSLDEGDVAMHAMRIPGTGLAQSVRMQLQIERRLLQVPEVATVFSKIGTAEVASDPMPPSVADTFIMMKPRQAWPDPRKPRATLLAELEAAVAPLPGNNYEFTQPIQMRMNELIAGVRADVAVMLYGDDLGTLRSVGQRLVQVVAAVPGAADVRLEETSGLPLLSIVPDRTRLAGYGLNPGQLQATVATAVGGQVAGQLFDGDRRFDIVVRLPEALRQDPAALADLPVSLEPALAGGNADELSRGQAAASGAPRTVPLRELATLQISEGPNQINRDNGKRRIVVTANVRGRDLGGFVAQLQREVQGRVALPAGYWVGYGGSFEQLISASQRLAVVVPATLLLIFVLLYWAFGSARDAAVVFSGVPLALTGGVLALALRGLPLSISAGVGFIALSGVAVLNGLVMISFVRQLRADGRSLADAVREGALGRLRPVLMTALVASLGFVPMAFNVGAGAEVQRPLATVVIGGIVSSTLLTLLVLPVLYRWAHRRGG	PGPT0004965_830	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-CUS_TRANSPORT_SYSTEM,PGPT0004965-czcA|cusA|cnrA-K15726	NA	NA
BMS020_05745	1020	mdtA_5		Multidrug resistance protein MdtA	ATGACGGCATTTCACTGTTTGATCCGTGTATGCGCGCTTGCCGCGCTGATGAGCATGCTGGCCGCCTGCGGCGAGCGTGATGTCGCGTCCGCGAAGGACGCCCACGCGCATGACGACGTGCCGCGCAAGGCTGCAGGCAGCGCGTCCACCGCCTCCGCGCATGGCGCTGGCGACCACGCCGATGACGCCGATGACGCAGGTCCCGCGCACACCACCATCGCCGCCGCGCAGGCGCGCGATGCCGGCATCGTCAGCGCCGCGGTCGGTCCCGGCACGATCGCCGATGAGCACGACGTGCAGGGCCTGCTGGCGATGGTCGACGGCCGCAGCGCGCAGGTCACCGCGCGCTTTCCCGGCCCGGTACGTGCGCTGCGCGCCAATGTCGGCGACCGCGTGCGCGCCGGCCAGGCGCTGGTCAGCATCGAGAGCAACCTCAGCCTGACCACCTATACGGTGGCCGCACCGATCGCCGGCGTGGTGCTGGCACGGCAGGTGCAGCTCGGTGCGGTCGCCGGCGAAGGCCAGGTGTTGTTCGAGATCGGCGACCTGTCGCAGCTGTGGGTCGACCTGCACATCTTCGGCCGCGACACCCAGCACATCACCGCGGGCGTGCCGGTCACCGTGACCCGCATGACCGATGGCGTCAGCCAGGTCACTACGCTGGAGCGGGTGCTGCCCGGCACCGCCACCGCCAGCCAGAGCACGGTGGCGCGCGCATTGGTCGACAACCGCGACGGACTGTGGCGGCCAGGTGCGGCGGTGGCCGCGCGCATCGTGGTCGCCAGCACGCCGGCGACGCTGGTGGTGCCGCTGAGTGCGCTGCAGACGCTGGACGGGCGCGAGGTGGTGTTCGTGCGCGAAGGTGACACCTACAGCGCACGCGCGGTCACGCTCGGTGCGCGCGACGCGCGCCAGGTGGCGGTGAGCGCCGGCCTGCGCGCCGGCGAGCAGGTGGTGGTCGAGCAGAGCTACACGGTGAAGGCCGATATCGGCAAGGCGGAGGCCGCGCATGAGCACTGA	MTAFHCLIRVCALAALMSMLAACGERDVASAKDAHAHDDVPRKAAGSASTASAHGAGDHADDADDAGPAHTTIAAAQARDAGIVSAAVGPGTIADEHDVQGLLAMVDGRSAQVTARFPGPVRALRANVGDRVRAGQALVSIESNLSLTTYTVAAPIAGVVLARQVQLGAVAGEGQVLFEIGDLSQLWVDLHIFGRDTQHITAGVPVTVTRMTDGVSQVTTLERVLPGTATASQSTVARALVDNRDGLWRPGAAVAARIVVASTPATLVVPLSALQTLDGREVVFVREGDTYSARAVTLGARDARQVAVSAGLRAGEQVVVEQSYTVKADIGKAEAAHEH	PGPT0004970_2664	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-CUS_TRANSPORT_SYSTEM,PGPT0004970-czcB|cusB|cnrB-K15727	NA	NA
BMS020_05746	1269			hypothetical protein	ATGTGGTTGCGACTGGCGGCGTTGGCCGCCCTCGTGGTCGTGCCTGCGCTGCGCGCGCAGGAGCGTCCACCTTCTTCCTTGACCCTGGACCAGGCGATCGCGCGCGTGGCCCGAGCCCATCCCGAGCTGCGCCTGGTCGATGGCCGCCAAGCGGTGCTGCGCGCGCAGCAGGACGTCGCCGCGCTGCGGCCGCCGCTGACGCTCGGCGCCACGCTGGAGAACGCCGCCGGCAGCGGTGACTACCGTGGTTTCGACCAGGCCGAACTGAGCGTCAGCCTGGCTGGTGTGCTGGAGCGCGGCGGCAAGCTCGACGCGCGCCGCGCGCTGGCCCAGGCCAACCTCGACGCGTTGGCGCCGCAGCGCGAGATCGCCCGCCTCGACCTGCTGGCCGAGACCGCGCGCCGCTACCTGGCGATCACCGTGGCGCAGGCGCAGGCCGCGATCGCGCTGGACGACATCGCCCAGCGCCAGCGTGCGGTCGTGGCCGCGCGCCAACGCCTGCAGGCTGGCGCTTCGCCGGCCTCGACGCTGCTGACCGCGCAGGCCGCGCAGGCCCAGGCCGAGCTCGATCGCGACCGCGCCGAGCAGGCCGGGCGCGGCGCGGCGCTGGCGCTGGCGGCGTTGTGGGGCGCGCGCGAGGCCGATGCCGGCGCGGCCAGCGGTGATCCACTGCGGCTGCCGCCGTTGCAGGACGTGCAGGCGCTGGCGCAGCTGCTGGAGCGGACTCCGGAGTTGGCGCAGATCGCCGGTGAGACGCGGGTGCGCGAGGCGCAGCTGCAGCTGGCGCGCAGCGCGCAGCGCAGCGACCTGTCCTGGCAGCTCGGCGTGCGTCAGTTGCGCGCCAGCGACGACACGGCGTTGCTCGCCGGCCTCAGCCTGCCGCTCGCTGCCGGCCGGCGCGCCGCGCCGGAGATCCGCGCCGCCCAGGCCGAGCTGGCGCTCGCGCCGGTGGAGCGCGAAGCGCGTGCGCTGCAGCTGTATTCGACCCTGGTCGATGCGCATGGCCGTTACGTCACCGCGCGGCTGGAAGTGCAGCGCATGGGGCGCGACGTGCTACCGCAGCTGCGCCAGGCCGAGGCGGCTGCCGAGACCGCCTGGCGCGCCGGCGCGATCAGCTACCTGGAATGGGCGCAGCTGCAGGCGATGCGCATCGAGGCGCGGCAACGCCAGCTCGATGCGGCGCTGGCCGCGCAGACCGCGCTGATCGAACTGCAACGCTTGACCGGCCAGCCGTTGCTGGCCAACCCGACCGAAGGAACATCGCCATGA	MWLRLAALAALVVVPALRAQERPPSSLTLDQAIARVARAHPELRLVDGRQAVLRAQQDVAALRPPLTLGATLENAAGSGDYRGFDQAELSVSLAGVLERGGKLDARRALAQANLDALAPQREIARLDLLAETARRYLAITVAQAQAAIALDDIAQRQRAVVAARQRLQAGASPASTLLTAQAAQAQAELDRDRAEQAGRGAALALAALWGAREADAGAASGDPLRLPPLQDVQALAQLLERTPELAQIAGETRVREAQLQLARSAQRSDLSWQLGVRQLRASDDTALLAGLSLPLAAGRRAAPEIRAAQAELALAPVEREARALQLYSTLVDAHGRYVTARLEVQRMGRDVLPQLRQAEAAAETAWRAGAISYLEWAQLQAMRIEARQRQLDAALAAQTALIELQRLTGQPLLANPTEGTSP	PGPT0004975_1516	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-CUS_TRANSPORT_SYSTEM,PGPT0004975-czcC|cusC|cnrC-K15725	NA	NA
BMS020_05747	375			hypothetical protein	ATGTCCACCGTGTCCCGCCACCTGCTCCGCGTGCTGCGCCTTCCGGCGCTGGCGCTGCTGTTGCTGGCGGTGCTGGTCAATCCGGTGCTGGCCGCGGTCGGCGACCTGCACGACGCGGTGCGCGGCGACGTCGCGCACCTGCATGCCGACGAGGTCCCGGCCGCGCAGGCCGAAGCGGGCAACAGCGCGGCCGGCGTCGACCTGCTGCACGCACTCACCGATGGCGCGCACTGCTGCGGCCATCTGACCGCGTTGCCGTCGAGTCATGCGATGCCGGCCTTGTTGCAGATGCCGGCTGCGGTGCCGGTGGCAATCATGGTGCTGGCGCCGTCGGTGCCGGCCGCCAGCCTGATCCGTCCTCCGATCGCGGGTTGA	MSTVSRHLLRVLRLPALALLLLAVLVNPVLAAVGDLHDAVRGDVAHLHADEVPAAQAEAGNSAAGVDLLHALTDGAHCCGHLTALPSSHAMPALLQMPAAVPVAIMVLAPSVPAASLIRPPIAG				NA	NA	NA	NA	NA
BMS020_05748	1812			hypothetical protein	ATGAAATCACCGCTTGCCGCCGCCCTGTCCCTGGCCCTGCTGTCCGCCGTGCCGCTGGGCGCCGCCATCGCCGCGCCGCCGTCGGCCGCGACCGCCGCCACGCCGGCTGAAAGTGCCGCCGATGCGCGCTTCAAGGCGATCTACGCCAAGGAATGGGCCTGGCGCCAGGCGCAGACCGGCGCCGCCGACGAGGACACCGATACCACCGGCGACAACACCCATCTGCCCGATGTCGGGCCGGCCGCGCAGCAGGCCCACCTCAAGGTCTGGGACGACGTGCTCAAGCAGCTCGACGCGCTCGACGTGAAGCAGCTCTCGGCCGACAACCAGGTCAATTACGCGATCTACCGCCCGCAGGTCGAGAACCTCGCCGCCGAGGTGCGCTTCAAGGCCTACGAGATGCCGTTCAACTCGGACAGCTCGTTCTGGTCGAACCTGGGTTTCATGGCGCAGCGGCAGATGCACACGCCGGCCGAGTACCGCGCCTACATCGCCCGCCTCAACGACGTGCCGCGCTATTTCGCGCAGAACATCGACAACATGCGCGCCGGGCTGAAGCGCGGCTTCACCGTGCCCAGGGCGGTGCTGGCTGGCCGCGATGTGTCGATCGCCACCGTCGCCGAGGTCGCCGACCCGACCGCCTCGACCTTCTACGCCCCGTTCAAGCAGCTGCCGGCGACGATCCCGGCTGCCGAGCAGGCGCAGCTGCGCGCCGATGCGCAGGCGGCGATCGGCAAGGCGCTGATCCCCGCGTTCGCCAACCTGCTGACGTTCTTCCGCAACGAATACGTGCCGCAGGCGCGCACCACGCTGGCCGCCGAGGCGCTGCCGGACGGCAAGGCGTTCTACCAGCAGCAGATCCGCGAATACACCACGCTCGAGCTGAGCCCGCAGCAGATCCATCAGATCGGCCTGGACGAAGTGGCGCGGATCCAGAAGCAGATGGACGCGATCATCGACCAGGTCGGCTTCAAGGGACGCAGCCCGCAGACCCGCTTCGCCGACTTCCTGCAGTTCCTGCGCACCGATCCGCAGTTCTACGCCAAGACCCCGCAGGAGCTGCTCGACCGCGCTGCGTGGATCTCCAAGCGCGTCGACGGCGAGGTCGGCAAGTTCATCGGCACGCTGCCACGCGGGCGCTTCACGATCAAGCCGGTGCCGGCCGACATCGCGCCGTTCTGGACCGCCGGGCGCGGTGGCGCGACCACCTACTGGGTCAACACCTACAACCTGCCGTCGCGGCCGCTGTACAACCTGCCGGCGCTGACCCTGCACGAGTCCTCGCCGGGCCATTCGCTGCAGGGCTCGCTGGCGCTGGAGCAGGGCGAGCAGCCGGCGTTCCGGCGCGAGAACTACATCTCCGCCTACGGCGAGGGCTGGGCGCTGTACACCGAGAAGCTCGGCGACGAGATGGGCATCTACGAAACCCCGTACGAGGAGTTCGGCAAGCTCACCTACGAGATGTGGCGCGCCTGCCGGCTGGTGATCGACACCGGCGTGCACCACGACGGCTGGAGCCGCGAGCAGGCGCTGGCCTACCTGCGCGACCGCACCGCGCTGAGCGAGCACGAGGTCACCACCGAGGTCGACCGCTACATTTCCTGGCCTGCGCAGGCGCTGAGCTACAAGCTCGGCGAGATCACCATCGTCAAGCTGCGCGCCGAGGCCGAGCAGGAACTGGGCGCGAAGTTCGACATCAAGGCCTTCCACGACGCGGTGCTGAAGCAGGGCTCGGTGCCGCTGCCGGTACTGGAATCGCAGGTGCGCGCCTTCATCGCGCAGAGCAAGGCGGCAACGGCCGCCAAGCGCTGA	MKSPLAAALSLALLSAVPLGAAIAAPPSAATAATPAESAADARFKAIYAKEWAWRQAQTGAADEDTDTTGDNTHLPDVGPAAQQAHLKVWDDVLKQLDALDVKQLSADNQVNYAIYRPQVENLAAEVRFKAYEMPFNSDSSFWSNLGFMAQRQMHTPAEYRAYIARLNDVPRYFAQNIDNMRAGLKRGFTVPRAVLAGRDVSIATVAEVADPTASTFYAPFKQLPATIPAAEQAQLRADAQAAIGKALIPAFANLLTFFRNEYVPQARTTLAAEALPDGKAFYQQQIREYTTLELSPQQIHQIGLDEVARIQKQMDAIIDQVGFKGRSPQTRFADFLQFLRTDPQFYAKTPQELLDRAAWISKRVDGEVGKFIGTLPRGRFTIKPVPADIAPFWTAGRGGATTYWVNTYNLPSRPLYNLPALTLHESSPGHSLQGSLALEQGEQPAFRRENYISAYGEGWALYTEKLGDEMGIYETPYEEFGKLTYEMWRACRLVIDTGVHHDGWSREQALAYLRDRTALSEHEVTTEVDRYISWPAQALSYKLGEITIVKLRAEAEQELGAKFDIKAFHDAVLKQGSVPLPVLESQVRAFIAQSKAATAAKR				NA	NA	NA	NA	NA
BMS020_05749	507			hypothetical protein	ATGCATCTGCTGCGCCATGTTGCCGGCATGCCCGTCCCATCCATCTCTCCTGGCCATCATGCGCTGCGCAAGGGGCGTTGTAGCCAGGCGCAGCAGATCTACCTCCTCACCATGGCGACCTGCGGGCGCGCGCCGATCTTTGCGGACTGGCGCTGCGCCTGGGCTGCCTCCGCGAGTCTTGCGGCTGCCGATAGCTGGCCGTGCGCGGAGCTGCTGTGCTGGGTGCTGATGCCGGACCATTGGCATGGCCTGGTGCGGCTGCGGCCTGGAGCTACCCTGGCGGCGCTGATGCAGCGAGCCAAGGGACGGTCCGCGCGGGCGATCAACCAGGCCCGCGGCCGCGGCGGCCCGGTATGGGCACGTGCGTTCCACGATCACGCCCTGCGGCGCGATGAGGACCTGCTGCGAAGTGCCCGCTATGTGGTGGCAAATCCGCTGCGGGCGGGATTGGTTGAACGCGTCGGCGACTACCCGTACTGGGATGCGATCTGGTTGAGCGCCCCGTAG	MHLLRHVAGMPVPSISPGHHALRKGRCSQAQQIYLLTMATCGRAPIFADWRCAWAASASLAAADSWPCAELLCWVLMPDHWHGLVRLRPGATLAALMQRAKGRSARAINQARGRGGPVWARAFHDHALRRDEDLLRSARYVVANPLRAGLVERVGDYPYWDAIWLSAP	PGPT0030655_3729	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030655-yafM|rayT|tnpA-K07491	NA	NA
BMS020_05750	342			hypothetical protein	ATGGAACTGCACTGGCTCGACCAGCCGCTGACCTGGCTGTACTGGACCGGCCTGCACGTCACCGGCTGGAAGCTGATCGGCTACACCGGCGCGCTGATGTTCGGCGGCCGCTGGCTGGTGCAGTTCGTCGCCTCCAAGCGCGCCGGCAAGCCGGTGATCCCACGGCTGTTCTGGTACATGAGCGTGATCGGCAGCCTGATGACGCTGAGCTACTTCCTGTTCTCGGCCAAGCAGGACTCGGTCGGCGTGCTGCAGAACCTGTTCCCGGCGTTCACCGCGCTGTACAGCCTGTACCTGGACATCAAGCACCGCGGCTGGAACCGGGAGAAGGCGGGGCACTAG	MELHWLDQPLTWLYWTGLHVTGWKLIGYTGALMFGGRWLVQFVASKRAGKPVIPRLFWYMSVIGSLMTLSYFLFSAKQDSVGVLQNLFPAFTALYSLYLDIKHRGWNREKAGH				NA	NA	NA	NA	NA
BMS020_05751	723	rgtE_2	COG0463	Dodecaprenyl-phosphate galacturonate synthase	ATGAACCAACCGCTCCTGTCCGTCGTCGTCCCGGTCTTCAACGAACGCGACAATGTCGCGCCGCTGGTCGAGGAGATCGTTGCCGCGCTGCGCGGGCGGCTGCCGTTCGAGATCGTCTACGTCGACGACAACTCCAAGGACGACACGCTGGCCGTGCTGGAATCGCTGAAGCTGCTGACCCCGGAGCTGCGGGTGCTGCACCACGTCAGCCAGAGCGGGCAGAGCACCGCGGTGCGCACCGGGGTCAGGCACGCCCGCGCACCGTGGGTGGCCACGCTCGACGGCGACGGCCAGAACGACCCGGCTGACATCCCCAAGCTGCTGGCCGCGCGCGACGCCGCCGAGGCGCAGGTGAAGCTGTTCGCCGGCTGGCGGGTCAACCGCCAGGATTCGGGCTCCAAGCGCTGGGCCAGCAAGTGGGCCAACGCGATCCGCGCGCGCATGCTGCGCGACGACACCCCCGACACCGGCTGCGGCATCAAGCTGTTCGAGCGCGAGGCGTTCCTGGACCTGCCGTACTTCGACCACATGCACCGCTACCTGCCGGCGCTGATGCAGCGCGCCGGCTGGAAGACCGTCAGCGTGCCGGTCAACCACCGCCACCGCACCGCCGGCGTGTCCAAGTACAACAACCTCGGCCGCGCGCTGGTCGGCATCCGCGACCTGCGCGGCGTGGCGTGGCTGATCACCCGCAGCAAGCGCACCCAGGTCGAGGAGCGCTGA	MNQPLLSVVVPVFNERDNVAPLVEEIVAALRGRLPFEIVYVDDNSKDDTLAVLESLKLLTPELRVLHHVSQSGQSTAVRTGVRHARAPWVATLDGDGQNDPADIPKLLAARDAAEAQVKLFAGWRVNRQDSGSKRWASKWANAIRARMLRDDTPDTGCGIKLFEREAFLDLPYFDHMHRYLPALMQRAGWKTVSVPVNHRHRTAGVSKYNNLGRALVGIRDLRGVAWLITRSKRTQVEER	PGPT0017834_2908	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0017834-DPM1_like|arnC|ppm1|wcaA-K00721	NA	NA
BMS020_05752	966	galE1	COG1088	UDP-glucose 4-epimerase	ATGAGCACTCTCGTCACCGGCGCTGCCGGCTTCATCGGCGCATACACCTGCCGCGCGCTGGCCGCGCGTGGCGAGCGGGTGGTCGGCCTGGACAACTACAACGCCTACTACGATCCGCAGCTCAAGCACGACCGGGTTGCCGCGCTGTGCCCGCAGGTCGACATCCGCACGCTCGACCTGACCAACCGCGACGGCCTGGCCGCGCTGTTCGAGGAGGTTGCGCCCACGCGCGTGGTGCACCTGGCCGCCCAGGCCGGGGTGCGCTATTCGCTGCAGAATCCGCACGCCTACGTCGAGTCCAACCTGGCCGGCTTCGTCAACATGCTCGAGCTGTGCCGGCACCGCGGCGTGCAGCACCTGGTCTATGCCTCCAGCAGCTCGGTCTACGGCGATTCGGCCACGCCGCCGTTCTCCGAGGACCAGCGCGTGGACCAGCCGCGCTCGCTGTACGCGGCGACCAAGGCCGCCAACGAGCTGATGGCCCATACCTACGCGCAGCTGTACGGTCTGCGCGCCACCGGGCTGCGCTTCTTTACCGTCTATGGGCCGTGGGGCCGGCCGGACATGGCGCCGCTGCTGTTTGGCCGGGCGGTGCTGGCCGGGCGCCCGATCGAGGTGTTCAACCACGGCCGCATGCAGCGCGACTTCACCTGGGTCGAGGACATCGTGGCCGGCGTGCTCGGAGCGCTCGACCACCCCTCGGACGCGCCGGTGCCGCACCGGTTGTTCAACCTCGGCAACCACACCCCGGTGGAGCTGGAACGCTTCATCGACGTGCTGGCCGCCGCCGCCGGGCGTCCGGCCGAGAAGATCTACCGGCCAATGCAGCCGGGCGACATGGTCGTCACGATGGCCGATACTGCGCGCGCCCAGGCCGCGTTCGGCTTCGAGCCGAGGACGCCGATCGAGGTCGGGTTGCCGCAGGTGGTGGCCTGGTGCCGCGACTATTTCGGCACGCGCGCCTGA	MSTLVTGAAGFIGAYTCRALAARGERVVGLDNYNAYYDPQLKHDRVAALCPQVDIRTLDLTNRDGLAALFEEVAPTRVVHLAAQAGVRYSLQNPHAYVESNLAGFVNMLELCRHRGVQHLVYASSSSVYGDSATPPFSEDQRVDQPRSLYAATKAANELMAHTYAQLYGLRATGLRFFTVYGPWGRPDMAPLLFGRAVLAGRPIEVFNHGRMQRDFTWVEDIVAGVLGALDHPSDAPVPHRLFNLGNHTPVELERFIDVLAAAAGRPAEKIYRPMQPGDMVVTMADTARAQAAFGFEPRTPIEVGLPQVVAWCRDYFGTRA	PGPT0019020_2705	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-UDP-GALACTOSE-GLUCURONATE_POOL_MODIFICATION,PGPT0019020-cap1J|wbgU-K08679	NA	NA
BMS020_05753	309			hypothetical protein	ATGCACCCCAACAAGGTCGACCGCAACCACCTGCTGCGCCTGACCGACCTGCCCAATGTCGGGCCGGCCTGTGAAAAAGACCTGCGCGCGATCGGCATCCGCGTCCCGGCGCATCTGTCCGGCCGCGATGCCTACGACATGTACGCGCAGCTGTGCATGACCACCGGGGTGATGCACGACCCCTGCGTGATCGACGTATTCCTGTCGATCGTGCGCTTCTGGCACGGCGAACCGGCGCGGCCCTGGTGGGATTTCAGCGCCGAGCGCAAGCGCACCCTGGCCGCCGAAGCGCCGCTCACGCTGCGCTGA	MHPNKVDRNHLLRLTDLPNVGPACEKDLRAIGIRVPAHLSGRDAYDMYAQLCMTTGVMHDPCVIDVFLSIVRFWHGEPARPWWDFSAERKRTLAAEAPLTLR				NA	NA	NA	NA	NA
BMS020_05754	924	parB	COG1475	putative chromosome-partitioning protein ParB	ATGAACAAGCCGAACCCGGCCAAGAAGCGCGGCCTGGGCCGTGGCCTGGACGCGCTGCTGGGCCCGAAGGGCGCGGCCGCGGCCGTCCCCGTCGCCACCGTCGAGGAACTGCAGCCGGGCGACAGCCTGCGCACCTTGCCGGTCGGCCAGCTGCAGCCGGGCAAGTACCAGCCGCGCCGCGACATGGACGAGGCCAAGCTGGCCGAGCTGTCCGAGTCGATCAAGGCGCAGGGCGTGATCCAGCCGATCGTCGCGCGCGAGCTGGCGCCGGGGCAGTTCGAGATCGTCGCCGGCGAACGCCGCTGGCGCGCCTCGCAGCTGGCGGGGTTGAGCGAGGTGCCGGTGGTGGTGCGCGAGCTCGACGACCGCACCGTCATCGCGATGGCGCTGATCGAGAACATCCAGCGCGAAGACCTCAACCCGCTGGAAGAGGCGCTGGCGCTGCAGCGGCTGATCGAGGAATTCGCGCTGACCCACGCCGAGGCCGCCGAAGCGGTGGGCCGCTCGCGTGCATCGGTGTCCAACCTGATCCGCCTGCTGGAACTGCCGGTCGGCGTGCGCGTGCTGCTGGAGTCGCGCCGGCTGGAAATGGGCCACGCCCGCGCGCTGCTGACGCTGGCGCCGGAGCTGGCGACCAAGCTGGCGCAGGAAGCGGCCGACCAGGGCTGGTCGGTGCGCGAGGTCGAGCGCCGCGCGCACGACTTCGCCGCCGGCAGGGTGCCGGGCGCGCGTCCGGCCAAGCCGGCGCCGAGCGCGCCGCAGGCCGACATCGCCTCGCTGGAAACCGAACTGAGCGAATCGCTGGGAACCAAGGTCGCCATCGCCCACGGGCGCGGCGGCAAGGGCAAGCTGGTGATCCACTACACCGACCTGGACACGCTGGACGGCGTGCTGGAGAAGTTGCGCGGTCGCGTCCAGGGCTGA	MNKPNPAKKRGLGRGLDALLGPKGAAAAVPVATVEELQPGDSLRTLPVGQLQPGKYQPRRDMDEAKLAELSESIKAQGVIQPIVARELAPGQFEIVAGERRWRASQLAGLSEVPVVVRELDDRTVIAMALIENIQREDLNPLEEALALQRLIEEFALTHAEAAEAVGRSRASVSNLIRLLELPVGVRVLLESRRLEMGHARALLTLAPELATKLAQEAADQGWSVREVERRAHDFAAGRVPGARPAKPAPSAPQADIASLETELSESLGTKVAIAHGRGGKGKLVIHYTDLDTLDGVLEKLRGRVQG	PGPT0014815_4481	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497	NA	NA
BMS020_05755	798	soj	COG1192	Sporulation initiation inhibitor protein Soj	ATGGCCCGGATCATCGCCATTGCCAACCAGAAAGGCGGCGTCGGCAAGACCACCACGGCGGTCAACCTGGCGGCCGGTCTGGCGCGTGCTTCCAAGCGGGTCCTGCTGGTGGACCTGGATTCGCAGGGCAACGCGACCATGGGCAGCGGCATCGACAAACGCGAGGTGGCCGCGTCCACCTGCGACCTGCTGCTGGGCGAGAACAGCGCCGTGGAGATCCGCCTGCAGGCGCCGGAAGGCTTCGACCTGCTGCCCGGCAACATCGACCTGACCGCCGCCGAGATCCAGCTGATGGAGCAGGGCGAGCGCGAGCAGCGGCTCAAGCGCGCGCTCGCGCCGATCCGCGACGAATACGAGTTCATCCTGATCGACTGCCCGCCGGCGCTGTCGCTGCTGACCCTCAACGCGCTGACCGCGGCCGACTCGGTGATCGTGCCGATGCAGTGCGAGTACTACGCGCTTGAAGGGCTGTCGGCGCTGCTGGAGACGATCGAGGCGCTGCGCGGCACGATCAACCCGGCGCTGGAGATCGAGGGCGTGCTGCGCACCATGTTCGACATCCGCAACAACCTGGCCAACGCCGTGTCGGGGCAGCTGACCGACCACTTCGGCGACAAGGTGTTCCGCACCATCGTGCCGCGCAACGTGCGCCTGGCCGAGGCGCCGAGCCATGGCCAGAGCATCGTCGGTTACGACGCCGCCTCGCGCGGTGGCGTGGCCTACATCGGCCTGGCCGGCGAGATCATCCAGCGCCAGGCCGACCGTACGAAGGCCCCACGGGTCATGGAGACCGCCTGA	MARIIAIANQKGGVGKTTTAVNLAAGLARASKRVLLVDLDSQGNATMGSGIDKREVAASTCDLLLGENSAVEIRLQAPEGFDLLPGNIDLTAAEIQLMEQGEREQRLKRALAPIRDEYEFILIDCPPALSLLTLNALTAADSVIVPMQCEYYALEGLSALLETIEALRGTINPALEIEGVLRTMFDIRNNLANAVSGQLTDHFGDKVFRTIVPRNVRLAEAPSHGQSIVGYDAASRGGVAYIGLAGEIIQRQADRTKAPRVMETA				NA	NA	NA	NA	NA
BMS020_05756	642	rsmG_1	COG0357	Ribosomal RNA small subunit methyltransferase G	ATGAACGATGCCTCCCTTCCCGCCGCGGCGCGGACCGATCTCGAGCAGGGCCTGCAGGCGATGGGCCTGGAGGCCGGCTTCGCCGAGCCGCTGCTGGCCTATCTGGCGCTGCTGGCGCGCTGGAACCGCACCTACAACCTGACCGCGATCCGCGATCCGCGCGAGATGGTCACCCGCCACCTGCTCGATTCGCTGGCGATGCGCCCGTACATCGAGGCCGGCACGCTGGCCGACCTCGGCACCGGCCCCGGGCTGCCCGGCATCCCGCTGGCGATTACCCGGCCGCAGCTGCAGGTCACGCTGGTGGAGAGCAACGGCAAGAAGGCCCGCTTCATGCGCGAGGCAGTGCGCCAGCTCGGGCTGGGCAATGCGCGCGTGGCCGAATCGCGCGCCGAGGCGCTGGACGAGCCGGCGGCCTACGACCACCTGACCGCGCGTGCGCTGGACACCTTGCTCGGCATCGTCGAGGTCGGTGGCCACCTGCTCAAGCCCGGTGGCACCCTGCTGGCGATGAAGGGCGTGCACCCGCACGAGGAGATCGCCGCGCTGCCGCCCGGCTGGACGGTGCAGGCGGTCGATCCGCTGCAGGTGCCGGGCCTGACCGGCGAGCGCCACCTGGTGACGGTGGCCAAGGTGCAGTGA	MNDASLPAAARTDLEQGLQAMGLEAGFAEPLLAYLALLARWNRTYNLTAIRDPREMVTRHLLDSLAMRPYIEAGTLADLGTGPGLPGIPLAITRPQLQVTLVESNGKKARFMREAVRQLGLGNARVAESRAEALDEPAAYDHLTARALDTLLGIVEVGGHLLKPGGTLLAMKGVHPHEEIAALPPGWTVQAVDPLQVPGLTGERHLVTVAKVQ				NA	NA	NA	NA	NA
BMS020_05757	609			hypothetical protein	GTGAATCCAGGCGAGGGGCAGAGCGCCGACTGGCGCGTCGGGCCGGTGCAGCTGTGGCTGCGTCCGCATCGCCATGGCGAGCGCGGCGAGCCGCAGGCGCGGCAGCTGCTCGGCGCGGCGTTGGCGGTCGCGCCGGCGGCGTTGCCGCTGGCCCGCGACGCGCGCGGCTGGCCATGGCTGCAGGCGCCACTGCAGCGCTTTGGAACCGGCTGGAGCCACAGCGGCAACCAGTTGCTGGTCGGGCTTGGCGAAGGCCTGCGGCTGGGCGTGGACCTGGAGCGCGTGCGGCCGCGGCCGCGCATGTTGGAGGTGGCCGAACGTTTCTTCCATGCCGAGGAGTCGGCATGGCTGCACGCGCTGGCGCCGGCGCAGCGCGAACCGCTGTTCTTCCGCCTGTGGTGCGCCAAGGAGGCGCTGCTGAAGGCGCATGGCCATGGCATCGCGTTCGGCTTGCACCGGCTGCGCTTCGAGGAGGCCGCCGACGGGCTGCGCTTGGCCTGGTGCGATCCGGCGCTGGGCCAGGCCGCGCGCTGGCAGCTGCACGAATGGCAGGCCACGCCGGACCTGCGCGCCGCCCTGGCGACGTATCCACTGGAAAACCTGGACTGA	MNPGEGQSADWRVGPVQLWLRPHRHGERGEPQARQLLGAALAVAPAALPLARDARGWPWLQAPLQRFGTGWSHSGNQLLVGLGEGLRLGVDLERVRPRPRMLEVAERFFHAEESAWLHALAPAQREPLFFRLWCAKEALLKAHGHGIAFGLHRLRFEEAADGLRLAWCDPALGQAARWQLHEWQATPDLRAALATYPLENLD	PGPT0008845_3050	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
BMS020_05758	252			hypothetical protein	ATGGGCATCATCATCTGGTTGATCGTGGGCGGCATCGTCGGCTGGCTGGCCAGCATCATCATGCGGCGCGACGGCCAGCAGGGCATCATCCTGAACGTGGTGGTCGGCATCGTCGGCGCAATGATTGCCGGCTGGCTGTTCGGCGGCGGCATCAACCAGGCGATCACGCTGTGGACCTTCGTCTGGTCGATCGTCGGTGCGGTGATCCTGCTGGCGATCATCAATCTGGTCACCCGCGGCCGGCTGCGCTGA	MGIIIWLIVGGIVGWLASIIMRRDGQQGIILNVVVGIVGAMIAGWLFGGGINQAITLWTFVWSIVGAVILLAIINLVTRGRLR				NA	NA	NA	NA	NA
BMS020_05759	444			hypothetical protein	ATGAACGGCGAGCGCGGCATCCGCCGCAGCATCGGCCGGGTCGGCGAGACGGTGATCGGGCCGCTGCACCGGCTGGCCTGCCATTGCGGCGCGGTGGTGCTGGAGTTGAGTTTGCCGGACGGCATCGTCGACCCGCGCCGCTGCAACTGCTCGATGTGCCGGCGGCGCGGCGCGATCGTCGCATCGGTGCCGCTGGCCGGGCTGCGCGTGGTGCAGGGCGAGGCGCTGCTGCGCCGTTACCAGTTCAACACCTGCACCGCCGAGCACTACTTCTGCGGCGCCTGCGGCATCTATACCCATCACCGCCGGCGCTCGGACCCGACCCAGTACGGCTACAACGTCGGCTGCCTGGACGGGGTGGATCCCTACGCGTTGCCGGTGGTGGTGCCGGTCGAGGATGGCGTCCACCATCCCTCAGATCGCCCCGCCGGACCGCCAGAATGA	MNGERGIRRSIGRVGETVIGPLHRLACHCGAVVLELSLPDGIVDPRRCNCSMCRRRGAIVASVPLAGLRVVQGEALLRRYQFNTCTAEHYFCGACGIYTHHRRRSDPTQYGYNVGCLDGVDPYALPVVVPVEDGVHHPSDRPAGPPE				NA	NA	NA	NA	NA
BMS020_05760	768	xthA_1	COG0708	Exodeoxyribonuclease III	ATGCGCATCGCCTCCTGGAACGTCAATTCGCTCAACGTCCGCCTGCCGCACCTGCAGCAGTGGTTGCAGGACTTCGGTCCGGACATCGTCGGCATCCAGGAAACCAAGCTGGAGGACCACAAGTTCCCCGACGATGCGTTGCTGGAGCTGGGCTACCGCAGCGTGTTCGCCGGGCAGAAGACCTACAACGGCGTGGCGATCCTGGCGCGGCAGGCGATCGAGGACGTGCAGATCGGCATCCCCGGCTTCGAGGACGAGCAGAAGCGGGTGATCGCCGCGACCGTCGGCGACGTGCGCGTGGTCGACCTGTACGTGGTCAACGGCCAGGACGTGGGCACCGACAAGTACGCCTACAAGCTGCGCTGGCTGGACGCGGTGCACGACTGGCTCGCCGCCGAGCTGCAGCGGCACCCGAAGATGGTGGTGCTGGGCGACTTCAACATCGCCCCGGATGCGCGCGACGTGCACGATCCGGCGGTGTGGAACGAGGACCACATCCTGACCTCGACCGCCGAGCGCGGTGCGCTGGGCAAGCTGCAGGCGCTGGGGCTGCACGATGCATTCCGGCTGCATCACGATGCGGCCGGGGTGTTCAGCTGGTGGGACTACCGCGCCGCTGGCTTCCGTCGCGACCTCGGCCTGCGCATCGACCTGACCCTGGTGTCCGATGCGCTGAAGGCGCAGGCGGTGGCCGCCGGCATCGACCGCGAGCCGCGCACCTGGGAGCGCCCCAGCGACCACGCCCCGGCGTGGGTGGAGCTGGCATGA	MRIASWNVNSLNVRLPHLQQWLQDFGPDIVGIQETKLEDHKFPDDALLELGYRSVFAGQKTYNGVAILARQAIEDVQIGIPGFEDEQKRVIAATVGDVRVVDLYVVNGQDVGTDKYAYKLRWLDAVHDWLAAELQRHPKMVVLGDFNIAPDARDVHDPAVWNEDHILTSTAERGALGKLQALGLHDAFRLHHDAAGVFSWWDYRAAGFRRDLGLRIDLTLVSDALKAQAVAAGIDREPRTWERPSDHAPAWVELA				NA	NA	NA	NA	NA
BMS020_05761	1410	calB		Coniferyl aldehyde dehydrogenase	ATGCCGCCCCACGCACCCACCGAACTGGAGGCCACGCTGCAGGCGCTGCGTGGCGCATGGCAGGCACGCCGCCCGGATGCCGCGCAGCGCCGCGACGACCTGCGCCGGCTGCGCGCCGCGCTGAAGGCGCGGCTGCCGCAGATGACGCAGGCGATCGCCGCCGACTTCGGCCACCGCTCGCAGCACGAGTCGCTGATCGCCGATGGCATGACCGTGCTCGCCGAGATCGACCACCTGCTGCGCCACCTGCACCGCTGGATGCGGCCGCGCCGGGTTGGCGCGGGCTGGCGGTTGTGGCCGGCGCGCGCGCAGCTGCGCGCGGTGCCGCTGGGCGTGGTCGGGGTGATGGCGCCGTGGAACTACCCGGTCAACCTGGCGTTGATCCCGCTGGCCACTGCGATCGCCGCCGGCAATCACGTGTTCCTCAAGCCATCCGAGCACACCCCGCGCACCAGCGCGTTCCTGCACGAGCTGGTGGCGGCGGTGTTTCCGCCGCAGCGGGTGGCGGTCGCCGAAGGCGATGCAGCGCTGGCCGCGGCGTTCGCCGCATTGCCGTTCGACCACCTGGTGTTCACCGGCTCGACCGCGGTCGGGCGGCGGGTGATGGCCGCCGCGGCGCCCCACCTGACCCCGCTGACGCTGGAACTGGGCGGCAAGTCGCCGGCGATCGTCTGCCCGGACTATCCGCTGCCGCAGGCGGCGGCGCGGCTGGCCACCGGCAAGCTGTTCAACGCCGGCCAGACCTGCATCGCGCCGGACTACGTGCTGGTCGATGCGGCGCGCGTGGACGCGCTGGTGCAGCAGCTGGGCGAACAGGTGCGCCAGCGCTATGGCGACCTGGCCACCAGCGCCGACTACACCCGCATCGTCAACGACGCGCAGTACCGGCGCTTGCGCGCGCACGTGGAGGACGCGCGCGCGCGGGGCCTGCGCGTGGTCGAGCTGGCCGCGCTGGAGCCGACGCTGGCGCAGCGCGAGCGGCTGATCGCGCCGACCGTGATCGTGCAGCCGGGCGAGGACGCCACGGTGATGCAGGAGGAGATCTTCGGCCCGCTGTTGCCGGTGATCGGCTACCGCACGCTGGAGGAGGCGATCGCCTTCGTCGCCGCGCGCGAGCGGCCGCTGGCGCTGTATCCGTTCAGCCACGACCGCGCCAGCGTCGAGCGCATCCTCGCCACGCTGGTCGCTGGCGGGGTCACCGTCAACGACACCCTGCTGCATTTCGCCGCCAACGCACTGCCGTTCGGCGGCGTCGGCGCCAGCGGCATGGGCGCCTACCACGGCCGCACCGGCTTCGACACGCTGAGCAAGCAGCTGCCGGTGCTGTGGCAGGCGCGCCGCAGCGCCAGCGACCTGCTGCGCCCGCCGTACGCGCGCATCGGCGGGTTGCTGCGGCTGCTGCTGCGCTGA	MPPHAPTELEATLQALRGAWQARRPDAAQRRDDLRRLRAALKARLPQMTQAIAADFGHRSQHESLIADGMTVLAEIDHLLRHLHRWMRPRRVGAGWRLWPARAQLRAVPLGVVGVMAPWNYPVNLALIPLATAIAAGNHVFLKPSEHTPRTSAFLHELVAAVFPPQRVAVAEGDAALAAAFAALPFDHLVFTGSTAVGRRVMAAAAPHLTPLTLELGGKSPAIVCPDYPLPQAAARLATGKLFNAGQTCIAPDYVLVDAARVDALVQQLGEQVRQRYGDLATSADYTRIVNDAQYRRLRAHVEDARARGLRVVELAALEPTLAQRERLIAPTVIVQPGEDATVMQEEIFGPLLPVIGYRTLEEAIAFVAARERPLALYPFSHDRASVERILATLVAGGVTVNDTLLHFAANALPFGGVGASGMGAYHGRTGFDTLSKQLPVLWQARRSASDLLRPPYARIGGLLRLLLR	PGPT0019970_455	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_LIGNIN_DEGRADATION|LIGNINASES	PLANT_LIGNIN_DEGRADATION-DEHYDROGENASE_ACTIVITY,PGPT0019970-calB-K00154	NA	NA
BMS020_05762	2244			hypothetical protein	ATGCAATGGTTCAAGGACCTGGCCATCGGCAAGAAGCTGATGATCGCCTTCGCGTTTTTCTCCCTGGTCACACTGCTGGTCGGCGTGTTCGCGCTGCTGCAGCTGCGCACCAACAACCAGCAGTTCAAGAACATCGCCGACACGCGCATGCCGGCGGTGCAGATCCTGGGTGAACTGCGCGCCGGCATGGGCGAATTCCGCACCTTCCAGCTGTCGCAGGTCGATCCGGAAACCTCGGCCGAGGAAGTGCAGAACTACCACAAGAAGATCGCCGACCTGCAGAAGAAGATGGAGGCCGACGCCAAGACCTACGCCGACCTGACCTCGACGGGCGACTCGCCCGAGCACGAGGCGTTGCTGGAGGATGCTTCCAAGACCCTGGCCGGCGTGTTCACCACCCACGAGCGGATCCGCGAGGCGCTCAATGCCGGCGATTCGACCACGGCGCGCGCGGTGTCCAACGGCGATGCGCGCCAGGCGCGCCGCGTGTACTACGACAAGCTGATGGCGCTGATCAAGTACGAGCAGGACCACTTCAAGGCCGACATCGCCGCCAGCAGTGCGGCCTACACCCGCGCGGTGACGATGACGGTGGCGGCGCTTGCCGTGCTGCTGGTGCTGGGCGTGGTGCTGGGCGTGGCGATCACCCGCAGCCTGACCGGGCCGATGGCGCGCGCGTTGAACGCGATCAAGGCGGTGACCCGCGGCGACCTCAACGTGCATACCGCCAGCGACAGCCACGACGAGGCCGGGCAGATGCTGCGCGCCACCGGCGAGATGGTGACGATGCTGGAGCGCTTCTCGCAGCAGACCAAGCTGATGATCCACAAGCACGCCGACGAGGACATGGCGCACCGCATGCCGCAGGATTTCCCCGGCGTGTACGGCGATCTGGCCAAGGGCATGAACACGATGGTGTTCGAGCACCTGGATGCGATCGTCGACGCGATCGCGGTGCTCAACGAGTACGCCAATGGCGACCTGTCGCGCGATGCGCGGCGCCTGCCGGGCAGCCGTGCGGTGCTGCACGAGGCGATGGACGCGGCCAAGAACAGCCTGCAGTCGGTCAACAGCGAGATCAAGCGCCTGGCCCAGGCCGCGGCGGCCGGTGACTTCTCGGTGCGTGGCGACGAGCGCGCGTTCGACAACGACTTCCGCATCATGGTCGGCGACCTCAACCGGTTGATGGACAACGCCGACCGCAGCCTGACGTCGCTGTCGTCGATGCTCGGCGCGATCTCCGAGGGCGACCTGACCCAGCGCATGCACGGTGACTTCCAGGGCGTGTTCGCGCGCATGCGCGACGACGCCAACGGCACCGTCGAGCGTCTGACCGGCATCGTCGGCCGCATCCAGCAGGCCGCCGGCCTGATCAACACCGCCGCCGGCGAGATCGCCTCCGGCAACAGCGACCTGTCGCGCCGCACCGAACAGCAGGCCGCCAACCTGGAAGAAACCGCCGCCTCGATGGAGGAGCTGACCTCCACCGTCAAGCAGAACGCCGAGCACGCGCGCCAGGCCGACCAGGCGGCGAAGGAAGCGGCCAAGGCGGTCGACGTGACCTCGCACGCGATCAGCGAGGTGGTGCAGGTGATGGGGCAGATCAACGAGTCCTCGTCGCGCATCAGCGACATCATCACGGTGATCGACGGCATCGCGTTCCAGACCAACATCCTGGCGCTGAACGCCGCGGTGGAAGCGGCGCGCGCCGGCGAGCAGGGCCGCGGCTTCGCCGTGGTTGCCTCGGAAGTGCGCACGCTGGCGCAGCGCTCGGCGACCGCGGCCAAGGAGATCAAGGACCTGATCGTCGAATCGGGCGATCGTGTCGAAGCCGGCCTGGACATCACCCGCAAGTCCGAGCAGAACGTGGCGCAGCTGGTGCAGGGCTCGGCGCGCACCAACGGCCTGATCAACGAGATCGCCGCGGCCAGCGTCGAGCAGGCGTCGGGCATCGAGCAGGTCAACCAGACCATCACCCAGATGGACGAGGTGACCCAGCAGAACGCCGCGCTGGTGGAAGAAGCGACCGCGGCGGCGCGCTCGCTGGAAGAGCAGGCGCAGCAGCTCAACGACGCGGTGGCGGTGTTCCGCATCCAGACCGCGGCGAACCCGGCTCCGCGTGCCAGCACGGCCGCCGCCAAGCCCAAGCCGGTGGCCGCTGCGGCCGCGCCGGTCGCGGCGTCGGTGCGTGCCAAGCCGGCGGTGGTCGCGGTCGAAGAGGGTGGCGACTGGCAGGAGTTCTGA	MQWFKDLAIGKKLMIAFAFFSLVTLLVGVFALLQLRTNNQQFKNIADTRMPAVQILGELRAGMGEFRTFQLSQVDPETSAEEVQNYHKKIADLQKKMEADAKTYADLTSTGDSPEHEALLEDASKTLAGVFTTHERIREALNAGDSTTARAVSNGDARQARRVYYDKLMALIKYEQDHFKADIAASSAAYTRAVTMTVAALAVLLVLGVVLGVAITRSLTGPMARALNAIKAVTRGDLNVHTASDSHDEAGQMLRATGEMVTMLERFSQQTKLMIHKHADEDMAHRMPQDFPGVYGDLAKGMNTMVFEHLDAIVDAIAVLNEYANGDLSRDARRLPGSRAVLHEAMDAAKNSLQSVNSEIKRLAQAAAAGDFSVRGDERAFDNDFRIMVGDLNRLMDNADRSLTSLSSMLGAISEGDLTQRMHGDFQGVFARMRDDANGTVERLTGIVGRIQQAAGLINTAAGEIASGNSDLSRRTEQQAANLEETAASMEELTSTVKQNAEHARQADQAAKEAAKAVDVTSHAISEVVQVMGQINESSSRISDIITVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVASEVRTLAQRSATAAKEIKDLIVESGDRVEAGLDITRKSEQNVAQLVQGSARTNGLINEIAAASVEQASGIEQVNQTITQMDEVTQQNAALVEEATAAARSLEEQAQQLNDAVAVFRIQTAANPAPRASTAAAKPKPVAAAAAPVAASVRAKPAVVAVEEGGDWQEF	PGPT0015710_2090	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
BMS020_05763	489	cheW_2	COG0835	Chemotaxis protein CheW	ATGAACGATGCCAGCCACGCCGCCAGCACAGGCGGTGAATTCCTCAGCTTCACCCTCGGTGCCGAGCATTACGGCGTGGATATCCTCAAAGTGCAGGAGATCCGCGGCTACGAAGGCGTCACCCGCATGCCGGATGCCCCCGACTACATCAAGGGCGTGATCAACCTGCGCGGCGCGATCGTGCCGGTGGTCGACCTGCGGCTGAAGCTGCGCATGCCCGAGGCGCGGTACGACGCGCTGACGGTGATGATCGTGCTCAATGTCGAGCAGCGCGTGGTCGGCATCGTGGTCGACAGCGTCTCCGAGGTGATCGCGCTGAACGAGGCGCAGATCCGCCCGACGCCGGAGTTCGGCGCCGCGGTCGAGACCCGCTTCATCTCCGGCATCGGGACCGTCGAGGACCGGATGCTGATCCTGCTCGATATCGAAACGCTGCTCGACAGCGCCGATGCGGTGCGCCCGCAGCTCGGCACGGCGGCCGCCGCCTGA	MNDASHAASTGGEFLSFTLGAEHYGVDILKVQEIRGYEGVTRMPDAPDYIKGVINLRGAIVPVVDLRLKLRMPEARYDALTVMIVLNVEQRVVGIVVDSVSEVIALNEAQIRPTPEFGAAVETRFISGIGTVEDRMLILLDIETLLDSADAVRPQLGTAAAA	PGPT0015680_3349	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015680-cheW-K03408	NA	NA
BMS020_05764	1368			Gluconate 2-dehydrogenase cytochrome c subunit	ATGAAGAAACTCCTGCTCGCGTTGCTCACCCTGGCGGTGGTCGTGTTCGCGGTGGCGCTGGTGTACGCGCTGCTGCCGACCTCCACCCGCACCATCGCCGGCGACGTGCCGGCCCACGATGCGGCGCTGATCGAGAAGGGCCGCTACCTGGCCACTGCCGGCGACTGCACGGCCTGCCACACCGCGCCGGGCGGCAAGCCGTTCGCCGGCGGGCGCGCGGTGGCCTCGCCGTTGGGCGACATCTACAGCACCAACATCACCCCGGACAAGGCCACCGGCATCGGCGGTTACAGCCTGGATGACTTCGATCGCGCGCTGCGCCACGGCATCGCCGCCAACGGCGACACGCTGTACCCGGCGATGCCGTACCCGGCCTACGCACGGCTCGGCGACGACGACGTGCGCGCGCTGTACGCCTACTTCCTGCATGGCGACATCGCCCCGGTGCAGCAGGCCAACCGCGCCGCCGACATCCCGTGGCCGCTGTCGATGCGTTGGCCGCTGGCGATCTGGCGCAAGACCTTCGCGCCCGAGCCGGACGCGGTCGCGTTCGATCCCAAGCGCTATGCCGATCCGAAGATCGCGCGCGGTGCGTGGCTGGTGCAGGGCCTGGGTCACTGCGGCAGCTGCCACACTCCGCGTGGCTTCGCGCTGCAGGAAAAGGCGCTGGACGAGCGCGGTGCCGACTACCTGGCCGGTGGCCAGATCATCGACGGCTGGAACGCGGTGAACCTGCGCGGCAACCCGGGCGATGGCCTGGGCGACTGGAGCGAGCAGGACATCGTCGACACGCTGCGCACCGCGCGCAACACCCACCAGGCGGTGGTCGGTGGCGCGATGGCCGACGTGGTCGAGCACAGCACCCAGCTGCTCAGCGACGACGACCTGCATGCGGTCGCCGCCTACCTGAAGACGTTGCCGCCAGCGACCGGAACGCACGCCAGCTTCAAGGCCGATCCGGCCACCGCGAAGGCGCTGCAGCAGGGCGTCAATGCCAACCGTGGTGCCGAGCTGTACGTGGACAACTGCGCGGCCTGCCACCGCACCGACGGCGAGGGCTATGCACGGGTGTTCCCGCGCGTGGCCGGCAACCCGACCGTGCTGGCGCAGGATCCGGCCTCGCTGGTGCGGCTGATCCTGGCCGGCAGCACGCTGCCGAGCACCGCCGAACGGCCGTCGCCGCTGGGCATGCCGGGCTTCTCGGCGCGCCTGTCCGACGAGGAAGTCGCGCAGCTGGCCAGTTTCGTGCGTAGCGGATGGGGCAACCAGGCGCCGGCGGTGAAGGCGGCGCAGGTGACCGAGGTCCGCGCCACGCTGCAGGCCGCGCATGCCGCGGCACCGCCGGCGGCCGAGGCCGCGCAGCACTGA	MKKLLLALLTLAVVVFAVALVYALLPTSTRTIAGDVPAHDAALIEKGRYLATAGDCTACHTAPGGKPFAGGRAVASPLGDIYSTNITPDKATGIGGYSLDDFDRALRHGIAANGDTLYPAMPYPAYARLGDDDVRALYAYFLHGDIAPVQQANRAADIPWPLSMRWPLAIWRKTFAPEPDAVAFDPKRYADPKIARGAWLVQGLGHCGSCHTPRGFALQEKALDERGADYLAGGQIIDGWNAVNLRGNPGDGLGDWSEQDIVDTLRTARNTHQAVVGGAMADVVEHSTQLLSDDDLHAVAAYLKTLPPATGTHASFKADPATAKALQQGVNANRGAELYVDNCAACHRTDGEGYARVFPRVAGNPTVLAQDPASLVRLILAGSTLPSTAERPSPLGMPGFSARLSDEEVAQLASFVRSGWGNQAPAVKAAQVTEVRATLQAAHAAAPPAAEAAQH	PGPT0017695_113	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017695-fdhC-K23275	NA	NA
BMS020_05765	1776			Gluconate 2-dehydrogenase flavoprotein	ATGGCAACTGTGAAACCGAAGGTCGACGCGGTCATCGTCGGCATGGGCTGGACTGGCGCGATCCTGGCCAAGGAACTGACCGACGCCGGCCTCAACGTGGTCGCGCTGGAGCGCGGCGGCGACCGCGATACCCAGCCGGACTTCGCCTACCCGAACGTGGTCGACGAGCTGGAAGGCTCGGTGCACCGCCGTTACCTGCAGAGCCTGGCGCAGGAGACCGTGACGATCCGCCACGCGCTGGCCGACACCGCCGTGCCGTACCGGCAGATGGGCTCGTTCAAGCCGGGCACCGGCGTCGGCGGCGCCGGCAGCCACTGGTCGGGCGCGCACTTCCGCCCGTTGCCGGAAGACATGGTCCTGCGCAGCAACGTCGAGCAGCGCTACGGCAAGAAGTTCATCCCGGACGACATGACGATCCAGGACTTCCCGGTCAGCTACGACGAGCTCGAACCGCATCTGGACATGTTCGAGCGCGTCTGCGGTACCTCCGGCAAGGCTGGCGTCATCAATGGCGTGGTGCAGGAAGGCGGCAATCCGTTCGAAGGCTCGCGTTCGCGTGAGTACCCGCTCGGTCCGAACCCCAACTACCTCGGCGCGGAGATGTTCTATACCGCCGCCAAGGAGATGGGCTGGCACCCGTACCCGATCCCGGCGTCGAACGCCTCCGGCCCGTACGTCAATCCGTACGGCTGCCAGCTCGGCCCGTGCAACGCCTGCGGCTTCTGCTCCGACTACGGCTGCCTGAACTATTCCAAGGCCAGCCCGAACGCCTGCATCCTGCCGGTGCTGCGCCAGCGCAAGGGCTTCGAGCTGCGCACCCACGCGCAGGTGCTGAAGGTCAACCTGGACAGCACCGGCAAGAAGGCCACCGGCGTCACCTACCTGGACGCGCAGGGCCGCGAGGTCGAGCAGCCGGCCGATCTGGTGCTGCTGTGCGCGTTCTCGCTGTACAACGTGCACCTGATGCTGGTGTCCGGCATCGGCACGCCGTACGACCCGGAGAGCAACACCGGCACGATCGGCCGCAATTACTCCTACCAGAACCTCAACCGCGTGGTGCTGTTCTTCGACAAGGACGTGCAGGCCAATCCGTTCATCGGCATCGGCGGCGCCGGCACCACGATGGACGACCTCAACGGCAACCAGCTCGACAACGCCAAGGTCGGCTTCGTCGGCGGCGGCCTGGTGTGGGCGCGCCAGCCCGGCGCCGGCCCGGTGCGCGGCCTCAACCTGCCCAAGGGCACCCCGGCCTGGGGCCCGGAGTGGAAGCGCGCGGCGGCCGATACCTTCCGCCACTCGTTCTACTACGAGGTGCAGGGCGCCTGCATGTCCTACCGCCAGCACTACCTGAGTCTGGACCCGACCTACAAGGACGCGTTCGGCCGGCCGCTGCTGCGGATGACCTTCGACTGGCATCCGAACGAGATCAAGGCCTCGCAGTTCTTCGTCGACCAGGCGCAGAAGATGAGCCGTGTGCTCAATCCGATGTCGATGCTCGGCGACGCCAAGAAGGACGGCGAGCACTACAACATCACCAAGTACCAGAGCACCCACACCTGCGGCGGCGCGATCATGGGCGCCGATCCCAAGACCTCAGCGCTGAACAAGTACCTGCAGTCGTGGGACGTGTCGAACGTGTTCGCGATCGGCGCCAATGCGTTCCCGCAGAACAACGGCTACAACCCCACCGGCCTGGTCGGTGGCCTGGCCTACTGGGCCGCGACCGCGATCCGCGAGAAGTACCTCAAGGATCCTGGTCCGATGGTGCAGGCGTGA	MATVKPKVDAVIVGMGWTGAILAKELTDAGLNVVALERGGDRDTQPDFAYPNVVDELEGSVHRRYLQSLAQETVTIRHALADTAVPYRQMGSFKPGTGVGGAGSHWSGAHFRPLPEDMVLRSNVEQRYGKKFIPDDMTIQDFPVSYDELEPHLDMFERVCGTSGKAGVINGVVQEGGNPFEGSRSREYPLGPNPNYLGAEMFYTAAKEMGWHPYPIPASNASGPYVNPYGCQLGPCNACGFCSDYGCLNYSKASPNACILPVLRQRKGFELRTHAQVLKVNLDSTGKKATGVTYLDAQGREVEQPADLVLLCAFSLYNVHLMLVSGIGTPYDPESNTGTIGRNYSYQNLNRVVLFFDKDVQANPFIGIGGAGTTMDDLNGNQLDNAKVGFVGGGLVWARQPGAGPVRGLNLPKGTPAWGPEWKRAAADTFRHSFYYEVQGACMSYRQHYLSLDPTYKDAFGRPLLRMTFDWHPNEIKASQFFVDQAQKMSRVLNPMSMLGDAKKDGEHYNITKYQSTHTCGGAIMGADPKTSALNKYLQSWDVSNVFAIGANAFPQNNGYNPTGLVGGLAYWAATAIREKYLKDPGPMVQA	PGPT0001300_238	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
BMS020_05766	732			Gluconate 2-dehydrogenase subunit 3	ATGCCCGAGCAGGACCACCCGTCCGCTGCTTCGCCTTCGCGTCGCCGTTTTTTCCAGGGGATCAGCCTGATCCCGATCGCCGCCGCATTGCCGGCCTGTTCTCCGGGCGCCGGTGGTAACGCCACCAACGCCAGCGGTGAAGCTGCCGCCGGCGCGTATGCGCCGAGCTTCTTCAACGCCGTGGAATGGGCCTTCGTGGTCGCTGCCTGCGACCGCCTGATCCCGTCCGATGCCACCGGCCCGGGCGCGGTGGAGTCGGGCGTGCCCGAATTCCTCGACCGCCACATGCAGACCCCGTATGCGGCCGGCGCGATCTGGTACACCCAGGGCCCGTTCCTGGAAGCGCCGAGCGAGTTCGGCTACCAGGGCAAGCTGGCGCTGCGCGAGATCATCAAGGTCGGCATCGCCGCGATCGACGCGCACTGCAAGAAGAGTTTCGACGGCAAGACCTTCGCCCAGCTCGACCATGCCCAGCAGGAAGCGCTGCTGAAGGATGCCGAGGGCGGCAAGCTCAAGCTCGAGGAGATCTCGGCCAAGCTGTTCTTCTCCAACTTCCTGGGCGAAGTGAAGAACGGCTATTTCGCCGACCCGAAGTACGGCGGCAACAAGAACATGGGCGCGTGGAAGATGATCGGGTATCCCGGCATGCGCGCTGACTACATCGATTGGGTGACGGTGCGCGACAAGGCGTATCCGCTCGGCCCGGTCGACCTGGCCGGCAAGCGGGGATAA	MPEQDHPSAASPSRRRFFQGISLIPIAAALPACSPGAGGNATNASGEAAAGAYAPSFFNAVEWAFVVAACDRLIPSDATGPGAVESGVPEFLDRHMQTPYAAGAIWYTQGPFLEAPSEFGYQGKLALREIIKVGIAAIDAHCKKSFDGKTFAQLDHAQQEALLKDAEGGKLKLEEISAKLFFSNFLGEVKNGYFADPKYGGNKNMGAWKMIGYPGMRADYIDWVTVRDKAYPLGPVDLAGKRG	PGPT0001305_79	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
BMS020_05767	1662	nanT		Sialic acid transporter NanT	ATGTCCAGCACTGCCTACAACACCAGCCATAAAGCCGTACTCAGCGGAGGCCACAAGAAGGTCATCTTCGCCTCGAGTCTCGGCACCGTGTTCGAGTGGTACGACTTCTACCTGTACGGCTCGCTCGCGGCGATCATCGCCAAGCAGTTCTTCAGCGGCGTCAACGAGACCACCGGCTTCATCTTCGCGCTGCTGGCCTTCGCCGCCGGCTTCGCGGTGCGTCCGTTCGGCGCGGCCTTCTTCGGCAGCCTCGGCGACCGCATCGGCCGCAAGTACACCTTCCTGGTCACCATCCTGCTGATGGGCATGTCGACCTTCATCGTCGGCATCCTGCCCAACTACGCCAGCATCGGCATCGCCGCACCGATCATCCTGATCGTGCTGCGCCTGCTGCAGGGTCTGGCCCTGGGCGGCGAGTACGGCGGCGCGGCCACCTACGTCGCCGAGCATGCGCCGGACGGCAAGCGCGGCCTGTACACCAGCTTCATCCAGACCACCGCCACGCTCGGCCTGTTCCTGTCGCTGCTGGTGATCCTGGGGACCCGCATGACGCTGGGGACCGAGAGCTTCGAGGCCTGGGGCTGGCGCATCCCGTTCCTGGTGTCGATCGTGCTGCTGGGCGTGTCGGTGTGGATCCGCATGCAGCTGTCCGAATCGCCGCTTTTCCAGCAGATGAAATCCGAGGGCAAGGGCTCCAAGCATCCGTTCCGTGAAAGCGTCAAGGGCGGCAACCTGGGCCTGATGCTGCTGGTACTGCTGGGCGCGACCGCCGGCCAGGCGGTGGTGTGGTATGGCGGCCAGTTCTATTCGCTGTTCTTCCTGACCCAGACGCTGAAGGTCGACGGCACCACCGCCAACCTGCTGATCGCTGCCGCACTGGCGCTGGCCACGCCGTTCTTCGTGTTCTTCGGCTGGCTGTCGGACAAGATCGGCCGCAAGAAGATCATCCTCACCGGCTGCCTGCTGGCGGCGATCACCTACATGCCGATCTTCAAGGCGCTGACCCACTTCGCCAACCCGGCGATCGAGGAGGCCCGCGCCAAGGCCCCGGCGCTGGTGGTGGCCGACCCGGCGACCTGTTCGTTCCAGTTCGACCCGATCGGCAAGAAGGTGTTCACCAATTCCTGCGACATCGCCGCGGCGGCGCTGGCCAAGGCCGGCATCCCGTACGAAGTCAAGGACGCCGCCCCGGGCTCGCTGGCCCAGGTCAGCATCGGTGGCACCGAAGTGGCCGCGTATGAAGGCGCCGGCCTGTCCAAGGACGACGCCAAGGCCAAGTCCGCCGAGTTCGGCAAGGCGCTGAAGGGCGCGCTGACCACCGCCGGCTACCCGGAGAAGGCCGACCCGGCGCGGATCAACACGCCGATGACGCTGCTGCTGCTGTGGCTGCTGGTGATCTACGTGACCATGGTCTACGGCCCGATCGCCGCCTACCTGGTCGAGCTGTTCCCGACCCGCATCCGCTACACCTCGATGTCGCTGCCGTACCACATCGGCAACGGCTGGTTCGGCGGCTTCCTGCCGACCATCTCGTTCGCACTGGTCGCGGCCACCGGCAACATGTACTACGGCCTGTGGTACCCGATCGGCATCGCGCTGATGACCTTCGTGATCGGTGCGCTGTTCCTGCGTGAGACCAAGGACGTGGACATCAGCAAGTAA	MSSTAYNTSHKAVLSGGHKKVIFASSLGTVFEWYDFYLYGSLAAIIAKQFFSGVNETTGFIFALLAFAAGFAVRPFGAAFFGSLGDRIGRKYTFLVTILLMGMSTFIVGILPNYASIGIAAPIILIVLRLLQGLALGGEYGGAATYVAEHAPDGKRGLYTSFIQTTATLGLFLSLLVILGTRMTLGTESFEAWGWRIPFLVSIVLLGVSVWIRMQLSESPLFQQMKSEGKGSKHPFRESVKGGNLGLMLLVLLGATAGQAVVWYGGQFYSLFFLTQTLKVDGTTANLLIAAALALATPFFVFFGWLSDKIGRKKIILTGCLLAAITYMPIFKALTHFANPAIEEARAKAPALVVADPATCSFQFDPIGKKVFTNSCDIAAAALAKAGIPYEVKDAAPGSLAQVSIGGTEVAAYEGAGLSKDDAKAKSAEFGKALKGALTTAGYPEKADPARINTPMTLLLLWLLVIYVTMVYGPIAAYLVELFPTRIRYTSMSLPYHIGNGWFGGFLPTISFALVAATGNMYYGLWYPIGIALMTFVIGALFLRETKDVDISK				NA	NA	NA	NA	NA
BMS020_05768	1401			hypothetical protein	ATGAACATCCGTATCGCATCGCGTGCGCGCCAGCCGCTGGCCGTCGCGTTGTTGTTCGCATTGGCAGCACCAGGGGCGGCCTTGGCCGAAACGGCCAAGGAAAAGGCGCTCGAGGCGCGCGTGGCCGAGCTGGAACGGCAGGTGCAGCTGCTGCTGTCGACCCAGCAGCAACAGCAGGGCCAGATCAGCCAGGCGCAGACCCAGATCACCGAAGTGCAGGGCGCCCAGGCCGCGCGCCCGGCCGCGCCGGCGCTACCGGCCGGCAAGCAGCCGATCCAGGTCACCACGATCACCCCGGGCGCCACGCCCGGCACCACGTTCAAGTTCGGCGGCTTCATCAAGGCCGACTTCCTGGCGACCAAGACCGGCGACGGCCAGCTTGCCGACGATGCGACCGGGCGTGCGCTGTACCTGCCGGGGCAGACCCCGGTTGGCGGCAAGTCCTCGGACGTGGACTACAACGCGCACGCCAAGTTCTCGCGCATCAACTTCGGCGTGGACAGCGTCAGCGAAGGCGGCAACAAGTCCGGCGCGCTGGTGGAGATGGACTTCTTCGGCAACGCGCTCGGCAACCAGACCGCGACCAATACCTACGGCGCCACCCTGCGCCATGCCTACATGTACTGGAACAACTGGCTGGCCGGCCAGACCTGGTCCAACTTCATGGACGTCGGCGCGCTGCCGGAAGCGGCCGACTTCGTCGGTCCGACCGATGGCGTGATCTTCGTGCGCCAGACCCAGATCCGCTACACCAACGGCGGCTTCAGCGTGGCGCTGGAGAACCCGGAGACGACGCTGATCAACCGCAGCGCCGCCGGCGTGGTCAGCACCGGCAATTCCGACCGCGGCGCGCTGCCGGACCTGACCATGCGCTACGGCTGGAAGGGCGACTGGGGCACGTTCGGGATCGGCGGCATCGTGCGCCAGCTGAAGGTCGACAACCTCACCACCGGCGCCGACGACAGCAAGGTCGCCGGCGGCCTGACCCTGGGCGGCAAGTGGGTGGCCGGCAGCAGCGACAGCCTGGTCTACCAGCTCACCGGTGGCGAGGGCATCGCCCGCTACATCGGCCTGGGCGTGACCCAGGACGCCTCGTACGACGCGCTCACCGACAGCCTGGACAGCACCGGGGTGCTGGCCGGCTACGTCGGCTGGCGCCACCAGTTCTCGCCGAAGCTGCGCACCAACCTGATCTACGCGCGCAGCGACTACGACAACGACACCGCCATCACCGGGCTGGCGGTCACCAAGAGCGTGCAGAGCATCCGCGGCAACGTGTTCTACACGCCGATGCCCAAGGTCGATATCGGTGCCGAGCTGATGTACGGCAAGCGTGAGATCGAAAGCGGCGACAAGGGCGACATCACCCGCCTGCAGTTCACCACCAAGTACAGCTTCTGA	MNIRIASRARQPLAVALLFALAAPGAALAETAKEKALEARVAELERQVQLLLSTQQQQQGQISQAQTQITEVQGAQAARPAAPALPAGKQPIQVTTITPGATPGTTFKFGGFIKADFLATKTGDGQLADDATGRALYLPGQTPVGGKSSDVDYNAHAKFSRINFGVDSVSEGGNKSGALVEMDFFGNALGNQTATNTYGATLRHAYMYWNNWLAGQTWSNFMDVGALPEAADFVGPTDGVIFVRQTQIRYTNGGFSVALENPETTLINRSAAGVVSTGNSDRGALPDLTMRYGWKGDWGTFGIGGIVRQLKVDNLTTGADDSKVAGGLTLGGKWVAGSSDSLVYQLTGGEGIARYIGLGVTQDASYDALTDSLDSTGVLAGYVGWRHQFSPKLRTNLIYARSDYDNDTAITGLAVTKSVQSIRGNVFYTPMPKVDIGAELMYGKREIESGDKGDITRLQFTTKYSF				NA	NA	NA	NA	NA
BMS020_05769	1944	acsA_2	COG0365	Acetyl-coenzyme A synthetase	ATGGCCGATGTCTATCCCGTTCCGCCGCAGTTCGCCGCCAACGCGCGGATCGACAAGGCGGCCTACGAGACGCTGTACCGGCAGTCGCTGGATGATCCGCAGGGGTTCTGGGCCAAGGCCGCCGAGCGGCTGGACTGGTACGTCAAGCCGACGGTGATCAAGAACGTCAGCTACAAGCTCGAGGACTTCCGCATCAAGTGGTTCGAGGATGGCGAGCTCAACGCCTCGGTGAACTGCCTGGACCGCCAGCTCGACAAGCGCGGCGACAAGGTCGCGCTGCTGTTCGAGCCGGACAGCCCGGACGCGCCGGCCATCGGCGTGACCTACCGCGAGCTGCACGCGCGGGTGTGCAAGCTCGGCAACGCGCTGCGCAACCTCGGCGTCGGCAAGGGCGACCGCGTCACCATCTACCTGCCGATGATCGTCGACGCCGCGGTGGCGATGCTGGCCTGCGCGCGCATCGGCGCGGTGCATTCGGTGGTGTTCGGCGGCTTCGCGCCGAACTCGATCGCCGACCGGGTGATCGACTGCGGCAGCAAGCTGATCATCACCGCCGACGAAGGCCTGCGCGGCGGCCGCAAGATCCCGCTGAAGGCCAACGTCGACGCGGCACTGAAGATCCCCGGCACCACCACGGTGGAAACCGTGCTGGTGGTGCGCCATACCGGCGGCGCGGTCGACATGCAGGCGCCGCGCGACCGCTGGTTCCACGACGTCGTCGACAGCCAGCCGGCGCAGTGCGAGCCGGAGCGGATGAACGCCGAGGACCCGCTGTTCATCCTCTACACCTCCGGCTCGACCGGCAAGCCCAAGGGCGTGCTGCATACCACCGGCGGCTACCTGCTGTTCGCCAGCTACACCCATGAGTCGGTGTTCGACCTGCGCGAGGACGACGTCTACTGGTGCACCGCCGACGTCGGCTGGGTCACCGGCCACAGCTACATCGTCTACGGCCCGCTCGCCAACGGCGCGACCTCGCTGATGTTCGAGGGCGTGCCGAACTACCCGAACGTATCGCGCTTCTGGGAGGTCATCGACAAGCACCAGGTGACGATCTTCTACACCGCGCCGACCGCGATCCGCGCGCTGATGCGCGAGGGCGAGGAGCCGGTCAGGAAGACCTCGCGGCGCTCGCTGCGGCTGCTCGGCAGCGTCGGCGAGCCGATCAATCCCGAGGCCTGGCGCTGGTACTACGACGTGGTCGGCGAAGGCCGCTGCCCGATCGTCGACACCTGGTGGCAGACCGAGACCGGCGGCATCCTGATCTCGCCGCTGCCCGGCGCCACCGACCTCAAGCCCGGCTCGGCGACGCTGCCGTTCTTCGGCGTGCGCCCGGCGCTGGTCAATGCCGACGGCGAGATCAAGGAAGGCGCCACCGAGGGCAACCTGGTGCTGCTCGACTCCTGGCCGGGGCAGATGCGCACCGTCTACGGCGACCACCAGCGCTTCATCGACACCTACTTCCGCACCTATCCGGGCAGCTACTTCACCGGCGACGGCTGCCGCCGCGACGAGGACGGCTACTACTGGATCACCGGGCGCGTGGACGACGTGATCAACGTCTCCGGCCACCGCATCGGCACCGCCGAGGTCGAGAGCGCGCTCGTGTCGCACCCCAAGGTCGCCGAGGCCGCGGTGGTGGGCTTCCCGCACGACGTCAAGGGCCAGGGCATCTACGCCTACGTGACGCTGATCGCCGAGGAACAGCCCAGCGAGGCGCTGCACAAGGAGCTGATCGCCTGGGTGCGCAAGGAGATCGGGCCGATCGCCTCGCCCGACCACCTGCAGTGGGCGCCGGGCCTGCCGAAGACCCGCTCGGGCAAGATCATGCGCCGCATCCTGCGCAAGATCGCCGAGAATGCACCGGACCAGCTCGGCGACACCTCGACCCTGGCCGACCCGTCGGTGGTCGACTCGCTGGTCAGCGAGCGCAAGGTGCGTTGA	MADVYPVPPQFAANARIDKAAYETLYRQSLDDPQGFWAKAAERLDWYVKPTVIKNVSYKLEDFRIKWFEDGELNASVNCLDRQLDKRGDKVALLFEPDSPDAPAIGVTYRELHARVCKLGNALRNLGVGKGDRVTIYLPMIVDAAVAMLACARIGAVHSVVFGGFAPNSIADRVIDCGSKLIITADEGLRGGRKIPLKANVDAALKIPGTTTVETVLVVRHTGGAVDMQAPRDRWFHDVVDSQPAQCEPERMNAEDPLFILYTSGSTGKPKGVLHTTGGYLLFASYTHESVFDLREDDVYWCTADVGWVTGHSYIVYGPLANGATSLMFEGVPNYPNVSRFWEVIDKHQVTIFYTAPTAIRALMREGEEPVRKTSRRSLRLLGSVGEPINPEAWRWYYDVVGEGRCPIVDTWWQTETGGILISPLPGATDLKPGSATLPFFGVRPALVNADGEIKEGATEGNLVLLDSWPGQMRTVYGDHQRFIDTYFRTYPGSYFTGDGCRRDEDGYYWITGRVDDVINVSGHRIGTAEVESALVSHPKVAEAAVVGFPHDVKGQGIYAYVTLIAEEQPSEALHKELIAWVRKEIGPIASPDHLQWAPGLPKTRSGKIMRRILRKIAENAPDQLGDTSTLADPSVVDSLVSERKVR	PGPT0002265_4045	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
BMS020_05770	666	degU_2	COG2197	Transcriptional regulatory protein DegU	ATGCCGACCCTGCTGATTGCCGATGACCACCCGCTGTTCCGCGAAGCCCTGCGCGGCGCCGTGCAGCGGGTCATGCCAGGCGTGCAGCTGTACGAAGCCGACAACGTCGACGCGCTGTACGCGCTGGCCGACGACCACGCCGACGCCGACCTGCTGCTGATGGACCTCAACATGCCCGGTGCGCAGGGGTTCTCCGCGCTGGTGCACATGCGCGCCCTGCACCCGCAACTGCCGGTGGTGGTGGTGTCCGCGCGCGAGGAACCGACGGTGATGCGACGCGCGATCGACCACGGCGCGTTCGGCTTCATCCCCAAGTCGGCCGACTCGGACACCATCGGCCAGGCGCTGTCGACGGTGCTCGACGGCGAGCGCTGGATCCCGTCCGAGGCGCGCAACCTGCCGCCCACCGACAGCGAGGAGCGCGAGGTCGGCCAGCGCCTGCGCGAGCTGACCCCGCAGCAGTTCCGCGTGCTGCAGATGCTCGGCGCCGGACTGCTGAACAAGCAGATCGCCTACGACCTGGGCGTCTCGGAAGCGACGATCAAGGCGCACGTGACCGCGATCCTGCGCAAGCTCGGCGTCACCAACCGTACCCAGGCGGTGCTGATGGCCGGCAAGCTGGCCATCGATGCCGACGGCATCGTGCTGCCGCCGGAAGAGGACTGA	MPTLLIADDHPLFREALRGAVQRVMPGVQLYEADNVDALYALADDHADADLLLMDLNMPGAQGFSALVHMRALHPQLPVVVVSAREEPTVMRRAIDHGAFGFIPKSADSDTIGQALSTVLDGERWIPSEARNLPPTDSEEREVGQRLRELTPQQFRVLQMLGAGLLNKQIAYDLGVSEATIKAHVTAILRKLGVTNRTQAVLMAGKLAIDADGIVLPPEED	PGPT0000550_1436	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	N-AQUISITION-NITRATE|NITRITE_SENSING,PGPT0000550-narL-K07684	NA	NA
BMS020_05771	2466			hypothetical protein	ATGCGTCCCGCCTTCGGAATCGCCCGCAAGCTGCAGCTGAGCCTGGCTGCGTTGGCGGTCAGCCTGATGTTGATCGGCTTCGCCTACTGGCGCGTCAGCGCGGGCAATGCCGCCACCGACCAGCGTGTGTCCGGCTTCCAGCGCGACAGCGCACGTGCCGACGCGCTGGCGCAGGCGTTCGCCGAGGCGCGCCGCGCACAGGTGGACTATGCCATGTCATTCAACGACCGTGCGGCGGTCGGCTTCCGCACGGCGATGCGTGCACTGGCCGCGCAGGCGGCCGCGCAGGGCGCGGCGCTGCCGGCGCCACTGCAGGCAGCGTTGCAGGACTACCAGCAGGCCGCGCAGTCGCTGGACGAGCGCATCGGCGAACTCGGCCACGATCCCGACAGCGGCCTGCAGGGCCAGCTGCGCGATGCGGTGCATGGCGTGGAGAACCTGATCGACGGCTTCCACGTACCGGCGCTGGAAGTGTCGATGCTGACGATGCGCCGGCACGAGAAGGACTTCATCCTGCGCCGCGAGCAGAAATACGCCGACGAACTGAGCGAGGAAGCGATGCCGTTCGAGCTGCTGCTGCAGCACGCGCCGATCCCCGAGCCCAAGCGCAACGAGATCCGTGCGCTGATGCAGCAGTACCAGGGCGCCTTCGTCGCCTATGCGGCGTCGCGCTTCGGCCTGGACGGCGACATCGATGCGATGGATGCGGCCGCGGCCAAGGTGATGCCGGCGCTGCAGGCGCTGCGCAGCCGCCAGGCATCGTTGCTGCAGGCGCAGCGCCAGGCCCAGGCCAGCGAGCGCACGCGCATGAACGTGGTGTTCTGGGGCACGCTGCTGCTGGTCGCGGCGATGATGACCACGCTGCCGGTGCTGGTGCTGCGCGCGACGGTGCTGCCGTTGCGCGAGGCGACCGCCTTCGCCTGCGCGATCGCCGACGATCATCTCGACGGCCGCCTGCGCATCCGCAACGCCCGCGACGAGATTGGCCAACTCAGCCAGGCGCTGGTGCAGATGCAGGCCAGCCTGCGTCGCCGCCAAGAGGCCGAGCGCGCCACCGCCGCGGAGAACCTGCGCGTGCGCCAGGCGCTGGATGCCGCGCAGGCCAACGTGATGGTGGTCGATGCCGACGCCTGCGTGGTCTACGCCAACCGGTCGCTGCACGCCGCCTTCGCCGCGGCCGGCATCGGCGTGGACGGGCTGGTCGGCAGCGCGGCCGCGGCGCTGGATCCGGCGGTCGCCGCGCACGTGCAGGCGACGCGGCAGGCAGGCGCGCCGCAGCGCTGCGAGCTGGCCCTGGGCGACACGCAGTTCGTGCTGCTGGCCAGTCCGGTATTGGCCGATGGCGCGGTGCTGGGCGTGGCGGTGGAGTGGCAGGACCGGCGCCTGGAACGGGTGATCGAAGGCGAAGTGTCGGCGCTGGTCGCGCGTGCGGCGGCTGGCCATCTCGGCGAGCGCATCCCGCTGGCCGGCAAGGACGGCTTCCTCGCCCACCTGGCCGGCACCATCAATCAGTTGCTCGACAGCGTGCAGCAGCACCTGGACGAGGCGACCGTGGTGATCGGCCGGTTCGCCGCCGGCGACCTGCGTGCGCGCATGCGTGGCGACTGCCAGGGCGTCTACGCGCGGCTGCAGGCCGGACTGGATGCGGCGATGGCGCAGGTCGGCACGATCGTCACCGGCATCCAGCAGTCGGCCGGGGGCGTGCGTGCGGCGGCCGACGAGATGGCCGCCGGCACCGCCGACCTGTCCTCGCGCGCCGAGCGCCAGGCTGGCGATGTCGGCCAGGCCGGCGCGCTGATGACCGCGGTCGCCGCCGAGGCGCGGCAGAACTTGGAGCGGGCCCAGGCCAGTGCGGTGATGGCGGTGGCCGCCAGCGACGCCGCGCGGCAGGGACGCGATGTCGCCCAGGCCGCGATCAGCGGCATGCATGGCATCCGCAGCGCGTCCCGGCGCATCCGTGAGGTCGTCGCCACCGTCGACAGCCTGGCGTTCCAGACCAATCTGCTGGCGCTCAACGCCGCGGTGGAGGCGGCGCGCGCCGGCAGCCACGGCAAGGGGTTCGCGGTGGTTGCCGGCGAGGTGCGCAGCCTCGCCCAGCGTTCGGCCGACGCCGCGCAGGAAATCCGCCGCTTGATCGATGGCTCGCTGCAGCAGGTCGAATCCGGCGCGACGCTGGTCGATTCCACCGGCAGCACGATGGACGGCATCCTCGACAAGGTCGTGCGCGTGGCCGAGGTGATGGACGAAATCAGCGACGCGTCGGCGCGCCAGGATGGCGCGGTGACCGAGGTCGAGCAGGTGCTGCAGCGGATCGGCGACGGCACCGGCCGCAATGCCGCGCTGGCCGAGGAGTCGTCGGCCGCAGCGGCCAGCATGCGCGCGCAGGCCGAACAGCTCGCCGCGGCCGCCGCCGCGTTCGTGGTCGGCGACGACGCGCAGCCAGGCGGCATCGCCGAAGCGGCGTAA	MRPAFGIARKLQLSLAALAVSLMLIGFAYWRVSAGNAATDQRVSGFQRDSARADALAQAFAEARRAQVDYAMSFNDRAAVGFRTAMRALAAQAAAQGAALPAPLQAALQDYQQAAQSLDERIGELGHDPDSGLQGQLRDAVHGVENLIDGFHVPALEVSMLTMRRHEKDFILRREQKYADELSEEAMPFELLLQHAPIPEPKRNEIRALMQQYQGAFVAYAASRFGLDGDIDAMDAAAAKVMPALQALRSRQASLLQAQRQAQASERTRMNVVFWGTLLLVAAMMTTLPVLVLRATVLPLREATAFACAIADDHLDGRLRIRNARDEIGQLSQALVQMQASLRRRQEAERATAAENLRVRQALDAAQANVMVVDADACVVYANRSLHAAFAAAGIGVDGLVGSAAAALDPAVAAHVQATRQAGAPQRCELALGDTQFVLLASPVLADGAVLGVAVEWQDRRLERVIEGEVSALVARAAAGHLGERIPLAGKDGFLAHLAGTINQLLDSVQQHLDEATVVIGRFAAGDLRARMRGDCQGVYARLQAGLDAAMAQVGTIVTGIQQSAGGVRAAADEMAAGTADLSSRAERQAGDVGQAGALMTAVAAEARQNLERAQASAVMAVAASDAARQGRDVAQAAISGMHGIRSASRRIREVVATVDSLAFQTNLLALNAAVEAARAGSHGKGFAVVAGEVRSLAQRSADAAQEIRRLIDGSLQQVESGATLVDSTGSTMDGILDKVVRVAEVMDEISDASARQDGAVTEVEQVLQRIGDGTGRNAALAEESSAAAASMRAQAEQLAAAAAAFVVGDDAQPGGIAEAA	PGPT0015710_951	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
BMS020_05772	579	mntP_2	COG1971	putative manganese efflux pump MntP	ATGTCCCCTGTTTCCCTGTTCCTGATTGGCCTGGCCATGTCCACCGATGCCTTCGCCGCCGCCATCGGCAAGGGCGCGGCGATGCAGCGCCCGCAGCTGCGCGACGCGTTGCGCGCGGGCCTGGTGTTCGGCGTCATCGAGGCGATCACGCCGGTGATCGGCTGGCTGCTCGGCCGCGCCGCGTCGCAGTACGTGGAGACGTTCGACCACTGGATCGCGTTCGGCCTGCTCGCCGCGCTCGGCATCCACATGATCGTCGCCGGCCTGCGCGGCGGCGGCGACGAGGCCAGCGACGACGACGCGACGCGCCGCACTGGGCTGCTGGCGCTGGCCACCACCGGCGTGGCGACCAGCATCGACGCAATGGCGGTCGGCGTCAGCCTGGCCTTCCTCAACGTCAACATCGGCGTGGTCGCCGCGGTGATCGGCCTGTGCACGCTGGTGATGGTCACGCTGGGGGTGATGCTGGGCCGCGCGCTCGGCACCCTGGTCGGCCGCCGCGCCGAGATCATCGGCGGCCTGATCCTGGTCGCGGTCGGCAGCACCATCCTCTACGAGCATCTGCACGGGATGGGGTGA	MSPVSLFLIGLAMSTDAFAAAIGKGAAMQRPQLRDALRAGLVFGVIEAITPVIGWLLGRAASQYVETFDHWIAFGLLAALGIHMIVAGLRGGGDEASDDDATRRTGLLALATTGVATSIDAMAVGVSLAFLNVNIGVVAAVIGLCTLVMVTLGVMLGRALGTLVGRRAEIIGGLILVAVGSTILYEHLHGMG	PGPT0004375_8	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT_TRANSPORT_SYSTEM,PGPT0004375-mntP-K23242	NA	NA
BMS020_05773	3450	rcsC_8		Sensor histidine kinase RcsC	TTGGTCTCGAGCTGGATCCTGCTGCTGGTCTCCATCGGCTACGCCGCGCTGTTGTTCACCGTGGCCTGGTGGGGCGACCGGCGTCCGCTGTACCCGGACCGGCCGTGGCTGCGCCCGGCGGTCTACAGCCTGGCGCTGGCGGTGTACTGCTCGTCGTGGACCTTCTACGGCGCGGTCGGCACCGCGGTGCGCAACGGCATCGGCTACCTGCCGATCTACCTGGGGCCGCTGCTGCTGCTGATCTTCGGCTGGCGCATCATCGAGCGGCTGGCGCTGATCGCGCGCAGCGAGAACACCGTCTCCATCGCCGACTTCATCTCCTCGCGCTACGGCCGCTCGCGACGGCTGGCGGCGCTGGTCGCGGTGATCGCGCTGATCGGTATCGTTCCCTACCTCGCCCTGCAGTACAAGGCGGTGGCGATGAGCCTGGAAGTGCTGACCGGGCAGACCAGCGGCGGCCGCGGCTTCTTCAGCGATCCGGCGCTGTACGTGGCGCTGCTGATGGCGCTGTTCGCCACCTTGTTCGGTACCCGCCAGGTCGATGCCACCGAGCACCACCACGGCATGATGCTGGCGATCGCGCTGGAATCGGTGATCAAGCTGGTGGCGATGATCGCGGTCGGCCTGTTCGCCTGGGCCTGGCTCGGCGACCACCAGCTGCGCATCACCGATTCGGCGCGCACGCTGTTCGAGCACACCCCGTCGATGGGCTTCATCTCGCAGACGCTGTTGAGCTTCCTGGCCATCGTCTGCCTGCCGCGGCAATTCCACGTGGCGGTGGTCGAATGCAGCGAGGTCGGCGACATCCGCCGCGCACGCTGGCTGTTCGGCGCCTACCTGGTGCTGATCTCGGCGATGGTGGTGCCGATCGCCTCGGCCGGCATCGCGATGTTCGGCGACGGCAGCCAGGTCATCGACGACGCCACGGTGCTGGCGCTGCCGTTGGCCGAAGGCAACACAGTGCTGGCGCTGGTGGCCTACGTCGGCGGCTTCTCGGCCGCCACCGGCATGGTGATCGTTGCCTCGATCGCGCTGGCGACGATGATCTCCAACGACCTGGTGATGCCGGTGCTGCTGCGCCGCGAGGGCGGCCGCGCCGCCGCCGCCGACCGCGTGCTGTGGATCCGCCGGCTGGCGATCCTGGTGCTGGCGCTGATCGCCTACGCCTACTACCGCAGTTCCGGCAACGATTCGACGCTGGCCTCGTATGGTTTGATGGCGTTCGCCGCGGTGGCGCAGTTCGCGCCCGGGGTGATCGGCGGGCTGTACTGGCGCGGCGCCAGCCGCAAGGGCGTGGAAGCGGGCATGGTGCTTGGCTTCGCCACCTGGATCTACACGCTGCTGCTGCCGGCGATGACCCGCGCCGGGGTGTTCGATGCCGGCTGGCTGCTGCAGGGGCCGTTCGGGATCGCCTGGCTGCGCCCGCAGCAGCTGTTCGGCATGAGCGGCTGGGACCCGCTCGCGCATGGCACGTTCTGGTCGCTGCTGCTCAATGCCGGCACGATGATGGTGGTGTCGGCGCGCTGGCGCCCCGGCGTGGACGAGCGCCTGCGCGCGGCGCCGTTCCTGGACCCGTACGCGCAGCGCCCGGCGGTGGCCGGCGCCTGGCCCGGGCATGTGCACGTGGACGATCTGCTGGCGCTGGCCGAGCGCGTGGTCGGCGAGCGCCATGCGCACCGCGCCTTCGTCGAACAGGCCCAGCTGCTCGGCCGCGAGCTGCAGTCCAACGCGGTCGCCGACCGCGCCTGGGTGCAGTTCACCGAACGCCTGCTGGCCGCTTCGATCGGTGCCGCGTCGGCGCGGCTGGTGCTGACCAGCCTGCTGCGCGGCTCGGGCATGGACCTGGGCGAAGTGGTGGCGGTGCTCGACGAGGCCGGGCAGGAGCTGCGCTTCAACCGCGAGATCCTGTCCACCACGCTGGAGAACATCAGCGCCGGGGTCAGCGTGGTCGACCCGGACATGCGCCTGACCGCCTGGAACCGCCGCTACCAGCAGCTGTTCGGCTACCCCGACGGCATGCTCTACGTCGGTCGCCCGGTCGCCGACCTGATCCGCTACAACGCCGAGCGCGGCGAACTGGGCGAGGGCGATGTCGAGGACCAGATCAACCGCCGCATCAACCACATGCGCGCCGGCACCCCGCACGTGTTCGAGCGCACCCGCAGCGACGGCAAAGTGATCGAGATGCGCGGCCAGGCGCTGCCCGGCGGCGGCTACGTGACCAGCTACAACGACATCACCGACTACAAGCGCGCCGAGACCGCGCTGCTGGAAGCCAACGAGACGCTGGAGCAGCGCGTGGCCGAACGCTCGCGCGAGGCCGAACTGGCGCAGCAGTCCAAGACCCGCTTCCTCGCCGCGATCAGCCATGACGTGCTGCAGCCGCTCAACGCGGCGCGGCTGTTCGCCTCGGCGCTGCGCGAGGCGCACCAGAACAACGACGAGCAGCGCCATCTGGCCGAACGCGTCGACGCCTCGCTGCGTGCCGCCGAGGAACTGCTGGACGGCCTGCTCGACGTATCGCGCCTGGATGCCGGCGGCCTGCGCCCGACCATCGAGGCCTTCGATGCCGCCGCGCTGATGCAGGAACTGGCCGCGCAGTACGCCCCGGTCGCGGCCGGGCGCGGGCTGCGCCTGCACGTGCACGTGCGTCCGCTGTGGGTCCGCAGTGACCGCCGGTTGCTGCGCCGGGTGATGCAGAACTTCATCGCCAACGCGCTGCGCTACACCCGTGCCGGGCGCATCGTGCTCGGCATGCGCGGCCGCGGCGGGCAGGTGGAACTGCAGGTCTGGGATACCGGTCCTGGCATTCCCGAACACCACATGCGGCAGATCTTCGAGGAGTTCCATCGCTACCAGCAGCCGTTCGACTGGGGCGAGCAGGGCCTGGGCCTGGGCCTGTCGATCTGCCAGCGCATCTCGCGCCTGCTCGAACACGACCTGGCCGCACGCAGCCAGGTCGGCCGCGGCAGCATGTTCTCGATCATGCTGCCCAAGGTGGCGGCGCCGGCCGAACCGGCGCCTGCGGTGGCGCCGCCCGCGCACGCCGGTAGCGGCGATTCGCTGGCCGGCATGCGCGTGCTGTGCGTGGACAACGACCAGGAGATCCTCGACGGCATGCGCGCGCTGCTCGGCCGCTGGCAGGTCGAGGTGATCGGCGCCAGCACCGTCGACCAGGCGCTGCAGAAGGTGGCCGAGTACCCGGACGCGATGCTGGTGGACTACCACCTGCACGACCGCCTCGACGGCCTGGACACGCTGGACGCGCTGCAGGCCGCCAGCGTGCAGCCGATCCCCGGCGTGTTGCTGACCGCCGACGGCCGCGACGAACTGAAGGCGCTGGCGCGCGCACGCGGCTACCGGCTGCTGACCAAGCCGGTGAAGCCGGCCTCGCTGCGCGCGCTGCTCAGCGCCTTCCACGACCCGCGGCGCACGCACGGGGCGCATTGA	MVSSWILLLVSIGYAALLFTVAWWGDRRPLYPDRPWLRPAVYSLALAVYCSSWTFYGAVGTAVRNGIGYLPIYLGPLLLLIFGWRIIERLALIARSENTVSIADFISSRYGRSRRLAALVAVIALIGIVPYLALQYKAVAMSLEVLTGQTSGGRGFFSDPALYVALLMALFATLFGTRQVDATEHHHGMMLAIALESVIKLVAMIAVGLFAWAWLGDHQLRITDSARTLFEHTPSMGFISQTLLSFLAIVCLPRQFHVAVVECSEVGDIRRARWLFGAYLVLISAMVVPIASAGIAMFGDGSQVIDDATVLALPLAEGNTVLALVAYVGGFSAATGMVIVASIALATMISNDLVMPVLLRREGGRAAAADRVLWIRRLAILVLALIAYAYYRSSGNDSTLASYGLMAFAAVAQFAPGVIGGLYWRGASRKGVEAGMVLGFATWIYTLLLPAMTRAGVFDAGWLLQGPFGIAWLRPQQLFGMSGWDPLAHGTFWSLLLNAGTMMVVSARWRPGVDERLRAAPFLDPYAQRPAVAGAWPGHVHVDDLLALAERVVGERHAHRAFVEQAQLLGRELQSNAVADRAWVQFTERLLAASIGAASARLVLTSLLRGSGMDLGEVVAVLDEAGQELRFNREILSTTLENISAGVSVVDPDMRLTAWNRRYQQLFGYPDGMLYVGRPVADLIRYNAERGELGEGDVEDQINRRINHMRAGTPHVFERTRSDGKVIEMRGQALPGGGYVTSYNDITDYKRAETALLEANETLEQRVAERSREAELAQQSKTRFLAAISHDVLQPLNAARLFASALREAHQNNDEQRHLAERVDASLRAAEELLDGLLDVSRLDAGGLRPTIEAFDAAALMQELAAQYAPVAAGRGLRLHVHVRPLWVRSDRRLLRRVMQNFIANALRYTRAGRIVLGMRGRGGQVELQVWDTGPGIPEHHMRQIFEEFHRYQQPFDWGEQGLGLGLSICQRISRLLEHDLAARSQVGRGSMFSIMLPKVAAPAEPAPAVAPPAHAGSGDSLAGMRVLCVDNDQEILDGMRALLGRWQVEVIGASTVDQALQKVAEYPDAMLVDYHLHDRLDGLDTLDALQAASVQPIPGVLLTADGRDELKALARARGYRLLTKPVKPASLRALLSAFHDPRRTHGAH				NA	NA	NA	NA	NA
BMS020_05774	2391		COG3459	Cellobionic acid phosphorylase	ATGACCGACCACGACGTCTCCGACCTACTCGCGCCCAGCGCCGATGGCGCGCGCTACGCGCTGTACAGCCCCACCGCGATGCCCAACGCCGGCGCGTTCCTGTGGAACCGGCGGATGATGATCCAGGCCACCTGCCGCGGCTACGCCACCGCGCAGTTCATGCAGCCCGAGCCGGCCAAGTACGCGCACGCGCCGACCCTGGAGGCGCGCACCTTCATGCAGCCGGAGCAGCCGTACTACGCGCACCATCCGGGGCGCTTCTTCTACCTGAAGGACGAGGAGAGCGGCGCGCTGTACTCGGCGCCGTACGAGCCGGTGCGCGCCAGGCCCGCCCGCTTCGTGTTCTCCGCCGGGCGCCAGGACATCGTCTGGGAAGTGGAGCACGACGGCCTGGTGCTGGAGCTGCGCCTGGCGCTGCCGGAGGAAGACCCGGTCGAACTGTGGACCTGCACGCTGCGCAACGCCTCCGGGCGCGCACGCCGGGTCTCGCTGTATCCGTACTTCCCGGTCGGCTACATGTCGTGGATGAACCAGCGCGGCACGCACAGCGCCAGCCTCGGCGGCATCGTCTGCCGCAGCGTCACCCCGTACCAGAAGGTCGCCGACTACTGGAAGCAGCGCGACTTCGCCGACTGCACCTTCCTGCTGCACGAGCACGCGCCACTGGCCTGGGAAGCACGGCAGAGCGCGTTCGAGGGCGAGGGCGGGCTGCATGCGCCCTCTGCGATTGCCGATGCCGACACCCTCGGCAACAGCGACGCCGACTACGAAACGCCCACCGCGGTGCTGCAGTACCGCCATGCGCTGGCCGACGGCGAGGCGGTGACCCACCGCTTCCTGTTCGGCCCGGCACGCGACGACGCGCGGATTGCCGCGCTGCGCGCGCGCTACCTGTCCGAACGCGGCTTCGCCGAGGCTGCGCGTGGCTACGCCGAACATCTGCGCTTCGGCGACGGCTGCCTGCGCATCCAGACCCCGGATGCGGCGCTGGACAACCTGGTCAACCACTGGCTGCCGCGGCAGGTGTTCTACCACGGCGACGTCAACCGCCTGACCACCGATCCGCAGACCCGCAACTTCCTGCAGGACCACCTGGGCATGGCCTATCTGCGCCCGGAGGTGGCGCGTGCCTCGCTGCTGCACGCGCTGTCGCAGCAGGAGCCCAGTGGCGCGATGCCGGACGGCATCCTGCTCGAGGAAGGCGCCGAGCTGAAATACATCAACCAGGTGCCGCACACCGATCACTGCGTGTGGCTGCCGGTGTTCCTGGAGGCGTACCTGGGCGAGACCGGCGATGCCGCGCTGCTCGGCGAGGCGGTGACCGATGTCTCGGGCACCACGCACAGCGTCGCCGAGCGTCTGGATGCGGCGATGGCCTGGCTGCTGCAGGCGCGCGACGCGCGCGGGCTGAGCTACATCGCCCAGGGCGACTGGTGCGACCCGATGAACATGGTCGGCTACCGCGGCACCGGCGTGTCCGGCTGGCTGACCCTGGCCACCGCGTATGCGCTGCGGCTGTGGTCGGGCATCTGCCTGCGCCACGGCCGGCCGGCACAGGCGGTGGCGTTCGCCGAATCGGCGGCGCAGGTCAGCGCCGACGCCAACCGCGAGCTGTGGGATGGCGACTGGTACGCGCGCGGGATCACCGACGATGGCGTGCGCTTCGGCATCGCCGACGATGCCGAGGGCCGCATCTATCTCAACCCGCAGAGCTGGGCGCTGCTGTCCGGCGCCGCCGATGCCGCGCGGCAGGCGAAGCTGCTCGCCGCGGTCGAGCAGCAGCTGCACACGCCGTACGGCCCGGTGATGCTGGCGCCGCCGTACACCGGCATGCGCGAGGACGTAGGCCGCCTGACCCAGAAGCATCCGGGTTCGGCCGAGAACGGCGCGGTCTACAACCATGCCGCGGCGTTCTACCTGCACAGCCTGTATGCGGTGGGCGAGGGTGATCGCGCCTGGTCGATGCTGCGCGCGATGATTCCCGGTCCCACGCGCGCGGACATCCTGCAGCGCGGCCAGCTGCCGGTCTACCTGCCGAACTACTACCGAGGTGCCTGGCGCGAGCTGCCGCGCACCGCCGGGCGTTCGAGCCAGCTGTTCAACACCGGCACCGTGGCCTGGGTCTACCGCAGCGTCATCGAGGGGCTGTTCGGCCTGCGCGGCGAGGGCGACGCGCTGCTGGTGCGGCCGCAGCTGCCGGCGCACTGGGCGCAGGCGACGGCGACCCGGCAGTTCCGTGGCGCAACGTTCGAGGTGGCGTACCGGCGCGATGCGGCGTGCGCGGCGATGCAGGTGATGGTCGATGGCCAGCCCTGCGGCGACGCGCGCATCGCCGCGGTGCAGCCCGGGCGCACCTACCGGGTCGAGGTGCTGCTGCCGGTGCCGCACTAG	MTDHDVSDLLAPSADGARYALYSPTAMPNAGAFLWNRRMMIQATCRGYATAQFMQPEPAKYAHAPTLEARTFMQPEQPYYAHHPGRFFYLKDEESGALYSAPYEPVRARPARFVFSAGRQDIVWEVEHDGLVLELRLALPEEDPVELWTCTLRNASGRARRVSLYPYFPVGYMSWMNQRGTHSASLGGIVCRSVTPYQKVADYWKQRDFADCTFLLHEHAPLAWEARQSAFEGEGGLHAPSAIADADTLGNSDADYETPTAVLQYRHALADGEAVTHRFLFGPARDDARIAALRARYLSERGFAEAARGYAEHLRFGDGCLRIQTPDAALDNLVNHWLPRQVFYHGDVNRLTTDPQTRNFLQDHLGMAYLRPEVARASLLHALSQQEPSGAMPDGILLEEGAELKYINQVPHTDHCVWLPVFLEAYLGETGDAALLGEAVTDVSGTTHSVAERLDAAMAWLLQARDARGLSYIAQGDWCDPMNMVGYRGTGVSGWLTLATAYALRLWSGICLRHGRPAQAVAFAESAAQVSADANRELWDGDWYARGITDDGVRFGIADDAEGRIYLNPQSWALLSGAADAARQAKLLAAVEQQLHTPYGPVMLAPPYTGMREDVGRLTQKHPGSAENGAVYNHAAAFYLHSLYAVGEGDRAWSMLRAMIPGPTRADILQRGQLPVYLPNYYRGAWRELPRTAGRSSQLFNTGTVAWVYRSVIEGLFGLRGEGDALLVRPQLPAHWAQATATRQFRGATFEVAYRRDAACAAMQVMVDGQPCGDARIAAVQPGRTYRVEVLLPVPH	PGPT0001295_11	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES	PLANT_DEGRADATIVE_GS|GH-CELLULASES,PGPT0001295-EC_2_4_1_321|ndvB|cep94B-K18786	NA	NA
BMS020_05775	1380	yicJ_4	COG2211	Inner membrane symporter YicJ	ATGTCGATCGCGCACGAACCGGAACCGCGCCGCGTGCCCGGACCCGGCGAGACCAGCGGCTACGCGCTCGGTGATTTCGGCCTGAATCTGTACTGGGCCAGCATCTCCGCGTTCCTGCTGATCTTCTATACCGACACCATGGGCCTGCCGGCCGCGGCGGTGGGCACGATGATCCTGCTGACCAAGCTCGGCGATGCGATCGCCGATCCATTGATGGGCATGCTCGCCGACCGCACGCGCACGCGCTGGGGCCGCTTCCGGCCGTGGCTGTTGTGGGGGGCGCTGCCGCTGGCGGCCACCGGCGTGCTGGCCTGGACGGTGCCGGCGCTGGACCAGGGCGGGCGTCTGCTGTGGGCCTACGTGACGTTCTCGCTGATGATGCTGGCCTACACCGTGGTCAGCATCCCGTACTCGGCGCTGTCGGGGGTGATCACCGCCGACAGCCAGCGCCGCACCACGCTGGTCAGCGCGCGCTTCATCGCCGCGTTCGCCGGCACCACCTTCGTCAACTGGGCCACGCTGGACCTGGTGCGCTGGTTCGGTGGCGGCGACGACGCGCAGGGCTGGCAGCGCACGCTGGCGCTGTACGGCGTGCTGGCGGTGGTGCTGTTCGTGGTGGGGTTCGCCAGCACCCGCGAGCGCGTCGCGCCGCCACCGACGCAGCGCACGCCGTGGCGCCAGGACGTGGCCGACCTGCTGCACAACCGGCCGTGGCTGGTGCTGTTCGTGCTGGCACTGGTGATCATGGTGACCATCGTGATGCGCGGCGGCGCCGGCGTGTACTACTTCAAGTACTACCTCGGCCGCCCCGAGCTGACCGGCTGGTTCCTGGGCAGCTATTCGGTGGCGCTGGCGGTGGGCGCGGCGGCCACGCCGCTGCTGACGCGCTGGATCGACAAGCGCCGCCTGCTGATGCTGCTGATGGCGATCGTCGGCGTGCTCAGCTGCGCGATGTACTTCGTGCCGCCCGGCGCGGTGTGGCTGGCGTTCGCGCTGAACCTGCTGGTCGGCCTGGCGCTGGGACCGAAGTCGCCGCTGGCGTTCTCGATGTACGCCGACACCGCCGACTACACCGAATGGCGCACCGGCCGCCGCGCCACCGCGCTGACCTTCGCCGCAGCCACGTTCTCGCAGAAGCTCGGCGGCGCGCTGGCCTCGGCGGCGATCGCCTGGGTGCTGGCGGCGATGGGCTATGTCGCCAACCAGGCGCAGAGCGACGGCTCCCAGCACGGCATCGTGCTGCTGATGACGCTGATCCCCGGCGGCGTCGCGCTGCTGGCGGCGTGGACGATGCGCTTCTATCCCCTCGATGACACCCGCCTGGCGGTGCTCCAGCGCGAGCTGGCCGTACGCCGCGCCTCCACCGATCACCTGCCATGA	MSIAHEPEPRRVPGPGETSGYALGDFGLNLYWASISAFLLIFYTDTMGLPAAAVGTMILLTKLGDAIADPLMGMLADRTRTRWGRFRPWLLWGALPLAATGVLAWTVPALDQGGRLLWAYVTFSLMMLAYTVVSIPYSALSGVITADSQRRTTLVSARFIAAFAGTTFVNWATLDLVRWFGGGDDAQGWQRTLALYGVLAVVLFVVGFASTRERVAPPPTQRTPWRQDVADLLHNRPWLVLFVLALVIMVTIVMRGGAGVYYFKYYLGRPELTGWFLGSYSVALAVGAAATPLLTRWIDKRRLLMLLMAIVGVLSCAMYFVPPGAVWLAFALNLLVGLALGPKSPLAFSMYADTADYTEWRTGRRATALTFAAATFSQKLGGALASAAIAWVLAAMGYVANQAQSDGSQHGIVLLMTLIPGGVALLAAWTMRFYPLDDTRLAVLQRELAVRRASTDHLP	PGPT0014410_2096	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
BMS020_05776	546	gntK_2	COG3265	Thermoresistant gluconokinase	ATGAACGCCCACGCCCCGCTGCCCACGCCCGCCGCCCACGCCATCGTCGTCATGGGCGTGTCCGGCAGCGGCAAGACCACCATCGCCCAGGCGCTGGCCGCGCACTACGGCCACGTGTTCCTCGATGCCGACGATTTCCACAGCGCGCAGGCGCGCGCGCAGATGGCGGCCGGCACGCCGCTGAGCGATGCCCAGCGCGTGCCCTGGGTGCAGGCGCTGGGGCGCGAGCTGCGCGCGCTGGCCGATGCCGGCCGCTCGTCGGTGCTGGCGTTCTCAGGCTTGCGGCGCGAGCACCGCGCACTGCTGCGCGCCTGCGGGGTCCCGATGCGCTTCGTGTTCCTGCACGCGCCGGCCGCGGTGATCGCCGCGCGGCTGGGTGCGCGCGCCGGCCACTTCATGCCGCCGGCGCTGCTGGACAGCCAGTTCGCCGCGCTGCAGCCGCCGGCCGACGAGCCCGACGTGCTCGCGGTCGATGTCAGCGCCGCGCCGGCCAGCGTGCTGGCCGAGGCGATCTCCAGGCTGGAGCAGCTTGCCGCAGGCGCCTGA	MNAHAPLPTPAAHAIVVMGVSGSGKTTIAQALAAHYGHVFLDADDFHSAQARAQMAAGTPLSDAQRVPWVQALGRELRALADAGRSSVLAFSGLRREHRALLRACGVPMRFVFLHAPAAVIAARLGARAGHFMPPALLDSQFAALQPPADEPDVLAVDVSAAPASVLAEAISRLEQLAAGA	PGPT0018055_571	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_GLUCONIC_ACID_UTILIZATION,PGPT0018055-gntK|idnK-K00851	NA	NA
BMS020_05777	525			hypothetical protein	ATGCGCAGCAGACGAAGTGCCCAGATGTGGATGTTTGCGCTCGCGCTAGCACTGGCAGGCAGCGCCTGGGGACAGGCCACGACCTATGCGCTTTTCGAAGGGACATCGCAGATGTCGCGCTTCGCCGGGTTTCCCGACAACGCCGCCGCCTGCGAGCGAGAGCGCAAGGCCACGATGGAGACCGGCCTCGCCATCGGCGAGCTGCGCTGCGTGGCCGGCGCCGCCGACCAGCCGCTGCCGGCCGAGCGCGAGGCAACGGTGGATCTTTCCAGCAAGTTCCGCCATCCGCCGCGCTATCCGCCCCAGGCGGCCCTGGATGGCCGCGCGGGCCGTGTCGTCGTGCTGGTCAAGGTCGACGCGCAGGGCCTGCCGACCGGCTTCAGCATCGACGCATCGTCCGGCTCACCGGACCTCGACGACGCCGCGCTGACCGCGGCGCGCCACTGGCTGTACAAGCCGGCGTTGCACGCTGGGCAGGCGCAGTCTGGCGAGGCCCGTGTCGCGCTCACGTTCGCACCGAACTAG	MRSRRSAQMWMFALALALAGSAWGQATTYALFEGTSQMSRFAGFPDNAAACERERKATMETGLAIGELRCVAGAADQPLPAEREATVDLSSKFRHPPRYPPQAALDGRAGRVVVLVKVDAQGLPTGFSIDASSGSPDLDDAALTAARHWLYKPALHAGQAQSGEARVALTFAPN				NA	NA	NA	NA	NA
BMS020_05778	684	czcR_2		Transcriptional activator protein CzcR	ATGCCGCGCATCCTGACCATCGAGGACGACACCGTCACCGCCCAGGAAATCATCGCCGAGCTCGGCAGCCACGGGCTTGAGGTGGACTGGGTGGCGCGCGGCGACGAAGGCCTGGAACGCGCGCTGCGCGGCGGCTACGACGCGATCACCCTGGACCGCATGCTGCCCGGCCTGGACGGGCTGGCGGTGGTCACCCGGCTGCGCCGCCAGGGCGTGCAGACCCCGGTGCTGATGATCAGCGCGCTGTCGGACGTGGACGAGCGGGTGCGCGGGCTGCGTGCCGGCGGCGACGACTACCTGACCAAGCCGTTCGCCTCCGATGAGATGGCCGCGCGCATCGAGGTGCTGCTGCGGCGCCAGCAGCAGCCGCCGGCGCAGGACACCACGCTGCGCGTGGCCGACCTGGAGCTGGACCTGATCGAGCGCAGCGCGCGCCGCGGCGGCCAGGCGCTGAGCCTGCTGCCGACCGAGTTCAAGCTGCTGGAGTTCCTGATGCGCAACGCCGGCCAGGGCCTGACCCGGACGATGATCTTCGAGGAAGTCTGGGGCTACCACTTCGACCCCGGCACCAACCTGATCGATGTGCATATCGGCCGCCTGCGCAAGAAGCTCGACCTGCCCGGCATGCCACCGCTGATCCATACCGTGCGTGGCACCGGCTATGTCCTCGCCGAACCTCGCTGA	MPRILTIEDDTVTAQEIIAELGSHGLEVDWVARGDEGLERALRGGYDAITLDRMLPGLDGLAVVTRLRRQGVQTPVLMISALSDVDERVRGLRAGGDDYLTKPFASDEMAARIEVLLRRQQQPPAQDTTLRVADLELDLIERSARRGGQALSLLPTEFKLLEFLMRNAGQGLTRTMIFEEVWGYHFDPGTNLIDVHIGRLRKKLDLPGMPPLIHTVRGTGYVLAEPR	PGPT0004105_1002	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
BMS020_05779	1386	sasA_8		Adaptive-response sensory-kinase SasA	ATGTCCTCGCCGAACCTCGCTGAGGGCTGGCGCTCGTCCAGCAGCCGGCTGCTGGGCTGGTATTCGCTGCTGTTCATCCTGTGGTGCGCGCTGCTGATGGGCAGCATGTACTGGCGGGTCAACCACTACCTGCAGACCCTGGCCGACCAGAGCCTGCGCCAGCGCGCGCACCTGTTCGAGCAGTTCAGCGGCGATGCGCTGATCCAGGCATTGGCCGACAACCAGCGCTACGACGTGCACGGCATCGACAGCTACGGGTTGTTCGCCGCCGACGGCACGCCGCTGCGCGGCGAGCTGCGCACGATTCCGGAGTGGCTGCCGCGCGATGGCGAAGTGCACTTCCGCCGCAACGGCTTCCCCGAGCTGAAGCAGCAGGCCGGCAGCTGCTCGGCGCTGGCGATGCGCACCAACGACGGCGAGCTGCTGATCCTGGTGCGCAAGAACGGCTCGCTGATGGCGGTGTCGGGGATCATCCTCGACGCGCTGGTCTGGGGCGTGTCGCTGACCATCGTGCCCGGCCTGCTCGGCTGGCACCTGCTGCGACGGCGACCGCTGCGGCGCATCCGCGCGATCCAGCAGCAGGTCGAGCGCATCGCCGGCGGCGAGCTGACCCGGCGCCTGCCGCTGTCCAGCCGCCGCGACGAGCTGGACATGCTGGCCAGCATCGTCAACGCGATGCTCGACCGCATCGAGCAGCTGATGCGCGAGGTCAAGAGCGCCAGCGACGCGATCGCCCACGACCTGCGCACGCCGCTGACCCGGCTGCGCGCACACCTGTACCGGATGCGCCAGCAGGCCGGCGACGGCAGCCCGCAGGCGGCAACCCTGGACGAGGCGCTGGACGAGACCGACAACCTGCTGGTGCGCTTCCGCGCGCTGCTGCGGATCTCCGAGCTGGAGGACCACCAGCGCCGCGCCAACTTCGTCACCCTGGCGCCCGCCGCGCTGCTGCAGGAGCTGTATGCGCTGCACGCGCCGCTGGCCGAGGAACAGGGCCAGGACCTGCGGCTGGAACTGGCGCCGCAGCTGCCAAGCATCGTCGGCGACCGCGCGCTGCTGTTCGAGGCGCTGGCCAACCTGCTCGGCAACGCGCTGAAGTTCACACCGCCCGGCGGCCGCATCGTGCTGGCCGCGGCCATGCACGAGGGCGCCACCTGGATCCGCGTGCACGATGCCGGCCCCGGCATCGCCGAGGGTGAGCGCGCGGCGGTGCTGCAGCGCTTCTACCGCAGCGCCCGCGCCAGCGGCCACGAAGGCTCCGGGCTGGGGCTGTCGATCGTCGCGGCGATCGCCGCGCTGCACGGCTTCGAGCTGCGCATCGACGCCAGCCCGCTCGGCGGCGCCTGCATCGGCCTGCACTGCCGCAGCACCACGCCGCTGCTGTAA	MSSPNLAEGWRSSSSRLLGWYSLLFILWCALLMGSMYWRVNHYLQTLADQSLRQRAHLFEQFSGDALIQALADNQRYDVHGIDSYGLFAADGTPLRGELRTIPEWLPRDGEVHFRRNGFPELKQQAGSCSALAMRTNDGELLILVRKNGSLMAVSGIILDALVWGVSLTIVPGLLGWHLLRRRPLRRIRAIQQQVERIAGGELTRRLPLSSRRDELDMLASIVNAMLDRIEQLMREVKSASDAIAHDLRTPLTRLRAHLYRMRQQAGDGSPQAATLDEALDETDNLLVRFRALLRISELEDHQRRANFVTLAPAALLQELYALHAPLAEEQGQDLRLELAPQLPSIVGDRALLFEALANLLGNALKFTPPGGRIVLAAAMHEGATWIRVHDAGPGIAEGERAAVLQRFYRSARASGHEGSGLGLSIVAAIAALHGFELRIDASPLGGACIGLHCRSTTPLL				NA	NA	NA	NA	NA
BMS020_05780	3231	mdtC_3		Multidrug resistance protein MdtC	ATGCTCGGGCTGGTCAAGACCGCGCTGAAGAAGCCGTATACCTTCATCGTGCTGGCGATATTCATCTGCATCGTCGGCCCGCTGGCGATGCTGCGCACGCCCACCGACGTGCTGCCCAATGTCGACATCCCGGTGGTGGCGGCAGTGTTCCAGTACACCGGCCTGTCGCCGGCGGAGATGGCCGGGCGGGTGATCACCCCGTACGAGCGCGCGCTGACCACCACCGTCAACGACGTCGAGCATGTCGAATCGCAGTCGCTGGCCGGCATGGGCGTGGTCAAGGTGTATTTCCAGCCCAACGTCGACATCCGCATGGCCAACGCGCAGGTCACCGCGATCTCGCAGACCATGCTCAAGCAGATGCCGGCCGGCATGACCCCGCCGCTGATCCTCAACTACAGCGCCTCGACGGTGCCGATCCTGCAGATGGCGTTCTCCAGCCCGGAGCTGGGCGAATCGCAGATCCGCGACCTGGCGATGAACACCGTGCGCACGCCGCTGACCTCGATCTCCGGGCTGGCGGTGCCGGCGCCGTACGGCGGCAAGCAGGCGCAGATCACCCTGGACCTGGACCCGCAGGCGCTGGCCGCCAAGGGCCTGTCGGCGCAGGACGTGGCCAATGCGCTTGCCGCGCAGAACCAGATCACCCCGGTCGGCACCGCCAAGCTCGGCCAGAACGAGTTCACCGTGCTGCTCAACAACAGCCCGCGTGATTTCCAGGCCTTCAACGACCTGCCGATCAAGACCGTCGACGGCGCCACCGTCACCATCGGCCAGGTCGCGCACGTGCGCAACGGCTTCCAGCCGCAGACCAACCTGGTACGGGTGGACGGGCACCACTCGGTGCTGATGTCGGCGATGAAGAACGGCGACGCCTCGACCCTGACCCTGGTCGCCAAGGTGCGGGCGATGCTGCCGCAGATCGCGCAGACGCTGCCCGATTCGTTCCGCATCGCCACCCTCGGCGATGCGTCCGGCTTCGTGCGCGCGTCGATCTCCAGCGTGGCGCGCGAGGGCGTGATCGCCGCGCTGCTGACCAGCGCGATGATCCTGCTGTTCCTCGGCAGCTGGCGCTCGACGCTGATCATCGCGGTATCGATCCCGCTGGCGGTGATGGCGGCGATCGCGCTGCTGGCGCTGTGCGGGCAGACCCTCAACGTGATGACGCTGGGCGGGCTGGCGCTGGCGGTCGGCATCCTGGTCGACGACGCCACGGTGACGATCGAGAACGTCAACTGGCACCTGGAACAGGGCAAGCCGGTGAAGAAGGCGATCCTCGACGGCGCCAAGCAGATCGTCGGCCCGGCATTCGTGTCGTTGCTGTGCATCTGCATCGTGTTCGTGCCGATGTTCCTGCTCGACGGCATCGCCGGCTACCTGTTCCGGCCGATGGCGCTGGCGGTGATCTTCGCGATGGGCGCCTCGTTCATCCTCTCGCGCACGCTGGTGCCGACGCTGGCGATGTACCTGCTCAAGCCGCACCAGCCCGAGCACGGCCGCGGCCACCACCCGGAGAACGCGCTGCTCAACCACCACGAGGGCGACCAGCACGCGGTGAAGCCGCGGCCGCGCTGGCAGATCGCCGCGCTGGTGCTGCAGACCCGCTTCGAGGCCGGCTTCTCCAGCGCGCGCGACCGCTACTACGCGCTGCTGCAGCGCGCGCTCGGCCAGCGCCGTGCCTTCGTCGCCGGCTTCCTCGGCTGCGCGCTGCTGTCGCTGGCGCTGCTGCCGGCGCTGGGCGAGGATTTCTTCCCGGCCACCGAATCGGATGCGATCGCACTGCACGTGCGCTTGCCGCTGGGCACCCGCATCGAGGAGACCGCGGCGTTGGTGGACCGCATCGAGCAGGCGATCCGCCAGCAGCTGCCGCCGGCCGAGCTCGACGCGATCATCGACAACCTCGGCCTGCCGGTGACCGGCATCAACATGGCCTACAACGCCAGCGGCACCATCGGCCCGCAGGACGGCGACATCCAGGTCGCGCTCAAGCCCGGCCACGGCGACACCGCCGAGTACGTCAAGCGCCTGCGCGAAGTGCTGCCGGCGCGCTTCCCGGGGGTCGGCTTCGCGTTCCTGCCGGCCGACGTCAGCAGCCAGATCCTCAACTTCGGCTCGCCGGCGCCGCTGGACGTGCGCATCAGCGGCAACAACGACGCCGGCAACCGCGCCTATGCCGCCGAGCTGCTGCGCCGCCTGCGGCAGATCCCGGGCATCGCCGACCTGCGCCTGCAGCAGGCCACCGGCTACCCCACGCTGAAGGTCGAGGTCGATCGCCTGCGCGCGTCCGGGCTGGGCATCACCGAGCGCGACGTGACCAACGCGATGGTCGCCTCGCTGGCCGGCACCAGCCAGGTCGCGCCGACGTTCTGGCTCAACCCGAAGAACAACGTGACCTACCCGGTGGCGGCGGCGACGCCGCAGTACCGCCTGGACAGCATGGCCGCGCTGCAGTCGTTGCCGGTGACCGGCAGCGACGGCCGCTCGCAGGTGCTCGGCAACCTGGCCAGCATCCAGCGCCAGGCCACCCCGGCGGTGGTCAGCCACTACAACATCGCCCCGGCCCTGGACCTGTACGCGAACGTGCAGGACCGCGACCTCGGCGCGGTCGCGCACGACATCCAGAAGGTGCTCGATGACACCGCCGCGCAGCTGCCCAAGGGCAGCCAGGTCGGCCTGCACGGGCAGATCGACGCGCTGCATACCGCGTTCACCGGCCTGGGCTTCGGCCTGATCGGGGCGATCGCGCTGATCTACCTGCTGATCGTGATCAACTTCCAGTCCTGGACCGACCCGTTCGTGATCATCACCGCGCTGCCGGCCGGGTTGGCCGGGGTGGTATGGATGCTGTTCCTCACCCACACGCCGCTGTCGGTGCCGGCGCTGACCGGGGCGATCCTGTGCATGGGCGTGGCCACCGCCAACTCGATCCTGGTGGTCAGCTTCTGCCGCGAACGCCTGGCGGTGCACGGCGATGCCACCAAGGCCGCGCTGGAGGCCGGCTTCACCCGCTTCCGCCCGGTCTGCATGACCGCGCTGGCGATGATCCTGGGCATGCTGCCGACCGCGCTGTCGGCCGAGCAGAACGCCCCGCTCGGCCGCGCGGTGATCGGCGGCCTGCTGCTGGCCACCTGCGCCACCCTGCTGTTCGTCCCGGTGGTGTTCGCGATCGTCCACCACCGCCATCCCCGTCCCGACGCGGCCCCCGCCGGAGAACCTGCCCATGTCGTCTGA	MLGLVKTALKKPYTFIVLAIFICIVGPLAMLRTPTDVLPNVDIPVVAAVFQYTGLSPAEMAGRVITPYERALTTTVNDVEHVESQSLAGMGVVKVYFQPNVDIRMANAQVTAISQTMLKQMPAGMTPPLILNYSASTVPILQMAFSSPELGESQIRDLAMNTVRTPLTSISGLAVPAPYGGKQAQITLDLDPQALAAKGLSAQDVANALAAQNQITPVGTAKLGQNEFTVLLNNSPRDFQAFNDLPIKTVDGATVTIGQVAHVRNGFQPQTNLVRVDGHHSVLMSAMKNGDASTLTLVAKVRAMLPQIAQTLPDSFRIATLGDASGFVRASISSVAREGVIAALLTSAMILLFLGSWRSTLIIAVSIPLAVMAAIALLALCGQTLNVMTLGGLALAVGILVDDATVTIENVNWHLEQGKPVKKAILDGAKQIVGPAFVSLLCICIVFVPMFLLDGIAGYLFRPMALAVIFAMGASFILSRTLVPTLAMYLLKPHQPEHGRGHHPENALLNHHEGDQHAVKPRPRWQIAALVLQTRFEAGFSSARDRYYALLQRALGQRRAFVAGFLGCALLSLALLPALGEDFFPATESDAIALHVRLPLGTRIEETAALVDRIEQAIRQQLPPAELDAIIDNLGLPVTGINMAYNASGTIGPQDGDIQVALKPGHGDTAEYVKRLREVLPARFPGVGFAFLPADVSSQILNFGSPAPLDVRISGNNDAGNRAYAAELLRRLRQIPGIADLRLQQATGYPTLKVEVDRLRASGLGITERDVTNAMVASLAGTSQVAPTFWLNPKNNVTYPVAAATPQYRLDSMAALQSLPVTGSDGRSQVLGNLASIQRQATPAVVSHYNIAPALDLYANVQDRDLGAVAHDIQKVLDDTAAQLPKGSQVGLHGQIDALHTAFTGLGFGLIGAIALIYLLIVINFQSWTDPFVIITALPAGLAGVVWMLFLTHTPLSVPALTGAILCMGVATANSILVVSFCRERLAVHGDATKAALEAGFTRFRPVCMTALAMILGMLPTALSAEQNAPLGRAVIGGLLLATCATLLFVPVVFAIVHHRHPRPDAAPAGEPAHVV	PGPT0016195_268	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
BMS020_05781	1161	mdtA_6		Multidrug resistance protein MdtA	ATGTCGTCTGACACCCTTCCCCCTCCGCGTTCGCGCCGACCGCTGCTGCTCGGCGCCGCCATCGCCGTCGCGCTGGTCGCCATCGGCCTGGGCGTGCGCGCGCACCAGCACGCCGAGGTGGCCGCGTGGACCCAGGCCCAGGCCGTGCCGGTGGTGGCGTGGGTCGAAGCCGGCACCGGCGGCAAGGGCGACCTGCTGCGCCTGCCCGGCCACCTGGTGGCGTGGTCGCAGGCGCCGCTGCATGCGCGCGTCAGTGGCTACCTCAAGGCCTGGTACGCCGACATCGGCGATACGGTCAAGGCCGGCCAGGTGCTGGCCGAGATCGACAGCCCGGAACTGGACCAGCAGATCGCCCAGGCCCGCGCCAAGCTGCTGCAAGCGCGCAGCGACGCGCAGATCGCCCGCACCAGCGCCCAGCGCTGGACGCAGATGCTGGCCAGCCATTCGGTCTCGCAGCAGGAGGCGGACGTGAAGCAGGCCAGCGCCGAAGCCGCCGACGCGGCGGTGGCCGCGGCCCAGGCCGACCTGGCGCGGCTGCAGGAACAGGGTGCCTACCGCGAACTGCGCGCGCCGTTCGCCGGCACCGTGACGGCGCGCCGGGTCGACATCGGCCAGCTGGTGCATGCCGACGACGCCGGCCAGGCGCTGTTCGACCTGGCCGATACCCATCGCCTGCGGCTGATGCTGCCGGTCCCGCAGCGCCAGGCCGGCGCGGTCCACACCGGCATGCATGCCGAGGTGCGCGTGCCCGACCGCCCCGGGCGCAGCTTCCAGGCCACCCTGCTCGGCGATGCCTCGGCGATCGACCGCAGCTCCGGCACGCTGCTGCTGCAGTTCGCCCTCGACAACCCCGACGGCGCGCTGCTGCCCGGTGCCTACGCCGAGGCCGAACTGCCGCTGGACGGCCACGACGGCGCGATCCACATCCCGTCCAGCGCGCTGATCTTCCGCGCCGACGGTACCCAGGTCGCAGTGCTCGGCGCCGGCGGCAAGGTCGCGCTGCGCAAGGTCCACATCGCGCTCGACCTGGGCGACACGCTGGAGATCGACGAAGGCCTGAAGGCCGGCGAGCACGTGATCGACAACCCGCCCGACTCGCTGCGCGATGGCGACAGCGTGCGCGTGGCCGACAGCGGAGGCCACGATGGCAAGGCGGCCTGA	MSSDTLPPPRSRRPLLLGAAIAVALVAIGLGVRAHQHAEVAAWTQAQAVPVVAWVEAGTGGKGDLLRLPGHLVAWSQAPLHARVSGYLKAWYADIGDTVKAGQVLAEIDSPELDQQIAQARAKLLQARSDAQIARTSAQRWTQMLASHSVSQQEADVKQASAEAADAAVAAAQADLARLQEQGAYRELRAPFAGTVTARRVDIGQLVHADDAGQALFDLADTHRLRLMLPVPQRQAGAVHTGMHAEVRVPDRPGRSFQATLLGDASAIDRSSGTLLLQFALDNPDGALLPGAYAEAELPLDGHDGAIHIPSSALIFRADGTQVAVLGAGGKVALRKVHIALDLGDTLEIDEGLKAGEHVIDNPPDSLRDGDSVRVADSGGHDGKAA	PGPT0003275_1085	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585	NA	NA
BMS020_05782	1407	oprM_3	COG1538	Outer membrane protein OprM	ATGGCAAGGCGGCCTGAGCTGCGCCCGCTGCTGCTGGTCGCCGCGACCACGCTGGCCGGCTGCTCGCTGGCGCCGACCTACCAGCGCCCGGCCGCGCCGCTGCCGGCGCAGTTCGAGCACGCCACGCCGGCCAGCGCCGCGCCGGTCGCCAGCGTCTGGTGGCAGGCCTACGGCGATGCCACCCTGGACCGGCTGCAACAGCAGCTGCTCGACGCCAACCCCGACCTGGCCACCGCGCTGGCGCACTACGACGCCGCCCGCGCCGCCGCCGGCGAGATCGCCGCCGCACGCGCACCGCAGCTCGGCCTGCAGGCCAGCACGCTGCAGAACCGCCAGTCCGACCACCGCCCGCTGCGCGGCAGCACCGGCAACGACGTCTACGGCAACGACAGCGTGCAGGTGTCGCTGGGCTGGGACCTGGACCTGTGGGGCCGGCTGCGCAACCAGGCCAGCGCCGCGCGGGCACGCGCCACCGCCAGCGGCGACGACCTCGCCGCGGCGCGGCTGAGCCTGCAGCGCCAGCTCGCCAACGCCTATTTCGGCCTGCGCGGGCTGGACGTGCAAGCACGCATCCTCGCCGCCAGCCTGGACGACTACCAGCAGGCGCTGGCGATGACCCGCTCGCTGTTCGACGGCGGCCTGGCCTCGGAACTGGACGTGGCGCGCGCGCGCCACCAGCTCGCCAGCGCCAGCGCCGAGCTGGAACAGACCCGCAGCGACCGCGACCTGGCCCGGCATGCGATCGCCGCGCTGGTCGGGCAGCCGGCCAGCGGCTTCGTGCTGGACGCGGCGCCGGCGATGCCGGCCGTGCCCGAGCTGCCGGCGGCGCTGCCGAGCGAACTGCTGCAGCGCCGGCCCGACATCGCCGCCGCCGAGCGCCGCGTCTATGCCGCCAACGCCGGCATCGGTGTGGCCCGCGCGGCGTGGTTCCCAAGCCTGAGCCTGACCGGCAGCGGCGGCTACCAGAACGCCGGCGACGGCACGTTGCTGACCCGCGGCAACCGCTTCTTCGCGCTCGGCCCGTCGCTGGACCTGCACCTGTTCGACGGCGGCAAGCGCAAGGCCGCGCGCGCCGCCGCCCAGGCCGAATTCGATGCCGCCGCCGCGCAGTACCGCGGCACCGTGCTGGATGCGATCCGCGAGGTCGAGGACCAGCTCAGCGTGCTGCAGCGTTCGATCGCCCAGGTCCGCGACGAGCAGGATGCCGCCGACGCGGCGACCCGCGCCCAGCAGATCGCCCAGGACCGCTACAAGGCCGGCGGCGCCAGCTACCTGGAAGTGGTCAGCGCGCAGAACGACGCACGCCAGGCCCAGCTCGCGCTGCAGGCGCTGCTGACCCGACGCCTGCAGGCCAGCGCCGCGCTGATGGCCGCGCTCGGCGGCGGATGGGAGGGCAAGGCGGGCTGA	MARRPELRPLLLVAATTLAGCSLAPTYQRPAAPLPAQFEHATPASAAPVASVWWQAYGDATLDRLQQQLLDANPDLATALAHYDAARAAAGEIAAARAPQLGLQASTLQNRQSDHRPLRGSTGNDVYGNDSVQVSLGWDLDLWGRLRNQASAARARATASGDDLAAARLSLQRQLANAYFGLRGLDVQARILAASLDDYQQALAMTRSLFDGGLASELDVARARHQLASASAELEQTRSDRDLARHAIAALVGQPASGFVLDAAPAMPAVPELPAALPSELLQRRPDIAAAERRVYAANAGIGVARAAWFPSLSLTGSGGYQNAGDGTLLTRGNRFFALGPSLDLHLFDGGKRKAARAAAQAEFDAAAAQYRGTVLDAIREVEDQLSVLQRSIAQVRDEQDAADAATRAQQIAQDRYKAGGASYLEVVSAQNDARQAQLALQALLTRRLQASAALMAALGGGWEGKAG	PGPT0028955_622	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028955-oprC|opcM-K18903	NA	NA
BMS020_05783	2148	dapb2		Dipeptidyl aminopeptidase BII	ATGCCTGTCCGTACCGCGCTTTCCGCATCGCTGGCCCTGGGCCTGGCGGTGTCCGCCTCCGCCCGTGCCGATGAGGGCATGTGGATGCCCACCCAGCTGCCGCAGCTGGCCACGACCCTGCACGAGGCCGGCTTCCGCGGCGAGCCGGGGCAGCTGGCCGACGTGACCCGGCCGCCGCTGAGCGCGGTGGTCAAGGTTGGCGGCGCGACCGGCTCGTTCGTCTCCGCCGATGGCCTGGTGCTGACCAACCACCACGTCGCGATGGGGGTGATCCAGTACAACAGCACCCCGGCGCACAACCTGATCGACGACGGCTTCATCGCCGCCGACCGTAGCGACGAGCGCCCGGCCAACCCGGATTTCCGCGTGCTGGTCACGGTCGGCTTCGACAAGGTCACCGACCAGGTGCTGGCGCAGGCGCGCGGCAAGACCGGGCGTGCCTACTTCGACGCGGTCGAAGCGGCGACCAAGCGCATCGTCGCCGACTGCGAGCGCGACGGCAGCGTGCGCTGCAGCGTCGCCAACATGTACTACGGCAGCGATTTCTACCGCATCGCCCAGCTGGAGCTGAAGGACGTGCGGCTGGTCTACGCGCCGCCGCGGGCGATCGGCAACTACGGCGACGAGGTCGACAACTTCATGTGGCCGCGCCACAGCGGCGACTTCACCCTGCTGCGCGCCTATGTCGGCAAGGACGGCAAGCCGGCCGCGTACAGCCCGGACAACGTGCCCTACCAGCCGCCGGCGCACCTGCGCCTGGCCAAGGCCGGGCCGAAGGCCGGCGATTACGCGATGCTGGCCGGCTACCCCGGCACCACCTACCGCCACCGCACTGCCGGTGAGTTCGCCGAGCAGGTCGGCCACGTGCTGCCGACCCGGGTGGCGACGCTGGACGCGCTGATCGCGGTGATCGAGGCGCAGGGCGCGCACGATGCCGACGCCAAGACCCGCTACGCCTCGCAGCTGCAATCGCTGAAGAACAACCGCAAGCGCGCCGCCGGCGAGCTGGAAGGCCTGCAGCGCAGCGACGCGGTGCGCCTGCGTGGCGAGGACGAGGCGGCGATGCTGGCCGCGACCAAGGGCGCCGACGCGCGCGGCATCGCCCAGCTGCGCAAGGTGCTCGAGAGCGGCGCGGCTGGTGGCGACCGTGACCTGCTGCTGGGCTTCGCCGCCAGCCAGACCCAGCTGCTGGGCACCGCGCTGACCCTGGAGCGGCTGCGCATCGAGGCGGCCAAGCCCGATGCCGAACGCGAGAGCGGCTACCAGCAGCGCGACCTGGCGCTGATCGAAGGCAAGCTGCGGCAGGTGCAGCGCCGCTATGCGCCGCAGGTGGAGAAGGCGCTGCTGACCGCGCTGCTGGGCCGCTACCAGCAGCTGCCGGACGCGCAGCGCGTGCCCGAGTTCGATGCCGCGTTCGGGCGCACGCCCGCGCAGCTGGCCGCCGCGCTGGACACGCTGTACGCCGGCACCCGCCTGGGCGAGGAATCCGAGCGCCTGGCGCGCTTCGCCGCCGCGCGCGAAGGCCAGCCGCTGGCCGCCGATCCGCTGGTCGCGCTGGCCGCGGCGCTGGTGCCGGCGCAGCTGCGCCTGGAAGACGCACGCAAGGCCCGCGACGGCGAGCTGCTGCGGCTGCGTCCGGCCTACATGCGCGCGCTGTTCGCCTGGCGCAACGCCCAGGGCCGCGCGCTGTATCCGGATGCCAACAGCACGCTGCGCATCAGCTACGGCCGGGTCGAGCCGCTGGCGCCGCGCGACGCGGTCGCCTATGCGCCGGTGACCACGGTCGCCGGCATCGTCGAGAAGAACACCGGGCAGGTGCCGTTCGATGCGCCCACGCCGCTGCTGGCGGCGATCGCCAAGGGCGATTTCGCCGGCACCGCCGATCCGGCGCTGGGCACGCAGCCGGTGAACTTCATGACCAACCTGGACACCACCGGCGGCAATTCCGGCTCGCCGGTGTTGAACGCCGACGGCGAGCTGATCGGGCTGAACTTCGACAGCAACTGGGAAGCGGTGAGTGCCAGCTGGTGGTACGACCCGCGCTACAAGCGCGCGATCCACGTCGACATGCGCTACCTGCGCTGGCTGCTGGCCAAGGTCTACCCGGCGCCGCAGCTGCTGCGCGAGATGGGCGTGGAGCAGCAGTAA	MPVRTALSASLALGLAVSASARADEGMWMPTQLPQLATTLHEAGFRGEPGQLADVTRPPLSAVVKVGGATGSFVSADGLVLTNHHVAMGVIQYNSTPAHNLIDDGFIAADRSDERPANPDFRVLVTVGFDKVTDQVLAQARGKTGRAYFDAVEAATKRIVADCERDGSVRCSVANMYYGSDFYRIAQLELKDVRLVYAPPRAIGNYGDEVDNFMWPRHSGDFTLLRAYVGKDGKPAAYSPDNVPYQPPAHLRLAKAGPKAGDYAMLAGYPGTTYRHRTAGEFAEQVGHVLPTRVATLDALIAVIEAQGAHDADAKTRYASQLQSLKNNRKRAAGELEGLQRSDAVRLRGEDEAAMLAATKGADARGIAQLRKVLESGAAGGDRDLLLGFAASQTQLLGTALTLERLRIEAAKPDAERESGYQQRDLALIEGKLRQVQRRYAPQVEKALLTALLGRYQQLPDAQRVPEFDAAFGRTPAQLAAALDTLYAGTRLGEESERLARFAAAREGQPLAADPLVALAAALVPAQLRLEDARKARDGELLRLRPAYMRALFAWRNAQGRALYPDANSTLRISYGRVEPLAPRDAVAYAPVTTVAGIVEKNTGQVPFDAPTPLLAAIAKGDFAGTADPALGTQPVNFMTNLDTTGGNSGSPVLNADGELIGLNFDSNWEAVSASWWYDPRYKRAIHVDMRYLRWLLAKVYPAPQLLREMGVEQQ				NA	NA	NA	NA	NA
BMS020_05784	585			hypothetical protein	ATGGCCATCATCGACCTGCGCCACTACCTGCGCTGCTACGACGACGCGCTGGCACCCGAGTTCTGCCGTGGGCTGATCGCCCAGTTCGACGCCGCCGGCGGTGCGCAGGTGGCCAATGGCGCCGGCGTGCGCGCCGGGCTGGAGGACAGCGCCTGGACCGAGCTCAACGTGTCGCGGCTGGCCGACGCGGCGTTCAAGGGCTTCTTCATCGAACGCGTGAGCGAAGCGCTGGCGCGCTACAACGCCGACATCGGGCTGTCCTCGCCGGTGCCGTGGCGCCCACGCCTGGCCGACCTGCGGATCAAGCGCTACCGCGCCCAGGCCGGCGAGGGCTTCCAGCCGCATTTCGACGCCTGCGATGCCGAGGCCGGGCGCTACCTGGTGCTCCTGTGGTACCTCAACGACGTCGCGGTGGGCGGGCAGACCCGCTTCATCGACCTGGACATCGACGTGGCACCGCGCGCCGGGCGCCTGCTGGTGTTCCCGCCGTACTGGATGTACATGCACAGCGCGCTGCCGCCGGTCAGCGGCGACAAGTACATCCTCTCCACCTACCTGGAGTTCGCGCCGAAACCGGTGGCGTGA	MAIIDLRHYLRCYDDALAPEFCRGLIAQFDAAGGAQVANGAGVRAGLEDSAWTELNVSRLADAAFKGFFIERVSEALARYNADIGLSSPVPWRPRLADLRIKRYRAQAGEGFQPHFDACDAEAGRYLVLLWYLNDVAVGGQTRFIDLDIDVAPRAGRLLVFPPYWMYMHSALPPVSGDKYILSTYLEFAPKPVA	PGPT0020375_3083	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020375-P4HA_like-K00472	NA	NA
BMS020_05785	1314			hypothetical protein	GTGGTGGGCACGATGCAACGTCCTGGCCGGCCCGACCGGCTGGAGCAACTGTGGGACTACCTGCGCCGCGGCCGGCTGCAGGAGACGCGCCGGCGCGTGCAGGCCTGGCGCGACGAAGGCGATGCGCCCGCCGAGCTGGAACTGCTGCTGGCCGGCGTCGCGCTGGCCGAGGGCGATGCCGCCAGCGCCGCCACCAGCTACGCGGCCACGGCCGCGGCCGGCGGTGGACTGGCAGTGCCGGCGCGGATGGGACTGGGCAATGCGCTGGTCGTGCTGGGCGACGTGGCCGGCGCCATCGAGGTGTTGCGCACGCTGGTGCAGCAGGAACCAACGTACTTCCTGGCGCACCTGCGCCTGGGCGAACTGTTCGAACAACGCGGCGATCACCGCGCGGCGCTGCCGGCGTACTACGCCGCGGTGGTGCATGCGCAACGCCAGGGCCGCTGGCTTGGCGAGGGCAGCACCGCACCGGCGATGCGCCCGCGCGTGGTGCATGCGATGCACGCGATCGACAGCGGCCGCCAGCTGCTGTTCCAGGAACTGCTGGCACCGCTGCGGCTGCGCCATGGCCGCGATGCGCTGGTGCGCGTCGAACGCGGGCTGGCGATGTACCTCGGCGCGCTGCCGGCGCTGTACGACGATGCGCGCCAGCAACCGACCTTCTTCTACGTGCCGGACATCCCGGCCACGCCGTTTCCTTCGCGCAGCCTGTTCCCGTGGCTGGAGGAGCTGGAGGCGGCCACCGACGCGATCCGCGCCGAGATGCTGGCCACGCGCGCACGCGCCGATGCCTACGCACCGTTCCTGGGCGTGGACGCCGAGGCACTGCGTCCCGGGTTGCTGGCCGGCAGCCGTGGCACCCCGGCCTGGGATGCGTACTTCTTCTACCGCCATGGCGTCCGCGACGCGGCGCATGCCGGCGAATGCGCAGTGACCGCCGCGGCGATCGAGCGCACGCCGCTGGTGCGCATCCGCGACCACGCGCCGGAGATCTGCTTCTCGGTGCTGGCGCCGGGCTCGCACATCCTGCCGCACCGCGGCGTGACCAATACCCGGCTGACCGTGCACCTGCCGCTGCTGGTGCCGGGCGACTGCGCGCTGCAGGCCGGCGGCGAGCTGCATGCGTGGCGCGAGGGCCGGGCGATGGTGTTCGACGACACCTTCGAGCACGAAGCCTGGAACCGCAGCGCCGAGACCCGGGTGATCCTGCTGATGGACACCTGGAACCCGCACCTGGCGGCGGAGGAGCGCGCGGCGGTGACCAGCCTGGTCGAGGCCATCGGCGACTTCAACGCCAGCGTGCCGGCGGCCTGA	MVGTMQRPGRPDRLEQLWDYLRRGRLQETRRRVQAWRDEGDAPAELELLLAGVALAEGDAASAATSYAATAAAGGGLAVPARMGLGNALVVLGDVAGAIEVLRTLVQQEPTYFLAHLRLGELFEQRGDHRAALPAYYAAVVHAQRQGRWLGEGSTAPAMRPRVVHAMHAIDSGRQLLFQELLAPLRLRHGRDALVRVERGLAMYLGALPALYDDARQQPTFFYVPDIPATPFPSRSLFPWLEELEAATDAIRAEMLATRARADAYAPFLGVDAEALRPGLLAGSRGTPAWDAYFFYRHGVRDAAHAGECAVTAAAIERTPLVRIRDHAPEICFSVLAPGSHILPHRGVTNTRLTVHLPLLVPGDCALQAGGELHAWREGRAMVFDDTFEHEAWNRSAETRVILLMDTWNPHLAAEERAAVTSLVEAIGDFNASVPAA				NA	NA	NA	NA	NA
BMS020_05786	2724	btuB_12		Vitamin B12 transporter BtuB	ATGCCCGCGATTACCAGCAAGCTCGCCCACGCCGTCCGCCTCGCGCTGCCACTCGGCCTGGCGCTCGCCCCCACCCTGCTTTACGCGCAGACCACCGATGCCGGCAGCGATGCCAGCAAGTCACCGGTCGACCTGGATACGGTGTCGGTCACCGGTTCGCTGGTGCGCCGCGTCGATGTGGAAACCGCCAGCCCGGTCGCGGTGGTCGACCGCGAGCAGATCCAGCAGAGTGGCAAGCAGACCCTCGGCGACCTGCTGCAGTCGCTGCCCGGCATCGCCGGCGCCGCCACCAACCCGGCGGTCAACAACGGCGGCGGCGACGGCAAGTCGACGATCTCGCTGCGCGGCCTGGGCTCGGCGCGCACGCTGATCCTGATCGACGGCCACCGCGTGCTGAACAACGACGTCAACGCGATCCCGACCAACATGATCGAGCGCGTGGAAGTGCTGAAGGTCGGCGCCTCGGCGATGTACGGCTCCGACGCGATCGGCGGCGTGGTCAACTTCATCCTGCGCAAGAACTTCGAAGGCGGCGAGTTCAGCGCCAACTACGGCCAGACCAGCGAGGGCGATGGCGCCCGCCACGGCGGCACCTTCACCTGGGGCAAGACCTGGGACCGCGGCAGCCTGGTGCTGGGCCTGGACTACAACGAGCAGAACTCGGTGTCCTCGGCCGACCGCGCCTACTCCAAGGACGCGCTGTACCTGACCAGCGGCGTGGTCACCAAGAGCGGTTCCAGCCGCACCCCGGGCGGCTACTACAAGCTGCCCAGCGCCACCCTGGCGGCCAACGGCTGCAGCACCAGCGGCGCGATGACCAGTGATGGCGCCGGTGGCTACAAGTGCTACAGCTCGTCGGATGCGTACAACTACCAGGCCGACAACCTGCTGCTGACCCCGCAGGAGCGCGTCAACGGCTTCGTGCTGGGCACCTTCAACGTCACCGACAACGTGCAGGCGTACGTCAACGCGTACCACAACCACACGATGTCGAACATGAGCATCGCGCCGCTGCCGTTCGACGCGCAGAGCGACGGCATCACCATCGCCGCCGACAACGCCTACAACCCGTTCGGCGTGGAATTCGGCCCGGACGGCTATGCCTACCGCACCCGCTTCACCTCGCTGGGCAACCGCGAGTCGTTCTACGACACCACCACCGACCAGGACATCCTCGGCTTCAAGGGCAACTTCGGTGACACCAGCTGGGCCTGGGACGTCAACTTCAACTACGGCCACTACAAGCAGGATTCCTGGACCTACGGCTACGTCGACTACACCGCGCTACAGGAAGCCATCGACGCCGGCACGATCAACATCTTCGACCAGAGCGATGCGACCACCTCGGCCTGGCTGAAGAGCCACGAGTCGGTGCCGCGCTACACCACCACCTACATCACCAAGCAGTGGGAAGCCAGCGCCAACGGCAACCTGTTCGACCTGCCGGCCGGCACCATGCAGCTGGCGACCGGCCTGCTGTACCGCAAGGAGACCGAGAACTACACCGTCAGCAGCAACGCGGTGATGGACGACGACGGCACCTGCGCGATCTCCTCCGAGGCGTGCTCCTCGCCGCTGAGCGGCGGCTTCGACGTCAAGGAAGCCTACGCGCAGCTGTTCGTGCCGATCCTGGACCAGTCCTCGCCGATCGGTGCGGTCAACGCCACCATCAGCGACCGCTTCTCCGACTACAGCAGCGTCGAGTCGACCAACAACAGCGCCTCGCTGCAGCTGGAATGGCGTCCGTTCAAGGACCTGATGCTGCGCGGCACGGTGGCGCAGGTGTTCCGCGCGCCGACCATCAGCGACCTCTACGCCGGTCCGACCGCCAACTCGCCGACCTTCGAGGACCCGTGCATCGGCTACTCCGGCAGCGGCCACGACAACGCCTGCGCCGGCGTGCCGGCCGGCTGGGAAGGCTCGGGCCTGTCGCAGACCAGCTCGATCGTGTCCGGCTCGGTCTACGCCGGCTACGACCTCAAGCCGGAGAAGGGCAAGTCGTTCGACTACGGCCTGGTCTACAGCCCCGAGTTCGTGCGCGGCCTGTCGATCAACCTCGACTGGTGGCGGGTCAAGCTCGACGACCTGATCCAGACCATCGATGCGCAGACCGTGGCCGACCTGTGCTACGCCGATGACGCCAGCTCGTACTGCTCGATGATCCACCGCTACTCGTCCGATTCGGTCAGCGCCGGCACCATCGACTACATCGAGACGCCGACGGTCAACATCGGCAGCCTGGACACCCAGGGCATCGACGTCGGCTTCAACTACGCGCTGCCGGAGACCGGCTTCGGCAAGTTCAACCTGGCCGTGGACACCACCTACCTGCAGCGCTACGACGTCGACACCGGCTCGACCGTCTACCACCTGGCCGGCAAGTACGACTCCTCGTTCGGCAACTACGCGCGCTGGCGTGGCCGCGCCCAGCTGGCCTGGAAGCTGGGCGACTGGGACGCGACGCTGACCGAGCGCTACATCGGCAAGGTGCACATCGACAGCGACACCGATCCGCTCGACTTCGGCAGCTACACCTACCACTCGATCAGCGTGGGCTACACGATGGCGCCGGCGCACCTGCGCTTCGAGCTGGGCGTGGACAACCTCAGCAACAAGCAGCCGCCGATCATGTACATGAACAATGTGATCAACGCCAACACCGACGTCAGCACCTACGACACGATTGGCCGGTATATGTGGGGGCGCGTGACCTACACGTTCTGA	MPAITSKLAHAVRLALPLGLALAPTLLYAQTTDAGSDASKSPVDLDTVSVTGSLVRRVDVETASPVAVVDREQIQQSGKQTLGDLLQSLPGIAGAATNPAVNNGGGDGKSTISLRGLGSARTLILIDGHRVLNNDVNAIPTNMIERVEVLKVGASAMYGSDAIGGVVNFILRKNFEGGEFSANYGQTSEGDGARHGGTFTWGKTWDRGSLVLGLDYNEQNSVSSADRAYSKDALYLTSGVVTKSGSSRTPGGYYKLPSATLAANGCSTSGAMTSDGAGGYKCYSSSDAYNYQADNLLLTPQERVNGFVLGTFNVTDNVQAYVNAYHNHTMSNMSIAPLPFDAQSDGITIAADNAYNPFGVEFGPDGYAYRTRFTSLGNRESFYDTTTDQDILGFKGNFGDTSWAWDVNFNYGHYKQDSWTYGYVDYTALQEAIDAGTINIFDQSDATTSAWLKSHESVPRYTTTYITKQWEASANGNLFDLPAGTMQLATGLLYRKETENYTVSSNAVMDDDGTCAISSEACSSPLSGGFDVKEAYAQLFVPILDQSSPIGAVNATISDRFSDYSSVESTNNSASLQLEWRPFKDLMLRGTVAQVFRAPTISDLYAGPTANSPTFEDPCIGYSGSGHDNACAGVPAGWEGSGLSQTSSIVSGSVYAGYDLKPEKGKSFDYGLVYSPEFVRGLSINLDWWRVKLDDLIQTIDAQTVADLCYADDASSYCSMIHRYSSDSVSAGTIDYIETPTVNIGSLDTQGIDVGFNYALPETGFGKFNLAVDTTYLQRYDVDTGSTVYHLAGKYDSSFGNYARWRGRAQLAWKLGDWDATLTERYIGKVHIDSDTDPLDFGSYTYHSISVGYTMAPAHLRFELGVDNLSNKQPPIMYMNNVINANTDVSTYDTIGRYMWGRVTYTF	PGPT0003790_4313	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_05787	1845			hypothetical protein	ATGCCTGCTGAAGCCACCGCCGTCCCCGTCACCCCCGAGGCGCTGTTCGCCGCACTCGATGCCGGGCAGGGCGAGGCGTTGGAGCGCGGCGCGCGCGCGGCGCTGGCGCGGCATCCGGACGATGCGCTGCTGCGTGGCCTGCTGGCCGCGGGTCTGCAGCTGCAGGGCCGGGTGGCCGAAGCCGCCGAACAGCATGCCGCGCTGACCCGGATGCAGCCGCACGAGCCGGCGCACTGGAACAACCTCGGGACCGCGTTGCGCGAACTGCAGCAGCCGCAGCCGGCCGCCGAGGCCTACCGCACCGCCTGCCGGCTGGCGCCGCGCGATCCGCTGCCGCACCACAACCTCGGCCTGCTGGCATTGGAACGCTGCGATTACGCCGCCGCCCGCGAGCACCTGCTCGATGCCCACGATTGCGATCCGGCCGCGCCGCTGCCACGCCTGCATGCGGCGATGGCCTGCCATGAGTGCGGCGACTTCGTGCGCGAGCAACGCCTGCTGGCGCCGTGGCGGCAGTGGCCGCCGCTGGACGATGCCGACACCCTGGAGCTGGCCTGGCTGCTGGCGCAGCACGGCGACACCGAGGCGGCCTGCGCGCTGCTGCAGGCGTTGGCTGCGCGCATGCCGCAGCCGGCGCGCGCGATCGCGCGGCAGGTGCTGGTGCTGGAGCGGGTCAACCGCCTGGACGAAGCGCGTGCCGCGCTGGCGCGGCTGCCGGCGGCCGACACCCTGGACGACACCGACGCGCGCGAGGACGTGCTCAACGCGCAGGCGGTGCTGGCGATGCGCGACAAGGACTGGGTGCGCGCGCATGCGCGCTTCGCCCAGCTGCTGGCCGATCCGGGCGATGCGCGCAAGCAGAGCAGCCTGTACTTCGCCTTCGCGCGGGTCTGCGATCGCCTGGGGCGTGCCGACGAGGCGATGGCGGCGTGCGCGCAGGCGCATGCGGCGCAGGTGGGCGGCGTGGCCGGGCTGGTGCCGGAGATGCTGGCGCCGGGCGCATCGGCGCTGCCGGCCGCGCGCGCGCGGGTCAGTGCGCATGCGCTGGCCAATGCACGCAGCGTGCAGTCGCCGACGTTCGCGCAGTCGCCGGTGTTCGTGGTCGGTTTCCCGCGCTCGGGCACCACGCTGCTGGAGCAGATGCTGGATGCACATCCAGGCCTGTGCGCGATGGACGAGCAGCCGTTCCTGCAACAACTGGCCGAGCTATTGGACCGGCGCGGCGTGGCCTGGCCGGACGGACTGGCGCGGCTGGGCCAGGACGAATGCGACGCGCTGCGCGCCGACTACCTGCAGCGGGTGCGTGGCGTGGTCGAACTAGGCCCGGGCCAGCGCCTGGTCGACAAGAATCCGCTCAACCTGCTGCGGCTGCCGTTGATCCGGCGGCTGTTCCCGCAGGCGCCGGTGATCCTGGCGCTGCGCCATCCCTGTGACGTGCTGCTGAGCTGCTACATGCAGTCGTTCCGCTCGCCGGCCTTCGCGGTGCTGTGCGCCGACCTGGAGCGCCTGGCCGACGGCTATGCCGAGGCGATGGCGCACTGGGACTATCACGCCCGCGCGCTGCCCGGCCCGGTGCTGGAGCTGCGCTACGAAGACCTGGTCGCCGCGCCGGCCGATGCCGCCGCGCGCCTGGGACAGTTCCTGCGCCTGGATGATGCCGGACCGCTGCTCGGCTTCCAGCAGCATGCGCGCGCGAAGGGCTACATCAGCACGCCGAGCTACGCGCAGGTGGTGGAAGGCATCCACCGCGGCGCGCTCGGGCGCTGGCAGACCTACCGCCGGCAGTTCGCGCCGGTGATGGCGTCGCTGCAGCCATGGCTGCAGCGCTGGGGATACGACGGCTGA	MPAEATAVPVTPEALFAALDAGQGEALERGARAALARHPDDALLRGLLAAGLQLQGRVAEAAEQHAALTRMQPHEPAHWNNLGTALRELQQPQPAAEAYRTACRLAPRDPLPHHNLGLLALERCDYAAAREHLLDAHDCDPAAPLPRLHAAMACHECGDFVREQRLLAPWRQWPPLDDADTLELAWLLAQHGDTEAACALLQALAARMPQPARAIARQVLVLERVNRLDEARAALARLPAADTLDDTDAREDVLNAQAVLAMRDKDWVRAHARFAQLLADPGDARKQSSLYFAFARVCDRLGRADEAMAACAQAHAAQVGGVAGLVPEMLAPGASALPAARARVSAHALANARSVQSPTFAQSPVFVVGFPRSGTTLLEQMLDAHPGLCAMDEQPFLQQLAELLDRRGVAWPDGLARLGQDECDALRADYLQRVRGVVELGPGQRLVDKNPLNLLRLPLIRRLFPQAPVILALRHPCDVLLSCYMQSFRSPAFAVLCADLERLADGYAEAMAHWDYHARALPGPVLELRYEDLVAAPADAAARLGQFLRLDDAGPLLGFQQHARAKGYISTPSYAQVVEGIHRGALGRWQTYRRQFAPVMASLQPWLQRWGYDG				NA	NA	NA	NA	NA
BMS020_05788	849			hypothetical protein	ATGCGCCGCACCGCACCCCAGGGACTCTTGCTCGGCGTCGCCCACGCGCCGCTCTGCGCCGCACTCGCCGGCTGCGCCTCGACCCCGCCGGCCAGCAACGCGATGGTGCCGGAGATCGCACCGGGGGTCATGGCCGGCTACCTCGACCAGAAGCAGCTGCCCGACAGCCTGGCGCTGCTGCCGCCCCCACCGCAGCCGGGCACCCCGGCGTTCGCCAACGACGAGGCCGTGCATGCAGCGGCGAAGGCCTTGCGCGGCACGCCGCGCTGGCAGCTGGCCGCGCTCGACGCCGAACTGATGAAGCCCAGCGCGCTGCAGACTTTCAGCTGCGCGCTCGGGGTGCCGGTCAACGACACCGACACGCCCAACCTGGCGCGGCTGCTCAAGCGCACCCTGGTCGATGCCGGCCTGTCCACGTCCGCCGCCAAGACCCACTACCAGCGCACCCGCCCGTTCGTCGCCCACGGCGAGGACACCTGCCTGCCCAAGGACGAACCCGGCCTGCGCAAGGACGGCTCGTATCCCTCCGGGCACACGGCGATCGGCTGGACCCACGCCCTGGTGCTGACCCAGGTATCGCCGGGCAACGCCAACACCCTGCTCGCGCGCGGCCGCGCCTTCGCCGAGAGCCGCGTGGTCTGCAACGCGCACTGGCAGAGCGACATCATCGAGGGCAAGGTCGTCGCCGCCGGCACCTACGCGCTGCTGCAGGCCAACCCGGGCTTCCGCGAGGACGTGCGCCTGGCCGCCGACGACGTCGCCAGGGCGCGCGCCGCCGGGCTCAAGCCCACGCACGACTGCAGCGCGGAAGCGGCGGCGTTGGCGATGCCGATTCCCGGGGTGCTGTGA	MRRTAPQGLLLGVAHAPLCAALAGCASTPPASNAMVPEIAPGVMAGYLDQKQLPDSLALLPPPPQPGTPAFANDEAVHAAAKALRGTPRWQLAALDAELMKPSALQTFSCALGVPVNDTDTPNLARLLKRTLVDAGLSTSAAKTHYQRTRPFVAHGEDTCLPKDEPGLRKDGSYPSGHTAIGWTHALVLTQVSPGNANTLLARGRAFAESRVVCNAHWQSDIIEGKVVAAGTYALLQANPGFREDVRLAADDVARARAAGLKPTHDCSAEAAALAMPIPGVL	PGPT0002555_31	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0002555-phoN|phoC-K09474	NA	NA
BMS020_05789	1716			hypothetical protein	ATGAGTTGGGCCATGGAATCGCTCGGTCTTGCGGCCGACGCGGACGCGCGCGCGGTCAAGCGCGCCTATGCCGCCCGGCTGAAGACCACGCGCCCCGACGACGATCCGGTCGCATTCCAGCAGCTGCACGAGACCTACCAGGCCGCGCTGGCCTGGTGCGCCCGCGCGTCGGCGCGGGCCGATGACGCCTGGCCACGGGCCGGCGCCGCGGCCATCGAACGTGCGCCGGCCCTCTCGGCGCCGCCACAGCCCCTTTCCTCCACGCAGCAGCACCGGCCTCCTGCCGCCACCGCGACGCCCGCGATCGGCAACGGCGCGCGCGCCGAGCGCATCCACGATCCGGCCCTGGAAGCGGAGCTGCACGGCTGGCAGGACGCCTTCGATCCGCAGGCCTGTGCGGCCCGCATCGTCGACGCGGCGCGGACCATGCCGGCGGCGGCCTTCCCGGCATGGCTGCGCGCGCTGCCGGAGCTGTGGGCGATCGAGGTGCATCCCGAAGTTGGTCACGCCGTGCTGGCACACCTGTGCGCCGATCCGCGCGAGCTCGCGGACGCGGCATACGATGCCCTGGCGGCCGAGTTCTCCAGCTACGTCTGCGATCTGGACGTGGACGCATGCAGCACCCGCATCGTCACCGCGGCCATGCGCATGCCCAGCCCGGCCTTCGCCGGATGGATGCAGCGTCGCCCCGAGATGCTGTCCAGCACCGGCCAACACCAGATCGGTGCGGCGGTGCTGGCGCGCCTGTTCGCCGACACGCCGGCACTGCCGCATGCCGCCATCGATGTCCTGGCCGAGCGTTTCGGCTGGGGGCACGATGACAGCGGCGTCAGCCGCAAGCAGCTGCACACGCTGCGCAACGCATTGAACCAGCGCGCGGTACTGCAGCCGGACGGCGATCGCGATGCCTTGGCGGCCGCGCTGGCGCACGCCGGCTGGCCCGCGATCACCCCGTCGATGGCCGCCCAGCTGCGCCTGCGCGCCAGCCAGCCGTACTCGGCATGGCGGTCGTTCGCCCAGGCGCTGGTGCCGCTGCAGCCGCGCCGCATGCATCGCTTCGCGGCGCTGGTGCGGCAGTGGTTCCCTGACGCGCTGCCCGCCGCGCTGTCGTCGGCGCAGTTGCGGTTCTGGTCGCAGATCGGCAATGCCCAACGCCCGCACGTGCGCCAGCTGATCCTCGCGATCACCCGCGGCCTGCTCGTCGCCCTCGCATCGGCGCTGCCGGTCGCCCTGATCGCCCACTGGGGCTGGAATCTGGATGCCGCCAGCGCGATGCAGCTGGTCGCCCTGGCGCTGGTCGCCTGGATCGGACTGGCGGTGCTCCAGTTCCTGGCCCGCTGGCAGGCACGGGCCGATATCAGCGCCCCGTATCCGTACGCGGTGCAGCAGGTGGTGCTGCCGCTGGGCATCGTTGCGATCGGCACGCTCCTGCACGGCACCGGCAATGGTGCCGCCGCCGGCGCCGGCATCGCATTGGCCTATCTCAGCCTGGCCCGCCTGCTCGGCCGGACCGAGGCGCGCCTGCGCGGACGCGTCGTCGCGCTGATCGCGATCTCCTCACCGGCCACGCTGCTGCCGCTGTTCGGCTTCGGCGATACCGCCATCCCGTGGCTGGTTGTCGCCACGCTTCTGCTGCTCGCGCCGGTGCTCATCGACGACCGCCGCGAGGCGAACCACTCGACCTCCCGGCTGGGAAACAAAGGAACTCCGCAATGA	MSWAMESLGLAADADARAVKRAYAARLKTTRPDDDPVAFQQLHETYQAALAWCARASARADDAWPRAGAAAIERAPALSAPPQPLSSTQQHRPPAATATPAIGNGARAERIHDPALEAELHGWQDAFDPQACAARIVDAARTMPAAAFPAWLRALPELWAIEVHPEVGHAVLAHLCADPRELADAAYDALAAEFSSYVCDLDVDACSTRIVTAAMRMPSPAFAGWMQRRPEMLSSTGQHQIGAAVLARLFADTPALPHAAIDVLAERFGWGHDDSGVSRKQLHTLRNALNQRAVLQPDGDRDALAAALAHAGWPAITPSMAAQLRLRASQPYSAWRSFAQALVPLQPRRMHRFAALVRQWFPDALPAALSSAQLRFWSQIGNAQRPHVRQLILAITRGLLVALASALPVALIAHWGWNLDAASAMQLVALALVAWIGLAVLQFLARWQARADISAPYPYAVQQVVLPLGIVAIGTLLHGTGNGAAAGAGIALAYLSLARLLGRTEARLRGRVVALIAISSPATLLPLFGFGDTAIPWLVVATLLLLAPVLIDDRREANHSTSRLGNKGTPQ				NA	NA	NA	NA	NA
BMS020_05790	1692	hscC	COG0443	Chaperone protein HscC	ATGATCGTAGGCATCGACCTGGGCACCACGCACTCGCTGATCGGCATGCACGACGCCGACGGCGGCCGGCTGTTCGCCAACCCGCACGGCAGCGTGCTGACGCCGTCGGTGGTCAGCCTCGGCGACGACGGCAGCCTGCTGGTCGGCCAGCCCGCACGCGAGCGCCTGGTGACCCATCCGCGGCACAGCGTGGCGGCGTTCAAGCGCTGGATGGGCAGCCCGCGCGAGACCAAGCTCGGCGAGCGCAGCTTCCGCCCCGAAGAGCTGTCGGCGCTGATCCTGCGCTCGCTGCTGGCCGATGCCGAAGCGGCGCTGGGCACCCGGATCGAAGAGGCCGTCATCAGCGTGCCGGCGTACTTCTCCGACGCGCAGCGCAAGGCCACGCGGATCGCCGGCGAGCTGGCCGGGATCCGGGTCGAGCGGCTGATCAACGAGCCCACCGCCGCCGCGCTCGCCTACGGCCTGCAGGAGCGGGGCGGCGAAGGCCGGGTGCTGGTGCTCGATCTCGGCGGCGGCACCTTCGACGTCTCGCTGCTGGAGATGTTCGACGGCGTGGTCGAGGTGCATGCCAGCGCCGGCGACAACTTCCTCGGTGGCGAGGACTTCCTCGAAGCGCTGGTCGCCGGCTTCTGCGCCGAGCACAAGCTCGACCCGGCCAGGCTCGCGCCGGGCGACAGCGCCCAGCTGCGGCGCCGGCTGGAACAGCTCAAGCGCGAGCTGAGCACGCAGGCGCAGGGATCGGTTGCGCTGAGCATCGGCGGCACGTCGCTCGAGTGGAGCATCGACGAGGCCCGCTTCGCCCAGCTCGCCGAGCCGCTGCTGCAGCGCATGCGCACGCCGATCGAACGGGCATTGCGCGACGCCAAGCTGAAACCATCGGAGCTCGACGACATCGTGCTGGTCGGCGGCGCGGTGCGCATGCCGATGATCAGCCGCCTGGCCACGCGCATGCTCGGCCGGTTGCCGCTGCGCCACGTCAATCCCGACCATGCGATCGCACTGGGCGCGGTGGTCGCCGCCGGCCTCAAGAGCCGCGACGAGAGCCTGCGCGAAGTGGTGCTGACCGACGTGTGCCCGTACACGCTGGGCACCAGCGTGTCCCGCCGCGGCAGCGATGGCCAGATCCGCAACGGCTATTTCCACCCGATCATTCCGCGCAACAGCGTGGTGCCGGTCAGCCGCGAAGATCGCTTCCACCCGGTGCACGAACACCAGACCCAGGTCAGCATCGATGTCTACCAGGGCGAAAGCCCGACCGTGGACAAGAACATCAAGCTCGGCGAGCTGTTCATCAAGCTCGACCCCGGCCGTCCCACCTCCGAGCAGAGCGTGCTGGCGCGCTTCACCTACGACGTCGACGGGCTCCTGCAGGTCGAGGCGATCGAGGAAGCGACCGGCAAGCGCCACGAACTGGTGCTGGAACAGAACCCCGGCCTGCTCGACCGCGACGAGATCGCGCGGCGCCTGGCGGCCCTGGCCGAGCTGAAGGTGCATCCGCGCGACCAGCAGCAGAACCTAGCCCTGCTGGCCCGCACCGAGCGCATCTACGAGGAATACATCGACGCGCGGCAACTCGTGCAGCACTGGCTGGCGCAGTTCCGCGACGCGCTCGACAGCCAGGACCTGCAGCGTATCGCGCGCCACCGCGAGGAGCTGGAGCAGGCGCTGGACGAGCTGGAAGCGCGCGCGTGA	MIVGIDLGTTHSLIGMHDADGGRLFANPHGSVLTPSVVSLGDDGSLLVGQPARERLVTHPRHSVAAFKRWMGSPRETKLGERSFRPEELSALILRSLLADAEAALGTRIEEAVISVPAYFSDAQRKATRIAGELAGIRVERLINEPTAAALAYGLQERGGEGRVLVLDLGGGTFDVSLLEMFDGVVEVHASAGDNFLGGEDFLEALVAGFCAEHKLDPARLAPGDSAQLRRRLEQLKRELSTQAQGSVALSIGGTSLEWSIDEARFAQLAEPLLQRMRTPIERALRDAKLKPSELDDIVLVGGAVRMPMISRLATRMLGRLPLRHVNPDHAIALGAVVAAGLKSRDESLREVVLTDVCPYTLGTSVSRRGSDGQIRNGYFHPIIPRNSVVPVSREDRFHPVHEHQTQVSIDVYQGESPTVDKNIKLGELFIKLDPGRPTSEQSVLARFTYDVDGLLQVEAIEEATGKRHELVLEQNPGLLDRDEIARRLAALAELKVHPRDQQQNLALLARTERIYEEYIDARQLVQHWLAQFRDALDSQDLQRIARHREELEQALDELEARA	PGPT0014555_6587	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043	NA	NA
BMS020_05791	1557			hypothetical protein	GTGAGCTGGGCGCTGCGGGCGCTGGGCCTGGCGGATGACGCGGACGAACGCGCGATCAAGCGTGCGTATGCGGCCCGCCTGAAGGTCACCCGCCCCGACGACGACCCGGTCGGCTTCCAGCAGCTGCACGAGACCTACCAGACCGCGTTGGCCTGGCGGCGGCAGCAGGCGGCGCAGGCGTTGGACGCCACCGCCGAGGCGGACCACGAAGGCGATGGACGTGGCCGCGATGGCGATTGGGGGCATGACGCCGGTCTCGAGGTGGAGACCACGCGCCTGCCGGCCGCGCTGGCGATCCCGCCACCGCAGGCCCCGGCCCCGGCACGGGATGCAGACCGTGCCGCGGCACGACGTCCGCTGCCTGCCGTGCCGCCCGAACCGATCGGCCACCAGGCCCCCACCTCGCATGCGCAGGTGCATCTCGATGCGCCTGCCATCGACATCGTGCAGCTCCAGCTGCGCGTGCTGCAGCAGGCCCGCGTGCTGGAGCCGGAGCCGCTGGAACGCTGGCTGCTCGCCCAGCCGGAACTGTGGTCGCTGGAACACAAGCCGCGGCTCGGCTCCGCGCTGCAGTGGCGCATCCTGGAGCAGCCACCCGCGTTGAGCAGCTACAACTACGACGTGCTGGCGAAGTTCTTCGACTGGGACCACGCAATGGACGCACCCGACCCGTTCCTGGTCCAGCAGGCGCGTCAGCAGATGCATCGGCACTGGCTGCTGCAACCGCAGGGCTATGGCGAACTGAGCCGGGAGCTGCAACGGCGCGGCGATGCCAACGCATCGGTGGCGGCCGTCCGCACGATGATCGGCTGGCTCAAGCCGGCCCCGTCGGAGGGCGCGGCCTTCGCCGCCATGTTGTGGCCGCCGCGGGTCCGGCGCGTGCGGCGCCTGCTCGACCTGGTCGGCTATGCCCCGACTGCCGGCAGGCCGCCGGCGCCGCTCGACCGCGAGCGTGCCGCCGGGTGGTACTTCGCCAGCGCCAAGCAGGCGTTCAACCCGGTGATCGCGCTGCTCGGTCTGGCGCGCAGCGGCATCGTGGCCGCGGTGATCCTGGGCCTGAGCCTGTTGCTGGCGATGATCGACAACAATCCGGCCGCCGGCATGTCGCCGGTGTTGCGCGCAGGTCTGTACGGCGCCGGGGCCGCCATCGGCGGATGGATCGCGTGGTACGGCTTCACCTCGCTGGCGCGCTGGCAGGCCCGGGCCGAATCGGATCGAATGCTGGTGCGCCCCGCCGTGCAGCGCTTTTTCATCCCCGCCGCGACGCTGATCACCGCCGCGCTGCTGGCACTGGGGCTTGAGGCGACCGCACGCACGCTCGCCCTGGTGCTGCTGGGCCTGGCGCTGTGGCGCTGGGCACGCCGCAGCGGCTGGACCCCGCAGTTCCGCTGGGGCTGGGGATGGGGCTGGCTGCTGATCTTCGGCGTCAAGGCGGCGGCACTGGCCATCGGCATGCTGGTGATGTTCCCGGCCTTCACGCTGGCGGCCACGGCGATCGCCTGGATCGCGGACTGGTTCATGCAGCGCCCGGCGCGAGCGGCGCTGCGCGGGCGCTGA	MSWALRALGLADDADERAIKRAYAARLKVTRPDDDPVGFQQLHETYQTALAWRRQQAAQALDATAEADHEGDGRGRDGDWGHDAGLEVETTRLPAALAIPPPQAPAPARDADRAAARRPLPAVPPEPIGHQAPTSHAQVHLDAPAIDIVQLQLRVLQQARVLEPEPLERWLLAQPELWSLEHKPRLGSALQWRILEQPPALSSYNYDVLAKFFDWDHAMDAPDPFLVQQARQQMHRHWLLQPQGYGELSRELQRRGDANASVAAVRTMIGWLKPAPSEGAAFAAMLWPPRVRRVRRLLDLVGYAPTAGRPPAPLDRERAAGWYFASAKQAFNPVIALLGLARSGIVAAVILGLSLLLAMIDNNPAAGMSPVLRAGLYGAGAAIGGWIAWYGFTSLARWQARAESDRMLVRPAVQRFFIPAATLITAALLALGLEATARTLALVLLGLALWRWARRSGWTPQFRWGWGWGWLLIFGVKAAALAIGMLVMFPAFTLAATAIAWIADWFMQRPARAALRGR				NA	NA	NA	NA	NA
BMS020_05792	588			hypothetical protein	ATGAAGATCGTCTCCGGCACCACTTGGGCCCTGCTGCTGGTGGCATGCAGCCCTGCTCCCTCTGACGTGCTAGAGGCGTCGAAGCACGCGCCCATTGAGGCCGTCCCTTTGGCAGCGGCGGGCATCGACGCTAGTCAAGGCTCCATCGCGGGCCTGCGTACGGGTATGACTAAAGACCAACTTGTTGGAACCGGGCACGCCATCATTGAACGCTCGGTCATGCAGGAAGGGGACGAATATGTGGTTATGGACGTCTCGCTACGCGACGGTTCGACTGTCGAATGCTGGTTTGACAATGACAGGATAGAGCGGCTGCGAACCACCGCCAAAGGCATGAGTGACGAAAAGGGGCTTGGTGTCGGCTCCACGCTGGCTGCACTTAAGGCCGCCTACCCCGGCGGCCGTCTGATTACAGGAAGCGAAGACGGGCAGCGCTATGCCAACTTCGTCAACAGCTCCAGGGTAGTCTTCGAGATGGACATGGATGCGCTTCCGCAAGCATGCTTCCATGACGAAAGTGTCGGATGTGACGCGCGCCCGGACCTACTTGTGCGTGGCGTTGTTGTGCATTCCGGTCCAGCGGGCTGA	MKIVSGTTWALLLVACSPAPSDVLEASKHAPIEAVPLAAAGIDASQGSIAGLRTGMTKDQLVGTGHAIIERSVMQEGDEYVVMDVSLRDGSTVECWFDNDRIERLRTTAKGMSDEKGLGVGSTLAALKAAYPGGRLITGSEDGQRYANFVNSSRVVFEMDMDALPQACFHDESVGCDARPDLLVRGVVVHSGPAG				NA	NA	NA	NA	NA
BMS020_05793	3510			hypothetical protein	ATGGATCAGGTCAGTTGCCTGCGTCGCAGTTTCCAGTGCTTGCGCGCCGTGCTCGGGTTTCTAGTTGTCACTTTGGGCCTATTTCAAGCAGTGCCTGCTTGGGCAGCCCGTCAATGCGGAGATGGCTCGACGGCGGGGGGGCCGACATGTCCCGAGGATCCGGATCCAGTGACGCCGCTGCGTTTCGCGCAGTTCGCGTCGCGATCGGTGCCGACCACGATGGTGGTTGGCCAGAGCTACCCCGTTTCTGTCGCGATGAAGAACGCTGGGCTTTCTACCTGGGTGGCCAGCCAGGGATACAACTTGGGTTCGCAGAATCCGGGTGACAATGGAACATGGGGGCTTGGCCGCGTCCCTGTTCCCTCCGATACCCCCTACGGTGCAACGGCGACATTCAACTTCACCGCCAAGGCGCCGCTTAGCGCCGGAACCTATAACTTTCAATGGCGGATGGTGCTGGATGGCGTCGAATGGTTCGGCAGCAGTACCCCGAATGTCAGTGTCCAGGTGCTGCCATCGGTCATCACCGGGACCGTTGATGGCGTTTCCGGGGGAACCATCAACGGATGGGCATGCTCGACCAGGTTGAACACCTCGATCGATGTGCACCTGTATGTCGGCGGGGCAGCCGGGACGGGTACCAATGTTGGTGCCTATCGAGCAAATGGCAACAGCGAGGCCGCGGTAGCCACAGCGTGCTCTGCAGCCGGAAGCAACTATCGCTTCTTCATTCCCGTCACCGAAGCGATGATCCGTGCCCATGGCGGCAAGGCGATCTATGTGCATGGCATATCGCCAGTGGGATCTTCAAACAATTCCGTCGCCAGTTCAGGAAAGTATGCGATCCCGACAATAGTGCGGGACGCCACTTTCGTCAGCCAGTCGGTTCCTACCACCATGACGGTGGGGAATGCCTACCCTGTCACGTTGACGTTCAAGAACACCGGCAATATCACCTGGAAGAAGTCAGAGTCGGTACGGCTTGGCGCTGCCAATCCGTTGAACAACGGCAACTGGACCACGGCCCGGGTCGAGTTGCCCAATGACGTGGCTCCAGGAGAGTCGGTCTCGCTGACATTCTCAGTGACTCCAACAGGCTACGGTCAGAAGAACTTCCAGTGGCAGATGCTGCAGGAGGGCGTGGCCTGGTTCGGATCGGCCAGTACCAATGTTGCGGTGAATGTGATCACCCCGCCGACGGTAGCCATGACTGCGCCGGTGAGCGGCACGTTCAACTATGCGCCGGCCAATGTCGTGCTGCGGGCGGATGCCAGTGACCCTGACGGGGCCATCGCCAGCGTTTCGTTCTACAAGAATGGTGCGCTTGCTGGGACCGCCACCACTGCGCCATACCAGCTGACCTTGTCCGGACTGGGCGCGGGGAGCTATCAGTTCAGTGCCATCGCCAAGGATGCGCAGGGGCTCACAACGCAGTCCGCATCGGTCGGCTATACGGTGAAGACCGCGCAGGGGCCGACCGCCGTTACGCGGTCGTATGTGTACGATTCGTACAAGCTGCTGTGCAAGGTCATTGAACCGGAAACCGGTGCCACCGTGTACGGCTACGACGCCGATGGCCGGCTGATCTGGTCTGCGGCCGGTCTGGCCCTTCCGAGTACGACCTCCTGTGACCGTGATGCGGCCTATTCCAGCGGGCGTCGGGTCGATCGCAGCTATGACGCGATGGGGCGGCTTTCGACGTTACGTTTCCCTGATCGCAACGGCGATCAGAACTGGACTTACACCAACGACGGCCTTCCCGCCACCGTAACCACCTGGAACGATGCCGGCGCAACGCAGGTGGTTAACAGTTATGCCTATAACCGCCGCAGGCTGTTGAGTGGTGAATCCGCCAAACAGTCGGATCAGGTTGCGACCTGGAGCCTGGGCTATGGCTACGACGGCAATGGCAGCCTCGCCAGTCAGCTCTACCCCAGTGGATTGAGCGTGACCTATTCGCCCAATGCGCTCGGCCAGCCAACCCAGATCCGTGACGCGGCTGGGACCACCTATGCGAGTGGAATGAGCTACTACCCCAATGGGGCGGTGAAGCAGTTCACCTACGGCAATGGTGTGGCGCACACGCTGGCATTGAACGCCCGGCAGATGCCGTTGCAGGTCCGCGATGCAGGTGTGTCGGCGTACGAGTATGCCTACGACGCGAACGGCAATGTCACCGCCATCTATGACCAGCAGCAGGGCGATACGTACAGCCGGACGATGCAGTACGACGGCCAGGACCGCCTCATCGCCGCGAACTCGGCCAGCTTCGGCGGCAATGGTGCCTACCGCTATGCCTACGATGCGCTCGACAACCTGCAATCGGTCAAGCTGGCGGGCGTCAGGCAGGACAACTACTGGTACGACGCCAGTAACCGCCTGACCAACCTGATTGACGACAGCGGGGCGACCACCATGGGGCTGTCGTACGACAGCCAGGGCAATCTGGCCAACCGCAACGGTCAGTTGTATGGGTTCGACTTTGGCAATCGCCTGCGCGAGGTAAGGGGCGTCGAGTCCTATCGCTACGACGCGCAAGGGCGGCGCGTACTTGCTTCCCGGACTGGTAGCGGCAACAACCTGTCGATGTATGGGCAGTCAGGGCAGCTGCTGTACGAACAGCGGGCCACCAAGGGCTCGATGGAGTACATCTACTTCAACGGCAGTGTGCTCGCGGTGCGTGAGGCTGGTGCGGTGAAATACCAGCATACGGATGCACTTGGGAGCCCGGTGGCGACGACGAGTGCGACGGGTGGGCTGGTGGAACGAACCCAGTACACACCCTATGGTGCGTCGATTGGAAAATCCGTTGATGGTATGGGGTACACCGGGCATCTGATGGATGGCGCGACTGGGTTGAGCTATATGCAGCAGCGCTACTACGATCCCGCTTGCGGGTGCTTCCTCTCGGTTGATCCAGTTACTCCATACGAAAGCAAAGATTGGAGGCAATTCAACCGCTACGCCTATGCCTTCAACAACCCGTATCGGTTCACCGATCCTGATGGCAGGCAGGCAATCCCCGATAAGCCGCTCGTCTTCTACCAGATCACAACGCGCACGACGACTGACAGCGGGGCGGTCAACGTCGCCAGAACGAATGTTTCGAATTACGGAATCGTCCATGGCACGCAGACGGAAGTCCGTGGGACTGTCACCCTACTTCCCCAAAAGTCACTGGGTGGCACGCCGGCCAATCCCGGGCCTGCGGTAACAACGCGATTGCTCAATTTCAGTGATAAGTCCGGTCAGAATATTGAAGTGACCAGTGGCCAAAGAACCGTGGAGCAAAACCGGGCGGTGGGCGGCGCGAGTCGGAGCCAGCACCTGCAGGACAATGCGGCAGACATCCGGATCAGTGGGAACACGCCTAAGCAGACCGCTGATGCGGCCCATGGCTCCGGCGAGTTCAATCGGGTCAATCAGTACACTGATGGTCGTGGCGTGCATGTAGACCTTAAGCAGGACGGAACGCAGGGTCGCTTCACCGATTGGAAACCCCAAAAATGA	MDQVSCLRRSFQCLRAVLGFLVVTLGLFQAVPAWAARQCGDGSTAGGPTCPEDPDPVTPLRFAQFASRSVPTTMVVGQSYPVSVAMKNAGLSTWVASQGYNLGSQNPGDNGTWGLGRVPVPSDTPYGATATFNFTAKAPLSAGTYNFQWRMVLDGVEWFGSSTPNVSVQVLPSVITGTVDGVSGGTINGWACSTRLNTSIDVHLYVGGAAGTGTNVGAYRANGNSEAAVATACSAAGSNYRFFIPVTEAMIRAHGGKAIYVHGISPVGSSNNSVASSGKYAIPTIVRDATFVSQSVPTTMTVGNAYPVTLTFKNTGNITWKKSESVRLGAANPLNNGNWTTARVELPNDVAPGESVSLTFSVTPTGYGQKNFQWQMLQEGVAWFGSASTNVAVNVITPPTVAMTAPVSGTFNYAPANVVLRADASDPDGAIASVSFYKNGALAGTATTAPYQLTLSGLGAGSYQFSAIAKDAQGLTTQSASVGYTVKTAQGPTAVTRSYVYDSYKLLCKVIEPETGATVYGYDADGRLIWSAAGLALPSTTSCDRDAAYSSGRRVDRSYDAMGRLSTLRFPDRNGDQNWTYTNDGLPATVTTWNDAGATQVVNSYAYNRRRLLSGESAKQSDQVATWSLGYGYDGNGSLASQLYPSGLSVTYSPNALGQPTQIRDAAGTTYASGMSYYPNGAVKQFTYGNGVAHTLALNARQMPLQVRDAGVSAYEYAYDANGNVTAIYDQQQGDTYSRTMQYDGQDRLIAANSASFGGNGAYRYAYDALDNLQSVKLAGVRQDNYWYDASNRLTNLIDDSGATTMGLSYDSQGNLANRNGQLYGFDFGNRLREVRGVESYRYDAQGRRVLASRTGSGNNLSMYGQSGQLLYEQRATKGSMEYIYFNGSVLAVREAGAVKYQHTDALGSPVATTSATGGLVERTQYTPYGASIGKSVDGMGYTGHLMDGATGLSYMQQRYYDPACGCFLSVDPVTPYESKDWRQFNRYAYAFNNPYRFTDPDGRQAIPDKPLVFYQITTRTTTDSGAVNVARTNVSNYGIVHGTQTEVRGTVTLLPQKSLGGTPANPGPAVTTRLLNFSDKSGQNIEVTSGQRTVEQNRAVGGASRSQHLQDNAADIRISGNTPKQTADAAHGSGEFNRVNQYTDGRGVHVDLKQDGTQGRFTDWKPQK				NA	NA	NA	NA	NA
BMS020_05794	2709			hypothetical protein	GTGCGTGCAGATAAATCGGTTGGTTCTCATGCGGGGTTGATCGCATTTTCCCTTCTGTGTGTTGCTTTTACAGGGGTATGCGAAGCACAAGATGTTTCTTTGGAAGATCAATACAAAAAGAAATTGGCGAGTGTCCGACAGGTTACTCCGGTTACGGAGTTTGGGGATCAGATAAGTCTCCGCGACGGGTCGCTAACTTTTAAGAATACTGACGTCGAACTGCAGGGGATAGGTCCTGCAATTCGCGTTATTCGCACCGCGGTTGTCAATGACAATCGGATATCTAAGCTGCCTACTGCGAATACATTCGGGGCTTGGGATCTTGAGGTGCCGAGAATCAAGACGGTGACCGCAAACGGGAGTAACTATGATCGCGGCAGCACAATGTCGCCATCGAGTCCGGTGGGGTGGCAAGTCGCGGCACCGGATAAGAATGCTCGTTGTACAAATTTCACATCACCCGGCGATGTGACATACGAAGATAGGTCTGTTGAATTTTTTGCCCAAGATTGGTGGTTTGGATACTATTTGGTCGATGGTGATGGAGATGAGCACAAGCTTCTTCAGCGCTCATCGAATCTCAGTCTTCCCGCTCCACAGCACAAGATAGGTACGAAGAGCGGTTGGATCGTCGACTGCCTAGCAACAACATCGAATGGTGAGCCGGGAGAAGCCTTCATCGCCACCTCGCCAGATGGTACGCGCTATTGGTTTGACCATTTGACGTATACGGATATTCCGGGCTTTGTAATGGCCTTCGAGGATATGCCGCCCAAAGGGTATACATTAAGCTTTACATTGCATCGTCGCGCGGCCGCGATGTTGGTTTCTCGCATAGAGGACCGCTTTGGTAATTGGCTTAGGTACTCCTATGTCGGAGGTCGGCTTTCAGAAATTAATGCCAGTGATGGACGAAGGCTGATTGTCGAAGGTTCGGGCGGCATAACCCGTATTTCCACGGGGACGGGGCGCGCCTGGAAGTATGAATATGCTGACGCAAGCCAGGCGGAACTAAGCTCAGTTACACTTCCTGATGGTTCTTCGTGGAGGTATCAGGGAGATTTTCATGGGAGCCTATTTTCGAAGAATCCTTTCAGAGGATGCGATCAAGACTACCCTGATTCTGCCGATTATCGCTCCCGTTCAGTATATGTTTCGACCCCATCTGGCGCCACTGCGCGATTTAATTTGAGTGATAGGGCATTTGGCAGGTCTTACGTTTCTAAACATTGCATTTTGTCAATATATAAGCCGGCCGTAGTATACAACCCAAAGCTCTACTGGTCCTTGGCGTTGAATGAGAAAATTATCTCTGGCCCATCTCTAGGTGCGACTTGGAAGTACACCTATTCTGACCCGAATGGTAGCTACTCGTCCGATTGCGTGTCATCGGCATGCAAAACGAGCGTCTGGACAGATGTGGAAGACCCCAGTGGCGCTAAGATAAGGCATGTATTCTCAAATAAGTCCGACCAGATCGAGAATAGCCTGATCCGGCAGGAATTCTATGATGCGCCAGGTAATCTAATCAGGGCGCGCGACCTGAAATATGCCGTCCTGCTCGAAGGCAGTAGCAGCTATCCGTGGCCGTATAGGATTGGCTCTTCTCCTGACGATAGTGGCAATTATCTAGTGAATGAGCGACTGAGTCCGGTTGAGTCCGAGGTAATTGTGGAGGCGGGCGCTGAATTTGCGAGAAAAGTGAACTCTTTCGATGCGTGGGGGCGCGCTCTATCCCAGACCTATTATAGTCCTTGGCATAGTAGGACTGATGTTGTGGAGTACCGCGACGACATTTCAAAATGGGTCTTAGGGCAATTTGTTAGTTCAACCAATCTCAATGCCGGTCTGACCGAAAAAAAGATTGCTTATAGTGATAACGCACAGCCACTGACAGTCGAGATGTTTGGTCGTCTCGCTCAGACACTGACCTATAATTCCGACGGGACCGTGGCGACTGTCAGGGATGGTGACAACAATGCAACCACATTCTCTTCGTGGAAGCGTGGTATCGCACAGCGTGTAGAGCACGCCGATGGCACGTCAGCGTCTGCCGTAGTGAATGACGATGGCTGGATCGCTTCGGTGACGGATGAGAACGGCTTTGTTACCAGCTATACGTACGACGCGATGGGGCGGCTGAACAGCACCACATATCCGAGTGGTGACAGCACTACCTGGGATCCGACCGTGCAGGAATTCCAGCCGGTGTCGACGGCCGAGTACGGTGTCGCCGCAGGTCACTGGCGGCAAACAGTGGCGACAGGCAATGCGCGCAAAGTCACATACTTCGATGCTCTATGGCGTCCTTTGCTAACGCGCGAGTACGACGCCTCGAATGCGACCGAAACCCAACGGTTTCAGCGTTTTGCTTACGATTTTGATGGCCGAGTCATTTTTGCCTCTTATCATGGAGGTAGCGACGTACTGAATGAGGGGACTTGGACCGAATATGACGCGCTTGGCCGGATCACGTCCTCGTCGATGGACAGCGAACTAGGAGTGCTGACAACGCTTACAGAGTATCTGCCCGGCAATCAGACCCAAGTAACCGATGCCCACGGCAACAAAACCATCAGCGGCTATCAGGTGTTCGACCAGCCGGTCTACGACAGGCCAGTCTGGATTCTACATCCCGAAGGTGGACGAACTGAGATTGCGCGTGATGTGTTCGGTAACGTGACTCAGATCACTCGTATTAGCCATTAA	MRADKSVGSHAGLIAFSLLCVAFTGVCEAQDVSLEDQYKKKLASVRQVTPVTEFGDQISLRDGSLTFKNTDVELQGIGPAIRVIRTAVVNDNRISKLPTANTFGAWDLEVPRIKTVTANGSNYDRGSTMSPSSPVGWQVAAPDKNARCTNFTSPGDVTYEDRSVEFFAQDWWFGYYLVDGDGDEHKLLQRSSNLSLPAPQHKIGTKSGWIVDCLATTSNGEPGEAFIATSPDGTRYWFDHLTYTDIPGFVMAFEDMPPKGYTLSFTLHRRAAAMLVSRIEDRFGNWLRYSYVGGRLSEINASDGRRLIVEGSGGITRISTGTGRAWKYEYADASQAELSSVTLPDGSSWRYQGDFHGSLFSKNPFRGCDQDYPDSADYRSRSVYVSTPSGATARFNLSDRAFGRSYVSKHCILSIYKPAVVYNPKLYWSLALNEKIISGPSLGATWKYTYSDPNGSYSSDCVSSACKTSVWTDVEDPSGAKIRHVFSNKSDQIENSLIRQEFYDAPGNLIRARDLKYAVLLEGSSSYPWPYRIGSSPDDSGNYLVNERLSPVESEVIVEAGAEFARKVNSFDAWGRALSQTYYSPWHSRTDVVEYRDDISKWVLGQFVSSTNLNAGLTEKKIAYSDNAQPLTVEMFGRLAQTLTYNSDGTVATVRDGDNNATTFSSWKRGIAQRVEHADGTSASAVVNDDGWIASVTDENGFVTSYTYDAMGRLNSTTYPSGDSTTWDPTVQEFQPVSTAEYGVAAGHWRQTVATGNARKVTYFDALWRPLLTREYDASNATETQRFQRFAYDFDGRVIFASYHGGSDVLNEGTWTEYDALGRITSSSMDSELGVLTTLTEYLPGNQTQVTDAHGNKTISGYQVFDQPVYDRPVWILHPEGGRTEIARDVFGNVTQITRISH				NA	NA	NA	NA	NA
BMS020_05795	3855			hypothetical protein	GTGAGCGCGCCTGGCCCCGCCACGCCGCCGCCGCGCCCGCGCTTCTACCGGCGCCGGCGCTTCTGGGTCGGCTCCGGGCTGACCGTGCTCGGCCTCGGCCTGCTGCTGCTGATCGCGCTGTACTGGCTGCTGCAGACCGTGGCCGGGCGCGACGTGCTGCTGGCGCAGGTGGTGGCGCGGCTGCCGGCCGATGCCACCTTCACCTGGGGCGAGGCCGAAGGCCCGCTGGCCGGGCCGCTGACCCTGCGCGATGTCGAGTTCCACTGGCAGGACATCCACTTCACCGCCAAGCGCGTGCACCTGGAGCCGGACCTGCGCCCGCTGCTGGGCCGCAAGCTGCTGCTGGACCGGCTGGAGCTGTCCGGGGCGACGCTCAACCTGGGCAAGAGCGATGAACCGTTCGAGATGCCGAGCTGGCCCGGCTCGCTGCCGCAGATCGAGGTGCCGCTGGCATTGCAGGCCGACGCGATCGCCGTCGACGACCTGCGCATCACCCAGCTCGGCGAGCCGCTGGTGGTGCTGCGGCGGGTGCGTGGCGGCCTGGAGGCGGCGAGCGGCGAGCTGCGCCTGCACCAGGTCGACGTGGACAGCGACCTGGGCAACTTCCGCGCCGATGGCGTGTACCTGCCCGGCCGCGACTACCGCACCGACCTGACCGCCAGCGCGGTGCTGCCGGCGCCGCGCGGGCGTACTCCGGCCAGCTTCGGCCTGGTCGCGCGTGGCGACCTGGACCGCATGAACGTGGAGGTGGCCGGGCGCGCGCCGAAGCCGCTGCACGCCAGCCTGACCTTCACCGGCCGCACCGATCCGGGCTGGGCGCTGAAGGCGCGCACCGAGGCGCTGGATCCGGTGCTGCTGGTGCCGCCGGGCGACACCGCCGCCGCGGCCGGCGAACCGCTGGCGTTCGACCTGCAGGCGCAGGGCAAGGGCGGCGATGCGCACCTGCAGGGCACGCTCGCCCAAGGCGCGCTGCAGGTGACCCTGCAGCCCTCGCACATCGTGCTGCGCGACCAGGTGCTGGACGTGCAGCCGCTGGTCGTCGACGCCTTCGACGGTCGTACCGAGCTGCGCGGGCATGCCGATTTCCGCGACCCGGACAACGCCAGCTTCAAGGCCTCGGTGAAGGCGGCCGGGCTGCGCTTCACCCCGGCGCCGGATCCGGCCACGCCGCAGGCGCAGGCGGTACCGGTGCTGCTGCGCGAAGCGCGGCTCGGCGTCGCCGGCACGTTGAAGGCGTGGGCGGCGGTCGGCAAGGCCGAGGTCGAGCGCGACGCACAGCAGGCGGCGCTGGACTTCGACGTGCGCGGCAACGACCAGCGCGCCCAGATCAAGACGCTGCAGGCCACCACGCCCGGCGGCAACCTGACCGCCAGTGGCGAGGCTGGCTGGTCGCCGCAGCTGGACTGGGACCTGAAGGTGGAGCTGGCGCGCTTCGATCCGGGCTACTTCGCACCGGGCTGGGACGGCAGCCTGTCCGGCAGCATCGCCAGCAAGGGGCGGCAGCTGCCGGCGCCGGCCGGCGGCACCTCGCCCGGGTTCGAGGCCACCGCCGAGATCGCCACGCTGAAGGGCCAGCTGCGCCAGCGCCCGGTCGATGCCAAGGGCCGCGTCGCGCTGCAGGGCAGCCAGGGCGAGGGCGCGCTGACGCTGGCGATCGGCAACAGCCGCGTCAGCGCACAGGGCAAGGTCGGCGACCGCCTCGATGTGCAGGCGCAGCTGCAGCCGCTGCAGCTGGACGACCTGCTGCCCGGTGCCGGCGGCAGCCTGCGCGGCACGCTGCAGGTGCGCGGGCGGGCCGACGCCCCGGACATCAGTGCCGACCTCAGCGGCAGCGGCCTGCGCTGGGACGGCTACAGCGCCGACACGCTCAGTCTGCGCGGCCAGCTGCCGTGGCGCGGCAGCGGCGGCACGCTGACGCTGCAGGCCGCTGCGCTCAGCGCCGGCATGCAGCTGGACAGCCTGCGCGTGCAGGCCAACGGTGCGGTCGAGGACCTGGCGCTGCAGGCCGAGCTGCGCAACGCGATGGCCTCGTTGGCGTTGCAGGGCAGCGCCAAGCGCGCCGGCGCGCGCTGGCAGGGCGAACTGGCGAGCCTGAAGATCGTGCCGGCCAAGGGCGATGCGTGGGCGCTGCGCGCGCCGGCGGCCTACGCGCTCGACGGCCCACGCTTCACCCTCGGCCAGGCCTGCCTGGCGGCCGCGTCCGGCGGCGCGCTGTGCGCGCAGGCCGACTGGCCGCGCGAGGGCGTGGTGGTCAAGGGCGACGCGCTGCCGTTGTCGCTGCTGCAGCCGTGGCTGCCCAAGCAGGACGGGCGGCAGATCTACCTGCGCGGCGACGTGACCATCGACGGCAGCTTCAAGCCCAAGGGCAATGCCTGGGAAGGCGGCTTTCAGCTCACCTCGCTGGAAGGCGGCGCGCGCTTGGGCGATCGCCGCTATGCGGTCAATGCCGGCAATCCCAACCGCGGCGAAGTGGTGCGCTACGACCACTTCAGCATCCGTGCCACCTTTGATCCGTCCCACATCAACGGCTACTTCGGCGTCGGCTTCCAGGGCAACGGCTTCGTCGATGCCAAGTTCGATACCGGCTGGGACGAGGATGCGCCGCTCAACGGCGAGCTGTACCTCAACATGTCGCGGCTGTACTGGCTGGAGCTGATCGTGGCCGAGATCGACCGGCCCAAGGGCCAGGTGGAAGGCCACGTCAGCCTGCGCGGCACCCGTGCCAAGCCGCTGCTCGGCGGCGACGCCACGCTCAGCGACTTCACCGCCGAGTACCCGGCGATGGGCCTGGCGCTGAGCGAAGGCAAAGGCCGCTTCGACGCGCTGCCGGACGGCTCGGCCAAGATCACCGCCTCGGCCAAGTCCGGCGACGGCACGCTCACCGTCGACGGCGGCTTGTCCTGGTACGGCGAGCGCGAGCCGCTGCAGCTCACCATTCGTGGCCAGAACGTGCTGGTCTACAACACCAGCGAACTGCGCATCATCGCCAACCCCGACCTGCAGTTCGGCCTGATCGACAACACCATGCGCCTGCGCGGCACGGTCACCGTGCCCGAGGCCGACATCGACCTGGAGCGGCTGGACCGCGGCACCGCGGCATCCGAGGACGTGGTGGTGCTGGACCCGGTCGATCCGGAACAGGCGCCGGCCTCGCCGCTGGACATGGACCTGACCGTGGCGCTCGGCGACAAGGTCAACATGAGCGGCTTCGGCCTGAAGGGCGGGTTGAGCGGGCAGATGCAGGTGCGCGCGCAGCCCGGGCGCGAGATGACCGCCAATGGCGGCCTGGACGTGCGCGGCCGCTACAAGGCCTACGGGCAGGACCTGACCATCACCCGCGGCCAGCTGACCTGGAACAACAACATCGTCTCCGACCCGCGCATCAACATCCGCGCCGAGCGCAAGATCGGCGACGTGACCGCCGGCATCGACGTCAGCGGGCGCGCCGAGTCGCCGCGCGCCGACGTCTGGTCCGAGCCGTCGATGTCGCAGTCCGAGGCGATGTCCTACCTGGTGCTGGGCCGCGGCCTGGCCACCGCCAGCAGCAGCGAGACCGACCAGGTCACCGCGGCGTCGGCGGCGCTGTCGGCCGGCAGCGGCCTGATCGCCTCGCAGCTGGGCGCCAAGCTCGGCCTCGACGATGCCGGCGTGCAGCAGTCCAGCACGCTGGGCGGTTCGGTGATCGGCTTCGGCAAATACCTCTCGCCGAAGATCTACGTCGGCTACGGCGTGTCGATGGTCGGCGCCGGCTCGGTGCTGACGCTGAAGTACCTGCTCACCCGTGGCTTCGACGTCGAGGTCGAATCGAGCACGGTGGAGACCAAGGGTTCGGTGAACTGGCGGAAGGAGAAATAA	MSAPGPATPPPRPRFYRRRRFWVGSGLTVLGLGLLLLIALYWLLQTVAGRDVLLAQVVARLPADATFTWGEAEGPLAGPLTLRDVEFHWQDIHFTAKRVHLEPDLRPLLGRKLLLDRLELSGATLNLGKSDEPFEMPSWPGSLPQIEVPLALQADAIAVDDLRITQLGEPLVVLRRVRGGLEAASGELRLHQVDVDSDLGNFRADGVYLPGRDYRTDLTASAVLPAPRGRTPASFGLVARGDLDRMNVEVAGRAPKPLHASLTFTGRTDPGWALKARTEALDPVLLVPPGDTAAAAGEPLAFDLQAQGKGGDAHLQGTLAQGALQVTLQPSHIVLRDQVLDVQPLVVDAFDGRTELRGHADFRDPDNASFKASVKAAGLRFTPAPDPATPQAQAVPVLLREARLGVAGTLKAWAAVGKAEVERDAQQAALDFDVRGNDQRAQIKTLQATTPGGNLTASGEAGWSPQLDWDLKVELARFDPGYFAPGWDGSLSGSIASKGRQLPAPAGGTSPGFEATAEIATLKGQLRQRPVDAKGRVALQGSQGEGALTLAIGNSRVSAQGKVGDRLDVQAQLQPLQLDDLLPGAGGSLRGTLQVRGRADAPDISADLSGSGLRWDGYSADTLSLRGQLPWRGSGGTLTLQAAALSAGMQLDSLRVQANGAVEDLALQAELRNAMASLALQGSAKRAGARWQGELASLKIVPAKGDAWALRAPAAYALDGPRFTLGQACLAAASGGALCAQADWPREGVVVKGDALPLSLLQPWLPKQDGRQIYLRGDVTIDGSFKPKGNAWEGGFQLTSLEGGARLGDRRYAVNAGNPNRGEVVRYDHFSIRATFDPSHINGYFGVGFQGNGFVDAKFDTGWDEDAPLNGELYLNMSRLYWLELIVAEIDRPKGQVEGHVSLRGTRAKPLLGGDATLSDFTAEYPAMGLALSEGKGRFDALPDGSAKITASAKSGDGTLTVDGGLSWYGEREPLQLTIRGQNVLVYNTSELRIIANPDLQFGLIDNTMRLRGTVTVPEADIDLERLDRGTAASEDVVVLDPVDPEQAPASPLDMDLTVALGDKVNMSGFGLKGGLSGQMQVRAQPGREMTANGGLDVRGRYKAYGQDLTITRGQLTWNNNIVSDPRINIRAERKIGDVTAGIDVSGRAESPRADVWSEPSMSQSEAMSYLVLGRGLATASSSETDQVTAASAALSAGSGLIASQLGAKLGLDDAGVQQSSTLGGSVIGFGKYLSPKIYVGYGVSMVGAGSVLTLKYLLTRGFDVEVESSTVETKGSVNWRKEK				NA	NA	NA	NA	NA
BMS020_05796	1779	tamA_1	COG0729	Translocation and assembly module subunit TamA	ATGCGACTGACCCCCACGTGTGTTCTCCTGTTGGCCCTGTGCAGCCTTGCCGGCACGGCGGCCGCGCGCGCCACCATCGACAAGGTCGACGTCAAGGGCCTCGACGATGAGGCGATGCAGGAGAACGTCGAGGTGTCGCTGGCGCTGTACCAGGCGTTGGGCAAGTCGATCGGCGAGTCGCGGCTGGAATACCTGCTGAGCCAGGCCGAGACGCAGACGCGCACCGCGCTGGAGCCGTTCGGCTACTACACGCCGAACATCGACATCCAGGCGCCGCGGACCGACGACCACGTCACCGTGGTGATCACCGTCGACAAGGGCGAGCCGGTGCGGGTGCGCCAGGCCAATGTCACGCTGAGCGGCTGGGCCGAGGACGACCGCTACCTGCAGGACGACGTCAAGGCGTTCAAGCCGGCGGCCGGCGATGTGTTCCAGCACGCCGCCTACGAGGCCAGCAAGGTGCGCATCACCCGGCGCCTGGCCGAGCGCGGCTATTTCGATGCCGATTTCACCCATCGCCGGGTCGAGGTGACGCGCGCCGAGCATGCCGCCGACATCGACCTGGCCTGGGACAGCGGCCGCCGCTACGACATGGGCCCGGTGCGCTTCGACTACGATTACTTCAAGGACGGGTTGTTCGATCCGCTTGTGTACTGGGAAGAGGGCAGCTACTACCACGAGGGCAAGCTCGACCGGCTGCGCGAGTCGCTGACCAAGCTGGACTACTTCAGCACGATCGACATCCAGCCCAAGCCGGAGGAAGCCGACGACCAGGGGCGGGTGCCGGTCGACGTGAAGCTGACCCGCGCCAAGCGCACCATCTACACCGCCGGCCTCAGCTACGGCAGCGAGAGCGGGCCCGGCGTGCGCGGCGGCGTGGAGCGCCGCTACATCAATTCGCGCGGGCACAAGATGGACAGCCAGCTCGACTTCGCGCAGAAGCGCAAGAGCCTGACCGAGGTCTACAAGATCCCGGCGTTCCGCTGGCTGGACGGCTGGTACGCGTTCGGCGCGCGCCTGTACGACGAGCAGACCGACTACATCGACCTGCGCAACATCAAGCTCAGCGCCGCGCGTAGTGGCCAGATCAACGCGCAGTGGAGCGCGATCGCCTCGATCAACGCGCTGCGCGAACGCTGGGGCTATTACAGCGAGGACAGCGACGAGGAACGGCCGCTGGCCTACCAGTACGCCACGCTGGTGTATCCGCAGCTGGAAGCGCAGTACACCAACGTCGACGACCGGGTGTTCCCGCGCCGCGGCATCGCCGCGACGATCCAGCTGCGCGGCGGCGCCGAGGGCGCCGGCTCGGACACCAGCTTCGCCCAGGCCTACAGCAAGCTGCGCTGGTTCCTGCCGGCCGGCGCCGATGGCCGGCTGATCCTGCGCGGCGAAGGCGGCACCACCTGGACCAGCGACCTGGTCGCGATGCCGCCAAGCCTGCGCTTCTTCGCCGGCGGCGACGACAGTGTGCGCGGCTATGCGTTCCGCGAGGTCGGCCCGCGGACGCCGGAGCCGGACCGCTTCGCGCTTGGCGCCAAGAACCTGGTCACCGCCAGCGTCGAGTACGAGCGCTACTTCAAGGGCGGGCCGCTCGGCGCGGCGGTGTTCGTCGATACCGGCAGCGCCTTCGACGACACGCCCGACTGGCATACCGGCATCGGCATCGGCGTGCGCTACAAGTCGCCGGTGGGCCCGGTGCGGATCGACGTGGCGCATGGTCTGGATGATCCGGATGCGCAGTTCCAGCTGTACATCAACATCGGGGCGAACCTGTGA	MRLTPTCVLLLALCSLAGTAAARATIDKVDVKGLDDEAMQENVEVSLALYQALGKSIGESRLEYLLSQAETQTRTALEPFGYYTPNIDIQAPRTDDHVTVVITVDKGEPVRVRQANVTLSGWAEDDRYLQDDVKAFKPAAGDVFQHAAYEASKVRITRRLAERGYFDADFTHRRVEVTRAEHAADIDLAWDSGRRYDMGPVRFDYDYFKDGLFDPLVYWEEGSYYHEGKLDRLRESLTKLDYFSTIDIQPKPEEADDQGRVPVDVKLTRAKRTIYTAGLSYGSESGPGVRGGVERRYINSRGHKMDSQLDFAQKRKSLTEVYKIPAFRWLDGWYAFGARLYDEQTDYIDLRNIKLSAARSGQINAQWSAIASINALRERWGYYSEDSDEERPLAYQYATLVYPQLEAQYTNVDDRVFPRRGIAATIQLRGGAEGAGSDTSFAQAYSKLRWFLPAGADGRLILRGEGGTTWTSDLVAMPPSLRFFAGGDDSVRGYAFREVGPRTPEPDRFALGAKNLVTASVEYERYFKGGPLGAAVFVDTGSAFDDTPDWHTGIGIGVRYKSPVGPVRIDVAHGLDDPDAQFQLYINIGANL				NA	NA	NA	NA	NA
BMS020_05797	2082	glyS_2	COG0751	Glycine--tRNA ligase beta subunit	ATGACTGAAATGAATCCGCTGCTGATCGAACTGGGCACCGAGGAGCTGCCGGTCAAGGCGCTGCCGGGCCTGGCGCAGGCCTTCTTCGACGGTGTGCTGGCCGGACTGGACAAGCGCGGCATCGCCTTCGAGAAGGGCGATGCCAGGCCGCTGTCGACGCCGCGCCGGCTTGCCGTGCTGCTGCCGGGCGTGGCCGTCGAGCAGCCCGAGCAGCGCTCGGAAGTGCTTGGTCCCTACCTCAACATCGCGCTCGACGCCGACGGTCAGCCAACCAAGGCGCTGGCCGGTTTCGCCGCCAAGGCCGGGATCGACTGGACCGCGCTGGAGCGCACCAGCGACGCCAAGGGCGAGCGCTTCGTGCACCGCTCGGTGAGCCCGGGCGCGCGTACTTCCGAGCTGCTGCCGGAGATCCTGCGCGAGGCGATCGCGGCGATGCCGATTCCCAAGCCGATGCGCTGGGGCGACCACGACTACGCATTCGCGCGGCCGGTGCATTGGCTGGTGTTGCTGCTGGGCAAGCACGTCGTCGATGCCGAACTGCTCGGAGTGAAGTCCGACCGGATGAGCCGCGGCCACCGCTTCATGCACGAGAAGCCGGTGTGGCTGAGCACCCCGGCCGACTACCTGGCCTCGCTCGAAGCGGCCTACGTGCTGGTCGACCCGGCGGTGCGCCGCGCGCGCATCGTCGCCGAGGTCGAGGCCGCCGCGTCGGCGGTCGGCGGCAACGCGCGCATCACCGACGACAACCTCGGCCAGGTGGTCGACCTGGTCGAATGGCCGTCGCCGGTGCTGTGCAGTTTCGAGCGCGAGTTCCTGGCGGTGCCGCAGGAAGCACTGATCGAGACGATGGAGATCAACCAGAAGTTCTTCCCGGTGCTCGATGCCGGCGGCAAGCTGACCGAGAAGTTCATCGGTATCGCCAATATCGAGTCCAGGGACGTGGCCGAAGTGGCCAAGGGCTACGAGCGGGTGATCCGCCCGCGCTTCGCCGACGCCAAGTTCTTCTTCGACGAGGACCTCAAGCAGGGCCTCGTCGCGATGGGCGAAGGCCTGAAGACCGTGACCTACCAGGCCAAGCTTGGCAGCGTCGCCGACAAGGTCGCGCGCGTGGCCGCGCTGGCGCAGGCGATCGCGCCGCAGGTCGGCGTCGATGCGACGTTGGCCAAGCGCGCCGCCGAGCTGGCCAAGAACGACCTGCAGTCGCGCATGGTCAACGAATTCCCCGAGCTGCAGGGCATCGCCGGGCGCCACTACGCGATCGCCGGCGGCGAGGGCAGCGACGTGGCGCTGGCGATCGACGAGGCCTACCAGCCGCGCTTCGCCGGCGACGACATCGCGCTGTCGCCGCTGGGCAAGGTGTTGGCGATCGCCGAGCGCCTGGACACGCTGGCTGGTGGTTTCGCCGCAGGCCTCAAGCCGACCGGCAACAAGGACCCGTTCGCACTGCGGCGCAATGCGCTGGGGTTGGCGCGCACGGTGATCGAGAGTGGGTTTGATCTGGATCTGAGGTCCTTGCTTGGCAGTGCCAATGAAGCACTCGTCGCGCGCGGCGTGCAGGCTGATGCCAGCGAGCTCTACGACTTCATCCTCGATCGCCTGCGCGGCTACTACGCCGACAAGGGCGTGCCGGCCACGCATTTCAACGCGGTCGCCGAGCTGAAGCCGGCGTCGCTGTACGACTTCGACCGCCGCATCGAGGCGATCGGCACGTTCGCGCAGCTGCCCGAGGCCGAGGCGCTGGCCGCGGCCAACAAGCGCATCCGCAACATCCTGCGCAAGGTCGAGGGCGAGCTGGAGATTCCCGGCGAAATCGACACCGTGCTGCTGCAGGAGCCGGCCGAGGAAGCGCTGGCCGAGGCGGTGGAAGCGGCGATCGGCGATACCAGCGCCTCGTTGCACCACAAGGACTACGTGGCGGTGCTGAACCGGCTGGCGCGGCTGCGCCCGCAGGTCGATGCGTTCTTCGACGGGGTGATGGTCAACGCCGACGATGCCGCACTGCGCGCCAACCGCCTGGCGTTGCTGAAGAAGCTCGGCGACCGCCTTGGTGGCGTCGCCGCGATCGAGCACCTGTCGAGCTGA	MTEMNPLLIELGTEELPVKALPGLAQAFFDGVLAGLDKRGIAFEKGDARPLSTPRRLAVLLPGVAVEQPEQRSEVLGPYLNIALDADGQPTKALAGFAAKAGIDWTALERTSDAKGERFVHRSVSPGARTSELLPEILREAIAAMPIPKPMRWGDHDYAFARPVHWLVLLLGKHVVDAELLGVKSDRMSRGHRFMHEKPVWLSTPADYLASLEAAYVLVDPAVRRARIVAEVEAAASAVGGNARITDDNLGQVVDLVEWPSPVLCSFEREFLAVPQEALIETMEINQKFFPVLDAGGKLTEKFIGIANIESRDVAEVAKGYERVIRPRFADAKFFFDEDLKQGLVAMGEGLKTVTYQAKLGSVADKVARVAALAQAIAPQVGVDATLAKRAAELAKNDLQSRMVNEFPELQGIAGRHYAIAGGEGSDVALAIDEAYQPRFAGDDIALSPLGKVLAIAERLDTLAGGFAAGLKPTGNKDPFALRRNALGLARTVIESGFDLDLRSLLGSANEALVARGVQADASELYDFILDRLRGYYADKGVPATHFNAVAELKPASLYDFDRRIEAIGTFAQLPEAEALAAANKRIRNILRKVEGELEIPGEIDTVLLQEPAEEALAEAVEAAIGDTSASLHHKDYVAVLNRLARLRPQVDAFFDGVMVNADDAALRANRLALLKKLGDRLGGVAAIEHLSS				NA	NA	NA	NA	NA
BMS020_05798	924	glyQ_2	COG0752	Glycine--tRNA ligase alpha subunit	ATGTCCGACACCCGGTCCGTTCCGCCCGCCGCCACCCGCGTGACCTTCCAGGGTCTGATCCAGACCCTCAACCAGTACTGGGCCGAGCAGGGCTGCGTGCTGATCCAGCCGCTGGACCTGGAGGTCGGCGCCGGCACCTTCCACCCGGCCACGTTCCTGCGCGCGCTGGGCCCGGAGCCGTGGAACGCTGCCTACGTGCAGCCCAGCCGCCGTCCCACCGACGGCCGCTACGGCGAGAACCCCAACCGCCTGCAGCGCTACTACCAGTACCAGGTGGCGATGAAGCCGAACCCGGACAACATCCAGGAGCTGTACCTGGGCTCGCTGAAGGCGCTGGGCATCGACCCGCTGGTGCACGACCTGCGTTTCGTCGAGGACAACTGGGAATCGCCGACCCTCGGTGCCTGGGGCCTGGGCTGGGAAGTGTGGTTGAACGGCATGGAAGTCACCCAGTTCACCTACTTCCAGCAGGCCGGCGGCATCGAGTGCAAGCCGGTGCTGGGCGAGATCACCTACGGGCTGGAGCGGCTGTGCATGTACCTGCAGAGCTGCGACAACGTCTACGACCTGGTCTGGACCTACGGCCCGGACGGTACCCCGGTGACCTACGGCGACGTCTACCACCAGAACGAGGTGGAGCAGAGCGCCTACAACTTCGAGCATGCCGACGTGGAAGAGATGTTCCACCGCTTCGACGCCTGCGAGAAGGAAGCGCAGAAGCTGGTGGAAGTGGGCCTGCCGCTGCCGGCCTACGAGCAGGTCACCAAGGCCAGCCACAGCTTCAACCTGCTCGACGCGCGCCGCGCGATCTCGGTCACCGAGCGCCAGCGCTACATCCTGCGGGTGCGCGCGCTGGCCCAGGCGGTGGCGCAGGCCTACTACGCGCAGCGCGAGAAGCTCGGTTTTCCGGGGTTGAAGAAGTAA	MSDTRSVPPAATRVTFQGLIQTLNQYWAEQGCVLIQPLDLEVGAGTFHPATFLRALGPEPWNAAYVQPSRRPTDGRYGENPNRLQRYYQYQVAMKPNPDNIQELYLGSLKALGIDPLVHDLRFVEDNWESPTLGAWGLGWEVWLNGMEVTQFTYFQQAGGIECKPVLGEITYGLERLCMYLQSCDNVYDLVWTYGPDGTPVTYGDVYHQNEVEQSAYNFEHADVEEMFHRFDACEKEAQKLVEVGLPLPAYEQVTKASHSFNLLDARRAISVTERQRYILRVRALAQAVAQAYYAQREKLGFPGLKK				NA	NA	NA	NA	NA
BMS020_05799	1821			hypothetical protein	ATGGAACTGCGACGCACGGGCGAGGCCGGAACCCCCGGCATGGACGCGACCCTGCCACGCGGGCGGCTGCTGTTCGACCGGGTGGTCGCGGCGCTGCTGGCCGACGGCATGGTCGATCCGGCCGACCGCGAGCGCATCCAGTTCTCGGCCAGCGGCGCGCGCAACGCCAGCGAGGTGCATCCGCTGGTGATGCTGGCCAACCTCAAGCTCAAGGCCGGGCTGCCGCCGGACGGCGAGCTGGGCCTGGAGCGGCTGACCGAATGGCTGGCCACCCGCAGCGGCATGCGCTACCTGCGCATCGACCCGACCCGGGTCGACGTGCACGCGGTGGCCGGGGTGGTCTCGCACGCCTACGCGCGCCGTCACCGGATCCTGCCGCTGGCGCTGGAAGCCGACCGCGTGCTGGTGGCGACCAGCGAGCCGCTGGCACTGGACTGGCTGGCCGACGTGCAGCACCTGGCGCGGCGCCGGATCGAGGTGGTGCTGGTCAATCCGCTGGACCTGCACCGCTACACGATGGAGTTCTTCGGCGTGACCCAGTCGGTGCGCGGCGCGCGCAACGACGTGCGCGCGGCCGACGGCAACACCAGCCTGCCCAGCTTCGAGCAGCTGGTCGAGCTGGGCCGCGGCGGCGACGTCAACGCCGACGACCACCACATCGTCCACATCGTCGACTGGCTGCTGCAGTACGCCTACGAACAGCGCGCGTCCGACATCCACCTGGAGCCGCGCCGCGACATGGGGCGCATGCGCTTCCGCATCGACGGCGTGCTGCACAAGGTGTTCGAGGTGCCGCCGACGGTGATGACCGCGGTGGTCAGCCGGATCAAGGTGCTCGGGCGCATGGACCTGGGCGAGCGCCGCCGCCCGCAGGACGGCCGCATCAAGACCCGCTCGCCGGGCGGGCGCGAGGTCGAGATGCGCATCTCGACGATGCCGACCGCGTTCGGCGAGAAGTGCGTGATGCGCATCTTCGACCCGGACGCGGCGTTCAAGAGCATCGAGCAGCTGGGCTTCTCGGCCGAGGAGGCCGCCGGCTGGAACGCGCTGGTCAGCCGCCCGCACGGCATCGTGCTGGTCACCGGCCCGACCGGCTCGGGCAAGACCACCACGCTGTATTCCACGCTCAAGCGCCTGGCCACCCCGGACGTGAACGTCTGCACGGTCGAGGACCCGATCGAGATGGTGGCGGCGGAGTTCAACCAGATGCAGGTCCAGCACAACATCGAGCTGGATTTCGCCGCCGGCGTGCGCACGCTGCTGCGCCAGGACCCGGACATCATCATGATCGGCGAGATCCGCGACCTGGAAACCGCGCAGATGGCGGTGCAGGCCTCGCTGACCGGCCACCTGGTGCTGTCCACGCTGCACACCAACGACGCGCCCAGCGCGATCACCCGCCTGCTCGACCTGGGCGTGCCGCACTACCTGGTCGCCTCCACGCTCAACGGCGTGCTGGCGCAGCGCCTGGTGCGCACCCTGTGCCCGCACTGCAAGCGCCCGCAGGCGCTGGACCCGCTGGAATGGGACGCGCTGCGCGACCCGGGCGACACGCTGCCGGCGCAGCTGGACACCCACGTGCCGGTGGGCTGCCTGGAATGCCGCCGCACCGGCTACCTGGGCCGGATCGGGCTGTACGAGCTGCTGCCGGTCAGCGCCGGGCTGCGCGGGCTGATCCGCGCCGACATGGACCTGGCCGGGTTCAGCCACGCCGCGCGCGCGGCCGGCATGCGCAGCCTGCGCCGCACCGGACTGGAGAAGGTCGCCGCCGGCCTGACCACGGTCGAGGAAGTGCTGTCGGTGCTGCCGGCGCTGGAATAG	MELRRTGEAGTPGMDATLPRGRLLFDRVVAALLADGMVDPADRERIQFSASGARNASEVHPLVMLANLKLKAGLPPDGELGLERLTEWLATRSGMRYLRIDPTRVDVHAVAGVVSHAYARRHRILPLALEADRVLVATSEPLALDWLADVQHLARRRIEVVLVNPLDLHRYTMEFFGVTQSVRGARNDVRAADGNTSLPSFEQLVELGRGGDVNADDHHIVHIVDWLLQYAYEQRASDIHLEPRRDMGRMRFRIDGVLHKVFEVPPTVMTAVVSRIKVLGRMDLGERRRPQDGRIKTRSPGGREVEMRISTMPTAFGEKCVMRIFDPDAAFKSIEQLGFSAEEAAGWNALVSRPHGIVLVTGPTGSGKTTTLYSTLKRLATPDVNVCTVEDPIEMVAAEFNQMQVQHNIELDFAAGVRTLLRQDPDIIMIGEIRDLETAQMAVQASLTGHLVLSTLHTNDAPSAITRLLDLGVPHYLVASTLNGVLAQRLVRTLCPHCKRPQALDPLEWDALRDPGDTLPAQLDTHVPVGCLECRRTGYLGRIGLYELLPVSAGLRGLIRADMDLAGFSHAARAAGMRSLRRTGLEKVAAGLTTVEEVLSVLPALE	PGPT0026430_153	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026430-gspE|epsE-K02454	NA	NA
BMS020_05800	753			hypothetical protein	ATGAGCCAGCTCCCCTTCCTGATCGTCGAGACCGGCCAGCCGGTGCCGCCGCTGAAGCGCTACGGGCGCTTCCCGCACTGGATCCGGGTCGCCGCCGGACTGGCCGAGCGCGAGACCGTGGTGGTCAACGTCGAGGCCGGCGAGGCGCTGCCGGCGCGCGAGCGCTTCGCCGGCACCATCGTCAGCGGCTCGGCCGCCTTCGTCACCGACCATGCCGACTGGAGCGAGCGCTCCGCCGACTGGCTGCGCGAGGCCGCCCACGCCGGCAGCCCGCTGTTCGGCATCTGCTACGGCCACCAGCTGCTGGCGCATGCGCTCGGCGGCCAGGTCGACTACAACCCGGCCGGGCGCGAGTCCGGCACGATCGAGCTGGAGCTGCATCCGCCGGCGTTCGAGGACCCGCTGTTCGCCGGGCTGCCCGGACATTTCCCCGCCCACGCCACCCACCTGCAGACGGTGCTGCGCGCCCCCGAGGGCGCGGTGGTGCTGGCCCGTTCGCCTCAAGACGCGTGCCATGCGTTCCGCTGGGGCGCACAGGCCTGGGGCGTGCAGTTCCACCCGGAATTCGCCACCCACCACATCCGTGGCTACGTCAACGCCCGCGCCGACTGCCTGGCCCGGCACGGCCGCTGCGCGCGCACCATCGCGCGCGAAGTCAGCGCCGCGCCGCTGGCGCGCCGGCTGCTGCGGCGCTTCGTGCGCCATGCCCGCGGCCTGTCGCCGACCGGCGGCGAAGCGCAAAAGCGGCGATAA	MSQLPFLIVETGQPVPPLKRYGRFPHWIRVAAGLAERETVVVNVEAGEALPARERFAGTIVSGSAAFVTDHADWSERSADWLREAAHAGSPLFGICYGHQLLAHALGGQVDYNPAGRESGTIELELHPPAFEDPLFAGLPGHFPAHATHLQTVLRAPEGAVVLARSPQDACHAFRWGAQAWGVQFHPEFATHHIRGYVNARADCLARHGRCARTIAREVSAAPLARRLLRRFVRHARGLSPTGGEAQKRR	PGPT0021580_5930	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
BMS020_05801	903			hypothetical protein	ATGAGAGAAATCCACAAGGTGCCGGCATCGGCCGGTGCGGAATGGTTGTTGGCCGGCTTCACCCTGCTGCGGCGTGCGCCCGTGGCGCTGGGGTCGCTCGGGGTGATCTGGGCGCTGGTGGTATCGGCGGCGATGGCACTGGCGATCGTGGTGCCGGTGCTGGGCACCGCGGTGCAGTTCCTGCTGATGCTGGCCGGCCCGTTGTTCATGGGCGGGCTGCTGTGGGCGGTGCGCGAGGTCGACCAGGGCCGCCCGGCGCGCCCGGCGCACCTGCTGCAGGGCCTGCACGACGGCCGCGCGCCGCATCTGCTGGTCGCGCTGCTGCCGCAGGTGCTGGCCGGCCTGCTGCTGAGCGTGCTGCTGCTGGCGATGATCGGCTCGGACGGGCTGGTGCAGCTGCAGCACGTGATGGTGCAGCTGAACGCCCTCAATGCCAGCGGCAAGCCGGCCGACCCGGCCGAGATCGAGGCGCTGGTGGCGACGCTGCCGGCCGGACGCATCCTGCTGTGGCTGCTGGTGCTGGTCGCCGCGGCGGTAGCGGTGGCGCTGGCGCTGTTCGTGATGCCGCCGCAGGTGATGTTCGACCGCAGCGGCGGCTGGAAGGCGCTGCGCAACAGCCTGCGCGCCAGCCTGCACAACCTGCCGGCGATGCTGGTGTTCCTGGTGCTGGCGTTCATCGCGCTGTTCGCGATCTATTTCGTGGTGATGATCGTGGTGCTGCTGGTCAGCCTGGTCGCCGGCCAGGCCGCGGCGATGCTGGTCGCGCAGCTGCTGCTGATGGGCGTGCTGATGCCGGTGTTCGGCGGCGCGGTGTACGCGGCGTGGAAACAGATGTTCGAGCCGCCCGCGGACGCCGGCGGCCACGATGTCCCGCCGCCGCCGCGCAACGTGATCGCGGCCTGA	MREIHKVPASAGAEWLLAGFTLLRRAPVALGSLGVIWALVVSAAMALAIVVPVLGTAVQFLLMLAGPLFMGGLLWAVREVDQGRPARPAHLLQGLHDGRAPHLLVALLPQVLAGLLLSVLLLAMIGSDGLVQLQHVMVQLNALNASGKPADPAEIEALVATLPAGRILLWLLVLVAAAVAVALALFVMPPQVMFDRSGGWKALRNSLRASLHNLPAMLVFLVLAFIALFAIYFVVMIVVLLVSLVAGQAAAMLVAQLLLMGVLMPVFGGAVYAAWKQMFEPPADAGGHDVPPPPRNVIAA				NA	NA	NA	NA	NA
BMS020_05802	1005	aroE_3	COG0169	Shikimate dehydrogenase (NADP(+))	ATGAAACGCCGTCATTTCCTGCTCACCAGCGCCGCCGTGTCCGGCGGCCTGCTGACCGCCTGCGGCAAGGCCGCAGCCCCGGTCGCCGCGCCCGCCGAACCGGCCGCCGCGGCGCCGCTGCCGACCCCCGGCATCGACGCCACCCCGACCATCAGCGGGCATACCCGCATGCTGGGGTTGATCGGCCACCCGGTCGAGCATTCCAAGTCGCCGCGCATCCACAACATCGCGCTGGCCAAGCTCGGGCTCGACTACGCCTACCTGGCCTTCGACATCGACGCCGGCGAACTGCCCGAGCTGGTCGCGGCGTTCCGCACCCTGAAGGTGCGCGGCTGGAACCTGACCACCCCGGACAAGCACGCGATCCTGCCGCTGGTCGATACGGTCTCGCCGGTCTCCGGCCTGGTGCAGGCCTGCAACACCGTGGTCAACGACGACGGCAAGCTGACCGCCTACACCACCGACGGCATCGGCCAGGTGCAGGCGCTGCACGATGCCGGGATCGAGGTCGCCGGTCGCACCATCACCCAGATGGGCTGCGGCGGCGCCGGCTCGGCGATCGCCGCGCAGTTCATCGAGGACGGCGTGGCCGAGCTGCACGTATTCAACCGCAAGGACGACTTCTACGCGCCGGCGGTCGCGCTGGCTGAGCGCATCAACGCCCGTGGCAAGGGCAAGGTGCTGGTGCATGACCTGGCCGACCACGCCGCGTTAGCCGATGCGGTGAAGGCCTCCTCGGTGCTGATCAACGCCACCAGCGCCGGCTTCGCCCAGCAGGAAGGCCAGTCGGCGCTGCCGGACGCCGCCGTGCTGCGTCCCGAGCTGTTCGTCTCGGAGATCATCTACACCCCGACCCGCACGCTGTTCATGCAGCAGGCCGAGCAGGCCGGCTGCAAGACCATCAACGGGGTCGGCATGCTGGTCCACCAGGCCGCCGCGTCGTTCAAGCTGTGGACCGGCCAGGACATGCCGGTCGAGGACATCAAGCGCCTGCTGTTCAGCTGA	MKRRHFLLTSAAVSGGLLTACGKAAAPVAAPAEPAAAAPLPTPGIDATPTISGHTRMLGLIGHPVEHSKSPRIHNIALAKLGLDYAYLAFDIDAGELPELVAAFRTLKVRGWNLTTPDKHAILPLVDTVSPVSGLVQACNTVVNDDGKLTAYTTDGIGQVQALHDAGIEVAGRTITQMGCGGAGSAIAAQFIEDGVAELHVFNRKDDFYAPAVALAERINARGKGKVLVHDLADHAALADAVKASSVLINATSAGFAQQEGQSALPDAAVLRPELFVSEIIYTPTRTLFMQQAEQAGCKTINGVGMLVHQAAASFKLWTGQDMPVEDIKRLLFS	PGPT0019725_44	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_QUINATE_CATABOLISM,PGPT0019725-ydiB-K05887	NA	NA
BMS020_05803	1020	rssB_2		Regulator of RpoS	ATGTCCGCAGTAACGCCATCGTCGCAGCCGAAGATCCTGGTCGTGGACGACAACCCGCACAACCTGCTGGTGATCCGCCGGGTGCTGGCCAAGCTGGACGTGGAGGTGGTCGAGGCCCAGTCCGGCAACGAGGGCCTGAAGGCGACGCTGGACAACGAGTTCGCGCTGATCCTGCTCGACGTCTACATGCCGGACATCAACGGTTTCGAGGTCGCCGAGATCCTCTCCAACGAGGACGCCACGCGGCAGACCCCGATCATCTTCATCACCGCGACCTATGCCGACGACGTGCACCGGCTCAAGGGCTACGGGTTCGGCGCGGTCGACTACATGGCCAAGCCGCTGGACACGGTGATCCTGCTGTCCAAGGTGCAGGTGTTCCTGGAGCTGTACCGGCATCGGGTGGCGTTGCGCGATGCGCTGGAAGCGCTGCACGAGCGCAACCGCCAGCTGGAAGCGGAGATCCGCCAGCGCAGCGCCGCCGAGGCGCGGATGCGCCACCTGGCGATGCACGATGCGTTGACCGGCCTGCCCAACCGCGCGCTGTTCATGGACCGGCTGGAGGTGGCGCTGCAGCGCGCCAACCGCGCCGCGGGCATGTTCGCGCTGGTCTACGTCGACCTCAACCGCTTCAAGCAGGTCAACGATAGTTGGGGCCATGCCGCCGGCGATGCGCTGTTGATCGAGGTCGCCGCGCGCCTGCGCGACTGCCTGCGCGGCGAGGACACGGTGGCGCGGCTGGGCGGCGACGAGTTCGCGCTGGTGCTGGAGCAGCTCGACGACGAGGGCGCCTGCAGCGCTTACCTGCAGCGGCTCGGCGCCGCGCTGGCGCAGCCGCTGACGCTGCACCTGGCCGCCGGCGAGCTGGCATTGCAGCCGCAGGCCAGCTTCGGCCTGGCGCTGTTCCCGCGCGACGGGCGCGACAGCGAGCAGCTGCTGCACGCGGCCGACCAGGCGATGTACCTCAACAAGCACGCGCTGCACCGGCTGCAGGACGGCGAGGCGATCGTCGAGGACTGA	MSAVTPSSQPKILVVDDNPHNLLVIRRVLAKLDVEVVEAQSGNEGLKATLDNEFALILLDVYMPDINGFEVAEILSNEDATRQTPIIFITATYADDVHRLKGYGFGAVDYMAKPLDTVILLSKVQVFLELYRHRVALRDALEALHERNRQLEAEIRQRSAAEARMRHLAMHDALTGLPNRALFMDRLEVALQRANRAAGMFALVYVDLNRFKQVNDSWGHAAGDALLIEVAARLRDCLRGEDTVARLGGDEFALVLEQLDDEGACSAYLQRLGAALAQPLTLHLAAGELALQPQASFGLALFPRDGRDSEQLLHAADQAMYLNKHALHRLQDGEAIVED	PGPT0026010_2134	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
BMS020_05804	567	cheB2	COG2201	Protein-glutamate methylesterase/protein-glutamine glutaminase 2	GTGCGCCGCGGCGTCGTGGTGGGCTGCTCGGCCGGCGGGCTGCGCGCCCTGCAGACGCTGCTGCGCGGGCTGCACACGCCGCTGCCGGTGCCGCTGGTGGTGGTCTGCCACAGTGGGTCGGAGGACATGGCGCTGTTCTGCGAACTGTTGCAGCGTTGCACGACGATGCCGGTAGGTGAGGCCGAGGAACGCGCGCTGCCGATCGCCGGACATGTCCACGTCGCCCCATCCGGGTACCATCTGCTGCTGGAGCGCGATGGCCGCTTCGCCCTGAGCGTGGACCCGCGGGTGATGTTTTCCCGCCCATCCATCGACGTGTTGTTCGAAACCGCGGCGCTCGCCTGGGGCGAGGGCGCGGTGGCGGTGGTGCTGACCGGCGCCAACGCCGACGGCGCGCGCGGGGCGGCGGCGATCCGCGATGCCGGGGGCCTGGTGGTGGTGCAGGACCCGGCCGACGCCGAGGTGGCGACGATGCCGGCCGCGGCCCTGGAGCGCGCCGGTGCCGCCGCCGTGGCGTTGCCGCTCGCCGCCATTCCCCCATTCCTGGAACGTGCATGTCCGCAGTAA	MRRGVVVGCSAGGLRALQTLLRGLHTPLPVPLVVVCHSGSEDMALFCELLQRCTTMPVGEAEERALPIAGHVHVAPSGYHLLLERDGRFALSVDPRVMFSRPSIDVLFETAALAWGEGAVAVVLTGANADGARGAAAIRDAGGLVVVQDPADAEVATMPAAALERAGAAAVALPLAAIPPFLERACPQ	PGPT0015650_4307	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015650-cheB|chpB|wspF-K03412	NA	NA
BMS020_05805	852	cheR_2		Chemotaxis protein methyltransferase	ATGACCGGGCCGGCGGCGCTGCGCGACGAGGTCGAGGACATCGAACTGGACGCGTTCGTCGAGGCGATGCGGCGCCGCCACGGCTACGATTTCGGCGGCTATGCGCGTGCCTCGCTGATGCGCCGGGTGCAGGGCTTGGCGCAGTGGCTGCAGGTCGACGGCATCGCTGCGGTGACCGCGCGGGTGCTGCGCGAGGATGCGCTGGTGTCGCCGCTGGTGGCGCGCATGTCGGTGCCGGTGTCGGAGATGTTCCGCAACCCGGCGGTGTTCCGCAAGCTGCGCGACGAGGTGTTCCCGTTGCTGGCCTCGTATCCGCAGATCAACATCTGGCAGGCCGGCTGCGCGCACGGGCAGGAGGTCTATTCGCTGGCGATCCTGCTGCACGAGGCCGGGTTGTACGAGCGCTGCCAGATCTATGCCACCGACATCAGCGACGAGGCGCTGGCGCAGGCGCGCGAGGGCATCTTCCCGATCCGCGAGGCGCGGCTGTACTCGGAGAACTACCTGGCCGCCGGCGGCCGCGGTTCGTTGTCGGACTACTACCACGCCCGCTACGACTTCATGAAGCTGGACGAGCGCCTGCAGCGCCGCGTCACCTTCAGCAACCACAACCTGGTCTGCGACGGGGTGTTCTGCGAGGCGCAGCTGATCCTGTGCCGCAACGTGCTGATCTACTTCTCCAACGCGCTGCAGAACCACGTGCTGGGGCTGTTCCATTCCAGCCTGGTGCGCGGCGGCTTCCTGTGCCTGGGCAACCGCGAGAGCATCCGCTTCGTCGACGCCGCGCGTGAATTCACCCCGGTCGATGCCGCACTGCGCATCTACCGCGCCAACCCCGGCGGAGGTGGCTGA	MTGPAALRDEVEDIELDAFVEAMRRRHGYDFGGYARASLMRRVQGLAQWLQVDGIAAVTARVLREDALVSPLVARMSVPVSEMFRNPAVFRKLRDEVFPLLASYPQINIWQAGCAHGQEVYSLAILLHEAGLYERCQIYATDISDEALAQAREGIFPIREARLYSENYLAAGGRGSLSDYYHARYDFMKLDERLQRRVTFSNHNLVCDGVFCEAQLILCRNVLIYFSNALQNHVLGLFHSSLVRGGFLCLGNRESIRFVDAAREFTPVDAALRIYRANPGGGG	PGPT0015670_1392	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015670-cheR|pilK-K00575	NA	NA
BMS020_05806	3597	rcsC_9		Sensor histidine kinase RcsC	ATGAAAGAGCAAGCGCCCGGCTGGTTCGCCAACCGGCCCCTGATCCACAAGCTGGTCGCCGCGTTCGCGCTGGTGTTCGTGTGCTTCCTCGGCACCAACGTCTTCAACTACCAGACCTTCAGCCGCGACGCGTCCGGACGCCAGGCCGAGGCCCGCGAGATGGCCGCGACGCGCCAGGTCAAATTTGCCGCGCAGGCGATGCGCCAGCAGCAGCTGGCGCTGCGCGACTACTTCCTCGGGGGCGGCGGCGCGGCGTTGCGCCGCTTCGAACAGGAAGGTGAGCACCGGGATGCCGCGCTGGCCCTGGCGCAGGCGCAGATGGACGCGCAGAACGTCCGCCGCATCGACCAGATCCATGCCGCTGCCGATGCGTGGCAGCGGCAGACCACGGCCTTCCTGGCCGAGGCCGCGCCCGATGGCGTGGTTGCCGATGCGGCCATGCTGGCGGGGCGGTACCGCCAGCAGGTCGATGGCCGCGGCGCGGCCGAGGAAGCATTGGCCGCGCTGGATGCGATGTACCAGGCCCGGGTCACCCAGATGCTGGCCGAGCGCGCGCGCCTGAGCGCCTGGGTCAAGCAGGTGTCGTGGATCTCGATGGGCCTGCTCGGCGTGGGTCTGCTGGTGATTCTGGCCACGCTGTACCTGGCCGCGCGCACCATCGTCGGCCCGATCCGCGAGCTGACCCGGCGCATGCGCGCGCTGGCCGAGGGCGACCTGGACGTGGACATCCCGTGGCAGGCGCGCGGCGACGAGGTCGGCGGCATCGCGCGCAGCCTGGAGGTGTTCCGCAGCAATTCGCGCACCATCCGCGACAACACCTGGGTGAAGATCAGCGCCGGCGAGGTCAATTCCGAGCTGCAGGCAGTCGGCGACAGCGAGCAGCTGGCGCAGGCGGCGATCTCGGCGATCGCCCCGCGCATCGGCGCCGGCGTCGGCGTGCTGTTCCTGTGGCAGCGCGAGCAGCAGGAGCTGCGCCTGGCGGGGAGCTATGGTTTCCAGCGGCGCAAGCACCTGGGCCTGCGCTATGGACTGGGCGAGGGGCTGATCGGCCAGGCCGCGCTGGAGCGCAAGCCGATCATCGTGGATCAGGTGCCGGAAGACTTCTTCGGCATCCACTCCGCACTCGGCGAGGCCGCGCCACGGCAGGTGATGGCGGTGCCGGTGCTGCTGAAGGACGAGCTGCTGGGCGTGTTCGAGTTCGGCACCTTCCGCGCCTTCACCGCGCCGCAGGAGGCGTTCCTGCAGGACGTGCTGCGCGACATCGCGCTGACCCTGGTCAACGTGCGCGCCGCCGAGGACACCCGCCGCCTGCTCGACACCACCCGCGAGCAGGCGCGCGAGCTGCAGCAGTCCAGCGAGGCGCTGCGCGCGCAGGAAGAGGAGCTGCGCGCCACCAACGACGAACTGCAGTCCAAGACCGTCGAGCTGGAGGAACAGGCCCAGCGCCTGGCCGCGTCGGAGGAAGAGCTGCGGGTGCAGGCCGAGGAGCTGCAGGCCTCCAACGAGGAACTGCGGCAGAAGACCGACACCCTCAACGAACAGAAGGACGTGCTGCAGGCGCTGCAGCACGACACCGAGCTGAAGGCGCAGGCGCTGGCGCGCGCCAGCCAGTACAAGACCGACTTCCTGGCCAACATGTCGCACGAGCTGCGCACGCCGCTCAACAGCCTGCTGATCCTGTCCAAGGAACTGGCCGAGAACGGCCACGGCCACCTCGACCCGGACGAGGTCGAGGCGGCGCAGGTGATCCACGATTCCGGCTCCAACCTGCTGCGGCTGATCAACGACATCCTCGACCTGTCCAAGATCGAGGCCGGCAAGATGGACGTCTACCGCGAAGGCGTGGAGCTGGAGGCGGTGCAGCGCGAGGTGCTGCGGCACTTCCGCCATGTGGCGCTGGACAAGCGGCTGGAGTTCTCGGTGGAGCTGTCGCCGGCGCTGCCGGCCAGCGTGCAGACCGACCGGCCCAAGCTGCAGCAGATCCTCAACAACCTGCTCGGCAACGCGTTCAAGTTCACCCGCAGCGGCGGCGTCGAGATGCGCATGGCCCCGGCCGACGCCGGGGTGCTGGCGCGGATCGGCGCGCCGGCCGACGCGCCCTGGCTGGCGATCAGCGTGCGCGACAGCGGCATCGGCATTCCGCAGGACCGGCTGGAGTCGATCTTCGAGGCGTTCGAGCAGGTCGATTCCAGCACCAGCCGCCACTTCGGCGGCAGCGGCCTGGGCCTGGCGATCGCGCGGCGCCTGGCCGGCCTGCTCGGCGGCCACCTGCTGGCCGACAGCGAGGTCGAGCGCGGCAGCACCTTCGTGCTGGCGCTGCCGCTGGAGCCGGAGGTCGAGGCCGCCGCACCGCCGCCGTTGCCGACCGTCAGCCACCCGCTGGCGGCCAAGGCGGGCACGCCGGCGCTGATCGACTGGGTGCCCGACGACCGCCACACCGCCGCGCCCGGCGAGGTGCTGATCCTCACGATCGAGGACGACCCGGCGTTCGCACGGATCCTGGTCGACCTGATCCGGCGCAAGGGCCACCGCGCGCTGGCCGCCGCCGACGGCGAGAGCGGCCTGGAACTGGCGCGGCGCTACCGCCCGACCGGGATCCTGCTCGACGTGATGCTGCCCGGCATGGATGGCTGGTCGGTGCTGCAGCAGCTCAAGGCCGACCCGGCCACCGCTTCGATCCCGGTGCACTTCATCTCGGCGGTCGACGAGGCCGCCAAGGGCGAGCAGCTCGGCGCGGCCGGCTATCTGACCAAGCCGGTGGACCGCAAGGCGCTGATCGCCGCGTTCGACCACCTGCTCGACGTCGCTGGCAAGGTGGTGCGCAAGCTGCTGCTGGTCGACGACGATGCCGATTCGCGGCTGGCGCTGCGCACGCTGCTGCGCAAGGACAACCTGCAGATCGACGAGGTCGGTTCCGGCGAGCAGGCGCTGCAGCGCATCGCCGCGCAGAGCTACGACTGCATCGTGCTGGACCTCAACCTGGGCGACATGGCCGGGCTGGACTTCCTCGAGCGCGCCTCGAAGCTGGTGGCGATGCCGCCGGTGGTGATCTATTCCGGCAGCGAGCTCAGTCGCGAGGAAAGCCTGAAGCTGCGCCACTACACCGATGCGATCGTGATCAAGGGCGACCGCTCGCCCGAGCGCCTGCTCGACGAGGTCAGCCTGTTCCTGCACAGCATCGACAAGGCGCCGGGCCAGGCCACGGCGCCGGCCGGCAGCGGCCTGGAGGGGCGCACCGTGCTGCTGGTCGACGACGACATGCGCAACCTGTTCGCGCTGTCGCGCTCGCTGCGCGCGCGCGGCATGCAGGTGGTGATGGCCCAGGATGGTTACAAGGCGCTGCAGCAGCTGCGCGACACGCCGGCGATCGAGCTGGTGCTGATGGACATCATGATGCCGGGCATGGATGGCTACGAGACGATCGGGCAGATCCGCGCCGAGGCGCAGTGGGCCGGCTTGCCGATCATCGCGGTGACCGCCAAGGCGATGCAGGGCGACCGCGACAAGTGCCTGGAGGCTGGCGCCAACGACTACCTGTCCAAGCCGATCGACCTGGACAAGCTGCTGTCGATGATGCGGGTGTGGTTGCAGAAATGA	MKEQAPGWFANRPLIHKLVAAFALVFVCFLGTNVFNYQTFSRDASGRQAEAREMAATRQVKFAAQAMRQQQLALRDYFLGGGGAALRRFEQEGEHRDAALALAQAQMDAQNVRRIDQIHAAADAWQRQTTAFLAEAAPDGVVADAAMLAGRYRQQVDGRGAAEEALAALDAMYQARVTQMLAERARLSAWVKQVSWISMGLLGVGLLVILATLYLAARTIVGPIRELTRRMRALAEGDLDVDIPWQARGDEVGGIARSLEVFRSNSRTIRDNTWVKISAGEVNSELQAVGDSEQLAQAAISAIAPRIGAGVGVLFLWQREQQELRLAGSYGFQRRKHLGLRYGLGEGLIGQAALERKPIIVDQVPEDFFGIHSALGEAAPRQVMAVPVLLKDELLGVFEFGTFRAFTAPQEAFLQDVLRDIALTLVNVRAAEDTRRLLDTTREQARELQQSSEALRAQEEELRATNDELQSKTVELEEQAQRLAASEEELRVQAEELQASNEELRQKTDTLNEQKDVLQALQHDTELKAQALARASQYKTDFLANMSHELRTPLNSLLILSKELAENGHGHLDPDEVEAAQVIHDSGSNLLRLINDILDLSKIEAGKMDVYREGVELEAVQREVLRHFRHVALDKRLEFSVELSPALPASVQTDRPKLQQILNNLLGNAFKFTRSGGVEMRMAPADAGVLARIGAPADAPWLAISVRDSGIGIPQDRLESIFEAFEQVDSSTSRHFGGSGLGLAIARRLAGLLGGHLLADSEVERGSTFVLALPLEPEVEAAAPPPLPTVSHPLAAKAGTPALIDWVPDDRHTAAPGEVLILTIEDDPAFARILVDLIRRKGHRALAAADGESGLELARRYRPTGILLDVMLPGMDGWSVLQQLKADPATASIPVHFISAVDEAAKGEQLGAAGYLTKPVDRKALIAAFDHLLDVAGKVVRKLLLVDDDADSRLALRTLLRKDNLQIDEVGSGEQALQRIAAQSYDCIVLDLNLGDMAGLDFLERASKLVAMPPVVIYSGSELSREESLKLRHYTDAIVIKGDRSPERLLDEVSLFLHSIDKAPGQATAPAGSGLEGRTVLLVDDDMRNLFALSRSLRARGMQVVMAQDGYKALQQLRDTPAIELVLMDIMMPGMDGYETIGQIRAEAQWAGLPIIAVTAKAMQGDRDKCLEAGANDYLSKPIDLDKLLSMMRVWLQK				NA	NA	NA	NA	NA
BMS020_05807	744	tatC_1	COG0805	Sec-independent protein translocase protein TatC	GTGAGCCATGGCGACGAGGCCGCACAGGCCGAAAGCAGCCTGATCGAGCACCTGATCGAACTGCGTGCGCGGCTGCTGCGCGCGCTGGTCGGGCTGGTGGTGGTGCTGATCGCGCTGATGCCGTTCACCCAGAAGATCTATTCCTGGCTGGCGCATCCGCTGATCTCGCAGCTGCCGGCGGGGCAGACGATGATCGCGATGAATCCGGCCGGCGCGTTCTTCGCGCCGCTGAAGCTGACCTTCTTCCTGGCGCTGTTCATCGCGGTGCCGTGGCTGCTGTACCAGGCCTGGGCGTTCGTCGCCCCGGGGCTGTACCAGCGCGAGAAGCGGCTGGCGTTGCCGCTGCTGGCCTCGGCGGTGCTGCTGTTCTACATCGGCTGCGCGTTCGCCTACTTCCTGGTGCTGCCGTCGGTGTTCCACTTCCTGACCACGTTCAAGCCGGACGTGATCGCGATCACCCCCGACGCCAATTCCTACCTGGATTTCGTGCTGGTGATCTTCTTCGCCTTCGGTGCCAGCTTCGAGCTGCCGGTGGCGCTGGTGATCCTGGTGCTGCTGGGCTGGGTCTCGCCGGATCAGCTGCGCCAGGGTCGCGGCTACGCCGTCGTCGGCATCTTCGTGCTGGCGGCGGTGCTGACCCCGCCGGACATCGTTTCGCAGCTGATGCTGGCGATCCCGATGTGCCTGCTCTACGAGCTGGGCATCCTCGCGGCACGCTGGCTGGTTCCCAGCGCGGGGCGCTGA	MSHGDEAAQAESSLIEHLIELRARLLRALVGLVVVLIALMPFTQKIYSWLAHPLISQLPAGQTMIAMNPAGAFFAPLKLTFFLALFIAVPWLLYQAWAFVAPGLYQREKRLALPLLASAVLLFYIGCAFAYFLVLPSVFHFLTTFKPDVIAITPDANSYLDFVLVIFFAFGASFELPVALVILVLLGWVSPDQLRQGRGYAVVGIFVLAAVLTPPDIVSQLMLAIPMCLLYELGILAARWLVPSAGR	PGPT0029295_4245	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
BMS020_05808	429	tatB_1		Sec-independent protein translocase protein TatB	GTGTTCGACATCGGTTTCAGCGAGCTGCTGCTGATCGCAGTGGTGGCACTGGTCGTGCTTGGTCCTGAGCGCCTGCCCAAGGCGGCGCGGTTCGCCGGGCTGTGGGTGCGCCGCGCGCGCCAGCAGTGGGAATCGGTGAAGCAGGAGCTGGAACGCGAACTCGAGGCCGAGGAGCTCAAGCGCAACCTGCACAACGTGCAGTCCTCGCTGCGCGAGGCCGAGACCCAGCTGCGCGATGGCCAGCGCCAGCTCGATGCGCAGACCCGCGCGCTGCATGAGGAAGTCCGCCGCGACGTCGACATCCGCAGTGCCGATGCCAGCGCGGCGCCGGCCGCCGCCGACGCGCTGCCGCCGCCCGCCGATGCCGCGCCGCCCGCCACGCCCCCGGCAGCAGCGCCCGCCACCCCGGCGCAGGAGAAGCCGCAGTGA	MFDIGFSELLLIAVVALVVLGPERLPKAARFAGLWVRRARQQWESVKQELERELEAEELKRNLHNVQSSLREAETQLRDGQRQLDAQTRALHEEVRRDVDIRSADASAAPAAADALPPPADAAPPATPPAAAPATPAQEKPQ				NA	NA	NA	NA	NA
BMS020_05809	228	tatA_1	COG1826	Sec-independent protein translocase protein TatA	ATGGGCGGCATGAGTTGGATTCATTGGGTGGTGGTGCTGGTGATCGTGCTGCTGGTGTTCGGCACCAAGCGCCTGACCAGCGGCGCCAAGGACCTCGGCAGCGCGGTCAAGGAATTCAAGAAGGGCATGCGCGACGACGACGCCCCGGCCGGCCAGCTGCGTGACGATTCGCGCAACAGCGACCAGGTCCGCGAGTCGCAGGCCGAGCGCGACCGCGACGCGCGCTGA	MGGMSWIHWVVVLVIVLLVFGTKRLTSGAKDLGSAVKEFKKGMRDDDAPAGQLRDDSRNSDQVRESQAERDRDAR	PGPT0029290_3142	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
BMS020_05810	900			hypothetical protein	ATGCCCCGTCTTTCGCGCTTCGCCCTGCTGCTCTCGCTCACGTTTGCCGCCGGCCACGCGGTGGCTGGACCGGAAGAGGACCAGCGCGCCCGCAACGCCGTGCGCGTGCTGCTGGACATCCAGCGCATCCCCGAGCAGGCGATCCCGGACAAGCTGCTCGACGAGGCGCGCGCGATCGTGGTCATTCCCGACACGATCAAGGCCGGCCTGGTGATCGGCGGCCGCCGCGGCCACGGCCTGATGGCGATGAAGATGCCCGACGGCACCTGGTCCAACCCGGTGTTCGTGAAGCTGACCGGCGGCAGCATCGGCTTCCAGGCCGGCGTGCAGTCCTCCGACGTGGTGCTGGTGTTCCGCAACGACCGCAGCCTGGACAACATCGTCAACGGCAAGTTCACCCTCGGCGCCGATGCCGGCGTCGCCGCCGGCCCGGTCGGGCGCAACGCCGCCGCCGCCACCGACGGCCAGCTCAAGGCCGAGATCTGGTCGTGGTCGCGCGCGCGCGGGCTGTTCGCCGGCGTCGCGCTGGACGGCGCGGTGCTGCAGATCGACGACGAGGCCGACCTCAACGCCTATGGCAGCGGCAGCACCCCGCGCATGATCTTCGAAGGCCGCGCCAGCGAGCGCCCGTCCACCGACGTGGTCGCCTTCCGCGACCGCCTGGAGGAAGCCACCTACGCCGCGCGCGCCAACCGCGGTACAGACTCCGCCGGTACGGCGGCGCCGCGTCCGGCCCCGGCGCCGGCCGGCAGCGTCACCACCTCGGTGCCGAGCGCGCCGCCGGCCGAAGCCAGCACCGCGCCGATCCAGGCGCCGGGCGCCGCAGCCGCGCCCGCGCAGCAGGGCTTCCAGCCGGTCAACGAAGGCGAGATCCGCACCGAGTCGCTCGAGGGCAACTGA	MPRLSRFALLLSLTFAAGHAVAGPEEDQRARNAVRVLLDIQRIPEQAIPDKLLDEARAIVVIPDTIKAGLVIGGRRGHGLMAMKMPDGTWSNPVFVKLTGGSIGFQAGVQSSDVVLVFRNDRSLDNIVNGKFTLGADAGVAAGPVGRNAAAATDGQLKAEIWSWSRARGLFAGVALDGAVLQIDDEADLNAYGSGSTPRMIFEGRASERPSTDVVAFRDRLEEATYAARANRGTDSAGTAAPRPAPAPAGSVTTSVPSAPPAEASTAPIQAPGAAAAPAQQGFQPVNEGEIRTESLEGN				NA	NA	NA	NA	NA
BMS020_05811	1044	hemH_2	COG0276	Ferrochelatase	ATGAGCCGCAAGACGGCGGCAATCGTGGCGATCGATCCGGCGGGCGCGCGGCGGGCCACCCGCCTCTGCCACAATGAATGCATGTCAGAACCCGTCGATACCGGCCTACTGGTCGTCAACCTGGGCACCCCCGATGCCCCCACCGCGCCGGCCGTGCGGCGCTACCTGGCCGAGTTCCTCGGCGACCGCCGCGTGGTGTCGATCCCGCCGCTGCTGTGGAAGCCGCTGCTGCACGGGCTGATCCTGCCGTTGCGCGGACCACGCTCGGCCGAGAAGTACGCCCAGGTGTGGCTGCCGGACGGCTCGCCGCTGGCGGTCTACACCCAGCGCCTGGCCGCCGGCATCGGCCGCGAACTGCCCGGGCACTGGCAGGTGCGCGCGGCGATGCGCTACGGCACCCCGGCGCTGCGCCCGGCGCTGGACGCGCTGCACGCGCAGGGCCTGCGCCGGATCGTGGTGCTGCCGCTGTACCCGCAGTACTCCACCACCACCACCGCGTCGGTCGAAGACGTGGTCGACGCCTGGCGCGGCGCCCATCCGGACACCCGGGTCAGCCTGGTCCATGACTACGCCACCGACCCGGCCTGGGTCGCGGCGGTGGCCGCCTCGATCCGCGAGCACTGGCAGCAGCACGGCCGCGGGCAGACGCTGATGTTCTCCTTCCACGGCCTGCCGCAGCGGGTGGCCGACAACGGCGACCCCTACCCGCAGCGCTGCGACGCCAGCGCACGCGCGATCGCCGCCGCGCTCGGGCTGGGCGAGCACGACTGGCAGCTTGGCTACCAGTCGCGCTTCGGCCGCGAGCGCTGGCTGCAGCCGTATGCCGAACCGACGCTGTGGGCGCTGGCCGAACGCGGCGTGCGCGAGATCGACGTGGTCTGCCCCGGCTTCGCCACCGACTGCCTGGAGACGCTGGAGGAAGTGGCGATGGGCTTCTCCCATACCCTGGCAGAGCGCGGCGCACGGTTGCGCTACATCCCCTGCCTCAACGACGCCACCGTGCACGCGCAGGCGCTGGCGCAGCTCGCGGCGCGCACCGCGTGA	MSRKTAAIVAIDPAGARRATRLCHNECMSEPVDTGLLVVNLGTPDAPTAPAVRRYLAEFLGDRRVVSIPPLLWKPLLHGLILPLRGPRSAEKYAQVWLPDGSPLAVYTQRLAAGIGRELPGHWQVRAAMRYGTPALRPALDALHAQGLRRIVVLPLYPQYSTTTTASVEDVVDAWRGAHPDTRVSLVHDYATDPAWVAAVAASIREHWQQHGRGQTLMFSFHGLPQRVADNGDPYPQRCDASARAIAAALGLGEHDWQLGYQSRFGRERWLQPYAEPTLWALAERGVREIDVVCPGFATDCLETLEEVAMGFSHTLAERGARLRYIPCLNDATVHAQALAQLAARTA	PGPT0008485_3974	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
BMS020_05812	858	menH_6		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	GTGAAGCTGCAGCCCTTCGACTGCGCACTGCGGATCGGCCGGGTGGCCGGGCTGCGCGGTGGCCGCCCCGGCGCGCGCCGGGTGCTGGCGCTGCACGGTTGGCTCGACAACGCCGCCAGCTTCATCCCGCTCGCCCCACACCTGGGCGATGTCGACCTGGCCCTGCTCGACCTGCCCGGCCACGGCCACAGCGACGCGCTCGCGCCCGGCGGCGACTACACGATGATCGGCGCGATCCACAGCGTGCTCGACGCCGCCGACGCGCTGGGCTGGGACCGCTTCACCCTGCTCGGGCATTCGATGGGCGCCGGCATCGCCAGCCTGGTGGCCGCGGCCGAGCCGGCGCGGGTCGAGGCGCTGGTGGCGATCGAGGCGCTGGGCGGGCTCGGCGAAGCGGTCGAACGTACCGCCGAGCGGCTGCGCGACAGCGTCAGCGCCGCACGCGCGCTGGGCCAGCGCCCGCTGCGGGTGTTCCCCGGCATCGAGACCGCGATCCGCGCACGGATGATGGCCAACCACCTGACCGAGGCCTCGGCGCGGCTGCTGGTCGAACGCGGCGTGCAGGCGGTGGAAGGCGGCTACAGCTGGCGCAGTGACCAGCGCCTGACCCTGCCGACCGCGGTGCGCATGACCGAGGCGCAGATCGATGCGCTGGTCGCGGCGATCGCCTGTCCCACCCAGGTGGTGTTCGCCAGCCCGGCCCAGGCCTATTTCCCCGAGCCGCTGCGCAGCCGGCGCGCCGCGCTGCTGGCCGATGGCCGCCTCGACGTGCTGCCCGGCATCCACCACCTGCACATGGAACAGCCCGAGCCGGTGGCGGCCATCATCCGCCGCTTCCTTGCCGACCTGCCGGGCTGA	MKLQPFDCALRIGRVAGLRGGRPGARRVLALHGWLDNAASFIPLAPHLGDVDLALLDLPGHGHSDALAPGGDYTMIGAIHSVLDAADALGWDRFTLLGHSMGAGIASLVAAAEPARVEALVAIEALGGLGEAVERTAERLRDSVSAARALGQRPLRVFPGIETAIRARMMANHLTEASARLLVERGVQAVEGGYSWRSDQRLTLPTAVRMTEAQIDALVAAIACPTQVVFASPAQAYFPEPLRSRRAALLADGRLDVLPGIHHLHMEQPEPVAAIIRRFLADLPG				NA	NA	NA	NA	NA
BMS020_05813	801			hypothetical protein	ATGCACAAGATTTTCCGCCGCCTGATCGCGCCCCCGGCGCAGGTGGTCGAACGCGACAGCGTCCGCCTGCGTCTGCATGAGCGCGAGATCGAGGTGCTGCGCGTGCGCGATCCGCGTGCGCGCCGCATCAAGCTCAGCGTGGACGAACGCGGCGCGCGCCTGACCCTGCCGCCGCGCGCCAGCCTGGTGGCCGGCGAGCGCTTCCTGCTCGAACACCGCGAGTGGCTGGCCGAGCAGCTGGCGCGCTACCGCCAGGACGGGGTGCTGGCAACGCTGAGCCCGGGCCAGCCCGGCGCGCTGCCGCTGCGCGGCGCGCGCCTGCCGGTGCACTGGGAAGCCGGGCGCTACGCGCGCATCGAGCTGGCCGAGGATGGCGCCCACCTGTACCTGCCGGTGCGCGCCGGCGACGCCACGCTGCGCCGGCTGCTGCGCGATTTCTACGAAGCACAGGCGCGGGCCGACATCGGCCGCTGGCTGCCGCGCTACCTGCCGTCGCTGCCGCGCGCGCCGCGCGCGGTGCGCTACAAGGTGATGTCCTCGCAATGGGGCTCGCTGGCGCCGGACGGCACCATGGCGCTGGACCTGGCGCTGGTGCTGGGGCGCCCGTCGGCGTTCGAGTACGTGCTGGTGCACGAGCTCTGCCACCTGCTGCAGGCCAACCATTCGCCGGCGTTCTGGCACGAGGTCGAACAGCGCTTCCCCGGCTGGCGCGAGGAACGCGCCTGGTTCCACCAGCACGGGCGCCAGCTCAAGGCGCAGCTGCGCGGCCTGCTGCAACCGGCACCGGCCGCGCAGGACTGA	MHKIFRRLIAPPAQVVERDSVRLRLHEREIEVLRVRDPRARRIKLSVDERGARLTLPPRASLVAGERFLLEHREWLAEQLARYRQDGVLATLSPGQPGALPLRGARLPVHWEAGRYARIELAEDGAHLYLPVRAGDATLRRLLRDFYEAQARADIGRWLPRYLPSLPRAPRAVRYKVMSSQWGSLAPDGTMALDLALVLGRPSAFEYVLVHELCHLLQANHSPAFWHEVEQRFPGWREERAWFHQHGRQLKAQLRGLLQPAPAAQD				NA	NA	NA	NA	NA
BMS020_05814	909	rdgC_2	COG2974	Recombination-associated protein RdgC	ATGTTCTTCCGCAACCTGACCTTCTTCCGCTTCCCCACCTCGGTGGATTTCTCCCAGATCGACACCCTGCTGCCGAACGCGCTGCTCAAGCCGGTCGGTGCGCTGGAAATGAGCTCGCGCGGCTTCATCTCGCCGTTCGGCCGCGACGAGCAGGAGGCGCTGAGCCACCGCATCGGCGACTTCCTGTGGCTGACCATCGGCGGCGAGGAGAAGATCCTGCCCGGCGCGGTGGTCAACGACCTGCTTGAGCGCAAGGTCGCAGAGATCGAGGAGAAGGAAGGCCACCGCCCCGGCGGCCGCGCGCGCAAGCGCCTGAAGGACGACCTGATCCACGAGCTGCTGCCGCGTGCCTTCGTCAAGTCCTCGCGCACCGACGCGCTGTTCGACCTGCGCAACGGCTACGTCGCGGTGAACACCTCCAGCCGCAAGACTGGCGAGAACGTGATGAGCGAGATCCGCGGCCTGCTCGGCAGCTTCCCGGCGCTGCCGCTGAACGCGGAGATCGCGCCGCGTTCGGTGCTGACCGGCTGGATCGCCGGCGAGCCGCTGCCCGAGGGCCTGAGCCTGGGCGAGGAATGCGAGATGAAGGATCCGATCGACGGCGGCGCGGTGGTGCGTTGCCAGCACCAGGAGCTGCGCGGCGACGAGATCGACAAGCACCTGGAATCGGGCAAGCAGGTCACCAAGCTGGCGCTGACCCTGGAGGACAACCTGTCGTTCGTGATCGGCGACGACCTGGTGGTGCGCAAGTTCAAGTTCCTCGACGGCGCGCTGGACCAGCTCGAGCATGCCGACGGCGATGGTGCGCGTGCCGAGGCCGATGCCAGCTTCGCGCTGATGAGCGGCGAAGTGCGGCGGCTGTTCCTGCTGCTGGAAGAGCCGCTCAAGCTCAGCCGCGCCGAGGCCTGA	MFFRNLTFFRFPTSVDFSQIDTLLPNALLKPVGALEMSSRGFISPFGRDEQEALSHRIGDFLWLTIGGEEKILPGAVVNDLLERKVAEIEEKEGHRPGGRARKRLKDDLIHELLPRAFVKSSRTDALFDLRNGYVAVNTSSRKTGENVMSEIRGLLGSFPALPLNAEIAPRSVLTGWIAGEPLPEGLSLGEECEMKDPIDGGAVVRCQHQELRGDEIDKHLESGKQVTKLALTLEDNLSFVIGDDLVVRKFKFLDGALDQLEHADGDGARAEADASFALMSGEVRRLFLLLEEPLKLSRAEA				NA	NA	NA	NA	NA
BMS020_05815	906	ttcA_2	COG0037	tRNA-cytidine(32) 2-sulfurtransferase	ATGAATGCCGCCGTCATCCCGCTGCCCGATCCCACTCCGACCCGCCGCGATCCGCGCGTGGCCGAACGCGAGCACGGCAAGCTCGCCAAGCGGCTGCGCCGCCAGGTCGGCCAGGCCATTGCCGATTTCGGCATGATCGAGGCCGGCGACAAGGTGATGGTGTGCCTGTCCGGCGGCAAGGACAGCTACACCCTGCTCGACGTGCTGCTGCAGCTGCAGAAGAAGGCGCCGGTGCCGTTCGAGCTGGTCGCGGTCAACCTCGACCAGAAGCAGCCGGGTTTTCCCGAGCATGTGCTGCCGGACTACCTGCGCGCGCTCGGCGTGCCGTTCCACATCATCGAGCAGGACACCTATTCGGTGGTCAGCCGGGTGATCCCGGAAGGCAAGACGATGTGTTCGCTGTGCTCGCGGCTGCGCCGCGGCGCGCTGTACAGCTACGCCGAGCAGCACGGATTCACCAAGATCGCGCTGGGCCACCACCGCGACGACATGGTCGCCACGTTCTTCATGAACCTGTTCCACCACGCCAAGCTGTCGGGCATGCCGCCGAAGCTGCGCAGCGATGACGGCAAGCATGTGGTGATCCGTCCGCTGGCCTACGTGCGCGAGGCCGACATCGTCGACTACGCGCAGGCGCGGCAGTTCCCGATCATCCCGTGCAACCTGTGCGGCAGCCAGGAAAACCTGCAGCGCAAGCAGGTCGGGCTGATGCTGCAGCAGTGGGAGCGCGAGCAGCCCGGGCGGATCGAGCAGATCAGCCGCGCGCTCGGCGACATCCGTCCGTCGCAGCTGGCCGACCGTGGGTTGTTCGACTTCATGGCGCTGGGCCAGCGCGGCGAAGGCGCTCTGCCGGACGCGCATGCCTGGCTGGCCGGCGATGGCGCCGCGCGCGACGGCGCCGACTGA	MNAAVIPLPDPTPTRRDPRVAEREHGKLAKRLRRQVGQAIADFGMIEAGDKVMVCLSGGKDSYTLLDVLLQLQKKAPVPFELVAVNLDQKQPGFPEHVLPDYLRALGVPFHIIEQDTYSVVSRVIPEGKTMCSLCSRLRRGALYSYAEQHGFTKIALGHHRDDMVATFFMNLFHHAKLSGMPPKLRSDDGKHVVIRPLAYVREADIVDYAQARQFPIIPCNLCGSQENLQRKQVGLMLQQWEREQPGRIEQISRALGDIRPSQLADRGLFDFMALGQRGEGALPDAHAWLAGDGAARDGAD				NA	NA	NA	NA	NA
BMS020_05816	1497	xylB_3	COG1070	Xylulose kinase	ATGAGCGCGCTGTACATCGGCCTGGACGTAGGCACGCAGAGCGTGAAGCTGGTGGCCTACGATCCGGCGGGCAGGGAAGTGGTGGCGACGACGGCGAAGGCGATGGCGCTGGTCAGCCGCGAGGACGGCACGCGCGAGCAGGACGCGGCGTGGTGGATCGAGGGCATCGTCGAATGCTTCGCCGGGTTGAGCGCGCAGCAGCGGGCGCAGGTGCGCGGGATCGCGGTGTCCGGGCAGCAGCACGGCTTCGTGCCGGTGGCCGCCGATGGCGCGGTGACCGCGCCGGTGAAACTGTGGTGCGACACCAGCACCCACGCCGAGTGCGAGCAGATCATGGGGGCGGTTGGTGGCGCATCCGGGGCGATCGCCGCAGCCGGCAATCCGATCCTGGCCGGTTACACCGCCTCCAAGCTGCCGTGGACGCGCACGCATCGGCCTGAGGCGTACGCGGCGATGGCGACGATCCTGCTGCCGCACGACTACGTGAACTTCTGGCTGACCGGGCAGCGTTTCATGGAGGCCGGCGATGCGTCGGGCACCGGCTGGCTGGATGTGCGCACGCGGCAGTGGTCGCAGCCGATGCTCAAGGCCCTTGATGGCGAGCGTGACCTGGCCGAAGCGCTGCCGCCGCTGGTGTCGCCCGATGCGGTGTTCCCGCTGTCCGACTCGGCTGCGGCCACGCTGGGCCTGCCGGCCGGCGTGCAGGTCGCGGTCGGCGGCGGCGACAACATGATGGCCGCGATCGGCACCGGCAACGTGGTGCCGGGGCGGCTGACGATGAGCCTGGGCACCTCGGGCACGCTGTTCGCGCATGCCGATCATCCCGTCGTCGACGATGCCGGCCGCTGGGCGGCGTTCTGCGATTCGACCGGCGGCTGGCTGCCGCTGATCTGCACGATGAACTGCACGGTCGCCACCGAGACCGCGATGCGCATGTTCAATCTCGATCGCGAGCAGGCCGAAGCGGCGATCGTATCGACGCCGCCGGGCGCCGACGGGCTGGTGATGCTGCCGTTCTTCAACGGCGAGCGCACCCCGGACCTGCCCGAGGCCCGCGGCGGCCTGTTCGGCATGGACCTGCACAACACCACGCCGGCGCACGTCTACCGCGCGGCGATGGAGGGCGCGACCTACAGCCTACGCAACGGCTTCGATGCGTTCGTCGGCGCCGGCCTGCCGTTCGACACGATCCTGCTGACTGGCGGCGGCAGCAAGAGCGCGCAGTGGCGGCAGATGATCGCCGACGTGTTCAACCTGCCGGTGGTGGTGCCGAGCCAGCCGGAGGGCGCCGCGTTCGGCGCCGCGCTGCAGGCGCTGTGGGCCTGCGAGCGTGCGGGCAGCGGCGAGTCGCTGGCGACCACCGTCGATGCACACCTGCAGGTCGACGATGCGTTGTCGGCCCAACCCGATCCACACCGCGTGGCGCAGTACGCGCGCGGCTATGCCCAGTTCCAGCGCTATCTGGCCGCGATCGCGCCGCTGTACCGCACCCCATGA	MSALYIGLDVGTQSVKLVAYDPAGREVVATTAKAMALVSREDGTREQDAAWWIEGIVECFAGLSAQQRAQVRGIAVSGQQHGFVPVAADGAVTAPVKLWCDTSTHAECEQIMGAVGGASGAIAAAGNPILAGYTASKLPWTRTHRPEAYAAMATILLPHDYVNFWLTGQRFMEAGDASGTGWLDVRTRQWSQPMLKALDGERDLAEALPPLVSPDAVFPLSDSAAATLGLPAGVQVAVGGGDNMMAAIGTGNVVPGRLTMSLGTSGTLFAHADHPVVDDAGRWAAFCDSTGGWLPLICTMNCTVATETAMRMFNLDREQAEAAIVSTPPGADGLVMLPFFNGERTPDLPEARGGLFGMDLHNTTPAHVYRAAMEGATYSLRNGFDAFVGAGLPFDTILLTGGGSKSAQWRQMIADVFNLPVVVPSQPEGAAFGAALQALWACERAGSGESLATTVDAHLQVDDALSAQPDPHRVAQYARGYAQFQRYLAAIAPLYRTP	PGPT0017535_1681	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
BMS020_05817	891			hypothetical protein	ATGGTAACTGTGAAAAAGAAATACGGTAAAAAGCCGATAGCCAGCACCGCCGGCCCTGACATTGTGGAGTCACTGAAGGCCGATCCCGCGTTGACAGCGTTCAGCTTTGACGGCCCTTATCCCGTGCGGGATATGGCCGATTTGCTGGACAATCTCTATTGCATGGACAACGGGCGATACTATGAGACGCCAGTAGACTTTTACGGACTGGCTAAAGCTCCGCGTCAGAGCGCCTGGCATGAGTCGGCGTTGTATTTCAAACGTAATGTGCTCACCGGCTGTTTTATCCCGCACAAACTGCTCAATCGCCAGACCTTTTCCGCGTTTGCGCTGGACTGGTTCACGTTTGGCAATGCCTATCTCGAATTGCCGCGTAATCGCCTGGGCGGCCCGCTTCCCTTCAAACACTCTCTTGCGAAGTACACCCGGCGTGGGAGCACAGATCTCGATCAATACTGGTTCATCCGGCGCTGGAAAGAGGAACACTCGTTTAAACCGGGTTCAGTGTGTCACGTTCTAAATCCTGACATTAATCAGGAGGTCTACGGCATGCCCGAATATATGGCAGCACTGCTGGCCGCCAGCCTGGCCCACTCCGCTGACATGTTCCGTAAGCTTTACTACGACAACGGATCGCATGCTGGATGCATTGTTTATATTGGCGCCGGACAGGTTGACGATAAAAGCATGAAGGCAGTAAAAGAGACGTTGACCGGCGCGCGTGGTAAAGGCGCATTTAAAAACCTGCTGCTGCATGCACCAGGCGGCGGCAAAGACGGCGTGCAAATCCTCCCCTTCCAGCAGATCACTGCGAAAGATGAGTTTATCAACATTAAGAACGCCACACGTGACGATGTAAGTATCCCGGTAAAGCGGACCATTCACATTTAG	MVTVKKKYGKKPIASTAGPDIVESLKADPALTAFSFDGPYPVRDMADLLDNLYCMDNGRYYETPVDFYGLAKAPRQSAWHESALYFKRNVLTGCFIPHKLLNRQTFSAFALDWFTFGNAYLELPRNRLGGPLPFKHSLAKYTRRGSTDLDQYWFIRRWKEEHSFKPGSVCHVLNPDINQEVYGMPEYMAALLAASLAHSADMFRKLYYDNGSHAGCIVYIGAGQVDDKSMKAVKETLTGARGKGAFKNLLLHAPGGGKDGVQILPFQQITAKDEFINIKNATRDDVSIPVKRTIHI				NA	NA	NA	NA	NA
BMS020_05818	1089			hypothetical protein	GTGGACGTCGAACTTAAAGGCGGTGAGCAAATCACGTTGTCAAACGGCGCGGAGCTGCATTTTCTCGGGACGTCGGCGGCGACGGCGCAGTCGTACACCGGCCACCTGCGATTTGATGAGTTTTTCTGGACAGGAAACTTTATCAACCTGCGCAAAGTTGCCGGCGCCATGGCAACGCTCAAAGGCTTAACACGCACGTACTTCTCCACGCCATCCAGCGAAAGCCATGAAGCCTATCAGTTCTGGACCGGCGATCGATGGAATGCGAAACGGCCTAAAGCGCAGCGCGTTGACTTTGACGTTTCATGGAAGAAAACCCATAGCGGCGTGCTTTACCCGGATAAAACGTGGCGGCAGATCGTCACTATTCAGGACGCTATCAACAACGGCTGGGACTACACCGACATTGATGAAATCAGGGACGAAAACAGCCCCGATGAATTTGAAAACCTGTACATGTGCGAGTTCGTCAAAGACGGCGAAAGCGCGTTCAATCTTAGCCAGTTACTGGGGTGCGGCGCTGACGGGTATGACGACTGGCCAGACTGGAAACCGTTCGCCAGTCGCCCTATGGGCCAACGTGAGGTGTGGCTGGGCTACGACGCCAACGGCGGCAGCGGCAATGGTGATGCCGGTGCTCTGTCCGTAACTGTCCCTCCCCTTGTGGCTGGCGGCCGGTTTCGCACGGTTGAATTGAAGCAACTGCGAGGGCTGGAGTTTGAGCAGCAGGCGGCGCTCATCAAAGAGGCTGCCGAGCGCTACAACGTCACTCACATCGCCATCGACGGACAAGGCGTCGGGGAGGCGGTCTGGCAGATTGTTAAAAATTGGTACCCGGCGGCTATTTGCTACCAGATGAGCCTCTCTTCCAAGCGCGCCCTTGTCCTCAAAATGTTGCAGGTCATCCGCGCCGGCCGCTGGGAATATGACCGCAGCGAGCAGGGCCTGGTCAGAGCCTTTAACGCTGTTCGCAAAGTTGTTACGCCCGGCGGTTTCATCACTTACGAAACGGACCGATCGCGCGGCGTAAGCCATGGTGATATGGCGTGGGCAACCATGCTTTCGATTATTAATGAACCGTTGGGCTAG	MDVELKGGEQITLSNGAELHFLGTSAATAQSYTGHLRFDEFFWTGNFINLRKVAGAMATLKGLTRTYFSTPSSESHEAYQFWTGDRWNAKRPKAQRVDFDVSWKKTHSGVLYPDKTWRQIVTIQDAINNGWDYTDIDEIRDENSPDEFENLYMCEFVKDGESAFNLSQLLGCGADGYDDWPDWKPFASRPMGQREVWLGYDANGGSGNGDAGALSVTVPPLVAGGRFRTVELKQLRGLEFEQQAALIKEAAERYNVTHIAIDGQGVGEAVWQIVKNWYPAAICYQMSLSSKRALVLKMLQVIRAGRWEYDRSEQGLVRAFNAVRKVVTPGGFITYETDRSRGVSHGDMAWATMLSIINEPLG	PGPT0027190_20	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0027190-dam-K06223	NA	NA
BMS020_05819	1026			hypothetical protein	GTGGATATTACCGCCGTGCTGATCGGTGATGGTGGCGGCGTGACTTTACCAACTGATCCCGACGACCTGGCGGCGGTGACGGCGCTTTTTGGTCAGTTTGGCCGTGAAACCTTTGATTCTGATTCAAGCTATGAGGGATTTATCAGTGGTCAGATTGTTATCAACTGCCGGGATTACCCGGGTAAGACGCTCAGAGAGGCGGGGCTGGTCAGTGCTAAGGGTACGCTCATTGCTTACGGCGCATACCCGGCGACATACCTCCCGGCGCAATCTGATTCCATCATCAAAGAGATCATTCTGACACTGGTGTTGACGCTGATGCACAGCTCAAGCGTGCAGCTTATTATCGATCCGGCACTTGCCACCCTCACGCAGGAAACGGGTGATAAACGCTATCTCCGCCGCGCCCTGAACCTGTCAGATTTAGCCGACATTGGCGAGGCACGGGAAAATCTGGATCTGGGGAATTCAGCCACGCTGGACGTGGGCACCACGGAGGGAACGGTGGCGGCGGGGGATGATTCGCGCATCACCGGCTCCCTTCAGAAAGAAAATAATCTTTCCGACCTGAGCGATACATCCGAAGCCCTCAAGGCGCTGGGACTCAACAGTGACGGAACGGCCTATAAGACAATTGTTGACGCCATTTTTTATGTCGGAATTGTTGTCTCTGGCGAGCAAAGTCCAGCGGAGCGCTTCCCATGGCAGAAATGGGCTGATTTAAGCGAAACCTTTGCTGACAGGGTGGTACGGATTGGTTCTCAGTATGGTGTGACCGGCGGGAGTAACAAGGTAAAACTCGAAGCTGATAATCTGCCACCGCACTGGCATCGTTCTGGTGACAGATCCCCCGGGGCAACATGGGATCCGACCACAACACATGGAACAGATAACCAGAAAAGTGGCCCGCTGGCTCTTACTGAGGGAACTTACGTAGACAAACAGGGACTGGCTGAAAGCCATAACAAAGTGGTAGACGTGACAAACGAGTATGTCTCTCTATGTATGTGGAAACGCATCGTATAA	MDITAVLIGDGGGVTLPTDPDDLAAVTALFGQFGRETFDSDSSYEGFISGQIVINCRDYPGKTLREAGLVSAKGTLIAYGAYPATYLPAQSDSIIKEIILTLVLTLMHSSSVQLIIDPALATLTQETGDKRYLRRALNLSDLADIGEARENLDLGNSATLDVGTTEGTVAAGDDSRITGSLQKENNLSDLSDTSEALKALGLNSDGTAYKTIVDAIFYVGIVVSGEQSPAERFPWQKWADLSETFADRVVRIGSQYGVTGGSNKVKLEADNLPPHWHRSGDRSPGATWDPTTTHGTDNQKSGPLALTEGTYVDKQGLAESHNKVVDVTNEYVSLCMWKRIV				NA	NA	NA	NA	NA
BMS020_05820	1533			hypothetical protein	ATGGATATAGAAAATGAGTTAACAAGAAAAATCCTTGACCCAATTCATGGTATTATCCGTTTGACTGCTTTAGAAATAGAGTTTATCAATCACCCACTTTACCAGCGCTTACGTAATATCAAACAAAATTCTTTTTTATATAAAGTATTTCCTTCGGCGGTTCATAGCCGATTTGAGCATTCCTTAGGAGTGCTTCATTTATCTAATGAGATACTTAAGAATTTGCATCTTAATACTATTCGTTATGGAAAAAAATATGATGATGGGCATGTTTTTAATGCGGTAAGTCTTATTCCAAAGCACAATGTTCAGGAGTTGAGACTTGCGGCTTTGATGCATGATATAGGTCATGGACCGATGTCCCATCAATTTGATATTTTTATGCCAACAAAAAAAGAACTAATCGAGTTCTTGGATAAGAAATATCATAAGGTTCTTGATGTTTTAACCCAAGAAAATGATCAGGTTGAACATGAGCACTTATCTTTGATATTTTGTCTTGTTATATTTAATGATCTAAAAAAACGATCGCAAGTAAGCGAAGAAATAGATGTGGAAAATATATTTAAGATAATAGATAAAAAATATGGTAATCAACAGATTCTGACAAAGGTCTGTAATAAAGAAGTTGACATTCTTCCGTTGATGACATCTATAATATCATCATGTCCAATAGATGCAGACAGAATGGATTACTTGCTCAGAGATAGTTATTTTTCTGGTGTAAAATGCGGTCTATATGATTATAATCGTTTGTTCATGTCCATTGTGCCTGTAGAAGAAAATGACAAGATATATCTTGCCTATAAAGAAAGTGGGCTTGATTCTATCGCTGAATTTATTGGTGCGCGCTCCAGTTTATTCTCTCAGGTCTACTTTCACAAAACCAACAGAGCATTTTCCTCTATGCTAAATAAATTATGTGAGGTTATGATAGGTAAGTCCAATAAAAATTTAATAATCTCAGATATTTATGAGGGTTCTGCATCCGTACCGGGTCCTGATGATGGTATTAAACCACTAACAGATTTTTATATAGATTGTAGTGATGACTATTTCTTAAATGAAAAGGTTGCAGAGTGGGTCGACGAAACCAAAACTGTAGACATAAATAAAAAAATATTAGACGATATTATTAATAGACATCCGTGGTCAAAGATTTATGAGGCTAAGCATTCACTTAAAAATGCAAGTATTACGGATAAAGACAATGGAGAGTTAAGGAGGAAAATACAGGCTAGATTACAGCCTATTTTGGGAGCCCATTTTCAATCACATGAATACTTTATTGATGTTGTATCTGATACAGCATTCAAAGATATTGATAAGACCGAGATTAAACTCCTAATTAAAAATGTTGATAATACATATAAAATAAAATCATTGAGTGAATGTGGTGATAAGTTAGACCAGTATCAAAGTATAAAGTACTTTATTCGTGTATTCATTGATCGTGATTTAAAAGGGGAAGTATCCTCTAATATAATCAAAGAGATTAATAATGCCGTCATGGAAGAAGTGACGCCTTCCTAA	MDIENELTRKILDPIHGIIRLTALEIEFINHPLYQRLRNIKQNSFLYKVFPSAVHSRFEHSLGVLHLSNEILKNLHLNTIRYGKKYDDGHVFNAVSLIPKHNVQELRLAALMHDIGHGPMSHQFDIFMPTKKELIEFLDKKYHKVLDVLTQENDQVEHEHLSLIFCLVIFNDLKKRSQVSEEIDVENIFKIIDKKYGNQQILTKVCNKEVDILPLMTSIISSCPIDADRMDYLLRDSYFSGVKCGLYDYNRLFMSIVPVEENDKIYLAYKESGLDSIAEFIGARSSLFSQVYFHKTNRAFSSMLNKLCEVMIGKSNKNLIISDIYEGSASVPGPDDGIKPLTDFYIDCSDDYFLNEKVAEWVDETKTVDINKKILDDIINRHPWSKIYEAKHSLKNASITDKDNGELRRKIQARLQPILGAHFQSHEYFIDVVSDTAFKDIDKTEIKLLIKNVDNTYKIKSLSECGDKLDQYQSIKYFIRVFIDRDLKGEVSSNIIKEINNAVMEEVTPS				NA	NA	NA	NA	NA
BMS020_05821	492			hypothetical protein	ATGATGATGGTATTTGGGCTCTTTGTATTTGAACTCAGGACTCTGCCCTATCAGCAATTGCAGCTGTCACGTAACTGGCGGCACGTTAAAAATGATCGTGTGGGCCGGAGCGCAAAATGGCAGTACGTTGGCGCTGGTGAGAATCAGCTGACGCTGGGTGGGTTGCTGTATCCCGAAATTACCGGCGGCAACTTGTCGCTGGGTGCTGTCTCGACAATGGCCTACACCGGGCTAGCCTGGCCTCTGATTGATGGCGTCGGGTCCATTTACGGGATGTATGTCATCACGGGGTTGCAGGAAACGCATCAGGAGTTCGATCGCTATGGTAAGGCGAAAAAAGTAGAGTTCACACTCTCGTTGCAGAGGGTTGATGAAGATATCAGGGAGCGGCTGCAAAGTGCCTCTGTGAGCAACCTGATGGCAACGCTGAAGGATGGTGCTGAAACAGCGTTTAATACGGGTCTAGATGCCCTTAGCGATCTTACGCCCTGA	MMMVFGLFVFELRTLPYQQLQLSRNWRHVKNDRVGRSAKWQYVGAGENQLTLGGLLYPEITGGNLSLGAVSTMAYTGLAWPLIDGVGSIYGMYVITGLQETHQEFDRYGKAKKVEFTLSLQRVDEDIRERLQSASVSNLMATLKDGAETAFNTGLDALSDLTP				NA	NA	NA	NA	NA
BMS020_05822	639			hypothetical protein	ATGGAAGGCGTCGGCTGGTTACTGGAGAAGCTCGATCTCATCCCCAATGGCATTGAAAGAGCCAGGCTGGAAGCGGCCAGACTCAGGGCTATTCCGGTTATGTGGGAATGGGATGAAAAATCCGGGCGCATGGTTAAAAGGGAGTGGCAATGGTCATCTGAAAAGCCTGCAAGCAAAGGCAGCGCCCCGCCGCCCAATGTGCTCGGGGGCAACTCAGGAACAGAGCGGCGGCTGGGCCAAATCGCGGATAACACCAAAGGCCTTTTAGATGAGGAAAAACGCAAACGTATCGGGCCGGGTGACATTGTATTTAAAAATCTCCCTCCAGCGTTTGCGGTGCGTGGTGAATGGCAGGAGTCGAGGCTTGTCCGCCAGGCTGTCAGCGCTCGCCCAGTTATTGCCGCTGGCGAACCATTGATAAAACAGACGCAGGCATGGCAACCGGTACGCAAAAATCAACGCACCTACACGAGGACCGCAGCTTCGGGTAGTAGTTTTTCCGGTGAGATTCACGTCCATCTTCACGACATTCAGAGCAGCAATCCGCGCGAACTGGCGCGACTTGTTGGCGAGGCTGTCCGCGCAGAAATGGACAAACAGCAACACGCTGCCCGAGGTTCGTTCCGGGATAACAATTAA	MEGVGWLLEKLDLIPNGIERARLEAARLRAIPVMWEWDEKSGRMVKREWQWSSEKPASKGSAPPPNVLGGNSGTERRLGQIADNTKGLLDEEKRKRIGPGDIVFKNLPPAFAVRGEWQESRLVRQAVSARPVIAAGEPLIKQTQAWQPVRKNQRTYTRTAASGSSFSGEIHVHLHDIQSSNPRELARLVGEAVRAEMDKQQHAARGSFRDNN				NA	NA	NA	NA	NA
BMS020_05823	318			hypothetical protein	ATGGCTAAAAATACTAAAAACCTGTTCACGCTGATGCAGCCGGTAGTTCGTAAAGACAGTGAGATCGGTCAGGTGGAAATCACTGGCGCCATCAGTCAGGCCGGATCGTTGCGCGGCCTGAATCTTATCCGCGTTGCCAATATGGATGCAGACTCAATTGCCACGCTGTTGACGCGAGTCACCGCGCCTGCGCTGACACAAAAAGAAATCAACGAAATGCACACTCTGGACTTTATTGGGCTGGCAGAGCTTCTGGTCCCTTTCTTGAATCCGCCGGAGCCTGGAGCGTCGAACGTGGCGGAGACGGAGAGCGAGTAA	MAKNTKNLFTLMQPVVRKDSEIGQVEITGAISQAGSLRGLNLIRVANMDADSIATLLTRVTAPALTQKEINEMHTLDFIGLAELLVPFLNPPEPGASNVAETESE				NA	NA	NA	NA	NA
BMS020_05824	516			hypothetical protein	ATGGCTATTCCTCACAAACTGCGGCTATTTAGCTGCTTTGTTAACGGCGACAACTATCTGGGAAAAGTGACCTCTTTCACTCGCCCCAAACTGTCACGAAAGGTAGAGGACTATCAGGGCGGTGGCATGCTGGGCGCGGTCGGGGTTGATCTCGGCCTTGAGGCTGGCGCGCTGGATTCCACCGTTGTTTTTGGCGGCGTTATTAAGGCTCTGTTTCTCGAATACGGGGCAGAAATTGACGGCACGCGGCTACGCTTTGCGGGTGAATATTTCACTGATGGCGAAAGCCAGCTTGTCGAGGTGGAGCTGCGCGGGCGATTTACTGAACTCGACGGTGGAGACTCAAAACAGGGGGAAGACACGGAGGAAAGCTACACCTTTAAATCCACCTACTACAAATTCTCCATTGATGATCAGCCCATTATCGAAATCGATCTGCTGAATTTCATCTACAAAAAGAACGGTCAGAACATGTTCCCGGACCGCATCACCTCCGCCCTTGGCATGGGCAATTGA	MAIPHKLRLFSCFVNGDNYLGKVTSFTRPKLSRKVEDYQGGGMLGAVGVDLGLEAGALDSTVVFGGVIKALFLEYGAEIDGTRLRFAGEYFTDGESQLVEVELRGRFTELDGGDSKQGEDTEESYTFKSTYYKFSIDDQPIIEIDLLNFIYKKNGQNMFPDRITSALGMGN				NA	NA	NA	NA	NA
BMS020_05825	1173	gpFI		Putative prophage major tail sheath protein	ATGTCTGAAACTCGTTTTCACGGCGTCCGCTCTCGCGAAAATACCGACCTACAGCAGGCAATCAATGACATTGATTCCAGCGTAATCGGTATTGTTGCGGTTGCTGATGACGCCGATCCGGAAACCTTCCCGCTCAATACGCCGGTTCTGCTGACACGGGTACGTAACGTCCTCGGCAAGGCAGGTAAAACCGGTTCACTTTACAAAACCCTTAAAGCCATTTCCGATCAGTGCAGTCCGCGTGTTGTGATTGTCCGGGTGGAAGAGGCTGCCGATAACGGCCCCAGCCAGTCCCAGGCCATTATTGGCGGAACAGATGGCGACAGCTATACGGGAATGTATGCCCTGCTGACGGCGGAAGCCAAAACCGGCTATCGCCCGCGCATCCTGGCGGTGCAGGACTACGACACTGAGGAAGTGACGTCACAGCTTTGCGTGATTGCCCAGAATCTGCGGGCTTTTGTTTATGCCGGTTGCCACGGCTGCGCGACCATGGCGGAGGCTATCGCTTATCGCAAAACCTTCGCTTACCGCGAGCTGATGCTTATCTGGCCGGACTTTATCGCTTACAACCCCCTGACGGATGATAACGAAACGTTTCCCGCCCCGGCTTACGCCTGCGGCCTGCGCGCCGCTATTGATAACAGCCAGGGCTGGCATAAATCACTGTCCAACGTTGTGGTGAATAACGTTCTGGGTATTTCGAAAGATATGTTCTGGGCATTGCAGGCAGAAGACAGCGACGCGAACGAGCTGAACAACAACGAAATCACAACGCTTATCAAGCGTGACGGTTTCCGCTTCTGGGGGAACCGCACCATGGACACCGAAACCTACACTTTTGAGGTTTTTACCCGTACCGCGCAGATCCTGGCGGACAGTATTGCGGAGGCGCAATTTACCACGGTTGACAGTCCGCTCACTCCGGCCAACGTGAAAGATGTTGTGAGCGGTATTCGAGCGGCTCTCAGCAAAAAAGTCACTGCCGGTCAGCTTATCGGCGCTGACTGCTGGTATGACACGCTGGACAACGGCACCACGGATTTGCGCCAGGGAAAACTGATTGTGCGCTATAGCTACAGCCCGGTCCCACCGCTTGAAGATCTGACGCTATACCAGACCTTTACTGATGATTTTTACGAACCGGCGTTCGCGTCGCTCGGGGGTGAATAA	MSETRFHGVRSRENTDLQQAINDIDSSVIGIVAVADDADPETFPLNTPVLLTRVRNVLGKAGKTGSLYKTLKAISDQCSPRVVIVRVEEAADNGPSQSQAIIGGTDGDSYTGMYALLTAEAKTGYRPRILAVQDYDTEEVTSQLCVIAQNLRAFVYAGCHGCATMAEAIAYRKTFAYRELMLIWPDFIAYNPLTDDNETFPAPAYACGLRAAIDNSQGWHKSLSNVVVNNVLGISKDMFWALQAEDSDANELNNNEITTLIKRDGFRFWGNRTMDTETYTFEVFTRTAQILADSIAEAQFTTVDSPLTPANVKDVVSGIRAALSKKVTAGQLIGADCWYDTLDNGTTDLRQGKLIVRYSYSPVPPLEDLTLYQTFTDDFYEPAFASLGGE				NA	NA	NA	NA	NA
BMS020_05826	798			hypothetical protein	GTGTCCATCGGCTGGCTGGGTGAGGCGTTGATCTACAAAGGTCTCTACACCGTTGACGAGGTTGGGCATAGCGGGCCGCCGGATGTTATCGACATCACCGCGCACAGCGCTGATTTTCGCGAAGAGATGAACGTCAGGCGGGAGGTGTCCTGGCATGATTTGACGGTAGAGCGGGTGGTATCGGCCATAGCCCGGCGCTATGACCTGAAGCCGATGATTAGCGAGGCCCTAATCGACATTGAGATCGACCATGCGGATCAGACAGAAGAGAGTGACATGTCGTTTTTAACGCGCATGGCGGAGATGTTGGGGGCCATTGCCACCGTGAAAAATGGCTGTCTGCTGTTTATCCTGCCTGGGGGCGGCGTCAGTGCATCCGGCAGGGCGCTGCCATCGGCTGAGATAACCCGTGCCAGCGGAGATCGCCACAGGTACCGCATTGCCGATCGCGATGCTTACACCGGCGTGCGGGCGTACTGGCTGGATCTTAATTTCGGCAAGAAAAAACCGGTCAAGGTCACTAAGCGCAAAACAAATACTGCCAGAAAAAAGGCTAAGGAGAAAAGCAGCCGCCCGGAAGGGGATTACATGGAGGGCGCTGAAGGTAACGTGTATGTTTTGCGTAAAACCTATCAGAACGAAACGGCGGCCAGGCGCGCAGCTGCGGCAAAATGGATACAGCGCCAGAAAGGCGCGGCACAGTTTTCGATAACCCTGGCGCGCGGCCGCGCCGATTTATACCCTGGTACGCATCTGACCGTGTCGGGCTTTAAGCCTGAAATCGATACTCAGGATTGA	MSIGWLGEALIYKGLYTVDEVGHSGPPDVIDITAHSADFREEMNVRREVSWHDLTVERVVSAIARRYDLKPMISEALIDIEIDHADQTEESDMSFLTRMAEMLGAIATVKNGCLLFILPGGGVSASGRALPSAEITRASGDRHRYRIADRDAYTGVRAYWLDLNFGKKKPVKVTKRKTNTARKKAKEKSSRPEGDYMEGAEGNVYVLRKTYQNETAARRAAAAKWIQRQKGAAQFSITLARGRADLYPGTHLTVSGFKPEIDTQD				NA	NA	NA	NA	NA
BMS020_05827	240			hypothetical protein	ATGAAAAAGTTACTGGCTATTTTGCCCCTGGCGCTGGCCGGCTGCGCCCAGCCGCAGCCCACCGCGCCGACGAAAACCATCGGCATGGCCAATCCCGCGTCGGTCTACTGCCAGCAATCCGGCGGCACCCGGGTGCCGGTGCAAACGCCGCAGGGCGTCAGCACCCAGTGCAAGCTGCCCAGCGGCGAAACCCTCGATGAGTGGGCGCTATGGCGCCGGGACCATCCGGCTAAATCGTAA	MKKLLAILPLALAGCAQPQPTAPTKTIGMANPASVYCQQSGGTRVPVQTPQGVSTQCKLPSGETLDEWALWRRDHPAKS				NA	NA	NA	NA	NA
BMS020_05828	357			hypothetical protein	ATGATTCAATGTAAACGGGTGTACGATCCACAGGAAAGCAGCGACGGCTATCGGGTGCTGGTCGACCGTCTCTGGCCGCGGGGGATTAAAAAAGAGGCGCTGGCCTGCGATGAGTGGTGTAAAGAGTTAACGCCGTCCGCTGAGCTGCGGAAAGCCTTTCACGGCGAGGCGATCGATTTCGACCACTTCAGCCAGCGCTATCGTCAGGAGCTCGACGCCCATCGCGAAACGGGCCTGCGGCTGGCGGCGCTGGCGCAGCGCCAGCCGCTGACGCTGCTGTACGCCGCGAAGAACACCGAGCAGAATCATGCCCGGGTGCTGGCCGCCTGGCTGGCGGCCCTGCCGGTTACGATTTAG	MIQCKRVYDPQESSDGYRVLVDRLWPRGIKKEALACDEWCKELTPSAELRKAFHGEAIDFDHFSQRYRQELDAHRETGLRLAALAQRQPLTLLYAAKNTEQNHARVLAAWLAALPVTI	PGPT0008170_142	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
BMS020_05829	510			hypothetical protein	ATGAAAAGTAAGCTTTTGGTCAGCGCCTGCCTGATGGGATTCCAGGTGCGATATAACGGTAGCGAGAAAGCGCAGCTGGCGGCGACCCTGTCCCGCTGGCAGCAGGCGGATCGTCTGGTGATCCACTGCCCGGAGCTGGCGGCCGGTCTGCCGACGCCCCGCCTGCCGGCGGAGATCCTCGGCGGCGCCGGCGGCGATGTGCTTGCCGGACGGGCGCGGATCGTGGAAAGCGACGGCCGCGACGTCACGGGACATTATCAGCTGGCCGCCTGGCTGGCGCTCAGCGCCGCCCGGGAAGCGGGATGTCAGGCGGCATTACTCACCGACGGCAGCCCCACCTGCGGCAGTCAGTTTATCTATGACGGTTCCTTTCGCGGGCGGCGCAAAGCGGGCGCCGGCGTGGCCGCCGACCTGCTGCGCGCTCACGGCATCACGGTATTTTCCGACGGGCAGATCCCGCAGTTGCTCGCCTGGATGGCACAGAGGGAGCAGGATGATGATTCAATGTAA	MKSKLLVSACLMGFQVRYNGSEKAQLAATLSRWQQADRLVIHCPELAAGLPTPRLPAEILGGAGGDVLAGRARIVESDGRDVTGHYQLAAWLALSAAREAGCQAALLTDGSPTCGSQFIYDGSFRGRRKAGAGVAADLLRAHGITVFSDGQIPQLLAWMAQREQDDDSM				NA	NA	NA	NA	NA
BMS020_05830	693	pyrG_2		CTP synthase	ATGAAAACCCCTTTACGCCTCGCCCTCGTCGGCGATTATCACCCCGATATTGTTGCCCATCAGGCCATTCCCCTGGCGATAGACGATGCTGCCGCCGTGCTGGAGCAGCCGGTGAAATATGACTGGCTCGCCACCCCGTCGATCGCCTCCGGCGACGCGCTGGCGGAGTACGATGCCGTCTGGGTCGTTCCCGGCAGCCCGTATCATCACCCGGAAGGCGCGTTTGCCGCTATCCGCTATGCCCGTGAAAACAGCATTCCTTTCCTCGGCACCTGCGGCGGCTTTCAGCATGCGGTGATTGAATACGCCCGTAACGTGCTCGGCTGGCAGGACGCGGGTCATGCGGAAACCGACAGTGAAGGGCGGATGGTGATCGCTCCCCTCAGCTGCTCGCTGGTGGAGACTTCTGCCGTCGTCGAGCTGCGGGCGAATACGCTGATTGCCCGCGCCTATGGTCGGGAGAGCATTGAAGAGGGCTACCACTGCCGCTACGGGGTGGATAGCGCGTTTGCCGCGGAGCTGGAGCAGGGCGATCTGCGCGTCACCGGCTGGGATGAAGAGGGCGAGATCCGCGCCGTCGAGCTGGTGACGCACCCGTTTTTTGTCGCCACCTTGTTTCAACATGAACGCCACGCGCTGGACGGGCGTCCTGCGCCGCTGGTGCAGGCGTTGCTGCGCGCCGCGGCACAATAA	MKTPLRLALVGDYHPDIVAHQAIPLAIDDAAAVLEQPVKYDWLATPSIASGDALAEYDAVWVVPGSPYHHPEGAFAAIRYARENSIPFLGTCGGFQHAVIEYARNVLGWQDAGHAETDSEGRMVIAPLSCSLVETSAVVELRANTLIARAYGRESIEEGYHCRYGVDSAFAAELEQGDLRVTGWDEEGEIRAVELVTHPFFVATLFQHERHALDGRPAPLVQALLRAAAQ	PGPT0021215_5922	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021215-pyrG-K01937	NA	NA
BMS020_05831	1185	nimT	COG2807	2-nitroimidazole transporter	ATGTCTTCTGTGATCTCCTCCACCGGCCGCCGCCCCGCGCTGCTGATTACCGGTATCCTGCTCATCGCCACCACCCTGCGCGTGGTCTTTACCGGCGCGGCGCCGCTGCTGGACGCGATTCGTAGCGACTATGGCCTGACCACCGCGCAGACCGGGCTGCTCACCACCCTGCCGCTGCTGGCCTTTGGCCTTGTCTCGCCGCTGGCGGCTGGGGTTGCCCGCCGGTTCGGCATGGAGCGCAGCCTGCTGCTGGCGATGCTGCTGATCTGCGCCGGCATTGCCCTGCGCTCCCTGCCCTCCGCTGCATGGCTGTTTATCGGCACGGCGGTGATCGGCTGCGGCATTGCGCTGGGTAACGTGCTGCTGCCCGGGCTGATTAAACGGGATTTCTCGCAGCATGTCGCCCGGATGACCGGCGCCTATTCTCTGACGATGGGCGGCGCGGCGGCGCTTGGCTCGGCGCTGGTGGTCCCCGTGGCGATGGCCGGATTCGGCTGGCGCGGGGCGCTGCTGCTGCTGCTGATCTTCCCGCTGCTGGCGCTCGTCAGCTGGCTGCCGCAGTCCCGGCGTCAAGCGGAGGCGCCGCTGACCGGCTCAGGCGCCATGCATAACCGGGGGATCTGGCGGTCGGCGCTGGCCTGGCAGGTGACGCTGTTCCTCGGCATCAACTCGCTGGTCTATTACGTGATTATCGGCTGGCTGCCGTCGATTCTGCAGAGTATGGGCTATAGCGAAGCGCAGGCCGGCTCGCTGCATGGCCTGCTGCAGCTGGCGACCGCCGCGCCCGGTTTGGCGATACCGTTGATCCTGCATCGGCTGCGCGACCAGCGTGGGATCGCGGTGCTGGTCGCCCTGATGTGCGCCATCAGCGCCGCCGGGCTGTGGCTGCTGCCAGGGCTGGCCATCGGCTGGACGCTTCTGTTCGGCTTTGGCTCCGGGGCCACGATGATCCTCGGCCTGACGTTTATCGGCCTGCGCGCCAGCTCGGCGCACCAGGCCGCGGCGCTGTCGGGGATGGCGCAGAGCGTCGGCTATCTGCTGGCCGCCTGCGGACCGCCGCTGATGGGCAGGATCCACGATGCCAATGGCGACTGGCATATTCCGCTGCTGGCGGTGGCGCTGATTTCGCTGGTGATGGCGGTCTGCGGCGCCCTCGCCGGGCGCGACCGGGAGATTCATCCCTGA	MSSVISSTGRRPALLITGILLIATTLRVVFTGAAPLLDAIRSDYGLTTAQTGLLTTLPLLAFGLVSPLAAGVARRFGMERSLLLAMLLICAGIALRSLPSAAWLFIGTAVIGCGIALGNVLLPGLIKRDFSQHVARMTGAYSLTMGGAAALGSALVVPVAMAGFGWRGALLLLLIFPLLALVSWLPQSRRQAEAPLTGSGAMHNRGIWRSALAWQVTLFLGINSLVYYVIIGWLPSILQSMGYSEAQAGSLHGLLQLATAAPGLAIPLILHRLRDQRGIAVLVALMCAISAAGLWLLPGLAIGWTLLFGFGSGATMILGLTFIGLRASSAHQAAALSGMAQSVGYLLAACGPPLMGRIHDANGDWHIPLLAVALISLVMAVCGALAGRDREIHP	PGPT0005211_2154	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_CYANATE_DETOXIFICATION	XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449	NA	NA
BMS020_05832	792	nimR_4		HTH-type transcriptional regulator NimR	ATGATCGGACTGGGTCTGGATGGTTATGAACCGGACAGTGGCCACGAATCGGCTATTGCCTTTCGTATTCGGGTGGTGGAGGCGGAGCAGTATATTCCGGCGCATTCCCACCGTAAGGGGCAGCTGATCCTCGCCCTGCACGGCGCCTTGACCTGCGAGGTGGAGAACGCGATGTGGATGGTGCCGCCGCAGTATGCGGTGTGGGTCCCGGGGCAGCTTTCCCACAGTAACCGCGCCACCCCCGGCGCCCAGGTGTGCTTCCTGTTCATCGAGCCGGGCGCCGCGCCGATGCCGGACCGCTGCTGTACGTTAAAGATTTCCCCACTGGTGCGTGAGCTGATCCTCACCCTGGCGGAACGCGGCGGCGAGTCGCTGGCCGCCCCCGCCACGGCCCGGCTGGTGCAGGTGCTGTTTGATGAGCTGCCCCGGCAGCCGCAGGAGCACCTGCAGCTGCCGGTATCGAACCACCCGAAAATTCGCCAGATGGTGACGATGATGGCCGAGGATCCGGCGCGCTGGCAGACCCTGAGCCAGTGGGCGGCGGAGTTCGCGATGAGCGAGCGCAATCTGGCGCGGCTGGTAGTGCGTGAAACGGGGCTGAGCTTTCGCCGCTGGCGCCATCAGCTACAGCTGATCCTTGCGCTGCAGCAGCTGATCCGCGGGCAGACGGTGCAGCAGACGGCCCAGGCGCTGGGCTACGATTCCACCACCGCCTTCATCACCATGTTTAAGAAAGGGCTCGGACAGACGCCGGGCCGCTATCACGGCAGCCTGGCTACGACTTCCCAATAA	MIGLGLDGYEPDSGHESAIAFRIRVVEAEQYIPAHSHRKGQLILALHGALTCEVENAMWMVPPQYAVWVPGQLSHSNRATPGAQVCFLFIEPGAAPMPDRCCTLKISPLVRELILTLAERGGESLAAPATARLVQVLFDELPRQPQEHLQLPVSNHPKIRQMVTMMAEDPARWQTLSQWAAEFAMSERNLARLVVRETGLSFRRWRHQLQLILALQQLIRGQTVQQTAQALGYDSTTAFITMFKKGLGQTPGRYHGSLATTSQ				NA	NA	NA	NA	NA
BMS020_05833	447			hypothetical protein	ATGTTTGATACCACCCTGTTGATCCTGCTGGGTCTGGCGGCGCTCGGCTTTATCAGCCATAACACCACCGTAGCGATCTCCATCCTCGTGCTGATTATCGTGCGCGTCACGCCGCTGAACGCCTTCTTTCCCTGGATTGAGAAACAGGGACTGACCGTCGGGATCATCATTCTGACTATCGGCGTGATGGCGCCCATCGCCAGCGGCACGCTGCCGCCGTCGACCCTGATCCACTCCTTTATGAACTGGAAATCGCTGCTGGCGATTGCGGTCGGGGTGTTTGTCTCGTGGCTTGGCGGGCGCGGCGTCTCGCTGATGGGCTCCCAGCCGCAGCTGGTGGCCGGACTGCTGGTCGGTACGGTGCTCGGCGTCGCCCTGTTTCGCGGCGTCCCGGTCGGGCCGCTGATTGCCGCCGGGATCATCTCGTTGTTTATTGGGAAGTCGTAG	MFDTTLLILLGLAALGFISHNTTVAISILVLIIVRVTPLNAFFPWIEKQGLTVGIIILTIGVMAPIASGTLPPSTLIHSFMNWKSLLAIAVGVFVSWLGGRGVSLMGSQPQLVAGLLVGTVLGVALFRGVPVGPLIAAGIISLFIGKS				NA	NA	NA	NA	NA
BMS020_05834	501			hypothetical protein	ATGCTTGAAGCAGTAGAAGGTAATATCCACCAGCGACTGTGCGCGCTGCTCGACGAACACCAGGCGCGCTACCGGGTGATGGCGCACGACGCGGTCGGCCAGTGCGAAGCCGTCTCGGCGATCCGCGGCACCGCGCTTGGCCAGGGCGCGAAAGCGTTAGTCTGTAAAGTAAAAGGAAACGGCGTCAACCAGCATGTGCTGGCGATCCTCGCCGCCGATCAGCAGGCCGATCTGGCCAGCCTGGCCCGGCATATCGGCGGCAGCAAAGCCTCGCTGGCCAGTCCGGCGGAAGTGGAGGCGCTCACCGCCTGCGTGTTCGGCGCCATTCCCCCCTTCAGCTTCCATCCGGCGCTGCGCCTGGTGGCCGACCCGCTGCTGTTTGAGCGCTTTCCGCAAATCGCCTTTAACGCCGGGCGCCTGGACCGGTCGATCATTCTCGATACCGAAGACTATTTACATATCGCCCGACCGGAGATCGCGACCTTTCGCCGCCTTAGCTAA	MLEAVEGNIHQRLCALLDEHQARYRVMAHDAVGQCEAVSAIRGTALGQGAKALVCKVKGNGVNQHVLAILAADQQADLASLARHIGGSKASLASPAEVEALTACVFGAIPPFSFHPALRLVADPLLFERFPQIAFNAGRLDRSIILDTEDYLHIARPEIATFRRLS				NA	NA	NA	NA	NA
BMS020_05835	1140			hypothetical protein	ATGATGCACGATGCAACCATGCAGGGTTCCCCACGCAAGAAGTTTAATAAAATAAGGGAACTCAACAGACGGCGAAATTACTTCACTAAGAAAGTACGTAATGCCCTGCGGGTGGGAGTGGCGAAAGCGCTCTGGGACCGCCGACGCCGGCAGCCGGTGGATTTGTCGTCCGCGAAAACCGTCTTACTGATGCGCAACGAGGGGGCGGTCGGCGATGTGGTAGTGGATTCCGCGCTGGTGAAATGCCTGCATCAGTCAGGCTATATCGTTGATTTCCTGCTGACGACCTCTAATAGCCAGGTGATGCGTTATAACCCGCGGATCCGCCATATTTATGAAGCTGACCCGGTCACGTCCGCCGATTTTTTGCGAAAATTTAATCATAACGTTCCCCGCGACGTTATTAATGAACTGGCTAATAATAAGTACGATATTATTATTGACCCTTCGCTGTTCGATATTCCCGTGCATCGTCTGCGGCTTTTCCGTCAAATAAAAGCGAAATCGGTGCTCGGGTTTAATAAATGGCCGTCGATTAAGCACTACTCCCACTCATTTGATTTTGACTGCCAGCGCTGGCACGTGACGAAAACGTTCGAGTTAATCGCCGACTATCTCCAACTGGACACCTGCGGGCTGGATGCTTACGACCTGGCGATCCCCGGGCCGATTATGCAGGAGGTGGCGCAGTATCTGGCGTCGCTGAGCGGAAAAGCGGTAGTGATTAATATTTTTGCCGGCCATGCCGACCGCAGTCTCTCGCAGACGCAGCTGGCCGAACTCCTCGACAAACTGCTGGCTCGCCATCCGGGGATCGCGGTGATTCTGCTCGATCACCGGCGCGAGATCCGCATCCCGCTGCCGCCGGAGGTGGTGGTTAATCCATTTAACACGTTGCACCATGCGATGGCGCTGATTGCCCAGGCGGAGCTGATTATCTCCCCGGACACCTCGGTGGTGCACATGGCGGCGGCGTGGAACAAACCGCTGATCGCGGTCTACAAGGACGTTCTGCTCAACAACCGTCTGTGGGCGCCGGGCTATGACAACGCCAGGCAGGTTATCGTTAAATGCGGGAAGGTGCATCAGCATCGCGAGCTGGTGGATCGGATAATGGCGGCGCTGCCGGAGACGCTGTGA	MMHDATMQGSPRKKFNKIRELNRRRNYFTKKVRNALRVGVAKALWDRRRRQPVDLSSAKTVLLMRNEGAVGDVVVDSALVKCLHQSGYIVDFLLTTSNSQVMRYNPRIRHIYEADPVTSADFLRKFNHNVPRDVINELANNKYDIIIDPSLFDIPVHRLRLFRQIKAKSVLGFNKWPSIKHYSHSFDFDCQRWHVTKTFELIADYLQLDTCGLDAYDLAIPGPIMQEVAQYLASLSGKAVVINIFAGHADRSLSQTQLAELLDKLLARHPGIAVILLDHRREIRIPLPPEVVVNPFNTLHHAMALIAQAELIISPDTSVVHMAAAWNKPLIAVYKDVLLNNRLWAPGYDNARQVIVKCGKVHQHRELVDRIMAALPETL				NA	NA	NA	NA	NA
BMS020_05836	243			hypothetical protein	ATGTTTGTGGAACTGATTTATGACAAGCGCAATTTTGCCGGGCTGCCGGGCGCCAGAGAGACCATTCTTAACGAGCTGACCAAACGCATGCAGCGCATTTTTCCGCAGGCGGAAGTGCGGGTGAAGCCGATGATGACGCTCCCGGCGATCAACACCGACGCCAGCAAGCATGAAAAAGAGCTGATCAGCCGCACGGTGCAGGAGATGTTTGAAGAGGCGGACATGTGGCTCACTGAAGAGTAA	MFVELIYDKRNFAGLPGARETILNELTKRMQRIFPQAEVRVKPMMTLPAINTDASKHEKELISRTVQEMFEEADMWLTEE				NA	NA	NA	NA	NA
BMS020_05837	420	umuD_1	COG1974	Protein UmuD	ATGAACTTTTACACGCCGGTTGAGCTACGTCAGATTGTCTCCTTTCCCTTTTTTGCCGACCTGGTGCAGTGCGGCTTTCCCAGCCCGGCTCAGGACTATGTCGAGAAGCGAATCGACCTCAACGAGCTGCTGGTGCAGCATCCCAGCGCGACCTATTTTGTCAAAGCCGCTGGCGACAGCATGATCGACGCCGGCATTGACGAAGGCGATCTGCTGGTGGTGGACAGCGCGCGCAAAGCGGAGCATGGCGATATCGTGATTGCCGCCGTCGGCGGCGAGTTTACCGTAAAAAAGCTGCAGCTTTTGCCGCGGGTGCAGCTTAACCCGATGAACCCGGCCTATTCGCCCATCGTGGTCGGCCGCGAGGAGACGCTCGATATTTTCGGCGTGGTGACCTACATCATCAAGGCGGCGGGCTGA	MNFYTPVELRQIVSFPFFADLVQCGFPSPAQDYVEKRIDLNELLVQHPSATYFVKAAGDSMIDAGIDEGDLLVVDSARKAEHGDIVIAAVGGEFTVKKLQLLPRVQLNPMNPAYSPIVVGREETLDIFGVVTYIIKAAG	PGPT0015094_1167	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ADAPTIVE_MUTATION	CE-BACTERIAL_FITNESS-ENVIRONMENT-INDUCIBLE_DNA_POLYMERASES,PGPT0015094-umuD-K03503	NA	NA
BMS020_05838	1266	umuC_1	COG0389	Protein UmuC	ATGTTCGCGCACTGTGATGTGAACGCCTTCTATGCGAGCTGCCAGACCGCCTTCCGGCCAGACCTGAAGGGGCGGCCGGTGGTGGTGCTGTCGAACAACGATGGCTGCGTGATCGCCCGCTCGGCGGAGGCGAAGCCGTTTGTGAAAATGGGCGAACCCTACTTTAAGCAGAAGGCGGCGTTTCTTCGCCACGGCGTCGTGGCGTTCAGCAGCAACTATGAGCTGTACGCCGACATGTCCAGCCGGGTGATGTCCACCCTGGAAGAGCTCGCCCCGCGCTGCGAAATTTACAGTATCGATGAAGCCTTTTGCGATGTCAGCGGCGTGCGCCACTGCAGAGATCTGACTGACTTTGGCCGGGAAATCCGCGCCACGGTGCAGCAGCGCACCCATCTGACGCTGGGCGTCGGGATCGCCCCGACCAAAACCCTGGCGAAGCTGGCCAACCACGCGGCGAAGCAGTGGCAGCGGCAGACGGGCGGGGTAGTGGATTTATCTTGCCCGCAGCGGCAGCGAAAGCTGATGGCGCTGCTGCCGGTGAGTGAGGTCTGGGGCATCGGGCGGCGGATCGGCAAAAAGCTCGAGGCGATGGGGATCGGCACGGTACTCCAGCTGGCGGAGAGCGATATCCGCTTTATCCGCAAGCACTTCACGGTGGTGCTCGAGCGAACGGTACGGGAGCTGCGCGGCGAGCCTTGCCTGGCGCTGGAGGAGTTTGCCCCCGCGAAGCAGGAAATTATCTGCAGCCGCTCGTTCGGGGATCGCATTACGGCCTATGAGGATATGCGCCAGGCGATCTGCAGCTATGCCGCGCGGGCAGCAGAAAAGCTGCGCGGTGAGCATCAGTACTGCCGGTTCGTCTCCGCCTTTGTCAAAACCAGCCCCTTCGCGCTGAATGAACCCTATTACGGCAACAGCGCCTCGCTGAAGCTGCTGACGCCGACGCAGGATTCCCGGGATATTATCGCCGCGGCGACAAGCTGCCTGGACGCCATATGGAAAGCGGGGCACCGCTATCAGAAGGCCGGGGTGATGCTCGGCGATTTCTACAGCCAGGGCGTCGCCCAGCTGAACCTGTTCGACGAGCTTGCCCCGCGGCAGAACAGCGCCAGGCTGATGCAGGTGCTCGACCAGCTGAATGCGAAAAACGGCAGGGGGGCGCTCTATTTTGCCGGCCAGGGGATCCAGCAGCAGTGGCAGATGAAGCGAGAGATGCTATCGCCGCGCTACACCACGCGATACGGCGACCTGCTCCGCGTCAGATAA	MFAHCDVNAFYASCQTAFRPDLKGRPVVVLSNNDGCVIARSAEAKPFVKMGEPYFKQKAAFLRHGVVAFSSNYELYADMSSRVMSTLEELAPRCEIYSIDEAFCDVSGVRHCRDLTDFGREIRATVQQRTHLTLGVGIAPTKTLAKLANHAAKQWQRQTGGVVDLSCPQRQRKLMALLPVSEVWGIGRRIGKKLEAMGIGTVLQLAESDIRFIRKHFTVVLERTVRELRGEPCLALEEFAPAKQEIICSRSFGDRITAYEDMRQAICSYAARAAEKLRGEHQYCRFVSAFVKTSPFALNEPYYGNSASLKLLTPTQDSRDIIAAATSCLDAIWKAGHRYQKAGVMLGDFYSQGVAQLNLFDELAPRQNSARLMQVLDQLNAKNGRGALYFAGQGIQQQWQMKREMLSPRYTTRYGDLLRVR	PGPT0014882_1493	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ADAPTIVE_MUTATION	CE-BACTERIAL_FITNESS-ENVIRONMENT-INDUCIBLE_DNA_POLYMERASES,PGPT0014882-umuC-K03502	NA	NA
BMS020_05839	906	pgrR_10		HTH-type transcriptional regulator PgrR	ATGGACCGGTTTTCAGCCCTCAAAGCCTTCACCCGCGTTGTCGAAGCCGGCAGCTTTACCCGCGCCGCGGACTCGCTGGATATGCCCAACGCCACCCTCAGCAAAACCATCAAGCAACTGGAAGCGCACCTGGGGGTTTCCCTCCTGCAGCGCACCACCCGGCGTATTACCGTAACGCCGGAAGGACGGGAGTACTATGAAAAAGCTCGCTGCCTGCTGGAAGACCTGGAAGAGATCGACGCCTCCTTCAATACCGCCCACAATAAGCCGAAGGGCCATCTGCGGATCGCCATCGGCGGGTCGACCGCGCGCGATGTGCTGATCCCGCTGCTGGCGGACTTTATGACCTCCTGGCCGGATATCCGTATTGATTTGCAGGTGGCCGATAAACCCGCGGACCTCATCAGCGGCAATATTGACTGCGCCATCCGCGGCGGGCCGATGGAAGACTCGACGCTGATCGCCCGTAAAATCGGCGAGGCGACGCTGGTCACCTGCGCCACCCCTGGCTATCTTCAGCGCTGCGGCACGCCCGCCTCGCCGGATGAACTCCATCATGGCCACCAACTCATCAGCTATCTGTCGCCGGCCAGCGGCAGAGCGTTTCCGTTTCGCTTTACGCGTCACGGCGTCAGTACCGAGCTCAAGACAGAGCCCCATCTCGGCATCAATGAGAGCAACGCGCATATTGCCGCCGTCGAGGCGGGCTTAGGCATTGTGCAGACCTTTACCTATTCGCTAAGACCGGCGCTGGCAAGCGGCAAACTGGTGGAGATCCTCAGCGCCTGGCGCCCGGCCCCCTATCCCTTTCACGTCGTCTATGCCCGGCACCGGCACGTCCCGCCCCGGCTCCGCGTCTTTATTGACTGGCTGGCGGCGGTTTTTCCGGCTGCTGTGCAGGGATAA	MDRFSALKAFTRVVEAGSFTRAADSLDMPNATLSKTIKQLEAHLGVSLLQRTTRRITVTPEGREYYEKARCLLEDLEEIDASFNTAHNKPKGHLRIAIGGSTARDVLIPLLADFMTSWPDIRIDLQVADKPADLISGNIDCAIRGGPMEDSTLIARKIGEATLVTCATPGYLQRCGTPASPDELHHGHQLISYLSPASGRAFPFRFTRHGVSTELKTEPHLGINESNAHIAAVEAGLGIVQTFTYSLRPALASGKLVEILSAWRPAPYPFHVVYARHRHVPPRLRVFIDWLAAVFPAAVQG	PGPT0028940_757	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
BMS020_05840	750	butA		Diacetyl reductase [(S)-acetoin forming]	ATGAGCAAAAAACTTGCGGATAAAGTGGCGTTAGTGACCGGCGGCAGCACCGGGATTGGCCTGGCGTCGGCGAAAGCGCTGGCGGAGCAGGGCGCGAAGGTGTATATCACCGGCCGCCGACAGGAGGAGCTGGATGCGGCGGTAAGATTCATCGGGCCCGCCGCCCGCGGGATCCGCGCCGACGCCGCCGTGTTAAGCGACCTTGACGCGGTATTTGCGACCATTGCCGACGAGTCCGGCCGCCTGGATGTGCTGTTCGCCAATGCTGGCGGCGGGGATATGCTGCCGCTCAGCGCCATCACCGAAGCGCACGTCGAGCGGATTTTCGCCACCAACGTGCGCGGGGTGGTGTTCACGGTGCAGAAAGCGCTGCCGCTGCTCACCGACGGCGCCTCGGTGATTTTGACCGGCTCTACGGCGGCGGTCAAAGGGACGGCGAACTTCAGCATCTATAGCGCCAGTAAAGCTGCGGTACGCAGCCTGGCGCGCTCCTGGGCGCTGGAGGTTAACGACCGCGGGATCCGCATCAATGTCGTCAGCCCGGGGCCGGTGCGTACCCCGGGTCTGGGAGGACTGGTGGCGGAGGCGGACCGTCAGGGCTTGTTCGACGCTCTGGCTGCCAGCGTACCGCTCGGACGGCTGGGCGAGCCGGAGGAGATTGGCAGGACGGTGGTGTTTTTAGCCTCTGACGAGTCGAGCTTTATTAACGCCGCGGAGATCTATGTCGACGGCGGGCTGGCGCAAATTTAA	MSKKLADKVALVTGGSTGIGLASAKALAEQGAKVYITGRRQEELDAAVRFIGPAARGIRADAAVLSDLDAVFATIADESGRLDVLFANAGGGDMLPLSAITEAHVERIFATNVRGVVFTVQKALPLLTDGASVILTGSTAAVKGTANFSIYSASKAAVRSLARSWALEVNDRGIRINVVSPGPVRTPGLGGLVAEADRQGLFDALAASVPLGRLGEPEEIGRTVVFLASDESSFINAAEIYVDGGLAQI	PGPT0028940_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
BMS020_05841	594			hypothetical protein	ATGACCCACAACATGTTACCTGCCGGGCGTGGTGTCGCTGTGGTCTGCACGCAGGCCAGACGCGGCATCACGCGCCGTCGCTGCGCCACCGCGCTGCTGCTTGCCGGGATATCCGGCTCCGCGTTTTCAGCCCCGCAGGATCTGCTGAAGCCGGCACAACTCATCGCTGACGGCAGCCTTCCCGCTGCCACACGCGCCGCCAATGAATATGTCGCCAGGCAATACGCCACGTTCTGGAATACCGGCGATGACGCGCTGGCCCGGGCGGCACTGGCGGAGAACTTTATCGATAAAACGCCCCCGGAAGGGCGCCAACAGGGGCCGGAAGGAGCGATCCTCGCCTCCAGAGCATTTCGCCAGGCGGTGCCGGATTTACGCTGTGATGTCGAACAAATGATCGTGGCCGGTGACCGGGTGGTCTCACACTTACATTTTCATGGCCACTTTACCGGGACCTTCGGCACCCGGAAGGGGAAGGGACAAAATATCGATTTTATCGCCACCGATATCTATCAGATCAGCGGCGGTAAAATTACCGCCAACTGGCATATTGAAGATAACCTGACGCTGATGAAACAGCTGGGCGTGCAATAA	MTHNMLPAGRGVAVVCTQARRGITRRRCATALLLAGISGSAFSAPQDLLKPAQLIADGSLPAATRAANEYVARQYATFWNTGDDALARAALAENFIDKTPPEGRQQGPEGAILASRAFRQAVPDLRCDVEQMIVAGDRVVSHLHFHGHFTGTFGTRKGKGQNIDFIATDIYQISGGKITANWHIEDNLTLMKQLGVQ				NA	NA	NA	NA	NA
BMS020_05842	1110	nemA_3	COG1902	N-ethylmaleimide reductase	ATGAATACGCTCTCACTTTTTGATCGTCATCGCATCGGTACGCTGCCGCTGAAAAACCGCATCGTCATGGCCCCCATGACCCGGGCGCGCGCCCTGCAGCCGGGAAATATCCCCTCCGCGCTGATGGCGGAGTATTATCGCCAGCGCGCCAGCGCGGGGTTAATCGTCACGGAAGCGACGCAAATCTCTCCTGAGGGACAGGGGTACTCCTGGACGCCCGGCCTGCATTCCGCAGACCAGATTGCCGGCTGGCAGTTGACGACCCGGGCCGTACACCAGGCCGGCGGCGTTATTTTTTCTCAGCTCTGGCACGTGGGACGCATGTCGCACGCCCGTTTTCATGCGGATGGTCAACCCGTGGCCCCCTCGGCGCTGGCGCCGGACGCCCAGGTCTGGGTGGTGGATGAGCAAGGCCGGGGCCAGATGGTGGACTGCCCACCGCCGCGGGCGCTCTCCCGATCGGATATCCAGCGTATTGTCGCCGATTACCGCCAGGCGGCGCGCAATGCGATCTCGGCGGGGTTTGACGGCGTGGAGGTGCACGGCGGCAATGGCTACCTGATCGACCAGTTCCTGCGGCGTACCGCCAACCAGCGCACCGATGAGTACGGCGGTAGCCTGAACAACCGGATCCGTTTTGCCCAGGAGGTGCTGACCGCCATCGGCGACGCTATCGGCCGCGAGCGGACGGGCATCCGCCTTTCCCCCTTCATTACCCAGCGCGGGATGAACGATCCGCAGGTGATCGACGCTATCCTTGCCCTGGCGGCCTGGTGCGAACAGCAGGGTATCGCCTTTATCCATCTGGCGGAGGCGGACTGGGACGATGCGCCAGCCGTTCCCCGGCACTTCCGCGACACGCTGCGCGCAACCTTCAGCGGTACGCTGATCGTGGCCGGGAATTACGATCAGCAGAAGGCGGAGCGTATTCTTGGCGCCGGTCTCGCCGACCTGGTGGCTTTCGGCCGGCCGTTTATTGCCAATCCCGACCTGCCGCAGCGGCTTCAGCACCGCTGGCCGCTGGCGACCGTCAGCGATCCCGGCACGCTGTTTGGCGGGACAGAGGTGGGCTATACCGACTATCCCTTCTATACGGAGCATAAAGAGTGA	MNTLSLFDRHRIGTLPLKNRIVMAPMTRARALQPGNIPSALMAEYYRQRASAGLIVTEATQISPEGQGYSWTPGLHSADQIAGWQLTTRAVHQAGGVIFSQLWHVGRMSHARFHADGQPVAPSALAPDAQVWVVDEQGRGQMVDCPPPRALSRSDIQRIVADYRQAARNAISAGFDGVEVHGGNGYLIDQFLRRTANQRTDEYGGSLNNRIRFAQEVLTAIGDAIGRERTGIRLSPFITQRGMNDPQVIDAILALAAWCEQQGIAFIHLAEADWDDAPAVPRHFRDTLRATFSGTLIVAGNYDQQKAERILGAGLADLVAFGRPFIANPDLPQRLQHRWPLATVSDPGTLFGGTEVGYTDYPFYTEHKE	PGPT0005930_1072	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_TOLULENE|DERIVATE_DEGRADATION	XENOBIOTIC_NITROTOLULENE_DEGRADATION,PGPT0005930-nemA-K10680	NA	NA
BMS020_05843	909	dmlR_25		HTH-type transcriptional regulator DmlR	ATGGGCAAACTGGAAGATATGGCGCTGCTGGTGGCCGTCGCCGAGGCGGGGGCACTCTCCGCCGCCGGCAGACGGTTGTCGCTCTCGCCGGCCACCATGACTGCACGTCTGAAGGCGATGGAAGAGCGTTATCAGACCCGCCTGTTCCATCGTTCCACGCGGGCTATCACTCTGACCAACGCGGGGGAAGATTTTTATCATGCCGCGCGGCGCGTGCTGGAGGAGGCGCGCCACGCCGAGTCGTTGCTGACGCAAAAAGAGGGGGTCCTGAGCGGCGATATTCGCCTTTCCGCCCCCTCCGACTTTGGCCGACAATACCTTAGCCCGGCCATCGTCGACTTTACCCGCCGTCACCCGGAAGTGACCTTTTCCGTCTACTTAGGCGAGCGCGTGGAGGATCTGGTCGCCAACCGGCTGGATATGAGCATTCGCGTCGGTAACCTGCCGGACAGTAGCCTGGCCATCCGCCACATTCGTCCTAACCATCGGGTGCTGGTGGCCTCGACGGCTTACCTTGCCGCCCGTGGAACGCCTGCTTCGCCCGAGGCGCTGCATCATCATCGCTGCCTGGCGCTGGAGCGGCACGGCGTGGTGATGAACGAGTGGCGCTTTGAGGAGGCGGGAAAAGAGCAGGTCATCCGGGTGACGCCGGCGATGGTCTGCGACGATGGGGCACTGCTGCGGCAGTGGGCGCTCAGCGGGGCGGGGATCGCCGGTAAATCATGGTGGGATGTGAAGAGGGATGTCGAGGAGGGGCGGCTTCAGGTGTTGTTTGCCGACCGCTTCACCGGTTTCAGCCGGTTAGACCGCAAGGAGGTTGGGCTGCAGTTTGTCTTTCCCCAGCGAAAGCTGCAGCCCCCTCAGGTATCGGCGTTTATGGCGTTTTTTATCGACTGGCTGGAGAGGTGA	MGKLEDMALLVAVAEAGALSAAGRRLSLSPATMTARLKAMEERYQTRLFHRSTRAITLTNAGEDFYHAARRVLEEARHAESLLTQKEGVLSGDIRLSAPSDFGRQYLSPAIVDFTRRHPEVTFSVYLGERVEDLVANRLDMSIRVGNLPDSSLAIRHIRPNHRVLVASTAYLAARGTPASPEALHHHRCLALERHGVVMNEWRFEEAGKEQVIRVTPAMVCDDGALLRQWALSGAGIAGKSWWDVKRDVEEGRLQVLFADRFTGFSRLDRKEVGLQFVFPQRKLQPPQVSAFMAFFIDWLER				NA	NA	NA	NA	NA
BMS020_05844	858	hexR_2	COG1737	HTH-type transcriptional regulator HexR	ATGAATCTCAGGGAAAAAATCATTAATGAATTCGGCGGGTTGTCGCCCGAGCTGCAACGCGCCGCCGAGTTCTCACTGCAAAATGCCAGTCAGCTGGTGGTGTTATCCATGCGCGCCTTCGCGGCGGAAGCCGGGGTAAAACCGGCGACGCTGCTGCGTCTGGCGCAGCGGCTGGGCTACCGCGGCTGGAGCGAGCTAAAAAGCGATTTCATTGACGACCTGGGGCTGCGCAATGATACATACGTATCAAAAGCGGAAAAAATGATGGCCCGCGGCACGCAAACGCAGCTGTATAAAGAGGTATTTCAGGCGCATCAGGCGAACCTGACCTTTACGCAAAACGAAAATGCCCAGCAGATGGAGCAGGCGGTGACCTTGCTCGACAGCGCGGAGAATGTCTATATCTGCGGATTCCGCGCCAGCTTTCCGATCGCGTGGTCGCTGTTCTATGTCTATCGACTGTTCAACCGCCAGGTATCGTTAATCGATGGCCTGGCCAGCAATATCGAAGTTTTCACCCGCGAACTGACCAACCGGGACTGCGTCTTACTCACCAGCTTTGCGCCCTATTCACGCGAATCACTGGATGTTTTACGGGCAGCCCGGCAGGCCGGGGCGAAGATCCTCGCCATTACCGACTCGCCGGTTTCCCCCTTAGCGCAGGCGGCAGACTGCACGCTGCTGTTCTCCATCGACAGTCCGTCATTTTTCCCTTCCGTGGTCTCCGGCATGGGGCTGGCGGAGTGTCTGCTGGCGATGCTGGTGGTGCGCCACGGCCGGGAGGCGGTGAGTAAAATTGAAAGTGCCGAACGCTATCTCATTGAGTCTGGCGCCTACGTGATCCCCGGTAAGTCCTGA	MNLREKIINEFGGLSPELQRAAEFSLQNASQLVVLSMRAFAAEAGVKPATLLRLAQRLGYRGWSELKSDFIDDLGLRNDTYVSKAEKMMARGTQTQLYKEVFQAHQANLTFTQNENAQQMEQAVTLLDSAENVYICGFRASFPIAWSLFYVYRLFNRQVSLIDGLASNIEVFTRELTNRDCVLLTSFAPYSRESLDVLRAARQAGAKILAITDSPVSPLAQAADCTLLFSIDSPSFFPSVVSGMGLAECLLAMLVVRHGREAVSKIESAERYLIESGAYVIPGKS				NA	NA	NA	NA	NA
BMS020_05845	1329		COG0161	putative aminotransferase	ATGAGTCATGTCATTCACCGCAGCCTGCATAGCACGCCGATAGTGGCCTCACGTGCGCAAGGGGCCTATATCTTTGATGCCCAGGGAAAACCGTATCTTGATGCCTGTGGCGGGGCGGCGGTTTCCTGCCTCGGACACGCGCATCCTGATGTGCTGGCGGCGATGCACCGCCAGATCGATCGGCTGGCCTATGCGCATACCAGCTTTTTCACCAGCGATGCCGTCGAGCAGCTTGCCGAACATCTCACCCGCACGGCGCCCGGCGAGCTTAACTACGCCTACTTTGTCTCGGGCGGTTCTGAGGCGGTAGAGACGGCGCTGAAGATGGCGCGGCAGTACTTTGTGGAGATCGGCCAGCCATCGCGCACCCGCTTTATCGCCCGTCAACAGAGCTATCATGGCAATACGCTGGGCGCGCTGGCGGTGGGCGGTAACGAATGGCGCCGTCGCCAGTTTGCCCCCTTATTAATGGATGTTATCCGCGTCTCAGCCTGCAATGAGTACCGCGATCGCCGGGCTGACGAGACCCAGCAACAGTATACCGAACGTCTGCTCAATGAGTTGGAGCAAGCCATCCTTGAGGCCGGCCCGGAAACGATCATCGGTTTCTGTGCGGAAACCGTGGTGGGGGCGACGACGGGGGCCACGCCGCCGACGCCGGGCTATCTGCAAGGGGTCCGCCGCCTGTGCGACAAATACGGCATCCTGTACATCGCGGATGAGGTGATGTGCGGTATGGGGCGGACCGGGACGCTGCATGCGTTTGAACAGGACGACGTGGTGCCCGATTTAGTGACCATCGCCAAGGGACTCGGCGGAGGCTATCAGCCGATTGGGGCGGTACTGGCGAGTGAGACCATCGTCTCCGCGCTGAAGGCGGGCAGCGGGTTGTTCCAGCACGGTCACACTTACATTTGTCATGCCACCGCCGCGTCGGCAGCCCTGGCGGTGCAGCAGGTGATCGCGCGCGATAATTTACTGGACGCCGTCAAACAGCAGGGCGCCTATCTGCACAAGGCGCTGCGCGAGGTGCTGGGGGAGTTACCGCATGTCGGTGATACGCGCGGACGCGGCCTGTTTGCGGGGGTCGAACTGGTGCGCGATAAAGACGCCAAAACGCCATTCGATCCTGCCCTGAAGCTGCACGCCGCGATCAAAGCAAACTGTATGGCGCGCGGACTGATGGTCTATCCCATGGGCGGCACGATCGATGGCCAGTCTGGCGACCACATCCTGATTGCACCGCCGTTTATCATCACCCCGGCGCAGCTCGATTTTGTGGTCGATACCCTGAACTGCGTGATCCGCGAAGAGACGGGGAAATTATGA	MSHVIHRSLHSTPIVASRAQGAYIFDAQGKPYLDACGGAAVSCLGHAHPDVLAAMHRQIDRLAYAHTSFFTSDAVEQLAEHLTRTAPGELNYAYFVSGGSEAVETALKMARQYFVEIGQPSRTRFIARQQSYHGNTLGALAVGGNEWRRRQFAPLLMDVIRVSACNEYRDRRADETQQQYTERLLNELEQAILEAGPETIIGFCAETVVGATTGATPPTPGYLQGVRRLCDKYGILYIADEVMCGMGRTGTLHAFEQDDVVPDLVTIAKGLGGGYQPIGAVLASETIVSALKAGSGLFQHGHTYICHATAASAALAVQQVIARDNLLDAVKQQGAYLHKALREVLGELPHVGDTRGRGLFAGVELVRDKDAKTPFDPALKLHAAIKANCMARGLMVYPMGGTIDGQSGDHILIAPPFIITPAQLDFVVDTLNCVIREETGKL				NA	NA	NA	NA	NA
BMS020_05846	555			hypothetical protein	ATGATCAATCGTTTACCGCCCCTGGCGGAACAGGAATGGGACGATCGGCAGCGTCAGTTAGCGGAAGAGATTATCAACGGACCGCGCGGCGCCTTGCTGCCGCCCTTTGAACCGCTGCTGCGTAGTCCCGAGCTGATGGCCCATGCCCAGCGTATGGGGGAGTACCTGCGCTATCGCAGCGCGCTGGGCCAGCGTCTTTCTGAACTGGCGATTTTGCTGACCGCGCGGCACTGGTCGCAGCCGGTAGAGTGGGCGATCCATGCGCCGATAGCCCGCGAGAAAGGGATCTCTGCCGCGGCGGTGCAGGCGATTAAGGAAAGGCGCCGGCCCGCGGATCTGCGGCCCGATGAGCAGGCGATCTATGACTTCTGTCAGCAGCTGCATCAACAGCAAAAGGTCAGCGATGAGACCTGGCAACAAGCCATTGAGTTATGGGGCGAGAAGGGCGTGGTGGATCTGATTGGAATAAACGGTTATTACAGTTTTCTCTCCATGGTGATGAACAGCGCGCAAACGCCAGTACCGGATACCTCTGACGCTCTGTTTTCTGAATAA	MINRLPPLAEQEWDDRQRQLAEEIINGPRGALLPPFEPLLRSPELMAHAQRMGEYLRYRSALGQRLSELAILLTARHWSQPVEWAIHAPIAREKGISAAAVQAIKERRRPADLRPDEQAIYDFCQQLHQQQKVSDETWQQAIELWGEKGVVDLIGINGYYSFLSMVMNSAQTPVPDTSDALFSE	PGPT0005005_1255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005005-pcaC-K01607	NA	NA
BMS020_05847	753	glnH_4	COG0834	Glutamine-binding periplasmic protein	ATGAGTGGATTATTTAAGAAATTAAAGCTGACGCTGGCATTAGTTATTTGTTCAGCCAGTTTTGTGACAGCAGCAGAAGATAAAATAACGGTGGGTGTCGATACTGCCTTTGTTCCATTTGAATTTAAACAAGGCGATAAATATGTCGGCTTTGATATCGATCTGTGGGACGCGATTGCGAAGAAAATGCATATCAGCTACGAATTAAGGCCGATGGATTTCGGCGGCCTGATCCCCGGTCTGCAGTCGCGTAATCTGGATGTGGCGATGGCGGGAATAACGATTACCGATGCGCGCAAGCAGGTCGTGGACTTCAGCGAAGGATATTATAATGCCGACCTGCTCATGGCCGTGAAAAGTACCGACAACTCCATTGTTAAATTCAGCGATTTGACCGGGAAAAAAGTCGGCCTTAAGCAGGGGACGGCGGCAGCCAGCTTTATGAAAAGCAAATATAAAGCGAATTATATCGAGTTCCCGAATATCGATAACGCCTACCTTGACCTGCAGGCCGGTAATCTCGATGCCGTGGTTCATGATTCACCGAATGTCCTTTACTACGTGAAGACGGCGGGTAACGGCAAGGTCAAATCCACCGGTGAGACGGACAGCATTCTGCCACAGCAGTATGGCTTTGCGATGCAGAAAAACAGCAGCCTGACGCCAAAAGTCAACCAGGCCCTGCAGGCCCTGCGCGCCGATGGCACCTACGACAAGATTTACGTAAAGTGGTTTGCTAAACAGCCGAAATAA	MSGLFKKLKLTLALVICSASFVTAAEDKITVGVDTAFVPFEFKQGDKYVGFDIDLWDAIAKKMHISYELRPMDFGGLIPGLQSRNLDVAMAGITITDARKQVVDFSEGYYNADLLMAVKSTDNSIVKFSDLTGKKVGLKQGTAAASFMKSKYKANYIEFPNIDNAYLDLQAGNLDAVVHDSPNVLYYVKTAGNGKVKSTGETDSILPQQYGFAMQKNSSLTPKVNQALQALRADGTYDKIYVKWFAKQPK	PGPT0000665_827	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000665-glnH-K10036	NA	NA
BMS020_05848	657	glnP_3	COG0765	Glutamine transport system permease protein GlnP	ATGAATTTTGACAGTCGCTATATTTGGGATGCATTGCCGCTGCTGATGCAAGGTTTGCAGCTGACGCTGATTATTTCGTTATCAGGCTTGTTAGGTGGATTAATCATTGGCTTGCTGGCCGGGACCTGCCGCGCATTAGGCGGAACAATATCCAAAACGGTATCGCTGGTGTTTGTGGAAGTCATCCGCGGGACGCCAATTATGGTGCAGGTGATGTTTATCTACTTCGCGCTGCCGATGGTGTTGCCGGTACGTATTGATCCGGTTCCCGCCGCCATTATCACCATTGTGATTAACTCCGGGGCTTATATAGCGGAGATCACCCGGGGGGCGATTCTGTCGATTAATAAAGGATTTAAAGAAGCCAGCCTGGCGATGGGATTATCGCCGCGCAGCACCCTGTGGCATGTCATTATGCCGCTGGCTTTTCGGCGGATGATCCCGGCATTAGGCAATCAGTGGATTATCAGTATTAAAGATACCTCGCTGTTTATTGTCATTGGCGTGGCAGAATTAACCCGTCAGGGACAAGAGATTATTGCCGGCAATTTTCGGGCGCTGGAGGTGTGGACGGCGGTGGCGATGATTTATCTGTTTTTGACATTGTGCCTGAGCTTCCTGCTGAAACAACTTGAGAAAAGGATCCATATTTTATGA	MNFDSRYIWDALPLLMQGLQLTLIISLSGLLGGLIIGLLAGTCRALGGTISKTVSLVFVEVIRGTPIMVQVMFIYFALPMVLPVRIDPVPAAIITIVINSGAYIAEITRGAILSINKGFKEASLAMGLSPRSTLWHVIMPLAFRRMIPALGNQWIISIKDTSLFIVIGVAELTRQGQEIIAGNFRALEVWTAVAMIYLFLTLCLSFLLKQLEKRIHIL	PGPT0000725_962	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000725-glnP-K10037	NA	NA
BMS020_05849	729	glnQ_8	COG1126	Glutamine transport ATP-binding protein GlnQ	ATGAGCATGGTCGAATTTAGCGCGGTGGCGAAAAACTTCGGCGCCACTCAGGTGCTGCACGATATCAATTTAAAGATTGAAGCGGGCGAGGTGGTGGTGATCATTGGCCCGTCCGGCTCGGGAAAATCGACCCTGCTGCGCTGTATTAACAAGCTGGAGGCGATCTCTTCGGGAACGCTGCTGGTGGCGGGCATGCACATTACGGATCCGCACGCGAATGAGTGTGATATTCGCCGCGAAGCCGGTATGGTGTTTCAACAGTTTCATTTATTCCCGCATCTGACCGCCCTTGAGAATGTTATGTTCGGTCCGCTTCGCGTGCGCAAGCAGAGCAAGGCCGCGGCGCGGGAGCAGGCGCTGGCGTTGCTGGACCGCGTGGGGCTGCGTGAACGCGCCAACCACTATCCGGCAGAGCTCTCGGGCGGTCAGCAGCAGCGCGTGGCGATAGCGCGCGCCCTGGCGGTGAAACCCAAAATGATGTTATTTGATGAGCCAACATCCGCCCTCGATCCCGAACTGCGGCATGAGGTGTTAAAGGTCATGCGATCCCTGGCCGAAGAGGGCATGACGATGGTGATTGTGACCCATGAGATTGGCTTTGCCAGAGAGGTGGCTTCCCGGTTGATCTTTATTGATGGCGGCACCATTGCCGAAGATGGTTCACCTGAGGCGCTGCTCACGGCCAGCAGCAATCCGCGTCTGCAAGAGTTTTTGCAACACGTATCCTGA	MSMVEFSAVAKNFGATQVLHDINLKIEAGEVVVIIGPSGSGKSTLLRCINKLEAISSGTLLVAGMHITDPHANECDIRREAGMVFQQFHLFPHLTALENVMFGPLRVRKQSKAAAREQALALLDRVGLRERANHYPAELSGGQQQRVAIARALAVKPKMMLFDEPTSALDPELRHEVLKVMRSLAEEGMTMVIVTHEIGFAREVASRLIFIDGGTIAEDGSPEALLTASSNPRLQEFLQHVS	PGPT0000730_478	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000730-glnQ-K10038	NA	NA
BMS020_05850	1017			hypothetical protein	ATGAAAACAATCGCAATCCGTGGTTCTGCCTATGCGGTCGGTCAGCAGCTTGGCGCGTTTGGTCGTGAGGCCTGGCATACTAAAATCAGGCAAACGGCGCTGTGGCAAACCGTAACCGCCCTGAAAACGGCGGAACAGACTCAGCGCATGCGCGCAGCCGTGCAGGCGCAGTTCCCGCTGATTTGGCAGGAGCTGGAGGGCATGGCGGAGGGGCTGCAGGCGCCGGTGGATGAGGTGTTCGCCTGGAACTGTCGCGGCGATCTGGTACGTTCGACGTCAGATGGCTGCACCACCCTGGCGGGGAGAAGCCCGGAGGGCGCGTTGATCATTGCGCACAATGAAGACGGCTTCCCGCAGCTGCGTGAAGAGTGCGCCATCGTCAGCGTAACCCCTGAGGTGGGCCTCGCCTTTACCAGCTTTGCCTATCCCGGCTCCCTGTGCGGGCATACCTTCGCGGTGAATGAGAAGGGGATAGTCAATACGGTCAACAATATTCGCGCCGTGCATCGTCCGGACGGCATGCCGCGCCAGATTGTGGCCCGCGCATCGCTGAACGCCGCCACCTTAGAGGAAGCCGTCACTTTGCTGAGCGCCACGCCGCGCGCGGGCGCGTTTCACCACACCCTGGGCCAGATGGGCGATAGCCGTCTGTTTAGCGTGGAAGCCACCGGCTCCGGCAGCTCGGTGCTCGAGTTGTCCGCCACCGGCGGGCATGCCAACCATCTGATCCATCCCCAGCTTGCGGCCATTGAACAGATCGTGACCGGAAGCTCCGGTTCGCGCCAGCGGCGCCTGGACGCGTGGCTGGCGACGAACCCGCCGCTGGATGGCGTGACAGCGAAAGCGATGCTCTCCGACCAGCAGGATCCGCTGTTACCGATTTACCGGCTGTCTCCCGACGATCCGGATGAGGAAAATACGCTGGCGACGGCTATTTTTACCTTGAGCGCGACCCGCGTCGTGTGGCAGGTCTTCACTCTGGACCGTGAAAACGCGGTTTTACAGGGCAGCGTTTAG	MKTIAIRGSAYAVGQQLGAFGREAWHTKIRQTALWQTVTALKTAEQTQRMRAAVQAQFPLIWQELEGMAEGLQAPVDEVFAWNCRGDLVRSTSDGCTTLAGRSPEGALIIAHNEDGFPQLREECAIVSVTPEVGLAFTSFAYPGSLCGHTFAVNEKGIVNTVNNIRAVHRPDGMPRQIVARASLNAATLEEAVTLLSATPRAGAFHHTLGQMGDSRLFSVEATGSGSSVLELSATGGHANHLIHPQLAAIEQIVTGSSGSRQRRLDAWLATNPPLDGVTAKAMLSDQQDPLLPIYRLSPDDPDEENTLATAIFTLSATRVVWQVFTLDRENAVLQGSV				NA	NA	NA	NA	NA
BMS020_05851	1191	nepI_2	COG2814	Purine ribonucleoside efflux pump NepI	ATGAAAGAGATTGCTTTACCCCTCCACCCGGCGCCGGCACGCGTCTGGATAGCCGTCGTTGCGCTCGGGATCTGCGCCTTTTCGATCGTCACCAGCGAACTGGCGCCGGTGGGCATGCTCAGCGCCCTGGCGGCGGATTTTCACCAGACGGAATCCGGCATGGGCCTTGCCGTCACCGCCTATGGCTGGGTGGGCGCCCTGGCGGCTCTGCTTTCCGGCGCGATGCCGGCGCGTATTTCCCGCAAGGCGCTGCTGGTCGGGCTGATGCTGATCCTGGCGCTTTCCTGCCTCGCCGCAACCCGGTCTCATTCGATGTTCGCCCTGATGAGCGCCCGCATGATTGGCGCCCTGGCCCATGGCGCCTTCTGGGCCTTAATTGGCATCGTCGCCGCGCAGCTGGTGCCGCCGCACCGGCTGGGGCTGGCCACGGCGATCATTTTTGGCGGCGTGTCGGCGGCAAGCGTAGTGGGGGTACCGCTGGCGAGCTTTATCGCCACCCTGGCGGGCTGGCGACACGCGTTTATGGCGATGGCCTTGCTGTCACTGGCCGCCGCTGCGGCGCTGTGCTCGACGCTGCCCCCGCTGGCCGCCCCTGCCTCCGTCAGGCTGCGTGTTTATCGCGATATTTTCCGCAATCCGCTGCTCGGTGGCCTGTATGGCGCCACGGCCTGCATCATTACCGCTCACTTTGCCGCCTTCACCTACATTGAACCGCTGCTGATAAATCTGCAGGGAGTCCCGGCGACCGCCCTCTCCGGCCTGCTGCTGCTGTCAGGGGTTTCCGGGCTGCTGGGTAACGTTATCGCCGGTAAGCTTATCGATCGTCATCTGAAGGGGCTGATTTTCGCTGCGCTGCTGCTGAGCGGGAGCGCGCTGGCGATCCTTGGCGCCGCCCGTCTTGCGCCACTGCCGTTCTGTTTTAGCGGGCTACTGTTAGCCCTGTGGGGCGCCGGCATCGCGATTGTGTTTGTCGGCTTACAGACCTGGCTGCTGCGCAGCGCGGGCGCGGTCGCCCAGCCGGCGTCAGCCATTTACGTGGCCATTTTTAATGCCGCCATCGGCACCGGGGCGCTTGTCGGCGGCCAGCTGATCGCCTCAGCTGGCCTGTCGGGAATGGTGTGGCTGGCGGCGGGGATCATGGTGGGCAGTACGCTGCTGATCGCCCTGCTGAAAGCGCCCTCGGCCCGCTAA	MKEIALPLHPAPARVWIAVVALGICAFSIVTSELAPVGMLSALAADFHQTESGMGLAVTAYGWVGALAALLSGAMPARISRKALLVGLMLILALSCLAATRSHSMFALMSARMIGALAHGAFWALIGIVAAQLVPPHRLGLATAIIFGGVSAASVVGVPLASFIATLAGWRHAFMAMALLSLAAAAALCSTLPPLAAPASVRLRVYRDIFRNPLLGGLYGATACIITAHFAAFTYIEPLLINLQGVPATALSGLLLLSGVSGLLGNVIAGKLIDRHLKGLIFAALLLSGSALAILGAARLAPLPFCFSGLLLALWGAGIAIVFVGLQTWLLRSAGAVAQPASAIYVAIFNAAIGTGALVGGQLIASAGLSGMVWLAAGIMVGSTLLIALLKAPSAR				NA	NA	NA	NA	NA
BMS020_05852	882	dmlR_26		HTH-type transcriptional regulator DmlR	ATGACCGCAGAATTTAACTGGGATGATGCGCGCATATTCCTCGCCATCGCCCGGGCGGGAACGCTGAGCGGCGCCGCCGACAAGATGAACATGGGGATTGCCACGGTCTCCCGCCGGCTGGATCGGCTGGAGCAGGCGTTGAACGTTCCGCTCTTCAGCCGCCATCAGAGCGGCTATCGCCTGACCGACGATGGCGAAGCCCTGCTCGCGCGGGCTGAGGCGCTGGAATACGCAGGCCTGGCGTTCGGCGAAGCGGCGCAACTGCAGGGACATGTCGCCGGGGTTGTCCGCCTGGCCACCGCGGACAACCTGGCCACGCATTTTATTCTGCCCTCCCTGAAAGGGCTCCTGGACCAATATCCCGAGCTGCGGGTGGAGGTGCTGAGCGGCGTGCAGCCGGTGAACCTGCACCGTCGGGATGCCGATCTGGCGATCCGCATGGTCAAGCCTGAGGCCGGGCATCTGACGTTAAAGCGTCTGGGGACGGTGGGGTTTGGCGTCTATGGCGCCGCCGGCTATCTGGCCGGGGCGGACGGCCTGTCGCTGAGCGAGGCGGACTTTGTGGGGTGGCCGGAAACTCACCAGCACCTGCCGGCCGCCCAATGGATCACGCGCACCCTGCGCGGCCGGCCGTGTAAAGTCGAAGCCAATACGCTCGTGGCCCAGGTTTCCGCGGTATCCGCGGGCCTCGGACTGGGCGTCCTGCCGCACTTTATGGCGCGGGCCAGCGGCCTGCAGTGCCTGCAGCCGGAGATCGGCGCGGATCAGACCCTCTGGCTGGTGATGCATTCCGACCTGGCCGGGTCAAGACGCGTGCGGGTTCTCGCCGACCATCTCATCGCTCTCTTTGCGGATCATCAAGAGCGGCTGGCGATGCCCTGA	MTAEFNWDDARIFLAIARAGTLSGAADKMNMGIATVSRRLDRLEQALNVPLFSRHQSGYRLTDDGEALLARAEALEYAGLAFGEAAQLQGHVAGVVRLATADNLATHFILPSLKGLLDQYPELRVEVLSGVQPVNLHRRDADLAIRMVKPEAGHLTLKRLGTVGFGVYGAAGYLAGADGLSLSEADFVGWPETHQHLPAAQWITRTLRGRPCKVEANTLVAQVSAVSAGLGLGVLPHFMARASGLQCLQPEIGADQTLWLVMHSDLAGSRRVRVLADHLIALFADHQERLAMP				NA	NA	NA	NA	NA
BMS020_05853	312			hypothetical protein	ATGATTGTCAGGACCTGGCACGGCTGTGTGCCATTGCAACATGCCGAGGGGTTTGCAAAGCACCTTGAGCTGACCGGCGTGGAACACGCCCGGGGTATCCCCGGCAACAGGGGCGCGCTGGTGCGCCGGGAAAACCAAGGCGAATGGGCGCATTTCTTTCTCGCCACCTACTGGCAGGATCTCGCGGCGGTCAAAGCCTTCGCAGGCGAAGACTATCACGTCGCGGTCACCTATCCGGACGACGAAGTATTCGAACTGCTCTCCGACCCCTACGTGTTTCAGCATGAGGTTGAGGCCGTGTCGCCGCTGTAG	MIVRTWHGCVPLQHAEGFAKHLELTGVEHARGIPGNRGALVRRENQGEWAHFFLATYWQDLAAVKAFAGEDYHVAVTYPDDEVFELLSDPYVFQHEVEAVSPL				NA	NA	NA	NA	NA
BMS020_05854	483	gpx1_1		Hydroperoxy fatty acid reductase gpx1	ATGACCCCTTTTTATCAATTGACGGCTACCCGCCTGCGCGGACAGCCCCTCTCCATGGCTGACTATGCTGGCAAGGTGGTTCTGGTGGTGAATACGGCCAGCCATTGTGGCTTCACGCCGCAATATGCTGGCCTTGAAGCGCTCTACAAAAAGTACGCGGCTCAGGGGCTGGTTGTGCTTGGGTTCCCCTGCAACCAGTTTGGCAAGCAGGAACCCGGCGGTGCGGATGAAATCGAGCAGACCTGTCACGTTAACTACGGCGTGAGCTTCCCGATGTTTGAGAAAGTGGACGTCAACGGCCCCGCCGCGCATCCGCTGTTTCGTTATTTGAAACAAGCGTTGCCCGGCGTGCTCGGCGGACGGATCAAGTGGAATTTCACCAAGTTCCTCATCGGTCGCGACGGCACTCCCCTCACGCGTTTTGCGCCGTTCACGACGCCGGAGAAAATGGAAGCCGCCATTGTTGCCGCACTCAAACGCTAA	MTPFYQLTATRLRGQPLSMADYAGKVVLVVNTASHCGFTPQYAGLEALYKKYAAQGLVVLGFPCNQFGKQEPGGADEIEQTCHVNYGVSFPMFEKVDVNGPAAHPLFRYLKQALPGVLGGRIKWNFTKFLIGRDGTPLTRFAPFTTPEKMEAAIVAALKR	PGPT0013115_3134	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013115-bsaA|gpx|btuE-K00432	NA	NA
BMS020_05855	564			hypothetical protein	ATGGTCAAATATATCTTATCGCTGGTCGTAGTGGCGATGCTCGCAGGCTGTACCAGCGCGCCAAACTTGCCGCCTCGGGATACCATTGTGGCGATGAAACCCACAGAGTCCGGTATTGTCGCCAGCTCAGCGAAATACAGTTACCGCTTTGTCCGTGACGGTGTGCCTGAGGAATATCAGCGTTATAAGACCTTTTATGAGCGCTTTCACCAACAGGCTTCCGGCGTGCGGGTTAACTTTGTCGTGGAACAACATGAGGTAACGGCGGAATATCTGGTGGTGATGGATCAGCGCAAACTGGATGCCGGGCAGCATAGCGAGCTGGTAAATCAGTATCATGCGGTGCAGATTGATAACGATCGCCTCGGGGTGTTGTTTAAAGCGACAGGGTTTTGGACGGCATCGGACGCGTCAGATCTGGCCGCCGCCTACCAGTTAGCGCACCCCGTTGTGGTATCAATCAATGATAAGACCAAAACGATTAGCTCGCTTGGCGCCGTCGCCATGGCCCCGTTGTTTCCGTTTTACATGATGTATGGCTGTGCCATCGGGCCTTGTGTCTGA	MVKYILSLVVVAMLAGCTSAPNLPPRDTIVAMKPTESGIVASSAKYSYRFVRDGVPEEYQRYKTFYERFHQQASGVRVNFVVEQHEVTAEYLVVMDQRKLDAGQHSELVNQYHAVQIDNDRLGVLFKATGFWTASDASDLAAAYQLAHPVVVSINDKTKTISSLGAVAMAPLFPFYMMYGCAIGPCV				NA	NA	NA	NA	NA
BMS020_05856	1284			hypothetical protein	ATGACCTGGTTCATAGACCGACGCCTGAACGGGAAAAACAAAAGCGCCGTCAATCGTCAGCGCTTTTTGCGCCGTTATAAGGCGCAGATTAAACAGTCGATCTCCGAGGCCATCAACAAGCGCTCGGTGACCGATATTGAGAGCGGAGAATCCGTCTCGATCCCGACGGACGATATCAACGAGCCGATGTTTCATCAGGGTCGCGGCGGGCTGCGCAACCGCGTCCACCCTGGCAACGACCATTTCGTGCAAAACGACCGCATCGAACGCCCGCAAGGGGGCGGCGGCGGCGGGGGCGGCGGTCAGGGGCAAGCCAGCGCCGATGGCGAAGGGAAGGATGAGTTTGTCTTCCAGATTTCGAAAGATGAGTACCTGGATCTGCTGTTCGAAGATCTCGCCCTGCCGAACCTGAAGAAAAATCAGCACCGGCAGCTGAACGAGTTTAAAACCCATCGCGCGGGCTTTACCTCTAACGGGGTGCCGGCCAACATCAGCGTGGTGCGTTCGCTGCAGAACTCGTTGGCCCGCCGGACGGCGATGACCGCCGGCAAGCGCCGTGAACTGCGCGCCCTGGAGGAGGATCTGGAGACCATCAGCCGCAGCGAACCGGTGCAGCTGCTGGAGGAGGAGCGCCTGCGCAAAGAGATTGCCGAACTGCGGGCTAAAATTGAACGGGTGCCGTTTATCGACACCTTTGACTTACGCTACAAAAATTACGAAAAACGGCCGGAGCCCTCCAGCCAGGCGGTAATGTTCTGCCTGATGGACGTCTCAGGCTCGATGGACCAGGCCACCAAAGACATGGCCAAGCGCTTTTATATCCTGCTGTATTTGTTCCTCAGCCGGACCTATAAAAACGTCGATGTGGTCTACATCCGCCACCATACTCAGGCGAAAGAGGTGGATGAACACGAGTTCTTCTACTCTCAGGAGACCGGCGGCACCATCGTCTCCAGCGCCCTGAAGCTGATGGATGAAGTGGTGCAGGCGCGTTATGACCCGGCGCAGTGGAACATCTACGCCGCCCAGGCGTCGGATGGCGACAATTGGGCCGACGACTCCCCGCTGTGCCACGAACTGCTGGCGAAGAAAATTCTGCCGGTGGTGCGTTATTACAGCTATATCGAAATTACCCGCCGGGCGCATCAGACCCTGTGGCGCGAGTATGAACACCTGCAGGCGACCTTTGATAATTTCGCCATGCAGCATATCCGCGACCAGGAGGATATCTACCCGGTATTCCGCGAACTGTTTCACAAACAATCGTCTAAAAGTGAAGCGTAG	MTWFIDRRLNGKNKSAVNRQRFLRRYKAQIKQSISEAINKRSVTDIESGESVSIPTDDINEPMFHQGRGGLRNRVHPGNDHFVQNDRIERPQGGGGGGGGGQGQASADGEGKDEFVFQISKDEYLDLLFEDLALPNLKKNQHRQLNEFKTHRAGFTSNGVPANISVVRSLQNSLARRTAMTAGKRRELRALEEDLETISRSEPVQLLEEERLRKEIAELRAKIERVPFIDTFDLRYKNYEKRPEPSSQAVMFCLMDVSGSMDQATKDMAKRFYILLYLFLSRTYKNVDVVYIRHHTQAKEVDEHEFFYSQETGGTIVSSALKLMDEVVQARYDPAQWNIYAAQASDGDNWADDSPLCHELLAKKILPVVRYYSYIEITRRAHQTLWREYEHLQATFDNFAMQHIRDQEDIYPVFRELFHKQSSKSEA	PGPT0025005_400	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0025005-yhbH-K09786	NA	NA
BMS020_05857	1935			hypothetical protein	ATGAATATATTCGATCACTATCGCCAGCGCTATGAAGCTGCCAAGGACGAAGAGTTCACACTGCAGGAGTTTCTTACCATCTGCCGGCAAGATCGCAGTGCCTATGCCAATGCGGCAGAACGTCTGTTGATGGCCATTGGTGAACCCGTCATGGTTGATACGGCTCTCGAGCCGCGGCTATCCCGTCTCTTTTCAAACCGGGTCATCGCACGCTATCCGGCGTTTGAAGAGTTTTACGGTATGGAAGACGCCATTGAGCAGATCGTTTCCTACCTCAAGCATGCCGCCCAGGGGCTGGAAGAGAAGAAACAGATCCTCTATTTGCTGGGACCGGTGGGCGGTGGTAAATCATCGCTGGCTGAACGGCTGAAAGCCCTGATGCAGCGCGTGCCTATCTATGTGCTGAGCGCCAACGGCGAGCGCAGCCCGGTTAACGATCACCCGCTGTGCCTGTTCAATCCGCAGGAGGATGCGCAGATCCTTCAGAAAGAGTATGGCGTCCCTACCCGCTATCTCGGCACCATTATGTCGCCGTGGGCGGCCAAACGCCTGCATGAGTTTGGCGGCGATATCACGAAATTCCGCGTGGTCAAAGTCTGGCCATCGATTCTCGAGCAGGTCGCCATCGCCAAAACCGAACCGGGCGATGAGAACAACCAGGATATTTCAGCGCTGGTGGGTAAAGTGGATATCCGTAAGCTGGAACACTATGCGCAGAACGACCCGGACGCCTACGGCTACTCCGGTGCGCTGTGCCGCGCCAACCAGGGGATCATGGAGTTCGTCGAGATGTTTAAAGCGCCGATCAAGGTGCTGCATCCGCTGCTGACCGCGACCCAGGAGGGTAACTATAACGGGACCGAAGGGATCTCCGCCCTGCCGTTTAACGGGATCATCCTTGCCCACTCCAACGAATCGGAATGGGTGACCTTCCGTAATAACAAAAACAATGAGGCCTTCCTCGACCGCGTCTATATCGTCAAAGTGCCTTATTGCCTGCGGATCTCCGAAGAGATCCGTATCTATGAAAAACTGCTCAACAGCAGCGAACTGACGCATGCGCCATGCGCCCCGGGCACGCTGGAAACGCTGGCGCGCTTCTCGATTCTGTCGCGCCTGAAAGAGCCGGAAAACTCGAGCATCTACTCGAAAATGCGGGTCTATGACGGCGAGAGCCTGAAGGATACCGACCCGAAAGCGAAATCCTATCAAGAGTATCGCGACTACGCCGGGGTGGATGAAGGGATGAACGGGCTCTCCACCCGCTTTGCCTTTAAGATCCTCTCAAGGGTGTTTAACTTCGACCATGTTGAAGTGGCGGCCAACCCGGTGCATCTGTTCTATGTGCTGGAGCAGCAGATTGAGCGCGAACAGTTCCCGCAGGAGCAGGCCGAGCGCTATCTGGAGTTCCTCAAAGGCTATCTGATCCCGAAATACGCCGAGTTTATCGGCAAAGAGATCCAGACCGCTTATCTGGAATCCTACTCCGAGTACGGGCAGAACATTTTCGATCGCTATGTCACCTACGCTGACTTCTGGATCCAGGATCAGGAATATCGCGATCCGGACACCGGGCAGCTGTTTGACCGTGAATCGTTGAATGCCGAGCTGGAGAAAATTGAGAAGCCGGCCGGGATCAGCAACCCGAAAGACTTCCGTAATGAAATCGTCAACTTTGTGCTGCGCGCCAGAGCCAACAACAGCGGACGTAATCCGAACTGGACCAGCTATGAGAAACTGCGCACGGTTATTGAGAAGAAAATGTTCTCCAATACCGAAGAGCTGTTGCCGGTCATTTCGTTTAACGCCAAAACCTCAACCGATGAGCAGAAAAAACACGACGACTTTGTCGACCGCATGATGGAGAAAGGCTACACCCGCAAACAGGTTCGCCTGCTGTGCGAGTGGTACCTGCGGGTTCGTAAATCGTCCTGA	MNIFDHYRQRYEAAKDEEFTLQEFLTICRQDRSAYANAAERLLMAIGEPVMVDTALEPRLSRLFSNRVIARYPAFEEFYGMEDAIEQIVSYLKHAAQGLEEKKQILYLLGPVGGGKSSLAERLKALMQRVPIYVLSANGERSPVNDHPLCLFNPQEDAQILQKEYGVPTRYLGTIMSPWAAKRLHEFGGDITKFRVVKVWPSILEQVAIAKTEPGDENNQDISALVGKVDIRKLEHYAQNDPDAYGYSGALCRANQGIMEFVEMFKAPIKVLHPLLTATQEGNYNGTEGISALPFNGIILAHSNESEWVTFRNNKNNEAFLDRVYIVKVPYCLRISEEIRIYEKLLNSSELTHAPCAPGTLETLARFSILSRLKEPENSSIYSKMRVYDGESLKDTDPKAKSYQEYRDYAGVDEGMNGLSTRFAFKILSRVFNFDHVEVAANPVHLFYVLEQQIEREQFPQEQAERYLEFLKGYLIPKYAEFIGKEIQTAYLESYSEYGQNIFDRYVTYADFWIQDQEYRDPDTGQLFDRESLNAELEKIEKPAGISNPKDFRNEIVNFVLRARANNSGRNPNWTSYEKLRTVIEKKMFSNTEELLPVISFNAKTSTDEQKKHDDFVDRMMEKGYTRKQVRLLCEWYLRVRKSS	PGPT0014345_441	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014345-prkA|yeaG-K07180	NA	NA
BMS020_05858	747	mipA_1	COG3713	MltA-interacting protein	GTGACTAAAATCAAACTTCTGGCACTCGGCGTGCTGATTGCGACCTCCGCCAGCGCGGCGCATGCCGATGGGAAGTTCACGCTTGGGGCTGGCGTCGGCATCGTTGAGCATCCGTACAAGCAGTATGATGCGGATGTTTATCCGGTGCCGGTCATTAGTTATGAGAGCGATAACTTCTGGTTCCACGGTCTGGGCGGGGGTTACTACCTGTGGAATGACACCAACGATAAGCTGTCGATAACGGCCTACTGGTCGCCGATGTACTTCAAGCCGGGCGACAGCGATAGCGAACAAATGCGTCGCCTGGATAAACGTAAATCGACCGTGATGGCCGGTCTTTCTTATGTCCACAACACGCCCTATGGCTTCCTGCGCACGACGATTGCCGGCGATACGCTGGATAACAGCAACGGCATCAACTGGGATCTCGCCTGGCTGTACCGCTACACCAACGGGAACCTGACGCTGACGCCGGGCATTGGCGTCGAGTGGAACAGCGACAATCAGAACGAATACTACTATGGCGTCTCGCAGCATGAGTCCCGTCGCAGCGGGATGCGCAGCTACGATCCGGACAGCAGCTGGAACCCGTATCTGGAGCTGGCGGCCAACTATCGCTTCCTCGGCGACTGGAGCGTATACGGTATTGCGCGCTACACGCGTCTGTCGGATGAAATTACCGATAGCCCGATGGTGGACAAATCCTGGAGCGGTCTGATCTCAACCGGGATCACCTACACCTTCTGA	MTKIKLLALGVLIATSASAAHADGKFTLGAGVGIVEHPYKQYDADVYPVPVISYESDNFWFHGLGGGYYLWNDTNDKLSITAYWSPMYFKPGDSDSEQMRRLDKRKSTVMAGLSYVHNTPYGFLRTTIAGDTLDNSNGINWDLAWLYRYTNGNLTLTPGIGVEWNSDNQNEYYYGVSQHESRRSGMRSYDPDSSWNPYLELAANYRFLGDWSVYGIARYTRLSDEITDSPMVDKSWSGLISTGITYTF				NA	NA	NA	NA	NA
BMS020_05859	885			hypothetical protein	ATGGTGGTGCAGGGCGCGAAGAAGGAGACGATGGTGAAAAAAACAGTATGCTTTGGCGAGCAGGCGGCAGTTCCGGCCATCGGGCTGGGAACCTGGTATATGGGCGAGAACGCGGCGCAGCGTCAGCAGGAGCTGGCTGCACTGCGCGCGGGCATCGACCATGGCCTGACGGTAATCGATACCGCGGAGATGTATGCCGACGGCGGGGCGGAGGAGGTAGTGGGCCAGGCGATCCGCGGCCTGCGCGACCGGGTGACGCTGGTCTCTAAAGTCTATCCCTGGCACGCCGGCGGAGCGGCGATGCGCCGCGCCTGTGAAAACAGTCTGCGCCGGCTGCAGACCGACTATCTGGATATGTATCTCCTGCACTGGCGGGGCGATATCCCCCTGCAGGAGACGGTCGAGGCGATGGAAAGGCTGGTGGCCGAGGGCAAAATCCGCCGTTGGGGCGTCTCCAATCTGGACACCGACGATATGCAGGCGCTGTGGCGCACGGCGGGCGGCGAACGCTGCGCCACCAACCAGGTGCTCTATCATCTCGCGTCGCGGGGCATTGAATACGATCTCCTGCCCTGGTGCCAGCAGCACACCCTGCCGGTGATGGCCTATTGCCCGCTGGCGCAGGCGGGGCGCTTACGCGATGGACTTTTTCAGCATACCGATATCATCAATATGGCTAACGCGCGGGGCGTGACGGTGGCGCAGCTGCTGCTGGCCTGGGTGATTCGTCATCCGGGAATGCTGGCGATCCCGAAAGCGGCGACTATCGAGCATGTGGTGCAGAATGCCGTCGCGCTTGATATCGTTCTCAGCCCGCAAGAGCTTGCGCAGCTGGACCGCCTCTATCCGCCGCCGCCGCGGAAAACCCGGTTGGAAATGGTTTAA	MVVQGAKKETMVKKTVCFGEQAAVPAIGLGTWYMGENAAQRQQELAALRAGIDHGLTVIDTAEMYADGGAEEVVGQAIRGLRDRVTLVSKVYPWHAGGAAMRRACENSLRRLQTDYLDMYLLHWRGDIPLQETVEAMERLVAEGKIRRWGVSNLDTDDMQALWRTAGGERCATNQVLYHLASRGIEYDLLPWCQQHTLPVMAYCPLAQAGRLRDGLFQHTDIINMANARGVTVAQLLLAWVIRHPGMLAIPKAATIEHVVQNAVALDIVLSPQELAQLDRLYPPPPRKTRLEMV				NA	NA	NA	NA	NA
BMS020_05860	885	yeaD	COG0676	Putative glucose-6-phosphate 1-epimerase	ATGATAAATAAAATTTTTGCTCTCCCGGTGAATGAAACCATTTCGCCCGTTATCTCCCGTCGCCAGCTGGACGACCTGGAGCTGATTGTCATCGACCATCCGCAGGTGAAAGCCTCTGTGGCGCTGCAGGGGGCGCACCTGCTCTCCTGGAAACCCGCCGGTGAAGAAGAAGTCCTGTGGCTGAGCAACAACACCCCATTTAAACAGGGCGTCGCCCTGCGCGGCGGCGTGCCGATTTGCTGGCCGTGGTTTGGCCCATCGGCGCAGCAGGGCCTGCCGTCGCACGGCTTTGCCCGCAACCTGCCGTGGACCCTGGAAGGGCATGATGAAGACGACAGCGGCGTGATGTTGACCTTTGCGCTGCAGAACAGCGCTGAAACCATGAAGCTGTGGCCGCATGAGTTCACCCTCTATGCCCGCTTCAAGCTGGGCAAGACCTGCGAAATCGAGCTGGAAGCCCACGGCGAATTCGAGACCACCTCTGCCCTGCACAGCTACTTCAACGTTGGCGATATCGCGGCGGTGAAAGTGAGCGGTCTTGGCGAGCGCTATATCGATAAAGTGAAGAACGCCGAAGTAGGCGTTCTGAACAACGGCGTGCAGACCTTCCCGGATCGTACCGACCGCGTCTATCTCGACGCCGAAGGCTGCAGCGTGATCCACGACGACGCGCTCAGCCGCACGATCGACGTGGTGCATCATCATCAGCACAACGTGGTGGCCTGGAACCCGGGCCCGGCGCTGTCCGTCAGCATGGGCGACATGCCGGACGATGGCTATAAAACCTTCGTTTGCGTCGAAACCTGCTGCGTGACCCAGCCGCAGAAAGCCAGTGAAGAGACCCCGTCTCGCCTGGCGCAAACCATCAGCGTGAAAAAACGCTAA	MINKIFALPVNETISPVISRRQLDDLELIVIDHPQVKASVALQGAHLLSWKPAGEEEVLWLSNNTPFKQGVALRGGVPICWPWFGPSAQQGLPSHGFARNLPWTLEGHDEDDSGVMLTFALQNSAETMKLWPHEFTLYARFKLGKTCEIELEAHGEFETTSALHSYFNVGDIAAVKVSGLGERYIDKVKNAEVGVLNNGVQTFPDRTDRVYLDAEGCSVIHDDALSRTIDVVHHHQHNVVAWNPGPALSVSMGDMPDDGYKTFVCVETCCVTQPQKASEETPSRLAQTISVKKR				NA	NA	NA	NA	NA
BMS020_05861	996	gapA_1	COG0057	Glyceraldehyde-3-phosphate dehydrogenase A	ATGACTATCAAAGTAGGTATCAACGGTTTTGGCCGTATCGGTCGCATTGTTTTCCGTGCTGCTCAGAAACGTTCTGACATCGAGATCGTTGCAATCAACGACCTGTTAGACGCAGAGTACATGGCTTACATGCTGAAGTATGACTCCACTCACGGTCGTTTCGACGGCACCGTTGAAGTGAAAGACGGTCATCTGGTCGTTAACGGTAAAAAAATCCGTGTTACCGCTGAACGTGACCCGGCTAACCTGAAGTGGGACGAAGTTGGTGTTGACGTTGTTGCTGAAGCAACCGGTATCTTCCTGACCGACGAAACCGCTCGTAAACACATCACCGCTGGCGCGAAAAAAGTCGTTCTGACTGGCCCGTCCAAAGACAACACCCCGATGTTCGTTCGTGGCGCTAACTTCGACACTTACGCTGGCCAGGACATCGTTTCCAACGCATCCTGCACCACCAACTGCCTGGCACCGCTGGCTAAAGTCATCAACGACAACTTCGGTATCGTTGAAGGCCTGATGACCACCGTCCACGCAACCACCGCTACTCAGAAAACCGTTGATGGCCCGTCTCACAAAGACTGGCGCGGCGGCCGCGGCGCAGCTCAGAACATCATCCCGTCCTCTACCGGCGCTGCTAAAGCAGTAGGTAAAGTACTGCCAGAACTGAACGGCAAACTGACCGGTATGGCGTTCCGCGTTCCGACTCCGAACGTATCCGTTGTTGACCTGACCGTTCGTCTGGAAAAAGCAGCGTCCTACGAAGAAATCAAGAAAGCTATCAAAGCCGCTTCTGAAGGCGCAATGAAAGGCGTTCTGGGTTACACCGAAGACGACGTTGTTTCTACCGACTTCAACGGCGAAGTTTGCACTTCCGTGTTCGATGCTAAAGCAGGTATCGCACTGAACGACAACTTCGTTAAACTGGTTTCCTGGTACGACAACGAAACTGGCTACTCCAACAAAGTTCTGGACCTGATTGCCCACATCTCCAAATAA	MTIKVGINGFGRIGRIVFRAAQKRSDIEIVAINDLLDAEYMAYMLKYDSTHGRFDGTVEVKDGHLVVNGKKIRVTAERDPANLKWDEVGVDVVAEATGIFLTDETARKHITAGAKKVVLTGPSKDNTPMFVRGANFDTYAGQDIVSNASCTTNCLAPLAKVINDNFGIVEGLMTTVHATTATQKTVDGPSHKDWRGGRGAAQNIIPSSTGAAKAVGKVLPELNGKLTGMAFRVPTPNVSVVDLTVRLEKAASYEEIKKAIKAASEGAMKGVLGYTEDDVVSTDFNGEVCTSVFDAKAGIALNDNFVKLVSWYDNETGYSNKVLDLIAHISK	PGPT0018000_7908	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
BMS020_05862	414	msrB_1	COG0229	Peptide methionine sulfoxide reductase MsrB	ATGGCGAATAAACCCTCCCCGGAAGAGCTGAAAAACGGCTTGAGCGAAATGCAGTTTTACGTGACCCAACATCATGGCACCGAACCGCCTTTCACCGGACGGCTGCTGCACAACAAGAAAAATGGCGTGTATCACTGCCTGGTGTGCGATGCGCCGTTGTTCAACTCCCAGACCAAATACGACTCCGGCTGCGGCTGGCCGAGCTTCTACGAGCCGGTAAGCGAAGAGGCCATTCGCTATCTGGACGACAGCTCCCACGGCATGCAGCGCATTGAGATCCGCTGCGGAAATTGTGATGCCCATCTCGGTCACGTGTTTCCGGATGGCCCGCAGCCGACCGGCGAGCGCTATTGTGTCAATTCGGCGTCGCTCAGCTTCACCGATGAGCAGAACGGCGAGCAGATCAAGGGTTGA	MANKPSPEELKNGLSEMQFYVTQHHGTEPPFTGRLLHNKKNGVYHCLVCDAPLFNSQTKYDSGCGWPSFYEPVSEEAIRYLDDSSHGMQRIEIRCGNCDAHLGHVFPDGPQPTGERYCVNSASLSFTDEQNGEQIKG	PGPT0013070_3906	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013070-msrB-K07305	NA	NA
BMS020_05863	279			hypothetical protein	ATGGATATTGAGCAAATTATCGACAGCATGACCCCGGAAGTGTATCAGCGCCTGGCGACGGCGGTAGAGCTGGGAAAATGGCCGGATGGCGTGGCGCTGACGCCGGAGCAGAAGGAAAATAGCCTGCAGCTGGTGATGCTGTGGCAGGCCCGGTATAACACCGACGCCCAGCATATGACCATCGACACCCGCGGGCAGATGGTGATGAAGAGCAAACAGCAGCTGAAGGAAGATTTCGGCATCGTGCCGAAGCCGATCGCCACCGTGAAGTTGCAATAA	MDIEQIIDSMTPEVYQRLATAVELGKWPDGVALTPEQKENSLQLVMLWQARYNTDAQHMTIDTRGQMVMKSKQQLKEDFGIVPKPIATVKLQ				NA	NA	NA	NA	NA
BMS020_05864	345			hypothetical protein	ATGGCCTATATCCCCAAAAATTACGCACGTCTGGAAGTGGGTTACCGCGAAAAGGCGCTCAAGCTCTTTCCCTGGGTATGCGGACGCTGCTCCCGGGAGTTTGTCTACTCCAATCTGCGCGAGCTGACGGTGCACCATATCGATCACGACCACTCCAATAACCCGGAAGATGGCAGCAACTGGGAGATGTTGTGCCTTTACTGTCACGATCACGAACATTCCAAGTACACCGAAGCCGATCAGTATGGCTCCACGGTGGTAGCGGGCGAAGATGCGCAAAAGAGCGTCGGCGAGGCCACCTACAACCCGTTTGCCGACCTGAAAGCGATGATGAATAAAAAGTAA	MAYIPKNYARLEVGYREKALKLFPWVCGRCSREFVYSNLRELTVHHIDHDHSNNPEDGSNWEMLCLYCHDHEHSKYTEADQYGSTVVAGEDAQKSVGEATYNPFADLKAMMNKK				NA	NA	NA	NA	NA
BMS020_05865	1254	chiA1_2		Chitinase A1	ATGAAACGTTTGCCCTTGCTGGCAGCCTTGCCCCTGCTTTGCGCTTCCGCGCTCTCTGCCCAACCGCTGATGTCCGTCGGCTATTTCAACGGCGGCGGCGACGTCACTGCCGGGCCGGGCGGGGATATCGACAAGCTGGACGTCCGGCAGATCACCCATCTCAACTACTCGTTTGGCCTTATCTATAACGATGAAAAAGACGAGACCAACGCAGCCCTGAAGGATCCTGCTCATCTGCACGAGATCTGGCTGTCGCCGAAGGTGCAGGCGGATCTGCAAAAGCTCCCGGCCCTGCGTAAACAGAACCCGGACCTCAAAGTCCTGCTGTCGGTCGGCGGCTGGGGAGCGCGCGGTTTCTCCGGCGCGGCGGCAAGCAAAGAAACCCGGAAGGTGTTTATTCAGTCTGCGCAGGAAATTGTTGAAAAATATGGTCTGGATGGGATTGACCTCGACTGGGAGTTTCCGGTCAACGGCGCCTGGGGGCTGGTTGCCAGTCAACCGGCCGATCGCGATAACTTTACCGCGCTGTTAAAAGAGCTGCGCGCAGCGTTTGGTACCAGGAAACTGGTCACTATCGCCGTGGGCGCCAACGCCGAAAGCCCGAAAAGCTGGGTGGACGTTAAAGCGATTGCGTCATCGCTCGACTACATCAACCTGATGACCTACGACATGGCCTACGGCACGCAGTACTTCAACTCGAACCTGTATGACTCCAGCCACTGGCCGACGGTCGCCGCGGCGGATAAATACAGCGCCGATTTTGTGGTCAACAATTACCTGGCCGCCGGGCTTAAACCCAGCCAGATGAACCTCGGAATTGGTTTTTATGGCCGGGTGCCGAAACGGGCGGTCGAGCCGGGGATTGACTGGAGTAAAGCGGATGCGCAAAAGAACCCGGTCACCCAGCCCTATTTTGGTCCACAGCAGATCGCGCTGTTTGCCTCGCTGGGCTATGACCTGAGCAAAGACACCTACGTGAAATACAATGATATCGTGGGCAAATTGCTCAACGATCCGCAGAAACGCTTTACCGAGCACTGGGACGGTGAGGCGAAAGTCCCGTGGCTGTCGGTGCAGTCCGCGGAGGGCAAGCCGCTGTTCGCCCTCTCCTACGAGAACCCGCGCTCGGTGGCCATTAAAGCGGACTACATCAAGGCGAAAGGCCTCGCCGGAGCGATGTTCTGGGAGTATGGCGCCGATGACCAGAACCAGCTGGCCCGCCAGCTGGCGGAATCGCTGGGGATCAAACACTAA	MKRLPLLAALPLLCASALSAQPLMSVGYFNGGGDVTAGPGGDIDKLDVRQITHLNYSFGLIYNDEKDETNAALKDPAHLHEIWLSPKVQADLQKLPALRKQNPDLKVLLSVGGWGARGFSGAAASKETRKVFIQSAQEIVEKYGLDGIDLDWEFPVNGAWGLVASQPADRDNFTALLKELRAAFGTRKLVTIAVGANAESPKSWVDVKAIASSLDYINLMTYDMAYGTQYFNSNLYDSSHWPTVAAADKYSADFVVNNYLAAGLKPSQMNLGIGFYGRVPKRAVEPGIDWSKADAQKNPVTQPYFGPQQIALFASLGYDLSKDTYVKYNDIVGKLLNDPQKRFTEHWDGEAKVPWLSVQSAEGKPLFALSYENPRSVAIKADYIKAKGLAGAMFWEYGADDQNQLARQLAESLGIKH	PGPT0012130_3820	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
BMS020_05866	642	pncA_1	COG1335	Nicotinamidase	ATGGCGCATCGAGCGCTGTTACTGGTTGATTTGCAGAATGACTTCTGCGCCGGCGGCGCGCTGGCGGTTCCCGAAGGCGACAGTACCGTCGAGGTGGCCAATGCGCTTATCGACTGGAGCCTGGCGCGCGGCGAGCCCATCGTCGCCAGCCAGGACTGGCACCCGGCGGATCACGGCAGCTTCGCCAGCCAGCATCAGGTGGAGCCCTACACCGTGGGCGACCTGGATGGCCTGGCGCAAACTTTCTGGCCGGATCACTGCGTTCAGCACAGCGAAGGCGCGGCGCTGCATCCCCAGCTCAAGCAGCAGGCCATCGCCGCCGTGTTCCACAAAGGGCAAAACCGGGTCATTGACAGCTACAGCGCTTTTTTTGACAACGGTCACCGGCAGAAAACTGAACTGGACGGCTGGCTGCGTGGTCAGGGGATCGTGGAGCTGACCGTGCTCGGCCTCGCCACCGATTACTGCGTTAAGTTCACCGTGCTGGATGCCCTGGCGCTGGGCTACGCGGTCAACGTCATCACCGATGGCTGCCGCGGGGTGAATCTTCAGCCGCAGGACAGCAGCCAGGCGTTTATGGAGATGGCCGCCGCAGGCGCCACGCTCTATACCCTCGATGACTGGCGGGAAACCCACGCCTGA	MAHRALLLVDLQNDFCAGGALAVPEGDSTVEVANALIDWSLARGEPIVASQDWHPADHGSFASQHQVEPYTVGDLDGLAQTFWPDHCVQHSEGAALHPQLKQQAIAAVFHKGQNRVIDSYSAFFDNGHRQKTELDGWLRGQGIVELTVLGLATDYCVKFTVLDALALGYAVNVITDGCRGVNLQPQDSSQAFMEMAAAGATLYTLDDWRETHA	PGPT0013470_529	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013470-pncA-K08281	NA	NA
BMS020_05867	1020	ansA	COG0252	L-asparaginase 1	ATGCAAAAAAAATCGATTTACGTTGCCTACACCGGTGGGACCATCGGTATGCAGCGCTCTGAACACGGCTATGTACCCGTTTCCGGCCATCTCCAGCGACAGCTGGCGCTGATGCCTGAGTTCCATCGCCCGGAGATGCCGGACTTCACGATCCATGAATACCATCCGCTGATGGATTCATCCGATATGACCCCTGAGGACTGGCAGCACATCGCCGACGATATCCGCAGCCATTACGAGGAGTATGATGGCTTTGTGATCCTCCACGGTACCGACACCATGGCGTTTACCGCCTCTGCGCTGTCGTTCATGCTGGAAAACCTCGGCAAACCGGTGATTGTGACAGGGTCACAAATCCCGCTGGCCGAGCTGCGCTCCGACGGCCAGATCAACCTGCTCAATGCCCTGTACGTCGCCGCCAACTATCCGATTAACGAAGTGGCGCTGTTCTTCAACAATCGGCTGTTCCGCGGCAACCGTACCACTAAAGCCCATGCCGACGGCTTTGACGCCTTCGCCTCGCCAAACCTCGCGCCGCTGCTGGAGGCCGGGATCCATATCCGCCGTCTCGGTACCCCGCCGGCGCCGCAGGGCTGCGGAGAGCTTATCGTGCACCCTATCACCCCGCAGCCGATTGGCGTGGTGACGATTTACCCCGGCATCTCCGCCGACGTGGTGCGTAATTTCCTGCGCCAGCCGGTGAAAGCGCTGATCCTCCGCTCCTACGGCGTCGGCAATGCGCCGCAGAATGGCGAGTTTATTCAGGTGCTGGCGGAAGCCAGCCAGCGCGGCATTGTGGTGGTCAACTTGACGCAGTGCATGTCCGGGAAAGTGAACATGGGCGGCTATGCCACCGGCAATGCCCTCGCCCAGGCGGGAGTCATCAGTGGTTTCGATATGACGGTGGAAGCGACGCTGACCAAGCTACACTATCTGCTGAGCCAGCAGCTGGACGTTGACGCCATTCGCGCGGCGATGCAGCAGAATCTGCGTGGCGAACTGACCCCTGACGAAGCTTAA	MQKKSIYVAYTGGTIGMQRSEHGYVPVSGHLQRQLALMPEFHRPEMPDFTIHEYHPLMDSSDMTPEDWQHIADDIRSHYEEYDGFVILHGTDTMAFTASALSFMLENLGKPVIVTGSQIPLAELRSDGQINLLNALYVAANYPINEVALFFNNRLFRGNRTTKAHADGFDAFASPNLAPLLEAGIHIRRLGTPPAPQGCGELIVHPITPQPIGVVTIYPGISADVVRNFLRQPVKALILRSYGVGNAPQNGEFIQVLAEASQRGIVVVNLTQCMSGKVNMGGYATGNALAQAGVISGFDMTVEATLTKLHYLLSQQLDVDAIRAAMQQNLRGELTPDEA	PGPT0020180_1584	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
BMS020_05868	1854	sppA_1	COG0616	Protease 4	ATGCGAACCCTTTGGCGACTGATTGCCAGCTTTTTTAAATGGACGTGGCGGATACTCAACTTTATTCGCAAACTGGCCCTCAATGCGATCTTCCTGGTGCTGGTGCTGGTGTGTATCGGCATCTGGAGCCAGTTCAGCAGCACCACCAGCGAACATACCGCGCGCGGCGCGCTGCTGCTGGATATTACCGGCGTGGTGGTGGATAAACCGTCCGCCAGCAGCAAGCTCGGCGTAATTGGCCGCCAGCTGTTTGGCGCCAGCTCGGACCGTCTGCAGGAGAATTCTCTGTTCGATATCGTGCAGACCATCCGTCAGGCGAAGGATGACCGTAATATCACCGGTATTGTGCTGGATCTGAAAAACTTCGTCGGCGGCGATCAGCCCTCCATGCAGTACATCGGTAAAGCGCTGCGCGAATTCCGCGACAGCGGCAAACCGGTGTATGCCGTCGGCAGCAGCTACAGCCAGGGCCAGTACTACCTGGCGAGCTTTGCCAACAAAATCTGGCTCTCTCCGCAGGGCGAGGTGGACCTGCACGGCTTCGCCACCAACGGGCTGTACTACAAGTCGCTGCTGGATAAGCTGAAAGTCTCCACCCATGTCTTCCGCGTCGGCACCTATAAATCCGCCGTCGAGCCTTTCATTCGCGATGACATGTCCCCTGCCGCCCGCGAAGCGGACAGCCGCTGGATTGGCGAACTGTGGCAGAACTACCTCAACACCATCGCCGCCAACCGGCAGATCACCGCCCAGCAGCTCTTCCCGGGCGCCCAGGGCATTATCGATGGCCTGCGTAAGGTGGGCGGCGATACGGCGAAATATGCGCTGGACAATAAGCTGGTGGATGAGCTGGCGACCTCCACGGAAGTGGAAAAGGCGCTGACCAAACAGTTTGGCTGGAGCAAAGCGGATAACAATTACCGGGCGATCAGCTATTACGACTACAACGTAAAGACACCGTCTGACCAGGGTTCCGCCATCGCGGTGATCTTCGCCAACGGCGCCATCATGGACGGCGAGGAGACCCCGGGCAACGTTGGCGGCGACACCACCGCCGCGCAAATTCGCGATGCGCGCCTCGACCCGAAAATTAAGGCCATCGTCCTGCGCGTCAACAGCCCGGGCGGCAGCGTGACCGCCTCGGAAATCATTCGCGAAGAGCTGGCGGCAGCCAAAGCCGCGGGTAAACCGGTGGTCGTTTCAATGGGCGGCATGGCGGCCTCCGGCGGCTACTGGATCTCCACGCCGGCGGACTACATTGTCGCGAACCCAAGCACCCTCACTGGCTCCATCGGCATCTTTGGGGTGATCAACACCGTGGAAAACACCCTCGGGTCGATTGGCGTCCATACCGACGGCGTCGCCACGTCGCCGCTGGCGGATATCTCCAGCACCAAAGCGCTGCCGCCGGAAGTGCAGCAGCTGATGCAGTTGAGCATTGAGAACGGCTATCAACGCTTTATCACCCTGGTGGCTAACGCGCGTAAGAGCACGCCGGAGAAAATCGACCAGATTGCCCAGGGCCACGTCTGGACCGGGGAAGATGCCAAAGCCAACGGTCTTGTCGACAGCCTCGGCGACTTCGACGACGCGGTGGCCAAGGCCGCCGAGCTGGCGAAGCTGAAAACCTGGCACCTCAACTACTATCAGGAAGAGCCCACCTTCTTCTCGATGGTGCTGGACAGCCTGACCGGTTCGGTACGCGCCTCGCTGCCGGCCGCCATTCAGGCCTGGCTGCCTGCCCCGGTGGCCGCGGCAGCCGAGACGGTGAAAGCCGAAAGCGACAAGCTGGCGGCGTTTAACGACCCTCAGAACCGCTATGCCTTCTGCCTGACCTGCGCCAACATCCGTTAA	MRTLWRLIASFFKWTWRILNFIRKLALNAIFLVLVLVCIGIWSQFSSTTSEHTARGALLLDITGVVVDKPSASSKLGVIGRQLFGASSDRLQENSLFDIVQTIRQAKDDRNITGIVLDLKNFVGGDQPSMQYIGKALREFRDSGKPVYAVGSSYSQGQYYLASFANKIWLSPQGEVDLHGFATNGLYYKSLLDKLKVSTHVFRVGTYKSAVEPFIRDDMSPAAREADSRWIGELWQNYLNTIAANRQITAQQLFPGAQGIIDGLRKVGGDTAKYALDNKLVDELATSTEVEKALTKQFGWSKADNNYRAISYYDYNVKTPSDQGSAIAVIFANGAIMDGEETPGNVGGDTTAAQIRDARLDPKIKAIVLRVNSPGGSVTASEIIREELAAAKAAGKPVVVSMGGMAASGGYWISTPADYIVANPSTLTGSIGIFGVINTVENTLGSIGVHTDGVATSPLADISSTKALPPEVQQLMQLSIENGYQRFITLVANARKSTPEKIDQIAQGHVWTGEDAKANGLVDSLGDFDDAVAKAAELAKLKTWHLNYYQEEPTFFSMVLDSLTGSVRASLPAAIQAWLPAPVAAAAETVKAESDKLAAFNDPQNRYAFCLTCANIR	PGPT0030320_785	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5a_AUTOTRANSPORTER_SECRETION,PGPT0030320-pspA-K04773	NA	NA
BMS020_05869	552	ydjA_2	COG0778	Putative NAD(P)H nitroreductase YdjA	ATGGATGCTCTCGACCTACTGCTTAATCGCCGCAGCGCTTCCCGCCTGGCGGAACCGGCCCCGGCCGGCGAACAGCTGGAAAACATTCTGCGCGCCGGGCTGCGCGCCCCGGATCATGGCGCCCTGCAGCCGTGGCGCTTTTTCATTATCGCCGATGACGGCCGCGAACGCTTTAGTCAGCTGCTGGAAAAGGGGGCCCGGGAGGCCGGCCAGGATGAGAAGGGCATAGAGAAAGCCCGCAATGCGCCGTTTCGCGCGCCGCTGATCATTACCGTAGTGGCGCGCTGTGAAGACCACCCGAAGGTGCCGCGCTGGGAGCAGGAGATGTCCGCTGGCTGCGCGGTGATGGCGATGCAGATGGCGGCCCTGGCCCAGGGATTCAACGGCATCTGGCGCAGCGGAGCATTGACCGAGAGCCCGGTGGTGCGGGCCGGCTTCGGGTGCCGCGAGCAGGATAAAATCGTCGGCTTCCTCTATCTGGGCACGCCGCAGCTGAAAGCCTCAACCACCATTGCCCTGCCGGATACCGCGCCGTTTGTGACGAGATTCTGA	MDALDLLLNRRSASRLAEPAPAGEQLENILRAGLRAPDHGALQPWRFFIIADDGRERFSQLLEKGAREAGQDEKGIEKARNAPFRAPLIITVVARCEDHPKVPRWEQEMSAGCAVMAMQMAALAQGFNGIWRSGALTESPVVRAGFGCREQDKIVGFLYLGTPQLKASTTIALPDTAPFVTRF				NA	NA	NA	NA	NA
BMS020_05870	747	phoC_2		Major phosphate-irrepressible acid phosphatase	ATGAAAAAGCGTGTTCTTGCCCTTTGCCTGGCCAGTTTCTTCTCCGTTAACGCCTTCGCGCTGGTTCCCCCCGGTAACGATGTCACCACCAAGCCCGATCTCTACTATCTGACCAATGCCCAGGCTATCGACAGCCTGGCGCTGTTGCCGCCGCCGCCGGCGGTGGGCAGTATCGCGTTCTTAAACGATCAGGCGATGTATGAGCAGGGGCGCCTGCTGCGCAATACCGAGCGCGGGAAGCTGGCGGCAGAGGATGCCAACCTCAGCGCGGGCGGCGTGGCTAACGCCTTCTCCAGCGCCTTTGGCTCGCCGATCACCGAAAAGGACGCGCCGCAGCTCCATAAGCTGTTGACCAATATGATTGAAGACGCCGGCGATCTGGCGACCCGCGGCGCGAAAGAGAAGTATATGCGCATTCGCCCGTTTGCCTTCTACGGTGTCTCCACCTGCAACACCACCGAGCAGGACAAGCTGGCGAAAAACGGCTCTTACCCATCCGGGCATACCTCCATCGGCTGGGCCACCGCCCTGGTGCTGGCAGAGATCAACCCGCAGCGGCAGAACGAAATTTTGAAGCGCGGCTATGAGCTCGGCGAGAGCCGGGTGATCTGCGGCTATCACTGGCAGAGCGATGTCGATGCGGCGCGCATCGTCGGCTCCGCGGTGGTCGCCACGCTGCACACCAACCCGGCCTTCCAGCAGCAGTTGCAGAAAGCCAAAGACGAATTCGCCAAAACGCAGAAGTAA	MKKRVLALCLASFFSVNAFALVPPGNDVTTKPDLYYLTNAQAIDSLALLPPPPAVGSIAFLNDQAMYEQGRLLRNTERGKLAAEDANLSAGGVANAFSSAFGSPITEKDAPQLHKLLTNMIEDAGDLATRGAKEKYMRIRPFAFYGVSTCNTTEQDKLAKNGSYPSGHTSIGWATALVLAEINPQRQNEILKRGYELGESRVICGYHWQSDVDAARIVGSAVVATLHTNPAFQQQLQKAKDEFAKTQK	PGPT0002555_327	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0002555-phoN|phoC-K09474	NA	NA
BMS020_05871	1044	selD	COG0709	Selenide, water dikinase	ATGAGCGAGCAAGCCATTCGTTTAACGCAATACAGCCACGGAGCCGGTTGTGGTTGTAAAATTTCCCCGAAAGTGCTGGAAACCATCCTGCATAGCGAGCAGGCGAAGTTTGTCGACCCGAACCTGCTTGTCGGCAACGAAACCAGCGATGATGCCGCCGTTTACGATCTTGGTAATGGCACGTCAATCGTCAGCACCACCGACTTCTTTATGCCGATTGTCGATAATCCGTTCGACTTTGGCCGCATTGCCGCCACCAACGCCATCAGCGATATTTTCGCCATGGGCGGGAAACCGATTATGGCGATTGCTATTCTCGGCTGGCCGATCAACACCCTGGCGCCGGAAATCGCCCGCGACGTGGTGGAGGGCGGGCGCTTTGCCTGCCAGCAGGCCGGGATCGCGCTGGCGGGTGGCCACTCCATTGACGCTCCGGAGCCGATCTTTGGGCTGGCGGTCACCGGTGTGGTGCCCACCGAGCGCATCAAGAAAAACAGCACCGCGCAGGCGGGCTGCAAACTGTATCTCACCAAACCGCTGGGGATCGGCGTGCTGACCACCGCGGAGAAAAAATCGCTGCTCAAGCCAGAGCATCAGGGGCTGGCGACGGAGACCATGTGCCAGATGAACCTCGCCGGCGCCGCGTTTGCCGCTATCGACGGGGTGAAGGCGATGACCGACGTCACCGGCTTTGGCCTGCTCGGCCACCTCAGCGAGGTGTGCCGCGGGGCCGGCGTGCAGGCGCAACTGCGCTATGCCGATATCCCGAAACTGCCGGGGGTGGAGGAGTATATCGCCGCCGGCGCGGTGCCGGGCGGCACCGGGCGCAACTTTGCCAGCTACGGCCATTTGATGGGCGAGATGCCGACGGAGTGGCGCGATCTGCTGTGCGACCCACAGACCTCAGGCGGTCTGCTGCTGGCGGTGACCCCGGAGGCGGAGGCGGAAGTCCAGGCCGCCGCGGCGGAGTTCGGTATTAAGCTGGCCGCCATCGGCGAGCTGGTGACCGCCCGCGGCGGGCGACCGATGATCGAGATCCGTTGA	MSEQAIRLTQYSHGAGCGCKISPKVLETILHSEQAKFVDPNLLVGNETSDDAAVYDLGNGTSIVSTTDFFMPIVDNPFDFGRIAATNAISDIFAMGGKPIMAIAILGWPINTLAPEIARDVVEGGRFACQQAGIALAGGHSIDAPEPIFGLAVTGVVPTERIKKNSTAQAGCKLYLTKPLGIGVLTTAEKKSLLKPEHQGLATETMCQMNLAGAAFAAIDGVKAMTDVTGFGLLGHLSEVCRGAGVQAQLRYADIPKLPGVEEYIAAGAVPGGTGRNFASYGHLMGEMPTEWRDLLCDPQTSGGLLLAVTPEAEAEVQAAAAEFGIKLAAIGELVTARGGRPMIEIR	PGPT0004820_1298	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004820-selD-K01008	NA	NA
BMS020_05872	1947	topB	COG0550	DNA topoisomerase 3	ATGCGGTTGTTTATTGCAGAAAAACCGAGTCTCGGTCGGGCTATCGCCGATGTGTTGCCTAAACCGCACCGCAAAGGCGATGGCTATATTGAGTGCGGCAACGGGCAGGTGGTCACCTGGTGTATCGGCCATCTGCTGGAGCAGGCGCAGCCGGACGTCTATGACAGCCGCTATGCCCGCTGGAATCTCACCGACCTGCCGATTGTGCCGGAGAAATGGCAGCTGCAGCCCAAACCTTCGGTCACCAAACAGCTGAATGTGATCAAGCGCCTGCTCGGCGACGCCGAGGAGGTTATCCACGCTGGCGACCCCGACCGTGAGGGGCAACTGCTGGTGGACGAGGTCCTCGACTACCTGCAGCTGGCGCCGGAGAAGCGCCAGCAGGTGCAGCGCTGTCTGATAAACGATCTCAACCCGCAGGCGGTGGAGCGGGCGATCAACCGCCTGCGCGCCAACAGCGAGTTTGTGCCACTTTGCGTGTCGGCGCTGGCGCGGGCGCGCGCCGACTGGCTGTACGGCATCAATATGACCCGGGCCTATACTCTGCTGGGGCGCAACGCCGGCTATCAGGGAGTGCTCTCCGTGGGGCGGGTGCAGACCCCGGTGCTCGGCCTGGTGGTGCGCCGCGATGAAGAGATTGAAAACTTCGTCGCCAAAGATTTCTTCGACGTCAAAGCGCATATCGTCACGCCGCAGGAGGAGCGCTTTGTCGCGACCTGGGTGCCGAGCGAAGCCTGTGAACCTTACCAGGATGAAGAAGGGCGCCTGCTGCATCGTCCGCTGGCCGAGCACGTGGTTAAGCGTATCGAAGGCCAGCCGGCGCTGGTGACCGGCTATAACGATAAGCGCGATTCCGAACCCGCGCCGCTGCCGTTTTCGCTGTCGGCGCTGCAGATTGAGGCGGCCAAACGTTTCGGCTTCAGCGCGCAAAACGTGCTGGATATCTGCCAGAAGCTGTATGAAACCCACAAGCTCATCACCTATCCGCGTTCGGACAGCCGCTACCTGCCGGAAGAGCATTTCGCCGGCCGCCATGCGGTGCTGAATGCGATTGCCGTCCATGCGGCGGATCTGCTGCCGCAGCCGGTGGTGGATCCGGAGATCCGCAACCGCTGCTGGGATGATAAAAAGGTCGACGCGCACCATGCGATTATCCCGACTGCCCGCAGCAGCCAGGTCAAACTCACCGATAACGAAGCGAAGGTCTACACCCTGATCGCCCGGCAGTATCTGATGCAGTTCTGCCCTGACGCGGTGTTCCGTAAATGCCAGATTGACCTTGAGATCGCCAACGGTAAATTTGTCGCCAAAGCGCGTTTTCTGGCCGAGGCGGGCTGGCGGACGCTGCTTGGCAGCAAAGAGCGCGATGAAGAGAACGACGGCACGCCGCTGCCGGTGGTGGCCAAAGGCGATGAACTGCTGTGCGAGAGGGGCGAGGTGGTGGAGCGCCAGACGCAGCCGCCGCGCCACTTTACCGACGCCACGCTGCTGTCGGCGATGACCGGGATTGCCCGCTTCGTGCAGGATAAAGATCTGAAGAAGATCCTCCGCGCCACCGACGGCCTCGGCACCGAAGCAACCCGCGCCGGGATTATCGAACTGCTGTTTAAGCGCGGTTTCCTGAGCAAAAAGGGGCGCTATATTCACTCCTCGGAGGCCGGAAGGGCGCTGATTCATTCCCTGCCGGAGATGGCCGGGCGACCGGACATGACCGCCCACTGGGAGTCGGTATTGACGCAAATCAGCGAGAAACAGTGCCGCTATCAGGATTTTATGCAGCCGCTGGTGGGGACGCTGTATCAGCTGATCGAGCAGGCGCGCAGCACGCCGGTGCGCCAGTTCCGCGGTCTGGTGGCGCCTGGCGGGGCGAAAAAATCCTTCAGTAAGGGCAAAGGCAAAGCGAAAGGCAAAAAAGCGGCAGACGATGCCGCGCCGCCGCCGCAATAA	MRLFIAEKPSLGRAIADVLPKPHRKGDGYIECGNGQVVTWCIGHLLEQAQPDVYDSRYARWNLTDLPIVPEKWQLQPKPSVTKQLNVIKRLLGDAEEVIHAGDPDREGQLLVDEVLDYLQLAPEKRQQVQRCLINDLNPQAVERAINRLRANSEFVPLCVSALARARADWLYGINMTRAYTLLGRNAGYQGVLSVGRVQTPVLGLVVRRDEEIENFVAKDFFDVKAHIVTPQEERFVATWVPSEACEPYQDEEGRLLHRPLAEHVVKRIEGQPALVTGYNDKRDSEPAPLPFSLSALQIEAAKRFGFSAQNVLDICQKLYETHKLITYPRSDSRYLPEEHFAGRHAVLNAIAVHAADLLPQPVVDPEIRNRCWDDKKVDAHHAIIPTARSSQVKLTDNEAKVYTLIARQYLMQFCPDAVFRKCQIDLEIANGKFVAKARFLAEAGWRTLLGSKERDEENDGTPLPVVAKGDELLCERGEVVERQTQPPRHFTDATLLSAMTGIARFVQDKDLKKILRATDGLGTEATRAGIIELLFKRGFLSKKGRYIHSSEAGRALIHSLPEMAGRPDMTAHWESVLTQISEKQCRYQDFMQPLVGTLYQLIEQARSTPVRQFRGLVAPGGAKKSFSKGKGKAKGKKAADDAAPPPQ				NA	NA	NA	NA	NA
BMS020_05873	981	qorA_2	COG0604	Quinone oxidoreductase 1	GTGAAATATATCGCTATCAGCCAACCGGGCGGCCCGGAAGTATTGCAGATCCGCGAAGGTGAGATCCCCACCGTCGGGGAGCATGAGGTGCTCATCGAGGTGAAAGCGGCGGGCGTCAACCGGCCGGATATTCTGCAGCGCCAGGGGCTGTATCCCATGCCTGAGGGCGTCACCCCCGTGCCCGGCCTCGAGGTGGCGGGCGTGGTCGTGAAGGTCGGCGCGCAGGTCACGACCTTTGCCCCCGGGGATCGCGTCTGTGCGCTCACCAACGGCGGCGGGTATGCCGAATACTGCGCCGTCCCGGCAGGCCAGACGCTGCCGATCCCGGCGGGCCTCAGCTTTAGCGAAGCGGCCGCCATTCCGGAAACCTTCTTCACCGTGTGGGCGAACGTTTTCCAGCTCGGTAAGCTGCAGTCCGGCGAGAGCATTCTGATCCACGGCGGCGCCAGCGGGATTGGCACCACCGCGGTCCTGCTGTGTCACGCGCTGGGGATGAGCGTCTATGCCACCGTCGGCCAGGACGAAAAAATTGCCGCGCTGCGACCCTACGCCACGGCGATCAACTACAAAACCGAAGATTTCGCAGAGAAAATTCACCAACTGACCAACGATGAAGGGGTGGATGTCATTCTGGATATCGTGGGCGGCCCTTACTTTAACCGCAACCTGGGGCTACTGAAAAAGGACGGACGGCTGGTGATCATCGGCTTTATGGGCGGGCGAATCGCTCATGAGGTGGATATTCAGACCCTGATGCTCAAGCGGGCCACCGTCACCGGCTCCACCATGCGCGGCCGGACGGCGGCGGAGAAACAGGAGATTGCCGAGGCGCTGCGGCGCCACGTCTGGCCGCTGCTTGAGGCAGGGAAATGCAAGCCGATGATCTACGCCAGCTACCCGATGGCGGAGATTGCCGAGGCGCATGCCTGTCTGGACAGTGGTCAACATCTGGGGAAAGTGGTGATCACGATGACGTCGTGA	MKYIAISQPGGPEVLQIREGEIPTVGEHEVLIEVKAAGVNRPDILQRQGLYPMPEGVTPVPGLEVAGVVVKVGAQVTTFAPGDRVCALTNGGGYAEYCAVPAGQTLPIPAGLSFSEAAAIPETFFTVWANVFQLGKLQSGESILIHGGASGIGTTAVLLCHALGMSVYATVGQDEKIAALRPYATAINYKTEDFAEKIHQLTNDEGVDVILDIVGGPYFNRNLGLLKKDGRLVIIGFMGGRIAHEVDIQTLMLKRATVTGSTMRGRTAAEKQEIAEALRRHVWPLLEAGKCKPMIYASYPMAEIAEAHACLDSGQHLGKVVITMTS	PGPT0013255_5532	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
BMS020_05874	1344	gdhA_2	COG0334	NADP-specific glutamate dehydrogenase	ATGGATCAGACGTGCACTCTGGAAGGCTTTCTCACCCGCGTTCAACAGCGCGATCCTCATCAAACCGAATTTGCTCAAGCCGTCCGGGAGGTCATGACCACCCTGTGGCCATTCCTTGAGGAAAATCCGCGCTATCGTCAGCTTGCTTTGCTGGAACGTCTGGTGGAACCGGAGCGCGTGATCCAGTTCCGCGTGGTGTGGGTGGACGACCGCAATCAGGTCCAGGTCAACCGCGCGTGGCGCGTGCAGTTCAACTCGGCCATCGGCCCGTATAAGGGCGGGATGCGCTTCCATCCGTCGGTGAATCTGTCGATTCTCAAATTCCTTGGCTTCGAGCAGACCTTCAAAAACGCCCTGACCACCCTGCCGATGGGCGGCGGGAAAGGCGGCAGCGATTTCGATCCTAAAGGCAAGAGCGATGGCGAAGTGATGCGCTTCTGCCAGGCGCTGATGACCGAGCTCTATCGCCATCTTGGCCCGGATACCGACGTACCGGCAGGCGATATCGGCGTCGGCGGCCGCGAGGTCGGCTTTATGGCCGGCATGATGCGCAAACTCTCTAACAACAGCGCCTGCGTCTTCACCGGTAAAGGCCTCTCCTTCGGCGGCAGCCTGATCCGTCCGGAAGCCACCGGTTACGGCCTGATCTACTTCACCGAAGCAATGCTCAAACGTCACGGCCTCGGCTTCGAAGGCGCTCGCGTGGCGGTCTCCGGCTCCGGCAACGTCGCGCAATACGCCATTGAGAAAGCGATGGAGCTTGGCGCGCGGGTGGTCACCGCCTCCGACTCCAACGGCACCGTCGTTGACGAGGCGGGCTTCACCAAAGAAAAACTGGCCCGCCTGATCGACATCAAAGAGCGTGCCCACGGCCGGGTGGCCGACTACGCCCGCGAGTTTGGCCTCACCTATCTCGAAGGCCAGCAGCCATGGTCAGTGCCGGTGGATATCGCCCTGCCTTGCGCCACTCAGAACGAACTGGACGTCGATGCCGCCCGCCAGCTGATTGCCAACGGCGTGAAGGCCGTGGCGGAAGGCGCCAACATGCCGACCACCATCGCCGCAACCGATCTGTTCCTTGAAGCTGGCGTGCTGTTTGCCCCGGGCAAAGCGGCCAACGCCGGCGGCGTGGCGACGTCCGGTCTGGAGATGGCGCAGAACGCCGCGCGCATGGGCTGGAAAGCGGAAAAAGTGGATGCTCGCCTGCATCACATTATGCTGGATATCCACCACGCCTGCGTGCAGTACGGCGGTGAAGCGAAGCAGACCAACTACGTGCGCGGCGCCAATATCGCCGGTTTCGTGAAGGTGGCGGATGCCATGCTGGCCCAGGGCGTGATTTAA	MDQTCTLEGFLTRVQQRDPHQTEFAQAVREVMTTLWPFLEENPRYRQLALLERLVEPERVIQFRVVWVDDRNQVQVNRAWRVQFNSAIGPYKGGMRFHPSVNLSILKFLGFEQTFKNALTTLPMGGGKGGSDFDPKGKSDGEVMRFCQALMTELYRHLGPDTDVPAGDIGVGGREVGFMAGMMRKLSNNSACVFTGKGLSFGGSLIRPEATGYGLIYFTEAMLKRHGLGFEGARVAVSGSGNVAQYAIEKAMELGARVVTASDSNGTVVDEAGFTKEKLARLIDIKERAHGRVADYAREFGLTYLEGQQPWSVPVDIALPCATQNELDVDAARQLIANGVKAVAEGANMPTTIAATDLFLEAGVLFAPGKAANAGGVATSGLEMAQNAARMGWKAEKVDARLHHIMLDIHHACVQYGGEAKQTNYVRGANIAGFVKVADAMLAQGVI	PGPT0000690_1949	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
BMS020_05875	411	nudG	COG0494	CTP pyrophosphohydrolase	ATGCTAAAAATGATTGAAGTTGTCGCCGCCATTATTGAACAGGATGGCAAAATTCTGCTGGCGCAGCGCCCGCCCCACGCCGACCAGCCGGGAATGTGGGAATTCGCCGGCGGCAAAGTGGAGCCTGGTGAAAGCCAGCCGCAGGCGCTGGCCCGGGAGCTGCGGGAGGAGATGGGCATCATCGCCCACCCGGCATGCTATATCGCCAGCCATCAGCGGGAAGTCTCCGGTCGCCAGATCCATCTGCACGCCTGGTGGGTACCGAACTTTCAGGGCGCGCCGCTGGCCCACTATCACAGCCAGCTGCGCTGGTGCCTTCCTGCCGACGCCTTAACCCTCGATCTCGCCCCGGCCGATATCCCCCTCCTGCACGCCTTTATCGCCCAGCGACCGTCCCTTTCTCCCCGCTGA	MLKMIEVVAAIIEQDGKILLAQRPPHADQPGMWEFAGGKVEPGESQPQALARELREEMGIIAHPACYIASHQREVSGRQIHLHAWWVPNFQGAPLAHYHSQLRWCLPADALTLDLAPADIPLLHAFIAQRPSLSPR	PGPT0021430_118	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021430-nudG-K08320	NA	NA
BMS020_05876	615	ynjF	COG0558	Inner membrane protein YnjF	GTGCTTGATAGCCACTTGCATCCTCGCCTCAAACCTCTGCTTAACGCTGCCGCCGGCGCGCTTGACCGCCCGGGCATTTCGCCAGACGGGCTGACGCTGCTCGGTTTTGCCATCGGCGCGCTGGCTCTGCCATTTCTGGCATTAGGGTGGTATGGCGCGGCGCTGGCGGCCATTCTTCTCAACCGCCTGCTGGACGGCCTGGACGGCGCCCTGGCGCGGCGGCGCGGGCTTAGCGACGCCGGCGGTTTTCTCGATATCTCACTGGATTTTCTCTTCTATGCCCTGGTGCCGTTCGGTTTTATCCTGGCGGATCCGCAAAATAACGCCCTGGCGGGCGGCTGGCTGCTGTTTGCCTTTATCGGCACCGGCAGCAGCTTTCTCGCCTTTGCCGCGCTGGCGGCAAAGCACCAGATCGCCAATCCCGGCTATGCCCATAAATCGCTGCACTATCTCGGGGGGCTGACGGAGGGGACGGAGACTATCCTGCTGTTTGTCCTCAGCTGCTTGTTTCCGGCGCATTTCGCCTGGCTGGCGTGGCTGTTTGGCGCGCTATGCTGGCTGACGACGGCGACGCGTATCGCCAGCGGCTACCGGACCTTAAAGCGGGTGGCGTGA	MLDSHLHPRLKPLLNAAAGALDRPGISPDGLTLLGFAIGALALPFLALGWYGAALAAILLNRLLDGLDGALARRRGLSDAGGFLDISLDFLFYALVPFGFILADPQNNALAGGWLLFAFIGTGSSFLAFAALAAKHQIANPGYAHKSLHYLGGLTEGTETILLFVLSCLFPAHFAWLAWLFGALCWLTTATRIASGYRTLKRVA	PGPT0007705_2324	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995	NA	NA
BMS020_05877	1308	ynjE	COG2897	Thiosulfate sulfurtransferase YnjE	ATGAAACGTGTTTCTCAATTGACCGCACTCGCCCTGCTCATGGGGCTTGCTGCTACCACCACCTGCGCCGCTGAAACCATGCCAGCGCTCACCCTCTCCCACCTGCAACAGCAGCACGGCGTGGCCATCGACACCCGCCTGAGCGCTTATTACAACGGCTGGCCGCAGCACGTCAACGGCCCGGAAGGTCATGAGCCGCAGGCGCTGAACCTTTCCGCCCGCTGGCTCGGCGCCATGAGCGACGAGCAGCTCCACAGCTGGGCTAAACAGCACCAGCTCCAGCCCGATACCCCCATCGCGCTGTACGGCAGTCCTGAGGATAACGCCAGCGTCGCGGCGCGACTGAAACAAGCGGGCTTCACCCGGCTCAACGTCCTGAGCGACGCTCTGAGCCAGGGCGACCGTCTGCAAAAGCTGCCGCACTTTGAACAGCTGGTCTACCCGCAGTGGCTGCACGATCTGCAGCAAGGGAAAAGCGTGGCTGCCGCCCCGGCCGGCGACTGGAAAGTGTTTGAGGCCGCCTGGGGAGCGCCGAAGCGCTATCTGCTGAGCCATATCCCGGGCGCGGGCTATATCGACACCAATGAGGTGGAGAGCGAACCGCTGTGGAATAAAGTGTCCGATGCACAGCTGAAGGCGATGCTGGCGAAGCACGGCATCCGCCATGACACCACGGTGATCCTCTACGGTCGCGACGTCTACGCCGCGGCGAGGGTGGCGCAGATCATGCTGTACGCCGGCGTCAAAGACGTGCGCCTGCTGGACGGCGGCTGGCAGACCTGGTCCGACGCCGGTCTGCCGGTGGCGCGCGGCATGCCGCCGACGCCGCAGCCGGCGCCGGATTTTGGCGCGCCGATCCCCGGCCAGCCGCAGCTGATGCTGGATACCGGGCAGGCCCGCGGTCTGCTGCACCGCCAGGACGCCTCGCTGGTCAGCGTCCGCTCGTGGCCGGAGTTTATCGGCACCACCAGCGGCTACAGCTATATCAAACCGAAGGGCGACATCGCCGGCGCCCGCTGGGGCCATGCCGGAAGCGACTCCACGCACATGGAAGACTTCCATAACCCGGACGGCACCATGCGCAGCGCCGACGATATCGCCGCCCTGTGGCGCCAGTGGAACATCCTGCCTGACCAACAGGTGGCGTTCTATTGCGGAACCGGCTGGCGGGCCTCGGAAACCTTCATGTATGCCCGGGCCATGGGCTGGCCGCACGTCGCCGTCTATGACGGCGGCTGGTACGAATGGAGCAGCAACCCGCACAATCCGGTCGCCCGCGGAGAACGCGGCCCGGAAAGCAGTCAGTAA	MKRVSQLTALALLMGLAATTTCAAETMPALTLSHLQQQHGVAIDTRLSAYYNGWPQHVNGPEGHEPQALNLSARWLGAMSDEQLHSWAKQHQLQPDTPIALYGSPEDNASVAARLKQAGFTRLNVLSDALSQGDRLQKLPHFEQLVYPQWLHDLQQGKSVAAAPAGDWKVFEAAWGAPKRYLLSHIPGAGYIDTNEVESEPLWNKVSDAQLKAMLAKHGIRHDTTVILYGRDVYAAARVAQIMLYAGVKDVRLLDGGWQTWSDAGLPVARGMPPTPQPAPDFGAPIPGQPQLMLDTGQARGLLHRQDASLVSVRSWPEFIGTTSGYSYIKPKGDIAGARWGHAGSDSTHMEDFHNPDGTMRSADDIAALWRQWNILPDQQVAFYCGTGWRASETFMYARAMGWPHVAVYDGGWYEWSSNPHNPVARGERGPESSQ				NA	NA	NA	NA	NA
BMS020_05878	633	fbpC2	COG3842	Fe(3+) ions import ATP-binding protein FbpC 2	GTGCTAACCGTAAACCATCTGACCCTGAGCGTGAAACGTCAGCCGCTGCTGCGGGAGGTCGCCTTCTCGGTGGCCCCGGGTGAAGTGCTGACGCTGATGGGCCCTTCCGGCAGCGGAAAATCGACGCTGTTTGCATGGATGATTGGCGCTCTGGCCGGCGACTTCCGCGCCGAGGGCGAGCTGTGGCTCAACGATCGGCGCTGCGATACGCTGCCGACGGAGCGCCGGCGCATCGGCATCCTGTTTCAGGACCCGTTGCTGTTCGACCATTTCAGCGTCGGGCAAAATTTACAGCTGGCGCTACCGGAAAGCGTGCGCGGCGAGGCGCGAAAAGCCGCGGTGGAGCAGGCGCTCAGTCGCGCCGGGCTGCATGGATTCGCCGCGCGCGACCCGGCCACGCTCTCCGGCGGACAGCGGGCGCGGGTGAGTCTGCTGCGCGCCCTGCTGGCGCGCCCCGAGGCGCTGCTGCTGGATGAGCCCTTCAGCCGCCTGGATGCCACCCTGCGCGCCGCGTTCCGCCGCTGGGTATTTGAGGAACTGGCCCGCCAGGCCATTCCGGCGGTCCTGGTGACCCACGATCGCGAGGACTGTCCGCCGACGGGGCGGTGCCTGGCGATGGAGCGCTGGCAATGA	MLTVNHLTLSVKRQPLLREVAFSVAPGEVLTLMGPSGSGKSTLFAWMIGALAGDFRAEGELWLNDRRCDTLPTERRRIGILFQDPLLFDHFSVGQNLQLALPESVRGEARKAAVEQALSRAGLHGFAARDPATLSGGQRARVSLLRALLARPEALLLDEPFSRLDATLRAAFRRWVFEELARQAIPAVLVTHDREDCPPTGRCLAMERWQ	PGPT0009090_276	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009090-ABC_VB1X_A-K05779	NA	NA
BMS020_05879	1536	ynjC	COG4135	Inner membrane ABC transporter permease protein YnjC	ATGGCTGCGCCGCTACGGTACCCACTGATCCTGCTGGCCTGGGGGACGATGGCGGCAATCTATCTGCCCTTATTCCCCGCCGCCGCAGGGCTGGTGTGGCCGGCGCTCTCCCCGGTCCACTGGCGGGCGCTGTTCGCCGACCCGCAGCTGGGCCAGGCGCTGGCCGCCACCCTTGTTTCCACGCTGCTGTCCGTCGGCGGCGCGTTACTGATCGCCCTGACCATCGTCGCCGCCCTCTGGCCTTCGGCCCGCTGGCGGCGACTGGCTTCCCGCCTGCCCTTGCTGCTGGCGGTGCCCCATCTTGCCCTGGCGACGGCAGCGCTGCTGCTGTTCGCCGAAGGCGGCTGGATCTGGCAGCGGCTGCCGTTTTTGACGCCGCCGGTCGACCGGTACGGCATCGGGCTTGGCCTGACGATGGCCCTGAAAGAGAGCGCCTTTGTGCTGTGGGTGATCTACGGCCTGCTGGGGGAGGCGCGCCTCGCCGACCAGGCGACAGCGCTAAAGAGCCTCGGCTACGGCCGCTGGCAGTGCCTGCGCTGGCTGGTGCTGCCTGGGCTGCTGCCCGCCCTCGGCATGGTGCTGCTGGCAGCCGCGGCCTGGAGCCTGTCGACGGTAGACGTCGCCCTGGTGCTGGGGCCCGGCAATCCGCCCACCCTCGCCGTGCTGGCGTGGCAGTGGTTAAGCCAGGGCGATGACCTGCAGCAGGCGAAAGGGGCGCTGGCCAGCCTGCTGCTGCTGGCGATCCTCGGCGGGCTGGCGCTGGTCGCCTGGGGCGGATGGCGGCTACAGCGTCAACGTCTGCCCGATCTGCGCGGCGTTCGGCATCCCCATCCTCACGCCCTGCCCGGCCGCCTGCTGGCGAGTGCCCTGCCGCTGAGCGGCCTGCTGTGCGCGCTATTGCTGGCGGGGCTGGCGCGCTCGGCGCCGCCGCAGACCGTAGCATTGATTAACAGCCTTGGTCTGGCGCTGGCGGCCTGCGCCCTCGGCGCGGCCGTCTGCCTGCTGTGGCTGGCCTGCGGCCCGGCGCGGGGAGATGGCTGGATCTGGCTGCCGCTGGTGCTGCCGGCCCTGCCGCTGGCCGACGGCCAGTACCGGCTGGCGCTGTACGCCTGGCTAGACGGCGGATGGTGGACCGTCCTGTGGGGCCATCTGCTGTGGGTGGTGCCGTGGATGCTGTTTATTTTGCGCCCGGCCTGGCGCCAGCGCGATCCGCGGATGGCGGTGATCGCCCGCACGCTCGGCTGGGATCCCACGCGTATTTTCTGGCTGCTGACCCTGCCCTCGCTGACCCGCCCGCTGCTGACCGCCCTGGCGGTGGGTTTCTCGGTGAGCATTGCGCAGTATCTGCCAACGCTATGGCTGGGGGCAGGCCGTATCCCGACGCTCACCAGCCAGGCGGTGGCGCTCAGCAGCGGCGGCGAGGCGCAGACGCTCGCCGCCCAGGCGCTGTGGCAATTACTGCTGCCGGCGGTATGCTTTACCCTGACGGCCCTGCTGGCCTGGCTGGCGGGCCGCTATCGACGAGGACTTCGCTAG	MAAPLRYPLILLAWGTMAAIYLPLFPAAAGLVWPALSPVHWRALFADPQLGQALAATLVSTLLSVGGALLIALTIVAALWPSARWRRLASRLPLLLAVPHLALATAALLLFAEGGWIWQRLPFLTPPVDRYGIGLGLTMALKESAFVLWVIYGLLGEARLADQATALKSLGYGRWQCLRWLVLPGLLPALGMVLLAAAAWSLSTVDVALVLGPGNPPTLAVLAWQWLSQGDDLQQAKGALASLLLLAILGGLALVAWGGWRLQRQRLPDLRGVRHPHPHALPGRLLASALPLSGLLCALLLAGLARSAPPQTVALINSLGLALAACALGAAVCLLWLACGPARGDGWIWLPLVLPALPLADGQYRLALYAWLDGGWWTVLWGHLLWVVPWMLFILRPAWRQRDPRMAVIARTLGWDPTRIFWLLTLPSLTRPLLTALAVGFSVSIAQYLPTLWLGAGRIPTLTSQAVALSSGGEAQTLAAQALWQLLLPAVCFTLTALLAWLAGRYRRGLR	PGPT0009085_338	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009085-ABC_VB1X_P-K05778	NA	NA
BMS020_05880	1179	ynjB	COG4134	Protein YnjB	ATGCGCCGTTTGCGTGATTTCAGCCTTTGTCTGTACCTGCTGCTGCTCTGGCCGCTGGTGGTGAATGCCGACGACAGCTGGCGGCAGACCCAGACGGAAGCCCGTGGCCAGACCGTCTGGTTTAACGCCTGGGGCGGCGACCCGGCCGTTAACCGCTATCTGGCGTGGGTCAGCGAGGAGGTCAAACGCCACTACGCGATCGACCTGCGTATTGTCCCCATCGCCGACGCCGCCGACGCGGTGAAACGCATCCAGACTGAGGCGCAGGCTGGCCGTCGCCGCGGCGGTTCGGTGGATTTACTGTGGATCAACGGCGAAAACTTTCACACCCTAAAACAGGCCAACCTGCTGCTCACCGGCTGGGCCGAATCGCTGCCCAACTGGCGCTATGTCGATCGGCAAAAGCCGGTTCAGGAAGATTTTTCTGTCGCCACCGAGGGCGCCGAGTCGCCGTGGGGCAGCGCCCAGCTGACGTTTATCGCCCGCCGCGAACAAACCCCGCAGCCTCCCACCAGTCCGCAGGCGCTGCTGGCCTTCGCCAGAGCCCATCCGGGCAGCGTAACCTACCCGCGGCCACCGGACTTCACCGGTACCGCCCTGCTGGAGCAGCTGCTGCTCGCCCTCACCGACCAGCCTGCCGCCCTGCGCCAGCCGCCGCAGACGGCGACTTTCGCGGCGGTCACCGCCCCGCTGTGGCGCTATCTCGATGAGCTGCACCCGGCGCTGTGGCGGGCGGGCAAGGATTTCCCGGCGTCGCCGGCGCGGATGGACGCCATGCTCAACCAGGGCATCCTCCGCCTGTCGCTGACGTTTAATCCGCTCCATGCCCGGCAGAAGGCCGCCAGCGGGGAGTTACCGGCGGACAGCTACAGCTTCGGCTTTACCGGAGGGACCCTTGGCAACGTCCATTTCGTGACTATTCCGGCCAACGCGCGCGCCGTCGCCGCTGCCAAAGTGGTGGCCAATTTCCTGCTCTCCCCTGAGGCGCAATTGCGCAAGGCGGATGCCGCCGTCTGGGGCGATCCAAGCGTTCTGGACCCGCAGCGTCTACCTGACAAGCAGCGCCAGGCGCTGGCGGCCACCCTGCCGCAGGATCTGCCGCCGGTGCTTGCCGAGCCGCACGCGGCGTGGGTTGACGCACTGGAGCAGGAATGGCTGCGCCGCTACGGTACCCACTGA	MRRLRDFSLCLYLLLLWPLVVNADDSWRQTQTEARGQTVWFNAWGGDPAVNRYLAWVSEEVKRHYAIDLRIVPIADAADAVKRIQTEAQAGRRRGGSVDLLWINGENFHTLKQANLLLTGWAESLPNWRYVDRQKPVQEDFSVATEGAESPWGSAQLTFIARREQTPQPPTSPQALLAFARAHPGSVTYPRPPDFTGTALLEQLLLALTDQPAALRQPPQTATFAAVTAPLWRYLDELHPALWRAGKDFPASPARMDAMLNQGILRLSLTFNPLHARQKAASGELPADSYSFGFTGGTLGNVHFVTIPANARAVAAAKVVANFLLSPEAQLRKADAAVWGDPSVLDPQRLPDKQRQALAATLPQDLPPVLAEPHAAWVDALEQEWLRRYGTH	PGPT0009080_207	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009080-ABC_VB1X_S-K05777	NA	NA
BMS020_05881	561			hypothetical protein	ATGAGCTTACCCCCGCTGGATACTGTCCCCCTGATCCTTCGTCCGCAGGCCTGGCTGCACCGTCGTCATTACGGCCAGGTGCTGAGCCCCATTCGCTGGTGGGGACGGATCCCGTGGCTGTTTTACCTGGTCTCGCTGTTCGTGGGCTATATTGAACGCCGCCGCTCGCCGCTGGATCCGGTGCTGCGCTCGCTGGTCAGCGCCCGCATCGCCCAGCTGTGCCACTGCGAATTCTGCATCGATATCACCAGCATGACCCTCGCGGCGCGGAGCGGAGGTCGCGACAAACTGCTGGCGGTCGCCGACTGGCGCAACAGTACGCTGTTTAGCGAGCAAGAGCGTCTGGCGCTGACCTATGCCGAAGCCGCCAGCCAGACGCCGCCGGAGGTGGATGATGCCCTGCGCAGCGCGATGGCGGCGCATTTTGACGCCCGGGCGCTCACCGAGCTGACCGCCCTGATTGGCCTGCAAAATTTATCAGCGCGGTTCAACGCCGCGATGGCGATCCCGGCCCAGGGGCTGTGCAAGATCCCCCCCTCTTCCCCGCACAATAAGGAGTAA	MSLPPLDTVPLILRPQAWLHRRHYGQVLSPIRWWGRIPWLFYLVSLFVGYIERRRSPLDPVLRSLVSARIAQLCHCEFCIDITSMTLAARSGGRDKLLAVADWRNSTLFSEQERLALTYAEAASQTPPEVDDALRSAMAAHFDARALTELTALIGLQNLSARFNAAMAIPAQGLCKIPPSSPHNKE				NA	NA	NA	NA	NA
BMS020_05882	711	ydjZ_1	COG0398	TVP38/TMEM64 family inner membrane protein YdjZ	ATGACCCGACCTGATCGCCGTCACCTGCGCCGCGCCCGGCTGGCCCTCGCCGTGGTGGCCGTTGCCGCTCTGGCCGCCTGGCTGTGGTTCCCCGGCGGGCGAGCCTTTCTGCAGCACAGCCTGACGGCGCTAGCGTCGCTGGATCCCCAGCATGTTAAAGACTTTATCGCCGCCTGGGGGGCGCAGGCGGCGCTGGTCTCTTTTGCGCTGATGCTCCTCCAGGCGATCGTCGCCCCGCTGCCGGCCTTCCTGATCACCCTGGCGAACGCCGCGCTGTTCGGCGCCTTCTGGGGCGGCGCGCTGTCGTGGTTCAGCGCCATGGTCGGCGCCGGGCTCTGCTTCTGCATCGCCAGAGCGCTGGGGCGCGAGGTGGTGGAGAAACTCACCGGCCGCACGGTGCTGCGCAGCGTCGACGGCTATTTCGCCCGCTTTGGCCCGCAGACGATCCTGGTCTGTCGCCTGCTGCCGTTTGTCCCTTTTGATCCGGTCAGCTATGCCGCCGGACTGACTTCGCTGCGCTTCTGGCCCTTTATGCTGGCCACCGGCGTGGGACAGCTGCCGGCGACCATCGTCTATTCCTGGGCCGGGAGTCTGCTGACCGGAGGCGCCTTCTGGCTGGCCACTGGCCTTTCGCTGCTTTTTGCCCTGGCGGTGGTCATCTCCATCGCCAAAAATATTTACCGTGAACGTCATAAGAGATCGTCGCCATGA	MTRPDRRHLRRARLALAVVAVAALAAWLWFPGGRAFLQHSLTALASLDPQHVKDFIAAWGAQAALVSFALMLLQAIVAPLPAFLITLANAALFGAFWGGALSWFSAMVGAGLCFCIARALGREVVEKLTGRTVLRSVDGYFARFGPQTILVCRLLPFVPFDPVSYAAGLTSLRFWPFMLATGVGQLPATIVYSWAGSLLTGGAFWLATGLSLLFALAVVISIAKNIYRERHKRSSP				NA	NA	NA	NA	NA
BMS020_05883	519	ydjZ_2	COG0398	TVP38/TMEM64 family inner membrane protein YdjZ	TTGTGCCTGATCCCCGGCAGCCTGCTGGTGATCGCCGGCGGAATACTCTTCGGCCCGCTGACCGGCTCTCTGCTCTCGTTTGCCGCCGCCACTGTCGCCTCTTCGCTGTCGTTTTTGATCGCCCGCTGGCTTGGGCGCGATCTGCTGCAGCGCTATGTGGGCCATACCGCCGTCTTCCAGGCCATTGAGCGCGGTATCGCCCGCAGCGGCAGCGATTTTCTGATCCTCACCCGCCTGGTACCGCTCTTTCCCTACAACATTCAGAATTACGCCTACGGCCTGACGGCGATCCCCTTCTGGCCTTTTACCCTGATCTCTGCCGTGACCACCCTGCCGGGCCTGGTGATCTATTCGGTGATGGCCAGCGAACTGGCTCGCGAGGGGGCGACCTTCGCCTTCGCGCTCAAGCTGAGCCTCGCCGGCGGGCTGCTGTTTGCCCTGGTGCAGATGGGCAAACGGTTTGCCCGCGCCCGCCGTGTGGCAACGCCCGGCGAGGAGGTGCGCCATGACCCGACCTGA	MCLIPGSLLVIAGGILFGPLTGSLLSFAAATVASSLSFLIARWLGRDLLQRYVGHTAVFQAIERGIARSGSDFLILTRLVPLFPYNIQNYAYGLTAIPFWPFTLISAVTTLPGLVIYSVMASELAREGATFAFALKLSLAGGLLFALVQMGKRFARARRVATPGEEVRHDPT				NA	NA	NA	NA	NA
BMS020_05884	144			hypothetical protein	ATGGCGCAGGGTCTCCTGCAGCAGATGCAGGTGAGTCAGCAGATCGTGGAGACCGACGCGGTGGCTGATAACGGCCAGCGTGGCCGCCAGCGCGATGAGTCCCAGCCCTTTACCAATGGCCGGATGATGGCTTCTTTTTCATGA	MAQGLLQQMQVSQQIVETDAVADNGQRGRQRDESQPFTNGRMMASFS				NA	NA	NA	NA	NA
BMS020_05885	807	xthA_2	COG0708	Exodeoxyribonuclease III	ATGAAATTCGTCTCTTTTAATATCAACGGCCTGCGCGCCCGCCCACACCAACTGGCCGCCATCGTCGAAAAGCACCAGCCGGACGTGATTGGCCTGCAGGAAACCAAAGTTCACGACGATATGTTCCCTCTCGAAGAGGTCGCCAGACTCGGCTATAACGTCTTTTATCACGGCCAGAAAGGCCATTATGGCGTCGCTCTGCTGACCAAAGAGACGCCGATTGCCGTCCGCCGCGGTTTCCCGGACGATGGCGAAGAGGCTCAGCGCCGCATCATCATGGCCGAGATCCCGTCGCCGTTCGGTAACGTTACGGTGATTAATGGTTATTTCCCGCAAGGTGAAAGCCGCGATCATGAGACCAAATTCCCGGCCAAAGCGGCGTTCTATCAGAATCTGCAGAACTATCTGGAGACCGAGCTCAATAAAGAGAATCCGGTGCTGATCATGGGCGATATGAACATCAGCCCTACCGATCTCGACATCGGTATCGGTGAAGAGAACCGCAAACGCTGGCTGCGCACCGGCAAATGTTCCTTCCTGCCGGAAGAGCGGGAATGGATGGACCGCCTGCTGGGCTGGGGCCTGGTGGATACCTGGCGTCAGGCTAACCCGGACAATCAGGAGCACTTCTCGTGGTTTGATTACCGCTCCAAAGGCTTCGACGATAACCGCGGGCTGCGCATCGACCTGCTGCTGGCCAGCCAGCCTCTGGCCCAGCGCTGCGTGGAGACTGGAATCGATTATGAGATCCGCGGGATGGAAAAACCATCCGACCACGCGCCGGTATGGGCCACCTTCCGGCCGTAA	MKFVSFNINGLRARPHQLAAIVEKHQPDVIGLQETKVHDDMFPLEEVARLGYNVFYHGQKGHYGVALLTKETPIAVRRGFPDDGEEAQRRIIMAEIPSPFGNVTVINGYFPQGESRDHETKFPAKAAFYQNLQNYLETELNKENPVLIMGDMNISPTDLDIGIGEENRKRWLRTGKCSFLPEEREWMDRLLGWGLVDTWRQANPDNQEHFSWFDYRSKGFDDNRGLRIDLLLASQPLAQRCVETGIDYEIRGMEKPSDHAPVWATFRP				NA	NA	NA	NA	NA
BMS020_05886	1221	astC_2	COG4992	Succinylornithine transaminase	ATGTCTCAGTCAATTACGCGTAACCACTTTGATGAATGGATGATGCCGGTCTACGCGCCAGCGGCTTTTATTCCGGTGCGGGGCGCCGGGTCGCGGCTGTGGGATCAGCAGGGCAAAGAGTATATCGATTTTGCCGGAGGCATCGCCGTGAACGCGCTGGGGCATGCGCATCCGCGTCTGGTGCAGGCCCTCACCGATCAGGCTGGCAAGTTCTGGCATACCGGCAATGGCTATACCAATGAGCCGATCCTGCGTCTGGCCAAAATGCTTATCGATGCCACCTTCGCCGACCGGGTCTTCTTCTGTAACTCCGGGGCCGAGGCCAATGAGGCGGCGCTCAAGCTGGCGCGTAAATATGCCCACGATCGCTTTGGCAGCGAGAAAAGCGGCATTGTCGCCTTCCAGAACGCCTTTCACGGGCGGACGCTGTTCACCGTTTCGGCAGGCGGTCAGCCGGCCTACTCCCGGGATTTTGCCCCGCTTCCGCCGCAGATCCAGCATGCGGTGTTTAACGATCTCGCGTCGGCAAAGGCCTTAATCAATGACCAAACCTGCGCGGTGATCGTCGAGCCGGTGCAGGGCGAAGGCGGCGTGGTGCCGGCCAGCGTCGAGTTTTTACGCGGCCTGCGCCAGCTTTGCGACCAGCACAACGCCCTGCTGATTTTCGATGAAGTGCAGACCGGGGTCGGGCGCACCGGCGAACTGTATGCCTATATGCACTACGGCGTGACCCCCGATGTGCTGACCACCGCCAAAGCGCTGGGCGGCGGCTTCCCCATCGGCGCACTGCTGGCGACAGAGGCCTGCGCCAGCGTGATGACCGTCGGCACCCACGGCACCACCTACGGCGGTAACCCGCTGGCGGGGGCGGTGGCCGGCGAGCTGCTGTCGATCGTCAATACCCCGGAAGTGCTCTCCGGCGTCAGACAGCGCCATCAGTGGTTTTGCGAACGCCTGCAGGCGATCAACGCCCGCTATGGTCTGTTCAAGGAGATCCGCGGCCTGGGGCTGCTGATCGGCTGCGTGCTGAACGACGCCTGGACCGGGAAGGCGAAAACCCTCAGCAACCTGGCGGCGGAAGAGGGTGTGATGATCCTGATCGCCGGCGCCAACGTGGTGCGTTTCGCGCCGGCGCTGAACGTCAGTGAAGAAGAGGTGAACAGCGGGCTGGATCGCGTCGAGCGGGCCTGCGCGCGATTCCTGGCGGGAGTTTCATCATGA	MSQSITRNHFDEWMMPVYAPAAFIPVRGAGSRLWDQQGKEYIDFAGGIAVNALGHAHPRLVQALTDQAGKFWHTGNGYTNEPILRLAKMLIDATFADRVFFCNSGAEANEAALKLARKYAHDRFGSEKSGIVAFQNAFHGRTLFTVSAGGQPAYSRDFAPLPPQIQHAVFNDLASAKALINDQTCAVIVEPVQGEGGVVPASVEFLRGLRQLCDQHNALLIFDEVQTGVGRTGELYAYMHYGVTPDVLTTAKALGGGFPIGALLATEACASVMTVGTHGTTYGGNPLAGAVAGELLSIVNTPEVLSGVRQRHQWFCERLQAINARYGLFKEIRGLGLLIGCVLNDAWTGKAKTLSNLAAEEGVMILIAGANVVRFAPALNVSEEEVNSGLDRVERACARFLAGVSS	PGPT0014253_1319	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
BMS020_05887	1035	astA_2	COG3138	Arginine N-succinyltransferase	ATGATGGTTATTCGACCGGTGGAGCCGGGCGATCTGCCCGGGCTGCTGAAGCTGGCGGCGGAGACCGGCGGCGGGCTGACCTCGCTGCCGGTGGATGAAGCCACCCTCGCGGCGCGGATCGCCCGCTCACAGCAAACCTGGCGCGGTGAGCTGCCGAAAAGCGAGCAGGGCTATGTCTTTGTGCTGGAAGAGAGCGAGAGCGGCGCAGTGGTGGGCATCTGCGCGATAGAGGTGGCGGTGGGGCTCAACGATCCCTGGTACAACTACCGGGTCGGCACCCAGGTCCATGCCTCGAAGGAGCTTAACGTCTATCAGGCGCTGCCGACGCTGTTTCTCAGTAACGACCACACCGGCAGCAGCGAGCTGTGTACCCTGTTCCTCGACCCACAGTGGCGCAAAGAGGGTAATGGCTATCTGCTGTCGAAATCGCGCTTCTTATTTATGGCCGCCTTTCGCGAGCGCTTTAATGAGAAGGTGGTTGCCGAGATGCGCGGGGTGATTGACGAGCACGGCTATTCCCCGTTCTGGGAGAGCCTGGGCAAACGCTTTTTCGCCATGGAGTTTTCCCGCGCCGACTACCTGTGCGGCACCGGACAGAAGGCTTTCATTGCCGCCCTGATGCCCAAGCACCCGCTGTATATCGATTTCCTCACCCCCGAGGCGCAGGCGGTGATCGGCAAGGTCCACCCGCAGACCGCCCCGGCCCGGACGGTGCTGGAGAAAGAGGGGTTCCGCTACCTGAACTACATCGATATTTTCGACGGCGGCCCGACCCTGGAGTGCGATATTGACCGGGTGCGGGCGATCCGCAAAAGCCGTCTGGTGACCACCGTGGCCGGCGAAACGCCGCCCGGCGACGGGCCGCTGTGCCTGGTGGCGAACGAACAGTACCACCAGTTCCGCGCCCTGCTGGTGCATGCCGACCCGGATGGCGACACCCTGACCCTCAGCGCCCGCGAGCTGGATATGCTGAAGTGTCATGCCGGCGACCAGGTGCGCATGGTGCGCCTGATCCCTGAGGAGAAAACCGCATGA	MMVIRPVEPGDLPGLLKLAAETGGGLTSLPVDEATLAARIARSQQTWRGELPKSEQGYVFVLEESESGAVVGICAIEVAVGLNDPWYNYRVGTQVHASKELNVYQALPTLFLSNDHTGSSELCTLFLDPQWRKEGNGYLLSKSRFLFMAAFRERFNEKVVAEMRGVIDEHGYSPFWESLGKRFFAMEFSRADYLCGTGQKAFIAALMPKHPLYIDFLTPEAQAVIGKVHPQTAPARTVLEKEGFRYLNYIDIFDGGPTLECDIDRVRAIRKSRLVTTVAGETPPGDGPLCLVANEQYHQFRALLVHADPDGDTLTLSARELDMLKCHAGDQVRMVRLIPEEKTA	PGPT0020090_454	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020090-astA-K00673	NA	NA
BMS020_05888	1479	astD_2	COG1012	N-succinylglutamate 5-semialdehyde dehydrogenase	ATGAGTCTGTGGATTAACGGCGAGTGGCGGCCCGGCGATGGGCCGCGCTTCAGCAAACAGGATCCGGTCAACCTGAAGGTTGTCTGGCAGGGAGAGGCGGCGGACGCCGGGCAGGTCGCCGAGGCGGTGGCGGCAGCCCGCCAGGCGTTCCCGGCCTGGGCGCGGCTGCCGTTTGCCGACCGCCAGGTCATCGTCGAAAAGTTTGCCGCACTGCTGGAGGCCAGCAAGGCGGAGCTGACGGCGATTATCGGCGCCGAGACCGGAAAGCCGCGCTGGGAGGCGGCCGGGGAAGTGACGGCGATGATCAACAAAGTGGCGATCTCGGTGAAGGCGTACCACACCCGCACCGGCGAACAGCACAGCGATCTGCCCGATGGCGCCGCGACGCTGCGTCACAGGCCGCATGGCGTGCTGGCGGTCTTTGGCCCCTATAACTTTCCCGGCCATCTGCCGAACGGGCATATCGTGCCAGCGCTGCTGGCGGGCAATACCGTGGTGTTTAAACCCAGCGAACTCACCCCGCACAGTGGCGAAGCGGTGGTGAAGCTGTGGGAGCAGGCCGGCCTGCCCGCCGGGGTGCTCAACCTGCTGCAGGGCGGTCGGGAAACCGGCGAGGCGCTCAGCGGCCAGGCGGATATCGACGGGCTGCTGTTTACCGGCAGCTCGACCACCGGTTTTCATCTGCATCGCCAGCTGGCCGGACAGCCGCAGAAGATCCTCGCGCTGGAGATGGGCGGCAATAACCCGCTGATCGTCGACGATCCGCGGGACGTCGATGCCGCGGTGCATCTGACCATCCAGTCCGCCTTTATTACCGCCGGCCAGCGCTGCACCTGCGCCCGGCGTCTGCTGGTCCGGCGCGGAGAGGCGGGAGATGCTTTCCTCTCCAGGCTGGTGACGGTGAGCCAACGGCTGATCCCCGCGGCGTGGGACGCTGAGCCGCAGCCGTTTCTCGGCGGGCTTATCTCTGAACAGGCCGCGAAGAAAGTGCATCAGGCCTGGCTGCAGCGGATCGCCGCTGGCGCAGCCACCCTACTGGAGCCGCGCTTATTGCAGGCCGGGACGTCGCTGCTGACGCCGGGGATTGTCGACATGAGCGACGTGGCCCAGGTCGAGGATGAAGAGGTGTTCGGCCCGCTGCTTGGCGTCTGGCGCTACGACACTTTCGAGGAGGCGATTGCCCTGGCCAATGCCACCCGCTTCGGGCTCTCCTGCGGGTTAATCTCCCCGGAACGGGAGAAGTTCGATCGGCTGCTGCTCGAGGCGCGGGCCGGGATAGTCAACTGGAACAAACCGCTGACCGGGGCGGCGAGTACCGCGCCGTTCGGCGGCACCGGGGCCTCTGGCAATCATCGCCCCGGGGCCTGGTATGCCGCCGATTATTGCGCCTGGCCGATGGCCAGTCTCGAATCTCCGACCCTGACGCTGCCCGCCAGTCTCAATCCGGGGCTCGACTTTCGGGCCGGGGAGGCGTCATGA	MSLWINGEWRPGDGPRFSKQDPVNLKVVWQGEAADAGQVAEAVAAARQAFPAWARLPFADRQVIVEKFAALLEASKAELTAIIGAETGKPRWEAAGEVTAMINKVAISVKAYHTRTGEQHSDLPDGAATLRHRPHGVLAVFGPYNFPGHLPNGHIVPALLAGNTVVFKPSELTPHSGEAVVKLWEQAGLPAGVLNLLQGGRETGEALSGQADIDGLLFTGSSTTGFHLHRQLAGQPQKILALEMGGNNPLIVDDPRDVDAAVHLTIQSAFITAGQRCTCARRLLVRRGEAGDAFLSRLVTVSQRLIPAAWDAEPQPFLGGLISEQAAKKVHQAWLQRIAAGAATLLEPRLLQAGTSLLTPGIVDMSDVAQVEDEEVFGPLLGVWRYDTFEEAIALANATRFGLSCGLISPEREKFDRLLLEARAGIVNWNKPLTGAASTAPFGGTGASGNHRPGAWYAADYCAWPMASLESPTLTLPASLNPGLDFRAGEAS				NA	NA	NA	NA	NA
BMS020_05889	1326	astB_2	COG3724	N-succinylarginine dihydrolase	ATGACCGCCCGCGAAGTCAACTTTGACGGTCTGCCCGGACTGACCCATCACTACGCCGGGCTCTCCTTTGGCAATGAGGCCTCCACCCGGCACCGCTTTCGGGTGTCGAACCCGCAGCTGGCGGCAAAGCAGGGGCTAAAAAAAATGAAAGCCCTCGCCGACGCCGGCTATCCGCAGGCGGTGATCCCCCCTCAGGAGCGGCCCAACGTGCCGCTCCTGCGTCAGCTGGGCTTTAGCGGCAGCGATGAACAGGTGGTGGCTCGCGCGGCTCAGCAGGATCCGGATCTGCTGTCGGCGGTGAGTTCGGCCTCGGCGATGTGGGTGGCCAACGCCGCGACGGTCTGTCCCTCCGCCGATTCGCTGGATGGCCTGGTACACCTGACGGTGGCGAATCTGCAGGATAAATTCCACCGCGCCAGCGAAGCCCCCACCACCGGAGCGTTGCTGCAGGCGATATTCCCGGACCGCACGCGATTTGCCATCCACCCGGCGCTGCCTGCCTCGGCATGGTTTGGCGACGAAGGGGCGGCGAACCATAACCGTCTCGGCGGGGAATATGGCGCCCCCGGCGTTCAGCTCTTTGTCTATGGCCGCCGCCGGGGAAGCGAAGAGGCGCCGCGTCGCTATCCGGCGCGGCAAACTCTTGAGGCCAGCCAGGCGGTGGCGCGCCTTAATCAGGTCAATCCCCGCCAGCTGATCTTCGCCCGCCAGCATCCGGCGGCGATCGACATGGGGGTTTTTCATAACGATGTCATCGCGGTGAGCAATCGTCAGGTCCTGTTCTGCCATGAGCAGGCCTTTGCCGACCAGAACGCGGTTTTGCAGCAGCTGGCGCAGCAGGTGCCGGGCTTCACCCCGCTGGTGGTTCCCGCCAGCCGGGTCACGGTGGAAGAGGCGGTTGCCACCTATCTGTTCAACAGCCAGCTGTTGAGCCGGGCGGACGGCAGCATGGCGCTGATCCTGCCCCAGGAAGCCCAGGCGCATCCGGGGGTGTGGAACTATCTCAATGAGCTGCTGGCCGGGGATAACCCCATCGCCGCGCTGCAGGTGTTTGATCTGCGCGAGAGTATGGCCAACGGCGGCGGTCCGGCGTGCCTGCGCCTGCGGGTAGTGTTGACGGCCGAGGAGTATCAGGCGGTCAATCCGCACGTCCTGATGAACGATACGCTGTTTGCCACCCTCAATGATTGGGTGGATCGCTACTATCGCGATCGTCTCACCCAGGCCGACCTCGCCGACCCCCAGCTGCTGCGGGAAGGGCGCGACGCGCTGGATCGGTTGACCCAGATCCTGCAGCTCGGTTCGGTTTATCCATTTCAGCAATAA	MTAREVNFDGLPGLTHHYAGLSFGNEASTRHRFRVSNPQLAAKQGLKKMKALADAGYPQAVIPPQERPNVPLLRQLGFSGSDEQVVARAAQQDPDLLSAVSSASAMWVANAATVCPSADSLDGLVHLTVANLQDKFHRASEAPTTGALLQAIFPDRTRFAIHPALPASAWFGDEGAANHNRLGGEYGAPGVQLFVYGRRRGSEEAPRRYPARQTLEASQAVARLNQVNPRQLIFARQHPAAIDMGVFHNDVIAVSNRQVLFCHEQAFADQNAVLQQLAQQVPGFTPLVVPASRVTVEEAVATYLFNSQLLSRADGSMALILPQEAQAHPGVWNYLNELLAGDNPIAALQVFDLRESMANGGGPACLRLRVVLTAEEYQAVNPHVLMNDTLFATLNDWVDRYYRDRLTQADLADPQLLREGRDALDRLTQILQLGSVYPFQQ				NA	NA	NA	NA	NA
BMS020_05890	966	astE_2	COG2988	Succinylglutamate desuccinylase	GTGGAACACTTTCTGGGATTAACCCTGGCGGGGCGTTTGCCCCATCACTTTCACGGCGAGACGGCCCATTTCCGCTGGCACTGGCTTGGGGAGGGGATCCTTGAGCTGACGCCGCATGCGCGCTGCGAGCGCGGACTGGTGCTCTCCTGCGCCATCCATGGCAACGAAACGGCGCCGGTGGAGATTGTCGACCGGCTGGTGCAGCGGCTGGTTCGGGAGGAACTCCCCCTGCGCTGGCGGCTGCTGGTGATCGTCGGTAACCCGCCGGCGCTGCGGGCGAATAAACGCTATCTGCACAGCGATATGAACCGGATGTTTGGCGAGCGCTGGCGGCAATTCCCGGCCAGCGAGGAGACGCAGCGGGCGCAGCGGCTGGAGCAGGCGGTGGGCCGCTTCTATCGCGACCACGATGGTCCGCGCTGGCACCTCGATCTGCATACCGCGATCCGCGGGTCGCTGCATCCGCGCTTCGGGGTGCTCCCGGCCCGCGATACGCCCTGGGAGGAGGATTATCTTCACTGGCTGGGCGGCGCCGGGCTGGAGGCGTTGGTGTTTCATCGCCAGCCAGGCGGGACCTTCACTCACTTCAGCTGCGAGCGGTTCGCGGCGCTGGCCTGCACCCTTGAGCTGGGCAAAGCGCTGCCGTTGGGGGAAAACGATCTGACGCAGTTTGCCGCCGCCGAGGGGGCTATCTCCCGACTGCTGGTGGGGGATCTGGCCATTGCCGACGCCCCGGCGCCGTTGCGCTACCGGGTGGTGCAGCAGATCACCCGCCATAGCGACGATTTCCGTCTGCATATGGCGGATCGGACGCTGAACTTCACCCCCTTCGCCCCAGGCACGCTGCTGGCGGAGGAGGGGGAGATGCGGTATGTGGTGGGGGCAGAGCCGGAGTATGTTCTGTTTCCCAATCCGGCGGTGGCCAGGGGGCTGCGCGCTGGCCTGATGCTGGAAAAATTACCCTGA	MEHFLGLTLAGRLPHHFHGETAHFRWHWLGEGILELTPHARCERGLVLSCAIHGNETAPVEIVDRLVQRLVREELPLRWRLLVIVGNPPALRANKRYLHSDMNRMFGERWRQFPASEETQRAQRLEQAVGRFYRDHDGPRWHLDLHTAIRGSLHPRFGVLPARDTPWEEDYLHWLGGAGLEALVFHRQPGGTFTHFSCERFAALACTLELGKALPLGENDLTQFAAAEGAISRLLVGDLAIADAPAPLRYRVVQQITRHSDDFRLHMADRTLNFTPFAPGTLLAEEGEMRYVVGAEPEYVLFPNPAVARGLRAGLMLEKLP	PGPT0020091_711	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020091-astE-K05526	NA	NA
BMS020_05891	483	spy	COG3678	Periplasmic chaperone Spy	ATGAAGAAACTCACTGCACTGTTTGTTGCCTCTACTCTGGCTCTGGGCGCGGCTAACCTGGCTCACGCCGCCGATACCACCACCGCGCCGAGCGACAGCAAGCCGATGATGATGCATCATAAAGGCGGCCCAGGTCAGCATGACATGATGTTTAAAGGCCTCAACCTGACCGATGCGCAGAAGCAGCAGATCCGCGACATCATGAAGAGCCAGCGCGAAAATATGAAGCGTCCGTCCCTCGACGAACGCCGCGCGATGCACGAGCTGATCGCCAGCGATACCTTCGACAAGGCGAAAGCGGAAGCGCAGATCGATAAGATGGAGGCGCAGCATAAAGCGATGGCGCTGTCCCGCCTGGAAACGCAGAACAAGATCTACAACATTCTGACCCCAGAGCAGAAAAAACAGTTCAATGCCAATTTTGAGAAGCATCTGACAGAACGCAACGCGCCGGCAGGTAAAATGCCTGCACCCGCTGAATAA	MKKLTALFVASTLALGAANLAHAADTTTAPSDSKPMMMHHKGGPGQHDMMFKGLNLTDAQKQQIRDIMKSQRENMKRPSLDERRAMHELIASDTFDKAKAEAQIDKMEAQHKAMALSRLETQNKIYNILTPEQKKQFNANFEKHLTERNAPAGKMPAPAE				NA	NA	NA	NA	NA
BMS020_05892	864	cho	COG0322	Excinuclease cho	GTGGCCAGAAAGCAATCTGCCCCGCGTCTGGAGTTTGAGGCGGCGGCGATCTATGAATATCCCGAACACCTTCGCCCGTGGCTGGAGGCGCTGCCGAAGCTGCCGGGCGTCTATCAATTTCACGGCGACAGCGACACGATGCCGCTCTATATCGGCAAGAGCGTTAACCTGCGCAGCCGGGTGCTCTCCCACCTGCGCACGCCTGAAGAGGCCGCGATGCTGCGTCAGTCCCGGCGTATTACCTGGCAGCGCACCGCTGGCGAGCTGGGGGCCCTGCTGCTGGAGGCGCGGTTAATTAAAGAGCAGCAGCCGCTGTTTAACAAGCGGCTACGGCGTAACAAGCAACTCTGCGCCTGGCTGCTTGCGGACGACCGGCCGCAGATTGTCTATGCCCGCGAGGTTGATTTCTCTCATCAGCAGCATCTCTATGGTCTGTTCGCCAACCGGCGGGCGGCGCTGCAGATGCTGCAGAGCCTCGCTGACGAACAGCGCCTCTGTTATGGCCTGCTCGGTCTGGAGCCGCTCAGCCGCGGTCGCGCCTGCTTTCGATCCGCGCTGGGCCGCTGCGCCGGCGCCTGCTGTGGAAAGGAGAGCGTGGAGGCGCACCGCCAGCGTCTGCTGGCGCAGATGAGCAAGCTGCAGCTGGTGTGCTGGCCTTGGGCAGGACCGGTGGCGCTGGAGGAGCGCGGCCCTGATATGACGCAGTATCATGTCATTCATAACTGGCTGTGGCTGGGGGCCGTCGACTCGCTCGACCAGGCCGCTGAGCTCACTCGCCTGCCCGCCGGATTCGACCAGGATGGTTACAAAATTCTCTGTAAGCCTCTGCTCAGCGGCAACTACCCGCTGCACCCGCTTAGCTGA	MARKQSAPRLEFEAAAIYEYPEHLRPWLEALPKLPGVYQFHGDSDTMPLYIGKSVNLRSRVLSHLRTPEEAAMLRQSRRITWQRTAGELGALLLEARLIKEQQPLFNKRLRRNKQLCAWLLADDRPQIVYAREVDFSHQQHLYGLFANRRAALQMLQSLADEQRLCYGLLGLEPLSRGRACFRSALGRCAGACCGKESVEAHRQRLLAQMSKLQLVCWPWAGPVALEERGPDMTQYHVIHNWLWLGAVDSLDQAAELTRLPAGFDQDGYKILCKPLLSGNYPLHPLS				NA	NA	NA	NA	NA
BMS020_05893	828	nadE_1	COG0171	NH(3)-dependent NAD(+) synthetase	ATGACGCTACAACAAGAGATTATTCAGGCGCTGGGCGCGAAGCCGCAGATTGATGCCGCAGGCGAGATCCGCCGCAGCGTCGATTTCCTGAAATCCTATCTGCAGACTTACCCTTTTATTAAATCGCTGGTGCTGGGTATCAGCGGCGGCCAGGACTCGACCCTGACGGGGAAACTGTGCCAGATGGCGATCAATGAACTGCGCGCCGAAACGGGCGACAGCAGCCTGCAGTTTATCGCCGTGCGTTTACCCTACGGCGTGCAGGCGGATGAGCAGGACTGCCAGGATGCCATCGCCTTTATTCAGCCTGACCGCGTGTTGACGGTGAATATCAAAGCCTCGGTACTGGCAAGCGAACAGGCCCTGCGCGAAGCGGGGATCGAACTGAGCGACTTCGTTCGCGGCAACGAAAAAGCCCGTGAGCGCATGAAAGCCCAGTACAGCATCGCCGGGATGACCAAAGGGGTGGTGGTCGGCACCGACCATGCGGCGGAAGCGATTACCGGCTTCTTCACTAAATATGGCGACGGCGGCACCGACATCAACCCGATCTTCCGCCTGAACAAACGTCAGGGCAAACAGCTGCTGGCCCATCTCGGCTGCCCGGAACATCTGTATAAGAAGCTGCCGACCGCCGATCTGGAAGACGATCGCCCCTCCCTGCCGGATGAAGTGGCGCTGGGGGTCACCTATGAGAATATCGACGATTATCTGGAAGGCAAAACGCTGGACCCCAGCATCGCCAAAACGATCGAAGGCTGGTATCTGAAAACCGAACACAAGCGTCGGCCGCCCATCACCGTCTTTGACGATTTCTGGAAAAAATAG	MTLQQEIIQALGAKPQIDAAGEIRRSVDFLKSYLQTYPFIKSLVLGISGGQDSTLTGKLCQMAINELRAETGDSSLQFIAVRLPYGVQADEQDCQDAIAFIQPDRVLTVNIKASVLASEQALREAGIELSDFVRGNEKARERMKAQYSIAGMTKGVVVGTDHAAEAITGFFTKYGDGGTDINPIFRLNKRQGKQLLAHLGCPEHLYKKLPTADLEDDRPSLPDEVALGVTYENIDDYLEGKTLDPSIAKTIEGWYLKTEHKRRPPITVFDDFWKK	PGPT0013445_1700	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013445-nadE-K01916	NA	NA
BMS020_05894	339	osmE		Osmotically-inducible putative lipoprotein OsmE	ATGAACAAAAGCTTAGCAGGAATACTGGGCGTCACCGTCGCGTTAACCTTACTCGCGGGCTGTACCGCTTACGATCGTACCAAAGACCAGTTTACCCAGCCGGTGGTGAAAGATGTGAAGAAAGGAATGTCGCGTGAGCAGGTGATGCAGATCGCTGGCAAACCTTCAACGGAAGTGACGATGGTCCATGCCCGCGGCACCTGCCAGACCTATATCCTCGGTCAACGAGATGGTAAAGTGGAGACCTACTTTGTGGCCCTCGACGAAACGGGGCACGTGATGAACTCCGGCTACCAGACCTGCGCTGAGTATGATACGGATCCGCGCAACGCTAAGTAA	MNKSLAGILGVTVALTLLAGCTAYDRTKDQFTQPVVKDVKKGMSREQVMQIAGKPSTEVTMVHARGTCQTYILGQRDGKVETYFVALDETGHVMNSGYQTCAEYDTDPRNAK	PGPT0013755_164	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0013755-osmE-K04064	NA	NA
BMS020_05895	321	chbB	COG1440	PTS system N,N'-diacetylchitobiose-specific EIIB component	ATGGAAAAGAAACACATTTATCTGTTCTGCTCGGCAGGCATGTCCACGTCACTGCTGGTCTCCAAAATGCGGGCGCAGGCGGAAAAATACGAAGTCCCGGTCATTATTGAAGCCTATCCTGAGACTCTCGCGGGTGAAAAGGGACCGGAAGCCGACGTTGTATTATTAGGGCCACAAATTGCGTATATGTTACCGGAAATTCAGCGCCTGCTGCCGAATAAACCGGTAGAAGTCATCGATTCTCTTCTGTATGGCAAGGTGGATGGTTTAGGCGTATTGAAAGCCGCCGTCGCGGCCATTAAGAAAGCTGCAGCACAATAA	MEKKHIYLFCSAGMSTSLLVSKMRAQAEKYEVPVIIEAYPETLAGEKGPEADVVLLGPQIAYMLPEIQRLLPNKPVEVIDSLLYGKVDGLGVLKAAVAAIKKAAAQ	PGPT0016975_413	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_BETA-GLYCOSIDE_DEGRADATION,PGPT0016975-celA|chbB-K02760	NA	NA
BMS020_05896	1359	chbC	COG1455	PTS system N,N'-diacetylchitobiose-specific EIIC component	ATGAGTAAAGTGATCGACTCGCTTGAAAAGGTACTCCTTCCTTTTGCAGTGAAAATAGGAAAGCAGCCGCATATTAATGCGATTAAAAATGGATTCATTAAATTAATGCCGTTGACCCTCGCCGGGGCCATGTTTGTATTAATTAACAACGTTTTTCTGAGCTTCGGCGAAGGCTCTTTCTTTTATTCCATGGGCATTCGCCTGGATGCCTCCACCATTGAAACCTTAAACGGTTTTAAGGCTATCGGCGGTAACGTCTATAACGGCACCCTCGGCATTATGTCGCTGATGGCGCCATTCTTTATTGGCTCCGCGCTGGCGGAAGAGCGCAAAGTCGACCCGATGGCCGCAGGCCTGTTGGCAGTCGCGGCCTTCATGACCGTGACCCCGTATAGCGTGGGCGAAGCCTATGCCGTCGGCGCCAACTGGCTGGGCGGGCAGAACATCATCTCCGGCATGATTATCGGTCTGGTCGTCGCGGAGCTGTTCACCTTCGTGATCCGTCGCAACTGGGTAATCAGACTGCCGGACAGCGTGCCGGGGTCGGTATCGCGCTCTTTCTCCGCGCTGATCCCTGGCTTCTTGATCCTCTCCATCTTCGGCATTATCTCGTGGGCCCTGTCGAGCTACGGCAGCAACTTCCACCAGATCATCATGGACTCCATCTCTACGCCGCTGGCGGCGATGGGCAGCGTGGTCGGCTGGGCATACGTCATCTTTAACTCCCTGCTGTGGTTCTTCGGGGTGCACGGTTCGCTGGCGCTGACCGCGCTGGATAACGGCATCATGACGCCGTGGGCGCTGGAAAACATCGCGCTGTACAACCAGTACGGATCGGTTGATGCGGCGATCGAAGCGGGTAAACAGTTCCACTTCTGGGCCAAGCCGATGCTCGACTCCTACATCCTGCTGGGGGGTTCCGGGGCGACGCTGGGTCTGATCATCGCCATCTTTATCGCTTCCCGCCGCGCTGACCATCGTCAGGTTGCGAAGCTGGCGCTGCCGTCAGGCATCTTCCAGATTAACGAACCGATTCTGTTTGGCCTGCCGATCATCATGAACCCGGTCATGTTCATCCCGTTCGTGCTGGTCCAGCCGATTCTGGCGGCCATTACTCTCGCGGCCTACAGCCTGGGGATTATCCCACCGGTAACCAACCTGGCGCCGTGGACCATGCCAACTGGCCTGGGGGCGTTCTTCAACAGTAACGGCAGCGTCGCCGCTCTGCTGGTCGCCCTGTTCAACCTTGGCGTCTCCACCCTGGTCTACCTGCCGTTTGTGGTGCTGTCGAATAAAGCGCAGACCGTCATCGAGCAGGAAGAGAGCGAAGAAGACATCGCCAACGCACTGAAATTCTGA	MSKVIDSLEKVLLPFAVKIGKQPHINAIKNGFIKLMPLTLAGAMFVLINNVFLSFGEGSFFYSMGIRLDASTIETLNGFKAIGGNVYNGTLGIMSLMAPFFIGSALAEERKVDPMAAGLLAVAAFMTVTPYSVGEAYAVGANWLGGQNIISGMIIGLVVAELFTFVIRRNWVIRLPDSVPGSVSRSFSALIPGFLILSIFGIISWALSSYGSNFHQIIMDSISTPLAAMGSVVGWAYVIFNSLLWFFGVHGSLALTALDNGIMTPWALENIALYNQYGSVDAAIEAGKQFHFWAKPMLDSYILLGGSGATLGLIIAIFIASRRADHRQVAKLALPSGIFQINEPILFGLPIIMNPVMFIPFVLVQPILAAITLAAYSLGIIPPVTNLAPWTMPTGLGAFFNSNGSVAALLVALFNLGVSTLVYLPFVVLSNKAQTVIEQEESEEDIANALKF	PGPT0016970_392	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_BETA-GLYCOSIDE_DEGRADATION,PGPT0016970-celB|chbC-K02761	NA	NA
BMS020_05897	348	chbA_2	COG1447	PTS system N,N'-diacetylchitobiose-specific EIIA component	ATGTTTGATCTGGACAACATCGACGCGGTAGAGACCCCGGAAAACGACCTCGAAGAGGTGGTGATGGGGCTGATTATCAACTCCGGACAAGCCCGTAGCCTGGCCTATGCCGCGCTAAAACAGGCCAAGCAGGGGGATTTTGCCGCGGCGAAATCGATGATGGAGCAGTCGCGTCAGGCGCTGAGCGAGGCGCATCGCGTGCAGACCCAGCTTATCGAAAGCGACGAGGGCGAAGGGAAAATGAAGGTCAGCCTGGTGCTGGTGCATGCTCAGGATCACCTGATGACCTCCATGCTGGCCCGCGAGCTGGTTGCGGAATTGATTGAGCTGCACGAGAAGGTACAATAG	MFDLDNIDAVETPENDLEEVVMGLIINSGQARSLAYAALKQAKQGDFAAAKSMMEQSRQALSEAHRVQTQLIESDEGEGKMKVSLVLVHAQDHLMTSMLARELVAELIELHEKVQ	PGPT0016980_214	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_BETA-GLYCOSIDE_DEGRADATION,PGPT0016980-celC|chbA-K02759	NA	NA
BMS020_05898	825	chbR		HTH-type transcriptional regulator ChbR	ATGATGACCACCGAGATCAGTACCGCCAGAGAACAGCAGTTATTCAACGGGAAGAACTTTCATGTGGTCATCTATAACAAAACGGAAAGCGTGAGCGGGCTCCACCAGCATGATTACTACGAATTTACCGTCGTATTAACCGGGCGCTATTACCAGGAGATCAATGGCAAACGGGTGCTGCTGGAGCGCGGGGATTTTGTCTTTATCCCGATGGGCTCGCACCACCAGAGCTTCTACGAATTTGGTGCGACGCGCATCCTTAACGTCGGCATCAGCAGGCGCTTCTTTGAGAAACACTATCTGCCGCTGCTGCCGTTTGGCCTGGTGGCGTCGCAGGTCTATGCCGTGCAGAGCGCTTTTCTCGGCTATATTGAGTCGGTCATCGCCTCACTCAATTTTCGCGAAACGGAATTTGACGAATTTATCGAGCTGGTCTCCTTTTATGTCATTAACCGTTTACGTCACTATCGCGAAGAGCCGGTTGCAGACGTCGTCCCACAATGGTTAAAAAATACCGTTGAGGCCATGCACGATAAACTGGAGTTTGGCGAGAGCGCCCTCGAGAATATGGTTCGGCTATCGGGCAAAACGCAGGAATATTTAACCCGGGCGACCCAGCGCTATTATGGTAAAACGCCGATGCAGATAATTAACGATATCCGTATCAACTTTGCCAAAAAGCAGCTGGAAATTACCAACTATTCGGTGACGGATATTGCCTATGAATCAGGGTACAGCAGCCCGAGCCTGTTTATTAAAACCTTTAAAAAGCTGACCTCGTTTACGCCGAGCAGTTATCGCAAACATTTGACCAGTATTAATTAA	MMTTEISTAREQQLFNGKNFHVVIYNKTESVSGLHQHDYYEFTVVLTGRYYQEINGKRVLLERGDFVFIPMGSHHQSFYEFGATRILNVGISRRFFEKHYLPLLPFGLVASQVYAVQSAFLGYIESVIASLNFRETEFDEFIELVSFYVINRLRHYREEPVADVVPQWLKNTVEAMHDKLEFGESALENMVRLSGKTQEYLTRATQRYYGKTPMQIINDIRINFAKKQLEITNYSVTDIAYESGYSSPSLFIKTFKKLTSFTPSSYRKHLTSIN				NA	NA	NA	NA	NA
BMS020_05899	1347	chbF	COG1486	6-phospho-beta-glucosidase	ATGAGCCAGAAATTAAAAGTCGTCACCATTGGCGGCGGTAGCAGCTATACCCCGGAATTACTGGAAGGTTTCCTGAAACGTTATCATGAACTGCCGGTGACAGAGCTGTGGCTGGTGGATGTGGAAGAGGGCCAGGAGAAGCTCGATATTATCCATGCGCTGTGCGAGCGGATGGTGGAAAAAGCCGGCGTGCCGATGAAGGTTTATAAAACGCTGGACCGCCGCGAGGCGCTGCAGGGCGCGGATTTCGTTACCACCCAGCTGCGGGTGGGCCAGCTGAAGGCGCGTGAAAAAGATGAGCGCATCCCGCTGAGCCACGGCTATCTTGGCCAGGAGACCAACGGGGCGGGCGGGCTGTTTAAAGGGCTGCGTACCATCCCGGTGATTTTCGACATCGTGAAAGATGTGCAGGAGATCTGCCCGGACGCATGGATCATTAACTTCACCAACCCGGCGGGCATGGTCACCGAGGCGGTCTATCGCCACACCAGTTTCAAACGCTTTATCGGCGTGTGCAACATTCCCATCGGCATGAAGATGTTCATCACCGACGTGCTGCAGCTCAGCCCGAGCGATGAGCTGAACATCGACCTGTTCGGTCTGAACCACCTGGTGTTCGTCCGCGACGTGCTGGTTAACGGTGTCTCGCGCTTCGATGAACTGCTGGACGGCGTTGCCTCCGGCCGCCTGACCGCGAACTCGGTAAAAAATATCTTCGACCTGCCGTTTAGCGAGGGGCTGATCCGCTCCCTGCGCCTGATCCCATGCTCCTATCTGCTCTATTACTTTAAGCCAAAAGAGATGCTGGCGATTGAGATGGGCGAGTACTATAAGGGCGGCGCGCGCGCCCAGGTGGTGCAGAAGGTGGAGAAGCAGCTGTTCGAGCTGTATAAAAATCCGGATCTCAAGGTCAAGCCGAAGGAGCTGGAGCAGCGCGGCGGCGCCTATTACTCCGATGCCGCTTGCGAAGTGATCAACGCTATCTATAACGACAAGCAGACTGAGCACTATGTGAATATCCCGCATCATGGCCATATCGATAATATCCCGGCGGACTGGGCGGTCGAGATGAGCTGCACCTTAGGTCGCGATGGCGCGAAGCCGACGCCGCGCATCACCCATTTCGACGAAAAGGTGCTGGGGCTTATCTACACCATCAAAGGGTTTGAAGTGGCGGCCAGCCGGGCGGCGATCAGCGGCGAGCTGAACGACGTGCTGCTGGCGCTGAACTTAAGCCCGCTGATCCATTCCGATCGTGACGCCGAGCAGCTGGCGCGGGAGATGATTCTGGCTCATGAAAAATGGCTGCCGAACTTTGCGGCGACGATCGAAAAACTGAAAGCGTAA	MSQKLKVVTIGGGSSYTPELLEGFLKRYHELPVTELWLVDVEEGQEKLDIIHALCERMVEKAGVPMKVYKTLDRREALQGADFVTTQLRVGQLKAREKDERIPLSHGYLGQETNGAGGLFKGLRTIPVIFDIVKDVQEICPDAWIINFTNPAGMVTEAVYRHTSFKRFIGVCNIPIGMKMFITDVLQLSPSDELNIDLFGLNHLVFVRDVLVNGVSRFDELLDGVASGRLTANSVKNIFDLPFSEGLIRSLRLIPCSYLLYYFKPKEMLAIEMGEYYKGGARAQVVQKVEKQLFELYKNPDLKVKPKELEQRGGAYYSDAACEVINAIYNDKQTEHYVNIPHHGHIDNIPADWAVEMSCTLGRDGAKPTPRITHFDEKVLGLIYTIKGFEVAASRAAISGELNDVLLALNLSPLIHSDRDAEQLAREMILAHEKWLPNFAATIEKLKA	PGPT0019105_417	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CARRAGEENASE,PGPT0019105-celF|licH|chbF-K01222	NA	NA
BMS020_05900	759	chbG	COG3394	Chitooligosaccharide deacetylase ChbG	ATGGAACGCGTATTGATCGTCAACGCCGACGACTTCGGCCTCAGTAAAGGGCAGAACTACGGCATTATCGAAGCCTGCCGCAACGGCGTGGTGACATCGACTACGGCGCTGGTCAACGGCGCGGCTATTGACCACGCCGCCCAGTTGAGCCGCAGTACGCCGGAGCTGGCGGTCGGGATGCACTTTGTGCTGACGCTGGGCGAACCGCTGTCGGCCATGCCGGGGTTAACCCGCGACGGCCGACTGGGCAAATGGATCTGGCAGCAGGCGGAAGAAGATAACCTGCCGCTGGAGGAGATTGCCCACGAGCTGGCGTGTCAGTACCGTCGTTTTATCGATCTCTTCGGCCATGAGCCGACGCATCTCGACAGCCATCACCATGTGCATATGATCGCCGCGATCTATCCCATCGTCGCCGCTTTTGCCCGCGACAAGGGCATCGCGTTGCGCATCGATCGCCAGGTGGCGGCGCAGAGCGGTCTCGATCAGCAGGCGGCGCGCAGCAGCGCAGGCTTCAGCAGCGAGTTTTATGGGGAAGCCGTCTCTGAGGCGCTGTTCCTGCAGACGCTGGACGCCTCAATCGCCCGCGAGGAGCGCTCCCTGGAGGTGATGTGTCATCCGGCCTTTGTCGACCAGACCATCATGGGCAGCGCCTACTGCTACCCGCGGCTGGGCGAGCTTGATGTGCTGACCTCTGCCTCGCTGAAAGCGGCGGTGGCCGACCGGGGTTATCGCCTGGGAACCTACCGCGACGTGTAA	MERVLIVNADDFGLSKGQNYGIIEACRNGVVTSTTALVNGAAIDHAAQLSRSTPELAVGMHFVLTLGEPLSAMPGLTRDGRLGKWIWQQAEEDNLPLEEIAHELACQYRRFIDLFGHEPTHLDSHHHVHMIAAIYPIVAAFARDKGIALRIDRQVAAQSGLDQQAARSSAGFSSEFYGEAVSEALFLQTLDASIAREERSLEVMCHPAFVDQTIMGSAYCYPRLGELDVLTSASLKAAVADRGYRLGTYRDV	PGPT0012160_920	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012160-chbG-K03478	NA	NA
BMS020_05901	2259	katE_2	COG0753	Catalase HPII	ATGTCTGATAAGCACCCAAACCCGCACCACCAGCAGGCACCGGTTCACGGCAGCGAGGAAGCGCAGCCGGGTCTCGACTCGCTGGCGCCGGATGACCGGGAGTGGCGCCCCACGCCGAAACCCACCGCCCCTGGCGCTGAACCGACCGCCCCTGGCAGCCTGAAAGCGCCTGATACCCACAGCAGCAAACTTGACGCCCTGGAGCCGCAGCGCAAAGGCGGAGAAGACTATCCGCTGACCACCAACCAGGGCGTGCGCATTGCCGACGATCAGAACTCGCTGCGCGCCGGCGCCCGCGGTCCAACGCTGCTGGAAGATTTCATTCTGCGGGAGAAGATCACCCACTTCGACCATGAGCGAATTCCGGAGCGTATCGTACATGCCCGCGGCTCAGCGGCCCACGGTTACTTCCAGCCCTACAAAAGCCTGACAGCGTTGACCAAAGCCGATTTTCTCTCGGCAGCCGATAAAATCACCCCGGTCTTTGTGCGCTTCTCCACCGTGCAGGGCGGCGCGGGGTCAGCGGACACCGTTCGCGATATTCGCGGCTTCGCCACCAAGTTTTACACCGACGAGGGGATTTTTGACCTCGTCGGCAACAACACCCCGGTCTTCTTCATTCAGGACGCGCTGAAGTTTCCCGACTTTGTCCACGCCGTGAAGCCTGAGCCCCACTGGGCCATCCCCCAGGGACAAAGCGCTCACGACACCTTCTGGGACTACGTTTCCCTGCAGCCGGAAACGCTGCACAACGTGATGTGGGCGATGTCCGATCGCGGCATCCCGCGCAGCTATCGCACCATGGAAGGCTTCGGGATCCACACCTTCCGCCTGATCAATGCCGAGGGCAAAGCCACCTTTGTTCGCTTCCACTGGAAACCGGTCGCCGGCAAGGCGTCGCTGGTGTGGGATGAAGCGCAGAAGCTGACCGGCCGTGACCCCGATTTTCATCGCCGCGACCTGTGGGAGGCCATTGAAGCCGGGGACTACCCGGAATTTGAGCTCGGGCTGCAGCTGATCCCCGAGGAGAACGAATTTGATTTTGACTTCGACCTGTTAGATCCCACCAAGCTGATCCCTGAGGCGCTGGTGCCGGTGCAACGGGTCGGCAAAATGGTCCTCAACCGCAACCCGGACAACTTCTTTGCCGAGAACGAACAGGCGGCCTTCCATCCCGGGCATATCGTACCGGGCATCGATTTCAGCAACGATCCGCTGCTGCAGGGGCGTCTCTTCTCCTACACCGATACGCAGATTAGCCGCCTCGGCGGACCGAATTTCCATGAAATCCCGATCAACCGGCCAACCTGCCCGTACCACAACTTCCAGCGCGATGGTATGCACCGGATGGAGATTGACACCAACCCGGCCAACTACGAACCCAACTCGATCAACGACAACTGGCCGCGCGAGACGCCGCCAGCCGCCAAACGCGGCGGTTTCGAGTCCCTTGCCGAACGCGTCGACGGCGAGAAGATCCGCCAGCGCAGCCCTTCATTCGGCGAATATTACGCCCAGCCGCGTCTGTTCTGGCTGAGCCAGACGCCGATTGAGCAGCAGCATATTATCGATGGCTTCAGCTTCGAGCTCAGCAAAGTGGTCCGCACCTGGATCCGCGAGCGGGTGGTCGATCACCTGGCCCATATCGATACCCGGCTGGCGGAAGCGGTCGGGGCGAATTTAGGTATTGAACTGAGCGATGAGCAGCGCAGCCTCACTCTGCCCTCCCCGGTCAACGGCGTGGAGAAAGATCCCACCCTCAGCCTCTATGCGGACGCCGAAGGGGATGTGAAAGGTCGCGTGGTGGCGGTGCTGCTCAATGAGCGTACCTCGGCGCAGGACCTGGTCCATCTCCTGCAGGCGCTACAGGCTCAGGGCGTGCACAGTAAACTGCTCTATTCGCGGATGGGCGAGGTCATCGCCGACGATGGTTCTCCCGTGCCGATCGCCGGCACCTTCGCCGGTTCCCCATCGCTGACGGTGGATGCCGTGGTGGTGCCCGGCGGCGACCTCAGCGCCCTGAGCCAGAGCGGCGATGCGCGCTACTACCTGCTGGAGGCCTATAAGCACCTGAAGCCGATCCTGCTGGCAGGCGATGCGCGGCAGTTAACGTCGGTTCTCCAGGTCCCGGCCCAGGGCGAAGAGGGCGTCATCGTTAGCGATGCTCTCGACACCCCGGCGGCAGATAAACTGCTCGCCCTGATGACGGCCCATCGGGTGTGGTCGAGAAGCCCGAAAATCGCCGCTATTCCGGCGTAG	MSDKHPNPHHQQAPVHGSEEAQPGLDSLAPDDREWRPTPKPTAPGAEPTAPGSLKAPDTHSSKLDALEPQRKGGEDYPLTTNQGVRIADDQNSLRAGARGPTLLEDFILREKITHFDHERIPERIVHARGSAAHGYFQPYKSLTALTKADFLSAADKITPVFVRFSTVQGGAGSADTVRDIRGFATKFYTDEGIFDLVGNNTPVFFIQDALKFPDFVHAVKPEPHWAIPQGQSAHDTFWDYVSLQPETLHNVMWAMSDRGIPRSYRTMEGFGIHTFRLINAEGKATFVRFHWKPVAGKASLVWDEAQKLTGRDPDFHRRDLWEAIEAGDYPEFELGLQLIPEENEFDFDFDLLDPTKLIPEALVPVQRVGKMVLNRNPDNFFAENEQAAFHPGHIVPGIDFSNDPLLQGRLFSYTDTQISRLGGPNFHEIPINRPTCPYHNFQRDGMHRMEIDTNPANYEPNSINDNWPRETPPAAKRGGFESLAERVDGEKIRQRSPSFGEYYAQPRLFWLSQTPIEQQHIIDGFSFELSKVVRTWIRERVVDHLAHIDTRLAEAVGANLGIELSDEQRSLTLPSPVNGVEKDPTLSLYADAEGDVKGRVVAVLLNERTSAQDLVHLLQALQAQGVHSKLLYSRMGEVIADDGSPVPIAGTFAGSPSLTVDAVVVPGGDLSALSQSGDARYYLLEAYKHLKPILLAGDARQLTSVLQVPAQGEEGVIVSDALDTPAADKLLALMTAHRVWSRSPKIAAIPA	PGPT0014380_265	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
BMS020_05902	333	cedA		Cell division activator CedA	ATGCGCATCGGCGGCAGGGGGGCGACGAACGGGGGCACGATCGGCTATGATAGAGGTTTCTGTTTCCCGCTTTGCTTAGTGAATCCATTTGTTATGAAACCATTGCGCCAACAAAATCGCCCTGTCATTAGCTACGTGCCGCGCGTGGAGCCTGCGCCCCCGGAACATGCCGTGAAAATGGACCATTTTCGCGATGTCTGGATTTTGCGCGGGAAGTATGTCGCCTTTCTGCTGATGGGGGAGCATTTCCGCCGTTCACCGGCGTTCAGCGTGCCGGAGTCGGCGCAGCGCTGGGCTAACCAGGTGCGTCAGGAAGGTGAGATTGAAGCCTGA	MRIGGRGATNGGTIGYDRGFCFPLCLVNPFVMKPLRQQNRPVISYVPRVEPAPPEHAVKMDHFRDVWILRGKYVAFLLMGEHFRRSPAFSVPESAQRWANQVRQEGEIEA				NA	NA	NA	NA	NA
BMS020_05903	1392	tcyP	COG1823	L-cystine uptake protein TcyP	ATGAACTTTCCATTAATAGCGAACGTAGTCGTGTTCGCCGTATTGCTGTTTGCGCTGGGGCAAACTCGCCATAAACAGTGGAGCCTGGCCAGGAAGGTCCTGGTCGGCCTGGCGATTGGCGTGATCTTCGGTCTGGCGCTACAGCTGATCTATGGGTCTGACAGCCAGGTGCTGAAAGACTCCATCCAGTGGTTCAATATCGTCGGCAACGGTTATGTCCAGCTGCTGCAAATGATCGTTATGCCGCTGGTCTTCGCGTCAATCCTTAGCGCCGTGGCCCGCCTGCACAATGCCTCGCAGCTGGGGAAAATCAGCTTCCTGAGCATCGGTACTCTGCTGTTCACCACCCTGATCGCCGCCCTGGTTGGCGTGCTGGTGACCAACATGTTCGGCCTCACCGCCGAGGGGCTGGTCCAGGGCAGCGCGGAGACCGCCCGTCTGAACGCCATTCAGAGCAACTATGTGGGTAAAGTGGCCGATCTCAGCGTCCCGCAGCTGATCCTCTCCTTCGTGCCGAAGAACCCGTTTGCTGACCTCACCGGGGCTAACCCGACCTCGATCATCAGCATCGTCATTTTCTCGGCCTTCCTCGGCGTCGCAGCCCTGAAGCTGCTGAAAGAGGATGTGGAAAAAGGCCAGCGCGTACTGACCGCCATCGATACCCTGCAGGGCTGGGTGATGAAGCTGGTTCGTCTGGTGATGCAGCTGACCCCTTACGGCGTGCTGGCGCTGATGACCAAAGTGGTTGCCGGGTCGAATCTACAGGATATCATCAAGCTTGGCGGCTTCGTGGTGGCCTCGTACATCGCGCTGGGCATCATGTTTGTCGTTCACGGCCTGCTGCTGGCGATTAACGGCATCAGCCCGCTGAAGTACTTCCGTAAAGTCTGGCCGGTGATCACCTTCGCCTTCACCAGCCGCTCCAGCGCCGCCTCCATTCCGCTGAACGTGGAAGCGCAGACCCGTCGTCTCGGCGTACCGGAGTCGATTGCCAGCTTCTCCGCCTCCTTTGGCGCCACCATTGGTCAGAACGGCTGCGCCGGTATCTACCCGGCCATGCTGGCGGTGATGGTCGCGCCGACCGTAGGCATCAACCCGCTGGATCCGATGTGGATTGCCACCCTTGTGGGCATCGTCACCGTCAGCTCGGCGGGCGTCGCCGGGGTGGGCGGCGGGGCCACCTTCGCCGCGCTGATCGTCCTGCCGGCGATGGGCCTGCCGGTGACCCTCGTGGCGCTGCTGATCTCCGTCGAACCCCTGATCGATATGGGGCGTACCGCGCTGAACGTTAACGGCTCCATGACCGCCGGGACGCTGACCAGCCAGTGGCTGCGCCAGACCGACAAGTCGATTTTCGATAGCGAAGAAGAGGCCGAACTGGCGCATCGCTAA	MNFPLIANVVVFAVLLFALGQTRHKQWSLARKVLVGLAIGVIFGLALQLIYGSDSQVLKDSIQWFNIVGNGYVQLLQMIVMPLVFASILSAVARLHNASQLGKISFLSIGTLLFTTLIAALVGVLVTNMFGLTAEGLVQGSAETARLNAIQSNYVGKVADLSVPQLILSFVPKNPFADLTGANPTSIISIVIFSAFLGVAALKLLKEDVEKGQRVLTAIDTLQGWVMKLVRLVMQLTPYGVLALMTKVVAGSNLQDIIKLGGFVVASYIALGIMFVVHGLLLAINGISPLKYFRKVWPVITFAFTSRSSAASIPLNVEAQTRRLGVPESIASFSASFGATIGQNGCAGIYPAMLAVMVAPTVGINPLDPMWIATLVGIVTVSSAGVAGVGGGATFAALIVLPAMGLPVTLVALLISVEPLIDMGRTALNVNGSMTAGTLTSQWLRQTDKSIFDSEEEAELAHR				NA	NA	NA	NA	NA
BMS020_05904	591	ydjM	COG1988	Inner membrane protein YdjM	ATGACGGCGGAAGGCCATCTCTTCTTTTCAATCGCCTGCGCAGTATTTGCCAAAAACGCAGAGTTAACGCCGGTGCTGGCGCAGGGCGACTGGTGGCATATTGTGCCCTCCGCGGTCTTGACCTGCCTGCTGCCGGACATCGATCACCCAAAGTCGTTTCTTGGCCAGCGGCTGAGCTGGATCTCCAGGCCCGTGGCGCGGGCCTTTGGCCACCGCGGCTTCACCCACAGCCTGCTGGCGGTGTTTGGCGCGCTGACGCTATTCTACCTCAAGGTGCCTGACAGCTGGATTGTCCCGGCGGACGCCCTCCAGGGCCTGGTGCTGGGCTATCTCAGCCACATTCTCGCCGATATGCTCACCCCCGCCGGAGTGCCGCTGCTATGGCCGTGTCGCTGGCGCTTCCGGCTGCCGATCCTTGCGCCGCGCAAAGGCAACCAGCTGGAGCGCGCCTTATGCATGGCGCTATTCGTCTATGCCGTCTGGATGCCGCAGACGCTGGCGGACAACAGCGCGATACGCTGGTCTTCCGGGGTGATTAATTCCCTGCAGATCACCTTCAATCGCTTCATAAGTCACCAGAGTGGGCGATAA	MTAEGHLFFSIACAVFAKNAELTPVLAQGDWWHIVPSAVLTCLLPDIDHPKSFLGQRLSWISRPVARAFGHRGFTHSLLAVFGALTLFYLKVPDSWIVPADALQGLVLGYLSHILADMLTPAGVPLLWPCRWRFRLPILAPRKGNQLERALCMALFVYAVWMPQTLADNSAIRWSSGVINSLQITFNRFISHQSGR				NA	NA	NA	NA	NA
BMS020_05905	762	kduD_3		2-dehydro-3-deoxy-D-gluconate 5-dehydrogenase	ATGGTACTGAACGCCTTCGACCTGACGGGTAAGGTCGCCATCGTGACCGGTTGCGATACCGGCCTGGGACAGGGAATGACGCTGGGCCTGGCGCAGGCCGGATGCGATATCGTCGGCATCAACCGCAAAATTCCCCACGACACGGCCGCGCAGGTTGAGGCGCTGGGCCGCCGCTTTCATGCCATTCAGGCGGATCTCAGCCATCAGGATGATATGACCGTTCTGGTCGACCAGGCGGTGGCGGCGATGGGCCGGGTCGATATTCTGGTTAACAACGCCGGGATTATCCGCCGCCATGACGCCCTGACCTTCACGGAAAGCGACTGGGACGCGGTCATCGATCTGAATTTGAAAGCGGTTTTCTTCCTCTGCCAGGCGGTCGCCAGGCAGTTCATTCGCCAGGGTGAAGGCGGGAAAATTATTAACATCGCCTCGATGCTCTCGTTTCAGGGCGGGATCCGCGTCCCCTCTTATACCGCCTCGAAAAGCGGCGTGCTGGGCCTGACCCGCCTGCTGGCCAACGAATGGGCTGGTCAGGGTATCAACGTCAACGCCATTGCGCCCGGGTATATGGCCACTAATAACACCCAGGCGCTGCGCGAAGATGAAGAGCGTAACCAGGCAATCCTTGAGCGTATCCCCGCCGGTCGCTGGGGGGTGCCGGGTGACCTGCAGGGGCCGGCGGTGTTTCTCGCCTCGTCCGCCGCCGACTATATTCATGGCTATACCCTGGCCGTCGACGGCGGATGGCTGGCGCGCTGA	MVLNAFDLTGKVAIVTGCDTGLGQGMTLGLAQAGCDIVGINRKIPHDTAAQVEALGRRFHAIQADLSHQDDMTVLVDQAVAAMGRVDILVNNAGIIRRHDALTFTESDWDAVIDLNLKAVFFLCQAVARQFIRQGEGGKIINIASMLSFQGGIRVPSYTASKSGVLGLTRLLANEWAGQGINVNAIAPGYMATNNTQALREDEERNQAILERIPAGRWGVPGDLQGPAVFLASSAADYIHGYTLAVDGGWLAR	PGPT0018065_923	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018065-kduD-K00065	NA	NA
BMS020_05906	669	hxpB_2	COG0637	Hexitol phosphatase B	ATGTCAGCGAAGCGCCGCATTGAGGCTGCGATTTTTGATATGGACGGGTTGCTGATTGACTCTGAGCCGCTTTGGGATCAGGCGGAGGTCGAGGTCATGGAGAGCCTGGGGGTGGATACCCGCCGCCGCGATGAACTGCCCGACCTGCTGGGTCTGCGAATCGACCTGGTGGTGGATCTGTGGTACGCGCAGCAACCGTGGCGCGGCGTGGACCGCGCGGAAGCCACCGCGCGCATTATCCGTCGCGCCATCGAACTGGTGGAAGCCTCACGTCCGCTGCTGCCGGGGGTGCGCGAGGCGGTGGCCCTGTGTAAAGCCCAGGGGTTGAAGGTTGGGCTGGCCTCAGCCTCGCCGCTGGTGATGCTGGAGAAAGTGCTCAATATGTTCGAGCTGCGCGATCAGTTTGATGCCCTCGCCTCGGCGGAGCATCTGCCCTGGAGCAAACCGCACCCGCAGGTGTATCTCAACTGCGCCGCCGCCCTCGGGGTCGACCCACAGCGCTGCGTCGCGCTGGAGGACTCGGTCAACGGCATGATCGCCAGCAAAGCTGCGCGCATGCGCGCTATCGTGGTGCCGGAAGCGGAGAACAGCCGCGACCCGCGCTTTGTGCTGGCGGACGTCAAGCTGCCGTCACTGCAGGCCCTGACCGTCGAGGCGCTGCTCGGGTAA	MSAKRRIEAAIFDMDGLLIDSEPLWDQAEVEVMESLGVDTRRRDELPDLLGLRIDLVVDLWYAQQPWRGVDRAEATARIIRRAIELVEASRPLLPGVREAVALCKAQGLKVGLASASPLVMLEKVLNMFELRDQFDALASAEHLPWSKPHPQVYLNCAAALGVDPQRCVALEDSVNGMIASKAARMRAIVVPEAENSRDPRFVLADVKLPSLQALTVEALLG	PGPT0018430_175	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_SORBITOL_DEGRADATION,PGPT0018430-hxpB-K24204	NA	NA
BMS020_05907	537			hypothetical protein	ATGACGTACCAACAAGCTGGACGCATTGCGGTCATCAAACGTATTTTGGGATGGGTCATCTTTATTCCCGCCGTGCTGTCGACGCTGATTTCTGTCCTCAAATTTATGTATGAGCACAGTGAAAAGAAACCCGGCATTGACGCGGTAATGATGGATTTTGCGCACGTCATGATTGAGATGATGCGCTTTAACACGCCGTTCCTGAACTTTTTCTGGTACAACTCACCGCTGCCGGATTTTCACCACAGTCTGAACATCGGCTTCTGGATTATCTTCATTCTGGTGTTCGTCGGTATGGCGCTGCAGGCCTCCGGCGCGCGGATGGCGCGGCAGGCGAAATTTCTCCGCGAGGGGATTGAGGATCAGCTGATCCTCGAGCAGGCGAAAGGCGCGGAAGGGTTAACTCGCGAGCAGCTCGCCGAACGCATTGTGGTGCCGCGACATACGATCCTGGTGCAGTATTTCCCGCTGTACGTGCTGCCGGTGATCGTGATTGTCATCGGCTACTTCTTCTTCTCGCTGCTGGGCTTTCTCTAA	MTYQQAGRIAVIKRILGWVIFIPAVLSTLISVLKFMYEHSEKKPGIDAVMMDFAHVMIEMMRFNTPFLNFFWYNSPLPDFHHSLNIGFWIIFILVFVGMALQASGARMARQAKFLREGIEDQLILEQAKGAEGLTREQLAERIVVPRHTILVQYFPLYVLPVIVIVIGYFFFSLLGFL				NA	NA	NA	NA	NA
BMS020_05908	399		COG1607	putative acyl-CoA thioester hydrolase	ATGACAACAACAGATCTCGCCCCGAAGGGCGAAATGGTTTTACGCACCCTGGCAATGCCGGCGGATACAAATGCCAACGGGGATATTTTTGGCGGCTGGCTGATGTCGCAGATGGATATCGGCGGCGCCATTATGGCCAAAGAGATCGCCCAGGGTCGCGTGGTGACCGTGCGCGTGGATGGGATGACCTTTTTACGTCCGGTGGCCGTCGGCGACGTGGTGTGCTGCTATGCCCGCTGCGTGAAGCGCGGCAATACCTCGGTAACCATCAACATCGAAGTGTGGGTGAAAAAAGTCTCTTCAGAACCGATTGGCCAGCGCTACAAGGCGACGGAAGCGCTGTTTATCTACGTTGCCGTCGATAATCAGGGTAAACCACGCCCTCTGCCGGCGGAATAA	MTTTDLAPKGEMVLRTLAMPADTNANGDIFGGWLMSQMDIGGAIMAKEIAQGRVVTVRVDGMTFLRPVAVGDVVCCYARCVKRGNTSVTINIEVWVKKVSSEPIGQRYKATEALFIYVAVDNQGKPRPLPAE	PGPT0001830_402	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001830-yciA-K10806	NA	NA
BMS020_05909	540	yciB	COG2917	putative intracellular septation protein A	ATGAAGCAGTTTCTGGATTTTTTACCGCTGGTGGTCTTCTTCGCCTTCTACAAGCTTTACGATATCTACGCCGCTACCACGGCGCTGATTGTGGCGACCGCCATCGTGCTGATCTACAGCTGGGTGCGCTACCGTAAAATCGAAAAAATGGCGCTGATCACCTTCGTGCTGGTGGCCGTCTTCGGTGGATTAACGCTCTTCTTCCACAATGATGAGTTTATTAAATGGAAGGTGACGGTGATCTATGCGCTGTTCGCCGGCGCGCTGCTGTTCAGCCAGTGGGTAATGAAAAAGCCGCTTATCCAGCGCATGCTGGGTAAAGAGCTGACCCTGCCGCAGCAGGTCTGGTCGCGTCTAAACCTGGCGTGGGCGGCGTTTTTTATCCTCTGTGGGCTGGCTAATATCTATATCGCCTTCTGGTTGCCGCAGAATATCTGGGTTAACTTTAAGGTCTTCGGTTTAACCGCTCTCACGCTGGTCTTTACCTTGCTGAGCGGGATCTACATCTACCGCCATATGCCGCAGGACGACCACCACTAA	MKQFLDFLPLVVFFAFYKLYDIYAATTALIVATAIVLIYSWVRYRKIEKMALITFVLVAVFGGLTLFFHNDEFIKWKVTVIYALFAGALLFSQWVMKKPLIQRMLGKELTLPQQVWSRLNLAWAAFFILCGLANIYIAFWLPQNIWVNFKVFGLTALTLVFTLLSGIYIYRHMPQDDHH				NA	NA	NA	NA	NA
BMS020_05910	744			hypothetical protein	ATGTCTATCACGGCGAAGTCCGTCTACCGTGACACCGGGAATTTTTTTCGTAATCAGTTCATTACCATTTTGCTGATTGCGCTGTTGTGCGCGTTCATTACGGTAGTACTTGGCCATGCCTTTTCACCCAGCGACGAGCAGCTGTCGATACTCAGCGAAGGCGATAACCTCGCCGGTAGCGCAGGCCTGTTCGAGCTGGTGCAGAATATGACGCCGGAGCAGCAGCAGGTTCTGCTGCGCGCCTCGGCGGCATCGACCTTCTCGGGTCTGGTGGGCAATGCGATCCTCGCCGGCGGCGTCCTGCTGCTCATCCAGCTGGTCTCTGCCGGTCATCGCGTCAGCGCTCTGCGCGCTATCGGCGCCTCGGCGCCGGTGCTGCCGAAGCTGCTGCTGTTGATCCTCTTCACCACCTTCCTGGTGCAGATGGGGATGATGTTAGTGCTGGTGCCCGGCGTCCTGTTGGCCATTGTGCTGGCCTTTGCGCCGATCATGCTGGTGCAGGACAAAATGGGCATCCTCAGCGCCATGCGCAGCAGCATGCGTCTGGCCTGGGCCAATTTGCGGCTGGTGGCGCCGGCCATTATCGGCTGGCTGGTGGCGAAAACCCTGCTGCTGCTGTTCGCTTCCAGCTTTGCCGTGCTGACGCCGAACGTCGGCGCGGTGGTCATCAACACCATCAGCAACCTGATTTCCGCCCTGTTGCTGATCTATTTATTCCGCGTGTATATGCTTATCCGTAGCTAA	MSITAKSVYRDTGNFFRNQFITILLIALLCAFITVVLGHAFSPSDEQLSILSEGDNLAGSAGLFELVQNMTPEQQQVLLRASAASTFSGLVGNAILAGGVLLLIQLVSAGHRVSALRAIGASAPVLPKLLLLILFTTFLVQMGMMLVLVPGVLLAIVLAFAPIMLVQDKMGILSAMRSSMRLAWANLRLVAPAIIGWLVAKTLLLLFASSFAVLTPNVGAVVINTISNLISALLLIYLFRVYMLIRS				NA	NA	NA	NA	NA
BMS020_05911	414			hypothetical protein	ATGAGTGAAATCAACCCGTGCATGACGTGCGGTGCCTGTTGTGCGTATTTTCGTGTCTCTTTCTACTGGGCGGAAGCCGACGACGCGGGTGGCCTGGTGCCCTCCGCGCTGACCGAGCCGCTAACCCCTTTCCTGCGCTGCATGAGCGGCACCAATCAACGCCAGGGCCGCTGCGCGGCGCTATCGGGCGAAATCGGCGACGCCGTCCACTGCACTATCTATGAAAACCGTCCCTCGCCATGTCGCGAATTCGCCATGTCCGGGGAAGATGGCGAGGAAAACGACGCCTGCAACCGGGCGCGAGCGCGCTATGGCCTGCCGCCATTGCGGCCTCTTTACAAAGATATACCTGCCCTGACCGGCGCAGAGAGTGCTACGACGGAACGATTTGCGGTACAATCGCCGGCTAGTTAA	MSEINPCMTCGACCAYFRVSFYWAEADDAGGLVPSALTEPLTPFLRCMSGTNQRQGRCAALSGEIGDAVHCTIYENRPSPCREFAMSGEDGEENDACNRARARYGLPPLRPLYKDIPALTGAESATTERFAVQSPAS				NA	NA	NA	NA	NA
BMS020_05912	639	ompW_1	COG3047	Outer membrane protein W	ATGAAGAAGTTAGCAGCGGCGGCATTAATTCTAAGCACTCTTTCCACCGGCAGCGTCTGGGCGCATGAAGCGGGTGAATTTTTCATTCGCGCCGGGACCGCCACCGTCCGACCGACGGAGGGCTCTGACAATGTGTTAGGCAGCCTTGGCGGTTTCAACGTCAGTAACAACACTCAGCTGGGTTTAACCTTTACCTATATGGCGACCGATAACATCGGCGTGGAACTGCTGGCGGCAACGCCGTTCCGCCATAAGGTTGGTACCGGGCCAACCGGCACCATCGCCACCGTCCATCAGTTGCCACCCACCCTGATGGCGCAGTGGTACTTTGGCGATGCGCAAAGCAAGGTGCGCCCTTACGTGGGGGCGGGGATTAACTACACCACCTTCTTTAATGAAGACTTTAACGATAACGGTAAGGCGGCCGGGCTTTCCGATCTGAGCCTGAAGGACTCCTGGGGCGCGGCAGGGCAGGTCGGCCTCGATTACCTGATTAACCGTGACTGGCTGCTGAATATGTCGGTGTGGTACATGGATATCGATACCGATGTGAAATTCAAAGCCAACGGCGTGGACCAGAAAGTCAGCACCCGTCTGGATCCGTGGGTGTTTATGTTCTCCGCAGGCTATCGGTTCTAA	MKKLAAAALILSTLSTGSVWAHEAGEFFIRAGTATVRPTEGSDNVLGSLGGFNVSNNTQLGLTFTYMATDNIGVELLAATPFRHKVGTGPTGTIATVHQLPPTLMAQWYFGDAQSKVRPYVGAGINYTTFFNEDFNDNGKAAGLSDLSLKDSWGAAGQVGLDYLINRDWLLNMSVWYMDIDTDVKFKANGVDQKVSTRLDPWVFMFSAGYRF	PGPT0022210_826	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	OTHER_INTEGRAL_MEMBRANE_REMODELLING__PROTEINS,PGPT0022210-ompW|yciD-K07275	NA	NA
BMS020_05913	678		COG3128	PKHD-type hydroxylase	ATGATGTATCACATTCCTGACGTGCTAACGGCGGACCAGGTGGCTGAATATGCCCGCCTGCTGGCGCAGGCCGAATGGGTTGACGGGCGGGTTACCGTCGGCAGCCAGGGGGCGACCGTCAAGCAAAACCAGCAGATCGATACCCGCACGCCGCTGTACGCCCGTCTGCAGGCCGCCGTACTCGACGCGCTGCGCGGCCATCCGCAGTTTTTTTCCGCCGCGCTGCCGCGGACGATTTCCGCACCGTTGTTTAATCGCTACGGGCCGGGGGAGACCTACGGCTTTCATGTCGATGGCGCGGTGCGTCAGAACGGCGAAGCGGGCTGGATGCGGACCGATTTATCGGCGACGCTGTTTCTCTGCGAACCGGAAAGCTATGAGGGAGGCGAACTGGTCATTGAAGACACCTATGGCCAGCATCGGGTGAAGCTCCCGGCCGGGCATCTGGTGCTCTATCCCGCCAGCAGCCTGCACTGCGTCACCCCGGTCACCCGCGGCGTACGCCAGGCCTCTTTCCTGTGGATCCAGTCGATGGTCCGCGACGATAAGCAGCGCGCGATGCTCTACGACCTGGACCGCACGATCCAGTCGCTCAAAACGCGCTTTGGCGACGGAGAAGAGGTGCTCTCCCTGCTCAATATGTATCACAACCTGCTGCGCCAGTGGACGGAAGTGTGA	MMYHIPDVLTADQVAEYARLLAQAEWVDGRVTVGSQGATVKQNQQIDTRTPLYARLQAAVLDALRGHPQFFSAALPRTISAPLFNRYGPGETYGFHVDGAVRQNGEAGWMRTDLSATLFLCEPESYEGGELVIEDTYGQHRVKLPAGHLVLYPASSLHCVTPVTRGVRQASFLWIQSMVRDDKQRAMLYDLDRTIQSLKTRFGDGEEVLSLLNMYHNLLRQWTEV				NA	NA	NA	NA	NA
BMS020_05914	2286	fiu_2	COG4774	Catecholate siderophore receptor Fiu	ATGGAAAAAAACGCTTCTCTGCCGTTTGGCAGTTTCAACTCATTGGCATTGTTTACGGGTCTGTGTCTGGGGGCCGCGCCGGCAACCGGCATGGCAGCGGAAAAATCAGTCAAAAATAATGAAGAGACGCTGGTGGTGGAAGCCGCCCCGCCTTCGCTTTATTCTCCCGGGGCCTCCGCCGATCCCAAGTTTAATAAACCGCTGGTGGATACCACTCGCACCATCACCGTGATCCCCGAACAGGTCATTAAAGATCAGGGCGTCACCAACCTGACTGACGCCCTCAAGAACGTCCCTGGCGTCGGGGCGTTTTACGCCGGGGAGAATGGCAGCTCAACCACCGGGGACGCCATCTTTATGCGCGGCGTGGACACCTCCAACAGTATTTATGTGGACGGCATTCGCGATATCGGCAGCGTGACGCGGGATACCTTCAATACCCAGCAGGTGGAAGTCATCAAAGGGCCCGCCGGCACGGACTATGGACGCAGCGCCCCCTCCGGCTCGATCAATATGATCAGCAAGCAGCCGCGCCTTGACTCCGGGATCGACGGTTCGGCCAGCATCGGCAGCGCCTGGTCGCGCAGGGGTACCCTTGATCTTAACCAGGCCTTCGGCGACAACGCCGCGTTTCGCCTCAACCTGATGGGCGAAAAAACCCACGACGCCGGCCGGGATAAAATTGAGAACGAGCGCTACGGCATCGCTCCGTCGCTGGCCTTTGGCCTCGATACGCCCACCCGTCTGTATCTGAACTATCTCCACGTCCGGCAGAACAACACCCCGGATGGCGGGATCCCCACCGTCGGCCTGCCGGGCTATTCGGCGCCTTCGCCGAAGTATGCCGCGCTCAATTCCGCCGGTAAGGTCAATACCAGCAATTTCTATGGCACCGACTCCGATTACGATAAATCCACCACCGACAGCGGCACCCTGCGCTTCGAACACGATCTGACGGACAATACCACCGTGCGCAATACCACCCGCTGGTCGCGGGTGAAGCAGGAGTATCTCCTGACTGCGGTGATGGGCGGCGCGAGCAATATCACTGCCCCCGACATCAATGACGTCAACACCTGGAGCTGGTCACGGCTGGTTAATACCAAAGATGTCAGCAACCGCATTCTGACCAACCAGACCAATATCACCTCGACCTTCAATACCGGCTCGATAGGCCATGACGTCAGCGCCGGCGTGGAGTTTACCCGGGAAAACCAGACCAACTATGGCGTCAACGCCCTGACCGCCCCGGCGGTGAATCTCTATCATCCGGTGAGCAGCCTGTCGATTGGCGGGCTGGACAGAAACGGGGCGAACGCCAACGGCCAGACCGATACCTTCGGCATTTATGCCTTCGATACGCTGGCGCTGACCGATCGGGTTGAGGTCAACGGCGGGCTGCGTCTCGACAGTTACCATACCAAATATGACAGCGCCACCGCCTGCGGCGGCAGCGGACGCGGGGCTGTCGCCTGCCCGCCAGGACAGTCGACCGGCAGCCCGGTCACCACAGTCGATACCGCCAAATCCGGTAACCTGGTTAACTGGAAGGCCGGAGCGCTGTATCGCTTAACCGAGCAGGGCAATATCTACGTCAACTATGCCATCTCGCAGCAACCGCCGGGGGGCAGCAGCTTCGCGCTGGCCGCCAGCGGCAGCGGCAACAGCGCCAACCGGACCGACTTTAAACCGCAGAAGGCGAAATCCAGCGAACTGGGCACCAAGTGGCAGATCCTCGACAAGCGCTTGCTGCTCAGCGCGGCGTTATTCCGTACCGATATTGAAAACGAAGTGGCCGCTAACGATGACGGAACCTGGTCGCAATACGGCAAAAAGCGCGTGGAGGGGTATGAGCTCTCCGCGACCGGGAACCTGACACCGGACTGGACGATCATCGCCGGCTACACCCAGCAGCATGCCAAGGTGACGGAGGGGCAGAATGTGGCGCAGGATGGCTCTTCCGCGCTGGCCTACACTCCGAAACATGCCTTTACGCTGTGGACGCAGTATCAGGCCACCAGCGATTTGTCCGTCGGCGGCGGCGTGCGCTATGTCGGAAGCCTGCGCCGGGGCAGCGATGGCGCGGTGGGTACCCCGGATCACACCGAGGGCTACTGGGTCGCCGACGCCAAACTGGGCTATCGGGTCAACAGCAACCTCGATCTGCAGCTCAATATGTACAACCTGTTTGATACCGATTACGTGGCTTCCATCAACAAGAGCGGCTATCGCTATCATCCGGGCGAACCCCGTACCTTTATGCTGACGGCGAACGTCCATTTCTGA	MEKNASLPFGSFNSLALFTGLCLGAAPATGMAAEKSVKNNEETLVVEAAPPSLYSPGASADPKFNKPLVDTTRTITVIPEQVIKDQGVTNLTDALKNVPGVGAFYAGENGSSTTGDAIFMRGVDTSNSIYVDGIRDIGSVTRDTFNTQQVEVIKGPAGTDYGRSAPSGSINMISKQPRLDSGIDGSASIGSAWSRRGTLDLNQAFGDNAAFRLNLMGEKTHDAGRDKIENERYGIAPSLAFGLDTPTRLYLNYLHVRQNNTPDGGIPTVGLPGYSAPSPKYAALNSAGKVNTSNFYGTDSDYDKSTTDSGTLRFEHDLTDNTTVRNTTRWSRVKQEYLLTAVMGGASNITAPDINDVNTWSWSRLVNTKDVSNRILTNQTNITSTFNTGSIGHDVSAGVEFTRENQTNYGVNALTAPAVNLYHPVSSLSIGGLDRNGANANGQTDTFGIYAFDTLALTDRVEVNGGLRLDSYHTKYDSATACGGSGRGAVACPPGQSTGSPVTTVDTAKSGNLVNWKAGALYRLTEQGNIYVNYAISQQPPGGSSFALAASGSGNSANRTDFKPQKAKSSELGTKWQILDKRLLLSAALFRTDIENEVAANDDGTWSQYGKKRVEGYELSATGNLTPDWTIIAGYTQQHAKVTEGQNVAQDGSSALAYTPKHAFTLWTQYQATSDLSVGGGVRYVGSLRRGSDGAVGTPDHTEGYWVADAKLGYRVNSNLDLQLNMYNLFDTDYVASINKSGYRYHPGEPRTFMLTANVHF	PGPT0003875_595	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-OTHER_IRON_BINDING_PROTEINS,PGPT0003875-fiu|bfrD-K16090	NA	NA
BMS020_05915	273			hypothetical protein	GTGCGGGCTTTTTTTTTACTCACAACACACCTCACGCACCAGCTGCCGCAGCCGGCGGTCAAGCCGCAGGGGCTGCTGGGTGTGATGTCCTCCGGCCAGGGCAGTCTGACGAACAATCTCGGCGGCCAGCGGGAGCTCTACCGCGGAAGTAAAGCCGCGCTGAATATGTTCATGCGCAGCTTCGCCGCTCGCCCCACCTCGGCCTCCCACCCGCTGGTAGTGATGGCTCCTGGATGGATCCGCACCGAGCTCGGCGGGGCCGACGCCCCCTGA	MRAFFLLTTHLTHQLPQPAVKPQGLLGVMSSGQGSLTNNLGGQRELYRGSKAALNMFMRSFAARPTSASHPLVVMAPGWIRTELGGADAP				NA	NA	NA	NA	NA
BMS020_05917	189			hypothetical protein	GTGCGGAAGCGATTTTTATCCAAGGGTAAAGACCGTGCGCTGCTGGATATCATCAGCGTGATGAACCAGCCGGTGCGCGATGAGCAGATCCTCCAGGCGGCTGGCGTCCAGCTGGAACAGATGCTGTTTCCGCTGCTGGTGGCGGTAGGGCGCCATGGCCCGGTGGGGGGGAGCTGGCGGATCATTTAG	MRKRFLSKGKDRALLDIISVMNQPVRDEQILQAAGVQLEQMLFPLLVAVGRHGPVGGSWRII				NA	NA	NA	NA	NA
BMS020_05918	810	trpA_2		Tryptophan synthase alpha chain	ATGGAACGCTATGAGACGCTGTTTGCCCAACTAAAAAACCGCCAGGAAGGCGCCTTCGTCCCCTTTGTGACCCTTGGCGATCCGGGACCGGAGCAGTCGCTGAAAATTATCGATGCGCTGATCGAAGGCGGCGCCGATGCCCTTGAGCTGGGGATCCCCTTCTCCGACCCGCTGGCGGACGGCCCGACCATCCAGGGCGCGGCCCTGCGCGCCTTCGCCGCGGGGGTGACCCCGGCGCAGTGCTTTGAGATGCTGGCGGCGATCCGCCAGAAGCATCCGACGATCCCAATCGGCCTGCTGATGTACGCCAACCTCGTCTTCAGCCCGGGTATCGATGAGTTCTATGCCCAGTGCGCCCGCGTCGGCGTCGACTCGGTGCTGGTCGCCGACGTGCCGGTGGAAGAGTCCGCCCCGTTCCGCCAGGCGGCGATGCGCCATAACATCGCGCCGATTTTCATCTGCCCGCCCAATGCGGATGACGATTTACTGCGCCAGATTGCCTCATATGGCCGCGGCTACACCTATCTGCTGTCGCGCGCCGGGGTGACGGGTGCGGAAAATCGCGCTGCGCTGCCGCTGCACCATCTGGTGGAGAAGCTGGCGGAATATCACGCCGCACCGCCGCTGCAGGGCTTTGGCATCTCCGCGCCGGAGCAGGTGAGCGCCGCCATTGACGCCGGCGCCGCCGGGGCGATCTCCGGTTCCGCCATCGTCAAAATCATCGAACGCCATCTTGATGAGCCGCAGGCCATGCTCGACGAGCTGAAAGCCTTCGTCCAGAGCCTGAAGGCGGCGACCAAAACCGCCTGA	MERYETLFAQLKNRQEGAFVPFVTLGDPGPEQSLKIIDALIEGGADALELGIPFSDPLADGPTIQGAALRAFAAGVTPAQCFEMLAAIRQKHPTIPIGLLMYANLVFSPGIDEFYAQCARVGVDSVLVADVPVEESAPFRQAAMRHNIAPIFICPPNADDDLLRQIASYGRGYTYLLSRAGVTGAENRAALPLHHLVEKLAEYHAAPPLQGFGISAPEQVSAAIDAGAAGAISGSAIVKIIERHLDEPQAMLDELKAFVQSLKAATKTA	PGPT0007070_1806	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
BMS020_05919	1194	trpB_2	COG0133	Tryptophan synthase beta chain	ATGAGCACTTTACTGAACCCCTACTTCGGCGAATTCGGCGGCATGTATGTGCCGCAGATCCTGATGCCCGCCCTGCGCCAGCTGGAAGAAGCCTTTGTCAGCGCGCAGAAGGACCCGGCCTTTCAGGCGGAATTCACCGACCTGCTGAAAAACTACGCCGGTCGTCCGACGGCCCTGACCAAATGCCGGAACCTGACCGAAGGGACCCGCACCACCCTGTACCTGAAACGCGAAGATCTGCTGCACGGCGGCGCGCACAAAACCAACCAGGTACTGGGCCAGGCTCTGCTGGCCAAACGGATGGGCAAAACCGAAATTATCGCCGAGACCGGCGCCGGCCAGCACGGTGTCGCCTCAGCGCTGGCCAGCGCCCTGCTCGGCCTGAAATGCCGTATCTACATGGGCGCCAAGGACGTCGAACGCCAGTCGCCGAACGTCTTCCGTATGCGCCTGATGGGCGCCGAGGTGATCCCGGTGCACAGCGGTTCCGCCACGCTGAAAGATGCCTGTAACGAGGCGCTGCGCGACTGGTCCGGCAGCTACGAGAAGGCGCATTATATGCTGGGCACCGCCGCCGGTCCGCACCCGTTCCCAACCATCGTGCGTGAATTCCAGCGCATGATTGGCGAAGAGACCAAAGCGCAGATCCTCGAAAAAGAGGGACGCCTGCCGGACGCGGTGATCGCCTGCGTCGGCGGCGGATCAAACGCCATCGGCATGTTCGCTGATTTTATCGAGGAAACCCATGTCGGCCTGATCGGCGTGGAGCCTGCCGGGCACGGTATCGAAAGCGGGGAGCACGGCGCGCCGCTGAAGCATGGTCGCGTTGGGATCTACTTCGGCATGAAGTCGCCGATGATGCAAACCGCCGACGGCCAGATCGAGGAATCTTACTCCATTTCCGCCGGACTGGACTTCCCGTCCGTTGGGCCGCAGCACGCGTATCTGAACAGCACCGGGCGCGCCGACTATGTGTCGATCACCGACGACGAAGCGCTGGACGCGTTCAAAGCGCTCTCCCGCCACGAAGGGATCATCCCGGCGCTGGAGTCCTCGCACGCCCTGGCCCACGCGCTGAAGATGATGCGCGAAAACCCGGAAAAAGAGCAGCTGCTGGTGGTTAACCTCTCCGGCCGCGGCGATAAAGACATTTTCACCGTACACGACATCCTGAAAGCGCGAGGGGAAATCTGA	MSTLLNPYFGEFGGMYVPQILMPALRQLEEAFVSAQKDPAFQAEFTDLLKNYAGRPTALTKCRNLTEGTRTTLYLKREDLLHGGAHKTNQVLGQALLAKRMGKTEIIAETGAGQHGVASALASALLGLKCRIYMGAKDVERQSPNVFRMRLMGAEVIPVHSGSATLKDACNEALRDWSGSYEKAHYMLGTAAGPHPFPTIVREFQRMIGEETKAQILEKEGRLPDAVIACVGGGSNAIGMFADFIEETHVGLIGVEPAGHGIESGEHGAPLKHGRVGIYFGMKSPMMQTADGQIEESYSISAGLDFPSVGPQHAYLNSTGRADYVSITDDEALDAFKALSRHEGIIPALESSHALAHALKMMRENPEKEQLLVVNLSGRGDKDIFTVHDILKARGEI	PGPT0007075_3675	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
BMS020_05920	1359	trpC_2	COG0134	Tryptophan biosynthesis protein TrpCF	ATGCAGACCGTTTTAGCAAAAATCGTTGCCGACAAAGCGATTTGGGTGGAAGCCCGCAAACAACAACAACCGTTAGCCAGTTTTCAGAATGAGGTCGTCCCGACGCAGCGCAATTTCTATGACGCGCTGGCCGGCACCCGCACCGCGTTTATTCTCGAGTGCAAAAAGGCCTCGCCGTCGAAGGGGTTGATTCGCGAAGATTTCGATCCGGCGGCGATCGCCAGCATCTACAAACACTACGCCTCGGCGATCTCGGTGCTGTGTGATGAGAAATATTTCCAGGGCAGCTTCGATTTTCTGCCGATCGTCAGCAAGGTCGCGCCGCAGCCGATCCTGTGTAAGGACTTCACCATCGACCCTTACCAGATCTACCTGGCGCGCTACTATCAGGCCGACGCCTGCCTGCTGATGCTCTCGGTGCTCGACGATGAACAGTATCGTCAGCTCTCCGCGGTGGCTCACAGCCTGAATATGGGCGTGCTGACCGAAGTCAGCAACGAAGAGGAGCTGGAGCGCGCCATCGCTCTGAAGGCGAAGGTGGTGGGCATTAACAACCGCGACCTGCGCGATATGTCGATTGACCTTAACCGCACCCGTCAGCTGGCGGCGCGTCTCGGCCCGGATGTCACGGTGATCAGCGAATCCGGCATCCATACCTATGCCGAAGTGCGTGAGCTGAGCCACTTCGCCAACGGCTTCCTGATCGGCTCCGCCCTGATGGAGCAGGCGGATCTGGAAGCGGCGGTCAAACGCGTGCTGCTCGGCGAGAACAAAGTGTGCGGCCTGACGCGCCCACAGGATGCCCAGGTGGCCTGGGAGTCCGGCGCCATCTACGGTGGCCTGATCTTCGTCCCGACCTCGCCGCGGGCGGTAAATGATGCCCAGGCCAAAGCGGTGATCGCCGCCGCGCCGCTGCAGTACGTCGGCGTCTTCCGCAATGCGCCGCTGGACGAGGTGGTCGCCCGCGCCCAGGCCCTGGGGCTGGCCGCCGTGCAGCTGCACGGTGATGAAGACCAGGCTTATATCGACGCGCTGCGCGACGCCCTCGCGGATAACGTCCGCATCTGGAAAGCGTTGAGCGTTGGCGAAACGTTGCCGGCCCGTACACTCCGCCATGTCGATAAGTATCTGCTCGACAACGGCCAGGGCGGCAGCGGCCAGCGTTTTGACTGGAGCCTGCTGCAGGGCCAGGATCTGCGCAACGTTATGCTGGCCGGCGGCCTTGGCGCCGATAACTGTGTGGAAGCGGCCAAAAGCGGCTGTGCCGGACTCGATTTCAATTCAGGCGTAGAGTCGCAACCCGGGATTAAAGACGCCAGCAAGCTGGCCTCCGTTTTCCAGACGCTGCGCGCATATTAA	MQTVLAKIVADKAIWVEARKQQQPLASFQNEVVPTQRNFYDALAGTRTAFILECKKASPSKGLIREDFDPAAIASIYKHYASAISVLCDEKYFQGSFDFLPIVSKVAPQPILCKDFTIDPYQIYLARYYQADACLLMLSVLDDEQYRQLSAVAHSLNMGVLTEVSNEEELERAIALKAKVVGINNRDLRDMSIDLNRTRQLAARLGPDVTVISESGIHTYAEVRELSHFANGFLIGSALMEQADLEAAVKRVLLGENKVCGLTRPQDAQVAWESGAIYGGLIFVPTSPRAVNDAQAKAVIAAAPLQYVGVFRNAPLDEVVARAQALGLAAVQLHGDEDQAYIDALRDALADNVRIWKALSVGETLPARTLRHVDKYLLDNGQGGSGQRFDWSLLQGQDLRNVMLAGGLGADNCVEAAKSGCAGLDFNSGVESQPGIKDASKLASVFQTLRAY	PGPT0007085_703	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007085-trpCF-K13498	NA	NA
BMS020_05921	1596	trpGD	COG0512	Bifunctional protein TrpGD	ATGGCTGACATTCTGCTGCTCGATAATATCGATTCTTTCACCTATAACCTGGCAGACCAGCTGCGCGCAAACGGCCATAACGTGGTGATTTACCGTAACTCCGTTCCGGCGCAGGCGCTGATTGAGCGTCTGGGCACCATGGACAACCCGGTGCTGATGCTCTCCCCTGGCCCGGGTACGCCAAGCGAAGCCGGCTGCATGCCGGAATTGCTGACCCGCATGCGGGGCAAGCTGCCGATCATCGGCATCTGCCTCGGCCACCAGGCCATTGTCGAAGCCTACGGCGGCTATGTCGGCCAGGCGGGCGAGATCCTCCATGGCAAAGCCTCCAGCATTGAGCACGACGGCCAGGCGATGTTTGCCGGTCTGGCTAACCCGCTGCCGGTGGCGCGCTACCACTCGCTGGTCGGCAGCAATATTCCCGCCGGGCTGACGATTAACGCCAATTTCAACGGCATGGTGATGGCGGTGCGTCACGATGCGGACCGGGTGTGCGGCTTCCAGTTCCACCCGGAATCGATCCTCACCACCCAGGGCGCGCGACTGCTGGAGCAGACTCTGGCCTGGGCGCTGCAGAAGCTGGAGCATACCAACACCCTCCAGCCGATCCTGGAGAAACTGTACCAGGCGGAAACCCTGAGTCAGCAGGAGAGCCACCAGCTGTTCTCCGCTGTGGTGCGCGGCGAAGTGAAGCCTGAACAGCTGGCCGCCGCGCTGGTCAGCATGAAAGTGCGCGGCGAGCAGCCGCAGGAAATTGCCGGCGCCGCCACCGCGCTACTGGAAAACGCCGCGCCGTTCCCGCGCCCGGACTACCTGTTTGCCGACATCGTCGGCACCGGTGGCGACGGCAGCAACAGCATTAATATCTCCACCGCCAGCGCGTTTGTCGCCGCCGCCTGTGGATTAAAAGTGGCGAAGCACGGCAACCGCAGCGTCTCCAGTAAATCAGGCTCTTCCGACCTGCTGGCGGCCTTCGGCATTAATCTCGATATGAACGCCGATAAATCCCGCGCGGCGCTCGATGAGCTGGGCGTCTGCTTCCTGTTCGCGCCCAAGTATCACACCGGTTTCCGCCACGCGATGCCGGTCCGTCAGCAGTTGAAGACCCGTACCCTGTTTAATGTGCTGGGACCGCTGATCAACCCGGCGCATCCGCCGCTGGCGCTGATTGGCGTCTACAGCCCGGAGCTGGTGTTGCCGATTGCGGAAACCCTGCGCGTACTCGGTTATCAGCGCGCGGCCGTGGTGCACAGCGGCGGGATGGATGAAGTCTCGCTGCATGCGCCCACGGTGGTCGCCGAGCTGCATGCCGGAGAAATCAAAAGCTATCAGTTGACCGCCGACGACTTCGGCCTGACGCCTTACCATCAGGCGCAGCTGGCGGGCGGTACGCCGGAAGAAAACCGTGACATTCTGACGCGCTTGCTACAAGGTAAAGGTGAAGCCGCTCACGAAGCCGCCGTCGCCGCCAACGTCGCCATGTTGATGCGTTTACACGGGCATGAAGATCTGAAAGCTAACGCTCAGCAGGTACTGGATGTGCTGCACAGCGGCGCGGCCTATGACAGAGTGACCGCCTTAGCGGCAAGAGGGTAA	MADILLLDNIDSFTYNLADQLRANGHNVVIYRNSVPAQALIERLGTMDNPVLMLSPGPGTPSEAGCMPELLTRMRGKLPIIGICLGHQAIVEAYGGYVGQAGEILHGKASSIEHDGQAMFAGLANPLPVARYHSLVGSNIPAGLTINANFNGMVMAVRHDADRVCGFQFHPESILTTQGARLLEQTLAWALQKLEHTNTLQPILEKLYQAETLSQQESHQLFSAVVRGEVKPEQLAAALVSMKVRGEQPQEIAGAATALLENAAPFPRPDYLFADIVGTGGDGSNSINISTASAFVAAACGLKVAKHGNRSVSSKSGSSDLLAAFGINLDMNADKSRAALDELGVCFLFAPKYHTGFRHAMPVRQQLKTRTLFNVLGPLINPAHPPLALIGVYSPELVLPIAETLRVLGYQRAAVVHSGGMDEVSLHAPTVVAELHAGEIKSYQLTADDFGLTPYHQAQLAGGTPEENRDILTRLLQGKGEAAHEAAVAANVAMLMRLHGHEDLKANAQQVLDVLHSGAAYDRVTALAARG	PGPT0007110_1	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007110-trpDG-K13497	NA	NA
BMS020_05922	1563	trpE_1	COG0147	Anthranilate synthase component 1	ATGCAAACATCCAAACCGGCACTCGAGCTTCTCACCAGCGACGCCATCTACCGGGAGAACCCGACGGCGTTATTCCACCAACTGTGCGGCGCCCGTCCGGCCACCCTGCTGCTGGAATCGGCTGACATCGACAGCAAAGATGACTTAAAAAGCCTGCTGCTGGTCGACAGCGCGCTGCGCATTACTGCCCTCGGTGACACTGTCACCATTCAGGCCCTCTCCGCCAACGGCGCCGCGCTGCTGGAGCTGCTGGACGGCGCGCTGCCCTCCGGGATCGCCAATCAGCGCCAGCCCAATGGCCGCATCCTGACCTTCCCGGCGGTCAGCTCCCTGCTCGATGAAGACGCCCGCCTCTGCTCGCTGTCAGTGTTTGACGCCTTCCGTCTCCTGCAGGAGCTGGTGACCGTCCCGGCCAACGAGCGTGAAGCGATGTTCTTCGGCGGCCTGTTCGCCTATGACCTGGTGGCCGGCTTTGAAGATCTGCCGCCGCTGCAGAGCGACACCGCCTGCCCGGACTACTGTTTCTATCTGGCGGAGACCCTGCTGGTCATCGACCATCAGACCAAGCATACCCGCATTCAGGCGAGCCTGTTCACGCCGCTGGAGAGTGAAAAACAGCGCCTGGAGCAGCGCCTGAGCCAGCTACGCCAGCAGCTGAACGAGCCGCCGCTGCCGCTGCCGGTCACCACCGTGGCCGAAATGCGCTGCGACGTTGACCAGAGCGATGAAGAGTACGGCGCGGTGGTGCGCAAAATGCAGCGCGCGATCCGCGCCGGGGAAATCTTCCAGGTGGTCCCTTCCCGCCGCTTCTCGCTGCCCTGCCCGTCGCCGCTGGCCGCCTATGATGTGCTGAAGAAGAGTAACCCCAGCCCGTATATGTTCTTTATGCAGGACAACGATTTCACCCTGTTCGGCGCCTCGCCGGAGAGCTCGCTGAAGTACGATGCCATCAGCCGTCAGATTGAGATCTACCCCATCGCCGGCACCCGGCCGCGCGGCCGCCGCGCCGACGGTTCGCTGGACCGCGATCTCGACAGCCGTATCGAACTGGAAATGCGCACCGATCACAAAGAGCTTTCCGAGCACCTGATGCTGGTGGACCTGGCGCGCAACGATCTGGCCCGCATCTGCACCCCGGGCAGCCGCTATGTCGCCGATTTAACCAAGGTTGACCGTTACTCCTTTGTCATGCATCTGGTCTCCCGGGTGGTGGGTGAACTGCGTCAGGATCTTGATGTGCTGCACGCCTACCGCGCCTGCATGAACATGGGCACTCTCAGCGGCGCGCCGAAGGTTCGCGCCATGCAGCTGATTGCCGCCGCCGAAGGTAAACGACGCGGCAGCTACGGCGGCGCGGTGGGCTATTTCACCGCCCACGGCGACCTCGACACCTGCATCGTCATCCGTTCCGCCTACGTGCAGCAGGGTATCGCTACCGTCCAGGCCGGAGCCGGCATTGTGCTCGACTCGGTTCCCCAGTCGGAAGCGGATGAGACCCGAAATAAAGCCCGCGCGGTGCTGCGCGCCATTGCCCAGGCCCATCACGCGAAGGAGATTTTCTGA	MQTSKPALELLTSDAIYRENPTALFHQLCGARPATLLLESADIDSKDDLKSLLLVDSALRITALGDTVTIQALSANGAALLELLDGALPSGIANQRQPNGRILTFPAVSSLLDEDARLCSLSVFDAFRLLQELVTVPANEREAMFFGGLFAYDLVAGFEDLPPLQSDTACPDYCFYLAETLLVIDHQTKHTRIQASLFTPLESEKQRLEQRLSQLRQQLNEPPLPLPVTTVAEMRCDVDQSDEEYGAVVRKMQRAIRAGEIFQVVPSRRFSLPCPSPLAAYDVLKKSNPSPYMFFMQDNDFTLFGASPESSLKYDAISRQIEIYPIAGTRPRGRRADGSLDRDLDSRIELEMRTDHKELSEHLMLVDLARNDLARICTPGSRYVADLTKVDRYSFVMHLVSRVVGELRQDLDVLHAYRACMNMGTLSGAPKVRAMQLIAAAEGKRRGSYGGAVGYFTAHGDLDTCIVIRSAYVQQGIATVQAGAGIVLDSVPQSEADETRNKARAVLRAIAQAHHAKEIF	PGPT0007095_1078	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
BMS020_05924	864	yciV	COG0613	5'-3' exoribonuclease	TTGAGCGACAGCCAATACGCAGTGATTTACGATCTGCACAGCCATACCACCGCCTCTGACGGGCGGCTGACTCCGCAGGAACTGGTCCATCGCGCCCATGAGATGCGCGTTGGCACGCTGGCGATCACCGACCATGACAGCGTGGCGGCTATCCCGGCGGCCCGGGAAGAGATTGCCCGCGCCGGATTACCCTTGACCCTGGTGAACGGCGTCGAGATTTCCACCCTCTGGGAGAATCACGAGATTCATATTGTGGGTCTCAATATTGATATTGCGCACCCGGCGATGACCGCCCTGCTGGAGGAGCAGAAAGCGCGGCGCCAGCAGCGCGGCCAGATGATTGCCGAGCGTCTGGAGAAGGCGCGCATCCCCGGCGCCTGGGAAGGGGCGCTGCGGCTGGCGGACGGTGGCGCCGTCACCCGCGGCCATTTTGCCCGTTTTCTGGTGGAGGCCGGCCACGCGAAGAACATGGCGGAGGTCTTCAAAAAATACCTTGCCCGTGGGAAAACCGGTTACGTGCCGCCGCAGTGGTGTACAATAAAACAAGCAATTGATGTCATTCATCATTCTGGCGGCAAGGCGGTGATAGCCCATCCCGGACGTTACGATCTTTCCGCCAAGTGGCTGAAGCGGCTGTTGGCCCACTTTAGCGAGCAGGGCGGTGATGCCATGGAAGTGGCCCAGTGCCAGCAGGCGCCCCACGAACGCGCTCAACTGGCCGCCCTGGCCGTGCAGTTTGGTCTTCTGGCGTCGCAGGGATCCGATTTCCATCAGCCCTGCGCGTGGATCGAGCTTGGCCGTAAGCTCTGGCTCCCTGCCGGCGTCGAAGGCGTCTGGCACAGCTGGGAAGCGGCCGCCGAATAA	MSDSQYAVIYDLHSHTTASDGRLTPQELVHRAHEMRVGTLAITDHDSVAAIPAAREEIARAGLPLTLVNGVEISTLWENHEIHIVGLNIDIAHPAMTALLEEQKARRQQRGQMIAERLEKARIPGAWEGALRLADGGAVTRGHFARFLVEAGHAKNMAEVFKKYLARGKTGYVPPQWCTIKQAIDVIHHSGGKAVIAHPGRYDLSAKWLKRLLAHFSEQGGDAMEVAQCQQAPHERAQLAALAVQFGLLASQGSDFHQPCAWIELGRKLWLPAGVEGVWHSWEAAAE				NA	NA	NA	NA	NA
BMS020_05925	621	yciO	COG0009	putative protein YciO	ATGAGCCAGTTTTTTTATATCCATCCGGATAACCCGCAGGCGCGGTTGATTAACCAGGCGGTGGAGATTGTGCGTAAGGGCGGGGTGATCGTTTATCCTACTGACTCCGGCTACGCGCTGGGCTGCAAAATTGAAGACAAGGGCGCGATGGAGCGGATCTGCCGCATCCGTCAGCTGCCGGACGGCCACAACTTCACCCTGATGTGCCGCGACCTGTCCGAACTGTCAACCTACGCCTTTGTGGACAACGTGGCGTTTCGCCTGATGAAAAACAATACGCCGGGCAACTACACTTTTATCCTCAAAGGAACGAAAGAGGTGCCGCGCCGGCTGCTGCAGGAGAAGCGTAAAACCATTGGTATGCGCGTCCCGTCCAATCCCATCGCTCAGGCGTTGCTTGAGACCTTAGGCGAACCGATGCTCTCCACCTCGCTGATGCTGCCCGGCAGCGACTTTACCGAATCCGACCCGGAAGAGATCAAAGATCGTCTGGAGAAAGTCGTGGACCTCATTATCCACGGCGGCTTCCTTGGACAGCAGCCGACCACGGTTATCGATCTCACTGAAGACGCTCCGGTTGTACTGCGCGAAGGCGTCGGCGACGTGAGGCCGTTTCTGTAA	MSQFFYIHPDNPQARLINQAVEIVRKGGVIVYPTDSGYALGCKIEDKGAMERICRIRQLPDGHNFTLMCRDLSELSTYAFVDNVAFRLMKNNTPGNYTFILKGTKEVPRRLLQEKRKTIGMRVPSNPIAQALLETLGEPMLSTSLMLPGSDFTESDPEEIKDRLEKVVDLIIHGGFLGQQPTTVIDLTEDAPVVLREGVGDVRPFL				NA	NA	NA	NA	NA
BMS020_05926	663			hypothetical protein	ATGCTTCATGAGCTGATATCGTTAATCAATGTTGTTATTTGGCCCGCTATTGTTCTGTTTTTTCTATGTCGATTTGGAACTGCAATCAACCGGTTTCTTGAAAACCTCAGCCGCCTTTCCATTAAAGGTCCCGGCTTTGAAGTCGAGACCTTCAATAAAGGGGCTGAGTCTAGTGCCAATCTTGCCGCTGCATTGGCCAGCAAAGGTACCATTGCTAAAGGCGAGGGTAATGTAGAGCAAAGCGTTCTGGATGACGTCAACGTAGTGACTCAGGCTGTAACACCGAGAGTATTGCGAAGAGCGGGTGATGCCGTCATCTTATGGGTTGATGACAGACCCAATGGTAATCGCTTTGAACGTCAGTCCATGGAAGCTCTGGGCATAAGGTTTGTTAATGTAGTATCTACCGACGAGGCTCTCGAGAGACTAAAAAATCAGTCGTTTGATGTGATTATTTCCGATATGAAGAGGCCTGGGGATGATCGTGCGGGATATACTCTCCTGGATGAGCTAAGAAGAAAGGGCAAAGACATTCCATACATTATCTATGCGAGCTCCAATGCTGCTCAGCATAAGGAACAAGCAAAACAGCATGGCGCTTTAGACGCGACCAATAATCCGCCGGAATTATTTCGCCTGGTCATGGGGGCGTTAAAAAAATAA	MLHELISLINVVIWPAIVLFFLCRFGTAINRFLENLSRLSIKGPGFEVETFNKGAESSANLAAALASKGTIAKGEGNVEQSVLDDVNVVTQAVTPRVLRRAGDAVILWVDDRPNGNRFERQSMEALGIRFVNVVSTDEALERLKNQSFDVIISDMKRPGDDRAGYTLLDELRRKGKDIPYIIYASSNAAQHKEQAKQHGALDATNNPPELFRLVMGALKK				NA	NA	NA	NA	NA
BMS020_05927	903	rluB_2	COG1187	Ribosomal large subunit pseudouridine synthase B	ATGAGCGAGAAACTGCAAAAAGTGCTGGCCCGCGCCGGCCACGGCTCCCGCCGTGAAATTGAAGCGAAAATCGAAGCTGGCCGCGTCAGCGTCGATGGCAAAATCGCCACCCTCGGCGACCGTGTGGAAATCGTCCCCGGTTTAAAAATTCGTATCGATGGCCATCTGATCTCGGTGAAAGAGTCCGCCGAGCAGATCTGCCGCGTGCTGGCTTACTACAAGCCGGAAGGCGAACTGTGCACCCGTAACGATCCGGAAGGGCGCCCGACGGTGTTCGATCGTCTGCCTAAACTGCGCGGCGCGCGCTGGATTGCCGTTGGTCGTCTGGACGTCAACACCTGCGGCCTGCTGCTGTTCACCACCGACGGCGAACTGGCAAACCGTCTGATGCACCCGAGCCGTGAAGTCGAGCGTGAGTACGCCGTTCGCGTTTTCGGCCAGGTGGATGAAGATAAGCTGCGTCAACTGTCTCGCGGCGTGCAGCTAGAGGATGGTCCGGCGGCGTTTAAAACCATTAAATTCACCGGCGGTGAAGGGATTAACCAGTGGTACAACGTCACCCTGACCGAAGGGCGTAACCGCGAAGTGCGTCGCCTGTGGGAAGCGGTCGGCGTGCAGGTCAGCCGCCTGATCCGCGTGCGCTATGGCGATATTTTGCTGCCGAAAGGCCTGCCGCGCGGCGGCTATACCGAGCTGGACCTGGCGCAGACCAACTACCTGCGCGAGCTGGTGGAACTCACTCCGGAAACCAGCTCTAAGGTCGCCGTTGAAAAAGATCGGCGCCGGTTGAAAGCCAATCAGATCCGCCGGGCGGTGAAGCGCCACAGCCAGAGCAGCGCTAACCCGCGCCAGGGTAATAACAGCAACCGCCGTTCCAGTACCCGCAATAAGACCAACGGTTGA	MSEKLQKVLARAGHGSRREIEAKIEAGRVSVDGKIATLGDRVEIVPGLKIRIDGHLISVKESAEQICRVLAYYKPEGELCTRNDPEGRPTVFDRLPKLRGARWIAVGRLDVNTCGLLLFTTDGELANRLMHPSREVEREYAVRVFGQVDEDKLRQLSRGVQLEDGPAAFKTIKFTGGEGINQWYNVTLTEGRNREVRRLWEAVGVQVSRLIRVRYGDILLPKGLPRGGYTELDLAQTNYLRELVELTPETSSKVAVEKDRRRLKANQIRRAVKRHSQSSANPRQGNNSNRRSSTRNKTNG				NA	NA	NA	NA	NA
BMS020_05928	591	btuR_1	COG2109	Corrinoid adenosyltransferase	ATGAGTGATGAACGCTACCGCGAACGCCAGCAGCGGCTGAAAGATAAAGTTGACGCCCGGGTGGCGGCGGCCCAGGACGAACGCGGCATTGTGATGGTCTTTACCGGCAACGGCAAAGGCAAAACCACCGCCGCCTTTGGCACCGCGACCCGCGCCGTCGGCCACGGCAAAAAAGTCGGCGTGATCCAGTTTATCAAGGGGACCTGGCCTAACGGCGAGCGTAATCTGCTGGAGCCACACGGCGTCGAATTCCAGGTAATGGCGACAGGCTTTACCTGGAACACCCAGGACCGCGACAGCGATACCGCCGCCTGTCTGGCGGTCTGGGAGCATGCCCGCCGTATGCTTGCCGACGACCAGCTCGATCTGGTGCTGCTGGACGAACTGACCTACATGGTGGCCTACGATTACCTGCCGCTGGAGGCGGTGCTGAGCGCCCTACGTGAGCGTCCTGCCCACCAGTCGGTGATCATCACCGGCCGCGGCTGTCATCGCGATATTATTGAACTGGCGGATACCGTCAGCGAGCTGCGCCCGGTGAAACATGCCTTTGATGCCGGCATTAAAGCACAGATGGGGATTGACTACTGA	MSDERYRERQQRLKDKVDARVAAAQDERGIVMVFTGNGKGKTTAAFGTATRAVGHGKKVGVIQFIKGTWPNGERNLLEPHGVEFQVMATGFTWNTQDRDSDTAACLAVWEHARRMLADDQLDLVLLDELTYMVAYDYLPLEAVLSALRERPAHQSVIITGRGCHRDIIELADTVSELRPVKHAFDAGIKAQMGIDY	PGPT0004645_1869	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004645-cobA|btuR-K19221	NA	NA
BMS020_05929	801	yciK_2	COG1028	putative oxidoreductase YciK	ATGAAGCGCGATCGAGAGCCGATCGCCAAAGGAGTCGCCGTGCATTATCAACCGCAACGCCACTTGCTGAAAGATCGCATCATTCTGGTCACCGGGGCCAGCGACGGAATTGGCCGTGAAGCGGCCCTGACCTACGCCCGCTACAGTGCCAGCGTGATTCTGCTTGGCCGCAACGACGAAAAACTGCGCGCCGTCGCCCAGGAGATTGAACGCGAGGGCGGTATTTCCCCCCGCTGGTTTACTCTCGACCTGCTAACCTGCACGCCGCAGGCGTGTCAGCAGCTGGCGCAGCAGATCAGCATGCACTATCCCCGCCTTGACGGCGTGCTGCACAATGCTGGCCTGCTCGGCGATATCTGCCCGATGGATGAGCAGAAACCGGAGGTCTGGCAGCAGGTGATGCAGGTGAACGTCAATGGCACCTTTATGCTGACCCAGGCGCTTCTTCCTTTATTACTCCGTTCCGAATCAGGTTCGCTGGTCTTTACCTCATCCAGCGTCGGTCGTCAGGGTCGCGCCAACTGGGGCGCCTATGCCGTCTCCAAATTCGCTACCGAAGGGATGATGCAGGTGCTGGCCGACGAGTACCAAAGCCGCCACCTGCGCGTGAACTGCATCAACCCTGGCGGCACCCGCACCGGCATGCGCGCCAGCGCGTTCCCGACGGAAGATCCGCTGAAACTGAAAACCCCCGCTGACATTATGCCCGTCTATCTGTGGCTGATGGGCGACGACAGTCGTCGCAAGACGGGAATGACCTTCGACGCCCAACCGGGGCGTAAACCAGGAATTGCCCAATGA	MKRDREPIAKGVAVHYQPQRHLLKDRIILVTGASDGIGREAALTYARYSASVILLGRNDEKLRAVAQEIEREGGISPRWFTLDLLTCTPQACQQLAQQISMHYPRLDGVLHNAGLLGDICPMDEQKPEVWQQVMQVNVNGTFMLTQALLPLLLRSESGSLVFTSSSVGRQGRANWGAYAVSKFATEGMMQVLADEYQSRHLRVNCINPGGTRTGMRASAFPTEDPLKLKTPADIMPVYLWLMGDDSRRKTGMTFDAQPGRKPGIAQ				NA	NA	NA	NA	NA
BMS020_05930	1092	sohB	COG0616	putative protease SohB	ATGTACACTGTGCAGCAACGTCAGTGCTTTACACAAGGTGAAAACGTGGAATTACTTGCTCAATATGGCTTGTTTTTAGCCAAGATCGCGACCGTTGTCTTCGCTATCGCGGTGATTGCCGCTATTATCGTCAACCTGGCCCAGCGCAAGAAGCAGCGCGGCGAGCTGCGGGTGACGAATCTTAGCGAGCATTATAAAGAGATGAAGGAGTCGCTGGCGGTGGCCCTGCTGGATGGCCCGCAGCAGAAGCAGTGGCATAAGTCGCAGAAGAAAAAGCAAAAGCAAGAGGCAAAGGCGGCGAAAGCGCGGGCGAAGCTGGGTAACGTGGAACCGGAAGGCAAGCCGCGCGCCTGGGTGCTGGATTTCAAAGGCAGCATGGATGCCCATGAGGTCACCAGCCTGCGCGAAGAGATCACCGCGGTGCTGGCCACGGCGAAAGCGCGCGATCAGGTGGTGATTCGTCTGGAAAGCCCCGGCGGGGTGGTGCACGGCTACGGGCTGGCTGCCTCTCAGCTGCAGCGCTTGCGTGACAAACAGATCCCGCTGACGGTGGCGGTCGATAAAGTGGCGGCCAGCGGCGGCTATATGATGGCCTGCGTGGCGAACAAAATTGTCTCGGCGCCGTTTGCGATCCTCGGCTCTATTGGCGTGGTGGCGCAGATCCCAAACCTGCACCGTTTCCTGAAGAACAAAGATATTGATATCGAACTGCACACCGCCGGACAGTACAAACGAACGCTCACTATGCTGGGTGAAAACACTGAAGAAGGACGGCGCAAGTTCCGCGAGGATCTCAATGAGACGCACCATTTGTTCAAGGATTTCGTCCATCGGATGCGCCCGGGCCTTGATATTGAGCAGGTGGCCACTGGCGAGCACTGGTACGGGGTACAGGCGCTGGAAAAAGGGCTGGTGGATGCGGTTGAAACCAGCGATGAGCTGCTGCTGGGATTAATGGAAAGCCACGAGGTGATCGGGGTGCGTTATCAACAGCGTAAGAAAATGCTCGATCGCTTCACCGGTAGCGCGGCGGAGAGTGCCGATCGACTGCTGCTGCGCTGGTGGCAGCGCGGACAGAAGCCGCTGATGTAG	MYTVQQRQCFTQGENVELLAQYGLFLAKIATVVFAIAVIAAIIVNLAQRKKQRGELRVTNLSEHYKEMKESLAVALLDGPQQKQWHKSQKKKQKQEAKAAKARAKLGNVEPEGKPRAWVLDFKGSMDAHEVTSLREEITAVLATAKARDQVVIRLESPGGVVHGYGLAASQLQRLRDKQIPLTVAVDKVAASGGYMMACVANKIVSAPFAILGSIGVVAQIPNLHRFLKNKDIDIELHTAGQYKRTLTMLGENTEEGRRKFREDLNETHHLFKDFVHRMRPGLDIEQVATGEHWYGVQALEKGLVDAVETSDELLLGLMESHEVIGVRYQQRKKMLDRFTGSAAESADRLLLRWWQRGQKPLM				NA	NA	NA	NA	NA
BMS020_05931	252	yciN		Protein YciN	ATGCAAGGTACAACCCAACCAATCGATCGCCAGACGCTGCTCGAAAAAGCCAACAAACTTATTCGCGAACATGAGGATACGTTAGCCGGTATCGAAGCCACCGACGTCGTTCAGCGCAACAATGTCCTGGTGTTTAGCGGTGAGTTCTATCTTGATGAGCAGGGTCTGCCGACGCCAAAGAGTACAGCGGTATTTAATATGTTTAAGTACCTCGCCCATGAGCTGTCGGACAAATATCACCTTGTCGATTAA	MQGTTQPIDRQTLLEKANKLIREHEDTLAGIEATDVVQRNNVLVFSGEFYLDEQGLPTPKSTAVFNMFKYLAHELSDKYHLVD				NA	NA	NA	NA	NA
BMS020_05932	2598	topA_1	COG0550	DNA topoisomerase 1	ATGGGTAAAGCTCTCGTTATCGTTGAGTCCCCGGCAAAAGCCAAAACGATCAATAAGTATCTGGGTAATGACTACGTGGTGAAATCCAGCGTCGGTCATATCCGCGATTTGCCGACCAGTGGATCAGCTTCCAAAAAGAGCACCGACTCTACCGCCACCAAAGGGGCTAAAAAGCCTAAAAAGGACGAACGTGGTGCTCTGGTTAACCGCATGGGCGTGGACCCATGGCATGACTGGAATGCGCATTATGAAGTACTTCCGGGTAAAGAAAAGGTAGTTTCAGAACTCAAACAGTTGGCGGAAAAAGCTGACCACATCTATCTCGCAACCGACCTTGACCGCGAAGGGGAAGCCATTGCCTGGCACCTGCGGGAAGTCATCGGCGGCGATGAGCAGCGTTACAGCCGCGTGGTGTTCAATGAGATCACCAAAAACGCCATTCGTCAGGCTTTCGAAAAGCCGGGCGAGCTGAATATCGATCGGGTTAACGCCCAGCAGGCGCGTCGCTTTATGGACCGCGTGGTGGGTTATATGGTTTCGCCGCTGCTGTGGAAAAAAATCGCCCGTGGTCTTTCTGCCGGGCGCGTGCAGTCCGTCGCGGTCCGCCTGGTGGTGGAGCGTGAGCGTGAAATCAAAGCGTTCGTCCCGGAAGAGTACTGGGAAGTTGATGCCAGTACCACCACGCCGGGCGGCGACGCGCTGCCGCTGCAGGTGACCCATAAGGATGATAAGCCATTCCGTCCGGTCAGCCGTGATGAGACGATGGCGGCGGTATCGCTGCTGGAAAAAGCCAGCTACAGCGTACTGGAGCGGGAAGACAAGCCGACCAGCAGTAAGCCGGGCGCGCCGTTCATCACCTCCACCCTGCAGCAGGCGGCCAGCACCCGTCTCGGCTTCGGCGTGAAAAAGACCATGATGATGGCTCAACGTCTCTATGAGGCGGGTCACATCACCTATATGCGTACCGACTCCACCAACCTGAGTCAGGACGCGCTGAACATGGTTCGCGGTTATATCAGCGATAAGTTTGGTAAAAAATATTTGCCGGAAAGCGCGAATCAGTACGCCAGCAAAGAAAATTCACAAGAAGCGCACGAAGCGATTCGTCCGTCTGATGTGAACGTGCTGGCGGAAACGCTGAAAGATATGGAAGCGGATGCGCAGAAACTGTATCAGCTGATCTGGCGCCAGTTTGTCGCCTGTCAGATGACGCCGGCGCAGTACGACTCCACGACGCTGACCGTGGCGGCTGGCGATTTCAAACTGAAAGCGCGCGGTCGTACCTTACGCTTCGACGGCTGGACCAAAGTGATGCCGGCCCTGCGCAAGGGCGATGAAGACCGGACCCTGCCGCTGGTCAAACAGGGCGACCAGCTGAGCCTGGTCGAGCTGACGCCTGCGCAGCACTTTACCAAGCCGCCGGCGCGCTTCAGCGAAGCCTCGCTGGTTAAAGAGCTGGAAAAACGGGGCATCGGCCGTCCGTCGACTTATGCCTCGATTATTTCCACCATTCAGGATCGTGGTTACGTGCGAGTGGAAAACCGTCGTTTCTACGCGGAGAAAATGGGCGAGATCGTCACCGACCGACTGGAAGAGAACTTCCGCGATCTGATGAACTACGACTTCACCGCGCAGATGGAAGATCGTCTCGATCAGGTGGCTAACCACCAGGCCGAGTGGAAAGAGGTACTGAACCACTTCTTCGGCGATTTTACCACCCAGCTGGAGACGGCGGAGAAAGATCCGGAAGAGGGCGGCATGCAGCCGAACCCGATGGTGCTTACCAGCATCGACTGCCCGACCTGCGGCCGTAAAATGGGTATCCGTACCGCCAGCACCGGCGTTTTCCTCGGCTGTTCGGGCTATGCCCTGTCGCCGAAAGAGCGCTGCAAAACCACCATTAACCTGGTGCCGGAAAACGAAGTCCTCAACGTGCTGGAAGGCGATGACGCCGAAACTAACGCGCTGCGCGCCAAACGCCGCTGCCAGAAGTGCGGTACGGCGATGGACAGCTACCTTATCGATCCCAAGCGTAAACTGCACGTCTGCGGTAACAACCCGACCTGCGATGGCTATGAGATTGAAGAGGGCGAGTTCCGCATCAAGGGTTATGACGGTCCGGTAGTGGAGTGCGAGAAGTGCGGCTCCGAGATGCACCTGAAGATGGGGCGTTTTGGGAAGTACATGGCTTGTACCAACGACGAGTGTAAGAATACGCGTAAGATCCTGCGAAATGGGGAAGTGGCGCCGCCGAAGGAAGATCCGGTGCCGCTGCCGGAGCTGCCGTGCGAGAAGTCTGACGCCTATTTCGTGCTGCGTGACGGGGCCGCGGGCGTCTTCCTGGCGGCCAACACCTTCCCGAAATCACGGGAAACGCGCGCGCCGCTGGTGGAAGAGCTGTACCGCTTCCGCGATCGTCTGCCGGAAAAACTGCGTTATCTCGCCGATGCGCCGCAGCAGGATCCGGAAGGCAATAAGACGCTGGTGCGCTTTAGCCGTAAAACGAAGCAACAGTACGTAGCGTCCGAAAAAGAGGGCAAAGCGACCGGCTGGTCTGCCTTCTTTATCGACGGTAAATGGACGGAAGCTAAAAAGTAA	MGKALVIVESPAKAKTINKYLGNDYVVKSSVGHIRDLPTSGSASKKSTDSTATKGAKKPKKDERGALVNRMGVDPWHDWNAHYEVLPGKEKVVSELKQLAEKADHIYLATDLDREGEAIAWHLREVIGGDEQRYSRVVFNEITKNAIRQAFEKPGELNIDRVNAQQARRFMDRVVGYMVSPLLWKKIARGLSAGRVQSVAVRLVVEREREIKAFVPEEYWEVDASTTTPGGDALPLQVTHKDDKPFRPVSRDETMAAVSLLEKASYSVLEREDKPTSSKPGAPFITSTLQQAASTRLGFGVKKTMMMAQRLYEAGHITYMRTDSTNLSQDALNMVRGYISDKFGKKYLPESANQYASKENSQEAHEAIRPSDVNVLAETLKDMEADAQKLYQLIWRQFVACQMTPAQYDSTTLTVAAGDFKLKARGRTLRFDGWTKVMPALRKGDEDRTLPLVKQGDQLSLVELTPAQHFTKPPARFSEASLVKELEKRGIGRPSTYASIISTIQDRGYVRVENRRFYAEKMGEIVTDRLEENFRDLMNYDFTAQMEDRLDQVANHQAEWKEVLNHFFGDFTTQLETAEKDPEEGGMQPNPMVLTSIDCPTCGRKMGIRTASTGVFLGCSGYALSPKERCKTTINLVPENEVLNVLEGDDAETNALRAKRRCQKCGTAMDSYLIDPKRKLHVCGNNPTCDGYEIEEGEFRIKGYDGPVVECEKCGSEMHLKMGRFGKYMACTNDECKNTRKILRNGEVAPPKEDPVPLPELPCEKSDAYFVLRDGAAGVFLAANTFPKSRETRAPLVEELYRFRDRLPEKLRYLADAPQQDPEGNKTLVRFSRKTKQQYVASEKEGKATGWSAFFIDGKWTEAKK				NA	NA	NA	NA	NA
BMS020_05933	975	cysB_1		HTH-type transcriptional regulator CysB	ATGAAACTACAACAGCTTCGCTACATCGTTGAGGTGGTTAACCATAACCTGAATGTTTCATCCACCGCCGAAGGGCTTTATACCTCTCAGCCAGGCATCAGTAAGCAGGTGCGTATGCTGGAAGATGAGCTGGGCATCCAAATCTTTGCCCGCAGCGGCAAGCATTTGACTCAGGTGACGCCTGCCGGGCAGGAGATCATCCGTATTGCCCGCGAGGTGTTGTCGAAAGTCGATGCCATCAAATCTGTCGCCGGGGAGCATACCTGGCCAGACAAAGGGTCGCTGTACGTGGCGACCACCCATACCCAGGCGCGCTATGCGTTGCCCGGGGTGATCAAGGGCTTTATTGAACGCTATCCGCGGGTGTCGCTCCATATGCATCAGGGTTCGCCAACCCAGATCGCCGAGGCCGTGTCGAAAGGCAACGCCGACTTCGCCATTGCTACCGAAGCGCTGCATCTATATGACGACCTGGTGATGCTGCCATGCTATCACTGGAACCGGTCGATCGTGGTGACGCCGGAGCATCCTCTGGCCTCCAGGGGCTCGGTATCAATAGAAGAGCTGGCGCAGTACCCGCTGGTGACCTATACCTTTGGCTTCACGGGCCGCTCCGAACTGGACACCGCGTTTAACCGTGCGGGCCTGACGCCGCGCATTGTCTTTACCGCTACCGATGCCGACGTCATTAAAACCTATGTTCGCCTGGGGCTGGGGGTGGGGGTGATTGCCAGCATGGCGGTAGATCCGGTCTCCGATCCGGACCTGGTGAAGCTGGATGCCAACGGTATTTTCAGCCACAGCACCACTAAAATAGGCTTCCGCCGTAGCACCTTCTTACGAAGCTACATGTATGATTTTATTCAACGTTTTGCACCCCATCTGACCCGGGATGTCGTGGATACCGCAGTGGCGCTACGGTCGAATGAAGATATTGAAGCGATGTTCAAAGATATAAAACTTCCGGAAAAATAA	MKLQQLRYIVEVVNHNLNVSSTAEGLYTSQPGISKQVRMLEDELGIQIFARSGKHLTQVTPAGQEIIRIAREVLSKVDAIKSVAGEHTWPDKGSLYVATTHTQARYALPGVIKGFIERYPRVSLHMHQGSPTQIAEAVSKGNADFAIATEALHLYDDLVMLPCYHWNRSIVVTPEHPLASRGSVSIEELAQYPLVTYTFGFTGRSELDTAFNRAGLTPRIVFTATDADVIKTYVRLGLGVGVIASMAVDPVSDPDLVKLDANGIFSHSTTKIGFRRSTFLRSYMYDFIQRFAPHLTRDVVDTAVALRSNEDIEAMFKDIKLPEK	PGPT0002965_237	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002965-cysB-K13634	NA	NA
BMS020_05934	168			hypothetical protein	ATGATAAGTAATATCGATTACATGAAACTGGCGATGTCATACGAAAATGACAAAACCGAAATCGATCCCGTTCTGCGTAGTCGCGTATGGGGCGTAGTGTTGGTAGGGCTGGCGATGTTCTGGAGCATCATCGCGCTCACCATCTGCAACATCTGGATTGTCAGCTAA	MISNIDYMKLAMSYENDKTEIDPVLRSRVWGVVLVGLAMFWSIIALTICNIWIVS				NA	NA	NA	NA	NA
BMS020_05935	2673	acnA	COG1048	Aconitate hydratase A	ATGTCGTCAACCCTACGAGAAGCCAGTAAGGATACGCTGCAAGTTAACGCGAAAACCTGGCATTACTACAGTCTGCCGCTGGCGGAGAAGCAACTGGGCGATCTCAGTCGACTGCCCAAGTCGCTGAAGGTGCTGATGGAGAATCTGCTGCGCTGGCAGGACGGTGACTCGGTGACTGAAGAAGATATTCGCGCCCTTGCCGGTTGGCTGCAGCAGGCCCATGCCGACAGGGAGATTGCTTATCGCCCGGCCCGCGTCCTGATGCAGGACTTTACCGGCGTACCGGCGGTGGTAGATCTGGCCGCCATGCGCGAGGCGGTGAAACGCCTGGGCGGCGATACCGCGAAGGTGAACCCGCTGTCGCCGGTCGACCTGGTGATCGACCACTCGGTGACGGTCGACCGCTTCGGCGATGACGAAGCCTTTGAAGACAACGTCCGCCTGGAAATGGAGCGTAACCACGAACGCTACGCTTTTCTGCGCTGGGGGCAGCAGGCCTTCAGCCGCTTCAGCGTGGTGCCGCCGGGCACCGGGATTTGCCACCAGGTCAACCTGGAATATCTCGGACGGGCGGTGTGGAGCGAAGAGGTGAATGGGAAGTGGATGGCGTGGCCGGATACCCTGGTGGGTACCGACTCCCATACCACCATGATTAACGGGCTCGGCGTGCTGGGCTGGGGCGTGGGCGGGATTGAAGCGGAAGCCGCCATGCTTGGCCAGCCGGTGTCGATGCTGATCCCCGATGTGGTAGGCTTTAAGCTCAGCGGCAAATTGCGCGAAGGCATTACCGCTACTGACCTGGTCCTGACGGTCACCCAGATGCTGCGCCAGCACGGCGTTGTCGGAAAATTTGTTGAGTTCTACGGTGACGGTCTGGATACCTTGCCCCTGGCCGACCGCGCCACCATCGCCAATATGGCGCCAGAGTATGGCGCCACCTGCGGTTTCTTCCCGATCGATGACGTGACGCTCAGCTATATGCGCCTCAGCGGACGTAGCGAAGAACAGGTGGCGCTGGTGGAAGCCTATGCCAAAGCGCAGGGCATGTGGCGCCAGCCGGGCGATGAGCCGGTCTTTACCAGTACCCTGGCGCTGGATATGGGCAGCGTTGAAGCAAGCCTCGCCGGGCCGAAGCGGCCGCAGGATCGCGTGGCGCTCGGCGATGTGCCGAAAGCCTTTGCCGCCAGCGGCGAGCTGGAGGTTAACCACCTTCAGCGTCAGCGCCAGCCGGTGGCGTATACGCTGAACGGGCATCACTATTCGCTGCCGGATGGCGCTGTGGCCATTGCGGCGATCACGTCCTGTACCAACACCTCCAACCCCAGCGTGCTGATGGCCGCCGGCCTGCTGGCGAAAAAAGCCGTCGAACGCGGACTGCAGCCGCAGCCGTGGGTGAAAGCTTCTCTGGCCCCGGGCTCGAAAGTGGTGTCGGATTATCTGGCCCATGCTGGCCTGACGCCTTACCTCGACCAGCTCGGCTTCAATCTGGTGGGGTATGGCTGTACCACCTGTATCGGTAACTCCGGCCCGCTGCCGGAACCTATTGAAGAAGCAATCAAAAAGGGCGACCTCACCGTCGGGGCGGTGCTCTCCGGTAACCGTAACTTCGAAGGGCGTATCCACCCGCTGGTGAAAACCAACTGGCTGGCCTCGCCGCCGCTGGTGGTCGCTTACGCGCTGGCCGGGAACATGAACATCGATCTTACCCGCGAGCCGCTGGGGCAGGGCAGCGACGGCGAGCCGGTCTATCTGAGAGATATCTGGCCGAGCGGGGAGGAGATTGCCCGCGCGGTGGAACAGGTCTCCACGGAGATGTTCCGCAAAGAGTACGCGGAAGTGTTTTCCGGGACAGAGGAGTGGAAGGCGATCAAGGTGGAGGCGTCAGATACCTACGACTGGCAGGAAGATTCGACCTATATTCGCCTGTCGCCGTTCTTTGACGAGATGGGCATTGAGCCGCTGCCGGTGGAGGATATTCACGGCGCGCGGATCCTCGCCATGCTGGGCGATTCAGTGACCACTGACCACATTTCGCCGGCGGGAAGCATCAAAGCCGATAGTCCGGCAGGCCGCTATCTGCAGGAGCATGGGGTTGCCCGGCGCGACTTTAACTCCTACGGCTCCCGTCGCGGTAACCATGAGGTGATGATGCGCGGCACCTTCGCCAATATCCGCATCCGCAACGAAATGGTGCCGGGGGTGGAAGGGGGCATGACCCGCCATCTGCCGGACCGCGAACCGGTGGCGATCTACGATGCAGCGATGCTATATAAAGCTGAGGGCATACCGCTGGCGGTGATTGCTGGTAAGGAGTATGGCTCAGGTTCCAGTCGCGACTGGGCGGCGAAGGGGCCGCGCCTGCTGGGGATCCGGGTGGTGATCGCCGAGTCCTTCGAACGTATCCACCGCTCCAACCTGATCGGGATGGGTATCCTGCCGCTGGAGTTCCCGCAGGGCGTCACCCGTAAAACGCTACAGTTGACCGGCGAAGAGCGGATTGATGTCAGTAACCTGCAGTCGCTGCAGCCCGGCGCCACGGTGCCAGTGACCCTCACCCGCGCTGACGGCTCGCAGGAGGTGATCGCCTGCCGGTGTCGTATCGACACGGCGACCGAACTCACCTACTACCGCAACGACGGCATTTTGCACTACGTTATCCGCAATATGTTGTAA	MSSTLREASKDTLQVNAKTWHYYSLPLAEKQLGDLSRLPKSLKVLMENLLRWQDGDSVTEEDIRALAGWLQQAHADREIAYRPARVLMQDFTGVPAVVDLAAMREAVKRLGGDTAKVNPLSPVDLVIDHSVTVDRFGDDEAFEDNVRLEMERNHERYAFLRWGQQAFSRFSVVPPGTGICHQVNLEYLGRAVWSEEVNGKWMAWPDTLVGTDSHTTMINGLGVLGWGVGGIEAEAAMLGQPVSMLIPDVVGFKLSGKLREGITATDLVLTVTQMLRQHGVVGKFVEFYGDGLDTLPLADRATIANMAPEYGATCGFFPIDDVTLSYMRLSGRSEEQVALVEAYAKAQGMWRQPGDEPVFTSTLALDMGSVEASLAGPKRPQDRVALGDVPKAFAASGELEVNHLQRQRQPVAYTLNGHHYSLPDGAVAIAAITSCTNTSNPSVLMAAGLLAKKAVERGLQPQPWVKASLAPGSKVVSDYLAHAGLTPYLDQLGFNLVGYGCTTCIGNSGPLPEPIEEAIKKGDLTVGAVLSGNRNFEGRIHPLVKTNWLASPPLVVAYALAGNMNIDLTREPLGQGSDGEPVYLRDIWPSGEEIARAVEQVSTEMFRKEYAEVFSGTEEWKAIKVEASDTYDWQEDSTYIRLSPFFDEMGIEPLPVEDIHGARILAMLGDSVTTDHISPAGSIKADSPAGRYLQEHGVARRDFNSYGSRRGNHEVMMRGTFANIRIRNEMVPGVEGGMTRHLPDREPVAIYDAAMLYKAEGIPLAVIAGKEYGSGSSRDWAAKGPRLLGIRVVIAESFERIHRSNLIGMGILPLEFPQGVTRKTLQLTGEERIDVSNLQSLQPGATVPVTLTRADGSQEVIACRCRIDTATELTYYRNDGILHYVIRNML	PGPT0001465_3439	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
BMS020_05936	603	ribA_1	COG0807	GTP cyclohydrolase-2	ATGCAGCTTAAACGTGTGGCAGAAGCCAAACTGCCAACCCCCTGGGGCGATTTCCTGATGGTGGGTTTTGAAGAACTGGCAACCGGACAGGATCATGTCGCGCTGGTATACGGCGATATTTCAGGGCAGTCGCCGGTGCTCGCCCGCGTCCATTCAGAATGTCTGACGGGCGATGCCCTGTTTAGCCTGCGCTGTGATTGCGGCTTTCAGCTGGAGGCGGCCCTGTCGCATATCGCCGAAGAAGGCCGGGGGATCCTGCTCTATCATCGTCAGGAAGGTCGCAACATTGGTTTATTGAATAAGATCCGCGCCTACGCGCTGCAGGATCAGGGTTATGACACTGTCGAAGCGAACCATCAGCTTGGCTTCGCCGCCGATGAACGCGACTTCACCCTGTGCGCCGATATGTTCAAGCTGCTCAACGTTGAGCAAGTGCGGTTATTAACCAACAACCCGAAAAAAGTGGAAATCCTCAGCGAAGCCGGGATTAACATTGTGGAGCGCGTTCCGCTGATTGTCGGGCGCAACCCGAAAAACGCCCACTATCTGGACACCAAAGCCGCCAAGATGGGCCATCTGCTGAACAGCAAGCCGGCGGAATAA	MQLKRVAEAKLPTPWGDFLMVGFEELATGQDHVALVYGDISGQSPVLARVHSECLTGDALFSLRCDCGFQLEAALSHIAEEGRGILLYHRQEGRNIGLLNKIRAYALQDQGYDTVEANHQLGFAADERDFTLCADMFKLLNVEQVRLLTNNPKKVEILSEAGINIVERVPLIVGRNPKNAHYLDTKAAKMGHLLNSKPAE	PGPT0007985_1385	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0007985-ribA-K01497	NA	NA
BMS020_05937	768	pgpB	COG0671	Phosphatidylglycerophosphatase B	ATGCTGTTGATTGCCCGACGAACCGCTCTCGCGGCGGCGCTGCTGCTGGTCATGCCCCTCACGGTCTGGCTGTCTGGTTGGCTGTGGCAGCCAGGACTGCCGGTGGTATGGCTGAAAAGCCTCTGGTGGGTGACGGAAACGGTGACCCAGCCGTGGGGAATTATCACCCATGTTGTGCTGTGCGCCTGGTTTCTCTGGTGCCTGCGCTTTCGCCTGCGCGCGGCGCTGATCCTGTTCCTCATTCTTGCCGCCGCCATCCTGGTGGGACAGGGGACCAAATCCTGGGTCAAGGCGCGGGTTCAGGAGCCGAGACCGTTTGTCATCTGGCTGGAAAACGCCAGGCAGGTGCCGGTGACGCAATTCTACGCGTTAAAGCGCAAAGAACGCGCTAAACTGGTGCATGAGCAGCTGGCGCAGGCGCAGGACATCCCGCCGTTTTTACGCAAACACTGGCAGAAAGAGACCGGGTTTGCATTCCCGTCAGGCCATACGATGTTCGCCGCCAGCTGGGCGCTGCTCGCTGCCGGGCTGCTGTGGCCGCGTCGGCGCTGGGGCACGATCGCGGTACTGCTGGCGTGGGCGACGGCGGTGATGGGGAGTCGCCTGGCGCTCGGTATGCACTGGCCGCTGGATCTCATCGTCGCTACGCTGATCTCCTGGCTGCTGGTCACGGTGGCCTGCTGGCTGACGCAGCGTCTTTGCGGGCCGCTTTCGCCGCCGGGGGAAGAGGCGCAGGATATTAAAAAACGGATGCCTGAAGCGGAATAA	MLLIARRTALAAALLLVMPLTVWLSGWLWQPGLPVVWLKSLWWVTETVTQPWGIITHVVLCAWFLWCLRFRLRAALILFLILAAAILVGQGTKSWVKARVQEPRPFVIWLENARQVPVTQFYALKRKERAKLVHEQLAQAQDIPPFLRKHWQKETGFAFPSGHTMFAASWALLAAGLLWPRRRWGTIAVLLAWATAVMGSRLALGMHWPLDLIVATLISWLLVTVACWLTQRLCGPLSPPGEEAQDIKKRMPEAE	PGPT0007715_129	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATASE_ACTIVITY,PGPT0007715-pgpB-K01096	NA	NA
BMS020_05938	309	lapA	COG3771	Lipopolysaccharide assembly protein A	GTGAAATATTTACTCATTTTCTTACTGGTGTTAGCAATCTTCGTCATTTCAGTGACGCTGGGGGCGCAGAATGACCAACAGGTCACTTTCAACTATTTGCTCGCTCAGGGTGAATTCCGCATTTCGACGCTGCTGGCGGTGCTGTTCGCTGCGGGCTTTGCCATCGGCTGGCTGATCTGCGGCCTGTTCTGGCTGCGGGTGCGCGTCTCGCTGGCGCGCGCGGAGCGGAAAATTAAGCGCCTTGAGCACCAGATTGCTCCTGTCAGCCCGGCAGCTGTCGAGGCAGGCGTGCCTGCGGTGAAGGAATAA	MKYLLIFLLVLAIFVISVTLGAQNDQQVTFNYLLAQGEFRISTLLAVLFAAGFAIGWLICGLFWLRVRVSLARAERKIKRLEHQIAPVSPAAVEAGVPAVKE	PGPT0014665_772	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_AFFECTED_LIPOPOLYSACCHARIDE_ASSEMBLY,PGPT0014665-lapA-K08992	NA	NA
BMS020_05939	1170	lapB_2	COG2956	Lipopolysaccharide assembly protein B	ATGCTGGAGTTGTTGTTTCTGCTTTTACCCGTTGCCGCCGCCTACGGCTGGTACATGGGGCGCAGAAGTGCACAACAGTCCAAACAGGACGACGCGAGCCGCCTGTCACGGGATTACGTGGCGGGGGTAAACTTTCTGCTTAGCAACCAGCAGGATAAAGCCGTCGATCTGTTCCTTGATATGCTGAAAGAGGATACCGGCACCGTTGAGGCCCACCTGACCCTCGGCAACCTGTTCCGCTCGCGCGGCGAGGTCGACCGCGCGATCCGTATTCACCAGAGTCTGATGGAAAGCGCGTCGCTCACCTACGACCAGCGCCTGCTGGCGGTGCAACAGCTGGGGCGCGACTATATGGCCGCCGGGCTGTATGACCGCGCGGAAGATATGTTCAAACAGCTGGTGGATGAGACCGATTTTCGCCTCGGCGCGCTGCAGCAGCTGCTGCAGATCTACCAGGCGACCAGCGACTGGCAGTCGGCTATCGAGGTGGCTGAACGGCTGGTGAAGCTGGGGAAAGAGAAACATCGTGGCGAAATCGCCAACTTTTGGTGCGAACTGGCCCTGCAGCAGATGGCGGCTAACGATCTGGATAAGGCGATGGCGCTGTTGAAGAAAGGCGCCGCCGCGGACCGCAACAGCGCCCGGGTTTCGATCATGATGGGCCGGGTGTGGATGGAGAAGGGCGACTACGCCAAAGCGGTAGAGAGCCTCGAGCGGGTTATCGATCAGGATAAAGAGCTGGTGGGTGAGACGCTGGAGATGCTGCAGACCTGTTACCAGCAGCTCGGCAAAGCCGATGAATGGGAAGTTTTCCTGCGCCGCTGTGTGGAGGAGAACGCCGGGGCGACCGCCGAACTGATGCTGGCGCAGATCCTTGAGCAGCGGGAAGGGGTCGAAGCGGCGCAAAACTACGTGACCCGGCAGCTTGAGCGCCACCCGACCATGCGCGTTTTCCATAAGCTGATGGACTACCATCTCAACGAAGCGGAAGAAGGGCGGGCGAAAGAAAGCCTTGGGGTGCTGCGAAACATGGTCGGCGAACAGGTGCGCAGCAAACCGCGCTACCGTTGTCAAAAATGCGGCTTTACCGCTCATACTCTCTACTGGCATTGTCCGTCCTGCCGCTCCTGGGCCACCATCAAACCTATTCGCGGCCTCGACGGCCAGTAA	MLELLFLLLPVAAAYGWYMGRRSAQQSKQDDASRLSRDYVAGVNFLLSNQQDKAVDLFLDMLKEDTGTVEAHLTLGNLFRSRGEVDRAIRIHQSLMESASLTYDQRLLAVQQLGRDYMAAGLYDRAEDMFKQLVDETDFRLGALQQLLQIYQATSDWQSAIEVAERLVKLGKEKHRGEIANFWCELALQQMAANDLDKAMALLKKGAAADRNSARVSIMMGRVWMEKGDYAKAVESLERVIDQDKELVGETLEMLQTCYQQLGKADEWEVFLRRCVEENAGATAELMLAQILEQREGVEAAQNYVTRQLERHPTMRVFHKLMDYHLNEAEEGRAKESLGVLRNMVGEQVRSKPRYRCQKCGFTAHTLYWHCPSCRSWATIKPIRGLDGQ	PGPT0014670_683	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_AFFECTED_LIPOPOLYSACCHARIDE_ASSEMBLY,PGPT0014670-lapB-K19804	NA	NA
BMS020_05940	738	pyrF_1	COG0284	Orotidine 5'-phosphate decarboxylase	ATGACGTCAACAGCTATCCCATCTTCCCGCGCTGTCACTTCCTCTCCCGTTGTGGTTGCGCTCGACTATGATAATCGCGATAAAGCGCTGGCATTTGTCGACCGCATCGACCCGCGCGACTGCCGCCTGAAGGTGGGCAAAGAGATGTTCACCCTGCTGGGACCGCAGTTTGTCCGCGATCTGCATCAGCGTGGGTTTGAGGTGTTCCTGGACCTTAAGTTTCACGATATTCCCAACACTACCGCCCGCGCGGTGGCGGCCGCTGCCGAGCTTGGCGTATGGATGGTGAATGTCCATGCCTCCGGCGGCGCGCGGATGATGACCGCGGCGCGCGAAGCGCTGCTGCCCTTTGGTCAAGACGCGCCGCTGCTCATCGCCGTCACCGTCCTCACCAGCATGGAGTCCAGCGACCTGCAGGATCTGGGCATTACCTTATCCCCGGCTGACTACGCGGCGAAGCTGGCGGCGCTGACCCAACGCTGCGGCCTCGACGGGGTGGTGTGTTCAGCTCAGGAGGCGGTACGCTTTAAGCAAGAGCTGGGGCAGGCGTTCAAGCTGGTCACCCCGGGTATCCGTCCGCAGGGCAGCGACGCTGGCGATCAGCGGCGGATCATGACTCCCGAGCAGGCTCAGGCGGCAGGGGTGGACTATATGGTTATTGGCCGCCCGGTTACCCAGTCGACCGATCCAGCCGCGACGCTGCGGGCGATCAACGATTCTCTGCGCAAGGGGGCATAA	MTSTAIPSSRAVTSSPVVVALDYDNRDKALAFVDRIDPRDCRLKVGKEMFTLLGPQFVRDLHQRGFEVFLDLKFHDIPNTTARAVAAAAELGVWMVNVHASGGARMMTAAREALLPFGQDAPLLIAVTVLTSMESSDLQDLGITLSPADYAAKLAALTQRCGLDGVVCSAQEAVRFKQELGQAFKLVTPGIRPQGSDAGDQRRIMTPEQAQAAGVDYMVIGRPVTQSTDPAATLRAINDSLRKGA	PGPT0014965_2187	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0014965-pyrF-K01591	NA	NA
BMS020_05941	327	yciH	COG0023	putative protein YciH	ATGAGCGATTCCAACAGCCGTCTGGTCTACTCCACCGAAACCGGGCGTATCGACGAGGCGAAACCGGCGCCGGTGCGCCCGAAAGGCGACGGTATTGTGCGGATCCAGCGCCAGACCAGCGGCCGCAAGGGCAAAGGCGTCTGTCTGATTAGCGGAATTGATGCCGACGATGCGGCGCTCACTGCGCTGGCGGCAGAGCTGAAGAAGAAATGCGGCTGCGGCGGCGCGGTGAAAGATGGTGTGATCGAGATCCAGGGCGACAAACGGGATTTACTGAAGTCGCTGCTCGAGGCGAAAGGGATGAAGGTGAAGTTAGCCGGCGGCTAA	MSDSNSRLVYSTETGRIDEAKPAPVRPKGDGIVRIQRQTSGRKGKGVCLISGIDADDAALTALAAELKKKCGCGGAVKDGVIEIQGDKRDLLKSLLEAKGMKVKLAGG	PGPT0015030_1683	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015030-yciH-K03113	NA	NA
BMS020_05942	750	srlR_2	COG1349	Glucitol operon repressor	ATGAACGCCCGACAACAAAGTATTTTGCAAGTGGTCATCGATAAAGGCCGCATGAGCGTCGCCGATCTGGCGAAGATGACCGGAGTCTCAGAGGTCACCATCCGTCAGGATCTGAACCTGCTGGAGAAGCAGAGCTATCTGCGCCGTACCCATGGCTACGCCGTCCCACTGGACAGTGAAGATGTCGAAACCCGCATGATGACCCATTTCGCCATTAAGCGTGAACTGGCCAGCCGCGCCGCGGCGCTGGTGAATGCCGGCGAAACGGTATTTATCGAAAACGGTAGCAGCAACGCCCTGCTGGCGCGCACCCTGGCCGAACGCGGCGATATCACCATCATCACCGTCAGCAGCTATATCGCCCATCTGCTGAAAGAGACGCCGGGAGAGGTGATCCTGCTGGGCGGGATTTACCAGAAACGCAGTGAAAGTATGGTTGGCCCACTGACCCGCCAGTTCATCCAGCAGGTGCATTTCAGTAAAGCCTTTATCGGGATCGATGGCTGGCAGGCGGAAACCGGCTTTACCGGTCGCGATATGATGCGTGCGGACGTCGTTAACGCCGTTCTGGAGAAGCACTGCGAAGCGATTATCCTCAGCGATAGCTCAAAATTCAGCGCGGTGCACCCCTATCCGCTTGGGCCAGCCGGCCGCTTCAATCGTGTTATCACCGACGATCGTCTGCCGAACGACTGCCGTGAGCAGTTGCTGCGCAGCGGCCTGACTGTGGATATTGTACCCTACGTCTGA	MNARQQSILQVVIDKGRMSVADLAKMTGVSEVTIRQDLNLLEKQSYLRRTHGYAVPLDSEDVETRMMTHFAIKRELASRAAALVNAGETVFIENGSSNALLARTLAERGDITIITVSSYIAHLLKETPGEVILLGGIYQKRSESMVGPLTRQFIQQVHFSKAFIGIDGWQAETGFTGRDMMRADVVNAVLEKHCEAIILSDSSKFSAVHPYPLGPAGRFNRVITDDRLPNDCREQLLRSGLTVDIVPYV				NA	NA	NA	NA	NA
BMS020_05943	180			hypothetical protein	ATGTCAGATGTGAATGCCCACCTGCTCGCCCAACGTATCGATACCGTGCTGGATATTCTGGTTGCCGGTGATTACCACTCTGCGATCCATAATCTGGAGATCCTCAAAGCGGAGCTGCTGGCGCTGGCGGCAGACGACGCCGAGCAAAACAAACCACCCAAAGCGCCCTGGGAAATCTGA	MSDVNAHLLAQRIDTVLDILVAGDYHSAIHNLEILKAELLALAADDAEQNKPPKAPWEI				NA	NA	NA	NA	NA
BMS020_05944	1935	rnb	COG4776	Exoribonuclease 2	ATGTTTCAGGATAACCCGCTGCTAGCGCAGCTTAAACAGCAACTGCATTCCCAGACGCCGCGCGCGGAAGGGGTCGTTAAGGGCACGGAAAAGGGCTTTGGCTTCCTCGAAGTGGACGCTCAGAAGAGCTACTTCATTCCGCCGCCGCAGATGAAAAAAGTGATGCATGGCGACCGTATCGTTGCGGTGATCCATTCTGAAAAAGAACGCGAAAGCGCCGAGCCGGAGTCGCTGGTTGAGCCTTTCCTGACCCGTTTCGTCGGTAAAGTCCAGAAGAAAGACGATCGCCTCGCTATCGTTCCTGACCATCCGCTGCTGAAAGACGCCATTCCCTGCCGCGCCGCCCGTGGCGTTGAGCATGATTTCAAACAGGGTGACTGGGCCGTCGCTGAAATGCGCCGTCATCCGTTAAAAGGCGACCGCGGATTTTACGCGGAGCTGACCCAGTTCATCACCTTCAGCGACGACCACTTTGTCCCGTGGTGGGTGACGCTGGCGCGCCATAATCTGGAAAAAGAGGCACCGGACGGCGTCGCCACCGAGATGCTTGACGAAGGGCTGACACGCCGCGATTTGACCGCCCTCGACTTCGTCACCATTGACAGCGCCAGCACCGAAGATATGGACGATGCGCTGTATGTCGAATCTGGCGCCGACGGCAAACTGTTGCTGACGGTGGCGATCGCTGACCCGACCGCATGGATTGCCGAAGGCAGCAAGCTGGACAACGCCGCAAAAGTACGCGCCTTTACCAACTATCTGCCGGGCTTCAACATCCCGATGCTGCCGCGCGAACTGTCAGACGACCTGTGTTCCCTGCGTGCCGATGAAGTGCGCCCGGTGCTGGCCTGTCGGATGACCCTGGCGGCCGATGGCACCATTGAAGACAACATCGAGTTCTTTGCCGCCACCATCGAATCGAAAGCCAAGCTGGCCTATGACGACGTCTCTGACTGGCTGGAAGGCCGCGGCAGCTGGCAGCCGGGCAGCGAGGCGATCGCACAGCAAATTACGCTGCTGAAGGACGTGTGTCAGCGTCGCAGCGAATGGCGTCAGACCCACGCGCTGGTGTTTAAAGACCGCCCGGATTACCGTTTCGTCCTCGGCGAAAAAGGCGAAGTGCTGGACATCGTCGCGGAACCGCGTCGTATTGCCAACCGTATTGTCGAAGAGTCGATGATCGCCGCCAACATCTGTGCCGCCCGCGTTCTGCGCGACAAGCTCGGCTTCGGCGTTTATAACGTCCACACCGGCTTCGACCCGGCGAATACCGAACAGCTGGCTGCCCTGCTGAAGACCCACGACGTACACGTTGATCCGACGGAAGTGCTCACCCTGGAAGGTTTCTGCAAGCTGCGCCGCGAACTGGACGCCCAGCCGACCGGTTTCCTCGACAGCCGCATACGTCGTTTCCAGTCGTTTGCTGAAATCAGCACCGAGCCGGGCCCGCACTTTGGTCTCGGTCTTGAGGCCTACGCCACCTGGACCTCGCCGATCCGTAAGTATGGCGACATGATCAACCACCGTCTGCTTAAGGCCATCATCAAAGGCGAAACCATTGCGCGCCCGCAGGATGAAGCCACCGTGCAGATGGCGGAGCGCCGTCGTCTCAACCGCATGGCCGAACGCGATGTCGCCGACTGGCTGTATGCCCGTTTCCTCAACGATAAAGCCGGCACCGATACCCGCTTTGCGGCGGAGATCATCGACATCAGCCGCGGCGGGATGCGCGTGCGTCTGGTGGACAATGGCGCGGTCGCCTTTATTCCGGCCCCGTTCCTTCACGCCGTGCGCGACGAACTGGTCTGCAGCCAGGAAAACGGCACCGTGCAGATCAAGGGAGAAGTGGTCTACAAAGTGACCGATGTTATCGATGTCACTATCGCTGAAGTCCGCATGGAAACTCGTAGCATCATTGCTCGTCCGGCTGCCTGA	MFQDNPLLAQLKQQLHSQTPRAEGVVKGTEKGFGFLEVDAQKSYFIPPPQMKKVMHGDRIVAVIHSEKERESAEPESLVEPFLTRFVGKVQKKDDRLAIVPDHPLLKDAIPCRAARGVEHDFKQGDWAVAEMRRHPLKGDRGFYAELTQFITFSDDHFVPWWVTLARHNLEKEAPDGVATEMLDEGLTRRDLTALDFVTIDSASTEDMDDALYVESGADGKLLLTVAIADPTAWIAEGSKLDNAAKVRAFTNYLPGFNIPMLPRELSDDLCSLRADEVRPVLACRMTLAADGTIEDNIEFFAATIESKAKLAYDDVSDWLEGRGSWQPGSEAIAQQITLLKDVCQRRSEWRQTHALVFKDRPDYRFVLGEKGEVLDIVAEPRRIANRIVEESMIAANICAARVLRDKLGFGVYNVHTGFDPANTEQLAALLKTHDVHVDPTEVLTLEGFCKLRRELDAQPTGFLDSRIRRFQSFAEISTEPGPHFGLGLEAYATWTSPIRKYGDMINHRLLKAIIKGETIARPQDEATVQMAERRRLNRMAERDVADWLYARFLNDKAGTDTRFAAEIIDISRGGMRVRLVDNGAVAFIPAPFLHAVRDELVCSQENGTVQIKGEVVYKVTDVIDVTIAEVRMETRSIIARPAA				NA	NA	NA	NA	NA
BMS020_05945	1158			hypothetical protein	ATGGAGCCACGCCGCGTGAATGGCAAAAACCACTGGTATCACGAAACCCAGTCAACAATCTGCCCGGTGGATGTCCTGCCGCTCGTCCCTGAAGCCGCCCATGTTGAAGACCGCTTTTTGCTGGACCTGACGCTGCCGGACGCCTGGCTACACGCCCATACAGGCTGGCTACGCCCCGCGCGCCAGCTCGCCGAGGGGCTGTTTCCCGACCAGGTGCCGGTAAGCCGCCTGCAAACCTTTACCGCCTACGATCGCCTGAGCACTGCGCTGACCGTCGCCCAGGTCTACGGCGTCCAGCGGCTGTGTAACCACTATGCCGCCCGCCTGGCGCCCCTGCCGGGGCCCGACTCTTCGCGCGAGAGCAACCGTCGTCTGGCGCAGATCACCCAATACGCTCGTCAGCTCGCCGGTTCACCCTCCGTCATTAACGCCCTTTCCCGCAGCCAGCTGGACGAAGTGGGCCTGACCAGCCGGGATATTATCCTGATCAACCAGATTATCGGTTTCGTCGGCTTCCAGGCGCGGGCGATTGCCGTGCTGCAGGCGGCGCAGGGCTTCCCGGTGCGCTGGATCCCCGGCATGCCGCAGCAAGAGGAGGCGCCCGCCGGCCTGTTCGCCATCCCGCCGGGAGAGTGGCAAACCGACATAGAAGATCCCGATCTGCAGTATGCCGATGACGAGCGCCAGCGGCGCATCGCCAGCTGGCAGTCGCTGCCCAGCCTGGGCCCGCTGGCTCCGCTGCTGGCCTGCGACCCGCAGTTGATGGCGCCGTTGGAGACGCTGTTACGCCAGCTCAGCGGCAACGATACCTTTGGCCCGCAGGTCGCCTTACTCACCGCGCGCACCAATGGCAGCGCCACCTGTTTTGACGCCTGGCTCCCCCACTGGCACGGTGAAGAAGCGTTCGCCAGCCATTTACGGGAGGGCGATCAGGCTCTCCATCACTGGCTTGGGCAGCATCCTCAGTCGCGCGCGCTCGTTACCGCGGTACAGTTGTTAACCCGCTCCCCGGACCGGTTTAGCGCCGCCCAGTTAACACCCCTCGGCGAATATGGACTCTCAGCGGAACAAGCGATCGATCTGTTAACCTGGAGCGGGCTGTGCGGCTGGATGAATCGTCTGAAAATCGCCCTCGGCAATGTGCGTCAGCAGACGTAA	MEPRRVNGKNHWYHETQSTICPVDVLPLVPEAAHVEDRFLLDLTLPDAWLHAHTGWLRPARQLAEGLFPDQVPVSRLQTFTAYDRLSTALTVAQVYGVQRLCNHYAARLAPLPGPDSSRESNRRLAQITQYARQLAGSPSVINALSRSQLDEVGLTSRDIILINQIIGFVGFQARAIAVLQAAQGFPVRWIPGMPQQEEAPAGLFAIPPGEWQTDIEDPDLQYADDERQRRIASWQSLPSLGPLAPLLACDPQLMAPLETLLRQLSGNDTFGPQVALLTARTNGSATCFDAWLPHWHGEEAFASHLREGDQALHHWLGQHPQSRALVTAVQLLTRSPDRFSAAQLTPLGEYGLSAEQAIDLLTWSGLCGWMNRLKIALGNVRQQT				NA	NA	NA	NA	NA
BMS020_05946	789	fabI	COG0623	Enoyl-[acyl-carrier-protein] reductase [NADH] FabI	ATGGGTTTTCTTTCCGGTAAGCGCATTTTGATCACTGGCGTCGCCAGCAAACTGTCCATCGCCTACGGTATTGCGCAGGCAATGCACCGCGAAGGCGCGGAACTGGCATTCACCTATCAGAATGAAAAACTGAAAGGTCGCGTTGAAGAGTTTGCTGCCGCGCTGGGTTCTGACATTGTGCTGCCGTGCGACGTTGCTGAAGATGAGAGCATCACCGCGCTGTTCACCGAGCTGGAAAAAGTCTGGCCAAAATTCGATGGTTTCGTCCACTCTATCGGTTATGCCCCGGCTGACCAGTTAGACGGCGACTACGTCAACGCGGTCACCCGCGAAGGTTTCAAAATCGCGCACGACATCAGCGCCTACAGCTTCGTGGCGATGGCTAAAGCCTGCCGCACGATGCTGAACCCGGATTCTGCTCTGCTGACGCTCTCCTACCTGGGCGCCGAGCGCGCGATCCCGAACTACAACGTGATGGGTCTGGCGAAAGCCTCTCTGGAAGCGAACGTGCGCTATATGGCGAACGCGATGGGTCCGGAAGGCGTTCGCGTCAACGCTATCTCCGCCGGTCCGATCCGTACCCTGGCCGCGTCCGGTATCAAAGATTTCCGTAAAATGCTGGCGCACTGCGAAGCGGTCACCCCGATCCGTCGCACCGTCACCATTGAAGACGTGGGTAACAGCGCAGCCTTCCTGTGCTCCAACCTGTCTGCGGGTATCTCCGGTGAAGTCGTTCACGTTGATGGCGGGTTCAGTATCGCCGCTATGAACGAGCTGGAACTGAAATAA	MGFLSGKRILITGVASKLSIAYGIAQAMHREGAELAFTYQNEKLKGRVEEFAAALGSDIVLPCDVAEDESITALFTELEKVWPKFDGFVHSIGYAPADQLDGDYVNAVTREGFKIAHDISAYSFVAMAKACRTMLNPDSALLTLSYLGAERAIPNYNVMGLAKASLEANVRYMANAMGPEGVRVNAISAGPIRTLAASGIKDFRKMLAHCEAVTPIRRTVTIEDVGNSAAFLCSNLSAGISGEVVHVDGGFSIAAMNELELK	PGPT0008370_2160	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008370-fabI-K00208	NA	NA
BMS020_05947	543	ves_2	COG3758	Protein Ves	ATGATCACCTATTTTGATTACGCTACCTTGCCCGTCACGCCATGGAAGAACGGCGCTGGCGCCACCCGGGAAATTATCGCCGTTCCTTCCGTAGATGCGCCTTTTCTCTGGCGCGCGAGCATTGCCACCCTGCAGGCCGATGGCCCATTCTCCCCTTTTCCCGGCGTCGACCGGACGATCGTCCTGCTGGCGGGGCAACCGCTACGGCTGCGCGGGGAGGAGATCGACCATCCGCTGGCGCGCTGGCAGCCGTGGGCGTTCCCCGGCGAATGGGCGCTGTCCAGCGTCGGGATCGTTGAGCCTGGACTGGACTTCAATGTCATGACCCAGCGCGGGCGAGCCCTCGCGCAGGTTGAAGTGGTGAGCGACCGGCAGCGACCGGCCACTAACGGGGTTGCTTATGTGCTGCAGGGTGAGTGGGATCTGGCCGGACGGCGCTGCACCGTCGGCAGCGGGCTCTGCTGGCACGGCGACGCTCCGGGGGAGTTGCGGCCTCTCAGCGCCGATGGGCGTCTGCTGCTGGCGGCGATTGCGCTCAAATAG	MITYFDYATLPVTPWKNGAGATREIIAVPSVDAPFLWRASIATLQADGPFSPFPGVDRTIVLLAGQPLRLRGEEIDHPLARWQPWAFPGEWALSSVGIVEPGLDFNVMTQRGRALAQVEVVSDRQRPATNGVAYVLQGEWDLAGRRCTVGSGLCWHGDAPGELRPLSADGRLLLAAIALK	PGPT0020255_1112	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MAINTENANCE	CE-BACTERIAL_FITNESS-HISTIDINE_REPLETION_RELATED_FITNESS,PGPT0020255-hutD|ves-K09975	NA	NA
BMS020_05948	846	nocT		Nopaline-binding periplasmic protein	ATGCAACAGCGTATTACTTTCCGCCAGGCCTGCCTGGTCACCCTGTTTTCGGGGCTACTGCTGTCTGGTGGCTCAACATACGCTAAAGAGTGGAAATCGATCACCATCGCTACGGAAGGCGGCTATGAACCCTGGAATCTGACGCTTCCCGGCGGGAAGCTCAGCGGTTTCGAGCCCGAGCTTATGGCGAATTTATGCCAGCGGATGCAGATCGAATGCAAACTGGTGGTGCAGAACTGGGATGGCATGATTGCCGGACTTAACGCCGGAAAATATGACGTGATCATGGATGCTATCGTCGTCACCCCAGAGCGCTCGAAGGTCGTGGCGTTTACCCAGGCATACGCAGCCACGCCGGCCTCTTTCATTGCGGTAAAAGGGTCGCTGCTACCGCCTTCGCCGGCGGTCAAGCTTCATGATAATGAGAAAGAGATTCAGGCGGCGATTGCGCCGCTGCGCGCGGCGTTGAAAGGGAAAACCATCGGCATCGCGTCCGGCACCGTGTACACCCCGTTTATTGATAAGTATTTCAAGGATATCGCTGACGTCCGGGAATATAACAACTCAGCGGATGCGATCCTCGACCTGCAGGCTGAGCGCATCGACGCGGTGTTTGATGATATTACCTTTGCCAACACCACCCTGTCGCGCCCGGAGAATAGCAATCTGGCATTGAGCGGTCCGCTGATGAGCGGCCCAATCTGGGGAGGCGGTGAGGCGATGGGCGTGCGCCTCGCCGATACCGAACTCAAAGCGAAACTGGATAGCGCCATTCAGGCGGCGCTGGCCGATGGGACGGTAAAAAAACTGAGTGAGAAATGGTTTAAAAGCGACGTGACTCCCTGA	MQQRITFRQACLVTLFSGLLLSGGSTYAKEWKSITIATEGGYEPWNLTLPGGKLSGFEPELMANLCQRMQIECKLVVQNWDGMIAGLNAGKYDVIMDAIVVTPERSKVVAFTQAYAATPASFIAVKGSLLPPSPAVKLHDNEKEIQAAIAPLRAALKGKTIGIASGTVYTPFIDKYFKDIADVREYNNSADAILDLQAERIDAVFDDITFANTTLSRPENSNLALSGPLMSGPIWGGGEAMGVRLADTELKAKLDSAIQAALADGTVKKLSEKWFKSDVTP	PGPT0020875_169	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020875-occT|nocT-K10018	NA	NA
BMS020_05950	732	occM		Octopine transport system permease protein OccM	ATGATTATCGATTTTGCCTTTCTCGGTGAGACGTTGTTGAAGCTCGGCGCGGCGCTGCCGGTGACGCTGGGGCTCTTTATCTGCTCTTTTTTGCTCGGCGGCGTGTTGGCTCTTGGCGTTCTGGCGCTGCGAATGAGCCGCTGGCCGCTGGCAAGCGGTTTCGCCAAAGGCTATATCCTGATCTTTCGCGGTTCGCCATTGCTGATCCAGTTGTTTCTCATTTATTACGGGCTGGGTCAGTTTGGGGTGATCCGCCACAGTTTCCTGTGGCCGCTGCTGCGCGAACCCTTTATCTGCGCCGTTCTGGCGCTGGCGCTCTGTACGGCGGCCTATACCGCGGAAATTCTGCGCGGCGGGTTGCTGGCGATACCCCCGGGCCAGATTGAAGCCGGCCAGGCTTGCGGTATGTCGCGCTGGCTGCTGCTGCGGCGGATCATTGCCCCGGTGATGCTGCGCTATGCGCTGCCAGCCTACTCCACGGAGGCCATTTTATTGGTCAAGTCGACGGCGCTGGCAAGCCTGGTGACCGTCTGGGACGTCTCGGGGGTGGCCCAACAGATTATTCAGCGTACCTACCGGACGATGGAGGTATTCCTCTGCGCGGCGGCCATCTACCTGCTGCTCAATTTCATCATTGTGCAGCTGTACGCCCTGCTTGAACGGCGTTTAACCCCGCATACCCGGCAAAATCCGGCGACCGTGTCGCTCAAGCCGATAACCAAAGGAGAGTAA	MIIDFAFLGETLLKLGAALPVTLGLFICSFLLGGVLALGVLALRMSRWPLASGFAKGYILIFRGSPLLIQLFLIYYGLGQFGVIRHSFLWPLLREPFICAVLALALCTAAYTAEILRGGLLAIPPGQIEAGQACGMSRWLLLRRIIAPVMLRYALPAYSTEAILLVKSTALASLVTVWDVSGVAQQIIQRTYRTMEVFLCAAAIYLLLNFIIVQLYALLERRLTPHTRQNPATVSLKPITKGE	PGPT0020880_111	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020880-occM|nocM-K10019	NA	NA
BMS020_05951	795	occP_1		Octopine permease ATP-binding protein P	ATGCTCGATTCACGTCCGGTGACCTTATCGGTCAGCGATATTCATAAGTCCTTTGGCTCCCTGGATGTCCTGAAGGGGATCACCATCCAGGCGCAGCAGGGCGATGTCATTTCGATCCTCGGCGCCAGCGGATCCGGTAAAAGTACGCTGCTGCGCTGCATTAACCTGCTGGAAACGCCCGATGCCGGAGTGGTCAGCGTCGGCGGCGAGACGATTGAAATGAAGCATCATGCCCGTGGGCATCGGCTGGCGGCGAACCCCCGGCAGATAGAGCGCCTGCGCTCGCGGCTGGGGATGGTCTTCCAAAGTTTTAACCTCTGGTCGCATATGACGGTTCTGCAGAATGTCATTGAGGGGCCGCATTATGTGCTCAAGCGGGACAAACGGACCTGCATTGAACAGGCTGAGCAGTTGCTGGAGCGAGTGGGGATGTTGAACCGAAAGGATTTCTATCCTGCGCAGCTCTCCGGCGGCCAGCAGCAGCGCGTGGCGATAGCCCGCGCGCTGGCCATGGAGCCGGACGTCATGCTCTTTGATGAACCTACCTCAGCGCTGGATCCCGAACTGGTCGGCGAGGTGCTAAAGGTGATGCGCAGCCTGGCGGAGGAGGGACGGACGATGCTGGTGGTCACCCACGAGCTGGGATTCGCCCGCCATGTTTCCAACCGGGTGGTCTTTATGCACCAGGGGACGATTGACTGCGACGGTGCGCCAGAGGCGCTGTTTGGCAGCCAGGGATCCGCGCGCTTCAAGCAATTTATCTCCAGCCACCAACAGCCAGGACAGGTCGTATGA	MLDSRPVTLSVSDIHKSFGSLDVLKGITIQAQQGDVISILGASGSGKSTLLRCINLLETPDAGVVSVGGETIEMKHHARGHRLAANPRQIERLRSRLGMVFQSFNLWSHMTVLQNVIEGPHYVLKRDKRTCIEQAEQLLERVGMLNRKDFYPAQLSGGQQQRVAIARALAMEPDVMLFDEPTSALDPELVGEVLKVMRSLAEEGRTMLVVTHELGFARHVSNRVVFMHQGTIDCDGAPEALFGSQGSARFKQFISSHQQPGQVV	PGPT0020890_137	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020890-occP|nocP-K10021	NA	NA
BMS020_05952	1500	hutH_2	COG2986	Histidine ammonia-lyase	ATGAAAATGATCCAGTGGGGCGATGCGCCGATACGCTGGCAGGAGGTGGCTTGCGTTGCCCGGGGCGAGGCGACCTTGAGCCTCAGCGACAGCGCCTGGTCGCGTATCGCGCAAGGGCGGGCGATTGTCCAGCATATCGTTAAAGCCGGCCAGGTAGCCTATGGGATCAACACCGGGCTGGGGGCGCTGTGCAATATTACGCTGCCGGAAGCGCAGCTACACCAGCTGTCGCGCAATACGTTGCTCAGCCACGCCTGCGGGGTGGGACCGTTGCTGGAGGTCGCCCCAACCCGGGCAATTATGTGCGCCGCGGTGGCCAATTTCAGCCACGGTAAATCCGGGATCTCCGCCGGGATAGTGCAGCAGCTGTTGGCGTTTTTGCAGCATGGCGTCACCCCTCAGGTGCCCTCCCAGGGGTCAGTTGGCTATTTAACGCATATGGCGCACATTGGCCTGGCCCTGATGGGGGTTGGCGATGTGCTCTGGCAGGGGCGAACGTGGTCAGCGGCAGAGGTCCTGTCGCAGCTAGATCTGCAGCCCATCGCGCCGGGAGCGAAAGAGGGGCTGAGTCTGGTCAACGGTACGCCGTGCATGACCGGTCTGGCCTGTCTGGCGTTAGACGACGCCGAGCGCTTAATGAACTGGGCCGATGTCACCGGCGCGATGAGCTTTGAAGCGCTTCGCGGCCAGCTTGTGGCATTCGATGCCGAGATCCTGGCGCTGAAAGCCAGCCCCGGGATCCAGACCAGCGGCCAGCGGCTGCGTGAGCTACTGGCGGACAGCCGTCTGCTGGCCGAAAGTGAAGGACTTCGCACCCAGGATGCGCTAAGCCTTCGCTCGATGCCTCAGGTGCATGGCGCCTGCCGCGATCAGTTTAGCCACGCGCAGACGCAGATAAATATCGAACTCAACGCCTGTACTGATAATCCGCTGATCCTGGGAACCGTTGAGCAGTGGCGGGTGGTCTCCCAGGCGCATCCGCACGGCGAATCGGTGGCGATGGCCTGCGATTTGCTGGCCATTGCCATGGCTGAGCTGGGCGCCATCGCTGAACGACGCCTTGACCGGCTGGTGAATCCTCTGGTGAGCGGGTTGCCGGCGTTCCTGGTCGCCCGACCGGGCGTGAATTCAGGCATGATGATTGCCCAGTACGTCGCCGCGTCGTTGTGCGCGGAAAACAAGCAGCTGGCGCAGCCGGCGGTGCTGGATAATTTTGTTACCTCGGGTCTGCAGGAGGATCATTTAAGCCTGGGCACCGGCGCAGCGCTGAAACTGCAGCGCCTGCTGGGCAACCTCTATCAGATCCTGGGCATCGAATATCTACTCGCCGCCCAGGGGCTCGATTTTCACGAGCCGCAGAAGCTGGCGGCGGGCACGCGCCGGGCGCGAGACCTGCTGCGCGAAAGCGTGCCTGGCTGGGAGGACGATCGCTGGCTGGCGCCGGACATCGCCAGCGCGGTGGCCATCCTTAAGCGAACCGCTGGCCACGCGCCGGTGTGA	MKMIQWGDAPIRWQEVACVARGEATLSLSDSAWSRIAQGRAIVQHIVKAGQVAYGINTGLGALCNITLPEAQLHQLSRNTLLSHACGVGPLLEVAPTRAIMCAAVANFSHGKSGISAGIVQQLLAFLQHGVTPQVPSQGSVGYLTHMAHIGLALMGVGDVLWQGRTWSAAEVLSQLDLQPIAPGAKEGLSLVNGTPCMTGLACLALDDAERLMNWADVTGAMSFEALRGQLVAFDAEILALKASPGIQTSGQRLRELLADSRLLAESEGLRTQDALSLRSMPQVHGACRDQFSHAQTQINIELNACTDNPLILGTVEQWRVVSQAHPHGESVAMACDLLAIAMAELGAIAERRLDRLVNPLVSGLPAFLVARPGVNSGMMIAQYVAASLCAENKQLAQPAVLDNFVTSGLQEDHLSLGTGAALKLQRLLGNLYQILGIEYLLAAQGLDFHEPQKLAAGTRRARDLLRESVPGWEDDRWLAPDIASAVAILKRTAGHAPV	PGPT0020230_3409	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745	NA	NA
BMS020_05953	810	sapF	COG4167	Peptide transport system ATP-binding protein SapF	ATGGTCGAAACATTGCTGGAAGTGCGCCAACTCAGTAAGACCTTTCGCTATCGCACCGGCTGGTTTCACCGCCAGACGGTGGAGGCGGTTAAGCCGCTGAGCTTTACCCTGCGCGAACGGCAGACGCTGGCGATTATCGGCGAGAATGGCTCCGGAAAATCCACCCTCGCGAAGATGCTGGCGGGCATGGTGGAGCCCACCAGCGGCGAGGTGCTGATCGATGACCATCCGCTGACCTTCGGGGATTACTCCTACCGCAGCCAGAAGATTCGCATGATCTTTCAGGATCCGTCGACGTCGCTAAACCCGCGCCAGCGCATCTCGCAGATCCTCGATTTTCCGCTGCGGCTGAATACCGACCTTGACGCCGAAGCGCGGCAGAAACAGATCATCGACACCCTGCGCATGGTCGGCCTGCTGCCGGACCACGTCAGCTACTATCCCCATATGCTGGCCCCGGGTCAGAAGCAGCGTCTTGGCCTCGCCCGGGCGCTGATCCTGCGCCCGAAGGTCATCGTCTGCGATGAGGCGCTGGCCTCGCTGGATATGTCGATGCGTTCCCAGCTCATCAACCTGATGCTGGAGCTGCAGGAGAAACAGGGCATCTCTTACATCTATGTCACCCAGCACCTGGGAATGATGAAGCACATCAGCGATCAGGTGCTGGTGATGCATAACGGGGAAGTGGTTGAGCGCGGCAGCACCGCCGATGTGCTGGCCTCACCGCTGCATGACCTGACCCGACGCCTGATCGCCGGCCACTTCGGTGAGGCTCTCACCGCCGACGCCTGGCGCAAAGACGGCAAATAG	MVETLLEVRQLSKTFRYRTGWFHRQTVEAVKPLSFTLRERQTLAIIGENGSGKSTLAKMLAGMVEPTSGEVLIDDHPLTFGDYSYRSQKIRMIFQDPSTSLNPRQRISQILDFPLRLNTDLDAEARQKQIIDTLRMVGLLPDHVSYYPHMLAPGQKQRLGLARALILRPKVIVCDEALASLDMSMRSQLINLMLELQEKQGISYIYVTQHLGMMKHISDQVLVMHNGEVVERGSTADVLASPLHDLTRRLIAGHFGEALTADAWRKDGK	PGPT0002730_148	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0002730-sapF-K19230	NA	NA
BMS020_05954	993	sapD	COG4170	Peptide transport system ATP-binding protein SapD	ATGCCGTTACTCGATATTCGTCACTTAACCATCGAATTTAAAACCAACGAAGGCTGGGTAAAAGCCGTCGACCGCGTCAGCCTGACCCTGACCGAAGGCGAAATCCGTGGCCTGGTAGGGGAATCCGGCTCCGGGAAGAGCCTGATCGCCAAAGCTATCTGCGGCGTGACAAAAGACAACTGGCGGGTCACGGCCGACCGCATGCGTTTCGACGACATCGATCTGCTGCGGCTGTCGAACCGCGAGCGCCGGAAACTGATCGGCCACAACGTGTCGATGATATTCCAGGAGCCCCAGTCGTGCCTCGACCCCTCTGAGCGCATCGGCCAGCAGCTGATCCAAAGTATCCCTGGCTGGACCTACAAGGGCCGCTGGTGGCAGCGGCTGGGCTGGCGTAAACGTCGGGCCATCGAGCTGTTGCACCGCGTCGGGATTAAAGATCACAAAGACGCCATGCGCAGCTTCCCCTATCAGCTGACCGAAGGCGAGTGCCAGAAGGTGATGATTGCCATCGCCCTGGCCAACCAGCCGCGCCTGCTAATCGCCGATGAACCGACTAACGCTATGGAGCCCACGACGCAGGCGCAGATTATCCGCCTGCTGACGCGGCTCAACCAGAACAACAACACCACCATTTTGCTGATCAGCCACGATCTGCAGATGCTCAGCAAATGGGCGGATAAAATCAACGTCATGTACTGCGGGCAGACGGTGGAGAGCGGGCCCAGCGAAGAGCTGATCACCCTGCCGCATCATCCCTACACCCAGGCGTTAATCCGCGCGATCCCGGATTTTGGCAGCGCCATGCCGCATAAAAGCCGTCTCAACACCCTGCCGGGGGCGATACCGCTGCTGGAGCAGCTGCCCATCGGCTGTCGGCTGGGGCCGCGCTGCCCGTACGCCCAGCGCGAGTGTATTGAAACCCCGCGTCTTACCGGGGCGCGCAATCACCTGTACGCCTGTCATTTCCCGCTGAACATGGAGAAAGAGTGA	MPLLDIRHLTIEFKTNEGWVKAVDRVSLTLTEGEIRGLVGESGSGKSLIAKAICGVTKDNWRVTADRMRFDDIDLLRLSNRERRKLIGHNVSMIFQEPQSCLDPSERIGQQLIQSIPGWTYKGRWWQRLGWRKRRAIELLHRVGIKDHKDAMRSFPYQLTEGECQKVMIAIALANQPRLLIADEPTNAMEPTTQAQIIRLLTRLNQNNNTTILLISHDLQMLSKWADKINVMYCGQTVESGPSEELITLPHHPYTQALIRAIPDFGSAMPHKSRLNTLPGAIPLLEQLPIGCRLGPRCPYAQRECIETPRLTGARNHLYACHFPLNMEKE	PGPT0002725_400	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0002725-trkE|sapD-K19229	NA	NA
BMS020_05955	891	sapC	COG4171	Peptide transport system permease protein SapC	ATGCCCTACGATAGCGTTTATCTGGAAAAGCGTCCGCCCGGCGCGCTGCGCACCGTATGGCGTAAATTTTATGGCGACACCACGGCGATGATCGGCCTGTACGGCTGCGCGGGGCTGCTGCTGCTTTGCGTCTTCGGCGGCTGGTTCGCCCCCTACGGCATCGACCAGCAGTTCCTCGGCTACCAGCTGCTGCCGCCATCGTGGTCGCGCTATGGGGAAGTCTCTTTCTTCCTCGGAACCGATGACCTGGGGCGCGATGTGCTCAGCCGACTGCTGAGCGGCGCGGCGCCGACCGTCGGCGGCGCTTTTGTCGTCACCCTCGGCGCCACGCTGTTTGGCCTGGTGCTGGGCGTCATTGCCGGATCGACCCACGGCCTGCGCTCGGCGGTGATGAACCATATCCTCGATACCCTGCTCTCCATCCCCTCGCTGCTGCTGGCGATCATCGTCGTCGCCTTTGCCGGGCCGCACCTCAGCCATGCGATGTTTGCCGTCTGGCTGGCGCTGCTGCCGCGCATGGTGCGCTCCGTCTACAGCATGGTCCACGATGAGCTGGAGAAAGAGTACATCATCGCCGCCCGCCTCGACGGCGCGTCGACGCTGAATATTCTGCTGTTCGCCATCCTGCCCAATATCGCCTCCGGCCTGGTGACCGAGATCACCCGCGCCCTGTCGATGGCTATTCTGGATATCGCCGCGCTGGGCTTTCTTGACCTCGGCGCTCAGCTGCCTTCGCCGGAATGGGGAGCGATGCTGGGTGATGCGCTGGAGCTTATCTATGTTGCGCCGTGGACCGTGATGCTGCCCGGGGCCGCGATTATGCTCAGCGTACTGCTGGTCAACCTGCTGGGCGACGGTATTCGCCGGGCGATCATTGCCGGGGTAGAATAA	MPYDSVYLEKRPPGALRTVWRKFYGDTTAMIGLYGCAGLLLLCVFGGWFAPYGIDQQFLGYQLLPPSWSRYGEVSFFLGTDDLGRDVLSRLLSGAAPTVGGAFVVTLGATLFGLVLGVIAGSTHGLRSAVMNHILDTLLSIPSLLLAIIVVAFAGPHLSHAMFAVWLALLPRMVRSVYSMVHDELEKEYIIAARLDGASTLNILLFAILPNIASGLVTEITRALSMAILDIAALGFLDLGAQLPSPEWGAMLGDALELIYVAPWTVMLPGAAIMLSVLLVNLLGDGIRRAIIAGVE	PGPT0013790_268	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0013790-sapC-K19228	NA	NA
BMS020_05956	966	sapB	COG4168	Putrescine export system permease protein SapB	ATGATTATTTTTACCCTGCGCCGTCTGCTGCTGTTGCTGGTCACCCTCTTTTTTCTGACCTTTGTCGGCTTCAGCCTGAGCTACTTCACTCCCCATGCCCCGCTGCAGGGCGCGACCCTGTGGAATGCATGGCTGTTCTGGTTTGAAGGGGTGCTGCACTGGGATTTTGGCGTCTCCAGCATTAACGGCCAGCTGATTTCCGAGCAGCTGCGCGAGGTGTTCCCGGCGACCATGGAGCTGTGCATCCTCGCCTTCGGCTTTGCCCTGCTGATTGGCATTCCGGTGGGGATGATCGCCGGCGTGATGCGCAACAAATGGCCCGATACCCTGATCAGCGCCGTCGCGCTGGTCGGTTTCTCGATCCCGGTCTTCTGGCTGGCGCTGCTCCTGACCCTCTTCTTCTCCCTGACCCTCGGCTGGCTTCCGGTCTCCGGCCGCTTCGACCTGCTGTATGAGGTGAAAAACGTCACCGGTTTCGCGCTGATTGACGCCTGGCTTTCGGACTCGCCGTGGCGCCATGAGATGATCGTCAGCGCCGCCCGGCATATGGTGCTGCCGGTGCTGACCCTGGCGGTAGCCCCCACTACCGAAGTGATCCGCCTGATGCGCATTAGCACCAGCGAGGTCTATGACACCAACTACGTCAAGGCGGCCGCCACCCGCGGCGTCTCGCGACGCAAAATTTTACTGCGCCACGTGCTGCACAACGCCCTGCCGCCGGTAATCCCGCGCCTCGGCCTGCAGTTTTCCACCATGCTCACCCTGGCGATGATCACGGAGATGGTGTTCAGCTGGCCAGGGCTGGGCCGGTGGCTTATCAACGCCATTCGTCAGCAGGACTACGCGGCGATCTCCGCGGGAGTGATGGTGATTGGCGCGCTGGTGATTATTGTCAACGTGATTTCCGATATTCTCGGTGCCATGGCTAACCCACTGAAACATAAGGAATGGTATGCCCTACGATAG	MIIFTLRRLLLLLVTLFFLTFVGFSLSYFTPHAPLQGATLWNAWLFWFEGVLHWDFGVSSINGQLISEQLREVFPATMELCILAFGFALLIGIPVGMIAGVMRNKWPDTLISAVALVGFSIPVFWLALLLTLFFSLTLGWLPVSGRFDLLYEVKNVTGFALIDAWLSDSPWRHEMIVSAARHMVLPVLTLAVAPTTEVIRLMRISTSEVYDTNYVKAAATRGVSRRKILLRHVLHNALPPVIPRLGLQFSTMLTLAMITEMVFSWPGLGRWLINAIRQQDYAAISAGVMVIGALVIIVNVISDILGAMANPLKHKEWYALR	PGPT0013785_240	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0013785-sapB-K19227	NA	NA
BMS020_05957	1644	sapA	COG4166	Peptide transport periplasmic protein SapA	ATGCGCCTGAAATTGTCATCTCTCCTGGCAGCGGTTTCCCTGCTGTGTGGGCAGGCTTTTGCCGCCCCTGCGCTCCCCGACCGCGCCGATATTCGCGACAGCGGTTTCGTCTATTGCGTCAGCGGCCAGGTTAATACCTTTAATCCGCAGAAAGTGAGCAGCGGACTGATCGTCGATACGCTGGCCGCGCAGATCTACGATCGCCTGCTTGACGTCGACCCTTATACCTATCGGCTGGTCCCCGAGCTGGCGGAGAGCTGGGAAGTCCTCGATAACGGCGCCACCTACCGCTTTCACCTGCGCCGCCACGTCCCGTTTCAACGCACGGCATGGTTCTCCCCGACGCGGGATTTCAACGCCGATGACGTGATTTTCACCTTTGGCCGCATTTTTAACCGCGATCACCCCTGGCACAACGTCAACGGCAGCAGCTTCCCCTACTTCGACAGCCTGCAGTTTGCTGACAGCGTGGAGAGCGTCCGCAAGCTCGATAATCAGACCGTGGAGTTTCGCCTCAAGCGGCCGGATGCATCATTCCTCTGGCATCTGGCCACCCACTATGCGTCGATTACCTCCGCCGAATATGCCGCCCGCTTAACGCAGGACGATCGTCAGGAACAGCTCGATCGCCAGCCGGTGGGCACCGGCCCGTTCCAGCTGTCTGAGTACCGCTCCGGGCAGTATGTTCGCCTGCAGCGCCACCCCGGCTACTGGCGCGGCAAACCGTTGATGCCGCAGGTGGTGGTCGATCTCGGCTCCGGTGGAACCGGCCGCCTGTCGAAACTGCTGACCGGCGAATGCGACGTGCTGGCCTGGCCGGCCGCCAGCCAGTTGACGATCCTGCGTGACGACCCGCGCCTGCGCCTGACGCTGCGTCCGGGGATGAACATTGCCTGGCTGGCCTTCAACACCGCCAAGCCGCCGCTGGACAACCCGGAGGTGCGCCACGCGCTGGCGCTGGCCATTAACAACCAGCGCCTGATGCAGTCTATCTACTATGGCACCGCGGAGACGGCGGCGTCGATGCTGCCGCGCGCCTCGTGGGCCTACGATAACGACGCTAAGATTACCGAATATAATCCCCAGGAGGCCCGCACCCGGCTGAAGGCCCTGGGGCTGGAAAATCTGACCCTCAAGCTGTGGGTTCCCACCAGCTCGCAGGCGTGGAACCCCAGCCCGTTGAAAACAGCAGAGCTGATCCAGGCGGATATGGCGCAGATTGGCGTCAAGGTGATCATCATGCCGGTGGAGGGGCGCTTCCAGGAGGCACGGCTGATGGACATGAACCATGACCTGACGCTCTCCGGCTGGGCGACGGACAGTAACGATCCGGACAGCTTCTTCCGGCCGCTGCTGAGCTGCGCGGCGATCGCCTCGCAAACCAACTTCGCCCACTGGTGTAACCGGGAATTTGATGACGTGCTGCAAAAAGCGCTGCTCTCGCAGCAGCTCTCCTCGCGGATGGACGCTTACAAAGAGGCCCAGCGCATCCTCGCTCGTGAACTGCCGGTCCTGCCGCTGGCCTCATCGCTGCGGTTGCAGGCCTATCGCTATGATATGAAAGGCCTGGTGCTTAGCCCCTTCGGTAACGCTTCGTTCGCTGGCGTATCGCGGGAGAAAACCGAAGAGGTGAAAAAACCATGA	MRLKLSSLLAAVSLLCGQAFAAPALPDRADIRDSGFVYCVSGQVNTFNPQKVSSGLIVDTLAAQIYDRLLDVDPYTYRLVPELAESWEVLDNGATYRFHLRRHVPFQRTAWFSPTRDFNADDVIFTFGRIFNRDHPWHNVNGSSFPYFDSLQFADSVESVRKLDNQTVEFRLKRPDASFLWHLATHYASITSAEYAARLTQDDRQEQLDRQPVGTGPFQLSEYRSGQYVRLQRHPGYWRGKPLMPQVVVDLGSGGTGRLSKLLTGECDVLAWPAASQLTILRDDPRLRLTLRPGMNIAWLAFNTAKPPLDNPEVRHALALAINNQRLMQSIYYGTAETAASMLPRASWAYDNDAKITEYNPQEARTRLKALGLENLTLKLWVPTSSQAWNPSPLKTAELIQADMAQIGVKVIIMPVEGRFQEARLMDMNHDLTLSGWATDSNDPDSFFRPLLSCAAIASQTNFAHWCNREFDDVLQKALLSQQLSSRMDAYKEAQRILARELPVLPLASSLRLQAYRYDMKGLVLSPFGNASFAGVSREKTEEVKKP	PGPT0013780_272	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0013780-sapA-K19226	NA	NA
BMS020_05958	906			hypothetical protein	ATGCGTATATTTCTTACCGGCGCGAGCGGATTTATCGGCTCGCGTATTCTTCCGGCGCTGCAGGCGTCGGGCCATCAGGTTATCGGCCTCGCGCGCAGCGACGCCACGGCGCAGGCCCTGGAAGCGGCAGGGGTCGAGGTGCGCCGCGGCACGCTGGACGCCCCCGATTCGCTGCTGGCGGGCGTCGAGAGCGCCGACGCGGTGATCCATACCGCTTTCGACCACGACTTCAGCCGCTTTGCCGCCAACTGCGAGAAAGACCGCCAGGCGATCCTCACCATCGGCCAGGCGCTGCGGGGCAGCGCGCGGCCGCTGGTCATCACCTCCGGCACGCTGATGGGCGACGACGGGAGCGGCGCCCCGGCCCGCGAGTCGTGCTTTAACGCCGCGCACCCCAGCCCGCGGACCGCCTCAGAACTTGCCGGCCAGCAGCTGCTGGAGGCGGGAGTGGACGTCCGGGTCGTTCGCCTGCCGCAGGTGCATGACACCGTGCGCCAGGGGCTGCTGACCAGCTATATCGAACGCGCGGTCGCCAGCGGCGCGGTGGCCTTGCGCGGCGAGGGGAACCACCGCTGGTCCGCCGCCCATGTCGATGACGTCGCGCGCCTGTACGTCAGCGCCCTGCTGCAGGGCGCTGCGGGCGAGCGCTACCATGCGGTGGCTGAAGAGGGGATCGCATTACGGGAGATTGCCGCAGTCATCGCCCGGGGCTTAAATCTGCCGCTGACCCAGCTGGATGAGGAGCAGGCTGACGCCTGGTTCGGCTGGTTTGCCCCCTTTACCGCCCTTGACCTGCGCGCCAGCTCGGCATGGACTCGCGAGCGATTGCAGTGGCAGCCGGTCGGCCCCGGGCTGCTGGAGGATTTACGGAATATGGATTATCAAAAAGTGACGTTGTCACGATAA	MRIFLTGASGFIGSRILPALQASGHQVIGLARSDATAQALEAAGVEVRRGTLDAPDSLLAGVESADAVIHTAFDHDFSRFAANCEKDRQAILTIGQALRGSARPLVITSGTLMGDDGSGAPARESCFNAAHPSPRTASELAGQQLLEAGVDVRVVRLPQVHDTVRQGLLTSYIERAVASGAVALRGEGNHRWSAAHVDDVARLYVSALLQGAAGERYHAVAEEGIALREIAAVIARGLNLPLTQLDEEQADAWFGWFAPFTALDLRASSAWTRERLQWQPVGPGLLEDLRNMDYQKVTLSR				NA	NA	NA	NA	NA
BMS020_05959	843			hypothetical protein	ATGAACACTTCTGACAATCATGCTTTAGGTGATTTTCTCCGCGCCAGGCGCCAGCGTCTCGACCCGGTAACGTTTGGCTTCCCGGCGGGACGCCGGCGCACGCCGGGCCTGCGCCGTGAAGAGGTCGCCCAGCTCGCCAGCATCAGCCCGACCTGGTATACCTGGCTTGAACAGGGGCGCGGCGGGGCGCCTTCCCGCGAGGTGCTGGAGCGGATCGCCCGCGGTCTTCGGCTGACCACCCCGGAGCGCGAACATCTGTTTATACTCGCCTTCGGCCATCCGCCGCAGACCCGTTTGACGATCACAGATGATATGACGCCGCGGCTGCAGCGGGTGCTCGATGCCTTCGCCATTCCGGCGATTATCCGTACCGCCAGCTGGGACGTGATCGCCTGGAACGCGGCGGCGGCCAGGGTGCTGACCGACTACGGCCAGCTGCCGCTGGCGGAGCGCAACGTGCTGCGCCGCCTGTTTACCCGGCCTGAGGCCCGCTGCACCCTGGAGGACTGGCAGACGGTGGGGCAGCTTATCGTTAATGCCTTTCGCGCCGACGTCACGCGGATGGGCGCCACGACGGAAACTGACCAGCTGATCGCGGAGCTCAGCCAGCAGAGCGTCGAGTTCGCCCGTTTCTGGCAAAGCCACGACGTCGCCGGCCACGGCGAGGGCTATAAGCGCATTCACCACCCGCAGATGGGCCCGCTCGATCTGGAGTTCACCTCTTTTGCCGTGGAGGGCCGCCCCGATCTGTCGCTACTGGTTTTCAACCCGGCGACGACGGAGAGCCAGCGCAAAATTCACGGTTTGCTTCAGGCGTCGGGATCCTCATCGGGGGAGTACTGA	MNTSDNHALGDFLRARRQRLDPVTFGFPAGRRRTPGLRREEVAQLASISPTWYTWLEQGRGGAPSREVLERIARGLRLTTPEREHLFILAFGHPPQTRLTITDDMTPRLQRVLDAFAIPAIIRTASWDVIAWNAAAARVLTDYGQLPLAERNVLRRLFTRPEARCTLEDWQTVGQLIVNAFRADVTRMGATTETDQLIAELSQQSVEFARFWQSHDVAGHGEGYKRIHHPQMGPLDLEFTSFAVEGRPDLSLLVFNPATTESQRKIHGLLQASGSSSGEY				NA	NA	NA	NA	NA
BMS020_05960	2322	rhaR_5		HTH-type transcriptional activator RhaR	GTGGAGCAGCATTCAGGTGACTTTAGCGTCACCGTGCGCGATGTGCGTCAGCTAAGCCAGCCGGAGAGCGATCTGCTGACGCTGCTGTGGGTGCTGGAGGGGAGCGTAAATCTGGCGGAGGCGGAAGGTGCGCCGCAGCAGCTTGCCGTCGACGGGCTGGCGATCGTTAACCGCAACCGTCGCTGGAGCCTGCACAGCGCCGGGGGCAACGCGGTGATGGTCCTCACCCTCTCCGCCAGCTGGCTGGCCCGCCTCGACAACGCCTTTTTTGCCGTCGACTACCAGATATCGCCGCGCACCCGCGATGCCGATGACGGCCTGCGCCGCCTGATGCGCCAGCTGCTGGTGAGCGGCCTGGTCAATCATCCCGGCCATTACCGGCTGGAGGCCAACCGTTGGCTGAGTGAGATAGCGCTGCTGCTGGCCACGCGCTTCAGCCAGCCCATCGCCTTCACGCCACGGCGCGATGCTGAAAAATGGAGCCGGAGGATAGCCAGCGTAGTGGCGCGGATCGACGCCAACTATCAGCGCCGTCTCTCTTTACAGGAGGTGGCGGCCGCCGAGTTTGTCTCCGAGGCCTGGCTGTCACGCCTGTTTCACAAGGAGGTTGGCGTCAGTTTTGTCCAGTACCTCACCGCGCTGCGCCTGCGCCACGCCGCCGATCAGCTGTTAACCACCCGCAAACCCGTTCAGCAAATTGCCCGCGAGCAGGGGTTCGCCAGCACGCGGATGATGAGCGACCTGTTTAAGCGCCACCATGGGGTGACGCCGCGCCAGTATCGCGAGCGGTCCCCCCGGGAGCCGGGCCGACCGCGCCCGCCGCAGGGCGATCGCTGGCAGCCGGTGGCCGTGGACCGGCTCTACGCCCGCCTTAATGAGCCGGAACAACGCGACCGGGAGAGTCAGCCGCTGTTGATCAATCCGCCGCAAACCCGGGAGATCAACCTGCACCAGCGACCGGCGCGCGCCGCGGTGCTGCGCCATACCCGGATGGTGGTGACCGTGCGCGAGCTGGACGATCTGCTGCGGGAGGACGTGCGCCGCGAACTGGAGCAGTTGCACCGCGCCCTGCCGGTGTATGCCATTGATATCAACGATGCCTTTCTCAGCAGCCGCCTGTTCGGCACCGGCTGGGACGATCCGCAGATGGCTGGCTACGCCTGCTGGTACAACCTGCAGCAGATCTTCAGCTGGCTGGCGGCGATGGGCTGGCAGGTGATCCTGCATACCGGGGTCACCACCCGCAGCGATCTGCTGCAGCGCTTCCTGCAACTCGCCGCCAACCATTTTCCACCGACGACGCTCAGCAGCTGGCGCTTTGTCTGGCACTGGTCGCCGCAGGCCAGCGAAGCGGCCCGCCAGGCGGCCTGGCGGCAGCAGCGCGAGGTTCTTCACCGTCTGCTGCCGCAGCCGCAGCTGGGGATCTGGCACCGCTTTGCCGCCAGCGCGCCCGGGGACGATCCGCTGTTCCACTCGCCGCTGCTGGCGGAAGCCGATTTTCTCGCCTGCCAGGCGGATGCCAACGAACGGCTGGATCTGGCTCAGGCGGACAGCAGCAGTCTGGCCTCCAGCGAGCACTATCCGGCGCATAAGCTGCGACAGATCCACAGCGCCCTGCGTCAACGGCAGCTTAACCTGCCGCTATGGCTGCTCTCGTGGAATACGCTGACCGGCGATACGCGGGACACCAACGGGCGCTTTTTTCGCGGCGCGCTGTTGATGGATAATCTGCTGGGGGTCGCGGACCAGGTCTGGCTGGCGGGCTTCTGGTTAAACTCCGGCCTCCAGGGCGAAGCCCGCGCCAACGGCAAGCTGGATACCTCCAGCCTGGCGCTGCACTATCTGCACGGGCTGCCGCGCCCGGTTTACTGGGTACTGTGGCTCTGGCGACGGCTGCGCGGCGAGATCCTGTTTCACGACAAAAACCTGCTGCTGCTCCATCACCAGGGGCACTACCAGCTGCTGCTGCGCAATACGGTGGTCTACAACCCCTGGCTCTCCAGCGAAGCGGCTTTTATTCAACGCTTCAGCCAGCCGTACAATGTGCGGCTGCAGGGGCTCAAGGGCCGCTGGCGCATCAAACAGCACCTCTTCGATCAGCACCACGGCGCGCTGTTCCCGCTGGTGGACGCCTTTCGCAGCCGCAGCGGCCCCGACGCCGAAGATTATCAGTGGCTGATGCATCAGGCCCGTCCGGCGCTCAGCGTGGAGGAAGCCCGACTCGACGGCCACTGGCTGCGGGTCGACTCGCTGGAGAGCAACGCCCTGGCCCTGTACGAATTTACCCCTCAGTACTCCCCCGATGAGGATCCCGACGCCTGA	MEQHSGDFSVTVRDVRQLSQPESDLLTLLWVLEGSVNLAEAEGAPQQLAVDGLAIVNRNRRWSLHSAGGNAVMVLTLSASWLARLDNAFFAVDYQISPRTRDADDGLRRLMRQLLVSGLVNHPGHYRLEANRWLSEIALLLATRFSQPIAFTPRRDAEKWSRRIASVVARIDANYQRRLSLQEVAAAEFVSEAWLSRLFHKEVGVSFVQYLTALRLRHAADQLLTTRKPVQQIAREQGFASTRMMSDLFKRHHGVTPRQYRERSPREPGRPRPPQGDRWQPVAVDRLYARLNEPEQRDRESQPLLINPPQTREINLHQRPARAAVLRHTRMVVTVRELDDLLREDVRRELEQLHRALPVYAIDINDAFLSSRLFGTGWDDPQMAGYACWYNLQQIFSWLAAMGWQVILHTGVTTRSDLLQRFLQLAANHFPPTTLSSWRFVWHWSPQASEAARQAAWRQQREVLHRLLPQPQLGIWHRFAASAPGDDPLFHSPLLAEADFLACQADANERLDLAQADSSSLASSEHYPAHKLRQIHSALRQRQLNLPLWLLSWNTLTGDTRDTNGRFFRGALLMDNLLGVADQVWLAGFWLNSGLQGEARANGKLDTSSLALHYLHGLPRPVYWVLWLWRRLRGEILFHDKNLLLLHHQGHYQLLLRNTVVYNPWLSSEAAFIQRFSQPYNVRLQGLKGRWRIKQHLFDQHHGALFPLVDAFRSRSGPDAEDYQWLMHQARPALSVEEARLDGHWLRVDSLESNALALYEFTPQYSPDEDPDA				NA	NA	NA	NA	NA
BMS020_05961	1170	hipO_3	COG1473	Hippurate hydrolase	ATGACACATCCGTTGCTTGAAGCCTTGCAGGTCAACGAGGCGCAATTTATTGCCTTACGTCGCCGGTTCCACCAGCAGCCGGAGATCGGCTTTGAAGAGCATCAGACCAGCAGCGAGGTCGCCCGACTGCTTTGCGAATGGGGATACGAGGTTCATCGCGGCCTGGCGGGCACCGGGGTGGTGGGTACGCTGCGCGTCGGCCAAGGAAAAAAACGCCTCGGCCTGCGGGCGGATATGGATGCCCTGCCGATGCAGGAGCGGAGCGGGAAGCCGTGGGCAAGCCAGGTTGAAGGGCGCTTTCACGGCTGCGGCCATGACGGTCACACCACCACGCTGCTCTACGCGGCTGAATATCTGGCGCGCACCCGCCAGTTTAACGGGACGCTGCAGCTGATTTTCCAGCCCGCGGAAGAGTTGCTGTACGGCGGGCGGGTGATGGTCGAGGACGGTCTGTTTGACCAGTTCCCCTGCGACGCCATCTTCGGCCTGCACAATATGCCGGGTCAGCCGCTGGGTAAAATCGGTCTGCGCGACGGGGCGATGATGGCCTCCTCCGATACGCTGCATATTGAAGTGAAGGGCGTTGGCGGCCACGGCGCGGTACCGGAGCATACGGTGGATGCCACGCTGGTGGCCTGCCATATTACCCTCGCGCTGCAGTCTATCGTCTCGCGCAATATCACCCCGTTTGAGCCAGCGGTCGTGACCGTCGGCAGCATCCAGGCCGGACATGCGCCCAATATCATTAACGATCATGTGTTGATGAAGCTCACGGTGCGCACCCTCAATGAGCAGGTACGCGAGACCGTGCTGCAGCGGATCCATGATATTGCTGTGGCTCAGGCGGAGAGCTTTAACGCCACGGCTACGCTGACCCACGTCAACGGCAGCCCGGTATTACGTAACGATCCGGCGGCCAACGCCATGGTGCGGGAGGTGGCCACAGCGCTGTTTGGCGCAGAGCAGGTGGGCGAGGTGAAGCCGTTTATGGGCAGTGAAGATTTCGCCTTCATGCTGGAGCAGCACCCCCATGGCAGTTATTTCACTATCGGCGCTGGCGACGAGCCGGATCGCTGCATGGTGCATAACCCGGGCTATGACTTCAACGACGCGCTGTTGCTTAGCGGCGCGGCGCTGTGGTGCGGCCTGACGGAACACTATCTGCGTTAA	MTHPLLEALQVNEAQFIALRRRFHQQPEIGFEEHQTSSEVARLLCEWGYEVHRGLAGTGVVGTLRVGQGKKRLGLRADMDALPMQERSGKPWASQVEGRFHGCGHDGHTTTLLYAAEYLARTRQFNGTLQLIFQPAEELLYGGRVMVEDGLFDQFPCDAIFGLHNMPGQPLGKIGLRDGAMMASSDTLHIEVKGVGGHGAVPEHTVDATLVACHITLALQSIVSRNITPFEPAVVTVGSIQAGHAPNIINDHVLMKLTVRTLNEQVRETVLQRIHDIAVAQAESFNATATLTHVNGSPVLRNDPAANAMVREVATALFGAEQVGEVKPFMGSEDFAFMLEQHPHGSYFTIGAGDEPDRCMVHNPGYDFNDALLLSGAALWCGLTEHYLR				NA	NA	NA	NA	NA
BMS020_05962	1392	norB		Quinolone resistance protein NorB	ATGAGCACTGTCACCGTAAGCGACACCCCCTATGTCGGCAGCGATCGTCTGCTGGTGGGGATTGTGCTGAGCGTTTTAACCTTCTGGCTGTTTGCCCAGTCGGTGATTAACGTCGTGCCGGCGATGAAAAGCAGTCTTGATATTTCTCTTGAGACCTTAACCCTGGCCGTCAGCCTCAGCGCGCTGTTCAGCGGCTGTTTCGTGGTGGCCAGCGGCGGCCTGGCGGACAAGTTTGGCCGCATGCGAATGACCACCCTCGGGCTGGGGCTGAGCATCGTCGGCAGCGCCATGCTGGTACTGGCCCAGGGGCCGGGGCTGTTCCTCGCCGGCCGGGTGCTGCAGGGGCTGTCGGCGGCGTGCATTATGCCGGCGACGCTGGCGCTGATTAAGACCTGGTACCAGGGGCGCGCGCGTCAGCGGGCGGTCAGCTTCTGGGTCATCGGCTCGTGGGGCGGCAGCGGCCTGTGCTCCTTCGTCGGCGGAGCTATCGCCACCGGCCTGGGTTGGCGCTGGATCTTTGTCTTTTCCATCGCCGTTGCCCTGGCGGCGCTGGCGTTACTGCGCGGCACGCCGGAGAGCCGCAGCGCCAGCGCCAGCCAGCAGAAGCTGGACGTTGGCGGCCTGCTGAGCCTTATCGCCGGGCTGGTGCTGGTGAATCTGTTTATCAGCAAAGGCCACGGCTGGGGCTGGAGCAGTCCGCTGTCGTTGAGCATGCTGGCGGGGGCGCTGATCGCTGGCGCGGTGTTTATTCGCAGCGGGCTGCGCAAAGGCGAGGCGGCGCTGATCGATTTTGCGCTGTTTCGCAACCGGGCGTACGGCGCGGCGGTGCTGTCGAACTTTCTGCTCAACGGGGCGATTGGCACCATGATGATCGCCAGCATCTGGCTGCAGCAGGGGCACCACCTGACGCCGCTGGAGAGTGGAATGATGACCCTCGGCTATCTGGTCACCGTCCTGGCGATGATCCGGGTCGGCGAGAAGCTGCTGCAGCGCTACGGCGCCCGGCTGCCGATGATGGCCGGCCCGGTGCTGACCGCCATCGCCATCGGCCTGATATCCTGCACCTTTCTCGATAAGGCGCTCTATATCGGCGTGGTGTTCGGCAGCAATGTGCTGTTCGGCCTCGGGCTGGGCTGCTACGCCACGCCGTCAACGGATACGGCGGTGGCCAACGCGCCGGAGAACAAAATTGGCGTCGCCTCGGGGATCTACAAGATGGGCAGCTCACTGGGCGGGGCGATGGGGATTGCCGTGACGGCGTCACTTTTCGCGCTGTTTTTGCCGCTCGGTATGGCCCATGCCGCCCAGTATGCCCTGTGGTTCAACGCCGCCTTATGCCTGGGGGCGATGGCGGTGAGCGCGCTGCTGCTGCCGCGCGCCTCTCACAGCTGA	MSTVTVSDTPYVGSDRLLVGIVLSVLTFWLFAQSVINVVPAMKSSLDISLETLTLAVSLSALFSGCFVVASGGLADKFGRMRMTTLGLGLSIVGSAMLVLAQGPGLFLAGRVLQGLSAACIMPATLALIKTWYQGRARQRAVSFWVIGSWGGSGLCSFVGGAIATGLGWRWIFVFSIAVALAALALLRGTPESRSASASQQKLDVGGLLSLIAGLVLVNLFISKGHGWGWSSPLSLSMLAGALIAGAVFIRSGLRKGEAALIDFALFRNRAYGAAVLSNFLLNGAIGTMMIASIWLQQGHHLTPLESGMMTLGYLVTVLAMIRVGEKLLQRYGARLPMMAGPVLTAIAIGLISCTFLDKALYIGVVFGSNVLFGLGLGCYATPSTDTAVANAPENKIGVASGIYKMGSSLGGAMGIAVTASLFALFLPLGMAHAAQYALWFNAALCLGAMAVSALLLPRASHS	PGPT0028970_209	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028970-norB|norC-K08170	NA	NA
BMS020_05963	990	pspF	COG1221	Psp operon transcriptional activator	ATGGCGAAATTCATCATGGCGCAGTACAAGGATAATTTGCTGGGCGAGGCCAACAGCTTTCTCGAGGTGCTGGAACAGGTTTCCCGGCTGGCTCCGCTGGACAAACCGGTGCTGGTCATCGGCGAGCGCGGTACCGGGAAAGAGCTTATCGCCAACCGTCTGCACTACCTCTCCGCCCGCTGGCAGGGGCCGTTTATCTCGCTGAACTGCGCGGCGCTGAATGATAACCTGCTCGATTCGGAGCTGTTTGGCCACGAAGCCGGGGCCTTCACCGGCGCCAGCAAGCGCCATCCCGGACGCTTCGAGCGCGCCGACGGCGGGACGCTGTTTCTCGATGAGCTGGCGACGGCCCCGATGCTGGTGCAGGAGAAGCTGTTAAGAGTGATTGAATATGGCGAGCTGGAGCGCGTGGGCGGCAGCCAGCCGCTGCAGGTCAACGTCCGGCTGGTGTGCGCCACCAACGCCGACCTGCCGCGGATGGTGGAGGAAGGCCATTTCCGCGCCGACCTGCTCGACCGTCTGGCCTTCGACGTGGTGCAGCTCCCGCCGCTGCGCGAACGGCAGAGCGACATCATGCTGCTCGCCAACCAGTTTGCCATTCAGATGTGCCGCGAGCTCGGTCTGCCGCTGTTTCCCGGCTTCAGCGAACGAGCCACCGCCACGCTGCTCGGCTACCGCTGGCCGGGAAATATTCGTGAACTGAAGAACGTCGTCGAGCGCTCGGTCTATCGCCACGGCGACAGCGAGCACGAGCTGGACGCCATTATCCTCAACCCTTTCCGTCAGTCCGCGGCCTCCGTGCCGGAGGCCGCGTCCGGGGACGAACTGCCCGCCCTGCCGCTGGATCTCCGCGATTTTCAGCTACAGCAGGAAAAACGCCTGCTGCAGCGGAGTCTGCAGCAGGCGAAGTATCATCAGAAGCAGGCGGCGGAGCTGTTGGGGTTAACCTATCATCAGCTCCGCGCGCTGCTGAAAAAGCATCAGCTGTGA	MAKFIMAQYKDNLLGEANSFLEVLEQVSRLAPLDKPVLVIGERGTGKELIANRLHYLSARWQGPFISLNCAALNDNLLDSELFGHEAGAFTGASKRHPGRFERADGGTLFLDELATAPMLVQEKLLRVIEYGELERVGGSQPLQVNVRLVCATNADLPRMVEEGHFRADLLDRLAFDVVQLPPLRERQSDIMLLANQFAIQMCRELGLPLFPGFSERATATLLGYRWPGNIRELKNVVERSVYRHGDSEHELDAIILNPFRQSAASVPEAASGDELPALPLDLRDFQLQQEKRLLQRSLQQAKYHQKQAAELLGLTYHQLRALLKKHQL	PGPT0000001_423	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000001-nifA|anfA|vnfA-K02584	NA	NA
BMS020_05964	669	pspA_3	COG1842	Phage shock protein A	ATGGGTATTTTTTCTCGTTTTGCCGACATCGTGAACGCCAACATCAACTCCCTGCTGGAGAAAGCCGAGGACCCGCAAAAGCTGGTGCGTCTGATGATCCAGGAGATGGAAGACACGCTGGTTGAGGTACGTTCCACGTCGGCCCGCGCGCTGGCGGAAAAGAAACAGCTGACCCGTCGTATTGAGCAGGCGGTCGCCCAGCAGGCGGAATGGCAGGAAAAGGCCGAGCTGGCCCTGCGCAAAGAGAAAGAGGATCTGGCCCGGGCGGCGCTGATCGAAAAACAGAAGCTGACCGACCTTATTGCTCAGCTGGACCACGAAGTGCAGCTGGTGGATGAAACGCTGGCGCGCATGAAGAAAGAGATTGGCGAGCTGGAGAACAAACTCAGCGAAACCCGCGCCCGTCAGCAGGCGCTGGCGCTGCGTCATCAGGCGGCGAGTTCGTCCCGCGATGTGCGTCGCCAGCTGGACAGCGGTAAACTGGATGAGGCGATGGCGCGCTTTGAATCCTTTGAACGTCGCATCGATCAGATGGAAGCGGAAGCGGAGAGTCACCGCTTTGGCAAGCAGCAGACGCTGGATCAGCAGTTTGCCGAACTGAAAGCGGACGATGAAATCAGCGAGCAGCTGGCGGCTTTGAAAGCCAAAATGAATCAGTCCAACCAGTAA	MGIFSRFADIVNANINSLLEKAEDPQKLVRLMIQEMEDTLVEVRSTSARALAEKKQLTRRIEQAVAQQAEWQEKAELALRKEKEDLARAALIEKQKLTDLIAQLDHEVQLVDETLARMKKEIGELENKLSETRARQQALALRHQAASSSRDVRRQLDSGKLDEAMARFESFERRIDQMEAEAESHRFGKQQTLDQQFAELKADDEISEQLAALKAKMNQSNQ	PGPT0014646_1716	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
BMS020_05965	225	pspB_1		Phage shock protein B	ATGAGCATGCTTTTTCTCGCCATTCCGTTGACGCTGTTTGTGCTGTTTGTTCTGCCGGTCTGGCTGTGGCTGCACTACAACAATCGCGGCGCCAACGGGACGCTGACGCAAAATGAGCAGCAACGGCTGCTGCAGTTGACCGATGACGCGAAGCGGATGCGCGAGCGCATTCAGGCGCTGGAAGCGATCCTGGATGCCGAACATCCGAACTGGAGAGACAAATAA	MSMLFLAIPLTLFVLFVLPVWLWLHYNNRGANGTLTQNEQQRLLQLTDDAKRMRERIQALEAILDAEHPNWRDK	PGPT0027525_358	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-PspC-PspB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027525-antitoxin_pspB-K03970	NA	NA
BMS020_05966	360	pspC	COG1983	Phage shock protein C	ATGGCTGGACTGGATCTGAATAAAAAACTGTGGCGTATCCCGCAGCGCGGGATGGTCAAGGGCGTCTGCGCGGGTATTGCTCAGCATCTTGATGTCCCGGTGAAGCTGGTGCGTCTGATTACCGTGCTGGCGATGATTTTTGGCCTCTTTTTCTTCGTCCTGGTGGCCTACATCATTCTGACCTTCGCCCTGGACCCGATGCCGGACAGTGAGCTTTACGGCCACAAAGCGCCGAGCAATGGCGATCTGCTGGCCGCCGTGGATGCCGAACTGGCCTCCGGCGAACAGCGTCTGCGTGAGATGGAACGGTACGTCACCTCCGACACCTTCACGCTGCGCAGCCGCTTTCGTCAGCTGTAA	MAGLDLNKKLWRIPQRGMVKGVCAGIAQHLDVPVKLVRLITVLAMIFGLFFFVLVAYIILTFALDPMPDSELYGHKAPSNGDLLAAVDAELASGEQRLREMERYVTSDTFTLRSRFRQL	PGPT0027520_659	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
BMS020_05967	219	pspD		Phage shock protein D	ATGAATAGCAAATGGCAACGCGCCGGGCAGCAGGTTAAGCCCGGCCTGAAAATCGTCGGTAAGCTGGCGCTGCTGACCGCGCTGCGTTATGGCCCGGCGGGCGTTGCCGGCTGGGCGGTCAAATCGGTCGCGCGACGGCCGCTGAAAATGCTGCTGGCGGTGGCGCTGGAGCCGCTGCTCAGCCGGCTGGCCAACCGCGTCACGCGTGGGATGAAATAA	MNSKWQRAGQQVKPGLKIVGKLALLTALRYGPAGVAGWAVKSVARRPLKMLLAVALEPLLSRLANRVTRGMK	PGPT0014647_77	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_SHOCK_PROTEINS,PGPT0014647-pspC-K03971	NA	NA
BMS020_05968	1398	ycjX	COG3106	putative protein YcjX	ATGAAGCGACTGAAAACTGAATTGAATGCGCTGGTCAACCGCGGGGTTGACCGGCATTTACGGCTGGCGGTGACCGGCCTGAGCCGCAGCGGCAAAACGGCGTTTATCACCGCGCTGGTCAACCAACTGCTGAATATTCACACCGGCGCCCGCCTGCCGCTGCTGAGCGCTGCGCGCGAAGAGCGACTGCTCGGCGTCAAGCGCGTACCGCAGCGGGACTTCGGCATTCCGCGATTCACCTACGATGAAGGGCTGGCCCAGCTGTACGGCCAGCCCCCCATGTGGCCAACCCCGACGCGCGGCGTTAGCGAGATCCGTCTCGCGCTGCGCTACCGTTCCAACGACTCCCTGCTGCGCCATTTTAAAGACACCTCCACGCTGTATCTGGAGATCGTCGACTATCCGGGCGAGTGGCTGCTCGATCTGCCGATGCTGGCGCAGGATTATCTGAGCTGGTCGCGGCAGATGACCGGACTCCTGCAGGGACAGCGTGCGGAGTGGTCGACCCGCTGGCGGCAGTTGTGCGCCGGGCTGGATCCGCTGGCCCCTGCCGACGAGGCCCGGCTGGCCGAGATCGCCGCCGCCTGGACGGATTATCTGCACGCCTGTAAGCGTGAAGGGCTGCACTTTATCCAGCCCGGACGCTTTGTCCTGCCCGGCGAAATGGCCGGCGCGCCGGCACTACAGTTTTTCCCATGGCCTGACGTCGATGCCGTCGGCGAAGCCAAGCTGGCGCAGGCCGATAAACACAGCAACGCCGGCATGCTGCGCGAACGCTACAAGTACTACTGCGAAAAGGTGGTGAAGGGGTTCTACAAAGAGCACTTCCTGCGCTTCGACCGGCAGATTGTGCTGGTGGACTGCCTGCAGCCGCTCAACAGCGGGCCGCAGGCGTTTAACGATATGCGCCTGGCGCTGACCCAGCTGATGCAAAGCTTCCATTACGGGCAGCGCACCCTGTTCCGCCGGCTGTTTTCGCCGGTCATTGACAAGCTGCTGTTCGCCGCCACCAAAGCCGACCACGTCACGGTGGATCAGCACAGCAATATGGTGTCGCTCCTGCAGCAGCTGATCCAGGACGCGTGGCAGAATGCCGCCTTCGAGGGGATCAGTATGGATTGCCTGGGGCTGGCGTCCATTCAGGCGACCCAGAGCGGGCTGATTGAGCTGAACGGCGAGAAAATCCCCGCCCTGCGCGGCAATCGGCTGAGCGACGGCCAGCCGTTGACCATCTATCCCGGCGAGGTGCCGGCGCGCCTGCCGGGGCAGGCCTTCTGGCAGCAGCAGGGATTTCAGTTTGAAAACTTTCGTCCGCAGGTCATGGATGTCGATCGGCCCTTGCCGCACATTCGCCTCGACGCGGCGCTGGAATTTTTGATTGGAGATAAACTGCGATGA	MKRLKTELNALVNRGVDRHLRLAVTGLSRSGKTAFITALVNQLLNIHTGARLPLLSAAREERLLGVKRVPQRDFGIPRFTYDEGLAQLYGQPPMWPTPTRGVSEIRLALRYRSNDSLLRHFKDTSTLYLEIVDYPGEWLLDLPMLAQDYLSWSRQMTGLLQGQRAEWSTRWRQLCAGLDPLAPADEARLAEIAAAWTDYLHACKREGLHFIQPGRFVLPGEMAGAPALQFFPWPDVDAVGEAKLAQADKHSNAGMLRERYKYYCEKVVKGFYKEHFLRFDRQIVLVDCLQPLNSGPQAFNDMRLALTQLMQSFHYGQRTLFRRLFSPVIDKLLFAATKADHVTVDQHSNMVSLLQQLIQDAWQNAAFEGISMDCLGLASIQATQSGLIELNGEKIPALRGNRLSDGQPLTIYPGEVPARLPGQAFWQQQGFQFENFRPQVMDVDRPLPHIRLDAALEFLIGDKLR				NA	NA	NA	NA	NA
BMS020_05969	1062			hypothetical protein	ATGAGCGAACCGTTAAAACCGCGGATTGATTTTGATGGCCCGCTGCAGGCGGAAAAAACGCCGCCGCTGAAAAGCGCCCGCGCCTTCGACCGACGGGAAGCCGACAACTTCGCGCCGGCGCTTCTGGTGACCGGCGAAGAGGAAGAGGGGGCGGCAGAGGCGGTGGTGGAATCGGTGCTGCGGCCGAAACGCAGTCTGTGGCGGCGGATGGTCAGCGCTGGCCTGGCGATCTTCGGCGTCAGCGTCGTGGCGCAAGGGGTGCAGTGGACCGCCAACGCCTGGCAGACGCAGGACTGGATTGCGCTGGGCGGCTGCGCTGCCGGGGCGCTGATCGTCGGCGCCGGCGTCGGATCGGTGGCCACCGAGTGGCGCCGCCTGTGGCGACTGCGCCAGCGCGCCCACGAACGCGATGAAGCCCGCGATATGCTGCACAGTCACGCGGTCGGCAAAGCGAAATCCTTCTGTGAGAAGCTGGCGCAGCAGGCGGGTCTGGATCAGTCGCATCCGGCGCTGCAGCGCTGGTATGCCGCCATCCACGAAACGCAAAGCGACCGGGAAGTGGTCAGCCTCTATGCCCAGCTGGTGCAGCCGGTGCTCGATGCCCAGGCGCGGCGGGAAATCAGCCGTTCGGCGGCGGAGTCGACGCTGATGATCGCCGTCAGTCCGCTGGCGCTGGTGGATATGGCGTTTATCGCCTGGCGCAATCTGCGGCTGATCAACCGAATTGCCACCCTGTACGGCATTGAGCTGGGGTATTACAGCCGCCTGCGTCTGTTTCGCCTGGTGCTGCTGAATATCGCTTTCGCCGGCGCCAGCGAACTGGTGCGCGAGGTGGGCATGGACTGGATGTCGCAGGATCTGGCGGCCCGGCTGTCGGCGCGCGCCGCGCAGGGCATCGGCGCCGGTCTGCTTACCGCCCGCCTTGGTATCAAGGCGATGGAGCTGTGCCGCCCGCTGCCGTGGATCGCCGATGATAAACCGCGGCTCGGCGATTTTCGTCGCGAGTTGATTGGGCAGCTGAAAGAGACCCTGCAGAAAAGCAAAACCAGTCCGGAGAAGTAA	MSEPLKPRIDFDGPLQAEKTPPLKSARAFDRREADNFAPALLVTGEEEEGAAEAVVESVLRPKRSLWRRMVSAGLAIFGVSVVAQGVQWTANAWQTQDWIALGGCAAGALIVGAGVGSVATEWRRLWRLRQRAHERDEARDMLHSHAVGKAKSFCEKLAQQAGLDQSHPALQRWYAAIHETQSDREVVSLYAQLVQPVLDAQARREISRSAAESTLMIAVSPLALVDMAFIAWRNLRLINRIATLYGIELGYYSRLRLFRLVLLNIAFAGASELVREVGMDWMSQDLAARLSARAAQGIGAGLLTARLGIKAMELCRPLPWIADDKPRLGDFRRELIGQLKETLQKSKTSPEK				NA	NA	NA	NA	NA
BMS020_05970	900	dsdC_1	COG0583	HTH-type transcriptional regulator DsdC	GTGCTTGAACAACAAAGCATCCTTGCGCTGCTGCAGACCTTTGAGGTGACCGCCCGCCATTTGAGTTTTACCCTCGCCGCGCATGAAATGAACCTGACCCAGGGGGCGGTCAGCCATCGGATCCGCAAGCTGGAGATGCATATCGGATTTCGCCTGTTTATTCGCATGACGCGTAAACTGGCGCTGACGGAGGAAGGCAAACGCCTGCTGACGACGTTGAGCCATTCGCTGCGGGCGATTAACGATGAAATTGAGGATATTCGCGAACAGGATCTGCGCGGCACGCTGCATATTGGTATTGCGCCGACCCTGGCCCATCTTTGGCTGATGCCGCGTCTGCCCCGCTTCCAGGCCCAGTGGCCGGGACTAAATCTACAGTTTCGCGTCCGCGCCGGGGTGATGGATTTTAACGAGGAGCGGGTGGACCTCGCGATTTATTACGGCGCCACGCGCTATCCCGATCTTTATCAACAACGGTTGATGGCGGAAAGTTTGCTGCCGGTCTGCTCTCCGGAGTATCGCCGGCAGTATCGCCCGCTGAGCGGCGGCGACGCGGCGGCGATCGTCTGGATCCATGCCTGCGAATCCACCGACGTGCAGGATCAGTTTGCCGAATGGCGCCTGTGGTGCCAGCAAAGCGGACAGGCGTTACCCTTTGACGGCCGGTATTACGCGGTGAACAACCACTCGCTGGCCATTGAGATGGCGCTGAATGGACTCGGGGTCGTGATGGGGCGTAAAACGCTGATCCAGCCGCTGCTCGCCACCGGGAGACTGGTAGCCTTGTCCGAAGACGAGGCGGAATCTCCCTTTGGCTATGATCTGATTTGTCCGCAGGAGAACCGCTCGCGCCCGCGCTTTCGCGCCTTCAGCGAGTGGCTGGCGGCGGAATGCGTATGA	MLEQQSILALLQTFEVTARHLSFTLAAHEMNLTQGAVSHRIRKLEMHIGFRLFIRMTRKLALTEEGKRLLTTLSHSLRAINDEIEDIREQDLRGTLHIGIAPTLAHLWLMPRLPRFQAQWPGLNLQFRVRAGVMDFNEERVDLAIYYGATRYPDLYQQRLMAESLLPVCSPEYRRQYRPLSGGDAAAIVWIHACESTDVQDQFAEWRLWCQQSGQALPFDGRYYAVNNHSLAIEMALNGLGVVMGRKTLIQPLLATGRLVALSEDEAESPFGYDLICPQENRSRPRFRAFSEWLAAECV				NA	NA	NA	NA	NA
BMS020_05971	1314	licH	COG1486	putative 6-phospho-beta-glucosidase	ATGTCAGGACTCAAAATTGTGGTGATTGGCGGCGGCTCCAGCTACACCCCGGAACTGATTGAAGGTTTGCTTAACCGCTATCACGAGATGCCGGTCGCTTCGCTATGGTTGGTGGACATTGAAGAGGGCAGAGAGAAAGTCGAGATCATCGCCGGACTGGCGCGGCGAATGATCGCCAAAGCCGGGCTGATCATCGAGGTGGTGGCTACCCTGGATCGGGAGAGCGCCCTGCGCGATGCCGATTTCGTCTGCTCGCAGTTTCGCGCCGGCTGCCTTGACGCCCGCATCAGCGATGAACGTATTTCCCTCAAGTATGGCCTGATCGGCCAGGAGACCAACGGCCTTGGGGGCTTCGCCAATGCCTGCCGTACCATTCCCATCGCCCTGGCGATTGCTGCCGATATGGAACGACTCTGCCCTGACGCCTGGCTGCTGAACTTTACCAACCCGTCGGGGATGGTGACCGAAGCGATCCTGCGCCACAGTCGCATCAAAGCCGTCGGCCTGTGTAATGTGCCGGTGATTATGCAAAAAGGGGTGACCACCCTGCTGCAATGCGCTGACGAAAAGGAGGTAGTGATGCAGGTCGCCGGCCTGAACCACTTTATCTTCGTGCGCCAGATCCTGCACAAAGGAAAAGAGTGGCTGCCGGAGGTCATCGCCGAGATCAATGCCGGTCGGGATCCGCTGGTGCCGCGCAACATTCCGCCGTTCCGTTGGCCGTCGCATCTCCTGCAGGGCTTAGGCATGATCCCCTGCGCCTATCTGCGTTATTACTACATGAAGGACGATCTGCTGCGTCAGGAGCTGGCGGAGGCGGGCGGCGAAGGGACCCGTGGCGAAGTGGTTAAGCAACTGGAAAAAACCTTGTTTGAACAGTACAGCGACCCGCACCTCGCGGTTAAACCGAAGGCGCTGGAGGGCCGTGGCGGTCAGTACTATTCCGAGGCGGCCTGCGAGCTGATGAATGCCATCTACAATGACAAGCGCATTATCATGCACGTCAACACGCGCAACAACGGCGCCATCAATGGCCTGCCGGATGACTGTGCGGTAGAGGTCAGCTCGCTGATCACCGCTTCCGGTCCGCTGCCCCTCAACGTGGCGCCGTTCCCTGACGATACCCTGCGTTTGCTGCAGCTGATGAAATCTTTCGAACAGCTGACCATCGAGGCCGCCATCACCGGCAACCGCCATACGGCGTGGCGCGCGCTGGTGCTGAATCCGCTGATTGTCAGCGGCGAGAAGCTCGAACAAGCGTTGGATGAAGTGATCGCCCATAACCGCCAGTGGCTGCCTGCCTTCCATGCTTAA	MSGLKIVVIGGGSSYTPELIEGLLNRYHEMPVASLWLVDIEEGREKVEIIAGLARRMIAKAGLIIEVVATLDRESALRDADFVCSQFRAGCLDARISDERISLKYGLIGQETNGLGGFANACRTIPIALAIAADMERLCPDAWLLNFTNPSGMVTEAILRHSRIKAVGLCNVPVIMQKGVTTLLQCADEKEVVMQVAGLNHFIFVRQILHKGKEWLPEVIAEINAGRDPLVPRNIPPFRWPSHLLQGLGMIPCAYLRYYYMKDDLLRQELAEAGGEGTRGEVVKQLEKTLFEQYSDPHLAVKPKALEGRGGQYYSEAACELMNAIYNDKRIIMHVNTRNNGAINGLPDDCAVEVSSLITASGPLPLNVAPFPDDTLRLLQLMKSFEQLTIEAAITGNRHTAWRALVLNPLIVSGEKLEQALDEVIAHNRQWLPAFHA	PGPT0019105_874	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CARRAGEENASE,PGPT0019105-celF|licH|chbF-K01222	NA	NA
BMS020_05972	1542	tyrR	COG3283	Transcriptional regulatory protein TyrR	ATGCGTCTTGAAGTCTTTTGTGAAGACCGCCTCGGTCTGACTCGTGAATTGCTCGATTTGCTGGTGCTGCGCGGCATTGATCTGCGTGGTATCGATATTGACCCTATTGGCCGTATCTACCTCAATTTTGCCGAACTGGAGTTCGCCACCTTCAGCAGCCTGATGGCGGAGATCCGCCGTATCGCCGGCGTGACAGACGTGCGCACCGTGCCGTGGATGCCATCCGAGCGTGAACATCTGGCGCTGAGCGCGCTGCTGGTGGCGATGCCGGAGCCGGTGCTGTCGCTGGATACCAAAGGCAGGGTCGAACTGGCCAACCCCGCCAGCTGCCTGCTGTTTGGCCAAAGCCAGGCGAAGCTGCGCAACCATCCGGTGGCGCAACTGATCGACGATTTTAACGTCCAGCGCTGGCTGGAAAGCAGCCCGCAGGAGACGCTGGCGGAGCATGTGGTGGTGAATGGGCAGAACTACCTGCTGGAAGTGACCCCGGTTTATCTGGAAGGGGAGCATAACGAGCGAGTGCTGACCGGCGCTGTGGCGATGCTGCGCTCAACCGTGCGCATGGGACGCCAGCTGCAGACCATGACCAGCCAGGACACCAGCGCCTTCAGCCAGATCCTCGCGGTGGGGCCGAAAATGCGCCACGTGGTGGAGCAAGCGCGTAAGCTGGCGATGCTCAGCGCGCCGCTGCTGATTGTCGGCGACACCGGCACGGGTAAAGATCTGCTGGCGCACGCCTGCCATCTGGCCAGTCCGCGGGCGGGCAAACCCTATCTGGCGCTCAACTGCGGCTCCATTCCCGAGGACGCCGTTGAGAGCGAGCTGTTCGGTGACGCGCTGCAGGGCAAAAAAGGCTTCTTTGAGCAAGCTAACGGCGGCTCGGTGCTGCTGGATGAAATTGGCGAGATGTCGCCGCGAATGCAGACCAAGCTGCTGCGCTTCCTCAACGACGGCACCTTCCGCCGCGTTGGCGAGGATCATGAAGTGCACGTCGATGTGCGGGTGATCTGCGCGACGCAGAAAAACCTGGTCGAGCTGGTGCAGAAAGGGCTGTTCCGGGAAGATCTTTACTATCGCCTCAATGTCCTGACGCTGTATCTGCCGCCGCTGCGCGACTGCCCGCAGGACATTATGCCGCTGACCGAGCTGTTCGTTGCGCGCTTTGCCGATGAGCAGGGGATCCCCCGACCGAAGCTCTCCGCCGATCTCAGTACGGTACTCACCCGCTACAGCTGGCCCGGCAACGTCCGCCAGCTGAAGAATGCCGTTTATCGCGCGCTAACCCAGCTGGAAGGATTCGAGCTGCGTCCGCAGGATATTTTGCTGCCGGACCACGACATCGCCTCGCTGCCGGTGGGCGAGGAGGCCATGGAAGGATCGCTGGACGACATTACCCGCCGCTTTGAGCGCTCGGTATTGACCCAGCTCTATCGCAGCTACCCCAGCACCCGTAAGCTGGCGAAGCGGCTGGGGGTGTCGCATACCGCCATCGCCAATAAGCTGCGCGAATATGGTTTGAGTCAGAAAAAGGGCGACGAATAA	MRLEVFCEDRLGLTRELLDLLVLRGIDLRGIDIDPIGRIYLNFAELEFATFSSLMAEIRRIAGVTDVRTVPWMPSEREHLALSALLVAMPEPVLSLDTKGRVELANPASCLLFGQSQAKLRNHPVAQLIDDFNVQRWLESSPQETLAEHVVVNGQNYLLEVTPVYLEGEHNERVLTGAVAMLRSTVRMGRQLQTMTSQDTSAFSQILAVGPKMRHVVEQARKLAMLSAPLLIVGDTGTGKDLLAHACHLASPRAGKPYLALNCGSIPEDAVESELFGDALQGKKGFFEQANGGSVLLDEIGEMSPRMQTKLLRFLNDGTFRRVGEDHEVHVDVRVICATQKNLVELVQKGLFREDLYYRLNVLTLYLPPLRDCPQDIMPLTELFVARFADEQGIPRPKLSADLSTVLTRYSWPGNVRQLKNAVYRALTQLEGFELRPQDILLPDHDIASLPVGEEAMEGSLDDITRRFERSVLTQLYRSYPSTRKLAKRLGVSHTAIANKLREYGLSQKKGDE				NA	NA	NA	NA	NA
BMS020_05973	1053			hypothetical protein	TTGGCGTCGCGTCGCGCGATCGGGCAATGGCTGACATTGCTGCTGCTCTCAATTCTCTTTTCCTCGCTGCTGTTACGCATTCATCTGCCGGCAGCGCTGCTGCTGGGGCCGCTGATTGCCGGTCTCATTTTAAGCCTGCGCGGGGTGAAGCTGAGGATCCCCCGCGCCTGTTATCTGGCGGCGCAGGCTATCGTCGGCTGTATGATCGCCCGCGCCATTAACCCCTCCGTTTTTGGCGTGCTGTTCAACAACTGGGCGCTGGTGCTGGCGATCCTGTTAACGACCCTGGCGATCAGCGGCCTCACCGGCTGGCTGCTGGTCCGCTACAGCGCGCTGCCGGGCGCCACCGGCGCCTGGGGAAGCTCTCCCGGCGGGGCGTCGGCAATGGTAGTGATGGCTCAGGAGTACGGGGCTGATGTACGCCTGGTGGCGCTGATGCAGTATCTGCGAGTGCTGTTTGTCGTCGGCGCGGCGGCGCTGGTGGTGCGCTATGCCCTGGGCAACGAGGCACAAACAATGAGCCAGGCTATCGTCTGGTTTCCACCGTTGACCCTTCATTTCCCTTTAACGCTGCTGCTGACAGCGGCGGGCTGCTGGCTGGGCGTGCGGCTGCACATTCCTTCCGGCGCCATGCTGCTGCCGATGCTGCTCGGCGCGCTGGCCCAGGGGGGCGGCTGGGTGATGCTGGAGCTGCCGGAGTGGCTGCTGGCGATGGCCTACGCGGTGCTGGGCTGGACGGTGGGACTGCAGTTTAACAAGGCGGTGTTTCTGTTGGCCCTGAAGACGCTGCCGCAGATTATCGCCTCCATTGTTGGGCTGATCCTGATGTGCGCACTGATGGCCCTCGGCCTGACCCACATTCTGCAGATGGATTTCATGACCGCCTATCTGGCCACCAGCCCTGGCGGACTCGACACGGTGGCGATTATCGCCGCCGGCACCCGGGCGGATATGTCGTTTATTATGGCGCTTCAGACGCTGCGGCTGTTTACCATCCTGCTGACCGGCCCGGCGATGGCGCGGGCTATTTCCCGCTATGCGCCGCGGCAATAA	MASRRAIGQWLTLLLLSILFSSLLLRIHLPAALLLGPLIAGLILSLRGVKLRIPRACYLAAQAIVGCMIARAINPSVFGVLFNNWALVLAILLTTLAISGLTGWLLVRYSALPGATGAWGSSPGGASAMVVMAQEYGADVRLVALMQYLRVLFVVGAAALVVRYALGNEAQTMSQAIVWFPPLTLHFPLTLLLTAAGCWLGVRLHIPSGAMLLPMLLGALAQGGGWVMLELPEWLLAMAYAVLGWTVGLQFNKAVFLLALKTLPQIIASIVGLILMCALMALGLTHILQMDFMTAYLATSPGGLDTVAIIAAGTRADMSFIMALQTLRLFTILLTGPAMARAISRYAPRQ	PGPT0027725_1060	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-AbrB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027725-antitoxin_abrB-K07120	NA	NA
BMS020_05974	507	tpx	COG2077	Thiol peroxidase	ATGTCACAAACCGTGCATTTCCAGGGCAACCCCGTTTCTGTTCAGGGCACCATTCCGCAGGCAGGCGCTAAAGCGCAGCCGTTTACGCTGGTCGCCAAAGATCTCTCTGACGTCGCGCTGAGCCAGTACGCCGGCAAACGTAAAGTACTGAATATTTTCCCGAGCATTGATACCGGCGTGTGCGCCGCATCAGTGCGTAAATTCAACCAGCTGGCCGCTGAACTGGACAACACCGTGGTGCTGTGCATTTCCGCTGACCTGCCGTTCGCCCAGTCCCGCTTCTGCGGCGCGGAAGGCCTGAGCAACGTGGTGACCCTTTCCACGCTGCGCGGCGCTTCGTTCCTCGCTGACTACGGCGTCGCCATCGCCGCCGGTCCGCTGGCGGGCCTGGCCGCTCGCGCGGTGGTCGTTATCGATGAAAACGATCAGGTTGTCTACAGCCAGCTGGTGAACGAAATCACCGAAGAGCCGGACTACGACGCCGCGCTGGCCGCCCTGAAAGCCTGA	MSQTVHFQGNPVSVQGTIPQAGAKAQPFTLVAKDLSDVALSQYAGKRKVLNIFPSIDTGVCAASVRKFNQLAAELDNTVVLCISADLPFAQSRFCGAEGLSNVVTLSTLRGASFLADYGVAIAAGPLAGLAARAVVVIDENDQVVYSQLVNEITEEPDYDAALAALKA	PGPT0013105_627	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013105-tpx-K11065	NA	NA
BMS020_05975	966	ycjG	COG4948	L-Ala-D/L-Glu epimerase	ATGCGCAACGTGCGAGTGTATGAGGAAGCCTGGCCGCTCCACACCCCCTTTGTGATCGCCCGCGGCAGCCGCAGCGAGGCAAAAGTGGTGGTGGTGGAACTGGAAGAGGACGGTGTGAAAGGGGTGGGGGAATGCACCCCGTATCCCCGCTATGGCGAGAGCATCGCTTCGGTCATGGCCCAGGTGATGGCGATCGGCGAGCAGCTGGAGGCGGGACTTACCCGCGAACAGCTGCAGCGGCTGCTGCCGGCAGGCGCCGCGCGCAATGCCATTGACTGCGCCCTGTGGGATCTGCAGGCGCGGCGCGAAGGCAAAACCTTGCCCCAGCTGCTGGGGGTGACGTTGCCAAACCGGGTGATCACCGCCCAGACGGTGGTCATTGGCACGGCGGATCAGATGGCGGCCAGCGCCGCGGCGCTGTGGCAGAAGGGCGCTCAGCTGTTGAAGGTGAAGCTTGACGACCGGCTGATCAGCGAGCGGTTAATCGCTATCCGACAGGCGGCGCCGGAGGCTACGCTGATTGTCGACGCCAATGAATCCTGGCACAGCGAGGGGCTGGCGGCGCGCTGCCAGCTGCTGGCGGACCTCGGCGTGGCGATGCTTGAGCAGCCGCTCCCTGCCGACGCCGATGCGGCGCTGGAAAATTTCGTCCATCCGCTGCCAATTTGCGCCGACGAGAGCTGCCATACCCGGGAGAGCCTGCCCAGGCTACGCGGACGCTATGAGATGGTCAATATCAAACTGGACAAAACGGGCGGCCTGACCGAAGCGCTGGCCCTCGCCGAGGAGGCAGAACGACAGGGCTTTGGACGGATGCTGGGCTGTATGCTCTGCACCTCGCGCGGGATCGCCGCCGCGCTACCCCTGGCGCCGCTGGCGCGCTTCGCCGACCTCGACGGCCCGACATGGCTGGCGGTGGACGTCGAGCCGGCGCTGCGGTTCAGCACCGGCGTGCTTCATCTTTAA	MRNVRVYEEAWPLHTPFVIARGSRSEAKVVVVELEEDGVKGVGECTPYPRYGESIASVMAQVMAIGEQLEAGLTREQLQRLLPAGAARNAIDCALWDLQARREGKTLPQLLGVTLPNRVITAQTVVIGTADQMAASAAALWQKGAQLLKVKLDDRLISERLIAIRQAAPEATLIVDANESWHSEGLAARCQLLADLGVAMLEQPLPADADAALENFVHPLPICADESCHTRESLPRLRGRYEMVNIKLDKTGGLTEALALAEEAERQGFGRMLGCMLCTSRGIAAALPLAPLARFADLDGPTWLAVDVEPALRFSTGVLHL	PGPT0020045_2137	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020045-ycjG-K19802	NA	NA
BMS020_05976	708	mpaA	COG2866	Murein peptide amidase A	ATGTCTATTTCACGTCCTCGCCCGCAGCGCGGCGACTTTCCGCCGGGGACCCGGCAGTACGGCAGCTCGGAACTGGGCGCGCCGCTGCTGTGGTTTCCTGCGCCGATGGCCGACAGCCGCAGCGGCCTGATTATTGCCGGCACCCACGGCGATGAGAATTCGTCGATTGTGACCCTCTCCTGCGCCCTGCGCACCCTGAAGCCGGAGCTGCGCCGCCACCACGTGGTGCTGACGGTCAATCCTGACGGCTGTCAGCTCGGGCTGCGCGCCAACGCCCGCGGCGTTGACCTCAACCGTAACTTTCCAGCCGCTAACTGGAGACAAGGGGAAACGGTGTACCGCTGGAACAGCGCGGCGACGGAACGAGACGTGGTGTTATTGACCGGCGAACAGCCGGGCTCGGAGCGAGAGACCCAGGCCCTGTGTCAGTTGATCCATCAGATCCATCCGGCGTGGGTGGTCTCCTTTCACGATCCGCTGGCCTGCATCGAAGACCCGGGACACAGCCCGCTGGGACACTGGCTGGCCGACGCCTTCTCACTACCGCTGGTCGGCAGCGTGGGCTACGACACCCCAGGTTCCTTTGGCAGCTGGTGCGCTGATATCGGACTCCCCTGCATTACCGCTGAGTTCCCGCCGGTCTCCGCCGACGAGGCAACCGAGCGTTACCTGCCGGCGATGACCGACCTGCTGCGCTGGCAGGCTTAA	MSISRPRPQRGDFPPGTRQYGSSELGAPLLWFPAPMADSRSGLIIAGTHGDENSSIVTLSCALRTLKPELRRHHVVLTVNPDGCQLGLRANARGVDLNRNFPAANWRQGETVYRWNSAATERDVVLLTGEQPGSERETQALCQLIHQIHPAWVVSFHDPLACIEDPGHSPLGHWLADAFSLPLVGSVGYDTPGSFGSWCADIGLPCITAEFPPVSADEATERYLPAMTDLLRWQA				NA	NA	NA	NA	NA
BMS020_05977	1617	mppA	COG4166	Periplasmic murein peptide-binding protein	ATGAAGTATCCTGTCGCTTTGACATGCGGCGCGCTGTGGTTAGCCAGCGTATCTTCTCTGGCCTGGGCGGCGGACGTACCGCCGGGCACGGTACTGGCGAAAAACCAGCTGTTAGTGCGCCATATCAAAGATGAACCCGCCTCGTTAGATCCCGCTAAAGCGGTGGGCCTGCCGGAAATCCAGGTGATCCGCGATCTGTTTGAAGGTTTAGTCAATCAGGATGCGAAAGGCAACCTGATCCCGGGCGTGGCGACCCGCTGGCAGAGCAACGATAACCGCGTCTGGACCTTTACCCTGCGCGATAACGCCCGCTGGTCCGACGGCACGCCGGTCACCGCTGAGGACTTCGTCTATAGCTGGCGGCGTCTGGTGGACCCGAAAACCACCTCGCCGTTCGCCTGGTTTGCCGCGCTGGCGGGGATCGCCAACGCGCAGAACATCATTGACGGCAAAGCCGCGCCGGAGACCCTGGGGATCACCGCCGTCGACGCCCACACCCTGCGGGTGCAGCTGGATAAGCCGCTGCCGTGGTTCAGCAACCTGACCGCCAGCTTTGCCTTCTACCCGGTACAAAAGGCGAACGTCGAAAGCGGGGCAAACTGGACGCGGCCCGGCAGCCTGGTGGGCAATGGCGCCTATGTTCTGAAAGATCGCGTCGTGAATGAAAAGCTGGTAGTGGTGCCCAACGCCCACTACTGGGATAACGCCAAAACGGTGATCCAGCAGGTCACCTTTGTGCCGATCAACCAGGAGTCCGCCGCCACCAAACGCTATCTGGCCGGCGATATCGATATCACCGAATCTTTCCCGAAAAATATGTATCAGAAGCTGCTGAAGGATATTCCGGGGCAGGTGTATACCCCGCCGCAGCTGGGCACCTACTATTACGCCTTTAATACCCAAAAAGGGCCGACCGCGGACGAGCGGGTGCGACTGGCGCTGAGTATGACCATCGATCGCCGGGTGATGGCAGAGAAGGTGCTGGGGACAGGGGAAAAACCGGCCTGGCGCTTTACCCCGGACGTAACGGCGGGCTTCACGCCACAGCCGTCGCAGTTTGAGAGCATGAGTCAGGCCGAGCTTAACGCTCAGGCGAAAGCCCTGTTGGCTGCCGCCGGCTATGGCCCGAATCGCCCGCTGAAGCTGACGCTGCTGTATAACACCTCTGAGAACCACCAGAAGATTGCCATCGCGGTGGCGTCGATGTGGAAGAAGAACCTCGGCGTGGAAGTGAAGCTGCAGAATCAGGAGTGGAAAACCTATATCGACAGCCGCAACACCGGCAATTTCGATGTGATCCGCGCCTCGTGGGTAGGGGATTACAACGAGCCGTCCACCTTCCTGTCGCTGCTGACCTCCACCCACAGCGGAAATATCTCCCGCTTTAACGATCCGGCATACGACAAAATCCTCGCCCAGGCGGCGGTGGAAAATTCAGCCAAAGCGCGTAACGACGATTACAACGCGGCGGAGAAGATCATTATGGTCAAAGCGCCGATTGCGCCGATCTATCAGTACACCAACGGTCGGCTGATTAAGCCGTGGCTGAAAGGCTACCCGATCACCAACCCGGAAGATGTGGCCTATAGCCGTACCATGTATATCGTTAAACACTGA	MKYPVALTCGALWLASVSSLAWAADVPPGTVLAKNQLLVRHIKDEPASLDPAKAVGLPEIQVIRDLFEGLVNQDAKGNLIPGVATRWQSNDNRVWTFTLRDNARWSDGTPVTAEDFVYSWRRLVDPKTTSPFAWFAALAGIANAQNIIDGKAAPETLGITAVDAHTLRVQLDKPLPWFSNLTASFAFYPVQKANVESGANWTRPGSLVGNGAYVLKDRVVNEKLVVVPNAHYWDNAKTVIQQVTFVPINQESAATKRYLAGDIDITESFPKNMYQKLLKDIPGQVYTPPQLGTYYYAFNTQKGPTADERVRLALSMTIDRRVMAEKVLGTGEKPAWRFTPDVTAGFTPQPSQFESMSQAELNAQAKALLAAAGYGPNRPLKLTLLYNTSENHQKIAIAVASMWKKNLGVEVKLQNQEWKTYIDSRNTGNFDVIRASWVGDYNEPSTFLSLLTSTHSGNISRFNDPAYDKILAQAAVENSAKARNDDYNAAEKIIMVKAPIAPIYQYTNGRLIKPWLKGYPITNPEDVAYSRTMYIVKH	PGPT0021015_4020	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
BMS020_05978	387			hypothetical protein	ATGAAAGTCCTCAATATTCTGATCCGTCGATGCGTGCTGCTGAGCTGTTATGAAGAAACCGTTTCGTTCTATGAAAACCTCCTCGCGCAGAAGGCGAGGTTGCGCTTCGACTATCCCGAATACGACCTCAAACTGGCGCAGGTGGGTTCGGTGCTGTTAATCGGCGGAACCGAGAAAAGCCTGGCGCCTTTTCGCGCTACCGAGGCCACTTTCCTGGTCAACGACATTTCCGCCTGGGAGAAACATCTGCCTTCCACCGGTGCAACGATTATCAACCCGGTGAAGATCGTGCCCACCGGCTGGAACATTCTGGTTCGGCATCCAGATGGTATGATTGCCGAATACGTTGAGCATCATGACAAAAACCCAGCGGATGAGATCTTCTGA	MKVLNILIRRCVLLSCYEETVSFYENLLAQKARLRFDYPEYDLKLAQVGSVLLIGGTEKSLAPFRATEATFLVNDISAWEKHLPSTGATIINPVKIVPTGWNILVRHPDGMIAEYVEHHDKNPADEIF				NA	NA	NA	NA	NA
BMS020_05979	885	pgrR_11		HTH-type transcriptional regulator PgrR	ATGGCGAAACGGGAAAACTATAATGACCTTTATCTGTTTATGCAGGTGGTGCGGGAAGGCAGTTTTACCGCCGCAGCGCAACGACTCGGCCTGGCGCAGTCCGGGATCAGCCGTGCGGTTCGTGAACTTGAAGAGCGCTTGGGCGTTCAGCTTCTGGTGCGCACCACCCGCCGTTTGTCGCTCACTCAGGCGGGTGAGCAGCTCTATCACAATGTCGAATCCGGTTTCGACGCCTTAGATATGGGACTCGCCACGCTGGCCCACTATCGTCAAACGCCATCCGGTACGGTACGCATCAATGCCAGCCAGCATGCCATTGATAAAGTCCTGCTGCCGAAGCTGGCAGTATTTAAACAACGCTATCCCGATATCAGACTGGAACTGATCAGCGAAAGCCGGTTTGTCGATATTATTGCGGAGCGATTCGATGCGGGCGTACGTCTGGGCCCGGAAGTCGGAAGCGGCATGATTGCGGTACGCATTTCTCCCGATATGGAGATGGCGGTGGTGGGTACACCGGAACATTTTCGACGCTACGGCTTTCCACAAACGCCCGCCGATTTAGTCGTCCACCCCTGCATCGCTTATCAGTTTGGCGACGGCAGCCTTTACGCCTGGGAACTTAACGTGGATGGCAAAAAAATCACTCATCCGCCGCAGGGACAGTGGGCTTTCGCCGATAGCTATATGGAAGCCAAAGCGGCCAGGCTCGGTCTGGGGCTGGCCTATGTCCCGGAAGAACTGATTACCGACGATCTAGCGCAGGGCACGCTTATCCGGGTGCTCCAGCGTTATAGCCAGCGTCTGGAAGGTTCATTTCTCTATTACCCGCACCGCAATGTATCGCCCGCGCTGAGAGCGGTTATTGATACATTGCGAATGTAG	MAKRENYNDLYLFMQVVREGSFTAAAQRLGLAQSGISRAVRELEERLGVQLLVRTTRRLSLTQAGEQLYHNVESGFDALDMGLATLAHYRQTPSGTVRINASQHAIDKVLLPKLAVFKQRYPDIRLELISESRFVDIIAERFDAGVRLGPEVGSGMIAVRISPDMEMAVVGTPEHFRRYGFPQTPADLVVHPCIAYQFGDGSLYAWELNVDGKKITHPPQGQWAFADSYMEAKAARLGLGLAYVPEELITDDLAQGTLIRVLQRYSQRLEGSFLYYPHRNVSPALRAVIDTLRM				NA	NA	NA	NA	NA
BMS020_05980	1059		COG1073	putative protein	ATGAGTTATGCTGATACGACTAACCCGAATACGCCTGTCTCTTTGATTGAAAAATGGGACAAAACATTTCCTGAGAGCGTGAAAGTGGATCATCGTAAGGTGACCTTCCACAACCGCTACGGGATTACCTTAGCAGGAGACCTCTACTTGCCGAAGGATCGCGGCGACCGCAAACTGGCCGCCATTGCCGTTAGCGGTCCTTTCGGCGCGGTAAAAGAGCAATCCAGCGGCCTGTATGCCCAGACGTTGGCCGAGCAGGGGTTTGTCACCCTGGCGTTTGACCCATCCTATACGGGTGAAAGCGGTGGCTACCCACGTAATGTGGCCTCGCCGGACATCAATACCGAGGATTTCAGTGCCGCGGTGGACTTTCTCGGCCTGCAAAAAGAGGTGGATCGCCACCGTATCGGTTTGCTCGGCATTTGCGGCTGGGGCGGTATGGCCTTAAACGACGCGGCGATGGATACGCGCGTCAAAGCGGTGGCGACCAGCGTCATGTATGACATGAGCCGCGCGATGGGGCATGGAGTCGGCGATGGCAAAGACCGCTACACGACAGCCGACCGCCGAGCGGTACTGCAGTACCTGAACGCGCAGCGCTGGAAGGATGCGGCAAACGGCACTTTCGCCCCCGGCGGGCATGACATTTATGTTGATGATAAAGGCAACGTCAGCGCTGCCGATCGTATTTTGCCGGAAACCTTGCCCGCCAATCCCAACCCGGTCCTGAAAGAGTTCTTCGATTATTACCGTATGCCGCGTGGTTTCCATCCTCGTTCGGTTAATTCAACCGGGGCATGGAATGCGACGATGCCGCTGTCGTTTATGAATATGCCGCTGCTGAATTATGCCGGCGAAGTGACTATTCCGACGCTTATCGTGACGGGCGAAAAAGCCCATTCTCGCTATTTTGCCGAAGCTGCCTATAAGGCTATTGGCAGCAACGAGAAAGAACTGGTGATTGTCCCTGGCGCAAACCATGTCGATCTTTATGACAACGCCGCAGGCAAAATTCCCTTTAGTCAGTTTGAGCAGTTCTTTAAAACCAACCTGAAATAG	MSYADTTNPNTPVSLIEKWDKTFPESVKVDHRKVTFHNRYGITLAGDLYLPKDRGDRKLAAIAVSGPFGAVKEQSSGLYAQTLAEQGFVTLAFDPSYTGESGGYPRNVASPDINTEDFSAAVDFLGLQKEVDRHRIGLLGICGWGGMALNDAAMDTRVKAVATSVMYDMSRAMGHGVGDGKDRYTTADRRAVLQYLNAQRWKDAANGTFAPGGHDIYVDDKGNVSAADRILPETLPANPNPVLKEFFDYYRMPRGFHPRSVNSTGAWNATMPLSFMNMPLLNYAGEVTIPTLIVTGEKAHSRYFAEAAYKAIGSNEKELVIVPGANHVDLYDNAAGKIPFSQFEQFFKTNLK				NA	NA	NA	NA	NA
BMS020_05981	1203	nepI_3	COG2814	Purine ribonucleoside efflux pump NepI	ATGTCTGCATTAAGTAACACCCGGGCACACTGGAGCGGCGTCCTGGCGATGACGCTCTGCGTATTTGTACTCATTGCCTCAGAATTTATGCCGGTCAGCCTGTTAACGCCCATCGCTGGCGATTTAGGCGTCACCGAAGGATTAGCCGGTCAGGGCATTGCCATTTCAGGCGCGCTGGCGGTGCTGACCAGCCTGACCATTTCTCGCCTTGCGGGAGCACGGGATCGTAAATACCTTCTGTTAGCGCTCACGGCGCTGATGGCGGTCTCGGGAATGATGATTGCCCTGACATCCAGCTATCCAGTTTATATGCTGGGCAGGGCGCTCATTGGGATCGTCATCGGCGGCTTCTGGTCTATGTCGGCCGCAACGGCCATTCGCCTGGTGCCGCAACGTCAGGTCCCCCGCGCATTGGCCATCTTTAACGGCGGTAACGCGCTGGCCACCGTTGTGGCAGCGCCGCTGGGCAGCTACCTGGGGGCCACCGTCGGCTGGCGCGGCGCCTTTTTATGTCTCGTCCCGCTGGCGATGGTGGCCTTCGTCTGGCAATGCGTTAGCCTGCCGTCGATGAAAAGCCAGCGCGCACCACAGCCACAGGGAACCGTGCTGGGTTTGTTCCGCCGCTCGACGGTATTCCTTGGATTGCTGGCCTGCGGGCTGTTTTTTATGGGGCAGTTTACCTTATTTACCTATGTGCGACCGTTTCTGGAGACCGTGACCCGAGTCAGTTCCTCTGGTCTGTCCCTGATATTGCTGGCGATGGGTACCGCCGGTTTTGTCGGCACGCTGCTTATTTCGAGCGCGCTGAATGCCCGGTTTTATCCGACGCTGGTGGTTATCCCTTTGGTCATGGCCGCGATTGCCGGAACGCTTCTGCTGGCCGGACACCACACGGGATCAGTCGCCGTACTGTTAAGCCTGTGGGGCCTGCTGGCGACGGCCGCGCCCACAGGCTGGTGGACGTGGATTGCGCGGACGCTGCCCGAGGATGCGGAGGCGGGCGGTGGTCTGATGGTCGCCGTGATCCAGCTATCGATTGCCCTCGGGTCAACGGCAGGCGGCCTGGTGTTTGATAGTCTGGGATGGCGCAGCAATTTTGCACTGAGCGGTCTGTTACTGCTGGCGGCGGCAGGGGCGACTTTTCTGCTCTCTGCCAAAATCAGCTCATCTCAGCGCACGCCGATTAATGAGCTGGATGCATAA	MSALSNTRAHWSGVLAMTLCVFVLIASEFMPVSLLTPIAGDLGVTEGLAGQGIAISGALAVLTSLTISRLAGARDRKYLLLALTALMAVSGMMIALTSSYPVYMLGRALIGIVIGGFWSMSAATAIRLVPQRQVPRALAIFNGGNALATVVAAPLGSYLGATVGWRGAFLCLVPLAMVAFVWQCVSLPSMKSQRAPQPQGTVLGLFRRSTVFLGLLACGLFFMGQFTLFTYVRPFLETVTRVSSSGLSLILLAMGTAGFVGTLLISSALNARFYPTLVVIPLVMAAIAGTLLLAGHHTGSVAVLLSLWGLLATAAPTGWWTWIARTLPEDAEAGGGLMVAVIQLSIALGSTAGGLVFDSLGWRSNFALSGLLLLAAAGATFLLSAKISSSQRTPINELDA	PGPT0021090_142	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021090-nepI-K03445	NA	NA
BMS020_05982	870	ytbE	COG0656	putative oxidoreductase YtbE	ATGGAATATTGCGTATTAAGTAACAACCGTAAAATGCCGATGCTGGGTTTTGGCGTTTTTAAGGTAACCGATAAAGCAGAGTGTAAGCGGTCGGTGCTGAACGCCATTCGCACCGGCTACCGCCTCATCGATACCGCCGCCGTCTACGATAATGAAGATGCGGTGGGGGAGGCCGTTCGTGAAGCCATCGCCGAAGGTCTGTGTACCCGCGAGGCGCTGTTTATTACCTCCAAACTGTGGGTTCAGGACATGGCCAACGCCGGGATGGCGAAAGCCGGGATTGCCGCGTCCTTAAAAAAATCCGGGCTGGAATACTTCGATCTTTATCTGTTGCATCAGGCGATGGGCGATTATTTCAGCGCCTGGCGCGCGCTGGAGGAGGCTTATGAAGCCGGTACCCTGAAAGCGATCGGCGTATCCAATTTCTACGCCCATGTGTTAGCTAACTTCTGCGAAACCGTCAGAATCAGGCCGATGGTGAATCAGGTCGAACTGCATCCTTATTTCGCCCAGCAGGCGACGCTGGAAACCATGAAGCACTATCATGTTCAGCCGGAAGCCTGGGCGCCGTTAGGCGGTGGCAGACATAATCCGTATGAAGAGGCCATGCTGCAGGAGATTGCCGATGCCCACCAAAAAACCGTTGCTCAGGTGGTCCTGCGCTGGAACGTGCAGCGAGGCGTCACGGTCATTCCTAAATCCACCCGCCAGGAGCGTATAGAAGAGAACTTTGCCATCTGGGATTTCTCGCTCACCGCGCGCGAAATGGCGCAAATTAGCGATCTGGATTTAGGTTACGTTGGCGAAGCAGTGAAACACTTTAACCCTGAATTCGTTCGCGGCTGTCTGGGGGTGAAAATCCACGACTGA	MEYCVLSNNRKMPMLGFGVFKVTDKAECKRSVLNAIRTGYRLIDTAAVYDNEDAVGEAVREAIAEGLCTREALFITSKLWVQDMANAGMAKAGIAASLKKSGLEYFDLYLLHQAMGDYFSAWRALEEAYEAGTLKAIGVSNFYAHVLANFCETVRIRPMVNQVELHPYFAQQATLETMKHYHVQPEAWAPLGGGRHNPYEEAMLQEIADAHQKTVAQVVLRWNVQRGVTVIPKSTRQERIEENFAIWDFSLTAREMAQISDLDLGYVGEAVKHFNPEFVRGCLGVKIHD	PGPT0001320_697	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
BMS020_05983	2199	lacZ_2		Beta-galactosidase	GTGATCGCTAGACGTCTTCTGCTGCTGGTGGTTTGCCTGCCGCTGGCGCACGCCGGCTCAGCGCCGGTGACCTGGTCACTGGCCGGGCAATGGCGGGTGCATGACGCCAACGACAGCGCCTTCGACGGCGCGCAGGCTTCGGACGGCGACTGGCGCACGCTGCGGGTACCGGCAAACTGGTACAGCGCCGGATACGATCATCAGGGCGCCCTGTGGTATCGCCATCAGTTTACCCTGCATGGCCTGACGCCGGACGCCATGGCCACCCTGGTGTTTGACGGCGTCGATTACTTTGCCGAGGTGGCGCTCAACGGCAAGACGCTGGCCCGGCACGAAGGGTATTTTCAGCGCTTCCCGGTGGACATCACCGGGGTCGTTCGCCGCCATAATCAGCTCGCCGTGCGGGTCGACAGCCCCTATGAAGACCCGCAAACGATCTGGCCGCTGCACAAAACGCTGATGAAAGGGATCCTGAACCAGCACGATACCCGCCCGGGCGGCGCCTGGTCGGTTCAGGGGCAGGATGCCAATTCCGGGGGGATCTGGGCGCCGGTGAAGCTCCATCTGAGCCGCGGCGTCACCCTCGACGAGGTGATCCTGCGTCCGGACTGGCGACAGGGGCTGGAGCAGCCCATTCTGCGTGCCGAAATCCGCTATCGCGCCGTGACCCCCGGCCCCGTCACGCTGCGCCTGACAGCCACCCCGGACAATTTTTCCGGCCCGCGTTTTCAACAGGCCTTCGCGGTCACCCTGGAGAACACCGCAGGCGTCCTGCGCGTCTCGCTGCCCATGCCCTCGGCAAAGCTCTGGTGGCCCGTGGGTGCTGGCAAACCTAACCTCTACCGGGTGCGCGCCACCCTCGCGGATAACCGGGGGATCATGGATACCGCCGTCACCCGCACCGGATTACGTAAGGTGGAAGCGCTGGCGGACAATCAGGGCTGGCGCATCAATGACAAACGGCTGTTCATCAAGGGCAGCAACTATATTGGCTCGCCGTGGCTGAGCACCATGACGCGGAAAAAATATCGCCGGGATTTCAGGCTAGTCACGGCCATGAACGCCAACGCCATCCGCGTTCATGGCCACGTGGCGGGCCGTGCGCTGTATGAGGTGGCCGATGAGATGGGGCTGATGATCTGGCAGGATGTTCCGCTGCAGTGGGGTTATGATGACAGCGTCGCCTTTTCCGATAACGCGGTGCGCCAGACCCGGGCGATGATGGACCAGTTCGGTAATTCGCCGGCGATTATTGTCTGGGGCGGTCACAACGAGCCGCCGTGGAACTCGCCGTGGATGGAGAAACGCTTCCCCGACTGGCGTAAAACCTTAAACCAGACCCTGACGCAGCGGGTGGGCGATGCGCTGGCGGAAGATACCTCCCGCATCGTGCATCGCTTTTCCGCTGTTGAAGAGCACTACTGGGCGGGCTGGTATTTCGGCACCCTGCGCGACCTGCTCGCCCCGGCGAAAACCGGGATTATTTCCGAGTTTGGCGCCCAGGCGCTGCCCCGCCTCTCCACCCTGAAGACCATTATCCCGGCCCGTCTGCTGTGGCCGAAAACCACCGCCGCCGACGACCCCGGCTGGGTGCGATGGAAGTACCATAATTTTCAGCCTTTCCAGACCTTTAAATTTGCCGGTATTCCACGAGGCAACACTATTCAGGAGATGATTGAAAACACCCAGGCGTATCAGGCCAGGCTGGTGGCGCTGGCAGCGGAGAGCTATCGCCGCCAGCGTTATCAGCCGGTGACCGCCCTGTTCCATTTTATGTTTGTCGAGACATGGCCCTCCATCAACTGGGGGGTGGTGGATTATCTGCGCCAGCCGAAGGCGGGTTACTATGCCCTGCAGCGCGCCTATCAGCCGATCCTGCCATCCATCGAGCCGGTGACCGCCAGCTGGCGTCAGGGCAGCCCGGCGACGGTGCGCCTGTGGGCGATTAACGATACCTGGACGACCTGCGAGGATTGTCGCCTGACCTGGCGGGTCAGGCAAAATGGCCAGATGCTCGCTCAGGGGGAAACCACGCTGACCCTACCGCCGGATGCCAGCCAGATGATCAGAGAGCTGACCGTCACCCCCGTCGGCCCGCAGCCCGTGACGGTAGTCTACCGCATCGACAACCGTCGCGGCACACGCGTGGGCGCTAACCAGCATACCGAACCCGTCGCCGCGGCGCAGGCAGCTAAATGA	MIARRLLLLVVCLPLAHAGSAPVTWSLAGQWRVHDANDSAFDGAQASDGDWRTLRVPANWYSAGYDHQGALWYRHQFTLHGLTPDAMATLVFDGVDYFAEVALNGKTLARHEGYFQRFPVDITGVVRRHNQLAVRVDSPYEDPQTIWPLHKTLMKGILNQHDTRPGGAWSVQGQDANSGGIWAPVKLHLSRGVTLDEVILRPDWRQGLEQPILRAEIRYRAVTPGPVTLRLTATPDNFSGPRFQQAFAVTLENTAGVLRVSLPMPSAKLWWPVGAGKPNLYRVRATLADNRGIMDTAVTRTGLRKVEALADNQGWRINDKRLFIKGSNYIGSPWLSTMTRKKYRRDFRLVTAMNANAIRVHGHVAGRALYEVADEMGLMIWQDVPLQWGYDDSVAFSDNAVRQTRAMMDQFGNSPAIIVWGGHNEPPWNSPWMEKRFPDWRKTLNQTLTQRVGDALAEDTSRIVHRFSAVEEHYWAGWYFGTLRDLLAPAKTGIISEFGAQALPRLSTLKTIIPARLLWPKTTAADDPGWVRWKYHNFQPFQTFKFAGIPRGNTIQEMIENTQAYQARLVALAAESYRRQRYQPVTALFHFMFVETWPSINWGVVDYLRQPKAGYYALQRAYQPILPSIEPVTASWRQGSPATVRLWAINDTWTTCEDCRLTWRVRQNGQMLAQGETTLTLPPDASQMIRELTVTPVGPQPVTVVYRIDNRRGTRVGANQHTEPVAAAQAAK	PGPT0018765_1468	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-MANNOSIDASE,PGPT0018765-manB-K01192	NA	NA
BMS020_05984	2691	rcsC_10		Sensor histidine kinase RcsC	ATGCATGCCGCTAACCGTACCGACCTCAACCTCCTGCCCTCGGCGGTGATGATCTACGATGAGCGCGAACGACTGCAGGCCTGGAATGATAAGGTGGCGTTGTTTTATCCAACGATCGCGCCCTGGCTCGCCGTCGGCGCCTCTCTTGAGAGCCTGGCGGAGAAGTTTATCGATGCCGGATATAACATCGACCCAGGCCGGCAACAGACGCTGCGCGAGGCGATAATCCGCAACTGCCGCCAGACGAACCACTGCGAGGTCCGTCAGTCGGGCAACCGCCGGATTTACGTTCAGCATCAGCGGCTGGCGGATGGCGGGATTGTCAGCCTGCATACCGACATCACCGAGCTTGACGAGGCCCGACGCTCGCGTCACCAGCTTCACGACGACTTTTTATTCACCGCGGAGTCGATCCAGATCGGCATCTGGGACTGGCAGGTCTCCGGCGACAGCCTGCAGGTCAATGACACTCTGCTGGCGATGGTCGGCCAGTCACGGGCGCAGTGGCGCTTTCCACTGCGTTTTATGCTCAATCTGGTCCACGAGGACGATCGCGCCACCCTGCAGCAGGCGATGATCGCCTCGCAAAACGAGCATATGCCGGTTTTTGAATGTGAACTTCGCGTCCAGCACCCCACGCAGGGCTGGCGCTGGATGCTGCTCTCGGGGCAGATCGTCACCCTCAATATGCAGCAGCAGGCAGAGCGGGTGATCGGCACCTTGCAGGATATTACCCGGCGCAAAGCCGCAGAGCTGCTGGCCATTGAGGCGGCGAAGGAAGCCCGCGAGGCGAACGAAGCGAAAAGCGCCTTCCTCGCCAATATGAGCCACGAAATCCGCACCCCGATGAACGGCATTCTCGGCATGACGCAGCTCTGCCTCGACACGCCGCTGACCGCGGAGCAGCGGGAGTACCTTTCGCTGGTGATGAGCTCAGCCCAGTCGCTGCTGCACATTATTAACGACATTCTTGATTTCTCACGCATTGAGTCGGGCAAGATGCAGGTGGACGAAGAGCCGCTGGAGATCCGCCCCTTTGTTCAGTCGCTGATCCGCCCGCATATGCCTGCCGCCAGCGAAAAGGGCATTGAGCTGCTGGTGGATATCTCCCCAGCGGTGCCCGAGGTGCTGATCGTCGATGGCCCCCGGTTGCGGCAAATCCTGACCAACCTGTTGGGTAATGCGCTGAAGTTCACGCATCAGGGGGAGGTTCTGCTGGCGATAGCGCCGGCCGGCGACGAAAACCGCTGGCGCTTTCGCATTCGCGATACCGGCATCGGCATCGCCCCGGAGAAGCAAAAGGCGATCTTCGAGGCTTTCAGCCAGGCCGATAGCTCCACCACTCGCCGCTACGGCGGCACCGGTCTGGGCTTAACCATTTCGGCCCGCCTGGTCAGCCTGATGGGCGGCGAGCTGACGGTGGAGAGCCAGCCCGGGGCGGGCAGCGAATTTGCCTTCACCCTGCCGCTGGCAGCGCTGCACGCCGCCGCCGACAGCGCCCCGCTGGGCCACTTTAACCACCAGCGGGTACTGGTGGTTGACGACAACAGCACCAACCTGCGCCTGCTCGACGCCATGCTTCGCCAGATGGGGCTGATGCCAAGCTGCGTGGACAACGCCGGCGAGGCGCTACGCCGGGCCGCCGAAGGGCCGCCCTGGCCGCTGATCCTGCTGGACGCGCAGATGCCGGATATGGACGGCGTATCCCTGGCGCTGGAGCTTTCCGCCCTGCCCGAGGCCCGGCAAAGCCAGATTATTATGCTCAGCTCCATGAGCCGCCATTTTGACGCCAATATGCTCAAGCGCATCGGCATTGCCCATTATCTGCATAAACCGGTGGCGCAGCGCGAACTGCATCAGGTTATCGCCGGCATTCTGGTTCCCACGCCGGTGGTGGCGACAGCGCCAGCCCCCGTTGCGGAACCGGTCAGAGAGCAGGCCGGGCTGCATATCCTGCTGGCCGAGGACAATCTGGTTAATCAGAAGGTCGCCAGACGGCTGCTGGAACAGCTTGGCCACCGCTGCGAGGTGGTGAACAACGGCCGGGAGGCGCTGGCGCGCTGGCGCGCCGACTGCTGGGATCTCCTGCTGATCGATCTGCAAATGCCCGAGATGGACGGTGAAACCGCCATCCGCCTGCTGCGCGAAGAGACGCAGGCGCTCGGCCGGGAGCACCAGCCCGCGATGGCTATGACCGCCCACGCGATGCAGGGCGATAGAGAGCGCTGTCTGGCGATGGGCTTTGACGGCTATATCGCCAAACCGGTGAGCCAGGAGGCGCTACGGGAGGCCATCGCCCGCGTCGGCGCGGCGGAAGATAGCGGTCCGGAGGAAGAGGAAGGCCTGCCGGACGAGGCCCGCCTGCTGAAACAGTGCGCCGGCGATCCTGAGCTGGTCGAGGAGCTACTGGGGCTCTTCGCTGCTGGGCTTGACGCTGCCGCCGCCGCCCTTACCCACGCCATTAACGCTAATGACCGGGAGACGTGGCGTCGCGCCGCCCACAAACTGCGCGGCGAGGCGGCCACCCTTGGCTTTCAGCGCCTTTCCGGGGTGCTCCAGCAACTGGAGAGCCAGGCAGCCTCGCCCGACCAGAGCGTGCCGGGCGACCTGCAAGACACGCTGGCCGAGGCGATCGCGGGCTGCCACCTGTGGCTGCGGCGCAGAATGCAGGAGGCTCCCCGTGATCGCTAG	MHAANRTDLNLLPSAVMIYDERERLQAWNDKVALFYPTIAPWLAVGASLESLAEKFIDAGYNIDPGRQQTLREAIIRNCRQTNHCEVRQSGNRRIYVQHQRLADGGIVSLHTDITELDEARRSRHQLHDDFLFTAESIQIGIWDWQVSGDSLQVNDTLLAMVGQSRAQWRFPLRFMLNLVHEDDRATLQQAMIASQNEHMPVFECELRVQHPTQGWRWMLLSGQIVTLNMQQQAERVIGTLQDITRRKAAELLAIEAAKEAREANEAKSAFLANMSHEIRTPMNGILGMTQLCLDTPLTAEQREYLSLVMSSAQSLLHIINDILDFSRIESGKMQVDEEPLEIRPFVQSLIRPHMPAASEKGIELLVDISPAVPEVLIVDGPRLRQILTNLLGNALKFTHQGEVLLAIAPAGDENRWRFRIRDTGIGIAPEKQKAIFEAFSQADSSTTRRYGGTGLGLTISARLVSLMGGELTVESQPGAGSEFAFTLPLAALHAAADSAPLGHFNHQRVLVVDDNSTNLRLLDAMLRQMGLMPSCVDNAGEALRRAAEGPPWPLILLDAQMPDMDGVSLALELSALPEARQSQIIMLSSMSRHFDANMLKRIGIAHYLHKPVAQRELHQVIAGILVPTPVVATAPAPVAEPVREQAGLHILLAEDNLVNQKVARRLLEQLGHRCEVVNNGREALARWRADCWDLLLIDLQMPEMDGETAIRLLREETQALGREHQPAMAMTAHAMQGDRERCLAMGFDGYIAKPVSQEALREAIARVGAAEDSGPEEEEGLPDEARLLKQCAGDPELVEELLGLFAAGLDAAAAALTHAINANDRETWRRAAHKLRGEAATLGFQRLSGVLQQLESQAASPDQSVPGDLQDTLAEAIAGCHLWLRRRMQEAPRDR				NA	NA	NA	NA	NA
BMS020_05985	435			hypothetical protein	ATGAAGTTTTATCGCGATCTCTTTGAAGCCAGCCTGAATCGCGTCGTACCGGAGCACGACAAACAGCGCTTCTTCGAAGCCTTCTACACTACTTTTATCCATATGTCTGCGGAAACCGAGCAGCACTTCTCACAACGCTCCGGCGAAGAGGGCCAGCAGATGATCTTTAAAAGCTTTTTCGCCATGCTGGCGGTCAACGGCGACCTCTTTGTACCCGATTTCCTGGAACGGCTGGCGCGGGCGCAGAGCGAGGAAGGCCTGCGTCTGCCGCCGCGTTTTTTTGCCCTCTGGCGGGAAGCGATGCTCAAAACCGTCCGCGCCAGCGATCCGCTGTGCGATGAGGAGATCCTCACCGCATGGGCAATGGCCATCGCCCCTGGGCTTGAGTATCTGCGCCGCCAGGCTGAGCTGCACTATCAAACCGCTGGCCAGTAA	MKFYRDLFEASLNRVVPEHDKQRFFEAFYTTFIHMSAETEQHFSQRSGEEGQQMIFKSFFAMLAVNGDLFVPDFLERLARAQSEEGLRLPPRFFALWREAMLKTVRASDPLCDEEILTAWAMAIAPGLEYLRRQAELHYQTAGQ				NA	NA	NA	NA	NA
BMS020_05986	1215	rssB_3		Regulator of RpoS	ATGTCGGCACAGCACGTCCTGATTGTTGAAGATTCGCTGGTTTATCGTCGGCTGCTAAGCCGGATGTTGACGCAGTGGGGCTATATCGTCAGTGAGGCGGAAAACGGCGTCGCCGCGCTGGCGATCCTCGAAAACCAGCCCGTCAGCCTGGTGATAAGCGACTGGGAGATGCCAGAGATGAATGGCCTGACGCTGTGCCGGGAAGTTCGCCGTCGCCAGTTTGGTCACTACGTTTATCTGATATTGCTTACCGCCCGCGAAGACCCTGGCGATTTAACGCAGGGGTTTGAGGCCGGGGCCGATGATTTTCTCAGCAAACCGGTAGAGCAGAGCGAACTGCGGGCGCGGCTGCACGCCGGGTCGCGGATCCTCTCCCTTGAGGCTGACCTCGCCGCGCGCAATGCGCGGCTGAGCGAAGCGCTGCGACAGATTGAACAGGATCTGGAGCTGGCGGCGCGCATTCAGCAGTCGGTTCTCCCGGCTCATCAGCTGCGTCATCAGGGATTTTTCTCCGACTGGATTTTCCTGCCCTCGGCCTGGGTGTCGGGAGATATTTTTAACGTCTTCCCGTTGGGCGATCGGCTCGGATTTTACTGCGTGGATGTCTCCGGGCACGGTGTGGGGGCGGCGATGATGTCGCTCGCCGTCGCCCGCCAGTTTCTGCATGGCAGGGCCGTTGAGCGCTTTCTTTTTACGGCAGACAACCAGCCGGCGTCGCCTGCCGAGGTGGTGGCGATCCTTAATGGTCGTTTTTGCAGTGACGAAACAGAGATTGTCAGCTATTTCACCCTGATCTATGGCGTCATTGACCTGAAGACCGGCGCGGGCAAACTCTGTCAGGCCGGGCATCCCACGCCTTTTATCGTGAGCCCGGACGCAGCTGTCCGTCCGGTCGGCAGCGGCGGGGCGCCGGTGGGGTTGATAGACCATCTCTCGTGGGCAGATGTCAGTTTCTCACTGGCGCCGGGAGAGCGGCTGTGCCTGTTCAGCGACGGCATCACCGAATGTGAAAACCGGAGCGGTGAACAGTTTGGCGAGGCGCGTTTACAAGCATGGCTGCAGGACAGCGTGACGCAGCCGCTGCCCGCGCTGCTGCCGGGGTTTGCCCGGCACCTGATCCGCTGGCGCAGTGGCGACGGGCAGGAGACTCAGGCGATGGCCGATGATGTTTCACTCTTGATTATTGAACGAACAGGGGACAGTGATGAAAATTGA	MSAQHVLIVEDSLVYRRLLSRMLTQWGYIVSEAENGVAALAILENQPVSLVISDWEMPEMNGLTLCREVRRRQFGHYVYLILLTAREDPGDLTQGFEAGADDFLSKPVEQSELRARLHAGSRILSLEADLAARNARLSEALRQIEQDLELAARIQQSVLPAHQLRHQGFFSDWIFLPSAWVSGDIFNVFPLGDRLGFYCVDVSGHGVGAAMMSLAVARQFLHGRAVERFLFTADNQPASPAEVVAILNGRFCSDETEIVSYFTLIYGVIDLKTGAGKLCQAGHPTPFIVSPDAAVRPVGSGGAPVGLIDHLSWADVSFSLAPGERLCLFSDGITECENRSGEQFGEARLQAWLQDSVTQPLPALLPGFARHLIRWRSGDGQETQAMADDVSLLIIERTGDSDEN				NA	NA	NA	NA	NA
BMS020_05987	339			hypothetical protein	ATGAAAATTGAAACCGAACGGCAGGCCTCGGTGACGATCCTGACGCCGGCGGTGCGTCGGCTGGATGCGTCCGTCGCGGTAGCCTTTAAAGCGGCAATCGCCCAGGAGATAGGCGAAGATCGCACCGATCTGATTGTTGATTTCAGTAAAATCGATTTTATCGACAGCAGCGGTTTGGGAACGCTGGTTTCGCTGATGAAAATGATGAATGGTAAAGGAGAAATGACACTGTGCGCGCTGAACCCCGGCATCCGCAATATGTTTACCCTGACCAGGATGGATCGTATTTTTCGTATTTGCGAGGATCGCACTTCAGCCCTTGCGCAGTTCAATCCGTGA	MKIETERQASVTILTPAVRRLDASVAVAFKAAIAQEIGEDRTDLIVDFSKIDFIDSSGLGTLVSLMKMMNGKGEMTLCALNPGIRNMFTLTRMDRIFRICEDRTSALAQFNP	PGPT0014350_976	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749	NA	NA
BMS020_05988	507	rsbW		Serine-protein kinase RsbW	TTGCGCAGTTCAATCCGTGATGCGCCCGTGAATAACGTCATGCTGTTTCCTGCCCAACTCAGCTCGCTTTCACCGCTGGCGGCGTGGCTGACTCAACAATTGGCGCCGCTGCCCGTCGGGGAGGAGTGGCGCTTCGCGCTCGATCTTGCCGCCTGTGAGACGGCCACCAATATCATTCGCTATGCGCTGCATGAGGATCGGCAACGCGTTTTTCGTGTCGAATTTATCGCGGCGGAGGACCGGGTGACGCTGCGCTTTATTGATGCAGGAGAGGGCTTTCCGGCCGAGCGCCTGACGCTGGCGCGTAGCGATGAGCGCTTCGATGTCGATCCGTTAGCGGAAAGCGGCCGAGGTTTGCGGCTCATTCTGCGCGCGGTGGACTATTTTAATGTGGAAAGCCGCGCCGGGGAGAATGTGACGACCCTGATAAAAGCGTTGCCGGATGCCGGCCTTCGCCATTCCACCGACGGTGCGTCAGGTGAAGGACCAGAGGTTGCCCCCAGGTGA	MRSSIRDAPVNNVMLFPAQLSSLSPLAAWLTQQLAPLPVGEEWRFALDLAACETATNIIRYALHEDRQRVFRVEFIAAEDRVTLRFIDAGEGFPAERLTLARSDERFDVDPLAESGRGLRLILRAVDYFNVESRAGENVTTLIKALPDAGLRHSTDGASGEGPEVAPR	PGPT0014950_312	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014950-rsbW-K04757	NA	NA
BMS020_05989	189	ynfQ		Protein YnfQ	ATGATTGAACATATCCATTTTAGATGCCCATGCTGCCATGGCTCCCAGTACAGAACGTCCCAGTTTGACGTGACGGAAAAAAATCCCTTTGGTGCGAAATGCATTTTCTGCAAATCGGCCATGATGACCTTAGATACTATTCGCCCTTATCACCTGGGCGCGCTGTCCACCGCTCAGGCACAGCCATAA	MIEHIHFRCPCCHGSQYRTSQFDVTEKNPFGAKCIFCKSAMMTLDTIRPYHLGALSTAQAQP	PGPT0014675_955	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
BMS020_05990	915	pgrR_12		HTH-type transcriptional regulator PgrR	ATGGATAAACTGGATACCCTGACCCTGTTCGTGCGTATCGTCGAACGGGGTTCGTTCAGCGCTGCCGCCGCGGATCTGGGTTTTTCCCGGCCGGTGGCGACCGCAGCCATTAAGGCGCTGGAGGCCAGCCTTGGGGCGCGCCTGCTGCAGCGCACCACCCGGCACGTGCAGCCGACGGCGGAGGGGTCGCTGTATTATCAGCGCTGCGTCTCCATCCTGGCGGCCCTGGAGGAGGCCAACCGCAGCGCCGGAGGGAGCATCTCCGGCACCCTTCGGGTGGACGTGGCGGGCAATCTGGCGCGAACCCTGCTGCTGCCCGCGCTACCGCAGTTTCTCGCCCGCTATCCGTCCATTACCTTGCAGATTGGCGAAAGCGAGCGCGACGTCGATCTGGTCCGCGAAGGGGTAGATTGCGTCATTCGCGGCGGCCATCTTCCCGATAGCGAGATGATTTGCCGGCCGCTCGCCATGCTGCAGGAGATCACCTGCGCCAGCCCGGCCTACCTCGCCCGGTACGGTACCCCGCATACGATTGACGAGCTGGCGGGACACGTGACGATCGGTTTTGTTTCATCGCGCACGCACCGTACCTTGCCGCTCAGTTTTACCCTGGATGGCCGCCAGACCGAGGTCAGTTTGCCCTGTCGGCTGCTGACTTCCGATGCCGACGTCGGCGCCGAAGCGGCCAGGCTGGGCTTTGGCCTGTATCAGGCACCCTTGTCCCGCCTTGAGGCCGATCTGGCATCCGGTGGGTTAACGGAGGTGCTGGCTGATTTTCGCCCTGCGCCGCTGCCGCTCTCCCTGCTCTATCCCAGCAGCCGGCAGCTCTCTGCCCGGGTACAGGTATTTATCGACTGGGTGACGGCGCTGATGAAGGCGCCCCTGGCGCAGCAGGCATCCGGAAGGCTAAAATAA	MDKLDTLTLFVRIVERGSFSAAAADLGFSRPVATAAIKALEASLGARLLQRTTRHVQPTAEGSLYYQRCVSILAALEEANRSAGGSISGTLRVDVAGNLARTLLLPALPQFLARYPSITLQIGESERDVDLVREGVDCVIRGGHLPDSEMICRPLAMLQEITCASPAYLARYGTPHTIDELAGHVTIGFVSSRTHRTLPLSFTLDGRQTEVSLPCRLLTSDADVGAEAARLGFGLYQAPLSRLEADLASGGLTEVLADFRPAPLPLSLLYPSSRQLSARVQVFIDWVTALMKAPLAQQASGRLK	PGPT0028940_965	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
BMS020_05991	762	fabG_14		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAACAATAGCGCAAAAATCGCCCTGGTGACAGGCGGCAGCCGTGGCCTGGGCCGCGCGACCGTTGAAGCGCTGGCTCAGCGCGGCGTGAATGTGGTATTGACCTACAACGCGCATTTCGCCGAGGCGACCGATGTGGTCGCGTGGGTTGAAGCCCAGGGCTCGCGGGCGATCGCGCTGCCCTTCAGCGCCGGCGAAACCGACACCTTTGACGGGTTTGTCAGCACCTTTCAGGCGGCCCTGGCGGAGCTGGGGGCCGATCGGTTTCATTACCTGGTCAATAATGCCGGCAATGCCAGCGGCATGGGGTTTCTGAACGCTACCGAAGCGGAGCTCGATGCGCTTTATCGCATCCATGTGAAGGGTGTTTTTTTCCTTAGCCAAAAGTTATTGCCGCTGCTGGCCGATGGTGGGCGAATTGTGAATATCTCGTCCGGACTGACCCGTATCGTGATGGCGAATCGGGCGCCCTATGCAGTCATGAAGTCTGCGGTGGAAACCCTGACCCGTTATATGGCGTTTGAGCTGGGCGGCCGCGGGATCACGGTGAACTGCGTGGCGCCGGGCGCCATCGCCACGGATTTCAGCGGCGGGGTGGTGCGGGATAACCCGCAGGTCGCTCAGGCGGTGGCGAACATGACGGCGCTTGGCCGACCGGGGGTGCCAGAGGATATCGGGCCGATGATCGCCTCGCTGTTATCCGATGATCATCGCTGGGTTAATGCCCAGCGCATTGAAGTTTCAGGGGGAATGCGCATCTGA	MNNSAKIALVTGGSRGLGRATVEALAQRGVNVVLTYNAHFAEATDVVAWVEAQGSRAIALPFSAGETDTFDGFVSTFQAALAELGADRFHYLVNNAGNASGMGFLNATEAELDALYRIHVKGVFFLSQKLLPLLADGGRIVNISSGLTRIVMANRAPYAVMKSAVETLTRYMAFELGGRGITVNCVAPGAIATDFSGGVVRDNPQVAQAVANMTALGRPGVPEDIGPMIASLLSDDHRWVNAQRIEVSGGMRI	PGPT0003180_8442	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
BMS020_05992	567	yraA	COG0693	Putative cysteine protease YraA	ATGAGCAAGAAGATCCTGATGCTGGTCGGCGATTACGCCGAAGATTACGAAACGATGGTCCCTTTTCAGGCACTGCAGATGATTGGCCACCAGGTCGATGCCGTCTGCCCGGATAAAGCCGCCGGCGACTATGTGATGACGGCGATCCATGATTTTGACGGAGCCCAGACCTACAGCGAAAAGCCGGGGCACCGCTTCACCCTGAACGCCGATTTTGCCGCGGTGAAGGCCGAGGATTACGACGCGCTACTGATCCCCGGCGGACGCGCGCCAGAGTATCTGCGTCTGAACGAACAGGTCATTAAACTGGTCCAGGCGTTCGACGCCGCACGTAAACCTATCGCCGCCGTCTGCCACGGGCCACAGCTGCTGGCCGCCGCCGGGATTCTGCAGGGGCGGACCTGCAGCGCCTATCCGGCCTGCGCCCCGGAGGTGCGCCTGAGCGGCGGGCATTATGCCGATATCGGTATCGATCAGGCGCATGTTGACGGCAATCTGGTCTCCGCCCCCGCCTGGCCGGCACACCCGCAGTGGCTGGCGAAATTCGCCGCCCTGCTGGCGGAGTAA	MSKKILMLVGDYAEDYETMVPFQALQMIGHQVDAVCPDKAAGDYVMTAIHDFDGAQTYSEKPGHRFTLNADFAAVKAEDYDALLIPGGRAPEYLRLNEQVIKLVQAFDAARKPIAAVCHGPQLLAAAGILQGRTCSAYPACAPEVRLSGGHYADIGIDQAHVDGNLVSAPAWPAHPQWLAKFAALLAE	PGPT0015010_1399	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
BMS020_05993	1236			hypothetical protein	GTGCCCGAGGCGGCGCAGCTGCAGGCGCCGGCGGTCGTCCAGGCCGAGCCCGCCTCGCCGCCGCCGGTGCCGCCACAGCGGCAACAGGTCGAACTGCAGCGGCCCGAGCCGGCGGCCACGCCCGCCGCTGCGGCGCCGACGCCGATGACCATCGATCCGCAGCCCGTGCAGGCCACCGAGACGGAGGTCGCCAGCACCGATTTCGTGGTGCCACCACCACCGTCGTTGGCGATGTCGCCGCCGACGCCGCGTCCGCAGCCGAGTGTGCCGCAGGTGCGCGAACGCACGATCGAAACCGTCAGCGACGCCCCGCAGCTGGCGCCGCTGCCGCCACGCGACCTGTCGCTGCCGCCGCTGCCGGCGTTGCCGGTCGCCAGCGTGCGCGAACGTGAAATCACCGCCGCGCCGGTGCCCGACGTGCAGCTGGCAATGCCGCAAGCGCGCATGCCCACCCCGCAACTGGCGCTGCCCGACGTCAGCATGCGCCAGCGCGAGGTGCGCGAGCCGGCGCCTGCAGCCGCGCAAGCGCAGTCCGCGACGCCAGCCGAGGCGCCCGCTCCGGTAGCCGCGCCCACATCGTCTCCGGCTGCGGCACAGGCACAGGCACAGGCGGCAGTTCCTGCATCCGTGTCGCCACCGAGCGCGGCGGGCGGCAATGCGCCGCAGCCTGCAAGCGGCCAGGCCGGCACGCGATCCGCCGGCGCCGGACCGGCACCAGTCGACCGCAGCGGCGGTTGGGCAGCACCCAAGCCGGGCGACGACTGGGGCATGGGCACGCGCGTGCAGGACGGCGCGCGCCAGGCCGGCACGTCCAGCCGCGGCGAAGGCCTGTTCGACGACGATGGCCGCGTGCGCGTGCCGCCGGGGCAGGGAGCCAACGAACCGCCGCGTGGCGCGCCTGGAGGCGACACCGACAGCTGGAGCCGCGACCGCATCGCCAACTCCGGCACCTGGCTCAAGCGGCCGCCCTACGATTACACCCCGACCTCGTTCGACCGCTATTGGGTGCCGAACGAATCGTTGCTGGAGGAATGGGTACGCAAGGGCATCAAGAAGATCGAGATCGCCATCCCCGGCACCTCGACCAAGATCTCCTGCGTGGTGTCGCTGCTGCAGTTCGGCGGTGGTTGCGGGCTGACCGATCCGAACATGCAGGACCAGCCGGCCGAGGCGCGGCCGCCGCCGGACATCCCGTTCAAGAAGGAACTGCAGGAAGACAACGGCAGCGTGCGCTGA	MPEAAQLQAPAVVQAEPASPPPVPPQRQQVELQRPEPAATPAAAAPTPMTIDPQPVQATETEVASTDFVVPPPPSLAMSPPTPRPQPSVPQVRERTIETVSDAPQLAPLPPRDLSLPPLPALPVASVREREITAAPVPDVQLAMPQARMPTPQLALPDVSMRQREVREPAPAAAQAQSATPAEAPAPVAAPTSSPAAAQAQAQAAVPASVSPPSAAGGNAPQPASGQAGTRSAGAGPAPVDRSGGWAAPKPGDDWGMGTRVQDGARQAGTSSRGEGLFDDDGRVRVPPGQGANEPPRGAPGGDTDSWSRDRIANSGTWLKRPPYDYTPTSFDRYWVPNESLLEEWVRKGIKKIEIAIPGTSTKISCVVSLLQFGGGCGLTDPNMQDQPAEARPPPDIPFKKELQEDNGSVR				NA	NA	NA	NA	NA
BMS020_05994	462			hypothetical protein	ATGTCGAATCGCCAGCATGCCCTGCAGCTCGTCCTCGTTGCGCTTGCCGCGGCGGCCATCGCCGCCTGTTCCCAATCCCAGGTCGAAACCGCCGGCACTTCGGCCGGCGATCCCGGCCATGCCAGCGGCGAGCACGGCGCATCCTCGTCCGCCGGACTGCCGGGCGGGCGCGTGGAAGCCGGCGCCGCCCGCGCCCAGGTCAAGGGCAAGGCCACCGGGCAGAGTTGCATCGACTGCCACGGCGCCGATGGCAACGCCCCGCTCGACCCGAGCTATCCCAAGCTCGGCGGCCAATATGGCGACTACATCGCCCACGCGCTGCAGGCCTATCGCGCCGGCGACCGCCAGCACCCGCTGATGAGCCCGCAGGCGGCCAACCTGAGCGACCAGGACATCGCCGACCTGGCCGCCTACTTCGGCTCGCGCGCCAGCCAGCTGCGCGACCTGCAAGGCATCAAGTAA	MSNRQHALQLVLVALAAAAIAACSQSQVETAGTSAGDPGHASGEHGASSSAGLPGGRVEAGAARAQVKGKATGQSCIDCHGADGNAPLDPSYPKLGGQYGDYIAHALQAYRAGDRQHPLMSPQAANLSDQDIADLAAYFGSRASQLRDLQGIK				NA	NA	NA	NA	NA
BMS020_05995	369			hypothetical protein	ATGCGCCCGCAGCCGCTCGCCGCTTGTCTCGCTCTGGTTTTTTCCTTGCCCGTGGGGGGCGCGCTGGCCCAGACCCCCGCCGGTCCCGCATCCGCCGCGACACCCGCTGCCGCGCCTGCCGGCAACCCGGCCAATGGCCGCGTCCTGGTCTACACCTGCCAGGGTTGCCACGGCATCACCGGCTACAAAAACGCCTACCCGAGCTTCCGCGTCCCGAAGATCGGCGGACAGTCCGCGCAGTACCTGACCCAGGCGTTGACCGAATACCGCGAAGGCAAGCGCAAGCATCCGACGATGCAGGCCCAGGCGCAGAGCTTCTCGGAGCAGGACATCGCCGATATCGCCGCGTTCCTGTCCACCCTCAAGTAA	MRPQPLAACLALVFSLPVGGALAQTPAGPASAATPAAAPAGNPANGRVLVYTCQGCHGITGYKNAYPSFRVPKIGGQSAQYLTQALTEYREGKRKHPTMQAQAQSFSEQDIADIAAFLSTLK				NA	NA	NA	NA	NA
BMS020_05996	1137	mdtA_7		Multidrug resistance protein MdtA	ATGTCGCGACATTCCTCTCTGCACGGCCGCGCCGGGAGCTGCGCCGCCGCGCTGCTGATCACCACGACCCTCCTGCTGTCCGGCTGCAAGGCCGGGGGAACCGAGGAGGCTCAGGCCGCCGAGAAGAAGGCGGACAAGGCCGCCGATGCGGTGCCGGTGGAGGTCGCCAAGGCCGCGCGGCGCGCAGTGGCCGCCAGCTACACCGGCACCGCGGCGCTGGAGCCACGCGCCGAATCGCAGGTCGTCGCCAAGACATCCGGCGTGGCGCTGGCGGTGCTGGTCGAGGAAGGGCAGAAGGTCGCTGCCGGGCAACCGCTGGTGCGCCTGGACCCGGACCGCGCCCGCTTGGCGGTGGCGCAGAGCGAGGCGCAGATGCGCAAGCTGGAGAACAGCTACCGCCGCGCCACCCAGCTGGTGAACCAGCAGCTGGTGAGCGCCGCCGATGTCGACCAGCTCAAGTACGACCTGGAAAACGCCCGTGCGAACTACCGGCTGGCCGCGCTGGAGCTGTCCTATGCGACGGTGGTGGCGCCGATCTCCGGCGTGGTCGCCTCGCGTTCGATCAAGACCGGCAACTTCGTGCAGATCAACACGCCGATCTTCCGCATCGTCGACAACAGCCGGCTGGAAGCCACGCTCAACGTGCCCGAGCGCGAGCTGGCCACGCTCAAGGCCGGGCAGCCGGTGACGCTGCTGGCCGATGCGCTGCCCGGGCAGCAGTTCACCGGGGTGGTCGACCGGGTCGCGCCGGTGGTGGATTCGGGCAGCGGTACGTTCCGCGTGGTGTGCGCGTTTGACAAGCAGGCGCATGCGCTGCAGCCGGGCATGTTCGGCCGCCTGCGCATCGATTACGACCAGCGTACCGATGCGCTGGTGGTGCCGCGGCTGGCGCTGCTCGACGACGGCGACCCGGCGGTGTTCGTGGTGCGCGCAGGCAAGGTCGCGCGCGCGCCGATCAAGCTCGGCTATGCCGAAGGCCCGTGGGTGGAAGTGCGCGAAGGTCTGAAGGAAGGCGACCAGGTGGTCACCGCGGGCAAGGTCGCGCTGCGCGACGGCAGCGCGGTGCAGGTCATCGGCCAGCCGGCGGCCAAGCCGCCGACCACCGCGGTGGCCAGCGTCGAGGGTGACCGTTCATGA	MSRHSSLHGRAGSCAAALLITTTLLLSGCKAGGTEEAQAAEKKADKAADAVPVEVAKAARRAVAASYTGTAALEPRAESQVVAKTSGVALAVLVEEGQKVAAGQPLVRLDPDRARLAVAQSEAQMRKLENSYRRATQLVNQQLVSAADVDQLKYDLENARANYRLAALELSYATVVAPISGVVASRSIKTGNFVQINTPIFRIVDNSRLEATLNVPERELATLKAGQPVTLLADALPGQQFTGVVDRVAPVVDSGSGTFRVVCAFDKQAHALQPGMFGRLRIDYDQRTDALVVPRLALLDDGDPAVFVVRAGKVARAPIKLGYAEGPWVEVREGLKEGDQVVTAGKVALRDGSAVQVIGQPAAKPPTTAVASVEGDRS	PGPT0003275_3821	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585	NA	NA
BMS020_05997	3513	mdtB_3		Multidrug resistance protein MdtB	ATGACCAGCGCCGGCTCCGACCACGGGCGCGATCCGGCCACCCATGCCGTGCCCGGCGCGATGGGTGGCGGGCTGGTGGAGTTCGCCACGCGCCGCCGCGTCACCATCGCGATGATCACCGTGACGATGCTGCTGTTCGGTCTGATCGCGCTGAAGGGACTGAAGGTCAACCTGCTGCCGGACCTGAGCTATCCCACGCTGACCGTGCGCACCGAGTACACCGGCGCCGCGCCGGCGGAGATCGAAACGCTGATCACCGAGCCGGTCGAGGAAGCGGTCGGCGTGGTCAAGAACCTGCGCAAGCTCAAGTCGACCTCGCGCACCGGGCAGAGCGACGTGGTGCTGGAGTTCGCCTGGGGCACCAACATGGACCAGGCCAGCCTGGAAGTGCGCGACAAGATGGAAGCGCTGGAGCTGCCGCTGGAGGCCAAGGCGCCGGTGCTGCTGCGCTTCAATCCCTCGACCGAGCCGATCATGCGCCTGGTGCTGTCGCCGAAGCAGGCGCCGGGTGCCGACGCGGAGGCGATCCGCCAGCTCACCCAGCTGCGCCGCTACGCCGACGAGGACCTGAAGAAGAAGCTCGAACCGGTCGCCGGTGTTGCCGCGGTCAAGGTCGGCGGCGGCCTGGAGGACGAGATCCAGGTCGACATCGACCAGCAGAAGTTGGCCCAGCTCAACCTGCCGATCGATACCGTCATCACCCGGCTCAAGGAGGAGAACATCAACATCTCCGGCGGCCGGTTGGAGGAGGGCGCGCAGCGTTACCTGGTGCGCACCGTCAACCAGTTCGCCAGCGTCGACGAGATCCGCAACATGCTGGTCACCACCAGCAGCGGCAGCGGCAGCGCCGCCGACTCTGCGATGCAGCAGATGTACGCGATCGCCGCAGCGACCGGCTCGCAGGCCGCGATCGCCGCCGCCGCCGAAGTACAGAGCGCGTCGACCTCGTCCTCCAGCAGCGTGGCCGGCGGCCTGCCGGTGCGGCTGAAGGACGTGGCCGACGTGCGCCAGGGCTTCAAGGAGCGCGAGGCGATCATCCGCCTCGGCGGCAAGGAAGCGGTCGAGCTGGCGATCTACAAGGAAGGCGACGCCAACACCGTCTCCACCGCGACGGCGCTGCGCAAGCGCCTGGAGCAGATCAAGGCGACGGTGCCGGGCGACGTGGAGATCACCACGATCGAGGACCAGTCGCACTTCATCGAAGCGGCGATCACCTCGGTCAAGCACGACGCGGTGATCGGCGGCGCGCTGGCGATCCTGATCATCTTCCTGTTCCTGCGCGATGGCTGGAGCACGTTCGTGATCAGCCTGTCGCTGCCGGTCTCGATCATCACCACGTTCTTCTTCATGGGCCAGTTCGGACTCAGCCTCAACGTGATGTCGCTGGGCGGCCTGGCGCTGGCCACCGGCCTGGTGGTGGACGATTCGATCGTGGTGCTGGAGAGCATCGCCAAGGCGCGCGAGCGCGGACTTGGGGTGTTGCAGGCGGCGATCACCGGCACCCGCGAGGTCAGCATGGCGGTGCTGGCCTCGACCCTGACCACGATCGCGGTGTTCCTGCCGCTCGTATTCGTCGACGGTATCGCCGGCCAGCTGTTCCGCGACCAGGCGCTGACGGTGGCGATCGCGATCGCGATCTCGCTGGTGGTGTCGATGACGCTGATCCCGATGCTCAGCTCGTTGAAGGGCCGCCCGCCGCTGGCGTTCCCGGACGAACCGCCGCATCCGCAGTGGCAGCCGCAGGCGCGTTGGCTCAAGCCGGTCGCGGCCGGCCGGCGTGGCGTCGGCGCCAGCATCCGTTACGGCTTCCTTGCGGTGGCGTGGCTGGTGGTGAAGCTGTGGCGCGGACTGGTGCGCGTGGTCGGGCCGGTGATGCGCAAGGCCAGCGACCTGGCGATGGCGCCGTATGGCCGCGCCGAGCGCGGCTACCTGCGGCTGCTGCCGGCGGCGCTGCGCCGCCCATGGCTGGTGCTCGGCCTGGCCACCGCGACGTTCGTGGCGACCCTTGCTGCGGTGCCGATGCTGGGCGCGGACCTGATCCCGCAGCTGGCGCAGGACCGCTTCGAGATGACGGTGAAGCTGCCGGCCGGCACGCCGCTGGCGCAGACCGACGCGCTGGTGCGCGAGATCCAGCTCGGCCACGGCAAGGACGCCGGCATCGCCTCGTTGTACGGCGTGTCCGGCAGCGGCACGCGGCTGGATGCCAATCCGACCGAGAGTGGCGAGAACATCGGCAAGCTAACCGTGGTGATGGCCGGTGGCGGCAACGCCGAGGTCGAGGCCAGCGAGACCGAGAAGCTGCGCGCGACGATGGCCGCGCACCCGGGCGTGCAGGTCGACTTCGCGCGGCCGGCGCTGTTCTCGTTCTCCACGCCGCTGGAGGTTGAGTTGCGCGGCAACGACCTGGGCGAGCTGGAGCATGCCGGGCAGAAGCTGGCGGCGCTGCTGCGTGCCAATCCGCACTACGCCGACGTGAAATCGACCGTGGAGGAAGGCTTCCCTGAGATCCAGATCCGCTTCGACCAGGAGCGCGCCGGCGCGCTCGGCCTGACCACGCGCCAGATCGCCGACGTGATCGTGAAGAAGGTGCGCGGTGACGTGGCCACGCGCTACAGCTTCCGCGACCGCAAGATCGACGTGCTGGTGCGGGCGCGCGAGCACGACCGCGCCAGCGTCGAAGACATCCGCCGGCTGATCGTCAACCCGGGCAATGGCCGTCCGGTCACGCTCGCGGCGGTCGCCGAGGTTGTGGCCACCAACGGCCCCAGCGAGATCCATCGTGCCGACCAGACCCGCGTGGCGATCGTCTCGGCCAGCCTGCGCGACATCGACCTGGGCGGGGCGATGCGCGAGGTCGAGCAACTGGTCAAGCGCGATCCGCTCGGCGCCGGCATCGGCATGCACATCGGCGGCCAGGGCGAGGAGCTGGCCGAATCGGTCAAGTCGCTTCTGTTCGCGTTCGGCCTGGCGATCTTCCTGGTCTACCTGGTGATGGCCTCGCAGTTCGAGTCGCTGCTGCATCCGTTCGTGATCCTGTTCACCATCCCGCTGGCGCTGGTCGGCGCGGTGCTGGCGCTGTTGATGACCGGCAAGCCGATCTCGGTAGTGGTGTTCATCGGCCTGATCCTGCTGGTCGGCCTGGTGACCAAGAACGCGATCATCCTGATCGACAAGGTCAACCAGCTGCGCGAGGAGGGGGTGGCCAAGCATGCGGCGTTGATCGAGGGCGCACGCTCGCGCTTGCGCCCGATCATCATGACCACGCTGTGCACGCTGTTCGGCTTCGCGCCGCTGGCGCTGGCGATGGGCGAGGGCGCCGAAGTGCGCGCGCCGATGGCGATCACCGTGATCGGTGGCCTGCTGGTGTCCACGCTGCTGACCCTGCTGGTGATCCCGGTGGTCTACGACCTGCTCGACCGGCGGGCCGACAGCTACTACCTGGAGCGCGGCCGGCGCATGCGCCACACCGCCGCCGGTGGCAGCGACGACGACGCGGCGCTGGAGTCGGCATGA	MTSAGSDHGRDPATHAVPGAMGGGLVEFATRRRVTIAMITVTMLLFGLIALKGLKVNLLPDLSYPTLTVRTEYTGAAPAEIETLITEPVEEAVGVVKNLRKLKSTSRTGQSDVVLEFAWGTNMDQASLEVRDKMEALELPLEAKAPVLLRFNPSTEPIMRLVLSPKQAPGADAEAIRQLTQLRRYADEDLKKKLEPVAGVAAVKVGGGLEDEIQVDIDQQKLAQLNLPIDTVITRLKEENINISGGRLEEGAQRYLVRTVNQFASVDEIRNMLVTTSSGSGSAADSAMQQMYAIAAATGSQAAIAAAAEVQSASTSSSSSVAGGLPVRLKDVADVRQGFKEREAIIRLGGKEAVELAIYKEGDANTVSTATALRKRLEQIKATVPGDVEITTIEDQSHFIEAAITSVKHDAVIGGALAILIIFLFLRDGWSTFVISLSLPVSIITTFFFMGQFGLSLNVMSLGGLALATGLVVDDSIVVLESIAKARERGLGVLQAAITGTREVSMAVLASTLTTIAVFLPLVFVDGIAGQLFRDQALTVAIAIAISLVVSMTLIPMLSSLKGRPPLAFPDEPPHPQWQPQARWLKPVAAGRRGVGASIRYGFLAVAWLVVKLWRGLVRVVGPVMRKASDLAMAPYGRAERGYLRLLPAALRRPWLVLGLATATFVATLAAVPMLGADLIPQLAQDRFEMTVKLPAGTPLAQTDALVREIQLGHGKDAGIASLYGVSGSGTRLDANPTESGENIGKLTVVMAGGGNAEVEASETEKLRATMAAHPGVQVDFARPALFSFSTPLEVELRGNDLGELEHAGQKLAALLRANPHYADVKSTVEEGFPEIQIRFDQERAGALGLTTRQIADVIVKKVRGDVATRYSFRDRKIDVLVRAREHDRASVEDIRRLIVNPGNGRPVTLAAVAEVVATNGPSEIHRADQTRVAIVSASLRDIDLGGAMREVEQLVKRDPLGAGIGMHIGGQGEELAESVKSLLFAFGLAIFLVYLVMASQFESLLHPFVILFTIPLALVGAVLALLMTGKPISVVVFIGLILLVGLVTKNAIILIDKVNQLREEGVAKHAALIEGARSRLRPIIMTTLCTLFGFAPLALAMGEGAEVRAPMAITVIGGLLVSTLLTLLVIPVVYDLLDRRADSYYLERGRRMRHTAAGGSDDDAALESA	PGPT0016195_35	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
BMS020_05998	3093	mdtC_4		Multidrug resistance protein MdtC	ATGAGTGTCGCCGCCTTCAGCATCCGCCGTCCGGTCACCACGATCATGTGCTTCGTGTCGCTGGTCGTGGTCGGCATGATCGCCTCGTTCCGGCTGCCGCTGGAAGCGCTGCCGGACATCTCCGCACCATTCCTGTTCGTGCAGCTGCCGTACACCGGCTCGACCCCGGAGGAGGTCGAGCGCAACCTGGTGCGTCCCGCCGAGGAAGCGCTGGCGACGATGACCGGGATCAAGCGCATGCGTTCCAGCGCGACGTCCGACGGCGCCAACATCTTCATCGAGTTCAGCGACTGGGACCGCGACATCGCCATCGCCGCTTCCGACGCGCGCGAGCGGCTGGATGCGATCCGCGACGACCTGCCCGACGACCTGCAGCGCTACTACGTCTACAAGTGGTCCAGCAGCGACGAACCGATCCTGAAGGTGCGCCTGGCCAGCCAGAGCGACCTGACCGGCGCCTACGACATGCTCGATCGCGAGTTCAAGCGGCGCATCGAGCGCATCCCGGGCGTGGCCAAGGTCGAGATCTCCGGCGCGCCGCCGAGCGAGGTCGAGATCGCGATCGCACCGGACCGGTTGACCGCGCACAACCTCAGCCTCAACGACCTGAGTGAGCGGCTGGGCAAGCTCAACTTCTCGGTCAGCGCCGGGCAGATAGACGACAACGGCCAGCGCATCCGCGTACAGCCGATCGGCGAGCTGCGCGACCTGCAGCAGCTGCGCGACCTGGTCATCGATGCCAAGGGGCTGCGCCTGGGCGATATCGCCGAGGTCAGACTCAAGCCGACCCGGATGAACTACGGGCGCCGGCTGGACGGGCGGCCGGCGATCGGCCTGGACGTCTACAAGGAGCGCAGCGCCAACCTGGTGCAGGTGTCGCAGGCGGCGCTGGAGGAAGTGGAGGCGATCCGGCGCCAGCCGGCGCTCAGCGATGTGCAGGTCAAGGTCATCGACAACCAGGGCAAGGCGGTGACCTCGTCGCTGACCGAACTGGCCGAAGCCGGCGCGGTCGGCCTGCTGCTGTCGGTGACGGTGCTGTTCTTCTTCCTGCGCCACTGGCCGTCGACGTTGATGGTGACGCTGGCGATCCCGATCTGCTTCGCGATCACGCTGGGCTTCATGTATTTCGTCGGGGTCACGCTCAACATCCTGACGATGATGGGGCTGCTGCTGGCGGTCGGCATGCTGGTCGACAACGCCGTGGTCGTGGTCGAGAGCATCTACCAGGAACGCGAGCGCATGCCAGGGCAGCCAGCTGCCGCTTCGCTGCTCGGCACCCGCAACGTGGCGATCGCACTGAGCGCCGGCACGCTGTGCCACTGCATCGTGTTCGTGCCCAACCTGTTCGGCGAGACCAACAACATCAGCATCTTCATGTCGCAGATCGCGATCACCATCTCGGTGTCGCTGCTGGCATCGTGGCTGGTGGCGGTGAGCCTGATCCCGATGCTGTCGGCGCGGATGCAGACGCCGGCGCTGGTGAAGGCCGACAAGGGCGTGATCGCGCGGCTGCAGGCGCGCTATGCGCGTTTGCTGCGCTGGAGCCTGGAGCACCGGGGCTGGAGCATGGCCGGGATCGTGCTGGTGGTGCTGGTGAGCCTGGTGCCGATGAAGCTGACCAAGATCGACATGTTCGGCGGCGACGGCGGCCACGAGGCCTTCATCGGCTACCAGTGGAAGGGCTCCTACACCCGCGAGCAGCTTGGCGAGGAGATCGGCCGCGTCGAACGCTTCCTGGAGGACAACCGCACCCGCTTCCACATCACCCAGGTCTATTCCTGGTACAGCGAGGTCGAGGGCAGCAGCACCATCGTCACCTTCGACCCGGCACAGGTGAAGGACCTGCCGCCGGTGCTGGAGCAGATCCGCAAGGAGCTGCCGCGCTCGGCGCGTGCCGATTACAGCATCGGCAACCAGGGCGACGGCAACGGCGGCGGCAACCAGGGCGTGCAGGTGCAGCTGGTCGGCGACTCGACCCAGCAGCTGCAGGCGATCGCCGAAGAGGTGGTGCCGCTGCTGGCGCAGCGCAAGGAGCTGCGCGACGTGCGCGTTGACAACGGTGACCGCACCAGCGAGCTGGCGATCCGGGTGGATCGCGAACGTGCCGCCGCATTCGGCTTCAGCGCGGAGGAAGTGGCCAGCTTCGTCGGCCTGGCCTTGCGTGGCTCGCCGCTGCGCGAATTCCGCCGCGGTGACAACGAGGTGCCGGTGTGGGTGCGGTTCGCCGGCGCAGAGCAGAGCCGGCCCGAGGACCTGGACAGCTTCACCGTGCGCACCAAGGATGGCCGCAGCGTGCCGCTGCTGAGCCTGGTCGACGTGCAGATCCGTCCGTCCGCTACCCAGATCGGACGCACCAACCGCCAGACCACGCTCACCATCAAGGCCAACCTCGCCGAGAAGATCAGCGTGCCCGACGGGCGCAAGGCGATGGAGGCGACGCTGAAGAACATGAGCTTCCCGGCCGGGTACAGCTATACCTTCGACGGCGGCGACTACCAGGACGACGGCGAGGCCATGCAGCAGATGCTGTTCAACCTGGTCATCGCGCTGGTGATGATCTACGTGGTGATGGCGGCGGTATTCGAGTCGCTGCTGTTCCCGGCCGCGATCATGAGCGGCGTGCTGTTCTCGATCTTCGGCGTGTTCTGGCTGTTCTGGGCCACCGGCACCAGCTTCGGGATCATGGCCTTCATCGGCATCCTGGTGCTGATGGGCGTGGTGGTGAACAACGGCATCGTGATGATCGAGCACATCAACAACCTGCGCCGGCGCGGCGTCGGCCGGACCCAGGCGCTGGTGGAAGGTTCGCGCGAGCGGCTGCGCCCGATCATGATGACGATGGGCACGGCGATCCTGGCGATGATCCCGATCTCGGTGACCAGCACGACGATGTTCAGCGACGGCCCGCCGTACTACCCGATGGCGCGGGCGATCGCCGGCGGGCTGGCGTTCTCCACCGTGGTCAGCCTGCTGTTCCTGCCGACGATCTACGCGATCCTCGACGACCTCAGCAGCGGCGCGGCGCGGCTGGTGCGGCGCGCGCGCGGCCTGCCCGAGGCGACGGCCGCCGGCATGAGCGACGCAGCGGTGTGA	MSVAAFSIRRPVTTIMCFVSLVVVGMIASFRLPLEALPDISAPFLFVQLPYTGSTPEEVERNLVRPAEEALATMTGIKRMRSSATSDGANIFIEFSDWDRDIAIAASDARERLDAIRDDLPDDLQRYYVYKWSSSDEPILKVRLASQSDLTGAYDMLDREFKRRIERIPGVAKVEISGAPPSEVEIAIAPDRLTAHNLSLNDLSERLGKLNFSVSAGQIDDNGQRIRVQPIGELRDLQQLRDLVIDAKGLRLGDIAEVRLKPTRMNYGRRLDGRPAIGLDVYKERSANLVQVSQAALEEVEAIRRQPALSDVQVKVIDNQGKAVTSSLTELAEAGAVGLLLSVTVLFFFLRHWPSTLMVTLAIPICFAITLGFMYFVGVTLNILTMMGLLLAVGMLVDNAVVVVESIYQERERMPGQPAAASLLGTRNVAIALSAGTLCHCIVFVPNLFGETNNISIFMSQIAITISVSLLASWLVAVSLIPMLSARMQTPALVKADKGVIARLQARYARLLRWSLEHRGWSMAGIVLVVLVSLVPMKLTKIDMFGGDGGHEAFIGYQWKGSYTREQLGEEIGRVERFLEDNRTRFHITQVYSWYSEVEGSSTIVTFDPAQVKDLPPVLEQIRKELPRSARADYSIGNQGDGNGGGNQGVQVQLVGDSTQQLQAIAEEVVPLLAQRKELRDVRVDNGDRTSELAIRVDRERAAAFGFSAEEVASFVGLALRGSPLREFRRGDNEVPVWVRFAGAEQSRPEDLDSFTVRTKDGRSVPLLSLVDVQIRPSATQIGRTNRQTTLTIKANLAEKISVPDGRKAMEATLKNMSFPAGYSYTFDGGDYQDDGEAMQQMLFNLVIALVMIYVVMAAVFESLLFPAAIMSGVLFSIFGVFWLFWATGTSFGIMAFIGILVLMGVVVNNGIVMIEHINNLRRRGVGRTQALVEGSRERLRPIMMTMGTAILAMIPISVTSTTMFSDGPPYYPMARAIAGGLAFSTVVSLLFLPTIYAILDDLSSGAARLVRRARGLPEATAAGMSDAAV	PGPT0016195_1528	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
BMS020_05999	1224			hypothetical protein	ATGACTGAGCATTCCCCCACCTCGGCCGACGAACTGGCCCTGTCCGGACAGCCCTACCGCGTGGTCGAGCGCGATGGCGTGCGCTACACCCTGCTCGGCACCGCGCACGTGTCGCTGACCAGCGTCGCTGCCGTGCAGAAGGCGGTCGAAAGCGGGCGTTACGACGCGGTCGCGGTCGAGCTGGACGCCCAGCGCCTGCAGGCGCTGAGCGACCCGGACGCACTGGCCAAGCTGGATCTGGTGCAGGTGATCCGCAAGGGCCGCGTGGCGCTGTTCGCGGCCAATCTGGCGCTGGCGGCGTACCAGCGCCGGCTGGCCAAGCAGCTCGGCATCGAACCGGGCGCGGAACTGAAGGCGGCGGTCAGCATGGCGCGCGAACGCGGCCTGCCGGTGCACCTGATCGACCGTGAGGTCGGCTTGACCTTCAAGCGCGCCTCGGCGCGGCTGGGCGTGTTCGGCAAGCTCAAGCTCGGCGCCGGCCTGCTGGGCGGGTTGTTCGCCGCCGACGAGGTCGGCGAGGACGAGATCGAGAAGCTCAAGCAGGGCGACATGCTCGAAGCCAGCTTCGGCGACTTCGCCAGCGAGAGCCCGGAGCTGTACGAGACCATCATCGCCGAGCGCGACCGCTACATGGCCACGCGTCTGCGCGAGGAGGCCCATCCGGCGCAGCGCGAGGTGCTGGCGGTGGTCGGCGCCGGCCACCTGGCCGGCCTGGCCAAGCACCTGGAGAGCGACACCGAGGCGCCGGCGCCGCTGCGCGCGGCACTGGAACAGGTGCAGAACAAGCGCCGCATCCCGTGGCTCACCCTCGGCATCCTGACGGTGATCATCGCCGGCATCGCGGTGGGCTTCTGGCGCGGCGGCATGTCGATGGGCGCCGACCTGCTGCTGCAATGGGCGATGTACACCGGCGGCCTGGCCGCGCTGGGCGCGCTGCTGGCCGGCAGCCACCCTTTCAGCATCATCACCGCGGCAGTGGTGGCGCCGTTCAAGCCGTTCCGCCTCAGCGTGCCCACCGGCGCGTTCGCGGCACTGGTCGAAGTGCACATGCGCAAGCCGGCCTACGCCGACTTCCTGACCCTGCGCGACGACGCGCAGACCTTGAAGGGCTGGTACCGCAACCGCGTCTCCCGGGTGGTGCTGACCTTCCTGCTGACCAACTTCGGCAGCATGGCCGGCGTCTGGCTGGCCGGCCTGCAGATCTTCAACAAGCTGCACGGCTGA	MTEHSPTSADELALSGQPYRVVERDGVRYTLLGTAHVSLTSVAAVQKAVESGRYDAVAVELDAQRLQALSDPDALAKLDLVQVIRKGRVALFAANLALAAYQRRLAKQLGIEPGAELKAAVSMARERGLPVHLIDREVGLTFKRASARLGVFGKLKLGAGLLGGLFAADEVGEDEIEKLKQGDMLEASFGDFASESPELYETIIAERDRYMATRLREEAHPAQREVLAVVGAGHLAGLAKHLESDTEAPAPLRAALEQVQNKRRIPWLTLGILTVIIAGIAVGFWRGGMSMGADLLLQWAMYTGGLAALGALLAGSHPFSIITAAVVAPFKPFRLSVPTGAFAALVEVHMRKPAYADFLTLRDDAQTLKGWYRNRVSRVVLTFLLTNFGSMAGVWLAGLQIFNKLHG				NA	NA	NA	NA	NA
BMS020_06000	885			N-carbamoyl-D-amino acid hydrolase	ATGACCCAACGTACCCTTTCCGTCGCGCTGATCCAGGAGCGCAACCACGGTGACGCCGCGGCCAACCTGGCCGTGATCGAAGCGCGTGTCGCCGAGGCCGCCGCGCAGGGCGCCAAGCTGGTGCTGCTGCAGGAACTGCATAACGGCCCGTACTTCTGCCAACACGAATCGGTGGCCGAGTTCGACCTGGCCGAGCCGATCCCCGGCCCCAGCACCGAGCGCCTCGGCGCACTGGCGAAGCGGCACGGCGTGGTGCTCGTCGGTTCGCTGTTCGAACGCCGCGCCGCCGGGCTGTACCACAACACCGCGGTGGTGTTCGAGAAGGACGGCACCCTGCTCGGCAAGTACCGCAAGATGCACATCCCGGACGACCCGGGCTTCTACGAGAAGTTCTACTTCACCCCGGGCGACATCGGCTTCAAGCCGATCGACACCTCGGTCGGCCGCCTCGGCGTGCTGGTGTGCTGGGACCAGTGGTATCCGGAAGCGGCGCGCCTGATGGCGCTGGCCGGCGCCGAGCTGCTGCTCTACCCCACCGCGATCGGCTGGGATCCGGACGATGCGCAGGACGAGAAGACCCGCCAGCGCGACGCCTGGGTGCTGAGCCATCGCGGCCATGCGGTGGCCAACGGCCTGCCGGTGCTGAGCTGCAACCGTGTCGGCCACGAGCCTTCGCCATTGGGCGCCTCGGGCATCCAGTTCTGGGGCAACAGCCACGTGCTCGGGCCGCAGGGCGAGTTCATCGCCGAGGCCGGCACCGAACCGACCGTGCTGCTGTGCGAGGTCGACCTGCAGCGCAGCGAGCACGTGCGGCGGATCTGGCCGTTCCTGCGCGACCGTCGCATCGACGCCTATGGCGACCTGCTCAAGCGCTACATCGATTGA	MTQRTLSVALIQERNHGDAAANLAVIEARVAEAAAQGAKLVLLQELHNGPYFCQHESVAEFDLAEPIPGPSTERLGALAKRHGVVLVGSLFERRAAGLYHNTAVVFEKDGTLLGKYRKMHIPDDPGFYEKFYFTPGDIGFKPIDTSVGRLGVLVCWDQWYPEAARLMALAGAELLLYPTAIGWDPDDAQDEKTRQRDAWVLSHRGHAVANGLPVLSCNRVGHEPSPLGASGIQFWGNSHVLGPQGEFIAEAGTEPTVLLCEVDLQRSEHVRRIWPFLRDRRIDAYGDLLKRYID	PGPT0008885_493	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0008885-UPB1_like|pydC-K01431	NA	NA
BMS020_06001	1053	aguA	COG2957	Agmatine deiminase	ATGACCGAACAGCTCCGTTTCCCGGCCGAATGGGAAGAACAGTCCGCCGTGCTGATCGCATGGCCCCATGCCGATACCGACTGGGCCGAGCGCCTGGGCGACGTTGAGGAAACCTATGTCGCCCTGGTCGCCGCCGCGACCCGCTTCGAGCCGGTGCTGATCTGCGTCGCCGACGAGGACCTGCAGACCTATGCCGAGGCGCGGCTGCGCTCGGCCCGGGTGGACATGGACAAGGTGCGCTTCGTCGAAGCCGCCTACGACGACACCTGGCTGCGCGACTCCGGCCCGATCAGCCTGCGCGGCGCCGACGGCAGCCTGGAGCTACTGGATTTCCGTTTCACCGGCTGGGGCGGCAAGTTCGAAGCCAGTCTCGATGATCAGCTGGTCGGCGCGCTCGACGCCGCCGAGGTCTTTACCAGCGACGTCGTGCACAGCATCGATTTCGCACTGGAGGGCGGCGCGATCGACACCGATGGCGCCGGCACGCTGCTGACCACCTGGCAGTGCCTGCACGAGCGCCACCCGCAGCGCAGCCGGGAGTCGCTGAGCGCCGACCTGGCCACCTGGCTGGCCCAGCACCGGGTGCTGTGGCTGGACCACGGCTACCTCGAGGGCGACGATACCGACGCCCATGTCGACACCCTCGCCCGCTTCGCTTCGACGGACAGCATCGTCTACCAGGCCTGCGACGACGCGGGCGACTCGCATTACGCCGAGTTGCAGGCGATGGGCGCCGAACTCGCTGCGCTGCGCACGGTGGACGACCAGCCGTACCGCTTGTTCCCGCTGCCGTGGGCGCAGCCGGTGCTCGACACCGACGCCGACGGCAACCAGCGCCGGCTGGCGGCCTCGTACGCCAACTTCCTGATCGTCAATGGTGCGGTGCTGATGCCGGCCTACGGCGATCCGGCCGATGCACTTGCCCGCGACGTGCTGGCCCAGGCCTTCCCCGGGCGCGAGGTCGTGCAGGTGCCGTGCCGCGCGTTGATCTGGCAGAACGGCAGCCTGCACTGCATCACCATGCAGCTGCCGTCGGGCCTGCTGGCGAACTGA	MTEQLRFPAEWEEQSAVLIAWPHADTDWAERLGDVEETYVALVAAATRFEPVLICVADEDLQTYAEARLRSARVDMDKVRFVEAAYDDTWLRDSGPISLRGADGSLELLDFRFTGWGGKFEASLDDQLVGALDAAEVFTSDVVHSIDFALEGGAIDTDGAGTLLTTWQCLHERHPQRSRESLSADLATWLAQHRVLWLDHGYLEGDDTDAHVDTLARFASTDSIVYQACDDAGDSHYAELQAMGAELAALRTVDDQPYRLFPLPWAQPVLDTDADGNQRRLAASYANFLIVNGAVLMPAYGDPADALARDVLAQAFPGREVVQVPCRALIWQNGSLHCITMQLPSGLLAN				NA	NA	NA	NA	NA
BMS020_06002	333			hypothetical protein	ATGAACCACGTCCGTAGCACTTTGCTGGCCGCCACCTTGCTGGCAGCCGCCCTGCCCGCCGCGCACGCCGAGACCCTGCTGGTCGACCGCGTGAAGCAGGAATCCGGGCACCCGATGCCGACCCGTGGCCAGTCGATGGCCCAGGTCCAGTCCAGCTTCGGCGAGCCCTCGCAGAAGCTGGAGCCGCGCGGCGGACAGAAGCACCAGTGGCCGACCATCAACCGCTGGGTCTACCCGGCCTTCACCGTCTACTTCGAGAAGCAGAAGGTGATCGACGTGGTGGCCAACCAGGCCGGCGCCGATGAAATCGGGCCGAAACCGCCGATCCGTTGA	MNHVRSTLLAATLLAAALPAAHAETLLVDRVKQESGHPMPTRGQSMAQVQSSFGEPSQKLEPRGGQKHQWPTINRWVYPAFTVYFEKQKVIDVVANQAGADEIGPKPPIR				NA	NA	NA	NA	NA
BMS020_06003	126	ykgO_2	COG0257	50S ribosomal protein L36 2	ATGAAGGTCCTGTCCTCCCTGAAGTCGGCGAAGGCCCGTCACCGCGACTGCAAGGTGGTCCGCCGCCGCGGCAAGGTCTTCGTGATCTGCAAGTCGAACCCGCGCTTCAAGGCTCGCCAGCGCTGA	MKVLSSLKSAKARHRDCKVVRRRGKVFVICKSNPRFKARQR				NA	NA	NA	NA	NA
BMS020_06004	672	cmk_2		Cytidylate kinase	ATGAGCGAGCTTGTGCCGGTGCTGACCATCGATGGCCCATCCGGGGCCGGGAAGGGCACCGTGAGCCGGATCGTCGCGCGCCGGCTGGGCTGGAACTACCTCGATTCCGGTGCATTGTACCGGGCTGTGGGCGTGGCCGCCGGCTGGGCCGATATCGACGTCTCCGACGCGGCGGCGCTGGTGCGCTGCACCTTCGACACCCATGTCGAGTTCGTCGAGCGCAACGACAGTCTGCGGGTGATGCTGAATGGCGTGGATGCGACCGACGAGCTGCGCCTGGAGACCGCGGGCGCGCTGGCCTCGGCGATCGCGGCGATCCCGGAGGTGCGCGCCGCGCTGAAGGAGCGCCAGCGGGCGTTCCGGCACGCCCCTGGGCTGGTCGCCGACGGTCGCGACATGGGCACCGTGATCTTCCCGGACGCCAGCTGCAAGGTGTTCCTGACCGCGAGCGCCGAGGAGCGCGCGACCCGGCGCCATAAGCAGTTGATGGAAAAGGGTGTTTCGGTTATATTCGATGACCTGCTGCGCGAGATCATGGCTCGCGACGCCCGCGATGCCCAGCGCGCCGTGGCGCCACTGAGGCCGGCCGAAGACGCCGTCCTCATCGACACCACCGGCCTTGGCATCGAGGAAGTCGTCGAACGTGTGGTCGGCCTGCTGCCTCATTCCTGA	MSELVPVLTIDGPSGAGKGTVSRIVARRLGWNYLDSGALYRAVGVAAGWADIDVSDAAALVRCTFDTHVEFVERNDSLRVMLNGVDATDELRLETAGALASAIAAIPEVRAALKERQRAFRHAPGLVADGRDMGTVIFPDASCKVFLTASAEERATRRHKQLMEKGVSVIFDDLLREIMARDARDAQRAVAPLRPAEDAVLIDTTGLGIEEVVERVVGLLPHS	PGPT0021220_2247	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021220-cmk-K00945	NA	NA
BMS020_06005	1689	rpsA_2	COG0539	30S ribosomal protein S1	ATGACCGAATCTTTTGCCGAACTGTTCGAAGCCAGCCAAGCCAACCTGGCCAAGCTGAAGCCGGGCGCCATCGTCACCGGTACCGTCGTGGATGTCCGCGGCGACGTGGTGGTGATCAACGCCGGCCTGAAGTCCGAAGGCATCGTGCCGATCGAACAGTTCCGTAACGACGCTGGCGAGATCGATGTGGGCGTGGGCGACCAGGTCAAGGTCGCGCTGGACTCCATCGAGAACGGCTTCGGCGAAACCGTGCTGTCGCGCGAGAAGGCCAAGCGCGCGATGGTGTGGGACGAGCTGGAAGAAGCGCTGGAGAAGAACGAGACCATCACCGGCCGCATCAGTGGCAAGGTGAAGGGCGGCTTCACCGTCGACATCAAGGACGTCCGCGCGTTCCTGCCGGGTTCGCTGGTCGATGTGCGCCCGGTGCGCGACCCGGCCTACCTGGAAGGCAAGGAGCTGGAGTTCAAGCTCATCAAGCTGGACCGCAAGCGCAACAACGTCGTCGTCTCCCGCCGTGCGGTGGTTGAGAGCGAGCACTCGGAAGAGCGCGAGGCGCTGCTGGACAAGCTGCAGGAAGGCGCGATCCTGAAGGGCGTGGTCAAGAACCTGACCGACTACGGCGCGTTCGTGGACCTGGGCGGCATCGATGGCCTGCTGCACATCACCGACATGGCGTGGAAGCGCGTCCGTCACCCGTCCGAAGTGGTCAACGTCGGCGACGAGCTGGACGTGCGCGTGCTGAAGTTCGACCGCGAGCGCAACCGCGTCTCGCTGGGCCTGAAGCAGCTGGGCGAGGATCCGTGGGACAACATCTCGCGCCGCTACCCGGCCAACAGCCGCGTGTTCGGCAAGGTCTCCAATGTCACCGATTACGGCGCGTTCGTCGAGATCGAGCCGGGCGTGGAAGGCCTGGTGCACGTGTCCGAGATGGACTGGACCAACAAGAACGTCAACCCGTCCAAGGTTGTGCAGGTTGGTGACGAAGTCGAAGTGATGGTGCTGGACGTCGACGAAGAGCGTCGCCGCATCTCGCTGGGCATGAAGCAGGTCGCCGCCAATCCGTGGGAAACCTTCGCGGCCACCCACAAGAAGGGCGACAAGGTGTCGGGCCAGATCAAGTCGATCACCGACTTCGGCATCTTCATCGGCCTGGACGGCGGCATCGACGGCCTGGTCCACCTGTCCGACATCAGCTGGAACACCACCGGCGAAGACGTCGTGCGCAACTTCAAGAAGGGCGACACCCTGGACGCGGTCGTGCTGGCCGTGGATCCGGAGCGTGAGCGCATCTCGCTGGGCGTCAAGCAGCTCGAGCAGGATCCGTTCGGCCAGTTCATGGCCGCCAATCCGAAGGGCTCCAAGGTCGAAGGCGTGGTGAAGGAAGTCGACGCCAAGGGCGCCGTGATCGAACTGGCCGACGGCATCGAAGGCTACGTCTCGGCGCGCGACATCGCCAACGAACGCGTGGACGACGCTTCGCAGCACCTGAAGGTCGGCGACAAGATCGAAGCCAAGTTCGTGGGCATGGACCGCAAGGGCCGCACCCTGCAGCTGTCGATCAAGGCCAAGGACGAAGCCGAGACCGCCGAGGCCCTGGCCGAGTACCACAAGGCCTCGACCGTTGCCGCGGCCGGCACCACCAGCCTGGGCGCGCTGCTGCGCGAGCAGCTGGGCGGCAAGTCCGAGTAA	MTESFAELFEASQANLAKLKPGAIVTGTVVDVRGDVVVINAGLKSEGIVPIEQFRNDAGEIDVGVGDQVKVALDSIENGFGETVLSREKAKRAMVWDELEEALEKNETITGRISGKVKGGFTVDIKDVRAFLPGSLVDVRPVRDPAYLEGKELEFKLIKLDRKRNNVVVSRRAVVESEHSEEREALLDKLQEGAILKGVVKNLTDYGAFVDLGGIDGLLHITDMAWKRVRHPSEVVNVGDELDVRVLKFDRERNRVSLGLKQLGEDPWDNISRRYPANSRVFGKVSNVTDYGAFVEIEPGVEGLVHVSEMDWTNKNVNPSKVVQVGDEVEVMVLDVDEERRRISLGMKQVAANPWETFAATHKKGDKVSGQIKSITDFGIFIGLDGGIDGLVHLSDISWNTTGEDVVRNFKKGDTLDAVVLAVDPERERISLGVKQLEQDPFGQFMAANPKGSKVEGVVKEVDAKGAVIELADGIEGYVSARDIANERVDDASQHLKVGDKIEAKFVGMDRKGRTLQLSIKAKDEAETAEALAEYHKASTVAAAGTTSLGALLREQLGGKSE				NA	NA	NA	NA	NA
BMS020_06006	312	ihfB_2	COG0776	Integration host factor subunit beta	ATGACCAAGTCCGAACTGATCGAAATCCTGGCTAGGCGCCAAGCGCATCTGAAGTCGGACGATGTCGATCTCGCGGTCAAGTCGCTGCTGGACATGATGGGGGAGTCGCTCTCCCAGGGCGATCGCATCGAAATCCGCGGTTTCGGCAGTTTCTCGCTGCATTACCGCCCGCCCCGATTAGGGCGCAATCCCAAGACCGGCGAGTCCGTGGCGTTGCCCGGCAAGCACGTTCCCCATTTCAAGCCCGGCAAGGAACTGCGCGAACGCGTCAGCTCCGTGGTGCCGGTGGATGTTGCCGACGGCGGCGAGTGA	MTKSELIEILARRQAHLKSDDVDLAVKSLLDMMGESLSQGDRIEIRGFGSFSLHYRPPRLGRNPKTGESVALPGKHVPHFKPGKELRERVSSVVPVDVADGGE				NA	NA	NA	NA	NA
BMS020_06007	300			hypothetical protein	ATGAAAGTCTTCCGGTTGTTGCTGATGCTGGCCTTCCTGCTGGTCGGGCTGGTCATCGGTGCGTTGAACTCGCAACCGCTGTTGATCGACTTCGCCTTCACCAGCATCGCGACCACATCCGGTATCGCGATCATCGTGACCCTGCTGCTCGGCGCCGTGGTCGGTGGATTGCTGGTGCTGCTCACCGGCGTGTTGCCGCTCTATGCGCGGCTGCGCCAGGCGAACAAAGACGCCGCGTCGCGTCCGCTGGCCACTCCCGCGGAGGCCGCGCCTGCCTCCCGGCCCATTGATGGAATCTGA	MKVFRLLLMLAFLLVGLVIGALNSQPLLIDFAFTSIATTSGIAIIVTLLLGAVVGGLLVLLTGVLPLYARLRQANKDAASRPLATPAEAAPASRPIDGI	PGPT0014665_894	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_AFFECTED_LIPOPOLYSACCHARIDE_ASSEMBLY,PGPT0014665-lapA-K08992	NA	NA
BMS020_06008	1179	lapB_3	COG2956	Lipopolysaccharide assembly protein B	ATGGAATTTCTCACCGAGTGGTTCTGGTTCTTCCTGTTCCTGCCGCTGGCCGCACTGAGCGGCTGGGTGGTCGGGCGCCGTGGCGGTCAACGCCATGGCGACAGCCAGGTCAGCCGCCTGTCCAGCACCTATTTCCGCGGCCTGAACTACCTGCTCAACGAGCAGCCCGACAAAGCGATCGAGCTGTTCCTGCATATTGCCGAGCTCGACAAGGAAACCTTCGAGACCCAGGTCGCGCTCGGCCATCTGTTCCGGCGCCGCGGTGAAGTCGATCGTGCGATCCGGCTTCACCAGGGCCTGGTGCAACGCAGTGACCTGACCGACCAGCAGCGCGTGCAAGCGCTGCTGGCGCTGGGCGAGGACTACATGAAGTCCGGGCTGCTCGATCGTGCCGAAACCGTGTTCACCGAACTGGCGCAGATCGACCAGCGCGCCCCGCAGGCGCTGAAACACCTGATCGGCATCTACCAGGCCGAACGCGACTGGGAGAAGGCCATCGACAACGCCAGCCGCTACGAGCAGGTCACCGGCGAGCCGATGGGCAAACTGATCTCGCAGTTCGAGTGCGAGCTGGCCGATCGCTACCGCGGCGCCGGCAAGCACGACCTGGCGCTGCAGGCGATCTCGCGCGCCTACCAGGCCGATGCGACGTCGGTGCGGGCCGGCATTCTCGAAGGCCGGGTCGAAGCCGATCTCGGTCGCGACGAGGCCGCGGTCCGTGCCTGGGAGCGCGCCGCCCGGCATGACCCCGAATATCTGCCTGAAATCATTCCGACCCTGCTGGCTGCCTATCGCCGGGTCGGCGACATCGCCGGCGCGCGCAACTTCCTGTCGGAGATGACCGAGCACTACCGCGGCATCGCCCCGGTACTGGCGCTGGCGCAACTGATGGAGGCCCAGGATGGCCCGCTGCCGGCGCGCGAATACCTCGGCCGCCAGCTCAAGGACCGTCCCTCGGTGCGCGGCGAGTCGGCACTGATCGATCTCACCCTGGCCGCCGGCGCGGACCCGGGCGTGACCCTGCACGACCTCAAGCACATCACCGACCAGTTGCTGGTGCGTAATCCCAGCTACCGCTGCACCCGTTGCGGCTTCGGCGCGAAGACCCATCACTGGCAGTGCCCGAGCTGCAAGGAGTGGGGTTCGGTCAAGCCGCTGCTGAACTACGCGGTGGTGTGA	MEFLTEWFWFFLFLPLAALSGWVVGRRGGQRHGDSQVSRLSSTYFRGLNYLLNEQPDKAIELFLHIAELDKETFETQVALGHLFRRRGEVDRAIRLHQGLVQRSDLTDQQRVQALLALGEDYMKSGLLDRAETVFTELAQIDQRAPQALKHLIGIYQAERDWEKAIDNASRYEQVTGEPMGKLISQFECELADRYRGAGKHDLALQAISRAYQADATSVRAGILEGRVEADLGRDEAAVRAWERAARHDPEYLPEIIPTLLAAYRRVGDIAGARNFLSEMTEHYRGIAPVLALAQLMEAQDGPLPAREYLGRQLKDRPSVRGESALIDLTLAAGADPGVTLHDLKHITDQLLVRNPSYRCTRCGFGAKTHHWQCPSCKEWGSVKPLLNYAVV	PGPT0014670_263	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_AFFECTED_LIPOPOLYSACCHARIDE_ASSEMBLY,PGPT0014670-lapB-K19804	NA	NA
BMS020_06009	975	wecA_1	COG0472	Decaprenyl-phosphate N-acetylglucosaminephosphotransferase	ATGCCAGCCTGGCTGGGCTGGGCTGGCCTGCATGTCCTGATCGCCGCGGCAGGCACCTGGCTGCTGCGGGGCTATGCGCTGCGGCGGCGCATCGTCGATCTGCCCGGCGAACGTCGCAGCCATCGCGTGGCGACGCCGCGCGGCGGTGGCATGGCGATCGTTGCATCGGTACTGGTTGGCGCGCTGCTGGGGGCGTGGCTGCTCCCGATGCAGCGATTCGAGATCCTCGGCATCGCGGGCGGTTGCGTGCTGGTTGCCGGCGTTGGCTGGTGGGACGATCACCGCCCGCTGTCCGCCGCGCTGCGCCTGCTGGTCCATCTCGTGGCGGCGGCATGGCTCGGCATGGTGGTCTGGATCGCCGGCGCGCCACCTCCGTTGGCGCTGCTCGCGGCATTGGCGTGTGTGGCATTGGTGAACATCTGGAATTTCATGGATGGCATCAACGGCCTGGCCGCTTCGCAGGCCGCGCTCGCAGCCGCAGCGTTCGCCGTGGTGACGCCAATGCCGTGGAGCTGGGCCGGTATCGCGCTTGCAGCCGCCTGCCTCGGCTTCCTGCCGTTCAATTTTCCGCGCGCCTGGATCTTCATGGGCGACGGCGGCAGCGGTGCTCTCGGCTACCTGCTTGCCGCGTTGATGTCGATGGCCGTGGTCCATGGCGGGGTGGCGCCGGCATGGGCATGGCTGCCGTTGAGTGCATTCGTCGTAGACGCAGGCTTCACGTTGGCCTTGCGCATGCTGTCGCGCCAGCGCTGGTGGGAAGCTCACGCCCAGCACGTCTACCAGCGCATGGCGCGCAGGCTGGGTTCGCACACCAAGGTGACGCTTGGTTATGCCTGTTTCAGCATCGCCGCGTTTACCCTATTCTGGTGTTCATATGCAGGGCAGCCAAGGTGGGGGGCTGCCGGGTCGATGGGCTGGTTGATGCTGGCGTCTGCGATTTGGCTGCTCCTCCGCAAAGGATTGCGTAACCACTGA	MPAWLGWAGLHVLIAAAGTWLLRGYALRRRIVDLPGERRSHRVATPRGGGMAIVASVLVGALLGAWLLPMQRFEILGIAGGCVLVAGVGWWDDHRPLSAALRLLVHLVAAAWLGMVVWIAGAPPPLALLAALACVALVNIWNFMDGINGLAASQAALAAAAFAVVTPMPWSWAGIALAAACLGFLPFNFPRAWIFMGDGGSGALGYLLAALMSMAVVHGGVAPAWAWLPLSAFVVDAGFTLALRMLSRQRWWEAHAQHVYQRMARRLGSHTKVTLGYACFSIAAFTLFWCSYAGQPRWGAAGSMGWLMLASAIWLLLRKGLRNH	PGPT0023190_151	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023190-wbpL-K13007	NA	NA
BMS020_06010	1908	pglF	COG1086	UDP-N-acetyl-alpha-D-glucosamine C6 dehydratase	ATGAAGTCTTGGCGTGACACGTTCGCGGGCGCGGTGCCGAAGATGGCGGTCGTCGTCCACGACCTGGTGATGGTGTGGTTGTGTTGGCAGTTGCTGCACGCGGGCCGCTATTCGATGCTGCGTGAAGCACCGGACCTGCCGCTGCTGGATTGGCGTACCGCGGTCGTGCTGCTGGCCCAGGGCCTGGTCTTCTGGCAGGTCGGCCTTTACCGTGGGCTGTGGCGCTTCGCCAGCGTCCCGGATCTGTGGAATATCTTCAAGGCATGTTTCCTGGGCCTGGTCGCGATCGTGCTCGCGCTGGCGGTGGATCGTTTCAACGGCGTGCCGCTGTCGGTCCTGATGGTCTATCCGTTCGCGCTGGCGGCGTTGCTGGGTACGCCGCGGCTGCTTTACCGGGCATGGAAGGACTACCAGGTCGGACATTCCAGCAGCGCCGCGCGGCGCGTGCTGATCATCGGTGCTGGTCGTGCGGCCGAAGCGCTGGTGCGCGACCTGCGCCGCACGGGCGCCTTCCTGCCGGTTGGCTTCCTCGACGACGCACGTCACCTGCATGGCGCGAAGATCCAGGGCCTCAACGTGCTCGGGCCGCTCGAAGACACCGCGTCGATCGCGCGCGAGACCGCGGCCAAGCTGCTGGTGATCGCGATTCCGTCGCTGGACGCCGCCGGCATGCAGCGTGTCGTCGCGATCTGCGAGAGCACCGGCCTGCCGTTCCGCATGGTGCCGAAGATCGAGCACGTACTCGAGGGGCGTTCGCTGCCCGGCGAGTTACGCGAGGTGTCGATCGACGACCTGCTCAACCGCAAGCCGGTCACGCCGGACTGGAAGTCGATCCGGGTCTGGTTGAACGGCAAGACCGTGCTGGTCACCGGCGCGGGCGGCTCGATCGGCTCCGAGGTGTGCCGGCAGTGCGCCCGCCACGGCGCCTTGCGCATCGTGCTGGTCGAGATCGACGAGCTGGCCTTGCTGACCATCGACTCGGATCTGCGCCGCCTGTTCCCCGACATCGACGTGGTGCGGGTGCTGGGCGACTGCGGCGATCCTGCGGTCATGCGCCATGCGCTGCAGCTGGCCCCACCGGATGCGGCCTTCCACGCCGCCGCATACAAGCAGGTTCCCCTGCTGGAAGAGCACCTGCGCGAGGCGGTCCGCAACAACGTGCTGGCCACCGAGAACGTGGCGCGCTCATGCCAGCGCGCCGGCGTCGGGACCTTCGTCTTCATCTCCACCGACAAGGCGGTCGAGCCGGCCAATGTGCTGGGCGCGACCAAGCGCTACGCCGAGATGGTGTGCCAGAGCCTGGATGCGCGCGACTCGATGACCCGGTTCGTCACCGTGCGCTTCGGCAACGTGCTCGACTCCGCCGGCAGCGTGGTGCCGCTGTTCCGCGAGCAGATCCGACAGGGCGGCCCGGTCACGGTCACCGATCCCGAGGTCACCCGTTACTTCATGACGATTCCCGAAGCCTGCCAGTTGATCGTGCAGGCCGCGTCGTCGGCGTCGCATGGGGCGATCTATACCTTGGACATGGGCGAGCCGGTGCCGATCCGCATACTCGCCGAACAGATGATCCGCCTGGCCGGCAAGCAACCCGGCAAGGACATCGCCATCGTCTATACCGGATTGCGTCCGGGCGAGAAGCTGCACGAGACCTTGTTCTATTCCGACGAGAACTACCGGCCGACCGCGCATCCGAAAATCCTCGAAGCCGACGTGCGCGTGTTCGCACAGGAGATCGTCCTGCAGCACGTCGCCAGGTTGAGGGAGGCGGTGGAGCGGTTCGACCTGCCGGCGATGGAGGCGATCCTGTCCAGCCTGATGCCGGACTTCTCCGCGGCTCGACACAAAATAGACAAACGTTCTGATACGGTGGTTCCATTTTCCGCACGAGAGGTCAGAAGAATTTGA	MKSWRDTFAGAVPKMAVVVHDLVMVWLCWQLLHAGRYSMLREAPDLPLLDWRTAVVLLAQGLVFWQVGLYRGLWRFASVPDLWNIFKACFLGLVAIVLALAVDRFNGVPLSVLMVYPFALAALLGTPRLLYRAWKDYQVGHSSSAARRVLIIGAGRAAEALVRDLRRTGAFLPVGFLDDARHLHGAKIQGLNVLGPLEDTASIARETAAKLLVIAIPSLDAAGMQRVVAICESTGLPFRMVPKIEHVLEGRSLPGELREVSIDDLLNRKPVTPDWKSIRVWLNGKTVLVTGAGGSIGSEVCRQCARHGALRIVLVEIDELALLTIDSDLRRLFPDIDVVRVLGDCGDPAVMRHALQLAPPDAAFHAAAYKQVPLLEEHLREAVRNNVLATENVARSCQRAGVGTFVFISTDKAVEPANVLGATKRYAEMVCQSLDARDSMTRFVTVRFGNVLDSAGSVVPLFREQIRQGGPVTVTDPEVTRYFMTIPEACQLIVQAASSASHGAIYTLDMGEPVPIRILAEQMIRLAGKQPGKDIAIVYTGLRPGEKLHETLFYSDENYRPTAHPKILEADVRVFAQEIVLQHVARLREAVERFDLPAMEAILSSLMPDFSAARHKIDKRSDTVVPFSAREVRRI				NA	NA	NA	NA	NA
BMS020_06011	891	gtaB	COG1210	UTP--glucose-1-phosphate uridylyltransferase	ATGAGCACGCGCATCCGCAAGGCTGTCTTCCCGGTCGCCGGGCTGGGAACTCGCTTTCTCCCGGCCACCAAGACGGTGCCCAAGGAAATGTTGCCGATCATCGACAAGCCGCTGATCCAGTACGCGGTGGACGAGGCGATCCAGGCCGGTTGCGACACGCTGATCTTCGTCACCAACCGCTACAAGCACTCTGTCGCCGACTACTTCGACAAGGCTTATGAGCTGGAGCAGAAGCTCGAGCGTGCCGGCAAGAACGAGCAGTTGGAGCTGATCCGCCACGTGCTGCCCAAGGGCGTTCGCGCGATCTTCGTCACCCAGACCGAAGCGCTTGGCCTGGGCCACGCGGTGCTGTGCGCCAAGCCGGTGGTCGGCGACGAGCCGTTCGCGGTGCTGCTGCCGGACGACCTGATGTGGAACCGCGGCGATGGCGCCTTGAAGCAGATGGCCGATGTGGCCGAAGCAACTGGTGGCAGCGTGATCGCAGTGGAAGACGTCCCGCACGAGAAGACTGCCAGCTACGGCATCGTCGCCACCGACGCGTTCGATGGCCGCAAGGGCCGTATCACCCAGATCGTCGAGAAGCCCAAGCCGGAAGACGCGCCGAGCGACCTGGCCGTCGTCGGTCGCTATGTGTTGAGCGGCAAGATCTTCGAGCTGTTGGAGCAGACCACGCCCGGCGCGGGCGGCGAGATCCAGCTGACCGATGCGATCGCGACCCTGCTCAAGCAGGATCCGGTCTACGCCTACCGTTTCGAGGGGCGTCGCTTCGACTGCGGTGCGCATATCGGCCTGATCGAGGCGACCGTGCACTTCGCGCTGGAGCACGACAAGCATGGTGGTCCGTCGCGGGAAATCCTGCGCAAGGCGCTCGCGGAAGTCACCTCGGCCTGA	MSTRIRKAVFPVAGLGTRFLPATKTVPKEMLPIIDKPLIQYAVDEAIQAGCDTLIFVTNRYKHSVADYFDKAYELEQKLERAGKNEQLELIRHVLPKGVRAIFVTQTEALGLGHAVLCAKPVVGDEPFAVLLPDDLMWNRGDGALKQMADVAEATGGSVIAVEDVPHEKTASYGIVATDAFDGRKGRITQIVEKPKPEDAPSDLAVVGRYVLSGKIFELLEQTTPGAGGEIQLTDAIATLLKQDPVYAYRFEGRRFDCGAHIGLIEATVHFALEHDKHGGPSREILRKALAEVTSA	PGPT0014875_2882	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
BMS020_06012	1836	kefC_3	COG0475	Glutathione-regulated potassium-efflux system protein KefC	ATGAGTGCCTCTGCCGACACCAGCCAGCTGCTCAACGTCGTGGCATTGCTCGGTGCCGCCGTCGTCGCGATTCCCGTGTTCCGCCGGCTAGGTCTTGGATCGGTCTTGGGCTATCTTGCCGCCGGGCTGGCAATCGGCCCGTTCGGGCTGGGCTGGTTCCAGGAGCCGCAGGCGATCCTGCACGTCGCCGAACTCGGTGTCGTCATGTTCCTGTTCGTGATCGGCCTGGAGATGCGGCCGTCGCACCTGTGGAGCCTGCGCGGCGAGATCTTCGGCCTCGGAACGTTCCAGATCGTGGTCGCCGGACTGGTGCTGAGCGGAATCGGCATGCTGTTCGGCTGGTCATGGCAGGTTGCCTTCATCGGCGCCGCGGGCTTCGTGCTGACGTCCACTGCGGTGGTGATGCAGCTGCTCGCCGAACGTGGCGATGTCGCGTTGCCGGCCGGACAGAAGATCGTCTCGATCCTGTTGTTCGAAGATCTGCTCATCGTCCCGCTGCTGGCGCTGGTCGCGCTGATGGCGCCGGTGGCGCCCGATGCCGGCAGCGGGCATCGCTGGCAGGCGATCGCGTTGGGGGCGGGGTGTATCGTCGGCCTGCTCGCTGTCGGCCGCTGGCTGCTCAATCCGCTGTTCCGGCTGCTGGCACGGGCCGGTGCACGGGAAGTCATGACCGCGGCGGCATTGCTGGTCGTGCTCGGCGCCGCGCTGCTGATGCAACTGGGTGGGTTGTCGATGGCCATGGGAGCGTTCCTGGCCGGGGTGCTGCTGTCCGAGTCGACCTTCCGCCACCAGATCGAGGCCGACATCGAACCGTTCCGCGGGATCCTGCTCGGCCTGTTCTTCCTCGGCGTTGGCATGGCCCTGGACCTGGCGGTCGTCGCTGGCGATTGGCTGCCCATCCTGCTCGGCGTGCTCGCACTAATGCTAGGCAAGGCGGGGTGCATCTACGTGGTGGCCCGCCTGACCGGCAGCGGCCAGCGTGAAGCGCTGGACCGCGCGGTGCTGATGGCACAAGGCGGCGAATTCGCGTTCGTGCTGTTCGCAGCGGCCGTTGCCGCAGGTGTCATCGATGCGCGCACCGGCGCGCGCCTGACCGCGATGGTGGTGGTTTCGATGGCGCTGACGCCATTGTGCGTGCTGCTGTGCAAACGCCTGCTGCCGCCACCGCGGCTGTCGCTGGATGGCGTGGAAGCGGTGGCCGACCAGCAGGGCAGCGTGCTGGTTATCGGTTTCGGGCGATTCGGCCAGGTCGCCAGCCAGTCGCTACTGGCACGCGATGTCGATGTGACCATCATCGACACCGACATCGAGATGATCCAGAGTGCGGCCGGCTTCGGCTTCAAGATCTACTATGGCGATGGCACGCGGCTGGATGTGCTGCATGCGGCGGGGGCGGCGCATGCGCGGGCAATTGCCATCTGTACCGACCGACCTGAAGTCACCAGCCATATCGTCGAACTGGTCGCCGAGGCATTTCCGCAGGCCAAGCTGCTGGTGCGCTCCTACGACCGTGAGCACTCCCTGCACCTGATCCACGCCGGCGTGGACGTCCAGATCCGCGAGACCTTCGAATCGGCGCTCGCATTCGGGCGTGCGGCGCTGGTGGAACTGGGCGTGGACGATGATGAGGCGGACGAGATCGCACGCGCGGTCAGGCGCCGCGATGCCGAGCGTTTCGAGCTGGAACTGGCCGGCGGCGGACTGCAAGCCGGGGCGTCCATGGTGTTCGGCAACCAGCCTGGACCGAAGCCGACCCCGTTCACCACGCCCAGGCGCGCGAGCCGCAACCTCAATCCGGATGGGACCACCGCGGCGCCTGACGCCGAGCGCGGCTAG	MSASADTSQLLNVVALLGAAVVAIPVFRRLGLGSVLGYLAAGLAIGPFGLGWFQEPQAILHVAELGVVMFLFVIGLEMRPSHLWSLRGEIFGLGTFQIVVAGLVLSGIGMLFGWSWQVAFIGAAGFVLTSTAVVMQLLAERGDVALPAGQKIVSILLFEDLLIVPLLALVALMAPVAPDAGSGHRWQAIALGAGCIVGLLAVGRWLLNPLFRLLARAGAREVMTAAALLVVLGAALLMQLGGLSMAMGAFLAGVLLSESTFRHQIEADIEPFRGILLGLFFLGVGMALDLAVVAGDWLPILLGVLALMLGKAGCIYVVARLTGSGQREALDRAVLMAQGGEFAFVLFAAAVAAGVIDARTGARLTAMVVVSMALTPLCVLLCKRLLPPPRLSLDGVEAVADQQGSVLVIGFGRFGQVASQSLLARDVDVTIIDTDIEMIQSAAGFGFKIYYGDGTRLDVLHAAGAAHARAIAICTDRPEVTSHIVELVAEAFPQAKLLVRSYDREHSLHLIHAGVDVQIRETFESALAFGRAALVELGVDDDEADEIARAVRRRDAERFELELAGGGLQAGASMVFGNQPGPKPTPFTTPRRASRNLNPDGTTAAPDAERG	PGPT0013795_141	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013795-kefB-K11747	NA	NA
BMS020_06013	789		COG1073	putative protein	ATGCGGCTGATGCGGCTGGCGCGCGTGGCGTTGGTGCTGGTCACGGTGCTGGTCGCCGGCTACGGCGCGGTCTGTGCTCTGGTGTATGCTTGGCAGGACCGGCTGATCTACTTCCCGCAGGCCACGCGCATCGATCCAGCCGCCACCGACTGGGCAATGCAGCGCGAGGACGGCATCGTGCTGCGCGGCTGGCGCCTGCACCCGGGCGCGTCGAAGGTACTGCTGTACTTCGGCGGCAATGGCGAAGACCTGCGCGACTTCCGCGACCATGAGGCCAGCGCGCTGAGCGGCCATGAGGTCTACCTGCTGGCGTACCGCGGCTATGGCGCCAGCGATGGCACACCGAGCGAAGGTGCGCTCACCGGCGATGCCGTGGCGCTGTACGACCAGATCCGTCGGCAGCGGCCGGGCGTCGCCGTGGATGTGGTCGGCCGCAGTCTTGGCAGCGGTGTCGCGGCACAGCTGGCCTCGCGCCGCGAGGTGCGCAGGCTGGTGCTGGTCACGCCGTTCGACAGCCTGCTGGCCACCGCCCGCGCGCACTATCGCTGGCTGCCCGTCGGCTGGCTGCTGCGCGACCACTATCGTTCCGACCAGGCATTGGCGCGCTACAGCCAGCCGCTGCTGGTGTTGTCTGCGGGGCACGACCGCGTGGTGCCGCCGGCGAACACCGATGCCCTGCTCGCCGCCCTGCCCCATCCGCCACAGCGCGTCGTATTCGCCGATGCGGGGCACGACGACATCGCCGCGCGGCCGGGCTACCTGGAGGTGATCGAACGCTTCCTGGACTAG	MRLMRLARVALVLVTVLVAGYGAVCALVYAWQDRLIYFPQATRIDPAATDWAMQREDGIVLRGWRLHPGASKVLLYFGGNGEDLRDFRDHEASALSGHEVYLLAYRGYGASDGTPSEGALTGDAVALYDQIRRQRPGVAVDVVGRSLGSGVAAQLASRREVRRLVLVTPFDSLLATARAHYRWLPVGWLLRDHYRSDQALARYSQPLLVLSAGHDRVVPPANTDALLAALPHPPQRVVFADAGHDDIAARPGYLEVIERFLD				NA	NA	NA	NA	NA
BMS020_06014	297			hypothetical protein	ATGACCGACACCACCGCGATCGAGGCTGCCGCGTTCCGCCGGCTGCTGCAGCACCTCAACGTCGAGCGCCCCGACGTGCAGAACATCGACCTGATGATCCTGGCCGGCTTCTGCCGCAACTGCCTGGCCGATTGGTACCGCGAGGCCGCCGAAGCGGCTGGCACCCCGCTGGACAAGGCGCAGGCGCGCGCGGCGGTCTACGGCATGCCCTTCGACGAATGGAAGGCCCGTCACCAGCGCGAGGCCACGCCGGAGCAGCTGGCTGCCTTCGCCGCAGCGCAGGCGCGCCACGGCTGA	MTDTTAIEAAAFRRLLQHLNVERPDVQNIDLMILAGFCRNCLADWYREAAEAAGTPLDKAQARAAVYGMPFDEWKARHQREATPEQLAAFAAAQARHG	PGPT0008420_5	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008420-moaB-K03638	NA	NA
BMS020_06015	885	folD_2	COG0190	Bifunctional protein FolD protein	ATGACCGCCGACGCGCCCGCCGTACCGACCTCCGCCCGCATCCTCGACGGCAAGCGCATCGCCGAGGACCTGCTCGACGAGCTGAAGGTGCGGGTCGATGCGCGGCTGGCGGCGGGCAAGCCGCGTCCGGGCCTGGCGGTGGTGCTGGTCGGCGGCGACCCGGCGTCGTCGGTGTACGTGCGCAACAAGCGCCGCGCTGCGGAAAAGGTCGGCATCGAGGCATTCGACTACGACCTGCCCGAGGGTACCAGCGAAGCCGAGCTGGCCGCGCTGATCGACCAGCTCAACGCCGATCCGAAGATCCACGGCATCCTGATCCAGCTGCCGTTGCCGGGCATCCCCGATGCCAACCGGCTGATCCAGCGGATCGATCCGCGCAAGGATGTCGACGGCTTCCATCCGCAGAACGTCGGTCATCTGGCACTGCGCGAATTCGGCCTGCGCCCGTGCACGCCGCGCGGCATCGTGACCCTGCTCAGCCACACCGACCAGCCGGTGCGCGGCCGCAACGCCACCATCGTCGGGGTCAGCAACCACGTCGGCCGGCCGATGGGCCTCGAGTTGCTGATCGCCGGCTGCACCGTGACCAGCTGCCACAAGTTCACCCCCAAGGACGTGCTGGAGGCATCGGTGCGCAACGCCGACATCCTGGTGGTGGCGGTGGGGCGGCCGGGCATCGTGCCGGGCGAGTGGGTCAAGCCGGGCGCGGTGGTGATCGACGTCGGCATCAACCGGCTCGACGATGGTCGCCTGGTCGGCGACGTCGGTTTCGAGGCCGCGGCGCAGCGCGCCAGCTGGATCACCCCGGTGCCGGGTGGGGTGGGGCCGATGACCGTCGCCACGCTGATGCAGAACACCCTCGAGGCAGCCGAAGCCGCCAACTGA	MTADAPAVPTSARILDGKRIAEDLLDELKVRVDARLAAGKPRPGLAVVLVGGDPASSVYVRNKRRAAEKVGIEAFDYDLPEGTSEAELAALIDQLNADPKIHGILIQLPLPGIPDANRLIQRIDPRKDVDGFHPQNVGHLALREFGLRPCTPRGIVTLLSHTDQPVRGRNATIVGVSNHVGRPMGLELLIAGCTVTSCHKFTPKDVLEASVRNADILVVAVGRPGIVPGEWVKPGAVVIDVGINRLDDGRLVGDVGFEAAAQRASWITPVPGGVGPMTVATLMQNTLEAAEAAN	PGPT0008075_344	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008075-folD-K01491	NA	NA
BMS020_06016	1458	guaB_2	COG0516	Inosine-5'-monophosphate dehydrogenase	ATGCTCCGCATCCAGGCTGAAGCTCTCACGTACGACGACGTTTCGCTCGTCCCCGCCCATTCGACCATCCTGCCGAAGGATGTCAGCCTGGAAACCCGGCTGACGCGCGACCTGCGCCTGAAGCTGCCGATCCTCTCGGCCGCGATGGACACGGTGACCGAAGCCCGCCTGGCCATCGCCATGGCCCAGCTCGGCGGCATGGGCATCATCCACAAGAACCTCGGCGTGGAGCAGCAGGCCGCCGAAGTGGCCAAGGTCAAGAAGTTCGAAGCCGGCGTGATCCGCGACCCGATCACGGTCGGGCCCGAGACCACCATCCGCGACGTGCTGGCGCTGACCCGCGCGCACAATATCTCTGGCGTGCCGGTGGTCGGCAGCGACGGCCAACTGGCCGGCATCGTCACCCATCGCGACATGCGCTTCGAGACCGAGCTGGACGATCCGGTCCGCCACATCATGACCAAGAAGGACCGCCTGGTCACGGTCAAGGAAGGCGCCGCCTCCGCTGAAGTGCTGCAGCTGCTGCACAAGAACCGCATCGAGAAGGTGCTGGTGGTCAACGACGCGTTCGAGCTGCGCGGCCTGATCACCGTCAAGGACATCCAGAAGAACACCGACTACCCGAACGCCGCCAAGGACGTCGCCACGCGCCTGCTGGTCGGCGCCGCGGTCGGCGTCGGTGGCGATACCGATCGCCGCGTCGAGGCGCTGGTCGCTGCCGGCGTGGACGTGATCGTGGTCGATACCGCGCACGGCCATTCGCAGGGCGTGCTCGACCGCGTCAGCTGGGTCAAGAAGAATTTCCCGCAGGTGCAGGTCATCGGCGGCAACATCTGCACCGGCGAAGCGGCGCTGGCGCTGCTCGACAGCGGCGCCGACGCAGTCAAGGTCGGCATCGGCCCGGGCTCGATCTGCACCACCCGCGTGGTCGCCGGTGTCGGCGTGCCGCAGGTCACCGCGATCGACCTGGTCGCCGAGGCGCTGCAGGACCGCATTCCGCTGATCGCCGATGGCGGCATCCGCTATTCGGGTGACATCGGCAAGGCGCTGGCCGCCGGTGCGTCGACCATCATGGTCGGCGGCCTGCTCGCCGGCACCGAGGAATCGCCGGGCGAGACCGAGCTGTTCCAGGGCCGTTCCTACAAGAGTTACCGCGGCATGGGTTCGCTGGCGGCGATGGAGAAGGGCTCCAAGGACCGCTACTTCCAGGATGCAGCGACCGCCGACAAGCTGGTGCCGGAAGGCATCGAGGGCCGGGTGCCGTACCGCGGCCCGGTCGGCGGCATCATCCACCAGCTGATGGGCGGCCTGCGCGCCACCATGGGCTACGTCGGCTGCGCCACCGTCGACGAAATGCGCAGCAAGCCGAAGTTCGTCAAGATCAGCGGCGCCGGCCAGCGCGAAAGCCACGTCCACGACGTGACGATCACCAAGGAACCACCGAACTACCGCGCTTGA	MLRIQAEALTYDDVSLVPAHSTILPKDVSLETRLTRDLRLKLPILSAAMDTVTEARLAIAMAQLGGMGIIHKNLGVEQQAAEVAKVKKFEAGVIRDPITVGPETTIRDVLALTRAHNISGVPVVGSDGQLAGIVTHRDMRFETELDDPVRHIMTKKDRLVTVKEGAASAEVLQLLHKNRIEKVLVVNDAFELRGLITVKDIQKNTDYPNAAKDVATRLLVGAAVGVGGDTDRRVEALVAAGVDVIVVDTAHGHSQGVLDRVSWVKKNFPQVQVIGGNICTGEAALALLDSGADAVKVGIGPGSICTTRVVAGVGVPQVTAIDLVAEALQDRIPLIADGGIRYSGDIGKALAAGASTIMVGGLLAGTEESPGETELFQGRSYKSYRGMGSLAAMEKGSKDRYFQDAATADKLVPEGIEGRVPYRGPVGGIIHQLMGGLRATMGYVGCATVDEMRSKPKFVKISGAGQRESHVHDVTITKEPPNYRA	PGPT0021445_4522	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088	NA	NA
BMS020_06017	1566	guaA_2	COG0518	GMP synthase [glutamine-hydrolyzing]	ATGACCAACATCCATAACGACAAGATCCTGATCCTCGATTTCGGCGCGCAGTACACCCAGCTGATCGCCCGTCGCATCCGCGAGCTCGGCGTCTACTGCGAAATCTGGGCCTGGGACCACAACCCGGCCGAGATCGCCGGCTTCGGCGCCAAGGGCATCATCCTGTCCGGCGGCCCGGAATCGACCACACTGCCGGGCGCGCCCGCCGCGCCGCAGGAAGTGTTCGACTCGGGTCTGCCGATCTTCGGCATCTGCTACGGCATGCAGACCCTGGCCGCGCAGCTCGGTGGCAGCACCGAGGCGGCCGACCAGCGCGAGTTCGGCCATGCCGAAGTCGACGTGGTCAACCCCGATGCGCTGTTCGCCGGCCTGTCCGACCATGGCGGCGCACCCAAGCTCAACGTCTGGATGAGCCATGGCGACCACGTCGCCACGGTGCCGCCGGGCTTCACCATCACCGCCACCACCGACCGCATCCCGGTCGCGGCGATGGCCAACGAGGCCAAGCGCTGGTACGGCGTGCAGTTCCACCCGGAAGTGACCCACACGCTGCAGGGCCAGACACTGCTGCGCCGGTTCGTCGTCGACATCTGCGGCTGCGCCACGCTGTGGACCGCGGCCAACATCATCGAGGACCAGATCGCCCGCGTGCGCGAGCAGGTCGGCGATGACGAGGTGATCCTGGGCCTGTCCGGTGGCGTCGATTCGTCGGTGGTCGCCGCGCTGCTGCACAAGGCGATCGGCGACAAGCTGACCTGCGTGTTCGTCGATACAGGCCTGCTGCGCTGGCAGGAAGGCGACCAGGTGATGGCGATGTTCGCCGAGCACATGGGCGTCAAGGTGATCCGTGTCAACGCGGCCGACCGCTACTTCGCCAAGCTTGAAGGCGTCAGCGACCCGGAAGCCAAGCGCAAGATCATCGGCAACCTGTTCGTGGAGATCTTCGACGAGGAGTCGAACAAACTGTCCAACGCCAAGTGGCTGGCGCAGGGCACCATCTACCCGGACGTGATCGAGTCGGCCGGCAGCAAGACCGGCAAGGCGCACGTGATCAAGAGCCACCACAACGTCGGCGGCCTGCCCGAGCACATGAAGCTGGGTCTGGTCGAGCCGTTGCGCGAACTGTTCAAGGACGAGGTGCGCCGCCTCGGCGTCGAGCTCGGCCTGCCGCGCAGCATGGTCTATCGCCACCCGTTCCCGGGTCCGGGCCTGGGCGTGCGCATCCTCGGCGAAGTGAAGCCCGAGTACGCCGAGCTGCTGGCCAAGGCCGATGCGATCTTCATCGACGAGCTGCGCAAGGCCGACCTGTACGACAAGACCAGCCAGGCGTTCGCGGTGTTCCTGCCGGTGAAGTCGGTCGGCGTGGTCGGCGACGCGCGCGCCTACGAGTGGGTGATCGCGCTGCGTGCGGTGGAGACCATCGATTTCATGACAGCGCACTGGGCGCACCTGCCATACGACTTCCTCGGCACGGTGTCCAACCGCATCATCAACGAGCTGCGCGGTGTGTCGCGCGTGGTCTACGACATCTCCGGCAAGCCGCCGGCGACGATCGAGTGGGAGTGA	MTNIHNDKILILDFGAQYTQLIARRIRELGVYCEIWAWDHNPAEIAGFGAKGIILSGGPESTTLPGAPAAPQEVFDSGLPIFGICYGMQTLAAQLGGSTEAADQREFGHAEVDVVNPDALFAGLSDHGGAPKLNVWMSHGDHVATVPPGFTITATTDRIPVAAMANEAKRWYGVQFHPEVTHTLQGQTLLRRFVVDICGCATLWTAANIIEDQIARVREQVGDDEVILGLSGGVDSSVVAALLHKAIGDKLTCVFVDTGLLRWQEGDQVMAMFAEHMGVKVIRVNAADRYFAKLEGVSDPEAKRKIIGNLFVEIFDEESNKLSNAKWLAQGTIYPDVIESAGSKTGKAHVIKSHHNVGGLPEHMKLGLVEPLRELFKDEVRRLGVELGLPRSMVYRHPFPGPGLGVRILGEVKPEYAELLAKADAIFIDELRKADLYDKTSQAFAVFLPVKSVGVVGDARAYEWVIALRAVETIDFMTAHWAHLPYDFLGTVSNRIINELRGVSRVVYDISGKPPATIEWE	PGPT0021580_2733	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
BMS020_06018	552			hypothetical protein	ATGCCTCCCGAGTTCAAACCATTGCTGGAGGTGTTGCGCGAGCTGCGGGCGCTCGCGCAACAGAAGTCCACCGGCTTCCTGTTCATCGTGACCGAGGAAAACCACTCGTGCATGCTGCGACTCAGCGGCGGCCGGGTGGAAGACGCCTCGTTCCGGATGCTGCGCAACGACGAGGCGATCCAGCGCCTGTCGATGGTCGCGGCCGCACGGGCGCGCTTCCAGGTCGACCCTGCCGCGGCCAGTGGTCCCGGCGGGCTGGGCGAGGATGCGCGTCACTGGCTGCTGACCGGCTTCGAGCAGGACCTGGCGGCACGCGCGGCGCCGGCGTCGGCCTCCGCGCCAGCTGCGACAGCGGGCATCGACGCCGCCGGACGTGCGGCGCTGGAGCAGGTCGCGCTGCTGCACTTCGGCCCGATCGGCCCGATGCTGTGCGACGAGGCCTTCGAGCAGTCGTCGGATCCTGTCCGGGTGATCGAGATCCTGTCGGGCAATCTCGCCACGCCGGCCGAGGCGCAACGGTTCCAGGCGGACGCGCGCAAGGCACTGGGCTGA	MPPEFKPLLEVLRELRALAQQKSTGFLFIVTEENHSCMLRLSGGRVEDASFRMLRNDEAIQRLSMVAAARARFQVDPAAASGPGGLGEDARHWLLTGFEQDLAARAAPASASAPAATAGIDAAGRAALEQVALLHFGPIGPMLCDEAFEQSSDPVRVIEILSGNLATPAEAQRFQADARKALG				NA	NA	NA	NA	NA
BMS020_06019	1131			hypothetical protein	ATGTTTCGACACTCGTTGCGGGTGCGCCTGCTGCTGCCCGTGCTCGCGCTGGTTCTTGTCGTCGTGGTCGCCTTGGCCGCCATCCTGGCCACCACCGAAGCCAAACGCGTCCGCGGCGACGCGGCTGCTTCGATCCAACGCCAGTCCACCGCACTCCAGAGTCTGTTCGCGGTCACCCGTTCGGTGATGCTCGACCGCGTCCGCGGCTCGATGCGCCTGTTCCGCCAGGAGAGCGCCGAACTGGGCCCGCCAAGCGTTGGACCGGAGGTGCTGGTCAACGGGCGCCCGGCCAACGACGTGCTGCTCGGTGGCCGCGCCCAGGCCAACAACTTCGCCCTGGTCGACCAGGTGACCGCGACGATGGATGGCACCGCGACGCTGTTCTCGCGTACCGGCCAGGACTTCGTCCGCATCTCGACCAACGTCAAGCGCGACGACGGCAACCGCGCGATCGGGACCGTGCTCGATCCCACCGGCGCGGTGATCGCCAAGATCAGCAACAGCGAGGCGTACTACGGCGTGGTCGACATCCTCGGCACGCCGTATGTCACCGGCTACGAGCCGATCTTCGCCGCCGGCACCGACCGTACGCCGATCGGCGTCTGGTATGTCGGCTACAAGACCGACCTGGACGCGCTCAACCAGGTGATCGGCGACAGCCACGTACTCGAGTCCGGCTTCATCGCGGTGTTCGACGGCAAGGACACGCTGCGTTTCCACTCGCACACCGGCGCCACCGCCGATCCGGCCGAGATCACCCGCATCGTCCACGAGGCGCCGCAGGACTGGGAGATCAGCCGCGAGGAAGTGCCTGGCTGGGGCTTCACCCTGGTCGCCGCCTATCCGCGCAGCGACGTCAACCGCATCATCGTGCGGCAGACGTTGTGGATCGCCGGCATCGGCCTGGCGGTGTGCGCGCTGCTGCTGGCGCTGCAGTCGGCGCTGATCTGGAACCGCGTGCTGCGGCCGATCCAGCACCTGACCGCGGTGGCCGAGGAGCTGAGCCTGGGCCGTTGGAACCATACGATCAGCGAGGTGTCGCTGAAGGACGAGATCGGCACGCTGGCGCGGGCCATCTCGCGCCTGTCCAACAGCGTGCGCCTGGCGATGGAGCGGCTCAGCAAACGCTGA	MFRHSLRVRLLLPVLALVLVVVVALAAILATTEAKRVRGDAAASIQRQSTALQSLFAVTRSVMLDRVRGSMRLFRQESAELGPPSVGPEVLVNGRPANDVLLGGRAQANNFALVDQVTATMDGTATLFSRTGQDFVRISTNVKRDDGNRAIGTVLDPTGAVIAKISNSEAYYGVVDILGTPYVTGYEPIFAAGTDRTPIGVWYVGYKTDLDALNQVIGDSHVLESGFIAVFDGKDTLRFHSHTGATADPAEITRIVHEAPQDWEISREEVPGWGFTLVAAYPRSDVNRIIVRQTLWIAGIGLAVCALLLALQSALIWNRVLRPIQHLTAVAEELSLGRWNHTISEVSLKDEIGTLARAISRLSNSVRLAMERLSKR	PGPT0015710_28532	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
BMS020_06020	714	yohK_3	COG1346	Inner membrane protein YohK	GTGGCCGTGACCACTGAGGTGATCCGCACGCTGGCCTGGCCGCTGTTCTGGGGCGCCGCCACGCTCGTTGCCTACTACGCGGCCAAGCGCCTGTACCTGCGGCATCGCCGGCCATGGACCTCGCCGCTGATCGTCGCCCCGCTTGCGCTGCTTGGCCTGGCGCTGCTGCTGCACGCCAGCTATCGCGACTACATCCGCGGCACGCACTGGCTGCTGGCAATGCTGGGGCCGGCCACGGTGGCGTTCGCAGTGCCGATCTACCAGCAGCGCCAGCTGATCCGGCGCCACTGGAAGACCCTCGGCGCCGGCGTGGCGGTCGGCAGCGCCACCGCGATCGCCAGCGCCTGGTTGCTGGCGACGCTGCTGCATCTATCGCCGGAGCTACGCTTGAGCCTGGCGCCACGCTCGATCACCACACCATTCGCGATGGAGGTGTCCGGCCAGGTCGGCGGCGTGCCGGAGCTGACCGCGGTGTTCGTGATCCTGACCGGCATCTGCGGCTCGCTGTTCGGCCAGGTGCTGTTGCGGCTGTTGCCGCTGCGCAGCGCGATGGCGCGCGGTGCGCTGTACGGCATGGGCGCACATGGCCTGGGCGTGGCCAAGGCCCGCGAGATCGGCCAGGAGGAAGGTGCGATCGCCGGGTTGGTGATGGTGATGGCCGGATTGCTGAACGTGGTCATCGGGCCGCTGTTGATCGGTCTGCTCGCGAGCTAA	MAVTTEVIRTLAWPLFWGAATLVAYYAAKRLYLRHRRPWTSPLIVAPLALLGLALLLHASYRDYIRGTHWLLAMLGPATVAFAVPIYQQRQLIRRHWKTLGAGVAVGSATAIASAWLLATLLHLSPELRLSLAPRSITTPFAMEVSGQVGGVPELTAVFVILTGICGSLFGQVLLRLLPLRSAMARGALYGMGAHGLGVAKAREIGQEEGAIAGLVMVMAGLLNVVIGPLLIGLLAS				NA	NA	NA	NA	NA
BMS020_06021	402	cidA_2		Holin-like protein CidA	ATGAGGCGCTTGTCCACCCCGCTCCGGCGGCGCCTGCGCGGCAGCCGCCTGGCCCAGGTCACCATCATCCTGCTGCTCTGGCTGGTTACCGAAGCGCTGGTGCAGCGCTGCCGGCTGCCACTTCCCGCCGGGATCCTCGGCATGCTGGTGCTGCTCGGCCTGCTCGCCACCCGCTGGGTCTCGCCGCGTACGTTCGGTCGCGGCGCCGAGTGGCTGCTGGCGGAGATGCTGTTGTTCTTCGTTCCGGCTGCGATGATCCTGCTCGACCACCGGCAGATGTTCGGCTGGCTCGGCCTGAAGCTGCTGCTGGTGGTGCTGGGTGGCACCGTGCTGGTGATGGCCAGCACCGCCTTGACCGTCGAGCTGCTGTACCGGCGCGCGGGGCGTGGCCGTGACCACTGA	MRRLSTPLRRRLRGSRLAQVTIILLLWLVTEALVQRCRLPLPAGILGMLVLLGLLATRWVSPRTFGRGAEWLLAEMLLFFVPAAMILLDHRQMFGWLGLKLLLVVLGGTVLVMASTALTVELLYRRAGRGRDH				NA	NA	NA	NA	NA
BMS020_06022	873	cynR_6		HTH-type transcriptional regulator CynR	ATGCTGGTCGAAGTGGTGCGCAAGGGCGGGTTCTCCGCCGCGGCCCAGTCGCTTTACGCCACCCAGCCGACGATCAGCAAAGCGGTCAGGCAGCTCGAGGACGAACTCGAACTGGTGCTGATCGATCGCTCGCGCCAGGGCGTGCGGCTCACGCCGGCCGGCGAGATCGTCTACCGGCGCGCCCTGGTGCTGCTCGGCGAGCGCGACAACCTGCTGGCGGAACTGGAAGAGCTGCGCGGTTTCAAGCGCGGCGAATTGAACATCGGTCTACCGCCGCTCGGCAGCGACGTGCTGTTCGCGCCGTTGTTCGCGATCTACCGCGAGCGCTACCCGCACATCGACCTGAAGGTGCTGGAGCAGGGCAGCCAGGCACTCGAGGACAGCCTGCGCGCCGGCGACGTGGAGCTGGCCGGCAGCCTGCTGCCGGTGTCGGACGACTTCGAATGGCAGTCGGTCCGGCGCGAGCCGCTGATGGTGCTGCTGCCGCGCCAGCATCCGCTGGCCACGCATGCCGCGCTGAAGCTGGACATGCTGGGCGAGGTGCCGTTCATCCTGTTCGACAAGGGATTCATGTTCAACCGCAAGATCATCGAGGCCTGCCAGCGCCATGGCTTCACGCCACGCGAGGTCGCGCGCAGCGGGCAAATCGACTTCATCGTCGCCCTGGTCGCAGCCGGCATGGGCCTGGCGATGCTGCCGCAGATGATCGCGCTGCGCCGTCCGCATGAGGACGTGGTGATGCTGCCGCTGGACGACGAGGACCTGGCCTGGCACATGGCGCTGGTATGGCGCCGCGGCGCATTCCTGTCGCACGCGGCACAGGCGTGGCTGCGGCTTGCAGCCGAGCAGGAAGAGACCCTGGCCGGCTCTTGA	MLVEVVRKGGFSAAAQSLYATQPTISKAVRQLEDELELVLIDRSRQGVRLTPAGEIVYRRALVLLGERDNLLAELEELRGFKRGELNIGLPPLGSDVLFAPLFAIYRERYPHIDLKVLEQGSQALEDSLRAGDVELAGSLLPVSDDFEWQSVRREPLMVLLPRQHPLATHAALKLDMLGEVPFILFDKGFMFNRKIIEACQRHGFTPREVARSGQIDFIVALVAAGMGLAMLPQMIALRRPHEDVVMLPLDDEDLAWHMALVWRRGAFLSHAAQAWLRLAAEQEETLAGS				NA	NA	NA	NA	NA
BMS020_06023	1272	mntH_3		Divalent metal cation transporter MntH	ATGCATGCCAGCGTCGCCGTGCCCGCCGGCGGGCGTTGGTGGGCACGCCTGCTGGCCTTCATCGGGCCGGGGTACATGGTGTCGGTCGGCTACATGGATCCGGGCAACTGGGCGACCGACCTCGCCGGCGGTTCGCGCTTCGGCTACCTGCTGCTGTCGGTGATCCTGCTCTCCAACGTGATGGCGATCGTGCTGCAGAGCCTGTCGGCGCGCCTGGGCATCGCCACCGGCCGCGACCTCGCCCAGGCCTGTCGCGACCACTATCCGCGCAGGGTCAACATCGGCCTGTGGCTGGCCTGCGAGGCGGCGATCATCGCCTGCGACCTGGCCGAAGTGATCGGTACCGCGATCGCGCTGAAGCTGTTGTTCGGCATCCCGTTGGTCGTCGGCGCGGTGATCACCGCCATCGACGTGGTGCTGGTGCTGTACCTGATGAATCGTGGCTTCCGTGCGCTGGAGGCGTTCGTGATGGCCCTGCTGCTGGTGATCTTCGCCTGCTTCGCGGTGCAGATCGCGATGGCCGCGCCGCCGGTGCATGCCGTGCTGGCCGGGTTCGTGCCGCGGGCGCAGATCGTTACCGACCCGCACGCGCTGTACATCGCGATCGGCATCATCGGTGCGACGGTGATGCCGCATAACCTCTACCTGCACTCCTCCATCGTGCAGACGCGCGCCTATCCGCGTACCGAGCCGGGGCGCCGCGGCGCCTTGCGCTGGGCCACGCTCGACAGCACCGTGGCGCTGACGCTGGCGTTGTTCATCAACGCGGCGATCCTGATCCTGGCCGCGGCGGTGTTCAACGCGCATGGGCGGGTCGATGTGCAGGAGATCGAGCAGGCCCACGAACTGCTGGCGCCGATGCTGGGCGTCGGCCTGGCCTCGACGCTGTTCGCGGTCGCGCTGCTGGCATCGGGCATCAATTCGACGGTCACCGCCACGCTGGCCGGGCAGATCGTCATGGAGGGTTTCCTGCGCTTGCACATTCCGCCGTGGGCGCGCCGCCTGCTCACGCGCGGGCTGGCGATCGTACCGGTGGTCATCGTCACCGCGTTGTACGGCGAACAGGGCACCGCGCGGCTGCTGGTGTTCAGCCAAGTGCTGCTGTCGATGCAGTTGCCGTTCGCGGTGATCCCGCTGGTGCGCTTCGTATCCGATCGCCGCCTGATGGGCGCGCTGGTTGCGCCACGCTGGCTGTCGCGCGGCGCCTGGGTGATCGCCGCGCTGATCCTGGTCCTCAACGGCAAGCTGCTGTACGACACGCTGCTGGGCTGA	MHASVAVPAGGRWWARLLAFIGPGYMVSVGYMDPGNWATDLAGGSRFGYLLLSVILLSNVMAIVLQSLSARLGIATGRDLAQACRDHYPRRVNIGLWLACEAAIIACDLAEVIGTAIALKLLFGIPLVVGAVITAIDVVLVLYLMNRGFRALEAFVMALLLVIFACFAVQIAMAAPPVHAVLAGFVPRAQIVTDPHALYIAIGIIGATVMPHNLYLHSSIVQTRAYPRTEPGRRGALRWATLDSTVALTLALFINAAILILAAAVFNAHGRVDVQEIEQAHELLAPMLGVGLASTLFAVALLASGINSTVTATLAGQIVMEGFLRLHIPPWARRLLTRGLAIVPVVIVTALYGEQGTARLLVFSQVLLSMQLPFAVIPLVRFVSDRRLMGALVAPRWLSRGAWVIAALILVLNGKLLYDTLLG	PGPT0004370_671	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT_TRANSPORT_SYSTEM,PGPT0004370-mntH-K03322	NA	NA
BMS020_06024	462	mntR_2	COG1321	Transcriptional regulator MntR	GTGGGCAGGACCGAGAAACTGGACGCGGAGATCCCCGTTCTGGTGGACGCCGATGTGCACGTGGAGAGCTTCCGGCAGGTCCGCGAAGCGCGGCGCGCCGAGCTGATCGAGGATTACGTGGAGCTGATCTCCGACCTGCTGGCCGATGCCGGCGAGGCCCGGCAGGTCGACATCGCCGCGCGCCTGGGCGTGGCGCAGCCGACCGTGGCCAAGATGCTCAAGCGCCTGGTGAAGGGCGGCTGGGTGATCCAGAAGCCGTACCGCGGCGTCTTCCTGACGGAAGCAGGGGAGGCACTGGCCCAGGCCAGCCGGGAGCGGCACCAGACCGTCGAACGCTTCCTGTTGGCACTGGGAATCGACGAAGCCACCGCGCGCCGCGACGCCGAGGGCATCGAGCATCATGTCAGCGAGGCTACCCTGGCCGCGTTCGAGGCTTTCCTGCGGCAGCGGGGCGAAGGGTGA	MGRTEKLDAEIPVLVDADVHVESFRQVREARRAELIEDYVELISDLLADAGEARQVDIAARLGVAQPTVAKMLKRLVKGGWVIQKPYRGVFLTEAGEALAQASRERHQTVERFLLALGIDEATARRDAEGIEHHVSEATLAAFEAFLRQRGEG	PGPT0003895_188	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
BMS020_06025	519	tadA_3	COG0590	tRNA-specific adenosine deaminase	GTGAACGCACCGTCGGATGCGCTGCAGGCGGCTTCGGCCTTCGACGCACGCGACAGCGCCTGGATGCGGCATGCGCTGGCGCTGGGGGAACGCGCATCGCGCGAGTACGACGAGATTCCGGTCGGCGCGGTGCTGGTCGGTGCCGACGACGTGCTGCTCGGCGAAGGCTGGAACTTCAACATCGCCCAGCACGACCCGTCGGCGCATGCCGAGATCGTCGCGATGCGCGAGGCGGGGCGCAGGCTGGGCAACCATCGGCTGGTCGGTTGCACGCTGTACGTGACCCTGGAACCGTGCGCGATGTGCGCGATGGCCATCGTGCATGCACGCATCGCCCGCGTGGTCTTCGCCGCCAGCGACCCCAAGACCGGGGCCTGCGGCAGCGTGTTCGACCTGCTTGCCGATCCACGCCACAACCATCGTGTCCAGGTCGAGGGCGGGCTGCTGGCGGCGGAGGCCGGCCGGCGCCTGACCAACTATTTCCGCGCCAAGCGTGGGCGCCCGCCGCTCGAGGACTGA	MNAPSDALQAASAFDARDSAWMRHALALGERASREYDEIPVGAVLVGADDVLLGEGWNFNIAQHDPSAHAEIVAMREAGRRLGNHRLVGCTLYVTLEPCAMCAMAIVHARIARVVFAASDPKTGACGSVFDLLADPRHNHRVQVEGGLLAAEAGRRLTNYFRAKRGRPPLED	PGPT0006855_61	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROPROPENE_DEGRADATION,PGPT0006855-dhaA-K01563	NA	NA
BMS020_06026	564	orn_2	COG1949	Oligoribonuclease	ATGACCGAAGCCGCCGCAGGCAATGACCGACTGATCTGGATCGACCTGGAGATGACCGGGCTGGACACGGACCGGGACTCCATCATCGAAATCGCCACGGTCGTGACTGACGCGCAGCTCAACGTGCTCGCCGAGGGACCGGAATTCGCCATCGCCCACCCGGTGGAAACGCTGGAAGCGATGGACGAATGGAACCGCAACCAGCACCGGCGTTCCGGTCTCTGGCAGCGGGTGCTGGAATCAGACGTGGACCACGCCCAGGCCGAAGCGCGCACCGTGGCGTTCCTGCAGGACTGGATCAAGGCCGGTGCATCGCCGATGTGTGGCAATTCGATCTGCCAGGATCGCCGCTTCCTGCACCGCCAGATGCCGCGCCTGGAGCGCTATTTCCACTACCGCAATCTGGACGTGTCCACGATCAAGGAACTGGCCCGGCGCTGGGCGCCTTCTGTGCTGGGCGGCGTGACCAAGACCTCCAGTCATACCGCACTGAGCGACGTGCACGATTCGATCGCCGAGCTGCGCCATTACCGCCAGTTCATGGGCGCGCTCGCTGGGCTCTGA	MTEAAAGNDRLIWIDLEMTGLDTDRDSIIEIATVVTDAQLNVLAEGPEFAIAHPVETLEAMDEWNRNQHRRSGLWQRVLESDVDHAQAEARTVAFLQDWIKAGASPMCGNSICQDRRFLHRQMPRLERYFHYRNLDVSTIKELARRWAPSVLGGVTKTSSHTALSDVHDSIAELRHYRQFMGALAGL				NA	NA	NA	NA	NA
BMS020_06027	600			hypothetical protein	ATGGGACATCGCAACGCGCCACGGACGCTGCCCACGCTGGTGGGGCGCGTGGGCACGGCTTACGCCCGACGGGCGTTGCCGCCGACTTGGATCATCGTGTCGGCCGCGATCGGCGCCTGGGGCTGCTGGCAGCTGATCGGGAACCCGTTGGCCGGCGCCGCCGCAGCGACCGCATTGTTCGGCGCCGCACTGCGCCTGGGTCCACGCGGGACGCCATGGTCGACGCCGCCAGGCTGGCGCAGCGTGACCATCCTGCTGGCATTCGCACTGGATGGAGCGAGTCTGCCGATCGACCACCAACTCGGCACCGCGGTCCTGGCCGCATTGGGCGGCACGGCGTTGCTGTGTTTGCTCGGTACGCTCCTGACGATCGCCAGGACGGCGTATCTGGTCGGTCGCCACGCACGGGCACTGGTGCATGCGGATCTATTGGAGCTGCTGCCACCGCAGGCCAGGCAGGATGCACGGCAATGGACGGCTGGAGACGACAGCAAGCTGGCCGAACTCAAGCTGGTGGTCGATCTGGCCGCCATGTGGTCGGGGATGCAGTGCCTGCAGGAGCCGGCAAGAGTTGGCAGGAAGTATCGGTTGGTGGCCTAG	MGHRNAPRTLPTLVGRVGTAYARRALPPTWIIVSAAIGAWGCWQLIGNPLAGAAAATALFGAALRLGPRGTPWSTPPGWRSVTILLAFALDGASLPIDHQLGTAVLAALGGTALLCLLGTLLTIARTAYLVGRHARALVHADLLELLPPQARQDARQWTAGDDSKLAELKLVVDLAAMWSGMQCLQEPARVGRKYRLVA				NA	NA	NA	NA	NA
BMS020_06028	258			hypothetical protein	GTGTTCCATGCCCCGCTGGTGACCCCAGAGCTGCTGCGCCAACTAATTCTGGGCGCACGCAAAAGCAAGCGCCTCACGCAGGTCCAACTGGCCCAGCTAGTGGGCCTGAGTCAGCCGCGGTTTTCCCACCTTGAGCTCCACCCGGAGCAGTTCCGCCTGGACCAGCTGATGCAGGTCTGCGCGGTCTTGGAGCTGGAGATTTCCGTAGGAGTGCGCGATACCTCCGCTCGTCCGGCAATGACCGGTGAGGTGTGGTGA	MFHAPLVTPELLRQLILGARKSKRLTQVQLAQLVGLSQPRFSHLELHPEQFRLDQLMQVCAVLELEISVGVRDTSARPAMTGEVW	PGPT0027485_518	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HipA-HipB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027485-REGULATION_hipB-K15773	NA	NA
BMS020_06029	456			hypothetical protein	ATGGTGACTTCACATTCTGAAAGCGTCCGTTCCATTCGGGAGGATTCAGCGCGGCAACGCGCTACGTTGGCAGCGCAGTGGCTGACCGCGGCGGAAGTATCCAGGGCGATCGATCCTGGACGTACGGGCGTGCCGTCAGTGGCGACGGAGCTCCGCCGGCAGTGGCGACTTCTCGCTGTATACACGGATCCACCCTCATCCCACTACCGCTACCCCACGTGGCAGTTCCGAGAGGATGGCCAGCCCATTAGCGAGTTGCACGACATCCTGACCGTCATGCGCGAAAAAGGGCCCTTTGAGTTGGATGCTCAGGGGCGTTCGGTCGGCTGGGGCGAGGCGGAATGGTTTAGGAGTTGCCACGTTTTACTCGATGGTGCGACCCCTGCGGAGATGCTCAGGATCGATCCCGGCGCGGTCTTGCGTGCGGCACTCATCGAATTTAACGAAGAGGAATAG	MVTSHSESVRSIREDSARQRATLAAQWLTAAEVSRAIDPGRTGVPSVATELRRQWRLLAVYTDPPSSHYRYPTWQFREDGQPISELHDILTVMREKGPFELDAQGRSVGWGEAEWFRSCHVLLDGATPAEMLRIDPGAVLRAALIEFNEEE				NA	NA	NA	NA	NA
BMS020_06030	213			hypothetical protein	ATGGTGGCGTTCTGCTCGCACCGCCTGTTTCTGGAGTGCCGCCAGCTGCTGCTGCATCTCTCTGGACTCCTGGCGGACTCGGTCGACCTCGGCATGCGCACGGTCTTCCGTTGCACGAACATGCTGGATCAACGTGTCACGCTCAGCTTGCGCGGCGTCCTGCGCCTGCCGCAGCTGCGTTTGAAGGGATTCACGAGCGCTTTCCGCCACTGA	MVAFCSHRLFLECRQLLLHLSGLLADSVDLGMRTVFRCTNMLDQRVTLSLRGVLRLPQLRLKGFTSAFRH				NA	NA	NA	NA	NA
BMS020_06031	390			hypothetical protein	TTGCTGGTCGAGTTCCCCCAATTGGTGCTGGAGTTGTGCGACGAGCCGCTCGAGTTCGCCGGCACGAGTGGTCGCGAGTCGTTCCGCCTGACGAGCCGCCTCGGCTACGCCTTCAAGCGTAGTCAGCTCGCTTTGCATGGCGTGCCGGTCGTGTCCCAGGGCATCACGTGCATCCAGCAGGGCGGCTCGCTCAGCGGCAAGGGCGTCATCGGCATGGCTGCGCGCGTGGTCCAGGGCCAGCGCCCACCACTGCCCTGCCAGGGCGCCGACGGCCTCAGGCACGTTGGCGGTGGCGATGCGGATCTGCCGATCGCCGGCGATGCGATCTCCCAAGCCTTGCCACCAGGTTTCCAGCCACCGCACTACTGTGTTCGGAGAGCCGGTACCTAG	MLVEFPQLVLELCDEPLEFAGTSGRESFRLTSRLGYAFKRSQLALHGVPVVSQGITCIQQGGSLSGKGVIGMAARVVQGQRPPLPCQGADGLRHVGGGDADLPIAGDAISQALPPGFQPPHYCVRRAGT				NA	NA	NA	NA	NA
BMS020_06032	1080			hypothetical protein	ATGAAGCGAAATAGCACATTGCCCATCCTGCCGGCGACGGCCACGCACCTGGTGTTGCCCGAGCAGTTGGCCCAGCAGGCCGCCGACGCGGTGCGTGAACTGCTCGCCGAAGCGGCCGCGGCCAACACTACCCGTAGCTATGCCACGGCCCTGCGCTACTGGGCCGGCTGGCACCAGGCCCGCTATGGCGTCGAGCTGGCCTTGCCGGCGAGCGAGGCTGTGGTGATCCAGTTCCTGGTCGACCACATCCAGCGCAAGAACAAGACTGGCCTGGTCAGCGAGCTGCCGCCGGCGATCGATCAGGCCCTAGTCGCTGCCGGCCTCAAGGCCAAGGTTGGGCCGCTGAAGCTGTCGACCGTGGTCCAGCGCGTGGCCGTGCTGTCCACCGCGCACAAGCTCAAGCGCCTGGCCAACCCCTGCGAGCTGCCCAGTGTCCGTACGCTCCTGAGCCGGGCCCGGCGCGCGGCGGTAAAGCGTGGCGAGCGGCCAACCAAGAAAACCGCGATCACCCGGGCCGAACTCGAGGCCATGCTGGCGACTTGCGATGACAGCCTGGAGGGCCGGCGCGACCGTGCCCTGCTCTGCTTTGGGTTTGCCAGCGGCGGGCGCCGCCGCAGCGAGATCGCCGCCGCCGATCTGCGCGACCTGCGCAGGGTCGGCGATGACGGCTACATCTATCGGTTGGAGTATTCCAAGACTCAACAGGCGGGCGTCACGGCGGATTCCACGCCGGACAAGCCGATCCTGGGGCGCAGCGCCGAGGCATTGGCGGCCTGGCTCGAAGCCGCTGGAATAGACGAAGGGGCGATCTTCCGGCGGATCTGGAAGGGGCGGGTTGGCCCTGCCCTACTCCCGGGCTCCGTGGCCGCGATCGTGAAGCGCCGGGCCCGGTTGGCAGGGTTGGATGGCGACTTCGGGGCGCACAGCTTGCGGTCGGGGTTTGTTACCGAAGCCGGTAAGCAAGGCGTGCCGCTGCCCGCAGTCATGGCGATGACTGAGCATCGCTCGGTGGCGAGTGTGATCGGGTACTTTCAAGCAGGTGCGGCAGAGGACAATCCGGCGGCACGACTGCTCAAATAG	MKRNSTLPILPATATHLVLPEQLAQQAADAVRELLAEAAAANTTRSYATALRYWAGWHQARYGVELALPASEAVVIQFLVDHIQRKNKTGLVSELPPAIDQALVAAGLKAKVGPLKLSTVVQRVAVLSTAHKLKRLANPCELPSVRTLLSRARRAAVKRGERPTKKTAITRAELEAMLATCDDSLEGRRDRALLCFGFASGGRRRSEIAAADLRDLRRVGDDGYIYRLEYSKTQQAGVTADSTPDKPILGRSAEALAAWLEAAGIDEGAIFRRIWKGRVGPALLPGSVAAIVKRRARLAGLDGDFGAHSLRSGFVTEAGKQGVPLPAVMAMTEHRSVASVIGYFQAGAAEDNPAARLLK				NA	NA	NA	NA	NA
BMS020_06033	1788			hypothetical protein	ATGAAACCCTCGCCTATGTCGTTCGACTACGTTGCGGCCTTTCCGCTGCCTGCCGATCTTATTCCCGAGCGGCTGCGGAACCTGCTGACGCCCGTTGGCCTCAACCCGCGGGAGGCAGTCGAGGTCGCCTGTCTGTACGAGGCACCGGACCGCGATATCAACGAGGAAGCCCTCCATCTCCAGATGGCCGTGGTGCAGGATGGCAGCGACGCGCCACTGGATGTTCTCGATGAGGCCGGGCATGGCGTTGTCGCCTATTCCGTACCCGTCGATGGAAAGGGAAACGCTGCGGAATATCATCCTTCCCTATCGGGGCACGACTATATCGTCGCCTCATGGGGAAGCGGCTCCTTCTATACCTATAATCTGGCCGAAAAGGTCTGGATGACCTTGGGGCTGACCCCGCGTTGCATCGGCAACGACCACCAGAAGCTCATTTATGACGATCTTGGCCTGCCGGAGTTCGGCGTGGCGCAGGGCGAGATTTCCAACGAGTACTACTGGAGGTCGACTCGCAATATCGGCTGGTCGATGTCCAATGAATACCTGAGGAAGTATCTATGGTTGCGATCGGCGCGCGGAGTCAGAGCGATCTACTACAAGAAGAAGCTTCCCGACCGTCCCGAGATCCGCAAGCTGATGGGCGCCCAAGGACATATCGATCTGAAGCCCGAGACAGGACCCGCCTGGTACACCCTCGATATTCGCGAGTACAAAAAAGGATTTTTGCTCCAAGTATGGGCCTCGGTGGAAGCCGTATCGTGCGAACTCTGCCCCGAGCAAAGCGTCGATGGCATCGTCTGGCCGGGGGATACGGAACCGATGACTTACGAGCGCGCCAACGCTCTGTTGTCCGGGAAGCAGGTTTTCCTGGACGACCGGTTCCTTGAACGATACGAGCAAAGCGCCTTCTACGACACAACGCCTGTCCGGATCGACGGAATATGGCATTGCAGCCCTTCCTATAAGGGTCAATGGGGATTTACGGACTGTATCCGAGTTGGACGCAACCTGGTCAGGGTCTCAATGCGCGAGCTGTACAAGCCGAAACCCGACCGCGAGATCCTTCATGCATACGAGCATGCACTCAGGCGCGACGAGATCGCGCATATGGACATGGATGCCGAACACATCGTTGCGAAGACGCAACGTCTGCTCGACCAGATTATTATTCTCGGCGACAACCTTTCGCATCTTGGTGCCAGCACTGGGCTACAGAAGACCGCAGAGGAGCTGACTGGATTCTCCCGCAGGGAACTGCGCGATAACGGCTGGATGGCGTACCAGAACCTGTGCAAGCTGGCACAGGTCGCGCCGCTGGACATGACCCAGCAGGCATTTCTTTCGAGGTGCAAGCAACTCCATGAGATCCTGCAGAAGATTCCCAATGGCTATTTGAAGTCGTTGCTGGAGAAGGTCGGTTGCCCCCGGAGCAAGGTCAACGACCTAGGGCTGTTGAAACTGCTGGAGGCACTGTTGAATGTCCTGCAACGACTGAACGACGACGAAGAGTCCCTGGACGCCTTCGGATCGCAACCAGAGCCGGAAGGATGGAATGCCAGGAACCCGCTCATAGCGCCCCTGTTCTTGAACAATGACCTTCGCATCGCGGACGCTCACGAGGCGGTCGGGAAATGCATTCAGACGCTCCAGGACATGGGCTTTGATACCGGCCATTTGAGTGACGGCTATGGGTTGGCCCTGGACTTCGTGATGGATGGCGTCATCCGCGCCCTTGAATCCATCAATTCTGCCATGGGGCAGTTGCTGGAGCGCCAACGCCGGTGA	MKPSPMSFDYVAAFPLPADLIPERLRNLLTPVGLNPREAVEVACLYEAPDRDINEEALHLQMAVVQDGSDAPLDVLDEAGHGVVAYSVPVDGKGNAAEYHPSLSGHDYIVASWGSGSFYTYNLAEKVWMTLGLTPRCIGNDHQKLIYDDLGLPEFGVAQGEISNEYYWRSTRNIGWSMSNEYLRKYLWLRSARGVRAIYYKKKLPDRPEIRKLMGAQGHIDLKPETGPAWYTLDIREYKKGFLLQVWASVEAVSCELCPEQSVDGIVWPGDTEPMTYERANALLSGKQVFLDDRFLERYEQSAFYDTTPVRIDGIWHCSPSYKGQWGFTDCIRVGRNLVRVSMRELYKPKPDREILHAYEHALRRDEIAHMDMDAEHIVAKTQRLLDQIIILGDNLSHLGASTGLQKTAEELTGFSRRELRDNGWMAYQNLCKLAQVAPLDMTQQAFLSRCKQLHEILQKIPNGYLKSLLEKVGCPRSKVNDLGLLKLLEALLNVLQRLNDDEESLDAFGSQPEPEGWNARNPLIAPLFLNNDLRIADAHEAVGKCIQTLQDMGFDTGHLSDGYGLALDFVMDGVIRALESINSAMGQLLERQRR				NA	NA	NA	NA	NA
BMS020_06034	246			hypothetical protein	ATGCAGTTGGACCGGGATGACCCGAGTTTCCGGGCCGCCACTCAGCGCTGCGCTGCCCTCTACCGCAACCGAGGAGAGACATCCAAGAACCGTCTTGCTGCAGTGGGCGGCGTCATCTACCAGGTGAGGTGCAATCTCATTCATGGTGACAAGGATCCGGATGACGCGCGAGACCGGATGCTGGTCAGCGAGAGCGTGGCAGTGCTGCGCTCGCTTATGCCCGCCCTGGAAGGGCAGCTCGCATGA	MQLDRDDPSFRAATQRCAALYRNRGETSKNRLAAVGGVIYQVRCNLIHGDKDPDDARDRMLVSESVAVLRSLMPALEGQLA				NA	NA	NA	NA	NA
BMS020_06035	1494			hypothetical protein	TTGGATAGTACGAAAATCATCAAATCAAGTGGGGTCACCGAGACCGAACGCCTCCTCGCGGAATTCTGCGATCGTACGTTCCTGAGGTTGTGGGCCTATGCCAATCCCTACAAGGATGACGGCGACGAGCTCTGCGATCTCTTGGCCGTTTTTGGCGACCAGGTCTTTGTCTTCTTCGATCGCGAGAACAGGCTGCCTGAGACATCCGACAAAGATCCCGAAGTACTTTGGGGGCGCTGGAAGCGCAACGTGATTGATCGCCAAGTGAAGACGGCGCATGGCGCCGAGCGGTACATCCGCAGTGGACGAGCGATCTTCCTGGATAGCAAGAAGACGATCCCATTTCCGCTTGCCATCGACCCGGCGAATGCGGTGATTCACAAGATCATTGTGGCGCATGGTGCGAAGGAGGCCTGCAAGAACGCATCGGAGCGGAATGTCTACGGAAGCCTGGCGATCACGTACGGCGAACTGGATTCGCACGCCGACTCCGAGCATCCCTTCCATATCCAGATCGACAAGAGCAATCCTGTCCATGTGCTCGACAGCCACAACCTGTCGATCGTGCTGTCCGAACTCGATACGGTAACGGACTTTTCGGCGTATCTAGAAGAGAAACGTAGAGCAATCGCCAAGCTCGACTATTTGAGCTACTGCGGTGAGGAGGATTTGCTCGGACACTATCTCCTCAACTACAACAAAAAGGAAAAAAGGCACGCAATTGGCCTGAAAGGGGGAGGTGGCGGCTTCAACGGGGTGATGATCGGAGAAGGCGAATGGCACGACTTCATCCATACCGATCTCTACAAGAACACCAAGAGCGAGGACCGGATTTCCTACTTCTGGGACGACCTCATTCAGCGAACCTGCCAGAACACGTTAGATGGCACGGTCGGTGGCAACGCGGACTTGCTCCGCGGCAAGAGCGCGATCTACGAGATGGTGAAGGAACCGCGCTTCGTGCGCCGTGGTCTGGCGGACAAGATGCTGACAGCAGTCGAACGCTTTCCCGATGATGCAGGCCAGTTCGCCCGACAGGTTACGTACGTTCCGTCATCCCAGCCCAACGTGGGGTATGTCCTGTTGCAGCTCCATGCGCCGGACCAATTCAAGGCTCAGGCCGACTACCGCGAGAAGCGGCAGGCATTGCTTGAAATCGCGTGCGGAGCGGCGAAGAACAAGTTCCCGGACCTTATGAAGGTCGTCGGTATCGCTATAGATGCCCCGAAGCACTCGAACGGTATGGATGGAGAGGACTTCATCCTGATGGAATGTGGCACTTGGACCGAGCAGCTGCGCTCGCACTACGAGGAACTGAATGGACCCTGGCAGTTCTTTGGTACTGAACAGATGCAGCAGTTCAACATGCATCTGACGCAGTTCGTTCCGCCTGAAGATGCGGCGCTGGCCGGCAAGCGGGCGACGAAAATCGGCCGCAACGATCCTTGCCCATGCGGCTCGGGAAAGAAGTACAAGAAATGCCACGGCGCATGA	MDSTKIIKSSGVTETERLLAEFCDRTFLRLWAYANPYKDDGDELCDLLAVFGDQVFVFFDRENRLPETSDKDPEVLWGRWKRNVIDRQVKTAHGAERYIRSGRAIFLDSKKTIPFPLAIDPANAVIHKIIVAHGAKEACKNASERNVYGSLAITYGELDSHADSEHPFHIQIDKSNPVHVLDSHNLSIVLSELDTVTDFSAYLEEKRRAIAKLDYLSYCGEEDLLGHYLLNYNKKEKRHAIGLKGGGGGFNGVMIGEGEWHDFIHTDLYKNTKSEDRISYFWDDLIQRTCQNTLDGTVGGNADLLRGKSAIYEMVKEPRFVRRGLADKMLTAVERFPDDAGQFARQVTYVPSSQPNVGYVLLQLHAPDQFKAQADYREKRQALLEIACGAAKNKFPDLMKVVGIAIDAPKHSNGMDGEDFILMECGTWTEQLRSHYEELNGPWQFFGTEQMQQFNMHLTQFVPPEDAALAGKRATKIGRNDPCPCGSGKKYKKCHGA				NA	NA	NA	NA	NA
BMS020_06036	2295			hypothetical protein	ATGCCGATGCCGAGGCTGTTCCGGGATGACCTGACCGATGACGAGCGCCGTGACGCCATCACAGCGATGGCAAAGTCTTTCAGCGATTCCAGGGACGAGGCATTCGCTACGATCAGTCGATTCGTGTCAACGTTCGCCCCCCTCCATGCGCTGTCGGTGCTGGCTGCCTACGGGCTGTCGATCGACGTCACCAAGGATGGTGTACGGGCTAGCGAGGCTAAGAGCGACAAGATACATCAGGATCATGTGGAACTGCTGCAAGCATTTGTCTTGCAGACGACTGCTGGCGATTGGTCCTCACAACCGCCACGGCCACCCGACACCCAGGAGCTGTGGGACGCGCTGATCGAATTCGGCCACGGTTTTGATCTTTCCAGAATGCGCCCGCTCGACATGGAGAACGAATCCGACGCGCTCGCCATGCTGCAGGAGAAGATCCGCGGCAATACCCGCGCGGTCCGCAACTGGGGGTACTACCATCAGGTCAAGGACATCGGCCATCGGCTCCTGGCTCCCCTCGACGAGAAGCTGCGATCGGTCCTTGGATTCGCTGGCACGGAACTGATCGCTGTCCTTGACAGCCTCGTTCGTGCGAACGAGGCGCGGATCAACGAGCACCGGAGGAAGTTCTTCGGTGCCATCGGCAAGCCGAGTGTTGCCGAAATTGTGAGCGCCTACGCCGAGGCCATGCCGGAAACCGACTGCAGCGGGCTTCTCGACTACTTCGCCCGGAACAATTTCAGCCTGCAGCAGGCCAAGGCGCTGCTCCTGGCGCATTCCGAGCTTGCGCTTGAGGATTGCTTCACCCATGAAGCCGGCGAGGTCTCCGCAAGATCCGGCGTGGCGGTGGATCGGGTCAAGGCCATCTTCCGGGCATTGGGATTGGTTCCCGGCGAGCTGAACGGTCGCTCCGCGGAACTGTTCTTGCTCGATAACCCGGTCTGGACGTCGCCCTGGATCGCCCTGTCGGAGGACACGATCTTCGCTTGCATCCCCCAGACCGCGTTCTCGTTCCTGTTCGAGATGGTCGAGCGGCTCGTCGCACCCAGCGAACCGCTCAAGATGGCCTGGCACGACCGGCGCGCCGCCTTCTTAGAGGCCGATGTTGCCGCCACCTTATCGAAGGCGCTGCCCGGCGCTGCCGTTTACAGGAATATCAGATGGCGGGTGTCCGGCACGGAGCGACAAGGCGAAACCGACACCTTGGCTGTCCTCGACAGCGTCGCAATCATCGTCGAAGCCAAATCCGGGTCGGTGTCCGCACACAGCAGACGCGGCGCACCGGACCGGCTCAAGTCGGAAATACGCGAGCTGCTGGAATCTCCTGCCCTGCAGTCCCAGCGCCTGCTCGCGGCAATGGAAGAACACCTGACCGGGAAATCCGAACTGATCCTTTCCGAGCAGGTCGACCTGTCGAAGATACGGTACATCATGCGAATGTCCGTCACACTGGAGGACTTCAGCACGATCCAGTCCGATATCGGCAAGCTGCAGGCGCTGGGGTTGGTCTCGAAGGACGTCGAGCCGGCGCCAACCTTGTGTTTGGCCGACCTCCATACACTTGTCGAGATTCTGGATGTGCCGGTGATGTTTCTGCACTACCTGCACAGGCGGATGCACCTGGAGGGCAAGTTCTCGCACGATTCAGACGAACTCGATCTGCTCGGCACGTACCTGATGAACGGACTGCTGTTCGGCAACAAGGAAACCGACGGGACCCGCATCACCTTCTACAGGATGTCCGAGAAGATCGACCGCTACATGATGTCGCTCAGCGAAGGAATCCGCACCGCAAAGCCCCGGCGCCTGCTGGACGGTCCATGGGCAGGAATTCTCGAACGCGTCCTCCACGTGCGCTCCCATCGATGGCCGGAAATCGCCATCATGCTGCTGGACGTCGACGATCGCGCACAGAAGACGCTGGCGCGCGACATCCGGGAACTCGTCAAGAGGTGTCGCTACCAGAAAACGACGCCTTACCAGACCATCCTCGTCCATCTTCCGGACGGCGTCGGCCGGAGCGCAATCACCGCGGTGGTCCTGCGCAAGGAGACCATCGCGCATCGGCAGGAGGCCGCCAGAGCGGCAGCGGAAAAGTCTTTCGAGGATCCGCGCCCGACGCGTTGCCTGGTACTGGTCTACGACGCGGATGCCCCCATGTTTCCCTACAATCACCTGATGCTGGCGGATCGCTTGCAGGCACGGACCGAAGACGAAGTTGGCAACGCACGACTTTGGCCACCGGGCGATACCGGCGACGGCCCGGCCGGTTCAGCTGAAGACGCACCAAAATGA	MPMPRLFRDDLTDDERRDAITAMAKSFSDSRDEAFATISRFVSTFAPLHALSVLAAYGLSIDVTKDGVRASEAKSDKIHQDHVELLQAFVLQTTAGDWSSQPPRPPDTQELWDALIEFGHGFDLSRMRPLDMENESDALAMLQEKIRGNTRAVRNWGYYHQVKDIGHRLLAPLDEKLRSVLGFAGTELIAVLDSLVRANEARINEHRRKFFGAIGKPSVAEIVSAYAEAMPETDCSGLLDYFARNNFSLQQAKALLLAHSELALEDCFTHEAGEVSARSGVAVDRVKAIFRALGLVPGELNGRSAELFLLDNPVWTSPWIALSEDTIFACIPQTAFSFLFEMVERLVAPSEPLKMAWHDRRAAFLEADVAATLSKALPGAAVYRNIRWRVSGTERQGETDTLAVLDSVAIIVEAKSGSVSAHSRRGAPDRLKSEIRELLESPALQSQRLLAAMEEHLTGKSELILSEQVDLSKIRYIMRMSVTLEDFSTIQSDIGKLQALGLVSKDVEPAPTLCLADLHTLVEILDVPVMFLHYLHRRMHLEGKFSHDSDELDLLGTYLMNGLLFGNKETDGTRITFYRMSEKIDRYMMSLSEGIRTAKPRRLLDGPWAGILERVLHVRSHRWPEIAIMLLDVDDRAQKTLARDIRELVKRCRYQKTTPYQTILVHLPDGVGRSAITAVVLRKETIAHRQEAARAAAEKSFEDPRPTRCLVLVYDADAPMFPYNHLMLADRLQARTEDEVGNARLWPPGDTGDGPAGSAEDAPK				NA	NA	NA	NA	NA
BMS020_06037	1044			hypothetical protein	ATGACGGTTCACTCGACGACCAAGATGCAGCAGGCGCATGCCGCCAATCACTACGTCCCCAAGCTCTACCTCAAGCAATGGTCTGCTTCGGGGATGATTCCGACGTACCGATTGCTGGTCCCGAACGAATCATGCCCTCTTTGGAAGCCGCACTCCCTGAAGGGCATTGCCTACCACCAGCATCTCTATACCTATGTCGCAGGCGGCGCGGCCACCGACGAGTTTGAGCGCTGGCTGGACAGCGAATTCGAGAGTCCGGCCGAAGAGGCCATCAACCGCGTCGTTCGCGAAGACAGGCTAACCTCCGAGCATTGGATGCGTCTGGCCCGCTTCGCCGTGGCGCAGGATGTACGCACACCTGCTCGATTCAGGGAGTTCCTTGCAAGGCAGTCGGAACTGATGCCTGATCTTCTGCAACGCACCGTTCAAGATGCCGCCAAACGACTGGAGCTAGACGAATCGCCGGTCGGGCTTCACGCCGCAGATCAGGATGCATCCAAGGCATTTCCGTTAAAGGTCTCGATCGACCGCGAACCTGATGGCAACGACACGCTGAAGGCCACGACGCTGGTAGGACGGAAAATGTGGATATGGAGCCTTCGCCATTTGCTCACGAGCACTATCGAGAAGTTTCCGCGTACCCGCTGGACAATCCTACACGCGCCATCGAACCTATCGTGGCCAACCACGGATAACCCGCTCGTCCGACTGAATTTCTTCGGCCCAGCCAACTACAATTTCGGCGGCGGATGGGGAGTTCAGAACGGTGACATCCTGCTACCCCTGAGCCCGAAGCATCTACTTCATACCTGCATTGGAAGGAAACCGCATCCACGGGGAACCACGCCGGACGCGAACACTGCACTGCTCATCCGTCGGATCATCGTCGAGCACGCTGATCGCTACGTGTTTGCCAAGGAGCCGGGGGACATCCATTCGATTCGCCCACGCATTGTTTCTCCCGAGGCGTGCAAGGCTGAGCGAGAAACATGGCAGCGTTGGCATGATGACCAAAGCCGCGCCGAAATCGAACTGTCTCGGTAG	MTVHSTTKMQQAHAANHYVPKLYLKQWSASGMIPTYRLLVPNESCPLWKPHSLKGIAYHQHLYTYVAGGAATDEFERWLDSEFESPAEEAINRVVREDRLTSEHWMRLARFAVAQDVRTPARFREFLARQSELMPDLLQRTVQDAAKRLELDESPVGLHAADQDASKAFPLKVSIDREPDGNDTLKATTLVGRKMWIWSLRHLLTSTIEKFPRTRWTILHAPSNLSWPTTDNPLVRLNFFGPANYNFGGGWGVQNGDILLPLSPKHLLHTCIGRKPHPRGTTPDANTALLIRRIIVEHADRYVFAKEPGDIHSIRPRIVSPEACKAERETWQRWHDDQSRAEIELSR				NA	NA	NA	NA	NA
BMS020_06038	954			hypothetical protein	GTGACTTCGGAACCCACCCTGCAGCTGTCGATGACCCTGAAGTTCAGGCATCCGGTCACGGTCTATTCGCTGGTACCTGGTGGCGTCTCGCCATTGGCCATGACCAGCGCGGTCATCCACCTGCTCGATCGGAACGTCGTCAGCTGGATCGGCCGGGAGCCTCGCGGCGTACCGGACAGCCCGCGCGACGCCGCCATGCGCTGGTGGCTGGAGTTCCTGGACACGCCGACTCAGTCGATCAACCCGGTGCTGTGCGCGTTCGAGGGCAACAAGAGCCGGATTCCGACGCTGGACGAGTTCAAGGACGAGTACCGGCGGTCCTGCGAGAAGATCGGCGCGTACTTCCGCAGCGCGAGGATCGTCCGGCACCGGGACGACGACTTCCTGCAGCTCTACCAGAATGTCGTCGACCTGCACGCGCGACATCGCGCGGAGGTGGACTTCCTGTGCGAGATCGCCCCCGAGATCGCCGAACGACGCCCGCGGCGCGAACTCGTCGCGATCCGGGACCGGATCCTCGACGCGGCGCAACGCAGGCGCCTGGGCGCCTCGCTTGTGCTCATTGCCACCCTGTCCTGCTTGTACGAGGGTGCGACCGAGGCAACCGCGTCGGCGGCCAGGGGCGTCATCAAGCCCAAACCGAGGTATGGCCCTAGGGCCGCGCACAATGCGGTGTCGGACGTGCGCGCCGTCGAGATGCTTGCCGCGGGCGCCCCGTTGGGGCCGGAAACGCTGGGACTGTGCACCGGGGACCGCCGGCTTGCGCGATTCTGGGATGCGCTGGGGATCACGTCCGCCACCTGGAGCGGCAACAACGCATGTACCGTCAGCCAGCGGATGTCTTCGCGGCTGTTCCCGATCCTGACCGATGTCCAATGCCGTGAACTGGCGGAGATACTCGTTGAGCGCGGGTTCGCCGATGCCGGCTCACGGCTGGGTTACTACCAGCGATAA	MTSEPTLQLSMTLKFRHPVTVYSLVPGGVSPLAMTSAVIHLLDRNVVSWIGREPRGVPDSPRDAAMRWWLEFLDTPTQSINPVLCAFEGNKSRIPTLDEFKDEYRRSCEKIGAYFRSARIVRHRDDDFLQLYQNVVDLHARHRAEVDFLCEIAPEIAERRPRRELVAIRDRILDAAQRRRLGASLVLIATLSCLYEGATEATASAARGVIKPKPRYGPRAAHNAVSDVRAVEMLAAGAPLGPETLGLCTGDRRLARFWDALGITSATWSGNNACTVSQRMSSRLFPILTDVQCRELAEILVERGFADAGSRLGYYQR				NA	NA	NA	NA	NA
BMS020_06039	8628			hypothetical protein	GTGGCCATGCCAACCATCGACCAGATCGTATCAAGGTATCTCTTCAATTCGGATTCACCTCCATCAAACTTGGCCAGCGAGGCGCTAATTCGCGAAGCAGAGGCGCAGGGTGACCCGGTAGATGTCGACGCTGACGAGTATATGGCAACCGGCGCGGGCCGATTCGCGGGTGTCGAGAGATTCAACTTTGTGCGGAACTTCCTTGCCGGAAACGACTACCAGAGCGACCTTGCCCCCGGGGTCTATACGACATCGGAGCTGCTTGCGGCCTATGGAATAACCGACAATCTCCTGGCGGTGCAGCAGTACTATCAGGGCGTGTACGACAGTGATTACGCAGAGCGGGCATATGTCTTCGGTTCTGGCAACTACAAGATAAATGATGATGCAGTCTTCTATGTCAATGAAAACGGCACTCGCGAGATTTCAAACATTTGCGTTGTCCCTGTCGATAACGATTTTGACTATGAAAGTACGAGCTGGTTGGCAACGATTTCGAACGAACTGACCGAAGGGCAGATCGATCCTTCGGGAATCGGTCGGACAGTGCCGATTCATTTCACTGGAACGGTCACCCAGAGGTTCAGCTTTAGTGCAGAGGACTGGTATGCGCTAGATCTGAAAAATAAACAGGCAGTGGCTGCGGAGGCGGCGGCAAAGGTCGCGATGATTGCCGACATCGGACATTTCGCAAGTCTGTATGTAGCATTGCACGCAGGCTTGGTTGCCAACGACATAATTACCTATGAGGATGCCGACAATCGCTATGTCATTTACGACGGGAGGGACGCCGACAATAGTAATGCTAACCTCGACGCTTTGGAGTTTTTTAGCCTGACAGAGCCACTGCCATACAGCGGTGTCGTGGTCATCGCCGGCAACGGGAATGACCATCTGTACGGCACTGGCTATACCGCAGGCGACAAGCTTTTCGGTGGTGCGGGAAAAGACACGCTGGATGGTCGGGGAGGCGATGACATCCTCGATGGCGGCCTCGGCGACGACATACTCTACGGCGGTGATGGAGAGGATATCTACGTCATCAGCGGAGGGGATGGGGCTGACAGCGGTATCGATACTATTTTTGATAGTGATGGCAACGGTTCGATCACCTTTGACGGCATGGTGGTATCGGTGGGCGGGCGCTTGACCGAGACTACTTGGTACGACACGACGAGCAAGCTGAAGATCACTTTTGTCGATGGTGGCGATGGTCGGGGGATGTTGGTGCTCGACGAGATCACTGGTCAACGGAGCATCCGCGTACAAGACTGGGCCCAGGGTGACTTGGGACTCACGCTGGGCGGACAGGTGCCCGTGCCCCCGGTCGTTGGCTCCTCACAGATGACCGGCGACGACGACCTATTCGGCTCTGGTGGCGATAACAGTGGTGACGACAACGTGAGCGCGCTGGCCGGAAATGACGGTCTGGAGGGCGGTGCGGGCGACGATCACCTGGATGGCGGGGCCGACAACGACCTCATCCTCGGAGGCACCGGCGATGATGTGCTGATCGGTGGTGAGGGTAACGATTACATCTACGACGGCTACGAGCAGGCAGACCTCGGCGAACTTGACACAACGCCGGACCCAGATACCGGCAAGAGCCAGTTGGATGAGTTCAATGACCTGATGGCGGAGCTGGGTGCGGCCGTGCACGACCACGGCAAGGGCTGGTACATCGCCGACGAGATCTTCGCCCGCGGATGGACCAATTTGGACCCGAACAGTGTGCCTGGCGGAGACGACGTGATCGATGCCGGCGGCGGCGACGACACCGTTGTAGCAGGTGACGGCGACGACAGCATACGCGGTGGCAGTGGCCAGGATCGCTTGTTGGGAGGCGCCGACGACGACGTCATCTTCGGTGAGGCCGATGACGACATCATCAGCGGCGACTACCCCGACACCACCGGTACCGGGGATGCGGTGGGTTGGCGATCTGCAGATTCGGCGAATCGGAACGGCCGCGACGTAATCGACGGGGGGGGCGGCAACGATAGCATCAGCGGCAATGGCGGAAATGATGTCCTCATGGGTGGAACCGGCAATGACTACGTCTGGGGGCGAGGACTTACCACCCCGGCTGACGCCGGCGATACCGATACCGACTATCTGGACGGCGGCGCCGGCAACGACCAGCTCCTCGGTGACGATGGCGACGATGTAATTTTTGGCGGCACTGGGGACGACAACATCTGGGGCGACAACAGCCAAGCGGGGACGCGGCACGGTAATGACAACATCGATGCTGGCGCAGGCAACGACTTCGCCAGCGGCGACGGCGGCGACGACATTATCAATGGTGGGGCTGGGGCGGACACGCTCACCGGCGACTCAGTGGACATTGATGGCGCTCTGCATGGCCGCGACGTCATCCATGGGGGCGCGGATAACGACATCATCGACGGGGACGGTGGCGATGACACGTTGTACGGTGACGACGGCGATGACCAGCTGATCGGCGATGTGGCGAACAACGAAACGTTGGCGGCTGCCTACCACGGCAACGACTACCTGGACGGTGGCGCGGGCAATGACCTGCTCATCGGCAACGGCGGCGACGATCAGCTCCTCGGTGGAGCCGGCGACGATGAACTTCAGGGAGGTGACGGCACCGATCGCCTGGATGGCGGAACTGGCAAGGACATCCTCTACGGAGAGGTCGGAAACGACGCGCTCAGAGGTGGCGCGGACGACGATAAGCTGTACGGCGGCGCCGGTGACGATCGTCTCGTTGGTGGCGATGGCCTGGATACGCTGTTAGGAGGTGACGACAACGACGTCCTATTCGGTGATGCAGGTAACGACATCCTCGATGGCGAGGCCGGAAACGACACGGTCTATGGCGGCGATGGTGACGACACCATCGATGGCGACGACGGCGACGACGTGGTCTACGGCGGCGTTGGAAATGACAGCATCTATGGTGGCACCGGCAAGGATGTCATCTACGGCGACGACGGGAACGACGTCGTCACTGCTGCCGAAGGTGACGATATGGTCTATGGCGGCGCCGGCAGCGACAACCTGTACGGCAGCGAAGGAAACGACACGCTCTACGGCGATGAGGGGGACGATTACCTCGTTGGCGGTGCGGGCAACGACACTTTGGTCGGTGGCGCCGGCCTGAACCGCTACTACTTCGACCGTCAGTTCGGCCAGGACGTCGTGCAACTGGCCGCAGGGAGCCAGGACCAGATCTACCTGCGCGACGGCATCGCGGTGGAAGAAGTGACCTTCGTACGCGACCAGGACGATCTGCTGCTGTCTCTGGCCGACGGCAGTAGCCTGCGTGTATCGGGTTACTTCACCCAGGAAACCGCCGCGTGGATCCAGTTGGCCAACGGCGCCCTGATCAGCCGCGCCATGGTCGATTCGGGTATCTACTACGGGGCCATCTCCGGTGGCAGCGCCGATGGCGAGAGCCTGCAGGGCACGGAAGGCGATGATCGCCTGTATGGCTTGGGCGGAGACGACGCCATCGACGGCCTGGGTGGCAATGATCTCATCGATGGCGGCGTCGGTAACGACACCTTGACCGATGGACAGGGCGATGACCAGGTATTCGGCGGGGGCGGTAACGACGTCATCAACTTGGTCTATAACGGCGGCGGCACTGGCGTGGATCGGGTCGATGGCGGCGCCGGCGACGACACCTACAACATCCAGTGGCGCTCCGGTTACGACGTCATCGAGAATCTCGATGCAGCGGACGCCGGATCAGACATCATCAATCTGGTCGGTATCACCCAAAACATGGTGAGAAACTATCAAATAGATGGCACCAACCTGACTATCTTCGTCGCCGCCCCCGGCGCCAGCGCGGACAATATGATCGTGCTGGAGGGCTTCCTGGCCAACAGCAACCACCGCGTACGCTTCGCCGAAGGCGTGGAGATCTCGGGACAGGACTTCCAGGCCGCGACGTGGGCCGGCACGGAGGGAGATGACAACTATAGCGGCACGATTGCGCCGGACACTATTTCTGGGCAAGGCGGAAACGACACCCTCTCCGGCGGCGACAACAACGACCAAGTCTACGGCGGCACCGGTGACGACGTCCTGTACGGTGGAAACGGCAACGATGCCCTATATGGCGAGGACGGCAATGACATCGTCTACGGTGGAGACGGCGATGACCGGATCTACATGGCCTATGTTTTTAACTATACGGATCGATATATCGGTGGGAGCGGAAATGACAGCTACTTCCTGAACTACACATACTTCTCGACAGCGAGCCCTTACACCGCGACCACCAACACTATCGAGGAAGAGGCGGATGGTGGTGTTGATACCCTCTACACCAACTTCTACCACGCCACGATCGGCGCCAACATCGAGAACCTGATCTACACCCCGGCCAACTTCTGGTGGTCCGATATTCCCGCCCAGCTGACTGGGAATTCACTAGACAACGTGCTCCAGGTCGTGGCGGGAAGCCCCATTCTGGATATGTCGGGCCTCAAGTTCCGTTTTGACGGCGGCGGCGGCAAGGACACCTACAATGGCTCGGCCGCCCAGGACACGTACGTCGTCGACAGTGCAGACGACACCATCATCGAGCAGCAGACCGGTTACGACTCGATCGATACTGTTGAGACCAGTCTGGACTACTCGATCGAGACACGCCTGGATCTGGAGAACATTCGCTTGACCGGCAGCGCAACGATGGCGACCGGCAACAGCGACGACAATGTCCTGGAAGGGCATCTGGTCAATGGCGTGACGCACCTGTCGGGTCTTGGCGGCAACGACACCTACCTCGTCACCGGGCAGGACGTTGTGATCGAGGCGGTGGACGGCGGAAACGACACGGTGGTCATCGCCGGATGGGATGAACTCACCACGATGAGCTCCTGGTTCTCGCTATCGAATTACGCCAATGTGGAGAACCTCACCCTGGCTGACGTCTACGAGTACGGCACCACGGGCGTCGGTCTTAGCGGCAAGCTGCAGGGAGATGATGGCGACAATGTCCTGAAGGGCAACAGGTTCGGCAACGAGATCCGGGGTGGAGGGGGGGATGATGTCATCTGGGGCTATTCGAAGAACCCGTACGACAGCAATGTCTCCAGCTCTTCACAGCGGGATGCTCTCTATGGAGACGCCGGAAATGACACGCTCACCTCCTCGATCTACGGGGCGGATCTGTATGGTGGCGCGGGTAATGACCTGCTGATCGGTGTTGGTGGCGCGTACGTATCCGGAAGTTACAGGAGCATATACGGCGTCGGCGATCGATTCTTCTATGACGCGGGTGGTGGCACTGACACCATTCGGTTCTGGAACAGTAGCGCCGATGACTTCGACCAAGTCATCTTCGGAGAAGGCATCGATCCGGATGATGTGAGTTGGAGTCAGGTGGGTACCAGCCTTGAAATTCAGGTAGGTAACGATGCAAGCAATCGGTTGATTGTTGAGGGCTACTGGAGTCTGGATGCTTCGGGCGCATATAGCGTTACGGGGCAGATCGACGAATTCGTCTTCGCCGATGGAACGGTCCGCCGCGGCGATATCGACCAGCTGCCGTACACCAACAATCCTCCGGTCGCCACCGGTTTCACCATCGGCGAGCCGGCGCGTACGGGCGAGTTCTTCGAACTTGTCCTGCCGCCCGGGACATTCGTTGACGAGCAGGAGGATGTACTGACCTACACGATGTCCGGCCCATCCTGGATGAGCATCGACTCGGCCACGGGCACGGTGAGTGGCACGCCCCCGCAGGATGCCGAGAATGCCTACATCGTGATCTCCGCCACCGATACGTTTGGTCAGAGCGCCACGATCTACCTCGACCTCCCGGTAGTCGCCGTGATCAAGGGCACCGAGGGGGCCGACGAGATGCAGGGCACTGAACGCAGCGAGGAACTGCGCGGCCTGGGGGGCAATGACCGGCTGGTGAGCAATGGCGGCAACGATGTGATGTATGGAGGGACAGGAGACGATACCTACGTCCTCAATGCCGATGCATACGTCACCGTGGTGGAACAGGCGGGCGAGGGCACGGATACGGTGGAATCGGCCGCGTATAGCTATGCCGTCGACCAGAACATTGAGCGTCTCGTACTCATGGAAGGAAGCCAAGCGCGGGAGGGCTATGGGACTGAGGGCTCGCAGGAGCTGGTCGGCAATTCCGCTGATAATTACCTCGATGGCGGTGCCGGTGCCGATCGGATGGTGGGCGGAGCCGGGGATGATGACTATGAGGTCGACGATTCGGGGGACGTAGTTGTGGAGCTGTCGGGCGAGGGCATCGACCAGGTCACCGCCTCGATTTCCTGGACTCTGGCGGACAACATCGAGACCGGCCGCCTGTCAGAAGATTCCGACTTGAACCTGACCGGAAATACCCTGGCGAACACGCTTTACGGCAACAGTGGGGCCAACGCGCTTGATGGCGGCCTGGGGGCGGACAACCTCTATGGATACGGCGGCGATGACACGTACTACGTCGACACCGAAGCGGATCGGGTCTACGAATCGGCGGGCCAGGGGACCGATACCATCGTGCGCGGCTTCAGCAGCCAGTACGTCCTGGCCGACAACGTCGAGAACCTGCGGCTGACCGGGAGTGCCGGTCAGGGGTTCGGCAACGCACTGGACAACCTGATAGAAGGAAGCGCGGCTGCCAACTCCCTGCTCGGCCTGGCCGGCAACGACGAGTTGCGTGGCATGGCCGGGAGCGACACCTTGTGGGGGGGCGACGGCAACGATCTGCTGCTGGGGGGAGAAGGTGACGACACCTATGTCGTCGATGCCACCACCGGCAGTGACGTGATCGACAACACCGGCGGCGGTACGGATACCCTTCTCATGAACGGGATTGCGCTTAGCCGGTTGAGCTTTGCGCGCGACGGAGACGATTTGCTGGTCACCATCGATGGCGCTGCCACGCCAGTGGCACGGATCGTTAATCACTTCCTGAGTGGGGATGCCGCGCTCGATTACGTACAGGGCAGTGACAACCGCTACACCGCCGCCCAGGTCGCCACACTCATCAGTGGCGGCAGCAATCCGGGCAGTGGCTTCGATCAGACCTTGACCGGTACCGCGGCCGGCGAGCAGTTGGTAGGCAGTTCAGGCAAGGATCTGATTAACGGCCTGGCAGGCGCCGACCAGTTGTTCGGCATGGGCGGTAACGACACCCTTCAGGGCGGCGACGGCGACGACTACCTGGCCGGCGGCAACGGGAGCGGCTCGGGTTCCGGAGACGATCAGCTGGAGGGCGGAGCGGGGAACGACACCTTGTTCGGTGAGGATGGATCCAACACCATGATCGGCAGCATCGGAAACGACAGCTACGTCTATGGAGGTGGCCAGGACACGATCGACAATACCGGCGGCGGCACCGACGGCGTGTTCTTCAACGACGGGATCACGGCCGGCGACCTGACGTTCTACCGCGATGGCGACGACCTTGTCATCACCGTGGCCGGAAACGCGAATGGCTTTGTACGTGTCACGGGCCATTTCCTAGGTGGCGACTTGGCAATCGACTTCGTCCAGCCGGCTAGTGGCACTCCGCTGAACACAGCGGCGATCAACGCACTGGCTCAGACGGGCTACCCAGGTGACGAAGAGCCGGGGAATGGTGATCCTGGCACCGGAACGGGTGATAACGAAGGAAACGACGCGGATTATCCCAATGTCGTCACGGGCACGGCGAACGATGAGCAACTGCTCGGCAGCTCAGGACGTGACCTTCTCCGCGGTTTAAGTGGGAACGACGATCTGTTCGGGTTCGGCGGTGACGACAAGCTAGACGGTGGCGATGGGGACGACTACATCTCCGGCGGCAGTGGCACCGGTACTGGAACTGGGAGCGACATCCTGATTGGCGGGGCCGGTAACGACACGCTGTACGGCGAGGATGGCGACGACATGCTGATCGGAGGATTGGGCGACGATCACTACTACTACGCCACCGGTAGCGGAGTCGACACGATCGATAACATAGGCGGTGGCACCGACTGGCTGTTCTTCCTCGACGTTGACAGTGATCGCCTGAGCTATTACCAGGACGGTGATGATCTTGTCGTGGCCGTCGATGGCGACCTGACACAGTCGGTGCGCGTACTGAACCATTTCCTTGGGGGCGAGTACGCGATTTCTTACGTCCAGCCCAGCACTGGCTATGCCGTTCCAGCGTCACAGATTCCGAACCTGCTGACGTCAATGCCGTCCAATGCGGCGGCGAGCCTCGCCAACGTGCAGAGCATGTCAGCGGTGGAAAGCGCGATGCTCGAGACCGTCGACTCGGCTTCACAGACTGCCAGGCTCGAGCAGGTCACCAGGATCGTCCCGTCAGGCATCACTGTGGGTGAAGATGCCACTGAATCTAGCAGCATCAGCGGTGGACATTACATTAGAAGCCGACCGCGCGTGGATCTCTGGGTGGATGGCGATATTTGGAGGCATCATGCTCGAGGTGAGCCCAGTTTGGAGGACCGTCGGCCGGCGCACTCAGGTCTCGGCGTCACATCCCGCACATCGGTTCGCTCCAGCGATCTCGATCAGCTGATCTCGGCAATGGCCGGATTCCACGGAATGGAGGCCGATGTCACCATCCTGGCTACACACGAACAGCGTTACGCTGCACAGCTGGCGGTGGCGGCGCTATGA	MAMPTIDQIVSRYLFNSDSPPSNLASEALIREAEAQGDPVDVDADEYMATGAGRFAGVERFNFVRNFLAGNDYQSDLAPGVYTTSELLAAYGITDNLLAVQQYYQGVYDSDYAERAYVFGSGNYKINDDAVFYVNENGTREISNICVVPVDNDFDYESTSWLATISNELTEGQIDPSGIGRTVPIHFTGTVTQRFSFSAEDWYALDLKNKQAVAAEAAAKVAMIADIGHFASLYVALHAGLVANDIITYEDADNRYVIYDGRDADNSNANLDALEFFSLTEPLPYSGVVVIAGNGNDHLYGTGYTAGDKLFGGAGKDTLDGRGGDDILDGGLGDDILYGGDGEDIYVISGGDGADSGIDTIFDSDGNGSITFDGMVVSVGGRLTETTWYDTTSKLKITFVDGGDGRGMLVLDEITGQRSIRVQDWAQGDLGLTLGGQVPVPPVVGSSQMTGDDDLFGSGGDNSGDDNVSALAGNDGLEGGAGDDHLDGGADNDLILGGTGDDVLIGGEGNDYIYDGYEQADLGELDTTPDPDTGKSQLDEFNDLMAELGAAVHDHGKGWYIADEIFARGWTNLDPNSVPGGDDVIDAGGGDDTVVAGDGDDSIRGGSGQDRLLGGADDDVIFGEADDDIISGDYPDTTGTGDAVGWRSADSANRNGRDVIDGGGGNDSISGNGGNDVLMGGTGNDYVWGRGLTTPADAGDTDTDYLDGGAGNDQLLGDDGDDVIFGGTGDDNIWGDNSQAGTRHGNDNIDAGAGNDFASGDGGDDIINGGAGADTLTGDSVDIDGALHGRDVIHGGADNDIIDGDGGDDTLYGDDGDDQLIGDVANNETLAAAYHGNDYLDGGAGNDLLIGNGGDDQLLGGAGDDELQGGDGTDRLDGGTGKDILYGEVGNDALRGGADDDKLYGGAGDDRLVGGDGLDTLLGGDDNDVLFGDAGNDILDGEAGNDTVYGGDGDDTIDGDDGDDVVYGGVGNDSIYGGTGKDVIYGDDGNDVVTAAEGDDMVYGGAGSDNLYGSEGNDTLYGDEGDDYLVGGAGNDTLVGGAGLNRYYFDRQFGQDVVQLAAGSQDQIYLRDGIAVEEVTFVRDQDDLLLSLADGSSLRVSGYFTQETAAWIQLANGALISRAMVDSGIYYGAISGGSADGESLQGTEGDDRLYGLGGDDAIDGLGGNDLIDGGVGNDTLTDGQGDDQVFGGGGNDVINLVYNGGGTGVDRVDGGAGDDTYNIQWRSGYDVIENLDAADAGSDIINLVGITQNMVRNYQIDGTNLTIFVAAPGASADNMIVLEGFLANSNHRVRFAEGVEISGQDFQAATWAGTEGDDNYSGTIAPDTISGQGGNDTLSGGDNNDQVYGGTGDDVLYGGNGNDALYGEDGNDIVYGGDGDDRIYMAYVFNYTDRYIGGSGNDSYFLNYTYFSTASPYTATTNTIEEEADGGVDTLYTNFYHATIGANIENLIYTPANFWWSDIPAQLTGNSLDNVLQVVAGSPILDMSGLKFRFDGGGGKDTYNGSAAQDTYVVDSADDTIIEQQTGYDSIDTVETSLDYSIETRLDLENIRLTGSATMATGNSDDNVLEGHLVNGVTHLSGLGGNDTYLVTGQDVVIEAVDGGNDTVVIAGWDELTTMSSWFSLSNYANVENLTLADVYEYGTTGVGLSGKLQGDDGDNVLKGNRFGNEIRGGGGDDVIWGYSKNPYDSNVSSSSQRDALYGDAGNDTLTSSIYGADLYGGAGNDLLIGVGGAYVSGSYRSIYGVGDRFFYDAGGGTDTIRFWNSSADDFDQVIFGEGIDPDDVSWSQVGTSLEIQVGNDASNRLIVEGYWSLDASGAYSVTGQIDEFVFADGTVRRGDIDQLPYTNNPPVATGFTIGEPARTGEFFELVLPPGTFVDEQEDVLTYTMSGPSWMSIDSATGTVSGTPPQDAENAYIVISATDTFGQSATIYLDLPVVAVIKGTEGADEMQGTERSEELRGLGGNDRLVSNGGNDVMYGGTGDDTYVLNADAYVTVVEQAGEGTDTVESAAYSYAVDQNIERLVLMEGSQAREGYGTEGSQELVGNSADNYLDGGAGADRMVGGAGDDDYEVDDSGDVVVELSGEGIDQVTASISWTLADNIETGRLSEDSDLNLTGNTLANTLYGNSGANALDGGLGADNLYGYGGDDTYYVDTEADRVYESAGQGTDTIVRGFSSQYVLADNVENLRLTGSAGQGFGNALDNLIEGSAAANSLLGLAGNDELRGMAGSDTLWGGDGNDLLLGGEGDDTYVVDATTGSDVIDNTGGGTDTLLMNGIALSRLSFARDGDDLLVTIDGAATPVARIVNHFLSGDAALDYVQGSDNRYTAAQVATLISGGSNPGSGFDQTLTGTAAGEQLVGSSGKDLINGLAGADQLFGMGGNDTLQGGDGDDYLAGGNGSGSGSGDDQLEGGAGNDTLFGEDGSNTMIGSIGNDSYVYGGGQDTIDNTGGGTDGVFFNDGITAGDLTFYRDGDDLVITVAGNANGFVRVTGHFLGGDLAIDFVQPASGTPLNTAAINALAQTGYPGDEEPGNGDPGTGTGDNEGNDADYPNVVTGTANDEQLLGSSGRDLLRGLSGNDDLFGFGGDDKLDGGDGDDYISGGSGTGTGTGSDILIGGAGNDTLYGEDGDDMLIGGLGDDHYYYATGSGVDTIDNIGGGTDWLFFLDVDSDRLSYYQDGDDLVVAVDGDLTQSVRVLNHFLGGEYAISYVQPSTGYAVPASQIPNLLTSMPSNAAASLANVQSMSAVESAMLETVDSASQTARLEQVTRIVPSGITVGEDATESSSISGGHYIRSRPRVDLWVDGDIWRHHARGEPSLEDRRPAHSGLGVTSRTSVRSSDLDQLISAMAGFHGMEADVTILATHEQRYAAQLAVAAL				NA	NA	NA	NA	NA
BMS020_06040	756			hypothetical protein	ATGGCAAAGGTGGTTTGGGCGGTCGGCATGACGGTCGCAGCTGCGGCTGTCGCGGCCGCAATTTCTTGGCGGCTTGATCAGGTGAAGGAGGGATTCTGCCCTAGTACAGGTGTTCAACTGAGCAATACAGAACTGCGGCTGAAGGTGATGTCCAGTCTGATAGACGTCGGGTTAGAAAACTTACGTCGCCAGGATGTCGACCATTACCGAGGCGGGTTGGGTCTCAAGGTGGCTGGTTCGATATCAGACCGTGAGATCGCGAAGGCTCTTCTTGATTTAAAGAATAGCGGCGCAGATTTTGCGGGTGAGTTCGGCGCGAGAAATGTCACATCAGGGCATGGCGGGGGCGCTGAGTTACCGAGGGAGCCTTTCGTTTTGCTGAACTACTCCACTTATGGCGCTTATACGGCAACCAGAACGGCATCGCGCGACATCGTCTCTGTGAGTTCCTCAACCCTTCCGGTCACAGTAGAGCCGCCCGGGCTTGGTAATCAGCTGAGAGGCTTCGGGGTGCATTACTACCGAATTCCAATTAAGCAATTCATCTATGACTGTTGCGCCTACAAGAATGGCCTCCCAATGCACAAGGGAGCGCCCGTGTCAATCCCGCATTTCCTTGAATCAGGCAACGACGGGAGCGTAATCATCAGTGGCCACGACGTGGGGGGAGTGGCTTATATATCCAATTGCGGTGAAATCCTTACGCGCAGGAACGCGCGTGGGTTCAATCAGATCGTATGGATCAAAGGAGAGTGA	MAKVVWAVGMTVAAAAVAAAISWRLDQVKEGFCPSTGVQLSNTELRLKVMSSLIDVGLENLRRQDVDHYRGGLGLKVAGSISDREIAKALLDLKNSGADFAGEFGARNVTSGHGGGAELPREPFVLLNYSTYGAYTATRTASRDIVSVSSSTLPVTVEPPGLGNQLRGFGVHYYRIPIKQFIYDCCAYKNGLPMHKGAPVSIPHFLESGNDGSVIISGHDVGGVAYISNCGEILTRRNARGFNQIVWIKGE				NA	NA	NA	NA	NA
BMS020_06041	612			hypothetical protein	GTGGTGCTTTGCTTCTTCGGAGATATTCCCGCGACTGAACTGCGCCGGCTGCTTGGGAGGGGGCGGGAGGCTGACCCACGGCTGGCGTCGGCTGGCGGTGTCTTTTTCGGGGTCAGTACGCTCCAGGGAGACGCGCATGCCCCGCCGCTGAAGGCGCTACTGGCGGTGGGGCAATTGTTTCTGGATCGCGACCGATCAGTCAGCCGCCTCTACGGCATCTCTGCCACCGATGGCGCGATGGACGCCTATCGTCCGGCCAGCTTCGTGGTGGGCCAGCGCTTGAGGGTGCTCGATGTGGTGCCGCTCGGCAATGCCGGTCACTCGCATGTCGAACGGCTGCTGCGGACGTTGGAAACATTGCCTGCGCAGGAACCGGTGCGGATGGCGGGCGTCCCGGCACCGGTGCTGGTGGTGCCGTGGGTATTCGAACCGCGCCTGTGTCGGGCGCTGATCGACTACTACGAGCGCGAAGGGGGCGAGCCGTCCGGGGTAATGCGCGACGTGGACGGCAGTACCGTACTGGTCCACGACGAACGGCATAAGCGCCGTCGCGACCGGGCAACCGAAGACGCGCAGCTGCGCAATGCCTGTATGAATCGCATCCATGAATGA	MVLCFFGDIPATELRRLLGRGREADPRLASAGGVFFGVSTLQGDAHAPPLKALLAVGQLFLDRDRSVSRLYGISATDGAMDAYRPASFVVGQRLRVLDVVPLGNAGHSHVERLLRTLETLPAQEPVRMAGVPAPVLVVPWVFEPRLCRALIDYYEREGGEPSGVMRDVDGSTVLVHDERHKRRRDRATEDAQLRNACMNRIHE				NA	NA	NA	NA	NA
BMS020_06042	1419	hlyD		Hemolysin secretion protein D, plasmid	ATGAAGCACCTTGTCGAAGCCATCAAGGAGTTTGGCGGGCGCTACCGGCAGGCCTTCACTGCGGCGTGGAAGATTCGCGACCAATTGGATCCGCCCCGGCGCACCGAAGATGAACTCGCGTTTCTGCCGGCGCAGTTGGAACTTGTCGAGTCACCGGCCTCGCCGGCGGCGCGCTGGACGATCCGCATCATCATTGCGCTGTTCTGCGTAGCGCTGCTCTGGGCCGTGCTCGGCAAGCTGGACATCGTGGCGGTGGCGCCGGGCAAAATGGTGGTTGATTCGCGTACCAAGGTGATCCAGCCGGCCGAAACCGCGGTCGTGCGCCGCATCCTGGTGCGTGACGGCCAACGTGTGAAGGCCGGCGAGCCGCTGGTCGAACTGGATGCCACGACCACGGGCGCCGAGCTCGCCCAGGCTGGCGAGGCGCTGACTGAGGCTCGGCTGGCTGCTCTACGCCTGGCCGCGCTGGCTGCGGCTATCGACAATGGCGCGGCGCCGTCGCTGGCGGCCGCGCCAGACGTGGCCGCCGGGCGCTTCGCGGCCGAGCAGGCCCTGGCCAGCAGCCAGTTCGAGGCCCTGCAGGCCAAACGCCACAACCTGCAGGCCACCATCGCCCAGCGCCGGGCCGAACTGCAGACCACCCGTGATGCGATCGCCCCGATGGCCGAGTCGGCGCGCATATCGAAGGTTCGGGCCGAGGACTATGCCAGCCTGCTCGAAGGGCGGTACGTCGGCCGCCACGAGTACCTGCTGCGCGAGCAAGAGCGCATCGCCGCTGAGCGTGACCTGGCGACGCAGCGTAACCGGATGCAGGAGATCACCTCCGCGCTCAGTGCCGCGCAGGAGGAGCTGCGGGTGCTGGTGGCCGATTTCCGCCAGCAAACCCTGGACCAGCTGCGCGAGGCCGAGCAACAGGTGGCGCAGGGCACGCCGGAGCTCGCTAAGGCCGGCCGGCGTGACCGGCTGATGACCCTGCGTGCACCTGTGGACGGCACGGTGCAGCAGCTGGCTGTGCACACGGTGGGCGGGGTGGTGACCCCGGCGCAGCAACTGCTGGCCGTGGTGCCGCAGGAGGCACTGGAGGTCGAGGCGACCGTGCTCAACAAGGACATCGGGTTCGTGCGGCCGGGCCAGCCGGTCACGGTGAAGATCGAGAGCTTCCCGTACACACGCTACGGCTACCTGACCGGGCAGGTAGTCAGCGTCTCGCACGATGCGGCGCAGGACGAGAACCTGGGCCTGGTGTTCCCGGCGCGGATCCGCTTGGACGGCAGCACGCTGACCATCGATGGCGTGGTGGTGAGCATGAGCGCCGGCATGACGTTGAGCGCGGAGATCAAGACAGGCAAGCGGCGGGTGATCGACTACCTGTTGAGCCCTCTGAAACAGCGTGGTAGCGAAGCATTGCGGGAGCGATGA	MKHLVEAIKEFGGRYRQAFTAAWKIRDQLDPPRRTEDELAFLPAQLELVESPASPAARWTIRIIIALFCVALLWAVLGKLDIVAVAPGKMVVDSRTKVIQPAETAVVRRILVRDGQRVKAGEPLVELDATTTGAELAQAGEALTEARLAALRLAALAAAIDNGAAPSLAAAPDVAAGRFAAEQALASSQFEALQAKRHNLQATIAQRRAELQTTRDAIAPMAESARISKVRAEDYASLLEGRYVGRHEYLLREQERIAAERDLATQRNRMQEITSALSAAQEELRVLVADFRQQTLDQLREAEQQVAQGTPELAKAGRRDRLMTLRAPVDGTVQQLAVHTVGGVVTPAQQLLAVVPQEALEVEATVLNKDIGFVRPGQPVTVKIESFPYTRYGYLTGQVVSVSHDAAQDENLGLVFPARIRLDGSTLTIDGVVVSMSAGMTLSAEIKTGKRRVIDYLLSPLKQRGSEALRER	PGPT0029365_472	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ALPHA-HEMOLYSIN|CYCLOLYSIN_TRANSPORT,PGPT0029365-hlyD|cyaD-K11003	NA	NA
BMS020_06043	2181	apxIB	COG2274	Toxin RTX-I translocation ATP-binding protein	ATGGCAGAGGGAAGGCCGAACCTTGCTGTAGTCGATGCGGCTCCTGAGGATGCGTGTGACCGCTCGGCTGGGTTTTTGGATCTGGGGTTGGCTGGCCTAGTGCTGCTCGCGCAGTTCCATGGCATTGCAGCTGATCCGGATCAGTTGGCGCATCAGTTCGGCTGCAACAGCGAGCCGTTCGACGACACAGCTCTCCTTTTGGCGGCAAAGCAACTTGGCCTGAAAGCTAAGATCGCTAGGATCTCTGCCGACCGCGTCGACAAAGCCGCGCTGCCGGCGCTGGCCTGGCAGCTGGATGGTGAGCACTTCATCGTCGCCAAGGCCAATGAACAACAAGTACTGATCCAAGACCTGCGCACGCGCCGTCCGAAGGTGCTCACCCGCGAGCAGTTCACCGAGCGCTATGACGGCCGGCTCTTGCTGGTTGCTTCCCGGTCTTCCGTGCTGGGGGAGCTGGCTAGGTTCGACTTCCGATGGTTCGTGCCGGCTGTGGTGAAGTATCGGCGGATCCTGCTGGAGGTCTTCGTCGTCTCGCTTTTCATCCAGCTGTTCGCGTTGATCACACCGCTTTTTTTCCAAGTGGTGATGGACAAGGTCCTGGTCCACCACGGCATGACCACCCTAGAGGTGATTGCGGTCGGCTTGCTCGCCATCGCCGTGTTCGACGTGACCCTCAGTGGCTTGCGCACCTACGTGTTCTCGCATACCACCAGCAAGATCGACGTGGAACTGGGCGCTCGGCTGTTCCGGCACATCCTGAATCTGCCGCTGGCCTACTTCGAATCGCGCAGGGTTGGCCAGACCATCGCCCGCGTGCGCGAACTGGAGAACATCCGCAGCTTCCTGACCGGGCAGGCGCTGACCTCGGTGCTGGATCTGCTGTTCACCGGGGTGTTCTTGGCAGTGATGTTCTACTACAGCGCCTGGCTTACGTTGATCGTGGTGCTGTCGCTGCCGGTCTACGCGCTGTGGTCGGCCGCCATCACTCCGGTGCTGCGCAAGCGGCTGGACGAGAAGTTCGCCCGCGGCGCCGAGAACCAGTCGTTCCTGGTCGAGACGGTCAGTGGCATCGGCACGGTCAAGGCCACAGCGGTGGATCCGCGCATGGCCCGGACCTGGGACACCCAGCTGGCCGGTTACGTGGGCGCCGGGTTCCGAGTCACGCGGTTGGCCAACATCGGCCAGCAGGGCGTGCAACTGGTGCAGAAGCTGGTCGGGGTCGGCGTCCTCTTCTTCGGAGCCAAGTTGGTCATCGACGGCAAGCTTTCGGTCGGCCAGCTGATTGCGTTCAACATGTTGTCCGGCCAGGTGTCCGCGCCGATCGTGCGCTTGGCCCAGCTGTGGCAGGACTTTCAGCAGGTTGGCATCTCAGTCGAACGGCTGGGCGACATCCTCAATACCCGTACCGAGGTGCCCGGTAGCCGCATGGCCCTGCCGGACATCCGAGGGCGCGTGACGTTCGAGAAGATTACGTTCCGCTATCGCCCCGACGCGGCCGAAGTTCTTGCCGGGATTGACCTGGACATTGCGCAGGGCGAGGTGATCGGCATTGTGGGCCGTTCCGGTTCGGGCAAGAGCACGCTGACCAAGCTGGTGCAGCGGCTGTACGTGCCCGAACGCGGTCGGGTGCTGATCGACGGCCATGACCTGACACTGGCCGATCCAGCCTGGCTGCGCCGTCAGCTGGGCGTGGTGCTGCAGGAAAATTTCCTCTTCAATCGCAGCATCCGCGAGAACATCGCGCTGAGCGATCCTGGGATGCCGCTGGAGCGGGTCATCCAGGCAGCCCAGCTGGCCGGCGCGCATGAGTTCATCCTGCAATTGCCCGAGGGCTACGACACCCAGGTTGGCGACAACGGCACCGGCCTGTCCGGCGGGCAGCGCCAGCGCATCGCCATTGCCCGTGCCCTGGTCACAAACCCGCGCATCCTGATCTTCGACGAGGCCACCAGTGCGCTGGACTACGAGTCCGAACACGCGGTGATGCAGAACATGCGCGATATCTGCAAGGGCCGTACGGTCCTGATCATCGCCCATCGCCTTTCCACGGTGCGCATGGCCAACCGCATCGTCGTGGTCGAGAAGGGCCGCATCGTTGAGTCAGGTACCCATGCCGAGCTGGTGGATCGACCGGGCGGCCAGTATGCCCATCTTTACTCGCTGCAGCAGGGAATGGCATGA	MAEGRPNLAVVDAAPEDACDRSAGFLDLGLAGLVLLAQFHGIAADPDQLAHQFGCNSEPFDDTALLLAAKQLGLKAKIARISADRVDKAALPALAWQLDGEHFIVAKANEQQVLIQDLRTRRPKVLTREQFTERYDGRLLLVASRSSVLGELARFDFRWFVPAVVKYRRILLEVFVVSLFIQLFALITPLFFQVVMDKVLVHHGMTTLEVIAVGLLAIAVFDVTLSGLRTYVFSHTTSKIDVELGARLFRHILNLPLAYFESRRVGQTIARVRELENIRSFLTGQALTSVLDLLFTGVFLAVMFYYSAWLTLIVVLSLPVYALWSAAITPVLRKRLDEKFARGAENQSFLVETVSGIGTVKATAVDPRMARTWDTQLAGYVGAGFRVTRLANIGQQGVQLVQKLVGVGVLFFGAKLVIDGKLSVGQLIAFNMLSGQVSAPIVRLAQLWQDFQQVGISVERLGDILNTRTEVPGSRMALPDIRGRVTFEKITFRYRPDAAEVLAGIDLDIAQGEVIGIVGRSGSGKSTLTKLVQRLYVPERGRVLIDGHDLTLADPAWLRRQLGVVLQENFLFNRSIRENIALSDPGMPLERVIQAAQLAGAHEFILQLPEGYDTQVGDNGTGLSGGQRQRIAIARALVTNPRILIFDEATSALDYESEHAVMQNMRDICKGRTVLIIAHRLSTVRMANRIVVVEKGRIVESGTHAELVDRPGGQYAHLYSLQQGMA	PGPT0029360_495	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ALPHA-HEMOLYSIN|CYCLOLYSIN_TRANSPORT,PGPT0029360-hlyB|cyaB-K11004	NA	NA
BMS020_06044	834			hypothetical protein	ATGAACGTTGACGACCTGCCGCGCGTAGCGAGTGTTTTTCCGGGAGAGAGCATCTGTTCGTGGCTCGAAGGCACTCGATGTAGGTTGGGCCTTCCGGAGAAGGAATGGTGGCAGTGGTGCGAATGCTCGCCCACTGAGCCGGAGCGCAAAGCTAACAGTCGAGACTGGGGGCGCCTTCCTGAAGGACTGGGTGATATCAGTGAAATCCCGGCGGCCTGGCGACTTGGGGGCCGCTGGCGGCGGCTTACCTGCCCGGATTGCCGAGTGATAGAGGAGGAGGGTGAGAGATACCCCGTACTTGTTGACTGGTTGGATGCTCGCGCCTTCGCATGTCGTGAGCATCGTCGGGTCCTCCGCAATTTCGGAGAAATTGATAGCATTGAAATCTCAGCGAACGACGACTTGACTGCCCTATTTAACTGGATAGAAGACTGGCGCCATGAGCGAATAGAAATCCGCGAAGGTCAGCTGAGAAGGGATCTGGTCTTTGCATCGGGCAGGAACTGGGCTCATGGCTTCGACGGTGTCGCAAGCGTTGAACTCGCTTGGACACTTGAATGCATGGGCTGGCAGCTGCCAAGGCGGCATCGATCATATCCATTCAGGGGACCTTCCAGGTTCGGACAGCTTGCACCACGAGATCGATCCGCGGCGCTATTTGGCGCCTATCGAGCATGGCGATCATTAATACTGGAGGACGCATCCTCGTTGCCGGACTGGCCTATAAGTGCTTGGTCTTGGCTTGAGCAGCGCTGGAGCAGGCGCGACTATCACCGAGTCAGCGCAAAGATTGCCGGCGTTAAATTGGCACTTAATTCAACACGAAGACGCTAG	MNVDDLPRVASVFPGESICSWLEGTRCRLGLPEKEWWQWCECSPTEPERKANSRDWGRLPEGLGDISEIPAAWRLGGRWRRLTCPDCRVIEEEGERYPVLVDWLDARAFACREHRRVLRNFGEIDSIEISANDDLTALFNWIEDWRHERIEIREGQLRRDLVFASGRNWAHGFDGVASVELAWTLECMGWQLPRRHRSYPFRGPSRFGQLAPRDRSAALFGAYRAWRSLILEDASSLPDWPISAWSWLEQRWSRRDYHRVSAKIAGVKLALNSTRRR				NA	NA	NA	NA	NA
BMS020_06045	117			hypothetical protein	ATGGGTGCAGCTCGCTTGGCGCTGTCTCGCGGCGAAGGCTGCATAACGTTAGCGCTGCTCGATGAGACCCTCAAGAACGGCATGCTAAGCTCATCGGAGGTGGTCAATGAACGTTGA	MGAARLALSRGEGCITLALLDETLKNGMLSSSEVVNER				NA	NA	NA	NA	NA
BMS020_06046	699			hypothetical protein	ATGAATGCGTTGGCCGAGTCAAAAGAGATTGGTGAGCACGAACATCTGTACGGCGACCTCCCGTATGTCCTAAGCCCACAGTCAGTCAAAATTTTGAAGATGCTTAGCAGCCTGCGCAGAGGGGAATATAAGCGGAGTCGCCCAATCTGCTTGCAGATCGTCGCATCAGCCGGGAGTGGAAAATCGCGACTGGTCCAGCATTACATGTCCCAAGTCTCAAACGAGCGCGAGGAGGTCGGCTCAAGGTACCGAGAAGCAGTATTGATTGAGGCGCCCTACGACGGGAACTGCAGGAAGCTATGCAGATCGATCATCAATTCCTGCCTTCCTGATTTCCCTGTTACCAAGACGGTAGACATTCACGATAAGACGCTCCACGTCCTCCGAGTATCTGGAGTTAGGCAAGTTATAATTGATGAGGCCGGAAACATACTCAATGCAGGGAGATCCGGCCAGCAACATACCCTGGCTTTGATCAAGTCTATATGCAATGCAGGAATAACCGTCTGTATTGCCACAACTAAGAACATGGTGAATGTGCTTGCAGCCGATGAGCAGCTTGCGTCGCGATTCAAAAAATGGAACTACCTGTTTGGTCCGAGTCACAAGACTTCAGGCGATTTCTTGCAGGTATTGAAGCGGAGCTCCAGCTGCCAGCCCAGTCGCGACTGGATAGCCAGACCATCATTAGATGGCTAA	MNALAESKEIGEHEHLYGDLPYVLSPQSVKILKMLSSLRRGEYKRSRPICLQIVASAGSGKSRLVQHYMSQVSNEREEVGSRYREAVLIEAPYDGNCRKLCRSIINSCLPDFPVTKTVDIHDKTLHVLRVSGVRQVIIDEAGNILNAGRSGQQHTLALIKSICNAGITVCIATTKNMVNVLAADEQLASRFKKWNYLFGPSHKTSGDFLQVLKRSSSCQPSRDWIARPSLDG				NA	NA	NA	NA	NA
BMS020_06047	1842			hypothetical protein	ATGAATACCCCGAGCAGAGTCACTCGCCCCGTACGTGACCTCAAGGTCCGGGCAGGCGAGCTAGTGATGTGTGCAGGCGTGCTTTCAAGAATCGTCATCTGCGAAGGTCCGGACAGGATCTACGTGAAGACGGAAGGGACCTCGGACCACCAATGGGTCGGAATTGGAGACCTTTCGCCCTACGTCGCTGAACCACCAAGAGGGAAAATTCGGCACGTTGTCAGTAGCGATCCACTACAGGAACAGCTGGCACGCGAGTGGGTTCATGAACTGCGCGCCGCTGCCAAGCTACACGGCAGGCGGCTGCCCAACGAGCTAGCAATTGGCATCGCTGAGCGTATGTCTACCTCACTCAAGACGGTGCGCCGGCGCTGGCGGCTTTATCAAGCCAACCCTCTGCCTGCAGCGCAGGTTCCAAGCATGCCGGGCCCGGCCCCCAAATCTCGGCTGCTACCGCCTGTAGTGGAGTCGCTGGTTTCCACTGCGATCGATGAGGTCTTCTTGGCACGGGAGCAGGGCAGTGTCGCTGCCGTAAAGCGTCGATGCGACGAGCTTGCTTCCAAAGCGAAGGTCCGAGCCCCTAGTTATCAGGCGATCAATGTACGGATCAAGGCGCGCGATCCGCTGCGGGTTGCTATCAAGCGCTTGGGCTCTGATGAGGCATACGCCCAACAAGCGCCGTCAATCAGGGGGCTCGAGACATCGCATCCATTGGAGGTTGTGCAGATTGATCATGCCCTGATCGATCTCATTGTCGTGAGCTCGCTCAGTCGACAGGTGATTGGACGTCCTTGGGTCACCGTCGCGATTGATGTCTACACGCGGTGCGTAGTCGGGTATTACATGAGCTTCGACGCGCCAGACCAGACCTCAGTCGCCCTCACCATGGAACACAGCTGCCTTCCCAAGGATCGCTGGCTGAGAGCCATCGGGCTAGAGGGCAAGGTCAGCTACCCAGTGTTCGGAAAGATGCAGCGTGTAGTTTGGGACAATGCGAAGACGTTCCAAATCAAAGCCCTCCTGGCGCAGTGCGAACGCTATGGAATTGAGGTTCGACCTCGACCAGTCCGACGCCCACACTACGGCGCGTATATCGAGCGGTACATCGGTAGCATGATGGGGGCAGTGCATCTGCTTCCAGGTACTACGTTCTCGAGCTCGAAAGCCCGCGGCAACTATCCCTCGGAAGGCAAAGCCATGATGACCCTGCCCGAGCTGGAGCAGTGGCTGGCACTGCAGATCGCTGGGGTCTATCACAATAAGCCGCACGCTGGCTTGGGAGGACGAACACCTAGACAGCTCTGGGATGAGTCGTGGAAGAACAAGGACGGCAGCATGCGCTTTCCGCCTATCGTCGGAGATCCGCGCGAATTCTCTCTAGGGTTTCTACCAGTTGCCAACCGTCGCATTGGCAGAGGTGGAATTCAGCTCCATTCACTCCGCTACTGGGATCCTGCCCTGACGCCATTCATCAATGATGGCATTGAGCACCAAGTCCACTACAGCCAGCGCGACCTGACCAAGATCTACCTACGAATAGAAGATGGTTACGTCGACGTTCCTCTTCTGGATCGGTCGAGAGACGCGTTCTCCTTCTGGGAGCTCCGAGAGCTCCGCCAGCACCATCGCGAACAGGGAAAAAGGGCAGTGTCCGAGAGCGAGCTGTTCTCCGCACTTGAACACCAGAGAGAGATCCTTCGCGATGCCGCCAAGACATCAAAGGCGGCCAGACGGAAGCTAGAAAAAATTCCCCAAAGCCACGGCAATGTGCGAGCCACCGAAGAACTCGACTATGCCGCTGCTGCAGACCCCGTTCCCGCGTCTGAGGGGGTTATCAAATGA	MNTPSRVTRPVRDLKVRAGELVMCAGVLSRIVICEGPDRIYVKTEGTSDHQWVGIGDLSPYVAEPPRGKIRHVVSSDPLQEQLAREWVHELRAAAKLHGRRLPNELAIGIAERMSTSLKTVRRRWRLYQANPLPAAQVPSMPGPAPKSRLLPPVVESLVSTAIDEVFLAREQGSVAAVKRRCDELASKAKVRAPSYQAINVRIKARDPLRVAIKRLGSDEAYAQQAPSIRGLETSHPLEVVQIDHALIDLIVVSSLSRQVIGRPWVTVAIDVYTRCVVGYYMSFDAPDQTSVALTMEHSCLPKDRWLRAIGLEGKVSYPVFGKMQRVVWDNAKTFQIKALLAQCERYGIEVRPRPVRRPHYGAYIERYIGSMMGAVHLLPGTTFSSSKARGNYPSEGKAMMTLPELEQWLALQIAGVYHNKPHAGLGGRTPRQLWDESWKNKDGSMRFPPIVGDPREFSLGFLPVANRRIGRGGIQLHSLRYWDPALTPFINDGIEHQVHYSQRDLTKIYLRIEDGYVDVPLLDRSRDAFSFWELRELRQHHREQGKRAVSESELFSALEHQREILRDAAKTSKAARRKLEKIPQSHGNVRATEELDYAAAADPVPASEGVIK				NA	NA	NA	NA	NA
BMS020_06048	351			hypothetical protein	GTGAGCGATACCTACGATCTAGACCACCGTCCGCCGTGCTGGGAAGCCGGCAAGCCTTGCCCGAACACCTGTGCCGCCGACGTGTACCGCCGCGTGGTCGATAACCACGTTGAACTGTGCGGCGCCTGGGCCGGATGGCGCCTTGCCGGGCGCGATCTGGTAGCCCCGACCGGCGAACGCATCCCGGAACGCCGCCTGCGCGGCCTGCTGTGGCGTGCCGATGCCACGGACCTACGGGACGCCACCCGAGCCCGGAACGGCGCCCGGAAAGCCCGTCAGCAGTCGATGGTGAAGGTCGTCGTGGTGGACCTGGGCGAATGGCGCGACCGCCACTTCGGCCGAGCTGGCTGA	MSDTYDLDHRPPCWEAGKPCPNTCAADVYRRVVDNHVELCGAWAGWRLAGRDLVAPTGERIPERRLRGLLWRADATDLRDATRARNGARKARQQSMVKVVVVDLGEWRDRHFGRAG				NA	NA	NA	NA	NA
BMS020_06049	342			hypothetical protein	GTGCTATTAAAAATCTCGGTTTCGATTCTCGCATTCGGAATGGGTTACTCCTTTGTCTATGTTGTAGCCTTGAGGCTATTTAGCGCCAATCGCTTGGGCCCGAACTTTTTTGGCAAGAAATACCTCGGATTTCGCAGCTACCGCGAACTGCGCAGTTATGTGATAGGGGCGAATATCCTGTGGGCACCCGTTATATCAGTCGCTTCCTTCTGCTTCCTGATGCAGCTTGGCTGGGATGACGCAATTTGGGTGTGCGCTTTCTTTATAGGATACGCCATGTCATTTTGGATCTTCCTTAGAAGGCCGAAGGAATATTGGGATGACGGGAATGGCCCGGCATAA	MLLKISVSILAFGMGYSFVYVVALRLFSANRLGPNFFGKKYLGFRSYRELRSYVIGANILWAPVISVASFCFLMQLGWDDAIWVCAFFIGYAMSFWIFLRRPKEYWDDGNGPA				NA	NA	NA	NA	NA
BMS020_06050	1107			hypothetical protein	ATGACGCACGGGATGAAGAGGCTCGCCAGGCTGCACCTTGCCGGTGCTGCGGTGGCACTGGTGGCGGCCTGCACCGGGGTGACACCGCCGGAGCCGGCGGCGCCCACGGCGGAGGCGACGGCCAAGGCGACCGCCAGCAGCCCGCCACACCCGCCCGGGCCTGTCGTGGTGGAAGTTAGTACACAGCGCTCCGAGGCGACCAAGCCGTTCGCGTTCGACGCGCCGGCCGGTGCCGACGGCGGACCGCCGGCCTGCCGGATCGATGGCCTGGTGGTCCCGGCAAACGCCAAGATCTATGCGGCGGGTGCCTATGGTGGCAAGGACGCGGACTTCCAGATCGACCAGAGCGGCCACCAGGCGACGACGATCCAGGTGGCGGTGAACGCGCCCGATGCGCCGGTGGTGCTGTTGCTGGGCGCTTATGAGCCAACGGTGTGGAGCGTGGGGTGGACCCAGGGCACGCGCATCGTTGCGGTGTTGGTGACCGGCTATCACCGACAGCAGGTGAGTGGCCTGCACGCCGGGGTGCCGCAGCTGGTCAGCACGTACGACAATCGCGGCGCATGCGGCTACGCCTACGTGGGCGGCGACGGCTCGGCCAAGCTCAACCCGATCGCACGCCAGGTATTCGGGCGCGCGGTCGATGTGGCCTATGCGGCGCGCGACGGGCGTGTCGTGGTGGGCGACGCCCTGGCGCCGGGCACATCCCTGCTCACCGATGCCGCCGCGTCACCCGTGGAAGAGTTCCGATTGAAGGGCGTGCCGCCTGCGGGGCAGGCCGGCATCGATGCCGCGCTGCGCGACGGGATCCTGCGGCCGGCGACGCTGGCCGACGTGGACGCTTGGAATGCCGCAAGCCAGCGCGTCTCCGGGGCGGCGGACATCCCGCGCATCGAAGGCAGCGACCCGACGCGCCCGGCGAGCGTGCCATACCGCAGCTATGTCGTACTCAAGGCCTTCGCGATTCCCGCCGGCCTGTATGGCGCGCACGCGGCGACGTTCTTCGTCGCCCGGGGCGTACCGGCGCCCACCGGCAACCCCGGCCACTCGCAAGTGCGCTTCATCGAAAGCGGGAGCTGCGTTGGAGTGACGTGTGGAATGCGTTGA	MTHGMKRLARLHLAGAAVALVAACTGVTPPEPAAPTAEATAKATASSPPHPPGPVVVEVSTQRSEATKPFAFDAPAGADGGPPACRIDGLVVPANAKIYAAGAYGGKDADFQIDQSGHQATTIQVAVNAPDAPVVLLLGAYEPTVWSVGWTQGTRIVAVLVTGYHRQQVSGLHAGVPQLVSTYDNRGACGYAYVGGDGSAKLNPIARQVFGRAVDVAYAARDGRVVVGDALAPGTSLLTDAAASPVEEFRLKGVPPAGQAGIDAALRDGILRPATLADVDAWNAASQRVSGAADIPRIEGSDPTRPASVPYRSYVVLKAFAIPAGLYGAHAATFFVARGVPAPTGNPGHSQVRFIESGSCVGVTCGMR				NA	NA	NA	NA	NA
BMS020_06051	693			hypothetical protein	ATGCCCTCCGCACACGACCACGCACCGCTCCGGATCCTGATCGCCGGTGCCACCGGTCTGGTCGGGCAGGGTGTGGTCGAGGCGTGCCTGGCCTCGCCGCAGGCTGTCGCCGCGACTGCGCTGGTGCGGCGCGCTGGCAGCGCAGGGCCGCGGTTGCCCGAGCGCGTGCTGCCGGTGTTCAGCGATGCCCAGGCGCAGGCCGGCCTGCTCGCCGGGTTCGATGCCTGCTTCTACTGCGCTGGCGCGGCGCCGGTGGGGACCTCCGAATCCGCGTATCGCGCGGTGACGCTGGAGGCAACGGGCGCGGTCGCCCGGGCATTCGCACAGCAGAATCCTCAGGGCCGCTTCCTCTACATCTCGGGGGCCTACGCCAACGCCCGCAGCCGGCTGATGCCGCTGCGGGTCAAGGGCGAGACCGAGCAGGCCCTGGCGAAGCTGCCGATCCGTACGGTCATGCTGCGGCCCGCCGGCGTCTGCCCGGTCGATGGCACCAGCCCGCAGCGTGCGTTCCTCAAGCCGCTGTACTGGCTGGCACGCCCGCTGATGACGCTTGCCGCCCGCTACGCGCCGTCGATGGCGGTCCGCAATCTGGACATCGGCGTGGCGCTGATCGCACTGGCGCGGATGCCAGCGCCACCGGCGATCGTCGAATGTGCACAGATCGCTGCGCTCGCTCGCCAACACGACGACTGA	MPSAHDHAPLRILIAGATGLVGQGVVEACLASPQAVAATALVRRAGSAGPRLPERVLPVFSDAQAQAGLLAGFDACFYCAGAAPVGTSESAYRAVTLEATGAVARAFAQQNPQGRFLYISGAYANARSRLMPLRVKGETEQALAKLPIRTVMLRPAGVCPVDGTSPQRAFLKPLYWLARPLMTLAARYAPSMAVRNLDIGVALIALARMPAPPAIVECAQIAALARQHDD				NA	NA	NA	NA	NA
BMS020_06052	678	chrR_1	COG3806	Anti-sigma-E factor ChrR	GTGAACCCGCACCACCACCTGCACGAATCCACCGTGATGAGCTACGTCGCCGGCGCGCTGTCCGCGCCGCTGAGTGTGGTCGCCGGCAGCCACCTGGAGCGGTGCGCGCATTGCCGGCAGCGCGTACGCGATGCCGAGGCGATCGGCGCGGCGCTGCTGGAGCAGACCCAGCCGGTCGCGGCGGATGACCGGAGGCAGGCGTTGCGCGAGGCGATGCTGGCCACCCTGTCCGGAAGTGACGTACAGGAGCGCCCGGCCGCGGTGACCAAGCCGCAGCCGAACGAGCGCCCGGAAGCCGATCCGGACCACCTGCCGGCGTCGCTGCATCCGTACTTCGGTGATTCGCTGAGCCGGCTGCGCTGGCGCTGGATGGCGCCGGGCGTGCACTGCATCCGCGCCGAACAGATGCCGTCGCTGATCATGCTGAAGATCGCGCCGGGCAAATGCCTGCCGATGCACAGCCATGGCCGCAGCGAGCTCACCCAGATCCTGCGTGGCGCCTACAATGATGCGCTCGGGTTGTTCGCGCCTGGCGATGTCGCCGACCTGGACGAGGACGTCGAGCACCAGCCGGTGACGACGCCCGGGGTGCCATGCATCTGCGTCTCGGCATTGGACGCCCCGCTGGTGTTCAGCGGCTGGGTGGCGCGCCAGGTACAACGTTTCGTCAAACTGTGA	MNPHHHLHESTVMSYVAGALSAPLSVVAGSHLERCAHCRQRVRDAEAIGAALLEQTQPVAADDRRQALREAMLATLSGSDVQERPAAVTKPQPNERPEADPDHLPASLHPYFGDSLSRLRWRWMAPGVHCIRAEQMPSLIMLKIAPGKCLPMHSHGRSELTQILRGAYNDALGLFAPGDVADLDEDVEHQPVTTPGVPCICVSALDAPLVFSGWVARQVQRFVKL				NA	NA	NA	NA	NA
BMS020_06053	522	rpoE_2	COG1595	ECF RNA polymerase sigma factor RpoE	ATGGACGGCGTCGCGCGTTTGCGCGATCGCGACTGCTTCATGCGCATCTACGACCACTTCATGCCGCGCCTGTGCGTGTACCTGCGCGGGCTCGGCTCGCCGGACGCGGTGGCCGAGGAACTGGCGCAGGAGTGCCTGCTGCGGCTGTGGCTGCGTGCAGCCGAGTTCGACCCGGGCCAGGGCGCGCTGAGTACCTGGCTGTACCGCATCGCCCGCAACCTGCATATCGACCGCATCCGCCGCGAACGCAGCTGGATGCAGGTGCAGGACGCCGTCGAGGAGGCGGCCGCCAGCGACGTCGTGCAGCGCAGCAGCGCCGAGCAGTTCGCCGACCAGGCCCGGCTGCGCCAGCGCATCAACGAGCTGCCGGCGGTGCAGGGGCGCCTGGTGCGCATGTCCTACTTCGAGGCCAAGAGCCACGGCGAGATCGCGCAGGCGCTGGGGATCCCATTGGGAACGGTGAAGTCGCACCTGCGCCGCGCGTTCCTGCAGTTGCAGGCCAAGATCGGGGGCGCGCCGTGA	MDGVARLRDRDCFMRIYDHFMPRLCVYLRGLGSPDAVAEELAQECLLRLWLRAAEFDPGQGALSTWLYRIARNLHIDRIRRERSWMQVQDAVEEAAASDVVQRSSAEQFADQARLRQRINELPAVQGRLVRMSYFEAKSHGEIAQALGIPLGTVKSHLRRAFLQLQAKIGGAP	PGPT0014960_5061	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS020_06054	771			hypothetical protein	ATGCGCGCTGTCTGGCTGCTGCTGTGCGTCCTGCCCCTTCCCGCCGGCGCCGCGCCGCTGCTCAGGCAGGAAGGGGTCGCCACCACCGCCGATGGGCTGCTGGCTTACCGCGAGGTGCATTGGCAGCGCGGCCTGGGTGAAGGCGGCGAGCGCTGGGTGCAGTACCTGTGCCCGGATGGGCGCCCGTTCGCGCGCAAGCAGGTGCCTGCCAGTGCGCGGCCACAGGTACGTGGCTATCGCCTGCAGGACCGGCGCAGCGGCCACCAGGCCAGCGTCGCCGTGGCCGACCGCTCCATCCGCATCGCGTGGCAGGAGCAGCCCGGCAGTGCCGACCGCGCGGTGGTCCTGCCGCTGCCGGACGATGCGGTGGTCGATATCGGCTTCGATGCCGCGGTGCGCACGCATTGGTCGGTGCTGATGCAGGGCCAGGCGGTGATCCTGCCGTTCCTGGTCCCACCCCGCGGCCGCTTCTATCCGATCCATGTGCAGCGCGTGCGCACGCTGCGCTGGCAGGGCCAGCCGGCGCAGTCCATCGAGGTCCGGCTGGATGCCTGGTACGGCGCGCTCGCGCCGCGGCTCACGCTGGTCTATGCCGAGGCCGACCACCGCCTGCTGGAATTCCACGGCACCAGCAACCTGCGCGACGCGCACGGCCGCTATCCGCAGGTCGTGGTGCGGTTCGCCGCGCCGGCGGTCGAACGGCCGGCGCAGCAATGGGAGCAGGAGCTGCAGCAGCCGTTGGTCGCCCGCTGCGACGTGACGGGCAGGTGA	MRAVWLLLCVLPLPAGAAPLLRQEGVATTADGLLAYREVHWQRGLGEGGERWVQYLCPDGRPFARKQVPASARPQVRGYRLQDRRSGHQASVAVADRSIRIAWQEQPGSADRAVVLPLPDDAVVDIGFDAAVRTHWSVLMQGQAVILPFLVPPRGRFYPIHVQRVRTLRWQGQPAQSIEVRLDAWYGALAPRLTLVYAEADHRLLEFHGTSNLRDAHGRYPQVVVRFAAPAVERPAQQWEQELQQPLVARCDVTGR				NA	NA	NA	NA	NA
BMS020_06055	951			hypothetical protein	ATGGCCTCCGCAGCGCCCTCCCCGGCTCCACCCGCGCGTGTACTGCGCACGCTGCAGCGCTGGTTCGATACCGCGGCGGCCGAGCCGACGCGCGATCACCACGGCGATCGGCTGGACTGGTTGCGTGCGGTGCCGTTCGCACTGCTGCACTTGGGGTGCCTGGGCGTGTTCTGGGTGGGCGTGTCCTGGACGGCGGTGGCCGTGGCGGTGCTGCTGTACGCGCTGCGGATGTTTGCGATTACCGCGTTCTACCACCGCTATTTCTCGCATCGCACCTTCCAGGCCTCGCGCGCGGTGCAGTTCGTGTTCGCGCTCATCGGCGCCGCCAGCGTGCAGCGTGGCCCGTTGTGGTGGGCCGCGCACCATCGCCACCATCATCGCCATGCCGATGAGCCGCAGGACCCGCATTCGCCTCGGCAACGCGGGTTCTGGCGCAGCCACATGGGCTGGTTCCTCACCCGCGAGGCGTTCGCCACCGACCTGCAGCGCGTGCCGGACCTGGCGCGGTTCCCCGAGCTGCGCTGGCTGGACCGCTTCGACACGCTGGTGCCGGTGTTGCTCGCCATCGCGCTGTATGCGCTGGGGGCGACGCTGGAGCAGGTTGCGCCGGAGCTGCAGACAACCGGGCCGCAGCTGCTGGTGTGGGGTTTCTTCATGTCCACGATCGCGCTGTTCCACGCGACCGTCACCATCAATTCGCTGGCGCACCGCTTCGGTCGGCGCCGCTTCGACACCCGCGACGACAGCCGCAACAACCTGTGGTTGGCGCTGCTGACCTTCGGAGAAGGCTGGCACAACAACCACCACTTCTTTCCCGGCACGGTGCGCCAGGGCTTTCGCTGGTGGGAGATCGACCTGACCTGGTACGGGCTGCGCGCGATGGCCGCGGTCGGGCTGGTGCGGGAACTCAAGCCCATCCCGGCCTGGGTGCTGGCCAAGGCGAGGTATTGA	MASAAPSPAPPARVLRTLQRWFDTAAAEPTRDHHGDRLDWLRAVPFALLHLGCLGVFWVGVSWTAVAVAVLLYALRMFAITAFYHRYFSHRTFQASRAVQFVFALIGAASVQRGPLWWAAHHRHHHRHADEPQDPHSPRQRGFWRSHMGWFLTREAFATDLQRVPDLARFPELRWLDRFDTLVPVLLAIALYALGATLEQVAPELQTTGPQLLVWGFFMSTIALFHATVTINSLAHRFGRRRFDTRDDSRNNLWLALLTFGEGWHNNHHFFPGTVRQGFRWWEIDLTWYGLRAMAAVGLVRELKPIPAWVLAKARY	PGPT0012215_2585	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012215-desC-K00507	NA	NA
BMS020_06056	1278			hypothetical protein	ATGCGCATCGCGGTGATCGGCGCGGGTATTGCCGGACTGGCCAGTGCGTGGTGGCTGGATGACGCGCATGAGGTCACCCTGTTCGAAGCCGGCACGCATCTGGGCGGGCATACGCACACGCACGACCTGCAGGTGGACGGTGTCCGCATGGCAGTGGATACCGGCTTCATCGTGTTCAACCCACTGCACTACCCGTTGCTGACCGCGCTGTTCGACCAGCTCGGGGTCGCCTCGCAGCCGACCACGATGAGCTTCTCGATGCACAGCGAACGCAGCGGCGTGGAATACAACGCCACTTCGCTGGACGGGTTGTTCTGCCAGCGCCGCAACCTGGTCTCGCCGCGGTTCTGGGGCATGCTGCGCGACCTGCGGCGCTTCTACCGCGATGCGCCGCAGCTGCTGGCACTGGAGGAAGGCCCCAGCCTCGGCGAATATCTGCGCAGCCAGCGCTACGGCGAGGCCTTCATCGACGAACACCTGCTGCCGATGGCCTCGGCGCTGTGGTCCTCGCCCACCGCCGCGGTGCTGGACTTCCCCGCGCGCTACATGGCGCAGTTCATGGCCAACCACCAGATGCTGCAGGTCAGCGGTCGCGCGCCCTGGCGCGTGGTCGCCGGCGGCTCGGCGCGCTACGTCGATGCGCTGCGCAGCCGTTGGCAGGTGCACGAGCGGCTGGAGTGCCCGGTGCAGCGCGTCGAGCGCATGGCCACAGGCGTGCGCGTGCACAGCCGCGCAGGCGTGCAAGACTTCGATGAGGTGATCCTGGCCTGCCACAGCGATCAGGCGCTGGCGCTGCTGGACGATGCCAGCGCGACCGAGCGCGAGGTCCTCGGCGCCATCCGCTACCAGCCCAACGAGGTGGTGCTGCATACCGACGCTTCACTGCTGCCGCGCAACCGCAAGGCCTGGGCGGCGTGGAATGCGCATGTGCCGCGCGATCCAGCGGCGCCGTGCACCGTCAGCTACTGCATGAACCTGCTGCAGGGGTTGCCCGGCGATACGCCGCTGGTGGTCACCTTGAACCGCAGCGAAGCGATCGACCCGGGCAAGGTGCTGCGCCGGATGCAGTACGCGCATCCGGTCCACGATCACGCCGCGGTGCGTGCGCAGCGGCGCTGGGCCGAGCTGCAGGGGCAGCGCCATACCTGGTTCGCCGGCGCCTACTGGGGCTGGGGGTTCCATGAGGACGGCATCCGCAGTGCCCGCCAGGTCGTGGACGCACTGCACGCCAGGACCTCGCACCGGCGCTCGTCGCTGGACGCGGGCGTGCCCGCATGA	MRIAVIGAGIAGLASAWWLDDAHEVTLFEAGTHLGGHTHTHDLQVDGVRMAVDTGFIVFNPLHYPLLTALFDQLGVASQPTTMSFSMHSERSGVEYNATSLDGLFCQRRNLVSPRFWGMLRDLRRFYRDAPQLLALEEGPSLGEYLRSQRYGEAFIDEHLLPMASALWSSPTAAVLDFPARYMAQFMANHQMLQVSGRAPWRVVAGGSARYVDALRSRWQVHERLECPVQRVERMATGVRVHSRAGVQDFDEVILACHSDQALALLDDASATEREVLGAIRYQPNEVVLHTDASLLPRNRKAWAAWNAHVPRDPAAPCTVSYCMNLLQGLPGDTPLVVTLNRSEAIDPGKVLRRMQYAHPVHDHAAVRAQRRWAELQGQRHTWFAGAYWGWGFHEDGIRSARQVVDALHARTSHRRSSLDAGVPA	PGPT0007680_13	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-PHOSPHOLIPID_PRODUCTION	PLANT_SIGNAL-PHOSPOLIPID_METABOLISM	PLANT_SIGNAL-CYCLOPROPANE-FATTY-ACYL-PHOSPHOLIPID_BIOSYNTHESIS,PGPT0007680-cfa-K00574	NA	NA
BMS020_06057	768			hypothetical protein	ATGAGCGCCAGCGCGCTCTATTTCGGTCAGGTGATGCACCGTCGGCATCATCCGCAGCCGCATGCGTTCCGCTACCCGGTCGCGCAGCTGCTGCTCGACCTGGACGAACTCGAGCAGGTGTTCGCCGGACGCTGGCTGTGGTCGGTCAATCGGCGCAACCTCGCCGAATTCCGCCGCAGCGACTATTTCGGCGATCCCGCCCAGCCCCTGGCCGACGCGGTACGCGACCATGCCGGCCGCGTGCTCGGCCGGCGTCCGTGCGGCCCGGTGCGGCTGCTGACCCACCTGCGCTTCGGCGGCCACGTCTTCAACCCGGTGAGCTTCTATTACTGCTACCAGGCCGATGGCCGCACGCTGGATTGCATCGTCGCCGACATCACCAACACGCCGTGGAAGGAGCGTCATGCCTACGTGCTGTCGGTGGCGGACGCGCAACGCGACGGTGACGCGCTGCGCTGGCAGTTCGACAAGTGCTTCCACGTCTCGCCGTTCATGGCGATGGACTGCCGCTACGACTGGCGCTTCAGTGCGCCCGGCGAATTACTGCGCGTGCACATGCAGGTCTGGCGCGACGGCGTGCGCCAGTTCGATGCCACCCAGCAGATGCACAGGCGACCGCTTGACGGCCCCGGCCTCGCCCGGGTGCTGGCCTGCTATCCGTTGATGACGCTGCAGGTGGTGGCGGCGATCCACTGGCAGGCGCTGCGCCTGTGGCTCAAACGCAATCCCGTGCACGACCACCCTTCCCTCGCCGAGAAATCGCCATGA	MSASALYFGQVMHRRHHPQPHAFRYPVAQLLLDLDELEQVFAGRWLWSVNRRNLAEFRRSDYFGDPAQPLADAVRDHAGRVLGRRPCGPVRLLTHLRFGGHVFNPVSFYYCYQADGRTLDCIVADITNTPWKERHAYVLSVADAQRDGDALRWQFDKCFHVSPFMAMDCRYDWRFSAPGELLRVHMQVWRDGVRQFDATQQMHRRPLDGPGLARVLACYPLMTLQVVAAIHWQALRLWLKRNPVHDHPSLAEKSP				NA	NA	NA	NA	NA
BMS020_06058	1260	ufaA1_1	COG2230	Tuberculostearic acid methyltransferase UfaA1	ATGAACGAATTGACCCAGTCGGTCGCCTTCGCCCCGCCGGGCGCGCTGGAGGGATTCCTGCGCCGCCGCCTGCTTGCGCAGCTGGCGCCGCTGCGCGAGGGCCGCCTGTGCGTGCGCGACGCACTCGGCGAGGTGCTGCTGGGCGATGCCCACGGCGCGCTGCGCGCCACCGTCACCATCGACGACCCGGCGTTCTACCGCAAGGTCGCCGCGCAAGGCAGCGTCGGCGCCGGCGAGAGCTATATCCACGGCGACTGGCACTGCGACGACCTGGTCGCGCTGATCCGCCTGTTGGTGCGTAACCGCGACCTGCTGGACGGCATGGAACGCGGCCCCGCGCGCCTCGGCGGATGGGCGCTGCGCGGCTGGAACCGCCTGCGCCGCAACAGCCGTGAAGGCAGCCGCCGCAACATCGCCGCGCACTACGACCTGGGCAACGACTTCTTTGCGCTGTTCCTGTCGCCGGACCTGATGTATTCCTCGGCGCTGTTCGCCGACGCGGGCGAGTCGCTTGAATCCGCGTCGCGACGCAAGCTGGACCGCATCTGCCAGCAGCTGCAGCTCAAGCCCGGCGACCGGGTGGTGGAGATCGGCACCGGCTGGGGCGGCTTCGCGCTGCACGCGGCGCAGCACTACGGTTGCCACGTCACCACCACCACCATCTCCGCCGAGCAGCACGCCTTGGCGACGCAGCGGGTGCACGATGCCGGGCTGCAGGAGCGCGTCAGCGTGCTGATGCAGGACTACCGCGACCTGCACGGGCAGTTCGACAAGCTGGTGTCGATCGAGATGATCGAGGCGATCGGCGCCGAATACCTGCCGACCTACATGGCCACGCTGCAGCGGCTGCTGAAGCCCGATGGCCTGGCCCTGCTGCAGGCGATCACCATCGAGGACCACCGCTACGAGCAGGCGCGGCGCAGCGTGGACTACATCAAGCGCTACGTGTTCCCGGGCAGCTTCATCCCCTCGATCAACGCGATCATCGCGGCCAAGACCCGCGCCAGCGACCTGCAGCTGGTGGCCCAGCACGATTTCGGTCATTCCTATGCGCTGACGTTGCGCGCCTGGCGCCAGCGGTTCCTCGCGCAGTTGCCGGCGGTGCAGGCACAGGGCTTCGATGCGCGCTTCTGCCGGCAGTGGGAGTTCTACCTGGCCTACTGCGAAGGCGGCTTCCTGGAACGCTCGATCGGCGTGTCGCACCTGCTGCTGGCGCGGCCGGGCTACCGCCCCGGCCACAACGCCGGAGGCATCGACTGA	MNELTQSVAFAPPGALEGFLRRRLLAQLAPLREGRLCVRDALGEVLLGDAHGALRATVTIDDPAFYRKVAAQGSVGAGESYIHGDWHCDDLVALIRLLVRNRDLLDGMERGPARLGGWALRGWNRLRRNSREGSRRNIAAHYDLGNDFFALFLSPDLMYSSALFADAGESLESASRRKLDRICQQLQLKPGDRVVEIGTGWGGFALHAAQHYGCHVTTTTISAEQHALATQRVHDAGLQERVSVLMQDYRDLHGQFDKLVSIEMIEAIGAEYLPTYMATLQRLLKPDGLALLQAITIEDHRYEQARRSVDYIKRYVFPGSFIPSINAIIAAKTRASDLQLVAQHDFGHSYALTLRAWRQRFLAQLPAVQAQGFDARFCRQWEFYLAYCEGGFLERSIGVSHLLLARPGYRPGHNAGGID	PGPT0007680_1852	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-PHOSPHOLIPID_PRODUCTION	PLANT_SIGNAL-PHOSPOLIPID_METABOLISM	PLANT_SIGNAL-CYCLOPROPANE-FATTY-ACYL-PHOSPHOLIPID_BIOSYNTHESIS,PGPT0007680-cfa-K00574	NA	NA
BMS020_06059	552			hypothetical protein	ATGCGCCGGTCCTGGGCCAACCTGCTCGGCAACCAGCTGGTCTGGCTGTGCGCGGTCGCCGGCAGCGGCCGCGGCTGGCAGTGGCCGGCGTTGCTGGCCGCAGCGCTGTACGTCGGCAGCCAGCTGGCGACCTCGCCGCAGCCTGGGCTGGATCTGCGCCTGCTGCTGCGCGCCCTCGCCTGCGCCTGGCTGGTGGATGGCGTGGCCGCCGCGACCGGCGCGGTGCGCTACGCCGCGGCGCCGCTGGGCTGGATGCCGCCACCGTGGATCCTGGCGTTGTGGGCGGCGTTCGCGATGACGTTGACGGCGTCGATGGCGTTCCTGCAGCGCCACCGGCTGCTGCCGCCACTGGTTGGCCTGCTGCTGGCGCCGCTGGCGTACCTGTCCGCCGCGCGCGGCTTCGATGCCGTGCAGTTGCGCGTGCCGGCCTGGCACGGGGTGCTGCTGCTCGGGATCGGCTGGAGCATCGCGCTGAGCTGGCTGTGCAGCGTCGCGCGCCGCGGCGCCGCCGATGCAGGCCGGCGCCCACGCATCGCTGGAGCCACACGATGA	MRRSWANLLGNQLVWLCAVAGSGRGWQWPALLAAALYVGSQLATSPQPGLDLRLLLRALACAWLVDGVAAATGAVRYAAAPLGWMPPPWILALWAAFAMTLTASMAFLQRHRLLPPLVGLLLAPLAYLSAARGFDAVQLRVPAWHGVLLLGIGWSIALSWLCSVARRGAADAGRRPRIAGATR				NA	NA	NA	NA	NA
BMS020_06060	786			hypothetical protein	ATGAACGCGCTGGGCTGGGTACTGCTGTACGCGCTGCTGCTGATGGTTTGGGGCTGGGCCTGGCAGCGTCGCCACTACAACATCGGCGTGGTCGACGTGCTGTGGGCCAAGGGCGTGGCAGCCGCCGCGATCGTGCTGGCGCTGCTCGGCGATGGCGCGCCGGCGCCGCGGATCGCCCTGGCCACGCTCGGCGGCCTGTGGGGCAGCCGGCTGGCGTTGCACCTGTGGCGCCGCGTCCGCCACGAGCAGGAAGATGGGCGCTACCGCTACCTGCGCGAGCACTGGCGCGGGCACCAGGGCAAGATCTTCGGCTTCTTCATCGGCCAGGCGCTGCTGGTGGTGCTGTTCGCGCTGCCGTTCGTCGCCGTCGCCGCCAATCCGCGCGCGGAGATGAACGATTGGCTGCTCGCCGCCGTGGCGGTCTGGCTGCTCAGCGTCGGCGGCGAGGCGCTGGCCGACCGGCAACTGGCCCGCTTTCGCGCCGATCCGGCCAATGCCGGGCGGACCTGCCGCGACGGACTGTGGCGCTACTCGCGCCATCCCAACTACTTCTTCGAATGGCTGCACTGGTTCACCTACGTGCTGCTGGCCAGCGGTTCACCACTGTGCTGGCTGGCCTGGAGCGGCCCCGTGCTGATGTACCTGTTCCTGCGCTACCTGAGCGGCGTGCCGTTCACCGAGCAGCAGGCGCTGCGCAGCCGTGGCGAGGACTACCGCCGCTACCAGCAGACCACGCCGATGTTCTTCCCCTGGTTTCCACGCCCGCCCAAGGAGCCCCGCGCATGA	MNALGWVLLYALLLMVWGWAWQRRHYNIGVVDVLWAKGVAAAAIVLALLGDGAPAPRIALATLGGLWGSRLALHLWRRVRHEQEDGRYRYLREHWRGHQGKIFGFFIGQALLVVLFALPFVAVAANPRAEMNDWLLAAVAVWLLSVGGEALADRQLARFRADPANAGRTCRDGLWRYSRHPNYFFEWLHWFTYVLLASGSPLCWLAWSGPVLMYLFLRYLSGVPFTEQQALRSRGEDYRRYQQTTPMFFPWFPRPPKEPRA	PGPT0007680_238	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-PHOSPHOLIPID_PRODUCTION	PLANT_SIGNAL-PHOSPOLIPID_METABOLISM	PLANT_SIGNAL-CYCLOPROPANE-FATTY-ACYL-PHOSPHOLIPID_BIOSYNTHESIS,PGPT0007680-cfa-K00574	NA	NA
BMS020_06061	1074	COQ3		Ubiquinone biosynthesis O-methyltransferase, mitochondrial	ATGAGCGCCACCACCTCGTTGCACCCGCCCATCGAGGCCGAACACGGCCTGACCAACTGGGCCGAACGCGGGCTCGTTCCGGATGCCGCGCTGCGCTGGGGCATCCGCCGCCTGTGCGCGCAGCGCCTGCGGGAAGAACTTGCAGGTGGGCTGCAGGCGCAGTCGGCGCGCTTCGAGCAGCGCATCGCCGAGCTCAAGGACAGCCCGCTGGCGCTGCACGTGGATGCCGCCAACCGCCAGCACTACGAGGTGCCGGCGGCGTTCTTCCAGGCCTGCCTCGGCAAGCGACTGAAATACAGCAGCTGCTATTACGCGCGCGGCGGCGAAACCCTGGACCAGGCCGAAGAGGCGATGCTGGCGCTTTACGGCGAACGTGCCGGGCTGGCCGATGGCCAGCAGATCCTGGAGCTGGGCTGCGGCTGGGGTTCGCTGACCTTGTGGATGGCCGAGCGCTATCCCCACGCGCGCATCACCGCGGTGTCCAACTCGCATAGCCAGCGGCAACACATCCTCGCGCAATGCACGGCACGCGGGTTTGGCAACGTCGAGGTCATCACCCGCGACGTCAACCAGCTGGAGCTGGCGCCGGCGCAGTTCGATCGCTGCGTGTCGGTGGAGATGTTCGAGCACGTGCGCAACTACGCGCGGCTGCTGGCGCACATCGCCCGCTGGTTGAAGCCAGATGGCGCGCTGTTCGTGCACATCTTCGCCCACCGCAACGTGATGTACCCGTTCGAGACCGAAGGCGGCGACAACTGGATGGGCCGGCATTTCTTCACCGGCGGCTTGATGCCGGCCGCCGACACCTTGCTGCACTTCCAGCGCGATCTGCAGCTGCAGCAGCGTTGGTTGCTCGACGGCACCCATTACCAGCGCACCGCCAATCACTGGCTGGCCAACCAGGATGCGGCGCGCGCCGAGCTGATGCCGCTGCTGGTGTCCACCTATGGCGCGGCGGCGGCGCCGATCTGGTGGCAACGCTGGCGCATGTTCTGGATGGCCTGCGCCGAACTGTTCGGCTACGACCGCGGCCAGCAATGGCTGGTCGCGCACTATCTGTTCCAGCCACGCTGA	MSATTSLHPPIEAEHGLTNWAERGLVPDAALRWGIRRLCAQRLREELAGGLQAQSARFEQRIAELKDSPLALHVDAANRQHYEVPAAFFQACLGKRLKYSSCYYARGGETLDQAEEAMLALYGERAGLADGQQILELGCGWGSLTLWMAERYPHARITAVSNSHSQRQHILAQCTARGFGNVEVITRDVNQLELAPAQFDRCVSVEMFEHVRNYARLLAHIARWLKPDGALFVHIFAHRNVMYPFETEGGDNWMGRHFFTGGLMPAADTLLHFQRDLQLQQRWLLDGTHYQRTANHWLANQDAARAELMPLLVSTYGAAAAPIWWQRWRMFWMACAELFGYDRGQQWLVAHYLFQPR	PGPT0007680_4581	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-PHOSPHOLIPID_PRODUCTION	PLANT_SIGNAL-PHOSPOLIPID_METABOLISM	PLANT_SIGNAL-CYCLOPROPANE-FATTY-ACYL-PHOSPHOLIPID_BIOSYNTHESIS,PGPT0007680-cfa-K00574	NA	NA
BMS020_06062	528	blc_3	COG3040	Outer membrane lipoprotein Blc	ATGCATCCGTCCCCGCTGCTGCCGCTGCTGGCCATCGCACTGCTCGGCGTCGCCTGCAGCAGCCACGGCACGCGGCCGCTGCCGCGTCCGGCGTCGGTCGATTTGCCGCGCTTCATGGGCGACTGGTACGTGATCGCGCATATCCCGTCCTGGCCGGAGCGCCACGCCTACGACGCGGTCGAAAGCTATCGCCTGCGTCCGGATGGACGCATCCAGACCACCTTCACCTACCGCAACGGCAGCTTCGACGCACCGCGCAAGGCGATGCATCCGGTCGGCACGGTGGCACGGCACGGCGATGGCGCGGTCTGGGGCATGCAGTTCGTCTGGCCGATCCAGGCCGAGTACGTGATCGCCTGGCTCGACACCGACTACCAGCAGACCATCGTCGCGCGCAGCAAGCGCGACTACGTCTGGTACATGGCACGCACGCCGCAGGTGTCCGATGCCGACTATCAGAAGGCGCTGCAGCGCATCGCCGCGATGGGCTACGACATCGGCAAGCTGCGGCGGGTGCCGCAGCCCTAG	MHPSPLLPLLAIALLGVACSSHGTRPLPRPASVDLPRFMGDWYVIAHIPSWPERHAYDAVESYRLRPDGRIQTTFTYRNGSFDAPRKAMHPVGTVARHGDGAVWGMQFVWPIQAEYVIAWLDTDYQQTIVARSKRDYVWYMARTPQVSDADYQKALQRIAAMGYDIGKLRRVPQP	PGPT0012970_2059	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012970-blc-K03098	NA	NA
BMS020_06063	2475			hypothetical protein	GTGCGATCGAGTAACCCCCATGTGCCGAGCGCGGCGCTGTTGCTGCTGGTTGGCCTGGTGCTGGCGGCACCGGCGTCCGCCGCCTACGACGTCCCGCCGGACAAGCTGCTCAAGGTGCTGAAGGCGCCGCCACCGCCGGTGCCGAGTGTGGACCCGACCGGGCAGCGCATCCTGCTGACCACCAGCCAGACCTATCCGTCGATCGAGCGTGTCGCGCGGCCCTACCTGAAGCTGGCCGGTGTTCGCCTCGAACCTGCCAACCGCAGCCGCCACGACACCCGCGCCGGCTACGGCATTCCCGCCTGTGTCGCCGAGTTCGCACTGGTGGATGTCGCCAGCGGCAAGCAGACCCAGGTCGCGCTGCCCGACGGGGCATGCCCGGGCGCGGCGCAGTGGTCGCCGGATGGCAGCCGGTTCGCGTTCCAGAACGTCACCGCGACGTCGGTGGAACTGTGGCTGGGGGACGCCGCCAGCGGCCAGGTGCACAAGGTGCCGGGGCTGGCGCTGAACCCGATCTTCGACGCCGCCGTGCAATGGCTGGATGGCAGCAAGAGCCTGCTGGTCAAGAAGGTGCCGGACAACCAGGGAGCAGCGCCGACCAGCGATGTCGCCGGCATCGGCCCGGACATCCAGCAGTCGTTGGGCGGGCAGGGCGAGAGCAGCACCTACGAGGCGCGCGACCTGCTGACCAGTGCGCACGACGAGGCCTTGTTCGCCTGGTACGGCAGCTCGCAGCTGGCGGTGGTCGATGCAGCCAGCGGCAGCGTGCGCAACGTCGGCCAGCCGGCGATCTACACCGTCGTCAATGGCGCGCCCGATGGCGTGCACGTGCTGGTCGAGGCGATCAAGCCGCCGTACGCGCACACTGTCACCTACCAGCGTTTCCCGCACGAGGTGGCGGTGCTCGATGTCGGCAGTGGTGCGTCCAAGCTGATCGCCAGCCTGCCGCTGGCCGACCGCGTGCCGGTGCACGGCGTGCCCGAAGGACCGGTCAACTTCGATTGGCGCGCCACCGCGCCGGCGACGCTGGTGTGGTCCGAGGCGCTGGACAAGGGCGACTGGAAGGTCGAGGTGCCGCATCGCGACAAGGTGATGAGCTGGAAGGCGCCGTTTGCCGGCAAGCCCAGCGAGATCGCTCGCACCCGCCAGCGCTTCGTCGGCTACGCATGGTCGCCGAAGCCGGAGCTGGCGTTCCAGTACGAGATGGACGAGAACCGCCACTGGCAGACCGTGCGCATCATCGATGTCGACAAGGCCGGCGATGAGGGCCGCGTGCTGTGGGACATGTCCAGCGACGAGCTGTACAAGGATCCGGGCAACTTCGTCTACAAGCGACTGCCGAGCGGTGCGTCGGTGGTGCGCATGGAGGGCGATGCGGTGTTCCTGCGCGGGCAGGGCGCTTCGCCGAAGGGCGACCGCCCGTTCCTGGACAAGCTGACACTGTCCACGCTGCAGAGCGAACGGCTGTTCCGCAGCGGCGACGACGACTACGACCAGTTCCTGGCGTTCTCCGGTGCGCCGGGCACGTTCCTGACCTGGCGCCAGTCGCTGATCGATCCGCCCAACGCGTTCGTGCGTACCCTGGGCGAACGCAAGGCCGGGGCTGCCGATGGCGAGCCGCAGTACGCGTTCACCGGCACCCAGCTGACCCGGGTGCCCGACCCGACCCCGGAAGTGCGGCAGATCAAGAAGCGCCTGGTGACCTACAAGCGTGCCGACGGGCTGGACCTGTCGTTCACCCTGTACACGCCGCCGGGCTGGAAGGAGGGCCAGCGCCTGCCGGCGATCCTGTACGCCTACCCCGCCGATTTCGCCAGCAGCGAGCAGGCCGGCCAGGTCAGCGGCAGCCAGTACACCTTCACCCGGCTGCCGTACTACCGGCTGATGCTGCTCGCCGGCTACGCGATCATCGACAACGCCAGCTTCCCGATCGTCGGCGATCCCAAGACCGCCTACGACACCTACCTGGAGCAGCTCGAAGCCGACGCCAAGGCCGCGGTGGACAAGGCGGTGGAGCTGGGCGTGGTCGACCGCAACCGCATCGGCGTGACCGGCCACAGCCATGGCGCGCTGATGACCGCCAACCTGATCGCGCATACCGACCTGTTCAAGGCCGGTGTCGCCACCAGCGGTTCGTACAACAAGACGCTGACCCCGTTCGGCTTCCAGAACGAACGCCGCTCGGTGTGGGAAGCGCCGGAGGTGTACCGCAAGGCCTCGCCGTTCTTCTTCGCCGACAAGATCAAGCTGCCGCTGCTGCTGGTGCATGGCGACGACGACGCCAATCCGGGCACCCAGCCGATCCAGTCGGTCAAGCTGTTCCAGGCGATCCGCGGCAACGGCGGCACCACCCGGCTGGTGATGCTGCCGCACGAGCCGCACTGGTACACCGCGCTGGAGTCGAACGAGCAGGTGGTCTACGAGATGCTCAACTGGTTCGACACCTACGTGAAGAACGCGCCGGCGCAGAAGTAG	MRSSNPHVPSAALLLLVGLVLAAPASAAYDVPPDKLLKVLKAPPPPVPSVDPTGQRILLTTSQTYPSIERVARPYLKLAGVRLEPANRSRHDTRAGYGIPACVAEFALVDVASGKQTQVALPDGACPGAAQWSPDGSRFAFQNVTATSVELWLGDAASGQVHKVPGLALNPIFDAAVQWLDGSKSLLVKKVPDNQGAAPTSDVAGIGPDIQQSLGGQGESSTYEARDLLTSAHDEALFAWYGSSQLAVVDAASGSVRNVGQPAIYTVVNGAPDGVHVLVEAIKPPYAHTVTYQRFPHEVAVLDVGSGASKLIASLPLADRVPVHGVPEGPVNFDWRATAPATLVWSEALDKGDWKVEVPHRDKVMSWKAPFAGKPSEIARTRQRFVGYAWSPKPELAFQYEMDENRHWQTVRIIDVDKAGDEGRVLWDMSSDELYKDPGNFVYKRLPSGASVVRMEGDAVFLRGQGASPKGDRPFLDKLTLSTLQSERLFRSGDDDYDQFLAFSGAPGTFLTWRQSLIDPPNAFVRTLGERKAGAADGEPQYAFTGTQLTRVPDPTPEVRQIKKRLVTYKRADGLDLSFTLYTPPGWKEGQRLPAILYAYPADFASSEQAGQVSGSQYTFTRLPYYRLMLLAGYAIIDNASFPIVGDPKTAYDTYLEQLEADAKAAVDKAVELGVVDRNRIGVTGHSHGALMTANLIAHTDLFKAGVATSGSYNKTLTPFGFQNERRSVWEAPEVYRKASPFFFADKIKLPLLLVHGDDDANPGTQPIQSVKLFQAIRGNGGTTRLVMLPHEPHWYTALESNEQVVYEMLNWFDTYVKNAPAQK				NA	NA	NA	NA	NA
BMS020_06064	2085	dapb3_1		Dipeptidyl aminopeptidase BIII	ATGCGTAGCACCTTGCTGTGTTCTGCCATCGTTCTTGCCCTGGTCGGCTGCAAGCCGGCGAGCGAACCCACCACGCCGGCCGCTGCGGGCGCGCCTGTCGCCGCAGCGCCGGCGGCCGAAGTGGAGTTGATCTCCCGCGACGCCTTGTTCGGAAACCCCGAGCGCGTCGCCGTGCAGCTCAGTCCAGATGGGCGTTACCTGAGCTGGATCGCGCCGGTGGACGGCGTGCTGAATGTCTGGGTGGCGCCGGCCGACCAGCTCGCGGCCGCCAAGCCTGTCACCCGCGATACCTCGCGGGGCATCCGCGACTATGTCTGGAGCTACCGCCCCGGCACGCTGGTGTACCTGCGCGATACCGGCGGCGACGAGAACTTCCACGCGTTCGCGGTCGACGTGGCTTCCGGCCAGGAGAAGGACCTGTCGCCGTTCGCCAAGACCCGCGCGATGCTGGTCGGGCTGAGCCACCTGCAGCCCGGTGCGATCCTGCTGGCGATGAACGACCGCGATCCGAAGTGGCACGATCTGTACCGCGTCGACCTGGCCAGCGGCGCGCGCACGCTGGTGGAGAAGAACACCCAGGAGATCGCCGGCTACCTCGCCGACGGCAACTACCAGGTCCGCTACGCCACGCGGTCGCGCGCCGACGGAGGCATCGATGTGCTCAAGCCCGACGGCAAGAACGGCTGGAGCAAGGTCGACGACATCCCGTTCGAAGACGGCCTGACCACCGGTCCGGTGGGAATGACCACCGACGGCAGCACCCTGTACCTGACCGACTCGCGCCAGCGCGACACCGCTGCGCTGTATGCGGTGGACACGGCGACCGGGCAGCGCCAGCTGGTGTTCGAGGATGCGCGCGCCGATGTCGGCGAGAGCCTGGCCGATCCGCGCAGCGGCAAGCTGCAGGCAATCGCGGTGGACTACCTGCGCGAAGAGTGGAAGACGCTCGACGACGGCATCGCCGGCGACCTGGCGAAACTGCGCGCGCTCGGCCCGGGGGATGCCTCGGTGGTGTCGCGCACGCTCGACGACACGGCATGGATCGTGGCGTATTCCGCCGCCGAGCACCCGGTGGTCTATTACCGCTACGACCGGGCCGGCGGCGGCACGCTGACCAAGCTGTTCGCGGCACGGCCGGCGCTGGAAGGCAAGCCGTTGGTGCCGCAGTGGCCGCAGCAGATCACCTCGCGCGACGGGCTGACGCTGGTGAGCTATCTCACCCTGCCGAAGGCCGCCGATCCGAATGCCGACGGCAAGCCGGACAAGGCGGTGCCGATGGTGTTGTTCGTGCACGGCGGGCCTTGGGCGCGTGACAGCTATGGCTACAGTGGTTACACGCAGTGGCTGGCCAATCGCGGCTATGCGGTGCTGGAGGTCAACTACCGCGGTTCGACCGGCTTCGGCAAGGCCTTCACCAATGCCGGCAACGGCGAGTGGGCCGGCAAGATGCACGATGACCTGCTCGATGCGGTGAAGTGGGCGGTCGGCAGCGGGGTGACCACGCCGGACCAGGTGGCGATCTTCGGCGGCAGCTACGGCGGCTATGCCACGCTGGTCGGGTTGACCTTCACGCCCGAGACCTTCAAGTGCGGTGTCGACCTGGTCGGCCCGTCGAATCTCAATACGCTGCTGTCGACGATTCCCCCGTACTGGGCCTCGGCGTTCGAGCAGTTCGCGCGGCGCGTGGGCGATCCGCGCACCGAACAGGGCAAGGCACTGCTGGCCGAGCGATCGCCGCTGACCCGCGCCGACCGCATCAGTAAACCGCTGCTGATCGGGCAGGGCGCCAACGATCCGCGCGTCAACCAGGCCGAGAGCGACCAGATCGTCAAGGCGATGCAGGCCAAGAACATCCCGGTCACCTATGCGCTGTTCCCCGACGAGGGCCACGGCTTCGTGCGGCCGGAAAACACCAAGGCGTTCAATGCGGTCGCCGAAGGCTTCCTGGCCAAGTGCCTGGGCGGGCGCGCGCAGCCGATCGGCAACGACTTCGCCGGTTCCAGCATCAGCGTGCCGGTCGGCGGCGCCGACGTGCCCGGGCTGGCCGAGGCGTTGAAGACCCATACCGCCGAAGTGAAGAAGTGA	MRSTLLCSAIVLALVGCKPASEPTTPAAAGAPVAAAPAAEVELISRDALFGNPERVAVQLSPDGRYLSWIAPVDGVLNVWVAPADQLAAAKPVTRDTSRGIRDYVWSYRPGTLVYLRDTGGDENFHAFAVDVASGQEKDLSPFAKTRAMLVGLSHLQPGAILLAMNDRDPKWHDLYRVDLASGARTLVEKNTQEIAGYLADGNYQVRYATRSRADGGIDVLKPDGKNGWSKVDDIPFEDGLTTGPVGMTTDGSTLYLTDSRQRDTAALYAVDTATGQRQLVFEDARADVGESLADPRSGKLQAIAVDYLREEWKTLDDGIAGDLAKLRALGPGDASVVSRTLDDTAWIVAYSAAEHPVVYYRYDRAGGGTLTKLFAARPALEGKPLVPQWPQQITSRDGLTLVSYLTLPKAADPNADGKPDKAVPMVLFVHGGPWARDSYGYSGYTQWLANRGYAVLEVNYRGSTGFGKAFTNAGNGEWAGKMHDDLLDAVKWAVGSGVTTPDQVAIFGGSYGGYATLVGLTFTPETFKCGVDLVGPSNLNTLLSTIPPYWASAFEQFARRVGDPRTEQGKALLAERSPLTRADRISKPLLIGQGANDPRVNQAESDQIVKAMQAKNIPVTYALFPDEGHGFVRPENTKAFNAVAEGFLAKCLGGRAQPIGNDFAGSSISVPVGGADVPGLAEALKTHTAEVKK				NA	NA	NA	NA	NA
BMS020_06065	1344	adhB_1		Alcohol dehydrogenase (quinone), cytochrome c subunit	ATGAAGAGCCAACGCTTCAGGAAATTCCTCCGGTGCGCGCTGCCCACCGTGCTGGTGCTGGCGGCGGCGACCGCGTGGTACGTCAATCGCACGCCGGCATCGCCGTTCGATGGCGCCAATGCCGCCGAACCGAACCCGGCGCTGCTCGCACGCGGCGAGTACGTCGCGCGCCTGGGCGATTGCGTGGCCTGCCACAGCACGCCGGATGGCAAGCCGTTTGCCGGCGGGCTGGAGATGCCGACGCCGATGGGCGCGATCTTCACCACCAACATCACTCCGGACAAGGCCACCGGCATCGGCAGCTACAGCCTGGCCGAGTTCGATCGCGCGGTGCGCCTGGGCGTGGCCAAGGATGGGCACCGGCTGTACCCGGCGATGCCGTATCCGTCCTACGCCAAGCTTGGCGACGACGACGTGCGGGCGCTGTACGCCTATTTCAGCCACGAGGTGCGCCCGGTCCAGCAGCCGAACAAGGCCAGCGAGATCCCGTGGCCGTTGAACATGCGCTGGCCGCTGGCGTTGTGGAATGGCATCTTCACTGACACCGGCCCGTACCAGGCCGATCCCAAGCAGGATGCGGCATGGAACCGCGGCGCCTTCATCGTGCAGGGGCCGGGACACTGCGGCGCCTGCCATACCCCGCGCGGCTGGGCGATGAACGAAAAGGGCCTGGACGAGGGCAGCGACCAGTTCCTTGCCGGTGCGCTGATCGACAACTGGTATGCCCCCAGCCTGCGCGGCGACGGCAATCTCGGGCTGGGCCGCTGGAACGAGGCGGAGATCGCCCAGTTCCTCAAGAGCGGGCGCAATCGCCATGCGGTGGTGTTCGGCTCGATGACCGAGGTGTTCAACAACTCGACCCAGTACATGACCGACGCGGACCTGCAGGCGGTCGCGCATTACCTGAAGTCGGTGCCTGCCGCGTCGGGCAGCGATGCTTCGCCATGGCAGTACGCGGCGGCGTCTAACGGCACCGCGCAGCCGCGTGGCGCCAGCACCTACATGGCCAAATGCAGTGCCTGCCACGGCGCCGACGGGCGCGGGCAAGGGCAGTGGATTCCCCCGCTGGCCGGCTCCGCCGCATCGCTGGCCAGCATCGATGCGTCCAGCATCAATGCCACGTTGAACGGGTCCGGCCGCGTCGTCGCCAACGGAATCCCCGACAACTACCGCATGCCGCCGTTCCGCAACCAGCTCTCCGACCAGGAGATCGCCGACGTGCTGAGCTACGTCAGGACATCGTGGGGCAATACCGGCGGCACGGTCGACGCCAAGGACGTGCAGGCACTGCGCGCGAAGACCTCGCCGGCCAGCAGCAGCGTGATGCTGCTGAAGACGCGCTAG	MKSQRFRKFLRCALPTVLVLAAATAWYVNRTPASPFDGANAAEPNPALLARGEYVARLGDCVACHSTPDGKPFAGGLEMPTPMGAIFTTNITPDKATGIGSYSLAEFDRAVRLGVAKDGHRLYPAMPYPSYAKLGDDDVRALYAYFSHEVRPVQQPNKASEIPWPLNMRWPLALWNGIFTDTGPYQADPKQDAAWNRGAFIVQGPGHCGACHTPRGWAMNEKGLDEGSDQFLAGALIDNWYAPSLRGDGNLGLGRWNEAEIAQFLKSGRNRHAVVFGSMTEVFNNSTQYMTDADLQAVAHYLKSVPAASGSDASPWQYAAASNGTAQPRGASTYMAKCSACHGADGRGQGQWIPPLAGSAASLASIDASSINATLNGSGRVVANGIPDNYRMPPFRNQLSDQEIADVLSYVRTSWGNTGGTVDAKDVQALRAKTSPASSSVMLLKTR	PGPT0017695_70	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017695-fdhC-K23275	NA	NA
BMS020_06066	2253	iorB		Isoquinoline 1-oxidoreductase subunit beta	ATGAGCGTCAAGGCCCCGCTGCGCGATGCGCAGGAACAGTTCCCGACCGGCGCACCGGTCAACGTCTCGCGCCGTCGTTTCCTCATTGCCTCGGCCGGTACCGCCGCCGGTGCGCTGGTGCTTGGCTTCGGCCTGCCGGTCGGCAGCGCCCGCGCGCAGGCGGCGAGCGCGGCACCGGCGCCGCGGGTGCCGGCGTTCCTCGAACTGCGCCCGGACGGCAAGGTGCGGCTGCTGAGCCCGTTCATCGAGGGCGGGCAGGGCACGTTCACCGCGATGGCGCAGATCGTCGGCGAGGAACTCGACGTCGACCCGGCCGACTTCATCGTCGAAAACGCGCCGCCGGGCGCCGACTACGTGGTGATGGCCAGCGGCATGCGCATCACCGGCGGCAGCATGTCGGTACGCTTCGGCTCGCCGGCGATGCACCGGCTGGGCGCGTGTGCGCGGCAGATGCTGCTGCAGGCCGCCTCCGCGCGATGGCATGTGCCGGTCGACCAGTTGAGCACCGAGCCGGGGCGGGTGGTGCATGCCGCGTCGGGGCGGTCGCTGGGCTATGGCGAGCTGGCCCCGTCCGCGTTGAGCCTGCCGGTGCCCGATCCGGATTCGATCACGTTGAAGGATACGGCGCAGTACCGCTGGATCGGCAAGCCGGTGCAGCGGCTGGATGCGCGCGACAAGTCCACCGGCAAGACCGAGTACACCATCGACGTGCAGCTCGATGGCATGCTGCACGCCGCGGTCCAGCACGCACCGCGGCTGGGCATGACCGTCGGCGACATCCGCAACGAGGCGCAGGTGCTGGCGCTGCCGGGCGTGCATTCGCTGCACCGGTTGCCCGGCGCGGTCGCGGTGGTCGCCGAACGCTGGTGGACCGCCAAGCGCGCGGCCGAAGCGGTGCAGGTCGATTGGCAGGAGGCCGCCGCGGACAGCGCGTTACGGGTGATGCCAGCGGATTTTTCCACCGAGCGCTTCCGCGACCAGCTGGCCAAGGCCACCGGCGAGGGCGACACCGCCGAGACCGCGGGCGACCTGCCGGCGGCGATGGCCGCCGCCAAGACCGTGCTCGATGCGACCTACCAGAGCCAGTACGTGCACCACGCGCAGCTGGAGCCGCCATCGGCGCTGGCCCGCTTCAACCCGGATGGCTCGCTCGAGGTCTGGTTGCCGAACCAGGCACCGGACATGTTCCGCGCCGACATCGCCAAGCGTGCCGGCCTGGCGCCGGACCAGGTGATCCTGCATTCGCCGCTGCTCGGCGGCTTCTTCGGCCGCCACTTCCTCTACGACACCGCCAATCCGTATCCGCAGGCGGTCCAGCTGGCGCGCGAAACCGGGCGGCCGATCAAACTGATCTGGAGCCGCGAGGAAGAGTTCCTGCGCGACACGCTGCGGCCGATGGCCGCGGTGCGCTTCCGCGCCGGGCTCGATGCCCAGGGCCTGCCGGTGGCACTGGAGGCGATCAGCGCCACCGAAGGGCCGACCGAAGGCATCAGCGGCAAGCGTGGCGACAAGCTCGACGACTCCGCACTCGAAGGCCTGACCGGCAAGTCCTACGCGATCCCCAACCGGCGCATCGCCCAGCTCTACGTCAAGGGCCCGGCGATGCTCGGCTACTGGCGCTCGGTCGGCAATTCGATGAACGATTTCCTCTACGAGACCTTCCTCGACGAGGTGGCCGATCGTGGCGGGCAGGATCCGTTCGCGCTGCGCCTGCACCTGCTCAAGGACAACGCGCGGCTGACCACCCTGTTGAACGCCGTCGGTGAACTGGCCGGCGGCTGGAAACGCGGTCCGTTCACCGCCGCCGACGGCAGCCGTCGCGCGCGCGGCGTGGCGATGGCCTCGCCATTCGGCACCGAGGCGGCGGTGATCGCCGAGGTCTCGATCGAGGCTGGGCGGGTCAAGGTCCACGACATCTGGCAGGCGATCGATCCCGGCAGCATCGTCAATCCGGCGATCGTCGAGGCGCAGGTCAACGGCGCGGTCGCGCTCGGCCTGTCGCAGGTGCTGCTCGAGGAGGCCGTCTACGAACATGGCGTGCCGGTGGCGCGCAACTACGACATGTATCCGGTGCTGCCGCCTGATCGCATGACCCGTGTCCACGTCAGGATCATCGAGAGCGGGGCGACGATGGGCGGCGTCGGTGAACCACCACTGCCGGCGGTGCCGCCAGCGGTCGCCAACGCGGTCTCGACGTTGACCGGCCAGCGCATCCGCACGATGCCGCTGTCGCGTTACGACTTTGCCAGCTAG	MSVKAPLRDAQEQFPTGAPVNVSRRRFLIASAGTAAGALVLGFGLPVGSARAQAASAAPAPRVPAFLELRPDGKVRLLSPFIEGGQGTFTAMAQIVGEELDVDPADFIVENAPPGADYVVMASGMRITGGSMSVRFGSPAMHRLGACARQMLLQAASARWHVPVDQLSTEPGRVVHAASGRSLGYGELAPSALSLPVPDPDSITLKDTAQYRWIGKPVQRLDARDKSTGKTEYTIDVQLDGMLHAAVQHAPRLGMTVGDIRNEAQVLALPGVHSLHRLPGAVAVVAERWWTAKRAAEAVQVDWQEAAADSALRVMPADFSTERFRDQLAKATGEGDTAETAGDLPAAMAAAKTVLDATYQSQYVHHAQLEPPSALARFNPDGSLEVWLPNQAPDMFRADIAKRAGLAPDQVILHSPLLGGFFGRHFLYDTANPYPQAVQLARETGRPIKLIWSREEEFLRDTLRPMAAVRFRAGLDAQGLPVALEAISATEGPTEGISGKRGDKLDDSALEGLTGKSYAIPNRRIAQLYVKGPAMLGYWRSVGNSMNDFLYETFLDEVADRGGQDPFALRLHLLKDNARLTTLLNAVGELAGGWKRGPFTAADGSRRARGVAMASPFGTEAAVIAEVSIEAGRVKVHDIWQAIDPGSIVNPAIVEAQVNGAVALGLSQVLLEEAVYEHGVPVARNYDMYPVLPPDRMTRVHVRIIESGATMGGVGEPPLPAVPPAVANAVSTLTGQRIRTMPLSRYDFAS	PGPT0009811_732	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-QUINOLINE_RESISTANCE,PGPT0009811-iorB-K07303	NA	NA
BMS020_06067	588			hypothetical protein	ATGGAACTCGAGATCAACGGCAGGACCCAGCAGATCCAGGCCGAGCCGGACACGCCGCTGCTGTGGGTGATCCGCGACGAACTTGGCCTCACCGGCACCAAGTATGGCTGCGGACTGGCGCAATGCGGCGCCTGCACGGTGCTGGTCGACGGCGTGGCGGTACGCTCGTGCGTGACCCCGGTCGAAGGCGTGGTCGGTCGCCGCATCACCACCATCGAGGCGGTCGAGGCCGATCCGGTTGGCCAGCGCGTGGTCGAGGCCTGGGTCAAGCACCAGGTTCCGCAATGCGGCTATTGCCAGTCGGGCCAGGTGCTGACCGCAACCGCGCTGCTGAAGCAGCATGAACACCCCAACGACGACGACATCGCCGCGGCGATGATCAACCTGTGCCGCTGCGGCACCTACAACGCGATCAAGGCGGCGGTCCACGACCTGGCCGGCAGCAGCGCTTCGGCGGCGTCCGTCGAAGCGGCGCCGGCGCCGCCCCATGTCCCCACCGTCGCGGCGATCGCGCTGGCGGCGGCCGGTGCCTACGGCGTGCTGCGTGGCGAGACGGCTGACAGCGAAGATGCGGAGGCCGGCCAATGA	MELEINGRTQQIQAEPDTPLLWVIRDELGLTGTKYGCGLAQCGACTVLVDGVAVRSCVTPVEGVVGRRITTIEAVEADPVGQRVVEAWVKHQVPQCGYCQSGQVLTATALLKQHEHPNDDDIAAAMINLCRCGTYNAIKAAVHDLAGSSASAASVEAAPAPPHVPTVAAIALAAAGAYGVLRGETADSEDAEAGQ	PGPT0009812_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-QUINOLINE_RESISTANCE,PGPT0009812-iorA-K07302	NA	NA
BMS020_06068	927	paoD	COG1975	Molybdenum cofactor insertion chaperone PaoD	ATGACCCGCCTGCCTGTTCCCCGCCCGGCGTTCCTGTCAGACGACGCGTTGGCGATCCTGCGCTATGCCGTCGACGCCCACCGTGAAGGCGTCGGTATCGCCTTGGTCACGCTCGTGCAGATCGATGGCGGCGCCGCGCGCAGGCTGGGCGCACAGATGGCCGTACGCGGCGACGGGCTCTACTGCGGCTACGTATCCGGCGGCTGCACCGAGGCGGCGGTCGCGATCGAGGCATTGCAGGCGCTGTCCGCGCATGAGGATCGGCAGGTGCGCTTCGGCCAGGGATCGCCCTACTTCGACATCGTGCTGCCATGCGGCGGCGGAATCACGCTGGCGATCCACGTGATCCGCGATGCGACGGCGCCGGCCTGCGTGCTGGACGCCCTGCTCGGCCGTCGCCCAGCGGGACTGCGCTACGACCCGCACGTGCAGCGCCTGCAGTTCCTGACCGACGCCAGCTGGACCGGCTGGACCACATCGGGGGCGTTCGATGTCGGCTATCGTCCCGCCGCCCGGCTGCTCGTACACGGTGCGGCGCTCGAGACCGGCATCGTACGCCGGCTGGCCGAAACGGCCGGTTACGCGGTCACGCTGCCCACCGAGCCGTCCACTCCCGGCATCGATGCCATCGATGCGGATACCGCCGTCGTGCTGCTGCATCACGACCTGGAACGCGAACTGCCGCTGCTGCAGGCTGCGCTGGCCGCCACACCGTTCTACATCGGCGCGCTCGGCAGCTGGAATACCCAGCGCTGCCGCGCCGAGCGCCTGGCGCAGCTGGGCTACGCGTCGCACGACGTCGCACGTATCAAGGCACCGATCGGGGTCTTTCCCAAGGCGCGCGATGCCACCGCGTTGGCGCTCTCCGTCCTCGGCGACGTCGCCGCGGCGCGCACGCTGCAACTCGGCAGCTCCCCGGGCGCCTGA	MTRLPVPRPAFLSDDALAILRYAVDAHREGVGIALVTLVQIDGGAARRLGAQMAVRGDGLYCGYVSGGCTEAAVAIEALQALSAHEDRQVRFGQGSPYFDIVLPCGGGITLAIHVIRDATAPACVLDALLGRRPAGLRYDPHVQRLQFLTDASWTGWTTSGAFDVGYRPAARLLVHGAALETGIVRRLAETAGYAVTLPTEPSTPGIDAIDADTAVVLLHHDLERELPLLQAALAATPFYIGALGSWNTQRCRAERLAQLGYASHDVARIKAPIGVFPKARDATALALSVLGDVAAARTLQLGSSPGA	PGPT0007280_2633	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_BIOSYNTHESIS,PGPT0007280-xdhC|paod|ygeB|pucA-K07402	NA	NA
BMS020_06069	561	mobA_2		Molybdenum cofactor guanylyltransferase	ATGCCCGGTGCCGGCAATCTGGTCGTGCTCGTGCTGGCTGGCGGCCAGTCCCAGCGCTTCCTTGCAGCAGGCGGGGGCGTGCACAAACTGGATGCGGACCTCGACGGCGAGAGCGTTCTCGCCCAGACATTGCGGGTCGTGGAACGCGCCGGAATGCGTTGCCAGCTGGTGCGCCCGGCGGGCGGCAGCGCAGGCATGGGCGCCTCCATCGCGATGGGCGTGGCGGCGAGCGCGGATGCCGCGGGCTGGCTGGTGCTGCCGGGCGACCTGCCATGCGTCGCCCCCGCGACACTCCACGCCGTCGCCGATGGACTGCGCATCGCGTCCGTCGTCGTGCCGCACCACGGCGGCCATCACGGTCACCCGGTCGGCTTCCGGCGCGAAGCCGCCGCGGCGCTGGCCGCGCTCGACGGCGATAGCGGCGCAAGGCGCGTGGTTGCGGCCTACCGGGCGATGCATGCAGTGCACGATCTCGCATTGGACGATGCCGGGATCCTGCTCGACATCGACACCCCGGCCGACCTGGAACGTGCCCGCCGCTACCATGCGCGCCTGAAGTAA	MPGAGNLVVLVLAGGQSQRFLAAGGGVHKLDADLDGESVLAQTLRVVERAGMRCQLVRPAGGSAGMGASIAMGVAASADAAGWLVLPGDLPCVAPATLHAVADGLRIASVVVPHHGGHHGHPVGFRREAAAALAALDGDSGARRVVAAYRAMHAVHDLALDDAGILLDIDTPADLERARRYHARLK				NA	NA	NA	NA	NA
BMS020_06070	1278	chuR_2	COG0641	Anaerobic sulfatase-maturating enzyme	ATGAACCAGGCTGTTCCGGTCGACGTCAACGCGCCACAGCTCGATCGCGCGCGCCTGCTCGAAGGTGGCCGCTATCGCTTCCATGCGATGGTCAAGCCGGCGGGGTCCGAGTGCAATATCGATTGCCACTACTGCTTCTATCTGCACAAGGCCGAGCTGCTCGACCAGGGCAAGCGTCCGCGCATGGACGATGCCACGCTGGAACAGCATGTCAGGCAGTACATCGAGGCCCAGGACGGCGAAGAAGTGGTGTTTTCGTGGCAGGGCGGCGAGCCCACCTTGATGGGGTTGGACTTCTACCGTCGCGTCGTGGCGCTGCAGCGTGCCTACCGTAAGCCGGGGCAGCGCATCGAGAACGACCTGCAGACCAACGGCCTGCTGCTGGATGCGGAATGGATCGCCTTCCTGAAGGAGCACGGCTTCCATGTCGGCCTTTCGATCGACGGACCGCGCGCGATCCACGACACCTACCGCCGTGCGCGCAACGACAAGCCGACATTCGACTACGTCATGCGTGCGGCGGGGCTGCTGCGGGATGCCGGCATTCCGTTCGCCGCGTTATGCGTGGTCAACCGGATGAATGCCAAGCATCCGCGCGAGGTGTACCGCTTCCTTGTCGACGAAGTTGGTACCTGGCGCGTGCAGTTCACGCCGGCGGTCGAGCCTGTGAGCTTCAAGCAGGGCGCGCCGGCGCTGTTGCCTGCCGCAAGCGCGCCCACCCAGCACGAGCGGCGCGCGCGTCCTGGCGTTCCCGACGCGATCGTCACCGAATGGTCGGTGGATCCAGTGGACTACGGCGCCTTCCTGAGCGCGATCTGGGACGAATGGATGCGCACCGATATCGGCCGCGTCCATGTCAACCTGTTCGAAACTGCCGTCGCGCAGGCCGCGGGCATGCCGGCGCAGATGTGTACCCAGGGCGAATTCTGCGGCAAGGCGCTGGCGGTCGAGCACGATGGGCAGGTCTTCGCCTGCGACCATTTCGTCTACCCCGAGTACCGCAGCGGCAGCATCCACGACGTCCATCTCGGCAACCTGGCGTTCTCGCCCGCGCAGCAGAAATTCGGCATGGACAAGCGCGATACGCTGCCGCGCCAGTGCCGGGAGTGCGACTATCTCCGCCTGTGCTATGGAGAATGCCCCAAGAACCGGTTGATCCGGACCGACGATGGGCAGCCGGGCCTGAACTACCTGTGCTCCGGGTTATATGCGTTCTACGAGCATATCGGCCCCGACGTGGTGAGGATCCTGCAGCGGATCGGGCACGCAGGCGGCTGA	MNQAVPVDVNAPQLDRARLLEGGRYRFHAMVKPAGSECNIDCHYCFYLHKAELLDQGKRPRMDDATLEQHVRQYIEAQDGEEVVFSWQGGEPTLMGLDFYRRVVALQRAYRKPGQRIENDLQTNGLLLDAEWIAFLKEHGFHVGLSIDGPRAIHDTYRRARNDKPTFDYVMRAAGLLRDAGIPFAALCVVNRMNAKHPREVYRFLVDEVGTWRVQFTPAVEPVSFKQGAPALLPAASAPTQHERRARPGVPDAIVTEWSVDPVDYGAFLSAIWDEWMRTDIGRVHVNLFETAVAQAAGMPAQMCTQGEFCGKALAVEHDGQVFACDHFVYPEYRSGSIHDVHLGNLAFSPAQQKFGMDKRDTLPRQCRECDYLRLCYGECPKNRLIRTDDGQPGLNYLCSGLYAFYEHIGPDVVRILQRIGHAGG	PGPT0026880_1345	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0026880-ydeM|yidF|alsB|chuR-K06871	NA	NA
BMS020_06071	1623		COG3119	N-acetylgalactosamine-6-O-sulfatase	ATGAGTTTCGGTACAGCAAGACGCAAGTCCCCCATCGCCACGGCATTGCTGGCAGCGTTGTTTTCGCTGTCCGCGTCGGAGGCGGCCGTGGCACAGGATGGCACCAGCGATGGCGGTCCCCCCAATATCCTGGTCATCTTCGGCGACGACATCGGCTGGCAGAACGTCAGTGCCTATGGCATGGGTACGATGGGGTACACGACCCCGAACATCGACAGCATCGCCAACGACGGCGTCAAGTTCACCGACCACTACGCCCAGCCCAGTTCCACGGCCGGGCGCGCCGCCTTCATCACCGGCCAATATCCGATCCGCTCCGGCATGACCACGGTGGCCATGCCGGGCGGCGACCTTGGACTGAAGGCCGGTTCACCATCGCTGGCCGAGGTGCTGAAGGCGCGTGGCTACGCCACCGGGCAGTTCGGCAAGAATCACCTGGGCGACCACAACTTCGCCTTGCCGACCGTGCATGGCTTCGACGAATTCTTCGGCAACCTGTATCACCTCAACACCCAGGAGGAATCCGAGCAGCGCGATTACCAGAACTTCGCCCGTGCCTACTCCGGTTCGGTCGAAGCCTATGAAGCGAAGTTCGGCACCCGCGGGGTCCTGCATTGCTACGCCACCGGCAGCGCGGACAAGACCAACGATCCACGCTTCGGTGTCGTCGGCAAGCAGAAATGTACCGACACCGGTCCGCTGACCCAGGAGCGGATGAAGGCATTCGACGAGGCGGAAATGATTCCCGCGGCGATGAGCTTCATCCAGCGCTCCAAGGATTCGGGAAAGCCCTTCTTCGTCTGGATGAACACCAGCCGGATGCATCTGTACACCCGCTTGAACGACACCTGGCGGTACGCCGCCGAAAAGTACACCAGCGAGTACGATCTGCACGGCAGCGGCATGCTGCAGCACGACCACGACATCGGCCTGGTGCTGGCGCAGCTCAAGTCGATGGGATTGGACAAGAACACCATCGTGGTCTACACCACCGACAACGGTCCGGAGCACTCGTCCTGGCCGCACGGCGCGACCACGCCGTTCCGCGGCGAGAAGATGACGACCTACGAAGGTGGTGTGCGGGTCCCGATGATGGTGAAGTGGCCGGGGCACATTCCGGCAGGCCGGACCCTCAACGGCATCCAGGGTCACCAGGACCTGTTCACGACCCTGGCTGCCGCAGCCGGGGAGCAGGACGTGGCCAAGAAGGTCATGTCGGAGAAGAAGCAGTACATCGATGGCGTCAACAACCTCGACTACTGGACCGGAAAGTCGTCCGAATCGGCGCGCAACTCGATCCTCTACTACTACGAGAGCAAGCTGACCGCGATCCGCATGGGGCCGTGGAAATTCCACTTCTCGACGAAAGAAGACTACTACGCCAATGTGGTTCCGCAGACGGTCGCCGACATCTACAACCTGCGTGCCGATCCGTTCGAAAGCTACAGCGGCCTGGATGCGCAGGGGCACCTGATGCAGAAGATGTCGTGGCTGATGGCGCCGGCAAGCGAACTGGTGGCCGAGCACGTCAAGACGCTGCAGCAGTATCCGCCGGTGCAGGGCGGAACCAGCTTCGACATGTCCAACCTGATCGAGGACACGTTGAAGAAGGGGCAGCCGTAA	MSFGTARRKSPIATALLAALFSLSASEAAVAQDGTSDGGPPNILVIFGDDIGWQNVSAYGMGTMGYTTPNIDSIANDGVKFTDHYAQPSSTAGRAAFITGQYPIRSGMTTVAMPGGDLGLKAGSPSLAEVLKARGYATGQFGKNHLGDHNFALPTVHGFDEFFGNLYHLNTQEESEQRDYQNFARAYSGSVEAYEAKFGTRGVLHCYATGSADKTNDPRFGVVGKQKCTDTGPLTQERMKAFDEAEMIPAAMSFIQRSKDSGKPFFVWMNTSRMHLYTRLNDTWRYAAEKYTSEYDLHGSGMLQHDHDIGLVLAQLKSMGLDKNTIVVYTTDNGPEHSSWPHGATTPFRGEKMTTYEGGVRVPMMVKWPGHIPAGRTLNGIQGHQDLFTTLAAAAGEQDVAKKVMSEKKQYIDGVNNLDYWTGKSSESARNSILYYYESKLTAIRMGPWKFHFSTKEDYYANVVPQTVADIYNLRADPFESYSGLDAQGHLMQKMSWLMAPASELVAEHVKTLQQYPPVQGGTSFDMSNLIEDTLKKGQP				NA	NA	NA	NA	NA
BMS020_06072	1143			hypothetical protein	ATGGGTCTGGTACAGGCGGTGGCAGGTGCGGTCGGCGGCGTGTTGGCCGATCAATGGAAGGATTTCTACACCGTGCCGGCCGGGTTGCCGTCGACTGCAGCGCTGTTCGCCGCGGTGCCGCGCGGCACCAATGCCGGGCGCGGCTCCAATACCAGCGCCTCGTCGAACATCATCAGCAATGGCTCCAAGATCGTCGTGCCCGAAGGCTACGGCCTGCTGCTGGTGCAGGATGGCGCGATCACCGGCTTCGTCGCCGAGCCAGGTGGCTACGAGTGGCGCTCGGACGATGCGAACTCGCAGTCGGTCTTTGCCGGCGACGGCCTGGTCTCGCCGCTGATCGAGCAGAGCTGGGAGCGCTTCAAGTTCGGCGGCCAGCCCGGTTCGCAGCAGGCCGCGTTCTTCGTCTCGTTGAAGGAACTGCCCGACAACCGCTTCGGCACGCAGTCGGAGATCTACTGGGACGACGGGTTCCTCGGCACCCAGGTCGGCGCGGTGACGCGTGGTTCGTACACGCTGAAGATCGTCGACCCGATCCTGTTCGTGAAGAACTTCGTGCCGGCCAGCTACCTGCAGCCGGGCCAGGTGTTCGACTTCACCGACCTGGACAACGCCGCGGCCAGCCAGTTGTTCAACGAGGTCGTGGGCTCGCTCGCGCCGGCCTTCAGCCTGTATACGAATGACCCGGGCAAGGGCAACCGGATCACCAAGCTGCAGCAGGATTCGCTGGGCTTCGCCAAGAGCCTGTCCGACGCGGTCGAACAGGGCTACCAGTGGAAGTCCGATCGCGGCCTGGCGATCGTCAAGACCGCGATCGTCTCGATCGAGTACGACGCCAACACGCGCGAGCTGCTCAAGACCGTGCAGCGTGCCGACGCGCTGGCCGGCGCACGCGGCAATTCCAACCTGCAGGCCAGCGTCGCCCAGGGCATCCAGTCCGCCGGCGAGACCGGCGGCGCCGCCGGGCTGGTCGGGGTCGGCATGGCCAGCGGCATGTTCGGCGGCGTCGCCGGCATGCAGCAGCCGGTCGCACCGGCCGCGGACGATCCGGTCGCCAAGTTGAAGAAGGCCAAGGAAATGCTCGACCTCGGCCTGATCAGCCAGGCCGATTACGACGCCGCCAAGGCCAAGGCACTGGGCCTCTGA	MGLVQAVAGAVGGVLADQWKDFYTVPAGLPSTAALFAAVPRGTNAGRGSNTSASSNIISNGSKIVVPEGYGLLLVQDGAITGFVAEPGGYEWRSDDANSQSVFAGDGLVSPLIEQSWERFKFGGQPGSQQAAFFVSLKELPDNRFGTQSEIYWDDGFLGTQVGAVTRGSYTLKIVDPILFVKNFVPASYLQPGQVFDFTDLDNAAASQLFNEVVGSLAPAFSLYTNDPGKGNRITKLQQDSLGFAKSLSDAVEQGYQWKSDRGLAIVKTAIVSIEYDANTRELLKTVQRADALAGARGNSNLQASVAQGIQSAGETGGAAGLVGVGMASGMFGGVAGMQQPVAPAADDPVAKLKKAKEMLDLGLISQADYDAAKAKALGL				NA	NA	NA	NA	NA
BMS020_06073	1317			hypothetical protein	ATGACCAACCCGAACATCCCGCCGCCGCTTCCGGCGGCGCCTGTCTCCGGTCCCGGATCGCCGCAGGACGTGCCGCCGCTACCGGGCGCGCTGCCGCCGGAGATCGGCACACTGCCCGAGCCGATCCGTGACGAGCTGCTGGCACCGGATCCGCTCGCCATCGATACCGCCGCGGCCGAACTCAAGGACGGCCTGAACCGCTGCCCGAAGTGCGGATCAAGCGACATCCGCCACCGCCTCGGCACCGACATGCTGGTCTGCCAGTACTGCCGCCACGCGTGGCAAGGCGAACGCGTGGAGGAGGCATTCGGCTTTGGCGAGGGCATCGCCGAGCTGCGTGGCACGGTGATCGCCTCGGGCGCGCGCGACATCGATGCCGACGCGTCCAGCCTGCTGAGCTACAAGTGCAGCGGCTGCGGCGCCGAAGTCACCGTCAATACCGAAAGCACGATGACGGCGCGCTGTCATTGGTGCCGGCACGTGTTCGGCGTCAACGAACAGATCGCCAACGGCGCGGTGCCCGATGCGGTGCTGCCGTTCCACATCAAGAAGGACGACGCGGTCGCGCGCATCCGCCAGTTCGTCGACAAGCGCAGGCTGTTCGCACTGAAGGCGTTCAAGGAGCAGTTCACCCCGGAGAACGTGGTCGGCGTCTACCTGCCTTACATGCTGGTCGACGGCAACGTCAGCGCCGCCGTGGCCGGCACCGGCGAGATCACCACGCGCCAGTACACGCGCGGCAGCGGCGACAAGAAGAAGACCTACTACGACGCCGACGTGTACCAGGTGCAGCGCGGCGTCGACTTCACCGTCGACGACCTGCCGCTGGAATCGTCGGCCGCGCGCGGCAACCTCGATGCGCGTGCCAACACCAACAACATCATCAACACAATCCTGCCGTTCGACACCAAGAACGCGCTGAAGTGGAACGCCTCGTACCTGGCCGGTTTCAGCTCGGAGAAGCGCAACCTCGACGTCGAGCAGCTGAGACCGCGGCTGGAAGGCCAACTGCTGTCGATCGCGCGCGCGCAGGTGGAACGGTCGGTGGGGCGCTACGACCGTGGCGTGCGCTGGGAGCGCGAGCGGCTGGAGGTGCACGGCACGCGCTGGGTGTCGATGTACCTGCCGGTGTGGCTGTATTCCTACCACCAGCCCGGCCGCAACGGCGGCATGCTGCACTACATCGCGGTGAACGGCCGCACCGGCGAGACCATGGGCAGCGTGCCGGTGCAGCAGTGGAAGCTGCTGCTGGCGGCGCTGACCGCCGGCACCGTCATCGAAGCCCTGGCTCTCTGGATCGTGGTGGCGACCGCATGA	MTNPNIPPPLPAAPVSGPGSPQDVPPLPGALPPEIGTLPEPIRDELLAPDPLAIDTAAAELKDGLNRCPKCGSSDIRHRLGTDMLVCQYCRHAWQGERVEEAFGFGEGIAELRGTVIASGARDIDADASSLLSYKCSGCGAEVTVNTESTMTARCHWCRHVFGVNEQIANGAVPDAVLPFHIKKDDAVARIRQFVDKRRLFALKAFKEQFTPENVVGVYLPYMLVDGNVSAAVAGTGEITTRQYTRGSGDKKKTYYDADVYQVQRGVDFTVDDLPLESSAARGNLDARANTNNIINTILPFDTKNALKWNASYLAGFSSEKRNLDVEQLRPRLEGQLLSIARAQVERSVGRYDRGVRWERERLEVHGTRWVSMYLPVWLYSYHQPGRNGGMLHYIAVNGRTGETMGSVPVQQWKLLLAALTAGTVIEALALWIVVATA				NA	NA	NA	NA	NA
BMS020_06074	252			hypothetical protein	ATGAGCGACGACAACGGCCTCTGGCTGCTGCTGGCCGGCCCCGCCGGCGCGACCGCGTTGTACTGGACGCTGTACCGGTACTACCGCAACACCGACAAGTCGCATGCCTACGAACGCGAGACGGCGATCGACGCACAACCGGTGACCGGCTCGGACCGCAAGGTCGATACCATCACCGGTACCCAGGAGCGCCGGATCCGCGGCGACAACGTCGGCGACTACCGCACCCGCGTGCAGCGCGACAGCAGTTGA	MSDDNGLWLLLAGPAGATALYWTLYRYYRNTDKSHAYERETAIDAQPVTGSDRKVDTITGTQERRIRGDNVGDYRTRVQRDSS				NA	NA	NA	NA	NA
BMS020_06075	1425	efpA		putative MFS-type transporter EfpA	ATGCCCCCGCTCTCCCGAACCACCGGGTCGCACCCGACCGCGGTGCTGACCATCATTCTGGTCAGCTACCTGATGATCATCCTGGACACCTCGATCGTCATCACCGGCCTGCCCCGCATCCGCGACGAACTCGGCTTTTCCTCCGCGCAACTGGCCTGGGTGCAGAGCATCTACACGCTGACCTTCGGCGGCTTCCTGCTGCTGGGCGCGCGCGCCGGCAACATCCTCGGCCGCCGACGCATGTTCCAGCTCGGGCTCGGGGTGTTCACGCTGGCGTCGGTCGGCGTGGCGCTTTCCCACTCGGCCGCGACGATGGTGTTCAACCGTGGCCTGCAGGGCCTCGGTGCGGCCATCCTGGCGCCGTCCTCGCTGGCGCTGCTGTCGGTGTACTTCGCCGAAGGCCCGGAGCGCCGCCGCGCCACCGCGCTGTACGGCGCCGTCGCCGGAATCGGCGCCAGCGTCGGCCTGGTGCTCGGTGGGTTGCTGGCCGACACGCTGTCCTGGCGGGTCGGCTTCTTCATCAACCTGCCGGTGGGGCTGGCGATGGCCGTGGCCGGCGCGCGCCACATCGGCGAGACCGAACGCCACCTGGGCAAGCTCGACGTTCCTGGAGCGGTGCTCTCCACCGCCGGCTTCGGCACGCTGATCTGGGGCATCCTGCGCCTGGCCGACCACGGCTGGCACGACCGCGCGACCGCGGCCGGCATCGTCGTCGGCACGCTGCTGATCGCCGCGTTCGTGCTGCACGAACGGCGTGCGCCGCAGCCGGTCATGCCGCTGCACCTGTTCGCGCATCGCGAGCGCGCCGGCGCCTACCTGTCGCGGTTCCTGTTCCTTGCCGCGATGGTCACGTTCTTCTTCTTCGGCACGCTGTACCTGCAGCAGGTGCTGGGCTTCAGCGCGCTGCAGGCCGCGCTCGGCTACCTGCCGATGACGTTGGTGAACTTCGTGGTGGCCCTGGCCGGACCGAAGAAACTTGCCGCGCTGAGTCCGGCAACGCAGCTGGTGCTCGGCCTGGCGCTGGCGATGTGTGGCCTGCTGTGGCTGAGCCTGGCCGGCGCGCACAGCAGCTACCTCGCCGGCGTCGCGTTGCCGATGGTGCTGATCGGCGCCGGCCAGGGCCTGTGCTTCGGGCCGATGACCGCCTCCGGCATCGCCGGCACCCGGCCACAGGATGCCGGCGCGGCCTCGGGCCTGGTCAACGTCGTGCATCAACTGGGCAGTTCCACCGGCCTGGGCATCATGGCGGCGCTGGCGGCAATGACCGAAGCCGGCGCCGACGGCACCGCCGCGCTGGCCCGCGGCATCGACGCTGCGATGCGGGGGGCTTCGCTGTGCATGGCGCTGGCGCTGCTCGCGGCGCTGCTGCTGGTGCTGCCCGCGCAACGTCGCCGGCACGCTGCCGCGGCCGGTTCGCCGGCCTGA	MPPLSRTTGSHPTAVLTIILVSYLMIILDTSIVITGLPRIRDELGFSSAQLAWVQSIYTLTFGGFLLLGARAGNILGRRRMFQLGLGVFTLASVGVALSHSAATMVFNRGLQGLGAAILAPSSLALLSVYFAEGPERRRATALYGAVAGIGASVGLVLGGLLADTLSWRVGFFINLPVGLAMAVAGARHIGETERHLGKLDVPGAVLSTAGFGTLIWGILRLADHGWHDRATAAGIVVGTLLIAAFVLHERRAPQPVMPLHLFAHRERAGAYLSRFLFLAAMVTFFFFGTLYLQQVLGFSALQAALGYLPMTLVNFVVALAGPKKLAALSPATQLVLGLALAMCGLLWLSLAGAHSSYLAGVALPMVLIGAGQGLCFGPMTASGIAGTRPQDAGAASGLVNVVHQLGSSTGLGIMAALAAMTEAGADGTAALARGIDAAMRGASLCMALALLAALLLVLPAQRRRHAAAAGSPA				NA	NA	NA	NA	NA
BMS020_06076	717			hypothetical protein	ATGCCAGCACCAGAACTGCGTATCGCCCCGGATGAAGTCTTCCAGGCCTCGCCTGCACTCGCGGTGATGACCGACGAGATCCTGCACCGGCATGTCTGGCAGCGCCGCGGGCTCTGCGCGCGCGACCGCTCGCTGGTCACGCTGGCCGCCTTGATCGCCACTGGGCGGACCGCGTTGCTGTGCGCGCAGGTCCGCGATGCGCTGGACGATGGCCTCAAGCCGAGCGAGATCGCCGAGCTGCTGGTGCAGCTGGCGTTCTACACCGGATGGCCGAACGCCGTGCTGGCCGCGGCCGAAGTGCGGCAGGCATTTGCCGGGCGCGGCATCGACCTGTCGGCCGCGCCGCTGGCGCAGGCGGTCGCGCTCGACCCGGACAGCGAACGCCAGCGCCGCGCGACCGTCGATGCCGCCGTGGCGCCAACCGCGCCCGGCCTGGCGGACGACACCAACGAGATCCTGTTCGGCCGCATCTGGCAGCGCGGCGACCTGCGCCCGCGCGACCGCAGCCTGGCGACGATGGCGGCGCTGGTCGCGATCGGCCAGCCCGAACAGCTTGGCTTCCATGCCAACCGCGCGATGGACAACGGCCTCAGCGCCGCCGAGGCCGGAGAAGCGCTTGCGCACCTGGCCTATTACGCCGGCTGGCCGCGCGCGATGTCCGCGGTCGCGAGCCTCAGGATCGTGCTCGACCAGCGCGCCGAAGCCCAGGCGGGTTGA	MPAPELRIAPDEVFQASPALAVMTDEILHRHVWQRRGLCARDRSLVTLAALIATGRTALLCAQVRDALDDGLKPSEIAELLVQLAFYTGWPNAVLAAAEVRQAFAGRGIDLSAAPLAQAVALDPDSERQRRATVDAAVAPTAPGLADDTNEILFGRIWQRGDLRPRDRSLATMAALVAIGQPEQLGFHANRAMDNGLSAAEAGEALAHLAYYAGWPRAMSAVASLRIVLDQRAEAQAG	PGPT0005005_47	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005005-pcaC-K01607	NA	NA
BMS020_06077	1218	moeA_2	COG0303	Molybdopterin molybdenumtransferase	ATGACGGACGCCTTTCCCCAACGCATCAGCTACGCCGACGCCGGCGTCATCATCACCGAGGTCGCCGCGCGCCATCGCTGCGCGGTCGACAGCCTGGCCGTTGCCCGCGCCGACGGGCGCATCCTCGCGCGCGACCTGATCGCACCGATCGCATTGCCGCCGTTCGACAACAGCGCGATGGATGGCTTCGCACTGCGCCACGCCGATCTGGCCGGGCAGGGCGACGGCCTGCGCCTGGTCGGCGAACAGTTCGCCGGTGGCATGCCGCTGCCGGCGCTCGGCCCCGGCGAGTGCGTGCGCATCACCACCGGCGCGGCGTTGCCACCCGGTGCCGATACCGTGGTGGCGAAGGAAGACGCGCGCGAGGCCGCAGGCGTGGTGCAGATGCCGGCAACGGTGCAGCCGGGCGCCTTCGTGCGTCCGCGCGGTGGCGACGTGCGGGCCGGCGAGCGCGTCGCCGAGGCCGGGTGCGTGCTGCGACCGGCGCGGATCGGCCTGGCCGCGGCGCTCGGCCTGGCGCAGATCGAGGTCTCGGCGCGGCCGACCGTGGCGGTATTCACCCTGGGCGATGAACTGGTCGAACCCGGCATGCCGCTCGCGGCGGGCCAGATCCATAACAGCAACCGCGACCTGCTGATGGCGCTGCTGCGTGCCGAAGGGCTGGCACCGACGGCGTGGCCGGCGCTGCCGGATGATCCGGCCCGGTTGCGGACGATGCTGGAGGACGCCTGCGCGGCCTTCGATGTGGTGATCACCTGCGGCGGCGTGTCGGCCGGCGAGAAGGACCACGTGCCGGGCGTGCTGCAGGCGCTCGGCCAGCTGCATTTCTGGAAGCTGCGGATGAAGCCGGGGATGCCTGCGTCGCTGGCGTCGGTCGACAAGGCGGTGGTGCTGGCGCTGCCGGGCAATCCGGTCTCGGCGCTGGCCACGTTCGTGGCGCTCGGACGCCCGTTGCTTGACGCCATGCAGGGGCGCCGCGAACCACGCCTGCAGTTGCGCGCGGCACTGCAGACAGACTGGGACAAGACGCATGCGCGGTACGAATTCCTGCGTGGGCGCCTGCACGCGGGTGAGGATGGACGCCTGCTGGTCACGCCGAATCCGGCCGATGCCTCGTACCAGCTGCGCGGCGCCGCCGAGAGCGATGTGCTGATCGAACTGGGCGAGGGCGCGCGCCGCTATGCGCAGGGCGAGGTGGTGCCGGTCATCGCGTACTGA	MTDAFPQRISYADAGVIITEVAARHRCAVDSLAVARADGRILARDLIAPIALPPFDNSAMDGFALRHADLAGQGDGLRLVGEQFAGGMPLPALGPGECVRITTGAALPPGADTVVAKEDAREAAGVVQMPATVQPGAFVRPRGGDVRAGERVAEAGCVLRPARIGLAAALGLAQIEVSARPTVAVFTLGDELVEPGMPLAAGQIHNSNRDLLMALLRAEGLAPTAWPALPDDPARLRTMLEDACAAFDVVITCGGVSAGEKDHVPGVLQALGQLHFWKLRMKPGMPASLASVDKAVVLALPGNPVSALATFVALGRPLLDAMQGRREPRLQLRAALQTDWDKTHARYEFLRGRLHAGEDGRLLVTPNPADASYQLRGAAESDVLIELGEGARRYAQGEVVPVIAY	PGPT0008430_4254	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
BMS020_06078	1401	der_2	COG1160	GTPase Der	ATGCTGCCTTTGGTCGCCCTGGTTGGACGGCCGAATGTCGGCAAGTCCACCCTCTTCAACGCGCTGACCCGTAGCCGTGACGCCCTGGTCCACGACCAGCCCGGCGTCACCCGGGACCGCAACTATGGCGTGTGCCGGCTGGCTGAAGAGCGGCCGTTCGTGATCGTCGACACCGGCGGCATCGCCGGTGACGAGGAAGGCCTGGCTGGCGCCACCGCGCGCCAGGCCCGGGCCGCCGCCGGCGAGGCCGACCTGGTGCTGTTCGTGGTCGATGGCCGCGAGGGTGCCTCGGCGCTGGACGACGAGATCCTGTCCTGGCTGCGCAAGCTGTCGCGGCCGACCGTGCTGGTCATCAACAAGATCGACGGTGTCAACGAGGACACCGTGCGCTCCGATTTCGCCCGCTACGGCTTCCCGGAGATGCTGACGATCTCCGCCGCGCACCGCCAGGGCGTGGACGACCTGCTCGACGAGGTGCTGGAGCGCCTGCCCGAGGAAGGTGCCGGCGAGCTGCTGGACGAAGATCCGTCGCGGATGCGCATCGCCTTCGTCGGCCGCCCCAACGTCGGCAAGTCGACGCTGGTCAACCGCCTGCTCGGCGAGGAGCGGATGATCGCCTCGGACGTGCCGGGCACCACCCGCGACTCGATCGCGGTGGACCTGGAGCGCGATGGCCGCGAGTACCGCCTGATCGACACCGCCGGCCTGCGCCGCAAGTCCAAGGTCGAGGAGGCGGTGGAGAAGTTCAGCGCGTTCAAGACCCTGCAGTCGATCGAGCAATGCCAGGTCGCGGTGTTGATGCTGGATGCGACCGAGGGCGTCACCGACCAGGACGCGACCGTGCTCGGCGCCATCCTGGAGGCCGGCAAGGCGCTGGTGGTGGCGATCAACAAGTGGGACGGGCTGACCGACTACCAGCGCGAGCAGGCCGAAGACCTGCTGTCGCGCAAGCTCGGCTTCGTCAGCTGGGCCGAGGCGGTGCGGATTTCGGCCAAGCACGGCTCCGGCCTGCGTGAGTTGTTCAAGGTGATCCACCGCGCGCATGCCTCGGCGACCAAGGAATTCAGCACCAGCGAGGTCAACAAGGCGCTCGAGATCGCCTACGAGACCAACCCGCCGCCGAGCGTGCGCGGGCATGTCTCCAAGCTGCGCTACGTGCATCCGGGCGGCACCAACCCGCCGACCTTCATCGTCCACGGCACGCGCCTGAAGGTGCTGCCGGATTCGTACAAGCGCTACCTGGAGAACTTCTTCCGCAAGCGCTTCAAGCTGATCGGTACGCCGGTGCGCTTCCTGTTCCGCGAAGGCGCCAACCCGTACGAAGGCAAGAAGAACGAGCTGACCGAGCGCCAGGTGCAGCGCAAGCGACGCATGCTGCGCCACGTGAAGCGGGGCAAGTAA	MLPLVALVGRPNVGKSTLFNALTRSRDALVHDQPGVTRDRNYGVCRLAEERPFVIVDTGGIAGDEEGLAGATARQARAAAGEADLVLFVVDGREGASALDDEILSWLRKLSRPTVLVINKIDGVNEDTVRSDFARYGFPEMLTISAAHRQGVDDLLDEVLERLPEEGAGELLDEDPSRMRIAFVGRPNVGKSTLVNRLLGEERMIASDVPGTTRDSIAVDLERDGREYRLIDTAGLRRKSKVEEAVEKFSAFKTLQSIEQCQVAVLMLDATEGVTDQDATVLGAILEAGKALVVAINKWDGLTDYQREQAEDLLSRKLGFVSWAEAVRISAKHGSGLRELFKVIHRAHASATKEFSTSEVNKALEIAYETNPPPSVRGHVSKLRYVHPGGTNPPTFIVHGTRLKVLPDSYKRYLENFFRKRFKLIGTPVRFLFREGANPYEGKKNELTERQVQRKRRMLRHVKRGK				NA	NA	NA	NA	NA
BMS020_06079	1356	bamB_2		Outer membrane protein assembly factor BamB	ATGAAGCAGGTGGTCATGTTCAGACGTATCGCGATCGTCGCCCTGATGGGCGTATCCCTGGCTGGCTGCAGCACCGTCAAGGGCTGGTTCGCCGGCAAGGACGCCGCTGCCAAGAAGGCGCAGGAGCCGGCCGAGCTGGTCGACTTCGAGCCGACCGTGAAGGTGAAGAAGCTCTGGTCGACCAGCGTCGGCAAGGGTGAGCAGCACATTGGCGTGCGCCAGCGCCCGGTCGTCGTCGACGGCCGCGTCTATGGCGCCGCCGCGTCCGGCAGCGTCTATGCGCTGGACCTGCAGACCGGCAAGAAGGTCTGGGAATACGAGGCCAAGAAGCAGCGCAAGGAACAGCTGGCCGCAGCCCAGGAGCAGCCCAGCCAGGTCGAGAGCGAGTCGAGCAAGGGCTTGACCAAGGAAGAGAAGGCCTCCCGCAAGGAGCGCCTGCGCAACGAGAAGCAGCAGCGCAAGGAAGCCAAGGCGCTGGCCAAGAAGCAGCCGCTGCCGCGTTTTGCCGGCGGTCCGGGCGTGGGCGACGGCCTGGTCGCGATCGGCACGCTGGAAGGCGAGGTGATCGTGCTCGACGCCGCCACCGGGACCGAGAAGTGGCGCGCCAAGGTGCCCAACGAGGTGATCAGCGCGCCGCTGGTGTCCCAGAACACCGTGTTCGTGCGCAGCAACGACGGCCGCGTCAGCGCGTTCGATGCCACCACCGGCGAGCGCCGCTGGTTCCATGACGAGGAGTCGCCGACCCTGACCGTGCGCGGCAACGCCGCCCTGGTAGGTGGTCCGGGCGTGCTGTTCGTCGGCAACGACGATGGCACCCTGACCGCGCTGGCGATGCAGGACGGCCGGCCGATGTGGAACCAGAACGTCGGCGTGCCGGAAGGCCGCACCGAGCTGGAGCGCATGGCTGACGTCGACGGCGCGCCGGTGCTGGAAGGCACCACGCTGTACGCGACCAGCTTCAAGAACGAGACCCTGGCGATCGAAGGCCCGAGCGGCCGGCCGGTGTGGAGCCGTGACCACGGCGGCGCCGGTGGCGTCGGCGTGACCTCCGGGTACGTCATCGTTGCCGACAACGCCGGATCGGTGTGGGGCCTGGACAAGGCCAGCGGCTCGGCGATGTGGTCGCAGGCCGCGCTGGCCCGGCGTTCGCTGACCGGTGTGGCGATCCAGGGCGACTACGCCGTGGTCGGTGACTACAAGGGCTACCTGCACTGGCTGAATGCCAGCGACGGCAAGCTCGCCGCGCGTGAGCGCGCCGGCCGCGACGCACTGGTCGCGCAACCGGTCGTCGCCGACGGCATACTGCTGGTCGAAAACACCGATGGCGACGTGGTCGCCTTCAAGTTGGCCCAATAA	MKQVVMFRRIAIVALMGVSLAGCSTVKGWFAGKDAAAKKAQEPAELVDFEPTVKVKKLWSTSVGKGEQHIGVRQRPVVVDGRVYGAAASGSVYALDLQTGKKVWEYEAKKQRKEQLAAAQEQPSQVESESSKGLTKEEKASRKERLRNEKQQRKEAKALAKKQPLPRFAGGPGVGDGLVAIGTLEGEVIVLDAATGTEKWRAKVPNEVISAPLVSQNTVFVRSNDGRVSAFDATTGERRWFHDEESPTLTVRGNAALVGGPGVLFVGNDDGTLTALAMQDGRPMWNQNVGVPEGRTELERMADVDGAPVLEGTTLYATSFKNETLAIEGPSGRPVWSRDHGGAGGVGVTSGYVIVADNAGSVWGLDKASGSAMWSQAALARRSLTGVAIQGDYAVVGDYKGYLHWLNASDGKLAARERAGRDALVAQPVVADGILLVENTDGDVVAFKLAQ				NA	NA	NA	NA	NA
BMS020_06080	639			hypothetical protein	ATGGCGATCGACGAACTGCTGGACGAACACGAACAGGGCGAGCGCGTCCGTTCCTGGCTCAGGAAGAATGGTGCCGGCCTGCTGGGCGGCGTCTGCGTGGGGCTCGCGATGATCGTGGGCTGGCAGTGGTGGCAGAAGCAGCACGCCACCCAGGCCGCCGAGGCCAATACGCGCTATGACGCGGTGACCAAGAGCATCGCGGCCAAGGACCTGGACAAGGCATCCAAGGACATGGCGGCGCTGGCCACTGACGGCAGCGGCGTCTATGCCGAGCTGGCCGCGTTGCGCCTGGCCAAGGCGCAGGCCGATGCCGGCAAGACCGACGATGCGATCAAGACGCTGCGCGAGGTCAAGGCCGACAGCGCGTTCCGCCTGGTCATCGACCAGCGCCTGGCGCGCCTGCTGATCGAAGCCGGCAAGCCGGCCGATGCCGGCGCCCTGCTGGCCAATGCCGACGACGCGATCAGCCTCGAGATCCGCGCCGATGCGCTGGTCGCGCAGGGCAAGCAGGACGCCGCGCGCGACCTCTATACGAAGGCGCTGACCACGGTCGACGTGGCCTCGCCGCAACGCCGCTTGCTGGAGACCAAGCTGATGGATGTCGGCGGCCAGGTCCCGGATCCAGCGGAGCCGATCTGA	MAIDELLDEHEQGERVRSWLRKNGAGLLGGVCVGLAMIVGWQWWQKQHATQAAEANTRYDAVTKSIAAKDLDKASKDMAALATDGSGVYAELAALRLAKAQADAGKTDDAIKTLREVKADSAFRLVIDQRLARLLIEAGKPADAGALLANADDAISLEIRADALVAQGKQDAARDLYTKALTTVDVASPQRRLLETKLMDVGGQVPDPAEPI				NA	NA	NA	NA	NA
BMS020_06081	876	rodZ_2		Cytoskeleton protein RodZ	GTGATCAATGATTCCAATCCGAACCCTTTCGAGCAGCAGAAAGGATGCGGACAGTGCCTGCGCGAGGCTCGTGAAGCCGCAGGTCTGGCAATAGAAGACGCTGCAAACCGGCTGCGCATGCCGGTGCAGGTGGTGCGCTCGCTGGAACAGGAGGATTGGCAGAAGCTGGGCGCTCCCGTGTTCGTACGCGGTCAGCTGCGCAGCTATGCGCGCCTGCTCAACGTCGACCTGGGGCCGCTGATCGAGACCGCGCAGATCGCGCCGATCGAGCCGGTCACCCTGGTCAGCCATACCCACACCCCGCGCCTCCGTCGTTTGATGGAAAGTGCCGCGCGCAAGGCGGTCTACGTGGTCATGACCGGCGTGCTGGCGGTGCCGGCGTGGTACGCCGCGCGCGGCTACTTCGGTCCGGAGAAGGCTCCGACCACCGCGTCGCTGGACGTGGTGCCGGCCAGTGCACTGCCGGCCGAGACGGCGGTGGCGGCGAATGCCGGCAGCCCGGCGGCGACGCCTGCACCGGCGCCCGCGGCCAAGGATGCAACCCCGTACATCGCGTCGATGGCGCCGGTTCCGCGCGGCAATGCCACGGTGGCGGCCGGCGATGGCGGCGGCCACGGGTTGTCGCTGCGCTTCAATGGCGACAGCTGGATGCAGGTCACCGCCCCGGACGGCACGCCGATCGAGAAGGCGTTGGTCAAGGCGGGCGAGCAGCGCAGCTACGATGCCGGCACGGTCGGCAAGGTCGTGCTCGGCAATGCATCCGCGGTGGAGGTTCAGCAAGCCGGCAGTATCGTCGACGTGAAGCCGTTCCAGCGAGCCAATGTCGCGCGTTTTGCGGTATCCTCCGATGGCTCCGTGGTGCCGGCTTCCGAGTAG	MINDSNPNPFEQQKGCGQCLREAREAAGLAIEDAANRLRMPVQVVRSLEQEDWQKLGAPVFVRGQLRSYARLLNVDLGPLIETAQIAPIEPVTLVSHTHTPRLRRLMESAARKAVYVVMTGVLAVPAWYAARGYFGPEKAPTTASLDVVPASALPAETAVAANAGSPAATPAPAPAAKDATPYIASMAPVPRGNATVAAGDGGGHGLSLRFNGDSWMQVTAPDGTPIEKALVKAGEQRSYDAGTVGKVVLGNASAVEVQQAGSIVDVKPFQRANVARFAVSSDGSVVPASE				NA	NA	NA	NA	NA
BMS020_06082	816			hypothetical protein	ATGCAACGGCGTGACGTCTCGCTGATTGCGGGTCTGATCGTCGCCCTCGCAGCCGCCGGGTGCGGCCACAACGTGGGCATGACCAAGGAGCCCTCGAGCAAAGTCGAGAAGGTCGCTCCGGAATACGATTTCCGCGACAGCCGCGCGACCCGCGAACGGCTTGAGCGCGAGCGCAAGATCGGCACGGCGATGGTCGCGATCCGCGCCCGCGACTTCGACCGGGCCGAGCCGCTGGTGCGCGAGATCGTCCGCGACGATCCCAAGCAGGTCGACGGCTACACGATGTTGGCGGTGATCGCCGACGGGCGCGGGCAGGTCGAGGCGGCGGGCGAGAACTACCGTAAGGCCGCGGAGCTGGCGCCGGCGCAGGGCAATGTGCTCAACAACTACGGCGCCTGGCTGTGTGCGAACGGCTACCCGGCCGAGGCGCTGGTCTGGTTCGACCGCGCGATGGCCGACCCGCGCTACGGCCGCCCGCCTGCGGTGCTGGCCAATGCAGGTGGCTGCGCCCTGCAGGCCGGCCAGGCCGAGCGTGGCGTGCGCGACCTGCGCGGGGCGCTGGAGCGAGAGCCGGGCAATGCCTATGCGCTGGAGTCGATGGCGCGTTACCAGTACGACCATGGCCGGTATTTCGATGCCCGGGCGTTCTCCGAACGCCGCCTGGCAGCTGCACCGGCCACCGTATCCGTGCTAAAACTCGCCATTCAGATTGAATTGGGGCTGGGCGACAAGGCTGCCGCCAGTCGGTACCAACAGCGGTTGGAGAAGGAACTCGCGGAGCAGGCGACCGCAAATCCCGGGGCTAAAGCATTGTGA	MQRRDVSLIAGLIVALAAAGCGHNVGMTKEPSSKVEKVAPEYDFRDSRATRERLERERKIGTAMVAIRARDFDRAEPLVREIVRDDPKQVDGYTMLAVIADGRGQVEAAGENYRKAAELAPAQGNVLNNYGAWLCANGYPAEALVWFDRAMADPRYGRPPAVLANAGGCALQAGQAERGVRDLRGALEREPGNAYALESMARYQYDHGRYFDARAFSERRLAAAPATVSVLKLAIQIELGLGDKAAASRYQQRLEKELAEQATANPGAKAL	PGPT0015935_204	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015935-pilF-K02656	NA	NA
BMS020_06083	1212	rlmN_2	COG0820	Dual-specificity RNA methyltransferase RlmN	GTGAGCGAGATCGTGCAGATTCCAAGCGTGACCACCACCGGCGACCCGATCGCCGCGGCGCCGTCGCGCAAGCAGAACCTGCTCGATCTCGATCGCGCCGGGCTGGAGCGCTTCTTCGAGGAAACCCTCGGCGAGAAGCGCTACCGCGCCCACCAGGTGATGAAGTGGATCCACCACCGCTACGTCACCGAGTTCGACCAGATGACCGACCTCGGCAAGGCGCTGCGGGCCAAGCTCGAGCAGCATGCCGAGGTCGTCGTCCCCAACGTGGTGTTCGACAAGCCCTCCGCCGACGGCACCCACAAGTGGCTGCTAGGCATGGGCGTGGATGGCAAGAACGCCATCGAGACCGTGTACATCCCGGACAAGACCCGCGGCACGCTGTGCGTGTCCTCGCAGGTCGGCTGCGGGCTGAACTGCACGTTCTGCTCGACCGCCACCCAGGGCTTCAACCGCAACCTGACCACCGCCGAGATCATCGGCCAGGTGTGGGTCGCGGCTCGCCATCTCGGCAACGTGCCGCACCAGATGCGCCGCCTCACCAACGTGGTGATGATGGGCATGGGCGAGCCGCTGATGAACTTCGACAACGTCATCCGCGCGATGAGCATCATGCGCGACGACCTCGGCTACGGCCTGGCCAACAAGCGCGTGACGCTGTCGACCTCCGGCCTGGTGCCGATGATCGATCGGCTCTCGACCGAGAGCGACGTGTCGCTGGCGGTGTCGCTGCATGCGCCGAACGACGCGCTGCGCGAAACCCTGGTGCCGCTGAACAAGAAGTACCCGATCTCGCAGCTGATGGAGTCCTGTGTGCGCTACCTGCGCAGCAGCCCCAAGCGCGATTCGGTGACGTTCGAATACACCTTGATGAAGGGTATCAACGACCAGCCCGAGCATGCCAGGCAGCTGGCGCGGCTGATGCGCCAGTTCGACAACGCGGTGCAGGCCAAGGACTCGGGCAAGGTCAACCTGATTCCGTTCAATCCGTTCCCCGGCACCCGCTACGAGCGCTCCGGCGAGGACGAGATCCGCGCATTCCAGAAGATCCTGCTCGACTCCCAGGTGCTGACGATGGTGCGGCGCACCCGCGGCGACGACATCGATGCCGCCTGCGGGCAGCTCAAGGGGCAGGTGATGGATCGCACCCGCCGGCAGGCGGAATTCCGGCGCACGCTCGAAGGGCAGGCTGGGCGAGATGCAACGGCGTGA	MSEIVQIPSVTTTGDPIAAAPSRKQNLLDLDRAGLERFFEETLGEKRYRAHQVMKWIHHRYVTEFDQMTDLGKALRAKLEQHAEVVVPNVVFDKPSADGTHKWLLGMGVDGKNAIETVYIPDKTRGTLCVSSQVGCGLNCTFCSTATQGFNRNLTTAEIIGQVWVAARHLGNVPHQMRRLTNVVMMGMGEPLMNFDNVIRAMSIMRDDLGYGLANKRVTLSTSGLVPMIDRLSTESDVSLAVSLHAPNDALRETLVPLNKKYPISQLMESCVRYLRSSPKRDSVTFEYTLMKGINDQPEHARQLARLMRQFDNAVQAKDSGKVNLIPFNPFPGTRYERSGEDEIRAFQKILLDSQVLTMVRRTRGDDIDAACGQLKGQVMDRTRRQAEFRRTLEGQAGRDATA				NA	NA	NA	NA	NA
BMS020_06084	426	ndk_2		Nucleoside diphosphate kinase	ATGGCGCTGGAGCGCACCCTGTCCATCATCAAGCCCGATGCCGTCGCCAAGAACGTCATCGGCGAAATCTACAGCCGCTTCGAGAAGGCCGGGCTGAAGATCGTTGCCGCCAAGTACAAGCAGCTGTCGCGCCTGGAAGCCGAGGGCTTCTACGCCGTGCACCGCGAGCGTCCGTTCTTCAACGCGCTGGTCGAGTTCATGATCTCCGGCCCGGTGATGATCCAGGCGCTGGAAGGCGAGAACGCCGTGCTGGCCCACCGCGAGCTGCTGGGCGCCACCAACCCGAAGGACGCCGCGCCGGGCACCATCCGCGCCGACTTCGCCGATTCGATCGACGCCAACGCCGCGCACGGCTCGGATTCGGTCGAGAACGCTGCGGTGGAAGTGGCTTACTTCTTCGCCGCGACCGAAGTGGTTTCGCGCTGA	MALERTLSIIKPDAVAKNVIGEIYSRFEKAGLKIVAAKYKQLSRLEAEGFYAVHRERPFFNALVEFMISGPVMIQALEGENAVLAHRELLGATNPKDAAPGTIRADFADSIDANAAHGSDSVENAAVEVAYFFAATEVVSR	PGPT0021210_3507	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021210-ndk-K00940	NA	NA
BMS020_06085	633			hypothetical protein	ATGGCCAAGGCCACCCACTTCTCGACCAAGGACCGCATCCTCGGCGCCGCCGAGGAGCTGTTCGCCCTGCACGGCTTTGCCGGCACCTCGCTGCGCCTGGTCACCAGTCATGCCGACGTCAACATCGCGGCGGTCAATTACCACTTCGGCTCCAAGGAGAACCTGGTCAACGAGGTGTTCCGCCGGCGCATGGACGAGATGACCGCCGCGCGCCTGAACCAACTCGAGGCCGCCCGCCGCGACCATCCGGGCGACCTGCGCGCAGTGCTGGCCGCGTTCGTCGCGCCGGCGCTGGCCATGGCCCAGGACGGCCAGAGCGGAGGCGCCTTCGTGCGGGTCATCGCCCGCGCCTACGCCGAGAAGAACGACAACCTGCGCAAGTTCCTGTCCGACCACTACGGCCACGTGCTGCGCGAGTTCGCCAAGGCGATCGCCGGCTGCGTGCCGGGCCTGAGCAAGGAGGAGCTCTACTGGCGCCTGGACTTCCTGGCCGGCGCGCTGACCTACGCGATGGCCGATTTCGGCCTGATCAAGCGCCCGGCCGGCGTCACCGAGGCCGACCACCGCGCGCATGCCGCGCGCGAACTCATCCGTTTCGCGGAGGCCGGCTTCCTCGCCGCCTCCTCACCGTAA	MAKATHFSTKDRILGAAEELFALHGFAGTSLRLVTSHADVNIAAVNYHFGSKENLVNEVFRRRMDEMTAARLNQLEAARRDHPGDLRAVLAAFVAPALAMAQDGQSGGAFVRVIARAYAEKNDNLRKFLSDHYGHVLREFAKAIAGCVPGLSKEELYWRLDFLAGALTYAMADFGLIKRPAGVTEADHRAHAARELIRFAEAGFLAASSP				NA	NA	NA	NA	NA
BMS020_06086	2373	fadN	COG1024	putative 3-hydroxyacyl-CoA dehydrogenase	ATGTCCAATCCGTTGCTAGTCCGTCGCGCCGCCGTGCTCGGCGCAGGCGTCATGGGTGCGCAGATCGCCGCGCACCTCACCAATGCGGGCGTCGACACCGTCCTGTTCGACCTGCCGGCCAAGGACGGTCCCGCCAGCGGGATCGTGCTCAAGGCCATCGCCAACCTGGGCAAGCTGAGCCCGGCGCCGCTGGCGAGCAAGGCGCTGGCCGAAGCGATCACTCCGGCCAACTACGCCGACGACCTGGAGCAGCTGAAGGGCTGCGATCTGATCATCGAGGCGATCGCCGAGCGCATGGACTGGAAGCAGGACCTGTACGCGAAGATCGCCCCGTTCGTGGCCGACCACGCGGTGCTGGCCTCCAACACCTCCGGCCTGGGCATCAACAAGCTCGCCGAGGTGCTGCCCGAGCAGCTGCGCCACCGTTTCTGTGGCGTGCATTTCTTCAACCCTCCGCGCTACATGCACTTGGCCGAGCTGATCCCGGCCAAGGGCACCGACCAGGCGGTGCTGGAAGGCCTGGAAACCTTCCTGACCACCCAGCTCGGCAAGGGCGTGGTCTACGCCAAGGACACCCCGAACTTCATCGGCAACCGCATCGGCGTGTTCTCGATCCTGTCGACGATCCACCACACCCAGCAGTCCGGCCTGGGCTTCGACGAGGTCGATGGCCTGACCGGCCCGCTGGTCGGGCGGCCGAAGTCGGCGACCTACCGCACCTCCGACGTGGTCGGCCTGGACACCATGGCGCACGTCATCAAGACCATGGCCGACACCCTGCCGGACGATCCGTGGCACAAGTACTTCGCCTCGCCGAAGTGGCTGGACGCGCTGATCGCCAAGGGCGCGCTGGGCCAGAAGACCGGCGCCGGCATCTTCCGCAAGGTCGGCAAGGACATCGTCGTGCTCGATCTGGAAAAGCAGGACTACCGTCCGGCTGACCGCAGCGCTGCGCCGGAAGTGGTCGAGATCCTGAAGATCAAGAACCCGGCGGAGAAGTTCGCCAAGCTGCGCGAGAGCCAGCACCCGCAGGCGCAGTTCCTGTGGGCGACGTTCCGCGACCTGTTCCACTACAGCGCCTACCATCTGGCCGACATCGCCCGCACCGCGCGCGACGTCGACTTCGCGATCCGCTGGGGTTACGGCTGGTCGCTCGGCCCATTCGAAACCTGGCAGGCCGCCGGCTGGAAGCAGGTCGCGCAGTGGATTGCCGACGACATCGCCGCCGGCAAGGCCATGAGCGATGCGCCGCTGCCGGCCTGGGTGCTGGACGGCCGCGACGGCGTGCATTCGGCCGAGGGCAGCTACAGCCCGACCGAGAATACCCAGGTGCCGCGTTCGGCGCTGCCGGTGTACCAGCGCCAGCGCTTCCCGGATCCGCTGCTGGGCGAAACGTTCGACCGCGGCCAGACCGTGTTCGAGAACGATGGCGTGCGCCTGTGGACCGACGGCGACGGCATCGGCGTGGTCAGCTTCAAGACCAAGATGAACACCGTCTCCGACCATGTGCTCAACGGCCTGCAGGAAGCGATCGGCATCGCCGAGCAGCAGTTCAAGGCCGTGGTGCTGTGGCAGGACAAGGAGCCGTTCTCGGCCGGTGCCGACCTGGCCGGCGCGCTCGGCCTGCTGCAGACCGGCAAGGTCGACCAGTTCGAGGAACTGGTGGCCAACTTCCAGCGCACCAGCCAGCGCATCAAGTATTCGCTGGTGCCGGTGGTCGCGGCGGTACGTGGGCTGGCACTCGGTGGCGGCTGCGAATTCCAGATGCACAGCGCCAAGGCGGTGGTCGCGCTGGAAAGCTACATCGGCCTGGTCGAAGCCGGCGTCGGCCTGCTGCCGGCCGGTGGTGGCCTGAAGGAACTGGCGGTGCGCGCCTCGCAGGCGGCCGGCCCGGGCGGCGACGTGTTCGCCGAGCTGAAGAAGACCTTCGAGACCGTGGCGATGGCCAAGGTGTCCAACTCGGCGGTCAACGCCAAGGAGCTGGGCCTGGTGCGCGCCGGTGACAAGGTGGTGTTCAACAGCTACGAGCTGCTGCACATCGCCAAGGCCGAGGCGCTGGCGCTGGCCGAGGGCGGCTACCGTCCGCCGCTGCCGGCCACCCGCATCCAGGTCGCCGGCGACGTCGGCATCGCCACCTTCAAGATGCTGCTGGTCAACATGCTGGAAGGCTATTTCGTCAGCGAGTACGACTACGAGATCGCCACCCGCATCGCCACCGTGGTCTGTGGCGGCGAGGTCGATCGCGGCGCTCTGGTCGATGAGGAGTGGCTGCTGAAGCTGGAGCGCAAGCACTTCGTCGAACTGGCGCAGCAGGAAAAGACCCAGGCCCGCATCGCCCACATGCTCAAGACCGGCAAGCCGCTGCGGAACTGA	MSNPLLVRRAAVLGAGVMGAQIAAHLTNAGVDTVLFDLPAKDGPASGIVLKAIANLGKLSPAPLASKALAEAITPANYADDLEQLKGCDLIIEAIAERMDWKQDLYAKIAPFVADHAVLASNTSGLGINKLAEVLPEQLRHRFCGVHFFNPPRYMHLAELIPAKGTDQAVLEGLETFLTTQLGKGVVYAKDTPNFIGNRIGVFSILSTIHHTQQSGLGFDEVDGLTGPLVGRPKSATYRTSDVVGLDTMAHVIKTMADTLPDDPWHKYFASPKWLDALIAKGALGQKTGAGIFRKVGKDIVVLDLEKQDYRPADRSAAPEVVEILKIKNPAEKFAKLRESQHPQAQFLWATFRDLFHYSAYHLADIARTARDVDFAIRWGYGWSLGPFETWQAAGWKQVAQWIADDIAAGKAMSDAPLPAWVLDGRDGVHSAEGSYSPTENTQVPRSALPVYQRQRFPDPLLGETFDRGQTVFENDGVRLWTDGDGIGVVSFKTKMNTVSDHVLNGLQEAIGIAEQQFKAVVLWQDKEPFSAGADLAGALGLLQTGKVDQFEELVANFQRTSQRIKYSLVPVVAAVRGLALGGGCEFQMHSAKAVVALESYIGLVEAGVGLLPAGGGLKELAVRASQAAGPGGDVFAELKKTFETVAMAKVSNSAVNAKELGLVRAGDKVVFNSYELLHIAKAEALALAEGGYRPPLPATRIQVAGDVGIATFKMLLVNMLEGYFVSEYDYEIATRIATVVCGGEVDRGALVDEEWLLKLERKHFVELAQQEKTQARIAHMLKTGKPLRN	PGPT0008395_947	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008395-fadN-K07516	NA	NA
BMS020_06087	1206	fadA_1	COG0183	3-ketoacyl-CoA thiolase	ATGAGCAAGCAGATCCAGGAAGCCTATATCGTCGCCGCCACCCGCACCCCGGTGGGCAAGGCGCCGAAGGGCGTGTTCCGTAACACCCGTCCCGACGACATGCTGGCGCACGTGCTGCGCGCGGTGGTCGCGCAGGCGCCGGGCATCGATACCTCGCGCATCGACGATGCGATCATCGGCTGCGCGATGCCCGAGGGCGAGCAAGGCATGAACGTGGCGCGCATCGGCGTGCTGCTGGCCGGCCTGCCCAATACCGTTGCCGGCCAGACCATCAACCGCTTCTGCTCGTCGGGCATCCAGGCGGTCGCGCTGGCCGCCAACGAGATCCGCCTCGGCAACGCCGACCTGATGCTGGCCGGCGGCACCGAATCGATGTCGATGGTGCCGATGATGGGCAACAAGGTCGCGCTGTCGCCGAGCGTGTTCAATGACGACCACGTCGCGATCGCCTACGGCATGGGCATCACCGCCGAGAAGGTCGCGCAGGAATGGAAGGTCAGCCGCGACGACCAGGACGCGTTCGCGCTGGCCTCGCACCAGAAGGCGCTGGCGGCGATCGCCGCCGGTGAATTCAAGGATGAGATCAGCCCGTACGAGATCCTCTCGCACGTGCCGGATCTGGCCGGCAACACCATCCAGCTGCGCAAGAAGCTCATCGACACCGATGAAGGCCCGCGCCCGGACACCTCGCTGGAAGGCCTGGCCAAGCTGCGCCCGGTGTTCCGCAACGGCCAGTTCGGCGGCAGCGTGACCGCTGGCAATTCCTCGCAGATGAGCGATGGCGCCGGTGCGGTGCTGCTGGCCTCCGAGCAGGCGATCAAGGATTACGGCCTGACCCCGCTGGCGCGCTTCGTCAGCTTCTCGGTCGCCGGCGTGCGCCCGGAAGTGATGGGCATCGGCCCGATCGAGGCGATCCCGAAGGCGCTCAAGCAGGCCGGCCTGAGCAAGGACCAGCTGGACTGGATCGAGCTCAACGAGGCGTTCGCCGCGCAGTCGCTGGCGGTGATCCGCGACAGCCAGCTCGACCCGTCCAAGGTCAATCCGCTCGGCGGCGCGATCGCGCTCGGCCACCCACTTGGCGCCACCGGTGCGATCCGCGCCGCGACGCTGGTGCACGGCCTGCGCCGGCACAGCAAGAAGTACGGCATGGTGACGATGTGCATCGGCACCGGCATGGGCGCAGCAGGCATCATCGAAGCGCTCTGA	MSKQIQEAYIVAATRTPVGKAPKGVFRNTRPDDMLAHVLRAVVAQAPGIDTSRIDDAIIGCAMPEGEQGMNVARIGVLLAGLPNTVAGQTINRFCSSGIQAVALAANEIRLGNADLMLAGGTESMSMVPMMGNKVALSPSVFNDDHVAIAYGMGITAEKVAQEWKVSRDDQDAFALASHQKALAAIAAGEFKDEISPYEILSHVPDLAGNTIQLRKKLIDTDEGPRPDTSLEGLAKLRPVFRNGQFGGSVTAGNSSQMSDGAGAVLLASEQAIKDYGLTPLARFVSFSVAGVRPEVMGIGPIEAIPKALKQAGLSKDQLDWIELNEAFAAQSLAVIRDSQLDPSKVNPLGGAIALGHPLGATGAIRAATLVHGLRRHSKKYGMVTMCIGTGMGAAGIIEAL	PGPT0001565_1449	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
BMS020_06088	402	crcB_2		Putative fluoride ion transporter CrcB	ATGAACCCGGCGGTGTGGTGGCAGTCGCTGCTGCTGGCGATGGCCGGCGGCGCGCTCGGCTCGGGACTGCGTTTCACCATCGGCAGCGCGATGCTGCAACGCTTCGGCGCTGGCTTCCCGTGGGGCACGCTGACGGTGAACCTGCTTGGTTCGTTCGTCGCCGGCTTCCTGCTGGTGTGGCTGGATGGGCGCGGCAACGCCGCCTGGGCGTGGAAGGCGCTGCTGATCGTCGGCGTGATGGGCGGACTGACGACGTTCTCGTCGCTGATGATGGAGTGCCTGGTGTTCGCACGCGGCGACCGCTCGCTGCTGATCGGCGTCTATCTGGCGATCACCCTGGTGTCCGGCCTGCTGCTGGTGTTCCTCGGCGCGCGGGTAGGGCAGGCGCTGGGCGCGCAGTAA	MNPAVWWQSLLLAMAGGALGSGLRFTIGSAMLQRFGAGFPWGTLTVNLLGSFVAGFLLVWLDGRGNAAWAWKALLIVGVMGGLTTFSSLMMECLVFARGDRSLLIGVYLAITLVSGLLLVFLGARVGQALGAQ	PGPT0004985_1061	DIRECT EFFECT	BIO-REMEDIATION	FLUORIDE_DETOXIFICATION	FLUORIDE_RESISTANCE	FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199	NA	NA
BMS020_06090	1374	rarA_2	COG2256	Replication-associated recombination protein A	GTGGCCCGTTCCAGATCCTCATTCCCCGAAGGCGGCGACCTGCTGAGCGTCGATCGCGAAGGCCTGCGTCCGCTGGCCGAACGCATGCGCCCACGCGCGCTCGATGAGATGGTCGGGCAGAAGCGCCTGCTCGCGCCGGGCAGCGCATTGCGCCGCGCGGTCGAATCCGGGCGCGTGCATTCGATGATCCTGTGGGGGCCGCCCGGCTGCGGCAAGACCACGCTGTCGCTGCTGCTGGCGCGCTATGCCGATGCCGAGTTCCGGGCGATCTCGGCGGTGCTGTCCGGCTTGCCGGAGGTGCGCCAGGTGCTGGCCGAGGCGGCGCAGCGCTTCGCCGAAGGACGGCGCACGGTGCTGTTCGTCGACGAGGTGCACCGGTTCAACAAGTCGCAGCAGGATGCGTTCCTGCCGCACATCGAGCGCGGCACCATCATCTTCGTCGGTGCGACCACCGAGAACCCCTCGTTCGAATTGAACTCAGCGCTGCTGTCGCGCTGCCGCGTGCACGTGCTGGAGGCGGTGTCGCCGCAGGACGTGGCCGAGGCGCTGCGGCGCGCGCTCGACGATGGTGAGCGCGGGCTGGGCGGGCAGGGCATCGAGGTGTCGGACGAGGCGCTGCTGGAAATCGCCAGCGCCGCCGACGGCGACGTGCGGCGTGCGCTGACCCTGCTGGAGATCGCCGCCGAGCTGGCCGCCGACGAAGGTGGCCGGATCACCCCTCAGACCCTGCTGCAGGTGTTGGCCGACCGCACCCGCCGCTTCGACAAGGGCGGCGAGCAGTTCTACGACCAGATCTCGGCGCTGCACAAGTCGGTGCGCAGTTCCAATCCCGATGCGGCGCTGTACTGGCTGACGCGGATGCTCGATGGCGGTTGCGACCCGGCCTATCTTGCGCGGCGGCTGACGCGGATGGCGATCGAGGACATCGGCCTGGCCGATCCGCGCGCGCAGTCGATGGCGCTGGAAGCCTGGGACATCTACGAGCGCCTCGGCAGCCCGGAAGGCGAACTGGCGTTCGCGCAGCTGGTGCTGTACCTGGCCAGCACCGCCAAGTCCAACGCCGGCTACGCGGCATTCAACCAGGCCAAGGCCGAGGTGCGCGAGAGCGGCACCCTGGAAGTGCCGCTGCACCTGCGCAACGCGCCGACCAAGTTGATGAAGAACCTCGGCTACGGCGCCGAGTACCAGTACGACCACGACGCCGAAGGCGGTATCGCGCTCGACCAGACCGGGTTCCCCGATGCGATGGGGGAGCGCGTCTACTACGCACCGGTGCCGCGCGGGCTGGAGATCAAGCTCAAGGACAAGCTCGACCGGCTGCGCGAGGCGCGGGCGCAGGCACGGGCTGACAAGGCCGCACGCGCAAAGCGATAA	MARSRSSFPEGGDLLSVDREGLRPLAERMRPRALDEMVGQKRLLAPGSALRRAVESGRVHSMILWGPPGCGKTTLSLLLARYADAEFRAISAVLSGLPEVRQVLAEAAQRFAEGRRTVLFVDEVHRFNKSQQDAFLPHIERGTIIFVGATTENPSFELNSALLSRCRVHVLEAVSPQDVAEALRRALDDGERGLGGQGIEVSDEALLEIASAADGDVRRALTLLEIAAELAADEGGRITPQTLLQVLADRTRRFDKGGEQFYDQISALHKSVRSSNPDAALYWLTRMLDGGCDPAYLARRLTRMAIEDIGLADPRAQSMALEAWDIYERLGSPEGELAFAQLVLYLASTAKSNAGYAAFNQAKAEVRESGTLEVPLHLRNAPTKLMKNLGYGAEYQYDHDAEGGIALDQTGFPDAMGERVYYAPVPRGLEIKLKDKLDRLREARAQARADKAARAKR				NA	NA	NA	NA	NA
BMS020_06091	633	lolA_3	COG2834	Outer-membrane lipoprotein carrier protein	ATGCTTCGTTCGCTCCGTTATGCCGTCCTCGCGACCGCACTGGTCGCCGGCACCGCCGTTGCCGGTGCCCGCACCGAACTGGACAGCTTCACCAAGGGGCTGAAGGGGCTGGACGGGCAGTTCACCCAGCAGGTCACCGATGCCCGCGGCAAGGTCAAGGAATCCTCCAGCGGCCGTGTGGCGCTGGCGGCGCCGCGTCTGTTCCGCTGGGAATACGCCAAGCCGTACAAGCAGCTGATCGTCGCCGATGGCCGCAACGTCTGGGTGTTCGACCCGGACCTGGAGCAGGCCACGGTGAAGGCACAGGGCGAAGAGGAACAGAGCAGCCCGCTGACCGCGCTGATCGACCCGGGCAAGCTCGACCGCCAGTACGACGTCAGCGAGGAGGCGGTCCCGCGCGACGGCCTGCAGTGGCTGTCGCTGACGCCGAAGATCGACACCGAGGCGAGCTTCCAGATTGCCTCGCTGGGCTTCGACGACAAGGGCCTGGCGCGGATGGAAGTGGTCGACGCGCTTGGCCAGCGGACCCGGATCAACTTCACCGGCTGGAAGCGCAACCCGGCGTTCGCCGCGGATACGTTCCGCTTCAAGCCGGCCGCGGGCGTGGACGTGGTCGGCACGCCGGCCAAGTAA	MLRSLRYAVLATALVAGTAVAGARTELDSFTKGLKGLDGQFTQQVTDARGKVKESSSGRVALAAPRLFRWEYAKPYKQLIVADGRNVWVFDPDLEQATVKAQGEEEQSSPLTALIDPGKLDRQYDVSEEAVPRDGLQWLSLTPKIDTEASFQIASLGFDDKGLARMEVVDALGQRTRINFTGWKRNPAFAADTFRFKPAAGVDVVGTPAK	PGPT0024475_728	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024475-lolA-K03634	NA	NA
BMS020_06092	1896			hypothetical protein	ATGCGCCTGCTCGTTGCCCTGCTGCTGTTGTTCGTGCCGCTGCTGGCGGCGGCGCAATCCACCCAGGTCCAGGCCGACAGCAACTTCAGCTTCGTGCGCTACCGCGCCGACTACGAGGTGCGGGCCGATGCCAGCAGTGTCGAGACCGACAGCTACGAGATCCTGCTGAAGACCAAGTCGGCGGTGGAACAGTTCAGCCAGGTGCGCCTGGGCTACAGCGAGAAGATGGAAGCGCTGGAGGTGCTGGAGGCCTACACGATCACCGCCGAAGGCCTGCGCCAGGACGTGGCGGCCGACAAGATGTACACGCAGGAGAGCTACTCCAGCGCCTCGGCGGCGATGTACGCCGACCGCAAGGTGAAGGTGGTGGTGTTTCCGAACCTGGCGCCGGGTGCGCGCATCGTCTACCGGATCCGCCGCACCCAGTCGGTGGCGTACTTCCCCGGCTACTTCAGCCTGTGGGAGACCTTCAGCGCGTTCGCGCAGTACGAGGATGCGGTGGTCACGCTGACGGCGCCGGCCAGCCTGCCGATGCACGTGTGGAGCCGCGACGTCGAAGGCGCGAGCAAGCCGCAGCTGCGCGACGGCAATGCGCGCTGGGAATGGCGTTACCGGCGCCAGCAGCCGCTGCGCAACCAGAACTGGAACGCGGCGCTGTGGGAGTTCAGCCCGACGATCATGGCCAGCACCTTCGACGACTGGTCGAAGATGGGCCTGGCCTACCACCTGAAGGGCGGCGAGGCGGCGCAGGTGACGCCGCGCGTGCGTGCGCTGGCCGAGCAGATCACCGCCGGCATCGACGGCCATCGCGCCCAGGCCGCGGCGCTGTACGCCTGGGTGGCGCGCAACATCCGCTATGTCGCGGTGTACCTCGGCAACGGCGGGCTGGAGCCGAACAGCGCCGACAGCATCCTCGACAACCACTACGGCGACTGCAAGGACCACACGGTGATCCTGGAGGCGCTGCTGGCGGCCAAGGGCATCGCCAGCACGCCGGTGCTGATCGGCGCCGAGGGCGGGCCGACGCTGCCGCCGATCCCGGTGCTGGGGCGCTTCAACCACGCCATCACCTACATCCCCGAGTTCGACCTGTACGTCGATTCGACCAATCCCTACGCGCGCTTCGGCCAGCTGCCGGCCTCCGACCTCGGCGCGCCGGTGGTGCACACCGCCGACGGCAAGGTCGCGCGCACGCCGCCCAACGACGGCCGGGTCAATGCCTACCTGGCGCGCACCGAGTACCACTTCAGCGCCGACGGCAGCGTCAGCGGCACCACCACGCTGGACAGCGGCGAGACCGGCGAGGTCGGCATGCGCGCGATGTTCGTGCAGCTCAACGCGCAGAACCGCCGCCGCATCGAGGAGTCGATCATCGCCCAGTCCGGCTTCGACGGCAGCGGCGAGCTGGAGCTGCAGGGCGATCCACTCGACCTGGCGGCGCCGTTCAACTACCGCTACCGCTTCCAGGCCCGCGATTACGTCGATTTCTCAGTGGTCGGCGGCATGCCGCTGCCGGACATGCCCGGCGCCGAATCGGCGCGCGGGCTGTACGCGACGACCTCGGCTGAGGCCAACGCGGTGCCGTTCTACTGCAACGACAGCATGCGCGAGGAAACCTACGTGCTGCGGTTCCCGGACAGCGTGCCGATCGTGGCGATCCCGCGCAGCACCCGGTTCCATAACGCCGCTGGCGAGTACAGCGTGGACTGGCGCCGTGATGGCCAGACGGTCACGGCGGTCCATCGGCTGCACCGGCGGGCGATCCATGGTGCGGCCGCGATCTGCCAGCCGCAGGACTACCCGGCGTTCCGCGAGCTGTACCAGCAGGTGCGGCGCGGCTACCGCGGGCAGATCCTGTACGGCGACCTGCACCAGGTGCAGACCGCGGCGCCCTGA	MRLLVALLLLFVPLLAAAQSTQVQADSNFSFVRYRADYEVRADASSVETDSYEILLKTKSAVEQFSQVRLGYSEKMEALEVLEAYTITAEGLRQDVAADKMYTQESYSSASAAMYADRKVKVVVFPNLAPGARIVYRIRRTQSVAYFPGYFSLWETFSAFAQYEDAVVTLTAPASLPMHVWSRDVEGASKPQLRDGNARWEWRYRRQQPLRNQNWNAALWEFSPTIMASTFDDWSKMGLAYHLKGGEAAQVTPRVRALAEQITAGIDGHRAQAAALYAWVARNIRYVAVYLGNGGLEPNSADSILDNHYGDCKDHTVILEALLAAKGIASTPVLIGAEGGPTLPPIPVLGRFNHAITYIPEFDLYVDSTNPYARFGQLPASDLGAPVVHTADGKVARTPPNDGRVNAYLARTEYHFSADGSVSGTTTLDSGETGEVGMRAMFVQLNAQNRRRIEESIIAQSGFDGSGELELQGDPLDLAAPFNYRYRFQARDYVDFSVVGGMPLPDMPGAESARGLYATTSAEANAVPFYCNDSMREETYVLRFPDSVPIVAIPRSTRFHNAAGEYSVDWRRDGQTVTAVHRLHRRAIHGAAAICQPQDYPAFRELYQQVRRGYRGQILYGDLHQVQTAAP				NA	NA	NA	NA	NA
BMS020_06093	2355	ftsK	COG1674	DNA translocase FtsK	GTGGCGAAACAGGTTCCGGAACGTGGCAAGCCCGCCGAGGGCAAGGCAGCGCGCAAGGCCGCGGCCGCGGACAATCCGCGCCGGCAGAAGCTGTGGCGCGACCTGGCGTTGATCGCGGTGGCGCCGCTGCTGCTGTACCTGCTGGCCAGCCTGTTCACCTATTCGTCCGGCGATCCGGGCTGGTCGCGCACCGGCAGCGTGGTCGCGCCGGTGCACAACATGGGCGGGCTGGTCGGCGCCTGGATCGCCGACGTGCTGCTGCAGCTGTTCGGCTACGTGGCCTTCGTGCTGCCGCTGGTGCTGGGGGCGGTGGCCTGGATCGCGCTGTTCGGCACCGAGCGTGAAGGGCAGGGCGAGAACGACCTCGGCCCGGCGCTGCGCCTGGTCGGCATGGTCGGGTTCCTGATTTCGGCGACCGGATTCCTGCATCTGCGGCTGTTCCACGGCGATGTCGCCAGTGCTGGCGGCATCCTCGGCAAACTGGTGTGCAACTCGCTCAAGGCCGGGTTCGGCTCGCTCGGCGCCAACCTGTTCGTGCTGGTGCTGCTGCTGGCCTCGATCACCCTGGCGACCGGGCTGTCGTGGTTCGCGGTGATGGAGCGCATCGGCAAGTGGGTGCTGGCGCTCGGTCCGTTGATGCAGAAGAGCAGCAAGCAGGCCAACGAGTGGCAGCAGACCCGCGCGATGCGCGAGGAGCGCGAGGAAGTGCGCAAGGTCGAGGCGGTCAAGCAGGCCAAGCGCGAACCGGTCAAGATCGAGCCGCCGCCGGCACCGGTGGTGGAGAAGAGCGAGCGCGCCAAGCGCGACACCCAGATCCCGATGTTCCAGGGCGTCAACAAGGACGGCTCGGACCTGCCGCCGCTGGCGCTGCTGGACGATCCCAAGCCGCAGCCGAAGGGCTACGACGAGGAAACCCTGGAGACGCTCTCGCGCCAGATCGAGTTCAAGCTCAAGGACTTCCGCATCGAGGCGCAGGTGGTCGGGGCCTATCCGGGCCCGGTCATCACCCGCTTCGAGATCGAGCCGGCGCCGGGCGTGAAGGTCAGCCAGATCAGCTCGCTGGACAAGGACATCGCGCGCGGGTTGTCGGTGAAGTCGGTGCGCGTGGTCGATGTGATCCCGGGCAAGTCGGTGATCGGCCTGGAAATCCCCAACGTCACTCGCGAGATGATCTTCCTGTCCGAGCTGCTGCGCTCGAAGGAATACGACAAGTCGGCCAGCCCGCTGACCCTGGCGCTGGGCAAGGACATCGCCGGCCGCCCGACCGTGGCCGACCTGGCGCGCATGCCGCACCTGCTGGTCGCCGGTACCACTGGTTCGGGCAAGTCGGTTGCGGTCAACGCGATGGTGCTGAGCCTGCTGTACAAGGCCTCGCACAAAGAGCTGCGGATGCTGATGATCGACCCGAAGATGCTCGAGCTAAGCGTCTACCAGGGCATCCCGCATCTGCTGGCGCCGGTGGTCACCGACATGAAGGAGGCCGCCAACGGCCTGCGCTGGTGCGTGGCCGAGATGGAACGCCGCTACAAGCTGATGAGCGCGGTCGGCGTGCGCAACCTGGCCGGCTTCAACAAGAAGGTCAAGGACGCGCAGGATGCCGGCCAGCCGTTGATGGACCCGCTGTTCAAGCCGAACCCGGAGCTGGGCGAGGCGCCGCGCGAGCTGGAGACGCTGCCGTTCATCGTCATCTTCATCGACGAATTCGCCGACATGATGATGATCGTCGGCAAGAAGGTCGAAGAGCTGATCGCGCGCCTGGCGCAGAAGGCGCGTGCCGCCGGCATCCACCTGATCCTGGCCACCCAGCGCCCGTCGGTGGACGTGATCACCGGCCTGATCAAGGCCAACATCCCGACCCGCATCGCGTTCCAGGTCAGTTCCAAGATCGATTCGCGCACCATCCTCGACCAGTCCGGCGCGGAAACCCTGCTGGGCCACGGCGACATGCTGTACCTGCCGCCGGGCACGGCGATGCCGGACCGCGTGCATGGCGCGTTCGTCAGCGACGAGGAAGTGCACCGCGTGGTCGAGCACCTCAAGGCCAGCGGGCCGACCAGCTATATCGAAGGCGTGTTGGATGAAGTGCAGACGATGGGCGAAGGCACCGTGGTCGGTGCGACCGGCCTGCCGGAAGCCAGTGGCGGTGGCGGCGACGAATCCGATCCGCTGTACGACGAGGCACTGCGCATCGTCACCGAGACCCGCCGCGCGTCGATCTCCGGCGTGCAGCGTCGGCTGAAGATCGGCTACAACCGTGCCGCGCGCCTGATCGAGGCGATGGAAGCGGCCGGCGTGGTCAGCGCGCCGGAGCACAATGGCGACCGCACCGTGCTGGCGCCGCCGCCGCCGAAGTGA	MAKQVPERGKPAEGKAARKAAAADNPRRQKLWRDLALIAVAPLLLYLLASLFTYSSGDPGWSRTGSVVAPVHNMGGLVGAWIADVLLQLFGYVAFVLPLVLGAVAWIALFGTEREGQGENDLGPALRLVGMVGFLISATGFLHLRLFHGDVASAGGILGKLVCNSLKAGFGSLGANLFVLVLLLASITLATGLSWFAVMERIGKWVLALGPLMQKSSKQANEWQQTRAMREEREEVRKVEAVKQAKREPVKIEPPPAPVVEKSERAKRDTQIPMFQGVNKDGSDLPPLALLDDPKPQPKGYDEETLETLSRQIEFKLKDFRIEAQVVGAYPGPVITRFEIEPAPGVKVSQISSLDKDIARGLSVKSVRVVDVIPGKSVIGLEIPNVTREMIFLSELLRSKEYDKSASPLTLALGKDIAGRPTVADLARMPHLLVAGTTGSGKSVAVNAMVLSLLYKASHKELRMLMIDPKMLELSVYQGIPHLLAPVVTDMKEAANGLRWCVAEMERRYKLMSAVGVRNLAGFNKKVKDAQDAGQPLMDPLFKPNPELGEAPRELETLPFIVIFIDEFADMMMIVGKKVEELIARLAQKARAAGIHLILATQRPSVDVITGLIKANIPTRIAFQVSSKIDSRTILDQSGAETLLGHGDMLYLPPGTAMPDRVHGAFVSDEEVHRVVEHLKASGPTSYIEGVLDEVQTMGEGTVVGATGLPEASGGGGDESDPLYDEALRIVTETRRASISGVQRRLKIGYNRAARLIEAMEAAGVVSAPEHNGDRTVLAPPPPK	PGPT0030468_5857	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
BMS020_06094	1074	trxB_2	COG0492	Thioredoxin reductase	ATGCCGGCCTGGGTGGCGCGCCTTGATTCCCCTCCGGTCGATCGCCACTCTATGACGCTCCCGGATGGCGCTGAAACCGATGCCATTGCGGCCGAATTCCACCTTTCGCGAGTATACATGAGCACCTCCAAGCACTCCCGCCTGCTGATCCTCGGCTCCGGCCCCGCCGGCTGGACCGCCGCCGTCTACGCCGCGCGCGCCAACCTCAAGCCGGTGGTGATCACCGGCCTGCAGCAGGGCGGCCAGCTGATGACCACCACCGAGGTCGACAACTGGCCGGGCGATGCCCATGGCTTGATGGGCCCGGACCTGATGGCGCGGATGCAGGCGCACGCCGAGCGCTTCGACACCGAGGTGATCTTCGACCACATCCACACCGCCGACCTGTCCCGGCGCCCGTTCACCCTGACCGGCGACAGCGGCAGCTACACCTGCGACGCGCTGATCATCTCCACCGGCGCCACCGCCAAGTACCTGGGCATCCCGTCCGAGGAAGCCTTCAAGGGCCGCGGCGTGTCCGCCTGCGCCACCTGCGACGGCTTCTTCTACAAGGAGCAGGACGTGGTGGTGATCGGCGGCGGCAACACCGCCGTGGAAGAGGCGCTGTACCTGTCCAACATCGCCCGCAAGGTCTACCTGGTGCACCGCCGCGACACCCTGAAGGCGGAAAAGATCATGCAGGACAAGCTGTTCGAGAAGGTCGCCGCCGGCAAGATCGAGACCGTCTGGCACCACACCGTGGACGAGGTGCTGGGCAACGACATGGGCGTGACCGGGGTGCGGGTGAAGTCCACGCTGGACGGCAGCACCCGTGACATCGACGCCCACGGCTTCTTCGTCGCGATCGGCCACCACCCCAACACCCAGCTGTTCGACGGCCAGCTGGCGATGAACAACGGCTACCTCGAGATCCGCTCGGGCATCGGCGGCAACGCCACCCAGACCTCGGTCGAGGGCGTGTTCGCCGCCGGCGACGTGGCCGACCAGCATTACCGCCAGGCGATCACCTCGGCCGGCTTCGGCTGCATGGCCGCACTGGATGCCGAGCGCTTCCTGGACGCCCACAAGGCCTGA	MPAWVARLDSPPVDRHSMTLPDGAETDAIAAEFHLSRVYMSTSKHSRLLILGSGPAGWTAAVYAARANLKPVVITGLQQGGQLMTTTEVDNWPGDAHGLMGPDLMARMQAHAERFDTEVIFDHIHTADLSRRPFTLTGDSGSYTCDALIISTGATAKYLGIPSEEAFKGRGVSACATCDGFFYKEQDVVVIGGGNTAVEEALYLSNIARKVYLVHRRDTLKAEKIMQDKLFEKVAAGKIETVWHHTVDEVLGNDMGVTGVRVKSTLDGSTRDIDAHGFFVAIGHHPNTQLFDGQLAMNNGYLEIRSGIGGNATQTSVEGVFAAGDVADQHYRQAITSAGFGCMAALDAERFLDAHKA	PGPT0013060_5045	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
BMS020_06095	819			hypothetical protein	ATGCCAAGGACTGCCCTGCTCGCCCCATTGCTCCTGCTGCTATGCAGCGCCCGGGTGGAGGCGCAGCAAGCGCTCCCACCCTTGGATCCGCTCGCCATCAGCCCGGTGGCTCGCGCGTTCTGCATGTCCGAGCAGTCGGTGATGGAACTGGCGGAGCACGCCGAGACCAGCAAGCGACGCGATGCCAACACCCTGGCACTGCTGCTCAAGAGCAGTGACACCTCCGTGCGCAACGCCGCCGAGCGCATGCTGGTACAGGCGAGCAAGGGCGACGCGGAGCTGCGCGCCACACCCCGGCGTGTCCTGGCGTCCTGCCTGATCGCAGGCATCCCCACCCTGCCCGAGCGCCGGGCGCTGGCCATCGCGTGGCTCCGCGCCGATGCCGAGGCCGGCATCGAGGAATCGATCCGCCAGCTGATGACGCTGACGCTGCTGGGCGAAGCCGACGGCGGCGTTGCCGCGGCACGACCACTGTATCTGCGCCTGCCCGGGGCGATACAGCCACTCGTCGGCGCCGATATGTCCGAGCAGATCCTGGTGCACATGCATGGCATCGCCGCCGGCGAGGTCATGTCCCGCATGGTCGGCATGCTTCCGGCCGAATTCGGCGCAGGCAAGCGCAATGCCCCGGGCGAGCGCCAGGTCATCTACCACTTCTGCGCCGCACGCGCCGAGGCCGCCCCGGGCATGCCGGCGGCACTGGGCCCGGCCCTGGACCGGCTCAACGCACGCCTGCGCCAATTGCCCGCCGCCACACCGCCGACCTGCACCGATGCCGGCGCGCCTGAACCCACGCTACCGGTGCGCTGGACGCCCTGA	MPRTALLAPLLLLLCSARVEAQQALPPLDPLAISPVARAFCMSEQSVMELAEHAETSKRRDANTLALLLKSSDTSVRNAAERMLVQASKGDAELRATPRRVLASCLIAGIPTLPERRALAIAWLRADAEAGIEESIRQLMTLTLLGEADGGVAAARPLYLRLPGAIQPLVGADMSEQILVHMHGIAAGEVMSRMVGMLPAEFGAGKRNAPGERQVIYHFCAARAEAAPGMPAALGPALDRLNARLRQLPAATPPTCTDAGAPEPTLPVRWTP				NA	NA	NA	NA	NA
BMS020_06096	1149			hypothetical protein	ATGTATCAGTTGCGAACGCTGCGCCGCCTCGACGCCCTCCCCCCCGAGGCATGGGACGCACTGCACGACGGCAGCAATCCATTCGTTGCCCACGCCTTCCTCGACGGCCTCGAACGCCATGGTTGCCTGCGCCCGGACTGGGGCTGGAGCCCCCTGCACCTGACCCTGTGGGACGGTGAGCAGTTGCTCGCCGCCGCCCCCGGCTACCTCAAGCGCAACTCGCACGGCGAGTTCGTGTTCGACCACGCCTGGGCCCAGGCCTATGCCCGCTACGGCGAGGACTACTACCCGAAGTGGCTGTGCGGGGTACCGTACTCGCCGGTCTCCGGCCCGCGCCTGCTGGCGCGCGACGCAGCGGGACGCGACGCGCTGCTGGCCCGCATTCCCGCCGTGGTCGAATCGACCGGGCTGTCATCGGCGCATGTGAACTTCCACCTGCCCGCGGAGGACGCTGCCTTCGATGGCGATTGGCTGCTCCGCCACGACATCCAGTACCACTGGCACAACAGCGAAGGATGGCGCAACTTCGACGACTTCCTCGCCGCGATGGACCACAAGCACCGCAAGAACATCCGCCAGGAGCGGGCCAAGGTCGCGCGCGCCGGGATCAGCTTTCGCGTACTGCATGGCGACGAGGCCAGCGACCAGGACCTGGCGGCGATCTTCGGCTTCTACCTGAAGACCTTCCACGAGTACGGCAACGCCCCGGCCCTGACCGAGGACTTCCTGCACCACCTGGCGCGGGCCATGCCCCGGCAGCTGGTGCTGTTCCTGGCCGAGGCCGGCGGCACGCCCATCGCCGGCGCGCTGTGCCTGCGCGGCGGCGACACCTTGTACGGCCGTTACTGGGGCGGCGCCGCCCTGCCCGCGCTGCATTTCGAGACCTGCTACTACCAGGGCATCGAGTACTGCCTGCGCGAGGGACTGCACCGGTTCGAGCCCGGCGCCCAGGGCGAGCACAAGATCGCGCGCGGCTTCCTACCCGCGCAGGTCCGCAGCCGCCACTGGATCGCCGACCCCGGCTTCCGAGCGCCGCTGGCTGCTTGGTGCGCGCAGGAACGCCAGGACATCGCGCAGCACGCCGGGCGGCTGGCTGCGCACGCGCCGTTCAAGGCCGCGCCGGACCATCCCGACGCCCCGCCGGCATAA	MYQLRTLRRLDALPPEAWDALHDGSNPFVAHAFLDGLERHGCLRPDWGWSPLHLTLWDGEQLLAAAPGYLKRNSHGEFVFDHAWAQAYARYGEDYYPKWLCGVPYSPVSGPRLLARDAAGRDALLARIPAVVESTGLSSAHVNFHLPAEDAAFDGDWLLRHDIQYHWHNSEGWRNFDDFLAAMDHKHRKNIRQERAKVARAGISFRVLHGDEASDQDLAAIFGFYLKTFHEYGNAPALTEDFLHHLARAMPRQLVLFLAEAGGTPIAGALCLRGGDTLYGRYWGGAALPALHFETCYYQGIEYCLREGLHRFEPGAQGEHKIARGFLPAQVRSRHWIADPGFRAPLAAWCAQERQDIAQHAGRLAAHAPFKAAPDHPDAPPA				NA	NA	NA	NA	NA
BMS020_06097	762	aat_2	COG2360	Leucyl/phenylalanyl-tRNA--protein transferase	ATGCCGGCCATGCCCGCTCCCCGCCCCTGGCTGCTGCCCGCCGCGCCCGATGCCCCGTTCCCGCCTGCCGAGCAGGCCCTGAGCGACCCCGACGGCCTGCTGGCGGTCGGCGGCGACCTCAGCCCGCAGCGCCTGCGCAATGCCTATGCCGGCGGCATCTTCCCGTGGTTCTCGGAGGGCCAGCCGATCCTGTGGTGGTCGCCCGACCCGCGCACGGTGTTCCGTACCGACGCGGTGCGGCTGTCCTCGCGATTCCGCCGTTCGCTGCGCGCCAGTCGTTGGGTGGCCCGTGCCGACACCTGCTTCGCGGCGGTGATCGACGCCTGCGCCGCCAGTCCGCGCGCCGGCCAGAACGGCACCTGGATCACCGCCGAGATGCGTGCGGCCTACCTGGCCCTGCATCGGCTGGGGCTGGCGCATTCGGTGGAGGTCTTCGACGGGGAGCACCTGGTCGGCGGCATCTACGGCGTCGCGATCGGCCGCGCGTTCTTCGGCGAAAGCATGTTCAGCGCGGCCAGCGGCGGCTCCAAGGTCGCGCTGGCGGCCCTGGCCGCGCGCCTGCACGCCTGGGGCTGGCCGCTGATCGATGCCCAGGTCGAGAACCCGCATCTGATGCGGCTGGGTGCTGAGTTGTGGCCGCGCCAGCGGTTCCTGCAGCAGCTGCGCCCGCTGGTCCTGGCACCGGGCACGGAAGGCCCGTGGATCGGGCGTTTCGGGCAGCTGCCGGCAAGCGCGCTGGGCACCACCGGCAGCCCGGATTAA	MPAMPAPRPWLLPAAPDAPFPPAEQALSDPDGLLAVGGDLSPQRLRNAYAGGIFPWFSEGQPILWWSPDPRTVFRTDAVRLSSRFRRSLRASRWVARADTCFAAVIDACAASPRAGQNGTWITAEMRAAYLALHRLGLAHSVEVFDGEHLVGGIYGVAIGRAFFGESMFSAASGGSKVALAALAARLHAWGWPLIDAQVENPHLMRLGAELWPRQRFLQQLRPLVLAPGTEGPWIGRFGQLPASALGTTGSPD				NA	NA	NA	NA	NA
BMS020_06098	219	infA_2	COG0361	Translation initiation factor IF-1	ATGTCGAAAGACGATTCCATCGAATTTGAAGGCACTGTCAGCGAGACGCTGCCGAACACCACGTTCCGGGTCAAGCTGGAGAACGGGCACGAGATCATCGCCCACATCTCCGGCCGCATGCGCAAGAACTACATCCGCATCCTGACCGGCGACCGCGTGAAGGTCGAAATGACCCCGTACGACCTGACCAAGGGTCGCATCACCTACCGCATGAAGTAA	MSKDDSIEFEGTVSETLPNTTFRVKLENGHEIIAHISGRMRKNYIRILTGDRVKVEMTPYDLTKGRITYRMK				NA	NA	NA	NA	NA
BMS020_06099	2283	clpA_2	COG0542	ATP-dependent Clp protease ATP-binding subunit ClpA	ATGTTCAGCAAAGACCTCGAGCAGACCATCGGCCAGTGCTACAAGCGCGCCCGCGAAGCCCGGCATGAGTTCATGACGGTCGAGCACCTGCTGCTCTCCCTGCTCGACAACCCCTCGGCCCAGGCCGTTCTCAAGGCCTGTGGCGCCGATGCCACGCGCCTGCATAAAGACCTCGAACAGGCGATCGAGGCCTCCGTTTCCCGCCTGGCCGAGGATGACGGGCGCGACACCCAGCCCACGCTGGGCTTCCAGCGGGTGCTGCAGCGCGCGGTCTACCACGTGCAGTCCTCCGGCAAGAAGGAGGTCACCGGCGCCAACGTGCTGGTGGCGATCTTCGGCGAGAAGGACTCGCACGCGGTCTACTTCCTCAACCAGCAGGACATCACCCGGCTGGACATCGTCAACTATCTCTCGCACGGCATCGCCAAGATGGGCGAGGAGGGCGAGGGCCCGGCCGCCAGCGAAGGCGAGGGCAAGGCCGAGGCCGGCGATGGCGATGGCAAGGGCGATGCGCTGGCCGAATTCGCCAGCAATCTCAACGAGCAGGCCCGCAACGGCCGGATCGACCCGCTGGTCGGGCGTGCCGACGAGATCGAGCGCACGATCCAGGTGCTGTGCCGCCGGCGCAAGAACAACCCGCTGTACGTCGGCGAGGCGGGCGTGGGCAAGACCGCGATCGCCGAGGGCCTTGCGCGCCGCATCGTCGAGGGCAGCGTGCCCGAGGTGTTGGCCGACGCGGTGATCTACTCGCTCGACCTGGGCGCGCTGGTCGCCGGCACCAAGTACCGCGGCGATTTCGAGAAGCGGCTGAAGAGCGTGCTGACCGCGCTCAAGAAGGTGCCCAACGCGGTGCTGTTCATCGACGAGATCCACACCATCATCGGTGCCGGCTCGGCATCGGGTGGCACCATGGACGCCTCCAACCTGATCAAGCCGGCGCTGGCCTCGGGCGAGTTGCGCTGCATCGGCTCGACCACGTTCCAGGAATACCGCGGCATCTTCGAGAAGGACCGTGCCCTGGCGCGGCGCTTCCAGAAGATCGACATCGTCGAGCCGACCGTCGGCGAGGCCTACCAGATCCTGCAGGGCCTGAAGCCGCGCTACGAGGCCCATCACGGCGTCACCTACGCCGATGATGCGCTGCAGGCGGCGGTGGACCTGTCGGTCAAGCACATCGGCGACCGGCTGCTGCCGGACAAAGCGATCGACGTGATCGACGAGGCCGGCGCGCGCCAGCGGCTGCTGCCGGAAGGCGAGCGCAAGGAGCTGATCGACATCGAGGAGATCGAGGCGATCGTGGCCAAGATGGCGCGCATCCCGGCCAAGCAGGTCAGCGCGACCGACAAGGACGTGCTGCAGCACCTGGAGCGCAACCTGAAGATGGTGATCTTCGGTCAGGATCCGGCGATCGAGACGCTGGCCTCGGCGATCAAGCTGGCGCGCAGCGGCCTGGGCAACCCGGAAAAGCCGATCGGCAACTTCCTGTTCGCCGGCCCGACCGGCGTCGGCAAGACCGAGGTGACCAAGCAGCTGGCGCTGCAGCTGGGCATCGAGCTGGTGCGCTTCGACATGTCCGAGTACATGGAGCCGCATTCGGTGAGCCGGCTGATCGGCGCGCCCCCGGGCTATGTCGGTTTCGACCAGGGCGGCCTGCTGACCGAGAAGATCGTCAAGACGCCGCACTGCGTGCTGCTGCTGGACGAGGTCGAGAAGGCGCACCCGGACATCTTCAACATCCTGCTGCAGGTCATGGACCGTGGCGTGTTGACCGATACCAACGGGCGCGAGGCGAACTTCAAGAACGTGATCGTGGTGATGACCACGAACGCCGGCGCCACCCAGGCCTCGCGCCGCACGATCGGCTTCACCCGGCAGGACCACAGCACCGATGCGATGGAGGTGATCCGCAAGAGTTTCACCCCGGAATTCCGCAACCGCCTCGATGCGATCGTGCAGTTCCAGCCGCTGGCGTTCGACCACATCCTGCGCGTAGTGGACAAGTTCCTGATCGAGCTGGAAGCGCTGCTGCAGGAGAAGCACGTCAGCCTGTCGGCCACGCCGACCGCGCGCGACTGGCTGGCCCAGCACGGCTTCGATCCGCTGATGGGTGCGCGGCCGATGTCGCGGGTGATCCAGGACAAGATCAAGCGCCCGCTGGCCGACGAGCTGCTGTTCGGCAAACTGGTCGGCGGTGGCCGGGTCAGCATCGACGTGCGCGACGACGAGCTGGTCGTCGACGCGCAGCCCGAGCCTGAGCGCCTGTTGCCCGCCACGGTGGAGTGA	MFSKDLEQTIGQCYKRAREARHEFMTVEHLLLSLLDNPSAQAVLKACGADATRLHKDLEQAIEASVSRLAEDDGRDTQPTLGFQRVLQRAVYHVQSSGKKEVTGANVLVAIFGEKDSHAVYFLNQQDITRLDIVNYLSHGIAKMGEEGEGPAASEGEGKAEAGDGDGKGDALAEFASNLNEQARNGRIDPLVGRADEIERTIQVLCRRRKNNPLYVGEAGVGKTAIAEGLARRIVEGSVPEVLADAVIYSLDLGALVAGTKYRGDFEKRLKSVLTALKKVPNAVLFIDEIHTIIGAGSASGGTMDASNLIKPALASGELRCIGSTTFQEYRGIFEKDRALARRFQKIDIVEPTVGEAYQILQGLKPRYEAHHGVTYADDALQAAVDLSVKHIGDRLLPDKAIDVIDEAGARQRLLPEGERKELIDIEEIEAIVAKMARIPAKQVSATDKDVLQHLERNLKMVIFGQDPAIETLASAIKLARSGLGNPEKPIGNFLFAGPTGVGKTEVTKQLALQLGIELVRFDMSEYMEPHSVSRLIGAPPGYVGFDQGGLLTEKIVKTPHCVLLLDEVEKAHPDIFNILLQVMDRGVLTDTNGREANFKNVIVVMTTNAGATQASRRTIGFTRQDHSTDAMEVIRKSFTPEFRNRLDAIVQFQPLAFDHILRVVDKFLIELEALLQEKHVSLSATPTARDWLAQHGFDPLMGARPMSRVIQDKIKRPLADELLFGKLVGGGRVSIDVRDDELVVDAQPEPERLLPATVE	PGPT0014575_1072	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014575-clpA-K03694	NA	NA
BMS020_06100	399	clpS_2		ATP-dependent Clp protease adapter protein ClpS	GTGCGGGAAGCCCGGAATTGTGCGGTGCCGGGCATGAATCGTCCAACGCCGCCCGGATCGGGCCCTATAATTCCGCCCATGCCACGTAAGACCTCCCACGAAAACGACCATGGCCTGCTCGTCGAAACCGGCAAGCCCGAGGTCGCTCCCCCGCCGCGTTACCAGGTCCTGCTGCTCAACGACGACTACACCCCGATGGACTTCGTGGTGACCGTCCTGCAGCAGTTCTTCGCGATGGACCTGGAAAAGGCCACGCAGGTGATGCTCCACGTGCATACCCGCGGGCGCGGCGTCTGCGGGGTCTATACCCGCGAGGTGGCCGAGTCCAAGGTGGCCCAGGTCAACGAGTTCTCGCGGATGAACCAGCACCCGCTGCTGTGCACGATGGAACAGACCTGA	MREARNCAVPGMNRPTPPGSGPIIPPMPRKTSHENDHGLLVETGKPEVAPPPRYQVLLLNDDYTPMDFVVTVLQQFFAMDLEKATQVMLHVHTRGRGVCGVYTREVAESKVAQVNEFSRMNQHPLLCTMEQT	PGPT0014575_3	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014575-clpA-K03694	NA	NA
BMS020_06101	486			hypothetical protein	ATGCTCCAGTCCCGCGCCCTGCTCCTGCTCGCCACGGCCTTCCCGCTGGCCGCGTCAGCGGGCGAGTCCGACCCTACGCTCGGCAAGCAGTTGCACCGGCTGGGCTACGAAGCCGAGCCGGACGACGCCGGCGACTACCGCATCCTGTTCGGGCTCGGCGACGGGGCCGACGGCACCGCGCGCAGCCAGCTGACGTATGTGCGCTCCCAGGTGGAGAGCTTCGGCAGCCTGCGCGTGCGCGAGATCTGGTCGGTCGGCTACCGCGCCGCCGACGGCAAGCTGCCGGCGGCAGTGGCCGAGCGCCTGCTGGCCGATTCGCACGACAGCATCCTCGGCGGCTGGGTCGCGGCCGAGGGCACCGCCGCGTTCGTGGTCAAGCTGCCGGCGGACGCCGACGACAAGGCGATGGGCGACGCGCTGGAAGCGGCGACCCGCTCGGCCGATGCGATGGAGCAGGAACTGTCCGCCGGTGGAGACACCTTCTGA	MLQSRALLLLATAFPLAASAGESDPTLGKQLHRLGYEAEPDDAGDYRILFGLGDGADGTARSQLTYVRSQVESFGSLRVREIWSVGYRAADGKLPAAVAERLLADSHDSILGGWVAAEGTAAFVVKLPADADDKAMGDALEAATRSADAMEQELSAGGDTF				NA	NA	NA	NA	NA
BMS020_06102	459	nudJ_2	COG0494	Phosphatase NudJ	ATGGCCGTGGCAGCGACCCGCTGGGCGCCTGACGTCACCGTGGCCACCGTGGTGGTCCGCGACGGCCGCCTGCTGCAGGTGGAGGAAGCGATCGACGGCGCGCTGCTGCTCAACCAGCCGGCCGGCCACCTGGAGCCGGGCGAGAGCCTGCTCGATGCGGCGGTCCGCGAGACCCTGGAGGAAACCGGCTGGCAGGTGCGCCCCACCCATTTCATCGGCAGCTACCTGTGGACCGCCAGCAACGGCCGCAGCTTCCTGCGCTTCGCGTTCGCCGCCGAGGCGGTGTCGCACGATCCGGCCCTGCCGCTGGATGACGGCATCGTCCGCGCCCTGTGGCTGCGCCCGGACGAACTGCAGGCCGAGGCCGCGCGGCTGCGCGGGCCGCTGGTCTGGCAGGTCGTCGCCGATTACCTCGCCGGCCAGCGCCTGCCGCTGTCGGCCGTGCGGCACGTCGCATGA	MAVAATRWAPDVTVATVVVRDGRLLQVEEAIDGALLLNQPAGHLEPGESLLDAAVRETLEETGWQVRPTHFIGSYLWTASNGRSFLRFAFAAEAVSHDPALPLDDGIVRALWLRPDELQAEAARLRGPLVWQVVADYLAGQRLPLSAVRHVA	PGPT0028060_29	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACIMETHRIN|CF3-HMP_DETOXIFICATION,PGPT0028060-nudJ|ymfB-K12152	NA	NA
BMS020_06103	1137	mnmA_2	COG0482	tRNA-specific 2-thiouridylase MnmA	ATGAGCGCGCCGCGCATCGTCGTCGGCGTGTCCGGCGGCGTCGATTCCTCGGTCGCCGCCTGGCGCCTGGTTGGCCAGGGCGAAGCGGTCGCCGGGCTGTTCATGCAGAACTGGGAAGACGACGGCAGCGGCGACTGCCGCGCCGACGACGACCGCCGCGACGCGGTCGCGGTCTGCGGCGTGCTCGGCATCCCGTTCCACTTCCGCAACTTCTCCGGCGAATACTGGGCCGGGGTGTTCGAGCACTTCCTGGCCGAATACGCCGCCGGGCGCACCCCCAACCCGGACGTGCTGTGCAACCGCGAGGTCAAGTTCAAGCACTTCCTCGACGCGGCGCGCGAGCTTGGCGCCGAACGCATCGCCACCGGCCATTACGCCCGCATCGACCAGCGCGGCGGGCACTGGCGGCTGCTGCGCGGCGCCGACCGCGGCAAGGACCAGAGCTATTTCCTGCACCAGCTCGGCCAGGAGCAGCTGGCGGCGACGCTGTTCCCGATCGGCGACCTGGACAAGACCGACCTGCGCCGGATCGCGCGCGAGGCCGGCCTGCCCACGCACGCCAAGAAGGATTCCACCGGCATCTGCTTCATCGGCGAGCGCGACTTCCGCGAATTCCTCGGCCGCTACCTGCCGGCCCGTGCCGGCGAGATCCGCGACCCGAACGGCGAGCGCATCGCCGAGCACCCGGGCGTGTTCTATTTCACCCTCGGCCAGCGCGAGGGCCTGAACATCGGCGGCGTGCGCGGCCGTCCCGCAGCGCCGTGGTACGTGGTCGGCAAGGACGTGCATGCCAACGTGCTGTACGTCGACCAGGACCGCGACAGCCCATGGCTGCAATCCACCCGGCTGCGCTCCGAGCGCGCCCACTGGGTCGCCGGCAGTCCGCCGGCCCGGCGCTTCGACTGCACTGCGCAGACCCGCTACCGCCAGGCCGACGAGCCATGCACGGTCAGCGTCGAGGACGACGGCAGCGTCAGCGTGCGCTTCGCACGGGCGCAGCGCGCCGTCACGCCGGGGCAATCGCTGGTGCTGTACGACGGCGAAGCCTGCCTGGGCGGCGCCGTGATCGCTGCGACCGACGCGCCGCTGGAACGGCGCCTGGCCGGATCCCCCTTCACCACCGAGGCAATCGTTTGA	MSAPRIVVGVSGGVDSSVAAWRLVGQGEAVAGLFMQNWEDDGSGDCRADDDRRDAVAVCGVLGIPFHFRNFSGEYWAGVFEHFLAEYAAGRTPNPDVLCNREVKFKHFLDAARELGAERIATGHYARIDQRGGHWRLLRGADRGKDQSYFLHQLGQEQLAATLFPIGDLDKTDLRRIAREAGLPTHAKKDSTGICFIGERDFREFLGRYLPARAGEIRDPNGERIAEHPGVFYFTLGQREGLNIGGVRGRPAAPWYVVGKDVHANVLYVDQDRDSPWLQSTRLRSERAHWVAGSPPARRFDCTAQTRYRQADEPCTVSVEDDGSVSVRFARAQRAVTPGQSLVLYDGEACLGGAVIAATDAPLERRLAGSPFTTEAIV				NA	NA	NA	NA	NA
BMS020_06104	615	hflD_2	COG2915	High frequency lysogenization protein HflD	ATGACGTCATCCATGGACAATCGCGTGCTGGCCCTTGCGGGCCTGGCGCAGGCCCTGCAGCAGGTGCGGCGGATCGCCGAAACCGGACAGTCGGAGGCGTCGGCAGTACGCACGGCCATGGACAGCGTGTTCCGGATCGACGCGGACTCGGCCGAAGCGGTCTACGGCGACCGCCAGGCGCTCGCCCCGGGCCTGCGCCTGCTGCACAACTACTTCCGCAACGAGGGCCGCGACGACGTGCTGCCGCGCCTGGCGCTGGCGGTGCTGCAGCTGGAGCGGCGCTTCGTCCGCGAAGCGTCCACGGTGACCGCGGTGACCACCGGCGTGCGGCAGGCCGCCGCGCGCGTGGAGGAACTCGGCGACAGCGCGCACCCGGACCTGCTCGCGGCGATCGGCGCGCTGTATGCCGACACCATCAGCCACCTCAAGCCGCGGGTGATGGTCCAGGGCAACCCGCACTACCTGGGCCAGGCCGGCGTGGTCGCCGAGATCCGCGCGCTGCTGCTGGCGGCGGTGCGCTCGGCGGTGCTGTGGCGGCAGATGGGTGGCAACCTGTGGGATTTCCTGCTCTCCAAGCGCGCGATGATCGCCGCAGTGGAGCGTGCGCTGCGCTGA	MTSSMDNRVLALAGLAQALQQVRRIAETGQSEASAVRTAMDSVFRIDADSAEAVYGDRQALAPGLRLLHNYFRNEGRDDVLPRLALAVLQLERRFVREASTVTAVTTGVRQAAARVEELGDSAHPDLLAAIGALYADTISHLKPRVMVQGNPHYLGQAGVVAEIRALLLAAVRSAVLWRQMGGNLWDFLLSKRAMIAAVERALR				NA	NA	NA	NA	NA
BMS020_06105	1191			hypothetical protein	ATGTATTCACGTCCCCTCATCCGAATGGCCGCGCCGCTGGTGCTGACCCTGGTGTTCCCGCTGGCCGTCGGGCTCGACTGGCCGGCGCCGATGCGCTGGGCCATCCTGGTCACCATGACCCTGAGCTGGCTCGGCTTCGCCGCCTGGCTGGCGTGGTCGCAGACCCGCCGCAACCCCGACCAGGTCCGCATCCTGCGCGAGCAGGACCAGCTGCTGTCCGAGCTGCGCACCTTCGTCAGCAACGAAGTCGACGGCTCGCGTGCCGAAGTCGAGCGCGCCCGCGACCTGATCAAGCAGGCGGTGTCCGGGCTCGGCAACAGCTTCGACGCGATGAACCGCAAGTCGCGCCAGCAGAGCCATGCACTGGCCCGCATCGTCGACCGCGCCGGCGAAGACGGCAGTGCCGGCGTCGACGTGGCCCGCTTCGCCCAGCACGCCAGCTCGCGCATGGAGCAGCTGGTCGAGGCGCTGGAACAGGTCAGCGGCCAGAGCGGCACCACGGTGCACCACATCGACGAGATGGCCCAGCACCTGGACGGCATCTTCGCGCTGCTGGAAGACGTCAAGTCGATCGCCGACCAGACCAACCTGCTGGCGCTGAACGCGGCGATCGAAGCGGCACGTGCCGGCGAGGCCGGCCGCGGCTTCGCGGTGGTCGCCGACGAGGTGCGCAACCTGTCCGAGCGCTCGACCACCTTCAACGAGCAGATCCGCAAGCTGGCGCACAGCTCCAAGGACGCCATCGCCAAGGTCCGCGACACGGTCTCGCAGATGGCCTCGCGCCACCAGGACCGCTCCCGCGAAGCACGCCACGAAGCCGCCGCGATGCTCGACAACGTGGCCGCGATCAACGCCTCGCTGGGCGACGGCATGCGCGAGATCTCCGACTGCGCCCGCTCGATCGACGCCAGCGTGGCCGAAGCAGTGCGCGCCCTGCAGTTCGAGGACATCACCACCCAGACCCTGGCCAGCGTGCACACCCACCTGGACCGCCTGACCGCGATCAACCGCGAGGCCGTCGCGCTGCAGGAACTGCTGCACCGCAATGGCGGCGTGTTCGACGGCGAACTGGCCGCGGCGCTGCAGAAGCTCGGCAACCGCCTGCACGACATGCGGACCGAGTGGGAGCGCCCGCCGCACAAGCCGGTCGCGCAGCAGTCGATGGGTGCCGGCACGGTCGAGCTGTTCTGA	MYSRPLIRMAAPLVLTLVFPLAVGLDWPAPMRWAILVTMTLSWLGFAAWLAWSQTRRNPDQVRILREQDQLLSELRTFVSNEVDGSRAEVERARDLIKQAVSGLGNSFDAMNRKSRQQSHALARIVDRAGEDGSAGVDVARFAQHASSRMEQLVEALEQVSGQSGTTVHHIDEMAQHLDGIFALLEDVKSIADQTNLLALNAAIEAARAGEAGRGFAVVADEVRNLSERSTTFNEQIRKLAHSSKDAIAKVRDTVSQMASRHQDRSREARHEAAAMLDNVAAINASLGDGMREISDCARSIDASVAEAVRALQFEDITTQTLASVHTHLDRLTAINREAVALQELLHRNGGVFDGELAAALQKLGNRLHDMRTEWERPPHKPVAQQSMGAGTVELF	PGPT0015710_28081	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
BMS020_06106	264			hypothetical protein	ATGACCTTCGCCCCCTCCGCCCCCCAGCCGCATGCACCCGCGCCCCAGCACGACGGCGCGGGCGAAGCGCGGCCGCGCTCCGCGCTGCCGCCGGTGCTGGCCGCCCTCGAACAGCGCGCCGCGAACGAGCTGCGCGCACTGGCGGCCGAGTTGCCGCCGCCCGACCGCAGTACCGAAGACGCCCTGCTGCTGGCCACGCTGGGCTGGGATCTGAACCTGACCGGCAATGAGCTGCCGGCACCACCGAACCCCAACAGCGACTGA	MTFAPSAPQPHAPAPQHDGAGEARPRSALPPVLAALEQRAANELRALAAELPPPDRSTEDALLLATLGWDLNLTGNELPAPPNPNSD				NA	NA	NA	NA	NA
BMS020_06107	864			hypothetical protein	ATGCGACTTTCTCGCTCTCTCTGCGCCGTAGTCAGCGAATCTCTTCGGGGATCGCACGAGACGCTCAATGCGCTGTTTATTGCGGCAGGCGCCCCCGGGGAACCCCCTGCTCTTTCTCATGGCTCAAAGTGGAAGGAGTGGCTGTTCCGTGCTGGGCAAGACCCAGCGGTTGATAGTTTGGCTGTATTGGGTAACGTGCTCGAAGAATTCATGGATTTGGCGCCACTTCCAAGCACGGAAGACTATGACGACTGGACGCAGCGACGGGCTCGCATTGAAGATGCGTTGGAACAGAACGGGCTCCGCTACTACCGATTCGGCCGAGTCTTGCCGCAAGGTGCCGACTTTGGCGCATCTGAGGCGAGCAGCATTGCTGCTCAGCCCTCGACCTCTAAGCCAGCACGGGTTGAAGAGCTCCTCGAGATCATTGTTCGCGGCCTACGCCGGGCCATGCATCCGCTGACACATAGGCGGAGAGGGACGCAACCTCTATCGTTTGGCAGTGAATACGACGTTCAAGACTTGCTGCATGCTCTCCTTCGCCCGTGGATCAGCGACATTCGGCCAGAAGAGTTCACCCCTAGTTATGCAGGCTCCAGTACGCGAATGGACTTTTTACTTCCTGCGCACAAGCTTGTTATCGAAACAAAGATTGTTCGTGATCGAGTTCATGCAAAGCGCGTCGGTGACGAGTTGATCGTGGATATCGAACACTATCGCCGGCACCCTTCCTGCCAATCGCTTTGGTGCGTGATCTACGACCCAGACCAGCTGATTACGAACGCCGACGGACTGAAAACAGACCTTCAAGGCCCGCGCTCGTCAAATGACGGAACAGTCCATGTTCGAGTTTTCGTCCTGTAG	MRLSRSLCAVVSESLRGSHETLNALFIAAGAPGEPPALSHGSKWKEWLFRAGQDPAVDSLAVLGNVLEEFMDLAPLPSTEDYDDWTQRRARIEDALEQNGLRYYRFGRVLPQGADFGASEASSIAAQPSTSKPARVEELLEIIVRGLRRAMHPLTHRRRGTQPLSFGSEYDVQDLLHALLRPWISDIRPEEFTPSYAGSSTRMDFLLPAHKLVIETKIVRDRVHAKRVGDELIVDIEHYRRHPSCQSLWCVIYDPDQLITNADGLKTDLQGPRSSNDGTVHVRVFVL				NA	NA	NA	NA	NA
BMS020_06108	615			hypothetical protein	ATGGGCGAGCTTGACAATCGGCTCAAAGAGCTACTTCGCCGAACGAAGATCACAACAAAATCCAGGTACCGGGCAAGTGAACGACTGGAACGGCACCACAAGCTGTCTCAGTGGACGGTATCGCTCATATCAGCGGCACTTGTTTTTGTCCCGTTAGCACAAGCGTTCAAGATTACCGTTGGCGTGGATGCACTTTACCTCAACGCGACACAAGCAATTCTTGCTGTTCTTGTGCTTGTCTACTCGCTACTGCTTGGTCAAGAAAACTTTGTTTCTAGAGCCCAAGCAATGCACCGCAACGGCATAGAGCTAGGTCGATTTGCTCGGAAGCTAGCCGGAAAGGGCTCAGATGTGCCGGATGATGAGTACTTCGCGCTTTCTGAGGAGTACTACAACATCTTGGAGAAGTACGAGAACCACAAGCCAATTGACTACTTGTATACGCGACTTGCCGAAACACCAAGCACCGGGCACGAGTGGGTTGTATTCATTGGCTTATGGATCAAAGCTAGATTCGTTAGTGCACTGGTTTTTTCCCACTACATCATTGCGATAGCATTCGTTGTGTTCATTTTCTACAAGCTTTTTTCTGGTATCGCATCGCATGCAAGCTAG	MGELDNRLKELLRRTKITTKSRYRASERLERHHKLSQWTVSLISAALVFVPLAQAFKITVGVDALYLNATQAILAVLVLVYSLLLGQENFVSRAQAMHRNGIELGRFARKLAGKGSDVPDDEYFALSEEYYNILEKYENHKPIDYLYTRLAETPSTGHEWVVFIGLWIKARFVSALVFSHYIIAIAFVVFIFYKLFSGIASHAS				NA	NA	NA	NA	NA
BMS020_06109	294			hypothetical protein	ATGTTCGGGGCGTTGGGCCTGCCAAAAGGCGCGTCGTCGCCGACGCCATCGCCTGTGCTGCTGGAACCGCTGCACCATGCTGCAGACCCCACGGTCTTGCTCACACTCAGCAGCGCGACGCGTGACATGGACGCGCTGGCGGACGCCGCACGTCAGTGCGTATTGCCGGCGCTGGCCAAGGCGCAGATCCGGCGCGCCAGCGGCCCGGGCGTGGGTGCGTTGCAGCTCTGGTTCCTGCTGCACCGCCAGGTGCGGATTTCGCTAACTGTTGACCAGCGTTCCGGCATTGACTGA	MFGALGLPKGASSPTPSPVLLEPLHHAADPTVLLTLSSATRDMDALADAARQCVLPALAKAQIRRASGPGVGALQLWFLLHRQVRISLTVDQRSGID				NA	NA	NA	NA	NA
BMS020_06110	1626			hypothetical protein	ATGTCACTACTCCCTCGCTTGCTCGCTGGCCTGTTGTTGCTAGCCATCACCGGGCTGGCCAGCGCCGATGAGGCACTGTATTCCGCCACCGTCCGCACCGACGCGGCAGACACGCTGAGCGCGCCATCGCGCATCGAGACACTCAACGTCGTGCAGCTGACACAGGATGGGCGCGGTGCGCGCGTGCAGACGCGCACGCTGTGGACACGCAGGCGCGACGGCGGCGACAGCTCGCTGTCCACGCTGGACCTGGACCCGCAGGACCCCACCCAGGCGCGCATGCTCGCGGTGCTGTCGGCCGGGGTGACGTATCGCCTGGATCCGGCGCTGCAGGTGCGCGGCATCGAGATGGATGAAGCCGGCCTGGCGCAGGTCGCCAGCGCACAACCGGCATTGTCCGATCTGGCACCGCTGCCGCGCTGGCCGCTGGACCCGCTGCCGTGGCCGTTGCCCGCCTCGCCTCGCGTCGGCCAGAGCGTGCAGCGCACGCTGAAGACCGCGCTCTACGGAGCGGTGACCTGGGAGGAGCAGGTCGTGGCGGTCAGCAAGGACGCGCTGCTGCTGCAGATCGCCGCGCAGGCCAAGGGCGTGGATCTGCAAGGCCGGGTGGCGCTGCGCCGCAGTGACGGCATGCCGGTGGAACTGAAGCTGCGCGGCAACCTGTCACCCGCCGGCGTGCCCGGCCGACCGATGCAGATGCACCTGGTGCGGCTTGAACCGGGGACATGGATCGACCCGATCTGGGCAGAAGGCGACCAAGCCGGCAGCGAGCAGCTGTTCGCCGACATGCTGGCGCGTCCGCCGTTCTCGGCGCCCTCGGACAATCCCGACGATTACACGCACGCGACGCCGGACGGCACGCTGGCGCCGTGGATGCTGGATGAAGCGTCATTGGCGCAGATCGAACGCCAGTGGCTGTTTGCCGCAGTGCCACGGCCGCCGGCCGCACGCCCGCTGCTGGCGATCGGCGGGCAGGTGGGCAGCGACGCATCGCCCCGGAGCGTGGTGGCGCGGGTCCGCGCGGTGTCCCTGCAGGATGCGCAGCAGCGCCCGATCCGCGACCTGCAGCCGCAGGTGTTGCCGCCGCAGCTGGTGCTTGTCGATCACTACCGCGCCAGCGAGGACGCAGCGAACTTCCCATTCCGGCTGCCGCCGGGCGTCACCGCGCAGGCACTGGAGGCGCTGGCGCAGATCCGGATGGACGTGGATGTGGAGGTCTACGCCTGGGACGGCGCCGAGGTGGTGCCACGCGGTGGACAGTCCACGATCAACCCGGCCGCGCGCCTGCGTTGGGACGGCCCGCTGCGGATGATCGCGCAGCAGGCCCCGGAGCAGACAGGCACTGATTCTGGTCTGTGGACGCTGGCCGTGCCATTGGACAGCCATGGCGAGGCATTGCCGGCCGCGACGCTGACGCTGCCGGCCACGCCGGACGACGCCCTGGCGGACCCGACGCTGCGGCTGGACTGGGAGCGCCGGCAGGCGCCAAGCGAAGTCGCGCTGGCCAGTCCCACGGCCATGGCCGCCGTGCGCCTGCAGCATTACCGCTGGCGCCGCGTGCCGCGCGCCTGGATCTTCCGCGATGCCCGCCGGATGGCACCGCCGGCAGGATCAGACGGAAACTGA	MSLLPRLLAGLLLLAITGLASADEALYSATVRTDAADTLSAPSRIETLNVVQLTQDGRGARVQTRTLWTRRRDGGDSSLSTLDLDPQDPTQARMLAVLSAGVTYRLDPALQVRGIEMDEAGLAQVASAQPALSDLAPLPRWPLDPLPWPLPASPRVGQSVQRTLKTALYGAVTWEEQVVAVSKDALLLQIAAQAKGVDLQGRVALRRSDGMPVELKLRGNLSPAGVPGRPMQMHLVRLEPGTWIDPIWAEGDQAGSEQLFADMLARPPFSAPSDNPDDYTHATPDGTLAPWMLDEASLAQIERQWLFAAVPRPPAARPLLAIGGQVGSDASPRSVVARVRAVSLQDAQQRPIRDLQPQVLPPQLVLVDHYRASEDAANFPFRLPPGVTAQALEALAQIRMDVDVEVYAWDGAEVVPRGGQSTINPAARLRWDGPLRMIAQQAPEQTGTDSGLWTLAVPLDSHGEALPAATLTLPATPDDALADPTLRLDWERRQAPSEVALASPTAMAAVRLQHYRWRRVPRAWIFRDARRMAPPAGSDGN				NA	NA	NA	NA	NA
BMS020_06111	417			hypothetical protein	TTGAAGAACATGCGAGTCGCTTTCGTTGCAATCCTGGCGCTTGCCGCCCCCGTTTCCGCTGTTTCGGCCGAAGAGATGATCATCCAGCCGGGCATGTATGAAGTGACCGTTGGCGTGGCGGGCAACAACATGAAGGCGCGGGCCTGCTACTCGGACTCGGACGTGAAGGACCTGCCGTCGGTCGTGCGCACGCTGGAGGAGCCGCTCATGAGAAAGAGCTGCGCCGTGGAAATTCTTTCCCAGTCCATGGGGAAGGCCGAGTGGCGAATGGAGTGCAGGAGTGACTTCGTGAGCAGAACGACGGTCGGATCGCTTGCGTGGGCTCCAACCCAGTTCAACGGCAAGTTTGTCCGCACGATGGGGGAGATCAAGATGGAGTCCCCCATCGATGCAAAGCGGGTCGGTGACTGCCACTGA	MKNMRVAFVAILALAAPVSAVSAEEMIIQPGMYEVTVGVAGNNMKARACYSDSDVKDLPSVVRTLEEPLMRKSCAVEILSQSMGKAEWRMECRSDFVSRTTVGSLAWAPTQFNGKFVRTMGEIKMESPIDAKRVGDCH				NA	NA	NA	NA	NA
BMS020_06112	2787			hypothetical protein	GTGGATTCAGGCGTCATCGCAAGCTTGCTCCAGCATCCGCTGACCTCCGCGGTCGTGGTGCTGGACGCGCACGGCCGGCCGCTGGCCGCCAACCGCGTAGCGCAGTCGCTTGGCCTGCCGGCGACCCTGGGGGCCTACCGCGACCTGCTCGAAGGCGGCCGCGAGCAGCTCGCCGGCGGCGAGCCGATGACCCCATGCATCCTGCCGGGCAGCGGCGGGCGCCGGATCGAGGGCTGGCTGCGTGCGGTCCGCGACGAGCAGGGCAGCGTGCTGGCCTACACGCTCAGCGTGCCCGAGCCGGTCGCCGAGACCGGCAGCCGCTGGGAGATCGGTCTGGACAGCGCCGACCACGGCCTGTGGGACTGGGACATCGCCGCCGACGTGGTGTACCGCTCGGCCTGCTGGCGGCGCATGCTCGGCTACGGCGACGATGAGCTGCCGCCGAACCTGGCCGCACTGTCCAGCCTGATCCACCCGGATGACCATGCCCGCGTCGCCGAGGCGGTGCGTGCCCATATCGACGGCCGTACCGAGGCATATTCGGCCGAATTCCGGCTGCGCCAGCGCGATGGCCAATGGCGCTGGATCCTCGACCGCGGGCGGGTGGTGTCGCGCACCGCCGACGGCCAGGCGGTGCGGATGATCGGCACCCATACCGACATCCACCAGCAGAAGCTGCTCGAACAGCAGCTGCGCGAGCAGCAGGCGCAGCTGGAGGAAGCCCAGCGCATCGCCAGCATCGGCAGCTGGGCCTGGGACCCGGCGCGCAACGCGTTCTGGCTGTCGGCGGACTTCCGCGAGCAGGTCGGCCTGGCCGACCAGCCGCTGGAGCGCTGCCGCGACCTGCTGCGCCTGCTTGGCGCCGATGGCCGCTTCCAGCTGCGCAACGCCTGGCGGCGGATCCGTCGCGAAGGCCTGCCAGTGCATTTCGAAGCCGAGATCGGTGCCGCCAGCATGACCGCCGCGCAGCACCTGCGGATCTGGGCGCAGCCGGTCTTCGATGGCGACGGACAGATCCTGCGCCTGCTTGGCCAGGTGCAGAACGTCACCGAGCAGCGCCAGACCGACGCGCTGATCCGCTGGCGCACCGAGCTGCTCAACCGCGTGTCGGCGCTGGGCAAGATCGGCGGTTGCGAGATCGAGGTCGATACCCGCCGCATGCAGTGGACCGAGGAGTGCTACCGCATCCACGGCCTGCGCAAGGAATCGATCACCCTGGAGCAGGCGCTGGCGCTGTACACCCAGGACTCGCGCGACACGTTCGAGGCGGCGTTGATGCGCATCGCCGAGGGCGGGCTGCCCGAGCAGCTGGAGCTGTGCTTCTACCGCAACTCCGGCCAGCGCGTGTGGGTGCAGGTGCTGGTCGAGCTGGACAAGCGCGATGGCCTGCCGCCGCGCTTCATCGCGCTGTTCCGCGACATCAGCCGCGAGCGCGAGGCCAACGAACGCATCGAGATGCTGGCGCACTACGACCGCCTGACCGGGCTGCCGAACCGCTTCCTGGTGCGCGAGCAGGCCGAGAAGGCGATGGAGGAGAGCCGGCACCGCGGCGATACGCTGGCGATGCTGCTGATCGACCTGGATGGCTTCAAGAGCATCAACGACTCCTTCGGCCACGCCACCGGCGATACCCTGTTGAAGCTGGCCGCCACCCGCCTGCACCAGCACCTGCGCAACAGCGACCTGTTCGGGCGCTTCAGCGATGACGAGTTCATCGTGGTGCTGCGCGACCTGGCCGCACCGGAAGACGCCGGTCACGTGGCGCGCAAGCTGATCGCCGCACTGGCCGAGCCGCTGCGCAAGGAACACATCACCCTCAAGGTCGGCGCCAGCATCGGCATCGCCGTGCAGGACGAGGACCTGCCGGACTTCGACAGCCTGCTGCGCGCCGCCGACGCGGCGATGTACGCGGCCAAGGAATCCGGGCGCAACACCCATCATTACTACAGCCAGGACGTGCTGCAGCGCGCCCAGCGCCGGCTCGAACTGGAGCATGCGCTGCACGGCGCGCTGGACCGCGACGAGTTCACCCTGGTCTACCAGCCGCTGGTCAGCACCGAGGACACCGCCGCGCCGGCGATCGAGGCGCTGATGCGCTGGCAGCGCCCGGGCCACGGCCCGTGCAGCCCGGCCGAGTTCATCCCGATCGCCGAGGAATGCGGCGAGATCGTCCGCCTCGGCGACTGGGTGCTGGGCGAGGCCTGCCGCCAGGCGGTGGTCTGGGACCGCGCCGGGCTCAATTTCAGCCGCATCGCGGTGAACGTCTCGGCGGTGCAGCTGCGCGACCGCGAGTTCGCCGAGCGCGTGCTGCAGATCTGCGCCGCCAACGACTGGCCGCCGAGCAGGTTGGAGCTGGAACTAACCGAATCGGCGCTGATCCGCGACACCGACGTGCTGCGCCGCACCTTCGACCTGTTCGAACAGAACGGCGTGCTGCTGGCGGTGGACGATTTCGGCACCGGCTTCTCCAACCTGCATTACCTCAACCGCTTCCCCGTGCAGCGGCTGAAGATCGACCGTAGCTTCGTGCAGGGCATGCTGGCCGATGCCAACACCGCCGAGGTGACCCAGGCCATCGTCCACCTCGGCCACGCGCTGGGCATGCAGGTGGTGGCCGAGGGCGTGGAGACCGTGCAGGAAGACGCGCTGCTGCGCCAGCAGGGCTGCGACGAGATCCAGGGCTACTTCTATTCGCGCCCGCTGGTCCCGCGCGACATGGCGCAATGGCTGCGCGAGGCCGACGTCGGCCAGCGCCTGGGCCGCCGGCTGACGCTGGCGGGGAGCTGA	MDSGVIASLLQHPLTSAVVVLDAHGRPLAANRVAQSLGLPATLGAYRDLLEGGREQLAGGEPMTPCILPGSGGRRIEGWLRAVRDEQGSVLAYTLSVPEPVAETGSRWEIGLDSADHGLWDWDIAADVVYRSACWRRMLGYGDDELPPNLAALSSLIHPDDHARVAEAVRAHIDGRTEAYSAEFRLRQRDGQWRWILDRGRVVSRTADGQAVRMIGTHTDIHQQKLLEQQLREQQAQLEEAQRIASIGSWAWDPARNAFWLSADFREQVGLADQPLERCRDLLRLLGADGRFQLRNAWRRIRREGLPVHFEAEIGAASMTAAQHLRIWAQPVFDGDGQILRLLGQVQNVTEQRQTDALIRWRTELLNRVSALGKIGGCEIEVDTRRMQWTEECYRIHGLRKESITLEQALALYTQDSRDTFEAALMRIAEGGLPEQLELCFYRNSGQRVWVQVLVELDKRDGLPPRFIALFRDISREREANERIEMLAHYDRLTGLPNRFLVREQAEKAMEESRHRGDTLAMLLIDLDGFKSINDSFGHATGDTLLKLAATRLHQHLRNSDLFGRFSDDEFIVVLRDLAAPEDAGHVARKLIAALAEPLRKEHITLKVGASIGIAVQDEDLPDFDSLLRAADAAMYAAKESGRNTHHYYSQDVLQRAQRRLELEHALHGALDRDEFTLVYQPLVSTEDTAAPAIEALMRWQRPGHGPCSPAEFIPIAEECGEIVRLGDWVLGEACRQAVVWDRAGLNFSRIAVNVSAVQLRDREFAERVLQICAANDWPPSRLELELTESALIRDTDVLRRTFDLFEQNGVLLAVDDFGTGFSNLHYLNRFPVQRLKIDRSFVQGMLADANTAEVTQAIVHLGHALGMQVVAEGVETVQEDALLRQQGCDEIQGYFYSRPLVPRDMAQWLREADVGQRLGRRLTLAGS	PGPT0023624_722	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
BMS020_06113	2085			hypothetical protein	ATGTCACCGCCGCCCGACAACGCCCTCCCCGGCCCGCAGCAGGCATCGGTGCTGCGCCTGCAGGCGAGGCTGGCGCAGGCGAGCTGGGGGCTCACGCTCGGCTACCTGGCGGTCGGCGCGGTCTGGCTGCTGGCCTGCGGCCTGGCCAGCGGCGGCGAAAGCCATCTGGACCCCGGCTGGCTGGCCTTTCTGATCGTCTCGGCGGTGGCGTTGTTCGTGCTGCTGCAGCGCGGCTCGCGCTGGCTGGTGGGCGATTACCGCGCACAGGCCGAAACCACCGAGGCGCTGCAGGAGCGCTTCCACGCCCTGCCCTGCCCGGTGCTGGTCTACGACCTGCAAGACCTGCGCATCCTCGACGCCAACCCCGCCGCGCTGACCTTCTTCGGCACCTCGCGCGACGTGTTCCTCACCCGCACCCTGCACGCGATCTGGCCCGAGCCGGACCCGGTGCGACTGGAAGCGATCATCGACTCGGTGCGCGCCAAGGGCCGCGACGACTGCGTGGTCACCGAACCGCTGCTGGCCGGCGACGGCATCCGCCATGTCGAGATCCGCAGCCAGCCGCTGACCCTGGGCGCGCGCCCGGCACGGCTGGTGGTGCTGATCGACCGCAGCGCCGAGCAGCAGGCCCTGCACCACCGCGCCGAGGCGCTGGAGCGGCTGCATGAGGCCCAGGCGATCGCGCGGCTCGGCTCGTGGGAGATCGATCCGGGCAGCCGCATCGGCGAGTACTCCGACGAGGTCTACCGGATCATGGCGCGGGCATTGCCGTCGCAGCGCCGGCATGGCCTGGAGGAACTGCTGGCCGCCAGCGACATGGCCACGCAGGCGCGCATCGACCACCTGTTCGAGGACATCTATGCCGGCAAGGCGATGCAGGTGGACGTGCTGCTGCCGCTGATCGCCGGCAACGGCCAGGAGCGCATGATCCACCTGTGCGCCGAGAGCACCACCCGTGCCGACGGCAGCGCCGTGGTGCGCGGCACGATGCAGGACGTGACCGAGCGCGAACGCTCGCGGCGCCTGCTGCGCGAACGCGAGGAGCAGTTCCGCGAGCTGGTGCGGGTGCTGCCGGACGGGGTGATGATCCTGTCCGGCGAGCGGGTGATGTATGCCAACGCCGCCTGCGCCACCCAGTTCGGCTACGAGGGCGAGGCGCTGCTGGGCGAGCCGCTGCACGCGCTGGTCGCCGAGAGCGACTACGCCTCGGTGGTGCAGCTGCTCGAGGCCGGCAGCCTGGCCGAGCCGGGCCACACGGTGCGGCGCATGCGCCGGCGCGACACCTCGCTGTTCCGCGCCGACCTGTCGGTCGGGCGGGTGCGCTACGGCGGCCGCGACTGCCGGCTGCTGGTGGTGCGCGACCTCAGCGAGCCCGAGCGCATGCGCGACGCGCTGGCCGAGGGCAACGCCGAGCTGCAGGCAATGGCCCGCCGGCTGTTCTCGCTGCAGGAGGACGAGCGCCGGGCGATCTCGCGCGACCTGCACGACGATATCGGCCAGGCGATCACCGCGATGAAGATCTCGGCCTACGCCGCCCAGGACGAACCCGATCCGGTCCGGCGCCGCGAGGACCTGCAGGACGTGGTGGCGCTGGCCGACGCCACCGTGGTCAAGCTGCGCAACCTGTCGATGCTGCTGCGGCCGCCGCAGCTGGACGCTCTTGGCCTGGAGGCGGCGATCCGCTGGCAGGCCAGCGCGCTGTTCCGCGCCTCGCAGGTGCGGCTGGAACTGGACATGCAGCCGCTGCCGCGGCGCCCGAGCAACGAGATCGAGCAGGCCTGCTTCCGCATCGCCCAGGAGAGCCTGACCAACGCGCTGCGCCACGCCTGCGCCGGCGAAGTGGTGCTGGCGCTGCGCTGCGACGAACAGGCGATCACCCTGGAGGTCAGCGACGACGGCGACGGGTTCGATCCGGACGGCCCACGCGGGCTGGGCCTGATCGTGATGCGCGAACGCGCGCAGACCGCCGGCGGCACGCTGCGGATCGATTCGGCACCGGGCGCCGGCACCCGTGTCATCCTGCACCTGCCCTATTCAAGCGCGCCCGGCGACGCCGGCGACGGCCACCAAGACGGACCTCGATGA	MSPPPDNALPGPQQASVLRLQARLAQASWGLTLGYLAVGAVWLLACGLASGGESHLDPGWLAFLIVSAVALFVLLQRGSRWLVGDYRAQAETTEALQERFHALPCPVLVYDLQDLRILDANPAALTFFGTSRDVFLTRTLHAIWPEPDPVRLEAIIDSVRAKGRDDCVVTEPLLAGDGIRHVEIRSQPLTLGARPARLVVLIDRSAEQQALHHRAEALERLHEAQAIARLGSWEIDPGSRIGEYSDEVYRIMARALPSQRRHGLEELLAASDMATQARIDHLFEDIYAGKAMQVDVLLPLIAGNGQERMIHLCAESTTRADGSAVVRGTMQDVTERERSRRLLREREEQFRELVRVLPDGVMILSGERVMYANAACATQFGYEGEALLGEPLHALVAESDYASVVQLLEAGSLAEPGHTVRRMRRRDTSLFRADLSVGRVRYGGRDCRLLVVRDLSEPERMRDALAEGNAELQAMARRLFSLQEDERRAISRDLHDDIGQAITAMKISAYAAQDEPDPVRRREDLQDVVALADATVVKLRNLSMLLRPPQLDALGLEAAIRWQASALFRASQVRLELDMQPLPRRPSNEIEQACFRIAQESLTNALRHACAGEVVLALRCDEQAITLEVSDDGDGFDPDGPRGLGLIVMRERAQTAGGTLRIDSAPGAGTRVILHLPYSSAPGDAGDGHQDGPR				NA	NA	NA	NA	NA
BMS020_06114	1731			hypothetical protein	ATGAGCATGTGGAACCCGGCGATCCCGCACGGACTGGATACCCCGCCCGCGGAGCGGCTCGGCGCCGGCAACCCGGAGTTGGCGCGCATGGTCGACGCGGCCGCGTCCGGCGGCCCGGCGCTGATGGTCATGCACGTGGACATCGACCACTTCGCCGCGATCAACGAGAACATGAGCGTGGAGGTCGGCGACGAGGCGCTGGCGCTGATCGCCGAACGCCTGCGCGCCTACCTGGGCAACCGCGGCCGGCTGTGGCGCCACGGCAGCGACGAGATGGTGATCGTGGTGCGCCGCGACGCCGATACCCAGCTGCCCGAGGACGTGGCCGAAGGCATCCGCCAGCAGATCGAGCTGCCGCTGTCGGTGCTGCCCTATACCTTGTTCATGACCGGCAAGGTCGGCGTCAGCCTGTGCCCGGAACACGCCACCAGCCTGTCGCCGCTGCTGGACCACGCCGAGGAGGCCTGCTTCCAGGCCGCGCGCGAGGGCGGCAACACGGTGCGCCTGTACACCCGCAACCCGGTGGCCAGCGCGCACAGCGAAAGCATCATCGCGCGGCAGATCGTCGATGCGATCCCGCATGGCGAGCTGCGCCTGCGCTACCAGCCGATGGTCAGCGCACGCGATGGCCGCATCGTCGGCATGGAGGCGCTGCTGCGCTGGCAGTCGCCGACCCTGGGCATGCTGGTGCCGGAGCGCTTCATGCGCACCGCCGAGCGGCTCGGGGTGATCGTGCAGATCGGCGAGTGGGTGATGCAGAACGCGATCCGCCAGGCGCGGCTGTGGCGCGACCAGGGCTTCGACGATTTCAGTATCGCCGTCAACGTTTCGACGCTGCAGCTGCTGCGCCCGAACTTCTTCAACGAAGTGCTGGCGATGCTGCAGTCGGCCGGCGTGCCCTCGCAGTGCGTCACCCTGGAGATCAACGAAAGCGCGCTGACCAACAACGTCAACTTCGTCCACGAGACGATGGCGAACCTGCGCAACGAGGGCATCAGCCTCAGCCTGGACAACTTCGGCACCGGCGATTCCAGCCTCAGCGCGCTAGTGCGCTACCCGGTGGACCGGCTGAAGATCGACCGCAGCTTCATCAAGAGCGCGCCGGCCGGCAGCCGCGAGGCGGCGATCGCGCGCGCGATCATCGCGATGGGCCACCAGCTGGGCATGACGGTGATCGCCAACGGGGTGGAATCGCAGGCCCAGCTCGGCTTCCTGCGCCGCAACGACTGCGACATCTTCCAGGGCTACCTGTTCGGCGAACCGATGTCGGCCGAGTCGGCCGGCATGGCGCTGCGGCGGCGCTACCTGCGCCCGGAATCGTTCGCCGAGAGCCGCCCGGACCGCACCCTGCTGCTGCTCGACGACGAGGAGAACGTGCTGCGCTCGCTGGTGCGGCTGTTCCGCCGCGACGGTTACCGCATCCTCGCCGCCGGCAACGTGCGCGACGCCTTCGACCTGCTGGCCACCAACGACGTGCAGGTGATCCTGTCCGACCAGCGCATGAGCGACATGAGCGGCACCGAGTTCCTCGGCCGGGTGAAGATGCTCTACCCGGACACGGTGCGGCTGGTGCTGTCTGGCTACACCGACCTGTCAACGGTGACCGAGGCGATCAACCGCGGCGCGATCTACCGCTTCCTGACCAAACCGTGGAACGACGACGAACTGCGCGAGCACATCCGCCAGGCCTTCCGCACCCACGACGAACAGCGCCGCGACGGGCAGATGTAG	MSMWNPAIPHGLDTPPAERLGAGNPELARMVDAAASGGPALMVMHVDIDHFAAINENMSVEVGDEALALIAERLRAYLGNRGRLWRHGSDEMVIVVRRDADTQLPEDVAEGIRQQIELPLSVLPYTLFMTGKVGVSLCPEHATSLSPLLDHAEEACFQAAREGGNTVRLYTRNPVASAHSESIIARQIVDAIPHGELRLRYQPMVSARDGRIVGMEALLRWQSPTLGMLVPERFMRTAERLGVIVQIGEWVMQNAIRQARLWRDQGFDDFSIAVNVSTLQLLRPNFFNEVLAMLQSAGVPSQCVTLEINESALTNNVNFVHETMANLRNEGISLSLDNFGTGDSSLSALVRYPVDRLKIDRSFIKSAPAGSREAAIARAIIAMGHQLGMTVIANGVESQAQLGFLRRNDCDIFQGYLFGEPMSAESAGMALRRRYLRPESFAESRPDRTLLLLDDEENVLRSLVRLFRRDGYRILAAGNVRDAFDLLATNDVQVILSDQRMSDMSGTEFLGRVKMLYPDTVRLVLSGYTDLSTVTEAINRGAIYRFLTKPWNDDELREHIRQAFRTHDEQRRDGQM	PGPT0026010_2428	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
BMS020_06115	1230	sasA_9		Adaptive-response sensory-kinase SasA	GTGACCGACTCGTTTCTGCCTGATCCCTCCCTGTTGCCATCCCCCGAGATCCTGAATGCCTTCAGCGAACTCACGCTGGAAGGCATCCTGATGTTCCGCACCGACGGCAGGCTGGTCTTCGCCAATGCCGTCGCCCGCGCCAGCCTGTGCCGCGATGGCGCCAGCGGCGCGGCCGACTTCGAGCAGCGCATCGCCCGGGTCCTGCCGGCCGACGCACTGGCCCAGGCCCGCGCCAAGGGCTTCTGGAGCGGCAGCCTGCCGATCGACGACCGCGTGGTGATCGTGCATGTGTACTTCCACCCCTCGGCCAACGGCATCGGCCATTACCTGTCGATCTTCCACAACCTGGAAGGCCAGCAGGACTACGAACGCGAACTGCAGCAGCGCCACGCCGAGCTGCGCCAGGCCTACATGCGCCTGAACGGCGCCCAGGACAAACTGCTGCAGTCGGAGAAGATGGCCTCGATCGGCCAGCTCGCCGCCGGCGTCGCGCACGAGATCAACAACCCGATCGGCTACGTGCACTCCAACCTGGGCAGCCTGCAGGAATACCTGCGCAGCCTGTTCACGCTGATCGAGGCCTACGAGCGCGCGCTGCGCGCCCCGGACCCGAAGGCGCTGATCCCGGAAATCGACGACATCCGCAGCCGCGCCGACATCGACTTCATCGCCCGCGACCTGCCGCAGCTGATGGCTGAATCGCGCGAGGGCATCGAGCGGGTGACGCGGATCGTGCGCGACCTGAAGGACTTCTCGTATTCCGACCGCACCGAGTCGTGGAAGCTGGCCGACCTGCATGCCGGGCTGGAATCCACCATCAACATCATCTGGAACGAGCTCAAGTACAAGGTCACGCTGGAGCGCCGTTACGGCGAGCTGCCGCTGGTGGAGTGCCTGCCATCCGAGCTCAACCAGGTCTACATGAACCTGCTACTCAACGCCGGCCAGGCGATCGCCGAGCGCGGCACCATCACCGTCAGCACCGGGACCGAGGGCAGCGAATACGTCTGGATCGAGTTCCGCGACAGCGGCAGCGGTATCCCGGCCGACCTGCTGCAGCGCATCTTCGATCCGTTCTTCACCACCAAGCCGGTCGGCAGCGGCACCGGCCTGGGCCTGTCGATCTCCTACGGCATCATCAACAAGCACCACGGTCGCATCGACGTCGACAGTGTGCCGGGCCAGGGCGCCAGCTTCCGCATCCTGCTGCCGGTACGCCAGCCGCGCTGA	MTDSFLPDPSLLPSPEILNAFSELTLEGILMFRTDGRLVFANAVARASLCRDGASGAADFEQRIARVLPADALAQARAKGFWSGSLPIDDRVVIVHVYFHPSANGIGHYLSIFHNLEGQQDYERELQQRHAELRQAYMRLNGAQDKLLQSEKMASIGQLAAGVAHEINNPIGYVHSNLGSLQEYLRSLFTLIEAYERALRAPDPKALIPEIDDIRSRADIDFIARDLPQLMAESREGIERVTRIVRDLKDFSYSDRTESWKLADLHAGLESTINIIWNELKYKVTLERRYGELPLVECLPSELNQVYMNLLLNAGQAIAERGTITVSTGTEGSEYVWIEFRDSGSGIPADLLQRIFDPFFTTKPVGSGTGLGLSISYGIINKHHGRIDVDSVPGQGASFRILLPVRQPR				NA	NA	NA	NA	NA
BMS020_06116	327			hypothetical protein	GTGAGCGACGCGCTGCAACGCCTCAGCGATGCCCTGGCCGGCGAGCGCCGGGCGTTGCTCGAGCATGACGTGGAGGGCCTGATCCAGGCCACCCAGGCCAAGCTCGAGGCCCTGCGCGAACTCGAACGCGACGTGCCACGCGGCCAGCAGGCGCGCCTGCGCGAGCTGGCCGAGGCCAACCGCGCCAATGGCGTGCTGCTGGCGCGCCGCCGCCGCGAGGTGAACTGGGCGCTGCGCCACCTCGGCCGCAGCGAGAGCGCGCCGGCCTACGACGCCAACGGGCAGTCCAGTACCTTGCGCGCCAGCCGCCCCCTCGCGGTCGCCTGA	MSDALQRLSDALAGERRALLEHDVEGLIQATQAKLEALRELERDVPRGQQARLRELAEANRANGVLLARRRREVNWALRHLGRSESAPAYDANGQSSTLRASRPLAVA				NA	NA	NA	NA	NA
BMS020_06117	312			hypothetical protein	ATGAGCCAGAAAATTGATGGCACCCTGCCGACATCGGCAGCGCTGCGCAGCAGCAGTGTCAGCACCAAGACCAGCTCGGCCGGAAGCAGCGATTCCTCGCCCGTGGCCGCGGCCAGCGGCAGCGACAGCCTGAAGCTGACCGGCGAGGCGTCCAACCTGCAGGCGCTGCAGCGCAGCCTGTCGCAGGCGCCGGCGGTGGATACCTCGCGCGTCCAGGCGGTGAAGGACGCGCTTGCCAGTGGCGGTTACTCCATCAACCCGGGGACGATCGCCAACCGGATGATGGACCTGAACAGCCAGCTGAGCGGCTAA	MSQKIDGTLPTSAALRSSSVSTKTSSAGSSDSSPVAAASGSDSLKLTGEASNLQALQRSLSQAPAVDTSRVQAVKDALASGGYSINPGTIANRMMDLNSQLSG	PGPT0015530_631	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0015530-flgM-K02398	NA	NA
BMS020_06118	645			hypothetical protein	ATGCGTCCGATCCTGCTCATCCTGTTGCTGCTGGCCGCACCGGCCTGGGCCGACGGCTTCCAGCCGGTGGAGTCGATCCGTGCCGCGGCGCTGTCGACGCTGGGGCCGGGCGCCGACGCCGAGGCCACGCTCGATGCCGGGCTGCGCATGCCGGCCTGCCCGGTGCCGCTGCAGGCGCAGCCGACCGGCAGCAGCACGGTCGAGGTGGCCTGCCCGCAGCCGGCCGGCTGGCGCCTGTTCGTGCCGGTCAAGGTGCGCCGCAACCAGAGCGTGCTGGTGCTCAACCGCGGCCTGGCCGCTGGAGAAATGCTGTCGGCGGCCGATATCACCATCGAGACCCGCGACGCGGCCCGTATTGTCGGCGCCGCGCTGGCCGATCCGAACGATGCCGTCGGCAAGACGGCGCGGCGGATGCTGCCGGCCGGGACGCTGTTGTCGTCGACCGACCTGGTCGCGCCGCGGCTGGTGCACCGGGGCGACTCGGTGGAGCTGATCGCCCGCCAGGCCGGCCTGGAAGTGCGCATGCGCGGCCGGGCACTGGCCGACGCCGGCGCCAACGAGCGGGTTTCGGTGGAAAACGCCTCTTCACGCAAGGTCGTGCAGGGTGTGGTCGATGCGAGCGGCGCTGTCGTGGTCGCCCGTTGA	MRPILLILLLLAAPAWADGFQPVESIRAAALSTLGPGADAEATLDAGLRMPACPVPLQAQPTGSSTVEVACPQPAGWRLFVPVKVRRNQSVLVLNRGLAAGEMLSAADITIETRDAARIVGAALADPNDAVGKTARRMLPAGTLLSSTDLVAPRLVHRGDSVELIARQAGLEVRMRGRALADAGANERVSVENASSRKVVQGVVDASGAVVVAR	PGPT0015415_405	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_M|S|P|L-RINGS,PGPT0015415-flgA-K02386	NA	NA
BMS020_06119	945	cheV	COG0784	Chemotaxis protein CheV	ATGTCCCATGACCTGCTCAACCGGATCGACCAGCGCACGCGCCTGGCCGGTCACAACCGCCTCGCCCTGCTGCTGTTCCGGCTCGGCGGCCGCCAGCTTTTTGGCGTGAACGTGTTCAAGGTCCAGGAGGTGCTGCGGCGCCCGCCCCTGTTCCAGGTCCCCGGTCTGCCGGACGAGTTCGCCGGCGTCGCCGACGTCCGCGGCCGCTCGGTGCCGGTGCTGGACCTGGGCCGCGCGATCGGCCACCCCGAGCGCGAGCGCGACGGCGAGGACGGTCCTGGCTACCTGGTCGTGGCCGAGTTCAACCGCTCGGTCCAGGGCTTCCTGGTCAGCGGCGTGGAGCGCATCGTCAACATCGCGGTGGAGGACATCCACCCGCCGCCGGAACTGGGCGCCGAGGCCACCTACCTGACCGCGGTGACCCGCTTCCAGGGCGAACTGATCCAGGTGATCGACGTCGAAAGCGTGCTCGCCGACATCGCCCGGGTCGAGACCAACATCCAGCTCGATCCGACCCTGACCCTGGGCGAAGCCGGGCGCCAGCTGCAGGTGCTGGTGGTCGACGACTCGCGCGTGGCGCGTCAGCAGATCCGCAGCGTGCTCGACCAGCTCGGGGTCGGTGCGACCCTGCTCTCGGACGGGCGCCAGGCACTGGACCACCTGCTGCAGGTCGCCGCCTCCGGCGAGGATCCGTGCGAGCGCTATGCGATGGTGATCTCCGACATCGAGATGCCGGCGATGGACGGCTACACGCTGACGACGGAAATCCGACGCACCCCGGCGCTGGCCGGGCTGTACGTACTGCTGCACACCTCGCTGTCGGGCGTGTTCAACAACGCCATGGTCGAGCAGGTCGGCGCCAATGCGTTCGTCGCCAAGTACAGCGCGCACGAGCTGGCCGAATACGTGCTGCAGCGCCTGACGGACGTCGCCGAGGCCGCCTGA	MSHDLLNRIDQRTRLAGHNRLALLLFRLGGRQLFGVNVFKVQEVLRRPPLFQVPGLPDEFAGVADVRGRSVPVLDLGRAIGHPERERDGEDGPGYLVVAEFNRSVQGFLVSGVERIVNIAVEDIHPPPELGAEATYLTAVTRFQGELIQVIDVESVLADIARVETNIQLDPTLTLGEAGRQLQVLVVDDSRVARQQIRSVLDQLGVGATLLSDGRQALDHLLQVAASGEDPCERYAMVISDIEMPAMDGYTLTTEIRRTPALAGLYVLLHTSLSGVFNNAMVEQVGANAFVAKYSAHELAEYVLQRLTDVAEAA	PGPT0015675_741	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015675-cheV-K03415	NA	NA
BMS020_06120	216			hypothetical protein	GTGGGAGTCATATCCTCGGTCATGAACCACACCGTCGGTGCCGGTTGGCACGCGGTGAAAGACACCCTTCGTGGCGCTGCGCGCGGCGAAGTGGACGACATCGCCAAGGTGGCGGTGGTCGCAGGCATGGCGACGGGCACGGTCCCGGTCGCGACGGGTCTGGTTGCCTTGGCGGGTGAATCCGCCGTCGGCGGTCTGATCGACGTCTTCGCCTGA	MGVISSVMNHTVGAGWHAVKDTLRGAARGEVDDIAKVAVVAGMATGTVPVATGLVALAGESAVGGLIDVFA				NA	NA	NA	NA	NA
BMS020_06121	396	flgB	COG1815	Flagellar basal body rod protein FlgB	ATGTCCAACCCGATCGCCAGCTACTTCGGCGTGCATGCCGCCGCGCTGCCCCTGCGCGAAGAGCGGATGCAGCTGATCGCGTCCAACCTGAGCAATGCCGACACCCCTGGCTACAAGGCCAAGGACCTGGACTTCGAGTCCGCCCTGCAGGCGACCATGACCAACCAGGGGCCGCTGAAGACCACCGACAGCCGCCACCTGGCGATCCCGACCCAGCCGGGCCAGGAGCCGTTCCTGGTTACCCGCGACGGCGCCCAGCCCAGCCTGGACGGCAATACCGTCGACCCGGACCTGGAACGCGCCGCCTACGGCCGCGCCGCGCTGGAATACCGCGCCTCGCTGTCCTTCCTCGAATCCAAGGTCAAGGGCATGTTGACCGCGATCACGGGGCAATAA	MSNPIASYFGVHAAALPLREERMQLIASNLSNADTPGYKAKDLDFESALQATMTNQGPLKTTDSRHLAIPTQPGQEPFLVTRDGAQPSLDGNTVDPDLERAAYGRAALEYRASLSFLESKVKGMLTAITGQ	PGPT0015470_1547	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015470-flgB-K02387	NA	NA
BMS020_06122	408	flgC	COG1558	Flagellar basal-body rod protein FlgC	ATGAGCAACCTGCCGATTTTCGATGTCGCAGGCTCCAGCCTGCAGGCGCAGTCGGTGCGACTGAGCACCATCGCCTCCAACCTGGCCAACGCCGACTCGGTCGCCTCCAGCCCCGAACAGGCCTACCGCCCGATCGAGCCGATCTTCCAGGCCCAGCCCAACGCCCAGGACCCCAGCCTGACCGGGGTCAAGGTCAAGGAGATCACCCCGACCAACGTCGCCCCGATCAAGCGCTACGAGCCGGGCCATCCGCTGGCCGACGCCGACGGCTACGTCTACGCGCCCGATGTCGATCCGGTCGCGCAGATGGTCAACCTGATCTCGGCCTCGCGCAGCTACCAGGCCGGCGTCGAGGTGCTCAACACCGCCAAGGAACTCGCCCTGGCCACCCTCACGATGGGCCGCTGA	MSNLPIFDVAGSSLQAQSVRLSTIASNLANADSVASSPEQAYRPIEPIFQAQPNAQDPSLTGVKVKEITPTNVAPIKRYEPGHPLADADGYVYAPDVDPVAQMVNLISASRSYQAGVEVLNTAKELALATLTMGR	PGPT0015475_1779	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015475-flgC-K02388	NA	NA
BMS020_06123	693	flgD	COG1843	Basal-body rod modification protein FlgD	ATGACCGCCATATCGATGGACGCCCTGTCCAAGCTCGGCCTCACCGGCAAGACCACCGCCAGCGAGCAGAAGGACATCGAGGACAAGGCCCGGGACGACAAGCTCGGCCAGGCCGACTTCCTGAAGATGATGACCCAGCAGCTGAAGAACCAGGACCCGTTGAACCCGATGGACAACGGCGCGTTCCTGGCCCAGCTGGCGCAGATCTCCACCGTGCAGGGCCTGAGCGACCTCAACAAGAAGGCCGACCAGTTCCTCGGCGCCAGCAACGAGGAGCAGGCGCTGCGTGGCGCTTCGCTGATCGGGCGCCAGGTCGAGGCGCCCGGCTCGACCCTGGCGCTGGGCGGCGACGGCAGCACCGTGGCCGCCTCGGTGCAGGCCACCGGCACCGGCCCGGTCAGCGTGACCATCCAGGACGCCACCGGCGCCCCGGTGCGCACACTGAGCCTGACCGACGGCGCGGCCGGCCCGCGCAAGCTGGAGTGGGACGGCAAGAACAGCGCCGGCGCGCGCCTGCCGGCCGGCAACTACAAGATGGTGGCCACCCAGGCCGGCGCCGATGGCCAGCCGGTCGCCCTGGACACCTTCACCGGCGTCAAGGTCGAGAGCGTCAGCCTCGGCAAGGACGGCGTGACCCTCAACCTCGCTGGCGGCCAGAGCGTGCAGCTCAGCCAGGTGCAGCGCATCAGCTAA	MTAISMDALSKLGLTGKTTASEQKDIEDKARDDKLGQADFLKMMTQQLKNQDPLNPMDNGAFLAQLAQISTVQGLSDLNKKADQFLGASNEEQALRGASLIGRQVEAPGSTLALGGDGSTVAASVQATGTGPVSVTIQDATGAPVRTLSLTDGAAGPRKLEWDGKNSAGARLPAGNYKMVATQAGADGQPVALDTFTGVKVESVSLGKDGVTLNLAGGQSVQLSQVQRIS	PGPT0015480_1514	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015480-flgD-K02389	NA	NA
BMS020_06124	1227	flgE	COG1749	Flagellar hook protein FlgE	ATGGGTTTCAACACTTCGCTCTCCGGCCTGCGCGCCAGCAACACCGACCTCAACGTCACCTCGAACAACATCGCCAACTCGGCGACGACCGGCTTCAAGGAATCGCGCGCCGAATTCGCCGACATCTTCATGGGCAGCACCTACGGCGTGGCCAACAATGCCGTCGGCAGCGGCGTGCGCGTGGCCGATATCGCCCAGCAGTTCAAGCAGGGCAACATCGACAGCACCCAGAACAGCCTGGACGTGGCGATCTCCGGCGAGGGGTTCTTCAACCTGTCCAAGAACGGCACCACGCTGTACAGCCGCGCCGGCAACTTCCAGATGGACGCCGACGGCTACGTGGTCACCCCCGAGGGCTACAACCTGCAGGTGTTCACCCCGAACACCGACGGCACCACGGTCAGCACCTCGACGCTGCAGAACCTGCAGCTGACCGCGACCAGCAGCTCGCCGCAGGCGACCACCGCGGTCAGCGCCAACGTGACCCTGCCGGCCAACGCCAGCGCGCCGTCGGTGGCGACCTTCGACCCCAGCGATACCGACAGCTACAACTATTCGACCTCGGTGACGGTGTACGACTCGCTCGGCATCTCGCACGTGATGACGATGTATTACGTCAAGACCGCCAACGCCAACGAGTGGCAGCAGCACACCTACATCGACGGCACCGACGTGACCCCGGCCACCGGCACCACGCTGCAGTATTCGGACAGCGGCGCGCTGGTCTCGCCGACCGGTGGCGTGACGCTGTCGACGTTCACCCCCACCAACGGTGCGGCGGCGCTGAACATCACCATGTCGGCCACCGGCTCGCAGCAGTTCGGCGAGGCGTTCGGGGTCAACAACCTCAGCCAGGACGGTTTCGCCACCGGCAACCTGTCGCGCTTCGAGATCGGCAGCGACGGCATGGTCTATGCCACCTACAGCAACGGCAACAAGACCCTGCTCGGGCAGATCGCGCTGACCAGCTTCAACAACAAGCAGGGCCTGGCTTCGCAGGGCAACAACACCTGGATGGCCACCGCCGCCGCCGGCACCCCGCGCACCGGTGCGCCGGACAGCTCGGACTTCGGCAACCTGCAGTCGGGCGCGCTGGAAGCCTCGACCGTGGACCTGACCGAGCAGCTGGTGAACATGATCGTGGCGCAGCGCAACTTCCAGGCCAACGCCAAGATGATCACCACCCAGGACGAGCTGACCCAGACCGTGATCAACATCACCCGCTGA	MGFNTSLSGLRASNTDLNVTSNNIANSATTGFKESRAEFADIFMGSTYGVANNAVGSGVRVADIAQQFKQGNIDSTQNSLDVAISGEGFFNLSKNGTTLYSRAGNFQMDADGYVVTPEGYNLQVFTPNTDGTTVSTSTLQNLQLTATSSSPQATTAVSANVTLPANASAPSVATFDPSDTDSYNYSTSVTVYDSLGISHVMTMYYVKTANANEWQQHTYIDGTDVTPATGTTLQYSDSGALVSPTGGVTLSTFTPTNGAAALNITMSATGSQQFGEAFGVNNLSQDGFATGNLSRFEIGSDGMVYATYSNGNKTLLGQIALTSFNNKQGLASQGNNTWMATAAAGTPRTGAPDSSDFGNLQSGALEASTVDLTEQLVNMIVAQRNFQANAKMITTQDELTQTVINITR	PGPT0015485_2135	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015485-flgE-K02390	NA	NA
BMS020_06125	747	flgF	COG4787	Flagellar basal-body rod protein FlgF	ATGGACAAGGCCGCCTATGTCGCGATGACCGGCGCCAGTGCCACGCTGCAGGCACAGACCGCCGTATCCAACAACCTGGCCAACGCCGACACCCCCGGCTTCAAGGAGGCGCTGGCCAACACCCGCGCCTTCCCGGTCAACGGGCCCGGCTATCCCTCGCGCGTGGACACCATCCTCGGCGACGTCGGCTTCAACGCGACGCCGGGGTCGCAGCAGGTCACCGGCAATCCGCTCGACGTCTCGCTGGGCCAGGACAAGTGGCTGGCGGTGCAGGCCGCCGACGGCAGCGAGGGCTATACCCGCGCCGGCAACCTGCAGCTGACCCCGAATGGCCAGCTGATGGCCGGTGGCCGTCCACTGCTGGACGACAACGGCGCACCGGTCACGGTGCCGCCGTACCAGTCCATGGACATCGGCGACGACGGCACGATCTCGATCGTGCCGCAGGGCCAGGGCCCGGCGTCGATGGCCGTGGTCGGTCGGCTGCGCGTGGTCCAGGCCGGCCAGAAGGACCTGACCCGGGGGCTGGACGGGTTGATGCGCAACGCCAACCCGCAGACCCCGCTGCCGCGCGCCAACGGCCGCGTGCTGACCACCGGCGTGGTCGAGGGCAGCAATGTCGACACCGCCGCCGCACTGGTGCAGATGATCCAGCTGCAGCGCCAGTTCGAAATGCAGGTGAAGGTGGTCAAGGCCGCCGACGACAACGCCCAGTCGGCCAACACCCTGCTGCGCCTGGGTGGCTGA	MDKAAYVAMTGASATLQAQTAVSNNLANADTPGFKEALANTRAFPVNGPGYPSRVDTILGDVGFNATPGSQQVTGNPLDVSLGQDKWLAVQAADGSEGYTRAGNLQLTPNGQLMAGGRPLLDDNGAPVTVPPYQSMDIGDDGTISIVPQGQGPASMAVVGRLRVVQAGQKDLTRGLDGLMRNANPQTPLPRANGRVLTTGVVEGSNVDTAAALVQMIQLQRQFEMQVKVVKAADDNAQSANTLLRLGG	PGPT0015490_1160	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015490-flgF-K02391	NA	NA
BMS020_06126	786	flgG	COG4786	Flagellar basal-body rod protein FlgG	ATGAATCAGGCTTTGTGGGTCGCCAAGACCGGACTCGACGCGCAGCAGACGCGCATGTCGGTCGTCTCCAACAACCTGGCCAACGCCAACACCACCGGTTTCAAGAGCGACCGCGCCAGCTTCGAGGACCTGCTCTACCACCAGGTGCGCCAGCCGGGCGGCTCGACCTCGCAGCAGACCACCCTGCCCACCGGCCTGCAGCTGGGTACCGGTACGCGCGTGGTCGCCACCGCCAAGGACTTCCAGCAGGGCAGCCAGCAGCAGACCGGCAACGCACTGGACGTGATGATCAACGGCCGCGGCTTCTTCGAGGTCCAGATGCCCGACGGCACCTCGGCCTATACCCGCGACGGCACGTTCCACGTCAACGCCGACGGCCAGATGGTCACAAACAGCGGCTACCCGGTGCAGCCGGGCATCCAGATCCCGGAAGGCGCGCAGAGCATCACCATCGGTGCCGACGGCACCGTCAGCGTGCAGGTCGCCGGCTCGGCCACCGCCACCGAGGTCGGCACGCTCAGCGTCACCGACTTCATCAATCCGGCCGGCCTGCAGGCGCTGGGCCAGAACCTGTTCGCCGAGACCACCGCGTCCGGTCCGGCGCAGAACGGCTCGCCCGGCCTCGACGGCCTCGGCAGCATCGTCCAGGGCGCCCTGGAAGGTTCCAACGTCAATGTGGTCGAGCAGCTGGTCAGCATGATCGAGACCCAGCGCGCCTACGAGATGAACGCCAAGGCGATCTCGACCACCGATTCGATGCTGGGCTACCTCAACAACAACACCTGA	MNQALWVAKTGLDAQQTRMSVVSNNLANANTTGFKSDRASFEDLLYHQVRQPGGSTSQQTTLPTGLQLGTGTRVVATAKDFQQGSQQQTGNALDVMINGRGFFEVQMPDGTSAYTRDGTFHVNADGQMVTNSGYPVQPGIQIPEGAQSITIGADGTVSVQVAGSATATEVGTLSVTDFINPAGLQALGQNLFAETTASGPAQNGSPGLDGLGSIVQGALEGSNVNVVEQLVSMIETQRAYEMNAKAISTTDSMLGYLNNNT	PGPT0015495_1389	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015495-flgG-K02392	NA	NA
BMS020_06127	708	flgH_2		Flagellar L-ring protein	ATGAACACCCTCCGCCCGGCGCTGTGCGCCCTCGCCTCGGCCGTCCTGCTGAGCGGCTGCGTCAGCCTGCCGCTGTTCTCGCTCGGCGGCATGCGCATGGACAAGAAGAAGAAGGACGAGCAGCTGCCGCAGACCGCGGTGGAATACGCGCCGACCGCCGGCGCGATCTACCGCGACGGCACGCCCGGCCGCATGGACCTGTTCAGCGACCACCGCGCGCGCGACGTCGGCGACCTGCTGACCATCGTGCTCAGCGAGACCACCTCGTCGCAGACCCAGGCCACCACCAACACCTCCAAGACGAGCACCGCGGACATGGCGGCGCCCACCATCGCCGGCAAGGGCGTGACCTTCAACGGGCGCAACCTGCTGGAGAACTCGGTCGATGCCAGCCGCACGTTCGCCGGCTCCGGCGACAGCAGCCAGAGCAACAGCTTCAGCGGCAACCTGACCGTCACCGTGATCCGCCGCCTGCCCAACGGCAACCTGGTGGTGCGCGGACAGAAGAACCTGCGCCTGAACCAGGGCAACGAGTTCGTGCAGGTCGACGGCGTGGTGCGCGAGGTCGACATCTCCAAGGACAACACGGTCTCCTCCAGCCTGGTCGCCGACGCGCGCATTTCCTACAACGGCCGCGGCGCGATCAACCAGAGCAACGAGGCCGGCGCTTTGGCACGGTTCTTTCAATCCCCCCTGTATCCGTACTGA	MNTLRPALCALASAVLLSGCVSLPLFSLGGMRMDKKKKDEQLPQTAVEYAPTAGAIYRDGTPGRMDLFSDHRARDVGDLLTIVLSETTSSQTQATTNTSKTSTADMAAPTIAGKGVTFNGRNLLENSVDASRTFAGSGDSSQSNSFSGNLTVTVIRRLPNGNLVVRGQKNLRLNQGNEFVQVDGVVREVDISKDNTVSSSLVADARISYNGRGAINQSNEAGALARFFQSPLYPY	PGPT0015420_1478	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_M|S|P|L-RINGS,PGPT0015420-flgH-K02393	NA	NA
BMS020_06128	498			hypothetical protein	TTGCTGAAGGCGTTGGGCTGGCTGACGTTGGTCGACTCGGCCACGGTCACGGTCAGCGAGCCGTGGGTCACCGCGGCCGGCATCACCCGCACCGCCGAACCGATCACCACGGTGCCGGTGCGCGAATTGACCACGATCTTGGCCGCCGCTTCGCCCGGGGTCAGCTCCAGGTTCTCGACCTGGGCCAGGAAGTTGATGCGCGCGCCGGCATCGGTGGGCGAGCGCAGCGTCACCGTGCCGCCGTCCAGCGCGCGGGCGCTGCCGGGGCCGAAGGCCTGGTCCAGCACCGCGACCAGGCGCGAGGCAGTGGTGAAATCGGCCTTGTGCAGGTTCAAGGTCACGTCGCTGCTGCCGGCGAACACGTCCGGCAGCGCGCGTTCGACGATCGCGCCGTTGGGGATGCGGCCGACGCTGGGCACGTTGACCGACACCCGCGAGCCGTCCTTGCCTTCGACGCCGAAGCCGCCGACCACCAGGTTGCCCTGGGCGATCGCGTAG	MLKALGWLTLVDSATVTVSEPWVTAAGITRTAEPITTVPVRELTTILAAASPGVSSRFSTWARKLMRAPASVGERSVTVPPSSARALPGPKAWSSTATRREAVVKSALCRFKVTSLLPANTSGSARSTIAPLGMRPTLGTLTDTREPSLPSTPKPPTTRLPWAIA				NA	NA	NA	NA	NA
BMS020_06129	318			hypothetical protein	ATGAAAATCCTGCTTAACTGGTCGCCATTGCGCCGGCTCTTCACTTACCTTCAGGAGCGCTTTACCTTTCTGGTGTTGCTCTGCTGGCCAGCGATAATCTGGCTGTTCTGCCGGGTCGGCGTGTGGCTGACGGATAACCTGTATGAACTGCTGGGGAAATCACCCGCCCAGTCCTTCACTGTCTATCTGCAGCCGTTTATGACCCCCGGCACGCTGCTGCGCATCTCCATCAGCTGGGTGGTGCTGCTGTTCATTCTCTTCAGCATGGCGATGGCCTTCACCTGGGGTCTTCGCCACTTTATGAATCGCCACAAATAA	MKILLNWSPLRRLFTYLQERFTFLVLLCWPAIIWLFCRVGVWLTDNLYELLGKSPAQSFTVYLQPFMTPGTLLRISISWVVLLFILFSMAMAFTWGLRHFMNRHK				NA	NA	NA	NA	NA
BMS020_06130	1125	yhhJ	COG0842	Inner membrane transport permease YhhJ	ATGCGCGGATTACGTAATATTTATAACCTCGGCGTTAAAGAGCTGCGCAGCCTGCTGGGTGATAAAGCGATGCTGGCGCTGATCGTGTTTGCTTTTACCGTGTCGGTGTACTCCTCAGCTACGGTGATGCCCGGCTCGCTGCACCTGGCGCCGATTGCGGTTGCCGATATGGATAAGTCGCAGCTCTCTTCACGCATCATTAACGCTTTCTACCGCCCCTGGTTTCTCGAACCGGAGCTGATCACCGCCGATGAGATGGACGCCGGCCTGGATGCCGGGCGCTACACTTTCGCCATCAATATTCCGCCAAATTTCCAGCGCGATGTGCTGGCCGGCCGCCAGCCGGAAGTGCAGGTCAACGTCGACGCCACGCGCATGAGCCAGGCCTTTACCGGCAACGGCTATATCCAGAATATTATTAACGGCGAAGTAAACGGCTTCATTGCCCGCTACCGGGAGAACAGCGTGCTGCCGGTAGAGCTGGCGGTAAGAATGCGCTTTAACCCTAACCTGGAACAGGAGCGCTTTGGCGCGGTGATGGCGATCATCAACAACATCACCATGCTGGCTATTGTCCTCACCGGTTCGGCGCTGATCCGCGAGCGCGAGCACGGTACCATCGAGCATCTGCTGGTGATGCCGGTTACGCCGTTTGAGATCATGATGGCCAAGATCTGGTCGATGGGGCTTGTGGTATTGGTGGTCTCCGGGCTGTCGCTGCTGCTGATGGTTCAGGGGATTTTGCAGGTGCCCATTGAGGGGTCGATTCCACTGTTTATGCTGGGGGTGGCGCTCAGCCTGTTCGCCACCACCTCGATCGGCATTTTTATGGGCACCCTCGCCCGCTCGATGCCGCAGCTGGGGCTGCTGATGATCCTGGTGCTGCTGCCGCTACAGATGCTCTCTGGCGGCTCCACGCCGCGGGAAAGTATGCCGCAGCTGGTTCAGGATATCATGTTGACCATGCCGACCACCCACTTCGTCAGTCTGGCGCAGGCGATTCTCTACCGCGGCGCCAGCTTCAGTATCGTCTGGCCGCAGCTCTTAACCTTGCTGGCTATCGGGGCGGTGTTCTTTACTATCGCCCTGCTGCGTTTTCGCAAAACGATTGGTCAGATGGCGTAA	MRGLRNIYNLGVKELRSLLGDKAMLALIVFAFTVSVYSSATVMPGSLHLAPIAVADMDKSQLSSRIINAFYRPWFLEPELITADEMDAGLDAGRYTFAINIPPNFQRDVLAGRQPEVQVNVDATRMSQAFTGNGYIQNIINGEVNGFIARYRENSVLPVELAVRMRFNPNLEQERFGAVMAIINNITMLAIVLTGSALIREREHGTIEHLLVMPVTPFEIMMAKIWSMGLVVLVVSGLSLLLMVQGILQVPIEGSIPLFMLGVALSLFATTSIGIFMGTLARSMPQLGLLMILVLLPLQMLSGGSTPRESMPQLVQDIMLTMPTTHFVSLAQAILYRGASFSIVWPQLLTLLAIGAVFFTIALLRFRKTIGQMA	PGPT0006730_6444	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS020_06131	2745	rbbA	COG0842	Ribosome-associated ATPase	ATGATACTGACGCCACAGGATACCTCGCCCCCCGTCGCCCGGCTGGACAACGTTGGCCAGCGCTTCGGCACCACCGTGGCGCTGCGGGATATCAGTCTGGCGATCCCGGCGCGGCGCATGGTCGGCCTGATTGGCCCGGACGGCGTCGGCAAATCGAGCCTGCTCTCTCTCATCGCCGGGGCGCGGGCCATTGAGCAGGGTAACGTGATGGTGCTCGGCGGGGATATGCGCGACGTTCATCACCGCCGCGAGGTGTGCCCGAAGATTGCCTGGATGCCGCAGGGGCTGGGGAAAAACCTCTATCACACCCTTTCGGTGTATGAAAACGTCGACTTCTTCGCCCGCCTGTTTGGCCACGATAAAGCCGAACGCGAATCTCGTATCAACGAGCTGCTGCAGAGCACCGGGCTGGCGCCGTTTCGCGATCGCCCGGCGGGTAAGCTCTCCGGCGGGATGAAGCAAAAGCTGAGGCTCTGTTGCGCCCTTATCCACGACCCGCAGCTGCTGATCCTCGATGAACCCACCACCGGCGTCGACCCGCTTTCCCGGGCGCAGTTCTGGGAGCTTATCGACAGCATTCGTCAGCGCCAGCCGGAGATGAGCGTACTGGTGGCTACCGCCTACATGGAAGAGGCTGAGCGCTTTGACTGGCTGGTGGCGATGAACGCCGGCGAGGTGCTGGCGACCGGTACCGCTGCGGAGCTGAAAGCGCAGACCGGCAGTCAGACGCTGGAGCAGGCGTTTATCGCCCTGCTGCCGGAAGCGCAGCGCCAGGCGCATAAGGCAGTGGTAATCCCGCCGCGCGACGACCGCGAGGAAGAGATCGCCATCGAAGCCCGTGGGCTGACCATGCGCTTTGGCGACTTCGTCGCCGTCGACCACGTTAACTTCCGCATCGCCCGCGGTGAAATCTTCGGCTTCCTCGGCTCCAACGGCTGCGGCAAATCCACCACCATGAAGATGCTCACCGGCCTGCTGCCCGCCAGCGAAGGCGAAGCCTGGCTGTTCGGCCAGCCGGTCGACCCGAAAGATATCGCTACCCGCCAGCGGGTGGGCTATATGTCGCAGGCTTTCTCGCTCTATAGCGAACTGACCGTCCGGCAAAACCTCGAATTGCACGCCCGCCTGTTTCATATTCCGGACGGCGAGATCCCCGGGCGGGTGGCGGAAATGAGCGAGCGCTTCATGCTCAGCGAAGTGGAAGACGCCCTGCCCACCGCCCTGCCGCTGGGCATCCGTCAGCGTCTGTCGCTGGCGGTGGCGGTCATCCATCGCCCGGAAATGCTGATCCTCGACGAACCCACCTCCGGGGTCGATCCGGTGGCACGGGATATGTTCTGGCAGCTGATGGTCGACCTCGCGCGTCAGGATCGGGTGACCATTTTTATCTCCACCCACTTTATGAATGAGGCAGAACGCTGCGACCGCATCTCGCTGATGCACGCCGGCAAGGTGCTGGCCAGCGATACGCCGCAGGCGCTGGTCGAGCAGCGCGGTGCCGCCAGCCTCGAAGAGGCGTTTATCGCCTGGCTCCAGGAGGCGCAGCCAACCGCCGCAGCTCCTGAGGAACCTGCGCCAGCTGCAGCATCCCATCCAGAACGCGCGGCCCCGCGCCAGGCCTTCAGTCTGCAACGGCTGTTCAGCTACAGCCGCCGCGAAGCGCTGGAACTGCGCCGCGATCCGGTGCGCTCGACGCTGGCGCTGCTGGGAACGGTGATCCTGATGTTTATCATGGGCTATGGGATCAGCATGGACGTCGAGGATCTGCGCTTTGCGGTACTCGACCGCGATCAAACCCTCAGCAGTCAGGGCTGGTCGCAGAATATCGCTGGCTCACGCTACTTTATCGAACAGGCGCCGCTGCGCAGTTACGATGAGCTCGACCGGCGGATGCGCGACGGCGAGCTGGCGGTGGCGATAGAGATCCCGCCGAACTTTGGCCGCGATATCGCCCGCGGCACGCCGGTGCAAATCGGCGTCTGGGTGGATGGCGCAATGCCAAACCGCGCGGAAACGGTGCGCGGCTACGTGCAGGCCATGCATCTGGCCTGGCTGCAGGAGATGGCCGCCCGGCAGAGCAGTCCGCAGCGCGCTACCTCTCTCATCTCCATTGAGACCCGCTATCGCTATAATCCGGACGTGAAGAGCCTGCCGGCCATCGTCCCGGCGGTGATCCCGCTGCTGCTGATGATGATCCCGGCGATGCTCAGCGCCCTGAGCGTGGTACGCGAGAAGGAGCTCGGGTCGATCATCAACCTGTACGTGACGCCGACCACCCGCAGCGAATTCCTGCTCGGCAAGCAGATGCCTTACATCGTACTGGGAATGTTTAACTTCTTTTTGCTGTGCGCGCTGTCGGTCTTCGTCTTTGGCGTATCACATAAGGGCAGCTTCCTGACGCTGGGCCTGGCGGCGCTGCTCTATGTCACCATCGCCACCGGACTGGGACTGCTGATCTCAACCTTTATGAAGAGCCAAATCGCCGCCATCTTCGGCACCGCCATCATTACGCTCATCCCGGCGACCCAGTTCTCCGGGATGATCGATCCGGTGGCGTCGCTGGATGGCCCCGGGCGCTGGATTGGACAAATCTACCCGACCAGCCACTTCCTGACTATCGCCCGCGGCACCTTCTCCAAGGCGCTGAATCTCAGCGATTTGTGGGGCTCCTTTATTCCCCTACTGATTGCGGTGCCGCTGGTGCTCGGGCTGAGCGTGTTGCTGCTGAAGAAACAGGAGGGGTGA	MILTPQDTSPPVARLDNVGQRFGTTVALRDISLAIPARRMVGLIGPDGVGKSSLLSLIAGARAIEQGNVMVLGGDMRDVHHRREVCPKIAWMPQGLGKNLYHTLSVYENVDFFARLFGHDKAERESRINELLQSTGLAPFRDRPAGKLSGGMKQKLRLCCALIHDPQLLILDEPTTGVDPLSRAQFWELIDSIRQRQPEMSVLVATAYMEEAERFDWLVAMNAGEVLATGTAAELKAQTGSQTLEQAFIALLPEAQRQAHKAVVIPPRDDREEEIAIEARGLTMRFGDFVAVDHVNFRIARGEIFGFLGSNGCGKSTTMKMLTGLLPASEGEAWLFGQPVDPKDIATRQRVGYMSQAFSLYSELTVRQNLELHARLFHIPDGEIPGRVAEMSERFMLSEVEDALPTALPLGIRQRLSLAVAVIHRPEMLILDEPTSGVDPVARDMFWQLMVDLARQDRVTIFISTHFMNEAERCDRISLMHAGKVLASDTPQALVEQRGAASLEEAFIAWLQEAQPTAAAPEEPAPAAASHPERAAPRQAFSLQRLFSYSRREALELRRDPVRSTLALLGTVILMFIMGYGISMDVEDLRFAVLDRDQTLSSQGWSQNIAGSRYFIEQAPLRSYDELDRRMRDGELAVAIEIPPNFGRDIARGTPVQIGVWVDGAMPNRAETVRGYVQAMHLAWLQEMAARQSSPQRATSLISIETRYRYNPDVKSLPAIVPAVIPLLLMMIPAMLSALSVVREKELGSIINLYVTPTTRSEFLLGKQMPYIVLGMFNFFLLCALSVFVFGVSHKGSFLTLGLAALLYVTIATGLGLLISTFMKSQIAAIFGTAIITLIPATQFSGMIDPVASLDGPGRWIGQIYPTSHFLTIARGTFSKALNLSDLWGSFIPLLIAVPLVLGLSVLLLKKQEG	PGPT0006725_103	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS020_06132	1068			hypothetical protein	ATGGACAAAATAAAGAAACGTTGGACAGGGTATTTTGTCGGCTTACTGGTGGTACTCGCCGCCGCAGCATGGTGGCTGCTGCGCCCGCCGGGCCTCCCGGAGGGTTTTGCCAGTAGCAACGGACGAATCGAAGCCACCGAGGTGGATATTGCCAGCAAAATCGCCGGGCGTATCGACACCATTCTGGTCAAAGAGGGTCAGTTCGTGCACCAGGGAGAGGTGCTGGCGAGAATGGATACCCGTGTACTGAACGAGCAGCGTCTTGAAGCCGCCGCGCAAATCAAGGAAGCGGAAAGCGCGGTCCTGGCCGCCAGAGCCTTGCTCGATCAGCGGCAAAGTGAAATGCGCGCCAGCGAAGCGGTAGTGAAGCAGCGTCAGGCGGAGCTGGATTCCACGGCGAAACGCCATGTTCGCTCAAACACCCTCTCTCAGCGTGGCGCCGTCTCCGCCCAGCAGTTGGATGACGATCGCGCGGCAGCAGAGAGCGCTCGCGCGGCGCTGGAGTCGGCGAAAGCCCAGGTCTCTGCCGCCCGCGCCGCCATCGAGGCCGCCCGCACCAGCATTATTCAGGCGCAAACCCGCGTCGAAGCCGCCCAGGCGACCGAGCGGCGGATCCTCGCCGATATTGACGATAGCGAGCTGAAAGCCCCCCGCGACGGCCGTATTCAGTATCGCGTCGCCGAGCCGGGTGAAGTGCTGGCCGCCGGTGGTCGGGTGCTGAATATGGTCGATCTCGCCGACGTCTATATGACTTTCTTTCTGCCCACCGAACAGGCGGGTCTGCTGGCGCTCGGCAGCGAAGCGCGCTTGATCCTCGATGCCGCTCCGGATCTGGTGATCCCGGCCAATATCAGCTTTGTCGCCAGCGTCGCCCAGTTCACGCCGAAAACGGTGGAGACCCGCGACGAGCGTCTCAAACTGATGTTCCGCGTCAAAGCGCGTATCCCGCCGGAGCTGCTGGCGCAGCACCTGGAGTATGTCAAAACCGGTCTGCCCGGCATGGCTTACGTGCGGCTGGATAACCAGCAGTCCTGGCCTGAAGCCCTGACGGTGAGGTTGCCGCAATGA	MDKIKKRWTGYFVGLLVVLAAAAWWLLRPPGLPEGFASSNGRIEATEVDIASKIAGRIDTILVKEGQFVHQGEVLARMDTRVLNEQRLEAAAQIKEAESAVLAARALLDQRQSEMRASEAVVKQRQAELDSTAKRHVRSNTLSQRGAVSAQQLDDDRAAAESARAALESAKAQVSAARAAIEAARTSIIQAQTRVEAAQATERRILADIDDSELKAPRDGRIQYRVAEPGEVLAAGGRVLNMVDLADVYMTFFLPTEQAGLLALGSEARLILDAAPDLVIPANISFVASVAQFTPKTVETRDERLKLMFRVKARIPPELLAQHLEYVKTGLPGMAYVRLDNQQSWPEALTVRLPQ				NA	NA	NA	NA	NA
BMS020_06133	1008	trpS2	COG0180	Tryptophan--tRNA ligase 2	ATGAACCATCCGCAAACCATCCTCACTGGCGACCGCCCCACCGGCCAGCTACATCTTGGCCATTACGTCGGCTCGCTGCGCCAGCGCGTCGCGCTGCAGCACGACCACCAGCAGTTTATCCTGATCGCCGACCTGCAAGGGCTCACTGACAACGGCAGCAACCCGCAAAAAATCAGCCATCATATTCTCGAAGTGATGGCCGATTATCTGGCCGTCGGCATTGACCCCAGGCTCACCACGATCTGCCTGCAGTCCGCCCTGCCCGCGCTGGCGGAGCTCAGCGCGCTGTATATGAATATCGTCACCGTCGCCCGTGTGGAACGTAATCCGACGGTCAAAAATGAGATTGCCCAGAAGGGATTCGCCCGTTCGCTGCCGGTGGGCTTTCTCGCCTATCCGATTAGCCAGGCGGCAGATATCACCGCCTTCAAAGCCGAACTGGTGCCAGTGGGCGACGATCAGCTACCGATGATTGAGCAGACCAACGAGATCGTCCACAAGATGAATAGCCTCACCGGCGAACCGGTGCTGCGCCACTGCAAGGCGCTACTCAGCGAAGTGAGCCGCCTGCCGGGCGTCGACGGCAACGCCAAAATGTCGAAATCGCTGGGCAATACGCTGACGTTATCGGCCAGTGAAGAGGAGATCCACCGCGCGGTCAGCGCGATGTATACCGACCCGACGCACCTGAGAGTCAGCGATCCGGGGCATGTCGACGGCAACGTGGTGTTCACCTATCTCGACGCTTTCCATAGCGATAAGGCACTGGTGGCTGAGATGAAAGCCCACTATCAGCGCGGCGGGCTGGGGGATCGCCAGTGTAAAAATGAACTGGAAACCTGCCTGCAGGCGCTCCTGGCGCCGATCCGCGAACGGCGGGCCACCTTTATTCAGGATAAAGGGATGTTGCTGGAATTGTTGCGTCAGGGCAGCGAGCGCGCCCACCAGTTGACGCAGCAGACGCTGCATGAGGTGAAACGAGGTCTGGGGCTGCCGGTCCTGTTCTGA	MNHPQTILTGDRPTGQLHLGHYVGSLRQRVALQHDHQQFILIADLQGLTDNGSNPQKISHHILEVMADYLAVGIDPRLTTICLQSALPALAELSALYMNIVTVARVERNPTVKNEIAQKGFARSLPVGFLAYPISQAADITAFKAELVPVGDDQLPMIEQTNEIVHKMNSLTGEPVLRHCKALLSEVSRLPGVDGNAKMSKSLGNTLTLSASEEEIHRAVSAMYTDPTHLRVSDPGHVDGNVVFTYLDAFHSDKALVAEMKAHYQRGGLGDRQCKNELETCLQALLAPIRERRATFIQDKGMLLELLRQGSERAHQLTQQTLHEVKRGLGLPVLF	PGPT0007120_4576	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
BMS020_06134	330	qacC		Quaternary ammonium compound-resistance protein QacC	ATGTTTAATCTCGGATTTTTATGGCTGGCGCTGTCTATCGGCTCCGAAATCACCGGCACCTCGATGATCAAAAAGACCAACGGTTTCAGCAAACTGGCTCCTTCGGTGCTGGTGGTCTGCGCCTACGGCCTCTGCTACTTTGCCCTCACCCGCGCGATGAGCACCATCCCTGTGGGCGTGGCCTACTCGCTGTGGTGCGGCTTCGGTATCGTCGGCGTGACTATATGCTCGATGATCCTCTATAAGCAGAAACCGGACCTGGCGGCCATTATCGCCATGGCGCTGATTATCTCCGGCGGCGTGATCATGAACGTCTTCTCGACCATGTAA	MFNLGFLWLALSIGSEITGTSMIKKTNGFSKLAPSVLVVCAYGLCYFALTRAMSTIPVGVAYSLWCGFGIVGVTICSMILYKQKPDLAAIIAMALIISGGVIMNVFSTM	PGPT0029230_1416	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
BMS020_06135	414	mdtJ_2		Spermidine export protein MdtJ	ATGTCCTCGAAAACTAAATGCTGGTTATGGATGCTGCTGGTTATCCTCTCCGAAACCTCGGCAACCTCGACGTTAAAAATGTTCGGTAGCAGTGAAGGCGGCAGCAAAATGCTGCTGCTCGGGCTGCTGATTGCGCTTTACTGCACCTGCTATTACTCGCTCTCAAGGGCGGTGAAAGATATCCCGGTCGGCCTGGCGTACGCCACCTGGTCCGGCACCGGCATCCTGGTGGTCTCGACGCTGGGAATGGCATTCTACGGCCAGCACCCGGATACCGCCGCCATCATCGGCATGGCGGTGATCGCCAGCGGCATCATTATCATGAACCTGTTCTCAAAAATGGGTTCCGAAGAGAACGAAGAGGCCGCGCCCGCCACGCCCGCCGCCGCCATGGATAAGAACATCGCTAACTAA	MSSKTKCWLWMLLVILSETSATSTLKMFGSSEGGSKMLLLGLLIALYCTCYYSLSRAVKDIPVGLAYATWSGTGILVVSTLGMAFYGQHPDTAAIIGMAVIASGIIIMNLFSKMGSEENEEAAPATPAAAMDKNIAN	PGPT0029230_72	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
BMS020_06136	669			hypothetical protein	ATGACCGACGAACAGATTGAAGGTGTAGTTGCGCGGATTTTGCAGCGCCTGCGGCCGCCGGTACTGGTGATGGTGACCGCCGCTGACGGCTACCGCGCAGCTATCCGCCAACGCCTGGCGGGAAGCGGCTATCCGCTGCGCCTCGCGCTGGAGGAGGGTCTCGCTGACGCCGCCGCCTGGCGAGAGGTGGGCGAGATTATCCCGTCATCAACCTGGATGGATGTCCTGCCGTCAGCGCCGTGGCGGGCGGTGCTGCTGCCTTTTCTCGATTATCCGCAAGCCTCGGATCTGCTGAACGGCACCCTGCGCAATGCAGTCTCCCGCTGCGCGCACGAGGCGCTGCTGGCGGGTATTCCGGTGCTGGCGCTGCGCTACCACTGCGATCCACACAGCGAGCTCAACCAGCTGCGCGGCACGCAGGCCGGCAGCGCCTACGCCGGGCATCTGCAGGCCACGCTGGCTCGTCTGGAAGCCTGCGGCGTCTTCCTCGGCACCATGAATGAGCTGCTGGCGAAGCTGGACACGCCCACCGCGCCAGCAGACGCCAACAGCGAACCGCGCCGTTATCTTACCGTCACAGACGTGGTGAATAATCCGGCGCTGGCAGCGGCCCCGCGCGCTCAGCTGACCGATGCGGCCATTGATTACTTAAAAAACAGAAAGATATGA	MTDEQIEGVVARILQRLRPPVLVMVTAADGYRAAIRQRLAGSGYPLRLALEEGLADAAAWREVGEIIPSSTWMDVLPSAPWRAVLLPFLDYPQASDLLNGTLRNAVSRCAHEALLAGIPVLALRYHCDPHSELNQLRGTQAGSAYAGHLQATLARLEACGVFLGTMNELLAKLDTPTAPADANSEPRRYLTVTDVVNNPALAAAPRAQLTDAAIDYLKNRKI				NA	NA	NA	NA	NA
BMS020_06137	621	pduL_2	COG4869	Phosphate propanoyltransferase	ATGATCGACACCGTGGTTCGCGAAAAAATCGCCGCCCGCCTGAGCGCAACGGCGCCGGCGATCCCGGTGGGGATCTCCAACCGCCACGTCCATCTCGCGCAACAGGACGTCGAGGCGTTGTTCGGTAAAGGCTACAGCCTGACGCCGTTCAAACCGCTGCGCCAGCCGGGGCAGTTCGCCGCCCAGGAGTGCGTGACCGTCGTCGGGCCGAAGGGCTCGCTGACCAACGTCCGTATCCTCGGGCCGACCCGCCCGGTATCGCAACTGGAAGTATCGCGCGCCGACTGCTTCACGCTCGGCATTCACGCGCCAGTTCGTGAGTCCGGGCAACTGGAGAATGCCGGTAGCGCTCTGCTGATTGGCCCCGCCGGTCACGTTGCGCTCCATTCGCAAGTGATTTGCGCCTGGCGGCATATTCATATGTCGTCGCAGGACGCGCGCCAGCTCAACGTCAGCAATGGCCAGAAGGTCAGCGTGCGCAGCAACGGCGAGCGCCAGCTGACTTTCGATGAAGTGGTGGTGCGGGTGCGCGATGACTTCGCGCTGGAATTTCACATCGACACCGAAGAAGCCAATGCCGCCGGGTTAAAAAACGGCGCGCAGGTGACGCTCATCGGCTAA	MIDTVVREKIAARLSATAPAIPVGISNRHVHLAQQDVEALFGKGYSLTPFKPLRQPGQFAAQECVTVVGPKGSLTNVRILGPTRPVSQLEVSRADCFTLGIHAPVRESGQLENAGSALLIGPAGHVALHSQVICAWRHIHMSSQDARQLNVSNGQKVSVRSNGERQLTFDEVVVRVRDDFALEFHIDTEEANAAGLKNGAQVTLIG	PGPT0001395_247	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0001395-pduL-K15024	NA	NA
BMS020_06138	399			hypothetical protein	ATGAAAAGTTTAGGCGTAATTGAAACGCGAGGATGGGTCGCCGCCATTCAGGCCGTCGACGCCGCCTGTAAAGCCGCGGGCGTGACCTGCATTGGCTATCGCAAACCAGGCTCCGGGCTGGTGAGCGTCTGCTTTGAAGGAGAGATCAGCGCCATCCACACCGCCATCGAGCGCGGCGTCGCCGTAGCCGGCGCCGAGCACACCGTGAAGTCGTTGGTTATTGCCCGCCCGGAGCGCTGCGTGGTTGAAGCGTTGAGCAACCTCAAAGGCAGCCCGCCGCGCGAGGAAAAAATAGCCGAACCGGTAGTTATCGCCGCCCCGGCCCCCATCGTCCCGCCTACCGCCCCGAGCGAAACAGAAGATAAGCATCCGGCGCTGAAGAAAGGGAAGAAGTCATGA	MKSLGVIETRGWVAAIQAVDAACKAAGVTCIGYRKPGSGLVSVCFEGEISAIHTAIERGVAVAGAEHTVKSLVIARPERCVVEALSNLKGSPPREEKIAEPVVIAAPAPIVPPTAPSETEDKHPALKKGKKS	PGPT0000617_115	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ETHANOLAMINE_USAGE	N-AQUISITION-ETHANOLAMINE_DEGRADATION,PGPT0000617-eutM|cchA-K04027	NA	NA
BMS020_06139	948	cutD_3	COG1180	Choline trimethylamine-lyase activating enzyme	GTGATCGCAAAACAAGAATTAACGGGCCGAATTTTCAATATCCAGAAATATTCGATCTATGACGGCGATGGCATTCGCACGCTGGTGTTTTTTAAGGGCTGCAACATTCGCTGCCCGTGGTGCGCCAACCCGGAAGGGCTGAACAGCCAGTTCCAGGTGATGTTCTCGCACGACAAATGCATTAACTGCGGCGACTGCGTCAGCGTCTGTCCGGCGGGTATTCATTATCGGGCGGAAGAAAACGGCGAAATGAAGCACTTCGTCGACCGCAATAAAGACTGCATCGGCTGCCGCAAATGCGAAGAGATTTGCACCCGGAACGCACTGGACATTATGGGCAAGGACGTCACCGTCAGCGAGCTGATGGAGATCATCATGCAGGACTACGACTTCTACATCTCCTCCGGCGGCGGCGTCACCATCGGCGGCGGCGAGATGAGCCTGCAGACCGATTTTGCCGTCGCCTTATTCCGCGAATGCAAAAAAATGATGATTAACACCGCCGTTGAAACCCAGGGCACCACCCCACTTGCTAACTACCAGAAGCTGGCGCCGGTCACCGACACCTTCTTGTTCGACATTAAGCAGATTAATAGCGAACACCATAAGGCGATGCTCGGCATCGGCAACGAAGGGATCCGCCGCAATCTTGAATGGCTGGTGGATTCCGGCGCCAACGTGATTGTGCGTATGCCGCTCATTCGCGGCTACAACGACTCATTCGACGCCATTACCGGCGCCATTGATTACGTACAGAAGCTGGCGAAGCGCGGGAATATCCGCCGCATCGACATGCTGCCGTACCACCAGCTGGGACGCAAAAAGTACGAACGCCTGGATATGCCCTACCCGATTACCCAGGACCCGTCTTATTCAGCGGAAGAACTGGACCGGCTGGAAACCTTCTTCCGGCAATTTGATTTTGATATTCGCTTAGTCCGCCATTAA	MIAKQELTGRIFNIQKYSIYDGDGIRTLVFFKGCNIRCPWCANPEGLNSQFQVMFSHDKCINCGDCVSVCPAGIHYRAEENGEMKHFVDRNKDCIGCRKCEEICTRNALDIMGKDVTVSELMEIIMQDYDFYISSGGGVTIGGGEMSLQTDFAVALFRECKKMMINTAVETQGTTPLANYQKLAPVTDTFLFDIKQINSEHHKAMLGIGNEGIRRNLEWLVDSGANVIVRMPLIRGYNDSFDAITGAIDYVQKLAKRGNIRRIDMLPYHQLGRKKYERLDMPYPITQDPSYSAEELDRLETFFRQFDFDIRLVRH				NA	NA	NA	NA	NA
BMS020_06140	3387	cutC_4		Choline trimethylamine-lyase	ATGGCACACTACAACTTAACGCCGCGCGTAAAAGTGCTGGCAGACCGTTTACTCGCCCAGAAAAGCACCCTGTGCACCGAACATGCCACCACGCTCAACGCCCTTGATGGCGATATCGCCGGGGTTCCCGCCGCCGTCAAACCGGCGCGCCGTTTCTATGAACTGATGCGCCAGCTGCCGCTGTGCATCAGCGCCGACGAGCTGATCGTCGGCAACCAGACCCGCAAACCGCACGGGGCGATTTTCCACGACGAGAGCGCCGCCCGTCGCCCGTCCGCGTTCCAGTTTCTCAATCTGAATAGCGATCTCGACTCCCCGGATTACAAGCTGGTGGTCGAAAAAGGCGTACTGGCGATAAAACATCAGCTGGAAGAGAAAACCCGCGCGCTGGGCAGCGCCGTCAGCCGCAGCGGCATGGACGAAGTCAACGGCTGCCGTGCGGCCATCTACGCCTGCGATGCCCTGCTGGCGCTGGCGCAAAACCTGGCCAACAGCGCGGAACAGCTGGCCGCCGCGGAAACCAACGCTTACCGCCGGGCGGAACTGCTGGACAGCGCCGCCATTCTGCACCATGTTCCGGCGCATCCGGCGCGCAGCTTCAAAGAAGCGTGCCAGGCCTTTTATCTGTTCCAGCTGGCGCTCCAGCTCGATAACGGCAGCTACGCCGTCAACCCGGAAGGCGCCGACAAAGCCCTGCTGCCTTACTACCAGCACGATATCAACAACGGCGCGCTCTCCCCGCAGCAGGCGTATGAAATCGTCGAATCGCTGTGGTTCAAGCTGGCGGAACTGTGCGAAGTGCGCGCCGCCTGCGCGATCGACGGTTATCCGATGTTTGACGCCATGCTGCACGGCGCAAGCCTTGAGAATGCGCGCATCAACGAACTCTCCGACATGTTCCTCAGCGCGCAGCAAAACCTCAGCGCGCTGAATCTGCCGGTGCGTCTGTTTAGCGGCGTACAGCAGGTCAGCCACGCCCCGTTTGCCGCCTGCGCCGACACGCCGGTGATGGAAGGGTTAACCCCGCGTATGCAGCGCCTGCGCAACCACTACCTGACGGTGCGCCCGAGCGTCTCTATCTATCGCGCGCTGGCCTTTACCGAAGTGGTGAAAGCCAACCCCGGCATGCCGACCATTCTGCTGCGGGCGAAAGCCTTCCGCCACGCCTGCGAAACTGCGCCGATTCTGATTCAGGATGATGAGCTGATCGTGGGTCATCCGTGCGGCAAGCCGCGCGCGGGCGCCTTCTCGCCGGATATCGCCTGGCGCTGGGTGCGCGACGAGCTCGACACGATGAGCACCCGCCCGCAGGATCCGTTTGAGATCAGCGAAGCAGATAAAAAAACCATTCGCGAAGAGATCGTCCCATTCTGGGAAGGCCGTTCGCTGGATGAGATTTGCGAAGCGCAATACCGTGAGGCTGGCGTCTGGGCCTTCAGCGGCGAGACCTTCGTCAGCGACCTCTCTTATCACCAGATTAACGGCGGCGGCGATACCTGCCCGGGCTACGACGTACTGCTGTTCACCAAAGGGATGAACGGGATCAAAGCCGATGCCGAGGCGCATCTGGCCAGCCTGAGCATGGAAAATCCGGAAGATATCGACCGCATTTACTACTACAAAGCGGCGATTGAAACCTGCGAAGGGGTGGTCAACTACGCTCGCCGCATCGCCGCCCATGCCCGCGAACTGGCGGCTAAAGAGCAAAACGCCCTGCGCCGCGCCGAGCTGCTGACCATCGCCGAAGTGAACGAAAACGTGCCGGCCAATCCGCCGAAGACCTTGCAGGAAGCGCTGCAGAGTATCTGGACCGTCGAATCACTGTTTGAAATCGAAGAGAACCAGACCGGGTTGTCCCTGGGGCGCGTCGACCAGTACTGTTATCCGATGTTCGAAGCCGATATCCGCGAAGGCCGCTTGACCCACGACACCGCGCTGGAGCTGCTGCAGGCGTTTATCATCAAATGCGCCGAACTGATGTGGATGTCGAGCGAACTGGGAGCGAAATATTTCGCGGGTTATCAGCCGTTTATCAACCTCACCGTTGGCGGCCAGAAACGTAGCGGCGGCGATGCCTGTAACGATCTGACCTATCTGATTATGGACGCCGTGCGCTTCGTGAAGGTTTACCAGCCGTCGCTGGCCTGCCGTATCCACAACCAGTCTCCACAGAAATACATGGAAAAAATCGTCGACGTGGTGAAAGCGGGAATGGGCTTCCCGGCCTGCCACTTCGATGACTCCCACATCAAGATGATGCTGCGCAAAGGCTTCGATTTTGAAGACGCCCGCGATTACTGCCTGATGGGCTGCGTTGAGCCGCAGAAATCCGGGCGCATCTACCAGTGGACCTCCACCGGCTACACCCAGTGGCCTATCGCTATCGAGTTCGTGCTTAACCGCGGGCGGATGGTGCTGTTCGATAGCTATCAGGGGCTGGATACCGGCGACCTGCGCGACCTGCGCACCTTCGAAGCATTCGACGCGGCGGTGAAACAGCAGATCGCCCATATCGTGCGCCTGTCGGCCATCGGTACCGTCATCAGCCAGCGCGTCCACCGTGATGTGGCGCCGAAGCCGCTGATGTCGCTGCTGATAGAAGGCTGCATGGAAAAAGGGAAAGACGTTGCCGCCGGCGGCGCGATGATCAATCACGGCCCGGGGCTGATTTTCTCCGGCCTGGCGACCTACGTCGACTCCATGGCGGCGATCCGCAAGCTGGTGTTCGAAGAGAAGAAATACACCCTTGAGCAGATCCGCGATGCGCTGCTGGCCAACTTTGAAGGTTACGAAGCGCTGCGTCGCGACTGCCTCAACGCGCCGAAATACGGCAACGATGATAACTACGTTGACCAGTACGCACTGGATATCACCGAGTGGACCGAGCGCGAGTGCCGTAAGTACAAGATGCTCTACTCCACCCTCAGCCACGGCACCCTGTCTATCTCCAACAACACGCCAATCGGCGAGCTGACCAACGCCACGCCGAACGGCCGCCTGGCGTGGATGCCGCTCTCCGACGGCATCAGCCCAACCCAAGGCGCGGATAAACAAGGCCCGACGGCGATTATTAAGTCGGTCAGCAAGATGAATGTGGAAACCATGAACATCGGCATGGTGCACAACTTCAAGTTCCTCAAAGGGCTGCTGGATACCCCGGAAGGTCGCCACGGCTTGATTACCTTGCTGCGTACCGCCTCGATTCTCGGCAACGGCCAGATGCAGTTCAGTTATGTCGATAACGAAGTGCTGAAGAAGGCGCAGCAGGAGCCGGAGAAATACCGTGACCTGATCGTCCGCGTCGCCGGCTACAGCGCCTACTTCGTTGAGCTGTGCAAAGAGGTCCAGGACGAGATCATCAGCCGTACGGTGATTGAGAAGTTCTAG	MAHYNLTPRVKVLADRLLAQKSTLCTEHATTLNALDGDIAGVPAAVKPARRFYELMRQLPLCISADELIVGNQTRKPHGAIFHDESAARRPSAFQFLNLNSDLDSPDYKLVVEKGVLAIKHQLEEKTRALGSAVSRSGMDEVNGCRAAIYACDALLALAQNLANSAEQLAAAETNAYRRAELLDSAAILHHVPAHPARSFKEACQAFYLFQLALQLDNGSYAVNPEGADKALLPYYQHDINNGALSPQQAYEIVESLWFKLAELCEVRAACAIDGYPMFDAMLHGASLENARINELSDMFLSAQQNLSALNLPVRLFSGVQQVSHAPFAACADTPVMEGLTPRMQRLRNHYLTVRPSVSIYRALAFTEVVKANPGMPTILLRAKAFRHACETAPILIQDDELIVGHPCGKPRAGAFSPDIAWRWVRDELDTMSTRPQDPFEISEADKKTIREEIVPFWEGRSLDEICEAQYREAGVWAFSGETFVSDLSYHQINGGGDTCPGYDVLLFTKGMNGIKADAEAHLASLSMENPEDIDRIYYYKAAIETCEGVVNYARRIAAHARELAAKEQNALRRAELLTIAEVNENVPANPPKTLQEALQSIWTVESLFEIEENQTGLSLGRVDQYCYPMFEADIREGRLTHDTALELLQAFIIKCAELMWMSSELGAKYFAGYQPFINLTVGGQKRSGGDACNDLTYLIMDAVRFVKVYQPSLACRIHNQSPQKYMEKIVDVVKAGMGFPACHFDDSHIKMMLRKGFDFEDARDYCLMGCVEPQKSGRIYQWTSTGYTQWPIAIEFVLNRGRMVLFDSYQGLDTGDLRDLRTFEAFDAAVKQQIAHIVRLSAIGTVISQRVHRDVAPKPLMSLLIEGCMEKGKDVAAGGAMINHGPGLIFSGLATYVDSMAAIRKLVFEEKKYTLEQIRDALLANFEGYEALRRDCLNAPKYGNDDNYVDQYALDITEWTERECRKYKMLYSTLSHGTLSISNNTPIGELTNATPNGRLAWMPLSDGISPTQGADKQGPTAIIKSVSKMNVETMNIGMVHNFKFLKGLLDTPEGRHGLITLLRTASILGNGQMQFSYVDNEVLKKAQQEPEKYRDLIVRVAGYSAYFVELCKEVQDEIISRTVIEKF				NA	NA	NA	NA	NA
BMS020_06141	1182	adhB_2		Alcohol dehydrogenase 2	ATGAGTGAATTTTTACTGAAACCGCGGATTTGCTTCGGTCAGGATGCCCTTTCGGTACTGAACGAACTGTCCGCCCGCAGCGTGCTGCTGGTAACCGATCAAGCGATGGTGAAGTTTGGCCTCGCCGAGCGCGTCACCGCCCTGCTGCGCCAGCGCGGGATCGCCTGGCAGGTGTGGGACGACGTGGTGGCAGATCCGGATATCACCACCGTGGTGCGCGGTATGAAGCTGATGGATAACCACTACCCGGATTTGGTTATCGCGCTCGGCGGCGGTTCGGTTATCGATGCCGCCAAAGCGGTTATTTTCTCCCTGGCGCAAACCCGTCCGCTGGCCGACCGTCCCCGTCCGTGCTTCGTCGCCATCCCGACCACCAGCGGTACCGGTTCGGAAGTCACCGCCTTTTCAGTGGTGAAAGCCAAAGCGGAAAAGCTGGTGCTGGTGGATGCGTCATTGCTGCCGGATATCGCCATTCTGGACCCGGCGTTGGTGGCCTCGGTGCCGCCGACTATTACCGCCGACACCGGCATGGACGTGCTGTGTCACGCCCTTGAGGCCTACGTCTCCCGCGCCGCCAGCGACTTTTCCGACGCACTGGCGGAGAAAGTGGTGCAGCAGGTATTTCGCTATCTGCCAACCTGCTGGCGCAGCGGTGACGACCTGCAGGCGCGCGAAAAGATGCACAACGCCTCCTGCATGGCGGGGATGGCCTTCACCAACGCATCGCTGGGGATCACCCACAGCCTGGCCCACGCCCTCGGCGGCGTCTTCCGAGTGCCCCATGGCCGCGCCAACGCCCTGCTGATGGCGCACGTCGTCGCCTGGAACGCCGATTTCCACGGCCAGTGCGACACCCTCGCGGCGCATAAATATGCCCGCCTGGCGCATCTTCTGGATCTGCCTGCCGCCTCGCCGCGCCAGGGCGTCGCCAGCCTGCTGGTCGCCATTCAGGCGTTAAAAGACGAACTAAGCATGCCCTCCGGCATCAGCGAAACCGGCATCGAGGCGGCTGAATTCGACCGCCGTTTGCCGGAGATGGTTGGCCAGGCGCTGCGCGACAGCTGCACGCCAACCAACCCACGTACGCCGGACGCTAATGCGTTAACCGAGCTTTATCGCCAGGCGTGGTCCGGTTGCCCGGAATCGCCCGGCGGCGCTCCGCTTGCACGGGCCTACGGGTAA	MSEFLLKPRICFGQDALSVLNELSARSVLLVTDQAMVKFGLAERVTALLRQRGIAWQVWDDVVADPDITTVVRGMKLMDNHYPDLVIALGGGSVIDAAKAVIFSLAQTRPLADRPRPCFVAIPTTSGTGSEVTAFSVVKAKAEKLVLVDASLLPDIAILDPALVASVPPTITADTGMDVLCHALEAYVSRAASDFSDALAEKVVQQVFRYLPTCWRSGDDLQAREKMHNASCMAGMAFTNASLGITHSLAHALGGVFRVPHGRANALLMAHVVAWNADFHGQCDTLAAHKYARLAHLLDLPAASPRQGVASLLVAIQALKDELSMPSGISETGIEAAEFDRRLPEMVGQALRDSCTPTNPRTPDANALTELYRQAWSGCPESPGGAPLARAYG	PGPT0019450_11	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019450-pduQ-K13921	NA	NA
BMS020_06142	267			hypothetical protein	ATGATTCTCGCAAAGGTGACCGGCCATGTTGTCGCCACGCAAAAATGCGATGAGCTGCGCGGCAGCAACCTGCTGTTGATCGCTCGCTTAGATGACAAACAGCAGCCGATGAAAGACCAGACCTGGGTCGCCGTCGATAACGTCGGCGCCGGTATGCACGACATCGTGCTGGCGGAAGAGTACTTCGCGCTCAATAAAGACCGCTACAAAGCCATGTCGGTGGTCGCCATTGTCGAGAAGGTGTTTCGGGAAGCCGAACAGGAGTGA	MILAKVTGHVVATQKCDELRGSNLLLIARLDDKQQPMKDQTWVAVDNVGAGMHDIVLAEEYFALNKDRYKAMSVVAIVEKVFREAEQE	PGPT0019437_22	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019437-pduN-NA	NA	NA
BMS020_06143	1605	adhE_4	COG1012	Aldehyde-alcohol dehydrogenase	ATGATTGAACTGGATAACGATTTGCAGTCCCGGCAGAACGCCCGGGAACTGGTGCGCAACGCCAAAAAGGCGCAGGCAATGCTGGCCACCTTTTCGCAGCAGCAAATCGACGCCATCGTGAAAAACGTGGCCCAGGAAGCAGCGCACCACGCCGAAGCGCTGGCGAAAATGGCCGCGGAAGAGACCGGTTTTGGCAACTGGCAGGACAAAGTGCTGAAAAACCGCTTCGCCTCGCTGCGCGTCTACGACGCCATCAAAGATATGAAGACCGTTGGCATCATTCATGACGACCCGGTAAAAAAAGTGATGGACGTGGGCGTGCCGCTGGGCGTGATTTGCGCGCTGGTACCCTCAACTAACCCAACCTCTACGGTTATCTACAAAGCACTGATTGCCCTCAAGGCCGGCAACGCCATTATCTTCTCCCCGCACCCGGGCGCGCGTCAGTGCAGCTGGAAGGCGATTGAGATCGTCAAACGCGCGGCGGAAGCGGCCGGCGCGCCGGAGGGCAGCGTCGACGGCATCACCCAATTGACCCTCGAAGCCACCTCAGAGCTCATGCACAGCAAAGACGTTTCGCTGATCCTCGCCACCGGCGGGGAAGGCATGGTGCGCGCGGCCTACGCGTCCGGCACCCCGACCATCAGCGGCGGCCCGGGCAACGGCCCGGCGTTTATCGAACGCAGCGCCGATATCCATCACGCGGTGAAAGACATCATCACCAGCAAAACCTTCGATAATGGGGTTATTTGCGCCTCCGAGCAGTCGATCATTGTCGAAGGCTGCATTTACGATGAGGTTCACCGCGAGCTGGAAGCGCAGGGCGCTTACTTCATGAATGAAGATGAAGCGGCGAAAATGGCGGCGCTGCTGCTGCGCTCGAACGGCACCATCAACCCGAAAGTGGTCGGCAAAACCGCGCTGTACCTCAGCCAGATGGCCGGCTTCTGCGTCCCGGCCAGCACCAAAGTGCTGATCGCCGAGCAGACCACCGTCTCGCCGAAAAACCCCTACTCGCGGGAAAAACTGTGCCCGGTACTCGGCCTGTACGTGGCAGAGGACTGGAAAGCCGCCTGCCACCGCGTGGTAGAGCTGCTGACCAATGAAGGGCTCGGCCATACGCTGGTGATCCACACCCGCAACCAGGACGTCATCCGCCAGTTCAGCCTCGAAAAACCGGTCAACCGCATCCTGATCAACACCCCGGCGGCGCTCGGCGGCATCGGCGCCACCACCAATATCTCCCCGGCGCTGACCCTCGGCTGCGGCGCGGTCGGCGGCGGCTCCAGCTCCGACAACGTCGGCCCGATGAACCTGCTCAACATCCGCAAAGTCGGCTACGGCGTGCGTTCGATTGACGAACTGCGCGCCCCGGGCAGCCGCCCTGAACCGCAGCCGACCATCGTCACGCCGGCGAGCGATCCGCAGCGCAGCATTCTCGATGACGTGCGTTTCAACGCCCCGGCGAGCGCTGCGCCAGCACACCCGGCAGGCAGTGATGACCGCTTCGCCAGCGCAGGCGCCGCAGCGAATGCGGAAGGCGCAATTAACGAGCAAAACGTGGAACGCGTTATCCGCCAGGTGCTGGAGCGCCTCGCTAAGTAA	MIELDNDLQSRQNARELVRNAKKAQAMLATFSQQQIDAIVKNVAQEAAHHAEALAKMAAEETGFGNWQDKVLKNRFASLRVYDAIKDMKTVGIIHDDPVKKVMDVGVPLGVICALVPSTNPTSTVIYKALIALKAGNAIIFSPHPGARQCSWKAIEIVKRAAEAAGAPEGSVDGITQLTLEATSELMHSKDVSLILATGGEGMVRAAYASGTPTISGGPGNGPAFIERSADIHHAVKDIITSKTFDNGVICASEQSIIVEGCIYDEVHRELEAQGAYFMNEDEAAKMAALLLRSNGTINPKVVGKTALYLSQMAGFCVPASTKVLIAEQTTVSPKNPYSREKLCPVLGLYVAEDWKAACHRVVELLTNEGLGHTLVIHTRNQDVIRQFSLEKPVNRILINTPAALGGIGATTNISPALTLGCGAVGGGSSSDNVGPMNLLNIRKVGYGVRSIDELRAPGSRPEPQPTIVTPASDPQRSILDDVRFNAPASAAPAHPAGSDDRFASAGAAANAEGAINEQNVERVIRQVLERLAK	PGPT0006360_1317	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006360-adhE-K04072	NA	NA
BMS020_06144	279	pduA_3	COG4577	Propanediol utilization protein PduA	ATGAAAGAAGCGCTTGGTCTTATCGAAACCAAAGGTCTGGTGGCCTGTATTGAAGCTGCGGACGCGATGTGCAAAGCCGCCAACGTCGAATTGATTGGCTATGAAAACGTCGGCTCCGGCCTGGTCACCGCCATGGTGAAAGGCGACGTCGGCGCGGTCAACGCGGCAGTAGACTCCGGCGTGGAAGCGGCGAAACGCATTGGCGAAGTCGTCAGCTCTCGCGTCATCGCGCGTCCACATAACGACATCGAAAAAATCGCGGCGCAGCACAAAGCATGA	MKEALGLIETKGLVACIEAADAMCKAANVELIGYENVGSGLVTAMVKGDVGAVNAAVDSGVEAAKRIGEVVSSRVIARPHNDIEKIAAQHKA	PGPT0019448_8	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019448-pduJ-NA	NA	NA
BMS020_06145	285	pduA_4	COG4577	Propanediol utilization protein PduA	ATGGGTGATGCATTAGGTCTGATCGAAACCAAAGGTCTGGTGGCCTGCATTGAAGCAGCGGATGCGATGTGTAAAGCCGCCAACGTCGAACTGATCGGCTATGAAAACGTCGGTTCCGGCCTCGTCACCGCGATGGTGAAAGGCGACGTCGGCGCGGTGAAAGCGGCGGTGGATTCCGGCGTCGAATCGGCGCAGCGCATCGGCGAAGTGGTGACCTCGCTAGTCATCGCGCGTCCGCATAACGACATCAACAAAATCGTCTCGCATTACAAAATTGCGGACTAA	MGDALGLIETKGLVACIEAADAMCKAANVELIGYENVGSGLVTAMVKGDVGAVKAAVDSGVESAQRIGEVVTSLVIARPHNDINKIVSHYKIAD	PGPT0019448_8	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019448-pduJ-NA	NA	NA
BMS020_06146	279	pduA_5	COG4577	Propanediol utilization protein PduA	ATGGGTGATGCATTGGGGCTTATCGAAACCAAAGGTCTGGTGGCCTGTATTGAAGCAGCGGACTCGATGTGTAAAGCCGCCAACGTCGAACTGATCGGCTATGAAAACGTCGGCTCCGGCCTGGTCACCGTGATGGTGAAGGGCGACGTCGGCGCGGTAAAAGCGGCGGTGGATTCCGGTGTGGAATCGGCGCAGCGCATCGGCGAAGTGGTGACCTCGCTGGTCATCGCGCGTCCGCATAACGACATCAACAAAATCGTCATTAAACACAAGGCCTGA	MGDALGLIETKGLVACIEAADSMCKAANVELIGYENVGSGLVTVMVKGDVGAVKAAVDSGVESAQRIGEVVTSLVIARPHNDINKIVIKHKA	PGPT0019448_8	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019448-pduJ-NA	NA	NA
BMS020_06147	519			hypothetical protein	ATGAGACTCGCGCCCCGCACCTTTTTCGCCCTCTCTGCCCTCGCGTTTATCGCCGCCGCCGGGTTTAGCGCGTGGCGCCTGCTGCCGGATGCCAACGACGGCGTGATGAGCTGCTCCACCAAAGCGATCATGCGTTTTGAAAACATGGAAAAAGAGAATGTGAACGGCAATATCCATTTTAATTTTGCCGCTAATGGCAACGGTTCGATGGTAGTGGAAGGCTATACCGATTCTGCCGCCGGCTGGCTCTACCTGCAGCGTTACGTCAAATTCAGCTACACCAGCCAGCGCATCTCGGCAACCGAGCGCCACTACCGCATCAAGAAATGGGAATCCAGCGCCTCGTCCATCGATGAATCGCCGGATGTCATCTTCGACTATTTCATGCGCGAGATGTCCGACAGCCACGACGGCCTGTTCCTCAATGCGCAAAAGCTTAACGACAAAGCTATCCTGCTGAGCTCTATCAACTCACCGCTCTACATCTGCACGCTGAAGTCCGGCAGCACGCTTAATTAA	MRLAPRTFFALSALAFIAAAGFSAWRLLPDANDGVMSCSTKAIMRFENMEKENVNGNIHFNFAANGNGSMVVEGYTDSAAGWLYLQRYVKFSYTSQRISATERHYRIKKWESSASSIDESPDVIFDYFMREMSDSHDGLFLNAQKLNDKAILLSSINSPLYICTLKSGSTLN				NA	NA	NA	NA	NA
BMS020_06148	807			hypothetical protein	ATGCGCTACAACATCCATGCCCGTCTCATTTATGATGCAACAGACGGCACGCTAACCCTGCCCGGCAGCGATGAACCAGATAGCCAGCTATCCATCACCGCCAGCGCGCTGCTCTATTTTTTTCTCCGCCATACCGGCGTGGTCAGTCGCGATGAAGTGTTGAAAAAAGTCTGGGACGATAACGGCTTAACGTCTTCCAACAGCAACCTCAACCAGTATCTGAGCATGCTGCGCAAAACCTTCCGCCACTACGATATCGATAACATTATCGTCACCGTGTCGCGCGGCATGCTGCAGCTGAATCAGGATCTCAGCATCGAACTGCTCGACGCCGGGCCGGCGCAGGCCGAAGTCGCCAGCCCTGCCGAGCCGCCTGGCGAACCCGCGGCGTCAGAAAGGGAAACCACACCGCCTGCCGCTTCACCACACGCGCGCGGAATGTGCTGGTATCTGGCCGGCGGCTGCCTGCTGGTCATCGCCCTGCTTCTGGTGGCATTCACGTTTGCCGGCACCCACGTCGCCCGGCCAATTAATCTGACGCTGATGAACCACAGCCAGTGCGAACTGCTCGCCAGCGATGAAATGCTGCGTTCAGTCTCGGCGACGGCCTACGGTAAGAACTTTGATGAGGTGCGTCAGCGGCTGAAGCTCAGCTGCAAGCCGGGGGAGCGTTTTGTTTTCTTCTATGGCGACCGGCTGGAGACCAACGGCCTGGGCCGGGTGTTTCTCGCCCACTGCGCGATGCACGAAGACAACCCTTTTAGCTATTGCGATAACTACTTTTACTACTCCTGGAAACCGCAATGA	MRYNIHARLIYDATDGTLTLPGSDEPDSQLSITASALLYFFLRHTGVVSRDEVLKKVWDDNGLTSSNSNLNQYLSMLRKTFRHYDIDNIIVTVSRGMLQLNQDLSIELLDAGPAQAEVASPAEPPGEPAASERETTPPAASPHARGMCWYLAGGCLLVIALLLVAFTFAGTHVARPINLTLMNHSQCELLASDEMLRSVSATAYGKNFDEVRQRLKLSCKPGERFVFFYGDRLETNGLGRVFLAHCAMHEDNPFSYCDNYFYYSWKPQ				NA	NA	NA	NA	NA
BMS020_06149	585	mtrR	COG1309	HTH-type transcriptional regulator MtrR	ATGATTCCGGCCATGAATATGGAAGCCCAGCATCGTAAAAAAGATCCCGTCCGTCTCCACCGTCAGCTGCTTGAATCGGCGGCGATGATTGCCGGCCGGGACGGTATCGCCGCCCTGTCGCTGAACGCTGTCGCCCGCGAGGCTGGAGTCAGCAAAGGCGGCCTCCTGCACCATTTTCCCAATAAGCAGGCGCTGATTTTCGCTCTGTTCGCCAGGCTGCTGGCGATTATGGAAAAGGCGATTAGCGAACTGATGGCCGCCGATAACATCGCTTACGGGCGTTTTACCCGCGCCTATTTACACTATCTGTCCAATCCGCAGTTGACGGACACGCACGAAAGCCGTCAGCTGATGGTGCTCTCGCTGGCGATGCCGGACGAACCGGTGCTGCGAAAATGCTGGCGTGACTGGATGCTTGGCCACCTGGCGCAAGGCGATGCGCTGGATAACGGCCCAACCGGTACCCTGGTTCGCTACGCCGCCGACGGCATCTGGTTATCTGAGCTGACCGAGGGGCGCACCATGAGCAGCGAACATCGCCAGTCGCTGGTGAACGATCTGACCAAAATGACGCTTCCCGCATGA	MIPAMNMEAQHRKKDPVRLHRQLLESAAMIAGRDGIAALSLNAVAREAGVSKGGLLHHFPNKQALIFALFARLLAIMEKAISELMAADNIAYGRFTRAYLHYLSNPQLTDTHESRQLMVLSLAMPDEPVLRKCWRDWMLGHLAQGDALDNGPTGTLVRYAADGIWLSELTEGRTMSSEHRQSLVNDLTKMTLPA				NA	NA	NA	NA	NA
BMS020_06150	783	kefG		Glutathione-regulated potassium-efflux system ancillary protein KefG	ATGAAAGTACTGCTGATTTACGCCCATCCGGAACCGCGCTCCCTCAATGGCGGACTCAAAGATTTCGCCATCCGTCATCTGCAGCAGGCCGGTCATGAAGTCCAGGTGTCCGATCTCTACGCCATGCGCTGGAAGGCCGGGTATGACGCCGACGACAGCGGCGCGCCGCCGGTCGGCGAGTTCTGGCGTCCTACCCTTGATTCAAAACAGGCCTTTTCGCAAGGAACTCAAAGCGCGGATATCGCCGCCGAGCAGGAAAAGCTGCTGTGGGCCGATACGGTGATTTTTCAGTTCCCGCTGTGGTGGTTCTCGATGCCGGCGATCATGAAAGGCTGGATCGACCGGGTATACGCCTGGGGCTTTGCCTATGGCGTCGGCGAGCACAGCGACCGCCACTGGGGCGATCGCTATGGGGAAGGCACCTTCGTCGGCAAGCGGGCAATGCTGATCGTCACCGCCGGCGGCTGGGCGGAACACTATTCACCGCGCGGGATCAATGGCCCCATCGACGACATCCTGTTCCCCATTCAGCACGGTATGCTGTTCTATCCCGGCTTCGAGGTGCTTCCGCCGCTGGTGTTCTACCGCACGGACAAAACCGATGCCGCGCAGTTCGCCAACCAGTGCGCCACCCTGGCCGGGCGGCTGGACACGCTGTGGCAAACCGAGCCCATTCCATTTCGCCGGCAAAATCATGGCGACTATCTGATCCCATCGCTGACGCTGCGCCCGGAGCTGGCGCCAGGGCAAAGCGGCCTGGCGGTGCATCTGGCAACGAAATAA	MKVLLIYAHPEPRSLNGGLKDFAIRHLQQAGHEVQVSDLYAMRWKAGYDADDSGAPPVGEFWRPTLDSKQAFSQGTQSADIAAEQEKLLWADTVIFQFPLWWFSMPAIMKGWIDRVYAWGFAYGVGEHSDRHWGDRYGEGTFVGKRAMLIVTAGGWAEHYSPRGINGPIDDILFPIQHGMLFYPGFEVLPPLVFYRTDKTDAAQFANQCATLAGRLDTLWQTEPIPFRRQNHGDYLIPSLTLRPELAPGQSGLAVHLATK	PGPT0009455_426	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009455-kefF|nqo|ywrO-K00355	NA	NA
BMS020_06151	909	syrM1_2		HTH-type transcriptional regulator SyrM 1	GTGATTAATTTACATCGTCTGGATCTCAATCTGCTGCGCACGCTCGACGTGCTGCTCAGTGAAAACAACGTCACCCGGGCGGCGCAGCGGCTGAATCTGTCGCAGCCGTCGGTGAGTATTCAGCTCGCCAGGTTACGGGAGATGTTTGCCGATCCGCTGCTGATGCCGGGCCCGCGCGGCATGCAGCCCACCGCCCGCGCCGATGAGCTTCGCCAGCCGCTGCGCGCCGCGTTAGCCGCGCTGGAGCAGGCGGTGGCGCCGGTCAGCCCTTTTGATCCGGCGACGGCGGCGGAGACCTGGCGGGTGGCGGCGACGGACTATATGGCCTCGGCGATCCTCCTGCCGATGCTGGACAGGCTACGCCTGGCCTCTCCCGGCAGTCGGCTGGCGGTATTTGAGCTCCAGCCGGCGCGGCTGGAGCAGCAGGCGGCCAGCGATGAAGTGGATCTCTGCTTCCATACCCGCGAGGGCGCGCCGCCGGGGCTGCATCAGCGCCTGCTGTTTCGCGAGCGCTACGTGCTGGCGGGTCGGGCCGGGCATCCGGCGCTGCGGCAAAGGTTGAGTCTGGAAACGTTCTGTCAGCTGGAGCAAGCGATCGTCTCCCCGGACGGGGGCGGCTTCAGCGCGGCGACCGATACCGCGCTGGCGAACCTTGGCCTGACGCGGCGGGTTGTCCTCTCCGTGCCACATTTCCTGTTTATGCTGGAGACCCTGCGCAACAGCGATTTGGTGGCGATGCTGCCGGAGCGGCTGGTGCGCGGGCAGAGCGGGCTGGCGGTCGTCGAGCCGCCGCTGACGGTCGCCGGCTTTGAGATGCTGATGCTGTGGCACGAGCGCTGGCACCGCGACCCGGCGCATCAATGGCTGCGCCAGTTCATTGTGAATTCACTGGAGGAACAGACATGCTGA	MINLHRLDLNLLRTLDVLLSENNVTRAAQRLNLSQPSVSIQLARLREMFADPLLMPGPRGMQPTARADELRQPLRAALAALEQAVAPVSPFDPATAAETWRVAATDYMASAILLPMLDRLRLASPGSRLAVFELQPARLEQQAASDEVDLCFHTREGAPPGLHQRLLFRERYVLAGRAGHPALRQRLSLETFCQLEQAIVSPDGGGFSAATDTALANLGLTRRVVLSVPHFLFMLETLRNSDLVAMLPERLVRGQSGLAVVEPPLTVAGFEMLMLWHERWHRDPAHQWLRQFIVNSLEEQTC				NA	NA	NA	NA	NA
BMS020_06152	420	fosA_1		Glutathione transferase FosA	ATGCTGAGCGGACTGAATCACCTGACCCTGGCGGTCAGCCAGCTGGCGCCGAGCGTGGCGTTTTATCAGCAGCTGCTGGGTATGACGCTGCACGCCCGCTGGGAGAGCGGCGCCTATCTCTCCTGCGGCGATCTGTGGCTATGCCTGTCGCTGGATCCGCAGCGGCGCATCACCCCGCCGGAGGAGAGCGATTACACCCATTATGCGTTTAGCATCAGCGAAGCCGATTTCGCCTGCTTCGCCGCTCGCCTTGAGGTTGCCGGCGTGGCGGTGTGGAAGCTGAACCGCAGCGAAGGCGCCTCGCACTACTTCCTCGACCCCGACGGCCATAAGCTGGAGCTGCACGTCGGCAACCTCGCCCAGCGTCTGGCCGCCTGCCGCGAACAGCCGTATAAGGGGATGGTGTTTTTTGACCAGTGA	MLSGLNHLTLAVSQLAPSVAFYQQLLGMTLHARWESGAYLSCGDLWLCLSLDPQRRITPPEESDYTHYAFSISEADFACFAARLEVAGVAVWKLNRSEGASHYFLDPDGHKLELHVGNLAQRLAACREQPYKGMVFFDQ	PGPT0028550_23	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-FOSFOMYCIN_RESISTANCE,PGPT0028550-fosA5-K21265	NA	NA
BMS020_06153	1413	norG_2	COG1167	HTH-type transcriptional regulator NorG	ATGACCCGCTATCAACATCTCGCGACGCTGCTGGCCGAACGCATTGAACAGGGCCTGTATCGCCACGGCGAAAAGCTGCCGTCGGTGCGCAGCCTGAGCCAGGAGCACGGCGTCAGCATCAGCACCGTCCAGCAGGCCTATCAGCTGCTAGAGCAGCAGCAGATGATCGTACCGCAGCCGCGATCGGGCTATTTCGTCGCCCCCCGCAAAGCCCAGCCGCCGGTGCCGCCGATGTCGCGCCCGGTGCAGCGCCCGGTGGAGATCACCCAGTGGGATCAGGTGCTGACCATGCTCGACGCCCGCTACGATAAAACGATCATCCCCTTCGGCGGCGGCTCGCCGGACGTGACGCAGCCAAGCCTGAAGCCCATCTGGCGCGAACTGAGCCGGGCGATCCAGCACAACCTCACTGAGGTGTTGAACTATGACGAACTGGCCGGGCGCCGTGAGCTACGGGAGCAGATCGCCCGCCTGATGCTCGACGGCGGATCGGTGGTGACTGCCGACGATCTGGTGCTCACCAGCGGCTGCCACAGCGCGCTGTCGCTGGCCCTGCTGTCGGTGTGCCAGCCAGGGGACATCATCGCCGTGGAATCCCCCTGCTACTACGGCACCATGCAGATGCTGCGCGGACTGGGATTAAAGACGATTGAGATCCCCACCGATCCGGAAACCGGGATCAGCATCGAGGCCCTGGAGCTGGCGCTGGATCAGTGGCCGATCAAAGGGGTGATCCTGGTGCCGAACTGCAACAACCCGCTGGGCTTTATCATGCCGGACGCTCGCAAGCGCGCAGTGCTGAACCTGGCCCAGCGCCACGATATCGTTATTTTCGAGGATGATATCTACGGCGAGCTGGCCACCGAGTACCCGCGCCCGCGCACCATTCACTCCTGGGATATCGACGGCCGGGTGATGCTCTGCAGCTCCTTTACCAAAACCATCGCCCCCGGCCTGCGCATCGGCTGGATCGCCCCCGGTCGCTACTACGACAAGCTGCTACAGATGAAGTACGCCGCCAGCGGCACCAACGTCCCCTCCACTCAGCTGGCGGCCTGTAACTTTATTCGCGAAGGCCACTACCACCGTCACGTGCGGCGGATGCGGCAGATCTATCAGCGCAATATGGAGATCTATACCTGCTGGCTGCGGGAATTTTTCCCCTGCGGGATCTGCGTCACCCGGCCGAAGGGGGGTTTTATGCTGTGGGTGGAGCTGCCGGAGCAGGTGGATATGGTCTGTGTCGCCAAACAGCTGTGCCGGCTGAAGATCCAGGTCGCGCCGGGCTCGCTGTTTTCCGCGGCGGGCAAGTATCGCAACTGCGTCAGGATCAACTGCGCCCTGCCGCCGACCGAGAAACATAAAGCGGTGATGGTGAAGCTGGGAGAAGCGGTGAAGGTGGCGATGGAGTGA	MTRYQHLATLLAERIEQGLYRHGEKLPSVRSLSQEHGVSISTVQQAYQLLEQQQMIVPQPRSGYFVAPRKAQPPVPPMSRPVQRPVEITQWDQVLTMLDARYDKTIIPFGGGSPDVTQPSLKPIWRELSRAIQHNLTEVLNYDELAGRRELREQIARLMLDGGSVVTADDLVLTSGCHSALSLALLSVCQPGDIIAVESPCYYGTMQMLRGLGLKTIEIPTDPETGISIEALELALDQWPIKGVILVPNCNNPLGFIMPDARKRAVLNLAQRHDIVIFEDDIYGELATEYPRPRTIHSWDIDGRVMLCSSFTKTIAPGLRIGWIAPGRYYDKLLQMKYAASGTNVPSTQLAACNFIREGHYHRHVRRMRQIYQRNMEIYTCWLREFFPCGICVTRPKGGFMLWVELPEQVDMVCVAKQLCRLKIQVAPGSLFSAAGKYRNCVRINCALPPTEKHKAVMVKLGEAVKVAME				NA	NA	NA	NA	NA
BMS020_06154	165			hypothetical protein	ATGGAATTTCACGAGAACAGGGCAAGACAGCCATTTATCGGTTTCGTACTGCTGGTGCGGTTTGTCAAAAAATGGTGGCTTCAGGAGCAAACGCGCAGAGCTTTGCAGAAAATGAGCGACGAACAGCTGAAAGATATCGGCCTGCGTCGGGATCAGATCAATTAA	MEFHENRARQPFIGFVLLVRFVKKWWLQEQTRRALQKMSDEQLKDIGLRRDQIN				NA	NA	NA	NA	NA
BMS020_06155	465	slyA_3		Transcriptional regulator SlyA	GTGACTGAAGACGAACTGTTTGCCCGCCGCCCGCTGGGGATGCGGATGGCCATGGTGGTGCGCCAGTGGCGCGCGATTATTGACTCCGCTATCACCGATACGGGACTCACCCAGTCCAGCTGGACGGTGCTGATGCAGCTGCATCAGCTGGGAGACAACGTCTCGGTCAGCGAACTGGCGGAGGTGCAGGGGATTGAACTGCCGCCGCTGACGCGCACCCTCTCATTACTGGAAAAGCAGGGCTATCTGTTGCGTTCCACATCGCCATATGACAAACGCATTCGCCTGCTGACGCTGACCGCCGAGGGGCGGGCTATTCTGGAAAAACTGAGCCGCGTGATCGAGACCTATCAGGAGCGCGTAACCCAGACCATCCCGGAGGCCGACCTCGCCACCTTCAGCGCCACGTTAAATCAAATCGCCTGCCGTTTGCGGACTATCCGCGAAGAAGATAACAAGATCTAA	MTEDELFARRPLGMRMAMVVRQWRAIIDSAITDTGLTQSSWTVLMQLHQLGDNVSVSELAEVQGIELPPLTRTLSLLEKQGYLLRSTSPYDKRIRLLTLTAEGRAILEKLSRVIETYQERVTQTIPEADLATFSATLNQIACRLRTIREEDNKI	PGPT0016255_764	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016255-sylA-K06075	NA	NA
BMS020_06156	1068	yibH_2	COG1566	Inner membrane protein YibH	ATGATGACGCCTGAACAAAAATTTGCCCGCTGGGTACGGGTGAGTATTGCCGCTTTTCTGGGAATATTCGCCTGGTTTATCGTTGCCGATATCTGGATCCCGCTGACGCCGGACTCCACCGTCATGCGCGTGGTGACCCCGGTTTCGTCGCGGGTCTCCGGCTATGTCTCGCACGTCTACGTGCATAACAATAGCCAGGTAAAAAAGGGCGACCTGCTGTATGAGCTCGACCCAACGCCATTCATTAATAAAGTTGAAGCGGCACAGATCGCCCTTGAACAGGCGAAGCTGAGCAACCAGCAGCTGGACGCGCAAATCGCCGCCGCCCGCGCCAACCTGCGCACCGCGCAGTACACCGCCCGTAACGATAAGGTCACGCTCGATCGCTATCAGCGCCTGAGCACCATGCAGAACGTCTCGCAGTCCGATCTCGACAAGGTGCGGACCACCTGGCAGACCAGCGAGCAGTCGGTCTCGGCGCTGAACGCGCAGATCCAGAACCTGCTGATCCAGCGCGGCGAGCGCGACGATAAGCGCAACGTCACCCTGCAGAAATACCGCAACGCGCTGGAGGAGGCGCAGCTGAACCTGGCCTGGACCAAAGTGCGTGCGGAAACTGACGGCATGGTCAGCAACCTGCAGCTTAACCCTGGGATCTACGCCACCGCGGCGACGGCCGTGCTGGCGCTGGTCAACAACAATACCGATATCGTCGCTGACTTCCGTGAGAAGAGCCTGCGCCACACCGCGGTAAATACCGATGCGGCGGTGGTCTTTGACGCCCTGCCGGGGGAAGTCTTCCCGGCGCATGTCACCAGCAGCGATGCCGGGATTCTGGCGGGGCAGGAGGCGGTTAACGGTCAGCTGTCGCAGCCGGAACAGTCCACCCGCTGGGTGCGCGACGCCCAGCGAATGCGCATTCACGTCGCGCTGGATCAGCCGCTGGAGAAACCGCTGCCGACCGGCGCCCGCGCCACGGTGCAGCTGTACAATAGCGAGGGACCTTTCGCCCGCACCTTCGCTGGCCTGCAGATCCATCTGGTGAGCTGGTTGCACTATGTCTATTAA	MMTPEQKFARWVRVSIAAFLGIFAWFIVADIWIPLTPDSTVMRVVTPVSSRVSGYVSHVYVHNNSQVKKGDLLYELDPTPFINKVEAAQIALEQAKLSNQQLDAQIAAARANLRTAQYTARNDKVTLDRYQRLSTMQNVSQSDLDKVRTTWQTSEQSVSALNAQIQNLLIQRGERDDKRNVTLQKYRNALEEAQLNLAWTKVRAETDGMVSNLQLNPGIYATAATAVLALVNNNTDIVADFREKSLRHTAVNTDAAVVFDALPGEVFPAHVTSSDAGILAGQEAVNGQLSQPEQSTRWVRDAQRMRIHVALDQPLEKPLPTGARATVQLYNSEGPFARTFAGLQIHLVSWLHYVY				NA	NA	NA	NA	NA
BMS020_06157	1065			hypothetical protein	ATGTCTATTAATACCCTGGCGCACGTCTTTACCCCGCACGGCAATATCGTCTACACGGCGAATGATTTTCGCCAGACGGTGCGTATCGCCGTGGCCGGGACCATTGCCCTCAGCATCTCCACCTTCTACGACGTGCAGTACGGCGTATTTTTTGTGGTTTATCCGCTGATGCTGATGTCGCTGGTGCCGGTGTTCAACCGCCATGTCGCCCGCCAGTTTGTATTCAGCGCGGCGGTGAACTGCGTCGAAATGGTATTGATCGTTGGCTATCTGTCGCAGTGGCCGGTGATCATGACGCTGGTGGTGTTCGCCCTGTACGTGATGCGTTTTCGCTTTATGAGCCAGGGGCCGCTGTTTCTGCTGGGGTCGATGGGGGTGGTGTGTCAGAGCACGATGCTCAACTTTATGAGCTACCCGACCAGTAACTGGCACACCCTGATGTTCTCCAACATGGAAGCGTGCGTGCTGGCGGTGGCGCTAAGCGCGCTGCTGCATTACCTGATCCCGGACGTCGAGCCGCGCAAGCCGCCGCCGCGCCTTGAAAAAGACGCCGCCCGCATCCGCCACGAGTCGCTGCTCTCCGGCACGGTGGCGACGATCATCTTCGTGGTGTTTCAGATCTGCGATCTCAGCGACTCGCTGTCAGCGCTGATGGCCGGGATCCTGATCCTGTTCCCGATGCACTATCGCGGGGCGGTGATCAGCTCGATCTGGCGCGTGGCGGGGGTGGTGCTGGCTTGTCTGTATATTCTGGTGGTGCAGTTGATTATCTATGACTTCAGCAACCACATGGTCCTGATGATGCCGCTGATTGGCCTCGGGCTGGCCTTCAGCGCCCGTCTGCACGTGATGGAGAAAGTGGGCGCCGGGGTGGGCTTCGCCAGCATCACCACCATCGGCATTATGTTTGGCCAGAATCTGCATCCCTATCAGGATCTGGTATTCAGCGATCTGTACCGCATCACCTCGGTGACGGTCTCGCTGGTGGTGACGCTGACCCTGGTCTTTCTGATGCACCGCCTGCTGAACTGCTTCGCGGCGACGCGCTTTGTGGTAAGCGATTAA	MSINTLAHVFTPHGNIVYTANDFRQTVRIAVAGTIALSISTFYDVQYGVFFVVYPLMLMSLVPVFNRHVARQFVFSAAVNCVEMVLIVGYLSQWPVIMTLVVFALYVMRFRFMSQGPLFLLGSMGVVCQSTMLNFMSYPTSNWHTLMFSNMEACVLAVALSALLHYLIPDVEPRKPPPRLEKDAARIRHESLLSGTVATIIFVVFQICDLSDSLSALMAGILILFPMHYRGAVISSIWRVAGVVLACLYILVVQLIIYDFSNHMVLMMPLIGLGLAFSARLHVMEKVGAGVGFASITTIGIMFGQNLHPYQDLVFSDLYRITSVTVSLVVTLTLVFLMHRLLNCFAATRFVVSD				NA	NA	NA	NA	NA
BMS020_06158	255			hypothetical protein	ATGACAACCTTTCTCTTTCTATTTCATTCCACGGTGGGAGTGGTGCGCACGCGCAAAGCCCTGCAGGCGGCGGGAATGACCTTCGAGGTCAAAGATATTCCCCGCCAGCTGCGCAGCGGCTGCGGGCTGTGCATCCTGCTGGAGGGGACGGAAGCCGATGCGCGAAGCTGGATCCTGCCGGAGTTGACGGCGGCGTTGTATCAGCAGGACGGGGAAGCGTGGCGCTGTCTTGCCACCTTCCCATCGGCAGGTTAA	MTTFLFLFHSTVGVVRTRKALQAAGMTFEVKDIPRQLRSGCGLCILLEGTEADARSWILPELTAALYQQDGEAWRCLATFPSAG				NA	NA	NA	NA	NA
BMS020_06159	768	fldI		(R)-phenyllactate dehydratase activator	GTGATCTACACGGTTGGTATTGATTCCGGCTCCACCGCCACGAAAGGCATCCTGCTGGCGGACGGGGTGATTACGCGTCGTTTCCTCTGCCCGACCCCCTTTCGCCCTGCCGACGCCATCCATGAGGCCTGGGAGACGCTGCGCGCTGGCCTCGCGGAAACGCCCTTTTTAACCCTCACCGGCTATGGCCGCCAGCTGGTGGATTTTGCCGATAAACAGGTGACGGAGATTTCCTGTCATGGCCTCGGCGCCCGCCTGCTGGCGCCGGACACCCGCACGGTGATTGATATCGGCGGCCAGGACAGCAAGGTTATCCAGTTGGATGCCGGGGGCAACCTCAGCGACTTTCTGATGAATGACAAATGCGCCGCCGGTACCGGCCGTTTTCTGGAGGTCATTTCACGAACCCTCGGCGCCAGCGTCGAACAGCTGGACGTCATTACCGACGGCGTGGAACCGCACGCCATCACCAGCATGTGTACGGTATTCGCCGAATCGGAAGTCATCAGCCTGCGGTCGGCCGGGGTCGCGCCGGAGGCGATTCTGGCGGGGGTGATTAACGCCATGGCCCGGCGCAGCGCGAACTTTATCGGCCGCTTATCGGCGCAGGGACCGCTGCTGTTTACCGGCGGCGTCAGCCACTGCGCCGCCTTTGCCCGCATGCTGGAAAGCCATGTCGGCATGGCGGTGACAACCCATCCCGACGCCCAGTATGCCGGGGCGATCGGCGCGGCGCTGATCGGCCAGCGTCAGCGGAGGCGCGGATGA	MIYTVGIDSGSTATKGILLADGVITRRFLCPTPFRPADAIHEAWETLRAGLAETPFLTLTGYGRQLVDFADKQVTEISCHGLGARLLAPDTRTVIDIGGQDSKVIQLDAGGNLSDFLMNDKCAAGTGRFLEVISRTLGASVEQLDVITDGVEPHAITSMCTVFAESEVISLRSAGVAPEAILAGVINAMARRSANFIGRLSAQGPLLFTGGVSHCAAFARMLESHVGMAVTTHPDAQYAGAIGAALIGQRQRRRG				NA	NA	NA	NA	NA
BMS020_06160	1152	fldC		(R)-phenyllactyl-CoA dehydratase beta subunit	ATGTCGCTTATCACCGATCTACCCGCCATTTTTGACCAGTTCTCGGAAGCTCGCCAGAAGGGCTTTCTCACCGTCATGGATCTTAAAGAGCAGAACGTGCCGCTGGTGGGCACCTACTGCACCTTTATGCCTCAGGAGATCGCCATGGCGGCGGGGGCCGTGGTGGTCTCGCTGTGCTCTACCTCCGATGAAACCATCGAGGAAGCGGAAAAGGATCTGCCGCGCAACCTCTGTCCGTTAATCAAAAGCAGCTACGGCTTCGGCAAAACCGATAAATGCCCCTACTTCTATTTCTCTGACCTGGTGGTTGGGGAAACCACCTGCGACGGTAAAAAGAAAATGTACGAGTACATGGCCGAGTTCAAGGCGGTCCACGTGATGCAGTTGCCGAACAGCGCCAGCGACGCGGCCTCCCGCGCCCTGTGGAAAGCGGAGATCCTGCGCCTGCAGCAGGTGATTGAGGCGCAGTTTGGCGCGCCGATTAGCGAGGCGGCGCTGCGCGAGGCCATCGTGCTGAAAAACCGCGAACGCCGGGCGCTGGCCTACTTTTATCGTCTCGGGCAGCTCAATCCGCCGGCGCTCAGCGGCGGCGACATCCTGAAAGTGGTGTATGGCGCCACCTTCCGCTTCGACAAAACCGCGCTGATTGACGAGCTCAACGCCATGGCGGAGCGCATCCGTCAGGAGTGGCGGCAGGGTAAACGACTGGCCTCACGCCCGCGCATTCTGATCACCGGCTGCCCGATCGGCGGGGCGGCGGAGAAAGTGGTTCGCGCCATCGAAGAAAACGGCGGCTGGGTGGTGGGCTATGAAAACTGCACCGGCGCGAAGGCGACCGAGCGCTGCGTGGCGGAAGAGGGCGACGTCTACGATGCCTTAACCGATAAATATCTCGCCATCGGCTGCTCCTGTATTTCCCCTAACGATCAGCGCCTGCAGCTGCTGAGCCAGATGGTGGAGGAGTACCAGGCCGACGGGGTAATCGACGTCATCCTGCAGGCCTGCCATACCTATGCCGTGGAATCGCTGGCCATTAAACGCCATCTGCGCCAGCAGCACGACCTTCCTTATATGGCGATTGAAACCGACTATTCGACAGCGGACCTCGGCCAGCTCAGCACCCGCGTCGCCGCCTTTATCGAAATGCTGTAA	MSLITDLPAIFDQFSEARQKGFLTVMDLKEQNVPLVGTYCTFMPQEIAMAAGAVVVSLCSTSDETIEEAEKDLPRNLCPLIKSSYGFGKTDKCPYFYFSDLVVGETTCDGKKKMYEYMAEFKAVHVMQLPNSASDAASRALWKAEILRLQQVIEAQFGAPISEAALREAIVLKNRERRALAYFYRLGQLNPPALSGGDILKVVYGATFRFDKTALIDELNAMAERIRQEWRQGKRLASRPRILITGCPIGGAAEKVVRAIEENGGWVVGYENCTGAKATERCVAEEGDVYDALTDKYLAIGCSCISPNDQRLQLLSQMVEEYQADGVIDVILQACHTYAVESLAIKRHLRQQHDLPYMAIETDYSTADLGQLSTRVAAFIEML				NA	NA	NA	NA	NA
BMS020_06161	240			hypothetical protein	ATGAGTGAGATTGAACTCAGCCCGGCGCAGCGCGACCTGCTGCGCGACAGGCTCAGCAAGTACTGCGAAGAGACGTTTAACCTCGAACTGGAGCAGTTTGACGCTGAATTTTTTGTCGACTTTATCGCCCAGGAGCTGGGGCCGCTGTTTTACAACGCCGGTATCGAAGAGGCCATCCGCACCCACCTGGCATGGAGCGAGCGGATCCAGGAAGAGATGGATTTAAAGAAGGTCTATTAA	MSEIELSPAQRDLLRDRLSKYCEETFNLELEQFDAEFFVDFIAQELGPLFYNAGIEEAIRTHLAWSERIQEEMDLKKVY				NA	NA	NA	NA	NA
BMS020_06162	1248	mdtM		Multidrug resistance protein MdtM	ATGATGCACCGGATGACCCGCTGGCTAACCCGGCACGCCGCCGCGCTGTTCTTCCCGGCGGCGCTCATTCTGTATGATTTTTCCGCCTATCTCACCACCGACCTGATCCAGCCGGGGATCCTGCACGTGGTGCGGGATTTCAACGCCGATGTGGCGCTGGCTCCAGCCTCGGTGAGCCTGTATATGGCCGGCGGCATGGCGCTGCAGTGGCTGCTGGGGCCGCTCTCTGACCGGATCGGACGGCGTCCGGTACTGCTCACCGGCACGCTGATTTTCACCCTCGCCTGCCTGGCGACGCTGTTCACCACCTCCATGACCCAGTTCCTGATCGCCCGCTTCGTGCAGGGCACCAGCATCTGCTTTATCGCCACCGTCGGCTACGTCACCGTACAGGAAGCCTTTGAGGAAAAAAGGTCGATCAGGCTGATGGCGGTGATCACCTCCGTCGTGCTGGTGGCGCCGATCGTCGGCCCGCTCTCCGGCGCGGCGCTGATGCATTTTATCCACTGGAAAGCGCTGTTCGGCATTATCGCCGCCATGGGGCTGGTGGCCTGGCTGGGGCTGCTGTTGACCATGCCGGAGACGGTGCGCCGCGGCGATGTGCCGTTCAGCCCCCTGGGCGTGCTGCGCGATTTTCGCAACGTCTTTCGCAACCGCATCTTTTTGCTCGGCGCCGCCACGCTGTCGCTGAGCTATATTCCGCTGATGAGCTGGGTGGCGGTATCGCCGGTGATTTTAATGGACGCCGGCGGGCTGACCACCAGCGAGTTCGCCTGGAGCCAGGTGCCGGTCTTCAGCGCCGTCATCATTGCCAACCTGTCGGTGGCGCGCTGGGTAAAAGATCCCACCCGTCCGCGCTTTGTGCTGAGCGCGGTGCCGGTACAGATGCTCGGCCTGGCCATCCTGGTCGTGGGGAATCTGGCCTGGCCGCACGTCTGGCTGTGGTCGGTGCTCGGCACTTGCTTCTACGCTTTCGGCATCGGGCTGATTTTCCCGACGCTGTTCCGCTTTACCCTCTTTTCCAACGACCTGCCGAAAGGCACGGTCTCCGCCTCGCTGAATATCGTGATCCTCAGCGTCAGCGCCTTATCGATTGAAGGCGCGCGCTGGCTGTGGTTCCATGGCGGGAGACTGCCCTTCCACCTGTTGGCGGTGGTCGCGGGGCTCGCCGCCGCCTGCTGCCTCGCCGGACTGTTACGCCACCAGCGTCAGTGCGCGCAAGCGGTCATTGAAGCCCGGCAGTCGTGA	MMHRMTRWLTRHAAALFFPAALILYDFSAYLTTDLIQPGILHVVRDFNADVALAPASVSLYMAGGMALQWLLGPLSDRIGRRPVLLTGTLIFTLACLATLFTTSMTQFLIARFVQGTSICFIATVGYVTVQEAFEEKRSIRLMAVITSVVLVAPIVGPLSGAALMHFIHWKALFGIIAAMGLVAWLGLLLTMPETVRRGDVPFSPLGVLRDFRNVFRNRIFLLGAATLSLSYIPLMSWVAVSPVILMDAGGLTTSEFAWSQVPVFSAVIIANLSVARWVKDPTRPRFVLSAVPVQMLGLAILVVGNLAWPHVWLWSVLGTCFYAFGIGLIFPTLFRFTLFSNDLPKGTVSASLNIVILSVSALSIEGARWLWFHGGRLPFHLLAVVAGLAAACCLAGLLRHQRQCAQAVIEARQS	PGPT0029200_15	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029200-mdtM-K23241	NA	NA
BMS020_06163	1293			hypothetical protein	ATGCTTAAGTTTATGGAAAAACTCGCTGAACTGAAACGCGCCAAACTGCTGGCGCTGTCGCTGCTGCTGATCGCCGCCGCGCTATTTATCACCACCCTGCTGCTGCCGCCGACGCCATGGGTCAGCGCGCTGAAGGCCATTTCCGAAGCGGCGATGGTCGGGGCGCTGGCCGACTGGTTTGCGGTGGTGGCCCTGTTTCGTCGTATTCCGCTGCCCTTTGTCGCCCGTCATACCGCGATTATCCCGCGCAACAAAGATCGCATCGCTGACAACCTCGGCCGCTTTGTGGAAGAGAAGTTCCTCGATACCCCGTCGCTGGTGGCGCTGATCCGCCGCTATCAACCAGCTCTGATGCTCGGCAACTGGTTCAGCCAGCCGGAGAACGCCCGGCGGGTCGGCCAGCACCTGCTGCAGGTGATGAGCGGTTTTCTCGAACTGACCGATGACGCCCGCATTCAGCGCCTGCTGCGGCGCGCGGTGCATAAGGCGATCGATAAGGTCGACCTGACGCAGACCAGCGCCATGATGCTGGAGGGGCTGACCCGCGACAACCGCCATCAAAAGCTGCTGGATTCGCTGATAAATCAGCTGATCGCCCTGCTGCAGCGCGACAGCTCCCGCGCCTTTATCGCCCGCGGCATCGTGCGCTGGCTGGAGACCGAACACCCGCTGAAGGCCAGGCTATTACCCACCGAGTGGCTCGGCGAGCACAGCGCCGAGATGGTCACCGACGCCGTGAATACCCTGCTGGACGAGGTCACTCACGATCGCACCCACCAGATCCGCCAGGCCTTTGACCGCGCGACGCAAAAGCTAATCGATAACCTGAAATCCGACCCGGAACTGGCGCAGAAGGCCGATAACATCAAAGCCTGGCTGAAAAATGATGAGACCTTCAACCGCTATCTTGGCGAAGTGTGGGGCGACCTGCGCGGTTGGGTAAAAAACGATATCAGCAGCGACGACTCGCGTATCAAGCAGCGCATCGCCGAGGCTGGCCAGTGGTTCGGTGAAACCTTACTCCGCGACGACGCGCTGCGCGAATCGCTTAACGAACACCTGGAGCAGGCGGCGCACCGGGTGGCGCCGGAGTTCGCCGCCTTCCTCACTCGGCATATCAGCGACACGGTGAAGAGCTGGGACGCCCGCGATATGTCGCGGCAGATCGAGCTTAATATCGGTAAAGATCTGCAGTTCATCCGCATCAACGGCACCCTGGTCGGGGGAACCATCGGCCTGTTGTTGTGGCTGCTCTCGCAGATCCCGTCGCTGCTGCATCTGCATATTGGTTAG	MLKFMEKLAELKRAKLLALSLLLIAAALFITTLLLPPTPWVSALKAISEAAMVGALADWFAVVALFRRIPLPFVARHTAIIPRNKDRIADNLGRFVEEKFLDTPSLVALIRRYQPALMLGNWFSQPENARRVGQHLLQVMSGFLELTDDARIQRLLRRAVHKAIDKVDLTQTSAMMLEGLTRDNRHQKLLDSLINQLIALLQRDSSRAFIARGIVRWLETEHPLKARLLPTEWLGEHSAEMVTDAVNTLLDEVTHDRTHQIRQAFDRATQKLIDNLKSDPELAQKADNIKAWLKNDETFNRYLGEVWGDLRGWVKNDISSDDSRIKQRIAEAGQWFGETLLRDDALRESLNEHLEQAAHRVAPEFAAFLTRHISDTVKSWDARDMSRQIELNIGKDLQFIRINGTLVGGTIGLLLWLLSQIPSLLHLHIG				NA	NA	NA	NA	NA
BMS020_06164	663	rhtC_2	COG1280	Threonine efflux protein	ATGAATACCTTATCGACTCTCTTCCCCGCCGCCTTTCCGGCGTTAGCCCTGTCCCACTTTGTCGCTCTGCTCAGCCCGGGCCCCGATTTTTTTCTGTTGGTCGGTTACGCTGTGCGCTACCGGATCCGCGGCAGCCTCGGACTGTGTCTCGGCATCGCCGCCGGGAATGCGTTGTATATTGTCCTGGCCATCGTTGGCTGGGGGCTTCTGCGCCAGGCGCCGCTGTTGTTTTTGCTCATCGAGCTGCTGGGCGCAGGCTATTTACTGTGGATTGGCAGCCTGCTGATTCGCAGCCGTCCCGCGGCGCTGGCGGTGGAGAGTGTTCGCGCATCGTGTCCGGGGTTCGGCAAGCAGCTGCTGCTGGGGCTGGGGTCATCGCTGCTCAACCCGAAGAACGCGCTGTTTTATCTGGCGCTGATGACCTCCCTGTTGGGGCCGGCGGTTACCTTGCTGCAGCAAACGGTAAGTGGCCTGTGGATGGTCAGCGTGGTGTTCTTCTGGGATTTACTGCTGGTGAGCGCGATTGCGCTGCCGCAGGTGCAGCACCGCCTGAGCGCCATCGTCTGGCGGGTCGAGCGGGCGGCGGGGGCGATCCTGATGATGTTCGGTCTGTGGATTATCTGGCGATTTTTGCACGACCTCGCCGTCAGGTTATATGCTTAA	MNTLSTLFPAAFPALALSHFVALLSPGPDFFLLVGYAVRYRIRGSLGLCLGIAAGNALYIVLAIVGWGLLRQAPLLFLLIELLGAGYLLWIGSLLIRSRPAALAVESVRASCPGFGKQLLLGLGSSLLNPKNALFYLALMTSLLGPAVTLLQQTVSGLWMVSVVFFWDLLLVSAIALPQVQHRLSAIVWRVERAAGAILMMFGLWIIWRFLHDLAVRLYA				NA	NA	NA	NA	NA
BMS020_06165	732	rhaS_11		HTH-type transcriptional activator RhaS	GTGAACCATACCCGAGATATTCCCCAAACCTTCTGGCGAGACGATCGCCTGCCGTGGCTGGAGCTGCGCAGCACCTGGGGCAGCCGTCAGGCCTATAAGCGCCACAGCCACCCGCAGCTCTCGGTGGGGGCGATTATCGACGGTGAAACGCGCTGCCTGTGCAATGGTCAGGAATATTTCCTGCAGCCCGGGGATCTGATCGTGATCCCGCCGCACGCGCCGCATAGCTGTAATCCGCTGCGTGACCGGCCGCGCAGCTATCATATGCTGTACCGGGAGGCGGCATGGTGCCATGCGCAGCGTCCAGATATTCCCCCTGGCGCCAGTATCACCTCGCCGCAGCCGCTGCTGCGCGGCAGCCCTCTCTTTGCCTGCTTCCAGCAGATTGTCGCCCTGATGAGCCGCGGCCGCATTGAGCAACTGCCCGCCCGGCTGGCGACAGATCTGCCGGCACCGCCATCGCTGGATAAGCTGGCCCACGACAGCGCGCTACGTAAAGAGACCGTTATCCGCGCCGTGAAACAGGATACCGGCCTGACGCCCGCCAGTTTGATCAATATGGCGCGCATTGAATATGCGAAAACGCGCTTACGTGCCGGGGACCCTATTGCCGACGTCGGCTATCAGGCCGGCTTTGCCGATCAGAGCCATTTCCATAAAACCTTCGTCAGCTATACCGCCGCCACGCCGCGGCAGTATGCGCAAAGCCGATCAATTTCCGACAATAAGTAA	MNHTRDIPQTFWRDDRLPWLELRSTWGSRQAYKRHSHPQLSVGAIIDGETRCLCNGQEYFLQPGDLIVIPPHAPHSCNPLRDRPRSYHMLYREAAWCHAQRPDIPPGASITSPQPLLRGSPLFACFQQIVALMSRGRIEQLPARLATDLPAPPSLDKLAHDSALRKETVIRAVKQDTGLTPASLINMARIEYAKTRLRAGDPIADVGYQAGFADQSHFHKTFVSYTAATPRQYAQSRSISDNK				NA	NA	NA	NA	NA
BMS020_06166	903			ISNCY family transposase ISRor2	ATGGCAAAGGGCACCACTTCGACGCCGCATGATGCGGTGTTTAAACAGTTTCTCACTCAGGCCGACATCGCGCGTGATTTCCTGGCGATCCATCTACCGCCTGCGCTGCGTCAGCGCTGCGACCTCGATACCTTACAGCTGGAGTCGGCAAGCTTTATCGAGGAGAGCCTGCGGGCCTGGTACTCCGATGTGCTGTGGTCACTCAAAACCGCGTCTGGCAAGGGATACATTTATGTGGTTATCGAACATCAGAGCTCACCGGACGTGCAAATGGCTTTTCGCCTGATGCGCTACGCCATCGCCGCGATGCAGCGCCATCTGGATAACGGTCATACCAGACTGCCGCTGGTGGTGCCGATGCTGTTCTATCACGGAGCGACCACGCCATACCCGTGGTCGCTCAGCTGGCTGGACTGCTTTGCCGATCCACAGCTGGCGAGGGAGCTTTATGCCTCGCCCTTTCCGCTGGTGGATATCACGGTGATCCCCGACGATGAGATCGTTCGTCACCGGCGGGTGGCATTACTCGAGCTGATACAGAAGCATATTCGCCAGCGCGATTTAATGGCGATTGTTGAGCAGCTGACGACGATTTTACTTAGCGGTGACGCTAATGACAGGCAGATAAAAACGCTGTTTAATTATCTACTGCAGACTGGCAACGCGCGTCGCTTTGGCCGGTTTATCCAGGAAGTGGCGCAACGGGTTCCTCAGCACAGGGAGAGATTGATGACCATCGCCGAACGATTACAGGAAGTGTGGCGCAGAAAAGGCAAGCGTGAAGGACAGCATGCCGAGGCGCTGCGCATTGCCCAGAGGATGCTGGCCGACGGCATTGCCCGCGAGACGGTGGTGAAAATCACCGGCCTGACCGCCGACGAGATCGCCGCGCTGGCGCATTGA	MAKGTTSTPHDAVFKQFLTQADIARDFLAIHLPPALRQRCDLDTLQLESASFIEESLRAWYSDVLWSLKTASGKGYIYVVIEHQSSPDVQMAFRLMRYAIAAMQRHLDNGHTRLPLVVPMLFYHGATTPYPWSLSWLDCFADPQLARELYASPFPLVDITVIPDDEIVRHRRVALLELIQKHIRQRDLMAIVEQLTTILLSGDANDRQIKTLFNYLLQTGNARRFGRFIQEVAQRVPQHRERLMTIAERLQEVWRRKGKREGQHAEALRIAQRMLADGIARETVVKITGLTADEIAALAH				NA	NA	NA	NA	NA
BMS020_06167	1371	gabD1_2	COG1012	Succinate-semialdehyde dehydrogenase [NADP(+)] 1	ATGGCCTATCAGACGGTGAATCCTGCGAACAATCAGCTTATTAAAACGTACCCGGCGCACAGCGATGCGGACGTGGAGGCGGCGCTGCGGCAGGCGGATGCGCTCTATCATTCTGCCTGGGCGAAAGGCGATATTGAACCGCGTCTGGCGGTGCTGCATAAGCTGGCGGATCTGATCGACAGCCGGGCGGAAGATCTGGCGAAAATCGCCAGCGAGGAGATGGGGAAACTCATTAAGCAGAGCCGCGGCGAAGTAAAACTGTGCGCGCAAATCGCCCGCTATTACGCCGATAACGCCAAATCGATGCTGGCGCCGGTGAAATACCCCACCGAACTCGGCGACGCCTGGGTTGAACACCATCCCATCGGCGTATTAGTGGCGGTGGAACCGTGGAACTTCCCCTATTACCAGCTGATGCGCGTCCTGGCGCCAAACCTGGCGGCCGGGAACCCGGTTATCGCCAAACACGCCAGCATTGTGCCGCACTGCGCGGAAACCTTTGCTCATCTGGTGCGCGAGGCCGGCGCACCAGATGGGGCGTGGACCAATCTGTTTATCTCCCAGGATCAGGTGGCGAAGATTATCGCCGACGATCGTGTGCAGGGCGCGGCGCTGACCGGGTCGGAAAAAGCTGGCAGCGTGGTGGCGGCGCAGGCGGCGAAGCATATTAAAAAATCGACCCTGGAACTCGGCGGCAACGATGTGTTTGTGGTACTCGACGATGCCGACCTCGATCGCGCGGTGAAAATCGGCGTCCAGGCGCGGCTGAACAACGCCGGCCAGGTGTGTACTGCCGCCAAGCGGTTTATCCTGCATGAGAACATCGCTGAGTCGTTTCTGACGAAATTTAGCGAGGCGTTTCGCCAGGTAAAAATAGGCGATCCGCTGGATGAAAGCACCACGCTGGGGCCGCTCTCCTCTAAAGATGCGCTGGAAACCTTAAGCAAGCAGGTTGACGAGGCGGTCAAAAACGGCGCCACGCTGCATCTGGGCGGCAAACCCGTGGCGCGAGACGGCAACTTCTTTGAACCCACTATCCTGACCGGTATCACCCGCGACAACCCGGCGTACTTCGAAGAGTTCTTTGGCCCGGTGGCGCAGATCTACGTGGTGAAAAACGATGAGGAGGCGATTGCGCTTGCCAACGATTCTCACTATGGCCTGGGCGGCGCGGTGTTCAGTCAGGACATCGAACGCGCTAAACGGATGGCATCCGCCATTGAAACCGGGATGGTCTATATCAACTGGCTGACCGATACCGCGCCCGAACTGCCGTTTGGCGGCGTGAAGCGTTCCGGTTATGGCCGGGAGCTCTCCGAGCTTGGCATCAAAGAGTTTGTGAACCAAAAGCTGGTGGTGGTTCGCCGCTAA	MAYQTVNPANNQLIKTYPAHSDADVEAALRQADALYHSAWAKGDIEPRLAVLHKLADLIDSRAEDLAKIASEEMGKLIKQSRGEVKLCAQIARYYADNAKSMLAPVKYPTELGDAWVEHHPIGVLVAVEPWNFPYYQLMRVLAPNLAAGNPVIAKHASIVPHCAETFAHLVREAGAPDGAWTNLFISQDQVAKIIADDRVQGAALTGSEKAGSVVAAQAAKHIKKSTLELGGNDVFVVLDDADLDRAVKIGVQARLNNAGQVCTAAKRFILHENIAESFLTKFSEAFRQVKIGDPLDESTTLGPLSSKDALETLSKQVDEAVKNGATLHLGGKPVARDGNFFEPTILTGITRDNPAYFEEFFGPVAQIYVVKNDEEAIALANDSHYGLGGAVFSQDIERAKRMASAIETGMVYINWLTDTAPELPFGGVKRSGYGRELSELGIKEFVNQKLVVVRR	PGPT0001580_6803	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
BMS020_06168	321			hypothetical protein	ATGAAATCACGTCTCGCCGCGCTCTCTGCGCTGAGCCTGGCGTTGCTGCTCACCGGCTGCACTCAGTATACCTGGGTGAAGCCGGGTTTAAGCGATGCCGACATGCATAAAAAGCTCACCGAATGTGAAGCGCAGGCTCTGGTCGATCTCCCTCCGGATAACGTGGTGACCGGGTCCAGTTCAGAAAAAAGCGACAAAAAGCATAAGAAACAGGATGTTGAAACAAGTTATACGGTAGAAGACGCGAATGAATATCAGCGGGAGACCTTAGTCGACAGCTGTATGTTCAAAAGCGGCTGGGATAAAGTCGAAGTGCAATAA	MKSRLAALSALSLALLLTGCTQYTWVKPGLSDADMHKKLTECEAQALVDLPPDNVVTGSSSEKSDKKHKKQDVETSYTVEDANEYQRETLVDSCMFKSGWDKVEVQ				NA	NA	NA	NA	NA
BMS020_06169	546			hypothetical protein	ATGAAAAAGCTTAACATCCTGATTGTTGCTGCCCTGACCGCGGTCTCTGGTTCCGCCATGGCAATGGGGTTTACCGTTGAACAAGGTAAGAATTTTACCAACCTGAATATGGAAATGGGTAAATCCTCTTCCGGCCTGTATGCCGAAAGCCACTGGCTGAAGAATACCGATGATGGTAGCCAGACCGGCGGCGTTGGCGCGGGTTACAATCTGGAAGTTGGCCCGGTGATGCTCAACGCTGGCGCGAAAGCTATCTACCTCGGGCCGAAAAAAGGCGATAACGGCGTCGCGTTTCCGGTCGGCGGCGGAGTGAACGTGGCCCTGACCGACAGCATCCACGTGTTTGGCGAAGGGTATGTCGCCCCCGACGGCCTGAACAACAGCGTGAAAAACTATGTTGAGGCGAACGGCGGCGTGAGCTGGTCCCCGGTTGGTCCACTGACCCTGAAGGTCGGTTACCGTCACGTGAGCGTTGACGGCAAAGAGGGCCGCCCAAACCACACCCTGATTGATGGCGCCTACGTGGGCGGCGGGATTACCTTCTGA	MKKLNILIVAALTAVSGSAMAMGFTVEQGKNFTNLNMEMGKSSSGLYAESHWLKNTDDGSQTGGVGAGYNLEVGPVMLNAGAKAIYLGPKKGDNGVAFPVGGGVNVALTDSIHVFGEGYVAPDGLNNSVKNYVEANGGVSWSPVGPLTLKVGYRHVSVDGKEGRPNHTLIDGAYVGGGITF				NA	NA	NA	NA	NA
BMS020_06170	957	yjiA	COG0523	P-loop guanosine triphosphatase YjiA	ATGGCACCGATTGCAGTCACCCTACTCACCGGTTTTCTCGGCGCAGGTAAAACCACCCTGTTGCGCCATATTCTCAACGAACAGCACGGCTTTAAAATCGCCGTGATTGAAAATGAATTTGGCGAAGTCGCCGTTGACGATCAGCTGATCGGCGACCGCGCCACGCAGATTAAAACCCTGACCAACGGCTGCATCTGCTGTACGCGCTCCAACGAACTGGAAGACGCCCTGCTCGATCTGCTCGACAGCCGCGACCGCGGTGAAATCGGGTTCGACCGGCTGGTGATTGAATGCACCGGCATGGCCGACCCGGGGCCGATTATCCAGACCTTTTTCTCCCACGAGGTGCTTTGCGAGCGCTATCTGCTGGATGGCGTGATCGCCCTGGTGGATGCGGTCCATGCCGACCAGCAGATGGATCAGTTCACCATCGCCCAGTCGCAGGTAGGCTACGCAGACCGTATTTTGCTGACTAAAACTGATGTTGCCGGCGACACCGAAAAATTGCGCGAACGGCTGGCGCGCATTAATGCCCGGGCGCCGATTTATACCGTCATTCACGGCGATATCGATCTTAGCCAGTTGTTTAACACCAGCGGCTTTATGCTGGAAGAGAACGTCGTAAACAGCAAACCGCGTTTCCACTTTATGGCAGAGAAGCAAAACGACGTGTCATCAATCGTGGTTGAGATGGATTACCCGGTGGATATCAGCGAAGTGTCGCGTGTAATGGAAAATCTGCTGCTCTCCTTCGCCGAGCAATTGATGCGCTATAAAGGGATGCTGTGGATCGACGGCGAGCCAAATCGCCTGCTGTTCCAGGGCGTGCAGCGCCTCTACAGCGCCGACTGGGATCGCCCGTGGGGCGATGAAACGCCGCACAGCACGCTGGTGTTTATCGGCATTCAGTTGCCGGAAGAGGAGATTCGCGCGGCATTTGCCGGGCTACGACGCTAA	MAPIAVTLLTGFLGAGKTTLLRHILNEQHGFKIAVIENEFGEVAVDDQLIGDRATQIKTLTNGCICCTRSNELEDALLDLLDSRDRGEIGFDRLVIECTGMADPGPIIQTFFSHEVLCERYLLDGVIALVDAVHADQQMDQFTIAQSQVGYADRILLTKTDVAGDTEKLRERLARINARAPIYTVIHGDIDLSQLFNTSGFMLEENVVNSKPRFHFMAEKQNDVSSIVVEMDYPVDISEVSRVMENLLLSFAEQLMRYKGMLWIDGEPNRLLFQGVQRLYSADWDRPWGDETPHSTLVFIGIQLPEEEIRAAFAGLRR				NA	NA	NA	NA	NA
BMS020_06171	204			hypothetical protein	ATGTTTGGTAACTTAGGTCAGGCAAAAAAATATCTCGGTCAGGCGGCGAAAATGCTGATTGGCATTCCGGATTACGACAACTACGTCACCCATATGCAAACCAACCATCCGGATCAGCCGTACATGACTTATGAAGAATTCTTCCGCGAACGCCAGCAGGCCCGCTACGGCGGCGACGGCAAAGGCGGCGTCCGCTGCTGTTAA	MFGNLGQAKKYLGQAAKMLIGIPDYDNYVTHMQTNHPDQPYMTYEEFFRERQQARYGGDGKGGVRCC				NA	NA	NA	NA	NA
BMS020_06172	2151	btsT_2	COG1966	Pyruvate/proton symporter BtsT	ATGGATACCAAAAAACTATTCAAGCACATACCCTGGGTGATTCTCGGGATCATCGGGGCATTTTGCCTCTCAGTCGTCGCCCTGCGCCGCGGTGAGCACGTCAGTGCCCTGTGGATCGTGGTGGCGTCGGTTTCCGTGTACCTCGTCGCCTACCGGTATTACAGCCTGTATATCGCGCAGAAGGTGATGAAGCTTGACCCGACGCGCTCCACGCCGGCGGTCATTAATAACGATGGCCTGAACTATGTGCCGACCAACCGCTACGTGCTGTTTGGCCACCACTTTGCCGCGATTGCCGGCGCCGGTCCGCTGGTGGGCCCGGTGCTCGCCGCGCAAATGGGCTACCTGCCGGGTACCCTGTGGCTGCTGGCGGGCGTCGTGCTGGCAGGCGCGGTACAGGACTTTATGGTGCTGTTTATCTCCTCACGGCGTAACGGCGCCTCGCTGGGCGAGATGATCAAACAGGAGATGGGTCCCGTACCGGGCTCCATCGCGCTGTTCGGCTGCTTCCTGATAATGATCATCATCCTCGCGGTGCTGGCGCTGATCGTGGTGAAAGCGCTGGCGGAAAGCCCGTGGGGCGTCTTCACCGTCTGCTCGACGGTGCCAATTGCCCTGTTCATGGGGATCTACATGCGCTTCCTGCGCCCGGGCCGCGTAGGCGAAGTATCGGTCATCGGTATCGTCCTGCTGGTGGCGTCTATTTACTTCGGCGGCGTGATTGCCCACGACCCGTACTGGGGCCCGGCGCTGACCTTTAAAGACACCACCATCACCTTTACCCTGATTGGCTACGCGTTTATCTCGGCTCTGCTGCCGGTATGGCTGATTCTGGCGCCGCGCGACTACCTGGCGACCTTCCTGAAAATCGGCGTCATCGTTGGCCTGGCGCTGGGTATCGTGATCCTTAACCCGGACCTGAAAATGCCGGCGGTGACCCAGTACATTGACGGTACCGGTCCGCTGTGGAAAGGCGCCCTGTTCCCGTTCCTGTTTATCACTATTGCCTGCGGCGCGGTCTCCGGCTTCCACGCCCTGATCGCCTCCGGCACCACGCCGAAGCTGCTGGCTAACGAAACCGACGCCCGCTTTATCGGCTACGGCGCAATGCTGATGGAGTCCTTCGTGGCGGTGATGGCGCTGGTAGCGGCCTCAATTATCGAACCGGGCCTCTACTTCGCAATGAACACCCCGCCGGCGGGTCTGGGCATCACCATGCCGAACCTGCACGAAATGGGCGGTGAAAACGCGGCGCTGATTGCCGCCCAGCTGAGGGATGTCACAGCTCACGCGGCAGCGACCGTCAGCTCCTGGGGCTTCGTGATCTCACCTGAGCAGATCCTGCAGACGGCGAAAGATATCGGCGAACCTTCCGTACTGAACCGCGCAGGCGGCGCGCCGACGCTGGCCGTGGGTATCGCTCATGTGTTCCACAAAATCATCCCGATGGCGGATATGGGCTTCTGGTACCACTTCGGTATCCTGTTTGAAGCGCTGTTTATCCTCACCGCGCTGGATGCCGGGACCCGCGCAGGCCGCTTTATGCTGCAGGATCTGCTGGGTAACTTCGTTCCGTTCCTGAAAAAAACCGACTCGCTGGTCGCCGGGATTATCGGTACCGCCGGCTGCGTAGGGCTGTGGGGCTACCTGCTGTATCAGGGCGTGGTCGACCCGCTAGGCGGCGTGAAGAGCCTGTGGCCGCTGTTCGGTATCTCTAACCAGATGCTGGCCGCGGTGGCGCTGGTGCTTGGTACCGTGGTGCTGGTCAAAATGCAGCGCACCAAATATATCTGGGTCACCGTGATCCCGGCTGCATGGCTGCTGCTGTGCACCACCTGGGCGCTGGGCCTGAAGCTTTTCAGCACCAACCCGCAGATGGAAGGCTTCTTCTTTATGGCTCAGCAGTATAAAGAGAAGATCGCTTCCGGCGGCGAACTGACCGCACAGCAGATTGCCAACATGAACCATATCGTGGTCAACAACTACACCAACGCCGGCCTGAGTATCCTGTTCCTGGTGGTGGTGTACAGCATCATCTTCTACGGCATCAAAACCTGGCTCACTGTCCGCAACAATAAAGTGCGTACCGACAAAGAGACCCCGTACGTGCCGGTACCGGAAGGCGGCGTGAAGACCTCGTCACATCATTAA	MDTKKLFKHIPWVILGIIGAFCLSVVALRRGEHVSALWIVVASVSVYLVAYRYYSLYIAQKVMKLDPTRSTPAVINNDGLNYVPTNRYVLFGHHFAAIAGAGPLVGPVLAAQMGYLPGTLWLLAGVVLAGAVQDFMVLFISSRRNGASLGEMIKQEMGPVPGSIALFGCFLIMIIILAVLALIVVKALAESPWGVFTVCSTVPIALFMGIYMRFLRPGRVGEVSVIGIVLLVASIYFGGVIAHDPYWGPALTFKDTTITFTLIGYAFISALLPVWLILAPRDYLATFLKIGVIVGLALGIVILNPDLKMPAVTQYIDGTGPLWKGALFPFLFITIACGAVSGFHALIASGTTPKLLANETDARFIGYGAMLMESFVAVMALVAASIIEPGLYFAMNTPPAGLGITMPNLHEMGGENAALIAAQLRDVTAHAAATVSSWGFVISPEQILQTAKDIGEPSVLNRAGGAPTLAVGIAHVFHKIIPMADMGFWYHFGILFEALFILTALDAGTRAGRFMLQDLLGNFVPFLKKTDSLVAGIIGTAGCVGLWGYLLYQGVVDPLGGVKSLWPLFGISNQMLAAVALVLGTVVLVKMQRTKYIWVTVIPAAWLLLCTTWALGLKLFSTNPQMEGFFFMAQQYKEKIASGGELTAQQIANMNHIVVNNYTNAGLSILFLVVVYSIIFYGIKTWLTVRNNKVRTDKETPYVPVPEGGVKTSSHH	PGPT0015060_1093	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015060-cstA-K06200	NA	NA
BMS020_06173	513	hpaC	COG1853	4-hydroxyphenylacetate 3-monooxygenase reductase component	ATGCAATTAGATGAACAACGCCTGCGTTTTCGCGATGCCATGGCCAGCCTGTCGGCGGCGGTTAACGTAGTCACCACCGCAGGCGAAGCCGGCCGCTGCGGGATTACCGCCACGGCGGTGTGCTCGGTGACGGATACGCCCCCCTCGGTGATGGTGTGTATCAACGCCAACAGCGCGATGAACCCGGTGTTTCAGGGCAACGGCAAGTTGTGCATCAACGTGCTGAACCATGAACAGGAAATCATGGCCCGTCATTTCGCCGGGATGACCGGGGTGACGATGGAAGAGCGTTTTGCCCTCAGCGGCTGGCAGCAGGGCGCGCTCGGGCAGCCGGTGCTGAAGGGGTCGCTGGCCAGTCTCGAAGGGGAGATTAGCCAGGTACAAACCATCGGCACCCACCTGGTCTATCTGGTAGAAATCAGGAACATAACCCTGAGCCAGCAGGGCCACGGGCTGATCTACTTTAAGCGCCGCTTCCACCCGGTAATGATGGAAATGGAAGTCGCAGTGTAA	MQLDEQRLRFRDAMASLSAAVNVVTTAGEAGRCGITATAVCSVTDTPPSVMVCINANSAMNPVFQGNGKLCINVLNHEQEIMARHFAGMTGVTMEERFALSGWQQGALGQPVLKGSLASLEGEISQVQTIGTHLVYLVEIRNITLSQQGHGLIYFKRRFHPVMMEMEVAV	PGPT0008685_150	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008685-hpaC-K00484	NA	NA
BMS020_06174	1563	hpaB	COG2368	4-hydroxyphenylacetate 3-monooxygenase oxygenase component	ATGAAACCTGAAGATTTCCGCGCCGACGCGAAACGCCCGTTAACTGGCGAAGAGTATTTAAAAAGCCTGCAGGATGGCCGCGAAATTTATATCTACGGCGAGCGCGTGAAGGATGTCACCACCCACCCGGCCTTCCGTAACGCCGCGGCCTCCGTCGCTCAACTGTACGATGCGCTGCACAAACCGGAGATGCAGGATTCCCTGTGCTGGGGCACCGATACCGGCAGCGGCGGCTACACCCATAAATTCTTCCGCGTGGCGAAAAGCGCCGACGATCTGCGCCAGCAGCGCGACGCCATCGCCGAGTGGTCGCGCTTAAGCTACGGCTGGATGGGCCGCACCCCGGACTACAAAGCCGCCTTCGGCTGCGCGCTGGGCGCCAACCCGGCGTTTTACGGCCAGTTCGAGCAGAACGCCCGCAACTGGTACACCCGCATTCAGGAAACCGGCCTGTACTTTAACCATGCGATCGTCAACCCGCCGATCGACCGCCACAAGCCGGCCGATGAAGTGAAGGATGTCTACATCAAGCTGGAAAAAGAGACCGATGCCGGGATCATCGTCAGCGGCGCGAAAGTGGTCGCCACCAACTCGGCGCTGACCCACTACAACATGATCGGCTTCGGCTCCGCGCAGGTGATGGGCGAAAACCCGGACTTCGCGCTGATGTTCGTCGCGCCGATGGACGCCGAAGGCGTCAAGCTGATCTCCCGCGCCTCCTATGAGATGGTCGCCGGCGCGACCGGCTCCCCGTACGACTATCCGCTCTCCAGCCGTTTCGACGAGAACGACGCGATTCTGGTAATGGATAAGGTGCTGATCCCATGGGAGAACGTGCTGATTTATCGCGACTTCGACCGCTGCCGCCGCTGGACCATGGAAGGGGGGTTCGCCCGCATGTACCCGCTGCAGGCCTGCGTGCGTCTGGCGGTAAAACTGGACTTTATCACCGCCCTGCTGAAGCGCTCGCTGGAATGTACCGGCACCCTCGAGTTCCGCGGCGTGCAGGCCGACCTCGGCGAAGTGGTGGCGTGGCGCAACATGTTCTGGGCGCTGAGCGATTCCATGTGCTCGGAAGCGACGCCGTGGGTCAACGGCGCATGGCTGCCGGATCACGCCGCGCTGCAGACCTATCGCGTGATGGCCCCGATGGCCTACGCCAAGATCAAGAACATCATCGAGCGCAACGTCACCAGCGGCCTGATTTATCTGCCGTCCAGCGCCCGCGATCTGAACAACCCGCAGATTGACCAGTATCTGGCGAAGTATGTGCGCGGCTCCAACGGTATGGATCACGTTGAACGTATCAAGATCCTCAAACTGATGTGGGACGCCATCGGCAGCGAGTTCGGCGGCCGCCACGAGCTGTATGAAATCAACTACTCCGGTAGCCAGGATGAGATTCGCCTGCAGTGTCTGCGCCAGGCGCAGAGCTCCGGCAATATGGACAAGATGATGGCGATGGTCGACCGCTGCCTGTCCGAGTACGACCAGAACGGCTGGACGGTGCCGCATCTGCACAATAACGCTGATATCAACATGTTGGATAAGCTGCTGAAGTAA	MKPEDFRADAKRPLTGEEYLKSLQDGREIYIYGERVKDVTTHPAFRNAAASVAQLYDALHKPEMQDSLCWGTDTGSGGYTHKFFRVAKSADDLRQQRDAIAEWSRLSYGWMGRTPDYKAAFGCALGANPAFYGQFEQNARNWYTRIQETGLYFNHAIVNPPIDRHKPADEVKDVYIKLEKETDAGIIVSGAKVVATNSALTHYNMIGFGSAQVMGENPDFALMFVAPMDAEGVKLISRASYEMVAGATGSPYDYPLSSRFDENDAILVMDKVLIPWENVLIYRDFDRCRRWTMEGGFARMYPLQACVRLAVKLDFITALLKRSLECTGTLEFRGVQADLGEVVAWRNMFWALSDSMCSEATPWVNGAWLPDHAALQTYRVMAPMAYAKIKNIIERNVTSGLIYLPSSARDLNNPQIDQYLAKYVRGSNGMDHVERIKILKLMWDAIGSEFGGRHELYEINYSGSQDEIRLQCLRQAQSSGNMDKMMAMVDRCLSEYDQNGWTVPHLHNNADINMLDKLLK	PGPT0020455_93	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020455-hpaB-K00483	NA	NA
BMS020_06175	891	rhaR_6		HTH-type transcriptional activator RhaR	ATGTGCCAGCATTCCATCGCCAATATCGATATCAATAAAGATTACGACGAGAGCCTGGGCACCGAGGAGGTGCACTATCAGTCGTTTTCCCGCATGGCGGCCTTTTTTGGCCGCGACATGCAGGCGCATCGCCACGACCGCTATTTCCAGATGCACTATCTTGATACCGGGCAGATTGAGCTGCAGCTTGATGACCATCGCTATTCGGTGCAGGCGCCATTGTTTGTGTTAACGCCGCCCTCGGTGCCGCACGCCTTTATTACCGAGTCCGATAGCGATGGCCATGTGCTGACGGTGCACGAAGAACTCATCTGGCCGCTGCTGGAGGTGCTCTATCCCGGCACGCGGGAGACCTTCGGCCTGCCGGGGATCTGCCTGTCGCTGGCGGATAAACCCGACGAGCTGGCGGCGCTGACCCACTACTGGCAGCTGATCCGCCGGGAATCCACCGCCCAGTTGCCGGGGCGCGAGCACACCCTGGCGCTGCTGGCGCAGGCGGTCTTTACCCTGCTATTGCGTAACGCAAAGCTCGACGATCACGCCGCCAGCGGCATGCGCGGCGAGCTGAAACTATTCCAGCGCTTTAACCAGATGATCGACAGCCACTACCATCAGCACTGGACGGTACCGGATTACGCCAGGGAGCTGCACCTGACCGAATCGCGGCTGACCGATATCTGTCGCCGCTTTGCCAACCGTTCGCCCAAACGGCTGATATTCGACCGCCAGCTGCGCGAGGCGAAGCGCCTGCTGCTGTTCTCCGATAGCGCCGTCAATGAGATAGCCTGGCAGCTGGGGTTTAAAGATCCCGCTTATTTTGCGCGTTTTTTTAGCCGCCAGGTCGGCTGCTCGCCCAGCAGCTACCGGGCGCAAAAAGTACCGGTATCGTAA	MCQHSIANIDINKDYDESLGTEEVHYQSFSRMAAFFGRDMQAHRHDRYFQMHYLDTGQIELQLDDHRYSVQAPLFVLTPPSVPHAFITESDSDGHVLTVHEELIWPLLEVLYPGTRETFGLPGICLSLADKPDELAALTHYWQLIRRESTAQLPGREHTLALLAQAVFTLLLRNAKLDDHAASGMRGELKLFQRFNQMIDSHYHQHWTVPDYARELHLTESRLTDICRRFANRSPKRLIFDRQLREAKRLLLFSDSAVNEIAWQLGFKDPAYFARFFSRQVGCSPSSYRAQKVPVS				NA	NA	NA	NA	NA
BMS020_06176	1359	ttuB_3		Putative tartrate transporter	ATGACTACCTCTACCCTGCAACACAATGATAATAAAGCCGTTGAAGTAGAAAACCGGGTGATCAAAAAGCTGTTCCGCCGCCTGATTACCTTCCTGTTTGTTCTCTTTGTTTTCTCATTTTTGGACCGCATTAATATCGGCTTCGCCGGCCTGACGATGGGCAAAGACCTCGGCCTGACCTCCACCATGTTCGGCCTGGCGGCGACGCTGTTCTACGTCACCTACGTGCTGTGCGGGATCCCCAGCAATATCATGCTGGCGAAAGTCGGCGCGCGCCGTTGGATCGCCGGGATTATGGTGGTCTGGGGGATCGCCTCGACCTGCACCATGTTCGCCACCAGCCCGCATACGCTGTACATCCTGCGCATGCTGGTCGGCATCGCCGAGGCTGGTTTTCTACCGGGGATCCTCGTCTATCTGACCTGGTGGTTCCCGGCCTACCATCGCGCCCGCGCCAACGCCCTGTTTATGATCGCCATGCCGGTGACCATGATGCTCGGCTCGATACTTTCCGGCTATATTCTGGCGCTCGACGGCCTGTGGAACCTGAAGGGCTGGCAGTGGCTGTTTCTGCTGGAAGGCCTGCCGTCGGTGGTGCTCGGCGTCGTCACCTGGTTCTTCCTCAACGACACGCCGGATAAAGCCAACTGGCTCGATAGCGAAGAAAAACAGGCGCTGAAGGCGATGATCGATCGTGAACGGGAAAATGCGGCGGTCGTTCCGGCTTCGCCGCGTTCCACGCTGCGCGAAGTCCTGACGCCAGCGGTGCTGATGTATACCCTGGCCTACTTCTGCCTGACCAATACCCTGAGCGCCATTAATATCTGGACGCCGCAGATCCTGCAGAGCTTCAACACCGGCAGTAGCAACATCATGATTGGCCTGCTGGCGGCGATCCCGCAGTTCTGCACTATTTTCGGCATGATCTGGTGGAGCCGCCGCTCCGACCGGCGCAAAGAGCGCAAAATGCATACCATCCTGCCCTACCTGTTCGCCGCGGCGGGTTGGCTGCTGGCTTCGGCAACTCACCACAGCCTGATCCAGCTGATCGGCATTATTATGGCTTCGGTGGGATCCTTTACCGCGATGGCCATTTTCTGGACCACCCCGGATCGGGTGATCAGCCTGCAGTCGCGCGCGGTGGCGCTGGCGGTAATCAACGCCATCGGCAACGTCGGCTCTGCCGTCAGCCCGCTGTTGATCGGCATTTTGCGCGATACCACCGGCAGCTTTAGCTCCGGGCTGTGGTTTGTCGCCGGGCTGCTGATTGTCGGCGCGCTGGTGCTCACCCGCATTCCAATGAGCCAGCGTGAGGACGCCGCCGCCGCGCCGGACTTAGCGGCGCAGAAAGGCCACTAA	MTTSTLQHNDNKAVEVENRVIKKLFRRLITFLFVLFVFSFLDRINIGFAGLTMGKDLGLTSTMFGLAATLFYVTYVLCGIPSNIMLAKVGARRWIAGIMVVWGIASTCTMFATSPHTLYILRMLVGIAEAGFLPGILVYLTWWFPAYHRARANALFMIAMPVTMMLGSILSGYILALDGLWNLKGWQWLFLLEGLPSVVLGVVTWFFLNDTPDKANWLDSEEKQALKAMIDRERENAAVVPASPRSTLREVLTPAVLMYTLAYFCLTNTLSAINIWTPQILQSFNTGSSNIMIGLLAAIPQFCTIFGMIWWSRRSDRRKERKMHTILPYLFAAAGWLLASATHHSLIQLIGIIMASVGSFTAMAIFWTTPDRVISLQSRAVALAVINAIGNVGSAVSPLLIGILRDTTGSFSSGLWFVAGLLIVGALVLTRIPMSQREDAAAAPDLAAQKGH	PGPT0002325_317	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-ORGANIC_ACID_METABOLISM	P-SOLUBILISATION-TARTARIC_ACID_TRANSPORT,PGPT0002325-ttuB-K13021	NA	NA
BMS020_06177	798	hpcH	COG3836	4-hydroxy-2-oxo-heptane-1,7-dioate aldolase	ATGAACAACGCTTTTAAAGCGGCGCTCAAGGCCGGGCGCCCGCAAATCGGCCTGTGGCTGGGGCTGTGCAGTAGCTACAGCGCCGAACTGCTGGCCGGCGCCGGCTTCGACTGGCTGCTGATCGACGGCGAACACGCGCCCAACAATGTGCAAACGGTGCTGACCCAGCTTCAGGCCATCGCCCCCTACCCCAGCCAGCCGGTGGTCCGCCCGTCGTGGAACGACCCGGTGCAGATCAAACAGCTGCTGGATATCGGCGCGCAAACCCTGCTGGTGCCCATGGTGCAGAACGCCGACGAAGCGCGGCTGGCGGTCAGAGCCACCCGCTACCCGCCCGCCGGCATTCGCGGCGTCGGCAGCGCGCTGGCCCGCGCCTCGCGCTGGAATCGGGTGCCGGATTATCTTCACCAGGCCAACGACGCCATGTGCGTCCTGGTACAGATTGAAACCCGCGAAGCGCTGAAAAATCTGCCGCAGATCCTCGATGTCGACGGGGTGGATGGCGTGTTTATCGGCCCGGCGGACCTCAGCGCCGATATGGGCCATGGCGGTAATCCGCAGCACCCGGAAGTACAGGCCGCCATTGAACAGGCCATCCAGCAAATCCGTCAGGCAGGTAAGCCGCCGGGGATCCTGATGGCCAATGAAGCGCTGGCGAAGCGCTATCTCGAACTGGGCGCGCTGTTTGTCGCCGTCGGCGTCGATACCACCCTGCTGGCGCGCGGCGCAGAAGCGCTGGCGGCCCGTTTTTCCCACACCGCAACGACCACAACCGATAACAATAAATCCGTCTATTGA	MNNAFKAALKAGRPQIGLWLGLCSSYSAELLAGAGFDWLLIDGEHAPNNVQTVLTQLQAIAPYPSQPVVRPSWNDPVQIKQLLDIGAQTLLVPMVQNADEARLAVRATRYPPAGIRGVGSALARASRWNRVPDYLHQANDAMCVLVQIETREALKNLPQILDVDGVDGVFIGPADLSADMGHGGNPQHPEVQAAIEQAIQQIRQAGKPPGILMANEALAKRYLELGALFVAVGVDTTLLARGAEALAARFSHTATTTTDNNKSVY	PGPT0001575_819	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001575-hpaI|hpcH-K02510	NA	NA
BMS020_06178	804	hpcG		2-oxo-hept-4-ene-1,7-dioate hydratase	ATGCTCGATAAACAGACCCGAACCCTGATTGCCCAGCGGCTGAATCAGGCCGAAAAACAGCGTGAACAGATCCGCGCGATCTCGCTGGATTATCCGTCGATCACCATTGAGGACGCCTACGCCGTCCAGCGCGAGTGGGTCGAGATGAAGATCGCCGAAGGCCGCGTACTCAAAGGCCACAAGATCGGCCTGACCTCAAAAGCCATGCAGGCCAGCTCGCAGATCAGCGAGCCGGACTACGGCGCGCTGCTTGACGATATGTTCTTCCACGACGGCAGCGATATCCCCACCGACCGCTTTATCGTTCCGCGTATCGAAGTCGAGCTGGCGTTCGTGCTGGCCAAACCGCTGCGCGGCCCGAACTGCACCCTGTTTGACGTCTACAACGCCACCGACTATGTGATCCCGGCGCTGGAGCTGATTGACGCCCGCTGCCACAACATCGACCCGGAAACCCAGCGCCCGCGTAAAGTGTTCGACACCATTTCCGATAACGCCGCCAACGCCGGGGTGATCCTCGGCGGCCGCCCGATCAAGCCCGACGAGCTGGATCTGCGCTGGATCTCCGCCCTGCTGTTTCGCAACGGCGTGATTGAGGAGACCGGCGTCGCCGCGGGGGTGCTCAATCACCCGGCCAACGGCGTGGCCTGGCTGGCCAACAAACTGGCGCCGTACGATGTCCAGCTCGAAGCCGGGCAAATCATCCTCGGCGGCTCCTTCACCCGTCCGGTCCCGGCGCGCAAGGGCGATACCTTCCACGTCGACTACGGCAACATGGGCGCCATCAGCTGCCGCTTTGTCTGA	MLDKQTRTLIAQRLNQAEKQREQIRAISLDYPSITIEDAYAVQREWVEMKIAEGRVLKGHKIGLTSKAMQASSQISEPDYGALLDDMFFHDGSDIPTDRFIVPRIEVELAFVLAKPLRGPNCTLFDVYNATDYVIPALELIDARCHNIDPETQRPRKVFDTISDNAANAGVILGGRPIKPDELDLRWISALLFRNGVIEETGVAAGVLNHPANGVAWLANKLAPYDVQLEAGQIILGGSFTRPVPARKGDTFHVDYGNMGAISCRFV	PGPT0005055_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005055-dmpB|xylE-K00446	NA	NA
BMS020_06179	381	hpcD		5-carboxymethyl-2-hydroxymuconate Delta-isomerase	ATGCCGCATTTTATCGCCGAATGTACCGACAACATCCGCGAGCAGGCCGATCTGCCTGGGCTGTTCGCCAAAGTCAACGAGGCGCTGGCCGCTACCGGCATCTTTCCGATCGGCGGGATCCGCAGCCGTGCCCACTGGCTGGATACCTGGCAGATGGCCGACGGCAGGCAGGATTACGCCTTTGTCCATATGACGCTGAAGATCGGTGCCGGGCGCAGCCTGGAGAGCCGTCAGGACGTGGGAGATATGCTGTTCGCGCTGATCAAATCCCACTTCGCGGCGCTGATGGAGAGCCGCTACCTGGCGCTGTCGTTCGCCATGGAAGAGCTCGATCCGACGCTGAACTACAAACAGAACAACGTGCACGCTTTATTTAAATAA	MPHFIAECTDNIREQADLPGLFAKVNEALAATGIFPIGGIRSRAHWLDTWQMADGRQDYAFVHMTLKIGAGRSLESRQDVGDMLFALIKSHFAALMESRYLALSFAMEELDPTLNYKQNNVHALFK				NA	NA	NA	NA	NA
BMS020_06180	858	hpcB	COG3384	3,4-dihydroxyphenylacetate 2,3-dioxygenase	ATGGGTAAGTTAGCGTTAGCAGCAAAAATCACTCACGTGCCGTCGATGTACCTGTCTGAGCTGCCGGGGAAAAACCACGGCTGCCGCCAGGGCGCTATCGACGGGCATAAAGAAATTGGCAAGCGCTGCCGGGAAATGGGCGTCGATACCATCATCGTGTTCGATACCCACTGGCTGGTCAACAGCGCCTACCACATCAACTGCGCCGACCATTTCCAGGGCGTCTACACCAGTAACGAACTGCCGCACTTTATTCGCGACATGACCTACGACTATGACGGCAACCCGGAGCTGGGTCAGCTCATCGCCGACGAGGCGGTGAAGCTCGGGGTGCGCGCCAAAGCGCACAATATTCCGAGCCTGAAGCTGGAGTACGGCACCCTGGTGCCGATGCGCTACATGAACAGCGATAAGCACTTCAAGGTGGTGTCCATTTCCGCCTTCTGTACCGTTCACGACTTTGCCGACAGCCGCAGGCTGGGCGAAGCGATCCTCAAAGCCATTGAGAAATATGACGGCACCGTGGCGGTGCTGGCCAGCGGCTCGCTGTCGCACCGCTTTATCGACGATCAGCGCGCCGAAGAGGGGATGAATAGCTACACCCGCGAGTTCGATCATCAGATGGATGAGCGGGTGGTGAAGCTGTGGCGCGAGGGCAAATTTAAAGAGTTCTGCACCATGCTGCCGGAGTACGCCGACTACTGCTACGGCGAAGGCAACATGCACGACACGGTGATGCTGCTTGGCCTGCTGGGCTGGGATAAATACGACGGCAAGGTGGAGTTTATCACCGAGCTGTTCGCCAGCTCCGGCACCGGCCAGGTTAACGCCGTGTTCCCGCTGCCGGCGCAGGCGTAA	MGKLALAAKITHVPSMYLSELPGKNHGCRQGAIDGHKEIGKRCREMGVDTIIVFDTHWLVNSAYHINCADHFQGVYTSNELPHFIRDMTYDYDGNPELGQLIADEAVKLGVRAKAHNIPSLKLEYGTLVPMRYMNSDKHFKVVSISAFCTVHDFADSRRLGEAILKAIEKYDGTVAVLASGSLSHRFIDDQRAEEGMNSYTREFDHQMDERVVKLWREGKFKEFCTMLPEYADYCYGEGNMHDTVMLLGLLGWDKYDGKVEFITELFASSGTGQVNAVFPLPAQA				NA	NA	NA	NA	NA
BMS020_06181	1467	betB_2	COG1012	NAD/NADP-dependent betaine aldehyde dehydrogenase	ATGAAAAAGATTAACCATTGGATCAACGGTAAAAACGTTGCCGGCGCAGACTATTTTCATACCACCAACCCGGCCACCGGCGAAGTGCTGGCGGAAGTCGCCGCCGGCGGAGAAGCCGAAGTCCATCAGGCGGTAGCGGCGGCGAAAGCGGCCTTCCCGAAGTGGGCTAACCTGCCGATGAAAGAGCGCGCGCGTCTGATGCGCCGCCTCGGGGATCTGATCGACCAGAACGTCCCGGAGATCGCGGCGATGGAAACCGCCGATACCGGTCTGCCTATCCACCAGACCAAGAACGTGCTGATCCCGCGCGCCTCCCACAATTTCGAGTTTTTCGCCGAAGTGTGCCAGCAGATGAACGGTAAGACCTATCCCGTCGACGACAAGATGCTGAACTACACCCTGGTGCAGCCGGTGGGCGTCTGCGCGCTGGTGTCGCCGTGGAACGTGCCGTTTATGACCGCCACCTGGAAGGTGGCGCCGTGCCTGGCCTTGGGGAATACCGCGGTGCTGAAGATGTCCGAGCTGTCGCCGCTGACCGCCGACCGTCTGGGCGAACTGGCGCTGGAAGCGGGTATTCCGGCGGGGGTACTGAACGTGGTGCAGGGCTACGGCGCGACGGCGGGCGATGCGCTGGTACGCCACCATGACGTGCGCGCGGTATCGTTTACCGGCGGTACCGCCACCGGGCGCAACATCATGAAAAATGCCGGGCTGAAAAAGTACTCCATGGAGCTGGGCGGCAAATCGCCGGTGCTGATTTTCGAAGACGCCGATATTGAGCGCGCCCTCGACGCCGCGCTGTTCACCATCTTCTCGATCAACGGCGAACGCTGCACCGCCGGCTCGCGCATTTTCATTCAGCAGAGCATCTACCCCGAGTTCGTTAAACGCTTCGCCGAGCGCGCTAACCGCCTGCGCGTCGGCGATCCAACCGACCCGAACACCCAGGTCGGCGCGCTGATTAGCCAGCAACATTGGGAGAAAGTCTCCAGCTATATCCGCCTCGGCATTGAAGAAGGAGCGACCCTGCTGGCCGGCGGCGCGGATAAACCGTCCGACCTGCCGGCGCATCTGAAAGCCGGCAATTTCCTGCGCCCGACGGTGCTGGCGGATGTCGACAACCGCATGCGCGTCGCGCAGGAAGAGATTTTCGGCCCGGTAGCATGTCTGCTGCCTTTTAAAGACGAGGCGGAAGGTCTGCGCCTGGCCAACGATGTGGAATACGGCCTGGCGTCGTATATCTGGACCCAGGACGTCAGCAAAGTGCTGCGTCTGGCGCGCGGTATTGAAGCCGGGATGGTGTTCGTCAACACCCAGAACGTCCGCGACCTGCGTCAGCCGTTCGGCGGCGTGAAGGCCTCCGGCACCGGCCGCGAAGGCGGCGAGTACAGCTTTGAAGTGTTCGCCGAAATGAAAAACGTCTGCATCTCGATGGGCGACCATCCGATCCCGAAATGGGGAGTCTGA	MKKINHWINGKNVAGADYFHTTNPATGEVLAEVAAGGEAEVHQAVAAAKAAFPKWANLPMKERARLMRRLGDLIDQNVPEIAAMETADTGLPIHQTKNVLIPRASHNFEFFAEVCQQMNGKTYPVDDKMLNYTLVQPVGVCALVSPWNVPFMTATWKVAPCLALGNTAVLKMSELSPLTADRLGELALEAGIPAGVLNVVQGYGATAGDALVRHHDVRAVSFTGGTATGRNIMKNAGLKKYSMELGGKSPVLIFEDADIERALDAALFTIFSINGERCTAGSRIFIQQSIYPEFVKRFAERANRLRVGDPTDPNTQVGALISQQHWEKVSSYIRLGIEEGATLLAGGADKPSDLPAHLKAGNFLRPTVLADVDNRMRVAQEEIFGPVACLLPFKDEAEGLRLANDVEYGLASYIWTQDVSKVLRLARGIEAGMVFVNTQNVRDLRQPFGGVKASGTGREGGEYSFEVFAEMKNVCISMGDHPIPKWGV	PGPT0005060_543	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005060-dmpC|xylG|praB-K10217	NA	NA
BMS020_06182	765	hpcE_1	COG0179	Homoprotocatechuate catabolism bifunctional isomerase/decarboxylase	ATGAAACAGGCACGTATTGAATGGCAGGGACAGGTACGCGATGCGGTGGTCGATGAACGCGACCAGGTGCGCCTGGACGATGGCACGGTATTGAAAGAAGGTGAATTCCGCTGGCTACCGCCCGCCGACGGCACGCTGTTCGCGCTGGGGCTGAACTACGCCGACCACGCCAGCGAGCTGGCGTTTAAGCCGCCAACCGAGCCACTGGTGTTTATCAAAGCGCCAAACACCTTTACTGGCCACCAGCAGCAGTCGGTACGCCCGGATAACGTGGAATACATGCACTACGAAGCCGAGCTGGTGGTGGTGATCGGTAAAACCGCCCGCCGCGTCAGCGAAGCCGAGGCCATGGACTATGTCGCCGGCTATACCGTCTGCAACGACTACGCGATCCGCGACTATCTGGAAAACTACTACCGGCCAAACCTGCGGGTGAAAAGCCGCGACACCCTGACGCCGATCGGCCCGTGGATCGTCGGCAAAGAGGCGATCCCGGATCCGCATAATCTGGCCCTGCGCACCTGGGTCAACGGCGAGCTGCGCCAGCAGGGCACCACCGCCGATCTGATCTTCAGCATCCCGTTTCTCATCGCTTACTTAAGCGAATTTATGACCCTGCAACCGGGCGACATGATCGCCACCGGCACGCCGAAAGGGCTGTCCGACGTGGTGCCAGGCGACGAGGTGATCGTTGAAGTCGAGGGCGTGGGCCGCCTGGCCAACCATATCATCAGCCAGCAAGCGTATGAGGAGACACTGTCATGA	MKQARIEWQGQVRDAVVDERDQVRLDDGTVLKEGEFRWLPPADGTLFALGLNYADHASELAFKPPTEPLVFIKAPNTFTGHQQQSVRPDNVEYMHYEAELVVVIGKTARRVSEAEAMDYVAGYTVCNDYAIRDYLENYYRPNLRVKSRDTLTPIGPWIVGKEAIPDPHNLALRTWVNGELRQQGTTADLIFSIPFLIAYLSEFMTLQPGDMIATGTPKGLSDVVPGDEVIVEVEGVGRLANHIISQQAYEETLS	PGPT0001630_41	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001630-hpaF-K16164	NA	NA
BMS020_06183	633	hpcE_2	COG0179	Homoprotocatechuate catabolism bifunctional isomerase/decarboxylase	ATGAAAGGTACCATCTTCGCCGTTGCGCTCAATCATCGCAGCCAGCTCGACGCCTGGCGCGAGGCGTTTCAACAGGCCCCCTACAAAACGCCGCCGAAAACCGCGGTCTGGTTTATCAAGCCGCGCAATACCGTGATTGGCGATGGCGAGGCGATCCCCCATCCGCAGGGCGAAACCGTGCAAAGCGGCGCCACCGTGGCGCTGATTGTCGGCAAAACCGCGCGCAAGGTGGCGGCGGAAGAGGCAGCGAACTATATCGCCGGCTACGCGCTGGCGAACGACGTCAGCCTGCCGGAAGAGAGTTTTTATCGCCCGGCGATCAAGGCCAAGTGCCGCGATGGTTTCTGCCCCGTCGGCGCGCTGTCGCCGGTGCGCAACGTCGATAACCTGACCATCATCACCGAAATCAACGGCCGCGAAGCGGACAGCTGGCATACCGGCGATCTGCAGCGTAACGCCGCGCAGCTGCTGAGCGCCTTGAGCGAGTTCGCCACCCTCAATCCCGGCGACGCGATCCTCATCGGTACGCCCCACTCCCGCGTTACGCTGCGTCCCGGCGATCGCGTACGCATTCTCGCCGAGGGCTTCCCGGCGCTGGAAAACCCGGTTGTCGCAGAAGGAGAGCTGGCATGA	MKGTIFAVALNHRSQLDAWREAFQQAPYKTPPKTAVWFIKPRNTVIGDGEAIPHPQGETVQSGATVALIVGKTARKVAAEEAANYIAGYALANDVSLPEESFYRPAIKAKCRDGFCPVGALSPVRNVDNLTIITEINGREADSWHTGDLQRNAAQLLSALSEFATLNPGDAILIGTPHSRVTLRPGDRVRILAEGFPALENPVVAEGELA				NA	NA	NA	NA	NA
BMS020_06184	441	farR		HTH-type transcriptional regulator FarR	ATGCATGATTCATTAACCATTGCCTTGTTGCAGGCGCGTGAAGCGGCGATGGCCTACTTTCGACCGATCGTCAAACGACACAATCTCACCGAACAGCAGTGGCGGATCGTGCGTATCCTCGCCGAACGTCCGTCGATGGACTTTCACGATCTGGCATTTCGCGCCTGTATTCTGCGCCCCAGTCTGACCGGGATTTTGACGCGCATGGAGCGGGATGGACTGGTGCTGCGGCTGAAGCCGGTTAACGATCAGCGCAAGCTGTACGTCTCGCTGACGCCTGCCGGAACCGCGCTGTACGAAAGCGCCCAGGCGGAGGTGGAAGAAACCTATCGCCTGCTGGAGGCTCAGTTCACTACGGAAAAGCTGCAGCAACTGACCTCGCTGCTGGAAGAGTTTATTGCGCTTGGCGTCCCTGCCGGGCGCGGTGATGAAGAAGAGTAG	MHDSLTIALLQAREAAMAYFRPIVKRHNLTEQQWRIVRILAERPSMDFHDLAFRACILRPSLTGILTRMERDGLVLRLKPVNDQRKLYVSLTPAGTALYESAQAEVEETYRLLEAQFTTEKLQQLTSLLEEFIALGVPAGRGDEEE				NA	NA	NA	NA	NA
BMS020_06185	444	yveA_2	COG0531	Aspartate-proton symporter	ATGGCCAGCCGATCGCAGGTGACCGCCGCCGGGCTGCGCCGCAACGCCCCGGATCTGCCGCGGCCGTTCCGCGTGCGCGCCTTCGGCATCATCGGCCCGGTGTCGTTTATGGTCTCGGCGCTGATCGTCTACTGGTCCGGCTGGAATACGCTCTCGTGGCTGCTGGGGCTGCAGATCGTGATGTTTGTGGTGTATGTGATGTGCAAAGGCAAGGTGCCGGAACATACCGTGAGCCTGGCGCAGCAGGTGAAGTCTTCGCTGTGGCTGATCGCTTTTTATGCGTTGATTATCCTCTTTTCCTGGCTGGGCAGCTTCGGCGGGCTTAATGTTATTGGTCACCCCTGGGATACGGTGCTGGTGGCGGCGATGTCGCTGGGGATTTATTACTGGGGCGCGCGCAGCTGTCTGCCGCAGGCTAATTTTAGCGGAGACGAAGAAGAGTAA	MASRSQVTAAGLRRNAPDLPRPFRVRAFGIIGPVSFMVSALIVYWSGWNTLSWLLGLQIVMFVVYVMCKGKVPEHTVSLAQQVKSSLWLIAFYALIILFSWLGSFGGLNVIGHPWDTVLVAAMSLGIYYWGARSCLPQANFSGDEEE	PGPT0000711_33	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0000711-yveA-NA	NA	NA
BMS020_06186	1017	lhpD	COG2055	Delta(1)-pyrroline-2-carboxylate/Delta(1)-piperideine-2-carboxylate reductase	ATGGGGTCGGTAACTCTATCGTTACCAGAAGCTTATGACCTGGCACTGGCGGTGCTCAGCGCCAATGGATTCAGCGCCGACCACGCGGCGGCCATCGCCCGTAACGTGGCTGCCGGGGAGCGCGACGGCTGCGCTTCCCGCGGCCTGTGGCGGCTGTTGGGCATTGTCGATACCTTGCGTAAAGGTAAGGTTTCGCCTGATGCCGAGCCGCAGATCCACGACCAGGCGCCGGCGATTGTGCGGGCGGATGCCGGGGGCGCCTTTTCGCTGCTGGCCTACGAACGCGCGCTGCCGCTGCTGCTGGAGAAAGCGCGGCACAGCGGTATTGCGGCGCTGGCGATTAACCGCTGCGTCCATTTTTCCGCGTTGTTTGCCGATATTGAACCGTTGACTGAGGCAGGGCTGGTGGGGCTGGCCTGTACGCCAAGCCATGCCTGGGTCGCCCCGGCGGGCGGCACCCGTCCGCTGTTCGGCACCAACCCTATCGCCTTTGGCTGGCCGCGGCGGGAGGAGCCGCCGTTTATTGTTGATATGGCGACCAGCGCCGCGGCGCGCGGCGAGATCCAGCTGCATCAGCGCGCCGGCAAAGCGCTACCGGAAGGGTGGGGAATCGACAGCCAGGGGCAGCCGACTACCGATGCCACAGAGGTACTGAACGGCGCGATGTTAACCTTCGGCGGCCATAAGGGCTCGGCGCTGGCGGCAATGGTTGAGCTGCTGGCCGGGCCGCTTATCGGCGATATGACTAGCGCCGAATCGCTGGCGTGGGATAACGGCGCGGGCGGTTTACCCTACGGCGGAGAACTGATTCTGGCGCTGGATCCGCAGCGTTTTCTCGGCGCGCAGGCACAGGAGCAGCTGGCGCGCGCCGAAACGCTGTTCAATGCGATGCAGGATCAGGGCGCGCGGCTGCCGGGCGAGCGGCGTTTCGCCTGCCGCCAGCAGAGTGAGCGGCAGGGGGTCGCCATCAGCCGTTCATTGCATGATGAGATTTGCGCCTTGCGCCAGGGCGGGTAA	MGSVTLSLPEAYDLALAVLSANGFSADHAAAIARNVAAGERDGCASRGLWRLLGIVDTLRKGKVSPDAEPQIHDQAPAIVRADAGGAFSLLAYERALPLLLEKARHSGIAALAINRCVHFSALFADIEPLTEAGLVGLACTPSHAWVAPAGGTRPLFGTNPIAFGWPRREEPPFIVDMATSAAARGEIQLHQRAGKALPEGWGIDSQGQPTTDATEVLNGAMLTFGGHKGSALAAMVELLAGPLIGDMTSAESLAWDNGAGGLPYGGELILALDPQRFLGAQAQEQLARAETLFNAMQDQGARLPGERRFACRQQSERQGVAISRSLHDEICALRQGG	PGPT0001796_298	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_AQUIRED_RESISTANCE|SAR	SAR-CONDITIONING_COMPOUNDS	SAR-PIPECOLATE_BIOSYNTHESIS,PGPT0001796-dpkA|lhpD-K13609	NA	NA
BMS020_06187	1221			D-threonine aldolase	ATGAAATACCATTCAGCACCGCTCATTCCGCACAAATCCGCCCTCATGTCCGCGCCGGCTAATCTCCTGGCGGAAGAGGGCTGTCTGCCTGCCGCGCTGCTAAAAAAATCGGCGCTGGAAAATAATATTTCATGGATGCAGCGCTACGCCGATGCCCGCGGCGTATCGCTGGCGCCGCATGGTAAAACGACAATGACGCCATGGATATTTCAGGCGCAGCAGCGAGCGGGAGCGTGGGGGATCGGCGTGGGCAGCGCCTGGCAGGCCAGCGCGGCGATGGCCAGCGGCATCCAGCGCGTCCTGATGGTCAATCAACTGGTCGGTAAGGCCAATATGCAGGTGGTCGCGCAGCTAAAAGCCCACTACCGGGCAGTGGATTTTATCTGCTGTGTCGATAGCGAGGCCAACGTGCGCGCCCTCTCCGCGTTCTTCGCCGCCCAGGGACAAACGCTGGATGTGCTGATTGAACTTGGCGTGCCGGGCGGGCGCTGCGGCTGTCGTAGCGTGGATGACGCGCTGGCATTGGCGCAGCGGGTCAGCGACCTGCCGGGGCTACGGCTACGCGGTCTGGAATTGTATGAAGGGGTGCTGCACGGCGACGATCCGCAACCACAGGTGGAAGCGCTATTACAACAGGCTGCAGCGCTAGCCTGCCGCATGGAGCCGCTGGTTGACGGCGAATTTATTCTCACCGGCGCGGGCACCGTCTGGTATGACGTGGTGTGCAACATCTGGCTGGCGGCGGCAAAACCGCGCCGCTGCCGTATCGTCATTCGCCCTGGCTGTTATATCACCCACGATCGCGGGATCTACGATCTCGCCCAACAAGCGCTGATCGCCCGCGATCCGATTGCCTGCGATCTCGCCGGCGATCTCACTTCAGCGCTGGAGCTGATGGCAATGGTGCAATCGGTGCCTGAGGCGGATCGCGCGGTGGTGAATTTCGGCAAGCGCGACTGCGCCTTCGACGCCGGGCTGCCGCAGCCGATCGCCCATTATCGTCACGGCAGGGAGTTAGCGCTGCGCGCTGAGTCGATCGTCAGCATCGGCATCATGGATCAGCACTGTATGCTGCGCCTGGCGCCGGGCAGCGATGTGCAGGTCGGCGATATTCTGCTGTTCGGCACCTCGCACCCGTGTCTGACCTTTGATAAGTGGAAGACGTTGCTGCTGGTCGATGACGACTACAACGTGCTGGACGAGCTCGAGACGCTGTTTTGA	MKYHSAPLIPHKSALMSAPANLLAEEGCLPAALLKKSALENNISWMQRYADARGVSLAPHGKTTMTPWIFQAQQRAGAWGIGVGSAWQASAAMASGIQRVLMVNQLVGKANMQVVAQLKAHYRAVDFICCVDSEANVRALSAFFAAQGQTLDVLIELGVPGGRCGCRSVDDALALAQRVSDLPGLRLRGLELYEGVLHGDDPQPQVEALLQQAAALACRMEPLVDGEFILTGAGTVWYDVVCNIWLAAAKPRRCRIVIRPGCYITHDRGIYDLAQQALIARDPIACDLAGDLTSALELMAMVQSVPEADRAVVNFGKRDCAFDAGLPQPIAHYRHGRELALRAESIVSIGIMDQHCMLRLAPGSDVQVGDILLFGTSHPCLTFDKWKTLLLVDDDYNVLDELETLF	PGPT0001970_1130	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0001970-dsdA-K01753	NA	NA
BMS020_06188	1440	dan		D-aminoacylase	ATGAAAGTTGACTGGCTTTTCAAAAACGTCACGGTGATCGACGGGAGCGGCGGGCCGCAATACCGTGCCGATGTGGCGGTGAAGGGCGACCGAATAATGGCTATCGCTCCGGCGCTTGACGTCGCGGCGGAGCAGGAGATAGATGGTCAAGGGCGGGTACTGGCGCCTGGCTTTATCGATGTTCACACCCATGACGATATCAACGTCATCCGCATGCCGGAGTATCTGCCTAAGCTCAGCCAGGGGGTGACAACCGTGATCGTCGGCAACTGTGGGATCAGCGCGGCAACCGCCACCATGCGCGGCGAGGTGCCAGACCCGATGAATCTTCTCGGCGAACGACAGCACTTTATCTATCCCACCGTCGAAGCCTATGCCCATGCGGTAGAGGCCGCGCGACCCTCGCTTAACGTCGGGACGCTGATTGGGCACACCGCGCTGCGCAATAATCATATGGATGACCTGTTCCGCCCGGCGAGCGAGACGGAAATCGCCGGCATGCGCATACAGTTGCGCGATGCGCTGCGCCAGGGCGCTTTAGGACTGAGCACGGGACTTGCCTACGCCAGCGCCTTCCAGTCGACCACCGAAGAAGTGATGGCGCTCGCTGAGGAGTTGACGGCAGAGGGGGGAATTTACACCACCCACCTGCGTTCGGAGTTCGAGCCGATTCTGGAGGCGCTCGACGAGGCGTTCCGCATTGGTCGCCACGGCAACGTGCCGGTGGTGGTCTCGCACCATAAGTGCGCCGGCGCGAAAAACTGGGGTCGCACGAAGGAGACGCTGGCTTTCTTCGATGAGATGCGCCAGCGCCAGGAGATCGCCTGTGACTGTTACCCCTATTCCGCCAGCTCGTCGACGCTGGATATGAAGCAGGTCACCGATGAGTTCGATATCGTCATCACCTGGTCGGAAGCACAGCCCGAGCAGGCCGGAAAAACGCTGCAGCAGATCGCCGATGAATGGCAGGTGAGCCTGCACGACGCCGCGGCGCGGCTGATGCCGGCAGGCGCTATTTATTACAACATGGACGAGCAGGACGTACGACGGGTGCTGGGTTATCCGGTGACCATGATTGGCTCCGACGGGCTGCCGAACGACCCGATGCCGCATCCGCGGCTGTGGGGCGCGTTTCCGCGGGTCCTGGGCCACTACTGCCGCGATGAACGCCTGTTTCCGCTGACTACCGCGATCCACAAAATGACCGGGCTGTCGTCGGCGCGCTTCCAGCTGGCGGATCGTGGGCTGGTAAAAGTGGGCTACTACGCCGACCTGGTGCTGTTTGACCCGCTGACGGTGCGCGATGTCGCCAGTTTCTCCGACCCGAAACGTCCGGCGGACGGTATTGAGGCGGTGATGGTTAACGGCGTGATGAGCTACGGCAGCGACAAAAAGATTATCGGGCGCGCGGGGCGTTTCCTGCGCCGCCGAATGAACTGA	MKVDWLFKNVTVIDGSGGPQYRADVAVKGDRIMAIAPALDVAAEQEIDGQGRVLAPGFIDVHTHDDINVIRMPEYLPKLSQGVTTVIVGNCGISAATATMRGEVPDPMNLLGERQHFIYPTVEAYAHAVEAARPSLNVGTLIGHTALRNNHMDDLFRPASETEIAGMRIQLRDALRQGALGLSTGLAYASAFQSTTEEVMALAEELTAEGGIYTTHLRSEFEPILEALDEAFRIGRHGNVPVVVSHHKCAGAKNWGRTKETLAFFDEMRQRQEIACDCYPYSASSSTLDMKQVTDEFDIVITWSEAQPEQAGKTLQQIADEWQVSLHDAAARLMPAGAIYYNMDEQDVRRVLGYPVTMIGSDGLPNDPMPHPRLWGAFPRVLGHYCRDERLFPLTTAIHKMTGLSSARFQLADRGLVKVGYYADLVLFDPLTVRDVASFSDPKRPADGIEAVMVNGVMSYGSDKKIIGRAGRFLRRRMN				NA	NA	NA	NA	NA
BMS020_06189	393	rutC_4		Putative aminoacrylate peracid reductase RutC	ATGAGTATTAAACGTTATGGCGTAGAGGGCGGTACCGGTACCGGCGGGCAGCACCTGCCGTTCGCGCGGGCGGTGGAAGCGGGAGGCTGGCTGTACGTCTCCGGCCAGACGCCGATGAAGGACGGGGAAGTGGTGGAAGGCGGGATTGTCGACCAGTCGCGTCTGGCGATTCAGAACTGCGTAGATATCATGACCGAAGCGGGCTACACCCTGGCCGACGTGGTGCATGTTAAAGTGATCCTCACCGATGCGCGCTATTTTCAGTCTTTCAATAAAGTCTTCCGCGAGTTCTTTGGCGACAACCCGCCTGCCCGCATCTGCTGCGTAGCGGACCTGGTGGTGGATTGTAAAGTCGAAGTGGATGTGACCTGTTATAACGCTTCTCGCGCATAA	MSIKRYGVEGGTGTGGQHLPFARAVEAGGWLYVSGQTPMKDGEVVEGGIVDQSRLAIQNCVDIMTEAGYTLADVVHVKVILTDARYFQSFNKVFREFFGDNPPARICCVADLVVDCKVEVDVTCYNASRA	PGPT0020030_4690	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
BMS020_06190	1485	sglT_1		Sodium/glucose cotransporter	ATGAATAGTCATGTCTTTTTAGTCGGCTTTATTATTTACGCGTTGGCCATGATTTGGCTTGGCTGGTACGTGTCCCGTCATCAAAAAAGCGGTGAGGATTTTTTACTCGGCGGCCGTTCTTTGCCGCTGTTCCTGACGCTGGGGTCTACCGTGGCGACCATGGTGGGAACCGGTTCAAGCATGGGCGCTGTCGGCTTCGGCTACAGCAATGGATGGGCCGGGATGCTCTACGGCGTGGGCGGCGCCATCGGTATTTTACTGGTGGCCTGGCTGTTTGCGCCGGTGCGCAAGCTACGCTTTATGACCATGAGCGAAGAGCTTTCTTATTACACTGGTGGCAGCCATTTAATTAAAAACCTCGTCGGGATAATGATATTTATTGCCTCAATTGGCTGGCTGGGGGCGCATATTCTTGGCGGGAGTATGTATTTAGCCTGGGCGACAGGAATTAATCTGACGGTGGCAAAAATTATTATTGCCATGGCGTTTGCGATTTACGTCATTATCGGCGGTTATTCTGCTGTGGTGTGGACAGACACCATTCAGGCATTAATTCTGTTTTTCGGTTTTATCCTGATGGCGATTCTGGCGGTGGTTCACGTCGGGGGATGGGATGCCATCGTTCAGGCAATGGATCCCAAGGCGATGAGCCTGTTTGCGGTCGATAAGTTGGGGACCATTCCGGCGCTATCGCTGGCGATGGTCATCGGCGTCGGCGTGCTGGCGACCCCTTCCTATCGCCAGCGTATTTACTCGGGAAAAGACGTCTCTTCGGTGCGGCGCTCGTTTGTCTATACCGGCGTGCTGTATCTGTTTTTCTCGGTGCTGCCGGCGATCATCGGCATGGCGGCCTGGACGATGAACCCCAATCTTGAGAACAGTAACTACGCCTTCCTGTTCGCCACCAGCTTCTTACCGGCGATCCTCGGGCTGGTGGTCCTGATTGCCGGACTTTCCGCCACCATGTCTTCGGCCAGCTCCGATGCGATAGCCGCCGTGGCCATCATGATGCGGGATGTCTACACCCTTGTTACCGGAAAAATGCCGCCGGCGCATAAGGCGATAACGCTCTCTCGCTGGATGCTGGCGTTCGTCATCGGCCTGGCGATGATCTTCGCCCTGACCTCGAACGATATCATCAGCTATATCACCAAAATGATCTCCATGCTGATGTCCGGGCTCTTCGTCTGTTCCATTCTCGGCCGCTTCTGGCTGCGCTTTAACTGGCAGGGGGCGCTCACCGCGCTGCTGAGCGGCATGCTGGTGTCTATTGTGGTTCTGGTTAAGGCCGACTGGCTGGCTTACTGGGGCAATCCGTGCATTCCGTCGGTCGTTGGCAGCTTTGTTTCCGCTATTTTTGTCACCGTCATGACGCCAGCCAGCAAAATCAGCCGTCAGCAGGCGCTGGAAATGATTACCCAGGAGCGGGAAGGGGAGGCGATCCCGGCGAAGACGGCGGTGCAGGTCTCAGGAGAAGCACAATGA	MNSHVFLVGFIIYALAMIWLGWYVSRHQKSGEDFLLGGRSLPLFLTLGSTVATMVGTGSSMGAVGFGYSNGWAGMLYGVGGAIGILLVAWLFAPVRKLRFMTMSEELSYYTGGSHLIKNLVGIMIFIASIGWLGAHILGGSMYLAWATGINLTVAKIIIAMAFAIYVIIGGYSAVVWTDTIQALILFFGFILMAILAVVHVGGWDAIVQAMDPKAMSLFAVDKLGTIPALSLAMVIGVGVLATPSYRQRIYSGKDVSSVRRSFVYTGVLYLFFSVLPAIIGMAAWTMNPNLENSNYAFLFATSFLPAILGLVVLIAGLSATMSSASSDAIAAVAIMMRDVYTLVTGKMPPAHKAITLSRWMLAFVIGLAMIFALTSNDIISYITKMISMLMSGLFVCSILGRFWLRFNWQGALTALLSGMLVSIVVLVKADWLAYWGNPCIPSVVGSFVSAIFVTVMTPASKISRQQALEMITQEREGEAIPAKTAVQVSGEAQ	PGPT0013955_3930	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013955-TC_SSS|yerK|opuE-K03307	NA	NA
BMS020_06191	873	dgoK1_1	COG3734	putative 2-dehydro-3-deoxygalactonokinase DgoK1	ATGAAGGATTATATTGCCGTCGACTGGGGCTCTACCCAGCTGCGCGGCTGGCTGATTCGCAACGGCCAGTGCGTCGAAACGAAGCAGCTGCCGCTGGGTATTACCCGCCTGAACGGACGATCGCCTGCCGATGTATTCGCGGAGCATTTGGCCCCCTGGCGCGGCGCACAGGCGCTGCCGGTGCTGATGGCCGGGATGATCGGCAGCGACGCGGGCTGGCAGGCGGTGCCGTATCTGGACTGTCCGGCGGCGATCGACGCGCCCGGGCGGCAGCTATGCGCCGTTGCTGAAGGCGTGTGGATTATTCCCGGCCTCAAGATTGAACAGGACGGGGATTTCAACGTGATGCGCGGCGAAGAGACGCAGCTGCTGGGGGCCTGCCAGCTGGCGCCGGCGGAGTGTTACGTGCTGCCGGGCACCCACTGCAAATGGGTCCAGGTGGCGGGCGGCGCGGTGCGTCATTTTGCCACGGCGATGACCGGCGAACTGCATCATCTGCTGATGACGCAATCGCTGATCGGCAAAGGGCTGCCTGCCCAGCAGCCGGACGAGGCGGCGTTTGAACGGGGGCTGGAAAAAGGGCTGGCGCAGCCGTCGCTGATTAGCGAACTGTTTGTCGCCAGGGCCGCCCGGGTGCTGGGCGGTCTGGCGGCGAGCTCGGTCAGCGATTACCTCTCCGGGCTGCTGATTGGCGCGGAGGTAGCGACCCTGGGGCAGCGTTTCCGTGCTTCTGCCGTCACGCTGGTTGGCGACCCGGCGCTGAATGCCCGCTACGGTCGGGCGATGAAGGCGCGCGGAATGACGGTTAACAGCTGCAGTGGCGATGAGGCATTGCTGGCTGGCATGGCGAGGATAATGCATGAACAAGATTAA	MKDYIAVDWGSTQLRGWLIRNGQCVETKQLPLGITRLNGRSPADVFAEHLAPWRGAQALPVLMAGMIGSDAGWQAVPYLDCPAAIDAPGRQLCAVAEGVWIIPGLKIEQDGDFNVMRGEETQLLGACQLAPAECYVLPGTHCKWVQVAGGAVRHFATAMTGELHHLLMTQSLIGKGLPAQQPDEAAFERGLEKGLAQPSLISELFVARAARVLGGLAASSVSDYLSGLLIGAEVATLGQRFRASAVTLVGDPALNARYGRAMKARGMTVNSCSGDEALLAGMARIMHEQD	PGPT0018080_1017	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018080-dgoK-K00883	NA	NA
BMS020_06192	600	dgoA_1	COG0800	2-dehydro-3-deoxy-6-phosphogalactonate aldolase	ATGAACAAGATTAAGCTGGTGGCGATTTTACGCGGCATTCAACCCGCTGAGGCGGCAGATCATATTGAGACGCTAATCAATGCAGGCTTTCGCTATATCGAAATCCCGCTCAATTCGCCAGACTGGCAGCAGAGTATTCCGCAGATGGTTGCGCGGTTTGGCGAGCAGGCGATGATAGGCGCGGGAACGGTACTGCGCGTGGAACAGGTCGATTTTCTCGCTGAGGCCGGGGCGAAGCTTATCGTGACGCCGAATACCCAGCCTGCGGTGATCCGTCAGGCAGTGGCGCACGGAATGCAGGTTTGTGCCGGATGCGCCACCGCGACTGAGGCGTTTAACGCGCTGGATGCCGGGGCGCAGTGGCTGAAGATATTTCCGTCTTCTGCTTTCGGTCCGGACTACATTCGGGCGCTGAAAGCGGTGCTGCCGTCGGAGGTGCCGGTGCTGGGGGTGGGCGGCGTGACGCCGGAAAATCTGGCAACCTGGATGCGGGCTGGGTGCGCCGGAGCCGGCCTGGGCAGCGATCTGTATCGCGCCGGACAGGCCGTGGAACGTACCCGCCTGCAGGCGGAGAGGTTTATCGCCGCTGCCGGTGGCTAG	MNKIKLVAILRGIQPAEAADHIETLINAGFRYIEIPLNSPDWQQSIPQMVARFGEQAMIGAGTVLRVEQVDFLAEAGAKLIVTPNTQPAVIRQAVAHGMQVCAGCATATEAFNALDAGAQWLKIFPSSAFGPDYIRALKAVLPSEVPVLGVGGVTPENLATWMRAGCAGAGLGSDLYRAGQAVERTRLQAERFIAAAGG	PGPT0018075_853	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018075-dgoA-K01631	NA	NA
BMS020_06193	864	hexR_3	COG1737	HTH-type transcriptional regulator HexR	ATGTCCTGGTCAATCGATATCATTTCCTGCATTACCGATCGCTTTGTGGAACTCACGGCGACCGAAAAGCGCATCGCGCAGTTTATTCTCGATGATGTCGCGGCGGCGGCGGAGCTACCCATCGCCGAGATAGCGCGTCTGACTCAGACCAGCCAGGCGTCGGTCACCCGTTTTGCCCGGGCGCTCGGCTGTAAAGACGTCCGTGAGCTGAAGATGAAGCTTGCGCAATCCCTTGCGGTCGGCCAGCGGTTTATCCTCGATGTTCCGGACCTCGAAGGCGTACAGGGGATCTATGAGTCAATCATCAGCGTGCTGGAGACCAATCGCCGGGCGCTGGATATCGAGGCGTTGAAGCGTGCGGTGAGCTGGTTGAGTGCAGCGCGGCAGATCCTCGCCCTTGGAATGGGCGGCGGGTCAACCATCTGCGCTCAGGAGATTCAATATCGCCTGTTTCGTCTTGGTCTTCCGGTCGTCAGTCAGAGCGACGGTCTGCTGGTACGCATGATGAGCTCGGCGGTGACGCCGCAGGATGTGGTGATTGTGCTGTCTCTGGGCGGCTATACCCCGGAGATCATCGAGAGCGCGGCGATTGCCAGCCAGTACGGCGCGAAGGTCATTGCGATTACCCCCGCCGGGACGCCGCTGGCTGAGCAGGCGGATCTGGTGCTGCCGCTGCTGGTGCGGGAAAACGACTATATCTTCAAGCCCAGCACTTCGCGTTATGCGATGCTGGCGATGGTCGATGTGCTGGCCACCGAACTGGCGATGGCCAACAAAACTCAGGCAAAAGGCAAATTACGTCGTATTAAGCTGGCCCTCGACAGCCACCGCGGCGGCGTCGATCGCCAGCCTCTTGGCGACTAG	MSWSIDIISCITDRFVELTATEKRIAQFILDDVAAAAELPIAEIARLTQTSQASVTRFARALGCKDVRELKMKLAQSLAVGQRFILDVPDLEGVQGIYESIISVLETNRRALDIEALKRAVSWLSAARQILALGMGGGSTICAQEIQYRLFRLGLPVVSQSDGLLVRMMSSAVTPQDVVIVLSLGGYTPEIIESAAIASQYGAKVIAITPAGTPLAEQADLVLPLLVRENDYIFKPSTSRYAMLAMVDVLATELAMANKTQAKGKLRRIKLALDSHRGGVDRQPLGD	PGPT0017985_702	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
BMS020_06194	534			hypothetical protein	ATGAAAACTAACACTATAACTGCCGGCGCCGGATTACGCCTGACCGAGGAGAGTGATATCGCCCTTCTGCCGGCCATTGAACGTTCCGCCGCTCAGGCATTTCGTCAGATCCCCGCTCTCGCCTGGCTGGCGGACAGCGAGGTGATTAGCGTTGCGCGCCATCATGATTATCTGGAAACGGAACATAGTCTGCTGGCGGTGGCCGCCGGGCAGCCGGTTGGTTTTATTCTTACCGAACCGCTCGACGATGCCTTATTTATCGCCGAAATCGCCGTCCACCAGGCCTGGCAGCATCAGGGCATCGGGCGGATGCTGCTGGAGCAGGTTATCGAGCGCGCCCGGCAAATGGCTTACCCGGCGGTGACCCTCACCACCTTCCGCGAAGTGCCGTGGAATGCGCCGTTTTATACCCGCCTGGGATTCGCCATCCTCGATGAGCTGACCCTGCCCGCCGGGCTGGCGGCGAAAAGAGAACAGGAGACCCGGCACGGCTTGCCGCCGGAGACGCGCTGCGCCATGCGCCTGGCGTTGTAG	MKTNTITAGAGLRLTEESDIALLPAIERSAAQAFRQIPALAWLADSEVISVARHHDYLETEHSLLAVAAGQPVGFILTEPLDDALFIAEIAVHQAWQHQGIGRMLLEQVIERARQMAYPAVTLTTFREVPWNAPFYTRLGFAILDELTLPAGLAAKREQETRHGLPPETRCAMRLAL	PGPT0007605_21	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007605-ispE-K00919	NA	NA
BMS020_06195	831	mshD		Mycothiol acetyltransferase	ATGGAGCTGACCGCCGTTCCCGCCACGCAGTTCAGCAGCGTGCAGTTAACGGATATTCTTAACGCCTGTTTTGAAGCCTATCTGGTACCGGTGACCCAGTCGGTGGAGGGATTTGTTCAGCGCTTTAGCGCCGAGGGGATGAGCCTGATCGATTCCCGCGTCTGGCTGGCCGGAGATGAACCGGCGGCGATCGCGATCGTCGCGCGTCGGGGGAATATGGCTCGCCTGGCGGCCTTTGCCCTGCGCCCGGCCTGGCGCGGCAAAGGTCTTGGGCGGAAATTGATGCAGGAGCTGCTGACGTTTCTGCAGCAGCAGGAGATCGAGACGGTTTCCCTGGAGGTGATCCGCGATAACCACGCGGCCGTCGCGCTGTATCAGTCGTTAGGCTTTACGCGGCGCTATGGGCTCTGCGGCTACCTGAGCGCAGAGCCTCTGGCTGCGGCGCCTGGCGTGTTACAGCCTTATCCGATCCTGGCACTGCTTCGACGCGCCGTTGAGGAGAGTAACAGTCAGCTCCCCTGGCTGATGGATCCGCTTACCTTCGCCACCCTGCCATGCCGCGTCGTGACCCTGGAACAGCGCGCCTTCGCGGTACTGAGCACCTCGGGCTCACGGCCTGTACTGCAGTTTTTATGGGTGGAACCCGCCGCCCGTCGCCAGGGGCTGGCGCAAGCGCTGCTGATGGCGCTGGCGCAGCAGTTCCCGGGGATCGGCACGTCGGTGACGGTCCCGGAAACCTTTACGCCGCTGTTTGCCGCGGCGGGGTATGCGCCGCTATCGCTGCAGCAGTATGAAATGATGATGGAGTGTGCCGCAGCGAAGTCCGCTTAG	MELTAVPATQFSSVQLTDILNACFEAYLVPVTQSVEGFVQRFSAEGMSLIDSRVWLAGDEPAAIAIVARRGNMARLAAFALRPAWRGKGLGRKLMQELLTFLQQQEIETVSLEVIRDNHAAVALYQSLGFTRRYGLCGYLSAEPLAAAPGVLQPYPILALLRRAVEESNSQLPWLMDPLTFATLPCRVVTLEQRAFAVLSTSGSRPVLQFLWVEPAARRQGLAQALLMALAQQFPGIGTSVTVPETFTPLFAAAGYAPLSLQQYEMMMECAAAKSA				NA	NA	NA	NA	NA
BMS020_06196	2766	norR_2		Anaerobic nitric oxide reductase transcription regulator NorR	ATGCGTAAAACGGAACTGTTGGCTTTTTTGCAAAATCAGACCGATTTTTTCGATCCGGATCACCTGAGCGACGTTTTTACCGCCAGCTGGCTGGCTCAGCGTTTCGCGATGCAAAGAAATACCGCCAGCCACTATCTCAATCAGCTGGTCGCCCAGGACGTGCTGGTGAAGATCAACACCCGGCCGGTCTATTTTCTGCATAAAAAAGCCTTCTGCCAGCAGTTCTTCCCCCTTTCCCGCAGCGAGTACGCCAGCATGGCGGAGCTGCTCGCGGAGAGTGACCGCCAGCCGGAACAGGCGGACCATTTTTCGTTGCTGACCGGGCATGACGGCAGCCTGCGTAAACCGATCGAGCAGATGAAAACCGCGCTGTTTTATCCCAACGGCGGCCTGCCGCTACTGATCGTCGGCGACAGCGGAACCGGCAAAAGCTATATGGCGGAGCTGATGCACGAGTTCGCGATCGCCCAGGGCCTGCTGGCGCCCGATGCGCCCTTTGTCAGCTTCAACTGCGCGCAATATGCCAGTAACCCGGAGCTGCTGGCCGCCAACCTGTTTGGCTATGTCAAAGGCGCGTTTACCGGCGCGCAGAGCGATAAAGCCGGGGCGTTCGAGGCGGCAAACGGCGGGATGCTGTTTCTCGACGAGGTCCATCGACTGGATGCTCAGGGGCAGGAGAAGCTCTTCACCTGGCTGGACCGCAAGGAGATCTACCGGGTGGGAGAGACCGCCCATGGCCTGCCGATTTCCCTGCGGCTGGTGTTTGCCACCACCGAAGATATTCACAGCACGTTTCTGACCACCTTTCTTCGTCGTATTCCGATCCTGGTCAGCTTGCCCGATCTTCAACAGCGCAGCCGCGAGGAGAAGGAGGCGCTAACGCTGCAGTTTTTCTGGCAGGAGGCGCGGACGCTTGCCGCCAGGCTGCAGCTCACGCCGCGGCTTTTGCAGGTTCTGACGCAGTACGTTTATCGAGGCAACGTCGGCGAGCTGAAGAATGTGGTGAAGTACGCCGTTGCATCGGCCTGGGCCAGGTCTCCGGGCAGCGAGATGCTGACCGTGACGCTGCACGATCTGCCGGAAAATATCATGGCGGCGACGCCGGCGCTCAGTGAAGCCATGGGCCAGAAGGAGCCGCTGCTTATCGAGCCGCAGACCAGCCTGGTCTGGCTGCTGCGGGCGCGCGATCCGGTTCAGGGGCTGATCCATGACGTTCAGTGTCGGATTCTGGCGCTGTATGAAGCAGTGCTAAATAAAAAAACGGTCTGGGAAGAGGCGCAAAGAAGCATGGGGGAGGAGATTGAAACCCTCTTCGATCGGCTGATCTTTGATAACCAGGATGCCAGTAGCTCGCAGATGTTGCTGCTGATCGCCCATCAGGTGCGGGAGGAGTATTATCGCCTGGAAAAACGCTTCAATATCCAGTTTAACGGCAACTGTCTCTACGCCCTGAGCCACTACCTGATCCATCGCTCCCGTCAGGCGGCGTCCACGATGAGCAATGAGAAAATCCGTCTGCTGGCGGATTTTCTGGCAAACAAATTCCCGCTGCTGTATCGCTTTTGCGAAGCGATCCTCGACGCGCTGGCGTTGAAGCTGGATATTGAGCCCCGGCGTATTGACCTGCTGTTGCTGGTGCTATGGTTCCAGAAAAACGGCGCAATCAGCCAGCAGCAGGTGACCCGCGCGATTATTCTCGCTCACGGTTACGCCACCGCCAGTAGCATCGCCAGCGTGGCGAACCGCTTGCTGAAAAGCCCGCTGTTTGAGTCATTCGACATGCCGCTCGACGTGACGCCGGAGGCTATCGCTAATCAGGTGATGGCGTATATTGAGCGCCACGCGCTGGCTTCAGGGCTGATCATTCTGGTCGATATGGGATCGCTGAACGCTATTCACAGCCATTTTAATCGTCGCCTGAATACGCCGGTGGCGATTATTAACAATGTCTCCACCGGCATGGCGATGTACGTCGGGGAGCGGATTTTACACGGCGATATGCTGGAAGATATCGTCCGCGAGATCGGCGACGATCTGGCGGTTGAGCACCAGCTCTATTACCCGCAGACCGATAAACCGCGGGCGATTTTGACCACCTGCGCCACCGGTCTGGGCGCTGCGGCGAACCTGTCGGCGCTGTTAAAAGCCAGCATCCCTGAAGCGCTCGGCGTTGATATTGTAGCCTGCGATGTGGAGACCCTGGCCGACCCCGCGCGGCGGGAGCCGATGCTCAGCCGCTACGACGTGCTGGCGATCGTCGGCACCCTCGATCCGCATCTTGCCGATCTCCCGTGGATCTCGCTGGATTCGCTGATCTCGGGGGAGGGAAGTCGCCCGCTAATGCGTATCTTCGGCGAACTGGCGACAGCGGAGCAGGTCAGTGAGATCAACAACCTGATCCTGAAAAACTTCTCGCTGCGGCGGGTGATCGAGTCGGTGACGATCCTCGATACCGCGAAGGTGATCAACCAGGTTGAGCAGTTTTTGCTGCGCTATGAGCATTTGGCCGGGTACGAGGTGCCCAACGAACGTAAGGTGGCGCTGTATGTGCATATCAGCTGTCTGATAGAGCGGTTAATTCGCCACGCTTCCCCAACCCATTATGCGGGAAGGCAGTGTCCGGAGCGCGAGCTGGCGACGCTGCGCGAGGCCTTTAGTGTCATAGAGAGCGGATATAGTGTCAAAATCCCCGCCGTAGAACTGTACTACATTCACGATATTCTGACGCGGGAAACGGAATTTATTCAGGAAGATCAAGAGTTTTAA	MRKTELLAFLQNQTDFFDPDHLSDVFTASWLAQRFAMQRNTASHYLNQLVAQDVLVKINTRPVYFLHKKAFCQQFFPLSRSEYASMAELLAESDRQPEQADHFSLLTGHDGSLRKPIEQMKTALFYPNGGLPLLIVGDSGTGKSYMAELMHEFAIAQGLLAPDAPFVSFNCAQYASNPELLAANLFGYVKGAFTGAQSDKAGAFEAANGGMLFLDEVHRLDAQGQEKLFTWLDRKEIYRVGETAHGLPISLRLVFATTEDIHSTFLTTFLRRIPILVSLPDLQQRSREEKEALTLQFFWQEARTLAARLQLTPRLLQVLTQYVYRGNVGELKNVVKYAVASAWARSPGSEMLTVTLHDLPENIMAATPALSEAMGQKEPLLIEPQTSLVWLLRARDPVQGLIHDVQCRILALYEAVLNKKTVWEEAQRSMGEEIETLFDRLIFDNQDASSSQMLLLIAHQVREEYYRLEKRFNIQFNGNCLYALSHYLIHRSRQAASTMSNEKIRLLADFLANKFPLLYRFCEAILDALALKLDIEPRRIDLLLLVLWFQKNGAISQQQVTRAIILAHGYATASSIASVANRLLKSPLFESFDMPLDVTPEAIANQVMAYIERHALASGLIILVDMGSLNAIHSHFNRRLNTPVAIINNVSTGMAMYVGERILHGDMLEDIVREIGDDLAVEHQLYYPQTDKPRAILTTCATGLGAAANLSALLKASIPEALGVDIVACDVETLADPARREPMLSRYDVLAIVGTLDPHLADLPWISLDSLISGEGSRPLMRIFGELATAEQVSEINNLILKNFSLRRVIESVTILDTAKVINQVEQFLLRYEHLAGYEVPNERKVALYVHISCLIERLIRHASPTHYAGRQCPERELATLREAFSVIESGYSVKIPAVELYYIHDILTRETEFIQEDQEF				NA	NA	NA	NA	NA
BMS020_06197	423			hypothetical protein	ATGAAACGACACTATATTTTTGCCAGCCACGGCACCTTTGCTAACGGTTTGTTGAACTCTGTGGAGCTGATCCTCGGTAAACAGCCGGATATTCATACTCTGTGCGCCTATGTGGAAGAGGAGGTCGATCTGACGCAGCAGGTGGAGGCGCTGCTGGCGCGTTTCCCGGCGCAGGATGAGCTGATTGTGATTACGGATATTTTCGCCGGTAGCGTGAATAATGAGTTTGTGCGTTTTTTATCGCGCCCGCACTTCCATTTATTGTCCGGGTTAAATCTACCATTAATTATTGATCTGCTTATTTCTACAGCGGAAGAGAATACCGAAAAATTAATTTCTGAAGCATTAATCAACGCCAAAGAGAGCATTCAGTACTGCAATCAGACTATTGCCGGGGCGATGACTATGGATAAAGACTTCTGA	MKRHYIFASHGTFANGLLNSVELILGKQPDIHTLCAYVEEEVDLTQQVEALLARFPAQDELIVITDIFAGSVNNEFVRFLSRPHFHLLSGLNLPLIIDLLISTAEENTEKLISEALINAKESIQYCNQTIAGAMTMDKDF	PGPT0016885_56	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_FRUCTOSELYSINE|GLUCOSELYSINE_PTS_SYSTEM,PGPT0016885-gfrA-K19506	NA	NA
BMS020_06198	471			putative phosphotransferase enzyme IIB component	ATGATTACGTTATTAAGGGTTGACCATCGATTACTTCACGGCCAGGTAGCCTTTTCCTGGACCCAATATGTCGGCGCCGATTGTATTTTAATCGCCAACGACAGTGTCCCTGAGGATGAACTGCGGAAAACCACCATTAAGCTAGCTAAACCACCCTCGGTGAAGCTGGTGATTAAAAATATAAATGACTCAATTGAGGCGATAAAAAGCGGGGTTACCGATAAATATAATTTATTTATTGTTGTGGAATCGGTCAATGACGCCTGGCGTATTGCCAGCGCCGTTGAGGACATAAAAAGTATTAATCTCGGCGGGATTAAGGCCAAAGAGGGCAGTAAAAATATCTCTAAGGCGATTAATTTATTGCCGGAGGAAATAGAGCAGTTGCAACAACTGGTGGGCAAAGGCGTCGAGGTGGAGATTCGCCAGGTCCCGAACGATCGCAAACAGCTTTTTACGGAATGCGTGTGA	MITLLRVDHRLLHGQVAFSWTQYVGADCILIANDSVPEDELRKTTIKLAKPPSVKLVIKNINDSIEAIKSGVTDKYNLFIVVESVNDAWRIASAVEDIKSINLGGIKAKEGSKNISKAINLLPEEIEQLQQLVGKGVEVEIRQVPNDRKQLFTECV	PGPT0016890_166	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_FRUCTOSELYSINE|GLUCOSELYSINE_PTS_SYSTEM,PGPT0016890-gfrB-K19507	NA	NA
BMS020_06199	780	agaC	COG3715	N-acetylgalactosamine permease IIC component 1	ATGGTAGAGGCTCTCTTACTGGGTCTGGTGGCGTTTATCGCGCAATCGGAATATGCCTTAGGGACGTCGCTGATTTCCCGGCCTATCGTCACCGGGCTACTGACCGGTCTGGTGCTGGGGGATGTGCAGACCGGCGTCATTATGGGCGCGACGCTGGAGCTGGCGTTTATCGGTTCGTTCTCCGTTGGCGCCTCGATCCCGCCCGACGTGGTGACCGGCGGTATTCTCGGCGTGGCGTTCGCCATCACCTCCGGCGCGGGCACGGAAACGGCGCTGTTGCTCGGCCTGCCTATCGCCACCCTGACCCTGATCCTGAAAAACGTTTATCTGGGGATGTTTATTCCGCTGCTCAGCCAGAAAGCGGACGGCTATGCGGAACGGGCGGATACGCGCGGCATTGAGCGGATGCATCTGATTGCCGGATTCGGCCTGTCGCTGATGCTTGCCACGGTGGTGACCGTCTCATTCCTGGTGGGCAGCAACGCGGTGAAATCCCTGCTCGATACGATCCCGGAATTTATTAAACACGGACTCAGCGTGGCCACCGGGATCATTCCGGCTCTCGGCTTCGCGATGCTCGCCAGGTTGCTGATTAACAAGAAGGTGGCGCCGTACTTTTTCCTCGGCTTTGTACTGATGGCCTATTTGAAAATCCCGGTGACCGGTATCGCCATTCTCGGCGCCATCGTGGCGGTGGTGATGGTTAACGTCACCGCATTGAGCGCACCTCGTACCACGACAGAACAAGGAGTCAGCGATGACGACGAAGATGATTTCTGA	MVEALLLGLVAFIAQSEYALGTSLISRPIVTGLLTGLVLGDVQTGVIMGATLELAFIGSFSVGASIPPDVVTGGILGVAFAITSGAGTETALLLGLPIATLTLILKNVYLGMFIPLLSQKADGYAERADTRGIERMHLIAGFGLSLMLATVVTVSFLVGSNAVKSLLDTIPEFIKHGLSVATGIIPALGFAMLARLLINKKVAPYFFLGFVLMAYLKIPVTGIAILGAIVAVVMVNVTALSAPRTTTEQGVSDDDEDDF	PGPT0016895_112	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_FRUCTOSELYSINE|GLUCOSELYSINE_PTS_SYSTEM,PGPT0016895-gfrC-K19508	NA	NA
BMS020_06200	852	manZ_2	COG3716	PTS system mannose-specific EIID component	ATGACGACGAAGATGATTTCTGAAGAGACCCTGCAGCCGCAGGAGCAGGAAGAAGCGCGAATTACGCCGCGTGATTTACGCCGGGTGTTCTGGCGCTCCTTCCAGATGGAGTTCTCGTGGAACTATGAGCGACAGATGAATCTCGCCTTTGTTTACGCGCTGATCCCGGTGCTGAAGAAGCTCTATCCGCGCAAAGAGGAACTGGCCGGGGCGCTGAAACGCCATCTGGTGTTCTTCAATACCACGCCGCATATCGTCACCCTGCTGCTGGGGATCACGACGGCGATGGAGGAGAAAAACAGCCAGCAGAAAAATATGGATGCCAACGCGATTGATAACGTCAAAGCCTCGCTGATGGGTCCTCTGGCCGGGCTGGGAGACTCCTTCTTCTGGGGAACGCTACGCCTGATCGCCACCGGCATCGGCACCAGCCTGGCGCTAAAGGGCAATATTCTCGGGCCGATCCTGTTTCTGCTGGTGTTTAACGTGCCGCACATTCTGGTGCGCTGGTGCTTTACCCGCTGGGGCTACGTGCTGGGCACCGGGGTGCTGCAGCGGATCCAGAAGAGCGGAATGATGGAGAGCCTGACCTACGGGGCGTCGATTATCGGCCTGATGGTGGTCGGGGCGATGACCGCCTCAATGATCGATATCACCATCCCTGTCTCCTTCGGGGCCGGGGAGGCCAAAACTCAGGTGCAGGACATCATCAACGACATTCTGCCCTGCATGCTGCCGCTGGTGAGTTTCGGCATCGTCTACTGGCTGCTGGGGCGGAAGGTTAAACCGCTCTCTATTATCGGCGGAATGGCGCTGGTGGGCATTCTGGGTTCGTGGATCGGATTGTTTTAA	MTTKMISEETLQPQEQEEARITPRDLRRVFWRSFQMEFSWNYERQMNLAFVYALIPVLKKLYPRKEELAGALKRHLVFFNTTPHIVTLLLGITTAMEEKNSQQKNMDANAIDNVKASLMGPLAGLGDSFFWGTLRLIATGIGTSLALKGNILGPILFLLVFNVPHILVRWCFTRWGYVLGTGVLQRIQKSGMMESLTYGASIIGLMVVGAMTASMIDITIPVSFGAGEAKTQVQDIINDILPCMLPLVSFGIVYWLLGRKVKPLSIIGGMALVGILGSWIGLF	PGPT0016900_39	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_FRUCTOSELYSINE|GLUCOSELYSINE_PTS_SYSTEM,PGPT0016900-gfrD-K19509	NA	NA
BMS020_06201	1062	glmS_1	COG0449	Glutamine--fructose-6-phosphate aminotransferase [isomerizing]	ATGCGACCAACAATGATGACCTATATCAGCGAAGAGCCGGCCTGTCTGGCGCAGATCCTGCGCGACTACCGGCGCAAGCTGGCGGCGATTGAGACCTTCGCCCGCCAGCAGCCGGTGCGGCGTATTTTGCTGCTGGCGACCGGATCGTCGCTGAATGCCGCGCTTTGCGCGCGCTATTTCTTTGAACAACGCTTTGGCGTGCTGGTGGACATAAAAGAGCCGTACAATTTTACCCATTACGAAACTATCGACCCGCATACCGATCTGGTGGTGGCGATTTCACAGAGCGGAAAAAGCGCGTCGACGCTGGAGGCGATGCGTAAGGTACAGGCCTCAGGACTGCCGGTATTTGCCCTGACCTCCGATCCGCAAAGCCCGACCGGGCGGGCCTGCGATGGCGTTCTGGATATCAATACCGGGATCGAGAGCGTAGGGTTTGTCACCCGCGGCTTTAGCGCGACAGTGCTCAATCTGCTGCTGATAGCGCTGATGATTGCTCGCAGCCAGGGGAAGGCCAGTGAAGCCGAGGAGCAGCACTATCTTGCCGAATTCCAGCGACTGGCGGCGGCGATCCCGGAGGTCATCGCCCGCACTTCGCGCTTTATCGACCAGCATAGCGAAACGCTGCGGCGCGGCGAGCGCTTTGTCGCCACCGGCTATGGCGCGCTGGTTGGCGTGGCGAAAGAGTTCGAAACCAAATTTACTGAGACGGTGCGGGTACCTTCCAGCGGCTTTGAGCTGGAAGCCTATATGCACGGCCCCTATCTGGAAGCCAATGCCCGCCATGTGATGCTGTTTATGGAAGACTCGCCGGACGCGCGAACCCGGGCGCTGCGCGACTATATGGCGCCGTCCATTGCCCGCGCCTTTACCCTGACGCTGGGGGACGAAGAGGATGAACAAACGCTGGCGCTTAACTGCCCGTGCGAGCATCACCTGGCGCCGCTGCTGCTGATTGTCCCAGTGCAGATGCTCGCCTGGCATACCGCCGGGCTAAAAGGCATCGATCTGGCGATACGTATTTTCGACGATTTTGACCGCGTATTAAAAAGTAAAATCTGA	MRPTMMTYISEEPACLAQILRDYRRKLAAIETFARQQPVRRILLLATGSSLNAALCARYFFEQRFGVLVDIKEPYNFTHYETIDPHTDLVVAISQSGKSASTLEAMRKVQASGLPVFALTSDPQSPTGRACDGVLDINTGIESVGFVTRGFSATVLNLLLIALMIARSQGKASEAEEQHYLAEFQRLAAAIPEVIARTSRFIDQHSETLRRGERFVATGYGALVGVAKEFETKFTETVRVPSSGFELEAYMHGPYLEANARHVMLFMEDSPDARTRALRDYMAPSIARAFTLTLGDEEDEQTLALNCPCEHHLAPLLLIVPVQMLAWHTAGLKGIDLAIRIFDDFDRVLKSKI	PGPT0018995_95	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSELYSINE_BIOSYNTHESIS,PGPT0018995-gfrE-K19504	NA	NA
BMS020_06202	1011	frlB	COG2222	Fructosamine deglycase FrlB	ATGTTGGGTTTTAATCAGGACGAGTACCTGACCAGTGCTCGCGAGATCATCGCTGCGCGTAAACAGGCTGAAACCGTGGCCGACGCTATTTATGACAGCGGCTGCAGCGCGTTATTTTTCGCCTCGGTAGGCGGTTCTTTAGCTCCGATGATGGCAATTAATGAGTTTGCCAAAGAATTAACCAGCGTGCCGGTTTATCTTGAGCAGGCGGCGGAATTAATTCATCGCGGGCATAAAAAATTAAATAAAGATGCAGTGGTGGTGACGTTATCCAAATCCGGCGATACCAAAGAGTCGGTGGCCATTGCCGAATGGTGCAAGGCGCAGGGGATACGCGTGGTAGCCATTACCCGTCATGCCGATTCGCCATTGGCTGCCGCCGCCAGCTGGCATATTCCGATGTGCCACAAAAATGGCGTGGAATATGAATATATGCTGCTGTACTGGTTATTCTTCCGCGTCATTTATCGTCACGGCGATTTTGCGGATTATGCGCGTTTTGCCAGCCAGCTCGAGTTGCTGCCGGAAAATCTTCTGCAGGCCAAACGCCAGTTCGATCCCCAGGCGGACAGCATTGCCGCGCAATACCATGACAGCGACTATATGATGTGGATTGGCGGCGCGGAAATGTGGGGTGAGGTCTACCTGTTCTCGATGTGTATTCTCGAAGAGATGCAGTGGAAGCGGACCAAGTCGGTAAGCTCGGCTGAATTTTTTCACGGCACTCTGGAGCTGCTGGAAAAAGAGGTCCCGCTGTTTCTGGTGAAGGGCGAGGGGAAATGCCGGGCGCTGGACGAGCGCGTCGAACGCTTTGCCGAAAAGATAACTGACCATCTGGTGGTGATCGACCCGCGCGACTATCCGCTGAACGGCATTGATGATGCGTTCCGCTGGATTATGGCGCCGTGCGTGGTGTCCACTCTGCTGGTGGATCGGCTGGCGGCCCACTTTGAGCACCATACCGGCCACGACCTGAATATCCGCCGTTATTACCGGCAGTTTGATTACTAA	MLGFNQDEYLTSAREIIAARKQAETVADAIYDSGCSALFFASVGGSLAPMMAINEFAKELTSVPVYLEQAAELIHRGHKKLNKDAVVVTLSKSGDTKESVAIAEWCKAQGIRVVAITRHADSPLAAAASWHIPMCHKNGVEYEYMLLYWLFFRVIYRHGDFADYARFASQLELLPENLLQAKRQFDPQADSIAAQYHDSDYMMWIGGAEMWGEVYLFSMCILEEMQWKRTKSVSSAEFFHGTLELLEKEVPLFLVKGEGKCRALDERVERFAEKITDHLVVIDPRDYPLNGIDDAFRWIMAPCVVSTLLVDRLAAHFEHHTGHDLNIRRYYRQFDY	PGPT0018990_13	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_FRUCTOSELYSINE_BIOSYNTHESIS,PGPT0018990-gfrF-K19510	NA	NA
BMS020_06203	939			ISNCY family transposase ISRor2	ATGAAAAAACGAATAACCGCCACGCCGCATGATGCGGTGTTTAAACGATTTCTTCGCCACCCGGAGACGGCGAATGATTTTCTCATGCTCTATCTTCCCGAAGCGATCCGCCAGCGGTGCGATTTCGCTACTCTGAGGCTGCAATCGGCGAGCTTTATCGATGAGGATCTACGCGCCTGGTATTCGGACGTGCTGTGGTCGGTGCAAACCACCTGCGGGGCGGGATATATTTACGTGGTGATAGAGCATCAGAGCTCGCCGGATAATCATATGGCTTTTCGTCTAATGCGCTATGCGATTGCCGCGATGCAGCGACACCTCGACGCCGGGCACAAAACGCTGCCGCTGGTGGTGCCGATGCTTTTTTATCATGGCGCAACCAGTCCGTATCCTTTTTCCCTCAACTGGCTGGATGAATTTGCCGACCCGCAGCTGGCGAAGAGGCTGTACGGCAGTCAGTTTCCATTGATCGACGTCACGGTCATGCCGGACGATGAAATCGTACAGCATCGGCGGGTCGCCCTGCTGGAGCTGATGCAAAAGCATATTCGCCAGCGCGATCTCAGCGGCATAACGGAGTCGTTGGCGGCCGTGGTGATGCTGGGATACACTAACCCCCGGCAGTTGAGAATGCTGTTTCACTATATGCTGCAGTACGGTAACACGGCCGAGCCGGGCGTGTTTCTCCGCCGGCTGGCCCGCCGTCTGCCACAGTATGAGGAGACATTGATGTCTATCGCGCAAAAGCTTAAGCAGGAAGGTCGGCATGAGGGCCGACAGGAGGGGCGCCTCGAAGGGCGCCTTGAGGGCTTACAGGAAGGGAGCCGGCGTGAGGCGCTGCGCATTGCCGGCAGCATGTTACAGAATGGCCTCGACAAAGAGACGGTACAGAAAATTACCGGACTGTCGGCTGACGACCTCAAGCCGCTGTATTGTTAA	MKKRITATPHDAVFKRFLRHPETANDFLMLYLPEAIRQRCDFATLRLQSASFIDEDLRAWYSDVLWSVQTTCGAGYIYVVIEHQSSPDNHMAFRLMRYAIAAMQRHLDAGHKTLPLVVPMLFYHGATSPYPFSLNWLDEFADPQLAKRLYGSQFPLIDVTVMPDDEIVQHRRVALLELMQKHIRQRDLSGITESLAAVVMLGYTNPRQLRMLFHYMLQYGNTAEPGVFLRRLARRLPQYEETLMSIAQKLKQEGRHEGRQEGRLEGRLEGLQEGSRREALRIAGSMLQNGLDKETVQKITGLSADDLKPLYC				NA	NA	NA	NA	NA
BMS020_06204	2292	mdoB_1		Phosphoglycerol transferase I	GTGTCAGAGTTGTTATCCATCGCCTTATTTTTAGCTTCGGTGGTGCTTTATGCCTGGAAAGCGGGTCGTAACACCTGGTGGTTTGCCGCCACGCTCACGGTGTTAGGTCTGTTCGTGGTGCTGAATATCACCCTCTACGCCAGCGACTACTTTACCGGCGACGGCATCAACGACGCGGTACTCTACACTCTGACCAACAGCCTGACCGGCGCCGGGATCGGTAAATACATTCTGCCGGGCGTCGGCGTGGCCGTCGCGCTGGTTGCCGTCTTTGGCGCCCTGGGATGGGTGCTGCGCCGCCGTCGGCATCATCCTCATCACGTCGGCTACAGCCTGGCGGCGCTGCTGCTGGCGCTGGCCTCGGTCGACGCCAGCCCGGCCTTCCATCAAATCAGCGAGCTGGTGAAATCGCAGTCGCGGGAAGGAGACCCGGACTTTGCCGCGTACTACAAAGAACCGTCGAAGCGTATCGACAATCCGCAGCTGAATCTGGTCTATATCTATGGCGAAAGCCTTGAGCGCACCTATTTTGATAACGATGCTTTCCCCAACCTCACCCCTGAGCTTGGCAGAATAAAAGATGAGGGCATTGATTTCAGCAATACTATGCAGCTGCCGGGGACCGATTACACCATCGCCGGCATGGTCGCATCACAGTGTGGCATTCCGCTGTTTGCCCCGTTTGAAGGCAACGCTTCGGCCTCGGTCTCCAGTTTCTTTCCGCAGAATATCTGCCTTGGCGATATCCTGAAAAACTCCGGTTACGAAAACTATTTTGTGCAGGGAGCTAACCTGCGCTTTGCCGGCAAAGACGTGTTTCTCAAATCCCACGGCTTCGATCACCTGTTCGGGGCGGAAGAGCTCAAAACCACGGTAGCCGATCCAACCTACCGCAACGACTGGGGCTTCTATGACGACACGGTACTCGACGAGACGTGGAAAAAATTCGAAGAACTGTCGCAGTCCGGAAAACGCTTTTCACTGTTCGCCCTGACGGTGGACACTCACCATCCCGACGGTTTTATCTCGCGTACCTGCGAGCGTAAACGCTATGACGTGGACGGCAAGAAAAACCTCTCCTTCAGCGCCGTTAGCTGCAGCCAGGAACATATCGCCGCGCTGATCGAGAAGATCAAAGCCTCTCCCTATTTCAAAAACACGGTCATCGTGGTCTCTTCCGATCACCTGGCCATGAAGAACAGCGCCTGGGATTACCTCAACAAGCACGATCGCAGCAATTTGTTCTTTGTCCTGCGCGGCGATCGGCCGCAGCAGGAGACCCTGGCGGTGAAACGCAACACCATGGATAACGGCGCGACGGTGCTGGATATTCTCGGTGGCGATAACTATATCGGCCTCGGGCGCAGCAGTCTCTCTGGCCAGTCGCTCTCCGGTATTTTCATGAATATGAAAGAGAAGGTCCTGGCCTGGAAACCCGACGTGATCCGCCTGTGGAACTTCCCGAAAGAGATGAAAAACTTCACCATCGACTCGCAGAAGAACATGATCGCCTTTTCCGGCAGCCATTTCCGTCTGCCGCTGCTGCTCCGGGTGTCGAACCAGCGCGTTGAACCGCTGCCGGAGAGCGAATACTCGGCGCCGCTGCGCTTCCAGCTGGCCGATTTCGCGCCGCGGGATAATTTCGTGTGGGTCGATCGCTGCTATAAAATGGGCCAGCTGTGGTCTCCTGAGCTGGCGCTCTCCACCGACTGGTGCGTCTCGCAGGGACAGCTGGGGGGTGAGCAGAAGGTCCAGCACGTTGATAAGCCACAGTGGCAAGGTAAGACCGCCTTCAGGGACACCCTTATCGATATGGAGCGCTATAAGGGCAACGTCGATACGCTGAAAGTTGTCGACAACGATATTCGCTATAAGGCCGACAGCTTCGTGTTTAACGTTGCCGGCGCGCCGGAAGAGGTGAAACAGTTTAGCGGCATTTCGCGGCCCGAGTCCTGGGGTCGGTGGTCCAATGCCCAGCTGGGCAGCGACGTGAAGATTGAATATAAAGAGCCGCTGCCGGAGAAATTTGATCTGGTGATCACCGCCAAAGCCTACGGTCCCAATGCCAATAAGCCGATCCCGGTGCGGGTTGGTCAAAGTGAGCAAGTGCTTACACTGGTCAATGATGTGACCACCACGACGCTGCATTTCGACAACCCAACGCGCAGCAATACGCTGACCATCACTCCGCCGGACCCGCAGTCCACCAACGAGGGCAATATCCTCGGCCACTCCCCGCGTCAGCTGGGGATCGGTATGGTGGAGATCAAAGTGGTGAAAAGCGAAGGTTAA	MSELLSIALFLASVVLYAWKAGRNTWWFAATLTVLGLFVVLNITLYASDYFTGDGINDAVLYTLTNSLTGAGIGKYILPGVGVAVALVAVFGALGWVLRRRRHHPHHVGYSLAALLLALASVDASPAFHQISELVKSQSREGDPDFAAYYKEPSKRIDNPQLNLVYIYGESLERTYFDNDAFPNLTPELGRIKDEGIDFSNTMQLPGTDYTIAGMVASQCGIPLFAPFEGNASASVSSFFPQNICLGDILKNSGYENYFVQGANLRFAGKDVFLKSHGFDHLFGAEELKTTVADPTYRNDWGFYDDTVLDETWKKFEELSQSGKRFSLFALTVDTHHPDGFISRTCERKRYDVDGKKNLSFSAVSCSQEHIAALIEKIKASPYFKNTVIVVSSDHLAMKNSAWDYLNKHDRSNLFFVLRGDRPQQETLAVKRNTMDNGATVLDILGGDNYIGLGRSSLSGQSLSGIFMNMKEKVLAWKPDVIRLWNFPKEMKNFTIDSQKNMIAFSGSHFRLPLLLRVSNQRVEPLPESEYSAPLRFQLADFAPRDNFVWVDRCYKMGQLWSPELALSTDWCVSQGQLGGEQKVQHVDKPQWQGKTAFRDTLIDMERYKGNVDTLKVVDNDIRYKADSFVFNVAGAPEEVKQFSGISRPESWGRWSNAQLGSDVKIEYKEPLPEKFDLVITAKAYGPNANKPIPVRVGQSEQVLTLVNDVTTTTLHFDNPTRSNTLTITPPDPQSTNEGNILGHSPRQLGIGMVEIKVVKSEG				NA	NA	NA	NA	NA
BMS020_06205	495			hypothetical protein	ATGAAATCGTTAAAAAATGGCTTACTTGCCGCGCTTACCCTCAGCGCATTTACCCTCTCCGGCGCCCACGCCGCCTCCTGGCAGGATTCTCTCAACAGCGCCGCCAGCCAGCTCAGCGGCAGCAGCACCCAGGCCAGCGGCGGCGGAATGTCCATCTCCTCTCTGACCAGCCTGCTCAACGGCAGCAGCCAGTCGCTGACCGCCAGCAGCATGAATAACGCCGCCGGGATCATGTCATATTGCGCCAAACAGAAGCTCGCCTCGGCGACCAGCGCTGATAACGTCAAAAACCAGGTGCTGGATAAGCTGGGGCTCAGCACGCCGGAAAAACAAAAACAGGACACCAGCTATCTTGATGGCCTGCAGGGGCTGCTCAACAGCAATAATGGCCAGCAGCTTGACCTGAATACCCTCGGCAACAGTTCGCTGGCGAAACAGGTGAAAACCAAAGCCTGCGATCTGGTCTTAAAACAGGGCGTTAACTTTCTCTCCTGA	MKSLKNGLLAALTLSAFTLSGAHAASWQDSLNSAASQLSGSSTQASGGGMSISSLTSLLNGSSQSLTASSMNNAAGIMSYCAKQKLASATSADNVKNQVLDKLGLSTPEKQKQDTSYLDGLQGLLNSNNGQQLDLNTLGNSSLAKQVKTKACDLVLKQGVNFLS				NA	NA	NA	NA	NA
BMS020_06206	744	dnaC	COG1484	DNA replication protein DnaC	ATGAGCATGAAAAACGTTGGCGATCTGATGAAGCGCCTGCAGAAAATGATGCCGGCTCATATCGAACCGGCGTTTAAAACCGGCGAAGAGCTGCTGGCCTGGCAAAAAGAGCAAGGCAAGCTGCGTTCCGAAGCGCTGGAGCGGGAGAACCGCGCGATGAAAATGCAGCGCACCTTTAACCGCTCGGGGATCCGCCCCCTTCATCAGAACTGCTCCTTTGATAACTATCGCGTCGAGTGCGAGGGGCAGATGAACGCCCTCGCCCGCGCGCGTCAGTACGTGGAGGAGTTCGATGGCAATATCGCCAGCTTTATCTTCTCCGGCAAACCAGGCACCGGCAAAAACCACCTCGCTGCGGCTATCTGCAACGAACTGCTGCTGCGCGGGAAGTCGGTCTTAATCATCACCGTGGCCGATATTATGTCGGCGATGAAAGATACTTTCGGCAACCGGGAGACGAGCGAAGAGCAGTTACTGAGCGACCTCAGCAAGGTCGATCTTCTGGTCATTGATGAAATTGGTATGCAGACAGAGTCTCGCTATGAAAAGGTCATTATCAATCAGATCGTTGACCGCCGATCTTCATCCAAACGGCCCACCGGTATGCTGACCAACAGTAATATGGAAGAGATGAATAAGCTGCTCGGCGAACGGGTGATGGACCGTATGCGCCTGGGCAACAGCCTGTGGGTTATCTTCAACTGGGAAAGTTACCGGCACCGCGTCACCGGCAAGGAGTATTAA	MSMKNVGDLMKRLQKMMPAHIEPAFKTGEELLAWQKEQGKLRSEALERENRAMKMQRTFNRSGIRPLHQNCSFDNYRVECEGQMNALARARQYVEEFDGNIASFIFSGKPGTGKNHLAAAICNELLLRGKSVLIITVADIMSAMKDTFGNRETSEEQLLSDLSKVDLLVIDEIGMQTESRYEKVIINQIVDRRSSSKRPTGMLTNSNMEEMNKLLGERVMDRMRLGNSLWVIFNWESYRHRVTGKEY				NA	NA	NA	NA	NA
BMS020_06207	540	dnaT		Primosomal protein 1	ATGTCTTCGCGAATTTTAACCTCCCATTTTAGCGGCCTGGAAGAGTTCCTCCAGCAGCACGCGGCGCTGCTGGCGAAATCGACTGACGGCACCGTCGCCGTTTTTGCCAACAACGCCCCGGCGTTCTATGCGCTGACCCCAGCCCGGCTGGCGCAGCTGCTGGAGCTGGAAGCCAGGCTGGCGCGCCCCGGCAGCGACATCGCGCTTGACCCGCTGTTTTTCGACGAGCCCGCCGCGGCGCCGGTTGCGGTGCCGATGGGCAAATTTGCCATGTATGCGGCCTGGCAGCCGGACGCCGACTTTCAGCGTCTGGCCGCGCTGTGGGGCATCGCGCTGAGCCAGCCGGTCACCCCGGAAGAGCTGGCCGCTTTCGTCGCTTACTGGCAGGCGGAAGGTAAAGTGTTTCACCACGTGCAGTGGCAGCAGAAACTGGCTCGCAGCGTGCAAATCAGCCGCGCCAGCAACGGCGGGCAGCCGAAGCGCGATGTGAACAGCGTTAGCGAACCCGACAGTCATATTCCGCGAGGTTTCCGAGGATGA	MSSRILTSHFSGLEEFLQQHAALLAKSTDGTVAVFANNAPAFYALTPARLAQLLELEARLARPGSDIALDPLFFDEPAAAPVAVPMGKFAMYAAWQPDADFQRLAALWGIALSQPVTPEELAAFVAYWQAEGKVFHHVQWQQKLARSVQISRASNGGQPKRDVNSVSEPDSHIPRGFRG				NA	NA	NA	NA	NA
BMS020_06208	474			hypothetical protein	ATGGGCATAATTTCGTTTATTTTCGCACTGGCGGAAGACATGCTGCTGGCGGCGATCCCTGCCGTCGGGTTTGCGATGGTCTTTAATGTCCCGCAGCGCGCCCTGCGCTGGTGCGCGCTGCTGGGAGCCATCGGCCATGGTTCGCGCATGGTCATGATGAGCGCTGGTTTTAACATTGAATGGGCCACGTTTCTCGCCGCCCTGCTGGTGGGCTGCATCGGCATCCAGTGGTCGCGCTGGTATCTGGCGCATCCGAAGATTTTTACCGTCGCCGCCGTGATCCCGATGTTTCCCGGTATTTCCGCTTACACCGCGATGATCTCCGCGGTAAAAATCAGCCATTTTGGCTATTCTGAAGAGATGATGATTTTGCTGCTGAGCAATTTTTTAAAGGCCTCTTCGATCGTGGGCGCCCTCTCCATTGGCCTGTCGATACCCGGTCTGTGGCTGTATCGTAAGCGCCCCCGCGTCTAA	MGIISFIFALAEDMLLAAIPAVGFAMVFNVPQRALRWCALLGAIGHGSRMVMMSAGFNIEWATFLAALLVGCIGIQWSRWYLAHPKIFTVAAVIPMFPGISAYTAMISAVKISHFGYSEEMMILLLSNFLKASSIVGALSIGLSIPGLWLYRKRPRV				NA	NA	NA	NA	NA
BMS020_06209	777	yjjP	COG2966	Inner membrane protein YjjP	ATGCAGGTTGATCGGGCACAGCAGCGGGCAATCACACGATTATGCATCCAGTGTGGTCTTTTTTTGTTACAGCACGGCGCCGAAAGCGCGCTGGTGGAAGAGCTTTCAACGCGTCTCGGGCTGGCGCTGGGGATGGACAGCGTCGAAAGCGCCATCTCCTCCAACGCTATCGTCCTGACCACCATTAAGGATGGCGAATGTCTTACCTCAACGCGTAAGAATGTCGACCGCGGCATTAATATGCATGTGGTGACGGAAGTGCAGCATATCGTGATCCTCGCCGAGCATAAGCTGCTGGACTATCGCGACGTCGAGAAGCGCTTCGCGCAGATAAGGCCCCTGCGTTATCCCCGCTGGTTGCTGGTGATCATGGTGGGCCTCTCCTGCGCTTGTTTCTGTAAACTGAATAACGGCGGCTGGGATGGAGCGCTGGTCAGCTTCTGCGCTAGCACGGTGGCCATGTACATTCGCCAGGTGCTGACCCACCGTTCCATGCATCCGCAGATCAACTTCTGCATCACCGCCTTTGTGGCCACCACGATCTCCGGGCTGCTGCTGCGCCTCCCGACCTTTGCCAGCACCCCGACCATTGCCATGGCCGCCAGCGTCCTGCTGCTGGTCCCGGGCTTTCCGCTGATCAATGCCGTCGCCGATATGTTTAAAGGGCATATAAATACTGGCCTCGCCCGCTGGGCGATCGCCAGCCTGTTAACCCTTGCCACCTGCATTGGCGTAGTGATGGCAATGACCGTATGGGGGCTGCGGGGATGGGCATAA	MQVDRAQQRAITRLCIQCGLFLLQHGAESALVEELSTRLGLALGMDSVESAISSNAIVLTTIKDGECLTSTRKNVDRGINMHVVTEVQHIVILAEHKLLDYRDVEKRFAQIRPLRYPRWLLVIMVGLSCACFCKLNNGGWDGALVSFCASTVAMYIRQVLTHRSMHPQINFCITAFVATTISGLLLRLPTFASTPTIAMAASVLLLVPGFPLINAVADMFKGHINTGLARWAIASLLTLATCIGVVMAMTVWGLRGWA				NA	NA	NA	NA	NA
BMS020_06210	168			hypothetical protein	ATGTGCAAAAATCTCCCGTCCGCCGGGGTGGCGGAATTTGAAGCGTCCCACACTTTTGCCAGTTTGGTGAAAAGTGCAATTTTTGTCGCCATTCATCCCTTCTTTTTCCCGTCTGACTTATCAAAAATGCAGGAAAGCACTTTTATTAAACAAAAATTATACAAATAA	MCKNLPSAGVAEFEASHTFASLVKSAIFVAIHPFFFPSDLSKMQESTFIKQKLYK				NA	NA	NA	NA	NA
BMS020_06211	1185	pobA	COG0654	p-hydroxybenzoate hydroxylase	ATGAAAACACAGGTCGCGATTATTGGCGCTGGCCCTTCCGGGCTGCTGCTGGGGCAGCTACTGCACAACGCCGGGATCCACACGGTCATTCTTGAGCGTCAAACGCCGCAGTATGTGCTGGGGCGCATCCGTGCGGGAATTCTGGAAAGCGGTACCGTCGATCTGCTCCGTGAAGCGGGCGTGGCGCAGCGGATGGATATCGAAGGCCTGGTGCATCATGGGGTGGAGTTTCTCTTTGACGGCCAGCGGGTGCCCGTCTCACTGAGCGAGCTGACCGACGGCAAGAGCGTGATGGTTTACGGCCAGACTGAAGTGACCCGCGATCTGATGGCTGCCCGGGCCGCCAGCGACGCGCCGATCGTGTACGGCGTCAGCGAAGTGACTATCCATGACGCAAAAAGCGACCGGCCGACGATCACCTATCTTAGCGAAGGTGAATTCTGCCGCCTGGAGTGTGACTTTATCGCCGGTTGCGACGGGTTCCATGGCGTGTCGCGGCAAAGTATTCCCGCTGACATCCTCAAGACTTACGAGAGCGTCTGGCCGTTCGGTTGGTTAGGCCTGCTGGCGGATACGCCGCCGGTCAATCCGGAGCTGATCTATGCGCATCATCAGCGGGGATTTGTTTTATGTAGTCAGCGCTCACTTACTCGCAGCCGCTACTATCTGCAGGTTCCGCTGAGCGATAAGGTGGAGGACTGGTCGGACGAACGCTTCTGGCAGGAGTTGAAATGCCGATTGCCGGAGGATCTGTCATCAAAGTTAGTGACTGGTCACTCACTTGAGAAAAGCATCGCTCCCTTGCGCAGCTTCGTCGTCGAGCCAATGCAATATGGGCGATTGTTCCTGGTGGGGGATGCCGCGCATATCGTACCGCCGACCGGCGCTAAAGGGTTGAACCTGGCGGCATCGGACGTGAACTATCTGTGGCGGATCCTGCGTGAATACTACCATCACGGCCGGAGCGATCTGCTGGCGACCTATTCGCGACTGGCGTTGGATCGGGTCTGGAAAGGGGAACGCTTTAGCTGGTTCATGACCCGCCTGCTGCACGATTTTCCGCAGCAGAGCGAGTTCGACGCCAAAATGCAGGCGGCCGATCGCCGCTACTATCTGGGCTCGCGCGCCGGGCTGACCACTATCGCGGAAAACTACGTGGGCCTGCCCATGGAGCGTGTCGTCTGA	MKTQVAIIGAGPSGLLLGQLLHNAGIHTVILERQTPQYVLGRIRAGILESGTVDLLREAGVAQRMDIEGLVHHGVEFLFDGQRVPVSLSELTDGKSVMVYGQTEVTRDLMAARAASDAPIVYGVSEVTIHDAKSDRPTITYLSEGEFCRLECDFIAGCDGFHGVSRQSIPADILKTYESVWPFGWLGLLADTPPVNPELIYAHHQRGFVLCSQRSLTRSRYYLQVPLSDKVEDWSDERFWQELKCRLPEDLSSKLVTGHSLEKSIAPLRSFVVEPMQYGRLFLVGDAAHIVPPTGAKGLNLAASDVNYLWRILREYYHHGRSDLLATYSRLALDRVWKGERFSWFMTRLLHDFPQQSEFDAKMQAADRRYYLGSRAGLTTIAENYVGLPMERVV	PGPT0005065_552	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYBENZOIC_ACID_GALLATE_RESISTANCE,PGPT0005065-pobA-K00481	NA	NA
BMS020_06212	882	rhaR_7		HTH-type transcriptional activator RhaR	ATGCCGCCCGTCCAAACTGTTCCGGTATTTAAGCTGTATGGCGAGGAGCGCGGCTGGCCGACGCCGGACCTGCTGCACTGCGAGTCGATTTTGCAGCGCAGCAGCCTGTATCAGTGGCATATTCGCGTCCACCAGCACGCCGAAATGGTCCAGCTTCTCTATCTGCATAAAGGTCGGGCGGAGATCGAAATTGAAGGCACCACCTCGGTGATGACGGAGTCCTGCATCCAGGTGGTGCCCGCCCTCTGCATTCATGGCTTTCATTTCTCACCCGGAACGCACGGATTTGTGCTCTCCCTGGCGCTACCGCTGCTGAGCCGCTTTGAAAATCAGTTCGGCCGACCGCTGGATGTGCTTAGCGTTGCGCAGTGTCTGCCGGTGGGGCGTTCCCGGGGGCGTATGCATACGCTGTTTTCAGCGCTTCGCGAGGAGTACAGTGCCGATCATGATGCCCGGGAAATGATGCTTTACTCGCTGCTGGGGACGCTGCTGGCCTGGCTGAACCGGCAGTGCCGCCCCGCACCGCCCGCGGAAGATAAAGCGGAGCGAAAGCGCAGTATGATGCGTCATTTTTCCCGGCTTATTGAGAGCCACTACCGGCAGCACCTCCCGCTGGCGGAGTATGCGAAGTTGATTGGGCTGTCGGTCACGCATTTAAACTATTTATGTCGCGAGTTCTATGGCTGTAGCGCCCTTGGGGTATTGCATCAGCGACTGATGCTTGAGGCGCGGCGTAATTTGCAATACACCCGCATGACGATAACGCAACTCTCTGATTATTTGGGCTTTAGCGACGCCGCCTATTTTTCTCGCTTTTTCCGCCGCTATAGCGGTATGTCGCCTAAAGCATTTAGAGAAGCAATTAAAGAGAATGCTTCATAA	MPPVQTVPVFKLYGEERGWPTPDLLHCESILQRSSLYQWHIRVHQHAEMVQLLYLHKGRAEIEIEGTTSVMTESCIQVVPALCIHGFHFSPGTHGFVLSLALPLLSRFENQFGRPLDVLSVAQCLPVGRSRGRMHTLFSALREEYSADHDAREMMLYSLLGTLLAWLNRQCRPAPPAEDKAERKRSMMRHFSRLIESHYRQHLPLAEYAKLIGLSVTHLNYLCREFYGCSALGVLHQRLMLEARRNLQYTRMTITQLSDYLGFSDAAYFSRFFRRYSGMSPKAFREAIKENAS				NA	NA	NA	NA	NA
BMS020_06213	723	yjjQ		Putative transcription factor YjjQ	ATGTTACCAGGACAAGGTAAGTTTGGCGTCGTTATTAGTAAAATCCCCGTCATGCAGTCAGGGTTAAAGGTGATCTTCAATGAGAACCTCCCGGATTACGAACTCAGTTTTTGTCGCACTCATGATGAGCTCACCCTTTTACAACTGCGGCGAGCGGTGCTGGTCGTTGCGGATATCTCCGGCGAGATTGCGCAGCCCCGGGCCGTCTGCGAGCGTTATTACTCCCTCATGACCCAGTATCGAGATATTCACTGGGTTTTTATGGTCGGCGACAGCCTCTATCCATTAGCCGTTGAGCTTTTAATTCGTCCCGAAAGCTCGCTGATCTCCGAGAACGAGCCGGTTGACCGGCTGATTGAGGTGATTTGCGCCGGTAGCCGTGCGGCTGAGCAGATTAGCCGTACGTTGTTTACCGGGGATGTGGACAGCGATTTCGCTAGCTACCACTCAGCGGCGATGCTGACCCTGTCAGAGCGGAAAGTTCTGCGCCTTCTGGCGAAGGGATGGGGAATTAACCAGATCGCCGCGCTGTTGAAAAAGAGTAATAAGACGATTAGCGCGCAGAAAAATAGCGCAATGCGTCGTTTATCGCTACGCAGCAACGCTGAAATGTATGCCTGGATCAACAGTGCGCAGGGAATGCAAGAGCTGAATATCAATTCAGCTTACGGGGAACAAATGGAATGGAAAAAAATAGCACAACCCGTCATGTCGCCATCGTAG	MLPGQGKFGVVISKIPVMQSGLKVIFNENLPDYELSFCRTHDELTLLQLRRAVLVVADISGEIAQPRAVCERYYSLMTQYRDIHWVFMVGDSLYPLAVELLIRPESSLISENEPVDRLIEVICAGSRAAEQISRTLFTGDVDSDFASYHSAAMLTLSERKVLRLLAKGWGINQIAALLKKSNKTISAQKNSAMRRLSLRSNAEMYAWINSAQGMQELNINSAYGEQMEWKKIAQPVMSPS				NA	NA	NA	NA	NA
BMS020_06214	675	bglJ	COG2197	Transcriptional activator protein BglJ	ATGGAAAAAAATAGCACAACCCGTCATGTCGCCATCGTAGAAAAATGTGTGATGACGGAAATGGCCTGGCGCTATACCTTTAGCTGTGAAGAGAGCAGCCAATACCGCATTCATTTTTTTAAAAATATCAATTTGCTCAGGGCGGTGGAAACGTCGTTCCCATGGTCAGCAATCATCTTTTCACTTTCGGGGAGTCGTTCGTCCAGAGCCGAGAGCCTGCTTTTTCTTCACGAAATGGCGAGGATCCGACCGGAAGTACAAACGATTATTCTGGCTAATAATGAAAGCGAAATGCGTCTGATCGGCCATTTAATGCCGGCCTGCCTGCAGGGTATATTAAATAAATCCGCGCCGCGACGCGGATTGCAGGAGCATTTGTTACAGCTGCTGGATAATCATTCCCTCGCCGGCAAAGAGCACTTTTGCGGCAGAGAGGCATGCAACGATCCGCTAAGCCCGACGGAGCACGCCATTCTTCGGTATATGTCGTGGGGATATTCGCTTGCGGAAATTGCGGTGCAGCTGAACCGGAACATTAAAACCATCCGCGCGCATAAATTCAACGCCATGACCAAGCTCGGGGTTCGCTCTGACATTGGTTTATTAAACGCGGCGGATATCTTGCTGCATTTACCGATAAGCGGCCCGACCAGCGCCGTTAAACAGGTGGCATAA	MEKNSTTRHVAIVEKCVMTEMAWRYTFSCEESSQYRIHFFKNINLLRAVETSFPWSAIIFSLSGSRSSRAESLLFLHEMARIRPEVQTIILANNESEMRLIGHLMPACLQGILNKSAPRRGLQEHLLQLLDNHSLAGKEHFCGREACNDPLSPTEHAILRYMSWGYSLAEIAVQLNRNIKTIRAHKFNAMTKLGVRSDIGLLNAADILLHLPISGPTSAVKQVA				NA	NA	NA	NA	NA
BMS020_06215	459			hypothetical protein	ATGAGTCTGCAGTCTGTACGGCAATTTTTTGCCGAACACGCCCCCGATATCGAAATTATTGAGTTAAACCAGAGTACCGCCACTGTGGCGCTTGCCGCTGCCGCGCACAACGTTGAGCCGGGACAAATAGCCAAAACGCTGTCGCTCAAGATCAAAGATAAGATTGTACTGATCGTCGCCAGGGGCGATGCGCGGCTGGATAATAAAAAGCTGAAAGAGACCTTTGGCGCAAAAGCGCGTATGTTGAGCAGCGACGAGGTGGTAACCTGGACCGGCCATCCGGTTGGCGGCGTGTGCCCGTTTGGTCTGGAAAATCCGCTGGCCGTCTTCTGTGACGTCTCGCTCAGGCACTATCAGGAAGTGCTACCCGCAGCGGGAGCTATTCACAGCGCCGTTCGCATTGAACCAGAACGAATGGCGCAGCTCACCGATGCAACATGGGTAGACGTATGCATATAG	MSLQSVRQFFAEHAPDIEIIELNQSTATVALAAAAHNVEPGQIAKTLSLKIKDKIVLIVARGDARLDNKKLKETFGAKARMLSSDEVVTWTGHPVGGVCPFGLENPLAVFCDVSLRHYQEVLPAAGAIHSAVRIEPERMAQLTDATWVDVCI				NA	NA	NA	NA	NA
BMS020_06216	1344	licC_3	COG1455	Lichenan permease IIC component	ATGTCTGCTAACCATGCTGCGTTTAATTTGATATTTCGCTTTGTAGAAAATTACATAAGCCCCATAGCAGGGCGGATCTCATCGCAGCGTCACGTCATGGCTATCCGTGACGGTTTTATCTCCGCGATGCCGTTTATGATCGTCGGATCGTTCCTGCTGGTGTTTGCTTATCCTCCTTTCTCCCCGGATACCACCTGGGGTTTTGCCCGCGCCTGGCTGGATCTGGCAAAAGAGTTTGAGGGGCGCATTCTGACCCCCTTTGATATGACGATGGGGATCATGTCGATCTACATCTGCGCGGCAATCTCTTATAACCTCGGTAAGCACTACGAGAAATCCAATCAGCTCGATCCCTTTATGTGCGCGATGCTGTCGATCATGGCCTTTTTACTGATTGCCGCGCCGAAGACGAATGGCACGCTGCCGGTGGACAGCCTTGGCGGAACAGGGATCTTTACCGCCATTCTGGTGGCGATCTACTGTGTGGAGATGATGCGTTTTCTCAAGGCGCATAATATCGGTATCCGTCTACCGGATCAGGTCCCACCGATGATCAAAAATTCCTTTGATCTGTTGATCCCGGTGCTGGTGGTTGTGCTGACGCTCTATCCGCTGAGCCTGTTTATTCAGCACCATTTTGACATGCTGATCCCGCAGGCCATTATGGCAATTTTCAAACCGCTGGTTTCGGCAGCCGATTCCCTGCCGGCGATCCTGCTGGCGGTCCTCATCGGCCACCTGCTGTGGTTTGCCGGGATCCACGGTGCGGCGATCGTTTCCGGGATGCTGCAGATGTTCTGGCTGACCAACCTTGGTATGAACCAGCAGGCGCTGGCCCAGGGCGCGCCTCTGCCGCATATTTTTATGGAGGCGTTCTGGACCTTCTTTATCGTGGTCGGAGGTTCCGGTGCCACCATGGGGCTGGTGTTCTGCTATCTGCGCAGCCGCTCAGCGCATTTGCGCTCCATAGGGCGTTTAAGCGTGGTGCCAAGCCTGTTTAACATTAACGAGCCGGTCATCTTTGGGACGCCTATCGTCATGAACCCGGTGTTCTTTATTCCGTTCCTGCTGGCGCCGATGGTGAATGCGGTGTTGGCCTGGGCGGCAATGAAGCTGGATCTGATTGGCCGCGTCATCTCCGTGGTACCGTGGACGGCGCCGGCGCCGATTGGCGGTGCCTGGGCGCTGGGCTGGGATTTCCGGGCGGCGATTCTGGTCATCGTTCTGGCCTGCGTGTCGGCGATTATCTACTTCCCGTTCTTTAAGGTGTATGAGAAGCAGCTGCTTGCTCAGGAAGCGGAAGAGGCTGAACGGGCGGAGCAGGAGAGTCAGCAGACCGCATAA	MSANHAAFNLIFRFVENYISPIAGRISSQRHVMAIRDGFISAMPFMIVGSFLLVFAYPPFSPDTTWGFARAWLDLAKEFEGRILTPFDMTMGIMSIYICAAISYNLGKHYEKSNQLDPFMCAMLSIMAFLLIAAPKTNGTLPVDSLGGTGIFTAILVAIYCVEMMRFLKAHNIGIRLPDQVPPMIKNSFDLLIPVLVVVLTLYPLSLFIQHHFDMLIPQAIMAIFKPLVSAADSLPAILLAVLIGHLLWFAGIHGAAIVSGMLQMFWLTNLGMNQQALAQGAPLPHIFMEAFWTFFIVVGGSGATMGLVFCYLRSRSAHLRSIGRLSVVPSLFNINEPVIFGTPIVMNPVFFIPFLLAPMVNAVLAWAAMKLDLIGRVISVVPWTAPAPIGGAWALGWDFRAAILVIVLACVSAIIYFPFFKVYEKQLLAQEAEEAERAEQESQQTA	PGPT0016970_891	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_BETA-GLYCOSIDE_DEGRADATION,PGPT0016970-celB|chbC-K02761	NA	NA
BMS020_06217	789	fhuF	COG4114	Ferric iron reductase protein FhuF	ATGGCCTGGCGTTCCCTTCCTCTCAGCGATGAACTTATCTGGCGGGCCCCTTTGCCGACGGCTGAGCGCGCCCTGGCGGAGAGTATTCGGGAAAAAATCGCCACCCTTCGCCCCCATCTGCTCGATTTCCTGCGCCTGGATGAATCCGCTCCAGGGCACGCTTTGACGCTTGCCGAGTGGTCGCGACCCACCGCCTTACGCTCTCTGCTGGCCACTTATTCCGATCATATCTATCGTCATCAGCCAACGCTGACACGGGAAGCGAAACCTCTGCTCTCGCTCTGGGCGCAATGGTATATCGGTCTGCTGGTGCCGCCGCTGATGCTGGCATTGCTCAATGAACCACAGGGTCTCAGCCTGGCGCCGGAACATTTCCACGTCGAATTTCACGAAAGCGGCAGGGCGGCCTGTTTCTGGATTGATGTCCATAGCGATGCCGGTATTGAGAGACTGTCACCGCTGTCGCGAATGGATGCCCTGGTGACGCGCACCCTGCAGCCGGTTATTAAGGCGCTGGAAGCCACGGGCGAGATCAATGGCAAACTTATCTGGAGCAATACTGGCTATCTGATTAACTGGTATCTTGGGGAAATGCGCGCGCTGTTGGGGGATGAGCAGCTTGCCGCCCTGCGCCAGCACTGTTTCTTCGAAAAACAACTCGCCGATGGTCAGGATAACCCACTATGGCGAACGGTTGTGCTGCGTGAAGGACAGTTAGTCCGACGCACCTGCTGCCAGCGCTATCGCCTGCCGGACGTCCAACAGTGCGGCGACTGCACGTTAAAATAA	MAWRSLPLSDELIWRAPLPTAERALAESIREKIATLRPHLLDFLRLDESAPGHALTLAEWSRPTALRSLLATYSDHIYRHQPTLTREAKPLLSLWAQWYIGLLVPPLMLALLNEPQGLSLAPEHFHVEFHESGRAACFWIDVHSDAGIERLSPLSRMDALVTRTLQPVIKALEATGEINGKLIWSNTGYLINWYLGEMRALLGDEQLAALRQHCFFEKQLADGQDNPLWRTVVLREGQLVRRTCCQRYRLPDVQQCGDCTLK	PGPT0003315_177	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FERRICHROME|FERRIOXAMINE_METABOLISM,PGPT0003315-fhuF-K13255	NA	NA
BMS020_06218	1047			hypothetical protein	ATGACTGCACAAACCTGGCGAGCACACTACGCACAAAAATATCAATATTCCTTACGGCTTTTTTTACTGCTTAATTTCATTTCATCCTCTCTGTCGCTGGTCACCCCCCTATTTACGGTAGTTCGTTTTACGCTGCCTTGCGCCCTGATCGTGGCCTGCAGCGGGTTGCTGCTGCTCTGGCACTGGAAATGGCCGCAATCGAAAATAAATATTCCCGCTATCTCGTTGTTATTTGGCATGCTATGGGCATGGCACGTAGTGACAAAGGCGATGCTATTGACACCGCCGCATTTTAACTTTCTGGTGATCGCCCTATTAAGCATTCTGTTTATCGGCACCATCGCTTTTTCCAATAATATCACTGCCTTTACCCTCCACTCTTTACCGACTTTCCTTGCCTGCCTGATAATGGCGGAGGGGGAACAATGGTTGCGCATGACTTACTGTTTTATGCTGCCTATTGCCGGTATTACCCTGCAAAATATTATCCAGAAGCGCAGCGATGCCTTCACACAAGGATTAATGGATAAACTCATGCAGGAACGCAACACCCTCAACGATCTCAGTATGCTGGATCCTCTGACCGGTTTGTATAACCGCCGCGGACTGCAGAATCGCCTCGATACCCTGCTGGCGCTGGACGGCGACAACCACTTCGTGCTGCTCCTCGATATCGATCATTTCAAAGCCTATAACGATCACTATGGTCATATGATGGGCGACCAGGCGCTCATTCGCGTCTCTGCTGCTATTCGCAACGCCGTACGCTCGCGCGATATTGTCGCCCGCTTTGGCGGAGAGGAGTTTATGGTGCTGCTGACCAACAGCAGCGAAGAAACGGCCTGGCAGGCTGCCGAACGTATTCGGCAGCGGGTCTATGACCTGAAAATCCCGCATATGTTTAATGAGAGCGTCGCCACCAACGTGACCATCAGTATTGGCCTGACGCCGCTCATTGATGACAATATTGAGCAAGCGCTGGCGCGCGCCGACGGCGCACTCTATGACGCTAAGAATAAAGGCCGTAACATTATTCTGGCCAGTTAA	MTAQTWRAHYAQKYQYSLRLFLLLNFISSSLSLVTPLFTVVRFTLPCALIVACSGLLLLWHWKWPQSKINIPAISLLFGMLWAWHVVTKAMLLTPPHFNFLVIALLSILFIGTIAFSNNITAFTLHSLPTFLACLIMAEGEQWLRMTYCFMLPIAGITLQNIIQKRSDAFTQGLMDKLMQERNTLNDLSMLDPLTGLYNRRGLQNRLDTLLALDGDNHFVLLLDIDHFKAYNDHYGHMMGDQALIRVSAAIRNAVRSRDIVARFGGEEFMVLLTNSSEETAWQAAERIRQRVYDLKIPHMFNESVATNVTISIGLTPLIDDNIEQALARADGALYDAKNKGRNIILAS				NA	NA	NA	NA	NA
BMS020_06219	240			hypothetical protein	ATGCTGCAGCGAGCATTAGGAAGCGGTTGGGGAGTCATCGTTCCCGGCGCGCTGATTGTCGCTCTCGGGTATGCCGGGGTGTCGGCTGACGTATGGCGGACGCTGGTCGCGGTGGGCATGCTGATGTCCGCGGCGATGATATGGCATCGTCAACTGCGCCATTTTATTCTGCTGCCATCGTGCGTTGCACTGGTTGGTGGAATAATGCTGATGCTTGTGGATATCAAACTGAGGAGATAA	MLQRALGSGWGVIVPGALIVALGYAGVSADVWRTLVAVGMLMSAAMIWHRQLRHFILLPSCVALVGGIMLMLVDIKLRR				NA	NA	NA	NA	NA
BMS020_06223	1029	rsmC_1	COG2813	Ribosomal RNA small subunit methyltransferase C	ATGTCCGCTTTTACCCCGGCAAGTGAAGTCTTGCTGCGCCACAGTGATGATTTCGAGTCCGCCCGCGTTCTGTTTGCCGGTGACCTGCAGGATGACCTGCCTGCGCGTCTGGATACCGCGGCCAGCCGCGCCCATACCCAACAGTTCCACCACTGGCAGGTTCTCAACCGCCAGATGGGAGACACCGTCCGTTTTAGCTTAGTGGCTGAGGCCGCTGACGTCGCCGAATGCGACACCCTGATCTACTACTGGCCAAAGAACAAACCAGAGGCACAGTTCCAGCTGATGAACCTGCTCTCTCTGCTGCCGGTGGGAAGCGACATTTTCGTCGTCGGTGAAAACCGCAGCGGCGTCCGCAGCGCGGAGCAGATGCTGGCTGAATACGCGCCATTAAACAAAGTGGATAGCGCCCGCCGCTGTGGCCTCTATCATGGCCGACTGGAAAAGCAGCCCGCCTTCGACGCCGATGCCTTCTGGGGCGAATACACACTGGATAATCTGACGATTAAAACCCTGCCAGGCGTCTTTAGCCGCGACGGGCTGGACGTCGGCAGCCAGCTGCTGCTCTCCACCCTCGAGCCGCATACCAAAGGGAAAGTGCTGGACGTCGGCTGCGGCGCAGGCGTGCTGGCCGCCGCGCTGGCCAGCCATTCGCCGAAAGTGCGCCTGACCCTGTGCGACGTCAGCGCCCCTGCGGTCGAAGCCAGCCGCGCGACGCTTGCCGCCAACGGCCTGGCTGGCGATGTGTTTGCCAGCAACGTCTTCTCCGAGGTCAATGGTCGCTTCGACATGATCATCTCCAACCCGCCATTCCATGACGGGCTGCAGACCAGCCTCGAAGCCGCCCAGGCGCTGATCCGCGGCGCGGTTCGCCATCTGAATAGCGGCGGCGAGCTGCGCATTGTCGCCAACGCCTTCCTGCCGTATCCGCAGGTGCTGGATGAGACGTTCGGCTTCCATGAGGTGATCGCCCAGACCGGACGTTTTAAGGTCTATCGCACCATCATGACCCGTCAGGCGAAAAAATAG	MSAFTPASEVLLRHSDDFESARVLFAGDLQDDLPARLDTAASRAHTQQFHHWQVLNRQMGDTVRFSLVAEAADVAECDTLIYYWPKNKPEAQFQLMNLLSLLPVGSDIFVVGENRSGVRSAEQMLAEYAPLNKVDSARRCGLYHGRLEKQPAFDADAFWGEYTLDNLTIKTLPGVFSRDGLDVGSQLLLSTLEPHTKGKVLDVGCGAGVLAAALASHSPKVRLTLCDVSAPAVEASRATLAANGLAGDVFASNVFSEVNGRFDMIISNPPFHDGLQTSLEAAQALIRGAVRHLNSGGELRIVANAFLPYPQVLDETFGFHEVIAQTGRFKVYRTIMTRQAKK				NA	NA	NA	NA	NA
BMS020_06224	414	holD	COG3050	DNA polymerase III subunit psi	ATGACATCCCGACGAGACTGGCAACTACAGCAGCTGGGCATTACCCAGTGGTCGCTGCGCCGACCGGGGGCGTTGCAGGGCGAAATCGCTATCTCGCTTCCTGAACATATTCGTCTGGTGATGGTGGCGGAAACCCCGCCGTCGCTGACAGAGCCGCTGATTGGCGACGTATTGCGCGCGCTGGCCGTGACGCCAGATCAGGTCCTGCAGCTGACCCCGGAGCGGGTGGCGATGCTGCCGCAGGACAGCCGCTGTAACAGCTGGCGGTTGGGCACAGAGGCGTCGCTGCCGCTGGCGGGCGCCCAGGTGTCCACCCCCGCTTTTGATGAACTCCAGACCAGCGCGCCGGCTCGCAGGGCGCTCTGGCAACAAATCTGCGCACATGAACACGATTTCTATCCTCAGCACGGCTGA	MTSRRDWQLQQLGITQWSLRRPGALQGEIAISLPEHIRLVMVAETPPSLTEPLIGDVLRALAVTPDQVLQLTPERVAMLPQDSRCNSWRLGTEASLPLAGAQVSTPAFDELQTSAPARRALWQQICAHEHDFYPQHG				NA	NA	NA	NA	NA
BMS020_06225	447	rimI_1	COG0456	[Ribosomal protein S18]-alanine N-acetyltransferase	ATGAACACGATTTCTATCCTCAGCACGGCTGATTTAACCCGAGCCTGGCAAATCGAAACCCGCGCCCACGCTTTCCCGTGGAGCGAACAGACCCTGGCCAGTAACCAGGGGGAACGCTATCGCAACTATCAGCTGTTGGTAGATGGCGAAATGGCGGCGTTCGCCATTACGCAAGTGGTGCTGGATGAGGCGACGTTGTTCAATATCGCGGTCGATCCCGCTTACCAGCGCCGTGGCCTGGGGCGAGCGCTGCTGGAACACGTCATTGACGAAGTCGAAAGGCTCGGCGTCGTCACGCTATGGCTGGAGGTGCGCGCCTCCAACGTTGCCGCTATCGCGCTGTATGAAAGCTTAGGCTTCAATGAGGCGACGATTCGCCGCAACTACTACCCGACGGCCGACGGGCGCGAAGACGCCATTATTATGGCTCTGCCAATCAGTATGTAA	MNTISILSTADLTRAWQIETRAHAFPWSEQTLASNQGERYRNYQLLVDGEMAAFAITQVVLDEATLFNIAVDPAYQRRGLGRALLEHVIDEVERLGVVTLWLEVRASNVAAIALYESLGFNEATIRRNYYPTADGREDAIIMALPISM				NA	NA	NA	NA	NA
BMS020_06226	678	yjjG	COG1011	Pyrimidine 5'-nucleotidase YjjG	ATGAAATGGGACTGGATTTTCTTTGATGCCGATGAAACGCTGTTTACGTTTGATTCTTTCAGCGGCTTGCAGCGGATGTTTCTCGACTACAGCGTGACCTTTACCGCCGAAGATTTTCAGGACTATCAGGCCGTGAATAAGCCGCTATGGGTGGATTACCAGAACGGCGCCATCACCTCGCTGCAGCTGCAGCACCAGCGCTTTGACAGCTGGGCGGAACGTTTGAATGTGCCGCCGGGGGAACTCAACGACGCGTTTATGAATGCGATGGCGGAAATCTGTGTGCCGCTGCCGGGCGCGGTCTCTCTGCTCAACGCGCTGCAGGGCAAGGTCAAGATGGGCATCATCACCAACGGCTTTACCTCGCTGCAGCAGACTCGTCTGGAGCGGACCGGTTTACGCGATCACTTTGATTTGCTGATTATTTCTGAAGAAGTGGGCGTCGCCAAACCGGACGCGCGCATTTTCGATTACGCGCTGGCGCAGGCGGGTAACCCACCGCGCTCGCGGGTGCTGATGGTCGGCGATACCGCCGAGTCGGATATTCGCGGCGGTGTGAATGCCGGACTGGCGACCTGCTGGCTCAATGCGCATCAGCGCGAGCTGCCGGCGGACCTCGAGCCGGACTGGACGGTGACCTCGTTAAGCGAACTGGAGCAGCTCCTGTGTAAACACTGA	MKWDWIFFDADETLFTFDSFSGLQRMFLDYSVTFTAEDFQDYQAVNKPLWVDYQNGAITSLQLQHQRFDSWAERLNVPPGELNDAFMNAMAEICVPLPGAVSLLNALQGKVKMGIITNGFTSLQQTRLERTGLRDHFDLLIISEEVGVAKPDARIFDYALAQAGNPPRSRVLMVGDTAESDIRGGVNAGLATCWLNAHQRELPADLEPDWTVTSLSELEQLLCKH	PGPT0013410_302	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013410-yjjG-K08723	NA	NA
BMS020_06227	1590	prfC_1	COG4108	Peptide chain release factor RF3	ATGACGTTGTCTCCTTATCTGCAAGAGGTGGCTAAACGCCGCACTTTTGCCATTATTTCTCACCCGGATGCCGGTAAGACCACCATCACCGAAAAGGTGCTGCTGTTCGGACAGGCGATTCAGACCGCCGGTACCGTAAAAGGTCGTGGCTCCAGCCAGCACGCGAAATCCGACTGGATGGAAATGGAAAAGCAGCGTGGTATCTCGATCACCACCTCGGTGATGCAGTTCCCCTATCATGACTGTCTGGTGAACCTGCTGGATACCCCGGGGCACGAAGACTTCTCGGAAGATACCTACCGTACCCTGACGGCGGTGGACTGCTGCCTGATGGTGATTGACGCGGCAAAAGGCGTCGAAGATCGGACCCGTAAGCTGATGGAAGTCACCCGTCTGCGCGATACGCCGATCCTCACCTTTATGAACAAACTCGACCGTGATATCCGCGATCCGATGGAGCTGCTGGATGAAGTGGAGAACGAGCTGAAAATCGGCTGCGCGCCGATTACCTGGCCTATCGGCTGCGGTAAGCTGTTCAAGGGCGTCTATCATCTCTACAAAGATGAAACCTACCTGTATCAGACCGGTAAAGGCCATACCATCCAGGAAGTGCGCATCGTGAAGGGGCTCAACAACCCGGATCTCGACGCGGCGGTGGGGGAAGATCTGGCGCAGCAGCTGCGCGACGAGCTGGAGCTGGTGCAGGGCGCGTCGAACGAGTTCGATAAAGATCTGTTCCTGGCCGGGGAAATCACCCCGGTGTTCTTCGGGACCGCGTTAGGTAACTTCGGCGTTGACCATATGCTGGATGGCCTGGTGGAGTGGGCGCCGGCGCCGATGCCGCGTAACACCGACACCCGTGAAGTCACCGCGACGGAAGAGAAGTTCACCGGCTTCGTGTTTAAAATTCAGGCCAATATGGACCCGAAACACCGCGACCGCGTGGCTTTCATGCGCGTGGTGTCAGGTAAATATGAGAAAGGCATGAAGCTGCGTCAGGTGCGCATCGGTAAAGACGTGGTGATCTCCGACGCGCTGACCTTTATGGCCGGCGACCGTTCGCACGTTGAAGAAGCCTATCCTGGGGATATCATCGGCCTGCATAACCACGGCACCATTCAGATTGGCGATACCTTCACCCAGGGCGAGATGATGAAGTTCACCGGTATTCCGAACTTCGCACCGGAACTGTTCCGTCGTATTCGCCTGAAGGATCCGCTGAAGCAGAAACAGCTGCTGAAAGGGCTGGTTCAGCTCTCTGAAGAGGGCGCGGTGCAGGTCTTCCGTCCGATCGCCAATAACGATCTGATCGTCGGCGCCGTGGGTGTGCTGCAGTTTGACGTCGTCGTGGCGCGCCTGAAAAGCGAATACAACGTGGAAGCGATTTACGAATCGGTCAACGTGGCCACCGCGCGCTGGGTTGAATCCACTGACGTGAAGAAATTCGAAGAGTTCAAACGTAAAAACGAAGTTCAGCTGGCGCTGGATGGCGGCGATAACCTGACCTACATCGCCCCGACGATGGTCAACCTGAACCTGACGCAGGAGCGTTATCCTGACGTGGTGTTCCGCAAAACGCGCGAGCACTAA	MTLSPYLQEVAKRRTFAIISHPDAGKTTITEKVLLFGQAIQTAGTVKGRGSSQHAKSDWMEMEKQRGISITTSVMQFPYHDCLVNLLDTPGHEDFSEDTYRTLTAVDCCLMVIDAAKGVEDRTRKLMEVTRLRDTPILTFMNKLDRDIRDPMELLDEVENELKIGCAPITWPIGCGKLFKGVYHLYKDETYLYQTGKGHTIQEVRIVKGLNNPDLDAAVGEDLAQQLRDELELVQGASNEFDKDLFLAGEITPVFFGTALGNFGVDHMLDGLVEWAPAPMPRNTDTREVTATEEKFTGFVFKIQANMDPKHRDRVAFMRVVSGKYEKGMKLRQVRIGKDVVISDALTFMAGDRSHVEEAYPGDIIGLHNHGTIQIGDTFTQGEMMKFTGIPNFAPELFRRIRLKDPLKQKQLLKGLVQLSEEGAVQVFRPIANNDLIVGAVGVLQFDVVVARLKSEYNVEAIYESVNVATARWVESTDVKKFEEFKRKNEVQLALDGGDNLTYIAPTMVNLNLTQERYPDVVFRKTREH				NA	NA	NA	NA	NA
BMS020_06228	621	osmY_3	COG2823	Osmotically-inducible protein Y	ATGACCAGACTAAAGAATGCCAATATGTTGCTGGCGCTCTTCTTAGGCTTAGCCGCGTTGAACGCCTCGGCAGAGACGGAAAAAACAACGGTAGACAGTGCGAAGTCAGCTGCCAGCAATGCGGGAGAGGCGGTAGACAATTCGATTAATAAAGTCGGCGATTTTATGGACGACAGCACTATTACCGCACGGGTAAAGGCGGCGCTGATCGACCATAAAGATATTAACTCCGGCGATATTTCGGTGAAAACGGAAAACAAAGTGGTCACCCTCAGCGGCGACGTCACCAGTGCTGAACAGAAAAGTCAGGCGCTGAGCGTGGCAAAAGCGGTCGAAGGCGTCTCTCAGGTCAACGACAAGCTGACGGTGAAGCACAAATCGTCGAGTGAGACGGCGACGCTGAAAGGCTATGCCGGGGACACCGCTATTACCAGCGAAGTGAAGGCTAAGCTGCTGGCGGATGACATTGTCCCTTCGCGCAATGTGAAAGTCGAAACTAACGCCGGCGCAGTGCATCTGACCGGTACGGTGGCTTCCGCGGCACAGGCTGAACGCGCCGCAGAGATTGCGAAAGCGGTTTCCGGTGTGAAAAGCGTCCGCAACGATCTTAGCGTGAAGTAA	MTRLKNANMLLALFLGLAALNASAETEKTTVDSAKSAASNAGEAVDNSINKVGDFMDDSTITARVKAALIDHKDINSGDISVKTENKVVTLSGDVTSAEQKSQALSVAKAVEGVSQVNDKLTVKHKSSSETATLKGYAGDTAITSEVKAKLLADDIVPSRNVKVETNAGAVHLTGTVASAAQAERAAEIAKAVSGVKSVRNDLSVK	PGPT0013305_181	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013305-osmY-K04065	NA	NA
BMS020_06229	162			hypothetical protein	ATGTTTCGATGGGGAATTATTTTTCTGGTCATTGCATTAATTGCTGCGGCCCTGGGCTTTGGTGGTCTGGCGGGTACTGCCGCTGGCGCCGCGAAAATCGTCTTTGTCGTCGGGATTATCCTGTTCCTGGTGAGCCTGTTTACAGGACGCAGACGTCCGTAG	MFRWGIIFLVIALIAAALGFGGLAGTAAGAAKIVFVVGIILFLVSLFTGRRRP				NA	NA	NA	NA	NA
BMS020_06230	1074			hypothetical protein	GTGGGGCAACGCATTCCCGTTACGCTGGGCAATATCGCCCCGCTGGCGGTTAAACCCTTCCGACCAGGCAAGCTGGCGCTGGTGTGTGAAGGCGGGGGACAGCGAGGGATTTTCACCGCCGGGGTTCTGGACGAATTCATGCGCGCCGGATTTAACCCCTTTGACCTGATGCTGGGGACCTCCGCGGGGGCGCAAAACCTCTCCGCTTACATGTGTAATCAGCAAGGCTATGCCCGCAAAGTCATCACACGCTACACCACCTCACGCCAGTTTTTCGATCCGATGCGCTTTGTGCGCGGCGGCAACCTTATCGATCTCGACTGGCTGGTGGAGGCCACCTCGCAGCAGATGCCGCTGGCCATGAACTATGCCGAAACGCAGTTCGCGCTGGGCAAAGAGCTGTGGATGTGCGCCTGTCGCGGCGACGATTACTCCGCCAGCTATTTTTCACCGACGCCGCAAACCTGGCTGGATCTGATCCGCGCCTCCAGCGCCATCCCCGGTTTTTACCGCAGCGGCGTGTTGCTTGACGGCGTTAGCTACCTTGACGGCGGCGTCAGCGATGCGATCCCGGTACAGGAGGCGGCCCGCCGCGGCGCTCAGACTATCGTGGTGATCCGCACTGTCCCTTCGCAGATGTTTTACACCCCGGAATGGTTTAAGCGGATGGAGCGCTGGCTGGGGGAGAGCAGCCTGCAGCCGCTGGTCAATCTGGTGCATCATCACGAAACCACCTATCGCGCCATCCAGCAGTTCATCGAAAAACCGCCCGGCAAACTGCGGATCTTCGAAATCTATCCCCAGCGGCCGCTGCGCAGCATGGCGCTTGGCAGCCGACTGCCGGCGCTGCTGGAGGACTACAAAACCGGACGCCAGTGCGGCCGTTATTTCCTGGCCACCGTGGGTAAACTGCTGGCCGACCGGCCGCCGCTGTTGCGCCACGCGCCGCGTATCGCCCGGCCTGCGCCGGTGGTGGTGCCGCCGGTGCGGGTGGCCAATGAAGCGCCGCAGGCGACCATCATCGCTGCGCCGCAGGCCAATGACGCAAGCTTTAATCATGAGGATCTGGCGTGA	MGQRIPVTLGNIAPLAVKPFRPGKLALVCEGGGQRGIFTAGVLDEFMRAGFNPFDLMLGTSAGAQNLSAYMCNQQGYARKVITRYTTSRQFFDPMRFVRGGNLIDLDWLVEATSQQMPLAMNYAETQFALGKELWMCACRGDDYSASYFSPTPQTWLDLIRASSAIPGFYRSGVLLDGVSYLDGGVSDAIPVQEAARRGAQTIVVIRTVPSQMFYTPEWFKRMERWLGESSLQPLVNLVHHHETTYRAIQQFIEKPPGKLRIFEIYPQRPLRSMALGSRLPALLEDYKTGRQCGRYFLATVGKLLADRPPLLRHAPRIARPAPVVVPPVRVANEAPQATIIAAPQANDASFNHEDLA				NA	NA	NA	NA	NA
BMS020_06231	795	yjjV_1	COG0084	putative metal-dependent hydrolase YjjV	GTGACGCACCGTTTTATCGATACCCACTGCCACTTCGATTTTCCCCCCTTCGCGGAAGATGAGGTCGCCAGCCTGGCGCGTGCGGCGCAGGCCGGCGTCGGGCGAATTATCGTTCCGGCCATCTCCGCTGAGCGTTTTAGCCGCGTGCTGGCGCTGGCGGCGCAGCACGAGGCGCTGTATGCCGCGCTGGGCCTGCATCCGATTGTCATCGAGCAGCACACCGATGAGGGGCTGGCGCAACTGGAGGCGTCGCTGGCGCAGCGCCCGCCAAAACTGGTGGCGGTGGGGGAGATTGGTCTCGATCTCTATCGCGACGAGCCGCAGTTCGATCGTCAGCAGGCGCTGCTGGAAGCGCAGCTGCGTCTGGCGAAGCGTTACGATCTGCCGGTGATCCTCCACTCCCGACGCACCCACGATAAGCTGGCGATGCTGCTGAAAAAACATGCCCTACCGCGTACCGGGGTGGTACATGGCTTCGCCGGCAGCCTGCAGCAGGCCGAGCGTTTCGTGCAGCTTGGCTATAAGATCGGCGTTGGCGGCACCATTACCTATCCCCGCGCCAGCAAAACCCGCGAGGTGATGGCGCGTCTGCCGCTTTCAGCCCTGCTGCTGGAGACCGATGCCCCGGATATGCCGCTCAATGGCTTCCAGGGACAGCCCAATCGCCCGGAGCAAGCTGCGCGGGTATTTGACGCCCTGTGCGAACTGCGGTCGGAGCCGCCGGCAGCCATAGCCGAAGGGATAATGCGCAACACGCTCGCCTTGTTTTCCCTGCCCTCCGCCACTGTATGGTGA	MTHRFIDTHCHFDFPPFAEDEVASLARAAQAGVGRIIVPAISAERFSRVLALAAQHEALYAALGLHPIVIEQHTDEGLAQLEASLAQRPPKLVAVGEIGLDLYRDEPQFDRQQALLEAQLRLAKRYDLPVILHSRRTHDKLAMLLKKHALPRTGVVHGFAGSLQQAERFVQLGYKIGVGGTITYPRASKTREVMARLPLSALLLETDAPDMPLNGFQGQPNRPEQAARVFDALCELRSEPPAAIAEGIMRNTLALFSLPSATVW				NA	NA	NA	NA	NA
BMS020_06232	1278	nupX_2	COG1972	Putative nucleoside permease NupX	ATGCAAATCCTCATGGGACTTATCGGCATGGTGGCGCTGTTGGCCATTGCTGTGCTGCTCTCCAATAATCGAAAAGCCATTAACCTGCGTACTGTGCTCGGCGCCTGGATAATCCAGGTGGGTATCGGCGCGTTGATATTGTATGTACCGGCCGGGCGCTCGGCGCTGTTAGCGATGTCGAACGGCGTCGCCCGCGTAATTGCCTATGGCAATGAAGGGATCGGTTTCATCTTCGGCGGGCTGGTCTCCGATAAAATGTTCGAGGTGTTTGGCGGCGGCGGCTTTGTCTTTGCCCTGCGCGTGCTGCCGGTGATCGTCTTCTTCTCGTCGCTGATTGCCGTGCTTTACTACCTGGGCATTATGCAGCTGGTCATTCGCATTCTCGGCGGCGCGCTGCGGGCGGTACTGAAGACCTCGCGCACCGAATCGCTGTCGGCCACGGCGAACATCTTCGTTGGTCAGACCGAAGCGCCGCTGGTGGTGCGTCCTTATATCGCCACTATGACCCGCTCGGAGCTGTTTGCGGTCATGTGCGGCGGCCTGGCCTCGGTGGCAGGTTCCGTGCTGGCGGGCTATGCGCAGATGGGCGTTCCGCTGGAGTACCTGATTGCCGCGTCGTTTATGGCGGCGCCGGGTGGACTGCTGTTTGCCAAAATTATCGTACCGGAAACGGAAAAGCCGGACGATAACCCGGCTCATGACCGCCAGAGCGCAGACGCGGATAAACCGGCCAACGTGCTGGACGCCGCCGCCTCCGGCGCCGCGTCTGGTATGCAGCTGGCGCTCAATGTCGGCGCGATGCTGCTGGCGTTTATCGCGCTGATCGCCCTGCTGAACGGCATTCTGTCCGGCGTCGGCGGCTGGTTTAACCATCCGGAGCTGTCGCTGCAGATGATCCTCGGCTGGGTCTTCTCACCGCTGGCGTGGGTGATCGGCGTGCCGTGGCACGAAGCGACGGTCGCGGGATCGTTTATCGGCCAGAAGCTGATCATTAACGAGTTCGTGGCCTATATGAACTTTGGCGAGTATCTGAAGGCGGACGCCGAGGTGGCGGCGGCCGGGCTGCAGGTTATTTCAGATCACACTAAAGCCATTATCTCTTTCGCGCTGTGCGGATTCGCTAACCTGTCATCGATCGCCATCCTGATTGGCGGCCTCGGGGGGATGGCGCCCAACCGGCGTCAGGATATCGCCCAGCTTGGGCTGCGTGCGGTGGCGGCGGGGACGCTGTCTAACCTGATGAGCGCCACCATCGCCGGGGTTTTCCTCGCCCTCTAA	MQILMGLIGMVALLAIAVLLSNNRKAINLRTVLGAWIIQVGIGALILYVPAGRSALLAMSNGVARVIAYGNEGIGFIFGGLVSDKMFEVFGGGGFVFALRVLPVIVFFSSLIAVLYYLGIMQLVIRILGGALRAVLKTSRTESLSATANIFVGQTEAPLVVRPYIATMTRSELFAVMCGGLASVAGSVLAGYAQMGVPLEYLIAASFMAAPGGLLFAKIIVPETEKPDDNPAHDRQSADADKPANVLDAAASGAASGMQLALNVGAMLLAFIALIALLNGILSGVGGWFNHPELSLQMILGWVFSPLAWVIGVPWHEATVAGSFIGQKLIINEFVAYMNFGEYLKADAEVAAAGLQVISDHTKAIISFALCGFANLSSIAILIGGLGGMAPNRRQDIAQLGLRAVAAGTLSNLMSATIAGVFLAL	PGPT0021070_544	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021070-TC_CNT|nupX-K03317	NA	NA
BMS020_06233	780	deoC	COG0274	Deoxyribose-phosphate aldolase	ATGACTGATTTAAAAGCAAGCAGCCTGCGCGCGTTAAAACTGATGGACCTGACCACCCTGAACGACGACGACACCAATGAGAAGGTGATTGCCCTGTGTCATCAAGCGAAAACCCCGGTGGGTAACACCGCGGCGGTCTGCATCTATCCGCGCTTCATCCCGATTGCCCGTAAAACGCTGAACGAGCAGGGAACGCCGGAGATCCGCATCGCTACGGTCACCAACTTCCCGCACGGTAATGACGATATCGACATTGCGCTGGCGGAAACCCGCGCGGCGATCGCTTACGGCGCCGATGAAGTGGACGTGGTGTTCCCGTACCGCGCGCTGATTGCCGGTAACGAGCAGGTCGGCTTCGAGCTGGTGAAAGCCTGTAAAGAGGCCTGCGCGGCGGCCAACGTGCTGCTGAAAGTGATCATCGAAACCGGTGAGCTGAAAGAAGAAGCGCTGATCCGTAAAGCGTCTGAAATCTCTATCAAAGCCGGGGCCGATTTCATCAAAACTTCGACCGGTAAAGTGCCGGTGAATGCCACGCCGGAAAGCGCGCGCATCATGATGGAAGTCATCCGCGATATGGGCGTTGAGAAAACCGTTGGCTTCAAACCGGCGGGCGGCGTGCGCAGCGCGGAAGATGCGCAGCAGTTCCTGGCGATCGCCGATGAGCTGTTTGGCGCCGACTGGGCCGATGCCCGTCACTACCGCTTTGGTGCCTCCAGCCTGCTGGCCAGCCTGTTGAAAGCCCTGGGTCACGGCGACGGCAAGAGCGCCAGCAGCTACTGA	MTDLKASSLRALKLMDLTTLNDDDTNEKVIALCHQAKTPVGNTAAVCIYPRFIPIARKTLNEQGTPEIRIATVTNFPHGNDDIDIALAETRAAIAYGADEVDVVFPYRALIAGNEQVGFELVKACKEACAAANVLLKVIIETGELKEEALIRKASEISIKAGADFIKTSTGKVPVNATPESARIMMEVIRDMGVEKTVGFKPAGGVRSAEDAQQFLAIADELFGADWADARHYRFGASSLLASLLKALGHGDGKSASSY	PGPT0017445_1258	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
BMS020_06234	1335	deoA	COG0213	Thymidine phosphorylase	ATGGGGGTTACCGTGTTTCTCGCACAAGAAATTATTCGTAAAAAACGTGATGGTCAGGCATTAAGCGATGAAGAGATCCGCTTTTTCATCAACGGCATCCGCGACAATACTATCTCAGAAGGGCAGATCGCCGCGCTGGCGATGACCATCTTCTTCCACGATATGTCTATGCCGGAGCGCGTTTCGCTGACCATGGCGATGCGGGATTCCGGTACCGTTCTGGACTGGAAAAACCTCAACCTTAACGGCCCGATCGTCGATAAACACTCCACCGGCGGCGTCGGGGATGTCACTTCGCTGATGCTGGGGCCGATGGTGGCCGCCTGCGGCGGTTATGTGCCGATGATTTCCGGCCGTGGACTCGGCCATACCGGCGGTACCCTGGATAAACTGGAAGCGATCCCGGGCTTCGATATCTTCCCGGACGACAACCGCTTCCGCGAGATTATTAAAGATGTCGGCGTGGCGATTATCGGGCAGACCAGCTCCCTCGCTCCGGCGGACAAACGTTTCTATGCCACCCGCGATATTACCGCGACGGTGGACTCCATCCCGCTGATCACCGCCTCGATCCTTGCCAAGAAGCTGGCGGAAGGGCTGGATGCGCTGGTGATGGACGTCAAAGTCGGCAGCGGCGCGTTTATGCCGACTTATGAACTTTCCGCCGCGCTGGCGGAAGCGATCGTCGGGGTCGCCAACGGCGCCGGCGTGCGCACCACCGCGCTGCTGACCGATATGAACCAGGTGCTGGCCTCCAGCGCCGGGAACGCCGTTGAAGTTCGCGAAGCGGTCCAGTTCCTGACCGGCGAATACCGCAACCCGCGTCTGTTCGACGTGACGATGGCGCTGTGTGTGGAGATGCTGATTTCCGGCAAGCTGGCGGCGGACGATGCCGACGCGCGCGCGAAGCTGCAGGCGGTACTGGATAACGGTAAAGCGGCGGAAGTCTTTGGCCGTATGGTCGCGGCGCAGAAAGGACCGAGCGACTTTGTCGAGAATTATGATCATTATCTGCCGACGGCGATGCTGAGCAAAGCAGTCTATGCTGATACCGACGGTTTTGTCAGCGCGATGGATACACGCGCGCTGGGTATGGCAGTGGTTTCTATGGGCGGCGGCCGCCGTCAGGCATCAGACACCATTGACTATAGCGTTGGCTTTACCGAGATGGCGCGTCTGGGTGACCGCGTGGACGGACAGCGTCCGCTGGCGGTGATCCATGCCAAAGACGAGAACAGCTGGCAGGAGGCCGCGAAAGCGGTCAAAGCGGCCATTAAACTGGACGATAAAGCTCCGGAAATTACACCGACAGTCTATCGCCGTATCACCGAATAG	MGVTVFLAQEIIRKKRDGQALSDEEIRFFINGIRDNTISEGQIAALAMTIFFHDMSMPERVSLTMAMRDSGTVLDWKNLNLNGPIVDKHSTGGVGDVTSLMLGPMVAACGGYVPMISGRGLGHTGGTLDKLEAIPGFDIFPDDNRFREIIKDVGVAIIGQTSSLAPADKRFYATRDITATVDSIPLITASILAKKLAEGLDALVMDVKVGSGAFMPTYELSAALAEAIVGVANGAGVRTTALLTDMNQVLASSAGNAVEVREAVQFLTGEYRNPRLFDVTMALCVEMLISGKLAADDADARAKLQAVLDNGKAAEVFGRMVAAQKGPSDFVENYDHYLPTAMLSKAVYADTDGFVSAMDTRALGMAVVSMGGGRRQASDTIDYSVGFTEMARLGDRVDGQRPLAVIHAKDENSWQEAAKAVKAAIKLDDKAPEITPTVYRRITE	PGPT0021365_964	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021365-deoA-K00758	NA	NA
BMS020_06235	1224	deoB	COG1015	Phosphopentomutase	ATGAAACGTGCATTTATCATGGTGCTGGACTCCTTTGGGATTGGCGCAACGGAAGACGCAGACCGCTTTGGCGACGTCGGCGCCGATACCCTGGGCCACATTGCGGAAGCCTGCGCCAAAGGCGAGGCTGACCACGGCCGCAAAGGCCCGCTGAATTTACCGAACCTGACCCGTCTGGGGCTGGTGAAAGCGCATGAAGGCTCTACCGGTAAAATTGCCGCCGGAATGAATGGCAATGCCGAAGTGATTGGCGCCTGGGCCTGGGCGCATGAACTCTCTTCTGGTAAAGATACGCCGTCCGGCCACTGGGAAATCGCCGGCGTGCCGGTGCTGTTTGACTGGGGCTACTTCAGCGATCATGAAAACAGCTTCCCGCAGGAGCTGCTGGATAAGCTGGTGAAACGCGCCAACCTGCCGGGCTACCTCGGCAACTGCCACTCTTCCGGGACGGTGATCCTCGATCAGCTCGGCGAAGAGCATATGAAAACCGGGAAACCGATTTTCTATACCTCCGCTGACTCCGTGTTCCAGATCGCCTGTCACGAAGAGACCTTTGGCCTCGACAAGCTGTATGAGCTGTGCGAAATCGCCCGTGAAGAGCTGACCGAAGGCGGCTACAACATTGGCCGCGTCATCGCTCGTCCGTTTATCGGTGATAAAGCCGGTAACTTCCAGCGTACCGGCAACCGTCACGATCTGGCGGTCGAACCGCCGGCGCCGACCGTGCTGCAGAAGCTGGTTGACGAGAAGAACGGCCACGTGGTGTCTGTCGGTAAGATAGCGGACATCTACGCAAACTGCGGCATCACCAAAAAAGTGAAAGCCACCGGGCTGGACGCGCTGTTCGACGCGACCATCAAAGAGATGAAGGAAGCCGGCGACGAGACTATCGTCTTCACCAACTTCGTCGACTTTGACTCCTCCTGGGGCCACCGTCGCGATGTCGCCGGCTACGCGGCGGGTCTGGAACTGTTCGACCGCCGTCTGCCGGAGCTGATGGAGCTGGTAGGGGAAGACGACATTCTGATCCTCACCGCCGACCACGGCTGCGACCCGACCTGGACCGGTACCGACCACACCCGCGAGCATATTCCGGTGCTGGTGTACGGCCCGAAAGTGAAACCAGGATCGTTAGGCCACCGCGAAACTTTCGCGGACATCGGCCAGACGTTGGCGACATACTTTGGTACCTCGCCAATGGCCTACGGTAAAAACATGCTGTGA	MKRAFIMVLDSFGIGATEDADRFGDVGADTLGHIAEACAKGEADHGRKGPLNLPNLTRLGLVKAHEGSTGKIAAGMNGNAEVIGAWAWAHELSSGKDTPSGHWEIAGVPVLFDWGYFSDHENSFPQELLDKLVKRANLPGYLGNCHSSGTVILDQLGEEHMKTGKPIFYTSADSVFQIACHEETFGLDKLYELCEIAREELTEGGYNIGRVIARPFIGDKAGNFQRTGNRHDLAVEPPAPTVLQKLVDEKNGHVVSVGKIADIYANCGITKKVKATGLDALFDATIKEMKEAGDETIVFTNFVDFDSSWGHRRDVAGYAAGLELFDRRLPELMELVGEDDILILTADHGCDPTWTGTDHTREHIPVLVYGPKVKPGSLGHRETFADIGQTLATYFGTSPMAYGKNML	PGPT0017440_542	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017440-deoB-K01839	NA	NA
BMS020_06236	720	deoD	COG0813	Purine nucleoside phosphorylase DeoD-type	ATGGCAACTCCTCACATTAACGCAGAAATGGGCGATTTCGCTGACGTAGTCTTGATGCCGGGCGACCCGCTGCGCGCCAAGCACATTGCAGAAACCTTTCTCGAAGACGTGCGTGAAGTGAACAACGTGCGCGGCATGCTGGGCTTCACCGGCACTTATAAAGGCCGCAAAATCTCCGTCATGGGCCACGGGATGGGTATTCCGTCCTGCTCTATCTACACCAAAGAGCTGATCACCGATTTCGGCGTCAAGAAAATCATCCGCGTCGGCTCCTGCGGCGCGGTGCGCGAAGACGTCAAACTGCGCGACGTGGTGATCGGTATGGGCGCCTGCACCGACTCCAAAGTGAACCGTCTGCGTTTTAAAGACCACGACTTCGCGGCGATTGCCGATTTCGGCATGGTGCGTAACGCGGTAGACGCGGCGAAAGCGCTGGGCGTTGACGCGCGCGTCGGCAACATCTTCTCTGCAGACCTGTTCTATACCCCGGACCCGTCCATGTTCGACGTGATGGAAAAATACGGCATCCTGGGCGTGGAAATGGAAGCGGCGGGTATCTACGGCGTGGCGGCGGAATTCGGGGCGAAAGCGCTGACCATCTGCACCGTGTCTGACCATATTCGTACCCACGAGCAGACCACTGCCGCGGAGCGTCAGACCACGTTCAACGACATGATTAAAATCGCGCTGGAATCCGTGCTGCTGGGCGATAAAGAGTAA	MATPHINAEMGDFADVVLMPGDPLRAKHIAETFLEDVREVNNVRGMLGFTGTYKGRKISVMGHGMGIPSCSIYTKELITDFGVKKIIRVGSCGAVREDVKLRDVVIGMGACTDSKVNRLRFKDHDFAAIADFGMVRNAVDAAKALGVDARVGNIFSADLFYTPDPSMFDVMEKYGILGVEMEAAGIYGVAAEFGAKALTICTVSDHIRTHEQTTAAERQTTFNDMIKIALESVLLGDKE	PGPT0013385_246	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013385-deoD-K03784	NA	NA
BMS020_06237	1017	lplA	COG0095	Lipoate-protein ligase A	ATGTCCACACTGCGCCTCCTGCTTTCTGACTCTTACGACCCGTGGTTCAACCTGGCGGTCGAGGAGTGCATTTTCCGCCAGATGCCCGCCACCCAGCGGGTGCTGTTCCTGTGGCGCAATGCCGATACCGTGGTCATCGGCCGCGCGCAGAACCCGTGGAAGGAGTGTAATACCCGCCGCATGGAGGAAGATCATGTGCGGCTGGCCCGTCGCAGCAGCGGCGGCGGCGCGGTGTTCCACGACCTCGGCAATACCTGCTTTACCTTTATGGCAGGCAAACCGGAGTACGACAAAACCGTCTCCACCGCTATTGTGCTGGCGGCGCTCAATTCACTTGGCGTAACCGCCGACGCCTCCGGGCGCAACGATCTGGTGGTCAAAACCGACAGCGGCGACCGCAAAGTCTCCGGCTCCGCCTATCGTGAAACCATGGACCGCGGTTTTCACCACGGCACCCTGCTGCTCAACGCCGATCTAAGCCGTCTCGCCAACTACCTCAACCCGGACCAGAAAAAGCTGCAGGCTAAAGGCATTACCTCGGTGCGCGGGCGGGTGGCGAACCTGGTTGAGCTGCTGCCGGGCATTACCCATCAGCAAGTTTGCGAGGCGATCCAGGAGGCGTTCTTCAGCCATTACGGCGAACGGGTAGACGCCGAGGTGATCTCCCCGGACAACACGCCGGACCTGCCGAACTTTGCCGACACTTTCGCACGCCAGAGCAGCTGGGAGTGGAACTTCGGCCAGGCGCCTGCCTTTTCCCACCTGCTGGACGAGCGCTTCCCCTGGGGCGGCGTCGAGCTGCATTTTGACGTTGAGAAGGGCCATATCACCCGCGCGCAGGCCTTTACCGATAGCCTGAATCCGGCGCCGCTGGAGGCGCTGGCGGAACGCTTAATCGGCTGTCAGTATCGGGCTGAGGTTTTGCAGCAGCAGTGTGAGGCGCTAATGGAGGACTTCCCGGAGCAGGAAGCGGAACTCAAAGCGCTGTCGGTGTGGATTGCCGGCGCGGTACGCTAA	MSTLRLLLSDSYDPWFNLAVEECIFRQMPATQRVLFLWRNADTVVIGRAQNPWKECNTRRMEEDHVRLARRSSGGGAVFHDLGNTCFTFMAGKPEYDKTVSTAIVLAALNSLGVTADASGRNDLVVKTDSGDRKVSGSAYRETMDRGFHHGTLLLNADLSRLANYLNPDQKKLQAKGITSVRGRVANLVELLPGITHQQVCEAIQEAFFSHYGERVDAEVISPDNTPDLPNFADTFARQSSWEWNFGQAPAFSHLLDERFPWGGVELHFDVEKGHITRAQAFTDSLNPAPLEALAERLIGCQYRAEVLQQQCEALMEDFPEQEAELKALSVWIAGAVR	PGPT0003945_926	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
BMS020_06238	648	ytjB	COG3726	putative inner membrane protein Smp	ATGGTTCGCGCAAAACTGAAATTCCGGCTGCATCGTGCGGTCATTGTCCTTATCTGTCTCGCCCTGCTCGTCGCGCTGATGCAGGGCGCCTCGTGGTTCAGTCAGAACAGTCAGAAACAACGCAATCCGCAGCTGGAAGAGCTGGCCCGCACGCTGGCGCAGCAGGTGGTGCTGAATCTTGCGCCGCTGATGCGCAGCGAGACGCCGGACGAAAAGCGCATCAATCAGCTGTTGACGCAGCTCACCCACAACAGCCGCGTACTGGACGCCGGGGTATATGACGACCAGGGCGACCTGGTGGCGCGCTCTGGCGAAAGCGTCGAGGTTCGCGACCGGCTGGCGCTGGATGGTAAGAAAGCCGGCGGCTACTTCAACCAGCAGATTGTCGAGCCGGTGCCGGGAAAAAACGGTCCGCTGGGCTACCTGCGTCTGACCCTCGATACCCATACGCTGGCGACCGAGGCGAAGCAGGTGGATAATACCACCAATATCTTACGCCTGATGCTGTTGCTGTCCCTGGCCATCGGCGTGGTACTGACCCGCACGCTGCTGCAGGGCAAACGCACCCGCTGGCAGCAATCGCCCTTCCTGCTCACCGCCAACAAGCCGGTTGAGGATGAAGACGATGAAAAGAAAGGAAATCTATAA	MVRAKLKFRLHRAVIVLICLALLVALMQGASWFSQNSQKQRNPQLEELARTLAQQVVLNLAPLMRSETPDEKRINQLLTQLTHNSRVLDAGVYDDQGDLVARSGESVEVRDRLALDGKKAGGYFNQQIVEPVPGKNGPLGYLRLTLDTHTLATEAKQVDNTTNILRLMLLLSLAIGVVLTRTLLQGKRTRWQQSPFLLTANKPVEDEDDEKKGNL	PGPT0023715_257	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-MEMBRANE_DAMAGING,PGPT0023715-smp|ytjB|aphA-K07186	NA	NA
BMS020_06239	972	serB	COG0560	Phosphoserine phosphatase	ATGCCTAACAGTTTGACCTGGTGCGACCTGCCTGAAGACGTTTCCCTGTGGCCTGGGTTGCCGCTTTCCCTGAGCGGTGACGAGGTCATGCCGCTGGATTATCACGCCGGGCGCAGCGGCTGGCTGCTGTACGGGCGTGGGCTGGATAAACGCCGTCTGACGGACTGGCAGCGTGAGCTGGGCGCCGCGTTAGTGATCGTCGCCTCCTGGGTGGTCGAGGATTACCAGGTGATCCGCCTGGCCGGTTCGCTGACCCCCCGTGCGACGCGACTGGCGCATGAGGCGGGGCTGGACGTCGCGCCATTGGGTAAAATCCCTCATCTGCGCACCCCGGGACTGCTGGTGATGGATATGGACTCCACGGCGATCCAGATCGAATGCATCGATGAGATCGCGAAACTGGCCGGCACCGGCGAGCTGGTGTCGGAAGTGACCGAGCGGGCGATGCGCGGGGAGCTGGACTTCACCGCCAGCCTGCGCCAGCGCGTGGCGACGCTGAAAGACGCTGATGCCAGCATTCTGCTGCAGGTTCGCGACGCGCTGCCGCTGATGCCGGGCCTGGCGCAGCTGGTGCTCAAGCTGGAAACGCTGGGCTGGAAGGTGGCGATCGCCTCCGGCGGCTTCACCTTCTTCGCCGAGTATCTGCGCGATAAGCTGCATCTCGACGCGGTGTTCGCCAACGAACTGGAGATCCGCGACGGCAAGCTCACCGGCAACGTGCTCGGCGATATCGTCGATGCCAAATACAAAGCCAATACGCTGCGCAAGCTGGCGGAAAAGTATGCGATCCCAACGGCGCAGACCGTGGCCATCGGCGATGGCGCCAACGACCTGCCGATGATTAAGGCTGCCGGGCTTGGCATCGCGTATCATGCTAAGCCTAAAGTGAATGAACAGGCGGAAGTGACTATCCGCCACGCTGACCTGATGGGGGTATTCTGTATTCTCTCGGGCAGCATGAACCAAAAGTAA	MPNSLTWCDLPEDVSLWPGLPLSLSGDEVMPLDYHAGRSGWLLYGRGLDKRRLTDWQRELGAALVIVASWVVEDYQVIRLAGSLTPRATRLAHEAGLDVAPLGKIPHLRTPGLLVMDMDSTAIQIECIDEIAKLAGTGELVSEVTERAMRGELDFTASLRQRVATLKDADASILLQVRDALPLMPGLAQLVLKLETLGWKVAIASGGFTFFAEYLRDKLHLDAVFANELEIRDGKLTGNVLGDIVDAKYKANTLRKLAEKYAIPTAQTVAIGDGANDLPMIKAAGLGIAYHAKPKVNEQAEVTIRHADLMGVFCILSGSMNQK	PGPT0013370_16	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013370-nadC-K00767	NA	NA
BMS020_06240	1383	radA_2	COG1066	DNA repair protein RadA	GTGGCGAAAGCTCCAAAACGCGCATTTGTCTGTAATGAATGTGGTGCGGATTACCCGCGCTGGCAGGGGCAGTGCAGCGCCTGCCATGCCTGGAATACCATCACCGAGATGCGCATCGCCGCGTCGCCGCAGGTGGCGAGAAACGAGCGTTTGTCAGGCTACGCCGGTCACGCCGGCGTCTCGAAGGTGCAGAAGCTGTCAGACATCAGCCTGGAAGCGCTGCCGCGTTTCTCCACCGGTTTTAAAGAGTTCGACCGCGTACTCGGCGGCGGCGTGGTGCCGGGCAGCGCGATCCTGATTGGCGGTAACCCCGGCGCGGGGAAATCGACGCTGCTGCTGCAGACGTTGTGCAAGCTGGCGGAAGGGATGAAAACGCTGTACGTCACCGGGGAGGAGTCCCTTCAGCAGGTGGCGATGCGCGCCCATCGCCTTGGGCTGCCGACGGCGAACCTGAACATGCTGTCGGAAACCAGCATTGAGCAGATCTGTCAGATTGCCGAGGAAGAAAAACCGCAGCTGATGGTGATCGACTCTATCCAGGTGATGCATATGGCCGACGTTCAGTCGTCGCCGGGCAGCGTCGCCCAGGTACGTGAAACGGCGGCCTACCTGACGCGCTTTGCCAAAACACGCGGCGTGGCGATCGTCATGGTCGGCCACGTCACCAAAGACGGTTCGCTGGCCGGCCCGAAGGTGCTGGAGCACTGTATTGACTGCTCGGTGCTGCTGGACGGCGATGCCGACTCCCGCTTCCGCACTCTGCGCAGCCACAAAAACCGCTTTGGCGCGGTGAACGAGCTGGGCGTCTTCGCCATGACCGAGCAGGGGCTGCGCGAAGTGAGCAACCCATCCGCTATCTTCCTCAGCCGGGGAGATGAAATCACCTCCGGCAGCTCGGTGATGGTGGTCTGGGAAGGGACCCGCCCGCTGCTGGTGGAGATCCAGGCGCTGGTGGATCACTCGATGATGTCCAACCCGCGCCGCGTGGCGGTGGGGCTGGAACAGAACCGTCTGGCGATCCTGCTGGCGGTGCTGCATCGCCACGGCGGCCTGCAGATGGCCGATCAGGACGTTTTCGTCAACGTGGTCGGTGGGGTGAAGGTCACGGAAACCAGCGCCGATCTGGCGCTGCTGCTGGCGATGGTCTCCAGCTTGCGCGATCGCCCGCTGCCGCAGGACCTGGTGGTCTTTGGCGAAGTGGGGTTGGCTGGCGAAATTCGCCCGGTGCCGAGCGGTCAGGAGCGTATCTCCGAAGCGGCGAAGCATGGCTTCCGCCGCGCCATCGTCCCGGCGGCCAATGTGCCGAAAAAAGTGCCGGAAGGCATGCAAATCTTTGGTGTGAAAAAGCTTTCAGACGCGCTAAGCGTTTTTGACGACTTATAA	MAKAPKRAFVCNECGADYPRWQGQCSACHAWNTITEMRIAASPQVARNERLSGYAGHAGVSKVQKLSDISLEALPRFSTGFKEFDRVLGGGVVPGSAILIGGNPGAGKSTLLLQTLCKLAEGMKTLYVTGEESLQQVAMRAHRLGLPTANLNMLSETSIEQICQIAEEEKPQLMVIDSIQVMHMADVQSSPGSVAQVRETAAYLTRFAKTRGVAIVMVGHVTKDGSLAGPKVLEHCIDCSVLLDGDADSRFRTLRSHKNRFGAVNELGVFAMTEQGLREVSNPSAIFLSRGDEITSGSSVMVVWEGTRPLLVEIQALVDHSMMSNPRRVAVGLEQNRLAILLAVLHRHGGLQMADQDVFVNVVGGVKVTETSADLALLLAMVSSLRDRPLPQDLVVFGEVGLAGEIRPVPSGQERISEAAKHGFRRAIVPAANVPKKVPEGMQIFGVKKLSDALSVFDDL	PGPT0014905_1598	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014905-radA-K04485	NA	NA
BMS020_06241	1233	nadR	COG1056	Trifunctional NAD biosynthesis/regulator protein NadR	ATGTCGTCATTTGACTATTTAAAAAGCGCCATAAAGCAGAAAGGCTGTACCCTGCAGCAGGTGGCGGAAGCCAGCGGGATGACCAAAGGGTATCTCAGCCAACTGTTGAATGCCAAAATCAAAAGCCCGAGCGCGCAGAAGCTAGAAGCGCTGCATCGTTTCCTCGGGCTGGAGTTTCCCCGCCGACAGAAAAGCGTCGGCGTGGTGTTTGGTAAATTTTACCCGCTGCATACCGGGCACATCTATTTGATTCAACGCGCCTGTAGCCAGGTCGATGAGCTGCATATCATCATGGGCTATGACGACACTCGCGACCGCGAGCTGTTTGAAGAGAGCGCCATGTCGCAGCAGCCGACGGTGCCTGACCGCCTGCGCTGGCTGCTACAAACCTTTAAATATCAGAAGAATATTCGCATCCATGCCTTCAATGAAGAGGGGATGGAACCCTATCCGCACGGCTGGGATGTGTGGAGTCATGGGATCCGCGCTTTTATGAGCGAAAAAGGGATCGAGCCGAACCGGATCTATACCTCGGAAGAGGCCGATGCGCCGCAGTACCTTGAGCATCTGGGGATCGAGACGGTGCTTATCGATCCTAAGCGGACCTTTATGAATATTAGCGGCGGCCAGATCCGCGAGAACCCGTTCCGTTACTGGGAATATATTCCGACGGAAGTGAAACCGTTCTTTGTGCGGACGGTGGCGATCCTCGGCGGCGAGTCGAGCGGGAAATCAACGCTGGTTAATAAGCTCGCCAATATCTTCAATACCACCAGCGCCTGGGAATATGGCCGGGATTATGTCTTTTCGCATCTCGGCGGCGATGAGATGGCGCTCCAGTATTCGGATTACGATAAAATAGCCCTCGGGCATGCCCAGTATATTGATTTCGCAGTGAAATATGCCAACAAGGTGGCGTTTATCGATACCGACTTCGTCAGCACTCAGGCGTTCTGCCTGAAGTACGAGGGGCGAGAGCACCCGTTCGTGCAGGCGCTGATTGATGAATACCGCTTCGATCTGGTGATCCTGCTGGAGAACAATACCCCGTGGGTGGCCGATGGGTTACGCAGCCTTGGGAGTTCGGTGGATCGTAAAGAGTTTCAGTCGCTGCTGGTGTCGCTGCTGAAAGAGAATGAGATCGAGTTCGTCCATGTTAAGGAGTCGGACTACGATACGCGCTTCCTGCGCTGCGTCGAGCTGGTGAAGCAGCTGATGGGGGAGCAGGGGTAG	MSSFDYLKSAIKQKGCTLQQVAEASGMTKGYLSQLLNAKIKSPSAQKLEALHRFLGLEFPRRQKSVGVVFGKFYPLHTGHIYLIQRACSQVDELHIIMGYDDTRDRELFEESAMSQQPTVPDRLRWLLQTFKYQKNIRIHAFNEEGMEPYPHGWDVWSHGIRAFMSEKGIEPNRIYTSEEADAPQYLEHLGIETVLIDPKRTFMNISGGQIRENPFRYWEYIPTEVKPFFVRTVAILGGESSGKSTLVNKLANIFNTTSAWEYGRDYVFSHLGGDEMALQYSDYDKIALGHAQYIDFAVKYANKVAFIDTDFVSTQAFCLKYEGREHPFVQALIDEYRFDLVILLENNTPWVADGLRSLGSSVDRKEFQSLLVSLLKENEIEFVHVKESDYDTRFLRCVELVKQLMGEQG	PGPT0013390_189	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013390-nadR-K06211	NA	NA
BMS020_06242	1668	ettA_2	COG0488	Energy-dependent translational throttle protein EttA	GTGGCTCAATTCGTTTATACCATGCATCGTGTCGGCAAAGTGGTTCCGCCGAAACGTCATATTTTGAAAAATATCTCCCTCAGCTTTTTCCCTGGCGCAAAAATCGGTGTGCTCGGTCTGAACGGCGCCGGTAAATCTACCCTGCTGCGCATCATGGCCGGTATCGACACCGAGATCGAAGGTGAAGCGCGTCCGCAGCCTGGCATTAAAATCGGCTACCTGCCGCAGGAGCCGCAGCTCAACCCGGAGCACACCGTGCGCGAGTCCGTTGAAGAAGCGGTAGCCGAAGTGGTTAACGCGCTGAAGGGTCTGGACGAAGTCTATGCCAAGTACGCCGAGCCGGATGCAGACTTCGATAAGCTTGCCGCACAGCAAGGCAAGTTCGAAGAGATTATCCAGGCGCACGACGGCCACAATCTGAACGTGCAGCTGGAGCGCGCGGCCGACGCCCTGCGCCTGCCGGACTGGGATGCGAAAATCGCCAATCTTTCCGGTGGTGAACGCCGCCGCGTCGCGCTGTGCCGCCTGCTGCTGGAAAAACCAGACATGCTGCTGCTCGACGAACCGACCAACCACCTGGACGCTGAGTCCGTCGCCTGGCTGGAACGCTTCCTGCACGACTTCGAAGGCACCGTGGTGGCAATTACCCACGACCGTTACTTCCTCGATAACGTCGCCGGTTGGATCCTCGAACTTGACCGCGGCGAAGGTATTCCGTGGGAAGGCAACTACTCCTCCTGGCTGGAGCAGAAAGATCAGCGTCTGGCGCAGGAAGCCTCTCAGGAAGCCGCGCGTCGCAAATCCATCGAGAAAGAGCTCGAGTGGGTTCGCCAGGGCGCGAAAGGCCGTCAGTCCAAGGGCAAAGCCCGTCTGGCGCGCTTTGAAGAGCTCAACAACGTTGAATACCAGAAACGTAACGAGACCAACGAACTGTTCATTCCGCCAGGCGCGCGTCTGGGCGATAAAGTTCTGGAAGTCAGCAACTTGCGTAAATCCTACGGCGACCGCGTGCTGATCGACGATCTGAGCTTCTCGGTACCGAAGGGCGCTATCGTCGGCATCATCGGCCCGAACGGCGCGGGTAAATCAACGCTGTTCCGCATGATGTCCGGCCAGGAACAGCCAGATTCCGGCACCATCACCCTGGGCGAAACCGTTAAGCTGGCCTCCGTCGATCAGTTCCGCGACGCGATGGACAATAGCAAGACCGTGTGGGAAGAGGTCTCCGGTGGTCTGGATATCATGAAGATCGGCAACACCGAGATGCCGAGCCGCGCCTACGTGGGCCGCTTTAACTTCAAAGGCGTAGACCAGGGCAAACGCGTTGGCGAACTGTCCGGCGGTGAACGCGGTCGTCTGCACCTGGCGAAGCTGCTGCAGGTTGGCGGTAACGTACTGCTGCTCGATGAACCGACCAACGACCTGGATATCGAAACCCTGCGCGCGCTGGAAAACGCCCTGCTGGAGTTCCCGGGCTGCGCGATGGTTATCTCGCACGACCGTTGGTTCCTTGACCGTATCGCCACCCACATTCTGGATTACCAGGATGAAGGTAAGGTGGAGTTCTTTGAAGGTAACTTTACCGAGTACGAAGAGTACAAGAAACGCACCCTCGGCGCCGACGCGCTGGAGCCGAAGCGAATCAAGTACAAACGTATCTCAAAATAA	MAQFVYTMHRVGKVVPPKRHILKNISLSFFPGAKIGVLGLNGAGKSTLLRIMAGIDTEIEGEARPQPGIKIGYLPQEPQLNPEHTVRESVEEAVAEVVNALKGLDEVYAKYAEPDADFDKLAAQQGKFEEIIQAHDGHNLNVQLERAADALRLPDWDAKIANLSGGERRRVALCRLLLEKPDMLLLDEPTNHLDAESVAWLERFLHDFEGTVVAITHDRYFLDNVAGWILELDRGEGIPWEGNYSSWLEQKDQRLAQEASQEAARRKSIEKELEWVRQGAKGRQSKGKARLARFEELNNVEYQKRNETNELFIPPGARLGDKVLEVSNLRKSYGDRVLIDDLSFSVPKGAIVGIIGPNGAGKSTLFRMMSGQEQPDSGTITLGETVKLASVDQFRDAMDNSKTVWEEVSGGLDIMKIGNTEMPSRAYVGRFNFKGVDQGKRVGELSGGERGRLHLAKLLQVGGNVLLLDEPTNDLDIETLRALENALLEFPGCAMVISHDRWFLDRIATHILDYQDEGKVEFFEGNFTEYEEYKKRTLGADALEPKRIKYKRISK				NA	NA	NA	NA	NA
BMS020_06243	1962	slt_1	COG0741	Soluble lytic murein transglycosylase	ATGCACCTGAAAGAGGAAGAGCTTGTGGAAAAAGCCAAAAAAATGGCGTGGCATCTTTTGGCTGCCAGCGTTGGTCTGTTGGCGTTGAGTCAGCTGGCGCATGCGGATTCACTGGATGAACAGCGCAGCCGCTACGCACAAATTAAGCAGGCGTGGGATAACCGGCAGATGGATGTGGTTGACCAGCTGATGCCCACGTTAAGCACCTATCCCCTGTATCCCTATTTGCAGTACCGGCAGATTACCGACGATCTGATGAACCAGCCGGCGCTGGTGGTGAAAAACTTTATTGACGCCAACCCGACGCTGCCCCCCGCGCGTTCATTACGTTCGCGCTTCGTGAATGAACTGGCCCGGCGCAGCGATTGGCGCGGCTTGCTGGCGTTTAGTCCCGATAAGCCGACCAGCACCGAGGCGCAGTGCAACTACTACTACGCCAAACTGAGCGTGGGGCAGTCGCAGGAGGCCTGGAGCGGAGCGAAAGACCTCTGGCTGACGGGCAAGAACCAGCCCGGCGCCTGTGAACCGCTGTTCAGCGCCTGGCGCGACTCCGGCCAGCAGGATCCGCTGGCTTATCTCGAACGGATCCGCCTGGCGATGAAGGCCGGCAATATCGGGCTGGTGAAATCGCTGGCCCAGCAGATGCCCGCCAACTACCAGAGCATCGCCAGCGCCGTGGTTGCCCTGGCTAACGATCCTAACAGCGTCCTGACCTTTGCCCGCACCACCGGGGCGACGGACTTTACCCGCCAGATGGCCGCCGTCGCCTTCGCCAGCGTCGCCCGTCAGGATGTGGAAAATGCCCGTTTGATGATCCCTTCGCTGGTGCAGGCCCAGCAGCTCAATGAGGATCAGACCCAGGAGCTACGCGATATTGTCGCCTGGCGCCTGATGGGGAACGATGTGACCGAAGAGCAGGCCATCTGGCGCGACGATGCGATTATGCGATCGCAGTCCACGCCGCTGGTGGAGCGGCGGGTGCGGATGGCGCTGGGGACGGGCGATCGCCATGGCCTGAATACCTGGCTGGCGCGCCTGCCGATGGAGGCGAAAGAGAAAGACGAATGGCGCTACTGGCAGGCGGATCTGTTGCTGGAGCGCGGCAGGGACGAGGAGGCGCAGGCGATCCTCCGGTCGTTGATGCAGCAGCGCGGTTTCTACCCGATGGTCGCCGCGCAGCGTCTCGGCGAGGAGTATACCTTCCGCATCGATAAAGCGACTGGCACGCTCGATCCGGCGCTGGCTTCCGGTCCGGAGATGGCCCGGGTACGCGAGCTGATGTACTGGAATATGGATAACACCGCGCGCACCGAATGGGCGAATCTGGTCACCAGCCGCACGAAATCTCAGCAGTCGCAGCTGGCGCGCTATGCCTTCGATCAACACTGGTGGGATCTGAGCGTGCAGGCGACGATCGCCGGCAAGCTGTGGGATCAGCTGGAGGAGCGCTTCCCGCTGGCCTATAACGATCTGTTTGCCCGCTATATCAGCGGTAAAGATATTCCGCAGAGCTACGCGATGGCCATTGCCCGCCAGGAGAGCGCCTGGAACCCGAAAGTGCGCTCGCCGGTCGGCGCCAGCGGGCTGATGCAGATTATGCCGGGCACCGCGACGCATACCGTCAGCATGTTCCGCATTCCCGGCTACAGCGGCCCGTCGCAGCTATTGGATCCGGAAACCAACATCAACATCGGCACCAGCTATCTGCAGTACGTTTACCAGCAGTTCGGCAATAACCGCATCTACGCCTCGGCGGCCTATAACGCCGGGCCGGGTCGGGTACGCACCTGGCAGGGGAACAGCGCCGGACGGATCGACGCCGTGGCGTTTGTCGAGAGTATTCCGTTCTCGGAAACCCGCGGCTACGTGAAGAATGTCCTCTCCTATGACGCCTACTACCGCTACTTTATGGGACAGCAGGATAAGCTCTTCAGCGATGCGGAGTGGCGGCAGCGTTACTGA	MHLKEEELVEKAKKMAWHLLAASVGLLALSQLAHADSLDEQRSRYAQIKQAWDNRQMDVVDQLMPTLSTYPLYPYLQYRQITDDLMNQPALVVKNFIDANPTLPPARSLRSRFVNELARRSDWRGLLAFSPDKPTSTEAQCNYYYAKLSVGQSQEAWSGAKDLWLTGKNQPGACEPLFSAWRDSGQQDPLAYLERIRLAMKAGNIGLVKSLAQQMPANYQSIASAVVALANDPNSVLTFARTTGATDFTRQMAAVAFASVARQDVENARLMIPSLVQAQQLNEDQTQELRDIVAWRLMGNDVTEEQAIWRDDAIMRSQSTPLVERRVRMALGTGDRHGLNTWLARLPMEAKEKDEWRYWQADLLLERGRDEEAQAILRSLMQQRGFYPMVAAQRLGEEYTFRIDKATGTLDPALASGPEMARVRELMYWNMDNTARTEWANLVTSRTKSQQSQLARYAFDQHWWDLSVQATIAGKLWDQLEERFPLAYNDLFARYISGKDIPQSYAMAIARQESAWNPKVRSPVGASGLMQIMPGTATHTVSMFRIPGYSGPSQLLDPETNINIGTSYLQYVYQQFGNNRIYASAAYNAGPGRVRTWQGNSAGRIDAVAFVESIPFSETRGYVKNVLSYDAYYRYFMGQQDKLFSDAEWRQRY	PGPT0024070_1412	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
BMS020_06244	330	trpR	COG2973	Trp operon repressor	ATGACCCAACAATCTCCCTATTCCGCGGCCGTTGCCGAACAACGTCATCAGGAGTGGCTGCGCTTTGTGGCGCTGCTACAGCAGGCCTATGCGCAGGATCTGCATCTGCCGCTGCTGCAGCTAATGCTAACCCCTGATGAGCGCGAAGCGCTGGGAACCCGGGTGCGCATTATCGAAGAGCTGCTGCGCGGCGAGATGAGCCAGCGCGAGCTGAAAAATGAGCTCGGCGCCGGCATTGCGACCATTACCCGCGGGTCGAACAGCCTGAAGTCGGCGCCGGTTGAGCTGCGCCAGTGGCTGGAGCAGACGCTGCTGGCTAGCGATAAATAG	MTQQSPYSAAVAEQRHQEWLRFVALLQQAYAQDLHLPLLQLMLTPDEREALGTRVRIIEELLRGEMSQRELKNELGAGIATITRGSNSLKSAPVELRQWLEQTLLASDK	PGPT0007130_121	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007130-trpR-K03720	NA	NA
BMS020_06245	516	yjjX	COG1986	Inosine/xanthosine triphosphatase	ATGCACCATGTTGTCTCAGCGACCACTAATCCCGCCAAAATTCAGGCAATTCTGCAGGCTTTTGACGAGATTTTCGGCGAAGGATCCTGCCACATTGAGTCCGTATCCGTCGAGAGCGGCGTGCCGGAACAGCCCTTCGGCAGCGAGGAAACGCGCGCTGGCGCACGAAATCGCGTCGCCAATGCGCGCCTCGCCCAGCCCCATGCCGATTTCTGGGTCGCCATCGAAGCCGGAATTGACGATGGCAGTACCTTTAGCTGGGTGGTCATCGAAAGCGCCAGCCAGCGCGGAGAAGCGCGCTCAGCCACGCTGCCGTTGCCTGACGTTATTCTTGAGCAGGTTCGCGCTGGCGAAGCCCTCGGGCCGGTCATGTCGCAGTATACCGGCATCGATCAGATCGGTCGTAAAGAGGGGGCGATTGGGGTTTTCACCGGCGGCAAATTAACCCGCAGCAGCGTTTACCATCAGGCGGTCGTGCTGGCGTTAAGTCCGTTCCACAACGCTATTTATCGCTAG	MHHVVSATTNPAKIQAILQAFDEIFGEGSCHIESVSVESGVPEQPFGSEETRAGARNRVANARLAQPHADFWVAIEAGIDDGSTFSWVVIESASQRGEARSATLPLPDVILEQVRAGEALGPVMSQYTGIDQIGRKEGAIGVFTGGKLTRSSVYHQAVVLALSPFHNAIYR	PGPT0021540_649	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACIMETHRIN|CF3-HMP_DETOXIFICATION,PGPT0021540-yjjX-K01529	NA	NA
BMS020_06246	648	cobC_2	COG0406	Adenosylcobalamin/alpha-ribazole phosphatase	ATGTTACAGGTATACCTTGTTCGCCACGGTGAAACGCAGTGGAACGCCGAGCGACGTATTCAGGGTCAGTCCGACAGCCCGCTGACCGCACACGGTGAGCGCCAGGCCTGGCAGGTTGGCGAGCGCGCCAGAACGCTGGGGATCACCCATATCATTACCAGCGATCTGGGACGAACCCGCCGCACAGCAGAGATTATCGCCGAAGCCTGCGGCTGCAGCGTGATCGCCGATGCGCGCCTGCGCGAGCTGGATATGGGGGTGCTGGAGAAGCGCCATATCGACTCGCTCAGCGAAGAAGAAGAGGGCTGGCGCCGCCAGCTGGTCAACGGCACGCCGGATGGTCGTATTCCTCAGGGCGAATCGATGCAGGAGCTTAGCGAACGCATGCATGCGGCGCTGGCAGCCTGTCTGGAATTACCGGCCGGTAGTCGACCACTGCTGGTGAGTCATGGTATCGCGCTGGGCTGCCTGGTGAGCACGATTTTAGGGCTGCCGGCGTACGCAGAGCGTCGTCTGCGTCTGCGCAACTGCTCTATCTCGCGCGTCGATTATCAGCAGAGCCCGTGGCTGGCTTCCGGCTGGGTGGTGGAAACGGCGGGCGACGTCTCGCATCTTGACGCCCCCGCGATGGACGAGCTGCAGCGTTAA	MLQVYLVRHGETQWNAERRIQGQSDSPLTAHGERQAWQVGERARTLGITHIITSDLGRTRRTAEIIAEACGCSVIADARLRELDMGVLEKRHIDSLSEEEEGWRRQLVNGTPDGRIPQGESMQELSERMHAALAACLELPAGSRPLLVSHGIALGCLVSTILGLPAYAERRLRLRNCSISRVDYQQSPWLASGWVVETAGDVSHLDAPAMDELQR	PGPT0018035_669	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
BMS020_06247	870	rob_4	COG2207	Right origin-binding protein	ATGGATCAAGCAGGGATTATTCGCGATCTCCTTAGCTGGCTGGAAGGTCACCTGGATCAGCCGCTTTCTCTGGACAATGTGGCGGCGAAGGCGGGTTATTCCAAGTGGCATTTGCAGCGAATGTTTAAGGATGTCACCGGCCATGCCATCGGTGCCTATATTCGCGCGCGCCGGTTGTCGAAATCAGCTGTCGCATTACGCCTTACCGCCCGTCCAATCCTTGATATTGCGCTGCAGTACCGTTTCGACTCCCAGCAGACCTTCACCCGGGCGTTTAAGAAGCAGTTCTCGCTGACGCCGGCGCTCTACCGCCGCTCGCCGGACTGGAGCTCGTTCGGTATGCGTCCGCCGCTGCGTCTTGGCGAGTTTACCCTGCCGAAACATGAATTTGTCGCCCTGCCCACGACTCAACTGCTGGGGGTAACCCAGAGCTATACCTGTAAGCTGGAGGAAATCTCCGACTTCCGCAACCAGATGCGGGTCCAGTTCTGGCGCGATTTCCTCGGCAACTCGCCGTCGATCCCCCCGGTGCTCTATGGGCTGCATGAACCGCGTCCGAGCCTGGAGAAAGACGATGAACAGGAAGTGTTCTATACCACCGCGCTGACGCCGGAGATGGCTAACGGCCACCTGCAGAACGCCCATCCGGTGACGCTGGAGGGCGGCGAGTATGTCATGTTTACGTATGAAGGGCTGGGTACCGGCCTGCAGGAATTCATCCTGACGGTCTACGGCACCTGCATGCCGATGCTGAACCTGACGCGTCGCAAGGGGCTGGATATTGAACGCTTCTATCCTGAAGATGAAAGCCGGGATCAGGACACGCCGATTCAGTTGCGCTGCGAATATCTGATCCCGATCCGCCGTTAA	MDQAGIIRDLLSWLEGHLDQPLSLDNVAAKAGYSKWHLQRMFKDVTGHAIGAYIRARRLSKSAVALRLTARPILDIALQYRFDSQQTFTRAFKKQFSLTPALYRRSPDWSSFGMRPPLRLGEFTLPKHEFVALPTTQLLGVTQSYTCKLEEISDFRNQMRVQFWRDFLGNSPSIPPVLYGLHEPRPSLEKDDEQEVFYTTALTPEMANGHLQNAHPVTLEGGEYVMFTYEGLGTGLQEFILTVYGTCMPMLNLTRRKGLDIERFYPEDESRDQDTPIQLRCEYLIPIRR				NA	NA	NA	NA	NA
BMS020_06248	474			hypothetical protein	ATGAAATACAAGAAGTTTGCGATGGGCCTGCTGCTGCTGGCCGGCTGCCAGGTCGCTCAGGCGGAGCAGATTGGTTCCGTGGATACGGTCTTCAAATGGTTAGGGCCGGATCACAAAATTGTCGTCGAAGCCTTTGACGATCCGGATGTGCAGAACGTGACCTGCTATATCAGCCGGGCGAAGACCGGCGGGATCAAAGGCGGGCTGGGTCTGGCGGAAGATACCTCCGACGCGGCCATCTCCTGCCAGCAGGTCGGGCCGATTGAGCTGACGGACAAAATCAAAAATGGCAAAAGCCAGGGCGACGTGGTGTTCCAGAAGCGCACCTCGCTGGTGTTTAAAAAGCTACAGGTCGTTCGCTTCTATGATGCGAAACGCAATGCGCTGGTCTACCTGACCTATTCGGATAAAGTGGTTGATGGTTCGCCGAAGAACGCCATCAGCGCCGTGCCGATTATGCCCTGGAATAAATAA	MKYKKFAMGLLLLAGCQVAQAEQIGSVDTVFKWLGPDHKIVVEAFDDPDVQNVTCYISRAKTGGIKGGLGLAEDTSDAAISCQQVGPIELTDKIKNGKSQGDVVFQKRTSLVFKKLQVVRFYDAKRNALVYLTYSDKVVDGSPKNAISAVPIMPWNK				NA	NA	NA	NA	NA
BMS020_06249	690	creB_2	COG0745	Transcriptional regulatory protein CreB	ATGCAGCAGCCACGGATTTGGTTAGTTGAGGATGAACAGAGTATCGCCGATACCCTGGTTTATATGCTCCAGCAGGAGGGCTTCCAGGTCACCGTCTTTGACCGCGGGTTGCCCGCGCTGGAGGCGGCGGCGCATCAGGCGCCCGATGTGGCCATTCTCGACGTCGGCTTGCCGGATATCAGCGGCTTCGAGCTCTGTCGGCGCCTACTGACGCGCTTTCCGGCGCTGCCGGTGCTGTTTCTGACGGCGCGGAGCGACGAGGTCGATAAGCTGCTGGGGCTGGAAATCGGCGCTGACGATTACATCGCCAAGCCGTTTTCGCCGCGCGAAGTCTGCGCGCGGGTGCGCAGCGTGCTGCGGCGGCTGCAAAAATTCGCCGTGCCTTCGTCGGTAGTTCGCGTCGGCGAGTTTGTGCTTGACGAGCAGGCGGCGTCGATAAGCTGGTTCGGCCAGCCGCTGAACCTGACGCGCTATGAATTTCTGCTGTTGAAAACGCTGCTTCACGCGCCCGGTCGCGTCTTCTCCCGCCAGCAGCTGATGGAGCTGGTGTGGAGCGATGCTTGGGAAAGCCTCGACCGCACCGTCGACACCCACATCAAAACCCTGCGCGCTAAACTGCGGGTCGTTAATCCTGAGGTGGCGCCAATCAATACCCATCGCGGGATGGGCTACAGCCTGGGGCGCGGCTGA	MQQPRIWLVEDEQSIADTLVYMLQQEGFQVTVFDRGLPALEAAAHQAPDVAILDVGLPDISGFELCRRLLTRFPALPVLFLTARSDEVDKLLGLEIGADDYIAKPFSPREVCARVRSVLRRLQKFAVPSSVVRVGEFVLDEQAASISWFGQPLNLTRYEFLLLKTLLHAPGRVFSRQQLMELVWSDAWESLDRTVDTHIKTLRAKLRVVNPEVAPINTHRGMGYSLGRG	PGPT0015055_298	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015055-creB-K07663	NA	NA
BMS020_06250	1425	creC_2	COG0642	Sensor protein CreC	ATGCGCATCGGCATGCGCCTGCTGCTGGGCTATTTTCTTATCGTCGCGATCGCCGCGTGGTTTGTACTGTCGATCTTTGTCCAGGAAGTGAAGCCGGGCGTGCGCCGGGCGACGGAGGGGACCCTCAACGATACCGCCACCCTGCTGGCGGCGCTGGCGCGTGAGGACCTGCTGGCGGCAAACCCGCAGCAGGGCAGGCTGGCGCAGGCCTTTCACCAGCTCAACCAGCAGCGGCTCAACGCCAATATTGGCGGAATTAAAAAGGTGCGGAATGAGTACCGCGTCTATCTGACCGATGCCCGGGGCAAGGTGGTGTTTGACTCGAACGGAGAGGCGACAGGGCAGGACTATTCACGCTGGAACGACGTCTGGCTCACCCTGCGCGGCCAGTACGGCGCGCGCAGTACGCGCAGCGATCCGCATGATGAAGCCAGCTCGGTAATGTATATCGCCGCGCCGGTGATGGATAAGGGGCGGATTATCGGCGTGCTGAGCGTCGGTAAACCCAACCTGGCGATGACGCCGGTCATTCAGCGCAGCGAGCGGAGGATCCTTTGGGCCGGCGGCGCCCTGCTGGGCATTGCCCTGTTGATTGGCTGCGGCGCCGTCTGGTGGATCAATTTCTCTATCGGCAAGCTGGTGCGCTATGCGGACTCGGTGACCGCTGACCGCCCGCTGCCGCTGCCGGAGGTCGGCAGCAGCGAACTGCGTAAGCTGGCCCAGGCGCTGGAGAGCATGCGGGTGAAACTCGAAGGCAAAAACGCCATCGAAAACTATGTCTATGACCTGACTCACGAGCTGAAAAGTCCGCTGGCGGCCATCCGCGGTGCGGCGGAGATCCTGCGCGAAGAGCCGCCGCCTGCGGTGGCGGCGCGGTTTACTGAGAATATCCTCGCGCAAAATACTCGCATGCAGCTGTTGGTGGAGCGGTTGCTCCAGCAGGCGCGACTGGAAAGCCGGCTGGAGATAAAGCCGCAGCCGGTGTCGATAGATGCGCTATACCAACGCCTGGCGGAAGAGCGCGACATCGCCCTGGCGGCGAAAGCCATCACCCTGCGCTGGCAGGAGAGTGGGATGCTGGTCAATGGCGATGGCGAACTGCTGTCCCAGGCGCTGGGCAATCTGCTCGACAACGCGATTGATTTTACCCACCAGGGGGGCGAGATCGCCCTGGCAGTAGAGAAACGAAATGCAGAGGTGCGACTGAGCGTAACGGATAACGGATGCGGTATTCCGGAGTATGCCCTGACGCGGATCTTTGATCGGTTCTACTCGCTGCCGCGTGAAGACGGCCATAAGAGCAGCGGCCTTGGGCTGGCCTTCGTTCGTGAAGTCGCGCGCCTGCATCACGGCGATATCCGTCTACACAATCGGCCCGAAGGCGGCGTGGTCGCCACGCTGAGACTTCACCGTCCCTTCACATAG	MRIGMRLLLGYFLIVAIAAWFVLSIFVQEVKPGVRRATEGTLNDTATLLAALAREDLLAANPQQGRLAQAFHQLNQQRLNANIGGIKKVRNEYRVYLTDARGKVVFDSNGEATGQDYSRWNDVWLTLRGQYGARSTRSDPHDEASSVMYIAAPVMDKGRIIGVLSVGKPNLAMTPVIQRSERRILWAGGALLGIALLIGCGAVWWINFSIGKLVRYADSVTADRPLPLPEVGSSELRKLAQALESMRVKLEGKNAIENYVYDLTHELKSPLAAIRGAAEILREEPPPAVAARFTENILAQNTRMQLLVERLLQQARLESRLEIKPQPVSIDALYQRLAEERDIALAAKAITLRWQESGMLVNGDGELLSQALGNLLDNAIDFTHQGGEIALAVEKRNAEVRLSVTDNGCGIPEYALTRIFDRFYSLPREDGHKSSGLGLAFVREVARLHHGDIRLHNRPEGGVVATLRLHRPFT	PGPT0015045_373	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015045-creC-K07641	NA	NA
BMS020_06251	1359	creD_2	COG4452	Inner membrane protein CreD	ATGTTGAAATCACCGTTATTCTGGAAAATCACCACGTTAATAGGCTGTATTGTGCTGTTATCTCTGCCTTTGATGATAGTCAGGGAGCTCATCAATGAGCGGGCTGATTATCGCAGCGAGGTTGTGGATGCCATTGAACAGAGCACCAGCGGCCCGCAAAAACTCGCCGGGCCGCTGATCGCTATTCCGGTAACCGAGACGCTGACCCGCAGGGAGAACCAAAAAGAGGTCGAATATCAGCGGAGCTGGGAGTACTACTGGCTGCCGGAATCGCTGGCGGTCACCGGCAAACAGACCGCGGAGTCGAGGAGGGTGGGCATCTACAGCGGACAGGTCTGGCATAACGCCCTGCAGATTAAGGCTTCGTTTGATCCGCTGCGTCTGGCGGCGCTGAAAAAAACGAATATTGTCTTAGGCCAGCCGCGACTGGTGGTGAGCGTCGGCGATGCCCGCGGCATTGGCGCCATCCATGCCCCGGAGGTTAACGGCAGCGTATTAAGCGTGGAGCCTGGGCTGGGGATCAGCGGCGATGGGGCGGGCATCCATATGCCGATGCCTGCGCTGGCGGAGGACAACAAGCCGCTTGAGATCGCTTTTTCGCTCGATCTGAACGGGACGGGCGCATTTTCACTGGTGCCGCTCGGGCGCAACAGCGAGCTGCAGCTGACCAGTAACTGGCCGCATCCCGGCTTTCTCGGCAGCTTCCTGCCAACGAAACGCGAAGTGAATGCTGCCGGCTATCGCGCCCACTGGCAAAGCAGCTGGTTCGCCAACGATATGGGCAGCTATTTCAAAGATGATATGGAGATCCCGTGGTCGCGCCTGCCGGCGTTCAGTGCCGATGTCATGTCGCTTGCCGACCAGTATCAGCTAACCGACCGGGCGACAAAATATGCCATCCTGTTAATTGGGTTGACGTTTATGGCCTTTTTCGCTTTCGAAAGCCTGACCCATCGCCCCCTGCATCCGATGCAATATTTGCTGGTGGGCCTATCGCTGGTGCTGTTTTACCTGGTGCTGCTGGCGCTTTCGGAGCACATTGGCTTTACCGCCGCCTGGCTGGCCGCCAGCCTGTCCGGCGCGGTGATGAACGGGATCTACCTCCAGGCGGTGCTCAGGGGATGGCGTAACAGCCTGCTGTTTGTCGCGGCGCTGCTGCTGCTGGACGGGGTGATGTGGTTTCTGCTGCATTCCGAGGACAGCGCGCTGCTGTTGGGTACCGGGGTGCTGGTGCTGGCGCTAAGCAGCCTGATGTTTTTGACCCGGCGAGTGGACTGGTATGCGTTATCGTTACCGAAAGGCAGTGTGCCTCCGCCGCCGTCTGCCGATGACGACAAACTGCGCCTCTGGAAAGAGTGA	MLKSPLFWKITTLIGCIVLLSLPLMIVRELINERADYRSEVVDAIEQSTSGPQKLAGPLIAIPVTETLTRRENQKEVEYQRSWEYYWLPESLAVTGKQTAESRRVGIYSGQVWHNALQIKASFDPLRLAALKKTNIVLGQPRLVVSVGDARGIGAIHAPEVNGSVLSVEPGLGISGDGAGIHMPMPALAEDNKPLEIAFSLDLNGTGAFSLVPLGRNSELQLTSNWPHPGFLGSFLPTKREVNAAGYRAHWQSSWFANDMGSYFKDDMEIPWSRLPAFSADVMSLADQYQLTDRATKYAILLIGLTFMAFFAFESLTHRPLHPMQYLLVGLSLVLFYLVLLALSEHIGFTAAWLAASLSGAVMNGIYLQAVLRGWRNSLLFVAALLLLDGVMWFLLHSEDSALLLGTGVLVLALSSLMFLTRRVDWYALSLPKGSVPPPPSADDDKLRLWKE				NA	NA	NA	NA	NA
BMS020_06252	717	arcA	COG0745	Aerobic respiration control protein ArcA	ATGCAGACCCCGCACATTCTTATCGTTGAAGACGAGTTGGTAACACGCAACACGTTAAAAAGTATTTTCGAAGCAGAAGGTTACGATGTATTCGAAGCGACCGATGGCGCGGAAATGCATCAGATCCTGTCTGAAAATGATATCAACCTGGTGATCATGGATATCAACCTGCCGGGTAAAAATGGTCTTCTGCTGGCGCGCGAGCTGCGCGAGCAGGCTGACGTCGCGCTGATGTTCTTAACCGGTCGCGACAACGAAGTGGATAAGATCCTTGGCCTCGAAATCGGCGCTGACGACTATATCACTAAACCGTTTAACCCGCGTGAACTGACTATCCGCGCGCGCAACCTGCTCTCCCGTACCATGAACCTCGGTACCGTGAGCGAAGAGCGTCGCAGCGTGGAAAGCTACAAGTTCAACGGCTGGGAACTCGATATCAACAGCCGTTCCCTGGTCAGCCCGAACGGCGAACAGTACAAGCTGCCGCGCAGTGAATTCCGCGCGATGCTGCACTTCTGCGAAAACCCGGGCAAAATTCAGTCTCGTGCCGAGCTGCTGAAGAAAATGACCGGTCGCGAGCTGAAGCCGCATGACCGTACCGTTGACGTGACCATTCGTCGGATTCGTAAACACTTCGAATCCACTCCGGATACCCCGGAAATCATCGCTACCATTCACGGTGAAGGTTACCGTTTCTGTGGCGATCTGCAGGAATAA	MQTPHILIVEDELVTRNTLKSIFEAEGYDVFEATDGAEMHQILSENDINLVIMDINLPGKNGLLLARELREQADVALMFLTGRDNEVDKILGLEIGADDYITKPFNPRELTIRARNLLSRTMNLGTVSEERRSVESYKFNGWELDINSRSLVSPNGEQYKLPRSEFRAMLHFCENPGKIQSRAELLKKMTGRELKPHDRTVDVTIRRIRKHFESTPDTPEIIATIHGEGYRFCGDLQE	PGPT0026345_58	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-OXYGEN_AVAILABILITY_SIGNALLING,PGPT0026345-arcA-K07773	NA	NA
BMS020_06253	687	trmL_3		tRNA (cytidine(34)-2'-O)-methyltransferase	ATGCGTTTAACGATTATTTTAGTCGGTCCTGCCCGGGCCGAGAACGTCGGCGCCGCCGCCAGGGCGATGAAAACCATGGGATTTCGCGATCTGCGGATCGTGGACAGTGAAGCCCATCTGGCGCCGGCGGCACGCTGGGTGGCGCACGGCTCAGGCGACATCCTCGATGGCATCACCACCTATTCCACCCTTGCCGAGGCGCTGCACGACGTCGATTTTACCGTCGCCACCACCGCCCGCAGTCGCGCGCGGTTTCACTATTACGCCACGCCGCAGCAGCTGTTGCCGCTGCTGGAGGAGAAGGAGAACTGGATGACCCATACCGCGCTGGTATTTGGCCGTGAAGACGCCGGATTGACCAATGAGGAGCTGGCCCTGGCCGATGTGCTGACCGGCGTGCCGATGGCCGCGGATTATCCTTCGCTAAACCTCGGTCAGTCGGTGATGGTCTACTGCTATCAATTAGCATCGCTTATGCAACAACCGGCGCCCGCCGCCGCCGCGGCAGACCATCATCAGCTGCAGGCGTTGCGCCTGCGCGCCCTGGCCTTGCTTTCGCGTCTGGGCGTGGAGGATGATGCCAAACTGGCCGACTGGCTGTCGCAACGAATGGGGCTGCTGCAGCAGCGCGACACGGCAATGTTGCATCGTTTGCTGCATGATATTGAAAAAAACCTGCCAGAATAA	MRLTIILVGPARAENVGAAARAMKTMGFRDLRIVDSEAHLAPAARWVAHGSGDILDGITTYSTLAEALHDVDFTVATTARSRARFHYYATPQQLLPLLEEKENWMTHTALVFGREDAGLTNEELALADVLTGVPMAADYPSLNLGQSVMVYCYQLASLMQQPAPAAAAADHHQLQALRLRALALLSRLGVEDDAKLADWLSQRMGLLQQRDTAMLHRLLHDIEKNLPE				NA	NA	NA	NA	NA
BMS020_06255	2463	thrA_1	COG0460	Bifunctional aspartokinase/homoserine dehydrogenase 1	ATGCGAGTGTTGAAGTTCGGCGGTACATCAGTGGCAAATGCGGAACGGTTTCTGCGGGTTGCCGATATTCTGGAGAGTAATGCCAGGCAGGGGCAGGTAGCGACCGTCCTGTCTGCCCCGGCGAAGATCACCAACCATCTGGTAGCGATGATTGAAAAGACCATTGGCGGCCAGGATGCCCTCCCCAATATTGCCGACGCTGAACGCATTTTTACCGAACTTCTTCAGGGCCTTGCCGACGCCCAGCCCGCTTTCCCGCTCGCCCAGCTGAAAGCCTTTGTTGAGCAGGAGTTTGCTCAGATTAAGCATGTCCTGCACGGTATCAGCCTGCTGGGTCAGTGCCCGGACAGCGTCAATGCCGCGCTGATCTGCCGAGGCGAAAAGCTCTCCATCGCCATCATGGCGGGTCTGCTGGAAGCCCGTGGTCATAAAGTCAGTGTGATTAACCCGGTGGAAAAACTGCTCGCGGTGGGCCACTATCTGGAATCCACGGTCGATATCGCCGAATCCACCCGCCGCATCGCCGCCAGCCAGATCCCGGCAGACCATATGATCCTGATGGCCGGGTTTACCGCCGGCAATGAGAAGGGCGAGCTGGTGGTGCTGGGGCGCAACGGCTCCGACTATTCGGCTGCGGTACTGGCCGCCTGCCTGCGCGCCGACTGCTGCGAAATCTGGACCGATGTCGACGGCGTGTACACTTGCGACCCGCGCCAGGTGCCGGATGCGCGTCTGCTGAAATCGATGTCTTATCAGGAGGCGATGGAGCTCTCCTACTTTGGCGCGAAAGTGCTGCACCCGCGCACCATCGCCCCTATCGCCCAGTTCCAAATCCCATGTCTGATTAAAAATACCGGCAACCCGCAGGCGCCGGGAACGCTCATCGGCGCCAGCCGCGACGAGGACGATCTGCCGGTCAAAGGCATCTCTAACCTCAACAACATGGCGATGTTCAATGTCTCCGGGCCGGGGATGAAAGGCATGGTCGGCATGGCGGCCCGCGTCTTCGCCACCATGTCCCGCGCCGGCATCTCGGTCGTGCTGATCACCCAATCCTCTTCCGAGTACAGCATCAGTTTCTGCGTGCCGCAGAGCGACTGCGCGCGTGCCAAACGGGCGATGGAAGATGAGTTTTATCTCGAGCTGAAAGAGGGGCTGCTGGAGCCGCTGGCCATTATGGAGCGTCTGGCTATTATCTCGGTGGTGGGCGACGGAATGCGCACCCTGCGCGGTATCTCGGCAAAGTTTTTTGCCGCGCTGGCCCGCGCCAATATCAATATCGTGGCGATTGCCCAGGGTTCATCCGAGCGCTCCATTTCGGTGGTGGTCAGCAATGACGACGCCACCACCGGCGTGCGCGTGACCCATCAGATGCTGTTCAACACCGACCAGGTGATCGAAGTATTCGTCATCGGCGTCGGCGGCGTCGGCGGCGCGCTGCTGGAGCAAATCAAACGCCAGCAGAGTTGGCTGAAGAGCAAACATATCGATCTGCGCGTTTGCGGCGTGGCCAACTCTCAGGCGCTGCTGACCAGCGTGCATGGTCTGAATCTGGAAAACTGGAGTGAGTCGCTGGCGGAGGCGAAAGAACCCTTTAATCTCGGTCGCCTGATCCGCCTGGTAAAAGAGTACCACCTGCTGAATCCGGTGATCGTCGACTGTACCTCCAGCCAGGCGGTCGCCGATCAGTACGCCGACTTCCTGCGCGAAGGTTTCCATGTGGTCACGCCGAATAAAAAGGCCAATACCTCTTCGCTGGATTATTATCATCAGCTGCGCCATGCCGCGAGCAGCTCGCGCCGCAAGTTCCTCTATGACACTAACGTTGGCGCTGGCCTGCCGGTGATTGAGAACCTGCAGAACCTGCTCAACGCCGGCGATGAACTGCGCCATTTCTCCGGGATCCTCTCCGGCTCTCTGTCGTTTATCTTCGGCAAGCTGGATGAAGGCGTGAGTTTCTCGGCGGCGACGGCGATGGCCCGTGAGATGGGGTATACCGAGCCGGATCCGCGCGACGATTTATCCGGGGTGGATGTCGCGCGTAAGCTGCTGATTCTGGCCCGTGAGACCGGACGTGAACTGGAGCTGTCGGACATTATCGTCGAGTCGGCGCTGCCGGCGGACTTCGACGCCAGCGGTGATGTTGAGACCTTTATGGCCCGCCTGCCGTCGCTGGATGATGCGTTCGCCTCGCGGATCGCTAAGGCGCGCGATGAAGGTAAAGTCTTGCGCTATGTCGGTAATATCGAAGAGGATGGTACCTGCCGGGTGAAAATTGCCGCCGTTGACGGCAACGATCCGCTGTTCAAAGTCAAAAATGGCGAGAACGCGCTGGCCTTTTACAGCCACTATTATCAGCCATTGCCGCTGGTGCTGCGCGGCTATGGTGCCGGGAACGACGTCACGGCGGCCGGTGTATTCGCCGACCTGCTGCGCACCCTTTCCTGGAAGTTAGGAGTTTAA	MRVLKFGGTSVANAERFLRVADILESNARQGQVATVLSAPAKITNHLVAMIEKTIGGQDALPNIADAERIFTELLQGLADAQPAFPLAQLKAFVEQEFAQIKHVLHGISLLGQCPDSVNAALICRGEKLSIAIMAGLLEARGHKVSVINPVEKLLAVGHYLESTVDIAESTRRIAASQIPADHMILMAGFTAGNEKGELVVLGRNGSDYSAAVLAACLRADCCEIWTDVDGVYTCDPRQVPDARLLKSMSYQEAMELSYFGAKVLHPRTIAPIAQFQIPCLIKNTGNPQAPGTLIGASRDEDDLPVKGISNLNNMAMFNVSGPGMKGMVGMAARVFATMSRAGISVVLITQSSSEYSISFCVPQSDCARAKRAMEDEFYLELKEGLLEPLAIMERLAIISVVGDGMRTLRGISAKFFAALARANINIVAIAQGSSERSISVVVSNDDATTGVRVTHQMLFNTDQVIEVFVIGVGGVGGALLEQIKRQQSWLKSKHIDLRVCGVANSQALLTSVHGLNLENWSESLAEAKEPFNLGRLIRLVKEYHLLNPVIVDCTSSQAVADQYADFLREGFHVVTPNKKANTSSLDYYHQLRHAASSSRRKFLYDTNVGAGLPVIENLQNLLNAGDELRHFSGILSGSLSFIFGKLDEGVSFSAATAMAREMGYTEPDPRDDLSGVDVARKLLILARETGRELELSDIIVESALPADFDASGDVETFMARLPSLDDAFASRIAKARDEGKVLRYVGNIEEDGTCRVKIAAVDGNDPLFKVKNGENALAFYSHYYQPLPLVLRGYGAGNDVTAAGVFADLLRTLSWKLGV	PGPT0020160_509	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020160-thrA-K12524	NA	NA
BMS020_06256	930	thrB_1	COG0083	Homoserine kinase	ATGGTCAAAGTATATGCCCCGGCTTCCAGTGCCAATATGAGCGTCGGGTTTGATGTGTTGGGCGCGGCGGTCACGCCGGTCGATGGCACGCTGCTGGGCGACAACGTCACTGTCGAAGCGGCGGAGCAATTCAGCCTGCAGAATCTGGGACGCTTCGCCAGCAAACTGCCGACGGCGCCGCAGGAGAACATTGTTTACCAGTGCTGGGAAAGCTTTTGCCGGGAGATCGGTAAAACGGTGCCGGTGGCGATGACCCTGGAAAAAAACATGCCGATTGGCTCCGGGCTGGGCTCCAGCGCCTGCTCGGTGGTCGCCGCGCTGGTGGCGATGAACGAGTTTTGCGGTAAGCCGCTGAACGAGACGCGCATGCTGGCGCTGATGGGGGAGATGGAAGGGCGTATCTCCGGCAGCATTCACTACGACAACGTGGCGCCGTGCTATCTTGGCGGCATGCAGTTGATGATCGAAGAGAACGGGATTATCAGCCAGCAGGTGCCCGGGTTTGATGAGTGGCTGTGGGTGCTGGCCTATCCGGGGATTAAAGTATCCACCGCCGAAGCGCGGGCGATTCTGCCGGCGCAGTACCGCCGTCAGGATTGTATCGCCCATGGTCGCCACCTCGCGGGCTTTATTCACGCCTGCTACACCCGCCAGCCGCAGCTGGCGGCAAAATTGATGAAAGATGTGATTGCCGAACCGTACCGAACCAAACTGCTGCCGGGCTTTAGCGAAGCGCGTCAGGCGGCCATGGAGATGGGCGCCCAGGCTTGCGGCATCTCCGGCTCTGGCCCAACGCTGTTCGCGTTGTGCGATAAGCCGGACACCGCACAGCGCGTCGCCGACTGGCTTGGCGCGCACTATCTGCAGAATCAGGAAGGCTTTGTTCATATTTGCCGGCTGGACACGGCGGGCGCACGCGTAGTGGGATAA	MVKVYAPASSANMSVGFDVLGAAVTPVDGTLLGDNVTVEAAEQFSLQNLGRFASKLPTAPQENIVYQCWESFCREIGKTVPVAMTLEKNMPIGSGLGSSACSVVAALVAMNEFCGKPLNETRMLALMGEMEGRISGSIHYDNVAPCYLGGMQLMIEENGIISQQVPGFDEWLWVLAYPGIKVSTAEARAILPAQYRRQDCIAHGRHLAGFIHACYTRQPQLAAKLMKDVIAEPYRTKLLPGFSEARQAAMEMGAQACGISGSGPTLFALCDKPDTAQRVADWLGAHYLQNQEGFVHICRLDTAGARVVG	PGPT0020275_1431	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020275-thrB-K00872	NA	NA
BMS020_06257	1281	thrC_1	COG0498	Threonine synthase	ATGAAACTGTATAACTTAAAAGATCACAATGAGCAGGTCAGCTTTGCGCAGGCCGTTACCCAGGGACTTGGCAAGCATCAGGGCCTGTTCTTTCCGCACGATCTGCCGGAATTCAGCCTGACTGAAATCGACGACATGCTGGCGCAGGATTTTGTCACCCGCAGCGCCAAAATTTTATCCGCCTTTATCGGCGATGAGATCCCGCAGGATGTCCTGCAGCAGCGGGTCCGCGCGGCGTTTGCGTTTCCGGCGCCGGTGAGCAAGGTTCAGGAGGATGTCGGCTGTCTGGAGCTGTTCCATGGCCCCACGCTGGCCTTCAAGGATTTCGGCGGCCGCTTTATGGCGCAGATGCTGACCCATATCGCAGGCGATAAGCCGGTCACCATCCTCACGGCGACCTCTGGCGATACCGGGGCTGCGGTGGCGCATGCTTTCTACGGACTGCCGAACGTTAAGGTAGTGATCCTCTACCCGCGCGGCAAGATCAGCCCGCTGCAGGAGAAGCTGTTCTGTACTCTCGGCGGCAACATTGAAACCGTGGCGATTGACGGCGACTTCGACGCCTGCCAGGCGCTGGTGAAGCAGGCGTTTGACGATGAAGAACTGAAGGCGACGCTGGGGCTCAACTCGGCTAACTCCATTAACATCAGCCGCCTGCTGGCGCAGATCTGCTACTACTTCGAAGCGGCGGCGCAGCTGCCGCAGGAAGCCCGCAATCAGCTGGTGATTTCCGTGCCGAGCGGCAACTTCGGCGATCTGACCGCCGGTCTGCTGGCGAAGTCGCTGGGTCTGCCAATCAAACGCTTTATCGCCGCCACCAATGCCAACGACACCGTTCCGCGCTATCTGCAGGGCGGCGAGTGGGCGCCAAAAGCCACCCAGGCGACGCTGTCCAACGCCATGGACGTCAGCCAGCCGAACAACTGGCCGCGTGTCGAAGAGCTGTTCCGCCGTAAAATCTGGCGTCTCAGCGAGCTGGGCTATGCCGCGGTCGATGATGAGACCACCAAAGCGGCAATGCGCGAGCTGAAGGCCATCGGCTACATCTCTGAGCCGCACGCGGCGATTGCCTGGCGCGCGCTGCGCGATCAGCTGCAGCCGGGAGAGTACGGTCTGTTCCTCGGCACCGCCCATCCGGCGAAGTTCAAAGAGAGCGTGGAGGAGATCCTGCAGGAGACCCTGCCGCTGCCGAAAGAGCTGGCCGACCGCGCCGACCTGCCGCTGCTGTCTCACAACCTGCCGGCGGATTTCGCCGCGCTGCGTAAGCTGATGATGGGCTAA	MKLYNLKDHNEQVSFAQAVTQGLGKHQGLFFPHDLPEFSLTEIDDMLAQDFVTRSAKILSAFIGDEIPQDVLQQRVRAAFAFPAPVSKVQEDVGCLELFHGPTLAFKDFGGRFMAQMLTHIAGDKPVTILTATSGDTGAAVAHAFYGLPNVKVVILYPRGKISPLQEKLFCTLGGNIETVAIDGDFDACQALVKQAFDDEELKATLGLNSANSINISRLLAQICYYFEAAAQLPQEARNQLVISVPSGNFGDLTAGLLAKSLGLPIKRFIAATNANDTVPRYLQGGEWAPKATQATLSNAMDVSQPNNWPRVEELFRRKIWRLSELGYAAVDDETTKAAMRELKAIGYISEPHAAIAWRALRDQLQPGEYGLFLGTAHPAKFKESVEEILQETLPLPKELADRADLPLLSHNLPADFAALRKLMMG	PGPT0009175_3926	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0009175-thrC-K01733	NA	NA
BMS020_06258	774	yaaA	COG3022	Peroxide stress resistance protein YaaA	ATGCTGATTCTGATTTCACCTGCTAAAACGCTCGATTATCAAAGCCCGCTGGCAACGACTCGCTATACCCAGCCCGAACTCCTCGAGTATTCTCAACAGCTTATCAGCATCGCCCGTCAGCTGACCGCGCCGCAAATCGGCAAGCTGATGAGCATCAGCGACAAGCTGGCGGATCTGAACGCCACCCGTTTCCACGACTGGCACCCTGACTTTACGCCGCAAAATGCCCGCCAGGCGATCCTCGCCTTTAAGGGCGATGTCTACACCGGCCTGCAGGCAGAGACGCTCACCGAGGACGACTTTGACTTCGCCCAGCGACACCTGCGCATGCTCTCCGGCCTGTATGGCGTGCTGCGTCCGCTGGACCTGATGCAGCCCTACCGCCTGGAGATGGGGATCCGTCTGGAAAACCCCCGCGGCAAAGATCTGTACCAGTTCTGGGGCGAGACCATTACCGAGAAGCTGAATCAGGCGCTGCAGGCTCAGGGCGACGATATCGTCATCAACCTGGCTTCCGATGAATATTTTAAATCGGTGAAAACGCAAAAATTGCAGGGCCAGCTGATCAAGCCGGTATTCCTCGATGAGAAGAACGGCAAATTCAAAGTGATCAGCTTCTATGCCAAGAAGGCCCGTGGCCTGATGAGTCGCTATATTATTGAAAACCGCTTAACCCAGCCGGAACAGCTGAAATCCTTTAATAGCGAAGGCTATTTCTTTGATGCGGAGGCGTCGGAGAAAGGCGAACTGGTGTTTAAACGCCACGAGCAGTAA	MLILISPAKTLDYQSPLATTRYTQPELLEYSQQLISIARQLTAPQIGKLMSISDKLADLNATRFHDWHPDFTPQNARQAILAFKGDVYTGLQAETLTEDDFDFAQRHLRMLSGLYGVLRPLDLMQPYRLEMGIRLENPRGKDLYQFWGETITEKLNQALQAQGDDIVINLASDEYFKSVKTQKLQGQLIKPVFLDEKNGKFKVISFYAKKARGLMSRYIIENRLTQPEQLKSFNSEGYFFDAEASEKGELVFKRHEQ				NA	NA	NA	NA	NA
BMS020_06259	1431	alsT	COG1115	Amino-acid carrier protein AlsT	ATGCCTGATTTTCTCTCATTTATCAATGAAATACTCTGGGGCTCAGTGATGATTTATCTGCTACTGGGCGCCGGTATCTGGTTTAGCTGGCAAACCCGGGGTATTCAGTTCCGTTACGTGCGCAAATTTGGCCGCAGCCTGAAAAAAAGCCTGCACCCGCAGCCGGGCGGTTTAACCTCCTTTCAGGCGCTCTGTACCAGCCTTGCTGCGCGAGTCGGCAGCGGCAATCTTGCCGGCGTCACGCTGGCTATCGCCGCCGGCGGGCCCGGCGCCGTATTCTGGATGTGGGTCTCGGCCCTGCTCGGCATGGCCAGCAGCTTCGCCGAATGTTCCCTTGCCCAGCTGTATAAAGAGCGCGATAGCCGCGGGCAGTTTCGCGGCGGCCCGGCCTGGTATATGGCGCGCGGGCTCGGCATGCGCTGGATGGGCGTTCTGTTTTCGATCCTCCTGCTGCTGGCCTATGGCTTTATCTTCAATACCGTACAGGCCAACTCCGTGGCCCATGCCCTGCGCTATGCGTTCGATCTGCCGGCGGCAGTCAGCGGCGGCGTGCTGGCCGTTGTCGTTCTGCTGGCCATCCGCCGTGGTTTACGCGGCGTGGCGCGCCTGATGCAGTGGATCGTCCCCATCATGGCGCTGCTGTGGATCGCCACCAGCCTGATTATCGGCCTGTGGCATATCACCGCCCTGCCGACGATTTTCGCCACCATCTTTCGCTGCGCCTTCGGCTGGCAGGAAGCCGCCGCCGGCGCGGTGGGCTACACCATCAGCCAGGCGCTGACCAGCGGCTTTCAGCGCGGCATGTTCTCCAATGAAGCAGGAATGGGCTCTTCGCCTAACGCCGCCGCAGCCGCCGCCTCCTGGCCGCCGCACCCGGCGGCGCAGGGTATCGTGCAGATGATTGGCGTGTTTATTGATACCATCGTCATCTGTACCGCCAGCGCGATTATCGTCATGCTGGCGCCTCACCCCGACAATGAGTATACGCTCAACGGCATCCAGGCCCTGCAGCACGCGATGAGCATGCTGGTCGGGGGCTGGGGGGCGGGTTTTATCGCTTTCATCGTGCTGCTGTTCGCCTTTAGCTCTATCGTCGCCAACTACCTGTACGCGGAAAATAATCTGGTCTTTCTGCGTCTGGATAAGCCGCGCTATATCTGGGCGCTGCGGATACTTACCGTCCTGATGGTGCTGCTGGGAACCGTGGTTAGCCTGCCGGTCGTCTGGCAGAGCGCGGATATCATTATGGCGCTGATGGCGATGACCAACCTGACGGCCATCCTGCTGCTCTCCCCGACGGTGCGGATTATCGCCAGTGATTATCTGCGTCAGCGCCAGCTGGGCATTCAGCCCACTTTCGATGCGTCGCGCTATCCTGAGATTCACCAACAGCTGGCCCCGGGCGCGTGGAATGAACTGCCGCGCGAATAG	MPDFLSFINEILWGSVMIYLLLGAGIWFSWQTRGIQFRYVRKFGRSLKKSLHPQPGGLTSFQALCTSLAARVGSGNLAGVTLAIAAGGPGAVFWMWVSALLGMASSFAECSLAQLYKERDSRGQFRGGPAWYMARGLGMRWMGVLFSILLLLAYGFIFNTVQANSVAHALRYAFDLPAAVSGGVLAVVVLLAIRRGLRGVARLMQWIVPIMALLWIATSLIIGLWHITALPTIFATIFRCAFGWQEAAAGAVGYTISQALTSGFQRGMFSNEAGMGSSPNAAAAAASWPPHPAAQGIVQMIGVFIDTIVICTASAIIVMLAPHPDNEYTLNGIQALQHAMSMLVGGWGAGFIAFIVLLFAFSSIVANYLYAENNLVFLRLDKPRYIWALRILTVLMVLLGTVVSLPVVWQSADIIMALMAMTNLTAILLLSPTVRIIASDYLRQRQLGIQPTFDASRYPEIHQQLAPGAWNELPRE	PGPT0014405_2449	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLYCINE_TRANSPORT,PGPT0014405-yflA|TC_AGCS-K03310	NA	NA
BMS020_06260	954	talB	COG0176	Transaldolase B	ATGACGGATAAATTAACTTCTCTGCGTCAGTACACCACTGTCGTCGCTGACACCGGAGATATTGCGGCAATGAAGCTGTATCAGCCTCAGGATGCCACCACCAACCCTTCCCTGATCCTCGGCGCGGCTCAGATCCCTGAGTACCGTAAGCTGATTGACGACGCTGTGGCCTGGGCTCGTAGCCAGAGCAGCGATCGCGCGCAGCAGATCCTCGATGCTTCCGACAAGCTGGCGGTGAACATCGGTCTCGAAATTCTGAAACTGATCCCGGGCCGTATCTCCACCGAAGTGGATGCGCGTCTCTCCTACGACACCGAAGCGTCTATCGCTAAAGCCAAGCGCATCATCAAGCTGTATAACGACGCGGGCATCAGCAACGATCGTATTCTGATCAAGCTGGCTTCCACCTGGCAGGGCATTCGCGCCGCTGAACAGCTGGAAAAAGAGGGCATCAACTGCAACCTGACGCTGCTGTTCTCCTTCGCTCAGGCTCGCGCTTGCGCCGAAGCGGGCGTCTTCCTGATTTCGCCGTTCGTTGGCCGTATCCTCGACTGGTACAAAGCCAATACCGATAAGAAAGAGTACGCGCCGGCAGAAGATCCGGGCGTGGTTTCCGTCAGCGAAATCTACGAGTACTACAAGCAGCACGGTTATGAAACCGTGGTGATGGGCGCCAGCTTCCGTAACGTTGGCGAAATTCTGGAACTGGCTGGCTGTGACCGCCTGACCATCGCCCCGGCGCTGCTGAAAGAGCTGTCCGAAAGCGAAGGCGCCGTTGAGCGTAAACTGGTGTATACCGGTGAAGTGAAAGCGCGTCCGGAGCGTATTACCGAATCTGAGTTCCTGTGGCAGCATAACCAGGATCCGATGGCGGTAGACAAACTGGCGGAAGGTATCCGTAAGTTTGCGATCGACCAGGAAAAACTGGAAAAAATGATCGGCGAACTGCTGTAA	MTDKLTSLRQYTTVVADTGDIAAMKLYQPQDATTNPSLILGAAQIPEYRKLIDDAVAWARSQSSDRAQQILDASDKLAVNIGLEILKLIPGRISTEVDARLSYDTEASIAKAKRIIKLYNDAGISNDRILIKLASTWQGIRAAEQLEKEGINCNLTLLFSFAQARACAEAGVFLISPFVGRILDWYKANTDKKEYAPAEDPGVVSVSEIYEYYKQHGYETVVMGASFRNVGEILELAGCDRLTIAPALLKELSESEGAVERKLVYTGEVKARPERITESEFLWQHNQDPMAVDKLAEGIRKFAIDQEKLEKMIGELL	PGPT0017375_2883	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_PENTOSE_METABOLISM,PGPT0017375-talA|talB-K00616	NA	NA
BMS020_06261	588	mog	COG0521	Molybdopterin adenylyltransferase	ATGAATACCTTACGAATCGGCTTAGTTTCCATTTCCGATCGCGCCTCCAGCGGCGTCTATCAGGACAAAGGCATCCCGGCACTGGAAGAGTGGCTGGCGCGTGCCCTTACCACCCCTTTTGAACTGCAGACTCGCCTGATCCCGGATGAGCAGGTCATTATTGAGCAAACGCTGTGCGAACTGGTTGACGAGATGGGGTGCCATCTGGTGCTGACCACCGGCGGCACCGGCCCGGCGCGTCGCGATGTGACGCCCGACGCCACGCTGGCGGTTGCCGATCGCGAGATGCCGGGCTTTGGCGAGCAAATGCGCCAGGTTAGCCTACACTTTGTGCCGACGGCGATCCTTTCCCGGCAGGTCGGGGTGATCCGCAAGCAGGCGCTGATCCTCAATCTTCCCGGACAACCGAAAGCGATTCAGGAGACCCTGGAAGGGGTGAAAGATGCTGACGGCAACGTGCTGGTGCACGGTATTTTCGCAAGTGTACCTTATTGTGTACAGTTGCTGGAGGGGCCTTATGTGGAAACCGATGGCCGTGTGGTAGAAGCATTTCGTCCAAAAAGTGCCCGACGCGAAACTTTATCCTGA	MNTLRIGLVSISDRASSGVYQDKGIPALEEWLARALTTPFELQTRLIPDEQVIIEQTLCELVDEMGCHLVLTTGGTGPARRDVTPDATLAVADREMPGFGEQMRQVSLHFVPTAILSRQVGVIRKQALILNLPGQPKAIQETLEGVKDADGNVLVHGIFASVPYCVQLLEGPYVETDGRVVEAFRPKSARRETLS	PGPT0008425_453	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008425-mogA-K03831	NA	NA
BMS020_06262	1302	proP_5		Proline/betaine transporter	ATGTCATATGCAAACCGACCGCTCAACCGCCAGGATTATAAAACGCTGACGCTGGCCGCCCTTGGCGGCGCGCTGGAGTTTTATGACTTTATCATCTTCGTTTTCTTCGCCGCCGTCGTCGGCGAGCTCTTCTTCCCCGCGGATATTCCGGAATGGCTTCGCCAGGTACAGACCTTTGGGATTTTCGCCGCCGGTTACCTGGCGCGTCCGCTGGGGGGGATCATCATGGCCCATTTTGGCGATCTGGTTGGCCGCAAGAAAATGTTTACCCTCAGCATCCTGCTGATGGCGCTGCCGACCCTGGCGATTGGTCTGTTGCCGACCTACAGCTCGGTGGGCATCGTCGCGCCGCTGTTGTTGCTGCTGATGCGTATTCTGCAGGGGGCGGCGATCGGCGGCGAGGTGCCTGGCGCCTGGGTATTTGTCGCCGAGCATGTTCCGGAAAAACGCATTGGTATCGCCTGCGGCACGCTGACGGCCGGCCTGACCGTAGGCATCCTGCTGGGATCGGTGGTAGCGACGCTTATCAACACCAGCCTGACGCCGCAGGGGATCCACGACGGCGGCTGGCGGATCCCCTTCCTGCTGGGAGGCGTATTTGGTCTGGTGGCGATGTATCTGCGCCGCTGGCTGCAGGAGACGCCGATTTTTCTTGAGATGCAGCAGCGCAAAGCGCTGGCGCAGGAGCTGCCGGTAAAAGCGGTCGTCCTCAAGCACCAGAAGGCGGTGGCGGTCTCTATGCTGCTGACCTGGCTGCTGTCGGCAGGCGTGGTGGTGGTGATCCTGATGTCGCCGGTCTGGCTGCAGAAACACTATGGCTTCGCCCCGGCGATAACCCTGCAGGCCAACAGCATTGCCACGATTATGTTGTGCATCGGCTGTCTGCTCGCCGGGCTGGCGGCGGACCGCTTCGGCGCCAGCCGCACCTTTATCGTCGGCAGCCTGCTGCTGGCGGTTGCCAGCTGGGCGTTTTACCACCTGTCTGGCGCCAGCCCGCAGCGGCTGTTTCTGCTCTACGGCACGGTGGGACTCTGTGTGGGCGTGGTGGGGGCGGTGCCTTATGTTATGGTGCGGGCCTTCCCGGCGGAAGTGCGCTTCACCGGCATCTCCTTTTCCTACAATCTGTCGTACGCGATTTTTGGCGGCCTGACGCCAATTGCCGTCACGATGCTGATGGGGGTGTCGCCGATGGCCCCGGCCTGGTATGTGCTGGCCTTGTCGCTGATGGGGCTGGGATTAGGTATCTGGCTGCGTCAGGGGCTGACGGCGGCGAGGTTGCCGGAAGGGGAGCTGCAGCGCTAA	MSYANRPLNRQDYKTLTLAALGGALEFYDFIIFVFFAAVVGELFFPADIPEWLRQVQTFGIFAAGYLARPLGGIIMAHFGDLVGRKKMFTLSILLMALPTLAIGLLPTYSSVGIVAPLLLLLMRILQGAAIGGEVPGAWVFVAEHVPEKRIGIACGTLTAGLTVGILLGSVVATLINTSLTPQGIHDGGWRIPFLLGGVFGLVAMYLRRWLQETPIFLEMQQRKALAQELPVKAVVLKHQKAVAVSMLLTWLLSAGVVVVILMSPVWLQKHYGFAPAITLQANSIATIMLCIGCLLAGLAADRFGASRTFIVGSLLLAVASWAFYHLSGASPQRLFLLYGTVGLCVGVVGAVPYVMVRAFPAEVRFTGISFSYNLSYAIFGGLTPIAVTMLMGVSPMAPAWYVLALSLMGLGLGIWLRQGLTAARLPEGELQR	PGPT0013645_1649	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013645-proP-K03762	NA	NA
BMS020_06263	567	satP	COG1584	Succinate-acetate/proton symporter SatP	ATGGGCAACACTAAGTTGGCTAATCCGGCACCGCTGGGCCTTATGGGCTTCGGCATGACCACTATTCTGCTTAACCTGGCGAATAGCGGCCTGTTCGCATTCGATGTAGCTATCCTGGCGATGGGCATTTTTTACGGCGGCATTGCGCAAATTTTTGCCGGCCTGCTGGAATACAAAAAAGGCAACACCTTTGGCTTGACCGCTTTTACCTCCTACGGCAGCTTCTGGCTGACGCTGGTTGCTATTCTCCTGATGCCGAAAATGGGCCTGGCTGATGCGCCGAACGCGCACTTCCTCGGCATGTATCTCGGCCTGTGGGGTATTTTTACGTTGTTCATGTTCTTCGGTACGCTAAAAGCCGCACGCATGCTGCAGTTCGTGTTCCTGAGCCTGACGGTGCTGTTTGCGCTGCTGGCGATTGGTCATCTGGTAGATAACGAAGGCATCGTGAAAGTTGCTGGCTGGGTCGGCCTGGTTTGCGGCGCCAGCGCCATTTACCTGGCGATGGGCGAAGTGCTGAACGAGCAGTTCGGCCGCACCGTGCTGCCGATCGGCGAACCACGTTAA	MGNTKLANPAPLGLMGFGMTTILLNLANSGLFAFDVAILAMGIFYGGIAQIFAGLLEYKKGNTFGLTAFTSYGSFWLTLVAILLMPKMGLADAPNAHFLGMYLGLWGIFTLFMFFGTLKAARMLQFVFLSLTVLFALLAIGHLVDNEGIVKVAGWVGLVCGASAIYLAMGEVLNEQFGRTVLPIGEPR				NA	NA	NA	NA	NA
BMS020_06264	750			hypothetical protein	ATGCATATTAACTATCTGGATGATGACGATCTCGCCTTTCTGCCTGAGTGCAGCGAGGCGCATCTGGAAGCGTTTACCCGTATTCTGACCCACGGGGAAAATGGCAAACCCCGTCTCTCCAGTACGCTGCTGCGCAACGAGACCTTTCTGTCTATGGAGGGCCACCCGGAGCGCTATCGCCGCAACTGGCAGTTGATCGCCGGCGAGCTACAGCATTTCGGCGGCGACAGCATCGCCAATACGCTGCGCCGCCATGGCAAATTTTATCGCGCCATCCTGCTGGATGTGTGTAAAAGGCTAAAGGCGAAGGTCGATAAACAGATGACGACGCCGCAGATCGAGCAACAGTTGTTGACGCATTTTCTGCAGCACAGCTGGAATAAGCTGGATGAGGAACAAAAAACGCAGTTTCTCGCCGCGGTGGAGTGCCGGAGTCATGAGCTGGAAAGCCTGCTGCCCCATCTGTTGAGGCGCCGCAAGCTGAGTGAAGGCGTTGCCCTGCTACTGGATGAGCGGTTAACCGCCATCCTGCGCACGCACGCCGCCGTGAGCGTCATCGGCCATGGACTGGTACGCGGCGCCGGGCTGGGAGGGCCGCTTGGCGCCGCGCTGAACAGCGTGAAAGCGGTAAGCGGCAGCGCTTATCGGGTCACCATCCCGGCGGTTCTGCATATTGCCTGTTTACGACAAATGCTCCACTCGTCGTCGGGCGCAACTGAAATTGGTGAAAAATACCCCGCCAGATCATAG	MHINYLDDDDLAFLPECSEAHLEAFTRILTHGENGKPRLSSTLLRNETFLSMEGHPERYRRNWQLIAGELQHFGGDSIANTLRRHGKFYRAILLDVCKRLKAKVDKQMTTPQIEQQLLTHFLQHSWNKLDEEQKTQFLAAVECRSHELESLLPHLLRRRKLSEGVALLLDERLTAILRTHAAVSVIGHGLVRGAGLGGPLGAALNSVKAVSGSAYRVTIPAVLHIACLRQMLHSSSGATEIGEKYPARS				NA	NA	NA	NA	NA
BMS020_06265	405			hypothetical protein	ATGAAATCACTATTCCGGCTTTCAGCGGGGCTTATCCTTAGCGTGTCAGTTATCACCTCGGCGGCCGCCAACGACCATAAGATCCTCGGCGTGATAGCCATGCCGCGCAATGAGACCAACGATCTGACGCTGAAGCTTCCCGTCTGCCGGGTGGTCAAACGTATTCAGCTCAGCGCCGAACGCGGCGATATTCAGCTCTCCGGAGCAACGGTCTACTTTAAGGCCAGCCACGGCGCCAGCCACACCCTGAACGTGCCCGCCGGGATCAAAGAGGGCCACACCACCGGCTGGCTCTCCCTCAACAGCGATAACGACAACAAGCGCTGTGTGAAAAAAATCGCCTTCTCCGGCCACACGGTCAACTCCTCAGATATGGCCTCACTGAAAATTATCGGCGACGACTAA	MKSLFRLSAGLILSVSVITSAAANDHKILGVIAMPRNETNDLTLKLPVCRVVKRIQLSAERGDIQLSGATVYFKASHGASHTLNVPAGIKEGHTTGWLSLNSDNDNKRCVKKIAFSGHTVNSSDMASLKIIGDD				NA	NA	NA	NA	NA
BMS020_06266	1917	dnaK_4	COG0443	Chaperone protein DnaK	ATGGGTAAAATTATTGGTATCGACCTGGGTACTACCAACTCTTGTGTAGCGATTATGGATGGCACTACTGCACGCGTGCTGGAGAACGCCGAAGGCGATCGCACCACGCCTTCTATCATTGCCTATACCCAGGATGGTGAAACTCTGGTTGGTCAGCCGGCTAAACGTCAGGCAGTGACAAACCCGCAAAACACCCTGTTTGCGATTAAACGCCTGATTGGCCGCCGCTTCCAGGACGAAGAAGTTCAGCGTGACGTTTCTATCATGCCATACAAAATTGTTGCCGCAGACAATGGCGACGCATGGCTGGATGTGAAGGGCACCAAAACTGCACCGCCGCAGATCTCTGCTGAAGTGCTGAAAAAAATGAAGAAAACGGCTGAAGATTACCTGGGTGAACCGGTAACTGAAGCGGTTATCACCGTACCGGCTTACTTCAACGATGCGCAGCGTCAGGCAACCAAAGATGCTGGCCGTATCGCCGGTCTGGAAGTCAAACGTATCATCAACGAACCGACCGCGGCCGCGCTGGCGTACGGTCTGGATAAAGAAGTGGGCAACCGCACGATCGCGGTTTACGACCTCGGTGGTGGTACTTTCGATATCTCTATTATCGAAATCGACGAAGTTGATGGCGAAAAAACCTTCGAAGTACTGGCGACCAACGGTGATACCCACCTGGGCGGCGAAGACTTCGATACCCGTCTGATCAACTACCTCGTTGATGAATTTAAGAAAGATCAGGGCATTGACCTGCGCAACGACCCGCTGGCGATGCAGCGCCTGAAAGAAGCCGCTGAGAAAGCGAAGATTGAACTCTCTTCTGCTCAGCAGACCGACGTTAACCTGCCGTACATCACGGCAGACGCGACCGGTCCGAAACACATGAACATCAAAGTGACGCGTGCGAAACTGGAAAGCCTGGTAGAAGACCTGGTTAACCGTTCCATCGAGCCGCTGAAAGTGGCCCTGCAGGATGCCGGTCTGTCCGTTTCCGATATCAACGACGTCATCCTCGTTGGTGGTCAGACTCGTATGCCGATGGTGCAGAAGAAAGTGGCCGAGTTCTTTGGTAAAGAACCGCGTAAAGACGTTAACCCGGACGAAGCCGTGGCGATCGGCGCTGCCGTTCAGGGCGGTGTACTGACCGGTGATGTGAAAGACGTTCTGCTGCTCGACGTGACCCCGCTGTCGCTGGGTATCGAAACCATGGGCGGCGTGATGACTGCGCTGATCAGCAAAAACACCACTATCCCGACCAAGCACAGCCAGGTGTTCTCTACCGCTGAAGACAACCAGTCCGCGGTTACCATCCATGTGCTGCAGGGTGAGCGTAAACGCGCGTCTGATAACAAATCTCTGGGTCAGTTCAACCTGGATGGCATTAACCCGGCGCCGCGCGGCATGCCGCAGATCGAAGTGACCTTTGACATCGATGCTGACGGTATCCTGCACGTCTCCGCGAAAGACAAAAACAGCGGTAAAGAGCAGAAGATCACCATCAAAGCGTCTTCCGGTCTGAATGAAGAAGAAATTCAGAAAATGGTTCGCGAAGCGGAAGCTAACGCCGAATCTGACCGTAAGTTCGAAGAGCTGGTACAGACCCGTAACCAGGGCGACCATCTGCTGCACAGCACTCGCAAGCAGGTTGAAGAAGCAGGCGATAAACTGCCGGCTGACGACAAAACTGCCATCGAGTCTGCGCTGACCGCGCTGGAAACTTCGCTGAAAGGTGAAGACAAAGCGGACATCGAAGCGAAAATGCAGGCGCTGGCGCAGGTTTCCCAGAAGCTGATGGAAATCGCCCAGCAGCAGCATGCTCAGCAGCAGGCGGGTTCCGCTGACGCTCAGGCGAGCAACGCGAAAGACGACGATGTTGTCGACGCTGAGTTCGAAGAAGTGAAAGATAAAAAATAA	MGKIIGIDLGTTNSCVAIMDGTTARVLENAEGDRTTPSIIAYTQDGETLVGQPAKRQAVTNPQNTLFAIKRLIGRRFQDEEVQRDVSIMPYKIVAADNGDAWLDVKGTKTAPPQISAEVLKKMKKTAEDYLGEPVTEAVITVPAYFNDAQRQATKDAGRIAGLEVKRIINEPTAAALAYGLDKEVGNRTIAVYDLGGGTFDISIIEIDEVDGEKTFEVLATNGDTHLGGEDFDTRLINYLVDEFKKDQGIDLRNDPLAMQRLKEAAEKAKIELSSAQQTDVNLPYITADATGPKHMNIKVTRAKLESLVEDLVNRSIEPLKVALQDAGLSVSDINDVILVGGQTRMPMVQKKVAEFFGKEPRKDVNPDEAVAIGAAVQGGVLTGDVKDVLLLDVTPLSLGIETMGGVMTALISKNTTIPTKHSQVFSTAEDNQSAVTIHVLQGERKRASDNKSLGQFNLDGINPAPRGMPQIEVTFDIDADGILHVSAKDKNSGKEQKITIKASSGLNEEEIQKMVREAEANAESDRKFEELVQTRNQGDHLLHSTRKQVEEAGDKLPADDKTAIESALTALETSLKGEDKADIEAKMQALAQVSQKLMEIAQQQHAQQQAGSADAQASNAKDDDVVDAEFEEVKDKK	PGPT0014555_2777	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043	NA	NA
BMS020_06268	1134	dnaJ_2	COG0484	Chaperone protein DnaJ	ATGGCAAAGCAAGATTACTACGAGATTTTAGGCGTCTCCAAAACAGCGGAAGAGCGTGAAATCAAAAAGGCTTATAAGCGCCTGGCCATGAAGTATCACCCGGACCGCAACCAGGGTGATAAAGAGGCCGAAGCCAAATTTAAAGAAATCAAAGAAGCGTATGAAATCCTGACTGATGCCCAGAAGCGTGCGGCCTACGATCAGTACGGCCATGCGGCCTTTGAGCAGGGCGGCATGGGCGGCGGCGGCGGTTTTGGCGGCGGTGCGGACTTCAGCGATATCTTTGGCGATGTTTTCGGCGATATCTTTGGCGGCGGACGTGGCCGGCAGCGCGCGGCGCGCGGCGCCGATCTCCGTTACAACATGGAGCTGACGCTGGAAGAAGCGGTTCGTGGCGTCACCAAAGAGATCCGTATTCCGACGCTGGAAGAGTGCGACGTCTGCCACGGCAGCGGCGCCAAAGCAGGCAGCAAACCGCAGACCTGTCCGACCTGTCATGGCGCGGGCCAGGTACAGATGCGTCAGGGCTTCTTTGCGGTACAGCAGACCTGTCCGCACTGTCAGGGACGCGGTACGCTGATTAAAGATCCGTGCAATAAATGTCATGGTCACGGCCGCGTTGAGAAGACCAAAACCCTGTCGGTTAAAATCCCGGCGGGCGTGGATACCGGCGACCGGATCCGTCTGGCGGGCGAAGGCGAAGCCGGCGAGCATGGCGCACCGGCAGGGGATCTGTACGTTCAGGTTCAGGTGAAGCAGCACGCTATCTTTGAGCGTGAAGGTAATAACCTGTACTGCGAAGTGCCGATCAACTTCACTATGGCTGCGCTGGGCGGTGAGATTGAGGTCCCGACGCTCGACGGTCGCGTCAACCTGAAAATTCCGGGTGAAACCCAGACCGGCAAGCTGTTCCGCATGCGTGGGAAAGGCGTGAAATCCGTTCGCGGCGGCGCGCAGGGCGATCTGCTGTGCCGGGTGGTGGTGGAGACGCCGGTGGGGCTGAACGAGAAGCAGAAGCAGCTGCTGAAGGAGCTGCAGGAAAGCTTCGGCGGCCCGACCGGGGAAAACAACAGCCCGCGTTCGAAAAGCTTCTTTGACGGTGTGAAGAAGTTTTTTGATGATTTGACTCGTTAA	MAKQDYYEILGVSKTAEEREIKKAYKRLAMKYHPDRNQGDKEAEAKFKEIKEAYEILTDAQKRAAYDQYGHAAFEQGGMGGGGGFGGGADFSDIFGDVFGDIFGGGRGRQRAARGADLRYNMELTLEEAVRGVTKEIRIPTLEECDVCHGSGAKAGSKPQTCPTCHGAGQVQMRQGFFAVQQTCPHCQGRGTLIKDPCNKCHGHGRVEKTKTLSVKIPAGVDTGDRIRLAGEGEAGEHGAPAGDLYVQVQVKQHAIFEREGNNLYCEVPINFTMAALGGEIEVPTLDGRVNLKIPGETQTGKLFRMRGKGVKSVRGGAQGDLLCRVVVETPVGLNEKQKQLLKELQESFGGPTGENNSPRSKSFFDGVKKFFDDLTR	PGPT0014545_3880	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686	NA	NA
BMS020_06269	768			hypothetical protein	ATGCCTCGGATAAAAAATACGCTATTGGCTTGTACGATACTTGCAGCATCCTTGGGCTTTAGTCACTCCGTACAAGCATCTTTGGACTACCAATATTCTTTTGGATCGATTAATGCAGGTTATGCTGACTGGAACAGCGGCTTTGTCGATGTAGGTCGTGGTGAGGTCTGGAAAGCCACAGCTGATTTTGGCGTCAATTTTAAAGAAGCTGAATTCTATTCTTTTTTTGAAAGTAATGTACTCAACCATTCTGTCGCGGGACGTAACCATACGGTTTCAGCGATGACGCATGTTCGCCTTTTTGGCTCTGACTATACGCTCTTTGGCAAGATTTATGGTCAGTGGGAAAATACGTGGGGGGATGATCTGGACATGTTTTATGGTCTTGGTTATCTGGGATGGTCCGGGAAATGGGGATTCTTTAAACCTTACCTAGGACTCCACAATGAGTCGGGTGATTATGTTTCACCAAAATATGGGCAAACAAGCGGCTGGAACGGGTATGTGCTGGGCTGGACGGCAGCTTATAACTTCACGCTATTTGACGAGAAATTTGTTCTGTCAGACTGGAATGAAATTGAATTTGAGCGAAATGACGCCTACGCGGAACAGCAACACGGTGATTATGGCATTAATGGCGGTTTAACGCTGGCCTGGAAATTTTATCCTCGCTGGAAGGCAACGGTAACCTGGCGTTATTTTAAAAACAAATTAGGTTATGACGGCTTTGGCGATCAAATGATTTATATGGTTGGGTATGAATTTTAA	MPRIKNTLLACTILAASLGFSHSVQASLDYQYSFGSINAGYADWNSGFVDVGRGEVWKATADFGVNFKEAEFYSFFESNVLNHSVAGRNHTVSAMTHVRLFGSDYTLFGKIYGQWENTWGDDLDMFYGLGYLGWSGKWGFFKPYLGLHNESGDYVSPKYGQTSGWNGYVLGWTAAYNFTLFDEKFVLSDWNEIEFERNDAYAEQQHGDYGINGGLTLAWKFYPRWKATVTWRYFKNKLGYDGFGDQMIYMVGYEF				NA	NA	NA	NA	NA
BMS020_06270	1494		COG3119	N-acetylgalactosamine-6-O-sulfatase	ATGAAAAGAACAGTTGTTGCCAGTATGATTGGGCTGGCGCTATGTGCCGGGAGCGTGCTGTCAACAGCACATGCCGCAACAGAAAAGCGTCCTAATTTGGTTATTATTCTGGCTGATGATTTAGGGTATGGCGATCTTGCAACTTATGGACATCCCATTGTCAAAACCCCGAATATCGACAAACTGGCGCAGGAAGGGGTGAAATTCACCGATTATTATGCGCCTGCGCCGCTGTGCTCTCCCTCCCGTGCGGGTCTGTTAACCGGTCGTATGCCATTTCGCACCGGTATTCGCTCATGGATCCCGGAAGGCAAAGATGTTGCATTAGGGCGTAATGAACTGACCATCGCCAATCTGTTGAAACAGCAGGGCTATGACACGGCGATGATGGGCAAACTGCACCTGAATGCAGGTGGAGATCGTACCGATCAGCCCCAGGCAAAAGATATGGGATTTGATTACAGTCTGGTGAACCCGGCGGGATTTGTCACGGATTCCACGCTGGATAATGCCAAAGAACGTCCTCGTTACGGGGTGGTGCATCCGACAGGATGGCTACGCAATGGGCAACGAATTGGTCGCGCAGATAAAATGAGCGGTGAGTTTGTCAGCTCTGAAGTGGTGAACTGGCTGGATAATAAGAAAGATGATAAGCCGTTCTTCTTATATGTCGCGTTTACTGAGGTGCACAGCCCGCTGGCTTCGCCGAAGAAGTATCTCGATATGTACTCGCAATATATGAGCGCGTACCAAAAACAGCATCCAGACCTGTTTTATGGCGACTGGGCTGATAAACCGTGGCGTGGCACGGGGGAGTACTACGCGAACATCAGTTACATGGATGCTCAGGTCGGTAAAGTGCTGGATAAAATTAAGGCAATGGGCGAAGAAGACAACACCATCGTGATTTTCACCAGTGACAATGGCCCGGTAACGCGTGAGGCGCGTAAGGTGTATGAGCTGAACCTGGCGGGTGAGACCGATGGTTTGCGTGGCCGTAAAGATAATCTGTGGGAAGGTGGCATCCGCGTTCCGGCGATTATTAAATATGGCAAACATCTGCCGCAGGGGATGGTGACGGATACGCCGGTTTCCGGTCTTGACTGGATGCCGACGCTGGCGAAGATGATGGATTTTACACTCCCGAACGATCGCACGTACGATGGCCAGTCTTTGGTTCCGCTGCTGGAACAGAAGCCGCTGGAGCGTAATAAGCCGTTGATCTTCGGCGTTGATATGCCATTCCAGGACGATCCAACCGATGAGTGGGCGATCAGGGATGGCGACTGGAAGATGATCATCGATCGTGAAAATAAACCGAAATATCTCTACAACCTGAAGACCGACCGTTACGAAACGCTCAATCAGATTGGCAAACGGCCGGATATTGAGAAACAACTGTACGATAAGTTCCTGAAGTATAAAGCAGACATCGATAACGATTCGTTAATGAAAGCCCGTGGCGATAAGCCGACGCCGGTCACCTGGGGCTAA	MKRTVVASMIGLALCAGSVLSTAHAATEKRPNLVIILADDLGYGDLATYGHPIVKTPNIDKLAQEGVKFTDYYAPAPLCSPSRAGLLTGRMPFRTGIRSWIPEGKDVALGRNELTIANLLKQQGYDTAMMGKLHLNAGGDRTDQPQAKDMGFDYSLVNPAGFVTDSTLDNAKERPRYGVVHPTGWLRNGQRIGRADKMSGEFVSSEVVNWLDNKKDDKPFFLYVAFTEVHSPLASPKKYLDMYSQYMSAYQKQHPDLFYGDWADKPWRGTGEYYANISYMDAQVGKVLDKIKAMGEEDNTIVIFTSDNGPVTREARKVYELNLAGETDGLRGRKDNLWEGGIRVPAIIKYGKHLPQGMVTDTPVSGLDWMPTLAKMMDFTLPNDRTYDGQSLVPLLEQKPLERNKPLIFGVDMPFQDDPTDEWAIRDGDWKMIIDRENKPKYLYNLKTDRYETLNQIGKRPDIEKQLYDKFLKYKADIDNDSLMKARGDKPTPVTWG				NA	NA	NA	NA	NA
BMS020_06271	1173	chuR_3	COG0641	Anaerobic sulfatase-maturating enzyme	ATGATTAAACCGACAGGTTCAGTATGCAATCTTGATTGTAAGTACTGCTTCTATCTGGAAAAGGAAAAGCTCTACCCGGAGCGAAAGCGCAACTACAGAATGTCAGACGAGATGCTGGAACGCTTCATTAAACAACATATTGCCGCACAAGAGATTGGTGAGGTGATTTTTGCCTGGCAGGGCGGAGAACCAACGTTGATGGGGCTGCCTTTTTATCGCCGGGCGATCGAACTCCAGCAGCGTTATGCTGCGGGAAAAACGATTGTGAATACCTTCCAGACGAACGGCATTTTGATCGACGACCAATGGGCTGAGTTTTTTCGGGCCAATCAATTCCTGGTCGGTATTTCCATTGACGGTGATGCAGCCTTGCATGACGAATGGCGCGTTACGCGCTCGGGAAAAGCGACGCATGCGAAAGTTGAACAGGCCATACAATGTCTGAACCGCCACGGCGTTGAATTTAATACGCTGACGGTTGTTAATCAGAGCAATATGCGCCATCCGCTTCAGGTATATCGCTATCTGAAGAGCATCGGCAGCCGTTATATGCAATTTATCCCTTTGGTGGAAAGAAGCAGCGAAAAGAGCGGCCTTGGGCTGGCGCACCCTGAGGACAGGCAAACAAAAATGATGCCGTGGTCGGTTGATCCGCTACAGTTTGGCCATTTTCTTAACGCTATTTTTGATGTATGGGTCCGCGAAGACATTGGCGACATAGGCATACAGATGTTTGAACAGACGCTTGCCGCCTGGTGTGGGTTGCCTCCCCAGGTATGCGTATTCGCGCCAACCTGCGGCAGCGCGTTTGCGATGGAGATGAACGGCGACGTTTATAACTGCGATCATTTTGTTTATCCGCAGTACAGGCTGGGAAATATTCAGGATACGACGCTACATGCGATGAATAATAGCGCGCAAAACCAGCAGTTTGGTGATGATAAAAGCCACTCAATGGCGCAGGAGTGTCGCTCTTGTCAGTGGCAATTTGCCTGCTACGGCGGCTGCCCCAAGCACCGCTTCTTGCTATCCGCGACGGGCGAGAGAAACCACAACTATTTGTGCGCGGGTTACAAGGCATTTTTCTCTCATAGCGCGGTGACTATGAGCGCGATGAAAACACTCCATCAGAATGGTTTTTCACCGGCAGAGATAAAATCAATATTTGTTTGA	MIKPTGSVCNLDCKYCFYLEKEKLYPERKRNYRMSDEMLERFIKQHIAAQEIGEVIFAWQGGEPTLMGLPFYRRAIELQQRYAAGKTIVNTFQTNGILIDDQWAEFFRANQFLVGISIDGDAALHDEWRVTRSGKATHAKVEQAIQCLNRHGVEFNTLTVVNQSNMRHPLQVYRYLKSIGSRYMQFIPLVERSSEKSGLGLAHPEDRQTKMMPWSVDPLQFGHFLNAIFDVWVREDIGDIGIQMFEQTLAAWCGLPPQVCVFAPTCGSAFAMEMNGDVYNCDHFVYPQYRLGNIQDTTLHAMNNSAQNQQFGDDKSHSMAQECRSCQWQFACYGGCPKHRFLLSATGERNHNYLCAGYKAFFSHSAVTMSAMKTLHQNGFSPAEIKSIFV	PGPT0026880_1706	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0026880-ydeM|yidF|alsB|chuR-K06871	NA	NA
BMS020_06272	1269			hypothetical protein	ATGTTTTCTCAGGTTAATGTCGATAGCTGCAAAACGCCAGGCTGCAAAAATCTGGGCGTGCTGAACAGCCCGGATTACCAGAACCAGGGGAAAAATGTGTTATGCAGGGCATGTGGTTTTCATTTTCCTGTGATTTCGGCAAGATCGCTGAATCTTTTTCGCCAGTCGGTAAATCGGGTATGGAAAGGGTTGATAAAATCCTGCCCAGGATGCGGCGGCGTCTCACTAAAAAAGTATGGCTTTTCCGCGCAGGGAGAGCCACGCGTCTGCTGCCAGCAGTGCCATAAAACATTTCTTTATCCCGTCAGATATAAAACCGATCCGCGCCAGGATTATCTTGCCGCACTCATCCAGGATGGGGCTTCGCTGGCGGATATCCGATCCGCCCTTGCGTTAGACAGTACCGGACTAAGCCGTGAATTACAGAAGTTATCCCGCAGGGCAAATCAGGCGGAACGCGAGTTTGCCTTTCCCGCTTTCGACATTACCCTCAGCACCCGCGCTTTTCGGGTTAAATTTAACGGCGGTGACAATTTTCTGTATGTGCTGGTCACCGCCGAGGAGACTACCGGTCGGATTATATCCGTAACAACCAATTATTCACTCCAGCCCGTTGAAGCGGAGTATCAATACCACTCTTATTACGAAGAGCGCCTGCCGCCCGGTACGCTGGTACATCTTGTGCAACGGAAAGAAGCGATAACGATGCGGCGCGCAACGCTTTTTGATGTGGATTACGGACCGGCGGCGTTATACAAAAACGATCCGGGGATGCTGGTCAAACCCGTATTGCCGGCTTATCGCCATTTTGAATTAGTCAAAACACTGACAGATGCACGTTCCCTCAATATTCAACACTACATCGATCAGGAATGTTTTATATTAGGTGGCTGCCTGATGGCGAATTTGCAGCAGGTTCAACAGGGACGATGCCATATCTCATTTGTCAGAGAGCGAGGCATGACGCCGCCGCTGCATGATATCCCGCCGCGCCTGTTTATGGGCGGAGGGAACCGCAACAATGTCTGGCGGACCTTCTCTACACGGGACTATGCGATGGCGGTTTGTAACCTAACCGGCAATAAAAAAACGGCCAATCTGCGGCACGCCACGTTAAATGGCGCGACGAAATTTATTCAATACCTACACGCGCATCCTTTTTTGCCGCAGCTAAATCGCCTGTCTCCGGCGAACGTGACCGTGACGCTGGATTGTCTGAAATATGAATATAATAAAAGACAGAAAATGTGGGACGATCTGCGCGGTTAA	MFSQVNVDSCKTPGCKNLGVLNSPDYQNQGKNVLCRACGFHFPVISARSLNLFRQSVNRVWKGLIKSCPGCGGVSLKKYGFSAQGEPRVCCQQCHKTFLYPVRYKTDPRQDYLAALIQDGASLADIRSALALDSTGLSRELQKLSRRANQAEREFAFPAFDITLSTRAFRVKFNGGDNFLYVLVTAEETTGRIISVTTNYSLQPVEAEYQYHSYYEERLPPGTLVHLVQRKEAITMRRATLFDVDYGPAALYKNDPGMLVKPVLPAYRHFELVKTLTDARSLNIQHYIDQECFILGGCLMANLQQVQQGRCHISFVRERGMTPPLHDIPPRLFMGGGNRNNVWRTFSTRDYAMAVCNLTGNKKTANLRHATLNGATKFIQYLHAHPFLPQLNRLSPANVTVTLDCLKYEYNKRQKMWDDLRG				NA	NA	NA	NA	NA
BMS020_06273	1224	nhaA	COG3004	Na(+)/H(+) antiporter NhaA	GTGTATTATACTTTTATCGAGTTATTCACCAACAGGATGAAAGTAAAAGTGAAACATCTGCAACGATTCTTCAGTAGCGATGCTTCCGGCGGCATTGTCTTAATCATCGCCGCGGCGCTGGCGATGGTCATGGCCAATACCAGCGTGACCAGCGGTCTGTATCACTCCTTCCTTGATACGCCTGTACAGCTGCGGGTAGGGGCGCTGGAGATCAACAAGAATATGCTGCTATGGATCAATGATGCCCTGATGGCGGTGTTCTTCTTGCTGATTGGCCTGGAGGTTAAACGCGAGCTGATTCAGGGCTCGCTGGCGAGTCGCCGTCAGGCGGTCTTTCCGGTGATTGCCGCGCTCGGCGGGATGATCGTCCCGGCGCTGGTCTATCTGGCCTTTAACGCTCAGGATCCTGTCGCCAGAGAGGGTTGGGCGATCCCGGCGGCGACGGATATTGCCTTTGCCCTCGGCGTGCTGGCGCTGTTAGGCAGCCGCGTCCCGACGGCGCTGAAGATTTTCCTGATGGCGCTGGCGATTATTGATGACCTTGGGGCTATCGTGATTATCGCGCTGTTTTATACCCACGACCTGTCAATGCTCTCGCTGGGCGTGGCGGCGGCGGCGATTGCGGTGCTGGTGGTTCTGAATCTGAGCGGCGTGCGACGCACCGGGATCTATATTCTGGTCGGTGCGGTGCTGTGGACCGCGGTGCTGAAGTCCGGCGTTCACGCGACGCTTGCCGGGGTCATCGTCGGCTTTATGATCCCCCTCCAGGAGAAGCAGGGTCAGTCACCGGCTAAAGTGCTTGAGCATGTCCTGCATCCGTGGGTGGCGTTTATGATCCTGCCGCTGTTTGCCTTCGCCAACGCGGGCGTCTCGCTGGGGGGGGTTACGCTTGATGGACTGACGTCGCTGCTGCCCCTGGGTATCATGGCCGGCCTGTTTATCGGTAAGCCGCTGGGGATCAGCCTGTTCTGCTGGCTGGCCCTGAAGCTGAAGTGGGCCTCGCTACCGGAGGGGACCACCTGCCGGCAGATTATGGCGGTGGGCATTCTGTGCGGGATTGGCTTTACGATGTCGATTTTTATCGCCACGCTTGCCTTCGGCAATGTCGATCCCGCGTTAATCAACTGGGCCAAGCTTGGCATCTTAATTGGATCGGTGGTATCAGCTGTTACCGGCTACCTCATACTGCGTCAGCGCGTAACGGATACTCGCCTCGCGGTATAA	MYYTFIELFTNRMKVKVKHLQRFFSSDASGGIVLIIAAALAMVMANTSVTSGLYHSFLDTPVQLRVGALEINKNMLLWINDALMAVFFLLIGLEVKRELIQGSLASRRQAVFPVIAALGGMIVPALVYLAFNAQDPVAREGWAIPAATDIAFALGVLALLGSRVPTALKIFLMALAIIDDLGAIVIIALFYTHDLSMLSLGVAAAAIAVLVVLNLSGVRRTGIYILVGAVLWTAVLKSGVHATLAGVIVGFMIPLQEKQGQSPAKVLEHVLHPWVAFMILPLFAFANAGVSLGGVTLDGLTSLLPLGIMAGLFIGKPLGISLFCWLALKLKWASLPEGTTCRQIMAVGILCGIGFTMSIFIATLAFGNVDPALINWAKLGILIGSVVSAVTGYLILRQRVTDTRLAV	PGPT0013935_1383	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013935-nhaA-K03313	NA	NA
BMS020_06274	897	nhaR	COG0583	Transcriptional activator protein NhaR	ATGTCACATATCAACTACAACCATCTGTACTACTTCTGGCACGTCTATAAAGAAGGGTCTGTCGTGGGCGCGGCGGAGGCGCTGTTTCTGACGCCGCAAACCATTACCGGGCAGATCAAAGCGCTGGAGGAGCGTCTGCAGGGAAAGTTATTTAAGCGCAAGGGAAGAGGGCTGGAGCCGAGCGAGCTCGGGGAGCTGGTCTTTCGCTACGCCGACCGGATGTTTACCCTGAGCCAGGAGATGCTCGACATCGTCAACTACCGCAAAGAGTCGAATCTGCTGTTTGACGTCGGCGTGGCCGATGCGCTATCGAAACGGCTGGTCAGCGGCGTACTGGATGCCGCCGTTGTCGAAAGCGAGCAGATCCATCTGCGCTGTTTTGAATCCACCCATGAGCTGCTGCTGGAGCAACTGAGCCAGCATAAGCTCGATATGATTATCTCTGACTGCCCGATCGACTCGACGCAGCAGGAAGGGCTGTTTTCGGTGAAGATTGGCGAGTGCAGCGTCAGCTTCTGGTGCATGAACCCGGCGCCAATGAAGCCGTTCCCGGCCTGTCTTGAAGAGCGACGGCTGCTGATCCCTGGTCGACGCTCGATGCTGGGACGTAAGCTGCTGAACTGGATTAACGTGCAGGGGCTGAAGGTGGAGATCCTCGGCGAGTTTGACGACGCGGCGCTCATGAAAGCCTTCGGCGCCGCGCATAATGCGATTTTTGTCGCGCCGACGCTCTACGCGCATGATTTCTACCATGATGAATCGATTGTCGAAATTGGCCGCATGGATAGCGTGATGGAGGAGTATCACGCCATTTTCGCCGAACGGATGATTCAGCATCCGGCGGTACAGCGCATCTGCAATCGCGATTATTCGTCGCTGTTTACTGAACCCAGATAG	MSHINYNHLYYFWHVYKEGSVVGAAEALFLTPQTITGQIKALEERLQGKLFKRKGRGLEPSELGELVFRYADRMFTLSQEMLDIVNYRKESNLLFDVGVADALSKRLVSGVLDAAVVESEQIHLRCFESTHELLLEQLSQHKLDMIISDCPIDSTQQEGLFSVKIGECSVSFWCMNPAPMKPFPACLEERRLLIPGRRSMLGRKLLNWINVQGLKVEILGEFDDAALMKAFGAAHNAIFVAPTLYAHDFYHDESIVEIGRMDSVMEEYHAIFAERMIQHPAVQRICNRDYSSLFTEPR	PGPT0013946_535	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013946-nhaR-K03717	NA	NA
BMS020_06275	939	ribF_2	COG0196	Bifunctional riboflavin kinase/FMN adenylyltransferase	ATGAAGCTGATACGCGGCATACATAATCTCAGTCAGGCCCCGCACGGGTGCGTGCTGACCATTGGCAATTTTGACGGCGTGCATCGTGGGCATCAGGCGCTGCTGCAGCGCTTGCGCGAAGAGGGCCGCCAGCGCGGTTTACCGGTGGTGGTGATGATTTTCGAACCCCAGCCGCTCGAGCTCTTTGCCGCCGATAAAGCCCCGGCGCGGTTGACCCGCCTGCGTGAAAAGCTGAGCTATCTGGCTGAAAGCGGAGTCGACTATGTGCTGTGCGTTCGCTTCGACCGCCGGTTCGCCGCGCTGACGGCGCAGGATTTTATCAGTGAACTGCTGGTGCGCCGCCTGGGCGTGCAGTTCCTTGCCATCGGTGACGATTTCCGCTTTGGCGCTGGTCGCCAGGGGGATTTCTTGTTATTACAAAAGGCGGGGGCGGAATACGGCTTCGACGTCACCAGCACCCAAACCTTCTGCGAAGGCGGGGTGCGGATCAGCAGCACGGCGGTGCGTCAGGCGCTGGCTGATGACGATCTCCTGTTGGCGGAGACGCTGCTCGGCCATCCGTTTAGCATTTCCGGACGCGTCGTGCATGGCGACGAACTGGGCCGTACCATAGGTTTTCCGACGGCGAACTTACCGCTGCGTCGTCAGGTTTCCCCGGTTAAAGGGGTCTATGCGGTAGAAGTGACAGGGCTGGGCGACAAGCCGATCGCCGGCGTCGCCAATATTGGCACCCGTCCAACGGTAGCGGGCGTGCGTCAGCAGCTCGAAGTGCATCTGTTGGACGTTGTAATGGACCTCTACGGTCGCCATATCAATGTAGTACTGCGTAAAAAGATACGTAATGAGCAGCGGTTTGCGTCGCTCGACGAGCTGAAGGCGCAAATCGCACGTGATGAGTTAACGGCCCGCGAATTATTTGGGCTGACCAGCCAGGCCTGA	MKLIRGIHNLSQAPHGCVLTIGNFDGVHRGHQALLQRLREEGRQRGLPVVVMIFEPQPLELFAADKAPARLTRLREKLSYLAESGVDYVLCVRFDRRFAALTAQDFISELLVRRLGVQFLAIGDDFRFGAGRQGDFLLLQKAGAEYGFDVTSTQTFCEGGVRISSTAVRQALADDDLLLAETLLGHPFSISGRVVHGDELGRTIGFPTANLPLRRQVSPVKGVYAVEVTGLGDKPIAGVANIGTRPTVAGVRQQLEVHLLDVVMDLYGRHINVVLRKKIRNEQRFASLDELKAQIARDELTARELFGLTSQA	PGPT0008625_2698	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
BMS020_06276	2853	ileS_2	COG0060	Isoleucine--tRNA ligase	GTGTTTATCAAACCGAAATACGGAACCGAGAATCTGATGAGTGACTATAAATCGACCCTGAATTTGCCGGAAACAGGGTTCCCTATGCGTGGCGATCTCGCCAAACGCGAACCGGGAATGCTGGCGCGTTGGACCGATGATGACCTGTACGGCATCATTCGTGCAGCCAAAAAAGGCAAAAAAACCTTCATTCTGCATGATGGCCCTCCTTATGCGAATGGCAGTATTCATATTGGTCACTCGGTTAACAAGATTCTGAAAGACATTATCGTTAAGTCCAAAGGACTGACGGGCTATGACTCGCCTTACGTTCCGGGCTGGGACTGCCACGGTCTGCCGATCGAGCTGAAAGTAGAGCAGGAATACGGCAAGCCGGGCGAGAAGTTCACCGCCGCAGAATTCCGCGCCAAGTGCCGCGAATATGCCGCTCTGCAGATCGAGGGTCAGCGTAAAGATTTCATCCGTCTCGGCGTGCTGGGCGACTGGTCGCATCCGTATCTGACCATGGACTTCAAAACCGAAGCCAACATCATTCGCGCGCTGGGTAAAATCATCGGCAACGGTCACCTGCATAAAGGCGCCAAGCCGGTGCACTGGTGCGTAGACTGCCGTTCCGCGCTGGCGGAAGCGGAAGTGGAGTATTACGACAAGACTTCTCCATCCATCGACGTGGCGTTCCACGCGGTAGATAAAGCCGCGGTGCTGGCGAAATTCGGCGTCGCCGACGTCAACGGCCCGGTGTCGCTGGTTATCTGGACCACCACCCCGTGGACCCTGCCGGCTAACCGCGCTATCTCCCTGTCGCCAGAGTTCGACTATGCGCTGGTGCAGGTGGACGGCCAGGCGCTGATCCTGGCGAAAGACCTCGTTGAGAGCGTGATGAAGCGCGTTGGCGCGGCCGATTACACCATCCTGGCGGCGGTGAAAGGCGCCGAGCTTGAACTGATGCGTTTCCAGCACCCGTTCCTCGATTTCGACGTGCCGGCGATCCTTGGCGACCACGTGACGCTGGATGCCGGTACCGGTGCGGTGCATACCGCCGGCGGTCACGGTCCGGACGATTACACGATCAGCCAGAAATACGGTCTGGAAATCGCTAACCCGGTTGGCCCGGACGGGGCTTATCTGCCAGGCACCTATCCGTCTCTGGACGGTATCAACGTCTTCAAAGCCAACGATATCATCGTTGAGATGCTGCGTGAGCGCGGCGCGCTGCTGCATGTGGAAAAAATGCAGCACAGCTATCCGTGCTGCTGGCGCCACAAGTCGCCAATCATCTTCCGCGCCACCCCGCAGTGGTTCGTGAGCATGGATCAGAAAGGTCTGCGCGCGCAGTCGCTGAAAGAGATCAAAGGCGTGCAGTGGATCCCGGACTGGGGCCAGGCGCGTATCGAATCGATGGTCGCCAACCGTCCTGACTGGTGCATCTCCCGTCAGCGTACCTGGGGCGTGCCGATGTCGCTGTTCGTGCATAAAGAAACCCACGAACTGCACCCGCGTACCCTTGAGCTGATGGAAGAAGTCGCGAAGCGTGTTGAAGTCGACGGCATCCAGGCGTGGTGGGATCTCGATTCCCGCGACATCCTTGGCGATGACGCTGACAGCTACGAGAAAGTGCCGGATACCCTCGACGTCTGGTTTGACTCCGGGTCGACCCACTCTTCCGTGGTTGACGTGCGTCCGGAATTCGCCGGTCACGCCGCCGATATGTATCTGGAAGGCTCCGACCAGCATCGCGGCTGGTTCATGTCCTCTCTGATGATTTCCACGGCGATGAAAGGCAAAGCGCCATATCGTCAGGTACTGACCCACGGCTTCACCGTCGATGGTCAGGGCCGCAAAATGTCCAAGTCTATCGGCAACACTGTTAGCCCGCAGGACGTGATGAACAAGCTGGGCGCCGATATCCTGCGCCTGTGGGTGGCTTCCACCGACTACACTGGCGAAATGGCGGTCTCTGACGAGATCCTCAAACGCGCCGCGGACAGCTATCGTCGTATCCGTAACACCGCGCGCTTCCTGCTGGCCAACCTGAACGGTTTCGATCCGGCAAAAGATATGGTCAAACCGGAAGAGATGGTGGTGCTGGATCGCTGGGCGGTCGGCTGCGCGCAGGCGGCACAGGAAGATATCCTGAAAGCCTACGAATCCTACGACTTCCACGAAGTGGTGCAGCGCCTGATGCGCTTCTGCTCCATTGAGATGGGCTCGTTCTACCTCGACATCATCAAAGACCGTCAGTACACCGCCAGGGCGGACAGCGTGGCGCGTCGCAGTTGCCAGACCGCGCTGTTCCACATCGTGGAAGCGCTGGTGCGCTGGATGGCGCCGATCATGTCCTTCACCGCGGACGAAATCTGGGGTTACCTGCCGGGTGAGCGTGAGAAATACGTCTTTACCGGCGAATGGTATCAAGGTCTCTTCGGTCTGGCCGACAACGAAGCGATGAATGACGGCTTCTGGGATGAGCTGCTGAAAGTCCGCGGCGAAGTCAACAAAGTGATCGAACAGGCGCGTGCGGATAAGAAAGTCGGCGGCTCGCTGGAAGCCTCGGTGACGCTGTATGCTGATGCCGATCTGGCCGCTAAGCTCAACGCGCTGGGCGATGAATTGCGATTTGTCCTGTTGACCTCCGGGGCGAACGTCGCAGACTATGCGAGCGCGCCTGCTGATGCCCAGCAGAGCGAACTGCTCAAAGGACTGAAAGTCGCATTGAGCAAAGCTGAAGGTGAGAAATGCCCGCGCTGCTGGCATTACACCACCGATATCGGCAAGGTGGCGGAACACGCGGAAATCTGCGGACGCTGTGTGAGCAACGTCGCCGGTGACGGCGAGCAACGTAAATTCGCCTGA	MFIKPKYGTENLMSDYKSTLNLPETGFPMRGDLAKREPGMLARWTDDDLYGIIRAAKKGKKTFILHDGPPYANGSIHIGHSVNKILKDIIVKSKGLTGYDSPYVPGWDCHGLPIELKVEQEYGKPGEKFTAAEFRAKCREYAALQIEGQRKDFIRLGVLGDWSHPYLTMDFKTEANIIRALGKIIGNGHLHKGAKPVHWCVDCRSALAEAEVEYYDKTSPSIDVAFHAVDKAAVLAKFGVADVNGPVSLVIWTTTPWTLPANRAISLSPEFDYALVQVDGQALILAKDLVESVMKRVGAADYTILAAVKGAELELMRFQHPFLDFDVPAILGDHVTLDAGTGAVHTAGGHGPDDYTISQKYGLEIANPVGPDGAYLPGTYPSLDGINVFKANDIIVEMLRERGALLHVEKMQHSYPCCWRHKSPIIFRATPQWFVSMDQKGLRAQSLKEIKGVQWIPDWGQARIESMVANRPDWCISRQRTWGVPMSLFVHKETHELHPRTLELMEEVAKRVEVDGIQAWWDLDSRDILGDDADSYEKVPDTLDVWFDSGSTHSSVVDVRPEFAGHAADMYLEGSDQHRGWFMSSLMISTAMKGKAPYRQVLTHGFTVDGQGRKMSKSIGNTVSPQDVMNKLGADILRLWVASTDYTGEMAVSDEILKRAADSYRRIRNTARFLLANLNGFDPAKDMVKPEEMVVLDRWAVGCAQAAQEDILKAYESYDFHEVVQRLMRFCSIEMGSFYLDIIKDRQYTARADSVARRSCQTALFHIVEALVRWMAPIMSFTADEIWGYLPGEREKYVFTGEWYQGLFGLADNEAMNDGFWDELLKVRGEVNKVIEQARADKKVGGSLEASVTLYADADLAAKLNALGDELRFVLLTSGANVADYASAPADAQQSELLKGLKVALSKAEGEKCPRCWHYTTDIGKVAEHAEICGRCVSNVAGDGEQRKFA				NA	NA	NA	NA	NA
BMS020_06277	501	lspA_2	COG0597	Lipoprotein signal peptidase	ATGAGTAAATCGATCTGTTCAACGGGGCTACGCTGGCTGTGGGTGGTCGTAGCCGTGCTGATTATCGATCTGGGCAGCAAATTCCTGATCCTCCAGAACTTCGCTCTGGGGGAGACGGTGCCGCTGTTCCCGTCGCTTAATCTGCATTATGCCCGCAACTATGGCGCGGCCTTTAGCTTCCTCGCCGACAGCGGCGGCTGGCAGCGCTGGTTCTTTTCCGGGATCGCCATCGGCATTTGCGTGGTGCTGACGGTGCTGATGTACCGTTCGAAGGCGACGCAAAAGCTAAACAATATTGCCTACGCCCTGATTATCGGCGGCGCGCTGGGCAACTTGTTCGATCGCCTGTGGCACGGCTTTGTGGTCGATATGATCGACTTCTACGTCGGCGACTGGCACTTCGCCACTTTCAACCTCGCCGATAGCGCTATCTGCATCGGCGCGGCGATGATTGTGCTGGAAGGCTTCCTGCCGAAACCGACCGCAAAAGAGCAGGCGTAA	MSKSICSTGLRWLWVVVAVLIIDLGSKFLILQNFALGETVPLFPSLNLHYARNYGAAFSFLADSGGWQRWFFSGIAIGICVVLTVLMYRSKATQKLNNIAYALIIGGALGNLFDRLWHGFVVDMIDFYVGDWHFATFNLADSAICIGAAMIVLEGFLPKPTAKEQA	PGPT0004770_3251	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004770-pbrB|pbrC-K03101	NA	NA
BMS020_06278	450	fkpB	COG1047	FKBP-type 16 kDa peptidyl-prolyl cis-trans isomerase	ATGTCTAAATCCGTACAGAGCAACAGCGCGGTTCTCGTTCACTTCACGCTGAAGCTGGACGATGGATCCACCGCCGAGTCCACCCGTAACAATGGCAAACCGGCGCTGTTTCGCCTCGGCGACACCTCCCTGTCTGAGGGGCTGGAGCAACAGCTTCTTGGTCTGAAAGAGGGCGAGAAAAAGGCCTTTTCGCTGGAGCCTGACGCCGCATTTGGCGTCCCGAGCCCGGACCTGATTCAGTATTTCTCTCGCCGCGAGTTTATCGACGCCGGCGAGCCGGAGATCGGCGCGATTATGCTCTTTACCGCAATGGATGGCAGCGAAATGCCTGGCGTGATCCGTGAAGTGAACGGCGATTCCATCACCGTCGACTTCAACCATCCGCTGGCCGGGCGCACCGTTCATTTTGATATTGAAGTGCTGGAGATCGATCCGGCGCTGGAGGATTAA	MSKSVQSNSAVLVHFTLKLDDGSTAESTRNNGKPALFRLGDTSLSEGLEQQLLGLKEGEKKAFSLEPDAAFGVPSPDLIQYFSRREFIDAGEPEIGAIMLFTAMDGSEMPGVIREVNGDSITVDFNHPLAGRTVHFDIEVLEIDPALED				NA	NA	NA	NA	NA
BMS020_06279	951	ispH_2	COG0761	4-hydroxy-3-methylbut-2-enyl diphosphate reductase	ATGCAGATCCTGTTGGCTAACCCGCGCGGCTTTTGCGCTGGCGTTGACCGCGCTATCAGCATTGTAGAAAACGCGCTGACGCTGTACGGCGCGCCGATCTATGTTCGTCATGAAGTGGTGCATAACCGCTATGTGGTGGATAGCCTGCGCAAGCGCGGCGCCATTTTTATCGAACAGATCAGCGAAGTACCGGATGGCGCGATCCTGATCTTCTCCGCTCACGGCGTATCGCAGGCGGTACGGAATGAAGCGAAGAGCCGCGATCTGACGGTGTTCGACGCCACCTGTCCGCTGGTGACGAAAGTGCATATGGAAGTCGCCCGCGCCAGCCGCCGTGGCGAAGAGTCGATTCTGATCGGCCATGCCGGACACCCGGAAGTCGAAGGCACGATGGGGCAGTACAATAACCCGCAAGGGGGCATGTACCTGGTCGAGTCGCCGGAAGACGTTCTCAAGCTGGAAGTCAAAAACGACGCCCGGCTGTCGTTTATGACCCAGACCACCCTCTCGGTGGATGATACCTCGGATGTGATTGACGCGCTGCGCGCGCGTTTCCCGAAAATCGTCGGCCCGCGCAAAGACGACATTTGCTATGCCACCACTAACCGTCAGGAAGCGGTGCGCGCGCTGGCGGAGCAGGCTGACGTGGTGCTGGTGGTTGGTTCGAAAAACTCCTCCAACTCAAACCGTCTCGCCGAACTGGCGCAGCGGATGGGTAAGGCGGCTTACCTGATTGACGATGCCTCCGATATTCAGGAAGCGTGGGTCAAGGATGCGGCCTGCGTTGGCGTGACGGCGGGCGCGTCGGCGCCGGATATTCTGGTGCAGAACGTCATTACCCGCCTGCAGGAGCTGGGCGGCGGCGAAGCCGTACCGCTGGAAGGCCGGGAAGAGAATATCGTCTTTGAAGTGCCGAAAGAGCTGCGTGTGGATGTCCGTGAAGTAGAGTAA	MQILLANPRGFCAGVDRAISIVENALTLYGAPIYVRHEVVHNRYVVDSLRKRGAIFIEQISEVPDGAILIFSAHGVSQAVRNEAKSRDLTVFDATCPLVTKVHMEVARASRRGEESILIGHAGHPEVEGTMGQYNNPQGGMYLVESPEDVLKLEVKNDARLSFMTQTTLSVDDTSDVIDALRARFPKIVGPRKDDICYATTNRQEAVRALAEQADVVLVVGSKNSSNSNRLAELAQRMGKAAYLIDDASDIQEAWVKDAACVGVTAGASAPDILVQNVITRLQELGGGEAVPLEGREENIVFEVPKELRVDVREVE	PGPT0007615_654	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007615-ispH|lytB-K03527	NA	NA
BMS020_06280	915	rihC	COG1957	Non-specific ribonucleoside hydrolase RihC	ATGCGCTTACCGATCATTCTTGATACAGACCCGGGCATCGACGATGCTGCCGCTATTGCCGCGGCGCTGTTCGCCCCTGAGCTGGATCTGCAGCTGATGACCACCGTGGCGGGCAATGTCTCGGTGGAGAAGACGACCCGTAACGCGCTGCAGCTGCTGCACTTCTGGCATGCCGATGTGCCGCTGGCGCAGGGCGCCTCGATGCCGCTGGTGCGTCCCCTGCGCGATGCCGCCTCGGTGCATGGCGAATCCGGTATGGAAGGGTATGACTTTATTGAGCATCACCGGCAGCCGCTGGCGAAGCCGGCCTTCCAGGCGATCCGCGATGCGCTGATGCATGCTGCCGAGCCGATCACTCTGGTGGCGATTGGCCCATTGACCAATATTGCGCTGCTGCTGACCCAGTATCCCGAATGCGTATTCAACATTCGCCGGCTGGTGATCATGGGCGGCTCGGCGGGCCGGGGCAACTTTACGCCGAATGCCGAATTCAATATTGCCATCGACCCGGAAGCCGCCGCGAAAGTCTTCCACAGCGGGCTGGAGATTGTCATGTGCGGGCTGGACGTCACCAATCGGGCGCTGCTGACGGCGGATTATCTGGCGACCCTGCCGACGCTGAATCAGACCGGTAAAATGCTTCATGCGCTGTTTAGCCACTATCGCAGCGGCAGCATGAGCAGTGGTCTGAGAATGCACGATCTCTGCGCTATCGCATGGCTGGTCCGCCCGGAACTGTTCACCCTACAGCCGTGTTTTGTGGCGGTGGAGACGCAGGGAACCTGGACCGCCGGCGCCACGGTGGTGGATATCGAAGGGCGACTGGGCCAGCCGGCCAATGCCCAGGTGGCGCTGGATATCGATGTCGAAGGGTTTCAGCGCTGGGCGGCGGAGGTGATCGCCCTGGCGCCGTGA	MRLPIILDTDPGIDDAAAIAAALFAPELDLQLMTTVAGNVSVEKTTRNALQLLHFWHADVPLAQGASMPLVRPLRDAASVHGESGMEGYDFIEHHRQPLAKPAFQAIRDALMHAAEPITLVAIGPLTNIALLLTQYPECVFNIRRLVIMGGSAGRGNFTPNAEFNIAIDPEAAAKVFHSGLEIVMCGLDVTNRALLTADYLATLPTLNQTGKMLHALFSHYRSGSMSSGLRMHDLCAIAWLVRPELFTLQPCFVAVETQGTWTAGATVVDIEGRLGQPANAQVALDIDVEGFQRWAAEVIALAP	PGPT0013465_2335	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
BMS020_06281	366	yhaI_2	COG3152	Inner membrane protein YhaI	ATGACCTATGGACAGGCGTATTTAAGCGGCTGGAAAGAGACCTTTAATTTTAGCGGCCGGGCCAGCCGACAGCAGTTCTGGACGTTTTTTCTTATCAATCTACTGATCGCCAGCGCGCCGCTGGCCGTCTGGTGGCTGGCAACCAGCTTTAACCCTCAATACGGCATCCTCAGTTTTGTTGTTATTCCCTTTGCTGCGCTGTGGTTGCTGCTGATGACTCTCCCTCTGCTGGCGATCGGCTGCCGGCGGATGCATGATATCGGCCGCTCCGGGCTCTGGTTCGTGCTGGGGGTTATCATTCCGTGGTTTGCGGTTATTTCGCTGGCGCTATGCTGCCTGCGTTCAGCGCCGGCACCGTCTCGCTGA	MTYGQAYLSGWKETFNFSGRASRQQFWTFFLINLLIASAPLAVWWLATSFNPQYGILSFVVIPFAALWLLLMTLPLLAIGCRRMHDIGRSGLWFVLGVIIPWFAVISLALCCLRSAPAPSR				NA	NA	NA	NA	NA
BMS020_06282	930	dmlR_27		HTH-type transcriptional regulator DmlR	ATGAATCTCAGCCTCCTGCCCGACCTTGCCCTTTTCGTCCAGATCGTCGACCAGGGCAGCTTCTCCGCCGTCGCCCGCCAGAGCGGCATTACCCCTTCCGCCGTTAGCCGCAGCGTGTCGCGGCTGGAGCGAGAGATGGGCTGCAAACTGCTGCAGCGTACCACCCGCAAGCTGCGTCTGAGCGATGCCGGGGAAACGGTGTATCAGCATGCCCAGCAGATGCTGGAAGCGGCGCGACAGGCGATGGATTCCGCCGGCAGTCGCCAAACGGTCGCCCAGGGAAAGCTGACGCTCAGCGTGCCGAAAGCCGTCGGCCGCTTCGTGATCCATCCGCTGATGATGGCGTTTTTTCAGCGTTACCCGCAGGTTGACGTCTGCCTGCGGCTGGAAGATCGCCCTCTGGATTTTATCGATGACGGTATCGATCTGGCGTTACGCATCACCGATACCCCCTCGCCCGGTCTGCATGGCAAACCGTTGATGCCAGTCACGCACGTTATCTGCGCCACTGAGGTCTATTTACAGCGCCACGGTATGCCGCGCACGCCGCAGGAACTGCGCGCGCACAGCTGCATCAGCCTTGGCGAAACGCCCGCCGACGCGCGCTGGAAGTTCCGTCGGGAAGGGAAAACCGAAACGGTGCAAACATACGGGCGGTACGCCGCCAACCATACCGCCGTGCGCCTCGACGCGGTCAGGCAGCATTTAGGGATCGGCAGCCTGCCGCTGTTCACCGCCCGCGAGGCGCTGGCGAATGGCGATATCGTGCAGGTGCTGCCCGAATGGGAATTTATCAGCAGCTACTCCGGCGATCTGTGGCTGCTCTGGGCGGGAGATAAGCATATGCCCGCCAGAATGCGGGCGATGATTGATTATCTCAGCGAGACGGTGCCGGCGCTGAACGCAGGCAGCATAGCGCCAGCGAAATAA	MNLSLLPDLALFVQIVDQGSFSAVARQSGITPSAVSRSVSRLEREMGCKLLQRTTRKLRLSDAGETVYQHAQQMLEAARQAMDSAGSRQTVAQGKLTLSVPKAVGRFVIHPLMMAFFQRYPQVDVCLRLEDRPLDFIDDGIDLALRITDTPSPGLHGKPLMPVTHVICATEVYLQRHGMPRTPQELRAHSCISLGETPADARWKFRREGKTETVQTYGRYAANHTAVRLDAVRQHLGIGSLPLFTAREALANGDIVQVLPEWEFISSYSGDLWLLWAGDKHMPARMRAMIDYLSETVPALNAGSIAPAK				NA	NA	NA	NA	NA
BMS020_06283	630			hypothetical protein	ATGACTGAACGGGTTTATTACACCAGCGACGCTACCGATGGGCGCGCCCAGATCATCGCCTGCACTGCGGAAGCGGATGGCCGCTACGCCATCGAACTGGATCGGACGCTGTTTCACCCGCAAGGGGGCGGTCAACCGGCGGATCGCGGCTGGATAGCTGGTCAGGCCGTTGAGACGGTTATTGTGCGTGGCGACAGCGTGCTGCATATTCTGTCGCAACCGCTTCCCCTCGGTGAAGTGGAGATGAGAATAGATGCCTCCGCGAGACAACTGCATGCCCGCCTGCATTCCGCCGGCCACCTGCTTGGCCTGGCGGGCGAACAGCTTGGCTGGCAACCGGTGAAAGCGCACCACTGGCCTGGCGAAGGGCGGATCGCTTTCACCGGCGGGAACCACGCCGTGATACCCGACGCCAGCGCGCTGCTGAGCCAGGTGAAGGCATGGCAGGCGCAGGACCTCCCGCGTCAGGTGATCTTCGCTGAGGGTTTGCGCATGGTGGGGTTTGGCGAACTGCCCGCCTATCCCTGCGGTGGCACACATGTCGCCCGCCTGGCGGAGCTGGGCGACATTCTTATCAGTCAGATTAAGATGAAGAAGGGGCAGCTGGTGGTCAGCTATTCCCTGGCGTAA	MTERVYYTSDATDGRAQIIACTAEADGRYAIELDRTLFHPQGGGQPADRGWIAGQAVETVIVRGDSVLHILSQPLPLGEVEMRIDASARQLHARLHSAGHLLGLAGEQLGWQPVKAHHWPGEGRIAFTGGNHAVIPDASALLSQVKAWQAQDLPRQVIFAEGLRMVGFGELPAYPCGGTHVARLAELGDILISQIKMKKGQLVVSYSLA				NA	NA	NA	NA	NA
BMS020_06284	705	citB_2	COG4565	Transcriptional regulatory protein CitB	ATGGATAGCATCACCACTCTTATCGTTGAAGACGAACCTATGCTGGCGGAGATCCTGGTGGATAACATCAAACAGTTTCCCCAGTTCGACGTCATTGGCATTGCGGATAAACTCGAGAGCGCCAGGAAACAACTCAGACTGTATCAACCGCAGTTGATCCTGCTGGATAATTTCTTACCTGACGGCAAAGGTATCGACCTGATCCGCCATGCGGTCAGTACCCATTACAAGGGGCGGATTATCTTTATTACCGCTGATAATCATATGGATACCATCAGCGAAGCACTGCGCCTGGGGGTGTTCGACTATCTGATTAAGCCGGTGCACTATCAGCGCCTGCAGCACACCCTGGAGCGCTTCGCTCGCTATCGCAGCTCGCTGCGTTCCAGCGAACAAGCCAGCCAGATCCACGTCGATGCGCTGTTTAATATTCAGGCTCGGGAACAGACGGAACCGGCCAGCGCACCGCTACGCGGGATCGATGAAAGCACCTTTCAGCGCGTACTCCAGCTGTTTGCCGACCCGGCGGTGGTGCATACCGCCGACTCGCTGGCGCGTATCCTTGGCAGCAGCAAAACCACCGCCCGCCGTTATCTGGAACAAGGGGTGAAGAACGACTTTCTGGAAGCGGAAATCAGCTACGGCAAGGTTGGTCGACCGGAGCGTATTTATCACGGCAAACAGACCTCCCCTGAGCAGGTCTGA	MDSITTLIVEDEPMLAEILVDNIKQFPQFDVIGIADKLESARKQLRLYQPQLILLDNFLPDGKGIDLIRHAVSTHYKGRIIFITADNHMDTISEALRLGVFDYLIKPVHYQRLQHTLERFARYRSSLRSSEQASQIHVDALFNIQAREQTEPASAPLRGIDESTFQRVLQLFADPAVVHTADSLARILGSSKTTARRYLEQGVKNDFLEAEISYGKVGRPERIYHGKQTSPEQV	PGPT0017220_28	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_CITRATE_SENSING|UTILIZATION,PGPT0017220-dpiA|citB-K07702	NA	NA
BMS020_06285	1629	citA_2	COG3290	Sensor histidine kinase CitA	ATGTATACCCGAAAAATCACCCACTGGTTTGCCAGGCGATCGTTTCAGAATCGCATCTTCCTGCTGATTTTATTCACCTCGACGATCGTTATGCTGGCGATGTCATGGTATCTGACCGACATTACCGAAGAGCGTCTGCATTACCAGGTCGGGCAGCGGGCGCTGATTCAGGCAATGCAGATTTCGGCGATGCCGGAGCTGGTCGAGGCGGTTCAGAAACGCGACCTCGCCAGAATCAAAGCGCTTATCGACCCCATGCGTTCGTTCTCCGACGCCACCTATATCACCGTCGGTGATGCTAGCGGCCAGCGCCTCTATCACGTCAACCCTGATGAAATCGGCAAATCGATGGAGGGCGGCGACAGCGATGAAGCACTATTAAATGCGAAAAGCTACGTGTCAGTGCGCAAAGGCTCGCTGGGTTCCTCGCTGCGCGGTAAATCACCGATTCAGGACGAGACCGGCAAGGTGATCGGCATTGTGTCGGTAGGCTATACCATTGAACAGTTAGAGAACTGGCTCAGCCTGCAGATAAGCTCGCTGCTGATCCCGATGGCGATCATGTTACTGCTCCTGCTCTACTGCGCCCGCCGCTTCTCGTTGCATATCAAAAAGCAGATGCTGAATATGGAACCCCAACAGCTGTCGCAGCTGTTGATCCAGCAAAGCGTATTGTTTGAATCCGTGTTCGAAGGGCTTATCGCCATCGACTCCCGTTACAAGATCACCGCGATTAATCAGACTGCCCGCCGGTTGCTCAACCTGAGCCAACCGGAAACGACGCTTATCGGTAAAGGGATCAGCAGCGTGATTTCGCAGGAGGCTTTCTTCTACGATGCGCCGCAGACCAATAAAAAAGACGAGATCGTCACCTTCAATCAGATCAAAGTGATCGCCAGCCGGATGGCGGTGATCTTAAATAATGAGCCACAGGGCTGGGTGATCAGCTTTCGTAGTAAAGACGATATCAACACCCTCAGCCTGCAGCTTAGCCAGGTACAACAATATGCCGATAACCTGCGCGCCGTGCAGCATGAGCATCGCAATCTGATCTCCACCATCGCCGGCCTGCTGTTTCTTAAACGCTACGATCATGCGCTGGATCTGATCCAACAGCAGTCGGAAAGTCACCAGAAGGTCATCGATTTTATCGCGCGTAATTTCCAGGACAACCACCTGGCCGGGCTGTTGATCGGCAAATATTACCGGGCCAAAGAGCTTGGACTTGAGCTGATTTTCGATCCAGCCTGCTTCGTCGACAGATTACCCACCGCCCTTTCTCACAACGAATGGATCTCGATCGTGGGGAATCTGCTTGATAACGCCTACAATGCCAGCCTGCAACAGCCGCAGGGCTCAAGGCAGATAGAGTGCCTGATCAACAGTGACGGCCACGAGGTGATTATCGAGGTCGCCGATCAGGGATGCGGCATTGACGAGACGCTGCGCGATCGGATCTTCGAGCGCGGCGTCACCAGCAGCGTCAGCAAAGATCATGGCATCGGACTCTGGCTGGTTCGCAGCTACGTGGAACAGGCAGGCGGCAGCATCGTCGTCGAAAATAACATTCCTTTTGGCACCATCTTTACTCTTTATATTCCCCTGACCCGAGATGAACATCATGGATAG	MYTRKITHWFARRSFQNRIFLLILFTSTIVMLAMSWYLTDITEERLHYQVGQRALIQAMQISAMPELVEAVQKRDLARIKALIDPMRSFSDATYITVGDASGQRLYHVNPDEIGKSMEGGDSDEALLNAKSYVSVRKGSLGSSLRGKSPIQDETGKVIGIVSVGYTIEQLENWLSLQISSLLIPMAIMLLLLLYCARRFSLHIKKQMLNMEPQQLSQLLIQQSVLFESVFEGLIAIDSRYKITAINQTARRLLNLSQPETTLIGKGISSVISQEAFFYDAPQTNKKDEIVTFNQIKVIASRMAVILNNEPQGWVISFRSKDDINTLSLQLSQVQQYADNLRAVQHEHRNLISTIAGLLFLKRYDHALDLIQQQSESHQKVIDFIARNFQDNHLAGLLIGKYYRAKELGLELIFDPACFVDRLPTALSHNEWISIVGNLLDNAYNASLQQPQGSRQIECLINSDGHEVIIEVADQGCGIDETLRDRIFERGVTSSVSKDHGIGLWLVRSYVEQAGGSIVVENNIPFGTIFTLYIPLTRDEHHG	PGPT0017215_209	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_CITRATE_SENSING|UTILIZATION,PGPT0017215-dpiB|citA-K07700	NA	NA
BMS020_06286	147	oadB_1	COG1883	Oxaloacetate decarboxylase beta chain	ATGGCGGCCAGGGTGTCGAACAAGGTGGGTCTGGAAGCGGACGGGCAGAACTTCCTGCTGATGCACGCGATGGGCCCGAACGTGGCGGGGGTGATCGGCTCGGCAATCGCCGCCGGGGTGATGCTCAAGTACGTGCTGGCGATGTAG	MAARVSNKVGLEADGQNFLLMHAMGPNVAGVIGSAIAAGVMLKYVLAM	PGPT0001940_180	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0001940-madB|oadB|gcdB|mmdB-K20509	NA	NA
BMS020_06287	519	paiA	COG0454	Spermidine/spermine N(1)-acetyltransferase	ATGCGGATCCGTCGCGCCACGCTGGATGATGCCGGGGCGGTGACGGAGATCGCCGCGGCCACGTTCACCGAGACCTTCGGCCACCTGTATCCGGCCGAAGATCTGCAGGGCTTCCTGGAGGAGGCCTATTCGCTGCATCGGGCGCAGGTGGTGCTGGCGCATCCGGACTACGCGATCTGGCTGCTGGAACGCGACGGCGTGGTCATCGGCCACGCCGCCGCCGGTCCCTGTGGCCTGCCGCATGCCGAGGCTGCGCCCGGCGACGGCGAACTCAAGCGCCTGTACCTGCTCAAGGCGCACCAGAACTGCGGCTGGGGCAGCCGCCTGTTCGAGACCGCGCTGCAATGGCTCGAACGCGAGGGCCCGCGCACGCTGTGGATCGGCGTGTGGTCGAAGAACTTCGGCGCGCAGCGCTTCTACGCCCGCTACGGGTTCGAAAAGGTCGGCGACTACGAATTCCCGGTCGGCCGGGTGCGCGACCACGAGTTCATCCTGCGCCGCCTGCCGCGCCCGGCCTGA	MRIRRATLDDAGAVTEIAAATFTETFGHLYPAEDLQGFLEEAYSLHRAQVVLAHPDYAIWLLERDGVVIGHAAAGPCGLPHAEAAPGDGELKRLYLLKAHQNCGWGSRLFETALQWLEREGPRTLWIGVWSKNFGAQRFYARYGFEKVGDYEFPVGRVRDHEFILRRLPRPA	PGPT0007785_773	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
BMS020_06288	270			hypothetical protein	GTGAGCGAGACGCCGTTCAATCTTGAGTGGGAAACCCTCGGCAACGAGGGCGCCGCCGACGCCTTCACCACCCAGCGCGCGCGCGTGTTCGGCGGCTGGCTGGTGCGCGTGGGCAGCGGCGCCAACGCGCCGGTGAGCTTCGTCGCCGATCCGGAAGGCCGTTGGGACGGCGAGGATTTCGGCGAGGACGACTACGAGTACGAGGAAGACGAGGGCGACGACGAGGACGAGGAGTCCGAGGACGACGCCGAGGAAGACGAGGACGAGTGA	MSETPFNLEWETLGNEGAADAFTTQRARVFGGWLVRVGSGANAPVSFVADPEGRWDGEDFGEDDYEYEEDEGDDEDEESEDDAEEDEDE				NA	NA	NA	NA	NA
BMS020_06289	1752	aspS_2	COG0173	Aspartate--tRNA ligase	ATGCGTACCCACTTCTGCGGCCTGATCAACGAATCCCTGATCGGCCAGACCGTCACCCTCGCCGGCTGGACCGACGTGGCCCGCAACCAGGGCGGCGTCTGCTTCATCGACCTGCGCGACCACGAGGGCATCGTGCAGGTGACGGTGGAGGTCGACAACGCCGAGGTGTTCGCGATCGCCGCGTCGCTGGGCTACGAGGACGTGCTGCAGGTCGAGGGCGTGGTGCGCGCGCGCCATGCGGTCAACGACAAGATCAAGACCGGCAAGGTCGAAGTGATCGCGACCAAGATCACCATCCTCAACAAGGCCGCGCCGCTGCCGTTCCACGCCCACGAGAACCCGGGCGAGGACACCCGCCTGAAGTACCGTTACCTGGACCTGCGCCGCCCGGAGATGCAGCGCATGCAGCGCACCCGCATCAAGCTGGTGCAGGCGCTGCGCCGCCACCTGGATGCGCGCGGCTTCCAGGACATCGAGACCCCGATCCTGACCAAGGCCACCCCGGAAGGCGCGCGCGACTTCCTGGTGCCGGCGCGCATGCATCCGGGCGAGTTCTACGCGCTGCCGCAGAGCCCGCAGCTGTTCAAGCAGATCCTGATGGTGGCCGGCTTCGACCGCTACTACCAGATCGCGCGCTGCTTCCGCGACGAGGCGCTGCGCGCCGACCGCCAGCTGGAATTCACCCAGCTCGACATGGAATTCGCCTTCGTGCGCGAGCGCGACGTGCAGGATTTCGTCGAGGAGATGATCCGCGCGATCTTTGCCGAAGTGGTCGACGTCAAGCTCGACGCGCAGTTCCCGCGCATGACCTGGGCCGAAGCGATGCGTCGCTTTGGTTCGGACAAGCCGGACCTGCGCATCGACCTAGAGCTGGTCGACGTGGCCGAGCTGGTCAAGGACAGCGGCTTCGCCGTGTTCACCGGCCCGGCCAACGATGCCGACGGCCGCGTGGCCGCGCTGCGCATCCCTGGCGGCGCCACGCTGTCGCGCAAGCAGATCGACGAGTACGCCGCGCACGCCGCCAAGTACGGCAGCAAGGGTCTGGCCTACATCAAGATCGACGAGGCCGGCGCGGTCAGCTCGCCGATCCAGAAGTTCTTCAGCGAGGAGCAGTTCGCCGCGCTCATCGCCCACGTTGGCGCCGGTAATGGCGACATCGTGTTCTTCGGCGCTGGCGGCTACAACAAGGTCTCCGACTTCATGGGCGCGGTGCGTCTGAAGGCCGGCAAGGACTTCGGCCTGGTCAAGGATGGCTGGGCGCCGCTGTGGGTCACCGATTTCCCGATGTTCGAGTGGGACGAGGAAGAACAGCGCTACGTCGCTCTGCATCATCCCTTCACCGCGCCGGCGGTGGACGACATCGCCGACCTGCGCGCGCATGCGCGCACCGCGGTGTCGCGCGGCTACGACATGGTGCTCAACGGCAACGAAATTGGCGGCGGTTCGATCCGTATCCACCGCCCGGAGATGCAGAGCGCGGTGTTCGAGCTGCTCGGCATCGGTGCCGAAGAGGCACGCGCCAAGTTCGGCTTCCTGCTCGACGCGCTGAACTACGGCGCACCACCGCACGGCGGCATCGCCTTCGGCATCGACCGCATCGCCGCGCTGATGGCCGGCACCGAGTCGATCCGCGACGTGATCCCGTTCCCGAAGACCACCGGCGCGCAGTGCCTGATGACCGATGCGCCGTCGCCGATCGCCGACGCGCAGCTGGCCGAGGTGCATGTGCAGGTGCGGCCGCAGGCCAAGTGA	MRTHFCGLINESLIGQTVTLAGWTDVARNQGGVCFIDLRDHEGIVQVTVEVDNAEVFAIAASLGYEDVLQVEGVVRARHAVNDKIKTGKVEVIATKITILNKAAPLPFHAHENPGEDTRLKYRYLDLRRPEMQRMQRTRIKLVQALRRHLDARGFQDIETPILTKATPEGARDFLVPARMHPGEFYALPQSPQLFKQILMVAGFDRYYQIARCFRDEALRADRQLEFTQLDMEFAFVRERDVQDFVEEMIRAIFAEVVDVKLDAQFPRMTWAEAMRRFGSDKPDLRIDLELVDVAELVKDSGFAVFTGPANDADGRVAALRIPGGATLSRKQIDEYAAHAAKYGSKGLAYIKIDEAGAVSSPIQKFFSEEQFAALIAHVGAGNGDIVFFGAGGYNKVSDFMGAVRLKAGKDFGLVKDGWAPLWVTDFPMFEWDEEEQRYVALHHPFTAPAVDDIADLRAHARTAVSRGYDMVLNGNEIGGGSIRIHRPEMQSAVFELLGIGAEEARAKFGFLLDALNYGAPPHGGIAFGIDRIAALMAGTESIRDVIPFPKTTGAQCLMTDAPSPIADAQLAEVHVQVRPQAK				NA	NA	NA	NA	NA
BMS020_06290	729			hypothetical protein	ATGTCACGCATGCTGTTCTGTCTGCCGGGGCTGGCCCTGGCCACCGTCGCGGCGCTGGCCGCCCTGCCAGGCCCGGCCCAGGCCCAGCAGGCCGGCCGGAACAACGGCCAGACCATCACCTGTTCCAGCAACGACAGCCGCCGCCGCGAGTGCGACACCCCGTTCCACGGGCGCGCGGTGCTGGTGGAGAACATCTCCGGCACCCGCTGCATCGAGGGCCGCAACTGGGGCAGCGGCAATGGCTACGTCTGGGTCGACGACGGTTGCCGGGCGCGCTTCGGCGCGGCCTGGAACAACGGCGGCTGGGGCGGCGGCCAGGGCGGCACGATCCGCTGCGAGAGCACCGACAACCGCAGCCGCGAATGCCGCACCGGCTGGCGCGGCGCGGTCCTGGTCCGCCAGCTGTCGAGCAGCCGCTGCATCGAGGGCCGCACCTGGGGCAGCCGCAACGGCAGCATCTGGGTCGACGACGGCTGCCGAGGCGAGTTCGCCGAGGGCCGGGGCGGCGGCGGCAACTGGGGCCCAGGCTCCGGCAACAGCCACTACGCCATCACCTGCAGCAGCGACGACAAGCGGCGCCGCAACTGCGACTGGGATGCGCGCCAGGGCCGGCCGTACCTGCAGCAGCAGTTGTCGGGCAGCCGCTGCGAGGAAGGCCGCACCTGGGGCTGGCACGGCAACCAGGTCTGGGTGGACGGCGGCTGCCGCGCCCGGTTCGGGGCGCGCTGA	MSRMLFCLPGLALATVAALAALPGPAQAQQAGRNNGQTITCSSNDSRRRECDTPFHGRAVLVENISGTRCIEGRNWGSGNGYVWVDDGCRARFGAAWNNGGWGGGQGGTIRCESTDNRSRECRTGWRGAVLVRQLSSSRCIEGRTWGSRNGSIWVDDGCRGEFAEGRGGGGNWGPGSGNSHYAITCSSDDKRRRNCDWDARQGRPYLQQQLSGSRCEEGRTWGWHGNQVWVDGGCRARFGAR				NA	NA	NA	NA	NA
BMS020_06291	297			hypothetical protein	ATGCCGATCTACGCTTTCCAGTGCGCCGCCTGCGGCCATGCCTTCGACCGTCTGCAGAAGATCGCCGATCCCGACCCGACCGTGTGCCCGGCCTGCGCCGCCGAGGCGGTCAAGCGCCAGATCACCGCGCCGTCGTTCCGGCTGTCCGGCAGCGGCTGGTACGAAACCGACTTTTCCGGGCGCGACAAGAAAAAGAACCTGACCGAGGCCGCTGGCGGCAGCAGCGGCGGCGACGCGGCCAAGCCGGCCGCGGCCAGCGCCCCGGCCAAGACCGAGAGCAAGGCCCCGGCGGCCTGA	MPIYAFQCAACGHAFDRLQKIADPDPTVCPACAAEAVKRQITAPSFRLSGSGWYETDFSGRDKKKNLTEAAGGSSGGDAAKPAAASAPAKTESKAPAA				NA	NA	NA	NA	NA
BMS020_06292	1302			hypothetical protein	ATGAATCGCGAATTCGCCTACCTGCTGCTGATCTTCGCCCTGCTGGTGATCCCGCGCGCGCTGCAGCGGTTCAAGGTGCCGGCGCCGCTGACCTGCCTGGTGTTCGGCATCGGCGCGATGCTGGCGATGGGCGAGCGCGCGCACGATCCGGTGATCGGCGTGCTCGGCACGCTGGGCATCTCCTCGCTGTTCCTGTTCGCCGGGCTCGAGGTCGACCTGAAGGCGTTGCGCCGCGGCATGTGGCCATTGCTGACCCACCTGGTGGTGCGCAGCGCGGTGCTGGTCGGTACCGGCTGGCTGGTCTGGCGCTATGCCGGGCTGCCGTGGCAGGCCGCCGGCCTGCTGGCGCTGGCGCTGCTGACGCCCTCGACCGGCTTCATCGTCGATTCGCTCGGCCGCCTGGGCCTGAGCGACACCGAGCGCTTCTGGGTGACCAACAAGGCCATCGCCGGCGAACTGCTGGCGCTGGCGGCGCTGTTCGTGGTGCTGCAGGCGGGCGATCCGCTGCGCATGGCGCTGTCCAGCGGCGTGCTGCTGGCGATGCTGGTCGGCCTGCCGCTGCTGTTCGTCGCGCTGGGGCGCTGGGTGGTGCCACAGGCGCCGGGGTCGGAATTCTCGCTGCTGGTCATGGTCGGGCTGGTGGCGGCCTTCGTCACCTACAAGCTGGGCGTGTACTACCTGGTCGGCGCGTTCATCGCCGGCCTGGTCGCGCGCTTGCTGCGCCAGCGCATGCCGCGCCTGGCCTCGGACGAGAACCTGCACGCGGTGCGGCTGTTCGCCTCGTTCTTCGTGCCGTTCTACTTCTTCAAGGCCGGCACCCACGTGCCGCCCGGCGCGTTCGGCTTCGAGGCGCTCGGGCTGGGGATCGTGATCACCCTGGTGGTGTTGCCGCTGCGCATCGCCGTGGTCTGGCTGCAGCGCCGGGTGCTGTTCGGCGAGGACTTCCGCACCAGCCTGCGGGTGTCGGTGGCGCTGGCGCCGACGCTGATCTTCACCCTGGTGCTGGCCGGCATCCTGCGCGACCGCTTCGCGATCGCCGATGCGCTGTTCGGGGCGCTGCTGCTGTATGCGGCATTGACCACGCTGCTGCCCTCGCTGGTGTTCCGCGCGCCGTTCGATGTCGATCCGGCCGATCCCGAGGCGCAGCCGCATGCGGGTGACAGCCTCGGGCGGGTGGTGCCGGCGGGGCCGGGTGCGGCGGCAGCGGTTGGCGCCGGCGGCGCGGAGGGTGGCGATGCCCCGACCCCGGCGCAGGCCCCGGAAGCGCCGGGGCCGGAGCGTGCGCCGCCTGGCGGGGCTTGA	MNREFAYLLLIFALLVIPRALQRFKVPAPLTCLVFGIGAMLAMGERAHDPVIGVLGTLGISSLFLFAGLEVDLKALRRGMWPLLTHLVVRSAVLVGTGWLVWRYAGLPWQAAGLLALALLTPSTGFIVDSLGRLGLSDTERFWVTNKAIAGELLALAALFVVLQAGDPLRMALSSGVLLAMLVGLPLLFVALGRWVVPQAPGSEFSLLVMVGLVAAFVTYKLGVYYLVGAFIAGLVARLLRQRMPRLASDENLHAVRLFASFFVPFYFFKAGTHVPPGAFGFEALGLGIVITLVVLPLRIAVVWLQRRVLFGEDFRTSLRVSVALAPTLIFTLVLAGILRDRFAIADALFGALLLYAALTTLLPSLVFRAPFDVDPADPEAQPHAGDSLGRVVPAGPGAAAAVGAGGAEGGDAPTPAQAPEAPGPERAPPGGA				NA	NA	NA	NA	NA
BMS020_06293	1233	ycaD_3		putative MFS-type transporter YcaD	ATGCTGCGGCTGACCGCCCTGCTGCTTGGCGTGGCCCTGCTGCTGACCGGCAGCGGCCTGCTCGGCACGCTGCTGGCGGTGCGCGGCGGCCTGGCCGGGTTCGATGCGCGCACGCTCGGCCTGATCATGTCCGGCTACTTCGCCGGATTCTTCGTCGGCACCTTCTTCGCCCCGCCGCTGATCCGCCGTATCGGCCATATCCGCGCGTTCGCGTTCTACGCCTCGCTGGCCGCGATCGCGGTGCTGCTGCATCCGCTGTGGATGAATCCCTGGGGCTGGGGCCTGCTGCGGCTGGTCACCGGTACCGCGCTGGTCGGGCTGTACACGGTGATCGAGAGCTGGCTCAACGCCGAGCCCGACGCGCGGCGCCGCAGCCGGGTGTTCTCGCTGTATATGATGATCAACCTGTCGGCGCTGGCGTTGGGCCAGGTCCTGCTCACTGCCGGCGACGCCAGCGCACCGGCGATGTTCACCCTGACCGCGATCCTGGTCTGCGCCGCGGTGATGCCGGTGGCGACCACGCGCCTGGCGCAGCCGGAGGTGCCGCAGGTGCCGCGGCTGAAGCTGCACACGCTGTACCAGCTGGCGCCGGTGGCGACGATCGCCGCGGCGCTGGCCGGGCTGGCGATGGGTGGCTTCTGGGGCCTGCTGCCGGTGTACGCGCAGCAGATCGGCCAGGACGCCGACGGCGTGGCGATGTTCATGCTCACCGCGATCGCCGGCGGCGCGCTGCTGCAATGGCCGATCGGCCGCATCAGCGACGGCCATGACCGACGCATCGCGCTGGTGGTCACCAGCGTGCTGGCGGCCGGCATCGCCATCGCCGCGGCGATCCCGGCGGTCCAGGCACACAGCCGCGTGCTGTTCGCGCTGTTCTTCGTCTACGGCGGGCTGGCGTTCGCGCTGTATCCGTTCGCGGTGGCGCACATGCTCGACTACCTGCCGCGCGAGCACATGCTGTCCGGCTGCAGCAGCCTGCTGCTGATCAACGGCGTCGGCTCGGCGATCGGCCCGGCGCTGGCCGGCGGGGCGATGCAGAAATTCGGCCCGGCCGCGCTGCCGCTGTACTTCGCGCTGATGCTGCTGGCCCTGGCCGGCTTCACCCTGGCGCGGCTGCTGCGCTTCCGCCGCGAGCGCACGCATCCGGCGCCGTTCCGGCCGATGGTGCGCACCACCCCGGCCGCGCTGGAGCTGATGCCGGAAACCGATTCACCCTCCCCTCCAACTCCATGA	MLRLTALLLGVALLLTGSGLLGTLLAVRGGLAGFDARTLGLIMSGYFAGFFVGTFFAPPLIRRIGHIRAFAFYASLAAIAVLLHPLWMNPWGWGLLRLVTGTALVGLYTVIESWLNAEPDARRRSRVFSLYMMINLSALALGQVLLTAGDASAPAMFTLTAILVCAAVMPVATTRLAQPEVPQVPRLKLHTLYQLAPVATIAAALAGLAMGGFWGLLPVYAQQIGQDADGVAMFMLTAIAGGALLQWPIGRISDGHDRRIALVVTSVLAAGIAIAAAIPAVQAHSRVLFALFFVYGGLAFALYPFAVAHMLDYLPREHMLSGCSSLLLINGVGSAIGPALAGGAMQKFGPAALPLYFALMLLALAGFTLARLLRFRRERTHPAPFRPMVRTTPAALELMPETDSPSPPTP				NA	NA	NA	NA	NA
BMS020_06294	2364			hypothetical protein	TTGACTGATCAGAAGACATCGACATCCATCCCCGCCCCCGCCGTTTCCAGTACCACCCGTCAGGATCCACAGCTGATCCTCGCCACCGACCTCGATGGCACCTTCCTGGCCGGCTCGCCCGAGCAGCGCCACCAGCTGTACCGGCTGATCGACCAGCACCCCGGCATCCGCCTCATCTTCATCACCGGCCGCGGCCTGGAAGCGGTGATGCCGCTGCTCACCGACCCGAGCATTCCCCGCCCCGACTACGTGGTCTGCGACGTTGGCGCGACCGTGGTCGACGGCCACACCCTGCAGCCGCTGCAGCCGCTGCAATCGATGATCGACGCGCACTGGCCGGGCGAACACGTGGTCGCCGAGGCGATGCGTACGTTCCCGCAGCTCGAGCGCCAGGACGTGCCGCAGGAGCGCCGCTGCTCGTATTTCTGCGACCCGGCCACGCTGGCGCCGCTGCGCGCCGAGGTCGATGCGATGGCGCGGCAGCTCGGCTGCGACGTGCTGTATTCGGCCGACCGCTATCTCGACATCCTGCCGCCGGACACCGACAAGGGCCGCACGCTGGGCGCGCTTGCGCGCCAGCTGGAGTTGCCGCGCGAGCGCATCCTGGTCGCCGGCGACACCCTCAACGACCTGTCGATGTACGTCGCCGGCTTTCGCGGCGTCTGCGTCGGCGATTCGGAAGCGGCGCTGACCGAGGCCACCGCCGCGCTGGCCGAGACCTACCATGCGCGCGCACCGGGCTGCGGCGGCATCCTCGAGGCGATCGCGCACTTCGGCCTGCTCGCCCAGGACGACCCGCACATGCCGGTCGCACAGGCCCCGCGCGAGGGCGGCTCGGACCTGGTGATGGTCTATCACCGCCTGCCGTACGAGGAAGTGCTCGAGGACGGCCAGCTGGTGCGGCGCCAGCCGAAATCGCCGAACGGCATCATTCCCTCGCTGCTGGGCTTCTTCCAGGGCGGGCAGAAGGGTTCGTGGGTGGCCTGGAGCATCGACGATCCCAAGCGCGGGCCGTTCGAGACCCACACCACGGTCGATGCGCGCTTCCCCAACCTCACCGCCGCGCGCGTGCCGCTGAGCAAGCAGGAGGTGGACATCTTCTACAAGCGCTTCAGCAAGGAAGCGTTCTGGCCGATGCTGCACGTGTTCTGGGAGCGCGCCAAGTTCCGCGAGGACGACTGGCAGGTGTTCCTGAAGGTCAACCGCAAGTTCGCCGAAGCGACCTCGGCCGAGGCCGCGCACGGCGCCACCGTGTGGATCCACGACTACAACCTGTGGATGGTGCCGGCTTACCTGCGCGAGATCCGCCCGGACCTGAAGATCGCCTTCTTCCACCACACCTACTTCCCGTCCGCGGACGTGTTCAACGTGGTGCCGTGGCGGCGCGAGATCATCGGCAGCCTGCTGTCGTGCGACTACGTCGGCTTCCATATTCCGCGCCAGGTGGAGAACTTCGTCGACGTGGTGCGCGGCGCGATGCCGGTGGAACGCCTGGCCACGGAAAACTGCGCGCCGCGCTTCCTCACCTTCGGCTGCGCGGTCGGGCTGGACACGATGACCACGCGGCTGCGCGTGGGCGGGCGCGAGGTCGCGCTCGGCGCGCATCCGGTCGGCACCGACCTGCGCCGCATCCGCAACGTGCTGGCGCAGCCGGGTGTGCGCAACGACATCTTCAAGCTGCGCCGCGAAATCGGCGCGCGCAAGCTGGTGCTGTCGGTGGAGCGGCTGGACTACACCAAGGGTACGCTGGCCAAGCTGGAGGCATTCGAGCGCCTGCTGGAAACCCAGCCGCAGCTGCAGAGCAAGGTCACCCTGCTGATGGTGTGCGTGCCGGCGGCGCGCGAGATGACCATCTACCGCCAGCTGCAGACCCAGATCGAGCAGGCGGTGGGCCGCATCAACGGCCGCTTCTCGCGGATCGACTGGACCCCGGTGCGCTTCTTCGCCCAGGCGTTGCCGTTCGAGCAGGTGGTGGCGCACTACGCCGCCGCGCAGGTGATGTGGATCACCCCGCTGCGCGATGGCCTGAACCTGGTCGCCAAGGAATTCGTCGCCACCCAGGGCGTCGAAGGCGGCAACGGCGTGCTGGTGCTGAGCGAATTCGCCGGCGCCGCAGCCGAACTCAAGGGCGCGGTGCTGACCAACCCGCACCACCAGGCCGAGCTCGCGGCCGGCCTGCTGCAGGCGCTGACGATGCCCGACGAGGAGGCCGCCGGACGGCTGCGCCAGCTGTACGGCAGCGTCGAGTACTACGACGTCGACCGCTGGGGCCAGGACTTCCTCGATGCGGTACGCGCGGCTGGCCCGGCGCCGGCCAGCGTACCGGCCAGCACCACGGCGCCGGCGGTGGCCGCCAGCACCTGA	MTDQKTSTSIPAPAVSSTTRQDPQLILATDLDGTFLAGSPEQRHQLYRLIDQHPGIRLIFITGRGLEAVMPLLTDPSIPRPDYVVCDVGATVVDGHTLQPLQPLQSMIDAHWPGEHVVAEAMRTFPQLERQDVPQERRCSYFCDPATLAPLRAEVDAMARQLGCDVLYSADRYLDILPPDTDKGRTLGALARQLELPRERILVAGDTLNDLSMYVAGFRGVCVGDSEAALTEATAALAETYHARAPGCGGILEAIAHFGLLAQDDPHMPVAQAPREGGSDLVMVYHRLPYEEVLEDGQLVRRQPKSPNGIIPSLLGFFQGGQKGSWVAWSIDDPKRGPFETHTTVDARFPNLTAARVPLSKQEVDIFYKRFSKEAFWPMLHVFWERAKFREDDWQVFLKVNRKFAEATSAEAAHGATVWIHDYNLWMVPAYLREIRPDLKIAFFHHTYFPSADVFNVVPWRREIIGSLLSCDYVGFHIPRQVENFVDVVRGAMPVERLATENCAPRFLTFGCAVGLDTMTTRLRVGGREVALGAHPVGTDLRRIRNVLAQPGVRNDIFKLRREIGARKLVLSVERLDYTKGTLAKLEAFERLLETQPQLQSKVTLLMVCVPAAREMTIYRQLQTQIEQAVGRINGRFSRIDWTPVRFFAQALPFEQVVAHYAAAQVMWITPLRDGLNLVAKEFVATQGVEGGNGVLVLSEFAGAAAELKGAVLTNPHHQAELAAGLLQALTMPDEEAAGRLRQLYGSVEYYDVDRWGQDFLDAVRAAGPAPASVPASTTAPAVAAST	PGPT0014292_2	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014292-ggpS-NA	NA	NA
BMS020_06295	213			hypothetical protein	ATGAGTGTGTCCGCGCTGCCGGGCGTGGAGGTCGAGGCGGTGCTGGCACTGGCCGCGCAGCTGACGGCCTGCCGCTGCTGCGCGTTGCAGTGGTACCGCCACGACGCGATCGCCGAATTCGGAGGCCGGACCGCCCAGGCATTGGTCGCCGATGGCCAGGGAGCCGTGGTGCTGGGTTTCCTGCGGGCGATCGCCGGCGGCGAGCGCGGCTGA	MSVSALPGVEVEAVLALAAQLTACRCCALQWYRHDAIAEFGGRTAQALVADGQGAVVLGFLRAIAGGERG				NA	NA	NA	NA	NA
BMS020_06296	1329	sasA_10		Adaptive-response sensory-kinase SasA	ATGCTGGCGACCCTGCTGGCGGTGCTGGTGGCGGCGCTTGCCGCCGCGGGTCTGCTGCTGTGGACGATGCGCTCGCCGTCGCTGTTCAAGGACGAGCTGGCGCAGCAGATCGAGCACATAAGCGATGGCCTGGTGACGGCCGGCGACGGCCGCGTGCAGGTCCGCTTCAACGGCCGCGATGGCACCAGCTACGACGGCCTGCCCAAGGACACCGCCTACCTGGTGCGTGACGCGACCGGGCGCGAGGTCGCCCGCAGCCCGGGCGGCGTGGCGCTGGAGGGGTTGCGCCGGCTGCCCGCCGATGCCGACAGCTTCGAGGTCGCCAATCCCGCCGGGCCGATCCGGCTCGGCGTCGCCGATGCCTGGGTCGAACGCGGCGGTCAGCGCTATCTGGTCCGGGTCGCGCGCAGCGATCGCATGATCGCCACGCTCAGCAGCTACGAGGGCCGGCTGTACCTGCGCGCGGCGCTGCTGACCATCGGCGGCGCGCTGCTGGTGTTCCACCTGGTGGTGTTCCTGACCGTGCGGCGCATGTTGCGGCCGCTGCGCGAGGTCTCTGCCGCCGCCGCGCAGATCCAGCCGCGCAACCTGTCGGCGCGGCTGCGCGTGGATGGCCTGCCGGAGGAGCTCAGGCCGCTGATCCAGGCGTTCAATGCGGCGCTGGCGCGGTTGCAGGATGGGTTCCGGGTGCAGCAGGAGTTCCTCGGCGCCGCCGCCCACGAGCTGAAGACGCCGCTGGCGCTGCTGCGCGCGGAGATCGAACTGGGCGGCGCCGCCGATCGCGCGCTGCTGCTGCGCGACACCGACCTGATGGCGCGGCAGGTGCACCAGCTGCTGCACCTGGCCGAGGTCAGCGAGGGCCACAACTACCGCTTCGCGCCGCTGGACCTGGCCGCGGCCGCGGGCGATGCGATGGACTACCTGCAACGCCTGGCCGACCGGGCCGGGGTGCGCCTGCGCCTGCTGCGCGACGGCGAGCCTGCGCTGCAGCAGGCCGATGCCGGTGCGCTGTTCGTGCTGTTCAAGAACCTGCTGGAAAACGCGATCAGCCATTCGCCGGCTGGCGCGGTGGTTACGCTGCGGATCGGCGCCGACGGCGCCGATGTCAGCGACCAGGGACCGGGTGTGGCGGCTGCCGATCATGGCCAGGTGTTCCAGCGGTTCTGGCGCGCCGATCCGGGCAGCGGTGGCGCCGGCCTGGGGCTGGCGATCTGCCGCGAGATCGCGCTGGCGCATGGCTGGCGGCTGTGTCTTGCCGATGCCCCGGCCGGTGGCGGCGCCTGTTTCCAGCTCCGGTTCGTCGCAGGTGGCCAGGCGGTGCGCGCATGA	MLATLLAVLVAALAAAGLLLWTMRSPSLFKDELAQQIEHISDGLVTAGDGRVQVRFNGRDGTSYDGLPKDTAYLVRDATGREVARSPGGVALEGLRRLPADADSFEVANPAGPIRLGVADAWVERGGQRYLVRVARSDRMIATLSSYEGRLYLRAALLTIGGALLVFHLVVFLTVRRMLRPLREVSAAAAQIQPRNLSARLRVDGLPEELRPLIQAFNAALARLQDGFRVQQEFLGAAAHELKTPLALLRAEIELGGAADRALLLRDTDLMARQVHQLLHLAEVSEGHNYRFAPLDLAAAAGDAMDYLQRLADRAGVRLRLLRDGEPALQQADAGALFVLFKNLLENAISHSPAGAVVTLRIGADGADVSDQGPGVAAADHGQVFQRFWRADPGSGGAGLGLAICREIALAHGWRLCLADAPAGGGACFQLRFVAGGQAVRA				NA	NA	NA	NA	NA
BMS020_06297	684	tctD_2	COG0745	Transcriptional regulatory protein tctD	ATGAACAGGATCGCGCTGGTCGAGGACCATGCGCGGCTGGCTGGCCTGATCGAGCGCGGGCTGGCCGCGGCCGGCATCGCGGTGGATGCGTTCGCACGCATCGACGCGGCCTGGCTGGCGATCGCCGCGCAGGACTACGCGATGGTGATCGTCGACCGCGGCCTGCCCGATGGCGACGGCCTGGCGCTGGTGCGGCGGCTGCGCGCCGGCGACAACCGCGTGCCGTGCCTGATGCTGACCGCGCGCGATGCGCTGCGCGACCGCGTCGATGGGCTCGACGCCGGCGCCGACGACTACCTGCCCAAGCCGTTCGCGATGGAGGAGCTGGTGGCGCGGGTGCGCGCGCTGATGCGGCGCTCGCCGTCGCTGCGGGCGCTGCAGCCGCACTACCTGGGCCTGCGCGTGCTGCCCGAGCAGGCCTGCATGCAGTACGGCGAGGACAGCGTCAGCCTGGCGCCGGCCGAGCTGCAGATCGTGGTCTGCCTGGTACTGGCGGCCGGGGCCACGGTGCGCCATGCCGCGCTGGAAGCAGCGGCCTGGGGCCAGGCCGAAGCGGTCACCCCGAACGCGCTGGACGTGGCCCTGCACCGGTTGCGGCGCAAGCTGGCGGCGATCGATGCGGCGCTGGTGATCGCCAACGTGCGCGGACACGGGTTCGCACTGCGGGCCGCCGATGCCGCGTAG	MNRIALVEDHARLAGLIERGLAAAGIAVDAFARIDAAWLAIAAQDYAMVIVDRGLPDGDGLALVRRLRAGDNRVPCLMLTARDALRDRVDGLDAGADDYLPKPFAMEELVARVRALMRRSPSLRALQPHYLGLRVLPEQACMQYGEDSVSLAPAELQIVVCLVLAAGATVRHAALEAAAWGQAEAVTPNALDVALHRLRRKLAAIDAALVIANVRGHGFALRAADAA	PGPT0003915_246	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
BMS020_06298	801	mipA_2	COG3713	MltA-interacting protein	ATGTCCAAGTCTCCCGTCCTGCTCGTCCTGCTCGCGTTGCCGATGGCGGCCAGCGCCCAATCCACGGTGACCGCCGATGTCGCCGCACGCGAGGCCGGCACGCGCTGGCAGCTCGGCATCGGCGCGGCGGTCAGCGACAGCCCGTACGCCGGCGAGGACACCCGCACGCGGGTGGTGCCGTGGATCGGCTACGAGGGCGAGCGGGTGTTCTTCCGTGGCACCGGCGGCGGCGTGCACCTGCTCCGGCGCGACGGCTTCGCGCTCGATGCGCTGCTGTCGGCGCGGCTGGACGGGTTCGACATCGATGACCTGGGGCGCCGCGAACTGGCCCGCAACGGCCTGGATGCGGATCTGCTGGAAGACCGCGACGACGGCGCCGATGCCGGCGCCGCGCTCAGCTGGAGCGGGCGCGCCGGCGAGCTGAAGCTGCAGGCGCTGGCCGATGTCACCGACGCCAGTGGCGGCTATGAGCTGTCGCTGGATTACGGCTACACTTGGCGGCTCGGCCGCACCGTGCTGATCCCCAGCGTCGGCGCACGCTGGCTGTCCAAGGACCTGGTGCGCTACTACTTCGGCACGCTGGACGAGGAGGAGGCGCGCGGCGTGGCGGCCTATCGTCCCGACGCGGCGCTGGTGCCGCAGCTGCGGCTGAGCGTGCTGCATCCGCTCGGCGAGCACTGGCGGGTGTTCGGTTCGGTGTCGTACCGCTTCCTGCCCGATGCGATCACCGACAGCCCGTTGATCGATCCCGACGCCAGTGGGTCGGCTAATGTGATGGTCGGCATCAGCCGCGGCTTCTGA	MSKSPVLLVLLALPMAASAQSTVTADVAAREAGTRWQLGIGAAVSDSPYAGEDTRTRVVPWIGYEGERVFFRGTGGGVHLLRRDGFALDALLSARLDGFDIDDLGRRELARNGLDADLLEDRDDGADAGAALSWSGRAGELKLQALADVTDASGGYELSLDYGYTWRLGRTVLIPSVGARWLSKDLVRYYFGTLDEEEARGVAAYRPDAALVPQLRLSVLHPLGEHWRVFGSVSYRFLPDAITDSPLIDPDASGSANVMVGISRGF				NA	NA	NA	NA	NA
BMS020_06299	1161	ampH_2	COG1680	D-alanyl-D-alanine-carboxypeptidase/endopeptidase AmpH	ATGAGCCGGCGCTGGCGGGCTTGCATGGTGCTGGCGCTGCTGCTGCCGTGCGCGGCGGTCGCCGCCGCGGCGCCGGCCGCCGATCGCGACGACGCACTGGCCGATGCGCTGTTCGCGCGCAGTCGCGCACCGGGGCTGGTGATGGCGGTGGTGCATGGCGATCAGGTGCGCTTCCTCGCCCGCGGTCGCCAGGCGCCGGAGCGTGCGGCGGCGCCGGATGCCGACTCGCTGCTGCGGGTCAATTCGCTGTCCAAGGTGATGGCCGCCGACCTGTTCGCGCAGCGCATCGCCGATGGATCGCTGGCGCCACGCACGCCGTTGGCGCGCTTCGCCGAGGGTGCGCCGGTGCCCGGTGGCGAGGCGATCACCCTGCTGCAGCTGGCTACGCACACCGCAGGCATCCCGCGCGACATGCCCGATGCGCAGTGGCCGGCCGATGCCGCACCCAACACCTGGCCGGACCGCGCGGTCCGCTGGCACTGGCTGGTGAGCCTGCCGGCACAGCCGCCGCCGGGGCAGGTGGCGCGCTATTCGACGCCGGGATTCCTGTTTCTCGGCGATGCGCTGGCGGTGCAGGCCGGCATGCCGTATCCGCAGCTGTTGCGCGAGCGCTTCAGCGCGCCGCTGGGCATGGTCGATACCACCGCCGCGCCGAGCGCGACGCAGTGCGCGCGGCTGATGCGCGCGGCGTCGGACAATCCGCTGCGCTATGCCTGCCGCGACACCCGCAACACCGCGGCGTCGGCCGGGATGTATTCGACCGCCCGCGACATCGCGCGTTGGATGCAGGCGATGCTGCGCCAGCAGCGCGATGGCGGCTACCTGCCGTGGCGGCAGCAGATCGCGCGCAACACCTTGCACGAGGTGATCGGCCTGGACGTGGCCGGCCATGCCGACGGCATCGGTCTGGGCTGGCTGCGCCTGGACGGCGACGCGCAACGGCCGCTGATCGTCGAGAAGACCGGCGCCGGCGGCGGCTTCACCGCGTATCTGGCATTGGCGCCGGAGCGCGACACCGGCGTGTTCGTCGCCTACACCGATTACGACCCGCAGGTGATCGCTGCAGTGGCGGCGCAGGTCAATGGGTGGCTGGCTGCATCGGTGCGGGAATGCGTGGCGGGCGGCGTGCGATGCCAGTCGCTGCGGGTAAGTCGCGTGTAA	MSRRWRACMVLALLLPCAAVAAAAPAADRDDALADALFARSRAPGLVMAVVHGDQVRFLARGRQAPERAAAPDADSLLRVNSLSKVMAADLFAQRIADGSLAPRTPLARFAEGAPVPGGEAITLLQLATHTAGIPRDMPDAQWPADAAPNTWPDRAVRWHWLVSLPAQPPPGQVARYSTPGFLFLGDALAVQAGMPYPQLLRERFSAPLGMVDTTAAPSATQCARLMRAASDNPLRYACRDTRNTAASAGMYSTARDIARWMQAMLRQQRDGGYLPWRQQIARNTLHEVIGLDVAGHADGIGLGWLRLDGDAQRPLIVEKTGAGGGFTAYLALAPERDTGVFVAYTDYDPQVIAAVAAQVNGWLAASVRECVAGGVRCQSLRVSRV	PGPT0024060_420	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024060-ampH-K18988	NA	NA
BMS020_06300	906	bla_2		Beta-lactamase OXY-2	ATGATCGCAAGACGGCGGTTTCTGCAGGTTTCGGGTGCGGCATTGGTCGCGCTGGCGGGCGGGGGCGGGCGGGCGTTTGCCGCCGTCCGCGCGCAGGGCGCGGACTTCAGCGCGCTGTCGGCGAGCTGGGCCGGGATCGAGCGCCGCAGCGGCGGCCAGCTCGGCGTGGCGCTGCTGGACGCGCAGGGGCACACGCTGGCCGCGCACCGCGGCGAGGCGCGCTTCCCGATGTGCAGCACATTCAAATTTCTATTGGCTGCGGCGGTGCTGGCGCGGGCCGACGCCGGCCAGCTGGCGCTGGACCGGCGCCTGGCGGTCAGCGCGGGCGACCTGCTCGACTACGCCCCGGTCAGCCGCAAGCACGTCGGGCCGCACGGGCTGAGCGTGGCCGAGGCCGCCGAGGCGGCGGTGTGCTGGAGCGACAACACCGCGGCCAACCTCCTGTTCCCGCTGGTTGGCGGGCCGGCCGGGCTGACCGCCTTCATCCGCGCCAGCGGCGACGCGCTGACCCGCAGCGACCGCATCGAGCCGGAGCTGAACCAGTTCGCCCCCGGCGATCCGAGCGACACCACCACGCCGGTGGCGATGGCCGCCAACCTGCAGCGGATCGTGCTCGGTGAGGTGTTGCGGCCGGCCTCGCGCGCGCGCCTGCGCGGTTGGCTACGCGGCTGCCGCACCGGCGATGCGCGGTTGCGCGCCGGGCTGCCGGCGGATTGGACGGTGGGAGACAAGACCGGCAGCAACGGTGTCGACACCACCAACGACATCGGCATCCTGTGGCCATCCGGCGGGCGCGCACCGCTGCTGCTGGCGAGCTATCTGCAGGGCGCCAGCGTCGATTCGGCGGCGCGCGATGCGTTGCTGGCCGAGGTCGCGCGCAGCGTGGCCGCGAGCGTCGGCGCATGA	MIARRRFLQVSGAALVALAGGGGRAFAAVRAQGADFSALSASWAGIERRSGGQLGVALLDAQGHTLAAHRGEARFPMCSTFKFLLAAAVLARADAGQLALDRRLAVSAGDLLDYAPVSRKHVGPHGLSVAEAAEAAVCWSDNTAANLLFPLVGGPAGLTAFIRASGDALTRSDRIEPELNQFAPGDPSDTTTPVAMAANLQRIVLGEVLRPASRARLRGWLRGCRTGDARLRAGLPADWTVGDKTGSNGVDTTNDIGILWPSGGRAPLLLASYLQGASVDSAARDALLAEVARSVAASVGA	PGPT0028070_1888	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028070-penP-K17836	NA	NA
BMS020_06301	972	ampR		HTH-type transcriptional activator AmpR	TTGACCGCCAGCGACCAGCAAGGTTATTCAATCCAACCCATCGAATGGATTGATGGCTCGACGATGATCCGCGCCCAGCTCCCACTCAACGCCCTGCGCGCCTTCGAGGCCGCCGCGCGCCACCAGAACCTGACCCGCGCCGCGGCCGAGCTGTGCGTCGGCCAGGCTGCGCTCAGCCACCAGATCAAGACGCTGGAAGCGCGTCTGGGCGTGGTGCTGTTCCACCGCCTGGCGCGCGGGGTCGCCCTTACCGACGAGGGCGCGGCGCTGTACCCGGTGCTCAACGACGCCTTCGACCGCATCGCCGGCACGCTGGAGCGCTTCCGCGATGGCCGTTACCGCGAGGTACTGACGCTGGGCGTGGTGGCCACCTTCGCCACCGGCTGGCTGCTGCCGCGGCTGCCGGCATTCGCCCGCGCACATCCGGACATCGAGCTGCGCCTGCAGACCCACAACAACCGCGTCGACCTGCTCGGCGAAGGGCTGGACCTGGCGATCCGCTTCGGCGATGGCGACTGGCAGGGCCAGGTCAGCACGCCGGTGCTGCACGCGCCGTTCGTCGCGGTGTGCTCACCGGCGCTGGCGCGCAGCCTGGCGAGCCCGCGCGACCTGGCCCAGGTGACGTTGCTGCGCTCCTACCGCGCCGACGAGTGGCCACGCTGGTTCGCCATCGCCGGCACCACTGCGGTGGATGCACGCGGGCCGGTGTTCGATTCCTCGCTGGCGTTGGCGGCCGCGGCCGCGGCCGGCGATGGCGTGGCATTGCTGCCGCAGCGGATGTTCCGCCAGGACCTGGATGCGGAACGGCTGGTGCAGCCGTTCGAGGTCGCGCTTGATGCCGGCAGCTACTGGCTGACGCGGCTACGCTCGCGCCCGCACGGCCACGCGGCACAGCGGTTCGAGGCCTGGCTGCAGCAGCAGGCGGCCGACGCCGCGCGGCCGCAGGCGGACGCGCGTTCGCCCTCCACCTGA	MTASDQQGYSIQPIEWIDGSTMIRAQLPLNALRAFEAAARHQNLTRAAAELCVGQAALSHQIKTLEARLGVVLFHRLARGVALTDEGAALYPVLNDAFDRIAGTLERFRDGRYREVLTLGVVATFATGWLLPRLPAFARAHPDIELRLQTHNNRVDLLGEGLDLAIRFGDGDWQGQVSTPVLHAPFVAVCSPALARSLASPRDLAQVTLLRSYRADEWPRWFAIAGTTAVDARGPVFDSSLALAAAAAAGDGVALLPQRMFRQDLDAERLVQPFEVALDAGSYWLTRLRSRPHGHAAQRFEAWLQQQAADAARPQADARSPST	PGPT0028085_445	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028085-ampR-K17850	NA	NA
BMS020_06302	1077			hypothetical protein	ATGATGTGTGCACTCGCGCTGGCCACTGCGCCGGCGTTCGCGGAAGAGCGGTCTGAGGATCCCTCCGCGCCCTATTTCGATCCCGGCGGCGCCGTCCGCTTCAACTACGGCTGGCTCGACTACGGTCCCACCAGCCGCCTGCAGCTGGAACTGCTGCGCCTGGACCTGGATGCCGGCGTCGGCCCGCTGTTCTTCTCCGCCCAGTACCGCTGGTACGACGGCTTCGACGCGATCCACCATGCCTATGCGGGCTGGCGCTTCGGCGACGATGCCGATGTGCGCGTCGGCGTGCAGCAGGTGCCGTTCGGGCTGCTGCCGACCGTCTCGCATAGCTTCTGGTTCGGCTCCGGCTACTACCTCGGCATCGAGGACGATTACGACCCCGGCGTGGTCTGGCGCTTCAAGCGCGGCCCACACCAATGGCACTTGGGCGTGTTCAGTGGCGAAGAATACGGCGATGGCGCGCGCTACGACCGCTATTCGTTCGATGTCGCCGACACCGACACCCTGCCCTACCGCGAACGTGGCCGCGTGCACGCGCGCTACGAATACAGTGGGCAATGGGCCGGCGGCGAGCTGCTGCTCGGCGCCTCGGCGTTCGCCGGCAAGGTGCAGGACGTGCACAGCCGCCGGCATTACGACCACGACGGCGTGGCGCTGCACGCACAGCTGAGCCGTGGGCCATGGACCACCCAGCTGCAGTGGGCGCGCTACCGCTACGACGTGCCGGGCGAACGCATCGCGATGTCGGCGTTCCTGTATCCGTTCGAGATCGCCGCCGAAGCCGATGTGCCCAGCCTCAACCTGGCCTATGCGTTCGAGCGCACCGGCTGGCTGGACAGCATCAGCTGCTACAACAACCTCAGCGCGACCCTGCCGACGCACGCGCAGGGCCTGCGCCACTCGGTGCAGAACGTCACCGGCTGCAGCTTCGGCAAGGGGCCGATGCTGACCTACATCGACTGGATCGCCGGCAAGAACATGTGGTTCGCCGGCGGCGATGGCATCGGCATCGATGCGCCCGGCAACGCCGGCTGGCATTCGCGACTGAACCTCAACATCGGCTTCTACTTCTGA	MMCALALATAPAFAEERSEDPSAPYFDPGGAVRFNYGWLDYGPTSRLQLELLRLDLDAGVGPLFFSAQYRWYDGFDAIHHAYAGWRFGDDADVRVGVQQVPFGLLPTVSHSFWFGSGYYLGIEDDYDPGVVWRFKRGPHQWHLGVFSGEEYGDGARYDRYSFDVADTDTLPYRERGRVHARYEYSGQWAGGELLLGASAFAGKVQDVHSRRHYDHDGVALHAQLSRGPWTTQLQWARYRYDVPGERIAMSAFLYPFEIAAEADVPSLNLAYAFERTGWLDSISCYNNLSATLPTHAQGLRHSVQNVTGCSFGKGPMLTYIDWIAGKNMWFAGGDGIGIDAPGNAGWHSRLNLNIGFYF				NA	NA	NA	NA	NA
BMS020_06303	1977		COG1292	Glycine betaine transporter	ATGTCGGACACCGCTCCGCACCCCACCCCCGTCAAGCACCGCATCCTGCCGCAGGTGTTCTACCCGACCGCGGCGATCGTCGTCGCCCTGCTGGCGCTGGCCGCGCTGGCACCGGATCTGGCCGGACGCTGGTTCACCGCCGCCAAGCGCTGGGCCGCCGACGACGCAGGCTGGTTCACCATCCTGTCCGTCGCCGGTTTCCTGGTATTCGTCGTCGGCGTCGCGATGAGCCGTTACGGCCAGCTGCGACTTGGCCCCGACCACAGCCGCCCGGACTACAGCTACGGCTCCTGGTTCGCGATGCTGTTCGCCGCCGGCATGGGCATCGGCCTGATGTTCTTCGGCGTCGCCGAGCCGATCATGCACTTCGCCACGCCGCCGGTTGGCACGCCGGAATCGGCCGCCGCGGCGCGCCAGGCGATGCGCATCACCTTCTTCCACTGGGGCATCCATGCCTGGGCGATCTACGCGGTGGTGGCGCTGTCGCTGGCCTACTTCGCCTACCGCCACCACCTGCCGCTGCGGGTGCGCTCGGCGCTGTATCCGCTGGTCGGCGAGCGCATCCATGGCCCGATCGGCCATACCGTCGATGCATTCGCCGCACTCGGCACGATCTTCGGCCTGGCCACCTCGCTGGGCCTGGGCGTGATGCAGATCAACGCCGGCCTGCACCACCTGTTCGGGCTGGAAGTGAGCACCCTGGTGCAGGTGGTGCTGATCGCGGTGATCACCCTGGTGGCGACCGGTTCGGTGGTCGCCGGGCTCGACAGCGGCGTGCGCCGGCTGTCGGAGATCAACATGATCCTGGCCGCGGCGCTGCTGGCGTTCGTGCTGGTATGCGGACCGACCGTACACCTGATGCAGACGTTCGTGCAGAACACCGGCATGTACGTGTCCAACCTGTTCGCGATGACCTTCAACCTGTACGCCTACGAGCCGACCGGCTGGCTCGGCGGCTGGACGCTGTTCTACTGGGGCTGGTGGATCGCCTGGTCGCCGTTCGTCGGCATGTTCATCGCGCGGATCTCGCGCGGCCGCAGCGTGCGCGAATTCGTCGTCGGCGTGCTGCTGGTGCCGTTGGGCTTCACCTTCCTGTGGATGACGATCTACGGCAACACCGCGCTGCACATGGTGCGCGTGGACAGCGCGCAGGAGCTGGTACAGGCGGTGGCCGCGGACAGCTCGATGGCGCTGTTCGCGTTCCTGGAGCGGCTGCCGCTGTCGACCGCGACCTCGGCGCTGGCGGTACTGCTGGTCGCGTTGTTCTTCGTCACCTCGGCCGACTCCGGCGCACTGGTGATCGACATGCTGACCTCGAAGGGCGAAGAGGAATCGCCGCTGTGGCAGCGGATCTTCTGGGCGCTGCTGGTCGGCGCGCTGGCGGTGGCGCTGCTGGTTGCCGGCGGGCTGGAATCGCTGCAGGCGGCGACGATCGCCAGCGCCCTGCCCTTCACCGTGGTGATGATCCTGATGTGCTGGGGCCTGCTCAAGGCGATGCGGCTGGACGCGACCAAGCGTGCGCTGCTGCGCGAGGCCCGGATCCTGCCCGGCAGCAGCGAGGACTGGCGCGCGCGGCTGAAGCTGCTCGCGCACAACCCGCTGAAGCCGGAGGTGCTGGCCTTCATCGACAAGCAGGCGCAGCCGGCGCTGGAAGAGGTGGCGGCGGAGCTGCGCAAGCAGGGCCTGCCGGTCGAGGTGAATCGTGGCGAGGATGGCCGCATCTGGCTGCAGGTCGGCCATGGCGAGGAGATGGACTTCTTCTATTCGGTGCGCCCGCAGCCGTACGAGCCGCCGACATTCGCCCTGCAGGACCCGCGCCGGCGCCCGTCGGAGAACGCGCGCCACTATCGCGCCGAGGTCTATCTGCGCGAAGGCGGCCAGGACTACGACGTGATGGGCTGGCCGCGCGCGCAGCTGATCCACGACGTGCTCGACCAGTACGAGCGCCATCGCATGTTCCTGGACCACGTGCGCTGA	MSDTAPHPTPVKHRILPQVFYPTAAIVVALLALAALAPDLAGRWFTAAKRWAADDAGWFTILSVAGFLVFVVGVAMSRYGQLRLGPDHSRPDYSYGSWFAMLFAAGMGIGLMFFGVAEPIMHFATPPVGTPESAAAARQAMRITFFHWGIHAWAIYAVVALSLAYFAYRHHLPLRVRSALYPLVGERIHGPIGHTVDAFAALGTIFGLATSLGLGVMQINAGLHHLFGLEVSTLVQVVLIAVITLVATGSVVAGLDSGVRRLSEINMILAAALLAFVLVCGPTVHLMQTFVQNTGMYVSNLFAMTFNLYAYEPTGWLGGWTLFYWGWWIAWSPFVGMFIARISRGRSVREFVVGVLLVPLGFTFLWMTIYGNTALHMVRVDSAQELVQAVAADSSMALFAFLERLPLSTATSALAVLLVALFFVTSADSGALVIDMLTSKGEEESPLWQRIFWALLVGALAVALLVAGGLESLQAATIASALPFTVVMILMCWGLLKAMRLDATKRALLREARILPGSSEDWRARLKLLAHNPLKPEVLAFIDKQAQPALEEVAAELRKQGLPVEVNRGEDGRIWLQVGHGEEMDFFYSVRPQPYEPPTFALQDPRRRPSENARHYRAEVYLREGGQDYDVMGWPRAQLIHDVLDQYERHRMFLDHVR	PGPT0013600_997	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
BMS020_06304	1896	yheS_4	COG0488	putative ABC transporter ATP-binding protein YheS	ATGATCTCCCTGCGTAATTTCGCCATGCGCCGCGGCGAGCGGCTGCTGTTGTCCAACGTCGACCTGACCATGCATGCCGGCTACCGCGTCGGCGTGGTGGGCCGCAACGGCACCGGCAAGTCCAGCCTGTTCGCGGCGATCCGCGGCGAGCTCGAATCGGACAAGGGCGACGTCGACCTGCCTGGCAAGGTGCGTATCGCCAGCGTCGCCCAGGAAACCCCGATGCTGCCGGACCCGGCGATCGAGTTCGTGCTCGGCGGCGACGACGTGGTCGCCGCGGTGCTGCGCGAGGAGGCCGAGGCCAGCGCGCGCGAGGACTGGGAGGCGGTCGCCGACGCGCACCAGAAGCTGGCCGAGCTCAACGGCTACGACGCCGAGGCGCGCGCCGGCAAGCTGCTGCACGGCCTGGGCTTCGCGCCAGAGACCCATCACCGTCCGGTGTCCTCGTTCTCCGGCGGCTGGCGCGTGCGCCTGAACCTGGCGCGCGCGCTGATGATGCCCAGCGACCTGCTGCTGCTCGACGAGCCGACCAACCACCTCGACATGGACGCGGTGCTGTGGCTGGAGCAGTGGCTGCTGAAGTATCCGGGCACGCTGCTGCTGATCTCGCACGACCGCGAGTTCCTCGACACCGTCGCCACCCATACCCTGCACCTGCACGGCGGCAGCGCCAAGCTGTACGTCGGCGGCTATACCGATTTCGAGCGCCAGCGCAGCGAACACCTGCGCCAGCAGCAGATCGCCCACGAGAAGGCCGAGGCCGAGCGTGCGCACCTGCAGAGCTTCATCGACCGCTTCAAGGCGCAGGCTAGCAAGGCCAGCCAGGCGCAGAGCCGGATCAAGCGGCTGGCCAAGATGGCCGGCACCGAGGCGGTACGTGCCGAGCGCGAATTCCGCATCGAGTTCGCCCAGCCCAACCGCCTGCCGTTCTCGCTGATCCGGCTGAACCATGTCGAGGCCGGCTACGGCAGCGACAGCACGATCCTGCACGAGGTCGGTTTCGGCCTGGAAGCCGGCGACCGCATCGGCCTGCTCGGTCCCAATGGCGCGGGTAAATCCACCCTGGTGAAGACCCTGGTCGGCGAGCTGGCCCCGCTGAGCGGCGACCGCGCCGCGCATCCGGACCTGCGCATCGGCTACTTCGCCCAGCACACGGTGGAATCGCTGCACGAAGGCCAGTCGCCGATCGACCACTTCCGCGAGATCGCGCCGGACGCCTCCACGCAATCGTTCCGCGACTTCCTCGGCAAGTGGAATTTCCCCGGCGACCGCGCGTTCGAGCCGGTCGACGGCTTCTCCGGCGGCGAGCGCGCGCGTTTGGCGCTGGCGTTGATCGCCTGGCAGCAGCCCAACGTGTTGCTGCTCGATGAACCGACCAACCACCTCGACCTGGAGATGCGCGAGGCGTTGGCCGAGGCGCTGAGCGTGTTCGAAGGCGCGATCGTGATGGTCAGCCACGACCGCCACCTGATCGGCCTGGTCTGCGACACCTTCTGGCGCGTGGCCGATGGCGTGGTGGAGCCGTTCGCCGGCGACCTGGATGCCTACGCGGCGTGGCTGCGCAGCCGTCCGGCCGCGCAGGGCACCAAGCAGAAGATGGCCGAACGCAGCGAGGCCCCGGCGCCGGTCACGCCGCCGCCGGTGGAGAAGCTGGTGGCCGCCGCCAAGCCGGCGACGCCGGCGAAGAAGCCGGCCAACCCGCACAAGCTGGCCGCGGCGGAAAAGCGCGTCGGTGAGCTGGAGGCGGCGCTGGCCGAGCTGGACCGCCAGCTCGCCGATCCGGGCAACTACGCCGACAGCGGCAAGATGACCCGGCTCGGCAGCGAGCGCGAGGTCACCGCGCAGCAGCTGGCGCAGGCCGAGCAGACCTGGATGGAACTGCTGGAAGGCGCGTGA	MISLRNFAMRRGERLLLSNVDLTMHAGYRVGVVGRNGTGKSSLFAAIRGELESDKGDVDLPGKVRIASVAQETPMLPDPAIEFVLGGDDVVAAVLREEAEASAREDWEAVADAHQKLAELNGYDAEARAGKLLHGLGFAPETHHRPVSSFSGGWRVRLNLARALMMPSDLLLLDEPTNHLDMDAVLWLEQWLLKYPGTLLLISHDREFLDTVATHTLHLHGGSAKLYVGGYTDFERQRSEHLRQQQIAHEKAEAERAHLQSFIDRFKAQASKASQAQSRIKRLAKMAGTEAVRAEREFRIEFAQPNRLPFSLIRLNHVEAGYGSDSTILHEVGFGLEAGDRIGLLGPNGAGKSTLVKTLVGELAPLSGDRAAHPDLRIGYFAQHTVESLHEGQSPIDHFREIAPDASTQSFRDFLGKWNFPGDRAFEPVDGFSGGERARLALALIAWQQPNVLLLDEPTNHLDLEMREALAEALSVFEGAIVMVSHDRHLIGLVCDTFWRVADGVVEPFAGDLDAYAAWLRSRPAAQGTKQKMAERSEAPAPVTPPPVEKLVAAAKPATPAKKPANPHKLAAAEKRVGELEAALAELDRQLADPGNYADSGKMTRLGSEREVTAQQLAQAEQTWMELLEGA				NA	NA	NA	NA	NA
BMS020_06305	2385	btuB_13		Vitamin B12 transporter BtuB	ATGAACCGCAAGACCAGCCCCCTCGCCGTTGCCGTCGTCGTCGCCCTCGGCCTGCCCGTCGCCCCCGCCTTCGCCCAGTCCAGCAGCGATGCCGCCAGCACCCTGGACACGGTGATCGTCACCGGCACCCATGTCAGCGACCGCACCGTCGCCGAGTCGCAGTCGCCGATCGACATCGTCAGCCCGGAGATCCTCAAGTCGTCCGGCTCGACCGAACTGGCCACCGCGCTGTCGCGGGTGCTGCCGTCGCTGAACTTCCCGCGCCCGGCGCTGGTCGACGGCACCAGCGGCGTGCGCCCGGCGCAGCTGCGCGGGCTGTCGCCGGACCAGGTGCTGGTGCTGGTCAACGGCAAGCGCTACCACACCTCGGCGGCGATCAACCTCAACGGCAGCATGGGCCGCGGCTCCTCCGCGGTGGACCTGAACACCATTCCGATCGCGGCGATCGAGCGCGTCGAAGTGCTGCGCGACGGCGCCTCGGCGCAGTACGGCTCGGACGCGATCGCCGGCGTCATCAACATCGTGCTGAAGGGCGCCGGCCAGGGCGGCAGCCTGTCGATCGGCCACGGCCAGTACTCGGCCGGTGACGGCGCGCAGTCGCAGATCGCCGGTGATACCGGCCTGAGCTTCGCCGACGGCCGCGGCACGCTGCATGTGTCCGGGCAGATCGACAAGCAGGACGAGACCAACCGCTCCGGCCCGTACGCCGGCACCACCCCCAACACCGGCAACTACCCGGGCGTGGGCGAGACCGCCTTCATCATCGGCGACCCGCAAGTGCAGGCCGAGTCGGTCGCCGCCAACGGCGAGTTCCAGTTCTCCGACGCGGTCACCGGCTACGCCACCGCGCTGGCCAGCAACCGCGACATCACCTCGTTCGCGTTCTACCGCTCCAAGAACCACAGCAGCCAGAGCGCGCTGCTGGCGCAGTACTACCCCGACGGCTACGTGCCGGAGATCAACCAGTACTCCAAGGACCGCACCCTGCTGGCCGGCCTGAAGGGCGCCACCGACGGCGGCTTCAGCTGGGACGTCAGCTACAACTACGGCTACAACAAGATCGACTACACCACCCGCAACACGATCAACTATTCGCTCGGCACCGACAGCCCGACCAGCTTCTACGACGGCGCGCTGGAGTACACCCAGAACATCGTCAATGCCGACTTCACCCAGTCGCTGGACTGGGGCCTGGCCTATCCGGTGACCTTCGCCTTCGGCGCCGAGTACCGCCAGGAGAAGTGGAACCAGTCGCCGGGCGATCCGAGCTCGTACTACGGCAGCGGCGCGCAGGGCTTCTCCGGCTTCACCGCCGAGAACGCGGTGCATGCCGACCGCCACAACTACGCGGTCTACGCCGGGCTGGAAGCGGACCTGACCGAGAAGTTCTCCGCCGGCGCCACCGCGCGCTTCGAGGATTACTCCGACTTCGGCAGCAAGGTCTCCGGCAAGCTGTCGGCGCGCTACGCATTCACCGACAAGATCGCGCTGCGCGCGACCGCCTCCAACGGCTTCCGTGCGCCGTCGCTGGCGCAGCAGAGCTTCCAGGCGATCTCCAGCATCATCAGCGACGGCGTGTTCTACCAGAGCGGCACGTTCCCGGCCTCCAGCGCCGCGGCGCAGGCGCTGGGTTCCAAGCCGCTGAAGGCCGAGACCTCGACCAACTACAGCCTGGGCCTGGTGCTGCAGCCGCTGGACCGCCTGTCGCTGACCGTGGACGCCTACCAGATCGACATCGACGACCGCATCCTGCTGTCGTCCAACGTCAGCACCAACGCCGCGGCCAATGCGCTGCTGTCGTCGCTGGGCATCAACAACGTCAGCTCGTTCCGCTACTTCACCAACGCCGCCGACACCCGCACCCGCGGCGTCGACGTGGTCAGCAGCTACAGCATCCCGTTCGCCGCCAGCACGCTGAACCTCAGCGCCAGCTACGGCTACGGCAAGACCGAGGTGCGCAAGCTGGACGACTCGCCGAGCGCGCTGACCGACCTGGGCATCACCACGCTGCTGGTGGCGCGCGACGAGATCGGCCGCCTGGAGGACAGCTTCCCGAAGGACAAGGCGGTGCTGAGCGGCACCTGGGATTCGGAGCACTGGAACCTCAACCTGACCGCGACCCGCTACGGCAGCTTCACCGTGCGTAACTCCAGCACCGCCGCGCGCGACCAGACCTTCAGCGCCAAGTGGATCGCCGACGTCTCGGCCAGCTACAAGCCGAGCAAGCAGTGGACGCTGACGCTGGGCGCGGACAACGTGTTCGACACCTACCCGGACAAGAACATCTACGCCAACTCCACCAGCGGCGTGTTCCCGTACAGCAACTACTCGCCGTTCGGCTTCAACGGCGCCTACGTGTACGGCCGGGTGAACTACACCTGGTAA	MNRKTSPLAVAVVVALGLPVAPAFAQSSSDAASTLDTVIVTGTHVSDRTVAESQSPIDIVSPEILKSSGSTELATALSRVLPSLNFPRPALVDGTSGVRPAQLRGLSPDQVLVLVNGKRYHTSAAINLNGSMGRGSSAVDLNTIPIAAIERVEVLRDGASAQYGSDAIAGVINIVLKGAGQGGSLSIGHGQYSAGDGAQSQIAGDTGLSFADGRGTLHVSGQIDKQDETNRSGPYAGTTPNTGNYPGVGETAFIIGDPQVQAESVAANGEFQFSDAVTGYATALASNRDITSFAFYRSKNHSSQSALLAQYYPDGYVPEINQYSKDRTLLAGLKGATDGGFSWDVSYNYGYNKIDYTTRNTINYSLGTDSPTSFYDGALEYTQNIVNADFTQSLDWGLAYPVTFAFGAEYRQEKWNQSPGDPSSYYGSGAQGFSGFTAENAVHADRHNYAVYAGLEADLTEKFSAGATARFEDYSDFGSKVSGKLSARYAFTDKIALRATASNGFRAPSLAQQSFQAISSIISDGVFYQSGTFPASSAAAQALGSKPLKAETSTNYSLGLVLQPLDRLSLTVDAYQIDIDDRILLSSNVSTNAAANALLSSLGINNVSSFRYFTNAADTRTRGVDVVSSYSIPFAASTLNLSASYGYGKTEVRKLDDSPSALTDLGITTLLVARDEIGRLEDSFPKDKAVLSGTWDSEHWNLNLTATRYGSFTVRNSSTAARDQTFSAKWIADVSASYKPSKQWTLTLGADNVFDTYPDKNIYANSTSGVFPYSNYSPFGFNGAYVYGRVNYTW	PGPT0003790_10715	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_06306	1677	ybaL_2	COG1226	Putative cation/proton antiporter YbaL	ATGCATCACGACACCAGCCTCATCGACATCATCGCCGTCGGCCTCGCCGTCGCCTTCGTGCTCGGCGCGCTCGCCAACAAGCTGCGGCTATCGCCGCTGGTCGGCTACCTGGTCGCGGGCATGGTCGTGGGGCCGTTCACCCCGGGCTTCGTCGCCAACCAGGACCTGGCCAACCAGCTGTCCGAGCTGGGCGTGATGCTGCTGATGTTCGGGGTGGGCCTGCACTTCTCGCTGCAGGACCTGCTCGAGGTGAAGTGGATCGCGATCCCCGGCGCGATCGCCCAGATCGTCGTCGCCACCGCGCTCGGCTGGGGCCTGGCGTGGACGATGGGCTGGCCGGCGATGCACGGGCTGGTGTTCGGCCTGGCGTTGTCGGTGGCCAGCACCGTGGTGCTGCTGCGCGCGCTGGAGGAACGCCGCCTGCTGGAAACCCAGCGCGGCAAGATCGCCATCGGCTGGCTGATCGTCGAGGACCTGGTGATGGTGCTGGCACTGGTGCTGCTGCCGGCGCTGGCGCACGCACTGGAGGGCGGCAAGGACGGCGGCATCGGCGCGATCGCGATCGCGATGGGCTGGACCCTGTTGAAGATGGCCGCGTTCGTCGCGGTGATGCTGGTGGTCGGGCGCCGGGCGATCCCGTGGGTGCTGGAGAAGATCGCCGCGACCGGCTCGCGCGAGCTGTTCACACTGTCGGTGCTGGCGATCGCGCTGGGCGTGGCGTTCGGCTCGGCGACGCTGTTCGGGGTGAGTTTCGCGCTCGGCGCGTTCTTCGCCGGCATGCTGCTCAACGAATCGGAGCTCAGCCACAAGGCCGCCAACGACTCGCTGCCGCTGCGCGATGCGTTCGCGGTGCTGTTCTTCGTCTCGGTGGGCATGCTGTTCAATCCGCACATCGTGCTGGAGCACCCGTGGCAGGTGATCGCCACGTTCCTGACCATCACCCTGGGCAAGTCGGTGGCGGCGTTCTTCATCGTGCGCGCGTTCGGCCACCCCACCGGCACCGCGCTGACGATCTCGGTCAGCCTGGCGCAGATCGGCGAGTTCTCCTTCATCCTCGCCGGCCTCGGCGTGGGCCTGGCGATCCTGCCGGAAACCGGGCGCGACCTGATCCTGGCCGGCGCGCTGCTGTCGATCATCGCCAACCCGTTCCTGTTCGCCTGGCTGGACCGCTGGCAGGCCAGGCAGGCGCAGGCCGCACCGCTGCCGAGCGAGGCCGAGGTGCCGCCGGGGCCGTCGCTGGACCTGCACGACCACGCCATCGTGATCGGCTATGGCCGGGTCGGCAGCGCGCTGGCGCAGCTGCTGCGCGAGCGCGGCGTGCCGGTGCTGGTGATCGACGACAACCGCGACCACGTCGAACGCGCGCATGCGCAGGGCATTCCCGGCATCCGCGGCAGCGCCGCCGCCGACCAGGTGCTGGCCGAGGCGCGTCCGGAGCACGCCAAGATCGCGATCCTGGCGATCCCGCAGCCGCTGGAGGCCGGCGAGGCGCTGGCCAAGCTGCGCGCGTTGAATCCCGGCCTGACCCTGCTGGCACGCGCGCACAGCGACGCCGAGGTCAAGCACCTGCTGGAGCACGGCGCCGATGGCGCGGTGCTGGCCGAACGCGAGCTGGCGTTCTCGCTGGCGGAAATGGTGATGTCGACCCCGCCGTACCGGGCGCTGCGGGTGTCCTGA	MHHDTSLIDIIAVGLAVAFVLGALANKLRLSPLVGYLVAGMVVGPFTPGFVANQDLANQLSELGVMLLMFGVGLHFSLQDLLEVKWIAIPGAIAQIVVATALGWGLAWTMGWPAMHGLVFGLALSVASTVVLLRALEERRLLETQRGKIAIGWLIVEDLVMVLALVLLPALAHALEGGKDGGIGAIAIAMGWTLLKMAAFVAVMLVVGRRAIPWVLEKIAATGSRELFTLSVLAIALGVAFGSATLFGVSFALGAFFAGMLLNESELSHKAANDSLPLRDAFAVLFFVSVGMLFNPHIVLEHPWQVIATFLTITLGKSVAAFFIVRAFGHPTGTALTISVSLAQIGEFSFILAGLGVGLAILPETGRDLILAGALLSIIANPFLFAWLDRWQARQAQAAPLPSEAEVPPGPSLDLHDHAIVIGYGRVGSALAQLLRERGVPVLVIDDNRDHVERAHAQGIPGIRGSAAADQVLAEARPEHAKIAILAIPQPLEAGEALAKLRALNPGLTLLARAHSDAEVKHLLEHGADGAVLAERELAFSLAEMVMSTPPYRALRVS	PGPT0014395_2891	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014395-ybaL|TC_KEF-K03455	NA	NA
BMS020_06307	1230	alaC_2	COG0436	Glutamate-pyruvate aminotransferase AlaC	ATGGCCGATACCGGCAAGCGCCGCTTTGCGCGCATCGATCGTCTCCCCCCGTACGTGTTCAACATCACCGCCGAGCTGAAGATGGCGGCCCGCCGCCGTGGCGAGGACATCATCGACTTCAGCATGGGCAACCCGGACGGCGCCACGCCGCCGCACATCGTCGACAAGCTGGTGCAGGTCGCCCAGCGCGAAGACACCCATGGCTATTCCACCTCGCGCGGCATTCCGCGCCTGCGCCGCGCGATCTCGCGCTGGTACAAGCAGCGCTACGAGGTGGAGATCGACCCCGAGAGCGAGGCGATCGTCACCATCGGCTCGAAAGAAGGTCTGGCGCACCTGATGCTGGCCACGCTCGATCTGGGCGACACGGTGCTGGTGCCCAACCCGAGCTATCCGATCCACATCTACGGCGCGGTGATCGCCGGTGCGCAGGTGCGCTCGGTGCCGCTGGTGCCGGGCGTGGATTTCTTCGCCGAGCTGGAACGCGCGATCCGCGAGTCGATTCCCAAGCCGAAGATGATGATCCTCGGCTTCCCCTCCAACCCCACCGCGCAGTGCGTGGAGCTGGACTTCTTCCAGCGCGTGGTGGCGCTGGCCAAGCAGTACGACGTGCTGGTGGTGCACGACCTGGCCTACGCCGACATCGTCTACGACGGCTGGAAGGCGCCGTCGATCATGCAGGTCGAAGGCGCCAAGGACATCGCGGTGGAGTTCTTCACCCTGTCCAAGAGCTACAACATGGCCGGCTGGCGGATCGGCTTCATGGTCGGCAACCAGGAACTGGTCGCCGCGCTGGCGCGGATCAAGAGCTACCACGACTACGGCACCTTCACCCCGCTGCAGGTGGCGGCGATCGCCGCGCTGGAAGGCGACCAGCAGTGCGTGGCCGACATCGCCGAGCAGTACCGGCAGCGCCGCAACCTGCTGGTCAAAGGCCTGCATGAGGCCGGTTGGATGGTGGAGAAGCCCAAGGCCTCGATGTACATCTGGGCCAAGATCCCCGAGCCGTACGCCCACCTCGGCTCGCTGGAGTTCGCCAAGAAGCTGATGCTCGATGCCAAGGTCTGCGTGTCGCCGGGGCTGGGCTTCGGCGAATACGGCGACGACCACGTGCGCTTCGCGCTGATCGAGAACCAGGACCGCACCCGTCAGGCGATCCGCGGGATCAAGGCGATGTTCCGTGCCGACGGGCTGGTGGCACCGCCGGCGCCTGCCAAACGCGGCGGCTGA	MADTGKRRFARIDRLPPYVFNITAELKMAARRRGEDIIDFSMGNPDGATPPHIVDKLVQVAQREDTHGYSTSRGIPRLRRAISRWYKQRYEVEIDPESEAIVTIGSKEGLAHLMLATLDLGDTVLVPNPSYPIHIYGAVIAGAQVRSVPLVPGVDFFAELERAIRESIPKPKMMILGFPSNPTAQCVELDFFQRVVALAKQYDVLVVHDLAYADIVYDGWKAPSIMQVEGAKDIAVEFFTLSKSYNMAGWRIGFMVGNQELVAALARIKSYHDYGTFTPLQVAAIAALEGDQQCVADIAEQYRQRRNLLVKGLHEAGWMVEKPKASMYIWAKIPEPYAHLGSLEFAKKLMLDAKVCVSPGLGFGEYGDDHVRFALIENQDRTRQAIRGIKAMFRADGLVAPPAPAKRGG				NA	NA	NA	NA	NA
BMS020_06308	900			hypothetical protein	ATGCGCAGCAGCACCGGCAATTCCTATCAGCGCGCGATCGAGCGCGTGCTCACCCATCTGCAGCAGGCGGTGCAGGACGACGCGCCGCTGCCCGACCTGGACACGCTGGCCGCGGTGGCGCACCTGTCGCCGTACCACTTCCACCGCATCTACCGCGCGCTGACCGGGGAGACGGTCGGGCGCACGGTGGCGCGGTTGCGGTTGCTGCGCGCGCTGCGCCTGCTCGCCGACGGCGCTGCGCCGGTCACCCGGATCGCCCAGGAGGTCGGCTACGGCACGCCGCAGGCGCTGGCGCGCGCGCTGCGGGCCGCGCTCGGGGCGTCGCCCGGGGAGCTGCGTGCGAACCCGGCGCTGCTGCAGGCCGGGCAACAGGCGCTGGCCGCGCCGGCCGCGGTGGCGGTCGATGCGGACACGCCGTTGCAGGTCAGCGTCGAGGTGCTGGCGCCGTTCGAGGTGGTGACGCTGCGCCGGCGCGGCGCCTTCGAGGAACTCGACGCCGGTTTCGGCGAGCTGTTCGGTTGGGCGATGCAGGCCGGTCTCGGCGAGCACCTGGAGCGGCTGGCGGGAATCCCGCTCGGCGACCATCGCGATCTGCCGCCGCAGGAGTTCCTGTTCGACTGCGCGCTCGGCTTCGCGCTGCCGGTGGAACCGCCGGCGCCGTTTGTGCGGCAGCGGCTGGGCGACGGCCTGCATGCGGTGCTGCGCCATGTCGGCCCGTATGAGCAGCTGCAGCAGGCGCTGGACCAGCTGCTGGCCGGGTGGCTGCCGGACAGCGGCCACGCACTGCGCGATGCGCCGCCGTACTACGTCTTCCTCGACGACCCGGAAGACGTGCCGGCGGCGATCCTGCGCGCCGACATCTGCGTGCCGCTGCAGCCGGCGCAGGGCGCGTCCGGGTGA	MRSSTGNSYQRAIERVLTHLQQAVQDDAPLPDLDTLAAVAHLSPYHFHRIYRALTGETVGRTVARLRLLRALRLLADGAAPVTRIAQEVGYGTPQALARALRAALGASPGELRANPALLQAGQQALAAPAAVAVDADTPLQVSVEVLAPFEVVTLRRRGAFEELDAGFGELFGWAMQAGLGEHLERLAGIPLGDHRDLPPQEFLFDCALGFALPVEPPAPFVRQRLGDGLHAVLRHVGPYEQLQQALDQLLAGWLPDSGHALRDAPPYYVFLDDPEDVPAAILRADICVPLQPAQGASG				NA	NA	NA	NA	NA
BMS020_06309	1209	fsr_2		Fosmidomycin resistance protein	ATGTCGAGCCACAGCGCCCCCGTCGGCCCCACGCCTGCCCGCCCACCGGTCGCCACCGGCGTGCTGGCGGCGATCACTTCCTCGCACCTGATCAACGACATGATGCAGTCGCTGATCCTGGCGCTGTATCCGGTGCTGAAGGGGCAGTTCCAGCTCAGCTTCGCCCAGGTCGGGCTGATCACGCTGACCTACCAGCTCACCGCCTCGCTGTTCCAGCCGCTGATCGGACTGCGCACCGACCGCCGGCCGGCACCGTATTCGCTGCCGTTCGGGATGGCGTCCACGCTGTGCGGGCTGGTGCTGCTGGGCTTCGCACCCAGTTTCGCGCTGGTGCTGGTCGCCGCGGCGCTGGTCGGGGTCGGCTCGGCGGTCTTCCATCCGGAATCGTCGCGGATCGCGCGGCTGGCCTCGGGCGGGCGGCACGGGCTGGCGCAGTCGGTGTTCCAGGTCGGCGGCAACGCCGGCACCGCGCTGGGGCCGCTGATCGCCGCGGCGGTGATCGTGCCCAACGGCCAGCACAGCGTGGCCTGGTTCGGCGCCGCCGCGCTGCTGGGCATCGCGCTGCTGTCCTACGTCGGCCGCTGGTACGCGCTGCACCTGGGGCAACGCGCCGCGGCGCCGCGGGCGGCGGCCCAGGTCGCGCCGCTGCCGCGCGCGCGGGTGGCCTGGATCATCGGCGTGCTGCTGGTGCTGATCTTCTCCAAGTACTTCTACATCGCCGGCCTCAGCAGCTACTACACGTTCTATCTGATCCAGCGCTTCGGCGTGTCGGTGCAGAGCGCGCAGCTGCATCTGTTCGCGTTCCTGCTGGCGTCGGCGGTCGGCACCCTGGTCGGTGGCCCGGTCGGCGACCGGATCGGCCGCAAGCCGGTGATCTGGGTGTCGATCCTGGGCGTGGCGCCGTTCGCGCTGGCGCTGCCGCACGTCGGCCTGCAGGCGACCACGGTGCTGGCGGTGCTGATCGGCCTGGTGCTGTCGTCGGCGTTCTCGGCGATCCTGGTGTACGCGCAGGAGCTGCTGCCGGGGCGCATCGGCATGGTCTCGGGGCTGTTCTTCGGCTTTGCCTTCGGCATGGGCGGGCTGGGGGCGGCGGTGCTCGGGCTGCTGGCCGACCGCATCGGCATCGTCGCGGTGTACCAGGCGATCGCCTACCTGCCGCTGCTCGGCATCGTCGCCGCACTGCTGCCGGCGCGTGGCCGGCGCGACTGA	MSSHSAPVGPTPARPPVATGVLAAITSSHLINDMMQSLILALYPVLKGQFQLSFAQVGLITLTYQLTASLFQPLIGLRTDRRPAPYSLPFGMASTLCGLVLLGFAPSFALVLVAAALVGVGSAVFHPESSRIARLASGGRHGLAQSVFQVGGNAGTALGPLIAAAVIVPNGQHSVAWFGAAALLGIALLSYVGRWYALHLGQRAAAPRAAAQVAPLPRARVAWIIGVLLVLIFSKYFYIAGLSSYYTFYLIQRFGVSVQSAQLHLFAFLLASAVGTLVGGPVGDRIGRKPVIWVSILGVAPFALALPHVGLQATTVLAVLIGLVLSSAFSAILVYAQELLPGRIGMVSGLFFGFAFGMGGLGAAVLGLLADRIGIVAVYQAIAYLPLLGIVAALLPARGRRD				NA	NA	NA	NA	NA
BMS020_06310	801	nimR_5		HTH-type transcriptional regulator NimR	ATGGACCATCGCGAAAAGGGCATCGCGCCGGCCTCCCAGCGCAGCGGCCACGACATCGACCAGGCCCCGGCCGAGGTGATCTGCAAGGCGGTCGACTACCCCGCCGACACCCGCATCGCACCGCATCGCCATGCCCGCCACCAGCTGGTCTACGCGATGCAGGGGCTGATGGTGGTCACCGCCGGCCCGCGCGCCGAGCGCTGGGTGGTGCCGAGCACGCGCGCGCTGTGGATGCCGGCGGGCACCGAGCATGCGGTGCAGTGCATCGGCGATGTGCGCATGCGCAGCGTCTACATCCGCCCCAGCGCGATCGCCGCGATGCCGCTGCAGCCATCGGTGATGGCGGTCGCGCCGCTGCTGGCGCAGCTGGTGCAACAGGCCGCGACGATCCCCTGGGACCACCCGGCCGATTCGCGCGACGGCCGGCTGATGCGGCTGATCCTCGACGAGCTGCATGCGCTGCCGGTATTGCCGCTGCACCTGCCGCAACCGGCCGACCCGCTGCTGTGCCGCATCTGCGATGCGCTGCAGCGCGATCCGGCCGATTCCCGCACGCTGCTGGACTGGGCGCAGCGGCTGGCGCTGGACCCGAAGACGGTGCAGCGCCGCTTCCAGCGCGAACTGGGCATGAGCTTCGGCCGCTGGCGCCAGCAGGTGCGGCTGCTGCGCGGGCTGGAGCGGCTGGCCGCCGGCGACCGCATCATCGATGTCGCGCTGGAACTGGGCTACGACAGCCCCAGCGCCTTCAGTGCGATGTTCCGCCGCCAGTTCGGCCAGCCACCGAGCCGGTTCTTCGCCTGA	MDHREKGIAPASQRSGHDIDQAPAEVICKAVDYPADTRIAPHRHARHQLVYAMQGLMVVTAGPRAERWVVPSTRALWMPAGTEHAVQCIGDVRMRSVYIRPSAIAAMPLQPSVMAVAPLLAQLVQQAATIPWDHPADSRDGRLMRLILDELHALPVLPLHLPQPADPLLCRICDALQRDPADSRTLLDWAQRLALDPKTVQRRFQRELGMSFGRWRQQVRLLRGLERLAAGDRIIDVALELGYDSPSAFSAMFRRQFGQPPSRFFA	PGPT0014658_41	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA	NA	NA
BMS020_06311	729	cobS_2	COG0368	Adenosylcobinamide-GDP ribazoletransferase	ATGAACGGCCTGCTCGCCGCGCTCGGCCTGCTGACCCGCATTCCGGTGCCGGCGCGGGTCTGGCAGCAGCCCGGCGTGCAGGCGCGTTCGCTGTGCTGGTATCCGCTGGTCGGGCTGCTGCTCGGCGGCGTGCTGTGCGCGCTGGCGTGGACCCTGCGCGCTGCGTCGCCGCTGCTGGCCGCCGCGCTGCTGGTCGCGGCCTGGGCATGGTTGAGCGGTGGCCTGCACCTGGACGGGCTGGCCGACAGCGCCGACGCCTGGGTCGGCGGCCTGGGCGATCGCAGCCGCACGCTGGAGATCATGAAAGACCCGCGCAGCGGCCCGGCCGGGGTTTCGACCCTGGTGCTGGTGTTGCTGCTGAAGACCGCGGCGCTGGCCGCGTTCGCCACGCAGGCGTGGCAGTGGCTGTGGCTGGCGCCGTTGCTGGCACGCACGGGCCTGGTCGCGGCGTTCCTCGGCCTGCCGTACGTGCGCGCCGGCGGCATGGGCAGCGGCCTGGCCGGCGCCACGCGGCTGCCGTGCTGGAGCGCGCTGTTGCTCGCGGTCGCAGTGGCCTGCGCGGCGGGCTGGAGCGGCGCGGTCGCGCTCGCGGCCGTCGGCGTGGTCTGGCTGCTGTGGCGCCGTGCCTGCCTGCGGCGCCTGCAGGGCATGACCGGCGACACCTGCGGTGCCCTGGTCGAGCTGAGTGAAACGGCAGTGCTGGTCGGGCTGGGCCTGCTGTTGGGCTAG	MNGLLAALGLLTRIPVPARVWQQPGVQARSLCWYPLVGLLLGGVLCALAWTLRAASPLLAAALLVAAWAWLSGGLHLDGLADSADAWVGGLGDRSRTLEIMKDPRSGPAGVSTLVLVLLLKTAALAAFATQAWQWLWLAPLLARTGLVAAFLGLPYVRAGGMGSGLAGATRLPCWSALLLAVAVACAAGWSGAVALAAVGVVWLLWRRACLRRLQGMTGDTCGALVELSETAVLVGLGLLLG	PGPT0004590_2441	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
BMS020_06312	636	pspB_2	COG0406	Putative phosphoserine phosphatase 2	ATGAGCGCGGTCGACCCTGCAGACGGCGCTGCGCCGGGCGGCACGCAGGCGCCGTCGGCGGCGCACGCGCTGCGCGCCGGCGTGGGCGATGCGCCGCACATCACGCTGCTGCGCCACGGCGATACCGGCCAGCGCAGTTACCGCGGCCAGCTCGACGATGCGCTGACCGCGCTCGGCTGGCAGCAGCTGCGCGCGGCGACCGCCGCGCGCCACTGGGATGTGGTGGTCAGCTCCACGCTGCAGCGCTGCGCACGCTTCGCTGCCGAGCTGGCGGGTGCGCGTGGTCTGCCGCTGACGTTGGACGCGCGGCTGCGCGAATACCACTTCGGCGACTGGCAGGGCGTGCCGGTGGCCGATCTCGATCGCGACCATCCCGAGGCGCTGGGGCGGTTCTGGGCCGATCCGGAACGCCACCCGCCGCCGAACGCCGAGTCGTTCGCGGCGTTCCGCGCGCGCCTGGTCGCCGCGCTCGACGCGGTGGTTGCCGCGTATCCCCGGCAGCGGGTGCTGGTGGTGACCCACGGCGGTGCGATCAAGCAGCTGCTGGCGCTGGCGGCCGGCCGCGACAGCGAGGGCATGGCGGCGATCCAGGTCGCGCACGCCTCGCTGCATCCGCTGGCATGGCCGCCGGCATGA	MSAVDPADGAAPGGTQAPSAAHALRAGVGDAPHITLLRHGDTGQRSYRGQLDDALTALGWQQLRAATAARHWDVVVSSTLQRCARFAAELAGARGLPLTLDARLREYHFGDWQGVPVADLDRDHPEALGRFWADPERHPPPNAESFAAFRARLVAALDAVVAAYPRQRVLVVTHGGAIKQLLALAAGRDSEGMAAIQVAHASLHPLAWPPA	PGPT0004650_464	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
BMS020_06313	1044	cobT_3		Nicotinate-nucleotide--dimethylbenzimidazole phosphoribosyltransferase	GTGAGCATCGATTGGATCCGGCAGCCGTGCGCGCAGCCGGACATGGCCGCGCGCGCGGCCGCGCTGGCGCGGCAGGCGCAGTTGACCAAGCCGCCCGGATCGCTGGGCGCGCTGGAGACGCTGGCGGTGGACCTGGCCGGATGGCAGGGGACCGCGCGCCCGTCGCTGCAGCGGATCTGGATCGCGGTGTATGCCGGCGACCATGGCGTCGCCGCCGAGGGCGTGTCGGCGTTCCCGCAGGCGGTGACCGGCGAGATGGTGCGCAACTTCGCCAGCGGCGGCGCGGCGATCGCGGTACTGGCGCGGGCGCTCGATGCGACGCTGGAGGTGGTCAACCTCGGCACCGTGAATGATCCGGGCGAGGTGCCCGGGGTGCGCCGCGCGATCATCGCGCCAAGCACCGCGAACATCTGCGTGGCCGCGGCGATGAGCCCGGCGCAGTGTGCGGCCGCGCTGGCCGCCGGCGCGCACAGCGTGGCGCAGGCGCGCGCGGCCGGCGCGCAGCTGTTCATCGCCGGCGAGATGGGCATCGCCAACACCACCGTGGCGGCGGCACTGGCCTGCGCGCTGCTCGGACATGGTCCGGAACTGCTGGCGGGCGCCGGCACCGGGCTGGATGCGGCCGGCATCGCGCACAAGGCCGCGGTGGTCGCGCGCGCGCTGGCGCTGCATGCCGACGCGACGACGCCGCTGGAACAGTTGCGCCGGCTCGGCGGGTTCGAGATCGCGGCGATGAGCGGTGCCTGCATCGCCGCGGCGCAGGCCGGCCTGCCGGTGTTGGTGGACGGCTTCATCGCCAGCGCCGCCGCGCTGCTGGCCACGCGCATCCAGCCCGAGGTGCGCGACTGGCTGCTGTTCGCGCACCGCTCGCACGAACGCGGCCACCAGCGCGTGCTCGAGGCACTCGATGCGCGGCCGCTGCTCGACCTCGGCCTGCGCCTGGGCGAGGCCAGCGGCGCGGCGGTGGCGGTGCCGCTGCTGCGCCTGGCCTGCGCGCTGCACGATGGCATGGCCACGTTCGCCGAAGCGGGCGTGTCGCAATGA	MSIDWIRQPCAQPDMAARAAALARQAQLTKPPGSLGALETLAVDLAGWQGTARPSLQRIWIAVYAGDHGVAAEGVSAFPQAVTGEMVRNFASGGAAIAVLARALDATLEVVNLGTVNDPGEVPGVRRAIIAPSTANICVAAAMSPAQCAAALAAGAHSVAQARAAGAQLFIAGEMGIANTTVAAALACALLGHGPELLAGAGTGLDAAGIAHKAAVVARALALHADATTPLEQLRRLGGFEIAAMSGACIAAAQAGLPVLVDGFIASAAALLATRIQPEVRDWLLFAHRSHERGHQRVLEALDARPLLDLGLRLGEASGAAVAVPLLRLACALHDGMATFAEAGVSQ	PGPT0004595_1746	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
BMS020_06314	522	cobP		Bifunctional adenosylcobalamin biosynthesis protein CobP	ATGCGTGAACTGATTCTTGGTGGCGCCCGTTCGGGCAAGAGTGCGCTGGCCGAGCGGCTGGCGGTCGACAGCGGGCTGGACGTGGTCTACATCGCCACCGGCCAGGCGCTGGATGCGGAGATGCACGCGCGCATCGCCCACCATCGCGCGCGCCGGCCGGAGCAGTGGGGCTGCGTCGAGGAGCCGGTGGCGCTGGCCGCGACCCTGCGCGTGCACGCCGCGCCCGGGCGCCTGCTGCTGGTGGATTGCCTGACGCTGTGGCTGAGCAACCTGCTCGGGCAGGGCGACGACGGCCTGCTGCAGCGCGAGCGCGATGCGCTGCTGGCCACGCTGGCGGTGCTGACGGGGCGGATCGTGCTGGTCAGCAATGAAGTCGGGCTGGGCGTGGTGCCGCTGGGCGAACTGAGCCGGCGCTATGTCGATGAGGCCGGGCGCCTGCACCAGGCGCTGGCCGCGCGCTGCCAGCGCGTGGTGTTCGTCGCCGCCGGCCTGCCGTTGGTGATGAAAGGAGACCCGTTGTGA	MRELILGGARSGKSALAERLAVDSGLDVVYIATGQALDAEMHARIAHHRARRPEQWGCVEEPVALAATLRVHAAPGRLLLVDCLTLWLSNLLGQGDDGLLQRERDALLATLAVLTGRIVLVSNEVGLGVVPLGELSRRYVDEAGRLHQALAARCQRVVFVAAGLPLVMKGDPL	PGPT0004585_2115	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
BMS020_06315	2802	cobQ_2		Cobyric acid synthase	ATGCTTGAACATGGCGGCAAGCTGCTGCGTGCAGCACAGCGCTACGGCATTGCGCCGCAGGCGTGGCTGGATCTGTCCACCGGCATCAGCCCGTTCGCGTGGCCGGTGCCGGCGATTCCCGCCGATGCCTGGCAGCGCCTGCCCGAGGACGAGGACGGCCTGGCCGAGGCGGCCTGTCGCTACTACGGCGCGCCGGCGCTGCTGCCCGTGGCCGGCTCGCAGGCCGCGATCCAGGCGCTGCCGCTGCTGCGCGCGCCATCGCGCGTGGGGGTGATCGCACCGGGCTACAACGAGCATGCGCATGCCTGGCGTCGCGCGGGGCACGCGGTGCGTACGCTGCCGGCGGCGGAGCTGGTCGCGCAGGTCGACGACTTCGACGTGCTGGTGCTGATCCATCCGAACAATCCTGGTGGCGACACGTTCGCCGCCGATGCGCTGCTGGCGTTGCACGCACGCTTGGCCGCGCGGGGTGGCTGGTTGCTGCTCGATGAGGCCTTCATGGATGCCACCCCGCAGCACAGCCTGTGCGCCTACAGCGGACGTGATGGTCTGGTGGTGCTGCGTTCGGTCGGCAAGTTCTTCGGCATGGCCGGTGCGCGTGCCGGCTTCGTCTGCGCCGCGCCGGCGTTGCTGGATGCACTGCGCGACCGGCTTGGGCCGTGGACGCTGACCGGGCCGGCGCGCTGGGCGTTGCGCCAGGCGCTGGCCGATGCCGCCTGGCAGGCACGGGCGCGTCCGCGCCTGCGCGAGGCGTCGCAGGCGCTGGCGGCGGTGCTGCGGCGGCACGGGCTGGTGCCGACCGCCGGCAGCGCGTTCTTCCAGTGGTGCCGGCGCGACGACGCGGCGCAGCTGCACGACGCGCTGGCGCGTCGCGGCGTGTTGGTACGGCTGTTCGAGGATCCAGCCAGCCTGCGTTTCGGCCTGCCGGCGGATGCTGCCGCGCTGCTGCGCCTGGATGCGGCGCTGGAGGGCATCGCCGAGGAGCACAAGCGCCCTCATCCGCCCTTCGGGCACCTTCTCCCGCTTGCGGGAGAAGGAACACCGGGCAGCCTCCCGCTTGCGGGAGTAGGGACACCAGCCAGCCTCCCGCTTGCGGAAGAAGGGACACCAGCTAGCCTCCCGCTTGCGGAAGATGGGACCGCAGCGAGCCTCCCGTTTGCGGAAGACAGGACACCTGCAAGCTTCCAGCCTGCGGCGGAACCATCCGCTGTGGCTCTCGCGCCCGCGTGCGCGGAGAACTCCGAACACCGGGAACCTGCTCTTGATCCTTCTCCCGCAAGCGGGAGAAGGTGGCGCGAAGCGCCGGATGAGGGCGCTGTCGCGCTGGCCAGCACGCTGATGGTCCAGGGCACCACTTCCGACGCCGGCAAGAGCACGCTGGTGGCGGCGCTGTGCCGCTGGCTGCATCGTCGCGGGATAGCGGTGGCGCCGTTCAAACCGCAGAACATGGCGCTGAATTCGGCCGTCACCGCCGATGGTGGCGAGATCGGCCGCGCGCAGGCGGTGCAGGCGCAGGCCTGCGGGTTGGCGCCGCAGACCGACTTCAACCCGGTGCTGCTCAAGCCCAACAGCGACACCGGTGCGCAGGTGATCGTGCACGGCCGCGCGGTCGGCAACCTCGACGCGGTGGCCTACCACGACTACAAGCGCACCGCGCGCGCGGCGGTGTTGTCCTCGCACGCGCGGCTGGCGCAGCGTTACGCCGCGATCATGGTCGAAGGCGCGGGCAGCCCGGCCGAGATCAACCTGCGCGCCAACGACATCGCCAACATGGGCTTTGCCGAGGCGGTGGATTGCCCGGTGATCCTGGTCGCCGACATCGACCGCGGCGGCGTGTTCGCGCACCTGGTCGGCACCCTGGCGCTGCTGTCCGACAGCGAACGTGCGCGCGTGGCCGGCTTCGTCATCAACCGCTTCCGCGGCGACCTGGCGCTGCTGCGGCCGGGCCTGGACTGGCTGGAGCGCGAGACCGGCAAGCCGGTGCTTGGCGTGCTGCCGTACCTGCACGGCCTGCAGCTGGAGGCCGAGGACGCGTTGCCGCGTGCGCAGGCGGGCAATCCGCAGGCGCTGCTGCGGGTGGCGGTGCCGGCGTTGCCGCGGATCAGCAACCACACCGATTTCGATGCGTTGGCCGCGCATCCGCAGGTCGAGCTGCGCTTCGTCGGCCCGGGGGAAGCATTCCCGGCCTGCGACCTGATCGTGCTGCCCGGCAGCAAGTCGACCCGCGCCGACCTGGACTGGCTGCGTGCGCAGGGCTGGGACGCGGCGATCGCCCGTCACCTGCGCTACGGCGGGCGTCTGCTCGGCATCTGCGGCGGCCTGCAGATGCTCGGCACCGCGGTGCACGATCCGCACGGCATCGAAGGCGCGCCCGGCAGCAGTACCGGCTTCGGCTGGCTGGCGCTGGAGACCACGCTGGCACCGCACAAGCAGCTGCGCCAGGTGCGCGGCGTGCTGCCCGACGCGGCCGATGCGCCGCTGCGCGGCTATGAGATCCACTGCGGCGTCAGCCACGGCGCGGCGCTGGAGGCCGGCTGGATCCGCCGCGACGACGGCGCTGCCGAAGGCGCGCGTTCTGCCGACGATTGCATCCGCGCGACCTATCTGCACGGCGTGTTCGACGCGCCCGAGGCGCTGGCCGCGCTGCTGGCCTGGGCCGGGCTGGCGCAGCCGCAGGCACTGGACCTGGGCGCGCTGCGCGAGGCCAGCCTGGAACGCCTGGCCGACATGGTCGAGGCACATCTGGATACCCGCGCGTTGGCGCGGCTTGCCGGCATCGAGGAGGTGCCATGCGTGAACTGA	MLEHGGKLLRAAQRYGIAPQAWLDLSTGISPFAWPVPAIPADAWQRLPEDEDGLAEAACRYYGAPALLPVAGSQAAIQALPLLRAPSRVGVIAPGYNEHAHAWRRAGHAVRTLPAAELVAQVDDFDVLVLIHPNNPGGDTFAADALLALHARLAARGGWLLLDEAFMDATPQHSLCAYSGRDGLVVLRSVGKFFGMAGARAGFVCAAPALLDALRDRLGPWTLTGPARWALRQALADAAWQARARPRLREASQALAAVLRRHGLVPTAGSAFFQWCRRDDAAQLHDALARRGVLVRLFEDPASLRFGLPADAAALLRLDAALEGIAEEHKRPHPPFGHLLPLAGEGTPGSLPLAGVGTPASLPLAEEGTPASLPLAEDGTAASLPFAEDRTPASFQPAAEPSAVALAPACAENSEHREPALDPSPASGRRWREAPDEGAVALASTLMVQGTTSDAGKSTLVAALCRWLHRRGIAVAPFKPQNMALNSAVTADGGEIGRAQAVQAQACGLAPQTDFNPVLLKPNSDTGAQVIVHGRAVGNLDAVAYHDYKRTARAAVLSSHARLAQRYAAIMVEGAGSPAEINLRANDIANMGFAEAVDCPVILVADIDRGGVFAHLVGTLALLSDSERARVAGFVINRFRGDLALLRPGLDWLERETGKPVLGVLPYLHGLQLEAEDALPRAQAGNPQALLRVAVPALPRISNHTDFDALAAHPQVELRFVGPGEAFPACDLIVLPGSKSTRADLDWLRAQGWDAAIARHLRYGGRLLGICGGLQMLGTAVHDPHGIEGAPGSSTGFGWLALETTLAPHKQLRQVRGVLPDAADAPLRGYEIHCGVSHGAALEAGWIRRDDGAAEGARSADDCIRATYLHGVFDAPEALAALLAWAGLAQPQALDLGALREASLERLADMVEAHLDTRALARLAGIEEVPCVN	PGPT0004580_33	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
BMS020_06316	906	cobD_3	COG1270	Cobalamin biosynthesis protein CobD	ATGACGCCGTTGCTGATCGCCGGTGTCGCGCTGCTGCTCGACCTGCTGCTCGGCGAGCCGCGCAGCGCGCATCCGCTGGTGCTGTTCGGGCGCGTGGCGCAGTGGATCGAGGCGCGCCTGCATCGCCAGACGCGCAGCGCCGGTGGCGTGGCGTGGGCGTTGGCGGTGTTGCCGTGGACGCTGCTCGCCGCGCTGGTGCAATCGGCATTGTGGTGGTGGTCGCCAATGGCGGCAGTGCTGTTCGCGGCGCTGCTGCTGTACCTGGCGATCGGACTGCGCAGCCTGGGCGAGCATGCGGTGGCGGTGGCGGTCGCGCTGGAACGCGGCGATCTGGCCGCGGCGCGCACGGCGGTGGGGCGCATCGTCAGCCGCGATACCGATGCGCTGGATGCGGCGCAGGTTGCCGGCGCGGCCACCGAATCGGTGCTGGAGAACGGCAGCGATGCGGTGTTCGCCGCGCTGTTCTGGGGTGTGCTGCTGGGGGCGCCGGGTGCGGTGCTGTACCGGCTGTCGAACACGCTCGATGCGATGTGGGGCTACCGCACGCCGCGCTACCGGGAGTTCGGCTGGGCTGCCGCACGCATCGATGATGCGCTCAACTGGCTGCCGGCGCGGTTGACCGCGCTGACCTACGCGCTGCTTGGCGATACCACGACCGCCCTGCGTTGCTGGCGCCGCCAGGCGCCGGGCTGGAAAAGCCCGAACGCCGGCCCGGTGATGGCGGCCGGCGCCGGCGCGCTGCGCGTGGCGCTCGGCGGCCCGGCGCCGTATCACGGCCAGTGGCAGCCGCGTCCGCCGCTGGGCGAGGGGCAGCGTGCGGACGCGGGCAGCATCCGCCGCGCCTTGTGGCTGGTGCGCGGCGGCGCCGTGGCCTGGGTGCTGCTGGGGGTGTTGGCATGCGGCTGA	MTPLLIAGVALLLDLLLGEPRSAHPLVLFGRVAQWIEARLHRQTRSAGGVAWALAVLPWTLLAALVQSALWWWSPMAAVLFAALLLYLAIGLRSLGEHAVAVAVALERGDLAAARTAVGRIVSRDTDALDAAQVAGAATESVLENGSDAVFAALFWGVLLGAPGAVLYRLSNTLDAMWGYRTPRYREFGWAAARIDDALNWLPARLTALTYALLGDTTTALRCWRRQAPGWKSPNAGPVMAAGAGALRVALGGPAPYHGQWQPRPPLGEGQRADAGSIRRALWLVRGGAVAWVLLGVLACG	PGPT0004660_2721	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
BMS020_06317	1296	cobB_3		Hydrogenobyrinate a,c-diamide synthase	ATGGCGGTGCCGCTGCAGTGCCCCGCGTTGCTGGTGTCGGCACCGGCCTCGGGGCAGGGCAAGACCAGCGTCACCGCGGCGCTGGCACGCTGGCACACGCGCCAGCGCCGGCGGGTGCGGGTGTTCAAGACCGGTCCTGATTTCCTCGATCCGATGGTGCTGGCGCGGGCCAGCGGCGCGCCGGTCGAGCAGCTCGACCTGTGGATGTGCGGCGAGGACGACGTGCGTGCGCGCCTGCATGCCGCCGCGGGCGCGGCCGAGCTGATCCTGGTCGAAGGCGTGATGGGCCTGTACGACGGTGCGCCGTCCAGCGCCGACCTGGCGCAGCGGCTCGGCATCCCGGTGCTCGCGGTGATCGACGGCAGCGCGATGGCGCAGACCTTCGGTGCGCTCGCCGCCGGCCTGGCGCACTACCGCGACGGCCTGCCGATGCATGGCGTCGCCGCCAACCGCATCGGCAGTGCGCACCATGCCGGCTTGCTGCGCGACAGCCTGCCGGCCGGACTGCACTGGCTCGGCGCGTTGCCGCGTGCGCCGGCACTGGCGTTGCCCGAGCGCCATCTGGGATTGGTGGCTGCCGGCGAAGTCGCCGACCTGGAGACGCGGCTGGATGCGCTTGCCGACGCCTGGAGCGTGCACGCATCGACTGCGTTGCCGCCGCCGGTGGTATTCGCGCCGGCGGCTGCGACGGTGGTGCCGGGCACCTTGCAGGGCGTGCGCATCGCGATCGCCCGCGATGCCGCGTTCTGCTTCCTCTATCCGGCCAATCTGGCGCTGCTCGAACAGGCGGGCGCGACGCTGCGGTTCTTCTCGCCGCTGGCGGGCGACGCGCTGCCGGACTGCGAGGCGCTGTGGCTGCCCGGCGGCTATCCGGAGCTGCATCTGCAGGCGTTGGCGCAGCGGCACGACCTGCATGCGGCACTGCGCGCGCACCGCGACGCGGGCAAGCCGCTACTGGCCGAATGCGGCGGCATGCTGGTCCTGCTCGACCGGCTGACCGGCAAGGACGGCACGACGGCGGAGATGGCCGGACTGCTGCCTGGCAGCGCGGCACTGCAGGCGCGTGCGGTTGCGCTTGGCCTGCAGGAACTGGCGCTGCCGGAAGGCACGCTGCGCGGCCATACCTTCCATTACGCACGTGCCGAGATCGCGCTGGCGCCGCTGGCGGTGGCGCGCAATCCCAACAACGGCCCGAGCGCCGAAGCGGCGTATCGCCAGCAGCGGCTGACCGCCAGCTTCGTACACCTGTACTTTCCCTCGCATCCGGCCGCGGCGGTGGCGCTGTTCACGCCATGA	MAVPLQCPALLVSAPASGQGKTSVTAALARWHTRQRRRVRVFKTGPDFLDPMVLARASGAPVEQLDLWMCGEDDVRARLHAAAGAAELILVEGVMGLYDGAPSSADLAQRLGIPVLAVIDGSAMAQTFGALAAGLAHYRDGLPMHGVAANRIGSAHHAGLLRDSLPAGLHWLGALPRAPALALPERHLGLVAAGEVADLETRLDALADAWSVHASTALPPPVVFAPAAATVVPGTLQGVRIAIARDAAFCFLYPANLALLEQAGATLRFFSPLAGDALPDCEALWLPGGYPELHLQALAQRHDLHAALRAHRDAGKPLLAECGGMLVLLDRLTGKDGTTAEMAGLLPGSAALQARAVALGLQELALPEGTLRGHTFHYARAEIALAPLAVARNPNNGPSAEAAYRQQRLTASFVHLYFPSHPAAAVALFTP	PGPT0004605_2246	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004605-cbiA-K02224	NA	NA
BMS020_06318	612	btuR_2	COG2109	Corrinoid adenosyltransferase	ATGAGCAAGTTCGAACGTGACGACGCCTATTACCGCGAACGCGCGCAACGGCAGAAGGAACTGGTCGACCGGCGCATCGCCCGCGCCACCATCGACCGTGGCGTGCTGGTGGTGAACACCGGCAACGGCAAGGGCAAGAGTTCCTCCGGCTTCGGCATGCTGGCGCGCTCGCTCGGGCACGGCCTGCGCTGTGGCGTGGTGCAGTTCATCAAAGGCAGCTACGCGACCGGTGAAGAGGCGTTCTTCCGCCGCTTTCCCGACCAGCTCGACTACCACGTGATGGGCGAGGGCTTCACCTGGGAAACCCAGGATCGCAGCCGCGACATCGCCGCGGCGATGGCTGCTTGGAAGGTGGCCAGGCTGATGATGCAGGACCCGGACTACGACTTCGTGCTGCTGGACGAGCTCAACATCGCCCTGGCCAAGGAGTACGTGCCGCTGGCGGAGGTGCTGGCCGCGGTCGCCGCGCGCCCGGAACGCCAGCACGTGGTGATCACCGGCCGCGGCGCCCCCGACGCGCTGGTCGAGGCCGCCGACACGGTGACCGAGATGCGCGTGGTCAAGCATGCATTCAAGGCCGGAATCATGGCGCAGAAGGGCATCGAGCTCTGA	MSKFERDDAYYRERAQRQKELVDRRIARATIDRGVLVVNTGNGKGKSSSGFGMLARSLGHGLRCGVVQFIKGSYATGEEAFFRRFPDQLDYHVMGEGFTWETQDRSRDIAAAMAAWKVARLMMQDPDYDFVLLDELNIALAKEYVPLAEVLAAVAARPERQHVVITGRGAPDALVEAADTVTEMRVVKHAFKAGIMAQKGIEL	PGPT0004645_1057	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004645-cobA|btuR-K19221	NA	NA
BMS020_06319	615			hypothetical protein	ATGCCGCGCCCTGCGCCGAGCCACGTCGCGCGCGCGTTGCCGCTGCGCGGCGCGGCCCAAGGGGTCGCCGCGTTGCTGCTGGCGACGTTGATGATCTGCACCCGCGGGCAGCACTTCGCCGCGGTCGATGCGCTGCCGAGCGGGTCGTGGGCGGTGTTCTTCCTGGCCGGGGCGCTGCTGCGGCCGCTGTGGACGCTGCCGTTGTTCTTCCTGCTGTCGTCGCTGCTCGACCTCGGCAGCCTTGCCGCCGGCACCATCAGCGACTGGTGCGTGTCGCCTGCGTATTGGGCGCTGGCGTTCGCCTATGCCGCGTTGTGGCTGGGCGGGCATGTCTACGCGCGCGCGCTGCACCGGCGGTCCTGGCGGACGATCCCGCGCCTGGCGCTGGCCCTGGTGCTGTTCGGAAGCCTGGCCTACCTGCTGTCCAAGGGCGGCTTCTACGTGTTCTCGGGCCACTATCCGGACGCCAGCTGGTCCGGCTTCGTCGCCCGCATCCCGCACTACTACCCGCGCGCCATCGGCACGCTGGCCGGCTACGTTGGCGCGGGGATCGCGCTGGCGTCGGCCTGGCAGGCACTGCTGGCGCGACGCCCGCATGGAGCCAGCACCGCATGA	MPRPAPSHVARALPLRGAAQGVAALLLATLMICTRGQHFAAVDALPSGSWAVFFLAGALLRPLWTLPLFFLLSSLLDLGSLAAGTISDWCVSPAYWALAFAYAALWLGGHVYARALHRRSWRTIPRLALALVLFGSLAYLLSKGGFYVFSGHYPDASWSGFVARIPHYYPRAIGTLAGYVGAGIALASAWQALLARRPHGASTA				NA	NA	NA	NA	NA
BMS020_06320	576			hypothetical protein	ATGAAGCCCTTGTCCCGCAGCGCGCAGACCGCCACGTTCATCGCGTTGATGGTGGTGATGGTCGCCACCCGCTTCAATCACGTCGGCACCTGGCTGCATCTGCCAGATGCGTCGATGGCGCTGTTCTTCCTCGGTGGCCTGTACCTGCGCGCGCATTGGCGCTTCGCGGTGCTGGTGGCGCTGGCGTTGGTGATCGACTGGGCCGCGATCACGCTGGCCGGGGTCAGCGATTTCTGCGTCACCGCGGCCTATGCGGCGCTTCCGGTGGCGTACGCCGTGCTGTGGTACGCCGGGCGTGCCTTCGCCGGCGCGCTCTCGGCGCGGATCGGCACGTTGCTGCTGGCCTGGGCGCTGGGCGTCGCCGCCGCGGCGCTGTCGTTCGTGATCTCCAATGGCGCGTTCTACTGGCTGGGCGGCCGCTATGCCGATCCGCACTGGGCCGAGTACGTGGCGCGCGCTTGGCAGTGGGGGCCGCTGTTCGTGCGGACCACCGCCTGTTATCTGGCCGCCGGCCTGGCGCTGTATGCCGTGCTGGCGCGGGTGTTCGCACCGCGCCGCCTGTTCGCGGCACACTGA	MKPLSRSAQTATFIALMVVMVATRFNHVGTWLHLPDASMALFFLGGLYLRAHWRFAVLVALALVIDWAAITLAGVSDFCVTAAYAALPVAYAVLWYAGRAFAGALSARIGTLLLAWALGVAAAALSFVISNGAFYWLGGRYADPHWAEYVARAWQWGPLFVRTTACYLAAGLALYAVLARVFAPRRLFAAH				NA	NA	NA	NA	NA
BMS020_06321	1878	btuB_14	COG4206	Vitamin B12 transporter BtuB	ATGTCGTCCGTTTCTGTTTCGCCGCGCCGCGCGCTGCTCGCGCTCGCGTTGTCGTCGCTCGTCGCCCCGTCCTGGGCTGCCGAGTCCACCGATCTTGACCAGGTCGTGGTCACCGCCAGCCGTACCGCCCAGACCCAGGACCAGGCCTTGGCGCCGGTCGAGGTGATCGACCGCGCCGAGATCGAGCGCCGTCAGGTCACCTCGCTGCCCGACCTGCTGCGCGGCGAGCTGGGTGTGTCGATCGCCAACAACGGCGGCCCGGGCAAGACCACCTCGCTGTTCCTGCGCGGCACCGAATCGGACCACGTGCTGGTGCTGGTCGACGGCGTGCGCATCGGCTCGGCGACCTCCGGCGGCGCGGCGCTGCAGGACATCCCGGTCGAGCAGATCGAGCGCGTGGAAATCGTGCGCGGGCCGTTCTCCAGCCTGTACGGCTCGGAAGCGATCGGTGGCGTGGTGCAGATCTTCACCCGTCGTGCGCAGGGCGCGTTCACCCCGACCTTCAGCGCGTCGGCCGGCAGCGACAACGCGCGCCGCTACAGCGCCGGCGTCGCCGGGCGCAGCCAGGGCGTGGATCTGGCCGAGCGCGGCGGCTGGTATTCGGTCAGTGCGGTGCACGATGAGACCGATGGCATCAACGCCTACACCAACACCGCCAACAGTGCCTACGATCCGGATCGTGACGGCTACCGCAACGATTCGCTGAGCGTGCAGGGCGGCTGGCGCTTCAACCGCCAGTGGGACGCCGACGTGCAGGCGCTGCGTGCCGAGAGCCGCAACGAATACGACGGCAGCGTGTACGGCGGTAACGTCGGCAAGGGCGTGCAGCAGGAAGCCGGCGCGCGCCTGCGCTACGCGCCGACCGACGGGCTGAAGTTCACCGCCAATGTCGGCAGCAGCCAGGACCTGAGCGACGCCTACTACGACGGCACCTACGTCTCGACCTTCGACACCCGCCGTACCGTCGCCGGTCTGCAGGCCGATGTCGATGCCGGCCCGGGCCTGCTGACGGTGGGCTTCGACTGGCTGCGCGACCGCATCGCCAGCAGCGAGACCTACGACGCCGACCAGCGCATCGACCGCGGCCTGTTCGCGCAGTGGCAGCAGAGTTTCGGCAGCCAGTCGCTGCAGGCCAGCGTGCGCCGCGACGACAACAGCCAGTTCGATGGCAAGACCACCGGCAGCCTGCTGTGGGGCTGGAATTTCGCCGAGCACCTGCGCCTGACCGCCAGCTACGGCACCGCGTTCAAGGCGCCGACCTACAACGAGCTGTACTACCCCGATTACGGCAATCCGAACCTGCAGCCGGAGACCTCGCGCGCGTTCGAGCTCGGCCTGCGCGGCGAATACGACTGGGGCACCTGGACGCTCAACGCGTTCCGCACCGAGGTCGAGGACCTGATCTCCTACGACTCCAGCCTCACCGACGCAGCGCATCCGTACGGCCAGCCGAACAACATCGACCAGGCGCTGATCCGCGGCGCCGAGCTCGGCTACGACACCGCGCTGGCCGGCTGGACGCTGCGCACCCGGCTGACCTGGCTCGACCCGAAGGCGGATGGCGACACCTACCACGGCAACTGGCTGCCGCGGCGCGCGCGCCAGAGCGGGCGCATCGATGCCGATCGCAGCTTCGGTGCCTTCAGCATCGGCGGCAGTGTGTACGCGGCCGGCAAGCGTTACGACGAGCTGGCCAACACCACCCGCCTGGGCGGCTACGGTCTGTTCGACCTGCGCATCGGCTATGCGGTGACCGAAGACTGGAGCGTGTCGGTCAGTGCCAACAACCTGTTCGACCGCTCCTACGAAACCGCGGCGTGGTACGCCCAGCCGGGGCGCAATTACCTGTTGACCCTGCGCTACCATCCGGCGCAGTGA	MSSVSVSPRRALLALALSSLVAPSWAAESTDLDQVVVTASRTAQTQDQALAPVEVIDRAEIERRQVTSLPDLLRGELGVSIANNGGPGKTTSLFLRGTESDHVLVLVDGVRIGSATSGGAALQDIPVEQIERVEIVRGPFSSLYGSEAIGGVVQIFTRRAQGAFTPTFSASAGSDNARRYSAGVAGRSQGVDLAERGGWYSVSAVHDETDGINAYTNTANSAYDPDRDGYRNDSLSVQGGWRFNRQWDADVQALRAESRNEYDGSVYGGNVGKGVQQEAGARLRYAPTDGLKFTANVGSSQDLSDAYYDGTYVSTFDTRRTVAGLQADVDAGPGLLTVGFDWLRDRIASSETYDADQRIDRGLFAQWQQSFGSQSLQASVRRDDNSQFDGKTTGSLLWGWNFAEHLRLTASYGTAFKAPTYNELYYPDYGNPNLQPETSRAFELGLRGEYDWGTWTLNAFRTEVEDLISYDSSLTDAAHPYGQPNNIDQALIRGAELGYDTALAGWTLRTRLTWLDPKADGDTYHGNWLPRRARQSGRIDADRSFGAFSIGGSVYAAGKRYDELANTTRLGGYGLFDLRIGYAVTEDWSVSVSANNLFDRSYETAAWYAQPGRNYLLTLRYHPAQ	PGPT0003740_1104	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-VITAMIN_B12_RELATED_FERROUS_UPTAKE,PGPT0003740-butB-K16092	NA	NA
BMS020_06323	753			hypothetical protein	ATGCCCTCGCCCGGTTCCGCCCTGTCCCTGCTGCTCGCCCTGGCCGCCAGCGCGCAGGAGCCGCACACGCCCCAACACGCTCCCGCCGCCTCGACCTACGACATGCAGCGCTGGGCCGCCCCCGGCCGCTGCGACCCGCCCAGCGGCGACGGCCGCGAGATCGACGACGCCGACATCGCCACCCAGACCCGACGCTTCCTGGCGGTACTCGATGCCGCCATCGACCAGGGCGCGGAAGCGCTGCGCCTCGAGCAGCTATGCCAGCGCATCCCCGTTGCATTCATCCCGGGCCTGATGCCGCCGGCGCGCGCGGAGCCCTGGAATCCCAATCCCGCGCAGCCTGTGGGCCTGGTCGCGATGGCCCATACCCATCGTGCCGGCCAGCCATACACGCAGAGCATCACGGCCACCTACACGCCCAGCGGCATCACGGTGTCGCTCAGCACCTTCGATGACGGCCCGACGCCCTACCCGCCCGGCGCGCGCGGCTATCTGGTGCAGGACATGGGAAGCGCCTGCCCCTTGCGGCTGGCGGCACTGTCGCACCAACTGGCCGGCGCCGGCTTCAACGAGCAGCGCGACGGGATGACGCCGCCAGCGCGCGACTTCGCCGACTTCGACAGCGGCGTCAGCGTCTCCTTCGAGCGCCCGGGCCAGCTGGTCCGGGTCAGGTTGCAAGGCCTGTTCGCCGAGCAGCGCCGCCACCCGGACGCCGCATGCGTGGCCGCTATCGAACTGGCGATAGCCACCTGA	MPSPGSALSLLLALAASAQEPHTPQHAPAASTYDMQRWAAPGRCDPPSGDGREIDDADIATQTRRFLAVLDAAIDQGAEALRLEQLCQRIPVAFIPGLMPPARAEPWNPNPAQPVGLVAMAHTHRAGQPYTQSITATYTPSGITVSLSTFDDGPTPYPPGARGYLVQDMGSACPLRLAALSHQLAGAGFNEQRDGMTPPARDFADFDSGVSVSFERPGQLVRVRLQGLFAEQRRHPDAACVAAIELAIAT				NA	NA	NA	NA	NA
BMS020_06324	564			hypothetical protein	ATGACGATGTCGCGTATCGCCCCGTTGTGTTTCACCTTGGGCATGAGCCTGGCCCCCGCTGCCGCGATGGCGGCCAGCAGCGAGCAGCTGCTGATGCCCCGGTTCGATGGCTACGTCCAGGCCTATGACGCGGCCGACCCGCAGGGCAACAGCATCACCGAGTTCGTGCCCAAGGGGCAGACGGTGGAAGCCTGGACCGACATGGTCACGGTCAATATCGCCCCGAACGCCGCATCGATTGCCCCGCGCGCATTTCTCGGCACGCTCGAATCGGCCTGGAAGGGCGCGTGTTCCGGCGCGGACTCGAAGTGGCTGCGCGAGGGCGAGGAAGCGGGGCGCCCGATGGCGGTGCTGCTGCTCAGCTGCCCGCTCAATCCGTCCACCGGCAAGCCGGAAACCACCTGGGTGAAGGGGATCCAGGGGCAGCAGGGCTTCTACACCGTGCAGAAGGCGTTCCGCACCGAGGTCAAGGACGCGGAGGTGGTGACCTGGATGAAGTGGTTGAGCGGCGTCGCGCTGTGCGGCAATGACAACGGGCCGGCGTGCCCGGCCGCGCCGCACTGA	MTMSRIAPLCFTLGMSLAPAAAMAASSEQLLMPRFDGYVQAYDAADPQGNSITEFVPKGQTVEAWTDMVTVNIAPNAASIAPRAFLGTLESAWKGACSGADSKWLREGEEAGRPMAVLLLSCPLNPSTGKPETTWVKGIQGQQGFYTVQKAFRTEVKDAEVVTWMKWLSGVALCGNDNGPACPAAPH				NA	NA	NA	NA	NA
BMS020_06325	2586	clpB_2	COG0542	Chaperone protein ClpB	ATGCGGATGGACAAGCTCACCTCGCGTTTCCAGCAGGCGCTGGCCGACGCGCAGTCGCTGGCCGTGGGCCGCGACCACACCATCATCGAACCGCTGCACGTGCTCAGTGCGCTGCTCGACCAGAATGGCGGCAGCACCCGGCCGCTGCTGGCGCAGGCCGGCGTGAACGTGCCGGTGCTGCGCGAGCGGCTGGCCGAGGCGCTGGACAAGCTGCCTAAGGTCAGCGGCCAGGAAGGCAACCTGTCGATCGGCAACGACCTCAACCGGCTGCTCAACCAGACCGACAAGCTGGCCCAGCAGCATGGCGATGCGTTCATCGCCAGCGAATGGTTCGTGCTGGCGGCGGTGGATGACAGCGGCGTGCTCGGCATGGCGCTGCGCGCCGCCGGCGCCGACAAGAAGAAGGTCGAAGCGGCGATCGACAAGGTACGCGGCGGCGAGACCGTGCAGAGCGAGAACGCCGAGGAGCAGCGCCAGGCGCTGGAGAAGTACACCATCGACCTGACCGCGCGCGCCGAGAGCGGCAAGCTCGACCCGGTGATCGGCCGCGACGAGGAAATCCGTCGCACCATCCAGGTCCTGCAGCGCCGCACCAAGAACAATCCGGTGCTGATCGGCGAGCCGGGCGTGGGCAAGACCGCGATCGTCGAAGGCCTGGCCCAGCGCATCGTCAACGGCGAGGTGCCCGAAGGCCTGCGCGGCCGTCGCGTGCTGTCGCTGGACATGGGCGCGCTGATCGCCGGCGCCAAGTTCCGCGGCGAGTTCGAGGAGCGGCTGAAGGGCGTGCTCAACGACCTGGCCAAGAACGAGGGCCAGATCATCCTGTTCATCGACGAGCTGCACACCATGGTCGGCGCCGGCAAGGCCGATGGCGCGATGGACGCTGGCAACATGCTCAAGCCGGCGCTGGCGCGCGGCGAGCTGCACTGCATCGGCGCCACCACGCTGGACGAATACCGCAAGTACATCGAGAAGGACGCCGCGCTGGAGCGGCGCTTCCAGAAGGTGTTCGTCGGCGAGCCGAGCGTGGAGGACACCATCGCGATCCTGCGCGGGCTGAAGGAGAAGTACGCGGTCCACCACGGCGTGGAGATCACCGATCCGGCGATCGTCGCCGCCGCCACGCTGTCCAACCGCTACATCACCGACCGCCAGCTGCCGGACAAGGCGATCGACCTGATGGACGAAGCGGCCAGCCGCATCCGCATGGAGATCGACTCCAAGCCGGAGGAGCTCGATCGCCTCGAACGCCGGCTGATCCAGCTGAAGATCCAGCGCGAGATGCTGAAGAAGGAGAAGGACGAGGCCTCGCAGAAACGCCTGGCCGACCTGGAGGCGGACATCGACGCGTTGGAGCGCGAGTTTTCCGACCTCGACGAGATCTGGAAGTCGGAGAAGGCCGCGCTGCAGGGCGCGACCAAGATCAAGGAGCAGATCGAAGCAGCGCGGCTGGACCTGGAGGCGGCGCAGCGGCGCCAGGACTACGCCAAGATGAGCGAGATCCAGTACGGCCTGCTGCCGCAGCTGGACAAGCAGCTGGCGGTCGCCAACGAAGCCGAGCAGCACGACTTCAAGCTGGTGCAGGACCGTGTGACCGACGAGGAGATCGCCGAGGTGGTGTCGCGCTGGACCGGCATTCCGGTCAGCAAGATGCTCGAAGGCGAGCGCGACAAGCTGCTGCGGATGGAGGACGTGCTGCACCAGCGCGTGGTCGGCCAGGAGGAGGCGATCAAGGTCGTCTCCGACGCGGTGCGGCGTTCGCGCGCCGGACTGTCCGACCCGAACCGGCCGAGCGGCTCGTTCCTGTTCCTGGGGCCCACCGGCGTCGGCAAGACCGAGCTGTGCAAGGCGCTGGCCGAGTTCCTGTTCGACAGCAGTGACGCGATGATCCGCATCGACATGAGCGAGTTCATGGAGAAGCATTCGGTCGCGCGGCTGATCGGTGCGCCTCCGGGCTATGTCGGCTACGAGGAAGGTGGCTACCTCACCGAGGCGGTGCGGCGGCGTCCGTATTCGCTGATCCTGCTCGACGAGGTCGAGAAGGCGCACACCGATGTCTTCAACATCCTGCTGCAGGTGCTCGACGACGGCCGCCTGACCGATGGCCAGGGCCGCACGGTGGATTTCCGCAACACCGTGATCGTGATGACCTCCAACTTGGGCTCGCACCAGATCCAGGAGCTGAGCGGTGACGATTCACCGGAGGCCTATACGCAGATGAAGGCCGCGGTGATGGGCGTGGTGCAGGCGCACTTCCGTCCGGAGTTCATCAATCGCCTCGACGACATCGTGGTGTTCCATCCGCTCGACAAGCAGCAGATCAAGCAGATCGCCAAGATCCAGATGGCCGGGCTGGAGAAGCGTCTTGCCGAGCGCGGCTTGAAGATCAGCGTGTCGGACAAGGCGTTCGAGCTGCTCGGCAATGTCGGCTTCGACCCGGTGTACGGTGCGCGGCCGCTGAAGCGGGCGATCCAGGCGCAGCTGGAAAATCCGCTGGCGCAGAAGATCCTGTCCGGTGCCTTCGTCGGCGGCGACACCATCGTGGTCGACGGCGAGGGTGGGCAGCTGGTATTCGCCACGGCATAA	MRMDKLTSRFQQALADAQSLAVGRDHTIIEPLHVLSALLDQNGGSTRPLLAQAGVNVPVLRERLAEALDKLPKVSGQEGNLSIGNDLNRLLNQTDKLAQQHGDAFIASEWFVLAAVDDSGVLGMALRAAGADKKKVEAAIDKVRGGETVQSENAEEQRQALEKYTIDLTARAESGKLDPVIGRDEEIRRTIQVLQRRTKNNPVLIGEPGVGKTAIVEGLAQRIVNGEVPEGLRGRRVLSLDMGALIAGAKFRGEFEERLKGVLNDLAKNEGQIILFIDELHTMVGAGKADGAMDAGNMLKPALARGELHCIGATTLDEYRKYIEKDAALERRFQKVFVGEPSVEDTIAILRGLKEKYAVHHGVEITDPAIVAAATLSNRYITDRQLPDKAIDLMDEAASRIRMEIDSKPEELDRLERRLIQLKIQREMLKKEKDEASQKRLADLEADIDALEREFSDLDEIWKSEKAALQGATKIKEQIEAARLDLEAAQRRQDYAKMSEIQYGLLPQLDKQLAVANEAEQHDFKLVQDRVTDEEIAEVVSRWTGIPVSKMLEGERDKLLRMEDVLHQRVVGQEEAIKVVSDAVRRSRAGLSDPNRPSGSFLFLGPTGVGKTELCKALAEFLFDSSDAMIRIDMSEFMEKHSVARLIGAPPGYVGYEEGGYLTEAVRRRPYSLILLDEVEKAHTDVFNILLQVLDDGRLTDGQGRTVDFRNTVIVMTSNLGSHQIQELSGDDSPEAYTQMKAAVMGVVQAHFRPEFINRLDDIVVFHPLDKQQIKQIAKIQMAGLEKRLAERGLKISVSDKAFELLGNVGFDPVYGARPLKRAIQAQLENPLAQKILSGAFVGGDTIVVDGEGGQLVFATA	PGPT0014580_3316	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014580-clpB-K03695	NA	NA
BMS020_06326	270			hypothetical protein	ATGGACGCGCCCAAGCCCTGGCACCTGTACCTGCTGTTGTGCCGCAACGGCAGCTACTACGCCGGCATCACCAACGACCTCGATGCGCGCTATCAGGCCCACCTGAGCGGACGCGGCGCGCGCTACACCCGCGCCAATCCGCCGCAGCAGCTGCTCGCCAGCCGCAGCTATCCCGACCGCGCCAGCGCCTCGCGCGCCGAATGGCAACTCAAACAACTGCCGCGCGCGCGCAAGCTGGGCTGGCTGCTGGACGACCACGGCGCCGGCTGA	MDAPKPWHLYLLLCRNGSYYAGITNDLDARYQAHLSGRGARYTRANPPQQLLASRSYPDRASASRAEWQLKQLPRARKLGWLLDDHGAG				NA	NA	NA	NA	NA
BMS020_06327	495	fecI_2	COG1595	putative RNA polymerase sigma factor FecI	ATGCATGCCCATCGCGATGCGCTAGGCGCGCTCTACCGCGACCATCAATCATGGCTGCAGCACTGGCTGGCCGGCCGGCTGGGCTGCCGCGAGGTGGCCGCCGACCTCACCCAGGACACCTTCATCCGCCTGCTTGGGCGACGCGATCTGCCCTGTCTGCAGGAGCCCCGCGCCTTCCTGACCACGGTGGCCAAGGGCCTGCTGGCCAACTGGTACCGCCGCCAGTCGCTGGAACGCGCCTATCTGGAATCGCTGGCAGCGCAGCCGGAGCGGCTGATGCCGTCGGCCGAGCAGCAGGCGCTGGTCCGCGAGGCGCTGCATCAGATCGACGCGATGCTCGACGGCCTGCCGCGGCAAGCGCGGCAGGTGTTCCTGCTGGCCCAGTTCGACGGGCTGGGCTATGCCGAGATCGCCACGCTGCTCGGGCTGTCGCTGAGCACGGTCAAGCGCCACATGAAGCGCGCGCTCATCGGATGCCTGGCGCATGCGCCGTGA	MHAHRDALGALYRDHQSWLQHWLAGRLGCREVAADLTQDTFIRLLGRRDLPCLQEPRAFLTTVAKGLLANWYRRQSLERAYLESLAAQPERLMPSAEQQALVREALHQIDAMLDGLPRQARQVFLLAQFDGLGYAEIATLLGLSLSTVKRHMKRALIGCLAHAP	PGPT0003900_54	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003900-prhI|fecI-K23514	NA	NA
BMS020_06329	2790			hypothetical protein	ATGCACCATGCCTCGCACGCGCTGCGCGCCCACCTGCTTGCCGCCGCCATCGCCGCCGTCCCCCTGCTGGCGCCGGCCGCCGATGCGGCCGCGCAGGACCCCACCCAGATGCATGCAGCCCCGCTCGGGCGTGCATTGAGCACCTTCGCCAGCCAGCACGGCATTGCGCTGTCGTTCGATCCGGCGCTGACCGCCGGCCGCCAGGCCGGACCGCTGCGTGCCGGGGCGGGCGATCGCGAGGGCCTGGAGCAGTTGCTCGCCGGCTCCGGGCTGCGCCTGCTGCAACGGGCCGATGGCAGCTACACGCTTGCGCCGGCGCCGGCAGGCGACAGCGGGGTGATCCCGCTGGCGCCGCTGCGGATCGGTGCGCAGCGCACCTTCCCGTACTCGGAAGGCATGGTGATGGACCAGGACGAGATCGAGGCCAGCATCAAGGGCAATGGCGACCTCGCCACCCTGCTGCGGATCAATCCCGCGGTGCAGTTCAGCGACACCGCGCGGCTGTCGCGCAACATGGGCGAGATCCGCCCCGCCGACATCAGCATCAACGGCGCCGCCTACTACCAGAACCTGTTCCTGCTCGATGGTGCCAGCTTCAACAACGACATCGACCCGGCCACCAACATCGACACCTCGCTCGGCACCGTCGCGGCCAACCATGCCACCGACGTGCCCAGCAGCAGCCAGGGCATCGCGCTGGATACCGACCTGATCGAACGGCTGACCGTCTACGACAGCAACGTGCCGGTCGCCTACGGCGGCTTCAACGGCGGCGTCGTCGATGCCAGGAGCCGCCATGCCGGCGACCGCTTCGCCGGCAAGGTCTGGTGGCGGATGGCGCGCTCGGCCTGGGACTCGGTGATCGTGCCCGAAGGCGCCGAGGAGAGCTTCGCGCAGTCCTCGACCTACTTCCGCCAGCTCAACTACGACAAGCAGACATTCGGCGCGCGCCTGGAGGGCCGCAGCGAGGCCGGCATCGGCCTGATCGGCAGCGTGGTGCAGACCCGTTCGGAGATCCCGCTGCGCGGCTACGCCTCCGGCAACGTCAGCGAGAACGACAGCCTGATCAAGACCCAGACCCGCAAGAACACCGCCTATACGCTGGCCGCGGACTGGCAGGGCGACAGCGGCCTGGAACTCGGCGCCAACCTCGCCTATGCGCCCAGCGACGACCGCTATTTCATCCAGAACCAGAAGAACGCCTGGTTCGACCTGAAGTCCGGCGGCCCGCTGCTTAGCGTGCGCGCCAACCTGCAGCGTGGCGCGTGGTCGTTCAACAACACGCTCAGCTACAGCGACATGGAGAGCTCGCGCAGCAGCGAGGTCGACTACTACAAAGTCTGGGCCAAGTCCGAGCAGTACAACTGGGGCGTCAACAACAGCAGCATCGAGGGCAGCTGGGGCAACGTCGACCAGCACGACCGCAAGCTCGGCTACCGCTTCACCGCCAGCCGCGAGGCGCTGGCCTGGGGGCGCAGCGAACATCGGCTGGAATTCGGCGCGTCGTACCAGGACCGCAAGGCCAGCTACGAGCGCATGAACGACCACGTCTACTACCTGCAGCCCTACGCGACCACGAGCTGCGCGCTCGCCAACGGCAGCACCGACAGCGACAGCTGCTCGCTGTCGCCGGTGCTGACCACCTCGGGCAACGTGGTCGCCGGCCGCGGCCAGTACTTCCGTCGCCAGATGCTGTACCACGCCGGTGCGTTCACCGTGCGCGGCACCGAGATGGCCGCATGGGTGCAGGACGACATCGCGCTTGGCGACGTGAACATCCGCCCTGGCCTGCGCCTGGATGATGACGACATCTGGAACAAGACCACGTTCGCCCCGCGCCTGGCCGCTTCATGGGACGTGTTCGGCAATCGCGACAGCGTGGTCACCGGCGGCCTCAACCGCTACTACGGCCGCAACTTCTTCAGCTACCTGCTGCGCGAGGGCCGCGAGCGCCTGCTGGAGACCAAGATCCGCACCAGCGCCAGCACCTCCTGGGACGAGGTGACTGGCAGCTACACCGCCTCGACCAACCGCATTGCCGACGTCGACATCCCCTACACCAACGAGTGGACGCTGGGCCTGGACCAGCAACTCGCCGGCCTGCAGATCAACCTGAAGTACGTCCACCGCGACAACCGCGACGAAGTGCGCCGGCAGTCGGTCCGCAGCAACGACGACAGTGGCTACTACGCCAACAACGTCTACGAATACACCAACAACGGCCACAGCAAGGCGCAGACCTGGACCCTCAGCGTGGGCCCGCAACACCCGCTGAAGCTATGGAGCACCAGTACCGACGTGCGCTTCGCCTTCGACCATACCGACGTGCGGCGCAACTACACCGATTACGATTCGGCCTGGAGCGAGAGCAGCCAGAGCGAACGGGTGCGTTACAAGGGCGGCGTCTACAGCCTCTACGACCTGCCCGCGACCAACTTCAACCGGCCGTGGACCGCGCGCCTGTCCACCCAGACCCGCATCGATGCGCTTGGCCTGGTGTGGAGCAACTTCCTGCGCTACCGCGCCGGCTTCCGCGACATCGTGGTCACCGGCACCGAGGAGTACCAGGGCGAAACGATCGACGTCTACGAGGACTACGACTACAAGCACAGCTGGATCGTCGACTCGGCGCTGGAATACACCTTCAGGTTCTCCGATGCGCAGCAGGCCTACGTCCGGGTCGAGGCCAACAACGTGCTCAACCGCCGCACGATCATCTCCGGCTCCAGCAGCACCGCGTATTACGAGCCTGGCCGCAGCTTCTGGCTCGAACTCGGCTATCGCTTCTGA	MHHASHALRAHLLAAAIAAVPLLAPAADAAAQDPTQMHAAPLGRALSTFASQHGIALSFDPALTAGRQAGPLRAGAGDREGLEQLLAGSGLRLLQRADGSYTLAPAPAGDSGVIPLAPLRIGAQRTFPYSEGMVMDQDEIEASIKGNGDLATLLRINPAVQFSDTARLSRNMGEIRPADISINGAAYYQNLFLLDGASFNNDIDPATNIDTSLGTVAANHATDVPSSSQGIALDTDLIERLTVYDSNVPVAYGGFNGGVVDARSRHAGDRFAGKVWWRMARSAWDSVIVPEGAEESFAQSSTYFRQLNYDKQTFGARLEGRSEAGIGLIGSVVQTRSEIPLRGYASGNVSENDSLIKTQTRKNTAYTLAADWQGDSGLELGANLAYAPSDDRYFIQNQKNAWFDLKSGGPLLSVRANLQRGAWSFNNTLSYSDMESSRSSEVDYYKVWAKSEQYNWGVNNSSIEGSWGNVDQHDRKLGYRFTASREALAWGRSEHRLEFGASYQDRKASYERMNDHVYYLQPYATTSCALANGSTDSDSCSLSPVLTTSGNVVAGRGQYFRRQMLYHAGAFTVRGTEMAAWVQDDIALGDVNIRPGLRLDDDDIWNKTTFAPRLAASWDVFGNRDSVVTGGLNRYYGRNFFSYLLREGRERLLETKIRTSASTSWDEVTGSYTASTNRIADVDIPYTNEWTLGLDQQLAGLQINLKYVHRDNRDEVRRQSVRSNDDSGYYANNVYEYTNNGHSKAQTWTLSVGPQHPLKLWSTSTDVRFAFDHTDVRRNYTDYDSAWSESSQSERVRYKGGVYSLYDLPATNFNRPWTARLSTQTRIDALGLVWSNFLRYRAGFRDIVVTGTEEYQGETIDVYEDYDYKHSWIVDSALEYTFRFSDAQQAYVRVEANNVLNRRTIISGSSSTAYYEPGRSFWLELGYRF				NA	NA	NA	NA	NA
BMS020_06330	267			hypothetical protein	ATGCACACCACGTTCCCGACCTCCCGCCGCTGGCCGATGCCGGCGCTGCTGATGGCGCTGGCATTGCCGCCTGCGGCGCTGTTGGCACATCCCCTCCTGGGCCGCGTGCTGCATGCCGGGGTCGCCGACGGCCTCGCGCTGCTGGCGCCGCTGCCGGGATGGGTCGCACTGGTGTTCGCGATGCGCTGGCACTGGTCGATCCGCGCTGCGCTCGCGGCCGCCTATCTGCCCGTGCTGGGCTTGGCCTCGCTGCTGGACGGCGGCTAG	MHTTFPTSRRWPMPALLMALALPPAALLAHPLLGRVLHAGVADGLALLAPLPGWVALVFAMRWHWSIRAALAAAYLPVLGLASLLDGG				NA	NA	NA	NA	NA
BMS020_06331	1161			hypothetical protein	ATGCGCTTCCGCGTCCATCGCGCATTGAGCGCCACGCTCCCAGCCGTCCTCGCCTTGACCATCACCGGCGCGGCGCAGGCGCCGGCCGGCCGTCACGCAGGCGTGGCGCCCGACAGCCACGCCCGAGGCGCGGACGCCGCCACGCCCGTCGGCGACATCGGCCAGTTGCGCCATGCGTATTCGCTGCCATCGGCGGCATGGCCCGCCCCCCAGGTGGCGGCCGGCGTGGCCTGGCAGGAATTGGCACCGTTGCCGCCACCGCCGGCGCCGCCAGCCGACAATCCATCCAGCCCGGCCAAGATCGCGCTCGGCAAGCGCCTGTTTGAAGATCCGCGCCTGTCGCGGTCGGGCCAGATCGCCTGTGCCAGCTGCCATGACCCGCAGCTCGGCTGGGGCGACGGGCGGCGCGTGTCGTTCGGCCACGATCGCCAGAGCGGGCGCCGCAACGCCCCCGGCATCGCGATGAGCGCATACGCGCCGCTGCTGTTCTGGGATGGGCGCGCGGCGACGCTGGAGGCGCAGGCGCTGCTGCCGATGGTCGACCCACGCGAGATGGCCTTCACGCTCGATGGCGTGGAACGCCGGCTCAACCGCGATGCACGCATGCGCGCCGCCTTCACCGAGGTGTTCGGCACGTCGCGGATCCGCGCGGAGGACGTCGCCCGCGCGATTGCCAGCTTCGAGCGCAGCCTGCGTCCGCGCGACAGTCGTTTCGAGCGGTTCCTGCGCGGACAGCGCGACGCACTCGACGACCAGCAGCTGCGTGGCCTGCACGTCTTCCGCACGCGCGGCGGCTGCATGAACTGCCATGGCGGCCCGACCCTGAGCGACAACGGCTTCCATAATCTCGGCCTGCACCTGTTCGGGCGCACGCGCCAGGATCTTGGCCGCTACGAAGCCAGCGGACGCACGCAGGACAGCGGCACGTTCCGCACGCCGTCGCTGCGCGGCGTGGCCGCCACCGGTCCTTGGATGCACGACGGTCGCTTCAAGCAGCTGCGCGACGTCGTCGAGTTCTACAACGTCGGCGGCGGCAGGCCACGCCCGAAACCGGAGCAGGCGCAGGACCCGGCGTTCCCGCTGCCGGACCCGCTGATGCAGCCGCGCGGACTGGACCGCCAGGAGATCGACGACCTGCTCGCCTTCCTGCAGGCGCTGTAG	MRFRVHRALSATLPAVLALTITGAAQAPAGRHAGVAPDSHARGADAATPVGDIGQLRHAYSLPSAAWPAPQVAAGVAWQELAPLPPPPAPPADNPSSPAKIALGKRLFEDPRLSRSGQIACASCHDPQLGWGDGRRVSFGHDRQSGRRNAPGIAMSAYAPLLFWDGRAATLEAQALLPMVDPREMAFTLDGVERRLNRDARMRAAFTEVFGTSRIRAEDVARAIASFERSLRPRDSRFERFLRGQRDALDDQQLRGLHVFRTRGGCMNCHGGPTLSDNGFHNLGLHLFGRTRQDLGRYEASGRTQDSGTFRTPSLRGVAATGPWMHDGRFKQLRDVVEFYNVGGGRPRPKPEQAQDPAFPLPDPLMQPRGLDRQEIDDLLAFLQAL				NA	NA	NA	NA	NA
BMS020_06332	780			hypothetical protein	ATGAACGCCTTATCGAACCGGCAGCTGCCGCGCCGCGCCGTGCACCAGGGACGATGGTGGCGCGTCGCGCTGCTGCGTCGACCGGGCGTCGTGGCGGCCGCCATCAGCCTTGTGCTGCACGTGTCGCTGCTGTGCTGGGGGCTGGGCATGTGGACCGCATCGCGCGCACGTCTCGTGCCCCCGCCGCCTGAGCAGGCCCGCATCCGCTTGAGCCTGTTGCCACCCGCCGCGCCGCCGATGCCGGTCGCCCCGCGGCAGGCACCCACACCCACGCCGGAGCGCGTTGCGCGGGCGGCGCGTCCGCCACAGGCCGAGCCTGCGCCGCGCGTGCCGCGCCCGCGCGCGGCGGTGCCGCTGTTGCCGCCGGCTTCGCAGCAGGCGCCTGTCGCGCCGGGCGTGGCCATGGAGGGGGAGATGGAGGCGCCGGCGATGTCCGCGTCGATGGCCGCCGCGCCGCCGTCGCCCTCGTTGCCGCCAGGGCCGGCCGCCGGCATGCGCGATCCCAGCTGGGAAAGCCGGGTGCTGGCGCGGCTGGAACGGTTCCGTCGCTATCCGCATGCTGCGCGGGCGCGCCGCATCGAAGGCGTGGCCTATGTGCGCACGCAGCTCGATCGTGGCGGGCGCGTGCTGGCGGCGCGGCTGCAGCGCAGCAGCGGATCGGCGGTGCTGGATGCCGAGGCGCTGGCGACCTTCCAGCGCTCGCAGCCGTTGCCGGCGCCGCCGGAGACCTTGCCGGTGCCGGTCGAGCTGGACGTGCCGGTGGAATTCTTCCTGCGCTGA	MNALSNRQLPRRAVHQGRWWRVALLRRPGVVAAAISLVLHVSLLCWGLGMWTASRARLVPPPPEQARIRLSLLPPAAPPMPVAPRQAPTPTPERVARAARPPQAEPAPRVPRPRAAVPLLPPASQQAPVAPGVAMEGEMEAPAMSASMAAAPPSPSLPPGPAAGMRDPSWESRVLARLERFRRYPHAARARRIEGVAYVRTQLDRGGRVLAARLQRSSGSAVLDAEALATFQRSQPLPAPPETLPVPVELDVPVEFFLR	PGPT0003745_1430	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003745-tonB-K03832	NA	NA
BMS020_06333	816			hypothetical protein	ATGCAACAGCAGTCTTCGCGTTGGCCGTGGGGCGTGGCCCTGGCGTTGGTCGTGGTCGCGGCCGGTTGGTGGTTGTTCCGCGGCGATCTCACCGAAAAGGCCACGCATTCGCCGGAATTTTCCGCCCGCCTGCCGGCCGCGGCGACGCCGCCAGCGCCGGCCGCCGCGGTCGCGGCCCCGCCGCAGATCCAGCACCCGGTCCACGTGCCGGAGGCCGCCGATGCGGCGATCCCGGCGCTGGCCGACAGCGACGACACGGTCTGGCAGGCGCTGGGCGCGCTGGCCGGCGACGATGCGGTGCTTGGCGTGCTGGTGCGCGACCATCTGGTGTCGCGCCTGGTCACGATGATCGACAACCTGCCGCAGCCGAGCATCCCGCGTTCGGCGTTGGCGCTGCGGCCGCTGCCGGGCGAGCTGCAGGTGGTGCCGGCGGGCGACGCCACAGTGATCGCCGACGGCAATGCGCAGCGCTACGCGCCCTGGGTGAAGGCCTTCACCCACGCCGATCCGCAGGCACTGGCCGATGCCTACCGGCGCTTCTACCCGCTGTTCCAGCAGGCCTACGTCGAACTGGGCTATCCCAAGCGCTACTTCAACGATCGCCTGATCGAGGTGATCGACCACCTGCTGCGCGCGCCGGAGCCGACTGCTCCGCTCGCGGTCGCACTGGACGCCCGCGGCAAGTACCGTTTCGTCGACCCGGCGCTGGAATCGCTGTCGGTGGGGCAGAAGGCGCTGCTGCGGCTGGGGCCGGCGCAGGAAGCCGAGGTCAAGGCGCAGCTGCGCGCGCTGCGCACGGCGCTGGCGCAGGGCTGA	MQQQSSRWPWGVALALVVVAAGWWLFRGDLTEKATHSPEFSARLPAAATPPAPAAAVAAPPQIQHPVHVPEAADAAIPALADSDDTVWQALGALAGDDAVLGVLVRDHLVSRLVTMIDNLPQPSIPRSALALRPLPGELQVVPAGDATVIADGNAQRYAPWVKAFTHADPQALADAYRRFYPLFQQAYVELGYPKRYFNDRLIEVIDHLLRAPEPTAPLAVALDARGKYRFVDPALESLSVGQKALLRLGPAQEAEVKAQLRALRTALAQG				NA	NA	NA	NA	NA
BMS020_06334	1182			hypothetical protein	ATGACGCCGTCGCGCTGGCTGCTGGCGGCGCTGCTGGCCGGCGCCGCCACGCCGGCACTGGCGGCCTCGTTCGATTGCGCCCGTGCCAGCAGCGCGGTCGAGCAGCGCATCTGCGCGGTGCCGGCGCTCGGGGCGCGCGACGAGCAGGTCGCCGAGGCCTATGCGGCGCTGCGCGAGACGCTGCCGAAGGCCGGCCAGGGCGGCCTGCGCGATGCCCAGCGCGCCTGGTTGCGCCAGCGCGATGCCTGCATCGGCCAGGGCGATGCGCAGCAGTGCCTGGACGCGGCGATGCAGCAGCGTCGCGATGCGCTGCAGGCAGCGCTGGTGCCGGCATGGCGGGCATTCGATGCACTCATCGCCGGCATCCCGCGCGACCCCGTGGCCGCGGCACGCAGGCTGCAAGACTACGACGGCGCACTGGCTTCGGCCTGGCTGGTGTACCTGCACCGGTTCGTGCCGGCGGCGGGCGTGGATGCAGCCACCGCGCAGGCGGGCTTCGCGCGGGCGCGGGCGCGGTTGCGCAAGGACGACGATTTCGCCGCGTCGTTGCTCGACGACGCGCTCAATGACAAGACGGCGCACCCTGGCTACGCCGAGCTGCTGCTGTTGCGGATGCAGATCGAGCGCGCCGGCTATGGCGAGGAACGCGGCGACTACGTGCACTGTTTCGTGTTCGCGCGGCAGGGCGCGCTGGCGTACGAAGCGTTCGGGCCGCTGTACGGCTCCACCCGCGACAGCGCCGCGCCGATCTGCGCGCCGCAGGGCGACCTGTTCGCGCTGCCGGCCTGGACGGCGTTGAAGGCCGCGCTCGAACCGACCATGCAGCAGTACGGCATGCAGGCCGGCACGATCCGCTTCGCGACCTTCGCCGATTGGCGGGTGATCGAGCTGCGCGCGGCGGTATCGCCGCAGCTGTATCTGGATCCGGCGTTGCGGGCGCGCTACGACGGCACGCCGGAAGCGGCGATCCGCACGTGGGACGGGGCTGGTGCCGGGGATGACGGTGGCGACGTGGCGTGGTCGCAGACCGCACGCACCCAGGCGCTGGCGCTGTTGCCGCAGGTGCGTGCAGCCAGCGCCGACTGGCTGGTCGGCCGGCAGCAGATGCCGCGTGCGCAGGCGCTGCAGGCCGCCGATGCGCTGGTTGCGGTGTGGGTGGTCGCGCATCTGCAGGGGCCCTGA	MTPSRWLLAALLAGAATPALAASFDCARASSAVEQRICAVPALGARDEQVAEAYAALRETLPKAGQGGLRDAQRAWLRQRDACIGQGDAQQCLDAAMQQRRDALQAALVPAWRAFDALIAGIPRDPVAAARRLQDYDGALASAWLVYLHRFVPAAGVDAATAQAGFARARARLRKDDDFAASLLDDALNDKTAHPGYAELLLLRMQIERAGYGEERGDYVHCFVFARQGALAYEAFGPLYGSTRDSAAPICAPQGDLFALPAWTALKAALEPTMQQYGMQAGTIRFATFADWRVIELRAAVSPQLYLDPALRARYDGTPEAAIRTWDGAGAGDDGGDVAWSQTARTQALALLPQVRAASADWLVGRQQMPRAQALQAADALVAVWVVAHLQGP				NA	NA	NA	NA	NA
BMS020_06335	1602			hypothetical protein	ATGTCCGTATCCGCAGCACCGCCCTCCGGGCGCCCGCGCTGGTTCGTCGCCGGCGACCTTAATGGTTTCTTCGGCCTGGTGGTCGACAACCTGTCGATCCTCGGCTTCATCGCGATGGCGCTGGTGGGAATGTTCCAGTTCCCGGCCGAGGTGGTGTTCGGACGGATGTTCCCCGGCACCGCGTTCGGCGTGCTGGTCGGCAACCTGTTGTACACGCTGATGGCGCGCCGGCTGGCGCGGCGCAGCGGGCGCGACGACGTCACCGCGATGCCGCTCGGCCTGGATGCGCCGACCAGCATCGGCATGGCGCTGCTGGTGCTGGGCCCGGCGTTCGTCGCCTTCAAGCAGCAGGGGCTGGACCCGCACGCCGCCGCGCTGGCGACCTGGAAGCTGGGCATGGCCGCGCTGGTGGTGATGGGCCTGCTCAAGCTGGTGCTGTCGTTCTTCGGCGAGGCGGTCACGCGCGCGCTGCCGCGTGCCGCGCTGCTCGGCTCGATCGCCGGCATCGCCCTGGTGCTGATGGGCCTGCTGCCGCTGCTGGAAACCCTGCGCTCGCCGATCGCCGGCTTCACCACGCTCGGCCTGCTGCTGTACGTGCTGCTGGCCAAGGGGCGGTTGCCGGTGAAGCTGCCGGGCGTGCTGGTCGCGTTCGTGTTCGGCACGTTGCTGTACTACGGGCTGGGGCTGGCCGGGCTCGGTGCGCCGGGCTTCAAGGTGCCGCAGTGGGCGCCGCCGCAGGTGGTGCTGCCGTGGCCGAACCTGGGCTTCCTCGAAGGGCTGCCGCACACCGTGGGCTACCTGCCGCTGCTGCTGCCATTCGGCCTGTTGATGGTGGTCGGCGGCATCAACGTCAGCGAGAGCGCGCGGGCCGCCGGCGACGATTACCGCACCCGCGACATCCTGCTGGTCGAAGCGTTCGCCACGCTGGTGGCCGGCGTCTGCGGCGGCGTCGCCCAGACCACCCCCTACATCGGCCAGCCCGCGTACAAGCACATGGGCGCGCGCAGCGGCTACACGCTGCTGACCGGCCTGTTCGTCGGTATCGGCGGCATGCTCGGCATCGTCTCCGGGCTGGTGCAGTGGCTGCCGCTGGCGGTGCTGTCGCCGATCATCGTCTACGTGGCGATCGACATCACCACGCAGGCGTTCCAGGCCACGCCGAAGCCGCATTACGGCGCGATGGTGCTGGGCTTCCTGCCGTCGGCGGCCTATCTGCTGGCGATCAAGGCCCCGGGCTGGATCGCGCCGGACCGCCTGGTGGAGCTGACCACCACGCTCGATGGGCATGGCCTGCCGGAGCTGGCGGTGATCTTCACCCTGGGCAACGGCTTCATCATCACCGCGATGCTGTGGATCGCCGCCGTGGTGGCGATGATCGACGGCCGCCTGCGCCGTGCCTCGGGCGTGCTGCTGGTCGCGGCCGCGCTGGCGCTGTTCGGGCTGATCCATTCGGTGGATCCGCGCGGTGGCATCTACCTGCCGTGGCAGCTGCAGGGGTTGGCGCAGACGATCTGCTTCCAGTTCGTTGGCGCCTACCTGGCGCTGGCGGTGCTGCTTGGCCTGCTGTCGTTGCTGCCGCAGCGGCGCGCGGAGCCTGCATGA	MSVSAAPPSGRPRWFVAGDLNGFFGLVVDNLSILGFIAMALVGMFQFPAEVVFGRMFPGTAFGVLVGNLLYTLMARRLARRSGRDDVTAMPLGLDAPTSIGMALLVLGPAFVAFKQQGLDPHAAALATWKLGMAALVVMGLLKLVLSFFGEAVTRALPRAALLGSIAGIALVLMGLLPLLETLRSPIAGFTTLGLLLYVLLAKGRLPVKLPGVLVAFVFGTLLYYGLGLAGLGAPGFKVPQWAPPQVVLPWPNLGFLEGLPHTVGYLPLLLPFGLLMVVGGINVSESARAAGDDYRTRDILLVEAFATLVAGVCGGVAQTTPYIGQPAYKHMGARSGYTLLTGLFVGIGGMLGIVSGLVQWLPLAVLSPIIVYVAIDITTQAFQATPKPHYGAMVLGFLPSAAYLLAIKAPGWIAPDRLVELTTTLDGHGLPELAVIFTLGNGFIITAMLWIAAVVAMIDGRLRRASGVLLVAAALALFGLIHSVDPRGGIYLPWQLQGLAQTICFQFVGAYLALAVLLGLLSLLPQRRAEPA	PGPT0007325_486	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
BMS020_06336	909			hypothetical protein	ATGTCGTCATCGTCGCTTGCACGTTCCGTACTCGGGCTCGTCCGCTGCGGGTCGTTGGTACTGCTCGGCGGCGCCGTCGGCTGGAGCGCCAGTCCGGCATGCTGGGCCGGCGATGCTGGTGCGGCCGCGCCGCTGCGCTTCGCGCCGGATGCGCGCACCGGGGTTGAGGCGCGGCTAGGCCGCGATGGTGCGATCCGGCTGCGGATCACGCCTGGCGGCGGACAGGTGCTGGTCGCGCCGGAAGGTGATGGCGAGGGCGCGATCACCCTCGGGAGCGCCGATTTCGACTTCGATGGGCATGCCGACCTGTATGCGTCGGCGCTGGTCGGCATGGTCAACCAGGACACCGCGATCTACCTGTTCGATCCGGCCACGCGGCGCTTCCGGCCGCTGCCGGCACCGGAAGGGCGCGGCGTGAGCTGCAGCGGCTTCTGGGACCCGATGCCCGACGCGGCGACGCGTACGGTGACCAGCAGCTGCCGCAGCGGACCGATGTGGTACACCGACGTCTACCGCGTCGATCCGCGGCGTGGCCTGTACGTCTATCGCACCGAGCGCGTGCTCGAGGGCGACCTGGGTGGGCTGCTGGATGATCCCGTCGACGATGCGCCGCTGGCGGTCTGGACCAGCTACGCGCCCGACGGCCAGGTGCGCGAGCGGGTGGTCGCCGGCGGGCTTGGCGCGCCGCCGGCCGGGCCGCTGGTCGCGCTGGCGGGCCGTGTCGCCGATGTGCGCATGCCGCTGCATGCGCATCCCGCCGAGTCGGCGACGCGGCGCTATCTGGTCGAGGGCGACCGTTTCGAGGCGCTGGATGTCAGCGATGACGGGGAATGGTTGCGGGTGCGCTACCGCAACCCGCAGCGTGGCGCGATCGAGGGGTGGCTGCGGATTCCCGCGCCGACGCCGTGA	MSSSSLARSVLGLVRCGSLVLLGGAVGWSASPACWAGDAGAAAPLRFAPDARTGVEARLGRDGAIRLRITPGGGQVLVAPEGDGEGAITLGSADFDFDGHADLYASALVGMVNQDTAIYLFDPATRRFRPLPAPEGRGVSCSGFWDPMPDAATRTVTSSCRSGPMWYTDVYRVDPRRGLYVYRTERVLEGDLGGLLDDPVDDAPLAVWTSYAPDGQVRERVVAGGLGAPPAGPLVALAGRVADVRMPLHAHPAESATRRYLVEGDRFEALDVSDDGEWLRVRYRNPQRGAIEGWLRIPAPTP				NA	NA	NA	NA	NA
BMS020_06337	1560	sglT_2		Sodium/glucose cotransporter	ATGCGCCATCTCGACACGCTGGACTACTGGGTCATCGCGGCCTACTTCGTACTCACCGCCGTCATCGGCTTCGCGGCCACGCGCCGCAAGGCCGGCACCGACGACCTGTTCCTGGCCGGCCGCTCGCTCGGCCCGCTCGCGGTGGGATTCTCGCTGTTCGCATCGAACGTCTCCTCCGACACGCTGATCGGCCTGCCCGGCGCGGCCTACAGCAGCGGCATCTCCGCGGCCAACTACGAATGGATGGCCGGCATCGTGCTGGTCTTCACCGCGATCTTCGTGCTACCTGTACTGATGCGTGCGCGCGTGGCGACGATGCCGGAACTGATGGAGCGGCGCTTCGATCCGCGCATGCGCAAGTACCTGTCGGTGGTGACGCTGCTGCTGTCGATCGTGCTCGACACCGCCGGCACGCTGTACGCCGGCGGCCTGATCGTCACCACCTTCGTGCCCGGCACCGACCTGTGGAGCGTGTGCGCCATCATCGCCGCGTTCACCGCGGTCTATACCGCCAGCGGCGGGCTGCGCGCGGTGGTGTACACCGACGTGATGCAGGCGGTGGTGCTGCTGGCAGGATCGGCGTGCCTGGCCTGGATCGTGTTCGGCAAGTTCGATTACAGCTGGAGCAACGTGGTCGCCCAGGTCGATGCGCACAAGCTGTCGCTGATCCGGCCGCTGGACGACCCTGGCGTGCCCTGGCTGGGCCTGCTCACCGGCCTGCCGATCGTCGGCTTCTACTACTGGACGATGAACCAGTACGTGGTGCAGCGCGTGCTGGCCGCGCGCGACATCGACGCCGCCAGCCGCGCCTCGCTGATCGCCGCGGTGCTCAAGCTGCTGCCGATCTTCCTGATGACGATCCCCGGCGCGATGGCCAGCGTGCTGCTGCCGGGGCTGGAGCACCCGGACCAGGTGTTCCCGACGATGGTGTCGGCGTTCACCCCGAGCGGCATCACCGGGCTGATCCTGGCCGGGCTGATCGCGGCGCTGATGTCGACGGTGTCGGCAACGCTCAATTCGTCAGCGACGCTGATCACCCTCGACTTCGTGCAGCCGATGCGCCCGCGCATGAGCGCCACCCAGCTGGCCTGGACCGGTCGCGCGGTGACCCTGCTGGTCGCCATCGTCGCCGCGTTGTGGGCACCGATGATCCAGCACTTCGCCGGGCTATGGAGCTACCTGCAGCAGGTGTTCGCGTTCGTCGCCTCGCCACTGGTGGCCACCTTCCTGATGGGACTGTGGGTCAAGCGGCTGGGCGCGTCGGCGGCGCTGCGCGGACTGGCCTGCGGCCATGCGCTGAGCGCGCTGCTGTTCGCGTTGCGCGAGACCGACGTCATCACCATCCACTTCACCGTGATCGGCGGCATCGTCTGCGTTGCCACCGCGCTGCTGACCTGGGGCTGGATGGCCCTGCTGCGGGATCGCGACCTGCCCGGCGCGTCGGCGCAACAGGTGCTGGCCGATGCCCGCCCCGGGCTCGCGCATATCCCGCGCGACGTCGCCATCGGCGTGGTCGCGGTGCTGGCGCTGACCGCGGTGATCCTGGTGGCGCTGCGTTGA	MRHLDTLDYWVIAAYFVLTAVIGFAATRRKAGTDDLFLAGRSLGPLAVGFSLFASNVSSDTLIGLPGAAYSSGISAANYEWMAGIVLVFTAIFVLPVLMRARVATMPELMERRFDPRMRKYLSVVTLLLSIVLDTAGTLYAGGLIVTTFVPGTDLWSVCAIIAAFTAVYTASGGLRAVVYTDVMQAVVLLAGSACLAWIVFGKFDYSWSNVVAQVDAHKLSLIRPLDDPGVPWLGLLTGLPIVGFYYWTMNQYVVQRVLAARDIDAASRASLIAAVLKLLPIFLMTIPGAMASVLLPGLEHPDQVFPTMVSAFTPSGITGLILAGLIAALMSTVSATLNSSATLITLDFVQPMRPRMSATQLAWTGRAVTLLVAIVAALWAPMIQHFAGLWSYLQQVFAFVASPLVATFLMGLWVKRLGASAALRGLACGHALSALLFALRETDVITIHFTVIGGIVCVATALLTWGWMALLRDRDLPGASAQQVLADARPGLAHIPRDVAIGVVAVLALTAVILVALR	PGPT0013955_2891	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013955-TC_SSS|yerK|opuE-K03307	NA	NA
BMS020_06338	480	ysnE		putative N-acetyltransferase YsnE	ATGCAAGCGGCCCACGCCATGCGGTTGCTGATCCGCGAGGATGATCTAAGCGGCGCACCGACGCGCGCGCTGCTGGCACACCACCTGCAGCAGATGCATGCGCAATCGCCGCCCGGTAGCGTGTTCGCGCTCGACCTGTCCGGCCTGCAGGCGCCCGGCGTCACCGTGTGGACGGCCTGGCGCGGCGAGGCGCTGGCCGCGGTCGGCGCGCTGAAGATGCTCGCGGCCGACCACGCCGAGCTGAAGTCGATGCGCACCCATCCGGACTTCCTGCGCCAGGGCGCGGCGACGGCGCTGCTCGAACACATCATCGGCGTGGCGCGTGCGCGCGGCGTCGCGCGGCTGAGCCTGGAAACCGGTAGCGGCCCGGCCTTCGAGCCGGCGCTGGCGCTGTACCGGCGGCGCGGGTTCGTCAACGGCGCGGCGTTCTCCGACTACCTGGCCAGCGACTTCAACCAGTTCCTGCATCTGGTGCTGTAG	MQAAHAMRLLIREDDLSGAPTRALLAHHLQQMHAQSPPGSVFALDLSGLQAPGVTVWTAWRGEALAAVGALKMLAADHAELKSMRTHPDFLRQGAATALLEHIIGVARARGVARLSLETGSGPAFEPALALYRRRGFVNGAAFSDYLASDFNQFLHLVL	PGPT0007180_626	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
BMS020_06339	567	sutR_2	COG1396	HTH-type transcriptional regulator SutR	ATGCCGGAACACGACGATTTCGAACAGCGCTTGGCCGCGCGCCTGGGCGCCTTGCGCCAGGCCCGGGGCTGGTCGCTGGAGCAGTTGGCCGAGCGCAGCGGCGTCAGCCGCGCGGCGCTGTCGCGGCTGGAACGCGGCGACGTCAGCGCCACCGCGGTGGTGCTGGGACGCCTGTGCGGCGCCTATGGCCGCACGCTGTCGTCGCTGCTGGCCGAGCTGGAAGGCGCGACGCCGCAGCGGCTGCCGCTGGCGCAGCAGCCACTGTGGATCGACCCGCAGAGCGGCTTCCGCCGCCGCAGCGTGTCGCCGCCGCTGCCGGGCCATCGGACCGAACTGGTGCACGGCGAATTGCCGGCCGGCGCCGACATCGCCTATCCGGTGCCGCCGCTGGCCGGGCTCGAACACCACCTGTGGATGCTGTCGGGCCAGCTCGAGCTGAGCGTCGACGCTGTCGTGCATGACCTGCAGCCGGGCGACTGCCTGCGCTACCGGCTCAGCGGGCCGTCGCGCTTCCGCGTGCCCGGCACCGCGCCGGCCTGCTACCTGATCGCGATCACCCAGCCATGA	MPEHDDFEQRLAARLGALRQARGWSLEQLAERSGVSRAALSRLERGDVSATAVVLGRLCGAYGRTLSSLLAELEGATPQRLPLAQQPLWIDPQSGFRRRSVSPPLPGHRTELVHGELPAGADIAYPVPPLAGLEHHLWMLSGQLELSVDAVVHDLQPGDCLRYRLSGPSRFRVPGTAPACYLIAITQP				NA	NA	NA	NA	NA
BMS020_06340	471			hypothetical protein	ATGACCTTGCTGCGCGCCACCCTGCTTGCCGCCTCGCTGGCCCTGACCGCCTGCACCACTGTTCCGTCCACCGCGCCGAGCACCACCGCTGCGATGCAGGGCGACGCGGCGCGCCCGTCCGCCGCCCACGGCTGGGTGCGCAGCGAGCTGTACTTCGGCGTGGGCGAGGAGCAGGGCCCGGCCGACCGGCCGCAGACCGAGAAGATCACCGAGGCGCAATGGCGTGCGTTCCTGGACAAGGAAGTGACGCCGCGCTTCCCGGACGGCCTGACCGTGTTCGATGCCTACGGCCAGTGGCTGTTCCGTGGCGCCGCCGAGCCGAACCGGCTCAGCACCAAGGTGCTGGTGATCCTGCACGAGGACAGCCCGGCGCGCCGGGCCGACATCGAGGCGATCCGGCTGGCGTGGAAGCAGGCGACCGGCCACCAGTCGGTGCTGTGGTCGCGGCAGCCGGTCGACGTGTCGTTCTGA	MTLLRATLLAASLALTACTTVPSTAPSTTAAMQGDAARPSAAHGWVRSELYFGVGEEQGPADRPQTEKITEAQWRAFLDKEVTPRFPDGLTVFDAYGQWLFRGAAEPNRLSTKVLVILHEDSPARRADIEAIRLAWKQATGHQSVLWSRQPVDVSF				NA	NA	NA	NA	NA
BMS020_06341	2433	btuB_15		Vitamin B12 transporter BtuB	ATGTTCCGCCCCCTCCCCACCGTCCTCGGCGCCGCCGTGTCCCTGGCGCTGGCCGCGCCCGCCTTCGCCCAGCAGGCCAGCGGCGATGCCGCCAGCGCCACCAACCTGGACACCGTGATCGTCACCGGCACCCGCGCCAGCGGCCGCACCGTGCTCGAATCCACCGCCCCGGTCGACGTGCTGACCGCCGAGGACATCCGCAAGGCCGGCGTGGTCAACGGCGAGCTGGGCAGTGCGCTGCAGGCGCTGCTGCCGTCGTTCAACTTCCCGCGCCAGTCCAACTCCGGTGGCGCCGACCACGTGCGCGCCGCGCAGCTGCGCGGGCTGTCACCGGACCAGGTGCTGGTGCTGGTCAATGGCAAGCGCCGCCACACCTCGGCGCTGGTCAACACCGACAGCAAGATCGGCAAGGGCACCACGCCGGTGGACTTCAACTCGATCCCGGTCAGCGCGATCAAGCGCATCGAAGTGCTGCGCGACGGCGCCGGCGCGCAATACGGCTCGGACGCGATCGCCGGGGTGATCAACGTGATCCTCGACGATGATCCGGACAGCGGCGTGATCGAAGCCAGCTATGGCGCGCACCACACCAACCTGGAGCCGATCCACCAGGAGATCACCGACGGCCAGACCGGCGATGTCAGCGTCAAGGCCGGCACCCGCATCGGCGAGGGCTTCGTCAAGGCCGGCCTGGAATACAAGCGCCGCGACGCCACCAACCGCGCCGGTTACGACCAGATCCCGGACTGGCAGCAGAACGACACCAACCTGGCGCTGCAGGGCAAGCGCAACTACGCGCTTGGCGATGGCGCCTCGCGCGACATCAACGCCTGGTTCAACGGCGAGCTGCCGTACGGCAAGACCGGCACGTTCTACGCGTTCGGCACCTACAGCCACCGCGACACCCAGGGCGACAACTACTTCCGTTATCCCGACGACACCGACGGCGCCAACTGGTCCGAGGTCTACCCGAACGGCTACCGCCCGGTCTCGCTCGGCTACAACCGCGACTACCAGGGCGTGGCCGGCGCGCGCGGCCAATGGGGCGACTGGGCCTACGACGCCAGCGTCGACTACGGTCGCAACGACTTCACCTACAAGCTGCGCGATTCGCTCAATGCCTCGCTCGGCCCGGACAGCCCGACCAGCTTCAAGGTCGGCCGTTACGTGTTCGACCAGAGCGTGGCCAACCTCGACCTGACCCGCAGCTTCGACGCGGTCGGCGCCAGCCACACCTTCGGCACCGGCGTCGAGTTCCGCCGCGAGGACTACCGCACCTACGCCGGCGACCCGGCCAGCTACGCCGCCGGCCCGTACACCGACCGCCCGACCGGCGCCCAGGCCGGTGGCGGCCTGACCCCGGAGGACGCCGCCGACCTGTCGCGCAACGTCGCCAGCGCCTACGCCAGCGTGTCCAGCCAGTTCGGCGACAAGTTCTCCACCGACCTGGCCGGCCGCTACGAGCACTACCAGGACTTCGGCAGCCAGTGGACCGGCAAGCTCGCCGCGCGCTACGAATTCACTCCGGCGTTCGCGCTGCGCGGGGCGATCTCCAACAACTTCCGCGCCCCGTCGCTGAGCCAGATCGGCTACGAGTCGACCTCGACCGGCTACGGCTCGGACGGCCAGCTGGTGCAGAGCCGGGTGCTGTCGGTCGACAACCCGATCGCGCGCGCGCTCGGTGCCACCGACCTCAAGCCGGAGAAGTCGGTCAACTACAGCCTGGGCTTCACCAGCCGCATCGGCGACAGCTTCGACCTGTCGCTGGACTTCTTCCAGATCGACATCGACGATCGCATCGCGCTGTCGGAAAGCATCACCGGCGACGCGCTGACCGCCTACGTCGAAAGCACCTTCGGCGTGAGCGGGCTGCAGAGCGCCAGCTTCTTCGTCAACGCCGCCGACACCCGCACCCGTGGCGCCGAGCTGGTGGCGAACTGGCGCAGCTACGTGTTCGGCGGCGACCTGCTGCTGACCGGCACCTACAGCTACGCCAAGACCACGCTGAAGAACGTCGTCGACACCCCGGCGCAGCTGCTGGCGCTGGATTCGAGCTACGTGCTGTTCGGCGTGGAGGAGACCAATACGCTGACTACCGCCACGCCGAAGACCCGTGCCGGCCTGGCCGCAAACTGGCGCAACGACCGCTGGTCGCTGTCCTCGCGCCTGAGCCGCTACGGCAGCGTGACCCGCGTCTTCAGCTGGGCCTCGGCGCCGCAGACCTATGGCGCGGAGTGGCAGCTGGACCTGGAGGCCGAGTACCGGATCACCCCGCAGTGGAGCGTGGCGCTCGGCGGCCAGAACGTCACCGACAGCTACCCGGACCTGTCCAACAGCGAGACCAACTACTACGGCAACCTGCCGTACGACGTGCTCTCGCCGGTCGGCAGCAACGGCGCCTACTGGTACGGCCGGGTGCGCTACACGTTCTGA	MFRPLPTVLGAAVSLALAAPAFAQQASGDAASATNLDTVIVTGTRASGRTVLESTAPVDVLTAEDIRKAGVVNGELGSALQALLPSFNFPRQSNSGGADHVRAAQLRGLSPDQVLVLVNGKRRHTSALVNTDSKIGKGTTPVDFNSIPVSAIKRIEVLRDGAGAQYGSDAIAGVINVILDDDPDSGVIEASYGAHHTNLEPIHQEITDGQTGDVSVKAGTRIGEGFVKAGLEYKRRDATNRAGYDQIPDWQQNDTNLALQGKRNYALGDGASRDINAWFNGELPYGKTGTFYAFGTYSHRDTQGDNYFRYPDDTDGANWSEVYPNGYRPVSLGYNRDYQGVAGARGQWGDWAYDASVDYGRNDFTYKLRDSLNASLGPDSPTSFKVGRYVFDQSVANLDLTRSFDAVGASHTFGTGVEFRREDYRTYAGDPASYAAGPYTDRPTGAQAGGGLTPEDAADLSRNVASAYASVSSQFGDKFSTDLAGRYEHYQDFGSQWTGKLAARYEFTPAFALRGAISNNFRAPSLSQIGYESTSTGYGSDGQLVQSRVLSVDNPIARALGATDLKPEKSVNYSLGFTSRIGDSFDLSLDFFQIDIDDRIALSESITGDALTAYVESTFGVSGLQSASFFVNAADTRTRGAELVANWRSYVFGGDLLLTGTYSYAKTTLKNVVDTPAQLLALDSSYVLFGVEETNTLTTATPKTRAGLAANWRNDRWSLSSRLSRYGSVTRVFSWASAPQTYGAEWQLDLEAEYRITPQWSVALGGQNVTDSYPDLSNSETNYYGNLPYDVLSPVGSNGAYWYGRVRYTF	PGPT0003790_9124	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_06342	759	otsB_2	COG1877	Trehalose-6-phosphate phosphatase	ATGGCCGGCATGCCCGATGCCGCCCCCGCCCTCCCGCCGCCGCCACTGGATGACCGCTGCGCGCTGTTCCTCGACGTCGATGGCACCCTGATCGAATTCTCCCCCGCGCCGGACCAGGTCCAGCTGCGGCCCGAGGTGCGCGAGGCGATCGCCCGCATCAGCGGCCGCCTCGGCGGCGCGGTGGCCCTGGTCAGCGGCCGTCCGCTGGCCCAGCTCGATGCCTTGTTCGCGCCGCTGCGGCTTCCCGCGGCCGGCCTGCATGGCCATGAACTGCGCAGCGATGCGCAGGCGCGCGCCGCGATGCCCACCGACACCTCCGCCTGGCTGCATGCGCTGCACCAGCGCGCCGCGCAGCTGGCCCACGCCCATCCCGGCGTGCTGGTGGAAGACAAGCGCATCGGCCTGGCCCTGCACTGGCGCGCCGCGCCCGCCGCCGGCGCGCAGGTGCTGGCGTTCGCCAACGCGCAGATCGCCGCGCTGCCCGGCTACCGCCTGCAGCCGGGCGACCATGTCGTCGAGTTCGTGCCGGAAGGCAGCGACAAGGGCCGCGCGGTCGAGCTGCTGATGGCACAGCCGGCGTTCGCCGGGCGCGTGCCGGTGTTCGTCGGCGACGATCTCACCGACGAATTCGGCTTCGCCGCGGCCAACCGGCTCGGCGGCTGGAGCGTGCTGGTCGGCGAACGCGCCGGCACCGCGGCACGCTACGCCCTGCCCGCACCGGCCGCCGTCCATGCCTGGCTGCACGCCAACGCCACCTGA	MAGMPDAAPALPPPPLDDRCALFLDVDGTLIEFSPAPDQVQLRPEVREAIARISGRLGGAVALVSGRPLAQLDALFAPLRLPAAGLHGHELRSDAQARAAMPTDTSAWLHALHQRAAQLAHAHPGVLVEDKRIGLALHWRAAPAAGAQVLAFANAQIAALPGYRLQPGDHVVEFVPEGSDKGRAVELLMAQPAFAGRVPVFVGDDLTDEFGFAAANRLGGWSVLVGERAGTAARYALPAPAAVHAWLHANAT	PGPT0014140_2172	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014140-otsB-K01087	NA	NA
BMS020_06343	1782		COG3387	Trehalase	ATGAGCGCACCGAACCTCGACCTTGGCGTGATCGGCAACTGCAGTTTCGGCGCGCTGATCGACAAGCAGGCGCGCGTGGTGTGGAGCTGCCTGCCGGCGTTCGACGGCGACCCCACGTTCTGCGCGCTGCTGTCGCCACGCGAGCAGGAAGGCGGCGACTTCGCGGTGGAACTGGAAGGCTTCGTCGACAGCGAACAGCACTACATCACCAATACCGCGATCCTGCGCACGGTGATGCGCGACGACAAGGGCGGCGCGATCGAGGTGATCGACTTCGCCCCGCGCTGGCGCAACAACGGGCGCTTCTACCGCCCGGTCAGCATCATCCGGCAGATCCGTCCACTGGCCGGCAACCCGCGCATCGTGGTCCGCGCGCGCCCGCTCGCCGACTGGGGCGCGCGCAAGCCTGAGACCACCTGGGGCAGCAACCACATCCGCTGGCTGCTGCCTGAGCTGACCCTGCGCCTGACCACCGACGTGCCGGTGCGCTTCATCCGCGACGGCCTGCCGTTCGTGCTCGCCCACCCGGTCAACCTGGTGCTGGGCGCCGACGAGTCGCTGCTGCGCTCGTTGACCGGCTACGTGCAGGAGGCGCAGGAGCGCACCGAGGAATACTGGCGCGAGTGGGTGCGCTACCTGTCGGTGCCGCTGGACTGGCAGGAGGCGGTGATCCGCAGCGCGATCACGCTGAAACTGTGCCAGTACGAGGACAGCGGCGCGATCATCGCAGCGATGACCACCTCCATCCCCGAGGCGCCACACACCGTGCGCAACTGGGACTACCGCTACTGCTGGCTGCGCGACGCCGCGTTCGTGGTGCGCGCGCTCAACCGGCTCGGCGCGACCCGCACGATGGAGCAGTTCCTCGGCTACATCTTCAACATCGCCACCAGCGACGGCACCATGCAGCCGCTGTACGGCATCGGCTTCGAATCGCAGCTGGAGGAGCACGAGGTCGAGTCGCTGGCAGGCTATCGCGGCATGGGCCCGGTGCGGCGCGGCAACCTGGCCTGGATCCAGAACCAGCACGACGTCTACGGCAGCGTGGTGCTGGCCTCGACCCAGCTGTTCTTCGACCTGCGGCTGAAGGACCCCGGTGACGAGAGCACCTTCCGCCGGCTGGAGCCGCTGGGCGAGCGCGCGTTCGCGCTGCACAACGTGCCCGATGCCGGGCTGTGGGAATTCCGCGGCCGCGCCGAAGTCCACACCTACACCGCGGCGATGTGCTGGGCGGCCTGCGACCGCCTGGCCAAGATCGCCGACCGGCTGGACCTGCCCGAGCGCCACACGCACTGGCGCGCCTGCGCCGATACGATCCGCAACCGCGTGCTCGACGAGGCCTGGAACGCCGAGCGCGGCCATTTCACCGATACCCTCGGCGGCCATCGCCTGGATGCCTCGCTGCTGCTGCTGTCGGACATCGGCATCGTCGCCGCCGACGACCCGCGCTTCATCGGCACGGTCGAGGCGATCGGCCGCGACCTGCGCCACGGCGATTCGCTGTACCGCTACGTCGCCCCGGACGACTTCGGCGCACCGGAAACCAGCTTCACCATCTGCACGTTCTGGTACATCGACGCGCTCGCCGCGATCGGCCGCAAGGACGAGGCGCGGCGGATGTTCGACCGCATCCTGGAGCGGCGCAACCATCTCGGCCTGCTATCGGAGGACCTGGCCTTCGAGGACGGCGAGGCCTGGGGCAACTTCCCGCAGACCTATTCGCACGTCGGCCTGATCATCGCCGCGATGCGCCTGTCGCGCAGCTGGCAGGAAGCTTCGTGA	MSAPNLDLGVIGNCSFGALIDKQARVVWSCLPAFDGDPTFCALLSPREQEGGDFAVELEGFVDSEQHYITNTAILRTVMRDDKGGAIEVIDFAPRWRNNGRFYRPVSIIRQIRPLAGNPRIVVRARPLADWGARKPETTWGSNHIRWLLPELTLRLTTDVPVRFIRDGLPFVLAHPVNLVLGADESLLRSLTGYVQEAQERTEEYWREWVRYLSVPLDWQEAVIRSAITLKLCQYEDSGAIIAAMTTSIPEAPHTVRNWDYRYCWLRDAAFVVRALNRLGATRTMEQFLGYIFNIATSDGTMQPLYGIGFESQLEEHEVESLAGYRGMGPVRRGNLAWIQNQHDVYGSVVLASTQLFFDLRLKDPGDESTFRRLEPLGERAFALHNVPDAGLWEFRGRAEVHTYTAAMCWAACDRLAKIADRLDLPERHTHWRACADTIRNRVLDEAWNAERGHFTDTLGGHRLDASLLLLSDIGIVAADDPRFIGTVEAIGRDLRHGDSLYRYVAPDDFGAPETSFTICTFWYIDALAAIGRKDEARRMFDRILERRNHLGLLSEDLAFEDGEAWGNFPQTYSHVGLIIAAMRLSRSWQEAS				NA	NA	NA	NA	NA
BMS020_06344	1368	otsA_2	COG0380	Trehalose-6-phosphate synthase	GTGAGCCGTCTGGTCGCCGTCTCCAACCGGGTCGCGCTGCCGGGCGAAAGCCGCGCCGGCGGGCTGGCCGTTGGCCTGCTCGCGGCATTGAAGGAACAAGGCGGGATCTGGTTCGGCTGGAGCGGCAAGACCGTGCGCGGCGACAGCGGCGCGTTGCACGAGGCGCGCGATGGCGGCATCCGTTTCGTCACGATGGACCTCAACAAGCCCGACGTCGACGCCTACTACAACGGCTTCGCCAACCGCACGCTGTGGCCGCTGCTGCACTTCCGCCTGGACCTGGTCGACTACGACCGCGCCACCCGCGACGGCTACCGCCGGGTCAACGCGCTGTTCGCCGAAAAGCTGGCGCCGCTGCTGCGCGAGGACGACGTGGTGTGGATCCACGACTACCACATGATCCCGCTGGGCGCGCTGCTGCGCGAACGCGGCTTCGGCGGGCGCATCGGCTTCTTCCTGCACACGCCGATGCCCTCGGCCGACCTGGTGCAGGCCATGCCCGACCACTCCCGGCTGTTTCCCAGCCTGTACGCCTACGACCTGGTCGGCTTCCAGACCCAGCGCGATGTCGACCGGTTCAAGTCCTACGTGCGCCTGTTCGGCGGTGGCCGGCTGCTGGACGGCGACGAGGTCGAAGCACCGGGCGGGCGCCGCTTCCGCGCCGCGGCCTTCCCGATCGGCATCGACACCGCGCTGATCGCGCGCCAGGCGCGCGTGGCTGCCGGCAAGCAGGCGGTGCGCGACCTCAGCGCCAGCCTGCGCGGGCGCCAGCTGGCGATCGGCGTGGACCGGCTGGATTATTCCAAGGGCCTGCCCGAGCGCTTCCTCGGGTTCGAACGCTACCTCGCGCGCCATCCCGACCAGCGCGGCAGCCTGACCTACCTGCAGATCGCACCGGTCTCGCGTGGCGAGGTCAGCGAGTACCGCAGCCTGCGCAGCCAGCTCGAACAGATCGCCGGCCACATCAACGGCGGCCATGCCGAGCCGGACTGGACCCCGCTGCGCTACGTCAACCAGAACTTCACCCATGCCACGCTGACCGGCTTCTACCGCGCCGCTGCGGTCGGGCTGGTCACCCCGCTGCGCGACGGCATGAACCTGGTCGCCAAGGAATACGTCGCCGCGCAGGATCCGGACGATCCCGGCGTGCTGGTGCTGTCGCTGCTGGCCGGCGCCGCCGACGAGATGAAGGAGGCGCTGCTGGTCAACCCGCACGACCTGGATGGCGTCGCCGATGCGATCGCCACCGCCGCCACGCTGGCCAGGACGAAGCGCGTGGAACGCTGGAATGCGCTCATGGAACACTTGCGCCACAACGACATCCATCACTGGTGCCGCCAGTATCTGCAGGCCCTCACGGCAGGGTGA	MSRLVAVSNRVALPGESRAGGLAVGLLAALKEQGGIWFGWSGKTVRGDSGALHEARDGGIRFVTMDLNKPDVDAYYNGFANRTLWPLLHFRLDLVDYDRATRDGYRRVNALFAEKLAPLLREDDVVWIHDYHMIPLGALLRERGFGGRIGFFLHTPMPSADLVQAMPDHSRLFPSLYAYDLVGFQTQRDVDRFKSYVRLFGGGRLLDGDEVEAPGGRRFRAAAFPIGIDTALIARQARVAAGKQAVRDLSASLRGRQLAIGVDRLDYSKGLPERFLGFERYLARHPDQRGSLTYLQIAPVSRGEVSEYRSLRSQLEQIAGHINGGHAEPDWTPLRYVNQNFTHATLTGFYRAAAVGLVTPLRDGMNLVAKEYVAAQDPDDPGVLVLSLLAGAADEMKEALLVNPHDLDGVADAIATAATLARTKRVERWNALMEHLRHNDIHHWCRQYLQALTAG	PGPT0014135_1774	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014135-otsA-K00697	NA	NA
BMS020_06345	1701	mqo_3	COG0579	Malate:quinone oxidoreductase	ATGAAAAAACTTCTCAAGGCCCTGGCAGGCCTCGTCGTGCTGTTGGCGCTGACTGCCACCCTGTTCCTCTTCTGGCCGCTGCACCAGCGGTCGGTCCCCGCCGCCGACAACGACAAGCCCGTGGATGCGGTGCTGGTCGGCGGCGGCATCATGAGCGTGACCCTGGCCACCTACCTGCAGGAGCTGCAGCCGGACTGGAACGTGCAGCTGTTCGAGCGCCTGGACGGCGTCGCGCTGGAAAGCTCCAACGGCTGGAACAACGCCGGCACCGGCCACTCGGCCTTCATGGAGCTCAACTACACCCCGGAAGCGGCCGACGGCAGCGTGCCGACCGACCGCGCGGTGAAGATCGCCGAGAACTTCGAGGTCTCGCGCCAGTTCTGGGCGCACGAAGTGGCCAAAGGCAACCTCGGCACGCCGTCGGACTTCATCAACCCGACCCCGCACATGAGCTTTGTCTGGGGCGACAAGAACGTCGAGTTCCTGCGCAAGCGCCACGATGCGCTGATCAAGAACCCGCTGTTCTACGGCATGCAGTTCTCCACCGACCCGGCGCAGATCAAGCAGTGGGCGCCGCTGGTGATGGAAGGCCGCGACCCGCAGCAGAAGGTCGCCGCGACCTACATGCCGCTGGGCACCGACGTGAACTTCGGCGTGGTGACCAACCAGCTGACCGCCTCGCTCAAGCGCAACCCGAACTTCCACCTGCAGCTGCAGCATGAAGTGACCGCGCTGCGCCAGAACGACGACAAGACCTGGAACGTCACCGTCAAGGACCTCAAGAGCGGCCAGGAGCGCACCATCAAGTCGCGCTTCGTGTTCATCGGCGCCGGCGGCGCCGCGCTGAAGCTGCTGCAGATGTCGGGCATCCCGGAGTCGAAGGACTACGCCGGCTTCCCGGTGGGCGGCCAGTTCCTGTCGTTCCAGGCCCCGGAGCTCGCCGAGCGCCACACCGTGAAGGTGTACGGCCAGGCCGAGACCGGCGCGCCGCCGATGTCGGTGCCGCACCTGGATTCGCGCAACCTCGATGGCAAGAAGACCATCCTGTTCGGGCCGTTCGCGCTGTACAGCACCAAGTTCCTGAAGAACGGTTCGTGGTTCGATCTGTATTCCTCGGTGACCCACAACAACGTCACCGGCATGCTCAAGGTCGGCGAGGAGAACCTGGATCTGGTCAAGTACCTGATGCAGCAGGCCGAGCTGACCGACGAGGACCGCCAGAAGGAGCTGCTGAAGTACTTCCCGAACGCCAAGCGCGGCGACTGGAAGCTGATCACCGCCGGCCAGCGCGTGCAGATCATCAAGCGCGACCCGGTCAAGGGCGCGGTGCTGCAGTTCGGCACCGAGATCGTCACCGACAAGGACCACACCATCAGCGCGCTGCTGGGTGCCTCGCCGGGTGCCTCGACCTCGCCGCCGATCATGCTGGAGCTGCTGGCCAAGGCGTTCCCGCAGCAGATGGCCGATGGCTGGGCCGAGCGCCTGAAGCAGATCGTTCCGTCGTACGGGCAGAAGATCAACAGCAGCCCGGCGCTGACCAACCAGATCCGCGGCATGACCAGCCAGGCGCTGCACCTGCCGTACCTGGAGGTGCCCGCCGACATCGCCAACGCCCCGGCCGATGCGGCCCCGGCGCTGTCCACCCCGGCCACCGCACCGGCTGAGCAGAAGAACGTCAACACCGAGATGCAGTCGCTGTAA	MKKLLKALAGLVVLLALTATLFLFWPLHQRSVPAADNDKPVDAVLVGGGIMSVTLATYLQELQPDWNVQLFERLDGVALESSNGWNNAGTGHSAFMELNYTPEAADGSVPTDRAVKIAENFEVSRQFWAHEVAKGNLGTPSDFINPTPHMSFVWGDKNVEFLRKRHDALIKNPLFYGMQFSTDPAQIKQWAPLVMEGRDPQQKVAATYMPLGTDVNFGVVTNQLTASLKRNPNFHLQLQHEVTALRQNDDKTWNVTVKDLKSGQERTIKSRFVFIGAGGAALKLLQMSGIPESKDYAGFPVGGQFLSFQAPELAERHTVKVYGQAETGAPPMSVPHLDSRNLDGKKTILFGPFALYSTKFLKNGSWFDLYSSVTHNNVTGMLKVGEENLDLVKYLMQQAELTDEDRQKELLKYFPNAKRGDWKLITAGQRVQIIKRDPVKGAVLQFGTEIVTDKDHTISALLGASPGASTSPPIMLELLAKAFPQQMADGWAERLKQIVPSYGQKINSSPALTNQIRGMTSQALHLPYLEVPADIANAPADAAPALSTPATAPAEQKNVNTEMQSL	PGPT0001440_62	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
BMS020_06346	423			hypothetical protein	ATGATGCGCGCGCGCGGGAGCGACGCAGTGCCGGCGACCATCGTGTTCGATGGCCAGTGCGTGCTGTGCAGCCGCTGGGTGCGCTTCCTGCTGCGCTTCGACCGGGCTGGACGCTACCGCTTCGCCGCGATGCAGGGGCGGCACGGCCGCGCGCTGCTGGCCGCGCACGGGCTGGACCCGGACGACCCGCTGTCGTTCCTGCTGATCGATGTGGGCGGTGCGCACACCGACAGTGACGCGATCGTGCGGGTGCTGGTCGGTCTCGGTGGTCCCTGGCGACTGTTCGCATTGCTGCGCGTGCTGCCGCGCGGCCTGCGCGATGCCGGCTATCGCGCGCTGGCGCGCAACCGCTACCGCTGGTTCGGCCGTCACGACCGGTGCCTGCTGCCCGATCCGGCGCAGCAATGGCGGTTCCTGGATTGA	MMRARGSDAVPATIVFDGQCVLCSRWVRFLLRFDRAGRYRFAAMQGRHGRALLAAHGLDPDDPLSFLLIDVGGAHTDSDAIVRVLVGLGGPWRLFALLRVLPRGLRDAGYRALARNRYRWFGRHDRCLLPDPAQQWRFLD				NA	NA	NA	NA	NA
BMS020_06347	774	yfiH_2	COG1496	Polyphenol oxidase	ATGACCATGCCGTGGCTGCAGGCGGACTGGCCGCCCCCCCCGGGGGTGAACGCCTTCAGCACCCTGCGCCACGGCGCCGGCGGCTCGCGGGCGCCGTTCGACAGCTTCAACCTCGGCAACCGCAGCGTGGCCGAGGGCGACGACCCGCTGCAGGTGCAGCGCAACCGCGAGCAGCTGGCCGATCTGGCCGCGCTGCCGTCGCCGCCGCACTGGCTGCGCCAGGTTCACGGCACCGGCGTGCTGCGCTTCGATGCGCCGCCGACCGCGCAGGGCATCGATGCCGAGCCGATCGCCGACGCGGCGCTGACCTCGGTGCCGGGCGTGGTGCTGGCGATCCTGACCGCGGACTGCCTGCCGGTGGTGTTCGCCGCCACCGACGGCCGCGAGGTGGCGGCCGCGCATGCCGGCTGGCGGGGGCTGGCCGATGGCGTGCTGGAGCGCACGCTGGCGGCGATGGCGACGCCGGCGGCGCAGGTGCAGGCCTGGCTCGGCCCGGCGGCCGGGCCGCAGGCCTACGAGATCGGCGAGGACGTGCATGCGGCCTTCGTCGGGCCGGACCCGACCGCCGCGGCGGCCTTCGTTGCGACCCGGCCCGGGCACTGGCGCGTGGACCTGTACGCGCTGGCGCGGCTGCGCCTGCAGGCGGCCGGGATGGCCGCCTGCGCGATCCACGGCGGCGGCCTGTGCACGATTTCCGATCCGCAGCGGTTCTTCTCCCACCGCCGCGACCGCCGCAGCGGCCGGCTGGCGACCCTGGCCTGGATCGCGCCGTAA	MTMPWLQADWPPPPGVNAFSTLRHGAGGSRAPFDSFNLGNRSVAEGDDPLQVQRNREQLADLAALPSPPHWLRQVHGTGVLRFDAPPTAQGIDAEPIADAALTSVPGVVLAILTADCLPVVFAATDGREVAAAHAGWRGLADGVLERTLAAMATPAAQVQAWLGPAAGPQAYEIGEDVHAAFVGPDPTAAAAFVATRPGHWRVDLYALARLRLQAAGMAACAIHGGGLCTISDPQRFFSHRRDRRSGRLATLAWIAP	PGPT0019965_1533	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
BMS020_06348	984	rluD_2	COG0564	Ribosomal large subunit pseudouridine synthase D	ATGTCCGACAACACTTCCGATACCCCGCGCCAGGCGGTGGTGCCCGACGGCGCCGCCGGGCGCCGCTTCGACGCCGTACTGGCCGAGCTGTTCCCCGAATTCTCCCGGTCGCGCCTGGCCGAGTGGATCAAGTCCGGCGACGCGCTGCTGGACGGCGCGCCCGCCCGCCCGCGCGACCCGGTCCGCGGTGGCGAGACCGTGCAGCTGCAGGCGGTGCTGGAGACCCAGACCCACGCGGTGCCGCAGGACATCCCGCTGGACATCCTCTACGAGGACGAGCAGGTGTTCGTGATCGACAAGCCGGCCGGGCTGGTGGTCCACCCCGGCGCCGGCAATCCCGACGGCACCCTGGTCAACGCGCTGCTGTTCCGCGATCCGGCGCTGGCGGCGTTGCCGCGCGCCGGCGTAGTGCACCGGCTGGACAAGGACACCAGCGGGGTGATGGTGGTCGCGCGCACCGTGCAGGCGCAGACCGCACTGGTCGAGCAGCTGGCCGCGCGCGAGGTGCACCGCCAGTACCTGGCCGTGGTGGTCGGGGCGCTGGTCTCCGGTGGCACCGCCAACGCGCCGATCGACCGCCACCCGCGCGACCGGCTGAAGATGGGCGTGCGCGAGGACGGCAAAGAGGCGGTCACCCATTACCGCCTGCGCGAGCGCTTCCGTGCCCATACCGCGCTGGAATGCCGCCTGGAAACCGGCCGCACCCACCAGATCCGCGTGCACATGGCGCACCTCAAGCACGCCATCGTCGGCGATCCGCTGTACGGCGGCGCGCTGAAGCTGCCCAAGGGCGCCACCGACACCCTGGTCGCCGCGCTGCGCGGCTTCAAGCGCCAGGCGCTGCATGCCGAGACGCTGGAATTCGCCCATCCGGTCAGTGGCGAGCCGGTGCGCGCCACCGCTCCGGTGCCGGCCGATCTGCTGGCACTGCTGGCGGCGCTGCGCGAAGACTCGGCGCTGGCCGCCGAGCGCGAGCGCCGCTGA	MSDNTSDTPRQAVVPDGAAGRRFDAVLAELFPEFSRSRLAEWIKSGDALLDGAPARPRDPVRGGETVQLQAVLETQTHAVPQDIPLDILYEDEQVFVIDKPAGLVVHPGAGNPDGTLVNALLFRDPALAALPRAGVVHRLDKDTSGVMVVARTVQAQTALVEQLAAREVHRQYLAVVVGALVSGGTANAPIDRHPRDRLKMGVREDGKEAVTHYRLRERFRAHTALECRLETGRTHQIRVHMAHLKHAIVGDPLYGGALKLPKGATDTLVAALRGFKRQALHAETLEFAHPVSGEPVRATAPVPADLLALLAALREDSALAAERERR				NA	NA	NA	NA	NA
BMS020_06349	879	bamD_2	COG4105	Outer membrane protein assembly factor BamD	ATGATCCGAAGCTCCAAGCTCCGCGCGCCCGCCCGCCTCGCCGTCCTGCTGCTCGCCCTGGTGGTCCTGGCCACCGGCTGCCACCGCGGCGCCAAAAAGGACCCTGACGAGGGCGCGCCGGTCGAGCAACTGTATGGCAAGGCCCACGGGCTGATGGAAAAGGGCAACTGGGCCGGCGCCGAGTCCGGCTTCAAGCGCCTGATCGCCCAGTACCCGTACGGTGCGTACACCGAGCAGGCGATGATCGAAAGCGCCTACGCCCAGTACAAGGCCGGCAAGCACGATGACGCGGTGTCGAGCATCGACCGCTTCATCCGCACCTATCCGACCCACCGCAACATCGCCTACCTGTACTACCTGCGCGGGCTGTCCAACAGCAACCGCGACACGGTGTTCCTCCGCCGCGTCTGGTCGCTGGACCCGAGCCGCCGCGACCTGTCCACGCCGCAGCAGGCCTACAACGACTTCAACACCGTCGCCGACCGCTACCCGAACAGCCGCTACGCCGCCGACGCGCGCCAGCGCATGATCGAGCTGCGCGACATGTTCGCCCAGCACGAGCTGGACAACGCGCTGTACTACCTGCGCCGCACCGCCTGGGTATCGGCCGCCAGCCGCGCCAACTACATCCTCGAGACCTACCCGCAGAGCGCGTTCCAGTACGACGCGGTGGCGGTGCTGGGCGAGGCCTACACCCACCTGGGCAACAAGCCGCTGGCCGACGACGCCCGCCGCGTGCTCGAGATGAACGACCCGAAGCATCCGTGGCTGGCCGGCAACTGGCCGAAGTACCCGTGGGCGATCCGCAAGCTGAACCCGTTTGCCGGCGAGAAGTCCGCCGCGACCGGCCAGGCCAACGCGACGATCAACCGCAAGTAA	MIRSSKLRAPARLAVLLLALVVLATGCHRGAKKDPDEGAPVEQLYGKAHGLMEKGNWAGAESGFKRLIAQYPYGAYTEQAMIESAYAQYKAGKHDDAVSSIDRFIRTYPTHRNIAYLYYLRGLSNSNRDTVFLRRVWSLDPSRRDLSTPQQAYNDFNTVADRYPNSRYAADARQRMIELRDMFAQHELDNALYYLRRTAWVSAASRANYILETYPQSAFQYDAVAVLGEAYTHLGNKPLADDARRVLEMNDPKHPWLAGNWPKYPWAIRKLNPFAGEKSAATGQANATINRK				NA	NA	NA	NA	NA
BMS020_06350	1641	nadE_2	COG0171	Glutamine-dependent NAD(+) synthetase	ATGTCCAAGACGCTCCGCATCGCCCTGGCCCAGTTCGACTTTCCGGTCGGTGCGGTCGCGCAGAACACCGACCGCATCATCGAGTTGATCGGCCAGGCGCGCGATGAGTTCGGTGCCGAGGTGGTGCTGTTCCCCGAGCTGGCGGTCAGCGGCTACCCGCCGGAGGACTTGCTGCTGCGGCCCGGGTTCCTGGCGCATTGCGAGCAGGCGGTGGCGCGGATCGCGGCGGCGGCCACCGGCATCGTCGCGGTGGTCGGCTGGCCGCAGAGCGCCGGCAGCGTGGTCTACAACGCCGCCAGCGTGCTGCGCGACGGCGCCGTCGCGCAGACCTACCGCAAACGCGAGCTGCCCAACTACGCGGTGTTCGACGAGCGGCGCTATTTCGATGTCGATCCGGACGGCGGTGCCTGCACCTTCGAGGTCAATGGCGTGGCGGTCGGCGTGGTGATCTGCGAGGACCTGTGGTTCGCCGAGCCGCTGGCCGATACCGTGCTCGACGGCGCCGAACTGGTGCTGGTGCCCAATGCCTCGCCGTACGAGCGCGGCAAGCACGCGCAGCGTGACGCGCTGCTGGCCGAGCGCACCCGCGAGAGCGGGGCGGCGATCGCCTATCTCAACGTGGTCGGCGGCCAGGACGCGCTGGTGTTCGACGGCGCCTCGGTGGTCGCCGACGGCGACGGCACGGTGCATCCGGCCGCGGCGGCGTTCGTCGACCAGTGGCTGGTGGTCGATTACGCCGCCGGCGAGCGCCGGTTCACTCCGGTGGTGTGGCTGGACGATGGCGACGAGAGCATGGACGCGCTGGCCTGGCGCGCGGTGGTGCGCGGGGTGCAGGACTACTGCCGCAAGAATGGCTTCTCGAAGGTCTGGCTGGGCCTGTCCGGCGGCATCGACTCGGCGCTGGTGCTGGCGATCGCGGTCGACGCGCTGGGCGCCGACAACGTCACCGCGGTGCGGCTGCCGTCGCGCTATACCGCCGGGTTGTCCAACGATCTGGCCGCCGAGCAGTGCCGGGCGCTGGGCGTGAAGCTGGAGGCGGTGTCGATCGAGCCGGCGTTCAAGGGGTTGATGGAATCGCTGGCGCCGATGTTCGCGGGCACCGCGCCGGACCTCACCGAGGAGAATCTGCAGTCGCGCAGCCGCGGCGTGATCCTGATGGCGCTGGCCAACAAGTTCGGCGGGCTGCTGCTGACCACCGGCAACAAGAGCGAATACGCGGTCGGCTACGCAACGATCTACGGCGACATGTGCGGCGGCTATGCGCCGTTGAAGGATCTGTACAAGACCGAGGTATTCGGCCTGGCCAAGTGGCGCAATACCGTCGGCGGCGCGCCGGTGATCCCGCCGGCGGTGATCAGCCGGCCGCCGTCGGCCGAGCTGCGCGAAAACCAGCTGGACCAGGATTCGCTGCCGCCCTACGACGTACTCGACGGCATCCTGTACCGCTACGTCGATCAGGAGCAGTCGCGCGAGGACATCGTCGCGGCCGGCTATGCCGCCGAGGTGGTCGACCATGTGCTGCGGCTGGTACGCATCAACGAATGGAAGCGCCACCAGGCCGCGCCCGGGCCGAAGGTGTCGCGGCGCGCGTTCGGTCGCGAGCGGCGCTATCCGATCACCAACGGCTATCGCGGGCAGTAG	MSKTLRIALAQFDFPVGAVAQNTDRIIELIGQARDEFGAEVVLFPELAVSGYPPEDLLLRPGFLAHCEQAVARIAAAATGIVAVVGWPQSAGSVVYNAASVLRDGAVAQTYRKRELPNYAVFDERRYFDVDPDGGACTFEVNGVAVGVVICEDLWFAEPLADTVLDGAELVLVPNASPYERGKHAQRDALLAERTRESGAAIAYLNVVGGQDALVFDGASVVADGDGTVHPAAAAFVDQWLVVDYAAGERRFTPVVWLDDGDESMDALAWRAVVRGVQDYCRKNGFSKVWLGLSGGIDSALVLAIAVDALGADNVTAVRLPSRYTAGLSNDLAAEQCRALGVKLEAVSIEPAFKGLMESLAPMFAGTAPDLTEENLQSRSRGVILMALANKFGGLLLTTGNKSEYAVGYATIYGDMCGGYAPLKDLYKTEVFGLAKWRNTVGGAPVIPPAVISRPPSAELRENQLDQDSLPPYDVLDGILYRYVDQEQSREDIVAAGYAAEVVDHVLRLVRINEWKRHQAAPGPKVSRRAFGRERRYPITNGYRGQ	PGPT0013445_422	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013445-nadE-K01916	NA	NA
BMS020_06351	381		COG2852	putative protein	GTGCGTGAAGGCCGCAAGCGCCGCTTCGCCAAGCTGCTCCGGCAGCGCATGACCGACGCGGAGGTTCGTCTCTGGTATCGATTACGCGACCGCCGCTTGTCGGGTTGCAAGTTCCGCCGGCAGGTGCCCGTCGGTCCGTACGTGGTGGATTTCGTCTGCCTCGAGCATCGTCTGGTCGTCGAACTCGATGGCAGCCAGCATCTGGTCAAGCGTGTCGATGCGGTGCGCGACGCATTCCTGGTCGCTGCAGGCTTCACCATCCTGCGGTTCTGGAATAATGAGGCGTTGGCGAACACCGAAACGGTCTGCGGCGAGATCGCACGATGGTTGGCGGCACATCGCCCGATCCCCTATCGGCCGGCGCGCAGCGGCGGCCCGTGA	MREGRKRRFAKLLRQRMTDAEVRLWYRLRDRRLSGCKFRRQVPVGPYVVDFVCLEHRLVVELDGSQHLVKRVDAVRDAFLVAAGFTILRFWNNEALANTETVCGEIARWLAAHRPIPYRPARSGGP	PGPT0022055_7	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
BMS020_06352	876	sucD_2	COG0074	Succinate--CoA ligase [ADP-forming] subunit alpha	ATGAGCGTTTTGATCAACAAGAACACCAAGGTGATCGTGCAGGGCTTCACCGGCCAGCAGGGCACCTTCCACGCCACCCAGATGATCGAGTACGGCACCCAGGTGGTCGGCGGCGTGACCCCGGGCAAGGGCGGCACCACCCACATCGACCTGCCGGTGTTCAACACCGTGGCCGATGCGGTGCAGAGCACCGGCGCCGACGCGTCGGTGATCTACGTCCCGCCGCCGTTCGCGGCTGACGCGATCCTTGAAGCCGCTGCGGCCGGCATCAAGGTCATCGTCTGCATCACCGAGGGCATCCCGGTGCTGGACATGCTTCGCGTCAAGAACGTGCTGACCCGCTCGTTCCCGGACACCGTGCTGATCGGGCCGAACTGCCCCGGCGTGATCACCCCGGGCGAGTGCAAGATCGGCATCATGCCGGGCCACATCCACAAGCCGGGCAAGATCGGCATCGTGTCGCGTTCGGGCACGCTGACCTATGAAGCGGTCAAGCAGACCACCGAAGTCGGCCTGGGCCAGTCCACCTGCATCGGCATCGGTGGCGACCCGATCAACGGCCTGAACTTCGTCGACTGCCTCAAGCTGTTCAACGAAGACCCGCAGACCGAAGGCATCATCATGGTCGGCGAAATCGGCGGCGACGCCGAGGAAGCCGGCGCCGAGTACATCGCCAAGTACGTCAAGAAGCCGGTCGTCGGCTTCATCGCCGGTGCTTCGGCCCCGGCCGGCAAGCGCATGGGCCACGCCGGTGCGATCGCCTCGGGCGGCAAGGGCACCGCGGAAGGCAAGTTCGCCGCGATGGAAGCCGCTGGCGTCAAGACCGTCCGTTCGCCGGGCGACCTGGGTGCCGCGATTGCCGCGCTGGTGAAGTAA	MSVLINKNTKVIVQGFTGQQGTFHATQMIEYGTQVVGGVTPGKGGTTHIDLPVFNTVADAVQSTGADASVIYVPPPFAADAILEAAAAGIKVIVCITEGIPVLDMLRVKNVLTRSFPDTVLIGPNCPGVITPGECKIGIMPGHIHKPGKIGIVSRSGTLTYEAVKQTTEVGLGQSTCIGIGGDPINGLNFVDCLKLFNEDPQTEGIIMVGEIGGDAEEAGAEYIAKYVKKPVVGFIAGASAPAGKRMGHAGAIASGGKGTAEGKFAAMEAAGVKTVRSPGDLGAAIAALVK	PGPT0001540_2669	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
BMS020_06353	1170	sucC_2	COG0045	Succinate--CoA ligase [ADP-forming] subunit beta	ATGAATTTCCACGAATACCAGGCAAAACAACTGCTTGCCGAGTACGGCATCCCGGTCCCGGCCGGCAAGGTCGCTGCCACCCCGGACGAAGCGGTTGAAGCCGCCAAGTCGCTCGGCGCAGGCCCCTGGATGGTCAAGGCGCAGATCCACGCTGGCGGCCGCGGCAAGGCCGGCGGCGTCAAGTTCTGCAAGACCGTTGACGACGTGAAGGCGGTCGCCGCCAAGCTGCTCGGCACCAAGATGGCCACCTACCAGACCGCCGGCGTCGAGCTGCCGATCAACCTGGTGCTGGTGACCACCGCCGGCGAGATCGTCAAGGAGCTGTACCTGTCGGTGCTGGTCGACCGCGGTACCCGCACCATCAGCTTCATCGCCTCGTCCGAAGGCGGCGTGGAGATCGAGCAGGTCGCCGCCGAGACCCCGGACAAGATCCATACGCTCAACGTCGACTTCGTCGAGGGCGTGCAGGGTTACCACGGCCGTGACATCGGCTTCAAGATGGGCCTGACCGCCAAGCAAGCCGGCCAGTTCGCCAACATCATGGTCAACCTGTACCGCATCTTCAACGAGAAGGACCTGGCCCTGGTTGAAATCAACCCGCTGGCGATCCTCGACGACGGCAACCTGTACGCGCTGGACGGCAAGTTCAACAGCGACGACAACGCCAACTTCCGTCACAAGGAACTGGTCGCGATGCGCGACAAGTCCCAGGAAGACGAGACCGAAGTGACCGCTTCGGAGCTGGACATCAACTACGTGACGATGGACGGCAACATCGGCTGCATGGTCAACGGCGCCGGCCTGGCGATGGCGACCATGGACGTGATCAAGCTCAATGGCGGCGAGCCGGCGAACTTCCTCGACGTCGGCGGCGGTGCCAACAAGCAGCGCGTCATCGAGGCGTTCAAGCTGATCCTGTCCTCGGACAAGGTCGAGGGCATCTTCGTCAACATCTTCGGCGGCATCGTCCGCTGCGACATGATCGCCGAGGGCATCATCGCCGCGGTCAAGGAAGTGGGCGTCAAGGTCCCGGTGGTGGTGCGCCTGGAAGGCACCAACGTGGAAGAAGGCAAGCAGCTGCTGCGCGACAGCGGCATGGCCATCATTCCGGCCGACAACATCAACGACGGCGCCAAGAAGGTCGTTGAAGCTGTCAAGAACGCCGCCTGA	MNFHEYQAKQLLAEYGIPVPAGKVAATPDEAVEAAKSLGAGPWMVKAQIHAGGRGKAGGVKFCKTVDDVKAVAAKLLGTKMATYQTAGVELPINLVLVTTAGEIVKELYLSVLVDRGTRTISFIASSEGGVEIEQVAAETPDKIHTLNVDFVEGVQGYHGRDIGFKMGLTAKQAGQFANIMVNLYRIFNEKDLALVEINPLAILDDGNLYALDGKFNSDDNANFRHKELVAMRDKSQEDETEVTASELDINYVTMDGNIGCMVNGAGLAMATMDVIKLNGGEPANFLDVGGGANKQRVIEAFKLILSSDKVEGIFVNIFGGIVRCDMIAEGIIAAVKEVGVKVPVVVRLEGTNVEEGKQLLRDSGMAIIPADNINDGAKKVVEAVKNAA	PGPT0019515_1655	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
BMS020_06354	1614	sasA_11		Adaptive-response sensory-kinase SasA	GTGTCACCCAGCGCATCGCTCATCGGCCGCATCGAATCGGAGCCGCGGCGCGAGCTGTACTTCTTCGCGCTGTACCGGCTGCTGGTCGCCGGACTGATCGCCGCGCTGGTCTACAGCCCACTCGCGTTCCTGGTCGGCGCGCCGCGCTCGCCACTGCTGGCGCAGACGGTCTCGGTCGGCTACTTGCTGTTCGCCCTGGCCCTGCTGCTGCTGGGGCGCGACGACCGTCAGCTGACCCGGATCGTGCTGGTCAGCGCCGCCGGCGATGTGACCGCGGCGATCCTGATCACCCATGCCCTGCCCAGCGCCAGCGCCGGCGTGGCGATGATGCTGCTGTTCAACATCGCCGCCGCGGCGATGCTGCTGCGCCTGCGCATCGCGCTGGGCGTGGCCGCGCTGGCCAGCGTGGCGATGGCCACCGAGTACCTGTGGACCGAGCTCGGCGGCGGCAATCCCGAGCGCACCCTGGCCGAGCTGGCGATGTTCACCACCAGCTATCTGGCCCTGGCCTACATCAGCTGCAGGATCGGCCAGCGCGCACGGCGCAGCCAGGATCTGGCCGAGCGCCGCGGCGCCGAGGTCGCCAACCTGTTCGAGGTGAACGAGCTGATCATCCGCCGCATGCGCACCGGTGTGCTGGTGGTGGACGCACGCAACCGCATCACTCTGGCCAACGAGGCGGCCTCGCTGCTGCTCGGTGACGGCGACGGCAACTCCGAAAGCGGCCAACTCGAACTGGCCAGCGCCGCGCCGGAGCTGGCCAGGCGGCTGCAGCGCTGGCGCAACGGCTGGAGCCACGAGGAGGCACCGCTGCAGCTGGCGCCCGACCAGCCGGAGGTGCAGCCGCGTTTTGCCCGCCTGCTGGCCGACAGCGAGCTGGCGCTGGTGTTCCTCGACGACGCCACCGTGGTGTCGCGCCGCGCCGAGTCGCTGACCCTGTCGGCGATGGGGCGGTTCTCGGCAAGCCTCGCCCATGAAATCCGCAACCCGCTGGCGGCGATCAACTACGCCTGCCAGTTGCTGGAGGAGTCCAACGACATCGGCGAGGCCGACCGACGGCTGCTGCAGATCATCCACCAGCAATGCCAGCGCACCAACGGCATCGTCGAAAGCGTGCTGGGACTGGCCCGTCGCGAGCGCGCCAATCCCGAGAACATCGACCTGGCCGCGCTGGTGCGGCGTTTCGTGCTGGAGTACCGCCAGGGCATGTCGCTGGAAACCGACAGCCTGGAAGTGATCGTGGCCCAGCCCGGGGTGCAGGCCCTGGTCGATCCCAAGCACCTGCACCAGATCCTGACCGCGCTGGTGCATAACGCACTGAAGTACGGCCGGGTGATGGACGAGCCGGCCCGGGTGCGGCTGCGGGTAGCCCTGCAGGAACGCAATGCGGTGGTCGACGTGATGGACCGCGGCCCGGGCATCCCCGAGGCGGTGGCGGCGCAGCTGTTCCGGCCGTTCTTCACCACCTCCGAGCACGGCACCGGCCTGGGCCTGTACATCGCCCGCGAGCTGTGCCGGGCCAACCAGGCCCGCCTGGAATACATCTCGGTCCCGGCCGGGGGCGCCTGCTTCCGCGTCACCTTGCCCGGCCCGCATACGCTGCTGCCCGCCTGA	MSPSASLIGRIESEPRRELYFFALYRLLVAGLIAALVYSPLAFLVGAPRSPLLAQTVSVGYLLFALALLLLGRDDRQLTRIVLVSAAGDVTAAILITHALPSASAGVAMMLLFNIAAAAMLLRLRIALGVAALASVAMATEYLWTELGGGNPERTLAELAMFTTSYLALAYISCRIGQRARRSQDLAERRGAEVANLFEVNELIIRRMRTGVLVVDARNRITLANEAASLLLGDGDGNSESGQLELASAAPELARRLQRWRNGWSHEEAPLQLAPDQPEVQPRFARLLADSELALVFLDDATVVSRRAESLTLSAMGRFSASLAHEIRNPLAAINYACQLLEESNDIGEADRRLLQIIHQQCQRTNGIVESVLGLARRERANPENIDLAALVRRFVLEYRQGMSLETDSLEVIVAQPGVQALVDPKHLHQILTALVHNALKYGRVMDEPARVRLRVALQERNAVVDVMDRGPGIPEAVAAQLFRPFFTTSEHGTGLGLYIARELCRANQARLEYISVPAGGACFRVTLPGPHTLLPA	PGPT0015870_301	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0015870-pilS|pehS-K02668	NA	NA
BMS020_06355	1389	atoC_1	COG2204	Regulatory protein AtoC	ATGAACGAAAGCCGAAGCGCCCTGGTTGTCGACGACGAACGCGACATCCGTGAACTCCTGGTCCTCACCCTCGGCCGCATGGGCCTGCGCATCAGTACCGCCGCCAACCTGACCGAGGCGCGCGAGCTGCTGGCCAACAACCGCTTCGACCTGTGCATCACCGACATGCGCCTGCCCGATGGCAACGGTATCGAGCTGGTCAGCGAGATCTCGCGCAACTATCCGCAGACGCCGGTGGCGATGATCACCGCCTTCGGCAGCATGGATCTGGCCGTGGAAGCGCTCAAGGCCGGCGCCTTCGACTTCGTCAGCAAGCCGGTGGACATCAACGTGCTGCGCGGACTGGTCCGGCATGCGCTGGAGCTGAACAACCAGGAGCGCCCGGCGCCACCACCGCCACCGCCGGAGCAGGCCAGCCGCCTGCTTGGCGATTCCAGCGCGATGCATGAGCTGCGCACCACCATCGGCAAGGTCGCACGCAGCCAGGCGCCGGTCTACATCCTCGGCGAATCCGGGGTCGGCAAGGAGCTGGTGGCGCGCACCATCCATGAGCAGGGCGCACGCGCGTCCGGGCCGTTCGTGCCGGTCAACTGCGGGGCGATCCCGGCCGAACTGATGGAGAGCGAGTTCTTCGGCCACAAGAAGGGCAGCTTCACCGGCGCCCATGCCGACAAGCCCGGCCTGTTCCAGGCCGCTGGTGGCGGCACCCTGTTCCTGGACGAGGTCGCCGAGCTGCCGCTGCAGATGCAGGTCAAACTGCTGCGCGCGATCCAGGAGAAGTCGGTACGCCCGGTGGGCGCGGCGGTGGAGGTTCCAGTGGACGTGCGCATCCTGTCGGCCACGCACAAGGACCTCGGCGACCTGGTCGCCGATGGCCGCTTCCGCCACGATCTGTATTACCGCATCAACGTGATCGAACTGCGGGTACCGCCGCTGCGCGAGCGCGGCGGCGACCTGCCGAAACTGGCCGCCTCGATCCTGGCCCGGCTGGCGCGCAGCCACGGCCGGCCGATCCCGCTGTTGTCGCCCTCGGCCCTGGATGCGCTGGACCGTTACGCCTTCCCCGGCAATGTGCGCGAGCTGGAGAACGTCCTTGAGCGCGCCCTGGCGCTGGCCGAGGACGACCAGATCAGCGCCGGCGACCTGCGCCTGCCGCAACACGCGCCGCCGCGCCTGACCGGCGTCCCGGCGGCTGCCGACGCGCACGAGGCGGTGGTCGACATCGACCCGGCCAACGCCGCGCTCCCTTCCTACATCGAGCAGCTCGAGCGCGCGGCGATCCAGAAGGCGCTGGAAGAGAACCGCTGGAACAAGACCCGCACCGCGGCCCAGCTTGGCATCACCTTCCGCGCACTGCGCTACAAGCTCAAGAAGCTGGGGATGGACTAG	MNESRSALVVDDERDIRELLVLTLGRMGLRISTAANLTEARELLANNRFDLCITDMRLPDGNGIELVSEISRNYPQTPVAMITAFGSMDLAVEALKAGAFDFVSKPVDINVLRGLVRHALELNNQERPAPPPPPPEQASRLLGDSSAMHELRTTIGKVARSQAPVYILGESGVGKELVARTIHEQGARASGPFVPVNCGAIPAELMESEFFGHKKGSFTGAHADKPGLFQAAGGGTLFLDEVAELPLQMQVKLLRAIQEKSVRPVGAAVEVPVDVRILSATHKDLGDLVADGRFRHDLYYRINVIELRVPPLRERGGDLPKLAASILARLARSHGRPIPLLSPSALDALDRYAFPGNVRELENVLERALALAEDDQISAGDLRLPQHAPPRLTGVPAAADAHEAVVDIDPANAALPSYIEQLERAAIQKALEENRWNKTRTAAQLGITFRALRYKLKKLGMD	PGPT0015865_323	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0015865-pilR|pehR-K02667	NA	NA
BMS020_06356	1734			hypothetical protein	ATGAACGCTGTCACCGCGAACTTGGTAGGTATCACTGGCATCGCGCGCCGCCTGGTGCAGGATGGTGCGCTCGACGAGGCCGCCGCGCGCGCGGCGATGGACCAGGCTGCCCAGGCCAAGGTGCCGCTGCCGCAATGGTTCGCCGACAAGAAGCTGGTCTCGGCCGCGCAGCTGGCGGCAGCCAACTCGCTGGAGTTCGGCATGCCGCTGTTGGACGTGTCGGTGTTCGATGCCAGCCAGAACGCGATCAAACTGGTCAGCGAGGAGTTGCTGCAGAAGTACCAGGTGCTGCCGCTGTTCAAGCGCGGCAACCGCTTGTTTGTCGGGGTCAGCAATCCAACCCAGACCCGGGCGCTGGACGACATCAAGTTCCACACCAACCTGGCGGTGGAGCCGATCCTGGTCGACGAGGACCAGATCCGGCGCACGCTGGAGCAATGGCAGGCGAGCAACAGCGCGCTGGGCTCGGCGCTGGGCGACGACGATGAGGGGATGGACAACCTCGACGTCAGCGCCGGCGACGAGGACATGGGGGCCGGAGGCGATGCCGGCGTCGACGCCAAGGGCGACGACACCCCCGTGGTCAAGTTCGTCAACAAGGTACTGGTGGATGCGATCCGCCGTGGCGCCTCGGACATCCACTTCGAGCCTTACGAGGACGACTATCGGGTGCGCTTCCGCATCGACGGCCTGCTCAAGAACGTGGCCAAGGCGCCGGTCAAGCTGAAGGATCGCATTGCCGCGCGCCTGAAGGTGATGTCGCAGCTGGATATCGCCGAGAAGCGCGTGCCGCAGGACGGCCGCATCAAGCTCAACCTGTCCAAGACCAAGCAGATCGACTTCCGCGTCAGCACGCTGCCGACCCTGTTCGGCGAGAAGATCGTGCTGCGTATCCTCGATGGCAGCGCCGCCAAGCTCGGCATCGACAAACTCGGCTACGAGCCCACCCAGCAGCAGCTGTTCCTGGATGCGATCCACAAGCCGTACGGCATGGTGCTGGTGACCGGTCCGACCGGTTCGGGCAAGACGGTGTCGCTGTACACCGCGCTGGGCATCCTCAACGACGAGACCCGCAACATCTCCACCGCCGAGGATCCGGTGGAAATCCGCCTGCCCGGCGTCAACCAGGTGCAGCAGAACAACAAGCGCGGCATGACCTTTGCCGCGGCGCTGCGTTCGTTCCTGCGCCAGGACCCGGACATCATCATGGTCGGCGAAATCCGCGACCTGGAGACCGCCGAGATCGCGATCAAGGCGGCGCAGACCGGCCACATGGTGCTGTCGACGCTGCACACCAACGATGCGCCGCAGACCATCGCGCGCCTGATGAACATGGGCATCGCGCCGTACAACATCACCTCGTCGGTGACGCTGGTGATCGCCCAGCGCCTGGCGCGGCGGCTGTGCAGCAACTGCAAGCGGCCGGTGACGCTGCCGGAGAACGCGCTGCTGGCCGAAGGCTTCACCGCCGAGCAGATCGCCGCGGGCGTCGAGCTGTACGAGGCGGTCGGCTGCGATGACTGCACCGAGGGCTACAAGGGCCGGACCGGCATCTACCAGGTGATGCCGATGACCGACGACATCGCCAGCATCGTGCTGGCCGGTGGCAACGCGCTGCAGATCGCCGAGGCGGCGCAGAAGATCGGCATCAACGACCTGCGTCAGTCGGCCTTGCTCAAGGCCTCGCAGGGCATCACCAGCCTGGCCGAGATCAACCGCGTGACCAAGGACTGA	MNAVTANLVGITGIARRLVQDGALDEAAARAAMDQAAQAKVPLPQWFADKKLVSAAQLAAANSLEFGMPLLDVSVFDASQNAIKLVSEELLQKYQVLPLFKRGNRLFVGVSNPTQTRALDDIKFHTNLAVEPILVDEDQIRRTLEQWQASNSALGSALGDDDEGMDNLDVSAGDEDMGAGGDAGVDAKGDDTPVVKFVNKVLVDAIRRGASDIHFEPYEDDYRVRFRIDGLLKNVAKAPVKLKDRIAARLKVMSQLDIAEKRVPQDGRIKLNLSKTKQIDFRVSTLPTLFGEKIVLRILDGSAAKLGIDKLGYEPTQQQLFLDAIHKPYGMVLVTGPTGSGKTVSLYTALGILNDETRNISTAEDPVEIRLPGVNQVQQNNKRGMTFAAALRSFLRQDPDIIMVGEIRDLETAEIAIKAAQTGHMVLSTLHTNDAPQTIARLMNMGIAPYNITSSVTLVIAQRLARRLCSNCKRPVTLPENALLAEGFTAEQIAAGVELYEAVGCDDCTEGYKGRTGIYQVMPMTDDIASIVLAGGNALQIAEAAQKIGINDLRQSALLKASQGITSLAEINRVTKD	PGPT0015915_452	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015915-pilB-K02652	NA	NA
BMS020_06357	858	arnC_3		Undecaprenyl-phosphate 4-deoxy-4-formamido-L-arabinose transferase	TTGGACCGCATCAGCATCATCCTGCCTGCCAAGAACGAGGCCGAAGGCCTGCGCCGGACACTGCCTGCGCTACGCGGGCTGTATCCGCAGGCCGAGCTGATCGTCGTCGACGACGGCTCGACCGACGATACCGCCGCGATCGCCACGGCCCATGGCGCCCGCGTGCTCGGCAGCCCCTACTCGATGGGCAACGGCGCGGCGATCAAGCGCGGCGCGCGCGCCGCAGGCGGCGACATCCTGGTGTTCATGGACGCCGACGGCCAGCACGACCCGGCCGCGATCGCCACCCTGCTGGCTAAGCTCGAGGAAGGCTACGACATGGTCGTGGGCGCCCGCGACGGCAGCGGCCAGGCCAACTTCCACCGCGGCGCCGCCAACACCTTCTACAACTGGCTGGCCAGCCGCATGACCGGGTTCGCGATCAAGGACCTGACCTCCGGCTTCCGCGCCGTCCGCGCCGAGCGCTTCCGCGAATTCCTGCACCTGCTGCCGAACGGCTTCAGCTACCCAACCACCAGCACCATGGCGTTCTTCCGCAGCGCCTACCCGGTGGCCTACGTCCCGATCCACGTCGCCAAGCGGGTCGGCAACGGCAGCCACATCCGCCCACTGAAGGACGGCATCCGCTTCCTGCTGATCATCTTCAAGATCGCCACGCTGTATTCGCCGCTGAAGCTGTTCGCGCCGGTGGCGGGCATGTTTTTCCTCACCGGCGTGGGCTACTACGGCTACACGTTCGCCACCGCACACCGGTTCACCAACATGAGCGCACTGCTGTTCAGCGCGGCGGTGATCGTATTTTTGATCGGATTGATCTCGGAGCAGATCACCAATTTGACTTATCGCCGGGTGGATTGA	MDRISIILPAKNEAEGLRRTLPALRGLYPQAELIVVDDGSTDDTAAIATAHGARVLGSPYSMGNGAAIKRGARAAGGDILVFMDADGQHDPAAIATLLAKLEEGYDMVVGARDGSGQANFHRGAANTFYNWLASRMTGFAIKDLTSGFRAVRAERFREFLHLLPNGFSYPTTSTMAFFRSAYPVAYVPIHVAKRVGNGSHIRPLKDGIRFLLIIFKIATLYSPLKLFAPVAGMFFLTGVGYYGYTFATAHRFTNMSALLFSAAVIVFLIGLISEQITNLTYRRVD				NA	NA	NA	NA	NA
BMS020_06358	1404			hypothetical protein	ATGGTAATGCCATCCATTCGACGACCCGCCTGGCTCGTCATCATTGCATGCACGGCGCTTGCGCTGCTGCTCAGGGTCTACTACGTAAACGTTGCGATCGTCGACCATCCGATCCGGGGGGACGCGACCGCGTATTACGCATACGCTTGGAACATGCTTCATAACGGCGTGTTCTCCCACGTGTTCCCCGGTGATGGACCGCCACTGACAGACAGCTATCGAGATCCTGGTTATCCGGTGCTGATAGCAGCGACGATGTGGCTCGCCGGCCCCGATGACTGGTATCGGGCGCTACTCAACCTGCAGGCGCTGCTGTCCGCGCTGACGGTCCTTGTAACGCTCACCCTCGGCCGACGCTGGCTGCCCTTGCCCTGGCTCGCATTGTGCGGGGTACTGCTGGCAATTTGGCCGCACTCGATCACCTCCGCGAGCTACCTGCTGACCGAGACACTGTGCGGATTCCTCGTCAGCACGGGCATCGTACTTGCGTCGCTGCCAGCAGCGAGGAAGCCCGCGACAACATTTGCGATAGGTCTTGCAATGGGCGCAGCCGCGCTCACGAACGCCATCCTGCTTCCCTTCGGCGTCCTGCTCGCGATTGGAATGCTGCTGTCTAGACAATGGCCACGCCATGCCGCGCTGGCGCTCGTGATCGGATCATCGTTGCTCCCCGGTATATGGGCGCTGCGCAATGCCACGCTTTCGGCGGGTATCGACGCAACCACCAGCACGTCGACCGGCAGGGCACTGCAAAATCTCGTACAGGGATCCTGGCCGGAGTACCACGATGCATGGCATGGCACGCTCCGTGGCGACCCCGCGGCCAAGGCGCTCATGCACCAGATCGACGACGAGATCGCCGCCGCAGTGGCCTCGCCCCCCCTTGGCCTGAGCATAGTGGCGGACAGGCTTGCGGCCTCCCCTTGGCGGTATGCCCGCTGGTATCTATCCAAACCAGCGTTGCAGTGGGGCTGGGACGTCCGCATCGGCGCTGGCGACGTATTCATCTACCCGATGATCTGGTCGCCATACCTCTCCAGCCCCGTCTTCAAAGCGATGGCGGCGCTCACGCACGCACTCAATCCCTGGCTGCTATTGCTCGCCGCAGCATTCTGCGCGACCGCGCTCGCCCAGCGGCCGGGGCGCGGACACGAATGGATCCCCACAACGCTGCTTTTGCTTTACGTCACCGCCATTTACGGAATTCTGCAATCCGAGCCTCGCTACTCGATTCCATTCAGATCGATGGAGATCCTCGCCGCAATGGCAATGCTGGCAGCCGTCTCCCGTAAATTGCACAGGACGGCCCGCGGCACAGAACGCGAAACACCGCGACAGGATGCGCACGGCGCCCATTCTCCCGGCCAGCGTGATGCGTGTTCACAGGGCCACGCCGATGCATGA	MVMPSIRRPAWLVIIACTALALLLRVYYVNVAIVDHPIRGDATAYYAYAWNMLHNGVFSHVFPGDGPPLTDSYRDPGYPVLIAATMWLAGPDDWYRALLNLQALLSALTVLVTLTLGRRWLPLPWLALCGVLLAIWPHSITSASYLLTETLCGFLVSTGIVLASLPAARKPATTFAIGLAMGAAALTNAILLPFGVLLAIGMLLSRQWPRHAALALVIGSSLLPGIWALRNATLSAGIDATTSTSTGRALQNLVQGSWPEYHDAWHGTLRGDPAAKALMHQIDDEIAAAVASPPLGLSIVADRLAASPWRYARWYLSKPALQWGWDVRIGAGDVFIYPMIWSPYLSSPVFKAMAALTHALNPWLLLLAAAFCATALAQRPGRGHEWIPTTLLLLYVTAIYGILQSEPRYSIPFRSMEILAAMAMLAAVSRKLHRTARGTERETPRQDAHGAHSPGQRDACSQGHADA				NA	NA	NA	NA	NA
BMS020_06359	1185	pimB	COG0438	GDP-mannose-dependent alpha-(1-6)-phosphatidylinositol monomannoside mannosyltransferase	ATGAGCACGCCCCGGAGCCAATGGCTTCGCATGACCTCTGAAACGTCCAGGACGCTACTCATCAGCCGCAACCTGCCTCCACTACGGGGAGGCATGGAGCGGTTGAACTGGCATCTCCTGGAGGAGCTGGCCAAGGCCTGCGACGTGGACGTGGTAGCTCCCGCGGATTCCACCCCCCCGACTTCGGGGCGCGTCCGTTTACATGGCGCTCCCGGCAGGCCGCTGTGGAGATTTCTGGTGGCAGCCACCTGGCTCGCATCGTACCTCGCGCACAGACATCGCCCCTGCATCGTCCTGGCGGGCAGTGGATTGACAGCTCCCGCCGCTTGGCTCGCCGCCCGGACGAGCGGCGCGCGCGCGGCGGTATACCTCCACGGCCTGGACATCTCCGTTGACCACCCGGTGTATCGCCACCTGTGGCTCCCCGTGCTGCGCAGGATGGACGTCGTCCTGGTAAACAGCACTGCGACGCATGCGCTCGCACGCAAAGCTGGCATCGCAGACGAGCGGCTGCATGTGGTCCACCCCGGCGTGCAGTTGCCTGAGCCACACCAGTCCGACACCGCCATGTGCGCACGCCTGAGGGAAGACGCCGGCCTGGGCACCGGCCCCCTGCTGCTATCGGTCGGACGACTCACCCGGCGTAAAGGACTCGTCGAGTTTGCCCGCGACGTACTGCCCGAGGTCGTCGAACGGCATCCGCAAGCACGCCTCGTCATCATCGGAGGACTGGCGGAAGACGCACTGAATCCGTCGTTGGTGCACCCCGAGGACATCCTTGCCGCCACTCCCGAGCATGTCCGGGCAAACATCCATTTCCTGGGACCCGTGCAGGACGACGTGCTGGCGCTGGCATACCGGGCCAGCGCCGTCCACGTGTTTCCCGTCCAGATCATTGCAGGGGACCCGGAAGGCTTTGGCATGGTTGCGATCGAGGCAGCCGCACATGGGCTGGCGACCGTGGCCTATGCCGCAGGCGGGGTAACGGATGCCGTCCGCCATAACGTCTCCGGCTATCTGGCTCCGGCAGGAGACCCCACGGCGCTGACGCGGTGGATTCTCCAGGCCATCGACCAACCACTGCCCAGCGCACCGATGCGGGGATTCGCCCGCACCTTCTCCTGGCAGGCTTTCGGAAGCAGAATCCGGAGCGTGATGGACGAAGCCACCAAGGACTGGACATGA	MSTPRSQWLRMTSETSRTLLISRNLPPLRGGMERLNWHLLEELAKACDVDVVAPADSTPPTSGRVRLHGAPGRPLWRFLVAATWLASYLAHRHRPCIVLAGSGLTAPAAWLAARTSGARAAVYLHGLDISVDHPVYRHLWLPVLRRMDVVLVNSTATHALARKAGIADERLHVVHPGVQLPEPHQSDTAMCARLREDAGLGTGPLLLSVGRLTRRKGLVEFARDVLPEVVERHPQARLVIIGGLAEDALNPSLVHPEDILAATPEHVRANIHFLGPVQDDVLALAYRASAVHVFPVQIIAGDPEGFGMVAIEAAAHGLATVAYAAGGVTDAVRHNVSGYLAPAGDPTALTRWILQAIDQPLPSAPMRGFARTFSWQAFGSRIRSVMDEATKDWT	PGPT0024300_732	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PHOSPHATIDYLINOSITOL_MANNOSIDE_REMODELLING	CE-REMODELLINGPHOSPHATIDYLINOSITOL_MANNOSIDE_BIOSYNTHESIS,PGPT0024300-pimB-K13668	NA	NA
BMS020_06360	1137	mshA_6		D-inositol-3-phosphate glycosyltransferase	ATGACGCCGCACGAGAGCGGCACCCTGGCCCACGGAACCCGAATCCTGGTCCTTTGCAAGCGTCAATATACCGGTCGCGACCTGATCGACGATCAGTACGGGAGGCTGTTCGAAATCCCGGAGGCGCTGGCGAGAAGCGGACACCATGTCCGCGGCATAGCCGCCAGCTATCGCTATCGCCCAAGCCCCGGTGTGATCAGCCCAGCCGGGGTCGACTGGCGCTCATTCAATGCCATTCCTTTCGGCGCATGGCATGTCGCCCGCCTAAGGCCCCAGACGAACAACTGGTCTCCCGACATCGTGTGGGCCAGCTCCGACGCGCTTCACTGCGTCGCCGGCCACCGCCTCGCCAGAGCGCTCGGGGTTCCCGTGGTACTGGATCTCTACGACAACTACGATCACTTCGGCCTGACATCACTGCCCGGTCTGCGCTCTGCGTATCACCGGGCGTGCGCCGCGGCGGATGCGCTGACCGTGGTCAGTCATTGCCTAGCCGAACATGTCGCGGACACATTCGCGCCCACTCCTCCGGCAACCATCGTCGTCAATGGTGTTCGTAGCGACCTGTTCCAACGTCGCAACCAAGCGGAGGCACGCGACCAGCTTGGGCTTGACCGGAACGCCCGCATCATCGGCTGCGCGGGCGCACTCGATGCGGGACGGGGCATCGAGGACCTGTTTCTGGCGTTCAGACACCTTGCCGACCAGGATCCAAACCTGCTCCTGGCCATTGCCGGCCCCCGCGATGGTACACCCGCACGCCACCCCCACCCCCGCATCGTCGACTTCGGTGAACTCCCCTGGCAGCAGGTGCCCGTCCTGCTCAATGCACTTGACGTCGCCGTCGTATGCAATCGGGATTCAACGTTCGGCCGCTTCTGCTTTCCCCTCAAACTACATGAGGCCCTGGCCTGCGGCGTACCCGTCGTCGCGGCAGCAGTGGGCGATGTGCGCAACGTACTGCAGAACATCCCCGCTTCCCTGTATCGGCCAGGCGATCACATGCAGCTAGCCAACCTGCTGGCAGCGCGCATCAATACTCCGATCGATACCCCGCCGCACATCGTCCCCAGCTGGTCGGACCTCGCTGCAGAAGTCGAGCGGACTCTCGCGCGGGCGATCGCAGCACGTCAATGA	MTPHESGTLAHGTRILVLCKRQYTGRDLIDDQYGRLFEIPEALARSGHHVRGIAASYRYRPSPGVISPAGVDWRSFNAIPFGAWHVARLRPQTNNWSPDIVWASSDALHCVAGHRLARALGVPVVLDLYDNYDHFGLTSLPGLRSAYHRACAAADALTVVSHCLAEHVADTFAPTPPATIVVNGVRSDLFQRRNQAEARDQLGLDRNARIIGCAGALDAGRGIEDLFLAFRHLADQDPNLLLAIAGPRDGTPARHPHPRIVDFGELPWQQVPVLLNALDVAVVCNRDSTFGRFCFPLKLHEALACGVPVVAAAVGDVRNVLQNIPASLYRPGDHMQLANLLAARINTPIDTPPHIVPSWSDLAAEVERTLARAIAARQ	PGPT0019565_1399	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
BMS020_06361	1455			hypothetical protein	GTGACGCGCCATTCTGCGCCTCTTCGGGTGCTGTTCCTGCTGCAGCGGCCGGAAGCCTGGGGCAATGTGGCGAGCATCTGGCGAGCGATGGCGACGTCCGGTGCATTCCATACGACGGCGTGGTTGCTTCCGTACGATATCGCTGACCCAAGGCGCAGCGCGCTTCAGGCGGTGCCGCATCGACGCTTGCTGCAGGATGCCGGCATTCCGTTCGTCGAGTGGGATGTCGCTGTGCGACTGGAACGTGGGCAGTTCGACGTAGCGGTCTTTACGCATCCCTATGATCGCGAGCGTCCCGCGGATCTCTGGTTCGACCAGGTGCGGGCATGTGTGCCGCGCATCGTCTACGTGCCATATGGACTGAGCGTCGGGGCGGGCGCGAAGAATCTGAGCCTGCAGTTCGCCCAGCCTGTGCAGTGCGGCGCGGACTTGATAGTGGCCCGCTCGAATGCCGAGCGAGATATGTATGCGCGACATTGCCCTGCTGGTAGTGCGCATGTTCAGGTGCTGGGACACCCGCGATTCGACCGTTTGCTGGCCGAACTGGATTCGACGTGCACGGCCGAGCTCGATGCGCGCATTGCCGGGCGTGTCGCCTTCCTCTGGAACGCGCATTTCAGTTTTGTCGATCGTTGCAGATACAACGCCAACTTTTCAACGTTCGACCTGCTGGGCCCCGAAGTCATCCGCTTCTTTGCAGCCAATGCGGATCGGCTCTGTCTGGTCTGGCGACCTCATCCTGCCTTGCTTGGGGCGCTTCAAGAACAGGGGCTGGTGAAGGAGCAGGATCTTCCTCGGTTCCGAGACGAGCTCAAGCAGGCCGGCATCGTACTTGACGAGTCGGCAGATCACCTGCCCGCGTTTCGGGCTTGCCAAGCGCTGTTGAGTGATCCTGGATCGTTCTGGCTCGAGTATCTGGCTGTCGGAAAGCCCATGCTCCCCATGATCAATTCGCGGGGCGAGCCATTGAATATGGAGGCGAAGACGCTGCTGGAAACCCTGGGGCGAGCTTCGTCTCCGGCTGATGTTCTACGGTTCGTGCGAGCGGTTGTCAGCGGGGAACGGCGCGGCGACGAGGAAGCGCGGGCGCGCATTCTTTATCTTCCTATGCTGGATGGGCACGCGGGCATGCGGATCTGTCTAGCCATTGCCGGTCATGCGGCCGCTGCATCGGAGCTTCGGTGCAGCGGCGGACCCGAGCGAGCGCGGCGGGATGATGCTCTAGTGGACCTGGATCATTTGGACTGGTCGTGTCGAGAGCCCGTCGTCCTTGGCCCGGTGTTGACGGGCATGCTCGCGGGTCTCGAACGGTTGCGTTCGGTACGGCAATCGGAGGGCGAGTTCCGACACCGCATGATGCGGTTCTGCACGGGCAGGCGTTCGCTACTGGTGGAGTGGATAAAGCGACGCCCTAGGCTGATGCGGTTGTTGGAATGGGCGCGCCGTACTCATTGA	MTRHSAPLRVLFLLQRPEAWGNVASIWRAMATSGAFHTTAWLLPYDIADPRRSALQAVPHRRLLQDAGIPFVEWDVAVRLERGQFDVAVFTHPYDRERPADLWFDQVRACVPRIVYVPYGLSVGAGAKNLSLQFAQPVQCGADLIVARSNAERDMYARHCPAGSAHVQVLGHPRFDRLLAELDSTCTAELDARIAGRVAFLWNAHFSFVDRCRYNANFSTFDLLGPEVIRFFAANADRLCLVWRPHPALLGALQEQGLVKEQDLPRFRDELKQAGIVLDESADHLPAFRACQALLSDPGSFWLEYLAVGKPMLPMINSRGEPLNMEAKTLLETLGRASSPADVLRFVRAVVSGERRGDEEARARILYLPMLDGHAGMRICLAIAGHAAAASELRCSGGPERARRDDALVDLDHLDWSCREPVVLGPVLTGMLAGLERLRSVRQSEGEFRHRMMRFCTGRRSLLVEWIKRRPRLMRLLEWARRTH				NA	NA	NA	NA	NA
BMS020_06362	675			hypothetical protein	ATGTACACTGTTGAGGGCGCTGTAATCGCCTGCGCGGGCCTTGGTTCGCGCTTGGGGATGGGGATGCCGAAATGCATGATCGAGGTGGGGGGGAAGACCCTCCTGTCGCGCCTGATCGACACACTCCGTCCCTTGGTACCCCGCATCCATGTGGTCGTCGGATATCGGGAAGAACTGATCATCGAGCACTGCGCGCGGCATCATCGTGACGTGGTGATTGTTCGCAATCCCGCATTTCGTACCACCAATACCGCCCATAGCATCAGGCTTGGCTCGGTCGGAATGCGGGGCAAGGTGCTTTACCTCGACGGCGACCTGATCATCGAGCCAGGCTCTATGCGAGGCTTCGTCGAACGCGCTGCAGGTGTCCCATTGCTGGTTGGGGTCACCCGGGCGAAGAGTAGTCAGGCGGTGTTTGTTTCCGTCCGCCAAGGCGACGGTGGCTTGCCGTGCATGCTGGATGCCTTTCATCGCGATCCGGAGACCCCGTGGGAATGGGCGAACGTCTTCGCTGGTTCCCCCGAGCTGCTTGTCGAGGGTACACGGTATGTGTACGAGTGCATCGAGCCGGAGCTGCCCGCGGCGGCACGCGCAATTGAATTGTTCGAGGTCGACACGCCGGAGGACCTGGTGGCAGCGGAAGTTGGTCTGGCGGGATTTCGTTCGGAGGCTTGA	MYTVEGAVIACAGLGSRLGMGMPKCMIEVGGKTLLSRLIDTLRPLVPRIHVVVGYREELIIEHCARHHRDVVIVRNPAFRTTNTAHSIRLGSVGMRGKVLYLDGDLIIEPGSMRGFVERAAGVPLLVGVTRAKSSQAVFVSVRQGDGGLPCMLDAFHRDPETPWEWANVFAGSPELLVEGTRYVYECIEPELPAAARAIELFEVDTPEDLVAAEVGLAGFRSEA				NA	NA	NA	NA	NA
BMS020_06363	606	serB2	COG0560	Phosphoserine phosphatase SerB2	ATGAGCAGGACGGCGTTCTGTTTCGATCTCGATGGCACCTTGACCACGACCGAGATCCTGCCATGCATCGCGGCCGAGCTGGGAATAGCCGGCGAGATCGCCACCCTCACCCGGTTGACCATGGATGGCCATGTGCCGTTCGAGGATTCGATGCGCCTGCGCACCCTGATTCTTGGGCAGGTGCCGGTGCCGCGCGTACATGACATCATCGCTGCGGTGCCCATCGCGCAGGAGCTGCAGCGGTTCGTGCGCAAGCATCGCGACCAATGCTTCGTGGTCACTGGCAATCTCGATCTATGGATTGCACCGTTGCTCGATCATCTGGGCTGTGGTGCTTACAGTTCGCGTGCCACGCTGGTCGATGGCATGGTTCGCCTGGAATCCATCCTGTCCAAGGATGCAGCGATCCACGCACTTCGCGCCGAAGGGCGTTTTGACCGCATTATTGCGATCGGCGACGGTGCCAATGATGCCAGCATGCTGCGCGTCGCCGATATCGGCATTGCCTATGGCGGCGTCCACGCGCCTGCCGCTTCGACCATCGAAGTGGCCGACATGATCGTCCATGACCCGGAATCGCTATGTACACTGTTGAGGGCGCTGTAA	MSRTAFCFDLDGTLTTTEILPCIAAELGIAGEIATLTRLTMDGHVPFEDSMRLRTLILGQVPVPRVHDIIAAVPIAQELQRFVRKHRDQCFVVTGNLDLWIAPLLDHLGCGAYSSRATLVDGMVRLESILSKDAAIHALRAEGRFDRIIAIGDGANDASMLRVADIGIAYGGVHAPAASTIEVADMIVHDPESLCTLLRAL				NA	NA	NA	NA	NA
BMS020_06364	753			hypothetical protein	ATGGCAAGAATCCTGGGGAATACTGGAAATGGGGGGGCGCCGGATTTGGATCCGAGCGCGGTTGCGGCCTTCTTCGAGGATCGGGCGCGGCGCGTGGACGAGGTGGGACCCGTCAAGGCCGTGATCTATCAGGACAAGCAGGGTGATCTCGCAGAGCGCCGGGACGCAGCCGAGGTCGAGCGCATTCTGCCGCTGCTTGCCCTGGATGGTGGTCAGTCCCTGCTTGACGTCGGCTGCGGTACCGGTCGCTGGACGCGTCGCGTGCACGGGCTGGTCCGGCGCTATCACGGTATCGACGCCACTGCTGGCCTGTTGGAGCATGCGCGGTCCCAGCACCTGGCGCAGGCGCACTGCCGCTTCACCCGGCTATCCGCCGATGCGCTTTCTGCAGGAACATTGGGTGAGCGTGAATTCGACCGCATTCTGTGTGCGGGAATCTGCATCTATCTCAACGATTCCCAGCTGGTGTCGATGTTTTCCGGTATGGCCGAGGTCGCAGCGCAGCAAGCGCGGATCATTGTGCGCGAGCCGATGGCCATCGAGGCACGGCTCACGCTGCTCGAGCACTACTCCGACGAGCTCGAGCACAGCTACCATGCGATCTACCGTCATCAGGACGAGGTGCAAGCCCTGATGCGTCCTTTGCTGGATGCTGGCTTCCTGCTTGTTGCTCAGGGGGATGTCTACGATGCAGATGGATTGAACAACCGTGCCGAGACACGGCAGCGCTGGCTCTTGCTGGAGCGTGCATGA	MARILGNTGNGGAPDLDPSAVAAFFEDRARRVDEVGPVKAVIYQDKQGDLAERRDAAEVERILPLLALDGGQSLLDVGCGTGRWTRRVHGLVRRYHGIDATAGLLEHARSQHLAQAHCRFTRLSADALSAGTLGEREFDRILCAGICIYLNDSQLVSMFSGMAEVAAQQARIIVREPMAIEARLTLLEHYSDELEHSYHAIYRHQDEVQALMRPLLDAGFLLVAQGDVYDADGLNNRAETRQRWLLLERA				NA	NA	NA	NA	NA
BMS020_06365	1191			hypothetical protein	ATGTTGTCGTGGCAGGTTGCCCGAGCCGCCGCGCAGGCGTTGTGGGCGATCGGCGTCGCGCGGTTGCTTGGGGTTGAGGGATATGGCGCGCTCGCCGGACTCGCCGGATTCGCTACCGCACTGGGGGCGCTTAGCGGTTTGGGCTTCGGACTGACGATGCTGCAAGCGGCGTCCCGGAATCCTGCGGCGCTGCCGTTGCACTGGCGGCGCTCACTTTGGCGCCTGGCTATCAGTGCTGTCGTTCTGGCCTGTATCTATCTGGTGGTTGCCCATTCGTGGCTGCACACTGCGCTGGGGACGGGCGCACTGGCGGCGATCGTCCTGTCCGAGCTGCTGGTCGCTCCACTCACGACGCAGGCAAGCTATGCGTTCCAGTCGCGCGAGCATATGGGGTGGGGCGGGGCGATGTACGCGCTTTCCCCATGCGGCAACGTCCTGTCGTTGCTGGCCTGTCTAGCGTTGCCGGGCGATGTCACACTCGAATCCTATCTGCACTGGCATCTCGCCGGCGCACTGGTGGCCGGAGCGGCGGCGCTTGCTGCGATCGGCTTCCTGCTGCGCCCCGGTTGGGCCTTCGCCCCGGCATGCCGTAGCGACTATCGTGACGCGTCCGGATTCCTGGCGATGCGGATGGTCGATACCGGCCTTGGCACCATCGACAAGAGCTTGGTATTCCGGATGGCGGGCCCCGAGGTGGCTGGCCACTACACGGCCGCGTACCGGCTGGCCGCGTTGATCGCTTTGCCGGCGGTCTCGCTGGCGATTTCCTCGGCCCCAAGACTGTTCCGCCAAGCCGGAGATGCCATGGCACAAAGTCAATTCCTGAGGCGGCTCCTGCGTGCAGGCTTGCTGCTGGGGCTTGCCAGCGTCCCGATCACCTGGGGTGTTTCGTGGCTGTTGCCATGGTTGTTTGGTCGGGAGTTCGACCATGCGGCACATCTTGCGCGTGTGAATGTTCTATTCCCGGCGCTGCTTGGAATGGCGTCGCTTGGCTGTACCATGCTCATGGCTGAAGGGCGCAAGCGTGTGCGTGTGGGGCTGCAGCTGGGGGCGCTAGTGCTGCTCGTGCTGCTCATGTGTTGTTTGGTTCCAGCGGGGGCGGGGGTAGGGGCTGTCCTGGCGCTGGATCTCACCTATCTTCTGCTGGTACTGGGGCTGTGGTGGACGCTTGCGCGTCCCACAGCAGGGTGA	MLSWQVARAAAQALWAIGVARLLGVEGYGALAGLAGFATALGALSGLGFGLTMLQAASRNPAALPLHWRRSLWRLAISAVVLACIYLVVAHSWLHTALGTGALAAIVLSELLVAPLTTQASYAFQSREHMGWGGAMYALSPCGNVLSLLACLALPGDVTLESYLHWHLAGALVAGAAALAAIGFLLRPGWAFAPACRSDYRDASGFLAMRMVDTGLGTIDKSLVFRMAGPEVAGHYTAAYRLAALIALPAVSLAISSAPRLFRQAGDAMAQSQFLRRLLRAGLLLGLASVPITWGVSWLLPWLFGREFDHAAHLARVNVLFPALLGMASLGCTMLMAEGRKRVRVGLQLGALVLLVLLMCCLVPAGAGVGAVLALDLTYLLLVLGLWWTLARPTAG				NA	NA	NA	NA	NA
BMS020_06366	1815			hypothetical protein	ATGAGCCGCGTATCGAATGAACGGTCGGCGTCCCTCAGCTTGTATGCGCTGGCGTTGCTGGTGGTGGCGCTCGTCTACTGGCCGGTGCTGCGCGCTGGATTCGTCTGGGATGATGTGATCGATTTCCAGGAGATGGCGTGGTTAAGGCACGGGGACGCCTGGATCGAGTATTTGTTCCGTGGCTTCAACGGTTGGCAGATCTACTTCCGGCCGCTGGTCGTGGCGTTGTTCACGCTCGAGCTTCGGCTCGGAGAGGGGCTGCCTGGACCGATGCATGCGGTGTCACTGGGGCTGCATCTTGTAAACGTCACGCTGGTCATGGGCTTGGCCAGGCTGGTGATGTGGCGTCAGCGGCGTGTCGTATCCAATGCGGCGTGTGTGCTGGCGGGTCTGCTGTTCGGCCTGCATCCAATTCTCGTTGAGACGGTGACTTGGATCGGATGTCAGTTCGACCTCGTGCAGACGTTGCTCACGCTTGCGGGGTTGTGCCTTGCAGTTTGGCTGCATCACCGTTGGTGGCGCGCCACTGCGTTGGCAGTGTGCTTCCTGCTTGCGGCACTCACGAAGGAATCCGCGGTTTGCTTCCCGGTCCTGCTGGTCATTGTCGATTGGCTGGATCCCGCTTTGGGCGGACCGGGCGATGGTGCTGGTGGTCCACTGGCTAGATTGCGACGATTGCTGGCAGAACATTGGCGCAGCTATATCGCGATCTTGTTGGCCGGCCTCGGCTATCTCGTGCTGAGGCACTGGGCGCTTGGGGGGCAGGTGGTTGCTGGCTTCTCCGTGCCGATGCCCGCTGTCGAGGAGTACCTTCACCGGACCGGATTTCTGTTCCTGCGCTATTGGCAGATGATGTCCGGCGTCGTCGTTGGGTTGAGCCCGATCCATCCATGGGATGCATTCCGTTTCGGTCGGCCTGCGATAGTCGTGGTGCTGTATGTGGTGACCGCTCTTGGGGTTCTGGTGGGCGCCATATGGACTTTGTTGACGCGGCGTTCCTTGTTCGGCGCGCTGGTAGTAGCTGCGAGCGTTTGCCTGCTGCCGGTCATGCAGTTGCTGCCTTCGCGCTTTGACGACAGCCTTTACCATGATCGCTATGCCACGACTGCGTTGGCAATCGCCTGCAGCTTGTTGCCGGCGGCGCTTGCCGGCCTTCCTGCGAGTTTGGTGCGGCGGCGGCTATTCTTGGTGATAGGCGGTGCGATCACTTTGGTCTGGATGGTTGCGGCGATAGTGAATGTCCGCGTGACGATTCCGCTATGGTCCAACAACATCGCGCTATGGGAGTGGGCAGCATCCCGCTATCCGCAGGACGGACTTGCGCAGAACAACCGGCTGAGTGCGTATATCTCCGCTGGTCAAACTGCGAAGGCGTTCGGTGTGATCAGGGAACTTGCCGATCACAACATCGAATGCGACAACTGCGTGCTCAATGCCGCGTTATTGGCATTGCGCGAAGGCGACAACGCTTCCGCCAAGGCGTTGCTGGATCGGGTCGCGAATTCGCCAAGCCTCCGGGATGGACAACTGCGCCTGTTCTATCTGCGCAACCGAGGTCAGTTGGCGCTGCAGACGAATAAGCCCGCAGAAGCTGAAGGCTACTTACGGCAAGTGCTGACTGCTGATCCGATGGAATACAGTGCCCGTTTCTTGCTCGCGGTCAGCCTTGCGCGGCAGGGGCAGCGGGATGAGGCGTGGCGCGAAGGGCGATTGGCTATGGATATGGCGCCACCCGGGCAGGAGCGGCTCAGTCTGGAACGGACATTGAAGGCGGTGATGCCCGGTCCCGAAGATGACAATCCGCATGGCCAGTAG	MSRVSNERSASLSLYALALLVVALVYWPVLRAGFVWDDVIDFQEMAWLRHGDAWIEYLFRGFNGWQIYFRPLVVALFTLELRLGEGLPGPMHAVSLGLHLVNVTLVMGLARLVMWRQRRVVSNAACVLAGLLFGLHPILVETVTWIGCQFDLVQTLLTLAGLCLAVWLHHRWWRATALAVCFLLAALTKESAVCFPVLLVIVDWLDPALGGPGDGAGGPLARLRRLLAEHWRSYIAILLAGLGYLVLRHWALGGQVVAGFSVPMPAVEEYLHRTGFLFLRYWQMMSGVVVGLSPIHPWDAFRFGRPAIVVVLYVVTALGVLVGAIWTLLTRRSLFGALVVAASVCLLPVMQLLPSRFDDSLYHDRYATTALAIACSLLPAALAGLPASLVRRRLFLVIGGAITLVWMVAAIVNVRVTIPLWSNNIALWEWAASRYPQDGLAQNNRLSAYISAGQTAKAFGVIRELADHNIECDNCVLNAALLALREGDNASAKALLDRVANSPSLRDGQLRLFYLRNRGQLALQTNKPAEAEGYLRQVLTADPMEYSARFLLAVSLARQGQRDEAWREGRLAMDMAPPGQERLSLERTLKAVMPGPEDDNPHGQ				NA	NA	NA	NA	NA
BMS020_06367	1872			hypothetical protein	ATGACTCCAAGACTTCTACGTGCGGCAGGGTGGCTGCTGCTGTTCACACTGGTGGCTGCGGTATTCTGGCCAGGGCTGAGCGGCGATTTCATCTTCGACGATTACCCGAACATCGTCACCAATGCACGCGTGCACCTGCAGGCGCTGGATTGGCCGGCTGTGGAAAGGGCTCTCAAGGGCTATGAGCCCGGCAGCATCGGTAGGCCGCTGGCGACGCTGAGCTTCGCGCTCGACTATTACGTTGCAGGCAAGCAGCCCTATCTCTACAAGCTGACCAGTCTCGGCGTGCACTTGCTGAATGCCGGGCTTGTATTTCTGTTGATGTCAAAACTGCTGGCGCTGGCAGGGGCTGGGCGCTGGGCGCGATATGCACCCTGGGCGATTTCATTGTTGTGGGCGGTGCATCCGCTACAAGTGTCCACCGTGCTGTACGTCGTGCAGCGTATGGAAATGCTGGCCCTGAGCTTCGTCCTGCTTGGTTTACTCGCATATCTGCATGCACGCACCGCGGCGATTTCCGAAGCGCGGCAGTGGGGTTGGCTGTTGCTCGCCGGCCTTCTGGCCGCGATGGGGTTGCTCGCGAAGGAGACGGCCGCGCTGTTTCCCTGCTTTACCCTGGCGTTGGAGTTGACCTTGCTTGGCTTTCGGGCACCGCGAGTGACTGCCCGCATGCTTCGCTGGGGCTACGCCATCGGGGCGGCAATTGCGCTGGTCCTGTTCATCGGCTGGATCCTGCCGCGCTATCTGGCGCCTCATGCCTTCGATGCGCGCGATTTCACAGTGGGGCAGCGCGTGCTGACGCAGCTGCGCGTGCTTCCGCTGTATCTGCTGCAGATCGTGTTGCCGTTGCCTGGGTTGATGACGTTTTATTACGACAACTACCCGGTTTCCACCGGGCTGTTGTCGCCAGCGACCACCTTGCTCGGCGGCAGTTCTCTCCTCCTGTTGTTGGGGGCAGCTCTTGCATTGCGCCGCCGCATGCCGGTGTTCAGCCTGGGGCTGATGTGGTTCTTTGCAGCCCATCTGCTGACGAGCAATGTGTTCAACCTCGAATTGGTGTTTGAACATCGCAACTACTTCGCGGTGCTGGGCGTGCTACTTGCCGTAGCCGACGTTGTACGTCGTTCTCCGGTGCCGGAGGGGGGCGGTGTGCGTGCGCTGGTAGTTGGTCTGCTCATCGCCGCTTTCGGAGGGATGGCGATGATCCGTGCCGCGGTTTGGGGAGATCCGCTGCACTTGGCGATGGATCTGGCCGGTAAGAACCCTGGGTCGCCCCGGGCGGCCAGCGACCTCGCGACTTTGTATGTGGGTATGTCTGGAGGCAATCCGAACTCCCCCTTCTATGACTTCGGAAAGCGTGAGTTCCTTCGGGCGGCCGCGCTGCCTGGGGCGTCTGCGCTGCCGGAACAAGGTCTCATCATCATGGCGGCCACCACGGGCGAGACGGTCGACCCAGCCTGGTGGCAAGCAATGTCGCACAAGCTGGCCACCCAGCCGGTATCCATCCAGCAGAGCCTGGCCGTGAGTGGGTTGCTACGGCCGCTGCGTGAGGGGTTGCCGATCGACAGTCGCCGTCTGGTCGATGCGGGCTTGATTCTTGCCAGGCGCAACGGCCTGCCGCCGGAGGCCTTGGCGCAGTTGGGAGACATCGCCCTCAATGAGCTCTCTGATGCGCCAGCAGCGAATTTGCTGTTCGCCAAGGCAATCCAGCGGACTCGCGGGGACGTGCGTTACGCGCGGCGCCTGCTTGCGGTGCTGGAGCAAGATGGGCATGCCGAACAGGCGGCCATCGTCAGGAGCGAGGGGGTCAGGCTTGGATACTGGCCTGCTGCCGATACGGGCGAGGTAAGGAAAGGACAGGATTCGCCATGA	MTPRLLRAAGWLLLFTLVAAVFWPGLSGDFIFDDYPNIVTNARVHLQALDWPAVERALKGYEPGSIGRPLATLSFALDYYVAGKQPYLYKLTSLGVHLLNAGLVFLLMSKLLALAGAGRWARYAPWAISLLWAVHPLQVSTVLYVVQRMEMLALSFVLLGLLAYLHARTAAISEARQWGWLLLAGLLAAMGLLAKETAALFPCFTLALELTLLGFRAPRVTARMLRWGYAIGAAIALVLFIGWILPRYLAPHAFDARDFTVGQRVLTQLRVLPLYLLQIVLPLPGLMTFYYDNYPVSTGLLSPATTLLGGSSLLLLLGAALALRRRMPVFSLGLMWFFAAHLLTSNVFNLELVFEHRNYFAVLGVLLAVADVVRRSPVPEGGGVRALVVGLLIAAFGGMAMIRAAVWGDPLHLAMDLAGKNPGSPRAASDLATLYVGMSGGNPNSPFYDFGKREFLRAAALPGASALPEQGLIIMAATTGETVDPAWWQAMSHKLATQPVSIQQSLAVSGLLRPLREGLPIDSRRLVDAGLILARRNGLPPEALAQLGDIALNELSDAPAANLLFAKAIQRTRGDVRYARRLLAVLEQDGHAEQAAIVRSEGVRLGYWPAADTGEVRKGQDSP				NA	NA	NA	NA	NA
BMS020_06368	405	pilA_1	COG4969	Fimbrial protein	ATGCGCAGGGCCCAGGGTTTCACGCTGATCGAATTGATGATCGTCGTCGCGATCATCGCCATTCTGGTGGCCATCGCCTTGCCGATGTACCAGGACTACGTGGCGCGGTCGCAGGCAACGGCAGGGCTTGCCGACATTGCGCCGGGACGAACGACGTTTGAGGCCAAGCTGGTTGCCGAAGGGACCACCAGCTTCGATGTCGGCGATATCGGCCTGAAGGCTTCAACGGCCCGTTGCAGTTCGATCAGCATGAATGCGTCGGATACCGGTTTTATCGCCTGTGAACTGAGTGGTAATCCCAAGGTGGCGGGCAAGACGCTGCAGCTCAACCGCACGTCCAGCGGTGTGTGGAGTTGCGATGCCAGTGAGTTGGATGCGAAATATCGACCCGAAGGGTGCGGCTGA	MRRAQGFTLIELMIVVAIIAILVAIALPMYQDYVARSQATAGLADIAPGRTTFEAKLVAEGTTSFDVGDIGLKASTARCSSISMNASDTGFIACELSGNPKVAGKTLQLNRTSSGVWSCDASELDAKYRPEGCG	PGPT0015905_2248	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015905-pilA-K02650	NA	NA
BMS020_06369	417	pilA_2		Fimbrial protein	ATGAAGAAGCAGCAAGGTTTCACGCTGATCGAACTGATGATCGTGGTCGCGATCATCGCCATCCTGGCCGCCATCGCGCTGCCGATGTATCAGGACTACGTGGCCCGTTCGCAGGTCACCGCCGGCCTGGCCGATATCCGTGGCGGCGTGACCGCGTTTGAAGAAACCATCCAGCGTGGTAGCTCGGGTGATGCGAGTGCCGACAATATCGGCCTGCAGAGTTCTACCTCTCGTTGTGATATCGAAGCAGATGGTTCATTCAGTGAAGAGAGTGGTCAGACGATTACCTGCACCTTGAACGGTAACCCCAAGGTGAGCGGTTCGTCCGTCGTTCTTACTCGTGGTGTTTCGGGTAATTGGGATTGCAGCACCAATGTCGATGCAAAGTATGCTCCGACCGGTTGCTCTACCAATTAA	MKKQQGFTLIELMIVVAIIAILAAIALPMYQDYVARSQVTAGLADIRGGVTAFEETIQRGSSGDASADNIGLQSSTSRCDIEADGSFSEESGQTITCTLNGNPKVSGSSVVLTRGVSGNWDCSTNVDAKYAPTGCSTN	PGPT0015905_2105	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015905-pilA-K02650	NA	NA
BMS020_06370	1305	epsF_2	COG1459	Type II secretion system protein F	ATGAGACAGATTCCGGCCCGGGGATGGCTGGACGGGGATAACGACATGTCTGCAAGCCGCAGTGCGATCAAGAACCAACCGGTGTCGCGCGACACCAACCAGTTGCTGCCGTTTGTCTGGGAGGGGACCGACAAGCGCGGCACCAAGATGAAGGGGGAGCAGTCCGCCCGCAGCGCTAACATGCTCCGCGCCGAGCTGCGCAAGCAGGGCATCAACCCCAGCGTGGTCAAGCCCAAGCCCAAGCCGCTGTTCGGCGCGGCGGGCAAGAAGATCACGCCGAAGGAAATCGCCTTCTTCAGCCGCCAGATGGCGACGATGATGAAATCGGGCGTGCCGATCGTCGGCTCGCTGGAGATCATTGGCGGCGGGCACAAGAACCCGCGCATGAAGAAGATGGTTGGTGAGATCCGCACCGACATCGAGGGCGGCTCCTCGCTGTACGAAGCCGTCAGCAAGCATCCGGTGCAGTTCGACGAGCTGTACCGAAATCTGGTCAAGGCCGGCGAAGGCGCCGGCGTACTGGAAACCGTGCTGGATACGGTCGCCACCTACAAGGAAAACATCGAGACCCTGAAGGGCAAGATCAAGAAGGCCTTGTTCTACCCGGCAGCAGTCATGGCCGTGGCGATCCTGGTCAGCTCGATCCTGCTGATCTGGGTGGTCCCCCAGTTCGAGGATGTCTTCAAGGGCTTCGGCGCGGAACTCCCTGCATTCACCCAGCTGATCGTTTCCGCCTCTCGCTTCCTGGTTTCCTGGTGGCTGGTGATGCTGGTCGGCTCGGTCGGCGCTGTGTTCGGCTTCATTTATGCCTACAAGCGCTCGGCGCGCATGCAGCATGCACTCGACCGCCTGATCCTCAAAGTCCCGGTGATCGGCCAGATCATGCACAACAGCGCGATCGCCCGCTTCGCACGCACCACTGCGGTCACATTCCGCGCCGGCGTGCCGCTGGTGGAAGCGCTCGGCATCGTCGCCGGCGCCACCGGCAACAAGATCTACGAGGAGGCCGTTCTGCGCATGCGCGACGACGTCTCGGTCGGCTACCCGGTCAACATGGCGATGAAGCAGGTCAACCTGTTCCCGCACATGGTGATCCAGATGACCGCGATCGGCGAGGAAGCCGGCGCACTCGACTCCATGCTGTTCAAGGTCGCCGAATACTACGAGCAGGAAGTGAACAACGCGGTCGACGCGTTGAGCAGCCTGCTGGAACCGATGATCATGGTCTTCATCGGCACCATCGTCGGCGGCATGGTGGTCGGCATGTACCTGCCGATCTTCAAACTCGCTTCAACTGTTGGATAA	MRQIPARGWLDGDNDMSASRSAIKNQPVSRDTNQLLPFVWEGTDKRGTKMKGEQSARSANMLRAELRKQGINPSVVKPKPKPLFGAAGKKITPKEIAFFSRQMATMMKSGVPIVGSLEIIGGGHKNPRMKKMVGEIRTDIEGGSSLYEAVSKHPVQFDELYRNLVKAGEGAGVLETVLDTVATYKENIETLKGKIKKALFYPAAVMAVAILVSSILLIWVVPQFEDVFKGFGAELPAFTQLIVSASRFLVSWWLVMLVGSVGAVFGFIYAYKRSARMQHALDRLILKVPVIGQIMHNSAIARFARTTAVTFRAGVPLVEALGIVAGATGNKIYEEAVLRMRDDVSVGYPVNMAMKQVNLFPHMVIQMTAIGEEAGALDSMLFKVAEYYEQEVNNAVDALSSLLEPMIMVFIGTIVGGMVVGMYLPIFKLASTVG	PGPT0015920_248	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015920-pilC-K02653	NA	NA
BMS020_06371	864	outO_2		Type 4 prepilin-like proteins leader peptide-processing enzyme	ATGGCATTTCTCGACCAGCATCCCGGCCTCGGCTTTCCCGCCGCGGCCGGGCTCGGGCTGCTGCTGGGCAGTTTTCTCAATGTGGTGATCCTGCGCCTGCCAAGGCGCATGGAGTGGCAGTGGAAGCGCGATGCGCGCGAGATCCTGGAGATGCCCGACATCTACGAGCCGCCGCCGCCGGGGATCGTGGTCGAGCCATCGCACTGCCCGCACTGCAAGCACAAGCTGTCCTGGTACGAGAACATCCCCCTGGTCAGCTGGCTGATCCAGGGCGGCAAGTGCCGGCACTGCGCCGCACCGATCTCGATGCAGTATCCGCTTGTCGAGCTGATCACCTCGCTGTTGGTCGTCGCCAGCGTCTGGCGCTTCGGTTTCGGCTGGCAGGGCTTTGGCGCGATCGTGCTGAGCTGCTTCCTGGTGGCACTGTCGGGCATCGACCTGCGCACCCGGCTGTTGCCTGACCAGCTCACCCTGCCATTGATGTGGCTGGGTCTGATCGGCTCGATGGACAACCTCTACATGCACGCCAAGCCGGCACTGCTGGGTGCGGCAGTGGGCTACTTCTCGCTGTGGGCGGTGTGGTGGCTGTTCAAACAGCTGACCGGCAAGGAAGGCATGGGCCACGGCGACTTCAAACTACTAGCCGCACTGGGCGCCTGGTGCGGTCTAAAGGGCGTGCTGCCGATCATCCTGATCTCCTCGCTGGTCGGCGCGGTGATCGGCTCGATCTGGCTGGCCGCCAAGGGCCGCGATCGCGCCACGCCGATCCCGTTCGGCCCCTACCTCGCCATCGCCGGCTGGATCGTATTCTTCTGGGGCGACCAGCTCATCGGCGGCTACATGCGATTGGCCGGCCTGGGCTGA	MAFLDQHPGLGFPAAAGLGLLLGSFLNVVILRLPRRMEWQWKRDAREILEMPDIYEPPPPGIVVEPSHCPHCKHKLSWYENIPLVSWLIQGGKCRHCAAPISMQYPLVELITSLLVVASVWRFGFGWQGFGAIVLSCFLVALSGIDLRTRLLPDQLTLPLMWLGLIGSMDNLYMHAKPALLGAAVGYFSLWAVWWLFKQLTGKEGMGHGDFKLLAALGAWCGLKGVLPIILISSLVGAVIGSIWLAAKGRDRATPIPFGPYLAIAGWIVFFWGDQLIGGYMRLAGLG	PGPT0015925_833	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015925-pilD-K02654	NA	NA
BMS020_06372	630	coaE_2	COG0237	Dephospho-CoA kinase	GTGAGCGACTACGTGGTCGGGCTGACCGGCGGCATCGCGTCCGGCAAGAGCGCTCTTTCGCGTGAATTCGAGGCACTTGGCGTTCGCGTCATCGACGCAGACCAGGTGGCCCGTGACATCGTCGCCGCCGGGCCTGTACTGGACCGCATCGCTAGCCGTTTCGGCAGCGGCATCCTTCTCCCTGACGGGCAGCTCGACCGCGCTGCGTTGCGGCGCCACATCTTCGGCGATCCCACCGCTCGCCACGACCTCGAGGCCATCACCCACCCTGCAATCCGCGAGGAGCTGCGGCGCGCCTGTGCGGCTGCGCCGGGCGCCTACGCAGTCGCGGCGATTCCACTGCTGGCCGAAGCGGGCCGCACCGCCTATCCGTGGATCGACCACATCCTGGTCGTGGACGCGCCGCGCGACCTGCAGCATGCGCGCCTGGTCACGCGCGATGGCATCGATGCCGAGCTGGCCGATCGCATGATCGATGCACAGGCCAGTCGCGAACAACGCCTGATGCTCGCCGACGACGTGGTCGTCAATCGCGGCGCACCTGACGCGTTGGCAGCGGAAGCGCGACGACTGCATGCGGACTACCTGGCGCGGGCCGCGCGCAAGTCGCAGAACACCGACGGCGCCTGA	MSDYVVGLTGGIASGKSALSREFEALGVRVIDADQVARDIVAAGPVLDRIASRFGSGILLPDGQLDRAALRRHIFGDPTARHDLEAITHPAIREELRRACAAAPGAYAVAAIPLLAEAGRTAYPWIDHILVVDAPRDLQHARLVTRDGIDAELADRMIDAQASREQRLMLADDVVVNRGAPDALAAEARRLHADYLARAARKSQNTDGA	PGPT0008835_2614	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
BMS020_06373	1338	sasA_12		Adaptive-response sensory-kinase SasA	ATGCCTGAGCGTCGTGCCGCGGCGCCGCCTGCGCGCAAGCGCGGGCGTTATCGGCGCCGCCTGCGCAGCCGCATCATCCTGTCCTTCCTGCTGTTGGGCTTCTGCCTGACCACCCTGTTCGCGTTTGCCACCAATTGGGCGCGCATGCGGGTGGAGAACCAGTTGGTCGAGGATGTGATGAACCGCAATCTCGATGCGTCCTGGCAGAGCTATATCGAGAGTGGCGGGCGCGACGTGGTGGCGCCGGTGCAGCAGATGCGTGCGTTCCTGTTCCGGCCCGACAAGCTCGAAGGCCTGCGACGGGACTACCCGGAGTGGGAGCGCCTCGACGACGGCATCCACACGCTCAGCGGCGAGGATGCCGAGGGGCATGCGTTCTCCTACAAGGTGGGCGTGCGCAAGACGCCCGATGCCTGGTTCTTCATCGCCTACGACATGGGGCAGGCGATGCGCGGCGAGCAGCAGCTCAAGCGCTGGCTGTACCTGGCTGTGCTGGTGTTCAGTGCGCTGTCGTTGGTGATCGGCTGGTGGTCGGCATCGAAAGTGATGCGGCCGGTGTCCGACCTCGCCGCGCGACTGCGCGCCTACCGCGGCGGCACCAGCGAGCCCAAGCCGTTGGCGCCGAGCTTTCCCGACGATGAGGTCGGCCAGTTGGCCGAGGCGCTGGACGACTATTCGGCGCGGCTGACCGAGGTGGTGCAGCGCGATCGTGAATTCAATGCGGACGTCAGTCACGAACTGCGCACGCCGTTGGCGGTGATCCGTGGCGCCACCGAGCTGCTGCTGACCCGTCCCAACCTGGACGAGAAGGTGCTGCAGCGCCTGCAGCGCATCCAGCGCGCCGAGCAGCAGTGCAGCGACCTGATCGGCGCACTGCTGCTGTTGTCGCGCAACGAACGCGGGCAGGGCAACAGCAATGTCGCACGCGTGGCCGAGCAACTGCTGGATGCGCACCGTGCCCAGCTCGGCGGCAAGCCGCTGGAGCTGTTGTTGCAGGGTGGACGCGATCTGGTGATCGATGCGCCGGAGTCGGCGTTGTCGGTGGCGCTGGGCAACCTGATCGGCAATGCGGTCAAGTACACGCAGGACGGGCAGGTCAGGGTGGTTGTACTCGACGATGCGGTCGAGGTCGTCGACTCCGGACCGGGCCTGAGCGAGGAGGATGCCGCCAAGTTGTTCCAGCGCGGCTACCGCGGCACGCATGCCGGACATTCGCAAGGCGGTGGGATCGGGTTGTCGATCGTCAGTCGCCTGTGTGATCTCTATGGCTGGCAGGTCAGCGTGCGGCCCGGCGAGGAGCGCGGTGTGGTCGCTACGCTGCGTTTCGTGCGTGCCTAG	MPERRAAAPPARKRGRYRRRLRSRIILSFLLLGFCLTTLFAFATNWARMRVENQLVEDVMNRNLDASWQSYIESGGRDVVAPVQQMRAFLFRPDKLEGLRRDYPEWERLDDGIHTLSGEDAEGHAFSYKVGVRKTPDAWFFIAYDMGQAMRGEQQLKRWLYLAVLVFSALSLVIGWWSASKVMRPVSDLAARLRAYRGGTSEPKPLAPSFPDDEVGQLAEALDDYSARLTEVVQRDREFNADVSHELRTPLAVIRGATELLLTRPNLDEKVLQRLQRIQRAEQQCSDLIGALLLLSRNERGQGNSNVARVAEQLLDAHRAQLGGKPLELLLQGGRDLVIDAPESALSVALGNLIGNAVKYTQDGQVRVVVLDDAVEVVDSGPGLSEEDAAKLFQRGYRGTHAGHSQGGGIGLSIVSRLCDLYGWQVSVRPGEERGVVATLRFVRA				NA	NA	NA	NA	NA
BMS020_06374	678	tcrA	COG0745	Transcriptional regulatory protein TcrA	GTGCGTATTCTGGTAATCGAAGACAACAGCGACATCGCGGCCAACCTCGGGGACTACCTCGAGGACCGCGGGCATACGGTGGATTTCGCCGCCGACGGCGTCACCGGCCTGCACCTGGCCGTGGTCCATGAGTTCGACGCCATCGTGCTCGACCTCAACCTGCCGGGCATGGACGGCATCGAGGTCTGCCGCAAGCTGCGCAACGAAGCGCGCAAGCAGACCCCGGTGCTGATGCTGACCGCGCGCGATTCGCTGGACAACAAGCTGGCCGGGTTCGACTCCGGTGCGGACGATTACCTGATCAAGCCGTTCGCGCTGCAGGAAGTCGAGGTCCGTCTCAATGCGCTGTCGCGTCGCGGCAAGGGTGTGCATACGCGGGTGCTGGAAACCGGCGACCTGGAGTACAACCTCGACACGCTGGAAGTGCGTCGTCGCGGCAAGTTGCTGCAGCTCAATCCGACCGCGCTGAAGATCCTGCAGGCATTGATGGAGGCTGCTCCGGCAGTCGTCACCCGCCAGGAACTGGAAACCCGGGTGTGGGGCGAGGAGCTGCCCGATTCGGATTCGCTGCGCGTGCATATCCATGGCCTGCGTGCGGTGGTCGACAAGCCGTTTGACGTGCCGCTGATCCAGACCCGCCACGGTATCGGTTACCGGATCGCCGCACCCGATGCCTGA	MRILVIEDNSDIAANLGDYLEDRGHTVDFAADGVTGLHLAVVHEFDAIVLDLNLPGMDGIEVCRKLRNEARKQTPVLMLTARDSLDNKLAGFDSGADDYLIKPFALQEVEVRLNALSRRGKGVHTRVLETGDLEYNLDTLEVRRRGKLLQLNPTALKILQALMEAAPAVVTRQELETRVWGEELPDSDSLRVHIHGLRAVVDKPFDVPLIQTRHGIGYRIAAPDA	PGPT0003915_719	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
BMS020_06375	474			hypothetical protein	ATGCGTATCAATGGAATGATGTTGGCGACGATGATCGTGGTGGGGATGGCGCCGTTTGCCGCCAGCGCCATGCCCAAGAGTGATGGGCTGGATGTGCGCAAGCCGGCTGCGGTGCAGTTCGCGACGATCCGCAGCGAGCTGGGGGACGGCAAGACCTTTTCCGAAATCTCGCTGGATGACCGCAGCAAGGTTCAGGTTGCGCTTGCGAGGATGGAGCGCACCATGAACGGGCGTAGCGTCGAACAGTTGAACGAGGATGAGAGGTTGGCGGTCTTCAACGACCAGGAGCTGGTCAATGGCGTGCTGACCAAGGCGCGAGAGGACAGTCGCATGGTGTGTCGGCGGGAAAAGACGCTGGGCTCCCATATGCCGACCAACCAGTGCATGACCGTGGCAGAGCGCCGGCGTCAGACCGATGTCCAGCAGCGCCAGTTCATGGACATGCGCAGGACCGGGCGCGCGACTGCCAATTGA	MRINGMMLATMIVVGMAPFAASAMPKSDGLDVRKPAAVQFATIRSELGDGKTFSEISLDDRSKVQVALARMERTMNGRSVEQLNEDERLAVFNDQELVNGVLTKAREDSRMVCRREKTLGSHMPTNQCMTVAERRRQTDVQQRQFMDMRRTGRATAN				NA	NA	NA	NA	NA
BMS020_06376	885	rimK_2	COG0189	Ribosomal protein S6--L-glutamate ligase	ATGAAGCTCGCCATCCTGTCCCGCAACAGCAAGCTCTATTCCACCCGGCGACTGATCGAGGCAGGGCGTGCCCGCGGCCATACCGTGCGCGTGCTGGATCCGTTGCGCTGCTACATGCGCATCGCCGCCGACGGCTTTTCGATGCACTACAAGGGCAAGCCGTTGACCGGTTACGACGCGGTGATCCCGCGCATCGGCGCCTCGGTAACCCGCTACGCCACCGCGGTGCTGCGCCAGTTCGAGCTGATGGGCGTGCACACCCCCAATCCCTCCGACGCGATCCTGCGATCACGTGACAAGCTGCGCGCGCACCAGTTGCTGGCCGCGCAGGGCATCGACATGCCGGCGACGGTGTTCGGCGACAACCCGGACGACACCCTGGACCTGCTGTCGATGCTGGGCCCGCCGCCGCATGTGGTGAAGCTCAACGAGGGCGCGCAGGGCGCCGGGGTGATCCTCACCGAGAAGGCCAGTGCCTCGCGCGGGGTGGTCGAAGCGTTGCGCGGGCTCTACGCCAACTTCCTGGTGCAGGAGTTCATCGGCGAGGCCGAGGGCGCCGACCTGCGCTGCTTCGTGGTCGGCGACCGCGTGGTCGCGGCGATGCGCCGGCAGGCCTGCGAGGGCGACTTCCGCTCCAACCTGCACCTGGGCGGCAGCGCCGAGGCGGCGGAGGCGACCGAACAGGAACGGGCGGTGGCGGTGGCCTCTGCGCGTGCGCTGGGCCTGGGGGTGGCCGGGGTCGACCTGATCCGGTCCGCCCGCGGTCCCTTGGTGCTCGAAGTGAATTCGACGCCGGGGCTGGAGGGCATCGAGGGGGCCTGTGGGGTGGATGTGGCCAGGGAGATCGTTATGTCTGTTGAAAACTCTTTGAAATCAATGCGTTGA	MKLAILSRNSKLYSTRRLIEAGRARGHTVRVLDPLRCYMRIAADGFSMHYKGKPLTGYDAVIPRIGASVTRYATAVLRQFELMGVHTPNPSDAILRSRDKLRAHQLLAAQGIDMPATVFGDNPDDTLDLLSMLGPPPHVVKLNEGAQGAGVILTEKASASRGVVEALRGLYANFLVQEFIGEAEGADLRCFVVGDRVVAAMRRQACEGDFRSNLHLGGSAEAAEATEQERAVAVASARALGLGVAGVDLIRSARGPLVLEVNSTPGLEGIEGACGVDVAREIVMSVENSLKSMR				NA	NA	NA	NA	NA
BMS020_06378	1824	estA	COG3240	Esterase EstA	ATGGTTTCACCGCTCCGTCCGCTCCGTTCCGCGATGGCCGTCGCCATCGCCCTGGCCGCCGCCCCGGCCTTCGCCGACTCCACGTTCGACCAGACCGTTTTCTTCGGCGACAGCCTGACCGACAGCGGCTACTTCCAGGCGGTGTTGCCGTCCTCGGTGCAGGCCGTCACCGGCCGCTTCACCACCAACCCGGGTTGGACCTGGGCCGAGTACCTGGCCGACTACTACGGCACCAACGCCACCCCGAACGGCCTCGGCCGCGATGGTGACAACTACGCCATCGGCGGTGCCCGCGTCGGCGTGGATTCGAGCCAGACCATCCTCGGCACCACCGTGCCGGTCAGCTCGCTTGCCACCCAGGTCAGCACCTACCTGGCCAGCACCGGCGGCAGCGCCAACCCGAACGCGCTGTACACGGTGTGGGGCGGCGCCAACGACCTGTTCGCCGTTGCCGCCGGCGCCGATGCGCAGACCACGATCGGCAGCGCGGTCACCGCCCAGGTCGGCATCGTCGCGACGCTGGAGAATGCCGGTGCGCGCTACGTGCTGGTGCCGACGATCCCGGACATCGGCCTGACCCCGAGCTTCAACGGCAGCGCCGTGACCAGCGCCACGGCGACCCAGCTGGCGACGGCCTACAACACCGCGCTGTTCACCGGTCTGAAGAGCGCCGGGCTGCGGGTGATCCCGGTCGACACCTTCACCCTGCTGCAGGAAGTGGTCGCCGATCCGACCGCCTACGGCTTCACCAATGCCACCGACGCGGCCTGCACCACCGCCTCGTCGCTGACCTGCAATCCGACCAGCCTGGTCAGCGCCGACGCGGCGACGAGCTACGTGTTCGCCGACGGCGTGCATCCGAGCACCGCCACCCACCAGATCCTGGCGCAGTACGCGCTGTCGATCATCGAGGCGCCGCGCCTGCAGCAGGTGCTCAGCCATTCGGCGCAGTCGACCGGCCGGGCCCGGGCCGACCAGGTCGCCTGGCACCTCGACGGTCGCCCGGAAGGCGAGGGTGCGCGCTGGTGGGGCAGCATCCGTGGCGACATGCAGCGCTACGATCATGCCGACCTGTACGACGGCATCGCGCCGGCCGGCCTGTTCGGCGTCGACTGGAGCCGCGGTGACCTGGTGTTCGGCGGGTTCGCCGGCTATGGCCGCATGGACGCCGACTTCGGCCAGAGCCGTGGCGACTTCACCCAGGACGACACCACCCTGGGTGGCTTCTTCGGCTGGTACACCGGCCCGGTCTGGGTCAACGCGCAGCTGAGCTACACCTGGCTGGGCTACGACGTGCACCGCAAGGTGCAGCTGGGTGCGGCCACCCGCGAGCATGATGGCTCGCCGGACGGCAGTAATCTGACCGCGGCGATCAATGCCGGCTACGAGATGGGCGAGGGCGCCTTCAAGCAGGGCCCGGTGGTCGGCGTGACCTGGCAGAAGACCAAGCTCGACGGTTACGAGGAGAGCAACTCCAGCTCGACCGCGCTCGGTTACGGCGACCAGGACGTGGATTCGCTGGTCGGCCGCATCGGCTGGCAGGCCCGCATCGACGGCAGCGCGCTGCTGAAGCCGTACCTGCAGGTCACCTACGACCACGAGTTCAAGGACGGCCAGGAAGCCAGCGCGTGGCTGCAGTCGATGCCGGACGTCGGCACCTACTACGTGCCTGGCCTGGACCTGGATCGCAACTACGCCACCGTGGTGCTGGGGGCCCGGGCCACCATTGCCGGCCTGCAGAGCAACGTCGGCGTGACCACGACGACCGCGCAGAAGGGCGCCCGCGACGCCACCGTGTTCGTGAACTTCGGCGGCAGTTTCTGA	MVSPLRPLRSAMAVAIALAAAPAFADSTFDQTVFFGDSLTDSGYFQAVLPSSVQAVTGRFTTNPGWTWAEYLADYYGTNATPNGLGRDGDNYAIGGARVGVDSSQTILGTTVPVSSLATQVSTYLASTGGSANPNALYTVWGGANDLFAVAAGADAQTTIGSAVTAQVGIVATLENAGARYVLVPTIPDIGLTPSFNGSAVTSATATQLATAYNTALFTGLKSAGLRVIPVDTFTLLQEVVADPTAYGFTNATDAACTTASSLTCNPTSLVSADAATSYVFADGVHPSTATHQILAQYALSIIEAPRLQQVLSHSAQSTGRARADQVAWHLDGRPEGEGARWWGSIRGDMQRYDHADLYDGIAPAGLFGVDWSRGDLVFGGFAGYGRMDADFGQSRGDFTQDDTTLGGFFGWYTGPVWVNAQLSYTWLGYDVHRKVQLGAATREHDGSPDGSNLTAAINAGYEMGEGAFKQGPVVGVTWQKTKLDGYEESNSSSTALGYGDQDVDSLVGRIGWQARIDGSALLKPYLQVTYDHEFKDGQEASAWLQSMPDVGTYYVPGLDLDRNYATVVLGARATIAGLQSNVGVTTTTAQKGARDATVFVNFGGSF	PGPT0023515_334	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5a_AUTOTRANSPORTER_SECRETION,PGPT0023515-apeE|estA|lip_1-K12686	NA	NA
BMS020_06379	735	trmB_2	COG0220	tRNA (guanine-N(7)-)-methyltransferase	ATGACCGATCCGTTCAACAGCGACGGCGCCAAGGTGCCGCCCAAGCCCTTCACGGTGACCGAAGGCCACCGCGCAGTCCGCAGCTTCGTGCTGCGCCAGGGTCGCTTCACCCCGGCCCAGCAGCGCGCGTTCGACGAGCGCTGGCCGCGTTTCGGCCTGGACTACAGCGGGCAGGTCCGCGATCTCGATGCCACCTTCGGCCGCGACGCGCACAAGGTGCTGGAGATCGGCTTCGGCAACGGCGCCGCGCTGCGATTCGCCGCGCAGCAGGATCCGTCGCGCGACTACATCGGCGTGGAGGTGCACGCACCGGGCGTCGGCCGGCTGCTCAACGCGCTGGCCGATGACAACGCCGACCATGTCCGCCTGTACCACCACGACGCGGTGGAAGTGCTGACCCACGAGATCGCCGACGGCGCGCTCGACGAAGTCCGCATCTACTTCCCCGATCCATGGCACAAGAAGCGCCACAACAAGCGGCGGCTGATCCAGCCCGAATTCGCCGACCTGCTGGTGCGCAAGCTGCGCAGCGGCGGCCGCCTGCACGCGGCCACCGACTGGGAGCATTACGCCGAACAGATGTGGGACGTGCTCGATGCCACCGCCGGCCTCAGCAACCGCGCCGGCCCGCGTGGCAGCGTGCCGCGCCCGGAATGGCGCCCGCAGACCCACTTCGAGACCCGCGGGCAGAAACTCGGCCACGGCGTCTGGGACCTGCTGTACGACCGGCAGTAA	MTDPFNSDGAKVPPKPFTVTEGHRAVRSFVLRQGRFTPAQQRAFDERWPRFGLDYSGQVRDLDATFGRDAHKVLEIGFGNGAALRFAAQQDPSRDYIGVEVHAPGVGRLLNALADDNADHVRLYHHDAVEVLTHEIADGALDEVRIYFPDPWHKKRHNKRRLIQPEFADLLVRKLRSGGRLHAATDWEHYAEQMWDVLDATAGLSNRAGPRGSVPRPEWRPQTHFETRGQKLGHGVWDLLYDRQ				NA	NA	NA	NA	NA
BMS020_06380	1860			hypothetical protein	ATGGATTCCGCGCTGACGCTGACCAACGACATGCGGCTCGTGCTCGGGCTGGTCGGCTTCACGATGGCGATGTTCCTGTTCGAGCGCATCCGCGCCGACGTGGTCGCGCTGATCGTGCTGGTGGTGTTGGGCGTGACCGGGCTGATCGCGCCGGAGGAGATCTTCGGCGGCTTCTCCGGCAACGCGGTGATGAGCATCATCGCCACCACCATCCTCGGCGCCGGTCTGGAGCGCACCGGCGCACTGAACCGGCTGGCGGCCTGGCTGCTGCGGCGTTCGCACGGCAAGGAAAACCGGCTGATGATGCTGACGCTGGGCATCTCCGGGCTCAATTCCTCCTTCATGCAGAACCCGTCGGTGATGGCGCTGTACCTGCCGGTCGCCTCGCGCCTGGCCGCGCGCACCGGGCTCACCCTGCAACGGCTGCTGCTGCCGATCGCCGCGGCGATCGTGATGGGCGGCGCGCTGACGATGGTCGGCAACTCGCCGCTGATCCTGCTCAACGACCTGCTGGTCTCGGCCAACAACAACCTGCCCTCGGGCATGGCGACGATCGAGCCGCTGGGCATGTTCGCGCCGCTGCCGATCGGCGTGGCGCTGCTGCTGGCGGCGCTGGCGTACTTCCGCTTCTACGGCGACCGGCGCCTGATCGAGGAGGAAACGCTGGCCAACGACGGGGTGACCCCGGCGCGCACCGAAAGCTACTTCGCCAAGACCTACGGCATCGAGGGCGACGTGTTCGAGCTGGTGGTCAGCGCCGAAAGCCCGATGGTCGGCATGACCCTGGGCGAAGCCGAGAACGTGCACAACGCGCCGCTGCTGCTGGCGTTGAAGACCGGCAACGACACCCGGCTGGCGCCGCCGGCCGACATGCGGATCTGGGTCGGCAGCGTGCTCGGGGTGATGGGCGCGCGCCAGGACGTGGCCGACTTCGCCCAGAACCAGTTCCTGCGCATGTCCTCGCGGCTGCGCAATCTCGGCGACCTGTTCAATCCGGCCCGGGCCGGCATCTCCGAGGCGTTGATCCCGCCGAACTCGCGCTTCATCGGCAAGTCCGCCGCCGAGCTGCGCCTGCGCAAGCAGGCCGGCATCAGCCTGCTGGCGATCAACCGCGACAAGCAGGTGATCCGCGAGGACGTGCGCAAGGTGCCGCTGCGCGCCGGCGACATGCTGGTGTTCCACAGCATCTGGCAGGACCTGGCGCAGGCCGCCGAGAGCCGCGACTTCGTCCCGGTCACCGACTACCCCAAGGGCGAGCAGCGCCCGCACAAGTTCAAGATCGCGATGGCGATCTTCGCGCTGACCATCCTGATCGCGCTGACGTCCAAGCTGCCGGTGGCGCTGACGCTGATGACCGGCGTGGCCTTCATGCTGGTCACCGGCGTGCTGCGCATGGACGAGGCGTATGCGTCGATCAACTGGAAGACCGTCTTCATGATGGCCGGGCTGATCCCGCTGGGCTGGGCGATGGACAGCAGCGGCACCGCCGCCTGGGTCGCCGGCCACACCATCGACCGGCTGCCGCAAGGCATCCCGGTGTGGGCACTGGAACTGGCGCTGGCGCTGCTGACCACGGCGTTCTCGCTGGTCATCAGCCATGTCGGCGCCACCATCGTGATGGTGCCGATCGCGGTGAACCTGGCGCTGGCGGCCGGCGGCAATCCCACCGCGTTCGCGCTGATCGTGGCGCTGTCGGCGTCCAACAACCTGATGACCGCGTCCAACCCGGTGATCTCGATGATCACCGGCCCGGCCAACTACCAGCCGCGCGAGCTATGGCGGGTCGGCGCGCCGCTGTGCGTGATCTACCTGCTGCTGATGGTGCTGACGGTCAACCTGCTGTTCTGGTGGCGCGGCTGA	MDSALTLTNDMRLVLGLVGFTMAMFLFERIRADVVALIVLVVLGVTGLIAPEEIFGGFSGNAVMSIIATTILGAGLERTGALNRLAAWLLRRSHGKENRLMMLTLGISGLNSSFMQNPSVMALYLPVASRLAARTGLTLQRLLLPIAAAIVMGGALTMVGNSPLILLNDLLVSANNNLPSGMATIEPLGMFAPLPIGVALLLAALAYFRFYGDRRLIEEETLANDGVTPARTESYFAKTYGIEGDVFELVVSAESPMVGMTLGEAENVHNAPLLLALKTGNDTRLAPPADMRIWVGSVLGVMGARQDVADFAQNQFLRMSSRLRNLGDLFNPARAGISEALIPPNSRFIGKSAAELRLRKQAGISLLAINRDKQVIREDVRKVPLRAGDMLVFHSIWQDLAQAAESRDFVPVTDYPKGEQRPHKFKIAMAIFALTILIALTSKLPVALTLMTGVAFMLVTGVLRMDEAYASINWKTVFMMAGLIPLGWAMDSSGTAAWVAGHTIDRLPQGIPVWALELALALLTTAFSLVISHVGATIVMVPIAVNLALAAGGNPTAFALIVALSASNNLMTASNPVISMITGPANYQPRELWRVGAPLCVIYLLLMVLTVNLLFWWRG				NA	NA	NA	NA	NA
BMS020_06381	345			hypothetical protein	GTGACCTCTTCCGAACCCTCCGTGCTGGCACGGCTGCAGCAGATTCCCGACCAGGGCTTCCTCGAGGTGGAGGCGGCGCTGCCCGGCGGCAGCGAGTCGCTGGTGCTGTATCGCGATGGCGCGCAGGTGCGTGGCTGGCTCAACGTCTGCCCGCACGCCGGCCGTCGCCTGGATTGGGCGCCGGGGCAGTTCCTCAAGAGCCGCGAAGGCCATCTCGTCTGCGCCGCGCATGGCGCCAGTTTCTCGCTGGACGACGGCAGTTGCGTGGCCGGTCCGTGCCGCGGCGAGCGCCTGCTGGCAATCGCAGTGCAGGTCAGCGATGACGAGGTGCGGCTGCAGGCTTGA	MTSSEPSVLARLQQIPDQGFLEVEAALPGGSESLVLYRDGAQVRGWLNVCPHAGRRLDWAPGQFLKSREGHLVCAAHGASFSLDDGSCVAGPCRGERLLAIAVQVSDDEVRLQA				NA	NA	NA	NA	NA
BMS020_06382	282			hypothetical protein	ATGCGTGCACGCACCTTCGACTTCGGCAGGTTCCGTCCGTTCCTGCAGCCCCGCAAGCCGCGCCATCCGCTGGTGCGCCTGGCGGCTGGCGTGCTCGGACTGGCGATCCTGGCGGTGCTGGTGTTCTTCGGGCTGTTCGTCGGTGCGGCGATGATCCTCGTCGGCATCGCCTGGAAGCTGATCGCGCAGTACCGCGCACAGCGCCGCCCGCAGGCCGGCGGGCGCGTGGTCGACGGCGAATACCGCGTGGTCGACAAGCCGGCACTGCCGCTGCCGCGCTGA	MRARTFDFGRFRPFLQPRKPRHPLVRLAAGVLGLAILAVLVFFGLFVGAAMILVGIAWKLIAQYRAQRRPQAGGRVVDGEYRVVDKPALPLPR				NA	NA	NA	NA	NA
BMS020_06383	711			hypothetical protein	ATGACCGACGTGATTTCCGCCCCGCCCGTTCCGCGCATCCCGGTCGTGGGCGGCGGCAGCTTTCCGGTGCACCGCATCTACTGCGTGGGCCGCAATTTCGCCGACCATGCACGCGAGATGGGCGCCAGCGCACCGGCTTCGAAGGCCGAGCGCGGCCAGCCGACCTTCTTCATGAAGCCCGCCGACGCGGTCGTGGTCGGCCATGGCGATGCGATCCCCTACCCGCCCGGCACCAACGACCTGCACCACGAGGTCGAACTGGTGGTCGCGCTGGGCCAGGATGCGCCGGCCGGCGAGCTGGCGGTGGAAGACGCCGAGGCGCTGATCTACGGCTACGGCGTCGGCCTGGACCTGACCCGCCGCGACCTGCAGGCCACGGCCAAGGCCAAGGGGCTGCCGTGGGACATCGCCAAGGGCTTCGATCATTCCGCCCCGGTCAGCGAACTGGTGCATTCCGGCGAAGTCGGCGCACTCGATGCGCTCAACCTGTCGCTGGAGGTCAACGGCGAAGTGCGCCAGCAGTCGCTGCTGGACCAGATGATCTGGAACGTGCCGGAGATCCTGCACGAGCTGTCCAAGCTCTATGCACTGAAGGCGGGCGACCTGGTGTTCATGGGCACGCCGGCCGGCGTCGCCGCGCTCAAGCCCGGCGACCGCTTCAGCGCGCGCCTGGAGAACGTCGCCGAACGCCATGGCGTCATCGCAGGCTGA	MTDVISAPPVPRIPVVGGGSFPVHRIYCVGRNFADHAREMGASAPASKAERGQPTFFMKPADAVVVGHGDAIPYPPGTNDLHHEVELVVALGQDAPAGELAVEDAEALIYGYGVGLDLTRRDLQATAKAKGLPWDIAKGFDHSAPVSELVHSGEVGALDALNLSLEVNGEVRQQSLLDQMIWNVPEILHELSKLYALKAGDLVFMGTPAGVAALKPGDRFSARLENVAERHGVIAG	PGPT0001620_135	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001620-nagK-K16165	NA	NA
BMS020_06384	405	mscL_1	COG1970	Large-conductance mechanosensitive channel	ATGGGAATGATCGGCGAATTCAAGGAATTCGCGATGCGCGGCAACGTGATCGACCTCGCCGTCGGCGTGGTGATCGGCGCCGCGTTCGGCAAGATCGTCACCGCCCTGGTCGAGAAGATCATCATGCCGCCGATCGGCTGGCTGATCGGTGGGATCGACTTCTCGGCGCTGGCCTGGACCTTGAAACCGGCATCGGTCGATGCGGCGGGCAAGGAGGTGCCGGCGGTGGTGATCGGCTACGGCGACTTCCTCAACACTGTCGTGCAGTTCGTGATCGTCGCGTTCGCGATCTTCCTGGTGGTGAAGGCGATCAACCGCATCGCCAAGAAGCAGCCGCCGGCCCCGAAGGCGCCGAGCGAGGAAGTGGTGCTGCTGCGCGAGATCCGCGACGCGCTGAAGAAGTGA	MGMIGEFKEFAMRGNVIDLAVGVVIGAAFGKIVTALVEKIIMPPIGWLIGGIDFSALAWTLKPASVDAAGKEVPAVVIGYGDFLNTVVQFVIVAFAIFLVVKAINRIAKKQPPAPKAPSEEVVLLREIRDALKK	PGPT0013771_1205	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013771-mscL-K03282	NA	NA
BMS020_06385	1419			hypothetical protein	ATGCATCGCCTTGCCGTCGCCATCGCCGCCCTGCTCGCCACGTCGTCCGCGTTCGCCGCAGAGACCCGCATCCCGGACAAGGCCCTGGCCACGGCGGCACAGCTGCGCGAACAGGCGCTGGCCGACGGCACCGGCTACACGGTGGTCGAATCGCTGACCACCGAGGTCGGCCCACGCATGGCCGGCAGCGAGGCCGATGCGCGCGCGGTGGCCTGGGCCAAGGCGAAGTTCGCCCAGCTCGGCTTCGACAAGGTCTGGACCGAGCCGGTCACCTTCCCCAAGTGGGAGCGCCGCAGCGAATCGGCGGCGGTCCTCGGCGAGCATGCGCAACCGCTGCACGTCACCGCGCTCGGCGGCAGCCCGGCCGGCACCATCGAGGGCGAGGTGGTGCGCTTTGCCGACATGGCCGCGCTGAAGGCCGCGCCGGAAGGCTCGCTGGCCGGCAAGATCGCCTTCGTCGACTACCAGATGAGCAAGGCCCGCGATGGCCACGACTACGGCAACGGCGGCGCGGTGCGCGGCCGTGCGCCGTCCGAGGCGATCCGCAAGGGCGCGATCGGCTTCGTGATGCGCTCGGCCGGTACCGACTCGCACCGCGTGCCGCACACCGGCATCACCCGCTTCGACGAAGGGCTGACGCCGGTGCCATCGGCGGCGCTGTCGATGCCCGATGCCGACCAGTTGGCGCGCCTGGTCGAACACGGCGCCACCCGCATCCGCCTGAGCCTGGATTGCGGCTGGGACGGCACCGCGACCTCCTACAACGTGATCGGCGAGATCACCGGGCGCGAGAAGCCCAAGGAAGTGGTGGTGATCGGCGGCCACCTGGATTCGTGGGACCTGGGCACCGGCGCGATCGACGACGGTGCCGGCGTCGGCATCACCATGGCCGCCGGCCACCTGATCGGCGCGCTGAAGCAGGCGCCCAAGCGCAGCATCCGCGTGGTCGCCTTCGCCAACGAGGAGCAGGGCCTGTATGGCGGCAAGGCCTACGCCGAGGCGCACGGCCGCAACGCGGCCGACATGAAGCTGCACCAGATCGGCGCCGAGAGCGACTTCGGCGCCGGCCGCATCTACGCCTTCAACACCGGCTCGGCCTCGCCGCAAGCCTCGCGTGCGGCGACCGCGCAGATCGCGCAGGTGCTGGCGCCGCTCGGCATTGCCTACACGCCGGACAAGGGCGGCCCGGGCCCGGACATCGGCCCGATCGCGGCCAAGGGTGGCGCCTGGGGCTGGCTGGCGCAGGACGGCACCGACTACTTCGACCTGCACCACACCGCCGACGACACCCTCGACAAGATCGATCCGAAGGCACTCGCGCAGAACGTGGCGGCCTACACCGTGTTCGCCTATCTCGCGGCCGAGGCCGACGGCGATTTCGGCAGCGAGGCCAAGGCAACGGTACCGCCGCGCGAGTAA	MHRLAVAIAALLATSSAFAAETRIPDKALATAAQLREQALADGTGYTVVESLTTEVGPRMAGSEADARAVAWAKAKFAQLGFDKVWTEPVTFPKWERRSESAAVLGEHAQPLHVTALGGSPAGTIEGEVVRFADMAALKAAPEGSLAGKIAFVDYQMSKARDGHDYGNGGAVRGRAPSEAIRKGAIGFVMRSAGTDSHRVPHTGITRFDEGLTPVPSAALSMPDADQLARLVEHGATRIRLSLDCGWDGTATSYNVIGEITGREKPKEVVVIGGHLDSWDLGTGAIDDGAGVGITMAAGHLIGALKQAPKRSIRVVAFANEEQGLYGGKAYAEAHGRNAADMKLHQIGAESDFGAGRIYAFNTGSASPQASRAATAQIAQVLAPLGIAYTPDKGGPGPDIGPIAAKGGAWGWLAQDGTDYFDLHHTADDTLDKIDPKALAQNVAAYTVFAYLAAEADGDFGSEAKATVPPRE				NA	NA	NA	NA	NA
BMS020_06386	1086	purR_4	COG1609	HTH-type transcriptional repressor PurR	ATGGACCGCAACCGCGGCACCAAGGGAACCCAGCCAATGACGGCACAACCGCGACGCCGCGGCAGCGGCGCAGTCACCCTGCTGGACGTGGCCAAGCACGCCGGCGTCTCGCCGATGACGGTCTCGCGCGTGATGAACCGGCATCCGCACGTCGGCGAGGACATGCGCGCGCGGGTGGAAGCGTCGGTGCGCAAGCTCGGCTACCGCCCCAACCTGGCCGGGCGCTCGCTGCGCACCGCGCGCCAGGTCCGACTGGGGGTGCTCTACAGCAATCCCAGCGCGGCCTATCTCAACGAGTTCATGCTCGGCGTGCTCGAACAGAGCAGCCAGGATGGGCACCAGGTGCTGGTGGAGAAGTGCACCACGCTGCGCAGCCAGCGTGCGGCCACCGAACGGCTGCTGGCCGCCGGCGCGGACGGGGTGATCCTGCCCCCGCCGCTGTGCGATTCGCGCGCCACCATCGCCGGCCTCGAAGCACGCGGCATCCCGCTGGTCGCCGTGGCCAGCGGTGCGCCCGACGCCGAGGTCGCCACGGTACGGATCGACGACTACCAGGGCGCGCGGGCGATGACCGCCTACCTGATCGAACTCGGCCATCGCCGCATCGGCTTCATCAAGGGCGATCCGGCGCATGCGCCCAGCGCGCTGCGCGCGGCCGGCTTCTTCGACGCGATGGCCGAGGCCGGGCTGGCGGTCGCCGAGGCCGATGTCGCCGAGGGCATGTTCACCTACCGCTCCGGGCTCGACGCCGGCCAGCAGCTGCTGGCGCGACGCAAGCGCCCCAGCGCGGTGTTCTGCAGCAACGACGACATGGCCGCGGCGGTGCTCGCGGTCGCGCACGGGCTGGGGCTGAAGGTGCCCGAGGCGCTGTCGGTCGCCGGCTTCGACGACACCCCGGTGGCGACCACGGTGTGGCCGGAACTGACCACGATCCACCAGCCGGTCGCGGCGATGGGCCGCGCCGCGGTGGTGCAGCTGGCGCAGAACGTGCAGCTGCAGCGCCGGGGCCTGAGCCCGCAGCATCGCCAGCAGACGATGCGCTACAGCCTGGTGCGACGCGGCTCCACCGCACCGCCGCCGGGCTGA	MDRNRGTKGTQPMTAQPRRRGSGAVTLLDVAKHAGVSPMTVSRVMNRHPHVGEDMRARVEASVRKLGYRPNLAGRSLRTARQVRLGVLYSNPSAAYLNEFMLGVLEQSSQDGHQVLVEKCTTLRSQRAATERLLAAGADGVILPPPLCDSRATIAGLEARGIPLVAVASGAPDAEVATVRIDDYQGARAMTAYLIELGHRRIGFIKGDPAHAPSALRAAGFFDAMAEAGLAVAEADVAEGMFTYRSGLDAGQQLLARRKRPSAVFCSNDDMAAAVLAVAHGLGLKVPEALSVAGFDDTPVATTVWPELTTIHQPVAAMGRAAVVQLAQNVQLQRRGLSPQHRQQTMRYSLVRRGSTAPPPG	PGPT0017992_3243	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
BMS020_06387	1965			Retaining alpha-galactosidase	ATGATCCGACTGCATCGCCTGCTGTTGTGCGCGGTCCTGGCCGCGCCCTGCATTGCCCCCGCCGCGGCCGCGCCGAGCCTGCTTCTGGCGTCGCCCGAACAACGCGCCAGCGTGCACTTCCAGCTGTCCGACGACGGCCTGCCCAGCTACCGGGTGGCCTGGCGTGGCCAGGAAGTGATCGCCGATTCGCCGCTCGGACTGAAGCTGGCCGATACGCCACAGCTGCGCGGATGGGTGCTGCAGGGCAGCACGCAGAGCGATGGCATCGACCGCTACCGCCCGGTGGTCGGCAAGACCGCGCAGGTGCATGACCGCTACCGCCAGCTGCGGGTGGCGCTGGCAAACGCCGACGGGCGGCGCATGGACATCGTGTTCCGCGCCTACGACGACGGCGTCGCGTTCCGCTACGTGCTGCCCGCCGCCGGCGAGGTGCGCATCCGCGACGAGGCCACCGGGTTCGCGTTCCCGCGCGACTACCGCTGCTGGGCGCTCAACCTGGGCCGTTTCGGCACCAGCCATGAAGGCGAATTCGACCCCATCGACGCCTCGCGGCTGCGCCCGCACAACCTGCTCGAACTGCCACTGGTGTGCCAGACCGATGCACGCGGCACCAGCGTGGCGATCGCCGAGGCCGACCTGCGCGACTACGCCGGGCTGTATCTCACCGGCCGCGAGGACGGCGGCCTCGGCGTCGGCGCGAAGCTGTCGCCACGGCTGGACCAGCCGCAGGTGGCGGTGCTGCGCGATGGCCAGGGCCAGGATGTCGCCACGCCGTGGCGGGTGCTGCTGCTCGGCGACAGCCCGGGCGCGCTGATCGGCTCGACCCTGGTGGAAAGCCTCAACCCGCCCTCGGCGATCGCCGACACCTCCTGGATCGTCCCGGGCAAATCGGCCTGGGACTGGTGGTCGGGCTGGCGCGCGCCCGGCGCCCCGCAGGCCGGCACCGATACCGCGACGCTGAAGCGCTACATCGACCATGCGCAGGCGCTGGGCCTGCAGTACATGCTGATCGACGACGGCTGGTATGTCGGTAGCACCGGCGACGGCCAGTACCACGCCGATGCCGACATCCTGCATGCGATCGCGCCGGTCGACCTGCCGGCGCTGGTGGACTATGCCCGCCAGCGCGGCGTCGGCCTGTGGCTGTGGCTGCACTGGCGCGCGCTCGACACGCACATGGAGCAGGCGTTCGCGCAGTACCAGGCACTCGGCATCAAGGGCATCAAGGTCGATTTCATGGACCGCGACGACCAGCAGATGGTGGCGTTCTACCACCGCCTGCTCGACAGCGCCGCACGCCATCGGCTGCTGGTCGACCTGCATGGCGCCTATCACCCCACCGGACTGGTGCGCACCTACCCGAACTACCTGACCCAGGAAGGCGTGCTCGGCGCCGAGTACAACAAGTGGAGCCGGCGCGTCACCGCGACCCACAACCTCACCCTGCCGTTCACGCGGATGCTGCTGGGGCCGATGGACTACACCCCGGGCGGCTTCCGCAACGTGACCCCGGCGCAGTTCCAGGCGCGCAACGAGGCCCCGCAGGTGATGAGCACGCGCGCACAGCAGCTGGCGATGTACGTGGTCTACGACAGTCCGTTCGCGGTGGTGGCCGACAGCCCCGATGCCTACGGCGACGCCACCGGCGTGCAGTTCCTGCGCGCGGTGCCGGCCAGTTGGGACGCCACCCGCGTGCTCGACGGGGCGATCGGCGAGCACATCGCGATCGCCCGCCGGCGGGGCCAGGACTGGTTCCTCGGCGCGATGAGCAACGAGCAGGCCCGCCAGCTGCGGGTACCACTGGACTTCCTCGGCCCGGGACGTTGGCGCGCGACGCTGTACCTGGATGGTGCCGCACCCGACCAGGTCCGCAGCGAACAACGCGACGTGGATGCGAAGAGCGTGTTGGAGCTGCCGTTGGCGGGCAGCGGCGGCGCGGCGGTGCACCTGCAGCCGCTGCACTGA	MIRLHRLLLCAVLAAPCIAPAAAAPSLLLASPEQRASVHFQLSDDGLPSYRVAWRGQEVIADSPLGLKLADTPQLRGWVLQGSTQSDGIDRYRPVVGKTAQVHDRYRQLRVALANADGRRMDIVFRAYDDGVAFRYVLPAAGEVRIRDEATGFAFPRDYRCWALNLGRFGTSHEGEFDPIDASRLRPHNLLELPLVCQTDARGTSVAIAEADLRDYAGLYLTGREDGGLGVGAKLSPRLDQPQVAVLRDGQGQDVATPWRVLLLGDSPGALIGSTLVESLNPPSAIADTSWIVPGKSAWDWWSGWRAPGAPQAGTDTATLKRYIDHAQALGLQYMLIDDGWYVGSTGDGQYHADADILHAIAPVDLPALVDYARQRGVGLWLWLHWRALDTHMEQAFAQYQALGIKGIKVDFMDRDDQQMVAFYHRLLDSAARHRLLVDLHGAYHPTGLVRTYPNYLTQEGVLGAEYNKWSRRVTATHNLTLPFTRMLLGPMDYTPGGFRNVTPAQFQARNEAPQVMSTRAQQLAMYVVYDSPFAVVADSPDAYGDATGVQFLRAVPASWDATRVLDGAIGEHIAIARRRGQDWFLGAMSNEQARQLRVPLDFLGPGRWRATLYLDGAAPDQVRSEQRDVDAKSVLELPLAGSGGAAVHLQPLH	PGPT0018560_2103	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
BMS020_06388	1470	pnbA_4	COG2272	Para-nitrobenzyl esterase	ATGCCGTGGCCGTTCGCCGCCATTGCCACGCCGCAGCCCGTGCCACAGGCAACCGTGCAGGTGCAGCAGGGCCTGCTGCGCGGCCAGCGCCAGGACGATGGCAGCGTGGTGTTCCGCTCGATTCCATTCGCTGCGCCGCCGCTGGGCGCGCTGCGCTGGCGCCCGCCGCAGCCGGCGCCGGCCTGGTCCGGGGTGCGCGAGGCCAGCGCCAAGGCGGCGCCGTGCGCGCAGCCGGCGCTGGGCTGGAACGATGCGCTGGCCAGGCGCTCCAGCGAGGATTGCCTGTACCTGGAGGTGCAGACGCCGTCGCTGGCGCCTTCCGCGCCGTTGCCGGTGATGGTGTGGATCCATGGCGGCGCCAATGTCGCCGGCGGCGCCGACGGTTACATCCCCTCGGCCTTCGTGCGCGAGGGCGTGGTGCTGGTGACGGTGCAGTACCGGCTGGGCGTGTTCGGCTTCTTGTCGTTGCCGGAGCTGCACCCGGGGCTGCCGGCGCAGGCCGGCGGCAACGTCGCCGTGCTCGACCAGATCGCGGCGTTGCGCTGGGTGCGCGACAACATCGCCGGCTTCGGCGGCGATCCTCGCCGGGTGACGCTCTTCGGCCAGTCCGCGGGTGCCCAGGATGTCGGCCTGCTGCAGCTGGCGCCTCAGGCGCGCGGGCTGTTCCATGCGGCGATCGAGCAGAGCGGCACGGCCGGCTTCGGCCTGCCGGCGCGCTCGCTGGCGCAGGCGCGGCAGGTCGGCGAGGCCATTGCCGCGCGCGCGGGCGTGGCCGCCGGTGCGAGCCGGCTGGACGCCTTGCGCGCGCTGCCGGCGTCGCAGCTGATCGCCGCCGCGCAGGGCGTGCCGGTGCCGGGGTTGGTCGATGCCGGCTACGTCTGGCTGCAGCCGACGGTGGACGGCGAGGTACTGCCGGCCGCGCCGGCCAGGCTGCTGGCGCAGGGCCGGCAGGCGCCGGTGCCGCTGCTGATCGGCAGCAACGCGCAGGAGCTGCGGCTCGGTGGCGAGGGCGGGGCGCAGGCGCGGCTGCGGCATGACGCGCCGGCGCAGGCCGCACAGGTGCTGGCGCTGCTGGCGACGCCGGCCTCCCCGCGCCAGGGCGATACCGAGATGCGCCTGGGCACCGACCTCGGCTTCCGTTGTCCGGCCGCGGCGGTGGCACGTGCGCATGCCGCCGCCGGGCAGGCGGTATGGCGTTACGAATTCGATCGGGCCGAACCCGGCGCGCAGGTCGGCCACAGCGCCGAGCTCGGCTTCGTGTTCAAGGCGCCAGCGCTGGATGCGGCCGGCACCACCCTGACGCGCTATTGGGCCGCGTTCGCCCGCGAGGGCCGGCCGCAGGTGGATGCGCAGCCGGCGTGGACGCCGTGGCGGCCCGGCACGGCGCGCAGCCTGTACATCGGCCCGGAGCGGGTGGCGATGATCGACGATCCGGACGCGACGATCTGCGCGCAGCTGCCGTTGCCATAG	MPWPFAAIATPQPVPQATVQVQQGLLRGQRQDDGSVVFRSIPFAAPPLGALRWRPPQPAPAWSGVREASAKAAPCAQPALGWNDALARRSSEDCLYLEVQTPSLAPSAPLPVMVWIHGGANVAGGADGYIPSAFVREGVVLVTVQYRLGVFGFLSLPELHPGLPAQAGGNVAVLDQIAALRWVRDNIAGFGGDPRRVTLFGQSAGAQDVGLLQLAPQARGLFHAAIEQSGTAGFGLPARSLAQARQVGEAIAARAGVAAGASRLDALRALPASQLIAAAQGVPVPGLVDAGYVWLQPTVDGEVLPAAPARLLAQGRQAPVPLLIGSNAQELRLGGEGGAQARLRHDAPAQAAQVLALLATPASPRQGDTEMRLGTDLGFRCPAAAVARAHAAAGQAVWRYEFDRAEPGAQVGHSAELGFVFKAPALDAAGTTLTRYWAAFAREGRPQVDAQPAWTPWRPGTARSLYIGPERVAMIDDPDATICAQLPLP	PGPT0030515_1815	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TANNIN_DEGRADATION	PUTATIVE-TANNIN_DEGRADATION-1,PGPT0030515-pnbA-K03929
BMS020_06389	942	yfiF_2	COG0566	putative tRNA/rRNA methyltransferase YfiF	ATGAGCAGTCCCTGGAACACCGGTCCGCGCCGCCCCGGCAGCGGTCCCTCACGCCCGAGCGGCGAACGCGGTCCGCGCGCGGATGCTCCGCGCGATGAACGCGGCCACGCGCCGCGGCGTCCGCCACCGCCGCGCGCGCCGCAGACCGGCGACGCCGGCGAGCGCAGCCCGCACCCGGGCTCGGCCCGACGCGGCGAGGAGCTGCGCATCCACGGCCTCAACGCGGTGCAGGCGGTGTTCCGGCGGCGGCCGCAGGACCTGCGCAAGCTGTACCTGGCCGAGGCGCGCATCCCCGCGCTGAAGCCGCTGCTGGCCTGGTGCGTGAAGCAGCGCGTGGGCTATCGCGTGGTCGACGACGAGGATCTGCGCAAGCTGGCCGGCAGCGAGCACCATGAAGGCGTGGTCGCCGACGTGCTGCGCAACACGCCGCCACCGCTGGCCGAATGGCTGCAGCAACTGCGCCCCGGTCCGCAGTTGCTGCTGTGGCTGGACGGCGTGGCCAATCCGCACAACTTCGGCGCGATCCTGCGCTCGGCGGCGCATTTCGGCGCAGCCGGCATCCTGCTGCCTGAGCACTCCTCGCTGGCGCTGTCCGGCGCCGCCGCGCGCGTGGCCGAGGGTGGCGCCGAGGCGGTGCCGCTGGTGCGCCTGCCCAAGCCGGCGCAGGCCGACGAGCTGCTGCACGATGCCGGCTTCGTGCTCGCCGCGACCCTGGTCGAGGGCGGCCAGGACCTGTTCGCCACACCGTTGCCGAAGCGGCTGGTCTACGTGATGGGGGCCGAGGGCGAAGGCATGGACCGCGGGTTCGCTGCGGCCTGCGACCTGCGCCTGTCGATCCCCGGCAGCGGCACGGTCGAGAGTCTCAACGTCGCGGCGGCGACCGCGGTGCTGCTGGCCAGCTGGCGCAGCGCGCACGCGCTGGTGCCGCGCACGCGCGGCTGA	MSSPWNTGPRRPGSGPSRPSGERGPRADAPRDERGHAPRRPPPPRAPQTGDAGERSPHPGSARRGEELRIHGLNAVQAVFRRRPQDLRKLYLAEARIPALKPLLAWCVKQRVGYRVVDDEDLRKLAGSEHHEGVVADVLRNTPPPLAEWLQQLRPGPQLLLWLDGVANPHNFGAILRSAAHFGAAGILLPEHSSLALSGAAARVAEGGAEAVPLVRLPKPAQADELLHDAGFVLAATLVEGGQDLFATPLPKRLVYVMGAEGEGMDRGFAAACDLRLSIPGSGTVESLNVAAATAVLLASWRSAHALVPRTRG				NA	NA	NA	NA	NA
BMS020_06390	1497	acp		Sodium/proton-dependent alanine carrier protein	GTGGATTCGATCATCAGCTTCGCCAACAACCTGATCTGGAGCAAGGCACTCATCTACATGTGCCTGGGCGCCGGTCTGTTCTTCAGCGTGCGCACCCGCTTCATGCAGGTCCGCGGCTTCGCCGAGATGTGCCGGCTCACGGTCAAGGGCCAGAAATCCGAGGCCGGCGTGTCCTCGTTCCAGGCGCTGGCGATGTCGATGGCCGGCCGCATCGGCATCGGCAACATCGCCGGCGTCGCCACCGCGATCGCCTTCGGTGGTCCCGGTGCGATCTTCTGGATGTGGGTGATGGGCTTCCTCGGTGCGTCCACCTCGTACGTGGAGAGCACGCTGGCGCAGATCTACAAGGTCAAGGACGCCGACGGGCGCTACCGCGGTGGTCCGGCCTACTACATCGAAAAGGCGATGGGCCTGAAGTGGTACGCAATGGCCTTCGCGCTGGTGACCATCATCGCCACCGGCTTCCTGATGCCGGGCGTGCAGGCCAATGCGATCGCCGACAGCGCCGCCAACGTCTGCAGCGGCACCGCGCTGTGCGGGCCGATGGACGGGCAGTGGCTGGGCATGCCGGCGCGCGATGCGTTCAAGCTCGGCGTCGGCATCGTGGTGGCGATCCTGCTGGCGATCATCATCTTCGGCGGGGTCAAGCGCATCGCCAACTTCGCCGAGGTGGTGGTGCCGTTCATGGCTGGCGGCTTCATCCTGATGGCGGTCACGGTGATGGTGCTCAACGCCGGCGAGGTGCCGACGATGTTCGCCACCATCTTCAGCAGCGCGTTCGGCGCGCATGCCGCGTTCGGCGCGATCATGGGCCTGGCGGTGGAATGGGGGGTCAAGCGCGGCATCTACGCCAACGAGGCGGGCCAGGGCACCGGCCCGCACGCCGCGGCCGCCGCCGAGGTCTCGCACCCGGCCAAGCAGGGCTACGTGCAGGCGTTCGCGATCTACTTCGACACCATGATGGTGTGCACCTCGACCGCGTTCCTGATCCTGTCCACCGGCATGTTCAACGTGTACTCGCCGACCGACAAGGCCAAGCCGCTGTTCGCCGGCCTGCCGGGCATCGAGGAAGGCCCGGGCTACGCGCAGGCGGCGGTGGAATCGGTGCTGCCGGGCTGGGGCGCCGGCTTCGTCGCGGTGGCGCTGTTCTTCTTCGCCTTCACCACGATCATGGCCTACTACTACATGGCCGAGACCAACCTCAGCTACCTCAACCGCAACAAGCACCGGCCGCTGCCGTTGCTGCTGCTGCGGCTGGGCATCGTGGCGATGGTGGTGTTCGGCGCCTGGCGCAACGCGCAGCAGGCCTGGGCGCTGGGCGACATCGGCGTCGGCCTGATGGCCTGGCTGAACGTCATCGCGATCCTGATCCTGCACAAGCCGGCGATGCTGGCGCTGCGCGACTACGAGCGGCAGAAGAAGCTGGGTCTGGATCCGGTATTCGACCCGGACGCGGCGGGCATCCACAATGCAGACTTCTGGAAGAAGAAGTCCTGA	MDSIISFANNLIWSKALIYMCLGAGLFFSVRTRFMQVRGFAEMCRLTVKGQKSEAGVSSFQALAMSMAGRIGIGNIAGVATAIAFGGPGAIFWMWVMGFLGASTSYVESTLAQIYKVKDADGRYRGGPAYYIEKAMGLKWYAMAFALVTIIATGFLMPGVQANAIADSAANVCSGTALCGPMDGQWLGMPARDAFKLGVGIVVAILLAIIIFGGVKRIANFAEVVVPFMAGGFILMAVTVMVLNAGEVPTMFATIFSSAFGAHAAFGAIMGLAVEWGVKRGIYANEAGQGTGPHAAAAAEVSHPAKQGYVQAFAIYFDTMMVCTSTAFLILSTGMFNVYSPTDKAKPLFAGLPGIEEGPGYAQAAVESVLPGWGAGFVAVALFFFAFTTIMAYYYMAETNLSYLNRNKHRPLPLLLLRLGIVAMVVFGAWRNAQQAWALGDIGVGLMAWLNVIAILILHKPAMLALRDYERQKKLGLDPVFDPDAAGIHNADFWKKKS	PGPT0014405_1047	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLYCINE_TRANSPORT,PGPT0014405-yflA|TC_AGCS-K03310	NA	NA
BMS020_06391	537			hypothetical protein	ATGCTGCAGGAGCCTGGGTTGCAGGCCGGACGCGCGCGCCTGCGGCCGTGGCGGCGGGACGATCTGGCGGCGCTGCTGCGCCACGCCGACGATCCGCAGGTCGCGCGCTATCTGTCCGATCGGTTCCCCAGCCCGTACACCCGCGCCGACGGCGAGGCGTTCCTGGCCGGGCGCGTGCTCGACCTGGACGGGCCGGTGTTCGCGATCGAGATCGACGGCGAAGCCTGCGGCGGCATCGGCGCGCGCCTGGGCGCCGGCGAGCGCGCGCGCAGCGCCGAGCTGGGCTACTGGCTGGGCCGGCGCCATTGGGGGCGCGGCACGATGACCGCGCTGGTCGGGGTCTACGTCCCTTGGCTGCAGGCGCAGCGCCGGCTGCACCGGTTGCAGGCCAGCGTATTGGCCGGCAATCCGGCCTCGGCGCGGGTGTTGCTGAAGAGCGGCTTCGTCGAGGAGGGGACGCAGCGCGCCGCGCTGCTCAAACACGGGCATTTGCACGATTTGCGGACGTTCGCGCGCACCTGGGTGGTGCACGGCTGA	MLQEPGLQAGRARLRPWRRDDLAALLRHADDPQVARYLSDRFPSPYTRADGEAFLAGRVLDLDGPVFAIEIDGEACGGIGARLGAGERARSAELGYWLGRRHWGRGTMTALVGVYVPWLQAQRRLHRLQASVLAGNPASARVLLKSGFVEEGTQRAALLKHGHLHDLRTFARTWVVHG				NA	NA	NA	NA	NA
BMS020_06392	2475	malP_5	COG0058	Maltodextrin phosphorylase	ATGCACCGCATCAGCCTTGCCGATCTGATCAACCGTTATGGCGTCGGTCCGCTGGAATTCTCCGGCGACCCCAACGCGCTGTTCGAGCGCCACCTGATCTTCGACCACGTCGTCACGCCGCAGTCCGCCTCGATGCGCGAACGCTACGAAGCGGCCGCGGCCTCGGTGCGCGACATCCTCAGCCAGCGCTGGCTGGCCACCGAAACCGCCTACCGCGAGGCCAACGCCAAACGTGCCTACTACCTGTCGATGGAGTTCCTGATCGGCCGGCAGCTGGCCAACAACGCGATCAACCTGCAGCTGGACCAGGTGCTGGAACAGCTCAACCAGCAGCAGCACACCTCGGCGCTGGCGATGCTGGAAGAGGAACCCGATGCCGGCCTCGGCAATGGCGGCCTCGGCCGGCTGGCCGCCTGCTTCCTCGACTCGATGGCCACGCTCGGCCTGCCTGGCATGGGCTACGGGCTGCGCTACGAATACGGCATCTTCCGCCAGGAGATCAGCGACGGCTGGCAGCAGGAACAGCCCGACCACTGGCTGGCGCACCCGGACCCGTGGGAGATCGCGCGCCCGGCCGAGGCGGTCGAGGTCACCCTGCACTGCGGCCTGGAAATGCGCGACGGCGTGCTGCGGCCGACCCCGGGGCGGCCGTGGCGGATGATCGGCATCCCGCACGACCGCCCGGTGGTCGGCTACGGCGGGCGCACCATCAACACCTTGCGGCTGTGGTCGGCGCGCGCGCCGCAGGCATTCGACTTCGCGCAGTTCAGCAGCGGCGACTTCGTCGGCGCGCTGGCCGGCTCGCTCGGCGCGGAGACCATCACCCGCGTGCTGTATCCGGACGACAGCACCGTCTCCGGCCAGGCGCTGCGGCTGATGCAGGAATACTTCCTGGTGGCCTGCTCGCTGGCCGACCTGGTGCGCCGCTTCCGCGCCGCCGACAACGACTGGACCCAGCTGCCGGACAAGGCCGCGATCCAGCTCAACGACACCCACCCGGCGCTGGCGGTGCCGGAGCTGATGCGGATCCTGCTCGACCAGGCCGGGCTGAACTGGGACCTGGCCTGGGACCTGACCCGGCGCACGCTGGCCTACACCAACCACACCCTGCTGCCGGAAGCGCTGGAGCAGTGGCCGGTGGCGTGGTTCGAGGCGCTGCTGCCGCGCCACCTGCAGATCGTCTACGAGATCAACCAGCGCCTGCTCGACCAGGTGCGCACGCGCTGGCCGGGACAGCCGGACCGGCTGCGCCGGATCAGCCTGATCGAGGAAGGCGGCGGCAAACGCGTGCGCATGGCGCACGTGGCGATCGCCGGCAGCCACAGCATCAATGGCGTGGCGCAGCTGCACACCCACCTGCTGCAACAGCGGGTGGTGCCGGATTTCGCCGAGCTGTACCCGGAGCGCTTCAACAACAAGACCAACGGCGTCACCCAGCGCCGCTTCCTGCGCGCGGCCAACCCGCCGCTGGCGCAGCTGCTCAGCGAGGCACTCGGCGATGGCTGGGTGACCGACCTGGAGCAGTTGCGCAAGCTCACGCCGCTGGCCGAGGACACCGCGTTCCGCCAGCAGCTGCGGGTGGCGCGGCACCAGGCCAAGCTGCGCTTCTCCGATTGGCTGCAGCACGCCGGCGGACCGCGCATCGATCCGGAGAGCCTGTTCGACACCCAGATCAAGCGCATCCACGAATACAAGCGCCAGCTGCTCAACGCGCTGCACATCGTCACCCTGTACCGCCACGCGCGTGAACAGCCGCAGTGGATGCAGCCGCGTCGCACCTTCATCTTCGCCGGCAAGGCCGCGCCGGCCTACCGGTTGGCCAAGCTGGTGATCAAGTTCATCAACAACCTGGCCGCGACGATCGAGCGCGAACCGCACGTGGCCGAGCGCCTGCGCGTGGTGTTCATCCCCGACTACCGGGTCTCGGTGGCGGAAAAGCTGATCCCGGCCAGCGACGTGTCCGAACAGATCTCCACCGCCGGCTACGAGGCCAGCGGCACCAGCAACATGAAGTTCATGATGAACGGCGCGCTGACCATCGGCACCCGCGATGGCGCCAACATCGAGATCGCCGAGGCGGTCGGCGAGGACAACATCTTCATGTTCGGGCTCGACGCCGACCAGGTCCGCGACAGTGCCGGCTGGTACGACCCGCGCTGGCACTATGAGCACGATGCCGATACCCGCGCCACGCTCGACCTGATCGCGGCCAACCACTTCAGCCCGCACGAGCCCGGCGTGTTCCAGCCGTTGCTGGACACGCTGCTGCACGTGGACCATTACCGCCACCTCGCCGACCTGCCGGCGTATACCGCGGCCCAGCAGCGCGTCGGCGCGCTGTACGCCGATCCGGTCGCCTGGGCGCGCAAGGCGGCGCTGAACATCGCTGCCTCGGGCCGTTTTTCCAGCGACCGCACCGTGGCCGATTACGCGCGGGCGATCTGGAACGTGGCGCCGGTGCAGGTGCCGGACTAG	MHRISLADLINRYGVGPLEFSGDPNALFERHLIFDHVVTPQSASMRERYEAAAASVRDILSQRWLATETAYREANAKRAYYLSMEFLIGRQLANNAINLQLDQVLEQLNQQQHTSALAMLEEEPDAGLGNGGLGRLAACFLDSMATLGLPGMGYGLRYEYGIFRQEISDGWQQEQPDHWLAHPDPWEIARPAEAVEVTLHCGLEMRDGVLRPTPGRPWRMIGIPHDRPVVGYGGRTINTLRLWSARAPQAFDFAQFSSGDFVGALAGSLGAETITRVLYPDDSTVSGQALRLMQEYFLVACSLADLVRRFRAADNDWTQLPDKAAIQLNDTHPALAVPELMRILLDQAGLNWDLAWDLTRRTLAYTNHTLLPEALEQWPVAWFEALLPRHLQIVYEINQRLLDQVRTRWPGQPDRLRRISLIEEGGGKRVRMAHVAIAGSHSINGVAQLHTHLLQQRVVPDFAELYPERFNNKTNGVTQRRFLRAANPPLAQLLSEALGDGWVTDLEQLRKLTPLAEDTAFRQQLRVARHQAKLRFSDWLQHAGGPRIDPESLFDTQIKRIHEYKRQLLNALHIVTLYRHAREQPQWMQPRRTFIFAGKAAPAYRLAKLVIKFINNLAATIEREPHVAERLRVVFIPDYRVSVAEKLIPASDVSEQISTAGYEASGTSNMKFMMNGALTIGTRDGANIEIAEAVGEDNIFMFGLDADQVRDSAGWYDPRWHYEHDADTRATLDLIAANHFSPHEPGVFQPLLDTLLHVDHYRHLADLPAYTAAQQRVGALYADPVAWARKAALNIAASGRFSSDRTVADYARAIWNVAPVQVPD	PGPT0018545_1896	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
BMS020_06393	2682	pepN_2		Aminopeptidase N	ATGTCGCTGCGCCGCCGTTCGTTGTCCCTGTCGCTGCTGTCGCTGTGCTGTGGCGCCGCCCTGGCGCAGACCCCGGCCGATCCGCTGCCTACCGGCCGCCTGCCGGCCTGGGCGGTGCCGACCCATTACGCGCTGCAGCTGAAAGTCGATCCGGCCGCGCAGGCGTTTTCCGGGACCGCGCGCATCGAGGTGCAGCTCAAGCAGGCCGCCGACCACGTCTGGTTGCATGGCAAGGACCTGGAGGTGGCCAAGGTCAGCGTGACGCCGGCGGACGGCAGCGCGTTCGCGGCGCGCTATGTCGAGGCCGATGCGCAGGCCGGCGTGGTGCGCGTGGACTTCGGCAAGGTGCTGCAGCCGCAGGCGCTGCGCGTGGAGATCGCCTACAGCGCGGCGCTGAACCAGCAGCTGCAGGGCCTGTACCAGGTGAAGTACCAGGGCAAGGCCTATGCGATGACGCAGATGGAGCCGATCAGCGCGCGCTATGCGTTCCCCGGCTTCGACGAACCGGGCTTCAAGACCACCTTCGACCTGAGCCTGACCGTGCCGGAGGCGGACAAGGCGCTGGCCAATACCGCGCAGGTGTCGAGCAAGCCCGCCGGCAAGGGCTGGAAGACGGTGACCTTCGCGCGCACCCTGCCGTTGCCGACCTACCTGCTGGCCTACGGCATCGGCCCGTGGGACGTGGTCGATGGCCCGGCCATTGCCGCCACCGCGCAGCGCGCCCAGCCCACGCCGCTGCGCGGCGTCACCGCGCAGGGCCAGGGCCAGCGCATCCAGCGTGCGCTGGCGCAGACCCCGGCGATCATCGAGGCGCTGGAGGACTACTACGGCTACGGCTATGCGTTCGACAAGCTCGACCTGGTCGCCGCACCGGACTTCAGCGCCGGCGCGATGGAGAACCCGGGCTTCGTCACCTTCCGCGATTGGTTGCTGCTGCTGGATGACAACTCGCCGCGGCGCAACGTCGAAGGCTCCTTCAACGTCACCGCGCACGAGCTGGCCCACCAGTGGACCGGCGACACGGTGACGATGGCCTGGTGGAACGACCTGTGGTTGAACGAGGCGTTCGCGACCTGGATGCAGCAGAAGATCACCATGCAGCTGCGCCCGGACTACCGCGCCGACCTGGACCGCATCGCCGGCGCGCAGCGCGCGATGGACAACGACAGCCTGGTCAGCGCGCGCAAGATCCGCCAGGAGATCACCGGCAACGGTGACATCGAGACCGCGTTCGACGGCATCACCTACCAGAAGGGCGCGGCGGTGCTGGGCATGTTCGAGCACTTCGTCGGGCAGGACACCTTCCGCGCCGGCATGCGCCGCTACATCCGCGACCACGCCTTCGGCAATGCCACGGCCGACGACCTGGTCGAGGCGATCGCCGCCGCGGCCGGCAAGGGCGAGGACTTCAAGGCCGCCTTCCACAGCTTCCTCGACCAGCCCGGCGTGCCGTACCTGCAGGCGCGGCTGGAGGCCGGACGCAACGGCGCGGTGCTCACGCTGCACCAGCAACGCTACCTGCCGCTGGGTTCCACCGGCGATGCGGCGCACACCTGGGGCGTGCCGGTGTGCGTGAAGTACGGCACCGCGCAGGGCGTGCAGCGCGCCTGCGAGATGATCACCGGCGCCGACGGCAGCATCGTGCTGAAGGGCGCCGACAAGAACAGCTGGGTGCTGCCCAATGCCGACGGCACCGGCTACTACCGCTTCGGCCTGCCCAGGGCGCAGCTGGCCGCGCTCGGCACGCATGTCGATGCACTCGACGATGCCGAGAAGCTGATCTACGCCGACGCGATCGACGCTGCGTTCCGCAAGGGCGATGCCGACAGCGCCGACGTGGTCGCGGCGATGCGGCAGCTGGCCCCGGCGCAGGCTGCGCCGGTGGCGACCGCGCTGGTCGACCGGTTTTCCTGGATCTGGCGCGTGCTGGCGCGCAGCGACGCGGCGCGCGCGCAGCTGCAGGCGCAGGCCGGGCAGGCGTTCGGCGCGCGCATGCAGGCGCTGGGCTACCAGCGCCGCGATGGCGACAGCGCCGACGACATCGCCTTGCGTTCGGAGCTGGCCAGCCTGCTCGGCGTGACCGTCCGCCTGCCGCAGCCGCGCGCGGCGTTGCTGGCGCAGGGCGATGCGGTGCTGGCCGGCAAGGGCGGCGTGCTGGATTTCGCCGCCGCCAACCCGGACCTGCTCGGCAGCGCGCTGGCGGTGGCGGTGCAGGAGCGCGGTGCGCCGGCGGTGGACGCGCTGATCGCGGCGCTGCGCACCCACGGCGAGCCGGCGCAGCGCAATGCGATGATCGGCGCGCTGGGCACCGTGACCGATCCGGCGCAGCTGCAGAAGGTGCGCGACTTCGCCCTCACCGATGCGGTCAAGGTCGGCGAGATGGCCAACATGCTGATGGGCGCACACGCCGATCCGGCCAGCCATGCCTCGATGTGGGACTGGTACCTGGCGCATTTCGACCGCATCGTCGAACGCACCGGCGCGTTCACCGGCGGCAAGCTGCCGGCGCTGGCCGCGGCTGGCGGCTGCGAGGTCGCCGAGGCCGAGCGCCTGGAGGCGTTCTTCACCCCACGCCTGAAGGACCTGTCCGGCGCCGAGCGCGGATTGAAGCAGACCGCCGAATCGATCCGTCTGTGCAGCGCGCTGAAACAGGCGCAGCAGGCCGGGCCTGGCGCGCGCTGA	MSLRRRSLSLSLLSLCCGAALAQTPADPLPTGRLPAWAVPTHYALQLKVDPAAQAFSGTARIEVQLKQAADHVWLHGKDLEVAKVSVTPADGSAFAARYVEADAQAGVVRVDFGKVLQPQALRVEIAYSAALNQQLQGLYQVKYQGKAYAMTQMEPISARYAFPGFDEPGFKTTFDLSLTVPEADKALANTAQVSSKPAGKGWKTVTFARTLPLPTYLLAYGIGPWDVVDGPAIAATAQRAQPTPLRGVTAQGQGQRIQRALAQTPAIIEALEDYYGYGYAFDKLDLVAAPDFSAGAMENPGFVTFRDWLLLLDDNSPRRNVEGSFNVTAHELAHQWTGDTVTMAWWNDLWLNEAFATWMQQKITMQLRPDYRADLDRIAGAQRAMDNDSLVSARKIRQEITGNGDIETAFDGITYQKGAAVLGMFEHFVGQDTFRAGMRRYIRDHAFGNATADDLVEAIAAAAGKGEDFKAAFHSFLDQPGVPYLQARLEAGRNGAVLTLHQQRYLPLGSTGDAAHTWGVPVCVKYGTAQGVQRACEMITGADGSIVLKGADKNSWVLPNADGTGYYRFGLPRAQLAALGTHVDALDDAEKLIYADAIDAAFRKGDADSADVVAAMRQLAPAQAAPVATALVDRFSWIWRVLARSDAARAQLQAQAGQAFGARMQALGYQRRDGDSADDIALRSELASLLGVTVRLPQPRAALLAQGDAVLAGKGGVLDFAAANPDLLGSALAVAVQERGAPAVDALIAALRTHGEPAQRNAMIGALGTVTDPAQLQKVRDFALTDAVKVGEMANMLMGAHADPASHASMWDWYLAHFDRIVERTGAFTGGKLPALAAAGGCEVAEAERLEAFFTPRLKDLSGAERGLKQTAESIRLCSALKQAQQAGPGAR				NA	NA	NA	NA	NA
BMS020_06394	2577			hypothetical protein	ATGGAGCCGTCGAATGCGTCGATGCAGTCGCGTGTGGGGGGAATCGGGCGCGCGTTGGAGTGGCTGGCCGCGCCCGCGATCCGGGTGATGGACCGGATGCGGTTCGGCCGTCGCGTGGCCCTGCTGGGGGCCGTGGGCATGCTCGCGACCGTGGTCACGCTGGTGTTCTTCGTGCCGATGCTGGGCCGCGATGTCGCCTTCGTCCGCAGCGAGCAGGCCGGCGTGCAGGCCGTGCCGGCGCTGGTGGAGTTGGTTGCGCAGATGCAGCGCCACCGCGGCAACGTCAATCGCCTGCTCAAGGGCGACGCAACGGCCAAGCCGGCGGTGGACAAGGCCGCTGCCGGGGCCGCTGCCGCCAGCGCGCAGCTCGATGCCGTGTTCGCCGATGCGGCCAGGGGGCTCGATCTGGGGGCGCAGTGGCAGGCGCTGCGCGACGGCTGGTCGGCATTGGCGCGCGACAGCGAAGCGCTGACCCCGGCCGAAAGCTTCACCCGCCACAGCGAGCGCATCCACCAGGCCCTGGACTTGCTGGAGGCGGTGTCGCGGCGCAGTGGCCTGATGCTCGATCCGGAACTCGCTTCCTGGGCATTGGCCGACAGCGTCACCCGGCGGTTGCCGGCGTACATGGAACTGATCGGGGTGATGCGTGGCAGCGGTGCCGGCGCGCTCGCCGCCGGCGATACCTCCAGCGCCACGCGCGAGGCGGTGCGCACCACGCGCGGGATCGCCGAGTACGTCTACGACGACAAGCGGGCCGCGTTCGACGAGACGCTCAAGGCCGCGCCGGAGATGGCCGCCATCGTCGCCCAGGCCGAACAGCTGGGCAGCCTGCATGCCGGCTACATGGCCACCACCCAGACACAGTTCGCCGGCACCGAGCCGCCCTCCATTTCGGCCGCGGACTATTTCGCCCAGGGCACGGCGCTGGTGGATGGCGCGCATGCGATCGTGCAGGCCGCGGTGCCGCAGCTGCAGCGCCTGCTGGCGCAGCGGCAGGGCGCGCTGGAGCGCAAACGCGGCATCGTGCTGGCGGTCTGCGTGCTGAGCATCCTGCTGGAGGTCTATTGCTTCCTTGGCTTCATGCGCTCGGTGAGCGTGACGTTGCGGCGCCTGTCGCAGGCCAGCCGCCTGCTCGCTGAGGGGCGCTTTCCCGAGCCGATCGTGCTGCGCTCCGGCGATGAGCTGCAGACCATCGCCGACGAGACCGCGCGGGTCAGCGCCACCTTGCAGCGCTTCGATGCGGCGCAGCGGGCGCTCGCCAGTTGCCACGCGCAGGGCGATACCGATGCCCGCATCGACACCGCCGAGTTCCGTGGCGCCTACGGCGAGATGGCCGCAGCGCTCAATGCGGCGCTGGAGGGCCACATCCAGGTGCAGCAGCGGATGACCGAGGTGATGGCCCACTACGCGCGCGGCGACCTGTCGGTGCGGATCGAGGACATGCCCGGGCGCCGGGCGGAGATCTCCTCGGCGATCAACCAGGTGCGTGACCGCCTGGAGCAGGTCAACCGGCAGATCCTGAGCCTGGCCGAGGCCGCCGCGCGCGGCGAATTCTCGGTGCGTGGCGAGCTGGACGGGCTGGAGTTCGCCTACGCCGAGATGGTGCAGGGCCTGAACCGGCTGATGCGCAATGCCGAAACCGGGCTCGGCGACCTGGACCGCTTCATGAGCGCGCTCGCCGCCGGCGACCTGCGCGTGCGCATGCAGGGCGACTACGCCGGCATGTTCGCCCACCTGCGCGACAGCGCCCACCAGACCGCCGCGCAGCTGAGCGACCTGGTCGGCCGCATCCATGGCTCGGCCGATGCGATCGGACTGGCCGCGGCCGAGATCGGCCAGGGCAACGCCGAGCTGTCCAGCCGCACCGAGCGCCAGGCCGCGGCACTGGAGGAGACGGCCAGCTCCGCGGCGACGTCCTCCACGGCCGTGCATCGCACCACCGCCGAGGCGCAGCGCGCGAGCACCCTGGCATCGGAGGCGCGGCGCTGCGCCGAGAGCGGCGGCGAGGTGATGCTGCGCACGGTGGCGACGATGCGGCGGCTGCAGGACTCCAGTTCCAAGATCCACGAGATCATCGGCCTGATCGATGGCATCGCCTTCCAGACCAACATCCTCGCGCTCAACGCGGCGGTGGAGGCCGCGCGTGCCGGCGAGCAGGGGCGCGGCTTCGCCGTGGTCGCCAGCGAGGTGCGCAGCCTGGCGCAGCGCTGCGCCGCCGCGGCGCGCGATATCGGCCAGCTGATCGCGCACTCGGTCGAGGAGATCACCGAGGGCTCGCAGATGGCCGAAGAGGCCGGTTCGCGGATGGGCGAGATCGTCGGTTCGGTCAATGACGTCGCCGAGATCATGCGCAGCATCGCCGATTCCTCGCGCGAGCAGAGCGGGGAGATCGACCAGATCAGCGGCGCCATCGCGCAGATGGACGCCGGCACGCAGCAGAACGCCGCGCTGGCCGAGGAGGCATCGGCGGCGGCGCGCAGCCTCGAATCGGAGGTCGGCACCCTGGTCGACATGATCCGTACGTTCCGCCTGCCCGCGCAGGCAGCGGCAGGGCGCCCGGCCACCCGCGCGGCCTGA	MEPSNASMQSRVGGIGRALEWLAAPAIRVMDRMRFGRRVALLGAVGMLATVVTLVFFVPMLGRDVAFVRSEQAGVQAVPALVELVAQMQRHRGNVNRLLKGDATAKPAVDKAAAGAAAASAQLDAVFADAARGLDLGAQWQALRDGWSALARDSEALTPAESFTRHSERIHQALDLLEAVSRRSGLMLDPELASWALADSVTRRLPAYMELIGVMRGSGAGALAAGDTSSATREAVRTTRGIAEYVYDDKRAAFDETLKAAPEMAAIVAQAEQLGSLHAGYMATTQTQFAGTEPPSISAADYFAQGTALVDGAHAIVQAAVPQLQRLLAQRQGALERKRGIVLAVCVLSILLEVYCFLGFMRSVSVTLRRLSQASRLLAEGRFPEPIVLRSGDELQTIADETARVSATLQRFDAAQRALASCHAQGDTDARIDTAEFRGAYGEMAAALNAALEGHIQVQQRMTEVMAHYARGDLSVRIEDMPGRRAEISSAINQVRDRLEQVNRQILSLAEAAARGEFSVRGELDGLEFAYAEMVQGLNRLMRNAETGLGDLDRFMSALAAGDLRVRMQGDYAGMFAHLRDSAHQTAAQLSDLVGRIHGSADAIGLAAAEIGQGNAELSSRTERQAAALEETASSAATSSTAVHRTTAEAQRASTLASEARRCAESGGEVMLRTVATMRRLQDSSSKIHEIIGLIDGIAFQTNILALNAAVEAARAGEQGRGFAVVASEVRSLAQRCAAAARDIGQLIAHSVEEITEGSQMAEEAGSRMGEIVGSVNDVAEIMRSIADSSREQSGEIDQISGAIAQMDAGTQQNAALAEEASAAARSLESEVGTLVDMIRTFRLPAQAAAGRPATRAA	PGPT0015710_900	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
BMS020_06395	3126	acrF_2	COG0841	Multidrug export protein AcrF	ATGAAGCTGTCCGACGTCTCGATCACCCGCCCGGTGCTGGCGGTGGTGATGAGCCTGCTGCTGGTGGTGCTGGGGGTGATGTCCTTCACCCGGCTGACCCTGCGCGAGCTGCCGGCGATCGACCCGCCGATCGTCTCGGTCGAGGTCGAATACACCGGCGCCTCGGCGGCGGTGGTGGAAAGCCGCATCACCCAGGTGCTGGAGGATGCGCTGGCCGGCATCGAGGGCATCGAGACGATCGAGGCGCGCAGCCGCAACGGCAGTTCGGACATCAGCATCGAGTTCAAGCCCACGCGCGATGTCGAGGCCGCCGCCAACGACGTGCGCGACGCGGTCAGCCGCGTCACCGACCGTCTGCCCGACCAGGCGCGGCCGCCGGAGATCTCCAAGGTCGAGGCCGACGCCGACCCGATCCTGTGGCTCAACATGAGCTCCAGCGTGATGGATACGCTGCAGCTGTCCGACTACGCCGAGCGCTACGTGGTCGACCGCTTCTCCAGCCTGGACGGCGTGGCCCAGGTGCGCCTGGGCGGGCGCCAGCGCTACGCGATGCGGATCTGGCTGGACCGCGACCAGATGGCCGCGCGCAACCTGACCGTGGCCGACGTCGAGGACGCGCTGCAGAACGAGAACGTCGAGCTGCCGGCCGGCAGCCTGGAATCGGCGCAGCGCGATTTCACCCTGCGGGTGGAGCGCAGCTACATCGCGCCGGAGGACTTCGCCCGGCTGCCGCTGGGCAAGGGCGAGGACGGTTACGTGGTGCGGCTGGGCGATGTGGCCAAGGTCGAGCTGGCCTCGGCCGAGCGCCGGGCGTATTTCCGCAGCAACGGCGAGCCCAACATCGGCCTGGGCATCGTGCGCAACTCCACCGCCAACGCGCTGGACGTGGCGCGCGAGGCGCGCGCGCGCGCCGAGGAGATCCAGGCCTCGCTGCCCAAGGGCACGCGGATCTTCGTCGCTTTCGATACCACCACCTTCATCGACGCCGCGGTCGAGCGCGTCTACCACACGCTGGTGGAGGCGGTGGTGCTGGTGCTGGTGGTGATCTGGGTGTTCCTGGGCAGCGTGCGTGCGGCGCTGATTCCGGCGGTGACGGTGCCGGTGTGCCTGGTGGCGGCGTTCATCGCGCTGTACGCATTCGATTTCTCGATCAACCTGCTGACCCTGCTGGCGCTGGTGCTGTGCATCGGGCTGGTGGTCGACGACGCGATCGTGGTGGTGGAGAACATCCAGCGCCGCATCGACCTGGGCGAGCCGCCACTGGTCGCGGCGCGGCGCGGCACCGCGCAGGTGGCGTTCGCGGTGATCGCCACCACCGCGGTGCTGGTGGCGGTGTTCCTGCCGGTGGGCTTCCTCGAAGGCAACACCGGGCGGCTGTTCCGCGAACTGGCGGTGGCGCTGGCCGCGGCGGTGGCGATCTCGGCGTTCGTCGCGCTGACGCTGACGCCGATGATGTCGTCCAAGCTGCTCAAGCCGCATGCGCGCGAGAAGCCCAACCGCTTCCACCAGTGGTTCGATGGGCGCATGCAGGCGGTCAGCGGCGCCTACCGGCGCTCGCTGGAGCGCAGCGTCGGCCGCCACTGGCTGTTCGTCGCGCTGATGCTGGCCGCGCTCGGCGCCAGCGCGTGGCTGGCTGGACGCATCCCGTCCGAGCTGGCGCCGGCCGAGGACCGCGGCAGCTTCCAGATCATGATCGATGGCCCGGAAGGCGCCGGCTTCGACTACACGGTCGGGCAGATGCACCAGGTCGAGGCGCTGCTGGCGCCATACGTGGGCGAGGGCAAGCCGATCGTGCGCGCCAACCCGCGCGTGCCCGGTGGCTTCGGCAGCAGCGAGGAGATGCATACCGGCCGGGTCAGCGTGTTCCTGCAGGACTGGCGCGAACGCACCCAGCCAACCACCGAGGTCGCCGACGAGATCCAGGGTCAGCTCGGTGCGCTCAGCGGCGTGCGTGCGCGCACCCAGGTCGGCGGCGGTCTGGTGCGCAGCCGCGGGCAGCCGTTCCAGCTGGTGCTGGGCGGGCCGGAGTACGCCGAGATCGCGCAGTGGCGCGACCGCATCCTGCAGCGCATGGAGACCAACCCCGGGCTGGTCGGTGCTGATTCGGACTACAAGGAAACCCGGCCGCAGATGCGGGTCAACATCGACCGCCTGCGCGCGGCGGACCTGGGCGTGCCGGTCACCGAGATCGGCAGCGCGCTGGAATCGCTGATGGGGTCGGTGCGGGTGACCACCTTCGTCGACAACGGCGAGGAGTACGACGTGATGCTGCAGTCCGGGCGCAGCGGACGCATGGGCCCGGAGGACCTGGCCGCGATCCGGGTGCGTTCGGCCAGCGGCGCGCTGATCCCGCTGTCCAACCTGGTCAGCCTCAGCGAGGTCGCCGAGGCCGGCACCTTGAACCGCTTCAACCGGCTGCGCTCGATCACCATCAGCGCCGGGCTGGCCCCGGGCTATCCGCTCGGCGAGGCGATCGCCTGGGTGCAGCAGGTCGCGCGCGAGGAACTGCCGGACTACGCGCAGCTGGACTGGAAGGGCGAATCGCGCGAGTACCAGCAGTCCGGCAGCGCGGTGCTGCTGACCTTCGCGATGGCGTTGCTGGTGGTGTACCTGGTGCTGGCGGCGCAGTTCGAGAGCTTCGCCCATCCACTGGTGATCATGCTGACGGTGCCGCTGGCGGTGCTCGGTGCGCTGGTCGGACTGTGGGCCACCGGCGGCACGCTCAACCTGTTCAGCCAGATCGGCATCGTGATGCTGGTCGGCCTGGCGGCGAAGAACGGCATCCTGATCGTCGAATTCGCCAACCAGCTGCGTGATGAGGGCCGCAGCGTGCGCGAGGCGATCGTCGAGTCGGCGGCGGTGCGCCTGCGGCCGATCCTGATGACCTCGATCGCCACCGTGGTCGGCGCGATCCCGTTGGTGCTGGCCGGCGGCCCGGGCTCGGCCAGCCGCGCCACGATCGGCGTGGTGGTGATCTTCGGCGTGGCGCTGTCGACGCTGCTGTCGCTGTACGTGGTGCCGGCGTTCTACACGCTGATCGCCCCGTACACGCGCTCACCGGAAGCGCTGGGGCGCGAACTGGCGGCGCTGGAGGCGCGCACGCCCTCGGTCGGCGGCCACGCCTGA	MKLSDVSITRPVLAVVMSLLLVVLGVMSFTRLTLRELPAIDPPIVSVEVEYTGASAAVVESRITQVLEDALAGIEGIETIEARSRNGSSDISIEFKPTRDVEAAANDVRDAVSRVTDRLPDQARPPEISKVEADADPILWLNMSSSVMDTLQLSDYAERYVVDRFSSLDGVAQVRLGGRQRYAMRIWLDRDQMAARNLTVADVEDALQNENVELPAGSLESAQRDFTLRVERSYIAPEDFARLPLGKGEDGYVVRLGDVAKVELASAERRAYFRSNGEPNIGLGIVRNSTANALDVAREARARAEEIQASLPKGTRIFVAFDTTTFIDAAVERVYHTLVEAVVLVLVVIWVFLGSVRAALIPAVTVPVCLVAAFIALYAFDFSINLLTLLALVLCIGLVVDDAIVVVENIQRRIDLGEPPLVAARRGTAQVAFAVIATTAVLVAVFLPVGFLEGNTGRLFRELAVALAAAVAISAFVALTLTPMMSSKLLKPHAREKPNRFHQWFDGRMQAVSGAYRRSLERSVGRHWLFVALMLAALGASAWLAGRIPSELAPAEDRGSFQIMIDGPEGAGFDYTVGQMHQVEALLAPYVGEGKPIVRANPRVPGGFGSSEEMHTGRVSVFLQDWRERTQPTTEVADEIQGQLGALSGVRARTQVGGGLVRSRGQPFQLVLGGPEYAEIAQWRDRILQRMETNPGLVGADSDYKETRPQMRVNIDRLRAADLGVPVTEIGSALESLMGSVRVTTFVDNGEEYDVMLQSGRSGRMGPEDLAAIRVRSASGALIPLSNLVSLSEVAEAGTLNRFNRLRSITISAGLAPGYPLGEAIAWVQQVAREELPDYAQLDWKGESREYQQSGSAVLLTFAMALLVVYLVLAAQFESFAHPLVIMLTVPLAVLGALVGLWATGGTLNLFSQIGIVMLVGLAAKNGILIVEFANQLRDEGRSVREAIVESAAVRLRPILMTSIATVVGAIPLVLAGGPGSASRATIGVVVIFGVALSTLLSLYVVPAFYTLIAPYTRSPEALGRELAALEARTPSVGGHA	PGPT0003280_2073	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003280-acrB|acrE|mexB|adeJ|smeE|mtrD|cmeB-K18138	NA	NA
BMS020_06396	1062	bepF_2		Efflux pump periplasmic linker BepF	ATGCCCTCCCGACACCGCGCGCGTGCCGCGGCCGCCTGCCTGCTGGCCTTCGGGCTGCTTGGCTGCAGCCGTCAGGCCCACGAGCCTGCCGCCAGTGCCCCGATCCCCGTCACCGTGCAGAAGGTGGCCGAACGCCCGTGGAATTCCACCGTGCAGTCCATCGCCACGGTGCGTGCGCGCGAGTCGGTGGCGCTGACCGCCGCGGTCAGCGACGTGGTCGAGAAGGTGTATTTCGAGAGCGGCGACGAGGTCCAGGCCGGGCAGTTGCTGGCCAGCCTGCGCGGCAATTCGCAGCAGGCGGCACTGACCGCCGCACAGGCCACCTTCGATGAGGCCGACCAGCTCTACCGTCGCCAGCAGGAGCTGATCGGCGCGCAGCTGGTGGCGAAGTCGACCGTGGACACCCAGCGTGCGCTGCGCGACGCGGCGCTGGCGCGGGTGCAGCAGATGCGCGCCGACATCGGCGACCGCGAGGTGCGCGCGCCGTTCGCCGGCGTGCTCGGCATCCGCCAGATCAGCCCCGGCTCACTGGTCACCGCCAGCACGGTGATCGCCACGCTCGACGCGGTGGACCGCATGCACGTGGATTTCCAGGTGCCGGAGGCGCAGCTGGGCCTGGTGCGGCTGGGCCACGCGGTCAGTGGCAGCGCCGCGGCCTATCCGGGCGAGCGCTTCGACGGCACGGTGTCGGCGATCGACTCGCGCATCGACGAGGCCACCCGCGCGATCACCGTGCGCGCCGATTTCGCCAACGCCGACCGTCGCCTGCGCCCGGGCATGCTGCTGGACGTACGCCTGTACCAGCCGGCGCGGCAGGCACTGGTGATCCCGGAGATCGCGGTGGTGCAGGTCGGGCGCGAGGCGTTCGTGTACCGGGTCGGCGCCGACGGCCGCGTCGAGCGTGCCGACGTGCGTACCGGCGAGCGCCGCGACGGGCAGGTCGAGATCCTCGCCGGCCTGCAGGCCGGGCAGACCGTGGTGATCGACGGCACCGGCAAGCTGCGGCCCGGGCTGAAGGTGCGTGACGCCGCCGCCGCGCCGGCCGGGACGGGGCGCGGATGA	MPSRHRARAAAACLLAFGLLGCSRQAHEPAASAPIPVTVQKVAERPWNSTVQSIATVRARESVALTAAVSDVVEKVYFESGDEVQAGQLLASLRGNSQQAALTAAQATFDEADQLYRRQQELIGAQLVAKSTVDTQRALRDAALARVQQMRADIGDREVRAPFAGVLGIRQISPGSLVTASTVIATLDAVDRMHVDFQVPEAQLGLVRLGHAVSGSAAAYPGERFDGTVSAIDSRIDEATRAITVRADFANADRRLRPGMLLDVRLYQPARQALVIPEIAVVQVGREAFVYRVGADGRVERADVRTGERRDGQVEILAGLQAGQTVVIDGTGKLRPGLKVRDAAAAPAGTGRG	PGPT0003275_5742	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585	NA	NA
BMS020_06397	1893	cysNC	COG0529	Bifunctional enzyme CysN/CysC	ATGGACGCGCTGACCACGCCCGCCGCCTCCGGCATCGCCGACTACCTCAAGGCCCACGAGACCAAACCGCTGCTGCGCTTCATCACCTGCGGCAGCGTCGACGACGGCAAGAGCACGCTGATCGGGCGGCTGCTGTACGACAGCAAGCGCCTGTTCGACGACCAGCTGGCCGCGCTGGAGAACGACAGCCGTCGCCACGGCACCCAGGGCGAGCGGATCGATTACGCACTGCTGCTCGATGGCCTGGCCGCCGAGCGCGAGCAGGGCATCACCATCGACGTGGCCTACCGCTACTTCGATACCGACAAGCGCAAGTTCATCGTCGCCGACTGCCCCGGCCACGAGCAGTACACCCGCAACATGGCCACCGGTGCGTCCACTGCGGATGTCGCCGTGGTGCTGGTCGATGCGCGCAAGGGGCTGCTGCCGCAGACCCACCGTCACAGCTTCATCGTCTCGCTGCTGGGCATCTCGCACGTGGTGCTGGCGGTGAACAAGATGGATCTGGTCGGCTACGACCAGGCCACGTTCGAGGCGATCGTCGCCGGCTACCGCGCGCTCGCCGCGCAGCTGGGCATCGCCAGCGTGCACTGCATCCCGCTGTCGGCGCTGGAAGGCGACAACCTGTCCACGCGCTCGGCGAACATGCCGTGGTACGCAGGCCCGGCGCTGCTGCAGCACCTGGAGACGGTCGAGCTCGGCGAGCGCGACGCGGTCAGCGGGCTGCGCCTGCCGGTGCAGTGGGTCAACCGCCCGAACCAGCATTTCCGCGGCTTCGCCGGCACGATTGCCGCTGGCGAGGTGGCGCCCGGTGATGCGGTGGTGGTGCTGCCGTCGGGGCGGCGCTCGCGCGTGGCGCGGGTGCTGGACGCCAATGGCGACGTGGTCCATGCACGCGCCGGCCAGGCGGTGACGCTGACCCTGGAGGACGAGATCGACATCAGCCGCGGCGACGTGATCGCCGCCGCCGGCGATCCGCCCGAGGTCGCCGACCAGTTCGCCGCGCACCTGCTGTGGATGGACGATGCGGCGCTGCTGCCGGGGCGGCCGTACTGGCTGAAGATCGGCGCGCGCACCGTCGCCGCCAGCGTCAGCGAGATCAAGCACCGCATCGACGTGAACACCCAGGACAAGCTGGCGGCCAAGCGGCTGGCGCTCAACGAGGTCGGCTACTGCAACCTGTCGCTGGACGAGCCGATCGCGTTCGAGGCCTATGCGCGCAACCGCGTGCTCGGCGGCTTCATCCTGATCGATCGCCAGAGCAATGCCACCGTCGCTGCCGGCACGCTGGATTTCGCGCTGCGCCGCGCCGGCAACGTGCACTGGCAGCACCTGGACGTGGACCGCGCCGCGCGTGCGCGGATCAAGGGCCAGAGCCCGAAGGTGCTGTGGTTCACCGGCCTGTCCGGCGCCGGCAAATCGACCGTGGCCAACCTGGTCGACAAGCGCCTGCACGCGCTGGGCTATCACACCTTCATCCTCGACGGCGACAACGTGCGCCACGGCCTCAACCGCGATCTGGGCTTCACCGACGAGGACCGGGTGGAGAACATCCGTCGCGTCGCAGAGGTCGCCAAGCTGATGACCGACGCTGGCCTGATCGTGCTGGTCAGCTTCATCTCGCCGTTCCGCGCCGAGCGGCAGATGGCGCGCGAGCGCTTCGGCGCCGGCGAGTTCGTCGAGGTGTTCGTCGACGTACCGCTGGCGCTGGCCGAGGCGCGCGACGTCAAGGGCCTGTACGCCAAGGCGCGGGCCGGGCAGATCCCCAATTTCACCGGCATCGACTCGCCGTACGAGGCGCCCGAAGCGCCGGAACTGCACCTGCACGCCGGCGAGGCGGCGCCGGAGCAGCTGGCCGAGCAGGTGCTGGCGAGCCTGGGCATCGCGCCCTGA	MDALTTPAASGIADYLKAHETKPLLRFITCGSVDDGKSTLIGRLLYDSKRLFDDQLAALENDSRRHGTQGERIDYALLLDGLAAEREQGITIDVAYRYFDTDKRKFIVADCPGHEQYTRNMATGASTADVAVVLVDARKGLLPQTHRHSFIVSLLGISHVVLAVNKMDLVGYDQATFEAIVAGYRALAAQLGIASVHCIPLSALEGDNLSTRSANMPWYAGPALLQHLETVELGERDAVSGLRLPVQWVNRPNQHFRGFAGTIAAGEVAPGDAVVVLPSGRRSRVARVLDANGDVVHARAGQAVTLTLEDEIDISRGDVIAAAGDPPEVADQFAAHLLWMDDAALLPGRPYWLKIGARTVAASVSEIKHRIDVNTQDKLAAKRLALNEVGYCNLSLDEPIAFEAYARNRVLGGFILIDRQSNATVAAGTLDFALRRAGNVHWQHLDVDRAARARIKGQSPKVLWFTGLSGAGKSTVANLVDKRLHALGYHTFILDGDNVRHGLNRDLGFTDEDRVENIRRVAEVAKLMTDAGLIVLVSFISPFRAERQMARERFGAGEFVEVFVDVPLALAEARDVKGLYAKARAGQIPNFTGIDSPYEAPEAPELHLHAGEAAPEQLAEQVLASLGIAP	PGPT0002395_498	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-INHIBITION_OF_SALICYLIC_ACID|JASMONIC_ACID	ADAPTION_TO_PIS_REGULATION_BY_Nod_FACTORS,PGPT0002395-cysNC-K00955	NA	NA
BMS020_06398	909	cysD_2	COG0175	Sulfate adenylyltransferase subunit 2	ATGAGTCTCCCAGCCCTGTCCCACCTCGATCGCCTCGAGGCCGAAAGCATCCACGTCCTGCGCGAAGTCGCCGCGGAATTCCGCAACCCGGTCATGCTGTATTCGGTCGGCAAGGACAGCTCGGTGCTGCTGCACCTGCTGGTCAAGGCGTTCGCGCCGGCGCCGCCGCCGATTCCGCTGCTGCACGTGGACACGCGCTGGAAGTTCAGGGAGATGATCGCCTTCCGCGACCGCCGCGCCGCCGAGACCGGCGTGGACCTGCGCGTGCACATCAATCCGGACGGCATCGCCCAGGGCATCGGCCCGTTCACCCACGGCGCCACCGTGCACACCGACGTGATGAAGACCCAGGGGCTGAAGCAGGCGCTGGACGCCGGCCGCTTCGACGCGGCGATCGGTGGGGCGCGCCGCGACGAGGAGAAGTCGCGGGCCAAGGAGCGGGTGTTCTCGTTCCGCAACGACAAGCACCGCTGGGACCCGAAGAACCAGCGCCCGGAGCTGTGGAACCTGTACAACGCGCGCATCCACCAGGGCGAGAGCGTGCGGGTGTTCCCGCTCAGCAACTGGACCGAGCTGGATATCTGGCTGTACATCTACCGCGAGAAGATCCCGGTGGTGCCGCTGTACTTCGCCGCCGAGCGGCCGGTGGTCGAGCGCGACGGCGCGCTGATCATGGTCGACGACGAGCGCATGCCGCTGGCCGAGGGCGAGGTGCCGCAGCTGCGGTCGGTGCGCTTCCGCACGTTGGGCTGCTATCCGTTGACCGGCGCGATCGAATCGCAGGCCGATTCGCTGGAGGCGATCATCGCCGAGATGCTGGTGGCCACCAGCTCCGAACGCCAGGGCCGGGTGATCGACCAGGATCCGGGTGCATCGATGGAGAAGAAGAAGCTGGAGGGCTATTTCTGA	MSLPALSHLDRLEAESIHVLREVAAEFRNPVMLYSVGKDSSVLLHLLVKAFAPAPPPIPLLHVDTRWKFREMIAFRDRRAAETGVDLRVHINPDGIAQGIGPFTHGATVHTDVMKTQGLKQALDAGRFDAAIGGARRDEEKSRAKERVFSFRNDKHRWDPKNQRPELWNLYNARIHQGESVRVFPLSNWTELDIWLYIYREKIPVVPLYFAAERPVVERDGALIMVDDERMPLAEGEVPQLRSVRFRTLGCYPLTGAIESQADSLEAIIAEMLVATSSERQGRVIDQDPGASMEKKKLEGYF	PGPT0002405_812	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002405-cysD-K00957	NA	NA
BMS020_06399	1854	cysJ_3	COG0369	Sulfite reductase [NADPH] flavoprotein alpha-component	ATGACCGCCGCCAACCCCGCACTGCCCCCCAGCCCCCTGCCCGAGGAGCGCAGGACGCTGCTGGCGCGGCTGGTCGACGGGCTGGACGGCCCCTCGCTGTGGTGGCTGTCCGGCTACACCGCCGGGCTCGCCCAGGGCCAGGGCCTGGCTCCGCCGTCGCTGGCGCTGGTCGCCGGCGGCGCCCCGGCCGCCGCGCCCGCCGCCGGGCAGCGCCTGACCGTGCTGTATGGCAGCCAGACCGGCAATGCCCGGCGCGAGGCCGAACGCCTGGCCGCCGAGGCCGAGGCCGCCGGGCTGGCCGCACGGGTGGTGCGCGCCGACACCTACCCGACCCGCGAACTGGCCGGCGAGCGCCTGCTGTACGTGGTGATCAGCACCCAGGGCGAGGGCGACCCACCGGACGATGCGATCGGCTTCGTCGAATTCCTGGCCGGGCGCCGCGCGCCCAAGCTGCCGGAGCTGAAGTTCGCGGTACTCGGCCTGGGCGATTCCAGCTATGCCGACTTCTGCGGCATCGGCCGCCGCATCGACAACCGCTTGGCCGAGCTCGGCGCGACCCGCCTGCAGCCGCTGGGCGAGGCCGACCTGGACATCGAGACGGTCGCCGCACCGTGGCGCCGGCAGGCGCTGGTGCAGGCGCGCGGGCTGCTCGACAGCGCACCGGCCGGCAACGTCACCCCGCTGCGGCATGCGGCCCCGGCCGCGCATGCGTGGACGCCGACGCACCCGTTCAGCGCCGAGCTGCTGGCCAACCAGGTCATCAGCGGGCGCGAGTTCAAGGGCCCGGCGTTCCGGGTCTACGGCGCCGCCGGCAAGCAGGTGCGGCACCTGGAGCTGTCGCTGGACGGCAGCGGGCTGAGCTATGAGCCGGGCGACGCGCTCGGCGTGGTGCAGCGCAATCCGGCGCCGCTGGTCGCGACGGTGCTGGACGTGCTGCAACTGGATGGTCACGCCGAAGTCACCGTCGGCACCGAGACTCTGCCCCTGACCGAGTGGCTCGCCGCCCGGCGCGAACTGACCAAGCTGTCGCGGCCGCTGCTGGCCGCGCACGCCGAACGCAGTGGCGCCGACGAGCTGAAGCGGCTGCTCGACCCTACCCAGCCCGCCGGCCTGGCGACGCTGCTGTCGGACCACCAGCTGGTCGACGTGCTGCGCCGCTGGCCGGCGGATTGGGACCAGCAGGGCCTGGTCGAGGCGCTGCGCCCGCTGGCGCCGCGGCTGTACTCGATCGCCTCCAGCCGCAAGCGGGTCGGCGACGAGGTCCACCTCACCGTCGACGAGCTGCGCTACCACGCGCACGGCCACGAGCACCTCGGTTCGGCCAGCGGCTTCCTCGCCGCGCTCGCCGAGGGCGCGCACGCCCCGGTCTACGTCGAGCCCAACGAACGCTTCCGGGTTCCTGCCGAGGCCAGCCGCGACATCATCATGATCGGCCCCGGCACCGGCGTGGCGCCGTTCCGCGGCTTCGTGCAGGAACGCGCCGAGACCGGCGCACCCGGCCGCAACTGGCTGTTCTTCGGCGCCCAGCATTTCAACCGCGACTTCCTCTACCAGAGCGAATGGCAGCAGGCGCTGCAGCGCGGCGAGCTGCACGAACTGGACCTGGCCTTCTCGCGCGACCAGGCCGAGAAGATCTACGTGCAGCACCGCCTGCGCCAGCGCGGCCGCGACCTCTACGCCTGGCTGCAGGCAGGCGCGCACCTGTACGTGTGCGGCGCGATCGGCATGGGCAAGGACGTGCACGCGGCCCTGCTGGAGATCGTCGCCACGCATGGCGGGCTGGATGCCGACGCCGCGCGCGACTACCTCACCACCTTGCAGACCGAAGGACGCTACAGCCGCGATGTCTATTGA	MTAANPALPPSPLPEERRTLLARLVDGLDGPSLWWLSGYTAGLAQGQGLAPPSLALVAGGAPAAAPAAGQRLTVLYGSQTGNARREAERLAAEAEAAGLAARVVRADTYPTRELAGERLLYVVISTQGEGDPPDDAIGFVEFLAGRRAPKLPELKFAVLGLGDSSYADFCGIGRRIDNRLAELGATRLQPLGEADLDIETVAAPWRRQALVQARGLLDSAPAGNVTPLRHAAPAAHAWTPTHPFSAELLANQVISGREFKGPAFRVYGAAGKQVRHLELSLDGSGLSYEPGDALGVVQRNPAPLVATVLDVLQLDGHAEVTVGTETLPLTEWLAARRELTKLSRPLLAAHAERSGADELKRLLDPTQPAGLATLLSDHQLVDVLRRWPADWDQQGLVEALRPLAPRLYSIASSRKRVGDEVHLTVDELRYHAHGHEHLGSASGFLAALAEGAHAPVYVEPNERFRVPAEASRDIIMIGPGTGVAPFRGFVQERAETGAPGRNWLFFGAQHFNRDFLYQSEWQQALQRGELHELDLAFSRDQAEKIYVQHRLRQRGRDLYAWLQAGAHLYVCGAIGMGKDVHAALLEIVATHGGLDADAARDYLTTLQTEGRYSRDVY	PGPT0002795_1175	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002795-cysJ-K00380	NA	NA
BMS020_06400	1704	cysI_2		Sulfite reductase [NADPH] hemoprotein beta-component	ATGAGCAACCATTCCGTCGAAGACATCAAGGCCGAGAGCCGCCGCCTGCGCGGTTCGCTGCTGCAGAGCCTGGCCGACCCGGTCACCGGCGCGCTGCGCGAGGACGACCAGACGCTGATCAAGTACCACGGCAGCTACCAGCAGGACGACCGCGACATCCGCGACGAGCGCCGCCGGCAGAAGCTCGAGCCCGCTTACCAGTTCATGATCCGCACCCGCACCCCCGGCGGCGTGGTCAGCCCGCAGCAGTGGCTGGCGCTGGACAGCATTGCCACCCGCTATGCCAACCACTCGCTGCGCATCACCACCCGCCAGGCGTTCCAGTTCCACGGGGTGATCAAGCGCGAGCTGAAGGCGACGATGCAGGCGATCAACGCCACCCTGATCGACACGCTGGCCGCCTGCGGCGACGTCAACCGCAACGTGCAGGTCGCCGCCAACCCGCTGCTGTCGAGCGCGCACGCCACGCTGTACGCCGATGCCGCGCGCGTGTCCGAGCACCTGTTGCCCAACACCCGCGCCTACTACGAGATCTGGCTGGACGAGCAGCAGGTCGCCGGCAGCGGGGAGGAAAGCGAGCCGATCTACGGCGACAAGTACCTGCCGCGCAAGTTCAAGATCGGCTTCGCATTGCCGCCGCTCAACGACGTCGATGTATTCGCCAACGACCTGGGCTTCATCGGCGTGATCGAGGACGGCGAGCTGGTCGGCTACAACCTCAGCATCGGCGGCGGCATGGGCGCCAGCCACGGCGATGCGGAGACCTATCCGCGCGTGGCCAATGTGGTCGGCTTCGTCACGCGCGAGCAGCTGCTCGATGTCGCCACCGCGGTGGTCACCACCCAGCGCGACTTCGGCAACCGCGAGGTGCGCAAGCGCGCGCGCTTCAAGTACACGATCGACGATCGTGGCCTGGATTTCATCAAGGCCGAGATCGAACGCCGTGCCGGGCTGTCTCTCCAACCGGCACGTGCGTTCGCCTTCGACCACAACGGTGACCGCTATGGCTGGGTCGAAGGCGAAGACGGGCGCTGGCACCTGACCCTGTCGCTGGCCGCCGGGCGCATCGCCGACACCGAGGCCGGCGCCCAGCTCAGCGGGCTGCGCGAGATCGCCAAGCTGCACACCGGCGAATTCCGCATGACCGCCAACCAGAACCTGGTGATCGCCGGCGTGCCGGCCGCCGCGCGTGCACAGATCGACACGCTGGTGGCGCAGTACGGGCTGGATGCCGGCAACGCGCTGCCGAGTGCGCTGGCGCGCGGCGCGATGGCCTGCGTGGCGCTGCCGACCTGCGGCCTGGCGATGGCCGAGGCCGAGCGCTACCTGCCCGACTTCAGCGCGCGCCTGCAGCCGCTGCTGGAACGCCACGGGCTGGTCGACGCACCGATCGTGCTGCGCATCTCCGGCTGCCCGAACGGCTGCTCGCGGCCATACCTGGCCGAGATCGCGCTGGTCGGCAAGGCCCCCGGCCGCTACAACCTCATGCTCGGCGGCAGCCACCACGGCCAGCGCCTGAACACGCTGTACCGCGAGAACATCGACGAAGCGGACATCCTCGACGCGCTCGATCCGCTGTTCGCGCGGTACGCCGCCGAGCGCCTGCCCGACGAACGTTTCGGCGACTTCCTGCACCGCAGCGGCGCGATCGCCCTGCCCGCCTACCCCACCCACCGCGAACTTTCCCTGGAACTGCACGCATGA	MSNHSVEDIKAESRRLRGSLLQSLADPVTGALREDDQTLIKYHGSYQQDDRDIRDERRRQKLEPAYQFMIRTRTPGGVVSPQQWLALDSIATRYANHSLRITTRQAFQFHGVIKRELKATMQAINATLIDTLAACGDVNRNVQVAANPLLSSAHATLYADAARVSEHLLPNTRAYYEIWLDEQQVAGSGEESEPIYGDKYLPRKFKIGFALPPLNDVDVFANDLGFIGVIEDGELVGYNLSIGGGMGASHGDAETYPRVANVVGFVTREQLLDVATAVVTTQRDFGNREVRKRARFKYTIDDRGLDFIKAEIERRAGLSLQPARAFAFDHNGDRYGWVEGEDGRWHLTLSLAAGRIADTEAGAQLSGLREIAKLHTGEFRMTANQNLVIAGVPAAARAQIDTLVAQYGLDAGNALPSALARGAMACVALPTCGLAMAEAERYLPDFSARLQPLLERHGLVDAPIVLRISGCPNGCSRPYLAEIALVGKAPGRYNLMLGGSHHGQRLNTLYRENIDEADILDALDPLFARYAAERLPDERFGDFLHRSGAIALPAYPTHRELSLELHA	PGPT0002790_1136	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002790-cysI-K00381	NA	NA
BMS020_06401	729	cysH_3	COG0175	Phosphoadenosine phosphosulfate reductase	ATGACCGCCCTGCCTGCCTCCAACGACCACGACCACGCCGCCACGCACGACCTCGACGCGGTCAATGCCCGCCTGGAGACGCTCGATGCCGCCGCGCGGGTGGCCTGGGCGCTCGAACACGGCCCCAAGCAGGCCGCGTTGTCGTCGAGCTTCGGCGCGCAGTCGGCAGTCGCGCTGCACCTGCTGACCCGGCAGATGCCCGACATCCCGGTGATCCTGGTCGACACCGGCTACCTGTTCCCGGAGACCTACCGCTTCGCTGACGAACTGATCGACCGGCTCAAGCTCAACATCCGCATCTTCCGCCCGCTGGTCAGCCGCGCCTGGATGGAGGCGCGCCATGGCCGGCTGTGGGAACAGGGCGTGGTCGGCATCGAGCAGTACAACAACCTGCGCAAGGTCGAGCCGATGCGCCGGGCGCTGGACGAGCTCGATGTCGGCACCTGGTTCACCGGGCTGCGCCGCCAGCAGTCGGCCAGCCGCGCCAACACCCCGATCGTGCAGCGGCGCGGCGAGCGCCTGAAGATCAGCCCGATCGCCGACTGGAGCGACCGCGACATCTGGCAGTACATGAAGGCGCACGACCTGCCCTATCACCCGCTGTGGGAACAGGGCTACGTGTCGATCGGCGACTTCCACACCACCCGGCGCTGGGAGCCGGGCATGCGCGAGGAAGACACCCGCTTCTTCGGGCTCAAGCGCGAGTGCGGCATCCACGAGGACATCTGA	MTALPASNDHDHAATHDLDAVNARLETLDAAARVAWALEHGPKQAALSSSFGAQSAVALHLLTRQMPDIPVILVDTGYLFPETYRFADELIDRLKLNIRIFRPLVSRAWMEARHGRLWEQGVVGIEQYNNLRKVEPMRRALDELDVGTWFTGLRRQQSASRANTPIVQRRGERLKISPIADWSDRDIWQYMKAHDLPYHPLWEQGYVSIGDFHTTRRWEPGMREEDTRFFGLKRECGIHEDI	PGPT0002785_2358	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002785-cysH-K00390	NA	NA
BMS020_06402	1623	acsA_3	COG0365	Acetyl-coenzyme A synthetase	ATGAGCGCACGGTTGCGGCCCGACTATTTCGAGTTCGACGATCCGCTGGCCGCCCTGCCCACGCCAGCCAATGCCTGGCAGGCCTGCTGCGGCGACCACCTCGGCAGCGACCGCGAGGCGCTGTGCTGGGTCGACCTGCAGCGCCAGGTCCACCGCTACAGCTTCGAGCAGCTCGACCGCTGGTCGGCGCAGTTCGCGCACCTGCTGGTGGCGCGCGGCGTGCGTCCCGGCGACCGCGTCGCCGGGCTGCTGCCGCGGCGGCTGGAACTGCTGGTGGTGGTGCTGGGCTGCTGGCGCGCGGGCGCGGTCTACCAGCCGCTGTTCACCGCGTTCGGACCGAAGTCGATCCAGCACCGGCTCGAGGCCGCGCAGACCCGGCTGCTGGTCGCCCACCACGACCAGCTCGCCAAGCTGCAGGAGATCCCCGACCTGCCCGCGCTGCTGCCGCTCGATGGCAGCGGCCAGGCCCAGGACGGCTTCTGGCGTGCGCTGGAGCCACTGCCGGCCACGTTCGCGCCGGTGCCACTGCCGGCCGACGCGCCATTCCTGATGATGTTCACCTCCGGCACCTCCGGCCTGCCCAAGGCCCTGCCGGTGCCGCTGCGCGCGATGCGCGCGTTCGCCGCCTACATGCGCTACGCGGTCGAGCTGCGTGACGACGACGTGCTGTGGAACATCGCCGATCCAGGCTGGGCGTACGGCCTGTACTACGCGATCACCGGCCCGCTGCTGCTCGGCCACTCGACCACCTTCCACGAAGGCGCGTTCACCCCGGACAGCTGCTACCGCACGATCGCCGAACTCGGCATCACCAACCTGATGGGTTCGCCGACCGCGTTCCGGATGCTGATGGCGGCCGGCGCGGATGCTGCGGCAGCGGTCAAGGGCCAGCTGCGCGCGGTCAGCAGCGCCGGCGAGCCGCTCAATCCGGAAGTGATCCGCTGGTTCGGCGAGCACCTGGGCGTGGTGATCCACGACCACTACGGCCAGACCGAGACCGGCATGACGCTGTGCAACCACCACGGGCTGACCCATCCGGTACGCAGCGGCAGCGCCGGTTTCGCCCTGCCCGGCTATCGGCTGGCCGTGCTCGACGCCGATGGCGCGCCACTGCCGGCCGGCACGCCGGGCCAGCTTGCGGTCGACGTCGCCGCGTCGCCTGCGCTGTTCTTCAGCGGCTATTGGCAGCAGCAGCGCCAGCCGTTCGCCGGCGGCTACTACCTGACCGGCGACACCGTCGAGCTCAACGACGATGGCAGCATCAGCTTCGTCGGCCGCAGCGACGACGTGATCACCTCGTCGGGCTACCGGATCGGCCCGTTCGATGTCGAAAGCAGCCTGATCGAACACCCCGACGTGGTCGAGGCGGCGGTGGTCGGCAAGCCCGATGCCCAACGCACCGAGCTGGTCGTGGCCTACGTGGTGCTGCGCGACGGCGTGCAGGGCGACGAAGCGCTGGGCCACGCGCTGGCCGCACTGGTCAAGCAGCGGCTGTCGGCGCACGCGTATCCGCGCGAAGTGCACTTCGTCGCCGACCTGCCGAAGACGCCGAGCGGCAAGATCCAGCGCTTCCTGCTGCGCCAGGCCTTGCTGGCGCAGGCGGCAGCGCCGTCATCAGCCTGA	MSARLRPDYFEFDDPLAALPTPANAWQACCGDHLGSDREALCWVDLQRQVHRYSFEQLDRWSAQFAHLLVARGVRPGDRVAGLLPRRLELLVVVLGCWRAGAVYQPLFTAFGPKSIQHRLEAAQTRLLVAHHDQLAKLQEIPDLPALLPLDGSGQAQDGFWRALEPLPATFAPVPLPADAPFLMMFTSGTSGLPKALPVPLRAMRAFAAYMRYAVELRDDDVLWNIADPGWAYGLYYAITGPLLLGHSTTFHEGAFTPDSCYRTIAELGITNLMGSPTAFRMLMAAGADAAAAVKGQLRAVSSAGEPLNPEVIRWFGEHLGVVIHDHYGQTETGMTLCNHHGLTHPVRSGSAGFALPGYRLAVLDADGAPLPAGTPGQLAVDVAASPALFFSGYWQQQRQPFAGGYYLTGDTVELNDDGSISFVGRSDDVITSSGYRIGPFDVESSLIEHPDVVEAAVVGKPDAQRTELVVAYVVLRDGVQGDEALGHALAALVKQRLSAHAYPREVHFVADLPKTPSGKIQRFLLRQALLAQAAAPSSA	PGPT0002265_7461	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
BMS020_06403	1245			hypothetical protein	GTGCCGGCGGGGCAGGCACTGGCGCCGCAGCGGCTGGTCGATGCCGCGTTGCAGGTGCAGCCCGGGCAGGTGTTCAGCTACACCACCGCGGCCGATGCCAGCGCGTCGGTGCAGGTGGGCGTGCAGGCCGCCGATGGCCGCCGTGAGGTGGTCTATGTCGACCCGGGCAACGCGCAGGTGCTCGGCACGCTGCCCGAGCGCGGCACCACCGGTGGGGTGATCCGGCGGCTGCACAGCCTGGCGATCGTCGGCGCACCGGCACAGGCGCTGATCGAGATCGCCGCCGGCTGGAGCGTGCTGCTGGTGCTGACCGGCGTCTACCTGTGGCTGCCGCGCGGCCGCCGCGGTGGCGTGGTGACGGTGCGTGGCAGGCCGGCGCAGCGGCTGTTCTGGCGCGACCTGCATGCGGTGGTCGGGATCGGCGCCAGTGCGCTGGTGCTGTTCCTGGCGTTGAGCGGGATGCCGTGGACGCTGGTCTGGGGCGGCTGGTTCAACCGTGTCGTCAACGGCCACGACTACGGCTATCCGGCGGGCGTGCGCGTGCAGGTGCCGATGTCCGACGCCAAGCTGCAGCAACGCGTGGAGATGCCGTGGTCGCTGCGCCAGGCACGGGTGCCCGAGTCGTCGATGCCGCCGATGCCGGGCATGCAGATGCACGCCGAGCATGCCGCACACGCTGGGCCGGCGACGACCGGCCACGCCCATCACGGCGGCATGGCCGGCGACCTCGCGGTGCAGCCCGGTGCGATCGGCGTGGATGCGGCGCTCGCCGCGTTCGACCACGCCGGCATCGATGCCGGCTATGCGGTGGCGATGCCGGAAGGCGCGCGCGGGGTGTATTCGGCCACGCTGTACAACGGCGTGCTCGCGCAGCAGCGGGTGATCCATCTGGACCAGTACAGCGGTCGCGTGCTGCTGGACATGGACTACGCCGATTACGGCCCGGTCGGCAAGACCGCCGAATGGCTGGTCAACGTGCACATGGGCGACCAGTTCGGCAACGCCAACCGGCTGGTGCTGCTGCTGGCCTGCCTGCTGACCCTGCTGCTGTGCGTGAGCGCGGCGCTGATGTGGTGGAAGCGCCGGCCACGCGGTGCGCTGGGCGTGCCGCCGCTGCCGCCGGAGCGGCGCACGTTACGCGTGGTCACTGCGCTGCTGGTGATCGGCGGGCTGGTGTTTCCGCTGGTGGGCGCGTCGATGCTGCTGATCTGGATCGGCGATCGCTGGTGGGCGCGTTCAGGCTGA	MPAGQALAPQRLVDAALQVQPGQVFSYTTAADASASVQVGVQAADGRREVVYVDPGNAQVLGTLPERGTTGGVIRRLHSLAIVGAPAQALIEIAAGWSVLLVLTGVYLWLPRGRRGGVVTVRGRPAQRLFWRDLHAVVGIGASALVLFLALSGMPWTLVWGGWFNRVVNGHDYGYPAGVRVQVPMSDAKLQQRVEMPWSLRQARVPESSMPPMPGMQMHAEHAAHAGPATTGHAHHGGMAGDLAVQPGAIGVDAALAAFDHAGIDAGYAVAMPEGARGVYSATLYNGVLAQQRVIHLDQYSGRVLLDMDYADYGPVGKTAEWLVNVHMGDQFGNANRLVLLLACLLTLLLCVSAALMWWKRRPRGALGVPPLPPERRTLRVVTALLVIGGLVFPLVGASMLLIWIGDRWWARSG				NA	NA	NA	NA	NA
BMS020_06404	576			hypothetical protein	GTGCACCCGCTGCTCGCCACCCGCGGTCCGGCCGGCAGCCACGATCTGGCCCTGGCCCATGCCACCCTCGACGCGGTCGCCGCCGGCCGCCCGCTGCGGCTGCCGCGCTTCGACAAGCTCGCCGACGACCGCCTGCCCGAGGCCGACTGGCCGCAGGTGCATACCCCGCTCGACCTGCTGGTGCTGGAAGGCTGGTTCCTCGGCACCCCGGCCGAGGCCGACGCGGCGCTGGCGCCGCCGTTGAACGCGCTGGAACGCGAGGAGGACGGCGACGGCCGCTGGCGCCGCCACTGCAACGCCGCGCTGGCGCGCGACTACCCGGCGCTGTGGGCGCGGCTGGACCGGCTATGGCTGCTGCAGGCGCCGAGCTTCGAGGTGGTGCCGGGCTGGCGCTGGGAACAGGAGCAGGCGCTGCAGGCCGCCACGCCCGGGCGGCGCGGCATGGACCGTGCCCAGCTCGCGCGCTTCGTGCAGTTCTACGAGCGCACCAGCCGGCAGGCCCTGCGCACCCTGCCGGACATCGCCGACCACGTGGTGCAGCTGGATGCGGCGCGCGGGGTCCATGCGCTGCGCTGA	MHPLLATRGPAGSHDLALAHATLDAVAAGRPLRLPRFDKLADDRLPEADWPQVHTPLDLLVLEGWFLGTPAEADAALAPPLNALEREEDGDGRWRRHCNAALARDYPALWARLDRLWLLQAPSFEVVPGWRWEQEQALQAATPGRRGMDRAQLARFVQFYERTSRQALRTLPDIADHVVQLDAARGVHALR				NA	NA	NA	NA	NA
BMS020_06405	543	aroK_3	COG0703	Shikimate kinase 1	ATGAATCCCGCTCCAAACCTCGTCATGGTCGGCCCGATGGGCGCAGGCAAGAGCTGCATCGGCCGCCGCCTGGCCGAGCGCTTCGGCCTGGCCTTCGTCGACGTGGACCACGCCATCGTCGAGCACGCCGGCGCCAGCATTCCCGACATCTTCGAACACTCCGGCGAAGCGGTGTTCCGCGAGCACGAGCGCGCGGTGCTGGCCGGCCTGCTCGGCGGCCAGGGCCAGCTGCTGTCCACCGGCGGCGGCGCGGTGCTGGACGCCGGCATCCGCCAGCTGATGCGCGAACGCGGCTTCGTGGTGTACCTGCGGGTCAGCGTCGAGGCGCAGCTGGAACGGCTGGCGCGCGACCGCGCCCGCCCGCTGCTGCAGCGCGAGGACCGCGAACAGGTGCTGCGCACCCTCGCCGAGGTGCGGACCCCGCTGTACCGCGAGGTCGCCGACCTCGTGCTGGACACCGACCATCTTTCCCCCGGCGACGCCACCGCTCAGCTCGTGCTGAAACTGGCGGCGCAATGGCAGCCTTCGAGTCTTCCCGCATGA	MNPAPNLVMVGPMGAGKSCIGRRLAERFGLAFVDVDHAIVEHAGASIPDIFEHSGEAVFREHERAVLAGLLGGQGQLLSTGGGAVLDAGIRQLMRERGFVVYLRVSVEAQLERLARDRARPLLQREDREQVLRTLAEVRTPLYREVADLVLDTDHLSPGDATAQLVLKLAAQWQPSSLPA	PGPT0012900_1596	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
BMS020_06406	1119	aroB_2	COG0337	3-dehydroquinate synthase	ATGACCCCCAGTCTTGATGCACCGCGCACCGTCGATGTCGGCGGCGACCATCCCTATTCCATCGCGATCGGCCCCGGCCTGCTGGCCGAGGGCGAGCGCCTGACCGCCCACGTGCGCGGCCGCCACGTGCTGCTGCTCAGCGACTCGGCGGTGGCGCCGCTGTACGCGCGCCGCGTGCGCGAGGCGCTGCTGCAGGCCCGCCCGCACCTGCTGGTCGGCGAGCTGGTGATCGACGCCGGCGAGGCCTCCAAGACCCTGGCGACGTTCGGCAGCGCGATCACCGCGCTGGCCGAGCTCGGCGCCACCCGCGACGCCTGCGTGTTCGCGCTCGGCGGCGGCGTGGTCGGCGACCTGGCCGGCTTCGCCGCGGCCTGCTGGATGCGCGGCGTGGACTGCGTGCAGCTGCCGACCACGCTGCTGGCGATGGTCGATTCCTCGGTCGGCGGCAAGACCGCGGTGGACATCCCGCAGGGCAAGAACCTGGTCGGCGCGTTCCACCCGCCGCGCGCGGTGATCGCCGATACCGGCGCGCTGCGCACCCTGCCCGCGCGCGAGCTGCACGCCGGGCTGGCCGAGGTGATCAAGTACGGCGCGATCCGCGATCCGCTGTTCTTCCAGTGGCTGCGCGCCGAGCGCGAGGCGCTGCTGGGCGGCGACCACGCCGCACTGGCGCAGGCGATTGCGCGCAGCTGCGAGCACAAGGCCGAGATCGTCGAGCGCGACCCGCTGGAAAAGGGCGAACGCGCCCTGCTCAACCTCGGCCACACCTTCGGCCACGCGATCGAGACCGAACAGGGCTACGCCAGCCCGGGCAGCGACAACCTGGTGCATGGCGAGGCGGTGGCGGTCGGCATGGTGCTGGCGGCCAAGCTGTCGGCGGCGCTGGGCATGGCCCCGGCGGCCGATACCGACGCGCTGCGCGCGCTGCTCGACGGCTACGGCCTGCCGACCGCGATCCCGGCCGGGCTGGCGCCGGAGCGCCTGCTGGCGCGGATGCGGCTGGACAAGAAGAACCTCGCTGGCCGGCTGCGGCTGGTGCTGTGGCGCGGCATCGGCCAGGCCGAGGTGGTGCCGGACGTCGACGAAGCCGCGGTGCTGGCGGTGCTCGCCGAAGGCTGA	MTPSLDAPRTVDVGGDHPYSIAIGPGLLAEGERLTAHVRGRHVLLLSDSAVAPLYARRVREALLQARPHLLVGELVIDAGEASKTLATFGSAITALAELGATRDACVFALGGGVVGDLAGFAAACWMRGVDCVQLPTTLLAMVDSSVGGKTAVDIPQGKNLVGAFHPPRAVIADTGALRTLPARELHAGLAEVIKYGAIRDPLFFQWLRAEREALLGGDHAALAQAIARSCEHKAEIVERDPLEKGERALLNLGHTFGHAIETEQGYASPGSDNLVHGEAVAVGMVLAAKLSAALGMAPAADTDALRALLDGYGLPTAIPAGLAPERLLARMRLDKKNLAGRLRLVLWRGIGQAEVVPDVDEAAVLAVLAEG	PGPT0012865_968	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
BMS020_06407	243			hypothetical protein	ATGCAGCAACTTCCCGCCGGCGAAGACCCACCCCGCTACGTGCAACTGACCCTGCAGCCGGACCTGTTCGGCGGTTGGGAACTGCTGCGCGAGAGCGGGCAGATCGGCGGCCGCGCGCAGCTGCGCCGCGAGTTGTTCCTGAACCAGGACGACGCCCTGCGCGCCTTTGAAAAGGCCCGCGACGGCCAGCTCAAACGCGCCTACCAGATCATCTCCACCAGCGGCGACGACGCGCCGCGCTGA	MQQLPAGEDPPRYVQLTLQPDLFGGWELLRESGQIGGRAQLRRELFLNQDDALRAFEKARDGQLKRAYQIISTSGDDAPR				NA	NA	NA	NA	NA
BMS020_06408	1065	hemE_1	COG0407	Uroporphyrinogen decarboxylase	ATGCTGAAGAACGACCGCCTGCTGCGCGCGCTGCGCCGCGAACCCGTGGACTGCACGCCGGTGTGGCTGATGCGCCAGGCCGGCCGTTACCTGCCGGAGTACCGCGCCACCCGTGCCAAGGCCGGCAGCTTCCTGGCGATGGCCAAGAACCCGGAGATCGCCTGCGAAGTGACGCTGCAGCCACTGCGGCGCTTCCCGCTGGATGCGGCGATCCTGTTCTCCGACATCCTCACCGTGCCCGACGCGATGGGCCTGGAGCTGTACTTCGTCGAAGGCGAAGGCCCGAAGTTCCGCCACCCGGTGCGCGACGCCGCGGCGGTGGCGAAGCTGGCGGTGCCGGACATGGAGACCGAGCTGCGCTACGTGATGGACGCGGTGCGGGTGATCCGCCGCGAGCTCGACGGCAGCGTGCCGCTGATCGGCTTCTCCGGCAGCCCGTGGACGCTGGCCTGCTACATGGTCGAAGGCGGCGGCAGCAAGGATTTCGCCAGGATCAAGGCGATGGCGCTGAACGCGCCGGAACTGCTGCACCAGCTGCTGTCGGTGGTCACCGACGCGGTGATCGCCTACCTGGCGGCGCAGCGCGTGGCCGGCGCGCAGGCGCTGCAGGTGTTCGACACCTGGGGCGGCGTGCTGAGCCCGTCGATGTACCGCGAATTCTCGCTGCGCTACCAGCAGCGCATCGCCGCCGAACTCGAGCGCGGTGAAGGCGCCGAGCGCACGCCGCTGATCCTGTTCGGCAAGGGCACCGGTGCCTATGTCGAGGAACTGGCGGCCACCGGCACCGACGCGGTCGGCGTGGACTGGACCATCGACATCGGCGAGGCGGTGCGCCGCACCGGCGGCAAGGTCGCGCTGCAGGGCAACCTCGACCCGGCCACGCTGTACGGCTCGCCCGCGGCGATCGCCCGCGAGGCCGGCCGCGTGCTCGACAGTTACGCCGCCGGCAACGGCGGTTCGCGCGAGGGTCACGTGTTCAACCTCGGCCACGGCATGTCGCCGGACATGAACCCCGAGCACGCCGCCGCGCTGGTCGAGGCGGTGCATGCACTGAGCCGGCGCTGA	MLKNDRLLRALRREPVDCTPVWLMRQAGRYLPEYRATRAKAGSFLAMAKNPEIACEVTLQPLRRFPLDAAILFSDILTVPDAMGLELYFVEGEGPKFRHPVRDAAAVAKLAVPDMETELRYVMDAVRVIRRELDGSVPLIGFSGSPWTLACYMVEGGGSKDFARIKAMALNAPELLHQLLSVVTDAVIAYLAAQRVAGAQALQVFDTWGGVLSPSMYREFSLRYQQRIAAELERGEGAERTPLILFGKGTGAYVEELAATGTDAVGVDWTIDIGEAVRRTGGKVALQGNLDPATLYGSPAAIAREAGRVLDSYAAGNGGSREGHVFNLGHGMSPDMNPEHAAALVEAVHALSRR	PGPT0008465_1549	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008465-hemE-K01599	NA	NA
BMS020_06409	519			hypothetical protein	ATGCGTCCGCTCGCTCCGCACGCGCTCGCCTGGCTCTGCCTCGCGGCGGCGCCCGTGGCGGCAGCCGGCGATTTTGCCGGCCATTACGGCCACGGTTACAGCGAGCCGGCTGGCGCGCCCGTCTGGGACGTGCAGGCGCGCGGCGACGGTTACAGCGTCACCACCCTCGGCGACGGCGAGACCGCCAGCGCCCATGTCGCCGACGCCGATGCCCGCGCCCGCTTCTGGGAACGGATGCTGTGGCCGGCCGATACCGCCGGCGCCGCGCGCTGCCTCAGCTGGGGCGCGCCGATGCCCGGCACGCTCGGCGACGCCCTCGACACGCTGCTGGCCGACGACGCCCCGAACACGGCGACGGCCAGCACCGACACACCGCCCGCGGCCCAGCTGGGGTCCTCGCTGTTGTGCGAGGTCCCCGCGACGACCCGTGCACGCATCGACTGGCTGGCCGGCAATGCCAGCGACTGGTTCTACTACGACCCGCTGCTCGGCGTGACCGAAGTGGTCCGGACGCCGTGA	MRPLAPHALAWLCLAAAPVAAAGDFAGHYGHGYSEPAGAPVWDVQARGDGYSVTTLGDGETASAHVADADARARFWERMLWPADTAGAARCLSWGAPMPGTLGDALDTLLADDAPNTATASTDTPPAAQLGSSLLCEVPATTRARIDWLAGNASDWFYYDPLLGVTEVVRTP				NA	NA	NA	NA	NA
BMS020_06410	1434	mdtD_4		Putative multidrug resistance protein MdtD	ATGCCCCAGCCCACCGGCTCCGTCCTCCCCGCGCCCGACCCGCAGCGCCGCGTCCAGCCGCTGCTGTGGCTGGTCTCGCTGGCGATCTTCATGCAGATGCTGGACGGCACCATCGTCAACACCGCGTTGCCGGCGATGGCCGCCAGCCTGCGCGAGAGCCCGCTGCAGATGCAGTCGGTGGTGTTCTCCTATGCGCTGGCGGTGGCGATGTTCATCCCGGCCTCGGGCTGGATCGCCGACCGCATCGGCACCCGCCGCACCTTCCTCGCCGCGATCATCGTCTTCACCTTCGGCTCGCTGCTGTGCGCGGCGTCGCCGACGCTGCCGTGGCTGGTCGCCGCGCGCGTGGTGCAGGGCATCGGCGGCGCGATGCTGCTGCCGGTCGGGCGCCTGGCAGTGATGCGCTCGGTGCCGCGCGAAGACTTCCTGCGCGCGATGAGCTTCATCGCGATCCCGGCGCTGATCGGCCCGCTGGTCGGCCCGACCCTGGGCGGCTGGCTGGTGGAGATCGCCAGCTGGCACTGGGTGTTCCTGATCAACCTGCCGATCGGCGTGATCGGCTTCGCCGCCGCGCTGAAGGTGATGCCCGACCACTACGGCGAGCAGCGCACCCGCTTCGACCTGCCCGGCTACCTGATGCTGGCGTTCGGCATGGTCGCGCTGTCACTCGCCCTGGACGGCATTTCCGAACTGGGCCTGCGCCACGCGTTCGTGATGCTGCTGGCGATCGGCGGGCTGGCCGCGCTGGTCGGCTACTGGCTGCACGCGGCCGGCTCCAGCAGCGCGCTGTTCCCGCTGGCGCTGTTCAAGGTCGCCAGCTACCGCATCGGCATCCTCGGCAACCTGTTCTCGCGCATCGGCAGCGGCGCGATGCCGTTGCTGATCCCGCTGCTGCTGCAGGTCGGCCTCGGCATGAGCCCGATGAACGCCGGCATGATGATGATCCCGGTGGCACTGGCCGGCATGGCTTCCAAGCGCGCCGCGGTGCGCCTGGTCACCCGCTTCGGCTACCGCCGCGTGTTGATGGTCAACACCGTGCTGGTCGGGCTGATGATGGCCAGCTTCGTGCTGGTGGTGCCGGGCCAGCACCTGGGCTGGCGGCTGCTGCAGCTGGCGGCGTTCGGCGCGGTCAACTCGCTGCAGTTCACCGTGATGAACACCGTGACCCTGCGCGACCTCGACCGCGAGATGGCCAGCCCCGGCAACAGCCTGCTGTCGATGGTGATGATGCTGGCGACCGGCTTCGGCGCCGCCGCGGCCGGCAGCCTGCTGGCCGCGTTCGGCGACCACCTCGGCACCCACGCCGGCGCGACCGCGGCGCTGCACGCCACCTTCGTCAGCGTCGGCGCGATCACCCTGACCTCCACGCTGATCTTCTGGCAGCTGGCCGACACCGCGCCGCACCCGCGCAAGGTCGAGGAAGTGGCGGAGTAG	MPQPTGSVLPAPDPQRRVQPLLWLVSLAIFMQMLDGTIVNTALPAMAASLRESPLQMQSVVFSYALAVAMFIPASGWIADRIGTRRTFLAAIIVFTFGSLLCAASPTLPWLVAARVVQGIGGAMLLPVGRLAVMRSVPREDFLRAMSFIAIPALIGPLVGPTLGGWLVEIASWHWVFLINLPIGVIGFAAALKVMPDHYGEQRTRFDLPGYLMLAFGMVALSLALDGISELGLRHAFVMLLAIGGLAALVGYWLHAAGSSSALFPLALFKVASYRIGILGNLFSRIGSGAMPLLIPLLLQVGLGMSPMNAGMMMIPVALAGMASKRAAVRLVTRFGYRRVLMVNTVLVGLMMASFVLVVPGQHLGWRLLQLAAFGAVNSLQFTVMNTVTLRDLDREMASPGNSLLSMVMMLATGFGAAAAGSLLAAFGDHLGTHAGATAALHATFVSVGAITLTSTLIFWQLADTAPHPRKVEEVAE	PGPT0029180_12	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029180-mdtD-K18326	NA	NA
BMS020_06411	3564	rcsC_11		Sensor histidine kinase RcsC	ATGAGCTTTCCGTGTGTCTTCCCGCGCGTCCGTGCCTGGCTGCTGCTGGCCGTATGCGGCCTGCTGCCGCCGCCGGCCGCGGTGGCGGCGACCGCGACCGTGCCAGCCACGCCGATGCCGCGCCAGATCACCGTGGCCGACGGCCTGCCGTCGAACGCGGTCAACGATTTCGACGAGGACAGCTACGGCTACCTGTGGCTGGCCACCAGCGACGGGCTGGCGCGCTACGACGGGCGCAACTACCGCGTGTGGCGCATCGAGGACGGCCTGCGCGACAACATGATCTGGTCGGTGCACGTGGATGCGCGCAACCGGGTCTGGATCGGCACCGCGACCGCCGGGCTGATCATGCTCAGTGCCGACCGCAGCCGCTTCCACTACTACGACCGCCGTGGCTACCCGCAGTTGCAGGGCGCCACCGTGTGGGCGATCACCTCCACCGCCGACGGCAGCATCTGGTTCGGCACCGCCAGCGCCGGCCTGTACCGGCTGCGCGCGGATGGGACGATGCAGCGCTTCGCCCCGGTCGACGGCGATCCGGGCAGCCTGCCGGGACTGCAGGTCAACGCGCTGGCGGTGGCTCCGGACGGCGCGTTGTGGGTGGCCACCAAGGCCGGCGTGGCGCGCTGGAACGGGCGTGCGTTCGAGCGCGTGCAGTTGCCCGCTGGCGCCACCGGGCCGGTCAACGGCATCACCGTCGAGGACGACGGCAGCGTCTGGATCGCCGACGGCAGCGGCCACCTGTTCAAGCGCGGCACCGACGGGCGCGTGGACGAGCCGGCCTGGCCGGGGGCGGCCGGCGTGCTCGGCGTGCTGCTGCACGATCGCGACGGCGCCTACTGGCTGGACACGATGGACGGGCTCGGCCGCGCGCGCGCCGGCACGCTGCGCAACGTGCCGCTGTACAGCACCTCGGCGCGCGGGCTGGTCAAGCCGAACTGGGCCAAGGGCTACCAGGACCGCGAGGGCGGCGTGTGGTTCGCCAGCCCCAATACCGGGCTGTGGCACCTGCCGGCGAACTGGACCCAGTTCGCGCTGCTGAGCCATCGCAGCGACGACACCAGCACGGTCGCCAATCCGTATGCGCTGGCGGTGGCCAGTGCCAGCGACGGCCGCTTCTGGCTGGCCGGCACGCGTGGCGTGCTGGACCTGCTGGACCCGGCGACCGGCACCGTCGAACACCACCTGATGGCGATCGACGGCCGCCGCTGGCCGATGTCGCTGCGCGAGGACAGCCGCGGCAAGCTGTGGATCGGCCTGTACCGCGGCCTGCTGCGCTACGACCCGCGCAGCGGCGAACTGTTGCGCTGGGATGCCGATGCGGCGCGCGATGCGGCCCCGGCGGCCGACCTGGACTACATCGCCGAGGCCGGCGACGGCACGCTGTGGGTCTACACCGATGCCGGCCTGCAGGTGCGCGACGGCGACGGCCACGTGCTGCGCGCGCTGCCGCGCGCCTCGCACGGGTTGGGTGCGGACACCAGCGTGCACGAAATGCGACGCGGGCCGGACGGCGCGATCTGGCTGGCCACCAGCGGCGGCCTGCTGCGCTGGGACGCGGCGACGGACCGCTTCGCGCCGGTGCCGGGCGCGCCGGCGCAGGCGGTGTACACCTTCCGCGTCACCGAGAGCGGCGTGGCCTGGCTGGCCGGGATGGGCGAGCTGGCGCAATACCTGTGGGCGGGTGGGCGGCTGCAGCTGCTCGACCGCATCGACGGCCGCCTGCAGTTTCCGGCGCTGGACCCGGGCGGGCTGGTGATCGACGCCAATGGTGTGGCCTGGGTCTCGAGCGCGCGCGGCCTGATCCGGGTCGATCCGGCGACCCGCGCGGTGCGCGTGTATGGTGTGCACGATGGCCTGCCCAACCAGCAGTTCCGCGCGCGTACGCTGCTGCAGTCGCGCAACGGCCAGATCATCGGCTCCACCCCGGACGGACTGGTGCTGTTCGATCCGGAGCGGGTGCGCCCCTCCGGCGAGCAGCCGCCGCTGGCGATCGAGCGGATCGGCGTGCGCCGCGGCGAGAGCGGCCTGGACCTGACCCACATGCAGCCGCTGGTGGTCGAGGACGGCGATCGCGACCTGCACATCGTCGCGCGCATGCTGTCCTTCGCCGACGCCGATTCCACCAGCTACCGCTTCCGCCTCGGCGGCTACGACCCGGACTGGGTGGACGTGGGGCCGTCGGGCGAGCGCCTGTTCTCGCGCCTGCCGGCCGGGCCCTACCGGCTGGAGATCCAGGGCGCCACCGCCGACGGGGTGTGGTCGAAGGTGCGCAGCGTCGATTTCCGCGTGCTGCCGCCGTGGTGGCGCAGCCCGGCCGGGTTGATCGTGCTCGGGCTGGCAACCGCATTGCTGGTGGTCGCGGTGGTGGCGCTGTACCGGCGCCGCTTGCGCCGCCTGCATGCGTTGCAGCTGGCGATCCACAAGCAGGAACTGGCCGAACAGGCCTCGCTGGCCAAGACCCGCTTTCTGGCCACGCTCGGCCACGAGGTGCGCACGCCGATGACCGGCGTGCTCGGCATGAGCGAACTGCTGCTCAACACCACGCTGGACGACCGCCAGCGCAGCTACACCCAGTCGATCCGCCGCGCCGGCTCGCACCTGCTGCGGCTGGTCAACGACGCGCTGGACCTGGCGCGGATCGAGTCCGGACGGCTGGAGCTGGACCTGCAGCCGTTCTCGCTGCGGCAGCTGGTCGAGGAGCTGGAAGCGCTGGCGGCCCCGCTGGCGCAGGCGCGCGGACTGCGCTTCAGCCTGGAGTTCGGCCTGGACGGCGACGCCACCGCCAATGGCGACGCCACCCGCGTGCGGCAGATCCTGCTCAACCTGCTCAACAACGCGATCAAGTTCACCGAGCGCGGCGTGGTCGCTTTGAAGGTGAGCACGCTGGGCCCGCACCGCGGCCTGCGCTTCGAGGTCGCCGACACCGGGCCGGGCATCAATGCCGAGCAGCAGCAGCGGTTGTTCCAGCGTTTCGAACAGGGCGAGGGCGCCAAGACCAGTTCGCGCTACGGCGGCAGCGGCCTGGGCCTGGCGATCTGCCAGGAACTGGCGGTGGCGATGGGCGGCAGCATCGAGGTGGTCAGCCGGCTCGGCGCCGGCACCCGCTTCGTGGTCGACCTGCCGCTGCGCTGGGTGGCCGGCGGTGCCGGCGAGACCGCCAGCGCGCTGGCCGCGCGACCGCCGTTGCCGCCGCTGCAGGTGCTGCTGGTGGAGGACGATGCGACTGTGGCCGAGGTGATCATCGGCCTGCTGCGCGCGCAGGGGCACACCGTCGTGCACGCCCCGCACGGCCTGGCCGCGCTGACCGAAGCGGCCGAGATCCGCTTCGACCTGGCGCTGCTCGACCTGGACCTGCCAGGCCTTGACGGCTTCGCGCTGGCGCGCCAGCTGCGCGTGTTCGGCCACGAGATGCCGCTGCTGGCGGTGACCGCGCGCGCCGACGAGGACGCCGAGCCGGCGGCGCGCGCGGCCGGCTTCGACGACTTCCTGCGCAAGCCGGTCACCGGCGAGATGCTGGCCGAGGCGATCGCCGCGGCGATCGCCGCGAAGGCGGAGCCGTAG	MSFPCVFPRVRAWLLLAVCGLLPPPAAVAATATVPATPMPRQITVADGLPSNAVNDFDEDSYGYLWLATSDGLARYDGRNYRVWRIEDGLRDNMIWSVHVDARNRVWIGTATAGLIMLSADRSRFHYYDRRGYPQLQGATVWAITSTADGSIWFGTASAGLYRLRADGTMQRFAPVDGDPGSLPGLQVNALAVAPDGALWVATKAGVARWNGRAFERVQLPAGATGPVNGITVEDDGSVWIADGSGHLFKRGTDGRVDEPAWPGAAGVLGVLLHDRDGAYWLDTMDGLGRARAGTLRNVPLYSTSARGLVKPNWAKGYQDREGGVWFASPNTGLWHLPANWTQFALLSHRSDDTSTVANPYALAVASASDGRFWLAGTRGVLDLLDPATGTVEHHLMAIDGRRWPMSLREDSRGKLWIGLYRGLLRYDPRSGELLRWDADAARDAAPAADLDYIAEAGDGTLWVYTDAGLQVRDGDGHVLRALPRASHGLGADTSVHEMRRGPDGAIWLATSGGLLRWDAATDRFAPVPGAPAQAVYTFRVTESGVAWLAGMGELAQYLWAGGRLQLLDRIDGRLQFPALDPGGLVIDANGVAWVSSARGLIRVDPATRAVRVYGVHDGLPNQQFRARTLLQSRNGQIIGSTPDGLVLFDPERVRPSGEQPPLAIERIGVRRGESGLDLTHMQPLVVEDGDRDLHIVARMLSFADADSTSYRFRLGGYDPDWVDVGPSGERLFSRLPAGPYRLEIQGATADGVWSKVRSVDFRVLPPWWRSPAGLIVLGLATALLVVAVVALYRRRLRRLHALQLAIHKQELAEQASLAKTRFLATLGHEVRTPMTGVLGMSELLLNTTLDDRQRSYTQSIRRAGSHLLRLVNDALDLARIESGRLELDLQPFSLRQLVEELEALAAPLAQARGLRFSLEFGLDGDATANGDATRVRQILLNLLNNAIKFTERGVVALKVSTLGPHRGLRFEVADTGPGINAEQQQRLFQRFEQGEGAKTSSRYGGSGLGLAICQELAVAMGGSIEVVSRLGAGTRFVVDLPLRWVAGGAGETASALAARPPLPPLQVLLVEDDATVAEVIIGLLRAQGHTVVHAPHGLAALTEAAEIRFDLALLDLDLPGLDGFALARQLRVFGHEMPLLAVTARADEDAEPAARAAGFDDFLRKPVTGEMLAEAIAAAIAAKAEP				NA	NA	NA	NA	NA
BMS020_06412	3654	rcsC_12		Sensor histidine kinase RcsC	ATGAGCCCGGCGTCGGCGCTGGCCGATGGCATGCACGCAATGGAACGGGACGAGGACAGGGACCGGATGGGACGACGGATTCGATGGCGCTGGGCAGGCCTGCTCGCGCTGGCCTGGCTGGCCGGGCAGGCGGTGGCTGCGGACACGGTGGAAATGCCGCGCATGCGGCGACTCGGCGCGGCCGATGGGCTGCCGTCGCGGATGGTGCTGGCATTGGCGCAGGACCGCCAGGGCTATGTGTGGGCGGCCACCGACGATGGCCTGGCCCGCTACGACGGGCAGGCATTCCGGGTCTGGCAGCACGATCCGGAGGATCCGGCCTCGCTGCCGGCCAACAGCGTGGAGACGCTGCTGGTGGATCCGCTCGACCGTGTCTGGGCCGGGACCAACGGCGGCGGTCTGGGCATGATCGACAGCGCGCGCGGCGGCGTGCGCCGCGTGCCCGAGGTGCAGCGGCGTTGCCCGTCGCAGCTGTGGGCGCTGGCCTACGCCGAGCAGGCGCTGTGGGTGGGCACCAGCGAGACCGGCCTGTGCCGGCGTGACGAGCAGGATCGGGTGCAGGTGTTCCGCGCCGATCCGGACAACCCGCGTGCGCTGCCCAGCGACACCATCTACACGATGGTCACCGATGCGCGCGGGCGGCTGTGGATCGGCACCGATGCCGGGCTGGTACGGCGCGACGGCGATGGCTTCGAGCGCATCGCGCCGGCCCTGCTGGGCGAGCGCAGCGTGCTCAAGCTCAGCCTCGATCCGGACGGTTCGGTGTGGGTCGGCAGCGCCAGCGGCCTGTTCCGGGTGGCGCCGGACGGGCAGGTCGCGCCGGCGCCATGGCCGTCGGCGAGCAGCATCCGCGCCGGCGCGGTGGTGCACGACCGCAATGGCGGCTACTGGATCGGTGCCGCCGAAGGCCTGTACCGCGACCGCGGCGGCCAGCTGCAGGTGATGGCGGGCGATCGCGGCAGCGGCTTCCTGGCCGCCGACAGCGGCGTGCTCGACGTACTGCAGGACCACGAAGGCGGGGTGTGGCTGGGGCTGGTCACCCAGGGGCTGGCCTACCTGCCGCCGGGCTGGCAGCGCTTTGCGACCTTCCTCGATGCCGGCGGGCAGTCGTTGGAGAGCCTGTACCTGGTCAACGCCGCGGCGCAGGGCAACGATTTCCTGGTCGGCACCGCGCAGGGCGTCTACCGCCTGGAGGCGGCCGGCACGCTGGCGCGCGTGGTCTCGCCCGAGCTGGCCGGCAAGGGCACGGTGCGGGCGGTGCTGGCGCAGGCCGATGGCCGCCTGTGGCTGGGGCGTGCCGGTCGGTTGACCGTGGTCGATCCGGCCAGCGGCGCGCACCGTGACCTGGCGACCGGCTTCGGCGACGAGCCGTTCAAGCTGGTCGACCTGCTGCGCGGCGCGCCCGATGGCAGCGTCTGGGCGGCGGTGGCCAGCGGTGGCGTGCGCCACTTCGGCGCCGACGGGGATGTGTTGGCGACGGTGCCGTTCGGCGCGGCCGGCGGCCTGCCCGAGGCGATGGTCGAGCAGATGCGCTTCGGCCCGGACGGCCGGCTGTGGCTGGCCAGCGCCGGCGCGCTGCGGATCTGGGACGGCAGCCGGTTCAACGCGGTTCCCGGACTGCAGGGCCAGACCCTGTACGACTTCGCCTTCGCCGCGGCCGATACGCTGTGGCTGGCGCGTGCCGGCGCGATCGAGCGCTATCACTGGGACGGACGCCGGCTGGCGCTGGAACAGCGCTTCGGCGGGCGCGAGGGCGTGCCGGCCACCGAGATCGGCGGCCTGGTGCTGGGCCGCGACGGCGCGGTCTGGGCGACCACGCCGCGCGGCATGGTTTACCGGGCGCCGGGCAGCACGCAGGTGCGCCTGTTCACCACCGGCGACGGCCTGCCGGACGCCGAATTCTCCCTGCGCCCGCCGGTGGTCAACGCCGCCGGCCAGGCGCTGGCGCTGGCCGCGACCAGCCTGGTGCTGTTCGATCCGGACCGCATCGATGCGCCCCTGCCGGCAGCGCCGCTGGTGATCGAATCGGCCAGCGTGCGCCGCAACGATGCCGAGCGCCCGCAGGCGCTGCCGCTGGACGCGCCGCTGACGCTGCATGCCGGCGACCGCGACCTGCGCATCACCGCGCGGCTGCTGTCCTACGTCGATCCGGCGCGCACCCGCTACCGCTACCGCGTGCTCGGCTACGACCAGGGCTGGGTGGAGCAGGACCGCTACGGCGAGCGCGTGCTGTCGCGGCTGCCGGCCGGCGACTACCGCATCGAGGTACAGGCGCGCGCGGTCGAGGGTGGCTGGTCGCCGCCGCGCACGCTGGCGCTGACCGTGTTGCCGCCGTGGTGGCGCAGCGCGCCGGCGCTGGGCGCGAGCCTGGCGCTGCTGGTGCTGCTGGGCTGGTGGGGCGTGCACGCATGGCGGCAGCGGCTGCGCGCGCGTGAGCAGTTCCGCCTGTCGCGCCAGCGCCAGGAACTGGCCGAACAGGCCTCGCTGGCCAAGACCCGGTTCCTGGCCACGCTCGGCCACGAGGTGCGCACGCCGATGACCGGCGTGCTCGGCATGAGCGAACTGCTGCTGGATTCGGCGCTGGAGCCGCGCCAGCGCAGCCATGTCGAGTCGATCCGGCTGGCCGGCATGCACCTGCTGCGGCTGGTCAACGATGCGCTCGACCTGGCCCGCATCGAGGCCGGCAAGCTGGAGCTGGAGCGGCGCCCGTTCGCGCTGCGGCAACTGCTGGACGAGTTGGCCGATTTCATGGCGCCGATCGCGCAGGCGCGCGGGCTGGAGTTCCGTCGCGACATCGCCATCGGCCCGGAGCTGGTGGTGGACGGCGATGCCACCCGGCTGCGCCAGGTGCTGATGAACCTGCTCGGCAATGCGATCAAGTTCACCGAGCGCGGCCATGTCGGCCTGCGCGCCTGGCTGGACCCGGCCAGCGGCGCGCTGTGTTTCCAGGTCGACGACAGCGGCCCGGGCATCAATGCCGAACAGCGGGCGCGGATCTTCCAGCGCTTCGAGCAGGGTGAGGGTGCGCGGACCAGCTCGCGCTACGGCGGCAGCGGCCTGGGGTTGGCGATCTGCCAGGAACTGGCGGTGGCCATGCGCGGCGGCATCCGCATCGACAGCCAGCCCGGGCAGGGCACCTGCTTCACCGTCGAGCTGCCGCTGCCGTGGCGGCGCAGCGTGCCGGGGGAGGCGGTCGCGGCCGAGGCCGCCGAAGCGGCGTCGCCGCCGCTGCGGGTGTTGCTGGTCGAGGACGATGCGACCGTGGCCGAGGTGATCGTCGGCTTGCTGCAGATGCGCGGGCACGAGGTGGTGCATGCGCCGCACGGCCTGGCGGCGCTGGCCGAAGCCGCGGCCGGGATCTTCGACGTGGGGCTGCTCGACCTGGACCTGCCGGGACTGGACGGGCTGGCGCTGGCGCAGCAGATGCGCGCGCAGGGGCATGCGTTCCCGCTGGTGGCGGTGACCGCGCGGTCGGATGGCCAGGCCGAGGTGCAGGCGCGTGCGGCCGGGTTCGACGGTTTCCTGCGCAAGCCGGTGACCGGCGACGCGCTCGGCGCGGGGCTGCGCGCGGCGTTGACGCGCGAGGCGGCGCGGGCCGATGCCGCGCGCCTGGACCAGTCGCTGCACGGCCAGTCGCTGGCGACGGAGCGCTGA	MSPASALADGMHAMERDEDRDRMGRRIRWRWAGLLALAWLAGQAVAADTVEMPRMRRLGAADGLPSRMVLALAQDRQGYVWAATDDGLARYDGQAFRVWQHDPEDPASLPANSVETLLVDPLDRVWAGTNGGGLGMIDSARGGVRRVPEVQRRCPSQLWALAYAEQALWVGTSETGLCRRDEQDRVQVFRADPDNPRALPSDTIYTMVTDARGRLWIGTDAGLVRRDGDGFERIAPALLGERSVLKLSLDPDGSVWVGSASGLFRVAPDGQVAPAPWPSASSIRAGAVVHDRNGGYWIGAAEGLYRDRGGQLQVMAGDRGSGFLAADSGVLDVLQDHEGGVWLGLVTQGLAYLPPGWQRFATFLDAGGQSLESLYLVNAAAQGNDFLVGTAQGVYRLEAAGTLARVVSPELAGKGTVRAVLAQADGRLWLGRAGRLTVVDPASGAHRDLATGFGDEPFKLVDLLRGAPDGSVWAAVASGGVRHFGADGDVLATVPFGAAGGLPEAMVEQMRFGPDGRLWLASAGALRIWDGSRFNAVPGLQGQTLYDFAFAAADTLWLARAGAIERYHWDGRRLALEQRFGGREGVPATEIGGLVLGRDGAVWATTPRGMVYRAPGSTQVRLFTTGDGLPDAEFSLRPPVVNAAGQALALAATSLVLFDPDRIDAPLPAAPLVIESASVRRNDAERPQALPLDAPLTLHAGDRDLRITARLLSYVDPARTRYRYRVLGYDQGWVEQDRYGERVLSRLPAGDYRIEVQARAVEGGWSPPRTLALTVLPPWWRSAPALGASLALLVLLGWWGVHAWRQRLRAREQFRLSRQRQELAEQASLAKTRFLATLGHEVRTPMTGVLGMSELLLDSALEPRQRSHVESIRLAGMHLLRLVNDALDLARIEAGKLELERRPFALRQLLDELADFMAPIAQARGLEFRRDIAIGPELVVDGDATRLRQVLMNLLGNAIKFTERGHVGLRAWLDPASGALCFQVDDSGPGINAEQRARIFQRFEQGEGARTSSRYGGSGLGLAICQELAVAMRGGIRIDSQPGQGTCFTVELPLPWRRSVPGEAVAAEAAEAASPPLRVLLVEDDATVAEVIVGLLQMRGHEVVHAPHGLAALAEAAAGIFDVGLLDLDLPGLDGLALAQQMRAQGHAFPLVAVTARSDGQAEVQARAAGFDGFLRKPVTGDALGAGLRAALTREAARADAARLDQSLHGQSLATER				NA	NA	NA	NA	NA
BMS020_06413	3573	rcsC_13		Sensor histidine kinase RcsC	ATGCGCGCGCTGAAAATCCTGCTGGCCCTGGTGCTGCTGGTACAGGGGGCGGGCGCGCTGGCGGCGGTTCCGCAGATGCCGCGGTTCCGCATCGTCGGCCCCGCCGACGGCCTGCCGTCGACCTCGATCACCGCGGTCGAGCAGGACCGTGCCGGCTATCTGTGGCTGGCCACCGGTGACGGCCTGGCGCGCTACGACGGCGCCGGATTCACGGTGTGGCGCAGCGATCCGGACAACCCCGATTCGATCGCCGGCAACTCGGTGCAGGCGCTGTACATCGATGCGCAGGACCGGATCTGGGTCAGCTCGGAGGGCGCCGGAATCAGCGTGCTCGATGCGGCGCGCCAGCATTTCCGCCGGATCAACACCGGCAACCAGCCGCAGCTGAGCAACGACGACGTGTTCGTGCTCGCCGGTCGTGGCGACGAGGTCTGGTTCGGCAACTTCGGCGGTGGCCTGCACCGCATGGACGCGCAGGGGCGCCTCAGCCGCTACGACCTGGCCAAGATGGACGATCCGCTGCCGCGCAGCCACGTGGTCGCGCTGGCTGCCGATCCGGCCGGGCGGATGTGGATCGGCACGCCCGACGGGTTGGCCTATTTCGACGGCGCGCGGCTGCATCGCGAGCACCTGCCGGTGGACGACGCCGGGGTGTATGCCTTGGCCTGGATCGACGGCCGGCTATGGGTGGGCAGTTCCGAGGGCGTGTTCCAGCGCGGCGCCGACGGCCACTGGACCACCCCGACGTGGGCGCCGATGTTCGCCACCGGCAACCTGGTCTGGTCGATGGTCGCCGCCGGCGACGGCGAATACTGGCTGGGCACCGAGAAGGGCCTGTGGCGCACCCGGGGCAGCCAGGCGCCGGTACCGGTGCTCAACGGCGACACGCCGCTGGTCAGTGGCCGCAACGTGCCGGCGCTGTGGCGTGGCAGCAACGGCGGGTTGTGGGTGCCGGTGCACGGCCGCGGCCTGGCCTACCTGCGTGACGACTGGAAGCGCACCGCGGTGTTCCGCCCGCCCAACGACACCGGCGACGGCGTCTACTGCAACCTGGCGCCGGCCGGGCGCTCGGGCGGGTTGTGGCAGGTCGACACCGACGGCCGCCTGCTGCGTTTCGATACCACCACCGGCGAGGCCACCCAGAGCGGGCTGCGCAACGATGCGCTGCGCGGCATGCAGATCACCGCCGCACTGGAGGACAGCCGCGACCGGCTGTGGCTGGGCAACCTCGACAGCGGATTGGCGCGGATCGACCTGCATGACGGGCGCTGGCGCGAGTGGGCGCCGGGCGGTGCCGACGCGGCGCCGTCCTACGGCGCGCCGGACACGATCATCGAAGCGGCCGACGGCAGCGTGTGGAGCGCCACGCTGGGCATCGTGCAGCACCGCGATGGCGACAGCGGCCGGTTGCTGGACCAGGTCGACGAGGATTCCGGGCATGGCGTGGTGCCGGCCGAGATCGAACTGCTTGCCAATGGTCCGGATGGCCGGGTGTGGGTGCTCGGCAGCCGCGGCGCGCTGGCCTGGGACCCGGCGCGGCGGCGGTTCGTGCCGGTGCCGGGGCTGGAGGGCCAACGCATCCTCAGCGTCGCTTTCGCCGACGACCAGCACCTGTGGCTGCACCGGATGACCGGGCTGGAGCGCTGGCGCCGCGATGGCGCGCGCTGGGTGCCGGAGCTGCACGTGGGCACCGCGCAGGGACTGCCGGCGATCGAGTCGATGGCGATGCAGCTCGATGGCGATGGCCGGGTATGGCTGTCCACCCGGCGCGGGCTGTGGCGGGTGGATCCGCGCGCGAAGAGCCCGGAAGTGCGCAATTTCGGCCTGCGCGATGGGCTGACCAGCCAGGAGTTCGTCGACGCCTGCCTGTGGATGGCGCAGGGCGGGGTACTGGTCGGCGCCACCGCCGATGGCTACGTGAGCCTGCTCGATACCACCTTGCCGGACCCGGTGCCGTTCACGCCGGAAATGATGCTGGAGGGCGCCAGCGTGCTGCACGAGGGCCAGCGCCGCGCGCTGGCGGTGGCTGGCGGCTTCGAGCTGGCCGCGCGCGACCGCCAGCTGCAGGTGACCACCCGGTTGCTGTCGTTCGGCGATCCGCAGGGCAACCGCTACCGCTCCTGGCTGCACGGCTTCGATACCGGCTGGGTGGAGCAGGGCACCAGCAGCATGCGCGAGTTCTCCTCGCTGCCGGCCGGCAGCTACAGCCTGGACATGCAGGGCATCGATCCGATGGGCAACGCCTCGACGGTGCGCACGCTGCGCTTCGAGGTGGCGCCGCCATGGTGGCGCAGCGAATGGGGGCTGGCGCTGCTGGTGGCGCTGGTGGCGGTGGCTGCCGCGTTCGCCGCACGGCTGTACCGGCGCCGCGTGCGCAACCGCAGCGACTGGCAGCTGGAGCAGCACAAGCGCGAGGTCGCCGAGCAGGCCTCGCAGGCCAAGACCCGGTTCCTGGCCACGCTCGGCCATGAAGTGCGCACGCCGATGACCGGCGTGCTGGGCATGACCGAACTGCTGCTGCAGACGCCGCTGGATCCGCGCCAGAACGGCTACGCCGCATCGATCCAGTCGGCCGGCAAGCACCTGCTGCGGCTGGTCAACGATGCGCTCGACCTGGCCCGCATCGAGGCCGGCAAGCTGCCGCTGGACGCGCGCAACTTCGACCTGCACGAGATGCTCGACCAGGTCTGCGGGATGGCGCGCTCGATGGCCGAGCTCAAGCAGCTCAGCTTCGAGTTCCACTGCGAGCGCGACCTGCCGCGCGCGCTGCATGGCGACGCCAACCGGGTGCAGCAGATCCTGCTCAACCTGCTCGCCAACGCGGTCAAGTTCACCGAGCGTGGCACGGTCAGCCTGCATGCGATGCGGCCGCCGCAGGGCGCGCTGGGCAGCGGCATCGTGTTCGAGATCGCCGATACCGGCCCGGGCATCAGCAGCGAACAGCGCGAGCGGCTGTTCCAGCGCTTCGAGCAGGCCGAGGGCGCGCGCACCGCGGCGCGCTATGGCGGTTCCGGGCTGGGGCTGGCGATCTGCCGCGAGCTGGCGCTGGCGATGGGCGGGCGCATCGAGGTCAGCAGCGCGCTGGGCCGCGGCACGCGCTTCCAGGTGGAACTGCCGCTGCGCTGGTCGGCGGCGGCCGCCGCCGGCACGCATGCGCCGCCGCGGCGTGCGCCGGCGCGCGCGCTGCGGTTGCTGCTGGTGGAGGATGATCCGACCGTGGCCGAGGTCGTGGTCGGCCTGCTGCGCGCGCGCGGCCACGAGGTCACGCATGCCGCGCATGGGCTGGCGGCGTTGGCCGAGGTCGCCTCGGCCCCGTTCGACGCCGGCTTCTGCGACCTCGACCTGCCGGGGCTGGACGGGCTGGCGCTGATCCGCCAGATCCGCGCCACCGGCCACGACTTCCCGCTGGTGGCGATCACCGCGCGTTCCGACAGCGATGCCGAGCCGCAGGCGTACGACGCCGGCTTCGATGGCTTCCTGCGCAAGCCGCTGACCGGCGACATGCTGGAAGAGGCGTTGTTCGGGGTGATGCGCGATCGTGACGACACGGGGGAACGGTTCGGGCACGGATGA	MRALKILLALVLLVQGAGALAAVPQMPRFRIVGPADGLPSTSITAVEQDRAGYLWLATGDGLARYDGAGFTVWRSDPDNPDSIAGNSVQALYIDAQDRIWVSSEGAGISVLDAARQHFRRINTGNQPQLSNDDVFVLAGRGDEVWFGNFGGGLHRMDAQGRLSRYDLAKMDDPLPRSHVVALAADPAGRMWIGTPDGLAYFDGARLHREHLPVDDAGVYALAWIDGRLWVGSSEGVFQRGADGHWTTPTWAPMFATGNLVWSMVAAGDGEYWLGTEKGLWRTRGSQAPVPVLNGDTPLVSGRNVPALWRGSNGGLWVPVHGRGLAYLRDDWKRTAVFRPPNDTGDGVYCNLAPAGRSGGLWQVDTDGRLLRFDTTTGEATQSGLRNDALRGMQITAALEDSRDRLWLGNLDSGLARIDLHDGRWREWAPGGADAAPSYGAPDTIIEAADGSVWSATLGIVQHRDGDSGRLLDQVDEDSGHGVVPAEIELLANGPDGRVWVLGSRGALAWDPARRRFVPVPGLEGQRILSVAFADDQHLWLHRMTGLERWRRDGARWVPELHVGTAQGLPAIESMAMQLDGDGRVWLSTRRGLWRVDPRAKSPEVRNFGLRDGLTSQEFVDACLWMAQGGVLVGATADGYVSLLDTTLPDPVPFTPEMMLEGASVLHEGQRRALAVAGGFELAARDRQLQVTTRLLSFGDPQGNRYRSWLHGFDTGWVEQGTSSMREFSSLPAGSYSLDMQGIDPMGNASTVRTLRFEVAPPWWRSEWGLALLVALVAVAAAFAARLYRRRVRNRSDWQLEQHKREVAEQASQAKTRFLATLGHEVRTPMTGVLGMTELLLQTPLDPRQNGYAASIQSAGKHLLRLVNDALDLARIEAGKLPLDARNFDLHEMLDQVCGMARSMAELKQLSFEFHCERDLPRALHGDANRVQQILLNLLANAVKFTERGTVSLHAMRPPQGALGSGIVFEIADTGPGISSEQRERLFQRFEQAEGARTAARYGGSGLGLAICRELALAMGGRIEVSSALGRGTRFQVELPLRWSAAAAAGTHAPPRRAPARALRLLLVEDDPTVAEVVVGLLRARGHEVTHAAHGLAALAEVASAPFDAGFCDLDLPGLDGLALIRQIRATGHDFPLVAITARSDSDAEPQAYDAGFDGFLRKPLTGDMLEEALFGVMRDRDDTGERFGHG				NA	NA	NA	NA	NA
BMS020_06414	711	yceI_3		Protein YceI	ATGCTCGCAACGGATCGTTGCGAGCGCAAGCCGCTCGACGCTGCGGGCGATATGCCTAGAATCCGGCCCATGATCCGTCTCCCGTCCCGCCCGCTGCTGGCCTGCGCCCTGCTCCTGGCCCCGTTCACCGCCCTCGCGCGCCCGGCGAGCTACCAGCTCGACCCGGTCCACACCCGGGTGCTGTTCGCGATCGACCACGCCGGTTTCTCCAAGGCGCTGGGCACGCTGTCGGGCAGCCACGGCACCTTGGTGTTCGATCCGGATGACTGGAGCACGGCACGCCTGGACGTGACCATCCCGGTGGCCCGGCTCGACCTGGGCGACGCCAAATGGAACCAGGCCACGCTGGCGCGCAACCTGCTGGACGGCGAGCGCTTCCCCGAGGCGCATTTCGTCTCCACCGCGGTCGTGCCGAGCGGGCCGCAGCAGGCCCGGGTGACCGGCCAGCTGACCCTGCACGGGGTCACCCGCGAGGTCGTGCTGGAGGTCACCCTCAACGCGCTCAAGCGCCACCCGCTGCCGCCGTTCCACCGCACCGCCGGCTTCTCGGCCACCACCACGCTGAGCCGCGCCGCCTTCGGCGTGGATGCGTGGAAGTCGATGATCGGCGACGAGGTGGCGCTGCGCATCGAGGCCGAGGCGATCCGCGAAGGCCGCGCCGACGACCCCGACGACTCCCCCGCCACCGCCACCGGAAGCCATTCGCCATGA	MLATDRCERKPLDAAGDMPRIRPMIRLPSRPLLACALLLAPFTALARPASYQLDPVHTRVLFAIDHAGFSKALGTLSGSHGTLVFDPDDWSTARLDVTIPVARLDLGDAKWNQATLARNLLDGERFPEAHFVSTAVVPSGPQQARVTGQLTLHGVTREVVLEVTLNALKRHPLPPFHRTAGFSATTTLSRAAFGVDAWKSMIGDEVALRIEAEAIREGRADDPDDSPATATGSHSP				NA	NA	NA	NA	NA
BMS020_06415	567	yceJ	COG3038	Cytochrome b561	ATGACCGTGAAGAACACCGCCACCCGCTGGGGCGGCGTCAGCCAGACCCTGCACTGGTTGATCGCGCTGTTGATCCTGGTGCTGGGCATCGTCGGCCTGAGCATGGGTGAACTGCCCAAGACGCCGAAGTACTTCTGGGTCTACACCGCGCACAAGTCGCTGGGCATCACCGTGCTGGCGCTGGTCGTGCTGCGGCTGGGTTGGCGCCTGTACGCCGGCGCGCCGCAGCCGGTGCCGGGCACGCCGACCTGGCAGGAGCGCATCGCCAGCGCCACCCACTGGTTGCTGTACGCGCTGATCTTCGCGATCCCGTTGTCGGGCTGGCTGTACGACTCGGCCAGCGGCCTGCGGCCGTTCCGCTGGTTCGGCCTGGTCGAAATGCCCAAGCTGAGCGCGCCCGATCCGGGCCTGCGCGCGCTGTCCCACTTCGCCCATGAATGGGGCTTCTGGCTGCTGGTGGTGGTGGTGCTCGCGCACGCCGGCGCCGCGTTCTACCACCACCTGTTCCAGCGCGACGCCACCCTGGCGCGCATGCTGCCGCAGGGCTGGCTCTCTCCCAGGCAATGA	MTVKNTATRWGGVSQTLHWLIALLILVLGIVGLSMGELPKTPKYFWVYTAHKSLGITVLALVVLRLGWRLYAGAPQPVPGTPTWQERIASATHWLLYALIFAIPLSGWLYDSASGLRPFRWFGLVEMPKLSAPDPGLRALSHFAHEWGFWLLVVVVLAHAGAAFYHHLFQRDATLARMLPQGWLSPRQ	PGPT0013195_171	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0013195-cybB-K12262	NA	NA
BMS020_06416	570	yceI_4		Protein YceI	ATGTCGTCGTCCCGCTTCCCGTCCCCCGCCGCCGTGGCCGCCTCGCTCGCGGCGATGCTGGCCAGCGCCCCGGCCTTCGCCGCCGACTACGTGCAGGCCCCGGGCTCGACCCTGGTCTTCGCCACCAAGTACGACGGCGAGGTCTTCACCGGCAGCTTCCCCGGCTTCGCCACCACCTTCAGCTTCGACCCGGCCAATCCGGCCAGCGGCAAGCTCGACGTCAGCATCCCGCTGGCCGGGGCCAAGACCGGCAACAACGACCGCGACTCCACCCTGCAAGGCGCCGACTTCTTCAATGTCGGCAAGTTCGCCACCGCCCACTACCGCGCCACCACGTTCCGCGCGCTGGGCGGCAACCAGTACGCCGCCGACGGCACGCTGGAACTGCGCGGGGTGAGCAAGCCGGTGACGCTGACCTTCACCTGGACCCCGGGCGCCCAGCCGGTGCTGGCCGGCAAGGCCACCGTCAAGCGTTTGGATTTTGGCGTAGGCTCGGGGGACTGGGCCGATACGGGCACCATCCCGGATGAAACCGCCATCAGCACGAAGGTGGTGTTCAAGGCGAAGTAA	MSSSRFPSPAAVAASLAAMLASAPAFAADYVQAPGSTLVFATKYDGEVFTGSFPGFATTFSFDPANPASGKLDVSIPLAGAKTGNNDRDSTLQGADFFNVGKFATAHYRATTFRALGGNQYAADGTLELRGVSKPVTLTFTWTPGAQPVLAGKATVKRLDFGVGSGDWADTGTIPDETAISTKVVFKAK				NA	NA	NA	NA	NA
BMS020_06418	480			hypothetical protein	ATGCCGCACGTGATCGACGCCCGCGACGCCCTGCATCGCCACCTGGCCACCCAGCGCCGCCGCCTCGCGGTCAGCTATCTGGTGCACCTGCTGTGGTTCGCCACGATGTGCGCGCTGGCCTTCGCCCAGCATCAGCCGCTCGGCCTGCGCTACAGCGTGCTGCTTACCCTGCTGACGGTGCCACCCGTGCTGTATTTCACCGTGCGCGTGCACACGCTGTGCCGAACGCTCGACCCGCATGCCCGCACCGTCGGGCTGGTGCCGGTGTTGGTGACCACGTTGGTGCTGAGCCCGTTCGAATCAGGGCTGTTGCTGCCATTGAAGAACCTGCTCGTGGCAAATGCCCTACTGCGACGCCACGCGGCGTCGACCGCCGCGGCTCAGGCCGCGGCCAGCCACGCCACCACGCCGGCAGCATCGAACGGCCAGTCCAGCTCGCGCCCGGCGGCGTCGGCCAGCACCGGCACGCGCACCCCGTAG	MPHVIDARDALHRHLATQRRRLAVSYLVHLLWFATMCALAFAQHQPLGLRYSVLLTLLTVPPVLYFTVRVHTLCRTLDPHARTVGLVPVLVTTLVLSPFESGLLLPLKNLLVANALLRRHAASTAAAQAAASHATTPAASNGQSSSRPAASASTGTRTP				NA	NA	NA	NA	NA
BMS020_06419	309			hypothetical protein	TTGCCGGAGGGTGAGGAGGCCAAAGCCGGCTATTCTAGTGGGCCGGGCGATTCCACGGGCCCGCACTGCACCATGCCGGCGATGCCCCTGACCCTGTACCAGCGCGACGACTGCCACCTGTGCGATGCCGCGATCGCGGTGCTGGCGCAGGCGCGTGCCGGCGATTTCGCCAGCGTGTTCATCGACGACCAGCCGGCGCTGGAGGCCCGCTACGGGGTGCGCGTGCCGGTGCTGGCCGACGCCGCCGGGCGCGAGCTGGACTGGCCGTTCGATGCTGCCGGCGTGGTGGCGTGGCTGGCCGCGGCCTGA	MPEGEEAKAGYSSGPGDSTGPHCTMPAMPLTLYQRDDCHLCDAAIAVLAQARAGDFASVFIDDQPALEARYGVRVPVLADAAGRELDWPFDAAGVVAWLAAA				NA	NA	NA	NA	NA
BMS020_06420	1383	sdaA_2	COG1760	L-serine dehydratase 1	ATGGCTGTCAGCACGTTCGACCTGTTCAAGATCGGCATCGGTCCGAGTTCCTCCCATACCGTGGGACCGATGCGCGCGGCGGAGCGCTTCGTGCACCGCTGGCTGCTCGACCCGGGCCGGCTGCAGGACGTGGTGCGCATCCGCGCCGAGGTATTCGGCTCGCTCGCGCTGACCGGCCGCGGCCACGGCACCGACAAGGCGGTGCTGCTGGGCCTGGAGGGCCACCGCCCGAACCTGGTCGACCCGGACATCATCCCGGCGACGCTGGAACGCATCCGCAGCAGCAAGCGCCTCACCCTGATGGGCCAGCACGAGATCGCCTTCGACGAGAAGCGCGACCTGCCGATGAACAAGCGGCAGAAACTGCCGTACCACACCAACGGCATGCGCTTCACCGCGTTCGGTGCCGGCGACGAGGTCATCGCCACCCGCGACTACTACTCGGTCGGCGGCGGCTTCGTGGTCAATGCCGATGACGCCGCCGACGACCGCATCGTCCCCGACGCCACCCCGCTGCCCTACCCGTTCAACAGCGGCGATGAACTGCTGGCGCAATGCGCGCGCAGCGGGCTGAGCATCGCCGGGCTGATGTTCGAGAACGAGAAGTGCTGGCGCAGCGAGGACGAGATCCGCGACGGCCTGCGCGAGATCTGGAACGCGATGCAGCTGTGCGTGACCCGCGGCATCCGCGAGGAAGGCACGCTGCCGGGCGGGCTGCACGTGTCGCGGCGCGCGCCCACGCTGTACCGCGAGCTGTCGTCCAAGCCGGAAGCGGCGATGCGCGACCCGCTGACCACGCTGGACTGGGTCAACCTGTACGCACTGGCGGTCAACGAGGAGAACGCCGCCGGCGGGCGCGTGGTGACCGCGCCGACCAACGGCGCGGCCGGTATCATCCCGGCGGTGCTGCACTACTTCGACCGCTTCTGCCCCGGCAGCAGCGAACAGCGCGTGTTCGATTTCCTGCTGACCGCAGCGGCGATCGGCATCCTGTACAAGGAAAACGCCTCGATTTCCGGCGCCGAGGTCGGCTGCCAGGGCGAGGTCGGCGTGGCCTGCTCGATGGCCGCCGGCGGGCTGGTCGCCGCGCTCGGCGGCAATCCCGGCCAGGTCGAGAACGCCGCCGAGATCGGCATGGAACACAACCTCGGCCTGACCTGCGATCCGATCGGTGGGCTGGTGCAGATCCCGTGCATCGAACGCAACGCGATGGGCGCGGTGAAGGCGATCAACGCCAGCCGCATGGCAATGCGCGGTGACGGCAAGCACAAGGTCAGCCTGGACAAGGTGATCAAGACCATGCGCGACACCGGCCGCGACATGCAGGACAAGTACAAGGAAACCAGCCGCGGCGGGCTGGCGGTCAACGTCATCGAGTGCTGA	MAVSTFDLFKIGIGPSSSHTVGPMRAAERFVHRWLLDPGRLQDVVRIRAEVFGSLALTGRGHGTDKAVLLGLEGHRPNLVDPDIIPATLERIRSSKRLTLMGQHEIAFDEKRDLPMNKRQKLPYHTNGMRFTAFGAGDEVIATRDYYSVGGGFVVNADDAADDRIVPDATPLPYPFNSGDELLAQCARSGLSIAGLMFENEKCWRSEDEIRDGLREIWNAMQLCVTRGIREEGTLPGGLHVSRRAPTLYRELSSKPEAAMRDPLTTLDWVNLYALAVNEENAAGGRVVTAPTNGAAGIIPAVLHYFDRFCPGSSEQRVFDFLLTAAAIGILYKENASISGAEVGCQGEVGVACSMAAGGLVAALGGNPGQVENAAEIGMEHNLGLTCDPIGGLVQIPCIERNAMGAVKAINASRMAMRGDGKHKVSLDKVIKTMRDTGRDMQDKYKETSRGGLAVNVIEC	PGPT0001975_1320	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
BMS020_06421	3084			hypothetical protein	ATGCCCGCCTGCTGTGCCGCCCGTCGCCGGCTGTCGCGCCTGTGCCTGGCCTGGGCCATCCTGCTGCTGAGCGTGGCCGTGGCCGGGCCGGCCGCCGCGCTCGATCCGCACAAGAACTTCGAGCACTACGTGCGCCAGCAGTGGAGCGTCGAGCAAGGGCTGCCGCAGCTGAGCGTCTTCGCGATCGCCCAGGACAGCGACGGCTACATGTGGTTCGGCACCCAGGGCGGCCTGGCACGCTTCGACGGCGTGCGCATGCTCTCCTACGGCGAAGCCGCGCCGGCCAACCTTCCCGGCCCCTGGATCCAGGCCCTGCTCGCCGGCACCGACGGCCGGCTGTGGATCGGCACCTACAAGGGCCTGGCGGTGCACCGCCAGGGCCACTTCGCCAATGTGCCGGTCGATGGCGGCGACTCCGCCCTGGACGTGCAGGCGCTGGCCCAGGACAGCGATGGCGGCCTGCTGGTCGCCGCCCAGGACGGCGTGTATGCCGAACAGAACGGGCGCCTGCGCCGCCGCCACGCACTCGCCGACGGCGCCTTCGCGCTGCTGCCCGGCCCGTCCGGGCTGGTCATCGGCACGCTGGGCGCCACCGTGCGCGTCACTGCCGGCGCGCCCCAACGCATGCCGATGCCGGCCGAAGCCGCCGACGCGGCGGTGCGCCACCTGGTGCGCAGCCAGGGCGGGCTGTGGGCCGGCACCGATCGCGGCCTGTTCCAGCTGCGCGACGGGCGCTGGCAGGCGCCGGCCGACGCCCGCCTCGCCGGCACCGCACCGATCAACGCGCTCTATCCCGACGGCGACGGCAACCTCTGGCTCGGCCAGGGCGACCAGTTGCTGCGCATCGTCGATGGCCGCCTCGCCGAACGCGCCGAAGGCGGCGACCACGGACTCGGCGTACGCGCGGTGTTCGAGGACCGCGAGCGCAACCTGTGGCTGGGCAGCCGCTGGTTCGGCACCATCCGGCTGTGGAACGGCTGGACGCGGCGCTTCGGCGCCGCGCAGGGCCTGCCCGACCCGCTGGTCTGGACCATCGCCCCCGACCGCGACGGCGCGCTGTGGATCGGCGCGCATGGCGGCCTGTTCCGGCTCGCCGACGGCCGCTATCAGCGCGTGCTCGGCGAAACCGAGCTGCCGCAGAGCGACGTCTACGCGCTGCTGGCCGAGGATGACCGGCTGTGGATCGGCACGCGGCATGGCGCGGCGCTGTACGCCAACGGCCGCCTCGCCACGCCGGCGTGGCTGGCCAGGCTCGACGACGTCCAGATCAGCGGCATTCTGCGCGACCGCGACCAGCGGCTGTGGTTCGCCACCAGCGGCGGCCTGTACGGCTGGGACGGCCAGGCCTGGCACCACTACGGCACCGCCGCCGGGCTGCGGGACGTGCGCGTGCGCCTGCTGCTGCAGGCCCGCCGCAACGGCGACCTGCTGGTCGGCACCCAGGCCGGGCTGTACGCACTGCGCGGCGAGCACCTGGTGCCGCTGGACGATGGCAACGCCGCGCTCGCCGGCGCCGACATCACCGCACTGCGCGAACTGCCCGACGGCCAACTGCTGGCCGGCACCCTCGGCGAGCAGCTGTGGCTGCTCGACCGCGGCCGCTGGAGCGTGTTCGGGGCCGAGCAGGGCCTGCCGGTCAACGCACCGTTCTTCCTCAGCGACGACAGCAAGGGCCAGCTGTGGGTCGCCGGCATGCGCGGCGTCTACCGCACCTCGCTGCAGCACCTGATCGCCGCCGCGCGCACGCCCGGGCTGCAACTCAGCGGCGATGTGGTGTTGAACGAGCGCGGCATGCGCCATGGCGGCATCGAAGGCGCCTGCTGCAACGGCGCCGGCAACGGCCGCGGCGTGGTCGAGGGCACCACGCTGTGGCTACCCAGCCGCGACGGCGTGGTCGCGCTGGATACCGCCTACATCTTCTACAATCGGGTCGCGCCGCTGCCGGGGGTGGAGGGGGTCCGCAGCGGCGGGCTGTGGCGCGACAACGACGATGGTCCGGTCTGGGCGCTGCCGGCGCGTGCACGCGACCTCGATTTCGAATTCACCGTGCCGTCGTTCCAGGCCCCCGGCAACGTCGATCTGCGCTACCGCCTGCGCGGATACGACCGCGACTGGCGCGACGTCGACGACACTGCACGCCGGCGTGCCAGCTATACCAACCTGCCGGCCGGCGACTACGTGTTCGAGGTGACCGGCTCCAACAACGCCGGGCACTGGGCCGCGGTCGCGGCGGCGCGCCCGTTCCGCATCGCCCCGCACCTGCACGAGACCTGGTGGGTGCGCACGCTGGCGGCGCTGCTGGCGCTGGTGCTGCTGGTCGTCGCCTACCGCATGCTGCTGGCCTGGCACCGGCGCCAGCGCGTGGTGCTGGAACGGCTGGTCCGCGAGCGGACCGAGGCACTGCAGAGCGCCAACCAGCGCCTGCAGGAAGCCAGCTTCACCGACGACCTCACCGGCCTGCGCAACCGCCGCTACCTGTCCATGCACGTCCCGCGCGACATCGCACTGTACCGGCGCATGGCGCGCACCAGCGCCGGCGAAGCCACCGGCATGGCGTTCGTACTGGTCGATGTGGACCACTTCAAGGCGATCAACGACAGCGCCGGCCACCATGTCGGCGACGCGGTGCTGCAGCAGATGGCGCAGCTGCTGCAGGTGGAAACCCGCGAAAGCGATTACGTGGTGCGCTGGGGCGGCGAGGAATTCCTGCTGGTGCTGCGCGCCGCGCCGCGCCACCACGGCGGCAAGATCGCCGAGCGCCTGTGCCGGGCGATCGCCGCGCATCCGTTCGATCTGGGCGATGGCCGCCGTGGCCAGGTCACCTGCTCGATGGGCCTGGTCGAATTCCCGCTGCTGGCCGATCCGGACGCATTGCTCGGCTGGGAGCAACTGCTGGTGCTGGCCGACCGCGCGCTGTACTGGGTCAAGCGCAACGGCCGCAACGGCTGGGCCAGCTACCGGCCGATGCCGATGGCCACCGCGATCGACGTGCTTGCGGCGGTGCATGGACCGGCCGAGCTGATGGACGCCTCGCCGGCCCTGCGCCTGGAACACTCCGAACCGCAGGCAGCGCCCCCCGCGTAG	MPACCAARRRLSRLCLAWAILLLSVAVAGPAAALDPHKNFEHYVRQQWSVEQGLPQLSVFAIAQDSDGYMWFGTQGGLARFDGVRMLSYGEAAPANLPGPWIQALLAGTDGRLWIGTYKGLAVHRQGHFANVPVDGGDSALDVQALAQDSDGGLLVAAQDGVYAEQNGRLRRRHALADGAFALLPGPSGLVIGTLGATVRVTAGAPQRMPMPAEAADAAVRHLVRSQGGLWAGTDRGLFQLRDGRWQAPADARLAGTAPINALYPDGDGNLWLGQGDQLLRIVDGRLAERAEGGDHGLGVRAVFEDRERNLWLGSRWFGTIRLWNGWTRRFGAAQGLPDPLVWTIAPDRDGALWIGAHGGLFRLADGRYQRVLGETELPQSDVYALLAEDDRLWIGTRHGAALYANGRLATPAWLARLDDVQISGILRDRDQRLWFATSGGLYGWDGQAWHHYGTAAGLRDVRVRLLLQARRNGDLLVGTQAGLYALRGEHLVPLDDGNAALAGADITALRELPDGQLLAGTLGEQLWLLDRGRWSVFGAEQGLPVNAPFFLSDDSKGQLWVAGMRGVYRTSLQHLIAAARTPGLQLSGDVVLNERGMRHGGIEGACCNGAGNGRGVVEGTTLWLPSRDGVVALDTAYIFYNRVAPLPGVEGVRSGGLWRDNDDGPVWALPARARDLDFEFTVPSFQAPGNVDLRYRLRGYDRDWRDVDDTARRRASYTNLPAGDYVFEVTGSNNAGHWAAVAAARPFRIAPHLHETWWVRTLAALLALVLLVVAYRMLLAWHRRQRVVLERLVRERTEALQSANQRLQEASFTDDLTGLRNRRYLSMHVPRDIALYRRMARTSAGEATGMAFVLVDVDHFKAINDSAGHHVGDAVLQQMAQLLQVETRESDYVVRWGGEEFLLVLRAAPRHHGGKIAERLCRAIAAHPFDLGDGRRGQVTCSMGLVEFPLLADPDALLGWEQLLVLADRALYWVKRNGRNGWASYRPMPMATAIDVLAAVHGPAELMDASPALRLEHSEPQAAPPA				NA	NA	NA	NA	NA
BMS020_06422	999	rutD_3		Putative aminoacrylate hydrolase RutD	ATGAAGCCACGCGCCCACCGCCTGCTTGCCCTCGCCCTCACCCTCTGCGCCACCGGCGCGCACGCCGCCGACAGCTACGGCCCGCGGCTGGAAGGGTTCGACTACCCCTGGCCGGTGCACACCTATCGGCTGCAATCGCAGCGCCAGGCGCTGGAGATGGCCTACCTGGACGTGCCGCCGCGCGGCGCCGCCAACGGCCGCACCGCGGTGCTGCTGCACGGCAAGAACTTCTGCGCCGCGACCTGGCAGCACACCATCGAGGCCCTGACCGATGTCGGCTACCGGGTCATCGCCCCGGATCAGATCGGCTTCTGCAAATCGAGCAAGCCGGCGGCCTACCAGTTCTCGCTGGCCCAACTGGCCGCCAACACCCACGCGCTGCTGGAAGCGCTGGGCGTGCAGCGCGCCATCGTCGTCGGCCACTCGATGGGCGGCATGCTCGGCATCCGCTATGCGTTGACCTATCCGCAGGCGGTCGAGCGGCTGGCGCTGGTCAACCCGATCGGTCTGGAGGACTGGAAGGCCGCCGGCGTGCCGTGGCAGGACGTGGACGCCTGGTACACGGGCGAACTGAAGACCGATTACGACAGCATCAAGCGTTACCAGCTCGGCACCTACTACGCCGGGCACTGGACGGCCGAGTTCGAGCATTGGGCGCGGATGCAGGCCGGCATGTACGCCGGCCCGGGCCGCGAGCAGGTCGCCTGGAACCAGGCACTGACCTACGACATGGTGCTCAACCAGCCGGTGGTGCACGAGCTAGGCAACCTGAAGGTGCCGACCACGCTCTTCATCGGGCAGAAGGACAACACCGCGATCGGCAAGGCGCTGGCGCCGCCGGAGGTCCGCGCCAGCCTCGGCAACTACCCGGTGCTGGGCCGCCGCGCCGCCGCGACCATTCCCGGCGCGACCCTGGTGGAATTCGACGATCTCGGCCATTCCCCGCAGGTGCAGGCGCCGCAACGCTTCAACACCGCCCTGCTCGACGCGCTGCGCTGA	MKPRAHRLLALALTLCATGAHAADSYGPRLEGFDYPWPVHTYRLQSQRQALEMAYLDVPPRGAANGRTAVLLHGKNFCAATWQHTIEALTDVGYRVIAPDQIGFCKSSKPAAYQFSLAQLAANTHALLEALGVQRAIVVGHSMGGMLGIRYALTYPQAVERLALVNPIGLEDWKAAGVPWQDVDAWYTGELKTDYDSIKRYQLGTYYAGHWTAEFEHWARMQAGMYAGPGREQVAWNQALTYDMVLNQPVVHELGNLKVPTTLFIGQKDNTAIGKALAPPEVRASLGNYPVLGRRAAATIPGATLVEFDDLGHSPQVQAPQRFNTALLDALR	PGPT0024360_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_LYSOPHOSPHOLIPASE_ACTIVITY,PGPT0024360-PLB-K13333	NA	NA
BMS020_06423	2058			hypothetical protein	ATGAACGTGACGTCCGCCTTACCCTGGTTGTTGTGTGGCTTCACCCTGTTCGGCGCCAACGGCGCCGCGCAGGCCCAGACCGCGTCCTGCGCCGGCGTGTCCGCGTGGAACGCGGCGACGATCTACCAGGCCGGCGACACCCTGACCTACCAGGGCCGGCTGTACCGCACCACCACGCAGATCTGGAACGTCGCCCCGACCTACTGCACCAGCTGCGGCTGGTATGAGGATCTCGGCGCGTGCAGCACCAGCGGCGGCAACCAGGCGCCCAGCGTGGCCCTGAGCGCGCCGGCCGCCGGCGCCAGCTTCAGCGTCGGCAGCACCATCACCGTGTCGGCCGATGCCAGCGACAGCGACAGCGACGGCAGCATCGCCAAGGTCGAGTTCTTCCGCGGCAGCACCTCGCTCGGCAGCGATACCAGTGCACCGTACAGCGTGGCCTGGAGCGGCGCGGCCGCCGGCAGCTACACGTTGACCGCGATCGCCACCGACAACGCCGGCGCCACCACCACCTCGGCCGCACGCACGATCAGCGTCATCGCGGCCAGCACCGACACCACCGCACCCAGCGTGCCGACCGGGCTGGCGTCCACCGCGCAATCGTCCAGCAGCATCACCCTGGCGTGGACGGCGGCCACCGACACCGGCGGCAGCGGCCTGGCCGGTTACCAAGTCTACCGCAACGGCAGCCTGGTCGGCTCGCCGGGCGGCACCGCCTACACCGATTCTGCGCTGGCCGCCGACACCGCCTACAGCTACCAGGTCGCCGCGCGCGACGGCGCCGGCAACGTCTCGGCCAAGAGCACGGCGCTGAGTGCGCGCACGCTCGTCGCCAGCGGCGGCGACGCCAAGCGGATCATCGGCTACTTCACCCAGTGGGGCATCTACGGCCGCAACTACCAGGTCGCTGACATCGACAAGAGCGGCTCGGCCGCCGTCATGACCCACATCAACTATGCCTTCGGCAACGTGCGCAACAACGTCTGCGAAGTTGGCGTGACCCAGGCCTCCGATGCCAACACCGGCGCCGGCGGCGATGCGTTCGCCGACTACACCAAGGCGTTTGCCGCAGCGCAGAGCGTGGACGGGATCGCCGACACCTGGGACCAGCCGCTGCGCGGCAACTGGAACCAGCTCAAGAAGCTCAAGGCCAAGCATCCGGGGCTGAAGGTGCTGATCTCGCTGGGCGGCTGGACCTGGTCGCGCGGCTTCGCCAGCGCGGCGCGGCCGGAGAACCGCCAGGCCTTCGTCGCCTCATGCATCGACGCCTACATCCGCGGCAACCTGCCGGTCACCGACGGCGCCGGCGGCAGTGCCGCGGCCAGTGGCGTGTTCGACGGCATCGACATCGACTGGGAATACCCCAACGCCTGCGGGCTGGCCTGCGGCAGCGCCGAGGACCGGCAGAACTTCACCGCACTGCTGGCCGAGTTCCGCCGCCAGTTGGACGAGGTCCGCCCAGGCCTGTTGCTGACGTTGGCGGTCGGCGCCGGCGTGGACAAGATCGCCGCGACCGACCCGGGCCAGTACGCGCAGTCCGTGGACTACATCAACGTGATGACCTACGACTTCCACGGCGCCTGGGACGCGCAGACCAACCACCACTCCGCGCTGTTCCATGCCGCCGGCGATCCATCCACCGGCGACCAGCAGTACTACAACAGCAACGATGCGATGCAGGCCTTCCTCGACGCCGGCGTGCCGGCCACCAAGCTCAACCTCGGCATCGGCTTCTACGGCCGCGGCTGGACCAACGTGGCCAACGTCAACAACGGCCTGTACCAGAGCGGCAGCGCAGCACCGGGCACCTACGAGGCTGGCATCGAGGACTACAAGGTACTCAAGACCCGGGCCGGCACCGACCATGTCGATGCCAGCGCTGGCGCGCACTGGAAGTACGACGGCAGCACGTTCTGGAGTTACGACGACCCCAGCGTGATCGCGCAGAAGATGCAGTACGTGAACAGCCAGGGGCTGGGCGGCGCGTTCTTCTGGGAGTTCAGTGGCGACACCAGCCAGGGCGAACTGGTGAAGGCATTGGCGGACGGGCTCGACTGA	MNVTSALPWLLCGFTLFGANGAAQAQTASCAGVSAWNAATIYQAGDTLTYQGRLYRTTTQIWNVAPTYCTSCGWYEDLGACSTSGGNQAPSVALSAPAAGASFSVGSTITVSADASDSDSDGSIAKVEFFRGSTSLGSDTSAPYSVAWSGAAAGSYTLTAIATDNAGATTTSAARTISVIAASTDTTAPSVPTGLASTAQSSSSITLAWTAATDTGGSGLAGYQVYRNGSLVGSPGGTAYTDSALAADTAYSYQVAARDGAGNVSAKSTALSARTLVASGGDAKRIIGYFTQWGIYGRNYQVADIDKSGSAAVMTHINYAFGNVRNNVCEVGVTQASDANTGAGGDAFADYTKAFAAAQSVDGIADTWDQPLRGNWNQLKKLKAKHPGLKVLISLGGWTWSRGFASAARPENRQAFVASCIDAYIRGNLPVTDGAGGSAAASGVFDGIDIDWEYPNACGLACGSAEDRQNFTALLAEFRRQLDEVRPGLLLTLAVGAGVDKIAATDPGQYAQSVDYINVMTYDFHGAWDAQTNHHSALFHAAGDPSTGDQQYYNSNDAMQAFLDAGVPATKLNLGIGFYGRGWTNVANVNNGLYQSGSAAPGTYEAGIEDYKVLKTRAGTDHVDASAGAHWKYDGSTFWSYDDPSVIAQKMQYVNSQGLGGAFFWEFSGDTSQGELVKALADGLD	PGPT0012130_1153	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
BMS020_06424	1086			hypothetical protein	ATGAGCGCATCCGCGCCCGTGTCCGAGCCGGCGGCACTGGTCAGCGCGGCGCCGTCGCCGCGGCTGGCGCTGCTGGGCACCGGGACCGTCGGCAGCGCCTTCGTCGCGCGCTTCCAGGCGCTGCGCCAGCGCCAGTTGCGCCTGCCGGCGTTCGCCTGGCTGGCCAATTCGCGCGCGGCCTGTGCCGGTGGCGACCTGGGGGCGGCGCTGGCCGAGGCCAGTGCGGCGCCGCGCGTCGACGGCATCGCCGAGGCCTGGCACGCCGCGGCGCCGCTGCGCGCCGGCGACGTGCTGGTGGATGCGACCGCCAGCGATGCGGTTGCCGCCCGCCACGCCGAGTGGCTGGGGCGTGGCGTGCACGTGGTGACCGCCAACAAGCTCGGGCGCGGCGCGCAGCTGGAGCGCGCGCAGGCGATCGGCGATGCGCTGCACCGGGGCGAGGCCGGGTACGGCGACAGCGCCACGGTCGGTGCCGGCCTGCCGTTGCTGAGCAGCGTGCGCGCGCTGGTCGCCGGCGGCGACCACGTGCATGCGGTGGAAGGTGTGCTGTCCGGTTCACTGGCGTGGTTGTTCCACCGCTACGACGGCAGCCGGCCGTTCTCGGCCTGCGTGCGCGAGGCGGTGGCCGCCGGGTACACCGAGCCGGATCCACGCATCGACCTGTCCGGCGAGGACGTGCGGCGCAAGCTGCTGATCCTGGCGCGCGCGGCCGGCGTGCCGCTGCGTCCGGAGCAGGTGCGGGTGGCCTCGCTGGTGCCGCAGGCGCTGGCCGAGCTGCCGTTGGCTGCGCTGGATGCGCGCCTGCCCGACCTCGACGCGCTGCTGGCCGAGCGCCTGCAGCGTGCACGCGACAACGGCCGCTGCCTGCGCTTCATCGGCCGCTTCGATGCCGACGGCGCCGAGGTCGGCCTGCGCGAGCTGGAGGCCGACCATCCGCTGGCCGGTGGTGGCGGCACCGACAACCGCGTGGCGATCAGCAGCGATCGCTATCCGCGCCAGCCGCTGTTGATCCAGGGGCCGGGCGCCGGCGCCGAGGTCACTGCCGCGGCGCTGCTCGACGACGTGCTGCGCATCACCGCACGCTGA	MSASAPVSEPAALVSAAPSPRLALLGTGTVGSAFVARFQALRQRQLRLPAFAWLANSRAACAGGDLGAALAEASAAPRVDGIAEAWHAAAPLRAGDVLVDATASDAVAARHAEWLGRGVHVVTANKLGRGAQLERAQAIGDALHRGEAGYGDSATVGAGLPLLSSVRALVAGGDHVHAVEGVLSGSLAWLFHRYDGSRPFSACVREAVAAGYTEPDPRIDLSGEDVRRKLLILARAAGVPLRPEQVRVASLVPQALAELPLAALDARLPDLDALLAERLQRARDNGRCLRFIGRFDADGAEVGLRELEADHPLAGGGGTDNRVAISSDRYPRQPLLIQGPGAGAEVTAAALLDDVLRITAR	PGPT0020155_3769	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020155-hom-K00003	NA	NA
BMS020_06425	1221	metB_1	COG0626	Cystathionine gamma-synthase	ATGAGCTCCCACGATACCGACTTCCCCTCCTGTAGCGCCGCCACCGGTGCAGTGCGCGCCGGCATCGACCGCGATACCGCCTACGGCGCGGTGACGCCGCCGATCGTGCTGTCGTCGAATTTTTCCTTCGACGGCTTCGGCAACAAGCGCGAGTACGACTACACCCGCAGCGGCAATCCGACCCGCGACCTGCTCGGCGAAGCGCTGGCGCAGCTGGAAGGCGGCGCCGGCGGCGTGATCACCGCCACCGGCATGGGCGCGATCAACCTGGTGCTCAACGCACTGCTGCAGCCGGGCGAGAAGCTGGTGGTGCCGCACGATGCCTACGGCGGCAGCTGGCGCCTGTTCAACGCGCTGGCCAAGAAGGGCCACTTCGAGCTGATCACCGCCGACCTGACCAACCCGGTGTCGCTGGGCGAGGCGCTGGCGCAGTCGCCGAAGCTGGTGTTGATCGAGACCCCGTCCAATCCGCTGCTGCGCATCACCGACCTGCGCCTGGTCATCGAGGCCGCGCACAAGGCCGGTGCGCTGGCGGTGGTCGACAACACCTTCCTGTCGCCGGCGCTGCAGCGTCCGATCGAATTCGGCGCCGACCTGGTGATCCACTCCACCACCAAGTACGTCAACGGCCACAGCGACGTGGTTGGCGGTGCGGTGATCGCGCGCGATGCCGAGCTGCACCAGCAGCTGGTGTGGTGGGCGAACGCGCTGGGCCTGACCGGCTCGCCGTTCGACGCGTTCCTGACCCTGCGCGGCCTGCGCACGCTGGATGCGCGCCTGCGCGTGCACCAGGAGAACGCGCAGGCGGTGGTCGACCTGCTCGATCGCCACGCCGCGGTCGCCCAGGTCTATTACCCGGGGCTGGCCTCGCATCCGGGCCACGCGCTGGCTGCGCGCCAGCAGAAGGGCTTCGGCGCGATGATCTCGTTCGAGCTGGACGGGGGCGAGGCGGCGGTGCGCGCCTTCGTCGACGGCCTGCGCTACTTCACCCTGGCCGAATCGCTGGGCGGCGTGGAGAGCCTGGTCGCGCATCCGGCGACGATGACGCATGCGGCGATGACCCCGGAGGCGCGCGCCAAGGCCGGCATCAGCGATGGCCTGCTGCGGCTGTCGGTCGGTATCGAATCGACCGAGGACTTGCTGGCCGACCTGGCCGCCGGCCTGGCGCGTGCGCAGGCGGTGGTCGACGCCGCCGCGCAGCGCAAACAGGCCGACGCATGA	MSSHDTDFPSCSAATGAVRAGIDRDTAYGAVTPPIVLSSNFSFDGFGNKREYDYTRSGNPTRDLLGEALAQLEGGAGGVITATGMGAINLVLNALLQPGEKLVVPHDAYGGSWRLFNALAKKGHFELITADLTNPVSLGEALAQSPKLVLIETPSNPLLRITDLRLVIEAAHKAGALAVVDNTFLSPALQRPIEFGADLVIHSTTKYVNGHSDVVGGAVIARDAELHQQLVWWANALGLTGSPFDAFLTLRGLRTLDARLRVHQENAQAVVDLLDRHAAVAQVYYPGLASHPGHALAARQQKGFGAMISFELDGGEAAVRAFVDGLRYFTLAESLGGVESLVAHPATMTHAAMTPEARAKAGISDGLLRLSVGIESTEDLLADLAAGLARAQAVVDAAAQRKQADA	PGPT0001995_2475	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
BMS020_06426	1032	metXS	COG2021	Homoserine O-succinyltransferase	ATGAGCCTCGCCACCGCCGCCACGCAACCGACCAGTGCTTACGCCTACACCCCCGTGCTCGACGACGCGGGGCGCATCGGCGTGCGCGGCGAGCTGGCGATCGCCCTGCCGATGCGGCACGCCGGCCTGCGCACGCTGACGCTGCGCTACGAGCTGGTCGGCGCGGTCGATGCGCCGGTGGTGTTCGTCGCCGGCGGCATCTCCGCGCACCGCCACGTCGCCGCCAGCGCGCTGTTCCCCGAGAAGGGCTGGGCCGAGGGGCTGGTGGGCAGCGGACGCGCACTGGATCCGGCGCGCCGGCGCATCCTGGCGATCGATTTCGTCGGTGCGGACGGCAATCTCGACGCGCCGATCGACACCGCCGACCAGGCTGATGCGGTCGCCGCGCTGCTGGACGCGCTCGGCATCGCGCGGCTGCATGGCTTCGTCGGCTATTCCTACGGTGCGCTGGTCGGGCTGCAGTTCGCGCTGCGCCATGCCGGCCGTGTCGAACGCCTGGTCGCGGTCAGCGGCGCGCACCGCGCGCACCCGTATGCCGCCGCCTGGCGCGCGCTGCAGCGTCGCGCGGTCGCGCTCGGCCAGCTGCAGTGCGCCGAACACCACGGGCTGGCGCTGGCGCGGCAGTTCGCGATGCTCAGCTACCGCACGCCGGAGGAATTCGGCGAGCGCTTCGACGCGCCGCCGGAAGTGGTCAACGGCCGCGTGCGCGTGGCCGCCGAGGACTACCTCGACGCCGCCGGTGCGCAGTACGTCGCACGCACCCAGGTCAACGCCTACCTGCGGCTGTCCGAATCGATCGACCTGCACCGCATCGACCCGCAGGCGATCGCGGTGCCGACGCTGGTGGTGGCGGTCGAAGGCGACCGCCTGGTGCCGCTGTCGGACCTGGTCGCGCTGGTCGAAGGTCTGGGCCAGCGCGGCAGCCTGCGCGTGCTGCGCTCGCCTTACGGCCATGACGCCTTCCTGAAAGAAACCGATCGCATCGACGCGATCCTCGCCAACGCCCTTCGCGCCCCCGGAGAAACCGCATGA	MSLATAATQPTSAYAYTPVLDDAGRIGVRGELAIALPMRHAGLRTLTLRYELVGAVDAPVVFVAGGISAHRHVAASALFPEKGWAEGLVGSGRALDPARRRILAIDFVGADGNLDAPIDTADQADAVAALLDALGIARLHGFVGYSYGALVGLQFALRHAGRVERLVAVSGAHRAHPYAAAWRALQRRAVALGQLQCAEHHGLALARQFAMLSYRTPEEFGERFDAPPEVVNGRVRVAAEDYLDAAGAQYVARTQVNAYLRLSESIDLHRIDPQAIAVPTLVVAVEGDRLVPLSDLVALVEGLGQRGSLRVLRSPYGHDAFLKETDRIDAILANALRAPGETA				NA	NA	NA	NA	NA
BMS020_06428	876			hypothetical protein	GTGCGCCTGTCCCGCCCCCTACTTGTGCCGTATATCGGCGGCCTGCTGGCCATCGCCCTGGCCCTGCCGGCCCAGGCCCAGCGCCTGCTCGACTGGCAGCGCCGCGAGACCCGCCCACAGGCCACGGCACAGCCGGCCGACAGCCACGATGCGCCCTGGCTGCAGCTGCGCCGGCGCGGCGAGGCCTATGAGGCATGGGCCAGCAACCCGTGGGCCGGACCCGCGCAGGTGGTACTGCGCGGGCGCCAGCTCGCCGGCTTCCGCGCCGACACCCCGCTGCCGGCCAGCAGCGTGCTCGGCCCCGGCGAGCGCCGCCTGCTGGCGCGTCTGCTACCGACCACGGCCGCCACCGCGCCGCTCGACCTGGAACTGGATGGCCTGCCCGGCGCGCCCGGCGCCAACGTCCGCGACGTGGTCTACCAGCTGCCGTTCGACGCCCCGGCGCGCATCGACCAGGGCTTCGACGGCGCATTCAGCCATCACGACGCCGAGAACCGCTACGCGCTGGATTTCGCCCTGCCCGAAGGCACCCCGGTCCTGGCCGCGCGCGCCGGCACGGTGATGCAGGTCCAGGCCGGCTTCCACGAGGCGGGGCTGGACCGCGAACGCTTCGGCGCGCGCGCCAACGTGGTCCGCATCCTCCACGACGACGGCAGCATGGCGCTATATGCGCACCTGTCCGACACCGGCATCGTGGTCATCCCCGGCCAACATGTCCGCGCCGGCCAACCGCTCGGTCGCTCGGGCAATACCGGGCTGAGCAGCGCCCCGCACCTGCACTTCGTCATCCAGGCCAACGCCGGCGGCCGCCTGCAGTCACTGCGCTTCCGCATGCGCGGCCCGCTGGGCGAGCTGCGCTTCGCCGATAGCCGCTAG	MRLSRPLLVPYIGGLLAIALALPAQAQRLLDWQRRETRPQATAQPADSHDAPWLQLRRRGEAYEAWASNPWAGPAQVVLRGRQLAGFRADTPLPASSVLGPGERRLLARLLPTTAATAPLDLELDGLPGAPGANVRDVVYQLPFDAPARIDQGFDGAFSHHDAENRYALDFALPEGTPVLAARAGTVMQVQAGFHEAGLDRERFGARANVVRILHDDGSMALYAHLSDTGIVVIPGQHVRAGQPLGRSGNTGLSSAPHLHFVIQANAGGRLQSLRFRMRGPLGELRFADSR				NA	NA	NA	NA	NA
BMS020_06429	396			hypothetical protein	ATGGACCCGAGAACCCTGCACATCCAACCCAGTGCCCCGGAGCCGATCTACCGGCAGATCGCCGAGCAGGTCCGCCGCCTGGTCGCCGCCGGCCAGTTGCGGGCAGGCGATGGCCTGCCCTCGGTCCGCGACGTCGCCGCGACCCACGCGGTGAATCCGATGACGGTGTCGCGCGCCTACAGCCTGCTGGAATCCGAAGGGGTACTCGAACGGCTGCGCGGCAAGGGCATGGCCGTCGCCGCCACCCCCGCCGCACAGACCCCGCCGGACCAACGCATGGAACTGATCGAGCCGCGCCTGCGCGAACTCGCCCGCCACTGCCGCGAGCTCGACCTGCCCGCGCAACACGTCATTGACCGCCTGAAACACCTGCTGGGAGACCAAGGAAATGCGTAG	MDPRTLHIQPSAPEPIYRQIAEQVRRLVAAGQLRAGDGLPSVRDVAATHAVNPMTVSRAYSLLESEGVLERLRGKGMAVAATPAAQTPPDQRMELIEPRLRELARHCRELDLPAQHVIDRLKHLLGDQGNA				NA	NA	NA	NA	NA
BMS020_06430	912	btuD_12		Vitamin B12 import ATP-binding protein BtuD	ATGCGTAGTGCATCGATGCTGGCAGACGCCGCCAGCGAACTGGATTTCGAACTGCCGGTCGCTGCCACCGGGCTGCACCTGGCCTTCGGCAAGCACGCGGTATTGCAGGGCGTGGACCTGCAGCTTGGACAAGGCGAGGTGGTGGGCCTGATTGGCCGCAACGGCGCCGGCAAGAGCACGCTGCTGGCCTGCCTGCTGGGCCTGCTGCAGCCACAGCAGGGCGAAGCGCGCCTGTTCGGCGGCCCGGCGCTTGGCCTGGACGATGCCCGCAAGCAGCGGCTCGGCTTCGTCCCGCAGCAGCCTCAGGCCTTCGGCTGGATGCGGATCGAGGAATTGATGGGCTTCGCCGCCCAGTTGTACCCGGACTGGGACCGCCACCGTGCGACCTCGCTGCTGCGCCGCTGGGAGCTGGATCCGAAACAGGCCATCTCCAAACTCTCGCCCGGACAGGCGCAGCGGCTGGCGCTGGTGCGGGCGCTCGCGCCGCGGCCTGCCCTGCTGGTGCTGGACGAACCCGCCTCGGCGCTGGACCCGGTCGCACGCCGCGACCTGATGCGCGAGCTGGTCACGCAAACCTGCGACGAAGGCACCACGGTGCTGTTTTCCAGCCATATCGTCAGCGACCTGGAACGGGTCGCCTCGCGGGTGGCCTTCCTGCACGAAGGCCGGTTGCTGCTCGACCATCCGCTGGACGAGCTCAAGGACCATGTCCTGCGCGTCAGCCTGCCCGCCCACGCCGGAGCGGCACTGAGCGCCGCGTATCCCGGCGAGTTGGCGCGACGCAGCGACAGCGACGGCCGCCATGTCCTGTTGCTGCACACCACCGCGCTGCCGCCGGCGCTACTGACCGCCGCCGACGTGCGTATCGACCGGCTGGGCCTGGAGGATCTTTTCATCGAGGTGGTCGGATGA	MRSASMLADAASELDFELPVAATGLHLAFGKHAVLQGVDLQLGQGEVVGLIGRNGAGKSTLLACLLGLLQPQQGEARLFGGPALGLDDARKQRLGFVPQQPQAFGWMRIEELMGFAAQLYPDWDRHRATSLLRRWELDPKQAISKLSPGQAQRLALVRALAPRPALLVLDEPASALDPVARRDLMRELVTQTCDEGTTVLFSSHIVSDLERVASRVAFLHEGRLLLDHPLDELKDHVLRVSLPAHAGAALSAAYPGELARRSDSDGRHVLLLHTTALPPALLTAADVRIDRLGLEDLFIEVVG	PGPT0006725_13231	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS020_06431	1377			hypothetical protein	ATGAGCGCGTTGCTCCTGCGCCTGCGGCTGCTGGCATCGGCCGCCGGCGTTCTGCGCTGGCTGCTTCCTGCCGTGGTGCTGGTCGGCTACGCATCGACCTGGCTGCCGATCCAACGCCAGGCCCTGCTGGCGAACATGCTGACCGCCGCCGCGGTTGCCTTTGCCTGGTTCATGATCGGTTCCCGCGTGCTGGCCCTGCTCCACCATGGCCGCACCGCGCGTCTGCCAGGCATGTCCGCGCAGATCCGTCGGCTGCTGAGCCTGGGGCTGGTCTGCACGGTCCTGCTGCCGTCATTGCTGTATGCCACCCGTGGCGCGGAGATTGGCCTGTCGCTTTCGCTGCTCCTGCTCGCCGCCAGTGGCGGCGTGCTGTTCTCCGCACTACCGGCCTGGGCCATCACCCTGGTGAGTTTCGTACTTGGCGTAGTGACCGCATTCGCGCTGCGTTTGGCAGGCACATGGATGCACGCGCATCCGTGCAGCAGCATGCTGGTCACCGCATCCGCATTCACCGCAATCACCATCTGGGCCTGCTACGCGATGCGCTCCGGGCGCCTCGACCACCTGTCGCCGTGGACACGTCCCACCTGGATGAGCCTGCAACAGGGGCCGGGCGACGGCGGTGTCCGCCAGGCGGTGGAATCCCAGGAAGGCCGGATGGCCTGGCTGCAGGGCATTGCCCGTCCGGCAGCCCCGCGCGACCTGCGCCACGATCCCGAACGCGCGATGGGGTATGCACTTGGCCCCGGATTCGCGCCAGGCCGTCCACTGAGCAGCGCACTGACCGCCATCTGCCTGCCCGCTCTGGTGCTGCTGGTCTGGACCCCGCTGATGGCGCATTCCGGCGACCTGATGCTGGTCATCGCCAACTCAGTCGGCTGCTTCTCCAGCGTGAAGTTCCTGCAGCGCCTGTGGTTGTGGCGGCGCCAGGCCAACCTGGGGCTGCTGGAAAGCATGTTGCTCCCGGGGCTCGGCACGCCGGGCCGGGTACATCGGGTGTTCTGCCAGCTGGTGCTCAAACGCGCGATCGCCGCCGCGCTGCCGTGGGCGGCCGTGGCCATCGCAGCCGGGCTGATACAACACGCTCCGGGGGCCTACTACCCCATGGTGATGTGGATGCAGGCAACGTCGGTGATGTCGTCCTGCGCGATCATTGTGGCCTGCATGCGCTGGCCACGCGGCGGGCTGGCGATGACCGTGATGCAGCTCGGCCTGCTCCTGCTGACCTGCGCCAGCGTGGCGGTCCTGCTGCGCGACCCAGCCAGCAGCGCCTGGCTGACGCCCAGCTGGGCGGGGCTGCTGCTGGCCGCCACCGGCCTGTTCCTGCTGGCCTCGCAGCAGCTCGGCCGCCGCCCGCACCCCTGGCTGCTGAACTGA	MSALLLRLRLLASAAGVLRWLLPAVVLVGYASTWLPIQRQALLANMLTAAAVAFAWFMIGSRVLALLHHGRTARLPGMSAQIRRLLSLGLVCTVLLPSLLYATRGAEIGLSLSLLLLAASGGVLFSALPAWAITLVSFVLGVVTAFALRLAGTWMHAHPCSSMLVTASAFTAITIWACYAMRSGRLDHLSPWTRPTWMSLQQGPGDGGVRQAVESQEGRMAWLQGIARPAAPRDLRHDPERAMGYALGPGFAPGRPLSSALTAICLPALVLLVWTPLMAHSGDLMLVIANSVGCFSSVKFLQRLWLWRRQANLGLLESMLLPGLGTPGRVHRVFCQLVLKRAIAAALPWAAVAIAAGLIQHAPGAYYPMVMWMQATSVMSSCAIIVACMRWPRGGLAMTVMQLGLLLLTCASVAVLLRDPASSAWLTPSWAGLLLAATGLFLLASQQLGRRPHPWLLN				NA	NA	NA	NA	NA
BMS020_06432	1605	prfC_2	COG4108	Peptide chain release factor 3	ATGTCCGAAGTCTCCACCGAAGCCGCGCGCCGCCGCACCTTCGCGATCATCTCCCACCCCGACGCCGGCAAGACCACGCTGACCGAAAAGCTGCTGCTGTTCGGAGGCGCGATCCAGATGGCCGGCTCGGTCAAGGGCCGCAAGGCCGCACGCCATGCCACCTCGGACTGGATGGCACTGGAAAAGGAGCGCGGCATCTCGGTGACCTCCTCGGTGATGCAGTTCCCATACGAGGACAAGATCGTCAACCTGCTCGACACCCCCGGCCACGCCGACTTCGGCGAGGACACCTACCGCGTGCTCACCGCGGTGGACTCGGCGCTGATGGTGATCGACGTGGCCAAGGGCGTAGAGGAGCGCACCATCAAGCTGATGGAGGTGTGCCGCCTGCGCGACACCCCGATCATGACCTTCATCAACAAGCTCGACCGCGAGGGCAAGGACCCGATCGAGCTGCTCGACGAGGTCGAGAGCGTGCTCGGCATCCAGTGCGCGCCGGTGACCTGGCCGATCGGCATGGGCCAGCGCCTGAAGGGCGTGGTCCACCTGGTCAGCGGCGAGGTCCACCTGTACGAGCCTGGCCGCAACTTCACCCGCCAGGATTCGACGATCTTCCCGTCGCTGGACGCGCCCGGCCTGGCCGAGAAGATCGGCGAGAAGATGCTGGCCGACCTGCGCGACGAGCTGGAACTGGTGCAGGGCGCCAGTCATCCGTTCGACAAGCAGGCCTACCTCGACGGCAAGCAGACCCCGGTGTTCTTCGGCTCGGGCGTCAACAACTTCGGCGTGCAGCCGCTGCTGGACTTCTTCGTCGAGCACGCGCCGTCGCCGCAGCAGCGCGCCACCACCGGCCGCGACGTGCAGCCGACCGAGACCAAGCTCACCGGCTTCGTGTTCAAGATCCAGGCCAACATGGACCCGCAGCACCGCGACCGCGTCGCGTTCATGCGCGTGTGCTCGGGCAAGTTCACGGCCGGCATGAAGGCGTTCCACGTGCGCAGCGGCAAGGAGCACAAGCTGGCCAACGCGCTGACCTTCATGGCGTCAGACCGTGAGATCGCCGCCGAGGCGTTCCCGGGCGATGTGATCGGCATCCACAACCACGGCACGATCTCGATCGGCGACACCTTCACCGAGGGCGAGCAGCTCTCGTTCACCGGCATCCCCAACTTCGCGCCCGAGCTGTTCCGCCGCGCGCGGCTGCGCGATCCGCTCAAGCTCAAGCAGCTGCAGAAGGGCCTGGCGCAGCTGTCGGAGGAAGGCGCCACCCAGTTCTTCCGCCCGCTGATGAGCAACGACCTGATCCTCGGCGCGGTCGGCGTACTGCAGTTCGACGTGGTGGCCTACCGGCTGAAGGACGAGTACGGCGTGGACGCCACCTTCGAGCCGGTCAGCGTGGTCACCGCACGCTGGGTGCATTGCGACAACGCGAAGAAGCTGGAGGAGTTCCGCGAGAAGAACGCCGGCAATCTGGCCGTGGACGCGGCTGGCGAACTGGTCTACCTGGCGCCGACCCGGGTCAACCTGCAGCTGGCGCAGGAACGCGCCCCGGACGTGCGCTTCTCGGCCACGCGCGAACACGCCCACAGTGTGGCGGTCGATTGA	MSEVSTEAARRRTFAIISHPDAGKTTLTEKLLLFGGAIQMAGSVKGRKAARHATSDWMALEKERGISVTSSVMQFPYEDKIVNLLDTPGHADFGEDTYRVLTAVDSALMVIDVAKGVEERTIKLMEVCRLRDTPIMTFINKLDREGKDPIELLDEVESVLGIQCAPVTWPIGMGQRLKGVVHLVSGEVHLYEPGRNFTRQDSTIFPSLDAPGLAEKIGEKMLADLRDELELVQGASHPFDKQAYLDGKQTPVFFGSGVNNFGVQPLLDFFVEHAPSPQQRATTGRDVQPTETKLTGFVFKIQANMDPQHRDRVAFMRVCSGKFTAGMKAFHVRSGKEHKLANALTFMASDREIAAEAFPGDVIGIHNHGTISIGDTFTEGEQLSFTGIPNFAPELFRRARLRDPLKLKQLQKGLAQLSEEGATQFFRPLMSNDLILGAVGVLQFDVVAYRLKDEYGVDATFEPVSVVTARWVHCDNAKKLEEFREKNAGNLAVDAAGELVYLAPTRVNLQLAQERAPDVRFSATREHAHSVAVD				NA	NA	NA	NA	NA
BMS020_06433	645			hypothetical protein	ATGAACGCCGAAGCCCGACCCTCCACCGATTTCCGCGACGAACTGGCCAGCGCGCTTACCCACGGGCTGGGCGCGATCGGTGCACTGGCCGGCGGCTCGGTGCTGATCACGCTGGCCGCGGTCTACGGCGATGGCTGGCAGCTGGCCACCTCGATCGTATTCAGCGTCACCCTGCTGCTGCTGTACGTGGCGTCGACGCTGTACCACGCGATCCCGCACCCGGGCGCCAAGGCCCGCCTGCAGGTGTTCGACCACTGCTGCATCTACCTGCTGATCGCCGGCACCTACACCCCGTTCACGCTGATCGGGCTGCGCGGCCCCTGGGGCTGGAGCCTGTTCGCGGCGATCTGGACCATCGCCATCGCCGGCGTGGTGTTCAAGCTGTTCTTCACCGGCCGCTTCCGGCTGCTGTCGACCATCCTGTACATCGCGATGGGCTGGCTGGTGGTCATCGCGATCGAGCCGCTGCTGCGCTCGGTCGACGCCTGGTCGTTGAGCTGGCTGCTTGCCGGCGGCCTGTTCTATACCCTCGGCACCTATTTCTACCAGCGCGATTCAGTGCGTTACTTCCACGCGATCTGGCACCTGTTCGTGCTGGCCGGCAGCGTCTGCCACTTCGTCGCGGTGACCGGCCAGGTGCTGTAA	MNAEARPSTDFRDELASALTHGLGAIGALAGGSVLITLAAVYGDGWQLATSIVFSVTLLLLYVASTLYHAIPHPGAKARLQVFDHCCIYLLIAGTYTPFTLIGLRGPWGWSLFAAIWTIAIAGVVFKLFFTGRFRLLSTILYIAMGWLVVIAIEPLLRSVDAWSLSWLLAGGLFYTLGTYFYQRDSVRYFHAIWHLFVLAGSVCHFVAVTGQVL				NA	NA	NA	NA	NA
BMS020_06434	1965			hypothetical protein	ATGGCTGCCGCGCCCGACACCACTCCTGCCCCGCCGCGCCGCTGGCGCGTTCCGGGCCGTCGCGGCCAACGTTGGCTGGCATCCCTGGCCCTGCTCGCCGCCCTGCTGTTCCTGCTGGTCGCACTGTGGGACTGGAACTGGTTGCGCGGCCCGGTTGAACGCGCCGTGCAGGCGCGGACCGGGCGGGCGCTGCAGATCGGCAACCTCGACGTCGAACTCGGGCGGGTCATCACCCTCCGCGGCGACCGCCTGGCGTTGGCCAATGCCGACTGGTCCAAGCAGGCGCGGATGGCGACGATCGCGCGCGCCGAGATCGACATCGCCGCGCAGCCATTGCTGCGTGGCGAGCTGAAGATCCTCGAGATTCGCCTCGACCGCCCCGACCTGCTGCTGGAGAACGCCACCGACACGCATCCAGGCAACTGGGTGTTCGGCAATGGCGCAGGCGACGGCCGGCTGCCGCCGCTGGGCCGGCTGCTGGTGCATGAGGGCCGGCTCAGGTTCACCGACAGCACCGGCCGCACCGACGTCGACGTGACCATCGACAGCCAGGCGCGTGCAGGCAACGACAGCGCGCCGCCGATCGCCATCGCCGGAACGGGCCGCTGGCAGGGCTCGCCGTTCACCCTCGCAGGCAGTACCGCCTCGCCCCTGCAACTGAGCCAGAGCGGGCGACCGTTTCGGATCGACCTGCGCGCGCAGGCGGGCGCCACCCGCGCCCACGTGCGCGGCGCCTTGACCAATCCGTTCGAGTTCCGGCTGTTCGCGCTGGACATGCTGGTGGATGGGCAGGACATGAAGGATCTGTACCCGCTGATCGGCGTCGTCCTCCCCTCCACGCCACCGTATCGCCTCGATGGCCGCCTTGTCCGCAACGAAGCGGTCTGGCGCTACCAGGACTTCACCGGCCGCGTCGGCGACAGCGACCTGTCCGGCACCGCCATGCTCGACCTCGGCGGGCAACGCCCCTACTTCAAGGCCGATCTGAGCTCCGCGCGGCTGGATCTCGACGACCTGGCCGGCTTCGTCGGCGCCCCGCCCGGCACCGGCGGCGGCGAGACCGCCAATGCCGGACAGCAGGCCCAGGCGGCCCGGATCGCCGCCAGCGGCAAGGTGCTGCCGGACAAGCCCTACAACCTGGAAAAGCTGCGCGCGATGGACGCCGACCTGCACTGGAAGGCGCAGCGCATCAACGCGCCACCGCTGCCGATCGACGACATGGACGTGCACCTGACACTGTCAGACGGGGTGATGCAGCTCAAGCCGCTAAACTTCGGTGTCGCCGGCGGCGACATCCGCGCCGAAGTGCGCATGGACGCCAGCGGCAAGGTGATCAGCACCCGCCTGCACGCCAGCATCCGCAAGCTGCAGCTCGCGCGACTGTTCCCGGACGCCAGGCTGGCGCGGCAGGCGTCAGGCTTGATCAGCGGCGACATCGCCATCGCCGGCAGCGGCAATTCGGTCGCGGCGATGCTGGGCTCCTCGGACGGCAACATGGCCGTGGGCATGGGCCGCGGCCACATCGGCAACCTGATCATGGAACTGGCCGGCCTGGACGTGACCGAGTCACTGAAGTACCTGATCACCAAGGACAAGCAGATCCCGCTGCGCTGCGCGTTCGCCGATTTCGGGGTCCGCGACGGGGTGATGCAGACCCGGACGATGGCATTCGACACGTCCGACACCATCATCCTCGGCGAGGGCGATATCAGCCTGAAGGACGAACGCCTGGCATTGACGCTCAAGCCACGCCCGAAAGACCGCAGCATCCTCAGCTTCCGCTCGCCACTGCACATTGGCGGCACCTTCCGGGATCCCTCGTTCCGGCCGGACCTCAAGGCGCTCGGGGTGCGCAGTGCCATCGCGCTGGCACTGGGCAGCATCGCGGCACCGGCCGCCCTGCTGGCCACCATCGAGACCGGCCCGGGCCAGGACAGCGACTGCGGCGGCAAGTACGCCAGGTGA	MAAAPDTTPAPPRRWRVPGRRGQRWLASLALLAALLFLLVALWDWNWLRGPVERAVQARTGRALQIGNLDVELGRVITLRGDRLALANADWSKQARMATIARAEIDIAAQPLLRGELKILEIRLDRPDLLLENATDTHPGNWVFGNGAGDGRLPPLGRLLVHEGRLRFTDSTGRTDVDVTIDSQARAGNDSAPPIAIAGTGRWQGSPFTLAGSTASPLQLSQSGRPFRIDLRAQAGATRAHVRGALTNPFEFRLFALDMLVDGQDMKDLYPLIGVVLPSTPPYRLDGRLVRNEAVWRYQDFTGRVGDSDLSGTAMLDLGGQRPYFKADLSSARLDLDDLAGFVGAPPGTGGGETANAGQQAQAARIAASGKVLPDKPYNLEKLRAMDADLHWKAQRINAPPLPIDDMDVHLTLSDGVMQLKPLNFGVAGGDIRAEVRMDASGKVISTRLHASIRKLQLARLFPDARLARQASGLISGDIAIAGSGNSVAAMLGSSDGNMAVGMGRGHIGNLIMELAGLDVTESLKYLITKDKQIPLRCAFADFGVRDGVMQTRTMAFDTSDTIILGEGDISLKDERLALTLKPRPKDRSILSFRSPLHIGGTFRDPSFRPDLKALGVRSAIALALGSIAAPAALLATIETGPGQDSDCGGKYAR				NA	NA	NA	NA	NA
BMS020_06435	429			hypothetical protein	ATGCGTACGGTCCGCGAGCTGTTGGGGGCGAAGAACGCTGAGGTTTTCGCGGTCGGCGACGATGCCGTGGTGATCGAGGCGATCCGGTTGATGGCCGACAAAAGCGTCGGTGCGGTGCTGGTGATGCGCGGCGAACGGCTGCTGGGGATCGTGTCCGAGCGCGACTACGCCCGCAAGGTGGTGCTGCGCGAGCGTGCTTCGGCCACGACGCCGGTGGTCGACATCATGAGCGCGCCGGTGTTGACCGTGGCGCCCGGCGACAGCGTGGCGCACTGCATGCAGCTGATGACCGAGCGCCGCTTCCGCCACCTGCCGGTGGTGGAGGGCGGGCATGTGGTCGGCGTGGTCTCGATCGGCGACCTGGTCAAGGCGGTGATCGAGGAACAGCAGCGCGACATCGACCAGTTGCAGCGCTACATCGCCAGCTGA	MRTVRELLGAKNAEVFAVGDDAVVIEAIRLMADKSVGAVLVMRGERLLGIVSERDYARKVVLRERASATTPVVDIMSAPVLTVAPGDSVAHCMQLMTERRFRHLPVVEGGHVVGVVSIGDLVKAVIEEQQRDIDQLQRYIAS				NA	NA	NA	NA	NA
BMS020_06436	1032			putative glycosyltransferase	ATGAGCGCGCCGGTTGCTCCCGAGCACCGTCTGACCGTGGTCATCGCCGCCTACAACGAGGCGGCCAGTCTGCCGTTGCTGCACCCGCGCCTGCGCGGCGTGCTTGATGGGCTGGGCGATCTGGAGGCGCGCATCCTGTACGTCGACGATGGCAGCAGCGATGGCACCTGGGAGGTCATGGCCGGGCTCGCCGCGACCGACCCGGCGACGGTCGCGATCCGCCTGTCGCGCAACTTCGGCAAGGAAATCGCCTTGACCGCCGGGCTCGATCATGTCGAAGACGGGGCGGTGGTGCTGCTCGATGCCGATGGGCAGGATCCGCCGGAGCTGATCCCGGAGTTCGTCGCCCTGTGGCGTGCCGGCTACGACAACGTGTTCGGCACGCGCCTGGTGCGCGACGGCGAAAGCCTGCTCAAGCGTGCGTCGGCAGCAACGTTCTACCGCGTGATCGGGCGCCTGTCGCGCACGCCGATCCCGGCCGATACCGGCGACTTCCGCCTGCTGTCGCCACGGGCGCTGGCCGCGCTGCGTCAGCTGCGCGAGCGCAACCGGTTCATGAAGGGGCTGTTCGGTTGGGTCGGGTTCCGCCAGGTGGCGGTGCCCTACCACCGCCACGCGCGGTTGTCCGGGCGCAGCAAGTTCACCTTCTGGAAGCTGTGGAACTTCGCGTTGGAAGGCGTCACCAGTTTCTCCACCGCGCCGTTGCGGGCGGCGACCTACCTGGGGTTGCTGGCGGCCGCGTTCGCCCTGGTCTACGGCGTGTGGATCGTGGTCAAGGCGTTGCTGCTGGGCGATCCGGTGGCCGGTTGGCCGACGATGATGGCAGTGATCCTGTTCCTGGGCGGTGTGCAGTTGGTGGCGCTGGGCATGATCGGCGAATACCTCGGGCGGCTGTATGAGGAGGCCAAGCATCGGCCGCTGTATTTCGTCGACACCCGGGTTGGGGCGGGCGCGCTATCCTCGGCGGACCATCCGGGCGAGAGGGCAGGCCATGCGTACGGTCCGCGAGCTGTTGGGGGCGAAGAACGCTGA	MSAPVAPEHRLTVVIAAYNEAASLPLLHPRLRGVLDGLGDLEARILYVDDGSSDGTWEVMAGLAATDPATVAIRLSRNFGKEIALTAGLDHVEDGAVVLLDADGQDPPELIPEFVALWRAGYDNVFGTRLVRDGESLLKRASAATFYRVIGRLSRTPIPADTGDFRLLSPRALAALRQLRERNRFMKGLFGWVGFRQVAVPYHRHARLSGRSKFTFWKLWNFALEGVTSFSTAPLRAATYLGLLAAAFALVYGVWIVVKALLLGDPVAGWPTMMAVILFLGGVQLVALGMIGEYLGRLYEEAKHRPLYFVDTRVGAGALSSADHPGERAGHAYGPRAVGGEER	PGPT0014540_401	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0014540-csbB|gtrB|yfdH-K20534	NA	NA
BMS020_06437	735	mtgA_2	COG0744	Biosynthetic peptidoglycan transglycosylase	ATGGGGGCAGAGGCGTTGGATCACAAGGTCGGAGGGGGGCGGCGCAGGTGCTGGGGACGCTGGCTGTTGGCGCTGCCGCTGCTGTTCGTGGTTGCCAGCATGCTGCAGGTCGCGGTCCTGCGTTTCATCGACCCGCCGCTCAGTACGGTGATGGTGTGGCGCTGCGTGGGCGCCTGGGGTAGTGGCGACTGGGCGTTCCGGCTGCGCCACGACTGGCGCGACCTCGACGCGATGGCGCCCAGCCTGCCGATCTCGCTGGTCGCGGCCGAAGACCAGCGCTTCCCGCAGCACGATGGCTTCGACCTGCAGGCGATTGAGAAGGCGCGCGCGCACAACGCCGAAGGCGGGCGCCTGCGCGGGGCCAGCACGATCAGCCAACAGGTCGCCAAGAACCTGTTCCTGTGGCAGGGGCGCAGTTGGGTCCGCAAGGGGCTGGAAGCCTGGTATACGGTGCTGATCGAGCTGCTGTGGCCCAAGCACCGGATCATCGAGATGTACGCCAACATCGCCGAGTTCGGCGATGGCATCTACGGCGCCCAGGCTGCGGCGCGTACGTTCTGGGGCAAGGATGCCAGCCGGCTGACGTCCGCGGAGTCGGCGCGGCTGGCGGCCGTGCTGCCCTCGCCGCGCCGCTACGATGCGCGCAACCCGGGGCCGTACGTGCAGCGGCGGGCCGCGTGGATCCAGCGCCAGGCCCGCCAGCTCGGTGGCCCGGCCTACCTGGAGGCCGAATGA	MGAEALDHKVGGGRRRCWGRWLLALPLLFVVASMLQVAVLRFIDPPLSTVMVWRCVGAWGSGDWAFRLRHDWRDLDAMAPSLPISLVAAEDQRFPQHDGFDLQAIEKARAHNAEGGRLRGASTISQQVAKNLFLWQGRSWVRKGLEAWYTVLIELLWPKHRIIEMYANIAEFGDGIYGAQAAARTFWGKDASRLTSAESARLAAVLPSPRRYDARNPGPYVQRRAAWIQRQARQLGGPAYLEAE	PGPT0024110_385	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024110-mtgA-K03814	NA	NA
BMS020_06438	903	hslO_2	COG1281	33 kDa chaperonin	ATGCCCATGACCGACGCACACGACGACCGCCTGATCCGCTTTCTCCTGCCCGACGCCGGCGTCCGCGGCGTCCTGGTCCGGCTCGATGCCACCTGGCAGGAGATCCGCAGCCGGGCCGACTATCCCGCAAATGCACGCCGTCTGCTTGGCCAGGCCTGCGCTGCCGCCGCACTGTTCACCGGCCATACCAAGGTCGATGGACGCCTCTCGGTGCAGCTGCGCAGCGATGGCCCGCTGCGCACCCTGTTCGCCGAATGCACCGCTGCCGGCACGCTGCGCGGCGTGGTCCGCCTCGCCGAGGGCGAGGACGCTCCAACGGACCTGACCACGCTCGGCGAGGGCGCAATGCTGGCGATCACCATCGAGAACCCGGGCCTGGATCCACGCGAGCCTCAGCGCTACCAGAGCCTGGTCTCGCTCGATGCCGGCGAGCTTGGCGAAGCCTTCGAAGGCTATTTCCAGCAATCCGAGCAATTGCCCACGCGACTGCTGATCGACGCCGATGACCGTCACGCCGCCGGCCTGCTGCTGCAGAAGCTGCCCGGCGACGAAGGGGACGATGATGGCTGGCGACGGGCCGGCGCCCTGTTCGACACCCTGGCGGCTCCGGAGCTGCTGGCCACTGCAGGTGCCGAACTGCTGCATCGCCTGTTCCATGAGGAGGACCCGCAACTGCTGGGCGAGCGCCCGCTGGCGTTCGCCTGCTCCTGCTCGCGCGAGCGGGTCGAAGCGATGCTGCGCTCGCTCGGCGAGGAAGAGGCGCGCGCCGCGGCCGAGGCGACCGGCGCAGTCGAGGTCCACTGCGAGTTCTGCGGCCGCGACTATCACTTCCCATTGACTGAATTCCCTGTATTGTTTGCCCAAGCGCCGCTGGGGGCACCGGCGCCCGATACGCTGCAATGA	MPMTDAHDDRLIRFLLPDAGVRGVLVRLDATWQEIRSRADYPANARRLLGQACAAAALFTGHTKVDGRLSVQLRSDGPLRTLFAECTAAGTLRGVVRLAEGEDAPTDLTTLGEGAMLAITIENPGLDPREPQRYQSLVSLDAGELGEAFEGYFQQSEQLPTRLLIDADDRHAAGLLLQKLPGDEGDDDGWRRAGALFDTLAAPELLATAGAELLHRLFHEEDPQLLGERPLAFACSCSRERVEAMLRSLGEEEARAAAEATGAVEVHCEFCGRDYHFPLTEFPVLFAQAPLGAPAPDTLQ	PGPT0014645_1401	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014645-hsp33|hslO-K04083	NA	NA
BMS020_06439	855			hypothetical protein	ATGGGAATCCTCCGCCGCCTGTCGCTTGCCCTGACCGCCGCGCTCGTCGTGGCCGCGGGCGCGCATGCGCAGAGCACCCAGGCCCACGACAGCACCGTGCTGCCGATCTGGAACAAGGGCAGCGGCAAGGTGGAAGCCCTGCTGTATCTGGAGCCGACCGGCGAACAGAAGGCTGGTGCGCGCTGGCATTTCGGCCGCAATTCGCTGGACGCGGCATTCGGCCTGTCCTCGGGGGATTCGCTCGGCCTGTTGTGCAACAGCAGCCGCGGCACCAGCATCGCCGGCCTCGCCAGCCACTGCATGCTGGCCAGCCTCGGCGATGATGACGACGAAGTCGGCAAGCACGTATCGGCGACGCTCGGCTTCAACCGCGGCGGCACCCGTGTCGGCCTCAACGCCGGCACCGGTCACGACACCCTGCCCGCCTGGTTGACCGGCGGCAGCAAGCAGGCGATGACGCGGGTGGAGGAAAACGACCTCACCGTGTTCGGCCAGAAGAACATCGGCCAGGAAGGCTTCGTCTCGATCGGCGGCACCTATGCACGCGCGCGCCTGGTTCCACTGACAGAGGCCACGCCCGGCATGGTCGACCAGTGGGACAGCAAGACCCTCAGCGTCGGCGGCGGCTACGGCGCCTTCAGCGCCAACATCATCGGCCGCGTCGTCGACGTCCCTGGGCAACCGGAGAAGTGGCAGGGACTCGGCCTCGGTATCACCTGGCGCACTCCGTGGAGCGGCCAGCTGACCGTCGGCGCCGAGAACATCATCACCCGCGGCAAGAACCCCTTCGCCCCCAACAACGAAAGCAACAGCGACGGCACCGTGCCCTACGTGCGCTACGAACAGGACCTCTGA	MGILRRLSLALTAALVVAAGAHAQSTQAHDSTVLPIWNKGSGKVEALLYLEPTGEQKAGARWHFGRNSLDAAFGLSSGDSLGLLCNSSRGTSIAGLASHCMLASLGDDDDEVGKHVSATLGFNRGGTRVGLNAGTGHDTLPAWLTGGSKQAMTRVEENDLTVFGQKNIGQEGFVSIGGTYARARLVPLTEATPGMVDQWDSKTLSVGGGYGAFSANIIGRVVDVPGQPEKWQGLGLGITWRTPWSGQLTVGAENIITRGKNPFAPNNESNSDGTVPYVRYEQDL				NA	NA	NA	NA	NA
BMS020_06440	2823	btuB_16		Vitamin B12 transporter BtuB	ATGAATTGCAAGACCAACAAACTGCGTGATGCAGTTGTGTTCGCGCTGGCCGTGGGCGTGGCTGGCAGCGCGTTCGCGCAAGAAACTGCCACGCTGGACAGGATCGAGGTCACCGGTTCGCGCATCAAGCGCGCAGACGTCGAGACCTCGCAGCCGGTGTTCAGCATGACCCGTCAGCAGATCGAGTCGCAGGGCATGACTTCGATCGGCGACATCATCCAGAACATCAGCACCAACGGCTCGACCCTCAACAGCTCTTACAACAACGGCGGCAACGGCGAAACGCGTGTCAACCTGCGTAACATCGGCTCGAACCGTACGCTGGTACTGGTCAACGGTCGCCGCTGGGTCGGTGGCACCGGTCTGGGTGGCGCGGTCGATCTGAACACCATTCCGACCGCCGCCGTGGAGCGGATCGAAGTCCTGAAGGACGGCGCATCCACCATCTACGGCTCGGACGCCATCGCCGGCGTGGTCAACATCATCCTGCGTCAGAACTTCGACGGCGCGGAAGCCAATGCTTATATCGGCCAGTACGACAAGGGTGATGGCCAGCGCCAGTCGTATGACTTCACCATCGGCTCCAGCAGCGATCGTTGGCACGCAATGCTCGGCGTCGGTTACGTGCAGGAAGATCCGGTCTGGGCGGGCGACCGCAAGATTTCCGCGGTGCCGGTGTACGGCGCCGTTGCGGGCACTGGCAATTCCAGCACCACTCCCTCCGGCCGCTTTGGCTACTATGGTCAGACCGGCACTAGCAACGGCCAGCCCACCTACGGCTCCACTCGCCCGGATGGTTCCGCCGGTTACTTCATGACCGACAACGGCGGCACGACGTATCGGAATTACACCTCCGCCGACAGTTACAACTTCGCTCCAGGCAACTACCTCGTCACCCCGCAGGAGCGCAAGTCGGTTTTCGCTGATGCCGGCGTGGACGTGACCGACAATATCCGCTTCAAGACCACGATCACCTACAACGAGCGTGAGTCCGAGCAGGTGCTGGCCGCAATGCCGATCGTGCTCGGCCGCGCCGCGCCGGGCACCAACGGTTCCAACATCGTCATCTCCGCCGACAGCATCTACAACAATACCGGCCGCGATATCGACTACATCCAGTATCGCGCCAACGAGACCGGTGGCCGCATCTACCGCCAGAACGTGAAGACGTACGGCTTCAATGGCGGGTTCGAGGGCGACTTCGAAGTCGGCAGCCGCTTCTTCAACTGGGAAGCGGGCATGTTCTATGGCAAGAACGACCAGACGGACATCACCACCGGCTTCTTCAACATTTCGGCCCTGCGCAATGCACTTGGCCCGTCCTTCATCGACTCCACCGGCGTGGCCCGCTGCGGCACCTCCGCCTCCGTGATCGATGGCTGCGTTCCGATGAACCTGCTGTCCGGCGCTGGCTCGATGACCCAGGAGATGATCGACTACGCCAGCTTCACGGCGCATGACGTCTACGGTTACGAGCAGAAGACATACTACGGCAGCGTCGGTGGCGAACTGTTCGACCTGCAGGGAGGCGCGTTCGCCTTCTCGGCCGGCGTTGAGCACCGCTCCGAGTCCGGCTTCGACGATCCGGACGCCCTGATCAACTCCGGCGACACCACCGGCAACGCCCGCACCGCCACCTCCGGCGGCTACAGCCTGGACGAGGCCTATCTGGAACTCGCCATCCCGCTGCTGGCCAACCTGCCGGGTGCGGAGCTGCTGGATTTCAGCCTTGCCACCCGCTACTCCGACTACAGCAATTTCGGCGGCACCACCAACAGCAAGTTCGGATTCCGCTGGAAGCCGTTCAAGGACCTGATGGTTCGCGGCAACTGGTCTGAGGGCTTCCGCGCGCCGTCGATCAGCGAGCTGTATTCGGGCGTCAGCGACACCTTCGAGGACGTTTCCGATCCGTGCGCTGGGTCGATCGAGGGCAATCCGAATACCAACATCCCGGCTGGTTGCGCCGGCGTGCCGCAGTACGCGCAGGCCAACTCGCAGATCCGCACCACCCAGGGTGGCAACCCGGACCTCGGGCCGGAAAACTCCACCTCCAAGACCTTGGGCTTCGTCTACAGCCCGAGCTGGGTGCAGGGCCTGGACCTGTCGCTGGACTGGTGGAACATCAAGATCGACAACGCGATCTACACCCAGACCGCACAGGACATGCTGGACAGCTGCTACATCAACGGCATCGATCAGGTCTGCCAGCTGATCACGCGTGACTCGACCGGTCAGATCGAAGACATGTCGGCTGTGCCGAACAACGTCGGCACGATCGAGGTCGAAGGTTGGGACATGAACGTTGCCTACAAGCTCCCGGATACCGCGTGGGGCTCGTTCAACTTCATCCTCGACTCGACCTACACCTCGAGCTACACGGTCGATGACCCGATCACCAAGGGCACCAACCGCGTTGGCCAGTACCTGAGCCGTGACAACTACTGGCGTCTGCGTTCGAACCTGATGATTGGCTGGGAGCTCGGCGACTTTGGCGCGACCGCCAATGTCCGCTACTACTCCAGCCAGGTTGAGCCCTGCACCGGCAGTTCGTTCTCCAACAGTGCCAACCTGGCTCTGATCTGCTCGGATCCGGACCGCGTCACCTCGGAAGGCGCTTCTCCGCGCAACCATATCCCGAGTGTGACCTACACCGACCTGAGCGGCTCTTGGAAGGCGCCTTGGAACGCCAAGGTTACTGTCGGCGTGAACAATGTCTTCGATCGTGATCCGCCGTTCTCGGCGACCACCTTCGCGAACAGCTTCGACCCGCAGTACGAAATCCCGGGCCGCTTCTACTACATGCGTTATACGCAGCAGTTCTGA	MNCKTNKLRDAVVFALAVGVAGSAFAQETATLDRIEVTGSRIKRADVETSQPVFSMTRQQIESQGMTSIGDIIQNISTNGSTLNSSYNNGGNGETRVNLRNIGSNRTLVLVNGRRWVGGTGLGGAVDLNTIPTAAVERIEVLKDGASTIYGSDAIAGVVNIILRQNFDGAEANAYIGQYDKGDGQRQSYDFTIGSSSDRWHAMLGVGYVQEDPVWAGDRKISAVPVYGAVAGTGNSSTTPSGRFGYYGQTGTSNGQPTYGSTRPDGSAGYFMTDNGGTTYRNYTSADSYNFAPGNYLVTPQERKSVFADAGVDVTDNIRFKTTITYNERESEQVLAAMPIVLGRAAPGTNGSNIVISADSIYNNTGRDIDYIQYRANETGGRIYRQNVKTYGFNGGFEGDFEVGSRFFNWEAGMFYGKNDQTDITTGFFNISALRNALGPSFIDSTGVARCGTSASVIDGCVPMNLLSGAGSMTQEMIDYASFTAHDVYGYEQKTYYGSVGGELFDLQGGAFAFSAGVEHRSESGFDDPDALINSGDTTGNARTATSGGYSLDEAYLELAIPLLANLPGAELLDFSLATRYSDYSNFGGTTNSKFGFRWKPFKDLMVRGNWSEGFRAPSISELYSGVSDTFEDVSDPCAGSIEGNPNTNIPAGCAGVPQYAQANSQIRTTQGGNPDLGPENSTSKTLGFVYSPSWVQGLDLSLDWWNIKIDNAIYTQTAQDMLDSCYINGIDQVCQLITRDSTGQIEDMSAVPNNVGTIEVEGWDMNVAYKLPDTAWGSFNFILDSTYTSSYTVDDPITKGTNRVGQYLSRDNYWRLRSNLMIGWELGDFGATANVRYYSSQVEPCTGSSFSNSANLALICSDPDRVTSEGASPRNHIPSVTYTDLSGSWKAPWNAKVTVGVNNVFDRDPPFSATTFANSFDPQYEIPGRFYYMRYTQQF	PGPT0003790_2241	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_06441	609			hypothetical protein	ATGAGCGATTCCTCCGATCAGACCCCTTCTCCCGAGCGCGCCTCCAATGGCCGCAACTCCCGCCTCAGCGCCGAGGACTGGGCGCAGGCCGCGCTGGACCTGATCGCGGAGCAGGGCGTGGGTGCGGTCGCGGTCGAGCCGTTGGCGCGCCGCCTCGGCGTGACCAAGGGCAGCTTCTACTGGCACTTCCCGTCGCGCGACGCCTTGCTGCAGGCAGCGCTGGAGCGCTGGGAGCAATTCGAGCAGGAACAGGTCTTCGGCAGCCTCGAGGACGTGCCGGATCCGCGCGAGCGCCTGCGCGCCTTGTTCCAACTGGTCGCGCATGAAGTGCGCCCGCATGTGATCTACAGCGAGCTGTTGAAGGCGTTGGACCACCCGGCGGTGCGCCCGGTGATCGACCGCGTCTCGCAGCGGCGCATGGACTACCTGATCGCCTCGTTCCGCCAGGCCGGGTTGAGTTCGACCGACGCCCGCCACCGCGCGCGCCTGGCCTACGCCGCCTATGTCGGCTTCCTGCAGCTGTCGCTGCAGCTGCAGCAGCCCAAGCAGGCCCGCGAGGAATTCGAGGCGTATGTCGAGCATGTGATCCACACCTTGATTCCGGGGTAA	MSDSSDQTPSPERASNGRNSRLSAEDWAQAALDLIAEQGVGAVAVEPLARRLGVTKGSFYWHFPSRDALLQAALERWEQFEQEQVFGSLEDVPDPRERLRALFQLVAHEVRPHVIYSELLKALDHPAVRPVIDRVSQRRMDYLIASFRQAGLSSTDARHRARLAYAAYVGFLQLSLQLQQPKQAREEFEAYVEHVIHTLIPG				NA	NA	NA	NA	NA
BMS020_06442	981	menH_7		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGAGTATTGACAGGCGCGCGGACACCTCCATACCATTAGGTATGGTTGACGCATCCTCCCGCCCTGAAACCGCCCACGCCCTGCTCGGTGCCGACGGTGCGCGCCTGGCGGCCGGGCAGCATGGCGATCCGCAAGCGGCCACGGTGCTGCTCGCGCACGGGTTCGGGCAGACCCGCAACGCCTGGGACGCGACTGCTGCCGCACTCGCCGCTGCCGGCTTCAATGCACTGGCCTACGATGCCCGTGGGCATGGTGAGTCGGACTGGAATGCGGCCGCCCAACCCTACAGCGGCGAGCAGTTCACCGACGATCTGATCATCGTCGCCGGTGAGATGGCCGAACCGCCGGTGCTGGTCGCCGCGTCGATGGGCGGCCTGTTCGGGTTGATGGCCGAAGCGCGCTGGCCCGGGCTGTTCCGCGCGATGGTGCTGGTCGACATCACCCCGCGCTGGGATGTGTCCGGTGTCGAGCGCATCCTTGCCTTCATGACCGCACATCCCGACGGCTTCGACTCGCTGGCGCATGCCGCCGATGCGATCGCCGACTACCTGCCGCATCGCCCGCGCAAGTCCGAAGATGGCCTGCGCCGCCTGCTGCGCCCGCGTGCGAACGGGCGCTGGTACTGGCACTGGGACCCGCGCCTGGTCGCCGAGCTGGCCGGTGGCGACGCCGCCGCGCAGCAGGCGCACATGGTCGAGGCCGCGCGCGGGGTCCGCTGCCCGGTGCTGCTGGTCAGCGGCGGGCGCAGCGATCTGGTCACGCCGCAGAGCATCGAAGAATTCCTGTCGCTGGTGCCGCATGCACGCCACGTGCAGCTGCCCGAGGCCACCCACATGGTGGCCGGCGACGACAACACCGCCTTTACCGCCGCGGTGTTGCATTATCTGGACGCGTTGCCGCCGGCGGCGAACGCCGCGAATGCGACGTCTCCTGCCAGCACCCAACACGCCACCGAGCACGTCACCGGAGCAAGACCATGA	MSIDRRADTSIPLGMVDASSRPETAHALLGADGARLAAGQHGDPQAATVLLAHGFGQTRNAWDATAAALAAAGFNALAYDARGHGESDWNAAAQPYSGEQFTDDLIIVAGEMAEPPVLVAASMGGLFGLMAEARWPGLFRAMVLVDITPRWDVSGVERILAFMTAHPDGFDSLAHAADAIADYLPHRPRKSEDGLRRLLRPRANGRWYWHWDPRLVAELAGGDAAAQQAHMVEAARGVRCPVLLVSGGRSDLVTPQSIEEFLSLVPHARHVQLPEATHMVAGDDNTAFTAAVLHYLDALPPAANAANATSPASTQHATEHVTGARP				NA	NA	NA	NA	NA
BMS020_06443	2475	fadE_2	COG1960	Acyl-coenzyme A dehydrogenase	ATGAGTATTGTCGCGCCGTTCCTCCTCGTCCTGTTGGCGGCCGGTTTCGCCGCCTACCACCGCATGCGGTTGGCCGCCTGGGTGGCCATCAGCGCGACGCTCCTGGTGGCCAGCTGGCTGCTGGGCGCGCATCCGACCGCAACGATCGTCGCCGGCGCGCTGGTCGCCCTGGTCGCGCTGCCGGTGCTGCTGCCCTTCATCCGCAAGCCGCTGCTGACCGCACCGCTGCTGAAGGTGTTCCGCAAGGTGCTGCCGCCGCTGTCGCAGACCGAACGCATCGCGCTGGAAACCGGCTCGGTCGGCTTCGAGGGCGAGCTGTTCACCGGCGACCCGGACTGGCAGAAGCTGCTGAACTATCCCAAGCCCGAGCTGACCGCCGAGGAGCAGGCCTTCCTCGATGGCCCGGTCGAAGAGCTGTGCAAGATGGTCAACGAGTGGGAGATCAACCACGTCCACGCCGACCTGCCGCCGGAGATGTGGGAGTTCATCAAGAAGAACCGCTTCTTCGGCATGATCATCCCGAAGTCGTACGGTGGCCTGGGCTTCTCGGCGCTGGCGCACCACAAGGTCATCCAGAAGCTGGCGTCGGTGTCGAGCGTGGTCAGCTCCACCGTCGGCGTGCCGAACTCGCTCGGCCCGGGTGAGCTGCTCAACCATTACGGCACCCAGGAACAGAAGGACTACTACCTGCCGCGCCTGGCGGCCGGCCTGGAAGTGCCCTGCTTCGGCCTGACCGGCCCGTTCGCCGGCTCCGACGCGACCTCGATCCCGGACTACGGCATCGTCTGCAAGGGCGAGTGGAACGGCGCCAACGTGCTTGGCGTCAAGCTGACCTTCGACAAGCGCTACATCACCCTGGCGCCGGTGGCGACGATCATTGGCCTTGCGTTCCGCATGTACGACCCGGACGGCCTGCTCGGCGACACCAAGGACATCGGCATCACCCTGGGTCTGCTGCCGCGCGATACCGCCGGCGTCGACATCGGCCGCCGCCACTTCCCGCTGAACTCGCCGTTCCAGAACGGCCCGATCCACGGCAAGGACGTGTTCATCCCGCTGAGCCAGCTGATCGGCGGCGCCGAACTGGCCGGCAAGGGCTGGAACATGCTCAACGAGTGCCTGGCGGTGGGCCGCTCGATCACCCTGCCCTCCACCTCCAGCGGCGGCGCCAAGTTCGGCGCGGTGGTGACCGGCTCGTACGCGCGCATCCGCAAGCAGTTCGGCCTGTCGGTCGGCCGCTTCGAGGGCGTCGAGGAAGCGCTCGCGCGCATCGGCGGCAAGGCCTACGCGTGCAGCGCGCTGTCGCAGGCCACTGCGGCGGCGGTGGATCGCGGCGATGTGCCGTCGGTGCCGTCGGCGATCGCCAAGTACCACTGCACGACGATGGCGCGCGAAGTGATCGGCGACGTGATGGACGTGATCGGCGGCAAGGGCATCATCCTCGGCCCGCGCAACTTCGCCGGCCGTGCCTGGCAGGCCTCGCCGATCGGCATCACGGTCGAAGGCGCCAACATCATGACACGCAGCCTGCTGATCTTCGGCCAGGGCGCGATCCTGTGCCATCCGTGGGTGATGAAGGAAATGAAGGCCGCCCAGGACAGCGATACCGCGCGTGGCCTGGAAGAGTTCGACCAGAGCCTGTTCGGCCACATGCGCTTCGGCATCTCCAACGCGGTGCGCTCGTTCTGGTTCGGCCTGACCGGCGCGCGCATCGGCGCGGCCCCGGGCGACGACTACACCCGCCGCTTCTTCCGCAAGCTCGACCGCTATTCGGCCAACCTGGCGCTGATGGCCGACGTGTCGATGCTGATGCTCGGCGGCAAGCTGAAGTTCAAGGAATCGCTGTCCGGCCGCCTCGGCGACGTGCTCAGCCACATCTACATGACCAGCGCGATGCTCAAGCGCTACCACGACGAGGGCGCGCCGCAGGCCGAGCGTCCGCTGCTGGCCTGGGCCTTCCACGACAGCGTGCACAAGATCGAGGAAGCGCTGTCGGCCGCGCTGCGCAACTTCCCGATCCGCCCGGTCGGCTGGCTGATGTGGGCGCTGATCTTCCCGCTCGGCCGTCGCGCCGAGGCCCCGGGCGATCGCCTGAGCCGTCGCGTCGCCGCGCTGCTGATGGCACCGAACGAGGCCCGCGACAGCCTGGCCCGTGGCGTGTTCCTGACCCCGTGCGAGAACAACCCGGGCGGCCGCATTGCCAGCTACCTGGCCAAGGCCGTCGCCGCCGAGCCGGTCGAGCGCAAGTTCCTCAAGGCACTCAAGAGCAAGGGCATCGAGGCGCTGGACTTCCCGGCGCAGCTGGACGAAGCCGTCGCCGAGGGCGTGATCAGCCACGAGGAGCGCAAGCTGCTGGAAGAACTGCGCGAGCTGACGATGGACACGATCACCGTCGACGACTTCGCCCCGCACGAGCTGCGCGCGGCGAGCTACTACGACAAGCACGCCGCCGACCGCTCGCGCGAAGCGGCCTGA	MSIVAPFLLVLLAAGFAAYHRMRLAAWVAISATLLVASWLLGAHPTATIVAGALVALVALPVLLPFIRKPLLTAPLLKVFRKVLPPLSQTERIALETGSVGFEGELFTGDPDWQKLLNYPKPELTAEEQAFLDGPVEELCKMVNEWEINHVHADLPPEMWEFIKKNRFFGMIIPKSYGGLGFSALAHHKVIQKLASVSSVVSSTVGVPNSLGPGELLNHYGTQEQKDYYLPRLAAGLEVPCFGLTGPFAGSDATSIPDYGIVCKGEWNGANVLGVKLTFDKRYITLAPVATIIGLAFRMYDPDGLLGDTKDIGITLGLLPRDTAGVDIGRRHFPLNSPFQNGPIHGKDVFIPLSQLIGGAELAGKGWNMLNECLAVGRSITLPSTSSGGAKFGAVVTGSYARIRKQFGLSVGRFEGVEEALARIGGKAYACSALSQATAAAVDRGDVPSVPSAIAKYHCTTMAREVIGDVMDVIGGKGIILGPRNFAGRAWQASPIGITVEGANIMTRSLLIFGQGAILCHPWVMKEMKAAQDSDTARGLEEFDQSLFGHMRFGISNAVRSFWFGLTGARIGAAPGDDYTRRFFRKLDRYSANLALMADVSMLMLGGKLKFKESLSGRLGDVLSHIYMTSAMLKRYHDEGAPQAERPLLAWAFHDSVHKIEEALSAALRNFPIRPVGWLMWALIFPLGRRAEAPGDRLSRRVAALLMAPNEARDSLARGVFLTPCENNPGGRIASYLAKAVAAEPVERKFLKALKSKGIEALDFPAQLDEAVAEGVISHEERKLLEELRELTMDTITVDDFAPHELRAASYYDKHAADRSREAA	PGPT0021800_275	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021800-fadE-K06445	NA	NA
BMS020_06444	468			hypothetical protein	ATGAGCAAGCTGCTGCGCCTGTACGAACGTTTCTCGCGCTGGCCTGCCGGCCACTGGCTGTTCTCGCGCGCGATCTGCCTGAAGGCGCCCTACTTCGCCAGCATCGCCCCGCGCATCACCCGGCTCGAAGTGGGCGTGTGCGAGGCGCGCATCCGTCATCGCCGGCGCGTGCAGAACCATCTTGGCACCGTGCATGCGATCGCACTGTGCAACCTGGCCGAACTGGCCGGCGGCGTGATGGTCGATGCCGGCCTGCCCGGCACGATGCGCTGGATTCCCAAAGGCATGCAGGTGGAATACCTGCAGAAGGCCACCGGCACGATGCGTGCGATCGCGCGTCCAGACGTCGCCCTGGTCGCCAGCGAGGCCGGCTACGAGCTACCAGTGACCGTGGAAGTGTTCGACCCCGCCGATGCACTGGTATTCCGTGCACGCATTGCCATGTGGGTCTCGCCGAGAAAGCGCTGA	MSKLLRLYERFSRWPAGHWLFSRAICLKAPYFASIAPRITRLEVGVCEARIRHRRRVQNHLGTVHAIALCNLAELAGGVMVDAGLPGTMRWIPKGMQVEYLQKATGTMRAIARPDVALVASEAGYELPVTVEVFDPADALVFRARIAMWVSPRKR				NA	NA	NA	NA	NA
BMS020_06445	354			hypothetical protein	ATGCCCGTCGTCGCTTCCATCTTCATCGGCCTGGTGGCCGTGCTGCACGGCTATTTCCTGGTGCTGGAGATGTTCCTGTGGACGCGGCCGCTGGGCCTGCGCACCTTCCGCAACACGCCGGAGCGGGCCGAACTCACGCGCGTGCTCGCCGCCAACCAGGGGCTGTACAACGGCTTCCTCGGCGCTGGCCTGCTGTGGGCGCTGCTGGCGGCCCGCCAGGACGTGGCGATGTTCTTCCTGGGCTGTGTGGTCGTGGCCGGCGCCTACGGCGCCTGGAGCGTCAGCCGGCGCATCCTGTACGTGCAGGCCGCGCCGGCCGCGCTGGCGCTGCTGCTGCTCTGGCTGGGGCTCTGA	MPVVASIFIGLVAVLHGYFLVLEMFLWTRPLGLRTFRNTPERAELTRVLAANQGLYNGFLGAGLLWALLAARQDVAMFFLGCVVVAGAYGAWSVSRRILYVQAAPAALALLLLWLGL				NA	NA	NA	NA	NA
BMS020_06446	1383			hypothetical protein	ATGGGCGCCGCAGCGGTGAGCGTGGCGCCTGCCGCCGGCAGCGCACCGGCCCGCCTGCGTGCCGCGCTGCGCGAGTCGCCGCCGCTGATCTGGGCGTTTGTGTATTTCTTCTGCCTGCTCAGCGGCTATTACGTGCTGCGCCCGGTGCGCGAGGCGATGGGCGCGTCCAACGACGTGGCCGCGGTATTCCCGCCGTCGATGGTGCAGTTCTTCGCCGCGCGCGGCATCGCGCTCGGCGATTTCACCCTGCAGGTGCTGTTCACCGGCACCTTCCTGATCATGCTGCTGCTGCAGCCGGCCTACGGTTGGCTGGTCAGCCGCTTCCCGCGGCGGGTGTTCCTGCCGGTGGTGTACGGCTTCTTCATCGCCACGCTGCTGGTGTTCTACGCGATGTTCCAGATGAACATGCCCGGCCGCGGCATGGCGTTCTTCCTGTGGCTGGCGGTGTTCAACCTGTTCGCGGTGGCGGTGTTCTGGAGCTTCATGGCCGACGTGTTCAGCAGTGCCCAGGCGCGTGCCTACTACGGCTACATCGGTGCGGCCGGCACGATCGGCGCGCTGCTCGGGCCGGTGCTGGTGCGCACGCTGGTGGGGCAACTCGGCGTGGGCAGCATGATGCTGGTGTCGGCCGGCTTCCTGGCGGTGTGCGTGCTGTGCATCTACCGCCTGCGCGGCTGGGCGGTGAAGCGCGAGCGCGACGGCAACCTGCGCTCCGGTGAGGTGCCGATGGGCGGCGACGTGCTGGGTGGGCTCAAGCTGATCGCACGCGAGCCGGTGCTGCGCTGGCTCGCGCTGATGGTGCTGTTCGGGGTCGGCGTCGGCACGATGCTCTACAACGAGCAGGCGGCGATCGTGCGACGGCTGTTCCACGACCCGGCGGCGAGCGCGGCCTATTACGCCGACATCGATCTGGCGGTGAACGGGGTGACGCTGTTGCTGCAGCTGACGGTGACACGGGCACTGCTGTCGCGCTTCGGCATCGGGCCGGCGCTGTTGATCCCCGGTGTGGCGATCACCGCCGGTTACGCGGTGCTGGCAGCCTCGCCGTTGCCGATGCTGGTCGCGGTGGTGCAGGTGGTCACACGCACCGGCGAGTTCGCGCTGGCCAAGCCGGCGCGCGAGACGATCTACACCCGGGTCGGCCGCGAGTGGCGCTACAAGGCCGGCGCGGCGATCGACACGGTGATCTACCGCGGCGGCGACCTCAGCTTCGGCTGGCTCTACAAGGGGCTGTCCGCGTTCGGCTCGCAGGCGGTGTTCCTGACCGGGCTGGGCCTGGCTGCGGCGATGTCGCTGGGCGCGTGGCGGTTGGTGCGTGCCGCGGCGCAATTGCCGGCCGCGCCCGAGGCCGACCACGCGGCGCAGACGCGCGCCGCGCGCTGA	MGAAAVSVAPAAGSAPARLRAALRESPPLIWAFVYFFCLLSGYYVLRPVREAMGASNDVAAVFPPSMVQFFAARGIALGDFTLQVLFTGTFLIMLLLQPAYGWLVSRFPRRVFLPVVYGFFIATLLVFYAMFQMNMPGRGMAFFLWLAVFNLFAVAVFWSFMADVFSSAQARAYYGYIGAAGTIGALLGPVLVRTLVGQLGVGSMMLVSAGFLAVCVLCIYRLRGWAVKRERDGNLRSGEVPMGGDVLGGLKLIAREPVLRWLALMVLFGVGVGTMLYNEQAAIVRRLFHDPAASAAYYADIDLAVNGVTLLLQLTVTRALLSRFGIGPALLIPGVAITAGYAVLAASPLPMLVAVVQVVTRTGEFALAKPARETIYTRVGREWRYKAGAAIDTVIYRGGDLSFGWLYKGLSAFGSQAVFLTGLGLAAAMSLGAWRLVRAAAQLPAAPEADHAAQTRAAR				NA	NA	NA	NA	NA
BMS020_06447	1644	alkJ		Alcohol dehydrogenase [acceptor]	ATGTACGACTACGTGATCGTGGGGGCCGGCTCGGCCGGCTGCGTGCTGGCCAACCGCCTCAGCGAAGATCCGCAATGCCAGGTGCTGCTGATCGAAGCCGGCCCGCGCGACTGGCACCCGCTGCTGCACATGCCGGCCGGACTCGCACGGCTGGTCAACCTGCGCCGGATCAACTGGAATTACCAGACCGAACCCGAGCCGGCGCTCGATGGCCGCCGGCTGTGGTGGCCGCGTGGCAAGGTGCTCGGCGGCAGCAGCGCGATCAACGCGATGTGTTACGTGCGCGGCGTCGCCGGCGACTACCAGCGCTGGGCCGAGGCCGGCGCCGACGGCTGGGACTGGGACGGGGTGCTGCCCTACTTCCGCCGCAGCGAAGCCAATGCGCGCGGCGCCGATGCGCTGCATGGTGGCGACGGCCCGCTGCACGTGGCCGACCTGCGCCACCGCAACCCGCTCTCGAGCGCGTTCGTGGCCGCGGCGATGCAGAGCGGCCTGCCGCACAACGACGACTTCAATGGTCCGCGGCAGCACGGTGCCGGCTTCTACCAGGTCACCCAGAAGGACGGTGCGCGCTGCTCGGCGGCCACGGCCTATCTCCTGCCGGCGCGCCGGCGTTCCAACCTGCACGTCGTCACCGGGGCACTGGTGCGGCGCGTCCTGGTGGAACGCGGGCGTGCGGTCGGGGTCGCCTACGCGCTGGGCGGCACCGAGCACCAGGCCCGGGCCAGCGGCGAGGTGCTGCTGAGCGCCGGCGCGGTGAACTCGCCGCAGCTGCTGATGCTGTCCGGCATCGGACCGGCGGCCGACCTCGCCGCGCTCGGCCTCAGCATCCACGCCGACCTGCCCGGGGTCGGCGGCAACCTGCAGGACCACCTCGACATCTGCACGCTGTACCGCTGCCGGCCCGGCGTCAGCTACGACCGCAGCAGCGAACTGGCGATCGCCTTCGACTACTTCCTGCGCGGCCACCGCGGCGCCGGCACCAGCAACATCGCCGAGGCCGGCGGGTTCGCCCGCTCGCCGTTGGCCAGCGACGAGCGCGCCGACCTGCAACTGCACTTCGTGCCGGCGATGCTGGACGACCATGGCCGCCATCGCCTGCCCGGCGACGGCTTCACCCTGCACGCCTGCTTCCTACACCCGCGCAGCCGCGGGCGACTGGTGCTGGCCGATGCCGACCCGTGCAACGCGCCGCGGATCATGCCGAACTACCTCGGCGATCCGGGGGGCTTCGACCTGCGGGTGATGGTCGAGGCGGCCAGGCTGGCGCGCGCCATCCTGCGCCAGCCGGCACTGGCGCCCTGGCGCCTGGCGCCGCTGCTGCCCGAGGACGAGGGACTCGACGACGCCGGCCTGGTCCAGTTCATCCGCCGCAAGGCCGAGACGATCTACCACCCGGCCGGGACCTGCCGGATCGGCCACGATGCCGCCGCCGTGGTGGATCCGGCGCTGCGCGTGCATGGCATCGACGGCCTGCGCGTGGTCGATGCGTCGGTGATGCCGGCCCTGCCCAGCGGCAATACCAATGCCCCGGTGATGATGATCGCCGAGCGCGCGGCCGATCTGGTCCGTGGCCGTGCGCCGCTTCGCGAGCACCCCGCCACGGCGCCGGAATCGCCGATAAAAATCGCGTCGAATCAATGA	MYDYVIVGAGSAGCVLANRLSEDPQCQVLLIEAGPRDWHPLLHMPAGLARLVNLRRINWNYQTEPEPALDGRRLWWPRGKVLGGSSAINAMCYVRGVAGDYQRWAEAGADGWDWDGVLPYFRRSEANARGADALHGGDGPLHVADLRHRNPLSSAFVAAAMQSGLPHNDDFNGPRQHGAGFYQVTQKDGARCSAATAYLLPARRRSNLHVVTGALVRRVLVERGRAVGVAYALGGTEHQARASGEVLLSAGAVNSPQLLMLSGIGPAADLAALGLSIHADLPGVGGNLQDHLDICTLYRCRPGVSYDRSSELAIAFDYFLRGHRGAGTSNIAEAGGFARSPLASDERADLQLHFVPAMLDDHGRHRLPGDGFTLHACFLHPRSRGRLVLADADPCNAPRIMPNYLGDPGGFDLRVMVEAARLARAILRQPALAPWRLAPLLPEDEGLDDAGLVQFIRRKAETIYHPAGTCRIGHDAAAVVDPALRVHGIDGLRVVDASVMPALPSGNTNAPVMMIAERAADLVRGRAPLREHPATAPESPIKIASNQ	PGPT0013615_4017	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013615-betA|CHDH-K00108	NA	NA
BMS020_06448	1383	dap_2		D-aminopeptidase	ATGAATGACAAGAGCAGGCAGCGGCGCATCCGGCCGCTGGCATCGGGGTTGCTCGGGGTACTGATCCCCTTCGCGATGACATCCACCGCGCAGACGCCGGCACCGGCGGCGCAGTCGCTGGCGGCCTTCGCCAGCCAGTCGCCGACCGCACCGATGGCCTATCGCACCGCGCTGCCTGCATCCGCGGTGCAGGCGCCCGCCGCTGGCTTCGATGTCGCCTCGTTCGAAGCGATGGCCGACGCGCTGACCTACGGCCAGCGCGTGCCCGGCATGGCGATGGCGATCGTGCAGGGCGGTCGCGTGCTGAGTGCGCGCGGCTACGGCGTCACCGACGTCAACCATCCAGAACCGATCGACAGCCACACCGTGTTCCGGCTGGCCTCGCTGTCGAAGGCCTTCGCCGGCACGATGGCCGGCCTGCTGGTCAACGATGGCGTGCTGCGCTGGGACAGCAAGGTCACCGACTACGTGCCCGGCTTCCAGCTCAGCGATCCGCAGGCCACGCGCGAACTGACCGTCGCCGACCTGCTGAGCCACCGCGTCGGTCTGACCCGCAACGCCTACGACCGCGATGTCGAAGGCAATGCCGACTACTACACGCTGACCCACAAGCTGGCCGCGGCGCCGCTGCGCTGCGCGCCGGGCGAGTGCTATGCCTACCAGAACGTCGCCTTCAGCCTGGTCGGCGATGTGGTGTTTGCCGCGTCCGGCAGCTTCTACGAGCAGTCCGTCGAGCGCCGCATCTTCAAGCCGCTGGGCATGAACGACGCGAGCATGGGCCTGGCCGGTATCCAGGCCAGTTCCCGCTGGGCGCATCCGCACGTCCGCAGCCGCAACGGCTGGGTCTCGCTGACGCCGAAGGCAACCTACTACCGGCTCGCTCCGGCGGCGGGCGTCAACGCCAGCGCCAGCGACATGGCGCAGTGGCTGCTCGCACAGACCGGCCACCGCACCGACGTGCTGCCGGCGCCGCTGCTGGCGACCCTGCACGCGCCGCTGATCTCCACGCCGGGCGAAATGCGCTCGGGCTGGCGCCATCAGCGCGTCGACTCGGCCAGCTACGCGCTGGGCTGGCGGGTGTTCGACTACGCCGGGCACCAGGTGGTGTTCCATGCCGGCGCGGTACAGGGCTATCGCGGTCTGGTCGCGCTGGTGCCGGAACGCGACCTCGGCGTGGCGATCATGTGGAACGGCGAGAGCTCACTGCCCTCCGGCCTGCTCCCCACCATCCTCGACCGCGCCATCGGCCTGCCCGCGCAGCGCTGGCTCGACATCGACGTGGACAGCGATTTCGGCAACGACAACATGCTGGCCGAACGTCCCGATCCCAAGCAGCAGAAGAAGGGCGCGTCCTCGACCAAGTCGGTGGCCTCGCCGCGCTGA	MNDKSRQRRIRPLASGLLGVLIPFAMTSTAQTPAPAAQSLAAFASQSPTAPMAYRTALPASAVQAPAAGFDVASFEAMADALTYGQRVPGMAMAIVQGGRVLSARGYGVTDVNHPEPIDSHTVFRLASLSKAFAGTMAGLLVNDGVLRWDSKVTDYVPGFQLSDPQATRELTVADLLSHRVGLTRNAYDRDVEGNADYYTLTHKLAAAPLRCAPGECYAYQNVAFSLVGDVVFAASGSFYEQSVERRIFKPLGMNDASMGLAGIQASSRWAHPHVRSRNGWVSLTPKATYYRLAPAAGVNASASDMAQWLLAQTGHRTDVLPAPLLATLHAPLISTPGEMRSGWRHQRVDSASYALGWRVFDYAGHQVVFHAGAVQGYRGLVALVPERDLGVAIMWNGESSLPSGLLPTILDRAIGLPAQRWLDIDVDSDFGNDNMLAERPDPKQQKKGASSTKSVASPR	PGPT0028115_59	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028115-ampC-K01467	NA	NA
BMS020_06449	441			hypothetical protein	ATGGCCACGAAGAAAGTTGCTAAGAAGAAACCGGCCGCCAAGAAGGCGGTGAAGAAGGTTGCCAAGAAGGCGGCCGTCAAGAAGGTCGCCAAGAAGGTCGCCGCCAAGAAGGCGGTGAAGAAGGTCGCCAAGAAGGCCGCCGTGAAGAAGGCGGTGAAGAAGGTCGCCAAGAAGGCCACCGCGAAGAAGGCGGTGAAGAAGGTTGCCAAGAAGGCCGCCGCGAAGAAGACGGTGAAGAAGGCCGTCAAGAAGGTCGCGAAGAAGGTCGCCAAGAAGGCCGTCGCCAAGAAGGCGGTGAAGAAGGTCGTCAAGAAGGCTGCTGCGAAGAAGGTCGCCAAGAAGCCGGCCGCGAAGAAGGTCGTCGCCAAGAAGAAGCCGGCCGCTCGCAAGAAGAAGGCCGCTCCGGTCGCGCTGCCGGCCACCCCGGCGCCGCTGATCTGA	MATKKVAKKKPAAKKAVKKVAKKAAVKKVAKKVAAKKAVKKVAKKAAVKKAVKKVAKKATAKKAVKKVAKKAAAKKTVKKAVKKVAKKVAKKAVAKKAVKKVVKKAAAKKVAKKPAAKKVVAKKKPAARKKKAAPVALPATPAPLI				NA	NA	NA	NA	NA
BMS020_06450	396	gcvH_2	COG0509	Glycine cleavage system H protein	ATGAGCGAGATCCCTGGCGACCTCAAGTTCCTCAAGTCCCACGAGTGGGCCCGTGCCGAAGGCAACGGCCGCGTCACGATCGGCATTTCCGACCACGCGCAGGGTCTGCTGGGCGACCTGGTCTATGTCGAGCTGCCGAACGTCGGCGACAGCGTCGAGGCCGGTAACGGCGCGGCGGTGGTCGAGTCGGTCAAGGCCGCCTCCGATGTCTACAGCCCGGTCAGCGGCACCGTGGTGGAAGTGAACGCGGCGTTGAACGACAAGCCGGAGACCATCAACGAGGACGCCTACGGCGACGGCTGGATTTTCGTGGTCGAGATGTCCGAGCCGGAGCAGCTCAACGAGCTGCTGTCGCCCGACGACTACTCCGAGCTGCTGGCCGACGACGCGCACTGA	MSEIPGDLKFLKSHEWARAEGNGRVTIGISDHAQGLLGDLVYVELPNVGDSVEAGNGAAVVESVKAASDVYSPVSGTVVEVNAALNDKPETINEDAYGDGWIFVVEMSEPEQLNELLSPDDYSELLADDAH				NA	NA	NA	NA	NA
BMS020_06451	1179	gcvT_2	COG0404	Aminomethyltransferase	ATGCTGCGCCGCCAGCGGCATCGCGGCGGCGCCATCTGGGATAATGGCGCTCTTTCCTCGCCGGTAGCCGTCATGACCCAGAAGACCATCCTCAACGACACCCATCGTGCGCTCGGCGCCAAGATGGTCGACTTCGGCGGCTGGGACATGCCGATCCACTACGGCTCGCAGATCGACGAGCACCACCTGGTGCGGCGCGACGCCGGCATGTTCGACGTCAGCCACATGACCGTGGTCGACCTGCACGGCGCGCAGGTGCGCGCGTTCCTGCGCCGGCTGGTGGCCAACTCGGTCGACAAGCTCAAGGTCCCGGGCAAGGCCCTGTACACCTGCATGCTCAATCCGCAGGGCGGCGTGGTCGACGACCTGATCGTCTACTACATGGGCGAGGAATTCTTCCGCCTGGTCGTCAACGCTGCGACGCGCGACAAGGACCTGGCGTGGATCGGCGAGCAGGCGGCCGCATTCGAAGTGCGTGTCCAGGAGCGGCCGGAGTTCGCAATGATCGCGGTGCAGGGCCCGGCCGCGCGCGCCAAGGTGGTCGGCCTGCTGGCCGAGTCTGATCGCGCCGCCGCCGACAAGCTCGGTCGCTTCGCCGCGCTGCAGGCCACCTCGTCCGCCGGCGTGCCACTGTTCGTCGCCCGCACTGGCTACACCGGCGAGGACGGCTTCGAGATCGTGCTGCCGGCCGAGCAGGCGGTGGCGTTCTGGAATGCGCTGCTGGATGCCGGGGTGAAGCCGGCCGGGCTCGGCGCGCGCGATACGCTGCGCCTGGAAGCGGGCATGAACCTCTATGGCCAGGACATGGACGATGCGGTCTCGCCGTACGAAGCCGCGCTGGCCTGGACCGTCGCGCTCGACGAGGGGCGCGACTTCATCGGCCGCGACGTGCTCGAGCAGCAGAAGTCCGCCGGTGCGCCGCGGCAGATGATCGGCCTGGTGATGGACGACAAGGGCGTGCTGCGCCACGGCCAGAAGGTGCTCACCGCCAATGGCGAGGGCGAGATCCTGTCCGGCACGTTCTCGCCGACGCTGGGCAAGGCGATCGCGTTCGCGCGCGTGCCGGCCGGCGAGCCGGGCGAGGTGCGCGTGGACATCCGCGGCAAGGAAGTGCCGGTGCGCGTGGTCAAGTTCCCGTTCGTGCGCGATGGTCAGGCCCAGCCTGGCGTGCTCGGCTGA	MLRRQRHRGGAIWDNGALSSPVAVMTQKTILNDTHRALGAKMVDFGGWDMPIHYGSQIDEHHLVRRDAGMFDVSHMTVVDLHGAQVRAFLRRLVANSVDKLKVPGKALYTCMLNPQGGVVDDLIVYYMGEEFFRLVVNAATRDKDLAWIGEQAAAFEVRVQERPEFAMIAVQGPAARAKVVGLLAESDRAAADKLGRFAALQATSSAGVPLFVARTGYTGEDGFEIVLPAEQAVAFWNALLDAGVKPAGLGARDTLRLEAGMNLYGQDMDDAVSPYEAALAWTVALDEGRDFIGRDVLEQQKSAGAPRQMIGLVMDDKGVLRHGQKVLTANGEGEILSGTFSPTLGKAIAFARVPAGEPGEVRVDIRGKEVPVRVVKFPFVRDGQAQPGVLG	PGPT0008130_2741	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008130-gcvT-K00605	NA	NA
BMS020_06452	432	ybbJ_2	COG1585	Inner membrane protein YbbJ	ATGCGCTGGGACGTGGTCGGATGGGCGGTGGTCGCGCTGCTGCTGTTCGCCGCCGAGGCGCTGGCGCCGGGTGCCTTCATGCTGTGGATGGGCTTCGCCGCGGCGGTGGTGTTCGTCGGCGTGCTGCTGGTCCCGGGCACCTCGCTGCTGCTGCAGGTGGTGGCGTTCGTGCTGCTCAGTTTCGTCTCGATCCAGGTCTACCGGACCTGGTTCCGGCGCCGCGACCGGCCCAGCGACCAGCCGCTGTTGAACCGGCGCGCCGAGCAACTGGTCGGCCGCGTGCTGGTGCTCGACCAGCCGATCCGCGACGGGCGCGGGCGGGCCAAGGTGGACGACGCGTTCTGGGTGGTCAGCGGTCCTGAGCTGCCGGCCGGCAGCGCGGTGCGGGTGGTCGCGGTCGACGGCATGACCCTGAAGGTGCAGCCGGCCTGA	MRWDVVGWAVVALLLFAAEALAPGAFMLWMGFAAAVVFVGVLLVPGTSLLLQVVAFVLLSFVSIQVYRTWFRRRDRPSDQPLLNRRAEQLVGRVLVLDQPIRDGRGRAKVDDAFWVVSGPELPAGSAVRVVAVDGMTLKVQPA	PGPT0024505_1108	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024505-ybbJ-K07340	NA	NA
BMS020_06453	960	qmcA_2	COG0330	Protein QmcA	ATGTTCCCGAGTGGTTTGCTGGCCCTGGCGGTGCTCGTCGCCGGCGTGATCGTGCTGTTCAAGACCGTGCGGATGGTGCCGCAGGGCTACGAATGGACGGTGGAGAAGTTCGGTCGCTACACCCATACGATGACCCCGGGCCTGCACTTCCTGGTGCCGATCGTCTACGGCGTCGGCCGCAAAGTGAACATGATGGAGCAGGTGCTGGACGTGCCCAGCCAGGATGTCATCACCAAGGACAACGCGGTGGTGCGGGTGGATGGCGTGGTGTTCTTCCAGGTGCTGGACGCAGCCAAGGCCGCCTACGAGGTCGCCAACCTGGAAATGGCGATGATCGCGCTGGTGCAGACCAACATCCGTACCGTGATCGGGTCGATGGACCTGGATGAATCGCTGAGCCAGCGCGAGACCATCAATGCGCAGCTGCTCAACGTGGTCGACCACGCGACCAACCCGTGGGGCGTGAAGGTCACCCGGATCGAGATCCGCGACATCCAGCCGCCGCGCGACCTGGTCGATGCGATGGCGCGGCAGATGAAGGCCGAGCGCGAGAAGCGTGCGCAGATCCTCGAGGCCGAGGGTTCGCGCCAGTCGGAGATCCTGCGCGCCGACGGCGAGAAGCAGGCCGCGGTGCTCGAGGCCGAAGGGCGCAAGGAGGCCGCGTTCCGCGATGCCGAGGCGCGCGAGCGCCTGGCCGAGGCCGAGGCCAAGGCGACGCTGATGGTGTCCGACGCGATCTCGCAGGGCAATGTGCAGGCGATCAACTACTTCATCGCGCAGAAGTACGTGGAGGCGTTCAAGGAGCTGGCGACCGCGCCGAACCAGAAGTTCGTGCTGATGCCGATGGAGTCGTCGGGCATCATCGGCTCGATCGCCGGCATCGCCGACCTGGCCAAGGAAGCGCTCGGCAAGTCGGGCGAAGCGCCGTCGCGGCCGCAGCCGCCGCGCTTCGGGAGCTGA	MFPSGLLALAVLVAGVIVLFKTVRMVPQGYEWTVEKFGRYTHTMTPGLHFLVPIVYGVGRKVNMMEQVLDVPSQDVITKDNAVVRVDGVVFFQVLDAAKAAYEVANLEMAMIALVQTNIRTVIGSMDLDESLSQRETINAQLLNVVDHATNPWGVKVTRIEIRDIQPPRDLVDAMARQMKAEREKRAQILEAEGSRQSEILRADGEKQAAVLEAEGRKEAAFRDAEARERLAEAEAKATLMVSDAISQGNVQAINYFIAQKYVEAFKELATAPNQKFVLMPMESSGIIGSIAGIADLAKEALGKSGEAPSRPQPPRFGS				NA	NA	NA	NA	NA
BMS020_06454	324			hypothetical protein	GTGAAGACGCTGCTGCTGTTCGTGGCCACCGCGCTGGCCGAGCTGGCCGGTTGCTACCTGCCGTACCTGTGGCTGCGCAAGCAGGGCAGTGCGTTGCTGCTGGTCCCGGCCGCTGCGAGCCTGGCGCTGTTCGTGTGGCTGCTGACCCTGCACCCGGTCGCGTCCGGGCGCGTCTATGCCGGCTACGGTGGCGTCTACATCGCCACCGCGCTGCTGTGGTTGTGGTGGGTGGATGGCGTCGCGCCGACCCGCTGGGATCTGCTCGGCGCCGGGCTGTGCGTGCTGGGCATGGCGGTGATCATGTTCGCGCCGCGCCCGGCCTGA	MKTLLLFVATALAELAGCYLPYLWLRKQGSALLLVPAAASLALFVWLLTLHPVASGRVYAGYGGVYIATALLWLWWVDGVAPTRWDLLGAGLCVLGMAVIMFAPRPA	PGPT0029120_414	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029120-TC_SMR3-K09771	NA	NA
BMS020_06455	831	mazG_2	COG1694	Nucleoside triphosphate pyrophosphohydrolase	GTGACCGTGCAATCCCCCGCCAACCCGGGCGATATTGCCCAGCTGCTGCAGATCATGGCGCGCCTACGCGATCCGGATGGAGGCTGTCCCTGGGATCTGGAGCAGGACTTCGCCAGCATCGCCCCGTACACCGTCGAGGAGGCGTACGAGGTCGCCGATGCGATCGATCGTGGCGACCTGCACGGGCTGAAGGACGAACTCGGCGACCTGTTGCTGCAGGTGGCATTCCACGCGCGGATGGCCGAAGAGCAGGGGGCGTTCGCGTTCGGCGACGTGGTGCAGGCGATCTGCGCCAAGATGATCCGGCGCCACCCGCACGTGTTCGGCGATGTCGATGCGGCCGATGCGGACGCGGTCAGCAGCAACTGGGAGGCGATCAAACAGCGCGAACGTGCGGCCGCCGGCGAGCAGGATGCATCGGCGCTGGCCGGCATCTCGCGCGGTCTGCCCGAATGGATGCGCGCATTGAAGCTGCAGTCGCGCGCCGCCCGCGTCGGCTTCGACTGGCCGGGGCCGGCACCGGTGATCGACAAGCTGCACGAGGAGATCGCCGAGGTGCAGCACGAGTTGGCGCAGGGGCCGGTCGAGGACAACCACGCGCGGCTGGAGGACGAAATCGGCGACCTGCTGTTCGTCTGCGCCAACCTGGCGCGCCACGCCAAGGTCGACCCGGGCGCGGCGCTGCGCCGGGCCAACCACAAGTTCGAGCGCCGTTTCCGTGCGATGGAGGCGGCGGCCGGCGCCGATGGCACCACGCTGGCGGTGCTGCCGTTGGATGCGCAGGAAGCCTATTGGCAGCAGGTCAAGCGCGACGAACGGGCCGGCGGGTGA	MTVQSPANPGDIAQLLQIMARLRDPDGGCPWDLEQDFASIAPYTVEEAYEVADAIDRGDLHGLKDELGDLLLQVAFHARMAEEQGAFAFGDVVQAICAKMIRRHPHVFGDVDAADADAVSSNWEAIKQRERAAAGEQDASALAGISRGLPEWMRALKLQSRAARVGFDWPGPAPVIDKLHEEIAEVQHELAQGPVEDNHARLEDEIGDLLFVCANLARHAKVDPGAALRRANHKFERRFRAMEAAAGADGTTLAVLPLDAQEAYWQQVKRDERAGG	PGPT0008820_665	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0008820-mazG-K04765	NA	NA
BMS020_06456	810	cysQ_2	COG1218	3'(2'),5'-bisphosphate nucleotidase CysQ	ATGATCCGTCTGACCAGTGACCTGCGCGAGACCGTGATCGCGATCGCTGCCGATGCCGGTGCCGCGATCATGGACGTCTACGCGCGCGACTTTTCGGTCGAGACCAAGGACGACCAGAGTCCGCTGACCCAGGCCGACCTGGCCGCGCACCGGCTGATCGTCGATGGCCTGACCCGGTTGACCCCGGACCTGGCGGTGCTGTCGGAAGAATCGGCGGCGGTGCCGTGGGAGCAGCGCCAGCTGTGGACCAGCTACTGGCTGGTCGATCCGCTGGATGGGACCCGCGAGTTCGTGAAACGCAATGGCGAGTTCAGCGTCAACATTGCCTTGATCCATCTCGGGACGCCGGTGTTCGGCGTGGTGCAGGCGCCGGTCGATGGCCGGGTCTGGCATGCGATGCGCGGCGAACAGGCCTATCTCCGCGATGGCGGCCGCGATACCGCGTTGCGCGTGCGCACGCCGGCGACCGCGCCGTTGCGGGTGGCGGCCAGCCGCTCGCACCGCGACGCGCGGACCGAAGCGCTGTTGGCGCGGATGGGCGAGATCGAGGTCGTCGCCCAGGGCTCGTCGTTGAAGTTCTGCCGGATCGCCGAAGGCGGTCTGGATGTGTATCCGCGCTTCGGCCCCACGTCCGAATGGGACACCGCCGCCGGGCAGTGCGTGCTGCTCTCGGCCGGTGGTGCGTTGGTGGCCGCGGCGACCGGCAAGACCTTCCGCTACAACCGCCGCGAAACCCTGTTGAACGGCGATTTCATCGCGATGGGCGACCAGGCCCTGCCATGGCAGCAGTGGCTGGACACTGCGCCGTAG	MIRLTSDLRETVIAIAADAGAAIMDVYARDFSVETKDDQSPLTQADLAAHRLIVDGLTRLTPDLAVLSEESAAVPWEQRQLWTSYWLVDPLDGTREFVKRNGEFSVNIALIHLGTPVFGVVQAPVDGRVWHAMRGEQAYLRDGGRDTALRVRTPATAPLRVAASRSHRDARTEALLARMGEIEVVAQGSSLKFCRIAEGGLDVYPRFGPTSEWDTAAGQCVLLSAGGALVAAATGKTFRYNRRETLLNGDFIAMGDQALPWQQWLDTAP	PGPT0002975_2046	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002975-cysQ-K01082	NA	NA
BMS020_06457	549	nudE_2	COG0494	ADP compounds hydrolase NudE	ATGAGCCGCGCGTTGCCGGTGGTGCACAAGGTCGAGGAGATCGGCGAGGGGCCGTTCCGGCGCCAGCGCCTGGATCTCGAGTTCTCCAATGGCGAGCGCCGGCTGTACGAGCGCCAGCTCAGCCAGGGGCACGGAGCGGTGGTGGTGGTGCCGATGCTCGACGCCGAGACGGTGTTGCTGGTGCGCGAGTACGCCGCCGGCATGCACCGCTACGAGCTCGGGCTGGTCAAGGGGCGGATCGACCCCGGCGAGAGCCCGGTGCAGGCCGCCGATCGCGAATTGAAGGAAGAGGCCGGCTACGGCGCGCGCGAGCTGACCGTGCTGCGCGCGATGACCCTGGTGCCCACCTACATGAGCCACCAGTCGTGGCTGGTGCTGGCCCGCGACCTGTATCCGGAGCGCCTGCCCGGCGATGAGCCGGAGGAACTGGAAGTGGTGCCGTGGAAGCTGGCGCGGCTGGACGAGCTGATGCTGCGCGAGGACTTCTCCGAAGGGCGTTCGCTGGCGGCCCTGTTCATCGCCCGCGAATGGTTGGGAGCGCAGGCATGA	MSRALPVVHKVEEIGEGPFRRQRLDLEFSNGERRLYERQLSQGHGAVVVVPMLDAETVLLVREYAAGMHRYELGLVKGRIDPGESPVQAADRELKEEAGYGARELTVLRAMTLVPTYMSHQSWLVLARDLYPERLPGDEPEELEVVPWKLARLDELMLREDFSEGRSLAALFIAREWLGAQA	PGPT0021615_443	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021615-nudE-K08312	NA	NA
BMS020_06458	735	rsmE_2	COG1385	Ribosomal RNA small subunit methyltransferase E	ATGCGCCTGACCCGCTGCCATGTCGACCAGGCGCTGAGCGCCGGCGCGGAGATCGTGCTGCCGGAGGCCACCGCCAACCACCTGCTGCGCGTGCTGCGCCTGCGCGAGGGCGACGCCTGCGTACTGTTCAACGGCGACGGCAACGACTACGACGCCATCCTGGCCAGCGCCGGCAAGCGCGAGGCCCGTGCCCGCCTCGGCGCCGCCCGCGCGATCGACAACGAGTCACCGTTGCCGGTCACCCTGGTGCAGGGCATCGCGCGCGGCGAGAAAATGGACCTGATCCTGCAGAAGGCCACCGAGCTGGGCGTCGCGGCGATCATCCCGGTCAATGCCGAGCGCACCGAGGTCAAGCTCGATGCCGCGCGCGCCGAGAAGCGCGTTGCCCACTGGCACAGCGTGATCGTCTCGGCCTGCGAACAGAGCGGCCGCGCGCGCGTGCCGGCACTGGCCGCGCCGACCGCGCTGGCGGCGCTGGCCGCGGCATTGCCCGCCGATGGCACGCGCCTGACCCTCGACCCGTACGGCGCCCACCGACTGGCGAGCCTGCCTGCGCCCGGAGCGGCCGGAGTGGTCGTGGCGATCGGCCCGGAAGGCGGCTGGTCCGAGCGCGACCGGCAGTTGCTCGCCGGCATCGGCTTCGACGGCCTGCAGTTGGGTCCGCGCATCCTGCGCACCGAAACCGCCGGGCTGGCGGCCATCGCCGCATTGCAGAGCCGCTTCGGCGACCTGTAG	MRLTRCHVDQALSAGAEIVLPEATANHLLRVLRLREGDACVLFNGDGNDYDAILASAGKREARARLGAARAIDNESPLPVTLVQGIARGEKMDLILQKATELGVAAIIPVNAERTEVKLDAARAEKRVAHWHSVIVSACEQSGRARVPALAAPTALAALAAALPADGTRLTLDPYGAHRLASLPAPGAAGVVVAIGPEGGWSERDRQLLAGIGFDGLQLGPRILRTETAGLAAIAALQSRFGDL				NA	NA	NA	NA	NA
BMS020_06459	1017	glk_3	COG0837	Glucokinase	GTGAGCACAAGCAAAGCAGTGGGGCTGCCGGCGCGGGTGGCGCCCGACGTGTTCGTCGCCGCCGACGTCGGTGGCACGCATGTACGCATCGCGCTGGTGCGCGAGCGTCTCGATGCCAGCGGCATCGAGGTGCTGACGGTGGAGAAGTATCGGTGCAACGAGTATTCCGGGCTCGACGCGATCTTCGCCGCATTCCTGGCCCAGGCGCCGGGAGGCGCCGCGGTGCGCCGCGGGGTGATCGCCAGCGCCGGCTATGCGTTGGAGGATGGCAGTGTGATCACCGCCAACCTGCCCTGGCCGCTGGTACCGCGGCAGATCCAGCAGCGGTTGGGGCTCGGCACACTGGCGCTGGTCAATGATTTCGAGGCGGTCGCGCACGCGGCGCGGCAGATGGGCGAGCACGAGGTGCTGCACCTGGCCGGGCCGGGCGCGGTGGCGGCAGGGCCGGTCTTCGTGCTCGGCCCCGGTACCGGGCTGGGCGCGGCGTTGTTCGTGCCGCATGCGCAGGACGCCCTGGTGTTGCCGACGGAGGCCGGGCACGCGGCATTGGCGCCGGGCAACGCGCTGGAGCTGCAGGTGCTGGCCGAGATGCGCCGCAGCCGCAGCCATGTTGCGGTCGAGCATCTGCTGTCGGGCCCGGGCCTGCTCAATTTCTACAATGCGCTGTGCGTGCTGCAGGCAACGTCCCCGGTGCACGACGCGCCCGACCAGGTGACCCGTGCCGCGCTGGCTGGCGGCGATGCACTGGCCTTGTCCGCGTTGCAGGGCTTCTGCGGCCTGCTCGGCAGCGTGGTTGGCGACGCCGCGCTGCAGTACGGTGCGCGCACGGTATATCTGGCCGGCGGGTTCTTGCCGCAGATCGCCGGCTTCCTCGCCGGCAGTACGTTCGTGGCGCGCATGCACGACAAGGGCGCGATGCGCCCGGCGCTGGAGCAGGTCACGGTCAAGGTGGTCGAGCACGGTCTGCTTGGCGTGCTCGGTGCCGCGCAGTGGCTGGTTCGGAGTGGAAGGACCTAA	MSTSKAVGLPARVAPDVFVAADVGGTHVRIALVRERLDASGIEVLTVEKYRCNEYSGLDAIFAAFLAQAPGGAAVRRGVIASAGYALEDGSVITANLPWPLVPRQIQQRLGLGTLALVNDFEAVAHAARQMGEHEVLHLAGPGAVAAGPVFVLGPGTGLGAALFVPHAQDALVLPTEAGHAALAPGNALELQVLAEMRRSRSHVAVEHLLSGPGLLNFYNALCVLQATSPVHDAPDQVTRAALAGGDALALSALQGFCGLLGSVVGDAALQYGARTVYLAGGFLPQIAGFLAGSTFVARMHDKGAMRPALEQVTVKVVEHGLLGVLGAAQWLVRSGRT	PGPT0017730_643	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017730-glk-K00845	NA	NA
BMS020_06460	561			hypothetical protein	ATGGACGCCGGAGCGGGCGGTCGGCCGCGTCGTCCGGCGTGGTCTGTCGTTCCGTTCGGGAGCGGGCTCCCGTTCTGCATGGCGTCGTGCGGGCTTCGCCCGCGCCGTCGATGGCGCGGTGCCGCGGGTGCGGAGGCGAAGCCGGTGGTGCGTCCCCTGGTGCGTGTTGCGACAGCGGCAATCGCCTCCGGTCGATGCGTCGCGGAGGGGGACGGTGATGTCCTTCCGTATCGCGGTATCCGGGATGTCATCGAGGGTGCGGGCTGGCGTGCACGCGACTTCGGCGACGTGGTCCTGCAGCTGCTTCGATTCGAGTCTGGAGGAGCGTTGACAATGTTGTCAACAAAGTTTCACCGCGAATTCAAACATGTGTCACCCACGACAAAGGTTGCGCCGGAAAGTGTTGCCTGGCCGTGGTTGGCGTTGCTCGTGAGACGCGCAAGACCGCTGTTTTCAAGGTGTTTTCGCAATGAATCAATTTGTGCTGATTTGTCGTGCATCGACGCGGAATTTGGCAGAAGTGCGTCCGGATGGTGCGAAATCCTCGATCGGAGCAGGTGA	MDAGAGGRPRRPAWSVVPFGSGLPFCMASCGLRPRRRWRGAAGAEAKPVVRPLVRVATAAIASGRCVAEGDGDVLPYRGIRDVIEGAGWRARDFGDVVLQLLRFESGGALTMLSTKFHREFKHVSPTTKVAPESVAWPWLALLVRRARPLFSRCFRNESICADLSCIDAEFGRSASGWCEILDRSR				NA	NA	NA	NA	NA
BMS020_06461	2628	btuB_17		Vitamin B12 transporter BtuB	ATGCATCGCCACACCACGAAGTTGGCTCTGTGTATCACCGCCGCCTTGTACGCCTCCAGCAACGCGCTCGCCGCCGACCAGGCAGCGCAATCCGCGCAGGACACCTCAACCTCGTCCGCCACGACCGAGCTCGACGCCATCACCGTCACCGGCTACCGCGCCTCGCTGGAGAAGAGCCAGTCGGTCAAGCGCGCGGCGAACTCCATCGTCGATGCGATCAGCGCCGAGGACATCGGCAAGTTCCCCGATACCAATGCCGCCGAATCACTGGCACACCTGCCCGGCATCAGCGTTGACCGCCAGTTCGGCGAGGGCGAGAAAGTCAGCATCAACGGGACCGACCCGGCGTTGAACCGGGTGCTGCTCAACGGCCAGACCATCGCCTCGGGCGACTGGGGCGGCAACCCCACCGACACCAGCGGGCGCACCTTCAACTACACCCTGCTCTCGCCCGAGATCATCGGCCTGATGGAGGTCTACAAGACCCCGGAAGCCCGCATCGACGAAGGCTCGATCGGCGGTACCGTGATCGTGCACACGCGCAAGCCGCTGGACCTGCCGAAGAACACCATCCGCGGCTCGCTCGGCTACAACTACAATGATCGTTCCGAGGAAGGCAACCCGCGCGGCTCGGCACTGTGGAGCTGGAAGAACGACGACGAGACCTTTGGCGCGCTGATCTCGGCCACCCACGACAAGCAGGACATCGCACGTGCCGGCGTCGAATTCTTCGGCTACACCACCGGCGCTTCGATTCCATCCGATGTTAACGTTACCGGCGACGGCGGCGACGTGGCCACCGCCAAGATCCCCGCAGGCATCAACAGCGCGTTCTTCCAGCAGACCCGCGAGCGCAACGGCCTGCAGGGCGCGTTGCAGTGGAAGCCCAACGAGCAGAACGAGTTCAACCTGACCGGCCTGTACATCAAGGGCAAGTACAACAACTTCAGCGAATCGCGCTACGTCTGCCCGGCCTGTAACAGCGACCTGGAGAAGGTCACCAGCGTCAACGTGCAGAACGGCTACATCACCTCCGGCACGGTCACTGACGGCGACGCCGGCCAGCCGTACGCCCAGCTCGACACCAACTACCGCGAGAGCGAAGTCACCACCAAGAGCCTGAACCTGCGCCACGACTGGTACGGCGACAAGTGGGTGTTCACCTCGCAGGCCGGCACCACCAAGGCGACCGGCGGCAAGAACCCCGAATACCTGATGAAATTCCTGCTGCAGGACGGCGGCTACGACTTCGCCTACGACGGCAGCAGCACCAGCGTGAACTACGACGACGGCAGCGCGGCCAACTGGGGCCTGGCGGCCGGCCAGCAGGCCGGCGGCATCTACTACGCCAAGAGCACCGACCAGGAGAAGTACTTCCAGTTCGATGCCGCACGCGATCTCGACTGGGGCCCGTTGACCAAGCTGCAGGTGGGCTACAAGTACATCAACCATGAGAACGGCGTCGCCGCCAGCGGCAACTCGCTGTATGCCACAGAGGACATCTCGCTGTCCGACTTCAGCCCGGGCACCACGCCCAGCGGGCTGTACGACGGCCTCGGCGCCAGCGGCGACCTGACCAACTGGTCCACCGCCAATCTCAATGCGGTGATCGCCTACCTGAAGTCGCTGCCGCAGGGCGAGTACAAGATCGACTATGGCTCGTCCTTCGACGTCAAGGAGATCACCAGCAACCTCTACAGCCAGCTGAATTTCGAGTCCGGCAAGTGGCGTGGCAACCTCGGCGTGCGCTACGTCGATACCAAGGACAAGTCGCTGTACTGGCAGAGCGAGGATGGCGGCAGCAGCTATTCGCAGGTGCAGAGCAGCACGCACTATTACAAGCCGCTGCCGAGCTTCAACATCGCCTACGACCTGGCCGACGACAAGGTGCTGCGGTTCTCGGCGGCGAAGGTGATCGCGCGTCCGCGCTATTCGGACCTGGCCGGCTCGTTCACGATCAGCAGCAGCAACGGCAACCTGACCGCCAGCGGTGGCAACCCGGACCTGAAGCCGTACGAATCGACCAACTACGACCTGGCCGCCGAATGGTACTTCGCCCCGTCGAGCATGCTCTCGGCCGAGGTGTTCTATCGCGACATCAGCTCCTACATCGTCACCACCACCAGCCAGCAGCAGCTGACCGACTCGCTGACCGGCGTGAGCGGCCTGTACACGGTGAGCTCGCCGATCAACGCCTCCGGCGCCAAGGTGACCGGTGCCTCGCTGAACTACCAGCAGGCGTTCGGCCTGGGCTTCGGCCTGCAGGCCAACTACACCTACGCCGAATCCGATGCCGAGGACGGGCTCAACCTGCCCTACCTGTCCAAGAACACCTACAACGTGATCCCGTACTGGGAGCATGGCGACTGGATGGTGCGGCTCAACTACAGCTACCGCTCCAAGTACTTCACCCAGATCGGCCGGCTGGAGTCGAACATCTTCACCGACTCCTACGAGCAGCTCGACCTGACCGCGTCGTACCAGTTCAACGACTGGGTCGGCATCAGCTTCAGCGCGACCAACCTGCTCGACTCGACCTACTACTGGTACAACGAGGTCAAGTACGCGCCGATCGGCATGTACAAGAGCGGGCGCGGCTATGTCGCCCAGCTCAACTTCAAGTTCTAG	MHRHTTKLALCITAALYASSNALAADQAAQSAQDTSTSSATTELDAITVTGYRASLEKSQSVKRAANSIVDAISAEDIGKFPDTNAAESLAHLPGISVDRQFGEGEKVSINGTDPALNRVLLNGQTIASGDWGGNPTDTSGRTFNYTLLSPEIIGLMEVYKTPEARIDEGSIGGTVIVHTRKPLDLPKNTIRGSLGYNYNDRSEEGNPRGSALWSWKNDDETFGALISATHDKQDIARAGVEFFGYTTGASIPSDVNVTGDGGDVATAKIPAGINSAFFQQTRERNGLQGALQWKPNEQNEFNLTGLYIKGKYNNFSESRYVCPACNSDLEKVTSVNVQNGYITSGTVTDGDAGQPYAQLDTNYRESEVTTKSLNLRHDWYGDKWVFTSQAGTTKATGGKNPEYLMKFLLQDGGYDFAYDGSSTSVNYDDGSAANWGLAAGQQAGGIYYAKSTDQEKYFQFDAARDLDWGPLTKLQVGYKYINHENGVAASGNSLYATEDISLSDFSPGTTPSGLYDGLGASGDLTNWSTANLNAVIAYLKSLPQGEYKIDYGSSFDVKEITSNLYSQLNFESGKWRGNLGVRYVDTKDKSLYWQSEDGGSSYSQVQSSTHYYKPLPSFNIAYDLADDKVLRFSAAKVIARPRYSDLAGSFTISSSNGNLTASGGNPDLKPYESTNYDLAAEWYFAPSSMLSAEVFYRDISSYIVTTTSQQQLTDSLTGVSGLYTVSSPINASGAKVTGASLNYQQAFGLGFGLQANYTYAESDAEDGLNLPYLSKNTYNVIPYWEHGDWMVRLNYSYRSKYFTQIGRLESNIFTDSYEQLDLTASYQFNDWVGISFSATNLLDSTYYWYNEVKYAPIGMYKSGRGYVAQLNFKF	PGPT0003790_4787	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_06462	1653			hypothetical protein	ATGACCCCGATCCGATCCGCGCCGCATCGCCGCGCACCACTTGTCGCACTGGCCACGCTGCTGCTGGCCCTTCCGGCCCTCGCCGCCGAACCGGCGACCGCGCCGACCACGCCGACCGCGGCCACACTTTCGCCCGAACAGATCGACCAGCAGTGGCAACAGGCCACCGCCAAGTACGCACCGGAACGCGCCCGCCTGGACGAGCTGGCACGCCGTGGCGCCCATGACGGCCCGTTCCGCCCCGACTGGGCCTCACTGCAGCACTACAGTTCGCCTGGCTGGTACGACGATGCCAAGTTCGGCATCTTCGTCCACTGGGGCGTGTTCTCGGTGCCAGCGTTCGGCAGCGAGTGGTATTCGCGCAACATGTACCAGCAAGGCCACAAGGATTACGAACACCACGTCGCCACCTATGGCCAACAGGCGACGTTCGGCTACAAGGACCTGATCCCGAAGTTCAAGGCCGAACACTTCGACCCGGCCGCCTGGGCCAAGCTGTTCCGCGATGCCGGCGCGCGCTACGTGGTGCCGGTGGCCGAACACCACGACGGCTTCGCGCTGTACGACTCGCAGCTGTCGGACTGGACCGCGGTCAAGATGGGCCCGCACCGCGACCTGCTCGGCGACCTGTCCAAGGCGATCCGCGCGCAGGGCCTGCACTTTGGCCTGTCCTCGCATCGCGCCGAGCACGACTGGTTCTTCGACGGCGGCCGCCACTTCGATTCCGACGTCAATGACCCGAAATACGCCGGTCTCTACGGCCCGGCCCAGCTGCGCGGACTGGCCGACGGCAAGGACGATGGCGAGGTCGCCCACGACTGGACCTACGTCTCGCAGGCCTGGCTCGATGACTGGCTGGCGCGCACCACCGAGCTGATCGACCGCTACAGCCCGGACCTGATCTATTTCGACTGGTGGATCGCCCACCCGACCTTCCGCAACACGCTGCCGACGATGCTGGCGTACTACTACAACCATGGCGCCAGCCGTGGCGGCGTGGTGGTCGACTACAAGCTCGGCGCGTTCCCCGAGGGCGCCGGCACGCTCGACATCGAGCGTGGCCAGCTGACCGGCATCCATCCCACCCACTGGCAGACCGACACCTCGATCAGCAACGTTTCATGGGGCTACATCGAGCACGACACCTTCAAGACCCCGACCTTCATCATCCACATGCTGGTCGACGTGGTCTCCAAGAACGGCAACCTGATGCTCAACGTCGGCCCGCGCGCCGACGGCACGATCCCGGATGCCGAGCGCGACATCCTGCTGGCGATCGGCCGCTGGCTGAAGACCAACGGCGAGGCGATCTATGGCAGCAAGCCGTGGCGCACGTTCGGCGAGGGGCCGACCGAGGTCGAAGGCGGCACCTTCAACGACACCAAGACCAAGCCGTACACCGCGCAGGACTTCCGCTTCACCACCGGCGATGGCCACCTGTACGCGATCGCGATGGGCTGGCCGGCCGACGGCCACGCGGTGATCCATTCGATCAAGCCCGAGGACGCGGTCAGCGGCGTGACCCTGCTCGCCAGCGGCAAGCCGGTGCGCTGGCAGCAGCAGGCCGACGGTCTGCACCTGCAGCTGCCGACCAAGCCGCCCGCCGGCGAACACGCCTACGTCTTCCGCATCGACCTCCCCTCCACCCGCTGA	MTPIRSAPHRRAPLVALATLLLALPALAAEPATAPTTPTAATLSPEQIDQQWQQATAKYAPERARLDELARRGAHDGPFRPDWASLQHYSSPGWYDDAKFGIFVHWGVFSVPAFGSEWYSRNMYQQGHKDYEHHVATYGQQATFGYKDLIPKFKAEHFDPAAWAKLFRDAGARYVVPVAEHHDGFALYDSQLSDWTAVKMGPHRDLLGDLSKAIRAQGLHFGLSSHRAEHDWFFDGGRHFDSDVNDPKYAGLYGPAQLRGLADGKDDGEVAHDWTYVSQAWLDDWLARTTELIDRYSPDLIYFDWWIAHPTFRNTLPTMLAYYYNHGASRGGVVVDYKLGAFPEGAGTLDIERGQLTGIHPTHWQTDTSISNVSWGYIEHDTFKTPTFIIHMLVDVVSKNGNLMLNVGPRADGTIPDAERDILLAIGRWLKTNGEAIYGSKPWRTFGEGPTEVEGGTFNDTKTKPYTAQDFRFTTGDGHLYAIAMGWPADGHAVIHSIKPEDAVSGVTLLASGKPVRWQQQADGLHLQLPTKPPAGEHAYVFRIDLPSTR	PGPT0018775_677	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018775-fucA-K01206	NA	NA
BMS020_06463	1071			hypothetical protein	ATGATCAAGCGATCCACCGCACTGCTGCTCGCTGTGGCACTGGCCCTGGCGCCGGGGCTGGCCATGGCCACCAACCCGACCGCGCTGTTTTACCTGATGGAAACCCAGAAATCGGTCAACTCGTTCCTGGCCAATGTCGACAAGATCGACGTGCTGGTGCCGACCTGGTACGGCGTCGACCAGCGCGGCCTGGTCAACGGCGCACCCAACCAGTACGTCTACGACATCGCGCGCCAGCACAAGCTGCCGGTGATGCCGATCCTGTCGATGACCACCACCCGCGACGGCTTCCACCAGCTGCTGCACGACGAGGACGCCAAGCAGCGGATGATCGCCACGCTGCTGCAGCAGGGCAAGGAACACGGCTATTACGGCTTCCAGTTCGACTTCGAGAACATCGCCTGGACCGACCGCGACGCCTTCACCCTGATGACCAAGCAGACCGCCGACGCGCTGCACAAGGCCGGGCTGAAGCTGACCATCGCGGTGGTGCCGAACGCACCCGGCCACGCCGACCGCGGCCAGTTCTCCAAGTGGATGTGGGAATACTGGCGCGGCGCCTATGACCTGGCCGCGCTGGGCAAGGCCACCGACCTGGTCAGCCTGATGACCTACGACCAGCACACCCGCTGGACCACGCCCGGCCCGGTCGACGGCATGCCGTGGATGAAGAAGCACCTGGACTACGCGCTGACCCAGATCCCGAAGGAGAAGCTGTCGCTGGGCATCGCCACCTACGGCTACCGCTGGTACACCGGCAATCCGGTGCGCGAAGACGGCACCGAGTCGTCGAACATCTCCGGCACCTACATCGATGCCGACGAGTCGTTCCCGCTGGCCGAGGAACAGCACGCCACCGTGCAGTGGGATCCGGTCGAGCAGGAATCGTGGTTCTACTTCTACCGCGACGACATGCGCGAATGGGTGTTCCGCCCGGACGCGCGCAGCTTCCAGGCGCGCTACGACCTGGTCAAGCAATACGGACTGGAAGGCTTCAGCAGCTGGGTGCTCGGCGCGGAAGACCCCAAGGTCTGGGACCTGCTGCCACCGGCGCGCCGCAGCGCGCGGTGA	MIKRSTALLLAVALALAPGLAMATNPTALFYLMETQKSVNSFLANVDKIDVLVPTWYGVDQRGLVNGAPNQYVYDIARQHKLPVMPILSMTTTRDGFHQLLHDEDAKQRMIATLLQQGKEHGYYGFQFDFENIAWTDRDAFTLMTKQTADALHKAGLKLTIAVVPNAPGHADRGQFSKWMWEYWRGAYDLAALGKATDLVSLMTYDQHTRWTTPGPVDGMPWMKKHLDYALTQIPKEKLSLGIATYGYRWYTGNPVREDGTESSNISGTYIDADESFPLAEEQHATVQWDPVEQESWFYFYRDDMREWVFRPDARSFQARYDLVKQYGLEGFSSWVLGAEDPKVWDLLPPARRSAR				NA	NA	NA	NA	NA
BMS020_06464	2424			hypothetical protein	ATGAGCCACGGCCCCCTGTCTCCCGTCGCCGGCCACTGCGCCTGGCGCGGCCTCGCCGCCGCAGCGGTGCTCGCCCTCACCTTGGTCGGCTGCGATGCGCGGCATCGCGGCAGCCCGGTGACCTTTCCCGATGGCACCGGCGAGAGCATCCCCGCGCCGCAGCCGGCGCTGATCCCGGCCCCGGTCGAGTTGCAGCGGGCGCCCGGGCGCTTCGATGTCGGCAGCACGAGCACGCTCTCGGTCGCCGCCGACGACGCCGACGCGCTGCATGCCGCGCGCTATCTCGCCGAGGTGCTCCAGCGCAGCCGCGGCCTGGACCTGCCGGTGCGCACCGAAGCCACCGCCTCGCGCGGCAGCATCCGCCTGCAGCTGGACCCGGCCTCGCCGGTGGCGCAGGCCGAGGGCTACGCGCTGGACGTGGACAGCACCGGCATGCGAATCCGCGCCCGCGATGCCGCCGGCCTGTTCCATGGCGCCGTCAGCGCCTGGCAGCTGCTGACCCCGGATGGCGGCCGCGGCGCGGTCAGCGTCGGCGGCGTGCAGATCCGCGACTGGCCGCGCTTCGGCTGGCGCGGCCAGCACCTGGATGTGGCCCGGCACTTCATGGAGGTCGGCACGGTCAAGCACGTGATCGACGCGATGGCGCTGCACAAGCTCAACGTGCTGCACCTGCATCTCACCGACGACCAGGGCTGGCGCATCGAGATCAAGCGCTATCCGCGCCTGACCGAGGTCGGCGCCTGGCGCACCCCGCCCGGCGCCGGAACCCATGGCGTGCCCGCGCGGGTCGGCGGCTACTACACCCAGGAGCAGATCCGCGACCTGGTCGCCTATGCCGCGGCGCGCCACATCACGATCCTGCCGGAGATCGACATGCCCGGGCACGCACGTGCCGCGGTGGCCGCATATCCGCAGCAGATCGGCGTCGACGGCGTGCGCACCCAGGTCGGCGTGAACTGGGGCATCGACCCGTACCTGTTCAACACCAGCGTCGCGAGCATGCACTTCATCGAGCAGGTCCTCGACGAGGTACTGGCCTTGTTCCCCTCGCCGTTCATCCACATCGGCGGCGACGAGGCGATCAAGGACCAGTGGGAGGCGTCGCCGGCGGTCCGCGCGCAGATGCGCAAGCTCGGGGTCAAGGACGCGCATGCGATGCAGGGCTGGTTCAACGCACAGCTCGCCACCTACCTGACCGCGCACGGCCGGCGCCTGATCGGCTGGGACGAGATCCTCGAAGGCGGCTTGCCGGCCAATGCCTCGGTGATGTCCTGGCGCGGCATCGACGGCGCCGTGGCCGCGGCGCAGAAGGGCCACGACGTGGTGCTGGCGCCCGCGGGCTGGATGTACCTGAACTACCCGCAGAGCGCCCGCGGCGACGAGCCCGCCGGCCCTTACGATGCACTGCCGCTGTCGCGGGTCTACGAACTCGACCCAGTCCCGGCCAGCCTCAGCGCCGACCAGGCCCATCACGTGCTCGGCGTGCAGGGCGCGCTGTGGACCGAATACATGACCTCGCCGTGGCACGTCGACCATGCGCTGTTCCCGCGCCTGGCCGCGGTCGCCGAGGTCGGCTGGTCGCAGATGCAGGCGCGCGACTGGAACGGCTTCCTCGAACGCCTGCCGGCGCAGCTGCGGCGCTACCAGGCGTTGGGGATCGGCTACGGCGATGGCGCCTTCGCTGCCGACATCACCCTGGAAAACGGCCCCAATCCGGTGCTGGCCGGCCAACCGGCGCGGGTCCAGCTCGGCAACCAGACCGGCTTCGGCCAGATCCACTACACCACCGACGGCAGCGAACCGGCCCTGACCTCGCCGCGCTACCTGCAGCCGTTCGCGATCACCCTGCCGGCCACCGTCAAGGCCAAGGTGTTCAGCGCCGACGGCAGCGTGCTCGCCCCCACGCGCACGCGTCGCTTCGACCAGCAGGCGCTGCGCACGCTCGACGGCCAGGGGCTGCGCAAGTGCCCGGAAGGCGGGCTTGGGCTGCGCGCGTTGCTGCTGCCGGACATGACCGCGCCGGACGCGCCGACCTACAACATCGACGTCTTCCACATGTGCTGGACCTGGCCGCAGGCACGCCTGGACGGCACCGCCGGCATCCGCGTCGACGCGGCGCGGCTGGCACGCAACTACGGCCTCGCCCACGACCAGTCCAAGGTGCTGCAGTACCCGCCGCGCGCCGCGCAGGGCGAGCTGGAGGTGCTGCTCGGCTGCGACGGCGAACGCCTGGCCAGCGTGCCACTGCCGGCCGGCGATACGCTCGGCGAGCGCTTCGTCCTCGAAGCGCCGCTGCCGCCGCGCACCGGCGTGCATGACCTGTGCCTGCGCTTCACCTCGTCGATCCAGGGCCCGATCTACGCGATTGGCAGCCTGCAGCTATTGCAGCAGCCGCCCGCGGCCACGCCGAACGCCACGCCCTGA	MSHGPLSPVAGHCAWRGLAAAAVLALTLVGCDARHRGSPVTFPDGTGESIPAPQPALIPAPVELQRAPGRFDVGSTSTLSVAADDADALHAARYLAEVLQRSRGLDLPVRTEATASRGSIRLQLDPASPVAQAEGYALDVDSTGMRIRARDAAGLFHGAVSAWQLLTPDGGRGAVSVGGVQIRDWPRFGWRGQHLDVARHFMEVGTVKHVIDAMALHKLNVLHLHLTDDQGWRIEIKRYPRLTEVGAWRTPPGAGTHGVPARVGGYYTQEQIRDLVAYAAARHITILPEIDMPGHARAAVAAYPQQIGVDGVRTQVGVNWGIDPYLFNTSVASMHFIEQVLDEVLALFPSPFIHIGGDEAIKDQWEASPAVRAQMRKLGVKDAHAMQGWFNAQLATYLTAHGRRLIGWDEILEGGLPANASVMSWRGIDGAVAAAQKGHDVVLAPAGWMYLNYPQSARGDEPAGPYDALPLSRVYELDPVPASLSADQAHHVLGVQGALWTEYMTSPWHVDHALFPRLAAVAEVGWSQMQARDWNGFLERLPAQLRRYQALGIGYGDGAFAADITLENGPNPVLAGQPARVQLGNQTGFGQIHYTTDGSEPALTSPRYLQPFAITLPATVKAKVFSADGSVLAPTRTRRFDQQALRTLDGQGLRKCPEGGLGLRALLLPDMTAPDAPTYNIDVFHMCWTWPQARLDGTAGIRVDAARLARNYGLAHDQSKVLQYPPRAAQGELEVLLGCDGERLASVPLPAGDTLGERFVLEAPLPPRTGVHDLCLRFTSSIQGPIYAIGSLQLLQQPPAATPNATP	PGPT0012150_725	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
BMS020_06465	2700	csxA		Exo-beta-D-glucosaminidase	ATGTTGCAACGCTTCACCCATGCCCGCCGGGCCCCCGCGCCCCGACTGAAGCTGCTGGGCGCCCTGCTCGGCACGGCGCTGGCACTGCCGGCACTGGCGGCGGCACCGAGCACGCAGCTGCTCGACAGTGGCTGGCAGGTGCGGTTGCTGCCGGGCCAGACCCAGGTCAGCAAGGAGCATCCCAAGGCCGCACAGTGGATCACCGCGCAGGTGCCCGGCGCGGTGCAGACCGACCTGCTCAGGGCCGGGCTGGTTGCCGATCCGTTCTTCGGCGACAACGAAGGCAAGATCCAGTGGGTTGGCCTGAGCGACTGGCAGTACCGCAGCGAGTTCGACGCCGATGCGGCGCTGCTGGCGCGCGAACACATCGAGCTGGTGTTCCAGGGGCTGGACACGCTGGCCGAGGTCAGCCTCAACGGCAAGCCGCTGCTGCGCGCCGACAACATGTTCCGGCGCTGGAGCGCCGAGGTGAAGCCGCTGCTCAAGCCTGGCAGGAACACCCTGGAGATCACCTTCCGCTCGCCGATCGGCGCGATCCAGCCGTGGCTGGCCAAGCAGCCGTACGCGCTGCCCGGCACCTACGACTCGATGTTCGGCGACGAACCGCTGGGTCGCAACAGCTCGATCTACGTGCGCAAGGCGCCGTACCAGTTCAGCTGGGACTGGGGCCCGCGCATCGTCAATGCCGGCATCTGGAAGGACGTGCAGCTCAATGCCTGGGATGCGGTGCGGGTCGATGACCTGCACATCGCCCAGCAGCGCGTCGATGCGCAGGTCGCCCGGCTGGACGCGCAGCTGCAGCTCGACAGCAGTGTGACCGGCAGCGTCGAGGTCAGCATCGACGTGCTCGACCCCGACGGCAAGACGGTGCTGCACAGCGTCGAACAGCGCGCGGTCGATCCGGGCGAGAACAGCATCGCGCTGCCGCTGCGGATCACCCATCCCAGGCGCTGGTATCCGGCCGGCTATGGCGCGCAGGATCGTTACACCTTCATCGCCAAGGTCCGCGATTCAAACGGCGACACCCAGGAATTCCGCCGCGTCACCGGCCTGCGCACGGTCGAACTGCGCCGGCAGAAGGACCAGTGGGGCAAGAGCATGGAGTTCGTGATCAACGGCATCCCCGTGTTCGCCAAGGGGGCCAACCTGATCCCGCTCGACAGCTTCCCCAGCAGCGTCAGCGAGGCGACGATGCGCCGCACGCTGCAGGACGCGCGCGACGCCAACATGAACATGCTGCGCATGTGGGGCGGCGGCCACTACCAGGACGACCGCTTCTACGAGATCGCCGACGAGCTCGGCATCATGATCTGGCAGGACTTCATGTTCGGTGGCGCGATCCCGCCGTATGACGTCGCCTTCCGCGAGAACACCCGTGTCGAGGCGATCGAGCAGGTCAAGCGGCTGCGCGACCATCCCAGCATCGTGCTGTGGTGCGGCAACAACGAGGTGCAGACCGGCTGGGAGAACTGGGGCAGCAGCGAGGACTTCCGCAAGGGCCTGGACCCGAAGGAAGTGCGTCGCATCGAACAGGGCATGACCACGCTGTTCGGCAGCGTGCTGCGCGAGGCGGTGGACATCTACTCGCCGCAGACGCCGTACTGGGCCACCTCGCCCGGCACCGATTTCGACGGCGGCGCCGACCTGACCGACGATGGCGACATGCACTACTGGGCGGTCTGGGGCGGCCCGGCCAACCCGGTCACCGAATACCTCAACGTCACCCCGCGCTTCATGTCCGAGTACGGCCTGCAGTCGTTCCCGGAGATGCGCACGGTCCGCGATTTCGCCGGCAACGGCCCACTGAGCCTGGACATGCCGGCGGTGGCCAACCACCAGAAATGGGACAAGGGCCGCGGCAACCAGCGCCTGCTGATCTACATCCGCCGCGAGTTCGGCGAGCCGAAGGATTTCGCAAGCTTCGTCTACCTCAGCCAGCTGATGCAGGCCGAGGGCATCGAGATCGCCGCCAGCCATCATCGCGCATCGATGCCGCGCACGATGGGCACGCTGTTCTGGCAGCTCAACGACGTCTGGCCGGTCGCTTCATGGTCCAGCGTCGACTACTACGGCCGCTGGAAGGCACTGCAGTACCGCGCCAAACACTTCTATGCGCCGCAGGCGGTCACCGCGCTGCGGGATCCCTCCGGCAGCACCAGCGTGGCGCTGGTCTCGGACAGCACCACGCCGATCGATGCACGCCTGCGCACGCGCCTGATCGACGTCGATGGCAAGACGCTCAGCGACCACCAGCAGCAGGTCACGCTGAAGCCGCTGGCCAGCACCGCGATCGGCACCTTCAGCGACAAGCAGCTGCTCGACGGCGCCGATCCCAAGCGTAGCGTCGCGGTATTCGAGCTGTTCGACGGCGGCAAGCTGCTGTCGCGCTCGATCGTCTATTTCGATGCGGCCAAGAAGCTGGCGCTGCCGCTGCCGAAGATCGATGCGCAGCTGGCACCGACCGCCAACGGCTACACCCTGACGCTGTCCAGCCCGGTGCTGGCGCGGGAGGTCTGGGCATCGTTCGGCGACCTCGACGTGCAGCTGTCCGACAACGCGGTGAGCCTGCTGCCCGGTGAGCCGACGGTGCTGCAGCTCAGCAGCAAGGCATCGCTGGAGCAGCTGCGCGCCGCTTTGCAGCTGCGAGATGTCGCCAGCACGATGGCTGGCGCGCCGGCCGAACCGAAGGAGGCACGGTGA	MLQRFTHARRAPAPRLKLLGALLGTALALPALAAAPSTQLLDSGWQVRLLPGQTQVSKEHPKAAQWITAQVPGAVQTDLLRAGLVADPFFGDNEGKIQWVGLSDWQYRSEFDADAALLAREHIELVFQGLDTLAEVSLNGKPLLRADNMFRRWSAEVKPLLKPGRNTLEITFRSPIGAIQPWLAKQPYALPGTYDSMFGDEPLGRNSSIYVRKAPYQFSWDWGPRIVNAGIWKDVQLNAWDAVRVDDLHIAQQRVDAQVARLDAQLQLDSSVTGSVEVSIDVLDPDGKTVLHSVEQRAVDPGENSIALPLRITHPRRWYPAGYGAQDRYTFIAKVRDSNGDTQEFRRVTGLRTVELRRQKDQWGKSMEFVINGIPVFAKGANLIPLDSFPSSVSEATMRRTLQDARDANMNMLRMWGGGHYQDDRFYEIADELGIMIWQDFMFGGAIPPYDVAFRENTRVEAIEQVKRLRDHPSIVLWCGNNEVQTGWENWGSSEDFRKGLDPKEVRRIEQGMTTLFGSVLREAVDIYSPQTPYWATSPGTDFDGGADLTDDGDMHYWAVWGGPANPVTEYLNVTPRFMSEYGLQSFPEMRTVRDFAGNGPLSLDMPAVANHQKWDKGRGNQRLLIYIRREFGEPKDFASFVYLSQLMQAEGIEIAASHHRASMPRTMGTLFWQLNDVWPVASWSSVDYYGRWKALQYRAKHFYAPQAVTALRDPSGSTSVALVSDSTTPIDARLRTRLIDVDGKTLSDHQQQVTLKPLASTAIGTFSDKQLLDGADPKRSVAVFELFDGGKLLSRSIVYFDAAKKLALPLPKIDAQLAPTANGYTLTLSSPVLAREVWASFGDLDVQLSDNAVSLLPGEPTVLQLSSKASLEQLRAALQLRDVASTMAGAPAEPKEAR	PGPT0018765_277	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-MANNOSIDASE,PGPT0018765-manB-K01192	NA	NA
BMS020_06466	2625	xyl3A_1	COG1472	Xylan 1,4-beta-xylosidase	ATGAGGGCCGCCCTAGCACTTGCCCTACTCACCGCCTCCATCACCTCCGCCTCGGCCGACGAGGCCAGCGACCGCGCGACCAAACTGGTCGCGCAGATGAGCCGGGAGGAAAAGATCGCGCAGGTGATGAACGACGCCCCGGCGATTCCGCGCCTCGGCGTGCCGGCCTACGAATGGTGGAGCGAGGGCCTGCACGGCATCGCCCGCAACGGCCATGCGACAGTGTTCCCACAGGCGATCGGCCTGGCCGCGAGCTGGAATCCGCAGCTGCTGCACGAGGTTGGTAACGTCACCTCGACCGAGGCGCGCGCCAAGTTCAACCTCGCCGGCGGTCCCGGCCACGACCACCCACGTTACGCCGGGCTGACGATCTGGTCGCCGAACATCAACATCTTCCGCGATCCGCGCTGGGGCCGTGGCATGGAAACCTATGGCGAGGATCCCTACCTCACCGGCAGGCTCGCAGTCGGTTTCATCGAAGGCCTGCAGGGCGACGATCCGGAGCATCCGCGCACGATCGCCACGCCCAAGCACCTGGTCGCGCACAGTGGCCCGGAACCGGGCCGGCATGGCTTCGATGCCGACGTCTCGCCGCACGATCTGGAAGACACCTACCTGCCGGCGTTCCGCGCGGCGATCGTCGAGGGCCGCGCGCAGTCGGTGATGTGCGCCTACAACGCGCTGCACGGCACGCCGGTGTGCGCCGCCGACTGGCTGCTCAACGGTATCGTGCGCCGCGACTGGGGCTTCACCGGCTATGTCGTCTCCGACTGCGACGCACTCGACGACATGACCCACTTCCACTACTTCCGTCCCGACAACGCCGGCACCTCGGCGGCGGCGCTGAAGGCCGGCCACGATCTCAACTGCGGGTTCGCCTACCGCGGCCTCGGCAAGGCCCTGGCCGATGGCGACGCCGACGAGGCGCTGCTCGACCAGTCGCTGGTGCGGCTGTTCTCCGCGCGCTACCGGCTCGGCGAACTGGACCCGAAGGCACGCGATCCGTACGCCAAACTCGGCGCGCGCGACATCGACAATGCCGCGCACCGCAAGCTCGCGCTCGACGCCGCACTGCAGTCGATCGTGCTGCTGAAGAACGATCACGCCACGCTGCCGTTGCAGGCCGGTACCAGGCTGGCGGTGGTCGGCCCGAACGCCGATTCGCTGGTTGCGCTGGAAGCCAACTACCAGGGCACCTCGTCGGCGCCGGTGACGCCACTGCTGGGTCTGCGCGCGCGCTTCGGTGCGACGGCGGTCCACTATGCGCAGGGCGCGCCGCTCGCTGCCGGGGTCCCGGTCAGCGTGCCGGAAAGCGCGCTGCGCAGCGACGGCAAGCCCGGCCTGAAGGCCGAATACTTCGCCAACCTTGACCTCGCCGGCAAGCCCGCGCTGGTGCGCCAGGACCGCAATGTCGAGTTCAACTGGGATCACGTCGCCCCGGCCAAGGGCCTGGACAAGGATCGCTATTCGGTGCGCTGGAGCGGCGAGCTGCTGCCGCCTGGACCCGGCGACTACACGCTGGCGGTGCGGGTAGCGCGCTGCTTCGACTGCAGCGGCCACGATCCGGTGCGGCTGTATCTGGACGACCAGCTGGTGATCGCCGGCAACGCCGAGGACAAGCACGTCGCCGCCGGTGTGCACAACGCCGATGGCCGCAACGTCGAGGCGACGCTGCACTTCGCCGACACCCAACCGCACAGGCTGCGCCTGGAGATCGAACATCGTGGCCAGGACCAGGGCCTGCGGCTGCAATGGATCGCCCCGGCCGACGCACAGCTGGCGCAGGTCGAGCAGGCGGTCGCGCAGTCCGATGCGGTGGTCGCCGTGGTCGGGCTGTCGCCGGATGTCGAAGGCGAGGAACTGCAGGTCGACGTGCCCGGCTTCGATGGTGGCGACCGCACCGAGATCGGCCTGCCGGCCGCGCAGCAGGCGCTGCTCGAACGCGCCAAGGCCAGTGGCAAGCCGCTGGTGGTGGTGCTGATGAGCGGCAGCGCGGTGGCGATCAACTGGGCGCAGCAGCATGCCGATGCGATCATCGCCGCGTGGTACCCGGGCCAGTCCGGCGGCACCGCGATCGCCCAGGTGCTGGCCGGCGACTACAACCCGGCCGGCCGCCTGCCGGTGACGTTCTACCACTCCACCCGCGGGCTGCCGCCGTACATCAGCTACGACACCAAGGGCCGCACCTACCGCTACTTCAGCGGCACGCCGCTGTATCCGTTCGGCTACGGCCTGAGCTACACGACGTTCGGCTACGACGCGCCGACGCTGTCGAGCACCAGGCTGCAGGCCGGCGCCACGCTCGATGTCACCGCCCACGTGCGCAACACCGGTGCACGTGCCGGCGATGAGGTCGTGCAGGTCTATCTCGAACACCCGCAGCGTGCCGGCGTGCCATCGCGCAACCTGGTCGGCCTGCAGCGGGTGACGCTGCAGCCGGGCGAGTCGCGCGAGCTGCATTTCGCGCTCGATCCGCGCCGGCTCAGCGAGGTCGCGCGCGACGGCAGCCGTGCGGTGGAAGCCGGCGACTACCGCGTGTTCGTCGGCGGTGGCCAGCCCGGCACCGCTGCCGCCGGCGAAACCGCCGCGTTCTCGATCGAGGGCCGCGCTGCGCTGCCGAAGTAA	MRAALALALLTASITSASADEASDRATKLVAQMSREEKIAQVMNDAPAIPRLGVPAYEWWSEGLHGIARNGHATVFPQAIGLAASWNPQLLHEVGNVTSTEARAKFNLAGGPGHDHPRYAGLTIWSPNINIFRDPRWGRGMETYGEDPYLTGRLAVGFIEGLQGDDPEHPRTIATPKHLVAHSGPEPGRHGFDADVSPHDLEDTYLPAFRAAIVEGRAQSVMCAYNALHGTPVCAADWLLNGIVRRDWGFTGYVVSDCDALDDMTHFHYFRPDNAGTSAAALKAGHDLNCGFAYRGLGKALADGDADEALLDQSLVRLFSARYRLGELDPKARDPYAKLGARDIDNAAHRKLALDAALQSIVLLKNDHATLPLQAGTRLAVVGPNADSLVALEANYQGTSSAPVTPLLGLRARFGATAVHYAQGAPLAAGVPVSVPESALRSDGKPGLKAEYFANLDLAGKPALVRQDRNVEFNWDHVAPAKGLDKDRYSVRWSGELLPPGPGDYTLAVRVARCFDCSGHDPVRLYLDDQLVIAGNAEDKHVAAGVHNADGRNVEATLHFADTQPHRLRLEIEHRGQDQGLRLQWIAPADAQLAQVEQAVAQSDAVVAVVGLSPDVEGEELQVDVPGFDGGDRTEIGLPAAQQALLERAKASGKPLVVVLMSGSAVAINWAQQHADAIIAAWYPGQSGGTAIAQVLAGDYNPAGRLPVTFYHSTRGLPPYISYDTKGRTYRYFSGTPLYPFGYGLSYTTFGYDAPTLSSTRLQAGATLDVTAHVRNTGARAGDEVVQVYLEHPQRAGVPSRNLVGLQRVTLQPGESRELHFALDPRRLSEVARDGSRAVEAGDYRVFVGGGQPGTAAAGETAAFSIEGRAALPK	PGPT0019110_723	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
BMS020_06467	1446			hypothetical protein	ATGCCAACCCGTCGCGACATCCTGCAACTGCTCGGCACCAGTGCCGGCGCCGGCCTGATGGCCTCCGCCCTGCCCGGCTGGGCCGCATCGGCGGCCAACGCGCCCGGCACGCTGGCCAGCCAGCGCCCGGCAGTGGGCAAGCGCCGCTTCACCAGCGCCGCGGTCGAAAAGCAGCTGCGCACGATCAAGGCCGGGATCGGCGATCCGCAACTGGCCTGGCTGTTCGAGAACTGCTATCCGAACACCCTCGACACCACGGTGGAGACCGGCACGCTCAACGGCAAGCCCGACACCTTCGTGATCACCGGCGACATCGAGGCGATGTGGCTGCGTGATTCCTCCGCGCAGGTGCATCCGTACATCCCGCTAGCGCGCCAGGACAAGGCGCTGCAGCGGATGTTCCATGGCCTGATCCAGCGCCAGGCCGCGTGCATCCGGCTCGACCCCTACGCCAATGCGTTCCTGCCCGATCCGCACGGCCAACGACTGAAATGGGCGGTCGCCGACGACACCGAGATGAAGCCCGGCGTCGGCGAGCGCAAGTGGGAGATCGACTCGCTGTGCTATCCGATCCGGCTCGCGCATGAGTACTGGCGTGCGACCGGCGACAGTGCGCCGTTCGACGACGACTGGCGCGCGGCGATGCAGCTGGTGGTCAAGACCTTCCGCGAACAGCAGCGCAAGCACGGCCCCGGCCCGTACCACTTCCAGCGGCCATCGCCGATCCCGACCGAAACCCAGTTCCTCGGCGGCTACGGCAACCCGACCAAGCCGAACGGGATGATCCACTCGATGTTCCGGCCGTCCGACGATGCCTGCCTGTACCCGCTGTTCGTCCCGGCCAACCTGTTCGCGGTCACGGTGCTGCGCCAGCTTGCGACGATGAGCGAGGCGATCCATCACGATGCCGTCTTCGCCGCCGAGTGCCATGCGCTTGCCGACGAAGTCGAACAGGCCACGCGCGCGTTCGGCCTGCAGCGCGATGCCGATGGCAGCAGCCACTGGGCCTACGAGGTCGACGGCTACGGCAACCAGCTGTTCATCGACGACGCCAACGCGCCAGGCCTGCTGAGCCTGGCCTACCTGGGCTGCTGCGACCGCAACGACCCGGTGTTCCGTCGCACCCGCGCGCTGGTCTGGAGCGAGAGCAATCCGTACTTCTTCAAGGGCCGCGCCGCCGAAGGCATCGGTGGCCCGCACGAGGGGCTGCGAATGATCTGGCCGATGTCGATCATCATGTACGCGCTCAGCAGCGACGACGACGCACAGATCCGCCAGTGCCTGCAGTGGCTGAAGACCACCGATAACGGCACCGGTTTCATGCACGAGGCCTTCGACCAGGACGACCCGTCGCATTTCACCCGCAGCTGGTTCGCCTGGGCCAACACCTTGTTCGGCGAACTCATCATCGACCTGCACCAGCGCAAGCCGCACCTGCTGCGCTGA	MPTRRDILQLLGTSAGAGLMASALPGWAASAANAPGTLASQRPAVGKRRFTSAAVEKQLRTIKAGIGDPQLAWLFENCYPNTLDTTVETGTLNGKPDTFVITGDIEAMWLRDSSAQVHPYIPLARQDKALQRMFHGLIQRQAACIRLDPYANAFLPDPHGQRLKWAVADDTEMKPGVGERKWEIDSLCYPIRLAHEYWRATGDSAPFDDDWRAAMQLVVKTFREQQRKHGPGPYHFQRPSPIPTETQFLGGYGNPTKPNGMIHSMFRPSDDACLYPLFVPANLFAVTVLRQLATMSEAIHHDAVFAAECHALADEVEQATRAFGLQRDADGSSHWAYEVDGYGNQLFIDDANAPGLLSLAYLGCCDRNDPVFRRTRALVWSESNPYFFKGRAAEGIGGPHEGLRMIWPMSIIMYALSSDDDAQIRQCLQWLKTTDNGTGFMHEAFDQDDPSHFTRSWFAWANTLFGELIIDLHQRKPHLLR				NA	NA	NA	NA	NA
BMS020_06468	2343			hypothetical protein	ATGACGACACGACGTGGTTTCCTGCAGGGCGCGATCGCCCTGGCTCTGCTGAGCAGCACCGGTCTGTCCGGCCTCGCCCGCGCCCGCGCCGGCAACTACGCGCTGCCCGCCGACAGCCGCGTGGATCCGGACCTGACCCGCCACGTCGACGTGTTCAACGGCACCGGCGGCCACGGCCATGTGTTCCCGGGCGCGTCGCTGCCGTTCGGCATGGTCCAGCTCAGCCCCGACACCTACAACGCGGTGTGGGACTCGTGCGGCGGCTACCACGAGTCCAACCACTCGATCATGGGCTTCTCGCACACCCACCTGTCGGGCACCGGCATCGGCGACATGCTCGACTTCATGGTGATGCCGTCGACCGGCCCGGTGCAGCTGCTGCCCGGCTCGCTGGAGGATCCGGACAGCGGCTACCGCCAGCGCTACGACCATGACGACGAATCTGCATCGCCCGGCTATTACCGCGTGCGTTTGAAAGACGACAACATCCACGCCGAGCTGACCGCGACCACCCGCGCCGGCCTGCATCGCTACCACTTCCCGAAGGACAGCGCCGGCCACCTGCTGCTGGACCTGTTCCATGGGATGCAGGACAACCCGCATACCCCATCGCGGGTCAGCGATGCGACGCTGAAGGTCGTCGACAACCAGACCTTGATGGGTGGCCGCCGCGTCCACGAATGGGCGTCGGGCCGCTACATCCATTTCGCGATGCGGCTGTCGCGGCCGTTCGCCAGCGCCCAGCTGTACAGCGACGACCAGCCGCTGGCCGCGGACGCGCGCAGCGCCGCCGGCAGCTGCCTGAAGGCCGCGCTGCACTATCCCGATGCCAGCAGCGCACCACTGCTGGTCAAGGTCGGCGTGTCGGCGGTCAGCGCCGAGAACGCGCTGGCCAACCTCGATGCCGAACTGCCCGACTTCGATTTCGCCCGCGTCCACGCCGACGCGGTCAAGGCCTGGGAGAAGGAACTCGGCCGCATCCGCATCACCACCGATGACGACGCGCATCGCCGGGTGTTCTACACCAGCCTGTACCACACGCTGATGGCGCCGACCTTGTTCAGCGACGTCGATGGCCGCTACCGCGGCATGGACCTCAAGGTCCACCAGCTGCCCGCCGGCCAGCACAACTACAGCACCTATTCGCTGTGGGACACCTACCGTGCGCTGCATCCGTTGCTGACCCTGGTCCAGCCCGAGCGCGTGCCCGACCTGCTGCAGTGCCTGGTGCGCGGCAATGCACAGTCGCCGGCCGGCGTGGCGATCTGGCCGCTGCAGGGCGTGGAGACCGACTGCATGATCGGCTACCACTCGGCGGTGGTGCTGGCCGAGGCGCACGCCAAGGGCTTCACCGGCATCGACTACGCCGCCGCATGGCCGCAGTACCGCAAGCGTGCGATGCAGGATGACGTGCACGGCCTGGCCTACTACCGCGAGCTCGGCTACATCCCCTGCGACAAGGTCGATGAAGCAGTCAGCCGCACGCTGGAATTCGCCTACGACGACTGGGCCGTGGCGCACCTGGCCGAGGCCGCCGGCGCGCATGCCGATGCACGCAAGCTGCGCGAACGTTCGCGCAACTACCGCAACGTGTTCAACCGCGACAGCGGCTTCATGCAGCCGCGCGCGCAGGATGGCAGCTGGGCGACGCCGTTCGACCCGCGCGCGATGGGCCACAGCAAGAAGTGGCGCGACTTCACTGAATCCAACGCGTGGCAGGCGACGTTCCTCAACCAGCACGACATCTACGGCTACATGGCGTTGTTCGGCGGCCACGACCAGTTCGTCGCCAAGCTCGACGAGCTGTTCACCACCAGCTCGGAGCTGCCCGCCGACGCACCGCCGGACATCGACGGCATGGTCGGCCAGTACGCGCATGGCAACGAGCCCAGCCACCACGTCGCCTACCTGTATGCCTACGCCGGCCAGCCGTACAAGACCCAGGCGATGGTGCGACGGCTGCTCATCGAGCAGTATCACGATGCGCGCAACGGGCTGTCCGGCAACGAGGACTGCGGGCAGATGAGTGCCTGGTTCGTGCTCAGCGCACTGGGCCTGTACGCGGTCGATCCGGTCAGCGGCAACTACGTGATCGGCAGCCCGCTGTTCGACGCGGCCACGCTCGACGTCGGCCACGGCAAAACCCTGCGCATCGTCGCCAGCAACAACAGCGGCAAGAACGTCTACGTGCAGTCGCTGCGCTGGAACGGCCAGCCGCTGACCCGCAGCTGGATCGCGCACAAGGACGTCGCCGCCGGCGGCACGCTGGAATTCGTGATGGGGCCGGAACCGAACACCGCGTTCGGCGCCGCCAAGGCAGACCTGCCGCCGTCGTTCGCCTGA	MTTRRGFLQGAIALALLSSTGLSGLARARAGNYALPADSRVDPDLTRHVDVFNGTGGHGHVFPGASLPFGMVQLSPDTYNAVWDSCGGYHESNHSIMGFSHTHLSGTGIGDMLDFMVMPSTGPVQLLPGSLEDPDSGYRQRYDHDDESASPGYYRVRLKDDNIHAELTATTRAGLHRYHFPKDSAGHLLLDLFHGMQDNPHTPSRVSDATLKVVDNQTLMGGRRVHEWASGRYIHFAMRLSRPFASAQLYSDDQPLAADARSAAGSCLKAALHYPDASSAPLLVKVGVSAVSAENALANLDAELPDFDFARVHADAVKAWEKELGRIRITTDDDAHRRVFYTSLYHTLMAPTLFSDVDGRYRGMDLKVHQLPAGQHNYSTYSLWDTYRALHPLLTLVQPERVPDLLQCLVRGNAQSPAGVAIWPLQGVETDCMIGYHSAVVLAEAHAKGFTGIDYAAAWPQYRKRAMQDDVHGLAYYRELGYIPCDKVDEAVSRTLEFAYDDWAVAHLAEAAGAHADARKLRERSRNYRNVFNRDSGFMQPRAQDGSWATPFDPRAMGHSKKWRDFTESNAWQATFLNQHDIYGYMALFGGHDQFVAKLDELFTTSSELPADAPPDIDGMVGQYAHGNEPSHHVAYLYAYAGQPYKTQAMVRRLLIEQYHDARNGLSGNEDCGQMSAWFVLSALGLYAVDPVSGNYVIGSPLFDAATLDVGHGKTLRIVASNNSGKNVYVQSLRWNGQPLTRSWIAHKDVAAGGTLEFVMGPEPNTAFGAAKADLPPSFA				NA	NA	NA	NA	NA
BMS020_06469	1845	bga		Beta-galactosidase	ATGTCGCGCAGGATCGTCGCCCGTCTCGCCCTCACCTTCGCCCTTGCCATCCCGCTTGCCGCGATCGCCGCGCCGCCCGCGTGGCCGGTGTTGTCGACCCAGGGCCAGCAGTTCACCCGTGACGGCAAGCCGTACCAGATCATCTCCGGCGCGATCCATTTCCAGCGCATTCCGCGCGCCTACTGGCACGACCGTCTGCTGAAAGCGCGCGCGCTCGGCCTGAACACCGTCGAGACCTACGTGTTCTGGAACGCGATCGAACCGACCCCGGGCCAGTTCGATTTCAGCGGCGACAACGACGTCGCCGCGTTCGTCCGCGAGGCCGCCGCGCTCGGCCTCAACGTGATCCTGCGCCCGGGCCCGTATGCCTGCGCCGAGTGGGAAGCCGGCGGCTATCCGGCGTGGCTGTTCAAGGACCCGACGCTGCGCGTGCGCAGCCGCGATCCGCGCTTCCTCGCCGCCGCACAACGCTATCTCGACGCGCTCGCCGCGCAGGTCACGCCGCTGCTCAACGGCAACGGCGGGCCGATCATCGCGGTGCAGATCGAGAACGAATACGGCTCCTACGGCAACGACCACGCCTACATGCAGGCCAGCCGCCAGATGCTGGTCGACGCCGGCTTCGACAAGGCGCTGCTGTTCACCGCCGACGGCGCCGACATGCTCGCCAACGGCACCCTGCCTGACACCCTGGCGGTGGTGAACTTCGCCCCGGGCGAAGCGCGCAGCGCGTTCGACAAGCTCACCAAATTCCGTCCCGATGCGCCGCAGATGGCCGGCGAATACTGGGCCGGCTGGTTCGACCAGTGGGGCGAGAAACACGCCAGCACCAACGCCCAGCAGCAGACCGAGGAACTGGACTGGATGCTGCGCCAGGGGCATTCGGTGAACCTGTACATGTTCGTTGGCGGGACCAGCTTCGGCTTCATGAACGGTGCGAACTGGCAGTCCGGCCCGGCCGACCATTACGCCCCGCAGACCACCAGCTACGACTACGACGCGGTACTCGACGAAGCCGGTCGCCCGACCGCGAAGTTCGCCGCGATGCGCGAGGTGATCGCCAAGGCCACCGGTATCACGCCACCGGCACTGCCCAAACCCATTGCGTTCGCGACGCTGCCGCAGGTGACGCTGCGCGAGTCCGCCTCGCTGTGGGACAACCTGCCCGCGCCCCGCCACAGCGAGGACCCGCAGCCGATGGAGCAGTACGACCAGGGCTACGGCTACATCCTCTATCGCACCACGATCCAGGGGCCGCGCAAGGGCGCGCTATACCTGGGCGACGTGCGCGACTACGCACGCGTCTATGTCGACCGCCATGACGTCGGCAGCGTCGACCGGCGGCTCAAGCAGCTCTCGCTCGACATCGACGTGCCCGCCGGCCCCCACACCCTCGACGTGCTGGTCGAGAACACCGGCCGGATCAACTATGGCGCGCATCTGGCCGACGGCCGCGCCGGGCTGGTCGATCCGGTCTTCCTCGCCGGCCAGCCGCTCAAAGATTGGGATGTGTTCCCGCTGCCAATGCGTGATCCCGCTGCGATCCACGGCTGGACCAATGCCGCGGTGCAGGGCCCGGCGTTCCATCGCGGCACGCTGCGCATCACGCATCCGGCCGACACCTATCTGGACATGCGCGCGTTCGGCAAGGGCTTCGCCTGGGCCAACGGCCACAACCTCGGCCGGGTCTGGAACATCCCGCCGCAGCGCTCGCTGTATTTCCCGGCGCCGTGGCAGGCCAAGGGCGACAACACGCTGGTCGTGTTCGACCTCGACACGCCAAGCGCGCCCAGCGTAGCCGGGCTGACCGAGCCGGTCTGGATCACCACGCAGGACGCACCATGA	MSRRIVARLALTFALAIPLAAIAAPPAWPVLSTQGQQFTRDGKPYQIISGAIHFQRIPRAYWHDRLLKARALGLNTVETYVFWNAIEPTPGQFDFSGDNDVAAFVREAAALGLNVILRPGPYACAEWEAGGYPAWLFKDPTLRVRSRDPRFLAAAQRYLDALAAQVTPLLNGNGGPIIAVQIENEYGSYGNDHAYMQASRQMLVDAGFDKALLFTADGADMLANGTLPDTLAVVNFAPGEARSAFDKLTKFRPDAPQMAGEYWAGWFDQWGEKHASTNAQQQTEELDWMLRQGHSVNLYMFVGGTSFGFMNGANWQSGPADHYAPQTTSYDYDAVLDEAGRPTAKFAAMREVIAKATGITPPALPKPIAFATLPQVTLRESASLWDNLPAPRHSEDPQPMEQYDQGYGYILYRTTIQGPRKGALYLGDVRDYARVYVDRHDVGSVDRRLKQLSLDIDVPAGPHTLDVLVENTGRINYGAHLADGRAGLVDPVFLAGQPLKDWDVFPLPMRDPAAIHGWTNAAVQGPAFHRGTLRITHPADTYLDMRAFGKGFAWANGHNLGRVWNIPPQRSLYFPAPWQAKGDNTLVVFDLDTPSAPSVAGLTEPVWITTQDAP	PGPT0017815_2070	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308	NA	NA
BMS020_06470	2199			hypothetical protein	ATGAGCTTCGCCACGCGTGCATCCAGCCATGCGCAGCGCTGGCTGGCCGCACTGATGCTGTGCGCCGGCAGCGCGCTGGCGCAGGACACACCACCGAAGCTGATCTTCCAGACCGAGCAGGGCTGGTCGCCGCGGGTCAACGTCGGCGCCGACATGGTGCTGGCCTACGGCCTGGACGACAGCCTCGCCACCCGCATCGCCGACTGGCGCGCGCACGGTTACCGGGTCGGCTTCATGACCGGGGTTTCCTGGGGCCACTACCCGGACTATCTCGACGGCCGCTTCGACGGCGCCACCCACTGGCAGGAAACCCAGCAGGCCAGCGGCGGCGAGCTGCTGCTGCACACCGGACGCGACACGCCCTACCTGGTGCCGACCACCAGCTACCAGCGCTATCTCGATGCCGGCATCGTCCGCGCGCTCGAGGCCGGCGCCGATGCGGTGTACCTGGAGGAACCGGAATTCTGGGCGCGCGCCGGCTGGTCCGACGCGTTCAAGCAGGCCTGGAGCGCGTACTACAACGCGCCGTGGCAACCACCGGACAGCTCGGTGCAGGCGCAGTACATGGCTTCGCGGCTGAAGGCGCTGCTGTATCGCGAGGTGATCGCCAGCGCCTGCGCCACCGTGCACGACTGGGCGCGCGCGCACCAGCGGCAGGTCCCGTGCAACGTCGCCACCCATTCGCTGCTGAACTACGCGCAGTGGCAGATCGTCTCGCCGGAGAACGACTTGCTGTCGCTCGATATCGATGGCTTCATCGGCCAGGTCTGGACCGGCACCGCACGCGCGCCGAACGTCTACCGCGGCAAGCAGGACCAGCGCACCTTCGAGACGGCCTTCCTCGAATTCGGCGCGCTGCAGCGGCTGGCCGACGCGGCCGGCAAGCCGATCTGGATGCTCAGCGACCCGGTCGAGGACAACCCCAACCACAACTGGACCGATTACCAGACGAACTGGCAGGCGACCGTGGTCGCCTCGCTGCTGCACCCGGGCAGCGCACGCTACGAAATCCTGCCGTGGCCGAACCGGATCTTCGACCTGGATGCCGACTACCCGCTCGCCACCGGCGCACGCGCGACGATCCCGCGCGACTACCAGATCGTGCTGCAGACGGTCTTCGATGCACTCGGCCGGATGCCGGCGCAGGACGGCGCGCCGCCGGACTGGATGCACGCCGGCACCGCTGGCATCGGCGTGCTGACCAGCAATACGCTGATGTTCCAGCGCGCGCCGCCGAACGGCTCCGATCCATGGCTGGGCGATGTCCATGGCCTGGCGATGCCGCTGCTGATGCGCGGCATTCCGGTCACGCCGGTGCCGATGGAGGCCAGCTACCTCGGCCCGGCGCCGCAGCGCGCGTTCGCCAACTACCGCATGCTGCTGCTCAGCTACCACGGCCAGACCTCGCCATCGCCGGCGTTCGATCTGGCACTGGTCGACTGGGTGCGCCGCGGTGGCGCGCTGGTCGTGATCGATGACGACGGCAATCCGTATCGCGATGCCGCACCGCACGGCGCTGGCCTGCCACTGCCGGGCGCGACCCGCGCCCAGCTGTTCGCCGCACTTGGCCTGCCCGCCGATGCGCGCGGCACCCAGCGGGTTGGCGCCGGCGTGGTGGTCGCGCTGCATGCCGCGCCCGCGCTGCTCGCCCAGCAGGCCAGCGGCGCCGACACCGTGCTGCAGGCCACCCGCCAGGCGGCGACCGCGATCGGCCTGCACTGGTCCGAGTCGCCGGCGCTGGTGCTGCGGCGCGGTCCGTATGTGATCGCCGCCGGCCTCGATGATGGCGACCGCGAACACGCGACGACGACGCCCCTGCCCGGCCACTATATCGATCTGTTCGATCCTGCTCTGGCGCTGCGCACCGCACCGGCCATCGCCGCCGGAGAACACCGGCTGCTGCTCGACCTCGACCGGATCGATGTACAGCAGCCGACGCTGCTGGCCGCCAGCGGCCGCAGCGGCACGTTGCAGGTCGACGGTGCGAACGTGCGCTTCAGCCTGTCCGGCATCGCCGGCCGCGATGGCGACCACGCAGTCGCCGCGCTCGCGTTGCCGACGCCGCCGCATGCGGTACTGGTCGATGGCACGCCGCTGCCTGCCGATGCCTGGTCGTATGCCGACCGCCTGCTGCGGCTGCGCTTGCCGGCCAGCGCGCAACCGCTGTCGATCCAGATCGAGATCACCGCCGCGCACTGA	MSFATRASSHAQRWLAALMLCAGSALAQDTPPKLIFQTEQGWSPRVNVGADMVLAYGLDDSLATRIADWRAHGYRVGFMTGVSWGHYPDYLDGRFDGATHWQETQQASGGELLLHTGRDTPYLVPTTSYQRYLDAGIVRALEAGADAVYLEEPEFWARAGWSDAFKQAWSAYYNAPWQPPDSSVQAQYMASRLKALLYREVIASACATVHDWARAHQRQVPCNVATHSLLNYAQWQIVSPENDLLSLDIDGFIGQVWTGTARAPNVYRGKQDQRTFETAFLEFGALQRLADAAGKPIWMLSDPVEDNPNHNWTDYQTNWQATVVASLLHPGSARYEILPWPNRIFDLDADYPLATGARATIPRDYQIVLQTVFDALGRMPAQDGAPPDWMHAGTAGIGVLTSNTLMFQRAPPNGSDPWLGDVHGLAMPLLMRGIPVTPVPMEASYLGPAPQRAFANYRMLLLSYHGQTSPSPAFDLALVDWVRRGGALVVIDDDGNPYRDAAPHGAGLPLPGATRAQLFAALGLPADARGTQRVGAGVVVALHAAPALLAQQASGADTVLQATRQAATAIGLHWSESPALVLRRGPYVIAAGLDDGDREHATTTPLPGHYIDLFDPALALRTAPAIAAGEHRLLLDLDRIDVQQPTLLAASGRSGTLQVDGANVRFSLSGIAGRDGDHAVAALALPTPPHAVLVDGTPLPADAWSYADRLLRLRLPASAQPLSIQIEITAAH				NA	NA	NA	NA	NA
BMS020_06471	1380			hypothetical protein	ATGTCCAAGCGCCTGTTGTCCCCGCTGCGCCCACTCGCGTTGTGCCTGTTTGCCGCGTTCGCCGCGCCTGCGGTGCAGGCCGAGAACTTCGCCGAGGTGAAACCGTCGCCGCAGCAGAGCGCGTGGCAGGACCTGGAATTCGGCGTGATCGTGCACTTCGGCACCAACACCTTCCTCGACCGCGAGTGGGGCGACGGCACCGCCAGCCCGCAGGTGTTCAATCCCGACCGGGTCGATCCGGAGCAGTGGGCGAAGGCGGTCAAGGCGGCTGGCGCGAAGTACATGATCCTGGTCGCCAAGCACCATGACGGCTTCGCGCTGTGGCCCACCGCAGAGAGCGACTACTCGGTGAAGAACAGCCCGTGGCTGGGCGGCAAGGGCGACCTGGTCAAGATGACCGAGGACGCCACCCGCAAGCACGGCCTGGGCCTGGGCATCTACCTGTCGCCGTGGGACCGCCACGAGCCGAAGTACGCCGATCCGAAGGCCTACGACAAGTACTACGCCGCGCAGCTGGTCGAGCTGGCGCTGCACTACGGGCCGCTGACCGAATGGTGGCTGGACGGCGCCGGCAGCGCCGGCCATGTCTACAACTTCGACAAGTACATGGAGGAGCTGCGCACCTACCAGCCGAATGCGATGGTGTTCGCCGATACCGCGCTGTTCGAGTACGGCGACATCCGCTGGGTCGGCAACGAGGCCGGGCGCATCGAAGGCGAGAACTGGAACGTCATCGATCGCCATGGCTATCTGCGCTGGCGCCCGGTGGAGGTCGATACGCCGCTGCACAAGCTGCAGTGGTTCTGGCATCCCAACAGCGATGCGACGCTGAAGAGCGTCGACGAGCTGGTCGACATCTGGGAGCACAGCGTCGGCCTCGGCGGCCAGCTGGTGCTCGGCGTCGCGCCGAACCGCCACGGCCTGCTGCCCGATGCCGACGTCAAGCGGCTGAAGGAAATGGGCGAGGCGCTGCAGGCGCTGTACGGCCCGCAGCACAACCTGGCCGCGACCGGCCTGAAGAATGCCGATGCGGTCGGCGCGGCGACCGACAACGATCGCGACACGTTCTGGAGCGCGCCGGAAGGCTCGCGCCACGCGGTGCTGGAGCTGGAGTTCAAACAGCCGGTGACGTTCGACACCACGCTGGCGATGGAATGGCTCAACGATGGCCAGCACGTGCAGAACTACGCGATCGAGGTGATGCGCGATGGCCGCTGGGTGCGCGTCGCGCAGGCGCAGGCGATCGGCCACATGAAGATCGACCATTTCGCGCCGGTCACCGCTTCGAAGGTGCGCCTGAACATCCTGTCCAGCGTCGGCGCGGCGCAGATCCGCGAATTCCAGCTGTTCGACACCGGCAAGGGCGCGGTGGTGGACTGA	MSKRLLSPLRPLALCLFAAFAAPAVQAENFAEVKPSPQQSAWQDLEFGVIVHFGTNTFLDREWGDGTASPQVFNPDRVDPEQWAKAVKAAGAKYMILVAKHHDGFALWPTAESDYSVKNSPWLGGKGDLVKMTEDATRKHGLGLGIYLSPWDRHEPKYADPKAYDKYYAAQLVELALHYGPLTEWWLDGAGSAGHVYNFDKYMEELRTYQPNAMVFADTALFEYGDIRWVGNEAGRIEGENWNVIDRHGYLRWRPVEVDTPLHKLQWFWHPNSDATLKSVDELVDIWEHSVGLGGQLVLGVAPNRHGLLPDADVKRLKEMGEALQALYGPQHNLAATGLKNADAVGAATDNDRDTFWSAPEGSRHAVLELEFKQPVTFDTTLAMEWLNDGQHVQNYAIEVMRDGRWVRVAQAQAIGHMKIDHFAPVTASKVRLNILSSVGAAQIREFQLFDTGKGAVVD	PGPT0018775_2103	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018775-fucA-K01206	NA	NA
BMS020_06472	1065			hypothetical protein	ATGAACAACGCTCTCCTGCGCAGCTGCGCCGCCATGCTGGCCGCCCTGCTCCCGCTTGCACCCGCGGCCGCCGTCTCGCTGCCGGACTGGACCCCGGTGCTGCTCAACGAGTTCGTCAACGCCGATCCGCCGACCGCGCAATGCCACGCATCGACGCTGGTGGAGACCGCCGACGGCACGCTGCTGGCGGCCTGGTTCGGCGGCGACCACGAGGGCGCCGACGACGTCGGCATCTGGCTGGCACGCCGCGATGCCAACGGCTGGCGGCGCGCGGTGCGCATCGCCGATGGCAGCCAGGGCACGGGCAAGCCGGTACTGCCGGCATGGAACCCGGTGCTGTTCCAGCCGCGCGACGGCAACCTGCAGCTGTACTACAAGGTCGGACCGAATCCGCGCGCATGGTGGGGCATGGTGACCAGCTCCAGCGACGACGGCGCGCACTGGGCGCCGCCGCGACGGCTGCCCGATGGCATCCTCGGCCCGATCAAGAACAAGCCGATCCAGCTCGCCGACGGCACGATCCTGGCGCCGAGCAGCCGCGAGGACGACGGCTGGCGCGCGCATATCGAAACCAGCCACGATGACGGCGCGCACTGGCAGCGCAGCGCGGACCTCAACGACCCGACGCTGATCGGCGCGATCCAGCCCAGCCTGCTGCTGCATCGCGACGGCCGCCTGCAGGCGCTCGGCCGCACCCAGCAGAACCAGGTGTTCAGCGTGTTCTCCAACGACCAGGGCCGCAGCTGGGGCACGATGCAGCTGCTGGAGTTGCGCAATCCCAACTCCGGCACCGACGCGGTGATGCTGCGCGATGGCCGCGCGTTGCTGGTCTACAACCCGACGCTGTCGGGCAAGGACTGGTGGGACGGCCGCGGCACGCTGGCAGTAGCCCTGTCCGACGACGGCATGCACTGGAAGCAGGTGCTGACGCTGGAGCACTCACCGAAGGACGAGTTCTCCTATCCGGCGGTGATCCAGACCCGCGATGGTCTGGTCCACATCAGCTACACCTGGAAACGGCGGAAGATCCGCCACGTGGTGCTGGATCCGTCGCGGCTGCGCTGA	MNNALLRSCAAMLAALLPLAPAAAVSLPDWTPVLLNEFVNADPPTAQCHASTLVETADGTLLAAWFGGDHEGADDVGIWLARRDANGWRRAVRIADGSQGTGKPVLPAWNPVLFQPRDGNLQLYYKVGPNPRAWWGMVTSSSDDGAHWAPPRRLPDGILGPIKNKPIQLADGTILAPSSREDDGWRAHIETSHDDGAHWQRSADLNDPTLIGAIQPSLLLHRDGRLQALGRTQQNQVFSVFSNDQGRSWGTMQLLELRNPNSGTDAVMLRDGRALLVYNPTLSGKDWWDGRGTLAVALSDDGMHWKQVLTLEHSPKDEFSYPAVIQTRDGLVHISYTWKRRKIRHVVLDPSRLR	PGPT0018775_37	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018775-fucA-K01206	NA	NA
BMS020_06473	474			hypothetical protein	ATGAGTTACGCCACCAACGATGAAATCCGCGGCGTCCTGGTCCAGGTCGCGCAGGAGCGCGTGCTGCTGCCGAATGCGACGGTCGCCGAAGTGATGTCGCGCGTGCCGATCGAGCCGCTTGCCGACGCCCCGCGCTGGCTGGTCGGGCAGATCGCCTGGCAGGGCTGGAAGGTCCCGCTGCTGTCGTTCGCCCGCCTCAGCGGGCTGGGCGAGGAGCCGGCGGCGGTCAACAACAAGGTCATCGTGCTCAAGGCGCTGGGCGGCAATCCGGCGCTGCCGTACTTCGCGATGCTGACGGCCTCGTTCCCGCAGCTGATCTCGGTGCCGCGCGACGGTCTGCTCGCCGACGCGTCGGAAGAAACCCTGCCGCAGGGCGTGCACATGCGCGTGCTGCTGGGCGAGCAAAGCGCACTGCTGCCCGATCTGGAAACCATCGAGGCGACCCTGGTGCAGGCGTTGCCCGACGCCGCCTGA	MSYATNDEIRGVLVQVAQERVLLPNATVAEVMSRVPIEPLADAPRWLVGQIAWQGWKVPLLSFARLSGLGEEPAAVNNKVIVLKALGGNPALPYFAMLTASFPQLISVPRDGLLADASEETLPQGVHMRVLLGEQSALLPDLETIEATLVQALPDAA	PGPT0015795_104	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0015795-chpC-K06598	NA	NA
BMS020_06474	1260	cheB_3		Protein-glutamate methylesterase/protein-glutamine glutaminase	GTGTCCGCGAGTAACGGCATCGGCAAGCCGGTCGCCCTGCTGGGCCGGCCAGGTCCCGCCCGTGAGCGCCTGCGCGAGGTGCTGGCGATGGCGGGTGGCGAAGTGGTGCTCGAGGACGATCCGTCCGCGATCGATGCGCAGGCGCTGGCCGACGCGCATCCGGTCGCGGTGCTGGTGGCGCTCGAGCCGGCGATCGAGGAAGCGATCGAGGCGCTGCAGCCGGCGTTGACCGCGCCCGGCCTGACCGTGATCTACGACGAGGCCGAACTGGCCGCGCGTCGCGAAGGCTGGGATGCGCAGCGCTGGGCCCGCCATCTGGCGGCCAAGCTGCACGGTCACAACGACGTGCTGCCGCCGGGCGCGGAGATCGAACCGGTCTTCCAGCCCGAACCCGGCCTGCCGCCGACCCCGGCGCAGCTGCACTCCGGGCAGCCGCTGGCGCCGCACCTGGCCGCCGCGGCCGACGCGCTCGACGCGATGCCCGGCGATGCGCTGTTCGCCGCACCGGTCGCGCCACCGAGTGCCGCGCTGGAGCTGGTCGACGCGCCGTTCGTCGCAGTCGCGCCGCCGGCCGCCCCGGCCAAGGCCGAGAGCTTCGGCGACTCCAGCACCTGGGGTCTGGTCGACGAGGTCGAGGTGGTCGCCACGCGCCCGCGCGCCGAACCCGAGGCGCCCGAGCTGCCCTCGACCAGCGCGCTGTCGCTGGTCGCGCTGGACGATGAGTTGCCGAAGGTCGCCTCCGGTGCGGTGCTGGTGCTGGCCGGCATCGGTGGCCCGGATGCGATCCGCCGGCTGCTGTCGGCGCTGCCGGCGGACTTCCCGCGCGCGGTGCTGGTACGGATGGCGCTCGACGGTGGCCAGTACGGCAACCTGGTGCGGCAGATGGGGCGGATCTCGGCGCTGCCGGTCGAACTGAGCGAGACCGGCCTGCCGGTGCAGGGCGGGCGCGCCTACATTCTTTCCGATGGCGTCGCGGTGCAGGACGTCGACGGTGTGCTGACCTTCGTTGCCGGCGACGATGCCGGCGCGCTGGTATCGGCGCTGCCGGCGGCCGACAGCGCGGTGCTGATGCTGAGCGGTGCCGCCGAGGCGCTGGTCGGCGACGTGCTGGCGCTGGCCGCGCAGGGTGCTTGGGTCGCCGGGCAGTCCGCCGATGGCTGCTACGACCCGGCTGCGGCCTCGCGCCTGGCGCTGCAGGGCCAGACGACCGCCGACCCGGTGCAGCTGGCGCAGACGCTGGCGCAGCGCTGGCCGGCCTGA	MSASNGIGKPVALLGRPGPARERLREVLAMAGGEVVLEDDPSAIDAQALADAHPVAVLVALEPAIEEAIEALQPALTAPGLTVIYDEAELAARREGWDAQRWARHLAAKLHGHNDVLPPGAEIEPVFQPEPGLPPTPAQLHSGQPLAPHLAAAADALDAMPGDALFAAPVAPPSAALELVDAPFVAVAPPAAPAKAESFGDSSTWGLVDEVEVVATRPRAEPEAPELPSTSALSLVALDDELPKVASGAVLVLAGIGGPDAIRRLLSALPADFPRAVLVRMALDGGQYGNLVRQMGRISALPVELSETGLPVQGGRAYILSDGVAVQDVDGVLTFVAGDDAGALVSALPAADSAVLMLSGAAEALVGDVLALAAQGAWVAGQSADGCYDPAAASRLALQGQTTADPVQLAQTLAQRWPA	PGPT0015790_70	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM-TWITCHING_MOTILITY,PGPT0015790-chpB-K06597	NA	NA
BMS020_06475	6621	rcsC_14		Sensor histidine kinase RcsC	ATGAGCGCGCTCCGCGACGCGATGAGCCATGCCGCGCTGGGCTGGGTGAAGCCGGAACTCGACGAGACGCTGCGCCAGGCGCGCAACGAGATCGAGTTCTTCGCCGAGGAACCGAGCGATACCAGCCGGATGCGCTTCTGCGCCGGCTACCTGCACCAGGTGCAGGGTTCGCTGCGCATGCTGGAACTGTATGCGCCGGCGATGGTGGCCGAAGAGCTGGAGCAGCTGGCCAATGCGGTCCAGGCAGGCGAGGTCGCCGACCGCGACGAAGCCTGCGCGATGCTGATGCGCGGCACCGTGCTGCTGCCCGATTACCTGGAGCGCCTGCAGAACGGCCATCGCGACATCCCGATCGTGCTGCTGCCGCTGCTCAACGAGATCCGCTCGATCCGCGGCGAGCCCGGCTTGAGCGAGAGCGTGCTGTTCGCGTTCGATCCGGACGCCGGCAACGCCACCCAGCAGGAACTGGAACACGCCCGCGGCAGCCTCAGTGGCCGCAACCGCGAACTGCTCGACACGGTCGGCAACGCGGTCAAGGAAGAGCTGCTGCGGGTCAAGGACGCGCTCGACCTGCACCTGCGCACTGACGGCGACGCCGCCGAGCTGCAGACCCAGGTCACCGACCTCGGTCGTGTCGCCGACACCCTGGGCATGATGGGCCTGGGCGTGGCGCGCAACGTGGTGGTGCAGCAGCGCGACGCGCTGCGCCGCATCGTCGACGGCCAGCAGCAGGTCGATGAAGGCCTGTTGCTCGATATCGCCGGCGCGCTGCTCTACGTCGATGCCTCGCTCGACGACCAGGTCGCCAGCCTCGGCAGCGGCGCCGACGAGGACGCCAGCGCCAGTGCCAACGCTTCGGAAGTGCGCCGCACCGTCGAGGTGCTGGCGCACGAGGCGATCGCCAATTTCGCCGCCGCCCGTGAACATTTCGTCGCGTTCATCGAGACCAACTGGGACCACGGCCGCCTCACCGACGTGCCGCACCTGCTGGACGAAGTCGCCGGTGCGATGCGCATCCTCGACCTGCCGCAGCCGGCCGATTACCTGGAGGGCGTGCGCCGCTACGTGCAGCACGAGCTGATCGACAAGCAGCGCGTGCCCAGCGGGCGCCAGCTCGACACACTGGCCGATGCGATGGCCAGCCTGGAGTACTACCTGGAGGCGCTGCGCGAGCGTCGCCCCGGGCGCGAGGACATCCTCGACATCACCCGCAACAGCCTGGAAACCCTGCGTTACTGGCCGTTGCCGTCGGAATCGCCGGCGGCGCAGGACCCGGTCGCGGCGTCGCTGGCCGATGCCGGCGCGGTGGCGACGGCGACCTTCGGTGCCGGTGCCGGTGCTGCGGCACTGGCGGCGCTGAGCACTGCCCCGGCCCACGCGGAGGCGGCCGACGAGGTCGCCCCCGAGCCGATCGCGCCGACCTGGTCGATCGAGATCGAGCCGGCCGCCGTGCCGGTGGCGATGCCGGAGCTGGCGGTCGAGCCGGTGCTCGAACCCGCGTTCGACACCGCGCTGTCGTTCGATCCGGTCGCGGCCGAGCAGGACCCGTCCGTGCCCGTCGCCGACACCGCGTTCGCGCCGGTCGACCTGTCGGTCGATGGCGGCCAGGCCCCGGGCAACTGGTCGGCGTCGCTGAGCGCGTCGACACCGGCGTTCGGCAGTTTCGATCCGGTTGCCGCCGAGCAGCCTGCCAGCGATGCGGCCGAGGTCACCTACACCTTCGACGCCGGCAGCCTGGAAGGCAACGAGTCCGCGCCGCTGTCCTTCGAGGCGGATTCGCTCGCGGTCGAGGAGGTGGTCGAGCTGCCACCGGTGGCCGAGTTCGATGCGCCGATTGAACTGGTCGAGGCGGTCGAAGCCGCACCGGCCCCGGCCGACTGGTCGCTGGCGGACGACGCGGCGCAGGACGCCGGCGACGTCACCGACGCCGACGCCGCCATCACCTTCGAGGCGGGCGACGCACCTGCGTCGCTGCCGGAAGATGACGTGGCGGCGCAGGAGGCCGAGCGCGCAACGGCTTCGCCGCTGGCGCTCGACGCCGCACCCTTCGTCGAGGAAGCCATCATCCTGGAACCGGTCGCCGAGCCCGAGGCGCCAGTCGCGCAGGCCGACGCGCCGATCGTGCTCGAGGCGGACAGCGCGGCGCTGCCGCCGTTGCCGCCGATCGAGTTCGATACCGATACCGACGCCGATGACAGCATCGTGCTGGAGAGCGAGGCCGCGCCGGCCGCGCCCGACCTGGACAGCCCGTTCGTCGAATCGGCCGATGCCGACGCAGCCGCCGATCTCGATGTCGCGCCGTCGGCACCGTCCGGCGTGCACGAGGCGGTGATCGGCAAGATCGAGCTGGACGACGCGTCCGCGGCCTTCATGGCCGAGCTGGAAGCGGCTGCGGCCGGGTTCAATACGGATACGCCGGTCGTCGCCGAACCCGTCGCTGTCGAAGCGGCGCCGGTGGCGAGCGAGGTCGAATCGCTGCCCGGCGGATTCGAGGACGACGGCAACGAGATCGACAGCGATATCCGCGAGGTGTTCCTCGAGGAGTTCGACGAGGAACTGGTCAACCTGGGCCAGCTGCTGCCGATCTGGCGCGCTGCGCCCGACAGCATGGACAACCTGCGTCCGATCCGTCGCGTCTTCCACACGCTCAAGGGCAGTGGCCGGCTGGTCGGCGCACGGACCCTGGGTGAGTTCAGCTGGAAGATCGAGGGCATGCTCAACCGCGTGCTCGACGGCACCCGCCCGGCCAGTCCGGCGGTAGTGGCGATGGTCGAGCAGGCCTACGAGGTGCTGCCGCAGTTGAATGCCGCGCTGCGCGACGGCAGCCGCATCCAGGCCGACCTGCTGGCGATGCAGGCGATCGCCGACCGCGTCGGCAGTGGCGAGGACGCGTTCTACATCCCGTCGGCACCGGCGCAGTCGGAAGTGCCTGCGGTGCCGGTCGCGCCGGTCGTCGAGGCCGCGCCGGTCGCCGCTGCGGCGGTGGTGCTCGAGGGCACGCCGGCCTCGGTGGACAGCGTGCTGCGCGAGATTCTCGAGGCCGAGGTCGCGACCCACCTGGAAACCGTGCATGCCTGGCTGCAGGCCGCGCAGGGCGGCGACCAGCCGGTCACCGAAGCGCTGCTGCGCGCGGTGCATACGATGAGCGGTGCGTTCGCGATGACCGACGTGCCGGAGATCACCGCGGTCACCACGCCGGCGGAAAGCTACGCCAAGCGTGCGCTGGCGGCTGGCCTGCCGGCGACCCCGGAAGCGGTGGACGGCATCGCCGCCACTGCCGCGGCGATCGCCACCACGATCGCTGCGCTGCAGGGCGAGTCGCCGCGCATTCCGTCGTTCGCGGCATTGGCCGAGCGCCTGCGCGCGCTGGTGGCGACGCTGCCGGAAGCACAGTGGCCGCCGCAGCATCTGCTGGTCGAGGACGCGCCGGAGGCCATCGAGGCGCTGCCGGTCGAGGCCGCGGCCGAGCTCACCGGTGCCGACGACCTGGCGCCGTACCTGGACCCGAGCGCGCTGCTGCCAGCCGCGATCGCGCCGACCGCCGACCTGTTGCATGGCGCGACGCCGCCCGTGGCCGATGCGCCGCAGGCCGCGCCGGCCAGCGATGCGCCGTTCGCGCGCGATGCGATCCCGGTCGCCGATGCGGGCGACAGCGAGGTCGTCGCCTGGAGCGGCGACATCGAGGACGCGGTACTTGAACACGCGCCTGAGGCCGTGGTCGACGCCACTCCGGTCGAGGACCTGCCGGTCTTCGTCGAATCGGCCCCGGAGGACGTGGCGATCGCCGACGATGAGGACAGTCTGTCCATCGACGACGGCCTGGTGCTGGAGGATCTGGTGGCGACGCCGGCCGCCGACGACGCGGTGGTGATCGAAGCCACCGGCGCCGACGCGCTGGTCGCGCTCGAGGGTGAAGACGCAGACGACCTGGAGGCCGGCTTCGGCGAACTGTCGCTGGATGCCGAAGGCAATGCCGCCTTCACCGACCTGGATATGCCGGTGGCCGCCCTGTCCAAGGGCGAAGCCCCGGCCGACATCGCCGCGTTCGACGCGCCGCTTGGCCTGCAGGAGCTGGCCGAGGAGGTCGAGGAAGCCGCGATCGCGGCGACCTACGACGGCGCCAGCGACGCCGACCAGCCGCAGCAGGTCGACTACGTCGAAGAGGCCGTCACTGAAGAGGTGCTCGCCGAAGAGGTCACCGCCGAGGACGTCGTCGCCGTTGCCGCCGAGCCGGAAGCGCCGGCCGTGGCCGAGGCGGATCCGATCGACCGCGGCCCGCTGGACTTCAACGAACTGGACGCCGAGCTCGTCGACATCTTCGTCGAGGAAGGCAAGGATCTGCTCGACCATTGCGACGGCCTGATCGCCGGCATGCGCGAGACGCCGGACGACCGCGAGATCCTGATCGGCCTGCAGCGCGACCTGCACACGCTCAAGGGCGGTGCGCGCATGGCCGGCATCAACGCCATCGGCGACCTCGGCCACGGCATCGAATCGCTGCTGGAGGCGGTCGCGGCCAACCGCACCGAGATCGGCCGCGACGACGTGCGCCTGCTCGAGCGCGGCTTCGACCGACTGCATCGCCTGCTGGTGCTGACCGGCAACCACCGCGCGGTGGAGATGCCGGTGGACCTGGTCGAGGCCTTCGATGCCCGCACCCACGGCCGCACCGATGCGCCGGTGGCGCCGGAGCAGCCGATCGCCGCGCCGGCGCGCGCCAAGCCCGCCGCCGAACTGGTCGCGCCTGCGCCGCTGTCGGCGCCGGTGCCGGTCGAGGCGCAGGCGGAAGAGGACTTCCTGCCGCGTGCGCAGCAGGAACAGGTGCGCGTGCGCGCCGATCTGCTCGACCGCCTGGTCAACCACGCCGGCGAAGTGGCGATCTACCGCTCGCGCCTGGAACAGCAGCTCGGCGCCTTCCGCGGCGCGATGGGCGAACTGGACCGTACCAACGCGCGTCTGCGCGACCAGCTGCGCCGCCTCGATCTGGAGACCGAAGCGCAGATCGTCGCGCGCTACCAGCGCGAACAGGACCAGGGTGACACCACGTTCGATCCGCTGGAGCTGGACCGCTTCTCCACGCTGCAGCAGCTCAGCCGCGCGTTGAACGAATCGGCGGCCGACTTGGGTGGCCTGCAGGGCGTGCTCGACGATCTGGCCCGCCAGTACGACGGCCTGCTGCAGCAGCAGTCGCGCGTCAGCTCGGAACTGCAGGATGGCCTGATGCGTGCGCGCATGGTGCCGTTCGATGGCCTGGTGCCGCGTCTGCGTCGCGTGGTGCGGCAAGCGGCCGGCGAGACCGCCAAGCAGGTGCACCTGTCGCTGGAAGGCACCCACGGCGAACTCGACCGCAACGTGCTCGACCGCATGGTCGCGCCGCTTGAACACATGCTGCGCAACTCGGTGGCGCACGGTCTGGAACTGCCGGAAGCGCGCCGCGCCGCCGGCAAGCCCGAGGAAGGCACGATCGCGCTGCGGCTGCGCCGCGAAGGCTCGGAAATCGTGCTGGAGGTGTCCGACGACGGCGCCGGCCTCGACCGCGAGGCGATCCGCCGCCGTGGCGAGCAGCGCGGCCTGATCGCGCCGGGCGAGGTGCTCAGCGACGGCGAGCTGGACAACCTGATCTTCGCTTCCGGCTTCAGTACCTCCGAACAGGTCAGCCAGCTGGCTGGTCGCGGCGTCGGCATGGACGTGGTGCGCAACGAAGTGCGCCAGCTCGGCGGCTCGGTCGACATCCACTCGGTGCGCGGCCAGGGCACCACCTTCACCCTGCGCCTGCCGCAGACGCTGGCGGTGACCCAGGCGGTGTTCGTGCGCATCGGCGAGACCACCTTCGCGGTGCCGGTCGCCTCGGTCAGCGGCATCGGCCGCATCGGCCGCGAGCGCTACGGCGCCGGCGAGGGTGGTTACCACTACGCCGGCGAGGAGTACACGCTGCACGACCTCGGTTCGCTGGTCGGGCAGGGTGCCGCCACCGCCGACGGTGCCGCGCAGGTGCCGCTGCTGCTGGTGCGTGCCGGCGACCTGCGCGCCGCGGTGGCGATCGACCAGGTGCTCGGCAACCGCGAAATCGTGGTCAAGCCGGTCGGCCTGCAGATCGCCTCGGTGCCGGGTATCTACGGCGCGACGATCACCGGCGATGGCCGCGTGGTGGTCATCCTCGACGTCGCGCCGCTGGTGCGCCGTCACCTGACCCAGCCGACACGCCCGGCGGTCGAGATCCAGGCCGAATCCCAGCGGCATGCGCCGCTGGTGATGGTGGTCGACGACTCGCTGACGATGCGCAAGGTCACCGGCCGCGTGCTGGAACGCCACAACCTGGAGGTCGTGGTCGCGCGCGACGGCGTGGAAGCGCTGGAGCGGCTGGAGGAGCGCGTGCCGGACCTGATGCTGCTGGACATCGAAATGCCGCGCATGGACGGCTACGAGCTGGCCACGGCGATGCGTGCCGACCCGCGTTACAAGGATGTGCCGATCGTGATGATCACCTCGCGCAGTGGCGAAAAGCACCGCCAGCGCGCTTTCGAGATCGGCGTGCAGCGTTATCTGGGCAAGCCTTATCAAGAGTTGGATTTGATGCGAAACGTGTATGACCTGCTGGGGATCGCCCGTGTCCGCGAGTAA	MSALRDAMSHAALGWVKPELDETLRQARNEIEFFAEEPSDTSRMRFCAGYLHQVQGSLRMLELYAPAMVAEELEQLANAVQAGEVADRDEACAMLMRGTVLLPDYLERLQNGHRDIPIVLLPLLNEIRSIRGEPGLSESVLFAFDPDAGNATQQELEHARGSLSGRNRELLDTVGNAVKEELLRVKDALDLHLRTDGDAAELQTQVTDLGRVADTLGMMGLGVARNVVVQQRDALRRIVDGQQQVDEGLLLDIAGALLYVDASLDDQVASLGSGADEDASASANASEVRRTVEVLAHEAIANFAAAREHFVAFIETNWDHGRLTDVPHLLDEVAGAMRILDLPQPADYLEGVRRYVQHELIDKQRVPSGRQLDTLADAMASLEYYLEALRERRPGREDILDITRNSLETLRYWPLPSESPAAQDPVAASLADAGAVATATFGAGAGAAALAALSTAPAHAEAADEVAPEPIAPTWSIEIEPAAVPVAMPELAVEPVLEPAFDTALSFDPVAAEQDPSVPVADTAFAPVDLSVDGGQAPGNWSASLSASTPAFGSFDPVAAEQPASDAAEVTYTFDAGSLEGNESAPLSFEADSLAVEEVVELPPVAEFDAPIELVEAVEAAPAPADWSLADDAAQDAGDVTDADAAITFEAGDAPASLPEDDVAAQEAERATASPLALDAAPFVEEAIILEPVAEPEAPVAQADAPIVLEADSAALPPLPPIEFDTDTDADDSIVLESEAAPAAPDLDSPFVESADADAAADLDVAPSAPSGVHEAVIGKIELDDASAAFMAELEAAAAGFNTDTPVVAEPVAVEAAPVASEVESLPGGFEDDGNEIDSDIREVFLEEFDEELVNLGQLLPIWRAAPDSMDNLRPIRRVFHTLKGSGRLVGARTLGEFSWKIEGMLNRVLDGTRPASPAVVAMVEQAYEVLPQLNAALRDGSRIQADLLAMQAIADRVGSGEDAFYIPSAPAQSEVPAVPVAPVVEAAPVAAAAVVLEGTPASVDSVLREILEAEVATHLETVHAWLQAAQGGDQPVTEALLRAVHTMSGAFAMTDVPEITAVTTPAESYAKRALAAGLPATPEAVDGIAATAAAIATTIAALQGESPRIPSFAALAERLRALVATLPEAQWPPQHLLVEDAPEAIEALPVEAAAELTGADDLAPYLDPSALLPAAIAPTADLLHGATPPVADAPQAAPASDAPFARDAIPVADAGDSEVVAWSGDIEDAVLEHAPEAVVDATPVEDLPVFVESAPEDVAIADDEDSLSIDDGLVLEDLVATPAADDAVVIEATGADALVALEGEDADDLEAGFGELSLDAEGNAAFTDLDMPVAALSKGEAPADIAAFDAPLGLQELAEEVEEAAIAATYDGASDADQPQQVDYVEEAVTEEVLAEEVTAEDVVAVAAEPEAPAVAEADPIDRGPLDFNELDAELVDIFVEEGKDLLDHCDGLIAGMRETPDDREILIGLQRDLHTLKGGARMAGINAIGDLGHGIESLLEAVAANRTEIGRDDVRLLERGFDRLHRLLVLTGNHRAVEMPVDLVEAFDARTHGRTDAPVAPEQPIAAPARAKPAAELVAPAPLSAPVPVEAQAEEDFLPRAQQEQVRVRADLLDRLVNHAGEVAIYRSRLEQQLGAFRGAMGELDRTNARLRDQLRRLDLETEAQIVARYQREQDQGDTTFDPLELDRFSTLQQLSRALNESAADLGGLQGVLDDLARQYDGLLQQQSRVSSELQDGLMRARMVPFDGLVPRLRRVVRQAAGETAKQVHLSLEGTHGELDRNVLDRMVAPLEHMLRNSVAHGLELPEARRAAGKPEEGTIALRLRREGSEIVLEVSDDGAGLDREAIRRRGEQRGLIAPGEVLSDGELDNLIFASGFSTSEQVSQLAGRGVGMDVVRNEVRQLGGSVDIHSVRGQGTTFTLRLPQTLAVTQAVFVRIGETTFAVPVASVSGIGRIGRERYGAGEGGYHYAGEEYTLHDLGSLVGQGAATADGAAQVPLLLVRAGDLRAAVAIDQVLGNREIVVKPVGLQIASVPGIYGATITGDGRVVVILDVAPLVRRHLTQPTRPAVEIQAESQRHAPLVMVVDDSLTMRKVTGRVLERHNLEVVVARDGVEALERLEERVPDLMLLDIEMPRMDGYELATAMRADPRYKDVPIVMITSRSGEKHRQRAFEIGVQRYLGKPYQELDLMRNVYDLLGIARVRE	PGPT0015785_91	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0015785-chpA-K06596	NA	NA
BMS020_06476	2037			hypothetical protein	ATGAGTACCGCCCCGGACGCCACCAAGACCAACAAGCTGGGCAGCGTAAGCACCAGCTTCTGGCTGGGCCTGCTGGTCTTGTCGATGATCGTGTTCGGCGCCAACACCGGCGTGGCGACCTGGCAGGGCAGCCGCCTGGCCGGCGCCAGCACCGGCGCGGCCGACCTGCAGGTGTTGTCGCAGCAGCTGGCCAACCAGGGCCGTGAGGCGGTGGCCGGCGACGCCAAGGCGTTCGCTGCGTTCAAGGACACCAAGAGCCGCATCGACAGCACCGTCAGCGAGCTTGACGGCCGCTACGGCGGCGAAACCAGCGTTTCCAGCGCGATCCGCCAGCTGAAGTCGACCTGGGCGCCGCTGGGCAAGAGCGCCGACCAGGTGATCGCATCCGAGCCGGCGGTACTGGCGCTGGCCGGCAACGCCGACCGCTTCGCCGGCAACGTGCCGCAGCTGCAGGCGCAGCTGAACGAGGTCGTCCGCGCGATGACCGTCAGCGGCGCTCCGGCCGCGCAGATCTACAACACCCTGCAGCAGGTCGTGGTCGCCGGCACGATGGCGCGCCGGGTGACCGAAATCCGCGCCGGTGGCGCCGGCGCGGCCGCGTCGGGCGACGCGCTGGCGCGCGACTCGGTGGTGTTCACGCAGATGCTGGACGGCCTGCGCAACGGCAACGAGGAACTGGGCATCGCCCAGGTCAAGAATGCCGCGGCGCTGTCGGCGCTGGAGCAGTCGCAGGCGCAGTGGCTGAACATGAAGAAGGACGTGGACGCGATGCTGGCCAGCTCGCGCAACCTGTTCGCGGCGCAATCCTCGGCCGCGGCGATCACCGGCGGTTCGGCCAAGATGCTCGAGGACAGCAAGAAGCTGTTCGACGCGTTCTCGGCGTTCGGCTCGGTGCGCGACACCCGCCTGTTCCCGAACTTCTGGCTGGGCGTGGTGTCCGGTGCGCTGGCGTTGCTGTCGATCATCGGCTTCGTCTGGTCGACTGTGCGTGCGCGTTCGCGCGAGCAGGAAGTGCGCTACCAGACCCAGGTGGAGTTCAACTCGCGCAACCAGCAGGCGATCATGCGGCTGCTGGACGAAATCAGCTCGCTCGGTGAGGGCGACCTGACCGTGAAGGCCTCGGTGACCGAGGACATGACCGGCGCGATCGCGGACGCGATCAACTACGCGGTCGACGAGCTGCGCCACTTGGTGACCACGATCAACGACACCTCGGCCAAGGTCGCGGTGTCCGCGCAGGAAACCCAGGCTACCGCGATGCAGCTGGCCGAAGCGGCCGGCCACCAGGCCAACCAGATCACCACCGCCTCCGAGCGCATCAGCGAAATCGCCTCGAGCATCGAGCAGGTGTCGCGCAACTCCACCGAGTCGGCCGAAGTGGCGCAGCGCTCGGTGGTCATCGCCGCCGAGGGTGCCGGCGTGGTGCGCGAGACGATCCAGGGCATGGACCAGATTCGCGACCAGATCCAGGAAACCTCCAAGCGCATCAAGCGCCTGGGCGAATCCTCGCAGGAGATCGGCTCGATCGTGGAACTGATCAACGACATTTCCGAGCAGACCAACATCCTGGCGCTCAACGCCGCGGTGCAGGCGGCGTCGGCGGGCGAGGCCGGTCGCGGTTTCGCGGTCGTGGCCGACGAAGTGCAGCGCCTCGCGGAACGCACCTCGGGCGCGACCAAGCGCATCGAGGGCCTGGTGCAGGCGATTCAGGCCGATACCAACGAAGCGGTCAGCTCGATGGAGCAGACCACCTCCGAAGTGGTGTCCGGTGCGCGCCTGGCCGAGGACGCCGGTACCGCGCTGAGCGAGATCGAGCGCGTGTCCAACGCGCTGAACAACCTCATCAAGAGCATTTCGATCGCCGCGCACCAGCAGGCCGCGGCGGCGACCGACATCACCCAGACCATGGGCGTGATCCGCCAGATCACCGGCCAGACCTCGCAGGGCGCCGGCCAGACCGCCGATTCGATCGGCAATCTGGCGCAGTTGGCGGCGGACCTGCGCCGCTCGGTCGCAGACTTCAAGCTGCCGGCGTGA	MSTAPDATKTNKLGSVSTSFWLGLLVLSMIVFGANTGVATWQGSRLAGASTGAADLQVLSQQLANQGREAVAGDAKAFAAFKDTKSRIDSTVSELDGRYGGETSVSSAIRQLKSTWAPLGKSADQVIASEPAVLALAGNADRFAGNVPQLQAQLNEVVRAMTVSGAPAAQIYNTLQQVVVAGTMARRVTEIRAGGAGAAASGDALARDSVVFTQMLDGLRNGNEELGIAQVKNAAALSALEQSQAQWLNMKKDVDAMLASSRNLFAAQSSAAAITGGSAKMLEDSKKLFDAFSAFGSVRDTRLFPNFWLGVVSGALALLSIIGFVWSTVRARSREQEVRYQTQVEFNSRNQQAIMRLLDEISSLGEGDLTVKASVTEDMTGAIADAINYAVDELRHLVTTINDTSAKVAVSAQETQATAMQLAEAAGHQANQITTASERISEIASSIEQVSRNSTESAEVAQRSVVIAAEGAGVVRETIQGMDQIRDQIQETSKRIKRLGESSQEIGSIVELINDISEQTNILALNAAVQAASAGEAGRGFAVVADEVQRLAERTSGATKRIEGLVQAIQADTNEAVSSMEQTTSEVVSGARLAEDAGTALSEIERVSNALNNLIKSISIAAHQQAAAATDITQTMGVIRQITGQTSQGAGQTADSIGNLAQLAADLRRSVADFKLPA	PGPT0015850_541	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015850-pilJ-K02660	NA	NA
BMS020_06477	531			hypothetical protein	ATGCGTTCCCCGTTCGACATTCTCGAAGGCTACGAACAGCGCAGCCTGGCCCACGCGGTGCAGCTGCCGGAACGGCAGTTCGCGGCCGACATCTGGCGTGGCGTCGGCTATCGCGTCGGCACCCGCCGGCTGGTGTCCGACTTCCGCGAAGTGGTGGAAATCGTGCCGATGCCGCCGGTGACCCCGGTGCCGGGCGCGCAGCCATGGCTGCTGGGCGTGGGCAACCTGCGCGGCAACCTGTTCCCGGTGGTCGACCTGAAGCAGTTCATGGAAGGTCGTCGCACCGTGCTGCAGGAAGGCCAGCGGGTGCTGATCATGCGTCAGGCCGGCGGCGACGTCGCGCTGACCATCGATGAGCTCTACGGCCAGCGCAGCTTCGAGCTGGACAAGACGATCGCCCCCGGCGAGCTGGCCCAGGGCCGCTACGCCCACTTCATCGATCGCGCCTTCCGTACCGAGACGCAGGAATGGGGCGTGTTCTCGCTCGCACTGCTCTCGCGCACCCCTGAATTCCGGCAGGCCGCCGCCTGA	MRSPFDILEGYEQRSLAHAVQLPERQFAADIWRGVGYRVGTRRLVSDFREVVEIVPMPPVTPVPGAQPWLLGVGNLRGNLFPVVDLKQFMEGRRTVLQEGQRVLIMRQAGGDVALTIDELYGQRSFELDKTIAPGELAQGRYAHFIDRAFRTETQEWGVFSLALLSRTPEFRQAAA	PGPT0015845_328	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015845-pilI-K02659	NA	NA
BMS020_06478	363	afsQ1		Transcriptional regulatory protein AfsQ1	ATGGCTCGAATCTTGTTGATCGAAGACTCGCCGACCGACCGGGCGGTCTTCAGTCAATGGCTGGAAAAGGCCGGCCACCAGGTGGTGGCGACCGATAATGCCGAGGATGGCCTCGAGCTGATACGGGGGCAGTTGCCGGACCTGGTGCTGATGGACGTGGTCCTGCCGGGCATGAGTGGTTTTCAGGCCACCCGTGCGATGGCGCGCGACCAGGCCACCAAGCACATCCCGGTGCTGATCGTCAGCACCAAGGGCATGGAAACGGACAAGGCATGGGGGCTGCGCCAGGGCGCGGCCGATTACATCGTCAAACCGCCGCGCGAGGAGGATCTGATCGCGCGGATCAACGAACTGGTGGGTTGA	MARILLIEDSPTDRAVFSQWLEKAGHQVVATDNAEDGLELIRGQLPDLVLMDVVLPGMSGFQATRAMARDQATKHIPVLIVSTKGMETDKAWGLRQGAADYIVKPPREEDLIARINELVG	PGPT0015840_557	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015840-pilH-K02658	NA	NA
BMS020_06479	354	phoP_6	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein PhoP	ATGGTCATCGATGATTCGAAGACCATCCGCCGTACCGCGGAGACGCTGTTGAAGCGGGAAGGCTGCGAGGTCGTGACCGCGACCGACGGCTTCGAGGCGCTCGCCAAGATCGCCGACCAGCAACCGCAGATCATCTTCGTCGACATCATGATGCCGCGCCTGGATGGCTATCAGACCTGCGCGCTGATCAAGGGCAACCAGCTGTTCAAGGCGACGCCGGTGATCATGCTGTCGTCGAAGGACGGCCTGTTCGACAAGGCGCGGGGGCGCATCGTCGGTTCCGAGCAGTACCTGACCAAACCCTTCACCCGTGAAGAACTGCTGAGCGCGATCCGCACATACGTCAACGCCTGA	MVIDDSKTIRRTAETLLKREGCEVVTATDGFEALAKIADQQPQIIFVDIMMPRLDGYQTCALIKGNQLFKATPVIMLSSKDGLFDKARGRIVGSEQYLTKPFTREELLSAIRTYVNA	PGPT0015835_333	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015835-pilG-K02657	NA	NA
BMS020_06480	951	gshB_2	COG0189	Glutathione synthetase	ATGCCGTTCGACGTCATCGTGGTGATGGACCCCATCGCCAGCATCAAGATCGCCAAGGACACCACGTTCGCCATGCTGCTGGAAGCCCAGCGCCGCGGCCACCGCCTGCACTACGTGCGCCCCGGCGGGCTGGCCCTGCGTGGTGGCGAGGCCGTGGCCCAGCTCGCCCCGCTCACGGTGCGCGACGACAAGACCGGCTGGTACACGCTGGGCGAGTTCAGCGAACAGGCCTTCGGCCCCGGCCAGATCGTGCTGATGCGCAAGGACCCGCCGGTCGACGCCGAATTCATCTACGACACCCAGGTACTGACGGTGGCGCAGCGCGCCGGCGCGCAGATCGTCAACGACCCGCAGGGCCTGCGCGACTTCAACGAGAAGCTGGCCGCGCTGCTGTTCCCGCAGTGCTGTCCGCCGACCCTGGTCAGCCGCGACGCGGCGGCGCTGAAGGCGTTCGTGCTCGAGCACGGCCAGGCGGTGCTCAAGCCGCTGGACGGCATGGGCGGGCGCTCGATCTTCCGCAGCGGCAACGGCGACCCCAACCTCAACGTGATCCTGGAAACGCTGACCGACGGCAACCGCAAGCTGGCCCTGGCGCAGCGCTTCATCCCCGACATCAGCGCCGGCGACAAGCGCATCCTGCTGGTCGACGGCGTGCCGGTGGACTATTGCCTGGCGCGGATCCCGCAGGGCGACGAGTTCCGCGGCAACCTGGCCGCCGGCGGCCGCGGCGAAGGCCGCCCGCTCAGCGAACGCGACCGCTGGATCGCCGCCCAGGTCGGCCCGGAGATGAAGCGCCGCGGCATGCGCTTCGTCGGCCTGGACGTGATCGGCGACTACCTGACCGAGGTCAACGTGACCAGCCCGACCTGCGTGCGCGAACTCGACGCCCAGTTCGGCCTGAACATCGCCGGCCTGCTGTTCGACGCGCTCGAGGCCGGCCAGCCCGCATGA	MPFDVIVVMDPIASIKIAKDTTFAMLLEAQRRGHRLHYVRPGGLALRGGEAVAQLAPLTVRDDKTGWYTLGEFSEQAFGPGQIVLMRKDPPVDAEFIYDTQVLTVAQRAGAQIVNDPQGLRDFNEKLAALLFPQCCPPTLVSRDAAALKAFVLEHGQAVLKPLDGMGGRSIFRSGNGDPNLNVILETLTDGNRKLALAQRFIPDISAGDKRILLVDGVPVDYCLARIPQGDEFRGNLAAGGRGEGRPLSERDRWIAAQVGPEMKRRGMRFVGLDVIGDYLTEVNVTSPTCVRELDAQFGLNIAGLLFDALEAGQPA	PGPT0013040_1353	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013040-gshB-K01920	NA	NA
BMS020_06481	879			hypothetical protein	ATGAGCGCCGCCGCGGTCGCCTCGCCCCGGATCGACGCCAACCAGCGCCTGACCGCGACCCTGGTGCTGTCGCTGATCGTGCACGGCCTGCTGATCCTCGGGGTCGGCTTCGCGGTCAGCGACAGCGCCCCGCTGGCACCGACCCTGGACGTGATCTTCAGCCAGACCAGCACCCCGCTGACGCCGAAGCAGGCCGATTTCCTGGCCCAGGCCAACCAGCAGGGCGGCGGCGACCACGACACCCCGCAGCGCCCGCGCGACAGCCAGCCCGGCGTCGTGCCGCAGGAGCGCACGGGGCTGGCACCGCAGCCGCAGCAGGCCACCACCGCCGCCCAGCCAACCCCGGCGCAGGCACGCGTGGTCAGCAGCCGCCGCGGCGAAGACCCGCTGCCGCGCCAGCAGCCGGACCCGCAGAACGAACGCACGCCCTCCCCGGCCGACGCCGAACGCGAGCGCCGCGACGCCGAGATGGCCCGCCTGGCCGCCGAGGTGCACCTGCGCTCGGAACAGTACGCCAAGCGCCCGAACCGCAAGTTCGTCTCCGCCAGCACCCGCGAATACGCCTACGCCAACTACCTGCGCGCCTGGGTCGACCGTGCCGAACGCGTCGGCAACCTCAACTACCCGGACGAAGCGCGCCGGCGCCGGCTTGGTGGGCGCGTGGTGATCACCGTCGGCGTGCGCCGCGACGGCACCGTCGAAAGCAGCCGGGTGCTGATCTCCAGTGGCGTGCCGATGCTCGATTCGGCCGCGCTGCGCGTGGTGCAGCTGGCGCAGCCATTCCCGGCGCTGCCCAAGACCGAGGACGACGTCGACATCCTGCAGGTCACCCGCACCTGGCTGTTCCTGCCCGGCGGCGAACTGCGCGACGACCGCTGA	MSAAAVASPRIDANQRLTATLVLSLIVHGLLILGVGFAVSDSAPLAPTLDVIFSQTSTPLTPKQADFLAQANQQGGGDHDTPQRPRDSQPGVVPQERTGLAPQPQQATTAAQPTPAQARVVSSRRGEDPLPRQQPDPQNERTPSPADAERERRDAEMARLAAEVHLRSEQYAKRPNRKFVSASTREYAYANYLRAWVDRAERVGNLNYPDEARRRRLGGRVVITVGVRRDGTVESSRVLISSGVPMLDSAALRVVQLAQPFPALPKTEDDVDILQVTRTWLFLPGGELRDDR	PGPT0003745_1151	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003745-tonB-K03832	NA	NA
BMS020_06482	921	tri1	COG1397	ADP-ribosylarginine hydrolase Tri1	ATGACCCCGCGGCCGGACCGGCGCGCGCGCTTCCGTGGCTGCCTGCTCGGGCTGGCGGTCGGCGATGCGCTCGGCACCACGCTGGAGTTCCGCGCGCCGGGCAGCTTCACGCCGATCGACGACATGCTCGGCGGCGGCCCGTTCGACCTGCGCGCCGGGCAATGGACCGACGACACCTCGATGGCGCTGTGCCTGGCACACAGCCTGCTGCACCGGCGCGGGTTCGATCCGGCCGACCAGATGAACCGCTACTGCAACTGGTACCTGCATGGCTACCTGAGCAGTACCGGCGAATGCTTCGACATCGGCGGCACCGTGCGCCAGGCGCTGGATCGCTACCTTGATGGCGGCCCGGCGTTCGCCGGCAGTACCGATCCACGCAGCGCCGGCAACGGTTCGCTGATGCGGCTGGCGCCGATCGCGATGTTCTACGCCAATGCCGACGCGGCGACGCTGGCGGCGATGGCCGCCGACAGTTCGCGCACCACCCATGGCGCGGCGGAGGCGGTCGATGCCTGCCGGCTGTTCGCCGCGCAGCTGCGCGCCGCGCTGGCCGGCGAGCCGTTGCACGCGCTGCTGTCGGCAACGCGCGGTGGCGGCCTGGCGCCGGCGATCGCGGCGCTGGCGGCGCGCGACTACCGTTCGGTGCCGGCGGCGGCGATCCGCGGCACCGGCTACGTCGTCGATGCGTTGTCGGCGGCGCTGTGGTGTTGCGCGACGAGCGGGGATTTCGCCGGCGCGGTGCTGCGCGCGGCCAACCTCGGCGATGACGCCGACACCACCGCGGCGATCTGCGGCCAGCTCGCAGGCGCCTGCTACGGCGAGGACGGCATCCCGCCGGCCTGGCGCGCGCGGCTGCAGGATCGCGAGGCGATCATCGCGCTGGCCGACGCCCTGCTGGACGCGGCCGACGCCGGTTGA	MTPRPDRRARFRGCLLGLAVGDALGTTLEFRAPGSFTPIDDMLGGGPFDLRAGQWTDDTSMALCLAHSLLHRRGFDPADQMNRYCNWYLHGYLSSTGECFDIGGTVRQALDRYLDGGPAFAGSTDPRSAGNGSLMRLAPIAMFYANADAATLAAMAADSSRTTHGAAEAVDACRLFAAQLRAALAGEPLHALLSATRGGGLAPAIAALAARDYRSVPAAAIRGTGYVVDALSAALWCCATSGDFAGAVLRAANLGDDADTTAAICGQLAGACYGEDGIPPAWRARLQDREAIIALADALLDAADAG	PGPT0001065_640	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001065-draG-K05521	NA	NA
BMS020_06483	702	tsaB_2	COG1214	tRNA threonylcarbamoyladenosine biosynthesis protein TsaB	ATGAACTTCCTCGCCTTCGAAACCTCCACCGAGGCCTGCTCCGTTGCCGTGTCCGTCGATGGCCGGGTGCTGGAACGCTTCGAGGTCGCCCCGCGCCGGCATACCGAACTGGCGCTGCCATGGGCCGACCAGCTGCTGGCCGAGGCCGGCATCGCGCGCGCGCAGCTCGATGCGATCGCGGTGAGCCGTGGGCCGGGGGCATTCACCGGCGTGCGCCTGGGAATCGGCCTGGCGCAGGGCATCGCGCTGGCGCTGGACCGGCCGGTGCTGGCGCTGTCGACGCTGCAGGTGCTGGCGTTGCGTGCGCCGGCCGATGCGGCGCGGATCCTGGCGACGATCGATGCGCGCATGGGCGAGGTCTATGCCGCCGGCTTCGCGCGCGATGCCGACGGCGTGCCGCAGCCGCTCAGTGCCGAGCAGGTCTGCGCGCCGCAGGACCTGGGGCTGCCCGGCGATGCGGCCTGGCATGCGGTCGGTACCGGCATGGCCGCGGCCGATGGCCTGCTGCAGCAGCGCTTCGCCGCGCAGCTGGCAAGCTGCGACGCCGGCGCGCTGCCGCGTGCCGGCGACCTGCTGGCGCTGGCGCTGCCGGCGTTCGCGCGTGGCCAGGCGCAGGCGCCGGACACGATCGAGCCGGCCTACCTGCGCGACAACGTCGCGCTGACCCTGGAGCAGCAGCGCGCCGCGCGCGCGGCACGATGA	MNFLAFETSTEACSVAVSVDGRVLERFEVAPRRHTELALPWADQLLAEAGIARAQLDAIAVSRGPGAFTGVRLGIGLAQGIALALDRPVLALSTLQVLALRAPADAARILATIDARMGEVYAAGFARDADGVPQPLSAEQVCAPQDLGLPGDAAWHAVGTGMAAADGLLQQRFAAQLASCDAGALPRAGDLLALALPAFARGQAQAPDTIEPAYLRDNVALTLEQQRAARAAR				NA	NA	NA	NA	NA
BMS020_06484	2103	yoaA_2	COG1199	putative ATP-dependent DNA helicase YoaA	ATGTCCCTGCTCGCCACCGCCAGCACCGAAGCACTCAGCGAAGGAGGCGCCCTGGCCAGCCGGTTGGAGGCGTTCGCGCCGCGCGCCGCGCAGCTGCGCCTGACCGCGGCGATCGCCGAGGCCTTCGACCAGCGCGACGTGCTGCTGGCCGAAGCCGGTACCGGCACCGGCAAGACCTTCGCCTACCTGGTGCCGGCGCTGCTGTCGGGCCTGAAGACCATCGTCTCCACCGGCACCCGCGCGCTGCAGGACCAGCTCTACCACCGTGACCTGCCGCGGGTGCGCAGCGCGCTCGGCGTCGGCCTGCAGACCGCGTTGCTGAAGGGGCGCGCCAATTACCTGTGCCGCTACCGGCTGCAGCAGGCGCGCGGCGAGCCGCGCTTCGCCTCACCCGAGCAGGTCGCGCAGTTCCAGCGCATCCTCGCCTGGAGCGGCCGCACCCGCTATGGCGACATGGCCGAGCTGGAGGCGCTCGGCGACGATTCGCCGCTGCTGCCGATGGTCACCTCCACGGTCGACAACTGCCTGGGCACCGAATGCCCGTTCTGGCACGAGTGCTTCGTCGTGCAGGCGCGGCAACGCGCGCAGGCGGCCGACCTGGTGGTGGTCAACCACCACCTGCTGCTGGCCGACCTGGCGCTGAAGCAGGAAGGCTCCGGCGAAATCCTGCCCGGCGCGCAGGCATTCGTGATCGACGAGGCGCACCAGCTGCCGGAGCTGGCGGCCAATTTCTTCGGCGAGGGCTTCGGCATGCGGCCGTGGCAGGAGCTGGCGCGCGACTGCCTGGCGGAGGCGCGGCTGGTGGCCGGCGCGCAGGCGGCGTTGCAGGCGCCCGCGCAGGCGCTGGCCGATGCGCTGCGCGCGCTGCGCGCGGCGATGGATGGACTGCCGCCGCGCGGCACGCAGTGGCGCGCGCTGGCCAAGCCGGAGGTGCGCGAGGGTTTCGACCTGGTGATGGCCGAGCTGGTGCGGCTGGGCGATACGCTGCAGGCGTTGCGCGACGCCGCGCCGGGGCTGGATGCCTGCGCCGCGCGCGCCGCCGACGCGCGCACGCGGCTGGCGCGCTGGCTGGGCGAGGGCGCTGACGTGGCGGAGGCGGCATGGGACTGGGATGCGCCGGACACGGCCGCAGCGGCACCAGCGGGCGCGCTCGGACCCGAAGCCGCGCCGTCGGCGGACACCGACGTGCTCTGGTATGAACTCACCCCGCGCGGCTTCCGTTGCCAGCGCACTCCGCTGGACGTGTCCGGGCCGCTGCGCGAGCACCGCGAGAAGTCGCATGCGGCCTGGGTGTTCACCTCGGCGACGTTGGCGGTGAAGGGCGAGTTCGACCACATCGCGCAACGCCTGGGCCTGCGCGATCCGGTGACGCTGCTGCAGCCCAGTCCGTTCGACTGGGCGCGGCAGGCGCTGTGCTACCTGCCGCCTGGCCTGCCCGATCCGGCTGCGCGGGGCTTCGGCACCGCGCTGATCGCCGCGTTGACCCCGGTGCTGCAGGCCTCCGATGGCCGCGCGTTCCTGCTGTTCGCCTCGCATCGTGCGCTGCGCGAGGCGGCCGAGGCGCTGCGTGACGGGCCATGGCCGCTGTTCGTGCAGGGCGAGGCGCCGCGCGCGACGCTGCTGGAGCGCTTCCGCGCCTCCGGCAACGGCGTGCTGCTGGGCAGCGCCAGCTTCCGCGAGGGCGTGGACGTGGTCGGCGAGGCGCTGAGCGTGGTGGTGATCGACAAGCTGCCGTTTGCCGCGCCGGACGACCCGGTGTTCGAGGCGCGGCTCGACGCGATCCGCCGCGATGGCGGCAACCCGTTCCGCGACGAGCAGTTGCCGCAGGCGGTGATCGCGCTGAAGCAGGGCGTGGGGCGGTTGATCCGCAGCGAATCCGATCGCGGCGTGCTGGTGCTGTGCGACCCGCGCCTGCTCAACAAGAGCTACGGGCGGCTGTTCCTGGACTCGCTGCCGCCGCTGCCGCGCACCCGCGACATCGGCGCGGTGCAGGCGTTCTTCGGCGCTGCCGTGTCGACGCCGGCGCAGCAGGCGCGGGAGGCCTGCGAGGCCCCGCAGGTTCCCGATGCGCCGGAATCGCTGCAGTCGCCGCAGGAACCCTGA	MSLLATASTEALSEGGALASRLEAFAPRAAQLRLTAAIAEAFDQRDVLLAEAGTGTGKTFAYLVPALLSGLKTIVSTGTRALQDQLYHRDLPRVRSALGVGLQTALLKGRANYLCRYRLQQARGEPRFASPEQVAQFQRILAWSGRTRYGDMAELEALGDDSPLLPMVTSTVDNCLGTECPFWHECFVVQARQRAQAADLVVVNHHLLLADLALKQEGSGEILPGAQAFVIDEAHQLPELAANFFGEGFGMRPWQELARDCLAEARLVAGAQAALQAPAQALADALRALRAAMDGLPPRGTQWRALAKPEVREGFDLVMAELVRLGDTLQALRDAAPGLDACAARAADARTRLARWLGEGADVAEAAWDWDAPDTAAAAPAGALGPEAAPSADTDVLWYELTPRGFRCQRTPLDVSGPLREHREKSHAAWVFTSATLAVKGEFDHIAQRLGLRDPVTLLQPSPFDWARQALCYLPPGLPDPAARGFGTALIAALTPVLQASDGRAFLLFASHRALREAAEALRDGPWPLFVQGEAPRATLLERFRASGNGVLLGSASFREGVDVVGEALSVVVIDKLPFAAPDDPVFEARLDAIRRDGGNPFRDEQLPQAVIALKQGVGRLIRSESDRGVLVLCDPRLLNKSYGRLFLDSLPPLPRTRDIGAVQAFFGAAVSTPAQQAREACEAPQVPDAPESLQSPQEP				NA	NA	NA	NA	NA
BMS020_06485	519			hypothetical protein	ATGCCCCATGCCCGCCACCTCCTCGTTGTCGCCGCGCTCGCCGTCGCGCTGGCGGCCTGCAGCAGCGCGCCGCCGCCACCGCCGCCGGCCCCGGTGACGCCGCCGTCGCAGCGCCTGGCCGAGATCGACAAGGCCGCCGGCGTCGACGACACCGAACTGGACGTGCAGCCGCTGCGTGACCCGCAGGTCGATGACCTGCGCGAAACCGCGCATCGCCAGCGTGCCGCCGGCGATCTCGCCGGCGCGTCGCGCTCGCTCGACCAGGCGCTGGCGCTGGTCGCCGACGATCCCGGCGTGCTGCAGGAACGCGCCGAGCTGGCGCTGCTCGGTGAGGACTACGCTGGCGCCGAGCAGTTCGCACGGCGCGCGATCGACCTCGGCTCCAAGACCGGGCCGCTGTGCCGGCGCCACTGGGCGACGATCGAGCAGGCGCGGCTGGCACGTGGCGAGAAGGAGAACGCGGCCTCGGCGCATGCGCAGATCGAAGGCTGCACGGTGCCCGGCATCAAGCGCTATTGA	MPHARHLLVVAALAVALAACSSAPPPPPPAPVTPPSQRLAEIDKAAGVDDTELDVQPLRDPQVDDLRETAHRQRAAGDLAGASRSLDQALALVADDPGVLQERAELALLGEDYAGAEQFARRAIDLGSKTGPLCRRHWATIEQARLARGEKENAASAHAQIEGCTVPGIKRY				NA	NA	NA	NA	NA
BMS020_06486	2424	mrcB_2	COG0744	Penicillin-binding protein 1B	GTGCCACGACGCTACGATCACGAAGACCCCGAGGACCTCGAGGACGACGACATCGACGACGGACAGCCGCGCTGGCAGCGCCGCCTGATCGTCTGGGGCCTGGCCGCGCTGGCGCTCGCGCTGGGCTTCCTGATCCCGTACACGCTGTACCTGAACACCCAGGTCACGCAGCGGTTCGGCGAGCTGCGCTGGCAGATCCCGACCCGCGTGTACGGGCGGCCGCTGGCGCTGGAGCCGGGCAAGGCGCTCGATGCCAAGACCCTGAAGACCGAGCTGGATGCGGCCTCCTACCGCGACGATGGCGCCGGCAAGCTGCCCGGCACCTACCGCCAGGCCGGCAACGGCTTCGTGATCTCCAGCCGCGGCTACATCGACGTGGACGGCCGCGTGCCGGCGCGGCGGATCGCGCTGAGCGTGGCCGGCGGCCGGGTCTCGGCGCTGCGTGACGCGTCCAGCGACAAGGGCCTGAAGGCGGCGCGGCTGGATCCGGCGCGCATCGCCACGCTGTACGGCCAGAAGCAGGAAGAGCGGCGGCTGGTGCGGCTGGAGGAAGTGCCCGAGCTGCTGGTCACCGGGCTGCAGGCGGTCGAGGACCGCGACTTCAACTCGCACCACGGCATCGACCTCAGCGGCATGGTGCGCGCGGCCTGGGTGATGGTCCGCTCCGGCGGGCATACCCGCCAGGGCGCCAGCACGCTGACCCAGCAGCTGGCGCGCAGCGGCCTGCTCGGGATCGGCAAGGAACAGACCGTCACCCGCAAGTTCAACGAGATCCTGTACGCGCTGATCATGGAGGCGCGCTACGACAAGCGCACCATCCTCGAGGCCTACCTCAACCAGGTCTACCTGGGTCAGCGTGGCAGCCAGGCGGTGCATGGCGTGTCTTCCGGCGCCGAGTTCTGGTTCGGGCGCGAGCTCGGCTCGATGACCACCGAGCAGGTCGCGCTGCTGATCGGCCTGGTCAAGGGTCCCTCGTACTACGACCCGCGCCGTTCCCCCGAGCGCGCGCTGGACCGGCGCAACTTCGTGCTCGGCAAGCTGCGCGAGAGCAACCTGATCGACGAGGCCGAGTACCGGCGTGCGCTGGCCGCGCCGCTGGGCGTGCCCAAGGAGCCGGGCCTGGTCGCCGCCAACCGCTTCCCGGCCTATGTCGACCTGGTACGCCGCCAGCTCGCCCACGATTACCCGGAGAGCGCGCTGCAGGGCGCCGGGCTGAGCGTGCTGACCGGCATGTCGCCGTCGGCGCAGGCCTATGCCGAGGGCGCGGTGACGCGCACGATCAAACAGCTGGAAAGCAAGAAGCGCCCGCCGCTGCAGGCCGGTCTGGTGCTGACCGACACCCACAACGGCGATGTGCTGGCGGTGGTCGGCAGCCGCGACGTGTCCACGCCGGGTTTCAACCGCGCGGTCGAGGCGCAGCGCCAGGTCGGTTCCCTGCTCAAGCCGTTCGTCTACCTGCTGGCGCTGGCCTCGCCGGACCGCTGGTCGCTGGCCAGCTGGGTCGACGATTCGCCGGTGACGGTGCAGCTCAGCCGTGGCAAGACCTGGTCGCCGGGCAATTCCGACAACCGCAGCCACGGCACGGTACGCCTGGTCGATGCGCTGGCGCATTCCTACAACCAGGCCACGGTGCGGGTGGGCATGCAGGTCGGGCCGGACCGGGTCGCGCAGCTGGTGCACGTACTGGCCGGGTTGAAGGCCGAGCCGAACCCGTCGCTGATCCTCGGCGCCACCGACCAGAGCCCGTACGCGATGGCGCAGCTGTACCAGTTCCTCGCCTCCGGCGGCGAGATCCAGCCGCTGCACGCGGTGCGCGGCGTGCTCGACCCGCAGGGCAAGCTGCTCAAGCGCTACGACAAGAACCCGGCGCCGGCGCAGGAGGGCGATTCGATCGCCGCCCACCTGATCGGCGTGGCGATGCAGCAGGTGGTCAGCAACGGCACCGGGCGGCAGCTGCTGTCCGATGGCCTGGGCCGGCTGTCGGCCGCAGGCAAGACCGGCACCTCCAACGATGGCCGCGACAGCTGGTATGCCGGCTACACCGGCGACCACCTGGCGGTGATCTGGATGGGCAACGACCAGAACCAGCAGACCGGCCTGTACGGCGCCACCGGCGCGATGCGGGTATGGTCGGGCATCTTCACCCGCCTGCCGAGCGCGCCGCTGAAGGTCGACGGCAAGGGCATCGACTGGCAGTGGGTCGAACCCACCGGCTCGGGCGCCACCGACGTCGGCTGCCCCGGTGCCCGCCAGTTCGCCTTCGTGGCCGGTTACGCGCCGCCGTACGTTCCGTGCAGTGGCGGTGCGGCGCCGGCGAGCGAGGATGGACAGGAGTCCGGCGGCGGCTGGCGCAGCTGGTTCGGCCTGGACAAGAAGGACGAACCGGCGGCACCCGCCGACGCACCGCCCGAGCCGCAGCGCTGA	MPRRYDHEDPEDLEDDDIDDGQPRWQRRLIVWGLAALALALGFLIPYTLYLNTQVTQRFGELRWQIPTRVYGRPLALEPGKALDAKTLKTELDAASYRDDGAGKLPGTYRQAGNGFVISSRGYIDVDGRVPARRIALSVAGGRVSALRDASSDKGLKAARLDPARIATLYGQKQEERRLVRLEEVPELLVTGLQAVEDRDFNSHHGIDLSGMVRAAWVMVRSGGHTRQGASTLTQQLARSGLLGIGKEQTVTRKFNEILYALIMEARYDKRTILEAYLNQVYLGQRGSQAVHGVSSGAEFWFGRELGSMTTEQVALLIGLVKGPSYYDPRRSPERALDRRNFVLGKLRESNLIDEAEYRRALAAPLGVPKEPGLVAANRFPAYVDLVRRQLAHDYPESALQGAGLSVLTGMSPSAQAYAEGAVTRTIKQLESKKRPPLQAGLVLTDTHNGDVLAVVGSRDVSTPGFNRAVEAQRQVGSLLKPFVYLLALASPDRWSLASWVDDSPVTVQLSRGKTWSPGNSDNRSHGTVRLVDALAHSYNQATVRVGMQVGPDRVAQLVHVLAGLKAEPNPSLILGATDQSPYAMAQLYQFLASGGEIQPLHAVRGVLDPQGKLLKRYDKNPAPAQEGDSIAAHLIGVAMQQVVSNGTGRQLLSDGLGRLSAAGKTGTSNDGRDSWYAGYTGDHLAVIWMGNDQNQQTGLYGATGAMRVWSGIFTRLPSAPLKVDGKGIDWQWVEPTGSGATDVGCPGARQFAFVAGYAPPYVPCSGGAAPASEDGQESGGGWRSWFGLDKKDEPAAPADAPPEPQR	PGPT0023880_331	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023880-mrcB-K05365	NA	NA
BMS020_06487	2100			hypothetical protein	ATGCCGATGTCGCTGGCCGATGCGCGCTACCACCTCAACCGCGTGCTTGGCCTGGTCCGCCGCAGCCTGGCCAGCCTGCGCACGCGCGGCTGGCGCGCCACCTGGCAGCGCATCCGCGTGCATGCGCGCCCGGCGCCGGAGCTGCCGCGCGCGCCGCTGTGGTTGCCGCACGCGGCGCCGTTCGCGCCGTTCGCGGTGCCGGCCAGCGCCAGCCCGCGCGCCTCGGTGGTGATCCCGGTCTACAACCACGCCGCCCACACCCTCGCCTGCCTGCGCGCGCTCGCCGCGCATCCGCCGGCACTGGCCTGCGAGGTGATCGTGGTCGACGACGGCAGCAGCGACGCCACCATCGACTGGCTGCCGCAGGTCGACGGCCTGCGCTACCACCGCCGCGCCGCCAACGGCGGCTTCATCGCCGCCTGCAACGACGGCATCGCGCTGGCGCGCGGCGAGTACGTGGTGCTTCTCAACAACGACACCGTGCCGCAGCCGGGCTGGCTGGACGCGCTGCTGTCCACCTTCCAGGCCCATCCGGACACCGGCCTGGCCGGCGCGCAGCTGGTCTATCCAGACGGCCGCCTGCAGGAATCGGGCGCGCTGGTGTTCGCCGACGGCAGCGCCTGGAGCTATGGCCGCTTCGAATCGGCGCAGGATCCGCGCTACCGCTACCTGCGCACGATGGACTACGCCTCCGGCGCGGCGATCGCCCTGCCACGCGCACTGCTGCAGCAGCTGGGCGGGCTCGACACGCGCTACGCGCCGGCCTATTACGAGGACACCGACCTGGCCTTCGCGGTGCGCGCGGCCGGCTTGAAGGTGCGGGTGCAGCCAGCCAGCGTGGTCGTGCACGACGAAGGCACCAGCAACGGCACCGATACCGGCAGCGGGGTCAAGGCCTACCAGGTCCGCAACCAGAGCGTGTTCGCCGCCAAGTGGCGCCAGGCGCTGCAGGCGCAACCGGCACCCGGCGCGGTACCGTCGCCGGCGCTGCTGCACCGCGGCCAGCGCCAGGTGCTGGTGCTCGACGAAGCGGTGCCGCAGCCGGACCGCGATTCCGGCTCGCTGCGCCAGTTCAACCTGCTGCGCATGCTGGTGGAAGCCGGCGCGCACGTGGTGTTCGTGCCGACCCGGCGCGAGCACGCCGGGCGCCATACCGAAGCGCTGCAGGCGCTGGGCGTGGAGGTCTGGTACGCGCCCTACCTGCAGGGCGTGGGCCCGTGGCTGCGCGCGCACGGCGGCCGCTTCGCGGTGGCGATGCTGGTGCGCCACCACGTCGCGCACGAATGCCTGCCGCTGCTGCGCGCGTTCGCACCGCAGGCGCGCACGGTGTTCGACACCGTCGACCTGCACTATCTGCGCGAACGCCGCGGCGCCGAGCTGGCCGGCGATGCACGCCTGCTGCGCGATGCCGACACCACCCGCCGCCGCGAGCTGCAGGTGATGGCCGCCACCGACGTGACCCTGCTGGTCTCGGCCGCCGAACGCGACCAGCTGCGCACCGATGCGCCGGCGGTGCAGGTCGAGCTGCTGTCCAACCTGCACGAGGTCGCCGGTCCCGGCGAGGCGTTCACGCAGCGCCGCGACCTGGTGTTCGTCGGCGGTTTCGGCCACCCGCCGAACCTGGACGCGATGCAGTGGTTCATCGCCAAGGTGTTCCCGCAGGTGCGCGCCGCGCTGCCCGAAGTGCGCTTTCACTGCATCGGCGCCGACGCCCCCGACAGCCTGCGGGCGCTGGCCGCGACCCAGCCGGGCGTGGAGGTGCACGGCCACGTGCCGGAGCTGGCGCCGTACATGGAAGGCTGCCGCGTGGCGGTGGCGCCACTGCGCTTCGGCGCCGGGGTCAAGGGCAAGGTCAACCTGAGCATGGCGCACGGCCAGCCGGTGGTCGCCACCGCCTGCGCGGTCGAAGGCATGCACCTGCGCGATGGCGCCGACGTGCTGGTCGCCGACGACGCGGCCGGGTTCGCCGCGGCTGTGGTGCGGCTGTACCGCGACGAGGCGTTGTGGCGGCAACTGGCCGGCAACGGCCTGGACAACATCGAACGCCACTTCTCCAGCGCCGCCGCGCGCGCGGTGGTGGAGCGCGTGTTCCTGCGCTGA	MPMSLADARYHLNRVLGLVRRSLASLRTRGWRATWQRIRVHARPAPELPRAPLWLPHAAPFAPFAVPASASPRASVVIPVYNHAAHTLACLRALAAHPPALACEVIVVDDGSSDATIDWLPQVDGLRYHRRAANGGFIAACNDGIALARGEYVVLLNNDTVPQPGWLDALLSTFQAHPDTGLAGAQLVYPDGRLQESGALVFADGSAWSYGRFESAQDPRYRYLRTMDYASGAAIALPRALLQQLGGLDTRYAPAYYEDTDLAFAVRAAGLKVRVQPASVVVHDEGTSNGTDTGSGVKAYQVRNQSVFAAKWRQALQAQPAPGAVPSPALLHRGQRQVLVLDEAVPQPDRDSGSLRQFNLLRMLVEAGAHVVFVPTRREHAGRHTEALQALGVEVWYAPYLQGVGPWLRAHGGRFAVAMLVRHHVAHECLPLLRAFAPQARTVFDTVDLHYLRERRGAELAGDARLLRDADTTRRRELQVMAATDVTLLVSAAERDQLRTDAPAVQVELLSNLHEVAGPGEAFTQRRDLVFVGGFGHPPNLDAMQWFIAKVFPQVRAALPEVRFHCIGADAPDSLRALAATQPGVEVHGHVPELAPYMEGCRVAVAPLRFGAGVKGKVNLSMAHGQPVVATACAVEGMHLRDGADVLVADDAAGFAAAVVRLYRDEALWRQLAGNGLDNIERHFSSAAARAVVERVFLR				NA	NA	NA	NA	NA
BMS020_06488	1518			hypothetical protein	ATGCACAGATTCCCGCACGCGACCGGCCGGCGCCTGTTGGCGCCGTGGCGGCATCCGCTGCTGCGCTGGGGCGTGCTGGCCGCCGCGGTGCTGACGCTGGTGGCGGTGCTGCTGTTCCATCGTGCGCTGGGCAGCTGGCTGTGGCCGGATACGCGCATCCAGCAGTTGCTGGCGCGCGGCGACGCGGCGCTGGCGCAGGGCCGGCTCAGCGCCGACGACGGCAGCGGCGCGCGCGAGCTGTATGCCGCGGCACTGGCGCTGGACGGCGATCGCGACGAAGCCCGCGCCGGGCTGCAGCGCACCGGCATTGCGGCGCTGGCGCAAGGGCATGCCGCGCTGGCCCGGCACGACCTCGACGGCGCCGCGACGATGCTGGCGCTGGCGCGCGCGTTGCAGGTGCCGCAGGCGCAGACGCTGTCGCTGGCGACCCCGCTGCGCGTGCAGCAGGCACGCCGCGCCGGGATCGACGGATTGCTGGCCCAGGCCGCGCAGGCGCGCCGGCAGGGGCGCCTGGACGGGACCGGGGACAGTGCGCTGCCGCTGTACCAGCGGGTGCTGACGTTGGCGCCGGAGCGCACCGACGCGCTGGAAGGCCGCGAGGACGCGCTGGCCGACCTGATCCAGCAGGCCTGGAGCGGGCTCAACCGCGGTCGCCTGGCCGAGGCCGCGCCGCTGCTGGCCGCCGCGCGCGGCTACGACCCCGGGCACGCCGACCTGCCGGCCGCGCAGGCCGAGTTCAACCGCCTGCTGGAGCAGCGCCGCCGCGATGGCGAGGCGCAGCTGCGCCGTGGCCGCCTGGATGCCGCTGCAACCAGCTTCGCCGACATCGCCGCGGCGCAGCCCGAGGACGCCGAGGCCCAGGCGGGGCCGGCACGGGTCGCCAGTGCCTTCGCCGCGCGCGCGGCCCGTGAAGCCGCCGATTTCCAGTTCGCCGCCGCCGAGGCGTCACTGCAGCGGGCGCGCGCGCTGGCGGCCGATGCAGCGGGCATCGCGCAGGCCGAGCAGGCACTGGCGCGCGCGCGCGCCGCCCACGATACGCAGTTCCAGCGCCTGGCGCCGGCGGTGCGCGAGCGCCGGCTGCGCGCGCTGCTGGCCCAGGTCGAACACGCCGAGAGCGCACAGGACTGGCTGACCCCGCCCGGGGCCAGCGCCTACGACCGCCTGCGCGCCGCACAGGCGCTGGCCCCCGACGATGCGCGCGTGCGCCGTGCGATCGCCCGCATCGTGCCGGCCACGCGCGATTGCTTCGAGGACGAACTGCGCGGCAACCGCCTGCGTGCGGCGCGGGTGTGCCTGGATGCCTGGCAGGCGATGGCGCCGCGCGAGGATGGCCTGGCCGCCGCGCGCACGCGGCTGGCGCAGCGCTGGCTGGCGGTTGGCAGCGAGCGCCTGCGCGCCGAGGACGTGGCGTTCGCCAGGCAGTCGCTGGAACAGGCGCGGCAGCTGGATCCGCGCGTGCCGGGGTTGTCGGCCTTCGCCGCGCAGGTGCATGCGGCCGCGCCGCGGCGCGTGGACTGA	MHRFPHATGRRLLAPWRHPLLRWGVLAAAVLTLVAVLLFHRALGSWLWPDTRIQQLLARGDAALAQGRLSADDGSGARELYAAALALDGDRDEARAGLQRTGIAALAQGHAALARHDLDGAATMLALARALQVPQAQTLSLATPLRVQQARRAGIDGLLAQAAQARRQGRLDGTGDSALPLYQRVLTLAPERTDALEGREDALADLIQQAWSGLNRGRLAEAAPLLAAARGYDPGHADLPAAQAEFNRLLEQRRRDGEAQLRRGRLDAAATSFADIAAAQPEDAEAQAGPARVASAFAARAAREAADFQFAAAEASLQRARALAADAAGIAQAEQALARARAAHDTQFQRLAPAVRERRLRALLAQVEHAESAQDWLTPPGASAYDRLRAAQALAPDDARVRRAIARIVPATRDCFEDELRGNRLRAARVCLDAWQAMAPREDGLAAARTRLAQRWLAVGSERLRAEDVAFARQSLEQARQLDPRVPGLSAFAAQVHAAAPRRVD				NA	NA	NA	NA	NA
BMS020_06489	2169	relA_2	COG0317	GTP pyrophosphokinase	GTGATCGTCGTGACCCGTTCTTTGCCCGCTAGCCTGGACGACCTGCTGCAGCGCGCCGCGCTTGCGGCACTGCCGGAGGCGATGCGCGATGCGCTGCGCGCCGCCGGGCAGGGCGCAGGTGGCGGTGCGGTAGCCGTGGACTGGCCGGTGCTGGCCGACACGCTCGACGCGCTCGCGCTGCTGTCGGCCGACGAGGCGACGCTGCTGGCGGCACTGCTGTTCGACCAGCCGGTGCTGCGCGCCGGGCTGGTCGAGCTGCCGTGGCGCGATGCGGCGCGGCGCAAGGCGGTCGAGGGCCTGCTCGATGGCCAGGACGCCGCCGATCAGGTCTGGGCGCTGCACGCCGGGCGCGAGGCCGGGCGCAACAGCGAAGGCCTGCGCCGGCTGCTGCTGGCGATCATCCACGACCTGCGGGTGGTGCCGATCCTGCTGGCACGGCAGCTGGCGAAGATGCGCGCGGCCGGTGCGCTGGCCGACGAACAGCGCCGCGCGCTGGCGCAGCTGACCCGCGACATCCATGCGCCGCTGGCCAACCGGCTGGGCATCTGGCAGTTGAAGTGGGAACTGGAGGACCTGGCGTTCCGCTACCTGGAGCCGGAGACCTACCGCCACATCGCGCGCGAGGTCGACGAGACCCGTGCCGACCGCGAGCGCTTCATCGCCGCGGTCAAGGCGCAGTTGTCGCAGGCGCTGGCCGAACAGGGCCTGCGTGCCGAGGTCAGCGGCCGGCCCAAGCACATCTACAGCATCTGGCGGAAGATGCAGAAGAAGCGCCTGGCCTACGACCAGCTCTACGACATCCGCGCGGTGCGGGTGATGGTCGACAGCGTCGCCGACTGCTACGCCGCGCTCGGCGTGGTGCACGCGCTGTGGGCGCCGGTGCCGAGCGAGTTCGACGACTACATCGCCCGCCCCAAGGCCAACGACTACCGCTCGCTGCATACCGCGGTGATCGGCCCGGAAGGGCGCACCGTTGAGATCCAGATCCGCACCCACGAGATGCACGCGCAGGCCGAGCTGGGCGTGGCCGCGCACTGGAAGTACAAGGAAGGCGGCAAGGGCTCGGAAAAGGCGTTCGAGCGCAAGATCACCTGGATGCGCCAGCTGCTGGAGCAGGCCCAGGACGGCGACCAGGCCGGGCTGGCCAGCGCGCTGGACGCCGAGCTGGTCGAGGACCGGGTCTATGCGCTGACGCCCAAGGGCGAGGTGATCGACCTGCCGCAGGGCGCCACGCCGCTGGATTTCGCCTACCACGTGCACACGATGGTCGGGCACCGCTGCCGCGGCGCGCGGGTCAACGACCGCATCGTGCCGCTGACCTACCGGCTGCGCAGCGGTGACCGGGTCGAGATCATGACCGCCAAGGAAGCCGACCCGCGCCGCGACTGGCTGCTGCCGGCCAACGGCTTCCTGGCCAGCGGGCGATCGCGCGACAAGGTGCGCGCCTGGTTCCACAAGCTCGACCGCGCGCGCAACGTGCAGGCCGGCAAGGAGCTGCTGGAGCGCGAGCTGCGCCGGCTCGGCCTGCTGCAGGCCGAGCTGTTGCCGATGGCGAGGAAATTCCATGCCGACAACGTCGACGACCTGTACATCCAGGTCGCGCTTGGCGATACCGGGCCGAGCCAGGTCAGCCGCGCGCTGCTGGAGGCCGAGCGCGCCGCGGCGCAGCCGACGCCGGCGCCGACGCTGCCGCGCCCGACCGCGCGCCGTGACGACATCGGCAAGTCCAAGTTCACCGTGCAGGGCGTGGGCAACCTGCTGGTGCAGCTGGCGCGCTGCTGCCAGCCGGTGGCCGGCGAGCCGATCGTCGGCTACCTGACCCGCAGTCGCGGTGTCACCGTGCACCGCAGCGATTGCGTCGCGCTGGCGCGGCTGGCCGCGACCAGCCCGCAGCGGGTGCTGCCGGTGGAGTGGGGCAAGCTCGGCGGCAGCTACGAGGTCGACGTGCAGATCCGCGCGGTCGACCGGCGCTGGCTGCTCAAGGACATCACCAACCTGATCGCGCAGGAAGACGCGCACGTGCTGGAGATCAACAGCGACAACGTGCGCGACAGCGGCCGGGCGCAGCTGCGGCTGCGGCTGAAGGTCAGCGACTACGGCCAGCTGGCGACGCTGCTGGGCAAGCTGGATGCGCTGCCGGGCGTGAACGAGGTGCGCCGGCTCGGCTGA	MIVVTRSLPASLDDLLQRAALAALPEAMRDALRAAGQGAGGGAVAVDWPVLADTLDALALLSADEATLLAALLFDQPVLRAGLVELPWRDAARRKAVEGLLDGQDAADQVWALHAGREAGRNSEGLRRLLLAIIHDLRVVPILLARQLAKMRAAGALADEQRRALAQLTRDIHAPLANRLGIWQLKWELEDLAFRYLEPETYRHIAREVDETRADRERFIAAVKAQLSQALAEQGLRAEVSGRPKHIYSIWRKMQKKRLAYDQLYDIRAVRVMVDSVADCYAALGVVHALWAPVPSEFDDYIARPKANDYRSLHTAVIGPEGRTVEIQIRTHEMHAQAELGVAAHWKYKEGGKGSEKAFERKITWMRQLLEQAQDGDQAGLASALDAELVEDRVYALTPKGEVIDLPQGATPLDFAYHVHTMVGHRCRGARVNDRIVPLTYRLRSGDRVEIMTAKEADPRRDWLLPANGFLASGRSRDKVRAWFHKLDRARNVQAGKELLERELRRLGLLQAELLPMARKFHADNVDDLYIQVALGDTGPSQVSRALLEAERAAAQPTPAPTLPRPTARRDDIGKSKFTVQGVGNLLVQLARCCQPVAGEPIVGYLTRSRGVTVHRSDCVALARLAATSPQRVLPVEWGKLGGSYEVDVQIRAVDRRWLLKDITNLIAQEDAHVLEINSDNVRDSGRAQLRLRLKVSDYGQLATLLGKLDALPGVNEVRRLG	PGPT0014820_1317	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0014820-relA-K00951	NA	NA
BMS020_06490	507			hypothetical protein	ATGCGTCTCGCCCGCCTCGCGCCCGTCGCCTGCCTCGCCCTTGCACTGGCCTTCCCGGCGCTGGCGCAACGCACCGTCGAAGGCGACCTGCAGGCGCAGATGACGCCCGCCGAATTCAAGGCCGCCGGCCTGGACAAGCTCAGCAAGGACGAACTGGCCACGCTCAACGACTGGCTGCAGGGCAAGGTCAAGGCCGCATCGGCGACGGTGCTGGAACAGGCCCGCGAGGAAGGCCGCCAGGAAGTGATCGTCAAGAACCGTGGCTTCTTCGACTTCGGGTCCAAGGAGCCGATCGAAAGCACCCTGGTCGGCGAGTTCAACGGTTTCGGCAAGGGCAAGCGCTACGTGCTGGCCAACGGCCAGGAGTGGGAGCAGACCGAGCCGGCCTCGCTCAGCGGCGCGCACAAGACCAACCCCGCGCTGCGGATCCGTCCGGGCATCGGCGGGGTGTGGTACCTGCAGATCGAAGGCTTCAATACCCAGGCCAAGGTCCGCCGCGTCAAGTAA	MRLARLAPVACLALALAFPALAQRTVEGDLQAQMTPAEFKAAGLDKLSKDELATLNDWLQGKVKAASATVLEQAREEGRQEVIVKNRGFFDFGSKEPIESTLVGEFNGFGKGKRYVLANGQEWEQTEPASLSGAHKTNPALRIRPGIGGVWYLQIEGFNTQAKVRRVK				NA	NA	NA	NA	NA
BMS020_06491	1788	clcB_3		Voltage-gated ClC-type chloride channel ClcB	ATGGCCGAGGCCGCCGCCGCAGCCCCCGGCACCGCGCAGCGCCTGTTGCAGGCGGTGCGCCGGCGGTTCCGCACCAGCGACGGCTGGTTCATCGCACTGGCGCTGCTGGTCGGCCTGATCGCCGGGCTGCTGACCCTGCTGCAGAGCGGGCTGGCGCATGCGCTGCAGAGCTGGCTGTTCGGCCTCGACGACGACGTCCACCTCAGTTCCACCGCACAGGTGGGCCTGACCGCGCTGCTGGCGCTGCCGATCGGCGGCCTGCTGGTCGGCCTGGTCAGCCTGGCGGCGACGCTGCGCAAGCGCCAGCTGCTCGACGCGGTGGAAGCCAACGCGCTGCACGGCGGGCGCATGTCGATGCGCGACAACCTGATCGTGTCGGTGCAGACACTGCTGTCCAACGGCTTCGGCGCCTCGGTGGGGCTGGAGGCGGCCTACACCCAGATGGGCGCCGGCACCGGCTCGCAGCTCGGCCGCGTGCTGCGGCTGCGCCGCACCGACGTACGCACCCTGGTCGGCGCCGGTGCCGCCGGGGCGATCGCCGCGGCGTTCGGCGCGCCGCTGGCCGGCGCGTTCTACGCGTTCGAGATCGTCATCGGCGCCTATACCCCGACCGCGCTGGCGCCGGTGGCGGTCGCGGCGCTGGCCGGCACCTTCATCAGCCAGGCCGCGGGCGTGCCGCCGTACCTGTTGCCGGCCGCCTCGGCCAGCAGCCTGCATCCGCGCGACTACGCGGTGTTCGCCGCGCTGGGGCTGGTCTGCGCGCTGGTCGGCATCGTGATCATGCGCCTGGTCACCGGCATCGAGCAGTTGGTCAACCGCAGCCCGCTGCCACGCTGGGGCCGGCCGGTGGTCGGCGGACTGCTGCTGATCCCGCTGGCGCTGGTGACGCCGCAGACGCTGTCTTCCGGCCATGGCGCACTGCACATCGACCTGACCACGCATCTGCCGCTGCTGTGGATCGGCGCCCTGCTCGGGCTGAAGTGCCTGGCCTCGGGCATCTCGCTCGGCTTCGGCTTCCGTGGCGGCCTGTTCTTCGCCTCGCTGTTCATGGGCACCCTGGTCGGTGCGCTGTTCGCCGGGATGGTCAACGTCGCCGCCGGCGATGCGCTGGTGGACGGCACCGCGGCGGCGCTGGCCGGCATGGCGGCACTGGCCGCGGCGGTGGTCGGCGCGCCGATGACGATGGCGATGCTGGTGCTGGAGGGCACCCACGACTTCGTCCTCGCCAGTGCCGTGATGGCGGCGGTGCTGGTCGCCAACACGGTGGTGCGGCAGGCCTTCGGCTACTCCTTCTCGACCTGGCGACTGCACCTGCGCGGCGGCACCATCAAGAGCGCGCGCGACGTCGGCTGGGTGCAGTCGCTCAGTGCCGGGCGGATGATGCGCAAAGGCGTCAACACCATCGCCGCCGACGCCACCGTGGAGGAGTTCCGCCGGCGTTTCCCGCTCGGCTCCGGCACGCGCGTGGTGGTGCTCGACGGCGAAGGCCGCTATGCCGGCATCGTGCCGCTGTCCAGCGTCTATGCCGACGGCGTCAAGCCCGACGCGGTGCTGCAGCAGTTCGCCGGCAACCGCGAGGTGGCGCTGTCGGCCGACGCCGACGTGCTGGCGGTGATGCGCCGCTTCGACGAGACCCAGAGCGATGAGATGGCGGTGGTCGACCACGCCGGCCACCTGCTCGGCGTGCTGTCGGAAAACTTCGTCCGCAAGCGCTATGCCGAGGAACTGGACAAGCGCCAGCGCGAGCTGATGGGCGAGCGCGTCGAGGACGCCGACAGCGACAGCTGA	MAEAAAAAPGTAQRLLQAVRRRFRTSDGWFIALALLVGLIAGLLTLLQSGLAHALQSWLFGLDDDVHLSSTAQVGLTALLALPIGGLLVGLVSLAATLRKRQLLDAVEANALHGGRMSMRDNLIVSVQTLLSNGFGASVGLEAAYTQMGAGTGSQLGRVLRLRRTDVRTLVGAGAAGAIAAAFGAPLAGAFYAFEIVIGAYTPTALAPVAVAALAGTFISQAAGVPPYLLPAASASSLHPRDYAVFAALGLVCALVGIVIMRLVTGIEQLVNRSPLPRWGRPVVGGLLLIPLALVTPQTLSSGHGALHIDLTTHLPLLWIGALLGLKCLASGISLGFGFRGGLFFASLFMGTLVGALFAGMVNVAAGDALVDGTAAALAGMAALAAAVVGAPMTMAMLVLEGTHDFVLASAVMAAVLVANTVVRQAFGYSFSTWRLHLRGGTIKSARDVGWVQSLSAGRMMRKGVNTIAADATVEEFRRRFPLGSGTRVVVLDGEGRYAGIVPLSSVYADGVKPDAVLQQFAGNREVALSADADVLAVMRRFDETQSDEMAVVDHAGHLLGVLSENFVRKRYAEELDKRQRELMGERVEDADSDS	PGPT0004990_1144	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0004990-TC_CIC|eriC-K03281	NA	NA
BMS020_06492	744			hypothetical protein	ATGGCCGGGGAACACGACAGGGAGGTCGGCGCATGGCGGCCGCGCGATGACATGGCGATGCAGCAGGCACGCTACGCCGCGCGCGGGCGGGTGGTGCTGCACGACGTGCTGGAACCGGCCTATGCCGAGGCGCTGCGGCAATGCCTGCTGCACTGGCCGCAATGGGCACTGGTGGCGATCATCGGCGGCCAGCATCGCAATTTCGATGCCGCCGCGATGGACCAGCAGCCACCCGCACGCCGCGCCGAGTTCGATGCGCTGGTCAGCGCGCAGGCGCAGGTCGGCATGCAGTACCTGTACGAGCGCTACCCGCTGCGCGATGCCGGGCGCCCGCCGCCGGAGCATCCGCTGCTGCGCGAACTGCACGATCTGCTTGCCGGTGAGCCGTTCCTGGCGATGCTGCGCACGCTGACCGGGCAGTCGCAGATCAATTTCGCCGACGCGCAGGCGACCCGCTACCGGCGTGGCCACTACCTCACCCAGCATGACGACGCGGCCGAGGGCAAACACCGGGTGGCGGCCTACGTGCTCGGCCTGACCCGCGGCTGGCGTGCCGACCATGGCGGCCTGCTGCAGTTCGTCGACGACGCCGGGCGGGTGGACGAAACGCTGCTGCCGGGCTTCAACACGCTGACCGTGTTCGCGGTGCCGACGCCGCACCTGGTCAGCGCGGTGGCGCCGTTCGTCGACGGGGCGCGGATCTCGGTGACCGGCTGGCTGCGCGCGCTGCCGGCGCAGGAGTAG	MAGEHDREVGAWRPRDDMAMQQARYAARGRVVLHDVLEPAYAEALRQCLLHWPQWALVAIIGGQHRNFDAAAMDQQPPARRAEFDALVSAQAQVGMQYLYERYPLRDAGRPPPEHPLLRELHDLLAGEPFLAMLRTLTGQSQINFADAQATRYRRGHYLTQHDDAAEGKHRVAAYVLGLTRGWRADHGGLLQFVDDAGRVDETLLPGFNTLTVFAVPTPHLVSAVAPFVDGARISVTGWLRALPAQE				NA	NA	NA	NA	NA
BMS020_06493	4218			hypothetical protein	ATGTCGCCTATTGAACCCAATGCCAACGTCAGGCTGAGTGAAGGCCGCCGCCGCATCGACGGCGCGATGACCCGCGACCGCGGACGCCTGCTCGGACTATGGTCCCGCTGGCGTGGACAGCCCGGCAACCCCAGTCTGGGGGATGCGTTCGAGCATGCCCTGAACGCGTCGGTCGCGCGACGCGACGCACGCGCGCAGAGCCTGCCCGCGATCAGCCTGGACGAGCAGCTGCCTATCGCGCGCGAGGCCGAGCGCATCGTCGCGCTGATCCGCGAGCACCAGGTGGTGGTGATCGCCGGCGAGACCGGCTCGGGCAAGACCACCCAGCTGCCGAAGCTGTGCCTGGCCGCCGGCCGCGGCAGCGCCGGCATGATCGGCTGCACCCAGCCGCGCCGGATCGCCGCGCGCGCGGTGGCCACGCGTGTGGCCGAGGAGCTGAAAACGCCGCTCGGCAGCGTGGTCGGCTTCCAGGTGCGCTTCACCGACAAGGTCGGCGACGATTCGCGCATCAAGTTCATGACCGACGGCATCCTGCTGGCGGAGATCGCCAGCGACCGCTGGCTGTCGGCCTACGACACGCTGATCATCGACGAGGCGCACGAGCGCAGCCTCAACATCGACTTCCTGCTCGGCTATCTGAAACAGCTGCTGCACAAGCGCCCGGACCTGAAGCTGATCGTCACCTCGGCGACCATCGACACCGCGCGCTTCGCCAGGCACTTCGACGATGCGCCGGTGATCGGCGTGGAAGGCCGCACCTATCCAGTGGAGGTGCGCTACCGGCCGCTTGAAGGCGAAGGCGGCGACGAGGGCGAGGCGCGCGATGGCGAGCGCACGGTGCAGGCCGCCATCGTCGGTGCGATCGACGAGATCACCCGTATCGACCCGCGCGGCGACGTGCTGATCTTCCTGCCCGGCGAGCGCGAGATCCGCGACGCCCACCACGCGCTGGAGCGGCGCAAGTACCGCTCCACCGAGGTGCTGCCGCTGTACGCGCGGCTGTCGGTGAACGACCAGGACCGGGTGTTCAATCCCGGCCCGCAGCGGCGCATCGTACTGGCGACCAATGTCGCCGAGACCTCGCTGACAGTGCCGCGCATCCGCTATGTCGTCGATCCCGGCTACGCGCGTGTCAAGCGCTACAGCCCGCGGCAGAAGCTCGACCGCCTGCATATCGAGCCGATCAGCCAGGCCAGCGCCAACCAGCGCATGGGTCGTTGCGGCCGCATCGCCGAGGGCATCTGCTACCGGCTGTACGCCGAAGCGGATTTCCAGGCGCGCGCCGAGTTCACCGATCCGGAGATCCGGCGCTCGTCGCTGTCCGGGGTGATCCTGCGCATGCTGCAGCTCGGGCTGGGGCGGATCGAGGAGTTTCCGTTCATCGAGGCGCCGGACGAGCGCGCGATCGCCGATGGCTGGCAGCAGCTGGCCGAGCTGGGCGCGATCGATGACGATCGCCGGCTGACCGCCACCGGGCGGCAGATGGCGCGACTGCCGGTCGACGTCAAACTGGCGCGGATGCTGGTGGCCGCACAGGCGCAGGGCTGCCTGCGCGAGATGATCGTGATCGCTTCGTTCCTCGGCATCCAGGATCCGCGCGAGCGCCCGCCCGAGGCGCGCGAGGCCGCCGACAACGCGCATGCGCAGTTCGCCGATGCGCGTTCGGAATTCATCGGCATCCTGCGGTTGTGGGAAGGCTACCGGCAGGCGCACGAGGACCTCACCCAGTCCAAGCTGCGCGACTGGTGCAACCGGCATTTCCTTGGCTTCCTGCGCATGCGCGAGTGGCGCGAACTGCATCGCCAGCTGCGGTTGCTGTGCGAGGAACTCGGTTGGGACGGCGAGGGCGCGACGGCCGAGGCGAAGCCTGCTTCCGGCAAGGGACGAGGACGCCGCGGCGGCGACAAGGCTGCGGCCGACGTCGTGCGCCCGCCCGAAGCCAAGCGCTCCGCGCCGGCGCAACCGTCGCTGCTCGCCGCGCTGTTGGCCGGGCCGGGCGCGGGCGCGTCGGGCGACAACGCGCGGCCGAGCCGCGGCGACCTGCATCGCGCGGCGCGGCTGGCGCGCGAGGGCAGGAAAGAGAAAGCGGGGTCAGAGTCGCTTTCCGCCGCGTCTTCTTCAGGGACCGACGCGGGCCGAGCGCAAAGTGACTCTGACCCCCATATCCCCGAACGCGAACGCGCGCGCGCCTACCAGGCGCTGCACCGCGCGCTGCTGGCCGGTCTGCCGACCCAGCTCGGCCATCGCACCGAGAAGGGCGATTTCCAGGCGCCGCGCCAGCGCCGCTTCCTGCTGTTCCCCGGTTCGGCGCTGGCCAAGCGCCCGCCGCCGTGGGTGCTGACCGCGACGCTGCTGGACACGCAGAAGGTCTGGGGCCTGACCAACGCCGCGATCGAGCCGGACTGGGCAATCGCCGAGTTGCCGCACCTGCTGCTGCGCAAGCATTTCGACCCGCACTGGTCGCGCGCGCAGGGCCAGGTGGTGGCGTCCGAGCAGATCAGCCTGTTCGGCCTGGTGCTGGCGCCGAAGAAGCCGGTGCACTACGGCCGCATCGATCCGGCCGCCTCGCACGACATCTTCGTGCGCCAGGCGCTGGTCACCGGCGAGATCACCACCCGCGCCGGCTTCGTCGCCGACAACCTCAAGCTGCTCGAACACGCACGCGAGGAAGAGGCCAAGCTGCGCCGCGCCGGCATCGTCGCCGACGAGGACTGGCAGGCGCGCTGGTACCTGGATCGGGTGCCGGCCGACATTCATTCCGCCGCAGGCCTGGATGCCTGGTGGAAGACGTTGGCCGAGGACAAGCGCCGCGGCCTGCACTGGGCGCTGGCCGACCTGTTGCCGGGCGAAGGCAGCGAGGCCGACCGCTATCCGAAGTACTTCGCGCTCGGCGATGCGCGGCTGGCCTTGCACTACAAGTTCGAGCCGGGCGCGGTGGACGACGGCGTGACCCTGGAGGTGCCGCTGCACCTGCTCAACGCGCTGGATCCGGCGCGGCTGTCGTGGCTGGCACCGGGCTTCGTCGCCGACAAGGCCGCCGCGCTGATCCGGTCGCTGCCGAAGGCGATGCGGCGCAACTACGTGCCGGCGCCGGATTTCGGCCGCGCGTTCTACGAGGCCTACCCGCAGCCGTCGGCCGACGACATCCGTGGCGAGCTGGCGCGCTTTTTGTCCAAGTCCACCGGCGCGCAGGTCGCGGCGCTGGATTTCGACGAGGCCGCGCTGGAGCCGCATCTGCGCATGAACCTGCGCCTGCGCGACGAGCGCGGCCAGGTGCTGGCCGAAGCGCGCGTGCTGGACGAGTTGCGCGCACGCTTCGGCGACCGCGCCGGCCAGGCGTTCGCGGTGCGCGCCGGGCGCGAGATGGCGGCCGAGGGGCTGCGCGAATTCCCGCGCACGCCGATCCCGCTGCAGGTGCCGGGCGAAGCCGGCGTGCCGGCGTATCCGGCGCTGGTCGATGCAGGCGAGAGTGCGGCGCTGCGGATCTTCGCCGACCGCAACGAGGCCGTCGAACTGCATCCGCGCGGCGTGCGCCGGCTGCTGGAGATCGCGCTGGCCGACAAGATCAAACAGGCGCGCAAGCAGCTGCCGGTGTCGCCGAAGACCGGATTGCTGTACGCCGCGATCGAGTCGCAGGAGCGCTTGCGTGGCGACCTCGTGGACGCGGCGATCAATGCGGTGCTCGCCGATGGGCTCGACGCGATCCGCGAGCCGGATGCGTTCGCCCAGCGTCGCGATGCCGCGGCCAAGGCGCTGTTCGGCGAGGCGATGACCCGGTTGAAGCTGGCCGAGACCATCCTCGGCCTGGTCGCCGAACTCAAGCCGCTGCTGGAGGCGCCGCTGATGGGCTGGGCGCGCGGCAACCTTGACGACATGGAGAAGCAGCTGGTCGGGCTGATCCATCCCGGATTCCTGCGCGATACCCCGGCCGATGCGCTGGCGCAGTATCCGCGTTACCTGAAGGCGATGATCCTGCGCACCGAACGCGCCAAGCGTGATCCTGCCCGTGACCAGGCGCGCATGCTCGAACTGGTGCCATTCCTGGATGCGCTGGAGCAGGCCGACGTGCAGGGGCAGCGCCAGCGGCCGCACTGGCAGGCGTTGCGGTGGGATCTGGAAGAACTGCGGGTGTCGACGTTCGCCCAGGAGCTCGGCGCCCGCACCGGCATCTCGGCCAAGAAGCTGGCCCAGCGGGTGGCGGCGTTGCGCGGCGGCTGA	MSPIEPNANVRLSEGRRRIDGAMTRDRGRLLGLWSRWRGQPGNPSLGDAFEHALNASVARRDARAQSLPAISLDEQLPIAREAERIVALIREHQVVVIAGETGSGKTTQLPKLCLAAGRGSAGMIGCTQPRRIAARAVATRVAEELKTPLGSVVGFQVRFTDKVGDDSRIKFMTDGILLAEIASDRWLSAYDTLIIDEAHERSLNIDFLLGYLKQLLHKRPDLKLIVTSATIDTARFARHFDDAPVIGVEGRTYPVEVRYRPLEGEGGDEGEARDGERTVQAAIVGAIDEITRIDPRGDVLIFLPGEREIRDAHHALERRKYRSTEVLPLYARLSVNDQDRVFNPGPQRRIVLATNVAETSLTVPRIRYVVDPGYARVKRYSPRQKLDRLHIEPISQASANQRMGRCGRIAEGICYRLYAEADFQARAEFTDPEIRRSSLSGVILRMLQLGLGRIEEFPFIEAPDERAIADGWQQLAELGAIDDDRRLTATGRQMARLPVDVKLARMLVAAQAQGCLREMIVIASFLGIQDPRERPPEAREAADNAHAQFADARSEFIGILRLWEGYRQAHEDLTQSKLRDWCNRHFLGFLRMREWRELHRQLRLLCEELGWDGEGATAEAKPASGKGRGRRGGDKAAADVVRPPEAKRSAPAQPSLLAALLAGPGAGASGDNARPSRGDLHRAARLAREGRKEKAGSESLSAASSSGTDAGRAQSDSDPHIPERERARAYQALHRALLAGLPTQLGHRTEKGDFQAPRQRRFLLFPGSALAKRPPPWVLTATLLDTQKVWGLTNAAIEPDWAIAELPHLLLRKHFDPHWSRAQGQVVASEQISLFGLVLAPKKPVHYGRIDPAASHDIFVRQALVTGEITTRAGFVADNLKLLEHAREEEAKLRRAGIVADEDWQARWYLDRVPADIHSAAGLDAWWKTLAEDKRRGLHWALADLLPGEGSEADRYPKYFALGDARLALHYKFEPGAVDDGVTLEVPLHLLNALDPARLSWLAPGFVADKAAALIRSLPKAMRRNYVPAPDFGRAFYEAYPQPSADDIRGELARFLSKSTGAQVAALDFDEAALEPHLRMNLRLRDERGQVLAEARVLDELRARFGDRAGQAFAVRAGREMAAEGLREFPRTPIPLQVPGEAGVPAYPALVDAGESAALRIFADRNEAVELHPRGVRRLLEIALADKIKQARKQLPVSPKTGLLYAAIESQERLRGDLVDAAINAVLADGLDAIREPDAFAQRRDAAAKALFGEAMTRLKLAETILGLVAELKPLLEAPLMGWARGNLDDMEKQLVGLIHPGFLRDTPADALAQYPRYLKAMILRTERAKRDPARDQARMLELVPFLDALEQADVQGQRQRPHWQALRWDLEELRVSTFAQELGARTGISAKKLAQRVAALRGG				NA	NA	NA	NA	NA
BMS020_06494	546	dps2	COG0783	DNA protection during starvation protein 2	ATGGCGAAGACCAAGACCAGCAGCAAGAAGACCAGTCCGAAGGCCCTGCCCGCGACCGCGCCGTCGGCGCCGAACATCGATATCGGGATCAAGACCGGCGATCGCAAGAAGATCGCCGACGGCCTGTCGCACTACATGGCCGACGCCTTCACCCTGTACCTGAAGACCCACAACTTCCATTGGAACGTCACCGGGTCGATGTTCAACTCGCTGCACACCATGTTCGAGACCCAGTACACCGAGCAGTGGGGCGCACTGGACGACGTCGCCGAGCGCATCCGTGCGCTGGGCTACAACGCGCCGGGCTCGTACAAGGAATATCTTGCCCTGACCTCGATCCCGGAGGAGCCGGGCCTGTCCGACAGCGCCGACTGGCGCGAGATGGTGCGCCAGCTGGTGGCCGGCAACGAGGCGGTGTGCCGCACCGCGCGCAAGGTGCTGAGCACCGCCGACGACGCCGGCGACGACCCGACCGCCGACCTGCTGACCCAGCGCCTGCAGACCCACGAGAAGTACGCCTGGATGCTGCGCTCGCTGTTGCAGTAA	MAKTKTSSKKTSPKALPATAPSAPNIDIGIKTGDRKKIADGLSHYMADAFTLYLKTHNFHWNVTGSMFNSLHTMFETQYTEQWGALDDVAERIRALGYNAPGSYKEYLALTSIPEEPGLSDSADWREMVRQLVAGNEAVCRTARKVLSTADDAGDDPTADLLTQRLQTHEKYAWMLRSLLQ	PGPT0004055_466	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047	NA	NA
BMS020_06495	1797	recQ_1	COG0514	ATP-dependent DNA helicase RecQ	ATGCAATCCCCCGCCCATGAAGTCCTGCAGCGCGTCTTCGGCTACGACGCGTTTCGCGGCAACCAGCAGGCCATCGTCGAACACGTCGCCGCCGGCAACGACGCACTGGTGCTGATGCCCACCGGCGGCGGCAAGTCGCTGTGCTACCAGATCCCGGCGCTGCTGCGCGAGGGCACCGGGATCGTGGTCTCGCCGCTGATCGCGCTGATGCAGGACCAGGTCGAGGCGCTGCACCAGGCCGGCGTGCGCGCCGAATACCTCAACTCCACGCTTGACGCCGAAACCGCCCAGCGGGTGGAGCGCGAGCTGCTCGCCGGCGAGCTCGACATGCTCTACGTCGCGCCGGAGCGGCTGCTGACCGGGCGCTTCCTGTCACTGCTCGAACGCAGCCGGATCGGTCTGTTCGCGATCGACGAGGCGCACTGCGTGTCGCAGTGGGGCCACGATTTCCGCCCCGAGTACCGCCAGCTCACCGTGCTGCACGAGCGTTGGCCGCACATCCCGCGCATCGCGCTGACCGCCACCGCCGACCCGCCGACCCAGCGCGAGATCGCCGAGCGCCTGGACCTGGTCCACGCCGAGCACTTCGTCAGCTCCTTCGACCGCCCCAACATCCGCTACACCGTGGTGCAGAAGGACAACGCGCGCCGCCAGCTGCTGGACTTCATGGGCCGCCACCGCGGCGAGGCCGGCATCGTCTATGCGATGTCGCGGCGCAAGGTCGAGGAGACCGCCGAGGTGCTGGCCGCGCAGGGTTATACCGCGCTGCCCTACCACGCCGGCCTGCCGGCCGAGGTGCGCGCCGCCAACCAGCGTCGCTTCCTGCGCGAGGACGGCATCGTGATGTGCGCGACGATCGCCTTCGGCATGGGCATCGACAAGCCCGACGTGCGCTTCGTCGCCCACGTCGATCTGCCCAAGTCGATGGAAGGCTACTATCAGGAGACCGGCCGCGCCGGCCGCGACGGCGAATCCTCCGAGGCGTGGCTGTGCTACGGCCTGGGTGACGTGGTGCTGCTCAAGCAGATGATCGAGCAGGGCGAGGCGGCCGAGGAGCGCAAGCGCCTGGAACGGGCCAAGCTCGACCATCTGCTCGGCTACTGCGAATCGATGCAGTGCCGCCGCCAGGTGCTGCTGGCCGGCTTCGGCGAGACCTATCCCAGGCCCTGCGGCAACTGCGACAACTGCCTGACTCCGGCCGCCAGCTGGGACGCCACGGTGCCGGCGCAGAAAGCGCTGAGCTGCGTGTACCGCAGCGGCCAGCGCTTCGGCGTCGGCCAGCTGATCGACATCCTGCGCGGCGCCGAGACCGACAAGATCAAGCAGTTCGGCCACGACCAGATCAGCACCTACGGCATCGGCCGCGACCTGGATTCGCGCGCCTGGCGCAGCGTGTTCAGGCAGCTGGTCGCCGCCAGCCTGCTGGAAGTGGACAGCGAAGGCCACGGTGGCCTGCGCCTGACCGACGCCAGCCGCCAGGTACTCAAGGGCCAGCGCCAGGTGATGATGCGTCGCGACCAGCCAGCCAGCCGCGACCGCAGCAACACCCCACGCACGGGGCTGTCGGTGCCGCCGGAGGACCTGGCGCTGTTCAACGCGCTGCGCACCCTGCGCGCACAGCTGGCCAAGGAGCAGAACGTGCCCGCGTTCGTGATCTTCCACGACAGCACGCTGCGCAACATCGCCGAACAGCGCCCGACCAGCGTCGATGCACTGGCCCGGGTCGGCGGCATCGGCGGCGGCAAGCTGGCCCGCTATGGCGAGCAGCTGGTGGAGATCGTGCGCGAACAGGGCTGA	MQSPAHEVLQRVFGYDAFRGNQQAIVEHVAAGNDALVLMPTGGGKSLCYQIPALLREGTGIVVSPLIALMQDQVEALHQAGVRAEYLNSTLDAETAQRVERELLAGELDMLYVAPERLLTGRFLSLLERSRIGLFAIDEAHCVSQWGHDFRPEYRQLTVLHERWPHIPRIALTATADPPTQREIAERLDLVHAEHFVSSFDRPNIRYTVVQKDNARRQLLDFMGRHRGEAGIVYAMSRRKVEETAEVLAAQGYTALPYHAGLPAEVRAANQRRFLREDGIVMCATIAFGMGIDKPDVRFVAHVDLPKSMEGYYQETGRAGRDGESSEAWLCYGLGDVVLLKQMIEQGEAAEERKRLERAKLDHLLGYCESMQCRRQVLLAGFGETYPRPCGNCDNCLTPAASWDATVPAQKALSCVYRSGQRFGVGQLIDILRGAETDKIKQFGHDQISTYGIGRDLDSRAWRSVFRQLVAASLLEVDSEGHGGLRLTDASRQVLKGQRQVMMRRDQPASRDRSNTPRTGLSVPPEDLALFNALRTLRAQLAKEQNVPAFVIFHDSTLRNIAEQRPTSVDALARVGGIGGGKLARYGEQLVEIVREQG				NA	NA	NA	NA	NA
BMS020_06496	480			hypothetical protein	ATGAAACGCAGCCTTTTCCTGCTCGGTGCCCTGCTCGTCTGCGCCAACGCGGCCGCCCAGGAGACCACCTCCAGCACCGACACCTCGGCCACCGCGCTGGACCTGAGCGTGCCGAAGGAGCCGGTCCAGTACCGCAGCGATCCGAGCTACACCAAGGACCCGCCCGGCACGTTCTACGGCGACAAGAGCGGCAAGTCCGCCTCGGCCACCGTGCGTGAGCAGCAGCGCATCGCCGCGCAGGCCGAGGCCTGCAAGGGCGAGCTGCACGGCAGCGTCACCGCCGGCGTCGGCTACGCCAGCCACGGCGGCAACAGCAACTGGCAGGGTGCCAACCTGAACAGCTGCAAGACTTACTACGACGACGAGGGCAACGCCAGGACCATCGGCGTCAGCATCAGCGTCGGCCGCGGCGAGGGCCCCGGCTTCGGCCGTGGCTATGGCTACGGCCCCGGTTACGGCTATCCGCCGCCGGCGTGGTGA	MKRSLFLLGALLVCANAAAQETTSSTDTSATALDLSVPKEPVQYRSDPSYTKDPPGTFYGDKSGKSASATVREQQRIAAQAEACKGELHGSVTAGVGYASHGGNSNWQGANLNSCKTYYDDEGNARTIGVSISVGRGEGPGFGRGYGYGPGYGYPPPAW				NA	NA	NA	NA	NA
BMS020_06497	408			Blue-light-activated protein	ATGCCTACTGCCCTGGATCGCCCCATCGTCCTCGTCGCCGAGGATGGCGATGGCACCCGTCAACTGAGTTGCCTGGTGCTGGAAAGCGCCGGATTCGTCTGCCGCGAGGCCGGTTCGGTGGAAGCGGCCCTCGCGATGCTCGGCGACGGCAGCCGCATCGACATCGTCTTCTCCGATATCCACTTCCCTGGCGGCCGCAGCGGCGTGGACCTGGCGCAGCGGGCCTTGGCCGGCTCACCGCCGATCCCGGTCCTGATGACCTCCGGCCTGGCCGTCGAATACGTCGAGGATGTCCTGCCGGAACGGGTGGCGTTCCTCGAGAAGCCTTACACGCCGGACCAGCTGGTGGCCGCGATCAACAGCGTGCTGGGCCGACGCACGCGCAGCCGGACCCCGGCGACCGCCTGA	MPTALDRPIVLVAEDGDGTRQLSCLVLESAGFVCREAGSVEAALAMLGDGSRIDIVFSDIHFPGGRSGVDLAQRALAGSPPIPVLMTSGLAVEYVEDVLPERVAFLEKPYTPDQLVAAINSVLGRRTRSRTPATA				NA	NA	NA	NA	NA
BMS020_06498	423			hypothetical protein	GTGGCCTCGGCCGTGTTCCAGCGAAACCCCGCCATCGTGCGGGGTTTCGTCGTTCATGCGCCTTGCGTGACGGGCTGCGGACGTCATGCGTTGCCCGGCGGCCCGGGAACCCCGCGTGCGGCCCTATCATGGGGCATCCCCTGCGAGCCGCCGATCCCGCCGATGAACAGTGCATTGCCGCCGCTGCCTGCGATCACCCCAGGCCACTACCGCCACTTCAAGGGCGGCGAATACGAAGTGCTGGGACTGGCGCGCAGCAGCGAGACGCTGGAGCCGGTGGTGCTGTATCGCCCGCTGTACGACGACATCGGCCTATGGGTGCGGCCGTATGCGATGTTCGTCGAGACGGTCGAGGCCGAGGGCCGTCGTCAGCCGCGGTTCGCCTATCTGGGACCGATGCCCGCGGAGGGCGGTGGCGACTGA	MASAVFQRNPAIVRGFVVHAPCVTGCGRHALPGGPGTPRAALSWGIPCEPPIPPMNSALPPLPAITPGHYRHFKGGEYEVLGLARSSETLEPVVLYRPLYDDIGLWVRPYAMFVETVEAEGRRQPRFAYLGPMPAEGGGD				NA	NA	NA	NA	NA
BMS020_06499	2505			hypothetical protein	ATGCAATCGATCTTTCCGGCCGTTCCTGACGGTTCGCGCGGATGCGCTCGCGTCACGCCACGCGGCCTGCAGCGTTGGCGCTCGGCGGTACTCCTTGTTCTTGCCGGCGTGTCGGGCGTCAGCGCGGCCACGACCTTCACCGACAGTTCCTCGGGCAACACCTTCGTGGTGGCGTCGTCGCCCCTCGGCGGCCTTTCCGGGTGCAACCTGATCCCGGGGACCCACCAATACGCTTCGCGGACGGTGACCACCAACGCCGCGGCCACCTACGATTTCAAGATCACCTCGGTCAGCGGCTTCGCTAACGATCCGTTCCTCGCCATCTACAGCGGCACGTTCGATCCCTCCAATCCGACCGCGAACCTGGTCGCCTGCAACGACGACACCAATGGCCTGCTGTCGGAGTTCACCGCAGCACTGCCCGCCAATACGACCTATACCGTGGTCACGACGTCCTACGGGACCGGCAGCAGCGGTTCGGCGACCTACACGGTGTCGCCTGACGTGACCATCGCGCCGGACGTGACCAATGTCGCCGTCAGCAATGTGGGGAACACGAGCGCCGTGCTCGCCGGTACCAGCAGCAGTGCTGGCACCCTGTACTACGTGGTGCAGGTGTCGTCGGCCAGTGCGCCGAGTGTCGCGCAGGTCATCGCCGGGCAGCAGTCGTCGGGCGCCGCGGCCGTGGCATCCGGCAATGCAGCCGTGTCGGCGGCGACGGCGCAGAGCTTCTCGGTCGCCGGGCTGACCGCCGGGACCGCCTATACCGCCTATCTGGTCGCCAACGACAGTTCGACCACGCCGCTGAGTTCCTCAAGGGTCTCGGTGTCGTTCACCACGACGGCGATCACGACGCCGGAAGCGCCGACCATCGGCACGGCGACCGCAGGCGATGCCCAGGCTACCGTGACGTTCACGGCGCCGTCGTCGACGGTGGCGATCACCGGCTATACGGTGACTTCCAGCCCCGGTGGCATCACCGCGACGGGCAACGCCAGTCCGATCACGGTGACCGGGCTGACCAACGGCACCGCCTATACGTTTACGGTGACCGCCGATTCGGCCAATGGCAGCAGCGAGGCTTCCGAAGCGTCGAACGAGGTGACGCCGATCGGTGCGACCACGCTAGGTGCGTTCGGCCCGTTCAACAAGGTCTACGGCGAATCCGCCTTCACGCTGACCGCGCCGACGTCGCCGAGCTCGGGCGCCTTCACCTATACGATCGACAACACCTCGGTCGCCACGATCAGCGGCGATGTCGTCACCATCGTGGGCGTCGGCACCGCGGTGATCACCGCCACGCAGGCCGCCACGGCCGACTATGCCGGCGCCAGCACCACCGGCACGCTGGTGGTGGCCGATCGTCCCGATCCGACCAAGAACGCGGAAGTGGTCGGCGTGCTGCAGGCCCAGGCCGATGCGGCCCTGCGCTTCGTCAGCGCGCAGCAGTCCAACGTCCGTGACCGCCTGCGGCAGCGCCGCTCCAGCGACGCCGCGGTGAGCGCCAATGGCCTGTCGGTGAGCGCCGCCGGAGGCGACGGGATGTCGCTGACGCCCGAGCTGGTGAGCGACCGGGCCGGCGACCGCGGGAGCTGGTCGCTGTGGACGGGGGGCAACGTCTCCATCAGTCAGCGCGATGCGACCACGCGCGCGGTCAGCAGCGACCTGCGCAGTGATGGCGTCACCGTCGGTGCCGATACCTCGCTGGGCAAGAATGCGCTGGTCGGCCTGGCCGCCGGCCGTGGCTGGGGCAAGTCCACCGTAGGCGGCAGTGGCTCCCGCGTCGATGCAACCCAGCGAGCGGTGATGGCCTATGGCCTGTGGAAGGTCAGTGACGCACTGTTCGTCGATGGTCAGCTCGGCTACGGCTCGCTGGACTACGATCTGCGCCGCTGGAGCACCGATGCCGACACCCTCGCGACGGCGACGCGCAACGGCTCGCAGCTCTTCGGCTCGCTGACCGTCGGTTACGACAAGATCACCGCACTTGGACGGCTGACCGGCTATGGCCGCCTGGATGCCGGCCGGACAGAGCTGGATACCTATCGTGAGAATGGGCTGGGCATCTACGACCTGGTCTATCGCGACCAGCACGTCGACCAGCGCAGCCTGGCTGCAGGCCTGGAGGGGAGCTACAGCATCGGGCGGGATTGGCGGCGTGCGGCACGTCCGTACTGGCAGGTCGAGTATCGCAACGACTTCAGCCGCCGAAGCAATGCCTACATGAACTACGTGGTCGCGCCGGTGGACGAGGACTATCTGCTCGCACTGTCGCCGACCAGCACCTCGAACTGGACGCTGGGCCTGGGGTCGGACTTCGCGCTCGGCAATGGCATGACCATCACGGCCAGGGTCCAGCATGAGATCAGCGTCGGCGCGGGCAGCACCACCGCCTTCGGGCTGCAGTTCTCGTTCGATCTGGATGCGAACCTCGGTCGCCGCGCGGTGCCCGCCGCCGCCACGGCCGAGCAAGACAGCGACGCGAAGGCCGGGAAAGGCAAATAA	MQSIFPAVPDGSRGCARVTPRGLQRWRSAVLLVLAGVSGVSAATTFTDSSSGNTFVVASSPLGGLSGCNLIPGTHQYASRTVTTNAAATYDFKITSVSGFANDPFLAIYSGTFDPSNPTANLVACNDDTNGLLSEFTAALPANTTYTVVTTSYGTGSSGSATYTVSPDVTIAPDVTNVAVSNVGNTSAVLAGTSSSAGTLYYVVQVSSASAPSVAQVIAGQQSSGAAAVASGNAAVSAATAQSFSVAGLTAGTAYTAYLVANDSSTTPLSSSRVSVSFTTTAITTPEAPTIGTATAGDAQATVTFTAPSSTVAITGYTVTSSPGGITATGNASPITVTGLTNGTAYTFTVTADSANGSSEASEASNEVTPIGATTLGAFGPFNKVYGESAFTLTAPTSPSSGAFTYTIDNTSVATISGDVVTIVGVGTAVITATQAATADYAGASTTGTLVVADRPDPTKNAEVVGVLQAQADAALRFVSAQQSNVRDRLRQRRSSDAAVSANGLSVSAAGGDGMSLTPELVSDRAGDRGSWSLWTGGNVSISQRDATTRAVSSDLRSDGVTVGADTSLGKNALVGLAAGRGWGKSTVGGSGSRVDATQRAVMAYGLWKVSDALFVDGQLGYGSLDYDLRRWSTDADTLATATRNGSQLFGSLTVGYDKITALGRLTGYGRLDAGRTELDTYRENGLGIYDLVYRDQHVDQRSLAAGLEGSYSIGRDWRRAARPYWQVEYRNDFSRRSNAYMNYVVAPVDEDYLLALSPTSTSNWTLGLGSDFALGNGMTITARVQHEISVGAGSTTAFGLQFSFDLDANLGRRAVPAAATAEQDSDAKAGKGK				NA	NA	NA	NA	NA
BMS020_06501	678	queC_2	COG0603	7-cyano-7-deazaguanine synthase	ATGAAGAAAGCCGTCGTCCTGCTGTCCGGAGGCATGGATTCCGCCGCCGTCGTCGCCATCGCCCGCGAGCAGGGCTTCGCCGTGCATGCGTTGAGCGTGCGCTATGGCCAGCGGCATACCTCCGAGCTGGAGGCCGCCGCGCGCGTGGCGCAGGCGCTGGGCGTGATCGCGCACAAGGTGGTCGATGTCGACCTGCGCAGCATCGGTGGCTCGGCGCTGACCGACGACGCGATCGACGTGCCCGAGGCCGGCGGTAGCGGCATCCCATCAACCTACGTGCCGGCGCGCAACACCATCATGCTGTCGCTGGCGCTGGGCTGGGCCGAAGTGCTCGGGGCCAACGACATCTTCTGTGGAGTCAATGCGGTCGACTATTCCGGCTATCCAGACTGTCGTCCGGAATTCGTCGCCGCGTTCGAGGCGCTGGCGAACCTGGCGACCAAGGCCGGGGTCGAGGGTGCCGGACTGCGCGTGCATGCGCCGCTGCAGTACCTGAGCAAGGCCGACATCGTGCGCGAAGGCCTGCGCCTGGGCATGGATTTCGGCCTGACCGTGTCGTGCTACAGCGCCGACGCGCAGGGCCATGCCTGCGGCCACTGCGACGCCTGCCAACTGCGTGCGGCCGGCTTCGCCGATGCCGGCGCCGCCGACCCGACGCGGTATGCGACTTCGCGTTGA	MKKAVVLLSGGMDSAAVVAIAREQGFAVHALSVRYGQRHTSELEAAARVAQALGVIAHKVVDVDLRSIGGSALTDDAIDVPEAGGSGIPSTYVPARNTIMLSLALGWAEVLGANDIFCGVNAVDYSGYPDCRPEFVAAFEALANLATKAGVEGAGLRVHAPLQYLSKADIVREGLRLGMDFGLTVSCYSADAQGHACGHCDACQLRAAGFADAGAADPTRYATSR				NA	NA	NA	NA	NA
BMS020_06502	690	queE_2		7-carboxy-7-deazaguanine synthase	ATGACGTCCGTTGCCGCCGCCACCCCCAGTGAGATCGTCCAGTCGCCGTTGCCGCGGCTGAAGATCACCGAGATCTTCCTGTCGCTGCAGGGCGAGGCCGAGGCGGCCGGCTGGCCGACCGTGTTCGTGCGCCTGACCGGCTGCCCGCTGCGCTGCGTCTACTGCGATACCGAATACGCCTTCCACGGCGGACAGTGGTACGACATCGACGCGATCGTCGCCGAGGTGCGTAGCCACGGCGTGCGCCATGTCTGCGTGACCGGCGGCGAGCCGCTGGCGCAGAAGCGCTGCCTGCTGCTGCTGCGCCAGCTGTGCGATGCCGGCCTGGACGTCTCGCTGGAAACCTCCGGCGCGCTCGATGTCGCGGCAGTCGACCCGCGCGTGTCGCGCGTGGTCGACATCAAGACCCCCGGCTCCGGCGAAGTGCAGCGCAACCGCTGGGGCAACCTGCCGCTGCTGACCGCGCGCGACCAGATCAAGTTCGTGCTGTGCAGCCGCGCCGACTACGAGTGGGCGCGCGAGGTGGTGCGCGAGCACGACCTGGCCGCGCGCTGCACGGTGTGGTTCTCGCCCAGCAAGAGCGAGGTCACGCCGCGCGAGCTGGCCGACTGGATCGTCGCCGACCGCCTGCCGGTGCGCTTCCAGATGCAGCTGCACAAGCTGCTGTGGAACGACGAGCCGGGCCGCTGA	MTSVAAATPSEIVQSPLPRLKITEIFLSLQGEAEAAGWPTVFVRLTGCPLRCVYCDTEYAFHGGQWYDIDAIVAEVRSHGVRHVCVTGGEPLAQKRCLLLLRQLCDAGLDVSLETSGALDVAAVDPRVSRVVDIKTPGSGEVQRNRWGNLPLLTARDQIKFVLCSRADYEWAREVVREHDLAARCTVWFSPSKSEVTPRELADWIVADRLPVRFQMQLHKLLWNDEPGR				NA	NA	NA	NA	NA
BMS020_06503	807	cpoB_3	COG1729	Cell division coordinator CpoB	GTGAAGCGTTTCGGGCTCATCACCCTGTTCGTCGCGGCGGCCCTCGTGGCCGCCGCGCCGGCGTATGCGCAACGCCAGAGCCTGGCCGACCGCGTCGCCGCGCTCGAGCAGCAGGCCGCCAATCCCCAGGCCAACATGGACCTGCTGAACCAGCTCAACGAGCTGCGCAGCCAGGTGCAGAACCTGCAGGGGACGGTGGAACAGCTGCAGCACGAGAACGACAAGCTCAAGCAGCAGATCAAGGACCAGTACCTGGATCTGGACGGTCGCGTCAACCGCATCGAAAGCGGTGCCACGCCTCCGTCGACCGTTGCCCCGGCGAACGCCCCGGCACCGGCAGGCAAGCCCGGCACGGCGGCCACTTCCGAGCGGCCGCCCTCCGTCCATGGTGATGCCGGCACGCTGGCCGCCGCCGCGGACGAGCGCACCTCCTACAACGTCGCCTTCGAGGCGTTGAAGAACGGCAAGTACGACGACTCCTCGCAGCTGTTCCTCAGCTTCCTGGAGCTGTATCCGAATGGCGTGTACACGCCCAACGCGCTGTACTGGCTCGGCGAAAGCTATTACGCCACCCGCAATTTCCAGCTGGCCGAGGTGCAGTTCCGCGACCTCGTCAGCCGTTACCCCACGCACGACAAGGCCGCTGGCGGCCTGCTGAAGCTGGGCCTGTCGCAGTACGGCGAGGGCAAGGCCCGCGATGCGCAGCAGACGCTGCAGCAGGTGGTGTCCAAGTATCCCGGCAGCGACGCTGCCCGCGTGGCGCAGGATCGCCTGCAGTCCATCCAGCTCGGCCAGCAGCTGCACTGA	MKRFGLITLFVAAALVAAAPAYAQRQSLADRVAALEQQAANPQANMDLLNQLNELRSQVQNLQGTVEQLQHENDKLKQQIKDQYLDLDGRVNRIESGATPPSTVAPANAPAPAGKPGTAATSERPPSVHGDAGTLAAAADERTSYNVAFEALKNGKYDDSSQLFLSFLELYPNGVYTPNALYWLGESYYATRNFQLAEVQFRDLVSRYPTHDKAAGGLLKLGLSQYGEGKARDAQQTLQQVVSKYPGSDAARVAQDRLQSIQLGQQLH				NA	NA	NA	NA	NA
BMS020_06504	513	pal_5	COG2885	Peptidoglycan-associated lipoprotein	ATGAACAAGTCCACCCGCGTTCTGCTTGTTTCTCTGCTGTCCGTGGCCGTGCTGGCCGGCTGCTCGAAGAAGGTTAAGGAAGAGCCGCAGGCTCCGGTCGACACCACGCCGACCACGCCGACCGCTCCGGCCACTTCGGGTCTGTACGGTCCGGACGACCTGGACACCGACGCTTGCCTGCGTCAGCGTGTCGTCTACTTCGACTTCGACCAGGATTCGGTCAAGCCGGAATTCCAGGCCATCATGGCTTGCCATGCCAAGTACCTGCGTGACCGTCCGTCGGCTCGCATCACCCTGCAGGGCAACACCGACGAGCGCGGTTCGCGCGAGTACAACCTCGGCCTGGGCGAGCGTCGTGGTAACGGCGTGAGCTCGGCGCTGCAGGCCAACGGTGGTTCGGCCAGCCAGCTGACCGTGGTCTCCTACGGCGAAGAGCGTCCGACCTGCACCGAGTCCAACGAGGGCTGCTGGTCGCAGAACCGTCGCGTCGAGATCGTGTACACCGCGAAGTAA	MNKSTRVLLVSLLSVAVLAGCSKKVKEEPQAPVDTTPTTPTAPATSGLYGPDDLDTDACLRQRVVYFDFDQDSVKPEFQAIMACHAKYLRDRPSARITLQGNTDERGSREYNLGLGERRGNGVSSALQANGGSASQLTVVSYGEERPTCTESNEGCWSQNRRVEIVYTAK				NA	NA	NA	NA	NA
BMS020_06505	1320	tolB_3	COG0823	Tol-Pal system protein TolB	ATGAAGACATTGCCTCGCTGGCTTGCCGTGCTTGCCGCCCTGGCGCTGCCGTTCGCCGCCTCGGCGCAGCAGCAGGGCCTCACCATCGACATCGTCGGCGGCAGCGCCTCGGCGACCCCGATCACCGTGGTGCCGATGCCCTACCAGGGCGGTGGCGCCGTGCCACAGACCGACGTATCGGCGGTGGTTGGCGCCGACCTGGACCGCTCCGGCCAGTTCCGCACCCTGCCGCAGACGCAGATCGTCGAGAAGCCGACCCGCGGCAGCGAGGTCCAGTTCCCGACCTGGCGCGCGCTGAAGCAGGACTACATCGTCGTCGGCCGGGTGCTGGACGCCGGCGAGGGCGCCTACCGGGTCGAGTACGAACTGTTCGACGTCGGTCGCGGCGAGCGCCTGCTGGGGCTGGCGATGACCGCCCGCAGCAACGCGATGCGCGACGTCGCCCACCAGATGGCCGACGCGATCTACGAGAAGATCACCGGTGTACGTGGCGCGTTCTGGACCCGCATCGCCTACGTCACCGCGACCGGTTCGGGCGGCAACATGCGCTACGCGCTGATGGTCGCCGATTCGGACGGCTACAACCCGCAGACCATCGTCCGCTCGGCCGAGCCGCTGCTGTCGCCGAACTGGAGCCCGGACGGCAAGAAGCTGGCCTACGTCAGCTTCGAGCGCGGCAACTCCTCGATCTACATCCAGGACGTGTCGACCGGCGCGCGCGAGCTGGTGTCCAGCTTCCGCGGCATCAACGGCGCCCCGTCGTTCTCGCCGGATGGCCGCCGCCTGGCGCTGGCGCTGTCGCGCAGCGGCAACCCGGAGATCTACGCGATGGACCTGGGCAGCAAGCAGCTGACCCAGCTGACCAACCACTTCGGCATCGATACCGAGCCGACCTGGGCGCCGGACGGCCAGTCGATCTACTTCACCTCCGACCGCGGTGGCCGGCCGCAGATCTACCAGGTCCCGGCCTCGGGCGGTTCGGCCAGCCGGGTGACCTTCCAGGGCAACTACAACGCCACCGCCAGTGTCTCCTATGACGGCAAGAAGCTCGTCATGGCCCAGGGCGCCGGCAACAGCTACCGCATCGCGATGATGGACCGCAGCCTGGGCTCGGCCAGCTGGAGCAGCCTGTCGCCCGGCTCGCTGGATGAATCGCCGAGCTTCGCGCCCAACGCGAGCATGGTGCTGTACGCCGCCCGCGAGGGTGGCCGTGGTGTGCTGTATGCCGTGTCCGCCGATGCGCGGGTCCGCCAGCGGCTGGTCCTGGCCGATGGCGATGTAAGGGAACCCGCTTGGGGGCCTTACCGAAGCGCGCATTAA	MKTLPRWLAVLAALALPFAASAQQQGLTIDIVGGSASATPITVVPMPYQGGGAVPQTDVSAVVGADLDRSGQFRTLPQTQIVEKPTRGSEVQFPTWRALKQDYIVVGRVLDAGEGAYRVEYELFDVGRGERLLGLAMTARSNAMRDVAHQMADAIYEKITGVRGAFWTRIAYVTATGSGGNMRYALMVADSDGYNPQTIVRSAEPLLSPNWSPDGKKLAYVSFERGNSSIYIQDVSTGARELVSSFRGINGAPSFSPDGRRLALALSRSGNPEIYAMDLGSKQLTQLTNHFGIDTEPTWAPDGQSIYFTSDRGGRPQIYQVPASGGSASRVTFQGNYNATASVSYDGKKLVMAQGAGNSYRIAMMDRSLGSASWSSLSPGSLDESPSFAPNASMVLYAAREGGRGVLYAVSADARVRQRLVLADGDVREPAWGPYRSAH				NA	NA	NA	NA	NA
BMS020_06506	1065			hypothetical protein	ATGCACGCTGAAGCCCTTCCACCGCAGCAGTCGCGCGATGGCGACTGGGGCCGTCCTGTGGTGCTGGCGCTGCTGGTGCATGCGCTGGTCCTGCTGGTGTTCGTGATCGCCTGGCTGTGGTCCCCCGACCGCGCGACCGAGGCCGCCGCCGGTGCGCCGTCGCTGGAGGCCAGTCTCGACGTGTCCGCCTCGGACGCGCGGGTGGCACGCCAGGCGTTGCAGGCCGAGGCGGAGCCGTTCACGCCGCCGCCGCCACCGACGCCGGTCCCGCAGCCGGCGGAGGAGGACACCGTGCCGCCGCCGCAGCCGATCGAGGAGAAGCGGCCGCAGGATGCGCCGGCGCCGCAGCAGGCCAATGCGCAGGAGCGCATCGCCCAGCCGGACACGGTCGACCAGGAGCGCGTCAGCGCGATGGCCGAGTCCGAGGAGAAGGCCAAGAAGGAGCAGGAGGCCAAGCGCCGCCAGGAGCAGATCGACCTGACCGAACGCAAGCGCCAGGAAGAGGCCGAGCAGCAGCGCCGCCTCGCCGCGCAGCAACAGGAGGAGGCCGACAAGAAGAAGGCCGCCCAGGAAGCTCAGGCGCAGGCCGAGCGCGACAAGAAGCTGGCCGAGCTCCGCAAGAAGCGCGAGCAGCTCGAGGCGCAGATGGCCCGCGACAGCCAGCAGGCCGCGCTGGCCGAGCAGAAGCTGCGGCAGCTGGCTGCGGCGCGCGCCCAGCAGGCTTCCTCGGGCGCCAATGCGGCCAGTGCTGCGGCGTCGCCCGGCGCCGGTGGCACCAGCAACGACCTGACCGCCAAGTACGCCGCGGCGATCCAGCAGGCGGTGCTGGCGCAGTGGACGCGACCGGATTCGGTGCCGCTGGGGCAGAAGTGCACGATCCACATCCGCCAGGTGAAGGGGGGGACGGTGATCAACGCCGAGGTGTCGGGCAACTGTCCGTTCGATGACGCTGGCCGGCGTTCGGTCGAGGCGGCGGTGCTGAAGGCGCAGCCGTTGCCGTACCGCGGCTTCGAGTCGGTGTTCTCGCCCGATCTGAACTTCAACTTCACTGCCCAGGACCGCTGA	MHAEALPPQQSRDGDWGRPVVLALLVHALVLLVFVIAWLWSPDRATEAAAGAPSLEASLDVSASDARVARQALQAEAEPFTPPPPPTPVPQPAEEDTVPPPQPIEEKRPQDAPAPQQANAQERIAQPDTVDQERVSAMAESEEKAKKEQEAKRRQEQIDLTERKRQEEAEQQRRLAAQQQEEADKKKAAQEAQAQAERDKKLAELRKKREQLEAQMARDSQQAALAEQKLRQLAAARAQQASSGANAASAAASPGAGGTSNDLTAKYAAAIQQAVLAQWTRPDSVPLGQKCTIHIRQVKGGTVINAEVSGNCPFDDAGRRSVEAAVLKAQPLPYRGFESVFSPDLNFNFTAQDR				NA	NA	NA	NA	NA
BMS020_06507	438	exbD_5	COG0848	Biopolymer transport protein ExbD	ATGATGTCCGGCATTTCCCGCCGCAAGAAGCGCAAGCTCAAGTCCGAGATCAACGTCGTTCCGTACATCGACGTGATGCTGGTGCTGCTGATCATCTTCATGGTCACCGCGCCGTTGTTGACGCTGAGCACCGATGTGAACCTGCCGACCTCGCGCGCCAAGGCGCTGGAGAGCCGCAAGGACCCGATCGTGGTGGTGGTGGCCGCCGACGGCCAGCTGGCGTTGCAGTTGCCCAAGGACAAGCCCAAGGCGATGGACCAGGCGACCCTGCAGGCGCAGCTGGCGGCGATCGTCGCGCAGGACAAGGAGGCGCGCGTGGTCGTGGCCGGCGACCGCGAGGTGCCGTACCAGAAGATCATGGACGCGATCGATGCGATCAAGCAGGCCAAGGTCGAGAAGGTTGGCCTGATCTCCGATTCCGGCGGCAATGCACGCTGA	MMSGISRRKKRKLKSEINVVPYIDVMLVLLIIFMVTAPLLTLSTDVNLPTSRAKALESRKDPIVVVVAADGQLALQLPKDKPKAMDQATLQAQLAAIVAQDKEARVVVAGDREVPYQKIMDAIDAIKQAKVEKVGLISDSGGNAR				NA	NA	NA	NA	NA
BMS020_06508	780	tolQ_3	COG0811	Tol-Pal system protein TolQ	ATGTCGATCGCATTGCTCCTGGCCCTGCAGGACACGGTGGTGGAAGCGCTGCCGCAGGACGTCGCCGAGGCCGCGGCGCAGACCGCCACGGTCGCCCATACCGGCAGCATCAACTATCTGGAGCTGATCGCCCGCGCCAGCATCCCGGTGAAGATCATCGTGTTGCTGCTGCTGATCGGCTCGTTCATCAGCTGGGTGATCATTTTCCGCAAGGCGCGCGCCTTCAAGCTGGCCAACCGCGAGGCCGAGGACTTCGAGAACCGCTTCTGGTCCGGCGCCGACCTCGGCAAGCTGTACTCGTCCGCGACCGACCGCAACCGCAGCGTCGGCGGCATGGAGGCGATCTTCGAGGCCGGTTACCGCGAGTTCGCGCGCCTGCGCGACCGCCGCCGCCTGGATGCGCGGGTGCAGCTGGAAGGCGCCCAGCGCGCCATGCGCGTGTCGTTCGCGCGCGAGGTCGATGGGCTGGAGCGCAATCTCGAGCTGCTTGCCAACATCGGCTCGACTGCGCCGTACGTCGGCCTGGTCGGCACGGTGTTCGGCATCATGGTGACCATGCACGACATGATCAGCAGTGGTGAGCAGGCAGGCATCGCGTCGGTCGCGCCGGGTATCTCCGAGGCGCTGTTCGCCACCGCGATCGGCCTGTTCGTGGCGATCCCGGCGGTGTGGGCCTACAACCGCTTCACCAACCGCGTCGAGCGGTTGTCGGTGCGCTACGACACCTTCGCCGACGAGTTCAGCTCGATCCTGCAGCGCCAGACCGGCGCCGACGAGTAA	MSIALLLALQDTVVEALPQDVAEAAAQTATVAHTGSINYLELIARASIPVKIIVLLLLIGSFISWVIIFRKARAFKLANREAEDFENRFWSGADLGKLYSSATDRNRSVGGMEAIFEAGYREFARLRDRRRLDARVQLEGAQRAMRVSFAREVDGLERNLELLANIGSTAPYVGLVGTVFGIMVTMHDMISSGEQAGIASVAPGISEALFATAIGLFVAIPAVWAYNRFTNRVERLSVRYDTFADEFSSILQRQTGADE				NA	NA	NA	NA	NA
BMS020_06509	447			hypothetical protein	ATGACCCCGCAGTCCCCCGCAGCCCCACAGCTATTCAGTTGGCCGACACGGGTCTACTGGGAAGATACCGACGCCGGTGGCGTGGTCTACCACGCGCGCTACGTCGCCTTCATGGAACGGGCGCGCACCGAATGGATGCGCGCGCTTGGCTACGGCCAGGAGCGCACCCGTCAGGACCACGACCTGGTGTTCGCGGTGCGCTCGATGAGCTTGGATTTCATCGGGCCTGCCCGGCTCGACGATGCGCTGGAGGTCACGGTGGCGCTGCGCGGCTGCAAGCGCGCCAGCCTGCTGTTCGACCAGACCATCGTCCGCGACGGGCAGGTGCTGACCACGGCGCGGGTGCGGCTGGCCGCGCTGGGCGCCGCGAGTTTCCGCCCGCGCGGAATGGACGATGCGCTGTACGACGTGTTGAAGACCCTGGTAACCCAAGAATCCGAAGACTGA	MTPQSPAAPQLFSWPTRVYWEDTDAGGVVYHARYVAFMERARTEWMRALGYGQERTRQDHDLVFAVRSMSLDFIGPARLDDALEVTVALRGCKRASLLFDQTIVRDGQVLTTARVRLAALGAASFRPRGMDDALYDVLKTLVTQESED	PGPT0001850_2337	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
BMS020_06510	1038	ruvB_2	COG2255	Holliday junction ATP-dependent DNA helicase RuvB	ATGGACCGCATCATCGACAGCAGCGCCACCCGCGAGGACGACGCCGCCGAGGCCAGCATCCGCCCCAAGCGGCTGGCCGACTATCTTGGCCAGGCGCCGGTACGCGAGCAGATGTCGATCTACATCGAGGCGGCCAAGGCGCGCGGCGATGCGCTCGACCATGTGCTGATCTTCGGCCCGCCGGGGCTGGGCAAGACCACGTTGAGCCATGTGATCGCCAACGAGCTGGGGGTCAACCTGCGGGTGACTTCCGGGCCGGTGATCGAGAAGGCCGGCGACCTGGCCGCGCTGCTGACCAACCTGCAGCCGCACGACGTGCTGTTCGTCGACGAGATCCACCGCCTGTCGCCGGTGGTCGAGGAAGTGCTGTACCCGGCGATGGAAGACTTCCAGATCGACATCATGATCGGCGAGGGCCCGGCCGCGCGTTCGATCAAGATCGACCTGCCGCCGTTCACCCTGATCGGCGCGACCACCCGCGCCGGCCTGCTGACCGCGCCGCTGCGCGACCGTTTCGGCATCGTCCAGCGCCTGCAGTTCTACTCGGCCGAGGAACTGACCCGGATCGTGGCCCGTTCGGCGACGATCCTCGGCATCGACTGCAGCGCCGAAGGCGCCGGCGAGGTCGCGCGGCGGTCGCGCGGCACCCCGCGCATCGCCAACCGGCTGCTGCGGCGGGTGCGCGATTACGCCCAGGTGCGTGCCGGCGGCCACATCGACCGCGAGATCGCCCAGGCCGCGATGCAGATGCTCAAGGTCGACCCGGAGGGCTTCGACGAGCTCGACCGGCGCATGCTGCACACCATCATCGACCACTTCGACGGCGGCCCGGTCGGGGTGGAGTCGCTGGCCGCCTCGCTGTCGGAGGAACGCGGCACCATCGAGGACGTGATCGAGCCGTACCTGATCCAGCAGGGCTTCCTGGTCCGGACCGCACGCGGGCGCATGGCCACGCGCAAGGCCTACCTGCACCTGGGGCTGACCCCGAAGGCCCGCGAGCCGGCCGGCGGGGCGGGGGAGTCCGGCGACCTGTTCTGA	MDRIIDSSATREDDAAEASIRPKRLADYLGQAPVREQMSIYIEAAKARGDALDHVLIFGPPGLGKTTLSHVIANELGVNLRVTSGPVIEKAGDLAALLTNLQPHDVLFVDEIHRLSPVVEEVLYPAMEDFQIDIMIGEGPAARSIKIDLPPFTLIGATTRAGLLTAPLRDRFGIVQRLQFYSAEELTRIVARSATILGIDCSAEGAGEVARRSRGTPRIANRLLRRVRDYAQVRAGGHIDREIAQAAMQMLKVDPEGFDELDRRMLHTIIDHFDGGPVGVESLAASLSEERGTIEDVIEPYLIQQGFLVRTARGRMATRKAYLHLGLTPKAREPAGGAGESGDLF				NA	NA	NA	NA	NA
BMS020_06511	1920	kup_1		Low affinity potassium transport system protein kup	ATGTCCCATTCCTCTCCCACCGGCACCCCCGCCCACGGCGGCTCCGGGCATGCGCCGGCCAACGGCGGCTTCGCCCTGGTCCTGGCCGCGATCGGCGTCGTTTTCGGCGACATCGGCACCAGTCCGCTGTACACGCTGAAGGAGGCGTTCTCGCCGCACTACGGCCTCAACAGCGACCACGACACGGTGCTGGGCGTGCTGTCGCTGGCGTTCTGGGCGCTGATGATCACCGTCACCCTGAAGTACGTGACCATCATCATGCGCGCCGACAACGACGGCGAGGGCGGCATCATGGCGCTGATGGCGTTGGCCCAGCGCACGCTGAAGAAGGGCTCGCGCTCGGCCTACGTGGTCGGCATCCTCGGCATCTTCGGCGCTTCGCTGTTTTTCGGCGACGGCGTGATCACCCCGGCCATCTCGGTCATGGGCGCGATCGAGGGACTGGAGATCGCCGCGCCCAGCCTGCACCCGTTCATCGTGCCGATCACCGTGGTGGTGCTGGTGATCGTGTTCATGGCCCAGCGCTTCGGCACCGAGAAGATCGGCAAGGCGTTCGGCCCGATCACCTCGGTGTGGTTCCTGTCGCTGGCGGCGATCGGCATCTGGAACATCGTCGATGCGCCGGAGGTGCTCAAGGCCTTCAATCCGTGGTGGGCGGTGCGCTTCTTCATGGACCACGGCTGGCACGGCATCTTCATCCTCGGCGCGGTGGTGCTGGCGGTGACCGGCGGCGAGGCGCTGTATGCCGACATGGGCCACTTCGGTCCGCGGCCGATCCGCCACGCCTGGTATTTCTTCGTGCTGCCGTGCCTGCTGCTGAACTACCTGGGGCAGGGGGCGCTGGTGCTGGTGCATCCCTCGGCGCTGAAGAATCCGTTCTTCGAGGCGGTGCCGGAATGGGCGCTGTATCCGATGATCGTGCTGGCCACGCTGGCGGCGGTGATCGCCTCGCAGGCGGTGATCACCGGCGCCTATTCGGTGGCCCGGCAGGCGATGCAGCTCGGTTACATCCCGCGGATGCTGGTCAAGCACACCTCCAGCGACACCATCGGCCAGATCTACGTACCCGGCATCAACTGGCTGCTGGCGGTGATGGTGATCGCGCTGGTGCTGATCTTCCGCAGCTCGACCAACCTGGCGGTGGCCTACGGCATCTCGGTGTCGATGACGATGCTGATCGACACCCTGCTGCTGGCGCTGGTGGCGCGCGCGCTGTGGCCGAAGTGGCGGCGCTGGGTGCTGCCGCTGTGCGTGGTGTTCTTCACCATCGAGCTGGCATTCGTGGTCGCCAACGGCGCCAAGCTGCTGCAGGGGGCCTGGTTCCCGCTGGCGCTGGGGCTGCTGGTGTTCACCCTGATGCGCACCTGGCGCCGCGGCCGCGAGCTGCTGCGCGAGGAGATCCGCAAGGACGGCATCCGCATCGACAGCTTCCTGCCCGGGCTGATGCTGGCCCCGCCGGCGCGGGTGCCCGGCACCGCGGTGTTCCTGACCGCCGACCCGATGGTGGTGCCGCATGCGCTGATGCACAACCTCAAGCACAACAAGGTGCTGCACGAGCGCAACGTGTTCCTGACCGTGGAAACGCTGCCGATCCCGTACGCGCCGGGCGACAAGCGGCTGAAGATGGAGTCGATCGGCGACGAGTTCTACCGGGTCTACGTGCGCTACGGGTTCATGGAGACTCCGGACGTGCCGCTGGCGCTGATGCGCTCGTGCGACCGCGGCGGGATCTATTTCGACCCGATGGACACCACGTTCTTCGCCAGCCGCGAGACCATCGTCGCCAGCGCCAACCGCGGCATGCCGATCTGGCGCGACAAGCTGTTCGCGCTGATGCACCGCAATGCGGCCCCGGCGACCGGCTTCTTCCGCATCCCGGGCAACCGGCTGGTCGAGCTCGGCGCCCAGGTCGAGATCTAG	MSHSSPTGTPAHGGSGHAPANGGFALVLAAIGVVFGDIGTSPLYTLKEAFSPHYGLNSDHDTVLGVLSLAFWALMITVTLKYVTIIMRADNDGEGGIMALMALAQRTLKKGSRSAYVVGILGIFGASLFFGDGVITPAISVMGAIEGLEIAAPSLHPFIVPITVVVLVIVFMAQRFGTEKIGKAFGPITSVWFLSLAAIGIWNIVDAPEVLKAFNPWWAVRFFMDHGWHGIFILGAVVLAVTGGEALYADMGHFGPRPIRHAWYFFVLPCLLLNYLGQGALVLVHPSALKNPFFEAVPEWALYPMIVLATLAAVIASQAVITGAYSVARQAMQLGYIPRMLVKHTSSDTIGQIYVPGINWLLAVMVIALVLIFRSSTNLAVAYGISVSMTMLIDTLLLALVARALWPKWRRWVLPLCVVFFTIELAFVVANGAKLLQGAWFPLALGLLVFTLMRTWRRGRELLREEIRKDGIRIDSFLPGLMLAPPARVPGTAVFLTADPMVVPHALMHNLKHNKVLHERNVFLTVETLPIPYAPGDKRLKMESIGDEFYRVYVRYGFMETPDVPLALMRSCDRGGIYFDPMDTTFFASRETIVASANRGMPIWRDKLFALMHRNAAPATGFFRIPGNRLVELGAQVEI	PGPT0002720_2985	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002720-trkD|kup-K03549	NA	NA
BMS020_06512	630	ruvA_2	COG0632	Holliday junction ATP-dependent DNA helicase RuvA	GTGCGTCCGGATCGGCAGCGTCTGCCGCGCCGGGGGCCGCCGGTGATCGGGCGCCTGCGCGGGCTGCTGGCCTACAAGCAGCCGCCGTGGCTGGTGATCGACGTCGGTGGCGTCGGCTACGAGCTGGAGGCACCGATGAGCACCTTCTATGACCTGCCGGACGTCGGCCGCGAGGTGATCCTGTTCACCCACTATGCGCAGAAGGAAGACAGCGTCGCGCTGTACGGCTTCCTGCGCGAAGGCGAGCGCAGGCTGTTCCGCGACGTGCAGAAGGTGTCCGGGATCGGCGCCAAGATCGCCCTGGCGGTGCTGTCGGGGGTCAGCGTCGACGAATTCGCCCGGCTGGTGCAGACCGGCGACGTGACCGCGCTGACCCGGATCCCGGGCATCGGCAAGAAGACCGCCGAGCGCATGGTCGTGGAACTCAAGGACCGGGCCGCCGACTTCAGTGGCGGTGGCGCGCCGATCACCGGCCAGCTCGGCCCGGATGCGGTGTCCGAGGCGACCGTGGCCCTGCAGCAGCTGGGCTACAAGCCGGCCGAGGCCGCGCGGATGGCGCGCGAGGCCGCCGCCGACGGCGACGATGTCGCCACCGTCATCCGCAAGGCCCTGCAGGCCGCGCTGCGCTGA	MRPDRQRLPRRGPPVIGRLRGLLAYKQPPWLVIDVGGVGYELEAPMSTFYDLPDVGREVILFTHYAQKEDSVALYGFLREGERRLFRDVQKVSGIGAKIALAVLSGVSVDEFARLVQTGDVTALTRIPGIGKKTAERMVVELKDRAADFSGGGAPITGQLGPDAVSEATVALQQLGYKPAEAARMAREAAADGDDVATVIRKALQAALR				NA	NA	NA	NA	NA
BMS020_06513	522	ruvC_2	COG0817	Crossover junction endodeoxyribonuclease RuvC	GTGACCCGCATCCTCGGCATCGATCCGGGCTCGCAGCGCACCGGCGTCGGCATCATCGACGTCGACGCCGGCGGCCGGGTCAGCCATGTCCACCATGCGCCGCTGGTGCTGCTGGGCGAGGGGGACTTCGCCCAGCGCCTGAAGCGGCTGCTGCACGGGCTGGCCGAGCTGATCGAGCTGCATCGCCCGGACGAGGTTGCGATCGAGCAGGTGTTCGTCGGCAAGAGTGCCGATTCGGCGCTCAAGCTCGGCCAGGCCCGCGGTGCGGCGATCTGCGCGGTGGTGCTGCGCGACCTGCCGGTGCACGAATACGGGCCCAAGCAGATCAAGCTGGCGCTGGTCGGCAAGGGCGGCGCGGACAAGGTCCAGGTGCAGCACATGGTCGGGCTGATGCTCAACCTCAAGGGCAAGCTGCAGCCCGACGCCGCCGACGCATTGGCGGTGGCGATCACCCACGCCCACACCCGCGCCAGCGCCACGCGCATGGGCATCGACACCAAACAGGCCTGGAGCCGCAGATGA	MTRILGIDPGSQRTGVGIIDVDAGGRVSHVHHAPLVLLGEGDFAQRLKRLLHGLAELIELHRPDEVAIEQVFVGKSADSALKLGQARGAAICAVVLRDLPVHEYGPKQIKLALVGKGGADKVQVQHMVGLMLNLKGKLQPDAADALAVAITHAHTRASATRMGIDTKQAWSRR				NA	NA	NA	NA	NA
BMS020_06514	729		COG0217	putative transcriptional regulatory protein	ATGGGTAGAGGCCCTTCGATCGAAGCCCGCAAGAACGCGGTAGACGCCAAGCGCGGCAAGGTTTTCACCAAGATCATCCGCGAGATCGGCGTGGCCGCGCGTGCCGGCGGCGGCGATCCGAACAACAACCCGCGCCTGCGCGTGGCCATGGACAAGGGCCTGGCGGCTAACATGTCCAAGGACGTGATCGAGCGCGCGATCAAGAAGGCCACCGGCGAGCTGGAAGGCGTCGAGTACGAGGAGATCCGCTACGAGGGCTATGCCCCGGGTGGCGTCGCCGTCATCGTCGACTGCCTGACCGACAACCGCGTGCGCACCGTGGCTGATGTCCGCCATGCCTTCAGCAAGTGCGGTGGCAACCTCGGCACCGAGGGTTCGGTGGCCTTCATGTTCAAGCGCCTGGGCGTGCTCAGCTACGGCGGCGGCCTGGACGAGGACCAGCTCACCGAGGCGGCGATCGAGGCCGGTGCCGACGACGTGGTGGTCTACCCGGAGGACGGCGCGATCGACGTGCTGACCGCGGCGGACACGTTCTCGCAGGTCAAGGACGCGATGCAGGCCGCCGGCCTGGCGCCCGGCCACGCCGAGATCACCTTCCGCGCCGACAACGACATCGCCGTCGATGCCGAGACCGCGGTGCAGGTGCGCAAGCTGCTGGACATGCTCGAGGACCTGGACGACGTGCAGGACGTGTACTCCAACGTCGACCAGTCTTCGCTTGGCGGCTGA	MGRGPSIEARKNAVDAKRGKVFTKIIREIGVAARAGGGDPNNNPRLRVAMDKGLAANMSKDVIERAIKKATGELEGVEYEEIRYEGYAPGGVAVIVDCLTDNRVRTVADVRHAFSKCGGNLGTEGSVAFMFKRLGVLSYGGGLDEDQLTEAAIEAGADDVVVYPEDGAIDVLTAADTFSQVKDAMQAAGLAPGHAEITFRADNDIAVDAETAVQVRKLLDMLEDLDDVQDVYSNVDQSSLGG				NA	NA	NA	NA	NA
BMS020_06515	657			hypothetical protein	ATGGCGGCGCCGTGCCAGCGGGTGGTGATGCTGCACGGGGTGTGGAATTCGCGGGCCTGGTTGATGGTGCTGGCGGCGCGGCTGCGGCGGCGCGGGCTGGCGGTCAGCTGCTTCGGCTACGCCAGCATCCTCGGCGGCCCGGAGCCGGCGGCGCGGCGCCTGGCCGAGCACCTGCGGCGCTTCCAGGCCGATGCGGTGGTCGCGCACAGCCTGGGCGGACTGGTCGCGCTGCACACCCTGGGCGCCGCGCCCGGGCTGCCGGTGCGGCGGCTGGTCTGCCTGGGCTCGCCGCTGGCGGGCAGCGCGGTCGCGCGCACCCTCGCGCGGCGCGGGCGCTTGCTGCTCGGGCGCTTACTGCTCGGGCGTTCGGCGGCGCTGCTGTGCGCAGGCATCGACGGCTGCGCCGGCGCGGTCGAGGTCGGCCAGGTGGCCGGCAGCGTGCCGCGCGGGGTCGGGCGCTGGCTCGGGATCGGGGTGGCGTCCGACGGTACCGTGGCCTTGGCCGAGACCCGCATCGCGGGCCTGGCCGACCACTGCGTGGTGGCGGCCTCGCACGCCGGATTGCTGGTGTCGGCGCAGGCCGAGGAGCGGGTCGCCGGCTTCCTGCGCGCGGGGCGCTTCTGTGTCACACCGCGGTCGGGCGAGGGGATCAGGTAA	MAAPCQRVVMLHGVWNSRAWLMVLAARLRRRGLAVSCFGYASILGGPEPAARRLAEHLRRFQADAVVAHSLGGLVALHTLGAAPGLPVRRLVCLGSPLAGSAVARTLARRGRLLLGRLLLGRSAALLCAGIDGCAGAVEVGQVAGSVPRGVGRWLGIGVASDGTVALAETRIAGLADHCVVAASHAGLLVSAQAEERVAGFLRAGRFCVTPRSGEGIR				NA	NA	NA	NA	NA
BMS020_06516	309			hypothetical protein	ATGAAGCAGGCAATCCTTGTGTCGGTGCTGGTGGTCGCACTGGCGGGCTGCGCCCCGCCGCCGTCGATGCAGCCGTCCTCGCCAGGGCCGCAGGTGCAGGGCAGTGGACTGTGCGACGCCTCCAAGGTCGCCTGGGCGGTCGGCAAGGTCGCCGACCAGGAGACGATGCGGCGGGTCTGGAAGGAGAGCGGGGCCGGCCTGCTGCGGCCGTTGGCGCCGCGCCAGGCGGCCACGCTCGACCATCGCCCGGACCGGGTCAACGTGCATATCGATGCCGCCAATGTCATCGGCAAGATCGACTGTGGCTGA	MKQAILVSVLVVALAGCAPPPSMQPSSPGPQVQGSGLCDASKVAWAVGKVADQETMRRVWKESGAGLLRPLAPRQAATLDHRPDRVNVHIDAANVIGKIDCG				NA	NA	NA	NA	NA
BMS020_06517	855			hypothetical protein	ATGATGGACTGGGACGACCTGCGCCATTTCGCCGCCTTCGTGCAGGCTGGCTCGCTCGCGGCGGCGGCGCGGCGGCTCGGTGTCGAGCACGCCACCGTGGCGCGCCGCATCGCCGCGCTGGAGGCGGCGCTGGACCTGAAGCTGGTCGACCGGCGCGCGCGCAGCTACGTGCTGACCGCCGACGGCGAGCGGATCGGTGCGCTCGGCCGGCAGATGGACGAGGACGCGCAGGCGGTGGTGCGCGCGGCCACCGCCGCCGGCCAGCAGCAGGTCGCCGGGCGGGTGTCGTTGAGCGTGCCGCCGGCCACCGCCAACACCTTGCTGGCGCCACGGCTGGGCGAGCTGCGCGCGCGCCACCCGGCGATCCGGCTGACGGTGATCGCCGAGACCCGGTTGGCGTCGCTGCGCAACGAGACCGACCTGGCGATCCGGCTGCTGCGGCCGGAAGACCCGGAGCTGGTGGTGCGCCGGCTGCGCTCGCTGACCTTCTCGTACTACGCCGCGCCGGACTACCTGGCACGGGTGGCGCCGGCCGACTACGCCTTCATCGGCTACGACGAAAGCCTGGACGACAGCGCGCAGCAGCGGGCGATGCTGGCGTTCGCCGCTGGCCGGCCGCTGGTCCTGCGCAGCAATAGCGCCGACGTGCAGCGCGGGGCGGTGCGTGTCGGGGTCGGCATCGCGCTGCTGGCCGACCTGCCGGGGCTGGCCGAGGATCCGGCGCTGGTGATCCTGCCCGGCGGCGGGCGGGTGATGGAACGCGAGCTGTGGCTGGTGGTGCACCGCGACCTGCGCCAGGCCGCGGCGGTGCGCGCGGTCGCCGATTTCCTCGGCGAGGTGCTGGGCGGGGCGTGA	MMDWDDLRHFAAFVQAGSLAAAARRLGVEHATVARRIAALEAALDLKLVDRRARSYVLTADGERIGALGRQMDEDAQAVVRAATAAGQQQVAGRVSLSVPPATANTLLAPRLGELRARHPAIRLTVIAETRLASLRNETDLAIRLLRPEDPELVVRRLRSLTFSYYAAPDYLARVAPADYAFIGYDESLDDSAQQRAMLAFAAGRPLVLRSNSADVQRGAVRVGVGIALLADLPGLAEDPALVILPGGGRVMERELWLVVHRDLRQAAAVRAVADFLGEVLGGA				NA	NA	NA	NA	NA
BMS020_06518	936			hypothetical protein	ATGCGGCCCCACCTGCCCACCTATGCCAGCCTGGTGCTGACCGCCTTCTTCTGGGGCAGTGCCTTCAATGTCGGCGCCCACGTCATCGCCGGCATGCCGCCGATCAGCGCCGGCGCGGAGCGCTTCGCGCTGGCCAGCGTCGCGCTGTTCACCCTGCTCGCCACGACTGGCCGGCTCGACTGGGCGCGGATCCGCCCACACCTGCCGGCACTGGCGGCGGTCGGTCTGCTCGGCGTGGCCGGCTTCAACCTGGCGATGTTCTTCGGCCTGCGCGCGACCAGCCCGCTCAACGCCGCGCTGCTGATGGCCACCACCCCGCTCTGGACGCTGCTGCTGTCGCTGCTGTTCGAACGCGAGCGGATCGACCGCTGGCGCGGCGCCGGCCTGCTGAGCGGACTGGCCGGGGTGGCGCTGGTGGTCAGCGGTGGCGACCCGCTGCGCCTGCTGCAGCTGCGCCTGGGCGCCGGCGACGCGATCGTGCTCGGCGGCGCGCTGGCCTGGGCGCTGGCGACGGTGCTGTCGCGGCGCCACCTGCAGGCGCTCGATCCGGTCCAGACCACGACCTGGTCGATCGGCATCGGCACGTTGGCGATGTTGGCGCTCGCGGCCTGGCACGACCAGCCGTTGGCGGCGATGACGCAGGCGCCGGCCAGCGTGCACTGGGGCATCGCCTACCTGGCGTTGTGCAGCTCGGTACTGGGCTACCTGTTCTGGTTCAGCGCGACCCGCCGCCTCGGCGCGGCGCGCACGGCCGCGTTCTTCAATCTGGTGCCGGTGTTCACCCTGCTGGTGGCGCTGGCCGGCGGACAGCGGCCGCTGCCGGCGCAGCTGCTCGGCGTGGCGGCGGTGATCGGCGGCGTGGTGCTGGCCGCGCGCGGCGGGCGTCCGGCGCCGGCCGCTGGCACCGCCGTGGCCGCCGGGAGCTGCCGCGGATGA	MRPHLPTYASLVLTAFFWGSAFNVGAHVIAGMPPISAGAERFALASVALFTLLATTGRLDWARIRPHLPALAAVGLLGVAGFNLAMFFGLRATSPLNAALLMATTPLWTLLLSLLFERERIDRWRGAGLLSGLAGVALVVSGGDPLRLLQLRLGAGDAIVLGGALAWALATVLSRRHLQALDPVQTTTWSIGIGTLAMLALAAWHDQPLAAMTQAPASVHWGIAYLALCSSVLGYLFWFSATRRLGAARTAAFFNLVPVFTLLVALAGGQRPLPAQLLGVAAVIGGVVLAARGGRPAPAAGTAVAAGSCRG				NA	NA	NA	NA	NA
BMS020_06519	402			hypothetical protein	ATGATCCCGTTGCTGCTGCGCCTGCTGCTATGCCTGTGCCTGGTCGTCGACACGACCGCCGCGGCGTGGGCGGGCGGAATGGCCGCACCGGCCGCGGTGCCGGCCCCGGCACCGGCGGACACGATGGCCGGCATGGCCAGCAGCGGCTGCCACGACGCCGACGCCAGCGCACCGGCACCGGCCACCGCCGCGCAGCACCCAGACCACGCACCGCCCGGCCACGCCCACGGGGGCGCCTGCTGCAAGACCAGCTGCGACTGCCTGCAGCACTGCGCCGGCGCCGCCCTGCCCGCCGCCGCGCTGGCGCTGACGGCCGCCCCGGTGGCCGCCCCAGGCTGGTTGCCACACAGCCGCCGCGGCGACCCCGCCCCGTACCGCCCGGTCCGACCTCCGATCGCCTGA	MIPLLLRLLLCLCLVVDTTAAAWAGGMAAPAAVPAPAPADTMAGMASSGCHDADASAPAPATAAQHPDHAPPGHAHGGACCKTSCDCLQHCAGAALPAAALALTAAPVAAPGWLPHSRRGDPAPYRPVRPPIA				NA	NA	NA	NA	NA
BMS020_06520	1104			hypothetical protein	ATGTCGCACCGCCAGTGGGTGGCCGCCGCCATCCAGAAGATCGAGGCCGACTTCAACCGGTCCGCCGACACTCACCTGATCCCGATGGCGCTGCCCGGCTATCCCGGCATCGACGTCTACTTCAAGGACGAGTCCAGCCATCCGACCGGCAGCCTCAAGCACCGGCTGGCGCGCTCGCTGTTCCTGTACGCGCTGGCCAACGGCTGGCTGCGCGAGGGGCGTCCGGTGATCGAGGCCTCCAGCGGTTCGACCGCGGTGTCCGAGGCGTACTTCGCCCGGTTGCTGGGGCTGCCGTTCGTCGCGGTGATCCCGGCCAGCACCTCGCCGGAGAAGATCGCCGCGATCGAGTTCCACGGTGGCCGCTGCCACCTGGTCGAGCGTGCCTGCGATCTCGACGGCGCCTCGCATGCACTGGCGCGCGAGAGCGGCGGCCACTTCATGGACCAGTTCACCTACGCCGAACGCGCCACCGACTGGCGCGCCAACAACAACATCGCCGAGTCGATCTTCCGGCAGATGGGCGAGGAACGGCACCCGGTGCCGGAATGGATCGTCTGCAGCCCGGGCACCGGTGGTACCGCCGCCACGCTCGGCCGCTACGTGCGCTACCGCCGCCATGCCAGCCGCATCCTGTGCGCCGATCCGGAAGTGTCGGTGTTCTTCGACGGCTACCGCGCCGCGCTGGCCGGTGAAGACGTCGAGGCGCTGGCGATCACCGGTGGTTCGGGCATCGAGGGCATCGGCCGGCCGCGGGTGGAGCGCAGCTTCATCCCCAGCTGCGTCGACGCGATGGTCAAGGTGCCCGATGCGCTGGCGCTGGCGGCGATGCGCCACGTCAGCAGGGTGCTGGGGCGCCGCGTCGGCGGCTCCACCGGCACCAACTTCGTCGGCGTGCTGCATGCGGCGGCGCTGATGCGCGCCGACGGCCGGCAGGGCTCGATCGTCACCATCCTGTGCGACAGCGGCGAGCGTTACGCCCACAGCTACTACAACCACGACTGGTATCTGCAGCGCGGCATCCCGATCGTCGAGAACGACGATGCGATCGCCGCCGCGGTCGCCGGCGGGCCGTTGCCCGCGCTGGCTTGTGCCGCGCAGGAATGA	MSHRQWVAAAIQKIEADFNRSADTHLIPMALPGYPGIDVYFKDESSHPTGSLKHRLARSLFLYALANGWLREGRPVIEASSGSTAVSEAYFARLLGLPFVAVIPASTSPEKIAAIEFHGGRCHLVERACDLDGASHALARESGGHFMDQFTYAERATDWRANNNIAESIFRQMGEERHPVPEWIVCSPGTGGTAATLGRYVRYRRHASRILCADPEVSVFFDGYRAALAGEDVEALAITGGSGIEGIGRPRVERSFIPSCVDAMVKVPDALALAAMRHVSRVLGRRVGGSTGTNFVGVLHAAALMRADGRQGSIVTILCDSGERYAHSYYNHDWYLQRGIPIVENDDAIAAAVAGGPLPALACAAQE	PGPT0002810_792	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
BMS020_06521	2025	prlC_2	COG0339	Oligopeptidase A	ATGACCAACCCGTTGCTGGACTTCTCCGGACTGCCGCGCTTCGACGCGATCCTGCCCGAGCACATCGGCCCGGCGATCGAGCAGCTGCTCGCCGACGCCGAGGCGGCGGTCAAGCACGCCGAGACGGTCACGCCGGTGAACTGGGACAGCTTCGTGGTGCCGCTGGACGACGCCACCGAGCGGCTGTACCGCGCCTGGGGCCAGGTCGGGCACCTGCAGGCGGTGGTCAACACGCCGGCGCTGCGCGAGGCCTACAACGCCAACCTGCCGCGGATCAGCCGTTTTGGCAGCGCACTGGCGCAGAACCTGGCGCTGTACGCGCAGTACAAGGCGCTGCTGGCCGCGCCGGAAGCGGCCGGCTATGACGCCGCGCGGCGCAAGGTGCTGGACAACGCGCTGCGCGATTTCCGCCTCGGTGGCGCCGAGCTGGGCGACGCCGACAAGGCGCGCTTCGCCGCGGTGCAGGAAGAACTGTCGGCGCTGTCGGCCAAGTTCTCGCAGAACGTGCTCGATGCCACCGATGCGTGGTCGCACGTGGTCGTCGACGCCGCCGAGCTGTCGGGGCTTCCCGCCGAAGTGGTCGCCGCTGCCCGTGCCGCCGCGGACAAGGACGGCGTGCAGGGCTGGAAGCTGACCCTGCAGATGCCGTGCTATCTGCCGGTGCAGAGCTATGCCGACGACCGCGCGCTGCGCGCGCTGCTGTACCGCGCCAATGCCGAGCGCGCCTCGGAGTTCGGCGATCCGGCATTGGACAACAGCGGCAACATCGCCCGGATCCTGGCCCTGCGCGCCGAGCTGGCCGCGCTGCTCGGCTTCGCCAGCTACGCCGAGTATTCGGTGGCGACCAAGATGGCCGACACCCCGGCGCAGGTGCTGGCGTTCCTGCGCGATCTGGCTGCGCGCGCCAAGCCGCACGCGCAGCGCGACCGCGCCGAGCTGGAGGCGTTCGCACGCGACGAGCTCGGCCTGGACGCGCTGGAGGCCTGGGACCTGGCCTACGTGAGCGAGAAGCTCAAGCAGGCGCGCTACAGTTTCTCCGAGCAGGAAGTGAAGCAGTATTTCACCGAGCCGAAGGTGCTGGCCGGGCTGTTCGACGTGATCCAGTCGCTGTACGGGCTGCGGGTGGAGCCGGACAGCGCGCCGGTGTGGCATCCGGACGTGCGCTTCTACCGCCTGGTCGATGCCGAAGGCGCGCTGGTCGGCCAGTTCTACCTCGACCTGTACGCGCGCGAAGGCAAGCGCGGCGGCGCATGGATGGACGATTGCCGCAACCGCCGCGTGCGCGCCGAGGGCGTGCAGACGCCGCTGGTGTACCTGGTGTGCAATTTCGGCCGTGGCAGCGGCGATGCGCCGGCGACGTTCCGCCACGGCGAGGTGACCACCCTGTTCCACGAGATGGGCCATGGCCTGCATCAGCTGCTGACGCGCATCGGCGAGCTGGGCGTGGCTGGCATCAACGGCGTGGAATGGGATGCGGTGGAGCTGCCCAGCCAGTTCATGGAGAACTTCTGCTGGGAGTGGGAGCGCGTGCAGGCGATGACCGCGCACGTGGAGAGCGGCGCGCCGCTGCCGCGCAACCTGTTCGAGAAGATGCTGGCCGCGCGCAACTACCAGAGCGGCATGTTCACCGTGCGCCAGCTCGAGTTCGGCCTGTTCGACATGCAGTTGCACGCCGATTTCGATGCGGCCAGCGACAGCGTGCTGGCGTTGCTGGAACGCGTGCGCGACGAGGTCGCGGTCAATCGCCCGCCGGCCTGGAGCCGCTTCCCGCATCAGTTCAGCCACATCTTCGCCGGCGGCTATGCGGCCGGCTACTACAGCTACAAGTGGGCCGAGGTACTCAGTGCGGACGCCTACGCCGCGTTCGAGGAAGCACCGGACCAGCTGGCTGCGACCGGTGCGCGTTTCCGCGACGAGGTGCTGGCCCGTGGCGGCAGCCGCGCGGCGGCGGAGAACTTCCAGGCGTTCCGCGGCCGCCCGCCGCGGATCGACGCCCTGCTGCGGCACAGCGGCATGGCCGGCTGA	MTNPLLDFSGLPRFDAILPEHIGPAIEQLLADAEAAVKHAETVTPVNWDSFVVPLDDATERLYRAWGQVGHLQAVVNTPALREAYNANLPRISRFGSALAQNLALYAQYKALLAAPEAAGYDAARRKVLDNALRDFRLGGAELGDADKARFAAVQEELSALSAKFSQNVLDATDAWSHVVVDAAELSGLPAEVVAAARAAADKDGVQGWKLTLQMPCYLPVQSYADDRALRALLYRANAERASEFGDPALDNSGNIARILALRAELAALLGFASYAEYSVATKMADTPAQVLAFLRDLAARAKPHAQRDRAELEAFARDELGLDALEAWDLAYVSEKLKQARYSFSEQEVKQYFTEPKVLAGLFDVIQSLYGLRVEPDSAPVWHPDVRFYRLVDAEGALVGQFYLDLYAREGKRGGAWMDDCRNRRVRAEGVQTPLVYLVCNFGRGSGDAPATFRHGEVTTLFHEMGHGLHQLLTRIGELGVAGINGVEWDAVELPSQFMENFCWEWERVQAMTAHVESGAPLPRNLFEKMLAARNYQSGMFTVRQLEFGLFDMQLHADFDAASDSVLALLERVRDEVAVNRPPAWSRFPHQFSHIFAGGYAAGYYSYKWAEVLSADAYAAFEEAPDQLAATGARFRDEVLARGGSRAAAENFQAFRGRPPRIDALLRHSGMAG	PGPT0020985_1905	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020985-prlC-K01414	NA	NA
BMS020_06522	747			hypothetical protein	ATGAATCGTTTTGCCATCGCCGTGCTGTGCATCGGGCTTGCCGCCGCCGCCGGCGGCGCGCAGGCCCAGTCCAACGTCGGCTACGCGACGAGCAACGCCAACCTGCGGGCCGGGCCGGACACCGGCTATCCGCGGGTCAGCACGGTGCCGGCCGGCGCCGCGCTCGACATCTATGGCTGCGTGGACGACTGGTCGTGGTGCGACGTGCAATGGCGCGGCGAACGCGGCTGGATGTCGGCCGGCCTGATCGAATACGAACGCAACGGCAGCCGCTACTACGTCGACGACCGTGGCGCGTGGCTCGGCTTGCCGATCCTGACCTTCGCGCTCGACATCTACTGGGCCGACCACTATCTGCGCCGGCCCTGGTACCACGAGCACGACCACTGGTCGCACTACCGGCCGCCGCCGCGTCCGCCGCATCCGCCTCACCCGTCGCGTCCGCCACCGCCGTCGCATGGCGGCGGGCAGCGTCCGCCGCAGGTCTCGCATCCGGGTGGGCATACGCGCCCGCCGTCGTCGGGCGGCGGCCAGCACGGCGGCGGCCAGCATCGCCCGACCGGTCCTCAGCCTGGCGGGCAGCAGCATGCGCCCCGACCGGCCTCACGCCCGGCGGTGCAACCGCCGCATCCGGGTGGGTCGCATTCGGGCGGCTCGCATTCGGGCGGCTCGCATTCGGGCAAGCCGCCGCCGCGCCGCCCGGCCGGTGGCCAGCAGGGCAAGCCGCACGGCGACCACCATCCCTGA	MNRFAIAVLCIGLAAAAGGAQAQSNVGYATSNANLRAGPDTGYPRVSTVPAGAALDIYGCVDDWSWCDVQWRGERGWMSAGLIEYERNGSRYYVDDRGAWLGLPILTFALDIYWADHYLRRPWYHEHDHWSHYRPPPRPPHPPHPSRPPPPSHGGGQRPPQVSHPGGHTRPPSSGGGQHGGGQHRPTGPQPGGQQHAPRPASRPAVQPPHPGGSHSGGSHSGGSHSGKPPPRRPAGGQQGKPHGDHHP				NA	NA	NA	NA	NA
BMS020_06523	1254			hypothetical protein	ATGGTGTGCGGACAGGGGGAGGCGATGCAGGGGAAATCCGAGGTCCTTGGCCGGCTCGATCTTTCGGCGGCGTTCCACCACGGGGTTTGCGCAGATGGCATCGACCGCCTGCTGGGCGCCTTGCGGCGCCACCTGCGGATGGACGTCGCCTTCATCGCGCACTTCGGCGTTGGCGAACGCGTGATGGAGCACGTCGATAGCGTTCCTGACGGCCCGATCCACCGTGGCCAGCGCATCTCGCTGCAGGAAGGCTATTGCCTGAAGGTCGTGCGCGGTGAGCTGCCGCAGTGCATTCCCGATACGTCGTGCAATCCCGCCGCGATGGCGATCGGTGCCACCCATGCGATTCCCATCGGCTCGCATCTGAGCGTGCCGGTGACGCTGGAGGACGGCACGCTGTACGGCACGCTGTGCTGTTTCAGCTTCCTGCCCGATCCCACGCTTGGCTCGCGCGACATGCAGCTGATGCACGCCTTCGCCGAGGTGCTGGCGATGCGGTTCGACGAGCAGCGGCAGGCGCTGCTGGTGCGCGAGTCCAGGCTCGAGGAGATCCGCGCGGCGATCGCCCACGGGGCGCCGCGCATCGTCTTCCAGCCCATCTGGGGCATCGCCCGGCACGATGTCCTGGGGGTCGAGGCGCTGTCGCGTTTCGACGTCGCGCCGTATCGCTCGCCGGAACAGTGGTTCGAGATGGCGCGCCAGGTTGGCGCAGGGCTCGAGCTTGAATCACTCGCCATCGCCCATGCGCTTGCCGCGCTGCCGCGCCTGCCGCGGGGGTACATCAGCATCAATGCCTCGCCTGCACTGATCCTGTCGGGGGGGCTGCTGCCCCTGCTAGAGGTGCCAGACCCGTCCAGGATCGTGCTGGAGATCACCGAGCATGTCGCGGTGGGCGACTACGCGACGCTGGCACAGGCACTGCGCCGGGTACGCCGGCAGGGCGTGCGGCTGGCGGTGGACGATGCCGGCGCGGGCTTTTCGAGCATGCGCCACATCCTCAACCTGGAGCCGGAGATCATCAAGCTGGACATGAGCATCACCCAGCAGATCGACGCGGACAGCCGGCGCCGGGCGATGGCCAAGGGGCTGACCAACTTCGCCCACGAGATCGGCAGCGTGGTGATCGCCGAGGGCGTGGAACGCCCGCAGGAACTGGAGGTGCTGGCGCAGCTTGGCGTGGATTGCGCGCAGGGCCACCTGCTGGCCAGGCCGCTGGACCTGGACGCGGCCGCGGCATGCGCGGCCGCGCATTGA	MVCGQGEAMQGKSEVLGRLDLSAAFHHGVCADGIDRLLGALRRHLRMDVAFIAHFGVGERVMEHVDSVPDGPIHRGQRISLQEGYCLKVVRGELPQCIPDTSCNPAAMAIGATHAIPIGSHLSVPVTLEDGTLYGTLCCFSFLPDPTLGSRDMQLMHAFAEVLAMRFDEQRQALLVRESRLEEIRAAIAHGAPRIVFQPIWGIARHDVLGVEALSRFDVAPYRSPEQWFEMARQVGAGLELESLAIAHALAALPRLPRGYISINASPALILSGGLLPLLEVPDPSRIVLEITEHVAVGDYATLAQALRRVRRQGVRLAVDDAGAGFSSMRHILNLEPEIIKLDMSITQQIDADSRRRAMAKGLTNFAHEIGSVVIAEGVERPQELEVLAQLGVDCAQGHLLARPLDLDAAAACAAAH				NA	NA	NA	NA	NA
BMS020_06524	1215	fabB_2		3-oxoacyl-[acyl-carrier-protein] synthase 1	ATGCGGCGCGTCGTCATCACCGGCATGGGCATCAACTGCCCGCTCGGCAACGACCTGGACACGGTCTCCAAGGCGCTGCGCGAAAGCCGTTCCGGCATCCGCGCGCTGCCCGACCACGCCGAGGCCGGCCTGCGCAGCCAGGTCGGCGGCGCGGTGGACCTGGATCTGGATGCGTTGATCGACCGCAAGCTCAAGCGTTTCATGGGCGACGCCTCGGCCTACGCCTACCTGGCGATGCGCGACGCGATCGCCGATGCCGGCCTGAGCGAAGAGCAGGTCAGCGCGCTGCGCACCGGCCTGATCGTCGGCTCCGGCGGTGGCTCCAGCCAGTGGCAGGTGGAAACCGCCGACATCCTGCGTGCGCGCGGCGTGCGCAAGGTCGGCCCGTACATGGTGCCGCGCACGATGTGCTCGGCGGTGTCGGCCTCGCTGGCCACCGCGTACAAGATCCGCGGGCTGAGCTACTCGCTGTCGGCGGCGTGCGCGACCTCGGCGCACTGCATCGGCGCCGGTGCCGACCTGATCCGCCACGGCGCGCAGGACATCGTGTTCGCCGGTGGCGGCGAGGAACTGCACTGGACCATGAGCGTGATGTTCGATGCGATGGGCGCGCTGTCCACCGGCTTCAACGACCGCCCGGCAGTGGCCTCGCGTCCGTACGATGCCGATCGCGACGGTTTCGTCATCGGCTCCGGTGGCGGCATGCTGGTGCTGGAGGACTACGACCACGCGATGGCGCGCGGCGCGCACATCCATGCCGAGCTGCTCGGCTATGGCGTCACCTCCGATGGTGCCGACATGGTGGCGCCGTCCGGCGAGGGCGCGGTGCGCTGCATGCGCATGGCGATGGCCGGGCTGGACCGCCCGATCGACTACCTCAACACCCACGGCACCTCGACCCCGCTGGGCGACATCACCGAACTGGGCGCGGTACGCGAGGTGTTCGGCGATGCGGTGCCGCCGCTGTCCTCGACCAAGGCGCTGTCCGGCCATTCACTGGGCGCGGCCAGCGTGCACGAGGCGATCTACAGCCTGCTGATGCTGCGCGACGGCTTCGTCGCCGGCTCGGCCAACATCGACACGCTGGATCCGCGTGCCGAGGGCTTCCCGATCGTGCGCGAGAGCCGCGAGGCGACGCTCGACACGGTGATGTCCAACAGCTTCGGCTTTGGCGGCACCAACGCCGCGCTGGTGTTCGGACGCGTCGCCGCCTGA	MRRVVITGMGINCPLGNDLDTVSKALRESRSGIRALPDHAEAGLRSQVGGAVDLDLDALIDRKLKRFMGDASAYAYLAMRDAIADAGLSEEQVSALRTGLIVGSGGGSSQWQVETADILRARGVRKVGPYMVPRTMCSAVSASLATAYKIRGLSYSLSAACATSAHCIGAGADLIRHGAQDIVFAGGGEELHWTMSVMFDAMGALSTGFNDRPAVASRPYDADRDGFVIGSGGGMLVLEDYDHAMARGAHIHAELLGYGVTSDGADMVAPSGEGAVRCMRMAMAGLDRPIDYLNTHGTSTPLGDITELGAVREVFGDAVPPLSSTKALSGHSLGAASVHEAIYSLLMLRDGFVAGSANIDTLDPRAEGFPIVRESREATLDTVMSNSFGFGGTNAALVFGRVAA	PGPT0013310_1698	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0013310-fabB-K00647	NA	NA
BMS020_06525	516	fabA_2	COG0764	3-hydroxydecanoyl-[acyl-carrier-protein] dehydratase	ATGACACCTGCAAGTGCGTATTCGCGTGATGAGTTGCTGGCCAGCGCGCGCGGCGAGCTGTTCGGCGAGGGCAAGGCCCGCCTGCCTCACGATCCGATGCTGATGTTCGATCGCATCACCGAGATCCGCGCCGACGGTGGCGCGCACGGCAAGGGCTTCATCCGCGCCGAGCTGGATATCCGCCCGGACCTGTGGTTCTTCGGCTGCCACTTCATCGGCGACCCGGTGATGCCCGGCTGCCTGGGCCTGGATGCGATGTGGCAGCTGACCGGCTTCTTCCTCACCTGGAGCGGCGCGTCCGGCAAGGGCCGCGCGCTCGGCTGCGGCGAGGTCAAGTTCACCGGCCAGGTGCTGCCCGATGCGAAGCTGGTGACCTACGAGATCGACATCAGCCGCGTCATCAACCGCAAGCTGGTGATGGCGCAGTCCGATGCGCGCATGCTGGTCGATGGACGCGAGATCTACAGCGCGAAGGATCTTCGCGTGGGCCTGTTCACCTCGACGGAGAACTTCTGA	MTPASAYSRDELLASARGELFGEGKARLPHDPMLMFDRITEIRADGGAHGKGFIRAELDIRPDLWFFGCHFIGDPVMPGCLGLDAMWQLTGFFLTWSGASGKGRALGCGEVKFTGQVLPDAKLVTYEIDISRVINRKLVMAQSDARMLVDGREIYSAKDLRVGLFTSTENF				NA	NA	NA	NA	NA
BMS020_06526	1086	dinB_2		DNA polymerase IV	ATGCGCAAGATCATCCACGTCGACATGGACGCGTTCTATGCGTCCGTGGAACAACGTGACGATCCCTCGCTGCGCGGGCGCCCGGTGGTGGTGGCCTGGAAGGGCGCGCGTTCGGTGGTGTGCGCGGCCTCCTACGAGGCGCGGCGTTACGGCGTGCGCTCGGCGATGCCGGCGCTGCGCGCCGAGCGGCTGTGCCCGGAGGCGGTGTTCGTGCCGCCGGACTTCCTGCGCTACAAGGCGGTCTCGCGCCAGGTGCGCGAGATCTTCCACCGCCACACCGACCTGGTCGAGCCGTTGTCGCTGGACGAAGCCTATCTGGACGTGACCGAGCACAAGGATGGCGCGACCATCGCCACCGAGATCGCGCAGACGATCCGCGCGCAGATCTTCGAGGAAACCGCGTTGACCGCCTCGGCCGGGATCGCGCCGAACAAGTTCCTGGCCAAGATCGCCTCGGACTGGCGCAAGCCGAACGGGCAGTTCGTGGTGCCGCCGGCGCGGGTCGAGGCGTTCCTGGCCGAGCTGCCGGTCGCGCGCATTCCCGGTGTCGGCAAGGTCGCCGAGGCGCGGCTGGCCGCGCTCGGCATCAGTACCGTCGGACAGCTGCGGCTGCGTCCGCTGGAGGAGCTGCAGGCGCACTTCGGCAGCTTCGGCCAGGGGTTGTACAACCGCGCGCGCGGCGTCGACGAGCGCCCGGTGCAGCCGCACCAGGAAGTGCAATCGGTGTCGTCGGAGGACACCTTCGCCGAAGACCTGCCGCTGCCGGCGCTGGCCGAGCACGTCGCGCGGCTGGCGGCCAAGACCTGGAGCGCCACGCGGCGTAGCGAACGTGTCGGTCGCACCGTGGTGGTGAAGCTCAAGACCGCCGCGTTCCGCATCCTGACGCGCAGCCATACCCCGGAGCAGCCGCCGGCGACGCTGGAGGAGTTCACCGAGATCGCGCAGGCACTGCTGCAACGCGTGGACCTGCCGGAACCAACGCTGTATCGCCTGGTCGGGGTCGGCCTGGCCGGTTTCGCCGATGCGGACGAGCAGGTGGTGCAGGGACGGTTGTTCGATCCGCCGGAGAGTGACGTCGAGGCCTGA	MRKIIHVDMDAFYASVEQRDDPSLRGRPVVVAWKGARSVVCAASYEARRYGVRSAMPALRAERLCPEAVFVPPDFLRYKAVSRQVREIFHRHTDLVEPLSLDEAYLDVTEHKDGATIATEIAQTIRAQIFEETALTASAGIAPNKFLAKIASDWRKPNGQFVVPPARVEAFLAELPVARIPGVGKVAEARLAALGISTVGQLRLRPLEELQAHFGSFGQGLYNRARGVDERPVQPHQEVQSVSSEDTFAEDLPLPALAEHVARLAAKTWSATRRSERVGRTVVVKLKTAAFRILTRSHTPEQPPATLEEFTEIAQALLQRVDLPEPTLYRLVGVGLAGFADADEQVVQGRLFDPPESDVEA	PGPT0014881_3972	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
BMS020_06527	660	cbbZP		Phosphoglycolate phosphatase, plasmid	ATGACGTTCCGCTATCCCGCGGTGTTCTTCGATCTGGATGGCACGCTGGTGGACAGCGCAGCCGACATCGCCGAGGCACTCAACCTGACCTTGGCGCAGTGGCAATTGCAGGTGTACGACGAGGCGACGGTGCGCGGCTGGATCGGCGAGGGCGTGCGCGCGCTGGTGGCCACTGCACTGCAGGCGCAGCACAGCAGGCTCGACGTTGATGCGCTGATGCCGGACATGATGCGCCACTACGGCGATTGCCTGCTGCACCGGCCGCAGGCGTATCCGGGCGTGCACGCGGCGCTGCGGGCGCTGGATGCGGCTGGCGTGACGCTCGCGGTCTGCACCAACAAGCCGATCCGCTTCGTCGCGCCGCTGCTCGACCATCTCGGCCTGCACGGGTATTTCAAGTTGTTGCTGGGCGGCGACTCGCTTCCGCAGCGCAAGCCGGATCCTGCGCCGCTGCTGCACCTGGCCACGGCCTGCGGCCTGCCGGTGTCGTCGTGCCTGATGGTCGGCGATTCGGCGACCGATGCCGGCGCCGCGCGCGCGGCGGGAATGCCGTTGGCGATGGTGCGCTACGGCTATCTGCGCGGCTTCGATCCGGATGCGGCTGGCGCGGTGGCGGTGGTCGACGACCTCACGCAGCTGCTCGCCCAGTTGCCGGCGTAA	MTFRYPAVFFDLDGTLVDSAADIAEALNLTLAQWQLQVYDEATVRGWIGEGVRALVATALQAQHSRLDVDALMPDMMRHYGDCLLHRPQAYPGVHAALRALDAAGVTLAVCTNKPIRFVAPLLDHLGLHGYFKLLLGGDSLPQRKPDPAPLLHLATACGLPVSSCLMVGDSATDAGAARAAGMPLAMVRYGYLRGFDPDAAGAVAVVDDLTQLLAQLPA	PGPT0001730_5883	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
BMS020_06528	2262	pfeA	COG4771	Ferric enterobactin receptor	ATGTCCGATTCCGCCCGGTCATGGATGCGTTCGCGTCCGGAATCCGTCGTCTCCCGTAACGTCCATCCGCTGGCGCTCGCGTTGATCGCCGCGCTGTGCGCGTCGCCGCTGCTGGCCAAGGCGGCCGACGCCGACGCGGCGACCGCCGATGCGGACACGCTGGAGACGGTGCATGTCACTGCCGAGCAGATCGCCAAGCAGGCACTGGGCACCTCGATCATCACCCGCGAGGACATCGAACGGCGGCCGCCGGCCAACGACCTGTCCGACATCCTGCGCACGATGCCGGGCGTCAACCTGACCGGCAACAGCGCCTCGGGCGCGTACGGCAACAACCGCCAGATCGACCTGCGCGGCATGGGCCCGGAAAACACCCTGATCCTGATCGATGGCCGCCGCGTCAGTGCGCGCGACTCGGTGCGCATGGGCGTGGCCGGCGAGCGCAACAGCCGCGGCGACACCAACTGGGTGCCGGCCGAGGCGGTGGAGCGCATCGAAGTGCTGCGCGGCCCGGCCGCGGCGCGCTACGGCTCCGGCGCGGCCGGTGGCGTGGTCAACATCATCACCAAGAAGCCGACCGGCGAGCTCAGCGGCACGATGACGCTGTACGGGCTGGTGCCCGAGCACAGCGACGAAGGCGGCAGCAAGCGCGCTGGGTTCACCCTGTCCGGGCCGCTGGCGCGCGACTGGTCGTTCCGCGTCTACGGCAACATCGCCAAGACCGATGCCGACGCCGCCGACATCAATGCCGAACACGCCAACGGCACCACCGCGGCCGCCGGGCGCGAAGGCGTGCGCAACAAGGACATCAACGGCCTGCTGCGCTGGGATCCGAGCGAGAGCCAGACGGTCGAATTCGAATCGGGCTACAGCCGCCAGGGCAACATCTTCGCCGGCGACTACCTCAACACCTCCAACGCCACCGTGCAGAGCATGGTCGGTGCCGAAACCAACGTGATGACCCGCCGTGACGCGGCGATCACTCATCGCGGCAAGTGGGATTTCGGCAGCTCGCGGATCACGCTGTCCTATGGCGACACCGACAACGACCGCATCAGCGAAGGGCTCGCCGGCGGTCCGGAAGGCTCGTTGTCGACCACCCCGACCTGGACCCATTCCAATCTCAAGGACTACGCCGCCGACGGCGAGTTGAACATCCCGTCGGTGATCGGCGGTATCGACAACATCTGGACGCTGGGCTTCGAGTACCGCGACAGCGAGCTCGACGATCCCTATTCGATGTCGCAGGCCGGTACCGGCGTCGACGGCATCGACAGCAGCACCCGCAGCGGCAAGGCCGACGAGCAGGTGACCGCCGTGTTCGTCGAGGACAACATCTACCTCGGCGAGCGCCTGACGCTGACCCCAGGCCTGCGCTTCGATCACCACAGCGAGTTCGGCAACAACCTCAGCCCCAGCCTCAACGCACAGTTCAAGCTGTCGGAGACCTGGCTGCTCAAGGGCGGCATCGCGCGCGCGTTCAAGGCGCCGAACCTCTATCAGGCCAACCCGAACTACCTGTACTACACCCGCGGCAACGGTTGCCCGGACTACTACACCGGCAGCGGCGGCTGCTACATCCAGGGCAATGCCGATCTCGATCCGGAGACCAGCATCAACAAGGAGATCGGCGTGGAGTGGCAGCCGGAGTCCGGCTACCACGCCTCGCTGACCTACTTCCACAACGACTACGACAACAAGATCGTCGCCGGCTACAGCGACTACTACGTGACCAGCGCCAGCGGCTACGTCTACCAGTGGGTCAACGCGTCCAAGGCGCTGATCCAGGGCTTCGAGGGCAACTTCAAGATGCCGCTGCTCGGCGAGCGCGGCGACACGCTGAGCTGGAACACCAACCTGACCTGGATGTTGGACAACAAGAACAAGGCGACCAACCAGCCGTTGTCGGTGATCCCGGAATACACCCTCAACTCGTCGCTGGACTGGCGCCCGACCCAGCGTCTGTCGTTCGCGCTGATGGCCACCTTCTACGGCAAGCAGGAACAGGCCACGCGCGACCGCAACAACGAGCTGGTCTGCGGGACCGCCGCCCTCGGTGCCTGCGACACGCTCGGCGCGTACCAGTTGTGGAGCGTGAGCGGTCGTTACCGCATCACCGACACGATCAGCGTCGGCTTCGGCGTCAACAACCTGGCCGACAAGCGCATCTTCCGCGAAGGCAGCCGCGCCAGCAGCGCCGGTGCATCGACCTACAACGAGCCGGGCCGGGCGTACTGGACCACGTTGACGCTGGGCTTCTGA	MSDSARSWMRSRPESVVSRNVHPLALALIAALCASPLLAKAADADAATADADTLETVHVTAEQIAKQALGTSIITREDIERRPPANDLSDILRTMPGVNLTGNSASGAYGNNRQIDLRGMGPENTLILIDGRRVSARDSVRMGVAGERNSRGDTNWVPAEAVERIEVLRGPAAARYGSGAAGGVVNIITKKPTGELSGTMTLYGLVPEHSDEGGSKRAGFTLSGPLARDWSFRVYGNIAKTDADAADINAEHANGTTAAAGREGVRNKDINGLLRWDPSESQTVEFESGYSRQGNIFAGDYLNTSNATVQSMVGAETNVMTRRDAAITHRGKWDFGSSRITLSYGDTDNDRISEGLAGGPEGSLSTTPTWTHSNLKDYAADGELNIPSVIGGIDNIWTLGFEYRDSELDDPYSMSQAGTGVDGIDSSTRSGKADEQVTAVFVEDNIYLGERLTLTPGLRFDHHSEFGNNLSPSLNAQFKLSETWLLKGGIARAFKAPNLYQANPNYLYYTRGNGCPDYYTGSGGCYIQGNADLDPETSINKEIGVEWQPESGYHASLTYFHNDYDNKIVAGYSDYYVTSASGYVYQWVNASKALIQGFEGNFKMPLLGERGDTLSWNTNLTWMLDNKNKATNQPLSVIPEYTLNSSLDWRPTQRLSFALMATFYGKQEQATRDRNNELVCGTAALGACDTLGAYQLWSVSGRYRITDTISVGFGVNNLADKRIFREGSRASSAGASTYNEPGRAYWTTLTLGF	PGPT0003415_530	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-SALMOCHELIN_TRANSPORT,PGPT0003415-fepA|pfeA|iroN|pirA-K19611	NA	NA
BMS020_06529	945	besA	COG2819	Ferri-bacillibactin esterase BesA	ATGAAACCTGGTTGGATTCCGGCGCTGCTCGCGCTGTGGTTGGCGCTCGCACCGGGCGTGCAGGCGCAGCCGGACCTGTCGCGCAAGGTCGGCGCGACCGTCGCCGATGCCGGCACGGCGGCATACCGCTTCGACGACCTGCGGGTGGCATCGGCCGACGGCGAGCGGCACTACCGCGTGCGCCTGGCGATCCCGAAGGTGTCGGCACCGAAGGCCGGTTACCCGATCGTCTACCTGCTCGATGGCAATGCCGCGCTGATGGAGCTGGATGCGGCGACGCTGGATGCGCTCGCCGCCGATGGCACGCCGCCGGTGCTGGCGCTGCTGGCCTACGACAATGACCTGCGCATCGACGCCGCCGGGCGCGCCTACGACTACACGCCGGCGCGGCGCAGCGATGGCCAGCCGGAGGCCGACGAGGTGTCGCCGGACCGGCGCAGCGGCGGCGCCGACGCGTTCCTGGCGCTGATCGAGGCCACGATCAAGCCGCAGGTGCAGCAGCGGCTGCCGATCGATCCTGCGCGGCAGACCCTGTGGGGCCACTCGTACGGCGGCCTGTTCGTGCTGCACACGCTATTCGCGCGGCCGCAGGCGTTCGCCCGCTACGTCGCGGTCGATCCGTCGCTATGGTGGGGGCAGGGGCATGTGCTCGGCGAGGCCGAGCGGTTCCTGGCGGACCACGCTGCGGCGCCGCGGCCGCGCCTGCTGCTGATGGTCGGCAAGGGCGGCAAGCAGCCCGATCACGCGCCGCCCGGTCGCGACGCCGCACAGGTGCGTGGGCGGCACGCCGCGCGTGCCGCGGTGGCGCCGGATGCCGCAGCCACGTTGGCGCAGCGCCTGCGCGCCGGGGTTGATGTGGAATACCGCGAGCTGCCCGGTCTGAGCCATGGCCAGACCCTGGGGGCGTCGCTCAAGCCGGCGCTGGAGTTCGCGCGCCAGCCGTGA	MKPGWIPALLALWLALAPGVQAQPDLSRKVGATVADAGTAAYRFDDLRVASADGERHYRVRLAIPKVSAPKAGYPIVYLLDGNAALMELDAATLDALAADGTPPVLALLAYDNDLRIDAAGRAYDYTPARRSDGQPEADEVSPDRRSGGADAFLALIEATIKPQVQQRLPIDPARQTLWGHSYGGLFVLHTLFARPQAFARYVAVDPSLWWGQGHVLGEAERFLADHAAAPRPRLLLMVGKGGKQPDHAPPGRDAAQVRGRHAARAAVAPDAAATLAQRLRAGVDVEYRELPGLSHGQTLGASLKPALEFARQP	PGPT0003240_16	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN_METABOLISM,PGPT0003240-pfeE-K23722	NA	NA
BMS020_06530	387			hypothetical protein	ATGAGCACCACCAAACTGCGCAACATCGGCCCCAAGAGCGCGGCATGGCTGCGCCAGGTCGGCGTGCGCAGCAGCGAGGACCTGGTCGCGCTCGGCGCGGTCGGGGCCTTCCTCAAGGTCAAGCGGGCCGGATTCCGACCCAGCCTCAACCTGCTGTATTCGCTGGAGGGCGCCCTGCTCGGCTGCCACTGGCAAGAACTGCCCGAGGCACGCCGCGCCCAGCTGCTGGTCGAACTCGACGCTGCCAGCGCCCTGTTGCCGCCCGCGCGCGGCACCCCGGTCGGCAGCCCGGTCACCACCCGCTACGTCGAACACGACGACAGCGGGCAGGCCGACGACACGGCCGACCTGGACCACACGCCGGACCACGACCAGGACCACGGCTGA	MSTTKLRNIGPKSAAWLRQVGVRSSEDLVALGAVGAFLKVKRAGFRPSLNLLYSLEGALLGCHWQELPEARRAQLLVELDAASALLPPARGTPVGSPVTTRYVEHDDSGQADDTADLDHTPDHDQDHG				NA	NA	NA	NA	NA
BMS020_06531	483	msrC_2	COG1956	Free methionine-R-sulfoxide reductase	ATGTTCGCAACCTCCACGCTCACCGGCAGCAAGCCGGAACAGTACGCCCAGCTGCAGGCCCAGGCGCAGGCCCTGGTCCACGGCGAGGCAGACCGCATCGCCAATGCCGCCAACCTGTCGGCGCTGATCTTCAATTCGCTGCCCGCGCTGAACTGGGCCGGCTTCTATTTCTATGACGGCCGCGAGCTGGTGGTCGGCCCGTTCCAGGGCCTGCCCGCCTGCGTGCGCATCCCACTGCACAAGGGCGTCTGCGGCGCCGCCGCCAGCAGCCGCGAGACCCAGCGCATCGCCGATGTCGACGCGTTCCCGGGCCATATCGCCTGCGACTCGGCCTCGCGCTCGGAACTGGTGATCCCGCTGCTCAAGGGCGATGTCCTGGTCGGCGTGCTCGACATCGACAGCCCGGAGCTGGCGCGCTTCGACGAAGACGACCAGCGCGGCCTGGAAGCGATCGCCCGCGTGTTCGTCGACGCCCTGGCATGA	MFATSTLTGSKPEQYAQLQAQAQALVHGEADRIANAANLSALIFNSLPALNWAGFYFYDGRELVVGPFQGLPACVRIPLHKGVCGAAASSRETQRIADVDAFPGHIACDSASRSELVIPLLKGDVLVGVLDIDSPELARFDEDDQRGLEAIARVFVDALA				NA	NA	NA	NA	NA
BMS020_06532	390			hypothetical protein	ATGTCAGCCCAGTTCGACCAGCGCTCCACCAGTTATGACCAGTTCGCGGCCGCTGCGGCCAAGGCCAATCGGCTTGCACTGGAAAACGCGGAGAGCATGTTCGGCCTGCAGCTGAAGGCGTTCGGTCAGAACATCAACGCCACCACGGATTTCCTTGAGCAGGTGGCCGGGGCGCGCGATCTGGGCTCGTACCAGACGCTGCTGCCGAAGGGCCTGCAACTCGCCCGCGACAACCTGGAACGACTGGCTTCGGCCAGCCAGGACGCGATGGGCATGAGCCTGCGGACCTCCGGCGAGATCGGCGAAATGGCCAAGCATCAGTTCGAGAGCGTTTCGGAACAGGTGCAGGCCTCGATGGCGAAGGCCGGCAAGACGCGTCGCCGCGGCTGA	MSAQFDQRSTSYDQFAAAAAKANRLALENAESMFGLQLKAFGQNINATTDFLEQVAGARDLGSYQTLLPKGLQLARDNLERLASASQDAMGMSLRTSGEIGEMAKHQFESVSEQVQASMAKAGKTRRRG				NA	NA	NA	NA	NA
BMS020_06533	354	queD_2	COG0720	6-carboxy-5,6,7,8-tetrahydropterin synthase	ATGGACATCTTCAAGGTCTTCACCCTCGAGGCCGCCCACCGCCTGCCCAACGTGCCGCCCGGGCATAAATGCGCGCGCCTGCACGGCCATTCCTTCCGCGTCGAACTGCACGTCAGCGGCGAGCCCGGCGACGACACCGGCTGGGTGATGGATTTCGGCGACATCAAGGCCGCGTTCCAGCCGATCTACGACCAGCTCGACCACCACTACCTCAACGACATCGCCGGCCTGGAGAACCCGACCAGCGAACGCCTGGCGCAGTGGATCTGGAACCGGCTCAAGCCGGCGCTGCCGCTGCTGAGCGAGGTCGTGATCCACGAGACCTGCACCTCCGGCTGCCGCTATCGCGGCTGA	MDIFKVFTLEAAHRLPNVPPGHKCARLHGHSFRVELHVSGEPGDDTGWVMDFGDIKAAFQPIYDQLDHHYLNDIAGLENPTSERLAQWIWNRLKPALPLLSEVVIHETCTSGCRYRG	PGPT0007880_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007880-folE2-K09007	NA	NA
BMS020_06534	1389	rhlE_2	COG0513	ATP-dependent RNA helicase RhlE	ATGTCGTTCGAATCCCTGGGCCTTGCGCCCTTCCTGCTGCGCGCGCTCGCCGAGCAGGGCTACGAAACCCCCACCCCGATCCAGCAGCAGGCGATCCCGCTGGTGCTGGAAGGCCACGACCTGCTGGCCGGCGCGCAGACCGGCACCGGCAAGACCGCCGCGTTCGGCCTGCCGCTGCTGCAGCACCTGGGCACCTCGCCGCAGACCGTGAGCCAGGGCCCGCGCAAGCCGCGCGCGCTGATCCTGACCCCGACCCGCGAACTGGCCACCCAGGTCAGCGACAGCCTGCGCGGCTACAGCAAGTACCTGCGCATCCCCAGCACGGTGATCTACGGCGGCGTCGGCATGGGCAACCAGCTCGACGCGCTGCGCCGCGGCGTGGACCTGGTGATCGCCTGCCCGGGCCGCCTGATCGACCACATCGAACGCCGCAGCGTCGACCTGTCCGGCATCGAGGTGCTGATCCTGGATGAGGCCGACCGCATGCTCGACATGGGCTTCCTGCCGTCGATCAAGCGCATCCTGGCCAAGCTGCCGCGCCAGAACCGCCAGACCCTGCTGTTCTCGGCGACCTTCGCCGAGCCGATCAAGCAGCTGGCGCTGGAGTTCATGCGCCATCCGCGCGAAGTGATGGTCACGCCGCAGAACACCGTGGCCGAGACCATCGCCCACCGCGTGCACCCGGTCGACGGCGCGCGCAAGCGCGAGCTGCTGCTGCACCTGCTGGCGCAGGACAGCCGCCTGCAGACGCTGGTGTTCGCGCGCACCAAGCACGGCGCCGACAAGCTGGCCAAGTTCCTGGAGAAGTCCGGGATCAAGACCGCGGCGATCCACGGCGACAAGAGCCAGGGCCAGCGCCTGCGCGCGCTCGGCGACTTCAAGGCCGGCCGGGTGACCGTGCTGGTGGCCACCGACATCGCCGCGCGCGGCATCGACATCAACGAGCTGCCCAAGGTCATCAACTACGACCTGCCGATGGTCGCCGAGGACTACGTGCACCGCATCGGCCGCACTGGCCGCAACGGCGCCACGGGCGAGGCGGTGTCACTGGTCGCCCAGGACGAGGCCAAGCTGCTGCGTGCGATCGTGCGCCTGCTCAACCGCGACATGGAGATCCGCGACGTGCCGGGCTTCGAGCCGCAGACCCCGATCCGCTGGGGCAACAGCGCCCCGGGCAAGGCCGAACAGCCCGGCGGCGAGCGCCCGCCGCGCAAGCACCAGCCGCGCCGCGCCGGTGGCGACGGCAAGCCGCAGCCGCACGCACATGCCGGCAACCGCAAGCCCGCAGCCGCACGCACCGGCACCGGGCGCGCGCCGGACGGCGCCCAGCGCCGCGGCGGCGGCGATCGCCGCCCGCGCCAGGGCCAGTCCCGTCCCCAGGGCCGCTGA	MSFESLGLAPFLLRALAEQGYETPTPIQQQAIPLVLEGHDLLAGAQTGTGKTAAFGLPLLQHLGTSPQTVSQGPRKPRALILTPTRELATQVSDSLRGYSKYLRIPSTVIYGGVGMGNQLDALRRGVDLVIACPGRLIDHIERRSVDLSGIEVLILDEADRMLDMGFLPSIKRILAKLPRQNRQTLLFSATFAEPIKQLALEFMRHPREVMVTPQNTVAETIAHRVHPVDGARKRELLLHLLAQDSRLQTLVFARTKHGADKLAKFLEKSGIKTAAIHGDKSQGQRLRALGDFKAGRVTVLVATDIAARGIDINELPKVINYDLPMVAEDYVHRIGRTGRNGATGEAVSLVAQDEAKLLRAIVRLLNRDMEIRDVPGFEPQTPIRWGNSAPGKAEQPGGERPPRKHQPRRAGGDGKPQPHAHAGNRKPAAARTGTGRAPDGAQRRGGGDRRPRQGQSRPQGR	PGPT0013740_1663	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS020_06535	984			hypothetical protein	ATGAAACTGGGTTCCCTGAAGGAGGGTGGCCGCGACGGCACCCTGGTGGTGGTCGCGCGCGACCTGTCCCGCGCGGTGCGCGCCACCGGCATCGCCGATACGCTGCAGCGCGCGCTGGACGACTGGGCGCAGCTCGCGCCGCGGCTGGAGGCACTGTCTGCGAGGCTGTGCGCCGGGCAGGCCGAAGGCGCGTTCGATCTCGACATGCAGGCGCTGGCCGCGCCGCTGCCGCGGGCCTACGAGTTCGTCGACGGCAGCGCCTATCTGCCCCACGTCGAACGCGTGCGGCGCGCGCGTGGCGCCGAGGTGCCGGCCAGCTTCTACACCGATCCGCTGATGTACCAGGCCACCAGCGCCGGCTTCTACGGTCCGCGCGACCCGGTGCGGGTGCCGTCCGAAGACGTCGGCATCGACCTGGAGGCGGAGATCGTCGTGGTCACCGACGACGTGCCGATGGGGGTGTCGGCGACCGCGGCCGCTGGCCACATCCGCCTGGTCGGGCTGGTCAACGACGTCTCGCTGCGCAACCTGATCCCGGCCGAGCTGGCCAAGGGCTTCGGCTTCCTGCAGTCCAAGCCGCGCTCGGCTTTGTCGCCGGTGTTCGTGACCCCGGACGAGCTGGGTGCGGATTGGCGCGGCAGCAAGCTGCACCTGCCGCTGCTCACCCATGTCAACGGGGCCTGGTTCGGTGCGCCCGAAGCGGGCGAGGACATGCAGTTCGACTTCGCCCAGCTGCTCGCGCATGCGGCCAGGACCCGGCCATTGACCGCTGGCACCCTGGTCGGTTCCGGCACGATCGCCAACCACGACACCTCACGCGGGGCCTCGTGCTTCGCCGAGCAGCGGGTGGTGGAGACGCTGCGCGACGGCGCGGCGAGCACGCCGTTCATGAAAGCCGGCGACGTGGTGCGGATCGAAATGCTCGACCGCGACGGCGCCAGCCTGTTCGGCGCGATCGAGCAGCGCATCGACGTGGTGGGCTGA	MKLGSLKEGGRDGTLVVVARDLSRAVRATGIADTLQRALDDWAQLAPRLEALSARLCAGQAEGAFDLDMQALAAPLPRAYEFVDGSAYLPHVERVRRARGAEVPASFYTDPLMYQATSAGFYGPRDPVRVPSEDVGIDLEAEIVVVTDDVPMGVSATAAAGHIRLVGLVNDVSLRNLIPAELAKGFGFLQSKPRSALSPVFVTPDELGADWRGSKLHLPLLTHVNGAWFGAPEAGEDMQFDFAQLLAHAARTRPLTAGTLVGSGTIANHDTSRGASCFAEQRVVETLRDGAASTPFMKAGDVVRIEMLDRDGASLFGAIEQRIDVVG	PGPT0001615_493	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_STYRENE_OXIDE_DEGRADATION,PGPT0001615-faaH-K16171	NA	NA
BMS020_06536	684	nagL		Maleylpyruvate isomerase	ATGCACGCCCAGGTCGGTGTCGCGGACGTGCCGTTGCAGTTGTACGGCTACTGGCGCTCGAGCGCCGCCTACCGGGTGCGGATCGGGCTCAACCTCAAGGGGTTGGCGCATGCGCAGGTGGCCGTGCACCTGGTCCGCGACGGTGGCGAGCAGCATGCCCCGGCCTACACCCGGCTCAATCCGCAGGCGCTGGTGCCGACCTTGCGCCATGGCGACCGCGTGCTGACCCAGTCGCTGGCGATCCTGGAATACCTCGACGAGGTCTGGCCGCAGGTGCCGCTGCTACCGGCCGATCCCGCGGGCCGGGCGCGGGTGAGGGCGCTGGCGCAGCTGGTCGCCTGCGACATCCATCCGCTCAACAACCTGCGGGTGATGCAGCGGCTGGAGCATGCGCTGGACGTGAACGCCGGCGCGCGCACCGCCTGGATGCGGCACTGGATGCGCGAGGGGTTCGACGCGCTGGAAGGGTTGCTGGCCGGGCATCCGGACACCGGCCGGTTCTGCCATGGCGACGTGCCCGGCCTGGCCGACTGCTGCCTGCTGCCGCAGCTGTACAACGCGCACCGGTTTGGCGTGGACCTGCAACCCTGGCCGACCCTGCGCCGGATCGAAGCGGCTGGCATGGCGCTGGGCGCGGTCGTCGCGGCGCACCCGGACCGGCAGCCGGACGCGCTGCCCGGTTAG	MHAQVGVADVPLQLYGYWRSSAAYRVRIGLNLKGLAHAQVAVHLVRDGGEQHAPAYTRLNPQALVPTLRHGDRVLTQSLAILEYLDEVWPQVPLLPADPAGRARVRALAQLVACDIHPLNNLRVMQRLEHALDVNAGARTAWMRHWMREGFDALEGLLAGHPDTGRFCHGDVPGLADCCLLPQLYNAHRFGVDLQPWPTLRRIEAAGMALGAVVAAHPDRQPDALPG	PGPT0006040_550	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_STYRENE_OXIDE_DEGRADATION,PGPT0006040-maiA|GSTZ1-K01800	NA	NA
BMS020_06537	1134	pilT_3	COG2805	Twitching mobility protein	ATGGATATCGGCTACTTCCTGAAGCTGATGACCGAAAAGAACGCCTCGGACATGTTCCTGACCACCGGGGCGCCGGTCTACATCAAGATCGAGGGGAAGCTGTATCCGCTCGGCAACACCGGCCTGCCGCCGGGGATGGTCAAGAAGATCGCCTACTCGCTGATGGACGAGGGCCAGGTGCCCCAGTTCGAGCGCGACCTGGAGCTGAACATGGCGATCGCGCTGCCGGACGCCGGGCGCTTCCGCGTCAACGTGTTCAAGCAGCGCGGCGAGGTCGGCATGGTGATCCGCGCGATCCGCAGCAAGATCCCCAGCATCGAGGAGCTCAACCTCCCGCAGGTGCTGAAGGACATCATCATGACCCCGCGCGGGCTGGTGCTGGTGGTCGGCTCGACCGGCTCCGGCAAGTCGACCTCGCTGGCGTCGATGATCGACCACCGCAACACCACCACGACCGGGCACATCCTCACCATCGAGGACCCGATCGAGTACCTGCACAAGCACAAGATGTCGATCGTCAACCAGCGCGAGGTCGGCCTGGACACCCATGCCTTCCACAATGCGCTGAAGAACGCGATGCGCGAGGCGCCGGACGTGATCCTGATCGGCGAGATCCTCGACGCCGAGACGATGGAGGCGGCGATCGCCTTCGCCGAGACCGGCCACCTGTGCCTGGCGACGCTGCACTCCAACAACGCCGACCAGACCATCGAGCGCATCCTGAACTTCTTCCCGGAAAGCGCGCACAAGAACGTGCTGATGAACCTGGCGCTGAACCTGCGCGCGGTGATCAGCCAGCGCCTGGTCAAGGGCGTGGACGGCCGCCGCCTGCCCGCGACCGAGGTCCTGCTCAACACCCCGATGATCCGCGACCTGCTGCGCCGCGGCCAGGTGCACGAGATCAAGCAGGCGATGGAGGAATCGCTGGAGGAAGGCATGCAGACCTTCGACCAGTGCCTGTTCCGGCTGGCCAAGAACGGCACGATCGAGCAGGAGGAGGCGCTGCGCGCCGCCGACTCGCGCGACGGCCTGGCACTGAAGTTCCGCCTCTCCGAGGGCGCCAACGGCGAGCACGACCCCTACGCCGACTTCGCCGACGCCTCGGCGCCGAAGATCAGCCACGGCTTCATCTGA	MDIGYFLKLMTEKNASDMFLTTGAPVYIKIEGKLYPLGNTGLPPGMVKKIAYSLMDEGQVPQFERDLELNMAIALPDAGRFRVNVFKQRGEVGMVIRAIRSKIPSIEELNLPQVLKDIIMTPRGLVLVVGSTGSGKSTSLASMIDHRNTTTTGHILTIEDPIEYLHKHKMSIVNQREVGLDTHAFHNALKNAMREAPDVILIGEILDAETMEAAIAFAETGHLCLATLHSNNADQTIERILNFFPESAHKNVLMNLALNLRAVISQRLVKGVDGRRLPATEVLLNTPMIRDLLRRGQVHEIKQAMEESLEEGMQTFDQCLFRLAKNGTIEQEEALRAADSRDGLALKFRLSEGANGEHDPYADFADASAPKISHGFI	PGPT0015880_683	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015880-pilU-K02670	NA	NA
BMS020_06538	390			hypothetical protein	ATGACGGTTAGCTTCGCACAAATGCGGCGATCTCTGTATGTGATCGCCTGCGCATTCGCACTCTCCGCCCCGGCCCTGGCGCAGGTCGCGCCGCCGGAGCTGTCCGCGGCCGAACAGGCCGTGCAGCGGGCCACCCAGGCCGACGCGGACCAGTACGCCCCGGATCTGATCAACCAGGCCCGGCAGGAGCTGATGCAGGCCCAGCAGGCCGCCTCGGACCGCCGCCAGCGCAAGCAGGCCCCGCAGCTGGCGCTGCGCGCGGCCGCCGACGCCGATCTGGCCAAGGCCCGCAGTGACGAGGCGGTGGCCCAGGGCCAGCTGCAGCAGCGCCAGGCCGAGGTCGCGCGGCTGCAGGCCAACCTGGCCGGCAACGGGGAGGGGGGGCGATGA	MTVSFAQMRRSLYVIACAFALSAPALAQVAPPELSAAEQAVQRATQADADQYAPDLINQARQELMQAQQAASDRRQRKQAPQLALRAAADADLAKARSDEAVAQGQLQQRQAEVARLQANLAGNGEGGR				NA	NA	NA	NA	NA
BMS020_06539	870			hypothetical protein	ATGAGCGCGCGCCTGTTGCTGGCGACGGCCCTGCTGGCCGCGCCGATGCTGGTCCTGGCCAAGGACGACCCCGACGTGCTGGCGCTGAACGGGCGCCTGGCCGCGTTGCAGGCCAACCCCGACAGTGCCGATGCCGCCCGCTACGAGCGGCTGCAGGCCCAGCAGGCGATCAATACGCTGGCCGAGGCCAAGCGCCGCGACCATGACGAGGCGCGCTTCCTGGCCGATCGGCGGGTCGAGATCGCCGAGATCGCCGTGCGTACGGCGCTGGCGCGGCGCGAACTGGACCGCCTGGAGCAGACCCGCAACGACCTGCTGATCGAGGCCAGCCGGCGCGACGCCGCCCGTGCCCGCCAGGAGGCCGAGCGCCTGCGCCTGCAGTCGCAGATGCAGGCCGAGGAGGCCGAGCAGCTGCGCCAGGCCGCCGAGGCCGAGACGCTGGCCCGCCAGGATGCCGAACAGGCGCTCAACAGCGTCGCCGCACGCAAGGCGTCCAAGATCAGTGCCGACCAGCAGAAGGCCGCCCAGCTGGCCCGCGAGGAGGCCGAGCTGATGTCCGGCGCCAAGCTGCCGGCGTCGCGGTTCGAGGCCCGGGGCGAAGTGTTCTCGGTGCCAGCGGCCAGTTTCGGCAAGGACGCGCTCAGCGACACCGGCAGTGCCAAGGCCCTGGCCGAATACCTGCAGATCGGCAAGAAGGGCCGGGTTACCCTGCTCGGTTACGGCGCCGATGCCGGCAGCGGCAAGGCCCGCGCACAGTCGATGATGGACGCGCTGGTCGCGGCCGGGGTCAGCGCGAGCCGGCTGCAGGTGAGTGGCAGCAAGGCCAAATCGGCGAAGTCGCCAGGGCTCGAGCTGGTCGTCGTTCCCTGA	MSARLLLATALLAAPMLVLAKDDPDVLALNGRLAALQANPDSADAARYERLQAQQAINTLAEAKRRDHDEARFLADRRVEIAEIAVRTALARRELDRLEQTRNDLLIEASRRDAARARQEAERLRLQSQMQAEEAEQLRQAAEAETLARQDAEQALNSVAARKASKISADQQKAAQLAREEAELMSGAKLPASRFEARGEVFSVPAASFGKDALSDTGSAKALAEYLQIGKKGRVTLLGYGADAGSGKARAQSMMDALVAAGVSASRLQVSGSKAKSAKSPGLELVVVP				NA	NA	NA	NA	NA
BMS020_06540	219			hypothetical protein	ATGTTCGAAGGGCAACCGCAGTCCGAGATCGACGCAATGATCAAGGCCGACCCCAAGTTCAAGCAGCTGTACCAGCGCCATAAACTCCTGGACAAGAAATGCATGGATGCCGAACTCGGCGTGCTTCCGATCGATGACGTCACGCTCGGACAGATGAAGCGCGAGAAGCTGTTCGCCAAGGAGCGCCTCACCCGGATGTACGAGCAGATGGCGCACTGA	MFEGQPQSEIDAMIKADPKFKQLYQRHKLLDKKCMDAELGVLPIDDVTLGQMKREKLFAKERLTRMYEQMAH				NA	NA	NA	NA	NA
BMS020_06541	1371	cbs_2	COG0031	Putative cystathionine beta-synthase	ATGGCAATCCACTCCTCGGTCCTCGAGCTGATCGGCAACACCCCGATCATCAAGGCGCAGCGGCTCGACACGGGCGTCTGCGAGCTCTACCTCAAGCTCGAGAGCGCGAACCCGGGAGGGTCGATCAAGGACCGCATCGGCCTGTCGATGATCGAGGCGGCCGAACAGCGCGGTGAGCTCAAGCCAGGCGCGACCCTGGTCGAAGGCACCGCCGGCAACACCGGCCTGGGCCTGGCGCTGGTGGCCCAGCAGAAGGGCTACAAGCTGATCCTGGTGGTCCCGGACAAGATGAGCCGGGAAAAGATCTTCAATCTCAAGGCGATGGGTGCCGAAGTGCGCCTGACCCGGTCGGACGTCGCCAAGGGCCATCCGGAGTACTACCAGGACCTGGCCAAGACCATCGCCGAACAGACCCCGGGCGCCTACTTCATCAACCAGTTCGGCAACCCGGACAACCCGGCCGCGCATGAGTTCGGCACCGGCCCGGAGATCCTGGCGCAGATGGACGGCCAGCTCGACGCGATCGTGTTCGGCTGCGGCAGCTCCGGCACCATGACCGGCCTGTCGCGTGCGTTCGCCAAGGCCTCGCCGGCCACCGAGCTGGTGCTGGCCGACCCGGTCGGCTCGATCCTGACCCAGTACATCAACGAGGGTACGCTCAGCGACAAGTCCGGCAGCTGGCTGGTCGAGGGCATTGGCGAGGACTTCCTGCCGCCGATCTCCGACTTCAGCCGGGTCAAGCAGGCCTACGCGATCAGCGATGCCGAGAGCTTCCACACCGCGCGCGAGCTGCTGGCCAAGGAGGGCATCCTTGGAGGCTCCTCGACCGGCACCCTGCTGGCCGCCGCGCTGAAGTATTGCAGGGCCCAGACCACCTCGAAGAAGGTGCTGGTGCTGGTCTGCGACACCGGCAACAAATACCTGTCGAAGATGTACAACGACTACTGGATGCTGGACAACGGCTTCCTGGAGCGCCCGCAGTACGGCGACCTGCGCGACCTGATCCTGCGCCCGTACAGCCAGCGCGACACCGTCGTGGTCGGCCCGAACGACCTGCTGACCACCGCCTACCAGCGGATGAAGCTGTACGACGTCTCGCAGCTGCCGGTGATCGACAATGGCGAGCTGGTCGGCATCGTCGACGAGAGCGACGTGCTGCTGCACGTTTACGGCGACGAGGCCCGCTTCCGCGACCCGGTCGCCACCGCAATGGTCAGCAAGCTCGACCGGCTGGACGTGAAGTCGCCGATCGAGGCGCTGCTGCCGGTGTTCGACCGCGGCCAGGTGGCGATCGTGATGGACGGCGGGCAGTTCCTCGGCCTGATCACCCGGATCGACCTGCTGAACTACCTGCGCCGCCGGGTGCAGTGA	MAIHSSVLELIGNTPIIKAQRLDTGVCELYLKLESANPGGSIKDRIGLSMIEAAEQRGELKPGATLVEGTAGNTGLGLALVAQQKGYKLILVVPDKMSREKIFNLKAMGAEVRLTRSDVAKGHPEYYQDLAKTIAEQTPGAYFINQFGNPDNPAAHEFGTGPEILAQMDGQLDAIVFGCGSSGTMTGLSRAFAKASPATELVLADPVGSILTQYINEGTLSDKSGSWLVEGIGEDFLPPISDFSRVKQAYAISDAESFHTARELLAKEGILGGSSTGTLLAAALKYCRAQTTSKKVLVLVCDTGNKYLSKMYNDYWMLDNGFLERPQYGDLRDLILRPYSQRDTVVVGPNDLLTTAYQRMKLYDVSQLPVIDNGELVGIVDESDVLLHVYGDEARFRDPVATAMVSKLDRLDVKSPIEALLPVFDRGQVAIVMDGGQFLGLITRIDLLNYLRRRVQ	PGPT0020005_1093	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020005-cbs-K01697	NA	NA
BMS020_06542	1185	metC_4	COG0626	Cystathionine beta-lyase	ATGTCGGACCGCAACCCCAGCAGCCAGGACGGCGCACGCGGACTCTCGCTCGCCACCTTGGCGATCCACGGCGGGCAATCGCCCGACCCGAGTACCGGCGCCGTGATGCCGCCGATCTACGCGACCTCGACCTATGCCCAGTCCAGTCCGGGCGAGCACCAGGGCTTCGAGTACTCGCGCACCCACAACCCGACCCGCTTCGCCTACGAGCGCTGCGTGGCGGCGCTCGAGGGCGGCAGCCGCGGCTTCGCGTTCGCCTCCGGCATGGCGGCGACCTCGACGGTGATCGAGCTGCTCGACAGCGGCGACCACGTGGTGGCGATGGACGACCTGTACGGCGGCAGCTACCGGCTGTTCGAGCGGGTGCGCCGGCGCAGCGCCGCGCTGGATTTCAGCTTCGTCGACCTGTCCGACCTGGCGGCGTTCGAAGCGGCGATCACGCCCAAGACCAGGATGGTCTGGATCGAGACCCCGACCAACCCGATGCTGAAGATCGTCGACATCGCCGCGGTGGCCGAGCTGGCGCACCGCCACGGCCTGATCGTCGTGGTCGACAACACCTTCGCCTCGCCGATGCTGCAGCGTCCACTGGCGCTGGGTGCGGACATCGTCGTGCATTCGGCGACCAAGTACCTCAACGGCCATTCCGACATGGTCGGCGGCATCGCCGTGGTCGGCGCCGACGCCGACCTGGCCGAGCGCATGGCCTTCCTGCAGAACTCGGTCGGCGGCGTGCAGGGCCCGTTCGACAGCTTCCTGGCCCTGCGCGGCCTGAAGACGCTGCCGCTGCGGATGCGCGCGCACTGCGACAACGCACTGGCGCTGGCGCAGTGGCTGGAAACGCACCCGGCGGTCGCCAAGGTGATCTACCCGGGCCTGCCTTCGCACCCGCAGCATGGCCTGGCCGCGCGCCAGATGCAGGGCTTCGGCGGCATCGTCTCGATCGTGCTCAAGGGCGGATTCGCCGCGGCCAAGCGCTTCTGCGAACGCACCGAACTGTTCACCCTGGCCGAATCGCTCGGCGGCGTGGAGAGCCTGGTCAACCACCCGGCGGTGATGACCCACGCCTCGATCCCGGTCGAACGCCGTGCGCAGCTGGGTATCAGCGATGCGCTGGTGCGGTTGAGTGTGGGGGTTGAGGATGTTGGGGATTTGCGGGGGGATTTGGAGTCTGCGTTGGGCTGA	MSDRNPSSQDGARGLSLATLAIHGGQSPDPSTGAVMPPIYATSTYAQSSPGEHQGFEYSRTHNPTRFAYERCVAALEGGSRGFAFASGMAATSTVIELLDSGDHVVAMDDLYGGSYRLFERVRRRSAALDFSFVDLSDLAAFEAAITPKTRMVWIETPTNPMLKIVDIAAVAELAHRHGLIVVVDNTFASPMLQRPLALGADIVVHSATKYLNGHSDMVGGIAVVGADADLAERMAFLQNSVGGVQGPFDSFLALRGLKTLPLRMRAHCDNALALAQWLETHPAVAKVIYPGLPSHPQHGLAARQMQGFGGIVSIVLKGGFAAAKRFCERTELFTLAESLGGVESLVNHPAVMTHASIPVERRAQLGISDALVRLSVGVEDVGDLRGDLESALG	PGPT0001980_353	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001980-metB|met|cysA-K01758	NA	NA
BMS020_06543	2958			hypothetical protein	ATGACCATCATTACTGGACGCCACGGCGTTTTCGAAACGCTCCCAGGCGACACCGTCATCGCCGACTCGCTGCGCTGGTATGGGGAATGGGCGGAGAACGAACTGGAGCTGCTGCGCCGTTTCGTATCGCCGGGAAGCGTCGTCGCCGACATAGGCTCGTTCATCGGCACGCACGCCATCGCACTGGGGCATGCGGTCGGCGGATTCGGCCACGTGCATGCATTCGAGCCGCGCCGCAACGCATTCGACATTCTCCAGCGCAACATCGAGCGCAACGGACTCGCACGGCAGATCACGGCGCACAATGCTGGCGTTTCCGATCACCCGGGGACGATTTCGCTGGATGATTCGAGCAGCGAAGCACAGAACCAGGGAGGGCTGAGCTTGGTCGATGCCGGTCGCGGCTATGCAGTACGCATCATCACGCTCGACTCGCTGCAGCTCCCGCGCGTGGACCTGCTGAAGATCGACGTTGAAGGCATGGAGGCACAGGTACTGACCGGCGCCGCGGAGACATTGCGTCGTTGCCGGCCGGTGATCTTCGCCGAATGCAACTCGGTCGACGGCACGGCCGCCACCCTGGCTGCGGTCGCCCCCCTGGGTTACGCCGCCTATGGCGTGATCTATCCGGCATTCAACCCGGGCAATTTCAACAGGTGCCCGGACAACTTCCATGGCGCCAATGCCGAATGCGGCTTGTTTCTGGTGCCGGGCGAGCGCGCGCAGACTGCTCCAACCGAAGGCATGCGCCTGATCGCCTCTCTGGAAGACGTGGTTGCCCTGCTGCTGGAAAAGCCGCAGTACCTTCCCGAGATGCTGCCGGATGCACCTGAGGTCGCGGCCGTGCAGCGCACCCGCGCCGAGCCGGCGCAGGCCGATGCCGCATGCCGGGGCTCCCTGCACGTGGTCGCCCCGTTCTATTGCAATGAACAGTTGGTAGTTCCGTTCATGCGCGGCCTGCGCAGCGTGGCTGACGAGCTCGTGCAGGCCCGGGCATCGGTCTGGCTGTACAACGACAGCCCGGATCACGAAGGACTTCGCGCGGCGCTGGCCGAGGCGGTGGCCGAAGGCATCGCCGGGGTCGAGATCCGCACCCTGACCAACGACGAGAACCTTGGCTTCATTGACACGTGCAACCGCGCGTTCGATCGCGCGGTCGAGGATGGAGCCGATGTCTTACTGCTCAATTCGGACACCGAAGTCACGACCGGGGCGATCGCAGAGATCCTGGCGGTATCCGCAATGGATCCGATGATCGGCTTCGTTTGCCCGCGCAGCAACAATGCAACACTGGCGACGCTCCCGCACTCGATCGAGCACGTCGACGTATCCGTCGAACAGGCACGGACCCTGTTCCTGTCGATCGCCCGTCGGCTGCCTCGTTTCTCGTTCATTCCGACTGCCGTCGGTTTCGCATTGTGGATTCGCGGCACGCTGCTGGCTGAATTCGGTCGGTTCGATATCGTGTACGGCAAGGGCTACAACGAGGAGAACGACCTGATCATGCGCGCCAACCGCGCAGGTTATCGGGCCGCACTCGCAAATCATGCATTCGTCTGGCACCAAGGCGAACAGTCGTTCTCGACTACCAACCAGCAGCGTTCCGAGCGCGAGCAGGTCAATGCCGCCATTCTGAGGCAGCGCTATCCGGAATACGATCCGCTCATCTATCGCTACTTCACATCACCCGAATACAGGGCCGAACGCCTTCTGGAAGCACTGGCCCCCGTGGGCGAACCACCCACAATCGCCTTCGATTTCTCTTCATTCGGCCCGTTCCACAATGGGACTTTCGAATCAGGCGTAAAGCTACTATCGGCTGCGCAGCGCGCGTGGCCGAACGATAGCCGCATCGCTGTCTACATCAGTGCGCAGGCGTGGGCATTCCATGGGTTAGACCAGCTTCCCGGCATCGTGCGATTGGAACCGAACGACCAGCGAGCCAAAGTGGCCGCCGTGGTCCGCATAGGCCAGCCCTATCAGACCAGCACCCTTCTACACCTCTTTGAGTCCGCACCAGTGGTGGGCATTTTTATGCTCGACACCATCTCCACCGACTGCGGATATCTCCTATTGGACTTCGACGAAAGCATCTGGCGCTTCGCACTTGAGAACATGAGCGTCTTGTTCACGAACTCGCACTTCACTCTTGAGCGCATCCGTCTACGCTATCCCATCGGTCCGTCGACCTTGCAACAAGTATCCCTTCATTCCCTGGATCCAGCCGATTACGCGACCTACGAACCCACTGGGTCGGAGGGCTCGCACATCCTGGTGATCGGCAACCACTACACGCACAAGTTCGTGCGAAGCACTACCGATGCACTGGCCGGCGCGCTGCCAGACCGTAAGATCATCGCGATCGGCTATCCCGAAGGCGTCGAATTGCCAGCCAACGTGCAATCGTTTAAGGCGGGCAACATCGATGAAGATACCTTCCGCTCGTTCTATCGCGACGCGCAGCTGGTGGTTTTCCCCAGCCATTACGAGGGCTTCGGCTTTCCGGTTATGCACGCATTGGCGCACCGTCGGCCGGTACTTGTCCGCGATAGCGGATTGAACCGCGAGCTTGCCGCGCACATCGTCGCCTCGGCCAACATCCATTCCTACAAGACAACCCGCGAACTGGTGCAGAAGCTACAGGACGCGATGCCGACATGGAGCGAAGAACGTCGCGCGGGTGAGGTCGATGGGTGGCACCGCTCGGCGCTGGAAGTACATGCCGCACTGAGTTCGGCGATGAATCTGGCGACCGGCACCCAAGTAGCGTCGGTCCTGCGACGGATCGATGCACTCAAGCGACCGGCCGCCCTTGCCATGGAGATGGCGACCTCCGGCCAGCGCATCGGCCGCCGCCTTGGACGCATCATCGATCGTGTGCTGACGATTCCCGGCGCGGCGCCCACCGCCCGCCAGGCAGCGCGGATCTACCGCAGCATCCGTGCAATCGCCCGCTGA	MTIITGRHGVFETLPGDTVIADSLRWYGEWAENELELLRRFVSPGSVVADIGSFIGTHAIALGHAVGGFGHVHAFEPRRNAFDILQRNIERNGLARQITAHNAGVSDHPGTISLDDSSSEAQNQGGLSLVDAGRGYAVRIITLDSLQLPRVDLLKIDVEGMEAQVLTGAAETLRRCRPVIFAECNSVDGTAATLAAVAPLGYAAYGVIYPAFNPGNFNRCPDNFHGANAECGLFLVPGERAQTAPTEGMRLIASLEDVVALLLEKPQYLPEMLPDAPEVAAVQRTRAEPAQADAACRGSLHVVAPFYCNEQLVVPFMRGLRSVADELVQARASVWLYNDSPDHEGLRAALAEAVAEGIAGVEIRTLTNDENLGFIDTCNRAFDRAVEDGADVLLLNSDTEVTTGAIAEILAVSAMDPMIGFVCPRSNNATLATLPHSIEHVDVSVEQARTLFLSIARRLPRFSFIPTAVGFALWIRGTLLAEFGRFDIVYGKGYNEENDLIMRANRAGYRAALANHAFVWHQGEQSFSTTNQQRSEREQVNAAILRQRYPEYDPLIYRYFTSPEYRAERLLEALAPVGEPPTIAFDFSSFGPFHNGTFESGVKLLSAAQRAWPNDSRIAVYISAQAWAFHGLDQLPGIVRLEPNDQRAKVAAVVRIGQPYQTSTLLHLFESAPVVGIFMLDTISTDCGYLLLDFDESIWRFALENMSVLFTNSHFTLERIRLRYPIGPSTLQQVSLHSLDPADYATYEPTGSEGSHILVIGNHYTHKFVRSTTDALAGALPDRKIIAIGYPEGVELPANVQSFKAGNIDEDTFRSFYRDAQLVVFPSHYEGFGFPVMHALAHRRPVLVRDSGLNRELAAHIVASANIHSYKTTRELVQKLQDAMPTWSEERRAGEVDGWHRSALEVHAALSSAMNLATGTQVASVLRRIDALKRPAALAMEMATSGQRIGRRLGRIIDRVLTIPGAAPTARQAARIYRSIRAIAR				NA	NA	NA	NA	NA
BMS020_06544	1317	btuD_13		Vitamin B12 import ATP-binding protein BtuD	ATGTGCTCTGACATCGCAATCCAGGTACGCGGCCTGGGCAAGTGCTTCAACGTCTACGAGAAGCCGGTGCATCGCCTGATGCAGATGCTGTGGCGTGGCCGCCGCCAGTACTACCGCGAATTCTGGGCGCTACGCCAGGTCGGCTTCACCATCCATCGCGGCGAGACGGTTGGCATCATCGGCCGCAATGGCGCCGGCAAGTCGACCCTGCTGCAGATGATCTGTGGCACGTTGACGCCAACCGAGGGCGACATCACCGTCAACGGTCGCGTCGCGGCCCTGCTGGAACTGGGAGCAGGCTTCAATCCGGAGTTCTCCGGCCGCGAGAATGTCTACCTGGCCGCATCGCTTTACGGCGTGGGGAAGGAGGAGGTCAACCAGCGCTTCGCGGACATCGCCGCCTTCGCCGATATCGGAAATTTCATCGAGCAGCCTGTTAAGACCTATTCCAGCGGCATGTACGTGCGTCTGGCCTTCGCGGTCATCGCGCATGTGGACGCGGACATCCTGATCATCGACGAGGCGCTGAGCGTCGGCGACGCCTATTTCCAGCAGAAGTGCATGCGCTTCCTCGCCGGCTTCCAGCGCGGCGGCGGCACCTTGCTGTTCGTCAGCCATGACATGGGGGCGGTGAACGCACTCTGCGCTTCGGCCGTGCTGCTACGCCGCCAGGACGGGCAGTACCAATGCAACCTCGGCTCGGCGCGCGAGATCTCGGCGATATACCTGCGCGACCTGTACGCCGACCGCCAGGAAACAGCAGCGACCAAGCCCAGGGCGGTCCTCGGCCAGGCCAACTACGACGCCACCGATGTCGAACCGACGCATTTCCATGCCGGGGCCTTCCGCCCGGACGTCGACAGCTTCGGCGCGGGCGGGGCCCGCATCGAGAGCGCGGCGTTCACCGACGTGGACGGAAACCCCGTTTCCGAGTTCACTTCGCAGGACGACGTGCGGCTGAAGGTCAGCGCGCGCGCAAGCAAGCCACTGAACTATCCCGCCATCGGCTTCATGCTGAAGGATCGGAAAGGACAGTATCTCGTCGCGGAGAGCTCCGACAGCTACCTGCGGGAAGAGGCCATCGCGGTCGAACAGGACAGCGCGTTCACGGTGACCTTTCAGCTGCGGCTTCCGCGCCTGATCCGCGGCGAATACAGTCTAGACCTCGCACTCGCCGAGGGTCCAGGCGATGACCATGTGCAGCACCATTGGCTGCACGATGCCATCGTCCTGACCGCTCTCAATTCCCAACTCGTCCACGGCATCTCCGGCGCCGCACCGCTGGCGGTGTCCTTCCGCACATCTCATCGCTCATGA	MCSDIAIQVRGLGKCFNVYEKPVHRLMQMLWRGRRQYYREFWALRQVGFTIHRGETVGIIGRNGAGKSTLLQMICGTLTPTEGDITVNGRVAALLELGAGFNPEFSGRENVYLAASLYGVGKEEVNQRFADIAAFADIGNFIEQPVKTYSSGMYVRLAFAVIAHVDADILIIDEALSVGDAYFQQKCMRFLAGFQRGGGTLLFVSHDMGAVNALCASAVLLRRQDGQYQCNLGSAREISAIYLRDLYADRQETAATKPRAVLGQANYDATDVEPTHFHAGAFRPDVDSFGAGGARIESAAFTDVDGNPVSEFTSQDDVRLKVSARASKPLNYPAIGFMLKDRKGQYLVAESSDSYLREEAIAVEQDSAFTVTFQLRLPRLIRGEYSLDLALAEGPGDDHVQHHWLHDAIVLTALNSQLVHGISGAAPLAVSFRTSHRS	PGPT0023305_368	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
BMS020_06545	819	tagG	COG1682	Teichoic acid translocation permease protein TagG	ATGGAAGCCTACCCCTGCTATCCCGGCCATCTGATCCGCTCCCTGGTCGGCAACCGCCGGCTGGTGCTTGCCTTGGCCGCACGCGAGGTCGCTGCCCGCTATCGAGGCTCCCTGTTCGGCCTTGCGTGGGCGCTGATACAGCCGATCTTCATGCTTGCGATCTACACATTCGTCTTCAGTGAGGTGTTCAAGGCTCGTTGGCCCGGCGGTAGCGGCTCACGCACCGAATTCGCCCTCGTGCTGTTCAGCGGGCTCCTGGTCTTCAACCTGTTCGCGGAAGTCTTCAACCGCGCACCGACCCTGATTGTCGGCAACGCCAACTACGTTAAGAAGGTCGTCTTCCCCCTTGAGATACTGCCTTGGGTCAGCGTGCTGACGGCGATGTTCAGCCTTGCGGTGAACCTGCTGGTGTGGCTCGCCTTCTACCTGATCTCTTTTGGATTTCCCCCAGTCAGCGCGCTCCTGGCCCCCGTAGTGATGCTTCCGATGATCATGTTCATGACCGGTCTTGCTTGGCTACTGTCGGCGCTGGGTGTCTTTCTGCGCGACACCACTCAGATCACCGCAATCATCACTACCGCATTGATGTTCCTCACTCCGATCTTCTATCCGATCGCAGCAATCCCGGCATCGCTGCGATCGATCCTCAACATCAATCCGCTCGCACCGATCATCGCACAGATGCGCGACGTGCTGATCTGGGGCAAGGGGCTTGACCCCGTGGCGTATCCGCTCTGCCTGCTGGTGTCGACGGCGGTGTTCTTCTTCGGCTTTGCATTCTTCCAGCGCACGCGCAGAGGATTCGCCGATGTGCTCTGA	MEAYPCYPGHLIRSLVGNRRLVLALAAREVAARYRGSLFGLAWALIQPIFMLAIYTFVFSEVFKARWPGGSGSRTEFALVLFSGLLVFNLFAEVFNRAPTLIVGNANYVKKVVFPLEILPWVSVLTAMFSLAVNLLVWLAFYLISFGFPPVSALLAPVVMLPMIMFMTGLAWLLSALGVFLRDTTQITAIITTALMFLTPIFYPIAAIPASLRSILNINPLAPIIAQMRDVLIWGKGLDPVAYPLCLLVSTAVFFFGFAFFQRTRRGFADVL	PGPT0023304_1158	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
BMS020_06546	402			hypothetical protein	ATGAGCCGTCAGTTTCTCCTGTTCCTCATCTGCGGCGGCACAGCTGCCGCCGTGAACGTTGGGAGCCGCATCGCATTCAGCCTGGTGGCGCCATTTGAAATGGCGGTCTGCTTGGCTTACGGACTCGGCATGCTGACGGCGTTCATCCTGAACCGGGTGCTGGTGTTCAAAGGGTCCGATCGCACGATTACCCAGCAGGCGGCATGGTTCATCGCGATCAACGCCGTCAGCCTGCTGCAGACGCTGGCGATCAGCATGCTGCTCAAGCGCTGGGTGCTGCCGATGATCGGCTGGCCCCTGGACATTCCTCTCAGCGCGCACCTCGTCGGCGTGGCGGTCCCCATCTTCACCGCCTACCTGGGCCACAAGCACCTGACGTTCGCGCGTTCCAGGAGCATGTGA	MSRQFLLFLICGGTAAAVNVGSRIAFSLVAPFEMAVCLAYGLGMLTAFILNRVLVFKGSDRTITQQAAWFIAINAVSLLQTLAISMLLKRWVLPMIGWPLDIPLSAHLVGVAVPIFTAYLGHKHLTFARSRSM				NA	NA	NA	NA	NA
BMS020_06547	1887			hypothetical protein	ATGAGCACGTGGGTAGGCGCGGTCCGCGCGCGACTGGCAGGATGGTCCCATCCCCTGGATCCTTTTTTCCTGCTGGCGGTACTGCTAGTACCGATGGTCGCGGTGCGCGCCTACCTGGTTCTCGCCTACGGCAGCAGCAGTCCGTTCTGGGATCAATGGGACGCGGAATTCGACAACCTGTTGCTGCCGTACCTGCGTGGCGAGCTGGGCATCAGCCACTTCTTCGCTGCGCACAACGAGCATCGAATCCTGTTCACCCGGTTGATCTCGCTCGCCCTGTTCATCGTCAACGGCGACCAGTTCGACGCCAAGGTGGAGATGCTGTTGAACGTACTGCCGCATGCTGCCGCGTTCGGCGCGATGGCGTGGTTCGGCATGCGCACGCTGCCGCCGGCAGCCCGCCCGGTGCTGATACTGTGCGTGTTCGTACTGGCGGCCTCGCCGCTGGACTGGGAGAACCTGATCGCCGGGTTCCAGAACCAGTTCTTCATCCTGGCGCTGCTGTCGGTCGCCACTGCCTGGCTGGCCTCATCGGATGCGCTAGGCCGCAACCGCTTGCTGGCGATGCTGCTGTGCGCGGGACTGTCGCTGTTCACCATGGCATCCGGGGTCTTCGCCGCTGCGGCGGCAGCCGGGCTGCTCATCCATCGCCTGCTGGCTGCAGACGTGGATCGTCGTCAAGGTGCCACCGGCCTCGTACTGATGTTGGCCGTGGCCATAGCAGGCCTGCTGCTCATGCCGGAGCCTCCGCACGGCGACAGCTTCCACGCGCACTCCCTCGGCCAGTTCCTGCGCGCACTGAAGAACACCCTGGCCTGGCCACTGCGTCCACACTGGATCAGCGCGTTGGTGCTGTGGTCGCCAACGGCCGCCCTGACCATTGTGATGGTGCGCGCGGCCGTGACCCGTCGTCACATACCGCGCGGCGAGCGCTTCGCCTTCGCTGTCGCAGGCTGGGTGCTGGTGCAGGCCCTGGCCATGGCGTACTCACGCGGCACCGAAGTGGAGCATGGCCTGACCTCACGCTACACCGACCTGCTGGCGGTGGGCGTCATCAACAACCTGTGGCTGGTTCTGTATGCCAGCTTCCGTGGCGATGGCCGCTGGCCCGTATGGGCACGGACCGCGGTGCCAGTCCTGTTCATTGGCTGGACGGCGCTTTCGATCTACCCGAACCTGATCGCGGCCCAGGCCGGCATGCAGCAGCGTTCGGCCGCCGGTGCCGCGCAGGAGCGCCTCCTGGCGGGTTATCTGCGCGACGGCGACGTGGAAGCCCTGCGTACCGCCCCGGAACGCTTCCCCTATCCCGATGCCGAGCGCATCGCACGCGTGCTGTCCAATGACGATGCGGCGGGCATGATGCCGATGGAGATACGCCGCCCGCTGCCATTCGTGTTCGCCGGCTGCCCTGGCATCAGCAGCCCCGGCGCCTACACCTCGCTGCCGCCCGCACTCCACGCGGTCGGCACCTACGCGCCCGGAACGGGGGATGGTAACCTCGCCGACTGCAGCAGCACCGCGGTGACGACCGATGGAGGCTGGATGGTCTATCGCCACGGCGGTAGCGGCGCCCCGTCGGTGGCTGCGACGCTGGTGGGGCGCAGCCATGTACGGGAACTGGCGCACAAGGGCGTGCTGGGCGAGCGCTGGAAGACCAGTCTCAGGTGGCTACCGGCCGATGAGTATCGACTACGACTCATCGATACCGATCCGCACACCTGGGTGGCAGTGACCCTACCTACCCGAATCGGCCCCCTCAGCGCGCTGCGCATCTGGACTGAGCAACGCGCAGGGCAGCTGCTCTATGTCGCCCTGGTACTCGTGTCGACGCTGCTAATTCATGCCGCCGCGCGCCCGCAGAATCCCCTGACCAGGCAATCCGCATGA	MSTWVGAVRARLAGWSHPLDPFFLLAVLLVPMVAVRAYLVLAYGSSSPFWDQWDAEFDNLLLPYLRGELGISHFFAAHNEHRILFTRLISLALFIVNGDQFDAKVEMLLNVLPHAAAFGAMAWFGMRTLPPAARPVLILCVFVLAASPLDWENLIAGFQNQFFILALLSVATAWLASSDALGRNRLLAMLLCAGLSLFTMASGVFAAAAAAGLLIHRLLAADVDRRQGATGLVLMLAVAIAGLLLMPEPPHGDSFHAHSLGQFLRALKNTLAWPLRPHWISALVLWSPTAALTIVMVRAAVTRRHIPRGERFAFAVAGWVLVQALAMAYSRGTEVEHGLTSRYTDLLAVGVINNLWLVLYASFRGDGRWPVWARTAVPVLFIGWTALSIYPNLIAAQAGMQQRSAAGAAQERLLAGYLRDGDVEALRTAPERFPYPDAERIARVLSNDDAAGMMPMEIRRPLPFVFAGCPGISSPGAYTSLPPALHAVGTYAPGTGDGNLADCSSTAVTTDGGWMVYRHGGSGAPSVAATLVGRSHVRELAHKGVLGERWKTSLRWLPADEYRLRLIDTDPHTWVAVTLPTRIGPLSALRIWTEQRAGQLLYVALVLVSTLLIHAAARPQNPLTRQSA				NA	NA	NA	NA	NA
BMS020_06548	1296	pds	COG3349	15-cis-phytoene desaturase	ATGAAAAAATTCGCCATCATCGGCGCGGGCCCCATGGGCCTGATGGCTGCCGTGAAGCTCCTCGACCAGGGCCACTCAGTCACGATCTACGAGCGTGACGATCGCATTGGCGGCATGTCTGCCAACTTCGATTTCGACGGCCTGTCGATCGAGCGCTACTACCACTTCATCTGCAAGACCGACTACCCGCTCTTCGCACTGCTGGAGCGTTACGGCGTGTCCAAGGCGCTGCGCTGGACCGACACGAAGATGGGTTACTTCTACAACGGCAAGCTGTACAAATGGGGCACGCCATTTGCCCTGCTGGCGTTCCCGCACCTTGGCCCGATCAGTAAGTTCCGCTATGCCCTACATGTGATGTATACCAAGGGCATCAAGGACTGGACCGCACTGGACAAGAAGGAGGCAGGAACCTGGATCCGTCGCTGGATCGGCCAGAAGGGCTACGAGGTAATGTGGAAGGATGCGTTCCGCCTGAAGTTCTTCGAGTTCAAGGACAATCTTTCCGCGAGCTGGATCGGCACACGCATTAAGCGTGTAGCGCTTTCGCGCCGCAACCTGATGAACGAGAGCATGGGCTACCTCGAAGGCGGCTCGATGACGCTGCTGGAGCGCATGGTCCAGGACATCCAGACGCGTGGAGGACGCATCGAGCTGTCCTGCGGCATCGACGAAGTTGTGTCCGAGAGCGGCAAAGTCACCGGCGTATCGACAGGCGGCGAGTTCATCGCCTACGACGGCGTGATCTCGACCGCCCCGATCCAGTACGTCCCGGGGATGGTGCCTGGCCTGCCGGATGACTTCCGCGACAAGGTCGCCTCCATCCAGAACATTCCGGTGGCCTGCGTCATCCTCAAGCTCAAGCACGCGCTCAGCGAAAACTTCTGGATGAACATCAGCGATCCGGGCATCGAGATTCCCGGAGTGATCGAGTACAGCAACCTCAACCCGGGGCACGATCCGGGCCAGAAGATCCTGTACGCGCCCTATTACATGCCGAAGACCCATCCCAAGTGGCGGCGCACCAATGCCGAGCTGATCGAGGAGGTGCTGGACTACCTGCCGCGGTTGAATCCCGCGTTCCAGCGCGACTGGGTGCTGGCGTCGCATTGCCATCGCTACGAATTCGCTCAGACGATCTGCCCACCCGGCTTCCAGGACATGCTGCCGTCGATGCACACGCCGGTACAGGGCTTCTTCATGGCTGACACCGCGTATTACTACCCGGAAGACCGCTCGATCAACGAGAGCATCAACACCGCCGAGGCGCTGGTTGAAGAGGTGTTGCGCGGATGA	MKKFAIIGAGPMGLMAAVKLLDQGHSVTIYERDDRIGGMSANFDFDGLSIERYYHFICKTDYPLFALLERYGVSKALRWTDTKMGYFYNGKLYKWGTPFALLAFPHLGPISKFRYALHVMYTKGIKDWTALDKKEAGTWIRRWIGQKGYEVMWKDAFRLKFFEFKDNLSASWIGTRIKRVALSRRNLMNESMGYLEGGSMTLLERMVQDIQTRGGRIELSCGIDEVVSESGKVTGVSTGGEFIAYDGVISTAPIQYVPGMVPGLPDDFRDKVASIQNIPVACVILKLKHALSENFWMNISDPGIEIPGVIEYSNLNPGHDPGQKILYAPYYMPKTHPKWRRTNAELIEEVLDYLPRLNPAFQRDWVLASHCHRYEFAQTICPPGFQDMLPSMHTPVQGFFMADTAYYYPEDRSINESINTAEALVEEVLRG				NA	NA	NA	NA	NA
BMS020_06549	2076			hypothetical protein	ATGCTGAAAGCCTCTTCGCCCCCCCAAAAAAAGGATTCCACCTGGAAGAACCTTCCCTTGGCCATCCTGCTGCTCATGGTGGCTGCCGTTGTCATCCGTCTGGCGTTCTGGGCCTACACCGAGCGTGTGTGGGAAGACGCGCTGATCACGGTGCTGCACGCGGAGAACCTGTTCCAGGTCGGCAAGCTTTCCCACTTCCGGTTGGATGACAAGGTCGTGCACGGCTTCACCAGCCCGATCAGCGTGTTGGTGCCGATCATTGGTGGCGCACTGGACTGGAAGGGAACCTACGCCCTGCCGTTCATCCAGTTCATCTCCGCGCTGACTGGCGCACTGACCGTGCTGCTCGGCTACCGGGTGATCATCCGCGCCAAGGAGCCGAACCAGCCCGCCTGGATGGTTTTCACGCTGGCCTACCTGGCCTTCGAGCACCACCAGATCCTCTGGGGCATGGCCGGCATGGAAACGCAGATGGTCGTGGCGACCATCCTGTTCGCGTTCTATGCCGCGACCACCGGCAATCCGAAGCTGATCGGCCTGGCCTTGGCGCTGGCGCTGTATGCGCGCCCGGACTTTGCCTTCCTCAATATCATCATCGTTGTCTTTACCTACTTCGTCGTTGGTAAGGGCCAAGCGGTGAAGTCCGTGCTGATCGGTGCCGCGCTCTACGCACCCTGGCTCATCTTCACGACCCTCTACTATGGCTCGCCGCTGCCCAACACCATCCTGGCCAAGGCTTACGGCTACGCGCCGCAGAAGGTCTCGCTGGCACAGAAGCTGCTGGACTTCTGGGTCCCGATGGGCCCGTCGTTCGCGGGTAACGGCACCGGCTACTGGCGCCTGTGGGATAACGGCTTAATTTCGATCGCCGTCATCCTCCTATTTGGGTTCGGTGCATACAGCGTCGTCCGTCACCGCACCCGGGCAATGTACGTGCCGGTCGCCTTCGTAGTTGTGTACTGGGCGTACTACGTCTTCGCCGTCAACGGCGTGTTCGGGTGGTACGTTGTGCCCGTCTCGGCGGCAACGAGCCTAGTCTCTGGTTACGGTCTGTCCCGGCTGATCCGCAATCGCAAAGCCGCTATCGCCGTAGCGGTGGCGTACACCACTGCCATAGTCACGGTGCTGCCCACGACGTTCAAAGCCGAACACGACATCCAGGCAAACATCGAGGCGCCAGTCCGCGAGGCGATGGGGCGCTACCTTGGTGCCGTGATGCGTCCCACCGACAAAGTGGGCATGGAGCCGCTAGGTTACAGCTCCTACTACTCGCGCCACGTGATCGTAGACTACCCCGGGCTAATCAATCCTGACGTCGTTGCGTATACCAAGAAACACCGTGCAGCCGGCCTGTGCGCGCTGCTTGGCGACTTCCTGCCCGAGTACGTCGCCCTGCGTGAACACGAGTGCAAGGGGGAGCCATGGATCGCACGGCACTATGTCGAGATCAGGAACTTCCGCAGCAACGCAGCTGCCGCGAACAACTTCATGATTGAGCACAACATTGATACGCACTTCGTTCTGTATCGTCGCTCGGACGTCCCTTCCGTGCCAGTGCCGACGGTGGCCGCGCAGGAACAGCCGCAGAAGCGCGGCCTGGCAGATCCACTTCTGAACCAGACGTCTTCGATCAGCACGGGCGCCCCGCTGCAGATCGCCGCTGTAGATCTGCAAGGCGACTTCGCCCGTGACGGCCACAATCCCGAGGTGGGCCTGCCGTCGCTGAAGGGTGACATCTACGGCTCGTGGGCCGTCAAGGGCGATCCTGGCACCGGTCACGTCTCTCTATCCGCCCTGATACCGGCCGGTGTCGATGCGATTGCCGTGCCCGTGCTGACCGGCCCGTCTGCGACCCACGCCCACTTTGAAGTGAGCGACAACGGGAAGACCATCGACCAGCTGTCCGACTCGCCGGGCCTGGGACACTGGCGTCTCTGGGCTGTCACCGTCCCTGCCCAGCCCGAGCCACGCACGATCACCATCACCTCAGCCGACTCCGGGGACGGCTGGGGTGAATGGACGGCCATCGGCGCTCCATACGTGATGCGGCAGCATCAGTACCCGACCAAGAACTGA	MLKASSPPQKKDSTWKNLPLAILLLMVAAVVIRLAFWAYTERVWEDALITVLHAENLFQVGKLSHFRLDDKVVHGFTSPISVLVPIIGGALDWKGTYALPFIQFISALTGALTVLLGYRVIIRAKEPNQPAWMVFTLAYLAFEHHQILWGMAGMETQMVVATILFAFYAATTGNPKLIGLALALALYARPDFAFLNIIIVVFTYFVVGKGQAVKSVLIGAALYAPWLIFTTLYYGSPLPNTILAKAYGYAPQKVSLAQKLLDFWVPMGPSFAGNGTGYWRLWDNGLISIAVILLFGFGAYSVVRHRTRAMYVPVAFVVVYWAYYVFAVNGVFGWYVVPVSAATSLVSGYGLSRLIRNRKAAIAVAVAYTTAIVTVLPTTFKAEHDIQANIEAPVREAMGRYLGAVMRPTDKVGMEPLGYSSYYSRHVIVDYPGLINPDVVAYTKKHRAAGLCALLGDFLPEYVALREHECKGEPWIARHYVEIRNFRSNAAAANNFMIEHNIDTHFVLYRRSDVPSVPVPTVAAQEQPQKRGLADPLLNQTSSISTGAPLQIAAVDLQGDFARDGHNPEVGLPSLKGDIYGSWAVKGDPGTGHVSLSALIPAGVDAIAVPVLTGPSATHAHFEVSDNGKTIDQLSDSPGLGHWRLWAVTVPAQPEPRTITITSADSGDGWGEWTAIGAPYVMRQHQYPTKN				NA	NA	NA	NA	NA
BMS020_06550	945	hldD_2		ADP-L-glycero-D-manno-heptose-6-epimerase	ATGAACGATAAGAACGCCAAGATCGTCATCACGGGTGCAGCGGGCCTTGTCGGCCAGAATCTGATCGTCGAGCTCGAACAGCAGGGCTACACCCAGTTGGTCGCTATCGACAAGCATGCGCACAACTTGCAGATCCTGCGGGAGCTGCACCCCAAGGTACGCGTGGTGCACGCGGACCTAGCGGAACCCGGCAACTGGGCGCGGGAGTTCGATGGCGCCGCCTGCGTCGCCCAGCTGCACGCGCAGATCACCGGCAAGACCACCGAGCTGTTCACCCGCAACAACCTGGTGGCCACCTCGCACGTACTCGATGCCTGCCGCGCGGCCAGCGTGCCGTATCTGGTTCACATCAGCTCCTCGGTGGTGAACTCGGTGGCCAAGGACGACTACACCAACACCAAGCGTGCGCAGGAGGAGATGGTGGTCGCCAGCGGCCTGCGCCACTGCGTGCTGCGCCCGACCCTGATGTTCGGCTGGTTCGACCCCAAGCATCTGGGCTGGCTGTCGCGCTTCATGGCCAAGACTCCGGTGTTTCCGATTCCCGGCGACGGCAAGTTCATGCGCCAGCCGCTGTACGAGCGCGACTTCTGCCGCTGCATCGCCAAGTGCATCGAAACCGAACCCAATGGCGCGGCCTTCGACATCGTCGGCGATACCCGCGTGGACTACGTGGACATCATCCGCACCATCAAGCGGGCGAAGAAGCTGCACACTGTGATCGTGCACATTCCGATCGGCTTCTTTGCGTTCCTGCTGAAGGTCTACAGCCTGTTCAGCAGCAAGCCGCCGTTCACTGCGGACCAGCTGAAGGCGCTTAGCGCCGGCGACGACTTCAAGGGCATCGACACCGAAGCGGTGTTCGGGGTGACGCAGACGTCATTTGAGGATGCCATTCGCGAAAGCTACACCGACCCCAAGTATTCGCACATCGTGCTGCAGCGCTGA	MNDKNAKIVITGAAGLVGQNLIVELEQQGYTQLVAIDKHAHNLQILRELHPKVRVVHADLAEPGNWAREFDGAACVAQLHAQITGKTTELFTRNNLVATSHVLDACRAASVPYLVHISSSVVNSVAKDDYTNTKRAQEEMVVASGLRHCVLRPTLMFGWFDPKHLGWLSRFMAKTPVFPIPGDGKFMRQPLYERDFCRCIAKCIETEPNGAAFDIVGDTRVDYVDIIRTIKRAKKLHTVIVHIPIGFFAFLLKVYSLFSSKPPFTADQLKALSAGDDFKGIDTEAVFGVTQTSFEDAIRESYTDPKYSHIVLQR				NA	NA	NA	NA	NA
BMS020_06551	732	dprE2	COG1028	Decaprenylphosphoryl-2-keto-beta-D-erythro-pentose reductase	ATGCAGAAGATACTCATCATCGGCGCCACGTCGGCCATCGCCGAAGCCATCGCCCGCCGCTATGCAGCACGGGCTGCAGCGCTCTATCTGGCCGGCCGCAGCACCGAACGCCTCAACGCAATCGCCGACGACCTGCGGGTGCGCGGAGCCAAACAGGTCGAGATCGGTGTGCTCGACGTGAACGACCTGGCAGCGCATGCTCACCTGCTAGACCAGGCGACCGCCTTCCTCGGCGGCATCGACGTCGCGCTGATCGCCCACGGAACGCTGCCGGACCAGGCCGCATGCGACGCATCAGTGGAGCTGTCGCTACGGGAATTCGCAACCAACGGCACATCGACGATCGCACTTGCCGCCGCACTCGCGCAGCGCCTGCAACCCGAGGCCACGCTGGCGGTGATCTCATCCGTGGCCGGTGATCGGGGGCGCGCCAGCAACTATCTCTACGGCAGCGCCAAGGCGGCCGTCACCGCGTTCCTTAGCGGCTTGGGCCAGCGCCTGCGCCCGCTGGGCATCAACGTCCTGAACATCAAGCCCGGCTTTGTCGATACCCCGATGACGGCCTCCTTCAAGAAGGGCGCCCTCTGGGCGACACCAGACAGGGTGGCCGCAGGCATCATCAAGGCAATCCAGAAGCGCAAGGCCGTCGCCTATCTGCCGAGCTTCTGGTGGGCAATCATGATGATCATCAAGAACATTCCAGAATTCATTTTCCGCAGGATCAAGCTCTGA	MQKILIIGATSAIAEAIARRYAARAAALYLAGRSTERLNAIADDLRVRGAKQVEIGVLDVNDLAAHAHLLDQATAFLGGIDVALIAHGTLPDQAACDASVELSLREFATNGTSTIALAAALAQRLQPEATLAVISSVAGDRGRASNYLYGSAKAAVTAFLSGLGQRLRPLGINVLNIKPGFVDTPMTASFKKGALWATPDRVAAGIIKAIQKRKAVAYLPSFWWAIMMIIKNIPEFIFRRIKL				NA	NA	NA	NA	NA
BMS020_06552	1311	dprE1_2	COG0277	Decaprenylphosphoryl-beta-D-ribose oxidase	ATGAATCTGCCGAGCGGGCAATCATGGGGGCGTTTTCCGCGCGTCGAGCAGCGGCTTGTTCCCGTTGTCGACCGAGATGCACCACTATCGATTCCGACGGATGGCAGCGCCCTGCCGCATGGCAATGGCCGCAGTTATGGCGACAGCTGCTTGAATCCTGGAGGCACGCTTCTCGCAAGCAGCCCGCTTGATCGCTTCATTGCCTTCGATCCCGCCAAGGGCATCATCCGCTGCGAGGCAGGCGCCACGTTGGCCGACGTGCTGGATATCGCCTTGCCGCAGGGCTGGTTTCTGCCCGTCACGCCCGGTACCCGCTACGCCACCGTGGGCGGGGCCATCGGCAATGACGTCCACGGCAAGAATCACCACCGGGCCGGCAGCTTCGGCCACCACGTGTTGCGCCTGGAGTTGCTACGGAGCGATGGCACGCGCCAGACGCTGACTCGCGACGACCCTAGCGGCCTATTCTCCGCAACCATCGGCGGGCTGGGACTGACGGGTTTCATCACCTGGGTCGAGTTGCAGCTGCGCCGCGTCCCCGGTCCGTGGATCGAGACAGAGACCATCCGTTTCGAAAACCTGGATGAGTTCTTTGCGCTGTCGCAGGCCTCTGCGAAAGACTTCGAGTACACCGTCGCCTGGATCGACTGCCTGGCGGGCGGCAAGCAGCTGGGACGCGGGCATTTCCTGCGGGGCGACCACGCCGCCGGAGACGTTCACGCAGCGACGCCCAGCTCAGCTCCCAGACGCAGCATCCCCGTGGTGCCACCGGTTTCATTGGTGAACCGGTTGACGCTACGACCATTCAACACGCTCTATTACTGGCGGCAGCCGACACGCCACAAGCGCCATCTGGCCCATTACCAGAGCTACTTCTATCCGCTTGACGGCATCAATCACTGGAACCGCATGTACGGTCCGCGGGGCTTCCTGCAACACCAATGCGTCTTGCCGCCGGCGCACGCTCGCGACGCCACCGCGGCCCTGCTGCAGGAGATCTCCCGCAGTGGCCGCGGCTCCTTCCTCGCCGTGCTGAAGGAGTTCGGCAACACGCCATCGCTTGGCATGCTGTCCTTCCCCCGCCCCGGCACCACCCTCGCACTGGACTTCCCGAACGACGGCCCAGACCTGATGAAGATGCTGGACCGCCTGGATCGCATCGTCATGGAGGCCGGAGGCGCCATCTATGCGGCCAAGGATGCACGCATGTCAGGCCCACTTTTCCGGCAGGCCTACCCTGCCTGGCAGGCATTTTCCCAATTCATCGACCCCCGATTCTCTTCCGGCTTCTGGCGCCGGGTCATGGAGTAG	MNLPSGQSWGRFPRVEQRLVPVVDRDAPLSIPTDGSALPHGNGRSYGDSCLNPGGTLLASSPLDRFIAFDPAKGIIRCEAGATLADVLDIALPQGWFLPVTPGTRYATVGGAIGNDVHGKNHHRAGSFGHHVLRLELLRSDGTRQTLTRDDPSGLFSATIGGLGLTGFITWVELQLRRVPGPWIETETIRFENLDEFFALSQASAKDFEYTVAWIDCLAGGKQLGRGHFLRGDHAAGDVHAATPSSAPRRSIPVVPPVSLVNRLTLRPFNTLYYWRQPTRHKRHLAHYQSYFYPLDGINHWNRMYGPRGFLQHQCVLPPAHARDATAALLQEISRSGRGSFLAVLKEFGNTPSLGMLSFPRPGTTLALDFPNDGPDLMKMLDRLDRIVMEAGGAIYAAKDARMSGPLFRQAYPAWQAFSQFIDPRFSSGFWRRVME				NA	NA	NA	NA	NA
BMS020_06553	1419	cyoE_2		Protoheme IX farnesyltransferase	GTGACCACATCCAACCGCCCATTGTGCGTCGATCTTGATGGCACCCTGCTCCGCTCCGATATCCTCTACGAATCGTTGCTGGCGCTGTTGGCGCGCAATCCGCTTTACATCTTCATGCTCCCGTTGTGGCTGGCGCGCGGCAAGGCCGCGTTGAAGCGCCAGCTTGCGTCGCGGGTGAAGCTGGCGCCCGAGTCACTGCCGTACGACGAACGGGTGATGGAGCTCCTGCGCACAACCGAGCAGCGCCCACGCGTGCTCTGTACGGCTTCGGACCACATCCTGGTCCAGCCCATCGCCGACCACTTGCAACTGTTCGAGCAGGTTATCGCCAGCGATGGGCGGACCAACTTGTCCGGCCGCAACAAGGGCAAGGTGCTGGCCGAACACTTCGGCGAGCGCGGCTTCGATTACATGGGAAACGGCCGAGTCGACCTGCGGGTCTGGGAGCGTGCCGCTGGTGCCATCGTCGTCAACAATGGAACAAAACTGGTACGTGATGCCTCGCGCCGCGCGGAAGTCCTTGGTCACTTCCCCTCCGAGAATGGCGGTCTGCTGACCTGGATCAAGGCGCTGCGCATCTATCAGTGGCTCAAGAACCTGCTTGTACTGGTCCCCCTGTTGACCGCACACCGTTTCCTGGATCTGCCTGCCGTTGCCGACGGAATCGTCGCCTTCCTTGCGTTCGGGATGTGCGCCTCCGGCGTGTATGTACTCAACGACCTGCTCGACCTCACTCCCGACCGGATGCACCCACGCAAGCGCAAGCGTCCGTTCGCGGCGGGACGACTCCCTCTGCTGCATGGGCTGCTCGTCGCACCGCTGCTCACGCTCGCCGGCTTTGCATTGGCGGTATTGTGCAGCCCCGCGTTTGCGCTCGTACTGCTCTGCTACTACGTGATGACGCTGACGTATTCGCTCAAACTCAAGCGCATCGTCATGATCGACGTGGTACTGCTCGCCGCGCTGTACACCGTACGCATCATCGGCGGAACCGTGGCGATCGGCTCGGAACTGTCGTTCTGGCTGCTGGCGTTCTCGATGTTCGTATTCCTCAGCCTGGCCATGCTCAAGCGCTACACGGAGCTTGCGGCAGCTCTGGCCAGCGGCAAGGAGATGGCCATCGGCCGCGGCTACTCGGTCGCCGATTTGCCGTTGGTGCAGTCCTTGGGCGCGGCAGCCGGCTATATCGGCGTCCTCGTGTTCGCTCTGTACATCAACAGTCCAGAAAGCCTCGAGCTCTACAGCAACCCCAAGCTGCTCTGGCTGCTATGTCCGATCCTGCTGTATTGGATCAGCCGCATGTGGATTGTCTCGCACCGAGGGGACATGCATGACGACCCAATCGTATTTGCAGCCATGGATCGCGTCAGCCAGATCGTGATCGGTTTGTGCGTGGTCATCGTCCTGGCTGCGATATGA	MTTSNRPLCVDLDGTLLRSDILYESLLALLARNPLYIFMLPLWLARGKAALKRQLASRVKLAPESLPYDERVMELLRTTEQRPRVLCTASDHILVQPIADHLQLFEQVIASDGRTNLSGRNKGKVLAEHFGERGFDYMGNGRVDLRVWERAAGAIVVNNGTKLVRDASRRAEVLGHFPSENGGLLTWIKALRIYQWLKNLLVLVPLLTAHRFLDLPAVADGIVAFLAFGMCASGVYVLNDLLDLTPDRMHPRKRKRPFAAGRLPLLHGLLVAPLLTLAGFALAVLCSPAFALVLLCYYVMTLTYSLKLKRIVMIDVVLLAALYTVRIIGGTVAIGSELSFWLLAFSMFVFLSLAMLKRYTELAAALASGKEMAIGRGYSVADLPLVQSLGAAAGYIGVLVFALYINSPESLELYSNPKLLWLLCPILLYWISRMWIVSHRGDMHDDPIVFAAMDRVSQIVIGLCVVIVLAAI	PGPT0015247_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_ROOT_NODULATION_OUTER_PROTEINS,PGPT0015247-noeC-NA	NA	NA
BMS020_06554	981			hypothetical protein	ATGCCACAAGGTTCGCCCGCGGAGCCGGCGACCCCGGCGCCGCGGCGAAGCGCGGCGATCTGGGTTCTGGCCGTTGCAGCGCTCTACTTGGTCGTTTTGTGGCACATGGACCGCAACAGCCACATTCTGGCCAACCTGGCCAAGCTTGCGTCCCCCTTGGGATCCTGCGCGCTGCTGGTACTCGCGAGCTACGGGTTCCGCTATCACCGTTGGCGCCAGGTATTACGAGCCCAGGGACATCACGGCGCCAGCTGGCTGCCTGGCTTAGCGGCCTATCTCGCAGGCTTCGCCTTTACCGCTTCGCCAGGCAAAGCGGGCGAGCTGCTTCGGATCAGGTATTTCGCTTGGCAGGGAATCCCCGCAAGAGCGACCCTGACCACATTCATCTTCGAGCGCAGCCTGGATCTATTGGTCATCGCCCTGATGGCCACCGCCGCCGCGAGATCGGCCCCGATGTTCGGCGTGATCGTAGGATTCGTCCTCGCACTCCTGACCGCGTTGGCGACGCTGGCTTGTTGGCCCCGCCTGGCTGAGACGGCGCACAGGCTTGTGAACCTGCTCCCGGGACCGCCATTACGCCGCCTCGGCCACTTCCTTATCAACGGCGCGTGCGCAATGAAGCCTTTGATGCGCCCACGCGTCATCTTGCCGGCCATCGCGCACGGCACCGCCGCCTGGACCCTCACGGCACTAGCTTTCCTGTACCTCAGCCACGCCGCGGGTGTCAGCCTATCGTGGGAACTGGGGGTCGGACTCTATCCCGCTGCAATGCTCATCGGCGCCATTTCATTCATCCCCGGCGGCGTCGGCACCACGGAAGCTGCGATCGTCCTCATGCTGGACAGGGCCGGGACCCCGATCGACCTGGCTCTCACCATTGCCATAGGCATCCGCCTTGCAAGCCTATGGTTAGCGGTGCTGGTCGGAATGATCGCAATGACCATCCTCGAGTTGAGCCCGTCGTTACACCGACGGGGGTGA	MPQGSPAEPATPAPRRSAAIWVLAVAALYLVVLWHMDRNSHILANLAKLASPLGSCALLVLASYGFRYHRWRQVLRAQGHHGASWLPGLAAYLAGFAFTASPGKAGELLRIRYFAWQGIPARATLTTFIFERSLDLLVIALMATAAARSAPMFGVIVGFVLALLTALATLACWPRLAETAHRLVNLLPGPPLRRLGHFLINGACAMKPLMRPRVILPAIAHGTAAWTLTALAFLYLSHAAGVSLSWELGVGLYPAAMLIGAISFIPGGVGTTEAAIVLMLDRAGTPIDLALTIAIGIRLASLWLAVLVGMIAMTILELSPSLHRRG				NA	NA	NA	NA	NA
BMS020_06555	945	etfA	COG2025	Electron transfer flavoprotein subunit alpha	ATGAGCAAGATTCTCGTCGTCGCCGAGCACCTCAACGGCCAGCTCAACGCCGCCACCGCCAAGACCGTCAGCGCCGCACAGGCGATCTCCGGCGCGGGCATCGACATCGTCGTGCTGGCCGCCGACCCGGCCGCGGTTGCGGCAGATGCCGCACAGATCGGCGGTGTCGCCAAGGTCCTCACCATCGCCAACCCGGCCAACGCGCACGCGCTCGCCCAGGTGCTGGCCCCGCAGATCGCCGAGTTGGCCAAGGCCGGCGGCTACAGCCACGTGTTCGGCCCATCGACCACCTTCGGCAAGGACCTGATGCCGGTCGTCGCCGCGCTGCTCGGCGTCAACCAGGTCTCGGACCTGATGGCGGTCGAGGGATCGCATACTTTCAAGCGTCCGATCTACGCCGGCAACGCGATCATCACCGTCGAAGCCCCGGCCGACCAGGTCGTGGTCGCCACCGTGCGCAGCGCCTCCTGGCCGGAAGCCGCCAAGGGCGGCAGCGGCGCGATCGAGGCCGCCAGCGTCGGCGCCGCATTGCCCACGCATACCCGCTTCGTCGGCCTGGCCGCCGGCAGCTCGGACCGCCCCGACCTGCAGAGCGCCAAGCGCGTGGTGTCCGGCGGCCGCGGCGTTGGTTCGGAAGAGAACTTCAAAGTCATCTACCAGCTCGCCGACAAGCTCGGCGCAGCGGTCGGCGCCTCGCGCGCCGCGGTCGACGCCGGCTACGTGCCCAACGAGCTGCAGGTTGGCCAGACCGGCAAGATCATCGCCCCGGAGCTGTACGTCGCGGTCGGCATCAGCGGCGCGATCCAGCACCTGACCGGCATCAAGGACGCCGGCACGATCGTGGCGATCAACAAGGACGGCGAGGCGCCGATCTTCGAGATCGCGGATATCGGATTGGTGGGGGATCTGTTCGCGCTGCTGCCCGAGCTGGAAAGGGCCCTGTAA	MSKILVVAEHLNGQLNAATAKTVSAAQAISGAGIDIVVLAADPAAVAADAAQIGGVAKVLTIANPANAHALAQVLAPQIAELAKAGGYSHVFGPSTTFGKDLMPVVAALLGVNQVSDLMAVEGSHTFKRPIYAGNAIITVEAPADQVVVATVRSASWPEAAKGGSGAIEAASVGAALPTHTRFVGLAAGSSDRPDLQSAKRVVSGGRGVGSEENFKVIYQLADKLGAAVGASRAAVDAGYVPNELQVGQTGKIIAPELYVAVGISGAIQHLTGIKDAGTIVAINKDGEAPIFEIADIGLVGDLFALLPELERAL	PGPT0001040_3859	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522	NA	NA
BMS020_06556	747	etfB		Electron transfer flavoprotein subunit beta	ATGAAGATCCTCGTCGCCTACAAGCGCGTGGTGGACTACAACGTCCGCATCCAGGTCAAGCCGGACGGCTCCGGCGTGGTGACCGACGGCGTCAAGCTGTCGCCCAACCCGTTCGACGAAATCGCCCTCGAAGAGGCCCTGCGCCTGCGCGACAAAGGCGTCGCCACCGAGGTCGTGGTCGCCACGATCGCTCCCGCCGACGCCCAGGCGCATCTGCGCAATGGCCTGGCGATGGGCGCCAACCGCGCCATCCATGTGGTCGCCGACGGCGCGATCCAACCGCTGACCGCCGCGCGCGCCCTGCTCAAGCTGGTCGAGAAGGAGCAGCCGGACCTGGTGATCCTCGGCAAGCAGGCGATCGACGACGATGCCAACCAGACCGGCCAGATGCTGGCCACGCTGTGGGGGCGTCCGCAGGCCACCTTCGCCAGCAAGCTCGAGGTCGCCGGCGGCAAAGCCACCGTGGTGCGTGAAGTCGACGCCGGCCTGGAAACGCTGGAGGTCGACCTGCCGGCCGTGGTCACCACCGACCTGCGCCTCAACGAGCCGCGTTTCATCAAGCTGCCGGACATCATGAAGGCCAAGAGCAAGCCGCTGGAGACGCTGGCCTTCGCCGATCTCGGCGTGGAAGCCAACGACAGCCTCAAGACCACCCACTACGCCCCGCCGGCCAAGCGCAGCCGCGGCGTGATGGTCAAGGATGCCGCCGAGCTGGTGGCCGCACTCAAGCAGAAGGGGTTGCTGTAA	MKILVAYKRVVDYNVRIQVKPDGSGVVTDGVKLSPNPFDEIALEEALRLRDKGVATEVVVATIAPADAQAHLRNGLAMGANRAIHVVADGAIQPLTAARALLKLVEKEQPDLVILGKQAIDDDANQTGQMLATLWGRPQATFASKLEVAGGKATVVREVDAGLETLEVDLPAVVTTDLRLNEPRFIKLPDIMKAKSKPLETLAFADLGVEANDSLKTTHYAPPAKRSRGVMVKDAAELVAALKQKGLL	PGPT0001035_4793	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521	NA	NA
BMS020_06557	1056	rffG_2	COG1088	dTDP-glucose 4,6-dehydratase 2	GTGCCAACGTGGCTCGTGACCGGCGGAGCCGGCTTCATCGGCGGGAATTTCGTGCTGGAGGCCGTCGCGCGCGGCGTCAAGGTGGTCAATCTCGATGCCCTGACCTATGCCGGCAACCTGAAGACGCTGGCCTCGCTGGAGGGAAATCCGGCCCATGTGTTCGTCGAGGGTGATATTGGCGACCGGGCGTTGGTGAGCCGCCTGCTGGCCGAGCACCAGCCCGACGCCGTGCTGAACTTCGCCGCTGAAAGCCACGTTGATCGTTCGATCGATGGTCCCGGCGCCTTCATACAGACCAATGTCGTCGGCACGCTCGGGCTGCTGGAATCGGTGCGTGATTACTGGAAGGTGCTGCCGGCCGACAAGGGCACGGCGTTCCGCTTCCTGCACGTGTCCACCGACGAGGTCTACGGCACGCTCGGGGAGACCGGCGAGTTCACCGAGACCACCCCGTATGCGCCCAATTCGCCGTATTCGGCGTCGAAGGCGGCCTCGGATCACCTGGTGCGGGCGTTCCACCACACCTATGGCCTGCCGGTGCTGACCACCAACTGCTCCAACAACTACGGCCCGTACCACTTCCCCGAGAAGCTCATTCCGCTGGTGATCGCCAAGGCGCTGGCTGGCGAAGCGCTGCCGGTCTACGGCGACGGCAAGCAGGTGCGCGACTGGCTGTTCGTGTCCGACCACTGCGAGGCGATCCGCACGGTGCTGGCCAAGGGCCAGGTTGGCGAGACCTACAACGTCGGCGGCAATTCGGAAAAGCAGAACATCGAGGTCGTGCAGGCGATCTGCGCGCTGCTCGATACGCGCCGTCCGCGCGAGGACGGGCAGCCGCGCGCGACCCAGATCACCTACGTTGCCGATCGCCCGGGCCATGATCGCCGTTACGCGATCGATGCGTCCAAGTTGAAGCATGATCTCGGCTGGGAGCCCAAGCACACCTTCGAGCAGGGCATCGCCTTCACGGTCGACTGGTACCTGTCCAACCAGGAATGGGTCAACGGTGTGCTCGATGGCAGCTATCGTCTAGAGCGCATCGGCGCTGCAGCTTGA	MPTWLVTGGAGFIGGNFVLEAVARGVKVVNLDALTYAGNLKTLASLEGNPAHVFVEGDIGDRALVSRLLAEHQPDAVLNFAAESHVDRSIDGPGAFIQTNVVGTLGLLESVRDYWKVLPADKGTAFRFLHVSTDEVYGTLGETGEFTETTPYAPNSPYSASKAASDHLVRAFHHTYGLPVLTTNCSNNYGPYHFPEKLIPLVIAKALAGEALPVYGDGKQVRDWLFVSDHCEAIRTVLAKGQVGETYNVGGNSEKQNIEVVQAICALLDTRRPREDGQPRATQITYVADRPGHDRRYAIDASKLKHDLGWEPKHTFEQGIAFTVDWYLSNQEWVNGVLDGSYRLERIGAAA	PGPT0022625_2389	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
BMS020_06558	888	rfbA	COG1209	Glucose-1-phosphate thymidylyltransferase 1	ATGACGCAACGCAAGGGAATTATCCTCGCCGGTGGCTCCGGCACCCGGCTGTATCCGATCACCAAGGGCGTCAGCAAGCAGCTGCTGCCGGTGTACGACAAGCCGATGATCTATTACCCGCTCAGCGTGCTGATGCTGGCGGGGATTCGTGAAGTCCTGATCATCAACACCCCGCACGAACAGGCGCTGTTCCAGAACCTGCTTGGCGATGGCTCGCAGTGGGGGATGCAGATCCAGTACGCGGTGCAGCCGAGCCCGGACGGATTGGCGCAGGCCTACCTGATCGGGCGCGAATTCGTCGCCGGCAAGCCGAGCTGCCTGGTGTTGGGCGACAACATATTCTACGGCCACGGTTTGACCGACACGCTCAAGCGCGCCGATGCGCGCGAGGACGGTGCGACCGTGTTCGGCTACTGGGTCAACGATCCGGAGCGCTATGGCGTGGCCGAATTCGATGCGCATGGCAAGGTCATCGACATCGAGGAGAAGCCGGCCAAGCCGCGTTCTAACTATGCGGTTACCGGCCTGTATTTCTACGACGGGACCGCGGCCGACCGGGCTGCCGAGCTGAAGCCGTCGCCACGCGGCGAGCTGGAGATCACCGATCTCAATCGTCGCTACCTCGACGACGGCAAGCTGCACCTGGAGGCGCTCGGTCGCGGCTATGCGTGGCTGGATACCGGCACGCACCAGTCGATGCACGAAGCGGCAAACTTCATCGAGACGATCCAGGCTCGGCAGGGGCTGCAGGTATGCTGCCCGGAGGAAATCGCATTCGCGCAGGGCTGGATCGATACCGCCCAGCTTGAGGCGCTGGCCTCGCCGTTGTTGAAGAACGGCTATGGGCGGTATCTGCATGATCTGGCCAAGCGTGGAGTGGTCCGTTGA	MTQRKGIILAGGSGTRLYPITKGVSKQLLPVYDKPMIYYPLSVLMLAGIREVLIINTPHEQALFQNLLGDGSQWGMQIQYAVQPSPDGLAQAYLIGREFVAGKPSCLVLGDNIFYGHGLTDTLKRADAREDGATVFGYWVNDPERYGVAEFDAHGKVIDIEEKPAKPRSNYAVTGLYFYDGTAADRAAELKPSPRGELEITDLNRRYLDDGKLHLEALGRGYAWLDTGTHQSMHEAANFIETIQARQGLQVCCPEEIAFAQGWIDTAQLEALASPLLKNGYGRYLHDLAKRGVVR	PGPT0022600_1007	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
BMS020_06559	558	rfbC_3	COG1898	dTDP-4-dehydrorhamnose 3,5-epimerase	TTGAAAATCATTGAAACTTCCCTGTCAGGCTGCGTGGTGATCGAGCCGGCAGTATTCGGCGACGAGCGCGGCGTGTTCTTCGAGACCTGGAATGCCGAGCGCTTCGGTGCGCACGGCCTGCCGACGAAGTTCGTGCAAAGCAACGTCTCCACTTCGGTGAAGGGCGTGTTGCGTGGTTTGCATTACCAGTGGCCGCGGCCGCAGGGCAAGCTGGTCAGTGTGCTCGAAGGCGAGGTCTACGACGTCGCGGTCGACATCCGCCGTGGCTCGCCGACCTTCGGGCGCTGGGAGGCGGTGGTGCTGAGCGCGGAGAATCGCCGCCAGTTCTGGATTCCGGAAGGCTTCGCGCATGGTTTCGCGGTGCTGTCCGAGCGGGCGGTGTTCAGCTATCTGTGTACCGACGTCTACGTCAAGGAAGCCGACGCCGGGGTGCGCTGGAACGATGCGCGCATCGGCGTGGACTGGCCGATCGCCGATCCGGTGTTGTCGGCCAAGGACAGCGCTGCGCCGTTCCTCGATGACATCGCCGACGAACGTCTGCCGGTGTACCAGCCGTGA	MKIIETSLSGCVVIEPAVFGDERGVFFETWNAERFGAHGLPTKFVQSNVSTSVKGVLRGLHYQWPRPQGKLVSVLEGEVYDVAVDIRRGSPTFGRWEAVVLSAENRRQFWIPEGFAHGFAVLSERAVFSYLCTDVYVKEADAGVRWNDARIGVDWPIADPVLSAKDSAAPFLDDIADERLPVYQP	PGPT0014300_1753	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
BMS020_06560	894	rfbD_2	COG1091	dTDP-4-dehydrorhamnose reductase	GTGAGCGTGCTGATCCTGGGCGCTGGCGGCCAGGTCGGCACCGAGCTACTGCGCGCGCTGAAGCCGCTGGGCGAGGTGGTCGCTGCAACACGTTCGGGCACGCTGCCGGACGGTAGCGCCTGCGAGCGGGCAGATTTCGATGACATCGCCTCGCTGGCGCCGCTGCTCGACCGGCTTGCGCCGGCCGTCGTGGTGAATGCCGCGGCCTATACCGCGGTGGACAAGGCCGAGGGCGAGCGCGAGGCGGCCTTCCGCGCCAATGCCGAGGCGCCTGGTGCGGTGGCGCGCTGGTGTGCCGCGCACAGCGTGCCGCTGGTGCATTACTCGACCGATTATGTCTTCGATGGTCAGGGCAAGCGCCCGTATCGTCCGGACGACGCGACCGCGCCGCTGGGCGTCTACGGCGAGAGCAAGCTGGCCGGTGAAGCGGCGATCCGCGCCGCGGGTGGCCGCCACCTGATCTTCCGTACCGCGTGGGTGTATGCGGCGCATGGGCACAATTTCCTGCGCACGATGCTGCGGGTCGGCACCGAACGCGACGTGCTGCGCGTGGTCGCCGACCAGATCGGTACGCCGACCCCCGCCGCGTTGATCGCCGACGTGACCGCCCAGGCGCTGCGGCATCCTGGCGCACCAACCGGAACCTGGCATCTGACCGCGAACGGCGAGACCAGTTGGCATGGCTTCGCCGAGGCGATCTTCGCCGAGGCGCATGCGCGCGGAATGATCGCCAAGGCGCCGCGTGTCGAGGCGATCACCACCGCCGACTATCCGACCCCGGCCCGGCGCCCGGCGTTTTCGCGACTGGATGTCAGTAGCCTGGAGCGGGATTTCGGTGTCAAGCTGCCGGATTGGCGCGAAGGTCTTTCGCGCGTGCTGCAGGCGCTGGCCTGA	MSVLILGAGGQVGTELLRALKPLGEVVAATRSGTLPDGSACERADFDDIASLAPLLDRLAPAVVVNAAAYTAVDKAEGEREAAFRANAEAPGAVARWCAAHSVPLVHYSTDYVFDGQGKRPYRPDDATAPLGVYGESKLAGEAAIRAAGGRHLIFRTAWVYAAHGHNFLRTMLRVGTERDVLRVVADQIGTPTPAALIADVTAQALRHPGAPTGTWHLTANGETSWHGFAEAIFAEAHARGMIAKAPRVEAITTADYPTPARRPAFSRLDVSSLERDFGVKLPDWREGLSRVLQALA	PGPT0022630_1207	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
BMS020_06561	1167	ugd_2	COG1004	UDP-glucose 6-dehydrogenase	ATGAAGATCGCTGTTGCAGGTACCGGCTATGTCGGTTTGTCCAATGGTGTACTGCTGGCGAAGCAGCATGAGGTCGTGGCCTTGGATATCGTTGAGTCCAAGGTGGCGATGCTCAACCAGGGGCGCTCGCCCATCGTCGATAAGGAGCTTGAAGAGGCGCTTGCACAGGGCGGCTTGCAGTTCAGGGCGACGCTGGATCCGGTCGAGGCCTTCGTCGGTGCCGAATTCGTGATCATCGCGACCCCAACCGACTATGACCCCGAATCCAACTATTTCAATACCAGCTCGATCGAAGCTGTCATTGCCAAGGTATTGGATATCAATCCGCAGGCGACGATGGTGATCAAGTCGACGGTCCCAGTCGGCTACGTCCAGAACGTGCGTAAGCAGTTTGGCGTCGACAACATCATCTTCTCGCCGGAGTTCCTGCGCGAAGGGCGCGCGCTGTATGACAACCTCTATCCGTCGCGGATCATCGTTGGCGAACGCTCCGGGCGCGCCGAGGTCTTCGCCGGCCTGCTTAAGGAAGGAGCACTGAAGGACGACGTGCCGGTGCTGTTCACCGAGCCGACCGAGGCCGAGGCGATCAAACTGTTCGCCAACACCTACCTGGCGATGCGCGTGTCCTACTTCAACGAGCTCGATACCTATGCGGTGACCCGTGGGCTGGACAGCCGCCAGATCATCGACGGCATCTGCCTGGATCCGCGGATCGGCAGCCATTACAACAATCCCTCGTTCGGCTATGGCGGCTACTGCCTGCCCAAGGACACCAAGCAGCTGCTGGCGAACTACCAGAGCGTGCCGCAGACCATCATCCGCGCGATCGTGGATTCCAACACCACGCGCAAGGACTTCATCGCCGCCGACGTGCTGCGCCGCCAGCCCAAGGTGGTCGGTATCTATCGCCTGATCATGAAGGCTGGTTCGGACAACTTCCGTTCCTCCAGCATCCAGGGCGTGATGAAGCGTATCAAGGCCAAGGGCGTGGAAGTGATCGTGTACGAGCCAACCTTGAACGAATCGGAATTCTTCCGTTCGCGCGTGGTCAATGATCTCGCTGCGTTCAAGCGCGACGCCGACGTGATCATCAGCAACCGCATGGCCGACGCGCTGGCGGATGTGCAGGACAAGGTCTATACCCGCGACCTGTTCGGCGATAACTGA	MKIAVAGTGYVGLSNGVLLAKQHEVVALDIVESKVAMLNQGRSPIVDKELEEALAQGGLQFRATLDPVEAFVGAEFVIIATPTDYDPESNYFNTSSIEAVIAKVLDINPQATMVIKSTVPVGYVQNVRKQFGVDNIIFSPEFLREGRALYDNLYPSRIIVGERSGRAEVFAGLLKEGALKDDVPVLFTEPTEAEAIKLFANTYLAMRVSYFNELDTYAVTRGLDSRQIIDGICLDPRIGSHYNNPSFGYGGYCLPKDTKQLLANYQSVPQTIIRAIVDSNTTRKDFIAADVLRRQPKVVGIYRLIMKAGSDNFRSSSIQGVMKRIKAKGVEVIVYEPTLNESEFFRSRVVNDLAAFKRDADVIISNRMADALADVQDKVYTRDLFGDN	PGPT0017855_5243	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GLUCURONATE_MODIFICATION,PGPT0017855-ugd|tuaD-K00012	NA	NA
BMS020_06562	1404	algA	COG0662	Alginate biosynthesis protein AlgA	ATGACCGACGTCCTCCCCATCATCCTCTCCGGCGGCTCCGGCACGCGGCTTTGGCCGCTGTCGCGTGAGGCCTACCCGAAGCAGTTCCTGCCGCTGGTCGGTGACCTCAGCATGTTGCAGGCCACCTGGCGCCGCGCCGCGCCGGTCGCCACGCAGGCACCGATCGTCGTCGCCAACGAGGAACACCGCTTCATCGCCGCTGAGCAGCTCCAGCAGCTTGGTGTTTCGCCATCGGCGATCCTGTTGGAGCCGAAGGGTCGCAATACCGCCCCGGCCATCGCCGTGGCCGCACTGGAAGCCACCCGCGACGGCGCCGACCCGCTGTTGCTGGTGCTGCCGTCGGACCACGTGATCCGCGACGAGGCCGCGTTCCAGGCGGCGGTGACCCAGGCCGCAAGCGCCGCAGAACAGGGCAAGCTGGTCACGTTCGGGATCAAGCCGACCGCGCCGGAAACCGGCTACGGCTACATCAAAGCCGGCGCCGGCAACGGCACCAGCCCGGTCGAACGCTTCGTCGAGAAGCCCGACCTGGCCACCGCGCAGGACTACCTGGCCTCCGGCCAGTACTACTGGAACAGCGGCATGTTCCTGTTCCGTGCATCGCGCTATCTGGAAGAACTGCGCAAGTTCCAGCCGGCGATCGCCGATGCCTGCCAGAAGGCCTGGTCGCAGGCGCGGCGCGAGTCCGACTTCACCCGCCTGGACAAGGAGGCGTTCGCCGCCAGCCCGTCCGATTCGATCGACTACGCGGTGATGGAAAAGACCGCCGACGCCGTCGTGGTGCCGCTGGATGCCGGGTGGAACGACGTCGGTTCGTGGTCGGCGCTGCTGGAGGTCTCCAGCCAGGACGGCCAGGGCAACGCGCATCACGGCGACGTGATCCAGATCGACTGCCGCAACACCTACGCCTACGGCTCGCGCCTGATCGCCATGGTCGGGCTGGAGGACGTGGTGGTGGTCGAGACGCCCGATGCGGTGCTGGTCGGCCACCGAGACCGCATCCAGGAGGTCAAGGATGTGGTCGCCAAGATCAAGGCGGCGGGACGTTCGGAGGCGACCTGGCACCGCAAGGTCTATCGCCCGTGGGGCGCCTACGACTCCATCGACAACGGCACGCGCCACCAGGTCAAGCGCATCACCGTCAAGCCCGGCGCCGTGCTGAGCCTGCAGATGCACCACCATCGCGCCGAGCACTGGATCGTGGTCAGCGGCACCGCCGAGGTCACCCGCGGCGACGAAGTCCTGCTGCTCACCGAGAACCAGAGCACCTACATCCCGCTCGGCGTGACCCATCGCCTGCGAAATCCCGGCAAGCTGCCGCTGGAACTGATCGAAGTGCAGTCCGGCAGCTATCTCGGCGAGGACGATATCGTGCGGTTCGAGGACACCTACGGGCGCGCCTGA	MTDVLPIILSGGSGTRLWPLSREAYPKQFLPLVGDLSMLQATWRRAAPVATQAPIVVANEEHRFIAAEQLQQLGVSPSAILLEPKGRNTAPAIAVAALEATRDGADPLLLVLPSDHVIRDEAAFQAAVTQAASAAEQGKLVTFGIKPTAPETGYGYIKAGAGNGTSPVERFVEKPDLATAQDYLASGQYYWNSGMFLFRASRYLEELRKFQPAIADACQKAWSQARRESDFTRLDKEAFAASPSDSIDYAVMEKTADAVVVPLDAGWNDVGSWSALLEVSSQDGQGNAHHGDVIQIDCRNTYAYGSRLIAMVGLEDVVVVETPDAVLVGHRDRIQEVKDVVAKIKAAGRSEATWHRKVYRPWGAYDSIDNGTRHQVKRITVKPGAVLSLQMHHHRAEHWIVVSGTAEVTRGDEVLLLTENQSTYIPLGVTHRLRNPGKLPLELIEVQSGSYLGEDDIVRFEDTYGRA	PGPT0017875_1405	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0017875-algA|xanB|rfbA|wbpW|pslB-K16011	NA	NA
BMS020_06563	1350	algC_3	COG1109	Phosphomannomutase/phosphoglucomutase	ATGACGCTACCTGCCTTCAAGGCCTACGACATCCGCGGCCGTGTACCGGACGAGTTGAACGAGGACTTGGCCCGTCGCATCGGCGTGGCGCTGGCAGACCAGTTGGGATCTGGCCCCGTGGTGCTGGGTCACGACGTGCGCCTGGCCAGCCCGGCGCTGCAGGCGGCCCTCTCGGCTGGCCTGCGCGCGAAGGGACGCGAGGTCATCGATATCGGCCTGTGCGGCACCGAGGAGGTGTACTTCCAGACCGATCACCTGGGTGCAGCCGGCGGCGTGATGGTCACCGCCAGCCACAATCCGATGGACTACAACGGCATGAAGCTGGTGCGCGAGCAGGCGCGTCCGATCAGTTCCGACACCGGCTTGTTCGCGATCCGCGACACCGTGGCCGCTGATACCGCGCCGGCCACCGCGCCGACCGCAAGCGAGCAGAGCAAGCCGGACAAATCCGCCTATATCGCGCACCTGCTGAGCTACATCGACACTGCGTCGTTGAAGCCGCTCAAGCTGGTGGTGAATGCAGGCAACGGCGGTGCCGGCGCGATCGTCGACCTGCTCGCGCCGCACCTGCCTCTGGAGTTCGTACGCGTGTTCCACGAGCCGGACGGCAACTTCCCCAACGGCATCCCCAATCCGCTGTTGCCGGAGAACCGCGACGCCACCGCGCAGGCGGTCAAGGAGCATGGCGCCGACTTCGGCATCGCCTGGGACGGCGACTTCGACCGCTGCTTCTTCTTCGACCACACCGGCCGCTTCATCGAGGGCTATTACCTGGTCGGCCTGCTGGCGCAGGCGATCCTTGCCAAGCAGCCGGGCGGCAAGGTGGTGCACGATCCGCGCCTGACCTGGAACACCATCGAGCAGGTCGAGGAAGCCGGCGGCGTACCGGTGCTGTGCAAGAGCGGCCATGCCTTTATCAAGGAGAAGATGCGCGGCGAGAACGCGGTCTACGGCGGCGAGATGAGTGCGCACCACTACTTCCGCGAATTCGCCTATGCCGACTCCGGGATGATCCCGTGGCTGCTGATCGCCGAGCTGGTGTCGCAGTCGGGCACCTCGCTGGCCGACCTGGTCGAAGAGCGCATGCAGAAGTTCCCGTGCAGCGGCGAGATCAACTTCAAGGTCGCCGATGCCAAGGCCGCCGTCGCCAAGGTGATGGAGCGCTATGCCGGCGACGCGCCGCAGCTGGACTACACCGACGGCGTCAGTGCCGAGTTCCCGCAGTGGCGCTTCAACCTGCGCAGCTCCAACACCGAGCCGCTACTGCGCCTCAACGTGGAAACCCGTGGCGATGCTGCCCTGCTGCAGCAGCGTACCGACGAGATTTCCACGATCCTCAAGCAGTCCTGA	MTLPAFKAYDIRGRVPDELNEDLARRIGVALADQLGSGPVVLGHDVRLASPALQAALSAGLRAKGREVIDIGLCGTEEVYFQTDHLGAAGGVMVTASHNPMDYNGMKLVREQARPISSDTGLFAIRDTVAADTAPATAPTASEQSKPDKSAYIAHLLSYIDTASLKPLKLVVNAGNGGAGAIVDLLAPHLPLEFVRVFHEPDGNFPNGIPNPLLPENRDATAQAVKEHGADFGIAWDGDFDRCFFFDHTGRFIEGYYLVGLLAQAILAKQPGGKVVHDPRLTWNTIEQVEEAGGVPVLCKSGHAFIKEKMRGENAVYGGEMSAHHYFREFAYADSGMIPWLLIAELVSQSGTSLADLVEERMQKFPCSGEINFKVADAKAAVAKVMERYAGDAPQLDYTDGVSAEFPQWRFNLRSSNTEPLLRLNVETRGDAALLQQRTDEISTILKQS	PGPT0017725_1640	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0017725-pmm_pgm-K15778	NA	NA
BMS020_06564	729	scoA_2	COG1788	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit A	ATGGAGAGTTCGACTTTGGCGCGCGGCGGCAAGCTGTGCGCGGACGCGGTGCAGGCGCTGGCGGGCGTGGTCGCCGATGGGCAGACGCTGGCCGTGGGCGGCTTCGGTCTGTGCGGGATCCCCGAGGCGTTGATCGCCGCATTGCGTGATAGTGGCGTGAAGAATCTGACGGTGATCTCCAACAACGCCGGCGTCGATGGCTTCGGCCTCGGCCTGCTGCTGCAGACCCGGCAGATCCGCAAGATGATTTCCTCCTATGTCGGCGAGAACAAGGAGTTCGAGCGGCAGTTCCTGTCCGGCGAGCTCGAGCTCGAGTTCAACCCGCAGGGCACGCTGGCCGAACGGCTGCGCGCCGGCGGGGCCGGGATCCCGGCGTTCTACACTGCCACCGGCTACGGCACGGTGGTGGCCGAGGGCAAGGAGACCCGCGAGTTCGATGGCCGCCATTACGTGATGGAAACCGCGCTGAAGGCGGACGTGGCGCTGGTCAAGGCCTGGAAGGCCGATGCCGCCGGCAACCTGGTGTTCCGCAAGACCGCGCGCAACTTCAATCCGGCCTGCGCGATGGCCGGCAAGGTCTGCATCGCCGAGGTCGAGGAACTGGCGGAGACCGGCGCGATCGATCCTGACCAGGTGCACCTGCCTGGCATCTATGTCGACCGGATCGTGGTCAATGCACGCCCGGAAAAACGCATCGAGCAACGCACCGTGCGCAAGGAGAACGTCTGA	MESSTLARGGKLCADAVQALAGVVADGQTLAVGGFGLCGIPEALIAALRDSGVKNLTVISNNAGVDGFGLGLLLQTRQIRKMISSYVGENKEFERQFLSGELELEFNPQGTLAERLRAGGAGIPAFYTATGYGTVVAEGKETREFDGRHYVMETALKADVALVKAWKADAAGNLVFRKTARNFNPACAMAGKVCIAEVEELAETGAIDPDQVHLPGIYVDRIVVNARPEKRIEQRTVRKENV	PGPT0008325_582	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008325-scoA-K01028	NA	NA
BMS020_06565	633	scoB_2	COG2057	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit B	ATGGCCTGGACCCGCGATGAGATGGCGGCGCGCGCGGCGCGCGAGCTGGGCGACGGCATGTACGTCAACCTCGGCATCGGCCTGCCGACGCTGGTGGCCAACCACATTCCCGAGGGCGTGGACGTGTGGCTGCAGTCGGAGAACGGCCTGCTCGGGATCGGCCCGTTCCCGGGCGAGGACGAGGTCGACGCCGACCTGATCAATGCCGGCAAGCAGACCGTGACCGCGCGCGCCGGCGCCAGCTATTTCGGCAGCCACGATTCGTTCGCGATGATCCGCGGCGGCCATATCGACCTGGCGATCCTCGGTGCGATGCAGGTGACCGCGGGCGGCGACATCGCCAACTGGATGGTGCCCGGCAAGATGGTCAAGGGCATGGGCGGGGCGATGGACCTGGTCGCCGGGGTCAAGCGCGTGGTGGTGCTGATGGAGCATGTGGCGAAGGACGGCAGCCACAAGATCCTGCCGGCCTGCGACCTGCCACTGACCGGCGTTGGCGTGGTCGATAGGATCATCACCGACCTGGCGGTGATGGACGTGACCCCGAAGGGCTTAGTGCTGGTCGAGACGGCGCCGGGCGTGGATGTCGAAGCGCTGCGTGCGGCCACCGGTGTGGCGCTGCACGCGGCCTGA	MAWTRDEMAARAARELGDGMYVNLGIGLPTLVANHIPEGVDVWLQSENGLLGIGPFPGEDEVDADLINAGKQTVTARAGASYFGSHDSFAMIRGGHIDLAILGAMQVTAGGDIANWMVPGKMVKGMGGAMDLVAGVKRVVVLMEHVAKDGSHKILPACDLPLTGVGVVDRIITDLAVMDVTPKGLVLVETAPGVDVEALRAATGVALHAA	PGPT0008330_1649	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008330-scoB-K01029	NA	NA
BMS020_06566	2823			hypothetical protein	ATGCCGCTAGGCCGCTCCCTGCTCGCGGCCTGGCGTGCTGCCGGGCGTTCGATCGAAGCCCACGGCGGCGGCCTGCGCGGCCTGGTCCGCATGCTGGTCCGGGCGCTCCGGGTGGTGCATGCGCTTGGCGCGCGCGGGTTCCTCCAGCGTGTCCGTGCGGCCAGCGCAGCGCCAGCGCCGCCGCTGTCGCTGCCGGATGCGCATGCGTTCGCCGAGCCAGCCCCCATCGACGCGCTGGACCTGCGCGTCGGCATGATGGCGCATGTGTTCTACGCCGACCTGATCGACGAGTTCGCCGCCGATCTGGCGCGGATCCCCTGCCCCTTCGTGCTGATGGTCTCGGTGATGGACGCCGAAGCCCAGGCGCTGGCCCAGGCCCGCTTCTCCGCACTGCCGCAGGTGCAGGCGCTGCACGTGCGCATCGTCGCCAACCGCGGCCGCGATATCGCGCCGCTGCTGGTGACGTTCCGCGACGAGATCCTCGCGCTGGACGTGATCGGGCACATCCACACCAAGAAGTCGCTGTATACCGGCAGCGAGCAGAGCGCCTGGCGACGCCACCTGCTCGACACCCTGCTCGGCAGCAGCGAACGCATCGCGCGGCTTCTTGGCCTGCTGCAGGCCGATCCCGAGATTGGCATCGTCTACCCGGAAACGTTTGCCAATTTCCCGGTCTGGGGCCACACCTGGCTCAGCAACCTGGACGCCTGCCGCGAGCTCGGCGCACGCCTGGGCATCGCGGTCGAAGCCAACCGCTATCTCGATTTCCCGGCCGGCTCGATGTTCTGGGCGCGGGTCGATGCACTGCGCCCGCTGTACGCGCTGGGCCTGGACATCGAGGACTTCCCGCCGGAGCAGGGCCAGACCGACGGCACCGTGCAGCACGCAGTGGAACGGCTGCTGGTCGCACTGGCACGCCGGCAAGGCTATGTCGCTGCGATCGTCGCCCAGGACGGCAGCCTCGCCAGCGAGGGCCTGCGCAACTGGCCAGCGGGCCTGGAAGCGCCACTGGCCACGCGCCTGCGCATCGCGGCGCTCGAAGCCGAGCAGATTTCCTGCGACGTGTTCGACACGCTGGTGTTGCGCCCATTCCTGACCCCGCACGGTGCACGCGCCTACCTGGCACATCGCGCATTGCACGCATTGAACGTGGACGGCTTCGCCGACCTGCGCGCGCGCGCCGAGGCCAAGGCCCGTGCGCGGGCCGGGAACGACCCGACCCTGGATGCGGTCTACCAGGCGATGTCGACACTGCCCGGCGCCTCGCAGCTGCCGTTGCCGGCGATGAAGCAGCTGGAACTGGCACTGGAGGCACGCCACCTGCGTGCGCGCACGACATTGGTGGATGCCTTCGCGGCTGTGCCACGTGGACGTCCGCTGCTGGCGCTCTCGGACATGTACTTGGATGCGGACACCCAACGGGCACTGCTGCCGCCCGAGGTCACCGCACTGATCGGGCAATGGCAGGTGTCCTGCGACAGCGGCATGCGCAAGGACAGCGATACGCTGTGGGCGACGCTGCCAGGACAGCATGGCAGCGCCCCCGCACGCTGGCTGCACGTCGGCGACAACGAGCACGCCGATATCCAACTGCCACAGCGGCACAACCTGGCGACACCGCTGCACGTGCTGCGTCCGTCCGCGCTGCTCGACCTGCACCCGCAGCTGCGACCGTTGCGCCCGACGCGCTTCGACCAGGCCAGCTGGGCCGACCAGCTCTGGCTTGGGTTGGTCGCCAATCACGCCGCCGAAGCCTTCGACCGCGCTCCGGCCGCGTGGCTGCCAACGCCGACGCTGTCGCCGCAGCAGACCGGCTACATGGTGCTCGGCCCGCTGCTGCTCGACTACCTCGCCTGGCTGGCCCGCACCGCGGCAACGCGCTCGATCGACACCCTGCTGTTCCTCAGCCGCGAAGGCCACTTGCTGTCGCAGGCGTTCGCCCGACTGCAGCAGGCCTCGCCAACGCTGGCACGGCTGCGCGGCCTTTACCTACCGACCTCGCGCCGCGCCAGCGGCACCGCCAGCCTGCGCGAGGCGAACGACCTGCCACGTCTGCTCAGCGGCAGCTACAACGGCACCCTGCGCGGGCTGCTACTCGCCCGCCTCGGCGAACCGGCGTGCATCGCCATGGAAGGACTGCTCGGCAACGATGCGCTGGACACCGACATCTACCTGCCGGAAATGCAGCAGGCGCTGCTGACGCGGATCGCCCCCGCGCTCGACGCGTTGCTGGCGGTCGCCAGGCAAGAGCGCGAGGCCTATCTGGCGTACTGGCAGCAACACTGCGGCGACGCGCCCGCGATGGTCGCCGACCTCGGCTATTCCGGCTCCATCCAGGCCTCGCTGGCGCGGATGCTGGGGCGGCAGCTGGATGGTGGCTATTTCGCGCTCTCCACGCGCGCGACGGCCGGGCTCGACGGACAGTGGGCCGCCGCCCGCCATCACGACGGCCGCACTGGCGGCGGAGATGGCGCCAGCACCATCCTGCGCCACGACCTGCTGCTCGAGTCCTTGCTGACCGCGCCACATCCGCAGTTCTCGCACTTCAGCCGCGACCCTGGTGGCATCCACGAGCACCACGCCGCCGCGGAGCTGGATGCCGCGCAGTGGACGCTGATCGAACAGGTGCATGCCGGCGCGCTGACCTTCATCGACGACGCCTGCGCCGCGGTCGGCGAGGACGTCGCGCAGCTGGTGTTCGACAGCGTACTGGTGCAACGCCCGCTGCAATGCCTCGGCAGCGGGCGCTGGGATGCGCCGTGGCTGGATGCGCTTGGCGTCGAGGATGCGTTCACCGGCCGTGGGCGGGTGGCGGCGCGTTGA	MPLGRSLLAAWRAAGRSIEAHGGGLRGLVRMLVRALRVVHALGARGFLQRVRAASAAPAPPLSLPDAHAFAEPAPIDALDLRVGMMAHVFYADLIDEFAADLARIPCPFVLMVSVMDAEAQALAQARFSALPQVQALHVRIVANRGRDIAPLLVTFRDEILALDVIGHIHTKKSLYTGSEQSAWRRHLLDTLLGSSERIARLLGLLQADPEIGIVYPETFANFPVWGHTWLSNLDACRELGARLGIAVEANRYLDFPAGSMFWARVDALRPLYALGLDIEDFPPEQGQTDGTVQHAVERLLVALARRQGYVAAIVAQDGSLASEGLRNWPAGLEAPLATRLRIAALEAEQISCDVFDTLVLRPFLTPHGARAYLAHRALHALNVDGFADLRARAEAKARARAGNDPTLDAVYQAMSTLPGASQLPLPAMKQLELALEARHLRARTTLVDAFAAVPRGRPLLALSDMYLDADTQRALLPPEVTALIGQWQVSCDSGMRKDSDTLWATLPGQHGSAPARWLHVGDNEHADIQLPQRHNLATPLHVLRPSALLDLHPQLRPLRPTRFDQASWADQLWLGLVANHAAEAFDRAPAAWLPTPTLSPQQTGYMVLGPLLLDYLAWLARTAATRSIDTLLFLSREGHLLSQAFARLQQASPTLARLRGLYLPTSRRASGTASLREANDLPRLLSGSYNGTLRGLLLARLGEPACIAMEGLLGNDALDTDIYLPEMQQALLTRIAPALDALLAVARQEREAYLAYWQQHCGDAPAMVADLGYSGSIQASLARMLGRQLDGGYFALSTRATAGLDGQWAAARHHDGRTGGGDGASTILRHDLLLESLLTAPHPQFSHFSRDPGGIHEHHAAAELDAAQWTLIEQVHAGALTFIDDACAAVGEDVAQLVFDSVLVQRPLQCLGSGRWDAPWLDALGVEDAFTGRGRVAAR				NA	NA	NA	NA	NA
BMS020_06567	1650		COG0644	Electron transfer flavoprotein-ubiquinone oxidoreductase	ATGTCGGTAGCGGGAGACGGCGCGAGCGCGTCCGAGGTCATTGAGCGGGACGTGATGGAGTACGACGTCGTCACTGTCGGCGCCGGACCGTCCGGGCTGGCGTTCGCGATCCGGCTCAAGCAGCTCAACCCCGACATCTCGGTCTGCGTGATCGAGAAGGCCAGCACGATCGGCGCGCAGATCCTGTCCGGCGCGGTGATCGAGCCCGAGCCGCTCGATGCGCTGCTGCCCGGCTGGCGCGACAATCCGCCGCCGATCTGCGTGCCCGCCGGCGAAGACGAGTTCTGGTTCCTCAACAAGGACGGCGGCCACAAGTTCCCGGTGGTGCCGCCGGGCATGCGCAACCACGGCAACTTCATCGTCAGCCTGGGCGCGATGTGCGCCTGGCTGGCGCCGCAGGCCGAAGCGCTGGGCGTGGAGATCTACCCCGGTTTCGCCGCCGCCGAGACCCTGCACGACGACGCCGGCACGGTGATCGGCGTGCGCATCGGCGACATGGGCGTGGCCAAGGATGGGTCGCACAAGCCCGGCTTCACCGCCGGCATCGACATCCACGCCAAGGTCACCGTGCTGGCCGAGGGCGCGCGCGGCCATCTGACCAAGCGCCTGGTCAAGCGCTTCGGCCTGGATGCCGACAGCGACCCGCAGAGCTATTCGATCGGCATCAAGGAGCTGTGGCAGGTGCCGGAAGGCCGCGTCACCCCGGGCAAGATCGTGCATACGCTGGGCTGGCCGGCCGACAGCAAGACCTACGGCGGCAGCTTCCTGTACCACCTGGAGAACAACCAGATCGCGCTCGGCTACGTCAGCGGGCTGGATTACCACGACCCGCAGTACAAGCCGTGGGAAGCGTTCCAGCAGTGGAAGCACCATCCGCTGGTCAAGCCGCTGCTCGACGGTGGCAACATCCTGTCGGCCGGCGCGCGCGCGATCGTCACCGGCGGCTGGCAGTCGCTGCCGAAGGTCGAGATGCCCGGCGCGCTGCTGATCGGCGACACCGCCGGCCTGCTCAACGTGCCCAAGATCAAGGGCACCCACCAGGCGATCCGCAGCGGCATGCTCGCCGCCGAGCACCTCGCCGCCTCGCAGCTGACGCCGCAGGGCTTCGATGCGAAGCTGCGCGCCTCGCCGGCGATGGCCGAGCTGAAGCAGGTGCGCAACATCAAGCCCGGATTCAAGCGCGGTCTGTGGTTCGGCCTGGCCAACGCCGCCTGGGAAACCGCGCTGAAGGGCGCCTCGCCGTGGACGCTGGCGATGAGCCCGGACTGGTCGGCGCTGGACAAGGTCGGCGAGACGCCCGAGCCGACGCGCGACTACGTGCAGCGCGAACTGGCCCCGCGCGACCGCCTGCAGGCGGTGTACTTCGCCGCCACCGAGCACGACGAGGACCAGCCGGTGCACCTGCGCGTGCACGACACCTCGGTGTGCGTGACCCGCTGCGCGGCCGAATACGACAACCCGTGCACGCGCTTCTGCCCGGCCAATGTCTACGAGATCGTCGCCGACGCCAGCGCCGAACACGGCAAGCGCCTGCAGATCAACGCCGCCAACTGCGTGCACTGCAAGACCTGCGACATCAAGGACCCGTACCAGATCATCGACTGGGTAACGCCGGAGGGTGGTTCGGGGCCGAACTACCAGAACCTGTGA	MSVAGDGASASEVIERDVMEYDVVTVGAGPSGLAFAIRLKQLNPDISVCVIEKASTIGAQILSGAVIEPEPLDALLPGWRDNPPPICVPAGEDEFWFLNKDGGHKFPVVPPGMRNHGNFIVSLGAMCAWLAPQAEALGVEIYPGFAAAETLHDDAGTVIGVRIGDMGVAKDGSHKPGFTAGIDIHAKVTVLAEGARGHLTKRLVKRFGLDADSDPQSYSIGIKELWQVPEGRVTPGKIVHTLGWPADSKTYGGSFLYHLENNQIALGYVSGLDYHDPQYKPWEAFQQWKHHPLVKPLLDGGNILSAGARAIVTGGWQSLPKVEMPGALLIGDTAGLLNVPKIKGTHQAIRSGMLAAEHLAASQLTPQGFDAKLRASPAMAELKQVRNIKPGFKRGLWFGLANAAWETALKGASPWTLAMSPDWSALDKVGETPEPTRDYVQRELAPRDRLQAVYFAATEHDEDQPVHLRVHDTSVCVTRCAAEYDNPCTRFCPANVYEIVADASAEHGKRLQINAANCVHCKTCDIKDPYQIIDWVTPEGGSGPNYQNL				NA	NA	NA	NA	NA
BMS020_06568	600			hypothetical protein	ATGCGGATCGAGCTGCCCGGGGCGGAAGTGACGTGGTGCCGGGGCTGGTTGCCGGCGCCCCAGGCCGAGGCGTTGCGCCTGGCGCTGCTGGACGGGGTGGCCTGGGAGGTGCACCGGATCAGGCTGTTCGGGCGCGAGGTGGATTCGCCGCGGCTGAGCTGCTGGATCGGCGATCCGCAGGCGCGCTATCGCTATTCCGGCAGCGACTTCCTGCCGCACCCGTGGCCGCCGGCGCTGTTGCCGTTGCGGGCGCGGCTGCAGGGCGAGTGCGATGCCGCGTTCAACAGCGTGCTGGTCAACCGCTACCGCAGCGGCCAGGATGCGATGGGCTGGCACAGCGACGACGAGCCGGAACTCGGGCCGCAGCCGCTGATCGCCTCGCTGAGCCTGGGCGCGCCGCGGCGCTTCGTATTCCGCGACCGGCAGGCGCCCCCACGCAAGCAGGAACTGCTGCTCGGCCACGGCGACCTGCTGCTGATGGGCGGCGACACCCAGCGGCTGTACCAGCATGCGTTGCCGCGGACCGCGCGGCCGGTCGGCGAGCGGATCAACCTGACCTTCCGCACGATCCTGCCGCGGCCGGGGTTCCGGGCCGGCTGA	MRIELPGAEVTWCRGWLPAPQAEALRLALLDGVAWEVHRIRLFGREVDSPRLSCWIGDPQARYRYSGSDFLPHPWPPALLPLRARLQGECDAAFNSVLVNRYRSGQDAMGWHSDDEPELGPQPLIASLSLGAPRRFVFRDRQAPPRKQELLLGHGDLLLMGGDTQRLYQHALPRTARPVGERINLTFRTILPRPGFRAG				NA	NA	NA	NA	NA
BMS020_06569	1554	clsC_3	COG1502	Cardiolipin synthase C	ATGAGCATCCGGAATGCGACCCTGCGCGCGTTGCAGGTGGTCGTGCTGGTGGTGACGGCCAATGCGCTGCTGGCCTGCGCCAGGCTACCGCCGCGCAGCGAAGTCCCGTACGCGGCCGCGGCACCGGCAGCGACCCAGGGCGCGATCGCCGCACGGGTGGCGCAGGCCGAAGCCGCCCATCCCGGCCAATCCGGATTCCGCCTGGTGTCGTCCGGCGCCGAAGCCTACGCGCTGCGTGCGCTGGCGGCGCACGAGGCCGCCCGCAGCCTGGATATCCAGACCTACATCTGGCACGCCGACATGACCGGCATGCTGCTGGCGCGGCACGCGCTGGAGGCGGCCGACCGCGGCGTGAAGGTGCGCATCCTGGTCGACGACATGGATGCGCGCGCCAAGAACACCGCTTTCGCCGCGCTGGATGCCCACCCCAACATCGAAGTGCGGCTGTACAACCCGCTGGCCAGCCGCAGCGGCACCGTGCGCCGGCTCGGCGAACTGGCCTCCGGCTTCCGCCGGCTCAACCACCGCATGCACAACAAGAGCTGGATCGTCGACAACCGGGTCGCGCTGGTCGGCGGGCGCAATCTCGGCGACGAATATTTCCAGGCGCACGAGACCAGCAATTTCGTCGACCTGGACCTGGTGATGGTCGGACCGGTGGTGCGCGAGGTCAGCGCCAGCTTCGACCGGTTCTGGAATTCGCCCAGCAACTACCCGATCCGCCAGCTGCTGGCCAAGGACGTGTCCGACGGCGCGCTCGCCCAGCTGCGCACGACCCTGGAGGCGGCGCAGCGCGCGTTGCCCGACAGCCCCTACGCAAGCGTGCTGCGCGAGGACGCCGGCGTGCGCGCGCTGCTGGACGACGCCACCCGGCTGCACTGGAGCGCACAGTGGCAGTTCGTCAGCGACGATCCGCTCAAGGCCTCGCGCCCGGAGGGCGAGCGCTCCAGCGTGCTGGCCGCGCTGCGCCCGGCGCTGGACGACGCGCATGCCAGCATCTGGCTGATATCGCCGTACTTCGTCCCCGGCAAGGGCGGCACGCAGCTGCTCGGCGCGCGCAGCACCCGCGGCGTCGACGTGCGCGTGCTGACCAATTCGCTGGCCGCCACCGACGTGGCCGCCGTGCACGGCGGCTACGCGCGCTATCGCCCTGCGCTGCTGGCCGATGGCGTGCAGCTGTGGGAGCTGAAGCCGGTCGCCGGCCAGCCGGACCGCTTCTCGCTGCACGGCTCCTCCGGCTCGAGCCTGCACACCAAGGCCGCGGTCTTCGATGCGACCCGGATCTTCGTCGGCTCCTACAACCTCGATCCACGCTCGACCTCGCTGAACAGCGAGCAGGGCGTGCTGGTCGCACACCCGGCGCTGGCCCGCGAACTCGGCGAGATCTTCCAGCGCGAAGTCGACGGCAGCCGCGCCTGGCGGCTCAGCGCGGAACCGCAGGGGCTGCGCTGGCGCGACGGCAGCCAGGAGTGGACGCGCGATCCGCAGGCCGGCCCGGGCCGGCGCTTCCAGGCCTGGCTGGTGCGACTGCTGCCGGTCGAATCGCAGCTCTGA	MSIRNATLRALQVVVLVVTANALLACARLPPRSEVPYAAAAPAATQGAIAARVAQAEAAHPGQSGFRLVSSGAEAYALRALAAHEAARSLDIQTYIWHADMTGMLLARHALEAADRGVKVRILVDDMDARAKNTAFAALDAHPNIEVRLYNPLASRSGTVRRLGELASGFRRLNHRMHNKSWIVDNRVALVGGRNLGDEYFQAHETSNFVDLDLVMVGPVVREVSASFDRFWNSPSNYPIRQLLAKDVSDGALAQLRTTLEAAQRALPDSPYASVLREDAGVRALLDDATRLHWSAQWQFVSDDPLKASRPEGERSSVLAALRPALDDAHASIWLISPYFVPGKGGTQLLGARSTRGVDVRVLTNSLAATDVAAVHGGYARYRPALLADGVQLWELKPVAGQPDRFSLHGSSGSSLHTKAAVFDATRIFVGSYNLDPRSTSLNSEQGVLVAHPALARELGEIFQREVDGSRAWRLSAEPQGLRWRDGSQEWTRDPQAGPGRRFQAWLVRLLPVESQL	PGPT0007730_914	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_GLYCEROPHOSPHOLIPID-CARDIOLIPIN_SYNTHASE_ACTIVITY,PGPT0007730-clsC|ymdC-K06132	NA	NA
BMS020_06570	648			hypothetical protein	ATGAAGCGACCGTCCATGATCCGCCCCCTGCTGTGCGTGGCGCTGCTTGCGCTTGCCGGCTGCTCGGTCCTGGCCACCGGCGACAAGGCGCCGAGCACGATCTACGCGCCCGATGTGCGCGTGGCCGCCGACCCGGCCTGGCCGCAGGTGGAGTGGCAGCTCGCGATCGCCAAGCCCACCGCCGCGCGCGTGGTCGACAGCGCGCGCATCAACGTGCGCCCCAGCCCCGGCGAACTGCAGGTGTACCGCGGCGCCAGCTGGGCGCAGCCGGCCACCGACATGCTGGAAGAGGCATTGGTGCAGGGCTTCGAGGATTCCGGGCGGATCGCCGGCGTCGCCCGCGTGGCCACCGGGATCCGCGCCGACTACCGGCTGGTGATCGATCTGCGCCGCTTCGAATCGGACTACGCCGGCAACGCCGTGCCGGCCGCGACGATCGAACTCAACGCCAAGCTGCTGCACGCCAGCGACCAGCGCGTGGCCGCCTCGCAGACCTTCCTGGTCGCCGTGCCCGCCGCCAGCACCGAGGTCGGCGCGGTCGCCAGCGCGTTCGAGCAGGCCTTGCAGCAGAGCGCAGGCACGCTGATCGGCTGGACCCTGCAGAACGGCCAGCGCGACGCCAGCCAGGTGCCGCCCGCCCGGCCGTAA	MKRPSMIRPLLCVALLALAGCSVLATGDKAPSTIYAPDVRVAADPAWPQVEWQLAIAKPTAARVVDSARINVRPSPGELQVYRGASWAQPATDMLEEALVQGFEDSGRIAGVARVATGIRADYRLVIDLRRFESDYAGNAVPAATIELNAKLLHASDQRVAASQTFLVAVPAASTEVGAVASAFEQALQQSAGTLIGWTLQNGQRDASQVPPARP	PGPT0007020_306	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007020-linN-K18480	NA	NA
BMS020_06571	927			hypothetical protein	ATGGAAACCAAAGCCAATTACGTCCTGATCGGCGCCTTCACCCTCGTCACCGGCCTGGCGCTGCTGCTGTTCGGGCTGTGGGCGGCCAAGTACTCGTCCGACCGTACCTGGCAGAACTACCGCGTGGTGTTCCGCGAAGCGGTGACCGGCCTGTCGGTCGGCAGCCCGGTGCAGTACAACGGCATCGCGGTCGGCTCGATCACCGAACTGACGCTGGCGCCGAATGACCCGCGCCAGGTGGTGGCGCGGATCCGGCTGAACTCGACCACGCCGATCAAGACCGACACCCGCGCCAAGCTCGCCATCACCAGCCTGACCGGCCCGTCGATCATCCAGCTCTCCGGCGGCACCCCGGAGGCGCCGGCGCTGACCACCGTCGACAAGAGCGATGCGCCGGTGATCCAGACCACGCCGTCGGCGCTGCAGAACATCACCGACACCGCCAACCGCATCGTCGAGCGCCTGGACCAGGTGCTCAGCGACCGCAACGTCGCGGCGATCTCGACCACGCTGCAGAACCTGGAGGCGATCAGCGGCTCGATCGCCAACCGCGACGAAGGCATGCAGGCGCTGCTGGTCAGCGCGCGCGACGCCGCGCGCAAGCTCGACCAGACCCTGGACACCACCAACGGCACCATCCAGGACCTGGACCGCAACCTGGTGCAGCAGCTGCCGCCGATCCTGGCCAAGCTCGACGCGACCCTGGCCAAGCTCGATTCGGCCGCCGGCAACGCCGACAGCATCCTTGGCGAGAACCGCGCGGCGATCAACAGCTTCGCCAACGACGGCCTGGGCCAGCTCGGCCCGACCCTGACCGAGCTGCGCGGGCTGGTGCGCGACCTGCGCCGGGTCAGCGACCGCCTCGACAACAATCCCGCGCGCTACCTGCTGGGCCACGACGCACCCAAGGAGTTCGAACCCAAATGA	METKANYVLIGAFTLVTGLALLLFGLWAAKYSSDRTWQNYRVVFREAVTGLSVGSPVQYNGIAVGSITELTLAPNDPRQVVARIRLNSTTPIKTDTRAKLAITSLTGPSIIQLSGGTPEAPALTTVDKSDAPVIQTTPSALQNITDTANRIVERLDQVLSDRNVAAISTTLQNLEAISGSIANRDEGMQALLVSARDAARKLDQTLDTTNGTIQDLDRNLVQQLPPILAKLDATLAKLDSAAGNADSILGENRAAINSFANDGLGQLGPTLTELRGLVRDLRRVSDRLDNNPARYLLGHDAPKEFEPK	PGPT0007005_7727	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007005-mlaD|linM-K02067	NA	NA
BMS020_06572	852	mkl	COG1127	putative ribonucleotide transport ATP-binding protein mkl	GTGAGCGAACCGCGCCCGGCAATGCCTGCGACCGAAGGCGAGGAGTTCGCGATCCAGGTGCGCGGCCTGACCAACCGCTTCGGTGCGCAGACCGTGCACGAGGCGCTCGACCTGGACGTGCGCAGCGGCGAGATCCTCGGCGTGGTCGGCGGCTCGGGGACCGGCAAGTCGGTGCTGATGCGCTCGATCCTCGGCCTGCGCACGCCCGATGCCGGCGAGATCACGGTGCTCGGCGCCGATGCCCGCTCCGGCAACGCCGAGGACCGCGCGCACATCACCCGCAACACCGGCGTGCTGTTCCAGGACGGCGCGCTGTTCTCCTCGATGAGCGTCGGCGAGAACGTGCAGGTCCCGCTGAAGGAGCACCACGGCGAGTTTCCCGATCGCTGGCATTACGAACTGGCGCTGCTGAAGGTGAAGCTGGCCGGATTGCCGGCCGATGCGATCAACAAGCTGCCCTCGCAGCTGTCCGGCGGCATGCGCAAGCGCGCCGGCCTGGCGCGCGCGCTGGCGCTGGACCCGCCGTTGCTGTTCCTGGACGAGCCGACCGCCGGCCTGGACCCGATCGGCGCGGCCGCGTTCGATTCGCTGATCAAGACCCTGCAGCAGGCGCTGGGCCTGACCGTGTTCCTGATCACCCACGACCTGGACACGCTGTACACGATCTGCGACCGCGTGGCGGTGCTGGCCGACCGCCGGGTGATCGCCAACGCGCCGCTGGCCGAGGTCGAGCGCATCGACCACCCGTGGATCCAGGAATACTTCCACGGACCGCGTGCACGCGCCGCGCGCGACAGCCATGCGTGGACGCTCGCGCACGCTGGCGCGTCGCTCCCGGCCTCGCCGTCCTGA	MSEPRPAMPATEGEEFAIQVRGLTNRFGAQTVHEALDLDVRSGEILGVVGGSGTGKSVLMRSILGLRTPDAGEITVLGADARSGNAEDRAHITRNTGVLFQDGALFSSMSVGENVQVPLKEHHGEFPDRWHYELALLKVKLAGLPADAINKLPSQLSGGMRKRAGLARALALDPPLLFLDEPTAGLDPIGAAAFDSLIKTLQQALGLTVFLITHDLDTLYTICDRVAVLADRRVIANAPLAEVERIDHPWIQEYFHGPRARAARDSHAWTLAHAGASLPASPS	PGPT0007015_896	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007015-mlaF|linL|mkl-K02065	NA	NA
BMS020_06573	1113			hypothetical protein	ATGACCAGACTGCAGCCGCCCCACATCGAGACAGATCGGCAGGACGCCTCGCGCATCCGGCTTTCCGGCAGTTGGGTGCTCGCCAACGCGCTGCCGGCGGCCGAGTTGCTGGACGCGCAGCCGGACGGCATCGCCGGCATCGACGCCAGCGCGATCGTGCAGCTGGATTCGGCCGGCGTGCTGCAGCTGCTGCGCTTCGCCGCGCGCCATGGCATCGGCGACAACGCCATCGCCTTCCGCGAGGAACACCGCGCGCTGGTCTGCACGATCGAGGAGATCGCCGACGACCGCCCCAAGCCCAAGCGCGACCTCGGCTTCGCCGCGGCGCTGGAGCGCCTGGGCATCACCGTCAGCACCACCGGCCGCGACGTGGTGATGCTGGCCAGCTTCCTCGGCGAGAACCTGGTCAAGATCGGCCGCCTGCTGCGCGAACCGCGCCGGTTCCGGCTGACCGCCACCGTGCACCACATGGAACAGGTCGGCCTGGACGCCGTGCCGCTGGTGGTGCTGCTGTCCTACCTGGTCGGCGCGGTGATCGCCTTCCTCGGCTCGACGATCTTGCGCGACTTCGGTGCCGAGATCTACGTGGTCGAGCTGGTCTCGATCGCCACGCTGCGCGAACTGGCGGTGCTGATGACCGCGATCGTCGTCGCCGGCCGCACCGCCAGCGCGTTCACCGCGCAGATCGGCGCGATGAAGTCGCGCGAGGAGATCGACGCGATCCAGACCCTGGGCCTGGACCCGATCGACCTGCTGGTGATCCCGCGGGTGATCGCGCTGCTGGTGATGCTGCCGCTGCTGACCTTCGTGGCGATGATCGCCGGGCTGGCCGGCGGCATCACCGTCGGCGCGTTCGACCTGGGCATCCCGCCGCAGATGTACCTGGCACGGATGCACGAGACCATGCAGGTGAAGCACTTCCTGGCCGGCATGTCCAAGGCGCCGGTGTTCGCGGTGGTGATTGCGCTGATCGGCTGTCTGGAAGGGCTGAAGGTCACCGGCACCGCGCAGTCGGTCGGCGAGCGCACCACCTCCAGCGTGGTGCAGACGATCTCGCTGGTGATCATCATCGACGCGATGGCCGCGCTTTGGTTCATGAAGATGGGATGGTGA	MTRLQPPHIETDRQDASRIRLSGSWVLANALPAAELLDAQPDGIAGIDASAIVQLDSAGVLQLLRFAARHGIGDNAIAFREEHRALVCTIEEIADDRPKPKRDLGFAAALERLGITVSTTGRDVVMLASFLGENLVKIGRLLREPRRFRLTATVHHMEQVGLDAVPLVVLLSYLVGAVIAFLGSTILRDFGAEIYVVELVSIATLRELAVLMTAIVVAGRTASAFTAQIGAMKSREEIDAIQTLGLDPIDLLVIPRVIALLVMLPLLTFVAMIAGLAGGITVGAFDLGIPPQMYLARMHETMQVKHFLAGMSKAPVFAVVIALIGCLEGLKVTGTAQSVGERTTSSVVQTISLVIIIDAMAALWFMKMGW	PGPT0007010_1061	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007010-mlaE|linK-K02066	NA	NA
BMS020_06574	1260			hypothetical protein	ATGTCCGTCGTTTCCCCCGTCAGTCCCTCGACCAGTGCGACCTACGCCCAGCGGGTGGCCTTCGTCTCGGAGATCGCCGGGCGCCTGCATTCCTACGGCACCACCGCGCAGCGGCTGGAGGCGGCGGTGATCGCACTGTCGCAGCAGCTCGACCTGGACTGTGAGCCATGGTCCAACCCGACCGGCATCATCCTCAGCTTCAGCGATCCGACCAAGGCGATCGGCTCCTCGGACATCACCCGGGTGATCCGCCTGGCGCCGGGCGAGAACGACCTGCACAAGCTCGGCGTGGCCGACTACGTCGCCGACAGCGTCGCCAGCGGGCGTATGAGCATCGCCCAGGGCCACACCGCGCTGCGCCGGCTCGACCGCGAGATGGAAGGTCGTGGCAAGACCCGGCAGACGCTGGCTTACGGCCTGGCCGCGGCCGGCGTGGCCGGGCTGTGGAAGCTGCCGTGGCTGGATATCGCCACCGCCAGCGCGATCGGCCTGCTGATCGGGCTGATGCTGCAGTACACCGACCGGCGCGCCGCCACGCGCGAGGCCGCCGACGCGCTGGCCGCGCTGCTGGCCGGTTTCGTCGCCACGCTGGTCGCCACGCTGGTGGCGCCGCTGAACCTCAACACGGTGATCATCGCCTCGCTGGTGGTGCTGCTGCCCGGCATGTCGCTGACCAATGCGGTCAACGAACTGTCCAGCCAGCATTGGGTCTCGGGCACGGCGCGCTTCGCCGGCGCGGTGACCACGATGCTCAAGCTCACCGTCGGCGCGGTGATCGCGGTGACGCTGAGCCGGCTGCTCGGGCTGGAGCCGCAGGTGCAGGCGGCGCGGCCGCAGGCGCACTGGGTCGAATGGGCCTCGCTGCTGGTATCGGCGTATGCGTTCGCGCTGTCGTTCAAAGCCAGCCGCCGCGACTATCCATGGGTGATGGCGGCGGCGATCAGCAGCTACGTGATCGCGCGCTATGCCGGCGCGGCGTGGGGCAGCCCGGCCGGCGTGTTCCTGTCGGCGATGACGCTGACCGCGGCTGGCAACGTGTTCGGCCGGGTGGTCCAGCGCCCCGGCGCGCTGATCCGCCTGCCCGGCATCATCATGCTGGTGCCCGGCAGCGTCGGCCTGCGCGGTTTCCTCAACCTGATCCAGCAGCAGAACGTGGCCCTGGGCCAGGAAGCGGTGCTGGCGGTGACCAATATCGTCATGGCGCTGGTCGCCGGGCTGCTGTTCGGCAACCTGCTGGTGCCGGCGCGCAAGAACCTCTAG	MSVVSPVSPSTSATYAQRVAFVSEIAGRLHSYGTTAQRLEAAVIALSQQLDLDCEPWSNPTGIILSFSDPTKAIGSSDITRVIRLAPGENDLHKLGVADYVADSVASGRMSIAQGHTALRRLDREMEGRGKTRQTLAYGLAAAGVAGLWKLPWLDIATASAIGLLIGLMLQYTDRRAATREAADALAALLAGFVATLVATLVAPLNLNTVIIASLVVLLPGMSLTNAVNELSSQHWVSGTARFAGAVTTMLKLTVGAVIAVTLSRLLGLEPQVQAARPQAHWVEWASLLVSAYAFALSFKASRRDYPWVMAAAISSYVIARYAGAAWGSPAGVFLSAMTLTAAGNVFGRVVQRPGALIRLPGIIMLVPGSVGLRGFLNLIQQQNVALGQEAVLAVTNIVMALVAGLLFGNLLVPARKNL				NA	NA	NA	NA	NA
BMS020_06575	417	hvrA		Trans-acting regulatory protein HvrA	ATGTCCATCGATCTCAAGGGCCTGTCGGCCAAGCAGCTCGGCGCTTTGATCAAGACCGCAAAGAAGCAGCAGGCGCTGGTCGCCAAGCGCACCCCGATCGCCAAGGTGCGCACCCAGCTGACCCGCCTGGCCAAGGCCGAGGGCTACACCATCGAGGAACTGTTCGGTGGCGCCGCGGCCAAGAAGCCGGGCCCGAAGCCGGGCCGCAAGCTCGGCAAGGTGGCACCGAAATACCGCAATCCGGCCAACACCAAGGAAACCTGGACCGGCCGCGGCAAGCAGCCGCGCTGGCTGGCCGAACTGACCGCGCAGGGCAAGAAGGTCGAGGAATTCCTGATCGCCAAGGCGGCCAAGGTCGCCAAGGCCACGAAGAAGGCCGCCGCGCCGCGCCGCAAGGCCGCCAAGAAGGCCAAGTAA	MSIDLKGLSAKQLGALIKTAKKQQALVAKRTPIAKVRTQLTRLAKAEGYTIEELFGGAAAKKPGPKPGRKLGKVAPKYRNPANTKETWTGRGKQPRWLAELTAQGKKVEEFLIAKAAKVAKATKKAAAPRRKAAKKAK				NA	NA	NA	NA	NA
BMS020_06576	1695	proS_2	COG0442	Proline--tRNA ligase	ATGCGCCTGTCCCAGTTCCACCTGCACACCACCAAGGAAACCCCGGCCGACGCCGAGCTGGTCAGCCACAAGCTGATGCTGCGCGCCGGCATGATCCGCAAGCTGGCTTCCGGCCTGTACACCTGGTCGCCGCTGGGCCTGCGGGTGCTGCGCAAGGTCGAGGCGGTGGTGCGCGAGGAGATGGACCGCGCCGGCGCGCTGGAGCTGCAGATCCCGACGATCCAGCCCAAGGAGCTGTGGGAGGCCACCGGCCGCTGGGAGAAGTTCGGCGGCCAGCTGCTGAAGATCACCGACCGCAAGGACCAGGGCTTCTGCTACAGCCCCACCGCCGAGGAGGCGGTGACCGAGTTCGCGCGCCAGGAACTGAGCAGCTACAAGCAGCTGCCGGTGAACTTCTACCAGATCAACAGCAAGTTCCGCGACGAGATCCGCCCGCGCTTCGGCGTGATGCGCGCGCGCGAGTTCCTGATGAAGGACGCCTATTCGTTCCACCTCACCGACGCCGACCTGGCGCGCGAGTACGAGAACATGAAGGCCGCCTACATCCGCATCTTCACCCGGCTGGGGCTGGAGTTCCGCGCGGTGCAGGCCGATTCCGGCGCGATCGGCGGCGACGCCTCGCAGGAATTCCATGTGATCGCCGACTCCGGCGAGGATGCGCTGGCGTTCTCCACCGGCTCGGACTACGCCGCCAACGTCGAGGCCGCCGTGGCCGCCGAGCCGGCGCCGCGCGCGGCCGCCGCCGAGGTGCTGCGCAAGGTCGACACGCCGGTGCAGAAGACCTGCGAGGAGGTCGCCGCGCTGCTGGCGATCACGCTGCAGCGCACGGTGAAGTCGGTCGCGGTGATGACCGACGCCGGCTTCGTGCTGGCGCTGGTGCGCGGCGACCACGCGGTCAACGAGATCAAGCTGCGCAAGGTCACCGGCCTGGCCGAGTACCGCATGGCCAGCGAGGCCGAGATCGCCGAGTACCTGGGCAGCGAGCCGGGCTTCCTCGGCCCGCTCGGCGCCAGGCAGCCGATCCGCGTGGTCGCCGACCGCGAGGTCGCGGCGATGGCCGATTTCGTCGTCGGCGCCAATGAAGTCGGCTTCCACCTGGCCGGGGTCAACTGGGGCCGCGACCTGGCCGAACCGGACGTGGTCGCCGACATCCGCAACGTGGTCGAGGGCGACCGCGCCGCCGATGGCGGGCAGCTCCGCATCGCCCGCGGCATCGAAGTCGGCCACGTGTTCCAGCTCGGCCGCAAGTACGCCGAGGCGCTGCAGGCCACCGTGCTCGACGAGAACGGCAAGGCCGCGGTGATGGCGATGGGCTGCTACGGCATCGGCATCTCGCGCATCGTCGCCGCGGCGATCGAGCAGAACCACGACGAGGCCGGCATCGTCTGGCCGGCGCCGATGGCGCCGTGGCAGGCGGTGGTGTGCGTGATCAACCCGAAGAACGACGCCGCGGTGGCCGCCGCCGCCGAGGCGCTGCTGGGCGAGCTCAAGGCCGCCGGCGTGGATGCGGCGCTGGACGACCGCGGCCTGCGCCCGGGCGCGATGTTCGCCGACATGGAACTGATCGGCATCCCGCACCGCGTCGTGGTCTCCGAGCGCGGCCTGGCCGCCGGCACCTTCGAATACCGCGCGCGCAATGCCGAGGCGCCGGAAAGCCTGGATAAAGCCGCGCTGCTGGCGCGTATTTCCGCTTGA	MRLSQFHLHTTKETPADAELVSHKLMLRAGMIRKLASGLYTWSPLGLRVLRKVEAVVREEMDRAGALELQIPTIQPKELWEATGRWEKFGGQLLKITDRKDQGFCYSPTAEEAVTEFARQELSSYKQLPVNFYQINSKFRDEIRPRFGVMRAREFLMKDAYSFHLTDADLAREYENMKAAYIRIFTRLGLEFRAVQADSGAIGGDASQEFHVIADSGEDALAFSTGSDYAANVEAAVAAEPAPRAAAAEVLRKVDTPVQKTCEEVAALLAITLQRTVKSVAVMTDAGFVLALVRGDHAVNEIKLRKVTGLAEYRMASEAEIAEYLGSEPGFLGPLGARQPIRVVADREVAAMADFVVGANEVGFHLAGVNWGRDLAEPDVVADIRNVVEGDRAADGGQLRIARGIEVGHVFQLGRKYAEALQATVLDENGKAAVMAMGCYGIGISRIVAAAIEQNHDEAGIVWPAPMAPWQAVVCVINPKNDAAVAAAAEALLGELKAAGVDAALDDRGLRPGAMFADMELIGIPHRVVVSERGLAAGTFEYRARNAEAPESLDKAALLARISA				NA	NA	NA	NA	NA
BMS020_06577	264			hypothetical protein	ATGCGGCTGCGCTGGGCCCTGCTCGGCGGCCTGTTGCTCGGGGCCGCGCTGTGGTGGTGGACCCGGCCGGCGGCCGGTCCGGGCACGCGCCCGGCCCAGGCCGCGAGCCCCGATGACACCCCGGCAGCCACGCTGCCGGGGCTGTTCCGCTGGCGCGACGCCGCCGGCACCCTGCACATCACCGACACCCCGCCGCCCGACCGCCCCTACGAGCGGGTCGAACGCGACGGCGGCCGCGGCATCGAGGTCCACGGCGACCGCTGA	MRLRWALLGGLLLGAALWWWTRPAAGPGTRPAQAASPDDTPAATLPGLFRWRDAAGTLHITDTPPPDRPYERVERDGGRGIEVHGDR				NA	NA	NA	NA	NA
BMS020_06578	384			hypothetical protein	ATGAAACTGCTTTCCGCCGCCGGCCTGGCGCTGCTGCTCGTCAGCACCGCGATCGGCGCCACCAACCTGTACAAATGGAAGGACGCCAACGGCGTCACCCACTACTCGGAAAAGCCGCCGGAAGGCCAGAAGTACGAGTCGCGCAAGATCAGCGCCGAGGCCGGGGTGGCCCCGGCGGCCGGCGGCCAGCCCACCGGCAAGCCGGACTCCACCGAGTGCGTGACCGCGCGCAAGAACCTGGAAGTGCTGGGCAGCAGCGGCCCGGTCATGCAGGACAGCGACGGCGACGGCAAGCCTGACACGCCGCTGGACGAAGGCCAGCGTACGGCCCAGAAGAACCTGGCCGAGGCCGCGGTCAAGGCCTACTGCACGCCGGCCAAGTAA	MKLLSAAGLALLLVSTAIGATNLYKWKDANGVTHYSEKPPEGQKYESRKISAEAGVAPAAGGQPTGKPDSTECVTARKNLEVLGSSGPVMQDSDGDGKPDTPLDEGQRTAQKNLAEAAVKAYCTPAK				NA	NA	NA	NA	NA
BMS020_06579	765			hypothetical protein	ATGAGACCGCCTCCGCGTTCGCGCACGATCTACCTGCTGCCGAACCTGTTCACCACCGCCGGGCTGTTTTCCGGGTTCTTCGCGATCATCGCCGCCGCCAACGGCGATTTCGTGCAGGCCAGCATCGCGGTGTTCGTCGCCGCGGTGATGGACGGCCTGGACGGCCGGGTCGCGCGCATGACCGGGACCAGCAGCGAATTCGGCGTCCAGTACGACTCGCTGGCCGACCTGGTCAGCTTCGGCATGGCGCCGGCGCTGGTGATGTACCACTGGTCGCTGTCGGCGCTGAAGTTCGACGGCAGCGTGATGGGGCGGGTCGGCTGGGCCGCCGCGTTCCTGTACGCGGCCTGCGCGGCACTGCGCCTGGCGCGCTTCAACACCCAGGTCGGGGTGGTCGACAAGCGCTGGTTCATCGGCCTGGCCAGCCCGGCCGCGGCCGGCTTGATGATGTCCTTCGTCTGGGCCTTCGCCGACGGCACGCTGGGCTGGAGCGGCGAGGAGCTGCGCTACGTGGCGCTGGCGGTGACCATCGCCGCGGCGCTGCTGATGGTCAGCCGGATCCGCTTCTGGAGCTTCAAGGGCGGTCCGAAGGACCCGCGCGCCGACCGCGTGCGCTTCCTCGGCCTGGCGGTGATGGTGATCGTGTTGGCGGTGGTGGTCATCGATCCGGCGCGCACCCTGTTCGTGATCGGCGTGGTCTATGCGCTGTCCGGCCCGGCGATGTGGCTGTGGCGCCGTGCGCGCCGGGTTCCGGACGCGGCATGA	MRPPPRSRTIYLLPNLFTTAGLFSGFFAIIAAANGDFVQASIAVFVAAVMDGLDGRVARMTGTSSEFGVQYDSLADLVSFGMAPALVMYHWSLSALKFDGSVMGRVGWAAAFLYAACAALRLARFNTQVGVVDKRWFIGLASPAAAGLMMSFVWAFADGTLGWSGEELRYVALAVTIAAALLMVSRIRFWSFKGGPKDPRADRVRFLGLAVMVIVLAVVVIDPARTLFVIGVVYALSGPAMWLWRRARRVPDAA	PGPT0007695_1599	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
BMS020_06580	447			hypothetical protein	ATGAGCGAGGGCGCGCCCGTCGCGCTGTGGTCGGACCTGCAGCTGTCATGGCTGCAGGCGATGGGCCATGTCGTCTACCTGGACCGCGCCGCGCCGGAACCTGAGCTGGCGCCGCCGGTGTTGGTCGAGCGCGACATGCCGGCACCGATGGCCGCGCCGCGTGCGCCGGCCGCTGGACCGGCGCCCGTGCGCCGGCCGCCGCCGGCCGCCCCGGCCGAGACCCCGGTCGTGGCGCCCAGCGCCGCGCCGGCCCCGGGACGCCGTCGCGTCGGAGGCCCGGACCGGCTGCAGATCGCGCTGCTGCGCGCATCCGGCGGCAATCCGGCCGACCCGCGCGTGCAGCAGGCGATGGCGCAATGGCCGCTGGACGCGCTGCGCGCCGATCCGGCCGCCAAGCGCGCGCTGTGGCCGCAGCTGCGCGCGCTGCGCCGGACGCCGGCGCCATGA	MSEGAPVALWSDLQLSWLQAMGHVVYLDRAAPEPELAPPVLVERDMPAPMAAPRAPAAGPAPVRRPPPAAPAETPVVAPSAAPAPGRRRVGGPDRLQIALLRASGGNPADPRVQQAMAQWPLDALRADPAAKRALWPQLRALRRTPAP				NA	NA	NA	NA	NA
BMS020_06581	483	rimI_2	COG0456	[Ribosomal protein S18]-alanine N-acetyltransferase	ATGAGCGCGGTCAGCCGGCCGGCGCCGTTGCAGTTCCGCGTCCTGCGCGAGGCCGACCTCGACCAGGTGATGGAGATCGAGCGGCGCGCCTATCCGTTCCCGTGGACCCGGGGGATCTTCCGCGACTGCCTGCACGCCGGCTATCCCGGCCTGGTGGCCGAGCAAGCCGGCGCGCTGGTCGGCTACGGCGTGGTCAGCCTGGCCGCCGACGAGGCCCACATCCTCAACGTCTGCGTCGATCCGGTAAGCCAGTCACGTGGCCTGGGCCGCCAGCTGCTGCGCGCGCTGGTGAAGCTGGCCTGCGACCGCGGCGCGCGCCGGGTATTCCTGGAAGTGCGCCCGTCCAACAAGCACGCCGTGGCGCTCTACCACTCCGAAGGCTTCAACGAGATCGGCCGCCGGCCGCGCTACTACCCGGCCGACAACGGCCGCGAGGATGCGCTGGTGATGGCGATGGAACTGGTGTTCGACGGCTTCTCCTGA	MSAVSRPAPLQFRVLREADLDQVMEIERRAYPFPWTRGIFRDCLHAGYPGLVAEQAGALVGYGVVSLAADEAHILNVCVDPVSQSRGLGRQLLRALVKLACDRGARRVFLEVRPSNKHAVALYHSEGFNEIGRRPRYYPADNGREDALVMAMELVFDGFS				NA	NA	NA	NA	NA
BMS020_06582	1137	pel		Pectate lyase	ATGAGATCGCATCACCCAGTCGCAGCAGTTCCCCTCGCGCTCGCCGGCCTGCTGGCCGTGACCGCGCCGGCCCGTGCCGCCGATGCCTCGCTGGAGATCGCCAGCACCGGATGGGCCACGCAGAACGGCGGCACCCGTGGCGGCTCGCGTGCCGCCGCCGGCGACGTCTATACCGTGCGCAGTGCCGCCGAGCTGAAGGCCGCGTTGAAGGCCACCGCCGGCAGCAACGGCCGCATCATCAAGGTCAGCGGCGTCATCGACGTCAGCGAAGGCACGCCGTACACCAAGACCGCCGACATGAAGAGCCGCGCGCGCCTGGACATTCCCGCCAGGACCACGCTGATCGGCATCACCAGCAATGCCGAGATCCGCGAGGCCTACCTGTACGTCAAGGCCAGCGACGTGATCATCCGCAACCTCACCATCGAGAATCCGTGGGATCCGGAGCCGGTGTGGGACCCGGACGATGGCAGTGCCGGCAACTGGAACGCCGAATACGACGGGCTGACCATCGAGGGCGCCAGCAACGTCTGGGTGGACCACCTCACCCTCACCGATGGCCGCCGGACCGACGACCAGAACGGCACCGCCAACGGCCGCCCGAAGCAGCACCATGACGGCGCGCTGGACGTGAAGAAGGGCGCGAACTACGTGACGATCTCCTACACGGTGTTCCGCCTGCACGAGAAGAACAACCTGATCGGTTCCAGCGACAGCGCCGCGTCCACCGACAGCGGCAAGCTCAAGGTGACGATCCACAATTCGCTGTTCGAGAACGTGGCGGCGCGCGCGCCGCGGGTGCGCTTCGGCCAGGTGCACCTGTACAACAACTACCACGTGGGCAGCACCAGCCACGCGGTGTATCCGTTCTCGTACGCGCATGGGGTCGGCAAGGAGTCGAAGATCTACTCCGAGAACAACGTGTTCGAGATCGCCGGGGTGAGCAGTTGCGACAAGATCGCCGCCGACTATGGCGGCAGCACCTACCGCGACTTCGGCTCGCTGCTCAACGGCAAGGCGCTGGTCTGCGGCTGGAGCAACAGCATCGGCTGGACCCCGCCGTACACCTACAACCTGCTGTCGGCCAACAAGGTGGCCGCGGACGTGAAGGCCAAGGCGGGCGCCGGGAAGCTGTAG	MRSHHPVAAVPLALAGLLAVTAPARAADASLEIASTGWATQNGGTRGGSRAAAGDVYTVRSAAELKAALKATAGSNGRIIKVSGVIDVSEGTPYTKTADMKSRARLDIPARTTLIGITSNAEIREAYLYVKASDVIIRNLTIENPWDPEPVWDPDDGSAGNWNAEYDGLTIEGASNVWVDHLTLTDGRRTDDQNGTANGRPKQHHDGALDVKKGANYVTISYTVFRLHEKNNLIGSSDSAASTDSGKLKVTIHNSLFENVAARAPRVRFGQVHLYNNYHVGSTSHAVYPFSYAHGVGKESKIYSENNVFEIAGVSSCDKIAADYGGSTYRDFGSLLNGKALVCGWSNSIGWTPPYTYNLLSANKVAADVKAKAGAGKL	PGPT0018225_2429	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-T1SS_SECRETED_PROTEINS,PGPT0018225-pel|plyB-K01728	NA	NA
BMS020_06583	423			hypothetical protein	ATGGCCGCCTGCGGCGGCATCGGCTGGGCGCTGGCGACGTGGTTGCCGCGGCTGGAGCTGCTGATCCCCGGCCAGCGGATGCTCGGCTGGCTGCTGGTGCTGGCTGGCGCGACGTTGAACATCGCGCCGAAGCGGCGCTTCCGCCGCGCCGGCACGACCGTCAATCCCTTGCGCCCGCAGGCGAGCAGCGCGCTGGTGCAATCCGGCCTGCACGCGGTCTCGCGCAATCCGATGTACCTGGGGCATGCGACGCTGCTGCTCGGCGTGGCGTTCCTGCTCGGTAACGCGGCGGCGTTTGCGGCGGTGCCGTTGTACGTCGCCTGGGTTACCCACTTCCAGATCCTGCCCGAAGAACGCGCGCTGCAGGCGCGCTTCGGCGATGCATATCGCGACTACCGGCGGCGCGTGCGCCGCTGGTTGTAA	MAACGGIGWALATWLPRLELLIPGQRMLGWLLVLAGATLNIAPKRRFRRAGTTVNPLRPQASSALVQSGLHAVSRNPMYLGHATLLLGVAFLLGNAAAFAAVPLYVAWVTHFQILPEERALQARFGDAYRDYRRRVRRWL				NA	NA	NA	NA	NA
BMS020_06584	2928	valS_1	COG0525	Valine--tRNA ligase	ATGACCGACACCCTCGCCTCCAGCTACGACCCCAAGACCTTCGAATCGCGCCTGTACGGCGAGTGGGAGGCCGCCGGGCACTTCAAGCCGTCCGGCACGGGCACCCCGTACACCATCCTGCTGCCGCCACCGAACGTGACCGGCACCCTGCACATGGGCCACGCGTTCCAGCAGACCCTGATGGACGCGCTGGTGCGCTACCACCGCATGCGCGGCTACGACACGCTGTGGCAGGTCGGCACCGACCACGCCGGCATCGCCACCGAGATGGTGGTCAGCCGCAACCTGGCGCTGGCCAACACCGGCGAGACCCGCGATTCGCTCGGCCGCGACGGCTTCATCGGCAAGGTCTGGGAATGGAAGCAGCAGTCCGGTGACACCATCGAGCGGCAGATGCGCCGCCTCGGCACCTCGGCGGACTGGTCGCGCAGCACCTTCACGATGGACCCGCAGCCGTCGGCGGCGGTGGTCGAGGCGTTCGTGCGCTGGTACGAGCAGGGCCTGATCTACCGCGGTCAGCGCCTGGTCAACTGGGACCCGGTGCTGAAGACCGCGATCTCCGACCTGGAAGTGGAGAACGTCGAGGAAGACGGTTTCCTGTGGTCGATCCGCTATCCGCTTGCCGACGGTGCCAGCTACGAGCACGTCGAGCTCGACGCCGACGGCGTGGAGACGCTGCGCGAGACCCGCGACTACCTGATCGTCGCCACCACCCGCCCGGAAACCCTGCTCGGCGACACCGCGGTGATGGTGCACCCGGAGGACGCGCGTTACCTCGCGCTGCACGGCGCGCGCATCGTGCTGCCGCTGACCGGCCGCGAGGTGCCGATCATCACCGACGACTACGTCGACCGCGCATTCGGCACCGGCGTGGTCAAGGTGACCCCGGCGCACGACTTCAACGACTACCAGGTCGGCCTCCGGCACAGCCTGCCGATGATCAACATCCTTACCAAGGAAGCCAAGATCGTCAGCAACTCCGCGGCCGATTGGCACATGAATCAAACAACATCCAATCCGACCGAAAACAGAAATCGGGCGTTCAGCGTTGTTGATATGGCCTCTGACATCGGTATTCCGGAGAGGTATTGGGGCCTGGATCGCTACGAGGCACGCAAGGTCGTGCTGGCCGAACTGGAAGACCTCGGCCTGCTGGTCGAGGCCAAGCCGCACAAGCTGCAGGTGCCGCGCGGCGACCGCACCGGCCAGGTCATCGAGCCCTATCTCACCGACCAGTGGTTCGTGAAGATGGACGCGCTGGCCAAGCGCGGCCTGGAGCTGGTCGAATCGGGCGAGGTGAAGTTCGTCCCGCCGAATTGGATCAACACCTACCGCCACTGGATGGAAAACATCCAGGACTGGTGCATCAGCCGCCAGCTGTGGTGGGGCCACCGCATCCCGGCGTGGTTCGACGAAGCCGGCACCTGCTACGTCGGCCGCGACGAAGCCGAGGTGCGCGCCAAGCACGGCCTCGGCGCCGATGTCGCGCTGAGCCAGGACAGCGACGTGCTGGAAACCTGGTTCTCCTCGCAGCTGTGGCCGTTCTCCACGCTGGGCTGGCCGAACGAGGCGGCGATGGCCGAGCGTGGTTTCGAGCGCTATCTGCCGTCGGACGTGCTGGTCACCGGCTTCGACATCATCTTCTTCTGGGTGGCGCGCATGATCATGGCCACCGACAGCTTCACCGGGAAGGTGCCGTTCAAGGACGTCTACATCACCGGCCTGATCCGCGATGCGCAGGGCCAGAAGATGTCCAAGTCCAAGGGCAACGTGCTCGATCCGCTCGACATCATCGACGGCATCAGCCTCGACGAGCTGCTCGCCAAGCGCACCACCGGGCTGATGAAGCCCAAGGACGCCGAGCGCATCGGCAAGGCCACGCGCAAGGAATTCCCGGACGGCATCATCGCCCACGGTGCCGACGCGCTGCGCTTCACCATCGCCGCGCTGGCCACCCACGGCCGCGACATCAAGTTCGACCTCGGCCGCGCCGAGGGCTACAAGAACTTCTGCAACAAGCTGTGGAACGCCAGCCGTTTCGTGCTGATGAACACCGACGGCGCGCAGTTCAGCGGCGCACCACAGCCGGTCACCGATGCCGAGAAGTGGATCCTGTCGCGGCTGGCCGCGGTCTCGGCCGAAGCGCAGGAACACTTCGCCGGCTACCGCTTCGACCTGCTGGCGCAGTGCCTGTACGAATTCGCTTGGAACGCGTTCTGCGACTGGTTCCTGGAGCTGACCAAGCCGGCGCTCAACGGCAGCGATGCCGCGGCCGCCGCCAGCACCCGCCACACCCTGCTGTACGTGCTGGAAGCGCTGCTGCGCCTACTGCACCCGCTGACTCCGTTCGTCACCGAGGAGCTGTGGCGCCAGGTCGCGCCGCGCCTGGGCATCACAGAGGCCACGATCTCGCTGCGCGCCTATCCGCAGGCAAGCGACTATGCCGGTGTTGACTACGCCGCCGCCGAAGCCGACGTGGAATGGCTGAAGGCGATGGTCAGCGCGCTGCGCCGCGTGCGCAGCGAGCTCAACGTGCCGCCGTCCAAGCAGGTCGCGCTGCTGCTGCAGGCCGGCGGCGATGCCGACCGTGGCCGGATCGAACGCTTCGCCGCGCAGCTGACGTTCCTGCTCAAGCTGGAGCGCATCGACTGGCTGGCCGCCGATGCCGACACGCCGCCGGCCGCGGCGGCGATCGTCGGCGAGCTCAAGCTGCTGGTGCCGCTGGAAGGCCTGGTCGACCTCGATGCCGAGCGCGCACGCCTGGACAAGGAGATCGCCCGCGTCGCCGCCGAGAAGGACAAGAGCGAGGCCAAGCTGGCCAAGTTCACCGACAAGGTGCCGGCGGCGGTGGTCGAGCAGGAGCGTTCGCGCCTGCTCGACTGGAGCGCCCAGCTCGACGGCCTGCGCGGGCAGCGCGCCAAGCTCTGA	MTDTLASSYDPKTFESRLYGEWEAAGHFKPSGTGTPYTILLPPPNVTGTLHMGHAFQQTLMDALVRYHRMRGYDTLWQVGTDHAGIATEMVVSRNLALANTGETRDSLGRDGFIGKVWEWKQQSGDTIERQMRRLGTSADWSRSTFTMDPQPSAAVVEAFVRWYEQGLIYRGQRLVNWDPVLKTAISDLEVENVEEDGFLWSIRYPLADGASYEHVELDADGVETLRETRDYLIVATTRPETLLGDTAVMVHPEDARYLALHGARIVLPLTGREVPIITDDYVDRAFGTGVVKVTPAHDFNDYQVGLRHSLPMINILTKEAKIVSNSAADWHMNQTTSNPTENRNRAFSVVDMASDIGIPERYWGLDRYEARKVVLAELEDLGLLVEAKPHKLQVPRGDRTGQVIEPYLTDQWFVKMDALAKRGLELVESGEVKFVPPNWINTYRHWMENIQDWCISRQLWWGHRIPAWFDEAGTCYVGRDEAEVRAKHGLGADVALSQDSDVLETWFSSQLWPFSTLGWPNEAAMAERGFERYLPSDVLVTGFDIIFFWVARMIMATDSFTGKVPFKDVYITGLIRDAQGQKMSKSKGNVLDPLDIIDGISLDELLAKRTTGLMKPKDAERIGKATRKEFPDGIIAHGADALRFTIAALATHGRDIKFDLGRAEGYKNFCNKLWNASRFVLMNTDGAQFSGAPQPVTDAEKWILSRLAAVSAEAQEHFAGYRFDLLAQCLYEFAWNAFCDWFLELTKPALNGSDAAAAASTRHTLLYVLEALLRLLHPLTPFVTEELWRQVAPRLGITEATISLRAYPQASDYAGVDYAAAEADVEWLKAMVSALRRVRSELNVPPSKQVALLLQAGGDADRGRIERFAAQLTFLLKLERIDWLAADADTPPAAAAIVGELKLLVPLEGLVDLDAERARLDKEIARVAAEKDKSEAKLAKFTDKVPAAVVEQERSRLLDWSAQLDGLRGQRAKL				NA	NA	NA	NA	NA
BMS020_06585	426	holC_1	COG2927	DNA polymerase III subunit chi	ATGCCCCGCGCCGATTTCTACCTGATCGCCAAGCCGCGCTTCCTCACTGAACCGCTGCGGCTGGTCTGCGAGCTGGCGCGCAAGGCCTATGACAGCAACCAGCCGACGCTGATCCTGGCGCGCGACCTGGCCCAGGCCGAGGAGCTGGACGACCTGCTGTGGTCGTTCGACCCCGACGCCTACATCCCGCACCAGATCGCCGGCAGCGACGAGGACGACGACATCACCCCGGTGCTGGTGGTGACGCCGGACTACGACGCGCCGCCGCGCCCGCTGGTGATCAACCTGCGCGACGACGCCTACGCCGGCGCCTGCGAGCGCGTGCTGGAAGTGGTACCGGCCGACCCGTCGGCACGCGACCCGCTGCGCGAGCGCTGGAAGCAGTACAAGGCGCGCGGACTGGACGTGAACAAGTACGACATGTAG	MPRADFYLIAKPRFLTEPLRLVCELARKAYDSNQPTLILARDLAQAEELDDLLWSFDPDAYIPHQIAGSDEDDDITPVLVVTPDYDAPPRPLVINLRDDAYAGACERVLEVVPADPSARDPLRERWKQYKARGLDVNKYDM				NA	NA	NA	NA	NA
BMS020_06586	1479	pepA_1		putative cytosol aminopeptidase	ATGGCCCTGCAATTCACCCTGAACCAAGACCCGGCCGCCAGCGCGGCCTTCGACTGCATCGTGGTCGGCGCCTTCGCCGACGGCAGCCTGTCGCCGGCCGGCCAGGCCGTGGACGCGGCCAGCGGCGGGCGTATCGCCGCCCTGCTCGGCCGCGGCGACATCGCCGGCAAGGCCGGCGCCACCACCCTGCTGCACGACCTGGCCGGCGTGGCCGCCCCGCGCGTGCTGGTGCTCGGCCTCGGCGAGGCCGCCAAGTTCGGCGTGCCGCAATACCTGAAGGCGATCGGCGACAGCGTGCGCGCGCTCAAGGGCAGCCCGTCGGTCCGGGTGCTGCTGACCCTGACCGAACTGCCGGTCAAGGCCCGCGACGCGGCCTGGAACATCCGCCAGGCGATCGCCACCGCCGACCACGCCGCCTACCGCTATACCGCCACGCTGGGCAAGCGCAAGGCCGACGAGCGTGCCCTGGCCGAGCTGGCGCTGAGCGGCGACGACGCCGCCGCGCTGGCCCAGGGCCAGGCGATCGCCGCTGGCGTCGAGTACGCCCGCGAGCTCGGCAACCTGCCGCCGAACATCTGCAACCCGGCCTACATCGCCGAGCAGGCGGTGAAGTTCGCCGGCGCCCACGCCGGCGCCGAGGCCGAGATCCTCGACGAGCAGCAGATGGACGCGCTCGGCATGGGCTCGCTGCTGGCGGTCGCGCGCGGCTCGGCCAACCGCCCGCGCCTGGTGGTGCTGAAGTGGACCGGCGCCGGCGACGCGCGCCCGTACGTGCTGGTCGGCAAGGGCATCACCTTCGATACCGGTGGCGTCAACCTGAAGACCCAGGGCGGCATCGAGGAGATGAAGTACGACATGCTCGGTGGCGCCACCGTCATCGGCACCTTCGTCGCCGCGGTCACCGCGCAGCTGCCGGTCAACCTGGTGGTGGTGGTACCGGCGGTCGAGAACGCGATCGACGGCAACGCCTACCGCCCGTCCGACGTGATCACCTCGATGTCGGGCAAGACCATCGAGGTCGGCAACACCGACGCCGAGGGCCGGCTGATCCTGTGCGACGCGCTGACCTACGCCGAGCGCTTCAAGCCCGAGGCGCTGGTCGACGTGGCCACCCTGACCGGCGCCTGCATGGTCGCGCTCGGCCATGTCGCCACCGGCCTGATGAGCAAGCACGACGACCTGGCCAACGAGCTGCTGGCCGCCGGCGAGCACGTGTTCGACCGCGCCTGGCGCCTGCCGCTGTGGGACGAGTACCAGGGCCTGCTGGATTCCAGCTTCGCCGACGTCTACAACATCGGCGGCCGCTGGGGCGGCGCGATCACCGCCGGCTGCTTCCTGTCGCGCTTCACCGAAGGCCAGCGCTGGGCGCACCTGGACATCGCCGGCAGCGCCAGCGACGAAGGCAAGCGCGGCATGGCCACCGGCCGCCCGGTCGGCCTGCTGACCCAGTGGCTGCTGGACCGCATCGCGCAGGGCTGA	MALQFTLNQDPAASAAFDCIVVGAFADGSLSPAGQAVDAASGGRIAALLGRGDIAGKAGATTLLHDLAGVAAPRVLVLGLGEAAKFGVPQYLKAIGDSVRALKGSPSVRVLLTLTELPVKARDAAWNIRQAIATADHAAYRYTATLGKRKADERALAELALSGDDAAALAQGQAIAAGVEYARELGNLPPNICNPAYIAEQAVKFAGAHAGAEAEILDEQQMDALGMGSLLAVARGSANRPRLVVLKWTGAGDARPYVLVGKGITFDTGGVNLKTQGGIEEMKYDMLGGATVIGTFVAAVTAQLPVNLVVVVPAVENAIDGNAYRPSDVITSMSGKTIEVGNTDAEGRLILCDALTYAERFKPEALVDVATLTGACMVALGHVATGLMSKHDDLANELLAAGEHVFDRAWRLPLWDEYQGLLDSSFADVYNIGGRWGGAITAGCFLSRFTEGQRWAHLDIAGSASDEGKRGMATGRPVGLLTQWLLDRIAQG				NA	NA	NA	NA	NA
BMS020_06587	1083	lptF_1	COG0795	Lipopolysaccharide export system permease protein LptF	ATGCCGAAGCTCGACCGTTACCTGCTCAGCGACTTCACCCAGAGCTTCTTCGCGACCCTGATCGTCCTGCTGGTGGTCAGCGTCGGCGGCGTACTGGTGGACATCCTCGGCAACATCGCCGATGGGCGCATTCCCGCACGCCTGCTGCTGTCGCAGCTGGGCCTGCAGTTCGTGGCGTACCTGCCGCTGATCCTGCCGCTGGCGCTGGTGCTGGGCCTGCTGCTGGCGCTGGCGCGGCTGTACCGCGACTCGGAGATGGCGGTGATCACCGCCATCGGCGTCGGCCCGCGCCGGCTGCTGCGGCCGATCCTGATGCTGGTGCTGCCGGTGGTGGCGGTGGTCGGGATGTGCTCGCTGTGGCTGGGGCCGATGGCCAGCGCGACCGCCGAGAAGATGCTGGAGGACGCCAACCGCAGCGTGGTCATGGCCGGGCTGGAGTCGGGCAAGTTCACTCCGCTGTCCGGTGGTGGCGTGGTCTATCTGTCGACGATCTCCGCCGACGGCACCCAACTGGGCAAGGTGTTCATGCAGCGCCCCAAGGACGACCGCCTGGAGGTGGTGACCGCCCAGCAGGGCGAGGTCTACTTGGAGGGCAAGGCGCACCGCTACCTGCGGCTGCAGGACGGCTTCCAGGTCGAGGGGCCGGTCGGCGCCGAGGGCCTGGACTATCGGCTGATGCGTTTCCGCGGCAACGAGACCGCGCTGCCGGACCGGGCCCAGGTGCATGACGAGAACGACCCCGAGGTGATGCCGACCGCGGCCCTGCTCGGCGATGCCCGGCCGGAGGCCAAGGCCCAGCTGCACGCGCGCATCGCCCCGCCGTTGCTGGCGCTGGCGTTCGCGCTGCTGACCCTGCCGCTGTCGCGCAGCGCGCCGCGGCAGCAGCGCTACGGCCGCATGATGATGGCGTTCCTGGCCTATGTGATCGGCACCAACCTGTCGACGATCGGCGCGCGCTGGATCGCCGACGGGAAGATTCCCGCCGCCGCCGGCCTGTGGTGGCTGACCCTGCCGCTGCTGGCGCTGGCGATCTGGATGTATGCACGCGATGGCCGCATGGCGCGCCCGCGGAGGACCGCATGA	MPKLDRYLLSDFTQSFFATLIVLLVVSVGGVLVDILGNIADGRIPARLLLSQLGLQFVAYLPLILPLALVLGLLLALARLYRDSEMAVITAIGVGPRRLLRPILMLVLPVVAVVGMCSLWLGPMASATAEKMLEDANRSVVMAGLESGKFTPLSGGGVVYLSTISADGTQLGKVFMQRPKDDRLEVVTAQQGEVYLEGKAHRYLRLQDGFQVEGPVGAEGLDYRLMRFRGNETALPDRAQVHDENDPEVMPTAALLGDARPEAKAQLHARIAPPLLALAFALLTLPLSRSAPRQQRYGRMMMAFLAYVIGTNLSTIGARWIADGKIPAAAGLWWLTLPLLALAIWMYARDGRMARPRRTA	PGPT0023290_2462	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023290-lptF-K07091	NA	NA
BMS020_06588	1101	lptG_1	COG0795	Lipopolysaccharide export system permease protein LptG	ATGAAGCTGCTGCCGCGGATCCACGACGTCTACACCGGGCGCGCGGTGCTGACCACCGTGCTGTTGACCTGGGCGGTGCTGGTCGGCCTGTTCGTGATGATGGGCGTGTCCGACCAGTTCAAGGACATCGGCAAGGGCAGCTACACCTTCGCCCATGCGGTGGCCTATGTCGCCTACAGCGTGCCGCGCCATGCCTACAACCTGTTCCCGACCGCGGCGGTGATCGGCGCGCTGATGGGGCTGGGCCAGCTGGCGGCGACCTCGGAGCTGACCGCGCTGCGCGCGCTCGGCCTATCGCGGCGCCGGCTGGGGCTGTCGGTGGCGGCGACCATCGCGGTGCTGACCACGCTGATGGTGGTCAATGGCGAAACCCTGGCGCCGTGGGCGCAGAACCAGGCCGACCAGCTCAAGGCCAACGCCAAGTTCAACACCAACATGGCCACCGCGCGTTATTCCGGCTTGTGGGCGCGCGAAGGCGACATCTTCCTCAACGCCCAGAGCGGCGAGGAGAAGCTGGAGCCGCAGGGCGGCACCTCCCTGGAGCTGCGCGACGTGCGCCTGTACCAGGTCGGCGACGATGGTCACCTGACCAGCCTGACCTACGCCGCCAGCGCCGAACACCGCGGCGACGGTTGGACCCTGCACCAGGTGCGGCGCGACACCTTCGGCGCGCGCGAGGTGCGGCGCGAGACCTTCGAAACCCTGCCGTGGGCCTCGCGGCTGGACCCGGCGGCGCTGGCCGCCGGGCTGTCGCGGCCGCGCAACCTGTCCGCGCGCGAGCTGCACGAGAGCATCGAATACCGCGAGCGCAACGGCCTGGACGCGCGCGACTACGAGGACCAGTACTGGAGCCGCTGGTTCTACCCGCTCAACGTGCTGTCGCTGTGCCTGGCGGCGGTGCCGTTCGCGTTCGGCTCGCTGCGCAGCGGCGGCATGGGCAAGCGGCTGTTCCTGGGCGTGCTGTTCGCGCTTGGCTTCTGGCTGCTGCAGTTGTTCTTCGGGCGCATGGCCGGCGCGCTGAAGCTGGACTACCGCATCGCCTACGCGCTGTCGCCGACCGCGATGCTGCTGATCTCCGGCTGGCTGTTCCGGCGCAAGTAG	MKLLPRIHDVYTGRAVLTTVLLTWAVLVGLFVMMGVSDQFKDIGKGSYTFAHAVAYVAYSVPRHAYNLFPTAAVIGALMGLGQLAATSELTALRALGLSRRRLGLSVAATIAVLTTLMVVNGETLAPWAQNQADQLKANAKFNTNMATARYSGLWAREGDIFLNAQSGEEKLEPQGGTSLELRDVRLYQVGDDGHLTSLTYAASAEHRGDGWTLHQVRRDTFGAREVRRETFETLPWASRLDPAALAAGLSRPRNLSARELHESIEYRERNGLDARDYEDQYWSRWFYPLNVLSLCLAAVPFAFGSLRSGGMGKRLFLGVLFALGFWLLQLFFGRMAGALKLDYRIAYALSPTAMLLISGWLFRRK	PGPT0023295_756	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023295-lptG-K11720	NA	NA
BMS020_06589	477			hypothetical protein	ATGCCAGCCTCCGCCGCCCCACCCTCCCCCGCGCGCCCACGCAGCCTGCTCGGCTGGCGCCTGCTGGCCCTGGCCTACGACGCCTGGCCGGTGCTGGCGATGTGGCTGCTGGTGTCGGTGCCGTTCACGCTCGGCTTCACCTTCCTCGGCCACCACGATCCGCACCAGAACATCGCACCGTTCTCGCTGCTGGCGTGGCTGCTGTGGGGCGCGTGCTGGCTGGTCACCGGGGCCTACGCGACGATCAGCTGGCGGCGCGGCGGCCAGACCCTGGGCATGCGTCCGTGGCGGCTGCACCTGGCCGGCGCGGATGGCGGGCGCCCGAGCTGGCCGGCGCTGTGGCTGCGCTATCTGATCGGCAGCCTGTCGCTGCTGGCCGGCGGAGTGGGCTTCTGGTGGGCGCTGCTCGACCGCGAGCGGCTGACCTGGCACGACCGCGCCAGCGGCACGCGGCTGCTGCGCCGGCCGAAGCGCTGA	MPASAAPPSPARPRSLLGWRLLALAYDAWPVLAMWLLVSVPFTLGFTFLGHHDPHQNIAPFSLLAWLLWGACWLVTGAYATISWRRGGQTLGMRPWRLHLAGADGGRPSWPALWLRYLIGSLSLLAGGVGFWWALLDRERLTWHDRASGTRLLRRPKR				NA	NA	NA	NA	NA
BMS020_06590	975	xerD_2	COG4974	Tyrosine recombinase XerD	ATGACTGCCCGCACCCCCGCCGAACGTCGCCACCTGGCGCTCCAGCTGCCGCCGCTGCACGAGGCCGACCGCGACGTGATCGCCCGCTTCCTGGATCGCCTCTGGGCCGAGCAGGGCCTGGCGCGGCAGAGCCTGGACAGCTACCGCCGCGACCTGGAGGGCTTCGCGCGCTGGCGTGACGGGGCCGCCGGTGGTCTGGCCGGCGCCGACCGTGCGGCGCTGTTCGACTATCTCGGCTGGCGCACGCGCGAGCGCTATTCGCCCAAGAGCAACGCGCGCCTGCTGTCCTCGCTGCGCGCGTTCTACGGCGACGCGGTGGCGCGCGGCGACCGCGGCGACGATCCGACCCTGCTGCTCGATCCGCCGAAACTGCCGCGCTCGCTGCCCAAGGCATTGAGCGAGGCGCAGATCGACGCGCTGCTGGCCGCGCCGGACAGCGCCGATCCGCTCGGCCTGCGCGATCGCGCCATGCTCGAACTGATGTACGCCTGCGGGCTGCGCGTCAGCGAGCTGGTGACCCTGCCCGGCACCGCGGTCAACCTGCGCCAGGGCGCGCTGCGGGTAACCGGCAAAGGCAGCAAGGAGCGCCTGGTGCCGCTGGGCGAGGAATCCCAGCACTGGCTGCAGCGCTATCTCGACCAGGCGCGGCCGCTGCTGGCCGCTGGCCGCCCGGTCCCGGCGATGGCCGGCGGCGAGGTGCCGCTGTTCATCGGCGCCGACCGCCTGCCGCTGAGCCGGCAGCAGTTCTGGAGCCTGGTGAAGCGCCATGCCGCGGTCGCCGGCATCGATCCGGAGCGGGTCAGCCCGCACGGGCTGCGCCACAGCTTCGCCACCCACCTGCTCAACCACGGCGCCGACCTGCGCGCGCTGCAGATGCTGCTCGGCCACAGTTCGCTGTCGACCACCCAGATCTACACCCTGGTCGCGCGCGAGCACCTGCAACGCCTGCACCGCAGCCACCATCCGCGCGGTTGA	MTARTPAERRHLALQLPPLHEADRDVIARFLDRLWAEQGLARQSLDSYRRDLEGFARWRDGAAGGLAGADRAALFDYLGWRTRERYSPKSNARLLSSLRAFYGDAVARGDRGDDPTLLLDPPKLPRSLPKALSEAQIDALLAAPDSADPLGLRDRAMLELMYACGLRVSELVTLPGTAVNLRQGALRVTGKGSKERLVPLGEESQHWLQRYLDQARPLLAAGRPVPAMAGGEVPLFIGADRLPLSRQQFWSLVKRHAAVAGIDPERVSPHGLRHSFATHLLNHGADLRALQMLLGHSSLSTTQIYTLVAREHLQRLHRSHHPRG	PGPT0022000_2694	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
BMS020_06591	789	dsbC_2	COG1651	Thiol:disulfide interchange protein DsbC	ATGCTTCGTCTCGCCATTGCTGCACTGCTGGGGGCCCTGAGCCTGTCCGCCTGCGCCCAGTCCGCCGCGCCGCCGGCCAAGGGTGCCACCGCTACTGCCGCCCCCGCCGGTTCGGCCGAGCAGAAGGTCCGCGCCGCGCTGTCCAGCCTGGAGCCGGACTTCAAGCCCGATTACATCGGCGCCGCGCCGTTCCCGGGCTTCCGCGAAGTGGTGGTCGGCGGCCAGGTGCTGTACGTCAGTGATGATGGCCGCTACCTGATGCAGTCCCAGCCGTTCGACATCCAGGCCAAGCAGTTCGCCGCCAGCGAAGGCCTGCTGGCCTACCGCCGCAAGCAGCTGGAGCTGGTGCCCAAGAGCGATCGCATCGTGTTCGCGCCCGCCAACCCGAAGTACACCATCAGCGTGTTCACCGACATCGAATGCGGCTACTGCCGCAAGTTGCACAGCGAGATCGCCGAGCTGAACAAGCAGGGCATCGCGGTGGAATACCTGGCCTTCCCGCGCATGGGCCTGGGCAGTCAGGACTACAAGGACATGGTCTCGGTGTGGTGCGCGGCCGATCCGCGCCAGGCCCTGACCGACGCCAAGAAGGGCGGTGCAGTCGCCTCGCGCAGCTGCAAGAACCCGGTGACGCTGGAGTACAACCTGGGCCAGCGCCTGGGCGTCAACGGCACCCCGGCGATCTTCGGCCCCGACGGCAGCCAGCTGGGCGGGTACCTGCCGCCGGCGCAGCTGCGCGAAGCGCTGGACCGCCGCGCGGCGGCCGCGACCAGCGGCGGCAGCCGCTGA	MLRLAIAALLGALSLSACAQSAAPPAKGATATAAPAGSAEQKVRAALSSLEPDFKPDYIGAAPFPGFREVVVGGQVLYVSDDGRYLMQSQPFDIQAKQFAASEGLLAYRRKQLELVPKSDRIVFAPANPKYTISVFTDIECGYCRKLHSEIAELNKQGIAVEYLAFPRMGLGSQDYKDMVSVWCAADPRQALTDAKKGGAVASRSCKNPVTLEYNLGQRLGVNGTPAIFGPDGSQLGGYLPPAQLREALDRRAAAATSGGSR	PGPT0030050_391	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_TRANSFER_PILUS_ASSEMBLY_PROTEIN,PGPT0030050-dsbC-K03981	NA	NA
BMS020_06592	3882	purL_2	COG0046	Phosphoribosylformylglycinamidine synthase	ATGATCGTCCTTGAGGGCGCCGCTGCCCTGTCGCCGTTCCGTCGCGCTCGGCTCGAAGCCCGCCTGCAGTCCGTCGCCCCCGCCGTGCGTATCGCCGGCGCCTGGCATCTCTATTTCGTCGATCCCGAGGCCGGGCAGCTGCCCGACCAGGCGACCCTGCGGCGCATCCTGCAGGTCGACGGTGAGCCGGTGGTGCCCGAGGACGACGCCCAGTCGCGCTTCGTGGTGCCACGCCTGGGCACGCTGTCACCGTGGTCGAGCAAGGCCACCGAACTGGTGCGCGGCGCCGGCCTGCCGATCAAGCGGGTCGAGCGCGGCATGCGCATCGACCTGCTCGGCTGGCCGACCGACGCGGCCCAGCAGGCCGCGGTCGCCAAGCTGTTGCACGACCCGATGACCCAGTCGCTGCTGGCCGCCGCCGACGAGGCGCAGGCGCTGTTCACCGCGCTGCCACGCGGCAGCCTGGAACGCATCGCGCTGGACGGGCTGGAGGAGGCCAACCGCCGTCTCGGCCTGGCCCTGGCGCAGGACGAGATCGACTACCTGCGCCAGCGCTTCGGCGAACTCGGCCGCGACCCGGCCGACGTCGAGCTGATGATGTTCGCGCAGGCCAACTCCGAGCACTGCCGGCACAAGATCTTCAACGCCAGCTGGACCATCGACGGCAAGGATCAGGACCGCTCGCTGTTCCGGATGATCAAGCACACCCACGCGCAGACGCCGCAGCACACGCTCAGCGCGTACAGCGACAACGCGGCGGTGATCGAAGGCCACCTGGCCGCGCGCTACCGGCCGGACCCGGCCAGCGGCCGCTACCGCGCCGAAACCGCGGTGCCGAGCGCGTTCCAGATCAAGGTCGAGACCCACAACCACCCGACCGCGATCGCGCCGTTCCCGGGCGCGTCCACTGGTGCCGGCGGCGAGATCCGCGACGAAGGCGCGACCGGCCGTGGCGGCAAGCCCAAGGCTGGCCTGACCGGCTTCTCGGTCTCGCACCTGCGCATCCCGACGCTGCCGCAGCCATGGGAAGCGCCGCGCGCGCTGAACCCGCGCATGGCGCCGGCGCTGGAGATCATGCTCGACGGCCCGCTCGGCGGTGCCGCGTTCAACAACGAATTCGGCCGCCCGAACCTGCTCGGCTACTTCCGCAGCTTCGAGCTGCCCGAAGACGGCATCACCCGTGCCTACGACAAGCCGATCATGCTGGCCGGCGGCCTTGGCGCGATCGATCGCGTGCAGGTCGACAAGATCAAGCTGCAGGCGGGCGATGCGGTGATCGTGCTCGGCGGCCCGGCGATGTTGATCGGCCTGGGCGGCGGCGCGGCCAGTTCGGTGGCCTCCGGCGAGAGCGCCGAGGACCTGGATTTCGCCAGCGTGCAGCGCGACAACCCGGAGATGGAGCGGCGCTGCCAGGAGGTCATCGACCGCTGCGTGGCGCTGGGCGCGGACAATCCGATCCAGTTCTTCCACGACGTCGGTGCCGGTGGCCTGTCCAACGCGATCCCCGAGCTGCTGCACGATTCCGGCGTCGGCGGGGTGATCGACCTCGGCAAGGTGCCGACCGACGATCCGTCGCTGTCGCCGCTGGAGCTGTGGTGCAACGAATCGCAGGAGCGCTACGTGCTCGGCGTGCCGGCCGCGCGCCTGCAGGAATTCGCCGACATCTGCGCCCGCGAGCGCTGCCCGTTCGCCGCGGTCGGCGTCGCCACCGCCGAGGAGCGGCTGGTGGTCGCCTATGGCGCGATCCCAGGCCACATCCCGGCCGACGCGCCCATTGATCTGCCGATGGACGTGCTGTTCGGCAAGCCGCCGAAGATGCACCGCGATGCGGCGCATCCGGCCGCACCGCGTTGGCCGGTGCTCGACACCGGTGCGCTGGATCTGCACCAGGCCGGCCTGCGCGTGCTCGCGCACCCGACCGTCGCCTCCAAGAGCTTCCTGGTCACGATCGGCGACCGCAGCGTCGGCGGCCTGACCGCGCGCGAGCAGATGATCGGCCCGTGGCAGCTGCCGATGGCCGATTGCGCGATCACCCTGGCCGGGTTCGACACCTTCGCCGGCGAAGCGATGGCGATCGGCGAGCGCACCCCGCTGGCGCTGCTGGATTCGGCCGCCGCCGCGCGCATGGCGGTCGGTGAGGCGATCACCAACCTGTGCGCCGCGCCGGTCGATGCACTGGACACGGTCAAGCTGTCGGCCAACTGGATGGCCGCGTGCGGCCACCCGGGCGAGGACGCGCTGCTGTTCGACGCGGTCAAGGCGGTCGGCATGGAGCTGTGCCCGGCGCTGGACATCAGCATCCCGGTCGGCAAGGACTCGCTGTCGATGCAGGCGCAGTGGCAGGCCGATGGCGCCGCGCACAAGTCGGTGTCGCCGGTGTCGCTGGTGATCTCGGCGTTCGCGCCGGTCGCCGATGCGCGCACCCAGCTGACCCCGCTGCTTGCGCGCGATGAGGACAGCGAGCTGTGGTTGATCGGCCTGGGCGCCGGCAAGCAGCGCCTGGGCGGTTCGGTGCTGGCGCAGGTGCATGCTGGCGACGAGGCGCTGCCGGCGTTCGGTGGCGACGTGCCGGACCTGGACGACCCCGAGCGCCTGCGCGGCTTCTTCGAGCTGATCCGTGATGCGCGCGAGGCCGGCCTGCTGCTGGCCTACCACGACCGCAGCGACGGCGGCGCGTTCGCCGCGCTGTGCGAGATGGCGTTCGCCTCACGCCAGGGTCTGGACATCGTGCTCGATGCCTGGGGCGATGATCCGTTCCACAGCCTGTTCAATGAGGAACTCGGCGCGGTCGTGCAGATCGCCGCCGAGGACCGCGCCGCGTTCGCCGACCTGGTCGAGCGCCATGCGCTGACCGAGTGCGCGCAGCGCATCGCGCGTCCGAGCAACACGCCGCGCATCCGCGTCGGCAGCGCCGGGCGCACCTTGGTGGAATGGCGCTGGGACGAGCTGTTCGACGCCTGGTGGTCGGTCACCCATGCGATGCAGGCGTTGCGCGACAACCCCGACAGCGCCGCCGAGGAGCGCGCGCTCGCGCGCGATTTCGCCGCCCCGGGGCTGAAGCCGAAGCTGGTGTTCGACCCGGCCGAGGACGTGGCCGCGCCGTTCATCGCCAGCGGCCAACGGCCGAAGGTGGCGATCCTGCGCGAGCAGGGCGTCAACGGCCAGATCGAGATGGCCAACGTGTTCGAGCGTGCCGGCTTCGACAGCTTTGATGTGCACATGAGCGACCTGATCGCCGGCCGCGTCGATCTGGCCGGGTTCCGCGGCCTGGCCGCCTGTGGTGGCTTCAGCTACGGCGACGTGCTCGGCGCCGGCCGCGGCTGGGCGACCTCGATCCTGGAGCGCAGCGCGTTGCGTGATGCGTTCGCGGCGTTCTTCGCCCGCCCGGATACGTTCGCGCTCGGCGTCTGCAATGGTTGCCAGATGCTCAGCCAGCTCAAGGACATCATCCCGGGCGCCGAGCACTGGCCGCGCTTCCTGCGCAACCGCAGCGAGCAGTTCGAAGCGCGTACCGCGCTGTTGGAAGTGGTGGAGTCGCCGTCGATCTTCCTGCGTGGCATGGCCGGTTCGCGCATTCCGGTCGCGGTCGCGCACGGCGAAGGGCGGGCCGAGTTCGGCAGTGCGGTCGACCAGGCTGCCGCGCGCGTGGCGTTGCGCTATGTCGATGGCGATGGTGCAGTGGCCACGCAGTACCCGCTGAACCCGAACGGCTCGCCGGACGGCATCACCGGGCTGACCACGACCGATGGCCGCGTCACCATCCTGATGCCGCACCCGGAGCGCACCCCGCGCAGCCTCAACCTGAGCTGGGCGCCGGCGGGCTGGGGCGAGTCTTCGCCGTGGCTGCGGATGTTCCGCAATGCCCGGGTCTGGTGCGGCTGA	MIVLEGAAALSPFRRARLEARLQSVAPAVRIAGAWHLYFVDPEAGQLPDQATLRRILQVDGEPVVPEDDAQSRFVVPRLGTLSPWSSKATELVRGAGLPIKRVERGMRIDLLGWPTDAAQQAAVAKLLHDPMTQSLLAAADEAQALFTALPRGSLERIALDGLEEANRRLGLALAQDEIDYLRQRFGELGRDPADVELMMFAQANSEHCRHKIFNASWTIDGKDQDRSLFRMIKHTHAQTPQHTLSAYSDNAAVIEGHLAARYRPDPASGRYRAETAVPSAFQIKVETHNHPTAIAPFPGASTGAGGEIRDEGATGRGGKPKAGLTGFSVSHLRIPTLPQPWEAPRALNPRMAPALEIMLDGPLGGAAFNNEFGRPNLLGYFRSFELPEDGITRAYDKPIMLAGGLGAIDRVQVDKIKLQAGDAVIVLGGPAMLIGLGGGAASSVASGESAEDLDFASVQRDNPEMERRCQEVIDRCVALGADNPIQFFHDVGAGGLSNAIPELLHDSGVGGVIDLGKVPTDDPSLSPLELWCNESQERYVLGVPAARLQEFADICARERCPFAAVGVATAEERLVVAYGAIPGHIPADAPIDLPMDVLFGKPPKMHRDAAHPAAPRWPVLDTGALDLHQAGLRVLAHPTVASKSFLVTIGDRSVGGLTAREQMIGPWQLPMADCAITLAGFDTFAGEAMAIGERTPLALLDSAAAARMAVGEAITNLCAAPVDALDTVKLSANWMAACGHPGEDALLFDAVKAVGMELCPALDISIPVGKDSLSMQAQWQADGAAHKSVSPVSLVISAFAPVADARTQLTPLLARDEDSELWLIGLGAGKQRLGGSVLAQVHAGDEALPAFGGDVPDLDDPERLRGFFELIRDAREAGLLLAYHDRSDGGAFAALCEMAFASRQGLDIVLDAWGDDPFHSLFNEELGAVVQIAAEDRAAFADLVERHALTECAQRIARPSNTPRIRVGSAGRTLVEWRWDELFDAWWSVTHAMQALRDNPDSAAEERALARDFAAPGLKPKLVFDPAEDVAAPFIASGQRPKVAILREQGVNGQIEMANVFERAGFDSFDVHMSDLIAGRVDLAGFRGLAACGGFSYGDVLGAGRGWATSILERSALRDAFAAFFARPDTFALGVCNGCQMLSQLKDIIPGAEHWPRFLRNRSEQFEARTALLEVVESPSIFLRGMAGSRIPVAVAHGEGRAEFGSAVDQAAARVALRYVDGDGAVATQYPLNPNGSPDGITGLTTTDGRVTILMPHPERTPRSLNLSWAPAGWGESSPWLRMFRNARVWCG	PGPT0021585_1882	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021585-purL-K01952	NA	NA
BMS020_06593	6720			hypothetical protein	ATGAATCGGATTTATCGCAAGGTCTGGAATACCTCGTTGGGCCTCTGGACCGTGGCCTCGGAATTCGCAACGGGGGATAGCCGCGGCGTCACCGCCAGCGCCTCCTTCGACGGCCGCCGGACGCCGCTGGCGCTGGCCGCCGCGGTCGCCCTGGCGCTCGGCGCGACAGCGGGGTTCACACCGACGGACGTGCATGCGCAATCGGTCGAGATCGGCGGCAACCGCACCTGCGTGGTGGTCGGCGCGGGGCTGGTGGACAGCTGCGTGGTCGATGGCAGCGCCAGCGCCAGCGGCGATGCCGCGGTCGCGATCGGCACCGACAGCCAGGCCAGCGGCGCGCAGAGCGTAGCGACCGGCGCCGCAGCGGTCGCCGCTGGCGACGGCGCCACCGCCAGTGGCGCGCTGAGCCAGGCGTCCGGGCTGGAAGCCACCGCGCACGGGTTCTACAGCACCGCCGACGGTGCCTACAGCACCGCGATCGGCGCCGAGAGCATCGCGCTGGGCACCAGTGCGGCGGCGTTCGGCTTCGGTGCCGAGGCGACTGCCAACTACGCCACCGCGCTCGGCGGCTACGCCAGCGCCAGCGGCTTCAACAGCACCGCGCTGGGCAACTACAGCAGCGCCAGCGCCAGCGGCGCGGTCGCCGTCGGCGGCGACGCCAGTGCGTCGGGCAGTTACAGCACCGCGGCCGGGCAGGCGGCGATCGCCAGCGGCTACAACAGTGTTGCCGTCGGCGGCGCGCTGGCCGGCTTCCTGCCGACCGAAGCCTCGGGGGATTTCTCCACCGCGATCGGCGGTGCGGCCTGGAGCCCCGGCGACAACAGCACCGCGGTGGGCAACTACAGCACCGCCTACGGCGACGACAGCGTGGCACTGGGCAGCGACAGCGTGGCCGAGGCGGCCGGCAGCGTCGCGCTCGGCCAGGGGGCCTATGCCGATCGCGCCAACAGCGTGTCGGTCGGCAGCGCCGGTGCGGAGCGGCAGATCACCAACGTGGCGGCGGGCACCGAGGACACCGATGCGGTGAACGTGGCGCAGTTGAACGCGGTCGCCGAGACCGCGGCCACCACCAGCAAGTACTTCCAGGCCAGCGGCAGCGCCGACAGCGATGCCGGCGCCTACATCGAGGGCGACAACGCGCTGGCGGCGGGCGAAGGCGCCAATGCGATCGGCACCGGCACCACGGCGCTGGGCAGTGGTGCCAACGCGCTGGCCGATGGCGCCGCGGCGGTGGGCCAGGATGCGCTGGCGACCGGCGTGAACGCGGCGGCGCTGGGCAGCGGCGCGCAGGCGCTGGGCGAGAACAGCAGCGCGGTCGGTGCCGGTGCGGTGGCGGCCGAGGTTGGCGCGACCGCGAGCGGTGCCGGCGCGCAGGCGGCCTCGACCTACACCACGGCGGTGGGCAACGAAGCGGTGGCCGGCGACAACCAGGCCACCGCGGTCGGCTTCCGCAGTGCGGCCACGGGCGTGGGCGCAACGACGCTGGGCGGTTACAGCGAAGCCAGCGGCTACCTGTCCTCGGCGCTGGGCTACGGCGCGGTGGCGTCCAACGACTACGCGACCGCGGTCGGCGTGGCGGCGGAAGCCTCGGGTGCAAGCGCGGTCGCGGTGGGCGAGTTCAGCCAGGCCAGTGGCGATGAGAGCGTGGTGGTGGGCGGATCGGCATTCGGGCTGATCTCGGCGCAGGCGACCGGCAGCGGCGCGTCGGCGTTCGGTGCCGGTGCGTGGGCGACCGGCGACTACACCACGGCGGTGGGTTGGAATTCCTACGCCGACGGCGCCAATGCCACCGCGCTGGGGCAGAGCGCGTTCGCGCTGGCCGATGACAGCATCGCGATCGGTTCGGCGGCCAATGCCGATGCGGTCGGCGCGACCACGGTCGGCGTGGATGGCTCGGCCACCGGCATCAACAGCACCGGCGTCGGCCGCCAGAGCAACGTGATTGGCGAGAACGGGGTGGCGCTGGGCTACAACAGTTTCGTGCGGCAGAGCGCGGAGAACGGTGTGGCGCTGGGTGCCAATGCCGGTGCGACCGGGGCCAATTCGGTCGCGCTCGGTGCCGGCTCGCGCACCTACGAGGCCGACACGGTCTCGGTCGGCAGCGGCAACGGCGTCGGCGGCCCGGCCACGCGCCGGATCACCAACGTCAGTGCCGGCGTCGACGCCAACGACGCGGTCAACGTGGCGCAGCTCGACGCGGTGGCGGCGGTGGCCGAAACCACCAGCAAGTACTTCCAGGCCAGCGGCAGCGCCGACAGCGACGCTGGCGCCTACATCGACGGCGACAACGCGCTGGCGGCGGGAGAAGGCGCGAACGCGATCGGCACCGGCACCACCGCGCTGGGCAGTGGTGCCAACGCGCTGGCCGATGGCGCGGCGGCGGTGGGCCAGGATGCGCTGGCGGGCGGCTTCAATGCCGCGGCCGTGGGCAGCAGCGCGCAGGCGAGCGGCGAGTACGCCACCGCACTTGGCGCCGAGAGCGAGGCCAGCGGCGAGCAGAGCACCGCGACCGGTGCGGCGGCGCTGGCCAGCGGCGACGGCAGCGTCGCCAGCGGCGCGCTGGCATTGGCCGACGGCACCGAAGCCACCGCAGTGGGCTACTACAGCACCGCCAGCGGCAGCGGCGCGACCGCGATCGGCGCGGAGAGCGTCGCCAACGGCACCACCGCCGCGGCGTTCGGCTATGCGGCCGAGGCCGGCGCCAACTACGCCACCGCGCTCGGTGGCTACGCCAGCGCCAGCGGCTTCAACAGCACCGCGCTGGGCAACTTCAGCACCGCCTCGGGCTCCGGCAGTCTGGCCGTCGGTGGCGATGCCGTCGCCAGCGGTGCCTACAGCACCGCGACCGGCCAGGGCAGCATCGCCAGCGGCACCAACAGCGTGGCGGTGGGTGGTTCGTTCGCCGGTTTCATCCCGACCGAGGCATCGGGTGCGTACTCCACCGCGGTCGGCGGTGGGGCATGGTCGCCGGGCCTCAACAGCACCGCGCTGGGCAACTTCGCCGAAGCGCAGGGCGACAACAGCGTGGCGCTCGGGGCCGATGCGATCGCCGACCGCGATGACAGCGTGTCGGTCGGCAGTGCCGGCAACGAGCGCCAGATCACCAACGTCGCTGCCGGCAGCGAGGACACCGACGCGGTGAATGTCGCGCAGTTGAACGAGGTGGCCGAGGTGGCAGCGACCACCGACAAGTACTTCAAGGCCAGCGGCAGCGACGACAGCGATGTCGGTGCCTATGTCGAGGGCGACAACGCGTTGGCGGCCGGCGAAGCCAGCAACGCGGTCGGCACCGGCGCATCGGCGCTCGGCAGCGGCGCGGTCGCCTACGCCGATGGCGCCACCGCAGTGGGCTACAACGCGCTGGCGACCGGGCAGAACAGCGCCGCGTTCGGCCAGAACGCGCAGGCCACCGGCCCGGCCGCGGTTGCGGTCGGCGGCAACGCGGTGGACGAGAACGGCGATCCGCTGATCACCAACGGCGGCGTGGCGGTGGACACCGGCGCGACCAGCGCCGGGGTCGGCGGTACCGCAGTGGGTGCCAGTGCGTCCGCCGACGGCTTCGCGGCCTCGGCCTACGGCGTCGGGGCGTACGCGTCGGGGGCGCAGGCTGCGGCGTTCGGCGCGGTCGCCAATGCCACCGGCGACTACGCCACCGCGGTGGGCACGCAGACCTCGGCCAGTGGCACCAGCAGCACCGCGCTGGGCGGTCCGGTCGACCTGATTCCGGGGCTGGGTTTCTTCGTCAGCACCTCGGCCAGTGGCGAGGCGGCGACCGCACTCGGCGCCGGTGCCGAAGCCTCGGGCGACTACAGCACCGCGACCGGTACGCTGTCTGCTGCCAGCGGCACCGAAGCGACCGCGCTGGGCTACTTCGCCTATGCGCCTGGCGAGGGCGCCAGCGCGCTCGGTGCCGAGGCCTGGGCGACCGGCGACCTGAGCACGGCGCTGGGCTTCTACAGCACCGCTGCGGGCGACAACTCGGTGGCGTTGGGTGCCAACTCGGTGGCCAGCCGCGCCAACACGGTATCGGTCGGCGATGTCGGTGCGGAGCGGCAGATCACCAACGTGGCGGCGGGCACCGAGGACACCGATGCGGTGAACGTGGCGCAGTTGAACGCGGTCGCCGAGACCGCGGCCACCACCAGCAAGTACTTCCAGGCCAGCGGCAGCGCTGACAGCGATGCCGGCGCCTACATCGAAGGCGACAACGCGCTGGCGGCCGGTGAAGGCGCCAATGCGATCGGCACCGGCACCACCGCGCTCGGCAGTGGTGCGAACGCGCTGGCCGATGGCGCCGCGGCGGTGGGCCAGGATGCGCTGGCGACCGGCGTGAACGCGGCGGCGCTGGGCAGCGGCGCGCAGGCGTTGGGCGAGAACAGCAGCGCGGTCGGTGCCGGTGCGGTGGCGGCCGAGGTTGGTGCGACCGCGAGCGGTGCCGGCGCGCAGGCGGCCTCGACCTACACCACGGCGGTGGGCAACGAAGCGGTGGCCGGCGACAACCAGGCCACCGCGGTCGGCTTCCGCAGTGCAGCCACGGGCGTGGGTTCGACCACGCTGGGCGGTTACAGCGAAGCCAGCGGCTACCTGTCCTCGGCGCTGGGCTACGGCGCGGTGGCGTCCAATGACTACGCGACTGCGGTCGGCGTGGCGGCGGAAGCCTCGGGTGCAAGCGCGGTCGCGGTGGGCGAGTTCAGCCAGGCCAGTGGCGATGAGAGCGTGGTGGTGGGCGGATCGGCGTTCGGGCTGATCTCGGCGCAGGCGACCGGCAGCGGTGCGTCGGCGTTCGGTGCCGGTGCATGGGCGACCGGCGACTACACCACGGCGGTGGGTTGGAATTCCTACGCCGACGGCGCCAATGCCACCGCGCTGGGGCAGAGCGCGTTCGCGCTGGCCGATGACAGCATCGCGATCGGCAGCGACAGCCGCGGCAGCGGTGCCGGCGCGATCGCCCTGGGCGCCGGCAGCACCGCCTCGGCGCAGGATGCGGTCGCGCTCGGCAGCGGTGCGGTCGCGAGCCAGGCCAATACCGTGTCGGTCGGCAATGGGACCGGCGTCGGTGGACCGGCCACGCGCCGGATCACCAATGTCGGCGATGCGGTCGATGCCAACGATGCGGTCAACAAGGGCCAGCTGGATGCCGTGGCGGCCACCGCGCAGGCGACCAGTGCCGGCTTCCAGGCCAGCGGTGACGCCGTCGCGACCGCCAGCGGCAGCGACAGCACCGCCGCCGGTGCCGGGGCGCGGGCCAGCGGTGCGCGCAGCACCGCGATCGGCGCCAGCAGTGCGGCCACCGCGACCGGCGCCAGCGCCTATGGCGTGGCGGCGTCGGCCACCGGCGTGAACGCCACCGCGATGGGGCGGCAGACCAACGTGATCGGCGAAAACGGCGTGGCGCTGGGCTACAACAGCTTCGTGCGGCAGAGCGCGGAGAACGGCGTGGCGGTGGGTGCCAATGCCGGTGCGACCGGGGCCAATTCGGTCGCGCTCGGCGCCGGCTCGCGCAGCTACGAGGCCGACACGGTCTCGGTCGGCAGCGGCAACGGCGTCGGCGGCCCGGCCACGCGCCGGATCGTCAACGTCAGCAGCGGCGTGCTGAGCAAGGACAGCACCGATGCGGTCAACGGCGGCCAGCTGTTCCAGTCGCTGAGCAACGTCGCCAGCTTCCTCGGCGGCGGTGCGGCGATCGGCGCGCAGGGCGTGTTCGTCGCGCCGACCTACCTGATCCAGGGCGCCAGCTACAGCAACGTCGGCGATGCGCTGACCGCACTGGACAGCAAGGTCAGCGAGCTCGATGCGCGGACCGCCGGCAGCACCGCCACCGCCTCGGCGCGGACGCTGCGCAGCGGCACGACGGCGACCACCGCCAGCGTGGTCGAGGAGTCGGCCACCGCCGAGGTCGCCAGCGTCACCGAGGCCACCACCGCGGATGCGGCCAGCAGCAGCGTCGCCAGCGTGGCCGAGACCGCCACCAGTGCGGCAACCTCGACCGCGGTCGGCAGTGCGGCGCAGGCCAACGACGTCACCGGCACCGCGATCGGCGGCAATGCCTACGCGCATGGCCCCAACGACACCGCGATCGGCAGCAACGCGCGGGTCAATGCCGACGGCAGCACCGCAGTGGGGGCCAACACCAGCATCGCCGCGGTCGCCACCAATGCGGTGGCGATGGGCGAGGGGGCCAGCGTCACTGCCGCCTCGGGTACCGCGATCGGCCAGGGCGCCAGTGCCACCGCGCAGGGCGCGGTCGCGCTGGGCCAGGGCTCGGTGGCGGACCGGGCCGATACGGTGTCGGTCGGCAGTGCCGGCAACGAGCGGCAGATCACCAACGTCGCCGCGGGCACGCAGTCCACCGATGCGGTCAACAAGGCCCAGCTCGACAGCGGTGTCGCCACCGCCAACAGCTACACCGACAACCGCATCTCGGCGATGGCCGACAGCTTCGACGTCTACAAGGGCGAGATCGACGACCGCTTCCGTCGCCAGGATCGCCGCATCGACCGCCAGGGCGCGATGAACGCGGCGATGTTGAACATGGCCACCAGCGCCGCCGGCATCCGCACCGACAACCGCGTCGGCGTCGGCGTCGGCTTCCAGAGCGGCGAATCGGCGCTGTCGGTCGGCTACCAGCGTGCGATCAGCGATCGCGCGACGGTGACCGTGGGCGGTGCGTTCAGCGGCGACGACCAGTCGGTCGGCATCGGCGCCGGCTTCGGCTGGTGA	MNRIYRKVWNTSLGLWTVASEFATGDSRGVTASASFDGRRTPLALAAAVALALGATAGFTPTDVHAQSVEIGGNRTCVVVGAGLVDSCVVDGSASASGDAAVAIGTDSQASGAQSVATGAAAVAAGDGATASGALSQASGLEATAHGFYSTADGAYSTAIGAESIALGTSAAAFGFGAEATANYATALGGYASASGFNSTALGNYSSASASGAVAVGGDASASGSYSTAAGQAAIASGYNSVAVGGALAGFLPTEASGDFSTAIGGAAWSPGDNSTAVGNYSTAYGDDSVALGSDSVAEAAGSVALGQGAYADRANSVSVGSAGAERQITNVAAGTEDTDAVNVAQLNAVAETAATTSKYFQASGSADSDAGAYIEGDNALAAGEGANAIGTGTTALGSGANALADGAAAVGQDALATGVNAAALGSGAQALGENSSAVGAGAVAAEVGATASGAGAQAASTYTTAVGNEAVAGDNQATAVGFRSAATGVGATTLGGYSEASGYLSSALGYGAVASNDYATAVGVAAEASGASAVAVGEFSQASGDESVVVGGSAFGLISAQATGSGASAFGAGAWATGDYTTAVGWNSYADGANATALGQSAFALADDSIAIGSAANADAVGATTVGVDGSATGINSTGVGRQSNVIGENGVALGYNSFVRQSAENGVALGANAGATGANSVALGAGSRTYEADTVSVGSGNGVGGPATRRITNVSAGVDANDAVNVAQLDAVAAVAETTSKYFQASGSADSDAGAYIDGDNALAAGEGANAIGTGTTALGSGANALADGAAAVGQDALAGGFNAAAVGSSAQASGEYATALGAESEASGEQSTATGAAALASGDGSVASGALALADGTEATAVGYYSTASGSGATAIGAESVANGTTAAAFGYAAEAGANYATALGGYASASGFNSTALGNFSTASGSGSLAVGGDAVASGAYSTATGQGSIASGTNSVAVGGSFAGFIPTEASGAYSTAVGGGAWSPGLNSTALGNFAEAQGDNSVALGADAIADRDDSVSVGSAGNERQITNVAAGSEDTDAVNVAQLNEVAEVAATTDKYFKASGSDDSDVGAYVEGDNALAAGEASNAVGTGASALGSGAVAYADGATAVGYNALATGQNSAAFGQNAQATGPAAVAVGGNAVDENGDPLITNGGVAVDTGATSAGVGGTAVGASASADGFAASAYGVGAYASGAQAAAFGAVANATGDYATAVGTQTSASGTSSTALGGPVDLIPGLGFFVSTSASGEAATALGAGAEASGDYSTATGTLSAASGTEATALGYFAYAPGEGASALGAEAWATGDLSTALGFYSTAAGDNSVALGANSVASRANTVSVGDVGAERQITNVAAGTEDTDAVNVAQLNAVAETAATTSKYFQASGSADSDAGAYIEGDNALAAGEGANAIGTGTTALGSGANALADGAAAVGQDALATGVNAAALGSGAQALGENSSAVGAGAVAAEVGATASGAGAQAASTYTTAVGNEAVAGDNQATAVGFRSAATGVGSTTLGGYSEASGYLSSALGYGAVASNDYATAVGVAAEASGASAVAVGEFSQASGDESVVVGGSAFGLISAQATGSGASAFGAGAWATGDYTTAVGWNSYADGANATALGQSAFALADDSIAIGSDSRGSGAGAIALGAGSTASAQDAVALGSGAVASQANTVSVGNGTGVGGPATRRITNVGDAVDANDAVNKGQLDAVAATAQATSAGFQASGDAVATASGSDSTAAGAGARASGARSTAIGASSAATATGASAYGVAASATGVNATAMGRQTNVIGENGVALGYNSFVRQSAENGVAVGANAGATGANSVALGAGSRSYEADTVSVGSGNGVGGPATRRIVNVSSGVLSKDSTDAVNGGQLFQSLSNVASFLGGGAAIGAQGVFVAPTYLIQGASYSNVGDALTALDSKVSELDARTAGSTATASARTLRSGTTATTASVVEESATAEVASVTEATTADAASSSVASVAETATSAATSTAVGSAAQANDVTGTAIGGNAYAHGPNDTAIGSNARVNADGSTAVGANTSIAAVATNAVAMGEGASVTAASGTAIGQGASATAQGAVALGQGSVADRADTVSVGSAGNERQITNVAAGTQSTDAVNKAQLDSGVATANSYTDNRISAMADSFDVYKGEIDDRFRRQDRRIDRQGAMNAAMLNMATSAAGIRTDNRVGVGVGFQSGESALSVGYQRAISDRATVTVGGAFSGDDQSVGIGAGFGW				NA	NA	NA	NA	NA
BMS020_06594	1932			hypothetical protein	ATGGCCGCAATCGAGCCTGATCCACGAAAACACGAAGAGGACTTCAACGTGATCGACAAGCAGAATTTCCGCCTCAACGCACTGGCGATGGCCGTGCTGATCGCCGCCGGCGTTCCCGCCGCGCACGCCGCTTCCGCGCAGCTGCCGGTGAAGGAGCCGGCGCAGGCCGCGCCGGCCGGCACCGATGTGGGCAGCCGCATCGTGGTCCGCTACCGCGATGGCAGCAGCGCCGCCGCCAGCGCGACGACCAAGCTGTCGGCCGTGCAGTCGGCGGTGACCCGCTCCGGCGTCGCCGGCACCACGCTGCGCGCCGGCACCGCCGCCGCGCCGAAGGCGAGCTACGTGCGCAAGCTGGGCATCGGCGCGGACCTGATCAAGTTCTCCGGCAAGCTCAGCCGTGCGCAGCTGGACAGCGTGGTGGCCGAGATCGCCGCCGATCCGTCGGTCGAATACGCGGTGGTCGATACCAAGCTGCAGCGCGCCGACGTCCGCGCCGCCACCGACGCCACCCCGCAGCTGGTGCCGAACGATCCATACTACGGCACCTACCAGTGGCACTACAGCAGCGCCACCGGTGGCATCAACGCGCCGGCCGCGTGGGACATCTCGCAGGGCGAGGGCGTGGTGGTGGCGGTGCTCGACACCGGCATCCTCTACGACCACCCGGACTTCGCCGGCACCACGATCCTGGAAGGCTACGACTTCATCTCCGACGCGGAGACCTCGCGCCGCGCGACCGACGCGCGCGTGCCCGGCGCGCTCGATTACGGCGACTGGGTAGCCAGCGACAACGAGTGCTACACCGGCTCGACCGCCGAGGAAAGCTCCTGGCACGGCACCCACGTCGCCGGCACCATCGCCGAGACCACCAACAACGGCGTCGGCATGGCCGGCGTCGCGCACAAGGCCACGGTGCTGCCGGTGCGCGTGCTCGGCAAGTGCGGCGGCTACCTGTCCGACATCGCCGACGCGATCACCTGGGCGTCCGGCGGCCACGTCGATGGCGTGCCGGACATCACAACCCCGGCCGAGGTCATCAACATGAGCCTGGGCGGCGGCAGCGCCTGCGATGCGGTGTACCAGAACGCGATCAACGGCGCGGTCTCGCGCGGCACCACGGTGGTGGTCGCGGCCGGCAACAGCGCCAGCAACGTCGCCAACTTCCGCCCGGCCAGCTGCGACAACGTGATCGCGGTCGGCGCGACCCGCATCACCGGCGGCATCACCTATTACTCCAACTACGGCGCCAAGGTCGACCTGGCCGCGCCGGGCGGCGGCGGTTCGGTGGACGGCAATCCGGGCGGCTACATCTGGCAGACCGGCTACGACGGTGCGACCACGCCGACCTCGGGCAACTACACCTACATGGGCCTGGGCGGCACCTCGATGTCTTCGCCGCATGTGGCCGCGACGGTCGCGCTGGTGCAGAGCGCGGTGGTCGCCGCCGGCGGCGATCCGCTGACCCCGGCGGCGGTGGAGACGCTGCTGAAGGAGACCGCGCGCCCGTTCCCGGTGACGATCCCGAGCGCCACGCCGATCGGCACCGGCATCGTCGATGCGAAGGCGGCGTTGGACAAGGCGCTGGAAGAACCGTGCGATCCGGCCACCGAGGTCTGCGGTCCGAGCGCCACGCCGCTGACCAACAAGGTGGCGATCGGCGGGCTGTCCGGCGCGGCCGGCAGCGAGACGCTGTACAGCTTCGCCGCCGACGCCGGCACGGTGCTGAGCTTCCTGACCTACGGCGGCACCGGCAACGTCTCGCTGTACGTCAGCTACGAGGCCGAGCCCAGCGCCAGCGACTACGATGCCAAGTCAACGCGCGGCGGCAACAGTGAAACGGTGCGCTTCAACAAGCCCAGCGCCGGCACCTACTACGTCAAGGTGGTGGGCGAGGCGGCGTACAGTGGCGTGAGCATCGTCGCGCGCCAGTAA	MAAIEPDPRKHEEDFNVIDKQNFRLNALAMAVLIAAGVPAAHAASAQLPVKEPAQAAPAGTDVGSRIVVRYRDGSSAAASATTKLSAVQSAVTRSGVAGTTLRAGTAAAPKASYVRKLGIGADLIKFSGKLSRAQLDSVVAEIAADPSVEYAVVDTKLQRADVRAATDATPQLVPNDPYYGTYQWHYSSATGGINAPAAWDISQGEGVVVAVLDTGILYDHPDFAGTTILEGYDFISDAETSRRATDARVPGALDYGDWVASDNECYTGSTAEESSWHGTHVAGTIAETTNNGVGMAGVAHKATVLPVRVLGKCGGYLSDIADAITWASGGHVDGVPDITTPAEVINMSLGGGSACDAVYQNAINGAVSRGTTVVVAAGNSASNVANFRPASCDNVIAVGATRITGGITYYSNYGAKVDLAAPGGGGSVDGNPGGYIWQTGYDGATTPTSGNYTYMGLGGTSMSSPHVAATVALVQSAVVAAGGDPLTPAAVETLLKETARPFPVTIPSATPIGTGIVDAKAALDKALEEPCDPATEVCGPSATPLTNKVAIGGLSGAAGSETLYSFAADAGTVLSFLTYGGTGNVSLYVSYEAEPSASDYDAKSTRGGNSETVRFNKPSAGTYYVKVVGEAAYSGVSIVARQ				NA	NA	NA	NA	NA
BMS020_06595	1728	xpsE	COG2804	Type II secretion system protein E	GTGAACGCGGTAGCGGCTGAGAGGATGGAAGGCGGTGACGCCGAGTCGCGCGTGGTCGAGCGGCTGGTCGAACGGCGCAGGCTCAAGGATGCGGACCTGGCGCGTGCACGGCAGTTGCAAGTCGAATCCGGCCTGGGCCTGCTGGCGTTGCTGGCGCGGCTGGGGCTGGTGTCCGAGCGCGACCACGCCGACGCCTGCGCCGAGGTGCTGGGATTGCCGCTGCTGGAGGCGCGCCAGCTGCCGGACGGCCCGCCCGAGGGGCTGCCGGAACTGCAGGCGCTGTCGCCGCGTTTCCTCAAGCAATTCCACGTCTGCCCGCTGGGCGAGCAGGGCGGCAGCATCGAGCTGTGGAGCGCCGATCCGTTCGATGCCTACGCGGCCGACGCGGTGCGCCTGGCGACCGGCTGCCGGGTGCGGTTGAAGGTCGGCCTGCGCGCCGAGATCGACGACACCATCGAGCGTTGGTACGGCCAGGGCCGCAGCGCGATGGGCACCATCGTCGAGACCGCCGATGCCGAATCGACCGCGGCCGACGACATCGAGGCGCTGCGCGACCTGGCCTCCGAGGCGCCGGTGATCCGGCTGGTCAACCTGGTGATCCAGCACGCGGTCGAGCTGCGCGCCTCGGACATCCATGTCGAGCCGTTCGAGAACCGCCTGAAGGTGCGTTACCGCGTCGACGGCGTGCTGGTCGAGGGCGAGAGCCCGCCGGCCAAGCTGACCGCGGCGGTGATCAGCCGCATCAAGATCATGGCCCGGCTCAACATCGCCGAGCGCCGCCTGCCGCAGGACGGGCGTATCCAGTTGCGGGTGCAGGGCAAGGAGCTGGACCTGCGCGTGAGCACGGTGCCGACCGCGCATGGCGAGAGCGTGGTGATGCGCCTGCTCGACCGTGAGACGGTGGTGTTCGATTTCGCCCGGCTCGGCTTCACCGACGACTTCCTGCCGCAGTTCCGCAAGGTGCTGGAGCAGCCGCACGGGATCCTGCTGGTCACCGGCCCGACCGGCTCGGGCAAGACCACCACGCTGTACACCGCGCTGAGCCAGCTCAACACCGCCGACGTCAAGATCATCACCGTCGAGGACCCGGTCGAATACCAGATCGAGGGAATCAACCAGATCCAGGCCAAGCCGCAGATCGGGCTGGACTTCGCCAATGCGCTGCGCTCGATCGTGCGCCAGGATCCGGACGTGATCATGATCGGCGAGATGCGCGATCTGGAGACCGCGCGCATCGCGATCCAGTCGGCGCTGACCGGCCACCTGGTGCTGTCGACGCTGCACACCAACAACGCCGCCGGCGGCATCACCCGCCTGCTCGACATGGGGGTGGAGGATTATCTGCTGACCTCCACCGTCAACGGCATTCTGGCCCAGCGCCTGGTGCGGCGGCTGGAGCCAGGCCATGCCGAGCGCTACGCCGCTTCGCCGGAGCAGATCGAGAAGTTCGGCCTGCGCCGGCTGCAGCCGCAGGGCGAGATCTTCCTGTACCGGCCGCGGCCGTCGGCGCTGGCACCGACCGGCTATCTCGGCCGGACCACCATCGTCGAGTTCCTGGTGATGAACGACGCGCTGCGGCGCGCGGTGATGCGCCGCGCCGGCATGGGCGAGATCGAGCAGCTGGCGCGCGAGGCCGGCATGCGCACGATGTACGAGGACGGTCTGGCCAAGGCGTTGAGCGGGCACACCACGATCGAGGAAGTGCTGCGCGTGACGGAGGAAGGGTGA	MNAVAAERMEGGDAESRVVERLVERRRLKDADLARARQLQVESGLGLLALLARLGLVSERDHADACAEVLGLPLLEARQLPDGPPEGLPELQALSPRFLKQFHVCPLGEQGGSIELWSADPFDAYAADAVRLATGCRVRLKVGLRAEIDDTIERWYGQGRSAMGTIVETADAESTAADDIEALRDLASEAPVIRLVNLVIQHAVELRASDIHVEPFENRLKVRYRVDGVLVEGESPPAKLTAAVISRIKIMARLNIAERRLPQDGRIQLRVQGKELDLRVSTVPTAHGESVVMRLLDRETVVFDFARLGFTDDFLPQFRKVLEQPHGILLVTGPTGSGKTTTLYTALSQLNTADVKIITVEDPVEYQIEGINQIQAKPQIGLDFANALRSIVRQDPDVIMIGEMRDLETARIAIQSALTGHLVLSTLHTNNAAGGITRLLDMGVEDYLLTSTVNGILAQRLVRRLEPGHAERYAASPEQIEKFGLRRLQPQGEIFLYRPRPSALAPTGYLGRTTIVEFLVMNDALRRAVMRRAGMGEIEQLAREAGMRTMYEDGLAKALSGHTTIEEVLRVTEEG	PGPT0026430_691	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026430-gspE|epsE-K02454	NA	NA
BMS020_06596	276			hypothetical protein	ATGGACAGGCATCCTTGCGTTTATCTGTTGGCGAGTGATCGCAATGGAACGTTGTACCTCGGAGTCACCAGTGACCTGGTGCGCCGGGTCTGGCAGCACAGGGAGCATGTGGCGGAAGGATTCAGCAAGCGCTATGGCGTCACCCGGCTGGTCTGGTACGAGCCGCATGTCACGATGGAGTCGGCGATCCAGCGCGAAAAGAGGATCAAGAAGTGGAGGCGTGCATGGAAGCTGCAGTTGGTCGATGTGAGCAATCCGTCCTGGAGGGATTTGTGA	MDRHPCVYLLASDRNGTLYLGVTSDLVRRVWQHREHVAEGFSKRYGVTRLVWYEPHVTMESAIQREKRIKKWRRAWKLQLVDVSNPSWRDL				NA	NA	NA	NA	NA
BMS020_06597	1260	epsF_3	COG1459	Type II secretion system protein F	ATGACGATCAAACTGCACAGCGCACCGTTTCACGAAGATTCTCCGATGCCCCTCTACCGCTACAAGGCGTTGAACAGCCACGGCGAGATGCTCGACGGCCAGATGGAGGCCGCCAGCGACGCCGAGGTGGTCGCGCGGCTGCAGGAGCAGGGGCACATGCCGGTGGAGGCGCGCCCGGCCGACGGCGCGCGCGCGCCGGTGCTGGCGACGTTGCTGCGCCGTGGCGGTTTCGACGAGGCCGCGCTGGTGCAGTTCACCCAGCAGCTGGCGACGCTGCTCGGCGCCGGCCAGCCGCTGGATCGCGCGCTGTCGATCCTGATGGACCTGCCCGACGACGCGCGCAGCCGGCGCATCATCGCCGACGTGCGTGACATCGTGCGTGGCGGCGCGCCGCTGTCGAGCGCGCTGGAACGGCAGCACGGCACGTTCTCGCGGCTGTACGTGAACATGGTGCGCGCCGGCGAGGCCGGCGGCAGCCTGCACGACACGCTGCAGCGGCTGGGCGACTACCTCGAGCGCGCGCGTGCGCTGCGCGGGCGGGTGATCAACGCGCTGGTGTATCCGGCGATCCTGCTGGTGGTGGTCGGCTGCGCGCTGCTGTTCCTGCTCGGTTACGTGGTGCCGCAGTTCGCGCAGATGTACGAGAGCCTGGACGTGGCGCTGCCATGGTTCACCCAGGCGGTGCTGTCGCTGGGCCTGTTCGTGCGCAGCTGGTGGATCGTGCTGGTGGTGGTGCCGGGCGTGGGGCTGCTGGTGCTGGAACGCAAGCGGCGCCAGCCGCGCTTCCGCCTGGCACTGGATGCCTGGCTGCTGCGCCAGCGCCTGGTCGGGCCGCTGTTGGCGCGGCTGGAGACCGCGCGGCTGGCGCGCACGCTCGGCACCTTGCTGCGCAATGGCGTGCCGCTGCTGGCCGGGCTCGGCATCGCCCGCAACGTGCTGTCCAACCAGGCGATGACTGAGGACGTCGGCGCTGCCGCCGAAGAGGTGAAGAACGGTCGCGGGCTGTCGGCGGCGCTGGCGCGCGGGGAACGCTTCCCGCGGCTGGCGCTGCAGATGATCCAGGTCGGCGAGGAGTCCGGCGCGCTCGATACGATGCTGCTGCGCACCGCCGACACCTTCGAGCAGGAGGCGGCGCAGGCGATCGATCGGCTGCTGGCGGCGCTGGTGCCGGCGCTGACGCTGGTGCTGGCCTCGGTGGTCGGGGTGGTGATCGTCTCGGTGCTGGTGCCGCTGTACGACCTGACCAATGCGATCGGCTGA	MTIKLHSAPFHEDSPMPLYRYKALNSHGEMLDGQMEAASDAEVVARLQEQGHMPVEARPADGARAPVLATLLRRGGFDEAALVQFTQQLATLLGAGQPLDRALSILMDLPDDARSRRIIADVRDIVRGGAPLSSALERQHGTFSRLYVNMVRAGEAGGSLHDTLQRLGDYLERARALRGRVINALVYPAILLVVVGCALLFLLGYVVPQFAQMYESLDVALPWFTQAVLSLGLFVRSWWIVLVVVPGVGLLVLERKRRQPRFRLALDAWLLRQRLVGPLLARLETARLARTLGTLLRNGVPLLAGLGIARNVLSNQAMTEDVGAAAEEVKNGRGLSAALARGERFPRLALQMIQVGEESGALDTMLLRTADTFEQEAAQAIDRLLAALVPALTLVLASVVGVVIVSVLVPLYDLTNAIG	PGPT0026435_931	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026435-gspF|epsF-K02455	NA	NA
BMS020_06598	435	xcpT	COG2165	Type II secretion system protein G	ATGACCAACCGACGTTCCCCGATCCGCGTTTCGTTCGCCGCCCGCCAGTCCGGCATGAGCCTGCTGGAGATCATCATCGTGATCGTGCTGATCGGCGCGGTGCTGACCCTGGTCGGCAGTCGTGTGCTCGGTGGCGCCGACCGCGGCAAGGCCAATCTGGCCAAGTCGCAGATCCAGACGCTGGCTGGCAAGGTCGAGAACTTCCAGCTCGACACCGGCAAGCTGCCGAGCAAGCTCGATGAGCTGGTCACCCAGCCGGCCGGCAGCAGCGGCTGGCTCGGTCCGTACGCCAAGCCGGCCGAACTGAACGACCCGTGGGGGCACCCGATCGAATACCGCGTGCCGGGCGAGGGCCAGCCGTTCGCGCTGCAGAGCCTGGGCAAGGACGGCCGCCCCGGCGGCAGCAGCTACGACGCCGACATCAAGTACGAATAA	MTNRRSPIRVSFAARQSGMSLLEIIIVIVLIGAVLTLVGSRVLGGADRGKANLAKSQIQTLAGKVENFQLDTGKLPSKLDELVTQPAGSSGWLGPYAKPAELNDPWGHPIEYRVPGEGQPFALQSLGKDGRPGGSSYDADIKYE	PGPT0026440_1637	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026440-gspG|epsG-K02456	NA	NA
BMS020_06599	477			hypothetical protein	ATGCGGCCCTTCGTCCACGCGCCGCCGCGCATGCGCGGCGTGTCCCTGCTGGAGATGCTGCTGGTGGTGGCGCTGATCGCCATCGCCGGCCTGCTCGCCGCCGCCGCGCTGACCGGCGGGGTGGAGGGCATGCGCCTGCGTTCGGCCGGCAAGCAGCTGGCCGCGCAGCTGCGCTATACCCGCACCCAGGCGCTGGCCAGCGGCAGCATCCAGCGCTTCACCCTCGATCCGGTGACGCGGCGCTGGCAGGCCGCCTCCGGCCACCACGGCGAACTGCCGCCCGGGCTGGAGCTGCGCTTCAGCGGCGCGCGCCAGCTGCAGGCGCGGCCGGGCGAAGGCGCGATCGCGTTCTTTCCCGATGGCGGCGCCAGTGGCGGCCGGATCGAACTGCAGGCGCGCGCGGCGGTGTGGCGCATCGACGTGGCCTGGGTCACCGGCGAGGTGTCCTCCGGCCCGCTGCGGGCGCAGGCGCGATGA	MRPFVHAPPRMRGVSLLEMLLVVALIAIAGLLAAAALTGGVEGMRLRSAGKQLAAQLRYTRTQALASGSIQRFTLDPVTRRWQAASGHHGELPPGLELRFSGARQLQARPGEGAIAFFPDGGASGGRIELQARAAVWRIDVAWVTGEVSSGPLRAQAR	PGPT0026445_595	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026445-gspH|xcpU|epsH-K02457	NA	NA
BMS020_06600	420			hypothetical protein	ATGAAGCGCCAGCGCGGCTATTCGCTGATCGAGGTGATCGTGGCGTTCGCGCTGCTGGCGCTGGCGCTGACACTGTTGCTGGGCACGTTGTCGGGTGCGGCGCGGCAGGTGCGCGCCAGCCAGCTGCAGACGCTGGCATCGCTGCATGCGCAGTCGCTGCTGGCCGCGCAGGGCGTGGAGACGCCGCTGCAGCCCGGCACGCGCAGCGGCGTGTTCGAGGACGGCCGCCTGCACTGGCAACTGGACGTGGCGCCGTTCGTCGACCCGCGCCCGCGTCCGCCGACGGCCGGCGTGCAGACGCGCGAGGCCGGCCCGGTGCTGTTGCAGCTGCAGTTGCAGGTGCGCTGGGGCGAAGGCGTCGGCGAGCAGCTGCGCTGGCGCACGCTGCGGCTGGTGACGCCGGCGGAGGGCGGGCGATGA	MKRQRGYSLIEVIVAFALLALALTLLLGTLSGAARQVRASQLQTLASLHAQSLLAAQGVETPLQPGTRSGVFEDGRLHWQLDVAPFVDPRPRPPTAGVQTREAGPVLLQLQLQVRWGEGVGEQLRWRTLRLVTPAEGGR	PGPT0026450_346	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026450-gspI|epsI-K02458	NA	NA
BMS020_06601	639			hypothetical protein	ATGAAGGCCAGTGCGCGGGCACGCGGGTTCACCCTGATCGAGGTGCTGCTGGCGACGGTGCTGCTGGCTGGCGGGCTGGTGCTGGCGTTCGCCACGCTGCGTTCGGCCGGCGCGGTCAGCCAGCGCGGCGAGGACATCGCCCGCCGCAGCGAGCGGGTGCGCGCGGTCGAGGGGTTCCTGCGCCAGCGCCTGGCCGATGCGCTGGCGGTGTCGATGGGCCAGGACCAGGAACGCGGCGAGCCGCAGCGCTTCATCGGCGAGCCGCAGCGCATGCGCTTCGTCGCCGACGTGCCGGACTACCTCGGTCGCGGCGGCCCGTACCTGCACGACGTGCAGGTACAGGGCAGCGGCGAGCGGCGCCGCCTGCAGCTTGGGCTGGCGATGGTGCAGGCCGGCGAGGTGATCGCCGACGGCGCGCCGGTGCCGCCGGAGACGCTGGCCGACGAGCTGGTCGAGGTGACGTTCGCCTATCGCGGCATCGATCCGGAGAGCGGCGCGCTCGGCGACTGGAGCGAGCGCTGGCCGTGGCCCGAGCGCCTGCCGGTGCTGGTGCGCATCGAGCTGCGCGACGCCGGCGGACGTTGGCCGCCGGTGGTGGTAGCGCTACCGCAGGCCGCCGCGGCCGGGGCACGCACGTGA	MKASARARGFTLIEVLLATVLLAGGLVLAFATLRSAGAVSQRGEDIARRSERVRAVEGFLRQRLADALAVSMGQDQERGEPQRFIGEPQRMRFVADVPDYLGRGGPYLHDVQVQGSGERRRLQLGLAMVQAGEVIADGAPVPPETLADELVEVTFAYRGIDPESGALGDWSERWPWPERLPVLVRIELRDAGGRWPPVVVALPQAAAAGART	PGPT0026455_776	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026455-gspJ|epsJ-K02459	NA	NA
BMS020_06602	858			hypothetical protein	GTGAGGCGGCCGGCGGCAGGCGCCGCGCTGGTGCTGGTGCTGTGGCTGATCGCGCTGCTGACCGCGATGGTCGGTGCGTTCGCGTTGAACGCGCGGGTCGAGGCGCTGCAGGGCGGCGTGCTGCGGGGCAGCGCGCAGGCGCGCGAGGTCGCCCGGGCCGGACTGGAATACGCGCTGTCGCGGCTGCAGGGCGGCGATCCCGGTGCGCGCTGGCGCGCCGACGGGCGCCGCTACCGCTGGCGTTTCGACGACGCGCAGGTCGACGTACGCATCGTCGACGAGACCGGCAAGGTCGACCTGAACCTGGCCGATGCGACACTGCTGGCCGGCCTGCTGCGTGCGCTCGGCGCCGCGCCGGGGCAGGACGCGCGCCTGGCCGCGGCGATCATCGACTGGCGCGACCGCGACGACCTGGCGCAGCCGGCCGGCGGCGCCGAGGATCCCGATTACGCCGCCGCGGGGCTGCCATACGGGGCCAAGGATGCACCGTTCGAAAGCATCGGCGAGTTGCGCCTGCTGCTGGAGATGCCGCCGGCGCTGTACCAGGCGTTGCTGCCGAACGTGACCGTGTACGGCCAGCGTGCGCGCCCGTCCACCACGCATGCGCCGGCGCCCGTGCTGGCGGCGATGGGACTGGATGCCGATGCGCTGGTGGCCGCGCGCGAGGCGCCCGATCCGGCTGGCGCGGCGCTGCAGGCAAGCGCCGGACAGAGCGGCACCTATAGTATTGAGAGCCGGGCACGCCTGGACGATGGACGCGAGGCGCTGCTGCAGGCCGTGGTACGCACCGGTGCGTCGCCGTTGCCAGGGGCGGCCTATACCGTGGTGCGATGGAACGAGGGAGCGGCGGTGCGATGA	MRRPAAGAALVLVLWLIALLTAMVGAFALNARVEALQGGVLRGSAQAREVARAGLEYALSRLQGGDPGARWRADGRRYRWRFDDAQVDVRIVDETGKVDLNLADATLLAGLLRALGAAPGQDARLAAAIIDWRDRDDLAQPAGGAEDPDYAAAGLPYGAKDAPFESIGELRLLLEMPPALYQALLPNVTVYGQRARPSTTHAPAPVLAAMGLDADALVAAREAPDPAGAALQASAGQSGTYSIESRARLDDGREALLQAVVRTGASPLPGAAYTVVRWNEGAAVR	PGPT0026460_1352	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026460-gspK|epsK-K02460	NA	NA
BMS020_06603	1119			hypothetical protein	ATGAGCGCATGGAGGGACAGTCTGGAGCGGCTTGGCGCGGGCGGTGTGCCCGGCGTCGCCGGTCTCTGGCGCTGGTGGACGCAGGCCCTGCTGGGCTGGGTGCCGCGGCGCTGGCGTAGCCAGCTGGGGCTGGAGCGTCAGGGGGTGCTGCTGGCGCGCGCCGACGATGGGCTGCAGGTGCTGCGGATGCAGGGCGGGCAGACCGAGCCGCTGTGCACGCTGCCGTGGCCGTCCAGCCCGGACGAACTGAACCAGGTGCTGGCCACGCCGCTGCGCGGCCTGCCGCGGATCTGGCTGCTGCCGGCCGCGCAGGTGCTGCGGCGTGCGCTGCGGCTGCCGGCGGCGGCGAGCGCGCGGCTGCACGACGTGGCCCGCTTCGAGATCGACCGGCAGACCCCGTTCGCCGCCGACCAGGTGTATTTCGATGCCCGTCTGCTGGGCGCGCGCGGCGAGGCCCAGGTCGACGCCGAGCTGCTGGTCGCGCCGCGCCGGCTGGTCGACGGCGAGGCCGGCGTGCCCGAGCCGTGGCGGCATGCGCTGGCCGGTGTCGACGTCGCCGGCGCCGATGGCCAGCCACTGCAGGTCAACCTGCTACCGGCGGCGCAGCGCCACCGCCGCGGCGATCCGCTGCGGGCCTGGAACCGGCTGCTGGCATTGGCCGCGCTGCTGTTGCTGGCCACCACCGGCTGGCTGCTGCTGGACAACCGTCGCGCCGCCGCCGACGCGCTGCAGGCCGAGGTGCAGGCGCGCGCCGCGCGCGCCCGCGCGGTGGCCGCCGAACGCCAGCAGCTGGCCGACCTGGTCGATGGCGCGCGCTTCTTCGACCAGCAGCGCGCCGCGCGCCCGACCGCGGTCGAGGTCTGGGACGAACTGACCCGGCGCCTGCCCGATGGCACCTACCTGGAGAAATTCTCGATGGAGGGCTCGCAGCTGCAGCTGATCGGGCTCAGCAGCGAGGCCTCGGCGCTGGTGCGGCGGCTGGAAGGCTCGGTGCTGTGGCGCACGCCGTCGTTGACCGGCGTGCTGCAGAGCGATGCCGGGCGCGGCATCGACCGCTTCACCATCACCGCCGAACTGGCCGGTGCGACGCAGCCAGGAGCGGCCGATGGCGCGCATTGA	MSAWRDSLERLGAGGVPGVAGLWRWWTQALLGWVPRRWRSQLGLERQGVLLARADDGLQVLRMQGGQTEPLCTLPWPSSPDELNQVLATPLRGLPRIWLLPAAQVLRRALRLPAAASARLHDVARFEIDRQTPFAADQVYFDARLLGARGEAQVDAELLVAPRRLVDGEAGVPEPWRHALAGVDVAGADGQPLQVNLLPAAQRHRRGDPLRAWNRLLALAALLLLATTGWLLLDNRRAAADALQAEVQARAARARAVAAERQQLADLVDGARFFDQQRAARPTAVEVWDELTRRLPDGTYLEKFSMEGSQLQLIGLSSEASALVRRLEGSVLWRTPSLTGVLQSDAGRGIDRFTITAELAGATQPGAADGAH	PGPT0026465_1078	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026465-gspL|epsL-K02461	NA	NA
BMS020_06604	606			hypothetical protein	ATGGCGCGCATTGACCGCGACCGCTGGATCGCCCTCGGCGTGCTGCTGGCGGTGCTGGCACTGGCCTACCTGCTGCTGGTGCACCCGTGGTTCACCCAGCCGCTGCGCGATGTCGAACAGCGCATCGACAGCCTGCGCGCACGCGACCAGCGCGTGCGTGCGCAGCTGGCGCAGGCGCCGGAGGTGGCCAAGCGGCTGGCGCAGGCACGCGCCACGCTGCAGGCGCGGCCGGGCTTCCTGCCCGAGGCGTCGGCCGAACTGGCCTCGGCCGGGCTGGTGCAGCGGCTCGAGCAGGCGGTGGTCGCCGCCAGCCCGGGCAACCGCAGCTGCGCGATCAGCAACCGCTCGCCGTTGCCGGTGGACGCGCGCGAGCGCTTCGTGCGCGTCGCGGTGCAGGTGCGCCTGCGCTGCGGCACGCCCGAGCTGGCCGCGGTGCTGCATACGCTGGAGCGCGGCACGCCGCGACTGTTCGTCGGCAACCTCAACGTGATGGCGCAGCGCTACCAGCTGTCGCCGAATGAAAGCGGCACCGGGCTGGACGTGGCGTTCGAGCTGTCCGGCTATCTGCGGCCGCTGGCCGCCGCGGGAGGTCCGGATGCGCATTGA	MARIDRDRWIALGVLLAVLALAYLLLVHPWFTQPLRDVEQRIDSLRARDQRVRAQLAQAPEVAKRLAQARATLQARPGFLPEASAELASAGLVQRLEQAVVAASPGNRSCAISNRSPLPVDARERFVRVAVQVRLRCGTPELAAVLHTLERGTPRLFVGNLNVMAQRYQLSPNESGTGLDVAFELSGYLRPLAAAGGPDAH	PGPT0026470_38	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026470-gspM|epsM-K02462	NA	NA
BMS020_06605	702	xpsN		General secretion pathway protein N	ATGCGCATTGACGCCATCGGCCTGCGGACCTGGCTGCTGCTGGCCTGCGCCGGTTGGGCCGCGCTGGCCTGCGCGCTCGCCGCGGCCGGCATGGGCAGTCGCATCGACGCCGACGCGCGGGCCGAGGACGCCTTGCCACCGTTGCCGGCGTTGCCGCCGGCGGCCAGTGATCGCCTCGGCGATGCCGACCGCTATGCCGGCATCGCCGCGCGCCCGGTGTTCGCCCAGGACCGCCAGCCGCATCCATTCTTCCTGTCCGGCGGCGGCGAGACCGCGGCCGGCGGGCTGCGCCTGACCGGCGTGCTGATCACCCCGCAGCTGCGCATGGCCACGCTGACCACCGGCGATGGCGCCTCGCTGCGGCTGCGCCTGCAGGGCGAGGCGGTCGGCGGCTGGCGGCTGCTGGCGCTGGAGCCGCGCAAGGCCACGCTGCAAGGTCCGGGCGGTGCGCGCACGCTGGAACTGCAGGTATTCAGTGGTGCGGCCACGCCGCCCGCCGCAACCACGCCCGCCGCGCAGGGGGCGGCGGCACCGCCCGCCAGCACTGCGCCGCCAGCGGCGGCCACGCAGGCCGCTTCCACCGAGGCGCCGCCGCGCCCGTCCGACGAGCAGTTGAAAGCCATCCGCGAACGCATCGAAGCCCGTCGCCGCGAATTGCGCGAACGCCAGCAGAACGGCGCCGCGTCCGGCAAGCAACCGTAG	MRIDAIGLRTWLLLACAGWAALACALAAAGMGSRIDADARAEDALPPLPALPPAASDRLGDADRYAGIAARPVFAQDRQPHPFFLSGGGETAAGGLRLTGVLITPQLRMATLTTGDGASLRLRLQGEAVGGWRLLALEPRKATLQGPGGARTLELQVFSGAATPPAATTPAAQGAAAPPASTAPPAAATQAASTEAPPRPSDEQLKAIRERIEARRRELRERQQNGAASGKQP	PGPT0026475_162	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026475-gspN|epsN-K02463	NA	NA
BMS020_06606	2229	xpsD	COG1450	Secretin XpsD	ATGACGCCACGCCTTGTCCCGTTGTCCCTGTTGCTCGGCCTGCTGGCCGCCTGTGCCAGCACGCCCGCCCCCGACGTGCGCCGCCCCGCGGTCGCGCCCACCGCGACCGGCCAGGCCGGTGTGCAGACCGCGCCGCTGAGCAGCGAAACCCCGCCGGAGCTGGCCGGCACCCAGCCGGTGATCCGCCGCGGCAGCGGCACCGTGATCAATCGCAGCGCGGCCGCGGCGCCGGCGCCGGCGCTGGGCATGGCCGGCGACGGCAGCGCCACCTTCAACTTCGAGGGTGAATCGTTGCCGGCGGTGGTTAAGGCGATCCTGGGCGACATGCTCGGGCAGAACTACGTGATCGCGCCGGGCGTGCAGGGCACGGTCACCCTGGCCACGCCCAAGCCGGTGTCGCCGGCGCAGGCGCTGAACCTGCTGGAGATGGTGCTGGGCTGGAACAACGCGCGCATGGTCTACAGCGGCGGCCGCTACAACATCGTGCCGGCCGACCAGGCGCTGGCCGGTACCGTCGCGCCGAGCACCGCCCCGGCCAGCGCCGCGCGCGGCTTCGAGGTGCGGGTGGTGCCGCTGCGCTTCATCTCCGCCAGCGAGATGAAGAAGGTGCTGGAACCGTACGCGCGGCCGAACGCGATCATCGGCGTGGACAGCGCCCGCAACGTGATCACCCTCGGCGGCACCCGCACCGAACTGGAGAACTACCTGCGCACCGTCGACATCTTCGACGTCGACTGGCTGTCGGGGATGTCGGTGGGCGTGTTCCCGCTGGAATCGGGCAAGGCCGAGCAGGTCGCCTCGGACCTGGAGAAGGTGTTCGGCGAGAACAGCAAGACGCCCAGCGCCGGCATGTTCCGTTTCATGCCGCTGGAAAACGCCAACGCGGTGCTGGTGATCACCCCGCAGGCGCGCTACCTCGACCAGATCCAGGAATGGCTGGACCGCATCGACAGCGCCGGTGGCAGCGCCCGGCTGTTCTCCTACGAGTTGAAATACATCAAGGCGCGCGAACTGGCGCAGCAGCTGGCCGAGGTGTTCGGCAGCAGCGGCGGCAGTGCCGGCGGCGGCAGTTCGCTGGCGCCGGGTGGCGTGGCCAGCCAGCTGCAGTCGAGCCTCAGCGACGACAGCGACAGCATGCTCGGCGGTAGCGACGGCAGCGCGCGTGGTGGCAGCAGCGACAGCAGCACGCTGGGCTCGTCCAGCAGCAGTCTCGGCAGTTCCTCCAGCAGCGGTGGCGCCACCAGCGGCAAAGGCATGCAGCTGCCGCAGCGCCAGTCCGGCAATGCCTCGGTGACGCTGCAGGTGCAGGGCAGCGATGTCGGCGTGTCGGCGGTGGAGGAGACCAACACGCTGCTGGTGCGCGCCGCGCCTCAGGCGTGGAAATCGATCCGCGAGGTGATCGACAAGCTCGACGTGATGCCGCTGCAGGTGCACATCGAGGCCCAGGTGGCGGAAGTGTCGCTGACCGGCGACCTCAAGTACGGCGTGAACTGGTACTTCGAGAACGCGGTCACCGACGCCGGCCTGCCCAGCGCGCTCGGTCGCGGGATCTGGGGCGACATCGCCGGCAGCATCCTGCCCGGCGCCAGCGACGGCACCGGCGGGTTGAGCTGGACCTTCCTCGGCAAGAACGCCGCGGCGGTGATCAGCGCGCTGGACACCGTCTCCGACGTGCGCCTGCTGCAGACCCCGTCGATCTTCGTGCGCAACAACGCGATGGCCACGCTCAATGTCGGCAGCCGCATCCCGATCTATTCGGTCTCGGTGTCGGGCATCAGCGACAACCAGTATTCCAGCGTGCAGTACCTGGAGACCGGCACGATCCTGAAGGTGCGCCCGCGCGTGACCAAGGACGGCATGGTGTTCCTGGACATCGTGCAGGAAGTCAGCGCGCCTGAAGGCGACGCCGACGACAACGGCAATGTGCGCATCAACACCCGCAAGATGCAGACCGAGGCGGCGGTGCGTGCCGGCGACACGGTGATGCTGGCCGGGTTGATCGACGATTCCACCACCACCGGCTCGTCCGGCGTGCCGTTCCTGAGCCGGCTGCCGGTGGTCGGCGCGCTGTTCGGGCAGAAGACCCAGGCCAAGCGCCGCAACGAGGTGATCGTGCTGATCACCCCGACGATCGTCCGCAATCCGCAGGAAGCGCGCGACCTGACCGACGAATACGGTCGCAAGTTCAAGGCGATGGAACCGCTGCACGGCCCCAGCTCGCCGCGATGA	MTPRLVPLSLLLGLLAACASTPAPDVRRPAVAPTATGQAGVQTAPLSSETPPELAGTQPVIRRGSGTVINRSAAAAPAPALGMAGDGSATFNFEGESLPAVVKAILGDMLGQNYVIAPGVQGTVTLATPKPVSPAQALNLLEMVLGWNNARMVYSGGRYNIVPADQALAGTVAPSTAPASAARGFEVRVVPLRFISASEMKKVLEPYARPNAIIGVDSARNVITLGGTRTELENYLRTVDIFDVDWLSGMSVGVFPLESGKAEQVASDLEKVFGENSKTPSAGMFRFMPLENANAVLVITPQARYLDQIQEWLDRIDSAGGSARLFSYELKYIKARELAQQLAEVFGSSGGSAGGGSSLAPGGVASQLQSSLSDDSDSMLGGSDGSARGGSSDSSTLGSSSSSLGSSSSSGGATSGKGMQLPQRQSGNASVTLQVQGSDVGVSAVEETNTLLVRAAPQAWKSIREVIDKLDVMPLQVHIEAQVAEVSLTGDLKYGVNWYFENAVTDAGLPSALGRGIWGDIAGSILPGASDGTGGLSWTFLGKNAAAVISALDTVSDVRLLQTPSIFVRNNAMATLNVGSRIPIYSVSVSGISDNQYSSVQYLETGTILKVRPRVTKDGMVFLDIVQEVSAPEGDADDNGNVRINTRKMQTEAAVRAGDTVMLAGLIDDSTTTGSSGVPFLSRLPVVGALFGQKTQAKRRNEVIVLITPTIVRNPQEARDLTDEYGRKFKAMEPLHGPSSPR	PGPT0026425_850	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026425-gspD|epsD-K02453	NA	NA
BMS020_06607	849			hypothetical protein	ATGAGCGCGCTGCCGGTGGTGCTGGTACCGATCTGCGTCGACGACGCGGCGCTGGATGCCTGCCTGGGCGCGCTGGAGCAGGCCACGCCGGCGGCGACGCGGGTATGGCTGGCCGACGATGCCCAGGCCGGCCCGCGCGGCAGCGCGGTGATCGAGCACTGGCTGGCGCATACCCGCCTGCAGGCGCATTACACCCGTCGCCAGCGCCCGCTCGGCGAGGTGGCGCACCTGGACGAGATGCTGCGCGCCTGCGGCGATGCCGACGTGGTGGTGGTGTCCGGCTATGCGCAGCCGCTGCCGGGCTGGCTGGAGCAGCTGGCCGACGCGTTCGCGCGCGATGCCTCGATCGCCAGCGCCACGCCGTGGAGCAACGCCGGCGAGGCCGCCGCGTGGCCGCGGCTGGGCGAGGTCAATCCGATTCCGGCCGATCCGCAGCGGCTGGCGCAGGCCTGCGCACGGATGCCGCCACTGCACCCGGAGCTGCCGTCGCCGGTCGCGCATGCGGTTGCGCTGCGCGGACGTGCGCGGGCCAAGGCCGGTGGCCTGGATGCCAGCAGCTACGGCTCGTGGTACGCCGCGCTGGTCGATCTCGGCCTGCGCATGGCCGGGCTGGGCTGGCGCAACGTGCTGTGCGAGACCGCGTTCGTCGCGGTTGCCGACGAGGGCGGTCCGGCCGATGGCGACATGGACGCGCTGGCCACGCGCTGGCCGGCCTGGCATGCGCGGCTGGCCGGCTTCCTGATGCAGGACCCGCTGGCGCAGGCGCGGGCGCAGCTGCAGCAGCTGCACGACGCGCTGCCGCCGTTGGACCCGCAGCGGCCGCTGTTCGGCGAGGACGTTGCGCGGTGA	MSALPVVLVPICVDDAALDACLGALEQATPAATRVWLADDAQAGPRGSAVIEHWLAHTRLQAHYTRRQRPLGEVAHLDEMLRACGDADVVVVSGYAQPLPGWLEQLADAFARDASIASATPWSNAGEAAAWPRLGEVNPIPADPQRLAQACARMPPLHPELPSPVAHAVALRGRARAKAGGLDASSYGSWYAALVDLGLRMAGLGWRNVLCETAFVAVADEGGPADGDMDALATRWPAWHARLAGFLMQDPLAQARAQLQQLHDALPPLDPQRPLFGEDVAR				NA	NA	NA	NA	NA
BMS020_06608	723	phnR_1	COG2188	Putative transcriptional regulator of 2-aminoethylphosphonate degradation operons	ATGAACAGCGGTCGCCAGCCGGCCATCGCCGCGGCCATCGCCGCGCGCATCGATGCCGGCGAGTGGGCCGCCGACCAGCGCCTGCCGGTGGAACGCACGCTGGCCGAGCTGTTCGGCTGTACCCGCATCACCCTGCGCGAAGCGCTGCAGCAGCTCGAATCGGAAGGGCGCGTGTACCGCGAGAACCGCCGCGGCTGGTTCGCCAGCGCGCCGCGCGTGCGCCAGGACGCCACCAGCATCGCCGGCTTCATGCAGTACGTGGCCGCGCAGGGCCGCGTGCCGCGCACCGAACTGCTGGCCGCGCACCGGCAGCCAGCCGGGCCCGAGCATGCGCAGGCACTCGGCCTGCACGATCCGGGCGAGGAGGTGTTCGTGCTGCGCCGGCGGCGCTGGATCGGCCGCCGCGCGGTGTTGCTGGAAACCAACGTGGTGCTGGCGGCGTGGGCACCGACGCTGCTGGAGTACGACCTGGCCGGCTCGCTCAGCGCGGTGCTCAACGGCCGCCTCGGCCTGCGCCATGCGCGCAGCACGCTGTCCATGTATCCGGCCAGCCTGGATGCCGCGCAGGCGACGCTGCTGCACACCACCGCCGGGATGCCATGCTTCCTGATGCAGCGGGTGAACTACGACGCCTCCGGGCGCGCGGTCGAACTGGACCTGGAGCACTGGCGCCACGACGTGCTGGAAGTCGTGGTGGACGTGCAGGCGCCGGCACTGCCCTAG	MNSGRQPAIAAAIAARIDAGEWAADQRLPVERTLAELFGCTRITLREALQQLESEGRVYRENRRGWFASAPRVRQDATSIAGFMQYVAAQGRVPRTELLAAHRQPAGPEHAQALGLHDPGEEVFVLRRRRWIGRRAVLLETNVVLAAWAPTLLEYDLAGSLSAVLNGRLGLRHARSTLSMYPASLDAAQATLLHTTAGMPCFLMQRVNYDASGRAVELDLEHWRHDVLEVVVDVQAPALP				NA	NA	NA	NA	NA
BMS020_06609	276			hypothetical protein	ATGGACGCACAGGCGATCGGATGGGCCGTCTTCGCCGGCGGCCTGTTGACCGGCGGGCTGTTCCGCCTGCGTGGCGTGCTGGTGCTGGGCCTGCTGGCGGTGGCACTTCTGGTGGGCGGCTTCGCCCTCGGTGCGGTGAGCTCAGACCAACGCCTGGTCTGGCTCTTCGGTGTCGCGCTGATGGCGCTACCGCTGCTCGGCGGCGCCTACGCAGTGGGCGGTCTTGTCGGCATCGCGCTGAGCTGGCTCGCGATCCGTATCCTGCGCCTGCCCTGA	MDAQAIGWAVFAGGLLTGGLFRLRGVLVLGLLAVALLVGGFALGAVSSDQRLVWLFGVALMALPLLGGAYAVGGLVGIALSWLAIRILRLP				NA	NA	NA	NA	NA
BMS020_06610	459			hypothetical protein	TTGCGACGTCATGGATGCTTGCTGTTGACCGCCGTGCTGGCCTTGTCCGGCTGCGCCACCACCCACCCCGCGGCGAAGGCCGATGGTGCTCTGGCACCCTACCAGGCCATCCAGTTGGCAGCGGACGCGGCGCCGCGGAGCGTGCCCGGCGTGTTCGTGCTCGATGTCAGGGCCACCGGCAGCCAGGACCAGCGGATTTACCTCAATTCCGAACGCGATTATCGCGACCAGCGCTGCTTGACCGTCGCGATCGATGCGGCCACTGCCACCGCACTGCAGGCCCGCTACGGTCTGGAGCCGCAGGTGTTCTTCAAAGGCAGGAAGATCGAGGTGAGCGGTCGAGCGAAGCGCGAAACGATCTACCTGTTCGTCGACGGCCGGCAAACCGGGAAGTACTACTACCAGACCCACGTCCGCGTCACCGACCCGGACCAGATCCGGCTCATCGACGCCCACTGA	MRRHGCLLLTAVLALSGCATTHPAAKADGALAPYQAIQLAADAAPRSVPGVFVLDVRATGSQDQRIYLNSERDYRDQRCLTVAIDAATATALQARYGLEPQVFFKGRKIEVSGRAKRETIYLFVDGRQTGKYYYQTHVRVTDPDQIRLIDAH				NA	NA	NA	NA	NA
BMS020_06611	552	pnuC_2	COG3201	Nicotinamide riboside transporter PnuC	ATGTCGAAGCTTGAAGTGGTAGCGGTGGTAATCAACGTGCTCGGCGTGTGGCTGACCGCACGCCGCACGCGTTGGTGCTGGCCGGTCGGCATCGTCGCGGTATTGCTGTACGCGCGCCTGTTCTACGACTGGAAGCTGTACTCGGACATGCTGCTGCAGGGCATCTACGCGCTGCTGCAGGGTTACGGCTGGTGGCGCTGGAGCCGCAGCCCGCTCGACCACGGCCGCATCCGCCCGCAGGCGCTGCCAGCGCGCGAAGCCTGGCTGTCGCTGGCGGCCGGCGCGGCCGCCTCGCTGGCGCTGGGCTGGTTCATGCACACCCACACCGATGCCGCGCTGCCGTGGCTGGACGCGGCGCTGACCGGCTTCAGCCTGGTCGCCAGCCTGTGGGCCGCGCGCAGGTACATCGCCAACTGGACGCTGTGGATCGTGCTCGACACGCTCTACGTCGGTGTGTTCGCGTACAAGCACCAGCCGCTGACCGCGGCGCTGTACGCCGGCTTCGTGCTTCTGGCGGTGTATGGCTGGCGCAGCTGGCGGCGGCCGGCTTGA	MSKLEVVAVVINVLGVWLTARRTRWCWPVGIVAVLLYARLFYDWKLYSDMLLQGIYALLQGYGWWRWSRSPLDHGRIRPQALPAREAWLSLAAGAAASLALGWFMHTHTDAALPWLDAALTGFSLVASLWAARRYIANWTLWIVLDTLYVGVFAYKHQPLTAALYAGFVLLAVYGWRSWRRPA				NA	NA	NA	NA	NA
BMS020_06612	2184	fatA_2		Ferric-anguibactin receptor FatA	ATGTCCCGCTCCACGCCTTCCTTCGCCACGCTCGCCCTGGCCATCGCACTGACCCTGCACGCGCCAGCCCGCGCCGCCGATGTGGCCGACACTGGTGCCGGTGCCACGCAGACACCGGTGCAGCTCGATGCAGTCAACGTGCAGGGCGAACGCGCGCGCGACCACAGCCGGCTCGGCGGCTATGGCGAGGCACCGCTGCTGGACACGCCGGCCTCGATCACCGCGATCGACCGCGCCCAGCTGCAGGACCGCCAGGCGCGCGTGCTCAGCGAGGTGCTGCGCGCCGACGCCTCGGCCGGCGATGCCTACGCACCGATCGGCTACTACGAGAACTTCAGCCTGCGCGGCTACCAGCTCAACCCCGCCAACGGCTACCGCATCAATGGCCTGAGCGCGGTCGGCGAGCAGATCGTCGCGCTCGACAACAAGGAGCAGGTGCAGGTGCTCAAGGGGCTGTCGGGACTGCAATCGGGCGTCAACGAGCCGGCCGGGCTGATCGACTACATCACCAAGCGCCCGCGCCATGTGCGCACGCTGGAACTGGGCGTGGACGACGACGGCGGCCGCCGCGTCGGTGCCGACTGGGGCGACTGGTTCGGCGCGCGCCAGCAGTTCGGCCTGCGTCTCAACGCCAGCTACGAGAGCCTGCGCCCGTATGTCGAGCACACCGACGGCCACCGCAAGTTCGTCTCGCTCGCCGCCGACTGGAAGCTCACCCCGCAATCGCTGCTGCAGTTCGACATCGAGTACCAGCGCCGTTCGCAGCGCTCGGTGCCGGGTTACCAGCTGCTCGGCGGCAGCACCGTGCCGGACATCGACAGCCTCGACCTCGACCGCCTGCTGGCCTACCAGCCGTGGTCGCGCCCGGTCGGCATGGATTCGCTCAACACCCAGCTGCGCTACCAGTACCGCTTCAACGATGCCTGGCAGGCGCAGCTGGCGGCGTCGCGCAGCCGGGTCAAGATCAACGATTTCTCGGCGTTCGCCTGGGGCTGCTACGGCGTGGCCAGCTGCGCCGACGACGCGGTGCCGAACTACTTCGGCAGCGACGGTGGCTACGACGTGTACGACTACCGCAACCCCGACGACGACCGCCGCCACGACCAGCTGCAGGCGACGCTGGACGGCCGCTTCGACACCGGCCCGCTCAGCCACGAACTCAGCATCGGCGCGGACTGGCTGCGGCGCACGATCACCCGTTACGGCTCGGTCAACGAATGGATCGGCAGCGGCAGCATCGACGGCGATCCGGACGTGTTCGAGCCGACCACCGTCGCGCTCGGGCCGCGCCATCGCCGGCTCGACAGCCGCCAGAAGGCACTGCTGGCCAGCGACCGCATCGGCCTGGGCGCGCAGTGGCAGCTGTTGCTCGGCGCGCGCCAGGTGTGGCTGGACGAGCGCGCCTGGGACCGCGACGGCGTGCTGACCCGCCACACCAAGCGCGACGACCTGCTGCCGCAGGCGGCGCTGCTGTTCAAGCCCGATCCGGCCTGGTCGCTGTACGCCAGCTTCGCCAAGAGCCTGGCGCTGGGCGGCACCGCGCCATGGTTCGCCAGCAACGCCGACGAGGTGCTGGCGCCGACCCATGCCTACCAGACCGAACTCGGCGCCAAGACCGAGCTCGGCGGTGTGCAGCTCGGTGCGGCGCTGTTCGACATCCGCCAGGCCTACCAGTTCGCGCAGCCGCAGGCCGACGGCAGCTTCCTGTTCGTGCAGCAGGGCCAGCTGCACAACCGCGGGCTGGAGTTGAGCGCGAACGGTGCTGTGACCGAGGGCCTGCGCCTGGCGGCCAGCGTGGCGGCGATCCGCTCGCGCGCCGAGGGCACCGGCGTGGCCGCCTACGAAGGCCACCAGGCGATCAACCAGCCCAAGCTGCGTGCCAGCGTGCAGGCCGACTGGGACGTGCCCGGCGTGGAAGGCCTGGCCCTGCTCGGCGGCCTGCAGTACAGCGGCCGCAAGTACGCCGACCGCGTCGCCGGTGCGCGGGTCGATGCCTACACGGTCGCCAACCTCGGCGCGCGCTACGCGCTGCGCATCGGCGGCGTGGCGACGACCTGGCGGCTGTCGGTCGACAACCTGTTCGACACCCGCTACTGGCGCGACGCCGGCGAATACTCCGGCGACAGCTACCTGTTTGCCGGTGCGCCGCGCAGCGCACGGTTGTCGGTGCAGCTGGAGTTCTGA	MSRSTPSFATLALAIALTLHAPARAADVADTGAGATQTPVQLDAVNVQGERARDHSRLGGYGEAPLLDTPASITAIDRAQLQDRQARVLSEVLRADASAGDAYAPIGYYENFSLRGYQLNPANGYRINGLSAVGEQIVALDNKEQVQVLKGLSGLQSGVNEPAGLIDYITKRPRHVRTLELGVDDDGGRRVGADWGDWFGARQQFGLRLNASYESLRPYVEHTDGHRKFVSLAADWKLTPQSLLQFDIEYQRRSQRSVPGYQLLGGSTVPDIDSLDLDRLLAYQPWSRPVGMDSLNTQLRYQYRFNDAWQAQLAASRSRVKINDFSAFAWGCYGVASCADDAVPNYFGSDGGYDVYDYRNPDDDRRHDQLQATLDGRFDTGPLSHELSIGADWLRRTITRYGSVNEWIGSGSIDGDPDVFEPTTVALGPRHRRLDSRQKALLASDRIGLGAQWQLLLGARQVWLDERAWDRDGVLTRHTKRDDLLPQAALLFKPDPAWSLYASFAKSLALGGTAPWFASNADEVLAPTHAYQTELGAKTELGGVQLGAALFDIRQAYQFAQPQADGSFLFVQQGQLHNRGLELSANGAVTEGLRLAASVAAIRSRAEGTGVAAYEGHQAINQPKLRASVQADWDVPGVEGLALLGGLQYSGRKYADRVAGARVDAYTVANLGARYALRIGGVATTWRLSVDNLFDTRYWRDAGEYSGDSYLFAGAPRSARLSVQLEF	PGPT0003790_22340	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_06613	897	sseA_2	COG2897	3-mercaptopyruvate sulfurtransferase	GTGACGACCTCCATCCTGATCGATGTCGACGATCTCGCCGCGCGCATTGGCGACCCGCGCCTGTGCCTGCTCGATGCCAGCGTCGAGCTGCCGCCGCCGCGCTTCGACGGCGACCACCGCGTCGCCAGCGGTGCCGACGGCTGGCGCGCGGCGCATCTTCCCGGCGCGCGCCATGCCGACCTGCTGCAGGCACTGGCCGATCCCGACGCGGCCTTCAGCTTCGCGCGGCCGGACTGGCCCATGCTGGCCGCCGCGCTGCAGCGGCTGGGCGTGCGCGACGGCGCGCAGGTGGTGGTCTACGACCGCAGCGACGGCTTCTGGGCCGCGCGGCTGTGGTGGATGCTGCGCAGCCTCGGCATCACCGCGCGCGTGCTCGATGGTGGCCTGCGGGCCTGGCGTGCGGCCGGACTGCCGCTGGCACAAGGCGAGCTCCCGGCGCCCACCACCGGCCCGCTCGGCACCCGGCCGCAGCCGGCGCTGTGGGCCGACCGCCAGCGGATCGAAGCGATCGTGCAGGGCAGCGCGCCCGGCACGCTGGTCTGCGCGCTGTCGGCCGCGCTGTTCGCCGGGCACGCGCCGACCCGCTATGCACGGCGCGGCCATATCCCCGGCAGCCTCAACCTGCCGGCACGCCAGGTGTTCGAGGACGACGGCCGCTACCTGGCGCCCGCCCGGCTGCGCGAGGTGCTGGCGCCGCTGCGCGCGGCTGCCGGCCGGCCCCTGGTGCTGTATTGCGGCGGCGGCATCAGTGCCGCGGCGCTGGCGCTGGCGTTGACCGTGGCCGGCGAATCCGCGATCGCGCTGTACGACGGCTCGCTGCAGGAATGGGCCGCCGATCCGACGCTGCCCCTGCAGCGTGCACCCGACCCACCACTTGCACATGACGCCCCGGGATGA	MTTSILIDVDDLAARIGDPRLCLLDASVELPPPRFDGDHRVASGADGWRAAHLPGARHADLLQALADPDAAFSFARPDWPMLAAALQRLGVRDGAQVVVYDRSDGFWAARLWWMLRSLGITARVLDGGLRAWRAAGLPLAQGELPAPTTGPLGTRPQPALWADRQRIEAIVQGSAPGTLVCALSAALFAGHAPTRYARRGHIPGSLNLPARQVFEDDGRYLAPARLREVLAPLRAAAGRPLVLYCGGGISAAALALALTVAGESAIALYDGSLQEWAADPTLPLQRAPDPPLAHDAPG	PGPT0002045_482	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
BMS020_06614	1152	srkA_1		Stress response kinase A	ATGAGCGCCACGCACCAGATGCACGGAATGGGCAGCGCGACCACCGCCGCCGACTGGCCGGCCTTACAGGCCAGCGAGGTCGAGGCGGTGCTGGCCCGCGTCGGCCAGGCGCATGCGCTGCGCGACCTGCGCTGGCACAGCCCGCGCCCGTTCTCGGCGGCCGCCGAGGCCGATACCCGCGACGGCACGCTGTTCGTCAAACGCCACCACCGCCGCCTGCGCGACGCCCGCACGCTCGGCGAGGAACACGCGCTGATCGCGCACCTGCACGCACGCGGTGCACCGGTGCCGGCGCTGCTGCGCGACGCCGACGGCGCCAGCGCGCTGGAGATCGGCGACTGGACCTACGAAGTGCAACGCGCCGCCGACGGCGAGGACCTGTACCGCGAGGCCACCTCGTGGACGCCGTTCCTCGCCCCCGCGCACGCCCACGCCGCCGGGCGCGCGCTGGCCGGGCTGCATCGCGCCGCCGCCGGCTACCGCGCCGCACCGCGCAGCACCCAGCTGCTGGTCGCCAACTTCCGCCTGTTCGGCGCTGCCGTGCCGCTGCAGGCCATCCAGCACGATCTGTCGGCGCGCCCGGCATTGGCGGCGTGGCTGCGCCAGCGCGACTGGCAGGCCGACCTGCGCGCGCATCTGCTGCCCTGGCATGCGCAGGCCTGGCCGCTGCTGCGCCCAGCCGCGCCGCTGCTGTGGACCCATGGCGACTGGCACGCGTCGAACCTGCTGTGGCGCGGCCACGGCGCGGCGGTCGCGGTCAGCGCGGTGTTCGACTTCGGCCTGGCCGACCGCAGCTTCGCACTGTTCGACCTGGCCACCGCGATCGAGCGCAACCTGGTGCCGTGGCTGGCGCTGGACGATGGCGGCCGCGCCGTCGCCGAGCTCGACCAGCTCGACGCGCTGCTCGGTGGCTACGCCACGCTGCTGCCGCTGGACGCGGCGCAGCTGCGCCTGCTCGCGGCCCTGCTGCCGCTGGTGCATGCCGATTTCGCCCTCAGCGAGATCGAGTACTTCGCCGGCATCACCGGCTCGGACGCCAACGCCAGCGTGGCCTACGAGCGCTACCTGCTCGGGCATGCCGACTGGTTCGGCACTGCCGATGGCCAGCAGCTGCTGCGGCATCTCGATGCACGCGCGCGGAGAATCGCGTGA	MSATHQMHGMGSATTAADWPALQASEVEAVLARVGQAHALRDLRWHSPRPFSAAAEADTRDGTLFVKRHHRRLRDARTLGEEHALIAHLHARGAPVPALLRDADGASALEIGDWTYEVQRAADGEDLYREATSWTPFLAPAHAHAAGRALAGLHRAAAGYRAAPRSTQLLVANFRLFGAAVPLQAIQHDLSARPALAAWLRQRDWQADLRAHLLPWHAQAWPLLRPAAPLLWTHGDWHASNLLWRGHGAAVAVSAVFDFGLADRSFALFDLATAIERNLVPWLALDDGGRAVAELDQLDALLGGYATLLPLDAAQLRLLAALLPLVHADFALSEIEYFAGITGSDANASVAYERYLLGHADWFGTADGQQLLRHLDARARRIA				NA	NA	NA	NA	NA
BMS020_06615	954			hypothetical protein	ATGCGGTTCCCCCCGCTGTCGCAGGTGTCCGCCATGCGCCGCACGCGTGTCGCGCTCGAATACTTCCATCCGTGGCCCAACTCGGCCGGGTTCTACCTGGCGCGCGAGCGCGGCTGGTACCGCGACGTCGGCATCGACCTGGTGCTGCAGGCGCCCGATCCCTGGCACGGCGACAGCCTGGCCCACCTGCTGCGCGGCGATGCCGAATTCGCGGTGTTTCCCAGCAACCGACTGCTGGTGCGCTGCGCCGCCGGCGAGCCGCTGCGTGCGATCGCGGCGATCAACCAGTGCGGGCTGGAGGCGATCCAGACCCTGCGCGAGCGCGGCATCGCGCGTCCGCGCGACCTGGCCGGCAAGCGCCTGGCGATGAACCCCACCCCGCGCGGGCTGGCGATGGTGCGCCACCTGGTCGCGCACGACGGCGGCGATCCGGAGGCAGTGACAATCGTCGATGCCGGCAGCCGCGAACTGCGCCCGGAGGACCTCGCCGCCGGCCTCGCCGATGCCAGCTTCGGCGGCTACTGGGCCTGGGAAGCGCTGATGGACAGCCCGATCGATCCGGCGCGGCGGCTCACCCTGCCGGTGTCCGCGTTCGGCGCACCGGCGTACCACAGCTACCTGCTCGGCGCGCACGCACACACGCTCGACGCGCAGCCGGCGCTGGCGCACGACCTGCTCGCGGTGACCGCACGCGGCTTCCTCGCCGCCGCGGCCGCGCCACTGGACGCGCTCGACGCCTACGAGCGTGCGACGCCGTACTTCCCGCGCACGCTGCTGGCCGCATCGCTGCAGGCGATCGCCCCGACCTGGCTGCACGCCGGTGCCTGGGGCCGGATCCGCGCGCCGCTGTGGCAGGGCTACGCGCAGTGGCTGGCCGAACACAGCGTGCTCGCCGACGCCGACGCCTGGCGTACCGCCAGCGACACCCGCTTCCTCGCCGGCGTGCCCGCATGA	MRFPPLSQVSAMRRTRVALEYFHPWPNSAGFYLARERGWYRDVGIDLVLQAPDPWHGDSLAHLLRGDAEFAVFPSNRLLVRCAAGEPLRAIAAINQCGLEAIQTLRERGIARPRDLAGKRLAMNPTPRGLAMVRHLVAHDGGDPEAVTIVDAGSRELRPEDLAAGLADASFGGYWAWEALMDSPIDPARRLTLPVSAFGAPAYHSYLLGAHAHTLDAQPALAHDLLAVTARGFLAAAAAPLDALDAYERATPYFPRTLLAASLQAIAPTWLHAGAWGRIRAPLWQGYAQWLAEHSVLADADAWRTASDTRFLAGVPA	PGPT0001135_8471	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
BMS020_06616	840	wbbL	COG1216	N-acetylglucosaminyl-diphospho-decaprenol L-rhamnosyltransferase	ATGAGCGAACAGCAGATCGCCGCGGTGGTGGTCACCTACCAGAGCGGCAGCACCATCGACGAATGCCTGACGCGGCTGCGCGCGGCGGCCGGCATCGCCGAGATCCGGGTGGTCGACAACGCCTCGTCCGACGAGACGATGGAGATCGTGCAGCGTCACGCGCTAGCCGACCCGCGGCTGCACTTCATCGCCAATCCGGACAACCCCGGCTTCGCCGCCGCCTGCAACCAGGGCGCGGCCGATTCGCGCGCGCCATGGCTGGTCTTCATCAATCCTGACCTGATGGTCGAGGTCGACACGTTGCAGCGGCTGCAGGCGCGCGCGCAGCGGCCGGGCGGCGCGTTGCTCGGCGTGGAGCAGGTCGACGAGCACGGCCATGCCGATGGCGCGGTGCGTCGGCGCGATCCGGATTTCGCCGCGATGCTGCGTTCGCCGCGGCGTGGCGCGCAGCTGGCGGTGGCCTGCGATCCGGCGCAGGCGCTGCAGCCGGTTGATGCGATTTCCGGCGCGTTGATGCTGATGCCGCGTGCGCTGTTCAACCGCATCGGCGGCTGGGACGCCGGCTATCGGTTGCATGCCGAGGACCTGGACCTGTGCCGGCGCGCGCGCCAGGCCGGCGCGCTGGTGGCGGTGGCCAACGACCTGCGCGTGCTGCATCTGCGCGGTGTGTCGAGCCGTTCGCGGCCGTTCTTCGTCGAGTGGCACAAGCATCGCGGGCTGTGGCGCTACTTCGGCAAGTTCGAGGCGCCGCGGCGCAGCCTGGCGGTGCGCGCGGGGGTGTGGCTGGCGATCTGGGCGCATGCCGTGGTGCAGGTGCCGAGGCTGCTGCGCAGCGCCTGA	MSEQQIAAVVVTYQSGSTIDECLTRLRAAAGIAEIRVVDNASSDETMEIVQRHALADPRLHFIANPDNPGFAAACNQGAADSRAPWLVFINPDLMVEVDTLQRLQARAQRPGGALLGVEQVDEHGHADGAVRRRDPDFAAMLRSPRRGAQLAVACDPAQALQPVDAISGALMLMPRALFNRIGGWDAGYRLHAEDLDLCRRARQAGALVAVANDLRVLHLRGVSSRSRPFFVEWHKHRGLWRYFGKFEAPRRSLAVRAGVWLAIWAHAVVQVPRLLRSA	PGPT0024205_939	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ARABINOGALACTAN|LIPOARABINOMANNAN_REMODELLING	CE-REMODELLINGL-RHAMNOSYLTRANSFERASE_ACTIVITY,PGPT0024205-wbbL-K16870	NA	NA
BMS020_06617	906			hypothetical protein	ATGGCTTCGAGTTCCATGCCGCCCCGGGCCGGGGTGGTTGAGTCCCATGCACGTCGCTTCACCGCCCGCCGGCAGCCCGCAAGGCTGGCCCGGATGCTGCGTGCGCCGTGGCTGCTGGCGGCACTGGCCGGGGCGGGTAATGCCAGCGCCGGGGCCTGGGTGCAGGACGATGGCGCGACCCTGCTGATCCTGAAGTACATCCACAGCGACGGCAGCCGCCAGTTCGACGACGGTCACCACCGTGTCGATTTCGGCGACGGCGGCCACAGCCGCCAGGACCAGCTCAACCTGTACCTCGAGCATGGGCTGAGCGCGCGCCTGAGCCTGGTCGGCAATTTCTATCTGTCGCAGGTCGGCTACCGCAACGACTACGGGCGCGGCCAGAGCACCGGTGCCGCCGACCAGGAACTGGGGCTGCGCTATGCGCTGCCGCCGGCGGGGGCGTGGCAGCAGGCGCTGCAGGGGCTGCTCAGCATCCCGGCCTATGATCGCGACGACCAGCCCGCGCTCGGCCTGGGCGACTACGGCACCGAGCTGCGTTACAGCGCCGGCCGCGGCTACCAGCTGGGCACGCACGCCGGCTACGTCGACATCGGTGCGGCGGTGCGGCTGCGCGGTGCCGATGCCGCCGACGAGGCGCGGCTGGATGCCACCGCCGGCTTCGCGCTGACGCCGGCGTGGATGCTGCTGGGCGAACTCAACGTGATCCAGGGCCTGGGCAATGGCCGCGGCAGCAATCCGGTCAACTTCATCCAGAGCACCAACTACGACCTGACCAAGCTGCAGCTGTCGGCGCTGTACACCGGCGGCGGCCTGCAATGGCAGCTCGGCTGGCAGCAGCCGGTGATGGGCCGCAACACCGGCGCCGGCGGCGGGCCGTTCGTCGCCGCCTGGTGGAGGTTCTGA	MASSSMPPRAGVVESHARRFTARRQPARLARMLRAPWLLAALAGAGNASAGAWVQDDGATLLILKYIHSDGSRQFDDGHHRVDFGDGGHSRQDQLNLYLEHGLSARLSLVGNFYLSQVGYRNDYGRGQSTGAADQELGLRYALPPAGAWQQALQGLLSIPAYDRDDQPALGLGDYGTELRYSAGRGYQLGTHAGYVDIGAAVRLRGADAADEARLDATAGFALTPAWMLLGELNVIQGLGNGRGSNPVNFIQSTNYDLTKLQLSALYTGGGLQWQLGWQQPVMGRNTGAGGGPFVAAWWRF	PGPT0025620_18	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0025620-xagA-K20326	NA	NA
BMS020_06618	1914			hypothetical protein	ATGGACGCGCCGCCGATCGAGGCATGGCCGCCGCCTCCGGCCGGGCGCGTGCCCGATCCGGAGCGGGCGCGGCTGGGCGAGGCGCTGGTCGCCGCCGGCGTCATCGATGCCGCGCAGCTGCAGCAGGTGCTGGCGCTGCAGCAACGCTGGAACTCGCGCCTGGGCGACGTGGTGCTGGCGCAGCGCGGAGTGTCGGCGCAGCGCTTCTACGCGGTCGTCGCCGCGCACTACGGGCTGGCGTTCGTCGACCTGCTCAAGCAGCCGGCCGAGCTGGAACTGTTCGCCGCCGTCGACCTGGACGAGTACGCGCGCCGGCTGGTGCTGCCGTGGCGGCGCGAGGACGGCGTGCTGGTGCTGGCGGTGGCCGATCCGGGCGAGGCCACGTTCGCCTGGGCGCGCGAGCGCCACGGCGCGCAGGTGCGCTTCGTCGGGACCTCCAAGTTCGACATCATCTGGAGCCTGCAGCAGCTCGCCGACAGCCAGCTCACCGACAACGCGCTGAACCTGCTGGCGCGGCATGCGCCGGTGCATTCGGCGCGGCAGGTGGTCACGCCGGCGCAGTCGCGCGCGCTGCTCGGCATCGGCGTCCTGGCATTGACCGCGCTGCTGCTGTGGCCGGTGGCCACGCTGGTGGCGCTCAATGCACTGCTGGCGCTGGGGTTCCTGGCCACGTTCGGGTTGAAGCTGCTGCTGGTGTGGTTCGGCTCGCGCCATCGCATCGACATCAAGGTCACCGCGCAGGAGGCCGCGGCGCTGCGCGACGAAGACCTGCCGGTCTACACGGTGCTGGTGCCGATGTACAAGGAACCGGAGGTGCTGCCGATCCTGGCCAATGCGCTGCGCAAGCTCGACTACCCGATCAGCAAGCTCGACGTGAAGCTGGTGCTGGAGGCCGACGACACCGAGACCATCGCCGCGGCCAAGCGGCTGGGGCTGGAAGCCTTCTTCGAGATCATCCGGGTGCCGCCGTCGCAGCCCAAGACCAAGCCGAAGGCCTGCAACTACGCCCTGCACTTCGCCCGCGGCGAACTGCTGACGATCTACGACGCCGAGGACAAGCCCGAGCCTGACCAGCTGCGGCGGGTGGTGGCGGCGTTCGCCAAGGCGCGTGCCGACGTGGCGTGCATCCAGGCGCGGTTGAACTACTACAACGCCGACGAGAACTGGCTGACGCGGATGTTCACGCTGGAGTACACGCTCTGGTTCGACTTCTACCTGCCGGCGCTGGAGTTCCTGCGCATCCCGATCCCGCTCGGCGGCACCTCCAACCACTTCCGCCTGGACGTATTGCGCAAGGTGCATGCCTGGGACCCGTACAACGTCACCGAAGACGCCGACCTCGGCGTGCGCCTGATCCAGCAGGGGTACCGCGTCAACGTGGTCAACTCGACCACGTTCGAGGAAGCCAACGTCAGCATCCCGAACTGGATCCGGCAGCGCTCGCGCTGGCTCAAGGGCTACATGCAGACCTGGCTGGTGCACATGCGCGACCCGCTGCACCTGTACCGCAGCACCGGCTTCAAGGGTTTCTGGGGCTTCCAGTTCTTCATCGGCGGCGGCTTCTTCACCGCGCTGGCGGTGCCGGCGCTGTGGCTGGTCTACCTGCTCTGGCTGGCCACCGGCACGCATGCGTTCGACGCGTTGTTCCCGCCGTGGGTGCTGCATGTGGCGGTGGCCAACCTGCTGCTCGGCAATGCGTTCTTCGTCTACATCACGCTGGTCGCGGCGTTCAAGCGCGACTACTACCGGCTGGCGCCGTACGCGCTGACCGTGCCGTTGTACTGGGTGCTGCAATCGGTGGCCGCCTACAAGGGGCTGTGGCAGTTGATCCGCAATCCCTTCTATTGGGAGAAGACCACGCATGGCATCAGCAAGCACATGGAAGCCGAGCGCCGCGCCGCCCTCGGGGAGTGA	MDAPPIEAWPPPPAGRVPDPERARLGEALVAAGVIDAAQLQQVLALQQRWNSRLGDVVLAQRGVSAQRFYAVVAAHYGLAFVDLLKQPAELELFAAVDLDEYARRLVLPWRREDGVLVLAVADPGEATFAWARERHGAQVRFVGTSKFDIIWSLQQLADSQLTDNALNLLARHAPVHSARQVVTPAQSRALLGIGVLALTALLLWPVATLVALNALLALGFLATFGLKLLLVWFGSRHRIDIKVTAQEAAALRDEDLPVYTVLVPMYKEPEVLPILANALRKLDYPISKLDVKLVLEADDTETIAAAKRLGLEAFFEIIRVPPSQPKTKPKACNYALHFARGELLTIYDAEDKPEPDQLRRVVAAFAKARADVACIQARLNYYNADENWLTRMFTLEYTLWFDFYLPALEFLRIPIPLGGTSNHFRLDVLRKVHAWDPYNVTEDADLGVRLIQQGYRVNVVNSTTFEEANVSIPNWIRQRSRWLKGYMQTWLVHMRDPLHLYRSTGFKGFWGFQFFIGGGFFTALAVPALWLVYLLWLATGTHAFDALFPPWVLHVAVANLLLGNAFFVYITLVAAFKRDYYRLAPYALTVPLYWVLQSVAAYKGLWQLIRNPFYWEKTTHGISKHMEAERRAALGE	PGPT0025625_167	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0025625-xagB-K20327	NA	NA
BMS020_06619	1119			hypothetical protein	ATGGCATCAGCAAGCACATGGAAGCCGAGCGCCGCGCCGCCCTCGGGGAGTGAGCTGTCGGCCGCGCCGCGGCGCGTGCGCGCGCTCGGCGCGTTCGTGGTGGCGGTGGTCGGGCTGTCGCTGGCCTGCCAGTTCCTGCTGCTGCGCGCCGGACCGCCGGCGGTGGTGGCGGCGCCGGATGCTGGGCTGCTGTTCCCGCTGCCGTGGCTGCGCGAACTGCTGCGCATCGGCCTGGAGGCGCGTGGGGTGTCGGTGGCGCTGCTCGGGCCGTTCCTGGCGGTGCTCGCCGGCGCGTGCTTCCTGAGCCTGCTGTGGCGCGACCTGGCCGGAACCTGTGGTGGCGCGCGTGCCACCGCCTGTGCGCTGCTGGTCGGCGCCAACCCGGCGTTCCTGCAGATGCTGGTCGACGGCGACATGCAGGTGTACGCGGTGCTGGGTTTCTACGGGCTGTGCCGCACGCTGCGCCACCTGCGCGGAGACATCGAGGCATTCACCTACCTGCGCATCGGCGGCTGGCTGTGCCTGATGCTGTGCATCACCCCATTGACCGCGGTGCTGGCGGTGGTGCTGGCGCCATGGCTGTCGCTGGTGGTGCCATGGTCGATGCGGCGGCGCGCGCGGGTGCCGTTCTACCTGGTGTGCTACCTGCCGTTCGTGCTGGTGGTGGGCGGCTGGGCGTACCTGGTATGGAGCGCCGGGTTGGGCGCGTGGCCGACCCTGGACACGTTGGCACCGCCGGACTACGGCGCCGGCGCGTTCGCCGGGCTGGCGTTCGCGCGTGACTGGCCGGGCGTGCTGCGCTGGGCGGTGGCGGTGCCGCTGTGCTTCCCGGTGCTGGTGATGGCCTGGTTGTGGCGCGGCATCGGCGTGGTGCGCGTGGCCACCGTGGCGCTGGGGACGGTGGCGTCGGCGACGCTGCTGGTGGCGTTGCTGCAGGTTCCCGCCGGCGGCTGCGTGGCGCTGGTGTGGGCACCGGTGGCGCTGCTGCTGCGCGGGCTGCGCCCGGCGCACGCCTGGACCACGCTGGCGTTGCTGTTGGCCGGGGCGCTGGGCGCGGTGGTGGCATATCCGCACGCGGTGCTGCTGCCGGTCCCCGCGCTGGTCGCGGCGATCACGTGA	MASASTWKPSAAPPSGSELSAAPRRVRALGAFVVAVVGLSLACQFLLLRAGPPAVVAAPDAGLLFPLPWLRELLRIGLEARGVSVALLGPFLAVLAGACFLSLLWRDLAGTCGGARATACALLVGANPAFLQMLVDGDMQVYAVLGFYGLCRTLRHLRGDIEAFTYLRIGGWLCLMLCITPLTAVLAVVLAPWLSLVVPWSMRRRARVPFYLVCYLPFVLVVGGWAYLVWSAGLGAWPTLDTLAPPDYGAGAFAGLAFARDWPGVLRWAVAVPLCFPVLVMAWLWRGIGVVRVATVALGTVASATLLVALLQVPAGGCVALVWAPVALLLRGLRPAHAWTTLALLLAGALGAVVAYPHAVLLPVPALVAAIT	PGPT0025630_13	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0025630-xagC-K20328	NA	NA
BMS020_06620	969			hypothetical protein	GTGAGCCGCGCGTTGCTGCTGATGCTGGTGCTTGCGGTCGCCGGCGGCTGCCGCGCGGCGCCGCCGATGTGGATGGGCGCCAACGTCAAGCTGGCCCCCACCGCGCCATGGGGCAGTGCGGCGGCCGGGCGCTCGCTGGATGCGCTGGCCGCCACCGGTGCCAGCCGTGCGCTGCTGGTCGCCTTCGTCTGGCAGGCCACGCCGCAGGCCTCCGATCCGGTGCCGGGCAGCGACAGCGGCGTCGAGCAGATGCGCGCGGCGTTGCAGCAGGCGCGTGATGCCGGCCTGCAGCCGGTGCTGAAGGTGCATGTCTGGGTGCCGGCGCACTGGGCCGGCGAGGTCGCCCCCGATGACCGGGCGCGCTGGTTCGCCGCCTACCGCGCCGCGGTGCTGCCGCTGGCGCAGCTGGCCGAGCGCGAACATGCGGCCGGCTTCGTGCTCGGCACCGAACTGCGCCTGCTGCAGGACGCGCCGGAGTGGCCGGCGCTGGTCGCAGCGGTGCGCGCGGCCTATCGCGGGCCGCTGATCTATGTCGCCGACGGACTCGAGCATGCCGAGACGTTCCGCTACTGGTCGCTGTTCGATGTGATCGGCACCAGCCTGTACCCGGCACTGCCGGGTGACGCGCAGGCGCGCCAGGCGGCGATGGCCGCGGTCGCCGCGCGCCTGCAGCGGCTGGCGCAGCGCGAGGGGCGGCCGCTGTGGGTCGCCGAACTGGGCCTGCGCTCGGCGGCGGGTGCGCTGGCGGCGCCGTGGGAAAGCCCCGAGCAGCGCGACGCGGCGGTCGATCTGGCGCTGCAGGCGCGGACCCTGCGGCAATGGCGCGAGGTGTTGCGCGCGCACGGCGTGGCCGGGATCGGCCTCTGGTGCTGGTACACCGACCCGGCCGCGGGCGGTCCGCGCGACAGCGACTTCACCGTGCAGGGCAAGCCGGCTGCGGCGGTGCTGGCCGGCCCGGCCGCGCGCTGA	MSRALLLMLVLAVAGGCRAAPPMWMGANVKLAPTAPWGSAAAGRSLDALAATGASRALLVAFVWQATPQASDPVPGSDSGVEQMRAALQQARDAGLQPVLKVHVWVPAHWAGEVAPDDRARWFAAYRAAVLPLAQLAEREHAAGFVLGTELRLLQDAPEWPALVAAVRAAYRGPLIYVADGLEHAETFRYWSLFDVIGTSLYPALPGDAQARQAAMAAVAARLQRLAQREGRPLWVAELGLRSAAGALAAPWESPEQRDAAVDLALQARTLRQWREVLRAHGVAGIGLWCWYTDPAAGGPRDSDFTVQGKPAAAVLAGPAAR				NA	NA	NA	NA	NA
BMS020_06621	1191	pncB2	COG1488	Nicotinate phosphoribosyltransferase 2	ATGATCATCACCTCGCTGCTCGACACCGACCTGTACAAGTTCACGATGATGCAGGCGGTGCTGCACCAGCATCCTGCCGCACAGGTCGAATACCGCTTCCGCTGCCGCACCCCGGGCGTCGCGCTGGCACGCTACCTGGACGAGATCTCGCGCGAGCTCGACGCGCTATGCAGCCTGCGCTTCCAGCCGGACGAGCTGGACTACCTGCGCCGGCTGCGCTTCGTGAAGCCGGATTTCGTCGACTTCCTCGGCCTGTTCCACCTCGATCGGCGCTACGTCGAGCTGCGCGCCTCCGACAGCGTGCCCGGCGAGATCGAGTTGACGATCCGTGGGCCGTGGCTGCACACGATCCTGTTCGAAGTGCCGCTGCTGGCGATCATCAACGAGGTCTGGTTCCGCAACACCAGCGAGGCCGATTTCGGCGAAGGCCGGCGCCGGCTGCAGGCCAAGATCGAGCTGCTGCGCGACGTGCCCGGCTACGAGGGCGTGACCATCGCCGATTACGGCACGCGGCGGCGCTATTCGCGGCAGTGGCATGGCCAGCTGCTGCCGCTGCTGGCCGAAGGCTGGGGGCCGCACTTCGTCGGCACCAGCAACGTCTATTTCGCCAAGCTGCACGGCTACACCCCGCTGGGCACGATGGCGCACGAGTACCTGCAGGCATTCCAGGCGCTGGGGCCGCGGCTGCGCGACTCCCAGGTCGCGGCGCTGGAGTCGTGGGCGCGCGAGTACCGCGGCGACCTCGGCATCGCGCTGTCGGACGTGGTCGGCCTGGATGCGTTCCTGCGCGACTTCGACCTGTACTTCTGCAAGCTGTTCGACGGCATGCGCCACGACTCGGGCGATCCGTTCGCCTGGGGCGACCGCATCATCGCCCACCTCGAGCACCACCGCGTCGACCCGCGCGGCAAGGTCCTGGTGTTCAGCGACGGGCTGGACATCCCCAAGGTGCTGCAGCTGTACAAGCACTTCCACGGCCGCTGCCGGCTGTCGTTCGGGGTCGGCACGCACCTGACCAACGACCTGGGGCCGCAGCCGCTGAACATCGTGATCAAGATGACCCGCTGCAACGGCCAGCCGGTGGCCAAGCTCAGCGACTCGCCGGGCAAGAGCATGTGCGAGGACCCGGGCTACCTGCGCTACCTGCGGCAGGTGTTCGAAGTGCCCGACGAGGCCCCGGCCGCCGGCTGA	MIITSLLDTDLYKFTMMQAVLHQHPAAQVEYRFRCRTPGVALARYLDEISRELDALCSLRFQPDELDYLRRLRFVKPDFVDFLGLFHLDRRYVELRASDSVPGEIELTIRGPWLHTILFEVPLLAIINEVWFRNTSEADFGEGRRRLQAKIELLRDVPGYEGVTIADYGTRRRYSRQWHGQLLPLLAEGWGPHFVGTSNVYFAKLHGYTPLGTMAHEYLQAFQALGPRLRDSQVAALESWAREYRGDLGIALSDVVGLDAFLRDFDLYFCKLFDGMRHDSGDPFAWGDRIIAHLEHHRVDPRGKVLVFSDGLDIPKVLQLYKHFHGRCRLSFGVGTHLTNDLGPQPLNIVIKMTRCNGQPVAKLSDSPGKSMCEDPGYLRYLRQVFEVPDEAPAAG	PGPT0013375_3165	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013375-pncB-K00763	NA	NA
BMS020_06622	456			hypothetical protein	ATGAGTGCGTCCGATCCTTTCCAGTTGTACCGCGCCCGCGCGTGTTCGCCGCAGTGGCGTGGTTTCGTGCGCGCGCTCGCCGACGAGTTCGCCGAGGAATTGCCCGAAGCCGAGGCCGCGCTGTTGATGGCGCGGATCGGGCGGCGTTTCGCCCAGGCCCATCCGCTCGGCGCATGCACCTCGCTGGCAGAGGTCGAAACGGCCGCGAACCGGGTCTGGAGCGAGGTGGACTGGGGCGGCTGCGACATGGCCGAGCAGGCCGATTGCGTGGAGATCCGCCACGGCGGCGCGCCGCTGGGCGTGGCGCTGTCCGGTCACGACTGGAGCGACGGCTTCCTCGAAGGGGTCTACGAGGGCTGGTTCCAGCAGCTGGGCATGCTGGCCGGACTGGCGGTGCGGCGCGCGGCGCCGGCCTCGGCCGACCTGCGCCTGTTCCGGCTGGGCCGCGCAGGCTGA	MSASDPFQLYRARACSPQWRGFVRALADEFAEELPEAEAALLMARIGRRFAQAHPLGACTSLAEVETAANRVWSEVDWGGCDMAEQADCVEIRHGGAPLGVALSGHDWSDGFLEGVYEGWFQQLGMLAGLAVRRAAPASADLRLFRLGRAG				NA	NA	NA	NA	NA
BMS020_06623	330			hypothetical protein	ATGTCCGACACCAAGAGCAAACAGGGCGAGGGGAGCGACGACGTCGCCGGCCTGTTCGCGCGCGTCGGTGGCGCGCAGGGCTACCACGACTTCGCTTACCAGGCGCTGCCATCGCGCCCGGCTGCCGTGCCGCCGCCGGTACCGCCGCAGGCAGCGCCGCTGCGCAAGCTGCGCGCCGGCGATGCCACGCCGGCCACGCCGGTCCAGGCGCCGCTCGCGGCGGCCGCGCCGGTCGCAGCCACGCCGTTGGCCGAGCTGTTCGCACGGCTGCTGCGCGAAGGCGCGCCGGCCCGCGGCGACGGCCCGCTCAAGCGCATGCTCGCGCGCTGA	MSDTKSKQGEGSDDVAGLFARVGGAQGYHDFAYQALPSRPAAVPPPVPPQAAPLRKLRAGDATPATPVQAPLAAAAPVAATPLAELFARLLREGAPARGDGPLKRMLAR				NA	NA	NA	NA	NA
BMS020_06624	2145	bcsA_2	COG1215	Cellulose synthase catalytic subunit [UDP-forming]	ATGGCTGAAGCCGTGACCCATCCCCGATCCATCCTGCCGGCATTGGCGACCTGGGCGTTGTGGCTGCTCGGTGCGGTGCTGTTGGTGTTCGTGGTGGCGGTGCCGATGGAGGTCACCCAGCAGATGGTGTTCTCGGCGGTGCTGTTCGCGCTGGCGCTGGCGTTGCGCCGGCGCGGCGGGCGCGTGGTCGTGCTGATGATGATGGGCATGTCGCTGGCGGTGTCCTCGCGCTACATGTGGTGGCGCACCACCCAGACCATGGGCGTCGGCAACGCGCTGGATTTCCTGCTCGGCCTGGGCCTGCTGCTGGCCGAACTGTATGCGTTCGTGATCCTGCTGCTCGGGTATTTCCAGGTGCTGTGGCCGTTGAACCGCAAGCCGGTGCCGCTGCCCAGCAACCAGGACGAATGGCCCAGCGTCGACGTGTTCATCCCGACCTACAACGAGCCGTTGTCGGTGGTGCGCACCACGTTGCTGGCGGCCAGCGTGCTCGACTGGCCGGCCGACAAGCTCAACATCTACCTGCTCGACGACGGCCGCCGCGATGAATTCCGCGCGTTCTGCGAGGAGCTGGGTGTCCATTACGTCACCCGCACCAACAACAACCACGCCAAGGCCGGCAACATCAACGCTGCGCTGAAGAAGTCCAGCGGCGAGTACGTGGCGATCTTCGATTGCGACCACATCCCGACCCGCTCGTTCCTGCAGGTGGCGATGGGCTGGTTCCTGCGCGACGACAAGCTGGCCGTGGTGCAGATGCCGCACTACTTCTTCTCGGCCGATCCGTTCGAGCGCAACCTCGACACCCACGGCAAGGTGCCCAACGAGGGCGAGCTGTTCTACGGGTTGCTGCAGGACGGCAACGACCAATGGAACGCCACCTTCTTCTGCGGCTCGTGCGCGGTGATCAAGCGCGGTCCGCTGGAAGAGGTCGGCGGCGTGGCGGTGGAGACGGTCACCGAGGACGCGCATACCGCGCTGAAGCTGCACCGCCGCGGCTACCGCAGCGGCTACATCGCGATCCCGCAGGCCGCCGGCCTGGCCACCGAAAGCCTGTCCGGGCACGTCGCCCAGCGCATCCGCTGGGCGCGCGGCATGGCGCAGATCGCCCGCATCGACAACCCGCTGCTGGGGCGCGGACTGAAGCTCTCGCAGCGGCTGTGCTACTTCAACGCGATGATGCACTTCTTCTACGGCGTGCCGCGCATCGTCTACCTCACCGCGCCGCTGGCGTTCCTGTTCTTCGGCGCGCACGTGATCCATGCCTCGGCGCTGATGATCCTGGCCTACGCGCTGCCGCACATCCTGCAGGCCAACATCACCAACCTGCGCACCCAGGGCAAGTTCCGCCACCTGCTGTGGAACGAGGTCTACGAGACCACGCTGGCCTGGTACATTCTGCGCCCGACCCTGGTGGCGCTGATCAACCCGAAGCTGGGCAAGTTCAACGTGACCCCGAAGGGCGGCCTGGTCGAGCAGAGCTATTTCGACCGCCAGATCGCCAAGCCGTACCTGTTCCTGCTGACCTTGAACCTGGTCGGCGTGCTCGCCGGCGCGCTGCGGCTGATGTACGTCAGCGATACCGGCGAGATGCACACGATCTGGTTCAACCTGGGCTGGACGCTCTACAACATGCTGCTGCTCGGGGCGACCATCGCCACCGCCAGCGAGAGCCGCCAGGTGCGGCGCTCGCACCGTGTGCCGCTGGACATCCCGGCCACGCTGTACCTGCCCGACGGGCGCGCGCTGGCCTGCCGCACGCAGAACTTCTCCACCGGCGGCATGGCGCTGCGGCTGCAGCAGCCCGAGCCGATCGAGCCGGGTGCACTGGTCCAGGTCGGGCTGAGCTACCGCGGCGTCGAGCGCCCGCTGCCGGCCGAGGTCCGCCATGACCGTGACGGCGTGATCAGCATCCAGTTCGCCGAGATGGGTGTGGAACAGGAGCGCTGGCTGGTCGCATCGACCTTCGCCCGCGCCGACATCTGGCTGCCGCAGTGGGGCCAGCACGACCGCGACTCGTTCTTCCGCTCGGTGCTGCAGGTGCTGGCGGCGAGCATGCGCGGCTTCGCCACGCTGGGCCGTTACGTCACCGACAGCCTGCGCTCTGGCTTCCGTCCGGCGCGCGCCGGCAACGGGGAGGCCTGA	MAEAVTHPRSILPALATWALWLLGAVLLVFVVAVPMEVTQQMVFSAVLFALALALRRRGGRVVVLMMMGMSLAVSSRYMWWRTTQTMGVGNALDFLLGLGLLLAELYAFVILLLGYFQVLWPLNRKPVPLPSNQDEWPSVDVFIPTYNEPLSVVRTTLLAASVLDWPADKLNIYLLDDGRRDEFRAFCEELGVHYVTRTNNNHAKAGNINAALKKSSGEYVAIFDCDHIPTRSFLQVAMGWFLRDDKLAVVQMPHYFFSADPFERNLDTHGKVPNEGELFYGLLQDGNDQWNATFFCGSCAVIKRGPLEEVGGVAVETVTEDAHTALKLHRRGYRSGYIAIPQAAGLATESLSGHVAQRIRWARGMAQIARIDNPLLGRGLKLSQRLCYFNAMMHFFYGVPRIVYLTAPLAFLFFGAHVIHASALMILAYALPHILQANITNLRTQGKFRHLLWNEVYETTLAWYILRPTLVALINPKLGKFNVTPKGGLVEQSYFDRQIAKPYLFLLTLNLVGVLAGALRLMYVSDTGEMHTIWFNLGWTLYNMLLLGATIATASESRQVRRSHRVPLDIPATLYLPDGRALACRTQNFSTGGMALRLQQPEPIEPGALVQVGLSYRGVERPLPAEVRHDRDGVISIQFAEMGVEQERWLVASTFARADIWLPQWGQHDRDSFFRSVLQVLAASMRGFATLGRYVTDSLRSGFRPARAGNGEA	PGPT0022275_917	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0022275-bcsA|yhjN|celA-K00694	NA	NA
BMS020_06625	2343	bcsB_3		Cyclic di-GMP-binding protein	GTGTCCGTCTCCCGATCCGTGTTCCGCTTCCGCAAGAATCCGCCGATGCGCCTTCGTCCCGCCCTGTCCGCCTGCGTCCTCACCCTGCTCGCCGGCCTGGCCCAGGCCCAGGCGCCCGTCGCGCCGGCCGCGCCTTCGCTGCCGCCGACCGAGGCGCCGCCGCCGCCGGCGCCATCGCCGTTGGCCAGCCAGCGCACCGAGACGCTGCGCAGGCTCGGCATGGACTACGAGATCACCCTGCGCGGCATCCAGGGCAATGCCGGCGTGCCGTTCAGCGTGCGCGCCGACGAGATCGTCGATGCGGCGGCGCTGCACCTGAAGTACAGCTACTCGCCGGCGCTGCTGGCCGATGTCTCGCACCTGCGCATCACCGTCAATGGCGTCACCGTCGCCACGCTGCCGGTGGAGATCGGCAAGGGCGGGCGGCCGCAGGAGGCCGACGTGCCGATCGATCCGCGGCTGATCACCGGCTACAACCAGATCAACCTGCAGCTGATCGGCCACTACACCCGCGACTGCGAGGACCCGGACCACACCAGCCTGTGGGCCAACATCGACGCGGCCAGCACCCTGAGCCTGACCACCACGCCGGTGGCGCTGGCCAACGACCTGGCGCTGCTGCCGGCGCCGTTCTTCGATTACCGCGACACCCGCAAGCTGGAACTGCCGTTCTACTTCCCGCAGCGTCCTGACCTGGAGACGCTGCAGGCCGCCGGCATCGTGTCCTCGTTCTTCGGCACGCTGTCGGGCTACCGCGGCGCCGCGTTCCCGGTCTCGACCGCGGCGCTGCCGGTCAGCGGCAACGCGGTGGTGCTGGCCACGCCGTCGACGCTGCCGCCGCAGCTCACGGCGCTGGAGCCGGGGCTGGCCGACCTGCGCGGTCCGACCGTGGCGATCGTCGCCAACCCGGGCGATGCCAACGGCAAGCTGCTGCTGGTGCTGGGCCGCAATGCCGCCGAGCTGCGCCAGGCCGCCACCGCGGTGGCACTGCGTGCGCCGCTGGCCGGCGCGGTCGCCAGTGTCGGCGACCTGCAGCAGCCGGCGCCGCGCAAGCCCTACGACGCACCGAAGTGGATTTCCAGCGAGCGTCCGGTGCGTTTCGGCGACCTGGTGGCGCGTCCGGAGCAGCTCAACGTCAGCGGCTACCACCCGGACCTGATCCGGGTCGGTCTGCAGCTGCCGCCGGACCTGTTCGTGTGGAAGAGTGACGGCATCCCGGTCAACCTCAAGTACCGCTACACGGTGCCGGAAGAGCAGAACCGCTCGGCGCTCAACATCAGCATCAACGATGCGTTCGTGACCACGCTGCCGCTGGACGGCCATCCGTACGCGCAGTCGCTGCCGGCGCGCTGGTGGCAACGGCTGGGTGCGCGCGGGGCGATGCCGGTGGAACAGCCGCTGGCGCTGCCGACCGGGCCGTTCTCGGCCAACAGCCAGCTGCGCTTCCACTTCTTCTTCGACCGCCCGCAGGCCGAGGCGTGCAAGAACACCTTCCCGGACGTGTCCGGGGCGATCGACGCCGATTCGACGATCGATCTCAGCGGCTTCCCGCACTACATGGCGATGCCGAACCTGGCCGCGTTCGGCAACGCGGGCTATCCGTTCACCCGCCTGGCGGATCTGGCCGAGTCGACCATCGTGCTGCCGGAGCGTCCCGGCGACGCCGATTTCGGCAACGTGCTGACCCTGCTCGGCCGCTTCGGCGCCTCCACCGGCTACCCGGCGCTGCGCGCCAGGCTGGCCGCGCCGGGCGCGGCGACCGACGATGGCGACCGCGACCTGATCGTGCTCGGCTCGAAGCTGTCGCAGCCGTTGTTCGCCAAGTGGAAGGACCAGCTGCCGGTCAGCCAGGGCCAGGCCGGCAACCGCTTCGTGCTCAGCGACTGGCTGCTGTCCAAGCTGCCCGGGTTCCTGTCCTTCGATGCGCGCCGCACCGACCTGCCGGCCGCGGCCGAGGTGTCGCTGCAGGCGCAGCCGGGCGACGTGCTGGTGATGGGGTTCGAGTCGCCGCTGGCCGCTGGCCGCAGCGTGGTCGCGGTGCAGACCGACGATCCGTCCGGCATGGACCGCTTCTTCGATGCGCTGACCGATCCTGAGCGCCTGGCCAAGGTGCAGGGCGCGGTGGTGCTGCTGCACGGCGACAAGGTCACCAGCCTGGCCGGCAACCAGACCTACTACGTCGGTCACCTGCCGCTGTTCACCTGGCTGCGCTGGTACTTCTCCAACCACCCGGTGTGGCTGGCGCTGTCGGTGGCCGCACTGAGCCTGCTGCTGGCGCTGGCCGCGCGCGTGCTGCTGCGCCTGCACTCGGCGTTCCGCCTGCGCGAGGGCCGCCACCGGTGA	MSVSRSVFRFRKNPPMRLRPALSACVLTLLAGLAQAQAPVAPAAPSLPPTEAPPPPAPSPLASQRTETLRRLGMDYEITLRGIQGNAGVPFSVRADEIVDAAALHLKYSYSPALLADVSHLRITVNGVTVATLPVEIGKGGRPQEADVPIDPRLITGYNQINLQLIGHYTRDCEDPDHTSLWANIDAASTLSLTTTPVALANDLALLPAPFFDYRDTRKLELPFYFPQRPDLETLQAAGIVSSFFGTLSGYRGAAFPVSTAALPVSGNAVVLATPSTLPPQLTALEPGLADLRGPTVAIVANPGDANGKLLLVLGRNAAELRQAATAVALRAPLAGAVASVGDLQQPAPRKPYDAPKWISSERPVRFGDLVARPEQLNVSGYHPDLIRVGLQLPPDLFVWKSDGIPVNLKYRYTVPEEQNRSALNISINDAFVTTLPLDGHPYAQSLPARWWQRLGARGAMPVEQPLALPTGPFSANSQLRFHFFFDRPQAEACKNTFPDVSGAIDADSTIDLSGFPHYMAMPNLAAFGNAGYPFTRLADLAESTIVLPERPGDADFGNVLTLLGRFGASTGYPALRARLAAPGAATDDGDRDLIVLGSKLSQPLFAKWKDQLPVSQGQAGNRFVLSDWLLSKLPGFLSFDARRTDLPAAAEVSLQAQPGDVLVMGFESPLAAGRSVVAVQTDDPSGMDRFFDALTDPERLAKVQGAVVLLHGDKVTSLAGNQTYYVGHLPLFTWLRWYFSNHPVWLALSVAALSLLLALAARVLLRLHSAFRLREGRHR	PGPT0022280_592	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0022280-bcsB|celB-K20541	NA	NA
BMS020_06626	1179	bcsZ_2	COG3405	Endoglucanase	GTGAGCGACGCCGGCGCGCCCGCTTGCGCCGCCCGCCGCCGCCTGTTGCAGGCCGCGGCGCTGGCCGGCGTGGCCGCGACGTGTCCGCCGCTGTTGGCCGCCGCGCCCGGATGCGGCGCGTGGCCGGCGTGGCAGTCGTTCGTGGCCAAGCACATTTCTCCGGATGGCCGGGTCATCGATTTCGCCACCCCGGACCAGCGCTCCACCTCCGAAGGCCAGTCCTACGCGCTGTTCCTGGCGCTGGTCGCCAACGACCAGCTGCTGTTCGAACGCGTGCTGGGCTGGACCCGGCACAACCTGTGCGGCGGCCGTCCCGACCTGCGTCTGCCGGCGTGGCTGTGGGGGCGCGCGGCGGATGGCAGCTGGCGCGTGCTCGACGAGAACACGGCCACCGACGCCGACATGTGGATCGCCTACGCGCTGCTGGAAGCGGGCAGGCTGTGGCAGCGCCCCGGCTACATCAGCGCGGGCCGGCAGATGCTCAAGCTGGTGCAGGCGCAGGAAGTACGCACGCTGCCGGGCCTGGGCGCGATGCTGGTGCCTGGCCGCGAGGGCTTCGCCCGCGACGGCCGCTGGACCTTGAATCCGAGCTACCGCCCGCTGCAGCTGCTGCGCCGCTTCGCCGCGATCGACCCGAAGGGGCCGTGGGCGGCGATCGCCCGCGGCAGCGCGCGGATGATCCACGACGCGGCGCCGGTCGGATTCGTGCCGGACTGGGTCGGCTGGGACGGCAAGGCGTTCGGCATCGATCCGGGCAAGGGCAACGTCGGCAGCTACGACGCGATCCGCGTGTACCTGTGGGCCGGCATGCTCGATCCGGCCGATCCGCTGCGTGCGGCGTTGCTGCGCGATCTGTCCGGGCCGCAGCAGATGCTGAAGGCGCAGGGCAGTTTCGCCGAGAAGATCGACACCACCCGCGGCGTCGGCAGCGGCGTGGCGCCGGTGGGCTTCTCCGCCGCGCTGCTGCCGTACCTGAGCGCGCTGCGCGAGCCGGCGCTGCTGAAGGCCCAGGCCCAGCGCATTCCCGACGCCAAGCAGCCGGCGGCAGAAAAACTTCCCTACTACGAGCGGATGCTGGTGCTGTTCGGCCAGGGCTGGCTCGACACCCGTTACCGCTTTTCCGCAGACGGGCGCCTGCTGCCCGCCTGGAGGTCCTCCGCATGCTCCGCCCGTCCCTGA	MSDAGAPACAARRRLLQAAALAGVAATCPPLLAAAPGCGAWPAWQSFVAKHISPDGRVIDFATPDQRSTSEGQSYALFLALVANDQLLFERVLGWTRHNLCGGRPDLRLPAWLWGRAADGSWRVLDENTATDADMWIAYALLEAGRLWQRPGYISAGRQMLKLVQAQEVRTLPGLGAMLVPGREGFARDGRWTLNPSYRPLQLLRRFAAIDPKGPWAAIARGSARMIHDAAPVGFVPDWVGWDGKAFGIDPGKGNVGSYDAIRVYLWAGMLDPADPLRAALLRDLSGPQQMLKAQGSFAEKIDTTRGVGSGVAPVGFSAALLPYLSALREPALLKAQAQRIPDAKQPAAEKLPYYERMLVLFGQGWLDTRYRFSADGRLLPAWRSSACSARP	PGPT0012170_253	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CELLULASES,PGPT0012170-bcsZ|wssD|yhjM-K20542	NA	NA
BMS020_06627	2031			hypothetical protein	GTGCGCGCGCAGCAGCACACTGGCGTACTGCAGGCGCGCGTCGGCATCGACGTTCGGGCCGGCCACCAGCTTCTGGCCCAAGGTCAGCGCACGCTGCGCGTTGCCGATGTCGGCGTAGGCACCGGCCATCGCCGCCAGCACGTCGGGCTGGCCGAGCTGGTCGCCGAGCGCCGACTCGGTGCGCGCCAGCAGCATCTGCGCCTCGCCGCTGCGGCCCTGTTGCTGCAGCAGGCGTGCCTGCCGCGCCTGCATCTCGACCCAGGCGATGCTGCCGAGGCGGTTGATCTCGCCGGTGCGCGCCGCTTCCGGGATGCGCTGCACGCTGGCGTAGGCGGTCGGCCAGTCGCCGGCTTCCTGCGCGTACAGGGCGTTGGCCTGCAACGCTTCCGGGGTATCGCCGTGCGCGGCCATCAGCCCGTCCATCACGCTGCGGGCCTGGTCCGGGCGCCCGATCTGGCGGTACAGCCGCGCCAGGTCGAGGCGGATCCACGGATCGCCCGGCCGTTCGACCATCGCCGCTTCCAGCTCGCCCTGCGCGGTGCCGGTATCGCCGGCTTCGAGCGCCTGGCGCGCACGCGCGCGCTGCACGTTGGAGCGCAGCATCGCCTCGCCGCCGGACTTGGCGCGGTCGGCCGCGGACAGCCGGTTGAACAGGTCGCTGGCTTCCTGCATGCGGCCCTGGCGGCTGTACAGGCCGACCAGGCCCTGCAGCGCGCCGGCATTGTCGGCATCCAGCGCCAGCGCCTTGCGGTAGTTGGCTTCGGCGGCATTGGCGTCGTCGCCGGCCTGCAATCCGGCCAGCGCGACGTAGGCGGCCGGCTCGCGCGGTTGCAGGTTGATCGACTGCTGCACCAGGCGCATCGCGCCGGCACGATCGCCGCCCTGGCGCGCCGCCTCGGCCTGCTGCAGCTGCTGCCAGTAGCGCGCCGAGTCGTAGGCGCTCTTCCACTTGCCGCTGGCCGCCGCAGCCGGGCGCAGCAGTTCCAGCGCTTCGGGGAAGCGCTGCTGGCGCAGCCGCACCGAACCGAGCCCGCCGAGCGCGTCGGTATCGCGCGGACGTGCGCGCAACACCTGGGTGAAGCGCTGCTCGGCCGTGGCCAGGTTGCCGGCGTTGAGCGCCTTGAAGCCGTCGGCCAGCAGCGGGCCATTGGGGTCGGCCGCCGGCGCAGCGCGGCGTTCGCGCAGCTGCGCGAGCTTGGCGCTGATCTCGGCATCGCCCGGCGTGCCGGCGAGGAAGGCCTGGTACAGCGGCGCATCGTCCGGCGTCGCCGCCAGCCACAGCAGCGCCTGGCGCCACGCGGCGCGGGCCGGACCGCCGGTATCAGCGCGACCGGCGAGCGCGCGCAGCTCGGCGATCGCCTGCCGGCGCGTCGGCTCGCGGTAGCTCAGCACCTGCGCCGAGGCCAGGGCGACGGCGGAATCGTCGGGCGACGCCGCGTGCAGGCGCTGCAGACCATCGCGCGCGCGCTGCCAGCCCTGCGGGGTGCCGGCCAGCGACTGGTAGTACTCCAGCGCCAGCTGCGGCGGCGGTTCCTTGCCCTGGAAGCTGGCCTCGTACCCGCGCACCGCCTCGACGTAGCGTCCGGCCGCCGCGGCGCGGCGCGCCGAGGCCAAGTTGGGATCGCTGCCGGCGCCGGCACTGCCCTGCCCACCCAGCGCCATGCGCAGGCGCTGGCCCTGCGCCGACTTCGGGTGCGCGGCATCGAGCTGCTGCTGGTATTTGCGCGCCTCGGCCTGGTGCCCCTGGGCCAGTTCGATCTGCGCCAGCCCCGCCAGCGCATCCGGCTGGGTCGGGTCGATCGCAAGCAGCTTCTTCCAGGTATCAGCGGCAAGGTCGTCGCGGCCCTGGTCGTGCCAGTAGTTGCCCTGGCTGACGAGCTGGCGGGTCGCGGCGCTGTCCTGCGCGTGCGCCGGCACGGCCAGCAGGCACAGGTCGATGACACCGGCGAGATAAAGCGGCTTCAGGGACGGGCGGAGCATGCGGAGGACCTCCAGGCGGGCAGCAGGCGCCCGTCTGCGGAAAAGCGGTAA	MRAQQHTGVLQARVGIDVRAGHQLLAQGQRTLRVADVGVGTGHRRQHVGLAELVAERRLGARQQHLRLAAAALLLQQACLPRLHLDPGDAAEAVDLAGARRFRDALHAGVGGRPVAGFLRVQGVGLQRFRGIAVRGHQPVHHAAGLVRAPDLAVQPRQVEADPRIARPFDHRRFQLALRGAGIAGFERLARTRALHVGAQHRLAAGLGAVGRGQPVEQVAGFLHAALAAVQADQALQRAGIVGIQRQRLAVVGFGGIGVVAGLQSGQRDVGGRLARLQVDRLLHQAHRAGTIAALARRLGLLQLLPVARRVVGALPLAAGRRSRAQQFQRFGEALLAQPHRTEPAERVGIARTCAQHLGEALLGRGQVAGVERLEAVGQQRAIGVGRRRSAAFAQLRELGADLGIARRAGEEGLVQRRIVRRRRQPQQRLAPRGAGRTAGISATGERAQLGDRLPARRLAVAQHLRRGQGDGGIVGRRRVQALQTIARALPALRGAGQRLVVLQRQLRRRFLALEAGLVPAHRLDVASGRRGAARRGQVGIAAGAGTALPTQRHAQALALRRLRVRGIELLLVFARLGLVPLGQFDLRQPRQRIRLGRVDRKQLLPGISGKVVAALVVPVVALADELAGRGAVLRVRRHGQQAQVDDTGEIKRLQGRAEHAEDLQAGSRRPSAEKR				NA	NA	NA	NA	NA
BMS020_06628	702	metP	COG2011	Methionine import system permease protein MetP	ATGAGCGTCGCGATGATCGTCGCCGCCGCGGACGGCTTCTTCCGCAACCTCGATGCGGCCAAGTGGCGCGAGATCGGCCAGGCCTGCATCGACACCCTGCTGATGCTGGCCGGCTCGTTGCCGTTGACGCTGGCGCTGGGCCTGCCACTGGGCGTGGCGCTGTTCCTGACCGGCTCGCCGCAGCTGCGCCGCCGGCCACGGCTGTACGGCGTGCTGGCGCTGGTGGTGAACCTGCTGCGCTCGGTGCCCTTCATCATCTTGATGATCGCGATGATCCCGCTGACGCTGGCGGTGATGGGCAGCTCGCTCGGCGTGCGCGGCGCGATCCTGCCGCTGGTGGTCGGCGCCGCGCCGTTCTACGCGCGGCTGGTCGAAACCGCGCTGCGCGAGGTCGATCGTGGCGTGGTCGAGGCCAGCCAGGCGATGGGCGCGACCACCGCGCAGCTGGTGTTCAAGGTGCTGCTGCCGGAAGCGCGGCCCGGACTGATCGCCGGTGCCACCGTCACCACCATCGCGCTGATCGGTTTCACCGCGATGGGCGGTGCGATCGGCTCGGGCGGCCTGGGCGACGTCGCCTATCGCGATGGCTACCTGCGCGCGCATTCGGATGTGGCGCTGGTCACGGTGATCGCGCTGCTGGTGCTGGTGCAGCTGCTGCAGATGCTCGGCGACCGGCTGGTGGCGCATTACAGCCGCAAATAA	MSVAMIVAAADGFFRNLDAAKWREIGQACIDTLLMLAGSLPLTLALGLPLGVALFLTGSPQLRRRPRLYGVLALVVNLLRSVPFIILMIAMIPLTLAVMGSSLGVRGAILPLVVGAAPFYARLVETALREVDRGVVEASQAMGATTAQLVFKVLLPEARPGLIAGATVTTIALIGFTAMGGAIGSGGLGDVAYRDGYLRAHSDVALVTVIALLVLVQLLQMLGDRLVAHYSRK	PGPT0020515_400	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072	NA	NA
BMS020_06629	1152	metN_3	COG1135	Methionine import ATP-binding protein MetN	ATGGCCCGAGGCCACCCAGAGCCGCTCCTACAGGAGCTGGTGGCCAGCGACCGCGCGTCGCATAGAATCAGATGGAATAACGCCTGCCGGCCCGGGCTGGTAGGCTTCCCGCCCCTCACCTCCCCCCAACCGGTCCCACGCGCGGTGATCCAGTTCCAGCGCCTGCACAAGTCCTATTCCGTCGCCGACCGCGAGGTGGTCGCGCTGCATCCGCTCGACCTGGAGATCCGGGCCGGCGAGGTGTTCGGCATCATCGGCCATTCCGGCGCCGGCAAGTCCACGCTGATCCGGCTGATCAACCGGCTGGAAGAGCCCACGGGCGGGCGCCTGCTGATCGACGGCGAGGACGCCACTGCGCTCGACCGCGATGGCCTGCGCGCGCTGCGGCGCCGGATCGGGATGATCTTCCAGCACTTCAACCTGCTGTCCTCGCGCACCGTGGCCGGTAACGTCGGCTTCCCGCTGGAGCTGGCCGGCACCCCGCGCGCCGAGATCGAGGCGCGCGTGGCCGAGCTGCTGGAGACGGTCGGCCTGCAGGCGCATGCCGACAAGTATCCGGCGCAGCTGTCGGGCGGGCAGAAGCAGCGCGTCGGCATCGCCCGCGCGCTGGCCACCCGCCCACAGATCCTGCTGTGCGACGAGGCCACCAGCGCGCTCGACCCGCAGACCACCGCCGCGGTGCTGGCGCTGTTGGCGAAGATCAACCGCGAGCTCGGCCTGACCATCGTGCTGATCACCCATGAGATGGATGTGATCCGCCGCGTCTGCGACCGCGTCGCGGTGCTCGATGCCGGCCGGCTGGTCGAAAGCGGGCCGGTCACCGAGGTGTTCCTGCATCCGCAGCACCCGACCACGCGGCGCTTCGTCTCCGAGGCCGAGCATGTCGACGAGGGCGAGCTGCACCGCGACTTCGCCGCGGTCGGTGGGCGCATCGTGCGGCTGACCTTCCTTGGCGGCGACACCTACCAGCCGCTGCTCGGGCGCATCGCGCGCGACACCGGCGTCGACTACAACATCCTGTCCGGGCGCATCGACCGCATCAAGGACACCCCGTACGGCCAGCTCACCGTGGCCCTGGTCGGTGGCGACCTCGACGCCGCGCAGGCCGGCTTCGTCGCCGCCGGCGTCCATGTCGAGGAGCTGCGCGCATGA	MARGHPEPLLQELVASDRASHRIRWNNACRPGLVGFPPLTSPQPVPRAVIQFQRLHKSYSVADREVVALHPLDLEIRAGEVFGIIGHSGAGKSTLIRLINRLEEPTGGRLLIDGEDATALDRDGLRALRRRIGMIFQHFNLLSSRTVAGNVGFPLELAGTPRAEIEARVAELLETVGLQAHADKYPAQLSGGQKQRVGIARALATRPQILLCDEATSALDPQTTAAVLALLAKINRELGLTIVLITHEMDVIRRVCDRVAVLDAGRLVESGPVTEVFLHPQHPTTRRFVSEAEHVDEGELHRDFAAVGGRIVRLTFLGGDTYQPLLGRIARDTGVDYNILSGRIDRIKDTPYGQLTVALVGGDLDAAQAGFVAAGVHVEELRA	PGPT0020520_419	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
BMS020_06630	897	cntI		Pseudopaline exporter CntI	ATGACTCCCGACCGCCACCCCGCCCGCGCCGCGCTCGCCATGCTCGGCGCGATCGCCGCGTTCTCGCTGATGGACGCGGCGATGAAGCAGCTGTCCAGCCACTACCCGCAGATGCAGGTGACGATGCTGCGCGGCGCCTCGTCGCTGCCGTTCGTGCTGGCCTGGGTGCTGCACGGCGCAGGCCTGCGCGCGGTGCTGCCGCGGCGCTGGGCGCCGCAGCTGCTGCGCGGGGCGCTCGGCATCGCGATGATCTGGTGCTTCGTCTACGGACTGCGGCAGATGCCGTTGTCGACCGCCTACACGATCTACTTCGTCTCGCCGCTGCTGGTGGCGATGCTGTCGGTGCCGCTGCTCGGCGAGAAGGTCGGGCCGCGGCGCTGGACCGCGATCGCCATCGGCCTGGTCGGGGTGATCGTGGTGCTGCGCCCGGGCACGGCCGGGCTGATCTCGGTGCCCGGGCTGGCGGTGCTGGCGGCGGCGCTGAGCTATGCGATCGCCTCGGTGCTGGTCAGCCGGTTGGCGCGCAGCGAGACCCCGCAGTCGCTGGTGGTCTGCTTTCTGGTGGTGATGGCGCTCGGGGCCGGGGTCATGGCGATCCCGGACTGGGTGCCGCTGCGCGGCGCCGACCTGTGGCTGATCGCCGGCATGGGGCTGGCCGGGGCGCTGGGGCAGATCGGCCTGACCCATGCGTTCCGGCTTGGCGAGGCGTCGATGGTGGCGCCGCTGGAATATGCCGGGCTGCTGTTCGTGCTGGCCTGGGACTGGCTGTTCTGGCAGACCCTGCCGGACCGCGCGACCTGGATCGGCGCGGCGATCATCGTGGTTAGCGGGCTGTACCTGATGCGCCGCGAGCGCGTGCGCAAGGTCGAACCGCCAACCAGCCTCGATCATCCCTGA	MTPDRHPARAALAMLGAIAAFSLMDAAMKQLSSHYPQMQVTMLRGASSLPFVLAWVLHGAGLRAVLPRRWAPQLLRGALGIAMIWCFVYGLRQMPLSTAYTIYFVSPLLVAMLSVPLLGEKVGPRRWTAIAIGLVGVIVVLRPGTAGLISVPGLAVLAAALSYAIASVLVSRLARSETPQSLVVCFLVVMALGAGVMAIPDWVPLRGADLWLIAGMGLAGALGQIGLTHAFRLGEASMVAPLEYAGLLFVLAWDWLFWQTLPDRATWIGAAIIVVSGLYLMRRERVRKVEPPTSLDHP				NA	NA	NA	NA	NA
BMS020_06631	486			hypothetical protein	ATGCCTTCCTTCGACGTGGTGTCCGAAGTCGACAAGCACGAACTGACCAATGCCGTGGACCAGGCCAACCGCGAGCTGTCCACGCGCTTCGACTTCAAGGGCGTGGATGCCAAGTACGTGCTCGAGGACGAGAAGCTGATCAACCAGTCGGCGCCGAGCGACTTCCAGCTCAAGCAGATGGGCGACATCCTGCGCCAGCGCCTGAGCGCACGCGGCATCGACTTCCGCTGCCTGGAGTTCGGCGACATCGAGACCAACCTGGCCGGCGCGCGGCAGAAGATCACCGTCAAGCAGGGCCTGGAGCAGAAGCAGGCCAAACAGCTGGTGGCCAAGCTCAAGGAAGCCAAGCTCAAGGTCGAGGCGCAGATCAACGGCGACAAGCTGCGCGTGACCGGCAAGAAGCGCGACGACCTGCAGGACGCGATCGCGCTGCTGAAGAAGGCCGACTTCGAGCTGCCGCTGCAGTTCGACAACTTCCGCGACTGA	MPSFDVVSEVDKHELTNAVDQANRELSTRFDFKGVDAKYVLEDEKLINQSAPSDFQLKQMGDILRQRLSARGIDFRCLEFGDIETNLAGARQKITVKQGLEQKQAKQLVAKLKEAKLKVEAQINGDKLRVTGKKRDDLQDAIALLKKADFELPLQFDNFRD	PGPT0012210_1514	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0012210-yajQ-K09767	NA	NA
BMS020_06632	1107			hypothetical protein	ATGGGCCAGGGTGGAGCGTTGCAGGCGACGCAGCAGCAACTGCAGCGGGCGCGACGCCGGTTTGCCGAGGGCGGCAGCCTGCCGGACGACCTGCTGCCGGGGTCGCTGCTGCGCTCCTGGGAGCGCTCGCGGGCGAGCGGCATGCGGCCCTGGGACGCGCCGAACTACGAGGCGCTGCAACCGCGCGGCAATCCGCGCGAACATCCCGACGACCGCCGCCTGGTGGCCAGCGTCGAGGCCGACATCGAGCAGCTGTGGCAGGCCTTCGGCGGGCGCGACTGGACCGTGTTCTGCGTCAACCCGAACGGCATGATCGTGCACCAGCGCCAGCACCGCGATGCCGATCCACGCCTGCTGCGCCCGATCCAGGTCGGGCGACGCATCCAGGAGATCGATATCGGCACCACCGCGCCAAGCTGCGTGCTCGCCGATGGCGTGCCCGCGCTGGTGCAGGGCCATCAGCACTACCTGGAGACGTTCGCGCCGGTGTCCTGCCTGTCGGTGCCGTTGCACGGCATCGATGGTGAGGTGGTCGGTGCGCTCGACATCACCGGCGTCGGCCGCCGCGATACCGGGCTGGTGCTGGCGCAGTTCCGCCAGGCCGCGTTGTCGGCGCAGACCCGCCTGTATGCCGGCCTGCGCGACTGCCACCTGCTGCGGCTGCGCTACGACGCGCGCTGGCCCGACTCGCCGCTGCAGGGCGTGCTGGCGGTGCGTGCGGATGGCAGCAGCCTGCGTGCTGCCAACCGGGTCGCGCGGCGGCTGCTGGGCTTGCCGCTGGACGGGCCGCTGCCGTTGCTGGCCCTGCATGACGTGTTCGCCACGCTAGGCCTGCAGCAGCGCCGCCGCCTGCTGCAGCCCGGCCCCGGCCGGCGGGTCACCGTGGCCGATGGCAGCGCGCTGTGGGTCGAACTATGGCGTAGCGCGCTGGGCCGCGGGCGCGCGCGCAGCGCAACGCCGGCGCCGGCGCCGGCGCCGGCGCCAGATCTGCGCGAGCAGACACGGCAGGGCGTGCTGCGGGCGCTGCGCGACAACGGCGGCAACGTCGCCGCCACCGCGCGCCAGCTCGGCATCTCGCGGACCACGCTGTACAAGAAGCTGGCCTAG	MGQGGALQATQQQLQRARRRFAEGGSLPDDLLPGSLLRSWERSRASGMRPWDAPNYEALQPRGNPREHPDDRRLVASVEADIEQLWQAFGGRDWTVFCVNPNGMIVHQRQHRDADPRLLRPIQVGRRIQEIDIGTTAPSCVLADGVPALVQGHQHYLETFAPVSCLSVPLHGIDGEVVGALDITGVGRRDTGLVLAQFRQAALSAQTRLYAGLRDCHLLRLRYDARWPDSPLQGVLAVRADGSSLRAANRVARRLLGLPLDGPLPLLALHDVFATLGLQQRRRLLQPGPGRRVTVADGSALWVELWRSALGRGRARSATPAPAPAPAPDLREQTRQGVLRALRDNGGNVAATARQLGISRTTLYKKLA	PGPT0001030_2698	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001030-acoR-K21405	NA	NA
BMS020_06633	1632	lctP	COG1620	L-lactate permease	ATGTGGCAGCAGCTGTACGACCCGCTGGGCCAGCCGCTGCTGTCGGCGCTGCTGGCGGCGGTGCCGATCCTGTGCTTCCTGCTCGGGCTCACCGTGTTGCGCCTGAACGGGCTGCTCGCGGCGCTGCTGGCGCTGCTGCTGGCCGCCGGCGTGGCCGCGTTCGGTTTCCACATGCCGCCGGCGATGATCCTCGGCAGCGCCGTGCTCGGCATCGCCAACGGGCTGTGGCCGATCGGCTACATCGTGTTGATGGCGGTGTGGCTGTACAAGCTGGTGCTGGAGAGCGGCAAGTTTGCGGTGATCCAGGACAGCATCGCGGCGATCTCGGAAGACCAGCGCGTGCAGGTGCTGCTGATCGCATTCTGTTTCGGCGGCTTCCTGGAGGGCGCCGCCGGCTTCGGCGTGCCGATCGCGATCTGCGCGGCGCTGCTGGTGCGGCTGGGCTTCGCCCCGGTGCGCGCGGCGATGCTGTGCCTGCTGGCCAATGCCGCCTCCGGCGCCTATGGCGCGATCGGCATCCCGACCCTGGTCGGCGCGCAGCAGGGCGGGGTGGCGCTGCAGGAGATGGCGCTGATGCTGATCGTGCTGCTGCAGCCGGTGGCGCTGCTGGTGCCGGCCCTGCTGGTGGCGGTGCTGGATGGCTGGCGCGGCGTACGCGAGACCTGGCCGGTGCTGCTGCTGGTCGGCGTGGTGTTCAGTGGCATGCAGACCGCGGTGCTGTACCTGCTGGGGCCGGAGCTGGTCGACATCATCCCGCCGCTGGCCGGCATGGGCGCGCTGGCGCTGTTCATGCGGGTGTGGACGCCGGCGCGGATCTACCGCGAAGCCGGGGCGCCGCAGGCGGCACCGGCACGCTGGACGTTGCCGCAGGTGCTGGCCGCATGGTCGCCGTTCTACATCCTGACCGCGACGATCCTGCTGTGGAGCCTGCCGGCGTTCAAGGCGCTGTTCGCGGCCGATGGCGTACTCGGCGCCACCGTGCTGCGCTGGCCGGTGCCCGGCCTGCACCAGGCGGTGTACGAACTGCCGCCGATCGTGGCCAGCGAGCGCGCGCTGGCCGCGGTCTGGAACATCGCCCTGGTCAGTGCGCCGGGCACGGCGATCCTGCTGGCCGTGGCGCTGACCACGCTGCTGTCGCCGCGGCTGAGCGCCGGCGGCGCGCTGGCGCAGCTGCGGCTGACGCTGGCCGAGTTGTGGAAGCCGGTGTGCATGATCAGCCTGGTGATGGCGGTGGCCTACATCGCCAACTATTCCGGCGGCTCGTCGGCGCTGGGGTTGGGGCTGGCGCAGAGCGGCCAGGTGTTTCCGCTGATCGCCCCGGTGATCGGCTGGCTGGGGGTGTTCATCACCGGCTCGGTGGTCAACAACAACACCTTGTTCGCGCACCTGCAGGCGGTCACCGCCAACCAGATCGGCACCAACGCGGCGCTGCTGGTCGCCGCCAACACCACCGGCGGGGTGATGGGCAAGCTGATCTCGCCGCAATCGATCGCGATCGCCGCCGCGGCCACCGGCAAGAGCGGTGCCGAATCGGAGATCATGCGCAGCACGCTCGGCTACAGCCTGGCGTTGCTGGCCTACGTGTGCCTGTGGACCTACGCCCTGGCCTGGCTGCTGGCGCCGTCCGCTTAA	MWQQLYDPLGQPLLSALLAAVPILCFLLGLTVLRLNGLLAALLALLLAAGVAAFGFHMPPAMILGSAVLGIANGLWPIGYIVLMAVWLYKLVLESGKFAVIQDSIAAISEDQRVQVLLIAFCFGGFLEGAAGFGVPIAICAALLVRLGFAPVRAAMLCLLANAASGAYGAIGIPTLVGAQQGGVALQEMALMLIVLLQPVALLVPALLVAVLDGWRGVRETWPVLLLVGVVFSGMQTAVLYLLGPELVDIIPPLAGMGALALFMRVWTPARIYREAGAPQAAPARWTLPQVLAAWSPFYILTATILLWSLPAFKALFAADGVLGATVLRWPVPGLHQAVYELPPIVASERALAAVWNIALVSAPGTAILLAVALTTLLSPRLSAGGALAQLRLTLAELWKPVCMISLVMAVAYIANYSGGSSALGLGLAQSGQVFPLIAPVIGWLGVFITGSVVNNNTLFAHLQAVTANQIGTNAALLVAANTTGGVMGKLISPQSIAIAAAATGKSGAESEIMRSTLGYSLALLAYVCLWTYALAWLLAPSA	PGPT0001800_1431	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_LACTATE_TRANSPORT,PGPT0001800-lctP-K03303	NA	NA
BMS020_06634	1122	xylB_4		Aryl-alcohol dehydrogenase	ATGAATGCTCAACTCCGCGATATCACCGTGGCCGTGGCGCATGCGCCGCAGCAGCCGTTCACCATCGAGCAGGCGCGCATCCGCGCGCCGCAGGGCGACGAGGTCCTGGTCAAGGTGGTCGCCACCGGTCTGTGCCATACCGACCTGATCGTCCGCGACCAGTACTACCCGGTGCCGCTGCCGGCGGTGCTCGGCCATGAAGGCGCCGGCGTGGTCGAAGCGCTCGGCCCGAACGTCAAGGACCTCAAGGTCGGCGACCACGTGGTGCTGACCTACGGCGCCTGCGGCCACTGCAATCCGTGCAGCGGCGGCCATGGTGCGTACTGCAAGGACTTCTTCGGGCTGAACTTCGGCGGCGCCGACCTCGATGGCCACACCGCGCTGCAGACCGTCGACGGCCAGCCGCTGCACGACCACTTCTTCGCCCAGTCCTCGTTCGCCACCTACGCGCTGAGCCGCGAGAACAACGCGATCAAGGTGCCGGTGGAGGCGCCGCTGGAGCTGCTCGGCCCGCTCGGCTGCGGCATCCAGACCGGTGCCGGCGCGGTGATTAACTCGCTGAAGGTGCGCCCGGGCAGCAGCTTCGCCAGCTACGGCGCCGGTGCGGTCGGGCTGAGCGCGGTGATGGCCGCGCGCGTCGCCGGCGCGACCACGATCATCGCGATCGACGTGGTGCCGTCGCGGCTGGAGCTGGCGCTTGAGCTGGGCGCCACCCACACCGTCAACAGCCGCGAGGTCGACGTGATCGAGGCAGTGCGCGCGATCACCGGCGGCGGCGCCGACTTCGCGCTGGAATCGACCGGGCGCCCGGAAGTCCTGTCGGCCGGCATCGAGGCGCTGGCCAGCCTCGGCACGATGGGTGTGGTCGGCGCGCCGAAGCTCGGCACCAAGGCCGAGTTCGACGTCAACAACCTGCTGCTCGGCGGGCGCAGCATCCGCGGCATCGTCGAAGGCGACAGCGTGCCGCAGGTGTTCATCCCGCAGCTGGTGCAGCTGTACCAGCAGGGCCGCTTCCCGTTCGACAAGCTGGTCAAGTTCTATCCGCTGGCGCAGATCAACCAGGCGGCCGAGGACAGCACCAAGGGCATCACGCTGAAGCCGATCCTGAAGATCGCCGGCTGA	MNAQLRDITVAVAHAPQQPFTIEQARIRAPQGDEVLVKVVATGLCHTDLIVRDQYYPVPLPAVLGHEGAGVVEALGPNVKDLKVGDHVVLTYGACGHCNPCSGGHGAYCKDFFGLNFGGADLDGHTALQTVDGQPLHDHFFAQSSFATYALSRENNAIKVPVEAPLELLGPLGCGIQTGAGAVINSLKVRPGSSFASYGAGAVGLSAVMAARVAGATTIIAIDVVPSRLELALELGATHTVNSREVDVIEAVRAITGGGADFALESTGRPEVLSAGIEALASLGTMGVVGAPKLGTKAEFDVNNLLLGGRSIRGIVEGDSVPQVFIPQLVQLYQQGRFPFDKLVKFYPLAQINQAAEDSTKGITLKPILKIAG	PGPT0005865_57	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_XYLENE|DERIVATE_DEGRADATION	XENOBIOTIC_p|o|m-XYLENE_DEGRADATION,PGPT0005865-EC_1_1_1_90-K00055	NA	NA
BMS020_06635	1470	xylC		Benzaldehyde dehydrogenase [NAD(+)]	ATGAGCAATACACCCGAATCCCTGCTGCCCGCCGCGCTGTGGGGCGGCAAGCTGTTCGACGGCCAGTGGCGCGCCGGCAGCGGCACCTCCGCGGTGGTCGAGCCGGCCACCGGCGCGACCCTCGGCGAGGTCGGCATGGCCGACGCGGCGCTGGTCGCCGACCGTGCCGCCGCCGCGGCCGCCGCGCAGCGCGCCTGGGCCGATGCGCCCTACGAGCAGCGCGCGCAGGTGCTGCGCAAGGCCGCGCAACTGGCCGAACAGCACGCCGCCGAGATCGTCGGCTGGATCGTGCGTGAAAGCGGCTCGACCCAGCCCAAGGCCGGCTTCGAGGCGTCGATCACCGCCAAGGCGCTGCACGAAGCGTCCGCGCTGCCGTCGCGCAGCACCGGCGAGGTGCTGCCGTCCACGCCGGGCCGGCTGAGCCTGGCGCGCCGCCGTCCGCTCGGTGTGGTCGGGGTGATCTCGCCGTTCAACTTCCCGCTGTACCTGGCGATGCGCGCGGTCGCCCCGGCGCTGGCGCTGGGCAATGCGGTGGTGCTCAAGCCCGACCCGCGCACCGCGGTCTGCGGCGGCTTCGTGATCGCGCGGCTGTTCGAGCTGGCTGGGCTGCCGGCTGGCGTGCTGCACGTGCTGCCGGGCGATGGCGCGGCCGGCGCGGCGCTGACCAGCGACCCGAACATCGCGATGATCCAGTTCACCGGCTCCACCGGCGCCGGGCGCAAGGTCGGCGAAGCGGCCGGCAAGCACCTGAAGAAGGTCTCGCTGGAACTGGGCGGCAAGAACTCGCTGATCGTGCTCGACGATGCCGACCTCGACCTGGCGATCGCCAACACCGCCTGGGGCGTCTACCTGCACCAGGGCCAGATCTGCATGTCCTCCGGCCGCGTGCTGGTGCAGCGCGGCATCTACGACGCGTTCCTGGAAAAACTCACCGCCAAGGCGAAGTCGATGGTGGTCGGCGATCCGGCCAAGGGCCAGGTCCATCTCGGCCCGCTGATCAACACCGCCCAGCGCGACCACGCCGCCAAGGTGGTAGCCGCGGCGGCCGCGGCCGGTGCCAAGATCGAGGCCGGCGGCCAGTACCAGGACCTGTTCTTCGCGCCGACGGTGCTCAGCGGCGTGACCCGCGACAACCCGGCCTTCAACGAGGAGATCTTCGGGCCGGTGGCGGTGGTGGTGCCGTTCGACACCGACGAGGAAGCGATCGCGCTGGCCAACGACACCGAGTACGGGTTGTCGATGGCGGTGCTGTCGAGCAACGTCGGCCGCGCGCTGAAGCTCGGCGAGCGCCTGCGCACCGGCCTGCTGCACATCAACGACCAGACCGTCAATGACGAGGTCATCAATCCGTTCGGTGGCGTTGGCGCCTCCGGCAACGGCACCAGCATCGGCGGGCCGGCCAACTGGGAGGAGTTCACCCAGTGGCAGTGGCTGACCGTCAAGGGCGAAGCGCCCGCCTATCCGCTCTGA	MSNTPESLLPAALWGGKLFDGQWRAGSGTSAVVEPATGATLGEVGMADAALVADRAAAAAAAQRAWADAPYEQRAQVLRKAAQLAEQHAAEIVGWIVRESGSTQPKAGFEASITAKALHEASALPSRSTGEVLPSTPGRLSLARRRPLGVVGVISPFNFPLYLAMRAVAPALALGNAVVLKPDPRTAVCGGFVIARLFELAGLPAGVLHVLPGDGAAGAALTSDPNIAMIQFTGSTGAGRKVGEAAGKHLKKVSLELGGKNSLIVLDDADLDLAIANTAWGVYLHQGQICMSSGRVLVQRGIYDAFLEKLTAKAKSMVVGDPAKGQVHLGPLINTAQRDHAAKVVAAAAAAGAKIEAGGQYQDLFFAPTVLSGVTRDNPAFNEEIFGPVAVVVPFDTDEEAIALANDTEYGLSMAVLSSNVGRALKLGERLRTGLLHINDQTVNDEVINPFGGVGASGNGTSIGGPANWEEFTQWQWLTVKGEAPAYPL	PGPT0005405_158	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZALDEHYDE_DEGRADATION,PGPT0005405-xylC-K00141	NA	NA
BMS020_06636	558			hypothetical protein	ATGGATCACGACGCCACCACCGACGCCCCCGACTATCTCGCCGACACCCGCCGCTGGATCGAGCGCGCGGTGATCGGGCTGAACCTGTGCCCGTTCGCCAAGGCGGTCTACGTGAAGGAGCAGGTGCGCCTGGTGCTCAGCGACGCCAGCACGCCCGAGGCGTTGCTGGAGCAACTGGCCGAGGAGCTGGTGCTGCTGCGCGACACCCCGGCCGAGCAGGTCGACACCACGCTGATCGTGCATCCGCAGGTGCTGCAGGACTTCCTCGACTACAACGACTTCCTCGACAACGCCGATGCCGCGCTCGAGGCACTGGACCTGCACGGCGTGCTGCAGGTGGCCAGCTTCCACCCGGACTACCAGTTCGCCGGTGCCGCGCCGGACGACGTGTCCAACTGCACCAACCGCTCGCCGTGGCCGACGCTGCACCTGCTGCGCGAAGACAGCGTCGAGCGCGCGGTCGCCGCGTTCCCGGATCCGGACGTGATCGTCGAACGCAACATCGCCACGCTCGACAAGCTCGGGCGCGATGGCTGGGACAAGTTGCTGGCCGGGTGA	MDHDATTDAPDYLADTRRWIERAVIGLNLCPFAKAVYVKEQVRLVLSDASTPEALLEQLAEELVLLRDTPAEQVDTTLIVHPQVLQDFLDYNDFLDNADAALEALDLHGVLQVASFHPDYQFAGAAPDDVSNCTNRSPWPTLHLLREDSVERAVAAFPDPDVIVERNIATLDKLGRDGWDKLLAG				NA	NA	NA	NA	NA
BMS020_06637	807	bacC		Dihydroanticapsin 7-dehydrogenase	ATGTCCATCACGCCCTCGCTCACCGTTTGGCCCAGCGCGCCCCTGCAGGAACGCGTCGTACTGGTCACCGGCGGCGCCCAGGGCATCGGCCGCGGCATCGCGCAGGCGGTGCTCGGCGCCGGCGGGCGGGTGCTGATCGGCGATCTCGACGCCGACGCCGGGGCGGCCTGTCTGCGCGAGTGGGCACTGCCCGAACGCAGCGCCTTCGTGCGCCTGGATGTCGCCAACGAGCGCAGCGTCGCGCGTTTCGTCGCCACCGCGCTGAAGCGCTTCGGCCGCATCGACGGCCTGGTCAACAACGCCGGCATCGCCGACCCGCACGTGCCGCCGCTGGACCAGCTCGACTGGGCCGACTGGCAACGCCGGCTGTCGTCGCTGCATGGCGCATTCCTGTGCAGCAAGCACGCGCTGCCGGCGCTGCGCACGGCCGCCGGCGGCGGTGCGGTGGTCAACATCCATTCGACCCGCGCCTACCAGTCCGAACCACACAGCGAGGCGTACGCGGCCGCCAAGGGCGGCCTGCTCGCCTTCACCCATGCACTGGCGTCGAGCGAGGGGCCGGCGGTGCGGGTCAACGCGATCGCGCCGGGCTGGATCGCCACCGATGCGTGGCAGGCGCCGGCGCGGCGGCGCACGCCGAAGCTGGCGCGGCGCGACCACGCCCAGCATCCGGCCGGGCGCGTCGGCGTGCCTGACGACATCGCGCAGCTCGCCGTCTACCTGCTGGCGCCAGCGCTGTCGGGCTTCATCACCGGCCAGGACTTCATCGTCGATGGCGGCATGACGCGCAAGATGCAGTACGCCTGA	MSITPSLTVWPSAPLQERVVLVTGGAQGIGRGIAQAVLGAGGRVLIGDLDADAGAACLREWALPERSAFVRLDVANERSVARFVATALKRFGRIDGLVNNAGIADPHVPPLDQLDWADWQRRLSSLHGAFLCSKHALPALRTAAGGGAVVNIHSTRAYQSEPHSEAYAAAKGGLLAFTHALASSEGPAVRVNAIAPGWIATDAWQAPARRRTPKLARRDHAQHPAGRVGVPDDIAQLAVYLLAPALSGFITGQDFIVDGGMTRKMQYA				NA	NA	NA	NA	NA
BMS020_06638	684	gph_3		Phosphoglycolate phosphatase	ATGAGCGCGGTCGCGCCGCTGCCGTGGCTGCCGAAGGCGGTGATCTTCGACATGGACGGGCTGATGCTCGACAGCGAACGCGCGATCACCGCCTGCCTGGCGCGTGCCGCGCGCGAGCTGGGCGAGGAGATCGATGCGGGCTACTGGCTGGGCATGGTCGGCAAGGGCGATGCGGCCTGCCACGCGATGCTCGGCGAGCGGCTCGGGCGCGACCGCGCCGAGGCGCTGCTGGAGCTGGCGCAGCGCATGTACGCCGACGTGGTCAGCGAAGGCATTCCGCACCGGCCGGGCATCATCGCGCTGCTGGAGTGGTTGGCCGCAGCGGGCATCCCGCGCGCGGTCGGTACCTCGACCAAGCGCCCGCTGGCGCTGCGCAAGCTGGAGGCGGCCGACCTGCTGTGGCGGTTCGACGCGATCGCCACCAGCAGCGACGTGGCCCATGCCAAGCCGGCCCCGGACATCTACCTGTTGGCGGCGAGCAAGCTCGGCATCGCCCCGGCCGACTGCCTGGTGCTGGAGGATTCGCCGACCGGGGTGCAGGCGGCGCTGGCTGCCGGCATGACCCCGATCCAGATTCCCGACCTGGTCGCGCCGGACGCGGCGGTGCGCGCGCTCGGCCACCGCATCCTGCCCTCGCTGGCCGATGCGCAGCGGCTGCTGCAGGAGCGCCACGCGGCGGGGTGA	MSAVAPLPWLPKAVIFDMDGLMLDSERAITACLARAARELGEEIDAGYWLGMVGKGDAACHAMLGERLGRDRAEALLELAQRMYADVVSEGIPHRPGIIALLEWLAAAGIPRAVGTSTKRPLALRKLEAADLLWRFDAIATSSDVAHAKPAPDIYLLAASKLGIAPADCLVLEDSPTGVQAALAAGMTPIQIPDLVAPDAAVRALGHRILPSLADAQRLLQERHAAG				NA	NA	NA	NA	NA
BMS020_06639	714	rsuA_2	COG1187	Ribosomal small subunit pseudouridine synthase A	ATGAAGCTGCTCAAGCACATCGCCAACCTCGGCTACGGCAGCCGCAAGCAGGTCCAGCAGATGTTCCGCGAAGGCCTGTTCACCGACGCCGACGGCGAGGTGCTGTACGCCGACGACCAGGTGGCGCACGAGGTGGTGCGCTTCGACGGCGAGCCACTCGATCCGCCGCCCGGGTTGATCCTGATGCTGCACAAGCCGACCGGCTACACCTGCTCGACCAAGGACAGCGGCCGGCTGATCTACGACCTGCTGCCCGCCCGGTTCCGCCTGCGCGCGCCGCTGCTGTCGCCGGTGGGGCGGCTGGACCGCGACACCAGCGGGCTGCTGCTGATGACCGACGATGGCGCGCTGCTGCACCGGATCGTGTCGCCCAAGTCGCAGCTGGACAAGGTCTACGAGGCGACGTTGGCGCAGGACCTGCGCGGCGACGAGGCGGCGCTGTTCGCCAGCGGCACGCTGCTGCTGGAATCGGAAACCAAGCCGCTGCTGCCGGCCGAGCTCGACGTGCTGGCGCCGCGACAGGCGCGGCTGACCCTGCACGAGGGCCGTTACCACCAGGTGCGACGGATGTTCGCCGCGACCGGCAACCACGTGCAGGCGCTGCATCGCAGCCGCATCGGCGGGCTCGGCCTGGGCGATCTGGCCGAAGGCCAGTGGCGCACGCTGGAGGCCGCCGACCTGGCGGTGCTGTTCGGCAGCGGAGCGGCGGCATGA	MKLLKHIANLGYGSRKQVQQMFREGLFTDADGEVLYADDQVAHEVVRFDGEPLDPPPGLILMLHKPTGYTCSTKDSGRLIYDLLPARFRLRAPLLSPVGRLDRDTSGLLLMTDDGALLHRIVSPKSQLDKVYEATLAQDLRGDEAALFASGTLLLESETKPLLPAELDVLAPRQARLTLHEGRYHQVRRMFAATGNHVQALHRSRIGGLGLGDLAEGQWRTLEAADLAVLFGSGAAA				NA	NA	NA	NA	NA
BMS020_06640	1068	rsmC_2		Ribosomal RNA small subunit methyltransferase C	ATGCCCGCCGCCCAGGACGCTCCCCTCGAAACCCTGTTCCTGCCGTTCGCGCAGGGCCAGCTGCGCTGGCCCGAAGGGCGCGCGCTGTTCCTGCGCGCGCGCGATGGCTGGCCGCTGCGCCAGCATGTCGGCCCCGGTGGACTGCTGTGCGAGCAGAGCTTCCGCCCGTTCGCCGACGCGCTCGAACGCGGCGGCCGCGACGTGCTAGACGAGGCTGCGGTGGAAGCGGCGGCGGTGCGCTATCCGCTGGTGCTGGTGCTGCCGCCACGCCAGCGCGACGAGGCGCGCGCGCTGTTGGCGCGTGCGGTGGCGCTGGCCGCACCGGGCGGGATCGTGGTGGCGTGCCAAGCCAACAACGAAGGTGCGCGTTCCGGCGAGGCCGACCTGCAGCAGCTGGCCGGGCTCGGCGGCAAGCTGACCAAGAACCACTGCCGGGTGTTCTGGACCGCGCCGTTGAACGGCGGCCACGACGTCGCGCTGCAGGCGCGCTGGCAGGCGCTGGACGCGCCGCGCGCGATCCTCGACGGACGCTTCCGCAGTCGCCCGGGCATCTTCGCCTGGGACCGCGTCGATGCGGCCTCGGCGCTGCTGGCCGAGCACTTCCCGGCCGACCTGGCCGGCCACGGTGCCGATTTCGGCGCCGGTTACGGTTATCTGTCGGCGGAACTGCTGCGGCGCTGCCCGCAGGTGAAGGCGCTGGACCTGTACGAGGCCGAGGCGCGCGCGCTGGCGCTGGCGCGCGCCAACCTGCACGCCAGCGAGGCATCGGTGCGGCTGGGCTATCACTGGCACGACGTCACCGCCGGCGTTTCCGGGCGCTTCGACTTCGTGGTCAGCAACCCGCCGTTCCACGCGCCCTCGCGCGAGGAACGGCCCGACATCGGCCGGCGCTTCATCGAGGTCGCCGCGCAGGCGCTGCGTCCGGGCGGGCGCCTGCTGCTGGTGGCCAACCGCCACCTGCCGTACGAGCAGGTGCTGGGCGAGCACTTCGACGCGGTGCAGGTGCTGGCCGACCGCGACGGCTTCAAGGCGCTCGGCGCGGTGCGCCGCCGCGGAGGCCGCGCATGA	MPAAQDAPLETLFLPFAQGQLRWPEGRALFLRARDGWPLRQHVGPGGLLCEQSFRPFADALERGGRDVLDEAAVEAAAVRYPLVLVLPPRQRDEARALLARAVALAAPGGIVVACQANNEGARSGEADLQQLAGLGGKLTKNHCRVFWTAPLNGGHDVALQARWQALDAPRAILDGRFRSRPGIFAWDRVDAASALLAEHFPADLAGHGADFGAGYGYLSAELLRRCPQVKALDLYEAEARALALARANLHASEASVRLGYHWHDVTAGVSGRFDFVVSNPPFHAPSREERPDIGRRFIEVAAQALRPGGRLLLVANRHLPYEQVLGEHFDAVQVLADRDGFKALGAVRRRGGRA				NA	NA	NA	NA	NA
BMS020_06641	264			hypothetical protein	ATGCGAGCCCTGTTCGTCGGTGGCGTGGTGGACAACAGCGAGATGGACCTGGACGACGCCCCGCCGCCGCTGCATTACCCCGACAACGGCGGCGCCGGCCGCCAGCGCTACCGCCTGCACCAGGTCGGCGAGCGCGAGGACGGCAGCCTGGCCTACGCGTTGTACGGCGCGCCCGAGCTGAGCGACGCGGACGTGCGCCGGATCGCCAGCGAACGCGGCTACGCGCGCCGCTTCGATGCAGCACCGGAGCCGCCGCCGCGCTGA	MRALFVGGVVDNSEMDLDDAPPPLHYPDNGGAGRQRYRLHQVGEREDGSLAYALYGAPELSDADVRRIASERGYARRFDAAPEPPPR				NA	NA	NA	NA	NA
BMS020_06642	1383			hypothetical protein	ATGGCCGGCATGATGGGTGCTTTCCGTTGCCCGATGCCCTCGATGATCCACACCGTCTTCCGGCCGCTGCGCTGGCCCTGCGGACTGCTCGCGGTCGCCCTGCTCGGCGCCTGCGGCGACACCGCCAAGTACCCGATCGAACGCGGCATGGGCCCGGATCCGACGCTGCCGGCTCCGGTGCAGCGGCTGGTGCCGACGGTCAAGGTGGCCAAGGTCAGGCGCTGGACCGGCAACGCCAAGCCAGTCGCCGCCGACGACCTGCGCGTGGACGCGTTCGCGCGCGACCTGGACCATCCACGCTGGCTATACGTATTGCCCAATGGCGACGTCCTGGTCGCCGAGACCAATGCGCCGGCGAGCGCCGAGGCCAAGCCCGGGTTGAAGGAGCGCATCGCCGGCGCGGTGATGCGCAAGGCCGGGGCGCGCACGGTCAGCGCCGATCGCATCACCCTGCTGCGCGATGCCGACGGCGATGGCGTGGCCGAGGTCCGCACCCAGTTCCTGGGCGGGCTGTACTCGCCCTTCGGCATGGCGCTGGTCGGCGACCGGCTGTACGTCGCCAATGCCGATGCGCTGGTCAGCTTCCCGTACAAGGACGGCGATACCCACGTCACCGCCAAGCCGACCTTCGTCGCCAACCTGCCGGGCGGCATCAACCACCACTGGACCAAGTCGCTGCTGGCCAGCGCCGATGGCAAGCAGCTGTACGTCGGCGTCGGCTCCAACAGCAACGTCGCCGAGAACGGCATGGACGCCGAACTCAACCGCGCCGCGATCCTGCAGATCGACCCGGCCACCGGCAGCACCAAGGTGTTCGCCGGCGGCCTGCGCAATCCGGTCGGCCTGGCCTGGGAGCCGCAGAGCGGCGCGCTGTGGACCGCGGTCAACGAGCGCGACGAGATCGGCAGCGACCTGGTGCCGGACTACATCACCTCGGTGAAGCCCGGTGGCTTCTACGGCTGGCCGTACAGCTACTACGGCCAGCACGTGGATGCGCGCGTGCAGCCGCAGCGCGACGACCTGGTGGCGCAGGCGCTCAAGCCGGACTACGCGGTCGGCGCGCATACCGGGTCGCTGGGGCTGGCGTTCTCCGCCGGCACGCTGCTGCCGGAACGGCTGCGCCACGGCGCCTTCGTCGGCCAGCATGGGTCCTGGAACCGCGACCCGCCCAGCGGCTACAAGGTGATCTTCGTGCCGTTCGCGCAGGGCCGCCCGGACGGCATGCCGGTGACGGTGCTGGATGGCTTCCTCGATGCCGAAGGGCATGCGCAGGGGCGTCCGGTCGGGGTGGTGCTGGACGCGCGCGGCGCACTGCTGGTGGCCGACGACGTCGGCAACGTGGTGTGGCGGGTGACGCCGAAGGTGGCCGCCGCGACGCCCTGA	MAGMMGAFRCPMPSMIHTVFRPLRWPCGLLAVALLGACGDTAKYPIERGMGPDPTLPAPVQRLVPTVKVAKVRRWTGNAKPVAADDLRVDAFARDLDHPRWLYVLPNGDVLVAETNAPASAEAKPGLKERIAGAVMRKAGARTVSADRITLLRDADGDGVAEVRTQFLGGLYSPFGMALVGDRLYVANADALVSFPYKDGDTHVTAKPTFVANLPGGINHHWTKSLLASADGKQLYVGVGSNSNVAENGMDAELNRAAILQIDPATGSTKVFAGGLRNPVGLAWEPQSGALWTAVNERDEIGSDLVPDYITSVKPGGFYGWPYSYYGQHVDARVQPQRDDLVAQALKPDYAVGAHTGSLGLAFSAGTLLPERLRHGAFVGQHGSWNRDPPSGYKVIFVPFAQGRPDGMPVTVLDGFLDAEGHAQGRPVGVVLDARGALLVADDVGNVVWRVTPKVAAATP				NA	NA	NA	NA	NA
BMS020_06643	2013	rcsC_15		Sensor histidine kinase RcsC	TTGAGCACGACCGCACACGCGCACGACCATCCCCCCGTCATTGGCCAGCCGGCGCCGCTGCAGCCTTCGGTGTACCGCGAGATCTTCCATGAAGTCGACGCCGGGTTCTGCGTGGTCGACGTCGCCTTCGAAGGCGGGCGCGCGGTCGATTACACGTTCCGCGAGGTGAATGCGGCGTTCGCGCGCTTCACCGGCATCGAGCAGGATCCGGTTGGGCGCAGCATCCGCGCGCTGGTGCCGGAGATCGAGGCGGAGTGGATCGAGCGCTACGGTGCGGTGGCCGCGACCGGCGAGCGGCTGCGCTTCGAGCTGGAGGCGCGCGCGCTGCGGCGCTGGTTCTCGGTGGATGCGTTCCGCATCGGCCAGCCGGCCGAGCACCGGGTCGGGATCCTGTTCCTGGACATCACCGAGCGCAAGCGCATCGAGCGCGAGCTGGCTGACAGCGAGGCGCGTTTCAGCGCGCTCGCCGACGGGCTGCCGATGCCGGTCTGGGTGCTCGACGCCAGCGGCGTGATGCGCTTCGTCAACAGCGCCTACGGCGACTTCTTCGGCCTGGACATCGCCAGTGGCACGGTGCCGCCGTGGAGCGAACTGCTGCATCGCGAGGACTTGCCGGTGTTCCAGTTCGAGCTGGGCGCCGCGCTGGAGCAGCAACGCGGGCTGCGCGCGCTGGTGCGCGCGCGCAGCCACGACGGGCGCTGGCGCTGGATCGAAATGAGCGCCACGCCGCGCTATTCCGCCGACGGCCGCTTCATCGGCCTGGCCGGTAGCAGCCCCGATGTCACCGAGCGCCGCGAGATCGAGCTGGCGCGCGAGCAGCTGCTGGAATCGGAGCGCACCGCGCGCAACGAGGCCGAGAGCATGGCGCGGCTGAAGGACGAGTTCCTGGCCACGCTGTCGCACGAACTGCGTACGCCGCTGACCACGATCCTGGGCTGGAGCGAGCTGCTGCTGCAGCGCGCGCCGGAAGGCGACCCCAGCCACAAGGGGCTGTCGGTGATCGCCAGCAGCGCCAAGGCGCAGAAGCGCCTGATCTCGGACATGCTCGACCTCAGCAGCATGCTGCTGGGCAAGGTGCAGCTGGAGGTCGAGGTGCTCGACCTGGGCGACCAGCTGCGCGAGGTGATCGGCGCGCAGGAGCCGGTCTCGATCGGCAAGGACCAGCAGGTCAGCCTACACGTGCCCGGCGACGCACCGTACCTGGTGCTCGGCGACGCGACGCGGCTGCAACAGGTGTTCTGGAACCTGCTGTCGAACGCGATCAAGTTCACCCCGGCGCACGGCCGCATCGACGTCGAGGTCGGCCGCGAGGGCGGCCACCTGGTGGTCAGCGTGCGCGATTCCGGCGACGGCATCCCCGCCGACTTCCTGCCGCACCTGTTCGGGCGCTTCCGCCAGGCCGACGGCACCACCACGCGTCGCCACGGCGGGCTCGGCCTGGGCCTGGCGATCGTGCAGCAGCTGGTGGAGATGCATGGCGGCCAGGTCGCGGCGACCAGCGCGGGCCGTGGCCAGGGTGCCACCTTCACCGTGCGCCTGCCCGAGCACCTGCCCGACCAGGGCAAGCGCCCGCGCCGCGAACTGCGCCGCAGCCTTGCCGCCGAGCAGGTGGTCGAGGCGCAGGCGCTGCACGGCCTGCGGCTGCTGGCGGTGGACGACCAGCCGGACATGCTCGACTACCTGCGCCGCCTGCTGGAGGAGCAGGGCGCGGCGGTGGTGGCCGCGGCCAATGCGACCGATGCGTTGGCGCTGCTCGACCACGGCGGGCACGAGCGCTTCGACCTGATGCTGACCGACATCGGCATGCCCGGCATGGATGGATACGGGCTGATCCGCACCGTGCGCGAGAACATGGGTCTGGATGCGGTTGCGCTGCCGGCGGTGGCGGTGACCGCGCTGGCGCGCGAGGACGACCGCCACCGCGCGCTGACCACCGGCTTCCAGGAGCACCTGGCCAAGCCGTACAGCGTGGCCCAGCTGGTGGCGGCGGTGCGCAGCGCGCGGGTGGCCTGA	MSTTAHAHDHPPVIGQPAPLQPSVYREIFHEVDAGFCVVDVAFEGGRAVDYTFREVNAAFARFTGIEQDPVGRSIRALVPEIEAEWIERYGAVAATGERLRFELEARALRRWFSVDAFRIGQPAEHRVGILFLDITERKRIERELADSEARFSALADGLPMPVWVLDASGVMRFVNSAYGDFFGLDIASGTVPPWSELLHREDLPVFQFELGAALEQQRGLRALVRARSHDGRWRWIEMSATPRYSADGRFIGLAGSSPDVTERREIELAREQLLESERTARNEAESMARLKDEFLATLSHELRTPLTTILGWSELLLQRAPEGDPSHKGLSVIASSAKAQKRLISDMLDLSSMLLGKVQLEVEVLDLGDQLREVIGAQEPVSIGKDQQVSLHVPGDAPYLVLGDATRLQQVFWNLLSNAIKFTPAHGRIDVEVGREGGHLVVSVRDSGDGIPADFLPHLFGRFRQADGTTTRRHGGLGLGLAIVQQLVEMHGGQVAATSAGRGQGATFTVRLPEHLPDQGKRPRRELRRSLAAEQVVEAQALHGLRLLAVDDQPDMLDYLRRLLEEQGAAVVAAANATDALALLDHGGHERFDLMLTDIGMPGMDGYGLIRTVRENMGLDAVALPAVAVTALAREDDRHRALTTGFQEHLAKPYSVAQLVAAVRSARVA				NA	NA	NA	NA	NA
BMS020_06644	180			hypothetical protein	ATGAACACGTTGCCACGCGACCACCATCCCGAAGCCCCGCCACTGCGACGTTCCGGACCGGACACGGCGGCCCGGGCCGCCAGCGATGCGGAGCTGCGGCGGGCACGCTGGACCTACCGCGGCGTGCTGGCAGGCATCGCCGCGTCGGCACTGGCGATCCTGGCACTGGCGCTGCGATGA	MNTLPRDHHPEAPPLRRSGPDTAARAASDAELRRARWTYRGVLAGIAASALAILALALR				NA	NA	NA	NA	NA
BMS020_06645	462			hypothetical protein	ATGAAAGCGCCTGCCGACGCCCATCCCCTGAGTACCCCCGATCTTCGCCTGCAGTTCATTGACTGGGCGAAGCAGCACGGGCACAACCCGCAGACCGGTGCCGAAGCCTTCGTCGCCTTGCAGGGCGAGCCGGCGACGGCCGCCGATGCAGCGGCCTGCGAGGCACGGCGTGAGGCCTTGTGCCGGGAACTGGCCGCGCTTGGCGAGGAGCGCGACGTGGCGGTGCAGTTTCCGCCGGTGTACCGGTATGCCGGCGTCGGCGGGCGCGCGTACCGCTATTCACTGATGCTGGTGCTGGCCGAAGACAGTGTCGAGTGGACCGCACGGGTCTGGCGCGGGTTGGACTACCAGGGCGTGCTGACCGGGCGCGCGCAGGGCCCGCGGGCCAATTACGCGCAGCTGGCGCGGCAGGCGGTGGAGCGCGAGCTTGATCGTGCGCTGCCTGCCTACGCCGAAGTGTGA	MKAPADAHPLSTPDLRLQFIDWAKQHGHNPQTGAEAFVALQGEPATAADAAACEARREALCRELAALGEERDVAVQFPPVYRYAGVGGRAYRYSLMLVLAEDSVEWTARVWRGLDYQGVLTGRAQGPRANYAQLARQAVERELDRALPAYAEV				NA	NA	NA	NA	NA
BMS020_06646	585			hypothetical protein	ATGTCGCCCCGTTCCCTTCCGCTGCTCGCGCTGGCGCTGGCCGCCGGCCTGGCCATCGCTGGCGGCGCCGATGCGCGGGTCCGCAGCGTCACCGACCCGCAGGCCCCGCGCGCACTGGCCGACAACGCCGACAGCGCGGTCAAGGTCAGCTGGACCGACCCGGCGCAGTTCAGCGAGATCCGCTACAGCCGCAACCGCTGGGAAGCCCAGCGCGGCGACTGGGTCACGCAGCTGGCTGCGTACTTCCAGAAGAGCGCGACCCGGCAGCTGCCGGCCGGCGAGCGCATGGACATCACCATCACCGACATCAAGCGCGCCGGCGACTACGAGCCGTGGCACGGCCCGCGCATGGACGACGTGCGCATCGTCAAGGACATCTACCCGCCGCGGTTGTCGTTCCGCTGGACCCGGACCGATGCCAGCGGCCAGGTGCTCGGCCAGGGCGAGGAGAAGCTGGCCGATACCGCGTTCCTGATGAACTCGGCGCGGCTCAACGACAGCGACCCGCTGCGCTACGAGAAGCGCATGATCGACGACTGGCTGCGGCGCTCGCTGCGCGAGGACCGGGTCACCGCCGGACGCTGA	MSPRSLPLLALALAAGLAIAGGADARVRSVTDPQAPRALADNADSAVKVSWTDPAQFSEIRYSRNRWEAQRGDWVTQLAAYFQKSATRQLPAGERMDITITDIKRAGDYEPWHGPRMDDVRIVKDIYPPRLSFRWTRTDASGQVLGQGEEKLADTAFLMNSARLNDSDPLRYEKRMIDDWLRRSLREDRVTAGR				NA	NA	NA	NA	NA
BMS020_06647	1086	alr_2		Alanine racemase	GTGCGTCCAGCCTTTGCTCTGATCGATCTCGACGCGTTGCGTCACAACTACCGCCTTGCCCGTCGCCTCGGCGGCGGCAAGGCCCTGGCCGTGGTCAAGGCCGATGCCTATGGCCACGGCGCGGTGCGCTGCGCGCAGGCGCTGGACGGCGAGGCCGACGGCTTCGCGGTGGCCTGCATCGAGGAGGCGCTGGAACTGCGCGCCGCCGGCATCCGTGCGCCGATCCTGCTGCTGGAGGGCTTCTTCGAGCCGGACGAGCTGCGCCTGATCGCCGAGCACGACCTGTGGACCGCGGTGGCGTCGCCGTGGCAGGTCGCCGCGCTGGCCGCGTTCAACAGCCCGCGCCCGCTGCGGGTGTGGCTGAAGATGGACAGCGGCATGCACCGGCTGGGGCTGTCGCCGGAAGACTTCCGCGAAGCCTGGCTGCGCCTGCGCGGCCTGCCGCAGGTGGCCTCGCTGACGCTGATGACGCACCTGGCGCGTGCCGACGAACTCGACAGCAGCCGCACCGACGAACAGGCGGTGGCGTTCGCGCTGGCCTGCCGCGGCATGACCGCCGAGACCAGCCTGTGCAACTCGCCGGCGCTGCTGGGCTGGCGCGCGCTGCGCAACGACTGGTCGCGCCCCGGCTTGATGCTGTACGGCGCCAGCCCGTTCCCGGAGCCGACCCCGTTCACCGCCGAGCTGCGCCCGGTGATGACGCTGGGCTCGCGGGTCATCGCCACCCGCGAGCTGCTGGCGGGCGAGCCGGTCGGCTACGGCGCGCGCTTCGTCGCGCAGCGCCCGACCCGGGTCGGCGTGGTCGCGGCCGGCTACGCCGACGGCTACCCGCAGTTCGCCCCGAACGGCACCCCGGTGCTGATCGACGGCAAGCCCGGCACGCTGATCGGCCGCGTGTCGATGGACATGCTGACCGTGGACCTCACCGATCACCCCGATGCCGGGGTCGGCACGCCGGTGCAGTTGTGGGGCGATGCGCCGCGTGCTGGCGAGCTGGCCGCACGCTGCCAGGTCAGCGCCTACCAGATGCTGTGCGGGCTCAAGCGGGTCCCGCGGCGCTACGTCGACACCGCCGCGGCCGGCTGA	MRPAFALIDLDALRHNYRLARRLGGGKALAVVKADAYGHGAVRCAQALDGEADGFAVACIEEALELRAAGIRAPILLLEGFFEPDELRLIAEHDLWTAVASPWQVAALAAFNSPRPLRVWLKMDSGMHRLGLSPEDFREAWLRLRGLPQVASLTLMTHLARADELDSSRTDEQAVAFALACRGMTAETSLCNSPALLGWRALRNDWSRPGLMLYGASPFPEPTPFTAELRPVMTLGSRVIATRELLAGEPVGYGARFVAQRPTRVGVVAAGYADGYPQFAPNGTPVLIDGKPGTLIGRVSMDMLTVDLTDHPDAGVGTPVQLWGDAPRAGELAARCQVSAYQMLCGLKRVPRRYVDTAAAG	PGPT0020040_3552	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775	NA	NA
BMS020_06648	1308	dadA1	COG0665	D-amino acid dehydrogenase 1	ATGCGGGTACTGGTGCTGGGAAGTGGTGTGGTCGGCACGACGAGCGCGTGGTACCTGCGCCAGGCCGGCTTCGAGGTCAGCGTGGTCGACCGCCAGCCCGGTCCGGCGCTGGAGACCAGCTATGCCAACGCCGGCCAGCTTTCGTTCGGCTACACCTCGCCGTGGGCCGCGCCGGGCATCCCGCTGAAGGCGATGAAGTGGCTGTTCCAGGAGCATGCGCCGCTGGCGATCCGTCCGACCGGCGATCTTGCCCAGTACGCCTGGCTGGCGCAGATGCTGCGCAACTGCACCGCGCAGCGCTATGCGGTCAACAAGGCGCGCATGGTGCGCATGTCCGATTACAGCCGGCAGTGCCTGGACGAACTGGTCGCGGCCACCGGCATCGCCTTCGAAGGCCGGCGCCTTGGCACCACCCAGCTGTTCCGTACCCAGCAGCAGCTGGATGCGGCCGCGCAGGACATCGAGGTGCTGGCGCAGTACGGCGTGCCGTACCAGCTGCTGGCCCCGGCCGAGATCGCCCGCCACGAGCCGGGCCTGGCCGATGCCGGGCGCCTGGCCGGTGCGCTGCGCCTGCCCGAGGACCAGACCGGCGACTGCCGCCTGTTCACCCAGCGGCTGGCGGCACTGGCCGTGAGCGACGGCGTCGAGTTCCGCTACGACCAGGCGATCGAGGCGCTGGAGCACGATGGCGGCCGCATCACCGGCGTGCGCATCGACGGCCGCATCGAACGCGCCGACCGTTACGTGCTGGCGCTGGGCAGCTACTCCGCGGCGCTGTTGCGCCCGCTCGGGCTGACGCTGCCGGTGTACCCGCTGAAGGGCTACTCGCTGACCGTGCCGATCGTCGATGCCGCGCATGCGCCGACCTCGACCATCCTCGACGAGAGCTACAAGATCGCCGTCACCCGCTTCGACGACCGCATCCGCGTCGGCGGCATGGCCGAGGTGGCCGGCTTCGACCTGTCGCTGGACCCGCGCCGGCGCGCCACGCTGGAACTGGTCGTCCGCGACCTGTTCCCCGGCGGCGGCGACCTGGACGCGGCCGAATTCTGGACCGGGCTGCGCCCGGCCACCCCGGATGGCACGCCGGTGATCGGCGCCAGCCCGTATTCCAACCTGTTCCTCAATACCGGCCACGGCACCCTGGGCTGGACGATGTCGTGCGGCTCCGGCCGCTACCTGGCCGACCTGATGGGGTCGCGCCGGCCGCAGATCGATACCGAGGGACTGGACATCTACCGTTACCTGCCGGCGTCTGCGGCGCGCCGCAACGATGAGGCCGCAGCGTGCGTCCAGCCTTTGCTCTGA	MRVLVLGSGVVGTTSAWYLRQAGFEVSVVDRQPGPALETSYANAGQLSFGYTSPWAAPGIPLKAMKWLFQEHAPLAIRPTGDLAQYAWLAQMLRNCTAQRYAVNKARMVRMSDYSRQCLDELVAATGIAFEGRRLGTTQLFRTQQQLDAAAQDIEVLAQYGVPYQLLAPAEIARHEPGLADAGRLAGALRLPEDQTGDCRLFTQRLAALAVSDGVEFRYDQAIEALEHDGGRITGVRIDGRIERADRYVLALGSYSAALLRPLGLTLPVYPLKGYSLTVPIVDAAHAPTSTILDESYKIAVTRFDDRIRVGGMAEVAGFDLSLDPRRRATLELVVRDLFPGGGDLDAAEFWTGLRPATPDGTPVIGASPYSNLFLNTGHGTLGWTMSCGSGRYLADLMGSRRPQIDTEGLDIYRYLPASAARRNDEAAACVQPLL	PGPT0020315_882	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
BMS020_06649	480	lrp_4	COG1522	Leucine-responsive regulatory protein	ATGGCCACGCGCCGCCGCGACCTGGACAAGATCGACCGCAAGATCCTGCGCCTGCTGCAGCAGGAAGGACGCATTTCCTTCACCGAACTGGGCGAGCGGGTCGGCCTGTCGACCACCCCGTGCACCGAGCGCGTGCGGCGGCTGGAACGCGAAGGCGTGATCACCGGCTACCACGCGCGGCTGGACCCGGCGGCGATGAACGCCGGGCTATTGGTCTTCGTGGAGATCAGCCTGGCCTACAAGTCCGGCGACATCTTCGAGGAATTCCGCCGCGCGGCGCTGAAGCTGCCGAACGTGCTGGAGTGCCACCTGGTCTCGGGCGACTTCGACTACCTGATCAAGGCGCGGATCAACGAGATGGCCTCGTACCGCAAGCTGCTCGGCAGCACCCTGCTGACCCTGCCGCACGTGCGCGAGTCCAAGAGCTACATCGTGATGGAAGAGGTCAAGGAGACGCTGACCCTGCCGGTGCCGGATTGA	MATRRRDLDKIDRKILRLLQQEGRISFTELGERVGLSTTPCTERVRRLEREGVITGYHARLDPAAMNAGLLVFVEISLAYKSGDIFEEFRRAALKLPNVLECHLVSGDFDYLIKARINEMASYRKLLGSTLLTLPHVRESKSYIVMEEVKETLTLPVPD				NA	NA	NA	NA	NA
BMS020_06650	180			hypothetical protein	ATGGCTAACCAGAACCCGCAACAACCGCGTGCGCCGCAGCAGCCCGGCCAACAGGGCGGTCATCAGGACCAGGACCAGCACGGCCGCCAGCACGGCCAGCAGCAGTGGGACGATGACCAGCAGGGCCGTCAGCAAGACGGCGGACAGAAGCCGCAGCGCGACCCGCAGAAGCCGCGCTGA	MANQNPQQPRAPQQPGQQGGHQDQDQHGRQHGQQQWDDDQQGRQQDGGQKPQRDPQKPR				NA	NA	NA	NA	NA
BMS020_06651	498			hypothetical protein	GTGATGCGGCATTTGCGCCCCGGTTCGATCCGTTTCGCCGCCGCGCTGGTGCTGGCTGCGATGTTGGCCGTGCCGGCCGCGGCGCAGACGGTGAAGCCGACCACGACCCGCTCCACCGACCGCGTGCAGCCGCCGCCCAAGCGTGCACCGCCGGCGCCGGTGGGCGCGCCGGCCACGACGCCGACCACGACCCGCGCCACCGACCGGGTGCAGGCGGTGCCATCCAATCGCCCACCGCCGCTACCGAGCACACCGACCGCGCGTGCGCGACCGGCGCCGATCGGCGCGCCGCAGCCGCCGGCCGCCGCGCAGCCGCCGGCCAGTGCGCCACCGCCTGCCGTTGCCGCCACGGTGGTGGTCTACGACCGCCAGGGACGGCGGCTGTACGGCCTGCGCCAGGCAGGGCCGAACCGGGTCCGCGACGAGCGCACCGGCCGGTACTACAGCACCGTGCCCAGCGGCGACGGCCAGCGCATCGTCGATCCGCCCAGGCGCTGA	MMRHLRPGSIRFAAALVLAAMLAVPAAAQTVKPTTTRSTDRVQPPPKRAPPAPVGAPATTPTTTRATDRVQAVPSNRPPPLPSTPTARARPAPIGAPQPPAAAQPPASAPPPAVAATVVVYDRQGRRLYGLRQAGPNRVRDERTGRYYSTVPSGDGQRIVDPPRR				NA	NA	NA	NA	NA
BMS020_06652	444			hypothetical protein	ATGATCCAAGGCGACGGCCGATCGGCCAACACCCGGGAGCAGGACATGACGCAGCGCGCCACAGGGCGTTTCGAGGTGAAGATGCAACCGCAGTCCGATCGCGACGAAGCCGGCACCGCGCTGGCGCGGTTCGCGTTGGACAAGGTGTTCAGCGGCGACCTGGAAGGCGAGGGGCATGGCGAGATGCTGTCGGCGCGCAGCGCGGTGGCCGGGTCGGCCGCATACGTGGCGATCGAGGCGGTCAGCGCGCGCCTGCATGGGCGCAGTGGCGGGTTCGTGCTGGTCCATCGCGGCTGGATGGATCGCGGACAACAGGCTTTGTCGATCGAGGTGGTGCCCGATTCCGGCAGCGGCGCGTTGGCCGGCATCGCCGGCACGCTGGCGATCCGCATCGAGGATGGCGTGCACTCCTACGATTTCGACTACACGCTGCCGGCGGCCTGA	MIQGDGRSANTREQDMTQRATGRFEVKMQPQSDRDEAGTALARFALDKVFSGDLEGEGHGEMLSARSAVAGSAAYVAIEAVSARLHGRSGGFVLVHRGWMDRGQQALSIEVVPDSGSGALAGIAGTLAIRIEDGVHSYDFDYTLPAA				NA	NA	NA	NA	NA
BMS020_06653	465	msrB_2	COG0229	Peptide methionine sulfoxide reductase MsrB	ATGTCCGCATTCGACCTGAGCCCGCCCAGCGCGGCGCAACGCACCGCGCTGATCGCCAGCCTGACCGCCGAAGAGCAGCGCGTGCTGCTGCATCACGGCACCGAGGCGCCGTTCTGCGGCGTGTTCCTCGACAACAAGCTGGACGGCGTCTACACCTGCCGGCTGTGCGGGCTGCCGCTGTTCCGCTCCAGTGCGAAGTTCGATTCCGGCACCGGCTGGCCGAGCTTCTTCGCGCCGTTCGATCCGGCCCATGTGCGCGAGATCCGCGACACCAGCCACGGCATGATCCGCACCGAGATCACCTGCGCGCGCTGCGACAGCCACCTCGGCCACGTGTTCCCGGACGGGCCGCCGCCGAGCTTCGAACGGCATTGCCTGAATTCGGTGTCGCTGGGCTTCACCGAGGCCGGCCAGGCCCTGCCCGACCCGCTCGGCCGTGGCGGCGCCGAAGCGCAGCCGGCCTGA	MSAFDLSPPSAAQRTALIASLTAEEQRVLLHHGTEAPFCGVFLDNKLDGVYTCRLCGLPLFRSSAKFDSGTGWPSFFAPFDPAHVREIRDTSHGMIRTEITCARCDSHLGHVFPDGPPPSFERHCLNSVSLGFTEAGQALPDPLGRGGAEAQPA	PGPT0013070_1922	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013070-msrB-K07305	NA	NA
BMS020_06654	369			hypothetical protein	ATGCGCCCCTCCTGCCTCCACGCCGGCCTGGCCGGCCTGTTCGCCAGCGCGCTGCTGGCCGCCTGCACCCGGCCGGCGGCGCAGGACCCGCCCGTCGGCGCTGCCGCGGCCGCCCCCACCGCAGCGACCGCCGCCAATGCCAGCCATCGCTGGCGCTGCGGCGAACGCGAGGTCCGCAGCCGTTACGACCCCGCCAGCGGCACCCTGTCGGTGCAGCTGGAGGCGCAGACGCTGACCCTGGCGCAGGCGCGCTCCGGCTCCGGCACCCGCTACGCCGACGGCGCCGGCAATGCATTCTGGGAACACCAGGGCCAGGCCACGGTGACGCTCGCCAGCGGCATCGCACTGCAGTGCAGGCTGGCGCCGTGA	MRPSCLHAGLAGLFASALLAACTRPAAQDPPVGAAAAAPTAATAANASHRWRCGEREVRSRYDPASGTLSVQLEAQTLTLAQARSGSGTRYADGAGNAFWEHQGQATVTLASGIALQCRLAP				NA	NA	NA	NA	NA
BMS020_06655	855	motA	COG1291	Motility protein A	ATGCTCATCATCGTTGGCTTCCTCGTCGTGATCATCAGCGTGGTCGGCGGCTACGTGCTGTCGCACGGCCACCTCGGCGCGCTGTTCCAACCCTACGAACTGTTGATCATCGGTGGCGCCGCGCTCGGTGCCTTCCTGGTCAGCACCCCGATGAAGACGGTGAAGGACACCATCTCCGGCGCGCTGGGCACCTTCAAGGGCCCCAAGTACAGCGCCGACGACTACAAAACCACGCTGTCGCTGGTCTACGAGCTGCTCAACAAGGCCCGCCGCGAGGGCTTCATGGCACTGGAAGACCACGTCGAGCGCCCGCAGGAAAGCGCGGTGTTCCAGAACTACCCCAAGGTGCTGGCCGACCACCACCTGCTCGACTTCATGACCGACTGCCTGCGCCTGATGATCGGCAGCAACATCGAGCCGCACGAGCTGGAGCCGCTGCTGGAACTTGAGCTGGAAAAGCACCACCACGAGGCGATGGCGCCCTCGCATGCGCTACAGAAGGTCGCCGACGGCCTGCCCGGCTTCGGCATCGTCGCCGCGGTGCTCGGCATCGTGATCACGATGGGTTCGATCGGCGGCCCGATCGAAGAGATCGGCAAGCACGTCGGCGCCGCGCTGGTCGGCACCTTCCTCGGCATCCTGCTGGCCTATGGCTTCGTCGGGCCGATGTCGGCGGCAATGGAGGCGCGTGCCGAGCAGGACAGCCGCATCTACGAATCGGTCAAGACCGCGTTGCTGGCCTGCCTGCGCGGCTACAACCCGAAGATCGCGCTGGAGTTCGCCCGCAAGACCCTGCCGTCGGACGTGCGCCCGAGCTTCTCGGACTTCGAAGCGCACCTGAAGACGATCAAGTAA	MLIIVGFLVVIISVVGGYVLSHGHLGALFQPYELLIIGGAALGAFLVSTPMKTVKDTISGALGTFKGPKYSADDYKTTLSLVYELLNKARREGFMALEDHVERPQESAVFQNYPKVLADHHLLDFMTDCLRLMIGSNIEPHELEPLLELELEKHHHEAMAPSHALQKVADGLPGFGIVAAVLGIVITMGSIGGPIEEIGKHVGAALVGTFLGILLAYGFVGPMSAAMEARAEQDSRIYESVKTALLACLRGYNPKIALEFARKTLPSDVRPSFSDFEAHLKTIK	PGPT0015370_1234	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015370-motA-K02556	NA	NA
BMS020_06656	1134			hypothetical protein	ATGGCCGACGCCAACAAATCCACGGTCATCATCCGCCGGGTCAAGAAGGTCCAGGGCGGCGGCCACCATGGCGGCGCGTGGAAGGTCGCCTACGCCGACTTCGTCACCGCGATGATGGCGTTCTTCCTGGTGCTGTGGCTGGTGGCGGCCACCACCAAGGAACAGCGCGCGGCGATTTCCGAATATTTCCGCAATCCCAGCCCGCTCGAAGGCAAGGCGCCGGCACCTGCGCCGGGCATGGCCGGGCCGGGCGGCGCCAGCAACTCGATGATCAAGCTCGGCGGCACGATGGACATGGCCAAGGGCAGCAAGGACGAGCCGTTCGGGCGCATGAAGGAGATGGCGGCCGCCAGCGAGCAGGACCGCAAGTTGAAGGAGAAGCAGCGGCTGGAAGCGCTGATGCAGGAACTGAAGGAAGCGATGGACAAGAGCCAGGCGCTGGAGCCGTTCAAGGACCAGCTGCTGCTCGACCTGACCCCGGACGGCCTGCGCATCCAGATCGTCGACAAGCAGAACCGGCCGATGTTCGACATGGGCAGCGCGCGATTGAAGGACTACACCGTGGCGATCCTGCGCGAGCTGTCGACCTTCATCAACGAAGTGCCGAACCGGGTCAGCATCACCGGCCATACCGACATCACCGCGTACAGCAACGTGCGCGGCTACAGCAACTGGGAACTGAGCGCGGACCGCGCCAACGCCGCGCGCCGCGAACTGGTCGCCGGCGGCGTCACCGACGACAAGATCGCGCGCGTGGTCGGGCTGTCCTCGTCGGTGCTGTTCGACAAGCAGGACCCGCAGAACCCGATCAACCGCCGCATCAGCATCGTGGTGATGACCCACGAGGCCGAAGAAGCCGCGCTGGCCGGCGCCGGCCAGGCGGTGGAGCTGAGCCAGTCGCTGCCCGACGCCGATACCAAGGTGCCCGACCTGTCCGCTGCCGGCCAGGCCGGCGAAGCTGCGACCGCCGCGGCGGCGGCGCCCGCCTCGCCCGCGCTGCCGAGCGCCCAGGCCGGCGCCACGCCCCGCGTATCCAGCAGCGGCCAGGTTGCGGCTGCCGCCGCGCTGGCGCGCGCCGCCGAAGCGGCTGCCGCGCCCGCGGCCAAGCCCGCCGCGGACGGCGAACAGCACTGA	MADANKSTVIIRRVKKVQGGGHHGGAWKVAYADFVTAMMAFFLVLWLVAATTKEQRAAISEYFRNPSPLEGKAPAPAPGMAGPGGASNSMIKLGGTMDMAKGSKDEPFGRMKEMAAASEQDRKLKEKQRLEALMQELKEAMDKSQALEPFKDQLLLDLTPDGLRIQIVDKQNRPMFDMGSARLKDYTVAILRELSTFINEVPNRVSITGHTDITAYSNVRGYSNWELSADRANAARRELVAGGVTDDKIARVVGLSSSVLFDKQDPQNPINRRISIVVMTHEAEEAALAGAGQAVELSQSLPDADTKVPDLSAAGQAGEAATAAAAAPASPALPSAQAGATPRVSSSGQVAAAAALARAAEAAAAPAAKPAADGEQH	PGPT0015375_401	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015375-motB-K02557	NA	NA
BMS020_06657	849			hypothetical protein	ATGTTCTCGTTCCTGCGTCATCGCCGGCAGCGTGCCGGCACCCTGTCCGCCGCGCTGTGCATCGCCGCCGCGCTGTCGCCGCTGGCGGTGGCCGCCGACCGCAACGATGCCGCCGAGCGCGCCAACCGTGCCGCCGGTCAGCAGGCCGCCGTGCTGCCTCCGCTGCCCACTCCGCCGACCCCGCCGACCCCGCCGCTGTCCCCCAGCGCGCCGACCCCGCCGCCACCGCCACCGGTGCCGGATGCGCCGACGCTGCTGTGGTCCGACCTGGGCGATCCGGAGCATGCCTCGGTGCTGGTCGATGGCGAGCGGATGCAGGCCTTTGGCAACGCCGACGACGTGCGCGAGGCGCGCGCCCAGCGCCGGGGCGACCAACCGATGTGGTGGTTCCGGCGCGGCGAGCAGCGCTACGTGGTGCGTGACGCGACGACCATCGCCCGGCTCAAGCAGGCCTATGCGCCGGTGCAGGCGCTGGGGCGCAAACAGGGGCTGCTCGGCGCCGAGCAGGGCGTGCTTGGCGGGCGCCAGGGCACGCTGGGTGCGCAGCAGGGCCAGCTTGGTGCCGAGGTGGCGCGGTTGGCGGCCGAGCAGGCCGGCATGGCGGTCTCCGGCCAGCGTGACGGCACACGCACGCAGTCGTTGCAGCGCCGGCAGCGGGCCCTGGCGCGGCAGATGGACGCGCTGAGCAACGAACAGCAGACCCTGGCGCAGAAGCAGGACGCGCTCGGCAGCCGCCAACGGGCGCTGGGCGCGCAGCAGCGTGCCGCGCTCGCGACATTGCGGGTCGATGCCGAGCGCTTGGCATCGGAGGCGATCCGCAGCGGCACGGCGCAGCCACTCGCGCGCTGA	MFSFLRHRRQRAGTLSAALCIAAALSPLAVAADRNDAAERANRAAGQQAAVLPPLPTPPTPPTPPLSPSAPTPPPPPPVPDAPTLLWSDLGDPEHASVLVDGERMQAFGNADDVREARAQRRGDQPMWWFRRGEQRYVVRDATTIARLKQAYAPVQALGRKQGLLGAEQGVLGGRQGTLGAQQGQLGAEVARLAAEQAGMAVSGQRDGTRTQSLQRRQRALARQMDALSNEQQTLAQKQDALGSRQRALGAQQRAALATLRVDAERLASEAIRSGTAQPLAR				NA	NA	NA	NA	NA
BMS020_06658	483			hypothetical protein	ATGTCCCGCTCTTCCAAGGCCAAGCGCGACCAGCGCAAGAAAAAGCAGCCCCGGCGTCCGTTCGCGCGCCTCGACCGTGAACAGCCGGTCGTCAACCACGCCGTGCTGCAGGACGGTGATGGCCGCGTGGTCGCCGCGATCGGCCAGCAGGCCGGTGGCGAGTGGCTGCTGGCCATCGGCGGCCAGACCATGGGCAACGCCGACAACCCGGTGCCGATGCTGGCCATGCTCAAGCACCTGGCCAACCTGCAGGAGCAGGAAGGCAAGACCGTCACGCTGGAATACTCCGCGCAGCTGCAGCAGATGATCGACGACCTCGCCGCCGACGAGGGCAAGACCGCCGAGGCCTACCTGGCCGACCTGGTGGCCGAGTTCGAGGGCAGCGACGCCGACGAGGACGCGGGCGACGACACGGCGGCCGCGACCGCTGAGGTCGAGGGCGACGCCGGCCCGGACGCCGGCAGCGACGCCAAGCCGGCCTGA	MSRSSKAKRDQRKKKQPRRPFARLDREQPVVNHAVLQDGDGRVVAAIGQQAGGEWLLAIGGQTMGNADNPVPMLAMLKHLANLQEQEGKTVTLEYSAQLQQMIDDLAADEGKTAEAYLADLVAEFEGSDADEDAGDDTAAATAEVEGDAGPDAGSDAKPA				NA	NA	NA	NA	NA
BMS020_06659	285			hypothetical protein	GTGGCCGTCTACATCGACGATGCGGTGCACGCCTGGCGCGACCAGCGCTGGGCGCACCTGCTGGCCGATACCCTCGACGAACTGCACGCGATGGCCGCGCGGCTGGGCATCCCCCGCCGCGCGTTCCAGAACAAGCTGTCCGGCGCGCATTACGACGTGCCGGCGCCGCTGCGCGAACAGGCGATCGCCTTCGGTGCGATCCCGATCTCGCGCCATACCGACCGCGTCCTGCTCAAGGCGATGATCGCCAATGCGCGCGCGCAGGCGCGCGGCGAACACCCCTGA	MAVYIDDAVHAWRDQRWAHLLADTLDELHAMAARLGIPRRAFQNKLSGAHYDVPAPLREQAIAFGAIPISRHTDRVLLKAMIANARAQARGEHP	PGPT0013070_34	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013070-msrB-K07305	NA	NA
BMS020_06660	540			hypothetical protein	ATGCCCGACAACAGCGCCGATTACGAGGATTTCGAAGACCCGCATGGCGACTTCGACGAGGACGACTTCCCGGCCCGGGTGTGGAACCTGCTGCTGCTGATCAACCCGGGCGACGAGGAGGGCGCGCTGCGCCAGTTCGACGCCTGGCGCGAGGCGATGGGCGGCGAGGAGGGCGGCGACGGCGATGCCTGGCTGTGGACGCTGAAGGAGGCGATCGACTGGCAGTCCGGCTTCCATGTCGACTGGAAGGACGTGGAGTCGTTCGTGTCGGCATTGGACGAGCTGGCCGCGCGCTGGAACCTGCGCATCGACTGGGGCGGCGACTTCGACGACGAGGACTTCCTCGATGCGGTCGACGTGCCGACGCTGATGGGCACCGCCTACGACCGCCTGCGCGAGCACGGCTATTCGCTGTGGAACTGGAACACCGGCGGCGATGCCTATGCCGGCTTCGTCGCGCTCAGCCGCGACGACGAGGCGATGCTGGCGCTGACCTCGCTGCTTGGGGTGGAAGTGCGGCCGGGCAACGACCCGTTCTGA	MPDNSADYEDFEDPHGDFDEDDFPARVWNLLLLINPGDEEGALRQFDAWREAMGGEEGGDGDAWLWTLKEAIDWQSGFHVDWKDVESFVSALDELAARWNLRIDWGGDFDDEDFLDAVDVPTLMGTAYDRLREHGYSLWNWNTGGDAYAGFVALSRDDEAMLALTSLLGVEVRPGNDPF				NA	NA	NA	NA	NA
BMS020_06661	246			hypothetical protein	ATGAGCGAGACGACGCCTCCCGACCACCTGGCGGTCAATCCGAAGAGCCCCTTCCACGATGCCGAGGTGCTGGCGCGCGGCGTCGGCGTGCGCTTCAACGGCGTCGAGCGCGACGACGTGGAGGAATACTCGGTGACCGAGGGCTGGATCCGCGTGCAGGCCGGCAAGGCCCGCGACCGCCGCGGCAATCCGATGACGCTGAAGATCCGCGGCACGGTCGAACCGTACTTCCTGGCCGCCAAGTAA	MSETTPPDHLAVNPKSPFHDAEVLARGVGVRFNGVERDDVEEYSVTEGWIRVQAGKARDRRGNPMTLKIRGTVEPYFLAAK				NA	NA	NA	NA	NA
BMS020_06662	951			hypothetical protein	GTGCGCGCGTCCCGCTGGCGGCGCGCGCTGCGCCTGCTGGCCTGCGGCCTGCTCCTGCTGGCGGCCGCCTGGCCGCTGCTGCGCTACTACCACCTCGACAACCGGCTGCTGCGCCTGGCGCACGGCTGGCACGCCGATGCGCGCTGGAACCAGCCGCAGTGGCGCGGCCGCAGCCTGTGGCTGCCCGGCTACGCCTACGACATCGAAGGCGTCGCGGTCGAAGGCGTCGAGGACAACCTCAGCGGCCTGGCCTTCGACGAGGACCACGGGCGCCTGCTGGCGGCGATCAACCGCCCCTCGCAGGTCCTGGTGCTGGACCTGGATGGCGGCGTGCTCGCGCGCCACCGCCTGCACGGCGCCTCCGACGTGGAGGCGATCGCCTGGCTCGGCGGCGACCGCATCGCGCTGCTGCAGGAGGGCCGCCGCTCGATCCTGCTGACCTCGCTGCCCGCCGCGGCCGATGCGCCGATCAAGGTCGACCACGCGCGCACGCTCGCGCTGCAGCTGGCCAAGGCCGGCAACGACGGCCCCGAGGGCCTGGCCTACGACCGCGCCGGCGACACGCTCTACGTCGGCAAGGAGCGCGCGCCGGCCGCGCTGTACGCACTGCAGGGCGTGCTGCACGCCGCCACGCCGCGGCAGCGCGACCTCAGTGCCTGGCTGCGCGCGCTGCCGTTCGCCACCGACCTGTCGAGCATCGAATTCGATCCACGCCACCGCCACCTGCTGCTGCTCAGCGATGAATCGCAGCTGCTGGCGGAACTGGCCGGCGACGGCACCCCGGTGAGCTGGAGCCCGCTGCCGACCCGCGCCTGGCACCTGCCGGCACCGCAGCCCGAAGGCGTGGCGCTCGGCCCCGACGGCACGCTCTACCTGGTCAGCGAGCCGAACCTGTTCTACCGGCTGCGCCCGGCGTCAGCGCCACCCGCGGCTCAGGCCTTGAGCCGGTAG	MRASRWRRALRLLACGLLLLAAAWPLLRYYHLDNRLLRLAHGWHADARWNQPQWRGRSLWLPGYAYDIEGVAVEGVEDNLSGLAFDEDHGRLLAAINRPSQVLVLDLDGGVLARHRLHGASDVEAIAWLGGDRIALLQEGRRSILLTSLPAAADAPIKVDHARTLALQLAKAGNDGPEGLAYDRAGDTLYVGKERAPAALYALQGVLHAATPRQRDLSAWLRALPFATDLSSIEFDPRHRHLLLLSDESQLLAELAGDGTPVSWSPLPTRAWHLPAPQPEGVALGPDGTLYLVSEPNLFYRLRPASAPPAAQALSR				NA	NA	NA	NA	NA
BMS020_06663	762	yadH_2	COG0842	Inner membrane transport permease YadH	ATGAACCTGCATGCGATCGCGGCGATCTACCGCTTCGAGATGGCGCGCACCTTCCGCACGCTGATGCAGTCGATCGCCTCGCCGGTGCTGTCGACCTCGCTGTACTTCGTGGTGTTCGGCGCGGCGATCGGCTCGCGCATGGGGCCGGTCGACGGCGTCGCCTACGGCGCCTTCATCATCCCCGGGCTGGTGATGCTGTCGCTGCTGAGCGAAAGCGTGTCCAACGCATCGTTCGGCATCTACATGCCGCGCTGGGCCGGCACCATCTACGAGGTGCTGTCGGCGCCGGTGGCGTGGTGGGAGATCGTGATCGGCTACGTTGGCGCGGCGGCGACCAAGTCGGTGATCCTCGGCGCGCTGATGCTGCTCACCGCACGCCTGTTCATCTCCTACGAGATCGCGCACCCGCTGTGGATGGCCGCCTTCCTGGTGCTGACCGCGCTCACCTTCAGCCTGTTCGGCTTCATCATCGGCATCTGGGCCGACGGCTTCGAGAAGCTGCAGGTGATCCCGCTGATGGTGATCACGCCGCTGACCTTCCTCGGCGGTGCGTTCTATTCGATCGGCATGCTGCCGCCGCTGTGGCAGAAGGTGGCGCTGCTCAACCCGGTGGTGTACCTGGTCAGCGGCTTCCGCTGGAGCTTCTACGGCCAGGCCGACGTGCACATCGGCGTTGCCGCCGCGGCCACCTGCGGCTTCCTGCTGCTGTGCCTGCTGGTGGTGCGGGCGATCTTCCGCAGCGGCTACCGGCTCAAGGCCTGA	MNLHAIAAIYRFEMARTFRTLMQSIASPVLSTSLYFVVFGAAIGSRMGPVDGVAYGAFIIPGLVMLSLLSESVSNASFGIYMPRWAGTIYEVLSAPVAWWEIVIGYVGAAATKSVILGALMLLTARLFISYEIAHPLWMAAFLVLTALTFSLFGFIIGIWADGFEKLQVIPLMVITPLTFLGGAFYSIGMLPPLWQKVALLNPVVYLVSGFRWSFYGQADVHIGVAAAATCGFLLLCLLVVRAIFRSGYRLKA	PGPT0006730_20415	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS020_06664	987	yadG_2	COG1131	putative ABC transporter ATP-binding protein YadG	ATGCGCGCGGCGCTGGGCCGCGTGCAGGGGCGGCATGTGACGGCCATCGTTTCCATCCAGGGACTGGGCAAGACCTACGCCGGCGGCTTCCAGGCGCTCAAGCAGGTCGACCTGGAGATCCGTCGCGGCGAGATCTTCGCCCTGCTCGGCCCCAACGGCGCCGGCAAGACCACGCTGATCAGCATCGTCTGCGGCCTGGTCAATCCCAGCGCCGGGCGGGTGCTCGCCGACGGCTTCGACGTGGTCCGCGACTACCGCGCCGCGCGCGCGGCGATCGGGCTGGTGCCGCAGGAGCTGTCCACCGACGCGTTCGAGACCGTCTGGGCCACGGTGCGCTTCAGTCGCGGCCTGTTCGGCAAGCCGCGCGACGATGCGCACCTGGAGCAGGTACTGCGCGCGCTGTCGCTGTGGGACAAGCGCGGCAGCAAGATCTCCACGCTGTCCGGCGGCATGAAGCGGCGCGTGCTGATCGCCAAGGCGCTGGCGCACGAGCCGAAGATCCTGTTCCTGGACGAACCCACCGCCGGCGTGGACGTCGAGCTGCGCCGCGACATGTGGCAGCTGGTGCGGCGCCTGCGCGAGCAGGGCACCACGATCATCCTGACCACGCACTACATCGAGGAAGCCGAGGAGATGGCCGACCGCGTCGGGGTGATCAACCGCGGCGAGCTGATCCTGGTCGAGGACACGCACACGCTGATGCGCAAGCTCGGCAAGAAGCAGCTGGCGTTGAGCCTGCGCACGCCGCTGGCGGCACTGCCGGCGGCGCTGGACGGCATGCCGCTGGAGCTGGCCGACGACGGCGCCCGCCTGGTCTACACCTTCGACGCGCAGGCCGAGGAGACCGGCATCGCCCAACTGCTGCGGCGGCTGGATGCGCTGGGCATCGACTACAAGGACCTGCACTCCAGCGAAAGCTCGCTGGAGGAGATCTTCGTCGGGCTGGTGCACGGCGCACGCGCCGCCAGCCAGGAGGGCACGGCATGA	MRAALGRVQGRHVTAIVSIQGLGKTYAGGFQALKQVDLEIRRGEIFALLGPNGAGKTTLISIVCGLVNPSAGRVLADGFDVVRDYRAARAAIGLVPQELSTDAFETVWATVRFSRGLFGKPRDDAHLEQVLRALSLWDKRGSKISTLSGGMKRRVLIAKALAHEPKILFLDEPTAGVDVELRRDMWQLVRRLREQGTTIILTTHYIEEAEEMADRVGVINRGELILVEDTHTLMRKLGKKQLALSLRTPLAALPAALDGMPLELADDGARLVYTFDAQAEETGIAQLLRRLDALGIDYKDLHSSESSLEEIFVGLVHGARAASQEGTA	PGPT0006725_7412	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS020_06665	1638	nhaK_2	COG0025	Sodium, potassium, lithium and rubidium/H(+) antiporter	ATGCATTCGATCGACGTCGTCCTGGCGATGCTGCTGGCGGTTGCCGCCAGCGGTTACCTCATCCGTATCCTCCCGTTCTCGCTGCCGCTGCCGTTGGTGCAGATCGCGCTCGGCGCGGTGGTGGCCGGGGTGTTCGACAAGGGCCACGAGCTGGAACCGGAACTGTTCTTCCTGCTGTTCCTGCCGCCGCTGCTGTTCCTGGACGGCTGGCGCATCCCCAAGCAGGGCCTGTTCCGCGACAAGGGTGCGATCCTGGAGCTGGCGTTGGGCCTGGTGGTGTTCACCGTGGTCGGGGCCGGCTTCTTCATCCACTGGCTGATCCCGGCGATGCCGCTGGCGGTGGCGTTCGCGCTGGCCGCGATCATCTCGCCGACCGACCCGGTGGCAGTGAGCTCGATCGCCGCCAAGGTGCCGATCCCCAAGCGGCTGATGCACATCCTGGAAGGCGAGTCGCTGCTCAACGACGCCTCCGGCCTGGTCTGCTTCCAGTTCGCGGTCGCCGCGGTGCTGACCGGCAGCTTCTCGCTGGCCTCGGCCTCGCTGACCTTCCTGTGGGTGGCGCTGGCCGGGCTTGGCGCCGGCGTCGCCACCACCTATGCGCTGAGCCGGATCCAGGGCTGGATCTGGCGCCACTTCGGCGAGGAGCCGGGTGCGGCGATCCTGGTCAACCTGGTCACCCCGTTCGCGGCCTACATCCTGGCCGAAGCGCTGAATGCCTCGGGCATCCTGGCCGCGGTCGCCGCCGGCATCACGATGAGCTACGTCGAGCTGCGCGGCAACGCGCCGGGCAGCATGCGCATCCAGCGCTCGGCGGTGTGGGACACGGTGCAGTTCACCTTCAACGGCATCATCTTCGTGCTGCTTGGCGAGCAGCTGCCGGGCATCCTCGACGGCGCGGTGCGCAGCGTGCAGGAAGCCGGCCACCTCAACCCGTGGTGGCTGGCGGTGTACGTGCTGGCGATCAGCGCCTCGCTGATGGTGCTGCGTTTCGTCTGGGTGTGGCTGTCGCTGCGCTGGAACATCCTCAAGGCGCAGCGCCGCGGCGAGCAGCACGTGAGCCCGCCGTGGCGGGTGATCGTGGCGACCTCGCTGGCCGGCGTGCGCGGCGCGATCACCCTGGCGGGTGTGCTGACGCTGCCGCTGCTGATGCCCGATGGCAGTCCGTTCCCGGCGCGCATGCTGGCGATCTTCCTGGCCACCTCGGTGATCCTGGTGTCGCTGCTGGTGGCCTCGATCGCGCTGCCGCGGCTGCTGAAGGGGCTGTCGCTGCCGGAGGAATCCAGCGAGGAGCAGGAGGAGGACCTGGCGCGCACCGCCTCGGCCAAGGCCGCACTGGATGCGGTCGAGCGGCTGCGCCAGCGCTTCGCCGACGACGAGAGTCGCGCCGAGCGTTACAACGCCGCTGCGACCCAGGTCAGCGCGCTGTACCAGCGCAAGCTCGGCGCCGCCGACGCGGCCGAGCGCGACCCGGTCGAGGCGCAGGCCTTCGAGCAGGCGCTGCGCGAGCTGCGCACGGTCGGCCTGCAGGCCGAGCGCGCCGAGCTGTTCAAGCTGGCCCGGCGTAGGCAGATCTCCGACGAGCTGTCGCGCCGGCTGGTGCGCAACCTGGACCTGATCGAGTCGCGCCGGCGCAGCTGA	MHSIDVVLAMLLAVAASGYLIRILPFSLPLPLVQIALGAVVAGVFDKGHELEPELFFLLFLPPLLFLDGWRIPKQGLFRDKGAILELALGLVVFTVVGAGFFIHWLIPAMPLAVAFALAAIISPTDPVAVSSIAAKVPIPKRLMHILEGESLLNDASGLVCFQFAVAAVLTGSFSLASASLTFLWVALAGLGAGVATTYALSRIQGWIWRHFGEEPGAAILVNLVTPFAAYILAEALNASGILAAVAAGITMSYVELRGNAPGSMRIQRSAVWDTVQFTFNGIIFVLLGEQLPGILDGAVRSVQEAGHLNPWWLAVYVLAISASLMVLRFVWVWLSLRWNILKAQRRGEQHVSPPWRVIVATSLAGVRGAITLAGVLTLPLLMPDGSPFPARMLAIFLATSVILVSLLVASIALPRLLKGLSLPEESSEEQEEDLARTASAKAALDAVERLRQRFADDESRAERYNAAATQVSALYQRKLGAADAAERDPVEAQAFEQALRELRTVGLQAERAELFKLARRRQISDELSRRLVRNLDLIESRRRS				NA	NA	NA	NA	NA
BMS020_06666	1875			hypothetical protein	ATGACGTCGTCGATCTCCGCACACGCGCTGCGCGCGCTGCCGCTGCTGTGCCTGGCATGCCAGGCCCCGGCGCGCGCCGCCGAGTTCACCTTCGCCGATGACGAGGTCACGCTCGACTGGACCACGCGCGCGGTGGCGGGCATCGGCATCCGCACCACCGCGGCGTCACCGCACCTGGTCGGCAAGGGCTTCCGCTCCGACGGCGTGGCCAAGGGCGGCGACGGCGCCGACACCGCCGACGACGGCAACCTGAACTACGCCGCCGGCGATCCGTATTCGGGCCTGTTCAAGCTGAGCAGCAGCATCGACCTGCGCTGGCGCAACTTTGGCGTGGTGCTCGGCGGACGCGCCTGGTACGACGCGGTGCAGACGCACGCCGACGTGCCGCAGGGCAATGTCGCCAACGGCTTCGCCGCCGATGCGCCGCTCAGCGACCGTGGCTTCTCCACTTCCAACCGCTTCTCCGGGACCATGCTGCTGGACGCCAACGTCTACGGCCGCTGGGACCTCGGCGAGCACGCACACTGGGACACGCGCATCGGCCGGCAGCGGCTGAAGTGGGGCACGGGGCTGTTCTTCAACGGCATCAACCAGGTCAATCCGCTCGACGTGACCACGCTGCACCGCCCCGGCACCGATGCCGCCAGCGAGGCGCAGCTGCCGGTGGAGATGGTGGTCAACCGGCTGTCGTTCGACAACGGCATCAGCGTCGAGGGCTTCTGGCAGTGGAAGTGGCGGCCGACCGAACTCGATCCCTGCGGCACGTTCTGGTCCGGCACCGACATCGGCATCGACGCCGGCTGCGCCGGGCTGCAGTCCAATGCCTACTACCCGATCAACGCGCTGTCGGCCGGTGCCGGCAGCTGGCTCAGCGACGACTACATGCAGTCGGTGGGCGCCTACCTGCCGCGCGGCACCGATATCCGCGGCAGCGACAGCGGCCAGTTCGGCATCGCCCTGCGGGTGCGCGCCGACGCGCTGGCGACCGAGTTCGCCTGGTATGCGATGCGCTACAACGCGCGCCTGCCGATCCTCAACGCGACCACGCCCGACAGCACCCGCACCCAGGCCGAGCTGGCCGCGCGGATGATCGCCGATGGCGTGCCGGCCACCTATGCGGCGCTGTCGACGCGGCTGTCGACGATCACCGAATCGTGGGAATACCCCGACGGCATCCGCCTGTTCGGGCTGTCCTCGTCCAGCAGCTGGGGCGCCTGGAAACTCGGCACCGAGCTGAGCTTCACCGACAACCTGCCGGTGCAGCTCAACACCGCCGACATGTTCCGCGCGCTCACCGCCAACGGCGGCCCGATCGGCAACCGCACCCTGGGCCAGGCCGAAGGCTTCCTGCTGCGCGGCTACGACCGCTTCCAGAAGCTGCAGGCGCAGGCCAACCTGACCCGCACCCTCGGCCCGCTGTGGGGCGCGCAGGGCGGCGTGCTCGCCGGCGAGGTGGCCTGGCAGCACGTCAACCTGCCGTCGCTGATGGTGGCGCGCTACGGCCGCGGCTTCGCCTGGGGCTACTCGCCGCAGGGCTTCGACGGCAGCTGTTCGGCGATCCAGAACCCGGCAGGCTGCGTCAACGACGGCTACTTCACCCGCATGGCCTGGGGCTACCGGCTGCGCGCGCTGCTGAACTACGCCGTCGCCGGCGCCACGCTGTCGCCCAGCCTGACCTGGGCCCACGATGTGCGCGGCTATTCGGTGGACAGCGCGCTGGTGGACGGTCGCCAGGCCGTCACGCTCGCCCTCGCCGCCAAGCTGGGGACGCGCTACACGGTCTCGGCCGGCTATACCCGCTATGTCGCCGACCACGGCTATGACACCCTCGCCGACCACGACAACCTCACCGCGGCGGTGTCGGTGCTGTTCTGA	MTSSISAHALRALPLLCLACQAPARAAEFTFADDEVTLDWTTRAVAGIGIRTTAASPHLVGKGFRSDGVAKGGDGADTADDGNLNYAAGDPYSGLFKLSSSIDLRWRNFGVVLGGRAWYDAVQTHADVPQGNVANGFAADAPLSDRGFSTSNRFSGTMLLDANVYGRWDLGEHAHWDTRIGRQRLKWGTGLFFNGINQVNPLDVTTLHRPGTDAASEAQLPVEMVVNRLSFDNGISVEGFWQWKWRPTELDPCGTFWSGTDIGIDAGCAGLQSNAYYPINALSAGAGSWLSDDYMQSVGAYLPRGTDIRGSDSGQFGIALRVRADALATEFAWYAMRYNARLPILNATTPDSTRTQAELAARMIADGVPATYAALSTRLSTITESWEYPDGIRLFGLSSSSSWGAWKLGTELSFTDNLPVQLNTADMFRALTANGGPIGNRTLGQAEGFLLRGYDRFQKLQAQANLTRTLGPLWGAQGGVLAGEVAWQHVNLPSLMVARYGRGFAWGYSPQGFDGSCSAIQNPAGCVNDGYFTRMAWGYRLRALLNYAVAGATLSPSLTWAHDVRGYSVDSALVDGRQAVTLALAAKLGTRYTVSAGYTRYVADHGYDTLADHDNLTAAVSVLF				NA	NA	NA	NA	NA
BMS020_06667	177			hypothetical protein	ATGCCGGGGATGACCGTGGCGCGCGGACTGCTCGGCCCGCAGTTGGCCGATGAACTGGCGCGGATCCGCGGGCACGGCTACGCGCTGGACGTGCAGGCCGCGCGCCTCGGCCTGGCGCGGATGCAGCGCACCGCCGGCCACGCGATGCGCGGGCTGTTCGAGCTGCTGAAACTGTAG	MPGMTVARGLLGPQLADELARIRGHGYALDVQAARLGLARMQRTAGHAMRGLFELLKL				NA	NA	NA	NA	NA
BMS020_06668	660	estB_1	COG0400	Carboxylesterase 2	ATGAGCGCGCTGCAGCTGATCGAACGCCCGGCCAGCGGCACCCCGCAGGCGCTGCTGATCCTGTTGCACGGGGTCGGCGCCAACGAGCGCAGCCTGGCCGCGCTGGCGCAGCAGCAGGACCCGCGCGTGCAGGTGCTGCTGCCGCGCGGGCCGCTGACGTTCGCGCCGGGCGCCTATGGCTGGTTCCAGGTGCAGTTCGGTCCGCAGGGACCGGTGATCCAGCCCGCGCAGGCCGAGGCCAGCCGCGCGCTGCTGATCGACTTCGTCGCCGCGCAGCAGGCGCGCTTGGGCATCGCGCCGGAGAAGACGGTGATCGCCGGCTTCAGCCAGGGCGGCATCATGAGCGCCAGCGTCGCGCTGACCGCGCCGCAGGCGGTGGCCGGCTTCGGCGTGCTGAGCGGGCGCATCCTGCCGGAGATCGAGCCGCTGATCCCGGCCGATGTCGGCCGCCATGGCCTACACGGCCTGGTCACCCACGGCCGCCACGACAGCAAGCTGCCGTTCGTGCTGGCCGAACAGGCCGCCGCGCGGCTGGCCCGCCACGGCGTCGCGCACACGCTGCAGGCGTATGCCGCCGACCATGAACTGACCGCGGCGATGCAGGCCGATATCCGTGCGTGGATCGATGCGCGCTTCGCGCTGGCGCCGCTGCCGGCCTGA	MSALQLIERPASGTPQALLILLHGVGANERSLAALAQQQDPRVQVLLPRGPLTFAPGAYGWFQVQFGPQGPVIQPAQAEASRALLIDFVAAQQARLGIAPEKTVIAGFSQGGIMSASVALTAPQAVAGFGVLSGRILPEIEPLIPADVGRHGLHGLVTHGRHDSKLPFVLAEQAAARLARHGVAHTLQAYAADHELTAAMQADIRAWIDARFALAPLPA	PGPT0028515_2453	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
BMS020_06669	813	ygiD_2	COG3384	4,5-DOPA dioxygenase extradiol	ATGCGCCGACTGCCTTCCCTGTACATCTCGCACGGTTCGCCGATGACCGCGCTGCGCCCCGGCCTGGTCGGCGGGCGCCTGGCCGAACTGGCCGCCACGCTGCCGCGCCCGCGCGCGATCGTGGTCGCCTCGGCGCACTGGCTGGCGCGCCGGCCGCTGGTCGGCGCGGCCGCGCGGCCGCAGACCATCCACGACTTCGGCGGCTTCCCGCCGCCGCTGTACGAGATCGAATACCCGGCGCCGGGCGCGCCCGAGCTGGCGCAGCAGGTGCAGAAGCTGCTGGAGCAGGCCGCGCTGCATCCGTACGCCGACCCGCAACGCGGGCTCGACCATGGCGTCTGGGTGCCGCTGCGGATGCTGTACCCGCAGGCCGACATCCCGGTGGTGCCGCTGTCGATCCAGCCCGAGCTGGGGCCGTCGCACCAGTTCGCGCTGGGCCGCGCGCTGGCGCCGCTGCGCGAGCAGGGCGTGCTGCTGGTCGGCTCCGGCTCGATCACCCACAACCTGCACGACTGGCGCGGCGGCTATGCCGAGGGCAAGGAAGCGCCGTACGTGCGGCCGTTCATCCAGTGGGTCGAACAGCGGCTGCAGGCCGACGACGTGCCGGCGCTGCTGGACTACCGCCGCCAGGCGCCGCATGCCGAGCGCGCCCATCCGACCGACGAGCACCTGCTGCCGCTGTACTTCGCGATGGGCGCCGCCGGTGATGAAGAACTCGGTGCGCAGCGCATCGACGCCGGCGTCGACATGGGCTTCCTGGCGATGGACATCTACCGCTTCGACGGCGCCACGGTGCAGGAGCAGGCGGCATGA	MRRLPSLYISHGSPMTALRPGLVGGRLAELAATLPRPRAIVVASAHWLARRPLVGAAARPQTIHDFGGFPPPLYEIEYPAPGAPELAQQVQKLLEQAALHPYADPQRGLDHGVWVPLRMLYPQADIPVVPLSIQPELGPSHQFALGRALAPLREQGVLLVGSGSITHNLHDWRGGYAEGKEAPYVRPFIQWVEQRLQADDVPALLDYRRQAPHAERAHPTDEHLLPLYFAMGAAGDEELGAQRIDAGVDMGFLAMDIYRFDGATVQEQAA				NA	NA	NA	NA	NA
BMS020_06670	411			hypothetical protein	ATGAGCACCACCCCGTCGTCCCTGTCCCGTACCGCGCCCTACGGCGCCACCCTGCTGCGCGTCGTGCTCGGCGCGCTGTTCCTGACCCACGGCCTGACCAAGCTGCTGGTGTTCACCCCGGCCGGCACCGCCGGCTACTTCGCCTCGCTCGGCCTGCCCGGCTGGCTCGGCTACGTCGCGATGACGCTGGAGCTGGTGCTCGGCGTGGCGCTGGTGCTCGGCCTCTATGCGCGCTGGCTCGGCCTGCTCGGCATCCCGCTGCTGATCGGCACCATCGTCAGCGTGCACGGCGCCAACGGCTTCGGCTTCTCCAATGCCGGCGGCGGCTGGGAATACCCGGCGGTGTGGGCCGCGGCGCTGGCGGTGCAGTTCCTGCTCGGCGACGGCGCGCTGGCGCTGAAGTCGCGCTGA	MSTTPSSLSRTAPYGATLLRVVLGALFLTHGLTKLLVFTPAGTAGYFASLGLPGWLGYVAMTLELVLGVALVLGLYARWLGLLGIPLLIGTIVSVHGANGFGFSNAGGGWEYPAVWAAALAVQFLLGDGALALKSR	PGPT0028505_5143	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
BMS020_06671	981	dmlR_28		HTH-type transcriptional regulator DmlR	ATGCGATGGACACAGGCTATTACCGTCACGTTCGTGCTAAAACATCGCCACGATCCACTGTTTATTTCGGAAATCGCAACATTGGATACCTTAGCCGCGATGCGGGTGTTCGCCGCCGTCGCCGAGAAGAACGGCTTCTCGGCCGCCGCCGACGCCCTGGAGCTGTCCACCGCCAGCGTCACCCGCCAGGTCGCCGCGCTCGAGCAGCGGCTCGGCACGCGCCTGCTCAACCGCACCACGCGCCGGGTCAGCCTGACCAGTGCCGGCACCGCCTACTACCAGCGCTGCGTGCAGTTGCTGGCCGAGTTCGACGACATGGAGGCGGCAGTCGGCGCGCAGGCGCTGCAGCCGTCCGGGCTGCTGCGGATCAACGCGCCGGTCAGCTTCGGCATCGTCAAGATGGGCCCGCTGCTCGCCGGCTTCCGCGCGCGCCATCCGCAGGTGACGCTGGAGCTGGCATTGAGCGACCGGCTGGTGGACATGGTCGAGGAAGGCTTCGACCTGGCCATCCGCATCACCCGTCAGCCGGCGCCGACGCTGATCGCGCGGCGCCTGGCCGACGTGCGCGTGCTGGCCTGCGCGGCGCCGGCCTACCTGGCCCAGGCCGGCACGCCGAAGCTGCCGGCCGACCTCGCCGGCCACCAGTGCCTGACCTACAGCTACTGGTCCGGCGGCGACGAGTGGACGCTGCGGCATGCCGCCGACGGCCGCGAGGAACAGGTGCGCATCGGCGGCGGGCTGCGCGCCAACAACGGCGACGTGCTGTGCGCGGCCGCGCGTGCCGGCATGGGCATCGTGCTGCAGCCGGATTTCCTCGTCGCCGACGATCTCGCCGCCGGCACCCTGGTGCGCGTGCTGCCCGACTACGAGGTGCCGACGATCGGCATCTTCGCGGTCTACACCAGCCGCAGCCACCTGGCGCCGAAGGTGCGCAGCTTCATCGACTACCTGGTCGAGGCACTGGACTGCCCGCGCAGCTGA	MRWTQAITVTFVLKHRHDPLFISEIATLDTLAAMRVFAAVAEKNGFSAAADALELSTASVTRQVAALEQRLGTRLLNRTTRRVSLTSAGTAYYQRCVQLLAEFDDMEAAVGAQALQPSGLLRINAPVSFGIVKMGPLLAGFRARHPQVTLELALSDRLVDMVEEGFDLAIRITRQPAPTLIARRLADVRVLACAAPAYLAQAGTPKLPADLAGHQCLTYSYWSGGDEWTLRHAADGREEQVRIGGGLRANNGDVLCAAARAGMGIVLQPDFLVADDLAAGTLVRVLPDYEVPTIGIFAVYTSRSHLAPKVRSFIDYLVEALDCPRS	PGPT0028940_615	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
BMS020_06672	1008	fabH_2	COG0332	3-oxoacyl-[acyl-carrier-protein] synthase 3	ATGACGTCGCCCTCGCCGCTCCCTCTCCGCATCGTCGGCACCGGTGCCTGCCTGCCGCGCACCCGGCTGCCGTCGAGCGCGTTCGACCAGCGCTGGGGCAAGCCCGACGGTTGGACCCGCCGCCACGTCGGCATCGTCGAACGCCCGCATGCCGCCGCCGACGAGACCTCGTCGTGGATGGGCGCGCAGGCCGCGCAGCAGGCGCTGGACGCGGCCGGCCTGCACGCGCACGAGGTCGACGTGCTGGTGTCGGCCTGCGGGGTGATGGAGCAGGCGCTGCCCTGCACCGCCACGCTGATCCACCGCAAGCTCGGCCTGGCCGACAGCGGCATCGCCGCGTTCGACGTCAACGCCACCTGCCTGAGCTTCCTCAGCGCGCTCGACCTGGTCGGCCTGGCCATCGCCGCCGGCCGCTGGCGGCGCGCGCTGATCGTCTCCAGCGAGATCGCCAGCGCCGGCCTGGACTGGGACGACCCGGACACCGCGCCGCTGTTCGGCGACGGCGCCGCCGCGGTGGTGGTCGAGGCCGATCCCACCGGCGCCTCGGCGTTGCTGGCCGCGCACATGGAAACCTGGTCGGAGGGCACCGAGTACTGCCGCGTACGCGTCGCCGGCACCCGCATGCGGGTCGCCGACGACCCGGCCGCCTACCTCGCCGCCGCCCGCTTCGAGATGGCCGGCAAGCCGACCTACCGGCTCGCCGCGCAGAAGATGCCCGGCTTCATCGACACCTTGCTGGCGCGCGCCGGGGTGACGCTGGCGCAGCTGGCGCGGATCGTGCCGCACCAGGCCAGCGCCAAGGCACTGCGCCACATGGAGCTGGCGCTGGGGCTGCCCGACGGGATGCTGGTGCGGATCATCGAGACCCACGGCAACCAGATGGCCGCGTCGATCCCGCTGGCGCTGCACCAGGCGATCGGCGACGGCGCGATCGTGCGCGGCGACACCGTCGCGCTGGTCGGCTCCGGCGCCGGGCTGTCGCTCGGCGGCGTCGTGCTGCGCTACTGA	MTSPSPLPLRIVGTGACLPRTRLPSSAFDQRWGKPDGWTRRHVGIVERPHAAADETSSWMGAQAAQQALDAAGLHAHEVDVLVSACGVMEQALPCTATLIHRKLGLADSGIAAFDVNATCLSFLSALDLVGLAIAAGRWRRALIVSSEIASAGLDWDDPDTAPLFGDGAAAVVVEADPTGASALLAAHMETWSEGTEYCRVRVAGTRMRVADDPAAYLAAARFEMAGKPTYRLAAQKMPGFIDTLLARAGVTLAQLARIVPHQASAKALRHMELALGLPDGMLVRIIETHGNQMAASIPLALHQAIGDGAIVRGDTVALVGSGAGLSLGGVVLRY	PGPT0008355_2144	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
BMS020_06673	981	oleD_3	COG0451	2-alkyl-3-oxoalkanoate reductase	ATGAGCACGGTCCTGGTCACCGGCGCGTCGGGCTTCATCGGCCGCCACGTCGCCTGCGCGCTGGCCGCGCGCGGCGATGCGGTGGTCGCCGGCGGGCGCGACGCGGCCGCGCTGGCGCAGCTGCCGGCCGGCATCGCGCGCCGCCCGGCCGACCTCGCCGACGCCGACCTCGACGCGCTGCTGCGCGGCTGCGATGCGGTCGTGCACAGCGCGGCCAAGTCGATGCCATGGGGCCCGGCGGCGGACTTCGAGCGCGCCAACGTGCTGGCGACGCAGCGCCTGCTGGCCGCCGCGCAGCGCGCCGGGGTGCGCCGCTTCGTGCATTTCGGCTCGCCCAGCATCTATTTCCGCTTCGCCGACCAGTACGACGTCGGCGAGGACTTCAGCCCGCCGGCGCGCTGGATCACCGCCTACGCGCGCAGCAAATGGCAGTCGGAACTGTGCGTGCGCGAGGCCGCCGCGGCCGGGCTGCCGGCGCTGGTGCTGCGGCCGCGCGCGGTGTTCGGCGACGGCGACCGCGCGATCCTGCCGCGGCTGCTGGCGGTGGCGCGGCGTGGCTGGTTCCCGCGCTTGCACGCCGGCCGTGCGCTGATCGACGTCACCCATGTCGACAACGTCGTCGACGCCACGCTGGCCGCGCTCGACCCGGCCGCGCCCGGCGACGGCCGCGCCTACAACCTCAGCAACGGCGAGCCGATCGCAGTCCGCGACCTGCTGCGGCAGGTGTTCGATGCCTGCGGCGTGCAGCCGCGCATGCTCGACGTGCCGCGCCGGGTGGCGCTCGCCCTGGCCGGCGCCGGCGAGGCGCTGGCGCGGCTGCGCCCGGGCTGCCCGGAACCGCGGCTGACCCGCTACGGCGTCGGCGTGATCGGCTGGTCGCAGACGCTGGACATCACCCGCGCGCGCCGCGAGCTGGGCTACGCGCCGCGCGTCAGCATCGCCGACGGCCTGCGCCGCTTCGCCGCCGGAGCGCCGGCATGA	MSTVLVTGASGFIGRHVACALAARGDAVVAGGRDAAALAQLPAGIARRPADLADADLDALLRGCDAVVHSAAKSMPWGPAADFERANVLATQRLLAAAQRAGVRRFVHFGSPSIYFRFADQYDVGEDFSPPARWITAYARSKWQSELCVREAAAAGLPALVLRPRAVFGDGDRAILPRLLAVARRGWFPRLHAGRALIDVTHVDNVVDATLAALDPAAPGDGRAYNLSNGEPIAVRDLLRQVFDACGVQPRMLDVPRRVALALAGAGEALARLRPGCPEPRLTRYGVGVIGWSQTLDITRARRELGYAPRVSIADGLRRFAAGAPA				NA	NA	NA	NA	NA
BMS020_06674	834			putative metallo-hydrolase	ATGATCGCCTGGACGCTGTTCGAATCCGGGCACTGCCGGCATCCGGAGATCGCCACCCGCGCCGATGGCCGGCTGGCGCCCTGCGAGTTCCCGGCACTGGCGGCGCTGCTGCGCCATCCGCAGCACGGCTGGCTGCTGTTCGACACCGGCTACGCCGAGCACTTCCTGCAGGCGACGCGGCCGTTCCCCGAGCGCTTGTACCGCTGGGTGACGCCGGTGCGGATGCAGCCGCACGAGCCGCTGGTGCGGCAACTGCAGGCGCGCGGCATCGCCGCCGCCGACATCGGCTGGGTGCTGCTGTCGCACCTGCACGGCGACCATGTCGCCGGCGTCGCCGACTTCCCGCAGGCGCGGATCGGGCTGGCGCGCGCGGCCTGGGACGACCTGCGTGGCCGCAGCCGCTTCGGCGCGACCCGGCGCGGCTTCCTGCCGCGCCTGCTCGACGGCGCGCAGGCGCGCATGCACTGGTTCGAGCAGGCGCCGGCCTGCACCTTGCCGCCGGCGCTGGCGGCATTCGGTGAGGGCCGCGACCTGTTCGGCGACGGCAGCCTGCTGCTGGTGCCGCTGCCCGGCCACGCGTCCGGGCATTACGGGCTGTGGTTCGAGGATGCCGACGGCCCGGTGTTCCTGATCGCCGACGCGGCCTGGTCGAGCGCGGCGCTGGTCGATGCCGCGCCGCCGCCGGCGCTGGTCAGCGCCTGGCTCGGCGACAGCGCGCAGTACCTGCAGACCCTGCAGCGGCTGCGCGCGCTGCACCGCGCGCATCCCGCGATCCGCCTCGTGCCGGCGCATTGCCGGCGCTGGCGGCCGCAGCCGGCACACACCCATGGCTAA	MIAWTLFESGHCRHPEIATRADGRLAPCEFPALAALLRHPQHGWLLFDTGYAEHFLQATRPFPERLYRWVTPVRMQPHEPLVRQLQARGIAAADIGWVLLSHLHGDHVAGVADFPQARIGLARAAWDDLRGRSRFGATRRGFLPRLLDGAQARMHWFEQAPACTLPPALAAFGEGRDLFGDGSLLLVPLPGHASGHYGLWFEDADGPVFLIADAAWSSAALVDAAPPPALVSAWLGDSAQYLQTLQRLRALHRAHPAIRLVPAHCRRWRPQPAHTHG				NA	NA	NA	NA	NA
BMS020_06675	1164			hypothetical protein	ATGGCTAACGCGCCCGGGGTGCTGTTGACCGGCGCACGCGCGCCGGTCGCGCTGGACCTGGCGCGGCGCTTCCACGCGGCCGGCTGGCGCGTGCATGTCGCCGACAGCCTGCCCGCGCGCAGCACCGGCGCCTCGCGCGCGGTCGCCCAGCGTCACCGGATCGCCGCCGCGCACGACACCGCCGCGTTCGCGCGCGACCTCGCGCGCATCGCACACGCGCATGCGCTCGACCTGCTGGTGCCGACCTGCGAGGAAGCCTTCCACGTCGCCCATGTGCGGCCACGGCTGCCGGCGCAGCTGCAGGTGGCGGTGGCCGGATTGCCGCTGCTGCGCCAGCTGCACAGCAAGTGGGAGTTCCTGCAGCTGGCGCGCGGCTGCGGCGTCGGCGTGCCGGACAGCGCGCGGGTGCATACGCTGGTGCAGGCGCGCGACTGGGCAGGCGGCCGTGCGGTGGTGCTGAAGCCGGAGTTCTCGCGCTTCGGCACCGAGGTGCGGCTGCTGCCTGGCGGGATCGACGCGACGACGCCGCAACTCGACGGCGTGCAGCCCTGGGTGGTGCAGCAGCTGCTGCAGGGCAGCGAGTACTGCAGCTACGCGGTGGCCGCGCATGGCCGGCTGCTGGCGCACGTGGCGTATGCGCCACGCCACCGACTGCGGCGCAGCTCCAGCTATTACTTCGACCCAGTACAGCTGCCGGCGCTGCAGGCGTTCGCCGCCGCGCTGGTCGCCCGTACCGGCTACAGCGGCCAGCTCGCGTTCGACTGGGTCGTCGATGGCGCCGGCACGCCGTGGGTGCTGGAGTGCAATCCGCGCGGCACCAGCGGCGTGCATCTGTTCGCGCCGCACGACGCGCTGCCGGCGGCGCTGGCCGGCAGTGGCGACGGCGTGCTCACGCCCGGCCATGCCCGCGCCGCGATGCTGGCGCCGCTGATGTGGCTGGACGCGCTGCCGCGCGCGCTGGCCCGCGGCGATCTGGCCGGCTGGCGCGCCGACCTGACGCGCGCCGACGACGTGCTGGCCGCCCCCGGCGACCGCGCGCCGCGAGCCTGGAGCTACGTCGACCTGGCCGGCTTCGCGCGCATCGCGCTGCGCGAGCGCAGCAGCCTGCGTGCTGCCTCCACCGCCGACTGCGCCTGGGACGGTGCGCCATTGCCGGGCCCGTGA	MANAPGVLLTGARAPVALDLARRFHAAGWRVHVADSLPARSTGASRAVAQRHRIAAAHDTAAFARDLARIAHAHALDLLVPTCEEAFHVAHVRPRLPAQLQVAVAGLPLLRQLHSKWEFLQLARGCGVGVPDSARVHTLVQARDWAGGRAVVLKPEFSRFGTEVRLLPGGIDATTPQLDGVQPWVVQQLLQGSEYCSYAVAAHGRLLAHVAYAPRHRLRRSSSYYFDPVQLPALQAFAAALVARTGYSGQLAFDWVVDGAGTPWVLECNPRGTSGVHLFAPHDALPAALAGSGDGVLTPGHARAAMLAPLMWLDALPRALARGDLAGWRADLTRADDVLAAPGDRAPRAWSYVDLAGFARIALRERSSLRAASTADCAWDGAPLPGP				NA	NA	NA	NA	NA
BMS020_06676	1089			hypothetical protein	GTGAGCGAGCGCTACGCCGACCATGCCGAGGCCTTCGCCGCGCGCTACGACGGCGGCGACGCGCGGCAGCTGGCCGACAACCTGCACGCGCCGATCGCGGTGCTGCGCAGCGGCGGCCTGCCGGTGCCGGCGACGGTTGGCGACGGCGCGCGCGGCAACGCCTGGGTCTGTTCGCCGCGCACCACCTACGTCGACTACGCCGCCGAGGAAGCGCTGCGGCTGCTGCCGCGCTGGCAGGGCGCGCCGTTGGCGGCGGTCTGCGGTGGCCTCGGCCGGCTGCTGGATGCCGCCGCGATCGACCGCGCGGTGGCGCTGAACAACTGGGGCCTGAGCACCAACCTGTATCCAGCGTTGAAGCAGCTGCGGCTGGACGCGCTGATCGACGAGGCGCGCCAGCGCTGGCCCGGCCATGCGCTGTGGTTCCGCTCGCTCAACCCCATCGACAACGGCGACTGGCTGGCGGCACTGCAGGCGCGCGGCTTCGCGCTGATCGCCAGCCGGCAGATCTACCTGCGCGATGGCGATGCGCCGGTGCGCGGCCGCGACCTCGCCGCCGACCTGCGGCTGCTGCGGCGGCACGACCTGCAGCACGCCGGCGATGCCGACATCGCCGATGCCGACTATCCGCGCATCGCCGCGCTCTACGCGCAGCTGTACCTGGGCAAGTATTCACGCCACAACCCGGCCTACCGCGCCAGCATGCTGCGCGACTGGCACCGCGACGGCCTGCTGCGGCTACGCGGCTTTCGCGGCGGCGACGGCCGGCTGCTGTGCATCGCCGGCATGTTCGGCATCGAGACCACGTTGACCACGCCGGTGGTCGGCTACGACACCGGCCAGCCGCAGCGGCTCGGCCTGTACCGCGCGCTGACCGCCTGCGGCTTCGACGCGTCGCTGCGCAGCGGCCGCCGGCTCAACCTCAGCGCCGGTGCGGCCGGCTTCAAGCGCCAGCGCGGCGCACGCGCGGTGATCGAATACAGCGCGGTGCTGGCCCGGCACTGCCCGCGCGCCACCCGCGTGGCCATCGCTGCGCTGTCGGCGCTGACCTGCCGGCTCGGCGCGCCCCTGATGCGGAGATACCAGCTATGA	MSERYADHAEAFAARYDGGDARQLADNLHAPIAVLRSGGLPVPATVGDGARGNAWVCSPRTTYVDYAAEEALRLLPRWQGAPLAAVCGGLGRLLDAAAIDRAVALNNWGLSTNLYPALKQLRLDALIDEARQRWPGHALWFRSLNPIDNGDWLAALQARGFALIASRQIYLRDGDAPVRGRDLAADLRLLRRHDLQHAGDADIADADYPRIAALYAQLYLGKYSRHNPAYRASMLRDWHRDGLLRLRGFRGGDGRLLCIAGMFGIETTLTTPVVGYDTGQPQRLGLYRALTACGFDASLRSGRRLNLSAGAAGFKRQRGARAVIEYSAVLARHCPRATRVAIAALSALTCRLGAPLMRRYQL				NA	NA	NA	NA	NA
BMS020_06677	1014			hypothetical protein	ATGAGCGATTGGCACCCGGCGCTGCTGCAGCAGTGGTACGCGGTGGCGCGCAGCGACCGCCTGCGCGAGCGGCCATTGTCGATCCAGCTGCTCGACCGGCCACTGGTGCTGGCGCGCGACGCCGCCGGCCGCGCGTTCGCGCTGGAGGACCGCTGCCCGCACCGGCACGCGCCGCTGTCGTCCGGCTGCGTCGCCGACGGCGCCGTGCAGTGTCCGTACCACGGCTGGCGCTTCGATCGCGCTGGGCGTCTCGCCGGCATTCCCGGCCTGCCACCGGAGCAGGCCGCGCCGGCGGTACGGGTGCCGGCGTATCCATTGGTCGAGCACGACGGGCTGGTCTGGCTGCGGCCGTCGCCGCACGGCGCCGACGCGCCATCGGCGCTGGTCACCGCATTGCCGACCTCAGCGCGCCGCTTCCTGTGGCAGACGCGCTGGGACGCGCACGTGCTGGAGGCGATGGAGAACTTCCTCGACCCGCTGCATACCCACTTCCTGCACCCCGGCCTGGTGCGGCGCGGCGGCGAGCGCCAGCGCATGCAGGCGCGGCTGGACTGCGACGCCGATGGCTTCGTCGTCGACTACCGCGGCCAGCCGCAGCAGAGCGGCCTGCTGTACCGGCTGTTCGAGTCGCCGCGCAGCCACGAGCGCGCGCATGTCGCGCTGCCCGGCAGTGCGCGGATCGACTACGGCTACGCCTCCGGCGCCGCGGTGGCGATCACCCTGCACTTCAGCCCGGTCGATGCCGGCCATACCGACGTGTTCGCCACGCTGCACGTGCAGGGCCGCTGGGCGCCGCGCTGGGCGGTGCGCTGGCTACTGTGGCCGTTCCTGCGCCAGGTCGGCCGCCAGGACGAGCGCATGCTCGCGCTGCAGTCATGGAACAAGGCGCGCTTCGCCGCGCGCGGCAGCGCCAGCACCACGCTCGACCTGGTGCGCGCGCCGCTGGAAGCGTGGTGGCTGCGCGGCGAGGTGCCGTCGCCGACGGCGTCGCGCACGCTGGAGATCCTGTTGTAG	MSDWHPALLQQWYAVARSDRLRERPLSIQLLDRPLVLARDAAGRAFALEDRCPHRHAPLSSGCVADGAVQCPYHGWRFDRAGRLAGIPGLPPEQAAPAVRVPAYPLVEHDGLVWLRPSPHGADAPSALVTALPTSARRFLWQTRWDAHVLEAMENFLDPLHTHFLHPGLVRRGGERQRMQARLDCDADGFVVDYRGQPQQSGLLYRLFESPRSHERAHVALPGSARIDYGYASGAAVAITLHFSPVDAGHTDVFATLHVQGRWAPRWAVRWLLWPFLRQVGRQDERMLALQSWNKARFAARGSASTTLDLVRAPLEAWWLRGEVPSPTASRTLEILL				NA	NA	NA	NA	NA
BMS020_06678	900	pgrR_13		HTH-type transcriptional regulator PgrR	ATGGCCGCGCACCCGCTGTCCGCCGTGATCGCTTTCGCCCGCGTCGCCGAGCACGGCAGCTTCACCCGTGCCGCCGCCGAGCTCGGCGTATCGACCTCGGCGCTGTCGCAGACCGTGCGCGCGCTGGAGACGCGGCTGGACGCGCGGCTGCTGCATCGGACCACCCGCAGGGTCGCGCTGACCGAGCAGGGCGAACGCTTCCTGCAGCGGGTCGCACCCGGCCTGCAGCAGATCGACGCGGCGTTCGCCGACCTCGACTTCGTCCGTGATCGTCCGGCTGGCACGTTGCGGATCAACCTGCCGGTGGCCGCCGCCGAGCAGCTGATCGTGCCGCACCTGCCGGCGTTCCTGGCGCGCTACCCCGAGGTCGCGGTGGAGCTGTTCGCCGAACGCGCGCTCAGCGACATCGTCGCCGGCGGCTTCGATGCCGGCATCCGCCTGGGCGAGGCGCTGGCGCGCGACATGGTGGCGTTGCCGGTCGGGCCGCTGCAGCGCCAGGTGGTGGTCGCCACGCCGGACTATTTCGCCCGCCACGGCATCCCGGCGACGCCGGCCGAGCTGGTCGGCCACGACTGCATCCGCTGGCGGCGCAGCGATGGCCGGATGCAGCCGTGGGAGTTCACCCGCGACGGCCGCGATTTCAGCGTCGAGGTCGATGGCCGGCTGGTCGTCAACGACACCGCGCTTGGGTTGCAGGCGGTGCGGCTCGGCACCGGGCTGGCGCAGGTGCTGGAATGGCAGGCCGCCGATGACCTCGCCAGCGGCGCGCTGCAGCAGGTGCTGGATGCCTGGCAGGCGCCGTTCGCCGGCTGGCACATCTACTACCCGGCGCGCGAGCACATGGCGCCGAAGCTGCGGGTGTTCATCGACTTCCTGCGCGAGGCCAACGGCAACATCTGA	MAAHPLSAVIAFARVAEHGSFTRAAAELGVSTSALSQTVRALETRLDARLLHRTTRRVALTEQGERFLQRVAPGLQQIDAAFADLDFVRDRPAGTLRINLPVAAAEQLIVPHLPAFLARYPEVAVELFAERALSDIVAGGFDAGIRLGEALARDMVALPVGPLQRQVVVATPDYFARHGIPATPAELVGHDCIRWRRSDGRMQPWEFTRDGRDFSVEVDGRLVVNDTALGLQAVRLGTGLAQVLEWQAADDLASGALQQVLDAWQAPFAGWHIYYPAREHMAPKLRVFIDFLREANGNI				NA	NA	NA	NA	NA
BMS020_06679	1071	yajO_6	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGTCGCTCGACCATTACCGCCTGCTCGGCCGCTCCGGCCTGCGCGTCAGCCCGCTGTCGCTCGGCACCATGACCTTCGGCAAGGACTGGGGCTGGGGCGCCGACGAGGCCGACGCGCGCCGCCTGTTCGACACCTACGTCGACGCCGGCGGCAACTTCATCGACACCGCCAACATCTACACCAACGGCAGTGCCGAGACCCTGCTCGGGCGCTTCGCCGCCGGCCGCCGCGACCACCTGGTGATCGCCAGCAAGTACTCGCTGAACCCGTTCCCGGGCGACCCCAACGGCGGCGGCAACCACCGCAAGAACCTGCTGCAGTCGGTCGAGGCCAGCCTGAAGCGGCTCGGCACCGACTACCTGGACCTGCTGTACCTGCACGCCTGGGATGGCCTGACCCCGGTCGAGGAAGTGATGCGCGGCTTCGACGACCTGGTGCGCAGCGGCAAGATCGTCTACGCCGGCCTCTCCGACACGCCGGCCTGGCAGGTCGCGCGGATGCAGACGCTGGCCGAGCTGCGCGGCTGGGCGCCGCTGGTGGCCCTGCAGATCGAGTATTCGCTGGCCCAGCGCACGGTGGAGCGCGAGCTGGTGCCGATGGCCGCCGAACTGGGGCTGGCGGTGCATGCGTGGTCGCCGCTGGCGATGGGCGTGCTGACCGGCAAGTACCGCCGCGCCGACCTGGCGCGGCTGCAGGCCGGCGCCGCCGGCAGCAGCCCGGCCGGCGGTGGCCGCGATGCGGTGGCCTACGCGCATGCGATGTTCACCGAGCAGGCGCTGGCGATCGGCGAGACGGTCGCGGCGATCGCCGCCGAGGCCGGGCATTCGCCGGCGCAGGTCGCGCTGGCCTGGCTGCTGCAGCGCCCGGGCGCGCCGATCCCGATCATCGGCGCGCGCACGCCCGAGCAGCTGCGCGACAACCTCGGCGCGCTCGCGATCACGCTCGATCCGGCGCAGCTGCAGCGGCTGGACGCGCTCAGCGCGGTCGAACTCGGCTTCCCGCACGACTTCCTGCGTGGGCCGATCCCGCAGCAGCTGATCTTCGGCGGCACCCGCGTGCAGCCGCGCTGA	MSLDHYRLLGRSGLRVSPLSLGTMTFGKDWGWGADEADARRLFDTYVDAGGNFIDTANIYTNGSAETLLGRFAAGRRDHLVIASKYSLNPFPGDPNGGGNHRKNLLQSVEASLKRLGTDYLDLLYLHAWDGLTPVEEVMRGFDDLVRSGKIVYAGLSDTPAWQVARMQTLAELRGWAPLVALQIEYSLAQRTVERELVPMAAELGLAVHAWSPLAMGVLTGKYRRADLARLQAGAAGSSPAGGGRDAVAYAHAMFTEQALAIGETVAAIAAEAGHSPAQVALAWLLQRPGAPIPIIGARTPEQLRDNLGALAITLDPAQLQRLDALSAVELGFPHDFLRGPIPQQLIFGGTRVQPR	PGPT0016784_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016784-mocA-NA	NA	NA
BMS020_06680	996	iolS_3	COG0667	Aldo-keto reductase IolS	ATGAAGACCCGCACCCTCGGCCGCCACGGCCCCAGCGTGTCCGCCCTCGGCCTCGGCTGCATGGGCATGAGCGCGTTCTACGGCGACCGCAGCGACGAGGCCGGCTCGATCGCGGTGATCCGGCATGCGATCGCGCGCGGCGTGAACCTGCTCGACACCGCCGACATGTATGGCCCGCACACCAACGAGGTGCTGGTCGGCAAGGCGATCGCCGGCCAGCGCAACCGCGTGTTCCTGGCCACCAAGTTCGGCATCCGGCTGGATCCCAACGATCCATCGGTGCGCGGCGTCAGCGGCCACCCCGACTACGTGCAGGCCGCCTGCGAGGCCAGCCTGAAGCGGCTGGGCACCGACCACATCGACCTGTACTACCAGCACCGGGTCGATCCGCAGGTGCCGATCGAGGACACCGTCGGCGCGATGGCGCGGTTGGTCGAGCAGGGCAAGGTGCGCTTCCTCGGCCTGTCCGAGGCCGCGCCGGAGACGATCCGCCGCGCGCATGCCACCCACCCGATCACCGCGCTGCAGACCGAGTATTCGCTGTGGACGCGCGACCCGGAGGAGAACGGCGTGCTGGCGACGGTGCGTGAGCTCGGCATCGGCTTCGTACCGTATTCGCCGCTTGGCCGCGGCTTCCTCAGCGGCGCGTTCAAGAGCCCCGACGACTTCGACGCCGACGACTACCGGCGCACCTCACCGCGCTTCCAGGGCGAGAACTTCGCCCGCAACCTGGCGCTGGTCGAGCAGGTCAAGGCGCTGGCCGCCACGCGTGGCGTCAGCGCCAGCCAGCTGGCGCTGGCCTGGGTGCTGGCGCAGGGCCAGGACCTGGTGCCGATCCCCGGCACCAAGCGCATCGCCTATCTCGACCAGAACCTGGCGGCGATCGACCTGGTGCTGAGCGCCGCCGAACTGGCGCAGCTCGATGCGGTATTCCCGCCGGGCGCCGCGCTCGGCGCACGCTACCCGGCCGCGAGCATCGGCTCGGTGCATCGCTGA	MKTRTLGRHGPSVSALGLGCMGMSAFYGDRSDEAGSIAVIRHAIARGVNLLDTADMYGPHTNEVLVGKAIAGQRNRVFLATKFGIRLDPNDPSVRGVSGHPDYVQAACEASLKRLGTDHIDLYYQHRVDPQVPIEDTVGAMARLVEQGKVRFLGLSEAAPETIRRAHATHPITALQTEYSLWTRDPEENGVLATVRELGIGFVPYSPLGRGFLSGAFKSPDDFDADDYRRTSPRFQGENFARNLALVEQVKALAATRGVSASQLALAWVLAQGQDLVPIPGTKRIAYLDQNLAAIDLVLSAAELAQLDAVFPPGAALGARYPAASIGSVHR	PGPT0009140_363	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009140-ydbC-K05275	NA	NA
BMS020_06681	2973			hypothetical protein	ATGCGCGTGGACATGCCGCGCTGGGGACAGTGGCGCAGCGTGCGCAGCTTCGGCGTGCTGGTGGCGGCGCTGCTGCTGGTCAGCATGGGCCTGGTACTGGCCAACGACCGCCACAACCGGCTGGCCGCGGCGCAGAGCCAGGCGCTGGTGCTGACCACCGGCACCGAGCGCCTGCTGCGCTTCGAGTTCCGCAATCTGGAGCGGGCGATGCTGGGCATCGCCGCCGATGGCAACGAGCTGTTCCGCAAGGTGCCCGACCAGGCCCCGGGGCTGCTCGGCGATGCGATCCGCGGCGTGGTCAGCCGCCATGGCGAGATCGAGAGCATCGTCGTGCTCGATGCGCTGGGCGAGGCGGTGACGCCGGGGCGCGGCGACCCGGGGCTGCCGCGCTGGACCGAGCCGGCCGCGCGCGGCGAGGGCCACCAGCTGTACATCGGGCCGCTGGAGCGGCTCAGCAGCGGCGGCTGGGTGCTGAAGCTGGCGATCCGCATGGACGACCAGGGCTGGCTGCTGGCGCGGCTGCGCACCGACGAACTGCAGGGCATCCTCGGCGGGTTGGACCTGGGCCGCGACGGCGTGCTCAGCGTGCTGCGCCCGGACGGCACGATCGTGGCGCGGATGCCCGATCCGCAGCGGATGACCGGGCAATGGGTGCCGCCGGCACTGGACGGCGAGCAGGTGCCGCATGGCGCGGTGGCGCTGGGAAGCCGGCCGAGCCGGGTGGATGGGCGCATGCGGGTGGCGGCGGCCAGCCGCCTGCCGGACTACCCGATGCTGGTGTTCGCCTCGCTCGACCAGGACGAGGTGCTGGCGCCGTGGCGGATGTTCCTGGCGGTGGCGCTGGCGCTGCTGGTGGTCTACTGCCTCGGCCTGGCCTACCTGCTGCGCAGCCTGCGCCGCGCCGAGCGCCGCCAGGCGCAGCTGGTGGCCGAGGTGCGCGCCAGCGACGAGGAACTGCGCCTGGCGCACCACGTCGGCGGCATCGGCACCTGGTGGATCGGACCGGACGGCCAGCGCCTGCACTGCGCGGCGCAGACCGTGGAGATGTTCGCGCTGCCGCGCGCGACGATGCCGGTCGGACGCTTCCTGGCGCGGGTGCATGACGAGGATCGCGTGCGGGTGCTGCGTGCGGTACGCCACGCCTGGCGCGAGGGCAGCGCGCTGGACATCACCTGCCGGGTGCACGCCGGCGCGCAGGGCGAGCGCTGGATCGCCGCACGCGGCGCGATCGTCGACGGTGCGGCCAGCGGCAGGCGCATGACCGGCACCGTGGTGGACATCAGCGAGCGGGTCGAAAGCCAGGCGCTGGCGCTGGACGCGCAACGCCAGTTCCGCCTGATCTTCGAGCTCAATCCGCTGCCGTGCTGGCTGTTCGACGTGGAGACGCTGAAGTTCCTCGAGGTCAATCCGGCGGCGGTGCGCCAGTACGGCTACAGCCGCGAGGAACTGCTGGCGATGCGCATCACCGAGATCCGACCGCCGGAATACGTGGACGACATCGTGCGCCAGGTCAACGAACCGGACCCGTCCGAGCGCGGCACCTCGCTGGTCACCGTGCACCGCCAGCGCGACGGCAGCTTGATCGACGTGCGCGTGCATACCTCGATGCTGGAGATCGGCGGCGCGCGCGCGCGGCTGGTGCTGGCCGAGAACATCAGCGAGGCGATGGCGCACCAGCGCGAGCTGGCCCACCGCGCCAGCCACGATGCCGCCACCGGCCTGCTGACCGTGGGCGCGCTGGCCGACCAGCTCGACCAGTCCGGACCGGCGCGCTACACCATCGCCCACATCCAGCTGCGCGGCCTGCAGCTGATCGGTGACACGCTGGGGCGCGAGGTCGGCGACGATGTGAAGCAGCGGCTGTGCCGCCGCCTGCAGGCACTGGTCGACGGTTACGGCTGGCTGGCGTTCCAGCCCTCGGAGGATTTCGTCGTCGCCATCGACGACGACCGCGATGCCGCCGCCGCGCTGGAGGCGCTGGAGGCGCTGTTGTCCGGGCCGGTGCGCGGGCGCGATTCGCTGCATCCGCTGGACCTGCGCATCGGCGTGGCCAGCTTCCCGCAGGACGGCGCCGGTGCCGAGGACGTGATCGGCCGCGCCGCGCAGGCCGCGCACGCCGCGCGCGAGGCCGGCACCAGCATGCAGCACTTCGCGCCGCAGATCGCCGTGCGCCTGGGCGAGCGCATGCGCCTGGTCGGGCGCCTGCACGAGGCGATCGACCGCGGCGAATTCGAACTGCACTACCAGCCGATCGTCGACGCCGGCGATGGCCGCCCGGCCGCGCTGGAGGCGCTGGTGCGCTGGCGCTATCCGGGACGCGGGCTGGTGCCGCCGGGCGAGTTCATCCAGCTGTGCGAGGACACCGGCCTGATCCTGCCGCTGGGGCGCTGGGCGATCCGCCAGGCCGCGCGCGACCGGCGCTGGCTGGGCACCCAGGTGGACAACCCGGCGCCGGTGGCGATCAACGTGTCGGCGCTGCACTTCCACGGCAGCGACGTCGCCAGCGACGTGGTCGAGGCCTGCCGCGAATACGGCCTGGCCACCGACAGCCTGCACGTGGAACTGACCGAGAGCAGCCTGCTGCGCGATCCGGAGCAGGCCTTGCAGGTGATGCGGCGCCTGCATGCGCAGGGCGTGTGCATCTCGCTGGACGACTTCGGCACCGGCTTCTCGAGCATGGCCTACCTGCAGAGCATGCCGCTGGACTCGTTGAAGATCGACCGCACCTTCGTGCGCGACGTCGACAGCGACGCGCGCAGCGCCTCGATCTGCCGCGCGATGCTGACCCTCGGGCAGACAATGGGCCTGAAGGTGATCGCCGAGGGCGTGGAGCGCGAGGAGCAGCGTGCCTGGCTGCGCCGGCACGGCTGCGACCAGCTGCAGGGATTCCTGATCGGCCGTCCGGCGCCGCTGGCGGAGCTGGTGGCGCACTGGTGGCCGCTGCACGGCCGCGGCGACATCGACGCGGCCTGA	MRVDMPRWGQWRSVRSFGVLVAALLLVSMGLVLANDRHNRLAAAQSQALVLTTGTERLLRFEFRNLERAMLGIAADGNELFRKVPDQAPGLLGDAIRGVVSRHGEIESIVVLDALGEAVTPGRGDPGLPRWTEPAARGEGHQLYIGPLERLSSGGWVLKLAIRMDDQGWLLARLRTDELQGILGGLDLGRDGVLSVLRPDGTIVARMPDPQRMTGQWVPPALDGEQVPHGAVALGSRPSRVDGRMRVAAASRLPDYPMLVFASLDQDEVLAPWRMFLAVALALLVVYCLGLAYLLRSLRRAERRQAQLVAEVRASDEELRLAHHVGGIGTWWIGPDGQRLHCAAQTVEMFALPRATMPVGRFLARVHDEDRVRVLRAVRHAWREGSALDITCRVHAGAQGERWIAARGAIVDGAASGRRMTGTVVDISERVESQALALDAQRQFRLIFELNPLPCWLFDVETLKFLEVNPAAVRQYGYSREELLAMRITEIRPPEYVDDIVRQVNEPDPSERGTSLVTVHRQRDGSLIDVRVHTSMLEIGGARARLVLAENISEAMAHQRELAHRASHDAATGLLTVGALADQLDQSGPARYTIAHIQLRGLQLIGDTLGREVGDDVKQRLCRRLQALVDGYGWLAFQPSEDFVVAIDDDRDAAAALEALEALLSGPVRGRDSLHPLDLRIGVASFPQDGAGAEDVIGRAAQAAHAAREAGTSMQHFAPQIAVRLGERMRLVGRLHEAIDRGEFELHYQPIVDAGDGRPAALEALVRWRYPGRGLVPPGEFIQLCEDTGLILPLGRWAIRQAARDRRWLGTQVDNPAPVAINVSALHFHGSDVASDVVEACREYGLATDSLHVELTESSLLRDPEQALQVMRRLHAQGVCISLDDFGTGFSSMAYLQSMPLDSLKIDRTFVRDVDSDARSASICRAMLTLGQTMGLKVIAEGVEREEQRAWLRRHGCDQLQGFLIGRPAPLAELVAHWWPLHGRGDIDAA				NA	NA	NA	NA	NA
BMS020_06682	2109	pepO_2	COG3590	Neutral endopeptidase	ATGTCGCTGATGCAACGCCCCGCATTGATGCTCGCCATCACTGCCGCCCTCGCCTTGTCGCTGACCGCCTGCGGGCGCAATGAAAGCCAGCCCGCCCCCCCGTCCACGGCCTCCGCCACGCCGGACAAGCCGGTGCTGGGAGACTTCGGCTTCGACGCTGCCGGCATGGACCGCGCCATCGCCCCTGGGGACGACTTCTTCGGCTACGCCAACGGCACCTGGGTCAAGACTACCGAGATTCCGGCCGACCGCGCCAGCTACAACAGCTTTACCCGGATCGTGGTCGACACCGAGCGCCACGTGCGCGAGATCATCGAGGGCGCGGCCGCCAACGAACGCGCCAGCGGCGACGACCGGAAGATCGGCGACTACTACGCCGCGTTCATGGACGAGGCCGGGATCGAGGCCAAGGGCGTCGCCCCGGTGCGGCCTGAGCTGGACGCGATCGCCGCGATCGCCGATCCGCACGCGCTGGCCGCCACGCTGGGCGCGCAGCTGCGCGCCGACGTCGACCTGCTCAACGCCACCCACTACTACACCGACCGCCTGTTCGGGCTGTGGGTGTCGCAGGACATCCACCATCCGGACCGCTATGCGCCCTACCTGGTGCAGGGCGGCCTGGGCCTGCCCGACCGTAGCTTCTACCTGGAAGAGGGCCGCATGGCCGAGCTGCGCAAGGCCTACCAGGCGCACGTCGCCAAGGTGCTGACGCTGGCCGGGATCGCCGATGCCGAAGCCAAGGCCGAGCGCATCGTCAAGCTCGAGACCGAGATCGCCCGCGTCCACGCCAGCCAGGAGCAGACCAACGACGTGCAGGCCGGCGCCAATGCCTGGACCCAGGCCGACTTCGCGCGCAAGGCGCCCGGACTGGACTGGAACGCGTTCATGGCCGCGGCCGGGCTGAAGGACCAGGAAGATTTCGTGGTCTGGCAGCCCAAGGCGGTGGCCGGGATCTCCGCGCTGGTGGCCAGCCAGCCGCTGGACGTGTGGAAGGACTACCTGGCCTTCCACGCGCTGGACCGCGCCTCGCCCTACCTGTCGCAGGCCTTCAGCGACGAGCGCTTCGCGTTCTACGGCGCCACCCTCGACGGCACCCCGCAGCAGCGCGAGCGCTGGAAGCGCGCGATCGACGCCACCAATGCCGCGCTCGGCGAGGCGGTCGGCAAGCGCTACGTCGACCGCTACGTCAGCACCGAGACCAAGGAACGCGCCGAGGCGATGGTGAAGAACATCGTCGCCGCGTTCGCCAAGCGCATCGACGCGCTGGAGTGGATGAGCCCGCAGACCAAGGCGCACGCGCAGGCCAAGATCGCCGGGCTGACCGTGGCGGTGGGTTACCCGGCGCACTGGCGCGATTACAACGCGCTGGAGGTGCGCCGCGACGACGCGCTGGGCAACGCCGAGCGCGCCGAGGTCTTCGAGTACCAGCGCAACCTGGCCAAGCTCGGCAAGCCGGTCGACCATGGCGAGTGGTACATGCTGCCGCAGACCGTGAACGCGCTGAACGTGCCGCTGGAGAACCGGCTGATCTTCCCGGCGGCGATCCTGCAGCCGCCGTTCTTCGACCCGGCCGCCGACGATGCGGTCAACTACGGCGCGATCGGCGCGGTGATCGGGCACGAGATCAGCCACAGCTTCGACAACACCGGCGCGTTGTTCGACGAGCACGGCGCGCTGCACAACTGGTGGACGCCGCAGGACCTGAAGAAGTTCGAAGCCGCCGGCGCGGCGCTGGCGGCGCAGTTCAGCGCCTACAAGCCGTTCGACGACCTGTCGGTCAACGGCAAGCTGACCCTGGGCGAGAACATCGCCGACGTCGCCGGCCTGGCCACCGCCTACGACGCCTACCAGCTGTCGCTGCAGGGCAAGCAGCCGCAGACCATCGACGGCTTCAGCCCGGACCAGCGCTTCTTCCTCGGCTTCGCCCAGGCCTGGCGCGGCAAGTACCGCGATGCGGCGCTGCGCAATGCGGTGCTGACCGATGTGCACGCCCCGGGCCGCTTCCGCGCCCAGACCGTGCGCAACATCGACGCCTGGTACCCGGCGTTCGAGGTCAAGCAGGGCCAGCAGCTGTACCTGGACCCGGCGCAGCGGGTGAAGATCTGGTAA	MSLMQRPALMLAITAALALSLTACGRNESQPAPPSTASATPDKPVLGDFGFDAAGMDRAIAPGDDFFGYANGTWVKTTEIPADRASYNSFTRIVVDTERHVREIIEGAAANERASGDDRKIGDYYAAFMDEAGIEAKGVAPVRPELDAIAAIADPHALAATLGAQLRADVDLLNATHYYTDRLFGLWVSQDIHHPDRYAPYLVQGGLGLPDRSFYLEEGRMAELRKAYQAHVAKVLTLAGIADAEAKAERIVKLETEIARVHASQEQTNDVQAGANAWTQADFARKAPGLDWNAFMAAAGLKDQEDFVVWQPKAVAGISALVASQPLDVWKDYLAFHALDRASPYLSQAFSDERFAFYGATLDGTPQQRERWKRAIDATNAALGEAVGKRYVDRYVSTETKERAEAMVKNIVAAFAKRIDALEWMSPQTKAHAQAKIAGLTVAVGYPAHWRDYNALEVRRDDALGNAERAEVFEYQRNLAKLGKPVDHGEWYMLPQTVNALNVPLENRLIFPAAILQPPFFDPAADDAVNYGAIGAVIGHEISHSFDNTGALFDEHGALHNWWTPQDLKKFEAAGAALAAQFSAYKPFDDLSVNGKLTLGENIADVAGLATAYDAYQLSLQGKQPQTIDGFSPDQRFFLGFAQAWRGKYRDAALRNAVLTDVHAPGRFRAQTVRNIDAWYPAFEVKQGQQLYLDPAQRVKIW				NA	NA	NA	NA	NA
BMS020_06683	918			hypothetical protein	ATGTCCACCGTTCTGCGCACGCTTGCCGCGCCTGCCACCGCCCGCATCCGCCGCTGGGTGCTCGATGCGTTCCCGCGCGGCGAAAGCGGGATCGCCTACGACGCGCCGGCCGGCGATCCCGGGCTGTTCGGCGCCGACAGCGTCACCTGGCGCGTGCACGCGGAGTTTCCCGGCATGCTCGCCGGCGGCCTGTGCGCGTTGATGCTGCAGACCCTGCATCCGCTGGCGCTGGCCGGGGTGTACGAGCACTCCAATTTCCGCGATGACCTGGTCGGGCGCTTGCGTCGCACCACCGGGTTCGTCGCCGGGACCAGCTACGCGCCGCGTGCCGAGGCCGAGCGGCTGATCGCGCGGGTGCGGGCGATCCACGCGCGGGTGCGCGGCACGCTGGCCGACGGGCGCGCGTATGCGGCCGATGATCCCGCGCTGCTGACCTGGGTGCACGTGACCGAGGCCTACGGCTTTCTCGAGGGCTGCCGCCGCTATTGCCGCGAGGTGCCGGAGGCGATTGCCGACCGCTATTACGACGAGGCCCGGCGCGTGGCCGAGGCGCTGGGCGCGCAGGCGGTGCCGGCCTCGCAGGCGCAGGTGGCGGCGTACTTCGCGCGGATGCAGCCGCAGCTGCAGGTGGATGCGCGTTCGCGCGAAGTGCTGGCGATCCTGGCAGCGATCCGCCTGCCGGTGCCGGCGGCGGGGCTGTCGCGCGATGTGTTTCTCGGCGCCGGTGCGGCACTGCTGCCGGACTGGGCCGCGCAGTTGCTTGGGCGTGGCGCATTGCAGCAGGCGCGCGACCGCGCCTCGGGGCGGTTGATGCGCGGCATGGCGCCGCTGTTCCGCGCCGCGCTCAACGACGGCGTCGCCAGCCGCGCCTGCCGCCGCGTTGGCGTGGCGCCGACGCTGCTGGCGCGCTGGCCTTGA	MSTVLRTLAAPATARIRRWVLDAFPRGESGIAYDAPAGDPGLFGADSVTWRVHAEFPGMLAGGLCALMLQTLHPLALAGVYEHSNFRDDLVGRLRRTTGFVAGTSYAPRAEAERLIARVRAIHARVRGTLADGRAYAADDPALLTWVHVTEAYGFLEGCRRYCREVPEAIADRYYDEARRVAEALGAQAVPASQAQVAAYFARMQPQLQVDARSREVLAILAAIRLPVPAAGLSRDVFLGAGAALLPDWAAQLLGRGALQQARDRASGRLMRGMAPLFRAALNDGVASRACRRVGVAPTLLARWP				NA	NA	NA	NA	NA
BMS020_06684	1101	gldA_1	COG0371	Glycerol dehydrogenase	ATGCTGTCGACCGCCATTTTCCCCGCGCGCTACGTGCAGGGCCCCGCCGCCCTCGACCACCTCGGCGAAGAACTGGCGCGCTTCGGCGAACGTGCACTGGTGCTGCTCGATCCGTTCGCTGACGACCACTACGGCGATCGCGTCGCCACCGGCTGCGATGGCCAGATCGAGATTCGTCGCGAACGGTTCGGTGGTGAATGCAGCGACGAGGAGGTCCAGCGCCTGGCCAAGATCGCGCTCGATCGCCTGCCCGACTGCATCGCCGGCATCGGCGGCGGCAAGACCCTGGATACCGCCAAGGCGCTGGCGCACACGCTCGGCCTACCGGTCGCGGTGGTGCCGACACTGGCCTCGAGCGACGCGCCCTGCAGCGCGCTGTCGGTGATCTACACCGCCGAAGGCGCGTTCAAGCGCTACCTGGTGCTGCCGCGCAATCCGGACCTGGTGCTGGTGGACACCGCGGTGATCGCGCAGGCGCCGGTGCGCTTCCTCATCGCCGGCATCGGCGACGCGCTGGCGACCTGGTTCGAGGCCGAAGACTGCCGCATCTCCGGCGCCGCCAACATGACCGGCCGCCCCGGCCCGCAGGCCGCGCACGCACTGGCCCGTTTCTGCCACGAGACGCTGCTGCAGTACGGCGTGCTGGCGCTCGACGCCTGCCGCCAGCAGGTGGTGACGCCGGCGCTGGAACGGGTGGTAGAAGCCAACACGCTGCTGTCCGGGCTGGGCTTCGAGAGCGGCGGGCTGTCGGCCGCGCACGCCATCCACAACGGCCTGACCGCGCTGCCCGGCACGCATGCCTACTGGCATGGCGAAAAGGTCGCGTTCGGCGTGCTGGCGATGCTGCTGCTCGGCGACCACGCGCCGGCGCAGGTCGAGCAGACGTTCGCCTTCTGCCATGCGGTGGGGCTGCCGGTGACGCTGGCGCAGATCGGCCTGGAGGATGTCGACGACACCGCCCTGCTGCAGGCGGCCACGCTGGCCTGCGCCGAGGGCGAGAGCATCCACAACGCCGCCCATCCGGTCACCCCGGCGGCGGTGCTGGCCGCGATGCGCGCCGCCGACGCGCGCGGCCGACGTCTGCTCGCCAGCGCGGTCTGA	MLSTAIFPARYVQGPAALDHLGEELARFGERALVLLDPFADDHYGDRVATGCDGQIEIRRERFGGECSDEEVQRLAKIALDRLPDCIAGIGGGKTLDTAKALAHTLGLPVAVVPTLASSDAPCSALSVIYTAEGAFKRYLVLPRNPDLVLVDTAVIAQAPVRFLIAGIGDALATWFEAEDCRISGAANMTGRPGPQAAHALARFCHETLLQYGVLALDACRQQVVTPALERVVEANTLLSGLGFESGGLSAAHAIHNGLTALPGTHAYWHGEKVAFGVLAMLLLGDHAPAQVEQTFAFCHAVGLPVTLAQIGLEDVDDTALLQAATLACAEGESIHNAAHPVTPAAVLAAMRAADARGRRLLASAV	PGPT0008270_760	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0008270-gldA|dhaD-K00005	NA	NA
BMS020_06685	603			hypothetical protein	ATGATCGCTTTGTTCCGGGGTTTGGGCCTGCTGCTGCAGGACAACGCATTGCACCGCCAGCCGTTCGAGGACCAGGCCGCGCACTGGCGCGACAAGTCCGACGCGCAGCTGGACGAGGAAGTGGAGCTGCTGACCGTCGCGAAGAAGCAGTGGGTGGTCGCCTCGATCATCCTCTGGCAGGCGATCTCGCTGGTGCTGCTGGGGGTGATCGCGCACCAGATCTGGCAGGACGATTTCCACATCAGCTTCAGCCGCGTGGTCATCGTGCTGACCTCATGGGTATCGATCCTGTTCGTGCTGTGGTTCATCGCCGACCTGTTCGACCACAGCGCCGGCTTCGAGCGCTGGCTGCGCGCCTTCAACAGCCGCGCCCGGCTGGCACCGGATGCCGACACCGTCGAATGCGTCGCCGAGGCGCTGGAGATGGCCCGGCGCTACCCGGAGGTGCTGCGCTACAAGCAGGCGGTGCTGACCCGCCGCGACCTGCGCCACGAGGACATCGTCAACATGCGCGAGATGGGACGCATGCGGCGCTACTCGGAAATCGTGCGCGAACTGGACCACTACAACGGCGGCCCGCGCCTGGTGGCCAACAGCGCATGA	MIALFRGLGLLLQDNALHRQPFEDQAAHWRDKSDAQLDEEVELLTVAKKQWVVASIILWQAISLVLLGVIAHQIWQDDFHISFSRVVIVLTSWVSILFVLWFIADLFDHSAGFERWLRAFNSRARLAPDADTVECVAEALEMARRYPEVLRYKQAVLTRRDLRHEDIVNMREMGRMRRYSEIVRELDHYNGGPRLVANSA				NA	NA	NA	NA	NA
BMS020_06686	1599	yveA_3	COG0531	Aspartate-proton symporter	ATGTCTGACAGCCCCCTGCGCCGCGAAGTCGGTCCGTTTGCCCTCATGCTCACCGGCCTCGGGTCGATCATCGGCTCCGGCTGGTTGTTCGGCGCCTGGCGCGCCGCCGGCCTGGCCGGTCCCGGCGCGATCTGGGCCTGGGTGCTCGGTGCGGCGATCATCACCACCATCGCGCTGTCCTACGCCGAGCTTGGCGCGATGTTCCCCGAGTCGGGCGGCATGGTGCGCTACAGCCACTACTCGCACGGCTCGCTGGTCGGCTTCATCGCCGGCTGGGCCAACTGGATCGCGATCGTTTCGGTGATCCCGGTCGAGGCCGAGGCCTCGGTGCAGTACATGGCCTCGTGGCCGTGGCAGTGGGCGCAGGACCTGTACATCCACGCCCCGGGCGGCGCCGGCGAGTTGTCGGTGGCCGGGCTGGGCATCGCCGCGGTGCTGGTGCTGGTCTACTTCCTGCTCAACTTCTGGAGCGTGAAGCTGTTCGCGCGTTCCAATACCGCCATCACCGTGTTCAAGCTGGTGGTGCCGGCGCTGACCGGCGTGGCGCTGATCGCCAGCGGCTTCCACCCGCAGAACTTCAGCGTCGGCCTGCACGGCGAGCCGCACACCATCGATTTCGCCGCGGTGCTGACCGCGGTGGCCACCGCCGGCATCGTCTTCAGCTTCAACGGCTTCCAGAGCCCGGTGAACCTGGCCGGCGAGGCGCGCAACCCGGGGCGCAGCATTCCGTTCGCGGTGCTCGGTTCGATCGCGCTGGCGACGGTGGTGTACCTGATCCTGCAGGTGGCCTACATCGGCGCGGTGCCGCCGGAGATGCTGGCCAACGTCGGTTGGCACGGCATCGATTTCCGCTCGCCGTTCGCGCAGCTGGCGATCATCGTCAACCTGCACTGGCTGGCGATGCTGCTGTACATCGATGCGTTCATCAGCCCCTCCGGCACCGGCATCACCTACACCGCGACCACCGCGCGGATGATCTACGGCATGGAGAAGAACGGCACCATGCCCAAGGTGCTGGGCAAGGTGCACGCGCACTGGGGCGTGCCGCGCCCGGCGATGTTCTTCAACCTGGCGGTGTCCTACCTGTTCCTGTTCTTCTTCCGCGGCTGGGGCACGCTGGCGGCGGTGATCTCGGTGGCGACGATCATTTCCTACCTGACCGGTCCGATCAGCGCGATGACGCTGCGTCGCACCGCGCCGGAGGTGCAGCGCCCGCTGCGCGTATGGGCGATGCCGCTGCTGGCCGGCGTGGCGTTCGTGATGGCCACCGAACTGCTGTACTGGGCGCGCTGGCCGCTGACCGGCGAGATCATCCTGCTGATGGTGGTCGCGCTGCCGGTGTACTTCTATTACCAGGCCAAGCAGGGCTTCCGCGATTTCCAGCGCAACCTGAAGGGTGCGGCGTGGATGATCGTGTACCTGCCGGTGATCGCGCTGCTGTCGTGGGCCGGCAGCACCACCTTCGGCGGCCATGGCTACATGCCATACGGGACCGACCTGGTGGTGGTGGCCGTGGTCGGCCTGGTGTTCTACCTGTGGGGCGTGCGCAGCGGCTGGCGCACCCCGGCGATCGAAACGGCGATCGCGGCCCGGCACTGA	MSDSPLRREVGPFALMLTGLGSIIGSGWLFGAWRAAGLAGPGAIWAWVLGAAIITTIALSYAELGAMFPESGGMVRYSHYSHGSLVGFIAGWANWIAIVSVIPVEAEASVQYMASWPWQWAQDLYIHAPGGAGELSVAGLGIAAVLVLVYFLLNFWSVKLFARSNTAITVFKLVVPALTGVALIASGFHPQNFSVGLHGEPHTIDFAAVLTAVATAGIVFSFNGFQSPVNLAGEARNPGRSIPFAVLGSIALATVVYLILQVAYIGAVPPEMLANVGWHGIDFRSPFAQLAIIVNLHWLAMLLYIDAFISPSGTGITYTATTARMIYGMEKNGTMPKVLGKVHAHWGVPRPAMFFNLAVSYLFLFFFRGWGTLAAVISVATIISYLTGPISAMTLRRTAPEVQRPLRVWAMPLLAGVAFVMATELLYWARWPLTGEIILLMVVALPVYFYYQAKQGFRDFQRNLKGAAWMIVYLPVIALLSWAGSTTFGGHGYMPYGTDLVVVAVVGLVFYLWGVRSGWRTPAIETAIAARH	PGPT0000711_8	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0000711-yveA-NA	NA	NA
BMS020_06687	291			hypothetical protein	GTGATTCCGCGATGCCATCATGAGAACGTATTCGACATTCCCGACGATCTGGGTGTGGAGGTCTTCCGGGCCACGCGGCGGCTGGCGCAGGCGATGCGCGTTGTCTTCGGCTGCGAAGGCATCTCGACCCGGCAGCACAACGGGCCGGCCGGCAACCAGGATGTGTGGCACTACCATCTGCATGTGTTCCCCCGTTACACCGGCGATGGGCTGCACCTGGGCGAGGAGGCGGCGTACGCCAGCGAAGAGCGCATGGCGCTGGCCGCACGCCTGCGGTCTGCGCTGGGGTAG	MIPRCHHENVFDIPDDLGVEVFRATRRLAQAMRVVFGCEGISTRQHNGPAGNQDVWHYHLHVFPRYTGDGLHLGEEAAYASEERMALAARLRSALG				NA	NA	NA	NA	NA
BMS020_06688	132			hypothetical protein	ATGCAACACGCACCACCCGGCTATGCGTGCCCGTTCTGCGCCATTGCGGGCACGCTTCCGGCGCCGGATCCGCAGTCGGCCGTTGTGCTGGTCGATGCCAATGTGTTCGCGCTCGTGCCGCTGCACCACTAG	MQHAPPGYACPFCAIAGTLPAPDPQSAVVLVDANVFALVPLHH				NA	NA	NA	NA	NA
BMS020_06689	312			hypothetical protein	ATGGACTACGTGGCAGCCGTGCTTGCAGATGCCGTGCGCGTCCGCTGTGCGTCGGGACCATTGGCCGCCAGGGTGTTGGCCCGCGGGGCGACCGCATGTGATCGCGGTGTCGAGTTTGCCTTCGACTCCAGGCCGGCATTGGCCGCTGTCCTGGAGCAGTTGCAGCGCCTGCAGCTGCCGTTCGCCGATGCGCCGGCCGGGTGGCCGCCCGCGGCGGTGTTTGCCCAACTGCGCGACGAGGGCCTGGTCCATGGCCGCATCATTGCCGTGTCGTGGAACGCACCGGACCAACCGGTGCTGCGTGATGCCTGA	MDYVAAVLADAVRVRCASGPLAARVLARGATACDRGVEFAFDSRPALAAVLEQLQRLQLPFADAPAGWPPAAVFAQLRDEGLVHGRIIAVSWNAPDQPVLRDA				NA	NA	NA	NA	NA
BMS020_06690	462			hypothetical protein	ATGGAATATCCGGACATGGAGTACGTTGGGTTTTGGCCTCGGGTTGGCGCGGGGATCATCGATGCGATATTGCTTCTGGTGATAACCCTGCCGCCGTTGCTTCTGATCTATGGGGCGGGCTATCTGACCAGCGACAAGTTCGTCCGCGGCCCTGCCGACGTGCTCATCAGCTGGGTGCTGCCGGCCGTGGCGTCCGTATGGTTATGGGTGGCGACCGGACAAACGCCAGGGAAGATGGCGATTGGGGCGAGGATCGTTGATGCCGAAACGGGCAAGACCATTTCCATCGGCAAGGCGATCGGTCGCTACCTGGCCTACTTCATCAGTACGCTGGGGCTTTGTGTCGGCTACCTCTGGGTCGGCTTCGATCCAAAGAAGCGGGGGTGGCACGACCACATCGCGGGGACCGTGGTCGTACGCAAGCGTGATCGCCGGCCCGACACGGTCAGATTCAACGACTAG	MEYPDMEYVGFWPRVGAGIIDAILLLVITLPPLLLIYGAGYLTSDKFVRGPADVLISWVLPAVASVWLWVATGQTPGKMAIGARIVDAETGKTISIGKAIGRYLAYFISTLGLCVGYLWVGFDPKKRGWHDHIAGTVVVRKRDRRPDTVRFND				NA	NA	NA	NA	NA
BMS020_06691	303			hypothetical protein	ATGCAAACACTGTTGGTGTTCATCCGGGTCGAGGTCGTCGTTGGCCTGGCGTGCGGCCTTGCCATGCTCTATTTCCAGCTTCGTGCGTACCGCAGGCACGGGAAGTCGTTCTTCCTCACCTTGGTCAACTCCACGATCTTCGCGTTGCTGGCCTCGGGGCTGGCGAGTTGCCAGTACTTCGTCGCCATGCGCGAGGAGGTGGCGCTGACGGCAGTCTGGCTTTCGGTGCCGCTCTACGTCCTGGCGACGTTGCTGGGCACGTGGGGCGGTATCCAGTTCTTCCGCGCCTACGATGCGAAATAG	MQTLLVFIRVEVVVGLACGLAMLYFQLRAYRRHGKSFFLTLVNSTIFALLASGLASCQYFVAMREEVALTAVWLSVPLYVLATLLGTWGGIQFFRAYDAK				NA	NA	NA	NA	NA
BMS020_06692	351			hypothetical protein	ATGCGTCTACCCATGCTGCTGCGATGCCTGCCGTTGCTGCTGTTGGCTGCCTGCACCGGGGGCGGCGGCAGCAGCGCCACGGTGCGCGTCAGCAGCGACGGCAAGGACCTGCTGTTCACCAAGGTGGAAACCCGGGCCGACACCACCACCTTCCGCTGCCTGGCCAGCAGCAGCGGCCAGTGCCACTACCTGGTCTACGCGCAGGACTGCGACCACGACAGCGGCGCGACCTGCCCGCAACGCGAGTTGCAGCGGCTGGTGGTCGCGCTGGGCGACACGCGCCAGGTGCACGGCCTGGCCAAGGGCTTCCGCCAATGCGCCTCGGCCACGCCGATTGGCGCGCATTGTTGA	MRLPMLLRCLPLLLLAACTGGGGSSATVRVSSDGKDLLFTKVETRADTTTFRCLASSSGQCHYLVYAQDCDHDSGATCPQRELQRLVVALGDTRQVHGLAKGFRQCASATPIGAHC				NA	NA	NA	NA	NA
BMS020_06693	777	btsR_2	COG3279	Transcriptional regulatory protein BtsR	ATGAGCGCCTGGCGTGCGGTGGTGGCCGAGGACGAGGCGCTGCTGCGGCAATCGCTGCTGGCGGTATTGGCCGAGGTGTGGCCGGAGCTGGAGGTGGTGGCCGAATGCGAGGACGGCGCCAGTGCGCTGGAAGAGATCGCCGAGCATCGCCCGGAGGTGGTGTTCCTGGATATCCGCATGCCCGGCCTGACCGGCATCGAGGTGGCGCGCGGCATGGCCGAGACCAGCCCGGAGTCGCAGGTGGTGTTCGTCACCGCCTACGACCAGTACGCGATCGACGCCTTCGAGCAGGGCGCGGTGGACTACCTGCTCAAGCCGGTCGCGCGCGACCGCCTGCAGGCCACCGTGCAGCGGCTGCGGGCGCGCGCCGCCGCCGGGCGCACCGACCCGGCCGCGCTGGAGGCGCTGCTGCAGCAGCTGGCCCGGCGCCCGGCCCCCCCCAGCACGCGCCCGCCGCTGGCCTGGCTGACCGCCAGCACGGGCCGCGAGACCCGGTTGATCCAGCTCGATGACGTGGCCTACTTCCGCGCCGACAACAAATACACCGTGGTGGTCACCGGCGATGGCGAAGCGCTGCTGCGCACGCCGCTGCGCGAGCTGCTGGATGCCCTGGACCCGCATGCATTCCGGCAGATCCACCGCTCGACCATCGTCAACATGAAGGCGGTGGTCTCGGTGCAGCGCGACGACACCGGCAAGGGCCGGTTGCGCCTGCGCGGCCGCGACGAAACCCTCACCGTCAGCCAGCCGTTCATGAGCCTGTTCCGCGGCATGTGA	MSAWRAVVAEDEALLRQSLLAVLAEVWPELEVVAECEDGASALEEIAEHRPEVVFLDIRMPGLTGIEVARGMAETSPESQVVFVTAYDQYAIDAFEQGAVDYLLKPVARDRLQATVQRLRARAAAGRTDPAALEALLQQLARRPAPPSTRPPLAWLTASTGRETRLIQLDDVAYFRADNKYTVVVTGDGEALLRTPLRELLDALDPHAFRQIHRSTIVNMKAVVSVQRDDTGKGRLRLRGRDETLTVSQPFMSLFRGM				NA	NA	NA	NA	NA
BMS020_06694	1305			hypothetical protein	ATGCTCGCTGCGCATCCACACTTCCGGGCCGCCGCCGTGTCCTCCAGCGTGTTCCTCATCGCCCGCATCCTGTTCGCCTGGTTCGCCGCCCTGCTCGTGGCCGGCATCATGTGGGCGCAGCTGTTCGGCTCGCCTGGCTCGGTGTTCGGCCTGATCACCGTGGTGCTGCTGGTGATCGCCGGCATGAGCAGCGTCGCCCACCTGCGCCGGGTCAAGCTGGTCGCCGGGCGGCTGGACCACGACGCGCTGTCCAGCCGCCAACGCCGCCAGATCGAGGTGCCGCTGGACGCCGCCGCCAGCTTCGCCGTGGTCGAGGCCGCGGTGCGCGCGCTGCCGCGCGTGGAAGAGCTGGAAGCCGTTCCGGACAGCCTGCAGGTGCGCGCCAAGGTGCGCCGGGTCGATCCGTACCAGGGCCGCAAGCCATCGCGCTGGAACGTGTTCGCGCGCTTCGCGATCAAGCGCGACCGGCTGCTGGCGACCATCGCCCCGGGCACCGGCACCAGCAGCGTCACCCTGCTGTGCGAGCCCGATGCCGGCGCTTGGGTCGACCTGTTCGTGGTCGACGAGGGCACCAACTACGAGAACGCCGAAGCGCTGAACCGCGCCATCGTCAGCCGGGTCGGCCAGCAGCGCCGCGACGAGCAGGCCGCCGCCGCGCAATCGGCCACCGAGAAGGAACTGGCGGTGGCGCGGCTGAACCTGCTGCACGCGCAGGTCGAGCCGCACTTCCTCTACAACACCCTGGCCAGCGCCCAGGTGCTGGCGCGCACCGATCCGCCGCGCGCCGATGCGATGCTCGGCCACCTGATCCAGTACCTGCGCCGTTCGCTGCCCAGTGCCGACGATGCGATGTCCACGCTGGGCGAGGAGCTGGAACGCACCCAGGCCTATCTGGAGATCCTGCGCATCCGCATGGGCGCGCGGCTGGCGCTGCAGGTCGAGGTGCCGTTCGAACTGCGCGCGCTGCAGCTGCCCTCGATGATGCTGCAGACCCTGGTCGAGAACGCGATCAAGCACGGCCTGGAACCCAAGCCGGGCGGCGGCACGATCTGGATCCTGGCGCGGCGCGCGGACGACCACGCCACGCTCACCGTCGCCGACGACGGCCAGGGGTTCAACACCCACAGCAGCGGCACCGGCATCGGCCTGAAGAACCTGCGCGAACGCCTGCGGCTGACCTATGGCAATGCCGCCGCGTTCGCGCTGGTGGCCAACTTTCCCAGCGGCGTGGCGGCCACGTTGACCCTGCCGTTGCCGCAGGACCTGCCGCCGCCGCTGCCGGCCGAGACGGAGGCCAGGGCATGA	MLAAHPHFRAAAVSSSVFLIARILFAWFAALLVAGIMWAQLFGSPGSVFGLITVVLLVIAGMSSVAHLRRVKLVAGRLDHDALSSRQRRQIEVPLDAAASFAVVEAAVRALPRVEELEAVPDSLQVRAKVRRVDPYQGRKPSRWNVFARFAIKRDRLLATIAPGTGTSSVTLLCEPDAGAWVDLFVVDEGTNYENAEALNRAIVSRVGQQRRDEQAAAAQSATEKELAVARLNLLHAQVEPHFLYNTLASAQVLARTDPPRADAMLGHLIQYLRRSLPSADDAMSTLGEELERTQAYLEILRIRMGARLALQVEVPFELRALQLPSMMLQTLVENAIKHGLEPKPGGGTIWILARRADDHATLTVADDGQGFNTHSSGTGIGLKNLRERLRLTYGNAAAFALVANFPSGVAATLTLPLPQDLPPPLPAETEARA				NA	NA	NA	NA	NA
BMS020_06695	1203			hypothetical protein	ATGCAGCGACGTCATTTCCTGCGCGGCGCCGGTGCCGCGCTGGCGGCGGTTTCGAGCGGCGCGATCGGTGCCACGCCCGCCCGTCAGGTCGCCCCCGGCACGCCCACGGCCGTCCCCGGGCCGGTCGCCGCGCAGTTCGCCACGGCGCCGGCGCTGGCGCCGATCCGCGCCACGCCCGACCGCATCGTCGCGGTCAGCGCCTGCACCCGCCCGTTCCGCGCGCACGGTCCGCGCATCGAGGTCGAGCGTATCGGCCGCACGCAGGTGGTGCACAACTACGGACATGGCGGCAGCGGCTGGTCGCTGTCATGGGGCAGCGCGGAACTGGCGGTGCGGCTGGCGCAGGCCGCCGGCGCGGCGCGTGAGCTGGCGGTGGTCGGCTGCGGCGCGATCGGCCTGACCACCGCGCTGGTCGCGCAGCGCGCCGGCCTGCGCGTGCGCATCCATGCCAAGGAGCGGCTGCCGGACGTGCGCTCGTTCTTCGCCACCGGCGTGTGGTCGCCGGATTCGCGCGTGTGCACCGCCGAGCACGCCACGCCCGAGTTCCGCACCCGCTGGGAAGCGATGGCACGCACCTCGTTCCGCCGTTACCAGACCCTGCTCGGCCTGCCGGGCGAGCCGGTCGAATGGCGCGACGGCTACGTGCTGTCGGACGCGCCGTTCGACCAGCCGGTCGGCGGCGGCGAGGACCACGAGCCTGAATATCCAGAGCTGGAACGCGAACTGCTGGCCGACCTGCATCCGCGCTCGCGCGTGCTGGCGCCGGGCGAACATCCGTTCCCGGTGCCGTTCGCACGGCGCTACACGCAGATGACCTTCAACATCAGCGCCTATGCGCGGATGCTGCTGGACGAGTTCCTGCAGCTCGGTGGCGAGCTGCACACGCGTGCGTTCGACAGCCCACGCCAGTTCGCCGACCTGCGCGAGAAGGTGGTGGTCAACGCCACCGGCTACGGCGCGCGGGCGCTGCTGGGCGATGACAGCGTGATTCCGGTGCGCGGGCAGACCGCGCGGCTGGTGCCGCAGCCGGAGGTCGATTACGGCCTGATCTGGCGCGGCCACAACCTCAACGTGGTGCCGCGCCGCGACGGCATCCTGGTGCAGTCGCAACGCCCGGACGACTTCGGCAGCGAGGGCACCGAGCCGGATCGTGCGTTGTCGGAAACGGCGGTGCTGGAGCTGGCGAAGCTGTTCGCGGTGTGA	MQRRHFLRGAGAALAAVSSGAIGATPARQVAPGTPTAVPGPVAAQFATAPALAPIRATPDRIVAVSACTRPFRAHGPRIEVERIGRTQVVHNYGHGGSGWSLSWGSAELAVRLAQAAGAARELAVVGCGAIGLTTALVAQRAGLRVRIHAKERLPDVRSFFATGVWSPDSRVCTAEHATPEFRTRWEAMARTSFRRYQTLLGLPGEPVEWRDGYVLSDAPFDQPVGGGEDHEPEYPELERELLADLHPRSRVLAPGEHPFPVPFARRYTQMTFNISAYARMLLDEFLQLGGELHTRAFDSPRQFADLREKVVVNATGYGARALLGDDSVIPVRGQTARLVPQPEVDYGLIWRGHNLNVVPRRDGILVQSQRPDDFGSEGTEPDRALSETAVLELAKLFAV	PGPT0020475_346	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020475-aao-K00273	NA	NA
BMS020_06696	1653			hypothetical protein	ATGAAGCGACTGGTGATGGGTGTGCTGGCGATGTCGGTCTCGACCGCCTTGATGGCGGCGACGCCGACGTTCGATGGCACGCGGATCTCGCAGGACGTCAAGGAGCTGGCCTCCGACGCGTACGAGGGCCGTGGCCCGGCCACCGCCGGCGAGACCAAGACCGTGGCCTACCTGGAGCAGCAGTTCGCCGCGGCCGGGCTGAAGCCGGGCGGCGATCTGCAGGCCGACGGCAGCCGCGCCTGGACCCAGGCCGTGCCGCTGCAGCGCGCCGACATCGTCGGCACGCCGGCGCTGTCGCTGGACGTGGCCGGCAAGCCGCAGGCGCTGACCCAGGGCCAGCAGATCGCGGTGCGCGCGGCGATGGACGGCTCGACGCAGGTCGCCATCGCCAATGCGCCGCTGGTGTTCGTCGGCTACGGCGTCAAGGCGCCGGAGCGCAACTGGGACGATTTCAAGGGCGTGGACCTGAAGGGCAAGATCGCCGTCGTGCTGATCAACGACCCGGACTTCGAGACCGGCAAGGGTGATTTCGACGGCAAGGGCATGACCTATTACGGCCGCTGGACCTACAAGTACGAGGAAGGTGCGCGCCAGGGCGCGCTCGGCGTGCTGGTGGTGCACGAGACCGCGCCGGCCTCCTATGGCTGGGGCACGGTGGCCAGCTCCAACACCAACACCATGTTCGACGTGGTGCGCGACAACCCCGGCGCGGTGCATCCCAAGCTCGAGGGTTGGATCCAGCGCGACCTCGCCGTGCAGCTGTTCAAGGACGCCGGTCTGGACTTCGAGGCGCTGAAGAAGCAGGCGCAGCGCCGCGATTTCAAGCCGGTCGAACTCAAGGGCGAAGGCCTGAGCGCGAAGTACGCGGTCAAGTCCGACGTGATCACCTCGCACAACGTGGTGGCGCGGCTGGAAGGCGGCAAGCGCGCCGACGAGACGCTGATCTACAGCGCGCACTGGGACCATATCGGCGTCGGCAAGCCGGACGCCAATGGCGACACCATCTTCAACGGCGCGCTCGACAACGCCAGCGGCACCGCCGCGCTGCTGGAGCTGGCGCGCGGCTTCGCCAAGGGGCCAAAGCCGGAGCGCTCGGTGGTGTTCCTGGCGGTCACCGCCGAGGAGAAGGGCCTGCTCGGCTCGGAGTTCTACGCCTCCAAGCCGCTGTACCCGCTGGACAAGACCGTGGCGGTGATCAACATGGATGGCATGAGCCCGTTCGTGCCCTCGCGCGATTTCGGCATCTACGGCACCGCCAAGTTGGAACTGCTGGACGACCTCAAGCAGGTGGCCGGCAAGTGGAAGCTGCGCTACACCCCGGACCCGAAGCCGGAAGCGGGCTACTTCTTCCGCTCCGACCACTTCTCCTTCGCCAAGCGCGGCGTGCCGGCGATCTCGTACTCGGCCGGGCAGGACTGGGAAGTCGGCGGCGTTGCCGCGGGCAAGGCCGCCTCCGACGACTACACCGCCAAGCGCTACCACCAGCAGGGCGACGAGTGGAAGCCGGACTGGACCTTCGCCGGCGCCGCACGCGACCTGTCGGTGCTGTACGCGCTGGGCATGCAGCTGGCCGATTCCGGCCAGTGGCCGAACTGGAGCCAGGATTCGGAGTTCCGCGCCACCCGCGACGCCAGCGCCGCGGCACGCAAGTAA	MKRLVMGVLAMSVSTALMAATPTFDGTRISQDVKELASDAYEGRGPATAGETKTVAYLEQQFAAAGLKPGGDLQADGSRAWTQAVPLQRADIVGTPALSLDVAGKPQALTQGQQIAVRAAMDGSTQVAIANAPLVFVGYGVKAPERNWDDFKGVDLKGKIAVVLINDPDFETGKGDFDGKGMTYYGRWTYKYEEGARQGALGVLVVHETAPASYGWGTVASSNTNTMFDVVRDNPGAVHPKLEGWIQRDLAVQLFKDAGLDFEALKKQAQRRDFKPVELKGEGLSAKYAVKSDVITSHNVVARLEGGKRADETLIYSAHWDHIGVGKPDANGDTIFNGALDNASGTAALLELARGFAKGPKPERSVVFLAVTAEEKGLLGSEFYASKPLYPLDKTVAVINMDGMSPFVPSRDFGIYGTAKLELLDDLKQVAGKWKLRYTPDPKPEAGYFFRSDHFSFAKRGVPAISYSAGQDWEVGGVAAGKAASDDYTAKRYHQQGDEWKPDWTFAGAARDLSVLYALGMQLADSGQWPNWSQDSEFRATRDASAAARK				NA	NA	NA	NA	NA
BMS020_06697	2130	fatA_3		Ferric-anguibactin receptor FatA	ATGACCCCCACCCGTCTTCCCATCGCCGCCCCCGTGCGGCGCCCCATGATGTTGGCCTGTGGCCTGGTGCTGGCCGGCTGGAGCCTGGCCGCCAGCGCCGCCGAGGCCGAGCCCCCGCAGACCACCGACCTCGACGCGGTGCTGGTGCACGAGGACAGCGACGCCGCGCCCGGCGGCCAGGTCGCCCGGCATGCCCAGCTCGGCCTGCTCGGCAACGTCGCGGTCAAGGACGTGCCGTTCAACATCACCGCCTACACCGCCAAGACCATCGAGGACCAGCAGGCCAGGACCCTGGCCGACGTGCTGCAGAACGATCCGTCGGTGCGCTACACCAACAGCGACGGCCATGCGATCGAGAACTTCAGCGTGCGCGGCTTCGATGTCGAGTCCACCGAGATCGCCTTCGACGGCATGTACGGGCTGGCCTCGTTCGGCCACGTGCCGACCGAGCTCCTGGAGACGGTGGAGGTGCTCAAGGGCCCCGGCGCACTGCTCAACGGCATGGCGCCGTCCGGTGGCGTCGGCGGCGTGATCAGCCTGACGCCCAAGCGCGCCGGCGAGCAGGACCTGACCCGGATCAGCGAGAAATACGTGTCCGGCGGCTATTTCGAAACCCAGGCCGATGTCAGCCGCCGCTTCGGCAGCGAGCGCCGCTGGGGCCTGCGGGTCAACGCCGCCTACGGCGACGGCGATGCCGGCGTGGACGGGCAGAGCAAGACCCGCAAGCTCGCCAGCGCGGCGCTGGACTACCACGGCGAGCGCCTCTCGCTCGGCCTGGACGCGTTCTACACCCGCGAGCAGAGCGAAGGCGGCAGCCCGGTGATGGTCGGCTTCTCCAGCATCGGCAAGGTCGTCGCCGCGCCGAGCGGCGACACCAACCTGCTGCGCGGCGTGCACAGCGACTTCGAGACCAAGACCGCGGTACTGCACGGCCAGTACCAGCTCGGCGAGCACTGGAGCGCGTTCGCTGGCGTCGGTGGTTCGCAGCAGGACTACGACGGCTACCTCTACGGCACCCGCATCGCGCTGAGCAGCGACGACGGCAGCGGCAGCATGCGCACCTACCACCAGCAGGGCTACTACCGCAACGCGGCGGCGCAGGCCGGCATCCGCGGCGAATTCAACACCGGGCCGGTCACCCACACGATCACCCTCGGCGGCTCGTACCTGCACCAGGTCGGCTACTACGGCTACGGTTCCAGCAGTGCGTTCAAGAGCAACCTGTACACGCCGGTGACGCCGGCGCTGGCCAGCAGCGCCGGCACGCTGGCCAAGAACACCGACACGATCTTCTCCAGCGTCGCCTTCGCCGACGTGATGGGCCTGTTCGACGACAGCCTGCAGCTCACCGTGGGCGCACGCCAGCAACGCGTGCAGCAGCGCGTCGGCGACTACGACGCCAATGCGCTGACCCCGGCGCTGGGCGTGCTGTACCGTCCCGGCAACGGCCCGGTGGCGCTGTATGCGAACTACATCGAGGGCCTCAGCGCCGGCGACACGGTCAGCGATACCGCCGCGCCGAACTACGGCGAGCAGTTCGCCCCGTACAAGAGCAAGCAGCAGGAACTCGGCGTGAAGTGGGACTTCGGCCAGTTCAGCAGCACCATCGCGTTGTTCCAGATCACCAAGCCGAGCCTGATCCAGGACACCACCACGCTGGCCTACAGCGCCAATGGCGAACAGCGCAACCGCGGGCTGGAACTCAATGTGTCCGGGCAGCTGACGCCGAGCGTGCGCCTGCTCGGCGGCGGCGCCTACACCCAGGCCACGCTGACCCGCACCGAAGGCGGCCAGTACCAGGGCAACCGCGCCTATGGCGTGCCGAAGTGGACCGCCAACCTCGGCGGCGAGTGGGACCTGCCGTGGCTGCCGGGCCTGACGGTGACCGCGCGCAGCGTCTACACCGGCACCCAGTACCTGGACAGCGCCAACACGCTGCAGCTGCCCGACTGGGTACGCTTCGACGTCGGCGCACGCTACACCACCCGCCTGGCCGGCAAGCCGGTGGTGTTCCGCCTGGGCGTGGACAACGTCGCCGACCGCCATTACTGGTCGGGCGTGTTCAACGAGAACTACGCTTCGATCGGCGCGGCGCGCACCTACAGCGCCTCGGTCGGCGTCGACTTCTGA	MTPTRLPIAAPVRRPMMLACGLVLAGWSLAASAAEAEPPQTTDLDAVLVHEDSDAAPGGQVARHAQLGLLGNVAVKDVPFNITAYTAKTIEDQQARTLADVLQNDPSVRYTNSDGHAIENFSVRGFDVESTEIAFDGMYGLASFGHVPTELLETVEVLKGPGALLNGMAPSGGVGGVISLTPKRAGEQDLTRISEKYVSGGYFETQADVSRRFGSERRWGLRVNAAYGDGDAGVDGQSKTRKLASAALDYHGERLSLGLDAFYTREQSEGGSPVMVGFSSIGKVVAAPSGDTNLLRGVHSDFETKTAVLHGQYQLGEHWSAFAGVGGSQQDYDGYLYGTRIALSSDDGSGSMRTYHQQGYYRNAAAQAGIRGEFNTGPVTHTITLGGSYLHQVGYYGYGSSSAFKSNLYTPVTPALASSAGTLAKNTDTIFSSVAFADVMGLFDDSLQLTVGARQQRVQQRVGDYDANALTPALGVLYRPGNGPVALYANYIEGLSAGDTVSDTAAPNYGEQFAPYKSKQQELGVKWDFGQFSSTIALFQITKPSLIQDTTTLAYSANGEQRNRGLELNVSGQLTPSVRLLGGGAYTQATLTRTEGGQYQGNRAYGVPKWTANLGGEWDLPWLPGLTVTARSVYTGTQYLDSANTLQLPDWVRFDVGARYTTRLAGKPVVFRLGVDNVADRHYWSGVFNENYASIGAARTYSASVGVDF	PGPT0003790_12249	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_06698	1002			hypothetical protein	ATGAATCCATCGGCGCCGTTGCTGGATCGCGTGGCCGACCTGAGTGCGATTCGCGATGCCGACCTGCTCGATCTGAGCCTGCTGCGCACCGTCCAGGAGGTCTGCGCGCCGCAGGCGCTGGCGCTGCTGCGCATCGCCGCCGATGGCGAGGCCGTGATCGAGACCCGCCTGTCCGGGCAGCAGTGTCAGTCGCGCAGCCTGGGCAGCGACGAGGTCGAAGCCCTGCTGCAGGTGCTGCCGCCCCCGCCGGCTCCGGCGCAGGCGGTGGCCTGGCAGGACGGCGAAGGCCGCCAGGCCCGGCTGTTCCCGATGATGGAGGCGCGCGGCGTGTGCACCTTGCTGCAGGTGTCCGGCAGCGTGGCCGGCGATGCCGCCGCGCAGGCGCTGGTGGTCGGCTTTGCGCGCTTCTTCCACAACTACCGCGGTCTGCTCGACGATGCACAGCGCGATGCGCTGACCGGGCTGCGCAACCGCAAGACCTTCAGCGACATGGTGCTGCGGCTGGGCGCGGGCGCCGACCAGAACGCCGCCGCAGCCGGTTCGGATCGGCGCGGGGCCTGGCTTGGCATCCTCGACATCGATCATTTCAAACGCATCAACGACGGCTTCGGCCACCTGTACGGCGACGAGGTGCTGCTGCTCATCGCGCAACTGATGCAGCGCAGCTTCCGCGCCGGCGACCTGCTGTTCCGCTTCGGCGGCGAGGAGTTCGTGGTGGTGGTCGACGGCCTGGACCAGGACGAAGCGCTGGCGCTGTTCGAGCGCTTCCGCGAGGCGGTGGCCGCGCATGCGTTCCCGCAGGTCGGGCGGGTCACCGTCAGCATCGGCATCGTCGCGCTGGCGCCTGGGCGGCTGGTCAGTGCGGTGCTCGACGAAGCCGACAAGGCGCTGTACTGGGCCAAGCAGCACGGCCGCAATCGTGCGGTGGTGTACGAGGCACTGGTGGCCAACGGCGCGATGAGCGCGGTGGCCACGCAGACCGGCACGGTCGACCTGTTCTGA	MNPSAPLLDRVADLSAIRDADLLDLSLLRTVQEVCAPQALALLRIAADGEAVIETRLSGQQCQSRSLGSDEVEALLQVLPPPPAPAQAVAWQDGEGRQARLFPMMEARGVCTLLQVSGSVAGDAAAQALVVGFARFFHNYRGLLDDAQRDALTGLRNRKTFSDMVLRLGAGADQNAAAAGSDRRGAWLGILDIDHFKRINDGFGHLYGDEVLLLIAQLMQRSFRAGDLLFRFGGEEFVVVVDGLDQDEALALFERFREAVAAHAFPQVGRVTVSIGIVALAPGRLVSAVLDEADKALYWAKQHGRNRAVVYEALVANGAMSAVATQTGTVDLF				NA	NA	NA	NA	NA
BMS020_06699	1482	dauA_2	COG0659	C4-dicarboxylic acid transporter DauA	ATGTCCCGTCTGCGCACCGAGCTGGCGCAGTGGCGGGCGTCGCCGCCACGCGAACTGCTGGCCGGCGCCGTCGCCACGTTCGCGCTCATTCCCGAAGTCATCGCCTTCGCCTTCGTCGCCGGGGTCGATCCGCAGGTGGGCCTGTTCGCCTCGTTCGTGATCGGCATCGTCATCGCCTTCTGCGGCGGGCGCCCGGCGATGATCTCGGCCGCGGCCGGCTCGGTGGCGCTGGTGGCCGCGCCACTGGTGGCGTCGCACGGACTGCAGTACCTGCTGGCCGCAGGCCTGCTCGCCGGCGCGATCCAGGTCGTGTTCGGGCTGCTGCGGCTGGGCGTGCTGATGCGCTTCGTCAGCGCGTCGGTGCGCACCGGCTTCGTCAACGCGCTGGCGGTGCTGATCTTCGCCGCGCAGCTGCCGCACCTGGCCGGCGCCAACCCGGCGACCTGGGGCATGCTGGCGCTGGGCCTGACGATCATCTACGGCCTGCCGCGGCTGCGCATCCCCGGGCTGCAGGCGATTCCCTCGCCGCTGGTCTGCATCGTGGTGCTGACACTGGCGGCCAGCATGTTCCAGTTGCCGCTGAAGACCGTGGCCGATCTCGGCAAGCTGCCCGAGACCTTGCCCGGCTTCGCCTGGCCGATGGTGCCGCTGACGCTGGACACGCTGCGCATCATCGCGTTGCCGGCGCTTGCGATCGCGATGGTCGGCCTGCTCGAATCGCTGATGACCGCGCGCGTGGTCGACGAACTCACCGACACCCCGAGCGACAAGAACCGCGAGTGCACCGGGCTCGGCCTGGCCAACGCCGCGGCCAGCCTGTTCGGCGGCATCGCCGGCTGCGGGATGATCGGGCAGACCGTCGGCAACGTGAAGTACGGCGGCCGCGGGCGGCTGTCGACGCTGTTCGCCGGCGTGTTCCTGCTGGTGCTGATGGTGCTGCTCAAGCCATGGGTCTCGCAGGTGCCGGTGGTGGCGCTGGTGGCGATCATGGTGATGGTCTCGGCCGAGACCTTCGACTGGAAATCGCTACGCACGCTGGTCACCCATCCGCGCACCTCCTCGGTGGTGATGCTGGCCACGGTGGCGGTGACCCTGGGCACCCACAATCTCGCCGCCGGCGTCGCGCTGGGCGTGGTGCTGAGCGGGGTGTTCTTCACCTTCAAGGTCGCGCGGCTGCTGCAGGTCAGCGCCCGCGACGACGCCGACGGCAACCGCACCTGGCAGGTGGCCGGGCAGGTGTTCTTCGCCTCCGCCGACGTGTTCATCGATGCCTTCGACGCGCGCGAGGTCCAGGGCAAGGCCGCGGTGATCGACGTGCGCCGCGCCCACTTCTGGGACATCACCGCGCTGGCGGCGCTGGACAAGGTGGTGCAGCGGCTGCGCCACCACGGCCTGCAGGTCAGCGTGCGCGGCCTCAACGGCCATGCCCGGCGGATGCTGGAGCGGCTCGACCACGCCGAGGTGCTGGACGCGCTGGGCTGA	MSRLRTELAQWRASPPRELLAGAVATFALIPEVIAFAFVAGVDPQVGLFASFVIGIVIAFCGGRPAMISAAAGSVALVAAPLVASHGLQYLLAAGLLAGAIQVVFGLLRLGVLMRFVSASVRTGFVNALAVLIFAAQLPHLAGANPATWGMLALGLTIIYGLPRLRIPGLQAIPSPLVCIVVLTLAASMFQLPLKTVADLGKLPETLPGFAWPMVPLTLDTLRIIALPALAIAMVGLLESLMTARVVDELTDTPSDKNRECTGLGLANAAASLFGGIAGCGMIGQTVGNVKYGGRGRLSTLFAGVFLLVLMVLLKPWVSQVPVVALVAIMVMVSAETFDWKSLRTLVTHPRTSSVVMLATVAVTLGTHNLAAGVALGVVLSGVFFTFKVARLLQVSARDDADGNRTWQVAGQVFFASADVFIDAFDAREVQGKAAVIDVRRAHFWDITALAALDKVVQRLRHHGLQVSVRGLNGHARRMLERLDHAEVLDALG	PGPT0003020_5051	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
BMS020_06700	2136			hypothetical protein	ATGAATCCGCTTGCTCTCGCCCGTCGTCGCGTGGCCAACCTGTCGATCAGCCGCAAGTTCGTCGTGCTGTGCACCCTGCTGGCCCTGGGGATCATCGCGCTGGCGGTCTGCGCGGCGCGCCTGCAATACCTGGACCTGGTGCAGGCGCGCAAGGCCAGCGTGCAGAACCGGGTGGAGATGGGCATCAACGTGCTGCAGCACTACGCCGATCTCGCCAAAGGCGGCGACATGGACGACGCCCAGGCCCGGCAGGCGGCGCTGGCCGCGCTGGCGGACATGAGCACCAACGGCGGGGTCGACTACTTCTTCGCGATGGATCCGCAGATGCGGATCATGATGCACCCCAAGCGCAAGGTCGGCACCGACATGTCCGACTACAAGAGCGATCGCGGCGAATACGTCTACCGCGACATCATCGCCGCAATCAACAAGGGCGACGGCTTCAGCTATTACAGCGCGCCCAAGCCGGGCAAGGAAGAACAGCTGCCGAAAATCAGCTACGCGCAGGCGTTCCCGCAATGGAACCTGATCCTGGCAATGGGCGTCTACGCCGAGGACATCCAGGCCCAGGCCTGGGGGTTCACCCGGATCCTGACGCTGATCGGCGGCGCGCTGGTGTTGGCGATCACCGCGCTGTGCTGGCTGATCGCCAGCGCGATCGGCACGCCGCTGCGCGCGGCGACCCGCACCGCCGAGGCGATCGCATCGGGCCGCTTCGACAACGACATCCGCGTCGAATCCATCGACGAAACCGGCCGCCTGCTCAGCAGCATGCAGCAGATGCAGAACCAGCTGCAGCGCTTCAACCGCGAGATGCAGACGATGATCCGGCTGCAGCAGGGCGAGGACATCGGCCACCGCATGCCGGAGGATTTCCCCGGCGACTACGGCAGCCTCGCGCACGGCGTGAACACCGTGCTGTTCGAGCACCTGGACGCGATCGGCGAAGCGATGGACATCATGGGCGAGTATGGCCGCGGCGATCTGCGCCGCGACATGCGCCGGTTGCCCGGCCAGCGCGCCGCGCTGCATGAGGCGCTGGACACGGTCAAGCGCAACCTGTCGGCGATCAACGGCGACATCGCGCGGCTGGCCGACGCCGCCGCACGCGGCGACTTCAGTGCACGCGGCGAGCAGGCGCGCTACCAGTTCGCCTTCGCCGAGATGGTCGGCGCGCTGAACCAGCTGATGCAGCAAGCCGATGCCGGCCTGGCCGATGTCGGCCGGATCATGGCGGCGATCGCCGACGGCGACCTGTCCCAGCGCGTGGACGCCCATTACGAGGGCGCATTCGGCCGGCTTGCCGATGCCGCCAACCGCACCGTGCAGCAGCTGAACGGCATCGTGCGCGGCATCCAGAATTCGGCCGAAGCGATCAGCACGGCCGCCAGCGAGATCGCCACCGGCAACACCGACCTGTCGGTGCGCACCGAACAGCAGGCTGCGAACCTGGAGGAGACCGCCGCCTCGATGGAGGAGCTGACCTCCACCGTGCGCCAGAACGCCGAGCACGCACGCCAGGCCAACCAGCTGGCGCTGGGTGCCGGCAGTGTCGCCACCAGCGGCGGCCGGGTGGTCGAGGACGTGGTCACCACGATGGCCTCGATCAGCGCCGCCTCCAGCCGCATCGCCGACATCATCGGGGTGATCGACGGGATCGCGTTCCAGACCAACATCCTGGCGCTCAATGCGGCCGTGGAAGCGGCCCGCGCCGGCGAGCAGGGGCGTGGCTTCGCGGTGGTGGCCTCGGAGGTGCGCTCGCTGGCGCAGCGATCGGCCGATGCCGCCCGCGAGATCAAGCAGCTGATCTCCGATTCAGTCGAACGCGTCGAGCAGGGCTCGAGCCTGGTGACCCAGGCCGGCAGCACCATGGCCGAGGTGGTCAGCTCGGTGCAGCGCGTCACCGACATCATGTCCGAGATCTCGGCCGCCTCGCAGGAACAGTCAGCCGGCATCGAGCAGGTCAGCACCACGGTCGTGCAGCTCGACGACATGACCCAGCAGAACGCGGCGCTGGTGGAGGAAGCCACCGCCGCGGCGCGCAGCCTGGAAGACCAGGCGGTCGGACTGGCACGCGCGGTGGCGGTGTTCCGGCTGGCCCCGGAAGCGGCCGCACCGGTGCGCACCGCCGCCTGA	MNPLALARRRVANLSISRKFVVLCTLLALGIIALAVCAARLQYLDLVQARKASVQNRVEMGINVLQHYADLAKGGDMDDAQARQAALAALADMSTNGGVDYFFAMDPQMRIMMHPKRKVGTDMSDYKSDRGEYVYRDIIAAINKGDGFSYYSAPKPGKEEQLPKISYAQAFPQWNLILAMGVYAEDIQAQAWGFTRILTLIGGALVLAITALCWLIASAIGTPLRAATRTAEAIASGRFDNDIRVESIDETGRLLSSMQQMQNQLQRFNREMQTMIRLQQGEDIGHRMPEDFPGDYGSLAHGVNTVLFEHLDAIGEAMDIMGEYGRGDLRRDMRRLPGQRAALHEALDTVKRNLSAINGDIARLADAAARGDFSARGEQARYQFAFAEMVGALNQLMQQADAGLADVGRIMAAIADGDLSQRVDAHYEGAFGRLADAANRTVQQLNGIVRGIQNSAEAISTAASEIATGNTDLSVRTEQQAANLEETAASMEELTSTVRQNAEHARQANQLALGAGSVATSGGRVVEDVVTTMASISAASSRIADIIGVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVASEVRSLAQRSADAAREIKQLISDSVERVEQGSSLVTQAGSTMAEVVSSVQRVTDIMSEISAASQEQSAGIEQVSTTVVQLDDMTQQNAALVEEATAAARSLEDQAVGLARAVAVFRLAPEAAAPVRTAA	PGPT0015710_3017	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
BMS020_06701	261			hypothetical protein	ATGGCGATGGCCGACAGCGACATCCTGAAGGGCTGGATCTACCGCACCCGCGACGACAAGGAGCGCCTGGTGCTGGGCTGGGACCGCGACGGCCGGGTGGTCTACACCTCCAAGGGCCATGGCGAGGTGCCGTTCCACAACTGCCACGTCTGCGTGACCACCCGCAAGTTCGCCCAGCGCGCGATCGGCAGGCTGGGCCAGGTCGAGGACCTGCGCAGCTACATCGTCGCCAACAAGGCCACCACCGTGGTGGTGCGCTGA	MAMADSDILKGWIYRTRDDKERLVLGWDRDGRVVYTSKGHGEVPFHNCHVCVTTRKFAQRAIGRLGQVEDLRSYIVANKATTVVVR				NA	NA	NA	NA	NA
BMS020_06702	2883			hypothetical protein	ATGCTTCGACCCCTGCCGTTGCTGATTGCCGGCATCCTCGCCGCCGGCGCGGGCTTCGCCGCCCCCGTGGCCCACGCCGCCCCGGCTTCGCTCGCCGCCAAGCCGGCCGCCGGCGACACCATTCCCGACATCGCCTACCAGCGCTTCACCCTGCCCAACGGCCTGACCGTCGTCGTGCACGAGGACCACAAGGCGCCGGTGGTGGCGGTCAGCATCTGGTACCACGTCGGCTCCGGCGACGAGCCGGCCGGCAAGACCGGCTTCGCCCACCTGTTCGAGCACCTGATGTTCTCCGGCTCGGAGAATCACAAGGGCACCTACTTCGGCCCGTTCGAGCAGGCCGGCGCCACCGACCAGAACGGCACCACCTGGTTCGACCGCACCAACTACTTCGAGACCGTGCCGACCACCGCGCTGGACATGGCGCTGTGGATGGAGTCCGACCGCATGGGCCACCTGCTCGGCGCGATCGGGCAGAAGGAGCTCGACACCCAGCGCGGGGTGGTGCAGAACGAGAAGCGCCAGGGCGAGAACCGCCCCTACGGCCGCGTCGACCAGAACATCCTGTCCAACATCTTCCCGGCCAACCACCCGTACCAGCACGACACCATCGGCTCGATGGAAGACCTCGACGCGGCCTCGCTGGACGACGTGAAGGGCTGGTTCCGCGATTACTACGGCGCCGCCAACACCACCCTGGTGCTGGCCGGCGACATCACCGTGGCACAGGCCAAGGCCAAGGCCGCCGAATATTTCGGCGACATCCCGGCCGGCAAGCCGGTGCCGCGCCAGCAGCCGTGGATCACCCCGCTGGCCACGCAGACCCGCGGCGTGCAGCACGACCATGTCGCGCAGCCGCGCATCGTGCGCACCTGGGTGGCGCCGCAGCTGGGCACCGACGATGCGATCTCGCTGGACCTGGCCACCACCGTGCTCGGCGGCGGCAAGACCTCGCGGCTGTACCAGCGCCTGGTCTACCAGGACAAGCTGGTCGACGACGTCTCGGCCAGCATCCAGCCGTTCGCGCTGGCCAGCCAGCTGCAGATCCAGGCCGACGTGAAGGATGGCGTGGACCCGGCCAAGGTCGAGGCGGCGATCGCCGACGAGCTGAAGACCTTCCTCGCCGAAGGCCCGAGCGCCGACGAGCTGCAGCGCGCGCAGGTGGCCTACCGCGCCGGCTTCGTGCGCGGGCTGGAGAAGGTCGGCGGCTTCAGCGGCAAGGCGGTGCTGCTGGCCGAGGGCCAGGTCTACCGCAACGATCCGGGTGCCTACCGCAAGGATCTGGCGCGTGCGCTCGCCGCGACCCCGGCCAGCGTCAAGCAGGCCGCCGACACCTGGTTCGGCAAGGGCGACTACCTGCTGACCGTGCTGCCGGCCGGCGATGGCTTCGACCCAGCCGCCGAGGACAAGGCGGTGGTCGCGCTCGGCGATGCCGCCGGCAAGCCGGCGCCGAAGCTGCCGGCCGCAGCCAAGTACAGCGTGACCAAGAGCACGGTCGACCGCGGCGCCGGCGTGCCGCAGACCACGCAGTTCCCGAGCCTGAGCTTCCCGGCGCTGCAGCGCGGCAAGCTGAAGAACGGCATCGAGGTGGTGCTGGCCGAGCGCCACACCATCCCGACCACCCAGGTCGAACTGCTGTTCGACGCCGGCTACGCCGCCGACCAGGGCCGCAAGCTCGGCACCGCCTCGTTCACCGCGCAGCTGATGAGCGAGAGCACCAAGACGCTGGATTCGGTCGAGGTCGCCAAGCGCCGCCAGCGCCTCGGCGCGGCGATCGGCACCGGCTGCGACCTGGACAGCTGCAGCGTCTCGCTGGATGCGCTCAACGACCAGCTGCAGCCGTCGCTGGACCTGTTCGCCGATGTGGTGCGCAACCCGGCCTTCAACAGCGGCGACATCGAACGCATCCGCGGCCAGTGGCTGGCCGGCATCGCCCAGGAGAAGACCCAGCCGCAGGGCCTAGCGCTGCGCACGCTGCCGCCGCTGCTGTACGGCAAGGACCACGCCTACGGCATCCCGTTCACCGGCACCGGCACCGAGGCGGCGATCAAGAGCCTGACCGCGGCCGACCTGCAGGGCTTCCACGACGCCTGGCTGCGCCCGGACAACGTGCGCATCCTGGTCGCCGGCGATACCACGCTGGACAAGATCATCCCGCAGCTGGATGCCGCGTTCGGCGACTGGAAGGCCCCGGCCGCCGCGCTGCCGAAGAAGAACGTCGCCCGCGTCGCCGCGCAGGCGCAGCCGCGCGTCTACCTGATCAACCGCGATGACGCACCGCAGTCGCTGATCCTGGCCGGCCTGCTGGCGCCGTCGACCAAGGCCCCGGACAACCTCGCCATCGGCGTGGCCAACGGCGCCTTCGGCGGCACCTTCACCTCGCGCCTGAACATGAACCTGCGCGAGGACAAGCGCTGGGCCTACGGCGCCTTCAGTTTCATGATGGATGCGCAGGGCCAGCGCCCGTTCCTGTTCTACGCGCCGGTGCAGACCGACAAGACCGCCGAGTCGGCCGCCGAGGTGCTCAAGGAAGCCAGCGCGGTGGTCGGTGCCAATCCGCTGACCCGTGAGGAGATCGACAAGATCAAGAACCAGCGCATCCGCGCGCTGCCGGGCAGCTACGAGACCACCAGCGCGGTGCTCGGCGCGGTCGAAGGCATCGTGCAGTTCGAACGCCCCGACGACTACGTGCAGACGCTGAAGCCGCGGCTGGAAGCGATCGGCCAGGCGCAGGCGCAGGCCGCGATCAAGGAGATCGTCGCGCCGCAGGCGATGACCTGGGTGATCGTCGGCGACCTGAAGAAGATTCAGGCCCCGATCGAGGCGCTCAAGCTCGGCAAGGTCGAGGTGATCGACGCAGACGGTAAGCCGGTCACGAAATAA	MLRPLPLLIAGILAAGAGFAAPVAHAAPASLAAKPAAGDTIPDIAYQRFTLPNGLTVVVHEDHKAPVVAVSIWYHVGSGDEPAGKTGFAHLFEHLMFSGSENHKGTYFGPFEQAGATDQNGTTWFDRTNYFETVPTTALDMALWMESDRMGHLLGAIGQKELDTQRGVVQNEKRQGENRPYGRVDQNILSNIFPANHPYQHDTIGSMEDLDAASLDDVKGWFRDYYGAANTTLVLAGDITVAQAKAKAAEYFGDIPAGKPVPRQQPWITPLATQTRGVQHDHVAQPRIVRTWVAPQLGTDDAISLDLATTVLGGGKTSRLYQRLVYQDKLVDDVSASIQPFALASQLQIQADVKDGVDPAKVEAAIADELKTFLAEGPSADELQRAQVAYRAGFVRGLEKVGGFSGKAVLLAEGQVYRNDPGAYRKDLARALAATPASVKQAADTWFGKGDYLLTVLPAGDGFDPAAEDKAVVALGDAAGKPAPKLPAAAKYSVTKSTVDRGAGVPQTTQFPSLSFPALQRGKLKNGIEVVLAERHTIPTTQVELLFDAGYAADQGRKLGTASFTAQLMSESTKTLDSVEVAKRRQRLGAAIGTGCDLDSCSVSLDALNDQLQPSLDLFADVVRNPAFNSGDIERIRGQWLAGIAQEKTQPQGLALRTLPPLLYGKDHAYGIPFTGTGTEAAIKSLTAADLQGFHDAWLRPDNVRILVAGDTTLDKIIPQLDAAFGDWKAPAAALPKKNVARVAAQAQPRVYLINRDDAPQSLILAGLLAPSTKAPDNLAIGVANGAFGGTFTSRLNMNLREDKRWAYGAFSFMMDAQGQRPFLFYAPVQTDKTAESAAEVLKEASAVVGANPLTREEIDKIKNQRIRALPGSYETTSAVLGAVEGIVQFERPDDYVQTLKPRLEAIGQAQAQAAIKEIVAPQAMTWVIVGDLKKIQAPIEALKLGKVEVIDADGKPVTK	PGPT0001280_347	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001280-pqqL|yddC-K07263	NA	NA
BMS020_06703	933			hypothetical protein	ATGCGACATCCGCAGTCGAGCCACACCGACGAACCGCAGCGTCAGCGCATCCTCGATGCGTACCGGATCGTCGACAGCCTGCCCGAGGCCGCATTCGAGGACATCGTCGATGTCGCCGCCGCGACCTGCGCCACGCCGATCGCCCTGGTGTCGCTGATCGACCGCGAGCGGCAATGGTTCAAGGCCCGGCGTGGCCTGGACGACCGCGAGACCTCGCGCATGGTCGCGGTCTGCGACCACGCGATGCGTGCCGGCGCCCTGCTCGAAATCCCCGACCTGGCGCGCGACGCGCGCTTCCACAGCTTCCCGGTGGTGACCGGCCAGGTCGGCGCGCGCTTCTACGCCGGCATGCCGCTGGTCACGCCCGAAGGCGCCGCGATCGGCACCGTCTGCGTGGTCGACGTGGTCCCGCGCACGCTGACCGACCTGCAGCGCAACGCGCTGACCTCGCTGACCCATCTGACCATGCATCTGATCGACGGCCGCCGCCGCGAACAGGAACAGCTGCGCGCCAGCGCGCTGGAGGAATCGCTGCAGGGCGACCCGCATGTACAGGCCGACTACACGGTGGTCTCGCTCGAACTGCAGGACCTGGCCGCGCTGGCCGACCGCATCGGCGAGCGCACCGCCCAGGCCACCCTGCGCCAGCTGCAGCAGATGCTGCAGCGCTGCCTGGAGCCCGCGCGTGGCGACACCCTGGACCGCATCGCCAACGGCGGCGAGTTCATCGCCGTGCTGCATGGCAGCGACGATGCCGAGCGCCTGCGCAAGCTGCAGGACATCGCCCGCCAGCAGTCCGAGCTGGGCCCGGCGATGCTGATGGGCGCGGCGCGCCCGCAGTTCCGCGGCGAGAGTTCCGAAGCGGTGTTCAAACGGGCCGAAGCCGCCCTCGGCGAGGCCAAGGACATCTACCGGCGCCTGCCCCACCAGTGA	MRHPQSSHTDEPQRQRILDAYRIVDSLPEAAFEDIVDVAAATCATPIALVSLIDRERQWFKARRGLDDRETSRMVAVCDHAMRAGALLEIPDLARDARFHSFPVVTGQVGARFYAGMPLVTPEGAAIGTVCVVDVVPRTLTDLQRNALTSLTHLTMHLIDGRRREQEQLRASALEESLQGDPHVQADYTVVSLELQDLAALADRIGERTAQATLRQLQQMLQRCLEPARGDTLDRIANGGEFIAVLHGSDDAERLRKLQDIARQQSELGPAMLMGAARPQFRGESSEAVFKRAEAALGEAKDIYRRLPHQ				NA	NA	NA	NA	NA
BMS020_06704	987			hypothetical protein	GTGAAGCAGGCCAGCAACGACGACATGCTCACCCGGGTGGTGGCGCTGGCCGGAACATCGCTGATCCTGCTGCTGTTCGCCCGCCTGCTGCTGCACGTGCCGGCGCCGGGCGCGCGCCAGGTGGCTGCGCCGGCGACGATCCAGGTCAGCTTCCTGCCGCGCACGCCGGTGGCGGAACAGCCGCAGGCGTCGACGCCACCGCCGGCCGTGGCCGCGCATGCGCGGGCCCACCCGCCAGCGGTGCGCGCCGCGCCGCCGCCGACGGTCGTTGCCGCCCCGGTCGCGCAGCCGGCGCAGGCCGCGCAGGCGCAGAGCGAGGTCTACATGCGCGATGGGCGCGTGCGCATGGGCACCGTGGTCGATCCGCTCGATCCTGGCCATCCGGCGGTGCCGCCGGGCATGGCCGACGCGCGCGCGCTGGACAAGGCCAAACGCGTGCTGGAACGCCCCAACCCGATCGACTACCACGAGACCCGCTTCGAGAAGGACTGGAAGAGCGATGGCACGCTTGGCGACGTGGCGGTGCAGAGTCTGAACCGTGGCGCCAAGAAGCTCAACACGATGATCTGGGGCGAGGAGACGCAGCAGGCCAAGGCGCGGCCGCCGCCGGACGTCCGCTTCAATCCGGCGCTGGCGGAGAACCGCGCCGATCTCGGCAGCGAGGCCACCGGCGATGCGTACAAGGCCGCGCCGATTGCGCATGAGGACCTGCCGGACCTGAAGGGCAGCGCCAGCCGCCGCATCCGCGCTGCACTGGCCGAACTGCAGGAGCTGTCGCCGCAGTGCGATGCCGCGCGGCGGCAGGCCTGGCTGGCGCCGGTGCGCACGCACTTGGGCGATCTGGAGCGCGCCGAGCACGCGTTGAACAACGGTGCCGATCCGGTGATGGCCGCGCAGATGCTGCCGCGCCAGGCCGACAGCGCCTATGACCTGGCACGTCGCGCGCTGTGGTACGCGCGCCGCCAGCTGACGCAGTGCAGCGGCTGA	MKQASNDDMLTRVVALAGTSLILLLFARLLLHVPAPGARQVAAPATIQVSFLPRTPVAEQPQASTPPPAVAAHARAHPPAVRAAPPPTVVAAPVAQPAQAAQAQSEVYMRDGRVRMGTVVDPLDPGHPAVPPGMADARALDKAKRVLERPNPIDYHETRFEKDWKSDGTLGDVAVQSLNRGAKKLNTMIWGEETQQAKARPPPDVRFNPALAENRADLGSEATGDAYKAAPIAHEDLPDLKGSASRRIRAALAELQELSPQCDAARRQAWLAPVRTHLGDLERAEHALNNGADPVMAAQMLPRQADSAYDLARRALWYARRQLTQCSG				NA	NA	NA	NA	NA
BMS020_06705	1599	treA_2	COG1626	Periplasmic trehalase	ATGGTGACTCCTGCCCCGCGCCACCTGCCATGGCTGGCCATCGGCCTGCTGCTCGCGGCCTGCCAGAGCACGCGCACGCAAGCGCCCGCAGCGCCGCTGTCGCCGGAGCTGGCCGCGCCGACGCTGTTCGATGCGGTGCAGCGCGCGCCGCTGTTCGCCGACCAGAAGCAGTTCGTCGACCTGGTACCGGACGCGCCGCTGGCGCAGCTCGAAGCCGACTACCTGGTGCGCCGCGCACAGCCCGGCTTCGACCTGCGCGGCTACGTCTCCGGGCACTTCGCCACGCCGCCGGCGCAGGTCGGTCCACCGCTGCCGGCCGGGCTGACCTTGCGCGCGCACATCGCCGCGCTGTGGCCGCAACTGACCCGCGACAGCCGCACGGTGCCGGCGCACGGCAGCGCGCTGGCGCTGCCCCGGCCATACGTGGTGCCGGGCGGGCGCTTCGGCGAGCTGTACTACTGGGATTCGTACTTCACCATGCTCGGCCTGCAGGCCAGCGGCGAGCAGGCGCGCGTGCGCGACATGCTCGACGACTTCGCGTTCCTGATCGACCGCTACGGCCACATCCCCAACGGCACCCGCAGCTATTACCTGAGCCGCTCGCAGCCGCCGTTCTTCTCGCACATGGTCGCGCTGCAGGCCGAGGCCGACGGCGGTGCCTACGCGCGCTACCTGCCGCAGCTGCGCGCCGAATGGCGCTACTGGATGCGCGGCGCCGACACGCTCGCGCCGGGCCAGGCCAGCGCCCACGTGGTGCGGCTGGCCGACGGCAGCCTGCTCAACCGCTACTGGGATGCGCGCGACACGCCGCGCCCGGAGTCTTACCTGCAAGACCTGCAGACCGCGCGCGAGGCGGTCGGACGCCCCGCGCCGGAGGTCTGGCGTGAGCTGCGCGCCGGCGCCGAGAGCGGCTGGGACTATTCCTCGCGCTGGCTCGGCGATGGCCGCCAGCTGGCCACGATCCGCACCACCGCGCTGCTGCCGGTGGACCTCAACAGCCTGCTCTACCACCTGGAGACCAGCATCGCCCACGCCTGCCGCCAGGCCGCCGACAGCGCCTGCGCGGCCGACTTCCAGCGCCGCAGCGATGCCCGCCGCGCGGCGATCGAACGCTATCTGTGGAATCCGCACGGCTACTACGCCGACTACGACTGGCAGCGCCGGCAGGTCGCCGCGCCGCTGACCGCGGCGGCGGCGTTCCCGCTGTTCGTCGGCGCCGCCAGCGCAGCGCGCGCGCAGGCCACCGCGCGCGCACTGGAGCGCGGCCTGGTCCGCCCCGGCGGCCTGCTGACCACCGCCGCGGACACCGGCCAGCAGTGGGACGCCCCCAACGCCTGGGCGCCGCTGCAGTGGGTCGCGGTCGACGGCCTGCGCCGCTACGGCGAGGACGCGCTGGCCGAACGCATCGGCCGCGGCTTCCTGGCCCAGGTGCAGGCGCTGTATGCGCGCGAACACAAGCTGGTGGAGAAGTACGACGCCGAGGCCGGGCGCGGCGGTGGCGGCGGCGAATACCCGCTGCAGGACGGGTTCGGCTGGACCAACGGCGTCACCTTGCGACTGTTGGACCTCTATGGTCCGCACGATCCGCCCCCACCTTGA	MVTPAPRHLPWLAIGLLLAACQSTRTQAPAAPLSPELAAPTLFDAVQRAPLFADQKQFVDLVPDAPLAQLEADYLVRRAQPGFDLRGYVSGHFATPPAQVGPPLPAGLTLRAHIAALWPQLTRDSRTVPAHGSALALPRPYVVPGGRFGELYYWDSYFTMLGLQASGEQARVRDMLDDFAFLIDRYGHIPNGTRSYYLSRSQPPFFSHMVALQAEADGGAYARYLPQLRAEWRYWMRGADTLAPGQASAHVVRLADGSLLNRYWDARDTPRPESYLQDLQTAREAVGRPAPEVWRELRAGAESGWDYSSRWLGDGRQLATIRTTALLPVDLNSLLYHLETSIAHACRQAADSACAADFQRRSDARRAAIERYLWNPHGYYADYDWQRRQVAAPLTAAAAFPLFVGAASAARAQATARALERGLVRPGGLLTTAADTGQQWDAPNAWAPLQWVAVDGLRRYGEDALAERIGRGFLAQVQALYAREHKLVEKYDAEAGRGGGGGEYPLQDGFGWTNGVTLRLLDLYGPHDPPPP	PGPT0019170_952	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-TREHALASE,PGPT0019170-treA|treF-K01194	NA	NA
BMS020_06706	459			hypothetical protein	ATGCCGTCCCCGCCCGCCAGCGCGCTGCCGCTGCGCATGTCCCAGCAGCAGCTGCTGCTCGGCGATGCCGCCACCGCGCTCGCCCTGCCGCTCGGCGCACTGGCGCTGCAGCGCTGGCTGCCGGCGTTCCCGCCCAGCGAGATGCAGCTGGAGGCGGCGATCGCCGCGGTCGAGGACGTGCTGATGCCGGCGCTGCCGCAGCTGGCCGCAACCGGCGCGCGCACGCTGTGGGCGATGGATGCCGACAGCGCCGCGCTGGCGATCGCCGCCGGCGACGCCAGCGGCGCCGACCTGGACCAGGTCGAGCGCCTGTTCAACCGCCTGGCGCGGGTCGCTGCCGGGCAGCCGGCGCGCCACGAGGACATTCCCGAGGACGCCGCGTTCGCGGCGCGGCTGCTGGTGCTGCGCGAACTGATGCACCACGGCGGCTTCGCCCGCGTGCAGCTGCCGGCGCAGTGA	MPSPPASALPLRMSQQQLLLGDAATALALPLGALALQRWLPAFPPSEMQLEAAIAAVEDVLMPALPQLAATGARTLWAMDADSAALAIAAGDASGADLDQVERLFNRLARVAAGQPARHEDIPEDAAFAARLLVLRELMHHGGFARVQLPAQ				NA	NA	NA	NA	NA
BMS020_06707	909	corA_1	COG0598	Magnesium transport protein CorA	ATGATCGACGTGCATGCGTTCGGCGGCGGCGCACAGGGCGGGGTGTGGGTGGACCTGTGCCGGCCGAGCGAGCAGGAACTGGCTGAAACCACCCGGCGGGTCGGCTTCGATGTGCCCGGGCATGCCGGGATCAGCGAGATCGAGTTCACCAGCCGGGTGCGCACGTTCGGCGATGCATTGATCCTCAACCTGCCGCGCTACCAGGAAGGCGACGGCACGATGGCGCCGCTGGGGTTCGCCTTGTCGGCGCAGGCGCTGGTCACCCAGCACGAGCAGCCGCTGGCCTCGCTGCGCGACGTGCAGGCCGATCTGGCCCGGCATCCCTGCGAAGGCGCGCTCGACCTGTTCCTGCGCATCCAGGAACACATCGTCGACCGTCTGGCCGACCGGCTGGAGGCGATGGAGGGCGAGGTCGCCGAGGCCACGCGCCGCGCATTCGCGCCGGGCCGCCGCCGCGGCGGGCTGGAGAAGATGCTGCGCGAGGTCGGCGCGATGGGCCAGCAGGTGGCCGCGCTGCACAACACCGTGCACGGCCTGCTGCGGCTGGCGACCTACCTGGACGAGGCGGCGCCGGACTGGTTCGACGAGGCGGCGCGGCACCGGGTCAAGCTGGTGCGCAAGGACGTGACCTCGCTGGGCGAGTTCGAACAGCAGCTCGGCGACCGCGTCGAGTTCCTGCTCGACAGCGTGCTGGGCCTGATCAACATGGACCAGAACGAGGTGATGAAGGTGATGGCGGTGGCCTCGGTGGTCGGCATTCCGCCGACGGTGCTGGTCGGCATCTGGGGCATGAATTTCGCCTTCATGCCGGAGCTGAAGTGGCACGACGCCTATTTCTGGGCGCTGGGGTTGATCGTGCTGAGCATCGTGGTGCCGCTGGTCTGGTTCAGGCGTCGCGGCTGGATCTGA	MIDVHAFGGGAQGGVWVDLCRPSEQELAETTRRVGFDVPGHAGISEIEFTSRVRTFGDALILNLPRYQEGDGTMAPLGFALSAQALVTQHEQPLASLRDVQADLARHPCEGALDLFLRIQEHIVDRLADRLEAMEGEVAEATRRAFAPGRRRGGLEKMLREVGAMGQQVAALHNTVHGLLRLATYLDEAAPDWFDEAARHRVKLVRKDVTSLGEFEQQLGDRVEFLLDSVLGLINMDQNEVMKVMAVASVVGIPPTVLVGIWGMNFAFMPELKWHDAYFWALGLIVLSIVVPLVWFRRRGWI	PGPT0014010_5178	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284	NA	NA
BMS020_06708	876			hypothetical protein	ATGTTCAAGGGTGTACTGCTGGGCTTCGCGTGCTACGCGGCCTATTCGATCAGCGATGCGTTCGTGAAACTGCTGGAAGGCAGTCTTCCGGCCTACGAAGTGCTGTGCCTGGGCGCGCTGCTGATGCTGCTGGCGGTGCCGTTCCTGAAGAAGCCCGAGGACCGCTGGCGCGAGCTGGTGATCGCGAAGAAGCCGGCGTTGTGGCTGCTGCGTGCGCTGGCCGCGGCGATCGGCAACCTCACCTCGGTGATCGCCTTCACCACGCTGTCGATGGCCGAGGCGTTCGCGCTGATCTTCCTGATGCCGATCTTCGTCACGATCTTCTCGGTGCTGTTCCTGAAGGAACAGGTCGGCTGGCGGCGCTGGAGCGCGGTAATCGTCGGCTTCATCGGCGTGCTGGTGGTGCTGCGCCCGGGCTTCCGGCATCTGTCGCATGGCCACGTCGCGGCGATCGTCTGCGGCCTGGTCGGGGCGATCTCGGTGATCGCGCTGCGCATGGCCGGGACCGACGAGAAGCGCATCACCCTGTACGGCGCCGGCGTGCTCGGTCCGCTGGTGCTGGGCGGCATCCTGATGCTGCCGGTGTTCGTGTGGCCGAGCCTGAGCCAGTGGCTGATGATCGCCGGCTACGGCCTGCTGGCCGGGCTGGCGGCGATCTTCCTGATGTACGCCACGCGCATGGCGCCGGTCAGCGCGGTCGCGCCGACCCAGTACAGCCAGATGCTGTGGGCGATCGGCTTCGGCTATTTCCTGTTCGGCAACCACCTGGACCTGCCGATGGCGATCGGCATCGCGCTGATCCTCGGCGCCGGACTGTTCACGCTGGTGCGCGAAGAACGCGTGACCAGCTGGTGGCGGCGCACCCGCATCGTCTGA	MFKGVLLGFACYAAYSISDAFVKLLEGSLPAYEVLCLGALLMLLAVPFLKKPEDRWRELVIAKKPALWLLRALAAAIGNLTSVIAFTTLSMAEAFALIFLMPIFVTIFSVLFLKEQVGWRRWSAVIVGFIGVLVVLRPGFRHLSHGHVAAIVCGLVGAISVIALRMAGTDEKRITLYGAGVLGPLVLGGILMLPVFVWPSLSQWLMIAGYGLLAGLAAIFLMYATRMAPVSAVAPTQYSQMLWAIGFGYFLFGNHLDLPMAIGIALILGAGLFTLVREERVTSWWRRTRIV	PGPT0023680_128	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023680-sam-K15270	NA	NA
BMS020_06709	2034			hypothetical protein	ATGGACGCGACCTCTGGATGGCGGCGCCTGCTGCCGCTGCTGCTGATCTGCGCCGCACTGGCCTGGCCGCAGGCCCGCGCCGCACGTGGACCGGCGTGGACACCAGCCGCCTGCGCGCTGCTGGGCATCCGCCTGCAGCCGGGCCAACAAGCCGACTGCGGCTACGTCACCGTGCCGCTGCGCCACGACGCCCCGGCCGGCCCGCAGCTGCGCCTGGCCACCGTCGTGCTGGCGCCGGTGGCCGGCCCACGGCCGCATCCGGAGCCGTTGTTCATGGCCCAGGGCGGACCGGGTCTGTCGACCATCGGCAGCTACGCGCGCTACCTGCTCGCCACGCCGTCGGCGCGGCCGGCACTGGACCGCGACATCGTGCTGTGGGACCAGCGCGGCACGCAGTATTCCAAACCGCGCCTGGACTGCCCGGAGGTGCAGGCGCTGGAACGCCAGCAAGCCTATCGCGGCGCCCACGGCGAGACCGCGCTGGACGAGCAGCTGCGCGCCTACGCACGTTGCGGCCAGCGCCTGGCGGGGGGCGCAGGCGAGCTGTCGGCGTTCAACTCGGCCGAGAACGCGCGCGACGTCGAGGCGATCCGGCGCGCGCTCGGCTACGCGCGGATCGACTTCTACGGCGTGTCCTACGGCACCGAGGTCGGCCAGCTGCTGATGCGGCTGGCGCCGCGTTCGCTGCATGCGGTGGTGCTCGATGCAGTGGTGCCGCTGACCTACGACACCTTCACCGAGCCGGCGTTCGCCAAGCGCCGCATCGCCAGCAAGTACTTCAGCGCCTGCGCGGTGGACCCGCGCTGCAATGCCGCCTACCCCGACCTGTCGCGGCGCTTCGTGGCCCTGCTCGAACGCCTGGACGCGGCGCCGGTGCAGGTCAATGTCGCCGATCCGACCGGGGTCGCGCGCCGGGTGCGGCTCAGCGGCGAGATGCTCGAACAGGCGGTCTACGGCGGGCTGTACCTGGACATCCACCGGCTGATCCCGATGATCGTCGACCGCGCCGACCGCGGCGACTACACCTTCGTCAGCAGCACGCTGCTGCCGATGACGCTGTTCGACCAGGGATTGGCGCTGGGCATGCACATGGCCGTGGCCTGCGCCGACCACGGCGACACCGATCCGGCCACGGTCGACTACAGCGCGCTGCCGCCGCGGCTGGCCGCGCGCGAGGCACGCGCCGCGGCGATGCAGCTGCAGGTCTGCCGCGACTGGCAGATCGCGCTGCTGCCGCGGGCGCTGATGGCACCGGTGCGCAGCGAGGTGCCGGTGCTGCTGCTGTCGGGCGAATACGATCCGATCACCCCGCCGGCGTATGCCGCCCAGGTCGCCGCACGCCTGCCGCGGGCGCAGCACGTGGTGTTCCAGCAGGGCACGCACGGCCAGGCGATCAACAGCGCCTGCGCCAATCGCCTGATCGGCGAGTTCCTGCTCGCACCGACGCAGCCGCTGCAGGCGCGCTGCGCCGCCGAGGCCGACCTGCGCTTCCTGACCGATGCCGACGTGATGCAGGTCCCGCTGCTGCACGCCTCGATCGCCGAGGGCGGCGCCGGTGGCCTGGCCCTGGCGGCGGCACGCTCGCGCCCGGTCGCGGTGCTGGCGGTGCTGCTGCTCAGTGCCTGGGTGCTGTATCCGGCCGGGTGGCTGCTGCGCCGCCTGCGCCGGCGGCGGACCGCCGTGGTCCACCCCGGCGCCAGTGCCGGCACCGCCCGGCGCGCGCCGGCGCTGGCGCTGCTGACCGGACTGGTCGCCAGCGCGCTGTGCGCCTTGCTGGTGTTCGCGGTGCGCGCCACCCTGGCCACCGACGACGGCAGCCTGCTGATGCTCGGTGCGCTGCCCGGCGGCTGGCTGCGGCTGCGTTGGCTGGGCTGGCTGCTGCTGGCCTGCACGCTGGCGATGCTGGTGGTCTGCGTGCAGCTGTGGGTGCGCCGCCAGCGGACGCTGGCCGGGCGCCTGTACTACACGCTGCTGGCGCTGGCCGCGCTCGGCGCGTCGATCGGCGCGGCCTGGCTGGGGCTTCTGCAGAAATAG	MDATSGWRRLLPLLLICAALAWPQARAARGPAWTPAACALLGIRLQPGQQADCGYVTVPLRHDAPAGPQLRLATVVLAPVAGPRPHPEPLFMAQGGPGLSTIGSYARYLLATPSARPALDRDIVLWDQRGTQYSKPRLDCPEVQALERQQAYRGAHGETALDEQLRAYARCGQRLAGGAGELSAFNSAENARDVEAIRRALGYARIDFYGVSYGTEVGQLLMRLAPRSLHAVVLDAVVPLTYDTFTEPAFAKRRIASKYFSACAVDPRCNAAYPDLSRRFVALLERLDAAPVQVNVADPTGVARRVRLSGEMLEQAVYGGLYLDIHRLIPMIVDRADRGDYTFVSSTLLPMTLFDQGLALGMHMAVACADHGDTDPATVDYSALPPRLAAREARAAAMQLQVCRDWQIALLPRALMAPVRSEVPVLLLSGEYDPITPPAYAAQVAARLPRAQHVVFQQGTHGQAINSACANRLIGEFLLAPTQPLQARCAAEADLRFLTDADVMQVPLLHASIAEGGAGGLALAAARSRPVAVLAVLLLSAWVLYPAGWLLRRLRRRRTAVVHPGASAGTARRAPALALLTGLVASALCALLVFAVRATLATDDGSLLMLGALPGGWLRLRWLGWLLLACTLAMLVVCVQLWVRRQRTLAGRLYYTLLALAALGASIGAAWLGLLQK				NA	NA	NA	NA	NA
BMS020_06710	399			hypothetical protein	ATGAGCGTTGTGGCAGAAGTGGGGGCGCTGGCGTTGATCGTGGCGGCGGTGTGGGTGACGGCGTGGTACCAGCGGCGCGGGCAGGCGCAGGCCTACCGTGACTCGTTCGAGCGGCAATGGTTCGACACGCCGCACGGCCGCGTCAGCGGCGAAACGATGCGGGTCGTGTGGCGGCGCAGGCTGCCGCCCGGGGTCGATGGCGTGGTGCGCGAGGCGTGGTTCTGTGTCGGTCCCGGGCAGAGCTATTTCCGCGCGGTGCCGGCGCAGCGCGACGACTGGCGCGACGGCCGCGGCATCGACTGGGAGATCGTCGCGCTGGGTGAGGAGCGCATGCGGACCGCGCTGCAGACCGATCCGGGCGCCCTGGCCCAGGCGTTCGGGCATCGCCCGCTGGCCTGA	MSVVAEVGALALIVAAVWVTAWYQRRGQAQAYRDSFERQWFDTPHGRVSGETMRVVWRRRLPPGVDGVVREAWFCVGPGQSYFRAVPAQRDDWRDGRGIDWEIVALGEERMRTALQTDPGALAQAFGHRPLA				NA	NA	NA	NA	NA
BMS020_06711	357	ybaA	COG5507	putative protein YbaA	ATGTCCTATATCGACGGCTTCGTGATCGCCGTTCCCAGCGCCAACCGCGACGCTTTCATCGCCCACGCGCGCGAGGGCGACGCGCTGTTCATCGAGTTCGGCGCGCTGCGCGTGGTGGAATGCTGGGGCGATGACGTCCCGCACGGCACCCAGACCGACTTCTTCCGCGCGGTGCAGGCACGCGAGGACGAGACGGTGGTGTTCTCCTGGATCGAGTGGCCGGACAAGCCGACCCGCGACGCCGGCATGCAGAAGATGATGGACGACCCCCGCGCCGCCGCGCTCGACCCGATGCCGTTCGACGGCAAGCGGCTGATCTACGGCGGCTTCAGCCCGCTGGTGGACCTGCGCGGCTGA	MSYIDGFVIAVPSANRDAFIAHAREGDALFIEFGALRVVECWGDDVPHGTQTDFFRAVQAREDETVVFSWIEWPDKPTRDAGMQKMMDDPRAAALDPMPFDGKRLIYGGFSPLVDLRG				NA	NA	NA	NA	NA
BMS020_06712	984	yajO_7	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGCAGTACGTGAAACTCGGCAGCACCGGTCTGGACGTGTCGCGGCTGTGCCTGGGCTGCATGACCTTCGGCGAGCCAGGCGCCGGCACCCACCCATGGACGCTGGACGAGGCCGCCAGCCGGCCGGTGTTCCGCCATGCGGTGGAGCTGGGCATCAACTTCTTCGATACCGCCAACACCTACTCGGCCGGCACCTCCGAGCAGATCGTCGGCAAGCTGCTGAAGGAATTCACCCGCCGCGACGAAGCGGTGCTGGCGACCAAGGTGCACAACCTGGTCGATGGCGACGGCCCCAACCGCAAGGGCCTGTCGCGCAAGGCGATCATGGCCGGCATCGATGCCAGTCTGCAGCGTTTGGGCACCGACTTCGTCGACCTGTACCAGATCCACCGCTGGGATCCCGGCACCCCGATCGAGGAGACGATGGAGGCGCTGCACGACGTGGTGAAGGCCGGCAAGGCGCGCTACATCGGCGCCTCGTCGATGTACGCCTGGCAGTTCGCCAAGGCCCAGCAGGTCGCGCGCGAACACGGCTGGACGCGCTTCGTGACGATGCAGAACCACCTCAACCTGCTCTACCGCGAGGAAGAGCGCGAGATGCTGCCGCTGTGCGCCGACCAGGGCGTCGGGCTGATCCCGTGGAGCCCGCTGGCGCGCGGCCGGCTGACCCGGCCCAAGGGCGAGCAGACCGAGCGCACCCGCAGCGACGTGTTCGGCGGCACGCTGTACCAGGCCACCGAGGATGCCGACGGCCGGGTGATCGATGCGGTGCAGGCGCTGGCGCAGGCCCGCGGCGTGCCGATGGCGCAGGTCGCGCTGGCCTGGGTGCTGGCCAAGCCCGGCGTGTCGGCGCCGATCATCGGCGCCTCGCGCCCCGGCCATCTCGACGATGCCGCCGCGGCGCTGGCACTGCACCTGGGCGCGGACGAGATCGCCACGCTCGAAGCGCACTACGCACCGCACCCGATCGCCGGCCATCGCTGA	MQYVKLGSTGLDVSRLCLGCMTFGEPGAGTHPWTLDEAASRPVFRHAVELGINFFDTANTYSAGTSEQIVGKLLKEFTRRDEAVLATKVHNLVDGDGPNRKGLSRKAIMAGIDASLQRLGTDFVDLYQIHRWDPGTPIEETMEALHDVVKAGKARYIGASSMYAWQFAKAQQVAREHGWTRFVTMQNHLNLLYREEEREMLPLCADQGVGLIPWSPLARGRLTRPKGEQTERTRSDVFGGTLYQATEDADGRVIDAVQALAQARGVPMAQVALAWVLAKPGVSAPIIGASRPGHLDDAAAALALHLGADEIATLEAHYAPHPIAGHR	PGPT0017540_558	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
BMS020_06713	741			hypothetical protein	GTGGCCCGTGCCTCGTTCCGTACCACCTGCGTCGCCTGGCTGGCGCTGATGACCGCCGCAGGCGCGTGTGCCGGCGAGATCCCGCCCGGCGAGTACGCCACCCAGCCGGACTGGGGCAGCCTGCGGATCGAGGACCGCGGCGGCACGCGCCACTTCGCGCTGTTCGCGCAGGGCGCGAATGGCCATCTGTGCGACCTGAGCGGCACCGTGCAGGGCCCGCGCGCGATCACCGATGACGGCGACTGCACGCTGGCACTGGCGCCGCAGGGCGATACCCTGCGCATCAGCGGCCCCGAGGCCTGTCGCGCCTACTGCGGCGCGCGCGCCGGGTTCGAAGGCGACTACGTGCGGTTGCCGGGCGCCTGCACGCATGCCGCGCAGGAGCGCCGCCACGCCGCCTATCTGGCCGACTACAAGGCCAAGCGCTATGCGCAGGCGCTGGCCGGCATCGACGCGCTGGCCGGCGACTGCGGCAGCTACTTCCAGTGGCTGCAGAAGGACGCGCAGGCCAACGACCGCGCGATCACGCTGCTGCACCTGGGCCAGCCGCGTGCCTGCCTGGATACGCTCAACACGATGCTGACCCGCGGCAGCCGTGACGAGGACTCGCTGCAGGCGGTGCTGGATGCGCAGGGCACGATGCTGCCGCCGACCGATTGGGACGCCTACCTGCCGATCGCCAAGGCCAGCTGGTTCAACCGCCGCCAGTGCGAGGCGGCCTTGGCCAAGGCCGGCGGCTGA	MARASFRTTCVAWLALMTAAGACAGEIPPGEYATQPDWGSLRIEDRGGTRHFALFAQGANGHLCDLSGTVQGPRAITDDGDCTLALAPQGDTLRISGPEACRAYCGARAGFEGDYVRLPGACTHAAQERRHAAYLADYKAKRYAQALAGIDALAGDCGSYFQWLQKDAQANDRAITLLHLGQPRACLDTLNTMLTRGSRDEDSLQAVLDAQGTMLPPTDWDAYLPIAKASWFNRRQCEAALAKAGG				NA	NA	NA	NA	NA
BMS020_06714	1794			hypothetical protein	ATGACCAACGACGGATGCGGGCGCCTGGCCGCGCTGCCACGCTCGCAGGTCCGTCCCGCCCCGGTTCCGCGCATGTCCCGTGTCGTTCCGCTATGCCTGCTGCCGCTGCTCGCGCTGGCCACCTCTTCCGCTCTCGCCCGCCAGCCGGCGCTGACCGAGCTGACCCGCGACAGCGGACGGCCGATGGCGCCGGAACAGCAAGCGGTGGTGTTCGAACATGCCGATCTCGGTTTCAAGGTGATCCCGCGCACGCGCCGGCTCGAAGGCGATGCCAGGCTGACCTTCCAGGCCACCGCGCCGCTGGCGGCGGTGGTGCTCGACCTGGATCGCAACTACGCGGTGTCGCGGGTGGAGATCGATGGCGCGGTGGTCCCGGCGACGGCCTGGAGCAATCCGCAAGGGCGCATGCGCATCGCGTTGCCGCAGCCGGTGGCGTCCGGCGCGCGGGTGGCGGTGCGCATCGTGTATGCCGGCAAGCCGCACGTGGCGAAGAAGGCGCCATGGGATGGCGGCTTCGTCTGGGGCAAGGCGCCCGGTGGCGAGCCGTGGGTGGCGACCGCGGTCGAAGGCGAGGGCTGCGACCTGCTGTGGCCGTGCATCGACCACCCGCAGGGCGAGCCGAAGCTGGTGGACGAACGCATCACCGTGCCGGCACCGCTGGTGGCGCCTGGCAATGGCGTGTTCGTCGGCATGGACGAGCACGACGGCTGGCGCACCTACCACTGGCGCGCGCACGATCCGGACACCTATGCGATCAGCCTCAATGTCGGCCCGTTCGAACAGCTCAGTGGTGAGTACCGCAGCCGCTACGGCAATACCATCCCGCTGGCGTTCTGGTACCTCAAGGGCAACGAGGCCAAGGCGCGCCAGCTGTTCGCCGAGTTTCCGCGGATGCTGGAGTTCTTCGAGCGCACGATCGGGCCGTACCCGTTCGGCGGCGAGAAGATGGGCGTGGTCGAAACCCCGCACCTGGGCATGGAGCACCAGACCATCAACGCCTATGGCAATGGCTACAAGCGCGACAAGTACGGCTATGACTGGCTGTTGCAGCATGAGTTCTCGCATGAGTGGTTCGGCAACCAGCTGACCAATGCCGACTGGGACGACATGTGGCTGCACGAGGGCTTCGGCAGCTACATGCAGCCGCTGTACCTGCAGTTCCTGCGCGGCGAGATGGACTACCGCGCGGCGCTGCTGGACCAGCGCGCGGCAGTGGTCAACAAGGTGCCGATCGTCAGTGGCCACACGATGACCGAGGAGGCGGTGTACAACCACGACACTGGCCCGGGCAACGACATCTACTACAAGGGCTCGTACATGCTGCACGCGCTGCGTGCGCTGATCGGTGATGCAGCGTTCTTCCGCAGCATCCGCGAGCTGGTGTACGGCACCGACACGCCGGCGCCGGGCAACTTCCAGCCGCGCTACGCGACCACCGCCGATTACCTGCAGATCGTCAATCGCGTCACCGGCCACGACTACCGCTGGTTCTTCGATGTCTACCTGCGCCAGGCGGCGCTGCCGGAACTACTGGCCGAGCGCGACGCGACCGGCCTGGCGTTGCGCTGGAAGGTGCCGGGCGGGCTGCCGTTCCCGATGCCGGTGGAGGTGCGCGTGGGTGGCAACGACGGCGCGCTGGTGACGGTGCCGATGGAGGGCGGGCAGGGCCATGTGGCGCTGGCGGCGGGGGAGGTCTATACGCTCGATCCGCAATCGAAGCTGCTGCGCGAAGAGCCGCGCTTCGCCGAGGCGCGCGCCGACGCGGCCGCGCGGCGCAAGGCGACATCGCGCTGA	MTNDGCGRLAALPRSQVRPAPVPRMSRVVPLCLLPLLALATSSALARQPALTELTRDSGRPMAPEQQAVVFEHADLGFKVIPRTRRLEGDARLTFQATAPLAAVVLDLDRNYAVSRVEIDGAVVPATAWSNPQGRMRIALPQPVASGARVAVRIVYAGKPHVAKKAPWDGGFVWGKAPGGEPWVATAVEGEGCDLLWPCIDHPQGEPKLVDERITVPAPLVAPGNGVFVGMDEHDGWRTYHWRAHDPDTYAISLNVGPFEQLSGEYRSRYGNTIPLAFWYLKGNEAKARQLFAEFPRMLEFFERTIGPYPFGGEKMGVVETPHLGMEHQTINAYGNGYKRDKYGYDWLLQHEFSHEWFGNQLTNADWDDMWLHEGFGSYMQPLYLQFLRGEMDYRAALLDQRAAVVNKVPIVSGHTMTEEAVYNHDTGPGNDIYYKGSYMLHALRALIGDAAFFRSIRELVYGTDTPAPGNFQPRYATTADYLQIVNRVTGHDYRWFFDVYLRQAALPELLAERDATGLALRWKVPGGLPFPMPVEVRVGGNDGALVTVPMEGGQGHVALAAGEVYTLDPQSKLLREEPRFAEARADAAARRKATSR				NA	NA	NA	NA	NA
BMS020_06715	498			hypothetical protein	ATGGACACCCGATTCACTCCGCACCACATCCCGTTCAAGGATGGCGTCGCCCGCATCAACGAAGCGCTGGATACCGTCGGCGTCCGCCTCGGCGAACGCGTGCTGACCTCGCGCGATCCGGAGGCGGTCAAGCTGTGCAACCTGCTCGCGGTCAACAGCAAGCTGCCCGATGGCTTCCGCAAGTGGCAGTTGCCGTTCCACCTGGAAGGCGGGCAGTTCTTCGTCACCGCCGCGGCCGCCAACACCAGCGTCGCCGAGCACTCGCATGACGACGATGGCGTGCGCTTCATCATCGCCGGCAGCGTGTTCTACGACGGCATCGAGCTCAGCGCCGGCGACTGGATGTACCTGCCCAAGGGGGTGAAGTACAGCCTGCGCGTGGGGCCGCTCGGTGCCAGCATGTGCTATTGCTATTGCTGTTGCTGTGCCGGGCGCGAGCTCAACTTCGGCGAGGAGGTGATCAATCCGGCGTACGCGCGCCAGCGCCGTCTGGGTTGA	MDTRFTPHHIPFKDGVARINEALDTVGVRLGERVLTSRDPEAVKLCNLLAVNSKLPDGFRKWQLPFHLEGGQFFVTAAAANTSVAEHSHDDDGVRFIIAGSVFYDGIELSAGDWMYLPKGVKYSLRVGPLGASMCYCYCCCCAGRELNFGEEVINPAYARQRRLG				NA	NA	NA	NA	NA
BMS020_06716	756	linC	COG1028	2,5-dichloro-2,5-cyclohexadiene-1,4-diol dehydrogenase	ATGCGTCTTGAACTGGACACCCACGCCATCATCGTCACCGGCGGCGCCAGCGGCATCGGCCGTGAGGCGTGCCTGGCGCTGGCGCGCAAGGGCGCCGACATCATCGTCGCCGACTTCAACCTGGAAGGCGCCGGCCAGGTCGCCACCGAGGTGCAAGCGCTGGGCCGCCGCGCCCATGCCTTCAAGGTCGACGTCACCCAGCCCGGCGAGGTCGAGGCACTGGTCGAATTCGCAGTCGACAAGCTCGGCACGCTGACCGGCATCTTCAACAACGCCGGCATCGGCGACGTGGTGCCGTTCCTGCAGCTCGAACCGGCCAAGTACCACAAGGTCGTCGATGTCGACCAGCACGGCGTCTACTACGGCATCTATTACGCGGCCAGGAAGCTGGTGGCACTGGGCGTCAAGGGCACCATCGTCAACACCGCCTCGATCTACGGCGCGATCGCCTCCAAGGGTAACTTCCATTACAACGCCGCCAAGGCGGCGGTGATCTCGATGAGCCGCTCCGGCGCGCTCGAACTGGCCGAGCACGGCATCCGCGTGGTCGGCGTCGCGCCGGGCTACATCGAGACCCCGATGATGGGTGACGATGCCGCGCTCAAGGCCGGCTGGGCCGCGCAGCACATGCGCGGCAAGCTGATCCAGCCCGCGCAGGTCGCCAGCGTCGTTGCCTTCCTGTTCACCGACGGTGCCGGCGCGATCAACGGCTCGACGGTCGCGGTCGAGGATGGATTCCTCGGCTTCAAGGTCTGA	MRLELDTHAIIVTGGASGIGREACLALARKGADIIVADFNLEGAGQVATEVQALGRRAHAFKVDVTQPGEVEALVEFAVDKLGTLTGIFNNAGIGDVVPFLQLEPAKYHKVVDVDQHGVYYGIYYAARKLVALGVKGTIVNTASIYGAIASKGNFHYNAAKAAVISMSRSGALELAEHGIRVVGVAPGYIETPMMGDDAALKAGWAAQHMRGKLIQPAQVASVVAFLFTDGAGAINGSTVAVEDGFLGFKV	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
BMS020_06717	396			hypothetical protein	ATGCTCAACCACGTCATGGTCGGCTCCAACGACATCGAACGCTCCAGGCTGTTCTACAACGCCTTGCTCGGCACGGTGTTCGGTGCGCCCGAGCCGCTGCAGAACCAGGCCGGCTCGGGCCACATGCGCCTGTTCTATCGCCATGCCGGCAGCGCGTTCTGCGTCAGCCAGCCGATCAACGACGAGCCGGCCAGCGCCGGCAACGGCGCGACGATCGGCTTCAAATGCGCTTCGCCCGAACAGGTGCAGGCGTTCCACGACGCCGCGGTGGCGGCCGGTGGTACCTCGATCGAGCAGCCGCCGGGCCTGCGCGAGGGCAACATGGGGCCGACGTGGCTGGCGTACGTGCGCGACCCGGATGGCAACAAGCTGTGCGCGATCCATCGTCCTGGCTGA	MLNHVMVGSNDIERSRLFYNALLGTVFGAPEPLQNQAGSGHMRLFYRHAGSAFCVSQPINDEPASAGNGATIGFKCASPEQVQAFHDAAVAAGGTSIEQPPGLREGNMGPTWLAYVRDPDGNKLCAIHRPG				NA	NA	NA	NA	NA
BMS020_06718	231			hypothetical protein	ATGTCCTCCTATTCCGGCCCTGCATTCGTCCATCGCGAGGAGGACGGCATCGTCTTCGAAGCCGAGGATGGCTGGACCTGCCGTATCGCGTTCGATGAGCTCGCCAGCGATGCGGCGCTGGCGCAGGTGATCGAGCGCCTGCGCGGCGAGCCGTGGATGCACGATGCACTGTGCGAACAGTTCCGTACCGAGGTGCTGTGGCTGCGGCAGCAGCTGCCGCCGGGGAAGTAG	MSSYSGPAFVHREEDGIVFEAEDGWTCRIAFDELASDAALAQVIERLRGEPWMHDALCEQFRTEVLWLRQQLPPGK				NA	NA	NA	NA	NA
BMS020_06719	426			hypothetical protein	ATGTCGAAGACCATCACCATCAGCCTGCCGGTTGTCGATGTGCCCAGGTCCAAGGCGTTCTACGCCGCGCTCGGCTTCGCGCCCAATCCCAACCTCTCCGATGCCAGTGCGGCCTTGATGGTCTGGAGCGAGCACATCAGCGTGATGCTGCTGAGCCATGCCCGCTGGGCGGGCTTCACCACGCGGCCGATTCCGCCGAGCACGTCGAGCGAGGTGGCATTGAACATCACATGCGAATCGCGCGACGCCGTCGATGCGATGGCGGAATCCGCTGGCCGGCATGGCGGGACCACCGACATCAATCCGGTCGAGGACCATGACGGCATGTACGGGCGCGAGTTCTGCGATCCGGACGGGCACGTGTGGGGCGCCATGTGGATGGACGGCGCCGCGCCGGATGCGCGCACGCCGGGCGAGCCCGGCTAG	MSKTITISLPVVDVPRSKAFYAALGFAPNPNLSDASAALMVWSEHISVMLLSHARWAGFTTRPIPPSTSSEVALNITCESRDAVDAMAESAGRHGGTTDINPVEDHDGMYGREFCDPDGHVWGAMWMDGAAPDARTPGEPG	PGPT0028555_655	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
BMS020_06720	552			hypothetical protein	ATGTCGAGCCGTTCCGTTCCGATGATCCTCGCGCTGGCCGCGGTGTTCGCGTTTGCCGCCCCGCCGGCGCAGGCCGCCGATGACGCCTACACCGACGCCGCCGAGGTGCGTGGCGCGCTGGTCGACGTGCTTGGCTGTGCGAGCGACCGTGCCGGCTACATGCGCCTCGGCAATGCGCTGACCGATGTCTACTACGGCAGCGACGTGCAGCCGGCGCTGGCCGGCTGGCGCAAGCTCGAAGGCGACAACGCCTTCGTGGTGGAACTGCAGGCGCCGGCGCCGATCGAGCTGTACGGCCACTCCACCGATCGCATCATGATGGCCGGCACCGGCCTGCTCGCGGTGCTGGACGGCGACCTGGTCGACACGCTGGCCAAGCAGTTGCAGCTGGCGCCGAGCAACGTGCCGATGGCCGGGCACATCCTGACGCGCGAAGTGCGCACCACCGATCTCGGCGACGGCATGGTGGCGCACGTGGTCCAGACCGTCAGCACGATCAGCAGCCACCCGGGCAAGACCCTGGTCGGCTGCGAATACCGTACCGACTACTGA	MSSRSVPMILALAAVFAFAAPPAQAADDAYTDAAEVRGALVDVLGCASDRAGYMRLGNALTDVYYGSDVQPALAGWRKLEGDNAFVVELQAPAPIELYGHSTDRIMMAGTGLLAVLDGDLVDTLAKQLQLAPSNVPMAGHILTREVRTTDLGDGMVAHVVQTVSTISSHPGKTLVGCEYRTDY				NA	NA	NA	NA	NA
BMS020_06721	477			hypothetical protein	ATGCCCTCGAAGAAAAATGTGCAAGATGCACATATATCCAGCCAGATCCGCGCCCTGCATGGCGCGCTGGTCAGCATCGTCAGCGTGATGAACCGCCCGGAGGTGGACGAGGCGATGGTCAAGCGCGCCGGCATCGCCCTGGACCGCGCGCTGTTCCCGCTGCTGGTGCTGGTCGAGCGGTTGGGGCCGATCGGCGTGGTCGAGCTGGCCGGGCGGGTCGGCCGCGACTACACCACGGTCAGTCGCCAGGTCGCGCGGCTGGAAGCGGAAGGCCTGGTATCGCGGCGTGCCAGCAGCGCCGATGCGCGCGTGCGCGAAGCCGTGGTCACCACCAAGGGCAAGCAGATGACCGACGCGGTCGATGCTGCGCGCGACCGCGCCGGACGCGCGCTGTTCGCACGTTGGGAGCAGCACGACGTCGACGCGCTGGTGCGGCTGATGCAGAAGTTCGCTGCCGACATCGAGAGCGCCGGCTAG	MPSKKNVQDAHISSQIRALHGALVSIVSVMNRPEVDEAMVKRAGIALDRALFPLLVLVERLGPIGVVELAGRVGRDYTTVSRQVARLEAEGLVSRRASSADARVREAVVTTKGKQMTDAVDAARDRAGRALFARWEQHDVDALVRLMQKFAADIESAG				NA	NA	NA	NA	NA
BMS020_06722	1512	tetX	COG0654	Flavin-dependent monooxygenase	ATGAGCGGTCACGATGTACAGACGGATGTATTGATCTGCGGCGCCGGCGCGGCCGGGCTGACCCTGGCAATCGACCTGGCGCGGCGCGGCATCGCCTTCCGCCTGATCGAACAGCGCCTGGCGCCGTTCCACGGCTCGCGCGGCAAGGGCCTGCAGCCGCGCACGCTGGAAGTGTTCGAAAACCTCGGCATCGCCGAACGCGTGTTCGCAGCCGGCGGCGATTACCCGCCCCAGCGCGAGTACCAGGAAGACGGCCAGCATGTCGACTCCGCGTTCATCACCGGGACCGGCGAAAGCCCCGGCGAGCCGTTCCCGCGCCCGCGGATGGTGCCGCAATTCGCCACCGAGGCGGTGTTGCGCGAACGCCTGCGCGAGCTCGGCGCGCGGGTCGAATTCGGCGTCACGCTGGTCGCGCTGGAACAGGATGCCGATGGCGTCAGCGCGCGCCTGGCGCAAGCCGGGCACGAGGAAGCGCTGCGCGTGCGCTACCTGGTCGGCACTGATGGCGGCGGCAGTTTTGTGCGCAAGGCGCTGGGCATCGACTTCCCCGGCAAGACCCTCGGGGTGCGCGCGCTGGTGGCCGATGTCGAACTGACCGGCCTCGACCGCGGCGCCTGGCATCGCTTCAACAGCGGCACGCCGGCGGCGCAACTGGCGATCTGCCCGCTGGCCGGCACCGCGCTGTTCCAGATCCAGGCCCCGGTCGCGCTGGAGGGCGAGGTCGATCTGTCGGCTGCCGGGCTGCAGGCACTGGTGCGCGAACGCAGCGGACGCGCCGACATCGCGATCCATGCGGTGCACTGGGCCTCGGCCTACAGCATGAACGCCCGGCTTGCCGCGCGCTATCGCGTTGGTCGCGTGCTGCTGGCCGGCGATGCCGCGCACACCCATCCGCCGACCGGCGGCCAGGGGCTGAACACCAGCGTGCAGGATGCGCACAACCTCGGCTGGAAACTTGCCGCGATGCTCGACGGTGCGCCCGAGGCGGTACTCGACAGCTACGAGCAGGAGCGGCGGCCGATCGCCGCCGGCATGCTGGGACTGGCCACGCGCCTGCTCGACGCGGCGCGCCAGGGCAAGATGCAGCGCGGCCGCGAAGTGCGCCAGCTCGATCTGGCCTACCCGGACTCACCGTTCAACCTGGAACATCCGCCATGCAGCAGCGGCCTGCGTGCCGGCACGCGTGCGCCCGACGCCCCGGTGCGGGGCGCCAGCGGCGTGCCGGTGCGCCTTTTCCAGCTGTTCGCCGGCGGCCACTGGACGCTGCTTGGCCAGGACACCGCGCGCACCGACATCGCCGCGCGGCCCGGTCTGCGCATCCACACGTTCGGCTTGCACGGCGACCTGCAGGACAGCGACGGCCACTTCCACGCGGCCTATGGACTGCGTCCGGGCCAATGGCTGCTGGTGCGCCCGGACGGCTATGTCGCCGCGGTGGTCGACGCCGACGCACGCCAGGCACTAGAACAGCTTCTGCAGCAGGTCGGCCTGGCGACAGCCACGACCGTCTGA	MSGHDVQTDVLICGAGAAGLTLAIDLARRGIAFRLIEQRLAPFHGSRGKGLQPRTLEVFENLGIAERVFAAGGDYPPQREYQEDGQHVDSAFITGTGESPGEPFPRPRMVPQFATEAVLRERLRELGARVEFGVTLVALEQDADGVSARLAQAGHEEALRVRYLVGTDGGGSFVRKALGIDFPGKTLGVRALVADVELTGLDRGAWHRFNSGTPAAQLAICPLAGTALFQIQAPVALEGEVDLSAAGLQALVRERSGRADIAIHAVHWASAYSMNARLAARYRVGRVLLAGDAAHTHPPTGGQGLNTSVQDAHNLGWKLAAMLDGAPEAVLDSYEQERRPIAAGMLGLATRLLDAARQGKMQRGREVRQLDLAYPDSPFNLEHPPCSSGLRAGTRAPDAPVRGASGVPVRLFQLFAGGHWTLLGQDTARTDIAARPGLRIHTFGLHGDLQDSDGHFHAAYGLRPGQWLLVRPDGYVAAVVDADARQALEQLLQQVGLATATTV				NA	NA	NA	NA	NA
BMS020_06723	651			hypothetical protein	ATGAGCAACGGTAATGGTGTGACGGCGACCCTTTCCCAGGCCGCCGAGAATGCGAAGGAAACCGCGGTCAACCTGGGCGACACCATTGCCGCCACCGCCAGCGAGGCCGTTGCCAGCGTGCAGCAGACCGCGGCCAAGGCGCAGAAGGAAGTGAAGGCACGCGTGGCCAAGGCCAAGAAGGCGGTCAAGAAGGCCGAGAAGACCGTCGCCAAGAAGGCCAGCAAGGCGGTGAAGGCGGTCAAGACCTCGGTCGGCAAGACCGTGGCCAAGGCCAAGAAGAAGCTCGAGGCCGCCAGCGCCAGCGCCAAGGCCGAAGCGGCCGCGCTGAACAAGAAGAAGGCCGCCAAGAAGACCAAGAAGGCGACCAAGAAGGTCGTGGCGAAGAAGGCCGCCGCGAAGAAGGCCGCCACCAAGTCCGTGGCCAAGAAGAGTGCGGTGAAGAAGGCGCCGGCGCGCAAGGCGGTGGCCAAGAAGACCGTCGCCAAGAAGGTGGCCGCAAAGAAGGTCGCCGCGAAGAAGGTGGCGAAGAAGGTCGCCAAGACCGCGAAGGCTGCGACCGCCAAGGCCGCGACCCGTAGCGCCGCGGCAAAGAAGACCGCCGTGCGCAAGGCCGTGGCGAAGAAGAGCGCGGTCAAGCGCGCCGCCAAGTAA	MSNGNGVTATLSQAAENAKETAVNLGDTIAATASEAVASVQQTAAKAQKEVKARVAKAKKAVKKAEKTVAKKASKAVKAVKTSVGKTVAKAKKKLEAASASAKAEAAALNKKKAAKKTKKATKKVVAKKAAAKKAATKSVAKKSAVKKAPARKAVAKKTVAKKVAAKKVAAKKVAKKVAKTAKAATAKAATRSAAAKKTAVRKAVAKKSAVKRAAK				NA	NA	NA	NA	NA
BMS020_06724	621			hypothetical protein	ATGCTATACCGATGCAATCACGCGTGGAACGGGATGGCGCGACGCTGGTGCGCCACGGTTGTGCGGTGTCGTCGGCGCGTGCACGCCGACGGCACGGTGGTGCGCGCGACGTGCTGCGGCGGCACCGCCGGTGAGCGCATGCGCCGCAGCGTGGGCGCCGCCGCGGCGGGCCAGCGCACGCGGACCGGATCCGTGGTCGGCACGCCCGCGCATGCCGCGCGCGCGGAACCCGCCGCCGGTGCCGCGCATCGGCGGCGCGTCACCTGTGCGTGGATGCGGTGGCCGGCTTCGGCAACCGCGTGCTGCACCGTCGATGCAGCCAGTCGCCAGGGATCGGAAACCCATACCGCCTGCGGGCGTGGCCGAAACTGCGCGACGCTGCCCGCGACGCTTCGCGTCACGTGGCGGTTGCGGCAGTGTCGTGCATCGCATGCCATGCAGGTCCCCGAACACGGTGCCTTCCAGGCCAGGCCCAGGTCTTGGGCCTGCGTGATTGCGCCACCGCAAGATATTGTGTGGCCAACAGCGGCAACGCTAGCGCCGCCGCGCCGCGCCTGTCAATGCGGCGCGGCTGCCCGGAACGGCCAACGCAGACGCCGCCTTTCACCGCGGGTTAAATGA	MLYRCNHAWNGMARRWCATVVRCRRRVHADGTVVRATCCGGTAGERMRRSVGAAAAGQRTRTGSVVGTPAHAARAEPAAGAAHRRRVTCAWMRWPASATACCTVDAASRQGSETHTACGRGRNCATLPATLRVTWRLRQCRASHAMQVPEHGAFQARPRSWACVIAPPQDIVWPTAATLAPPRRACQCGAAARNGQRRRRLSPRVK				NA	NA	NA	NA	NA
BMS020_06725	1437	degQ_2	COG0265	Periplasmic pH-dependent serine endoprotease DegQ	ATGCGACCGCTTCCGACCCTGCTCACGCTGTCCCTCGCCGCCGCGTTCGGCGGCTTCGCCGCCACCGGCCTCCACGACTGGCTGGTCGACAACCGCGCCGAGGCGACGCCGGCTTCGCCGGCGCTGGCGGTGCCGGCCGCGGCCGCGCTGCCGGCCAGCGTCGCCGGGCAACCGCTGCCGTCGCTGGCGCCGATGCTGCAGCAGGTGATGCCGGCGGTGGTCAGCGTCAACACCAAGCAGGTGGTGCGCGTGCGCAACCCCTACTTCAACGATCCGTTCTTCCGCCGGCTGTTCCCGGACATCCCGCAGGAACGCATCAACGAATCGCTGGGCTCGGGCGTGATCATCGACGCCAAGCAGGGCCTGGTGCTGACCAACCACCACGTGATCGAGAACGCCGACGACGTGCAGGTCACGCTGTCGGACGGGCGCACGGTCAAGGCCGAGTTCCTCGGCTCCGATGCCGACACCGACATCGCGCTGATCCGCATCCCGGCCGACAAGCTCACCGAGATCAAGCTCGCCGACAGCGCGCAGCTGCGCGTGGGCGACTTCGTGGTGGCGATCGGCAATCCGTTCGGCTTCACCCAGACGGTGACCTCCGGCATCGTCTCCGCGGTCGGGCGCAGCGGCATCCGCGGGCTGGGCTACCAGAATTTCATCCAGACCGACGCCTCGATCAATCCGGGCAACTCTGGCGGCGCGCTGGTCGATCTGCAGGGCCGCCTGGTCGGCATCAATACCGCCAGCTACAACCCGCAGGGCAGTATGGCCGGCAACATCGGCCTGGGCCTGGCGATCCCGTCGGACCTGGCGCGCAACGTGGTGGACCAGCTGCTCAAGCATGGCGAGGTGATCCGCGGCACGCTCGGCCTGGAGGCGCAGAACATCAGCGCGCAGATGGCCGAGGGCCTGGGCCTGGACAGCAGCCGTGGCGCGCTGGTCAGTCGGGTGCTGCCGGGCTCGGCGGCGGCCGCGGCCGGGGTGCAACCGGGCGACGTGGTGGTCGCCGCCAACGGCCAGCGCGTGGACAGCGCCGAGGCGCTGCACAACTACGAGGGCCTGCAGGCGGTCGGCAGCACGGTGACGCTGGACGTGCGCCGCGACGGCAAGCCACTGAAGCTGGCGGCGACGTTGAAGGAGCAGGCACGCGCGGTGAGCGGCGACACGCTGGATCCGCGCCTGGCCGGCGCGACCTTCGCCGACCTGCCCGAATCGCTTCGGCAGTCGGGCCTGGACGGCGTGCTGGTCAGCGAGGTCAAGCGCGGCAGCCGCGCGGCGGCCAATGGCCTGGCCAGCGGCGACGTGATCGTGGCCGCCAGCGCCGGCGAGTTCGCCGACCTGGCCAGCTGGCGCGCCAACTTCCAGAAGCCACCTCAGCAGCTGGTGTTGCGCATCGTGCGCGGCAACGGCCAGTACCAGGTGCTGATGCGCTGA	MRPLPTLLTLSLAAAFGGFAATGLHDWLVDNRAEATPASPALAVPAAAALPASVAGQPLPSLAPMLQQVMPAVVSVNTKQVVRVRNPYFNDPFFRRLFPDIPQERINESLGSGVIIDAKQGLVLTNHHVIENADDVQVTLSDGRTVKAEFLGSDADTDIALIRIPADKLTEIKLADSAQLRVGDFVVAIGNPFGFTQTVTSGIVSAVGRSGIRGLGYQNFIQTDASINPGNSGGALVDLQGRLVGINTASYNPQGSMAGNIGLGLAIPSDLARNVVDQLLKHGEVIRGTLGLEAQNISAQMAEGLGLDSSRGALVSRVLPGSAAAAAGVQPGDVVVAANGQRVDSAEALHNYEGLQAVGSTVTLDVRRDGKPLKLAATLKEQARAVSGDTLDPRLAGATFADLPESLRQSGLDGVLVSEVKRGSRAAANGLASGDVIVAASAGEFADLASWRANFQKPPQQLVLRIVRGNGQYQVLMR	PGPT0014286_30	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS_SIGNALLING,PGPT0014286-degQ|hhoA-K04772	NA	NA
BMS020_06726	363			hypothetical protein	ATGACTGCACCGACCAACACCGAGCACCTGAAGGACAACCTGAGCGAAGCCGGCGCGCATCTGAAGTCGGCGGCCGGCTATGCCGGCGGCGCGGTCAAGGACGCCGCCTCCGCGGCCGGCGACGAGCTCAAGCTCGGCCGCGCCCAGGTCAAGTCCGAACTGTCCGACAGCGCGTTGGCCGGCCTGGCCGCCGCCGAGTTCGGTGGTGCCGCGGCCAAGGAGCAGATGGACGCGCTGATGGACAAGGGCAAGGACCTGATCGACAGCGCCGCCGAACTGATCCGCGAACGTCCGCTGGCCTCGTTCGGCGTCGCCTTCGCCGCCGGCTGGATCATCGCCAAGCTCGCGCGCAGCAACGACTAA	MTAPTNTEHLKDNLSEAGAHLKSAAGYAGGAVKDAASAAGDELKLGRAQVKSELSDSALAGLAAAEFGGAAAKEQMDALMDKGKDLIDSAAELIRERPLASFGVAFAAGWIIAKLARSND				NA	NA	NA	NA	NA
BMS020_06727	501			hypothetical protein	GTGACCGCTCAGATCCCTCCCGAGGGCAACGGCGCCACCGTGCCGGACGCTGACGGCGAGCGCGCTGCGCCATCGCTCGAGGACAGCGTCCGCCAGGTCGGCGAAGCCGGCCAGGCCACGCTGGCGTCCGCACGCGAGACCGGCCGCGCGTTGCGCCAGCTGGTCTCGGCCGACCTGGCACTGGCACGCAGTGCGTTCGGTCGCGGCCTGGCCTGGGCCGGCGTGGCGGTGGTGTTCGGCGCCTCGTCATGGCTGCTGCTCACCGGCGCGATCATCGCGCTGCTGCAGCGCGTCGGCCTGTCGTGGTTCCAGGCGCTGTTCTTCACCGCGGTGGTCAGCCTCGGCATGACCGCGCTGGCGGCCTGGCGCGTGGCGCACTTCTTCGACCACACCGGCCTGCATGCCACGCGTCGTCAGTTGAGCCGGCTCGGGCTGTTCGACGAGGACGGCGACGACACGCCGGACAACAGCGCTGCGCCCAGCCAGGAGCCGCCGCGATGA	MTAQIPPEGNGATVPDADGERAAPSLEDSVRQVGEAGQATLASARETGRALRQLVSADLALARSAFGRGLAWAGVAVVFGASSWLLLTGAIIALLQRVGLSWFQALFFTAVVSLGMTALAAWRVAHFFDHTGLHATRRQLSRLGLFDEDGDDTPDNSAAPSQEPPR				NA	NA	NA	NA	NA
BMS020_06728	495			hypothetical protein	ATGAACTTCGAACGCCTGCAACGGCGCGTGGCCCGGGTCGAGCGGCTGGTCGAAGGTCGCGCGCAGGACACCCAGGGACACTGGCAGCGCCTGCGCGGCGCCTGGCGCGATGCGTGGACGCCGGGCCGCATCGTGATCGTCGGGTTGGGACTGGGCTTCGTCACCGGGCGCAGCGAGCCGAAGGTCGCGCTGGCCGGGCTGGCCGGCAAGGTCGGCGCGCTGCCCAAGCTGCTGCAGCTGGCCAGCACGCTGTCGGCGCTGTTCACCGCCAGCCAGGCCCAGGACGCGTCCGAGCAGGCCGAGCGCGCCGCCGACAGCGCCGAGGACGCCGCCGCGGCGCAGCAGGCCGCGCGCCCGGCGCCCGCCGAATCGCCGCCCCCGACGGACGGACGCAGTGCCGCCGGCCCCCGCCCGCAACGCCCGACGCCGGCCCCGCCGCCACGCGACCAGGCACCGGCACCGGCCGAAGCGGCCACCGACGTATCCGAACCCTGA	MNFERLQRRVARVERLVEGRAQDTQGHWQRLRGAWRDAWTPGRIVIVGLGLGFVTGRSEPKVALAGLAGKVGALPKLLQLASTLSALFTASQAQDASEQAERAADSAEDAAAAQQAARPAPAESPPPTDGRSAAGPRPQRPTPAPPPRDQAPAPAEAATDVSEP				NA	NA	NA	NA	NA
BMS020_06729	1179	tqsA_2	COG0628	AI-2 transport protein TqsA	ATGGCATGCGCCAGCGTGCCGTCGCGCGCCGATAATGACGCTCCCGCCGACCTCCGCCGGCCGCCTCCCGCCCGCATGAACGCTCCCGCAGACGCCCAGACCCCGGACACCACGCCGTCTCCCGCGACCACACCGGTGCCCCGGCCCCGTGCCCCGGCCGCACTGGTGGTGCTGGCCACGCTGGCGGTGGGCTATACCCTGTGGGCCGCGCAGACGGTGATCCTGCCGGTGATGCTGGCCGCGTTCTTCGCCCTGGTCGGCAATCCGATCATGCGCCTGCTGCGGCGGCTGCACCTGCCGCGGTTCCTGGCCGCGCTGCTGGTGCTGTCGGTGGGGCTGTCGCTGGCGGTGGCGCTGACCATGCAACTGGTCGGCCCGGCCGCCGAATGGTTTCAGCAGGCCCCAGCGCAGATGCGGCAGATCTCGCGCGAGGTGCGCGATTTCACCAAACCGGTGCAGCAGGCCAACCAGGCCGCGGAGAACTTCGCCCGCGTCGCCGGCGGCGAAACCGACCGCCAGGTGCGGATCGTGCGCACCCAGCTGGACGATCCCTACAAGAGCCTGGTGCGCACGCCGAAGCTGGCCGCCTCGGCGCTGGCGGTGGTGCTGCTGACGTTCTTCTTCATGGTCTATGGCGAGAACCTGCAACGCCACGTGATCGCGCTGATGCCCAACCGCCAGCAGCAGCGCTTCACCACCGAGATCCTGCGCGGGATCGAGCGCGAGGTATCGCGCTACGTGCTGACCATCAGCCTGATCAACACCGCGGTCGGCCTGGTCTTCGGCGGCGTGCTGTACGCGCTGGGCATCGCGCTGCAGGAAGCGGTGCTGTGGGGCACGGTGGTGGCGCTGCTCAACTTCGCGCCCTACGTCGGCCCGCTGATCGGAGTGATGCTGATGCTGCTGATGGGCTTCGTCGAGTTCCGCACCCCGCTGCATTCGGTGCTGCCGGCGGCGACCTACCTGCTGCTGCATACCATCGAAGGCCAGGTGGTGACGCCGATCGTGCTGGGCCGGCGCATGGCGATCTCGCCGTTGATGCTGATCCTGGCGCTGATGCTGTTCGGCTGGCTGTGGGGCATGATCGGCCTGCTGCTGGCGGTGCCGCTGCTGGTCTGCATCAAGCTGGTGCTGACCCGGATCGAGGGCATGCAGCGCTGGGCGCGGTTGCTGGAATGA	MACASVPSRADNDAPADLRRPPPARMNAPADAQTPDTTPSPATTPVPRPRAPAALVVLATLAVGYTLWAAQTVILPVMLAAFFALVGNPIMRLLRRLHLPRFLAALLVLSVGLSLAVALTMQLVGPAAEWFQQAPAQMRQISREVRDFTKPVQQANQAAENFARVAGGETDRQVRIVRTQLDDPYKSLVRTPKLAASALAVVLLTFFFMVYGENLQRHVIALMPNRQQQRFTTEILRGIEREVSRYVLTISLINTAVGLVFGGVLYALGIALQEAVLWGTVVALLNFAPYVGPLIGVMLMLLMGFVEFRTPLHSVLPAATYLLLHTIEGQVVTPIVLGRRMAISPLMLILALMLFGWLWGMIGLLLAVPLLVCIKLVLTRIEGMQRWARLLE				NA	NA	NA	NA	NA
BMS020_06730	726	yigB_1	COG1011	5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YigB	ATGAGCTTCCCGATCCGCGCCATCACCCTCGATCTCGACGACACCCTCTGGCCGTTCGCGCCGATCGGCGCCCGCATCGACCAGGTCCTGCACGCCTGGCTGGCCGAGCACAGCCCGGTCACCGCCGCGCGCTTCGACGTGGCGGCGATGCGCGCGCTGCGCGAGCGCAGCTTCGTGGAGAACCCGCAGCTGCAGCACGACCTCAGCGCGCTGCGCCGGCTGACCATCCGCCAGGCGCTGGAGCAGAGCGGCGGCGACCCGGCGCTGGTGGAACCGGCGTTCGAGGTGTTCTACGCCGCGCGCAACCAGGTCGAGTTCTACCCGGACGCGCTGCAGGCACTGGCGCGCATCGCCGTGCACGTGCCGGTGGCGGCGCTGAGCAACGGCAACGCCGACCTGGGGCGGATCGGGGTGATGCAGCACTTCGCGTTCTCGCTGGGCTCGCGCGAGCATGGCGCGGCCAAGCCGCAGGCCAGCATCTTCCACGCCGCCTGCAGCCGGCTCGGGGTCGCGCCGGGCGAAGTGCTGCACGTCGGCGACCACGTCGAGATGGACGTGCTCGGCGCGCTCAACGCCGGCCTGCGGGCCTGCTGGATCAATCGCGAGGCGCAGGCCTGGGACCACCCGACGCTGGCGCCGGACCTGCATTTCGACACCCTCACCGGCCTGGCCGACTGGCTGGACGCGCACCCGACGCTGGCCGCCTCGGCGCGGCGCAGCGCGTGA	MSFPIRAITLDLDDTLWPFAPIGARIDQVLHAWLAEHSPVTAARFDVAAMRALRERSFVENPQLQHDLSALRRLTIRQALEQSGGDPALVEPAFEVFYAARNQVEFYPDALQALARIAVHVPVAALSNGNADLGRIGVMQHFAFSLGSREHGAAKPQASIFHAACSRLGVAPGEVLHVGDHVEMDVLGALNAGLRACWINREAQAWDHPTLAPDLHFDTLTGLADWLDAHPTLAASARRSA	PGPT0008585_125	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
BMS020_06731	1371	pepA_2		cytosol aminopeptidase	ATGTCGCAACTCCACGGTTTCACCTCCGATTCCAGCCAGGCGCTGCCGCTGTACCTGCTCGAACGCGAGCAGCTGGCGGGCTGGTGCGCCAGCCAGCCGCCGGCGGTCGCCGCCTGGGTTGCCGCGCAGCAGTTCCACGCCCAGCCGGGCACGGTGCTGACACTGCCGGGCGAAGACGGCCTGGCCGGCGCGATCCTCGGCGTCGGCGACCGCGCCGATGCGTACGCCTACGCGCACGCCCCGTTCGCGCTGCCGCCGGGCAGCCACTGGACGCCGGCCGAACCGCTGGACGCCGGCGCGCGCGCTGCGCTGGACCTGGGCTGGGCGCTGGGCAGCTATCGCTTCGCCCGCTACCGCAGGCCGGCCCGCACCCCGGCGCTGCTGGCGGGCACGCCCGACGCCGAGACGCTGGCGCTGATCGAGGCCTGCGTGCGCGTGCGCGACTGGGTCAATACGCCGACCGAGGACATGGGCCCGGAACAGCTGGAAGCGGCCGCGCGCGAGCTGGCGCAGGCCTATGGCGCGCAGATCGAGGCGATCACCGGCGACGCGCTGCTGCAACGTAATTTCCCCACCATCCACGCGGTCGGCCGCGCCTCGCACCGCGCGCCGCGGCTGATCGAGCTGCACTGGGGCAATCCGGCGCATCCGCAGCTGGCGCTGGTCGGCAAGGGCGTGTGCTTCGATACCGGCGGGCTGGACCTGAAGCCGGCCGACGGCATGCGCAACATGAAGAAGGACATGGGCGGCGCGGCGCATGCGCTGGCGCTGGCCGGGCTGATCATGGCGCGGCAGCTGCCGGTGCGGCTGACCCTGCTGATCCCGGCGGTGGAGAACGCGGTCGGCCCGGATGCGATGCGTCCCGGCGAGGTCATCACCACCCGCGCCGGCATCAGCGTGGAAGTGGACAACACCGACGCCGAAGGCCGCCTGGTGCTGTGCGATGCACTGGCCTACGCCGGCGAAGCCAGGCCCGACCTGATGCTGGATTTCGCCACCCTGACCGGCGCCGCGCGCATCGCGCTGGGCCCGGACGTGCCGGCGCTGTTCGCCAATGACGACGCGGTGGCGCAGGCCTGGATCGACGCCGGCGAGCGCAGCCGCGACCCGGTCTGGCGCATGCCGTTGTGGCGCCCGTACCTGCGCTACCTCAACAGCCACGTCGCCGACCTGGCCAATGCCGGCTCGCGCATGGCCGGCGCGGTCACCGCCGCGCTGTACCTGGAGCGTTTCGTCGCCCCCGGCCTGCGCTGGGCGCACCTGGACGTCTACGCCTGGAACGACAGCGACCGCCCCGGCCGCCCTGCCGGCGGCGAAGCACTGGCGCTGCGCTCGGCGTGGGAGATGCTGAAGGTCCGTTACGGCGGCTGA	MSQLHGFTSDSSQALPLYLLEREQLAGWCASQPPAVAAWVAAQQFHAQPGTVLTLPGEDGLAGAILGVGDRADAYAYAHAPFALPPGSHWTPAEPLDAGARAALDLGWALGSYRFARYRRPARTPALLAGTPDAETLALIEACVRVRDWVNTPTEDMGPEQLEAAARELAQAYGAQIEAITGDALLQRNFPTIHAVGRASHRAPRLIELHWGNPAHPQLALVGKGVCFDTGGLDLKPADGMRNMKKDMGGAAHALALAGLIMARQLPVRLTLLIPAVENAVGPDAMRPGEVITTRAGISVEVDNTDAEGRLVLCDALAYAGEARPDLMLDFATLTGAARIALGPDVPALFANDDAVAQAWIDAGERSRDPVWRMPLWRPYLRYLNSHVADLANAGSRMAGAVTAALYLERFVAPGLRWAHLDVYAWNDSDRPGRPAGGEALALRSAWEMLKVRYGG				NA	NA	NA	NA	NA
BMS020_06732	750			hypothetical protein	ATGAGCCTGTCCACGCCCACCGACGACGAACTGCACGCCTACATCGATGGCCGGCTGGCGCCGCCGCGTGCCGCCGAACTGGCGCAGTGGCTGCTTGCCCATCCGGAGGCCGCCGCGCGGGTCGCCGCGTTCAAGCACGATGCCGAAATGCTGCGCAGCGCGCTGGCCGGTGCCGCCGAGGCGCTGCCGGCCAATCCGCTGCTGGACCCGCGCGCGATCCGCACCGGGTTGCGCCGCCGCCGTCGCGCAATGCTGGGCATGGCCGCCAGCTGCGTGCTCGCGCTCGGCATCGGCGGGATCGGTGGCTGGCAGCTGCGCGAAGCACGGCTGCAGGCGCAGCACCTGCCGATGGCCGATGCGGTCGCCGCCTACCGGCTGTTCGCCGACGCAGCGGCGCCGGGCGCGCTCGACGGCGTGCGCAAGGTGGCGCTGCAGGACTGGCTGAAGCAGCACTTCGGCGCCGAGGGCGCGGTGCCCGACCTGCAGGCGCAGGGCTACCGGCTGCACGATGGCCGGCTGCTGTCCACGCCCGAGGGCGCGGCGGCGATGCTGGTCTACGAGGACGCCGCCGGTGGCCGGATCGGCCTGTACCTGCGGCCACGGCCGCAGGACTTCCCCACCGGCGAGCGCCGCGACGGGCGGCTGCTGGCGCAGTACTGGGGCGAGGGCACGACCGCGTTCGCGCTGGTCGGTCCGGCGACGCTGACCTCGATGCGCCAGATCGTGCCGCTGCTGCGCGCGCCGGGCTGA	MSLSTPTDDELHAYIDGRLAPPRAAELAQWLLAHPEAAARVAAFKHDAEMLRSALAGAAEALPANPLLDPRAIRTGLRRRRRAMLGMAASCVLALGIGGIGGWQLREARLQAQHLPMADAVAAYRLFADAAAPGALDGVRKVALQDWLKQHFGAEGAVPDLQAQGYRLHDGRLLSTPEGAAAMLVYEDAAGGRIGLYLRPRPQDFPTGERRDGRLLAQYWGEGTTAFALVGPATLTSMRQIVPLLRAPG				NA	NA	NA	NA	NA
BMS020_06733	282			hypothetical protein	GTGCTGGGCCTGTTCGGCCCGCAGCAGCCGCAGCAGGCGCCGTCGGCCGAGCGCGTGCATGGCGGGCGCGAGATGCTGGCCGCGTTCGCGCTGCTGCCCGAGGACCAGCGCGCGCTGCTGTTGCTGGTCAGCGTCGAGGGCTTCAGCTACCGCGAGGCCGCCGACACCCTGGGCGTGCCGATCGGCACGGTGATGTCGCGCCTGTCGCGGGCGCGCGAGAAACTACGGGCACTGGGCGAAGGCAGCATCGCCACCGCCCCGTCACTGCGAGTCCTGAAATGA	MLGLFGPQQPQQAPSAERVHGGREMLAAFALLPEDQRALLLLVSVEGFSYREAADTLGVPIGTVMSRLSRAREKLRALGEGSIATAPSLRVLK	PGPT0014960_11221	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS020_06734	1095	srpA	COG0753	Catalase-related peroxidase	ATGCACAGCCCGACACCCCCTCCACCCAAGCCGCCGCGCGTACCGTGGCCCGCGCTGGCCGGCATCGCCGCGATCGCTGCCGTCGCGGCCGGCGCCTTCGCCTGGACCGCCGGCTGGATCGGCGGCCAGCGCCTGACCGCGCCGCAGATCGCCGACAGCATCGAGGCCACCGGCCCGGCGCATCCGGGCTACCGCCGCGCGCATGCCAAGGGCGTGTGCTTCACCGGCGTGTTCCATGGCAACGGCCAGGCGGTGGCGCTGTCGTCGGCACGGGTGTTCGCCCAGGCCAACGTGCCGGTGCTCGGCCGGTTGTCGATCGGCGGTGGCGATCCGCGTGCCGATGATGGCAAGGCGCGCGTGCGCAGCATCGCGCTGCTGCTGCGCAGCGACGACGGCCAGCAGTGGCGTACCGCGATGGCCAGCTTCCCGTTCTTCGTCGTCGCCACGCCGGCCGGCTTCGAGGCCAATGCGCTGGCCTCGCGCCCCGACCCGGCCACCGGCAAGCCGGATCCGGCCAAACAGGCCGCGTTCCTGGCGCAGTATCCGGAGGCGAAGAAGTTCCTGCAGTGGGCCAAGGCCGCGCCGTGGTCGAACAGCTGGACCAATACGCCGTTCAACGGCATCAACGCGTTCCGCTTCACCGCTGCCGACGGCAGCAGCCGCTACGTGCGCTGGTCGCTGCGCCCGCAGGCGCCGTTCGAGGCCTTGAGCCCGGCGCAACGGGCACAGTCCGATGCCGACTTCCTCGCCGAGGACCTGGACCAGCGGCTGGCCCATGGCCCGGCGCGCTGGGACTTGGTGCTGACGATCGCCGCGCCCGGTGATCCGATCGACGATCCCTCGCAGCCGTGGCCGCAGGACCGCCGCCAGGTCGTCGCCGGCACGCTGGAGATCGACGCCGCACAACCTCAGGCCACCGGCCAGTGCAGCGACATCAATTACGACCCGCTGATCCTGCCGACCGGCATCGCCGGCTCAAACGATCCGGTGCTGGCCGCGCGCTCGGCGGTGTATGCGCAGTCGTTCAACCGCCGCGAGCGCGAGATCGCCAGCGGCCGCGCCGCCGCTGCCACCGGCAAGGCGGGTGCGCAATGA	MHSPTPPPPKPPRVPWPALAGIAAIAAVAAGAFAWTAGWIGGQRLTAPQIADSIEATGPAHPGYRRAHAKGVCFTGVFHGNGQAVALSSARVFAQANVPVLGRLSIGGGDPRADDGKARVRSIALLLRSDDGQQWRTAMASFPFFVVATPAGFEANALASRPDPATGKPDPAKQAAFLAQYPEAKKFLQWAKAAPWSNSWTNTPFNGINAFRFTAADGSSRYVRWSLRPQAPFEALSPAQRAQSDADFLAEDLDQRLAHGPARWDLVLTIAAPGDPIDDPSQPWPQDRRQVVAGTLEIDAAQPQATGQCSDINYDPLILPTGIAGSNDPVLAARSAVYAQSFNRREREIASGRAAAATGKAGAQ	PGPT0014380_5650	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
BMS020_06735	552			hypothetical protein	ATGAACACCAACACCCACTTCAACCTGGCGGCACGGATCCTGCACTGGGCGATGGCGGTGATGATCGTCGCGATGCTGTTCATCGGCGTCGGCATGGTCACCTCGGTGTCGCAGCGGCCGTGGCTGATCGACCTGCACCGCCCGCTCGGCATTGCGATCGGCCTGCTCGCGCTGCTGCGGCTGCTCAACCGGCTGCACCACCGGCCACCGGCACTGCCCGCCGACCTGCCGCGCTGGCAGGTGCTGGGCGCGCACGCCTCGCACTGGCTGCTGTATGCGTTGATGCTGGCGATGCCGCTGCTCGGCTGGGCGCTGCTGTCGGCCGGCGGCTATCCGATCGTGCTGTGGCCGGGCATGCAGCTGCCGCCGATCGTCGCCCACGGCGCCACCGCCTACGCGGTGTTGCGCACCGCCCATGGCCTGCTCGCCTACCTGCTGTTCGCGACCGTGCTCGGGCACCTGTGCGCGGCGCTGTTCCACGCCTGGGTACGTCGCGACGGCGTGTTCTCGAGCATGGCGCGCGGACCGCGGCGGTCGCCACCGCCGGCCTGA	MNTNTHFNLAARILHWAMAVMIVAMLFIGVGMVTSVSQRPWLIDLHRPLGIAIGLLALLRLLNRLHHRPPALPADLPRWQVLGAHASHWLLYALMLAMPLLGWALLSAGGYPIVLWPGMQLPPIVAHGATAYAVLRTAHGLLAYLLFATVLGHLCAALFHAWVRRDGVFSSMARGPRRSPPPA				NA	NA	NA	NA	NA
BMS020_06736	819	cah	COG3338	Carbonic anhydrase	ATGCACGACATCACCGTTGCCGGCCTGGTTGCGGCCCTGTCACTGGCCAGCCTGGGCGCACGCGCGGGCGAAGCGCAGCACGGCCACGCCAGCCCACCGCCCGCCGCGGCCGCCACGCCGGTCGGGCAGCCGGTGGCCGCACACGCCAGTCATTGGGACTACGAGGGGCCGGGCGGCCCCACCCACTGGGGGGATCTCGACGAGGATTACGCCACCTGCGCGCTCGGCCACGCGCAGAGCCCGGTCGATATCCAGGGCACGGTCAGGAAGGCGCTGCCACCGCTGATGTTCGAATACACGATGGTCGCGCCGAGCATCCTCAACAACGGCCACACGATCCAGCTCAACGTGCCGCCGGGCAACAGCGTCACCGTCGGCGAACGCAAATGGCAGCTGGTGCAGTTCCACTTCCACACGCCCAGCGAGGAATCGATCGGCGACCAGCGCCACGCGATGGTCGCGCACTTCGTGCACAAGGATGCCGACGGCAAGCTTGGCGTGGTCGCGGTACTGATCGACGCCGGCAAGAGCGACAACGGCGCCTGGGACACGATCTTCGCGCAGGTGGCCAAGGCCGGGCCCACGCCACAACCGGCCGGCCACTTCTTCCTGCCGGCGCTGCTGCCGCAGGATCACGGCTATTACGCGCTGAAGGGCTCGCTGACCACGCCGCCATGCTCGGAAGGCGTGAGCTGGATGATCCTCAAGCAGCCGGTGGCGCTGAAGGAACGCGACATCGCCGCGTTCCGCCGGCTGTTCCCGGCCAATGCCCGGCCGCTGCAGCCGCTGGCCGGACGCAGCGTGCTCGAGAGCCTGTGA	MHDITVAGLVAALSLASLGARAGEAQHGHASPPPAAAATPVGQPVAAHASHWDYEGPGGPTHWGDLDEDYATCALGHAQSPVDIQGTVRKALPPLMFEYTMVAPSILNNGHTIQLNVPPGNSVTVGERKWQLVQFHFHTPSEESIGDQRHAMVAHFVHKDADGKLGVVAVLIDAGKSDNGAWDTIFAQVAKAGPTPQPAGHFFLPALLPQDHGYYALKGSLTTPPCSEGVSWMILKQPVALKERDIAAFRRLFPANARPLQPLAGRSVLESL	PGPT0002420_1213	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002420-cah-K01674	NA	NA
BMS020_06737	438			hypothetical protein	ATGACCGGCTTGCCTGCGCCCGCGTCCGGGCGCGTGTATTGGATCGTCGCGGTACTGGCGCTGGCCTGGAACATGGCCGGGGTAGTGATGTTCTATCTGCAGGTCAGCATCAGCGACGAGGCGCTGGCGGCCTTGCCCGTGGCGCAGCAACGCGTCTACGAGGCGACCCCCGGCGTCCTGAATGCCGCATTCGGGCTGGCGGTGTTCGGCGGCGTCGCCGGGGCACTGGCGCTGCTGCTGCGGCGCCGGCTCGCGGTGCTGATGTTCGCGCTGTCGCTGGGCGGCCTGCTGGTGCAGGTGCTGCTGGCCTACGTGGCCACGCCCGCCTGGGAGGCATATGGGCCGGCCGGACTGCTGCTGCCAGGGGTGCTGGTGGTGGTGGCGATCGCGTTGCTGCGCTACGCCATGCAGTGCGCGCGCACCGGCCTGCTGGGCTGA	MTGLPAPASGRVYWIVAVLALAWNMAGVVMFYLQVSISDEALAALPVAQQRVYEATPGVLNAAFGLAVFGGVAGALALLLRRRLAVLMFALSLGGLLVQVLLAYVATPAWEAYGPAGLLLPGVLVVVAIALLRYAMQCARTGLLG				NA	NA	NA	NA	NA
BMS020_06738	792			hypothetical protein	ATGACATGGATGCGCACCTGCCTGCTGGCCTGGCTGCTGCTGGCCTGCGGCAGTGCCGCGGCCCAGCAGTTCAAGGTGCTGGTGGCGGCGATCCCGAACAAGTACCACCACGACTACATCCCGGTCGCCAAACCGCAATTCGAGGCGATGGCGCGCCAGCACTATTTCGAACTGGTCTGGGCCTGGAACACCGAGCCGTTCGATGGCGACCTGTCGCAGTACGCGGCGATCGTGCTGCTCAATACCCCCGCCACCGAGCTCAATCCGGCGCAGCGGGCGAAGTTCCAGCAGTACCTGCGCCAAGGCGGCGGCGTGGTCGCGGTGCACAAGGCGTTCGCGATCAAGCGCGGCGACTGGGACTGGTACGACCGCATGATCGGCCGTTCGTTCCGCACCCATCCGTACATGCAGACCGCGATGGTGGACGTGGTGGACCACGACTTCCCGGCCACCGCGCAGCTGCCTGCGCGCTGGGTCTGGACCGACGAGTGGTACGAATACGATCCGCCCTACAGCGACGACCTGGTCACGCTGATGACCGTCGACGAAGCCAGTTACGACCCGACCCTGATCTGGCCGGGCCAGGTCGCCAAGGGCATGGGCAAGGAGCATCCGGTCGCCTGGTACCACCACTTCGAAGGTGGCCGGGTGTTCGCCACCGCGCTTGGCCACCTGGCCGAGGCCTACAACGATCCTGCCTACCTGCAGCACCTGTACGGCGGCATCTACTGGGCGGCGACCGGACATGGCATCGCCGCCGATGATCACGCGGCGGCACGCGGCGGACGCTAG	MTWMRTCLLAWLLLACGSAAAQQFKVLVAAIPNKYHHDYIPVAKPQFEAMARQHYFELVWAWNTEPFDGDLSQYAAIVLLNTPATELNPAQRAKFQQYLRQGGGVVAVHKAFAIKRGDWDWYDRMIGRSFRTHPYMQTAMVDVVDHDFPATAQLPARWVWTDEWYEYDPPYSDDLVTLMTVDEASYDPTLIWPGQVAKGMGKEHPVAWYHHFEGGRVFATALGHLAEAYNDPAYLQHLYGGIYWAATGHGIAADDHAAARGGR	PGPT0004005_155	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-OTHER_CYTOCHROME-RELATED_PROTEINS,PGPT0004005-cycA|cycM-K08738	NA	NA
BMS020_06739	2133	fhuE_1	COG4773	FhuE receptor	ATGATCCGTCCGTCCCTCCCCCGCCGTTTCCCGCGCCGCTCGGTCCTCGCCGCGGCCTGCCTGATCGCCACCCTGCCCGCGTTCGCCGCCGACGCGGCGGCCGAGTCGGGCGACAGCGACGTCACCACGCTCAACCGCCTCACCGTGCAGGGCGAGCGCGTCGATGGCTACGCGGTCAAGAAGACCACCGCCGGCACCCGCTTCGCGCTGGAGCCGCGCGAGATCCCGCAGTCGGTCAGCGTGATCACCCAGCAGCGCATCCAGGACCAGAACCTGCAGGACATCGGCCAGGTGCTGGCCGCGACCACCGGCGTCACCAGCATCAAGGTCGACAGCGAGCGCACCTCGTTCTACGCGCGCGGCTTCTACATCGACAACTACCAGTACGACGGCATCCCGGTGACGATGAACGGCGCCTGGAACTTCCTCGACCAGACCCTGGACATGGCGCTGTACGACCACGTCGAAGTGGTGCGTGGCGCGACCGGCCTGCTGACCGGCGCCGGCAATCCGTCCGCGTCGGTGAACCTGGTGCGCAAGCACGCCGACAGCAAGACCCTGACCGGCAGCGTGTCGCTGTCCGGCGGCGACTACAACAGCGTCCGCACCACGGTGGACGTGACCACGCCGTTGAACAGCAGCGGCAGCGTGCGCGGCCGGGTGATCGGCAGCTACAACAGCGCCGATGCGCAGATGGACCGCTACAGCACGCGCAAGGACCTGGGCTACGCGATCATCGACGCCGACCTGGGTGACAAGACCCGCCTGAGCGTCGGCTACGCGTTCCAGGACCGCAAGGCCGACGACGTGGCCTGGAGCGGCTTCCCGACCTGGGATTACGCTACCGGCGAGCGCACCCACTATTCGCCGTCGTTCAACCCGTCGACCGACTGGACCTACTGGAACACCATCAGCCGCACCGCGTTCGCCACGCTCGACATGGGCTTCGACAACGGCTGGAGCCTCAAGCTCAACGCCTCGCACGAGAACACCGACAACGACGACGTGCTGGAATACCCGTACGGCTCGGCCGGCACCACGATCGCCTCGTACAGCCACTACACCGGCGAGCGCAAGACCGATGCGCTGGACGGCTTCGCCGAAGGTCCGTTCCAGCTGTTCGGCCGCGAGCACCACCTGATGGCCGGCTTCAGCTACAACCGCCAGAACCGCAACAACGATGGCGGCTGGGGCTCGGGCGTGATCGACGACTACAGCAGCTGGACCGGTGCCTACCCGGTCGACCTGAGCAACATGACGCCGTACGGCAACCACTCCAAGACCACCCAGGAAGCGGTGTACGTGGCGGCGCGCTTCTCGCTGGCCGATCCGCTAAGCCTGATCCTCGGCGTGCGCGACACCCGCTACAAGAACGACCAGCTCACCTATTCGGGCACCGCCCGCACCACCACCTACATCCACTACAAGAACTCCGGCGAGATCACCCCGTACGCCGGCCTGGTCTACGACATCAACGATGTCTGGTCGACCTATGCCAGCTACACCAGCATCTTCCAGCCGCAGACCGGCTATTACGACGCCAACGACCAGCCGCTGGATCCGCGCACCGGCAACAACTACGAAGTGGGCGTCAAGGCGGCGTGGTTCGACAACCGCCTCAACGCCTCGCTGGCGGTGTTCCGCATCGAGCAGGACAACCTGGCGTTCAGCACCGGCCTGCTCAGCCCGGTCACCGGCAACACGATCTACACCTCGGCCGACGACACCGTCAGCCGCGGCTTCGATTTCGAAGTGACCGGCCAGCTCAGCGAAGGCTGGAACGCCACCTTCGGCGTGTCGCGCTACATCAACCCGGCGGCCTCGACCTTCATGCCGCGCACCACCGCCAAGCTGTTCACCAGCTACACCCCGCAGCGCCTGCCGCAGCTGAGCGTCGGCGGCGGCATCAACTGGCAGAACCGCACCTACTACACCGCCGCGGCCTACGGCACCGTCGAGCAGTCCAGCTATCCGCTGGCCAGCCTGTTCGCGCGCTACCGCATCGCGCCCAACATCACCGCGCAGGTCAACATCGACAACCTGTTCGACAAGGACTACATCACCCTCTACAACGCCTACAGCACCTGGGGCAATGGCCGCACCGGCACGCTGAGCTTCACCTGGTCGTTCTGA	MIRPSLPRRFPRRSVLAAACLIATLPAFAADAAAESGDSDVTTLNRLTVQGERVDGYAVKKTTAGTRFALEPREIPQSVSVITQQRIQDQNLQDIGQVLAATTGVTSIKVDSERTSFYARGFYIDNYQYDGIPVTMNGAWNFLDQTLDMALYDHVEVVRGATGLLTGAGNPSASVNLVRKHADSKTLTGSVSLSGGDYNSVRTTVDVTTPLNSSGSVRGRVIGSYNSADAQMDRYSTRKDLGYAIIDADLGDKTRLSVGYAFQDRKADDVAWSGFPTWDYATGERTHYSPSFNPSTDWTYWNTISRTAFATLDMGFDNGWSLKLNASHENTDNDDVLEYPYGSAGTTIASYSHYTGERKTDALDGFAEGPFQLFGREHHLMAGFSYNRQNRNNDGGWGSGVIDDYSSWTGAYPVDLSNMTPYGNHSKTTQEAVYVAARFSLADPLSLILGVRDTRYKNDQLTYSGTARTTTYIHYKNSGEITPYAGLVYDINDVWSTYASYTSIFQPQTGYYDANDQPLDPRTGNNYEVGVKAAWFDNRLNASLAVFRIEQDNLAFSTGLLSPVTGNTIYTSADDTVSRGFDFEVTGQLSEGWNATFGVSRYINPAASTFMPRTTAKLFTSYTPQRLPQLSVGGGINWQNRTYYTAAAYGTVEQSSYPLASLFARYRIAPNITAQVNIDNLFDKDYITLYNAYSTWGNGRTGTLSFTWSF	PGPT0003775_1513	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_COMPLEX_RECEPTOR,PGPT0003775-fptA|fhuE|fpvA|C_FEV_OM1|fauA-K16088	NA	NA
BMS020_06740	603	desR	COG2197	Transcriptional regulatory protein DesR	ATGATGCGGGTGCTGCTGGCGGAAGACCAGGCGCTGTTGCGCGGCGCATTGGCCGCGTTGCTGGGCATGGAAGCGGACATCGAGGTGGTGGACAGCGTCGGCGATGGTGAGAGCGCCTGGCGCGCGCTGCAGCGGCTCGGTCCGGACCTGCTGCTGACCGACATCGAGATGCCCGGGGTGAGCGGACTGGAACTGGCGCAGCGGGTGCAGCGGCATGGCCTGGCGGTGCGGGTGGTGATCGTCACCACGTTCGCGCGGCCGGGCTTCCTGCGTCGCGCGCTGGATGCGGGGGTGATGGGCTACCTGCTCAAGGATGCGCCGGCCGAGCAGCTCGCCGACGCGCTGCGCCAGGTGCATCGCGGCGGCCGCGCGATCGATCCGCAGCTGGCGGTGGAGGCCTGGGCCGAGGTCGATCCACTCAGCGAACGCGAGCGCAGCGTGCTGCGGCTGGCCGGCGAAGGCCGCGCCGCCAGCGAGATCGCCGAGCAGCTCGGCCTGTCGCATGGCACCGTGCGCAACTACCTGTCCGAGTGCATCGGCAAGCTCGGGGTCGGCAACCGCATCGAGGCGTACCGGCTGGCGCGGCAGAAGGGATGGTTGTAG	MMRVLLAEDQALLRGALAALLGMEADIEVVDSVGDGESAWRALQRLGPDLLLTDIEMPGVSGLELAQRVQRHGLAVRVVIVTTFARPGFLRRALDAGVMGYLLKDAPAEQLADALRQVHRGGRAIDPQLAVEAWAEVDPLSERERSVLRLAGEGRAASEIAEQLGLSHGTVRNYLSECIGKLGVGNRIEAYRLARQKGWL				NA	NA	NA	NA	NA
BMS020_06741	1167			hypothetical protein	ATGTTGCTGTTCGATCCCAGTCCTGATTCGATCATCGGCACGCGCGATGGCCTGGATGCGGCCAGGCGTTCGCGCTGGTTCCCGCTGCTGATGTTGGGCTGGTCGGTGTGGATCTTCGTCACGCCGCTGTACGAGGCGCAGTATTTCCCCCACTGGTTGTGGCCGACGGTGGCCAGCTACGCGGTGTTCCTGTGCCTGTACTGGCATGCGTATTACCGCGGACGGCGCCATCTGCTGGCCTGCGCGCTGGGCATCGCCGGGCTTGGTTTCGTGGTCACGCCGTTCAACCCGGGCGCGCAGGGCTACCTGATCTACGCCTGCGCGTTCCTGGCGTTCTGCGGCAGCAGCCGCGTGGCGCTGGCATGGATGGTCGGGGTGCTGGCCGCGTATGTGGTGGTCTGGCTGCTGGTGGGCTGGCCTTACATCTTCCTGTTGAGCACGGTGATGGTCGGCCTGATGATCGGCCTGCTGAACCTTCTGATGCTGCAGAAGGCGCGCGCCGACAGCGCGCTGCGGCTGTCGCACGAGGAGGTGCGGCGCCTGGCCGCGACCGCTGAGCGCGAGCGGATCGGCCGCGACCTGCACGACCTGCTCGGCCATACCTTGTCGCTGGTGGCATTGAAGGCCGATCTGGCCGGTCGGCTGCTCGAGCGCGATGGCGCGGCGGCCCGGCGCGAGATCGACGAGGTCGCCCGCATCTCGCGCGAGGCGTTGGCGCAGGTGCGCCGCGCGGTCACCGGCATCCGCAGCGCCGAGCTGGCCGCGGAGCTGGCCTCGGCGCACCTGCTGCTGGAAACCGAGGGCATCGTGATGACCTACACGCTGGCCGACACACCGCTGCCGCCGGAGCTGGAGACGGTGCTGGCGCTGACCGTGCGCGAAGCGGTGACCAACGTGCAGCGCCATGCGCAGGCACGGCGGGTGACGGTGGCGCTGACCTGCGAACGCGGCCAGGTGCAGCTGCTGGTCAGCGACGACGGCCGCGGCGGCGACATCCTGCCCGGCAACGGCCTGCGCGGCATGCGCGAACGGCTGCAGGCGTTGGGCGGCGACCTGCGCATCGACGTGCAGCGCGGGCAGGGCACGCAGCTGCGGGCATGGCTGCCGCTGCCGCAGGGCGAACGCCGCTTGGGCCTGCTGGCCGCGGTCGCCGGCGTGCGCCAGTGA	MLLFDPSPDSIIGTRDGLDAARRSRWFPLLMLGWSVWIFVTPLYEAQYFPHWLWPTVASYAVFLCLYWHAYYRGRRHLLACALGIAGLGFVVTPFNPGAQGYLIYACAFLAFCGSSRVALAWMVGVLAAYVVVWLLVGWPYIFLLSTVMVGLMIGLLNLLMLQKARADSALRLSHEEVRRLAATAERERIGRDLHDLLGHTLSLVALKADLAGRLLERDGAAARREIDEVARISREALAQVRRAVTGIRSAELAAELASAHLLLETEGIVMTYTLADTPLPPELETVLALTVREAVTNVQRHAQARRVTVALTCERGQVQLLVSDDGRGGDILPGNGLRGMRERLQALGGDLRIDVQRGQGTQLRAWLPLPQGERRLGLLAAVAGVRQ				NA	NA	NA	NA	NA
BMS020_06742	759			hypothetical protein	ATGAACGCGGTCGACGCGGGCGCGCCGCGCGCGTGGCCGATCTATCTGGGCGAGGCGCGTTACGAGCTACTGCGGGTACTGCGCACGCCGGCGTTCGTGCTGCCGGCGTTGCTGTTTCCGGTGCTGTTCTACGGCTTGTTCGGCGTGCTGCTGAACCGGCATGGGGCGCCGGCGGCCGGCTATCTGCTGGCCGGCTATGGCGTCTTCGGCGCGATGGGGCCCGGCCTGTTCGGCTTCGGCGTCAGTCTGGCGATCGATCGCGAGCGTGGCCTGTTCACCCTGCGCCGCGCGCTGCCGGTGCCGGCCGCGGCATGGCTGGTCGCACGGCTGCTGATGGCGATGGGCTTCGCGCTGGTGATCGCCTTGCTGCTGCTTGCGGTCGGCACGTTGTTGGGCGGCGTCGTGCTGTCGCTGCAGCAGGCGCTGGCACTGCTGGCCGTGGACGTGTTCGCGGCGCTGCCGTTCTGCGCGCTCGGGTTGTACATCGGCAGCCTCGCGCCGGCCGCGGCGGCGCCGGCCATCGTCAACCTGGTGTATCTGCCGCTGGCGCTGCTGTCGGGCCTGTGGCTGCCGCTGTCGCAGCTGCCGGCGGTGTTCAGCACGATCGCGCCGCTGTGGCCGTCCTGGCATCTGGGTCTGTTGGCGCAGCAGGCCCTGGGGTTGCCGGTGCCGGGCAGCACCTGGCTGCACCTGGCGGCGCCACTCGCCGTGGCGGCGCTATGCTTCGGCGGTGCGCTGCACCGGCTGCGGCGCCACTGA	MNAVDAGAPRAWPIYLGEARYELLRVLRTPAFVLPALLFPVLFYGLFGVLLNRHGAPAAGYLLAGYGVFGAMGPGLFGFGVSLAIDRERGLFTLRRALPVPAAAWLVARLLMAMGFALVIALLLLAVGTLLGGVVLSLQQALALLAVDVFAALPFCALGLYIGSLAPAAAAPAIVNLVYLPLALLSGLWLPLSQLPAVFSTIAPLWPSWHLGLLAQQALGLPVPGSTWLHLAAPLAVAALCFGGALHRLRRH	PGPT0006730_19042	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS020_06743	900	btuD_14		Vitamin B12 import ATP-binding protein BtuD	ATGACCGACCATCCTTCCGCGCCGCTCGCCGAGTTGCGCGGCGCGCACAAGCACCATGGCCGCGTGCACGCGCTGCGCGGCGTCGACCTGCAGGTGCATCCAGGCGAACTGGTCGCGCTGCTCGGCGGCAACGGCGCCGGCAAGAGCACCAGCATCGGCCTGCTGCTCGGCCTGCACCGACCGGAGGCCGGCCTGGCATTGCTCGACGGACGCGCCCCGCAGGCGCTGGCATCGCGGCGCGGCATCGGCGTGATGCTGCAGGCGGCCGGGCTGCCGGACACGCTGCGGGTGGACGAGCTGCTCGATCAAGTGCGGCGGTACTACCCGGCGCCCCGCAGCATGGCCGACTGCGCCGCGCTGGCCGGCATCGGCGCGGTGCTGCGGCAGCGCTACGGCAGGCTGTCCGGCGGCCAGCAGCGCGCGGTGCAGTTCGCGCTGGCGATCTGCGGCCGGCCGCGGCTGCTGTTCCTGGACGAGCCGACCACCGGCCTCGATGTGGGCGCGCGCCAGCAGGTGTGGGCGGCGGTGCGCGAAATGGTCGCCGACGGCTGCGGCGTGTTGCTGACCACGCACTACCTGGAGGAGGCCGAGGCGCTGGCCGATCGGGTGGTGGTGCTGCATCGCGGGGCGGTGCTCAGCGCCGGCGGCATCGACGAGGTGCGGGCCCGCGTGGCGCGTGCGCAGATCCGTTGCCGCACCCGGCTGGCCGCGACCGAGGTCGCCGCCTGGGACGGCGTGGAGCACGCCGTCGAGGGCCGCCACGGCCTGGAGATCACCGCCGCGCATGCCGAACCGGTGGTGGCGCGGCTGCTGCAGCACGATCCGGCGCTGCAGGCGTTGGAGGTGCGTCGCGCGGCACTGGCCGATGCGCTGGCCGCGTTGACCGCGGAGGCGGCATGA	MTDHPSAPLAELRGAHKHHGRVHALRGVDLQVHPGELVALLGGNGAGKSTSIGLLLGLHRPEAGLALLDGRAPQALASRRGIGVMLQAAGLPDTLRVDELLDQVRRYYPAPRSMADCAALAGIGAVLRQRYGRLSGGQQRAVQFALAICGRPRLLFLDEPTTGLDVGARQQVWAAVREMVADGCGVLLTTHYLEEAEALADRVVVLHRGAVLSAGGIDEVRARVARAQIRCRTRLAATEVAAWDGVEHAVEGRHGLEITAAHAEPVVARLLQHDPALQALEVRRAALADALAALTAEAA	PGPT0006725_15141	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS020_06744	1242	mdtA_8		Multidrug resistance protein MdtA	ATGAGCACATCCGCCGAACTGCTGAAGGAACTCCGCATCGATCGCCGGGCCAGCGCGGGTGAACCGCCGCCGCCGCGGCGCTGGCGTTGGATCGTCGTCGCGGTCGCCGTGGTGATCGTGCTGGGCGGCGCCGGTGCCTGGCTGGCCGGGCGCGCGCAGCCGGTGGAGGTGCACACCGCACCGGTGGTGGCGATCGGCACGGGTGGCAGCGCCTCCTCCTCGGTGCTCGATGCCAGCGGCTACGTCGTCGCCCGGCGCATGGCCACGGTCTCGGCCAAGATCACCGGCAAGGTGCGCGAGGTGATGATCGAAGAAGGCATGCGCGTGGAGGAAGGCCAGGTGATGGCCACGCTCGATCCGATCGACGCCGATGCGCAGCGGGCGCTGTCGGTGGCCCAGGTCGAATCGGCGCGCACCCAGGTCGCCAACATGCAGGCGCAGCTGACCCAGGCCGAGGCCGACACCACCCGCCTGCAGCGGCTGGTCGGCGACCAGCTGGTGTCGCGCTCGCAGTACGACCAGTCGGTGGCCAGCCGCGACGCGCTGCGCGCGCAGCTGCTGGCGGCGCAGCGCAACGTCGCGGTGGCCACCCGCCAGCTGACGATTTCCGACAACGGCGTGGACAACACCATCGTGCGCGCGCCGTTCTCCGGCGTGGTCACCGCCAAGGCGGCGCAGCCGGGCGAGATCGTCTCGCCGCTGGCCACCGGCGGCTTCACCCGCACCGGCATCGGCACCATCGTCGACATGGATTCGCTGGAGGTCGAGGTGGAGGTCGGCGAGGCCTACATCGGCCGGGTGCAGCCGAAGATGCCGGTGGAGGTGGTACTCAATGCCTACCCTGACTGGCGCATCCCCGGCGAGGTGATCGCGATCATCCCGACCGCCGACCGCGGCAAGGCCACGGTGAAGGTGCGGGTGTCGTTGAAGGTGAAGGATCCGCGGATCGTGCCGGAGATGGGGGTCAAGGTCAGCTTCCTGGAGAAGCCGCAGGCGCAGCAGGCCGCACAGCCGCAGGGCGTGCGCGTGCCAAGCGCGGCGCTGGTGCAGCGCGATGGCGGCAGCGCGGTGTTCGCGCTCGGCGAGGACGATCACGTGGCGTTGCGCACGGTGAAGACCGGCATCGACATGGGCCAGGACAAGCAGGTGCTGTCCGGCCTGGCGGCGGGCGACACGGTGGTGCTGTCGCCGCCAGAAGGCTTGAAGGACGGTGACAAGGTGAAGCTGGCGGGTGCCGAATAG	MSTSAELLKELRIDRRASAGEPPPPRRWRWIVVAVAVVIVLGGAGAWLAGRAQPVEVHTAPVVAIGTGGSASSSVLDASGYVVARRMATVSAKITGKVREVMIEEGMRVEEGQVMATLDPIDADAQRALSVAQVESARTQVANMQAQLTQAEADTTRLQRLVGDQLVSRSQYDQSVASRDALRAQLLAAQRNVAVATRQLTISDNGVDNTIVRAPFSGVVTAKAAQPGEIVSPLATGGFTRTGIGTIVDMDSLEVEVEVGEAYIGRVQPKMPVEVVLNAYPDWRIPGEVIAIIPTADRGKATVKVRVSLKVKDPRIVPEMGVKVSFLEKPQAQQAAQPQGVRVPSAALVQRDGGSAVFALGEDDHVALRTVKTGIDMGQDKQVLSGLAAGDTVVLSPPEGLKDGDKVKLAGAE				NA	NA	NA	NA	NA
BMS020_06745	690	yknY_1	COG1136	putative ABC transporter ATP-binding protein YknY	ATGAGTGCCCTCGTCACCCTCCGCAACGTCACCAAGACCTACCAGCGCGGCCCCGAGAAGGTGCAGGTGCTGCATGGCATCGACCTGCAGATCGCACGCGGCGACTTCGTCGCCCTGATGGGCCCGTCCGGATCCGGCAAGACCACCCTGCTGAACCTGATCGGCGGCCTGGACACGCCCTCTGGCGGCGAGATCGAGATCGAGGACCAGCGCATCGACCGCATGAGCGGCGGGCAGCTCGCGACCTGGCGCAGCCACCACGTCGGCTTCGTGTTCCAGTTCTACAACCTGATGCCGATGCTCAGTGCGCAGAAGAACGTCGAGCTCCCGTTGCTGCTGACCAACCTCGGCGCCGCGCAGCGCAAGCGCAACGCCGAGATCGCGCTGACCCTGGTCGGCCTGGCCGACCGCCGCAACCACAAACCCAACGAACTGTCCGGCGGCCAGCAGCAGCGCGTGGCGATCGCGCGCGCGATCGTCTCCGACCCGACCTTCCTGATCTGCGACGAACCCACCGGCGACCTCGACCGGCGCTCGGCCGAGGAAGTCCTCGGCCTGCTGCAGGAACTCAACCGCACCCACGGCAAGACCATCATCATGGTCACCCACGACCCGAAGGCGGCCGAGTACGCCACCCATACCGTGCACCTGGACAAGGGCGAGCTGGCCGACGCGCCGCTCGTCGACTGA	MSALVTLRNVTKTYQRGPEKVQVLHGIDLQIARGDFVALMGPSGSGKTTLLNLIGGLDTPSGGEIEIEDQRIDRMSGGQLATWRSHHVGFVFQFYNLMPMLSAQKNVELPLLLTNLGAAQRKRNAEIALTLVGLADRRNHKPNELSGGQQQRVAIARAIVSDPTFLICDEPTGDLDRRSAEEVLGLLQELNRTHGKTIIMVTHDPKAAEYATHTVHLDKGELADAPLVD	PGPT0013345_11823	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
BMS020_06746	1158			hypothetical protein	ATGAAATACCTCTCGCTGGTCTGGGCGCAGCTGTTCCGCAGCAAGACGCGGACCCTGCTGACCCTGTTGTCGGTGGTGGCCGCGTTCCTGCTGTTCGGCATGCTCGACTCGGTGCGCGTGGCGTTCAACTCCGGCGGCAACGTCGAGGGCGTCAACCGCCTGGTGGTGGCCTCGCGGCTGTCGATCACCCAATCGCTGCCAATCCGCCTGGAAGCGCAGATCCGCCAGGTCGCCGGCGTGCGCGACGTCACCTACGGCATGTGGTTCGGCGGCATCTACCAGGACCCGAAGAACTTCTTCCCCAACTTCTCGGTGGCACCGAACTACTTCGACGTCTACCGCGAACTGGAGATCCCGCCAGAGCAGCTGCGCGCGTGGCAGACCACCCGCACCGGCGCGATCGTCGGCGAATCGCTGGCCAAGCAGTTCGGCTGGAAGCTCGGCGACACCATCCCGCTGCAGGCGACGATCTTCCCGCGCAGCGGCAGCAACGACTGGCCGCTGGAGCTGGTCGGCATCTTCCGCTCCAAGGACCGCACCCAGGCGGCCAACGAGGAGCGCCAGCTGATGATGAACTGGAAGTACTTCGACGAGTCCAACGACTACATCAAGAACCAGGTCAGCTGGTACACGGTGACGCTGGACAATCCCGACCACGCCTCGCGCGTGGCGCAGGCGATCGATGCGATCTCGGCCAACTCCGACCACGAGACCAAGAGCCAGACCGAATCGGCGTTCCAGCAGGCCTTCGTCAAGCAGTTCGCCGACATCGGCATGATCGTCACCTCGATCATGGGCGCGGTGTTCTTCACCCTGCTGCTGCTGACCGGCAACACCATGGCGCAGGCGGTGCGCGAGCGCGTCCCCGAACTGGCCACGCTGAAGACGCTGGGCTTCAAGGACGGCACGGTGCTGGCGCTGGTGATGGTCGAATCGGTGCTGCTGATCGGCCTGGGTGGCGCGATCGGGCTGGGCCTGGCTGCGTTGATCCTGCCCGGGCTGGCGTCCAAGGCGATGGGGCTGCTGCCGCCGCATGTGCCGCTGCAGACCTGGCTGGTCGGCATCGGCCTGATCGTGCTGATCGGACTGGTGGTCGGGGTGCTGCCGGCGCTGCGCGCCAAGCGGCTGAAGATCGTCGATGCCCTGGCCGGGCGCTGA	MKYLSLVWAQLFRSKTRTLLTLLSVVAAFLLFGMLDSVRVAFNSGGNVEGVNRLVVASRLSITQSLPIRLEAQIRQVAGVRDVTYGMWFGGIYQDPKNFFPNFSVAPNYFDVYRELEIPPEQLRAWQTTRTGAIVGESLAKQFGWKLGDTIPLQATIFPRSGSNDWPLELVGIFRSKDRTQAANEERQLMMNWKYFDESNDYIKNQVSWYTVTLDNPDHASRVAQAIDAISANSDHETKSQTESAFQQAFVKQFADIGMIVTSIMGAVFFTLLLLTGNTMAQAVRERVPELATLKTLGFKDGTVLALVMVESVLLIGLGGAIGLGLAALILPGLASKAMGLLPPHVPLQTWLVGIGLIVLIGLVVGVLPALRAKRLKIVDALAGR	PGPT0013350_20400	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
BMS020_06747	1311	macB_2	COG0577	Macrolide export ATP-binding/permease protein MacB	ATGAACAAGCATTGGTTGGGCAACGCGCTGTCGCTGCTGCTGCTGGCAGTGGGCCTGGGCGTGTGGGTCGCGCTGCCGTGGATCGGCGTGCTCGCGCTGGTGGTGGTGCTGGCGTTGTGGTTGCTGCTGACCCGCAGCGGGCGGCTGTCGCTGGCGGCCGCGCGCATCGGCATCGCCAGCCTGCCGCAGCGCTGGGGGGCCAGCTCGGTGATCGTGGTCGGCATCGCCGGCGTGGTCGGCGTGCTGGTGGCGATGCTGGCGATGGGGCGCGGCTTCGAGGCCACGCTCAACAGCACCGGCGACGACACCACCGCGATCGTGCTGCGCGGCGGTTCGCAGGCCGAGACCAACTCGGTGATCACCCGCGACCAGGTGCCATTGATCGGCACCCTGCCCGGCATCGCCAAGGACGCGCAGGGCCGCGCGCTGATCTCCCCGGAGCTGTCGCAGGTGGTCAACCTGGTGTCCAAGTCCGACGGCACCGACGTCAACGCGCAGTTCCGCGGTGTCGGCGACCTGGGCTGGGCGGTGCACGACAAGGTGAAGATCGTCGAGGGCCGCAAGTTCGGCACCGGCCTGCGCGAGATCGTGGTCGGCAAGGGTGCGCAGGGCCAGTTCCGCGACTTGGAGATCGGCAAGACGCTGACCCTGGGCAACCAGGCCTGGACCGTGGTCGGCGTGTTCGCCTCCGGCGACGCGCACGATTCGGAGCTGTGGACCGACGCGCAGACCCTGGCCAGCACCTACCAGCGCAGCGCCTGGCAATCGATCAACGTGCGCACCGAGGGCAAGGCCGGCTTCGACCGCTTCAAGGCCGCGATGGCCGCCGATCCGCGGCTCAAGCTCGACGTCGACACCACCCGCAGCTACTACAGCAAGCAGGGCGGCGGACTGAGCAAGCTGATCGGCATCCTCGGCACGGTGATCGGCGCGATCATGGCGGTGGGCGCGGTGTTCGGCGCGCTCAACACGATGTACGCGGCGGTGGCCACGCGGGCGCGCGAGATCGCCACGATGCGCGCGCTCGGCTTCCGCAGCGCACCGGTGGTGATGGCGGTGATGCTGGAGACGATGCTGCTGGCGCTGCTTGGCGGCCTGCTCGGCGGCGTGGTCGCCTGGGCGGTGTTCAACGGCTACAGCGTGTCCACGCTGGGCAGCAACTTCAGCCAGGTGGTGTTCCAGTTCAAGGTCTCGCCGGAGCTGCTGTGGAGCGGGCTGAAGTGGGCGCTGGGCATCGGCCTGGTCGGCGGCCTGTTCCCGGCCCTGCGCGCGGCCCGGCTGCCGATCACCACGGCATTGCGCGAGGTCTGA	MNKHWLGNALSLLLLAVGLGVWVALPWIGVLALVVVLALWLLLTRSGRLSLAAARIGIASLPQRWGASSVIVVGIAGVVGVLVAMLAMGRGFEATLNSTGDDTTAIVLRGGSQAETNSVITRDQVPLIGTLPGIAKDAQGRALISPELSQVVNLVSKSDGTDVNAQFRGVGDLGWAVHDKVKIVEGRKFGTGLREIVVGKGAQGQFRDLEIGKTLTLGNQAWTVVGVFASGDAHDSELWTDAQTLASTYQRSAWQSINVRTEGKAGFDRFKAAMAADPRLKLDVDTTRSYYSKQGGGLSKLIGILGTVIGAIMAVGAVFGALNTMYAAVATRAREIATMRALGFRSAPVVMAVMLETMLLALLGGLLGGVVAWAVFNGYSVSTLGSNFSQVVFQFKVSPELLWSGLKWALGIGLVGGLFPALRAARLPITTALREV	PGPT0013350_12747	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
BMS020_06748	1137			hypothetical protein	ATGAAGCGCCTGCTGCTCGTGGCCTGCGCCTGCCTGTGGCTGGCCGGCTGCCTCTACACCTCCACCAACTCCACCTCGCTGGCCGAGCGCCTGGTCGCGCCGGGTGGCGCGTCGCCGCTGCTGGACGAGGAGCGCATCGCCGCGGCGATCGCCAGCATCCCCAACCGCAGCGGGCATACCCGCAGCCGCGATGGCGTGCCGATCTTCTGGCGGGTGTTCGACCCGGGCCGCTACGGCCTGCATTACCGCTACCTCGGCCAGCGCCACGACGCCGGTGCGCCGCTCGACGTCGATTTCGGCGTCCAGCTGCCGGCGCATTTCCAGCCACGGGCGCCACGCGGCACCGTGGTGCTGCTACACGGCTGGATGATGGATGGCGATTCGCTGCTGCCGTGGTCGCTGCAGCTGGCCCAGGCCGGCTACCGCGTGGTCACCATCGACCTGCGCAACCACGGCCATTCCGGCGCGGGCCCGGCCGGCTACGGCACGCGCGAGTCGGACGACGTGATCGACGTGCTTGCCGGCCTGCGCGCCCGCGACGAGGTCGCCGGCCCCCTGTACCTGTTCGGCGTGTCCTATGGCGCGGCGACCGCGCTGTTCGCCGCCGACAAGCTCGGCGACCAGGTCAGCGGCGTGGTGGCGATGGAATCGTTCGCCAATGCCGGCCGCGGCATCCGCGACATGGTTCCGCACATGCTGGCCAGCCGCCCCAGCGGCTGGAAGGCGCAGGCGGTGGCCAGCTATGCGCGCTGGCGCTACGGCAGCCAGGACCTGGACGCGGTGATCGCCGCTGCCGACCAGCGCCTGCAGCTTGACCTGGACCAGGTCGACGTGATCAGCGCGCTCGCCGACACGCGCGCCTGCGTGCTGCTGCTGCACGGCGACGCCGACCAGCACATCCCGGTCGCGCACGGCCGCGCACTGGCGCTGGCCAGCGCACGCGTGCATTACATCGAGATGCGTGGCGAGAACCACCTCAGCCTGCCACTGCGGTTGGACCTGCTCGGCGACGTCGTCGATGACTGGCTGGCGCGCGATACCGCCGGCAGGAGCGGCTGTCCGGCGCCGAAGACGCCGCAGGAAGCCAACGTGCTGGCACTGCAGCGCGACGTGCAGTCGCCCTCGCCGCAGGGATAG	MKRLLLVACACLWLAGCLYTSTNSTSLAERLVAPGGASPLLDEERIAAAIASIPNRSGHTRSRDGVPIFWRVFDPGRYGLHYRYLGQRHDAGAPLDVDFGVQLPAHFQPRAPRGTVVLLHGWMMDGDSLLPWSLQLAQAGYRVVTIDLRNHGHSGAGPAGYGTRESDDVIDVLAGLRARDEVAGPLYLFGVSYGAATALFAADKLGDQVSGVVAMESFANAGRGIRDMVPHMLASRPSGWKAQAVASYARWRYGSQDLDAVIAAADQRLQLDLDQVDVISALADTRACVLLLHGDADQHIPVAHGRALALASARVHYIEMRGENHLSLPLRLDLLGDVVDDWLARDTAGRSGCPAPKTPQEANVLALQRDVQSPSPQG				NA	NA	NA	NA	NA
BMS020_06749	897	rarD_1	COG2962	Protein RarD	ATGACCGCCGTTGCCGCCGCCGAGGCGCGGCGCGGGCTGGCGGCGACCGCCGGCGCGTTCGTGATCTGGGGCCTGGTGCCGTTGTATTGGCACCTGCTCAAGGCGGTGCCGTCGTTCCACATCATCGCCCACCGCATCATCTGGAGCACGGTGTTCGTGGTGGCCTGGTTGCTGCTGTCGTCGCGGCTGGCGTGGTGGCGGCGGGTCGCGGCGACGCCGCGCGCACTGGGCGTGCTGGCGCTGAGCAGCTGCACGATCGCTTTCAACTGGGGCCTGTACATCTGGGCGATCAATGCCGGCCACGTGGTCGAAAGCAGCCTGGGCTACTTCATCAATCCGCTGGTCAACGTGGTGCTCGGCGTGCTGGTGCTGAAGGAGCGGCTGCACGGCGCGCAATGGCTGGCGGTGGCCTGCGCCGCGGCCGGCGTGGCGTGGCTGACCGTCGATGCCGGCGCGCCCCCGTGGATCGCGCTGGGGCTGGCGGCGTCGTTCGGCCTGTACGGCCTGCTGCGCAAGCTGGTCGCGGTGGATGCGGTGGCCGGGCTGGGGATCGAGAGCCTGTACCTGTTCCTGCCGGCGCTGGCATTCGCGCTGTGGGGCGAGTTCGGCCATGGCGGTGCCTTCGTACACGGCTGGGGCTGGCGCAACGACCTGCTGCTGGCGTTCGGCGGCGCGGTCACCGCGGTGCCGCTGGTGGCCTTCGCCTACGGCGTGCGGCGCATTGCGCTGTCACTGGTCGGGATCCTGCAGTACATCGGTCCGAGCCTGCAGCTGCTGCTGGGGGTGTGGTTCTTCCATGAGCCGTTCGACCGCGCGCGGGCGATCGGCTTCGGCGCGATCTGGATCGGCCTGCTGCTGTTCGTCGGCGACAGCCTGTGGCGCGCGCGCCGGCGCTGA	MTAVAAAEARRGLAATAGAFVIWGLVPLYWHLLKAVPSFHIIAHRIIWSTVFVVAWLLLSSRLAWWRRVAATPRALGVLALSSCTIAFNWGLYIWAINAGHVVESSLGYFINPLVNVVLGVLVLKERLHGAQWLAVACAAAGVAWLTVDAGAPPWIALGLAASFGLYGLLRKLVAVDAVAGLGIESLYLFLPALAFALWGEFGHGGAFVHGWGWRNDLLLAFGGAVTAVPLVAFAYGVRRIALSLVGILQYIGPSLQLLLGVWFFHEPFDRARAIGFGAIWIGLLLFVGDSLWRARRR	PGPT0003906_1022	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003906-rarD-K05786	NA	NA
BMS020_06750	894	yedA_2		putative inner membrane transporter YedA	ATGTCTTCCTCGTCGTCTTCCGCGCCGGCTTCGCGTCCGGCGGTGCTGCTTGCCCTGCTGCTGGTGTACGTGGTCTGGGGCTCGACCTACCTGGCGATCCGCTTCGCGCTGGAGGGCGGCGCACTGCCGCTGACGATGGTGTCGGGCAGCCGCTTCATCGTCGCCGGCAGCCTGTTCTACGCGTTCCTGCGCTGGCGTGGCGTGCCGGCGCCGACGCGCGCGCAGTGGCCGAACGTGGCGGTGATGGGCGGCTGCCTGCTGCTGCTCGGCAACGGCATGGTGGTGCTGGCCGAACGCAGCGTGTCGTCGGGCCTGGCCGCGACCGCGGTGGCCTCGGTGCCGCTGTGGATGGCCTTGTTCGGGGCGATCCGCGGGCAGCACTTCAGCCGCGGCGAGTGGGCCGGCATCGTGATCGGCTTCGTCGGCGTGGTCTGGCTCAATGCTGGCAGCAGCCTGACCGCCACGCCCGGTGGGCTGGTGCTGCTGCTGATCGCGCCGATCGGCTGGGCGTTCGGTTCGGTGTGGTCGCGCGGCCGCGACCTGCCGTCGCCGTTCATGACCGCGGCGGCGCAGATGCTGTGCGGCGGGGTGCTGCTGGTGCTGACCGGGCTGCTGATCGGCGAGCGCCCGCAGGCGCTGCCGACGCCATCGGGCATCGCCGCGGTGGCCTACCTGTGCGTGTTCGGTTCGATCGTCGCCTTCACCGCCTACGTCTGGCTGCTGCACCACGTGCGCCCGGCGCTGGCCGGCAGCTATGCCTACGTCAATCCGGTGATCGCGGTCGCGCTGGGCACCTGGCTGGGGCATGAGCGCTTCACCGCGCACGACCTGGGCGCGATGGCGGTGATCCTGGCCGGCGTGGCGGTGGTCACGCTGGCGAAGACGCGGCGATGA	MSSSSSSAPASRPAVLLALLLVYVVWGSTYLAIRFALEGGALPLTMVSGSRFIVAGSLFYAFLRWRGVPAPTRAQWPNVAVMGGCLLLLGNGMVVLAERSVSSGLAATAVASVPLWMALFGAIRGQHFSRGEWAGIVIGFVGVVWLNAGSSLTATPGGLVLLLIAPIGWAFGSVWSRGRDLPSPFMTAAAQMLCGGVLLVLTGLLIGERPQALPTPSGIAAVAYLCVFGSIVAFTAYVWLLHHVRPALAGSYAYVNPVIAVALGTWLGHERFTAHDLGAMAVILAGVAVVTLAKTRR				NA	NA	NA	NA	NA
BMS020_06751	921			hypothetical protein	ATGGCGCCACCAGATCCGCGCCAGCGGCCGCCGCCGCCCGCCGCCGCATCTGCCGGAACGGTCCACGCGCGGCCTCCAGCGCCAGCAGGCCCGGGACCGCGTCGGCGCGCCCGGCCAGCGCCGCCGGCAGCCGCCGCATGCGCAACGGCCGGGATTCGGGCAGCAGCGCCGAGGGATGCCGCCAGGCCAGCGTGCGCAGCCGCAGGAAGGCGTCCAGCTGGTCCGTCGCTGCGGCCATGGCGCGATCGCTGCCTTCGGCCAGCGCGTTGCCGGCCGGCGACCAGGCGGCGATGCCGCGCCGGAGCAGTGCCGGCATGCGCTGCCAGCGCTGCCAGGCATGCACCGCGGCGTCATCGGCGGGATCGTTCGCCAGCAGCGGCGCGCCGCCCGCCGCCTCCAGCCAGCATGCCGCGGTGTCGCCAAGCTCGCGCGCCAGCAGCGCCGCGGTCAGCGCCGCCGGCGTCGCCAGCGGCTCGTCGGCATAGGCCGGCACTGCGTCGACCACGCTCGCGGCCTGCTCGGCCGACAGCCGCAGGGTCACGCACGGCACGCCGAGCAGCGCGGCCTGCGCCTGTGCGCAGCCATCCCCCGGCGCCGGACGGTCGAACTGCCAAGCCAGCGCCTGCAGCCCCTCGCCCAGGCCACGCGCCTGCGCCGCCAGCACCAGGGCGCCGGCGCCGCCATCGAGCAGCACGCCCGCCGCCGCGCCCCCGGCCCGCATCTCCAGCGCCCCCTGCAGCAAGGCCTGCGTGCGCAACGCGGCGGCTTCAACCTCGCCAGGGAACGGCTGCGCGCAGGCCCGGACCATCGTGCCGAGCGGATCCCAGACCGGTTGCTGCGCCAGTGTCGGCGCATGCACCGCGGCGCCGGCAGCGACCGCCGCCGGGTCCAGCCGCAGGCAATGCCCCGCCTGCAGCTTGA	MAPPDPRQRPPPPAAASAGTVHARPPAPAGPGPRRRARPAPPAAAACATAGIRAAAPRDAARPACAAAGRRPAGPSLRPWRDRCLRPARCRPATRRRCRAGAVPACAASAARHAPRRHRRDRSPAAARRPPPPASMPRCRQARAPAAPRSAPPASPAARRHRPALRRPRSRPARPTAAGSRTARRAARPAPVRSHPPAPDGRTAKPAPAAPRPGHAPAPPAPGRRRRHRAARPPPRPRPASPAPPAARPACATRRLQPRQGTAARRPGPSCRADPRPVAAPVSAHAPRRRQRPPPGPAAGNAPPAA				NA	NA	NA	NA	NA
BMS020_06752	636	yfcG_2	COG0625	Disulfide-bond oxidoreductase YfcG	ATGTCCCACCCCCGTGCGCCGTTGACCGTGCATGGCATGTCCACGTCGGGCAACTGCCACAAGGTGCGGCTGCTGCTGGAACAGCTGGGCAGCCGCTATGACTGGAACGAGATCGACAGCACCCGCGGCGACACGCGTACGCCGCAGTTCCTGGCGCTGAACCCGAACGGCAAGGTGCCGGTGATCGAGCGCGACGACGGCCGCGTGCTGGTGGAATCCAACGCGATCCTGTGCTGGCTGGCCGAGGGCACGCCGTACCTGCCGGGCGAGCCCTGGGCGCGCGCGCATGCGCTGAGCTGGATGTTCTTCGAGCAGTACAGCCACGAGCCCTATGTCGCGGTGGCGCGCTTCATCCGGCTGTGGACGCCGCCCGAGTCGCCGCGGCGTGCCGAGCTGCCGCGGCTGCTGGAGCGCGGCGCGCAGGCGCTGGACGTGATGGAGCGGCACCTGCAGCAGCACGCCTGGTTCACCGGCGCGGAGTACGGCATCGCCGACATCGCGCTGTTCGCCTACACCGACTGCTCCGGCGATGGCGGCTTCGAGCTGCAGCGCTGGCCGGCGGTGGATGCATGGCTGGCGCGGGTGCGGGCCACGCCGCGCTTCGTGGCGATGCCGGCGGTCGCCGGCATCGGCTGA	MSHPRAPLTVHGMSTSGNCHKVRLLLEQLGSRYDWNEIDSTRGDTRTPQFLALNPNGKVPVIERDDGRVLVESNAILCWLAEGTPYLPGEPWARAHALSWMFFEQYSHEPYVAVARFIRLWTPPESPRRAELPRLLERGAQALDVMERHLQQHAWFTGAEYGIADIALFAYTDCSGDGGFELQRWPAVDAWLARVRATPRFVAMPAVAGIG	PGPT0013170_15432	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS020_06753	1161	acdA_3	COG1960	Acyl-CoA dehydrogenase	ATGCTGCGCAGCGACGATCTGTTCGACCTCGATGCCACGCTGGACGAGGAGGAATGCGCGATCCGCGATGCGGTGGCGCGCTTCACCGACACGCGTGTGCTGCCGATCATCGGCGAGGCCTTCGCCGCCGGGCGTTTCCCGCGCGAGCTGGTCGCCGAACTGGCGGCGCTGGGCCTGCTCGGTGCCGGCCTGCCGCCGGCGTATGGCGGCGCCGGGCTCGGCGCGGTGGGCTATGGGCTGATCTGCCGCGAACTGGAGCGCGGCGACAGCGGCCTGCGCAGCTTCGTCAGCGTGCAGTCCTCGCTGTGCATGCATCCGATCTTCGCCTATGGCAGCGAGGCGCAGCGCCAGCGCTGGCTGCCGGAGATGGCGGCCGGGCGCTGCATCGGCTGCTTCGGCCTGACCGAGGCGCACGGTGGCTCCGATCCCGCGGCGATGCGCACGCGCGCGCTGCGCGATGGCGACGACTGGCGCCTCAGCGGCAGCAAGATGTGGATCACCAACGGCGCGATCGCCGACCTGGCGGTGGTCTGGGCGCAGACCGAGGACGGCGTGCGTGGGTTCCTGCTCGAGCGCGGCATGCCGGGCTTCAGCGTGCAGGAGGTCGGGCCCAAGATGAGCCTGCGCGCCTCGGTGACCTCGGCGCTGTTCTTCGACGAGGTGCGGGTGCCGGAGGCCAACCGCCTGCCGGACGCGCATGGCCTGAAGGCGCCGCTGGGCTGCCTGACCCAGGCGCGCTACGGCATCGCCTGGGGCGCGGTCGGCGCCGCGGTGGCGTGCCTGCGCGAGGCGTTGGCCTACGCCGGCGAGCGGGTGTTGTTCGGGCGGCCGCTGGCCGGCAGCCAGGCCGCGCAGGTACGCCTGGCGGAGATGGCGCGGCAGCTGGTGGCCGCGCAGCTGATGGCGCTGCAGCTGGGGCGGCTGAAGGAACAGGGACGCATGCAGCCGGCACAGGTGTCGCTGGCCAAGTGGAACAACTGCCGGATGGCGCTGGACGTGGCCCGCGGCTGCCGCGACCTGCTTGGCGCGGCCGGCATCACCACCGAGCATGCGGCGATCCGCCACGCGCTCAACCTGGAGTCGGTGGTGACCTATGAAGGCACCGAGACCATCCATCAGCTCGTGGTCGGCCGTGCGCTGACCGGGCGCGACGCGTTCTGA	MLRSDDLFDLDATLDEEECAIRDAVARFTDTRVLPIIGEAFAAGRFPRELVAELAALGLLGAGLPPAYGGAGLGAVGYGLICRELERGDSGLRSFVSVQSSLCMHPIFAYGSEAQRQRWLPEMAAGRCIGCFGLTEAHGGSDPAAMRTRALRDGDDWRLSGSKMWITNGAIADLAVVWAQTEDGVRGFLLERGMPGFSVQEVGPKMSLRASVTSALFFDEVRVPEANRLPDAHGLKAPLGCLTQARYGIAWGAVGAAVACLREALAYAGERVLFGRPLAGSQAAQVRLAEMARQLVAAQLMALQLGRLKEQGRMQPAQVSLAKWNNCRMALDVARGCRDLLGAAGITTEHAAIRHALNLESVVTYEGTETIHQLVVGRALTGRDAF	PGPT0021815_2691	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021815-GCDH|gcdH-K00252	NA	NA
BMS020_06754	873			hypothetical protein	ATGATGGAATCCGTGGCGTCAAAAAAGCGGCGCGGCCGCGGGGAGCTGGTGATGAAGAGCAATACGACGATGATTCTGGTCGCTGCTGGGGCATTGCTGGTCGGGGGTGTGGCCACGGCGGCCTTCATGAACAACCGCGACAAGTCGGATGCGTTCGTGACGCCGTCGGCCGAAACCCGGCCGTCGCTGGACAATGCGGCCGGCGACGCGGGCCAGTCCGATGCGGTGGCCGGCGGTGCGCTGCAGTACGCCGACGTGCTCAAGGTCGATCCGGTCACGCAGAAGGACAAGGTCTACGCCACGGTGATCGGCACCGAGCCGGTGCGCGAGACCACCACCAGCAGCACCCCGCACGAGGTCTGCGAGGACGTGGTGGTGCAGGAGCGCCTGCCCGAGCGCGACGGCAACGTCGGCGGCACCGTGGCCGGCGCGGTGATCGGCGGCCTGCTCGGCAACCAGGTCGGTGGCGGCAGCGGGCGCAAGGTGGCCACCGCGGCCGGTGCGGTGGCCGGCGGCGTGATCGGCAACCAGGTCGACAAGCGCCATGTCGGTGGCAAGGTGGTCAACCGCACCGAGCGCCAGTGCCACACCGAGAACGCCACGTCCGAGTCCTCGCGCGTGGTCGGCTACAACGTGACCTACCGCAAGGCCGACGGCAGCACCGGCACCATGCGCATGGACAGCAAGCCGGGCAACCGCATCGCGATGGGCGATGCCGACAGCGTGGTCGGCTACGACGTCACCTACCGCTACGACGGCGACGAGAAGACCGTGCGGATGAAGGACAAGCCGGCCAGCGACCGCCTGCCGGTCGTGGATGGCCAGCTGGTCACCCAGACCGCGGCGATGGACGCGGCGTCCAGCAAGCAGTAA	MMESVASKKRRGRGELVMKSNTTMILVAAGALLVGGVATAAFMNNRDKSDAFVTPSAETRPSLDNAAGDAGQSDAVAGGALQYADVLKVDPVTQKDKVYATVIGTEPVRETTTSSTPHEVCEDVVVQERLPERDGNVGGTVAGAVIGGLLGNQVGGGSGRKVATAAGAVAGGVIGNQVDKRHVGGKVVNRTERQCHTENATSESSRVVGYNVTYRKADGSTGTMRMDSKPGNRIAMGDADSVVGYDVTYRYDGDEKTVRMKDKPASDRLPVVDGQLVTQTAAMDAASSKQ				NA	NA	NA	NA	NA
BMS020_06755	210			hypothetical protein	ATGCCGCATCCCGTCTCGCTGTCCGTGCTCGCCTGGGCCAGGCGGCTGCGCCACCCGACGCTGTTCAAGCTGGTCGCGGCGCTGTTCCTGGTCGATCTGCTGCTGCCCGATCCGGTGTGGTTCCTGGACGAGATCCTGTTGGGCCTCGGCACGCTGCTGCTGGCGAACTGGAAGCAGCGGCGCGCGCCACCGGCGCTGCCGGCGGAATGA	MPHPVSLSVLAWARRLRHPTLFKLVAALFLVDLLLPDPVWFLDEILLGLGTLLLANWKQRRAPPALPAE				NA	NA	NA	NA	NA
BMS020_06756	774	yjjV_2	COG0084	putative metal-dependent hydrolase YjjV	ATGACGCCGGCACTGATCGACAGCCATTGCCACCTCGACGCCGGCGAGTTCGATGCCGACCGCGCCGACGTCGTCGCGCGTGCGCAGCAGGCCGGCGTCGTCGCCCAGGTGGTGCCGGCGGTCACCGCGGCCAGCTGGCCAGCGTTGCGCGCGGCCTGCCAGCTGGCGCCCGGCCTGCATCCGGCCTACGGCCTGCATCCGATGTTCCTCGACCAGCACCGCGACACGCACCTGGCGCTGCTGCGCGCGTGGATCGAGCGCGAGCGCCCCTGCGCGATCGGCGAATGCGGACTGGACTTCTTCGTCGACGGCCTCGATCCGGCCGCGCAGCGGCATTACTTCCGCGCCCAGCTGGAACTAGCCGCCGAGTACCGCCTGCCGGTGATCGTGCATGCACGCCGCGCGGTCGAGGAGGTCATCGCCACGATCAAGGCGGTCGGCCAGCTGCGCGGCGTGGTCCACAGCTTTTCCGGCAGCCCGGAACAGGCCGCGCAGCTCTGGCAACTGGGCTTCATGATCGGCCTCGGTGGACCGCTGACCTATCCGCGCGCCAACCGCCTGCGTCGGCTGGTGGCGACGATGCCGCTGCAGCAGCTGCTGCTGGAGACCGACGCGCCGGACCAGCCCGACGCAGCGATCCGCGGCCAGCGCAACGAACCGGCGCGGCTGGCCACGATCGCCGCCTGCGTCGCCGAGCTGCGCGGTGAGACGCTGCAGCACGTCGCCGCGCAGACCAGCGCCAACGCCCGCACACTGTTCGCCCTGCCCGGCTGA	MTPALIDSHCHLDAGEFDADRADVVARAQQAGVVAQVVPAVTAASWPALRAACQLAPGLHPAYGLHPMFLDQHRDTHLALLRAWIERERPCAIGECGLDFFVDGLDPAAQRHYFRAQLELAAEYRLPVIVHARRAVEEVIATIKAVGQLRGVVHSFSGSPEQAAQLWQLGFMIGLGGPLTYPRANRLRRLVATMPLQQLLLETDAPDQPDAAIRGQRNEPARLATIAACVAELRGETLQHVAAQTSANARTLFALPG				NA	NA	NA	NA	NA
BMS020_06757	837	tcdA_2	COG1179	tRNA threonylcarbamoyladenosine dehydratase	ATGAAAGCACATTGGCGAGAGCGCTTTGCCGGCATCGACCGGCTCTACGGCGCGGGAACGGTGGAACGCCTGGCGGCGACGCGGGTGGCGGTGATCGGCATGGGCGGGGTCGGCTCGTGGATCGTCGAGGCGCTGGCGCGCTCGGCGGTCGGGCACATCACCCTGATCGACGCCGACGACATCTGCGTGTCCAACACCAATCGGCAGCTGCCGGCGCTGGCCGGGCAGTACGGGCGCAACAAGGCGCAGGCGATGGCCGAACGGTGCCGGGCGATCAATCCGGAGATCGAGGCCGAGGCGGTCGAGGCGTTTCTGACCGCGTCCAACATGGCGCAGCTGCTGGATCGTGGCTTCGACCTGGTGATCGATGCCTGCGACAGCTTCCGGGTCAAGGTCGAGGCGATCGCCTGGTGCCGCCGCCGCAAGCTGCCGATGCTGACCATCGGTGCCGCCGGTGGCCGTACCGATCCGACCCTGGTGCGGGTGCGCGACGTCTCGCGCACCGAGCACGACGCGATGCTGGCGCTGATCCGCAAGAAGCTGCGCGGCGAGTTCAATTTCCCCAAGAACGCGCAGCGCTACTTCGGCGTGCCGGCGGTGTACTCGCTGGAGAACGTGAAGTACCCGCAGGCCGATGGCAGCGTCTGCGGGATCCGTCCGCAGCTTGGCGCCGATGCCGCATTGAAGCTGGACTGCGGCGCCGGCCTCGGCGCGGCGACCCACATCACCGGTGCGTTCGCCTTCGCCGCGGTCGGCAAGGCGCTGGAAATGCTGCTCAAGCCGCGCCGCGTCGAACCCGCGCCGGCCACCGCGGCGGAGCCGCTCGAACAGGCCTGA	MKAHWRERFAGIDRLYGAGTVERLAATRVAVIGMGGVGSWIVEALARSAVGHITLIDADDICVSNTNRQLPALAGQYGRNKAQAMAERCRAINPEIEAEAVEAFLTASNMAQLLDRGFDLVIDACDSFRVKVEAIAWCRRRKLPMLTIGAAGGRTDPTLVRVRDVSRTEHDAMLALIRKKLRGEFNFPKNAQRYFGVPAVYSLENVKYPQADGSVCGIRPQLGADAALKLDCGAGLGAATHITGAFAFAAVGKALEMLLKPRRVEPAPATAAEPLEQA				NA	NA	NA	NA	NA
BMS020_06758	432			hypothetical protein	ATGGCCAGCCAACCCCAGTCGTCCTCCACGCTCTACCGCTACCTGTTCATGGCCGCACTCGGCCTGCTGGTCGGCATCGTCGCCACCGTGATGCTGATGCGTGCGCTGCAGGCCAGGCGCGACCCGTTCCCGTCCAGCCTGATGCAGGTGATGACCCACCAGAGCCAGCAGTTGGCCGCCAGCCACCGCCAGAACCGCTGCACCGCCAACGACGCGCTGCCGCGCCTGCAGTCGCTGCGCGCGTTGTCCAACGACCTGGAAGCCGCGTTCCCCGAGCTTGCCGAAGACCATCGCTACGCCGCCCACGCCAGCCTGCTGCGCGCCCGGCTCGACCAGGCACTGGCGGCGCCCGCCGACAGCTGCGCCGCCCTGGACGCCACCCGCACCCGCATCGAGGAGGCCTGCAAGGCCTGCCACCAGGACTTCCGCTGA	MASQPQSSSTLYRYLFMAALGLLVGIVATVMLMRALQARRDPFPSSLMQVMTHQSQQLAASHRQNRCTANDALPRLQSLRALSNDLEAAFPELAEDHRYAAHASLLRARLDQALAAPADSCAALDATRTRIEEACKACHQDFR				NA	NA	NA	NA	NA
BMS020_06759	462			hypothetical protein	ATGACGACCCGCCTGATCTTCATCGGCCTGGCCGCCACCGCCGTTGCCTTGGCCGGCTGCAGCACCACGCAGCCCCAGTACGGCAGCTACAACCCCGGCTTCACCCAGTCGCGCTGCGTCGACTGCGGCATCGTCACCCGGATCGACGCGGTGGCCCCGACCCGCAGCGCGCCAACCGGCACCGGCGCGGTGCTCGGCGGCATCGTCGGCGCGGTCGCCGGCCGCCAGATCTCCAAGGAGACCGGCGGCAGCAAGGGCAACAAGAACGTCTCGGCGGTCGCCGGCGCCGCGGCCGGCGCGGTGGCGGGCAACGCGATCCAGAACAACGTGACCAGCGCGTCCTACGACATCCAAGTGAAGATGGACGACGGCCGCGTACTGATGGTCAACCAGAAGGACCTCGGCGGGGTGCGCGAGAACACCTACGTGCGCGTGGTCAACGGGCGCGTCGTGGTGCGCTGA	MTTRLIFIGLAATAVALAGCSTTQPQYGSYNPGFTQSRCVDCGIVTRIDAVAPTRSAPTGTGAVLGGIVGAVAGRQISKETGGSKGNKNVSAVAGAAAGAVAGNAIQNNVTSASYDIQVKMDDGRVLMVNQKDLGGVRENTYVRVVNGRVVVR	PGPT0024490_245	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024490-slyB-K06077	NA	NA
BMS020_06760	213	cspA_2	COG1278	Major cold shock protein CspA	ATGTCAGCCGAGCGTGAGACCGGGACCGTCAAGTGGTTCAACGATGCCAAGGGCTTTGGGTTCATCAGCCGTGAGAACGGCGAGGACGTGTTCGTGCATTTCCGTGCGATCCAGGTCCAGGGCTTCAAGAGCCTGAAGGAAGGCCAGAAGGTCAGCTTCACCGTCGTCCAGGGCCAGAAGGGCCTGCAGGCGGACGCCGTCCAGCCGGTCTGA	MSAERETGTVKWFNDAKGFGFISRENGEDVFVHFRAIQVQGFKSLKEGQKVSFTVVQGQKGLQADAVQPV	PGPT0014675_5248	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
BMS020_06761	471			hypothetical protein	ATGTACTTCCTGCTAGCCGCGATCCTGGTCGCGGTCGGTTTCGCCGGGGTCGTGCTGCCGGCGCTGCCCGGCCTGCCGCTGGTCTTCGCCGGCTGCCTGCTGGCCGCCTGGGGCGACGACTTCAGCCGGGTCGGCTGGCTGCCCCTGCTGCTGATCGGCGGGCTGGCAGCGATCTCGCTGGTCGTGGACTTCCTCGCCAACGTCTATGGCGCCCAGCGCCTGGGCGCCAGCACCCAGGCACTCTGGGGCGCCGCGCTCGGCACCATCGCCGGCATGTTCTTCCTCCCGTTCGGGCTGCTGCTCGGCCCCTTCCTTGGCGCCTGGGCCGGCGAGTACTGGCACAGCCGCCAAGCCGGCAAGGCGACCAAGGTCGGCCTCGGCACCTGGCTGGGCATCCTGCTCGGCACCGCCTCCAAGCTCGCGCTGGGGTTCTGCATGCTTGGCGTGTTCGCCTTCGCCTGGTTCTTCTGA	MYFLLAAILVAVGFAGVVLPALPGLPLVFAGCLLAAWGDDFSRVGWLPLLLIGGLAAISLVVDFLANVYGAQRLGASTQALWGAALGTIAGMFFLPFGLLLGPFLGAWAGEYWHSRQAGKATKVGLGTWLGILLGTASKLALGFCMLGVFAFAWFF				NA	NA	NA	NA	NA
BMS020_06762	1137		COG2829	Putative phospholipase A1	ATGCCCCCTACGAGTCCCCTCGCCCTGCTCGCACTCGCCCCGGCCATCGCCCTCGCCCAAGAGGCCGCACCACAACCGGCCACCGCCCAGGCCTGCACTTCGATCAGCTCCGATGCCGCGCGCCTGGCCTGCTACGACACCGCGCTCGGGCGCAGCGCCGAAGACACCCAGGCCGCCGACCAGGCCGCGGTGGCCGCGCGCGAACAGCAGCGCGAGGAAAGGCAAGAGGACGCCCAGGCCGGAACGCCGGCCACCACCAGCAGCCGCATCGGCGACTTCTTCAAGGCCGGCGCCGACGACCCGGCGATCGCCAATGCCGGGCGTGGCTCACTGCTCGACAGCCGCTGGGAGCTGGCCAAGGACTCCAAGCTCGGCACCTTCCAGCTGCGCGCCTACAAGCCGGTGTACCTGCTGCCGGCGTTCTGGACCAGCAACCGCAACGAGCTGCCATCCTCGCCCAACGCCAACAACACGGTGAGCTCGCCGCAGCAGCTGGACAGCACCGAGCTGAAGTTCCAGCTCAGCTTCAAGACCAAGCTGGCCGAGGACGTGTTCGGCGACAACGGCGACATCTGGATGGGCTACACCCAGAGTTCGCGCTGGCAGGCCTACAACTCCGAGCAGTCGCGCCCGTTCCGCGAGACCAACTACGAGCCGGAAGTGATGCTGCTGTTCCGCAACAACTACAGCATCGGCGGCTGGCGCGGACGCATGAGCGGCATCAGCCTGGACCACATGTCCAACGGCCGCAGCGACCCGTTCTCGCGCAGCTGGAACCGGGTGATCCTGAATGTCGGCCTGGACCGCGAGAACTGGGCGCTGGTGTTGCGTCCGTGGTTCCGCATCAAGGAAGAGGCCAGCGACGACAACAACCCGGACATCGAGGACTACATGGGCCGCGGCGACGCGACCCTGGTGTGGAACCACGGCGGGCACGAGGTCGCGTTGATGGCGCGGCACTCGCTGCGCGGCGGCGACCGCTCGCATGGCGCGCTGCAGCTGGACTGGGGCTTCCCGATCAACAACCTGCTGCGCGGCCACGTGCAGGTGTTCGATGGCTACGGCGAAAGCATGATCGACTACAACCACCGCGCCACCTACATCGGCGTCGGCGTGTCGCTGCTGGAGTGGTACTGA	MPPTSPLALLALAPAIALAQEAAPQPATAQACTSISSDAARLACYDTALGRSAEDTQAADQAAVAAREQQREERQEDAQAGTPATTSSRIGDFFKAGADDPAIANAGRGSLLDSRWELAKDSKLGTFQLRAYKPVYLLPAFWTSNRNELPSSPNANNTVSSPQQLDSTELKFQLSFKTKLAEDVFGDNGDIWMGYTQSSRWQAYNSEQSRPFRETNYEPEVMLLFRNNYSIGGWRGRMSGISLDHMSNGRSDPFSRSWNRVILNVGLDRENWALVLRPWFRIKEEASDDNNPDIEDYMGRGDATLVWNHGGHEVALMARHSLRGGDRSHGALQLDWGFPINNLLRGHVQVFDGYGESMIDYNHRATYIGVGVSLLEWY	PGPT0009570_84	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHOLIPASE_ACTIVITY,PGPT0009570-pldA-K01058	NA	NA
BMS020_06763	636	gst_3	COG0625	Glutathione S-transferase GST-4.5	ATGGTCGCCACGCTCTACCACGCCCCCAGCACCGCCGCCCTGGTCGTGCACTGGCTGTTGATCGAACTGGACCTGCCACACCGGCTGCATCCGCTGGATTTCGACACCCGCGAGCACAAGGCTCCGGAGTACCTGGCGCTGAACCCGGCCGGGGTGGTGCCGACCCTGGTGCTGGAGGGGCAGGTGCTGACCGAGGCAGCGGCGATCGTGATGCACCTGGCCGACCTGCATCCGCAGGCCGGGCTGGCACCGATGCTCGGCAGCGCCGCGCGCGCCGACTACTACCGCTGGATGTTCTACTGCGCCAATACCTTGCAGCCAGCCTACCGCGCCTGGTTCTACCCGGACGAACCGGCCGGTGCGGCCCATGTCGAGGCGGTGCGCGAGCAGGCGCGCCTGCGCCTGGAGCAGGCCTGGGAGCAGGTCGCCACGCACCTGGCCGCGCATGGGCCTTACCTGCTGGGCGAGCGCCTGTCGGCGGCCGACTTCATGCTGACCATGCTGATGCGCTGGTCGCGCAACATGCCGCGCCCGACCGACAGCTGGCCGGTGCTGCAGGCCTATGCCCGGCACATGAAGGACCGTCCGGGCTTCCAGGAAACCTATCGCCGCGAGGGCCTCACCGACTGGACCTGA	MVATLYHAPSTAALVVHWLLIELDLPHRLHPLDFDTREHKAPEYLALNPAGVVPTLVLEGQVLTEAAAIVMHLADLHPQAGLAPMLGSAARADYYRWMFYCANTLQPAYRAWFYPDEPAGAAHVEAVREQARLRLEQAWEQVATHLAAHGPYLLGERLSAADFMLTMLMRWSRNMPRPTDSWPVLQAYARHMKDRPGFQETYRREGLTDWT	PGPT0013170_15731	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS020_06764	447			hypothetical protein	ATGCTGTGGTCGACGGGCTGGATGCTGCTGCTGTGCGCACAGGCGCTCGTTGTCTCGGCCGCGCCGCAGTCGGCGGTGCTGTTCCCATCCAAGGACTACCTGCCGCCGGCCGCGGTGACGCGCGAGCCGTTCGCCGAGCCGCGCACGCTGAGCAAGCCGCCGGCGCCCTCGGCGCTGGCCGACACGCTGGCGCCGCACGCCGCCGGCTCGGCGGCCGATCGCTGTTTCAGCCAATGCCAGGCGATGGACCAGCGCTGCCGTAGCCAGGCGCACGACGAAACCAGCTGCAGGAGCTCGCTGGGCGTCGGCCGCAATGGCTGCGAGGGCCAGGCCGATCCGGCGCGGCGGAATACCTGCCTGGCGCAGGTGCAGGACTGCACCACGCGCGGCTATACCGATGTCTGCGCGAGCCACCTGCAGTCCTGCGTGCGCGCCTGTGGCAACTGA	MLWSTGWMLLLCAQALVVSAAPQSAVLFPSKDYLPPAAVTREPFAEPRTLSKPPAPSALADTLAPHAAGSAADRCFSQCQAMDQRCRSQAHDETSCRSSLGVGRNGCEGQADPARRNTCLAQVQDCTTRGYTDVCASHLQSCVRACGN				NA	NA	NA	NA	NA
BMS020_06765	1653	fumB_2	COG1838	Fumarate hydratase class I, anaerobic	GTGACATCGATCAAGCAGGAAGACCTCATCCAGAGCGTCGCCGACGCGCTGCAGTACATCAGCTACTACCACCCGGTCGACTACATCAAGAACCTCGCCGCCGCCTACGAGCGCGAGGAATCGCCCGCGGCCAAGGACGCGATGGCGCAGATCCTGATCAACTCGCGCATGTGCGCCGAGGGCCATCGCCCGATCTGCCAGGACACCGGTATCGTCACCGTGTTCCTCGAAGTGGGCATGGACGTGCGCTGGGAGGGCTTCACCGGCTCGCTCGATGACGCCGTCAACGAGGGCGTGCGCCGCGCCTACAACGACCCGGACAACAAGCTGCGTGCCTCGGTGCTGGCCGACCCGGCCGGCAAGCGCAGCAACACCAAGGACAACACCCCGGCGGTGATCAACGTCAAGATCGTCCCAGGCAACACCGTGGACGTGATCGTCGCCGCCAAGGGCGGCGGTTCGGAGGCCAAGAGCAAGTTCGCGATGCTCAACCCGTCCGATTCGATCGTCGATTGGGTGCTCAAGACCGTGCCGACGATGGGCGCCGGCTGGTGCCCGCCGGGCATGCTCGGCATCGGCATCGGCGGCACCGCCGAGAAGGCGATGCTGCTGGCCAAGGAAGCGCTGATGGAGCCGATCGACATCCAGGACCTGATCGCGCGCGGCCCGTCCAACCGGGCCGAGGAGCTGCGCCTGGAACTGTACGAGAAGGTCAACGCGCTCGGCATCGGCGCGCAGGGCCTGGGCGGCCTGACCACGGTGCTCGACATCAAGGTCAGCGACTACCCGACCCACGCCGCCAACCTGCCGGTGGCGATGATCCCGAACTGCGCCGCCACGCGCCACGCGCACTTCACCCTGGATGGCTCCGGCCCGGTCGCGCTCGACCCGCCGTCGCTGGAAGACTGGCCCAAGCTCACCTACAACCCGCAGAACGCGCGCCGGGTGGACCTGGACACCATCACCAAGGAAGAAGTCGCCAGCTTCAAGCCGGGCGAGGTGCTGCTGCTCAACGGCAAGCTGCTGACCGGCCGCGACGCCGCGCACAAGCGCATGGTCGACATGCTCAACAAGGGCGAGCAGCTGCCGGTCGATTTCACCAACCGCTTCATCTATTACGTCGGCCCGGTCGATCCGGTGCGCGAGGAAGTGGTGGGGCCCGCCCGACCCACCCCCCCCCCCCCCACCGACACCATCACCCCGCCCAAGCAGGAGGAGACCNNNNNNNNNNTCACCACCCGCTTCTTCTCGTCCGGGGGGCGGGGGGGGGGGGTGCGGGTGGAGGGGGGCGGCCCGGCCGGTCCGACCACCGCCACCCGCATGGACAAGTTCACCCGGCAGATGCTGGAGCAGACCGGTCTGCTCGGCATGGTCGGCAAGGCCGAGCGCGGCCCGGCGGCGATCGAGGCGATCGCCGACAACAAGGCGGTGTACCTGATGGCGGTCGGCGGCTCGGCCTACCTGGTGTCCAAGGCGATCAAGGCCAGCAAGGTGCTGGCGTTCGCTGACCTGGGCATGGAGGCGATCTACGAGTTCGAGGTCAAGGACATGCCGGTGACGGTGGCGGTCGATTCCACCGGCGAGTCGGTGCACAAGACCGGCCCGCGCCAGTGGCAGGCCAGGATCGGCAAGATCCCAGTCGTGGTGGAGTAA	MTSIKQEDLIQSVADALQYISYYHPVDYIKNLAAAYEREESPAAKDAMAQILINSRMCAEGHRPICQDTGIVTVFLEVGMDVRWEGFTGSLDDAVNEGVRRAYNDPDNKLRASVLADPAGKRSNTKDNTPAVINVKIVPGNTVDVIVAAKGGGSEAKSKFAMLNPSDSIVDWVLKTVPTMGAGWCPPGMLGIGIGGTAEKAMLLAKEALMEPIDIQDLIARGPSNRAEELRLELYEKVNALGIGAQGLGGLTTVLDIKVSDYPTHAANLPVAMIPNCAATRHAHFTLDGSGPVALDPPSLEDWPKLTYNPQNARRVDLDTITKEEVASFKPGEVLLLNGKLLTGRDAAHKRMVDMLNKGEQLPVDFTNRFIYYVGPVDPVREEVVGPARPTPPPPTDTITPPKQEETXXXXTTRFFSSGGRGGGVRVEGGGPAGPTTATRMDKFTRQMLEQTGLLGMVGKAERGPAAIEAIADNKAVYLMAVGGSAYLVSKAIKASKVLAFADLGMEAIYEFEVKDMPVTVAVDSTGESVHKTGPRQWQARIGKIPVVVE	PGPT0001635_2056	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
BMS020_06766	897		COG1834	N(G),N(G)-dimethylarginine dimethylaminohydrolase	ATGAACGGCAGCGGCGCGGGCGAGACCTGGATCCTGGAGCGCACGGCGGCGGCTCCCGACGCCGCGCCACGGCGCGATGCGGGCGGCGGCCACCGGATGCTGCTGTGCCCGGCCAACCACTTCGCGGTCGACTACGTGATCAACCCATGGATGGACGGCCAGGTCGACCGGGTCGATCGCCACCGCGCGATGGCGCAGTGGCAGGCACTGCGCGATGCGCTGGCCGCGACCGGTACCACGGTCGAGCAGATCGTGCCGGGCCCGGCGCTGCCCGACATGCCGTTCGCCGCCAACGCCGGCCTGGTGCTCGGCAACGACTTCGTGCCCAGCCGCTTCCGCCATCCCGAGCGCAGCGGGGAGGAGCCGCTGTTCATCGACTGGTTCCGCCGCGCCGGCTTCCGCGTGCGCCCGCTGCCGGCCGCGCTGGCCTTCGAAGGTGCCGGCGACGCGCTGCTGGACCGCGGCACGCGGCGGCTGTGGATGGGCCACGGCCATCGCAGCGATGCCGCCACGGCCGCCGAACTGGCACGCATGTTCGACATCGAGGTGGTGCCGCTGCGCCTGGTCGATCCGCGCTTCTACCACCTGGACACCTGCTTCTGCCCGCTGCGCGGCGGCCGCCTGCTGTACTTCCCGGCCGCGTTCGACGCCGCCTCGCGCGCGGCGATCGAAGCGCGCGTGCCGAGCCACCTGCGCATCGCGGTGGACGAGGTCGACGCGCTGGACTTCGCCTGCAACGCCGTCGACCTGGACGACACGGTGGTGCTGCACCGCGCCTCGGCCGGGCTGCAGCGCGCGCTCGCCGGCTTCGGCTATCGCGTGCTGCGCACCCCGCTGGACGAATTCCTCAAATCGGGCGGATCGGCCAAGTGCCTGACCCTGCGCCTGGACGAGTAA	MNGSGAGETWILERTAAAPDAAPRRDAGGGHRMLLCPANHFAVDYVINPWMDGQVDRVDRHRAMAQWQALRDALAATGTTVEQIVPGPALPDMPFAANAGLVLGNDFVPSRFRHPERSGEEPLFIDWFRRAGFRVRPLPAALAFEGAGDALLDRGTRRLWMGHGHRSDAATAAELARMFDIEVVPLRLVDPRFYHLDTCFCPLRGGRLLYFPAAFDAASRAAIEARVPSHLRIAVDEVDALDFACNAVDLDDTVVLHRASAGLQRALAGFGYRVLRTPLDEFLKSGGSAKCLTLRLDE				NA	NA	NA	NA	NA
BMS020_06767	261			hypothetical protein	ATGGCCAGCGCACGCCCCGACTACCAGCTCTACGCCGAGATCGTCGATACGCTCAGCAGCGCGCCACAGCTCGGGCCTGGCGAGATCCGCGCCAGCATCGACGCCGGCGTGGTCGTGCTCAGCGGCGACGTCGCCGACCGTCGCACCAAGCTCGAGGCGGCGCACCTGGTCCGTGCAGTGGCCGGGGTCCGCGAGATCCGCAACATCCTCAGCGTCGACGAAGGCCGCAACGGATTCCAGCTGCCCCACGCAGGCGCCTGA	MASARPDYQLYAEIVDTLSSAPQLGPGEIRASIDAGVVVLSGDVADRRTKLEAAHLVRAVAGVREIRNILSVDEGRNGFQLPHAGA				NA	NA	NA	NA	NA
BMS020_06768	1863	btuD_15		Vitamin B12 import ATP-binding protein BtuD	ATGCCTCCGCACCTTCCTGCTCCCCAGAAGAAACCCAGCCTGCGCGAACGCTTCGACGCGCTGCGCAACCTGCCACCGTTCCTGCGCGAGATCTGGCGCACCAGCCGCAGCCTGACCCTGGCCAGCCTCGGCCTGCGCCTGCTGCGCGCGCTGATGCCGGTGGCGACGCTGTACGTGGGCAAGCTGATCATCGACGAAGCGGTCCGCCTGGCGAACCTGCAGCCAGGCCTGCACGACCTCGCCGGCGCACTCGGCTCGGGCCAGCTGGACCATCTGCTGGAACTGCTGGCGCTGGAACTGGCGCTGGCGGTCGGCTCGGACCTGTTCGGCCGGTTGGTCAGCTACGCCGACAACCTGCTGTCGGAGCTGTTCAACAACAGCACCAGCATCCGCCTGATGGAGCATGCCGCCGAGCTGGACCTGGAGGACTTCGAGGATCCGGACCTGCAGGACAAGCTGGACCGCGCGCGCCGCCAGAGCATGGGGCGGATGAACCTGATGAGCCAGCTGTTCGGCCAGGTGCAGGACGCGATCACCGTGGTCAGCTTCGCCATCGGCCTGCTGGTGTACGCACCGTGGCTGATCGCGCTGCTGGGGGTGGCGCTGGTGCCGGCGTTCGTCGGCGAAGCGCACTTCAACGCGCTGGGCTACTCGCTCAACTTCCAGTGGACGCCGGAACGGCGCCAGCTCGACTACCTGCGCCAGGTCGGCGCCAGCGTCGAGACCGCCAAGGAAGTGAAGATCTTCAACCTGCACCGCTTCCTGGTCGAGCGCTACCGCGTGCTGGCCGAGAAGTTCTACCGCGCCAACCGCGCGCTGGCGCGCCGCCGCGCGCTCTGGGGCACGCTGCTGGCCGCGCTCGGCACGCTGGGCTATTACGCCGCCTACGGCTACATCGCCTGGCGCACCATCCGCGGCGATTTCAGCATCGGCGACCTGACCTTCCTGGCCGGCAGCTTCCTGCGCCTGCGCCAGTTGCTGGAGGGCCTGCTGGTGGGCTTCTCGCAGGTCGCAGGACAGGCGCTGTACCTGGACGACCTGTTCTCGTTCTTCCAGATCCGCCCCGAGATCAGCAGCAAGCCCGATGCGGTCGCGGTACCGCGGCCGATTGCCCGCGGCTTCGTGTTCGAGGATGTCGGCTTCCGCTATCCCGATGCCGAGCAGTGGGCGGTGCGCCACCTGGACTTCGAGCTGCGCGCCGGCGAGGTGCTGGCGCTGGTCGGCGAGAACGGCGCCGGCAAGACCACGCTGGTGAAGCTGCTGGCGCGGCTGTACGACCCGGACGAGGGCCGCATCCTGCTCGACGGCCGCGACCTGCGCGACTACGACCTGGACGACCTGCGCGCCAACATGGGGGTGATCTTCCAGGACTTCGTGCGTTACCACCTGAGCGCTGGCGAGAACATCGGCGTCGGCCGGGTCGAGGCGATGGCCGATCAGGCGCGGATCGAGGCGGCGGCGCGGCGGGCGCTGGCCGACGAGGTCATCGAGGCCTTGCCGCAACGCTACGCGCAGCTGATCGGGCGGCGCTTCAAGAGCGGCGTGGACCTGTCCGGCGGGCAATGGCAGAAGATCGCGATCGCCCGCGCCTACCTGCGCGACGCCCAGGTGATGATCCTCGACGAACCGACCGCGGCGCTGGACGCACGCGCCGAGTTCGAGGTGTTCGAGCGCTTCAAGGACCTCTCCGAACAGCGCACCGCGGTGCTGATCTCGCACCGCTTCTCCAGCGTGCGCATGGCCGACCGGATCCTGGTGCTGGCCGACGGCCGCATCGAGGCCAGCGGCACCCATGCTGAACTGATGGCCCAGGGCGGGCGCTATGCGGAGCTGTTCGAGCTGCAGGCCGCCGGCTATCGTTGA	MPPHLPAPQKKPSLRERFDALRNLPPFLREIWRTSRSLTLASLGLRLLRALMPVATLYVGKLIIDEAVRLANLQPGLHDLAGALGSGQLDHLLELLALELALAVGSDLFGRLVSYADNLLSELFNNSTSIRLMEHAAELDLEDFEDPDLQDKLDRARRQSMGRMNLMSQLFGQVQDAITVVSFAIGLLVYAPWLIALLGVALVPAFVGEAHFNALGYSLNFQWTPERRQLDYLRQVGASVETAKEVKIFNLHRFLVERYRVLAEKFYRANRALARRRALWGTLLAALGTLGYYAAYGYIAWRTIRGDFSIGDLTFLAGSFLRLRQLLEGLLVGFSQVAGQALYLDDLFSFFQIRPEISSKPDAVAVPRPIARGFVFEDVGFRYPDAEQWAVRHLDFELRAGEVLALVGENGAGKTTLVKLLARLYDPDEGRILLDGRDLRDYDLDDLRANMGVIFQDFVRYHLSAGENIGVGRVEAMADQARIEAAARRALADEVIEALPQRYAQLIGRRFKSGVDLSGGQWQKIAIARAYLRDAQVMILDEPTAALDARAEFEVFERFKDLSEQRTAVLISHRFSSVRMADRILVLADGRIEASGTHAELMAQGGRYAELFELQAAGYR				NA	NA	NA	NA	NA
BMS020_06769	408			hypothetical protein	ATGACACCCATGCCCCTCCGTTGCCGCCCCGCCCGCCTGCTCGCCGTCCTGGCCCTGGCCGTGCCCTGCACCGCGCTGGCGCAGACCGCGCCGATCGACTACATCGAAGCCAAGGCCCGCGCCGACCGCGACGAAGCGGCGCTGCCGCCGGAGCTGGCCACGCGCATGCTGCAAGCGCAAGCGCAGGCGCTCGACGCCGGGGTGGCGATGTGCGGCACGCCGAGCGCGGTCACCTCGCCGTTCACCATCGTGGTCCAGCTCGATGCCACCGGCGCGGTCAGCGCATCGTGGCGCAAGGGCGGCACGCCGCTGGCGATCTGCGTGGAGAAGTTCCTGCGCCAGCAGGTGCTGCCGGCCCCGCCGAGCGCGCCGACCTTCGTCTCGTTCGAGTTGAGCTTCACCCCTTGA	MTPMPLRCRPARLLAVLALAVPCTALAQTAPIDYIEAKARADRDEAALPPELATRMLQAQAQALDAGVAMCGTPSAVTSPFTIVVQLDATGAVSASWRKGGTPLAICVEKFLRQQVLPAPPSAPTFVSFELSFTP				NA	NA	NA	NA	NA
BMS020_06770	780	fpr_2	COG1018	Ferredoxin--NADP reductase	ATGTCCTCCGCTTTTGGCGCCGAAACGGTGCTTGAGGTCCGTCACTGGACGGACGCCTATTTCAGCTTCACCACCACCCGCGACAGCGGCTTCCGCTTCGAGAACGGCCAGTTCGTGATGATCGGCCTGGAAACCGAGACGCGCCCGCTGCTGCGTGCCTACTCCATCGCCAGCGCCAACTGGGAAGAACAGCTGGAGTTCTTCAGCATCAAGGTCCAGGACGGCCCGCTGACCTCGCGCCTGCAGCACATCAAACCGGGCGACAAGGTGCTGGTCGGCAAGAAGCCCACCGGCACGCTGTTGATCAGCGACCTGCACCCGGGCAAGAACCTGTACCTGCTCGGCACCGGCACCGGCATGGCACCGTGGCTGTCGATCATCAAGGACCCGGAGACCTACGAGCGCTTCGACAAGGTGATCCTCACCCACGGCGTGCGCTTCGAGAAGGACCTGGCCTACCGCGACTATTTCGAGAAGGAACTGCCGCAGCACGAGTTCCTCGGCGAGACCATCCGCGAGAAGCTGCTGTATTACCCGGCAGTGACCCGCGAGGCGTTCCCCAACCGCGGTCGCCTGACCGAACTGATGGCCTCCGGCGCGATGCAGCGCACGCTCGGCCTGCCGGATCTGGACCCGGCCAACGACCGCTTCATGATCTGCGGCAGCCCGCAGATGCTGGCCGACCTGCGCACCCTGCTGGACGCCCGCGGCTTCGAGACCTCGCCGCGCATCGGCAGCCCGGGCCACTACGTGTTCGAGCGCGCCTTCGTCGAGAAGTGA	MSSAFGAETVLEVRHWTDAYFSFTTTRDSGFRFENGQFVMIGLETETRPLLRAYSIASANWEEQLEFFSIKVQDGPLTSRLQHIKPGDKVLVGKKPTGTLLISDLHPGKNLYLLGTGTGMAPWLSIIKDPETYERFDKVILTHGVRFEKDLAYRDYFEKELPQHEFLGETIREKLLYYPAVTREAFPNRGRLTELMASGAMQRTLGLPDLDPANDRFMICGSPQMLADLRTLLDARGFETSPRIGSPGHYVFERAFVEK	PGPT0013215_2499	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528	NA	NA
BMS020_06771	414			hypothetical protein	ATGGACGGCGCCGGCGCGGAGCGGTATCGCTTGGACATCAACGTGCATGCGGTCGGCGTGCGCATCGGCCTGGGCGGCAGCACCGACAGCGTGTCGCAGTGGCGCGCCTGCTGGCAGCGGGTCGCGGCGGAGCTGGTGCGGCGGCGTCCGCCGGCGGCGTTGCTGGTCGATGAGCGCGAGGGCGCGCTGGCGTCGGTGGGGCAGCTGGAGGGCCTGCTCGACGGCATCGCCCATCTCGGCCTGCAGCAGCTGCCGATCGCCTATGTCGGCGACTGGCGGCGGCTGCCGCAGCTGGAAGTGCTGAACATGGCGCTGCTCGAGCGCGGCTATCGCGTGCGCGTGTTCGATGTCGAGGCCGACGCGGTGCGCTGGCTGCGCTACGGCGAACACGCCGCGGCGCGCGACGCTCACTGA	MDGAGAERYRLDINVHAVGVRIGLGGSTDSVSQWRACWQRVAAELVRRRPPAALLVDEREGALASVGQLEGLLDGIAHLGLQQLPIAYVGDWRRLPQLEVLNMALLERGYRVRVFDVEADAVRWLRYGEHAAARDAH				NA	NA	NA	NA	NA
BMS020_06772	552	gpx1_2		Hydroperoxy fatty acid reductase gpx1	ATGGCGGCGGCGCTGCGCTTGCCGGTGCGCGGGTGTGGCCGGAATAATGCCGGCATGAGTACCCGTGCTGCGGCGACGATCGCCGGATTCGAATACGAGACGCTGCAAGGCCGAACGCAGCCGTTGTCGGCATGGGACGGGCGTGTGCTGTTGATCGTCAATGTCGCCTCGCGCTGTGGCTTCACCCCGCAGTACGCCGGGCTGCAGGCGTTGTGGCAGCAGTACCGCGAGCGCGGACTGGTGGTGATCGGCTTCCCGTGCAACCAGTTCGGCCACCAGGAGCCGGGCGACGCGGCGCAGATCGCGGCGTTCTGCTCGCTCGACTATGGGGTGGATTTCCCGATGGCGGCGAAGGTCGACGTCAACGGCAGCGCCGCGCATCCGTTGTGGCGCTGGCTGCGGCACAGCCGCCGCGGCCTGTTCGGCACCCGTGCGATCAAGTGGAACTTCACCAAGTTCCTGGTCGGTCGCGACGGCCGCGTGCTGGGGCGGTATGCGCCGAGCGCGCGGCCCGAACGGCTGGCCGCCGACATCGAACGCGCGCTCGGCTGA	MAAALRLPVRGCGRNNAGMSTRAAATIAGFEYETLQGRTQPLSAWDGRVLLIVNVASRCGFTPQYAGLQALWQQYRERGLVVIGFPCNQFGHQEPGDAAQIAAFCSLDYGVDFPMAAKVDVNGSAAHPLWRWLRHSRRGLFGTRAIKWNFTKFLVGRDGRVLGRYAPSARPERLAADIERALG	PGPT0013115_4295	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013115-bsaA|gpx|btuE-K00432	NA	NA
BMS020_06773	2181	dcp_3	COG0339	Dipeptidyl carboxypeptidase	TTGACCACCCGTCTCGCTCTTGCCCTCGCCGCCTCGCTGGGCATCGCCATCCCGTCCTACAGCATCGCCGCGCCGGCCAGCGCCACGCAGGCCGCGCAGGCCGCCAATCCGTTCTTCGCCGAAAGCCCGCTGCCACTGCACTACCCGCAGTTCGACAAGATCAAGGACAGCGATTTCGCCCCAGCCTTCGACGCCGGCATGGCCGAGCAGCTCAAGCAGATCGATGCGATCGCCAACCAGAAGGCCAAGCCGACCTTCGACAACACGATCATCGCGCTGGAGAAGAGCGGCCAGGTGCTGGACCGCGCCACCACGGTGTTCTTCAACCTGGTCGGCACCGACACCAACGACACCCGCAAGCAGCTGCAGGCCGATTACTCGGCCAAGTTCGCCGCGCACCGCGATGCGATCTCGCTCAACGGCAAGCTGTTCGCGCGCATCCAGGCGCTGTACGACAAGCGCCAGTCGCTGGGCCTGGACGCCGAGGGCGTGCGCCTGGTCGAGAAGTACTACGCCGACTTCGTCCGCGACGGTGCCAAGCTGTCCGAAGCCGACAAGGTCACGCTGAAGGCGATGAACGCCGAGCTGGCCAACCTCGGCACGCAGTTCAGCCAGAACGTGCTCAACGAGGTCAACGCCTCGGCGGTGGTGGTCGACGACGTCAAGCAGCTCGACGGCCTGTCCGAGGAGCAAATCGCCGCCGCGGCCGAGGCCGCCAAGGCGCGCAAGCTCGACGGCAAGTACGTGATCGCGCTGCTCAACACCACCGGCCAGCCGCCGCTGGCCCAGCTCAAGGACCGCGCGCTGCGCCAGCGCATCTACGAAGCCTCGGTCAACCGCGGCAGCCACGGCGGCCAGTACGACACCACCGCGCTGGTCGCGCGGATCATGAAGCTGCGCGCGCAGAAGGCCAAGCTGCTCGGCTTCCCGACCTATGCCGCCTACTCGCTGGAGAACCAGACCGCCAAGACCCCCGAGGCGGTCAATGCGATGCTCGGCCAGCTGGCCCCGGCCGCGGTGAGCAACGCCAAGCGCGAAGCCGCCGACCTGCAGGCGATGATCGACAAGGAGCAGAAGGCCGCGCGCAAGCCCAGCTTCACCCTGGAAGCCTGGGACTGGGCGTTCTACAGCGAGAAGGTGCGCCAGGCCAAGTACAACTTCGACGAGTCGCAGCTCAAGCCGTACTTCGAGATGAAGAACGTGCTGGAAAACGGCGTGTTCTACGCCGCCAACCAGGAGTACGGGCTGAGCTTCAAGGAACGCCACGACCTGCCCAAGTACCGCGCCGACACCTTCGTCTACGACGTGTTCGACGCCGACGGCAAGCAGCTGGCGATCTTCATCTTCGACCCGTACGCACGTGCCTCCAAGCGCGGCGGCGCCTGGATGAACTCCTACGTGTCGCAGTCGGCGCTGACCGGCGACAAGCCGGTGGTGGCCAACCACCTCAACATCCCCAAGCCGCCGGAAGGCCAGCCGACGCTGCTGACCTGGGACGAGGTCACCACCACGTTCCATGAGTTCGGCCATGCGCTGCACGGCATGTTCTCCAACGTGAAGTACCCGTACTTCTCCGGCACCAGCGTGCCGCGCGACTTCGTCGAGTTCCCCTCGCAGGTCAACGAGATGTGGGCCGACTATCCGTCGATCCTGCAGCACTACGCCAAGCACTACCAGAGCGGCGCGGCGATGCCGCAGGCGCTGCTGGACAAGGTCGTGGCCGCGGCCAAGTTCAACCAGGGCTTCGCCACCACCGAATACCTGGGCGCGGCGATGCTCGACCAGAACTGGCACCAGCTCGGCGCCGACCAGGTGCCGGACGCCGGCGGCGTGATGGCGTTCGAGGCCCAGGCGCTGGCCAAGGATGGGATCGCCTACGCGCCGGTGCCGCCGCGTTACCGCACGCCGTATTTCAGCCACATCATGAGCGGCTACGCGGCCGGTTACTACGCCTACATCTGGTCGGAGGTGCTGGACGCCAACACCCAGCAGTGGTTCCGCGAACACGGCGGCCTGAGCCGCGCCAACGGCGACCACTTCCGCGCCACGCTGTTGTCCAAGGGCGGCAGCGTCGATGCGATGCAGCTGTTCCAGGACTTCGCCGGTCACGCCCCGCAGATCGAGCCGCTGCTCGAGAAGCGCGGCCTGAGCACCGGCACCGAGGCTGCGCCGGCCAAGTAA	MTTRLALALAASLGIAIPSYSIAAPASATQAAQAANPFFAESPLPLHYPQFDKIKDSDFAPAFDAGMAEQLKQIDAIANQKAKPTFDNTIIALEKSGQVLDRATTVFFNLVGTDTNDTRKQLQADYSAKFAAHRDAISLNGKLFARIQALYDKRQSLGLDAEGVRLVEKYYADFVRDGAKLSEADKVTLKAMNAELANLGTQFSQNVLNEVNASAVVVDDVKQLDGLSEEQIAAAAEAAKARKLDGKYVIALLNTTGQPPLAQLKDRALRQRIYEASVNRGSHGGQYDTTALVARIMKLRAQKAKLLGFPTYAAYSLENQTAKTPEAVNAMLGQLAPAAVSNAKREAADLQAMIDKEQKAARKPSFTLEAWDWAFYSEKVRQAKYNFDESQLKPYFEMKNVLENGVFYAANQEYGLSFKERHDLPKYRADTFVYDVFDADGKQLAIFIFDPYARASKRGGAWMNSYVSQSALTGDKPVVANHLNIPKPPEGQPTLLTWDEVTTTFHEFGHALHGMFSNVKYPYFSGTSVPRDFVEFPSQVNEMWADYPSILQHYAKHYQSGAAMPQALLDKVVAAAKFNQGFATTEYLGAAMLDQNWHQLGADQVPDAGGVMAFEAQALAKDGIAYAPVPPRYRTPYFSHIMSGYAAGYYAYIWSEVLDANTQQWFREHGGLSRANGDHFRATLLSKGGSVDAMQLFQDFAGHAPQIEPLLEKRGLSTGTEAAPAK				NA	NA	NA	NA	NA
BMS020_06774	498	mprA_3	COG1846	Transcriptional repressor MprA	ATGGGCAGTTTCGATGCCACCGAACAGCGGGTCATGGTCACGTGCGGGCGCTACCCGGCGTTTCCGCGCGAGCCGGCGATCCTGGTGCGTCTGATCAAGCATCTGTACAAGCGCATCCACGCCAACGCCAACGGGCTGCTGCGGCCCTACGGCATCAGCCATCCCGAGTACGACGTGCTGATGATGCTGCTGGGCACGCCGGACCGGTCGCTGACGCCGAGCGAGGTGGCCGAGGCGGTGGGCGAGAAGATGGCCAACGTCACCCGCCTGACCGGGCAGCTGTGCGACAAGGGGTTGATCCGCCGCGCCGGCAGCACCAAGGACCGGCGCAAGGTGGTGCTGACGCTGGAGCCGGCTGGCGAGGAGCTGATCGGGCGCATGCTCGACGAGATCTGCGGCCTGCTGCTGCAGGAAGTCTCCGGCCTGGCCGAAGGCGAACAGCTGCGGCTGGAGAAGCTGCTGAAGAAAATGCTGATCGGCATGGACAGCGTCGGCTGA	MGSFDATEQRVMVTCGRYPAFPREPAILVRLIKHLYKRIHANANGLLRPYGISHPEYDVLMMLLGTPDRSLTPSEVAEAVGEKMANVTRLTGQLCDKGLIRRAGSTKDRRKVVLTLEPAGEELIGRMLDEICGLLLQEVSGLAEGEQLRLEKLLKKMLIGMDSVG	PGPT0029235_409	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029235-emrR|mprA-K15974	NA	NA
BMS020_06775	858			hypothetical protein	ATGGGATCGAGGAGCGTCGGTGATCGGCAGGGCGGGGCCGCGGTGCTGCTCGCGCTCGCGCTGCTGGCTGGGTGTGACCGGCCGGCGGCGCCGGCCGCCGACGTGCCACCAGCCACCGCTCCCGACGCGCCGCCAGCCGTGTCCGCCGCACCGGCGCCTGCGGCCGAGCCAGCGTTGCTGCAGGACCTGGCCGAGCGTACGCCGACCCATGTCATCGGCATCAGCTATCCGGCTGGGCTGGCGCAGTACCCCGGGCTGGCGCAGCACGTGCACGAATACGCGATGTCGGCGCGCGCCGGGTTGCTCAAGGCGGTCGAGGGCCTGGGCAACGATACCCCGCCGGCGCCTTACGAACTCTCGCTGGGCTTCAGCATCCTGCTGGAAACCCCGGAGCTGGTGGTGGTGGCCGCCGACGGCAGCCGCTACACCGGTGGCGCGCATGGCGAGCCGCTGGTGGCACGCTTCGTCTGGCTGCGCCAGCAGCAGCGCCAGCTGACCGCGGCCAGCCTGATCCCGGAAGCGGCCGGATGGGCCGAGGTCGGTCGCTATGCCGCCGCGCAGCTGCACGCCTCGGCCGAAGCACGCGGGCGTGCCGACCGCCTGCCCGACGAAGAGCGCGAGGAATACCTGCGTTCCAGTGACCGGATGATCGCCGAGGGCACCGCGCCGCTGCCGGAGCACTTCGCCGAGTTCGAGCCGCGGGTCGATGGCGCCGGCAAGATCAGTGCGGTGCGCTTCGTATTCCCGCCGTACCAGGTGGCGCCGTACTCGGATGGCACCCGGACCGTGGATGTGCCCGCGGCGCTGCTGCGACCGCTGGTCGCGGCCGAATACGCCGGCCTGTTCGCCGGCGGCTAG	MGSRSVGDRQGGAAVLLALALLAGCDRPAAPAADVPPATAPDAPPAVSAAPAPAAEPALLQDLAERTPTHVIGISYPAGLAQYPGLAQHVHEYAMSARAGLLKAVEGLGNDTPPAPYELSLGFSILLETPELVVVAADGSRYTGGAHGEPLVARFVWLRQQQRQLTAASLIPEAAGWAEVGRYAAAQLHASAEARGRADRLPDEEREEYLRSSDRMIAEGTAPLPEHFAEFEPRVDGAGKISAVRFVFPPYQVAPYSDGTRTVDVPAALLRPLVAAEYAGLFAGG				NA	NA	NA	NA	NA
BMS020_06776	288			hypothetical protein	ATGCTGAAGGCGGAGGCGGGACAGGTCTGGCATACGCCGGAATCGCAGTGCTTCTCGCTGGACCAGGACGGCCACCGCGCGGTGCTGGATTACCGCCTCGCCGACGGGGTCATGACCATCGTCCACACCGGCGTGCCGCAGGCGATCGGCGGCCGTGGCATCGCCGCGGCGCTGACCGCGGCGGCGCTGGCGGTGGCCCGGCGCGAGGGCTGGACCGTGGTGCCGGCCTGCTCCTATGCCGAGGCCTACTTCCAGCGCCACCCCGGAGAACGGGATCTGCTGGGCTGA	MLKAEAGQVWHTPESQCFSLDQDGHRAVLDYRLADGVMTIVHTGVPQAIGGRGIAAALTAAALAVARREGWTVVPACSYAEAYFQRHPGERDLLG	PGPT0021955_152	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021955-lcdH|cdhA-K17735	NA	NA
BMS020_06777	198			hypothetical protein	ATGAGCGACCAGGCACCCCGTAGCACCGACCCCGACAGCAGCCTGCTGGAAGGACTGTTCCAGCTGGCCGTCGCCGGCCGCACCGGTGGCAGCGAATTCGCCGCCCTCAACGCCGAGGTCTACCAGCGACTGCAGTCCGCCTACGGCGGACCGGCCAACAGCCCGATCAGCCACGGCTTCAACCGCACCGCCGCCTGA	MSDQAPRSTDPDSSLLEGLFQLAVAGRTGGSEFAALNAEVYQRLQSAYGGPANSPISHGFNRTAA				NA	NA	NA	NA	NA
BMS020_06778	612	glpG_2		Rhomboid protease GlpG	ATGATCACCCTGATCCTCATCGCCATCACCGCCATCGTCTCCTGGATGGCCTTCAGCAACCGCAAGCTCGCCGATCGCCTGATCCTGTGGCCGCCGGCGGTGGACCGGCACAAGCAGTACGACCGGCTGGTGACCTACGGCTTCATCCATGCCGACCTGGGGCACCTGGTCTTCAATATGATCACGCTGTACTTCTTCGGCCGCCCGATCGAGCGGGTGATGACCCAGACCACCGGCAGCCTGCTGACCTACCCGCTGTTCTACCTGGCGGCGCTGGTGGTCTCGATCATGCCGAGCTACTTCAAGAACCAGAAGAACCCGAACTACCTCAGCCTGGGCGCGTCAGGGGCGGTATCGGCGGTGCTGTTCGCCTACATCCTGCTGTCGCCGTGGACGATCATCCTGGTGTTCTTCATTCCGGCGCCGGCGATCATCTACGCGGTGTTCTACGTCGGCTACAGCATCTGGATGGACCGCCGTGGCGGCGACCGCATCAACCACAGCGCGCACCTGGCCGGGGCCGCGTTCGGGGTGATGTTCATGCTGATCATGGCCCCGGACGTGCTGCCGCACTTCCTGCAAGCGCTGGGCAACCCGCGCTTCGGCGGCTGA	MITLILIAITAIVSWMAFSNRKLADRLILWPPAVDRHKQYDRLVTYGFIHADLGHLVFNMITLYFFGRPIERVMTQTTGSLLTYPLFYLAALVVSIMPSYFKNQKNPNYLSLGASGAVSAVLFAYILLSPWTIILVFFIPAPAIIYAVFYVGYSIWMDRRGGDRINHSAHLAGAAFGVMFMLIMAPDVLPHFLQALGNPRFGG				NA	NA	NA	NA	NA
BMS020_06779	1551	dtpT_2	COG3104	Di-/tripeptide transporter	ATGACGACCACCGCCACCGCGGCGCGCATGCCGCGCCAGATTCCCTACATCATCGGCAACGAGGCCTGCGAGCGCTTCAGCTTCTACGGGATGCGCAACATCCTGGTGCAGTTCCTGATCACCTCGCTGCTGCTGCAGGAAGTGACTGCGCCCGGCCGCGAGGCCGAAGCCAAGCACATCATGCACAGCTTCATGATCGGGGTGTATTTCTTCCCGCTGCTGGGCGGCTGGCTGGCCGACCGCTTCTTCGGCAAGTACCGCACCATCCTGTGGTTCTCGCTGGTGTACTGCGCCGGCCACGCCTGCCTGGCGTTGTTCGAGGGCAGTCGCAGCGGCTTCTTCCTCGGCCTGGGGCTGATCGCCTTCGGCGCCGGCGGGATCAAGCCGCTGGTGGCCTCGTTCATGGGCGACCAGTTCGACCAGTCCAACAAGCACCTGGCCAAGCTGGTGTTCGACGCCTTCTACTGGATCATCAACTTCGGCTCGTTGTTCGCCTCGCTGCTGATCCCGCTGGCGCTGAAGAACCTTGGCCCGGCCTGGGCGTTCGGCATCCCCGGCATCCTGATGTTCGTGGCCACGCTGGTGTTCTGGCTGGGCCGGCACCGCTACGTGCTGGTGCCGCTGCCGCCGGAAGACCCGCACGCGTTCGGCAAGGTGGCGCGCACCGCGCTGCTGGCGCATGCGCCGGGGCAGGGGCGGCCGGGACTGGTGCTGGCGGGGGTGTCGGTGCTGGCCGCGCTGGCCTGTTTCGGCCTGGTGGAAACCCTGGGCATCGTCATCTGCCTGTGCCTGGCGCTGGTGCTGCTGCTGGCCGGCATCGGCGGTGGCACCTGGTGGCAGCTGGAGCGCGCCCGCGGCGTGCATCCGGACGTGGCGGTCGACGGCGTGCGCGCGGTGCTCAAGGTGCTGGTGATCTTCGCGCTGGTCACGCCGTTCTTCTCGCTGTTCGACCAGAAGGCCTCGACCTGGGTGCTGCAGGGCCAGCAGATGACCATGCCGGCCTGGTTCAGCGCCTCGCAGATGCAGGCGCTGAATCCGGCGCTGGTGATGCTGCTGATCCCGTTCAACAACCTGGTGCTGTACCCGCTGTTGCGGCGCTTGGGCTGGGAGCCGACCGCGCTGCGACGGATGACCGCCGGCATCGCCTTCAGTGGCCTGGCCTGGGTGGTGGTGGGGATGCTCCAGGTGGCGATGGACGGCGGCGACGCGATGCACATCGCCTGGCAGATCCTGCCGTACGCGCTGCTGACCTTCGGCGAGGTGCTGGTGTCGGCGACCGGCCTGGAGTTCGCCTACAGCCAGGCGCCGGCGCCGATGAAGGGCGTGGTGATGAGCTTCTGGAACCTGACCACCACGGTCGGCAACCTGTGGGTGCTGCTGTCCAACGCAGCGGTGCGCAACGACGTGGTCACCGGCCACATCGCCGACACCGGGCTGAGCGAGGCCGCGTTCCTGATGTTCTTCTTCGCCGCGTTCGCGTTCCTGGCGGCGCTGGCCTTCGGCCTGTATGCACGGCGCTACCGCACCGTCGACAATTACCGCACCGCCTGA	MTTTATAARMPRQIPYIIGNEACERFSFYGMRNILVQFLITSLLLQEVTAPGREAEAKHIMHSFMIGVYFFPLLGGWLADRFFGKYRTILWFSLVYCAGHACLALFEGSRSGFFLGLGLIAFGAGGIKPLVASFMGDQFDQSNKHLAKLVFDAFYWIINFGSLFASLLIPLALKNLGPAWAFGIPGILMFVATLVFWLGRHRYVLVPLPPEDPHAFGKVARTALLAHAPGQGRPGLVLAGVSVLAALACFGLVETLGIVICLCLALVLLLAGIGGGTWWQLERARGVHPDVAVDGVRAVLKVLVIFALVTPFFSLFDQKASTWVLQGQQMTMPAWFSASQMQALNPALVMLLIPFNNLVLYPLLRRLGWEPTALRRMTAGIAFSGLAWVVVGMLQVAMDGGDAMHIAWQILPYALLTFGEVLVSATGLEFAYSQAPAPMKGVVMSFWNLTTTVGNLWVLLSNAAVRNDVVTGHIADTGLSEAAFLMFFFAAFAFLAALAFGLYARRYRTVDNYRTA	PGPT0021010_1012	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021010-TC_POT-K03305	NA	NA
BMS020_06780	1773			hypothetical protein	ATGGCCCGCCTGACGCGCCTGGCCCTGAGCCTGCTGCTGACCGCCACATGCCAGCCCACCCTGGCGGCCGACGCGCCATTGAGCACCGCCTCCGAACGTAGCGGTTTCGTCCGCACCGGCGACTACGCCGAGGTCGTCGCGCTGTGCGACGCCTTCGCCCGGCGCTACCCGCAGGCGGTGCGATGCATCAGCTACGGCACCAGCCCGGAAGGCCGGCCGATGCAGGCCCTGGTCGCCTCGACCAGCGGCGCGCTCGACGCCGACGCCGCCTCGGCGCGCGGATTGCCGGTGGTGCTGATCCAGGGCGGCATCCACGCCGGCGAGATCGAAGGCAAGGACGGCGGTTTCCTCGCGCTGCGCGAGCTGCTCGAGGGCAAGCGCGCCGCCGGCACGCTGGACAAGGTGGTCTGGCTGTTCGTGCCGGTGTTCAACGTCGACGGCCACGAGCGCAGCGGCGCCTGGAACCGGCCCAACCAGCGCGGCCCGGAGGAAATGGGCTGGCGCACCACCGCGCAGAACCTCAACCTCAACCGCGACTACACCAAGGCCGACGCCCCGGAGATGCAGGCGATGCTGCGGCTGGTGCAGCAGTGGGACCCGCTGGTCTACGTCGACCTGCACACCACCGACGGCGCCCAGTTCGAGCACGACGTGTCGGTGCAGGTCGAGCCGGTGCATGCCGGCGATGCGGCCCTGCGCGGCGACGGCGTGCAGCTGCGCGACGGCGTGATCGCCGACCTGAAGCGCGGCGGCTCGCTGCCGCTGCCGTTCTATCCCTCGCTGCGCAGCAACGACGACCCGAGCTCCGGCTTCGAGGACCTGCTGTACCCGCCGCGCTTCTCGCACGGCTATTTCCAGCTGCGCAACCGCTTCGGCATGCTGGTGGAAACCCATTCGTGGAAGCCCTACCCGATCCGGGTGCAGGTGATGCGCAACGCGATCGTCGCGGTGCTGGCGCAGACCGCCGCGCACGCGCGCGACTGGCGCGATGATGCCGCCGCCGCCGACCAGCGCAGCGCGCAGCTGGCCGGGCAGCCGGTGGTGCTGGACTACACGCTGGGCGAGCAGCATCACGCCATCGACTTCCGCGGCTACGCCTACACGCGCACGCCGTCGGACGTGTCCGGCGCGCTGATGACGCGCTACGACGAGCGCACGCCGCAGATCTGGCGCGTGCCGCTGTACGACCAGAACCTGCCCAAGCTCACCGTCGATGCGCCGCGCGGCGGCTACGTGGTGCCGGCCGCCTGGGCCACCGACATCGGCGCACGCCTGAAGGTCCAGGGCATCGCGTTCACCACGATTGCCGCTGCCGGCACGCACCCGGTGCAGGTGTTCCGCGCCGACAGCGCCGAGTTCGCCAAGCGCCCCAGCGAAGGCCGCCAGCGCGTCAGCGTGACCGGCCAGTGGCGCGACGAACAGCGCGCGGTGCCGGCCGGCTCGCTATACGTGCCGATCGCCCAGCCCAAGGCGCGGCTGGCGATGACCCTGCTCGAACCGCTGGTGCCGGACTCGCTGCTGCAATGGGGCGAGTTCAACAGCAGCTTCGAGCGGGTCGAATACATGGAGGCCTATGTCGCCGAGGATGTCGCCCGCGACCAGCTGGCGCGCGATCCGGCACTGAAACAGGCCTTCGAGCAGAAGCTGCGCGACGATCCGGCGTTCGCCGCCGACCCGCGCGCGCGGCTGGAGTTCTTCGCCCAACGCCACCCGTCCTGGGACGAGCGTTACCGGCTCTACCCGGTGATGCGCAGCGACCTGCCGCTGCGCTGA	MARLTRLALSLLLTATCQPTLAADAPLSTASERSGFVRTGDYAEVVALCDAFARRYPQAVRCISYGTSPEGRPMQALVASTSGALDADAASARGLPVVLIQGGIHAGEIEGKDGGFLALRELLEGKRAAGTLDKVVWLFVPVFNVDGHERSGAWNRPNQRGPEEMGWRTTAQNLNLNRDYTKADAPEMQAMLRLVQQWDPLVYVDLHTTDGAQFEHDVSVQVEPVHAGDAALRGDGVQLRDGVIADLKRGGSLPLPFYPSLRSNDDPSSGFEDLLYPPRFSHGYFQLRNRFGMLVETHSWKPYPIRVQVMRNAIVAVLAQTAAHARDWRDDAAAADQRSAQLAGQPVVLDYTLGEQHHAIDFRGYAYTRTPSDVSGALMTRYDERTPQIWRVPLYDQNLPKLTVDAPRGGYVVPAAWATDIGARLKVQGIAFTTIAAAGTHPVQVFRADSAEFAKRPSEGRQRVSVTGQWRDEQRAVPAGSLYVPIAQPKARLAMTLLEPLVPDSLLQWGEFNSSFERVEYMEAYVAEDVARDQLARDPALKQAFEQKLRDDPAFAADPRARLEFFAQRHPSWDERYRLYPVMRSDLPLR				NA	NA	NA	NA	NA
BMS020_06781	2250	bglB_3	COG1472	Thermostable beta-glucosidase B	TTGGCTCGCCCACGCATGAAAACGATTACATACGCCTGCCGCGCCGCGTTGGCCGGTGCTTCGCTGGCCGCCGCACTGACCATCGTCGCCCCGGCGATGGCGCAGCAGGCCGCCGCCGCGCGGCCATGGATGGACAGCAGCCTGAGCGCCGATGCGCGGGCCGACCTGCTGGTCGCACAGCTGACCCAGGACGAGAAATTCGTGCTGATCCGCAGCTATTTCGGCCTGGACAGCGACAAGACCAAAAAGCCGGCCGGCGCGCTCGGCTCGGCCGGCTACGTGCCCGGCATCGAACGCCTCGGCATCCCCGCCCAGCAGCTGGTCGATGCCGGCCTGGGCGTGACCAATCCCGGCGGCGTGCGCCCCGGCGACTACGCCACCGGCATGCCGTCCGGCCCGGCCACCGCGTCGACCTGGAACCCCGAACTCGCCTTCGCCGGCGGCGCGACGATGGGCCGCGAGGCCTGGCAGCAGGGCTTCAACGTGCTGCTCGCCGGCAGCGTCAACCTGCAACGCGACCCGCGCAACGGCCGCAACTTCGAATACGCCGGCGAGGACCCGTTGCTGGCCGGCACGATGGTCGGCGAATCGATCCGCGGCGTGCAGAGCGAGCACGTGCTGTCGACGATGAAGCACTACGCGATGAACGACATGGAGACCCGGCGCAACTTCCACAGCGCCGAGATCGGCGAGCAGGCGATGCACGAGTCGGACCTGCTGGCGTTCGAGATCGCGCTCGACATCGGCCATCCCGGCTCGGTGATGTGCTCGTACAACAAGATCAACGGCGTCTACGGCTGCGAACACGACTACCTGCTCAACCAGGTGCTGAAGCAGGAATGGAAGTACCCCGGCTACGTGATGTCCGACTGGGGCGGCGTGCACAGCGGCTCGAAGGCGGCGCTGGCCGGGCTGGACCAGCAGTCCGCCGGCGAGGTGTTCGACGCGGCGGTGTTCTTCGATGCGCCGCTGCGGATGGCGGTCGACGCCGGCGTGGTGCCGCGCGCGCGCCTGGACGACATGGTCCACCGCATCCTGCGCAGCCTGATCGCCGTGGGCGCGTTCGACACCCCGCCGCAGCGCCAGCCGATCGACGGCCAGGCCGGCCTGCTGGCAGCCCAGCGCGTCACCGAGGAAGGCGCGGTGCTGCTGCGCAATGAAGGCGGCGCGCTGCCGCTGCATGCCGGGCTCAAGCGCGTGGTGGTGATCGGCGGCCATGCCGACAAGGGCGTGCTGGCCGGCGGCGGTTCCTCGCGCATCGACTTCACCGTCAACGGCGGCAACGCGGTGCCGGGGCTGAGCCCGACCACCTGGCCGGGCCCGGTGATCGTGCAGCCCTCGCCACCGCTGCAGGCGCTGCGCGCGGCGCTGCCGGGCGTGCAGATCGACTACGTCGACGGCCACGACCCGGCCGCCGCCGCGCGCGCAGCCAAGGGCGCCGATGCGGCGGTGGTGTTCGCGCTGCAATGGGCAGCCGAATCGGTCGACCTGCCCGACATGGCGCTGCCGGACCGCCAGGACGCGCTGATCGCCGCAGTCGCCAAGGCCAATGCCAACACCACCGTGGTGCTGGAGACCAACGGCCCGGTGCGGATGCCGTGGCTGCAGCAGGTGCCGGCAGTGCTGCAGGCCTGGTACCCGGGCATCGGCGGTGGCCCGGCGATCGCCAACCTGCTGACCGGCAAGGTCAACCCGTCCGGCCACCTGCCGGTGAGCTGGCCGGTCGACGAATCGCAGCTGCCGCGGCCGTCGATCCCCGGCCTGGGCTTCAAGCCGGCCAAGTCCGGCGAGGACACCATCGACTACCGCATCGAAGGCGCCAACGTCGGCTACAAGTGGTTCGCCGCCAAGGGCCTGCAACCGCAGTTCGCGTTCGGCCACGGCCTGTCCTACACCGGCTTCGACTTCGGCGGACTGCAGGTCAGCGCCGAGGGCACCCGGCTGCGGGCGAGCTTCGAGGTGGTCAATACCGGCCAGCGCGAAGGCGCGGCGGTGCCGCAGCTGTACCTGCACCTGCCGGCCGGGCACGCCACGCCGGTGCGGCTGATCGGCTGGCAGAAGCTGAGCCTGAAGCCGGGCGAACGCCGCAGCGTGAGCGTGGAGGTCGACCCGCGCCTGCTGGCCGATTTCGATCCGCAGGCGCGGCAGTGGACGATCGCCGCCGGCAGCTACCGCGTGGAGCTGGCGCGCGCCGCCGGCGATGCGGTGCAGAGCGCCAACGTCGAACTGCAGGCGGCCACGCTGCCCTGA	MARPRMKTITYACRAALAGASLAAALTIVAPAMAQQAAAARPWMDSSLSADARADLLVAQLTQDEKFVLIRSYFGLDSDKTKKPAGALGSAGYVPGIERLGIPAQQLVDAGLGVTNPGGVRPGDYATGMPSGPATASTWNPELAFAGGATMGREAWQQGFNVLLAGSVNLQRDPRNGRNFEYAGEDPLLAGTMVGESIRGVQSEHVLSTMKHYAMNDMETRRNFHSAEIGEQAMHESDLLAFEIALDIGHPGSVMCSYNKINGVYGCEHDYLLNQVLKQEWKYPGYVMSDWGGVHSGSKAALAGLDQQSAGEVFDAAVFFDAPLRMAVDAGVVPRARLDDMVHRILRSLIAVGAFDTPPQRQPIDGQAGLLAAQRVTEEGAVLLRNEGGALPLHAGLKRVVVIGGHADKGVLAGGGSSRIDFTVNGGNAVPGLSPTTWPGPVIVQPSPPLQALRAALPGVQIDYVDGHDPAAAARAAKGADAAVVFALQWAAESVDLPDMALPDRQDALIAAVAKANANTTVVLETNGPVRMPWLQQVPAVLQAWYPGIGGGPAIANLLTGKVNPSGHLPVSWPVDESQLPRPSIPGLGFKPAKSGEDTIDYRIEGANVGYKWFAAKGLQPQFAFGHGLSYTGFDFGGLQVSAEGTRLRASFEVVNTGQREGAAVPQLYLHLPAGHATPVRLIGWQKLSLKPGERRSVSVEVDPRLLADFDPQARQWTIAAGSYRVELARAAGDAVQSANVELQAATLP	PGPT0019110_4844	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
BMS020_06782	798			hypothetical protein	ATGGCGTTGGCCCTGGGCCTGGCCCAGGCGCGCGCCTTCGCCGCGCAGCCCTTGCCACCGCCCCTGCCCCCGGCGCCGCCGCAGGCACTGACCGTGGCCACGCTGCATCTGGGCCTGGAGCCGGAGCCGTGGTTGCGCCAGCGCGAACGGATCGTGGCGACGCTGCAGCGCCTGCGTCCGGACGTGATCGCGCTGCAGGACGTGCGCCAGTCGCCCGACCTGCCCAACCAGGCCTGCTGGCTGGCGGCGCGGCTGGACTACAGCTGCAGCTTCATCACCGCCGATCCGCCCAGCCGCGCGCAACGCAGCGGCAACGCACTGCTGGCGCGGCAACCGGTCGTCTCCGACGCTGTGACCCTGTTGCATCCGTTCGCGATGGCCAGCACCGCCGGCATGGTGCAGCTGGACATCGGCGGGCGCGCGGTCAACATCTACGTGACCCGCCTGTTCGACGATGCCGGCCAGGCCCCGGCCGACGCCGCGGCGATCCGCGCCGCGCAGGTGCAGAACCTGCTGCGCTGGATCACCGCCACCGCCGGCGACGCGCCGTCGCTGCTGCTCGGTGACATGGCCGCGCCCGGCGATGCGCCGGAACTGCGCGGGCTGGCCCCGCACTACCTGCACGCCGGCGGCCATGCCGATGGCAGCGAGCAGGTGTTCGTGCAACCGCCGCTGCGCGCCGTCGGCAGCAGCCTGCTGCTGGAAACCGGCAACAGCGGCGATTCCCGCAGCGGGGTGCTGGTCACCATCGCGCTGCCGCAGCCGCAGGACCAGGCGGCCGAGATCGTCAGCCACTGA	MALALGLAQARAFAAQPLPPPLPPAPPQALTVATLHLGLEPEPWLRQRERIVATLQRLRPDVIALQDVRQSPDLPNQACWLAARLDYSCSFITADPPSRAQRSGNALLARQPVVSDAVTLLHPFAMASTAGMVQLDIGGRAVNIYVTRLFDDAGQAPADAAAIRAAQVQNLLRWITATAGDAPSLLLGDMAAPGDAPELRGLAPHYLHAGGHADGSEQVFVQPPLRAVGSSLLLETGNSGDSRSGVLVTIALPQPQDQAAEIVSH	PGPT0019110_255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
BMS020_06783	612	sodB_3		Superoxide dismutase [Mn/Fe]	ATGGCTTACACCCTCCCCAAGCTGCCGTACGCCTACGACGCGCTTGAACCCAACATCGATGCGCAGACGATGGAAATCCATCACACCAAGCATCACCAGACCTACATCAACAACGTCAACGCGGCGCTGGAAGGGACCGAGTACGCCGACCTGCCGGTCGAGGAGCTGGTGTCCAAGCTGAAGTCGCTGCCGGAGAACCTGCAGGGCCCGGTGCGCAACAACGGTGGCGGCCACGCCAACCACTCGCTGTTCTGGACCGTGATGTCGCCCAACGGCGGCGGCGCGCCGAAGGGCGATGTCGCCAAGGCGATCGACACGGACCTGGGCGGTTTCGACAAGTTCAAGGAAGCCTTCACCAAGGCGGCGATCAGCCGTTTCGGTTCGGGTTGGGCGTGGCTGAGCGTGACCCCGGACAAGAAGGTCGTGGTCGAGAGCACCGCCAACCAGGACAGCCCGCTGTTCGAGGGCAACACCCCGATCCTGGGTCTGGACGTGTGGGAACACGCCTACTACCTGAAGTACCAGAACCGCCGCCCGGAATACATCGGCGCGTTCTACAACGTGGTCGACTGGGACGAGGTCGAGCGCCGCTACCAGGCTGCGATCGCCTGA	MAYTLPKLPYAYDALEPNIDAQTMEIHHTKHHQTYINNVNAALEGTEYADLPVEELVSKLKSLPENLQGPVRNNGGGHANHSLFWTVMSPNGGGAPKGDVAKAIDTDLGGFDKFKEAFTKAAISRFGSGWAWLSVTPDKKVVVESTANQDSPLFEGNTPILGLDVWEHAYYLKYQNRRPEYIGAFYNVVDWDEVERRYQAAIA	PGPT0004190_3724	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
BMS020_06784	453			hypothetical protein	ATGCGCCGTCCCGTTCTGCTCGCCATTGCCGTGATCGTGCTGGTGGCGGGCCTGTGGGGAATGCGCGAGCTGCAGCGCCCCCGGCCGCAGTTCGCCCCGCAACTGGACGCGCCGGCCGTGGTGGTCCCGCCGCCGGCCAGCCGTGCCGCCGATAGCGCCGCGCTGCCGCCCTTCCTGCCGGAGCAGGCGCGCGCCACCATCGCCCTGATCCAGCGCGGCGGGCCGTTCCCGCACCGCCAGGACGGCAGCGTGTTCGGCAACCGCGAGCACCGCCTGCCCGAGCGTCCGCGCGGCTACTACCGCGAGTACACGGTGGAGACGCCGGGCGAGAACGACCGCGGCGCGCGGCGCATCGTCACCGGCGGCGACCCGGCCGAGATCTGGTATTACAGCGACGACCACTACGCCAGCTTCCGCAGCTTCAGCGTGCCGGCGGCGGAAACGCCGCGATGA	MRRPVLLAIAVIVLVAGLWGMRELQRPRPQFAPQLDAPAVVVPPPASRAADSAALPPFLPEQARATIALIQRGGPFPHRQDGSVFGNREHRLPERPRGYYREYTVETPGENDRGARRIVTGGDPAEIWYYSDDHYASFRSFSVPAAETPR				NA	NA	NA	NA	NA
BMS020_06785	432			hypothetical protein	ATGAGCGGCGGCTTCGACCTGGACCTGGCCAATCCGGACAACGCTGGCGTCTACGCCGTGGCCGAGTCCGACCTGGACACGATGGCGGCACTGGCGCGTGGCGCTGGCCTGCGCGTGCTGCGCGTCGACCTGCGCGGCTGCACCGACAAGCGCACGCTGCTGGCGCGGATGGCGGCGCAGCTGGACTTCCCCTCCTGGGTCGGCCGCAACTGGGATGCCCTGGGCGATGCACTGCGCGACCTGGCCTGGCTGCCTGCCACCGGTTACGCGCTGGTGATCGAGGCTGCGGCGCCGCTGCGCGATGCGGCGGGCGCCGACTTCGACGTGTTGCTGGACATCCTCGACGAAACCGCCGGCAGCTGGCGCGACGCCGGCCAGGCCTTCACCGTGTTCATCGGGCTGCAGGACGAGGGGCCCGGGCCGACGTCATGA	MSGGFDLDLANPDNAGVYAVAESDLDTMAALARGAGLRVLRVDLRGCTDKRTLLARMAAQLDFPSWVGRNWDALGDALRDLAWLPATGYALVIEAAAPLRDAAGADFDVLLDILDETAGSWRDAGQAFTVFIGLQDEGPGPTS				NA	NA	NA	NA	NA
BMS020_06786	1893	uup_2	COG0488	ABC transporter ATP-binding protein uup	ATGCCTTTGATCACCCTGCAAAACGTCGACTACAGCGTCGGCGGCCCGCTGCTGCTGGAAAAAACCGAACTGTCGATCGAGCCGGGCGAGCGTATCGCCCTGATCGGTCGCAACGGCGCCGGCAAGTCGACCCTGATGAAACTGATCGCCGGCGAGCTCAAGCCCGACGACGGCGAAGTGCGCGTGCAGTCCGGGGTGCGCATCGCCCGGCTGGAGCAGGAGGTGCCGCAGGGCACCGGCGGCAGCGTGTTCGACGTGGTCGCCGCCGGCCTGGGCGAGCTCGGCCAGTGGCTGGCCGAGTTCCACCACCTCAGCCATGCCGAGGTCTTCGACGGCGACGCGATGGGCAAGGTGCAGGCCAAGATCGACGCCGCCGACGGCTGGGCGCTGGACCAGCGCGTCGCCGAGACCCTGACCAAGCTGGAACTGGATGGCGACGGCGAGTTCGGTCGCCTGTCCGGCGGCATGAAGCGGCGCGTGCTGCTGGCGCGTGCGCTGGTGTCGGCGCCGGACCTGCTGCTGCTGGACGAGCCGACCAACCACCTCGACATCGAAGCGATCGACTGGCTCGAAGCCTTCCTGAAGGGCTGGAGCGGCAGCGTGCTGTTCGTCACCCACGACCGCCGCTTCCTGCGTGCGCTGGCCACCCGCATCGTCGAGATCGACCGCGGCCAGGTCACCAGCTGGCCGGGCGACTGGGCCAATTACGAGCGCCGCCGCGAAGAGCGTCTCAACGCCGAGGCGCAGGAGAACGCGCGCTTCGACAAGCTGCTGGCGCAGGAAGAAGTTTGGATCCGCCAGGGCATCAAGGCCCGGCGGACCCGCGACGAGGGCCGCGTGCGCCGGCTCAAGGCGATGCGCAGCGAACGCAGCGCACGCCGCGACCAGACCGGCAACGTGCGCATGGAAGCGGCGCAGGGCGAGAACTCCGGCAAGAAGGTCATCGACGTCAAGGAGGTGTCGTTCGCATTCGGCGAGCGCTGCATGGTCGATGCGCTCGACACCACCATCCTGCGTGGCGACCGGATCGGCCTGATCGGCCCGAACGGCAGCGGCAAGACCACGCTGCTGAAGCTGCTGCTCGGCGACCTGCAGCCGCAGTCCGGCGAGGTACGGCTGGGCACCAACCTGCAGATCGCCTATTTCGACCAGTACCGCGCCACCCTGCGCGAGGACTGGAGCGCGATCGAGAACGTCGCCGAGGGCGCGGACTTCATCGACCTCAACGGCAAGCGCAAGCACGTTCATGCCTACCTGCAGGACTTCATGTTCACCCCCGAGCGCGCGCGCGCGCCGATCACCCGGCTGTCCGGCGGCGAACGCAACCGGCTGCTGCTGGCCAAGCTGTTCGCGCAGCCGTCCAACCTGCTGGTGATGGACGAACCGACCAACGATCTCGACGTGGAGACGCTGGAGCTGCTCGAGGAGATGCTCGGTGACTACCCGGGCACGCTGCTGCTGGTCAGCCACGACCGCGACTTCATCGACAACGTGGTGACCTCGACGATGGTGATGGAAGGCGACGGCCGCGTTGGCGAGTACGTCGGCGGCTACAGCGACTGGGCGCGTCAGGCGGCCCAGGCCGCGGCCCGGGCGCGCCCGGCGGCAGCGGTGCGCGCCGAGCCGGCAGCGACTGCGGCCCCGCTCGCCGCCGCAGCGGCACCGGCCGAGCCCAAGCGCAAGCTCAGCTACAAGGAACAGCGCGAGCTGGAACAGCTGCCGTTGCGGATCGAGCAGCTGGAGGCCGAGGTCGCGCGCCTGACCGCGGCGATGAACGATGCGGGCTTCTTCAACCGCGATGCCGCGGCGGTCGCCGCCGACACCCAGGCGCTGGGCAAGGCCCAGGCCGAACTGGACACGGCCTACGCACGCTGGGCCGAGCTGGACGCCTGA	MPLITLQNVDYSVGGPLLLEKTELSIEPGERIALIGRNGAGKSTLMKLIAGELKPDDGEVRVQSGVRIARLEQEVPQGTGGSVFDVVAAGLGELGQWLAEFHHLSHAEVFDGDAMGKVQAKIDAADGWALDQRVAETLTKLELDGDGEFGRLSGGMKRRVLLARALVSAPDLLLLDEPTNHLDIEAIDWLEAFLKGWSGSVLFVTHDRRFLRALATRIVEIDRGQVTSWPGDWANYERRREERLNAEAQENARFDKLLAQEEVWIRQGIKARRTRDEGRVRRLKAMRSERSARRDQTGNVRMEAAQGENSGKKVIDVKEVSFAFGERCMVDALDTTILRGDRIGLIGPNGSGKTTLLKLLLGDLQPQSGEVRLGTNLQIAYFDQYRATLREDWSAIENVAEGADFIDLNGKRKHVHAYLQDFMFTPERARAPITRLSGGERNRLLLAKLFAQPSNLLVMDEPTNDLDVETLELLEEMLGDYPGTLLLVSHDRDFIDNVVTSTMVMEGDGRVGEYVGGYSDWARQAAQAAARARPAAAVRAEPAATAAPLAAAAAPAEPKRKLSYKEQRELEQLPLRIEQLEAEVARLTAAMNDAGFFNRDAAAVAADTQALGKAQAELDTAYARWAELDA				NA	NA	NA	NA	NA
BMS020_06787	882	cmpR_5	COG0583	HTH-type transcriptional activator CmpR	ATGCGCCTGACCCTGCGCCAGCTGCAGATCTTCGTCGCCGTCGCCGAGCACGGCAGCACCAATGCCGCCGCCGCGCAGATCCCGTTGTCGCAGTCGGCGACCAGCGCCGCCCTGGGCGAGCTGGAGACGCTGCTGGGCACGCAGGTGTTCGACCGCATCGGCAAGCGCCTGCTGATCAACGAAAGCGGCCGTGCGCTGCTCGACGACGCCCGCGCCGCGCTCGACGCCGCCGCCCAGATCGAACGCCGCTTCGGCGCCGGCGCGACCCCGGCATTGATCCGGCTCGGCGCCAGCACCACGGTCGGCAACTACCTGATGCCGGCGCGGATCGCCGCGCTGGCACGCCAGCATCCGCAGGCGCGGGTCGAGCTGCGCATCGGCAACACCCACGCGATCGTCGAGGCGGTGCTGCGCCGCGAGGTCGACGCCGGGGTCATCGAGGGGCCGTGCCACGAGGACGCGCTGGAGGTGGCGCCGTGGCAGGAGGATCCGCTGCAGCTGGTCTGCGCGCCCGACCACCCGCTGGCGCGGCTGCCGGACGGCTGCGATCGCGCGCAGCTGCGCGCGGCCTGCTGGTTGCTGCGCGAACCCGGTTCGGGCACCCGCGAGGCGGTCGAACAGGCGCTGCTGCCGCACCTGGACGGCTTCGCGCAGTCGCTGCAGCTCGGCAGCAGCGAGGCGATCAAGCAGGCCGCGGCGGTTGGGCTCGGCGTGACCTGCCTGTCGGCCAGCGCGGTGGCCGACCTGGTCGCGCTGGGGCGGCTGGTGGTGCTGCGCACCGACCTGCCGCCGCTGCGCCGCACCCTGTACCGGGTGCGCCAGCGCGGCAAGCGCGAATCCGCGGCGCTGGCGGCGCTGCTGGATGTCGCCGGAACCTCGTAG	MRLTLRQLQIFVAVAEHGSTNAAAAQIPLSQSATSAALGELETLLGTQVFDRIGKRLLINESGRALLDDARAALDAAAQIERRFGAGATPALIRLGASTTVGNYLMPARIAALARQHPQARVELRIGNTHAIVEAVLRREVDAGVIEGPCHEDALEVAPWQEDPLQLVCAPDHPLARLPDGCDRAQLRAACWLLREPGSGTREAVEQALLPHLDGFAQSLQLGSSEAIKQAAAVGLGVTCLSASAVADLVALGRLVVLRTDLPPLRRTLYRVRQRGKRESAALAALLDVAGTS				NA	NA	NA	NA	NA
BMS020_06788	1092			hypothetical protein	ATGCTGACCCGTTCGCCGCACGCCCTCGCAATGCCCGCTTCCGCCCTGCTCCGCCGCCCTTTCATCCGACTGCTCCCCGGCCTGCTGCTGGCCGGCCTGCTGGCCGCGCTCGCGCAGGCACTGGCCGGTGGCGACTGGCTGCAGCACCACGGCCTGAGCGCACTGACGCTGGCGATCATGCTCGGCATGCTGGTCGGCAACACCCTGTATCCGCGGCTGGCCGCGCGCGCCGATCCCGGCATCGGCATTGCCAAGGCCCAGCTGCTGCGTGCCGGCGTCGTGCTGTACGGACTGCGCCTGACCTTCCACGACATCGCCCAGGTCGGCCTGGCCGGCGTGCTGATCGACACCCTGGTGCTGGCCAGCACCTTCACCCTAGCCTGGTGGGTCGGCACCCGGGTGCTGAAGCTGGAGCGCGATACCGCGCTGCTGGTCGGCGCCGGCAGCTCGATCTGCGGTGCCGCGGCGGTGATGGCCGCCGCACCGGTGGTGCGCGGGCGCTCGGACCAGGTCACGGTCGCGGTGGCGACGGTGGTGGTATTCGGCACTTTGGCGATGTTCGGCTGGCCGCTGCTGTACCAGCTGGCGCAGGCGCATGGCTGGCTGGAGATGAGCGCGGGCCAGTACGGCGTGTTCGCCGGTTCGACCGTGCACGAGGTCGCGCAGGTGGTGGTGGCCGGGCGTGCGCTCGGCGAGCAGGCGGCAGCGACCGCGGTGATCACCAAGATGGTGCGGGTGATGCTGCTGGCGCCGTGCCTGCTGCTGGTGTCCGCATTGCTGGCGCGGCGGGCGCCCGGCGATGGCGCCGCGCAGGGCGCGCGCGGCATCGTGGTGCCGTGGTTCGCGTTCGGCTTCATCGCGGTGGCGGCGCTGCATTCGCTGCTGCCGCTGCCGGCCTGGCTGGTGTCGGCCGGCACCACGCTCGACAACGTGCTGCTGGCGATGGCGATGGCCGCGCTGGGGCTGACCACCCAGGCCGGTGCACTGCGCCGTGCCGGCCTGCGTCCGCTGCTGCTGGCGGCGCTGCTGTGCGCCTGGCTGCTCGGCGGTGGGCTGGCGATCAACCTGGCGGTGCGGGCGCTGCTGGGGTGA	MLTRSPHALAMPASALLRRPFIRLLPGLLLAGLLAALAQALAGGDWLQHHGLSALTLAIMLGMLVGNTLYPRLAARADPGIGIAKAQLLRAGVVLYGLRLTFHDIAQVGLAGVLIDTLVLASTFTLAWWVGTRVLKLERDTALLVGAGSSICGAAAVMAAAPVVRGRSDQVTVAVATVVVFGTLAMFGWPLLYQLAQAHGWLEMSAGQYGVFAGSTVHEVAQVVVAGRALGEQAAATAVITKMVRVMLLAPCLLLVSALLARRAPGDGAAQGARGIVVPWFAFGFIAVAALHSLLPLPAWLVSAGTTLDNVLLAMAMAALGLTTQAGALRRAGLRPLLLAALLCAWLLGGGLAINLAVRALLG	PGPT0027810_11	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0027810-sapZ-K19239	NA	NA
BMS020_06789	1377	dbpA_3	COG0513	ATP-dependent RNA helicase DbpA	ATGACCGCCTTCTCCTCGCTGCCGCTGTCGCCGGCACTCGCCGCCGGCATCGATGCCCTCGGCTACACCACCCTCACCCCGATCCAGGCGCTGAGCCTGCCGCCGATCCTCGAACGCCGCGACGTGATCGCGCAGGCGCCGACCGGCAGCGGCAAGACCGCCGCGTTCGGGCTGGGACTGCTCAACGCCTTCGATCCGGCGCTCGCGCGCACCCAGGCACTGGTGCTGTGCCCGACCCGCGAACTGGCCGACCAGGTCGGCAAGCAGCTGCGCAAGCTCGCCACCGGCATTCCCAACCTGAAGCTGTCGGTGCTGACCGGCGGCGTCGCGCTCGACCCGCAGATCGCCTCGCTGCAGGCGCACCCGCCGCATGTGGTGGTCGGCACGCCCGGCCGCGTGCAGGAGCTGGCGCGCAAGCGCGTGCTCAACCTCGGCAAGGTCGCCACGCTGGTGCTCGACGAGGGCGACCGCATGCTCGACATGGGCTTCGCCGAGCCGATCGCCGAGATCGCCGGCCGCTGCGACAAGGCGCGCCAGAGCCTGCTGTTCTCGGCCACGTTCCCCGACGAGATCCGCGCCCTCGCCCGCGACCTGCTGAAGGAGCCGATCGAAGTCACCATCGAAGGCGGCGACAGCGCGCCGGCGATCGACCAGCAGTTCTTCGACGTGGAGCCGGCGCACCGGCAGAAAGCCATCGCCGGCCTGCTGTTGCGCTTCGCGCCGGAGTCGGCGGTGGTGTTCTGCAACACCCGCAAGGACGTCGACGAGGTCGCCAACTCGCTGCAGCAGTTCGGCTTCTCGGCGCTGGCGCTGCACGGCGACCTGGAGCAGCGCGACCGCGACGAGGTGCTGGTGCGCTTCGCCAACCGCAGCTGCAACGTGCTGGTCGCCAGCGACGTGGCCGCGCGCGGGCTGGACGTGGAAGACGTCGACGCGGTGCTGAACTACGAGCTGCCGACCGACGTGGCGACCTACCGCCACCGCATCGGCCGCACCGCGCGCGCCGGCAAGACCGGCATGGCGCTGAGCCTGGTCGCCTCGCGCGAACTGCCGCGCGCACAGGCGGTGGAAGCCGAGGTCGGCGAATCCATCCGCCGCTCCAACTCGCCGCTGGCCACCGGCAAGCCGGCGCAGCCGCCGGCCGCGGCGATGGTCACGCTGCGCATCGACGGCGGCAAGAGCGACAAGCTGCGCCCGGGCGACATCCTCGGCGCACTGACCGGTGAGGCCGGGCTGTCGGGTGCGGCGATCGGCAAGATCGCGATCTTCCCGACCCGGTCCTACGTGGCGGTGGCGCGCGCGCACGTCGGCAAGGCACTAGCCAAGCTCGAAGCCGGCAAGATCAAGGGCCGCCGCTTCCGCGTGCGCAAACTCTGA	MTAFSSLPLSPALAAGIDALGYTTLTPIQALSLPPILERRDVIAQAPTGSGKTAAFGLGLLNAFDPALARTQALVLCPTRELADQVGKQLRKLATGIPNLKLSVLTGGVALDPQIASLQAHPPHVVVGTPGRVQELARKRVLNLGKVATLVLDEGDRMLDMGFAEPIAEIAGRCDKARQSLLFSATFPDEIRALARDLLKEPIEVTIEGGDSAPAIDQQFFDVEPAHRQKAIAGLLLRFAPESAVVFCNTRKDVDEVANSLQQFGFSALALHGDLEQRDRDEVLVRFANRSCNVLVASDVAARGLDVEDVDAVLNYELPTDVATYRHRIGRTARAGKTGMALSLVASRELPRAQAVEAEVGESIRRSNSPLATGKPAQPPAAAMVTLRIDGGKSDKLRPGDILGALTGEAGLSGAAIGKIAIFPTRSYVAVARAHVGKALAKLEAGKIKGRRFRVRKL	PGPT0013740_4007	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS020_06790	114			hypothetical protein	ATGGATACCACCTTGATGCCCTGGCTGGCGGCGTTGTTCATCCTGCTGCTGGCCTGCGCGGTCTATTACGTATTCCGCGCACAGCAGCAGCGCAACAAACCCGACGACCGCTGA	MDTTLMPWLAALFILLLACAVYYVFRAQQQRNKPDDR				NA	NA	NA	NA	NA
BMS020_06791	555	apt_2	COG0503	Adenine phosphoribosyltransferase	ATGAACGACTCCTGCTGCGGCGCCGCGAGCGCCTCGCCCGAGCGCTGGTCCGACCGCATCCGCGACGTCCCCGATTTCCCCAAGCCGGGCATCATGTTCAAGGACATCGCGCCGCTGCTGGCCGACGGCCCGGACTTCGCCTCGGCGATCGACGCGATGGCACTGCCGTGGCGGCAGGCGCCGATCGATGCGGTGCTCGGGGTGGAATCGCGCGGCTTCATCCTTGGCGCGCCGCTGGCCCGCGAGCTGCGATGCGGCTTCGTGCCGGTGCGCAAGCCGGGCAAGCTGCCCGGGCGCACGGTGGCGCAGGACTACGGGCTGGAATATGGCCGCGACCGCATCGAGGTGCAGGCCGATGCGCTGCCGCCGGGCGCGCGCGTGCTGCTGGTGGATGATGTGCTGGCGACCGGTGGCACGCTGCTGGCGAGCCTGGCGCTGGCGCGCCAGCTGCAGCTGGAGGTGGTCGGCGCCGCGGTGCTGGTCGAACTGCTGGCGCTGCGCGGCCGCGAGCGCTGGGGCCAGGACGTGCCGTTGCTGGCGACGCTGGCCTACTGA	MNDSCCGAASASPERWSDRIRDVPDFPKPGIMFKDIAPLLADGPDFASAIDAMALPWRQAPIDAVLGVESRGFILGAPLARELRCGFVPVRKPGKLPGRTVAQDYGLEYGRDRIEVQADALPPGARVLLVDDVLATGGTLLASLALARQLQLEVVGAAVLVELLALRGRERWGQDVPLLATLAY	PGPT0021455_1320	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021455-apt-K00759	NA	NA
BMS020_06792	3114	ttgB		Toluene efflux pump membrane transporter TtgB	ATGCTGCCGCGCTTCTTCATCCATCGCCCGATCTTCGCCTGGGTGCTGGCGATCTGCATCATGTTCGCCGGCGCGATCGCGATCACCACGTTGCCGGTCGAACAGTACCCGGACATCGCGCCACCCTCGGTCAACATCAGCGCCAACTACACCGGCGCCTCGGCGCAGACGGTCGAGGACAGCGTCACCCAGGTGATCGAACAGCAGATCAAGGGCATCGACCACCTGTTGTATTTCAACTCCAGTTCCTCGTCGTCGGGCCAGGCGCGGATCTCGATCACCTTCGCCCAGGGCGCCGATGCCGACATCGCCCAGGTGCAGGTGCAGAACGCGGTCAACCAGGCGCTGAGCCGGCTGCCGCAGGAAGTGCAGAACCAGGGCGTCACGGTGGCCAAGTCGCAGGCCGACAGCCTGATGGCGGTGGCGCTGTACGACCCCAGCGACAGCCTCGCCAGCGAGGACATCGCCGACTACCTGGTCAGCAACCTGCAGGATCCGCTCAGCCGCATCGACGGCGTCGGCGAGATCAACGTGTTCGGCACCCAGTACGCGATGCGGATCTGGCTCGACCCGCACAAGCTCAATGCCTACCAGCTGATGCCGTCGGACGTGACCGCGGCGATCGAGGACCAGAACGCCCAGGTCACCGCCGGCGAGCTGGGCGCGCTGCCGACCCCGCAGGGCCAGCAGCTCAACGCCACCGTCACCGCGCAATCGCGGCTGCAGACGCCCGAGCAGTTCGAGGACATCATCCTGACCACGCTTAGCGATGGTTCGGACGTGCGCCTGCGTGACGTGGCGCGGGTCGAGATCGGCGCGGAGAACTACCAGACCCGCACCTGGCTCAACGGCCACCCGGCCTCGGGCTTCTCGGTGTCGCTGACCAGCGGCGCCAACGCGCTGGAAACCTCCGACGCGGTGCGCGCGCTGATCGCACGGATGCAGCCCAATTTCCCGCACGGGCTGCAGGTGGCCTACCCGCGCGACGGCTCGCCGTTCGTGCGGGTCTCGGTCGAGGGCGTGATCCACACCCTGATCGAGGCGATCGTGCTGGTGGTGGTGGTGATGTACCTGTTCCTGCAGAACTGGCGCGCGACGCTGATCCCGGCGATCACCGTGCCGGTGGTGCTGCTGGGCACGTTCGGGCTGCTGGCGGTGGCCGGCTTCACCATCAACACGCTGACGTTGTTCGCGATGGTGCTGGCGATCGGCCTGCTGGTCGACGATGCGATCGTGGTGGTGGAGAACGTCGAACGCATCATGCACGAGGAGCACCTGCCACCGCTGCAGGCGACCGAGCGCTCGATGGGGCAGATCACCGGCGCGCTGATCGGCATCACCGTGGTGCTGGGCGCGGTGTTCGTGCCGATGGCGCTGTTCGGCGGCGCCACCGGGATCATCTACCGGCAGTTCTCGCTGACGATCGTGTCGGCGATGGCGCTGTCGGCGTTCGTCGCGCTGACCCTGACCCCGGCGCTGTGCGCCACGCTGCTGGCGCCGGTCGAGCGCGAGCGGCCGCAGGGGCGGTTCTTCCGCGCCTTCAACCGTTTCGTCGACCGCAGCCAGGATGGCTACCAGCGCCGCCTGGGCGGGTTGCTGCAGCGGCCGCGCCGCTGGATGGTGCTGTACCTGGTGGTGGTGGTGCTGGTAGCGCTGCTGTACGCGCGGCTGCCGACCGGCTTCCTGCCGGTCGAGGACCAGGCCCAGATCCAGGTGCAGTTCACCACCCCGGAAGGCACCTCGCTGGCGACCACCGAGGCGGTGGGGCAGGAGATCACCAACTACTTCCTCGGCAGCGAGAAGCAGAACCTCGATGCGATCTTCATGGTGATCGGCCGCAACCAGGCCGGCACCGGGCAGAACGCCGGGCAGGCCTTCGTGGCGCTGAAGGACTGGGGCCTGCGCGGCGCCAGCGACACCGCCGATGCGATCATCGACCGCGCCAACGCGCACTTCCGTGGCCGCAACGACGCCCGCATCACCATCCTGGCGCCGCCGGCGGTGCGCGGGCTGGGCCAGTCCAGCGGCTTCGAGGTGTGGCTGCGCGATGCCGACGGCAACGGCCGCGCTGCGCTTGCGAGCACCCAGAAGGACCTGGTGCAGCGTGCCAGCGACGATCCCGAGCTGGCGGCGGTGCGGCTGAACGGCCTCGGCGACAAGGCCCAGCTGCAGGTCGACGTCGACCACGCGCAGTCCAGCGCGCTCGGGCTGGCGCAGGACGACATCAATTCGACGCTGTCGATCGCCTGGGGCAGCAAGTACGTCAACGACTTCATCGATCGCGGCCGGGTCAAGCGCGTCTACGTGCAGGGCGATGCGCCGTACCGGTCGCAGCCGCAGGACATCGAGCAGTGGTACGTGCGCGGCAGTGATGGCCAGATGGCGCCGTTCTCGGCCTTCGCCAGCACCCATTGGACCCGCGGGCCGCAGCTGCTGCAGCGCTTCAACGGCCTGGCCGCCGAGCAGATCCGCGGGGCACCGGCGACCGGCTACAGCTCGGGCGAGGCGATGGCGCGGATCGAGGCGCTGGCGGCGCAGGCCAAGGGCTTCGACCTGGCCTGGAGTGGCATGTCCTACCAGGAGCGGCTGGCCAGCAACCAGGCGATCTGGCTGTACGCGGTGTCGATCCTGTTCATCTTCCTGTGCCTGGCGGCGCTGTACGAGAGTTGGTCGATTCCGTTGGCGGTGCTGCTGGTGATCCCGCTGGGCCTGCTCGGCACGGTCGCGGCGACCACCCTGGTCGGCTTCGTCAACGACATCTATTTCCAGGTGGGGCTGCTGACCACGATCGGCCTGTCGGCGAAGAACGCGATCCTGATCGTCGAATTCGCCGAGGCCCAGCATCGCGCCGGCAAGGCGCTGCTGCAGGCGGCGCTGGAAGGCGCGCGGCTGCGCTTGCGGCCGATCGTGATGACCTCGCTGGCCTTCGTCGCCGGCGTGCTGCCGCTGGCGGTGTCGGTCGGCGCGGGTGCGGCCAGCCGGCGCGAGATCGGCGTCAGCGTGATTGGCGGCATGCTCTCGGGTACGGTGCTGGCGGTACTGCTGGTGCCGCTGTTCTTCGTGCTGGTGCGGCGCCTGCTGGGCAGTCCGGCCACGGCGGCCGAGGCCCACTGA	MLPRFFIHRPIFAWVLAICIMFAGAIAITTLPVEQYPDIAPPSVNISANYTGASAQTVEDSVTQVIEQQIKGIDHLLYFNSSSSSSGQARISITFAQGADADIAQVQVQNAVNQALSRLPQEVQNQGVTVAKSQADSLMAVALYDPSDSLASEDIADYLVSNLQDPLSRIDGVGEINVFGTQYAMRIWLDPHKLNAYQLMPSDVTAAIEDQNAQVTAGELGALPTPQGQQLNATVTAQSRLQTPEQFEDIILTTLSDGSDVRLRDVARVEIGAENYQTRTWLNGHPASGFSVSLTSGANALETSDAVRALIARMQPNFPHGLQVAYPRDGSPFVRVSVEGVIHTLIEAIVLVVVVMYLFLQNWRATLIPAITVPVVLLGTFGLLAVAGFTINTLTLFAMVLAIGLLVDDAIVVVENVERIMHEEHLPPLQATERSMGQITGALIGITVVLGAVFVPMALFGGATGIIYRQFSLTIVSAMALSAFVALTLTPALCATLLAPVERERPQGRFFRAFNRFVDRSQDGYQRRLGGLLQRPRRWMVLYLVVVVLVALLYARLPTGFLPVEDQAQIQVQFTTPEGTSLATTEAVGQEITNYFLGSEKQNLDAIFMVIGRNQAGTGQNAGQAFVALKDWGLRGASDTADAIIDRANAHFRGRNDARITILAPPAVRGLGQSSGFEVWLRDADGNGRAALASTQKDLVQRASDDPELAAVRLNGLGDKAQLQVDVDHAQSSALGLAQDDINSTLSIAWGSKYVNDFIDRGRVKRVYVQGDAPYRSQPQDIEQWYVRGSDGQMAPFSAFASTHWTRGPQLLQRFNGLAAEQIRGAPATGYSSGEAMARIEALAAQAKGFDLAWSGMSYQERLASNQAIWLYAVSILFIFLCLAALYESWSIPLAVLLVIPLGLLGTVAATTLVGFVNDIYFQVGLLTTIGLSAKNAILIVEFAEAQHRAGKALLQAALEGARLRLRPIVMTSLAFVAGVLPLAVSVGAGAASRREIGVSVIGGMLSGTVLAVLLVPLFFVLVRRLLGSPATAAEAH	PGPT0003280_2374	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003280-acrB|acrE|mexB|adeJ|smeE|mtrD|cmeB-K18138	NA	NA
BMS020_06793	1149	mexA_2		Multidrug resistance protein MexA	ATGTCCTCGATCCGCCTGCTGGGCCGCTCCGCGCCTGTGTTCGCCGTGGCTGCGCTGCTCGGCGCCTGTCATCCCGCCAGCGGCGACAAGCCGGCCAGCCTGCACCAGGTCGGCACGCTCAGCGTGGCGACCGAGCCGGTGACGCTGAGCACCGAGCTGGCCGGGCGCGCGCTTGCATCCGAGGAGTCGGAGGTGCGGCCGCAGGTCGCTGGCATCCTGCAGCGGCGGCTGTTCGTCGAAGGCAGCGAGGTCAAGGCCGGCCAGCCGCTGTTCCAGATCGACCCGACGCTGTACCAGGACGCGGTGCGCGAGGCCGAAGCCGACCAGGCCAACGCCGCCGCGGCACTGGCGAGCGCACGGCTGAAGGCCGAGCGCTACCGCAAGCTGGCCAATGGCCAGTTGCTGGCACAGCAGGACATCGACGATGCCGAGGCCAGCGACCGCCAGGCCGATGCCACCGCGCAGGCCGCGGCGGCGGCCCTGGCCACCGCACGCACCAACCTGCGCTTCGCCACCGTGACCGCGCCGATCGACGGCCGCATCGGCCGCTCGCTGGTCACCCCGGGCGCGCTGCTGACCGCCAGCCAGACCGATGCGATCGCCAAGATCCAGAAGCTGGACCCGATGCATGTCGACCTGACCCAGTCCGGCACCCAGTACCTGGCCTTGCGGCGCGAGATCGCCGCCGGCGGGGTGCTGCCGGCGTCGACCGAGGTCCGGCTCAAGCTCGCCGACGGCAGCGACTACCCGCTGCCGGGCACGCTGCAGTTCGCCGACATCGACGTCTCCGAGCAGACCGGCACGGTGACCCTGCGCGCCAGCTTCCCCAATCCGGACCACCAACTGCTGCCGGGCATGTACGTGCGCGCTGTGGTCGGCCAGGGCGTGCGCCAGCAGGGCATCCTGCTGCCGCAGTCGGCGGTGGACCGCACCCCGCGCGGGCTGGCCCAGGTCTGGGTGGTCGGCAAGGACAACGTGGTGCATGCGCGCGAGCTGCACACGCCGCGCGCGGTCGGCAACCGCTGGCTGGTCGACGACGGGCTGCAGGTCGGCGAGCAGGTGGTGGTGCAGGGCATGCAGGGCCTGGCCGAGGGCATGAAGGTCCAGCCGCAGGCGCAGGCCGCGGCCGCCGCTGCGCGCAAGGACTGA	MSSIRLLGRSAPVFAVAALLGACHPASGDKPASLHQVGTLSVATEPVTLSTELAGRALASEESEVRPQVAGILQRRLFVEGSEVKAGQPLFQIDPTLYQDAVREAEADQANAAAALASARLKAERYRKLANGQLLAQQDIDDAEASDRQADATAQAAAAALATARTNLRFATVTAPIDGRIGRSLVTPGALLTASQTDAIAKIQKLDPMHVDLTQSGTQYLALRREIAAGGVLPASTEVRLKLADGSDYPLPGTLQFADIDVSEQTGTVTLRASFPNPDHQLLPGMYVRAVVGQGVRQQGILLPQSAVDRTPRGLAQVWVVGKDNVVHARELHTPRAVGNRWLVDDGLQVGEQVVVQGMQGLAEGMKVQPQAQAAAAAARKD	PGPT0003275_3103	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585	NA	NA
BMS020_06794	1557	selO_2	COG0397	Protein adenylyltransferase SelO	ATGGCCGAACTGGCGTTCGATAACCGCTTCCGCGCCGCGCTGCCGGGCGATCCTGACGACAGTCCGCGTCCGCGCCAGGTCGAGGGGGCGGCGTGGTCGCCGGTGTTGCCGACGCCGGTGGTGGCACCGCGGCTGTTGGCGGCGACGCCCGCGCTGGCGGACGCGATCGGCTTCGACGCTGAAGACCTGGCCGGCGAGGACTTCGCCCGTGTGTTCGGCGGCAGTGCGCTGTATGCCGGCATGCAGCCGTGGGCGGCCAACTACGGCGGCCACCAGTTCGGCCACTGGGCCGGGCAGCTGGGCGATGGCCGCGCGATCTCGCTGGGCGAGGTGGTCGGTCGCGACGGTGGGCGCCACGAACTGCAGCTCAAGGGCGCCGGGCGCACGCCGTATTCGCGCGGCGCCGACGGGCGCGCGGTGCTGCGCTCTTCGATCCGCGAATTCCTCTGCAGCGAGGCGATGTACCACCTCGGCGTGCCGACCACCCGCGCGCTGAGCCTGGTGGGCACCGGCGAGGCGGTGGTGCGCGACATGTTCTACGACGGCCATCCGCGCGCCGAACCGGGCGCGGTGGTGTGCCGGGTGGCGCCGTCGTTCCTGCGTTTCGGCAGTTTCGAGCTGCCGGCGGCGCGTGGCGACGGGGCGTTGCTGCGGCAGCTGGCGGACCTCTGCATCGCGCGCGACTTTCCCGCGCTGGGCGGGCACGGCGATGCGCTGTACGCGGCCTGGTTCGGCGAGGTCTGCGCGCGGACCGCCGAGCTGATCGCGCACTGGATGCGGGTCGGCTTCGTGCACGGGGTGATGAACACCGACAACATGTCGATCCTCGGCCTGACCATCGATTACGGCCCGTACGGCTGGATCGACGATTACGACCCGGACTGGACCCCGAACACCACCGATGCACAGGGCCGCCGCTACCGCTTCGGTACCCAGCCGCAGGTCGCCTACTGGAACCTGGGGCGGTTGGCGCAGGCGCTGGCGCCGCTGTTCGCCGATCCGGTGCCGGCGCTGGAGGCCGGGCTGGCGCGCTATCGCGAGGCCTGGCAGGCCTGCTGGCGCCGCGATGCGGCCGCCAAGCTGGGCCTGCGCGATGCCGGCGACGGCGCGGTCGCGCTGTTCGAGGAGCTGCAGGCGCTGATGCAGCGCGGCGGCATGGACATGACGCTGACCTTCCGCGCGCTGGCCGCGGTCGATCCGATGGCGCCCTCGCGGCAGCCGCTGCTGCCGGCGTTCTACACCCCGGAGGGGCTGGCGGACGTGGGGGCAGCGCTGGACGACTGGCTGGCGCGGCATGCGGCGCAGGTACGGGCCGAGGCCTGGCCGGCGCGGATCGCGACGATGCAGCGCGCCAACCCGCAGTACGTACTGCGCAACTATCTGGCGCAGCAGGCGATCGATCGCGCCGAACAGGGGGACCTCGGCGGCATCGCCGCGCTGCAGGCACTGCTGCGCCGTCCCTATGAGATGCAGCCGGGCGCGGAGGCGTTCGCGCAGCCGCGGCCGGACTGGGCGCGCGACCGTGCCGGGTGCTCGATGCTGTCGTGCAGTTCCTAG	MAELAFDNRFRAALPGDPDDSPRPRQVEGAAWSPVLPTPVVAPRLLAATPALADAIGFDAEDLAGEDFARVFGGSALYAGMQPWAANYGGHQFGHWAGQLGDGRAISLGEVVGRDGGRHELQLKGAGRTPYSRGADGRAVLRSSIREFLCSEAMYHLGVPTTRALSLVGTGEAVVRDMFYDGHPRAEPGAVVCRVAPSFLRFGSFELPAARGDGALLRQLADLCIARDFPALGGHGDALYAAWFGEVCARTAELIAHWMRVGFVHGVMNTDNMSILGLTIDYGPYGWIDDYDPDWTPNTTDAQGRRYRFGTQPQVAYWNLGRLAQALAPLFADPVPALEAGLARYREAWQACWRRDAAAKLGLRDAGDGAVALFEELQALMQRGGMDMTLTFRALAAVDPMAPSRQPLLPAFYTPEGLADVGAALDDWLARHAAQVRAEAWPARIATMQRANPQYVLRNYLAQQAIDRAEQGDLGGIAALQALLRRPYEMQPGAEAFAQPRPDWARDRAGCSMLSCSS				NA	NA	NA	NA	NA
BMS020_06795	693			hypothetical protein	ATGATCACCGTCCATCACCTGAACAACTCCCGCTCGCAGCGCGTGCTGTGGCTGCTGGAGGAGCTGGCGCTGCCGTACCAGGTGGTGCGCTACCAGCGCGACCCGAAGACCATGCTGGCGCCGCCGGAGCTGCGCCGGATCCATCCGCTGGGCAAGTCGCCGGTCGTGGTCGACGGCCCGCACGTGCTGGCCGAATCCGGCGCGATCATCGAATACCTCGCCGACCGCTACGACAGCGAGCGCGTGCTGTCGCCGAGCCTGCAGCCGCTGGATTCGCCCGAGCGGCTGCGCTTTCGTTACTGGATGCACTATGCCGAGGGCTCGGCGATGCCGCCGTTGCTGATGACGCTGGTGTTCGCGCGCATCCGCAGCGCGCCGGTGCCGTTCTTCGTGCGGCCGGTGGCGCGGGCGATCGCCGACAAGGCGATGCGCGGCTTCGTCGCCCCGCAGGTGCGCCTGCACCTGGACTGGATGGAGCGCGAACTGGGTGAATCGGGCTGGTTCGCCGGTGAGCGCTTCACCGCCGCCGACATCCAGATGAGTTTTCCGGTGCAGGCCGCCGCGGCCCGCGGTGGCGGCCTGGACGCGCACCCGCGCCTGGCCGCGTTCCTGCAGCGGATCGAGGCCCGCCCGGCCTACCAGGCGGCGTTGCAGCAGGGTGGGCCGTTCGAACTGCTCGGACGCGCGGACTGA	MITVHHLNNSRSQRVLWLLEELALPYQVVRYQRDPKTMLAPPELRRIHPLGKSPVVVDGPHVLAESGAIIEYLADRYDSERVLSPSLQPLDSPERLRFRYWMHYAEGSAMPPLLMTLVFARIRSAPVPFFVRPVARAIADKAMRGFVAPQVRLHLDWMERELGESGWFAGERFTAADIQMSFPVQAAAARGGGLDAHPRLAAFLQRIEARPAYQAALQQGGPFELLGRAD	PGPT0013170_4615	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS020_06796	210	cspA_3	COG1278	Major cold shock protein CspA	ATGTCTGATCGTCAGAGCGGTACCGTCAAGTGGTTCAACGATGCCAAGGGCTTCGGCTTCATCACCCCGGAAAGCGGCCCGGACCTGTTCGTGCACTTCCGCGCGATCCAGGGCAACGGCTTCAAGTCGCTGCAGGAAGGCCAGAAGGTCACCTTCATCGCCGTGCAGGGCCAGAAGGGCATGCAGGCTGATCAGGTCGTCGCCGTCTGA	MSDRQSGTVKWFNDAKGFGFITPESGPDLFVHFRAIQGNGFKSLQEGQKVTFIAVQGQKGMQADQVVAV	PGPT0014675_5282	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
BMS020_06797	552	yaeQ_2	COG4681	putative protein YaeQ	ATGGCCCTGACCGCCACCATCCGCAAGGCCGAGCTGCAGATCAGCGACATGGACCGGAACTACTACGCCGGGCACTCGCTGGTGCTGGCCCAGCACCCGTCCGAGACCGACGAACGCCTGATGGTGCGGATGCTCGCCTTCGCCCTGTTCGCGCGCGACCGGCTGGAGTTCGGCAAGGGCCTGAGCAGCGACGACGAGCCGGACCTGTGGCAGCTCGATTACACCGGCGACGTGGCGCTGTGGATCGACCTGGGCCAGCCGGACGAATCGCGGGTGCGCAAGGCCTGCAACAAGTCCGCAGAGGTCGTGGTGGTCACCTACGGCGGCAACGCCTCCGAACAGTGGTGGAAGAAGTTCGGCAACACGCTGTCGCGCCACGCCAACCTGCAGGTGGTCGAGATCGACGCCGCCTCGGTCGAGGCGCTGGGCCGGCTGATCCAGCGCAGCATGCGCTTCAGCGTGCTGGTGCAGGACGGCGAGGTGCAGCTGCTGTCCGACGACGGCAGCGCGCTGGACATCCGCCCGATCGTGCGCAAGGCCGCCAACGCGTGA	MALTATIRKAELQISDMDRNYYAGHSLVLAQHPSETDERLMVRMLAFALFARDRLEFGKGLSSDDEPDLWQLDYTGDVALWIDLGQPDESRVRKACNKSAEVVVVTYGGNASEQWWKKFGNTLSRHANLQVVEIDAASVEALGRLIQRSMRFSVLVQDGEVQLLSDDGSALDIRPIVRKAANA				NA	NA	NA	NA	NA
BMS020_06798	1182		COG2081	putative protein	GTGAGCGAGGCCTGCGACGTCCTGGTCATCGGCGCCGGCGCCGCCGGGCTGATGGCCGCGCTGACCGCCGGCCGGCGCGGACGCCGGGTCGAGGTGGTCGACCATGCCAACAAGGTCGGCAAGAAGATCCTGATGTCAGGCGGCGGCCGCTGCAATTTCACCAATACCGGCACCGGCCCGGCCAACTTCCTTTCCGCCAACCCGCACTTCTGCAAATCGGCGCTGGCGCGCTACCTGCCGTCGGACTTCATCGGCATGGTCGAGCGCCACCGCATCGCCTACCACGAGAAGGAGCTCGGCCAGCTGTTCTGCGACATTTCCTCCAAGCAGATCGTCGCGATGCTGCTGGACGAATGCCAGGCCGCCGGCGTGCGGGTCCGCACCCACTGCTCGATCGGCGCGGTCGAGCGCGGCAGCGACGGCTTCAGCGTGCAGAGCTCGCTGGGCACGTTGCAGGCGCAATCGCTGGTGGTCGCCACCGGCGGGCTGTCGATCCCCAGCCTCGGCGCCAGCGGCTTCGGCTACGAGCTGGCGCGCCGCTTCGGCCACGAGGTGCTGCCGACCCGCGCCGGACTGGTGCCGCTGACCCTGTCGGGCAAGCACCAGGAGCGGCTGCAGGACCTGGCCGGGGTCGCGGTGCCGGTCGAGGCGCACTGCAACGGGGCCAGTTTCCGCAACTTCATGCTGCTGACCCACCGCGGGGTCAGCGGCCCCGCGATCCTGCAGATCTCCTCCTACTGGCAACCCGGCGACACGCTGCTGCTGGACCTGCTGCCCGGCCAGGATGCCGGCGCATGGCTGCGCGCGCAGAAGCAGGCGCGCGGCGCCGCGGAACTGCGCAACGTGCTCGGCGAGGTGTTGCCGCGCCGCTTCGCCCAGCGCCTGTGCGAGCAGTGGCTGCCGGACAAGCCCGTCAAGCAGCTCGACGAGCGCGAGCTGCGCACCGCCGCCGAGCTGCTCGGCCACTGGCCGCTGGTCGCCAGCGGCACCGAGGGCTACCGCACCGCCGAAGTCACCCTGGGCGGGGTCTCCACCGACAAGGTGTCCTCCAGCACGATGGAATCGAAACTGGTGCCGGGACTGCATTTCGTCGGCGAGGTCCTGGACGTGACCGGCTGGCTGGGGGGCTACAACTTCCAGTGGGCCTGGGCCTCGGGCCATGCGGCGGGGCTGGCGGCCTAG	MSEACDVLVIGAGAAGLMAALTAGRRGRRVEVVDHANKVGKKILMSGGGRCNFTNTGTGPANFLSANPHFCKSALARYLPSDFIGMVERHRIAYHEKELGQLFCDISSKQIVAMLLDECQAAGVRVRTHCSIGAVERGSDGFSVQSSLGTLQAQSLVVATGGLSIPSLGASGFGYELARRFGHEVLPTRAGLVPLTLSGKHQERLQDLAGVAVPVEAHCNGASFRNFMLLTHRGVSGPAILQISSYWQPGDTLLLDLLPGQDAGAWLRAQKQARGAAELRNVLGEVLPRRFAQRLCEQWLPDKPVKQLDERELRTAAELLGHWPLVASGTEGYRTAEVTLGGVSTDKVSSSTMESKLVPGLHFVGEVLDVTGWLGGYNFQWAWASGHAAGLAA				NA	NA	NA	NA	NA
BMS020_06799	2067			hypothetical protein	ATGCAGAACGGCAAAGACCTTACCCTCCGCCTGATGATCGTCGACGACAGCGGCGAGAGCGCCGAGGCCATCGTCACCACCTTGCGCAACAGCGGCATTGCCGTGCGCCCGTCGCGACCGCAGGCGGTGGACGAGCTGGCGGCGATGCTCGCCGGCCCGATCGACCTGGTCCTGACCTCGCGCTCGCAGGCGATCCCGATGACCGCGCTGCAGCAGCGCGTCGCCGCCAGCGGCAAGGACATCCCGGTGGTGCTGCTGGCCGACCGGGTGGACGAAAACGAATGGGTCGAGGCCGCCGCGCACGGCATCCGCGCCATCGCCCTGCGCCAGCGCCCCGAGCACCTGCTCGCGGTGGTGCGCACCGAGATGACCGACCTGATGGCGCGGCGCGGGCTGCGCCGGATCGAGGCGCAGATGCGCGAGACCGAGCGCCGCTGCGACGCGCTGATCGCCTCCTCGCGCGACCCGATCGCCTATGTCCACGAGGGCATGCACATCCGCGCCAACGACGCCTACCTGGAGATGTTCGGGTTCGAGTCGTTCGACGACGTCGAAGGCATCTCGCTGCTGGACATGATCGCGCCGCAGCACGTGGAGGACTTCAAACAGCTGCTCAAGGCCATGTCCAAGGGCGAGCCGCCGCCGGCGCAGTACAAGCTCGACGCGCGCACGATGGAGGGCGACACCTTCCCGGCGACGATGGAATTCGCCACCGCCACCTACGAAGGCGAGGCCTGCGTGCAGGTGGTGTTCCGCCGCCGCGAGGAGTTCGACCCGGAACTGGCGCGCGAGGTCGAAGAGCTGCGCCAGCGCGACCAGGTCACCGGCCTGCTCAACCGCCCCACGTTCATGGTCGCGCTGGAGACCGCGGTCGCCCAGGCCGGGCGCAGCGAGCGCCAGTTCGGCTTCCTGCTGGTCGAGCCGGACCACTACGCGCGGATCCTGCCGGAAATCGGCCTGGACTCGGCCGACGCCCTTGTCGCGGCGATGGCCGCGCACCTGGCCGCGCAGCTGGACGGCGACGTCACCACCGCCCGCTTCGGCGAACACAGCTTCGCGGTGCTGCTGGAAGGCGACTACCTGCGCACCACCACCGCCGCCGAGCTGCTGCGCGAGGCCTTCGCCGGCCACGTGTTCGGCATCGGCGATCGTTCCGCGACCGTCACCGTCAGCATCGGCGGCGTGCAGGTCGGCGAGAAGATCGCCAGCATCGGCCAGGTGCTGAACCGCGCGGCCGAATGCGTGCGCGCCACCACCGAGCTGGGCGGCAACGCGATCAACATCTTCGACCCGGGCGCGGTCGACCGGGCCGAGGAAGAGCGCATCCAGCGCTGGATCGAGCAGCTGCGCGAAGCGCTGCACGGCCAAGGCTTCCTGTTGCACTACCAGCCGGTGCTGAACCTGCAGGGCGAACCGCTGGAGCTGTACCAGGCGTTCCTGCGCATGGAACGCAACGGCGAGCTGATTCCGCCAGCCACGTTCCTGGGCATCGCCGAGGAACACGGGCTGATCGCCGACATCGACCGCTGGGTGGTCGAGCATGCGATCAAGGCAATCGGCGAGCGCCAGCGCGCCGGCCACGCCACCAGCATCATGGTGCGCATCGGCCCCGGCTCGTTCTCCGACCCCGGCATGCTTGCCACGATCCGCGCGCAGCTCGCCGCCGAGGGCGTGCCCGGCGACCGGCTGTGGCTGCAGACGCCGGAGTCCAAGGTCTTTACCCACCTGCGCAACGCGCAGCAGTTCCTTGCCGAGCTGGCGCCGACCGGCTGCAAGGTCGGCCTCGAGCAGTTCGGCTCGGGCCTGGATTCGTTCCAGCTGCTCGCCCACTTCCGCCCGGCCTTCCTCAAGCTCGACCGCGGCATCAGCCTCGATGTCGCCGCCACCAAGGAAAGCATGGAGAAGATCCGCGAGATCACCGGCCGCGCGCAGGAGGCGGGCATGACCACGGTCGCCGAGTTCGTCTCCGACGCCGCCTCGATGAGCGCACTGTTCAACGCTGGGGTGGACTACGTGCAGGGCGACTTCGTGGCCGCGGCCGGCCCGGCAATGAACTTCGAGTTCTGA	MQNGKDLTLRLMIVDDSGESAEAIVTTLRNSGIAVRPSRPQAVDELAAMLAGPIDLVLTSRSQAIPMTALQQRVAASGKDIPVVLLADRVDENEWVEAAAHGIRAIALRQRPEHLLAVVRTEMTDLMARRGLRRIEAQMRETERRCDALIASSRDPIAYVHEGMHIRANDAYLEMFGFESFDDVEGISLLDMIAPQHVEDFKQLLKAMSKGEPPPAQYKLDARTMEGDTFPATMEFATATYEGEACVQVVFRRREEFDPELAREVEELRQRDQVTGLLNRPTFMVALETAVAQAGRSERQFGFLLVEPDHYARILPEIGLDSADALVAAMAAHLAAQLDGDVTTARFGEHSFAVLLEGDYLRTTTAAELLREAFAGHVFGIGDRSATVTVSIGGVQVGEKIASIGQVLNRAAECVRATTELGGNAINIFDPGAVDRAEEERIQRWIEQLREALHGQGFLLHYQPVLNLQGEPLELYQAFLRMERNGELIPPATFLGIAEEHGLIADIDRWVVEHAIKAIGERQRAGHATSIMVRIGPGSFSDPGMLATIRAQLAAEGVPGDRLWLQTPESKVFTHLRNAQQFLAELAPTGCKVGLEQFGSGLDSFQLLAHFRPAFLKLDRGISLDVAATKESMEKIREITGRAQEAGMTTVAEFVSDAASMSALFNAGVDYVQGDFVAAAGPAMNFEF	PGPT0016085_173	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0016085-fimX-K21025	NA	NA
BMS020_06800	882	htpX_3	COG0501	Protease HtpX	ATGTTCAGTCGTATCGCGTTGTTCCTGTTCACCAACCTCGCCGTGCTGGTGCTCGCCAGCGTGGTGATGTCGCTGCTGGGGGTCAATTCGGCCCAGATGAGCGGCCTGCTGGTGATGGCGGCGATCTTCGGCTTCGGCGGCTCGTTGATCTCGCTGTTGATGTCCAAGTTCATGGCCAAGCGCAGCACCGGCGCGCAGGTGATCACCGAGCCGCGCAACCAGACCGAGCGCTGGCTGCTGGAGACGGTGCGCCGCCAGGCTCAGGCCGCGGGCATTGGCATGCCTGAAGTTGCCGTCTACGACGGTCCGGAGATCAATGCCTTCGCCACCGGCGCCAACCGCAACAATGCGCTGGTGGCGGTGTCCACCGGGCTGCTGCACAACATGACCGAGGACGAGGCCGAGGCAGTGCTGGGCCACGAGATCAGCCACGTCGCCAACGGCGACATGGTGACGATGGCGCTGCTGCAGGGCGTGCTCAACACCTTCGTGATCGTGCTGGCGCGCGTGGTCGGTGGGGTGATCGACAGCGCGATGGCAGGCAATAACCGAGAGGGTGGCCGAGGCTTCGCCTACTACATCATCGTGTTCGTGCTGGAGATGGTGTTCGGGCTGTTCGCGACGATGATCGCGATGTGGTTCTCGCGCTACCGCGAGTTCCGCGCCGACGCCGGTGGCGCGCACCTGGCCGGTCGCCAGAAGATGATCGCGGCGCTGGAGCGGCTGTCGCTCAACCACGGCCAGAGCACGCTGCCGAGCCAGGTGCAGGCATTCGGCATCGCCGGCGGCATCGGCGATGGCCTGCGCAAGCTGTTCCTCAGCCATCCGCCGCTGGAGCAGCGCATCGCCGCGCTGCGGGCCGCGAACGCGACGGTGGCCTGA	MFSRIALFLFTNLAVLVLASVVMSLLGVNSAQMSGLLVMAAIFGFGGSLISLLMSKFMAKRSTGAQVITEPRNQTERWLLETVRRQAQAAGIGMPEVAVYDGPEINAFATGANRNNALVAVSTGLLHNMTEDEAEAVLGHEISHVANGDMVTMALLQGVLNTFVIVLARVVGGVIDSAMAGNNREGGRGFAYYIIVFVLEMVFGLFATMIAMWFSRYREFRADAGGAHLAGRQKMIAALERLSLNHGQSTLPSQVQAFGIAGGIGDGLRKLFLSHPPLEQRIAALRAANATVA	PGPT0014605_2620	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014605-htpX|ykrL-K03799	NA	NA
BMS020_06801	867	gluQ_2	COG0008	Glutamyl-Q tRNA(Asp) synthetase	ATGCATCCACTCCCCTATCGCGGGCGTTTCGCGCCATCCCCCACCGGCCCCCTGCATTTCGGCTCGCTGCTCGCGGCGCTGGGCAGCTGGCTGTGCGCCCGCCATGCCGGCGGCGAATGGCTGGTACGCATCGAGGACGTCGATCCGCCCCGCACCGTCGCCGGCGCCGCCGACGCCCAGCTCGCCACGCTGCTGGCGTTCGGCCTGGAGCCCGATGGCCCGGTGCTGCGCCAGAGCACCCGTGACGAGGCCTACGCCGCCGCGCTCGCGCACTTGCTGGCCGCGGACCTCGCGTTCGCCTGCAGCTGCAGCCGCAGCGACCTGGCCGCCCGCGGCGGCCTGCACCAAGGCTGCGTGCCGCACCCGCCGCGCGCCCAGGCCGCGGTGCGGCTGCGGGTGCCACCGCAGCCGGCGGTCGCGTTCGACGACGCGCTGCAGGGGCGCATCACACAGGACGTATATGCAGAGGTCGGCGACGTGGTGCTGCGCCGTGCCGACGGGTACTGGGCCTACCAGTTGGCGGTCGTCGTCGACGATGCCGCCCAGGGCATCACCCACGTGGTCCGCGGTGCCGACCTGCTCGACTCCACGCCGCGCCAGATCTTGCTGCAGCGCGCCCTCGAGCTGCCGCAGCCGGCCTACCTGCACCTGCCGCTGGTCCTCGATGCGCAGGGGCGCAAGCTGTCCAAGTCCGATGCGGCCCACCCGCTGGACGACAGCGCCCCGCTGCCGGCGCTGCGCGCGGCCTGGCAGGCGCTGGGCCAGCCGGGCGATGGCGGCGGCGCAGCCACCGCGGAGAAATTGCTGCAGTGGATGCTGCAGCATTTCGAACCGGCGCGACTGCCGCGCACACTGGGCCGGCCTTGA	MHPLPYRGRFAPSPTGPLHFGSLLAALGSWLCARHAGGEWLVRIEDVDPPRTVAGAADAQLATLLAFGLEPDGPVLRQSTRDEAYAAALAHLLAADLAFACSCSRSDLAARGGLHQGCVPHPPRAQAAVRLRVPPQPAVAFDDALQGRITQDVYAEVGDVVLRRADGYWAYQLAVVVDDAAQGITHVVRGADLLDSTPRQILLQRALELPQPAYLHLPLVLDAQGRKLSKSDAAHPLDDSAPLPALRAAWQALGQPGDGGGAATAEKLLQWMLQHFEPARLPRTLGRP	PGPT0008460_5993	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
BMS020_06802	741	phaB		Acetoacetyl-CoA reductase	ATGACATCACGCGTCGCACTGGTCACCGGCGGCACCGGCGGTATCGGCACCGCCATCTGCAAACGCCTGTCGGCCCAGGGGCACCGGGTGGCGACCAACTACCGCAACGAGGACAAGGCCCGGCAATGGCAGGCGCGGATGCGCGAGGACGGCTGCGAGATCGCGCTGTTCCCTGGCGACGTCGCCTCGCCCGAGCACGCGCGCGCCCTGATCGAGGCGGTCGAGGCCGGGCTCGGACCGGTCGAGGTGCTGATCAACAACGCCGGCATCACCCGCGACACCACCTTCCACCGCATGACCCCGGAGCAGTGGCACGAGGTCATCAACACCAACCTCAATTCGGTGTTCAACGTCACCCGTCCGGTGATCGAGGGCATGCGCAAGCGCGGCTGGGGCCGGATCATCCAGATCAGCTCGATCAACGGCCTGAAGGGCCAGTACGGCCAGGCCAACTACGCCGCGGCCAAGGCCGGCATGCACGGCTTCACCATCTCGCTGGCGCGCGAGAACGCCGCGTTCGGCATCACCGTCAACACCGTCTCCCCGGGCTACGTCGCCACCGACATGGTGATGGCGGTCCCGGAGGAAGTGCGCGCCAAGATCATCGCCGACATCCCCACCGGGCGCCTGGGCAAGCCGGACGAGATTGCCTACGCGGTCGCCTTCCTGGTGGCCGAGGAAGCGGCGTGGATCACCGGCTCGAACCTGGACATCAACGGCGGCCACCACATGGGCTGGTGA	MTSRVALVTGGTGGIGTAICKRLSAQGHRVATNYRNEDKARQWQARMREDGCEIALFPGDVASPEHARALIEAVEAGLGPVEVLINNAGITRDTTFHRMTPEQWHEVINTNLNSVFNVTRPVIEGMRKRGWGRIIQISSINGLKGQYGQANYAAAKAGMHGFTISLARENAAFGITVNTVSPGYVATDMVMAVPEEVRAKIIADIPTGRLGKPDEIAYAVAFLVAEEAAWITGSNLDINGGHHMGW	PGPT0014735_447	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-POLYHYDROXYBUTYRATE_PRODUCTION,PGPT0014735-phbB|phaB-K00023	NA	NA
BMS020_06803	534			hypothetical protein	ATGGCTGGACTGCGCATCATCAAGAAGTACCCGAACCGCCGGCTGTACGACACTGAGATCTCCAGCTACATCACCATCGAGGACGTGCGCCAGCTGATCATCGACGGCGAGGATTTCGAGGTCCGCGACGCCAAGAGCGGCGAGGACCTGACCCGCACGGTGCTGCTGCAGATCATCGCCGACCAGGAATCGGACGGCGAACCGATGCTGTCCACCCAGCTGCTCAGCCAGATCATCCGCTTCTATGGCGACTCGCTGCAGGGCTTCATGGGCAACTACCTGGAGCGCAGCATGCAGGTGTTCCTGGAGCAGCAGCAGCAGTTCCGCCAGCAGATGGGCAACCTGCTCGGCCAGACCCCGTGGGCGATGATGAACCAGCTCACCGAGCGCAACCTCGAGCTGTGGCAGGAGTTCCAGCGCAGCTTCGGCGCCGGCTTCGGCCGCCCGACCGGCCCCTCGGCGGGCACCGGCAGCAGCACGGGCGCCGGCACTGGCACTGGCACCGGCAGCACCAACAAGCCGCGCGGGCGCTGA	MAGLRIIKKYPNRRLYDTEISSYITIEDVRQLIIDGEDFEVRDAKSGEDLTRTVLLQIIADQESDGEPMLSTQLLSQIIRFYGDSLQGFMGNYLERSMQVFLEQQQQFRQQMGNLLGQTPWAMMNQLTERNLELWQEFQRSFGAGFGRPTGPSAGTGSSTGAGTGTGTGSTNKPRGR				NA	NA	NA	NA	NA
BMS020_06804	948			hypothetical protein	GTGATTGCAGCCTGGTGCCGCCGCCTCCTGTTGTCCGCACTGCTGGCCGGCATCGCCGGCGCGGTGGTCGCCGCGACCCCGCCGGCCGGCCGCGCGCCGCCGGTCCCGCTGCTGTGGAAGGTCAGTGACGGTGCGGCGCACCTGTACCTGCTCGGCTCGTTCCATCTGCTGCGTGCGGACGACTACCCGTTGTCGCAGGATGTCGACAAGGTGTTCGCCGATGCGGAACGGGTGGTGTTCGAACTGGCCCCGGACGATGTCGAGTCCCCGGCGTTGGGCGCGCGCATGTTGCAGGTCGCGCAGCGCCGTGACGGCCACGTGCTCAGCGACGAGCTGGACGCGCCCACCTGGGCCAAGCTGCAGGCGTGGGCCGCGCACCGCAACATGCCCGTGGCCTCGTTGCAGGGCTACAAGGCCTGGTTCGTCGGCCTCAGCGTCGCCCTGGCCGAGATGGCCGGGCAGGGCATGGACCCGGCGCTCGGGCTGGATCGTCATTTCATGGTGCTGGCGGGCAAGGCCGGCAAGCCGACGGCCGGGCTGGAGCGTGCCGAGGACCAGGTGACGATGCTCGACGGCATGGCGCCGGAGGAACAGCGCCAGCTGCTCGCCGAGGCGCTCGACGATGCCGAGGCCGGCAGTGCGCAGTCGCAGCGGCTGCACGATGCCTGGCGGCGCGGCGATGCCAGGCAGTTGTGGGACGAGATGGGCCGGCAGATGCGCCACGACTACCCGGCGCTGTACAGGCGCATCAATGTCGAGCGCAACGCACGCTGGACGCCGGCGCTGGTCGGCATGCTCGAGGCCGCCCCGGCCCAGGGCGATACCCTGGTCGTGGTCGGGGCGCTGCATCTGCTGGGCGAAGACGGCGTGGTCGCGCGGTTGCGCGCCAAGGGCTACCGGGTGGAGCGGATCTGTTCGGTCTGTGCGGAGCCGGCTTCGGCGCGCTGA	MIAAWCRRLLLSALLAGIAGAVVAATPPAGRAPPVPLLWKVSDGAAHLYLLGSFHLLRADDYPLSQDVDKVFADAERVVFELAPDDVESPALGARMLQVAQRRDGHVLSDELDAPTWAKLQAWAAHRNMPVASLQGYKAWFVGLSVALAEMAGQGMDPALGLDRHFMVLAGKAGKPTAGLERAEDQVTMLDGMAPEEQRQLLAEALDDAEAGSAQSQRLHDAWRRGDARQLWDEMGRQMRHDYPALYRRINVERNARWTPALVGMLEAAPAQGDTLVVVGALHLLGEDGVVARLRAKGYRVERICSVCAEPASAR				NA	NA	NA	NA	NA
BMS020_06805	933			hypothetical protein	ATGAAGGGGACGATCAGGGCATTCGGATGGGCGGTGCTGGCCGCAGCGGCGTTGGCCGGATGCGGTGGCGAAGCGCCGCCGCAGGCGGCAACGCCGGTGATGGACAAGCAGTTCCTCGCCGACATGCAGGTCTGGCGCGAGGCGCGCCTGGAAGAGCTGCGCAAGCCGGATGGCTGGACCAGCCTGGTCGGCCTGCACTGGCTGGAGTTGAAGGCGCATTACATCGGCAGCAGTGCCGACAGCGGCATCCGCCTGGCGGTCGGCCCGGCCCGGCTGGGCATGGTCAGCAGCGACGCCAATGCGGTCTGGTTCACCCCCGAGCCCGGTGTCGAAGTGAGCGTCGCCGGCCAGCCGCTGAAGGGGCGCACGCGCTTCTACAGTGATCGCGAGGCCACCCCGACCACGATCGTCTTCGATGGCGGCAAGGGGCTGCTGACGCTGATCCAGCGCGGCGACCGCCGTGCGCTGCGGGTACGTCACGCCGATGCCGATTCGCGCGTGCGCTTCACCGGGCTGGAGGATTGGCCGGCCGACCCGGCCTGGCGCATCACCGGTCGCTACGTGCCCAACGACGTCGGCAAGACCATTCCGATCGTCGATATCGTCGGCATCACCACCGAGCAGCCCAATGCCGGTGCGATCGAGTTCGAGAAGAATGGGCACAGCTATCGCCTGGAAGCGATCGGTGAGCCTGGCCGCGACCTGTTCGTGGTGTTCGCCGACCGCACCAGCGGGCGCGGCAGCTACGCGGCGGGCCGCTTCATCGACGTGGGTGCGCCCGATGCCAATGGCCGCGTGGTGATCGATTTCAACCGCGCCTACAACCCGCCGTGCGCGTTCACGCCGTTCGCGACCTGCCCGCTGCCGCCGCCGGAAAATCGGCTGGACCTGCTGGTCGAAGCCGGCGAAAAGACTTACCACAAGCCGTCCTGA	MKGTIRAFGWAVLAAAALAGCGGEAPPQAATPVMDKQFLADMQVWREARLEELRKPDGWTSLVGLHWLELKAHYIGSSADSGIRLAVGPARLGMVSSDANAVWFTPEPGVEVSVAGQPLKGRTRFYSDREATPTTIVFDGGKGLLTLIQRGDRRALRVRHADADSRVRFTGLEDWPADPAWRITGRYVPNDVGKTIPIVDIVGITTEQPNAGAIEFEKNGHSYRLEAIGEPGRDLFVVFADRTSGRGSYAAGRFIDVGAPDANGRVVIDFNRAYNPPCAFTPFATCPLPPPENRLDLLVEAGEKTYHKPS				NA	NA	NA	NA	NA
BMS020_06806	1851	mutL_2		DNA mismatch repair protein MutL	ATGAGCATCCGCCAGCTGCCCGAGATCCTGATCAACCAGATCGCCGCCGGCGAAGTGGTCGAGCGGCCCGCCTCCGTGGTCAAGGAACTGGTCGAGAACGCGATCGATGCCGGCGCCAGCCGCGTCGACATCGAACTGGAAGAGGGGGGTGTACGGTTAATCCGGATCCGCGACAACGGCGGTGGCATCGCCCCGGAAGAGCTGCCGCTGGCGGTGTCGCGGCATGCGACCAGCAAGATCGCTTCGCTCGACGACCTGGAGTCGGTCGCCACGCTCGGCTTCCGTGGCGAAGCGCTGCCGTCGATCGCCTCGGTCAGCCGCTTCACCCTGGCCTCGCGCCGCGCGCAGGACGCGCATGGCTCGGCGCTGCAGATCGAGGGCGGCAAGCTCGGCGAGGTGGCGCCGCGCGCGCACGCGCCGGGCACCACGGTCGAGGTCCGCGAGCTGTTCTACAACGTGCCGGCGCGGCGCAAGTTCCTGCGTGCCGAACGCACCGAACTCGGTCACATCGAGGAATGGCTGCGCTCGCTGGCGCTGGCGCGCCCGGACGTTGAACTGCGGGTGTCGCACAACGGCAAGCCGTCGCGCCGCTACAAGCCGGGCGACCTGTATTCGGACGCGCGTCTGGGCGAGACGTTGGGCGAGGATTTCGCACGGCAGGCGCTGCGCGTGGACCACGAGGGCGCCGGGCTGCGCCTGCATGGCTGGATCGCGCAGCCGCACTATTCGCGCGCCAGCGCCGACCAGCAGTACCTGTACGTCAACGGCCGATCGGTGCGCGACCGCAGCGTCGCCCACGCGGTGAAGATGGCCTACGGCGACGTGCTGTACCACGGGCGGCAGCCGGCGTATGTGCTGTTCCTGGAACTGGACCCGTCCCGGGTCGACGTCAACGTGCACCCGGCCAAGCACGAGGTGCGCTTCCGCGATGCGCGCCTGATCCACGACTTCGTCTACCGCACGCTGCAGGCGGCGCTGGCGCAGACCCGCGCCGGCAGCACGCCGGTGCAGGGCGACGGCCAGGCGCTGGCGGCGGGCCTGCCGGTTGCACCGGGCGGGCCGGGCGTTGTGCGCGACCATCCGGACTGGCGCCCGTCGCAGCCGCTGGGGTTACGCGTAGCCGATGCCCCAGCCGCCTACGCGGCGCTGTATGCGCCGACGGCGGGCGGGTTCGCGCAGGAGGCGGGCGGGTTCGTTGCACCGCCCGCGCCGGTCGGTACCGGAATCGGTCAGGTCGGGCTGCCGGCGGTCTCGGCCGACAGCGGCGTGCCGCCACTGGGATACGCGCTGGCGCAGCTGCACGGCATCTACATCCTGGCCGAATGCGCCGAGGGCCTGATCGTGGTCGACATGCACGCCGCGCATGAGCGCATCGGCTACGAGCGGCTGAAGACCGCGCACGACGGCATCGGCCTGCATGCGCAGCCGCTGCTGGTGCCGATCACCCTGGCGGTGGGCGAGCGCGAGGCCGACGTCGCCGAGCGCGAGGCGACGACGCTGGCGGCGCTGGGCTTCGAGATCACCCGCAGCGGGCCCGGCTCGCTGCATGTGCGCAGCATTCCGGCGCTGCTGGCCAATGCCGACCCGGAAGGCCTGCTGCGCGACGTGCTCGCCGACCTGCGCGAGCACGGGCAATCGCGGCGGATCGCCTCGGCGCGCGACGAACTGCTGTCGACGATGGCCTGCCATGGCGCGGTGCGCGCCAACCGGCGGTTGACCGTGCCGGAAATGAATGCGTTGCTGCGTGACATGGAGGCCACCGAGCGCTCCGGTCAATGCAATCACGGGCGCCCGACCTGGGCGCGGTTTTCGCTGGCGGAAATCGACCGCTGGTTTCTCAGGGGGCGTTGA	MSIRQLPEILINQIAAGEVVERPASVVKELVENAIDAGASRVDIELEEGGVRLIRIRDNGGGIAPEELPLAVSRHATSKIASLDDLESVATLGFRGEALPSIASVSRFTLASRRAQDAHGSALQIEGGKLGEVAPRAHAPGTTVEVRELFYNVPARRKFLRAERTELGHIEEWLRSLALARPDVELRVSHNGKPSRRYKPGDLYSDARLGETLGEDFARQALRVDHEGAGLRLHGWIAQPHYSRASADQQYLYVNGRSVRDRSVAHAVKMAYGDVLYHGRQPAYVLFLELDPSRVDVNVHPAKHEVRFRDARLIHDFVYRTLQAALAQTRAGSTPVQGDGQALAAGLPVAPGGPGVVRDHPDWRPSQPLGLRVADAPAAYAALYAPTAGGFAQEAGGFVAPPAPVGTGIGQVGLPAVSADSGVPPLGYALAQLHGIYILAECAEGLIVVDMHAAHERIGYERLKTAHDGIGLHAQPLLVPITLAVGEREADVAEREATTLAALGFEITRSGPGSLHVRSIPALLANADPEGLLRDVLADLREHGQSRRIASARDELLSTMACHGAVRANRRLTVPEMNALLRDMEATERSGQCNHGRPTWARFSLAEIDRWFLRGR				NA	NA	NA	NA	NA
BMS020_06807	1497			hypothetical protein	ATGGCGTTTTCCGGCCTGCATGCCGGCGAGATCCAGGCGGTTTCGCTCGACAACGGCGCCACCGGGACCCGCGCCGAGATCCGCCTGGCCGGCACCGGCGGTTACAAGACCCTGTCGCTGTCCGGCCCCAACCGTCTGGTCGTCGACTTTCCTGATTCGGCCGCCGTGCGCGGGTTGAAGCTGCCTGCCGCCGCCGGTGTGGTCACCGCGGTGCGCAGCGGCGAGCCGGTGCCTGGCACCTTCCGCGTGGTGTTCGATCTGTCGGCCAAGGTGGTCGCGTTCCGTCCGCAGATGCAGAACGCTGCCGGTGGCACGACCCTGGTCATCGAATGGCCAGGCGAGGGTGCGCCGTCCGCTCCGGCGCCGAGCACGGTCGCCACGACGCCGGTCCAGCCCCAGACGCAGGCCCCGGGCCCGGATGCACGCGCCGAGGCGGCGCGGGCGACCGCGGCGCTGACCGCGGCCGTGCAGCAGGCAGCCAGCACTCCCCGTCCCGCCACGACGACCGCACCGCCGCCGGCTCCGACGGCATCGGTGCCGGTGCCGCCGCCGGCGGCCACCGTTGCCGCTGCGTCGGGCGCACCCGCTGCGGGATCGCCGGCGGCGATCCTCAACGGCGGTGCGGTGGCGCTGGAGCCGCGCGCGGGCGCGCCGGCGGCCACGGCCAGCGTGCCCGAACCGCCGCGCCCGGCGATGCCGAGCGACGCCTCGCGCGTGCGCATGAGCGCCGGCATGCGGCCGTTGGTGGTCGCGATCGACCCCGGCCACGGTGGCCAGGATCCGGGCGCAACCGGCCCGACCGGCAAGCGCGAGAAGGACGTGACCTTGGCGGTGGCGAAGGAACTGGCACGCCAGGTCAATGCCACGCCGGGGCTGAAGGCCTACCTGACCCGCGACACCGACGTGTTCATCCCGCTGCCGCTGCGCGCCAAGAAGGCGCGCGCGGCCGGCGCCGACATCTTCATCTCGATCCACGCCGACGCCGCCGAGAACCGCAGCGCCAGTGGCTCGTCGGTCTACGTGCTGTCCACCAAGGGCGCCTCCTCACAGCGTGCGCGCTGGCTGGCCGACAAGGAGAACGCGGCCGACCTGGTCGGTGGCGTGCGCCTGCAGTCGACCGAGAACACCTTGGCCAACGTGCTGATCGATCTGGCCCAGAGCGGCCACATGAAGGCCTCCGAAGACGCGGCCGGGCATGTGCTCAGCGGCCTCAAGGAGATCGGCAACAACCACAAGCCGCATCTGGAGCGCGCCAACTTCGCGGTGCTGCGCACCTCGGACATGCCGGCGATGCTGGTCGAGACCGCCTTCATCTCCAACCCCGACGAAGAGCGCCGGTTGATCGATCCGGCCTACCAGCGCCGTCTCGCCGGGGCCGTGCTCGAAGGCGTCAATACCTTCTTCACCCGGCAGCCGCCGCCGGGCACGCTGTTCGCCGCACGCGCGCAGGCCGAGGCTGACGCCGCGGCCGGCACCGTGGCCGGCGGCAGCCGCTGA	MAFSGLHAGEIQAVSLDNGATGTRAEIRLAGTGGYKTLSLSGPNRLVVDFPDSAAVRGLKLPAAAGVVTAVRSGEPVPGTFRVVFDLSAKVVAFRPQMQNAAGGTTLVIEWPGEGAPSAPAPSTVATTPVQPQTQAPGPDARAEAARATAALTAAVQQAASTPRPATTTAPPPAPTASVPVPPPAATVAAASGAPAAGSPAAILNGGAVALEPRAGAPAATASVPEPPRPAMPSDASRVRMSAGMRPLVVAIDPGHGGQDPGATGPTGKREKDVTLAVAKELARQVNATPGLKAYLTRDTDVFIPLPLRAKKARAAGADIFISIHADAAENRSASGSSVYVLSTKGASSQRARWLADKENAADLVGGVRLQSTENTLANVLIDLAQSGHMKASEDAAGHVLSGLKEIGNNHKPHLERANFAVLRTSDMPAMLVETAFISNPDEERRLIDPAYQRRLAGAVLEGVNTFFTRQPPPGTLFAARAQAEADAAAGTVAGGSR	PGPT0024160_1055	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
BMS020_06808	480	tsaE_2	COG0802	tRNA threonylcarbamoyladenosine biosynthesis protein TsaE	ATGATCGACGCATTCCTCGATTCGGCCGAGGCCACCGAACGCCTCGGCGCGCTGCTGGCGCAGACCCGGCCGGCACAGGCGGTGGTGCAGCTGAAGGGCGACCTCGGCGCCGGCAAGTCCACGCTGGCGCGTGCGCTGCTGCGCGCGCTCGGCGTGGCAGGGGCGATCCGCAGCCCGACCTACACCCTGGTCGAGCGCTATCCGCTGGCCGACGGCAGCGAGGCCTGGCACCTGGACCTGTACCGGATCGGGCATGCCGGCGAGCTTGATTTCCTCGGCCTGGACGAGGGCAGCGCCAGTCTGTGGCTGGTCGAATGGCCCGAGCGCGGCGCCGGGGCGCTGCCACCGGTGGACCTCACGGTCGAGCTGGCGGTCGTCGGCGACGGGCGGTCGGTGCGCCTGCTGGCCGACAGCGCGGCTGGCCAGGCATGGCTGGCTCAGGTTTCCAGTGATGGGAAGTTGCGGGCGGTTCCTGCCTGA	MIDAFLDSAEATERLGALLAQTRPAQAVVQLKGDLGAGKSTLARALLRALGVAGAIRSPTYTLVERYPLADGSEAWHLDLYRIGHAGELDFLGLDEGSASLWLVEWPERGAGALPPVDLTVELAVVGDGRSVRLLADSAAGQAWLAQVSSDGKLRAVPA	PGPT0019050_190	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
BMS020_06809	1485	nnr_2	COG0062	Bifunctional NAD(P)H-hydrate repair enzyme Nnr	ATGTCCGCTCCGCTCGACCTCTACGACACCGCGACCGCGCGGATGATCGACGCCCAGGCCACGGCGCTGCTCGGTGGCGATGGCTACGTGCTGATGCAGCGCGCCGGGCAGGCCGCCAGCGAGCTGCTGCTGCAGCGTTGGCCGCAGGCGCGCCGCATCGTGGTGGCCTGTGGCACCGGCAACAACGGCGGCGACGGTTACGTGCTGGCGCGGCTGTTGCTGCGCGCCGGGCGCGCGGTGCGCGTGGTGCATCTGCCCGAATGCGGGCCGGCCTCGGCGCTGGCGCAGCGTGCGTGTACCGAGTACTTGGCCGCAGGCGGTCGCGTCGAGCTGTTTCCGTGCCGGCTGGACGATTGCGACATGCTGGTCGACGCCGTGTTCGGGATCGGCCTGAACCGCGCGCCGGACGCCGCGACCGCCGCCCTGCTGGCCGCGCTGGATGCGGCCGGCGCGCCGTTGCTGGCGCTCGACGTGCCCAGCGGCATGGATGCCGAACATGGCATCGCTCCGGGCGTGGCGTTGCACGCCAGCGTGACCCTGCAGTTCATCGTCGCCCATGCCGGCCTGTACACCGGCGATGCGCTGGAACATGTCGGCGAGCTGATGCTGGCCACGCTGGAGGTGCCGGAATCAGCGATCGCGGCGCTGCCGGCCCGTGCCGCGTCGTGGTCGGCGCCGTCGCTGGCGGCAGGCCTGCCGCCGCGGCGGGGCAACACCCACAAGGGTGAGTCCGGGCGCGTGCTGTGCATCGGCGGCAACCTCGGCAGCGGCGGCGCGGTGATGCTGGCGGCCGAGGCCGCGTTGCGCAGCGGCGCCGGGCTGGTCAGCGTCGCCACCCGCGAGGCGCACGTCGGGCCGTTGCTGGCGCGCTGCCCGGAGGCGATGGTACGCGCGGTCGACAGCGGCGCGGTGCCCGGCGACGTGCTGGACGTCGCCGACGTGATCGCGCTTGGTCCCGGGCTCGGCCAGGACGACTGGGCGCAGGCGTTGTGGCGGCAGGCGCTGGCGTCCGGTCGCCCGCTGGTGGTGGACGCCGACGCGTTGAACCTGCTGGCCGCACGGCCGCAGCCGTTGCCTGGCGCGATCCTGACCCCGCATCCGGGCGAGGCAGGACGCCTGCTCGGCAGCTCCAGCACGCAGGTCCAGCGCGACCGCCTCGGCGCGGCCGAGGCGCTGGTCGCGCGCTTCGATGCGGTGGTGGTGCTGAAAGGCGCGGGCAGTATCGTGGCTGCACCCGGCGCGGTGCCGCGGATTCTCGATGCCGGCAACCCCGGCATGGCGGTGGGTGGCATGGGCGACCTGCTGACCGGCGTCATCGCCGCGGTGCGCGCGCAGGGGCATGCGCCGTTCGACGCGGCCACGCTTGGCGCGCTGCTGCATGGACTGGCCGGCGACGCCGCCGCGCGCGATGGTCAGCGCGGCCTGCTGCCGCGCGATCTGCTGCCGCACCTGCGGCAGTTGGCAAACCCTGGAACGACACGATGA	MSAPLDLYDTATARMIDAQATALLGGDGYVLMQRAGQAASELLLQRWPQARRIVVACGTGNNGGDGYVLARLLLRAGRAVRVVHLPECGPASALAQRACTEYLAAGGRVELFPCRLDDCDMLVDAVFGIGLNRAPDAATAALLAALDAAGAPLLALDVPSGMDAEHGIAPGVALHASVTLQFIVAHAGLYTGDALEHVGELMLATLEVPESAIAALPARAASWSAPSLAAGLPPRRGNTHKGESGRVLCIGGNLGSGGAVMLAAEAALRSGAGLVSVATREAHVGPLLARCPEAMVRAVDSGAVPGDVLDVADVIALGPGLGQDDWAQALWRQALASGRPLVVDADALNLLAARPQPLPGAILTPHPGEAGRLLGSSSTQVQRDRLGAAEALVARFDAVVVLKGAGSIVAAPGAVPRILDAGNPGMAVGGMGDLLTGVIAAVRAQGHAPFDAATLGALLHGLAGDAAARDGQRGLLPRDLLPHLRQLANPGTTR				NA	NA	NA	NA	NA
BMS020_06810	1077	queG_2	COG1600	Epoxyqueuosine reductase	ATGTCAGCCGTTCCCGCCAGCATCGACCTGCCCCACGCCGCCGCACGCATCCGCGCGCTGGCGCGCGAAGCCGGCTTCCAGCGCTGCGGCATCGCCGGCATCGAACTGGGCGACGACGAGGCGCACCTGCGCAGCTGGCTGGCCGAGGGGCTGTACGGCACGATGCACTGGATGGCCCAGCACGGCGACAAGCGCTCGCGGCCGCACGAGCTGGTGCCGGGCACGCTGCGGGTGATCTCGGTCGGCCTGGACTACGGCCGCAAGGACGACGACGCGGCCTGGCAGACCCTCGCCGACGGCACCCGCGCCTACGTGGCCCGCTACGCACTTGGCCGCGACTACCACAAGCTGATGCGCAACCGCCTGCAGAAGCTGGCCGAGCGGGTGCAGGCCGAGATCGGTCCGTTCGGGCACCGCGTGTTCGTCGATTCGGCGCCGGTGCTGGAACGCGCGCTCGCCCGCAACGCCGGGCTCGGCTGGATCGGCAAGCACACCTGCCTGATCGACAAGCGTGGCGGCTCGTGGTTCTTCCTCGGCGAGATCTACATCGACCTGCCGCTACCGGTCGACCCGCCCGCAAGCGCGCATTGCGGCAGCTGCACGCGCTGCATCGACATCTGCCCGACCCAGGCGATCGTCGCGCCGAATCGGCTGGACGCGCGGCGCTGCATCGCTTACCTGACCATCGAACACGACGGCGCGATCCCGGAAGACATGCGCGCCCCGATCGGCAACCGCATCTTCGGCTGCGACGATTGCCAGCTGGTGTGCCCGTGGAACAAGTTCGCCCAACGCACCGACGAGCCGGACTTCCGCGCCCGCAACGCCCTCGACACGGCGACGTTGCCGGAGTTGTTCGGCTGGGACGAAGATGAGTTCCTGCGCCGCACCGAGGGCAGCCCGATCCGCCGTAGTGGCCACGAACGCTGGCTGCGCAACATCGCGGTGGCGCTGGGCAACGCACCCTCGACCCCGGCAGTGCTGGATGCGCTGGCCACGCGCCGCGAGCATCCCTCGGCGCTGGTGCGCGAGCACGTCGACTGGGCACTGGCGCAGCATGCCGCGCGCGGGCGCTGA	MSAVPASIDLPHAAARIRALAREAGFQRCGIAGIELGDDEAHLRSWLAEGLYGTMHWMAQHGDKRSRPHELVPGTLRVISVGLDYGRKDDDAAWQTLADGTRAYVARYALGRDYHKLMRNRLQKLAERVQAEIGPFGHRVFVDSAPVLERALARNAGLGWIGKHTCLIDKRGGSWFFLGEIYIDLPLPVDPPASAHCGSCTRCIDICPTQAIVAPNRLDARRCIAYLTIEHDGAIPEDMRAPIGNRIFGCDDCQLVCPWNKFAQRTDEPDFRARNALDTATLPELFGWDEDEFLRRTEGSPIRRSGHERWLRNIAVALGNAPSTPAVLDALATRREHPSALVREHVDWALAQHAARGR				NA	NA	NA	NA	NA
BMS020_06811	1338	xseA_2	COG1570	Exodeoxyribonuclease 7 large subunit	ATGCCTGCCCGCGAAGACCAGATCCTCACCCCCAGCCAGCTCAACACGCTCGCCCGCGACCTGCTCGAAGGCAGCTTCCCGCTGGTCTGGGTCGAGGCCGAGCTGGGCAACGTCACCCGACCGTCGTCCGGGCACCTGTACTTCACCCTGAAGGATCCGCGCGCGCAGGTGCGCTGCGCGATGTTCAAGCCCAAGAGCCAGTGGCTGAAGTTCCAGCCGCGCGAGGGCCTGCGCGTGCTGGCGCGCGGACGGCTGACCTTGTACGAAGCGCGCGGCGACTACCAGATGGTGCTCGACCACCTGGAGGAAGCCGGCGAAGGTGCCCTGCGGCGCGCCTTCGAGCAGCTGCGCGCACGCCTGGAAGCCGAGGGCTTGTTCGATCCTGGGCGCAAACGCCCGCTGCCGGCGCATCCGCGGCGACTGGCGGTGATCACCTCGCCGACCGGCGCGGCGGTGCGCGATGTGCTCAGCGTGCTGGGCCGACGCTTCCCGATGCTGGAGGTCGAGGTGCTGCCGTCGCTGGTGCAGGGCGACAGCGCCGCGGCCCAGCTCAACGCGCTGCTGCGCCGCGCCGATGCCAGCGGCCGCTACGACGTGATCCTGCTGACCCGCGGCGGCGGTTCGCTGGAAGACCTGTGGGCGTTCAACGACGAGGCGCTGGCGCGCAGCATCGCCGCCAGCACCACGCCGGTGGTGTCCGCGATCGGCCACGAAACCGACTTCACCCTGGCCGATTTCGCCGCCGACCTGCGCGCACCGACGCCTTCGGCCGCGGCCGAACTGCTGGTCCCCGACCAGCGCGAACTCGCGCGCCGACTGCAGCGCGCACAGCAGCGCCTGGCGCAGTTGCAGCGGCACCGGCTCGACCAGGCCGTGCAGCGCGCCGATCGCGCCGCGTTGCGGCTCAACGCGCAGAGTCCGCAGGCGCGGCTGTCGCTGCTGCGCCACCGCCAGGAGGCGGCGCTGCGCCGACTGCAGGCGCAACGCGGGCTGCTGCTCGACCGCCTGCGCGCGCGGCTGCAGCGCGCCCACGCGGTGCTGCGCCTGCACGACCCGGCGCGCGAACTGCCGCGCCTGCGCCAGCGCCTGCAGACACTCGATCCGACCCCGGCGATGCAGCGCACGCTGCAGCAGGACGCACTGCGATTGCGCGGGCTGGCGCGTTCGCTGGAAGCGGTGAGCCCGCTGGCGACGGTCGCGCGCGGTTACGCGATCCTGACCCGCGAGCGCGATGGCGAACTGGTCCGCCATCGCGACCAGGCCCGGCCTGGCGAACGCCTGCAGGCACGGGTCGGCGACGGCACCCTGGCCGTACGGGTGGAGCCGGACGCGGACTGA	MPAREDQILTPSQLNTLARDLLEGSFPLVWVEAELGNVTRPSSGHLYFTLKDPRAQVRCAMFKPKSQWLKFQPREGLRVLARGRLTLYEARGDYQMVLDHLEEAGEGALRRAFEQLRARLEAEGLFDPGRKRPLPAHPRRLAVITSPTGAAVRDVLSVLGRRFPMLEVEVLPSLVQGDSAAAQLNALLRRADASGRYDVILLTRGGGSLEDLWAFNDEALARSIAASTTPVVSAIGHETDFTLADFAADLRAPTPSAAAELLVPDQRELARRLQRAQQRLAQLQRHRLDQAVQRADRAALRLNAQSPQARLSLLRHRQEAALRRLQAQRGLLLDRLRARLQRAHAVLRLHDPARELPRLRQRLQTLDPTPAMQRTLQQDALRLRGLARSLEAVSPLATVARGYAILTRERDGELVRHRDQARPGERLQARVGDGTLAVRVEPDAD				NA	NA	NA	NA	NA
BMS020_06812	1281			hypothetical protein	ATGGTGGTGTTCCGGTGGGGCGTGGCGGTACTGCTGGTAGTGGGGAGCGGCTACGCGGTGGCCCGGCATGTGCATGACGGCGTTGGCGGGCGCTACGGGCATCCGCAGATCCTCGCCCCGGTCGGGGCGCCGCGCGCGCTGGTGCTGGTGTTTCCCGATGCCGACACGCCGGCGCGGGCGCGCGCCGCCGCGCAGCGCCTGGCCGGCGACGGCGCGTTGGTCGCGGTGGTCGATACCGCGGCGTACCTGCATGCGCTTGGCCAGTCGCCGCGGCTGGACTGCGCCGCGCTCGCCGACGATGCCGAGCGGCTCGGCAAGAAGCTGCTGCGCGCGCGGCATGTCGATGCGTTCCTGCCGCCGCTGTTGCTCGGCGACGGCGAGGGTGCGCGGCTGGTGCGGCAAGCCTTGGCCTCGGCCGCGCCGGGCGTGCTGGCCGGGGGCGTGGTCGTCGACGACGCGCCGGCCAACGACCCGCTGGCCTGCACCGCCGGGACCTCGCCGGCAGGGCTGCAGGTGGTCGCCGCGGTGGGCGACGACGGTCGCGCGCTGGCCGATGCGACGCGCGCGCGCTTCCCGGCTGCCGACACCACCGGCGTGGGCGGCCTGCCGCTGGTGGAACTGCCGGTGGCCGGCAGTCATCGGCTGGCGATCGTGATCTCCGGCGACGGCGGCTGGCGCGAGCTGGACAAGGGCATCAGCGCCGAGCTCAACCGCCAGGGCGTGTCGGTGGTCGGCTGGAACAGCCTGCGCTATTTCTGGAGCGAGAAGCCACCGGCGCGGATCGCCGACGATCTGGCGCGCGTGCTGAGCACCTACCGGCAGCGCTGGCACGCCGACGATGTCGCCCTGGTCGGCTACTCCTTCGGCGCCGATGTGATGCCGTTCGCCTACCGGCGCTTGCCGCCGGCGCAGCGCGAGGCGGTGCACTTCGTCTCGCTGCTGGGTCTGGCGCATGGCGCCGATTTCCGCGTGCGGGTCGGCGGCTGGCTCGGCCTCGGCGGCGAGACGCAGACGCCGATCCTGCCGGAGATCGCGGCGATGCCGCCGGCGCTGCTGCAATGCATCCACGGCGAGCAGGAGAAGGACACGCTATGCCCCGAGCTGGCCTCGCACGGCATCGCCGTGGTTGCGCGTCCGGGCGGCCATCACTTCGATCACGACCCGGTCAAGCTGGCCGCGATCGTGCTGCAGGGCTGGACCCAGGCAGCGGCTGCGGCGCCGGCATCGGTCCAGTTGTCTGCCGCGCCTGCAGCGACGGAGGCGAAGCCCCGGCACGGCTGA	MVVFRWGVAVLLVVGSGYAVARHVHDGVGGRYGHPQILAPVGAPRALVLVFPDADTPARARAAAQRLAGDGALVAVVDTAAYLHALGQSPRLDCAALADDAERLGKKLLRARHVDAFLPPLLLGDGEGARLVRQALASAAPGVLAGGVVVDDAPANDPLACTAGTSPAGLQVVAAVGDDGRALADATRARFPAADTTGVGGLPLVELPVAGSHRLAIVISGDGGWRELDKGISAELNRQGVSVVGWNSLRYFWSEKPPARIADDLARVLSTYRQRWHADDVALVGYSFGADVMPFAYRRLPPAQREAVHFVSLLGLAHGADFRVRVGGWLGLGGETQTPILPEIAAMPPALLQCIHGEQEKDTLCPELASHGIAVVARPGGHHFDHDPVKLAAIVLQGWTQAAAAAPASVQLSAAPAATEAKPRHG				NA	NA	NA	NA	NA
BMS020_06813	894	bepA_6		Beta-barrel assembly-enhancing protease	ATGAGCAACGATCCGTTCGGCCGGCAGTCGGTGGGGCGCAGGCGTGGCGGCATCCGCTGGTGGGTGCTGATCGCCTTCGCCGGCTATGCGGCCTACTACTGGTTCAGCAACCGCACCGAGGACCCGTACACCGGCGAGAAGGTGATGATCGACAGCGCGCTGGATGTGGAACAGGAAAAAGCGCTGGGCCTGCAGGCCTACCAGGAGATCCTCAGCCAGGAGCGGCCGGTCGCGGCCGATTCGCAGCAGGCCCGGCAGGTGCGGGCGATCGCCGAGCGGCTGATCGCCAAGGTCGAGCCGGTCGAGGCCGCGTTGGCCGCCGAGCACGGCATGCAGCCCAACCGCATCTCGCGCGACTTCGACTGGGAGGTCAACGTGATCCAGTCCGAGCAGGCCAATGCGTTCTGCCTGCCCGGCGGCAAGATGGCGGTGTATACGGGCCTGTTCCCGGTGGCGCAGAACGCCGACGCGATGGCGGTGGTGATGGGGCATGAGATCGCCCACGCGCTGCTGCGCCACGGCGCGCAGCGGATGGCGCAGCAGAAGCTCACCCAGCTCGGGCAGATGGCCGGCGCCGCCAGCGGCATGGACCCCCAGCAGCAACAGATGATGATGGCGGCGATGGGCTACGGCTACCTGCTGCCGTACGCACGCGGCCACGAGACCCAGGCCGACGAGGTCGGGTTGATGCTGGCCGCGGCGGCCTGCTTCGATCCGCAGCAGGCGATTCCGCTATGGCAGCGGATGGAGCAGAGCAGCGGCGGGCAGTCGCCGCCGGAATTCGCCTCCACCCATCCCAATCCCGGCACCCGCATCCAGACCCTGCAGGCGCTGATGCCCAAGGCATTGGAGTACCGCCAGCGCTTCTGCGAGTCGGCCGGCAGCGCCCGCTGA	MSNDPFGRQSVGRRRGGIRWWVLIAFAGYAAYYWFSNRTEDPYTGEKVMIDSALDVEQEKALGLQAYQEILSQERPVAADSQQARQVRAIAERLIAKVEPVEAALAAEHGMQPNRISRDFDWEVNVIQSEQANAFCLPGGKMAVYTGLFPVAQNADAMAVVMGHEIAHALLRHGAQRMAQQKLTQLGQMAGAASGMDPQQQQMMMAAMGYGYLLPYARGHETQADEVGLMLAAAACFDPQQAIPLWQRMEQSSGGQSPPEFASTHPNPGTRIQTLQALMPKALEYRQRFCESAGSAR				NA	NA	NA	NA	NA
BMS020_06814	1869	egtB_4		Hercynine oxygenase	TTGCAAATCCGCGGCGACAGACTGCTGCCGCTCGTGCTGGTGGCCTGGCTTGCCGGCTGCACGGGCGAGCCATCATCGACGGCGGATGCGGCACGCAGCGAAGCGGCGGCGCCGGCGTCCACGCCGTCCGCGGCGCGTCCGCAGGTCACCATTGGTGGCGAGGGCGCTGCCGAGGCGGTGGCGCGCTGGCAACCGCCGGCGGTGGCGTTGGAGCCGGCCGACCTGGCCGATGCACGCCGGCGTGCATCGCGCGCGCTCAAGGACGGTCGCCTGTACGAGGATGCCGATGCGGCGATTCCGTTGTACCTGGCGATCCGGGGGCTGCGGCCGTCCGATCCCAGTGCGCGCGACGGCCTGCGCGAGGCATTGCGGCAGCTGCTGGCACGCGGGGCGCGCCTGCTGGAACGCACCGAGGACCAGGGCGAGGCGCTGGACGAGGTGCGGCGCCTCGCCATGGTGGCGTTGGCGTTCGCCCCCGACGATGCCCGCGTACGCGCGCTGCTGGGCCGTGCCGAGACCGCGCAGCGGGTGCTGGCGTTCAACCGCGCCGGCGAGGACGACCTGCGCGCCGGCCGTCCCGGCGGCGACGACAACGGCGCGCTGGAGAACTTCCGCGAGGCATTGAAGCTCGATGCCGACAACAGCCGCGCCCGGCAGGGCCTGGCTGCGGTCGAGAGCGCGCTGATCGGTCGCGCCGAACAGGCCGCGGCAGCCGCCGATTACGCGGCCGCGCAGCGTTGGCTGGGCGCTGCCGGCGAGGTGCGCGACGATGCGCCCACGGTTGCCGAGGCGCGCGCGCGGGTGCGCGCAGTCCGGCGCGCGCAGATCGCGGCGCTGCACGACGGCGCCCTGCGCGACCTGGCCGGTGCGGGCGGGCTGAAGGCCGCGCGCGAAAAGCTCGCCGAGGCGCTGCGCATCGGCGAACCCGGCGATGCCGAGGTCGCCGACCTGCGCCAGCGCGTGGACCTGGCCACCCACTACGGCAGCTTCAAGCCGGGCCAGGTGTTCACCGACGGCATGCAGGATGGCGGGCGTGCGCCGCAGATGATCGTGGTGCCGCATGGCGGCTTCACGATGGGCGCCTCGGAGATCGACCCGGCCGCCACCGATGCCGAGCGGCCGGCGCATTACGTGCGCTTCGAGCGTGGGTTTGCGATGTCGGTGACCGAAGTCACCGTCGCCGAGTTCCGGCGCTTCGTGGAACAGGCCGGCGCGCGTCCGCGCGCGACCCGGCGTGGCCATTCGATCGTCTACGACGAGCGCAGCGGCAACTTCATCCGCCGCAGCGGCGTGGACTGGCAGTCCGGCTACGACGGTCGCCGCGCCGCGCCGAACATGCCGGTGATGCATGTCAGCGTGCGCGACGCCGAGGCGTATGCGACCTGGCTGAGCGAACAGACCGGGCGGCATTACCGGCTGCCGACCGAGGCCGAATTCGAATACGCGCTGCGCGCCGGCACCACCGGCCGCTATCCCTGGGGCAACCATGGCACGCCGCCGGAGGATGCCGGCAACCTGACCGGTGGCAACGACAGCTCGCCGAACGGGCGGCACTGGACCAACGCCTTCGTCGGTTACGGCGATGGCTTCTGGGGCCCGGCGCCGGTCGGCAGCTTCCGCGCCAATGCCTGGGGCCTGTACGACATGGCCGGCAACCTCAGTGAATGGGTGGCCGACTGCTGGCATTCCAACTCCCGGCGCGCGCCGGCCGACGGCGGCGCCTGGTTCAACCCGGGCTGCCGGCAGCGACTGGTGCGCGGCGGCAGCTGGGCCAATTCGCCCGAACAGAGCCGGGCCAGCTGGCGGCTGTCCCAAGACTCGGACATCACCACCGCACGGATAGGATTCCGGCTGGTCCGCGGCATCTGA	MQIRGDRLLPLVLVAWLAGCTGEPSSTADAARSEAAAPASTPSAARPQVTIGGEGAAEAVARWQPPAVALEPADLADARRRASRALKDGRLYEDADAAIPLYLAIRGLRPSDPSARDGLREALRQLLARGARLLERTEDQGEALDEVRRLAMVALAFAPDDARVRALLGRAETAQRVLAFNRAGEDDLRAGRPGGDDNGALENFREALKLDADNSRARQGLAAVESALIGRAEQAAAAADYAAAQRWLGAAGEVRDDAPTVAEARARVRAVRRAQIAALHDGALRDLAGAGGLKAAREKLAEALRIGEPGDAEVADLRQRVDLATHYGSFKPGQVFTDGMQDGGRAPQMIVVPHGGFTMGASEIDPAATDAERPAHYVRFERGFAMSVTEVTVAEFRRFVEQAGARPRATRRGHSIVYDERSGNFIRRSGVDWQSGYDGRRAAPNMPVMHVSVRDAEAYATWLSEQTGRHYRLPTEAEFEYALRAGTTGRYPWGNHGTPPEDAGNLTGGNDSSPNGRHWTNAFVGYGDGFWGPAPVGSFRANAWGLYDMAGNLSEWVADCWHSNSRRAPADGGAWFNPGCRQRLVRGGSWANSPEQSRASWRLSQDSDITTARIGFRLVRGI				NA	NA	NA	NA	NA
BMS020_06815	1083	rnd_2	COG0349	Ribonuclease D	GTGCCCCACTGGATCACTCAGCCCGCCGACCTCGACGCCCGCCTCGCACGCCGCCCAAGCCGCATCGGGCTGGACACCGAGTTCATCCGCGAACGCACCTACTGGCCGCAGCTGGCGCTGGTGCAGATCGCCATCGACGACGAGATCCTGCTGGTTGACCCCCTGGCGCCGGGCATGACCGAGGCACTCAAGCCCTGGCTGGCCGCGCCCGACATCGTCAAGGTCATGCACAGCGCAAGCGAGGATCTGGTCGCGTTCAAGTGGACCTGCGGCCTGGTGCCGCGCCCGCTGTTCGACACCCAGATCGCCGCCGCGCTGGCCGGCATCGGCGCCGGCCTCGGCTACCAGAAACTGGTCAACGAAGTCACCGGCACTCTGCTGGCCAAGGGCGAGACGCGCTCGGACTGGCTGCGCCGCCCGCTGTCGCCGGCCCAGCTGGAGTACGCCGCGGACGACGTGCAGTACCTGTTTGCGCTGCACGACGCACTGACGGCCCGCCTGGCCGAACGCGGCCGCCAAAGCTGGCTCGAGGAAGACTGCAACCGCCTGCTCGACGGGGTCGACCACGATGAACCGGAGGCCTGGCCGCACCTGTCGATGCGTTCGGCGCAGTTCCTCGACCGCCCGGCGCAGCTGCGCCTGGTCCGCCTGCTGCGCTGGCGCGACCGCCAGGCACGCCAGAGCGACCGCCCGCGCAGCTGGATCCTCGACAACGAACTGGCGGTGACCCTGGCGCGCACCGCGCCGGCCGACCTGGCCGCCCTGCAGCGCCTGTTCGACGCCCATCCGAAAGCGCCACGCAAGCTGGCCACGGCGATCTTCGAGGTGCTGTCCACGCCGCTGCCGGACGAAGACGGCGCGCCGCTGGCGCAACCGGCCAACGACGGCAACAAGGCACTGCTCAAGCGCCTGCAGGAAGCGGTCGCGCAGCGCAGCCGCGCGCTCGACCTGCCCGACGGCGTGCTGGCTTCGCGCCGGCACCTGGAAGCACTGATCGAACAGCACGACTGGGCCGGCCCGCTGGCCGGCTGGCGCCGCGATGAACTCGACGCGGCGCTGACGCCCCTGCTCGAAGCCGACTGA	MPHWITQPADLDARLARRPSRIGLDTEFIRERTYWPQLALVQIAIDDEILLVDPLAPGMTEALKPWLAAPDIVKVMHSASEDLVAFKWTCGLVPRPLFDTQIAAALAGIGAGLGYQKLVNEVTGTLLAKGETRSDWLRRPLSPAQLEYAADDVQYLFALHDALTARLAERGRQSWLEEDCNRLLDGVDHDEPEAWPHLSMRSAQFLDRPAQLRLVRLLRWRDRQARQSDRPRSWILDNELAVTLARTAPADLAALQRLFDAHPKAPRKLATAIFEVLSTPLPDEDGAPLAQPANDGNKALLKRLQEAVAQRSRALDLPDGVLASRRHLEALIEQHDWAGPLAGWRRDELDAALTPLLEAD				NA	NA	NA	NA	NA
BMS020_06816	411			hypothetical protein	ATGAGCGACAACAACACCCTCGACCTGGATTCGATCGCCCAGGCCAAGGCCAGGCTGGCCGACGAGCTGCGCAAGCTCGAACAGCAGGAAACCCAGCTGCGCCAGCAGCAGGCCAACGACGCCCATGCCCAGGTGATGGCGCTGCTGGCCGATTACGGCACGCATTTCAGCGCGCGCCAGAAGGCCGAGATCGCCGCGCTGGTCGGCGAGAGCGCACGCCCGGCACGCAAGGCCGCCGGCAACGACGCCCGCCGCGAGGTCGCGCCGAAGTACTGGCTGCCGCACAGCGGCGAGACCTGGACCGGCCGCGGCCGCACCCCGAAGGCCTTCGCCGCATGGGAAGGCACCGCTGCCTACAACGAGTGGAAGGCCAAGCACCCGGAGCAGAAATTCCCGGCATTCCCGGGCTGA	MSDNNTLDLDSIAQAKARLADELRKLEQQETQLRQQQANDAHAQVMALLADYGTHFSARQKAEIAALVGESARPARKAAGNDARREVAPKYWLPHSGETWTGRGRTPKAFAAWEGTAAYNEWKAKHPEQKFPAFPG				NA	NA	NA	NA	NA
BMS020_06818	4356	srmB_2		ATP-dependent RNA helicase SrmB	ATGGTTCCTGCCTGCATGCCGTCGTCCGCGCTCGCTTCGTTCCATCCCGCCGTCGTGCGCTGGTTCCAGCGCTGCTTCGCCGCGCCCACGCCCGCGCAGGCCGGCGCATGGCCGGCGATCGCGGCTGGGCGGCATACGCTGGTGGCCGCGCCGACCGGCTCGGGCAAGACCCTGACCGCGTTCCTGGCGGCGATCGACGGGCTGGTCCGGGCCGGGCTGGAGCAGGGCGGCGTACTGCCAGACCACACCGTGGTGGTCTACGTGTCGCCGTTGAAGGCGTTGTCCAACGACATCCACGCCAACCTCGAGTTGCCGCTGGCCGGCATCCGCGAGGAGCTTGCTGCAATGGGGTTGCCGGACGTGGCGCTGCGCAGCGCGGTGCGCACCGGCGATACCCCGCAACGCGAGCGCGCCCAGGCGCGCCGGTCGCCGCCGCACATCCTGGTGACCACACCGGAATCGCTGTACGTGCTGCTCGGTTCCGAGTCCGGGCGCGCCTCGCTGCGGCATGTGCGCAGCGTGATCGTCGACGAGATCCACGCGCTGGCCGGCGACAAGCGCGGCAGCCACCTGGCGCTGACGCTGGAGCGGCTGCAGGCACTGGTCGCGGAGCCGTTGCAGCGGATCGGGCTGTCGGCGACGCAGAAGCCAATCGAGCTGGTGGCGCGGTTCCTGGTCGGTGCCGATGGCCTGCGCGACGGCGCGCCGGACTGCGCGATCGTCGACATCGGCTATGCGCGCGAACGCGACCTCGCGTTGGCCTTGCCGCCGACCCCACTGGCCGCGGTGATGTCCGCCGACCAGTGGCAGCAGGTCTATGCCGATGTCGCGGCGCTGGCGCAGCAGCATCGCACCACGCTGGTGTTCGTCAACACCCGGAGGATGGCCGAGCGGGCCGCGCGCCACTTGGGCGAACGGCTCGGCGCCGACGTGGTCGCCGCGCACCACGGCAGCCTGGCGCGTGAAACCCGCCTGCTGGCCGAGCGCCGGCTGAAGGCCGGCGAGCTGCGGGTGCTGGTGGCCACCGCCTCGCTCGAGCTGGGGCTGGACATCGGCGACGTCGACCTGGTGGTGCAGCTCGGCTCGCCGCGCTCGATCGCCGCGTTCCTGCAGCGCGCCGGGCGTTCCGGGCACTCCGTCGGCGGTACGCCGAAGGCGCGGCTGTTTCCGAGCTCGCGCGACGAACTGGTCGAATGCGCGGCGCTGCTCGATGCGGTCCAGCGCGGCGAGCTGGATGCGCTGCGCCCGCCGCGCGCGCCGATCGACGTGCTGGCGCAGCAGATCGTCGCCGAGGTCGCCTGCGGCGAGGTCGAGGAGGCGGTGCTGTTCGCGCGCTTCCGCCGCGCCTGGCCCTATGCGCAGCTGCCGCGCGAACGCTTCGACGCGGTGGTGCGCATGCTGGCCGACGGCTTCAGTACCCGCCTCGGTGAGCGGGCGCGCTACCTGCACCGCGACGCGGTGCACGGGGTGCTGCGCGCGCGCCGTGCCGCGCGCATGACCGCACTGACCTCAGGCGGCACCATTCCCGAGACCGGCGACTACACGGTGCTGCTCGACCCGCAGGGCGAGCACATCGGCAGCGTCAACGAGGACTTCGCGATCGAGAGCCTGATCGGCGACGTGTTCCAGCTCGGCAATACCAGCTACCGGATCCTGCGGGTCGAGCCGGGGCGGCTGCGGGTCGAGGACGCGCGCGGCGTGCCGCCGAACATCCCGTTCTGGATCGGCGAGGCGCCGGGGCGCAGCGATGAGCTCTCGCACGCGGTCTCGCGCCTGCGCCAGGCGGTGCAGGCGTGGGCCGGCAGCGGTGGGCTGGACGCGGTGGAGTGCGGGTTGCGGTCCCTGCCCGGGCTGCCGGACGCGGCGGTGCAGCAGATCGCCACCTACCTCACCCAGGCGCTGGCCGTGCTCGGTGCGTTGCCCAGTGCCCGCTGTGTGGTGATGGAGCGCTTCTTCGACGACAGCGGTGGTACCCAGCTGGTGATCCACGCGCCGTTCGGCAGCCGCATCAACCGCGCCTGGGGGCTGGCGCTGCGCAAGCGCTTCTGCCGCACCTTCAACTTCGAGCTGCAGGCTGCGGCGACCGAAGACAGCATCGTGCTGTCGCTGTCGACCAGTCACAGCTTCCCGCTCGAGGAGGTCGCGCGCTACCTGCATTCGTCGTCGGCCGAGCACGTGCTGGTGCAGGCCTTGCTGGACGCGCCGCTGTTCGGCGCGCGCTGGCGCTGGAACGCGACCAATGCGCTGGCGTTGCCGCGCTTCGCCGGCGGTCGCAAGGTCGCTCCGCAGCTGCAGCGGATGAAGTCGGAGGATCTGCTGGCAACGGTATTTCCCGACCAGGTGGCCTGCCTGGAGAACATCGTCGGCGAGCGTGAGGTGCCGGATCATCCGCTGGTCGCGCAGACGTTGGAGGACTGCCTGCACGAGGCGATGGACAGCGAGGGCTGGCTGCGGCTGCTGGGTGGGTTGGAAGCCGGCGCGATCGAGGTGGCCGCGTGCGATCTTCCCGCGCCATCGCCGCTGGCGGCCGAGGCGCTGACCGCGCGGCCGTATGCGTTCCTCGATGACGCGCCGCTGGAGGAGCGGCGCACCCAGGCCGTGCACGCGCGCCGCGTCATCGGCGAGGGGGACGAGGGGTTCGGTCGGCTGGAGCCGCAGGCGATCGCCGAGGTGCGCGCGGCGGCGTGGCCGCAGCCGCGCGATCGCGAGGAACTGCACGATGCCTTGTTTGGCTTCGGCCTGCTGGCACTGGACGAGGTGCTGCCGGACTGGCAGCCCTGGCTGCAGGCGCTCGCCGCCGATGCCCGTGCCACGCGCCTGGTGTTGTCCGATGGCCGTGGGTTCTGGCTGGCGGCCGAGCGCATCGGGCTGTTCGCGCCGCTGTACGCGCAGGCGCGGCTCGATCCGCCAGTAGCTGCACCGGCGCAGTGTGCCGTGGCCGACTGGCAGCGTGATGGGGCGGTGCGTGAACTGGTGCGGGCGCGGCTCGGCATCCACGGTCCGGTCGCCTGCGAGGCCTTGGTCATGCGGCTGGCGCTGCCGGCGGGCGATGTGCGTACGGCGTTGTCCGGGCTGCGCCAGGAGGGCTTCGTGATGGCCGGCGAGTTCGAGCCCGGTGCCGGCGAGCAATGGTGCGAGCGGCATCTGCTGGCGCGGATCCATCGCTACACGCTGGGCGCGCTTCGGCGCGAGATCGAGCCGGTCAGTCAGCGCGATTTCGTGCGCTTCCTGCTGCGTTGGCAGCATCTGGAAGATGCCGCGCGCATGGTCGGGTCCGAGGCGTTGGCGGCGCTGCTGGCGCAGCTGGAAGGCTTCGAGGCGCCGGCAGGATGCTGGGAGGGTGAGTTGTTGGCCGCGCGCCTGCGCGACTACCAGCCAGGCTGGCTGGACGAACAGTGCGCGGCCGGGCGCATCCTCTGGACCCGCTTGCGCCCGTCGCCGGAGGCGCGTGGTGGTGGCGGCTCGCTGCGTGGCGTGCCGGTGCTGGTGCTGCCGCGGCGGATGGCCGCGACCTGGGCCCGGCTTGCGCAGAGCGAGACCGCGTCGGCGCCGCTGCAGTCGCGCGCGCAGAAGCTGGCCGACGTGCTGGACGCGCACGGCGCCACGTTCTTCGACGAACTGACCGATGCCAGCCGGCTGCTGCCGACCGAGGTCGAGGATGCATTGGCCGAGCTGGTGGTGCGCGGGCGCGCGCACTGCGACAGCTTCGCGGGTCTGCGTGCATTGCTGGTGCCGCCATCGCGGCGGCCCTCGGCATTGGCGCGGCGGCAGCGGCGCGGCAGTGCCAGCGATATCCGCGATGCCGGGCGCTGGAGTCCGCTGCGTCCGCCGGCGCTGCTGCCGGCCGCGGAGGCGGAGCTGGCGCGGCAGGACGCGCTGGAACACGTCGCGCGGACGTTGCTGAAGCGCTACGGGGTGGTCTGCTGGCGTCTGCTGGAGCGCGAAGCCGCATGGCTGCCGCCATGGCGCGCGCTGCTGCGGGTCTATCAGCGGCTGGAGGCGCGCGGCGAGATCCGTGGCGGGCGCTTCATCGCCGGCCTGTCCGGTGAGCAGTTCGCGCTGCCGGAAGCGATTGCCGCGCTGCGCCGCATGCGCGGCGAACCGGCGGACGGGCAATGGGTATGCGTGGCGGCAAGCGATCCGGCCAACCTGCTGGGGACGGTGCTGCCGGGCGAGCGCGTTGCGCGCGTGCCCGGCAACCGCGTGCTGTACCGCGATGGGCTGCCGGTCGCGACGCTGGTCGGTGGTCAGGTGCAGCTGCTGCCGGCGTTGGCGCCGGAGCATGTGCTCGAGGCACGGCGCCGGCTGAGCGGGCGTTCACTGCTGGATGGCCTGTTGCCGGCGACGGTGCATTGA	MVPACMPSSALASFHPAVVRWFQRCFAAPTPAQAGAWPAIAAGRHTLVAAPTGSGKTLTAFLAAIDGLVRAGLEQGGVLPDHTVVVYVSPLKALSNDIHANLELPLAGIREELAAMGLPDVALRSAVRTGDTPQRERAQARRSPPHILVTTPESLYVLLGSESGRASLRHVRSVIVDEIHALAGDKRGSHLALTLERLQALVAEPLQRIGLSATQKPIELVARFLVGADGLRDGAPDCAIVDIGYARERDLALALPPTPLAAVMSADQWQQVYADVAALAQQHRTTLVFVNTRRMAERAARHLGERLGADVVAAHHGSLARETRLLAERRLKAGELRVLVATASLELGLDIGDVDLVVQLGSPRSIAAFLQRAGRSGHSVGGTPKARLFPSSRDELVECAALLDAVQRGELDALRPPRAPIDVLAQQIVAEVACGEVEEAVLFARFRRAWPYAQLPRERFDAVVRMLADGFSTRLGERARYLHRDAVHGVLRARRAARMTALTSGGTIPETGDYTVLLDPQGEHIGSVNEDFAIESLIGDVFQLGNTSYRILRVEPGRLRVEDARGVPPNIPFWIGEAPGRSDELSHAVSRLRQAVQAWAGSGGLDAVECGLRSLPGLPDAAVQQIATYLTQALAVLGALPSARCVVMERFFDDSGGTQLVIHAPFGSRINRAWGLALRKRFCRTFNFELQAAATEDSIVLSLSTSHSFPLEEVARYLHSSSAEHVLVQALLDAPLFGARWRWNATNALALPRFAGGRKVAPQLQRMKSEDLLATVFPDQVACLENIVGEREVPDHPLVAQTLEDCLHEAMDSEGWLRLLGGLEAGAIEVAACDLPAPSPLAAEALTARPYAFLDDAPLEERRTQAVHARRVIGEGDEGFGRLEPQAIAEVRAAAWPQPRDREELHDALFGFGLLALDEVLPDWQPWLQALAADARATRLVLSDGRGFWLAAERIGLFAPLYAQARLDPPVAAPAQCAVADWQRDGAVRELVRARLGIHGPVACEALVMRLALPAGDVRTALSGLRQEGFVMAGEFEPGAGEQWCERHLLARIHRYTLGALRREIEPVSQRDFVRFLLRWQHLEDAARMVGSEALAALLAQLEGFEAPAGCWEGELLAARLRDYQPGWLDEQCAAGRILWTRLRPSPEARGGGGSLRGVPVLVLPRRMAATWARLAQSETASAPLQSRAQKLADVLDAHGATFFDELTDASRLLPTEVEDALAELVVRGRAHCDSFAGLRALLVPPSRRPSALARRQRRGSASDIRDAGRWSPLRPPALLPAAEAELARQDALEHVARTLLKRYGVVCWRLLEREAAWLPPWRALLRVYQRLEARGEIRGGRFIAGLSGEQFALPEAIAALRRMRGEPADGQWVCVAASDPANLLGTVLPGERVARVPGNRVLYRDGLPVATLVGGQVQLLPALAPEHVLEARRRLSGRSLLDGLLPATVH				NA	NA	NA	NA	NA
BMS020_06819	342			hypothetical protein	ATGCCAAGTCTGATTCTCGTGATGATTGCCGGCGCCGCCGCCTTCGCATTCTGGAATGCGGCCCGCGCGGCGGCCGAACGCGCCGGCGAACTCGGCCGCAACGCCTGCCGCGCCGCCGACGTGCAGTGGCTGGACCAGAGCGTGCATGCGGTGGGCCTGCGGCTGTATCGCACGTCCAGCGGCTGGCTCGGCTTCGAGCGCACGTTCCGCTTCGACTATTCGCACGACGGCATCGACCGCCACAGCGGCCGGCTGGTACTGCGCGGCGACCAGCTGGTGTCGTTCACCGGGCCGTCGATGGCCACGGTCACGCCGCTGCGCCAGCCGCACGACGCCGGCTGA	MPSLILVMIAGAAAFAFWNAARAAAERAGELGRNACRAADVQWLDQSVHAVGLRLYRTSSGWLGFERTFRFDYSHDGIDRHSGRLVLRGDQLVSFTGPSMATVTPLRQPHDAG				NA	NA	NA	NA	NA
BMS020_06820	447			hypothetical protein	ATGAGCGAAGAATTTTCCCGCATGACCAGCCACCGGCCGTACCTGTTGAGGGCGCTGGTGGAGTGGATCAACGACAACGACATGACCCCCCACATCCTGGTCGATGCGGGGCTGCCGGGTGTGCAGGTGCCTCCCAGCGCCGTCAAGGACGGCCGCGTGGTGCTGAACATCGCCGAGCGTGCGGTCGTGCACCTGCACATGGACAACGACGGGATCAGCTTCACCGCGCGCTTCGGCGGCGTGAGCTACCCGGTCAGCGTGCCGATCTCGGCGGTGCTGGCGGTTTACGCGCGCGAAACCGGCCAGGGCATGGCGCTGCCGGACGACATCCCGGGCACGTCGGGCGAGCCGCCGGACGACGATGCGCCGACGCCGAGCCCGCAGGGCGCCGGTGCCGAGGAGAGCCCGCCGGCAGGCAAGCGCCCGCACCTGCGGGTGGTGAAGTAG	MSEEFSRMTSHRPYLLRALVEWINDNDMTPHILVDAGLPGVQVPPSAVKDGRVVLNIAERAVVHLHMDNDGISFTARFGGVSYPVSVPISAVLAVYARETGQGMALPDDIPGTSGEPPDDDAPTPSPQGAGAEESPPAGKRPHLRVVK				NA	NA	NA	NA	NA
BMS020_06821	636	sspA_2	COG0625	Stringent starvation protein A	ATGGCGACGAGTGTGCGTATGCGGAATACCCTGACCCTGTTTTCCTCCACCGACGACGTCCTGTGCCATCGCGTCCGCCTGGTGCTGGCGGCCAAGGGCGTCACCTACGACCTGGTGCCGGTGGACGCGCAGAATCCTCCCGAGGACCTGATCGACCTCAACCCCTACCACTCGGTGCCGACCCTGGTCGAGCGCGAGCTGGTGCTGTACGCGGCGTCGGTGGTCAGCGAATACCTGGACGAGCGCTATCCGCACCCGCCGCTGATGCCGGTCGATCCGCTCTCGCGTGCGCGCCTGCGCCTGGCGATGCTGCGCATCGAGCACGACTGGGTGCCGCAGGTGCAGGCGATCCAGCTCGGCAACAAGACCCAGGCCGAAGCCGGCCGCAAGCGCCTGAAGGAGCTGTTGACCGCGTCGGTGCCGCTGTTCAAGGCCAGCAAGTTCTTCCTCAATCCGGAGATGAGCCTGGCCGATTGCGCGATGGCGCCGATCATCTGGCGCCTGCAGGCGCTGGACGTGCCGCTGCCGAAGGACGGCAAGGCGATCGAGGATTACGGCAACCGGATCTTCCGCAATCCGGGCTTCATCCGCAGCCTGACCGAGCAGGAAAAGAAGCTGCGCGACCTGCCGATGTGA	MATSVRMRNTLTLFSSTDDVLCHRVRLVLAAKGVTYDLVPVDAQNPPEDLIDLNPYHSVPTLVERELVLYAASVVSEYLDERYPHPPLMPVDPLSRARLRLAMLRIEHDWVPQVQAIQLGNKTQAEAGRKRLKELLTASVPLFKASKFFLNPEMSLADCAMAPIIWRLQALDVPLPKDGKAIEDYGNRIFRNPGFIRSLTEQEKKLRDLPM				NA	NA	NA	NA	NA
BMS020_06822	747	petC	COG2857	Ammonia monooxygenase gamma subunit	ATGACTAAGCCTTGGATCGTCCGCCTGGCCGGGGCCGCTGCCGGCATGCTGCTGTCGTGTTCGCTGTGGGCCGCCGAGGGCGGCGCGCTGCAGCAGGCCGGCAATGACCTCGGCGACCGCGCCTCGCTGCAGCGCGGCGCGCAGCTGTTCATGAACTACTGCTCCGGCTGCCACTCGCTGAAGTACCTGCGCTACTCGCGCATGGCCGACGACCTCGGGCTGAGCGAGCAGCAGGTGATGGACAACCTCAACTTCACCGGCGGCAAGATCGGCGACCACATCGAGAACGCGATGCCGCACGATGCCGCGACCAAGTGGTTCGGCAAGGCGCCGCCGGACCTGAGCCTGATCGCGCGGGTGCGTGGCACCGACTGGGTCTACACCTACCTCAAGTCGTTCTACCTCGATGCCGCGCGTCCGCTGGGCTGGAACAACACGCTGTTCCCGAATGCGTCCATGCCCAACCCGCTGTGGGAGCTGCAGGGCCTGCAGCAGCCCGTGTACGGGGCGCCGGACAAGGTCACCGGCGAGAAGCCGGTCACCGGGCTGAAGCTGGCGCAGCCGGGCCGGCAGAACCTGGTGGAATTCGACCAGACCGCGCGCGACATCAGCAACTTCCTCGAGTACGCCGGCGAGCCGGCCGCGCTCAAGCGCCAGAGCATGGGCGTGTGGGTGATCCTGTTCCTGGCGTTGTTGACCTTCCTGGCCTATCTGCTGAAGAAGGAATACTGGAAGGACGTGCACTGA	MTKPWIVRLAGAAAGMLLSCSLWAAEGGALQQAGNDLGDRASLQRGAQLFMNYCSGCHSLKYLRYSRMADDLGLSEQQVMDNLNFTGGKIGDHIENAMPHDAATKWFGKAPPDLSLIARVRGTDWVYTYLKSFYLDAARPLGWNNTLFPNASMPNPLWELQGLQQPVYGAPDKVTGEKPVTGLKLAQPGRQNLVEFDQTARDISNFLEYAGEPAALKRQSMGVWVILFLALLTFLAYLLKKEYWKDVH	PGPT0030845_1942	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYNTHESIS_ELECTRON_TRANSFER,PGPT0030845-petC-K00413
BMS020_06823	1260	fbcH	COG1290	Cytochrome b/c1	ATGGCCAACATCCTTGTCCGCACCGCGACCGGGGTCTTCGACTGGGTCAACGCCCGCGCGCCGGGCCTGATGCCGGTGTACCGCAAGCACGTCAGCGGCTACTACGCGCCGAAGAACTTCAACTTCTGGTACTACTTCGGTTCGCTGGCGCTGGTGGTACTGGTCAACCAGATCGTCACCGGCATCTTCCTGACGATGCACTACAAGACCAGCGCCGCCGAGGCGTTCGCGTCGATCGAGTACATCATGCGGGACGTGGAGTGGGGCTGGCTGATCCGCTACATGCACTCCACCGGCGCCTCGCTGTTCTTCATCGTGGTCTACCTGCACATGTTCCGCGGGCTGATGTACGGCAGCTACCAGAAGCCGCGCGAGCTGGTGTGGATCCTCGGCATGCTGATCTACCTGGTGCTGATGGCCGAGGCCTTCATGGGCTACGTGCTGCCGTGGGGCCAGATGTCGTTCTGGGGCGCGAAGGTGATCATCTCGCTGTTCGGCGCGATCCCGGTGATCGGCAACGGCCTGACCGAATGGATCATGGGTGACTACCTGCCCGGCGATGCCACCCTCAACCGCTTCTTCGCCCTGCACGTGATCGCGCTGCCGCTGGTGCTGCTGCTGCTGGTGGTGCTGCACCTGGGCGCGCTGCACGAGGTCGGCTCCAACAACCCCGATGGCGTGGAGATCAAGAAGGGGCCGCTGGGCAATCGTTGGGATCCGCACAAGCCGGCCGACGGCATCCCGTTCCACCCGTACTACACGGTCAAGGACCTGGTCGGGGTCGGCTTCCTGCTGACCATCATGGCCTTCATCATCTTCTTCGCGCCGGGCTTCGGCGGCCTGTTCCTGGAGCACGACAACTTCACCGAGGCCAACCGGCTGGTCACGCCCGAGCACATCAAGCCGGTGTGGTACTACACGCCGTACTACGCGATGCTGCGGGTGGTGCCGAACAAGCTCGGCGGCGTGCTGGTGATGTTCTCAGCGATCGCGATCCTGTTCCTGGTGCCATGGCTGGACAAGGCCAAGGTCAGGTCGATCCGCTATCGCGGCCTGATCTCGAAAATCGCGCTGGGCGTGCTGGCGGTGTGCTTCGTCTGGCTGGGCATCATCGGCTCCGGCCCCGGCACCGATATCCGCGAGACCTACATCGGCCGCGTGCTGACCTTCCTGTACTTCGCTTTCTTCATCACCATGCCGCTGTGGACGCGGTTGGACAGGACCAAGCCGGTTCCGGAGCGGGTGACCACGCATGACTAA	MANILVRTATGVFDWVNARAPGLMPVYRKHVSGYYAPKNFNFWYYFGSLALVVLVNQIVTGIFLTMHYKTSAAEAFASIEYIMRDVEWGWLIRYMHSTGASLFFIVVYLHMFRGLMYGSYQKPRELVWILGMLIYLVLMAEAFMGYVLPWGQMSFWGAKVIISLFGAIPVIGNGLTEWIMGDYLPGDATLNRFFALHVIALPLVLLLLVVLHLGALHEVGSNNPDGVEIKKGPLGNRWDPHKPADGIPFHPYYTVKDLVGVGFLLTIMAFIIFFAPGFGGLFLEHDNFTEANRLVTPEHIKPVWYYTPYYAMLRVVPNKLGGVLVMFSAIAILFLVPWLDKAKVRSIRYRGLISKIALGVLAVCFVWLGIIGSGPGTDIRETYIGRVLTFLYFAFFITMPLWTRLDRTKPVPERVTTHD	PGPT0030840_974	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYNTHESIS_ELECTRON_TRANSFER,PGPT0030840-petB-K00412
BMS020_06824	630	petA	COG0723	Ubiquinol-cytochrome c reductase iron-sulfur subunit	ATGGCCAACGATGGGGTTCACGAGCCCGCCAATACGGGACGTCGTCGGTTCCTGACCGCGACGACCGCCGTGGTCGGTGCGGTGGGTGCAGGGTTCCTTGCCGTTCCGTTCATCAAATCCTGGAATCCGAGCGCGCGGGCCAAGCTGGCCGGTGCGCCGGTCACTGCCGACATCAGCGCGCTGCAGGAAGGCCAACGCCTGATCCTGGAATGGCGCGGCCAGCCGATCTGGATCGTCAAGCGCTCCAAGGCCATGCTCGAGGCGCTGCCCTCGCTGGACGGGCGGCTCAAGGATCCCGAGTCCGGCAACAAGGACCAGCAGCCCGATTACGTGCTGCAGAATCCCGAGTACCGCTCGATCAAGCCGGAGATTTCGGTGCTGGTCGGGCTGTGCACGCACCTGGGCTGTTCGCCGGAGATGGTCGCCGAGATCCGCCCCGAACCCTACGACGCGCAGTGGAAGGGCGGCTACTTCTGCCCCTGCCACAAGTCGCGCTTCGACATGTCCGGCCGCGTCTTCGACGGCGTGCCGGCACCGATCAACCTGCTGGTGCCCCCACACCACTACCAGGACGACAACACCATCGTGATCGGTGTCGATCCGTCCGGGACGAGCACGGGGGCAGCCTGA	MANDGVHEPANTGRRRFLTATTAVVGAVGAGFLAVPFIKSWNPSARAKLAGAPVTADISALQEGQRLILEWRGQPIWIVKRSKAMLEALPSLDGRLKDPESGNKDQQPDYVLQNPEYRSIKPEISVLVGLCTHLGCSPEMVAEIRPEPYDAQWKGGYFCPCHKSRFDMSGRVFDGVPAPINLLVPPHHYQDDNTIVIGVDPSGTSTGAA	PGPT0030835_696	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYNTHESIS_ELECTRON_TRANSFER,PGPT0030835-petA-K00411
BMS020_06825	1047	mltF_3		Membrane-bound lytic murein transglycosylase F	ATGGTGGGGGATGCCGGCGCGGGTCCTCCGCTGCCGCAGGCCGCATGTTACGTGGTCATTTCGCTCACGGGAAGGCTGGTGCTTGGCAAGGGCGCCCGATCTTGTGACACTGTCAAGATGAAGGGGGCACTGCGACTGGGGATATTCGCGGCTGCGCTGGCGGCTGCGCCTGCCAGTGCCGGCACACTGTACAAGTGTGTCGGTGGCGACGGCGTGCCCAGCTATGTGAGCAAGCGGGTCGCCGGTGCCGAATGCAGCGTGGTGTCGCAGTACACCCCTGACCGCCGCGCGGTGCGCGCGCAGGCGACACACCGCCCGCCGGCCCCGGTGACCGCGGCCGTGCCGGCCGCCACGCCGGAGCCGACCCGCGCCAGCCTGGTACAGGTCAACGCCAGCGTCGCCCCGACCGCAGTCGCTCCGACCCCGGCGCCGGCCCCGGTGCGCAGCGGCCAGCCGCCGCGGCGCGTGGTCAGTGGCCAGGTCTACTCGTACATGAAGGACGGCGTGCGGCATTACACCAGCGCCAAGCCGACCCAGGTCGCCAGCATCCAGGGCCTGCGCACGATCCACTACAGCTTCATCGAGACCTGCTACGCCTGCGCCGCCAATCCCGGGGTGAACTTCTCCTCGGTGCGGCTCAACATGGCTGCCTACCAGGGCGAGATCGCCGCGGCCGCGCGCGAGTTCGCCGTCGACGAGGCGGTGGTGCGCGCGATCATCCATGCCGAGTCGGCCTACAACCCGCTGGCGCTGAGCCGCGCCGGCGCGCAGGGGTTGATGCAGCTGATGCCGGCCACGGCCGCGCGCTTCGGCGTCACCGACTCCTACGACGCCGGGCAGAACATCCGCGGCGGGGTGCGCTACCTGGCCTGGCTGCTGAAGCGCTTCAACGGCGACCTGAGCCTGGCCGCGGCCGGCTACAACGCCGGCGAGGGCGCGGTGGACCGCTACGGCGGCGTGCCGCCGTACGCCGAGACCCAGCGTTACGTGCAACGCGTCGGCGTGCTGGCCGAGCGCTACCGCGGCGCGCTGGCCACGGCGCAATAG	MVGDAGAGPPLPQAACYVVISLTGRLVLGKGARSCDTVKMKGALRLGIFAAALAAAPASAGTLYKCVGGDGVPSYVSKRVAGAECSVVSQYTPDRRAVRAQATHRPPAPVTAAVPAATPEPTRASLVQVNASVAPTAVAPTPAPAPVRSGQPPRRVVSGQVYSYMKDGVRHYTSAKPTQVASIQGLRTIHYSFIETCYACAANPGVNFSSVRLNMAAYQGEIAAAAREFAVDEAVVRAIIHAESAYNPLALSRAGAQGLMQLMPATAARFGVTDSYDAGQNIRGGVRYLAWLLKRFNGDLSLAAAGYNAGEGAVDRYGGVPPYAETQRYVQRVGVLAERYRGALATAQ				NA	NA	NA	NA	NA
BMS020_06826	1107			hypothetical protein	ATGCAGAAGATTCTCATCGCCGTACTGGCTATCGCCCTGCTCGCCGTCAGCGGCACCTGGGGCTACCTGACGTGGAAGGGAAAGCAGCCCGTCGTGGCGGCGGCCGCACCATCGCCCGCTACCACGCCCCCGGCAGCACCGGCCACGTCTCCGGCACAAGCCCGTTCGCCGGACGTCACGACCGCCCCGCCCCCTGGCGAGGGCGCCCCCGGCGACACGCAGGCCGATGCCGCCGATCCGGATGCTGCCGAACCGGCGGAACCGACCAGCACCATCGAGCCGCCGCGCGGCGGCGTCAACTTCACCTACGAATATGTCCCGCCGCGCGACCCGGCGCTGCGTGATGCCTATGAGTTTTCGGTGCAGACCGATCTGCTGCACAGGCTGCCGGAAGTCAATTCGATGGACGGCCTGCTGATGCTGCCGGGCCCGCTCCATCTGGTCGCCGCCGAATGCAAGCAGACCAACGCGTTCTACTCCTCCGACAAGCACGAATTGGTGCTGTGCTACGAGATGGTGGAAATGCTGGTCAAGCTCGGCACCGACCTCGGCGCTCAGAGCCAGGATGAAAGCTATAGCGCCCGTTTCCTGCTCGCCAACACCCGCTTCATCATGCTGCACGAGTTCGGCCATGCGCTGATCGACATGTTGTCGCTGGCGGCAACCGGCCGCGAGGAGGATTCGGCGGACCAGCTGGCCTCTTCGCTGATGATGATGTTCACCGATCCGAACGAATCGCCCAGTGCCCTGGCGCAGAACCTGCGGCTGGCCGGCCTGTTCTTCATGCTCAACAGCAAGGACCAGTATGGCGCGGCCGATTTCGCCGACGAGCACTCATTGGGCGAGCAGCGATTTTACAACCTGATGTGCATGCTCTACGGCCACGACCCCGCCAAGTACCTGCGCCTGGTGACCAGCGGCATGTTGCCGGAGGACCGCGCCCAGCGTTGCCCGACCGAAAGCCAGCGCATCACCCAGTCCTGGGCCAAGCTGCTGGTACCGCACATCGCACCGAAGTTCCAGGTCAGCGGCGAGGAAGCGCAGCGGCGCTACGAGGAAGCCCAGCGCCAGCAGCGCGAGAACGCCGCCTCGCCTTACGTCCGCTGA	MQKILIAVLAIALLAVSGTWGYLTWKGKQPVVAAAAPSPATTPPAAPATSPAQARSPDVTTAPPPGEGAPGDTQADAADPDAAEPAEPTSTIEPPRGGVNFTYEYVPPRDPALRDAYEFSVQTDLLHRLPEVNSMDGLLMLPGPLHLVAAECKQTNAFYSSDKHELVLCYEMVEMLVKLGTDLGAQSQDESYSARFLLANTRFIMLHEFGHALIDMLSLAATGREEDSADQLASSLMMMFTDPNESPSALAQNLRLAGLFFMLNSKDQYGAADFADEHSLGEQRFYNLMCMLYGHDPAKYLRLVTSGMLPEDRAQRCPTESQRITQSWAKLLVPHIAPKFQVSGEEAQRRYEEAQRQQRENAASPYVR				NA	NA	NA	NA	NA
BMS020_06827	1446	miaB_2	COG0621	tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase	ATGACCGGGACGCCCGACGTCGCCCATCCCGAGCAGGCCCCTGCCCTGCTGCCCTTGCCTCGCGTGACCGCCAAGCCCGCCGTGGTCCGCGGCAAGCTCTACATCAAGACCCACGGGTGCCAGATGAACGAGTACGACTCGGCCAAGATGGCCGACGTGCTCGCCCAGGCCGAGGGCCTGGAGCTGACCGACAACCCCGAAGAAGCCGACGTGGTGCTGGTCAACACCTGCTCGATCCGCGAGAAGGCGCAGGAGAAGGTGTTCAGCCAGCTCGGCCGCTGGAAGGCGCTCAAGGGCAACGGCCGCGACGTGATCATCGGCGTCGGTGGCTGCGTGGCCTCACAGGAGGGCGAGGCGATCGTCAAGCGCGCCCCGTACGTGGACCTGGTGTTCGGACCGCAGACCCTGCACCGCCTGCCGGAGCTGATCCGCGCCCGCCGCGAGCAGAACAAGCCGCAGGTGGACATCAGCTTCCCGGAGATCGAGAAGTTCGATCGCCTGCCCGAGCCACGCGCCGAGGGTCCGAGCGCGTTCGTGTCGATCATGGAAGGCTGCTCGAAGTACTGCTCGTTCTGCGTGGTGCCCTACACCCGCGGCACCGAGGTCAGCCGGCCGTTCGAGGACGTGCTGGTCGAGGTCGCCCAGCTCGCCGCGCAGGGCGTACGCGAGATCAACCTGCTCGGCCAGAACGTCAATGCCTACCGCGGCCCGTATGGTGACGGCGAGCTGGCTGACCTGGGCCTGCTGATCCGCACCATCGCGCAGATCGACGGCGTCGGTCGGATCCGCTTCACCACCTCGCATCCGCTGGAGTTCTCCGACTCGCTGGTCGATGCCTACCGCGACGTGCCGCAGCTGGCCAACTTCCTGCACCTGCCGGTGCAGGCTGGCAGCGACCGCATCCTCAGCGCGATGAAGCGCGGCTACACCGCGCTGGAGTTCAAGGCCAAGATCCGCAAGCTGCGCGCGGTGCGCCCGGACATCTCGATCAGCTCGGACTTCATCGTCGGCTTCCCCGGCGAGACCGACGCCGACTTCGAGAAGACGATGAAGCTGATCGAGGACGTCGGCTTCGACCAGAGCTTCTCGTTCATCTACTCGCGTCGCCCCGGCACCCCGGCCGCGGACCTGGAAGACACGCTCAGCGACGCCGACAAGCACGCGCGGCTGGCGCGGCTGCAGGCGCACATCAACGCGCATGCCGCCGGCATCTCGCAGAAGATGGTCGGCACGGTGCAGTCGGTGCTGGTCGAAGGCCCGTCGAAGAAGAACCCCAACGAGCTGACCGGCAAGACCGAGAACATGCGCTCGGTGAACTTCCCCGGCCACCCGCGCCTGATCGGGCAATTCGTCGACGTACTGATCACCGAGGCGCTGAGCAACTCGCTGCGCGGGCGCGTGCAGCTGAGCGAGGACGCTGGCAACCGCGCGGACCGCGATTCCTGA	MTGTPDVAHPEQAPALLPLPRVTAKPAVVRGKLYIKTHGCQMNEYDSAKMADVLAQAEGLELTDNPEEADVVLVNTCSIREKAQEKVFSQLGRWKALKGNGRDVIIGVGGCVASQEGEAIVKRAPYVDLVFGPQTLHRLPELIRARREQNKPQVDISFPEIEKFDRLPEPRAEGPSAFVSIMEGCSKYCSFCVVPYTRGTEVSRPFEDVLVEVAQLAAQGVREINLLGQNVNAYRGPYGDGELADLGLLIRTIAQIDGVGRIRFTTSHPLEFSDSLVDAYRDVPQLANFLHLPVQAGSDRILSAMKRGYTALEFKAKIRKLRAVRPDISISSDFIVGFPGETDADFEKTMKLIEDVGFDQSFSFIYSRRPGTPAADLEDTLSDADKHARLARLQAHINAHAAGISQKMVGTVQSVLVEGPSKKNPNELTGKTENMRSVNFPGHPRLIGQFVDVLITEALSNSLRGRVQLSEDAGNRADRDS	PGPT0007215_1548	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007215-miaB-K06168	NA	NA
BMS020_06828	942			hypothetical protein	ATGACCTTGCGTAGCAGACCAACCCTGGCAGTCCTCGCGCTCATCGCTGCCCTCCTCTCCGGCTGCGGCGGTTACAGCACAGAGGGCAGCAGCGTCTACTATCGTGGAACCGCGCTCTCCGAGCGCAGCCGGATCGACGGTGCCGACGTGGCCACCTTCAAGGCCTTGTCGCGCAATCACGCCAGGGACCGGTATCGCGCCTACTACTGGGGTAACCCGATAGAAGGCGCCGATCCTGGCTCCTTCGAAGAAATCGACAAGGCGTTCGCCAAGGACAAACAGCACGTCTACCATCAGCTCTGGCGGATCGAAGGCGCGGATCCAGATTCGTTCGAGGTGATCTCCGGCGATATCGGCCGGGACCAACGCAGCGCATACGTCTCGACAAAGGCCGCGCAGACCTGCGACCTGCCCTCACTGCACACCGAGGGCGCCTTCATGCTCGACGATGCCTGCGTATACGACAGGTCGCTGAACAGGATGCCCGGGGCGGATCGACCGAGTTTCGCGCTGCTCACCTACGACATCGCGCGCGACCACACAAGCCTGTACACCGATCGCCTCATGCCCGGCGATCGCGGCGATCCGCATATCCGACGGGTATCCGGCATCTGCGACCTGCCTTCCTTCCATGAGCGGCAAGGCTGGCTTGTCGACAAGCAATGCGTCTATTCGCATGCGATCGAACGCGAGCAATCGATCGACACGAGCAGCTTCGTCATCCTCGACGAACGCTATGCCAAGGACCGTGGCCGCGTGTACTACCAGAACCACTCCGACGGCATCCGCGTGATCGACGGCGCCATCCCGGCGAGCTTCCGACTGGATGCGGGCACCTGCCCCGGATGCGCACGCGATCAGCGGCAATGTTATTCCGACGGACATGTGAGCACCTGCACCGCGCGACAGAAACGACTGGATTCCGAAGCCGGCGGACACTGA	MTLRSRPTLAVLALIAALLSGCGGYSTEGSSVYYRGTALSERSRIDGADVATFKALSRNHARDRYRAYYWGNPIEGADPGSFEEIDKAFAKDKQHVYHQLWRIEGADPDSFEVISGDIGRDQRSAYVSTKAAQTCDLPSLHTEGAFMLDDACVYDRSLNRMPGADRPSFALLTYDIARDHTSLYTDRLMPGDRGDPHIRRVSGICDLPSFHERQGWLVDKQCVYSHAIEREQSIDTSSFVILDERYAKDRGRVYYQNHSDGIRVIDGAIPASFRLDAGTCPGCARDQRQCYSDGHVSTCTARQKRLDSEAGGH				NA	NA	NA	NA	NA
BMS020_06829	1092	ybhS_2	COG0842	putative multidrug ABC transporter permease YbhS	ATGAACCTGCGCCGGCTGCTGGCGGTGATGCTCAAGGAGGTGCGGCAGATGCGCCGCGACCGCATCACCCTGGCGATGATCGTCGGTATCCCGGTGATGCAGCTGCTGCTGTTCGGCTACGCGATCAACACCAACCTGCGCGACCTGCACGCCGGCATCGTCGACCAGGCCAACACCGCCGGCTCGCGCGCGCTGCTGATGGACGTGATGGCGACCACCGTGGTCAAGCCGACCGTGGTCGCCGACACCCCGCAACAGCTGGTCGATGCGCTGCGCGCCGGCCGCATCAACCTCGGCCTGGTGGTGCCGGCGGATTTCGAACGGCGCCGGCTGGAAGGGCGCGAGGTGCTGCAGGTGCTGGTCGACGGCAGCGACAACGCGGTGCAGAGCGCGGCGGTGCAGCTGGCCCAGCTGCCGGTCAGCGGCTACGCCGGGGCGGCGACCAGCGCGCAGAAGCCGATCGCGGTGGTGGCGTTCTACAACCCCGAGCGGCGCTCGGCGGTCAACATCGTGCCCGGCCTGATCGGGGTGATCCTGACCATGACGATGGTGCTGTTCACTGGCGTTGCGATCGTGCGCGAGCGCGAGCGCGGCAACATGGAGCTGCTGATCGCCACTCCGCTGAGCAGCGGTGAGCTGATGGTCGGCAAGGTGCTGCCGTACATGCTGATCGGCCTGTTCCAGACCAGCGTGATCCTGCTGCTGGGGATGTGGCTGTTCAAGGTGCCGCTGGCCGGGCAGCTGTTCGATGTCTACCTGGCGGCGATGTTGCTGATCGTCGCCAACCTGGCGATGGGCCTGCTGATCTCGACCCGCGCGCAATCGCAGTTCCAGGCGATGCAGATCACCTTCTTCGTGTTCCTGCCGTCGATCCTGCTGTCGGGCTTCATGTTCCCGTTCTCGGGCATGCCGCAGGCGGTGCAGTGGATCGCCGAGGTGCTGCCGCTGACCCACTTCCTGCGCCTGATCCGCGGGGTGATGCTGCGCGGCGCCTCGATCTGGGAGCTGTGGCCGGACGTGCTGGCGCTGCTGGCCTTCATCGCGGTGATGATGGGCGCGGCGATCACGCGCTTCCGCAAGCGGCTGGATTGA	MNLRRLLAVMLKEVRQMRRDRITLAMIVGIPVMQLLLFGYAINTNLRDLHAGIVDQANTAGSRALLMDVMATTVVKPTVVADTPQQLVDALRAGRINLGLVVPADFERRRLEGREVLQVLVDGSDNAVQSAAVQLAQLPVSGYAGAATSAQKPIAVVAFYNPERRSAVNIVPGLIGVILTMTMVLFTGVAIVRERERGNMELLIATPLSSGELMVGKVLPYMLIGLFQTSVILLLGMWLFKVPLAGQLFDVYLAAMLLIVANLAMGLLISTRAQSQFQAMQITFFVFLPSILLSGFMFPFSGMPQAVQWIAEVLPLTHFLRLIRGVMLRGASIWELWPDVLALLAFIAVMMGAAITRFRKRLD	PGPT0006730_7627	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS020_06830	948	ybhF_2	COG1131	putative multidrug ABC transporter ATP-binding protein YbhF	ATGACTGAGCCGGCCGGGGCGGCGATCGTCGCGCGCGGGCTGACCAAGCGCTTCGGCGCGCTGGTCGCGGTCGACCACGTCGACCTGTGCGTGCCCAGGCGCGCGGTGTATGGCTTCCTCGGCCCGAACGGCTCGGGCAAGTCGACCACGATCCGCATGCTGTGCGGGCTGCTCAGTGCCAGCGAGGGGCAGATCGAGGTGCTCGGCCTGCGCATTCCCGAGCAGGCCGACGAACTGCGCACCCGGATCGGCTACATGACCCAGAAGTTCTCGCTGTTCGAGGACCTCAGCGTGCGCGAGAACCTGGAGTTCCTGGCCGCGGTGCAGGGCGTGCCGCGCAACAAGGTCCGCGCGCGGATCGGTACGCTGCTGGAGCAGTACCACTTCGGCGACCGCCAGAAGCAGCTGGCCGGCACCATGAGCGGCGGGCAGAAGCAGCGGCTGGCGCTGGCCGGGGCGGTGATCCACGAGCCGGAGCTGCTGTTCCTGGACGAGCCGACCAGTGCGGTGGACCCGGAATCGCGGCGCGACTTCTGGGAAAAACTCTTCGACCTGGCCGATGCCGGCGCGACCTTGCTGGTGTCCACCCACTACATGGACGAGGCCGAGCGCTGCCACCGGCTGGCGATCCTAGACCGCGGCGCGCTGGTCGCCGATGGTTCGCCGGCCGAGCTGACCGCGGCCTTGGCCGGGCGCAGCTGCGTGGTCGAGGCGGCCGAGCCGCGCCGCGCGCAGAAGGCGTTGCAGGCGGTGGATGGTGTGGCCAGCGTCGCGCAGATCGGCAACGTGCTGCGGGTGCTGCTTGAAGACGGGCGCGACACCGCGACCGTGACGCAGGCGCTGCATGCGGCCGGCGTCGCCGCCGAGGTCACCGCTTCCGAGCCCAACCTGGAGGACGTATTCGTTTCGGCAACCCGCGAGCGCGGCACCCGCGAGGCGCGCGCATGA	MTEPAGAAIVARGLTKRFGALVAVDHVDLCVPRRAVYGFLGPNGSGKSTTIRMLCGLLSASEGQIEVLGLRIPEQADELRTRIGYMTQKFSLFEDLSVRENLEFLAAVQGVPRNKVRARIGTLLEQYHFGDRQKQLAGTMSGGQKQRLALAGAVIHEPELLFLDEPTSAVDPESRRDFWEKLFDLADAGATLLVSTHYMDEAERCHRLAILDRGALVADGSPAELTAALAGRSCVVEAAEPRRAQKALQAVDGVASVAQIGNVLRVLLEDGRDTATVTQALHAAGVAAEVTASEPNLEDVFVSATRERGTREARA	PGPT0006725_5847	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS020_06831	939			hypothetical protein	ATGCTGGCGGCGCTGGTCCTCGGTGGGTGTGCGGCGGACAAGCCGGACGCACTGGGCACGCTGGAATGGGACCGGATCACGCTGCCGGCGCCGGCGGCCGAGCGGATCGTCGCGATCGACGTGCGCGAGGGTCAACAGGTCGCCGCCGGCACCCGGCTGCTGCGGCTGGAGCCGGATCGCACCCGCGCCGCGCTGGACAGCCTGCAGGCCCAACAGGAGCAGAGCGCGCAGGCACTGCGCGAGCTGCAGGTCGGTGCGCGCAGCGAGCAGATCGCCCAGGCGCGCGCGCAGCTGCAGTCGGCCCAGGCCCAGGCGCGCGATGCCAGTGCCTATTACGCGCGGTTGCAGCCGTTGGGCCAACGCCAGCTGGTCGCCGCCTCCGATGTCGACCGCGCCCGCGCCAGTGCCGCCGATGCGCAGGCGCAGGTGCGTGCCGCGCGCGAGGCGCTGCTGGAGCTGGAGCGCGGCAACCGGGTCGAGGATGTCGCCCAGGGCGCCGCCGCGGTGCAGGCCGCGCGGGCCCAGGTGCGCGCGCAGGCGGTGACGCTGGACAAGCTCGAGCTGGTCGCGCCGCGCGCCGGCCGCGTCGACAGCCTGCCGTACAAGCTCGGCGACCAGGCGCCGGTTGGCAGCGCGCTGGCGATCCTGCTGGTCGGCGATGCACCGTACGCGCGGCTGTACCTGCCCGAGCCGCTACGCGCGCGGGTCCAGGTCGGCGATGCGGTCACGCTGCAGGTCGAAGGCCGGACCGGCACCTTGTCGGGCAAGGTCCGCAAGGTGGTCAGCGAACCTGCGTTCACCCCGTACTACGCGCTGACCGGCAGCGATGCGGCGCGGCTGGTCTACGTCACCGAGGTCGCGCTCGGCGCCGACGCCGCGCAGCTGCCGGCCGGCGTCCCGGTGCAGGCCAGCTTCCCCGGGCTGCACGGCGATGACTGA	MLAALVLGGCAADKPDALGTLEWDRITLPAPAAERIVAIDVREGQQVAAGTRLLRLEPDRTRAALDSLQAQQEQSAQALRELQVGARSEQIAQARAQLQSAQAQARDASAYYARLQPLGQRQLVAASDVDRARASAADAQAQVRAAREALLELERGNRVEDVAQGAAAVQAARAQVRAQAVTLDKLELVAPRAGRVDSLPYKLGDQAPVGSALAILLVGDAPYARLYLPEPLRARVQVGDAVTLQVEGRTGTLSGKVRKVVSEPAFTPYYALTGSDAARLVYVTEVALGADAAQLPAGVPVQASFPGLHGDD				NA	NA	NA	NA	NA
BMS020_06832	705	betI_6		HTH-type transcriptional regulator BetI	ATGAGTCCACGCAAGCCCGCCAGTCCCAGCCCCAAACCCGCCACCACGCCCGTACGCCGGCGGGCGCCGGGTCGTCCGTCCGCCGCCGACGCGCTCGACCAGCGCGAGCGCCTGCTCGACGCGGCGCTGGCCTGCTTCGTCGAGCGCGGCATCGCGGCGACTTCGCTGCGCGACATCGCCGCGCGCGCCCAGGTCACCCCGGCGCTGCTGCACTACCACCATGGCGACAAGGCGCGGTTGGTCGAGGCGCTGGTCGAGGTGCGGCTGCTGCCGGCGCTGCTGGACGTGCAGGCGCGGGTCGCCGCGGCCGGTGACGACGTGCGCGCGCTGGTGCTGGCGGTGGTCGACGGCCTGTTCGAGGCGATCCGCCAGCGGCCGTGGTGGCCGCAGCTGTGGGTGCGCGAGGTGCTGTGCGAAGGCGGTGGCCTGCGCCACCTGTTGACCGACCAGATGGTGCCGCCGGTCGCGCGGGTCGTAGTCGCGCGGTTCCGCGCGGCGCAGCAGCGCGGCGAGCTCAATCCGGGGCTGGATCCACGGCTGCTGATGACCTCGTTGATCGGACTGACGCTGTTCCCCGCCGCCGGCGCGCCGATCTGGCGCGTGGTGCTGGAGGCTGACGAGCTGCAACTGGACGACGTGCGCCGGCATGCGCTGGCGCTGATCGAGGGCGGCGCGTGGCCGCGGACTTCGGGAGGACCGGGATGA	MSPRKPASPSPKPATTPVRRRAPGRPSAADALDQRERLLDAALACFVERGIAATSLRDIAARAQVTPALLHYHHGDKARLVEALVEVRLLPALLDVQARVAAAGDDVRALVLAVVDGLFEAIRQRPWWPQLWVREVLCEGGGLRHLLTDQMVPPVARVVVARFRAAQQRGELNPGLDPRLLMTSLIGLTLFPAAGAPIWRVVLEADELQLDDVRRHALALIEGGAWPRTSGGPG				NA	NA	NA	NA	NA
BMS020_06833	1005	ybeZ_2	COG1702	PhoH-like protein	ATGCCGCGCTATTCACAGCAGATGACCACACCCCCGCAACGCGACTTCACCCTCGATCCCGCCGACACCGAGCGCCTGGCCAACCTGGCCGGCCCGTTCGACGAACACCTGCGCCAGATCGAACTCAAACTCGGCGTCGAAATCGCCAACCGCGGCAACGTGTTCCGCGTCACCGGCCCGGAGCCGGCGGCCGCCGCCACCGAGACGCTGCTGCGCGCGCTCTACGACGAAGCGGCGCACACCACGTTCGACAACCACGCGATCCACCTGCGGCTCAACGACGCCAACGTCGCGCATGTCGCCGACCGCGCCTACCAGCCGCAGGACGTGGCGATCAAGGTCAAGCGCGGCACCGTGCGCGGCCGCGGCGCCAACCAGGCCAAGTACCTGCATGCGATCGCCACCCACGACATCAACTTCGGCATCGGCCCGGCCGGCACCGGCAAGACCTTCCTGGCGGTGGCCAGCGCGGTCGAGGCGCTGAACGAATCGCGCGTGCAGCGGCTGATCCTGGTGCGCCCGGCGGTCGAGGCCGGCGAGAAGCTCGGCTTCCTGCCCGGCGACCTCAGCCAGAAGGTCGATCCCTACCTGCGCCCGCTGTACGACGCGCTGTACGAGATGCTCGGCGTGGAGAAGGTGGTCAAGCTGCTGGAGAAGAACGTCATCGAGATCGCGCCGCTGGCCTACATGCGCGGGCGCACGCTCAACGATGCCTACGTAATCCTCGACGAGGCGCAGAACACCACCATCGAGCAGATGAAGATGTTCCTGACCCGGCTCGGCTTCGGCTCGACCGCGGTGGTCACCGGCGACCTGACCCAGATCGACCTGCCCAAGCACGTCAAGTCCGGCCTGCGCGACGCGGTCGAGGTGCTGCGCGACGTCGAAGGGGTCAGCTTCACCTTCTTCGAATCGCGCGATGTGGTGCGCCATCCGCTGGTGGCGCGCATCGTCAGTGCCTACGACCGGCGCGAGGCGCGCGACGGCGAGAGCGGCCCGGCCTGA	MPRYSQQMTTPPQRDFTLDPADTERLANLAGPFDEHLRQIELKLGVEIANRGNVFRVTGPEPAAAATETLLRALYDEAAHTTFDNHAIHLRLNDANVAHVADRAYQPQDVAIKVKRGTVRGRGANQAKYLHAIATHDINFGIGPAGTGKTFLAVASAVEALNESRVQRLILVRPAVEAGEKLGFLPGDLSQKVDPYLRPLYDALYEMLGVEKVVKLLEKNVIEIAPLAYMRGRTLNDAYVILDEAQNTTIEQMKMFLTRLGFGSTAVVTGDLTQIDLPKHVKSGLRDAVEVLRDVEGVSFTFFESRDVVRHPLVARIVSAYDRREARDGESGPA	PGPT0002700_2623	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002700-phoH-K06217	NA	NA
BMS020_06834	534			hypothetical protein	ATGCGCGCGGCGCTCGCCCTTGCACTGCTGGCCGTTGCCCTGGCGATGCAGACGGCGCATGCCGCCCCTGCCAGGATCGAAGGCACACGGGACGTCGTGGTCGCCGCCAGCATTGAAGCGCCGTGTCTGGCGATCAATTTCAACAACGTCGCCGTGGTCAGCCTGCCGCTGGACGCCCTCGAACGGCGCATCACCGCGGCGCCCACGGAGCACTGGAAAAACGAGACCGAGCGCCTTGCCCTGATCGCAGCCAAACGCGCCACCTCGCTGTGGCAACTGGCCGACGCGGCGCCAGACACCGGGCGCTGCCGACAGGTCGCCGGTGAACAGATCCCGCTGGACAGCCAATACCTGGTCGCGCAACTGCTCGATGAGGGCGAAGTCGCGGTCTCGGACCTGGCAGGCAATTCCCTGCAAGCGATATTGGCCACCGTCGACAACCCGCACTGCCAGCGGGGACCGCATGGCACCCTGCTGTACGCGCTGCCTCATCCCCGCCGTATCTTCCTGGCATTGACCGCCTGCGTGGTCTGA	MRAALALALLAVALAMQTAHAAPARIEGTRDVVVAASIEAPCLAINFNNVAVVSLPLDALERRITAAPTEHWKNETERLALIAAKRATSLWQLADAAPDTGRCRQVAGEQIPLDSQYLVAQLLDEGEVAVSDLAGNSLQAILATVDNPHCQRGPHGTLLYALPHPRRIFLALTACVV				NA	NA	NA	NA	NA
BMS020_06835	486	ybeY_2	COG0319	Endoribonuclease YbeY	ATGACCCGCGGCCCGGTCCGACTCGATGTCGCCATCAGCTACGCCCTGCCCCGCGCCGGCCTGCCCGCGGCGATCAGCTTCCGCAAGTGGGTCGCAGCCGCGCTCAAGGGCCGCATCCGCGAGGCCGACCTGGCAATCCGCCTGGTCGACGCCAAGGAGGGCCGCTCGCTCAACCATCACTACCGCGGCAAGGACTACGCCACCAACGTGCTCAGCTTCCCCGCCGAGGTACCCGAGGGCCTGCCCAAGGGGGTGAAGTTCCCGCTGCTCGGCGACCTGGTGATCTGCGCCCCGGTGGTCGCGCGCGAGGCGCACGAGCAGGACAAGCCGCTGGCCGCGCACTACGCACACCTGACCGTGCACGGCGTGCTGCACCTGCTCGGCTGGGACCACGAGGACGACAAGGAAGCCGAGGCGATGGAACAGCTCGAGCGCGAGATCCTCGCCGAGCTCGGCATCGGCGACCCCTACGCCGGCGAGCGCTGA	MTRGPVRLDVAISYALPRAGLPAAISFRKWVAAALKGRIREADLAIRLVDAKEGRSLNHHYRGKDYATNVLSFPAEVPEGLPKGVKFPLLGDLVICAPVVAREAHEQDKPLAAHYAHLTVHGVLHLLGWDHEDDKEAEAMEQLEREILAELGIGDPYAGER	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
BMS020_06836	594			hypothetical protein	TTGATCCGTCCGCTGCTTCCGATCGCCCTCGGCCTGGCCACCCTCGCCGGCACCTGCACGGCTGCCGAACAGGCGCCTGCACCGGACCTGGGCGGCCTGATCGAGTGCCGCAAGCACATCGACGAATACGCCCACGCGATCGTGCCGGTCCTGAACGATCCGGCAGTGGCCAAGGCACTGGGGTGGGAGGCACTGCCGCGCACCAATCCGTACATGACCGAGTTCAAGCTGCCGGCGCCGCTGCAGGTGTTCGGCAGCAGCAGCGACCATCTGATGATCTCCGGCGGCACGATCATGGTGCTGCTGGACAAGCCCGACCCGCGCACGTTGGCCAAGCAGCTGCAGCTGGAGATCGGCGTGGACACGCCGGAGAAATTCATGGCCGGGCGCGAGGTCGCCAGCCGCCAGATCGTCACCCCGGCGACCGGGCAACAGATGATCGAATCGGAGATCCTGAGCGTGTCCGACGTGCGCACGCATCCGGGCAAGACCCTGGCCGGCTGCACCTACGACCTCGACAAGCCCGAGGACCCGGCGCCGGCCGAACCGCAGCAGGCCGCGCCCGCCGCCAAACCGGCCCCGACCGCGGGCTGA	MIRPLLPIALGLATLAGTCTAAEQAPAPDLGGLIECRKHIDEYAHAIVPVLNDPAVAKALGWEALPRTNPYMTEFKLPAPLQVFGSSSDHLMISGGTIMVLLDKPDPRTLAKQLQLEIGVDTPEKFMAGREVASRQIVTPATGQQMIESEILSVSDVRTHPGKTLAGCTYDLDKPEDPAPAEPQQAAPAAKPAPTAG				NA	NA	NA	NA	NA
BMS020_06837	882	corC_2	COG4535	Magnesium and cobalt efflux protein CorC	ATGTCCGAAGACGACAGTAGCCAATCCCCGTCAGAACCGCAGGAAAAACGTCGCAGCTGGCTCGAACGCCTGAGCGCGGCGTTCTCCGGCGAACCGCATACCCGCGACGAACTGCTCGCCCTGCTCCGTACCGCCGAACACGACGGTCTGATCGCCGCCGACACCCTGCGCATGATGGAGGGCGCGATCTCGGTCGCCGAGCTCACCGTCGGCGACGTGATGGTGTCGCGCTCGCAGATGGTCTCTCTGCCGGTGGAATCGCGCTTCATCGACCTGATGAAGCAGGTGGTCGAGTCCGGCCACTCGCGCTTCCCGGTGCACGGCGAGAACAAGGACGAGATCCTCGGCATCCTGCTGGCCAAGGACCTGCTGCGCGGCGTCGTCGCCGACAACGGTCCGGGCAGCGTGCGCGAACTGCTGCGCCCGGCGGTGCTGATCCCTGAGTCGAAGAAGCTCAACGTCCTGCTGAAGGAATTCCGGCTCTCGCGCAACCACATGGCGATCGTCGTCGACGAGTACGGCGGCGTCGCCGGCCTGGTGACGATCGAGGACGTGCTGGAACAGATCGTCGGCGAGATCGACGACGAGCACGACGAGGCCGAGGACGGCAGCGCGCTGATCGCGGTGCAGGCCGACGGCCAGTACGTGGTCGACGCGCTGACCCCGATCGAGGACTTCAACGAACGCTTCGGCGCCGAGTTCTCCGACGACGACTACGACACCGTCGGCGGCCTGGTGACCGAGGCGATCGGCCACCTGCCCGAGACCGGCGAGGAAGTGACGCTGGACCGCTTCGTGTTCCGCGTCGCCAAGGCCGACGCGCGCCGCGTGCAGGCCTTCCACGTCACCGTGCTGCCTGCCGACGTGCAGGACGACGCTTGA	MSEDDSSQSPSEPQEKRRSWLERLSAAFSGEPHTRDELLALLRTAEHDGLIAADTLRMMEGAISVAELTVGDVMVSRSQMVSLPVESRFIDLMKQVVESGHSRFPVHGENKDEILGILLAKDLLRGVVADNGPGSVRELLRPAVLIPESKKLNVLLKEFRLSRNHMAIVVDEYGGVAGLVTIEDVLEQIVGEIDDEHDEAEDGSALIAVQADGQYVVDALTPIEDFNERFGAEFSDDDYDTVGGLVTEAIGHLPETGEEVTLDRFVFRVAKADARRVQAFHVTVLPADVQDDA	PGPT0004695_606	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0004695-corC-K06189	NA	NA
BMS020_06838	1212			hypothetical protein	ATGCCGCTGCGCCGTGCGCGCACTTCGTTCGCCCGCGCCGCGGCGTGGTGCAGCCTGCTGCTGTTGGCGCTGCTGCCGCTGCTGGCCGCGGCCCAGCAGGCCCCGCGCGTCGGCGTGGCGACGATGCAGCCCGGCGAGGTGTTCTTCGAACGCTTCGGGCACGATGCGATCGTCGTCGTCGACCCGGCCACGGGCGCGGCGACCTCGTACAACTTCGGCTACTTCGACCCGAGCGAGCCGGACTTCGTTAGCCGCTTCGTCAAGGGCGCGATGATGTACTACCTGGTCGCGCTGCCACTGGAGGACGACCTGCAGCAGTACCGCGACGGCGGCCGCGGCGTCAGCATCCAGTGGCTGGACCTGCCGCCGGCGCAGGCGCGTGCCCTGGCCGATGCGCTGGCCTGGCGCGCGCGCCCGGAGAACGCGCGCTACCACTACGACTACTTCACCGCGAACTGCGCGACCATGGTGCGCGACAGCCTGGACCAGGCGATGGGCGGCGCGCTGAAGCGGCAGCTGTCCGGCCGCTCGCGCGGCAACACCTACCGCAGCGAGGCGGTGCGCCTGGCCTCGCCGGCGCCATGGATGTGGCTGGGGTTCGATCTCGGCCTGGGCCCGTACGCCGACGTGCCGCTGTCGCGCTGGGAGGAAGCCTTCGTGCCGATGCGCCTGGCCGATAGCCTGGCGCAGGTGCGCAACAGCGAGGGCCGGCCGCTCGTGCAATCGGTGCAGGAACTGCTGCCGCAGCAGCTGGCTCCGGAACCGCCGGAACAGGCCCGCCACTGGTGGCCGTGGCTGCTGCTCGGCATCGCCGCCGGCGCAGCGGTGCTGGCATTGCGCCGGCGCCCGCGCCTGCTCGCTGCCGCGGCCGTGCCGCTGTGGCTGCTGTGCGGCCTCGGCGGCGGCCTGCTGCTGTACCTGTGGGGCTTCACCGCCCACCAGGCCGCCTGGGGCAACCGCAACCTGCTGCTGCTCAGCCCGCTGTGCCTGGCGTTGGTCGGCGGCGGCCTGATGCTGCTGGCACGCCGCGCACCCGGCCGCTGGTTCAGCGTCCTGCTGTGGCTGGTGCCGGCCGGCGGCGTGCTGGCGCTGCTGGCGTACTGGCTGTCGCGGCAACCGCAATACGACCTGCAATGGATCGTGCTGCTGCTGCCGGTGCATCTGGCCCTGGCGATGACGCTGGCAGGTGGCGCGCCGCGCCGCGCCAACTGA	MPLRRARTSFARAAAWCSLLLLALLPLLAAAQQAPRVGVATMQPGEVFFERFGHDAIVVVDPATGAATSYNFGYFDPSEPDFVSRFVKGAMMYYLVALPLEDDLQQYRDGGRGVSIQWLDLPPAQARALADALAWRARPENARYHYDYFTANCATMVRDSLDQAMGGALKRQLSGRSRGNTYRSEAVRLASPAPWMWLGFDLGLGPYADVPLSRWEEAFVPMRLADSLAQVRNSEGRPLVQSVQELLPQQLAPEPPEQARHWWPWLLLGIAAGAAVLALRRRPRLLAAAAVPLWLLCGLGGGLLLYLWGFTAHQAAWGNRNLLLLSPLCLALVGGGLMLLARRAPGRWFSVLLWLVPAGGVLALLAYWLSRQPQYDLQWIVLLLPVHLALAMTLAGGAPRRAN				NA	NA	NA	NA	NA
BMS020_06839	1017	corA_2	COG0598	Cobalt/magnesium transport protein CorA	ATGCCGGGCATGAACGACCAGTCCCAGCAGCCGCCCGACAATCCCACCTGCGTCATCACCTGCGCCTACTACGATCCGCACGGCGCACGCCGCGACATCAGCCTGGAGCAGATCAGCGACGAACTGCTGCGCGATGACGGCGGATTCGTCTGGGTCGGCCTGTACGAACCCGAGGAAGCGGTGCTGCGTACGCTGCAGGTGGAGTTCGGCCTGCACGACCTGGCGATCGAGGATGCGCTCAAGGCGCACCAGCGCCCCAAGGTGGAGAGCTACGGCAATTCGCTGTTCGTGGTGGTCAACACCGCGCAGCTGGTCGACGAACGCATCCGCTACGGCGAAACCCATGCCTTCCTCGGCACGCGCTTCCTGCTGACCGTGCGCCACGGCGCATCGCTGTCGTACAAGACGGTGCGCGCGCGGATGGAACGCGAGCCGGAGATGCTGAAGCTCGGCCCGGCATTCAGCCTGTACGGTGTGCTCGACTTCGTCGTCGACAACTACCTGCCGATCATGGACGAATTCCGCGACACGCTGGAATCGCTGGAGCAGGACATCTTCGCCGAGAGCTACGAGCGCCGCACCGTGGTGCGCCTGTACGAGCTCAAGCGCGAGCTCAACAAGATGCGCCTGGTGGTCGCGCCGCTGCAGGACGTGCTCGCGCACCTCAAGCGCAATCCCGGCCAGCTGGTGCCGGACGGGGTGCACATCTACCTGCGCGACGTGCTCGACCACGCCGTGCGCATCAACGACGTGATCGACACGCTGCGCGAAATGCTGGGCACCGCGCTGAGCGTGAACCTGTCGCTGGTGACGCTGGCCCAGGGCGAGACGGTCAAGCGGCTCGGCGCCTGGGCGGCGCTGCTGGCCGCACCGACGCTGGTCACCAGCTGGTATGGCATGAATTTCCAGCACATGCCCGAGCTCGGCTTCCGCCACGCCTATCCGCTGCTGATCGGCGGCGTGGCGTTGTCATGCGTGCTGCTGTACCGGCTGTTCAAGCGGGCGAAGTGGCTTTAA	MPGMNDQSQQPPDNPTCVITCAYYDPHGARRDISLEQISDELLRDDGGFVWVGLYEPEEAVLRTLQVEFGLHDLAIEDALKAHQRPKVESYGNSLFVVVNTAQLVDERIRYGETHAFLGTRFLLTVRHGASLSYKTVRARMEREPEMLKLGPAFSLYGVLDFVVDNYLPIMDEFRDTLESLEQDIFAESYERRTVVRLYELKRELNKMRLVVAPLQDVLAHLKRNPGQLVPDGVHIYLRDVLDHAVRINDVIDTLREMLGTALSVNLSLVTLAQGETVKRLGAWAALLAAPTLVTSWYGMNFQHMPELGFRHAYPLLIGGVALSCVLLYRLFKRAKWL	PGPT0014010_1710	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284	NA	NA
BMS020_06840	1362	sad_2	COG1012	Succinate semialdehyde dehydrogenase [NAD(P)+] Sad	ATGTATCAGACCATCAATCCCGCCACTGGCGCCGCCGAGCACCGCGTGGAGCTGCTCGATGCCAGCGCCGTCGAGGCGCGCCTGGCCGCCGCCGCGCAGGCGTTTCCGGCCTGGGCCGGGCTGCCGCTGGACGCGCGCGCGGCGCTGCTGCGCCGGGTCGGCGAGGAGCTGACCCGGCGGCGCGAGGATATCCAACGGCTCATGACCGCCGAGATGGGCAAGCTGCGCCGCGAGGCGCTGGCCGAGGTCGACAAGTGCGCGCAGGCCTGCGCGTTCTATGCCGACCACGCCGCCGAGTACCTGGCGCCCAAGCAGATCCGCACCGAGGCCCAGCGCAGCTACGTGCAGTTCGACCCGATCGGCTGCGTGTTCGCGGTGATGCCGTGGAACTTCCCGATCTGGCAGGTGTTCCGCTTCCTCGCGCCGACGCTGATGGCCGGCAACGTGGCTCTGCTCAAGCACGCCACCAACGTGCCGCGCTGCGCCGATGTGATCGCCGAGGTGCTGCAGGCCGCGGGCATCCCCGCGGGCGTGTTCGACGTGCTGCACATCGACAACGAGCAGGCGGCCGGGGTGCTGCGCGATCCGCGCGTGGCCGCGGTCACGCTGACTGGCAGCGAGCGCGCGGGCAAGGCGATCGCCTCCAACGCCGGCGAGCAGCTGAAGAAGTCGGTGATGGAGCTGGGCGGCAGCGATGCGTTCGTGGTACTCGATGACGCCGATCTCGACCTGGCGGTCGAGGCGGCGGTGAAGTCGCGCTTCGACAACAGCGGGCAGACCTGCATCGCCGCCAAGCGTTTCGTGGTGGTCGAGGCGATCGCCGATGCGTTCGTTGAGAAGTTCGTCGCCGCGGCCGGCAAGCGCGCCTACGGCGATCCGCAGCAGGAGGGCACCACGCTGGCGCCGATGGCGCGCGCGGACCTGCGCGACGAGTTGCACAAGCAGGTGCAGGCCAGCGTCGCCAAGGGTGCGACGGTGCTGCTCGGCGGCGAGCCGGTGCCGGGGTCGCACGCCGGCTATCCGGCGACGATCCTCGGCGACGTCGGCCCGGGCATGCCGGCCTACGACGAGGAACTGTTCGGGCCGGTGGCGGCGATCATCCGCGTCACCGACGAGGCCGAAGCGCTGCGCGTGGCCAACGACACCAGCTTCGGCCTTGGCGGCAGCGTGTGGACGCGTGATGCCGCGCGCGGCGAGGCGTTGGCGCGGCAGCTGCAGTGCGGCGCGGCGTTTGTCAATGCGGTGGTCAAGAGCGACGTGCGGCTGCCGTTCGGCGGCACCAAGCGCTCCGGCTTCGGCCGCGAGCTGGCCGAACACGGCATCCATGAGTTCATGAACATCAAGACGGTCTACGTGGCCTGA	MYQTINPATGAAEHRVELLDASAVEARLAAAAQAFPAWAGLPLDARAALLRRVGEELTRRREDIQRLMTAEMGKLRREALAEVDKCAQACAFYADHAAEYLAPKQIRTEAQRSYVQFDPIGCVFAVMPWNFPIWQVFRFLAPTLMAGNVALLKHATNVPRCADVIAEVLQAAGIPAGVFDVLHIDNEQAAGVLRDPRVAAVTLTGSERAGKAIASNAGEQLKKSVMELGGSDAFVVLDDADLDLAVEAAVKSRFDNSGQTCIAAKRFVVVEAIADAFVEKFVAAAGKRAYGDPQQEGTTLAPMARADLRDELHKQVQASVAKGATVLLGGEPVPGSHAGYPATILGDVGPGMPAYDEELFGPVAAIIRVTDEAEALRVANDTSFGLGGSVWTRDAARGEALARQLQCGAAFVNAVVKSDVRLPFGGTKRSGFGRELAEHGIHEFMNIKTVYVA	PGPT0001580_5694	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
BMS020_06841	846	ydcV_4		Inner membrane ABC transporter permease protein YdcV	ATGAGCGCCGCGCAGCGTGGACGCTGGTCGCGTTGGGCGATCCTCGGCGTCGGCTTCGGGTTCCTGTACCTGCCGATCCTGCTGCTGATCGTCTACTCGTTCAATTCCTCGCGGCTGGCGACGGTGTGGGCCGGGTTCTCGGTGAAGTGGTACGGCGAGCTGCTGCGCGACCAGTCGATGCTCGATGCGGCCTGGGTCAGCCTGAAGGTCGCGTTCTGGACCGCCAGCGCGGCGATGGTGATCGGCACGATGGCGGCGATGGCGATGACCCGGCTGCGGCGCTTCCCCGGCAAGACCTTGTTCGGTGCGCTGGTGTCGGCGCCGCTGGTGATGCCCGACGTGATCATCGGCCTGTCGATCCTGCTGATGCTGGTGTCGATGGGCGGCGTGCTCGGCATCGCGCCGAAGGGCGTGATGGCGATCTGGGTCGCGCACGTGACCTTCACCCTGTCGTTCGTCACCGTGGTGGTGTCCTCGCGCCTGCAGGAGCTGGACCGCTCGCTGGAAGAGGCGGCGATGGACCTGGGCGCGAACCGGGTCAAGGTGTTCTTCCTGATCACCCTGCCGATCATCGCCCCGGCGCTGGTGTCGGGCTGGCTGCTGGCCTTCACCCTGTCGCTGGACGACGTGGTGATCGCCAGCTTCGTCGCCGGCCCGAGCTCGACCACGCTGCCGATGAAGGTGTTCTCCTCGGTGCGCATGGGCCTGAGCCCGAAGATCAACGCGCTGGCGACGATCCTGGTGATGGCGGTGTCGATCGCCGCGGCGATCGGCTGGTGGATCATGGCGCGCAACGAGAAGCGCCGGCAGCAGGACATGCAGCTGGCGCTGCAGGAAAATGGCTGA	MSAAQRGRWSRWAILGVGFGFLYLPILLLIVYSFNSSRLATVWAGFSVKWYGELLRDQSMLDAAWVSLKVAFWTASAAMVIGTMAAMAMTRLRRFPGKTLFGALVSAPLVMPDVIIGLSILLMLVSMGGVLGIAPKGVMAIWVAHVTFTLSFVTVVVSSRLQELDRSLEEAAMDLGANRVKVFFLITLPIIAPALVSGWLLAFTLSLDDVVIASFVAGPSSTTLPMKVFSSVRMGLSPKINALATILVMAVSIAAAIGWWIMARNEKRRQQDMQLALQENG	PGPT0007815_425	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007815-potI-K11074	NA	NA
BMS020_06842	924	potH_2	COG1176	Putrescine transport system permease protein PotH	ATGAGCGCGTACGGACGCTTCGGGCGCCTGCGGCGCTGGCTGCCGGGCGGACGCTGGGCGGTGATCGCGCCGCCGTACCTGTGGATGCTGGTGTTCTTCGCGATCCCGTTCCTGATCGTGCTGAAGATCTCCTTCAGCCGGCTGGCGATCGCGATGCCGCCGTACACGCCGTTGCTGGAGTACATCGATTCGGCGCTGACGGTGCGCCTGAACCTGGGCAACTACCTGTCGCTGCTGGGCGACGACCAGTACGTGCTGGCCTACCTCAGCTCGATCAAGATCGCGGCGATCTCCACCTTGCTGTGCCTGCTGATCGGCTACCCGATGGCCTACACCATCGCCAAGATGGCGCCGTCCTCGCGCAACATCGCGATGATGCTGGTGGTGCTGCCGTCGTGGACCTCGTTCCTGATCCGCGTCTACGCCTGGATCGGCATCCTCGACAGCAACGGCGTGCTCAACAAGGCCTTGCTGGCGCTCGGACTGATCCACGAGCCGCTGCGCATCCTGTACACGCCGCTGGCGGCCTACATCGGCATCGTCTACTGCTACCTGCCGTTCATGGTGCTGCCGCTGTACGCGCACCTGGTCAAGCTTGACCAGCGCCTGCTGGAGGCCGCCTACGACCTCGGTGCGCGGCCGTGGAAGGCGTTCGCGACCATCACCCTGCCGCTGTCGCGCAACGGCATCATCGCCGGCTGCATGCTGGTGATGATCCCGGCGGTCGGTGAGTTCGTGATCCCGGAAATGCTGGGCGGCCCGGATACGCTGATGATCGGCCGGGTGCTGTGGGGCGAGTTCTTCAACAACCGCAACTGGCCGGTGGCCTCGGCGGTGGCGATCGTGATGCTGGCGCTGCTGCTGGTGCCGATCCTGGTGTTCAACCGTTACCAGCAGCGCGAGCTGGAAGGGAAGCTGACATGA	MSAYGRFGRLRRWLPGGRWAVIAPPYLWMLVFFAIPFLIVLKISFSRLAIAMPPYTPLLEYIDSALTVRLNLGNYLSLLGDDQYVLAYLSSIKIAAISTLLCLLIGYPMAYTIAKMAPSSRNIAMMLVVLPSWTSFLIRVYAWIGILDSNGVLNKALLALGLIHEPLRILYTPLAAYIGIVYCYLPFMVLPLYAHLVKLDQRLLEAAYDLGARPWKAFATITLPLSRNGIIAGCMLVMIPAVGEFVIPEMLGGPDTLMIGRVLWGEFFNNRNWPVASAVAIVMLALLLVPILVFNRYQQRELEGKLT	PGPT0007820_826	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007820-potH-K11075	NA	NA
BMS020_06843	1140	potA_5	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGGCGTCGACCGATGCCCGGCCGCAGAATCCGTCCCCCCAGGCCGCCGCCGCGGCGGGTTACCTGTCGATCCGCGGGGTGCGCAAGGAGTTCGACGGCTTCGTCGCCCTCGACGATGTCAGCCTCGAGGTCAACAAGGGCGAGATCTTCGCCCTGCTCGGGGGTTCGGGCAGCGGCAAGTCCACGCTGCTGCGCTGCCTGGCCGGGTTCGAGACGCCGACCAAGGGCCGCATCCTGCTCGATGGCCAGCCGATGGACGCGCTGCCGCCGTACGAGCGGCCGATCAACATGATGTTCCAGTCCTATGCGCTGTTTCCGCACATGACGGTGGAGCAGAACATCGCCTTCGGGCTGAAGCAGGACGGCCTGGGCAAGGACGCGATCCGCAAGCGCGTCGGCGAGATGCTGGAACTGGTGCAGCTGGGCAAGCTGGCCAAGCGCAAGCCGCACCAGCTCTCCGGCGGGCAGCAGCAGCGCGTGGCGCTGGCGCGCTCGCTGGCCAAGGGACCCAAGCTGCTGCTGCTGGACGAGCCGATGGGCGCGCTGGACAAGAAGCTGCGCTCGAAGATGCAGCTGGAACTGGTCAACATCATCGAGACCTCCGGGGTGACCTGCGTGATGGTCACCCACGACCAGGAGGAGGCGATGACCATGGCCACGCGCATCGCGCTGATGGACCAGGGCTGGATCCAGCAGGTCGGCAGGCCCGACGACATCTACGAGCAGCCGGCCAACCGCTTCGCCGCCGAGTTCATCGGCTCGGTCAACCTGATCGACGGCGTCATCGACGAGGACCTGCCCGAATACGTCACACTGAAGACCCCGGCGTTCGAGGCGCCGATCTACATCGGCCACGGCATCACCGGGTTCGAAGGGCAGCCGGTGTCGTTCGCGCTGCGCCCGGAGAAGCTGTCCATCGGCAAGGGCGAGCCGGACCAGCCGTACAACAAGGCGCGCGGCACCATCGAGGACATCGCCTACTTCGGCAGCCACTCGGTCTACCACGTGCGCCTGCCGAGCGGGTTCAAGCTGATGGCCAACTTCACCAACCGCGAGCGCTGGGCCAGCGAGGGGCTGACCTGGGGTGACGAGGTGTGGGTGCACTGGGGCGAGAACGACGGCGTGGTGTTGACCTCATGA	MASTDARPQNPSPQAAAAAGYLSIRGVRKEFDGFVALDDVSLEVNKGEIFALLGGSGSGKSTLLRCLAGFETPTKGRILLDGQPMDALPPYERPINMMFQSYALFPHMTVEQNIAFGLKQDGLGKDAIRKRVGEMLELVQLGKLAKRKPHQLSGGQQQRVALARSLAKGPKLLLLDEPMGALDKKLRSKMQLELVNIIETSGVTCVMVTHDQEEAMTMATRIALMDQGWIQQVGRPDDIYEQPANRFAAEFIGSVNLIDGVIDEDLPEYVTLKTPAFEAPIYIGHGITGFEGQPVSFALRPEKLSIGKGEPDQPYNKARGTIEDIAYFGSHSVYHVRLPSGFKLMANFTNRERWASEGLTWGDEVWVHWGENDGVVLTS	PGPT0007810_584	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007810-potG-K11076	NA	NA
BMS020_06844	1497	ttgI_2		Toluene efflux pump outer membrane protein TtgI	ATGACCTCGCTCGCGAACTACCGAATTCTTCTCCCCGCGGCGCTGCCGCTGCTGCTGTCTGCCTGCATGCTCGGGCCGGACTACGTGAAGCCGGAGGTGGCCGGCGATGCGCTGGCGCAGCCACGGCTGCATCGCGCCGAACCAGCCGAGGTCAGCGCCGCGACGCCGCCGCAGCGCTGGTGGGAGGCATTGCATGACGACGCGCTGAGCCGGCTGATCGACCAGGCGCTCGCCAACAGCCCCGATCTGCGCGCCGCTGGCGCGCGCGTCGAGGCCTCGCGCGCGCTGCTGCAGCAGCGCCACGCCGAGCGGCTGCCGAGCGTCGGCGCCTCGGCCGGCTACGTCAACGCGCGCCTGCCGGACGCACTGACCGACAGCGTGGACGCCATCGCGACCGAGCAGGGCGCGCAGGCGCCCGAGCTGGACAAGCTGGAGCTGTACACCGTCGGCTTTGATGCGAGCTGGGAGCTGGACCTGTTCGGCCGCCGCCGCCGCGCGCAGCAAGAAGCGGCCGCGCAGGCCGAGGCCGATGCGGCGCAGCTGGCCGACGCACAGGTGCAGCTGGCCGCCGAAGTCGGCCGGGCCTATGCCAATTACCGGGGGACCCAGCAGCGCTTGGCGATCGCCCGCGACAGCCGCGACAAGGCCTCGCAGATGCTGGAACTGACCGGCCAGCGCCGCGCGCGCGGTGCGGCCACGCAGATGGACGTGGAGCGCGCACTGGCACAGCTGCGCCAGCAGGAGGCGGCGATGCCGGGCCTGCAAGCGACGCTGCAGGAGTCGCTGGACCAGCTGGCGCTGATGACCGGGCAGGTGCCCGGTGCGCTGGATGCGACGCTGGCCGAGGTGCGGCCGTTGCCGGAGCTGCCGGCAACGGTGCCGGTGGACGATGCGGCGGCACTGATCCGGCGGCGTCCGGACGTGCGCCAGGCCGAGCGCCAGCTGGCGGCGTCGTCGGCCAAGATCGGCCAGGCGCTGTCGGCGTACTTCCCGCAGGTGAAGTTGTATGGCGTGGTCGGCATGGGCGCGACCTCGCCGGGCGACCTCGGCAGCGATGCGCTGGCGACGATGGTCGCGCCGATGCTGCAATGGTCGCTGTTCGATTTCGGCAAGACCCGCGCGCAGGTCGCGCAGGCCCGTGCTGGCGAGCGCGCGTATGCGGCCAATTACGAGGCCAAGGTGCTGGCCGCGCTGCAGGACGCCAACAGCGCGCTGGCGCGCTTCGGCGCCTCGCGGCACACGCTGGCGATGGCCGGCGAGGCCGCCGACGCGGCGACGCGTTCGTCCGACCTGGTGCAGCAACGCTACCGCGCCGGTGCGACCTCGCTGATCGATGCGCTGGACGTGCAGCGCCAGCAGCTCGATGCCCGCGACAGCCAGGCGCAGGCGCAGATGAAGCTGCTGGTGGACTACATCGGTCTGCAGAAGAGCCTGGGCCTGGGCTGGCAGCTGCCGCAGGGCGAGGGTGGCGGCGAAGCCGCCGCGGCGCGCGAATAG	MTSLANYRILLPAALPLLLSACMLGPDYVKPEVAGDALAQPRLHRAEPAEVSAATPPQRWWEALHDDALSRLIDQALANSPDLRAAGARVEASRALLQQRHAERLPSVGASAGYVNARLPDALTDSVDAIATEQGAQAPELDKLELYTVGFDASWELDLFGRRRRAQQEAAAQAEADAAQLADAQVQLAAEVGRAYANYRGTQQRLAIARDSRDKASQMLELTGQRRARGAATQMDVERALAQLRQQEAAMPGLQATLQESLDQLALMTGQVPGALDATLAEVRPLPELPATVPVDDAAALIRRRPDVRQAERQLAASSAKIGQALSAYFPQVKLYGVVGMGATSPGDLGSDALATMVAPMLQWSLFDFGKTRAQVAQARAGERAYAANYEAKVLAALQDANSALARFGASRHTLAMAGEAADAATRSSDLVQQRYRAGATSLIDALDVQRQQLDARDSQAQAQMKLLVDYIGLQKSLGLGWQLPQGEGGGEAAAARE	PGPT0028880_64	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexEF-OprN,PGPT0028880-oprN-K18300	NA	NA
BMS020_06845	1575	emrB_2		Colistin resistance protein EmrB	GTGAGTACCGCCGGGCAGGCCGTGGCGACGGCCGCAGGGCGCCCGCGCAATGCCGATGCCGGTGCGTGGCTGGCGGTCGCCGCCGGCACCATCGGCTCGTTCATGGCGACGCTGGACATCTCCATCGTCAACGCCGCGCTGCCGACCATCCAGGGCGAGGTCGGCGCCAGTGGCACCGAGGGCACCTGGATCTCCACCGCCTACCTGGTCAGCGAGATCGTGATGATCCCGCTGACCGGCTGGTTCGTGCGCACGCTCGGGCTGCGCAACTTCCTGCTGATCTGCGCGGTGATGTTCACCGCGTTCTCGGTGATGTGTGGCTTGTCCACGACGCTGACGATGATGATCATCGGCCGCGTCGGCCAGGGCTTCGCCGGCGGCGCGTTGATCCCCACCGCGCTGACCATCGTCGGCACGCGGCTGCCGCCGCACCAGCAGACCCAGGGCACCGCGTTGTTCGGCATGACGGTGATCCTGGGACCGGTGATCGGCCCGCTGCTCGGCGGCTGGCTGGCCGAGAACGTCAGCTGGCATTACGCCTTCTTCATCAACGTGCCGATCTGCGCCGGCCTGGTGGCGTTGCTGCTGCTTGGGCTGAAGCACGAGCGCGCCAACCTGCCCGGGCTGCTGCGTGCGGACTGGCTGGGCATCTTCGGCCTCACCGCCGGGCTGGGCGCGCTGACCGTGGTACTGGAGGAGGGCCAGCGCGAGCGCTGGTTCGAGTCCGAACTGATCATCCTGCTCAGCCTGCTGTCGGCGCTCGGGTTTGCCGCGCTGCTGCTGTCCCAGCTGATCCACAAGGAACCGGTGATCCGCCTGTCGATCCTGCGCAACCGCGCGTTCGCCTCGGTGTTCGTGATGGTCACCGCGGTCGGCATGATCCTGTTCGGGGTGATGTACATGATCCCGCAGTTCCTGGCGATGATTTCCGGCTACAACACCGAACAGGCCGGCTACGTGCTGCTGCTGGCCGGCGTGCCGACGGTGCTGCTGATGCCGTTGATGCCCTGGATGCTGGGCAACGTCGACGTGCGCCTGATGGTCGGCATCGGCATGGGCGCGTTCGCCGCGGCGTGCTTCGTCAATCTCGGCCTGACCGCCGATGCGGTCGGCATGCATTTCGTCGCCGGCCAGCTGCTGCAGGGTGTGGGCCTGGCGTTCGCGATGATGGCGCTGAACCAGGCCGCGATCTCCTCGGTGCCGGCGGATTTCGCCGGCGACGCCTCGGGGCTGTTCAATGCCGCGCGCAACCTCGGTGGTTCGGTGGGCTTGGCGATCATCTCCACGTTCCAGGAGCGGCGGATGACCTACCACACCCAGACGATCGGCAGCTCGACCACCGCCAACGCGCCGCTGGCGCAGGACTACCTGCATGCACTCGGCGCGCAGCTGCAGGGTGCCGGCGGCGATGCGTTGCAGGCAGTCGCCCAGCTCGCCCGGCTGGTGCAGCAGCAGGCGCTGGTGATGACCTACAACGACCTGTTCTGGATCTTCGGCGTGATCGTGGTCTGCACGTTTCCGCTGATCTTCATGCTCAAGCCGCTGCCGAAAGGCAGCGCACTGGTGATGCACTGA	MSTAGQAVATAAGRPRNADAGAWLAVAAGTIGSFMATLDISIVNAALPTIQGEVGASGTEGTWISTAYLVSEIVMIPLTGWFVRTLGLRNFLLICAVMFTAFSVMCGLSTTLTMMIIGRVGQGFAGGALIPTALTIVGTRLPPHQQTQGTALFGMTVILGPVIGPLLGGWLAENVSWHYAFFINVPICAGLVALLLLGLKHERANLPGLLRADWLGIFGLTAGLGALTVVLEEGQRERWFESELIILLSLLSALGFAALLLSQLIHKEPVIRLSILRNRAFASVFVMVTAVGMILFGVMYMIPQFLAMISGYNTEQAGYVLLLAGVPTVLLMPLMPWMLGNVDVRLMVGIGMGAFAAACFVNLGLTADAVGMHFVAGQLLQGVGLAFAMMALNQAAISSVPADFAGDASGLFNAARNLGGSVGLAIISTFQERRMTYHTQTIGSSTTANAPLAQDYLHALGAQLQGAGGDALQAVAQLARLVQQQALVMTYNDLFWIFGVIVVCTFPLIFMLKPLPKGSALVMH	PGPT0029220_1145	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029220-emrB-K03446	NA	NA
BMS020_06846	1143	emrA_3		Colistin resistance protein EmrA	ATGCACGAACAAGCCTCCACCCCTTCCAGTGACGATGTGCGTGACAGGGACGACAAGCCGTCCCCGCTCAAGAACCCTAGGGTGCGCCTGACCCTGATCGCCATCGGCGTGCTGGTGCTGGCCGTGCTGGTGGCCTGGTTGGCCTATTACCTGCTGGTCGGCCGCTACATGCAGGACACCAACAACGCCTACCTGAAGGCCGATGCGGTGGCGGTGGCACCGCGGGTCAACGGCTACGTGACCGAGGTGCTGGTCGACGACAATCAGTGGGTGAAGGCCGGTACGCCGCTGCTGCAGATCGACGCGCGCACCTACCGCGCCCAGCTTGAGCAGGCCGAGGCGGTGGTCGCGGTACGCCAGTCCGACATCGCCGCTGCCGAGGCCAACCTGCAGGGCAGTGGTGCTCAGTTGGCGCAGGCGCGTTCGCAGGTGGTCGCCGCACAGGCCAGCCTGAAGCTGGCCAAGGCCGAAGTGGCGCGCTTCACCCCGCTGGCGGCGAGCGGCGCGGATACCCCCGAGCACCTGGAAAGCCTGCGCCACGACCTGGAGCGCGCGCAGGCCCAGTACGACGCCGCGCTGGCGCAGGTGAAGGGTGCCGAGAGCCAGGCCGCTGCCGCGCAGGCGCAGCTTGGCCAGGCCCAGGCCGGGCTCAAGCAGGCCCAGGCCGACGCCGATGCCGCGCGCTTGATGGTCGACGACACCCGCCTGACCGCGCGCATCGACGGCCGTATCGGCAACAAGACCGTGCAGGTCGGCCAGTTCGTCTCGGCCGGCACCCGCACGATGACTGTGGTGCCGGTCGAAGGGCTGTACCTGGAAGCCAATTTCAAGGAAACCCAGATGGGCCGCATGCGCCCGGGGCAGTCGGCCGAGATCGAGGTCGACGCGCTGGCCGGGGTGAAGCTGCACGGCACGGTCGAGAGCATCTCGCCGGGCACCGGTTCGCAGTTCGCGCTGCTGCCGGCGGAGAACGCCACCGGCAACTTCACCAAGGTGGTGCAGCGCGTGCCGGTGCGCATCCATGTCGACGCCGATGCCGAGGCGCGCAAGGTGCTGGTGCCGGGCATGTCGGTCGAGGTCACCGTCGATACCCGCAGCGCAGGCGATGCCGGGCGTGATGCGAAGGACGGAGCCGCGCAGTGA	MHEQASTPSSDDVRDRDDKPSPLKNPRVRLTLIAIGVLVLAVLVAWLAYYLLVGRYMQDTNNAYLKADAVAVAPRVNGYVTEVLVDDNQWVKAGTPLLQIDARTYRAQLEQAEAVVAVRQSDIAAAEANLQGSGAQLAQARSQVVAAQASLKLAKAEVARFTPLAASGADTPEHLESLRHDLERAQAQYDAALAQVKGAESQAAAAQAQLGQAQAGLKQAQADADAARLMVDDTRLTARIDGRIGNKTVQVGQFVSAGTRTMTVVPVEGLYLEANFKETQMGRMRPGQSAEIEVDALAGVKLHGTVESISPGTGSQFALLPAENATGNFTKVVQRVPVRIHVDADAEARKVLVPGMSVEVTVDTRSAGDAGRDAKDGAAQ	PGPT0013750_815	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0013750-emrB-K03543	NA	NA
BMS020_06847	1425			hypothetical protein	ATGACCGAGATGGACATCAACACATCGGCAAACGAAGTCGTCACTCTCTTGCAGCAACAGCATGCCCGACAGGCCGCCGCCCGGCTCGAGGAACTACGGCAGGACCAGCCCAGAGTCGTCCAGGAGTCGCTTGACCGGTATGTTGCCGCGGGAGCAGGTGAGCAACTCGCGCACTTGCGTCAGCCCGGCGCAGTCAGCGCCGCGGATGCTGATGGCGTTCACTCCATGCTGGACAGGCTAGGCGAGGCGGCGAGGCCGCCTCGTATGCCGACGCAGAGCGAAACAGCTGACTTATCGCAAGCACAGCAACATGATGTTTACGGCAGTATCGTCGCCATTCGCGGTGATACCGCAGCTCGCGATGCGATGGCGACGCAGGATCGCGTCATCCTCGGCCTACGTAATGAGGACCGAACGACAGAGAACCGGGGACAGGGGGTCTACAACGACCGCATCGTTGTGCTTTGGACGGACGCTCATGGCAGCAAGCATGCACGTGAGTACAACGACGCTACGACAGAGCCCACGGCCCAGTACGATGGACACGCCAAAACGACGCCCGCAAGTCCCGGTTTCGATCACGTCAGCGCACGAACAAAGACCGAGGGCGAAGATGTGAACGGGGACCGCATCAGAGACATGGGCCGGCTTGCGGAGGGCACGACCGAGATGCGCGCGACCACCCATCCCTATCACGGACATCCCGATGAATTTGCCCTGCGCCCATCAGCATCCGCACTTGCCGCTGGTGCCAATCGCGTGGAACGGGACAGCAATGGGGACGGCTGGTTCGACGCTCGTGATACCAATGGCGTCCAGGATCTCAATGACACCTTCAAGATTCATCGCGGGAGTTCGCGAAACACCGATTCCGCCGGCTGCCAAACCATCGGCGGCGGCCGATACGACGACTTCATTGACACGGTACGGGGCACGCCCGACCAGAATCGCTGGCAGTACGTGCTGACGTCCGTGGCGCCAGGGCAAACGCGCGAGCTGGATGCCCACAGCCGGGCGGATCCAACCAATGATCCCCGGCAGGCCGGGCATCCAGACCATGCCATGCAACAGCAGATCAGCACGCGACTCCAGGCGATGGGCGGCGAGTACGCACAGCATGCCGATGACTACAGCCTGCTGATGCTTCATGAGGCCAAAGCCGGCGGCATCACACGCGTGGACCAGCTGGTGGCCAGCAACGCCACCGGTGATCGCACAGCCGGCGAGACGATCTTCCTTGTCCAGGGGCGGCCAGGCGATCCCGCAGCGCTGCGAGTCGGGGTCAACACGGCCGAAGTCCGGGAGACCCCGGTGGAGACAAGCATGGAGTTGATTCAGCAGCGAACACGCGAGCAAGCCGTCCAGACTCCAACCCAGAACAACCCCGCACCGCAACACGATGCACCTGCCATCGGGGGCCGTTGA	MTEMDINTSANEVVTLLQQQHARQAAARLEELRQDQPRVVQESLDRYVAAGAGEQLAHLRQPGAVSAADADGVHSMLDRLGEAARPPRMPTQSETADLSQAQQHDVYGSIVAIRGDTAARDAMATQDRVILGLRNEDRTTENRGQGVYNDRIVVLWTDAHGSKHAREYNDATTEPTAQYDGHAKTTPASPGFDHVSARTKTEGEDVNGDRIRDMGRLAEGTTEMRATTHPYHGHPDEFALRPSASALAAGANRVERDSNGDGWFDARDTNGVQDLNDTFKIHRGSSRNTDSAGCQTIGGGRYDDFIDTVRGTPDQNRWQYVLTSVAPGQTRELDAHSRADPTNDPRQAGHPDHAMQQQISTRLQAMGGEYAQHADDYSLLMLHEAKAGGITRVDQLVASNATGDRTAGETIFLVQGRPGDPAALRVGVNTAEVRETPVETSMELIQQRTREQAVQTPTQNNPAPQHDAPAIGGR				NA	NA	NA	NA	NA
BMS020_06848	357			hypothetical protein	ATGCGCGCCTACATCGGCAAGGGCGCCGCCCCACCAAAGGACGTCACCGCGTCGATCGCGTCCAAGGTTAAGGGCATCACGTCCAGGTACACCGATCAGGGCGTGAGCGAGCTGTTTGCCGTGACCCTGCAATTGGACATGACTCCGGTTGTCCGATGGATTGCGGAAGCAGATCCAGATCGCAGTATCACCGAGGACGAGCGGACATTCGACCATGGAAATTTTGTCCATGGAGGATTTCTGGTCTGGCAGGAGGACCACTTTGAGGTCTTTCAGAAAGTTCCTGCCGACCTTTGGCCTTGCGGCGACAGCCAGCTACTTAAATGCACGGATGATCCATTCGTCACGGGACGTTGA	MRAYIGKGAAPPKDVTASIASKVKGITSRYTDQGVSELFAVTLQLDMTPVVRWIAEADPDRSITEDERTFDHGNFVHGGFLVWQEDHFEVFQKVPADLWPCGDSQLLKCTDDPFVTGR				NA	NA	NA	NA	NA
BMS020_06849	441			hypothetical protein	ATGAAAGACGTCAACCAAATTCGTCGCAACCTCCTGAAGGCCGCACCCATCGGCGCTGCCACATTGCTGGTCGGGGTAGTCGCCGTTAAAGCCCAGGCCCAGTCGGCGCTCGAGCCCGTAAAGCCACCCAAGGTCACGCGGGCATCAGCCTTCCTGGTGAAGGTGGACTCCCTCGACCCGAAGATGGACCCGGTGAAGAGCTCCGTGATCGTGGAGACAAAGCTTGGAGAATCGTTGAATCTGCTCGAGACCTCGCTGGCCCAGGCAAATTTCATCCGAATCACGCGGGATAATGCGCACAGTACAGATGAGCTTGAGTTCTACACGGTGGCCGTCCTGGACCTGAAGGGGCACGAGCTGATCTCGTCAAACATGGATGAGAGTTCTTCTGCCATCTTCACTGGCCAACAGCTGGCCATCTCTTTGAGAGTCCTTTCGTAG	MKDVNQIRRNLLKAAPIGAATLLVGVVAVKAQAQSALEPVKPPKVTRASAFLVKVDSLDPKMDPVKSSVIVETKLGESLNLLETSLAQANFIRITRDNAHSTDELEFYTVAVLDLKGHELISSNMDESSSAIFTGQQLAISLRVLS				NA	NA	NA	NA	NA
BMS020_06850	1128	potF_2	COG0687	Putrescine-binding periplasmic protein	ATGAAGCAGCACGCGATGTGGGTGGGTCTGGCCACGCTGTGTCTGGCCGGGTGCGGTGGCAAGCAGGAGCAGGGGACAGCCGCAGCGGGGGCCGCCACGCCTCCCGGCACGCTCAACGTCTATAACTGGTCCGACTACATCGCCGAGGGCACCGTGCCCGGGTTCGAGCGGCAGAGCGGCACCAAGGTGACGTACGACGTGTTCGACAGCAACGAGGTGCTCGAGGCCAAGCTGCTCGCCGGCAGCAGTGGCTACGACGTGGTGGTGCCCTCGCTGAGTTTCCTCGGCCGGCAGATCCAGGCCGGGGTATTCCTGCCGCTGGACCGCAGCAAGATCCCGAACTGGAACAACCTCGACCCGGCGATGATGCAGCGCATTGCCCAGCAGGACCCGGGCAACCAGTACGCGGTGCCCTACCTGTGGGGCACCACCGGCATCGGCTACAACATCGACAAGGTCAAGGCCGCCTTCGGCAGTACCGATGTGGTCAACAGCTGGGACCTGGTGTTCAAGCCGGAGAACATCGCCAAGCTCAAGGATTGCGGCGTCACCATCCTCGATACCCCGTCGGAAATCGTGCCGACCGTGCTGCACTACCTGGGCGAGGACCCCAACAGCACCGACCCGGCGGTGATCGACAAGGCCGCGGCCAAGCTGAAGGAGATCCGCCCCTACGTGCAGACCTTCCACAGCAGCGCGTACATCGACGCGCTGGCCAAGGGCAGCACCTGCCTGGTGGTGGGTTGGTCGGGCGACATCCTGCAGGCCCGCGACCGCGCCAACGAGGCCGGCAACGGGGTGCACATCGGCTATTCGATCCCGAAGGAAGGCGCGCTGCAGTTCTTCGACATGCTGGCGATCCCGAAGGATGCCAAGCATGTCGATGCCGCGTACCAGTTCATCAACTACCTGCTGACCCCGGAAGTGGCCGCGGCCAACACCAACTTCGTCAGCTATCCCAACCCGGTGCCGAAGGCGACGCCGCTGATCGATGCCGCGATCCGTGACGACAAGACCATCTATCCGCCGCCGGAGACGATGGCCAAGCTGTTCGGCCTGGCGATCATGCCGCCGGAGGTCGACCGCCAGTACACGCGGCTGTGGACCGAGGTGAAGACCGGGCACTAG	MKQHAMWVGLATLCLAGCGGKQEQGTAAAGAATPPGTLNVYNWSDYIAEGTVPGFERQSGTKVTYDVFDSNEVLEAKLLAGSSGYDVVVPSLSFLGRQIQAGVFLPLDRSKIPNWNNLDPAMMQRIAQQDPGNQYAVPYLWGTTGIGYNIDKVKAAFGSTDVVNSWDLVFKPENIAKLKDCGVTILDTPSEIVPTVLHYLGEDPNSTDPAVIDKAAAKLKEIRPYVQTFHSSAYIDALAKGSTCLVVGWSGDILQARDRANEAGNGVHIGYSIPKEGALQFFDMLAIPKDAKHVDAAYQFINYLLTPEVAAANTNFVSYPNPVPKATPLIDAAIRDDKTIYPPPETMAKLFGLAIMPPEVDRQYTRLWTEVKTGH	PGPT0007805_205	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007805-potF-K11073	NA	NA
BMS020_06851	1134	potF_3	COG0687	Putrescine-binding periplasmic protein	ATGAAGCTGCGAATCCTCACTGTTGCCCTCGCTGCCACGCTGCTCGCCGCCTGCGGCGGCAAGACCGACGCCGGCGGCGACACCGGCAAGACCGCCGGCGCCGAGGAGAAGGTCCTCAACGTCTACAACTACTCGGACTACATCGCCGAGGACACCGTGCCGAACTTCGAGAAGGCGACCGGCATCAAGGTCACCTACGACGTGTTCGACAGCGACGAGATGGTGGAAGCCAAGCTGCTGGCCGGCAGCAGCGGCTACGACGTGGTGGTGCCGACGCTGAACTTCTTCGGCCGCCAGATCGAGGCGGGTGTGTTCCTGCCGCTGGACAAGAGCAAGATCCCGAACCTGGCCAACCTCGATCCGGACGTGATGAAGCGCATCGCGCAGCAGGATCCGGACAACAAGTACGGCGTGCCGTACATGATCGGCACCACCGGCATCGGCTACAACGTCGACAAGCTCAAGGAGCGCTTCGGCGGCAGCACCGACATCGCCGGCAGCTGGGACCTGATCTTCAAGCCGGAGAACCTGGCCAAGATGAAGGACTGCGGCGTGACCATCCTCGACACGCCGTCGGACATGCTGCCGATCGCGTTGAACTATCTCGGCCTGGATCCGCACAGCCAGAAGCCGGAGGAACTGCAGAAGGCCGCCGACCTGATCAAGGCGATCCGCCCGTACGTGCAGAACTTCCACTCCAGCCAGTACGTGACCTCGCTGGCCAACGGCAGCACCTGCCTGGCGGTGGGCTGGTCGGGCGACATCATCCAGGCCCGCGACCGCGCCGACGAGGCCGGCAGCAACGTGCACGTGGCCTATTCGATCCCGAAGGAAGGCGCACCGCAGTGGTTCGACATGCTGGCGATCCCGAAGGACGCCAAGCATCCGCAGAACGCCTATGCGTTCATCAACTACCTGCTGACGCCCGAGGTCGCGGCGGCCAACACCAACTTCATCCATTACGCCAACCCGGTATCTAAGGCGACGCCGCTGGTGTCCGAGGAGATCCGCAACGATCCGACGATCTACCCGCCGGATGAGGTGAAGGCGAAGATGTTCACCTACTCGATCAACCCGCCCGAGGTCGACCAGCTGTACACGCGGCTGTGGACGGAGATCAAGACCGGCCGCTGA	MKLRILTVALAATLLAACGGKTDAGGDTGKTAGAEEKVLNVYNYSDYIAEDTVPNFEKATGIKVTYDVFDSDEMVEAKLLAGSSGYDVVVPTLNFFGRQIEAGVFLPLDKSKIPNLANLDPDVMKRIAQQDPDNKYGVPYMIGTTGIGYNVDKLKERFGGSTDIAGSWDLIFKPENLAKMKDCGVTILDTPSDMLPIALNYLGLDPHSQKPEELQKAADLIKAIRPYVQNFHSSQYVTSLANGSTCLAVGWSGDIIQARDRADEAGSNVHVAYSIPKEGAPQWFDMLAIPKDAKHPQNAYAFINYLLTPEVAAANTNFIHYANPVSKATPLVSEEIRNDPTIYPPDEVKAKMFTYSINPPEVDQLYTRLWTEIKTGR	PGPT0007805_230	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007805-potF-K11073	NA	NA
BMS020_06852	1365	spuC	COG0161	Putrescine--pyruvate aminotransferase	ATGGACCCGATCCAGGCACGTACCCTGCAGGACCTCGATGCAGCCCACCACCTGCATCCTTTCAACGACAACGCCGCACTGGCGAAGAAAGGCACCCGCATCCTCACTCGCGGCGAGGGCGTCTACGTCTGGGATGCAGACGGGCACAAGCTGCTCGATGCCTTCGCCGGCCTGTGGTGCGTCAACATCGGCTACGGGCGCGCGGAGCTGGGCGAGGCCGCGGCCAGGCAGATGCGCGAACTGGCGTACTACAACAGCTTCTTCCAGTGCACCACCGAGCCGACCATCCGCCTGGCGTCCAAGCTCGCCGAACTGGCACCCGGCGACATCAACCACGCCTTCTTCACCAATTCCGGCTCCGAGGCCAACGACACCATCCTGCGGCTGGTGCGGCACTTCTGGGCGGTGCAGGACAAACCGGCCAAGCAGATCTTCATCGGTCGCCACGACGGCTACCACGGCACCACGATGGCCGGCGCCAGCCTCGGCGGCATGAAGGGCATGCACAAGCAGGGCGGGCTGCCGATTCCCGGCATCGTCCACATCGACCCGCCGTACGGCTTCGGCGATGGTGGCGACCTCGACCCGGAGGAATACGGCCTGCTCGCCGCGCGCCGGCTGGAAGACAAGATCCTCGAACTCGGCCCGGACAACGTCGCCGCCTTCATCGGCGAGCCGATCATGGGCGCGATCGGCGTCTACATCCCGCCGCGCAGCTACTGGCCCGAGATCGAGCGGATCTGCCGCAAGTACGACGTGCTGCTGGTCGCCGACGAGGTGATCTGCGGCTTCGGCCGCACCGGCGAATGGTTCGGCTCGCAGTATTTCGGCTTCCAGCCGGACGTGATGACCATCGCCAAGGGCATCACCTCCGGCTATATCCCGCTCGGCGCGGCGATGTTCAACGACCGCGTCGCCGGCGTGCTGAAGGGGCTGGGCGGCGAGCTGGCGCACGGCTGCACCTATTCCGGGCACCCGGTGTGTGCGGCGGTTGCGCTGGAGAACCTGCGGATCATGCAGGATGAGCGCATCGTGGACACCGCCCGCACCGAGATCGCCCCGTACCTGGCGCAGCGTTGGGCCGAACTGGGCGAGCACCGGCTGGTCGGCGAGGCGCGCATCGCCGGGTTGATGGGCGCGCTGGAGCTGGTGCCGGACAAACACCGGCGCGGCTATTTCGACGAGCGCGGCAAGGTCGGCGCGCTGTGCCGCGATATCGCGCTCGGCCATGGGCTGGTGCTGCGCGCGACCTATGATGCGATGCTGCTGTCGCCGCCGCTGGTGATCACCCGCAACCAGGTCGACGAACTGTTCGACAAGGCCTGGAGGGCGTTGGACGACACCGCCGCGGCGCTGGGCAAATAG	MDPIQARTLQDLDAAHHLHPFNDNAALAKKGTRILTRGEGVYVWDADGHKLLDAFAGLWCVNIGYGRAELGEAAARQMRELAYYNSFFQCTTEPTIRLASKLAELAPGDINHAFFTNSGSEANDTILRLVRHFWAVQDKPAKQIFIGRHDGYHGTTMAGASLGGMKGMHKQGGLPIPGIVHIDPPYGFGDGGDLDPEEYGLLAARRLEDKILELGPDNVAAFIGEPIMGAIGVYIPPRSYWPEIERICRKYDVLLVADEVICGFGRTGEWFGSQYFGFQPDVMTIAKGITSGYIPLGAAMFNDRVAGVLKGLGGELAHGCTYSGHPVCAAVALENLRIMQDERIVDTARTEIAPYLAQRWAELGEHRLVGEARIAGLMGALELVPDKHRRGYFDERGKVGALCRDIALGHGLVLRATYDAMLLSPPLVITRNQVDELFDKAWRALDDTAAALGK	PGPT0007865_717	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007865-spuC-K12256	NA	NA
BMS020_06853	570			hypothetical protein	ATGTGGCTTTGCCGGTTCCCCATCCGCAGCGGCGGAGCCGACGGGAAGAACCCGCAGGGCGACGTGCAAGGATGCACGTCGTTTTTCGCCGCGGCAGGAGGCCGCGTCGAAAAATCCCGTTGGCGGAGTGGACCCGTAGCGAAGCGGAGGGCGCGAGGACTGGGGCGTGTTTCTTTGGGTTACCTTTCTTTGCACGCGCAAAGAAAGGTAACTCGGCCCTTCAGGGCCGAAAGCCCTTACCTGCTTTGGGATTTGCGAGTTTGTGTGGTTGTGGTTGTGGTTGTGGGAGCGAGGAGCGAAGGCTTTCACGCCCTGTCGGGCGCGAGTCACTTTTCTTTGCTTGTGCAAAGAAAAGTAACAAAAAGAAAGCACACCCCGCCTCGCGCCCTCCGCTTCGCTCCGGGTCCGCGTGCCCAGCGGGAATTTTTCGACGGGACATCCTGTCCCGGCGAAAAACGCCGCGCATCCTTGCGCGCCGCCCCTGCGGGGTTTTGCCCGCCGGTCCCGCCGCTGCGGAGGGGCCCCGATAGATCAAATGCATGCCGGCAACAGCAGCAGCGGAAGCAGTAG	MWLCRFPIRSGGADGKNPQGDVQGCTSFFAAAGGRVEKSRWRSGPVAKRRARGLGRVSLGYLSLHAQRKVTRPFRAESPYLLWDLRVCVVVVVVVGARSEGFHALSGASHFSLLVQRKVTKRKHTPPRALRFAPGPRAQREFFDGTSCPGEKRRASLRAAPAGFCPPVPPLRRGPDRSNACRQQQQRKQ				NA	NA	NA	NA	NA
BMS020_06854	1386	puuA_2	COG0174	Gamma-glutamylputrescine synthetase PuuA	ATGAGCTCCCGCAAGCGCCCGCGCCCGCCCGTCGACGAACAGCCCGAGAGCGCGCTGCTGCGCTGGCTGAAGGAACGCCGCATCACCGAGGTCGAATGCCTGGTGCCGGACATCACCGGCAACGCGCGCGGCAAGATCATTCCCGCCGACAAGTTCAGCCACGACTACGGCACGCGCCTGCCCGAGGGCATCTTCGCCACCACCGTCACCGGCGACTATCCGGACGATTATTACGAGCTGACCTCGCCATCGGATTCGGACATGCACCTGCGCCCGGACCCGGACACGGTGCGGATGGTGCCCTGGGCCGCCGACCCGACCGCACAGGTGATCCACGATTGCTACACCCGCGACGGCAGCCCGCATGAGCTGGCGCCGCGCAACGTGCTGCGGCGGGTGCTCGACGCCTATGCCGCCGAGGGCCTGCAGCCGGTGGTGGCGCCGGAGCTGGAATTCTTCCTGGTGCAGAAGAACACCGATCCGGACTTCCCGCTGCTGCCGCCGGCCGGCCGCTCCGGCCGCGCCGAGACCGCGCGACAGTCGTATTCGATCGATGCGGTCAACGAGTTCGACCCGATCCTGGACCTGATGTACGACTACTGCGACGCGATGAAGCTGGACGTGGACACGCTGATCCACGAATCCGGCGCGGCGCAGCTGGAGGTCAACTTCACCCACAGCGACGCGATGTCGCGCGCCGACCAGGTGTTCCTGTTCAAGCGCACGATGCGCGAGGCGGCGATGCGCCATGGCGTCTACGCCACCTTCCTGGCCAAGCCGATGGAGAACGAGCCGGGCAGCGCGATGCACATCCACCAGAGCCTGGTGCGGATCAAGGACGGGCGCAACGTGTTCAGTGGCAAGAGCGAGGGCAAGTTCAGCCGCACGTTCTCGCACTACCTGGGCGGGTTGCAGAAGTACGTGCCGATGGCGATGGCGTTCTTCGCGCCGAACGTGAATTCCTACCGCCGGCTGATGTTTGGCGAGGTCTCGCCGAGCAACGTGCTGTGGGGCTACGACAACCGCACCTGCGGGCTGCGGGTGCCGTTCGACACGCCGGAGAACATGCGCGTGGAGAGCCGTTTCGCCGGTTCAGACGCCAACCCGTACCTGGCGATGGCGGCGACGCTGGCCTGCGGCCTGCTCGGCATCCGCGAGGAACTCAAGCCGACCGAGCCGATCACCGGCAGCGGCAAGGAGGAGGGTTACGATCTGCCGCGTTCGCTGGGTGAGGCGCTGGACGAGCTGGAGGGCTGCGCGGCGCTGCAGGAGATGCTGGGGCAGCGCTTCGTGCGCGCCTACGTGTCGGTGAAGCGGAAGGAGTACGAGACGTTCTTCCGGGTGATCAGCTCGTGGGAGCGGGAGTTCCTGTTGTTGAATGTGTGA	MSSRKRPRPPVDEQPESALLRWLKERRITEVECLVPDITGNARGKIIPADKFSHDYGTRLPEGIFATTVTGDYPDDYYELTSPSDSDMHLRPDPDTVRMVPWAADPTAQVIHDCYTRDGSPHELAPRNVLRRVLDAYAAEGLQPVVAPELEFFLVQKNTDPDFPLLPPAGRSGRAETARQSYSIDAVNEFDPILDLMYDYCDAMKLDVDTLIHESGAAQLEVNFTHSDAMSRADQVFLFKRTMREAAMRHGVYATFLAKPMENEPGSAMHIHQSLVRIKDGRNVFSGKSEGKFSRTFSHYLGGLQKYVPMAMAFFAPNVNSYRRLMFGEVSPSNVLWGYDNRTCGLRVPFDTPENMRVESRFAGSDANPYLAMAATLACGLLGIREELKPTEPITGSGKEEGYDLPRSLGEALDELEGCAALQEMLGQRFVRAYVSVKRKEYETFFRVISSWEREFLLLNV	PGPT0000645_4868	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
BMS020_06855	756	puuD_2	COG2071	Gamma-glutamyl-gamma-aminobutyrate hydrolase PuuD	ATGGCCGTTCCCCCCCTGGTCGGCCTGCCGACCGACCGCAAGATGATCGGAGCGCATCCGTTCCTCGCCACCGGCGAGAAGTACGTGCGTGCGGTCGTCGACGGGGCCGGGGCGATGCCGGTGCTGCTGCCGCTGCTGCAGCCGGCCGTCGACCCGGCGCAATGGCTGGATCATCTCGACGGCCTGCTGCTGACCGGGTCGGTCAGCAACATCGAGCCACATCACTACGGCAACGAGCCGAGCTGGCCGGGCAACCTGCACGATCCGGCGCGCGACGCCGCGACCCTGGCGATGATCCCGCAGGCGCTGGCGCGCGGCCTGCCGATCCTGGCGATCTGCCGCGGCTTCCAGGAGGTCAACGTCGCCTTCGGCGGCAGCCTGCACCAGAAGGTGCACGAGGTGCCCGGGCTGGACGACCATCGCGAGGACGTGGAGGCGGCACTCGAAGTGCAGTACGGGCCGGCGCACCCGGTGCGCCTGCAGGCCGGCGGCCTGCTGGCCGGGCTGGCCGGTGCGCCGGAGGTGCGGGTGAACTCGCTGCACGGGCAGGGCGTGGCCCGGCTGGGCGAAGGGCTGGCGGTGGAGGCGGTGTCGCCGGACGGCCTGATCGAGGCCTTCAGCGGCACCGGCCCGACGTTCCTGCTCGCGGTGCAGTGGCACCCGGAATGGCGCGTCACCGAGAACCCGTTCTATCAGGGTATTTTCCGATTGTTCGGCGCGGCCTGTCGCCGCCATGCCGAGCAACGCACGCACTGA	MAVPPLVGLPTDRKMIGAHPFLATGEKYVRAVVDGAGAMPVLLPLLQPAVDPAQWLDHLDGLLLTGSVSNIEPHHYGNEPSWPGNLHDPARDAATLAMIPQALARGLPILAICRGFQEVNVAFGGSLHQKVHEVPGLDDHREDVEAALEVQYGPAHPVRLQAGGLLAGLAGAPEVRVNSLHGQGVARLGEGLAVEAVSPDGLIEAFSGTGPTFLLAVQWHPEWRVTENPFYQGIFRLFGAACRRHAEQRTH	PGPT0007640_56	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007640-puuD-K09473	NA	NA
BMS020_06856	1380	puuA_3	COG0174	Gamma-glutamylputrescine synthetase PuuA	ATGACCCCGACTCCAGCCGCTTCGCCGCTCCCCCAGGAAGACGCCGACACCCTGCAGCGCCTCGCGGACTGCGAACTGGTCGACCTGCTGCTCCCGGACACCAACGGCCTGCTGCGCGGCAAGCGCATCGCCCGCGAGGCGCTGGACAAGATCTACCGCGACGGCGTGTGCCTGCCGATGTCGCTACTGGCCGCGCACATCACCGGCGACACCGTCGAGGAAACCGGCCTGGGTTACGACATCGGCGACGAGGACCGCACCTGCCGGCCGATCCCGGGCACGCTGCGGCCGGTGCCGTGGGCGCCGCGACCGACCGCGCAACTGCTGCTGTCGATGCAGGACACCGACGGCAGCGGCATCGCCTTCAATCCGCGCAGCGTGCTCGAGCGGGTGCTGGCGCGGATGCGCGCGCGCGGGCTGAACCCGGTGCTGGCGGTGGAGCTGGAGTTCTACCTGTTCGATGCCGCACCCGATGCCCGCGGCCGCCCGCAGACCGTGCGCAACCCGGCCACCGGCCTGCGCAGCGACAGCACCCAGGTCTATTACATGCCGGAGCTGGACGAGCATCGCGGCTTCACCGACGCGGTCAGCGCCGCCTGCCAGGCGCAGCGCATTCCCGCCGACACCGCGGTGGCCGAATACGCGCCGGGGCAGTTCGAGATCAACCTCAAGCACCGCGACGATGCCCTCGCCGCCTGCGACGACGCGCTGCTGCTCAAGCGCACCGTCAAGTCCATCGCCCAGCAGCAGGGCCAGCTCGCCAGCTTCATGGCCAAGCCGTTCGCCGGCCAGGCCGGCAGCGGCATGCACCTGCACGTGAGCCTGCTCGATGCCGCCGGCCGCAACGTGTTCGCCAGCCCGCCGGGCGCGCCCGCGCCGCTGCTGCGCCACGCGCTGGCCGGACTGCAGCGGACCATCGCCGATGCGCTGCTGCTCTTCGCGCCGCACGCCAACAGCTATCGACGCTTCGTGCCGAACGCGTTCGTGCCGCTCAACGACGCCTGGGGCTACAACAACCGCACCGTGGCGCTGCGCATCCCGCACAGCGACGAGGCCAACACCCGCATCGAGCACCGCATCGCCGGCGCCGACGCCAATCCCTACCTGGTCGCCGCGGCGGTGCTGGCGGCGATGCTGGCCGGCATCGAACAGGGCGACGAACCCGGGCCGCCGGTGACCGGCAACGCCTACGAGCAGCTGCCGACCCAGACCCCGTCGTGGTCGCAGGCGATCGCCGACTTCCTCGCCAGCGACTTCATCGCCGAGGCGCTGGGGCCGAGCTTCCGCCACGTCTACGGCCAGCAGAAGCGCCGCGAGCTGCAGGACTTCCAGGCCCAGGTCGGCGACCTGGACTACGCGTGGTACCTGCGCACGGTGTGA	MTPTPAASPLPQEDADTLQRLADCELVDLLLPDTNGLLRGKRIAREALDKIYRDGVCLPMSLLAAHITGDTVEETGLGYDIGDEDRTCRPIPGTLRPVPWAPRPTAQLLLSMQDTDGSGIAFNPRSVLERVLARMRARGLNPVLAVELEFYLFDAAPDARGRPQTVRNPATGLRSDSTQVYYMPELDEHRGFTDAVSAACQAQRIPADTAVAEYAPGQFEINLKHRDDALAACDDALLLKRTVKSIAQQQGQLASFMAKPFAGQAGSGMHLHVSLLDAAGRNVFASPPGAPAPLLRHALAGLQRTIADALLLFAPHANSYRRFVPNAFVPLNDAWGYNNRTVALRIPHSDEANTRIEHRIAGADANPYLVAAAVLAAMLAGIEQGDEPGPPVTGNAYEQLPTQTPSWSQAIADFLASDFIAEALGPSFRHVYGQQKRRELQDFQAQVGDLDYAWYLRTV	PGPT0000645_6771	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
BMS020_06857	1293	puuB_2		Gamma-glutamylputrescine oxidoreductase	ATGGACCCCGCCGCGCACGCCAGCCGCTATCCCGACAGCTGGTATGCGGCCAGCGAAGCGGCGCTGCCGCGCCAGCCGGCGCTGCACGGCCGCGAACGCGCCGACGTGTGCATCCTCGGCGCCGGCTACACCGGGCTGACCTGCGCGCTGGCGCTGGCCGAAGCCGGGCACCGGGTGACGGTGCTGGAAGCGCACCGCATCGGCTGGGGGGCGTCCGGCCGCAACGGCGGCCAGGCCATCGTCGGCTATGGCTGCGAGCAGGACACGCTCGAACAGCTGCTCGGCATGGCCCAGGCGCGCCTGCTGTTCGACTTCTCGCGCGACGGCATGCGCCTGCTGCGCGAACGCATCGCCCGCCACGGCATCGCCTGCGACTGGCGCGACGGTCACGCCCACGTGCCGCTCAAGCCGCGCCAGGAACGCGCCCTGCGCGCCGGCATCGCGCACATGGCCGAGCACTATGACTACCCGCTGCAATGGTGGGACCGCGCGCGCCTGCGCCAGGAACTGGCCAGCGAGCTGTACCTGGGCGCGATGTACGACCCGGCCAGCGGCCACCTGCACCCGCTCGCCTACGCGCTCGGCCTGGCCCGTGCCGCGCTCGCCGCCGGCGTGCGCATCTGCGAGGACTCGCCGGTGCTGCGGCTGCAGCGCGGGCCGCGGCCGGTGCTGCACACCGCGACCGGGCAGGTCGAGGCCGACTTCGCGGTGATCGCCGGCAACGCCTGGCTGCGCGGCATCGCCCCGGAGCTGGAAGCGCGGATCATGCCGGTCGGCACCTACATCGGCGCGACCCCGCCGCTCGGCGCCGAGCGCGCACGGGCGCTGATCGGCAACGACATGGCGGTGGCCGACACCAACTGGGCGCTGGACTACTACCGGCTCAGCCGCGACCACCGGCTGCTGTTCGGCGGCCGCGCCAGCTACTCCTCGCTGCCCCCGCCCGGGCTGCGCGGGCTGATGACCCGGCGCATGCACCGGGTGTTCCCGCAGCTGCGCGACGTGGCGCTGGAACAGGTCTGGGGCGGCTACGTCGACATCTCGCGCAACCGCGCGCCGCACTGGGGCCGGCTGGCGCCGAACGTCTATTTCGCCCAGGGCTTCTCCGGGCACGGGGTCGCCGCCACCGGGCTGGCCGGCCAGGTGATCGCCGAGGCGATCGCCGGCCAGGCCCGGCGCCTGGACGTGTTCGCGCGCATCCCGCACCAGCCCTTCCCCGGCGGGCGCCTGCTGCGCACCCCGCTGCTGGTCGCGGCGATGGCCTGGTACCGGCTGCGCGACCGCCTGTGGTAA	MDPAAHASRYPDSWYAASEAALPRQPALHGRERADVCILGAGYTGLTCALALAEAGHRVTVLEAHRIGWGASGRNGGQAIVGYGCEQDTLEQLLGMAQARLLFDFSRDGMRLLRERIARHGIACDWRDGHAHVPLKPRQERALRAGIAHMAEHYDYPLQWWDRARLRQELASELYLGAMYDPASGHLHPLAYALGLARAALAAGVRICEDSPVLRLQRGPRPVLHTATGQVEADFAVIAGNAWLRGIAPELEARIMPVGTYIGATPPLGAERARALIGNDMAVADTNWALDYYRLSRDHRLLFGGRASYSSLPPPGLRGLMTRRMHRVFPQLRDVALEQVWGGYVDISRNRAPHWGRLAPNVYFAQGFSGHGVAATGLAGQVIAEAIAGQARRLDVFARIPHQPFPGGRLLRTPLLVAAMAWYRLRDRLW	PGPT0007637_402	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007637-puuB|ordL-K09471	NA	NA
BMS020_06858	1299	rcsC_16		Sensor histidine kinase RcsC	ATGTCTCCGAGCACCGCCGTACGTCCTCCGCAAGACGACGCACTGCCCCAGCGCATCCTGCTGGTGGAGAACTCGCGTACGTTCACCGAAATGCTGCGCGAGGCGATCGAAACCCGGGTCGAGCTGCCGGTCACCGTGGTCTCGACCCTGGCCGAAGCCGCCCGGGTGCTGGAGGAGGAGGACGGCTGGTTCCTGGTACTGACCGGGCTGGTGCTGGTCGACGGCGACCGCGACCAGGTGGTGGAGTTCTTCGTCTCGCGCAACCTGCCCACCGTGGTGGTCAGCGGCGTCTACGACGAGGACCTGCGCAAGCGCGTGCTGCAGCAGCAGATCATCGACTACGTGCTGAAGAACGCTCCTGGCAGCATCGACTACCTGACCTGGCTGGTGCAGCGACTGGACCGCAACCGGCGCATCTCCGCGCTGGTGGTCGACGATTCGCTGTCGGCGCGCACCTATGCCGCCAGCCTGCTGTCGATGTACGGCTACAAGGTGGTGGTGGCCGCCGATGGCGCCGCCGGCCTGCAGGCGATCGAACAGAACCCGAGCATCCGCCTGGCCGTGGTCGACCAGGAGATGCCCGGCATGGAAGGGGTGGAATTCACCCGCCGCCTGCGCGGCCTGCGCACCCGCGACAAGGTCGCGGTGATCGGGCTGTCCGGGAACAACGACCCCTCGCTGATCCCGCGCTTCCTCAAGAACGGCGCCAACGACTTCCTGCGCAAGCCGTTCTCGCGCGAGGAGTTCTTCTGCCGCGTCTCGCAGAACGTGGACCAGCTGGAGCTGATCGGCACACTGCAGGACCTGGCCACCCGCGACTACCTCACCGGCCTGCCCAACCGCCGGCATTTCCTCGAGCAGAGCCAGCGCGTGCTGCCGCGGCTGCTGGCGCAGAACCAGAGCGTCACCGCGGCGATGCTCGACATCGACCACTTCAAGCACATCAACGACACCTGGGGCCACGAGGCCGGTGACGACGCGTTGCGTGCGGTGGCCTCCACCGTCTCCAGCCACGCCCGCGCGCAGGATTTGATCGCGCGCTTCGGTGGCGAGGAGTTCTGCCTGCTGGTGCCGGGCCTGGAAGGCGCCGCCGCGGCCAACTACTTCGAGGCGCTGCGCGCGCGGATCGAGGCGCTGCGCATCCCGGTGGCCGGCGAGGTGCTCACCGTGACCGTCAGCATCGGCCTGTGCAGCGCACGAACGCAGAACGTCTCGCTGCACCACATGCTCAACGACGCCGACAAGCACCTGTACCTGGCCAAGGCCGGCGGCCGCAACCAGGTGCGGTTCGCCGCCTGA	MSPSTAVRPPQDDALPQRILLVENSRTFTEMLREAIETRVELPVTVVSTLAEAARVLEEEDGWFLVLTGLVLVDGDRDQVVEFFVSRNLPTVVVSGVYDEDLRKRVLQQQIIDYVLKNAPGSIDYLTWLVQRLDRNRRISALVVDDSLSARTYAASLLSMYGYKVVVAADGAAGLQAIEQNPSIRLAVVDQEMPGMEGVEFTRRLRGLRTRDKVAVIGLSGNNDPSLIPRFLKNGANDFLRKPFSREEFFCRVSQNVDQLELIGTLQDLATRDYLTGLPNRRHFLEQSQRVLPRLLAQNQSVTAAMLDIDHFKHINDTWGHEAGDDALRAVASTVSSHARAQDLIARFGGEEFCLLVPGLEGAAAANYFEALRARIEALRIPVAGEVLTVTVSIGLCSARTQNVSLHHMLNDADKHLYLAKAGGRNQVRFAA				NA	NA	NA	NA	NA
BMS020_06859	462		COG2703	Bacteriohemerythrin	ATGGCGATCCTGGTCTGGCAGGACGACCTCAACACCGGCATCGAGGTGATCGATCACCAGCATATGCGCATCGTCGAGATGATCAATCATCTGCACGTGGCTCAGAAGAGCATGGAGCGGATGGCGGTCGCCGAGGTGATCGACGAGCTGGTCGACTACACGATGTCGCACTTCGCCTTCGAGGAGGAGCTGATGGAGGAAGCCGGCTACCCCTTCAGCCATGCGCACAAGCGCGTGCACGAGATCTTCGGCAAGCGCGTGATGGAATACCGCATGCGCTTCCAGGCTGGCGAGGACGTCACCGACGAGCTGCGCAACATGCTGGCGCGCTGGCTGTTCAACCACATCCGCGGCGACGACAAGGCCTACGCGGACTCGGTGAAGAAGCACCTCAACCAGTTCACCCGCGAGCACCAGGACGGCGGCTGGCTGAGCCGCACGCTGAAGCGGCTGTTCAACTGA	MAILVWQDDLNTGIEVIDHQHMRIVEMINHLHVAQKSMERMAVAEVIDELVDYTMSHFAFEEELMEEAGYPFSHAHKRVHEIFGKRVMEYRMRFQAGEDVTDELRNMLARWLFNHIRGDDKAYADSVKKHLNQFTREHQDGGWLSRTLKRLFN				NA	NA	NA	NA	NA
BMS020_06860	1347	yhjE_2		Inner membrane metabolite transport protein YhjE	ATGCGCGCGCATGCCGGGCGCTTCTGCCAGAATCGCAAGGATCGTCCCAAGATCCACCTCATGAGCGTCACCGCAACGATCCCTGCGCCGGCCAATTCGCCCGGTCGCGTGCTGCTGGCCAGCCTGGTCGGCACCACCATCGAATTCTTCGATTTCTACATCTACGCCACCGCCGCGGTGCTGGTGTTCCCGCACCTGTTCTTCCCGCCGGCCAGTGCGACCGCGCAGCAGCTCGCCTCGCTGGCGACGTTCGCCGTGGCGTTCGTCGCGCGCCCGGTCGGTTCGGCGGTGTTCGGCCATTTCGGCGACCGCATCGGGCGCAAGGCCACGCTGGTCGCGGCGCTGCTGACGATGGGCATTTCCACCGTGGTGATCGGCCTGCTGCCGACCTACGCGCAGATCGGCGTGCTGGCGCCGGCGTTGCTGACGCTGTGCCGGTTCGGCCAGGGCATCGGCCTGGGCGGCGAGTGGGGCGGGGCGGTGCTGCTGGCCACCGAGAACGCGCCGCCGGGCAAGCGCGCCTGGTACGGCATGTTCCCGCAGCTGGGCGCGCCGCTGGGCTTCCTGCTGTCGGCGTCGACCTTCCTGCTGATGGGGGCGTTGCTGTCGCAGGAGCAGTTCATGGCCTGGGGCTGGCGGGTGCCGTTCCTGGCCAGCGCACTGCTGGTGATCGTGGGCCTGTGGGTGCGCCTGAGCATCACCGAGACCCCGGATTTCCAGCGTGCGCTGGACAGCAGCAAGCCGGTGCGGGTGCCGTTCGGCACCGTGGTCGGGCGCCATCCCGGCGCGCTGCTGGCCGGTACCGTCGGCGCGCTGGCGACCTACGTGCTGTTCTACCTGATGACGGTGTTCGCGCTCGGCTATGGCACCACTGCGCTCGGCTACAGCCGCCAGCAGTTCCTGCTGCTGCAGATGGCCGGCATGCTGTTCTTCGCGCTGGGCATTCCGCTGTCGGCGCTGTACGGCGTGCGTACCAGTGCGCGCCGGGCGATGCTGGTCGCCAGCGCCTGCATCGCGGTGTTCGGGCTGCTGTTCCCGGTGCTGTTCCAGGCCGGCCATCCGCTGCAGGTGCTGGTGTTCCTGGCGCTGGGGCTGTTCGTGATGGGCTGTACCTACGGTCCGGTCGGCACGCTGCTGTCGGAGCTGTATCCGGTCGAGGTGCGTTACACCGGCTCGTCGCTGTCGTTCAACCTGGCCAGCGTGCTGGGCGCGGCGCCGGCCGCGCCGCTGGCGACCTGGCTGGCGGCCAGCCACGGCCTGCACGCGGTCGGCTGGTATCTGAGCGCCGCAGCGCTGGTGACGTTGCTGGCGCTGCTGTTCGCGCGTCCGCACGCCAGCGTGGGGTGA	MRAHAGRFCQNRKDRPKIHLMSVTATIPAPANSPGRVLLASLVGTTIEFFDFYIYATAAVLVFPHLFFPPASATAQQLASLATFAVAFVARPVGSAVFGHFGDRIGRKATLVAALLTMGISTVVIGLLPTYAQIGVLAPALLTLCRFGQGIGLGGEWGGAVLLATENAPPGKRAWYGMFPQLGAPLGFLLSASTFLLMGALLSQEQFMAWGWRVPFLASALLVIVGLWVRLSITETPDFQRALDSSKPVRVPFGTVVGRHPGALLAGTVGALATYVLFYLMTVFALGYGTTALGYSRQQFLLLQMAGMLFFALGIPLSALYGVRTSARRAMLVASACIAVFGLLFPVLFQAGHPLQVLVFLALGLFVMGCTYGPVGTLLSELYPVEVRYTGSSLSFNLASVLGAAPAAPLATWLAASHGLHAVGWYLSAAALVTLLALLFARPHASVG	PGPT0002956_698	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_SHIKIMATE_TRANSPORT,PGPT0002956-shiA-K08172	NA	NA
BMS020_06861	954	cheB_4		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGACGGTTCCGGACCTGATCGCGGACGCGCGACGCGCACACCCGCGCGTCCTCGTGGTGGACGATCAGCCGCTCAACATCCGCGCCATCCACGAAGCCCTGCGCGGCGAATGCGAGGTGCTGATGGCCACCGGCGGCGTGGCGGCGCTGGCGCTATGCCGGCGCGACCAGCCGGACCTGGTGCTGCTGGACGTGCTGATGCCGGACCTGGACGGCCACGAGGTCTGCCGCCGGCTCAAGGCCGATCCGCTCACCGCCGACATCCCGGTGATCTTCATCACCGGGCAGCAGGGCGCGGAGGAGGAGGTGGAGGGGCTGGCGCTGGGCGCGGTCGACTTCATCTCCAAGCCGATCAATCCGGTGGTGCTGCGCGCGCGGGTGCGCACGCACCTGCTGCTGAAGTTCCAGACCGACCGGCTGCGCTCGCTGGTAATGCTTGATGGCCTGACCGGCGTGGCCAACCGGCGACGCTTCGATGAGGCGCTCGCGACGGCCTGGAGGCAGGCGCAGCGCGACGCCACGCCGTGCGCGCTGCTGATGCTCGACGTGGATTTCTTCAAGCGGTTCAACGACCGCTACGGCCATCAGGCCGGCGACGATTGCCTGCGCGCCGTCGCCGCGGCGCTGCAACAGGCGTTGACGCGCCCGCTCGACCTGGCCGCCCGCTACGGCGGCGAGGAATTCGTCTGCCTGTTGCCGGCAACTGCCGCCGACGGCATGCGCAAGGTCGGCGAGCGGCTGCTGCAGGCGGTGCGCGCGCTGGCGATCGAACATGCCGATTCGAGCGCGGCGGACGTGGTCACCATCAGCGTGGGCGGCGCGGTGGCGTACCCGGCGCAGGGGGGCGATGCAGCCCAGCTGGTCGAGGCCGCCGATGCCGCGCTGTACCGGGCCAAGCAGGGCGGTCGCGCCCGGGTGTGCCTGGACGTGGAGGTCGAAGCGCAGCCGGCCTGA	MTVPDLIADARRAHPRVLVVDDQPLNIRAIHEALRGECEVLMATGGVAALALCRRDQPDLVLLDVLMPDLDGHEVCRRLKADPLTADIPVIFITGQQGAEEEVEGLALGAVDFISKPINPVVLRARVRTHLLLKFQTDRLRSLVMLDGLTGVANRRRFDEALATAWRQAQRDATPCALLMLDVDFFKRFNDRYGHQAGDDCLRAVAAALQQALTRPLDLAARYGGEEFVCLLPATAADGMRKVGERLLQAVRALAIEHADSSAADVVTISVGGAVAYPAQGGDAAQLVEAADAALYRAKQGGRARVCLDVEVEAQPA	PGPT0015900_620	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-CELL_FATE_CONTROL	PUTATIVE-CELL_FATE_CONTROL-1,PGPT0015900-pleD-K02488
BMS020_06862	4497	rcsC_17		Sensor histidine kinase RcsC	ATGGTGCGGGCGAAGTCAGGGGGGGGCGGTGCGCGTAATCCGGCGTTGCGGCTGGGAGGCGTCGTCGCCTGTCTGGGCTGCCTATTCACGTTGCTTGCTGCGCTGGGCCTGCAGCGCGCCAACGAGCGTGCGGTGCGGGTGGCGCTGGAGACCACCGCCACCCACAGTGCCGAAGAGGTCGTCCGCCATGTCCTGCATTACCGCGATGGCCTGCGCGGCCTGCGCGGCGCGGTCCTCGCCGCCGGCACCGACATGCGCCACGAGCAGCTGCAGCGTTACTGGCACAGCCGCAACCTGACCGCCGAGTTCGCCGGCTCGATCGGCTTCGGCTTCGTGCGCTGGCTGCCCGACGACGCCGATCTGCCGGCATTCGAACGGCAGATGCAGGCCGCCGGCTGGCCCGGCTACCAGGTACACGGCTTCGCCCCCAATGCGGGGGCGCATTTCGTCGTGCAGTACATCGAACCGCTGGAGAGCAACCGCGTCGCGCTGGGGCTGGACCTGGCCTCGGAGCCGAACCGGCGCAAGGCCGCGCTGGAGGCCGCACTGGCCGGCGATGCCCGGCTGACCGGCCCGGTGAGCCTGCCGCAGCAGACCTTGCACGTGGACAGCACCCTGATCATGTTCCTGCCGGTCTACCGCGACGGCGTGCAGCCGGAGGGCGAGACCGAGCGCATGACCCAGCTGCTGGGCTGGACCTACACGCCGCTGGACGTGGTGCCGATGATGCAGGGGTTGCACCTGGATCCGGAGCAGGTCGACCTGCAGATCCGCGATCTGTCCCAGCGTGGCAACGCGGTCGCGTTCTACCGCAACGACCGCAAAGCGCCGGCGGCCATCGGCACCGGCGTGCATGTCACGCGCGAGGTGCTCGGGCGGCGCTGGGAGATGACCTTCGCGCCGCGTCCGGCATTCGTGGTCAAGCTCAACCTGCCGTCGCCGCTGATGATGCTGGCGATCGGTAGTGGTGGCAGCGTGCTGATCGGCCTGCTGGCCGGCGTGGTGATGCACGCACGCCGCCGCAGCCGCGAGGTGGCCAGCGGCGAGGCCAATCTGCTGGCGGTGGTGCAGAGCTCGGCCGACGGCATCATCGGCAAGACGCTGGAAGGCGTGGTCACCAACTGGAACCATGCCGCCGAGCTGCTGTTCGGCTACAGCGCCGAGCAGGCGATCGGCCGCCGCCTGCTCGACCTGATCGTGCCCGCCGAGCTGGAGCATGAGGAGTGGTCGGTGCTGGCGCGGATCAGCCGCGGCGAATTCATCCGCCACTTCGAAACGGTGCGCCGGCGCGCGGACGGCTCGCGCGTGGATGTGCTGGTCAGCGTCTCGCCGATCCGCGGCGCCGACGGGCGGATCCTGGGTGCGTCCAAGACGGTACGCGACATCAGCGCGCAGAAGGCGGCGCAGGCGCAGGTGCTGGCGCTCAACGCCACGCTGGAGTCGCAGGTCGCCGAGCGCACCGAACAGCTGAGCAAGACCAACGCGATGCTGCAGGGGGTGCTGGCCGCGGCGACCGAGGTGGCGATCTTCGCCACCGACCTGGATGGGCAGGTCATCGTGTTCAACAGCGGCGCCGAGCGCATGCTCGGCTACAGCAGTGCGGAGGTGGTCGGCGTGCTGCATCCGCGCGTCTTCCACGCCAAGGACGAGATGCGCGCGCGCGCGCTGGAGCTGGGCCGGCGCTATGGCGAGATCGTGCCGCCGGACAAGGCCTACGTCTTCGTGCCGGCGCGCGAGGGCAGCGAGGTATACGAGTGCGAGCTGGTGCGCAAGGACGGCAGCAAGGTCGCGGTGACGCGCGTGGTCACCGCGATGCGCGATGCCGCCGGGGCGACCTACGGTTACCTCAGCATCGCGCTGGACATCAGCGAGCGCAGGCGCCAGCGCGAGGCGCTGACGCGCGCGCACGACCAGCTGGCGATGGCCGCGCAGGCGGCGCAGCTCGGCATCTGGAGCTGGGAGCCGGATTCGGGCGTGCTGGAGTGCAACGAGCGCATGTGGGAGATGTACCAGTGGTCGCCGTCGCTGCGCGAGCAGACGCTGCATTACGCCGACTGGCGGGCCAAGGTGCACCCGGAGGACATCGGCGCCACCGAGGAGGCGATGCGCCTGGCGCTGCGCGGTCTGCAGCCGTACGCGCCGATCTTCCGCATCCGCCCGGCCGTCGGCGTGATCCGGCACATCCATGCCGGTGCGTACACCGAGCGCGATGCGGACGGCCAGGTGACCCGCGTGGTCGGCATCAACCGCGACATCACCGAACAGCTGGCGCTGGAGCGGCAGCTGCGCGAGGAGAAGGTGCGTGCCGATGCCGCCAGCGAGGCCAAGTCCTCGTTCCTGGCCAACATGAGCCACGAGATCCGCACGCCGATGAACGCCGTGCTCGGCATGCTGCAGCTGCTCGAGCGCAGTGCGCTGGATGCACGCCAGGGCGACTATGTGGCCAAGGCGCAGAGCGCCGGGCGCTCGCTGCTGGCGCTGCTCAACGACGTGCTGGACTATTCCAAGATCGAGGCGGGCAAGCTGCAGCTGGATCCGCATCCGTTCTCGGTCGACGTGCTGCTGCGCGACCTTGGCATCGTGCTGTCGGGCAACCAGGCCGGCAAGGACATCGAACTGGTCTACCGGATCGCGCCGGACACGCCGCGCTGCCTGGTCGGCGACAGCCTGCGCCTGCAGCAGGTGCTGATCAATCTGGCCGGCAACGCGATCAAGTTCACCCAGGCCGGGCACGTGCTGCTCGATGTCGCGGTGGTGGCGCGCGAGGACGATGCGCTGCGGTTGCGGGTGGCGGTGGAGGACACCGGCATCGGCATCAGCGTCGAGCAGCGCGAGCGCATCTTCCACAGCTTCACCCAGGCCGAAGCATCGATCAGCCGCCGCTATGGCGGCACCGGCTTGGGGTTGGTGATCTGCAGGCGGCTGGTGGCGATGATGGGCGGCGAGCTGTGCGTGGACAGCGTGCCTGACCGGGGCAGCCGGTTCTGGTTCGAGGTGCCGCTGCGGGTGGCACCGGAGGATTGCGAGGCATGCACGGTCGAGCGCCTGCCGGCGCCGCAGCGGGTCCTGGTCGTCGACGACAGCGCGCTGGTGCGCGAGGTGCTGGTCAATGCGCTGCTGGCGCTGGGGTGGCGGGTGGACCAGGCCGGTGGCGGCGCCGCGGCGATCGCCGCGGCCGCGCAGGCGCTGGCCGAGGGCGCGCCCTACGACGCGGTGGCGCTGGACTGGCGCATGCCGGACATGGACGGCATGGACGTGGCGCGCGGGCTGGTCGCGCTGTATCCGCAGGGCGGGCGCCCGCGCATCGTGGTGACCACCGGCTATGGGCGCGAACTGCTGGACGACCTGCAGGCCGAGCCGCACTGGCCATTCGACGAGTTCCTGGTCAAGCCGGTGACGCCGGCGCAGCTGGCCGCGGCGCTGTCCGGGCACCGCCAGGGCCCGGCACCGAGCGCGCTGCCGGCGTACGCCGCGCTGGACGGCCTGCACGTGCTGGTGGTCGAGGACAACGCGCTGAACCGGCAGGTCGCCGCCGAACTGCTCGGCAGCGAGGGCGCGCGCGTGGACCTGGCCGAAGGCGGGCTGGAAGGCGTGGCGCGCGTGCTGGAAGGACACCCGGTGCCGGACGTGGTGATCATGGACATGCAGATGCCCGATATCGACGGGCTCGAGGCGACCCGGCGGATCCGCGCCGATGGCCGCTTCGCCGCGTTGCCGATCCTGGCGATGACCGCCAACGTGGCGCCGGCCGATGTGCAGGCCTGCCTCGAGGCCGGCATGAATGCCCATATCGGCAAGCCGGTGGACCTGCGCGAGATGGTCGAGGCGCTGCGCCTGCTGTGCCCCGGGCGCGTGGCCGCCGCCGTGCAGGCGCCTGCGGCCGCCGCCGCGGACGAGGTGGCGACGGCCGGGCCGATCGATGGCGCGGCGCTGATCCTGGCCCGGTTCGGCGGCGATGCGGCGCTGTTCACGCGCATGCTCGGACAGTTCTCGCTGGATGCGCCGACCCTGGTGGTACGTGCCGCGGCGACCTGGCGCAGCGGCGAGGACGCGCAGACCGCTGCCGCGCTGCACGCGCTGAAAGGCACCGCGGCGACGATGGGCGCGCGCCAGCTCGCTGCCGCCAGCGGCGAACTCGAAGCCACGCTCAAGCGCGGCGGCCAGCTTGCCGATGACTGTTTCGAACAGCTCGAACGCGACCTGGATGCCGCATTGGCGGCGCTGCGCGCATGCATGGCGGCAGCGCCGGCGCCGGCGCCGGCGACCGGGCGCGTGCATGGCGCGCCCGGCGGCAGCCAGGTGCTGGAGCGGCTGCAGCGGCTGCGGCAGCTGCTGCAGGACTCGAACCTGGAAGCGGTGGACATCGCCGCGGAGCTGCGCGAGCAGGTGGCCGGCAGTGTCGAGGCGCCGTACCACACGTTGCTGGACCAGATCGAGGCGCTGCGCTTCGACGAGGCAAGCAAGACCCTGGACACGTTGCTCGAGGAGGGCGCATGA	MVRAKSGGGGARNPALRLGGVVACLGCLFTLLAALGLQRANERAVRVALETTATHSAEEVVRHVLHYRDGLRGLRGAVLAAGTDMRHEQLQRYWHSRNLTAEFAGSIGFGFVRWLPDDADLPAFERQMQAAGWPGYQVHGFAPNAGAHFVVQYIEPLESNRVALGLDLASEPNRRKAALEAALAGDARLTGPVSLPQQTLHVDSTLIMFLPVYRDGVQPEGETERMTQLLGWTYTPLDVVPMMQGLHLDPEQVDLQIRDLSQRGNAVAFYRNDRKAPAAIGTGVHVTREVLGRRWEMTFAPRPAFVVKLNLPSPLMMLAIGSGGSVLIGLLAGVVMHARRRSREVASGEANLLAVVQSSADGIIGKTLEGVVTNWNHAAELLFGYSAEQAIGRRLLDLIVPAELEHEEWSVLARISRGEFIRHFETVRRRADGSRVDVLVSVSPIRGADGRILGASKTVRDISAQKAAQAQVLALNATLESQVAERTEQLSKTNAMLQGVLAAATEVAIFATDLDGQVIVFNSGAERMLGYSSAEVVGVLHPRVFHAKDEMRARALELGRRYGEIVPPDKAYVFVPAREGSEVYECELVRKDGSKVAVTRVVTAMRDAAGATYGYLSIALDISERRRQREALTRAHDQLAMAAQAAQLGIWSWEPDSGVLECNERMWEMYQWSPSLREQTLHYADWRAKVHPEDIGATEEAMRLALRGLQPYAPIFRIRPAVGVIRHIHAGAYTERDADGQVTRVVGINRDITEQLALERQLREEKVRADAASEAKSSFLANMSHEIRTPMNAVLGMLQLLERSALDARQGDYVAKAQSAGRSLLALLNDVLDYSKIEAGKLQLDPHPFSVDVLLRDLGIVLSGNQAGKDIELVYRIAPDTPRCLVGDSLRLQQVLINLAGNAIKFTQAGHVLLDVAVVAREDDALRLRVAVEDTGIGISVEQRERIFHSFTQAEASISRRYGGTGLGLVICRRLVAMMGGELCVDSVPDRGSRFWFEVPLRVAPEDCEACTVERLPAPQRVLVVDDSALVREVLVNALLALGWRVDQAGGGAAAIAAAAQALAEGAPYDAVALDWRMPDMDGMDVARGLVALYPQGGRPRIVVTTGYGRELLDDLQAEPHWPFDEFLVKPVTPAQLAAALSGHRQGPAPSALPAYAALDGLHVLVVEDNALNRQVAAELLGSEGARVDLAEGGLEGVARVLEGHPVPDVVIMDMQMPDIDGLEATRRIRADGRFAALPILAMTANVAPADVQACLEAGMNAHIGKPVDLREMVEALRLLCPGRVAAAVQAPAAAAADEVATAGPIDGAALILARFGGDAALFTRMLGQFSLDAPTLVVRAAATWRSGEDAQTAAALHALKGTAATMGARQLAAASGELEATLKRGGQLADDCFEQLERDLDAALAALRACMAAAPAPAPATGRVHGAPGGSQVLERLQRLRQLLQDSNLEAVDIAAELREQVAGSVEAPYHTLLDQIEALRFDEASKTLDTLLEEGA				NA	NA	NA	NA	NA
BMS020_06863	1503	puuC_2	COG1012	NADP/NAD-dependent aldehyde dehydrogenase PuuC	ATGAACGCCCCGGATTCGATCACCCGCTGGCAGACGCGCGCGGACGAGCTGTCGCTGCGCACCCAGGCCTTCATCGACGGCCGCTACGTCGATGCCGCGCACGGCGGCACGTTCGCCTGCATCAGCCCGATCGACGGCCGCGTGCTCGGCCAGGTCGCCGATGGCGGCAGCGAGGACATCGCGCGCGCGGTGGCCGCGGCGCGGCGCAGTTTCGAGGCCGGGCGCTGGGCGCAGGCCAAGCCGGTGCAGCGCAAGAAGACCCTGTTGAAGCTGGCGCAGCTGGTGGAGCGGCATGCCGAGGAGCTGGCGTTGCTGGAGTCGCTGGACATGGGCAAGCCGGTGCGCGATGCGCTGGCGGTCGACGTGGCGGCGACGGTGCGTTGCCTGAGCTGGACCGCCGAGGCGCTCGACAAGGTCTACGGCGAGGTCGCGCCGACCGGTCCGGACGAACTCGGCCTGGTCACCCGCGAGCCGCTGGGGGTGATCGGCGCGATCGTGCCGTGGAACTTCCCGCTGCTGATGGCCGCATGGAAGATCGCCCCGGCGCTGGCCACCGGCAACTCGGTGGTGCTCAAGCCATCGGAGAAATCGCCGTTGAGCGTGCTGCGGCTGGCCGAACTGGTGGCCGAGGCCGGCATCCCCGACGGCGTGTTCAACGTGGTGCCCGGTACCGGTGCCGGCGCCGGTGCGCCGCTGGCGCTGCACATGGACGTGGACGGGCTGGTGTTCACCGGCTCCACCGCGGTCGGTCGCCAGCTGCTGCAGTACGCCGGGCAGTCGAACATGAAACGCGCCTACATGGAGTGTGGCGGCAAGAGCCCGAACATCGTCTTCGCCGACGCGCCGGACCTGGACGCGGCGGCCGAGGCCGCCGCCGGCGGCATCTTCTACAACCAGGGCGAGGTCTGCACCGCGGCCTCGCGGCTGCTGGTGCAGCGCTCGATCAAGGACGCCTTCGTCGAGAAGGTGGTCGCGGCCGGGCGCAAGCTGCAGCCGCGGCATCCATTCGACGACGGCGCGGCGATGGGCGCGATGGTCGACGAGGCGCAGACCCGGCGCGTGCTCGACTACATCGCCAAGGGCAGCGAGCAGGGCGCGCGGCTGGTGCTGGGCGGCCAGCGCGCGGAGATCGTCGCCGGCGGCTGCTACATCGAACCGACGGTGTTCGACGACGTCGCCCACGAGCACGTGATCTCGCGCGAGGAGATCTTCGGCCCGGTGCTGTCGGTGATCGGCTTCGACGACGAGGCCGATGCGCTGCGCATGGCCAACGACAGCCCGTACGGGCTGGCGGCCGGGGTGTGGACGCGCGACATCGCCCGCGCGCACCGGGTGGCGCGGCGGCTGCGCGCCGGCAGCGTCTGGGTCAACTACTGGGACGGCGGCGACATGACCGCGCCGTTCGGCGGCTACAAGCAGTCCGGTAACGGCCGCGACAAGTCGCTGCACGCCTTCGACAAATACACCGAGATCAAGGCGACCTGGATCAACCTGGCCGACTGA	MNAPDSITRWQTRADELSLRTQAFIDGRYVDAAHGGTFACISPIDGRVLGQVADGGSEDIARAVAAARRSFEAGRWAQAKPVQRKKTLLKLAQLVERHAEELALLESLDMGKPVRDALAVDVAATVRCLSWTAEALDKVYGEVAPTGPDELGLVTREPLGVIGAIVPWNFPLLMAAWKIAPALATGNSVVLKPSEKSPLSVLRLAELVAEAGIPDGVFNVVPGTGAGAGAPLALHMDVDGLVFTGSTAVGRQLLQYAGQSNMKRAYMECGGKSPNIVFADAPDLDAAAEAAAGGIFYNQGEVCTAASRLLVQRSIKDAFVEKVVAAGRKLQPRHPFDDGAAMGAMVDEAQTRRVLDYIAKGSEQGARLVLGGQRAEIVAGGCYIEPTVFDDVAHEHVISREEIFGPVLSVIGFDDEADALRMANDSPYGLAAGVWTRDIARAHRVARRLRAGSVWVNYWDGGDMTAPFGGYKQSGNGRDKSLHAFDKYTEIKATWINLAD	PGPT0007645_57	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007645-puuC|kauB-K12254	NA	NA
BMS020_06864	282			hypothetical protein	ATGGCGCCGGCGCTGCGCCGTCAGCGGGCGCGCCGCGAACGCCGGCTGCGCCGGCGGCTGCGCTGGCAGCAGCTGCGCCTGGCCGGTCGCCGCGCGGCGCTGCCGGCACTGGCGGCGACGCTGCTGTGCGCGGTGCTGGCGTGGTGCGCCGGGATCGGCCCGGAACAGCCGCTGCGGCTGCTGCTGCGTTGCCTGGCCTGGATCGGCCTGCCGCTGTTCCTGCTGCTGCGCTGGCGCCTGGCCGGGCGCCGGCGGCGCGGCGGGCGCATCATCGAAGCCTGA	MAPALRRQRARRERRLRRRLRWQQLRLAGRRAALPALAATLLCAVLAWCAGIGPEQPLRLLLRCLAWIGLPLFLLLRWRLAGRRRRGGRIIEA				NA	NA	NA	NA	NA
BMS020_06865	240	trg	COG0840	Methyl-accepting chemotaxis protein III	ATGGCCGAGATCTCCGCCGCCTCGCAGGAACAGTCCTCGGGCATCGAACAGGTCAACCAGACCGTCACCCAGATGGACGAGACCACCCAGCAGAACGCCGCGCTGGTCGAGGAAGCCACCGCCGCCGCACGCTCGATGGAGGAGCAGGCCAACCAGCTGGCCAGCGCGGTGGCGGTCTTCCAGATCGACACCGGCGGCTTCAGCCCGCAACGCAGCTTCGCGCCACGTCTCGTGGCCTGA	MAEISAASQEQSSGIEQVNQTVTQMDETTQQNAALVEEATAAARSMEEQANQLASAVAVFQIDTGGFSPQRSFAPRLVA	PGPT0015710_2106	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
BMS020_06866	2208			hypothetical protein	ATGTCCAACGCCAGCCACGCGCACGCCATCACGGACGCAGAACCCTATGCCCACTTGCGAAAGCTCGCCGCCACCGCCGACACCCTGTGCCAGGGCGCGGCGGCGGTCCTCGCCCTGGCCTCGCTTGGCCTTGCATTCACAGGTGGGGGCTGGGGCGCGTTCGCGTTGCTGGTGGTGCCCGCGCTGCTGGCGACCGTGGCTGCCGCACGCCTGCTGCCGACCTCGCGACTGACCCGCGTGGTCGCGGCGCTGGCGCTGGCGGTCCAGGCCGGGGTGCTGATGAGCCAGGCCCACGGCTACCCCGAAGTGAACTTCGGCGCGCTGCTGCTGATTGCGCTGATGCTCAGCTATCGCGACTGGCTTCCGATCGCGGTACTCACCGGCGCACTCTGCCTGCACCACGTGGCGTTCTTCATCGCAGTTCCGGCTGGTAGCGCTCACAGCCCGTTCCCGGCCGGGGTCGGTGCCGGCGAGGTCACCATCCAGGTGCTTTATTTCGTGCTCGCCGGCGCGGTGCTCGCGGCGATGGCCCGCCAGGGCCGCCGCCAGCTGCTGGCCTACGGTCACAGCGCAGGCGACCTGGTCAAACTTTCCGAGGCGGTGGCCGAGGAAGCGGCGATCCCGGTCCACATGACCCAGCTGAGCTTCCCGCCGCACTCGGTAGCCTCGGCCCTGCTCGGCGCCGCGCGCCAGCTGCAGCGCCACCAGGATGGCGAGCATGGCGAGCGCCGCGAGAACCTGCGCGTCCGCACCGCACTGGACAGCGTCACCACCAACGTGATGATCGCCGACGCCGACCGCAACATCGTCTACGTCAACAAGCCGCTGCTGGCGATGCTGCGCAATGCCGAGCAGGACCTGCGCCGTGCCCTGCCCACCTTCGACGCCAGCAACCTGATCGGCCAGAACATCGACCAGTTCCATCGCGACCCGGTCCGCCAGGTCAAGATGCTGGCCGAGCTGAAGGACACGTTCCGTACCCAGATCAAGGTCGGCGGGCGGGTGATGCGGTTGATCATCAACCCGATCATCACCAGCGACGGCCGCCGCGAGGGCTTCGTGGTGGAATGGGCCGACCGCACCGCCGAGGTCCAGGTCGAGGAGGAGCTGGCGCGCATCGTCAAGGCCGCCGCCGCCGGCCAGCTGGATGAACGCGTCCCGACCGCCGGCAAGGACGGCTTCTTCCTGCAGCTGGCGCAGCAGCTCAACGGCCTGCTGGACAACAACGCCGACGTGCTGGCGCAGATCTCGCGCCTGCTGTCGTCGCTGGCTGGCGGCGACCTGACCGCGCGCATGCGCGGCGACTTCCACGGCCTGTTCGCGCAGATCCGCGACGATGCCAACGCCACCGCCGACAAGCTGGCCGGCATCGTGCGCCGGATCAAGGACGCCTCGCTGATGATCAACACCGCAGCAGGCGAGATCTCCTCCGGTAACCAGGACCTGGCCCGCCGCACCGAGCAGCAGGCCGCCAACCTGGAAGAGACCGCCGCCTCGATGGAGGAACTCACCTCCACCGTCAAGCAGAACGCCGACCACGCCCAGCAGGCCAACGAACTGGCGATCGGCGCGGCCGGCGTGGCCCGCGACGGCGGCGGCGTGGTCACCAAGGTGGTGGACACCATGACCGACATCGAGGCCTCCTCGAAGAAGATCGCCGAGATCATCAGCGTCATCGACGGCATCGCGTTCCAGACCAACATCCTCGCGCTCAATGCCGCGGTGGAAGCCGCGCGCGCCGGCGAGCAGGGCCGCGGCTTCGCCGTGGTCGCCTCCGAGGTGCGCGTGCTGGCGCAGCGCTCGGCCAATGCCGCCAAGGAGATCAAGACCCTGATCGAGGACTCGGTCGAGCGCATCGGCAGCGGCTCGGCGCTCGCCGGCCAGGCCGGGCGCACCATGCAGCAGATCGTCGCCAGCGTGCAGCGCGTCACCGACATCATGAGCGAGATCGCCAGTGCCTCGCGCGAGCAGGCCGCCGGCATCGGCCAGGTCAGCCAGACCATCAACAACATGGACCAGTCCACCCAGCAGAACGCCGCGCTGGTCGAGGAGGCCACCGCCGCCGCCCGCTCGATGGAAGAGCAGGCCGGGCAACTGGTCGATGCGGTGGCGCTGTTCCACCTCGATGGCGATACCCGCGGGGGCACGGATGGCCATGGCGGCTCAAGAATCCCTGAAACGGCCGATATGGGAGGCAGGCCCGCGTAA	MSNASHAHAITDAEPYAHLRKLAATADTLCQGAAAVLALASLGLAFTGGGWGAFALLVVPALLATVAAARLLPTSRLTRVVAALALAVQAGVLMSQAHGYPEVNFGALLLIALMLSYRDWLPIAVLTGALCLHHVAFFIAVPAGSAHSPFPAGVGAGEVTIQVLYFVLAGAVLAAMARQGRRQLLAYGHSAGDLVKLSEAVAEEAAIPVHMTQLSFPPHSVASALLGAARQLQRHQDGEHGERRENLRVRTALDSVTTNVMIADADRNIVYVNKPLLAMLRNAEQDLRRALPTFDASNLIGQNIDQFHRDPVRQVKMLAELKDTFRTQIKVGGRVMRLIINPIITSDGRREGFVVEWADRTAEVQVEEELARIVKAAAAGQLDERVPTAGKDGFFLQLAQQLNGLLDNNADVLAQISRLLSSLAGGDLTARMRGDFHGLFAQIRDDANATADKLAGIVRRIKDASLMINTAAGEISSGNQDLARRTEQQAANLEETAASMEELTSTVKQNADHAQQANELAIGAAGVARDGGGVVTKVVDTMTDIEASSKKIAEIISVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVASEVRVLAQRSANAAKEIKTLIEDSVERIGSGSALAGQAGRTMQQIVASVQRVTDIMSEIASASREQAAGIGQVSQTINNMDQSTQQNAALVEEATAAARSMEEQAGQLVDAVALFHLDGDTRGGTDGHGGSRIPETADMGGRPA	PGPT0015710_2432	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
BMS020_06867	786	ycgR_2	COG5581	Flagellar brake protein YcgR	ATGTCACAGGGAAATGCGTCCGAAGCCGAACATGGCGCCCCGCACGAAACGGCGGAAGGCGAGGAAAAGTATCTGCTGCGCAACCGCCGCCAGATCCGCGGCCTGCTGCAGTCCATGATCGACAAGCGCGCCGTGGTGACCGCCCATGTCGGCGGCCGCGACCAGTCCTTCGCCACCGCGGTGCTGGAACTGGACGAGGACGACGAGTGGCTGCTGCTGGACGGCAGCACCAACGAGCCGTCCAACCGCGCCGCCGAGGCGGCCGGGCACCTGCTGTGCTTCGCCCAGCTGGAAAAGGTGCGGGTGCGGTTCCGCATCGAGGGGCACGAGCGGGTCGAGCCGGACGGGCGCGTGGCATTCCGCGCGCCCCTGCCGGAGACGCTGTACTACCTGCAGCGGCGCGAATACTTCCGCCTGGAGACGCCGATCACCGATTCGCCGACCTGCCGGATCCGCCGCGACGCCGAAGACGGCGGCGGCGAGCTGGAACTGCGGGTCATCGACATCAGCGGCGGCGGCCTGGCGGTGCAGCTGACCTCGGACATGCCGATGCTGCAGCTCGACAAGACCTACTTCAACTGCGTGCTCAGCCTGCCTGAGCACGCCCCGATCCAGCTGCCGCTGACGGTGTGCAGCCAGTTCCGCGGCACCCTGCCTAATGGTCAGGATTACGTGCGCGTCGGCATCCAGTTCGCCGACCTGCCCCGCGGCGCCGACGAGGCGATCCAGCGCTACATCTTCCGCGTCGAGCGCCAGCGCAACGCCCGCAAGAGCGGCGTGTTCTGA	MSQGNASEAEHGAPHETAEGEEKYLLRNRRQIRGLLQSMIDKRAVVTAHVGGRDQSFATAVLELDEDDEWLLLDGSTNEPSNRAAEAAGHLLCFAQLEKVRVRFRIEGHERVEPDGRVAFRAPLPETLYYLQRREYFRLETPITDSPTCRIRRDAEDGGGELELRVIDISGGGLAVQLTSDMPMLQLDKTYFNCVLSLPEHAPIQLPLTVCSQFRGTLPNGQDYVRVGIQFADLPRGADEAIQRYIFRVERQRNARKSGVF	PGPT0016210_72	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|CRP_SIGNALLING_PATHWAY,PGPT0016210-ycgR-K21087	NA	NA
BMS020_06868	486	cheW_3	COG0835	Chemotaxis protein CheW	ATGAACGACAATACCCAGACCGCCGGCAAGGGCGGTGAATTCCTCAGCTTTGCCCTCGGCGAAGAGCACTACGGCGTGGACATCCTCAAGGTGCAGGAGATCCGCGGCTACGACGCGGTGACCCGCGTGCCGGACTCCCCGGCCTACATCAAGGGCGTGATCAACCTGCGCGGCACCATCGTGCCGGTGATCGACCTGCGCCTGAAGCTGCGCCTGAAGGAAGCCCGCTACGACGCCTTCACCGTGATGATCGTGCTCAACGTCGAGGACCGCGTGGTCGGCATCGTCGTCGACAGCGTCTCCGACGTGATCCCGCTGGCGGACGAGCAGATCCGCCCGACCCCGGAATTCGGCGCCGCCGTGGACACCCGTTTCATCTCCGGCATCGGCACGCAGGACGACCGCATGCTGATCCTGCTGGACATCGAGACCCTGCTCGACAGCGCCAATCTGGTGCGCGACGACCTGGCCGAAGAGGCCGCTTGA	MNDNTQTAGKGGEFLSFALGEEHYGVDILKVQEIRGYDAVTRVPDSPAYIKGVINLRGTIVPVIDLRLKLRLKEARYDAFTVMIVLNVEDRVVGIVVDSVSDVIPLADEQIRPTPEFGAAVDTRFISGIGTQDDRMLILLDIETLLDSANLVRDDLAEEAA	PGPT0015680_3349	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015680-cheW-K03408	NA	NA
BMS020_06869	372			hypothetical protein	ATGAAGTCCCTGCTCCCGCTCGTCCTCGCCGTCGTGTCCACCGCCGCCTTCGCCCAGTCCCAGGAAATGATCCCGCCGGAAATGGCCACCCGCTTCGTCGGCAAGGACGGCATGGTGTGCGGCAAGGTCGAGAAGGCCAAGTACGCGCAGAGCTCGGAAGGTGAGCCGACCTTCCTGTACATGGGCGGCATGTTCCCGCGCCACACCTTCTCGGCGCGCATCGCCGGCAGCGACCGCGGCAAGTTCAGCTTCCCGCCGGAATCGCTGGAGGGCAAGGACATCTGCGTCCTCGGCAAGATCCAGCGCGACGCCTCGCGCGCCGAAATCGAAGTCAGCTCGCCGTCGAGCGTGAAGCTGGCCACCATCAAGTAA	MKSLLPLVLAVVSTAAFAQSQEMIPPEMATRFVGKDGMVCGKVEKAKYAQSSEGEPTFLYMGGMFPRHTFSARIAGSDRGKFSFPPESLEGKDICVLGKIQRDASRAEIEVSSPSSVKLATIK				NA	NA	NA	NA	NA
BMS020_06870	2370			hypothetical protein	ATGCAGTGGATCAACACGTTGAAACTGAAGCCGAAACTGATGCTTGCATTCGGCATCGTCCTGGCCCTCATGCTGATCCAAGGCATTATCGCCTTCACCGGCCTAGCCTCCCTCAACAAAGCCACGGTGCAGCTGGCCGGCACCACCATGGCCAGCGTGCGCGAAGCCGGCGAGCTGCGTGGCATGCTCGGCGAGTTCCGCAACTCGTCCTACCAGGGCCTGGTGCGCGCCAGCGACACGGTCAAGGAAGAAGCCAAGACCCGCGCCACCGGTCTGCGCGCGCAGATCGAGGCCGGGATCAAGAAGTACCCGCGCCTGCTGGAGACCGCCGAGCAGAAGAAGCTGTTCGACGCCTTCGTCGCCGACTGGAAGAAGGCCGCGACCTCCTACGACAGCGTCAACGAGATGCTGGAGCTGAACCTGCCCGACGACGCCGTCGACACCTTCGTCAGCGAGACCCGCACCCTGCACAACAAGGCGCAGGACTCGCTGGCGGCGCTGATCGCCGAGGACAACAAGCTGGCGCAGGCCGCGCAGGAGAACGCCTCCTCGGTCCACGCCACCTCGGTCACCCTGACCGTGGTGATGCTGCTGGCCGGCATCGCCGGCGGCCTGGTGCTGGCGTGGATGTTCGCCAATGCGCTGGTGCGCAACATGCGCGGCGCGGTGTCGGTGGCCAACGAGGTCGCCGGCGGCAAGCTGGACGGCCAGATCGACGTGTCGGCCAACGACGAGGTCGGCGACCTGATGCGCTCGCTGCAGCGCATGCAGCGCGACCTGAAGGACCGCATCGAGCGCGAGAGCCACATCGCCGCCGAGAACCTGCGCATCCGCACCGCGCTGGACAACTCCTCCACCGCCACCTTCATCGCCGACGACCAGCGCCGCATCATCTACGCCAACGCGTCGATGCAGCAGCTGGCTGCCGCCCACGCCGAGGCGATCAGCGCCCGCGTGGCCGACTTCGACAGCAGCAAGCTGGTCGGCCAGCACGTGTCCTACCTCGGCCTGTCCGAGAGCACCGTGCAGGCCGCCATCGCCAAGCTGGAAAAGACCGGCGCGACCCAGTTCGAAGAGCGCATCGGCGACGCGGTGATCGCCCAGACCATCACCCTGATCCGCAACGCCGACGGCCGCCACGACGGCGACGTCTGCGAGTGGCGCGATCGCACCATCGAGGTCCAGGTCGAGGACGAAGTGGCCCGCATCGTGCGTGCCGCCGCCGCCGGCGACATGGACGGCCGTGTCGACCTGGCCGGCAAGCATGGCTTCTTCCTGCAGCTGGCGCAGCAGCTCAACGGCCTGCTCGACGCCAACGCTGGCAGCCTGGCGCAGGTCTCGCACCTGCTGACCGCGCTGTCGCGCGGCGACCTGACCGTGCGCATCGAAGGCGACTTCCAGGGCGTGTTCGCCCGCATGCGCGACGACGCCAACGCCACCGCCGAGCAGCTGACCGACATCGTCGGCCGCATCAAGCAGTCCTCGGTGTCGATCAACAGCGCCGCCGGCGAAATCGCCTCCGGCAACAGCGACCTGTCGCGCCGCACCGAGCAGCAGGCCGCCAACCTGGAAGAAACCGCCGCCTCGATGGAGGAACTGACCTCCACCGTGCGCCAGAACGCCGAACACGCCCGCCAGGCCAACCAGCTGGCGCAGGGCGCGGCCGGCGTGGCCCGCGACGGCGGCGACGTGGTCGGCCAGGTCGTCACCACGATGGGTGAGATCGAGCGCTCCTCGAAGAAGATCGGCGAGATCATTTCCGTCATCGACGGCATCGCCTTCCAGACCAACATCCTGGCGCTGAACGCCGCGGTCGAAGCGGCGCGTGCCGGCGAACAGGGACGCGGCTTCGCCGTGGTCGCCGCCGAGGTGCGCACCCTGGCCCAGCGTTCGGCCAATGCGGCCAAGGAGATCAAGGGCCTGATCGACGATTCGGTCGGCAAGGTCGCCGACGGCTCGGCGCTGGTGCACAAGGCCGGCAGCACGATGAGCGAGATCGTCGCCAGCGTGCAGCGCGTCACCGACATCATGGCCGAGATCTCCGCCGCCTCGCAGGAGCAGAGCGGCGGCATCGAGCAGGTCAACCAGACCATCACCCAGATGGACGAGACCACCCAGCAGAACGCCGCGCTGGTCGAGGAAGCCACCGCCGCCGCCCGTTCGATGGAAGAGCAGGCCGGCCACCTGGCCGATGCGGTGTCGATGTTCAAGCTCGACGCCGCGCAGGCCGAGGCCGCCGCGCCGGCCCCGGCACGCAGCGCGCCGCGCCCGGTCGCCGCCGAACCGGCCCGTCCGGCCGCCAAGCCGCGCGCCAGCAAGGCCAACGGCAGCGAAGCGGTCCTGGCCGACGGCGACTGGCAGGAGTTCTAA	MQWINTLKLKPKLMLAFGIVLALMLIQGIIAFTGLASLNKATVQLAGTTMASVREAGELRGMLGEFRNSSYQGLVRASDTVKEEAKTRATGLRAQIEAGIKKYPRLLETAEQKKLFDAFVADWKKAATSYDSVNEMLELNLPDDAVDTFVSETRTLHNKAQDSLAALIAEDNKLAQAAQENASSVHATSVTLTVVMLLAGIAGGLVLAWMFANALVRNMRGAVSVANEVAGGKLDGQIDVSANDEVGDLMRSLQRMQRDLKDRIERESHIAAENLRIRTALDNSSTATFIADDQRRIIYANASMQQLAAAHAEAISARVADFDSSKLVGQHVSYLGLSESTVQAAIAKLEKTGATQFEERIGDAVIAQTITLIRNADGRHDGDVCEWRDRTIEVQVEDEVARIVRAAAAGDMDGRVDLAGKHGFFLQLAQQLNGLLDANAGSLAQVSHLLTALSRGDLTVRIEGDFQGVFARMRDDANATAEQLTDIVGRIKQSSVSINSAAGEIASGNSDLSRRTEQQAANLEETAASMEELTSTVRQNAEHARQANQLAQGAAGVARDGGDVVGQVVTTMGEIERSSKKIGEIISVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVAAEVRTLAQRSANAAKEIKGLIDDSVGKVADGSALVHKAGSTMSEIVASVQRVTDIMAEISAASQEQSGGIEQVNQTITQMDETTQQNAALVEEATAAARSMEEQAGHLADAVSMFKLDAAQAEAAAPAPARSAPRPVAAEPARPAAKPRASKANGSEAVLADGDWQEF	PGPT0015710_1275	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
BMS020_06871	864	cheR_3		Chemotaxis protein methyltransferase	ATGCAGACCGCCCCGAACGCATCCCCCGACTCCCGTGAGTTCGAATTCGGCGACCGCGACTTCCGCCGCGTGTGCGAACTCATCTACCAACGCGCCGGCATCGCCCTGGCCCCGGCCAAGCGCGACATGGTCTACGGCCGGCTGTCGCGCCGGCTGCGCGCGCTCGGCCTGCGCTCGTTCCGCGACTATCTCGACCAGCTCGAGGCGGCCAGCGACGCCGACGAGGAATGGCAGGCGTTCACCAACGCGCTGACCACCAACCTGACCTCGTTCTTCCGCGAGCCGCACCACTTCGACAAGCTGCGCGAGGAGCTGCAACGCCGCGCGCCGAACGCGCCGCTGAAGATCTGGTCGTGCGCCGCCTCCACCGGCGAGGAGCCCTACTCCATCGCGATCACCGCCTGCGAGGCGTTCGGCACGCTGACCCCGCCAGTACGCATCCTCGCCACCGACGTGGACACCCAGGTGCTGGAGACCGGCGCACGCGGCGTCTATCCGGTCGAGCGCGTCTCCTCGCTGGACGCGGCGCTGCGCAAGCGCTACTTCCAGCGCGGCAGCGGCCCGAACGAGGGCAAGTGCCGCGTGCTGCCGGCACTGCGCCAGCTGATCGAGTTCCGCCAACTCAACCTGTTGGCCCCGCGCTACGATGTCGGTGGCCCGTTCGATGCCCTGTTCTGCCGCAACGTGATGATCTATTTCGACAAGCCCACCCAGCGCGGCATCCTCTCGCGCCTGGTCACCCACATGGGCGACGACGGCCTGCTGTACACCGGCCACTCCGAGAACTACCTGCACGCCGCCGACCTGATCCAGCCGTGCGGCCGCACGCTGTACCGCCGCACCCCGCAGGGGAGCCGCCCGTGA	MQTAPNASPDSREFEFGDRDFRRVCELIYQRAGIALAPAKRDMVYGRLSRRLRALGLRSFRDYLDQLEAASDADEEWQAFTNALTTNLTSFFREPHHFDKLREELQRRAPNAPLKIWSCAASTGEEPYSIAITACEAFGTLTPPVRILATDVDTQVLETGARGVYPVERVSSLDAALRKRYFQRGSGPNEGKCRVLPALRQLIEFRQLNLLAPRYDVGGPFDALFCRNVMIYFDKPTQRGILSRLVTHMGDDGLLYTGHSENYLHAADLIQPCGRTLYRRTPQGSRP	PGPT0015670_1557	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015670-cheR|pilK-K00575	NA	NA
BMS020_06872	597	cheD		Chemoreceptor glutamine deamidase CheD	GTGAACGCGCCCCTCAAGCTCGACGAGGTGATGCGCTACCACGACACGCGCTTCCAGACCATCGCTGCGAAACTGCTGCCGACCCAGTACCTGGTGGTCGACGACGACACCGCGCTGACCACCATCCTGGGCTCGTGCGTGGCCGCCTGCGTGCGCGACCCGGTGCTGAAGATCGGCGGCATGAATCACTTCCTGCTGCCGGACGGCCAGGTGGGCGATGGCGCCCCGGCCCGCTACGGCAGCTACGCGATGGAACTGCTGATCAACGACCTGCTCAAGCGCGGCGCGCACCGCAAGCGCCTGGAAGCGAAGGTGTTCGGCGGCGCCAACGTGCTCAAGGGCTTCACCTCCAATCCTGTCGGGACGCGCAATGCCGAGTTCGTGCGCCAGTACCTGCAGGCCGAACACATCCCGATCGTCGCCGAGGACCTGATGGGCATCCATCCGCGCAAGATCTGGTTCTTCCCCCCCACTGGCCGGGTCGTGGTGCAGCGCCTGCCGCACGCCCACGAGGCCGAGGTCGCCGCCGCTGAATCGGCGGTGCGTGCCCGCCTGTCCAAGGCCCCGGTCACCGGCGGCGTGGAGTTGTTCGAATGA	MNAPLKLDEVMRYHDTRFQTIAAKLLPTQYLVVDDDTALTTILGSCVAACVRDPVLKIGGMNHFLLPDGQVGDGAPARYGSYAMELLINDLLKRGAHRKRLEAKVFGGANVLKGFTSNPVGTRNAEFVRQYLQAEHIPIVAEDLMGIHPRKIWFFPPTGRVVVQRLPHAHEAEVAAAESAVRARLSKAPVTGGVELFE	PGPT0015665_581	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015665-cheD-K03411	NA	NA
BMS020_06873	1083	cheB_5	COG2201	Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGAACATGGAAGCCCCGGTCCGCGTGCTGATCGTCGACGACTCCGCGGTCGTCCGCCAGATCCTCACCGAAATCCTTTCGCGCGACGTCGGCATCGAAGTGGTCGGCTCGGCCACCGATCCGTTCGTTGCCCGCGAGAAGATCAAGCGCCTCGATCCCGACGTGATCACGCTCGACGTGGAAATGCCGCGGATGGATGGCCTGGCCTTCCTCGAGAACCTGATGCGGCTGCGCCCGACCCCGGTGGTGATGATCTCGTCGCTGACCGAGCGCGGCGCCGACACCACGCTGCAGGCGCTGGCGCTGGGCGCGGTGGACTTCGTCTCCAAGCCGAAGCTGGACGTGGCGCGCGGGCTGGAGAGCTACGCCGAGGAGATCGTCACCAAGGTCAAGGCCGCGGCCAAGGCCCGGGTGCAGGCGATCACCCGCCCGGCGACGCCGCGCGCCGCGGCTGGCGCCGAGGTCGCGCCGGTGATCGCGCGGCCGGCGCTGCGCAGCTTCCGCACCACCGACAAGCTGATTGCGATCGGCGCCTCCGCCGGCGGCACCGAGGCGATCCGCGTCGTGCTCGAAGGCATGCCTGCCGACGCCCCGGCGGTGGTGCTGACCCAGCACCTGCCGGCCAGCTTCAGCACCGCCTTCGCCGAGCGCCTGGACCGCCATTCGGCGATGTCGGTGCGCGAGGCCAGCGATGGCGAGGCGATCCTGCCCGGCCACGCCTACCTGCCGCCAGGCGGTAAGCACATGCGCATCATCCGCGACGGTGCGCGCTGGCGCGCGCGCATCGACGACGGCCCGCCGGTCAACCGGCACAAGCCGGCGGTCGACGTGCTGTTCAACTCTGTCGCCGAAAACGCCGGCGGCAACGCAGTCGGCGCGATCCTTACCGGCATGGGCGACGATGGCGCCCGCGGCCTGCTGGCGATGCGCCAGGCAGGCGCGCCGACACTGGTGCAGGACGAGGCGACCTGCGTGGTCTGGGGCATGCCCGGCGCGGCCTGGAAGCTGGGCGCCGCAGCCGAGATGGCGCCGCTGGAACGCATCGCCGAGCGCCTGCTGGCGCTCGTGGGCCAGCAGGCCTGA	MNMEAPVRVLIVDDSAVVRQILTEILSRDVGIEVVGSATDPFVAREKIKRLDPDVITLDVEMPRMDGLAFLENLMRLRPTPVVMISSLTERGADTTLQALALGAVDFVSKPKLDVARGLESYAEEIVTKVKAAAKARVQAITRPATPRAAAGAEVAPVIARPALRSFRTTDKLIAIGASAGGTEAIRVVLEGMPADAPAVVLTQHLPASFSTAFAERLDRHSAMSVREASDGEAILPGHAYLPPGGKHMRIIRDGARWRARIDDGPPVNRHKPAVDVLFNSVAENAGGNAVGAILTGMGDDGARGLLAMRQAGAPTLVQDEATCVVWGMPGAAWKLGAAAEMAPLERIAERLLALVGQQA	PGPT0015650_1702	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015650-cheB|chpB|wspF-K03412	NA	NA
BMS020_06874	2541	dosP	COG2199	Oxygen sensor protein DosP	ATGGAGACTGCCGGCCGTTTCTCTCCGCCCGACGCCACCGGCATCGCCTCCACGCCAGCACAGCTCGCCCAGTGGCTCGGCAACGGCCTGCTGGACAGCGCGCTGATCGCCATCGACGAACACGGCCGCATCGCGGTCTGCACCGACGCGGCCGCTGCACTGTGCGCGCAGCCCGCCGCCGAGCTGCAGGGCCAGCCGCTCAGCCGGCTACCAGCGGCGCTGGTGGCGGCGTTGCAGCGCGGCAGCACCGAAGAACCTGACGTCCGCCCCGCCCACGGCGCCGCGCTGCACGCGCTCATCCAGCCGCTCAGCGCCGCCGGCCTGCCCGGGCCATGCCTGGTGCTGCTGCGCCCCGCCGCCACGCGCGATGCGCGCGAGCAACAGTTGCACCAGCTCGCCGAGGCGATGGACCAGAGCGACAGCGCGATCATGCTGGTCGGCGAGGACTCGGTGGTGGCCTACGCCAACGCCGGCTTCGGCCGCGTGTTCGGCTACGCCGGATCGGAGATCGTCGGCAAGGTCGCCTCGCAGGTGCTGAGCGGCCCGCACAGCGACCCGGAGATGCTGGCGTTCGTGCGCGAACGCGCCCAGCTGTGCGAGAAGTTCACCACCGAACTGCTGCTGTACCGCCGCGACGGCACGCCGCTGTGGGCCTCGATCATTTCCACACCACTGCGCCAGCCCGACGCGTTCCCGTACCGCTGGCTGACCGTGCTGACCGACATCACCCACAGCAAGATGCACGAGATGCTGCACCGGCGCGTGCTCGACGCGATGGTGCGCGAGCAGCCGGTCGGCGACGTGATGGCGCTGATCTGCGACGAGCTCGAGCGCGTCGCGCCCGGGCTGCATGCGTCGGTGCTCGCACTGGACAGCGACAACCGCCTGCGGCCCCTGGCCGCCCCCAGCCTGCCGCCGGCCTACAGCGAGGCGATCAACGGCCTGTCGATCGGACCGACCGCCGGCGCCTGCGGCACCGCCGCCTGGCGTGGACGCACCGTGGTCGTCGCCGACCTGCTGACCGACCCGCTGTTCGCCGACTACCGCCACCTGCTCGACCAGTTCCCGATGCGGGCCTGCTGGTCCAGCCCGATCAAGTCCAGCGGCGGCCGCGTGCTGGGCACGTTCGCCTTCTACTACGAGGTCGCGCGCGAGCCCGACCCCTGGCACATCCGCCTGGCCGAAACCTGCCTGCAGCTGTGCGCGCTGGCGCTTGAGCGCGAACAGACCCGCGCGCGCGTGCACCAGCTAGCGTTCTACGACGCGCTCACCGGGCTGCCCAACCGGATGATGTTCAGCGCCCGCACCGAACAGCTGCTGATCGGTGCCGAGAACCGCGAGGAAGGCCTGGCGGTGATGTTCCTCGACGTGGACCGCTTCAAGCGCGTCAACGAGACCCAGGGCCACGCCGCCGGCGACGGCCTGCTGCGCGACCTCACCGAACGCATCACCGGCAGCCTCGATGCGCACGACCTGATCGGCCGCCAGGCCGGCGACGAATTCGTGCTGGCGCTGCCCAACTGCACCGCCGAACAGGCCGGCGGCATCGCCGAACGCCTGCTCGGCGCGATCGCGCAGCCGTCGGTGGTCGGACGCATGACCCTGCACCCCAGCGCCAGCATCGGCGTAGCGATGTTCCCCGGCGACGGCCGCGACATCGATACCCTGCTGCGCCACGCCGACCTGGCCATGCACCGCGCCAAGAGCGAGGGCGGCGGCAGCTTCCGCTTCTTCAGCGCCGAAATGAATCGCCTGGCGCAGGAGCACGTCGCACTGGAGACCGCGCTGCGCGAGGCGATCCGGCGCGACCAGCTGGAACTGCACTACCAACCGCAGGTGGATGCAGCCGACCCGCGCAAGCTGCACGGCGTGGAAGTGCTGCTGCGCTGGAACCACCCGCAGATGGGCCGGATCTCGCCGGCCCGCTTCATCCCGCTGGCCGAGGAGAGCGGGCTGATCGGCGACCTCGGCCGCTGGGTGCTGCGCACCGCCTGCCGCCAGTTGGCCGACTGGCGCAAGCGCGGCGTGCCGGTACCGCGGCTGGCGGTCAACCTGTCGGCCGGCGACTTCGAGGACCCGCACCTGCTGGCCGACCTGCTGGCGCACCTGCACCGCCACAGCCTGGTGCCGGGCGACATCACCCTGGAGATGACCGAGAGCGCGATGCTGTCGCCGCAGCCGGAGGTGTTCGCCAACATCAACGCGATGCGCGACGCCGGCCTGGTGCTGTCGCTGGACGACTTCGGCACCGGCTATTCCAGCCTCAGCCACCTGCACCAGCTGCCGATCAACGAGATCAAGCTGGACATGAGCTTCGTGCGCGACCTGGAGCAGAGCGAGGCCGCGCGCGCGCTCACCAACGCGGTGCTGCGCATCGGCGACAGCCTGGGCAAACAGGTCGTCGCCGAGGGCGTGGAAACCGAACGCCAGCGCAGCCTGCTGGCCGGCCTCGGCTGCCAGGTGCTGCAGGGCTTCCTGTTCTCGCCGCCGCTGGAAGCCGGCGCGCTGGAGGCCTGGATCGCCGCCAACACGCGCGGCTGA	METAGRFSPPDATGIASTPAQLAQWLGNGLLDSALIAIDEHGRIAVCTDAAAALCAQPAAELQGQPLSRLPAALVAALQRGSTEEPDVRPAHGAALHALIQPLSAAGLPGPCLVLLRPAATRDAREQQLHQLAEAMDQSDSAIMLVGEDSVVAYANAGFGRVFGYAGSEIVGKVASQVLSGPHSDPEMLAFVRERAQLCEKFTTELLLYRRDGTPLWASIISTPLRQPDAFPYRWLTVLTDITHSKMHEMLHRRVLDAMVREQPVGDVMALICDELERVAPGLHASVLALDSDNRLRPLAAPSLPPAYSEAINGLSIGPTAGACGTAAWRGRTVVVADLLTDPLFADYRHLLDQFPMRACWSSPIKSSGGRVLGTFAFYYEVAREPDPWHIRLAETCLQLCALALEREQTRARVHQLAFYDALTGLPNRMMFSARTEQLLIGAENREEGLAVMFLDVDRFKRVNETQGHAAGDGLLRDLTERITGSLDAHDLIGRQAGDEFVLALPNCTAEQAGGIAERLLGAIAQPSVVGRMTLHPSASIGVAMFPGDGRDIDTLLRHADLAMHRAKSEGGGSFRFFSAEMNRLAQEHVALETALREAIRRDQLELHYQPQVDAADPRKLHGVEVLLRWNHPQMGRISPARFIPLAEESGLIGDLGRWVLRTACRQLADWRKRGVPVPRLAVNLSAGDFEDPHLLADLLAHLHRHSLVPGDITLEMTESAMLSPQPEVFANINAMRDAGLVLSLDDFGTGYSSLSHLHQLPINEIKLDMSFVRDLEQSEAARALTNAVLRIGDSLGKQVVAEGVETERQRSLLAGLGCQVLQGFLFSPPLEAGALEAWIAANTRG	PGPT0023624_1400	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
BMS020_06875	1065	ldh_1	COG2055	L-lactate dehydrogenase	ATGCCCAGCGCCCAGCGTTACTCCGATCCTTCCCTCACCGCCTACGCCGCAGCGTTGCTGCAAGGCGCCGGCATGCCGGCCGAGCGCGCCGAGGTGGTCGCCCGCATCCTGGTCGATGCCGACCTGATGGGCCACAGCACCCATGGCCTGAACCTGCTCAAGCAGTACCTGGATGGCATCGCCGGCGATGCGCTGCGGGTCGGTGCCGAGATCGAGATCGTCGCCCAGCGCCCGGCCACGCAGACCTGGGATGGCCATCGCGGACCCGGACCGTGGCTGGTGACGCGCGCCCTGGATGCGGCGATCGCGATGGCACGCACCTATGGCACCGGCACCGTGGTCGTACGCAACAGCCATCACATCGGCTGCCTGGCCGCCTACCTGCGCCTGGCCACCGAGGCCGGCATGGTGCTGATGCTGTTCTCCTCGGCGCCGGCGGCATCGACGGTGGCACCGTTCGGCGGCACCAGGGCCTTGTTCTCGCCCAGTCCGCTGGCGATCGGTTGCCCGACCGAGGGCGATCCGATCTGGGTCGACATCTCCAGCTCGATCACCACCAACAACATGGTGGCCAGGCTGCAGCGCGAAGGCGGCCAGCTCCCCGGGCCATGGCTGCTCGATGGCCATGGCAACGCCAGCGCCGACCCGGCCGTGCTCGCCGGCGATCCACCTGGCAGCCTGCTGCCGCTGGGCGGACTGGATGCCGGGCACAAAGGCTACGGCCTGGCGCTGATGGTGGAGATCCTCACCGCCGGGCTGTCCGACCAGGGCCGCTTCCAGGACAACGGCAAGCTCAGCAACACCGCGTTTTTGCAGGTGCTGGATCCGCAGGCGTTCGGCGGCCTGCCGGCGCTGCAAGTGCAGATGCAGCACATCGCCGAGGCCTGCATCGCCAATCCGCCGCGCCCCGGGGTCGGCGCGGTGCGCGTGCCCGGGCAGAAGGCCGCGGCGCTGTACCGCGAGCAGCGGCAGCACGGCGTGCGGCTGAGCGAGGACATCCTGCGCAACCTGCGAGCGTGGTCGGACAAGCTCGGCGTGGCGATGCCGGTGCCGCTGGCGGATTGA	MPSAQRYSDPSLTAYAAALLQGAGMPAERAEVVARILVDADLMGHSTHGLNLLKQYLDGIAGDALRVGAEIEIVAQRPATQTWDGHRGPGPWLVTRALDAAIAMARTYGTGTVVVRNSHHIGCLAAYLRLATEAGMVLMLFSSAPAASTVAPFGGTRALFSPSPLAIGCPTEGDPIWVDISSSITTNNMVARLQREGGQLPGPWLLDGHGNASADPAVLAGDPPGSLLPLGGLDAGHKGYGLALMVEILTAGLSDQGRFQDNGKLSNTAFLQVLDPQAFGGLPALQVQMQHIAEACIANPPRPGVGAVRVPGQKAAALYREQRQHGVRLSEDILRNLRAWSDKLGVAMPVPLAD				NA	NA	NA	NA	NA
BMS020_06876	2592	acnB_2	COG1049	Aconitate hydratase B	ATGTTGGAAGCCTATCGCCACCACGTCGCTGAGCGCGCTGCGCTTGGAATCCCGCCGCTGCCGCTGACCGCGCAGCAGACCGCTGAACTCATCGAGCTGATCAAGAACCCGCCGGCCGGCGAGGAAGATGTCCTGGTCGACCTGATCACCAACCGCGTGCCGGCCGGCGTCGACGATGCCGCCAAGGTCAAGGCCTCGTACCTGGCCGCGGTCGCCTTCGGCACCGAGAAGACCGCGCTGATCAGCGCCCAGCGCGCCACCGAGCTGCTGGGCACCATGCTCGGCGGCTACAACATCCACCCGCTGGTCGAGCTGCTGGACAACGCCGAGCTGGGCGCCACCGCGGCCGAAGGCCTGAAGCACACCCTGCTGGTGTTCGATGCGTTCCACGACGTGCAGGAGAAGGCCGAGAAGGGCAATGCCAACGCCAAGGCCGTGCTGCAGAGCTGGGCCGACGCCGAGTGGTTCACCTCCAAGCCGGAAGTGCCGCAGAGCATGACCGTCACCGTGTTCAAGGTGCCGGGCGAGACCAATACCGACGACCTGTCGCCGGCCCCGGACGCGACCACGCGCCCGGATATCCCGATGCACGCGCTGGCGATGCTGAAGAACAAGCGTGACGGCGCGCCGTTCACCCCGGAAGAGGACGGCAAGCGCGGTCCGATCCAGCAGATCCTCGACCTGAAGGACAAGGGCCACCTGGTCGCCTACGTCGGCGACGTGGTCGGCACCGGTTCCTCGCGCAAGTCGGCCACCAACAGCGTGCTGTGGTGGACCGGCGAGGACATCCCGTTCATCCCGAACAAGCGCTTCGGCGGCGTGTGCCTGGGCTCCAAGATCGCCCCGATCTTCTACAACACGATGGAAGACGCCGGCGCGCTGCCGATCGAGCTGGACGTGTCGAAGATGGAGCACGGCGACGTCGTCGAGCTGCGTCCGTACGACGGCAAGGCGTTGAAGAACGGCGAGGTGATCGCCGAGTTCGAACTCAAGAGTGACGTGCTGCTGGACGAAGTGCGCGCCGGCGGCCGCATCCCGCTGATCATCGGCCGCGGCCTGACCGCCAAGGCGCGCGAAGCGCTGAAGCTGCCGGTCACCGACCTGTTCCGCCTGCCGGTGAACCCGCCGGATACCGGCAAGGGCTTCTCGCTGGCGCAGAAGATGGTCGGCCGCGCCTGTGGCCTGGCCGAAGGCCAGGGCATGCGTCCGGGCACCTACTGCGAGCCGAAGATGACCTCGGTCGGTTCGCAGGACACCACCGGCCCGATGACCCGCGACGAGCTGAAGGATCTGGCCTGCCTGGGCTTCTCGGCCGACCTGGTGATGCAGTCGTTCTGCCACACCGCGGCGTATCCGAAGCCGGTCGACGTCAAGACCCACCACACCTTGCCGGAGTTCATCTCCACCCGCGGCGGCGTCTCGCTGCGTCCGGGCGACGGCGTGATCCACAGCTGGCTCAACCGCATGCTGCTGCCCGACACCGTCGGCACCGGCGGCGACAGCCACACCCGCTTCCCGATCGGCATCTCGTTCCCGGCCGGCTCCGGCCTGGTCGCGTTCGCCGCGGCCACCGGGGTGATGCCGCTGGACATGCCCGAGTCGGTGCTGGTGCGCTTCAAGGGCCAGATGCAGCCGGGCGTGACCCTGCGTGACCTGGTCAACGCGATCCCGCTGTACGCGATCAAGGACGGCCTGCTGACCGTCGCCAAGCAGGGCAAGAAGAACATCTTCTCCGGCCGCATCCTCGAGATCGAAGGCCTGCCGGACCTGAAGGTGGAGCAGGCGTTCGAGCTGTCCGACGCTTCGGCCGAACGTTCCGCCGCCGGCTGCACCGTGCGCCTGAACAAGGAGCCGATCATCGAGTACCTCACCAGCAACATCACGCTGCTGAAGTGGATGATCGCCGAAGGCTACGCCGACGCGCGCACGCTGGGCCGCCGCATCAAGAAGATGGAAGCGTGGCTGGCCAACCCGCAGCTGATCGAGCCGGACGCCGACGCCGAGTACGCGGCGGTGATCGAGATCGACCTGGCCGACATCCACGAGCCGATCGTGGCCTGCCCGAACGACCCGGACGACGTGAAGACGCTGTCCGAGGTCGCCGGTGCCAAGATCGACGAAGTGTTCATCGGTTCGTGCATGACCAACATCGGCCACTTCCGTGCCGCGGCCAAGCTGCTGGAAGGCAAGCGCGACATCCCGACCCGCCTGTGGGTCGCGCCGCCGACCAAGATGGATGCCTCCGAGCTGACCAACGAGGGCGTCTACGGCACCTTCGGCACCGCCGGCGCGCGCATGGAAATGCCGGGCTGCTCGCTGTGCATGGGCAACCAGGCGCAGATCCGCGAAGGCTCCACCGCGATGTCGACCTCGACCCGCAACTTCCCGAACCGCCTGGGCCGCAACACCAACGTGTACCTGGGGTCGGCGGAGCTGGCGGCGATCTGCTCGCGCCTGGGCCGCATCCCGACCAAGGAGGAGTACATGGCCGACATCGGGGTGATCAACGCCAACGGCGACAAGATCTACCGCTACATGAACTTCGACCAGATCCCGGAATACCAGGACGTGGCGAAGACGGTCGCGGCCTGA	MLEAYRHHVAERAALGIPPLPLTAQQTAELIELIKNPPAGEEDVLVDLITNRVPAGVDDAAKVKASYLAAVAFGTEKTALISAQRATELLGTMLGGYNIHPLVELLDNAELGATAAEGLKHTLLVFDAFHDVQEKAEKGNANAKAVLQSWADAEWFTSKPEVPQSMTVTVFKVPGETNTDDLSPAPDATTRPDIPMHALAMLKNKRDGAPFTPEEDGKRGPIQQILDLKDKGHLVAYVGDVVGTGSSRKSATNSVLWWTGEDIPFIPNKRFGGVCLGSKIAPIFYNTMEDAGALPIELDVSKMEHGDVVELRPYDGKALKNGEVIAEFELKSDVLLDEVRAGGRIPLIIGRGLTAKAREALKLPVTDLFRLPVNPPDTGKGFSLAQKMVGRACGLAEGQGMRPGTYCEPKMTSVGSQDTTGPMTRDELKDLACLGFSADLVMQSFCHTAAYPKPVDVKTHHTLPEFISTRGGVSLRPGDGVIHSWLNRMLLPDTVGTGGDSHTRFPIGISFPAGSGLVAFAAATGVMPLDMPESVLVRFKGQMQPGVTLRDLVNAIPLYAIKDGLLTVAKQGKKNIFSGRILEIEGLPDLKVEQAFELSDASAERSAAGCTVRLNKEPIIEYLTSNITLLKWMIAEGYADARTLGRRIKKMEAWLANPQLIEPDADAEYAAVIEIDLADIHEPIVACPNDPDDVKTLSEVAGAKIDEVFIGSCMTNIGHFRAAAKLLEGKRDIPTRLWVAPPTKMDASELTNEGVYGTFGTAGARMEMPGCSLCMGNQAQIREGSTAMSTSTRNFPNRLGRNTNVYLGSAELAAICSRLGRIPTKEEYMADIGVINANGDKIYRYMNFDQIPEYQDVAKTVAA	PGPT0001470_1119	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001470-acnB-K01682	NA	NA
BMS020_06877	408			hypothetical protein	ATGATCGCGATCGATTCCTCCGTGCTGGTCGACCTGCTCGCCGACGGCCCGCAGGCCGACGCCGCCGAGGCCTGCCTGCGCCAGTGCCTGAGCACCGGCCCGGTGGTGGTGTGCGACATCGTGCTGGCCGAGGTCTGCAGCGCATTGCGCGACGGCGCCGAGGCGCTGACCGTGCTGGAAGAGATGAGCATCCGTTTCAACGCGCTGGAATCGAAGTCGGCGCTGCGCGCCGGCGAGATGCAGCGCCGGTTCCGTTCGCGCGGCGGCAAGCGCGAGCGCGTCGTGGCCGATTTCCTGATCGGCGCCCACGCCATGCTCCAGTGCGACGGGCTGATCACCCGCGACGAGAGCTTCTTCCGCGACTATTTCAAGGGTTTGAAGATCATCGTGCCCAAACCCGCCGCCTGA	MIAIDSSVLVDLLADGPQADAAEACLRQCLSTGPVVVCDIVLAEVCSALRDGAEALTVLEEMSIRFNALESKSALRAGEMQRRFRSRGGKRERVVADFLIGAHAMLQCDGLITRDESFFRDYFKGLKIIVPKPAA				NA	NA	NA	NA	NA
BMS020_06878	246			hypothetical protein	ATGGAAGCCACCGTTGCCGAACGCGGCCAGATCACCTTGCCGAAGGCGGTCCGTGACGCCCTCGGGCTGACCAAGGGCACCACCCTGAAGGTCGAGCTCGACGGCGGCCGCATCATCCTGCGCAAGAGCGTCGACGACGCGATCTCGCGCGCCCGCGGCCGTTTCAAGCTCGACGGCTTCGCCAGCACCGACGAGGCGATGCGCGCGATCCGCGGCCGCGCCCCGGGCGATCCGCTGGAGCCGTGA	MEATVAERGQITLPKAVRDALGLTKGTTLKVELDGGRIILRKSVDDAISRARGRFKLDGFASTDEAMRAIRGRAPGDPLEP	PGPT0027420_470	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YhaV-PrlF_TOXIN-ANTITOXIN_SYSTEM,PGPT0027420-antitoxin_prlF|sohA-K19156	NA	NA
BMS020_06879	2763	acn	COG1048	Aconitate hydratase A	ATGACCGACTCGTTCTCCACCCGCAGCCAGCTCGACGTAGGCGGCACCCGCTACGCTTATTACAGCCTGCCCAAGCTGGGCCAGCGCTTCGACCTGTCCCACCTGCCCTACTCGATGAAGATCCTGCTGGAGAATCTGCTCCGGCATGAAGACGGCGGCGTGACCGTCGGCAAGGACCACATCGAGGCGGTCGCCCGCTGGAACCCGCAGGCCGAGCCGGACACCGAGATCGCCTTCATGCCGGCGCGGGTGGTGCTGCAGGACTTCACCGGCGTGCCCTGCGTGGTCGACCTGGCAGCGATGCGCGACGCAGTGGTCAAGCTCGGCGGCAAGGCCGAGCAGATCAACCCGCAGATCCCGTCCGAGCTGGTGATCGACCACTCGGTGCAGGTCGACGTGTTCGGCAAGCCCGACGCGCTGGACCTCAACGGCAAGATCGAGTTCCAGCGCAACGCCGAGCGCTACGGCTTCCTGCGCTGGGGCCAGAAGGCGTTCGACAACTTCAAGGTGGTGCCGCCGAACACCGGCATCGTCCACCAGGTGAACCTGGAGAACCTGGCGCGGGTGGTGATGACCGTCGACAAGGACGGCGAGCAGCTCGCCTACCCCGACACCGTGTTCGGCACCGACTCGCACACCACGATGATCAACGGCATCGGCGTGCTCGGCTGGGGCGTGGGCGGCATCGAGGCCGAGGCGGCGATGCTCGGCCAGCCCTCGTCGATGCTGATCCCGCAGGTGGTCGGCTTCAAGCTGAGCGGCAAGCTGCCCGAAGGCGCCACCGCCACCGACCTGGTGCTGACCGTCACCCAGATGCTGCGCAAGCTCGGCGTGGTCGGCAAGTTCGTCGAGTTCTACGGCGACGGCCTGCAGCACCTGCCGCTGGCCGACCGCGCAACCATCGGCAACATGGCACCCGAATACGGCGCCACCTGCGGCATCTTCCCGATCGACGCCGAATCATTGAACTACCTGCGCCTGTCCGGCCGCAGCGAAGACCAGATTGCGCTGGTGGAGGCCTACGCCAAGGCGCAGGGCCTGTGGCACGAGCCCGGCAGCCCGCACGCACAGTACAGCGCGACACTGGAGCTGGACATGGGCGAAGTGAAGCCATCGCTGGCCGGCCCCAAGCGGCCGCAGGACCGCGTGCTGCTGCAGGACATGCAGCGCAACTACCGCGACAGCCTGGTCGGGCTGACCGCCAACCGCGAGCAGCGCAGCGGCGCGGTCGCTGACTTCATCGCCGAAGGCGGCGGCGCCGCGGTCGGCAACGAGCAGCTGGCCAAGGGCCAGGCCGACATCGAGATCGACGGCCGCAAGGTCCGGCTCAAGGACGGCGCAGTGGTGATCGCCGCGATCACCTCGTGCACCAACACCTCCAACCCGGCGGTGATGATCGGCGCCGGCCTGCTGGCGCGCAACGCCGCCGCCAAGGGCCTGAACCGCCAGCCGTGGGTCAAGACCTCGCTCGGGCCAGGCTCGCGCGTGGTCACCGACTATCTGGAAAAAGCCGGCGTGCTGGGTGAGTTGGAGAAGGTCGGCTTCTACGTGGTCGGCTACGGCTGCACCACCTGCATCGGCAACTCCGGCCCGCTGCCGCCGGAAGTCAGCGCCGGCATCGCCGCCGGCGACCTGGTGGTGACCTCGGTGCTGTCGGGCAACCGCAACTTCGAAGGCCGCGTGCATCCCGAGGTCAAGATGAACTACCTGGCCAGCCCGCCGCTGGTGGTGGCCTATGCGCTGGCCGGCACCACCGACATCGACCTGACCCGCGAGCCGCTCGGCACCGGCAGCGACGGCCAGCCGGTCTACCTGCGCGACATCTGGCCGAGCAACCAGGAGATCGGCGACGTGATCGCCGCGACCATCGGCCCGGAGATGTTCAAGCAGAACTACGCCGACGTGTTCAAGGGCGACACCCGCTGGAACACCATCGCCTCGCCCGACGGCGCGCTGTACGCCTGGGACGAGGCGTCGACCTACATCAAGAACCCGCCCTACTTCGACGGCATGACGATGCAGACCGGGCGCATCGAGGACGTGCATGGCGCGCGGGTGATGGGCCTGTTCGGCGATTCGATCACCACCGACCACATCTCCCCGGCCGGCAACATCAAGAAGGACTCGCCGGCAGGCCGCTTCCTGCAGGCGCGCGGCGTGCAGCCGGCCGACTTCAACAGCTACGGCAGCCGCCGCGGCAACGACGACGTGATGGTGCGCGGCACCTTCGCCAACATCCGCATCAAGAACCTGATGTTCGGCGGCGAGGAAGGCGGCAACACGCTGTACTACCCGGCCGGCGGCGGCGCGCCGGAGAAGCTGGCGATCTACGATGCGGCGATGAAGTACAAGGCCGACGGCGTGCCGCTGGTGGTGCTGGCCGGCAAGGAGTACGGCACCGGTTCCTCGCGCGACTGGGCGGCCAAGGGCACCAACCTGCTCGGGGTCAAGGCGGTGATCGCCGAGAGCTTCGAGCGCATCCACCGTTCCAATCTGGTCGGCATGGGCGTGCTGCCGCTGCAGTTCCTGGAGAACGAGAACGCGCAGACCCTGGGCCTGGACGGCGCGGAGGTGTTCGACATCACCGGGCTGGAGGATGGCGCCAGCAAGCGCGCGACGGTCACCGCGACGAAGGCCGACGGCAGCGCCAAGCAGTTCCAGGTCAAGGTGCTGCTGCTGACGCCGAAGGAAGTGGAGTACTTCAAGCACGGCGGCCTGCTGCAATACGTGCTGCGCCAGCTGGCCGCACGCAAGGCGGCCTGA	MTDSFSTRSQLDVGGTRYAYYSLPKLGQRFDLSHLPYSMKILLENLLRHEDGGVTVGKDHIEAVARWNPQAEPDTEIAFMPARVVLQDFTGVPCVVDLAAMRDAVVKLGGKAEQINPQIPSELVIDHSVQVDVFGKPDALDLNGKIEFQRNAERYGFLRWGQKAFDNFKVVPPNTGIVHQVNLENLARVVMTVDKDGEQLAYPDTVFGTDSHTTMINGIGVLGWGVGGIEAEAAMLGQPSSMLIPQVVGFKLSGKLPEGATATDLVLTVTQMLRKLGVVGKFVEFYGDGLQHLPLADRATIGNMAPEYGATCGIFPIDAESLNYLRLSGRSEDQIALVEAYAKAQGLWHEPGSPHAQYSATLELDMGEVKPSLAGPKRPQDRVLLQDMQRNYRDSLVGLTANREQRSGAVADFIAEGGGAAVGNEQLAKGQADIEIDGRKVRLKDGAVVIAAITSCTNTSNPAVMIGAGLLARNAAAKGLNRQPWVKTSLGPGSRVVTDYLEKAGVLGELEKVGFYVVGYGCTTCIGNSGPLPPEVSAGIAAGDLVVTSVLSGNRNFEGRVHPEVKMNYLASPPLVVAYALAGTTDIDLTREPLGTGSDGQPVYLRDIWPSNQEIGDVIAATIGPEMFKQNYADVFKGDTRWNTIASPDGALYAWDEASTYIKNPPYFDGMTMQTGRIEDVHGARVMGLFGDSITTDHISPAGNIKKDSPAGRFLQARGVQPADFNSYGSRRGNDDVMVRGTFANIRIKNLMFGGEEGGNTLYYPAGGGAPEKLAIYDAAMKYKADGVPLVVLAGKEYGTGSSRDWAAKGTNLLGVKAVIAESFERIHRSNLVGMGVLPLQFLENENAQTLGLDGAEVFDITGLEDGASKRATVTATKADGSAKQFQVKVLLLTPKEVEYFKHGGLLQYVLRQLAARKAA	PGPT0001465_1185	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
BMS020_06880	444			hypothetical protein	ATGGGGGGGCGAGGGATCGGCCGGCTGCTGGTGCTGGCGCTGGTGATGGCGCTTGCGGCCTGCACGCGCACGCCGCCGGAGCAGCGGCTGCGGGCCCAGGTCGAGGCGCTGCGTGTTGCGGTGCAGCAGCGCGAGCTTGGCGATGCGATGGACCTGGTGGCCGAGGACTTCTCCGGCAACGACGGGCTGGACCGCCAGGGGCTGCGCCGCCTGTTGCAGGCGCGGATGCTGGCGCACCTGGAGATCGATGCGACGCTGGTGGGGCCGATGTCGGTGCAGATCGACGGCGAGCGCGCCACGGTCACCTGCGACGTCCTGCTGACCGGCGGCAGCGGCCGGCTGCTACCCGACAGCGCCGGCGGCTACGCGGTGACCAGCGGCTGGCGCCTGGATGGCGGCGAGTGGAAGCTGTATTACGCCGACTGGCAGCGCCGCGGCCCGTGA	MGGRGIGRLLVLALVMALAACTRTPPEQRLRAQVEALRVAVQQRELGDAMDLVAEDFSGNDGLDRQGLRRLLQARMLAHLEIDATLVGPMSVQIDGERATVTCDVLLTGGSGRLLPDSAGGYAVTSGWRLDGGEWKLYYADWQRRGP				NA	NA	NA	NA	NA
BMS020_06881	1683	fadD_2	COG0318	Long-chain-fatty-acid--CoA ligase	ATGAGTCAGGCACGTCCTTGGTTGCAGAGCTATCCGGCCGGCGTCCCCGCCGAGATCGACGTCGATGAATTCCGCACCATCGCGGATGTCTTCGCCACCTCCGTCGCCAAGTATCCGGACCGCCCCGCCTACCGCAGCTTCGGCAAGACCCTGAGCTACCGCGAAACCGACGTGCTGTCGCGGCAGTTCGCCGCCTACCTGCTCGGCGAACTCAAGCTCAAGAAGGGCGACCGCGTCGCGCTGATGATGCCCAACTGCCTGCAGTACCCGGTGGCGACCTTCGGCATCCTGCGCGCCGGGCTGACCGTGGTGAACGTCAACCCGCTGTACACCGCGCGCGAGCTCAAGCACCAGCTGTGCGACGCCGGCACCAGCGTGCTGATCGCGATCGACAACTTCGGCACCACCGTCGCCGAGGTGATCGCCGAAACCCCGGTGCGCCAGGTCATCACCACCGGCCTGGGCGACATGCTCGGCTTCCCCAAGGGGCCGCTGGTCAACTTCGTCGTCAAGTACGTCAAAAAGCTGGTGCCCGAGTACCGCCTGCCGGGGGCGATCCGCTTCCGTGAAGCGCTGGCGCTGGGCCGCAAGCACAGCCTGCCGTCGATCGACATCGAGAGCGACGACATCGCCTTCCTGCAGTACACCGGCGGCACCACCGGCGTGGCCAAGGGCGCGATGCTGACCCATCGCAACCTGATCGCCAACATGCAGCAGGCCGCGGCCTGGATCGCCGCGACCGGCAAGCTGGAGGAAGGCAACGAGGTGGTCATCACCGCGCTGCCGCTGTACCACATCTTCGCGCTGACCGCGAACGGCCTGGTCTTCATGAAGCTGGGCGGCTGCAACCACCTGATCAGCAATCCGCGCGACATGCCCGGCTTCGTCAAGGAGCTTAAGGGCAGCCGCTTCACTGCGATCACCGGCGTCAACACGCTGTTCAATGGCCTGCTCAACACGCCCGGCTTCGACCAGGTCGATTTCTCGGCGCTGAAGATGACCCTGGGCGGCGGCATGGCGGTGCAGCACTCGGTCGCCGACCGCTGGAAGCAGGTCACCGGGATCACCCTGGTCGAGGCCTACGGCCTGACCGAGACCTCGCCGGCGGCCTGCATCAACCCGCTCGACCTGGCCGAGTACAACGGCGCGATCGGCCTGCCGATCCCGTCCACCGACGCCTGCCTGAAGGACGACGCCGGCAACATCCTGCCGGTCGGCGAGCCGGGCGAGCTGTGCATCAAGGGCCCGCAGGTGATGAAGGGCTACTGGCAGCGCCCGGAGGAAACGGCCAAGGTGATGGATGCCGAGGGCTGGCTGCACACCGGCGACATCGCGCGGATGGACGAGAAGGGCTTCTTCTACATCGTCGACCGCAAGAAGGACATGATCCTGGTGTCCGGCTTCAACGTGTACCCGAACGAGATCGAGGACGTGATCGCGGCGATGCCGGGCGTGCTGGAAGTGGCCGCGGTCGGCGTGCCGGACGAGAAGTCCGGCGAGATCGTCAAGGTGGTGATCGTGCGCAAGGACCCGAACCTGAGCGCCGACGACGTCAAGGCCTACGCCCGCGCCAACCTGACCGGCTACAAGCACCCCAGGATCGTCGAATTCCGCAAGGAACTGCCGAAAACCAACGTCGGCAAGATCCTGCGTCGCGAACTGCGAGACGCGCCGTCGGCATAG	MSQARPWLQSYPAGVPAEIDVDEFRTIADVFATSVAKYPDRPAYRSFGKTLSYRETDVLSRQFAAYLLGELKLKKGDRVALMMPNCLQYPVATFGILRAGLTVVNVNPLYTARELKHQLCDAGTSVLIAIDNFGTTVAEVIAETPVRQVITTGLGDMLGFPKGPLVNFVVKYVKKLVPEYRLPGAIRFREALALGRKHSLPSIDIESDDIAFLQYTGGTTGVAKGAMLTHRNLIANMQQAAAWIAATGKLEEGNEVVITALPLYHIFALTANGLVFMKLGGCNHLISNPRDMPGFVKELKGSRFTAITGVNTLFNGLLNTPGFDQVDFSALKMTLGGGMAVQHSVADRWKQVTGITLVEAYGLTETSPAACINPLDLAEYNGAIGLPIPSTDACLKDDAGNILPVGEPGELCIKGPQVMKGYWQRPEETAKVMDAEGWLHTGDIARMDEKGFFYIVDRKKDMILVSGFNVYPNEIEDVIAAMPGVLEVAAVGVPDEKSGEIVKVVIVRKDPNLSADDVKAYARANLTGYKHPRIVEFRKELPKTNVGKILRRELRDAPSA	PGPT0008380_10134	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
BMS020_06882	870	fadB_2		Fatty acid oxidation complex subunit alpha	ATGTCCGCTTTGAACCCCGTTGTCGAGGCTGCGCGCGAATCCACCATCCGGGTCATCGAAGAGCCCGGCCGCGACGTCTACTGGATGCACATGCACGCCCACCTGGCCAATCTTCCCGGTGGCCGCCCCTGCTTTTCCTCGCGCCTGCTCGACGACCTGATGGTCCAGCAGGCGCAGGTGCGCCGCCGCATCGTCGAACGCGGCGGCGAGTCACCGTTCCTGGTCCTGGTCTCCGACAGCGACGTGTTCAACCTCGGCGGCGACCTGGAGCTGTTCTGCCGGCTGATCCGCAATGGCGACCGCGAAGGCCTGCTCGACTACGCCCGGCGCTGCATCCATTGCGCTTACGGCTTCAGCAGCGGCATGCACGAGGACGCCCACTGCATCGCACTGGTGCAGGGCAACGCGCTCGGCGGCGGTTTCGAGGTCGCGCTCAGCTGCCACACCATCGTCGCAGAGGAAGGCGCGGAGATGGGCCTGCCCGAGGTGCTGTTCGACCTGTTCCCCGGCATGGGCGCGTACTCCTTCATGTGCCAGCGGGTCAGCCCGCGCGTGGCCGAGCGGTTGATGCTGGAAGGCAACGTGCACCCGGTCGAGGAGCTGCTCAAGCTCGGCCTGGTGGACTACGTGGTGCCGCGCGGCCAGGGCCATGAGACGGTGGAACGGCTGATCCGCGAAGGACGGCGCATCCCGCACGCGTGGAAGGCGGTGCAGCAGGCCAAGCGCGGCGCCACCGCGCCGTCGTTCGAGGAACTGCTGCGCATCACCGAGATCTGGGTCGACACCGCGCTGCAGCTCGGCGAGAAGTCGCTGCGCACGATGGAACGGCTGGTGCGTGCCCAGGACCGCCGCGGCAACGCCGCAGCCTAG	MSALNPVVEAARESTIRVIEEPGRDVYWMHMHAHLANLPGGRPCFSSRLLDDLMVQQAQVRRRIVERGGESPFLVLVSDSDVFNLGGDLELFCRLIRNGDREGLLDYARRCIHCAYGFSSGMHEDAHCIALVQGNALGGGFEVALSCHTIVAEEGAEMGLPEVLFDLFPGMGAYSFMCQRVSPRVAERLMLEGNVHPVEELLKLGLVDYVVPRGQGHETVERLIREGRRIPHAWKAVQQAKRGATAPSFEELLRITEIWVDTALQLGEKSLRTMERLVRAQDRRGNAAA	PGPT0025600_224	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0025600-rpfF-K13816	NA	NA
BMS020_06883	2154	rpfC	COG0642	Sensory/regulatory protein RpfC	ATGGCCGCGGTCCTGGGCGCGCTCCGACGGCGGCTGTCGGGCCGTCCGGACAGCGAGCACCTGCAGAATTTCGTGCGGATGGTCATTGCCGTCCTGCTGTGCGTGTACCTGTGGGTGATCGGCACGGCCGAGGGCCGGCCGGACTACCTGGCCTCGACCTGGTGGGTGCTGGCCTGCGAGATGGCGATCTCGCAGGGGCTGTTCGTCTCGATCCTGCTCAACCCCGGCGTCTCGCACCTGCGCCGGGCGATCGGCATGGTCGGCGACTACACCTGCGTGATCGTGCTGATGCGCGCCACCGCCGACGCCGGCGCGGTGTTCTACGTGGTCTGCCTGTGGGTGACCATCGGCAACGGCCTGCGCTACGGCAGCACCTACCTGCTGATCGCCACCGCGGTCGGGGCGGCATCGCTGCTGCTGGTCGGCTGGCTGTCGCCGTTCTGGGGCGGCAACCCGAACCTGATCGGCGCGCTGCTGCTGGGCCAGATCGCCATCCCGCTGTACTTCCGTTCGCTGCTCAAGGCCTTGACCCGGGCGCTGGGCGAGGCCCGCCACGCCAACGAGGCCAAGAGCCGCTTCCTGGCCAACATGAGCCACGAGTTCCGCACGCCGTTGAACGGGCTGTCGGGCATGTCCGAGCTGCTCGCGGTGACCCGGCTCGACCCGGAGCAGCGCGAATACCTGAAGGCGATCCAGGCCTCCTCGCAGAGCCTGCGGGCGCTGGTCGAGGACGTGCTGGACATCTCGGCGATCGAGGCCGGCAAGGTGCGGGTGATCCGCAAGGGCTTCGCGCTGCGCGAACTGGTCGACGCGGTCGGGCTGATCCTGCGCCCGCAGGCCAGCCGCAAGGGCGTGGACTACCGCGTGGACATCGCCGCGGAGATCCCCGACCAGCTGGTCGGCTCGCCCGACCACCTGCGCCAGGTGCTGCTGAACCTGCTCGGCAATGCGGTGAAGTTCACCGAGAAGGGCATGGTGGAGCTGCGTGTCCGCATGCAGCAGGCACCGGACCGCAGCCGGGTGGCGTTGCGCTTCGACATCGTCGATACCGGCATCGGCGTGCCGGTGGGCCTGCGCGACCACGTGTTCGAGGCGTTCCGCCAGGCCGATACCGAACTGAACCGCCGCTACGAGGGCACCGGCCTGGGCACCACCATCGCCAAGGGCCTGGTCGAATCGATGGGGGGCGGCATCGGCTATTTCGCCAACCACCCGCACGGCAGCGTGTTCTGGTTCGAACTGGCGTTCGAGCAGGCGGTGGCCGGGGCCACGGCGCAAGCCGGCGGCGAGGCGCCCTCCAACGTCATCGCCTTCTCCGATCCGTTCCTGCGCCACCGCGCGCGGGTGCGCTCGATGCGCGTGCTGATCGCCGACGACCATGAAGCCAACCGCATGGTGCTTCAGCGCATGCTGGAAAAGGCCGGGCACCAGGTGGTCTGCGTCAACGGCGCCGAGGCGGTGCTCGACCAGCTGCTGGATGCGGACTTCGACGCGGTCATCGTCGACCTGCACATGCCCGGCATGAGCGGCATCGACATGCTCAAGCAGCTGCGGGTGATGCAGGCCTCGGGCATGCCGGCGGTACCGGTGGTCGTGCTCAGCGCCGACGTCACGGTGGAATCGATCCGCCGCTGCGAGGAGGCCGGGGCGCGTTCGTTCCTCGGCAAGCCGGTCGAGGCCGACAAGCTGCTCGGCGTGCTGACCTCGATCGCCTCCGGCGAGCGGCGCAATGCGGTGCGCGAAGCGCCGGCCGAGCGCCCGCTGGACGAGGATGTGGTGCTGGACGAGCACATCCTCGACGACCTGGCGGAACTGGGCATGGGCGACGGCTTCGAGGCGCAGTTCGTCTCGCAGTGCCTGGCCGACGCGATGCGCTGCCTGCACGCGCTGGGCCGGGCGGCCGAGGATGGCAACGGCGAGGACGTCCGCGCGCACGCGCACGCGTTGCGCGGCGTCGCCGCCAACCTGGGCCTGGCCCGGCTGGCGGCGCGCGCGCGCGCGTTGATGACGGCGAGCACGCCCTATGGCAAGGCCGACATGGCCGCGCGGATCGCCGCCCTGCGCAACGAACTGGCCGAGGGCAGGGCGGCGTTGGACGCGCGCCGGCAACGCGGCCGACGCGACGACGGGCAGGGCACGTTCCCCGGGGCGTGA	MAAVLGALRRRLSGRPDSEHLQNFVRMVIAVLLCVYLWVIGTAEGRPDYLASTWWVLACEMAISQGLFVSILLNPGVSHLRRAIGMVGDYTCVIVLMRATADAGAVFYVVCLWVTIGNGLRYGSTYLLIATAVGAASLLLVGWLSPFWGGNPNLIGALLLGQIAIPLYFRSLLKALTRALGEARHANEAKSRFLANMSHEFRTPLNGLSGMSELLAVTRLDPEQREYLKAIQASSQSLRALVEDVLDISAIEAGKVRVIRKGFALRELVDAVGLILRPQASRKGVDYRVDIAAEIPDQLVGSPDHLRQVLLNLLGNAVKFTEKGMVELRVRMQQAPDRSRVALRFDIVDTGIGVPVGLRDHVFEAFRQADTELNRRYEGTGLGTTIAKGLVESMGGGIGYFANHPHGSVFWFELAFEQAVAGATAQAGGEAPSNVIAFSDPFLRHRARVRSMRVLIADDHEANRMVLQRMLEKAGHQVVCVNGAEAVLDQLLDADFDAVIVDLHMPGMSGIDMLKQLRVMQASGMPAVPVVVLSADVTVESIRRCEEAGARSFLGKPVEADKLLGVLTSIASGERRNAVREAPAERPLDEDVVLDEHILDDLAELGMGDGFEAQFVSQCLADAMRCLHALGRAAEDGNGEDVRAHAHALRGVAANLGLARLAARARALMTASTPYGKADMAARIAALRNELAEGRAALDARRQRGRRDDGQGTFPGA	PGPT0025610_85	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_PERCIPITATION|SIGNALLING,PGPT0025610-rpfC-K10715	NA	NA
BMS020_06884	1143	rpfG	COG3437	Cyclic di-GMP phosphodiesterase response regulator RpfG	ATGCAGGATGTCGCAGGACAGCAGCGTTCGGGGGTATCGTCTGCCGACACCCAGCCCGGGTGGCACGACAAAGCGGAGCACGGCTTGAACATCGTCATCGTGGATGACCAGACGTCCGCGCGCACGATGCTGCGGCACGTGATCGAGGACATCGCGCCGGAACTACGCGTCTACGATTTCGGCGATCCGTTGGCGGCGCTGTCCTGGTGCGAAGCCGGGCAGGTCGACCTGCTGCTGCTGGACTACCGCATGCCGGGCATGGACGGGCTGGAGTTCGCCCGGCGCATGCGCCGCCTGCCCAGCCACCGCGACATCCCGATCATCCTGATCACCGTGGTCGGCGACGAGCCGATCCGCCAGGCGGCGCTGGAAGCCGGGGTGATCGATTTCCTGGTCAAGCCGATCCGCCCGCGCGAGCTGCGTGCCCGCTGCAGCAACCTGCTGCAGCTGCGCCAGCAGAGCGAGAGCGTCAAGCAACGGGCGCTGTCGCTGGAGCAGCGCCTGCTGGCGAGCATCAACGAGGTCGAGGAGCGCGAGCGCGAGACGTTGTCGCGGCTGGCGCGGGCGATCGAATACCGCGACGCCGGCACCAGCGCCTACCTGGAGCGCATGTCGCACGTGGCCGGGCTCATCGCCGAGCAGCTGGGCCTGAGCGAGGACGAGGTGCGCATCATCGAGATGGCCGCGCCGCTGCACGACATGGGCAAGATCGCCATTCCCGACGCGGTGCTGCTCAAGCAGGGCAAGCTGAGCGAGGAGGAGATGGCGGTGATGCGCCGCCACCCGCGGATCGGCTACGAGCTGCTCAGCGGCAGCCAGAACCGCTTCATCCAGATCGGCGCGCTGATCGCGCTGCGCCACCATGAGCGTTACGACGGCAGCGGCTACCCGGACGGCCTGATCGGCGAGGCGATTCCGTTGGAAGCAAGGATCGTGGCGGTGGCCGACGTGTTCGACGCGCTGGTCTCGCCGCGCCCCTACAAGGAGGCCTGGACCATGGACGCGACGCTTGCCTACCTGTACGCCCAGCGCGGGCGGCTGTTCGACCCGCGCTGCGTCGACGCGCTGCTGCGCGCGCGGCCGGCGCTGGAGCAGATCTGCGAGCAGTTCTCCACCGCCTCGCCCCGGCCGGGAGAAACCTGA	MQDVAGQQRSGVSSADTQPGWHDKAEHGLNIVIVDDQTSARTMLRHVIEDIAPELRVYDFGDPLAALSWCEAGQVDLLLLDYRMPGMDGLEFARRMRRLPSHRDIPIILITVVGDEPIRQAALEAGVIDFLVKPIRPRELRARCSNLLQLRQQSESVKQRALSLEQRLLASINEVEERERETLSRLARAIEYRDAGTSAYLERMSHVAGLIAEQLGLSEDEVRIIEMAAPLHDMGKIAIPDAVLLKQGKLSEEEMAVMRRHPRIGYELLSGSQNRFIQIGALIALRHHERYDGSGYPDGLIGEAIPLEARIVAVADVFDALVSPRPYKEAWTMDATLAYLYAQRGRLFDPRCVDALLRARPALEQICEQFSTASPRPGET	PGPT0025615_43	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_PERCIPITATION|SIGNALLING,PGPT0025615-rpfG-K13815	NA	NA
BMS020_06885	1518	lysS_2		Lysine--tRNA ligase	ATGACCGACCAGACCGCCGCCCCGCAGACTCCCGCCGACGAGAACAGCCTCATCGCCGAGCGTCGCGCCAAACTCACGGCGCTGCGCGGGCAGGGCATCGCCTACCCGAACGACTTCAAGCGCGAGCACTTCGCCGGTGACCTGCAGGCCGAGTTCGCCGACGCCGACACCTGGACCGCCGAGGCGCTGGAAGGCGCCGAGCGCCAGGTGAAGCTGGCCGGCCGGCTGATGGCCAAGCGCATCATGGGTAAGGCCAGCTTCGCCCAGATCCAGGACGAGTCCGGCCGCATCCAGCTGTTCCTGCAGGGCAACGCGCTGGGCGATGTCTACACCGCGTTCAAGGGCTGGGACGTCGGCGACATCGTCGCGGTCGAGGGCGGGCTGACCCGCACCAAGACCGGCGAGCTGTCGGTCAAGGCCACCGGCCTGCGCCTGCTGACCAAGTCGCTGCGCCCGCTGCCGGACAAGTGGCATGGCCTGAGCGATGTCGAGCAGCGCTACCGCCAGCGCTACGTCGACCTGATCGTGACCCCCGAGGCGCGCGAGGTCTTCATCAAGCGCTCCAAGATCATCCGCGCGATCCGCTCATGGCTGGACAACCGGCGCTTCCTGGAAGTGGAGACGCCGATGATGCATTACATCCCCGGCGGCGCCACCGCCAAGCCGTTCACCACCCACCACAACGCGCTGGACCTGCAGCTGTACCTGCGCGTGGCGCCGGAGCTGTACCTCAAGCGCCTGGTCGTGGGCGGCCTGGAGCGCGTGTACGAGATCAACCGCAACTTCCGCAACGAGGGCGTGTCGACCCGGCACAACCCCGAGTTCACGATGCTCGAGCTGTACGAGGCCTACGCCACCTACCACGAGGTGATGGACCTGACCGAGAACGTGATCCGCGAGACCGCGCAGACGGTGCTGGGCACCACCCAGGTCGAGTGGGACGGGGCGCAGATCGATCTGGCGCCGGCGTTCCGCCGCTGGCGCATGGACGAGGCGGTGCGCCACCACAACCCGGAGATCAGCGTCGCCGACTGCACCGACCGCGACGCGCTGCGCGCCCATTGCGAGCGGCTGAAGATCAAGTTCAAGCCGTCCTACGGCTGGGGCAAGCTGCTGCTGGAGATCTTCGAGGCGACCGTCGAGCACACCCTGGTGCAGCCGACCTTCATCACCGACCACCCGGTCGAGGTCTCGCCGCTGGCCCGCGCCAGCGACACCGAGGCCGGCTACACCGATCGCTTCGAGCTGTTCATCAACGGCAAGGAGCTGGCCAACGGCTTCTCCGAATTGAACGACCCGGAAGACCAGGCCGCGCGCTTCCAGAAGCAGGTCGAGGCCAAGGACGGGGGCGACGACGAGGCGATGCACTTCGATACCGATTACATCCGTGCGCTGGAGTACGGCATGGCCCCGACCGGTGGCCTGGGCATCGGCATCGACCGGCTGGTGATGCTGCTGACCGGCAGCACCTCGATCCGCGACGTGCTGCTGTTCCCGTACATGCGCCCGGAAGCCTGA	MTDQTAAPQTPADENSLIAERRAKLTALRGQGIAYPNDFKREHFAGDLQAEFADADTWTAEALEGAERQVKLAGRLMAKRIMGKASFAQIQDESGRIQLFLQGNALGDVYTAFKGWDVGDIVAVEGGLTRTKTGELSVKATGLRLLTKSLRPLPDKWHGLSDVEQRYRQRYVDLIVTPEAREVFIKRSKIIRAIRSWLDNRRFLEVETPMMHYIPGGATAKPFTTHHNALDLQLYLRVAPELYLKRLVVGGLERVYEINRNFRNEGVSTRHNPEFTMLELYEAYATYHEVMDLTENVIRETAQTVLGTTQVEWDGAQIDLAPAFRRWRMDEAVRHHNPEISVADCTDRDALRAHCERLKIKFKPSYGWGKLLLEIFEATVEHTLVQPTFITDHPVEVSPLARASDTEAGYTDRFELFINGKELANGFSELNDPEDQAARFQKQVEAKDGGDDEAMHFDTDYIRALEYGMAPTGGLGIGIDRLVMLLTGSTSIRDVLLFPYMRPEA	PGPT0012225_3401	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
BMS020_06886	927	prfB_2	COG1186	Peptide chain release factor RF2	GTGGGCGGCATCTCCAGCGTGCTCGACGGCCTGGCCGAGGCCGGCGCCCTGCTCGAGCTGGCCGAGGCCGAGCAGGACGAGGAAACCGCCGAGGCGGTGATCGCCGACCTGGACAAGTTCCAGGGCCAGGTCGAGAAGCTGGAATTCCAGCGCATGTTCTCCGGGCAGATGGACGGCGCCAACGCGTTCGTCGACATCCAGGCCGGCGCCGGCGGCACCGAGGCGCAGGACTGGGCCGAAATCCTGCTGCGCATGTACCTGCGCTGGGCCGAAAGCCGCGGCTGGAAGACCGAGCTGCTGGAAGTCTCCGGCGGCGAGGTGGCGGGCATCAAGTCGGCGACGTTCCGCGTCGAGGGCGACTTCGCCTATGGCTGGCTGAAGACCGAGATCGGCGTGCACCGGCTGGTGCGCAAGTCGCCGTTCGATTCGGACAACCGCCGCCACACCAGCTTCACCTCGGTGTTCGTGTCGCCGGAAGTGGATGACAACATCGACATCCAGATCAACCCGGCCGACCTGAAGACCGACGTCTACCGCTCCTCCGGTGCCGGTGGCCAGCACGTCAACAAGACCGAGTCGGCAGTGCGCATCACCCACGTGCCGACCAACACGGTCGTGGCCTGCCAGACCGAGCGCAGCCAGCACGCCAACCGCGACCGCGCGATGAAGATGCTGGCGGCCAAGCTGTACGAGCTCGAAGTGCAGAAGCGCAACGCCGAGAAGGACGCGGTGGAAGCCACCAAGTCCGACATCGGCTGGGGCAGCCAGATCCGCAACTACGTGCTCGACCAGAGCCGGATCAAGGACCTGCGCACCGGCATCGAGCGCAGCGACACCCAGAAGGTGCTCGATGGCGACCTGGACGAGTTCATCGAGGCCAGCCTGAAGGCCGGCCTGGCCGCCGGTTCCAAACGCATCGACGCGTAA	MGGISSVLDGLAEAGALLELAEAEQDEETAEAVIADLDKFQGQVEKLEFQRMFSGQMDGANAFVDIQAGAGGTEAQDWAEILLRMYLRWAESRGWKTELLEVSGGEVAGIKSATFRVEGDFAYGWLKTEIGVHRLVRKSPFDSDNRRHTSFTSVFVSPEVDDNIDIQINPADLKTDVYRSSGAGGQHVNKTESAVRITHVPTNTVVACQTERSQHANRDRAMKMLAAKLYELEVQKRNAEKDAVEATKSDIGWGSQIRNYVLDQSRIKDLRTGIERSDTQKVLDGDLDEFIEASLKAGLAAGSKRIDA				NA	NA	NA	NA	NA
BMS020_06887	561			hypothetical protein	ATGATCTCGTTCACGATCGTGATGTTGGTGGCCGTGGCACTGGTCGCGCTGTTGGCCTGGTGGGCGCTGCTGCCGTTGCGGCAGTGGCGCGCGATCCGCCGGTTGCGCCGCGAGGGACTGCGCCGGCAGGGCGAGGTGCTGGCGGTGTCGACGATCGCGGGCGGCAAGCTGCGGGTGACCTTTGGCCTGGACGCCGCCGACGGCCGCGCGTTGCGCGAGGAGGTCGACCTGGTCGACAGCAAGCCGCAGCTGCACCGTTTCGAGGCCGGCCGGCGCCTGGACGTGCTGCTGTCGCCGTCTGCCGACGCGCAGCCGCGGCTGATGCTGGCCGACGCGCGCATCGGCGTCGGCTGGCGGGCGGCGATCGCCCCGCTGCTGCTGGCGGCGCTGCTGGTCGCGGGCCAGCGCCTGTTCGCGCTGCGGCTGTACCAGGCCGGCGGCGAATTGGCCGAGATGTTCAGCCGTGGCCAGCCCGAGACCCTGGTCGCGATGGTCTGGGGCGTGCCGCTGGCGATCGGCCTGGTGGTGCTTGTGGCCGGGTTGCGGCGGCGCGGGCGCTGA	MISFTIVMLVAVALVALLAWWALLPLRQWRAIRRLRREGLRRQGEVLAVSTIAGGKLRVTFGLDAADGRALREEVDLVDSKPQLHRFEAGRRLDVLLSPSADAQPRLMLADARIGVGWRAAIAPLLLAALLVAGQRLFALRLYQAGGELAEMFSRGQPETLVAMVWGVPLAIGLVVLVAGLRRRGR				NA	NA	NA	NA	NA
BMS020_06888	1497			hypothetical protein	ATGAAGAAGACCGTATTCGCCGCGTTGTTGTCCGGCGGTTTCGTCCTGATGATGTTCCTGGGGCTGCCGCTGTTCATCCATTACATGCTCGACCGCCATGCATCGGCGGCGCTTGGCGACAGTGTCGCCGTGGTCGGCGGGGGGCGGCGTGCGCTGCTGGCGTTTCCGATGTCCGAATCGCACGCCACTTCGTCCGGGCGTGGCGTGGTCCACAGCAGCAGCCGCGATTACGCCCAGCTGGTGGACATGGACAGCGGCCGCCTGCTGTGGAGCCGGCGCCTGGATGCGCCCAGCAGCACCGACTACGACAGCGGCGATGGCGTGCTGGTGGCGCATTCCCCGCGCTACCTGTTCTTCGTGCGCAACGCGTTGTATGTGTTCGCGATCGGCGATGGCGAACGCATCGAGGGCGATGGCCGGTTGCGGGCGCTGACCGCCGACCACGCGTTGCAGCGCGTGGCCTGGCACCCGCAGCAGCATGCACTGGCTGTGTTGGACCAGCAGGGCCGCGGCTGGTGGATCGACACCGACAGCCTGCAGGTGCGTGCCGACGACGCGATGGATCCGGTGGCGCTGGAAGGCGACGGCGCGGTGGACGTGAACGGTTTCGGCGGCCACGGCCTGTCCAGCGGGGTGCCGCGGGCCTCCGGGGCGGTCGATGGCGACGGCAGCTGGTGGCTGCTGACCTCCCCGGCCGGGCTGGCGGCGTTGTCGGCAGGGCGCGGGATGGGCGAGGGCAAGGGCCTGGACCTGCGCCGGCAGCTGCAGCACGGGCGCTTCGACTGGACCGGCGAACCCGCCGCGCGGTTCCGCAACGTGTCCACGCAGGGCTTCCTCGACGGCACGTTGCTGCTCGATCCGCGTGCGGCCGCGCCGACCGGGCAGCAGCTGCAGGAGGTCGCTGATGACGAGACGACGGCGGCCAGCACGCTGCCGCCGGAGCCGGAGTTCGACGGCGACCCCAGGAAGTACGCCAGCGAGCGCGCCTACCGCGAGGCGGTCTACCAGTACCGGCGCGATCGGGATGCATGGCGTCAGCTGCGCGATGCCGACCGGCGCCAGCGCGATGCGCGCCGCGCCCAGCTGCAGGCGCAGCGCGCCGCGCTCGCCGAGCGCCACAACCGCTATGACGAGGCGCTGCGCGAGCTGCAGCTGCGTGGCGGCCCGGTGGTGGCGGTCGACCAGCTGTGGACGACCGCGCAGGGCGACTGGCTGGTGCTGCACCGACGCAGCGGCGAGCGCGATGCCGAGCTGCTGTTGAGTGCACTGCGGCGCAATGGCCGGGTGCGCTGGACGCTGGCGCTGGGGGTCAAGCGCCTGGCGCGGCTGTGGGGCGGCAACGGGCAATGGCTGGCGCAGGGTCAAGCCATGCAGCGCGACAGCGACCGGCTGCTGCGGATCGACCTGGCCAGCGGCCAAGGCATCGGCTACGGCCTGCTCGACCGCGATGCCGCGCCGCTGGCGCGTGCCGATACGGCCGGGGAGGGCACGCGATGA	MKKTVFAALLSGGFVLMMFLGLPLFIHYMLDRHASAALGDSVAVVGGGRRALLAFPMSESHATSSGRGVVHSSSRDYAQLVDMDSGRLLWSRRLDAPSSTDYDSGDGVLVAHSPRYLFFVRNALYVFAIGDGERIEGDGRLRALTADHALQRVAWHPQQHALAVLDQQGRGWWIDTDSLQVRADDAMDPVALEGDGAVDVNGFGGHGLSSGVPRASGAVDGDGSWWLLTSPAGLAALSAGRGMGEGKGLDLRRQLQHGRFDWTGEPAARFRNVSTQGFLDGTLLLDPRAAAPTGQQLQEVADDETTAASTLPPEPEFDGDPRKYASERAYREAVYQYRRDRDAWRQLRDADRRQRDARRAQLQAQRAALAERHNRYDEALRELQLRGGPVVAVDQLWTTAQGDWLVLHRRSGERDAELLLSALRRNGRVRWTLALGVKRLARLWGGNGQWLAQGQAMQRDSDRLLRIDLASGQGIGYGLLDRDAAPLARADTAGEGTR				NA	NA	NA	NA	NA
BMS020_06889	870			hypothetical protein	ATGACTTCGGACACCGCTTCCCCCTACGCCCGCTACCGTCCCTGGCGTCGCCTGTTCGAGTGCGGCTTCTGGGTGATCAACACCCTGATCGGCGCGGTGCTCAACAGCATCACCATGGTGATGGACGTGCACCGGGCCGGGCTCGGCTTCGCCGACTGGGAGCCGGTGATCTGGGAGTGGTCCAGCGCACTGGCCTGGCTGGCGCTGGTCTGGCCGGTGGTCTGGTTCAGCCGCCGCTTCCCGCTGCACTGGGACACCTGGTCGCGGCAGTGGCCGCGCTATCTGCTGGCCAGCGTGGTGGTCAGCTGGCTGCACGTGCTCGGCATGGTCGGCCTGCGCATGCTGGCCTACCGCTGGCAGGGCGGGCAGTACGACTTCGGAAGCTGGCCGCGCGAATGGACCTACGAATACCTCAAGGACGTGCGTTCGTTCGGCTCGATGCTGGTGCTGATCGGCGGCTACCGGCTGTGGCTGCTGCGGCTGCAGGGCGAGGCGCGGCTGCTGGATCCGCCCGAGGCCGGCGCGGCGTCCGATTCGCCCGAGCGCCCGCAGCGCCTTCTGGTGCGCAAGCTCGGGCGCGAATTCCTGATCGCCACCGCCGACATCGAATGGGCGCAGGCCGCCGGCAATTACGTCAACCTGCATCTGCGCGGCCACGACTATCCGTTGCGCAGCACGATGGCGGCGATCGAGGCACGGCTGGACCCGGCGCTGTTCGTGCGCATCCACCGCAGCTACCTGGTCAACCTCGGCCAGGTGCAATCGATCGAGCCGCTCGATGGCGGCGAGGCGCGGGTACATCTGCGCGATGGCGGCGCGTTGCCGTGCAGCCGCCGCTACCTGGCGCCGCTGCGCGCGGCCAGCGGCTGA	MTSDTASPYARYRPWRRLFECGFWVINTLIGAVLNSITMVMDVHRAGLGFADWEPVIWEWSSALAWLALVWPVVWFSRRFPLHWDTWSRQWPRYLLASVVVSWLHVLGMVGLRMLAYRWQGGQYDFGSWPREWTYEYLKDVRSFGSMLVLIGGYRLWLLRLQGEARLLDPPEAGAASDSPERPQRLLVRKLGREFLIATADIEWAQAAGNYVNLHLRGHDYPLRSTMAAIEARLDPALFVRIHRSYLVNLGQVQSIEPLDGGEARVHLRDGGALPCSRRYLAPLRAASG				NA	NA	NA	NA	NA
BMS020_06890	1203			hypothetical protein	ATGCAACGCCGTCACGACATCGATGCCCTGCGCGTCATCGCCTTCGCCCTGCTGATCCTCTACCACGCCGCGATGGTCTATGTGAGCGAGTGGGACTTCCACATCAAGAGCGGCTACCAGGCCGAGTGGCTGCAGTGGCCGATGATCGCGCTGAACCGCTGGCGGATGCCGCTGCTGTTCATGATCTCCGGGATCGCGCTCGGCTTGGCCGGCATCGAACGGCGGCGCCTGCGCTTCGCCGCCGTGCGTACCTGGCGCCTGCAGTTGCCGCTGCTGTTCGGCATGTTCGTGGTGGTCGCCTTCCAGGTCTATTGCCAGGGCCGCGCCGACGGGCGGCTGCCGGCCGGGTTGGCGGACTTCCTGCTGCGCTACTGGCACCTGCGCCCGCAGCCGGCCGATCCAGCCTATGCACTGACCTGGAACCACCTGTGGTACCTGGCCTACCTGTGGCCATACACGATGCTGCTGGTGCTGGCGGTCCCGCTGCTGCGCCCGCTGGCCGACCTGCTGCGCGCACCGGCGCATCCACACCTGGCCGGCGCCCTGCTGCTGGCGCTGCCGTTCGCCTGGCTGGTCGCGGTGCGGCTGTGGCTGGCGCCGCGCTACCCGGAGAGCCATGCACTGCTCGGCGACTGGACCGTGCACGCCGAATCGCTGCCGCTGCTGCTGTTCGGCTATCTGCTCGCCGGCAGCAGCTGGTTCTGGACCTGGGTCGCACGCCTGCGCTGGCCGACCCTGCTGGTCGCCGTGGCGGCGATCGGCACCGAACTGGGGCTGCGCTGGATCGGCCGCCATCCACCGGCCGGCCCGCTGCCGGCATGGGCGCTGCAGGTGCCGTGGTACGCGGTCGAGCGCGGCGCGCGCGCGCTCTACACCTGGATGGCGCTGCTGGCGATCCTCGGCTGGGCCCGCGTGCTGCTGGACCGGCCGTTCCGCTGGCTGCCGTACTGCACCGAGGCGGTCTTCCCCTGGTACGTGCTGCACCAGACCCTGATCGTCGCGCTGGCCTACGCGCTGATCCCGCTGCGACTGGGGCCAGTGCTGGAACCGCTGCTGGTGATCGGCGGCACCGTGGCCGGCTGCCTGCTGCTGCACGAACTGCTGATCCGCCGCAGCGCCTGGCTGCGGCCGCTGTTCGGCTTGAAGGCCGCCGCGCCGTCGCGGCCGCCGGCGCCACTGGCCTCGCAGCGGTTGCCGGCCTGA	MQRRHDIDALRVIAFALLILYHAAMVYVSEWDFHIKSGYQAEWLQWPMIALNRWRMPLLFMISGIALGLAGIERRRLRFAAVRTWRLQLPLLFGMFVVVAFQVYCQGRADGRLPAGLADFLLRYWHLRPQPADPAYALTWNHLWYLAYLWPYTMLLVLAVPLLRPLADLLRAPAHPHLAGALLLALPFAWLVAVRLWLAPRYPESHALLGDWTVHAESLPLLLFGYLLAGSSWFWTWVARLRWPTLLVAVAAIGTELGLRWIGRHPPAGPLPAWALQVPWYAVERGARALYTWMALLAILGWARVLLDRPFRWLPYCTEAVFPWYVLHQTLIVALAYALIPLRLGPVLEPLLVIGGTVAGCLLLHELLIRRSAWLRPLFGLKAAAPSRPPAPLASQRLPA	PGPT0013335_123	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013335-mdoC|glucans_biosynthesis_protein_C_EC_2_1_X_X-K11941	NA	NA
BMS020_06891	999			hypothetical protein	ATGTTCGAAGTGGAACCCAATCTGTGGCTGCAGGCGTTCGCCACGCCCTGGCTGACCGCGTTGCTGCAGGCGGTGAGCGTCCTCGGCTACGACTGGATCTATCCGCTGCTGGTGCTGCTGGCCGGCTTCGGCGCACGGCTGCGGCCCGCACTGGGCATCATGCTGGCGCTGCTGCTGGCCGGCATGGCCACCCATACGATCAAGCAGGCCTGCGCGCTGCCACGCCCCAGCGATGTCGATGCGCGCGTGCTGAACAAGGGGCGACCGCACCGGCCGCTGGTGGACCACGGCGGCGGCGATGCGGTCTTCGCGCTGCCCAGCCCACAAGCCCGCGCCGCGATCCGCGCCAGCGGCACCGGCGACTACGGCTTCGTCAGCGGCCACGTCGCCGCGGCGACGGCCGGCTGGTTCGGCCTGCTCGCGTGCTTCGGCATCCGCCGGCGCACGGCATGGACAGGCGCGGCCGGCTGGGTGCTGGTGATGGCGCTGTCGCGGATGTACCTCGGGCGGCACTTCCTCGGCGATGTCGTCGGCGGGTGGCTGGTCGGGCTCGCGGCGGTGGCGGTGGCAACGTGGCTGGTGCCGCGCGCGTCCCCGGATCCCCATGCGCAATGGCGCTGGTCAGGCCTGTGCGCCCTGACCGTCACCGTCGCCGCCGCGGCGCTGCTGCCGGTCGCGCCACGGATCGAAGCCGGTACCGCCGGCCGCCTGCTCGGACTCGTGGCGACGCTGGCGATGCTGGCGTCGCCCTGGCTGCCACCGCCGCGGCCATGGCCGGGCGGGCTGCGTACGCTGCTGCGGCTGGCCATCGCCGCCGCGCTGTATGCCGGCGTGCACGCCGCGCTGGCAATCCTGCACGGCGGACACCACCGCTGGGCCGAAACCGTCGCCGCGCAGCTCGCGCTGGCGGCGCTTTCGACGGCGCTCGTCCTCGGCGGCAGCGCGGCATTGGCGAACCGGCTCGACCGCCTGCGACCGCGCGCGGCGGCGCCGCGATGA	MFEVEPNLWLQAFATPWLTALLQAVSVLGYDWIYPLLVLLAGFGARLRPALGIMLALLLAGMATHTIKQACALPRPSDVDARVLNKGRPHRPLVDHGGGDAVFALPSPQARAAIRASGTGDYGFVSGHVAAATAGWFGLLACFGIRRRTAWTGAAGWVLVMALSRMYLGRHFLGDVVGGWLVGLAAVAVATWLVPRASPDPHAQWRWSGLCALTVTVAAAALLPVAPRIEAGTAGRLLGLVATLAMLASPWLPPPRPWPGGLRTLLRLAIAAALYAGVHAALAILHGGHHRWAETVAAQLALAALSTALVLGGSAALANRLDRLRPRAAAPR				NA	NA	NA	NA	NA
BMS020_06892	1548			hypothetical protein	ATGCAGCATCGCTCCGGGACATCTGCCGCCTCGCCCTCTCCATCGCCCTCGCTGCCGCCGCCGGCACTGGCCCTGCTGCTGGGCCTGGCCCTGCTGCGGCTGGTGGCCCACCTGTGGTTGAACGGGCACTACGGCTTTCACCGCGACGAACTGCAGGTCCTCGACGACGCCCGGCACCTGGACTGGGGCTACGTGCCCTACCCGCCACTGCTGCCGTTCGTGGCGCGCCTCGAACTCGCGCTGTTCGGCCCATCGCTGGCGGGCTTCCGGGTGGCGGCGGCGCTCGCCCAGTGCGCGGCGATGGTGTTGGCGGGCCTGATCGCACGCGAACTGGGAGGCCGCCGCTTCGCCCAGATCAGCGCCGCCATCGCCACCGCGTGCATGCCATTCGGCCTGGTGAACAGCAGCATGCTGATGTACACCGGTCCGGACCTGCTGTGGGTGGTGGCGGCGGCCTGGCTGGCCCTGCGCCTGGCCAACGGCGCCGACCTGCGCACCTGGCTGGGACTGGGTGCGGTCTTCGGCCTGGGGCTAATGACCCGCTACACCAGCGTGTTCTGGGCGCTCGGCCTGGCCGCAGGCGTCCTCGCAGGCGGCCCGCTGCGCGCGCAGCTGCGCACGCGCTGGCCGTGGCTGGGCGTGGGCGTGGCGCTGCTGCTGGTGCTGCCGAACCTGCTCTGGCAGATGCGCCATGACTGGATCTACCTCGATTTCGTTGCCCACATCCATGCGCGCGACGTGGCGATCGGGCGCACCGGGGGGTTCTTCCCGGAGCAGCTCTACGCCAACGCGAGCGTACTGACCCTGCCGCTCTGGCTGTCGGGGCTGCTCGGGCTGGCGATCAGCGGCGCGATGCGCCGCTATCGCATGCTGGCGTGGATGTACGTGGTGCCGCTGCTGCTGTTCGCACTGGCGCGCGGCCGCGGCTATTACCTGGCCCCGGCCTACCCGATGCTGCTGGCGGCGGGCGCGGTGCTGCTGGAACGCAGCTGCGCAAACCTGTCCGCCGGCCGCGCCCGGCTCGCGCGTGCGGCCCTGGTCACCTGGCTGGGGCTCGGCCTGGCGCTGGGCGCGGCGTTGCTGTTGCCGATCGCCCCGGTCAACTCGGCGCTGTGGCAGCTGTCCCGGCGCATCCAGGATGGCTATGCCGAGCAGATCGGCTGGCAGGAGCTCGCCACACGCGTCGCGCGGATCTACCACGCCTTGCCGGAGCACGAACGCGCCCACACCGCGATCCTCGCCAACAACTACGGCGAAGCCGGCGCGATGAACCTCTATGGCCCGGCGCTTGGCCTGCCGCGCGTGCTCAGCCGGACCAACAGCGCCTGGTATCGCGGTTACGGCGACCCGCCGCGCGTGATCATCGAATTGGGCAACACCGCACAGGACCAGCGCGGCTCGGTCGCCACCTGCACGTCGCATGGCGTATTCCGCAATCGCGAGGGCGTGGACAACGAGGAATCGTCCAGCGGCTACGAAATCTTCGTCTGCCGCGACATCCCGCCGGTCTGGCCGCAGATCTGGGGAACGCGACCGCGTTTCGGCTGA	MQHRSGTSAASPSPSPSLPPPALALLLGLALLRLVAHLWLNGHYGFHRDELQVLDDARHLDWGYVPYPPLLPFVARLELALFGPSLAGFRVAAALAQCAAMVLAGLIARELGGRRFAQISAAIATACMPFGLVNSSMLMYTGPDLLWVVAAAWLALRLANGADLRTWLGLGAVFGLGLMTRYTSVFWALGLAAGVLAGGPLRAQLRTRWPWLGVGVALLLVLPNLLWQMRHDWIYLDFVAHIHARDVAIGRTGGFFPEQLYANASVLTLPLWLSGLLGLAISGAMRRYRMLAWMYVVPLLLFALARGRGYYLAPAYPMLLAAGAVLLERSCANLSAGRARLARAALVTWLGLGLALGAALLLPIAPVNSALWQLSRRIQDGYAEQIGWQELATRVARIYHALPEHERAHTAILANNYGEAGAMNLYGPALGLPRVLSRTNSAWYRGYGDPPRVIIELGNTAQDQRGSVATCTSHGVFRNREGVDNEESSSGYEIFVCRDIPPVWPQIWGTRPRFG				NA	NA	NA	NA	NA
BMS020_06893	1044			hypothetical protein	ATGCGTTCGCTGTTCTGCCTCACCCTGCTGGCCGTGGCCGGCACCGCCGCCGCGGCGGACACGGCCACCGGTCTGGAATTCCAGCACCACGACTGGATGCTGGCCTGCGACAACACCCGTACCTGCCGCGCCGCCGGCTACCAGGCCGACGACGGCGACAGCGACCCGGTCTCGGTGCTGCTGACCCGCAAGGCCGGTGCGGGCACGCCGGTGCGGGCCGAGCTGGTGCTGGGCAGCTACGACGACGCCGCCGACCTGCCGCGGACGCTGCGGCTGCAGATCGACGGCCGCGATCTCGGCGCGCTGCCGCTCGATGGCGAAAGCGCCACGCTGTCGGCGGCGCAGACCGACGCACTGCTGGCGGCACTGCGCCGCGACAGCGCCATCGTCGCCACCGGCGACAACGGCAAGCGCTGGACCTTGTCGGACCAGGGGGCCTCGGCGGTGTTGCTGAAGATGGACGAGTTCCAGGGCCGCCTCGGCACCCGCGGCGCACTGGTCCGCAAGGGCACGCAGGGCGAAGAGCACGTCTTGCCGCCGCTGCCGGTACCCACCGTGACGCTGGCGAAGCTGCCGCCGACCACCGCCGCCGACAGCGCGCTGGCTGCTTCGCCCGCGCTGCGCGCCGCGCTGGCCGCAGCCACCAGCGCCGACGACTGCGACGCGCTCGGCGCGGACGCCAGCCCGATCCTCGGCGACGAGCCGCAGGCGCTGCATGTCACCCGCCTGAGCAAGAACAAGCTGCTGGTATCGATGCTGTGCTGGCGCGCGGCCTACAACGAAGGCAGCGGCTACTGGGTGGTCAACGACCATGCACCGTACCAGCCGCTGCTGGTCACCAACCTCGGCGCGTACGACGACGGCCGCACGATCGATGCCGCCAACAAGGGCCGCGGGCTCGGCGACTGCTGGTCGACCGCGGCGTGGGGTTGGAACGGCAGCGCGTTCGTGAAGACCGCCGATGCCAGCACCGGGATGTGCCGGTTGGTCGCCGCCGGCGGCGCCTGGGAGATGCCGACGGTGGTGACCGAGGTGAAGCCGTAA	MRSLFCLTLLAVAGTAAAADTATGLEFQHHDWMLACDNTRTCRAAGYQADDGDSDPVSVLLTRKAGAGTPVRAELVLGSYDDAADLPRTLRLQIDGRDLGALPLDGESATLSAAQTDALLAALRRDSAIVATGDNGKRWTLSDQGASAVLLKMDEFQGRLGTRGALVRKGTQGEEHVLPPLPVPTVTLAKLPPTTAADSALAASPALRAALAAATSADDCDALGADASPILGDEPQALHVTRLSKNKLLVSMLCWRAAYNEGSGYWVVNDHAPYQPLLVTNLGAYDDGRTIDAANKGRGLGDCWSTAAWGWNGSAFVKTADASTGMCRLVAAGGAWEMPTVVTEVKP				NA	NA	NA	NA	NA
BMS020_06894	1728	recJ_2	COG0608	Single-stranded-DNA-specific exonuclease RecJ	ATGAGCCAGACCCCGCGTATCGTCCGCCGCGCGGTGGACGCCGCCGGCGAGTGGCCGGCGGCGATGCCGCCGCTGCTGCAGCGGATCTACGCCGCACGCGGTGCCACCACGCTGGCGCAGGCGCAGCCGCGGCTGGCGCAGATGCTGGCGCCGGCCGCACTCGGCGGCATCGATGCGGCGGTGCAGCTGCTGGCGACGGCGATCGCCGAGGACCGGCGCATCCTGGTGGTCGGCGACTTCGATTGCGATGGCGCCACCGCCTGCGCGGTCGGCGTGCGCGGGCTGCGCATGCTCGGCGCGCGCCAGGTGATGCATGCGGTGCCCAACCGCATGGTGCACGGCTACGGCCTGTCGCCGGCGCTGGTGGAGGAGCTGGCCCAGCTGCAACCGGAACTGCTGGTCACCGTCGATCATGGCGTGGCCTGTCTGGCCGGCGTCACCGCGGCCAAGGCGCGCGGCTGGCAGGTGCTGGTGACCGATCACCACCTGCCGGGCGAACGCCTGCCGCCGGCCGATGCGATCGTCGACCCGAACCTGGCTGGTGATGCGTTTGCGAGCAAGGCGCTGGCCGGCGTCGGGGTGATCTTCTACGTGCTGCTGGCGTTGCGGGCGCAGTTGCGCGCGCAGGGGGCGTTCGCCGATGGCGCCGAACCGGACCTGACCACGCTGCTGGACCTGGTCGCGGTCGGCACCGTCGCCGACCTGGTCGCGCTGGACCTGAACAACCGGGCGCTGGTCGCCGCCGGCCTGCGCCGGTTGCGCAGCGGGCAGGCCTGCGTCGGCCTGCGGGCGCTGATCGAGGCCAGTGGCCGTGACGCGTCGCGGCTGACCGCCAGCGACATCGGCTTCGCGCTCGGGCCACGCCTGAACGCGGCCGGGCGGCTGGAGGACATGGCGCTCGGCATCGAACTGCTGCTGACCGAAGACCTGGCGCGTGCGCGCGAGATCGCCGCGCTGCTGGAGGAGATCAACGCCGAGCGCCGTGCGGTGCAGCAGTTGATGACCGACGACGCCGAAGCCGCGGTGGCGCGGGCGATGCTCGCCGCCGAAGGCGAAGCGCCGCTGGCGATGTGCCTGTTCGATGCCGAGTGGCACCCGGGCGTGGTCGGCCTGGTCGCGTCGAAGATGAAGGACCGGCTGCACCGGCCGGTGATCGCCTTCGCCCCGGCCGAGCCCGGCGCGAGCCAGCTGCGTGGCTCGGCGCGTTCGATCCCGGGGCTGCACATCCGCGATGTGCTGGCCGCGGTCGACGCGGCCCATCCGGGCCTGCTCGGCAAGTTCGGTGGCCATGCGATGGCGGCCGGATTGAGCCTGGAGGCCGCCGAGCTGGAGCGCTTCCGCGCCGCGTTCGTCGCGCAGGTGGCCGGCAGCCTGGATCCGGCGCTGCTGCAGGCCGAGCTGCACAGCGACGGCGAGCTGGCCGCGCACGAGCTCGACCACCGCCACGCGCTGGCGCTGCGCGATGCCGGGCCGTGGGGGCAGGGCTTCCCCGAACCGTTGTTCGATGGGCAGTTCGAGGTCGTGCAGTACCGCGTGCTGAAGGAGCGCCACCTCAAGCTGAGCCTGCGTTGCGCCGGCCGGCGCGAGCCGCTCAACGCGATCCACTTCAACGGCTGGCAGGGGCGCGAGCCGGGCCGCCAGGTGCGCCTGGCCTATCGGCTGGTCGGCGACGACTACCGCGGCGGCGAGGCGATCCAGCTGATCGTGGAGCACTGCGAGCCGGCCTGA	MSQTPRIVRRAVDAAGEWPAAMPPLLQRIYAARGATTLAQAQPRLAQMLAPAALGGIDAAVQLLATAIAEDRRILVVGDFDCDGATACAVGVRGLRMLGARQVMHAVPNRMVHGYGLSPALVEELAQLQPELLVTVDHGVACLAGVTAAKARGWQVLVTDHHLPGERLPPADAIVDPNLAGDAFASKALAGVGVIFYVLLALRAQLRAQGAFADGAEPDLTTLLDLVAVGTVADLVALDLNNRALVAAGLRRLRSGQACVGLRALIEASGRDASRLTASDIGFALGPRLNAAGRLEDMALGIELLLTEDLARAREIAALLEEINAERRAVQQLMTDDAEAAVARAMLAAEGEAPLAMCLFDAEWHPGVVGLVASKMKDRLHRPVIAFAPAEPGASQLRGSARSIPGLHIRDVLAAVDAAHPGLLGKFGGHAMAAGLSLEAAELERFRAAFVAQVAGSLDPALLQAELHSDGELAAHELDHRHALALRDAGPWGQGFPEPLFDGQFEVVQYRVLKERHLKLSLRCAGRREPLNAIHFNGWQGREPGRQVRLAYRLVGDDYRGGEAIQLIVEHCEPA				NA	NA	NA	NA	NA
BMS020_06895	927			hypothetical protein	ATGGCCACCGCCACCTTGTTGTTGCCCGAGCGCAGCCGCCTGCCGGGGACCATGCCGGTCGAGGCGGTGACGCGCGCGCTCGGTCGCGCCGACCGCACCGCCCGCGAGGGTGGTGCCGATGCCCAGCTGCGACGTCATTTCACCCTGGTCCCCGATCCGGGCGCATGGCCGGTGGCGGCGCTGACCCGCCAGCTCGATTGCGCCGATGCGGCCGGGGCGGCGTGGGTGCGTGCCGATCCGGCCTACGTGGTGCCCGACATGCAGGGCGCGCGCTTGATGGCGCATGGCGACACGCTGGGGCTGGACGAGGATGACGTCGCTGCGCTGCTGCCGGCGCTGAAGCCGGTGTTCGGCGATGCCGGCTTCCTGCTGGAGGCGCCGGTGCCGTCGCGCTGGTACCTGCGGTTGTCGCCCGAAGCCCGGCTGCCGGCGTTCGCCGAGCCCGACGCCGTGCTCGGCGCCGACCTGTTCGACCACCTGCCGGAAGGCGAGGCCGGACGCCGCTGGCGTGCGTTGCTGACCGAGACCCAGGTGCTGCTGCACCAGCATCCGTGGAATCGCGAGCGCGCCGCGCGCGGCAAGCCGGCGATCAACTCGCTGTGGTTCTGGGGCGGCGGCCTGCTGCCGCACGCGGTGACCTCGCCGCATGCGCAGGTGCGCAGCCGCGAGGCGCTGCTGCGGGCCTTGGCGCTGGCCAGCGGGGCCGACGCCGACGATGCCCAGCCGGTCGACGCACTGGTCGACCTGCGCCACCTGCGCTCGCTGGAGCAGTTTGCCGGCGACGTGGTGCAGCCGCTGCTGGCGGCAATGCGGCGCGGCGAGCTGGATCGGCTGGTGCTGGATTTCCAGGACGGCGAGCGGTTGGAGCTGGTGCCGGCGCAGCGCTGGCGCATCTGGCGCCGCCCGCTTGCGCAGCTGCAGGCATGA	MATATLLLPERSRLPGTMPVEAVTRALGRADRTAREGGADAQLRRHFTLVPDPGAWPVAALTRQLDCADAAGAAWVRADPAYVVPDMQGARLMAHGDTLGLDEDDVAALLPALKPVFGDAGFLLEAPVPSRWYLRLSPEARLPAFAEPDAVLGADLFDHLPEGEAGRRWRALLTETQVLLHQHPWNRERAARGKPAINSLWFWGGGLLPHAVTSPHAQVRSREALLRALALASGADADDAQPVDALVDLRHLRSLEQFAGDVVQPLLAAMRRGELDRLVLDFQDGERLELVPAQRWRIWRRPLAQLQA				NA	NA	NA	NA	NA
BMS020_06896	477	greA_2	COG0782	Transcription elongation factor GreA	ATGAGAGCCCCCATCACCCTGAAGGGCGCCCAGCGCCTGCGCGACGAGCTCGACCACCTGAAGACGGTCAAGCGTCCGAAGGTGATCGCCGCGATCGCCGAGGCGCGTGAGCACGGCGATCTCAAGGAGAACGCCGAGTACCACGCCGCGCGCGAGGAGCAGGGCTTCATCGAGGGTCGCATCAAGCAGCTCGAAGGCGAGCTGTCGCATGCCGAGGTGATCGACATCACCAAGCTCGGCGCCGGCAGCAAGATCGTGTTCGGCGCGACGGTGACGCTGGCCGACGTCGAGAACGACGAGGAGCGCCGTTACCAGATCGTGGGCGACCTAGAAGCGGACATCAAGCAGGGTCTGATCGCGATTTCCTCGCCGGTGGCCCGCGCGCTGATCGGCAAGCAGGAGGGCGACAGCATCGTTATCGATGCGCCGGCCGGCCAGCGTGAGTACGAAGTGGTCAGCGTCGCCTACGTCGACTGA	MRAPITLKGAQRLRDELDHLKTVKRPKVIAAIAEAREHGDLKENAEYHAAREEQGFIEGRIKQLEGELSHAEVIDITKLGAGSKIVFGATVTLADVENDEERRYQIVGDLEADIKQGLIAISSPVARALIGKQEGDSIVIDAPAGQREYEVVSVAYVD	PGPT0030495_1879	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSCRIPTIONAL_CONTROL	PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624
BMS020_06897	3243	carB_3	COG0458	Carbamoyl-phosphate synthase large chain	ATGCCAAAGCGCACTGACATCAAGACCATCCTCATCATCGGCGCCGGCCCGATCGTCATCGGCCAGGCCTGCGAGTTCGACTACTCCGGCGCGCAGGCGTGCAAGGCGCTGCGTGACGAGGGCTACCGCGTGGTGCTGGTCAACAGCAACCCGGCCACGATCATGACCGATCCGAACATGGCCGACGCCGTGTACATCGAGCCGATCAACTGGCAGACGGTCGAGAAGATCATCGCCAAGGAGAAGCCCGATGCGCTGCTGCCGACGATGGGCGGCCAGACCGCGCTGAACTGCGCGCTGGACCTGGCCGACCACGGCGTGCTGGAGAAGTACAACGTCGAGCTGATCGGCGCCAAGCGCGAAGCGATCCGCATGGCCGAAGACCGCGAGTTGTTCCGCGTCGCCATGGGCGAGATCGGCCTGGAGTGCCCGAAGGCGGCCGTGGCCCACACGCTGGAAGAAGCGCTGGAGATCCAGACCCGCGTCGGCTACCCGACCATCATCCGCCCGAGCTTCACCCTCGGCGGCAGCGGCGGCGGCATCGCCTACAACCGCGAAGAGCTGGTCGAGATCGTCAACCGCGGCCTGGAACTGTCGCCGACCACCGAAGTGCTGGTCGAAGAGTCGGTGCTGGGCTGGAAGGAATTCGAGATGGAAGTGGTCCGCGACACCGCGGACAACTGCATCATCGTCTGCTCGATCGAGAACCTCGATCCGATGGGCGTGCATACCGGTGACTCGATCACCGTCGCCCCGGCGCAGACCCTGACCGACAAGGAATACCAGCGCCTGCGCGATGCCTCGATCGCGGTGCTGCGCAAGATCGGCGTCGATACCGGCGGCTCCAACGTGCAGTTCGGCATCAGCCCGAAGACCGGCCGCGTCGTCGTCATCGAGATGAACCCGCGCGTGTCGCGTTCGTCGGCGCTGGCGTCGAAGGCCACCGGCTTCCCGATCGCCAAGGTCGCCGCCAAGCTGGCGGTCGGCTACACCCTGGATGAACTGAAGAACGAGATCACCGGCGGCCTGACCCCGGCCTCGTTCGAGCCGGCGATCGACTACGTCGTCACCAAGATTCCGCGCTTCGCCTTCGAGAAGTTCCCGCAGGCCGACGCGCGCCTGACCACCCAGATGAAGTCGGTGGGCGAGGTGATGGCGATGGGCCGCACCTTCCAGGAATCGGTGCAGAAGGCGCTGCGCGGGCTGGAGACCGGCAAGGTCGGCTTCGACCCGACCGAGCTGGACCTGACCAGCGAAGACGACCTGACCACGCTGCGCCGCGAGCTGAAGGCGCCGGGTCCGGAGCGTCTGTTCTACGTCGCCGACGCGTTCCGCGCCGGCATGAGCGTGGAAGACATCTACGGCCTGTCCTACATCGATCCGTGGTTCCTGGACCAGATCGAGGAAATCATCGCCGCCGAGAAGCAGGTCGCCGCCGATGGCCTGGCCTCGCTCGACGCTGCGCGCCTGCGCAAGCTCAAGCGCGCCGGCTTCTCCGACGCGCGCCTGGCCCAGCTGACCGGCACCAATGAGGCCGCGGTGCGCGCACTGCGTCGTGCGCACAAGGTCAAGCCGGTCTACAAGCGCGTCGACTCCTGCGCCGCCGAGTTCGCCACCAGCACCGCCTACCTGTACTCGACCTACGAGGACGAGTGCGAGGCGCAGCCGACCAACCGCGACAAGATCATGATCCTCGGCGGCGGCCCCAACCGCATCGGCCAGGGCATCGAGTTCGACTACTGCTGCGTGCACGCGGCGCTGGCGCTGCGCGAGGACGGGTTCGAGACCATCATGGTCAACTGCAACCCGGAAACCGTGTCCACCGACTACGACACCTCCGACCGCCTGTACTTCGAGCCGCTGACGCTGGAAGACGTGCTGGAGATCGTCGAGCTCGAACAGCCCAAGGGCGTGATCGTGCAGTACGGCGGCCAGACCCCGCTGAAGCTGGCGCGCGCGCTGGAAGCCAACGGCGTGCCGGTGATCGGCACCTCGCCGGACTCGATCGACCTGGCCGAGGACCGCGAGCGCTTCCAGCAGCTGGTCGACAAGCTCGGCCTGAAGCAGCCGCCGAACCGCATCGCCCGCAACGCCGACGAGGCGCTGGTGCTGGCGCGCGAGATCGGCTATCCGCTGGTGGTGCGCCCGAGCTACGTGCTCGGCGGCCGCGCGATGGAAATCGTCTACGGTGAGTCCGACCTGGCGCGCTACGTGCGTGATGCGGTCAAGGTGTCCAACGACTCGCCGGTGCTGCTCGACCGCTTCCTCGACAACGCGGTCGAGGTCGACGTCGACATCATCGCCGACAAGGACGGCAACGTGCTGATCGGCGGCGTGATGGAGCACATCGAGGAAGCCGGCGTGCACTCGGGCGATTCGTCCTGCTCGCTGCCGCCGTACTCGCTGTCGGCCGAAACCCAGGATGAGCTGCGTCGCCAGGTGATCGAACTGGCCAAGGCGTTGAATGTCATTGGCCTGATGAACACCCAGTTCGCGATCCAGTCCAACGACGATGGCGCCGACACCGTCTACCTGCTGGAAGTGAACCCGCGTGCCTCGCGCACCGTGCCGTTCGTGTCCAAGGCCACCGGCATGGCGCTGGCCAAGATCGCCGCGCGCTGCATGGCCGGCAAGACCCTGGCCGAGCAGGGCGCGACCAAGGAAATCGTGCCGGACTACTACTCGGTGAAGGAAGCGATCTTCCCGTTCGCCAAGTTCCAGGGCGTCGATCCGATCCTCGGGCCGGAGATGCGCTCCACCGGCGAGGTGATGGGCGTCGGCCGCACCTTCAGCGCCGCGTTCGCGCGCGCCCAGGAAGCCGGCGGCATCCGCGCCGCGCAGCCGGGCAAGGCGTTCGTGTCGGTGCGTGACCCGGACAAGAAGCGCGTGCTGCCGGTCGCCCAGGCGCTGGTCGAGCGCGGCTTCACCCTGGTCGCCACCGTCGGCACCGGCAACTGGCTCAAGCAGCACGGGCTGGAGTGCGAGATCGTCAACAAGGTGGTCGAAGGCCGCCCGCACATCGTCGACTCGATCAAGAACGGCGAGATCTCCTACATCGTCAACACCACCGAAGGCCGCGCGGCGATCGCCGACTCGTTCTCGATCCGGCGCGAGGCGCTGCAGCATCGCGTGACCTATTCGACCACCATCGCCGGTGCCAAGGCGCTGGTGCAATCCCTCGAATTCCGCGGCACCGGCCCGGTGTGGTCGCTGCAGGAACTGCACAAGGAGCTGGAAGCATGA	MPKRTDIKTILIIGAGPIVIGQACEFDYSGAQACKALRDEGYRVVLVNSNPATIMTDPNMADAVYIEPINWQTVEKIIAKEKPDALLPTMGGQTALNCALDLADHGVLEKYNVELIGAKREAIRMAEDRELFRVAMGEIGLECPKAAVAHTLEEALEIQTRVGYPTIIRPSFTLGGSGGGIAYNREELVEIVNRGLELSPTTEVLVEESVLGWKEFEMEVVRDTADNCIIVCSIENLDPMGVHTGDSITVAPAQTLTDKEYQRLRDASIAVLRKIGVDTGGSNVQFGISPKTGRVVVIEMNPRVSRSSALASKATGFPIAKVAAKLAVGYTLDELKNEITGGLTPASFEPAIDYVVTKIPRFAFEKFPQADARLTTQMKSVGEVMAMGRTFQESVQKALRGLETGKVGFDPTELDLTSEDDLTTLRRELKAPGPERLFYVADAFRAGMSVEDIYGLSYIDPWFLDQIEEIIAAEKQVAADGLASLDAARLRKLKRAGFSDARLAQLTGTNEAAVRALRRAHKVKPVYKRVDSCAAEFATSTAYLYSTYEDECEAQPTNRDKIMILGGGPNRIGQGIEFDYCCVHAALALREDGFETIMVNCNPETVSTDYDTSDRLYFEPLTLEDVLEIVELEQPKGVIVQYGGQTPLKLARALEANGVPVIGTSPDSIDLAEDRERFQQLVDKLGLKQPPNRIARNADEALVLAREIGYPLVVRPSYVLGGRAMEIVYGESDLARYVRDAVKVSNDSPVLLDRFLDNAVEVDVDIIADKDGNVLIGGVMEHIEEAGVHSGDSSCSLPPYSLSAETQDELRRQVIELAKALNVIGLMNTQFAIQSNDDGADTVYLLEVNPRASRTVPFVSKATGMALAKIAARCMAGKTLAEQGATKEIVPDYYSVKEAIFPFAKFQGVDPILGPEMRSTGEVMGVGRTFSAAFARAQEAGGIRAAQPGKAFVSVRDPDKKRVLPVAQALVERGFTLVATVGTGNWLKQHGLECEIVNKVVEGRPHIVDSIKNGEISYIVNTTEGRAAIADSFSIRREALQHRVTYSTTIAGAKALVQSLEFRGTGPVWSLQELHKELEA	PGPT0021150_2465	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021150-carB-K01955	NA	NA
BMS020_06898	1125	carA_2	COG0505	Carbamoyl-phosphate synthase small chain	GTGACCCAACCCGCAATTCTTGTCCTCGAAGACGGCACCGTGTTCGAGGGCGAATCCGTAGGCGCCAACGGCCTGTCCGTCGGCGAAGTGGTGTTCAACACCGCGATGACCGGCTACCAGGAAGTCCTGACCGATCCGTCCTACGCCCGCCAGATGGTCACGCTGACCTATCCGCACATCGGCAATACCGGTTTCACCGACAAGGATGACGAAGCGGCCAAGGTCTGGGCCTCCGGTCTGATCGTGCGCGATGTTCCGCGTCGCCCCAGCAACTGGCGCAGCCAGGTGTCGCTGCCGGAGTGGATGACCGCGCGCGGCGTGGTCGGCATCGCCGGCATCGATACCCGCAAGCTGACCCGCATCCTGCGCGAGAAGGGCGCCCAGAACGGCGCGCTGATGGCCGGTGAGATCGACGTCGAGAAGGCGCTGGAAGCCGCGCGCAAGTTCCCCGGCCTGAAGGGCATGGACCTGGCCAAGGTGGTCTCGACCGAGAAGGCCTATGCCTGGAAGGAAGGCTCGCTCGACCTGGACAGCGACGCATTCGTCAGCGTCGCGCCGACCTACAAGGTGGTCGCGTTCGACTACGGCGTGAAGCTCAACATCCTGCGCATGCTGGCCGACCGCGGCTGCGACGTGACGGTGGTGCCGGCGCAGACCCCGGCCGCCGAGGTGCTGGCGCTGAACCCGGACGGCGTGTTCCTGTCCAACGGCCCGGGCGACCCGGAACCGTGCGACTACGCGATCGCCGCGATCAAGGAGATCCTCGCCAAGAAGATCCCGACCTTCGGCATCTGCCTCGGTCACCAGCTGCTGGCGCTGGCCTCGGGCGCGAAGACCGTCAAGATGGGCCACGGCCACCACGGTGCCAACCACCCGGTGCAGGACCTCGACGGTGGCCGGGTGATGATCACCTCGCAGAACCACGGCTTCGCGGTCGACGAGAGCACGCTGCCGGCCAATGTGCGCGTCACCCATCGTTCGCTGTTCGACGGCACCAACCAGGGCATCGCGCTGACCGATGCGCCGGCGTTCTCCTTCCAGGGCCACCCGGAAGCCTCGCCCGGCCCGCACGACGTCGGTCCGCTGTTCGACCGCTTCACCGCCCTGATGGCGGCCGCCAAGTAA	MTQPAILVLEDGTVFEGESVGANGLSVGEVVFNTAMTGYQEVLTDPSYARQMVTLTYPHIGNTGFTDKDDEAAKVWASGLIVRDVPRRPSNWRSQVSLPEWMTARGVVGIAGIDTRKLTRILREKGAQNGALMAGEIDVEKALEAARKFPGLKGMDLAKVVSTEKAYAWKEGSLDLDSDAFVSVAPTYKVVAFDYGVKLNILRMLADRGCDVTVVPAQTPAAEVLALNPDGVFLSNGPGDPEPCDYAIAAIKEILAKKIPTFGICLGHQLLALASGAKTVKMGHGHHGANHPVQDLDGGRVMITSQNHGFAVDESTLPANVRVTHRSLFDGTNQGIALTDAPAFSFQGHPEASPGPHDVGPLFDRFTALMAAAK	PGPT0021155_3367	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021155-carA-K01956	NA	NA
BMS020_06899	669	dapB_2		4-hydroxy-tetrahydrodipicolinate reductase	ATGGGCCAGGCACTGCTCCGGCTCGCCGCCGAGGATCCCGCGCTCGCCGTGGTTGCCGCGGTGGTCGGGCGTTCGCCGGCGCAGCGCGTCGTCGACGGCGTCCCGCATTTCGCCGCGGCCGAACTCGCCGGCGCGCCGGCCTTCGACGTGGCGATCGATTTCAGCCTGCCAGCCGGCTTCGACCCGATCCTGCGGCTGTGCCTGCAGCGCGGGACGCCGCTGGTGTCGGGCACGACCGGGCTGGAGCCGGCGCAGCGCGAGGCACTGACCGCCGCCGCCGCCGGCATTCCGGTGGTGTGGGCGTCGAATTTCAGCCTGGGCGTGGCGGTGCTGGCCGACCTGGTCGAGCGTGCCGCCGGCACCTTGCCGGGCTGGGACTGCGACATCGTCGAGTCGCACCACGTGCACAAGAAGGACGCGCCATCGGGCACCGCGCTGACCCTGGGCGAGGCCGCCACCGGCAGCGGCGCGCAGCCGCGTTACGCCAGCCTGCGCGCCGGCGACATCGTCGGCGAGCACCTGGTGCAGTTCACCGGCCTGGGCGAGCGGATCGAACTGGTGCACCGCGCCAGCAACCGCGACATCTTCGCCCGCGGCGCGCTGCATGCCGCCAAGCGCCTGCATGGCCGGCCCGCCGGCAGCTACCGCGTACGCGACCTGATCGGCTGA	MGQALLRLAAEDPALAVVAAVVGRSPAQRVVDGVPHFAAAELAGAPAFDVAIDFSLPAGFDPILRLCLQRGTPLVSGTTGLEPAQREALTAAAAGIPVVWASNFSLGVAVLADLVERAAGTLPGWDCDIVESHHVHKKDAPSGTALTLGEAATGSGAQPRYASLRAGDIVGEHLVQFTGLGERIELVHRASNRDIFARGALHAAKRLHGRPAGSYRVRDLIG				NA	NA	NA	NA	NA
BMS020_06900	687	yiiM_1	COG2258	Protein YiiM	ATGCAGACGCGGATCGATGCGGTGCTGGTCGGGAAGGTGGTGGACTACACCCGCCCGGGCAGCCGCAGCGCGATCGCCAAACAGCCGGTGACCGGTGTGGTGCGGGTGGGGATCGAGGGGCTGGACGGCGACGAGCAGGGCGACCGGCGCGTGCATGGCGGCCCGGACAAGGCCATCCATCACTACCCGCGCCAGCACTACCTGGCCTGGCAGCAGGAGCTGGGCGCGCACCCGCTGCTGCAGGCGCCGGGCGCGTTCGGCGAGAACCTCAGCAGCGACGGCCCGGACGAGGCCACGGTCTGCCTCGGCGACCGCTTCCGGTTGGGCAGCGCATTGCTGGAGGTGTCGCAGCTGCGCCAGCCATGCTGGAAGCTGTCGGACCGTTTCGCGGTCGCCGACATGGCGCGGCGGGTGCAGGACAGCGGCCGTACCGGCTGGTATTACCGGGTACTGGAGCCGGGCGAGGTCGTCGCCGGCGATGCCCTGGTGCTGCAGGAGCGGCGTTTCCCGGACTGGCCGCTGGCGCGGATCGCCGAGGCGCTGTACCGGCGCGGCGCCGAGCCGGCGCTGCTGCGCGCGTTGCTGGCGCTGCCGCTGGTGCCGTCCTGGCGCAGCCTGTTCGAGCGGCGGCTGGCGCAGGGCGAGGTCGAACACTGGGGCAGCCGGCTCGACGGCCGTCGCGATTGA	MQTRIDAVLVGKVVDYTRPGSRSAIAKQPVTGVVRVGIEGLDGDEQGDRRVHGGPDKAIHHYPRQHYLAWQQELGAHPLLQAPGAFGENLSSDGPDEATVCLGDRFRLGSALLEVSQLRQPCWKLSDRFAVADMARRVQDSGRTGWYYRVLEPGEVVAGDALVLQERRFPDWPLARIAEALYRRGAEPALLRALLALPLVPSWRSLFERRLAQGEVEHWGSRLDGRRD	PGPT0009125_2	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
BMS020_06901	1203	lysN_4	COG1167	2-aminoadipate transaminase	ATGAACGCATCCTTCCAGTTGTCCCGTCGTGCCCAGGCGCTGACCAGTTCGGCGATCCGCGAGATCCTCAAGGTCACCGAGCGCCCCGAGGTGATTTCCTTCGCCGGCGGCCTGCCGTCGCCGGCGACGTTCCCGGTCGAGCGCATGCGCGAGGCTGCCGACCGGGTGCTGCGCGATGCGCCGCAGGCGGCGTTGCAGTACGGTCCCACCGAGGGCATCGCGCCGCTGCGCGAATGGGTTGCCGCGCGCCTCAGCCGCGATGGCGCCAGGGTGCGGCCGGGCCAGGTGCTGATCACCACCGGCTCGCAACAGGGGCTGGACCTGCTCGGCAAGGTGTTCATCGACGAGGGCAGCAAGGTGCTGGTGGAGACGCCCAGCTACCTCGGTGCGCTGCAGGCGTTCTCGCTGTTCCAGCCGGCGTTCGCGGCGATGCCGGCCGACGAGGACGGGCTGGTCGCCGAGGCGCTGGGGTCGGCGCTGCTGGCCGGCGCGCGCTTCATGTACTGCCTGCCGAATTTCCAGAATCCCACCGGGCGGCGCCTGCCATTGGCCCGGCGTGCCGAGCTGGTCGCGCGCGCGGCCAGCGCCGGCGTGCCGGTGGTCGAGGACGATCCCTATGGCGAGCTCTGCTACGCCGGCGACATGCTGCCCAGCCTGCTGTCGATGAATCCGGACGGGGTGATCTATATGGGCTCGTTCTCCAAGGTGCTGGCGCCGGGATTGCGGCTGGGCTACGTGGTCGCGCCCGAGGCGGTGCTGGCCAAACTGGTGCAGGCCAAGCAGGCCGCCGACCTGCATACGCCAACCTTCAGCCAGCGCATCGTCCACGAGGTGGTGCGCGATGGTTTCCTCGACCAGCACATCCCGACCATCCGCGAGCGCTACGCGCAGCAGTGTCGGCTGATGCTGGAGGCGATGGACCGGCACTTTCCGGCGGACGTGCGCTGGAGCCGGCCGCAGGGGGGGATGTTCATCTGGGTCACGCTGCCGGCCGGGCTCGACGCCGGCGCGTTGCTGGCGCAGGCGATCGCCCGCAACGTGGCGTTCGTGCCGGGGGCGCCGTTCTTCGCGGTCGAACCGCAGCGCAACACGCTGCGGCTGTCGTTCGTGACCGTGCCGGGCGAGCGGATCGAAGCCGGCGTCGCCGTGCTCGGCGAGCTGCTGCACGAGGCGCTGGCCGGCCTGGCCGGGCAGGCGGCCTGA	MNASFQLSRRAQALTSSAIREILKVTERPEVISFAGGLPSPATFPVERMREAADRVLRDAPQAALQYGPTEGIAPLREWVAARLSRDGARVRPGQVLITTGSQQGLDLLGKVFIDEGSKVLVETPSYLGALQAFSLFQPAFAAMPADEDGLVAEALGSALLAGARFMYCLPNFQNPTGRRLPLARRAELVARAASAGVPVVEDDPYGELCYAGDMLPSLLSMNPDGVIYMGSFSKVLAPGLRLGYVVAPEAVLAKLVQAKQAADLHTPTFSQRIVHEVVRDGFLDQHIPTIRERYAQQCRLMLEAMDRHFPADVRWSRPQGGMFIWVTLPAGLDAGALLAQAIARNVAFVPGAPFFAVEPQRNTLRLSFVTVPGERIEAGVAVLGELLHEALAGLAGQAA	PGPT0007135_1099	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
BMS020_06902	507			hypothetical protein	ATGTCGATGAAGCGATTGATCGTGCTGCTGGCCGTCCTGGCCGGCATTGCCTGGATCTACAACTACGGCGGCAATGCCCTCGACGAGGGCGAGGTCCGCGATTTCTACGGTCGCTACGAGAAGGCGTTCCTGGCCCAGGACGGCGAGACGTTGTGCGCCATGACCGCACCCGAGTTCGAGATGGCGATCCTGTACCGGATGGAATCGCGCCAGCATCGCCAGGTCACCGACCGCGAGCGCTATTGCAAGGCCAATGGCGAATGGTCGGCGGTGCTGCGCCAGGTCGGCCGCGGCGGTGGCGAGCTGCCGATCGACTTCAACCAGTCGATCACCGGGATCGAGATCGCGCCGGACGAGGCGTCGGCCAAGGTCGAGACCCGTACCACGATGGCGCTGCCGGGCCTGCGCATGACCTTCCGTACCCGCGACACCGTGGTGCGGCGGCGCTGGAAGACGCTGATCGCCGGCAGCGAGGGCACGGCCTGGATCGGGCCGGCCTACCGTTGA	MSMKRLIVLLAVLAGIAWIYNYGGNALDEGEVRDFYGRYEKAFLAQDGETLCAMTAPEFEMAILYRMESRQHRQVTDRERYCKANGEWSAVLRQVGRGGGELPIDFNQSITGIEIAPDEASAKVETRTTMALPGLRMTFRTRDTVVRRRWKTLIAGSEGTAWIGPAYR				NA	NA	NA	NA	NA
BMS020_06903	255			hypothetical protein	ATGGCGCTGCCGCTGTGGCTGCAGTACCTGGTGATCGCGCTGGTCGCGCTGGCCAGCGTGCTGGTGGTGCTGCGCAAGCAGTTCCCTGGCACCTGGCGGCGGCTGCGTGGCGGCCTGGCGCTGTGGCTGCTGCGCGGTCCGGCCGACGGCTGGCGGCAGGCGCTGGGACGGCGCGTGGCGCCGCCGGCACGCGCCGGTGGCGGGGCCTGTGGTGGCTGCGACAGCTGCGGCCCGAGCCCGCCCAAGCATCACTGA	MALPLWLQYLVIALVALASVLVVLRKQFPGTWRRLRGGLALWLLRGPADGWRQALGRRVAPPARAGGGACGGCDSCGPSPPKHH				NA	NA	NA	NA	NA
BMS020_06904	1854	feoB_2	COG0370	Fe(2+) transporter FeoB	ATGAGCGCCTCGCCGCTGCGCCTGGCCCTGGTCGGCAACCCGAACTGCGGCAAGACCGCGCTGTTCAACCAGCTGACCGGCAGCCGCCAGAAGGTGGCCAACTACACCGGCGTCACCGTCGAGCGCAAGGAAGGCCACTTCCGCGCGCCGTCCGGCCGCGAGTTCGCGGTGCTGGACCTGCCCGGCGCCTACAGCCTGCATCCGGCCAGCCTCGACGAGGCGATCACCCGCGACCTGTGCCGGGGCTTCTACCCGGGCGAACCGGCGCCGGACGTGCTGGTCTGCGTGGTCGACGCCACCAACCTGCGCCTGCATCTGCGCTTCGCGCTGGAGCTGCGCGAGCTGGGCCGGCCGATGATCGTGGCACTGAACATGGTCGATGCGGCCAAGCGCCGCGGCATCGTGGTCGACCGGCTGGCGCTGGAGCTGGCGCTGGGCGTGCCGGTGGTGGAGACCGTGGCGGTGCGCCGCAACGGCGCGCGTGCGCTGGTGGACACGCTGGACGCGATCTCCGGCGAGCTGGCGGTGCCGCAGCCCGAGGTGCCGGCAGATGGTAACTACCACGCCGTGGTGCGGGGCATCCTCGCCGAGGCGGTGAGCATGCCCAGCCGCACCAGCCGCATCGACGATGCGCTGGACCGCTGGCTGCTGCATCCGGTGCTCGGCCTGGTCACCTTCATCGCGCTGATGTTCGTGGTGTTCCAGGCGGTCTACGCCTGGGCCACGCCGCTGATGGACCTGATCGACGCCGGCACCGCCGCGCTTGGCGTCTGGGTCGGCTCGGTGCTGCCGGAAGGTCCGCTGACCAGTCTGTTGACCGACGGCATCATCGCCGGCGTCGGTGGGGTGATCGTGTTCCTGCCGCAGATCCTGATCCTGTTCGCCTTCATCCTGGCGCTGGAGGAATCGGGCTACCTGCCGCGCGCGGCGTTCCTGCTCGACCGGATGATGGCGGCCGCCGGCCTGTCCGGGCGCTCGTTCATCCCGCTGCTGTCCAGCTTCGCCTGCGCGGTGCCGGGCATCATGTCCACGCGCAGCATCCAGGACCCGCGCGACCGGCTGGCGACGATCCTGGTCGCGCCGTTGATGACCTGCTCGGCGCGGCTGCCGGTGTATGCGCTGCTGATTGGTGCGTTCATCCCGCAGAAGACCGTGTGGGGCGTGTTCAACCAGCAGGGCCTGGTGCTGTTCGGGCTGTATGCGGTGGCGATCGCCAGCGCGCTGGTGGTGTCGTGGGTGATGAAGAAGTGGCGTCGCGACAAGAGCGAGCACCCGCTGCTGCTGGAGCTGCCGTCGTACCGCATCCCGCATCCGCGCGACCTGGCGCTGGGCCTGTGGGAGCGTGCGGCGATCTTCCTCAAGCGCGTCGGCGGCATCATCCTGGCGCTGACCATCCTGCTGTGGGTGCTGCTGTCGTTCCCGGGTGCTCCGGCCGACGCGACGCTGCCGGCGATCGATTACAGCTTCGCCGGCCGCATCGGCCATGCGATGACCGCGATCTTCGCCCCGCTGGGCTTCAACTGGCAGATCTGCATCGCGCTGATCCCGGGCATGGCCGCGCGCGAGGTGGCGGTGTCCTCGCTGGCGACGGTGTACGCGCTGTCGGCGGCCGACGACGATGCCGCCGCGCAGGCGCTGTCGCCGCTGATCCACGATGGCTGGTCGCTGGCCACGGCGCTGTCGCTGCTGGTTTGGTACATCTACGCGCCGATGTGCCTGTCGACGCTGGCCACGATCAAGCGCGAGACCAACTCCTGGAAGCAGATGGCCTGGTCGGCCACCTACCTGTTCGCGCTGGCCTACCTGGCCTCGCTGCTGACCTACCAGGTCGCGCGCGCACTCGGGGCGGGCTGA	MSASPLRLALVGNPNCGKTALFNQLTGSRQKVANYTGVTVERKEGHFRAPSGREFAVLDLPGAYSLHPASLDEAITRDLCRGFYPGEPAPDVLVCVVDATNLRLHLRFALELRELGRPMIVALNMVDAAKRRGIVVDRLALELALGVPVVETVAVRRNGARALVDTLDAISGELAVPQPEVPADGNYHAVVRGILAEAVSMPSRTSRIDDALDRWLLHPVLGLVTFIALMFVVFQAVYAWATPLMDLIDAGTAALGVWVGSVLPEGPLTSLLTDGIIAGVGGVIVFLPQILILFAFILALEESGYLPRAAFLLDRMMAAAGLSGRSFIPLLSSFACAVPGIMSTRSIQDPRDRLATILVAPLMTCSARLPVYALLIGAFIPQKTVWGVFNQQGLVLFGLYAVAIASALVVSWVMKKWRRDKSEHPLLLELPSYRIPHPRDLALGLWERAAIFLKRVGGIILALTILLWVLLSFPGAPADATLPAIDYSFAGRIGHAMTAIFAPLGFNWQICIALIPGMAAREVAVSSLATVYALSAADDDAAAQALSPLIHDGWSLATALSLLVWYIYAPMCLSTLATIKRETNSWKQMAWSATYLFALAYLASLLTYQVARALGAG	PGPT0003700_3066	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003700-feoB-K04759	NA	NA
BMS020_06905	231			hypothetical protein	ATGCCGCTGCACCGAGCCGCCCTCGTCGAATCCGTGGAAGACCGCCAGCCCAACGATGCGATCGCGCGTCGCCTGCGCGAGCTGGGCTTCGTCGCCGGCGAGGAAGTGACGGTGCTGGCGACCGGGCCGGTCGGGCGCGAGCCGCTGTTGGTACAGGTCGGCTACACCCGCTTCGCGCTGCGCCGCAGTGAGGCGGCCCGGGTGCGGGTGCGCGCGGAGGCCGTCGCATGA	MPLHRAALVESVEDRQPNDAIARRLRELGFVAGEEVTVLATGPVGREPLLVQVGYTRFALRRSEAARVRVRAEAVA	PGPT0003695_1133	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003695-feoA-K04758	NA	NA
BMS020_06906	795	paaF_2	COG1024	2,3-dehydroadipyl-CoA hydratase	ATGCCGGAACCCGTTCTGCGCGTCACCGACCGCGGCCCCGTCCGCACCTTGCTGCTGGACCGTCCGGCGCTGCACAACGCCTTCGACCCGGCGCTGATCGCGGCGCTGACCGCCGCGCTGGACGCGGCCGCCGCCGACAGCACGGTGCGGGTCGTGGTGCTGGCTGGCGCCGGCGCCTCGTTCTCGGCCGGCGCCGACCTGCACTGGATGCGCGGCATGGCCGCCGCCAGCGAGGCCGACAACCAGGAAGACGCGCTGGCGCTGGCACGGCTGATGCGCACCCTGGACGAACTGCCCAAGCCCACGCTGGCGCGGGTGCACGGCGCCGCGTTCGGTGGCGGCGTCGGCCTGGTGGCCTGCTGCGACATCGCCATCGGCAGCCGCAGTGCCCGCTTCGGCCTCAGCGAGAGCCGGCTTGGCCTGCTGCCGGCGGTGATCTCGCCGTATGTGGTCGCCGCGATCGGCGCGCGCCAGGCGCGGCGCTGGTTCGCCAGCGCCGAGACGTTCGATGCGAGCACCGCGGCGGCGCTGGGGCTGCTGCACATCGTGGTCGAGGACGACGCCGCGCTGGACGCCGCACTGGCGCAACAGGTGGCGCTGCTGCTGCGCGCCGCCCCCGCCGCCGCGGCCGGCGCCAAGGCACTGGTGCGTCGCGTCGCCGAGGCGGGCGACCGCGACGCGCTGGACGCCGCCAACGCCCACCTGATCGCCGCGTTGCGCGTCTCCGCCGAGGGCCAGGAGGGCCTGGCGGCGTTCCTGGGCAAGCGCGCGCCGGCCTGGGCACCGCCCGACTGA	MPEPVLRVTDRGPVRTLLLDRPALHNAFDPALIAALTAALDAAAADSTVRVVVLAGAGASFSAGADLHWMRGMAAASEADNQEDALALARLMRTLDELPKPTLARVHGAAFGGGVGLVACCDIAIGSRSARFGLSESRLGLLPAVISPYVVAAIGARQARRWFASAETFDASTAAALGLLHIVVEDDAALDAALAQQVALLLRAAPAAAAGAKALVRRVAEAGDRDALDAANAHLIAALRVSAEGQEGLAAFLGKRAPAWAPPD	PGPT0026240_49	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR_VIRULENCE_REGULATORY_SYSTEM,PGPT0026240-paaK-K01912	NA	NA
BMS020_06907	894	liuE	COG0119	3-hydroxy-3-isohexenylglutaryl-CoA/hydroxy-methylglutaryl-CoA lyase	ATGACCGACCGCGTCCGCATCGTCGAGGTCGGGCCGCGCGACGGCCTGCAGAACGAGCCGCACCCGGTCGCCACCGCCGACAAGATCGCCTTGATCGACCGGCTCTCCGCCACCGGCCTGCGCAGCATCGAGGCGACCAGCTTCGTCAGCCCGCGCTGGGTGCCGCAACTGGCCGATGCGGCCGAGGTCTATGCCGGCATCCAGCGCCGCGCCGGCGTGTCCTACCCGGTGCTGGTGCCGAATGCGCAGGGCTATGACCGCGCGCGCGCCGCCGGCGCCAGCGAGGTCGCGGTGTTCACCGCCGCCTCGGAGGCGTTCAACCGCGCCAACACCAATGCCGGCATCGATGAATCGCTCGAGCGCTTCGCCCCGGTGCTGGCGCAGGCGCGCGAGGACGGCGTGCGCGTGCGCGGCTACGTCTCCACCGTGCTCGGCTGCCCCTATCAGGGCGAGGTCGCGCTGGCCGACGTGGTGCGCGTGGCCACACGCCTTCACGCACTGGGCTGCTACGAGGTCTCGCTCGGCGACACCATCGGCACCGGCACCCCGCGCCGGGCCAGTACGATGCTGCGCGCGGTCGCCGCCGAGGTGCCGATGGAGGCGCTGGCGGTGCACTTCCACGACACCTACGGCCAGGCACTGGCCAACATCGCCGCCTGCCTGGACGCGGGCGTGCGGGTGGTCGACAGCGCCGTCGCCGGCACCGGCGGCTGCCCGTATGCGCGCGGCGCCAGCGGCAATGTCGCCAGCGAGGATGTGGTGTATATGCTGCACGGCATGGGCATCGAGACCGGCATCGACCTGGACGCGCTCGCCGCCACCGGCCGCTGGCTGGCGGCGCTGCTGGGTCGCAGCAACGGCAGCAAGGCCGGCGCGGCCATGGCGCCGGCATGA	MTDRVRIVEVGPRDGLQNEPHPVATADKIALIDRLSATGLRSIEATSFVSPRWVPQLADAAEVYAGIQRRAGVSYPVLVPNAQGYDRARAAGASEVAVFTAASEAFNRANTNAGIDESLERFAPVLAQAREDGVRVRGYVSTVLGCPYQGEVALADVVRVATRLHALGCYEVSLGDTIGTGTPRRASTMLRAVAAEVPMEALAVHFHDTYGQALANIAACLDAGVRVVDSAVAGTGGCPYARGASGNVASEDVVYMLHGMGIETGIDLDALAATGRWLAALLGRSNGSKAGAAMAPA	PGPT0008315_3209	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	PLANT_DERIVED_CITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0008315-hmgL-K01640	NA	NA
BMS020_06908	2574			hypothetical protein	ATGAACAGGCACGGCCAGCCGCTGTCGCCGACGCCCGGCCCCGATACCGGCTACCTCGACATCCTGGCCGACCTCGAACATGCGCTCGCCACCGCCGAGCCGCCGGCACGCGCGCTGCTGGCGCGCTGCCGCGACGCGCTGCGTTCGGCGCTGGACGAGCGGCATTCGGCGCAGATGCGCTATGCGGCGCTGTTCGATGCGGTGCCCGATCCGGTCAGCATCCTCAGCGAGAGCGGCATCGTGCTGGACCTGAACCGCGCCGGCATCCGCGCCTACCAGCGCCCGCGCGAGGCGATCGTCGGCCAGCCGATCGAGGTGCTCAATCCCGACCTGCCGCGCGACCATCTCGACCCGGTCTGGGAAACGCTCAACCGCGGCGAGACCTACGTGATCGAGGTCACCAACATGCGCGGCGACGGCAGCCGGTTTCCGGTCGAGGTGCATTCGGCCGGTTTCGAGCACGCCGGCGCGCGCTGCATCGTCGCGGTCGCGCGCGACCTCAGCAGCCGCTGGCAGGCCGAATCGCGCTACCGCCTGCTGATGGAGTCGATCGACAAGGGCGTGGTGCTGTTCGACCACGACTACCGCATCGTCTCGGCCAACCCCGCCGCGCACCGCATCCTCGGCCTGGCCAGCGGCGACACGCTGGCCGAGCTGCTGCAGCCGGAGGAATGGATCACCGTCGATGCGCACGGCAGCCCGCTGCCGCGCGAGCACTGGCCGATGATCCGCGCCTTCCGCGAAGGCCAGATCATCGGCAGCACCACGATGGGGCTGTACCACCGCCCGCAGGGCCGCATGGTGTGGATCTCGGTGACCAGCGTGCCGGTGTTCTCCAGCGGCCGCGACCGCCCCGACCACGTGTTCGCACTGTTCAGCGACATCACCGAGCTCAAGCGCAACAACGCGCTGTTCGACCGTGCGCAATCGCTGGCGCACATCGGCGGCTGGGAGTGGAACCGCAGCCAGCAACGGCTGTACCTCACCGGCGAGGCGCTGCGCATCATCGGCCAGGACGAGCCGCCGCGGACGATGGCCCAGCTGCTGGCCTGCCTGCGCGGCGAGGACCAGCAGCGGCTGGAAACGGCGCTGTTGCAGGCGGTGGAGTTCCAGAACAGTTTCGAGGTCGAGCTGCAGGGCCAGCGCAGCGACGGCCACTCGTTCTGGGCGCGGATGATCGGCGAGGTCGAGGACGGCGACCCGGCCTCGACCCGCATCGCCGGCACGCTGCAGGACATCACCGAGCGCAAGCAGACCGAGGAGACGCTGCGCATCCAGGCCCGCACCGATCCGCTGACCGGGATCATGAACCGCGACGCGGTGCTCGGCGACCTCGGCGCGCGCCTGGCCAACCCGACCCACGCGCGGGTCGCGGTGCTGTACATCGACCTGGATCGCTTCAAGACCGTCAACGACGTGCTCGGCCACAACGCCGGCGACCAGTTGCTGATCGAGGCGACCCAGCGCATCGCCACCGCGATCGGCACCGAGGGGCTGCTGGCGCGCTTCGGCGGCGACGAGTTCCTGGTGGTCTGCGACACCCGCGACGTGCCCGAGCAGCCCGAGCGCCTGGCCGAGGCGATCACCGCCGCGTTCGTCGAGCCGTTCCGCTTCGGCAAGGACGAATTCTCGGTGACCACCAGCATCGGCATCTCGCGCGCGCCGGAGGACGGGCTGCGCCCGCAGCAGCTGATCCAGAACGCCGACATGGCGATGTACGACTGCAAGCGGCGTACCCGCAACGGCTGGCAGAGCTTCAACGAGGACCTGGCCCGCCGCCAGCAGGACCGGCTGCTGATCGAGACCCAGCTGCGACGCGCCGTCGACGAGCAGGAGTTCCGCCTGGTCTACCAGCCGCAGGTCGACCTGCGGCATGGCCGGGTGGTTGCCGCCGAAGCACTGATCCGTTGGCAGAACACCCAGCTTGGCGAACTGCGCCCGGACCTGTTCATCGGCCATGCCGAGACCACCGGCGACATCGTCCGCATCGGCGACTGGGTGCTGCACGAGGCCTGCCGCCAGGTCCGCGCCTGGCTGGACCAGGGCCTGGGCGTGGTGCGGGTGGCGATCAACGTCTCCTACCGCCAGTTCATCGGCGAGGACCTGGCGCAGAAGGTGCGTGGCGCGCTGGACGCCTTCCACCTGCCCGGCTCGGCGCTGGAGCTGGAATTCACCGAGCGGGTGCTGATCGAGGACGCGCCGGCGACGCTGCAGACCTTCGCCGAACTGCGCGCGATGGGCGTGGTGCTGACCATCGACGACTTCGGCGAGGGCTACAGCGCGCTGAACTACCTGCGCCGGCTGCCGATCCACGGCCTCAAGCTCAGCCAGCTGTTCACCGAGGGCGTGCCGGGCAACCGCTCGGACGTGGCGGTGTGCGAGGCGGTCTGCGGCATCGCCCGCAGCCTCGGCCTCGGCCTGGTCGCCGAGGGCGTGGAATCGGAGGCGCAGCGCCAGTTCCTGCTCGGCCTCGGCGTCCCGGTCGGCCAGGGCTTCCTGTTCGCGCCCGGGCTGACGCCGGAGGAATTCGCCCGCCGGCTGGAAGCGCAGGTGCCGGACAACGCCCCGGCCTGA	MNRHGQPLSPTPGPDTGYLDILADLEHALATAEPPARALLARCRDALRSALDERHSAQMRYAALFDAVPDPVSILSESGIVLDLNRAGIRAYQRPREAIVGQPIEVLNPDLPRDHLDPVWETLNRGETYVIEVTNMRGDGSRFPVEVHSAGFEHAGARCIVAVARDLSSRWQAESRYRLLMESIDKGVVLFDHDYRIVSANPAAHRILGLASGDTLAELLQPEEWITVDAHGSPLPREHWPMIRAFREGQIIGSTTMGLYHRPQGRMVWISVTSVPVFSSGRDRPDHVFALFSDITELKRNNALFDRAQSLAHIGGWEWNRSQQRLYLTGEALRIIGQDEPPRTMAQLLACLRGEDQQRLETALLQAVEFQNSFEVELQGQRSDGHSFWARMIGEVEDGDPASTRIAGTLQDITERKQTEETLRIQARTDPLTGIMNRDAVLGDLGARLANPTHARVAVLYIDLDRFKTVNDVLGHNAGDQLLIEATQRIATAIGTEGLLARFGGDEFLVVCDTRDVPEQPERLAEAITAAFVEPFRFGKDEFSVTTSIGISRAPEDGLRPQQLIQNADMAMYDCKRRTRNGWQSFNEDLARRQQDRLLIETQLRRAVDEQEFRLVYQPQVDLRHGRVVAAEALIRWQNTQLGELRPDLFIGHAETTGDIVRIGDWVLHEACRQVRAWLDQGLGVVRVAINVSYRQFIGEDLAQKVRGALDAFHLPGSALELEFTERVLIEDAPATLQTFAELRAMGVVLTIDDFGEGYSALNYLRRLPIHGLKLSQLFTEGVPGNRSDVAVCEAVCGIARSLGLGLVAEGVESEAQRQFLLGLGVPVGQGFLFAPGLTPEEFARRLEAQVPDNAPA	PGPT0023624_1255	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
BMS020_06909	771			putative oxidoreductase	ATGCAGGCATCCAGCGTCCGCGCGATCGTCACCGGCGGTGTGTCCGGTCTCGGGCTCGCCGTCGCCCGGCGCATCGTCGCCGATGGCGGCCGCGCCGTGCTGTTCGACCTCAACGACGACAAGGGCGCCGCGGCTGTGGCCGAACTGGGCGCCGAGCGCGTGCAGTACCTGAAGACCGACGTCAGCGACGAGCAGCAGGTCGCCGCGCAGGTCGCGGCCGCCCGTGCGTTCCTGGGCGGGCTCAACGTGGCGGTCAACTGCGCCGGCATCCTCGGTGCCGGGCGCGTACTCGGCAAGGAGGCGCCGATGCCGCTGGCCACGTTCCGCACCACGGTGATGGTCAACCTGGTCGGCAGCTTCAACGTCGCCAAGGCCGCCGCCGATGCAATGCAGCACAACCCTGCCGGCGACGACGGCGAACGTGGCGTGATCGTCAACACCGCCAGCATCGCCGCCTTCGAGGGCCAGATCGGCCAGGCCGCGTACGCCGCCTCCAAGGGCGGCGTGGTCGGCATGACCCTGCCGATGGCGCGCGAGCTGGCGCGCTTCGGCATCCGCGTGATGACCGTCGCGCCGGGGATCTTCTGGACGCCGATGGTCGATGGCATGCCCGAGGCGGTGCAGCAGTCGCTGGCGGCGTCGATCCCGTTCCCGTCGCGGCTGGGCCAGCCGGAGGAATTCGCCGCCACCGTCGCCTTCATCCTCGCCAACGGCTATCTCAACGGCGAGACCATCCGGCTCGACGGCGCGGTGCGCCTGCAGCCGAAATAA	MQASSVRAIVTGGVSGLGLAVARRIVADGGRAVLFDLNDDKGAAAVAELGAERVQYLKTDVSDEQQVAAQVAAARAFLGGLNVAVNCAGILGAGRVLGKEAPMPLATFRTTVMVNLVGSFNVAKAAADAMQHNPAGDDGERGVIVNTASIAAFEGQIGQAAYAASKGGVVGMTLPMARELARFGIRVMTVAPGIFWTPMVDGMPEAVQQSLAASIPFPSRLGQPEEFAATVAFILANGYLNGETIRLDGAVRLQPK	PGPT0002265_65	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
BMS020_06910	567	yeiP_2	COG0231	Elongation factor P-like protein	ATGAAAGCCGGTGACATCAAGAAGGGCAACGTCGTCGAATACAACAACGGCGTCTACCAGATCCGCGACATCGAGCGCAGCTCGCCGCAGGGCCGCGGCGGCAACGTGCGCTTCCGTTTCATCATGTACAGCGTGCCGGGCGGCAACAAGCTCGATGCCAGCTTCGACGCCGACGACAACCTGACCGAAGTCGAGCTGCTGCGCCGCCAGGCCACCTACTCGTACAAGGACGGCGACGCGTTCGTGTTCCTCGACGACGAGGACTACACCCCGTACACGCTGGACGCCGAGGTCATCGGCGACGATGCCGGCTACATCACCGACGGCCTGACCGGGCTGTACGTGCAGGTGATCGACGACCAGCCGGTGGCGGTGCAGCTGCCGCAGCACGTGACCCTGGACGTGGTCGACACCCCGCCGGAACTGAAGGGCGGCACCGCCACCAAGCGTCCGAAGCCGGCCAAGCTCAGCACCGGCATCGAGATCATGGTCCCGGAGTACATCACCAACGGTGAGCGCATCCTGGTCAACACCACGACCGGCGAGTTCGGCGGCCGCGCCGACTGA	MKAGDIKKGNVVEYNNGVYQIRDIERSSPQGRGGNVRFRFIMYSVPGGNKLDASFDADDNLTEVELLRRQATYSYKDGDAFVFLDDEDYTPYTLDAEVIGDDAGYITDGLTGLYVQVIDDQPVAVQLPQHVTLDVVDTPPELKGGTATKRPKPAKLSTGIEIMVPEYITNGERILVNTTTGEFGGRAD	PGPT0016205_1484	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016205-efp-K02356	NA	NA
BMS020_06911	1812			hypothetical protein	GTGAACCTGCCCGCCAGGCCGCTGCTCCGGCGGCTGGCGTGGCTTGCCTGGCTCGTCCTGGCCGGTGCTGCGCAGGCCGCGCCCACCAGGCTCGAACTGCTTCCACAGACCCTGTCGCCGGCGCAGGTCGCCAGCAGCACCGCGCTGCTGGACGACACCCTGGCGCGCTTGCCGCCGCGTTGGCGCGAGGCGCTGCAGGGGCCGCTGATCCTGGAGTGGAGTACACAGCTGCCGGCGCATGTGCAGGGCCGCAGCAACGGCCGCCGCATCCGCCTGGACCGGCGCCTGCTGGATGCCGGCGACCTGGAGGCGGCGCGGACCACCCTGATCCACGAGCTGGCGCATCTGCTCGACCACGGCGTGGACGGCGGGCTCGCGCGCGATCCGCGCCTGCGCGACCTGGCCGGCTGGCAGCGCCGGGCCTGGTGGCCCGGGCGCGGCGACAACCACTTCCGCGACCGTAGTCCCGACCGCTATGAACTGGCCAGTCCGGCCGAGTTCGTCGCGGTCAACCTCGAACGCTTCGTGCTCGATGCCGATTACCGCTGCCGGCGTCCGGCGCTCTATGCCTGGTTCGCCGCGCGCCTCGGCGCACCTGCGCTGGCGCCAGCCACCTGCGCGGCGACGCTGCCGTTCATGCAGGCCGACGACGAGGATGGCGTGGTGTCCTTGCTCGAACTCGATCCGGCGCGGGTCTGGGCGGTCGATTACCTGCTGGCCGAGGGCAATGCGCAGCCGATGAGCCGCTGGGGCCACAGCATGTTGCGGCTGGTGATCTGCGCACCGGGGCGCACGCCGGGGCCGGCGTGCCGGCTCGATCTGCGCTACCACCGGGTGATCTCGTTCCGCGCCTTCGTCGGCGACCTGCAGCTGTCCAGCTGGCGCGGGCTGACCGGGCGTTATCCGTCGCGCTTGTTCCTGCTGCCGCTGGACCAGGTGGTGGACGACTACACCAAGGTCGAGCTGCGCGGGCTGTCGTCGATCCCGCTGGCGCTGTCGCCGGCGGAGATCAGCGCATTGCTGGAGCGTGCCGCGGCGGTGCACTGGGGCTACGACGGGCGCTACTTCTTCCTCGGCAACAACTGCGCGACCGAGACCTGGAAGCTGCTGCACGATGCCTCGCCGCGGCTGGCGGCGCTGCCGCTGGGCACGATCACCCCGACCGGACTGCAGGCCAGGCTGGTGCGCAACGGCGTGGCCGACCGCAGCGTGCTGGACGACCAAGCCCAGGCGCTGCGCCAGGGCTATTACTTCGCGTCCGCGGCGGCGCACTACCAGGCGATGTTCGAGGTGGTGCGCGCGGCGCTGCCGGTGCCGCAGCGCGACGTCGCCGCGTGGCTGGACAGCCCGCCGGCGGCGCGCCGGGCCTGGATGGCGCAGGCCGACCTGCGCGCCAGCGCCGCATTGCTGCTGCTGGAAGAGGCCGCCAGCAGGCGCGAGGAGCTGCAGGTGCGCGAGACGGTCAAGCGACGCCTGCTGCAGGCGCGCAGCAGCGACGCGGCACAGGGGCGCGACGACGCGCTGGCGGCGCTGTCGCAGGCGGGGGTGCTGGCGCGGCCGGCGGCGCTGCTCGACGGCGAGCCGGGTTATGGGCTGCCGCAGGCGGGCGAGCGTCGCCATGCCGCCGATGAGGCGACCCAGCGCGGCCGGCGCCTGCACGAGGAGTGGACGGCGCTGCGCGGACGCACCCGCGCCGCGTTGCCCGCGCGCCAGCGCGACGCCCTGGCGGCGATCGACGACAACCTGCGGTTCCTGGGGGCGCGGCTGCGCCAGCTGAACGCCGAGGACGCGGCGGTGCCGCCGCTGCCCTAG	MNLPARPLLRRLAWLAWLVLAGAAQAAPTRLELLPQTLSPAQVASSTALLDDTLARLPPRWREALQGPLILEWSTQLPAHVQGRSNGRRIRLDRRLLDAGDLEAARTTLIHELAHLLDHGVDGGLARDPRLRDLAGWQRRAWWPGRGDNHFRDRSPDRYELASPAEFVAVNLERFVLDADYRCRRPALYAWFAARLGAPALAPATCAATLPFMQADDEDGVVSLLELDPARVWAVDYLLAEGNAQPMSRWGHSMLRLVICAPGRTPGPACRLDLRYHRVISFRAFVGDLQLSSWRGLTGRYPSRLFLLPLDQVVDDYTKVELRGLSSIPLALSPAEISALLERAAAVHWGYDGRYFFLGNNCATETWKLLHDASPRLAALPLGTITPTGLQARLVRNGVADRSVLDDQAQALRQGYYFASAAAHYQAMFEVVRAALPVPQRDVAAWLDSPPAARRAWMAQADLRASAALLLLEEAASRREELQVRETVKRRLLQARSSDAAQGRDDALAALSQAGVLARPAALLDGEPGYGLPQAGERRHAADEATQRGRRLHEEWTALRGRTRAALPARQRDALAAIDDNLRFLGARLRQLNAEDAAVPPLP				NA	NA	NA	NA	NA
BMS020_06912	312			hypothetical protein	ATGAACACCGCCATGATCCGTCCGCTCGTTCTGTCCGCTCTGCTGCTCCTGCCGTTCGCCGCGCTGGCCGGCAGTTCCGCCGGTACCGCCACCGGCGCTTCCTCGGCCGGCTCCTCGGCGTCGTCCGACAGCACCTCCGGCAACGACAAGGTGGTGCTGGATGCGCGCGACGATGCCGCGGGTTTCGTCGCCAGCGATGGCCGCATCCGCGGCGCACGCCTGGAAGCGGCGCTGGTCGAGCTGCGTGCGCGCAGCGCCGAGGCCCGCCAGGCCAGCGACATGGCGCTGGCGCGCGCGATCCTGACCCGGTGA	MNTAMIRPLVLSALLLLPFAALAGSSAGTATGASSAGSSASSDSTSGNDKVVLDARDDAAGFVASDGRIRGARLEAALVELRARSAEARQASDMALARAILTR				NA	NA	NA	NA	NA
BMS020_06913	1386		COG0277	putative FAD-linked oxidoreductase	ATGACCGACCCGCGCATCGCCTCGCTCGAACAGGCCGTCCACGGCCTGCGGTTGAAGACCGACCCGTCCGATCTGGAACACTACGGCCGCGACTGGACGCGGCGCTGGACGCCGGCGCCGCTGGCGATCGCGCTGCCGTCGAGCGTGGAGGAAGTGCAGGCGGTGGTGCGCTGGGCCAATGCCGAGGGCGTGGCGATCGTGCCGTCGGGCGGGCGCACCGGTCTGTCCGGTGGCGCGGTGGCCGCCCATGGCGAGCTGGTGCTGAGCCTGGAGCGGATGAACAAGGTGGTCGGGTTCGATCCGATCGACCGCACCCTGAGCGTGCAGGCCGGCATGCCGCTGGAGGCGGTGCACGGCGCGGCGCGCGAGCACGGGCTGGCCTATCCGGTCGATTTCGCCGCGCGTGGCTCGTGCACGATCGGCGGCAACATCGCCACCAATGCCGGCGGCATCCGGGTGATCCGTTACGGCAATACCCGCGAATGGGTCGCCGGGCTGAAGGTGGTGAGCGGCAGCGGTGAGCTGCTGGAGCTGAACAACGCGCTGGTGAAGAACTCCAGCGGCTACGACTTCCGCCAGCTGATGATCGGTTCGGAAGGCACGCTCGGCATCGTCGTCGAGGCGACCCTGCGGCTGACCGACCCGCCGCGCCCGAGCAACGTGATGCTGCTGGCGCTGCCCTCGTTCGATGTGCTGATGCAGGTGTTCGCCGCGTTCCGCGCCGGCCTGCAGCTGGAGGCGTTCGAATTCTTCACCGACCGGGCGCTGCACCACGTGCTGGCGCACGGTGCGCAGAAGCCGTTCGACACGCTGTATCCGTTCTACGTGGTCACCGAGTTCGTCAACGACGAGCCCGGCGAGGCCGCGGCGCTGGCGGCGTTCGAGGCCTGCATGGAGCAGGGCTGGGTGCTGGACGGGGTGATCAGCCAGAGCGATGCGCAGGCCCAGCAGCTGTGGCGCCTGCGCGAAGGCATCACCGAGAGCGTGGCGCGCTACACGCCATACAAGAACGACGTCTCGGTGCGGATCGGGGCGATGCCGGCGTTCCTGGCCGAGGCCGAGGCGCTGATCGGCCAGGCCTATCCGCATTTCGACGTGGTCTGGTTCGGCCATATCGGCGACGGCAACCTGCACATCAACGTGCTCAAGCCGGACGGGATGACGGCCGACGCGTTCATTCCCGCCTGCGAACACGTGACCAAGCTGCTGGCCGAGGTGCTGCATCGTTACAAGGGCAGCATCTCGGCCGAGCACGGCATCGGCCTGGTCAAGAAGCCGTACCTGGGCAGCACCCGCAGCGCCGCCGAGGTCGCGCTGATGCGCGGGGTCAAGCACGCGTTCGATCCGGCCGGCCTGCTCAACCCCGGCAAGCTGTTCGACGCCTGA	MTDPRIASLEQAVHGLRLKTDPSDLEHYGRDWTRRWTPAPLAIALPSSVEEVQAVVRWANAEGVAIVPSGGRTGLSGGAVAAHGELVLSLERMNKVVGFDPIDRTLSVQAGMPLEAVHGAAREHGLAYPVDFAARGSCTIGGNIATNAGGIRVIRYGNTREWVAGLKVVSGSGELLELNNALVKNSSGYDFRQLMIGSEGTLGIVVEATLRLTDPPRPSNVMLLALPSFDVLMQVFAAFRAGLQLEAFEFFTDRALHHVLAHGAQKPFDTLYPFYVVTEFVNDEPGEAAALAAFEACMEQGWVLDGVISQSDAQAQQLWRLREGITESVARYTPYKNDVSVRIGAMPAFLAEAEALIGQAYPHFDVVWFGHIGDGNLHINVLKPDGMTADAFIPACEHVTKLLAEVLHRYKGSISAEHGIGLVKKPYLGSTRSAAEVALMRGVKHAFDPAGLLNPGKLFDA	PGPT0001440_2	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
BMS020_06914	1242	serA_2	COG0111	D-3-phosphoglycerate dehydrogenase	ATGTCGCCGAAGAAGACCTCGTTCCCGAAACAGGACATCCGCGTATTGCTGCTGGAAGGCATCAGCCAGACCGCCGTGGACACCTTCCGCGCTGCCGGCTACTCGCAGATCGAGACGCATGCCAAGTCGCTGCCCGAGGACGAACTGAAGGCGCGCATCGCCGAGGCGCACATCGTCGGCATCCGCTCGCGCACGCACCTCAGCGAAGACGTGCTGGCGCACGCCAAGCGCCTGATCGCGGTCGGCTGCTTCTGCATCGGCACCAACCAGGTCGAGCTGGACGCGGCCGAGCTGGCCGGCATCCCGGTGTTCAACGCGCCCTACTCCAACACCCGTTCGGTCGCCGAGCTGGTGATCGCCGAGGCGATCTTGCTGCTGCGCGGCATCCCGCAGAAGAACGCCGAATGCCATCGCGGCGGCTGGTCCAAGTCGGCCGCCGGCAGCCATGAAACCCGCGGCAAGGTGCTGGGCATCGTCGGCTACGGCCACATCGGCACCCAGGTCGGCGTGCTGGCCGAGGCGCTGGGCATGCAGGTGATCTTCCACGACATCGAGACCAAGCTGTCGCTGGGCAATGCGCGCGCCGCGGCCGACTTGGCCGACCTGCTGGCGCAGTCGGACGTGGTCACCCTGCACGTGCCGGAAAACGCCTCGACCAAGAACATGATCGGCGCCGAGCAGATCGCGCAGATGAAGCGCGGCGCGCACCTGATCAACGCCTCGCGCGGCACCGTGGTCGACATCGACGCACTCGATGCGGCGCTCAGCTCCGGCCAGGTCGGCGGCGCCGCCGTCGACGTGTTCCCGGTCGAGCCCAAAGGCAACGGCGATGCATTCGAATCGCCGCTGACCGCGCACGACAACGTGATCCTGACCCCGCACGTCGGCGGCAGCACGCTGGAGGCGCAGGACAACATCGGCATCGAGGTCGCCGCCAAGCTGGTGCGCTACAGCGACAACGGCAGCACGCTGTCGGCGGTGAACTTCCCCGAAGTCACCCTGCCCGAGCACGCCGAGAGCCTGCGCCTGCTGCACATCCACCGCAACGTGCCGGGCGTGCTGTCGCAGATCAACGAACTGTTCTCGCGCCACAACGTCAACATCGACGGCCAGTTCCTGCGTACCGACCCCAAGGTCGGCTACGTGGTCATCGACGTCGACGCCAGCGAGGAGCAGGCCAACCTGCTGCGCGAGGACCTGGCCAAGATCCCCGGCACGCTGCGCACCCGCATCCTGTACTGA	MSPKKTSFPKQDIRVLLLEGISQTAVDTFRAAGYSQIETHAKSLPEDELKARIAEAHIVGIRSRTHLSEDVLAHAKRLIAVGCFCIGTNQVELDAAELAGIPVFNAPYSNTRSVAELVIAEAILLLRGIPQKNAECHRGGWSKSAAGSHETRGKVLGIVGYGHIGTQVGVLAEALGMQVIFHDIETKLSLGNARAAADLADLLAQSDVVTLHVPENASTKNMIGAEQIAQMKRGAHLINASRGTVVDIDALDAALSSGQVGGAAVDVFPVEPKGNGDAFESPLTAHDNVILTPHVGGSTLEAQDNIGIEVAAKLVRYSDNGSTLSAVNFPEVTLPEHAESLRLLHIHRNVPGVLSQINELFSRHNVNIDGQFLRTDPKVGYVVIDVDASEEQANLLREDLAKIPGTLRTRILY	PGPT0009155_3282	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
BMS020_06915	1077	estB_2	COG1680	Esterase EstB	ATGCGGACGTTCGGGATCATCATCGCGCTGCTGGCGGCGCAGGGCCTGGCGAGCCTGCCGGCCGCCGCGCAGGACTACCACGACATCGCCGACCGCTACCGCGAGCTGGACGGCTTCAATGGCGTGATCCTGGTCGCCGACGGCCGCGGCCTGTGCACGGTGGAGGGCTTCGGCCGCGCCGATGCCGAGCACGGCATGCCGATGCTGCCGGCGACGCGTTTCGAGACCGGCTCGGTGTCGAAATGGATCGCCGCGATCGTGGTGCTGCGGCTGGTCGATGCGGGCACGCTCGCACTGGATGCGCCGATCGGCCGCTACCTGCCCGACTACCGCGCCGACAGCGGCGCCCGGCTGACCCTGCGGCACCTGCTCAGCCACGCCAGCGGCGTGCCCAACCAGCTCGCCGAGGCGCGCAAGGATCCGGCCATCCGCGGCATCGAGCTGGAGCAGATGGAGGCCGTGCGCCGCTACGCCAGCGCCGACCTGGCCTTCGCGCCCGGCAGCGACTTCGACTACTCCCACTCCAACTGGCTGCTGGTCAAGGCGGTGGTCGAGCGCGCCAGCGGCCAGTCCTACGCGCGCCTGGTCGAACGCGAACTGCTCGCGCCACTGCGGCTGCGCGACAGCGGCGTCTACCACGGCGATTCCAGCCGCGTGCGGGCGATGGCCGCCGGCTACCAGGCGCTGGACCCGCGACCGCGGCGCAAGCCCAACCCGGTGCCGGCGTTCATGGCGATGGCCGGCGGCTTCTACACCACCGCGCCGGAGCTGCTGAAGATCATGCAGGCCACGCTCGACGGCGACCTGCTGAGCCCGGCGTCGCGCCGCGCACTGACCACGGTACTGATGCCCGCCCAGCACTACGCGTTGGGCGGGCGCGTGCGCGATGAGCCGATCGCCGGCCAGACCCGCGCGACCGCGTGGGAAGACGGCGCCAACGGCGGCTTCCGCATGGTCGCGCGGCGGGTGCTGGCCGACGGCCACACCGTCATCGTGTTCAGCAACGCCAGCTTCGACTACATGAAACTCGGCCAGCTGGCCTCCGAGCTGCTCGAACGCAGTTACGAGGAAGGCTGA	MRTFGIIIALLAAQGLASLPAAAQDYHDIADRYRELDGFNGVILVADGRGLCTVEGFGRADAEHGMPMLPATRFETGSVSKWIAAIVVLRLVDAGTLALDAPIGRYLPDYRADSGARLTLRHLLSHASGVPNQLAEARKDPAIRGIELEQMEAVRRYASADLAFAPGSDFDYSHSNWLLVKAVVERASGQSYARLVERELLAPLRLRDSGVYHGDSSRVRAMAAGYQALDPRPRRKPNPVPAFMAMAGGFYTTAPELLKIMQATLDGDLLSPASRRALTTVLMPAQHYALGGRVRDEPIAGQTRATAWEDGANGGFRMVARRVLADGHTVIVFSNASFDYMKLGQLASELLERSYEEG				NA	NA	NA	NA	NA
BMS020_06916	276			hypothetical protein	ATGTCCCGTCCCGCGCCCCGTTTCACCTACCGGCTGGCATTCCGCCCGGTTGACGACCACATGGATGCCTCCGAGCTGGCGCGCACCGTGCAGCGCACGTTGCTGGCACTGAGCGCGCCGCCGCATGGCGTGAGCATCGTCAGCCTGCAGCGGCCGCCGCGCGAGGATGGGTCGGGCCTGTACATGGAGGCGGTCACCAGCGGCCCGGAGCAGTGGTACCTGAAGGCCGACGATTACCTGCTCAGCGAAGGGCTGCGCGGCGAGCTGCAGCCCTGA	MSRPAPRFTYRLAFRPVDDHMDASELARTVQRTLLALSAPPHGVSIVSLQRPPREDGSGLYMEAVTSGPEQWYLKADDYLLSEGLRGELQP				NA	NA	NA	NA	NA
BMS020_06917	570			hypothetical protein	ATGCAGCACCCCGGCCAGCCCGACGCCAGCCGCCTCCGGCAGCAGTTGATGCAGTACCGCCAGCAGTGGCCGGCGGAATCGGCGGTGGCCGATGCGTTCCTGGAACTGCTCGACGATCCGGCCGATCCGTTCCTGCGCGAGCGCCTGGCCGGGCATTTCACCGCTTCCTCGTGGCTGGTCAGCGGCGACGGCGCCCGCACCCTGCTGACCCACCACCGCAAGCTGCAGCGCTGGCTGCAGCTGGGGGGGCATGCCGACGGCGAGGCCGACCTGGGCCTGGTGGCGCTGAAGGAGGCAGAGGAGGAATCCGGCCTGTCCGGACTGCAGCTGGAAGACGCGGCGATCTTCGACCTGGACCGGCACTGGATTCCCGAACGCGGCGAGGTGCCGGGGCACTGGCACTTTGATGCGCGCTACGTGGTCCGCGCCGGTGCCGACGAGGCGTTCGTGGTCAGCGAGGAATCGCTGGCGCTGGCCTGGCGTGCGATCGATGCACTGCTGGCCGAGCCGGAGCTGGAGCCGTCGATGCGGCGCATGGCCGGCAAATGGATGGCGCGCGCGGCCGGGTGA	MQHPGQPDASRLRQQLMQYRQQWPAESAVADAFLELLDDPADPFLRERLAGHFTASSWLVSGDGARTLLTHHRKLQRWLQLGGHADGEADLGLVALKEAEEESGLSGLQLEDAAIFDLDRHWIPERGEVPGHWHFDARYVVRAGADEAFVVSEESLALAWRAIDALLAEPELEPSMRRMAGKWMARAAG				NA	NA	NA	NA	NA
BMS020_06918	1473	yhdG_3	COG0531	putative amino acid permease YhdG	ATGCTGAAGTCTCTGTTGAGGGTCAAACCGGTCGCGCCGGCCGGGCATGTCGATGCCGGCGAGCCGTTCGAAGGCAGCCTGGAAGGCGAAGCCACGCTGAAACGGACCCTCACAGCCAAGCACCTGATCATGCTCGGCATCGGCGCGGTGATCGGCGCCGGCATCTTCGTGCTGACCGGCCAGGCCGCGGCCAACCACGCCGGCCCGGCGGTGATGCTGTCGTTCGTGTTCGCCGGCATCGCCTGCGCCTTCGCCGGTCTGTGCTACGCCGAGTTCGCGGCGATGATGCCGGTCTCCGGCAGCGCCTACTCCTACTCCTACGCGACCCTCGGCGAGGGCATGGCCTGGTTCATCGGCTGGTGCCTGGTGCTGGAATACCTGTTCGCCGGCTCCAGCGTCGCGGTCGGCTGGTCGGCCTACCTGGTCAGTTTCCTGACCGGCACGCTGGGCCTGCCCTTCCCGGCCGAGCTGGCGGCCGCGCCGCTGGACTGGACCGGGCATGCGTTCGTCGCCTCCGGCAACATCGTCAACCTGCCGGCGGTGCTGATCGTCGCCGCGGTCAGCGGCCTGTGCTACGTCGGCATCTCCCAGTCCGCGTTCGTCAACGCGATCGTGGTGGCGATCAAGATCGCGGTGATCTGCCTGTTCGTCGGCTTCGGCATCGCCTACATCAACCCGGACAACTGGCACCCGTTCATCCCGGCCAACCAGGGCCCGGGCGTGTTCGGCTGGGATGGCGTGTTCCGCGCCGCCTCGATCGTGTTCTTCTCCTACATCGGCTTCGACGCGGTCTCGACCTCGGCCGGCGAGACCAAGGACCCGCAGAAGAACATGCCGATCGGCATCCTGGTGTCGCTGGCGATCTGCACCGTGATCTACATCATCGTCTGCGCGGTGCTGACCGGGCTGATGCCGTACACCCAGCTCGGCACCGCCAAGCCGGTCGCCACCGCGCTGGAAGCCTACCCGCAGCTGGCCTGGCTGAAGACCGCGGTCGAGGTCGGCGCGATCGCCGGCCTGTCCTCGGTGGTGCTGGTGATGCTGATGGCGCAGCCGCGCATCTTCTACACCATGTCGCGCGACGGCCTGCTGCCGAAGGTGTTCGGCAAGGTCCACCCCAAGCACCACACCCCGTACGTGGGCACCGTCGCCGTCGGCGTGGTTGCCGCGCTGCTGGCCGGCCTGATCCCGCTGGACGTGCTTGGCGAGCTGGTGTCGATGGGCACCCTGCTCGCCTTCGCCACCGTCTGCGTCGGCGTGCTGGTGCTGCGCTTCACCAGGCCCGAGCTGCCGCGCCCGTTCCGCGTGCCGTGGTTCTGGGCGGTCTGCCCGCTGGGTGCGCTGTTCTGCCTGGGCCTGTTCTTCCAGGCGTTCCAGGAGCACTGGAAGGTGTTCATCGGCTGGACCGTGATCGGCCTGGTGATCTACTTCGGCTACGGCATCCGCCACAGCCGCCTGGCCCGCCAGGGTTGA	MLKSLLRVKPVAPAGHVDAGEPFEGSLEGEATLKRTLTAKHLIMLGIGAVIGAGIFVLTGQAAANHAGPAVMLSFVFAGIACAFAGLCYAEFAAMMPVSGSAYSYSYATLGEGMAWFIGWCLVLEYLFAGSSVAVGWSAYLVSFLTGTLGLPFPAELAAAPLDWTGHAFVASGNIVNLPAVLIVAAVSGLCYVGISQSAFVNAIVVAIKIAVICLFVGFGIAYINPDNWHPFIPANQGPGVFGWDGVFRAASIVFFSYIGFDAVSTSAGETKDPQKNMPIGILVSLAICTVIYIIVCAVLTGLMPYTQLGTAKPVATALEAYPQLAWLKTAVEVGAIAGLSSVVLVMLMAQPRIFYTMSRDGLLPKVFGKVHPKHHTPYVGTVAVGVVAALLAGLIPLDVLGELVSMGTLLAFATVCVGVLVLRFTRPELPRPFRVPWFWAVCPLGALFCLGLFFQAFQEHWKVFIGWTVIGLVIYFGYGIRHSRLARQG	PGPT0020810_2073	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020810-TC_APA|yhdG-K03294	NA	NA
BMS020_06919	1428	yhdG_4	COG0531	putative amino acid permease YhdG	ATGCTCAAACAACTCTGGGCCACCAAGCACCCGCACGCCGCGCATGAAGACGCCGGCGGGCTCGGCCTGCAACGCGCGCTCGGCCCCTGGGGGCTGACCGCGCTCGGCATCGGCGCGGTGATCGGCGGCGGCATCTTCGTCATCACCGGCCAGGCCGCCGCCGACCACGCCGGCCCGGCGATCATGCTGTCGTTCGTGCTGGCGGCGATCTGCTGCGCGTTCTGCGCGATGGCCTATGCCGAGTTCGCCGCGATGGTGCCGGTCTCCGGCAGTGCCTACACCTACACCTACGCCACCTTCGGCGAGCTGGCGGCCTGGTTCATCGGCTGGATGCTGGTGCTGGAATACGGCGTGTCGGCGTCGGCGGTGGCAGTCAGCTGGACCGGCTACTTCCTCAGCCTGCTCGACCAGTTCGGCATCCACCTGCCGGCAGCGCTGGTCAGTGCGCCGCTGGACGCGCAGCTGCGCCCGACCGGCGCGATCGCCAACCTGCCGGCCGCGGCGATCACCCTGCTGCTGACCTGGCTGTGCTACGTCGGCATCCGCAAGTCGTCGGCGATGAACATGGCGATGGTGGTGCTCAAGAGCGGCCTGATCGTGCTGGTGATCGTGGTCGGCTGGAAGTACGTGGACAGCGCCAACTGGCACCCCTTCATTCCCGCCAACGAGGGCCCGGGCAAGTACGGCTGGGACGGCGTGCTGCGCGGCGCGGCGATGGTGTTCTTCGCCTACATCGGCTTCGAGGCGGTGTCGGTGGCGGCGCAGGAGTCGCACCGTCCGCAGCGCGACCTGCCGATCGGCATGCTGCTGTCGCTGGTGATCTGCACCGTGCTGTACATCGCGATGGCGGCGGTGATGACCGGCCTGGTGCCCTACACCCTGCTCGGCACCGACGAGCCGGTGGTGACCGCCGTGGCCGCACACCCGGAGCTGGGCTGGCTGCGTACCGTGGTCGAGGTCGGCGCACTGATCGGGCTGTCCTCGGTGGTGCTGGTGATGATCATCGGCCAGCCGCGCATCTTCATGATCATGGCGCGCGACGGCCTGCTGCCGCCGGTGTTCACCAAGATCCACCCGACCTACCGCACTCCGCACATCAATACCGTGATCACCGGCATCGGCATCGCACTGCTGGCCGCGCTGTTCCCGCTGGACGTACTCGGCGAGCTGACCTCGATGGGCACGCTGATCGCGTTCGCCGCGGTCTGCGCCGGCGTGTTGATCCTGCGCCGCACCCAGCCCGACCTGCCGCGCCCGTTCCGGATGCCGGCGGCATGGCTGATCTGCAGCGCCGGCGTGCTCAGCTGCCTGGCACTGCTGTCGGCGATGACCGCGCACAACTGGATGCTGATGGGCGTGTGGACGCTGGTCGGCTTCGCGCTGTACTTCGGCTACGGCTACCGCCACAGCCGCCTGCGCCAGCGCTGA	MLKQLWATKHPHAAHEDAGGLGLQRALGPWGLTALGIGAVIGGGIFVITGQAAADHAGPAIMLSFVLAAICCAFCAMAYAEFAAMVPVSGSAYTYTYATFGELAAWFIGWMLVLEYGVSASAVAVSWTGYFLSLLDQFGIHLPAALVSAPLDAQLRPTGAIANLPAAAITLLLTWLCYVGIRKSSAMNMAMVVLKSGLIVLVIVVGWKYVDSANWHPFIPANEGPGKYGWDGVLRGAAMVFFAYIGFEAVSVAAQESHRPQRDLPIGMLLSLVICTVLYIAMAAVMTGLVPYTLLGTDEPVVTAVAAHPELGWLRTVVEVGALIGLSSVVLVMIIGQPRIFMIMARDGLLPPVFTKIHPTYRTPHINTVITGIGIALLAALFPLDVLGELTSMGTLIAFAAVCAGVLILRRTQPDLPRPFRMPAAWLICSAGVLSCLALLSAMTAHNWMLMGVWTLVGFALYFGYGYRHSRLRQR	PGPT0020810_2851	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020810-TC_APA|yhdG-K03294	NA	NA
BMS020_06920	654	mtnB_2	COG0235	Methylthioribulose-1-phosphate dehydratase	ATGAATGCCATTCCCGCCCAGGTTCCCTACAGCACCCCGCGCCTGCACGAGCTGGCGCAGCTGCTGATCTCCAACATCCGCGAGCTGGCCCAGTCCGGCTGGACCCCGGCCACCAGCAGCAACTTCTCGCACCGCCTGGACGACCGCCACGCGGCGATCACCGTGTCCGGCCGCGACAAGGGCCGGCTGGTCGAAGAAGACATCATGGTCGTCGACTTCGACGGCCAGCCGGTCGGCCGCCAGCTGCGCCCCTCGGCCGAGACTCTGCTGCACACCCAGCTGTACCGCCGTTTCCCGGAGATCGGCTGCGTGCTGCACACGCACTCGCCGGTGCAGACCGTGGCCTCGCGCCTGTTCGCCGGGCAGGGCCACATCCACATCGAAGGCTACGAGCTGCTCAAGGCGCTCGATGGCAACACCACCCACGAGACCGCGGTCGACGTGCCGGTGTTCGCCAACACCCAGGACATGCAGGTACTGGCCGCGCAGGTCGACGCGCTGCTGGACAAGCAGCCGATGTGGGGGTATCTGATCGATGGACACGGCATGTACGCGTGGGGCCGCAACATGGCCGAGGCGCGCCGCCACCTGGAGGCCTTCGAGTTCCTGCTGGGCTGCGAACTGGAACTGATCAAGCTGCGCGGGTCGCGCTGA	MNAIPAQVPYSTPRLHELAQLLISNIRELAQSGWTPATSSNFSHRLDDRHAAITVSGRDKGRLVEEDIMVVDFDGQPVGRQLRPSAETLLHTQLYRRFPEIGCVLHTHSPVQTVASRLFAGQGHIHIEGYELLKALDGNTTHETAVDVPVFANTQDMQVLAAQVDALLDKQPMWGYLIDGHGMYAWGRNMAEARRHLEAFEFLLGCELELIKLRGSR				NA	NA	NA	NA	NA
BMS020_06921	567	mtnD_2	COG1791	Acireductone dioxygenase	ATGAGCAGACTGCGCATCTTCCCCGAACACGACCCGGCCAACGCCGAATTCGAAAGCAGCGACGGCGCCCGCATCGCCGAACAGTTGCAGGCGATCGGCGTGACCTTCGAACGCTGGCAGGCCACCCAGGCGATCGCGCCGGGCGCCGCCCCGGAGCAGGTGATGGACGCCTACCGCGCCGACATCGACCGCCTGGTCGCCGAACGCGGCTTCAAGACCGTCGACGTGGTCAGCATCGCGCCGGACAACCCCAAGCGCGAGGAAATGCGCGCCAAGTTCCTCGACGAGCACTTCCACAAGGAAGACGAGGTGCGCTTCTTCGTCGCCGGCTCCGGGCTGTTCACGCTGCACGTCGGCGGCAAGGTGTACGAGATCGAGTGCGTGAAGGACGACCTGATCGCGGTGCCGGACGGTGCGCTGCACTGGTTCGACATGGGCGCCGAGCCGTACTTCATCGCGATCCGGTTCTTCACCGAGCCGGACGGCTGGGTCGGCCACTTCACCGGCACCGACATCGCCAAACAATTCCCCCGCTACGAACCTGAGAAAACCCAGAAGGCGAGCTGA	MSRLRIFPEHDPANAEFESSDGARIAEQLQAIGVTFERWQATQAIAPGAAPEQVMDAYRADIDRLVAERGFKTVDVVSIAPDNPKREEMRAKFLDEHFHKEDEVRFFVAGSGLFTLHVGGKVYEIECVKDDLIAVPDGALHWFDMGAEPYFIAIRFFTEPDGWVGHFTGTDIAKQFPRYEPEKTQKAS				NA	NA	NA	NA	NA
BMS020_06922	705	mtnC_2		Enolase-phosphatase E1	ATGACACAACCGCAAGCGATCCTCACTGATATCGAAGGCACCACCAGTAGCATTTCGTTCGTCAAGGACGTGCTGTTCCCGTACGCGCGGCGTGCGATGCCCGACTTCATCCACGAACACGGCAACCATCCGCAGGTGCGGCACTGGCTGAACCAGGTCGGCGACGAGCTCGGTGACGACCACAACGACGAGCACATCATCGCCGCGCTGCAGACCTGGATCGACGAGGACCGCAAGCACACCGCGCTGAAGGCGTTGCAGGGCATGATCTGGGAAGACGGCTACCGCACCGCCGACTTCACTGCGCACATCTACCCCGACGCCGCCAGCCGTCTGCGCGAGTGGCACGCTGCCGGCATCCCGATCTACGTGTACTCCTCCGGCTCGGTGCCGGCGCAGAAGCTGTTCTTCGCCCACAGCGATGCCGGCGACCTCAGCGGGCTGGTCAGCGACTGGTTCGACACCGAGATCGGCGGCAAGCGCGAGAGCAACAGCTACCGGCGCATCGCCGAACGCATCGGCATCGCCCCGGGCGAGATCCTGTTCCTGTCGGACGTGATCGAGGAGCTGGATGCGGCTACCCGCGCCGGCATGAAGACCGCGCTGCTGGACCGCGCCGAGGACTATCCGACCCCGCGCACCGCGCAGGAAGTCGGCCACCACCCGCGGGTACAGGCGTTCAACGAGATCGTGTTCCAGGCCTGA	MTQPQAILTDIEGTTSSISFVKDVLFPYARRAMPDFIHEHGNHPQVRHWLNQVGDELGDDHNDEHIIAALQTWIDEDRKHTALKALQGMIWEDGYRTADFTAHIYPDAASRLREWHAAGIPIYVYSSGSVPAQKLFFAHSDAGDLSGLVSDWFDTEIGGKRESNSYRRIAERIGIAPGEILFLSDVIEELDAATRAGMKTALLDRAEDYPTPRTAQEVGHHPRVQAFNEIVFQA				NA	NA	NA	NA	NA
BMS020_06923	1101			hypothetical protein	ATGACCTCGACGCTTCCCCCTTTCGCCCGAACCGCGCGCCCCACGCGCGTCGTGACTGCTGCGCTGGGCATCGCCCTGCTGGTGCTGGCCTGCGGCTGCAGCCGGCATGCTGGCGCGACCGCCGACGCACATCGCACGCCGGCACTGCCGAGCGCAGACGCCCGCCCCGCCGCTCCTGCGCAAGTGGCACCGGCCGCACCCGCCACGTCCGCCGCCAGCGACGATCAGGACGCCGCGCAGGACCAGGATGATCCGGTCGACGCCGCCGCGCTGCAGGCCGCATTCGCGGCGCTGGCGCCGCAGCGCCCGGGCACCCCGGACCTGTACGCGGTCGGCTTCGCCGGCGACGCCAGCGACGACGTGTTCCGCAACGAGACGCTCTACCTCAAGCAGCTGCTCGGCACCCGCTTCGATGCCGCCGGCCGCGTCGTCACCCTGGTCAACAACCCGGACAACCTGACAGACGCGCCGTACGCGCCGCTGGCGACCTACGACAACCTCTACGACACACTGGCGCGGCTGGGCAAGCTGATGGACCCGCGCGAGGACGTGCTGCTGCTGTTCGTCACCACCCATGGCACCGAGGACCACACGCTGTACGTGCAGGTCAGCGACGAGGAAGAGGACTTCATCACCCCGCAGGACCTGCGCCAGGCGCTGGACGACGCCGGCATCCGCAACCGGGTGATCGTGCTGTCGGCTTGCTATTCCGGCGGCTTCATCCCGGCGCTGAAGAGCCCGGACACGCTGATCGTCACCGCCGCGCGCAGCGACCGGCCCTCGTTCGGCTGCGGCAACACCGCCAACGCCACCTACTTCGGCCAGGCCTGGCTGGTCGACGCGCTCAACGCCACCACCGATTTCGAACAGGCCTACCAGTTGGCGGTGCGCGAGATCACCGCGCGCGAACAGGCCGAAGGCGAGCAGCCCTCGCAGCCGCAGCTGTGGCGCGGCGGCCGCATCGGCGCAGTGCTGGCGCGCTGGCGTGCCGGGCTGCATGCCGGGCCGGCGGTGCCGTATCCCTACCCGGATACCGCGCTCCCCCAGGACAACATGCAGGCGCGGCTGGGGCGCACCGCGGCCGGCGCTTCCTGCGAGTAA	MTSTLPPFARTARPTRVVTAALGIALLVLACGCSRHAGATADAHRTPALPSADARPAAPAQVAPAAPATSAASDDQDAAQDQDDPVDAAALQAAFAALAPQRPGTPDLYAVGFAGDASDDVFRNETLYLKQLLGTRFDAAGRVVTLVNNPDNLTDAPYAPLATYDNLYDTLARLGKLMDPREDVLLLFVTTHGTEDHTLYVQVSDEEEDFITPQDLRQALDDAGIRNRVIVLSACYSGGFIPALKSPDTLIVTAARSDRPSFGCGNTANATYFGQAWLVDALNATTDFEQAYQLAVREITAREQAEGEQPSQPQLWRGGRIGAVLARWRAGLHAGPAVPYPYPDTALPQDNMQARLGRTAAGASCE				NA	NA	NA	NA	NA
BMS020_06924	630	hisI_2		Histidine biosynthesis bifunctional protein HisIE	ATGTGCAGTGATGCGGTGGCGCCGGAGCGGCGCCTGGATTGGGCCAAGGGCGACGGGCTGCTGCCGGTGGTGGTGCAGGATGCCGACACGCTGCGCGTGCTGATGCTCGGCTACATGAATGACGAGGCGTTGGCGGCGACCCGCGCCAGCGGGCATGTGACCTTCTACAGCCGCAGCAAGCAGCGGTTGTGGACCAAGGGCGAAAGCTCTGGGCACGTCCTCGACGTGGTCTCCATCGACGTCGACTGCGACGAGGACACGCTGCTGGTGCTGGCGCGGCCGCATGGGCCGACCTGCCACCTGGGGCGGACCAGTTGCTTCCCTGGCGCGCCGGGTGCGGCCGGCGCCGGCATCGCCTTCCTCGGCGAGCTGGACGCGCTGGTCGCCCAGCGCGAGCGCGAGCGCCCGCAGGGCAGCTACACCACCACGCTGTTCGAGAAGGGCACGCGGCGGATCGCACAGAAGGTTGGCGAGGAAGGCGTGGAAACCGCGCTGGCCGGCGTCGCCCAGGGCGACGAGGAGCTGCTCGGCGAATCGGCCGACCTGCTGTACCACCTGACCGTGCTGCTGCGCGCGCGCGGGCTGTCGCTGGCCGACGCGGTCGCGGTGCTGGAGCGTCGTCACCGCTGA	MCSDAVAPERRLDWAKGDGLLPVVVQDADTLRVLMLGYMNDEALAATRASGHVTFYSRSKQRLWTKGESSGHVLDVVSIDVDCDEDTLLVLARPHGPTCHLGRTSCFPGAPGAAGAGIAFLGELDALVAQRERERPQGSYTTTLFEKGTRRIAQKVGEEGVETALAGVAQGDEELLGESADLLYHLTVLLRARGLSLADAVAVLERRHR				NA	NA	NA	NA	NA
BMS020_06925	777	hisF_2	COG0107	Imidazole glycerol phosphate synthase subunit HisF	ATGCTGAGCCGCCGCATCATCCCGTGCCTGGACGTGCGCGCAGGGCGCGTGGTCAAGGGGGTCAAGTTCCGCGACCACGTCGACATGGGCGACATCGTCGAACTGGCATTGCGCTACCGCGAGCAGGGCGCCGACGAGCTGGTGTTCTACGACATCGGCGCCAGCCCGGAGGGACGCTCGGTCGACTACGGCTGGGTCGAGCGGGTGGCGCGGCTGATCGACATCCCGTTCTGCGTGGCCGGCGGCATCCGCGATGTCGAGACCGCACGCGCGGTGCTGTACGCCGGTGCCGACAAGATCTCGATCAACTCGCCGGCACTGGGCCGGCCAGCGTTGATCTCCGAGTTGGCCGACGCGTTCGGCGTGCAGTGCGTGGTGGTCGGTGTCGATTCGATCCGCGAAGCGGACGGGCAGTGGCGGGTGCGCCGCTTCACCGGCGATCCGAGCAAGACCCAGGCGGTGCCGCTGCGCACGCTGGACTGGATCGCCGAGGCCCAGCGCCTGGGCGCCGGCGAGATCGTACTCAACTGCATGGACAACGATGGCGTGCGCCGTGGCTATGACATCGCCCAGCTGCGCGAGGCGCGCGCGCTGTGCCATGTGCCGTTGATCGCTTCCGGCGGTGCTGGCGAGATGCAGCACTTCGCTGACGTGTTCGAACAGGCCGACGTGGATGGCGCGCTGGCCGCCAGCGTGTTCCACAGCGGGGCGATCCCCATTCCGGAACTGAAGCGCTTCCTGCGTGAGCAACAGATCGAGGTACGTGATGTGCAGTGA	MLSRRIIPCLDVRAGRVVKGVKFRDHVDMGDIVELALRYREQGADELVFYDIGASPEGRSVDYGWVERVARLIDIPFCVAGGIRDVETARAVLYAGADKISINSPALGRPALISELADAFGVQCVVVGVDSIREADGQWRVRRFTGDPSKTQAVPLRTLDWIAEAQRLGAGEIVLNCMDNDGVRRGYDIAQLREARALCHVPLIASGGAGEMQHFADVFEQADVDGALAASVFHSGAIPIPELKRFLREQQIEVRDVQ	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
BMS020_06926	732	hisA_2	COG0106	1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino] imidazole-4-carboxamide isomerase	ATGAGCTTTACCGTTTACCCGGCGCTGGACATCCGCAACGGCCAGGTGGTGCGCCTGCTGCAGGGCGACTATGCCCAGGAAACCCGCTATGGCGACGATGCGCTGGCGCGCGCGCAGCGCTTCGCCGACGTTGGTGCGCGCTGGATGCACCTGGTCGACCTCGATGCGGCCAAGGCCGGCGGCTACACCCTGGCGCCGTTGCTGGCGCAGTTGGCCGCCACCGGCCTGCAGGTGCAGACCGGTGGCGGCGTACGCGGCCGCGACGATGTCGCCCGCATCCTCGATGCTGGCGCGGCGCGCGTGGTGATCGGGTCGCTGGCGGTGCGCGAGCCGGAGACGGTGATCGGCTGGCTGGCCGCCTTCGGCAGCGAGCGCCTGACCATCGCGCTGGACACCCGCCAGGATGCCGACGGCACCTGGCGCCTGCCGGTGCACGGCTGGACCGAGACCGCCGACAGCACGTTGGACCAGTTGGCCAGGCGTTACGCCGAGGCCGGGCTGCAGCACCTGCTGTGTACCGACATCGCCCGCGACGGCATGCTGTCGGGGCCGAACATGGACCTGTACGCGCACCTGCGCGCGCTGGTGCCGCAGCTGCAGGTGCAGGTCTCCGGTGGCGCGCGCGATGTCGGCGACGTCGTCGCGGCCAAGGCCGCCGGCTGTGGCGGTATCGTGCTCGGCAAGGCGCTGCTGGAAGGCCGGCTGGATCTCGAGGAGGCGCTGGCATGCTGA	MSFTVYPALDIRNGQVVRLLQGDYAQETRYGDDALARAQRFADVGARWMHLVDLDAAKAGGYTLAPLLAQLAATGLQVQTGGGVRGRDDVARILDAGAARVVIGSLAVREPETVIGWLAAFGSERLTIALDTRQDADGTWRLPVHGWTETADSTLDQLARRYAEAGLQHLLCTDIARDGMLSGPNMDLYAHLRALVPQLQVQVSGGARDVGDVVAAKAAGCGGIVLGKALLEGRLDLEEALAC				NA	NA	NA	NA	NA
BMS020_06927	603	hisH_2	COG0118	Imidazole glycerol phosphate synthase subunit HisH	ATGACCGATGTCGCGCTGATCGATGCTGGTGGCGCCAACCTCGGCTCGGTGCGTTATGCGCTCGAGCGGCTTGGGGTGGAGGCGCGGCTGGTGCGTGATGCCGACGGCCTGCGCGGCGCCGAGCGGGTGATCCTGCCGGGTGTCGGCGCGGCGCCGGAGGGCATGGCGCGCTTGCACGCGCAGGGCCTGGTCGCGCCGTTGCGCGCGTTGCAGGTGCCGCTGATCGGCATCTGCCTGGGCATGCAGCTGCTGTTCGAACATTCGGAGGAGGGCAACGTGGATTGCCTCGGCGTGCTCGACGGCATCGTCCGCCGCATGCATCCGGCCACCGGCATCCGCGTGCCGCACATGGGTTGGAACCGACTGCTGCCGCTGCGCGATTCGCCGCTGCTGGAGGGCGTGCCCGAGCTGGGCAGCGCCTACTTCGTGCATGGCTATGCCGCGCCGGTCACCGCCGACACCGTGGCCGCCTGCGATCACGGCGGGCTGTTCACCGCGGTGGTGCACAACGGCCTGCGCTGCGGCGCGCAATTCCACCCGGAGCGCTCGGCCGAGACCGGCGCGCGCATCCTGCGCAACTTCCTCGAGATGAGCTTCGCATGA	MTDVALIDAGGANLGSVRYALERLGVEARLVRDADGLRGAERVILPGVGAAPEGMARLHAQGLVAPLRALQVPLIGICLGMQLLFEHSEEGNVDCLGVLDGIVRRMHPATGIRVPHMGWNRLLPLRDSPLLEGVPELGSAYFVHGYAAPVTADTVAACDHGGLFTAVVHNGLRCGAQFHPERSAETGARILRNFLEMSFA				NA	NA	NA	NA	NA
BMS020_06928	1074	hisB_2	COG0131	Histidine biosynthesis bifunctional protein HisB	ATGACCCCGATCCTGTTCATTGACCGCGACGGCACCCTGATCGAGGAGCCGGCGGATTTCCAGATCGATGCCTACGAAAAGCTGCGCTTCGTGCGCGGGGTGATCCCGGCGCTGCTGAAGCTGCGCGATGCCGGCTATGAGTTCGTCATCGTCAGCAATCAGGACGGGCTTGGCAGCGAGGCCTATCCGCAGGCCAGCTTCGATGGCCCGAACGATCTGATGCTGCAGATCTTCGAAAGCCAGGGCATCGTGTTCCGCGACGTGCTCATCGACCGCAGCTGGCCGGCCGACAATGCGCCGACCCGCAAGCCCGGCATCGGCCTGATGGTGAAATACCTGCAGGACCGTGGCATCGACTGGACGCGTTCGGGCATGGTCGGCGACCGCCTGACCGACATCCAGTTCGCGCAGAACATGAACATCCGCGGCTTCCAGCTGCGCACCGAGCAGTTCGGCGGCGACTGGGACTGGGCCGGCATCGCCCACGCGCTGGCCGATGCGCCGCGTCGCGCGCTGGTCCAGCGCAACACCAAGGAGACGAAGATCCGCGTCGCGCTCGACCTTGATGGCGCGCCCGAGGCGCATACCGCGACCGGGCTGCCGTTCTTCGACCACATGCTGGAGCAGATCGGCAAGCACGGCGGCTTCAGCCTGGACATCCGCGCCGAGGGCGACCTGCACATCGACGAGCACCACACCATCGAGGACACCGGGCTGGCGCTCGGCCAGGCGCTGAAGGAGGCGCTCGGCGACAAGCGTGGCATCGGCCGCTACGGCTTCACCCTGCCGATGGACGAGACCCTGGCCAGCGCCGCGCTGGATTTCAGCGGGCGCCCGTATTTCGTCTTCGAGGGCGAGTTCAAGCGCGAGCGCGTCGGCGACATGCCGACCGAGCTGGTGCCGCACTTCTTCCGTTCGCTGTGCGATGCCTCCGGGCTGAACCTGCACCTGAGCGTGCGCGGCGACAACGACCACCACAAGGTCGAGGGCTGCTTCAAGGCGCTGGCGCGCGCGTTGCGCCAGGCGATCCGCCGCGAAGGCACCGCGCTGCCATCGACCAAGGGGGCGCTATGA	MTPILFIDRDGTLIEEPADFQIDAYEKLRFVRGVIPALLKLRDAGYEFVIVSNQDGLGSEAYPQASFDGPNDLMLQIFESQGIVFRDVLIDRSWPADNAPTRKPGIGLMVKYLQDRGIDWTRSGMVGDRLTDIQFAQNMNIRGFQLRTEQFGGDWDWAGIAHALADAPRRALVQRNTKETKIRVALDLDGAPEAHTATGLPFFDHMLEQIGKHGGFSLDIRAEGDLHIDEHHTIEDTGLALGQALKEALGDKRGIGRYGFTLPMDETLASAALDFSGRPYFVFEGEFKRERVGDMPTELVPHFFRSLCDASGLNLHLSVRGDNDHHKVEGCFKALARALRQAIRREGTALPSTKGAL	PGPT0020305_19	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
BMS020_06929	1095	hisC_3	COG0079	Histidinol-phosphate aminotransferase	ATGAACGAGACAGCGTCCATCCTGTCGCTGGTGCGCGCGGACCTGCGTGCGTTCGCCGGCTATTCCTCGGCGCGCACCAGCGCACTGCAGGGCGAGGTCTGGCTCAATGCCAACGAATCGGCCTGGGCCAATCCGGCCGATGCCGATGCGTCGAGCCGGCGCTATCCCGACCCGCAGCCGGGTGCACTGCGCGCTGCGCTGGCGCAGCTGTACGGGGTGACGCCGGCGCAGCTGCTGATCGGCCGCGGCAGCGACGAAGGGATCGACCTGCTAGTGCGTGGCCTGTGCGTGCCCGAGCAGGACGCGATCGTCACCACGCCGCCGGTGTTCGGCATGTACGCGGTGTGCGCGCGGCTGCAGAACGCGCCGCTGGTGGAAGTGCCGCTGGTCGACAGCGCCGATGGTTTCCGCGCCGACATCGACGCGATCGTCGCGGCCGCGCTGGCGTCCAACGCCAAGCTGGTGTTCCTGTGCTCGCCGTCGAATCCGGCCGGCTCGGCGATCGCCCTGGCCGAGGTCGAATCGGCCGCGCAGCGGCTGCAGGGGCGGGCGCTGGTGGTGGTCGACGAGGCCTACGGCGAGTTCTCCGACGTGCCGTCGGCGACCACGCTGCTGGCGCGCTACGACAACATCGCGGTGCTGCGCACGCTGTCCAAGGCGCACGCGCTGGCCGCGGCGCGGATTGGCACGCTGATCGCGCACCCGGCGCTGATCGCGGTGCTGCGCCGTTGCCAGGCGCCGTATCCGGTGCCGACCCCGTGCGCGCGGCTGGCCGAACACGGCCTGTCGGCACCGGCGCTGGCGGTGACCCGGCGCCGCATCGACGAGGTGCGTGCCGAGCGCAGTCGCATGCAGGCGGCGCTGGCGGCGCTGCCGGGCGTGCGCCGGGTCTACCCGTCGCAGGGCAATTTCCTGCTGGTGCGCTTCGCCGATGCCGAAGCCGCGTTCCAGGCGCTGCTTGGCGCCGGCGTGGTGGTGCGCGACCAACGCGCCGCGCCGCAGCTGGCCGACGCGCTGCGCATCACCCTCGGCACGCCGGAGCAGAACGCGCGCGTGCTGGCTGCGTTGCAGCGCACCCAGGAGGCCGCGGCATGA	MNETASILSLVRADLRAFAGYSSARTSALQGEVWLNANESAWANPADADASSRRYPDPQPGALRAALAQLYGVTPAQLLIGRGSDEGIDLLVRGLCVPEQDAIVTTPPVFGMYAVCARLQNAPLVEVPLVDSADGFRADIDAIVAAALASNAKLVFLCSPSNPAGSAIALAEVESAAQRLQGRALVVVDEAYGEFSDVPSATTLLARYDNIAVLRTLSKAHALAAARIGTLIAHPALIAVLRRCQAPYPVPTPCARLAEHGLSAPALAVTRRRIDEVRAERSRMQAALAALPGVRRVYPSQGNFLLVRFADAEAAFQALLGAGVVVRDQRAAPQLADALRITLGTPEQNARVLAALQRTQEAAA	PGPT0020305_4216	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
BMS020_06930	1311	hisD_2	COG0141	Histidinol dehydrogenase	ATGACGACGTCGAAGTGGAACCGGCTTGAATGGGATGTGCTGGACGAGCAGGCGCGCACGCGCGCGCTGACCCGCCCGGTGCAGACGGTGGCGACGCAGACCCGCGATGCGGTCGCGGCACTGATCGACCAGGTGCGCGAACTCGGCGACGTGGCGCTGCGTGAGATCACCGCGCGCTTCGACGGCGTCGCGCCGGCGGCGTTCGAGGTCGGCGCCGACGAGTTTGCTGCCGCCGAGGCCGCGGTCGCGCCTGAACTGCGCGCGGCGATGGTCGATGCGATCGCTCGGATCGAGGCCTTCCACGCCGCCGGCATGGCGCAGCCGTACGCGGTCGAGACCGCCCCCGGGGTGGTCTGCGAGAAGATGGTGCGGCCGATCGGCAAGGTCGGCTTGTACGTTCCCGCGGGCAGCGCGCCGCTGCCGTCGACCGCGCTGATGCTCGGCGTGCCGGCACGCCTGGCCGGCTGCCGCGAGGTGGTGCTGTGCACGCCGCCGCGCAAGGACGGCAGCGCCGATCCGGCGGTGCTGGTCGCGGCCAAGCTGACCGGTGTGACCCGGGTATTCAAGCTCGGCGGCGCGCAGGCGGTGGCGGCGATGGCCTATGGCAGCGAGAGCGTGCCGGCCTGCGACAAGATCTTCGGGCCGGGCAACAGCTTCGTCACCGAGGCCAAGCAGCAGGTCGCCCAGGCCGGTGCCGCGGCGATCGACATGCCGGCCGGCCCGTCCGAGGTGCTGGTGATCGCCGATGCCGGCGCCAACGCCGCCTTCGTTGCCGCCGACCTGCTGTCGCAGGCCGAGCACGGCCCGGATTCGCAGGTGCTGCTGCTCAGCGACAGCGCCGCGTTGATCGACGCGGTCGAAGCCGAACTGGAGCGCCAGCTGGCCGCGCTGCCGCGCGCCGAGATCGCCCGCCAGGCGCTGGCGCAGTCGCGGCTGATCCTGGTCGAAGCACTCGATGCGGCGTTCGCAATCAGCAACCGCTATGCCCCCGAACACCTGATCCTGGCGCTGCGTTCGCCGCGCGACTGGCTGGCGCAGGTGGAAGCAGCCGGTTCGGTGTTCATGGGTGACTACACGCCCGAGGCGCTCGGCGACTACTGCAGCGGCACCAACCACGTGCTGCCGACCAATGGCGCCGCGCGCGCCTACAGCGGCGTGTCGGTGGCCAGTTTCCAGAACATGATCAGCGTGCAGGGCGCCAGCCGCGCCGGCATCGCCGCGATCGGTGGTTGCGCGCTGACCCTGGCACGTGCCGAGGGCCTGGACGCGCACGCCAATGCGGTGGCGCTGCGGATGGAGGCAGTGGCATGA	MTTSKWNRLEWDVLDEQARTRALTRPVQTVATQTRDAVAALIDQVRELGDVALREITARFDGVAPAAFEVGADEFAAAEAAVAPELRAAMVDAIARIEAFHAAGMAQPYAVETAPGVVCEKMVRPIGKVGLYVPAGSAPLPSTALMLGVPARLAGCREVVLCTPPRKDGSADPAVLVAAKLTGVTRVFKLGGAQAVAAMAYGSESVPACDKIFGPGNSFVTEAKQQVAQAGAAAIDMPAGPSEVLVIADAGANAAFVAADLLSQAEHGPDSQVLLLSDSAALIDAVEAELERQLAALPRAEIARQALAQSRLILVEALDAAFAISNRYAPEHLILALRSPRDWLAQVEAAGSVFMGDYTPEALGDYCSGTNHVLPTNGAARAYSGVSVASFQNMISVQGASRAGIAAIGGCALTLARAEGLDAHANAVALRMEAVA				NA	NA	NA	NA	NA
BMS020_06931	915	hisG_2	COG0040	ATP phosphoribosyltransferase	ATGAGTGCTTCCCAGGCCGCACCGGCGCGTGACCGGTTGCGTATCGCCATCCAGAAGAGCGGCCGTCTGGCCGAACCCGCCCGCAGCCTGCTCGCCGCCTGTGGCCTGAGCTGGCGGCAGAGCCGCGACAAGCTGTTCTGCTACGGCGAATCGCTGCCGGTGGACCTGCTGCTGGTCCGCGACGACGACATCCCCGGGCTGATCGCCGATGGCGTGGCCGACCTCGGCATCGTCGGCCAGAACGAGCTGGACGAGCAGGCCGCCGAGCGCCGCCGCAACGGCATGCCCGACGCCTACCGCGCGCTGCGCGGGCTGGAATTCGGCCAGTGCCGGCTGATGCTGGCGGTGCCGGAAGACTGGGACTGGCAGGGCGTGCAGCAACTGGCCGGCAAGCGCATCGCTACCAGCTATCCGGCGATCCTGGCCGACTGGCTGCAGCGCCAGGGCGTGGACGCGCAGGTGGTCGAGCTGTCCGGCTCGGTCGAAATCGCCCCGCGCCTGGGCACCGCCGACCTGATCTGCGACCTGGTCTCCTCCGGCGCCACGCTGGCGGCCAACCAGCTCAAGCCGGTGGAACTGGTGATGGAGAGCGAGGCGGTGCTGGCCGGCGCGGTGCGCGAGCCGGGCGACGCCCGTGCCGGGCTGCTGGCGATGCTGCTGCGGCGCCTGGATGGCGTGGTCAAGCTGCGCGACAGCAAGCTGCTGATGTTCCGCGCCGAGCAGGCCCAGCTGGCCGAACTGCGCCGGTTGCTGCCCGACGCCGATCCGCTGGTGCAGCTGCCCGACGACGGCAGCGGCGCACTGCGGCTGCAGACCATGTGCCACGGCGCGGTGACCTGGCAGCGGTTGGAGGATCTGGAGCGCGCCGGCGCGCGCGGGTTGATGGTGTTGACGGTGGAGCGGTCGCTGGCATGA	MSASQAAPARDRLRIAIQKSGRLAEPARSLLAACGLSWRQSRDKLFCYGESLPVDLLLVRDDDIPGLIADGVADLGIVGQNELDEQAAERRRNGMPDAYRALRGLEFGQCRLMLAVPEDWDWQGVQQLAGKRIATSYPAILADWLQRQGVDAQVVELSGSVEIAPRLGTADLICDLVSSGATLAANQLKPVELVMESEAVLAGAVREPGDARAGLLAMLLRRLDGVVKLRDSKLLMFRAEQAQLAELRRLLPDADPLVQLPDDGSGALRLQTMCHGAVTWQRLEDLERAGARGLMVLTVERSLA	PGPT0017400_476	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
BMS020_06932	324			hypothetical protein	ATGAAGACGCGACCCGCCACCTCCCGATCCGACGCCGCCGACGCCCCGCTGCAGTCGCTGGCTGAAGCGATGTCCGCCCTCGATGCCATTCCCGACGTGCTGGCCTTCCTGCGCGACCTGTGCACCCCCGCTGAGCTGGAGGCGATGGCCGACCGCTGGCGGGTGGTGCCGTTGTTGCTCAAGGGCGTGCCGTATCGTGAGATCCACGACCTGACCGGGGTCAGCGTGACCACCATCGGTCGGGTCGCGCGCACCCTCGAACACGGCGCCGGCGGCTATGCCGCGGCCATCCGCGGCCAGTCCCGCGCCCCCGAATCCCACTGA	MKTRPATSRSDAADAPLQSLAEAMSALDAIPDVLAFLRDLCTPAELEAMADRWRVVPLLLKGVPYREIHDLTGVSVTTIGRVARTLEHGAGGYAAAIRGQSRAPESH				NA	NA	NA	NA	NA
BMS020_06933	1413	hisS_2	COG0124	Histidine--tRNA ligase	GTGATCAAGCCCCGTACGCCGCCCGGCATCATGGAACTGCTGCCGCGCGAGCAGATCGCGTTCCAGCGCATGCTGGACGTCATCCGCCGCAACTACGAGCGTTTCGGATTCCTGCCGGTGGAGACGCCGGTGTTCGAACTCTCCGATGTGCTGCTGACCAAGTCCGGCGGCGAAACCGAGCGCCAGGTGTACTTCGTGCAGTCGACCGGTGCGCTGGCCAACGCCAACGCCGCCACCGCCGAGGCTTCGTTGCCGGAGCTGGCGCTGCGCTTCGACCTGACCGTGCCGCTGGCGCGCTACGTCGCCGAGCACGAGCACGAGCTGACCTTCCCGTTCCGGCGCTACCAGATGCAGCGGGTCTACCGCGGCGAGCGTGCCCAGCGCGGGCGCTTCCGCGAGTTCTACCAGTGCGACATCGACGTGATCGGCAAGGATGCGCTGAGCATCCGCTACGACGCCGAGGTACTGGCGGTGATCCACGCGGTGTTCTCCGAGCTGGGGATCGGCGACTTCAAGGTCCAGCTCAACAACCGCAAGCTGCTGCGTGGCTTCTTCGAGGCGCAGGGCGTGGCCGATGCGCAGCAGGCGCTGGTGCTGCGCGAGGTCGACAAGCTCGACAAGCGCGGCCCGGAATACGTACGCGAGACCCTGGTTGGGCCGGATTTCGGCCTGGGCGCCGATGCGGTGCAGCGCATCCTGGATTTCGTCGAGGTGCGCTCGACCTCGCATGCCGACGCGCTGGCCAGGATCGACTGGGCGGTCGCCGAGGCACAGGCGCGTGGCGGCGGCAGCGAGGCGCTGCAGCACGGTGCGGCCGAGCTGCGCGAGGTGCTGGAGCTGGTCAGGGCGCTCGGCGTGCCGGAAAGCGCGTACTGCCTGAACTTCTCCATCGCGCGCGGCCTGGACTACTACACCGGCACGGTCTACGAGACCACGCTGACCGACCACCCGCAGATCGGTTCGATCTGCTCGGGCGGCCGTTACGAGGACCTGGCCAGCCACTACACCAAGTCCAAGCTGCCGGGCGTGGGCATCTCGATCGGCCTGACCCGGCTGTTCTTCCAGCTGCGCGACGCCGGGCTGATCGCCGGCATCGCCGAGAGCAGCGTGCAGGCGATGGTGGCGCTGATGGACGAGGCGCAGCTGGACGATTCGCTGGATATCGCCCGGCGCCTGCGCGCGGGCGGCATCAATACCGAGGTGCAGATGGAGCCGAAGAAGATCGGCAAGCAGTTCCAGTACGCCTCCAAGGCCGGCATCCGCTTCGTGGTGCTGGCCGGCGACGAGGAGCGCGCCCGCGGCGTGGTCGCGGTCAAGGACCTAGTCCGCGAACAGCAGTTCGAGGTCGCCCGCGAGGAGCTGGCCAGCACCTTGCAGGTCGAACTGGAACAGGCGCGCGTGATGGCGGGCTGA	MIKPRTPPGIMELLPREQIAFQRMLDVIRRNYERFGFLPVETPVFELSDVLLTKSGGETERQVYFVQSTGALANANAATAEASLPELALRFDLTVPLARYVAEHEHELTFPFRRYQMQRVYRGERAQRGRFREFYQCDIDVIGKDALSIRYDAEVLAVIHAVFSELGIGDFKVQLNNRKLLRGFFEAQGVADAQQALVLREVDKLDKRGPEYVRETLVGPDFGLGADAVQRILDFVEVRSTSHADALARIDWAVAEAQARGGGSEALQHGAAELREVLELVRALGVPESAYCLNFSIARGLDYYTGTVYETTLTDHPQIGSICSGGRYEDLASHYTKSKLPGVGISIGLTRLFFQLRDAGLIAGIAESSVQAMVALMDEAQLDDSLDIARRLRAGGINTEVQMEPKKIGKQFQYASKAGIRFVVLAGDEERARGVVAVKDLVREQQFEVAREELASTLQVELEQARVMAG				NA	NA	NA	NA	NA
BMS020_06934	759	fixK	COG0664	Nitrogen fixation regulation protein FixK	ATGTATCGGCAGACCCTGGAAGACGCCGTCCCCTGCGCGGCGCCGGCCGATTCGCCCCTGCAGCAGGACCTGCACTGCGCCCATTGCGCAGTCCGCGGACGCTCGGTGTGCTCGGCCTTGAACGAGCGCGAGATGACCGCCCTGGACGAGGCCACCCAGACCATCCAGTGTGCCGCCGGCACCACCCTGGTCCGTACCGGCGACGCCCGCAGCTACGTCTACACGCTGACCGCCGGCGCGTTGCGGATGGTGCGCACGCTGGCCGACGGACGCCGGCAGATCACCGGATTCGTGCTGCCGGGCGACTATGTTGGGCTGACCGAAACCCCGCGCCATCGCCACGACATCGAGGCGATCGTGGACAGCCGCATCTGCCGCACGCCGATGGCCAGCATGCGCCGGCTGCGCGAGCAGTACCCGCACCTGGAGCGCAAGCTGATGCAGCGCACTAGCATGGAACTGGCCAACGCCCAGGACACCGGGCTGGCGCTGGCGCGGCTGCAGCCGAGCGAACGCCTGGCCCACTTCCTGCTGCGGCTGGCGGCGCGCTCGGTGCGTCCCGGCGTGTCCGGCGAGACCGTGGCGCTGCCGATGGGGCGCGGCGACATCGCCGACCACCTCGGCCTGACCATGGAGACGGTCAGCCGCACCTTCACCAAACTCAAGCAGCAGCAGTTGATCGCGCTGCCGCAGCTGCACCTGGTGCAGATCCTCGACTACCCCGGCCTGCGCGCGCTGGCCGGCGACGAGGACATCTAG	MYRQTLEDAVPCAAPADSPLQQDLHCAHCAVRGRSVCSALNEREMTALDEATQTIQCAAGTTLVRTGDARSYVYTLTAGALRMVRTLADGRRQITGFVLPGDYVGLTETPRHRHDIEAIVDSRICRTPMASMRRLREQYPHLERKLMQRTSMELANAQDTGLALARLQPSERLAHFLLRLAARSVRPGVSGETVALPMGRGDIADHLGLTMETVSRTFTKLKQQQLIALPQLHLVQILDYPGLRALAGDEDI	PGPT0000515_566	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000515-fnr-K01420	NA	NA
BMS020_06935	741			hypothetical protein	ATGCGACCCTTGCCCAAGCTCTCCGCCCTGGCGGCGCTGTCCGGCGTTGCCGCCGCCGCGCCGGCGCGGCCCGCCGCTACGGCGACGGTCGCGGCGCCGGCAGCAACGGCGGGCACCACTGGCCTGGTCGCGCAGTTGGCGCGGCAGGCGCCGGCATTGGATCCGCGGGTGCTGGCGCTGGCCACCGAGGCGCTGCAATGCGCCCGTCGCCGCCAGCAGGTCGGCGCGAACACGGTGCTCAGCGTGATCGATTACTCGCTGCCGTCGACCGAGCCCCGGCTGTGGGTGTTCGACCTGCAACGCCAGCAGCTGCTGTTCCGCGAGTGGGTGGCGCACGGGCGCAACACCGGCGAGAACCTGGCCAGCCGGTTCTCCAACAGCGATGGCAGCTACATGTCCAGCCTGGGCGGCTTCGCCGCGCAGGAGACCTATACCGGCCACAACGGCTATTCGCTGCGGCTGCGCGGCCTGGAGCCCGGCTTCAACGACCGGGCACGCGAGCGCGCGATCGTGATCCACGGCGCTGCCTACGTGAACGAGGCGATTATCCACAGCCAGGGCCGGCTCGGGCGCAGCCTGGGTTGTCCCGCGGTCCGGCCGGCGATCGCGCACCAGCTGATCGACACCTTGCGCGACGGCTCGTTCGTGTTCGCCTATTACCCGGACCCGGAGTGGCTGCGCCGCTCGCCGTTGTTGTCCGCCGACTGCGGCGGTTCCGACCTGGCCAGCGTCGGGCCTTGA	MRPLPKLSALAALSGVAAAAPARPAATATVAAPAATAGTTGLVAQLARQAPALDPRVLALATEALQCARRRQQVGANTVLSVIDYSLPSTEPRLWVFDLQRQQLLFREWVAHGRNTGENLASRFSNSDGSYMSSLGGFAAQETYTGHNGYSLRLRGLEPGFNDRARERAIVIHGAAYVNEAIIHSQGRLGRSLGCPAVRPAIAHQLIDTLRDGSFVFAYYPDPEWLRRSPLLSADCGGSDLASVGP				NA	NA	NA	NA	NA
BMS020_06936	1293	thrC_2	COG0498	Threonine synthase	ATGAACTTCATCTCCACCCGCAACGCTTCTCCCGCCGCCACGCTCAGCCAGGCGATCGCCGCCGGGCTGGCGCCGGACGGCGGCCTGTACGTGCCGGCGCAGCTGCCGCCGGCGCGCACGCTCGCGCCCGGTGCAACGCTTGCCGAGACCGCGACCACGCTGCTGGCGCCGTTCTTCGCCGGCGACGGCCTGCAGGACGCCTTGCCGACGATCTGCGCCGAGGCGTTCGACTTCCCGGCGCCGCTGGTGCCGCTGGCCACGCCCGGTGACTACAGCCTGGAGCTGTTCCATGGGCCGACCGCGGCATTCAAGGATTTCGGTGCGCGCTTCCTGGCGGCCTGCCTGACCCGGCTGCGCCGCGACGCGGACCGTCCGCTGACGATCCTGGTCGCCACCTCCGGCGATACCGGCGCGGCGGTCGCCGCGGCGTTCCACCGCCAGCCCGGCCTGCGCGTGGTGGTGCTGTATCCGGACGGGCGGGTGTCGCCGCGCCAGGCGCACCAGCTCGGCTGCTTCGGCGACAACGTCGCTGCGCTGCGCGTGGCCGGGGCGTTCGACGACTGCCAGGCGATGGTCAAGCAGGCGCTGGGCGATGGCGGACTGCAGGCGCAGGTGCCGCTGAGCTCGGCCAACAGCATCAGCCTGGGTCGGTTGCTGCCGCAGATGAGCTATTACGCGCATGCAGCATTGGTGCACCACGCCACGCACGGGCGCCCGCTCAACCTGGTGGTGCCGACCGGCAACCTGGGCAATGCGCTGGCGGCGGTCCTGGCGCGCGCGCTGGGCGTGCCGCTGGGGCGGATCGTGCTGGCGACCAACGCCAACCGGGTGCTGCCGGACTACTTCGGCGGCGGCGATTACGCGCCGCTGCCGAGCGTGGCCACGCTCGCCAACGCGATGGACGTCGGCGCGCCGAGCAACTTCGAGCGGTTGCGCTGGCTGCATGGCAGCGACGATGCGGCGCTGCGGGCCGGGTTCAGTGCGGTGTCGGTCGACGATGCGACGATCCGCTGCACCATCGTCGCGCGCCACAGCCGCTTCGGTGAAGTGTTCTGCCCGCACACCGCGACCGCGGTGCACGTGCTGGAGCAGCTGCGCGCGAACGGCGCCGACGGCGACTGGGCGGTCGCGGCGACCGCGCACCCGGCCAAGTTCGAAGCCGTGGTGGAACCGCTGATCGGTGCGCCGGTCGCGGTGCCCGAGGCGCTGGCCGCGCTGCTGCAGCGTCCGGCGCATGCCGAGCCGATCGCCCCGGAGTACGCCGCGCTGCGCGCGCAGCTGCTGGCTGGCTGA	MNFISTRNASPAATLSQAIAAGLAPDGGLYVPAQLPPARTLAPGATLAETATTLLAPFFAGDGLQDALPTICAEAFDFPAPLVPLATPGDYSLELFHGPTAAFKDFGARFLAACLTRLRRDADRPLTILVATSGDTGAAVAAAFHRQPGLRVVVLYPDGRVSPRQAHQLGCFGDNVAALRVAGAFDDCQAMVKQALGDGGLQAQVPLSSANSISLGRLLPQMSYYAHAALVHHATHGRPLNLVVPTGNLGNALAAVLARALGVPLGRIVLATNANRVLPDYFGGGDYAPLPSVATLANAMDVGAPSNFERLRWLHGSDDAALRAGFSAVSVDDATIRCTIVARHSRFGEVFCPHTATAVHVLEQLRANGADGDWAVAATAHPAKFEAVVEPLIGAPVAVPEALAALLQRPAHAEPIAPEYAALRAQLLAG	PGPT0009175_3077	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0009175-thrC-K01733	NA	NA
BMS020_06937	972	thrB_2		Homoserine kinase	GTGAGCCTGATGTCGGCACGTAGCGCCGCCGTTGCGCGGGCATCCTCGGCGCGCCCGGGCCAGGCGCGTGCGTTCGCGCCGGCCTCGGTGGCCAATGTCGCGGTCGGCTTCGACCTGCTCGGCTACGCGGTGGCTGGGGTCGGCGACACCGTGACGGTGCGCCGGATCGACGCGCCGGAGGTGCGCATCGCGGCGATCCGCGGTACCACCGTCGCGCTGCCGCTTGAGGCCGCGCGCAATACCGCCGGCGCGGCGCTGATCGCCTTGCGTGAGGCGTTGGCGCTGCCGTTCGGCTTCGAGCTGGAGATCGACAAGGGCATTCCGCTCAGTTCCGGCATGGGCGGTTCGGCGGCCTCGTGCGTGGCCGCGCTGGTGGCGGCCAATGCGCTGCTGGATGCGCCGCTGAGCCGCGAGCAGCTCTATCACTATTCGCTGGAAGGCGAGGCGGTCGCCAGTGGCAGCCGCCACGGCGACAACCTCGGCCCGATGTTCCTCGGCGGGCTGGTGCTGTGCACGCTGGAGCGGCTGGTGCCGATCAAGGTGCCGGCGAGCTGGCACAGCCTGCTGGTGCATCCGGAGGCGGTGCTGGAGACCCGTCGCGCGCGCGAAGCGCTGCAGGGCAGCTACGCGTTGAAGGAATTCGTGGCGCAGAGCGGCAACCTGGCGCTGGTGCTGGCCGGTTGCCATGCCGGCGATGCCGCGCTGGTACGTGCCGGCCTGCGCGACGTGCTGGTCGAACCGCGGCGGGCGCCGTTGATCGTCGGCTTCGATGCGGCCAAGCAGGCCGCGCTCGACGCCGATGCGATGGGCGCGAGCATTTCCGGCGCCGGGCCGAGTGTGTTCGCCTGGTTCGAAAGCGCGCAGGCCGCCGCCGCCGCCGCACCGGCGGTGCAGGCCGCGTTCGCCGCCGCCGGCTTCGCCAGCCAGGCCTGGGTGACGCCGCTCGACAGCCCTGGCGCGCGCTTGTTGTGA	MSLMSARSAAVARASSARPGQARAFAPASVANVAVGFDLLGYAVAGVGDTVTVRRIDAPEVRIAAIRGTTVALPLEAARNTAGAALIALREALALPFGFELEIDKGIPLSSGMGGSAASCVAALVAANALLDAPLSREQLYHYSLEGEAVASGSRHGDNLGPMFLGGLVLCTLERLVPIKVPASWHSLLVHPEAVLETRRAREALQGSYALKEFVAQSGNLALVLAGCHAGDAALVRAGLRDVLVEPRRAPLIVGFDAAKQAALDADAMGASISGAGPSVFAWFESAQAAAAAAPAVQAAFAAAGFASQAWVTPLDSPGARLL	PGPT0020275_710	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020275-thrB-K00872	NA	NA
BMS020_06938	2538	thrA_2	COG0460	Bifunctional aspartokinase/homoserine dehydrogenase 1	ATGTCATCCGTAGTCCAGCCGCTCGCCGAAGTCCCCGCCAAACCGCTCGCCCGCACCGTGGTCCACAAGTTTGGTGGCACCTCGGTCGCCGATGCCGAGCGCTATCGCCATGTCGCCGGGCTGCTGCTGGCGCGCCCGGAGCCGGTGCAGGTGACCGTGGTGTCGGCGATGAAGGGCGTGACCGATGCGCTGATCGAACTGGCCGAACTTGCCGCGGCCAACCGCGCCGAGTGGCGCGAGCGCTGGCATGAAGTCCGTGCGCGCCATCGTGGCGCTGCGGTGGCACTGCTCGGCGAGCATGCCGGGCCGCTGGTGGAGTGGCTGGATGCGCGCTTCGAGCAACTGGCCGAGATCCTCGCCGCGCTGGCGGTGATCGGCGAGCTGCCGCGCGAGGTGCTCGACCGCGTGCAGGGCCTGGGCGAGGTGTATTCGGCCCAGCTGCTCGGCCAGCACCTGCGCGCCCTGGGCGAGGACTGCGCGGTGCTGGACGCGCGCGAGGTGCTGGTGGTCAGCCGCGGCGAGCTCGGCGTCGACGTCGACTGGGCGGTCAGCGCGCAGCGCCTGGCCGACTGGCGCGCCAGCAACCCGCAGGCGCGGGTGGTGGTCACCGGCTTCGTCGCGCGCGACCGCGCCGACCGCATCACCACGCTGGGGCGCAACGGCAGCGATTATTCCGGCGCGATCTTCGCCGCGCTGTTCGAGGCCGACGAGCTGCATATCTGGACCGATGTCGATGGCGTGCTGTCGGCCGATCCGCGGGTGGTGCCCGAGGCGGTGCAGCTGGAGGCGCTGAGCTACGACGAGGCCTGCGAACTGGCCTACTTCGGTGCCAAGGTGGTGCATCCGCAGACGATGTCGCCGGCGATCGAGCGCGGCCTGCCGATCATCATCCGCAACACCTTCCAGCCGGAGCATCCGGGCACCCGCATCACCGCCAGCAGCGACGTGCGCGGGCCGATCAAGGGCCTGACCCTGAGCCCGGGGTTGGCGGTGCTGAACCTGGAGGGCACCGGCCTGATCGGTGTGCCGGGCACCGCCGAGCGCGTGTTCGCCGCGCTGCGCAACGGACGGGTGTCGGTGGTGATGATCTCGCAGGGCTCGTCGGAGCATTCGATCTGCTGCGTGGTCAAGGAGGACGAGTCGGCGCGCGCGCAGGCGGCGCTGCTGCATGCGTTCGCGCACGAACTGGCGGTCGGCCAGGTGCAGCGGGTGCAGCTGACCACCGGCATCAGCGTGCTGGCGGCGGTCGGCGACGGCATGGCCGGCCAGCCCGGCGTGGCGGCGCGGCTGTTCGAGTCGCTGGGCCGCGCCCAGGTCAACATCCTGGCGATCGCGCAGGGCTCCTCCGAGCGCAACATCTCGGTGGCGATCGACAGCGCGCACGCGACCAAGGCGCTGCGCGCGGCGCATGCCGGCTTCTGGCTGTCGCCGCAGACCTTCTCGGTCGGCGTGATCGGGCCGGGCAATGTCGGCGCGGCGCTGCTGGACCAGCTGCATGCGGCGCAGCCGCAGCTACTGGCCAAGGCCAACCTCGACCTGCGCCTGCGCGCGGTGGCCTCGCGCGGGCGCATGCTGCTGGACGAGCGCGGCCTGGTCGGCGACTGGCGCGGCGCGTTCGCCACCAGCGCCACCGCCAGCGACCTGGACCGTTTCACCGCGCACCTGCTGTCGGCGCACCTGCCGCACGCGATCATCATCGACTGCAGCGGCAGCGCCGAGGTTGCCGACCGCTACGCTGGCTGGCTGGCCGCCGGCATCCATGTGGTTACCCCGAACAAGCAGGCCGGTTCCGGCCCGCTGGCGCGCTTCCTGGCGATCCGCGAGGCGGCCGCAGCCAGCGGCGCGCGCTTCCGCTACGAAGCCACGGTCGGCGCCGGCCTGCCGGTGATCACCACGCTCAACGACCTGGTCGCCACCGGCGACAGCGTGACCTCGATCGAAGGCATCTTCTCCGGCACGCTGGCCTGGCTGTTCAACAAGTACGACGGCAGCGTGCCGTTCTCGGAACTGGTCGCGCAGGCGCGCGGCATGGGCTACACCGAGCCGGATCCGCGCGACGACCTGTCCGGTGTCGACGTGGCGCGCAAGCTGGTGATTCTGGCGCGCGAAGCCGGGCGCGAGATCAGCCTGGAGGACGTGGCGGTGGAAAGCCTGGTGCCGGCCGGGCTGCGCGAGGCCAGCGTCGAGGACTTCATGGCGCGGCTGGGCGAGGTCGATGCGGCGTTCGCCGCGCGGCTGGAGGCGGCGCGCGGCCGCGGCAACGTGCTGCGCTACGTGGCGCAGCTGCCGGCCGAAGCGGGGCAGCTGGCTGCTGATGGTGCGCGTGCGGCCGCGGCCAGCGTCGGCCTGGTCGAACTGCCGGCCGACCACGCCTTCGCCAACCTGCGCCTGACCGACAACGTGGTGCAGTTCACCACCCGCCGCTACTGCGAGAACCCGCTGGTGGTGCAGGGCCCGGGCGCGGGGCCGGAAGTGACCGCGGCCGGCGTGTTCGCCGACGTGCTGCGGGTCGCGGCCGGCGAGGGGGCGCGGCTGTGA	MSSVVQPLAEVPAKPLARTVVHKFGGTSVADAERYRHVAGLLLARPEPVQVTVVSAMKGVTDALIELAELAAANRAEWRERWHEVRARHRGAAVALLGEHAGPLVEWLDARFEQLAEILAALAVIGELPREVLDRVQGLGEVYSAQLLGQHLRALGEDCAVLDAREVLVVSRGELGVDVDWAVSAQRLADWRASNPQARVVVTGFVARDRADRITTLGRNGSDYSGAIFAALFEADELHIWTDVDGVLSADPRVVPEAVQLEALSYDEACELAYFGAKVVHPQTMSPAIERGLPIIIRNTFQPEHPGTRITASSDVRGPIKGLTLSPGLAVLNLEGTGLIGVPGTAERVFAALRNGRVSVVMISQGSSEHSICCVVKEDESARAQAALLHAFAHELAVGQVQRVQLTTGISVLAAVGDGMAGQPGVAARLFESLGRAQVNILAIAQGSSERNISVAIDSAHATKALRAAHAGFWLSPQTFSVGVIGPGNVGAALLDQLHAAQPQLLAKANLDLRLRAVASRGRMLLDERGLVGDWRGAFATSATASDLDRFTAHLLSAHLPHAIIIDCSGSAEVADRYAGWLAAGIHVVTPNKQAGSGPLARFLAIREAAAASGARFRYEATVGAGLPVITTLNDLVATGDSVTSIEGIFSGTLAWLFNKYDGSVPFSELVAQARGMGYTEPDPRDDLSGVDVARKLVILAREAGREISLEDVAVESLVPAGLREASVEDFMARLGEVDAAFAARLEAARGRGNVLRYVAQLPAEAGQLAADGARAAAASVGLVELPADHAFANLRLTDNVVQFTTRRYCENPLVVQGPGAGPEVTAAGVFADVLRVAAGEGARL	PGPT0020160_285	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020160-thrA-K12524	NA	NA
BMS020_06939	135			hypothetical protein	ATGCTGAATGCCGTCGCCACCGCCGAACGCCTCGCTCCCGTCTCCGACGGCATGGGCGGCACGGCCGCGACCGGTACCACCATCATCATTACCACCGCGACCATTACCTTGGTGCGGCCCGTCGTCTTCGCGTAA	MLNAVATAERLAPVSDGMGGTAATGTTIIITTATITLVRPVVFA				NA	NA	NA	NA	NA
BMS020_06940	396			hypothetical protein	ATGTCGCCACGCACGCTGTTCAACATCATCGCAAAGAAGGCCTCGCGTGCAGCCGGCTCACCGTGGACGTTCTGCCTGGCAGTCGCGATCGTGGTGGTGTGGGGCGTCAGCGGCCCGCTCTTCGGCTTCAACGACACCTGGCAGCTGGTGATCAACACCGGCACCACCATCGTCACCTTCCTGATGGTGTTCCTGATCCAGCACACCCAGAACGCGGACACCGCGGCGATGCAGATCAAGCTCGACGAGTTGATCCGGGTCTCCCGCGCCGGCAACAACGAGCTGCTCGACCTGGAGGAGCTCGACGAGGCGCGGCTGGAACAGATCCGCCGTCATTACGAAGCGCTGGCGCGACGCGCGGTGGCCGAACGGGACCGGCGGCAGGATCCATTTTGA	MSPRTLFNIIAKKASRAAGSPWTFCLAVAIVVVWGVSGPLFGFNDTWQLVINTGTTIVTFLMVFLIQHTQNADTAAMQIKLDELIRVSRAGNNELLDLEELDEARLEQIRRHYEALARRAVAERDRRQDPF				NA	NA	NA	NA	NA
BMS020_06941	261			hypothetical protein	ATGATCGTCTTGAGCGGACCATTCCGGCTGCAGTGCTACGCGACCGAGCGCGGCTTCGACCAGTGGGAAGGCGCCTGGTGCCTGGAGCGCGTCACCGAACCCAGCTGCGTGCTGGCGGAAGGCAGCTGCCATGCCTGCGACCGGTCCGAACACGAAGCCAAGCGCACCGCCCTGAACGTCGGATTGAACCAGATGGACAGCTGGTTCCAGGTCGACCGCGAGGCCCGTGGCTGGTGCGGGGGGCCGGCGGCCTGCCGCTGA	MIVLSGPFRLQCYATERGFDQWEGAWCLERVTEPSCVLAEGSCHACDRSEHEAKRTALNVGLNQMDSWFQVDREARGWCGGPAACR				NA	NA	NA	NA	NA
BMS020_06942	273			hypothetical protein	ATGCCCGGCCGACTCGACATGCTCGACGTGGACGCGGTCCTGCAGCGCTGGCTGCAGCGCCAGGCGAACGGCGACTGGCCGGGGATCCGCTACTCGCAGTTGCTGGCGGTGGTGCGCACCGGATGCCATAGCCGGCTGCGCTCGCCAGGCGCCTCGCACGCCGCCTGGCTGCAGGACACCCGCGAACGCTCGCTGCCGCAGTTGATCGACGTGCAGGACGCCACGCTTGCGCGGGTGCTGGAGCAGCTATGGGTGGATATCGGCGAGGAGTGA	MPGRLDMLDVDAVLQRWLQRQANGDWPGIRYSQLLAVVRTGCHSRLRSPGASHAAWLQDTRERSLPQLIDVQDATLARVLEQLWVDIGEE				NA	NA	NA	NA	NA
BMS020_06943	477			hypothetical protein	ATGAACACCATGCGTCTTTTCTCCCTGGCTTGCGTTGTGGGCCTGGCGTCATGTGCGCTGATCGCGCGCGCGGAGCAGCCGGTGCCGGTGCTGCATCCGGATGCATTGCCCTGGGTGACGGTGTCGCCCGGCGTGCAGTTGAAAGAGCTGACCGGGCGGGTGGCGCCGGCCGGGGCGCGTTCGTCGCAGGGCAGCGTCGCGCTGTTCCGGCTGGAGCCCGGGCACGCCAGCGCCTGGAGCCACAACAAGCTCGGCGAGGAATCGTTCTTCGTGCTCAGCGGGCATGGCGAGGTCTGGACTGGCAGCCGCGCGCAGCCGGTCGGGCCGGGCAGCTACATCCTGATCCCGCCGCAGGTCGTGCGCTCGATCCGCGCCAGCCGTGGCGAGGTGCTGGAGTACTACGCGATCACCACGCCGGCCTGGAGCCAGGACGACGATGTGTTGGTGGCGCCGCCTGACGGCGCGCCAGCGCGCTGA	MNTMRLFSLACVVGLASCALIARAEQPVPVLHPDALPWVTVSPGVQLKELTGRVAPAGARSSQGSVALFRLEPGHASAWSHNKLGEESFFVLSGHGEVWTGSRAQPVGPGSYILIPPQVVRSIRASRGEVLEYYAITTPAWSQDDDVLVAPPDGAPAR				NA	NA	NA	NA	NA
BMS020_06945	1533	gucD	COG1012	Alpha-ketoglutaric semialdehyde dehydrogenase	ATGTCCGCAGACCTGCTCAAGGCGCTCGATCTGGCCGCGTCCAACGCCGGCACCTACTTCGGCCAAGGCCAGTGGTCGCAGGCCACCGGCGCCGGCGTGCTGGCCCCGCTGAACCCGACCACCAACGCGGTGATCGCCGAGGTCCAGGCCACCACCGAGGCCGACTACGAGCAGGTCATCGCGCGCGCCCAGGCCGCGTTCAAGCTCTGGCGCACCACCCCGGCACCGCGCCGCGGCGAGGCGGTGCGGCTGTGCGGCGAGGCGCTGCGCAGGCACAAGGATGCGCTCGGCTCGCTGGTCGCGCTGGAGATGGGCAAGTCCAAGCCCGAGGGCGATGGCGAAGTACAGGAAATGATCGACATCGCCGACTTCGCGGTCGGCCAGAGCCGCATGCTGCACGGCTACACGATGCATTCCGAGCGCCCCGGCCACCGCATGTACGAGCAGTACCAGCCGCTGGGCCTGGTCGGCATCATCTCGGCGTTCAACTTCCCGGTCGCGGTGTGGAGCTGGAACGCGTTCCTGGCAGCGATCTGCGGCGACATCTGCATCTGGAAGCCGTCCAACAAGACCCCGCTGACCGCGATCGCGACGATGAAGATCTGCAACGCCGCGTTGAAGGACGCCGGCTTCCCGGACATCTTCTTCCTGATCAACGACGCCGGCACCGCGCTGTCGGAGAAGCTGGTCGACGACGTGCGCGTGCCGCTGATCAGCTTCACCGGCTCGACCCAGGTCGGCCGCACCGTCGCGCAGAAGGTCGCCGGCCGCCTCGGCCGCAGCCTGCTGGAGCTGGGCGGCAACAACGCGATCATCCTCGACGAGAGCGCCGACCTGAAGCTGGCGATCCCCGGCATCGTGTTCGGCGCGGTTGGCACCGCCGGCCAGCGCTGCACCACCACCCGCCGGCTGATCGTGCACCGCTCGATCTACGCCACGGTGCTGGCGACCCTGGTCAAGGCGTACCAGCAGGTCGAAGGCAAGATCGGCGATCCGACCGATGCGGCCAACCTGATGGGCCCGCTCAACAGCCGCGGCGCGGTCGAGCAGTTCCTCGACTCGATCGCCAAGGCCAAGGCCGCCGGCGGCACCGTCGAGACCGGCGGCACCGCGATCGACCGGCCGGGCAACTTCGTGCTGCCGGCGATCGTCACCGGGCTGAAGAACTCCGATGCGGTGGTCCAGCACGAAACCTTCGCGCCGATCCTGTACGTGATGCCGTACGACACGCTGGACGAGGCGATCGACATGCAGAACGGCGTGCCGCAGGGCCTGTCGTCGTCGATCTTCACCCAGAACCTGAAGGCGGCCGAGCGCTTCCTGTCGGCGGCCGGCAGCGACTGCGGCATCGCCAACGTCAACATCGGCACCTCCGGCGCCGAGATCGGCGGCGCCTTCGGCGGTGAGAAGGACACCGGCGGTGGCCGTGAATCCGGCTCGGATGCGTGGAAGGTCTACATGCGCCGCCAAACCAATACGATCAACTACTCCGATTCGCTGCCGCTGGCCCAGGGCATCAAGTTCGACCTGTGA	MSADLLKALDLAASNAGTYFGQGQWSQATGAGVLAPLNPTTNAVIAEVQATTEADYEQVIARAQAAFKLWRTTPAPRRGEAVRLCGEALRRHKDALGSLVALEMGKSKPEGDGEVQEMIDIADFAVGQSRMLHGYTMHSERPGHRMYEQYQPLGLVGIISAFNFPVAVWSWNAFLAAICGDICIWKPSNKTPLTAIATMKICNAALKDAGFPDIFFLINDAGTALSEKLVDDVRVPLISFTGSTQVGRTVAQKVAGRLGRSLLELGGNNAIILDESADLKLAIPGIVFGAVGTAGQRCTTTRRLIVHRSIYATVLATLVKAYQQVEGKIGDPTDAANLMGPLNSRGAVEQFLDSIAKAKAAGGTVETGGTAIDRPGNFVLPAIVTGLKNSDAVVQHETFAPILYVMPYDTLDEAIDMQNGVPQGLSSSIFTQNLKAAERFLSAAGSDCGIANVNIGTSGAEIGGAFGGEKDTGGGRESGSDAWKVYMRRQTNTINYSDSLPLAQGIKFDL	PGPT0006875_1961	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
BMS020_06946	297			hypothetical protein	ATGAGCAGCCTGCCGCCTTCCAATGTCCGTCAGACCAGCACCCTGGCGATCGTCAGCCTGGTCGCAGGCATCCTCGGCTGGACCCTGCTGCCGTTCCTCGGCAGCATCGCCGCGGTGGTCACCGGCCACCTGGCCCGTGCGGAAATCCGCCGCGCCCCGGAACGCCTGGATGGCGACGGCCTGGCGTTGACCGGGCTGATCCTGGGGTGGATCTCGATCGGCCTGTGGGTCGTCGGCGTGCTGGCCTTCCTGCTGCTGTTCGGCGGGCTGGCCTGGTTCGCGCACCTGTCTTCCTGA	MSSLPPSNVRQTSTLAIVSLVAGILGWTLLPFLGSIAAVVTGHLARAEIRRAPERLDGDGLALTGLILGWISIGLWVVGVLAFLLLFGGLAWFAHLSS				NA	NA	NA	NA	NA
BMS020_06947	768			hypothetical protein	ATGGCGCCGCTCTCCTCCCAACAGCGCTTCAGCGACCGGGTGGCGGACTACGTCCGCTACCGCCCGGGCTATCCGCCGGCGTTGATGGCCTGGGTGCGCGACGAGCTCGGCGTCACCGCCGGCGCGCGCGTGGCCGACATCGGCGCCGGCACCGGCATTTCCAGCCGGCAATTCCTTGAAGCCGGGCACGCCGTGGTCGCGGTCGAACCGAACGCGGCGATGCGTGCCGCGGCCGAACGCTGGCTGGGCGACACGCCGCGCTTCCGTGCAGTCGACGGCAGCGCCGAGGCCACCACCCTGGCCGACCACAGCGTCGAGCTGGTCTCCGCCGCACAGGCCTTCCACTGGTTCGACATGCAGGCCGTGCACCGCGAATGGGCGCGCATCCTCGTGCCGGGGGGGCTGGCGCTGGTGTACTGGAACTCGCGCCTGCTCGACAGTTCCGGCTTCATGCGCGGCTACGAGGCGCTGCTGCAGGAGTACGGCACCGACTACACCGCCGTGGCCGAGCGCTACCAGGACGATGCGACGATGCAGGCCTGGTACGGCGCCGGCTTCCGCGCGATGACCAGCCTGCCGAACATGCAGCGCCTGGACCTGGACGCCCTGCGCGGCCGCCTGCTGTCGTCCTCGTACGCGCCTCTGGCCGGCGACCCGCGACACACACCGATGCTCGCCGCGCTGCAGGCGCTGTTCGAGCGCCATGCCGTCGACGGCCACGTCGATTTCGATTACCAGACCCGTGCCTTCGCCGGCACGTTGCAGTGA	MAPLSSQQRFSDRVADYVRYRPGYPPALMAWVRDELGVTAGARVADIGAGTGISSRQFLEAGHAVVAVEPNAAMRAAAERWLGDTPRFRAVDGSAEATTLADHSVELVSAAQAFHWFDMQAVHREWARILVPGGLALVYWNSRLLDSSGFMRGYEALLQEYGTDYTAVAERYQDDATMQAWYGAGFRAMTSLPNMQRLDLDALRGRLLSSSYAPLAGDPRHTPMLAALQALFERHAVDGHVDFDYQTRAFAGTLQ				NA	NA	NA	NA	NA
BMS020_06948	1056	pyrD_2	COG0167	Dihydroorotate dehydrogenase (quinone)	ATGTACTCGTTTGCCCGTCCCCTGCTGTTCACCCTCGACGCCGAGCGGGCCCACGGCCTCGGCCTGAAAGCGCTCGACGCCGCCTACCGCACCGGCACCACGCCACTGGTCGCGCGCCGCTGCGCGCCGCTGCCCACGCCGGCCTTCGGGCTGAGCTTCCCCAACCCGGTCGGCCTGGCCGCGGGCATGGACAAGAACGGCGAGCACATCGATGCGCTGTTCGCGCTCGGCTTCGGCTTCGTCGAGATCGGCACCGTGACCCCGCGCCCGCAGGTCGGCAACCCCAAGCCGCGGATGTTCCGCCTGGCCGATCACCAGGCCGTCATCAACCGCATGGGCTTCAACAACCTCGGCGTCGACGTGCTGGTGAAGAACGTCGCGCGGGCGAAACGGCGCGGCGGCCTGCTCGGCATCAACATCGGCAAGAACAAGGACACGCCCAACGAGGAGGCGGCCTCGGACTATCTGCACTGCCTGGAAAAGGTCTACCCGCTGGCGGACTACATCACCGTCAACATCTCCTCGCCCAACACCGCCGGCCTGCGCGAACTGCAGGAGGAGCAGGCGCTGCGGCGGCTGATCTCGGACCTGCGCGAAGCCCAGGAGGCGCTGGCATCGCACCACGGTCGCCGCGTGCCGATGCTGGTCAAGGTCGCGCCCGACCTCAGCGACCGCGACATCGACGCGGCCGCGCGGGTGCTGTCCGACCTGGCCGTGGATGGTGTGATCGCCACCAACACCACCGTGGCCAGGACGCTGGTCGAGCACGATCCGCTGGCGCGCGAAGCCGGCGGCCTGTCCGGCGCACCGCTGATGGGCCAGTCCACGCTGGTGCTGCGCCGGCTGCGCGCGCGCCTGCCGGAATCGATCCCGCTGATCGGCGTGGGCGGCATCAGCTCCGGTGCCGACGCGGTGGCGAAGATGGCCGCCGGCGCGTCGCTGGTGCAGCTCTACAGCGGGCTGGTGTTCCGCGGCCCGGCGCTGGTGCACGAATGCGTCGAGGCCATCCGCCGCCGCCGCGAGGCCCCGAGCCGCGGCGCGGTCTCCGCACTATGA	MYSFARPLLFTLDAERAHGLGLKALDAAYRTGTTPLVARRCAPLPTPAFGLSFPNPVGLAAGMDKNGEHIDALFALGFGFVEIGTVTPRPQVGNPKPRMFRLADHQAVINRMGFNNLGVDVLVKNVARAKRRGGLLGINIGKNKDTPNEEAASDYLHCLEKVYPLADYITVNISSPNTAGLRELQEEQALRRLISDLREAQEALASHHGRRVPMLVKVAPDLSDRDIDAAARVLSDLAVDGVIATNTTVARTLVEHDPLAREAGGLSGAPLMGQSTLVLRRLRARLPESIPLIGVGGISSGADAVAKMAAGASLVQLYSGLVFRGPALVHECVEAIRRRREAPSRGAVSAL	PGPT0021190_2070	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021190-pyrD-K00254	NA	NA
BMS020_06949	1056	murB_1	COG0812	UDP-N-acetylenolpyruvoylglucosamine reductase	ATGAGCGACGCCACCACGACGCCCGCCTGGACCCTGTCCGCGCACGCCTCGCTGCGCCCCTACAACACCTTCCACGTCGACGCCGCCGCACCCTGGCTAGTCGAACTGACCGATCCACGCGCGCTGCCGGAGGTGCTGGAGTTGCCGCAGCTGCAGGACGCGCCGCTGATGGTGCTCGGCGGCGGCAGCAACGTGCTGCTGGCCGGCGATCCCGACGGTGCGGTGTTGGTGTTCGGCAACCGCGAGGTGGCCATCACCGAGCACCACAACGACCATGCGATCGTGCGCGCCGGCGCCGGCATGCCGTGGCACGCGCTGGTGATGTGGTCGCTGGAACAGGGCCTGTCCGGGCTGGAGAACCTGGCGCTGATCCCCGGCACCGCCGGCGCCGCGCCGATCCAGAATATCGGTGCCTACGGTGCCCAGGTCGGCGACTTCATCCGCACGGTGGACGCCTACGACCGCCACGGCGGCGGCTTCGTCAGCCTGGACGCGCAGGCCTGCGCGTTCGGCTACCGCGACAGCGTGTTCAAGCGCGAACCGGACCGCTACCTGATCGTCGCGATCGAACTGCGCCTGCCGCTGCTGCACGAACTGCGGCTGGATTACGCCGGCATCCGCGAGGAGCTGGAGGCGATGCAGGTGACCCTGCCCGAGGCGCGCGACGTCGCCGCCGCGGTGATCAACATCCGTCGCCGCAAGCTGCCGGACCCGGACCAGCTCGGCAACGCCGGCAGCTTCTTCAAGAACCCGCAGCTGCCGCTGGAGCAGATCGACGCACTGCGCCACGACCATCCCGCGCTGCCGGTGTTCCCCGGCGAGACCGCAGGGCTGGGCAAGCTGTCGGCGGCCTGGCTGATCGAGCAATGCGGCTGGAAGGGCCATCGCGACGGCGATGCCGGCGTCTCGCCGGTGCACGCGCTGGTGCTGGTGAACCACGGTCGCGCCAGCGGCGCCGAGTTGCTGGCGCTGGCGCGGCGCATCGCCGGTTCGGTGCGCGAGCGCTTCGGCGTGGTGATCGAACCTGAGCCCAGGCTGGTCGGAGCCACCTGGTGA	MSDATTTPAWTLSAHASLRPYNTFHVDAAAPWLVELTDPRALPEVLELPQLQDAPLMVLGGGSNVLLAGDPDGAVLVFGNREVAITEHHNDHAIVRAGAGMPWHALVMWSLEQGLSGLENLALIPGTAGAAPIQNIGAYGAQVGDFIRTVDAYDRHGGGFVSLDAQACAFGYRDSVFKREPDRYLIVAIELRLPLLHELRLDYAGIREELEAMQVTLPEARDVAAAVINIRRRKLPDPDQLGNAGSFFKNPQLPLEQIDALRHDHPALPVFPGETAGLGKLSAAWLIEQCGWKGHRDGDAGVSPVHALVLVNHGRASGAELLALARRIAGSVRERFGVVIEPEPRLVGATW	PGPT0024115_898	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024115-murB-K00075	NA	NA
BMS020_06950	909	ribN		Riboflavin transporter	ATGCTGCTCGCGCACGCGCCGGTGCGCGCGGCCGCGCTGATGCTGGTCAGCACCTTTTCCTTCGGCCTGATGGCGATCACCATCCGGCTGGCATCGGCGGAGCTGGCCACCACCGAAGTGGCGTTCTTCCGCAATTTCTTCGGCCTGCTGGCGCTGTTGCCGCTGGTGCTCGGGCGCGGCAAGCCGGTGCCGCGCACCCGCCACCTGTCGCGCTACCTGCTGCGCACCACGATCGGGCTGGTGTCGATGTTGTGCGGCTTCTGGGCGATCGGCCACCTGCCGCTGGCGCAGGCGATCACCCTGTCCTACTCGACCCCGCTGTTCGCCACGGTGCTGGCGGTGCTGTGGCTGCACGAGGTGGTGCGGATGCGGCGCTGGCTGGCGGTCGCGGCCGGGTTCGTCGGCGTGATGGTGCTGCTGCGGCCGTGGTCGGACGCGTTCAGCCCCGGCATGCTGGTGGCGCTGGCCGCGGCGATGGTCAGCGCGGTGGTGGCGATCCAGATCAAGCAGCTCTCGCATCTGGACCCGGCCGATACCGTGGTGTTCTACACCTACGTGTTCTGGGTGCCGTTGTCGCTGCTGCCGGCGCTGTTCCAATGGCAGTGGCCGCACGGCATCCAATGGCTGTGGCTGGCCGCGACCGGCGTGTTCGGCACTGCCGGCCAGTTGTTCTGGACGCGCGCGCTGCGGCTGGGCGAGGTCTCGGCGCTGCAACCGATCGGCTTCATGCAGCTGCCACTGGTGGCGCTGCTGGGCTGGGCGCTGTTCGGCGAACAGCTCGACCGCTACACCGTGCTCGGCGCCGGCATCATCGTCACCGCCAACATCTACATCGCCCACCGCGAGGCGGTGCTGGCGCGACGCGCGGCCACCCATGCCCCGATCGAAGGCGCCAAGCCCGGCGAGTGA	MLLAHAPVRAAALMLVSTFSFGLMAITIRLASAELATTEVAFFRNFFGLLALLPLVLGRGKPVPRTRHLSRYLLRTTIGLVSMLCGFWAIGHLPLAQAITLSYSTPLFATVLAVLWLHEVVRMRRWLAVAAGFVGVMVLLRPWSDAFSPGMLVALAAAMVSAVVAIQIKQLSHLDPADTVVFYTYVFWVPLSLLPALFQWQWPHGIQWLWLAATGVFGTAGQLFWTRALRLGEVSALQPIGFMQLPLVALLGWALFGEQLDRYTVLGAGIIVTANIYIAHREAVLARRAATHAPIEGAKPGE				NA	NA	NA	NA	NA
BMS020_06951	690	ygeA_2		L-aspartate/glutamate-specific racemase	ATGAAGACCATCGGCCTGATCGGCGGCATGAGCTGGGAATCGACGATTCCCTACTACCGGCACATCAACGAAACCGTACGCGAGCGGCTCGGCGGCCTGCATTCGGCACGGCTGCTGCTGTACAGCGTGGACTTCCACGCGATCGAACGGCTGCAGCAGGCCGGCGACTGGGACGCGGCCGGCGCGGCGATGGCCGACGCCGCCCGCGCACTGCAGCGCGGCGGTGCCGACTTCCTGGTGCTGGCGACCAATACCATGCACCTGGTCGCCGACGCGATCAGCGCGGCCACCCCGATGCCGCTGCTGCACATCGCCGACGTCACCGCCGACGCACTGAAGCAGGCGGGCGTCGGCAAGGTCGGCCTGCTCGGCACCCGCTTCACCATGGAGCAGCCGTTCTATCGCGAACGGCTGCAGCAGCACGGACTGCAGGTGCTGCTGCCAGACGCCATCCAACGCCAGCAGGTGCATGCGGTGATCTATGACGAGCTGTGCCAGGGCATCGTCCGCGACGCCTCGCGCGAGGCGTACCGCGCCATCGTGTCCGTGCTGGCCGCGCAGGGCGCCGAGGCGGTGATCCTCGGCTGCACCGAGATCTCGCTGCTGCTGCAACCCTGCGACGCCGTGCTGCCGTTGTTCGACACCACCGCCCTGCACGCGCGCGCCGCGGCGCTGCACGCGCTGGAGTGA	MKTIGLIGGMSWESTIPYYRHINETVRERLGGLHSARLLLYSVDFHAIERLQQAGDWDAAGAAMADAARALQRGGADFLVLATNTMHLVADAISAATPMPLLHIADVTADALKQAGVGKVGLLGTRFTMEQPFYRERLQQHGLQVLLPDAIQRQQVHAVIYDELCQGIVRDASREAYRAIVSVLAAQGAEAVILGCTEISLLLQPCDAVLPLFDTTALHARAAALHALE				NA	NA	NA	NA	NA
BMS020_06952	1971	dapb3_2		Dipeptidyl aminopeptidase BIII	ATGCGGTTGGCGGTAGCAGGATTGCTGTTGATGGGGGGCCTGGCAGGCACCGGAATAGTGGCTACCGCGCGGGCCGCGGAGCCCCCTCCCGCCGAGGCGTTCGCGAAGTCCTCGCCCTTCTCCACCCTGCGCCTGTCACCCGATGGCGACTACCTGGCTGTCAACGCGACCTACGACGACGGCAACTACGCGCTGCTGGTGTACCGCATCGCCGACATGACGCCCAGCGCAATGCTGCGCTTCCCGCGCTACGAGCTGGCCAGCCAGATCGAATGGGTCAGCAACGACCGCCTGGTGATCGCCAAGGCCAGGAAGATGGGGTCGCTGGAAAAGCCGCAGGCCACCGGCGAGATCATCGCCACCGACCGCGACGGCAGCCACCAGACCTATATCTACGGCTACGAACAAGTCGGGCGGATGCGCGGGTTGAGCCGTGGCTTCGGCTATATCGCCGGCCTGCCGCGCACGCCGAACGGACGCTTCTACATGCGTCAGCTTTCCCTCGATACCCGCCACTCGATGCTCTACGACGTCGACGCCAGCGTCGGAACAGGCAAACTGGTCACCGACATCGCCACGCCCGACCTGGACTTCGTGCTCGATGCCGATGGCATCCCGCGCTTTGCCTACGGCGTGGACGACAACGACCACAACCTGCTGTTCCAAGCCGATGCGCGCGGCGCATGGAAACCGATGCCGGAATTGCAGTCCACATGGCGCCCGGCGGCGTTTTCTGCGGACGGAAAGCGCGTATTTGGCTATTACGGCGACGGCGGCCCGGAGTCATTGGTCGTCAGCGACGCCGATGGCAACAACCGCACCACGCTGGCCGCTGACCCGTTCTTCAGCATCAGCAATATCGAATGGCGCAACGCCCCCGAATCGAGCCCGTTCGCAGTCGAACTGGGCAATGGCAAGCCCGCCCCCCGCTATCTCGACAGCGGCGCCGAGGCCGACCTGCACAAGGCCCTGCGCGCTTCATTGCCCGGCAGTGCGGTCGAATTCCTTGACTACAGCCGCGACGGCCAGCGCGTGTTGTTCTCGCTCTACAGCGACCGCGACCCAGGCGGCTGGTACCTTTTCGACCGCAGCAAGAACAAGGTCGAACGCCTGTTGCTGGCCAGACCGCAGATCCAGCCGAAGCAGCTGGGTCAACGCCAAGTGGTTAGGATCACGGCACGTGACGGCCTGGAACTGGGGGCTGTCCTGACCTTTCCGCCAGGCCACATGGCCGGCGGGGCACCGCTGCCGATGGTGCTGCTGCCGCACGGTGGACCGCATGCGCAGGGTGATGGCTGGGGCTTCGACAGCGACGCGCAATTCCTGGCCAGCCGCGGCTATCTGGTACTACAGGTCAACTACCGCGGCGGGCTCGGGCGCGGCCGCCGTTTCGAAGAGGCCGGCTACCGCCAATGGGGCGAGAAAGTGCAGGATGACCTGCTCGACGGCGTCCACTGGGCGGTTGCCGAGCAGCTGGCCGACCCGCAGCGCATCTGCTCCTACGGCGCCAGCTTCGGTGCCTACGCAGCGATGATGGTGGCCGCACGCGAACCGAACCTTTTCCGTTGTGCCGCCGGCCAGGCAGGCATCTACGATCTGCAGATGATGTACTCCAAGGGTGACATCCGTCGCAGCGAGTACGGACGCAACTACTTGCAGCGTGCCATCGGCGACGATCCCACCGAGCTCGCCGCGCACTCGCCGGTGAATCTTGCCGCCAGAATCCGCATTCCCGTGCTGCTGGCCCACGGCGAGCAGGACGAGCGCGCGCCGTTCGCGCAGGCGAAGGCAATGCGTGCGGCACTGGAGAAGGCCGGCAACGCTCCTGACTGGATGGCCGTGCCGCGCGAAGCGCATGGCTTCTACAAGGACGAGAACAACGTGGCGTTCTACCGCCGTCTCGAAGCGTTTCTCGCGCGCAATCTGAGCGAACCGGGCGCAGCCGCGGCCGCGGGCAGCGCGGCCCCCTGA	MRLAVAGLLLMGGLAGTGIVATARAAEPPPAEAFAKSSPFSTLRLSPDGDYLAVNATYDDGNYALLVYRIADMTPSAMLRFPRYELASQIEWVSNDRLVIAKARKMGSLEKPQATGEIIATDRDGSHQTYIYGYEQVGRMRGLSRGFGYIAGLPRTPNGRFYMRQLSLDTRHSMLYDVDASVGTGKLVTDIATPDLDFVLDADGIPRFAYGVDDNDHNLLFQADARGAWKPMPELQSTWRPAAFSADGKRVFGYYGDGGPESLVVSDADGNNRTTLAADPFFSISNIEWRNAPESSPFAVELGNGKPAPRYLDSGAEADLHKALRASLPGSAVEFLDYSRDGQRVLFSLYSDRDPGGWYLFDRSKNKVERLLLARPQIQPKQLGQRQVVRITARDGLELGAVLTFPPGHMAGGAPLPMVLLPHGGPHAQGDGWGFDSDAQFLASRGYLVLQVNYRGGLGRGRRFEEAGYRQWGEKVQDDLLDGVHWAVAEQLADPQRICSYGASFGAYAAMMVAAREPNLFRCAAGQAGIYDLQMMYSKGDIRRSEYGRNYLQRAIGDDPTELAAHSPVNLAARIRIPVLLAHGEQDERAPFAQAKAMRAALEKAGNAPDWMAVPREAHGFYKDENNVAFYRRLEAFLARNLSEPGAAAAAGSAAP				NA	NA	NA	NA	NA
BMS020_06953	696			hypothetical protein	ATGTCCGGCAGGCAGGCTGAGAGCCCGGCCGGATTCCGCCATTGGCTGGGCCGCAATGCCTGGCGCATCGTGCTGTTGTTCGGCGGCGTGCTGCTGCCGTTGGGCGTGTTCGTCAGCCTGGCCGACGAAGTGCACGAGCTCGAGGACCTGGTGTTCGACGAGCCGCTGCTGCTGCACGCGCGGGAGCTGGCCTCGCCCGGGCTGGACGCGTTCTTCGTCGGCATCACCCGGCTGGGGTACCAGTACGCGGTGATCCCGCTCGACGTGCTGCTGGTGCTGGCGCTGCTGGGCCTGCGGCGCTGGCGCGAGGCCACGTTCGCCGCGTTCGGCTTCGTCGGCTCGGCGTTGCTGAACATTGGCGCCAAGCAGGCGTTCCAGCGCGACCGGCCGAGCCTGTGGGAGTCGATCGCGCCCGAGACCGGCACCTTCAGCTTCCCCAGCGGCCATGCGATGGGCTCGATGACGCTGGTCGCGGTGGCGATCGCGCTGGCCTGGCGCACCCGCTGGCGCTGGCCGGTGCTGCTCGCCGGCGGCGGCTTCGCGCTGCTGGTCGGTACCTCGCGGGTGTACCTGGGCGTGCATTACCCGTCGGACATCATCGGCGGCTGGTGCGCCGCGCTGGCCTGGGTGGTCGGTCTGTACCTGCTGATGTTCCGTGGCCCCCGCCGGCCGCGTTGGCGGCGATTGGCGGGGTGA	MSGRQAESPAGFRHWLGRNAWRIVLLFGGVLLPLGVFVSLADEVHELEDLVFDEPLLLHARELASPGLDAFFVGITRLGYQYAVIPLDVLLVLALLGLRRWREATFAAFGFVGSALLNIGAKQAFQRDRPSLWESIAPETGTFSFPSGHAMGSMTLVAVAIALAWRTRWRWPVLLAGGGFALLVGTSRVYLGVHYPSDIIGGWCAALAWVVGLYLLMFRGPRRPRWRRLAG				NA	NA	NA	NA	NA
BMS020_06954	1266	ispG_2	COG0821	4-hydroxy-3-methylbut-2-en-1-yl diphosphate synthase (flavodoxin)	ATGCATGACGCCGTGACCCGTCCAACCCCTCCCGCCACGGCGACCGCCTGGCCGCGCCGCCTCACCCAAGCCGTGAAGATCGGCAACGTCACCGTTGGTGGCGGCAAGCCGGTGGTGGTGCAGTCGATGACCAACACCGACACCGCCGACATCGCCGCCAGCGTCAAGCAGGTGGCCGAACTGTGGCGCGCCGGCTCGGAAATGGTCAGGCTGACCGTCAACAACCCGGAATCGGCCGCGGCGATCCCGCGCATCGTCGACAAGCTGGCGATGATGGGGATCGAGGTCCCGCTGATCGGCGACTTCCACTACAACGGCCACCAGCTGCTCAGCGGCGAGCCGGCGTGCGCCGAGGCGCTGGCCAAGTACCGCATCAACCCGGGCAACGTCGGTTTCGGCAAGAAGAAGGACCTGCAGTTCGGCCAGCTGATCGAGTTCGCGATCAAGTACGGCAAGCCGGTCCGGATCGGCGCCAACTGGGGCTCGCTGGACCAGGCGCTGGCGGCGCAGCTGATGGACGAGAACAACCAGCGCGAAATCCCGTGGGATGCCGGGCGCGTGCTGCGCGAGGCGCTGATCCGGTCGGCGGTGGACTCGGCCGAGCGCGCGGTGGAACTGGGCCTGGCGCGCGAACGCATCGTGCTGTCGGCCAAGGTCTCCGGCGTGCAGGAGCTGATCGCGGTGTACCGCGACATGTCCGCCCGCTGCGATTTCGCCCTGCACCTGGGCCTGACCGAGGCCGGCATCGGCAGCAAGGGCATCGTCGCCTCGTCGGCGGCGCTGGGCGTGCTGCTGCAGGAAGGCATCGGCGACACCATCCGCATTTCGCTGACCCCCGAGCCGGGGCAGCCGCGCACGCAGGAAGTGATTGTCGCCCAGGAGCTGCTGCAGACCACCGGCCAGCGCGCCTTCACCCCGCTGGTCACTGCGTGCCCGGGCTGCGGCCGTACCACCTCGGAGTTCTTCCAGGAGCTGGCCAAGGTGGTGCAGAACCACGTGCGCGCCAAGATGCCGGAGTGGAAGGTGAGCCATCCGGGTGCGGAGAACATGACCCTGGCGGTGATGGGCTGCGTGGTCAACGGCCCGGGCGAATCGCGCCACGCCAACATCGGCATCTCGCTGCCGGGGACCGGCGAGGCACCATCGGCGCCGGTGTTCGTCGATGGCGAGAAGAAGGTGACGCTGCGCGGCGAGAACATCGCGCAGGAATTCGTGGCGCTGATCGACGAGTACGTCGAAACCCGGTATGTCCGGCAGGCAGGCTGA	MHDAVTRPTPPATATAWPRRLTQAVKIGNVTVGGGKPVVVQSMTNTDTADIAASVKQVAELWRAGSEMVRLTVNNPESAAAIPRIVDKLAMMGIEVPLIGDFHYNGHQLLSGEPACAEALAKYRINPGNVGFGKKKDLQFGQLIEFAIKYGKPVRIGANWGSLDQALAAQLMDENNQREIPWDAGRVLREALIRSAVDSAERAVELGLARERIVLSAKVSGVQELIAVYRDMSARCDFALHLGLTEAGIGSKGIVASSAALGVLLQEGIGDTIRISLTPEPGQPRTQEVIVAQELLQTTGQRAFTPLVTACPGCGRTTSEFFQELAKVVQNHVRAKMPEWKVSHPGAENMTLAVMGCVVNGPGESRHANIGISLPGTGEAPSAPVFVDGEKKVTLRGENIAQEFVALIDEYVETRYVRQAG	PGPT0007580_869	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007580-gcpE|ispG-K03526	NA	NA
BMS020_06955	1230	regB		Sensor histidine kinase RegB	ATGAACGACAGCTCCGACGCCCCATTCCTGCGCACGCTGTGCAGCCTGCGCTGGCTGGCCACCGCCGGCCAGGCCGCCACGATCCTGGTCGCTTCGGGGCTGATGCGCCTGCACCTGCCGCTCGGCCCGCTGTGGGCCGGCGTGGCCGCGCTGGCCCTGTTCAACCTGTACGCCCAGCTGCGGGTGGCGCGTGCCGACTCGGCCGCGCCGGCGACCGCGTTCGGCCACATCCTGGTCGACGTGACCGTGCTGACCTGGATGGTCGGCTGGAGCGGCGGCGTCGCCAACCCGTTCGGCTCGCTGTTCGTGATCCTGACCGCACTGGCCGCGTTCGCGCTGCCACTGGGCTGGGCACTGGCGGTGGCCGCCACCTGCGTGGCCGGCTACGTGATCAGCGCGGCCTTCGGCATGCCGCTGCCGCACGGCGACTTCGACCCGCTGAGCCTGCACATGTGGGGCATGGCGGCCAACTTCCTGATCTCCACGATCGTGGTGCTGGTGTTCTCCACCCGCCTGGCGCTGTCGCTGCGCCGGCGCGAGCGCGAGATCTCGATGCTGCGCGAGCGCTTCGCCCGCAACGAGGGCATCGTCGCCCTCGCCACCCATGCCGCATCGGTCGCGCATGAGCTCAACACCCCGCTGGCGACGATGACCCTGCTGGTCGACGACGCCGTCGAGCAGTGCGAGCACTCCGAGCTGCGCGAGGACCTGGAGACCGTGCGCGAACTGCTGGTGCAGTGCCACGAGCGTGTGCTGGCGCTGGCCGCACCGGCCGACCGCGGCGACCTGCGCAGCGACATCGCTGTCCAGGACGTGCTGGAACAATGGCGCCTGGTGCGCCCGACCATCCAGCTGCAACGCAATGCCGATGCACCACTGCGGCTGATGCTGGAACCCAGCGTCGGCCACCTGCTGATGGTGCTGCTCAACAACGCGGCCGACGCCGGCGAACGCGCCGGCCAGCCACGGGTGGACCTGCTGCTGCGCGTCGAGGACGACGAGCTGCTCGGCGAGGTCCGCGATTTCGGTCCGGGGTTCGACGCCAGCAAGGCGGCGCTGCCCGGGAAACTGTTCAACAGCGGCAAGACCGATGGCATGGGCGTGGGGCTGGCGCTCTCGCATGCCACGGTCGAGCGCCTGCACGGCGAATTGTGGATGCTGCCTGCCGAAGGCCGCGGCGCCCGTGTAGGCTTCCGCCTGCCCCTGCCCAACAAGGAGGCCACTCCATGA	MNDSSDAPFLRTLCSLRWLATAGQAATILVASGLMRLHLPLGPLWAGVAALALFNLYAQLRVARADSAAPATAFGHILVDVTVLTWMVGWSGGVANPFGSLFVILTALAAFALPLGWALAVAATCVAGYVISAAFGMPLPHGDFDPLSLHMWGMAANFLISTIVVLVFSTRLALSLRRREREISMLRERFARNEGIVALATHAASVAHELNTPLATMTLLVDDAVEQCEHSELREDLETVRELLVQCHERVLALAAPADRGDLRSDIAVQDVLEQWRLVRPTIQLQRNADAPLRLMLEPSVGHLLMVLLNNAADAGERAGQPRVDLLLRVEDDELLGEVRDFGPGFDASKAALPGKLFNSGKTDGMGVGLALSHATVERLHGELWMLPAEGRGARVGFRLPLPNKEATP	PGPT0000545_1089	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000545-regB|regS|actS-K15011	NA	NA
BMS020_06956	567	regA	COG4567	Photosynthetic apparatus regulatory protein RegA	ATGACTACCCAGCACCCCAAGGGCCTGCTGGTCGACGACGACAGCCTGTATCTGCGTACCCTGCAGCGCAGCCTGGCCCGTCGCGGCATCGAAACCGTCACCGCCGCCGACGCCGCCGATGCGGTGGCCGTCGCGCGCCAGGCGCAACCGGACTTCGCGCTGATCGACCTCAAGCTCGGCAGCGACTCCGGCCTGCAGCTGATCCAGCCGCTGCGCAGCGTCAAACCCGACATGCGCATCCTGCTGGTCACCGGCTACGCCAGCATCGCCACCGCGGTGGAGGCGATCAAGCTCGGCGCCGACGACTACCTGCCCAAGCCGGCCAACATCGCCACCATCCTGCGTGCGATCGGCGAGGAAGACGAGGAGTTCGCCGACGAGGAGGAGCAGGACGAGCACTCGCCCGAGCTGATGACCCCGCTCAGCCGCCTGCAGTGGGAGCACATCCAGCAGGCGCTGCACGAAACCGGCGGCAACGTCTCGGCCGCCGCACGCCTGCTCGGCATGCACCGGCGCTCGCTGCAGCGCAAGCTGACCAAGCGCCCCAGCCCCGGCACGGTGCGCTGA	MTTQHPKGLLVDDDSLYLRTLQRSLARRGIETVTAADAADAVAVARQAQPDFALIDLKLGSDSGLQLIQPLRSVKPDMRILLVTGYASIATAVEAIKLGADDYLPKPANIATILRAIGEEDEEFADEEEQDEHSPELMTPLSRLQWEHIQQALHETGGNVSAAARLLGMHRRSLQRKLTKRPSPGTVR	PGPT0000540_203	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000540-regA|regR|actR-K15012	NA	NA
BMS020_06957	1563	sglT_3		Sodium/glucose cotransporter	GTGGGTTTGGCAACGTTGGACATCGTGATCGTGCTGGTCTACCTGGCCGGCATCTTCGTACTTGCGCAAGTGGTCTCGCGCGAGAAGGCCGGGCACAGCAAGAGTGCCGAGGATTACTTCCTGGCCGGCAAGTCGCTGCCGTGGTGGGCGATCGGCGCCTCGCTGATCGCCGCCAACATCTCCGCCGAGCAGATCATCGGCATGGCCGGGTCGGGCTATGCGATCGGCCTGGCGATCGCCTCGTACGAGTGGATGGCGGCGGCGACGCTGCTGATCGTCGGCAAGTTCTTCCTGCCGATCTTCCTGCGCAACGGCATCTACACGATGCCGCAGTTCCTCGAGCAGCGTTACGGCAACCGCATCCGCACCCTGATGGCGGTGTTCTGGCTGGGCCTGTACGTGTTCGTCAACCTGACCTCGATCCTGTGGCTGGGCTCGATCGCGGTGACCCAGGTCACCGGCATGGACCAGATGCTGGCACTGGCGCTGATCGGCGTGTTCGCGCTGCTGTACCAGCTGTACGGCGGGCTGAAGGCGGTGGCGCTGACCGACATCGTGCAGGTCTGCCTGCTGGTGCTGGGCGGGTTGGTGGTGGTGGCGCTGACGCTGGGCCGCATCAGTGACGGGCAGGGCGTGGTCGCCGGCTTCCAGCAGCTGTGGCAGCAGCATCCGGAGCACTTCCAGATGATCCTGTCCAAGGACAACCCGTTCTACAAGGACCTGCCGGGCCTGAGCGTGCTGGTCGGCGGGCTGTGGATCATGAACATCAGCTACTGGGGCTTCAACCAGTACATCATCCAGCGCGCCCTGGCCGCCAAGAACATCGGCGAAGCGCAGAAGGGCATGGTGTTCGCCGCGTTCCTGAAGCTGCTGATGCCGGTGGTGATCGTGGTGCCGGGCATCGCCGCGGTGGTGCTGGCGCCGGACCTGGCCAAGCCCGACCAGGCCTACCCGACGATGATGCAGCTGCTGCCCACCGGCCTGCTCGGCCTGGTGTTCGCGGCGCTGATCGCGGCGATCGTGGCCTCGCTGGCCTCGAAGATCAATTCGGTGGCGACGATCTTCACCCTGGATTTCTACGCCAAGTCGCGCCCGCAGGCCGACCAGCAGCACCTGGTCAAGGTCGGCCGGATCGTGGCGATCGTCGCGGTGATCGTCGGCATCCTGGCCGCGCGGCCGCTGCTGGGCGGCTTCGACCAGGGCTTCCAGTACATCCAGGAGTTCACCGGCTTCTTCACCCCGGGCATCGTGGTGATCTTCATGCTCGGGCTGTTCTGGAAGCGCGCCAACGAGGCCGGCGCGCTGACCGCGGCGATCGGCTCGTTCGCGCTGTCGATCCTGTTCAAGCTGGCGTGGCCGGCGCTGCCGTTCATCGACCGGGTCGGGCTGGTGTTCGTGCTGTCGCTGCTGCTGGCGGTGGTGGTGTCGCTGGCGACGCCGGCGGTGCCAGGGCGCGATCACATCCGCACCGACGATGTGCGCTACGCCACGCCGCCAAGCTTCAACCTGGGCGCGGTCGGGGTGCTGGCGATCCTGGTGGCGCTGTACACCCTGTTCTGGTGA	MGLATLDIVIVLVYLAGIFVLAQVVSREKAGHSKSAEDYFLAGKSLPWWAIGASLIAANISAEQIIGMAGSGYAIGLAIASYEWMAAATLLIVGKFFLPIFLRNGIYTMPQFLEQRYGNRIRTLMAVFWLGLYVFVNLTSILWLGSIAVTQVTGMDQMLALALIGVFALLYQLYGGLKAVALTDIVQVCLLVLGGLVVVALTLGRISDGQGVVAGFQQLWQQHPEHFQMILSKDNPFYKDLPGLSVLVGGLWIMNISYWGFNQYIIQRALAAKNIGEAQKGMVFAAFLKLLMPVVIVVPGIAAVVLAPDLAKPDQAYPTMMQLLPTGLLGLVFAALIAAIVASLASKINSVATIFTLDFYAKSRPQADQQHLVKVGRIVAIVAVIVGILAARPLLGGFDQGFQYIQEFTGFFTPGIVVIFMLGLFWKRANEAGALTAAIGSFALSILFKLAWPALPFIDRVGLVFVLSLLLAVVVSLATPAVPGRDHIRTDDVRYATPPSFNLGAVGVLAILVALYTLFW	PGPT0013955_2667	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013955-TC_SSS|yerK|opuE-K03307	NA	NA
BMS020_06958	2604			hypothetical protein	TTGGACAAGTCGTTGCGTCGCGCGCCCGCGCCCCTGATCCGCCATGCCCTGACCCTCGCCACCGCCGCCTCGCTGCTGGTGCTGGCGGCCTGTCAGGGCAAGCCTGCCGCGGAGGCGGCCGCCACCGCCGCGCCGGCCGCTGCCGACGCCGGCGCGATCCATCCCGAGAGCTGGCCTTCGCCGGCGTGGCCGTTCGCGGCCGACGCTGCGCTGGAGAAGCGCATCGACGACGTGATGGCGCAGATGAGCGTGGAGGAGAAGGTCGCCCAGACCATCCAGGGCGACATCGCCAGCATGACCCCGGATGACGTGCGCAAGTACCGGCTTGGCTCGGTGCTGGCCGGCGGCAACTCCGATCCGGGCGGCAAGTACGACGCCAGCCCGGCCGAGTGGCTGAAGCTGGCCGATGCCTATTACGAGGCGTCGATGGACACCTCCGGCGGCGGTCACGCGATCCCGATCATCTTCGGCATCGACGCGGTGCACGGCCAGAGCAACATCGTCGGCGCGACCTTGTTCCCGCACAACATCGGCCTGGGTGCGACCCGCAATCCGGAACTGATGCGCAAGATCGGCGAGGTCACCGCCGCCGAGACCCGCGTCACCGGCATGGAGTGGACCTTCGCGCCGACCGTGGCGGTGCCGCAGGACGACCGCTGGGGCCGCAGCTACGAGGGCTATTCCGAATCGCCGGACGTGGTCGCCAGCTATGCCGGCGAGATGGTCAAGGGTCTGCAGGGCGAGCCGGGCCAGCCCGGCTTCCTCGACGGCCACCACGTGATTTCCTCGGTCAAGCACTTCGTCGGCGACGGCGGCACCACCGACGGCAAGGACCAGGGCGACACCGCGGTCAGCGAGCAGGTGATGCGCGACGTGCATGCGGCCGGCTATCCGCCGGCGATCGCCGCCGGTGCGCAGAGCGTGATGGCCTCGTTCAACAGCTTCAACGGCGAGAAGATGCACGGCAACAAGGTCATGCTGACCGACGTGCTGAAGGGCCAGATGCACTTCGGCGGCTTCGTGGTCGGCGACTGGAACGGCCACGGCCAGGTCAAGGGCTGCAGCAACACCGACTGCCCGGCCTCGTTCAACGCCGGCGTCGACATGGCGATGGCCTCCGACAGCTGGAAGGGGCTGTACGAGAGCGAGCTGGCGGCGGTGAAGGCCGGCACGATCACCCCGCAACGGCTCGACGATGCGGTGCGGCGGATCCTGCGGGTCAAGTTCCGGCTCGGCCTGTTCGAGGCCGGCAAGCCGTCGCAGCGCCCGCTCGGCGGCAAGTTCGCACTGCTCGGCGCGCCCGAGCACCGCGCGATCGCCCGCCAGGCGGTGCGCGAGTCGCTGGTGCTGCTGAAGAACCAGGCCGGCATCCTGCCGCTGGATCCGCACAAGCACGTGCTGGTGGCCGGCGATGGCGCCAACGACATGGGCAAGCAGTCCGGCGGCTGGACCCTCAACTGGCAGGGCACCGGCACCAAGCGCTCGGACTATCCGAACGGCAACACGATCTGGGAAGGCCTGGACAAGCAGGTCAAGGCCGCCGGCGGCAGCGCCGAGCTGGCGATCGACGGCAAGTACAAGAGCAAGCCGGACGTGGCGGTGGTGGTGTTCGGCGAGAACCCGTATGCCGAGTTCCAGGGCGACATCGCCACGCTGCTGTACAAGCCGGGCGATGACAGCGACCTGGAGCTGCTGAAGAAGCTCAAGGCCGAGGGCATCCCGGTGGTGGCGGTGTTCCTCAGCGGCCGCCCGCTGTGGATGAACCAGTACATCAATCTCGCCGACGCGTTCGTCGCCGCGTGGCTGCCGGGCTCGGAGGGCGAGGGCATCGCCGACGTGCTGCTGCGCACCGCCGATGGCAGCGTGCAGCACGACTTCAAGGGCAAGCTGAGCTTCTCCTGGCCGCGCACCGCGGTGCAGTTCCACAACAACGTCGGGCAGAAGGACTACGACCCGCAGTTCGCGTTCGGCTACGGCCTGACCTATGCCGACAAGGGCGACCTGGCGGCGCTGCCGGAAGACTCCGGCGTCAGCGGCGAGCAGTCCGCCGGCGGCGTGTACTTCGTGCGCGGCAAGCCGGCGCTGGGCATCGCGATGCAGCTGTCCAACGCTGGCCAGGCCAACATGCCGGCGACCACGGTGCCGGTCGGCCTGTCCGACGGCAGCCTGAAGATGAGCGCGGTCGACTACAAGGCGCAGGAAGACGCGCGCAAGCTGCAGTGGTCGGGCAGTACCGCGGCGCGGCTGGTGCTGGCCTCGGCCAAGCCGGTCGACGTCAGCCGCGAGAGCAACGGCGACGTGCAGCTGCAGCTGACCCTGCGCCGCGACAGCGCCGTGACCGCGCCGGTGTGGCTGGGCGTGGGCTGCGGCGAGGGTTGCAGCGGACGCATCGACCTGCAGAAGACCCTGGCGGCGCTGCCGCAGGGGCAGTGGACCGTGGTCGGCGTGCCGCTGAAGTGCTTCGTGGTGGCCGGCGCCGACGTCGCCAAGCTCAGCCAGACCACGGTGCTGGAAAGCGCCGCGGCGCTGGAACTGACGGTGTCGAGGGTGGCGCTCGGCGCGCTCAACGAGGCCCAGGCCACGGTGGATTGCCCGATCAAGTGA	MDKSLRRAPAPLIRHALTLATAASLLVLAACQGKPAAEAAATAAPAAADAGAIHPESWPSPAWPFAADAALEKRIDDVMAQMSVEEKVAQTIQGDIASMTPDDVRKYRLGSVLAGGNSDPGGKYDASPAEWLKLADAYYEASMDTSGGGHAIPIIFGIDAVHGQSNIVGATLFPHNIGLGATRNPELMRKIGEVTAAETRVTGMEWTFAPTVAVPQDDRWGRSYEGYSESPDVVASYAGEMVKGLQGEPGQPGFLDGHHVISSVKHFVGDGGTTDGKDQGDTAVSEQVMRDVHAAGYPPAIAAGAQSVMASFNSFNGEKMHGNKVMLTDVLKGQMHFGGFVVGDWNGHGQVKGCSNTDCPASFNAGVDMAMASDSWKGLYESELAAVKAGTITPQRLDDAVRRILRVKFRLGLFEAGKPSQRPLGGKFALLGAPEHRAIARQAVRESLVLLKNQAGILPLDPHKHVLVAGDGANDMGKQSGGWTLNWQGTGTKRSDYPNGNTIWEGLDKQVKAAGGSAELAIDGKYKSKPDVAVVVFGENPYAEFQGDIATLLYKPGDDSDLELLKKLKAEGIPVVAVFLSGRPLWMNQYINLADAFVAAWLPGSEGEGIADVLLRTADGSVQHDFKGKLSFSWPRTAVQFHNNVGQKDYDPQFAFGYGLTYADKGDLAALPEDSGVSGEQSAGGVYFVRGKPALGIAMQLSNAGQANMPATTVPVGLSDGSLKMSAVDYKAQEDARKLQWSGSTAARLVLASAKPVDVSRESNGDVQLQLTLRRDSAVTAPVWLGVGCGEGCSGRIDLQKTLAALPQGQWTVVGVPLKCFVVAGADVAKLSQTTVLESAAALELTVSRVALGALNEAQATVDCPIK	PGPT0019110_1122	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
BMS020_06959	1518	pgi_2		Glucose-6-phosphate isomerase	ATGACCCAGCACACCGGATTCGACTCGCTTCACCCCCACGCCCAGCGCCTGCGCGGCGCTGCCATCCCCGCGCTGCTGGCCGCCGAGCCCGACCGGGCGCAGGCGTATGCGAAACGGGTCGGTCCGCTGTATTTCAACTTCGCGCGGCAGAAGTACGACCGCGCGGCGTTGGATGCGCTGCTGGCGCTGGCCGCCGAGCGCGATGTCGCCGGCGCGTTCCAGCGCCTGTTCCGCGGCGAGCAGGTCAATGTCACCGAGCAGCGCGCCGCGCTGCACACCGCGCTGCGTGGCGATGCCAGCGGCGCGCCGGTGGCGGCCGAGGCCTACGCGACCGCCGCCGAAGTGCGCCAGCGCATGCAGGCGCTGATTGCCGCGCTGGAGCAGACCGGCGTCACCGACATCGTCAGCGTTGGCATCGGTGGCTCGGACCTCGGTCCGCGCCTGGTCGCCGACGCGCTGCGCCCGGCCAGTGGCGCGCGCTTCCGCGTGCATTTCGTCTCCAACGTCGACGGCGCGGCGATGCAGCGCACGCTGGCGACGCTGGACCCGGCCAGCACCGCCGGCATCCTGATCTCCAAGACCTTCGGCACCCAGGAAACCCTGCTCAACGGCAAGATCCTGCATGCCTGGCTGGGCGGCAGCGAGCGCCTGTACGCGGTCAGCGCCAATCCCGAGCGCGCCGCCAAGGCCTTCGACATCGCCCCGGGCCGCGTGCTGCCGATGTGGGACTGGGTCGGCGGGCGTTATTCGCTGTGGTCGGCGGTGGGTTTCCCGATCGCGCTGGCGATCGGCTTCGAGCGCTTCCAGCAGCTGCTGGACGGTGCGGCCGCGTTCGACCGCCACGCGCTTGAAACCCCGCTGGCCGACAACGTCGCGGTGCTGCACGGGCTGACCGCGGTGTGGAACCGCAACCTGCTTGGCAGCGCCACCCACGCGGTGATGACCTACGACCAGCGCATGGCGCTGCTGCCGGCCTACCTGCAGCAGCTGGTGATGGAGAGCCTGGGCAAGCGCGTGCAGCTCGATGGTGCGCCGGTCGACAGCGACACCGTGTCGGTGTGGTGGGGCGGTGCCGGCACCGACGTGCAGCACAGCTTCTTCCAGGCGCTGCACCAGGGCACCAGCATCGTGCCGGCCGATTTCATCGGCACCATCCACAACGACGATCCGTACGTGGAAAACCACCAGGCGCTGCTGGCCAACCTGCTGGCGCAGACCGAGGCGCTGGCCAACGGCCAGGCCAGCGACGACCCGCACCGCAGTTACCCGGGCGGCCGCCCGAGCACGCTGATCCTGCTCGACGCGCTGACCCCGCAGGCGCTGGGCGCGCTGATCGCGATGTACGAGCACAGCGTCTACGTGCAGTCGGTGATCTGGGGCATCAACGCCTTCGACCAGTTCGGCGTCGAGCTCGGCAAGCAGCTCGCCGGGCAGTTGCTGCCGGCAGTGCAGGGCGAGGCGGTCGAGGTCGCCGATCCGGTGACGCGCGCGGCACTGGCGCTGCTCGGCACGCGCTGA	MTQHTGFDSLHPHAQRLRGAAIPALLAAEPDRAQAYAKRVGPLYFNFARQKYDRAALDALLALAAERDVAGAFQRLFRGEQVNVTEQRAALHTALRGDASGAPVAAEAYATAAEVRQRMQALIAALEQTGVTDIVSVGIGGSDLGPRLVADALRPASGARFRVHFVSNVDGAAMQRTLATLDPASTAGILISKTFGTQETLLNGKILHAWLGGSERLYAVSANPERAAKAFDIAPGRVLPMWDWVGGRYSLWSAVGFPIALAIGFERFQQLLDGAAAFDRHALETPLADNVAVLHGLTAVWNRNLLGSATHAVMTYDQRMALLPAYLQQLVMESLGKRVQLDGAPVDSDTVSVWWGGAGTDVQHSFFQALHQGTSIVPADFIGTIHNDDPYVENHQALLANLLAQTEALANGQASDDPHRSYPGGRPSTLILLDALTPQALGALIAMYEHSVYVQSVIWGINAFDQFGVELGKQLAGQLLPAVQGEAVEVADPVTRAALALLGTR	PGPT0017735_4187	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
BMS020_06960	381	panD_2		Aspartate 1-decarboxylase	ATGCAACTGTCCCTGCTGAAAGCCAAGATCCATCGCGCCACCGTCACCCATTCCGAGCTGAACTACGAAGGCTCGATCGCCATCGATGGCCTGCTGCTGGAAGCCACCGGCATCCGTGAGTTCGAACAGGTCCACATCTGGGACGTCACCAACGGTGCGCGCTTCAGCACCTACGCGATCCGTGCCGAGGAAGGCAGCGGCGTGATCTCGCTCAACGGCGGCGCCGCGCGCCACGTGCAGGTGGGCGACCTGATCATCGTCGCCGCGTTCGCCAGCATGAGCGAGGCCGAGGCCGACGTGTTCAAGCCGAACCTGGTCTACGTCGGCGCCGGCAACAAGATCACCCACACCAACCACTCGATCCCGACACAGGCCGCATGA	MQLSLLKAKIHRATVTHSELNYEGSIAIDGLLLEATGIREFEQVHIWDVTNGARFSTYAIRAEEGSGVISLNGGAARHVQVGDLIIVAAFASMSEAEADVFKPNLVYVGAGNKITHTNHSIPTQAA	PGPT0008890_1769	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0008890-panD-K01579	NA	NA
BMS020_06961	843	panC_2	COG0414	Pantothenate synthetase	ATGATCCAGACCGTTACCGAACTTGCCCAGCTGCGCGCCATCGTCGCCGGCTGGAAGCGCGAGGGCCTGCGCGTGGCGCTGGTGCCGACCATGGGCAACCTGCACGCCGGGCACTTCTCGCTGGTGATGCTGGCGCGGCAGTACGCCGATCGCGTGGTCTCCAGCGTGTTCGTCAACCCGACCCAGTTCGGGCCGAACGAGGACTTCGCCCGCTACCCGCGCACGCCGGAGGCCGACATGCGCGGGCTGGAAGGCGCCGGCTGCGACGTGCTGTGGCTGCCGAGCGTGGAGGCGATGTACCCGCTGGGCACCGCGCTGGCGATGCGCATGCATGCGCCGGGCGTCAGCGAGGTGCTGGAGGGCGCCAGCCGTCCCGGCCACTTCGACGGCGTCTGCACCGTGGTGGCGCGGCTGTTCAACCAGGTGCAGCCGGACGTGGCCGCGTTCGGCAAGAAGGACTACCAGCAGCTTGCGGTGATCCGGCAGATGGTCGCCGACCTGGCGTTCCCGATCGAGATCCTCGGCGGCAGCATCGTGCGCGAGGCCGACGGCCTGGCGATGAGTTCGCGCAACCAGTACCTGTCGGCCGAGGACCGGCCGCGTTCGGCGCTGATCCGCCAGGTGCTGCTGGGCATGCGCGACGCGCACGCCGTCGGCACGCCGCGCGCGCAGGTCGAGGCCGATGCGGCCGCGCAGCTGGCCGCGGGGGGCTTCAACGTCGATTACGCGGTGCTGCGCATGCCCGACCTGACCGAGCCGGGCGACGACCCGGCCGGCGCGCGGGTCGCGCTGATCGCGGCGAAGATCGGCAGCACGCGGCTGATCGACAACCTCGAGTTCTGA	MIQTVTELAQLRAIVAGWKREGLRVALVPTMGNLHAGHFSLVMLARQYADRVVSSVFVNPTQFGPNEDFARYPRTPEADMRGLEGAGCDVLWLPSVEAMYPLGTALAMRMHAPGVSEVLEGASRPGHFDGVCTVVARLFNQVQPDVAAFGKKDYQQLAVIRQMVADLAFPIEILGGSIVREADGLAMSSRNQYLSAEDRPRSALIRQVLLGMRDAHAVGTPRAQVEADAAAQLAAGGFNVDYAVLRMPDLTEPGDDPAGARVALIAAKIGSTRLIDNLEF	PGPT0008750_3316	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
BMS020_06962	816	panB_2	COG0413	3-methyl-2-oxobutanoate hydroxymethyltransferase	ATGAGCAGCCACGCCGATAGCAAGCCCTGGACCGTGCCCGCCCTGGCCGAGGCCAAGCGCGACGGTCGCAAGCTGGTGATGTTGACCGCCTACGACGCCGGGTTCGCCCGCACCTTCGACGCCGCCGGGATCGACCTGATCCTGATCGGCGACTCCCTCGGCATGGTCGTGCAGGGCCACGAGTCGACGTTGCCGGTCACCGTGGCCGACATGGTCTACCACACCCGCATCGTCGGCCGCGTGCTGCAGCGGGCGCTGCTGGTGGCCGACCTGCCGTTCGGCGCCGATGCCAGCCCGGAGCGCGCCTTCGAGGCCTCGCTGCAGCTGCTGCAGGCCGGCGCCGAGATGGTCAAGATCGAGGGGGCCGGCTTCAAGCTCGACGTGATCCGCTACCTGGTCGAGCGTGAGATCCCGGTCTGCTCGCACCTGGGCCTGACCCCGCAGTCGGTACTGCGCTTCGGCGGCTACAAGGTGCAGGGGCGTGGCGACGCGGCCGAGGCGCTGCGCCAGCAGGCGCGCGACGTGGCCGCGGCCGGCGCCAGCCTGCTGGTGCTCGAATGCGTGCCCAGCCCGCTGGCGGCGCAGATCACCGCCGAGCTGGCGGTGCCGACCATCGGCATCGGTGCCGGCCCGGGCTGCGACGGCCAGGTGCTGGTGATGCACGACTTCCTCGGCCTGGACAGTGGCCATCGCCGGCCCAAGTTCGTCAAGGACTTCCTCGCCGAAGGCGGTTCCGTGGCCGGTGCCGCCCAGGCCTATGCCGCCGCGGTGCGCGACGGCAGCTTCCCCGATGCCGAGCACGCCTACGCCTCATGA	MSSHADSKPWTVPALAEAKRDGRKLVMLTAYDAGFARTFDAAGIDLILIGDSLGMVVQGHESTLPVTVADMVYHTRIVGRVLQRALLVADLPFGADASPERAFEASLQLLQAGAEMVKIEGAGFKLDVIRYLVEREIPVCSHLGLTPQSVLRFGGYKVQGRGDAAEALRQQARDVAAAGASLLVLECVPSPLAAQITAELAVPTIGIGAGPGCDGQVLVMHDFLGLDSGHRRPKFVKDFLAEGGSVAGAAQAYAAAVRDGSFPDAEHAYAS	PGPT0008740_2712	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
BMS020_06963	555			hypothetical protein	ATGAGGGCGCGCCGCGCAAGCGTCGCCGCCGCCGCCGCCGCGGTGCCGGTTCCGGCGAGTAAGCCGCCGGTGGTGGACGCCTACATTGGCCTGGGCGCCAATCTCGGCGAGGCCGAGGCGGCCGTGCGCGGCGGCCTGGCCGCGCTGGCCGGACTGCCCGGGACCACGCTGCGCGCCGCGTCGCGGCTGTATCGCACCCCGGCCTGGGGGCGCGAGGACCAACCCGACTTCATCAACGCCGCCGCCGCGCTGGACACCACGCTGGCGCCGGCGGCGCTGCTCGACGCGCTGCTGGCGATCGAGCGGACGTTCGGCCGGGTGCGCCTGGCCGGCGAGCGCTGGGGGCCGCGCAGCCTGGACCTGGACCTGCTGCTGTATGGGCGCGAGGTGGTCGACCTGCCGCAGCTGCAGGTGCCGCACCCCTATCTGCATGCCCGTGCATTCGTGCTGGTGCCGCTGGCGGAGATCGCCGCCGAGGCGCCGGTGCCGGGGCATGGAACGGTGCGGGCCGCGCTGGATGCGCTGGACCCCAGCGGGATCGTGCCGATTGGGTAG	MRARRASVAAAAAAVPVPASKPPVVDAYIGLGANLGEAEAAVRGGLAALAGLPGTTLRAASRLYRTPAWGREDQPDFINAAAALDTTLAPAALLDALLAIERTFGRVRLAGERWGPRSLDLDLLLYGREVVDLPQLQVPHPYLHARAFVLVPLAEIAAEAPVPGHGTVRAALDALDPSGIVPIG	PGPT0007910_3217	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007910-folK-K00950	NA	NA
BMS020_06964	1230	pcnB_2	COG0617	Poly(A) polymerase I	GTGCTCTACCGCCTGCGCGAGGCCGGCTTCGGCGCCTACCTGGTCGGCGGCGCGGTCCGCGACCTGCTGGTCAGCGGCAACCCCAAGGATTTCGACGTCGCCACCGACGCCACGCCGGAAGAGGTCAAGGGCCTGTTCCGCAACTGCCGGCTGATCGGCCGGCGTTTCCGCCTGGCCCACGTGGTGTTTGGGCGCGAGATCATCGAGGTCGCCACCTTCCGCGCCAACAGCGACGACGGCAGCGGCGACCGCGAGCTCGATAATGGCCGGCTGGTGCGCGACAACGTCTACGGCACGATCGAGGACGACGCGATCCGCCGCGACTTCACCTGCAACGCACTCTATTACGCCATCGAGGACTTCTCGGTGCGCGACTACGTCGGCGGCTTCGATGACGTGCAGGCGCGGCTGATGAAGCTGATCGGCGATCCGGAGCAGCGCTACCGCGAAGACCCGGTGCGCATGCTGCGCGCGGTGCGGCTGGCGGCCAAGCTCGGGTTCGAGATCGAGGCGGCCACCGCCGAGCCGATCCCGCGCCTGGCCGGGCTGCTGTCCGAGGCGGCGCCGGCGCGGCTGTTCGAGGAAGTGCTCAAGCTGTTCCTGTCCGGCCACGGCGTGGCCAGCTTCGAGGGACTGGAGCGCCACGGCCTGCTGGCGGCGCTGTTCCCGGAAAGCGCCGCGGCGCTGCGCTCCAACAAGAGCGGTGCGCTGCGGCGCATGCTGATCGAAGGGCTGCGCAACACCGATGCGCGCGTGGCCAACGACGAGCCGGTATCGCCGGCGTTCCTGTTCGCGCTGCTGCTGTGGCCGGCGTTCTGCCGGGCCTTGGCGGGTCTGCAGGCGCAGGGCGTGCCGGTCGAGGATGCGCAGCGACGCGCGGCCGACCGCGCCACGCTGCACCAGTTGGAGCGGATCGCGCTGCCGCGGCGGTTCTCGCTGCCGATGCAGGAGATCTGGCTGCTGCAGGCGCGGTTCTCCTCGCGCCAGCGCAAGCGGGTGTTGCGCACCCTGAGCCACCCGCGCTTCCGCGCCGCGTTCGATTTCCTGGCGCTGCGCCAGGTGGCTTCGCCCGACCATGCTGCCGATGTGGCGTTCTGGCGCGAGGCGCAGCAGCAGTCCGGCGAGGAACTGACCAGCGCGATCGAGGTCGCCCAGGCCGAGATTGGCGATGAGGGCGCGCCGCGCAAGCGTCGCCGCCGCCGCCGCCGCGGTGCCGGTTCCGGCGAGTAA	MLYRLREAGFGAYLVGGAVRDLLVSGNPKDFDVATDATPEEVKGLFRNCRLIGRRFRLAHVVFGREIIEVATFRANSDDGSGDRELDNGRLVRDNVYGTIEDDAIRRDFTCNALYYAIEDFSVRDYVGGFDDVQARLMKLIGDPEQRYREDPVRMLRAVRLAAKLGFEIEAATAEPIPRLAGLLSEAAPARLFEEVLKLFLSGHGVASFEGLERHGLLAALFPESAAALRSNKSGALRRMLIEGLRNTDARVANDEPVSPAFLFALLLWPAFCRALAGLQAQGVPVEDAQRRAADRATLHQLERIALPRRFSLPMQEIWLLQARFSSRQRKRVLRTLSHPRFRAAFDFLALRQVASPDHAADVAFWREAQQQSGEELTSAIEVAQAEIGDEGAPRKRRRRRRRGAGSGE				NA	NA	NA	NA	NA
BMS020_06966	648			hypothetical protein	GTGCTGGTGCTCGGCGCGTCCCCCGTCGCCATGGCCGATACCGTGGTCGTCGGCCCGAGCGGGGTGTACGCCACCATCGACACCCGATTGACCGTCGAGGCGATGGCGGCGATCAACAGCGGCGATGCCGGCGCCGCTCGTGCGGCGATCGAAGCGTTCGTGGCCGCGCCGGAGCGCTATGCGCCGCCGATGTTCTATCTGGTCTCGAACGTGTTGATGCAGGCGGACATGCCGGAGCCGGCGATGTTCTGGTTCTACGCCGGCCAGCTGCGCGCCACCATTGACGCAGCGCTGTGCCTGGATGCCAGCGCCCGCGAGGCCAGGAGCGTGCTCAACGAGCGCTACGGTGGCATCATCAACCGCTACGCGTTCGCGCATCTGGACCAGCTCAAGCAGATCGTTCCCAAGGTGGTGGCGTGGGACAAGGCGACGTCGCGCGCCTACGACCAGCGCTGGATCAACCTGCACGGCATGGCGGCCATGCGAAGCGCTTTGGGCGATGGCAGCACACCGGCATTGAGCCTGCCTGCATCCGAGTGGGGTGCGGTCATCGCCAATACCCGCGACGAGTACCTGCGGAGTTTCCAGGCGGGCATGGTGACGCTGGAACAGCGCGCGTCGGGGGCTGCCGCGCCAGTCCAACCCTGA	MLVLGASPVAMADTVVVGPSGVYATIDTRLTVEAMAAINSGDAGAARAAIEAFVAAPERYAPPMFYLVSNVLMQADMPEPAMFWFYAGQLRATIDAALCLDASAREARSVLNERYGGIINRYAFAHLDQLKQIVPKVVAWDKATSRAYDQRWINLHGMAAMRSALGDGSTPALSLPASEWGAVIANTRDEYLRSFQAGMVTLEQRASGAAAPVQP				NA	NA	NA	NA	NA
BMS020_06967	1437	xylE_2		D-xylose-proton symporter	ATGAGCAGTACCCCGCAGGCCGCCACCGCGGCCGCCGCGCACAGCGCGGAGAACACCCGTTTCATCATCCTGATCAGCTGCGTCGCGACGATCGGCGGCTTCCTGTTCGGATTCGATTCCGGCGTCATCAACGGCACCGTCGATGGCCTGCATCAGGCCTTCGGTTCCGGCAGGCTGATGCAGGGCTTCGAGGTCGCCTCGATGCTGATCGGCTGCGCCATCGGCGCCTTCGTCGCCGGCCGCCTGGCCGATCGCTGGGGCCGGCGCAGTGTGTTGCTGATCGCCGCGGTGCTGTTCCTGCTTTCGGCGCTGGGCGCCGGTGCGGCGCATGCGTCGTGGCTGTTCATCGTCGCGCGGATCCTTGGCGGGTTTGCGGTTGGCGCGGCCAGTGTGATGTCGCCGGCCTACATCGCCGAGGTGGCGCCGGCGCGCTACCGCGGCCGGTTGGCGACGATCCAGCAGATCGCGATCATCAGCGGCCTGTTTGCCGCGTTCCTGAGCAACTACCTGCTCGCCAAGACCGCCGGCGCATCCACCCAGCCGTTGTGGCTGGGGCAGGAGGCATGGCGCTGGATGTTCTGGATGATGGGCATTCCCTCGGCGCTGTTCCTGGCGCTGCTGCTGCTGATCCCGGAAAGCCCGCGCTATCTCGTGGTCAAGCAGCGCAAGGAAGAGGCACTGGCGGTGCTGACCAGGTTGTACGGCCGGGCCGGGGCGCAGGCCACGCTGCTGGAAATCTCCGGCTCGCTGTCGGCCGACCAGCACCGTCCCACGCTGTCGGACCTGGTCAGCAAGGCCACCGGCAAGATCCGCCCGATCGTCTGGGTCGGCATCGGCCTGGCGGTGTTCCAGCAGCTGGTCGGCATCAACGTGGTGTTCTACTACGGCGCGGTGCTGTGGCAGGCGGTCGGCTTCTCCGAGAACGACGCGCTGCTGATCAACGTGCTGTCCGGCGCGCTGAGCATCGGTGCCTGCCTGGTGACGGTGGTGCTGATCGACAGGATCGGTCGCAAGCCGCTGCTGTGGATCGGCTCGGCCGGCATGGCGGTGTCGTTGGCACTGGTGACGTTCGCCTTCGCCAGCGCCTCGCTCGATGCCAGCGGCAAGCTGGCGATGTCCGATGCGATGGGCCTGCTGGCGCTGGTCGCGGCCAACGTCTACGTGGTGTTCTTCAACATGTCCTGGGGCCCGGTGATGTGGGTGATGCTGGGCGAGATGTTCCCGAACCAGATCCGCGGCTCGGCGCTGGCGGTGGCCGGCGCGGCGCAGTGGACCTCCAACTTCGCCATCACCATGACCTTCCCGATCCTGCTCGGCAGCATCGGCCTGGCTGGCGCCTACGGCATCTACACCGTGGCCGCGTTCCTGTCGGTGTTCTTCGTGCTCAAGTACGTCTACGAGACCAAGGGCAAGGAGCTGGAGCAGATGGAGGGCTGA	MSSTPQAATAAAAHSAENTRFIILISCVATIGGFLFGFDSGVINGTVDGLHQAFGSGRLMQGFEVASMLIGCAIGAFVAGRLADRWGRRSVLLIAAVLFLLSALGAGAAHASWLFIVARILGGFAVGAASVMSPAYIAEVAPARYRGRLATIQQIAIISGLFAAFLSNYLLAKTAGASTQPLWLGQEAWRWMFWMMGIPSALFLALLLLIPESPRYLVVKQRKEEALAVLTRLYGRAGAQATLLEISGSLSADQHRPTLSDLVSKATGKIRPIVWVGIGLAVFQQLVGINVVFYYGAVLWQAVGFSENDALLINVLSGALSIGACLVTVVLIDRIGRKPLLWIGSAGMAVSLALVTFAFASASLDASGKLAMSDAMGLLALVAANVYVVFFNMSWGPVMWVMLGEMFPNQIRGSALAVAGAAQWTSNFAITMTFPILLGSIGLAGAYGIYTVAAFLSVFFVLKYVYETKGKELEQMEG	PGPT0014440_924	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_OTHER_SUGAR_TRANSPORT_RELATED_PROTEINS,PGPT0014440-hxt-K08139	NA	NA
BMS020_06968	462	xylA_2	COG2115	Xylose isomerase	GTGGCGTCCGATCACGGCCTGCTGGGCAGCATCGATGCCAACCGCGGCAACGCGCAGAACGGCTGGGACACCGACCAGTTCCCGACCGACCTGTACGACACGGTCGGGGCGATGCTGGTGGTGCTGCGCCAGGGCGGGTTGGAGGGCGGGTTGAACTTCGACGCCAAGCCGCGTCGCGAGTCGACCGACATGGAAGACCTGTTCATCGCCCACATCGGCGGCATGGACGCGTTCGCGCGAGGGCTTGAGGTCGCCCACGCGCTGCTGACCGACTCGCCGTGGGAGCAGTGGCGCACCCAGCGCTACGCCAGCTTCGACGGCGGCAAGGGCAAGGAGTTCGTCGACGGCAAGCTCGACCTGGCCGCGCTGGCGGCACTGGCCAACGGTGCCGGCGAACCGGTCCAGCTCAGCGGCCGCCAGGAGGCCTACGAGAACCTGCTCAACCAGTACCTGCTGCGCTAA	MASDHGLLGSIDANRGNAQNGWDTDQFPTDLYDTVGAMLVVLRQGGLEGGLNFDAKPRRESTDMEDLFIAHIGGMDAFARGLEVAHALLTDSPWEQWRTQRYASFDGGKGKEFVDGKLDLAALAALANGAGEPVQLSGRQEAYENLLNQYLLR	PGPT0017550_369	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
BMS020_06969	1245			hypothetical protein	ATGGATGCGTCCGCGCAGCTCCACGCCGATATCGCCCATCACAGTGCGCTCGACGCCCGCCTGGTGCGGGCCGTGCGCGGCATCCGCCTGCTCGGTCTGGGCAGTTGGCCGGCCTCGCTGCAGGCGCCGTTCGTAGCCGCGGCGCGGCGCGGGCGGCCGCCGTTGCCGCAGGTCGATTATCCGCGGCTGCAGTTCGCCGAGGCGCGCAGTGAACTGGCGCGGATCGGCGCCGAAGCCGACCCGCAGCATCCGCTGGGGCGCTACCTGCAGCGCTCGGTGGCGAGCTGGGACCTGGCCGCCGCACTGCTGGAATCACTGGGCACGCCGCATGCCGGCGCGTGTTCGGCGCGGCTGTTCGGGCTGCCCGACGATCCGATGCCGGGTGGCGGCCTGAGCACGCGCGCCGCCGCCGGGCATTTCATCCAGATCGCGCAGGAACTCGACCGCGAGCTGATGGCGCCGGAGGAACAGGCGCCGGTCAGCGCGGAGGCGTTGCAGGTGCAGCTGCAGGGCGATCTGGACGGTTTCTTCGGCACGCGCCGGATCGAGGTCGTGCTCGACCCGCAGCTGATCGCCAAGGCCGCGGCCGGCGCGCAGCGCATCCGCCTGCGCAGCGGCGCGCTGTTCAGCGCCTATGACCGCGCGCAGCTGTTCCACCATGAAGCGCTGGTGCATTCGCTGACCGCGCTCAACGGCCGCGAACAGACGCGGCTGCCGAGCCTGGCGCTGGCCTCGCCGCGGGTGACCGCGACCCAGGAAGGGCTGGCGACGTTCGCCGAGCAGATCACCGGCAGCATCGACATCGACCGGCTCAAGCGCATCAGCCTGCGCATCGAGGCGATCGCGATGGCGCGCGAAGGCGCCGATTTCGTCGAGGTGTTCGACTACTTCCGGGAGGCCGGGCAGAGCCCGGCGGAGAGCTTCGCCTCGGCGCAGCGGGTATTCCGCGGCGTGCCGGTCGGCGGTGGCAGCGCGTTCTGCAAGGACACCGTGTACCTGCGCGGGCTGGTGGCGGTGCACGGCTTCTTCCGCCAGGCGCTGCAGCGCGACCGGCTGGCGCTGTGCCACTGGCTGTTCGCCGGCAAGCTGGCGCTGGAGGACGTGGAGGAATTCGTGCCGCTGTTCGAGGCCGGGGTGCTGGCGCCGCCGCGCTGGCTGCCGCCGTGGGCGGGCCGCGCCAGCGGACTGGCCGGGATGCTGGCGTTCTCGCTGTTCACCGATCGGCTGCGCCACCCCCACCCCTGA	MDASAQLHADIAHHSALDARLVRAVRGIRLLGLGSWPASLQAPFVAAARRGRPPLPQVDYPRLQFAEARSELARIGAEADPQHPLGRYLQRSVASWDLAAALLESLGTPHAGACSARLFGLPDDPMPGGGLSTRAAAGHFIQIAQELDRELMAPEEQAPVSAEALQVQLQGDLDGFFGTRRIEVVLDPQLIAKAAAGAQRIRLRSGALFSAYDRAQLFHHEALVHSLTALNGREQTRLPSLALASPRVTATQEGLATFAEQITGSIDIDRLKRISLRIEAIAMAREGADFVEVFDYFREAGQSPAESFASAQRVFRGVPVGGGSAFCKDTVYLRGLVAVHGFFRQALQRDRLALCHWLFAGKLALEDVEEFVPLFEAGVLAPPRWLPPWAGRASGLAGMLAFSLFTDRLRHPHP				NA	NA	NA	NA	NA
BMS020_06970	3066			hypothetical protein	ATGCCGGCGCTGCTCCTGCTCGCCGGGGCGCTGCTCGCCGGGCACGGCCTGGCGGCCTCGCCGCCGCTGCTCAGCCTGGAGACCTACGGGCTCGACGAGGGCCTGTCGCAGCTGTCGGTGACGGCGATGGCCAGCGACGACCAGGGCTTCCTGTGGGTGGCCACGCAGGAGGGCCTGAACCGCTTCGACGGGCACCGGTTCCGCACCTACCGCAGCGGGGCCGCCGGCACGCAGGACCCGTACACGCTGCTCAGCAGCAGCGTCGACAGCCTCGCCTTCGAACCTTCCGCCACGCGCCTGTGGCTGGGCAGCAACGACGCCGGACTGGAAGTGATCGCGCTGCGCGACTGGCATCACCAGCGCATCGGGGTCGCGCAGGGCCTGTCGGATTCGCGCGTCGGCGCGATCCTGCTCGACCCGGCCGGCGGCGCCTGGCTGGGCACCGGCGCCGGCGTCGACCACGTCGATGCAACGCTGCGCACGGTACGCCGGCTCGGCGCCAGCGCGGCAGTGGTCGGGCTGGCGATGCCGAACGGGCAATCGCAGCGGCCGCTGGCGCTGGATGAGCAATGCCAGCTGGCCCGCGTCGATGCCGATGCGCTGCAAGCGCTGCCCGGGTTCGGCGCGCACGCCTGCCTGGCGCTGCAGGCCGGGCCGGAAGGCCTGTGGGTGCTGGCCGCCGATGCCGGGCTGTTCCTGCTGGACCCGCACGGCGCGGTCCGCGGCCACTGGGATCGCGGCGCGCTCGGGGTCGGTGCGGCGCCAAGCGCGCTGGCGCGCCTGGATGACGGCCGGCTGCTGCTGGGCTTCGACAACGGCCAGGTGCTGGTGCGGCAGCGCGATGGGCGGCTGCAGCCGCTGCGCTTCGAGCAACCGCTCGACAGCGCGATCACTGCCTTCCACCAGGACGCCGCCGGCGGCTGGTGGGTCGGGACCTACACCTCCGGACTGGCACGGGTACGGCCGCTGGTCGCGGTGATTCCCGGCGATGCGCTGGACAGCGGCACGATGGCCGGCTGGCCGAACCACAGTGTGCGGGCGATCTGGAAGGACGCGCAGACCGCGCTACTGGGCACCGACAGCGGGCTGATGCGCCGCGACGCGCACCAGCCCTGGCAGCCGGTCGCGGCGCTGCGCGGCCTGTCGGTGCGGGCGATCCGCCGCGATGGCGAGGGTTGGTGGATCGGCACGATGGACGGGCTGTTCCGACTCGACGCCGTCGGCCGCGCGCAACGCATCGCGGGCCTGCCCGATCCGCGCATCAGCGACCTGCTGGTCGACGGCGACACGCTGTGGGTCGCCACCCGCGGCGGGCTGGCGCGCCTGCATGCCGGCAGCGTCGTCGCCGAGCCGCGCGCGGCGCCGCTGGCCGGCACGCTGGTCACCAGCCTGTTCCGCGACGACGACGGCACGCTGTGGATCGGCACCAACGCCGCCGGGCTGTGGCGGCTGCCGGCCGCGGACACCGCGCACCCGGTGCACCCCGGCGGCGCCGGCATGCACACCTCGGTCTGGGCGATCCATGGCGATGCGCAGGCGCTGTGGCTGGGCACCTTTTCCGGCGGTCTGTACCGGCTCGACCGGCGCAGCGGCGACAGCCAGCAACTCACCGACCGCGACGGCCTGGCCAACAACGTGGTCTACCGCATCCAGGCCGACGCGACCGGGCGCCTGTGGCTGAGCACCAACAACGGCATCGGTGTCTACGACCCCGGCAGCGGCATCAACCAGCGCCTCGGTCGCCGCGATGGACTGCGCAACCGGGAGTACAACAGCGGCGCCAGCTACGCCGATGGCGACGGCCGGCTGTACTTCGGCGGCACCCAGGGGCTGGACGCGCTGGTGCCGGCGGCGCTGCCGCGGCGCAGTGCGCCGGCGCGCCCGGTGCTGACCGCCGCGCAGGTGGTCGATCACGCCCGCAATGCCGGCCTGCCCAACGACATCGTCTACGCCGACGCGATCGCGCTGCCGAGCGAGGACAGCGTGCTGACCCTGGACATGACCGCGATCGACTTCCTCGCCCCCAGCGCGGCGCGGCTGCGCTACCGGGTGCAGGGACTGCATACGGACTGGATCTATCCGCTGCAGGCGCGCCAGGAAATCTCGCTGAACCACCTGCCCGCCGGCCACTACCGGCTGGAGGTGGCGGCCGCCGGCCGCGATGGCCGCTTCGGCCCCGCGCGCGTGCTGCGGATCGACGTGCCGCCGCCGCTGTGGCGGCATCCGCTGGCCTACGCGCTGTACGCGCTCGCGCTGCTGCTGACCGCGGCGCTTGTGGCCGCGCGCGTCCGCCACGCGATGCGACGCGAGCGCGAGCAGGTGGAACTGCTCAACCGCACCGTCACCGAACGCACCGCGCAGCTGCGCACCGCCAACGAACAGCTGCTGCGCAGCAACGCCCGGCTCGACCTGGCCACCCGCACCGACCCGCTCACCCAGGTCGCCAACCGGCGCGAGCTGCAGCACTGGCTGGGGCACGCCGGGCCGCAGCTGCTCGCGCAACGCAGCGGCAGCGCCGCGACGCACGACCTGCTGTTCTTCTTCATGGTCGACATCGACAACTTCAAGCGCATCAACGACGGCCACGGCCACCAGACCGGCGACCAGGTGCTGGTCGCCTTCGCCGGCCGGCTGCGCGCGCTGTGCCGCGAACACGACCTGCTGGTGCGCTGGGGCGGCGAGGAATTCCTGCTGGTGGCGCGACTGGCGCACGAGCGCGCCGCCGCCAGCCTGGCCGAACGCATCCGCCGCAGCGTCTGCGGCGATCCGGTGCAGCTGGACGACGGCGACACGCTGCCGGTCACCTGCTCGATCGGCTTCGCCCCCTGGCCGCTGTCGCCGCGCTGGCCCGCACTGGGCGACTGGGAGCAGAGCACCGCGCTCGCCGACCGCTGCCTGTACGCGGCCAAGGGCGCCGGCAAGAACGCCTGGGTCGGGCTGGTGCTGCAGCCGGCGCACGACCGCCTGGCGGTACAGGCGCTGCTTGCCGGCGAGGATCCGCTCGCACTCGGCGACGGCGTGGCCTGCCTGCATTCGACCACCGACGCGCCGCATTTCGACCACTGA	MPALLLLAGALLAGHGLAASPPLLSLETYGLDEGLSQLSVTAMASDDQGFLWVATQEGLNRFDGHRFRTYRSGAAGTQDPYTLLSSSVDSLAFEPSATRLWLGSNDAGLEVIALRDWHHQRIGVAQGLSDSRVGAILLDPAGGAWLGTGAGVDHVDATLRTVRRLGASAAVVGLAMPNGQSQRPLALDEQCQLARVDADALQALPGFGAHACLALQAGPEGLWVLAADAGLFLLDPHGAVRGHWDRGALGVGAAPSALARLDDGRLLLGFDNGQVLVRQRDGRLQPLRFEQPLDSAITAFHQDAAGGWWVGTYTSGLARVRPLVAVIPGDALDSGTMAGWPNHSVRAIWKDAQTALLGTDSGLMRRDAHQPWQPVAALRGLSVRAIRRDGEGWWIGTMDGLFRLDAVGRAQRIAGLPDPRISDLLVDGDTLWVATRGGLARLHAGSVVAEPRAAPLAGTLVTSLFRDDDGTLWIGTNAAGLWRLPAADTAHPVHPGGAGMHTSVWAIHGDAQALWLGTFSGGLYRLDRRSGDSQQLTDRDGLANNVVYRIQADATGRLWLSTNNGIGVYDPGSGINQRLGRRDGLRNREYNSGASYADGDGRLYFGGTQGLDALVPAALPRRSAPARPVLTAAQVVDHARNAGLPNDIVYADAIALPSEDSVLTLDMTAIDFLAPSAARLRYRVQGLHTDWIYPLQARQEISLNHLPAGHYRLEVAAAGRDGRFGPARVLRIDVPPPLWRHPLAYALYALALLLTAALVAARVRHAMRREREQVELLNRTVTERTAQLRTANEQLLRSNARLDLATRTDPLTQVANRRELQHWLGHAGPQLLAQRSGSAATHDLLFFFMVDIDNFKRINDGHGHQTGDQVLVAFAGRLRALCREHDLLVRWGGEEFLLVARLAHERAAASLAERIRRSVCGDPVQLDDGDTLPVTCSIGFAPWPLSPRWPALGDWEQSTALADRCLYAAKGAGKNAWVGLVLQPAHDRLAVQALLAGEDPLALGDGVACLHSTTDAPHFDH				NA	NA	NA	NA	NA
BMS020_06971	639	degU_3	COG2197	Transcriptional regulatory protein DegU	ATGCCTGACGCCTGCCTGATCGTCGCCGACGACCATCCGCTGTTCCGCGCCGCGGTGATCCACGTGCTGCGCGGGACCTTGCCCGACGTCGCGGTGGTCGAAGCCTCCAGCGCCGCCACGCTCGGCGCCGCGCTGGATGCATGGCCGCAGGCCGAGCTGGTGCTGCTGGACCTGGCGATGCCGGGCGCGCGCGGCTTCTCGGCGCTGCTGCACGTGCGCGGCGAGCATCCGGACATTCCGGTGGTGGTGATCTCCTCCAACGACCATCCGCGGGTGATCCGCCGTGCGCAGCAGTTCGGCGCTGCGGGCTTCATCCCGAAATCGGCGCCGGCCGAGCAGATCGGGACCGCGGTGGCGACGGTGCTCGACGGTGGCAGCTGGTTTCCACCGATGACCGCCGAGCGCTCCGAGGCCGACGCGCAGCTCGCGGCGCGGCTGGCGCAGCTGACCCCGCAGCAGTTCCGTGTGCTGCTGTGCCTGGCCGACGGCCTGCTCAACAAGCAGATCGCGCACGAGCTGGGCCTGGCCGAGAACACCGTCAAGGTGCACGTCACCGCGATCCTGAAGAAGCTCGACTGCTACAGCCGCACCCAGGCCGCGGTGCTGGTGAAGGGCCTGGAGCCGGAAGGCGAGGGCTGA	MPDACLIVADDHPLFRAAVIHVLRGTLPDVAVVEASSAATLGAALDAWPQAELVLLDLAMPGARGFSALLHVRGEHPDIPVVVISSNDHPRVIRRAQQFGAAGFIPKSAPAEQIGTAVATVLDGGSWFPPMTAERSEADAQLAARLAQLTPQQFRVLLCLADGLLNKQIAHELGLAENTVKVHVTAILKKLDCYSRTQAAVLVKGLEPEGEG				NA	NA	NA	NA	NA
BMS020_06972	2646	rcsC_18		Sensor histidine kinase RcsC	ATGCAAGCCCTCCGCAAACGCAACCTGCTGCTGACCCTGCTGGTCGTGCTCGGCGGCATGGTACTGGCGATGTTCGCCGCCGACCGGGTCTTCGAGCACCGCGCGCTGCAGGACGAAAGCGCCAGCGTGCGCCGCCAGCTCGACCTGTACGCGCAGGCGCTGCAGCAGCGCGTGGACCGCTACCGCACCCTTCCGCAGATCCTGGCGCTCGATCCCGAGCTGCGCGAGGCGGTATCGCGCCCGCTGGACGGCGCCGACGTCACCCGCCTCAACCTCAAGCTGGAACGCGCCAACGCCGTCACCCAGTCCTCGACCCTGACCCTGATCGATGCCCGCGGCATCGCCCTGGCCGCCAGCAACTGGCGCGAGCCGCGCAGCAACGTCGGCGTCGACTACAGCTTCCGCCCCTACGTGCAGCAGGCGCTGCGACAGGGCCGCGGGCACTTCTACGGCATCGGCATGACCACCGGCGAGCCGGGCTATTTCCTGTCGCAGTCGATTGTCGCCGAGGACGGCCGCGTGCTCGGGGTCATCGCGATCAAGATCGGCCTGGCCGCGCTGGAGCGCGAGTGGCTGCAGACCCCGGATATCGTGCTGGCCTCGGACCGCCACGGCGTGGTGTTCCTGGCCAGCAACGCGGCCTGGCGCTACCGGCTGCTGGCGGCACCGACGCCGCGCGACCTGCGCGAGATGCAGGTGACCCGCCAGTACGCCGACGAGGTGCTGCAGCCGCTGCGCTACCGGATCGACCGTCCGGTCGACGGTGGCGGCCGGCTGGCGCGCTTCGACGATCCGGAACTGGCCGGACGCACGCTGTGGCAGACCGTGGAACTGGTCGATACCGGCTGGCGCCTGCACCTGCTGCACGACACCCGCAGCAGCGCCGCGGCGGGCCGCTCGGCGGCGCTGGCCGCGGCCGGGCTGTGGCTGGCGGTGGCGCTGCTGGTGCTGTTCGTGCAGCAGCGCCGCCGGCTCGGCGCGCTGCGCCAGCGCAGCCGCCAGGAACTGGAGGCGGTGCTGCAGCAGCACGCACAGGAGCTGCGCACCGCCCAGGACGGCATCGTGCAGGCCGCGCAGCAGGCCGACACCGGCCTCAGCCGCAGCCTGGAGCACCTGCCGCAGGGCGTGGTGATCATCGACGCCGACCTCAACCTGGTGGCGTGGAACTCGCGCTACGTCGAGCTGTTCCGCTTCCCGCCGGAACTGCTGCGGATCGGCCGCCCGATCGAGGATCTGTTCCGCTACAACGCGCGCCGCGGCCTGCTCGGCCCCGGACCGATCGAGGAGGCGATCCAGCGCCGGCTCAACCACCTGCGCAGCGGCAAGCCGCACATGCGCGAGAGCGAGAAGGACGACGGCACCGTGCTGGAGATCCGCGGCAACCCGCTGCCGGATGGCGGTTTCGTCACCAGCTACGCCGACATCACCAGCTACAAGAACGCCGCGCGCGAACTGCGCTCGCTGGCCGACGCGCTGGAGCATCGCGTCGAGGAGCGCACCCGCGACCTCGACCAGGCGCGCCAGGACGCGGAGAACGCCAACCGCTACAAGACCCGCTTCGTCGCCGCCGCGGTGCACGACCTGCTGCAGCCGCTCAACGCCGCGCGCATGTTCGTCTCGGCGCTGCGCGGGCACCTGCGCGACGACGACGAGCGCCAGGTCGCCGACAACATCGACAGTGCGCTGAGCGCGCAGGACGCGATCCTCAACAGCCTGCTGGACATCTCGCGGATGGAATCGGGCCAGCTGCAGACCCGAGTGCGCGACTTCCGCCTGCAACCGCTGCTGGATGCGCTGCTGCGCGAGTTCGGCATCATCGCCGAGAGCCGCGGGCTGGTGCTGGAAGGCGTGGCCACCGCCGCGGTGGTGCGCAGCGACGAGGTGCTGCTGCGGCGCATCCTGCAGAACTTCCTCTCCAACGCGATCCGCTACACCCCGCGTGGCCGGCTGCTGCTGGGGTGCCGCCGCGAAGGCGCGGCGCTGCGCATCGAGGTCCACGACCAGGGCCCGGGCATCGCCGACAGCCTGCAGCGCGAGATCTTCGAGGAATTCCGCCGGCTCGACGACGCCCGCGGCGACGATCGTGGCGCCGGCCTCGGGCTGGCGATCGTCGAGCGCATCGGCCGCCTGCTCGGCCACCCGATCCGGCTGCGATCGCAGCTCGGCCGCGGCAGCGTGTTCTCGGTCGCGGTGCCGTTCGGCGATCCGGCGCTGGTCGACGACGGCGCCACCGGCGGCACGCTGGTCGATGCCGGCGGCGATTTGCCGCTGGCCGGCTGCCGCGCCTGGTGCGTGGACGACGATCCGCGCGTCAGCGAGGCTACCCGCGCACTGCTGGAGCGCTGGGGCTGCCAGGTCGAGCACGCTGGCGGGCCGCAGGAGGCGCTGGAACGGGCCATGCCCGGCAACGCACCGCAGATCGTGCTGCTGGACGTGCGCATGGGCGCGCTGGAGGGGCCGCGGGTGTTCGAGCAGCTGCGCCAGCGCTGGCAGGCCAGCCCGGCGGTGGTGCTGGTCACCGCCGAGCGCGACGAGCGCCTGCGCGGCGACGCCCTGGAACGCGGCTGGGGCTTCCTCGCCAAGCCGGTCCGCCCGGCCGCACTGCGCGCGCTGATGAGCCAGCTGCTGTTGCGGCATCCGGGCTGA	MQALRKRNLLLTLLVVLGGMVLAMFAADRVFEHRALQDESASVRRQLDLYAQALQQRVDRYRTLPQILALDPELREAVSRPLDGADVTRLNLKLERANAVTQSSTLTLIDARGIALAASNWREPRSNVGVDYSFRPYVQQALRQGRGHFYGIGMTTGEPGYFLSQSIVAEDGRVLGVIAIKIGLAALEREWLQTPDIVLASDRHGVVFLASNAAWRYRLLAAPTPRDLREMQVTRQYADEVLQPLRYRIDRPVDGGGRLARFDDPELAGRTLWQTVELVDTGWRLHLLHDTRSSAAAGRSAALAAAGLWLAVALLVLFVQQRRRLGALRQRSRQELEAVLQQHAQELRTAQDGIVQAAQQADTGLSRSLEHLPQGVVIIDADLNLVAWNSRYVELFRFPPELLRIGRPIEDLFRYNARRGLLGPGPIEEAIQRRLNHLRSGKPHMRESEKDDGTVLEIRGNPLPDGGFVTSYADITSYKNAARELRSLADALEHRVEERTRDLDQARQDAENANRYKTRFVAAAVHDLLQPLNAARMFVSALRGHLRDDDERQVADNIDSALSAQDAILNSLLDISRMESGQLQTRVRDFRLQPLLDALLREFGIIAESRGLVLEGVATAAVVRSDEVLLRRILQNFLSNAIRYTPRGRLLLGCRREGAALRIEVHDQGPGIADSLQREIFEEFRRLDDARGDDRGAGLGLAIVERIGRLLGHPIRLRSQLGRGSVFSVAVPFGDPALVDDGATGGTLVDAGGDLPLAGCRAWCVDDDPRVSEATRALLERWGCQVEHAGGPQEALERAMPGNAPQIVLLDVRMGALEGPRVFEQLRQRWQASPAVVLVTAERDERLRGDALERGWGFLAKPVRPAALRALMSQLLLRHPG				NA	NA	NA	NA	NA
BMS020_06973	1167	oprP_1	COG3746	Porin P	ATGCGCCATACCGCCCTCCTCACCGCCATGCTGCTGGCCGCCCCGCTGGCCGCCTCCGCCGCGGACTTCGACAACTGGCCGACCAAGTACGCCTTCAACGATGGCACCGAGGTCGCCCTCACCGGCAACTTCGCCTACGACTACAACGACTTCTCCGGCAACGACAGCCTGGAGGACAAGGACTTCATGCGCCGCAAGGAATTCGGCGCCACCGTGAAGAAGAAGGGCGTCTACGACGCGATGGTGTACTTCGACTTCCAGTCGCACACCTGGCTGGACGTGTTCTTCCGCTTCGAGACCAAGGCCCTGCTCGGCAAGGACTACGGCCGCGTCCGCCTGGGCTACATGAAGACCCCGGTCGGCCTGGACGCGGTGACCAGTTCGCGCGCCGGCAGCTTCCTGGAAGTCGGCCTGCCGACCCAGGCGATCTACGAAGGCCGCCGCACCGGCGTGGAATGGGTGCTCGAGCGTCCGCAGTACCTGCTGCAGGCCGGCGCCTACGGCGGCAAGGACCTGCAGGGTGACAACCCCGGCACCACCCAGGCGGTGCGTGCGGTGTGGACCCCGTGGAAGGCCCCGGGCGACGTGCTGCACCTGGGCGTGGCCGCCTCGGTGGAGAACCCGCGCGGCTACCACAACGGCCTGGACGTCAGCTTCCCGGCCAGCGCCCGCGTGCGTGCGCGTCCGGAAGCCGGCCTGACCGACGTGCGCCTGGTCGATTCGGGCACGCTGCGCTACGTCGACCAGATCCAGCGCATCGGCCTGGAGGAAATCTGGATCCACGGCCCGTGGTCGATCCAGGCCGAGGCGCTGCAGATGAAGGTCACCCGTGACGACGGCCTGGCCGACTACACCGCCGACGGCGGCTACATCTACGGCAGCTGGATCGTCACCGGCGAGTCGCGCCCGTACGCAGGCGGCGCGGTGGCCAACGTCAAGCCGGCCCACGACTACGGCGCGGTGGAACTGCTGGCCCGCTACAGCACGCTGGACCTCAACGACGCCGGCATCCAGGGCGGCAAGCAGGATGCCTGGACGCTGGGTGCCAACTGGTACCTGACCAGCCACTTCAAGTTCCAGGCCAACTACGTCAAGGCCGACGTCAAGCGCGCAGGCGTGCACACCAAGCCCGACATCGTCGAGCTGCGCGCCCAGGTCATGTTCTGA	MRHTALLTAMLLAAPLAASAADFDNWPTKYAFNDGTEVALTGNFAYDYNDFSGNDSLEDKDFMRRKEFGATVKKKGVYDAMVYFDFQSHTWLDVFFRFETKALLGKDYGRVRLGYMKTPVGLDAVTSSRAGSFLEVGLPTQAIYEGRRTGVEWVLERPQYLLQAGAYGGKDLQGDNPGTTQAVRAVWTPWKAPGDVLHLGVAASVENPRGYHNGLDVSFPASARVRARPEAGLTDVRLVDSGTLRYVDQIQRIGLEEIWIHGPWSIQAEALQMKVTRDDGLADYTADGGYIYGSWIVTGESRPYAGGAVANVKPAHDYGAVELLARYSTLDLNDAGIQGGKQDAWTLGANWYLTSHFKFQANYVKADVKRAGVHTKPDIVELRAQVMF	PGPT0002640_807	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPHATE_TRANSPORT,PGPT0002640-oprO-K07221	NA	NA
BMS020_06974	1326	dctA_4		C4-dicarboxylate transport protein	ATGCACGTCAGCACTCCCGCCAGTCCCAGCACGGCCCATGTGCCGTTCTACCGTCAGCTGTACTTCCAGGTGATCGTGGCGATCACCCTGGGCGTGCTGCTGGGCCACTTCGAACCGTCGGTGGGCGAATCGCTCAAGCCGCTGGGCGACGCCTTCGTCAAGCTGGTGAAGATGATCATCGGCCCGGTGATCTTCCTGACCATCGTCACCGGCATCGCCGGCATGACCCACCTCAAGAGCGTGGGCCGGGTGTTCGGCAAGTCGATGCTGTACTTCCTGTTCTTCTCCACGCTGGCGCTGGTGGTCGGCATGGTCGTGGCGCACGTGGTGCAGCCCGGCGCCGGCATGAACGTCAATGTCGCCGACCTGGACCACACCAAGGTCGACGAGTACGTGTCCAAGACCCACGACATGACCGTCACCGGGTTCCTGATGGACATCATCCCGAAGACGCTGATCAGCCCGTTTGTCGGCGACAACATCCTGCAGGTGCTGTTCGTCGCGGTGCTGTTCGGCATCGCCCTGGCGATGGTCGGCGAGCGCGGCAAGCCGGTGCTGGACTTCCTCAACGCGCTGACCGCGCCGGTGTTCCGCCTGGTGCACATCCTGATGCGCGCCGCGCCGATCGGTGCGTTCGGCGCGATGGCCTTCACCATCGGCAAGTACGGCCTGGAAGTGCTGACCAACCTGGCCTGGCTGGTCGGCAGCTTCTACATCACCTCGCTGCTGTTCGTGCTGGTGATCCTGGGCCTGGTCTGCCGCCTGTGCGGGTTCTCGGTGCTGAAGCTGATCCGCTACCTGAAGGCCGAACTGCTGCTGGTGCTGGGTACCTCTTCGTCGGAGTCGGCGCTGCCGTCGCTGATGGAGAAGATGGAGCAGGCCGGCTGCAAGAAGTCGGTGGTGGGCCTGGTCGTGCCGACCGGCTACTCGTTCAACCTGGACGGCACCAACATCTACATGACCCTGGCGGCGCTGTTCATCGCCCAGGCCACCAATACCGAGCTGACGCTCGGCCACCAGATCACCCTGCTGCTGGTGGCGATGCTCAGCTCCAAGGGTGCCGCCGGCGTCACCGGCGCCGGCTTCATCACCCTGGCCGCCACGCTGTCGGTGGTGCCGGAAGTGCCGGTCGCCGGCATGGCGCTGATCCTCGGCGTGGACCGCTTCATGTCCGAGTGCCGCTCGCTGACCAACTTCGTCGGCAACGCGGTCGCCACCGTGGTGGTGTCGCGCTGGGAGAACGCGCTGGACCGCGACCAGCTGCGCCGCGTGCTCGATGGTGGTGAGCCGGCCGCGCTGGCCGAGCCGGTCGCCGCCTCCAACTGA	MHVSTPASPSTAHVPFYRQLYFQVIVAITLGVLLGHFEPSVGESLKPLGDAFVKLVKMIIGPVIFLTIVTGIAGMTHLKSVGRVFGKSMLYFLFFSTLALVVGMVVAHVVQPGAGMNVNVADLDHTKVDEYVSKTHDMTVTGFLMDIIPKTLISPFVGDNILQVLFVAVLFGIALAMVGERGKPVLDFLNALTAPVFRLVHILMRAAPIGAFGAMAFTIGKYGLEVLTNLAWLVGSFYITSLLFVLVILGLVCRLCGFSVLKLIRYLKAELLLVLGTSSSESALPSLMEKMEQAGCKKSVVGLVVPTGYSFNLDGTNIYMTLAALFIAQATNTELTLGHQITLLLVAMLSSKGAAGVTGAGFITLAATLSVVPEVPVAGMALILGVDRFMSECRSLTNFVGNAVATVVVSRWENALDRDQLRRVLDGGEPAALAEPVAASN	PGPT0001450_797	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0001450-dctA-K11103	NA	NA
BMS020_06975	2298	maeB_3	COG0280	NADP-dependent malic enzyme	ATGTCCAACGAAGAATTCAAGCAGGCCGCCCTCGACTACCACCGCCAGCAGCCGGCCGGCAAGATCAAGGTCACCGCGACCAAGCCGATGCTGACCCAGCGCGACCTGGCCCTGGCGTATTCGCCGGGCGTGGCCTTCGCCTGTGAAGCCATCGCCGCCGATCCCACCCAGGCCAGCACGCTGACCGCACGCGGCAACCTGGTGGCGGTGATCTCCAACGGCACCGCGGTGCTGGGTCTGGGCAACATCGGCCCGCTGGCCGGCAAGCCGGTGATGGAAGGCAAGGGCGTGCTGTTCCAGAAGTTCGCCGGCATCGACGTGTTCGACATCGAGGTCGACGAGAATGACCCGGACAAGCTGGTCGACATCATCGCCTCGCTGGAGCCGACCTTCGGCGGCATCAACCTGGAAGACATCAAGGCGCCGGAATGCTTCATCGTCGAGCGCAAGCTGCGCGAGCGGATGAAGATCCCGGTGTTCCATGACGACCAGCACGGCACTGCGATCATCGTCGGCGCCGCGGTGCTCAACGCGATGGAGATCACCGGCAAGAAGATCGAGCAGATCAAGCTGGCCACCACCGGCATGGGCGCGGCCGGCATCTCCTGCGTGAACATGCTGGTGGCGCTGGGCCTGAAGCCAGAGAACATCCTGGCCTTCGACCGCGACGGCGTGATCCACACCGGGCGCACCGACCTCGACAGCGAGAAGGCGCGCTATGCCCGCGACACCGACAAGCGCACGCTGGCCGAGATCGTCGACGGCGCCGACATCTTCCTGGGCCTGTCCGCACCGGGCATCCTGACCCCGGAGATGGTCAAGACGATGGCGCCGAACCCGGTGATCTTCGCGCTGGCCAACCCGACCCCGGAGATCATGCCGGAAGCGGCGCGCGCCGCGCGCAGCGACGCGATCATCGGCACCGGCCGGTCGGACTACCCGAACCAGATCAACAACGTGCTGTGCTTCCCGTACCTGTTCCGCGGCGCGCTGGATGTCGGCGCGACCACGATCAACGAGGAGATGAAGATCGCCTGCGTCAAGGCGATCGCGGCGATGGCGCGGCGCGAGGCCTCCGACCTCGGTGCGGCCTACGGCGGCGAGACCCCGAGCTTCGGCCCCGAGTACCTGATCCCGCGTCCGCTCGACCCGCGTCTGCTGGTGGAGCTGTCCTCGGCGGTGGCGCAGGCGGCGATGGATTCTGGCGTGGCCACGCGCCCGATCGCCGACATGGCGGCCTACCGCGACACCCTGAGCCAGTTCGTCTACCGCACCAGCCTGATGATGAAGCCGGTCTACGACCGCGCGCGCAGCGACAAGCAGCGCGTGGTCTACGCCGAGGGCGAGGAGGAGGTGATCCTGCGCGCGGTGCAGAACGTGGTCGACGAAGGCCTGGCGTTCCCGATCCTGATCGGCCGCCCGGAGGTGATCGACGCGCGCATCCAGCGCATGGGCCTGCGCCTGACCGCCGGCGTGGATTTCGAAGTCACCAACATCCACGACGACCCGCGCTTCAACGACTACTGGCAGTACTACCACGCGCTGACCGAGCGCAAGGGCGTCACCGTCAGCGCCGCCAAGGAACTGATGCGTTCGCGTCCGACCCTGATCGCCGCGGTGATGGTCGCGCGCGGCGAAGCCGACGCGATGCTGTCCGGCGTGGTCGGCCGCTTCCACAAGAAGCTCGGCTACGCGCGCAGCGTGATCCCGCTGGAACCGCGCGTCAGCTCGACCTCGGCGATGACCGGCGTGATCAACCAGCAGGGCGCGTTCTTCTTCCTCGACACCCACGTGCAGGAAGACCCGACCGCCGAACAGATCGCCGAGGCCACGCTGCAGGCGGCCTACCGCCTGAAGCTGTTCGGCATCGAGCCGAACATCGCGCTGCTGTCGCACAGCAATTTCGGCAGCCACGATTCGCGCGATGCGGTGAAGATGCGCCAGGTGCGCGAGCTGCTGCTCAAGCGCAACCCCAAGCTCAACATCGACGGCGAAATGCAGGGCGACACCGCCTGGGACGAAGCGCTGCGCAAGCAGATCATGCCCAACAGCACGCTGAAGGGCCGCGCCAACCTGTTCGTGCTGCCGAACCTGGAAGCGGCCAACATCGCCTACAACCTGGTGCGCGTGTTCACCGACGGCGTGGCGATCGGCCCGATCCTGATGGGCATCTCCAAGCCGGTGCACATCCTGACCAGCAGCGCGACCTCGCGCCGGGTGATGAACATGACCGCGATCGCCGCGGTGGATGCGCAGATCCGCAAGCAGCTGGCCGGCGAGGACAGCGCCGCCGGCTGA	MSNEEFKQAALDYHRQQPAGKIKVTATKPMLTQRDLALAYSPGVAFACEAIAADPTQASTLTARGNLVAVISNGTAVLGLGNIGPLAGKPVMEGKGVLFQKFAGIDVFDIEVDENDPDKLVDIIASLEPTFGGINLEDIKAPECFIVERKLRERMKIPVFHDDQHGTAIIVGAAVLNAMEITGKKIEQIKLATTGMGAAGISCVNMLVALGLKPENILAFDRDGVIHTGRTDLDSEKARYARDTDKRTLAEIVDGADIFLGLSAPGILTPEMVKTMAPNPVIFALANPTPEIMPEAARAARSDAIIGTGRSDYPNQINNVLCFPYLFRGALDVGATTINEEMKIACVKAIAAMARREASDLGAAYGGETPSFGPEYLIPRPLDPRLLVELSSAVAQAAMDSGVATRPIADMAAYRDTLSQFVYRTSLMMKPVYDRARSDKQRVVYAEGEEEVILRAVQNVVDEGLAFPILIGRPEVIDARIQRMGLRLTAGVDFEVTNIHDDPRFNDYWQYYHALTERKGVTVSAAKELMRSRPTLIAAVMVARGEADAMLSGVVGRFHKKLGYARSVIPLEPRVSSTSAMTGVINQQGAFFFLDTHVQEDPTAEQIAEATLQAAYRLKLFGIEPNIALLSHSNFGSHDSRDAVKMRQVRELLLKRNPKLNIDGEMQGDTAWDEALRKQIMPNSTLKGRANLFVLPNLEAANIAYNLVRVFTDGVAIGPILMGISKPVHILTSSATSRRVMNMTAIAAVDAQIRKQLAGEDSAAG	PGPT0001685_1063	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001685-maeB-K00029	NA	NA
BMS020_06976	861			hypothetical protein	ATGCGATCGATGTTGCGCCTGCTGCTGTGCCTGCCCCTGTTCGCCCTGCTGGCTGCCTGCGCCGGCCACGCACCCAGCGAGCGGCTCCCGCTGCGGGTGATGAGCTTCAACGTCCGCTATTCCGAAGGCCAGGACGACCTCAACGCGTGGCCCAACCGCCGCGATCTGGCGGTCAAGACGATCCTCGACCGCCGCCCGGCGCTGCTCGGCACCCAGGAACTGCTGCTGCCGCAGGCCGAGTATTTCGCCGCGCACCTGGACGGCTATGTCTGGTTCGGCCGCGGCCGCAACGGCAACGAGTTGGATGTGAACGACAACGAGCACATGGGCGTGTTCTACGACACCCATCGATTGAAGCTGCTCGACTCGGGCGACTTCTGGTTGTCGGAGACGCCGGAGGTGCCGGGCAGCAGCAACTTCGGCCAGTCGATGCCGCGCATGGTGACCTGGGGCTATTTCCAGGACCGGCGCAGCGGCAAGCGCTTCCACTACTTCAACACCCACTTCCCGCACATGGCCGAGGCCGAGCCGATCCGCGAACGCTGCGCGGCGCTGATCCGCAGCCGCTTCGAGCAACTGCCGGCGGATGAGCCGTTCATCCTCACCGGCGATTTCAACACCACGCCCGACCTCGCCGCGCACGCCTACCTGACCACCACGCTGCAGGACGCGCGCGAACAGGCACCGGTCAAGATCGGGCCGGACAACACCTTCCACGATTTCGGCAAACCGCCGAGCAAGCGCATCGACTGGATCCTCTACCGCGGCCTGGGCATCAGCCGGGTCGAGACCGTCACCGACCACGCCGGCGCGGTCTATCCGTCGGACCACTATCCGGTCGTGGCCGACTTCGTGCTGTAA	MRSMLRLLLCLPLFALLAACAGHAPSERLPLRVMSFNVRYSEGQDDLNAWPNRRDLAVKTILDRRPALLGTQELLLPQAEYFAAHLDGYVWFGRGRNGNELDVNDNEHMGVFYDTHRLKLLDSGDFWLSETPEVPGSSNFGQSMPRMVTWGYFQDRRSGKRFHYFNTHFPHMAEAEPIRERCAALIRSRFEQLPADEPFILTGDFNTTPDLAAHAYLTTTLQDAREQAPVKIGPDNTFHDFGKPPSKRIDWILYRGLGISRVETVTDHAGAVYPSDHYPVVADFVL				NA	NA	NA	NA	NA
BMS020_06977	2748			hypothetical protein	ATGTCCCTGATGCCCCCGATGCAACGCGGCGCGTGCCGCGTGTCGCCGTTCGTCGATTGCACTGCTGCCCTCCCGCACCGCGCCGCCGGCGCACATCCACCTCGGCACCGCCACGCGGTGCTGTGCGACGCGCTCACCGTGGCCCTGCTGCTGGCACTCAGCCAGGCCGCGCACGCGGCTGACGATGCACACGCCGCCGCGCCGGCGAGCGACGCGCGCACGCTCGATGCGGTCTCGGTGACCGCCTCGGCGTTGTCCACCAAGGACGCGGTGGCCAGCAAGCGCAGCGCGGCGGTGGCGGTCGATTCGCTGGATGCGCAGGCGATCCAGGTGCATTCGCAGGAAGATTCGATCGCGCAGAAACTGCTCACCGCCCCGGGCCTCAGCCTGATGCGCGACGAGGACCAGCCGCGCTACATCACCGCGCGCGGCGTGCAGGCCAACTACAACATGACCACGCTCGACGGCATCACCATGGGCTCGGTCGGCGACGAAGGAGGCGGCGAGCGCAAGATCAACCTGCAGCTGATCCCGAACGACCTCGCCGACCGCATCGACATCTACAAGAGCTTCTCGGCCGAGCAGAACCCGGACAGCATCGGTGCGGCGATCAGCCTGATCAGCGGCAGCGCGTTCGACCATCCGCGCAACACGCTGCACCTCGACGCCAGCGCCAACTACCACGACCTTGGCAACGACGACGGCCGCAATGCGCTGCCGAACACCCGCTCGCGCTGGGGCAACGGCTTCAACGGTACGTATTCCACCACCTTCGGCACCGAGCAGCAGTTCGGCCTCACCCTGTCGGCACGCCGGCAGGAATTCCAGACCTCGCAGAACAAGCTCTTCCAGAGCACCACCGCGTTCTACAACGACGCCGGCGGCTACATCTCCGGGCCGACCAGTGCAGGCTGGAACGGCTTGCACGCGCCGTACAACGTCGCCTACTACAACGACAACCGCTGGATCGAAAGCGACGGCGGCAGCGCCAAGTTCGAGTGGTGGCCGGACAACGGCGCGTTGCGCGCCTCGCTGCTGGCCTACCAGTACGACATGGAGGAGCAGCGCACCGAGAACGGCTACGAGATCATCAGCAACAAGACCATCGCCAACCAGACCGCGACCTCCGGCACCACCGGCATTGCCTCGATCAGCGACATCTACCAGAACAAGATCTGGAAGCGCGAGGCCAACGGGGTGATCGGCGCCCTGGAATGGCGCGGCGACCGCCAGTGGATGGCGCTGCGCGCAGGCGCCACCGGCGAGGAGGTCAACGTCGCGACCGACTCGATCCGCCTGACCGCCACGCCAACCGGAGCGACGATGGACTATGCGTCCTCCGGCCCGGGCGAGATCTTCAACATCACCTCGGTCTCGGACCCGTCGATGTTCTATTCCTCGCAGTACCTGCTCAACAGCGCCTCGCGCCAACGCCTGCACGCCACCGCCGACGTGACCGACCTGCGCTACGACTACGGCTTCAACATCGACGCCGATGCGCGCGGCTTCGGCCTGGCCGCCGGCGCCGAGCACCGCCGGCTGGACGTGGACAACGACAGCAACACCACCACCTACAGCGGCGGCCAGGACCTCAGCGACGACCTGTACGATCCCGGCTGGCGCTACCCCAAGGCGCGCTACAGCCTGCCGTTCTTCGACGACGCCAGCTTCCTCGCCGATGGCGGCTGGAGCACGCTGCCGGTCAACGCGACCAGCTCGCTCTACAACAGCCTGGCCTCCGACTTCCGCTACATCGAGGACGTCAACGACGCCTACCTGTCGGCCCACTACGCCACCGAGCGGCTGCTGGCCGTGCTTGGCGTCCGCTACGACGACACCAGCTTCGATGCACGCACCGCGACGGTGGACAGCGGCGTGGTCAGCGGCCGCACCGTCAAGCATGGCGGCTACAGCAAACTGCTGCCGTCCCTCAACCTGACCGTGCACGCCAGCGACGACATCAACGTGCGCTTCAGCGCCAGCAAGACGCTCGGCCGGCCGATCCCCTCCAACATCGCCCAGGCCGAATCGACCAGCTGCGATTCCGACAGCGGCGAATGCACCATCTCGCGCGGCAACCCCGACCTGCAGCCGCTGCAGTCGACCAACCTCGACCTGTCCGTGGAGAAGTACTTCGACGACAACCGCGGCTATGTCGCGCTGGCGCTGTTCGACAAGCAGATCAAGGACAACATCGTCAGCATCGCCACCGAGCAGCTCGAGGCCGATGGCAGCGTGACCACGATCACCACGCCGACCAACGTCGACGATTCCAAGGTGCGCGGCATCGAGTTCTCCTACGTGCAGCGCGAACTGGACCTGTTCGACCAGCGCTTCGACCTGCTGTTCAACGCCGCGCTGATGGACGGCCAGACCTCCTACACCAGCGGCGGCATCACCCGCACCGTCGACCAGCTGATCGGCCAGCCCAAGAAGATCGCCAACCTCGGCATCAGCTGGCACCTTCCGTTCCTGGACAGCACTCTGACCGTCACCGAGAACTACACCGGCAAGCACATCTTCACGATGGGCACCAATGAATGGGGCGATCGCGGGTTCCGTTCGCGCTACGTTACCGACGTGGCGTTGAACGTGCGCTTCAACGACCGCTGGTCCGCGGCGCTGAGCGCGGCCAACCTGTTCGGCGAAGACCAGTACCAGACCCTCGGCGACAGCTACCAGTACATGCGCAACCTCAACAACTACGGCGCCAGCTACGCGTTGCACGTCCGCTACGACTTGAACTGA	MSLMPPMQRGACRVSPFVDCTAALPHRAAGAHPPRHRHAVLCDALTVALLLALSQAAHAADDAHAAAPASDARTLDAVSVTASALSTKDAVASKRSAAVAVDSLDAQAIQVHSQEDSIAQKLLTAPGLSLMRDEDQPRYITARGVQANYNMTTLDGITMGSVGDEGGGERKINLQLIPNDLADRIDIYKSFSAEQNPDSIGAAISLISGSAFDHPRNTLHLDASANYHDLGNDDGRNALPNTRSRWGNGFNGTYSTTFGTEQQFGLTLSARRQEFQTSQNKLFQSTTAFYNDAGGYISGPTSAGWNGLHAPYNVAYYNDNRWIESDGGSAKFEWWPDNGALRASLLAYQYDMEEQRTENGYEIISNKTIANQTATSGTTGIASISDIYQNKIWKREANGVIGALEWRGDRQWMALRAGATGEEVNVATDSIRLTATPTGATMDYASSGPGEIFNITSVSDPSMFYSSQYLLNSASRQRLHATADVTDLRYDYGFNIDADARGFGLAAGAEHRRLDVDNDSNTTTYSGGQDLSDDLYDPGWRYPKARYSLPFFDDASFLADGGWSTLPVNATSSLYNSLASDFRYIEDVNDAYLSAHYATERLLAVLGVRYDDTSFDARTATVDSGVVSGRTVKHGGYSKLLPSLNLTVHASDDINVRFSASKTLGRPIPSNIAQAESTSCDSDSGECTISRGNPDLQPLQSTNLDLSVEKYFDDNRGYVALALFDKQIKDNIVSIATEQLEADGSVTTITTPTNVDDSKVRGIEFSYVQRELDLFDQRFDLLFNAALMDGQTSYTSGGITRTVDQLIGQPKKIANLGISWHLPFLDSTLTVTENYTGKHIFTMGTNEWGDRGFRSRYVTDVALNVRFNDRWSAALSAANLFGEDQYQTLGDSYQYMRNLNNYGASYALHVRYDLN				NA	NA	NA	NA	NA
BMS020_06978	3351			hypothetical protein	GTGACCGCCATTCCGTCGTTCCCCCGTGCCGTACTGGCGCTGGCCCTCGCCCTGCCCGCCGCGGCCGCCTGCGCGGCCGATGGTTTCTCCACCTCGTTCGAAGCCGGCCAGCCGCAGCCATCCGGCACCAGCGGCGCGCCGGCACTGGCCGTCGGTGATGGCCCGGCCGCGCCGTACGCCGCCAAACCGCAGGTCGGCTACAGCGGCCTGCATGCGCTGCATTACACCGGCGCCGGCGGCCGCCGCACGCTGTTCACCACCGACATCAGCGTCGGCGCGGACACCACGCTGTCGTGGCTGGTGCTGCCGGAGATCGTCGACGGCGACACCGCCGCATCCAGCTACGTCGCGCTCGATCTGCTGCTCGACGACGGCAGCCGGCTCTCCGCCAGCGCCGCGCGCGACCAGCACGGCGTCGCGCTCGGTGCGCAGGCGCAGGGCGACTCGAAGACGCTGTACCCGCAGCAGTGGGCGCGCAAGGCGGTACGGCTGGGCGACGTGCCGGCGCTGCGCGGCCGCCGGGTGCTGGCGATCGAGCTGGAAACCGCGCCGCCGCACGGCCAGGCCAGCGGCTGGATCGACGACATCGCGCTGGCCGCGCAGCCGCAGCGCGGCTACGCCCATCCGAGCGAGCGCGTGCTGACCACCCGCGGCAGCCAGGCCAACGGCAGCTTCTCGCGCGGCAACAACTTCCCCGCCACCGCGGTGCCGCACGGCTTCAACTTCTGGACCCCGGTGACCGACGCCGGCTCGCTGAGCTGGCTGTACCGCTGGAACGAACAGAACGACGCCGGCAACCGGCCGCGCCTGCAGGCGCTGGCGCTCAGCCATGAGCCCAGCCCGTGGATGGGCGACCGCCAGACCTTCCAGGTGATGCCCTCGGCCAGCGCCGGCGTGCCCGAGGCCGACCGCGCCAAACGCGCGCTGGCGTTCTCGCACGCCAACGAACAGGCCAGCCCGTACCACTACGCGGTGCGCTTCGACGACGGCATCGGCGCCGAGATCGCGCCAACCGACCACGCCGCGCTGTTCCGTTTCAGCTTCCCGGCCGGCGGCGACGCCAACCTGCTGTTCGACAACGTCGATGCGCGCGGCGGGCTGACCCTGGACGCGGCCACGCAGACCCTGTCCGGCTACACCGACGTGCGCAGCGGCCTGTCCACCGGCGCCACCCGCATGTACGTCTACGCGCGCTTCGATGCGCCGTGGCAGCGCAGCGGCCTGATCGACACCGGGCGACCGACCGGCTACGTCAAGTTCGCCCCGCCCCCGTCAAAGGACGGGACGCATGCGGTCAACATGCGCATCGCCACCTCGCTGATCTCGCTGGAGCAGGCCCGCCACAACCTGGAGCTGGAGATCGCCGGCGACGACGACATCGCCCACGTCGCTGCGCGCGCGCAGGCGCAGTGGGACGCGCTGCTGGGCCGCTTCCGCATCGACGGCGCCAGCGACGACCAGGCGACCACGTTCTATTCCAACCTGTACCGGCTGTTCCTGTATCCGAACAGCGGCTCGGAGAACGCCGGCAGCGCGGCCGCGCCGGACTGGCGCTACGCCAGCCAGTCGAGCTGGTCCGACGCCGCCACCGACGGCAGCGCCACGCGCAGCTACGCGCCGGTGCGCGACGGCCAGGTCTACGTCAACAACGGCCTGTGGGACACCTTCCGCACTGCGTGGCCGGCGTACGCGCTGTTCGCGCCCGACGATGCCGGGCGGCTGGTGCAGGGCTTCCTCGAGCAATACCGCGCCGGTGGCTGGGTCGCGCGCTGGTCCTCGCCCGGCTACGCCGACCTGATGGTCGGCACCAGTTCCGATGTCGCCTTCGCCGACGCCTGGTTGAAGGGCGTGCACGGCTTCGACCCGGCCGAGGCCTACGAGGCCGCGTTGAAGAACGCCAGCGTGGTCGCGCCGGACCGCCATGTCGGCCGCAAGGGCATGGCCACCGCGATGTACCGCGGCTACGCCGACGCCGACACCCACGAAGGCATGTCGTGGACCGTGGAAGGCGCGCTCAACGACTTCGGCATCGCCAATATGGCACAGGCGCTTTCCAAGCAGGCCGCGACCGCGCAGGCGCGCGAGCGCTACGCCACCGAGGCCGACTACTTCCGCCACCGCGCCGCCGACTACGCCAACGTGTTCGACCCGCGCATCGGCTTCTTCCAGGGCCGCACTGCCGACGGCCGCTGGCGCGTCGCACCGGCCGACTACGACCCGCGCCGCTGGGGCCACGACTACACCGAATCCAGCGGCTGGACGTTCGCCTTCACCGCGGTCCACGACGGCAACGGCCTGGCCGCGCTGTACGGCGGGCGCGCCGCGCTGGCGGCCAAGCTGGATGCGTACTTCAGCACGCCTGAAACCGCCGAGCCGCAGTTCTCCGGCTCGTACCGCGGGGTGATCCACGAGATGACCGAGGCGCGCGACGTGCGCATGGGCATGTACGCACACAGCAACCAGACCGCGCACCACATCGCCTGGATGTACCTGTACGCCGGCCAGCCGTGGAAGACCCAGGCGCTGACCCGCGAGGTGCTGGCGCGGCTGTATGTCGGCAGCGAGATCGGCCAGGGCTATCCGGGCGACGAGGACAACGGCGAGATGTCGGCCTGGTACGTGTTCGCCTCGCTGGGCCTGTACCCGCTGCGGATGGGTTCACCGGAATACGCGATCGGCTCGCCGCTGTTCAAGCACGCCAGCATCGCACTGCCGAACGGCGCCACGCTCACCGTCAATGCCACCAACAACAGCCGCGACAACGTCTACGTGCAGTCGCTGAAGGTCAACGGCAAGCCGTGGCGCAAGACCTGGCTGCCGCACGAGTTGCTCGCCGCCGGCGCCACGCTCGACTTCGTGATGGGGCCGAAGCCATCGACCTGGGGCAGCCGCGCCGAGGACGCCCCGCCCTCGCTGACCGCCGCCGGCCAGGCCCCGCAGCGTTACGCCGACCTGATCGATGCCCGCGCTAAGGTCACGCTGGCCGATGGCCGCGATGCCGCCGCGCTGCACGACGACGATGCGGCGACCGCCGTCGCACTCGCCGGCGACGCTGCGGCCATCCATGTCGTACTGGCCGATGCGGCGCAGCCACAGCTGTACACGCTGACCAACGGTGAGCGCGCGCTCGCCGGCGCGGGTTGGACGCTGCAGGCGCGGCGCGGCGATGGCGCCTGGCAGGACATCGACACGCGCCGTGGCGAGGACTTCCAGTGGCCGCTGCAGCTGCGGCCGTTCCGGATCGCCCATCCCGGCCGCTACGACCAGTACCGGCTGCAGTTCGGCCCAGCGGGCCGATTGCAGTGGGCCGAGCTGGAGCTGCTGGCGCCGGCCACGGACGCGACGCGCTGA	MTAIPSFPRAVLALALALPAAAACAADGFSTSFEAGQPQPSGTSGAPALAVGDGPAAPYAAKPQVGYSGLHALHYTGAGGRRTLFTTDISVGADTTLSWLVLPEIVDGDTAASSYVALDLLLDDGSRLSASAARDQHGVALGAQAQGDSKTLYPQQWARKAVRLGDVPALRGRRVLAIELETAPPHGQASGWIDDIALAAQPQRGYAHPSERVLTTRGSQANGSFSRGNNFPATAVPHGFNFWTPVTDAGSLSWLYRWNEQNDAGNRPRLQALALSHEPSPWMGDRQTFQVMPSASAGVPEADRAKRALAFSHANEQASPYHYAVRFDDGIGAEIAPTDHAALFRFSFPAGGDANLLFDNVDARGGLTLDAATQTLSGYTDVRSGLSTGATRMYVYARFDAPWQRSGLIDTGRPTGYVKFAPPPSKDGTHAVNMRIATSLISLEQARHNLELEIAGDDDIAHVAARAQAQWDALLGRFRIDGASDDQATTFYSNLYRLFLYPNSGSENAGSAAAPDWRYASQSSWSDAATDGSATRSYAPVRDGQVYVNNGLWDTFRTAWPAYALFAPDDAGRLVQGFLEQYRAGGWVARWSSPGYADLMVGTSSDVAFADAWLKGVHGFDPAEAYEAALKNASVVAPDRHVGRKGMATAMYRGYADADTHEGMSWTVEGALNDFGIANMAQALSKQAATAQARERYATEADYFRHRAADYANVFDPRIGFFQGRTADGRWRVAPADYDPRRWGHDYTESSGWTFAFTAVHDGNGLAALYGGRAALAAKLDAYFSTPETAEPQFSGSYRGVIHEMTEARDVRMGMYAHSNQTAHHIAWMYLYAGQPWKTQALTREVLARLYVGSEIGQGYPGDEDNGEMSAWYVFASLGLYPLRMGSPEYAIGSPLFKHASIALPNGATLTVNATNNSRDNVYVQSLKVNGKPWRKTWLPHELLAAGATLDFVMGPKPSTWGSRAEDAPPSLTAAGQAPQRYADLIDARAKVTLADGRDAAALHDDDAATAVALAGDAAAIHVVLADAAQPQLYTLTNGERALAGAGWTLQARRGDGAWQDIDTRRGEDFQWPLQLRPFRIAHPGRYDQYRLQFGPAGRLQWAELELLAPATDATR				NA	NA	NA	NA	NA
BMS020_06979	1065	malI_2	COG1609	Maltose regulon regulatory protein MalI	ATGGTCCAAGGCCCACCTCCCCGGCGACGCGTCACCCTGGCCGACATCGCCGCCGCCTGCGGCGTCTCCAGCGCCACCGTGTCGCTGGTGCTGGGCGGCAGCCCGCTGGTCGGCAAGGCCACCCGCGAGCGCGTGCAGAAGGAAATCATCCGCCTCGGCTACGTCTACAACCGCAGCGCGGCCAACCTGCGGCGCAAGGTCTCCACCAGCGTCGCACTGATCATCAACGACCTGTCCAACCCGTTCGTGGCCGAGTTCGCCGCCGGCGTCGACGAGGCGCTGGCCGAAGCCGGTTGCGTGCTGCTGCTGGGCAGCTCGGGCGAATCGGTGGAGCGCCAGCGCGCGGTGCTGGCGTCACTGATGGAACACACCCCGGCCGGGGTGATCCTGACCCCGGCCGAAGGCACCGCCGCGGCCGACCTGCAGCCGGTGGTCGGCCTGCACACGCCGCTGCTGCTGTTCAACCGCGAGGTGCCCGGTTCGACCTGGGACTACCTGGGCGCCGACAACGTCACCGGCGCGCGGCTGGCGACCGAGCACCTGCTGGCCCAGGGCCATACGCGCATCGCGTTCTTCGGTGGCCATCGCGATTCCAGCTCGTGCCGGCAACGCCTGGAGGGTTACACCCAGGCACTGCAGGCCGCCGGCATCACGCCGGAGCCACGCTGGGTGGTCGAATGCGCGCCGACCCGGCTGCAGGCCGCCACCGCCACCGCCGCGCTGTTCACACGCGATCCGGCGCCGACCGCCGCGGTGGCCTACAACGACGGCGTCGCGCTCGGGCTGATGATGGGCCTGCGCGCGCGCAACCTGCGCCCCGGCGTGGACTTCGCGCTCACCGGCTTCGACGACATCCCCGAGGCCGCCGCGACCGTGCCGGCATTGACCACGCTGGCGACCGCGCCGCGCGCGCTCGGCCGCCAGGCGGTGGCCATGGTGCTCGGCAACACCGATCCGGGCGCCGCCGCCCGCCATGTGATCGCGCCGGTGCAGCTGGTCGTGCGCGACAGCTCGCTGCGCCAGCCCCCGTTTTCCCATCCCGTCCAGGACGCGACCACCCCGTGA	MVQGPPPRRRVTLADIAAACGVSSATVSLVLGGSPLVGKATRERVQKEIIRLGYVYNRSAANLRRKVSTSVALIINDLSNPFVAEFAAGVDEALAEAGCVLLLGSSGESVERQRAVLASLMEHTPAGVILTPAEGTAAADLQPVVGLHTPLLLFNREVPGSTWDYLGADNVTGARLATEHLLAQGHTRIAFFGGHRDSSSCRQRLEGYTQALQAAGITPEPRWVVECAPTRLQAATATAALFTRDPAPTAAVAYNDGVALGLMMGLRARNLRPGVDFALTGFDDIPEAAATVPALTTLATAPRALGRQAVAMVLGNTDPGAAARHVIAPVQLVVRDSSLRQPPFSHPVQDATTP	PGPT0017992_3708	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
BMS020_06980	198			hypothetical protein	ATGAGCCAGACCGCCACCGCGCCCGCCAATGCCGAGAAGCGCTACACCGTGCACCGCGGCGATCTGCCGCTGAGCTGCCCGACCCCGCAGATGGCGCTGTGGAACTCGCATCCGCGCGTCTACCTGCCGATCGAGGACGAGCCGAATCACGAGGCCACCTGCGCCTACTGCGGCGCCACGTTCGTCCTGGTCGACTGA	MSQTATAPANAEKRYTVHRGDLPLSCPTPQMALWNSHPRVYLPIEDEPNHEATCAYCGATFVLVD				NA	NA	NA	NA	NA
BMS020_06981	1113	mshA_7		D-inositol-3-phosphate glycosyltransferase	ATGCACCGCCTGACCGTGGTGCAGCTGCTGCCGGCGCTGCAGTCCGGCGGCGTCGAACGTTCGACCCTGGAAATCGCCGCGGCGCTGGTGCGGGCCGGCCATCGCGCCGTGGTCGTGTCCGCCGGCGGACGGCTGGTGCCGTCGCTGCTGGCCAGCGGCGCCGAGCACGTCACCCTCGACATCGGCCGCAAGTCGCTGTGGACGCTGCGCCACGTGGCCACGCTGCGGCGGTTGTTCGCCGAGCTCGGCGCCGACATCGTGCATGCGCGCTCGCGGCTGCCGGCCTGGCTGGGCTGGTATGCGCTGCAGGGCATGCCGCAGGCCACGCGGCCACGCTTCGTCACCACCGTGCATGGGCTCAATTCGCCCGGCCGCTACAGCGCGGTGATGACCCGCGGCGAGCGCGTCATCTGCGTCGCCCAGACCGTGCAGGACTACGTGCTGCGGCATTACCCGCAGACCGACCCGGCACGCCTGCGGCTGATCCCACGCGGCATCGACATCGCCCAGTTCCCGCGCCGGCCGCAGCCCGATGCGCGTGCCCGCGCCTGGGCGGCGACGCAGCTGCCGGCACTGGCGCCCGACGAGGCGCTGCTGCTGCTGCCCGGCCGCGGTACCCGGCTGAAGGGCCATGCCGATGGCCTGCAGCTGGTTGCGGCGCTGCAGGCGGCCGGGCGTCCGGCGCGCCTGTGGCTGCCGGGCGCGGTCGAGGCCGGGCGCGAGGCCTACCTGCGCGAGCTGCAGGCCGAGGCGGTCGCGCGCGGCGTCGGCGACCGCGTGCATTTCAGCGAGGCCACCGGCCGCATCGCCGAGGCGTATGCGGCCAGCGACCTGGTGCTGCAGCTGTCGCGCAAGCCGGAGGCGTTCGGTCGCACCGTGCTGGAGGCGCTGGCGGTCGGGCGCCCGGTGCTGGGTTGGGATCATGGCGGGGTCGGCGAACTGCTGGCCGCGCTGCAGCCGCAGGGTGCGGTGGCGCCGTTCGACGCAGCGGCGCTGGCCGCGCGCGCGCAGCAGCTGCTGGATGCGCCGCCACGCCCGCCGCAGCGCATTGCGCACACCTTGCAGGCCATGCAGTCGGCTACCTTGAAGGTCTATGACGAACTCCGCCGTTGA	MHRLTVVQLLPALQSGGVERSTLEIAAALVRAGHRAVVVSAGGRLVPSLLASGAEHVTLDIGRKSLWTLRHVATLRRLFAELGADIVHARSRLPAWLGWYALQGMPQATRPRFVTTVHGLNSPGRYSAVMTRGERVICVAQTVQDYVLRHYPQTDPARLRLIPRGIDIAQFPRRPQPDARARAWAATQLPALAPDEALLLLPGRGTRLKGHADGLQLVAALQAAGRPARLWLPGAVEAGREAYLRELQAEAVARGVGDRVHFSEATGRIAEAYAASDLVLQLSRKPEAFGRTVLEALAVGRPVLGWDHGGVGELLAALQPQGAVAPFDAAALAARAQQLLDAPPRPPQRIAHTLQAMQSATLKVYDELRR				NA	NA	NA	NA	NA
BMS020_06982	1356			hypothetical protein	ATGACGAACTCCGCCGTTGATCCATCGCCGGGCCGCGCGCCGGTGCTCGGCCGCGACGCCGGGCGCTGGACGCCGGCCTGGGTGATCGCCTTCGTAGCGCTGTGGCCGTTGCCCGGCATCGCCGAAACCGTGCTGTCGCTCGGCGCGCTGTTCGCGGCGTGGCGCTTGCTGCAGGCGCGCTTCCGCGGTGGTACGCGCCTGCTCAGCGGCCCGGCCTGGGCGCTGACCAGCGTGATGTTCCTGGCCTACTGGCTGCCACAGCTGGTCTCGGCGTTCGACGCGGTGGACGTGCCGCTGGCGCTGCGCAAATCGGCCACCGACCTGCGCTACCTGCCGTTCATGTGGTTGTGCGCGATTGCGGTGGCGACGCCGGCGCGGCGCCGCACCACCTTCGGCGGGCTGGCGGTGATCGCCGCGGTGTGGACGCTGGACGCGCTGGTGCAGGCGGGCAGCGGCATCAGCCCGCTGTTCTGGGGGCTGGACCAGCTCAAATGGCAGGTCAGTGGCCATGGCTTCTGCAGCGCGGCCGAGATCGCCGCCGCCGACCGCCTCAGCGGCGTGCTGGGGCCATGCAACCTCAAGTTCGGCCAGACCCTGGCCAGCCTGTCGCCGTTCCTGCTGGTGCTGGCCGGGCGCCGCGCATTGCTGGCCTGGTTGCTGGCGGTCGCGGCGGTCGCCGCGGTGCTGGTGCTGGCCGGCTCGCGTGCCTCGTGGGTCACCTTCGCGGTGATCGTCGCGCTGACCGGCTGGCGCCTGCTCGGTACGCGCCGGATGGTGCTGCTGCTGCTGGCCGGCGGCGTACTGGGCGCGGGTCTGTACGCGGCCTCGCCGCAGGTGCGCGAACGCATCCATCGCACCACGCTGGCGCTTACCGGCGACGGCGATGGCGTCAACGCGGCGCTGTCCGGGCGCGGCGACATCTGGCGCGGCGCGCTGTGCATGGTGCGCGCGCACCCGCTCAACGGCGTTGGCGCGCGCGGTTTCCGCGAGGCCTGGCCGGCCTGCGATCCGCATCCCGGGCAGGCGGCCTGGGGCGATGGCCCGGCGTTCCACGCGCATCAGCTCGTGCTGGAGATCCTCGCCGAGACCGGCGTGTTCGGCCTGCTGCTGTGGCTGGCCGGCGTTGCCCAGGCCTGGCGCGCATGGCGCTATTCCAGTGTCGCCGCGCGCGAACAGGCGCGGCCGGCGACGGTGGCGCTGCTGGCCACGCTGTTCCCGCTCAATACCCACCTGGCGTTCTATTCCAGCTTCTGGGGCGGGTTGACGCTGATGCTGGCTGGGCTCTACGCCGGCGCCTTGCTCGGCCGCGATACGCAGGACGACGCGGCTCTGGCCCCGAGCGGGCGTTCCGGCTGA	MTNSAVDPSPGRAPVLGRDAGRWTPAWVIAFVALWPLPGIAETVLSLGALFAAWRLLQARFRGGTRLLSGPAWALTSVMFLAYWLPQLVSAFDAVDVPLALRKSATDLRYLPFMWLCAIAVATPARRRTTFGGLAVIAAVWTLDALVQAGSGISPLFWGLDQLKWQVSGHGFCSAAEIAAADRLSGVLGPCNLKFGQTLASLSPFLLVLAGRRALLAWLLAVAAVAAVLVLAGSRASWVTFAVIVALTGWRLLGTRRMVLLLLAGGVLGAGLYAASPQVRERIHRTTLALTGDGDGVNAALSGRGDIWRGALCMVRAHPLNGVGARGFREAWPACDPHPGQAAWGDGPAFHAHQLVLEILAETGVFGLLLWLAGVAQAWRAWRYSSVAAREQARPATVALLATLFPLNTHLAFYSSFWGGLTLMLAGLYAGALLGRDTQDDAALAPSGRSG	PGPT0023135_847	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023135-waaL|rfaL-K02847	NA	NA
BMS020_06983	969	lpxL_3	COG1560	Lipid A biosynthesis lauroyltransferase	ATGCGCGCATCCGGCCCCGGCGTTGCCTGGTCGCGTAAAATCACCCGCATGTCCGAAGCACCCGACGTCGCCGTCCGCCCTTCCCTGCTCACGCCAGCGCACTGGCCCTCGTTCCTCGGGCTCGGCCTGGCGGCGCTGGCCGGGCGCCTGCCCTGGCTGCTGCAGCGCGCGCTCGGTCGCGGCGTCGGCTGGATCGCGTTCCACCTGATGGGCAGCCGCCGCCGCGCCGCCGAGGTCAACCTCGCGCTGTGCTTCCCCGACCAGGACCCGGCCTGGCGCCAGCGCCTGCTGCGCGACAGCTTCGATGCGTTCGGCGTCGGCATCTTCGAATTCGCCCGCGCCTGGTGGGGCAGCATCGACGCAATCCGCCCGCAGGTCCGGGTCGAGGGCCTGGAACACCTGCACGCGCTGCAGGCGCAGGGCCGCGGCGTGCTACTGGTCTCCGGCCACTTCATGACCCTGGAGATGTGCGGCCGGCTGCTGTGCGACCACGTGCCGCTGTCGGGCATGTACCGCCCGTACAAGAACCCGGTGGTCGAATGGGCGGTCAAACGCGGCCGCCTGCGTTACGCCCAGGGCATGTACGGCAACGCCGACATCCGCGCCAGCGTGCGCCACCTCAAGCGCGGCGGCTTCATGTGGTACGCGCCGGACCAGGACATGCGCGGCAAGGACACCGTGTTCGTACCGTTCTTCGGCCATCCGGCGGCGACGATCACCGCCACCCACCAGTTCGCGCGGATGACCGGCTGCGCGGTGGTGCCGTACTACCACCGCCGCGACGGTGGCGGCTACACGCTGACCATCGGCGCGCCGCTGCCCGACTTCCCCAGCGACGATGCCGCCGCCGATACCACCCGGGTCAATGCGGTGATCGAGGACATGGTGCGGCAGGCGCCGGACCAGTACCTGTGGATCCACCGCCGCTTCAAGCGCCAGCCCGGCGGGCGCAGCGACTTCTACAAGTAA	MRASGPGVAWSRKITRMSEAPDVAVRPSLLTPAHWPSFLGLGLAALAGRLPWLLQRALGRGVGWIAFHLMGSRRRAAEVNLALCFPDQDPAWRQRLLRDSFDAFGVGIFEFARAWWGSIDAIRPQVRVEGLEHLHALQAQGRGVLLVSGHFMTLEMCGRLLCDHVPLSGMYRPYKNPVVEWAVKRGRLRYAQGMYGNADIRASVRHLKRGGFMWYAPDQDMRGKDTVFVPFFGHPAATITATHQFARMTGCAVVPYYHRRDGGGYTLTIGAPLPDFPSDDAAADTTRVNAVIEDMVRQAPDQYLWIHRRFKRQPGGRSDFYK	PGPT0013315_1744	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0013315-lpxL|htrB-K02517	NA	NA
BMS020_06984	1335	waaA_2	COG1519	3-deoxy-D-manno-octulosonic acid transferase	ATGCACCGCTTCCCGTATCCTTTCCCGATGCGGAAAGACCCGATCGAATGGCTGTTGCGCGCGCTGTACTCGGCGCTGTTGTACGTATTGCTGCCCATCACCGTCTACCACCTGGTGTGGCGCGGGTTCCGGGTCCGCGAGTACTTCAACCGCTGGAACGAGCGCTATGCCTCGTATGCGCATGCCTGCGGGCGGCCGCGGGTGTGGCTGCACGCGGTGTCGGTGGGCGAGGTCAACGCCGCCGCGCCGCTGGTCAACGCGCTGCGCGCGCAGCGCCCGGACATCCGCTGGGTGATCACCACGATCACCCCGACCGGCTCCGAGCGCGTGCGCGCGCTGTGGGGCGAGGCGGTGGACCACGTCTACCTGCCGTATGACGTGCCGGGCAGCGTCGGCCGCTTCCTGGAACATTTCCGCCCCAGCCTGGCACTGATCCTGGAGACCGAGCTGTGGCCGAACATGCTGTTCGGCTGCCGCGACCGTGGCATCCCGGTCTATATCCTCAATGCGCGGCTGTCGGCGCGTTCGCTGCGCGGCTACCGGTTGCTGGCCGCGCTGATCCGGCGCGCGCTGCGCACGGTGACCTGCGTGGCGGCGCAGTCGCAGGACGATGCCGCGCGCTTCGTGCAGCTCGGCGCCGATCCGGCGCAGGTGGTGGCGCTGGGCAACCTCAAGTTCGACATCGCCGCACCTGAGCACCTGGATGCCTTCGTCGCGCAGTTCCGCGCGCAGGTGCCGCCGGTGCGCCCGGTCTGGATCGCCGCCAGCACCCACGAGGGCGAGGAGGCGGCGGTGGTGGAGATCCATGCGCGGCTGTTGCGGCAGTTCCCCGACCTGCTGCTGCTGTGGGCGCCACGCCATCCGGAGCGCTTCGGCAAGGTCGAGGCGGCGGCGCGCGAGCGCGGCTGGCGCGTGACCACGCGCAAGGCGCAGCAGTGGCCGGCCGGCGACAGCCAGGTGTTCGTGATCGACACGCTCGGCGAGCTGATGGCGTTCTACGCCTGCGCCCAGGTCGCCTTCGTCGGCGGCAGCCTGCAGCCGATCGGCGGGCACAACCTGCTGGAACCGGCCGCGGTCGGTACGCCACCGGTGACCGGGCCGCATCTGCACAACTTCTCGGAGATCTCGCGGCGGATGCGCGAGGCCGGGGCGGTGGCGATCTGCGAGGACGTCGATGGCGTCGCCGCCGAGCTGCAGCGGCTGCTCGGCGATGCGCAGGCGCGTGCGGCGATGGCCAGCGCCGGCGCGGCGCTGGTCGCCAACGGCCGCGGCGCGGTGGCGCGCACGCTGGTGCAGATCGGGCCGCACCTGCCGCCGCAGGTCGCGGTGGATTGA	MHRFPYPFPMRKDPIEWLLRALYSALLYVLLPITVYHLVWRGFRVREYFNRWNERYASYAHACGRPRVWLHAVSVGEVNAAAPLVNALRAQRPDIRWVITTITPTGSERVRALWGEAVDHVYLPYDVPGSVGRFLEHFRPSLALILETELWPNMLFGCRDRGIPVYILNARLSARSLRGYRLLAALIRRALRTVTCVAAQSQDDAARFVQLGADPAQVVALGNLKFDIAAPEHLDAFVAQFRAQVPPVRPVWIAASTHEGEEAAVVEIHARLLRQFPDLLLLWAPRHPERFGKVEAAARERGWRVTTRKAQQWPAGDSQVFVIDTLGELMAFYACAQVAFVGGSLQPIGGHNLLEPAAVGTPPVTGPHLHNFSEISRRMREAGAVAICEDVDGVAAELQRLLGDAQARAAMASAGAALVANGRGAVARTLVQIGPHLPPQVAVD	PGPT0022485_759	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022485-waaA|kdtA-K02527	NA	NA
BMS020_06985	1386	tolC_2	COG1538	Outer membrane protein TolC	ATGATCCGCCGATCCCTCGCACTGGCGCTGGCCGCCGCCCTGTCTCCGATGGCCGCCCAGGCCACCGATCTGCTGCAGGTTTACGAAATGGCCCGCAACGGTGACCCGACGCTGGCATCGGCGGAATCGACCCGCCTGTACGACAAGGAAGGCGCGGTGCAGGCGCGCGCCGCGCTGCTGCCGCAGCTGGATGGCACCGCGACGCTGAGCCGCACCAAGACCGAGTACGAAGGCATCAGCGGCCGTGCGCTGTCCAAGACCCGCAGCTACGGCATCGACGCCTCGCAGACCCTGTTCAACTGGGCGCAGTTCTCCAACCTGCGCGCCCAGCGCGACGTCAGCAAGGCCGCCGACTTCACCCTGGCCTCGTCCAAGAACGACCTGATCGTGCGCACCTCGGCGGCCTACTTCAACGTGCTGGTCGGGATCGAGTCGCTGGCCGCAGCCGAATCCAACGAAGCCGCCGCCAAGAAGCAGTTCGACTACGCCGACAAGCGCCTGCAGGTCGGCCTGGCGCCGATCACCGACGTGCACGAAGCCCGCGCCGAGTACGACCAGGCCCGCGCCGACGTGATCACCGCGCGCAACACCCTGGCCGACTACTACCAGGCGCTGACCGAGATCACCGGCCAGCCGGCGCGCAACCTGCGCGGTCTGCCGGACGACTTCAAGCCGGAACTGCCGGCCGGTTACAGCAACGTCGATACCCTGGTCGCCGATTCGGTCAGCACCAACCCGGCGCTGCAGGCGCAGCAGCTGCAGGTCAGCGCCGCCGACGCCAGCGTCAGCGCCGCGCGCGCCGGCCACCTGCCGACCCTGAGCCTGGGCGCCAGCCTCGGCCGCAGCACCACCTGGGGCGATTACAGCGGCGGCGTCGCCGCCGACCAGGGCACCAACGACCTGGGCGGTCCGCGCACCGACACCAACTACATCGGCCTGACCCTGAGCGTGCCGATCTTCGCCGGCGGCGCCACCCAGTCGGCGGTGCGCCAGGCGCTGGCGACGCGCGACATCCAGCAGAACACCTACGAGCAGAACAAGCGCGCGCTCGACCGCAACGTGCGCAACTACTACCAGAGCGTGGTGCAGGGCATCTCCGAGATCGAGGCGCGGCGCCTGGCGGTGGTGTCGGCGCAGGCCGCCTACGACGCCTCGCAGGTCGGCCTGGAAGTCGGCACCCGCACCGTGCTGGACGTGGTGCAGAACCAGCAGACGCTGTTCTCGGCCCAGCTCGACTACGCCCAGGCCAAGTACAACTTCCTGCAGAACCGCCTGCTGCTGGCCGAGGCCACCGGCAAGCTCGACATCGCCGACCTGCAGGACATCAACCGCCTGCTGACCGCCGATGCCGAAGCGCAGCTGCAGGACGCCAGCAGCGTGCAGTAA	MIRRSLALALAAALSPMAAQATDLLQVYEMARNGDPTLASAESTRLYDKEGAVQARAALLPQLDGTATLSRTKTEYEGISGRALSKTRSYGIDASQTLFNWAQFSNLRAQRDVSKAADFTLASSKNDLIVRTSAAYFNVLVGIESLAAAESNEAAAKKQFDYADKRLQVGLAPITDVHEARAEYDQARADVITARNTLADYYQALTEITGQPARNLRGLPDDFKPELPAGYSNVDTLVADSVSTNPALQAQQLQVSAADASVSAARAGHLPTLSLGASLGRSTTWGDYSGGVAADQGTNDLGGPRTDTNYIGLTLSVPIFAGGATQSAVRQALATRDIQQNTYEQNKRALDRNVRNYYQSVVQGISEIEARRLAVVSAQAAYDASQVGLEVGTRTVLDVVQNQQTLFSAQLDYAQAKYNFLQNRLLLAEATGKLDIADLQDINRLLTADAEAQLQDASSVQ	PGPT0003600_2283	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-AlgE-TYPE_MANNURONAN_C-5-EPIMERASE_TRANSPORT,PGPT0003600-tolC-K12340	NA	NA
BMS020_06986	657	pcm_2		Protein-L-isoaspartate O-methyltransferase	ATGACGATCGATTTCTCCCAGGCCCGCGAAAAGATGGTCGAGCAGCAGGTACGTCCCTGGGACGTGCTGGATCTGCGCGTGCTGGACGTGCTGGCGCGGCTGCCGCGCGAGGCGTTCGTCACCGACGCCTACAAGGCGGTGGCTTACGCCGACCTGGAACTGCCCCTGGCCGGCGGCCAGAAGATGATGAAGCCGGTCATCGAAGGCCGCATGCTGCAGGCGCTGGAGCTGCAGCCGGGCGAGGACGTGCTCGAAATCGGTACCGGTAGCGGCTTCGCCACCGCATGCCTGGCCGCACTGTGCCGCGAAGTGGTCAGCCTGGAGATCGATCCGGCGCTGGCCGCCGGCGCGCGCGCCGCACTGGACGCCACCGGCCTGGGCAGCAACGTGCGCATCGAGACCGCCGACGTGTTCGCCTGGCAGACCGAGCGCAAGTTCGACGCGATCTGCGTGACCGGCGCGGTCGACACCCTGCCGCTGCACCTGCTGTCCTGGCTGCGCCCGAACGGCCGGCTGTTCGTCGTGCGCGGTCACGAACCGGCGATGGAAGCCGTCCTGGTCCGCGGTGACGTCAACGCGCCGGCCATCCAGTCGTTGTTCGAGACCGAGCTTGCCTACCTCACGGGCGCGGCGCCCTCTCCCAAGTTCCAATTCTGA	MTIDFSQAREKMVEQQVRPWDVLDLRVLDVLARLPREAFVTDAYKAVAYADLELPLAGGQKMMKPVIEGRMLQALELQPGEDVLEIGTGSGFATACLAALCREVVSLEIDPALAAGARAALDATGLGSNVRIETADVFAWQTERKFDAICVTGAVDTLPLHLLSWLRPNGRLFVVRGHEPAMEAVLVRGDVNAPAIQSLFETELAYLTGAAPSPKFQF				NA	NA	NA	NA	NA
BMS020_06987	654			hypothetical protein	ATGTCGCCCAGTCCCCAGCCAAAGTCTCGCGCCAAGCAGTCCGGCCCCGGTCGCCCCAAGGACCTGGGCAAGCGCGCCGCCATCCTCGATGCCGCCCGCGCCCTGTTCTTCGAGCAGGGCTTCGCCGGGGTCAGCATGGACGGCATCGCCGGCCAGGCCGGGGTGTCCAAGCTCACCGTCTACAGCCACTTCGGCGACAAGGAGACGCTGTTCGCCGAGGCGATCCGCGCCCAGTGCCAGCAGATGATGCCGGACGACCTGTTCGCCCACGAGCTGGAGGGTCCGCTGCGCCAGCAGCTGCTGGAGATCGGGCAGGCCTTCTTCGAGATGATCAGCACCGACACGGCGATCTCCACCCACCGCATGATGATTTCCCCGGGCACCGGCGACGACCATGTCCGCCGCATGTTCTGGGAAGCCGGCCCGCAGCGCATCAAGCAGTCGCTGGCCGATTTCCTGCAGGCGCGGGTGGCGCGCGGCGAGCTGGCCATCGACGACCTGCCGCTGGCCGCCTCGCAGTTCTTCAGCCTGCTCAAGGGCGACCTGCACCCGATGATGATGTGCGGGCTGAATGCGCTTCCCACCGCGGCCGACGTGCAGCGCCACATCGCTGTCACCGTGGATTTCTTCCTGCGTGCGTATGCGCCGCGCTGA	MSPSPQPKSRAKQSGPGRPKDLGKRAAILDAARALFFEQGFAGVSMDGIAGQAGVSKLTVYSHFGDKETLFAEAIRAQCQQMMPDDLFAHELEGPLRQQLLEIGQAFFEMISTDTAISTHRMMISPGTGDDHVRRMFWEAGPQRIKQSLADFLQARVARGELAIDDLPLAASQFFSLLKGDLHPMMMCGLNALPTAADVQRHIAVTVDFFLRAYAPR	PGPT0028895_337	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
BMS020_06988	2937			hypothetical protein	GTGCGGAGTGGACCGGTCGGGCGCCTGTACGGGTGCGTGCTGCGTTGGGCGTTGGTGCTGGCGGCCTGCTGGCCGGCGATGGCTGCGGCCGAGGCCACGGCCTATACCGTCGCCAGCTGGGACATGGACGACGGACTGCCGCACAACCTGATCCACAGCATCGCCCAGGGCGAGGACGGCGCGATCTGGCTTGGCACCTGGGAAGGGGTGGCCCGCTTCAATGGCCACCGGTTCAGCATCTACGACCGCCAGAACACCCCGGGCATCGAGCTGTCGGGCGTGTTCACGATCGCGCGCGACAGCGCCGGCGGCATGTTGTTCGGCACCGTCGACGGGCTGTACCGCTTCCACGCCGGGCACTGGCAGTCGCTCGGCGGCGAGGCGATCCGGCACCAGCGGGTTGGCGCCTTGCTGCGCGCCCGCGATGGCAGCCTGTGGGTCGGCACCACGCGCACCTTGCTGCACCTGGACCGCGACGGGCGCCCGCAACCCGGCGGGCTGCCCGCGGGGCTGCCGGCGCAGGGTGTCGCCGCGTTGCTGGAGGTCGACGACGGTGTGCTGGTCGGTGGCCCGGCCGGCCTGTATCTGCTGCCGGCCGATGGCGGCGCGGCGCGGCGCTGGGGCGAGCATGCCGGGCTGGCGGCGGTCGGCAGCGTGCGCGAACTGGCCGACGACGGCGCCGGCGGCCTGCTGATCGCCGCCGACAGCGGTGCCTGGCATCTGCAGGCCAGCGGCGAGCTGCTGCGGTTGCGGGCCGGCGAGCGGGTCGACGCGTTCGCCCGCGACGTGCGCGGCGGCTATTGGATGGCGATGGCCAGCGGGCAACTGGTCGAACACGACCGCGATGGCCGCGAGCAGGTGGTGCCGGTGCCCGGGGTGATCAGTCCGGCGCTGCTGGCGGGTGCCGATGGCGTGGTCTGGGCCGGCAGCAGCCATGGCCTGTCGCGGGTCGTCGATGGGGTGGCGCATGGCCTGACCGTCGCCGATGGGCTGGTGAGCGACTACGTGCGCTGCGTGCTGCAGGATGCGGCCGGCACGGTGTGGATCGGTCATTCGGCGGGGCTGGGACGCTGGCGCGGGGGACGGGTCGAGCCGGTCGCGCTCGGCGTGCCGGGAGCGGTCGATCCCTCGGTGCTGGCGCTGGCACCGGCGCGCGCCGGCGGGATCTGGGTCGGCACCTACGATCGCGGCGTGATGCGGGTCGATGCCGACGGCAAGGTGGTGCAGCGCATCGCCGGGCAGGGGCTGCCGTCGCCGTTCGTGCGCGCGCTGCAGGAAGATGCCGACGGCACCTTGTGGATCGGTACCGGCGCCGGCGTGGCGAGCTGGCGCGAGGGTGTGCTGACGCCGACCGGCAATGTGCGCGGGTTGCCACCGGATCCGGTGCAGGTGCTGTACCGCGATGGCGACACGCTGTGGGTGGGTACCAACCAGGGCATGGCGGCGCTGTACGACGACGGCCGGGTGCAGCGCTGGGACGGCGGCAGCGGCGCGCTGCCGGCGCAGAACGTGTTCGACTTCCTGCGCGATGCCGACGGCAGCCTGTGGATCGCCAGCGACCGCGGCCTGCTGCGGATGCGCGATGGCCGCTTCAAGGTCTACGACCACGCCAGCGGCCTGCCGCGCGACAAGGTGTTCCGCATCATCGACGACCAGCACGGGCACCTGTGGTTGAGCAGCAACCAGGGGGTGTTCCGCATCGAACGCGCCGAGCTGGACGAGATCGATGCCGGCACCCGCAGCCAGCTGGCGGTGGAGGTGGTCGATGCCAGCGACGGCCTGCCGGGCGGCCAGGCCAACGGGGCCAGCGCGCCGGCTGGCTGGCTGCGCGACGACGGCCAGCTGCTGGTGCCGATGGCCTCCGGACTGGGCGTGATCGATCCGGACGGGATCGGGCGGCGCCAGGCCGGCAGCGTGCCGGTGGTGATCGAGTCGGTGCAGGTCGATGGCAACGAGCAGCCGGCCGCCAGCGTCTACCGCTTCGGCGCGCTGCGCCGGCTGGTGATCGATTACGCCGGGTTGAACTACCGCGCGCCCGACAAGGTGCGCTACCGCTACCGGCTGGTCGGCTTCGACCCGGACTGGATCAATGCCGGTGCCGGCATGGCCGCGGTCTATACCAACCTGGCGCCGGGGCGGTACCGCTTCGAGGTGCAGGCGATGTCGCTGCCGCTGGACTGGCGCCATCCCGAGGCGGTGGGCCAGGTCGCGCGCACGATCGAGATCGTGCCGCCGTGGTGGCGGCGTCCGGTGGTGATCGGCACGCTGGTGCCGAGCATGCTGTTGCTACTCGGCGTGGCCTACATCGCGCGCGTGCTCGGCTCGCGCCGCCAGCAGCGCCGGTTGAACGCGGTGATTGAAGCGCGCACGCGCGAATTGAGCGAGAAGAACCAAGCGCTGGAGGCGGCCGGGCGCGAACGCGAGGCGCTGCTGCGTGAGCTGGAACACCAGGCCGGCCACGACATGCTGACCGGGCTGCCCAACCGGCGCACCGTCGACCGCTACCTGGACGGGGTGCTTGCCGAGACCGGGCCGCTGGCGCTGGCGCTGCTGGACGTGGACCACTTCAAGCGGATCAACGACGGCCACGGCCATGAGGTCGGCGACGCGGTGCTGCAGGCGATCGCCACCCACCTGGCGGCATGGACCGAACGCGAGGGCGGGTTCGCCGCGCGCCACGGCGGCGAGGAATTCCTGCTGGTGTTGCCCGGGGTCGGGCTGGCCGGGGCGGTGGCGCGGATGGAAGCGCTACGCCAGGCGCTGGCGCAGCTGCAGGTGCCGACGGCCGGGGGCATGGTGTCGATCACCGTCAGCATCGGCGTGGCCGCGCGCAGTGCTGCACTGCAGCGCCGCAATGCGCTGGTCTCGGAAGCGGATCGACAGCTATACCGCGCCAAGCACGCCGGCCGCGACCAGGTCTGCGCCAGCGAGGATTGA	MRSGPVGRLYGCVLRWALVLAACWPAMAAAEATAYTVASWDMDDGLPHNLIHSIAQGEDGAIWLGTWEGVARFNGHRFSIYDRQNTPGIELSGVFTIARDSAGGMLFGTVDGLYRFHAGHWQSLGGEAIRHQRVGALLRARDGSLWVGTTRTLLHLDRDGRPQPGGLPAGLPAQGVAALLEVDDGVLVGGPAGLYLLPADGGAARRWGEHAGLAAVGSVRELADDGAGGLLIAADSGAWHLQASGELLRLRAGERVDAFARDVRGGYWMAMASGQLVEHDRDGREQVVPVPGVISPALLAGADGVVWAGSSHGLSRVVDGVAHGLTVADGLVSDYVRCVLQDAAGTVWIGHSAGLGRWRGGRVEPVALGVPGAVDPSVLALAPARAGGIWVGTYDRGVMRVDADGKVVQRIAGQGLPSPFVRALQEDADGTLWIGTGAGVASWREGVLTPTGNVRGLPPDPVQVLYRDGDTLWVGTNQGMAALYDDGRVQRWDGGSGALPAQNVFDFLRDADGSLWIASDRGLLRMRDGRFKVYDHASGLPRDKVFRIIDDQHGHLWLSSNQGVFRIERAELDEIDAGTRSQLAVEVVDASDGLPGGQANGASAPAGWLRDDGQLLVPMASGLGVIDPDGIGRRQAGSVPVVIESVQVDGNEQPAASVYRFGALRRLVIDYAGLNYRAPDKVRYRYRLVGFDPDWINAGAGMAAVYTNLAPGRYRFEVQAMSLPLDWRHPEAVGQVARTIEIVPPWWRRPVVIGTLVPSMLLLLGVAYIARVLGSRRQQRRLNAVIEARTRELSEKNQALEAAGREREALLRELEHQAGHDMLTGLPNRRTVDRYLDGVLAETGPLALALLDVDHFKRINDGHGHEVGDAVLQAIATHLAAWTEREGGFAARHGGEEFLLVLPGVGLAGAVARMEALRQALAQLQVPTAGGMVSITVSIGVAARSAALQRRNALVSEADRQLYRAKHAGRDQVCASED				NA	NA	NA	NA	NA
BMS020_06989	183			hypothetical protein	ATGACCACGCACGACAGCAGCACCGCCGCAGCCCTGGCCTTCCAGGCCGAAGTCGCCAGCGCCAAGGCGCGGCGCGATCGCGACCAGCCCCGGCATTCGCCGGCGCGCCCCGCACCGGCCGAGCCGGCCGCCACGGCGCACCCGCCGCTGCCGGCCGCCGGCAGCGACGACAAGGCCGCCTGA	MTTHDSSTAAALAFQAEVASAKARRDRDQPRHSPARPAPAEPAATAHPPLPAAGSDDKAA				NA	NA	NA	NA	NA
BMS020_06990	891	cysL	COG0583	HTH-type transcriptional regulator CysL	ATGGAACTCTCCAGCCTGACCGCCTTCCTCGCCGTCGCCGACGGCGGCGGCTTCTCCGCGGCGGCCGAGCGGCTGCACCTGACCCAACCGGCGATCAGCAAGCGCATCGGACTGCTGGAAACCGAACTGGGCGCGCGCCTGTTCGACCGGCTCGGCCGCCAGGTGGTGTTGACCGAAGCCGGGCTGGCGCTGCTGCCACGCGCGCGCCGGATCCTGGCCGAGGTACAGGACACGCGCCGGCTGCTGGACACCCTGGGCAGCGGCGTCGGCGGCACGCTCAGCCTGGCCACCAGCCACCACGTCGGCCTGCACCGGCTGCCGCCGCTGCTGCGCCAGTTCGCCGCGCGCCACCCGCAGGCCGGGCTGGACCTGCGCTTCCTCGATTCGGAACAGGCCTACGCGCAGGTGCTGCAGGGCGAGGTCGACCTGGCGGTGACCACACTCGATCCGGACACCCAGGCGCCGCTGCAGGCGGTCGACATCTGGGACGACCCGCTGCAGATCGTGGTCGCGCCGGACCATCCGCTGGCGGCGGGCGGCCTGCCGAGCCTGCAGGACATCGTCGCCCACCCGGCGGTGCTGCCGGACCGCCACACCTTCACCCACCGCATCGTCGCCGCGCTGTTCGCCGCGCACGGACTGGCGCCACGGCTGCGCATGACCACCAACTATCTGGAGACGATCAAGATGCTGGTCTCGGTCGGGCTGGCCTGGAGCGCGCTGCCGCAGAGCCTGGTCGATGCCCAGGTGGTGGCGCTGCCGCTGCCCGGCATCGCCCTGCGCCGGCGGCTCGGCTACGTGACCCATGGCGGGCGCAGCCGCTCGCGCGCGGCCGAGGCCTTCGTCGCCCTGCTGCACGAGCATGCCGATGCCGCCCCCGGGCGCGGGTGA	MELSSLTAFLAVADGGGFSAAAERLHLTQPAISKRIGLLETELGARLFDRLGRQVVLTEAGLALLPRARRILAEVQDTRRLLDTLGSGVGGTLSLATSHHVGLHRLPPLLRQFAARHPQAGLDLRFLDSEQAYAQVLQGEVDLAVTTLDPDTQAPLQAVDIWDDPLQIVVAPDHPLAAGGLPSLQDIVAHPAVLPDRHTFTHRIVAALFAAHGLAPRLRMTTNYLETIKMLVSVGLAWSALPQSLVDAQVVALPLPGIALRRRLGYVTHGGRSRSRAAEAFVALLHEHADAAPGRG				NA	NA	NA	NA	NA
BMS020_06991	1428	leuC_2	COG0065	3-isopropylmalate dehydratase large subunit	ATGTCCGGCAAGACCCTGTACGACAAGCTGTGGGAGATGCACGAAGTGAAGCGCCGCGACGACGGCTCCTCGCTGATCTACATCGACCGCCACATCCTCCACGAGGTCACCTCGCCGCAGGCGTTCGAAGGCCTGCGCCTGGCCGGGCGCACGCCGTGGCGGATCGACGCCAACATCGCCACGCCCGACCACAACGTGCCGACCACCCGCGCCGAGCGCCAGGGCGGGCTGCAGGCGATCGCCGACGAGGTCTCGCGGCTGCAGGTGCAGACCCTGGACGAGAACTGCGACGACTTCGGCATCCTCGAGTTCAAGATGAACGACACCCGCCAGGGCATCGTTCACGTGGTCGGCCCGGAGCAGGGCGCCACGCTGCCGGGCATGACCGTGGTCTGCGGCGACTCGCATACCTCCACGCACGGCGCGTTCGGCGCGCTGGCGCACGGGATCGGCACTTCCGAGGTCGAGCATGTGCTGGCCACGCAGTGCCTGGTCGCCAAGAAGATGAAGAACATGCAGGTGCGCGTCGAAGGCACGCTGCCGTTCGGCGTCACTGCCAAGGACATCGTGCTGGCGGTGATCGGCAAGATCGGCACTGCCGGTGGCAACGGCCATGCGCTGGAGTTCGCCGGCAGCGCGATCCGCGAGCTGTCGATCGAAGGCCGCATGACGATCTGCAACATGGCGATCGAGGCCGGCGCGCGGGTCGGCATGGTCGCCTGCGACGACAAGACGATCGCCTACGTGAAGGACCGCCCGTTCGCGCCGAAGGGCGCCGACTGGGATGCCGCGGTTGCTGCCTGGGCCGATTTGGTGTCCGACGCCGATGCGCAGTTCGACACCGTCATCGAACTGCAGGCGGCCGATATCAAGCCGCAGGTCAGCTGGGGCACCTCGCCGGAGATGGTGCTGGCGGTCGATGCGAACGTGCCGGACCCGGCACGCGAATCCGATCCGGTCAGGAAGGATTCGATCACCCGCGCGCTGAAGTACATGGGCCTGCAGGCCAACCAGCCGATCACCACGATCAAGCTCGACCGGGTGTTCATCGGCTCGTGCACCAACTCTCGGATCGAGGATCTGCGTGCCGCCGCCGAAGTGGCCAAGGGCCGCAAGGTCGCCGCAACGGTGAAGCAGGCGCTGGTCGTGCCGGGCTCGGGCCTGGTCAAGGCGCAGGCCGAGGCCGAGGGCCTGGACAAGGTGTTCCTCGCCGCCGGCTTCGAATGGCGCGAGCCGGGCTGCTCGATGTGCCTGGCGATGAACCCGGACAAGCTCGGCAGTGGCGAGCACTGCGCGTCCACCTCCAACCGCAACTTCGAAGGCCGCCAGGGCGCCGGTGGGCGTACCCACCTGGTGAGCCCGGCGATGGCCGCCGCCGCCGCGGTGGTTGGTCACTTCGTCGACGTGCGCGACCTCATGCAGGCCTGA	MSGKTLYDKLWEMHEVKRRDDGSSLIYIDRHILHEVTSPQAFEGLRLAGRTPWRIDANIATPDHNVPTTRAERQGGLQAIADEVSRLQVQTLDENCDDFGILEFKMNDTRQGIVHVVGPEQGATLPGMTVVCGDSHTSTHGAFGALAHGIGTSEVEHVLATQCLVAKKMKNMQVRVEGTLPFGVTAKDIVLAVIGKIGTAGGNGHALEFAGSAIRELSIEGRMTICNMAIEAGARVGMVACDDKTIAYVKDRPFAPKGADWDAAVAAWADLVSDADAQFDTVIELQAADIKPQVSWGTSPEMVLAVDANVPDPARESDPVRKDSITRALKYMGLQANQPITTIKLDRVFIGSCTNSRIEDLRAAAEVAKGRKVAATVKQALVVPGSGLVKAQAEAEGLDKVFLAAGFEWREPGCSMCLAMNPDKLGSGEHCASTSNRNFEGRQGAGGRTHLVSPAMAAAAAVVGHFVDVRDLMQA	PGPT0001442_1146	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001442-leuC-K01703	NA	NA
BMS020_06992	648	leuD1_2	COG0066	3-isopropylmalate dehydratase small subunit 1	ATGAAAGCATTCACCCAACACACCGGCCTGGTCTGCCCGCTGGATCGCGCCAACGTCGATACCGACCAGATCATTCCCAAGCAGTTCCTCAAGTCGATCAAGCGGACGGGCTTTGGTCCGAACCTGTTCGACGAGTGGCGCTACCTCGATGTCGGCCAGCCCGGCCAGGATTGCAGCACGCGTCCGATCAACACCGAGTTCGTGCTGAACTTCCCGCGCTACAAGAGCGCCAGCGTGCTGCTGGCCCGCGAGAACTTCGGCTGCGGTTCCTCGCGCGAACACGCGCCGTGGGCGCTGGACGAATACGGCTTCCGCGCGGTGATCGCGCCGAGCTACGCCGACATCTTCTTCAACAACAGCTTCAAGAACGGCCTGCTGCCGATCGTGCTGGACGAGGCGGTGGTCGATGAACTGTTCGCGCAGTGCTTCGCCAACGAGGGCTACCAGCTGACCGTGGATCTGGCCGCGCAGACGGTGACGCGCCCCGATGGCGTGCAGCATGGCTTCGAGATCGATGCGTTCCGCAAGCATTGCCTGCTCAACGGTCTGGACGACATCGGCCTGACGCTGCAGGACCAGGACGCGATCAAGATGTTCGAGGCCGGCTATCGCCAGCGCCAGCCGTGGCTGTTCGGCGCGATCGGTTGA	MKAFTQHTGLVCPLDRANVDTDQIIPKQFLKSIKRTGFGPNLFDEWRYLDVGQPGQDCSTRPINTEFVLNFPRYKSASVLLARENFGCGSSREHAPWALDEYGFRAVIAPSYADIFFNNSFKNGLLPIVLDEAVVDELFAQCFANEGYQLTVDLAAQTVTRPDGVQHGFEIDAFRKHCLLNGLDDIGLTLQDQDAIKMFEAGYRQRQPWLFGAIG	PGPT0001443_567	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001443-leuD-K01704	NA	NA
BMS020_06993	765	ycgJ_2		putative methyltransferase YcgJ	ATGAGTGAGCAGTCCCATGCCCGCGTGGTGCAGGCGCAGTTCGGCGTGCAGGCCGGCGCCTACCTCAGCAGCGTGGTGCATGCGCAGGGCGCCGAGTTCGCCGAGCTGCAGGCGGCGGTCGCCGCGCACCCCGGCGCGAAGGTGCTCGACCTGGGCTGTGGCGCCGGCCATGTCAGCTTCCACGTCGCCCCGCACGCGGCCGACGTGGTCGCCTACGACCTGTCGGCGCAGATGCTCGAGGTGGTCGCGCGCGCGGCTGCCGAACGCGGGCTTGGCAACATCCGCATCGAACGCGGCGCCGCCGAGGCGTTGCCGTTCGGCGATGGCGCGTTCGACTTCGTCTTCAGTCGCTACTCGGCACATCACTGGAGCGATGTCGGCCAGGCGCTGCGCGAAGTGCGGCGGGTGCTGCGTCCCGGTGGCGTGGCGGCGTTCGTCGACGTGATGGCGCCCGGACTGCCGCTGCTGGACACCCATTTGCAGGCGATCGAAGTGCTGCGCGACACCAGCCACGTGCGCGACTACAGTGCCGCCGAATGGCTGCGTCTGGTCGGCGAGGCGGGGCTGCAGGTGCAGCGCCAGCATCGCCAGCGGTTGCGGCTGGAGTACGCCGCCTGGGTGGAGCGCATGCGCACCCCCGAGGTGTTGCGTGCGGCGATCCGCGCGCTGCAGGCCGCGGTCGGTGACGAGGTGCGCGACTACTTCGAAATCGCCGCCGACGGCTCGTTCAGCACCGACGTCATCGTGCTGTGGGCCGAGCGTTGA	MSEQSHARVVQAQFGVQAGAYLSSVVHAQGAEFAELQAAVAAHPGAKVLDLGCGAGHVSFHVAPHAADVVAYDLSAQMLEVVARAAAERGLGNIRIERGAAEALPFGDGAFDFVFSRYSAHHWSDVGQALREVRRVLRPGGVAAFVDVMAPGLPLLDTHLQAIEVLRDTSHVRDYSAAEWLRLVGEAGLQVQRQHRQRLRLEYAAWVERMRTPEVLRAAIRALQAAVGDEVRDYFEIAADGSFSTDVIVLWAER				NA	NA	NA	NA	NA
BMS020_06994	1074	leuB_2		3-isopropylmalate dehydrogenase	ATGAGCAAGCAGATCCTGGTTCTCCCCGGCGATGGCATCGGTCCGGAGATCGTCGCCGAGGCGGTCAAGGTGCTGAAGCTGGTTGACGCCAAGCACGGCCTCGGTTTCGAGCTGGTGTTCGACGAGCTCGGCGGCGCCGCCTACGACAAGTACGGCAGCCCGCTGGCCGACGAGACGCTGGACCGCGCGCGCGCCGCCGATGCGGTGCTGCTCGGTGCGGTCGGCGGCCCGAAGTGGGACACGATCGCTCCGGCGTTGCGCCCGGAGCGCGGCCTGCTGAAGATCCGTTCGCAGCTGGGCCTGTTCGGCAACCTGCGCCCTGCGCTGCTGTATCCGCAGCTGGCTGCAGCCTCAACGCTGAAGCCTGAGGTGGTCAGCGGTCTCGACATCCTGATCGTGCGCGAGCTCACCGGCGGCATCTACTTCGGCGCGCCGCGCGGCCAGGAAGTCCTGCCTGACGGTCAGCGCAAGGCCTACGACACGCTGCCGTACACCGAGAGCGAGATCCGCCGCATTGCCAAGGTTGGTTTCGAAATGGCGATGGTGCGCGGCAAGAAGCTGTGCTCGGTCGACAAGGCCAACGTGCTGGCGTCGAGCCAGCTGTGGCGCGCGGTGGTCGAGGAAGTGGCCAAGGATTATCCGGAGGTGGCGCTGTCGCACATGTACGTCGACAACGCGGCGATGCAGCTGGTGCGTGCGCCCAAGCAGTTCGACGTGATCGTCACCGACAACATGTTCGGCGACATCCTGTCCGACCAGGCCTCGATGCTGACCGGCTCGATCGGCATGCTGCCGTCGGCGTCGCTGGATGCCAACAACAAGGGCATGTACGAACCCTGCCACGGCTCGGCGCCGGACATCGCCGGGCAGGGCATCGCCAATCCGCTGGCGACGATCCTGTCAGTGTCGATGATGCTGCGCTACAGCTTCGGTCAGGCTGCGGCGGCCGATGCGATCGAACACGCAGTCGGCAAGGTGCTCGACCAGGGCCTGCGCACCGCCGACATCTGGTCCGAGGGCTGCACCAAGGTCGGCACCGCGGCAATGGGGGATGCGGTGGTCGCCGCGCTCTGA	MSKQILVLPGDGIGPEIVAEAVKVLKLVDAKHGLGFELVFDELGGAAYDKYGSPLADETLDRARAADAVLLGAVGGPKWDTIAPALRPERGLLKIRSQLGLFGNLRPALLYPQLAAASTLKPEVVSGLDILIVRELTGGIYFGAPRGQEVLPDGQRKAYDTLPYTESEIRRIAKVGFEMAMVRGKKLCSVDKANVLASSQLWRAVVEEVAKDYPEVALSHMYVDNAAMQLVRAPKQFDVIVTDNMFGDILSDQASMLTGSIGMLPSASLDANNKGMYEPCHGSAPDIAGQGIANPLATILSVSMMLRYSFGQAAAADAIEHAVGKVLDQGLRTADIWSEGCTKVGTAAMGDAVVAAL	PGPT0001441_2812	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001441-leuB-K00052	NA	NA
BMS020_06995	1278	appA_2		Periplasmic AppA protein	ATGCTGCTGCGCCCGCTGCTGATCGCCTTCGCCCTGCTGGTTCCCCTGGTCTGCCCCGCGCACGAGACGCTGGAGAAGGCCGTCGTACTCACCCGCCACGGGGTGCGCGCGGCGATGTCCAGCCCGGAGCGGCTGGAGACATTCTCGCTGCGGCGCTGGCCACGCTTCGAGGTGCCGCCCGGCCACCTGACCGCCCGCGGCGCCGACCTGGAACGCCTGCTCGGCAGCTACTACCGTGAGCGCTACCTGCGCGATGGCCTGCTGCACGGCGATGCCGGCGACTGCACGCGGGTGTTCCTGCACGCCAACCGCACCCAGCGCACCATCGCCACCGCGCAAGCGCTGGCACAGACGCTGCTGCCAGGCTGCACGCCGTCCATCGCCCACGTCGCCGAGGGCGTGGCCGATCCGATGTTCGAGGGCCCACCGGCGCTGCACACCGAGGCGGCGAATGCGCGCATGCGCGCAGCGATCGCCGGCCGCATCGGTGGCGATGCGCAGGCCTGGAACGCCAGCCAGCGCGACGCGCTGGACACGCTGCAGGCGCTGCTGCTGCAGTGCGCGCAGCGACCGTGCGCGGCCGATATCGCGCCGGACAAGCAGCGGCTGGAGACGGTCCCCGCGGCGCTGTCGGACCAGCCACGCGGCATTCCCGGCATCGAAGGGCCGGCGGCGACCGCATCCGGCATCACCGAGAGCCTGTTGATGGCCTGGGCCGATGGCCAGGACTTCGCCGCACTGGGCTGGCGCGGGCTCGACGAGGCAACCCTGCTGCGGGTGTTCGCACCGCACCAGGCCGAGTTCGCATTGCGCCTACGCGCGCCGGACGTGGCGCGCATGGCCAGCTCGCAACTGGCCGCACGCCTGTTGGCTACCTTGCTGCAGGGCACCGGGTTGCATAGTGCTTCCGCGCCGATCGGCGGCGATGCGCCGCTGGTGGTGATCTCCGGCCACGACGGCACCCTGACCCTGCTGGCCGGCCTGCTCGACCTGCACTGGCAACTGCCGGGCTACCAGCCCGACCAGGTGCCGCCGGGCGGCGCGCTGGTATTCGAGCGCTGGCGCCGAGACGACGGCAGCCGGGTGATCCGCGTGCGCTACGTCGCCCAGACCCTGGCGCAGCTGCGCGAGCGCCAGCCACTGTCGCTGGCGCAGCCACCGGCGGCCGCGGACGTGTATGTGCCGGGCTGCGGCGGCGACGATGGCGCATGCATGCTAGCGGCATTCGCCACGCGCCTGCAGCAGGCGATCGATCCGGCGTTCGTGCTGCCTGACTAG	MLLRPLLIAFALLVPLVCPAHETLEKAVVLTRHGVRAAMSSPERLETFSLRRWPRFEVPPGHLTARGADLERLLGSYYRERYLRDGLLHGDAGDCTRVFLHANRTQRTIATAQALAQTLLPGCTPSIAHVAEGVADPMFEGPPALHTEAANARMRAAIAGRIGGDAQAWNASQRDALDTLQALLLQCAQRPCAADIAPDKQRLETVPAALSDQPRGIPGIEGPAATASGITESLLMAWADGQDFAALGWRGLDEATLLRVFAPHQAEFALRLRAPDVARMASSQLAARLLATLLQGTGLHSASAPIGGDAPLVVISGHDGTLTLLAGLLDLHWQLPGYQPDQVPPGGALVFERWRRDDGSRVIRVRYVAQTLAQLRERQPLSLAQPPAAADVYVPGCGGDDGACMLAAFATRLQQAIDPAFVLPD	PGPT0002560_128	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0002560-appA-K01093	NA	NA
BMS020_06996	2874	btuB_18		Vitamin B12 transporter BtuB	ATGCGCAAGACGCTGTTCCTCTCGATCGCTCTCGCCCTGCACACCGGCGCGGCCCTGGCCCAGCCGGCAGCGGCGCCTGCCACCGCCATTCCCGCGCAGCCGCTGGACCGCGCGCTCAACACGCTGTCGCGGCAGACCGGCCTGCAGTTCATCTACGACGCCAAGGCCGCCGGCAACCCGCGCTCGCGCGCGGTCGAGGCCGGGCTGGAGACCGAACAGGCGCTGCAACGCCTGCTCGAAGGCACCGGGCTGCGCTACCGCTACCTCAACACCACCACGGTGACGATCGAGGCCGCCGCTGCCGCCGCACCGGTGCCGTCACCCGCCCCGGGCACGCCCGCCGCCAGCAGTGTGGCGCCGGCCACGCCGGCATCGGCGGTCGACCTGGAGCGCATCGAGGTCACCGGCAGCTACGCCGGCAGCCTCAGCGAGCAGATGCGCCGCAAGCGCTATGCCGACAGCGTGGTCGACGCGATCGCCGCCGAGGACATCGGCAAGCTGCCGGCGCAGAACGTCGCCGAGGCGCTGCAGCGCGTGCCCGGCGTGGCGATCGAGCGCGACCGCGGCGAAGGCGTGTACGTGCGCGTGCGCGGCCTCGGTGCCAACTTCCAGGTGACCACGCTCAACGGCCAGACCATGGCGGTCAACGAGAACGTGCGCACCTCCGGCCAGACCGGGCGCCAGTTCCGCTACGACACCCTGCCGGCCGAGCTGGTGGCCGGGCTGGATGTGATCAAGAGCCCCACTGCCGACCTCGACGAGGGCGCGATCGGCGGCGTGGTCAACGTGCGCACGTTCAAGCCGCTGGAACTGGGCAAGACCCTGTTCAATGCCTCGATCGAGAACAGCCACCCGCAGCTGGCCGACGCCAACGACCCGCGCCTGTCGGGGCTGTTCAACTGGGTCAACGCCGACGGCACCTTCGGCATGCTGGTCTCGGCCGCGTACTCGCAGCGCCACCTGCGCCAGGACCGCGTCACCGAGGTCAGCTACGACTACTACGAAGACACCAGCAGCACCGGCGGCGCGCATTACGTGCCCACCGGCATCCGCCCGACCCTGGAACTGGAAGAGCGCGAACGCGCCGGCGCCAGCGCTTCGTTCCAGTGGCGGCCGAGCGACCGCCTCGACCTCGGCCTGGACCTGTTCTATACCCGCCAGACCGTGCACTACGACGAGTACAGCCTGGGCATGGGCTGGGAACTGGAGAACATGCGCAACATCGGCGTCAGCAACGGCGGCATCACCTCGTTCGACTACGACGACGCCCAGGTGCAGCTGTCACGCGAGACGTCCGGCATCACCGACGAGAACAAGACCGCGCACCTGACCTCGCGCTGGAACGGCGATGCCTGGACGCTCGACGGCAGCGTGTTCCACTCCACCGCGCATAGCTGGGATTCGGACCCGATCCGCCGCACCCGCCTGCGTACCAGCGCCTCGGTCGACATGAGCGTGCTGCTGCCGACGTCCTCGGGCAGCAACATCCCCAGCGTGACCTTCGCCGACTACGACCCGGACGCGGCCGATGCCACCCCGGGCCGGCGGCTGGAATGGCGCACCATCGACGCGATGGACAAGGAGAGCGCGCTGCAGTTCGATGCCGAGCGCACGCTGGGCGACGGCTTCTTCCATCGCGTCAAGGCCGGCGTGAAGTACCGTGATCGTTCGCGCGACTACCAGCGCCGCGACCTGACCCTGACCAGCGGCATTTCCGGCGTGTACTTCGACGACAGCTATTTCACCGCGCTGCCGGTCGACGACTTCCTGTCCGGCACCAGCGGCAACGTGCCGACCTCGTGGCTGGCGCCGGTCGAATCGGCGTTCTGGGGCGACTGGCCGACCAGCGCCAGCCTGGCCAACACGCCGTCCGCAGCCGACCTGCAGAACTCGTACACGGTGAAGGAGAAGGTCGCCTCGGGCTATGTGATGGGCACGTTCGAGCGCGGCGCACTGCACGGCAACCTCGGTGCGCGCATGGTGCACACCCGGCAGACCACCGACGGCTATGCCGACGACGACGGCGCGGCCTCGCCGGTGCATTACCAGCGCAGCTACAACAACCTGCTGCCCTCGCTCAACGCGGTGTGGGACCTGCGCGATGACATGCTGCTGCGCGGCGCGGTGGCCAAGGTGATGACCCGCCCGGACCTGACCGACCTGTCATCCAAGCTGACCTTCAATTCCAGCGGCACGATCCTGGAGGCCAGCGGCGGCAATCCCAACCTCGAGCCCTACCAGGCCTGGCAGTACGACCTGAGCTGGGAGTGGTATTACGGCGACACCTCGGCGCTGACCGCCGGCGTGTTCTACAAGGACATCTCCAGCTTCATCCAGACCCAGTACTCCTACCTGCAGTACCAGGGCCTGACCTATCTGCTCAATTCCAAGACCAACGGCAGCAAGGCCGAGGTCAAGGGCGCCGAGGTGGCCTGGCAGCACCTGTTCAACGGCCTGCCGGCGCCGCTGGATGGACTGGGCGTGCAGCTCAACTACACCTGGACCGACAGCAGCGCGGTGTACAGCGATGACGATGGCAGCGCCTTCGAGGATGCGCTGGAGGGCGTGGCCAAGAACAGCTACAACGCGACGCTGTTCTACGAGAAGGGGCCGTTCGGCGCGCGCCTGAGCTACAGCTGGCTCGACGACGTGCTCAACGCGGTCGGCACCGCCGATGTCGCCACGCTCAACGCCGACGACTTCGGCAGCCTCGACGCCAGCGTGTCCTGGCAGGTCAACGACCACCTGTCGGTGTTCGCCAGCGGCATCAACCTGACCGGCGAGGTGCAGCGCCAGTACGTCGGCAACCACCTGTTCGGCGGCTATACCGACTACGGCCGCACCTGGTCGCTCGGCATGCGCGTGCGGTTCTGA	MRKTLFLSIALALHTGAALAQPAAAPATAIPAQPLDRALNTLSRQTGLQFIYDAKAAGNPRSRAVEAGLETEQALQRLLEGTGLRYRYLNTTTVTIEAAAAAAPVPSPAPGTPAASSVAPATPASAVDLERIEVTGSYAGSLSEQMRRKRYADSVVDAIAAEDIGKLPAQNVAEALQRVPGVAIERDRGEGVYVRVRGLGANFQVTTLNGQTMAVNENVRTSGQTGRQFRYDTLPAELVAGLDVIKSPTADLDEGAIGGVVNVRTFKPLELGKTLFNASIENSHPQLADANDPRLSGLFNWVNADGTFGMLVSAAYSQRHLRQDRVTEVSYDYYEDTSSTGGAHYVPTGIRPTLELEERERAGASASFQWRPSDRLDLGLDLFYTRQTVHYDEYSLGMGWELENMRNIGVSNGGITSFDYDDAQVQLSRETSGITDENKTAHLTSRWNGDAWTLDGSVFHSTAHSWDSDPIRRTRLRTSASVDMSVLLPTSSGSNIPSVTFADYDPDAADATPGRRLEWRTIDAMDKESALQFDAERTLGDGFFHRVKAGVKYRDRSRDYQRRDLTLTSGISGVYFDDSYFTALPVDDFLSGTSGNVPTSWLAPVESAFWGDWPTSASLANTPSAADLQNSYTVKEKVASGYVMGTFERGALHGNLGARMVHTRQTTDGYADDDGAASPVHYQRSYNNLLPSLNAVWDLRDDMLLRGAVAKVMTRPDLTDLSSKLTFNSSGTILEASGGNPNLEPYQAWQYDLSWEWYYGDTSALTAGVFYKDISSFIQTQYSYLQYQGLTYLLNSKTNGSKAEVKGAEVAWQHLFNGLPAPLDGLGVQLNYTWTDSSAVYSDDDGSAFEDALEGVAKNSYNATLFYEKGPFGARLSYSWLDDVLNAVGTADVATLNADDFGSLDASVSWQVNDHLSVFASGINLTGEVQRQYVGNHLFGGYTDYGRTWSLGMRVRF				NA	NA	NA	NA	NA
BMS020_06997	1569	leuA_3	COG0119	2-isopropylmalate synthase	GTGAACACGACCGTATCCACCCCGTCCCCCCGCATCCGAATTTTCGACACCACCCTGCGCGACGGCGAGCAGTCACCAGGCTGCAGCATGACCCCGCAGCAGAAGGTGGTGATGGCGCGCGCGCTCGACGCGCTCGGCGTGGACATCATCGAAACCGGCTTCCCGGCCAGCTCGCAGTCCGACCGCGAGGCGATGGCGGCGATCGCGCGCGAACTGCGCCGGCCGACCCTGGCGGTGCTGTCGCGCTGCCTGCAGGCCGACATCGAGACCTCGGCCAAGGCGCTGGAGGCCGCGGCCAACCCGCGCCTGCACGTGTTCCTGTCGACCAGCCCGCTGCACCGCGAGCACAAGCTGCGCCTGACCAAGGAGCAGGTGCTGGAGTCGGTGCACAAGCACGTGACGCTGGCGCGCGGCTACATCGACGACGTGGAGTTCTCTGCCGAGGATGCCACCCGTACCGAGGTCGAGTACCTGGTGGAAGTCTCGCGCGTGGCGATCGCCGCCGGCGCGACCACCATCAACCTGCCCGACACCGTCGGCTTCACCACGCCCGAGGAGATCCGCGAGATGTTCCAGCGGGTGATCGCCGGCGTGGCCGACGTGGCCGGTGCCGACAAGGTGATCTTCAGCGCGCACTGCCACAACGACCTGGGCCTGGCGGTGGCGAACTCGCTGGCCGCGGTGGAAGGCGGCGCGCGCCAGATCGAGTGCACCATCAACGGCATCGGCGAGCGCGCCGGCAACTGCGCACTGGAAGAGATCGCGATGGCACTGAAGGTGCGCAACGCGTTCTACGAATTCGAAAGCGCGATCAACACCCCGCGCATCGTGCCGACTTCGCAGCTGCTGCAGCGCCTGGTCGGCATGCCGGTCCAGCGCAACAAGGCGGTGGTCGGGGCCAATGCGTTCGCGCACGAGTCGGGCATCCACCAGCACGGCATGCTGCGCCACCGCGGCACCTACGAGATCATGCGCCCGCAGGACGTGGGCTGGCCGGATACGCAGATGGTGCTGGGCCGCCACAGCGGCCGCGCCGCGGTCGAGGCGCGCCTGCGCGCGCTCGGCTTCTGGCTGGAAGAGGAAGAGCTGAAGCTGGTGTTCGAGCAGTTCAAGGCGCTGTGCGAGAAGCAGCGCGTGGTCAACGACGCCGACCTGCAGGCGCTGATGCAGGGCTCGGCGCAGCAGGACGGTTACCGCCTGGCGTCGATGACGATCTCCGACGTCGGCAGCCGCGCCAACGCGCTGGTCGAGCTGTCCGATCCGGACGGCAACCGCGTCGCCGAAACCGCGCAGGGCAACGGCCCGGTCGATGCGCTGTTCGGCGCGCTGGCCGCCGCCACCGGGGTCAAGCTGGAGCTGGACAGCTACCAGGTGCACAGCGTCGGCATCGGCGCCGACGCGCGTGGCGAGGCCAGCCTCAGCGTGCGTCACGACGGCGAGGAATTCGAAGGCACCGGCACCAGCAAGGACATCATCGAGGCCAGCGCGCTGGCCTGGCTGGATGTGGCCAACCGCCTGCTGCGCCAGCGCAACGCCGCGCCCAGCAGCCAGGATGTCGCGGTGGCCTGA	MNTTVSTPSPRIRIFDTTLRDGEQSPGCSMTPQQKVVMARALDALGVDIIETGFPASSQSDREAMAAIARELRRPTLAVLSRCLQADIETSAKALEAAANPRLHVFLSTSPLHREHKLRLTKEQVLESVHKHVTLARGYIDDVEFSAEDATRTEVEYLVEVSRVAIAAGATTINLPDTVGFTTPEEIREMFQRVIAGVADVAGADKVIFSAHCHNDLGLAVANSLAAVEGGARQIECTINGIGERAGNCALEEIAMALKVRNAFYEFESAINTPRIVPTSQLLQRLVGMPVQRNKAVVGANAFAHESGIHQHGMLRHRGTYEIMRPQDVGWPDTQMVLGRHSGRAAVEARLRALGFWLEEEELKLVFEQFKALCEKQRVVNDADLQALMQGSAQQDGYRLASMTISDVGSRANALVELSDPDGNRVAETAQGNGPVDALFGALAAATGVKLELDSYQVHSVGIGADARGEASLSVRHDGEEFEGTGTSKDIIEASALAWLDVANRLLRQRNAAPSSQDVAVA				NA	NA	NA	NA	NA
BMS020_06998	1128			hypothetical protein	ATGCCTGACTCCGGCCGCCCCGCCCCCGCGCAGGAGCCCGACGTAGGCGACGTGGTCGCCGTCAGCGTCGCCGACGTGCTGGCGGCGCAGGCCCGCCTGCGCCGCTACCTGCCGCCCACCCCGCTGCACTACGCCGAGCGGTTCGGCGTCTGGCTGAAGCTGGAGAACCTGCAGCGCACCGGCTCGTACAAGGTCCGCGGCGCGCTGAACGCGCTGCTGGCCGGGATCGAGCGCGGCGACGACCGCCCGGTGATCTGCGCCTCGGCCGGCAACCACGCCCAGGGCGTGGCCTGGTCGGCGCACCGGCTGGGCGTGCAGGCGATCACGGTGATGCCCAACGGCGCCCCGGCGACCAAGATCGCCGGGGTCAACCACTGGGGCGCCACCGTGCGCCAGCACGGCGCCAGTTACGACGAGGCGTACGCCTTCGCGGTCGAGCTGGCCCGGCAGAACGGCTACCGCTTCCTGTCGGCCTTCGACGACCCGGACGTGATCGCCGGCCAGGGCACGCTCGGCATCGAGCTGGCGCCGCATGCGCCGGACGTGGTGATCGTGCCGATCGGCGGCGGCGGCCTGGCCTCCGGCGTCGCCCTGGCGCTGAAGTCCCAGGGCGTGCGGGTGATCGGCGCCCAGGTCGAGGGCGTCGACTCGATGGCCCGCGCGGTCAAGGGCGACGTGCGCGAGATCGCGCCGGTGCCGACCCTGGCCGACGGCGTGAAGGTCAAGATCCCCGGCTTCCTGACCCGGCGCCTGTGCGCCAGCCTGCTCGACGACATCGTCATCGTGCGCGAGGCCGAACTGCGCGAAACCCTGGTCCGGCTGGCGCTGGAAGAACACGTGATCGCCGAGGGTGCCGGCGCGCTGGCGCTGGCCGCGGGTAAACGCGTGGCCGGCAAACGCAAGTGCGCGGTCGTCTCCGGCGGTAATATCGACGCCTCCGTCCTGGCCACCCTGCTTTCCGAAGTGCGACCGCGACCGCCGCGCAAACCCCGCCGGCGCAGCAGTGAGCGACTTAGAAGCCAGCGCAACCAAGCCACCGCTGCGCAAGCCAAGCCCGAATCCACCCCATCCACCGCTCACGCATCACCGCCAGTCACCGCCATCGCAGTAGAGGAGTCCTCCTGGTGA	MPDSGRPAPAQEPDVGDVVAVSVADVLAAQARLRRYLPPTPLHYAERFGVWLKLENLQRTGSYKVRGALNALLAGIERGDDRPVICASAGNHAQGVAWSAHRLGVQAITVMPNGAPATKIAGVNHWGATVRQHGASYDEAYAFAVELARQNGYRFLSAFDDPDVIAGQGTLGIELAPHAPDVVIVPIGGGGLASGVALALKSQGVRVIGAQVEGVDSMARAVKGDVREIAPVPTLADGVKVKIPGFLTRRLCASLLDDIVIVREAELRETLVRLALEEHVIAEGAGALALAAGKRVAGKRKCAVVSGGNIDASVLATLLSEVRPRPPRKPRRRSSERLRSQRNQATAAQAKPESTPSTAHASPPVTAIAVEESSW	PGPT0001960_4919	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
BMS020_06999	246			hypothetical protein	ATGCGTTACCGGCTTGACCTGGTGATCAAGCCCGCCGACGGCGCGCTGATCCGTGTGATCGGCATGGCCGAACGGCGCGGCTTCAGCCCGCGCGCGATCAACGGCAGCCCCGACGCCGCCGACGCCGGCCGCTGGCACCTGCAGCTGGAGGTCGACGGCAGCCGTCCGGCCGAAACCCTGCAGCGCCAGCTGGAGAAGGTCTACGACTGCGAATCGGTGCGCATCACCGCGCTGGAGGCTGCATGA	MRYRLDLVIKPADGALIRVIGMAERRGFSPRAINGSPDAADAGRWHLQLEVDGSRPAETLQRQLEKVYDCESVRITALEAA	PGPT0008210_319	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,PGPT0008210-ilvM-K11258	NA	NA
BMS020_07000	1725	ilvG_1		Acetolactate synthase isozyme 2 large subunit	ATGAACACCTCCGCACAACCCGGCACGCCCCGCAACGGCGCGCGCTGGTTGACGCAGGCCCTGGAAGCCGAAGGCGTGGATACGCTGTTCGGCTATCCGGGCGGCACCATCATGCCGTTCTACGACGCGCTCGTGGACTCCGGGCTCAAGCACATCCTGGTCCGCCACGAGCAGGGCGCGGCGCTCGCCGCGAACGGATATGCACGCGCCTCCGGCAAGGTCGGCGTGTGCGTGGCCACCTCCGGCCCGGGCGCGTCCAACCTGGTCACCGGCATCGCCGACGCGCTGCTCGATTCGGTGCCGATGGTGTGCCTGACCGGCCAGGTGGCGACCCCGCTGCTGGGCACCGATGCGTTCCAGGAGCTGGACGTGTTCGGGCTGACCATGCCGATCGTCAAGCACAGCTTCCTGGTCAAGCACGTCGACGAACTGCCGCAGGTGATCGCCGAGGCGTTCCGGATCGCCCGCGAGGGCCGTCCCGGTCCGGTGCTGGTGGACCTGCCCAAGGACGTGCAGCTGGCCGCGGCCGGGCACCTGCCCGACCACGTGCCGGCGGTGGTGGAGCCGCTGCCGGCGCCGGAGAGCGTGAAGCTGGCCGAGGCGCTGGCGGCGATCGCCGGCGCCGAGAAGCCGGTGGTCTACGGCGGTGGCGGCATCGCCCTGGCCGACGCGGTGGACGCGTTCCGCCAGTTCGTCGATGCCACCGCGCTGCCGACCGTGCTGACCCTGCGCGGACTGGGCGCGCTGCCGGCCGGGCATCCCAGCTATCTGGGCATGCTCGGCATGCACGGCACCCGCGCGGCCAACATGGCCGTGCAGGAATGCGACCTGCTGGTCGTGGTCGGCGCCCGCTTCGACGACCGCGCCACCGGCAAGCTGAACGAGTTCGCGCCGTTCGCCCGGGTCATCCACCTGGACGCCGACGCCTACGAGATTTCCAAGCTGCGCACCGCCGACATCGCGGTGCCCGGCGACGTCGCCACCAGCCTGAAGGCGCTGGCGGCGGCACGCAGCACCTGCGAGGACTGGCGGCGCCGCTGCCAGGCCAACCGCGAGCGCTTCGGCGCCCGCTACGACGCGCCCGGCACCGACATCTATGCCCCGGCCCTGCTCAAGCGCCTGAGCGAGGTCGCCCCGGCCGATGCGATCGTCACCTGCGACGTCGGCCAGCACCAGATGTGGGTGGCCCAGCATTGGCGTTTCAACCATCCGCGCAACCACCTGACCAGCGGCGCGCTGGGCACGATGGGCTTCGGCCTGCCGGCGGCGATGGGCGCGCAGTTCGCCTGCCCGGAGCGCACCGTGGTGCTGGTCAACGGCGACGGCGGCTTCATGATGAACGTGCAGGAGCTGGTCACCATCGCCCGCTGCAAGCTGCCGGTGAAGATCGTGCTGCTCGACAACAGCTCGCTGGGCATGGTCCGGCAGTGGCAAGAACTGTTCTTCGCCGAGCGCTACAGCGAGATCGACCTGTCCGACAACCCGGATTTCACTGCGCTGGCCAAGGTCTTCGGCATTCCGGCGCGGCACATCAGCGCGCGCAGCGAGGTCGACGACGGCCTGGCCGCGCTGCTGGCCGAACCCGGCCCGGCGCTGCTGCACGTCACCATCGACGCCCGCGCCAATGTCTGGCCGCTGGTCCCGCCCAACACCGCCAACAGCACCATGCTGGAAGCCAACCCCGCCCATGCCCCCAAGGAGGCCAGCCATGCGTTACCGGCTTGA	MNTSAQPGTPRNGARWLTQALEAEGVDTLFGYPGGTIMPFYDALVDSGLKHILVRHEQGAALAANGYARASGKVGVCVATSGPGASNLVTGIADALLDSVPMVCLTGQVATPLLGTDAFQELDVFGLTMPIVKHSFLVKHVDELPQVIAEAFRIAREGRPGPVLVDLPKDVQLAAAGHLPDHVPAVVEPLPAPESVKLAEALAAIAGAEKPVVYGGGGIALADAVDAFRQFVDATALPTVLTLRGLGALPAGHPSYLGMLGMHGTRAANMAVQECDLLVVVGARFDDRATGKLNEFAPFARVIHLDADAYEISKLRTADIAVPGDVATSLKALAAARSTCEDWRRRCQANRERFGARYDAPGTDIYAPALLKRLSEVAPADAIVTCDVGQHQMWVAQHWRFNHPRNHLTSGALGTMGFGLPAAMGAQFACPERTVVLVNGDGGFMMNVQELVTIARCKLPVKIVLLDNSSLGMVRQWQELFFAERYSEIDLSDNPDFTALAKVFGIPARHISARSEVDDGLAALLAEPGPALLHVTIDARANVWPLVPPNTANSTMLEANPAHAPKEASHALPA	PGPT0008185_4428	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
BMS020_07001	1002	ilvC_1	COG0059	Ketol-acid reductoisomerase (NADP(+))	ATGAGCAACGACCAGACCATCAAAATCGCCGTGATCGGCTACGGCAGCCAGGGCCGCGCGCACGCGCTGAACCTGCGCGATTCCGGCTTCGACGTCACCGTGGGCCTGCGCCCGGGCGGCCCGACCGAAGCCAAGGCCCAGGCCGACGGCTTCGTGGTCAAGACTCCCGCCGAAGCGGTCAAGGACGCCGACCTGGTCGCCGTGCTGACCCCGGACATGGTGCAGAAGAAGCTGTACGAGGACGTGCTGGCCGGCAACATGAAGCAGGGCGCCTGCCTGCTGTTCGCGCATGGCCTGAACGTGCACTTCGGCATGATCACCCCGCGCGAGGACCTGGACGTGGCGCTGGTCGCGCCGAAGGGCCCGGGCGCGCTGGTGCGTCGCGAATACGAGATCGGCCGCGGCGTGCCGTGCATCTACGCGGTGTACCAGGACAAGACCGGCAAGGCCGAGCAGCTGGCGCTGACCTACGCCGGCGGCCTGGGCGGCGCGCGCGCCAACCTGATCAAGACCACCTTCAAGGAAGAGACCGAGACCGACCTGTTCGGCGAGCAGGCGGTGCTGTGCGGCGGTGCCTCGTCGCTGGTCCAGGCCGGCTTCGAGACCCTGGTGGAAGCCGGCTACCAGCCGGAAATCGCCTATTACGAAGTGCTGCACGAACTGAAGCTGATCGTCGACCTGTTCTATGAAGGCGGCATCACCCGCATGCTGGAGTTCATCTCCGAGACCGCGCAGTACGGCGACTACGTCAGCGGCCCGCGCGTGATCGACGCCAGCGTCAAGGCGCGCATGAAGGACGTGCTGACCGACATCCAGAACGGCACGTTCACCAAGAACTGGGTCGCCGAGTACGAAGCCGGCCTGCCGAACTACAACAAGTTCAAGCAGGCCGACATGGAGCACCCGATCGAGAAGGTGGGCAAGGAGCTGCGCGCCAAGATGGTATGGCTGCAGGGTCAGACCGAGACCGCGCAGACAGCATCCAAGCAACAGGCCGCGTAA	MSNDQTIKIAVIGYGSQGRAHALNLRDSGFDVTVGLRPGGPTEAKAQADGFVVKTPAEAVKDADLVAVLTPDMVQKKLYEDVLAGNMKQGACLLFAHGLNVHFGMITPREDLDVALVAPKGPGALVRREYEIGRGVPCIYAVYQDKTGKAEQLALTYAGGLGGARANLIKTTFKEETETDLFGEQAVLCGGASSLVQAGFETLVEAGYQPEIAYYEVLHELKLIVDLFYEGGITRMLEFISETAQYGDYVSGPRVIDASVKARMKDVLTDIQNGTFTKNWVAEYEAGLPNYNKFKQADMEHPIEKVGKELRAKMVWLQGQTETAQTASKQQAA	PGPT0008735_3863	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
BMS020_07002	1794			hypothetical protein	ATGTCAACGACGACGCAGCACCCGCTGCTCAACCTGCCTGATGCGCCGGTCGGTTTGCTGCGGTTGCTGCCCGATGGCCGCTTCGGTGGATGCAACCGCGATGCCCTGGGCCTGATCGGCTGCGACGTCCTCGCCCTGGCGGCGGCCAGCGCGACGACCGTGTTGGGACTGGAGCCGGCGCTGCTGGCCGATGAGGAGGGCAGTTGGCCGGTGCTGCCCGAGCTGCCGGGCGTGAGCATGCGCTACCGGCGCGAACACGCTGGCGATGGCTGGCTGCTGGCATTGGCGCCCGCCGCGCCGACGTTGCAGCCCACGGCGGACGGCTCCGCGGACGCCGCCGGAGCCAGCGTCGGCGCGACGCCGCAGGCGCCCCCGCGCGAGGCGCGTCTGCTCGGGCAGGTCGTGCAGGCGCTGGCGGCCTGCGATCTGGCCTTGACGTTCGAGCCGGAGACGGTGGATTCGCCGCTCGGGCGGCGCCTCGCCGCCGGATTCGGCAACCTTGCCGAGGCGATCCGGCAGGCGGTGTCGCTTTCGGTACAGGTGGCGGCCGAGCTGGCGCCACTGGTCGCCGAAAACGACGTCCTTGCGAGCCAGGTGCAGGCGCAGACCACCGCTCTCGAAGGCGCGCTGGAGGCCGACCGGCGGCTATCGGAGACGCTCAGGGGCGTGGCCAGCGACGTGCAAACGGTGATCGATACGGCGGCCGAGGCCGACGCCGGGGCCCGGCGCGGCATCGATGCGGCGCAGACGCTCGCTGCGGCGATGGTGCAGGTGGAGCAGCGCGCTGCGCGCGCTGGCGAGGTGATCGCCGTGATCGACACGGTGGCCTTCCAGACCAACATCCTGTCGATCAATGCCAGCATCGAGGCGGCCCGCGCCGGGGCCGCAGGGCGCGGTTTCGCGGTCGTGGCGCAGGAGATCCGGCGGTTGGCGGAGCAGGCCGCACAGGCCGCACGCGACGTGCGCACGATCATCGGCCAGACCAGTGCGGCGGTGTCGGAAGGGGGCGCGTCGGCGCGGAGCACGGGTGAGATCCTGCAGGGCATTGGCGGCACGCTGGCGCGCGCCAGTGCCGCGATGGATGCGGTCGCCGTGCGCATCCGCGCGCAGGATGGCGAAGTCCATGCGATCGAGGCGGCCATGGAGAAGGTCGTCAGGCTCGGCGAGAGCAACCTGCAGCACGCCGCCGGCGTGGCGCTGCGTGGCCAGGCGCTCGGGCGCGGGGCCGAGGCGCTGGCCGATTGCGTGGGTCTGTTCCGCTTGCCGCAGGACCCGCTGCGCGAGCCGCGCCATGCGCAGGCCCGTGCGCTCGCCGCGGCGGCGGCGGCGGCGGTGGGGGAGCGGCTGGAGGAGGCGCTGGGGCGCCGCGTGATTTCCGACGATGCGCTGTTCAGCCGCGAATACAGCCGGATCGAGGGCGTCGAGCCCGCCAAGTTCCACACGCCCTTCGATGCGTTGTGCGACGAGGTGCTGCCGCAGATCCAGGAACCAGTGCTCGAGGAGGTGCCGTGGATCGTCTTCGCGATATGCGCCAACCCGGACGGCTACGTGCCGACCCACAACCTGCGCTTCAGCCAGCCATTGACGGGTGATCGTGCCCGCGATCTGGTGGGCAACCGGACCAAGCGGATCTTCGCGGACCGGGTCGGGCGCAGCGTCGGTGCGCACACCGATCCGTACCGGCTGCAGGTCTACCGGCGCGATACCGGCGAGATCATGTTCGACCTGTCCGTGCCGATCGAGGTGGGGGGGCGCCATTGGGGCGGATTCCGCATCGGCTATACGCTCGAATGA	MSTTTQHPLLNLPDAPVGLLRLLPDGRFGGCNRDALGLIGCDVLALAAASATTVLGLEPALLADEEGSWPVLPELPGVSMRYRREHAGDGWLLALAPAAPTLQPTADGSADAAGASVGATPQAPPREARLLGQVVQALAACDLALTFEPETVDSPLGRRLAAGFGNLAEAIRQAVSLSVQVAAELAPLVAENDVLASQVQAQTTALEGALEADRRLSETLRGVASDVQTVIDTAAEADAGARRGIDAAQTLAAAMVQVEQRAARAGEVIAVIDTVAFQTNILSINASIEAARAGAAGRGFAVVAQEIRRLAEQAAQAARDVRTIIGQTSAAVSEGGASARSTGEILQGIGGTLARASAAMDAVAVRIRAQDGEVHAIEAAMEKVVRLGESNLQHAAGVALRGQALGRGAEALADCVGLFRLPQDPLREPRHAQARALAAAAAAAVGERLEEALGRRVISDDALFSREYSRIEGVEPAKFHTPFDALCDEVLPQIQEPVLEEVPWIVFAICANPDGYVPTHNLRFSQPLTGDRARDLVGNRTKRIFADRVGRSVGAHTDPYRLQVYRRDTGEIMFDLSVPIEVGGRHWGGFRIGYTLE	PGPT0015710_12589	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
BMS020_07003	2616	btuB_19		Vitamin B12 transporter BtuB	ATGAACCAACGGACGTATCGCCCGGCCCTGCGCCGTGGCCCGCTGTTTGCCGCACTCGCGATCTGCCTGACCAACACCGCCTTCGCCCAGGACGACACCCAGTCCACGAAGGACGCCACCACCACCCTCGACCGCATCGAGATCACCGGTTCGCGCATCAAGCGCGCCGACGTGGAAGGCGCACTGCCGGTCACCGTGATCGGTCGCCAGGACATCGAAGTCAGCGGCAAGAGCACGGTCGCCGACATCCTGCAGAGCTCGAGCTTCAACTCGTTCGGCTCGTTCACCCCGACCTCGGGCAGCTCGGCGCAGTCGTTCGCCGGCCTCAGCCTGCGCGGCCTCGGCGAAGGCCGCACCCTGATCCTGATCGACGGCCGCCGCGCCGCCGTTTCGCCGCTGACCGGCGAAGGCCAGGACCTGAGCTCGATCCCGGCCGCGGCCGTGGAGCGCATCGAGATCCTCACTGACGGCGCGTCGGCGATCTACGGCGCCGACGCGATCGGCGGCGTGGTCAACGTGATCACACGCAAGGACTTCGAAGGCTTCCAGGTCAGCACCGGCGTCACCGACAACCACTACGGCGGCGACGCCTCGGAAGGCTCGGTCCTGTTCGGCGCGGTGGGCGAGCGCGGCCGCATCATGGGCGGCATCTCCTACACCAACCAGAAGATCAGCTACGTCCGCGACTACCCGTGGTCGGATTCGGTCGCCGGCTCCTCGTACTCGAACAACTACCTGAAGGTGCTCACCGCTGCCGATGGCAGCACGGTGCCGGGCTCCAATCTGTACACCAACGGCAGCAGCGCGGTGCCGGATGGCTGCGACAGCACCAACTTCTACGAAACCACCAACAGCAGCGGCTACACCAGCTGCCTGTACAACTACGTCGGCGACATGGCCGACACCGCCAGCATCAAGAACAAGAACCTGTTCCTGCGCTCGGAATACGAGCTCAGCGACATGTGGACGGTCAACACCGACGTCTACGTCAACAAGAAGCGCAGCATGAGCGTGTACGCGCCCGTGCCGGAGAGCATCTATGTCTCCGCCGACAGCCCGAACAACACCACCGGCCAGGCGGCCTACATCAAGCACCGCTTCGCCGCGCTCGGCAACCGCTACACCTACACCGACGAAAATGCCTACGACATCAACCTGAGCCTGCACGGCCAGCTGACGGACAGCACCAGCGTCGAGTTCGGCGTGCGCACCAACGAGTCGCGCGCGACCGTGCTGGGCTACAACTACGTCAACATCCCGGTGGCCGAGGCGTACTTCGAGTCGGGCGAATACAACGTGTTCGATCCGTACTCGAACTCGGAAGAAGTGCTCGATGCGATCCGCACCACGATCAGCCGCGACACCTTCTACAAGCAGAAGGAGTTCAACGCCCTGTTGAACACCGACCTGTTCACCCTGCCGGGCGGCGTCTCCTCGCTGGCCGTCGGTGCCGAGTACAGCAAGCACGACTACCAGGACCTGTACGACGCGCAGTCCGAAGCCGGCAACGTCGGCGGCTCGGCGGGTAACTCCGCCTGGGGCAGCCGCAACCTCGCCTCCGCCTACGCGGAGTGGAGCCTGCCGCTGCTGGCCAGCCTGTCGGCCGATGCCGCGGTGCGCTATGACCGCTACTCGGACTTCGGCGACTCCACCTCGCCCAAGCTGTCGCTGCGCTACCAGCCGCTGGACAACGTGACCCTGCGTGCCTCGTACGGCGAAGGCTTCCGCGCCCCGACCCTGCAGGCGCTGAACCAGCAGACCGCGTTCTCGGCCTACAGCGTCACCGACGCCGCCACCGCGATCGCCTACGGCCTGTCCGCCTCGTCCTCGATCCAGATCAACGGCTACAGCGTCGCCAACCCGGATCTGAAGGCCGAAACCTCCAAGCAGTTCAGCTTCGGCGTGGTGTACGACCCGTTCTCCTGGGCCAACATCACCCTGGACTACTGGAACACCAAGATCGAGAACCAGATCAAGTGGTACTCGGCGCAGACCGTCATCAACCGCACCGCGCTTGGCCAGTACCTGCCTGACAACCTGTACGTCGTGCGCAACAGCGACGGCTCGATCCAGTCCGTGTACGCCGGTTACGGCAACGAAGGCCTGGTCAAGACCGACGGCATCGACCTGAACATCCGCACCCGCTTCGACCTGGGCAACTGGGGCAAGCTGACCTCGGCGCTGCAGGGCACCTGGACCCACAGCTACAAGATCGAGAGCGAGTACGGTTCGGACGAGTACGTCGGCACCAACGGCTACCCGGAATGGCGCGCCAACCTCAACACCCGCTGGGATCTGGGTGACTGGAGCTTCGCCTGGACGGTCAACATGATCGGCTACGAGCCGGGCTACTACGTCGACTACTACGAAGGCACCTACAGCTGCTCGCAGCTGAAGGAATGGGGCTACGTCGGCCGTTGCAGCGGCGCCTACATCACCCACGATGTCCAGGCCAGCTACAACGCCCCGTGGAACGCCACGATCTCGCTCGGCGTGCGCAACCTGACCGACAAGGCTCCGGTGTACGACGCGGCCTACTCGCCGACCAACTTTAACAGCTACCTGTACAACGGCTACGGCCGCCAGCTGTACATCCGTTACACGCAGAACTTCTGA	MNQRTYRPALRRGPLFAALAICLTNTAFAQDDTQSTKDATTTLDRIEITGSRIKRADVEGALPVTVIGRQDIEVSGKSTVADILQSSSFNSFGSFTPTSGSSAQSFAGLSLRGLGEGRTLILIDGRRAAVSPLTGEGQDLSSIPAAAVERIEILTDGASAIYGADAIGGVVNVITRKDFEGFQVSTGVTDNHYGGDASEGSVLFGAVGERGRIMGGISYTNQKISYVRDYPWSDSVAGSSYSNNYLKVLTAADGSTVPGSNLYTNGSSAVPDGCDSTNFYETTNSSGYTSCLYNYVGDMADTASIKNKNLFLRSEYELSDMWTVNTDVYVNKKRSMSVYAPVPESIYVSADSPNNTTGQAAYIKHRFAALGNRYTYTDENAYDINLSLHGQLTDSTSVEFGVRTNESRATVLGYNYVNIPVAEAYFESGEYNVFDPYSNSEEVLDAIRTTISRDTFYKQKEFNALLNTDLFTLPGGVSSLAVGAEYSKHDYQDLYDAQSEAGNVGGSAGNSAWGSRNLASAYAEWSLPLLASLSADAAVRYDRYSDFGDSTSPKLSLRYQPLDNVTLRASYGEGFRAPTLQALNQQTAFSAYSVTDAATAIAYGLSASSSIQINGYSVANPDLKAETSKQFSFGVVYDPFSWANITLDYWNTKIENQIKWYSAQTVINRTALGQYLPDNLYVVRNSDGSIQSVYAGYGNEGLVKTDGIDLNIRTRFDLGNWGKLTSALQGTWTHSYKIESEYGSDEYVGTNGYPEWRANLNTRWDLGDWSFAWTVNMIGYEPGYYVDYYEGTYSCSQLKEWGYVGRCSGAYITHDVQASYNAPWNATISLGVRNLTDKAPVYDAAYSPTNFNSYLYNGYGRQLYIRYTQNF	PGPT0003790_4529	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_07004	2346	tolB_4		Tol-Pal system protein TolB	ATGAACACCGAATCCCTTGAAAGCTTGATGCCTGCGCGGTTGCGGGTCGGGCGTTGCCTGGTCGATCCGGTGTCGCGCGAAGTGCATGCGCCGGGCCTGCGCCGGCCACTCCGCCTCACGCCGAAGGCGATGGCGGTGCTGCGGGTGCTGGCGCTGCGCGCCGGCGAGGTGGTGACCCGCGAGCAACTGCTGGCCGAGGTCTGGCCGGACACGATGCCGACCAACGATGTGGTGACCCAGGCGGTGACGCAGCTGCGCAAGGCGCTTGCCGCTGCCGGCGAGGAGCGCGGGGCCGGTGGGATCGAAACCATCGCCAAGACCGGCTACCGGTTGCTGGCGCCGGTGTCGTGGGAGCCGGGCGAGGACGTGGCGGGCTTGGCTGCACCGTCCCCACCGGCCACAGATCGCGAGGCGGGTGCGGCGATGGTGGACCCGTTGCCACGATCGCCGGTCGAAGCAGGGAACGTCCTCCCGGCGCCTCCCCCCACGGGGGCGCGCGCGCGTCGGCGCTGGCGGCTGTGGGCCGTGGCCTGCCTGGTGGTGTTGTCGGTCGCGTTCGCCGGCGGGATGTTCGCCGCGCGATACCTGCGCGACGACGCGCCGGCGGGCGTCGTCGCGCAGGGCGACGCTCCGCGCGTCACGGGCGTGCCGCGGCTGCCGTACCGGCTGATCACTTCCAGCGGCAACTTCGACATCACCCCGACGCTGTCTCCGGATGGCTCGATGGTGGCCTACACCTCGGTCACGCCAGACCGGCCGGGGACCTCGATCCTGGTCAAGACCACCGACGCGGCACCGCCGCGGGTCTTGAGCCGGACCCCGCAGGCCGCGCAGGACCGGTTGCCGGCCTGGTCGCCGGACGGGCGCCAGATCGCGTTCGTCCGCCAGAGCCAGGACGGCCAGTGCCGGGTGATGCTGGCCTCGGCAAACGGCGGCGGGGACGAGCGCGAGCTGGTCCGCTGCGATGGCAGCGACATGCTCAGCTTCAGCTGGGCGCCGGATGGGCGCGCGCTGTTGTTCGGCACGATGACTGGCGAGCATCCGGGTCGCGGGATCCGCCGGCTGGAGCTGGATACCGGGCGTTGGCAGGCGATCGCCTATCGCAGCGGCCCGGAGGACTTCGATTACGCGCCCCAGTACTCGCCGGACGGCCGTTGGATCGCCTTCGCGCGCAATCCGCAGATGGGCGACGTGTGGCTGCTGCCCGCGCAGGGCGGCGATCCGCAGCCGTTGACCCGCGACAGCGCCGAGATCCGTGGCCTGACCTGGTTGCCGGACAGCACCGGCGTGGTGTTCGGGCGGCGTGTGGACAGCCAGTCGCGGCTGTACCGCGTCGATCTCGGCACCCACCTGGTGCGCGATCTGGGCGTGGACGATGCGCAGGCGCCGGTGATCTCGGCCAACCAGGGCAAGCTGGCGTTCGTGCAGCGCCGCCCGCAGTTCGGTGTGTACCGGATCCGCCACGATGCGCTGGGCAATGTGCGGCGCGAGCGCCTGTTCGCCTCCAATGGCCGCGATTCGCAGCCGATGGTCGCGCCCAGCGGCCGCCAGCTGGTGTTCGCATCGGACCGCTCGGGCCAATATCAATTGTGGTGGGCCGACCTCACCACGCCGGAATCGCTGCGCCCGATCGATGGGCTGGTGCCGGAGACCCGGCAATCGCCGGACTGGTCGCCCGATTCGCTGAGCCTGCTGGTGGCGGCGCGCGAGGGCAATGGCGAGCCGGCGCTGTACGAGGTGATGCCGGCGTTGAACCGGTTGGCGATGCTGCCGGTGCCCGAGCCGCGGCCGTTGCAGGCGGTGTACCTGTCCGATCCGCGCCGCATCCTGGTGCTGTCGGCCACCGATTCCGGCGGCGCGCGGCTGACCCTGTACGACCGCAGCACCCGGCCATGGAGCCGGTTGAAGGTGTTGGAGGACGTGTCGCAGGTGCGCTTCGATCGCGAGCACGACGATGTGCTGCTGACCCGCTTTTCCCGCGATGGCCTGTGGCGGGTGGACCAGTCGCTGGACGCCGGCTCGCTGAGCGAGGTGGTGCCGGACGCGCCGACCCGCTGGCGCTACCGCAGCTGGGCGGTGGCCGGTGGGCAGATCCACTATCTGTGGTCGTCCGGGGAGTGCGCCGCCTACGACAGCCGCCTCGACGCCGCGGCGGCGCGTGAGCGCGATGGCTACTGTGTCGACAACGGCCGCTTCAGTGCGACCAATGGCTTCAGTGTCGATCCCCGCGGCAACGCGCTGTACGTTGCGCTGGCGGCCGAGGATGGCAGCGAAATCGGCTTCATGAACCTGCCGCACGAACACCCGGGCTTCATTGGTGTCGCGCCCAAGTTGTTGAATTGGTAG	MNTESLESLMPARLRVGRCLVDPVSREVHAPGLRRPLRLTPKAMAVLRVLALRAGEVVTREQLLAEVWPDTMPTNDVVTQAVTQLRKALAAAGEERGAGGIETIAKTGYRLLAPVSWEPGEDVAGLAAPSPPATDREAGAAMVDPLPRSPVEAGNVLPAPPPTGARARRRWRLWAVACLVVLSVAFAGGMFAARYLRDDAPAGVVAQGDAPRVTGVPRLPYRLITSSGNFDITPTLSPDGSMVAYTSVTPDRPGTSILVKTTDAAPPRVLSRTPQAAQDRLPAWSPDGRQIAFVRQSQDGQCRVMLASANGGGDERELVRCDGSDMLSFSWAPDGRALLFGTMTGEHPGRGIRRLELDTGRWQAIAYRSGPEDFDYAPQYSPDGRWIAFARNPQMGDVWLLPAQGGDPQPLTRDSAEIRGLTWLPDSTGVVFGRRVDSQSRLYRVDLGTHLVRDLGVDDAQAPVISANQGKLAFVQRRPQFGVYRIRHDALGNVRRERLFASNGRDSQPMVAPSGRQLVFASDRSGQYQLWWADLTTPESLRPIDGLVPETRQSPDWSPDSLSLLVAAREGNGEPALYEVMPALNRLAMLPVPEPRPLQAVYLSDPRRILVLSATDSGGARLTLYDRSTRPWSRLKVLEDVSQVRFDREHDDVLLTRFSRDGLWRVDQSLDAGSLSEVVPDAPTRWRYRSWAVAGGQIHYLWSSGECAAYDSRLDAAAARERDGYCVDNGRFSATNGFSVDPRGNALYVALAAEDGSEIGFMNLPHEHPGFIGVAPKLLNW				NA	NA	NA	NA	NA
BMS020_07005	894			hypothetical protein	ATGAACCATGTCCTGACTGCCGACCGTGGCGTGCCGGTGCTGCTCGATGCCGACAGCGTGGTGCCCGCCGCGGCCTGCCTGGGCGCGGCGCGCCTGGGCAGCGTGCGTGCGGCGCCAAGCATGTTCACGGTCTGGATCCAGCTGCGCGGGCGTTCCTGGATCGAGGCCAAGGAAGGGCGCTTCCGCCTGCGCGCCGGCGATTGGATCGCCTTCGACCGGGAGTCGCGCCCGACCTTGCAGGCCGACCGCCAAGGGCTGTGCATCGGCGTCGGCCTGAGCGGGTCCAGCCTGAACGCGCTGGCCGAGTTGACCGACAACGCGTTGTATCCGGGCCGCAGCCACCTGGCCCGGCGCGATCTGCGCGCCACGCTGGCGTTGTGGCGCATGGCGGCCCGTTCCGATGGCATGCACGGTATCCGCCCGCTGCTGCTGCACCTGGCCGAGATGCAGGCAGGACTGTCCGAACAGGAACAGCGCTGCCCGGGGCGGTCGCGCAGCCGCCGGCGCCAGGTGTTCAACCGCATGCAGCGCGCGCGCCTGTACCTGGAAGGCAACAGTGACCGCGTGGTGCGCGTGGCCGAACTGGCGCAGCTGACCAACTTCTCCAGCTGGTATGTCTCCAAGACCTTCCAGAGCCTGTACGACGAGAGCCCGCAGGCGCTGTCGGCACGCTTGCGCCTGGAGCGGGCGGCCGACCTGCTGCGCGACACCTCGATGATGATCGGCGAAGTCGCCGCGGCCAGCGGATTCGACAACTGCTGCAGCTTCGCGCGGGCGTTCCGTGCGCGCTTCGGTGTCTCCGCATCGCACTACCGCGACCAAGTGGCACTTCCGCCAGATTCGGCAAAGTCGCGTGGCGGACGACGCAAAGCGGTGGCGTTCACGCAATCGTAA	MNHVLTADRGVPVLLDADSVVPAAACLGAARLGSVRAAPSMFTVWIQLRGRSWIEAKEGRFRLRAGDWIAFDRESRPTLQADRQGLCIGVGLSGSSLNALAELTDNALYPGRSHLARRDLRATLALWRMAARSDGMHGIRPLLLHLAEMQAGLSEQEQRCPGRSRSRRRQVFNRMQRARLYLEGNSDRVVRVAELAQLTNFSSWYVSKTFQSLYDESPQALSARLRLERAADLLRDTSMMIGEVAAASGFDNCCSFARAFRARFGVSASHYRDQVALPPDSAKSRGGRRKAVAFTQS				NA	NA	NA	NA	NA
BMS020_07006	2979	btuB_20		Vitamin B12 transporter BtuB	ATGAACCTTCGCACCCCCGCAGTGCGGCTGGGCCTGCTGCCCGCCGGCATCGCGATCGCGTTGACGCCGGCTTTCGCCAGCGCGCAAGAGCAGTCCGCCGAACAGAACACCACGACCACGCTGGACCGCATCGAGATCACTGGCTCGCGCATCCGTTCCGTTGACCTGGAAACCGCGCAGCCGGTGTTCACCGTCTCCAGCGAGGACATCAAGAAGTCCGGCCTGATCAGCGTCGGCGACATCCTGCAGAACATGTCGATCGCCGGCACGCAGACCTTCAGCAAGGCGGCGGTGCTGACCTCCAACGCCGAGCAGGGCGGCCAGTACGTCAACCTGTACAACCTGGGCGAGAACCGCACCCTGGTGCTGGTCAACGGCAAGCGCTGGACCAGCAGCATCAACGGCTACACCGACCTGTCGACCATCCCGAGCGCGCTGATCGACCATATCGAAGTGCTGAAGGACGGCGCCTCGGCGATCTACGGCTCCGACGCCGTGGCCGGCGTGGTCAACATCATCCTGAAGAAGAACTTCGACGGCGCCGAAGCGTCGGTGATGTACGGCCAGAACGACAGCGGCGACGGCGCCAAGACCCAGTACTCGATGGTGCTGGGCACCACCGGCGAGCGCTCCTCGCTGATGTTCGGCGCGAGCTACTCGAAGGAAGATCCGGTCTGGGCGAAGGACCGTGCGCTGACCCGCAACATGTACGGCAGCAACCACGTGAGCTCGGGCCTCAGTGCCACTGGCCCGTGGGGCCGCTTCGTGGATCCGCGTGCTGCCGGTACCGCAGGCGCGGGCAACTACGTCAATTCCGACGGTGATGTGGTTGCGGCTGGTACCGAGGGGGCGACCTGGTCGCCGAACCAGTACGTGCTCAACCACACCGGCAGCTACCATGGCGACGGCGTCGGTTCGGACAGCCGTGATTTCGCCAACTACCACACCGGCGTGACCACGGACGATCGCTACAACTCGATCGACCAGATGATGTGGAACCAGGGCGGCACCAACAAGTCGGTGTTCGCCTCGGGCAGCTACGACATCACCGACAAGATCACGCTGAAGTCCAATGCGATGTACAGCGAGCGCAAGTCGACCCGCCAGATCGCCGGCTACCCGCTGAGCTCGACCTCGCAGCCCGGCTTCCCGGTCTACGTCGACGCCGACAGCTACTACAACCCGCTGCCGGGCAACGACCTGACCTTCTACCGCCGCATCACCGAGATGCCGCGCGTCACCGAAAGCAACGTCAAGAACAGCCACTTCGACGTGGCGCTGGACGGCGTGTTCGACGTCGGCACCCACGGCTGGAACTGGAACGTCGGCTACAACTACAACAAGTACGACGTCACCCAGACCAGCACCGGCAACATCAACCTGCTGGCGCTGCAGAAGGCGCTGGGCCCGTCGTTCCTGAACAGCCAGGGCGTCGTGCAGTGCGGTACCGCCGCCGATCCGATCGCCTACGGCACCAACGTCGGCCTCGGCCAGTGCGTGCCGTTCAACATCCTGGGCGGCCCGTCCGCTTCGACCGCCGATGCGCTGAAGTACATCAGCACCCTCGGCCAGGCCACCCAGATGAGCGAAAGCACCGTCTGGAACGCCGACATCAGCGGCGGCCTGTTCGACATGCCGTGGGATGCGGGCGAGTTCTCGTTCGCGGCCGGTTTCGAGCACCGTGAGGTCAAGGGTTACGACTATCCGGACCAGGCGTCCAGCAACGGCTACACCACCGATCTGGCCGCGCTGCCGACCTCGGGTCGCTACCAGACCAACGAGGCCTACCTGGAACTGCTGATCCCGGTGCTGAAGGATCTGCCGTTCGCGAAGGAACTGTCGTTCGACATCGCCGGCCGTTACTCGAACTACGACCGCTTCGGCACCACCACCAACACCAAGTACAGCTTCACCTGGAAGCCGATCGACGACCTGCTGGTGCGTGGTACCTACGGCAAGGGCTTCCGCGCCCCGACGCTGGGTGACACCTTCGGTGGCGGCTCGCAGACCTTCGACACCTACCTCGATCCGTGCGATGCCGTGTACGGCTCGCGCAACAACGCCACGGTCAACGCGGCGTGCCTGGCCGACGGCCTCGGCGCTGGCTTCCGCCAGACCGACAACGCCGGCGTGGCGATCGACGGTCCGAGCGGCACCCAGGGCATCGCCCCGTTCCAGTCGGGCGTCGGCAACAGCGAGCTGGAGCCGGAGTACAGCCGCACCAGCACCGTCGGCTTCGTCTACAGCCCGAGCTACGTGCAGGGCCTGGACGTGTCGCTGGACTGGTACAAGATCTCGATCTCGAACGTGATCACCGCGGTCTCGGCCGGCTACGTGCTTGACCAGTGCTACACCGGTGCCAACACCGCGTACTGCGACCAGTTCACCCGCGACGCCAACGGCCAGGTCGTCACGCTGCAGCGTGGCAACACCAACCTCGGCAAGATGGAGACGCAGGGCTACAACTTCGGCGTCAACTACCGTCTGCCGGAGTTCGGCATTGGCCAGTTCGTGGTCAACCTGGACATGAACTACCTCGACCAGTACCGCATCCAGAGCGATGCCGGTTCTGCCTGGGCTGACTACGCGGGCTACTGGAACTTCCCGCGCGTGCGCGGCACGCTGGGCGTGAACTGGTCGCGTGGCGACTTCTCGGCGAGCTGGGACCTGCGCTACTACGGCGGCTTCCGCGACTACTGCTGGGATACCGACGTGGAGTGCAACGAGCCGGGCTACACGACCTCCAACTCGGCATGGGGCGGTGGTCAGGGCGCCAACAAGAAGGGCTCGATCAACTTCCAGGACGTCTCGGTGTCGTGGAATGCTCCGTGGGATGGCAGCGTGACCGTCGGCGTGCGCAACATCTGGGACAAGGAGCCGCCGATCACCTATTCGGCGACCAATACCAGCACTGCGCTGATCGATCCGATGCTTGACTACGATCGCTACTTCTTCATGCAGTACACCCAGCGCTTCTGA	MNLRTPAVRLGLLPAGIAIALTPAFASAQEQSAEQNTTTTLDRIEITGSRIRSVDLETAQPVFTVSSEDIKKSGLISVGDILQNMSIAGTQTFSKAAVLTSNAEQGGQYVNLYNLGENRTLVLVNGKRWTSSINGYTDLSTIPSALIDHIEVLKDGASAIYGSDAVAGVVNIILKKNFDGAEASVMYGQNDSGDGAKTQYSMVLGTTGERSSLMFGASYSKEDPVWAKDRALTRNMYGSNHVSSGLSATGPWGRFVDPRAAGTAGAGNYVNSDGDVVAAGTEGATWSPNQYVLNHTGSYHGDGVGSDSRDFANYHTGVTTDDRYNSIDQMMWNQGGTNKSVFASGSYDITDKITLKSNAMYSERKSTRQIAGYPLSSTSQPGFPVYVDADSYYNPLPGNDLTFYRRITEMPRVTESNVKNSHFDVALDGVFDVGTHGWNWNVGYNYNKYDVTQTSTGNINLLALQKALGPSFLNSQGVVQCGTAADPIAYGTNVGLGQCVPFNILGGPSASTADALKYISTLGQATQMSESTVWNADISGGLFDMPWDAGEFSFAAGFEHREVKGYDYPDQASSNGYTTDLAALPTSGRYQTNEAYLELLIPVLKDLPFAKELSFDIAGRYSNYDRFGTTTNTKYSFTWKPIDDLLVRGTYGKGFRAPTLGDTFGGGSQTFDTYLDPCDAVYGSRNNATVNAACLADGLGAGFRQTDNAGVAIDGPSGTQGIAPFQSGVGNSELEPEYSRTSTVGFVYSPSYVQGLDVSLDWYKISISNVITAVSAGYVLDQCYTGANTAYCDQFTRDANGQVVTLQRGNTNLGKMETQGYNFGVNYRLPEFGIGQFVVNLDMNYLDQYRIQSDAGSAWADYAGYWNFPRVRGTLGVNWSRGDFSASWDLRYYGGFRDYCWDTDVECNEPGYTTSNSAWGGGQGANKKGSINFQDVSVSWNAPWDGSVTVGVRNIWDKEPPITYSATNTSTALIDPMLDYDRYFFMQYTQRF	PGPT0003790_1243	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_07007	1119			hypothetical protein	TTGCGTATTCTTTTTGTCGGCGACGAGACCAGCCTGCCGTCCGAGCTGGTCGACTATATCCGTGATCTCGGCGATGACTGGCTGGTCCAGCAGGTCGCCGATGGCAATGCTGCGATCGCGGCAGTGGCGCAGGCGCCGTTCGATGCGGTGATCGCCGCACCGACGTTGCCGGACCTGACCTCGGCCACGCTGCTGGGCCAGATCCGCACGCTGCGTCCGGAAACCATCCGCATCGCCCTGGTCGACGCCAACGACGGCAGCCGCGCACCTTCGGCCCGCATCATCGGCGTGGCCCATCGCTTCCTGCCGCTGCCGTTGCCGCCGGAAATGCTGCTGGAGGCGGTCACCAGCCTCGAGGAACTGCGCGAGCTGCTGGACAGCCCGAAGCTGCGGACCTCGATTGGCCGGATCGAGAAGCTGCCCTCGCCTCCGCACCTCTACCTCAGCCTGATGCATGCGCTGGAGGAAGAGGACGACACCGACGCCGACGACATCGCCAAGCTGATCGCCGGCGACCCGGCGATCGCCGCGAAGGTGCTGCAGTTGTGCAATTCCGCGTTCTTCTCCGGCGGGCGCACCATCACCGATCTGCGCACGGCGGTGACGCGGCTCGGTATCGCCACGCTGCGTTCGCTGGTCCTGGCCAGCGAGGTGTTCTCGGTGCAGGTGCTGTCGGCATCCGAACGCAACGCGATGCAGCGCCGCGCGCTGCTGGCGTCGCGCATCGCCGTCAAGGTGCTGCCGCAGTCCAGCGCCGAACTCGGCGCCACCGCCGCACTGCTGGCCGACATCGGCCTGCTCCTGCCCGGCGTGCGCGACGAATACCAGGAGGCGGCCAGCGCCGACGACGAGCGTCCCGGCCATACCGAGGCCGGCGCGTACCTGCTCGGCCTGTGGGGCCTGCCGATGCCGATCATCGAGGCGGTCGCCCTGCACCGGCAGCCGCAGCGTTCCAGCACTCGCAGCTTCTGGGTGACCGGCGCGGTCCACGTCGCTACCGCGCTGGCCAGCGGCAGCCCGGTGGACGAGGACTACCTGACCAAGGTCGGCGTGATCGGACGCCTGCCGTCCTGGCGCGAACAGGCCGAAACACTGAGCGGGTTGGCCGTCCAGGCCTGA	MRILFVGDETSLPSELVDYIRDLGDDWLVQQVADGNAAIAAVAQAPFDAVIAAPTLPDLTSATLLGQIRTLRPETIRIALVDANDGSRAPSARIIGVAHRFLPLPLPPEMLLEAVTSLEELRELLDSPKLRTSIGRIEKLPSPPHLYLSLMHALEEEDDTDADDIAKLIAGDPAIAAKVLQLCNSAFFSGGRTITDLRTAVTRLGIATLRSLVLASEVFSVQVLSASERNAMQRRALLASRIAVKVLPQSSAELGATAALLADIGLLLPGVRDEYQEAASADDERPGHTEAGAYLLGLWGLPMPIIEAVALHRQPQRSSTRSFWVTGAVHVATALASGSPVDEDYLTKVGVIGRLPSWREQAETLSGLAVQA				NA	NA	NA	NA	NA
BMS020_07008	537	ppa_3	COG0221	Inorganic pyrophosphatase	ATGGGCCTTGAACTGGTCAACTCCGGCAAGAACCTGCCGGAAGAAATCAACGTCGTCATCGAGATCCCCAAGGATTCCGAGCCGGTCAAGTACGAAGTGGACAAGGCCAGCGGCGCGATCTTCGTCGACCGCATCCTGTCGACCCCGATGCGCTACCCCTGCAACTACGGCTACGTGCCCAACACCCTGTGCGGCGACGGCGATCCGGCCGACGTGCTGGTGGTGCTGCCGCTGCCGCTGGTCCCGGGTTCGGTGGTCCGCTGCCGTCCGGTCGGCGTGCTGAAGATGAGCGACGAAGCTGGCAGCGACGAGAAGATCCTGGCCGTGCCGGTGGCGAAGATCTTCGCCGGCTACGCCCACATCGCCGACATCGACCAGGTCTCCGGCCACTGGCTGGAGCGCATCGGCCACTTCTTCGAGCACTACAAGGACCTGGAGAAGGGCAAGTGGGTCAAGCTGGACGGCTGGGGCGGCGCCGAGGAAGCCAAGCGCATCCTGGTCGAGTCGGTCGAGCGCTACAAGGCCGACGCCACCTGA	MGLELVNSGKNLPEEINVVIEIPKDSEPVKYEVDKASGAIFVDRILSTPMRYPCNYGYVPNTLCGDGDPADVLVVLPLPLVPGSVVRCRPVGVLKMSDEAGSDEKILAVPVAKIFAGYAHIADIDQVSGHWLERIGHFFEHYKDLEKGKWVKLDGWGGAEEAKRILVESVERYKADAT	PGPT0002600_2354	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-INORGANIC_PHOSPHATASE,PGPT0002600-ppa-K01507	NA	NA
BMS020_07009	471			hypothetical protein	ATGAAAGCAGCATGGGCCATGGTCATGGCGTTCGCGGCAGTGGCGGCGGGGCCGGCAGCGGCGGCGCAGGTGGAGTTCGTCGATGCGGTCGACTACCCGGCCAACGCCGAGGGCTGGTCGGCATTCCGCGACCTCGAGCGCCGGCTCGAGGTCGATTTCGACCAGATCTGCGGCGATACCTTCTGCGAAGGCGACTACAGCGACTACCGGCCGCTGCGGCTGCGCTGTTCGGTGGAGCGGTACAGCGGGGTGCTGGCGCACTGCACCTGGACCTTCGGCGCCAGCGAGATCAGCGTCGATGCCCGCACCGGGCGCCTGCTGGTGGACAGCCGGACCTGGCGCTGCCCGCTGGCGCTGCCGGCGGGGCTGACGCTACCGGCGCTGTACGACGCGCTGGCCGGCGCGCAGCCGCTGTTCCAGGCGCTGCCCGGCGGCGATCCGCTGTACGACAGCCTGATCGGCTGCCTGTGA	MKAAWAMVMAFAAVAAGPAAAAQVEFVDAVDYPANAEGWSAFRDLERRLEVDFDQICGDTFCEGDYSDYRPLRLRCSVERYSGVLAHCTWTFGASEISVDARTGRLLVDSRTWRCPLALPAGLTLPALYDALAGAQPLFQALPGGDPLYDSLIGCL				NA	NA	NA	NA	NA
BMS020_07010	2031	hppA	COG3808	K(+)-insensitive pyrophosphate-energized proton pump	ATGCTGGAACAGTACGGATTGGCGTTGGCACTGGGCAGTGCGGCACTGGCGATCCTCTACGGCGTGGTCTCCGCACGCTGGATCCTGAAACAGCCAGCTGGCGATGCGCGGATGCAGCAGATCGCCGCCGCCATCCAGGAAGGCGCACGCGCCTACCTCAACCGGCAATACCTGACCATCTCCGTCGCCGGCGTCGTGCTGTTCGTGCTGGTCGGCATATTCCTCACCTGGCACACCGCTTGGGGCTTTGCGATCGGCGCGACGCTGTCCGGGCTGGCCGGCTACATCGGCATGAACGTCTCGGTACGCGCCAACGTGCGCACCGCTGAGGCCGCACGGCACGGGCTGACCGCGGCGATGGACGTGGCGTTCCGCGGCGGTGCGATCACCGGCATGCTGGTGGTCGGGCTCGGACTGCTCGGCGTCGCCGGTTATTACGCGTTGCTGGTGCGGGTGCTCGGCGTCGGCACCGAGGCAGCACTGCACGCCCTGGTCGGACTGGCGTTCGGCAGTTCGCTGATCTCGATCTTCGCCCGCCTCGGCGGCGGCATCTTCACCAAGGGTGCCGACGTCGGCGCCGACCTGGTCGGCAAGGTCGAGGCCGGCATCCCCGAGGACGACCCGCGCAACCCGGCGGTGATCGCCGACAACGTCGGCGACAACGTCGGCGACTGCGCCGGCATGGCCGCCGACCTGTTCGAGACCTATGCGGTCACGGTGATCGCGACGATGCTGCTGGGCGGGCTGATGGCCAGCGAGGTCGGCCGCAACGCGGTGCTGTATCCGCTGGTGCTTGGCGCCGCCTCGATCATCGCATCGATCATCGGCGCGGCCTTCGTCAAGGCCAAGCCGGGCGGTTCGATCATGGGCGCGCTGTACAAGGGCGTGATCGTCTCCGGCGTGCTGGCGGCGATCGCGTTCTGGCCGATCACCACCGCGCTGATGGGCGACAACCAGCACGGCGCATTGAACCTGTATGTCTGCGCCCTGATCGGCTTGCTGCTGACCGGGTTGATCGTCTGGATCACCGAGTACTACACCGGCACCGACTACAAGCCGGTGCAGCACGTCGCCCGGGCCTCGACCACCGGTCACGGCACCAACATCATCGCCGGGCTGGGCGTGTCGATGAAGTCGACCGCGCTACCGGTCATCGCCGTCTGCGCGGCGATCTGGTTCGCCTACCTGCACGGCGGCCTGTACGGCATCGCCATCGCCGCCACCGCGATGCTGTCGATGGCCGGCATGGTGGTCGCGCTCGACGCGTACGGCCCGATCACCGACAACGCCGGCGGCATCGCCGAGATGAGTGAACTGCCACCGGACGTGCGCAACATCACCGATCCGCTCGATGCGGTCGGCAATACCACCAAGGCGGTGACCAAGGGCTACGCGATCGGCTCGGCGGCGCTGGCGGCGCTGGTGCTGTTCGCCGACTACACCCACAACCTGCAGGCCGCGCACCCAGGCGAGGTGTTCGCCTTCGACCTGTCCGACCACACGGTGATCATCGGCCTGCTGATCGGCGGCCTGATCCCCTACCTGTTCGGTGCGATGGCGATGGAAGCGGTGGGCCGGGCCGCCGGTGCGGTGGTCGAGGAGGTCCGTCGGCAGTTCCGCGAGATCGCCGGGATCATGCAGGGCACCGCGAAGCCCGACTACAGCCGCGCGGTGGACATGCTGACCCGCTCGGCGATCCGCGAAATGATCCTGCCGTCGCTGCTGCCGGTGGCGGTCCCGGTGGTGGTCGGGCTGCTGCTCGGCCCGCGCGCACTGGGAGGACTGTTGATCGGCACCATCGTCACCGGCGTGTTCGTGGCGATCTCGATGACCACCGGCGGCGGCGCCTGGGACAACGCCAAGAAGTACATCGAGGACGGCCACTTCGGCGGCAAGGGCAGCGAGGCGCACAAGGCGGCGGTGACCGGCGACACCGTCGGCGATCCCTACAAGGACACCGCCGGGCCGGCGATCAACCCGCTGATCAAGATCATCAACATCGTCGCGCTGCTGATGGTGCCGCTGCTCTGA	MLEQYGLALALGSAALAILYGVVSARWILKQPAGDARMQQIAAAIQEGARAYLNRQYLTISVAGVVLFVLVGIFLTWHTAWGFAIGATLSGLAGYIGMNVSVRANVRTAEAARHGLTAAMDVAFRGGAITGMLVVGLGLLGVAGYYALLVRVLGVGTEAALHALVGLAFGSSLISIFARLGGGIFTKGADVGADLVGKVEAGIPEDDPRNPAVIADNVGDNVGDCAGMAADLFETYAVTVIATMLLGGLMASEVGRNAVLYPLVLGAASIIASIIGAAFVKAKPGGSIMGALYKGVIVSGVLAAIAFWPITTALMGDNQHGALNLYVCALIGLLLTGLIVWITEYYTGTDYKPVQHVARASTTGHGTNIIAGLGVSMKSTALPVIAVCAAIWFAYLHGGLYGIAIAATAMLSMAGMVVALDAYGPITDNAGGIAEMSELPPDVRNITDPLDAVGNTTKAVTKGYAIGSAALAALVLFADYTHNLQAAHPGEVFAFDLSDHTVIIGLLIGGLIPYLFGAMAMEAVGRAAGAVVEEVRRQFREIAGIMQGTAKPDYSRAVDMLTRSAIREMILPSLLPVAVPVVVGLLLGPRALGGLLIGTIVTGVFVAISMTTGGGAWDNAKKYIEDGHFGGKGSEAHKAAVTGDTVGDPYKDTAGPAINPLIKIINIVALLMVPLL				NA	NA	NA	NA	NA
BMS020_07011	513			hypothetical protein	ATGAAGTCCTTGCTGCTGATGGGCCTGGCGACGGCGATGGCGGTTCCTGCGTTCGCGGCCCAGCCGCAACCGGAACTGCAGCGGCCGCTTGGTGCCGCCCAGGCGGTGGGCGCGTTGCATACGCTGCGGCAGATCCCGGAGGCCTGCGCGCGGCTGGAGGGCATGTTCACCGGCGATGCGGCGCAGCCTTACAAATTCGCGGTGGTGCGCAGCAGTCCCACGTGCCAGCCGCGTGCGCGCTTCGTCGACTTCGCCAAGGCCGCGCCGAGCGAAGCCGGTGGCTGGAAGCTCAACGACGTGATCCGCGTGCCGAGCGCGGCGTGCCCAGCCCAGCAGGCGGTGGTGGCGGTGTGGCGCAAGCCGGTGGCGTCCAAGCCGCAGCTCGATGGCCAGGGGCAGTCGCGGATCTACCTGGAGGATGCCAAGAAACAGGCCGCCGCCGGACAGATCGCGCAGATCCCGATGTTCGCGGCGCAGATGACGGTGGAGGGCACGCCATGCCCTGTTAGATAG	MKSLLLMGLATAMAVPAFAAQPQPELQRPLGAAQAVGALHTLRQIPEACARLEGMFTGDAAQPYKFAVVRSSPTCQPRARFVDFAKAAPSEAGGWKLNDVIRVPSAACPAQQAVVAVWRKPVASKPQLDGQGQSRIYLEDAKKQAAAGQIAQIPMFAAQMTVEGTPCPVR				NA	NA	NA	NA	NA
BMS020_07012	510			hypothetical protein	ATGAAGAAGCTGATCTCTATTTTCGCTGCATTCGTCCTGTTTCAGGCCTATCCGGCAATCGCCGCGGACAACACATGCCCCCGGGGCAGCGCGCACTGCTGGTACGTGATCTTCGGCACCGGTGACGCCCCGGCGAGAATTGTGCACCTGGCCACGCGACTCGACGACAGCGAGGCCGGCAATCCGGTGATCGAGGTAGCGCAAGGCCTGGAAGACACGAGCAAGTTCGACTACATGGCCTCGACCATGGAATTCGATTGCCGGGCGCAGAAGTACCGGATGACCAAAGCCACCGCGGTCACGATGAAAAGCGAGTTCGAAACGGCAGAAAACCCGGTCGGCTGGAGCGCGGTGCCGCAGAGCTGGATCGACCGGGCCTATACGTTCGCTTGCGACCCGCAAGCCAGGACCCGCCCTGAAGCGCTGGGGATGATGTACTTCCTGAACGTATATCGCCCCGCGGACGCGGTGGATTTCGCCAGGCGCTTTGTCTGGCAGGGCGGCCCCTAA	MKKLISIFAAFVLFQAYPAIAADNTCPRGSAHCWYVIFGTGDAPARIVHLATRLDDSEAGNPVIEVAQGLEDTSKFDYMASTMEFDCRAQKYRMTKATAVTMKSEFETAENPVGWSAVPQSWIDRAYTFACDPQARTRPEALGMMYFLNVYRPADAVDFARRFVWQGGP				NA	NA	NA	NA	NA
BMS020_07013	633			hypothetical protein	GTGAAGACAATGAACGTCGCGATATTGAGCCTGACGCTTGCGACCATCCTGGCCCCGGAGGCCGCATTCGCACAGAAGATCCACCAGCGATCGCGTTTCGACGAAGCCGCCGCTTCGTCCAGTGCATTCAACCCCAGGGAAGCGGCGCTCCTGCTCGAGCCCGGCGACGGTGGAATCAAGGGCCGCCTGGAGCTCACATACAAGTCGGGACTGCTCAGCAAGAAGCAGAAGATCTGGGCAGACAAGGAGATGGTCTACCTGTTCCCGATGACCAGCTACATGCAGGCATGGGCCAGCAAGTACGGCAACCAGTCCGGAATCGGCATGGCCATGATGGCACCGGAGGCCGGCGACTACACCGCCAGGACGATGACCGACAGCGAAGGCAACTTCGAGCTCCGCGGCCTCAAGGCTGGAAAGTACCTGTTCTACGCCTCGATCCCGTATGCGGTCGAAGGCGTGCGGCGGGAAGCGACCGACCAGCGGACGTACACCATCGACTACCTGCAGGGCACCGCGACGTCCAGCCCGGTCTACAAGGAAACCAAGACGACCTTCGAGCAGGAACACCGTATTCTCGCGATCGTCGAGGTGAAGCCGCATCAGATCACCGACGTCACCGCCGGCAAGTAA	MKTMNVAILSLTLATILAPEAAFAQKIHQRSRFDEAAASSSAFNPREAALLLEPGDGGIKGRLELTYKSGLLSKKQKIWADKEMVYLFPMTSYMQAWASKYGNQSGIGMAMMAPEAGDYTARTMTDSEGNFELRGLKAGKYLFYASIPYAVEGVRREATDQRTYTIDYLQGTATSSPVYKETKTTFEQEHRILAIVEVKPHQITDVTAGK				NA	NA	NA	NA	NA
BMS020_07014	1257	pfp_1		Pyrophosphate--fructose 6-phosphate 1-phosphotransferase	ATGGCCCAAGGCACCTTGCTGTACGCCCAGTCCGGCGGCGTCACCGCCGTCATCAACGCCACCGCCGCGGCGGTGATCACCGAGGCCCGGCGGCACAAGGTCAAGGTGCTGGCCGCACGCAACGGCATCCTGGGCGCGCTGCGCGAGGAGCTGATCGATACCTCCCGGGAATCCGCCGCGACGATCCGCGCCCTGGCCCATACCCCGGGCGGCGCGTTCGGGTCGTGCCGCTACAAGCTCAAGTCGCTGGAGGCCGACCGCGCCAAGTACCAGCGCCTGCTGGAGGTGCTGCGCGCCCACGACGTGCGCTGGTTCCTCTACAACGGCGGCAACGATTCGGCCGACACCGCCTGGAAGGTCTCGCAGCTGGCGCAGGCCTTCGGTTACCCGCTGCACTGCATCGGCGTGCCGAAGACCATCGACAACGACCTGGCCGTCACCGACACCTGCCCCGGCTTCGGCTCGGCTGCCAAGTACACCGCGGTGTCGGTGCGCGAGGCGGCGCTGGACGTGGCGGCGATGGCCGAGACCTCGACCAAGGTGTTCATCTACGAGGCGATGGGCCGCCACGCCGGCTGGCTGGCCGCCGCCTCCGGGCTGGCCGCGACGACGCCGGACGACGCACCGCAGGTGATCCTGCTGCCGGAACGCGCCTATGACGAGGCCGCCTTCCTGGCCAGGGTGGACGCGGTGGTCAAGAAGGTCGGCTGGTGCGTGGTGGTAGCCAGCGAGGGTATCCAGACCGCCGACGGCCGCTTCGTCGCCGATGCCGGCGGCGGCACCGACGCGTTCGGCCACGCCCAGCTCGGCGGCGTCGCCTCCTATCTGGCGCAGCGGGTCAAGGCTGGCCTGGGCTACAAGGTGCACTGGACCCTGCCCGACTACCTGCAGCGTTCGGCCCGCCACGTCGCCTCCAGGACCGACTGGGAGCAGGCCCAGGCGGTCGGCACCGCCGCGGTGCAGTACGCGCTGCAGGGCATGAACGCGGTGATGCCGGTGATCGCGCGCACCTCCGACGCCCCCTACCGCTGGAAGATCGTGGCGGCGCCGCTGCACAAGGTCGCCAACCACGAGAAGAAGATGCCGGCCAGCTTCATCCGCAAGGACGGCTTCGGCATCACCGCCAAGGCGCGCACCTACCTGGCACCGCTGATCCGCGGCGAGGCGCTCTTGCCATATGGCAAGGATGGACTTCCCGCCATCGCCCAGTTGCGCAACATCCCCAGCAAGAAGATGCTGCCGCAGTTCCAACCATAG	MAQGTLLYAQSGGVTAVINATAAAVITEARRHKVKVLAARNGILGALREELIDTSRESAATIRALAHTPGGAFGSCRYKLKSLEADRAKYQRLLEVLRAHDVRWFLYNGGNDSADTAWKVSQLAQAFGYPLHCIGVPKTIDNDLAVTDTCPGFGSAAKYTAVSVREAALDVAAMAETSTKVFIYEAMGRHAGWLAAASGLAATTPDDAPQVILLPERAYDEAAFLARVDAVVKKVGWCVVVASEGIQTADGRFVADAGGGTDAFGHAQLGGVASYLAQRVKAGLGYKVHWTLPDYLQRSARHVASRTDWEQAQAVGTAAVQYALQGMNAVMPVIARTSDAPYRWKIVAAPLHKVANHEKKMPASFIRKDGFGITAKARTYLAPLIRGEALLPYGKDGLPAIAQLRNIPSKKMLPQFQP	PGPT0017605_375	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017605-pfk|pfp-K21071	NA	NA
BMS020_07015	564	adk_2		Adenylate kinase	ATGCGATTGGTTCTGTTGGGGCCGCCCGGCTCGGGCAAGGGGACGCAGGCGGCACGGCTGAAGGACACGCTGCAGGTTCCGCATATTTCCACCGGGGACCTGCTGCGCGCGGAAGTCGCCGCCGGCACGCCGCTGGGCCTGCAGGCCAAGGAAGTGATGGCGCGCGGCGAGTTGGTCTCCGACGACATCCTGCTCGGCATGCTGAAGGCCCGCCTCGGCCAGCCCGATGCCGCCAAGGGCTTCATCCTCGACGGCTACCCGCGCAACCTGGCCCAGGCCGACGCGCTGACCAAGCTGCTGGAAGAAATCGAGCAGCCGCTGGACGCGGTGGTGCAGCTGGACGTGGCCACCGAGCTGCTGGTCGAGCGCATCGCCGGCCGCGCCAAGGCCGAGGGCCGCGAGGACGACAATCCGGAATCGGTGCGCAAGCGCCTGCAGGTCTACAACGACTCGACCGCGCCGGTGATCGGCTTCTACGAGCAGCGTGGCACGCTGGCCCGCATCGACGGCGTCGGCTCGCTCGACGAGGTGCTGGCGCGGATCACCGCGGCGCTGAAGGGCTGA	MRLVLLGPPGSGKGTQAARLKDTLQVPHISTGDLLRAEVAAGTPLGLQAKEVMARGELVSDDILLGMLKARLGQPDAAKGFILDGYPRNLAQADALTKLLEEIEQPLDAVVQLDVATELLVERIAGRAKAEGREDDNPESVRKRLQVYNDSTAPVIGFYEQRGTLARIDGVGSLDEVLARITAALKG	PGPT0009040_7462	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0009040-adk|AK-K00939	NA	NA
BMS020_07017	1704			hypothetical protein	ATGCGAGCTGTGATGCTGATCGCTGTCCTGGTGGTGGCGTGCCTGCCGGCGTGGCCGGTGCAGGCGGCCGGGTTCCTGCGCGCCGAGGCCGGCCGGATCGTCGACGAGGCCGGGCGCCCGGTGCTGTTGCGTGGCGTCGGCCTGGGCGGCTGGATGCTGCAGGAAGGCTACATGCTGGAGATGCCCGGGCCTGGCACCCAGCGCGAGATCCGGGCGCGGGTGCAGGCGCTGATCGGGCCGGAGAAGACCGAGGCGTTCTACCAGGCGTGGCGTGACAACCACACCACGAAGGCCGACATCGACGCGCTGGCGCGGTGGGGATTCAACTCGGTGCGGCTGCCGATGCACTACGCGCTGTACACCCTGCCGGTTGAACGCGAGCCGGTGCCCGGCCAGCAGACCTGGCTGGACGAAGGCTTCCGCCGCACCGACCAGTTGCTGGCCTGGGCCCGCGCCAACGACCTGTATGTGATCCTCGACCTGCATGCCGCGCCGGGCGGGCAGGGCAACGACGTCAACATCGCCGACCGCGATCCGGCCGCACCGTCGTTGTGGGACGACCCGCGCCAGCAGGACAAGATGGTCGCGCTGTGGCGCAAGCTGGCCGAGCGCTACAAGGATGAGCCACACATCGCCGGCTACGACATCCTCAACGAGCCGAACTGGGGCTTCCAGGACCGGGCCGATCGCAACGGCTGCAAGGAAACCGGCAACGCGCCGCTGCGCGCGCTGCTGGCCCGGACCACCGCGGCGATCCGCGAGGTCGACCGGCGCCACATCGTGATCGTCGAGGGCAACTGCTGGGGCAACAACTACAGCGGCATCTTCGAGGCGGGGGTCTGGGACGACAACCTGGTGGTCAGCTTCCACAAGTACTGGAACGCCACCGACCGCGCCAGCCTGGAGCCGCTGCTGGCGTTGCGCACGCGCTACGGGCTGCCGCTGTGGCTGGGCGAGAGTGGCGAGAACTCCAACGACTGGTTCGCGCGCACGGTGGCGCTGGTCGAAGGCGAGGGCATCGGCTGGGCCTGGTGGCCGTTGAAGAAGCTGGGCTTCAACAACCCGCTGCAGGTGGTCGCCAATCCCGGCTACCGCTCGCTGCTGGCCTGGTGGGCGGGCCGCGGACCGCGACCGACGCCCGCCGCGGCCGAGCAGGCGTTGATGCAGCTGGCGCGGCACGATCTGCGCTACGCCAACACCGTGCAGCACCCGGACGTGGTCGATGCGCTGCTGCGTGCGCCACACTCGGACCGCGCACTGCCATTCCGGCCGCTGCGGATCGGTGCCACCGGCGGGCGCATCGCCGCGGTCGATTTCGACATGGGCCGCAACGGCGTGGCCTATCTCGACCACACGCCGGCCGACGAGCACATCAGTCAGGGGGGCGACTGGCTGGCGTGGAATCCGGCCAAGACCTACCGCAACGATGGCGTCGACCTGGCCGTCGACGCCGATGGCGGCCTGCGCGTGACGGCGCTGGAGCCCGGCGAGTGGCTGCGCTACAGCATCGACGCCGATGCCGGTGGGCGCTATGCGTTGCAGGTGGACGCGCGCGGGCAGGGCGAGGTGGCGCTGGAGCTCAACGGCGAGGCGCTGGCGGCGGATGCCGCGGCGACGCTGCAGCCGGGACGCAACACGCTGCGGGTGCTGGGCCGGAACGGGCGCGTGGACGTGCTGGCGCTGCGCTTCACGCCTGTGCGCTGA	MRAVMLIAVLVVACLPAWPVQAAGFLRAEAGRIVDEAGRPVLLRGVGLGGWMLQEGYMLEMPGPGTQREIRARVQALIGPEKTEAFYQAWRDNHTTKADIDALARWGFNSVRLPMHYALYTLPVEREPVPGQQTWLDEGFRRTDQLLAWARANDLYVILDLHAAPGGQGNDVNIADRDPAAPSLWDDPRQQDKMVALWRKLAERYKDEPHIAGYDILNEPNWGFQDRADRNGCKETGNAPLRALLARTTAAIREVDRRHIVIVEGNCWGNNYSGIFEAGVWDDNLVVSFHKYWNATDRASLEPLLALRTRYGLPLWLGESGENSNDWFARTVALVEGEGIGWAWWPLKKLGFNNPLQVVANPGYRSLLAWWAGRGPRPTPAAAEQALMQLARHDLRYANTVQHPDVVDALLRAPHSDRALPFRPLRIGATGGRIAAVDFDMGRNGVAYLDHTPADEHISQGGDWLAWNPAKTYRNDGVDLAVDADGGLRVTALEPGEWLRYSIDADAGGRYALQVDARGQGEVALELNGEALAADAAATLQPGRNTLRVLGRNGRVDVLALRFTPVR	PGPT0018620_2212	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CELLULASES,PGPT0018620-celJ|eglA|eglS-K01179	NA	NA
BMS020_07018	1380	mpl_1	COG0773	UDP-N-acetylmuramate--L-alanyl-gamma-D-glutamyl-meso-2,6-diaminoheptandioate ligase	TTGAAGATCCATATCCTCGGAATCGCCGGCACCTTCATGGGCGGCGTCGCCGCACTGGCGCGCGAGATGGGCGTGCAGGTGAGCGGCAGCGACCAGGCGATCTACCCGCCGATGTCCACCCAGCTGGAAACCCTCGGCATCGGCCTGGACCAGGGCTACCGCGCCAACAGCGTCGCGGTGGACTGCGACGAGGTGGTGGTCGGCAATGCGCTGTCGCGCGGCAACCCGGCGGTGGAGGCGGTGCTCGACAGCGGCCGACGCTACATCTCCGGCGCGCAGTGGCTGGCCGAACAGGTGCTGCCCGGGCGCGACGTGCTGGCGGTGGCCGGCACCCACGGCAAGACCACCACGACGACGATCCTGGCCTGGCTGCTGCAGGCCGCCGGGCGCGAACCGGGCTTCCTGATCGGCGGCGTGGCCGAGGATTTCGGCGTGTCCGCGCGCCTGGGCGGGACGCCGGGGGCGGCGTCGGAGCGCCCGTTGTTCGTGGTCGAGGCCGACGAATACGACACCGCGTTCTTCGACAAGCGCAGCAAGTTCGTCCACTACCGGCCGAAGGTCGCGATCCTCAACAACCTGGAATACGACCACGCCGACATCTTCCCGGACGTGGCGGCGATCCAGCGCCAGTTCCACCATCTGGTGCGCACCGTGCCGGGCAACGGCCGGCTGATCGTCAACGGCGCCGATGCCCACCTGGCCGAAGTGCTGGCGATGGGCTGCTGGACGCCGGTGGAGCGCTTCGGCTTCGATGCGGCGTTCGAGTGGAGCGCGCACAAGCTCGAGCGCGACGGCAGCCGCTTCGTAGTGCGCCATCGTGGCGTGGAGGTGGGCACCGTCGAATGGCCGCTGCTCGGCGACCACAACGTGCTCAACGCGACCGCGGCGCTGGCCGCCTGCCATGCGGTCGGCGTCGATCCGGCTGCGGTGATCCCGGCGCTGACGCGCTTCAGCAGCGTCAAGCGCCGGCTCGAGGTGCTGGGCGTACGCGGCGGCGTCACCGTCTACGACGACTTCGCCCACCATCCCACCGCGATCCGCACCACGCTGGAGGGGCTGCGGGCCAAGGTCGGCGATGCGCGCATCGTGGTGGCGATGGAACCGCGCAGCAATTCGATGCGGCTGGGCGCGCACGCGCAGGCGCTGGTGCCCTCGCTCGATGCCGCCGACGCGGTGGTGTTCCTGGCGCGTCCGGAGCTGCCGTGGGATGCGGCGGCGGTGGTCGCGCAGGTGCGCGGCCAGGCGCGGGCGGTGCCCGATGCCGATACGCTGCTGGCGGCGCTGGGCGCGCTGGCGCGTGCCGGCGACCACGTGGTGTTCATGTCCAATGGCGGCTTCGACGGCGCGCCGCGCCGCTTCCTGGAGCAGCTGCACGGATGA	MKIHILGIAGTFMGGVAALAREMGVQVSGSDQAIYPPMSTQLETLGIGLDQGYRANSVAVDCDEVVVGNALSRGNPAVEAVLDSGRRYISGAQWLAEQVLPGRDVLAVAGTHGKTTTTTILAWLLQAAGREPGFLIGGVAEDFGVSARLGGTPGAASERPLFVVEADEYDTAFFDKRSKFVHYRPKVAILNNLEYDHADIFPDVAAIQRQFHHLVRTVPGNGRLIVNGADAHLAEVLAMGCWTPVERFGFDAAFEWSAHKLERDGSRFVVRHRGVEVGTVEWPLLGDHNVLNATAALAACHAVGVDPAAVIPALTRFSSVKRRLEVLGVRGGVTVYDDFAHHPTAIRTTLEGLRAKVGDARIVVAMEPRSNSMRLGAHAQALVPSLDAADAVVFLARPELPWDAAAVVAQVRGQARAVPDADTLLAALGALARAGDHVVFMSNGGFDGAPRRFLEQLHG	PGPT0023975_1259	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_LIGASES,PGPT0023975-mpl-K02558	NA	NA
BMS020_07019	591			hypothetical protein	ATGAGCGCCGGCACCGAACCGCTGCCGCTGTTCCCGCTGCACTGCGCGCTGTTGCCCGGTGCATCGATCAGCCTGCGGGTGTTCGAGCGGCGCTATCTCGACCTGGTGCGCGAGTGCGGCCGCACCGGCGGTGGCTTCGGCATCTGCCTGATCCTGGAGGGGCACGAGGTCGGCGCGCCGGCGATCCCGGCGGCCTGCGGCACCGAGGCCCGGATCGAGGATTTCGATACCGGCGCGGACGGCGTGCTGGTGCTGCGCCTGCGCGGCGCGCGCCGTTTCCACGTCGAACGCACGCGGGTGCGTGACAACGGCCTGGTGATGGCCGATGTGGCCTGGCGCGAGCCGGACAGCGACGACGAACTGCGTCCGGAGCATGGGCTGCTGGCGACGGTGCTCGAGCACATGCTCGGCCAGGCCGGCGGCGAGCATGCCGGCGCCGGTCCGGCGCAGTTCGACCAGGCGTCCTGGGTGGGCTGGCGGCTGGCGGAGCTGCTGCCGCTCAGCGAGCGTCAGCGCCTGGCGTTGCTGCAACAGGACGACCCGCACCAGCGCCTGGACCAGGTGCTGGCCTGGATGCCCGAGGGGCAGTGA	MSAGTEPLPLFPLHCALLPGASISLRVFERRYLDLVRECGRTGGGFGICLILEGHEVGAPAIPAACGTEARIEDFDTGADGVLVLRLRGARRFHVERTRVRDNGLVMADVAWREPDSDDELRPEHGLLATVLEHMLGQAGGEHAGAGPAQFDQASWVGWRLAELLPLSERQRLALLQQDDPHQRLDQVLAWMPEGQ				NA	NA	NA	NA	NA
BMS020_07020	2013			hypothetical protein	ATGAACTCATCCTGGATCGACGCCACGCTGGAGTGGATCGCACATCACCCCACCCTGGCGGGCGCGGTCATCTTCGCGATCGCCTTCAGCGACGCGGTCATCATCCTCGGCGCGATCGTGCCGGCGCTGCCGCTGCTGTTCGCGGTCGGCGTGCTGATCGGGCTTGGCCAGATCAACGGCCCCTACGCAGTGGCCTGCGCGGCGGTCGGCGCCTTCATCGGCGACGCGCTGAGCTACTGGGTCGGCCACCGCTGGGGCGACCGCCTGCGCGGCATATGGCCGTTCAGCCGCTACCCGCAGCTGCTCGGTCGTGGCGAAGTGCTGTTCCGCCGCAACGCGTTCAAGAGCATCCTGATCGCGCGCTACGTCGGCGCGATCCGCCCGTTCGTGCCCGCCATCGCCGGCATGGCGCACATGCCGCTGCGCCGTTACGCGCTGGCCAGCGGCCTGGCCTGCATCTCGTGGGCGCTGCTGTTCCTGGCCCCGGGCTGGGTGCTGGGCCAGGCCTACGACGCGGTCGCGGCGGTGGCCGGGCGCCTGCTGGTGGTGGTCACGCTGCTGGCGGTGGTGCTGGGCATGGTCTGGGCGGTGGTGCTGTACGGCTACCGCTGGTCGGCCAACCACCTGGACAACCTGCTGGCGCGGCTGCTGGACTGGTCGCACCGCCATCCGCTGCTGGGCAACTGGTCCGGCGGCGTGCTCGATCCGCGCCGGCGCGAATCGGTGCCGCTGGCGGTGCTGGCACTGATGCTGCTACTGCTCGGCTGGGGCTGGTTCGTGCTGCTGATGGTGGTGCTCGCGCACGGCGAGCCGCTGACGCTGGACCTGGCCGTGCACGACCTGATGCTGGCGCTGCGCAACCCGCTGGCCGACTACCCGCTGGCGACGGTGGCCTCGCTCGGCGACTGGCAGGTGCTGGCGCCGGCGATCGCCGCGGCGATGGGCTACCTGGCCTGGCGCGGGCGCTGGATGGCGGTGCTGCACTGGCTGGCGGCGCTGGCGTTCGGGCTGGCGCTGACCAAGCTGCTCGGCGCCACCGTGCACGTGGTGCGGCCGCCGGCGGCGAGCAGCGGCTTCGGCTTCCCGTCGGTGGCGGTGACGATGGCCACCATCACCTTCGGCTTCTTCGCGGTGCTGATCGCCCGCGAACTGCCCGGGCGCAGCCGCGTGTGGCCGTACCTGGTGTGCGGCGCGGTGGTGTCGCTGATCGGCTTCGCGCGGCTGTACCTGGGCGCGCACTGGCTCAGCGACGTGATCGGCGGCGTGCTGTTCGGCATCTTCTGGCTGCTGGTGCTGGGCATCGCCTACCGTCGCCGCGCCAACCGCGCGTTCTGGATCAAGCCGGTGTCGTGGCTGTTCTACGGCACCTTCCTGCTCGCTGCGCTGTTGCTGGCGCCGCGCCAGCTGGAGCGCAAGCTGGTGCGGTTCGAACCGCCGCCGCCGCCGCCGCTGGAGCTGCAGGCCGAGCGCTGGTGGCAGCAGCAGGACTGGCGCGAGCTGCCGGCGCGCCGCAACGAATTCGACGACGACCAGCGCTGGCCGCTGGACGTGCAGGTGGCCGGGCCGCTGGCGCCACTGCAGCGCCAGCTGGAAGCGGCCGGGTGGCGCGTGCAGCCGCAGGCCGGCTGGGAACAGGCGCTGCACCTGCTCGACGTGACCGCGGCGCCGGACGAAGTGCCGGTACTGCCGGCCACGCTGGACACCCAGGTGGAAGCGCTGCTGCTGTTGCGCCCGGGCGCGCGCGAAGGCGAACTCCACGTGCTGCGGCTGTGGCAGGCGCCGGCCCGGCTGCAACCGGGCGACGTCCCGCTGTGGGTGGGCAGCACGCAGACGCTGCGCTATGGGCGCCACTTCAGCCTGGTCGGGCTGTGGCTGCCGCTGCGCGGCGTCGACCCGGCATTGCAGGCACTGCAGAGCTCGCTCGGTCCACTGCCGCACCAGCTGCAACGCCGCCGCAACGCCGACGTCCCGGTGCTGCTGGTCGATGCCCGCGGAGAACCGGCCCCGCGCTGA	MNSSWIDATLEWIAHHPTLAGAVIFAIAFSDAVIILGAIVPALPLLFAVGVLIGLGQINGPYAVACAAVGAFIGDALSYWVGHRWGDRLRGIWPFSRYPQLLGRGEVLFRRNAFKSILIARYVGAIRPFVPAIAGMAHMPLRRYALASGLACISWALLFLAPGWVLGQAYDAVAAVAGRLLVVVTLLAVVLGMVWAVVLYGYRWSANHLDNLLARLLDWSHRHPLLGNWSGGVLDPRRRESVPLAVLALMLLLLGWGWFVLLMVVLAHGEPLTLDLAVHDLMLALRNPLADYPLATVASLGDWQVLAPAIAAAMGYLAWRGRWMAVLHWLAALAFGLALTKLLGATVHVVRPPAASSGFGFPSVAVTMATITFGFFAVLIARELPGRSRVWPYLVCGAVVSLIGFARLYLGAHWLSDVIGGVLFGIFWLLVLGIAYRRRANRAFWIKPVSWLFYGTFLLAALLLAPRQLERKLVRFEPPPPPPLELQAERWWQQQDWRELPARRNEFDDDQRWPLDVQVAGPLAPLQRQLEAAGWRVQPQAGWEQALHLLDVTAAPDEVPVLPATLDTQVEALLLLRPGAREGELHVLRLWQAPARLQPGDVPLWVGSTQTLRYGRHFSLVGLWLPLRGVDPALQALQSSLGPLPHQLQRRRNADVPVLLVDARGEPAPR				NA	NA	NA	NA	NA
BMS020_07021	660			hypothetical protein	ATGAAACCGCTGCCACCCGACGCCTCCGCGCTCAAGTCCGACAGCTTCGGCCGCATCCTGCTGGTGCGCGGGACACAGGGGCCGTTCGTGCGCCGCGACCTCGGCGCCTCGCCGTGGTGGCTGCGGCTGCCGGCGTGGTGGCTGGCGCGCCGCGAGGCGCTGGCGTTGCGCCAGCTCGATGGCATGCCGGCGACGCCGCGCCTGCTCGGCTGGGACGGCACCTGGCTGGACCGCAGCTTCATGGCCGGGCAGGCGATGTACCAGCGCCCGCCGCGCGGCGACCTGGGCTATTTCCGCGCCGCGCGCCGGCTGCTGCAGCGGGTGCACCGGCGCGGCATCGCCCACAACGACCTGGCCAAGGAAGCCAACTGGCTGGTGCTGGAGGACGGCAGCCCGGCGCTGATCGACTTCCAGCTGGCGGTGCGCGGCAACCCGCGTTCGCGCTGGATGCGGCTGCTGGCGCGCGAGGACCTGCGCCACCTGCTCAAGCACAAGCGCATGTACTGCCGCGAGCACCTGACCCCGGTCGAGCGGCGCCTGCTCAAGCGCCATTCCTGGGTACGCGAGCTGTGGTTCGCCACCGGCAAGCCGGTCTACCGCTTCGTGACCCGGCGCATCCTGCACTGGGAAGACAACGAAGGGCAGGGGCCCAAGCCGTGA	MKPLPPDASALKSDSFGRILLVRGTQGPFVRRDLGASPWWLRLPAWWLARREALALRQLDGMPATPRLLGWDGTWLDRSFMAGQAMYQRPPRGDLGYFRAARRLLQRVHRRGIAHNDLAKEANWLVLEDGSPALIDFQLAVRGNPRSRWMRLLAREDLRHLLKHKRMYCREHLTPVERRLLKRHSWVRELWFATGKPVYRFVTRRILHWEDNEGQGPKP				NA	NA	NA	NA	NA
BMS020_07022	555			hypothetical protein	GTGAGGCGCCCACGCGCGTTCCCGCCCGGCAATGCACTGGCACCGGCGTTGGCCGATGCGTATTTCGCCCACTGCGCCAGCGTCGCGCTGCCGGTGCGGCCATCCTCGGCGCTGCAGGCGCATCGCGCGCTGATGGCGCTGTCGCCGCGATGGCTGCAACTGGCGATGGCGGTCCGCAACCGGGTGATGCGCTGGCTCGGGATGAAGGACCTGGGCCGCATCGCCGAGACCGGGCATGTCGTCGATCCGCAGCCAGGCGAGCGGGTCGGCATCTTCACCCTGCTGTCGGCGACGCCCGACCAGGTGGTGCTGGGCGATCGCGACCGCCACCTCAGCGTGTCGTTGTCGCTGCAGCTGTGCCAGTCGCCCGATGGCGTGCGGCTGTACTGCACCACCGTGGTCGAGCAGCCAACCCGCTTCGGCCGGCTCTACATGCTGCCGGTCGATCCGGTGCACCGTGTCATCGTGCCGCTGATGCTGCACCGCTATGCCCGGCAGCTGCGCCGGCATGGCGCCGGCGGTCCAGACGATTCTGTTCCCAGGAGCCAGGCATGA	MRRPRAFPPGNALAPALADAYFAHCASVALPVRPSSALQAHRALMALSPRWLQLAMAVRNRVMRWLGMKDLGRIAETGHVVDPQPGERVGIFTLLSATPDQVVLGDRDRHLSVSLSLQLCQSPDGVRLYCTTVVEQPTRFGRLYMLPVDPVHRVIVPLMLHRYARQLRRHGAGGPDDSVPRSQA				NA	NA	NA	NA	NA
BMS020_07023	819	hcaB_2		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGACCTCTCTCGCAGGCAAGACCCTGTTCATCACCGGCGCCTCGCGCGGCATCGGCCTGGCGATCGCGCTGCGCGCGGCGCGCGACGGCGCCAACGTGGCGATCGCGGCCAAGTCGTCGGTGCCCAATCCGAAGCTGCCCGGCACCATCCACAGCGCAGCCGATGCGGTCAACGAGGCCGGCGGGCGCGGGCTGGCGCTGAAGTGCGACATCCGCGAGGAGGACCAGGTGCGCGCGGCGGTGGAGGCCACCGTCGATGCGTTCGGCGGCATCGACATCCTGGTCAACAACGCCAGCGCGATCTGGCTGCGCGGCACCCTGGACACGCCGATGAAGCGGTTCGACCTGATGCAGCAGGTCAACGCGCGCGGCAGCTTCCTGTGCGCGCAGGCCTGCCTGCCGCATCTGCTGGAGGCGCCCAATCCACACATCCTGAGCCTGTCGCCGCCGCCGAGCCTGGAGCCGAAGTGGTGGGGCGCACACACCGGCTACACCCTGGCCAAGATGGGCATGAGCTTCGTCACGCTGGGGCTGGCGGCGGAATTCGGGCCGCGCGGGGTCGCGGTCAACGCGCTGTGGCCGCGCACGCTGATCGCCACCGACGCGCTGAACATGATTCCCGGTGTGGACCTGCGCAATGGCCGCCGTCCACAGATCATGGCCGACGCCGCGCATGCGGTGCTGGTGCGCGAGGCCGCCGGCTTCAGCGGGCGCTTCCTGATCGACGACGAGGTGCTGGCCGAGGCCGGCATCACCGACCTGTCCGGCTACGCGGTCGACCCGGACGCGGCGCTGCTGCCGGACCTGTTCCTGGACTGA	MTSLAGKTLFITGASRGIGLAIALRAARDGANVAIAAKSSVPNPKLPGTIHSAADAVNEAGGRGLALKCDIREEDQVRAAVEATVDAFGGIDILVNNASAIWLRGTLDTPMKRFDLMQQVNARGSFLCAQACLPHLLEAPNPHILSLSPPPSLEPKWWGAHTGYTLAKMGMSFVTLGLAAEFGPRGVAVNALWPRTLIATDALNMIPGVDLRNGRRPQIMADAAHAVLVREAAGFSGRFLIDDEVLAEAGITDLSGYAVDPDAALLPDLFLD	PGPT0019830_628	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019830-atuH-K13775	NA	NA
BMS020_07024	1008			hypothetical protein	ATGAAGGATCAGGTGCGCGCCACGCTGGCGCGCGGAATGCTGGCGGCCGCGATCGGCCTGGCGCTGGTGGCCTGTGGGCGCCAGGGCGGGACCGGGGGCGACCCGGCCAAGCCGGCCGCCGACGCGGCCGCGGCGCAGGCCGACGACGGCATGCAGGCGCAGGTGGCCAAGATGAACGGCTACATCGAGTGCTTCAATGCGGTGGACGCGACGATCCACCGCGGCGTGACCACCTACACCAAGTGGATGCGCGATCCCAAGGCCGGCCCGAGCGGCAAGGAAGACAAGGCCTGGGGGCCGGGCGAACTCAACGACCGCCAGCTGGGTCAATGCCGCGAGCAGATCAACACCGCGGCGGCGGCCAAGCCGGCGCTGGCCGAGCTCGACGCTGCCGCGCGCGAGTACCTGGCCTCGCTGGAGGCGCTGGCGCCGCTGCTGAACGAAGCGCAGGCCTATTACAGCCGCGACAGCTACAAGGAGGACGGGCTGGCCGACGGCCGCCGCATGCACGCGCCGCTGATGCAGGGCTATGCGCGGTTCGCCAGCGCCAGCGCGGCGTTCGAGCAGGCGCTGGATGTGCAGAACGATGCGCTGACCGAGCAGCAGATCAGCCAGATCGAGGCTGCCGAGGGCAAGAGCGTGTCCTATTACCGGCTGAGCATCTCCGCCGAGGCCAAGCGCCTGGTGAACCTGCTCACGCAGGAGACCTTCGATCCCGCCCAGGGCGAGGCGCAGACGGCCAAGTTCCGCGCCCTGATCGACGAGGCCTACAAGGCCACCGAGGCCGAGCGCAAGGCCAACCTGGACTGGGACACCTTCGAGGGCAAGGCGCTGGAAGTGCAGCGCCGGGCCAAGGAGCGCGTCGAGCGGGTCCGCAACAAGACCCCGTACAGCCGCAACGAGCAGTTCTCGCTGAGCAGCGGCGGGACCGAATGGATGGTGCAGGGCTCGCCGCAGCGGTTGCTGCATGGCTACAACGAGCTGGTGTTCGCCAGCAACCGGCTCTGA	MKDQVRATLARGMLAAAIGLALVACGRQGGTGGDPAKPAADAAAAQADDGMQAQVAKMNGYIECFNAVDATIHRGVTTYTKWMRDPKAGPSGKEDKAWGPGELNDRQLGQCREQINTAAAAKPALAELDAAAREYLASLEALAPLLNEAQAYYSRDSYKEDGLADGRRMHAPLMQGYARFASASAAFEQALDVQNDALTEQQISQIEAAEGKSVSYYRLSISAEAKRLVNLLTQETFDPAQGEAQTAKFRALIDEAYKATEAERKANLDWDTFEGKALEVQRRAKERVERVRNKTPYSRNEQFSLSSGGTEWMVQGSPQRLLHGYNELVFASNRL				NA	NA	NA	NA	NA
BMS020_07025	870			hypothetical protein	ATGCGCCCGTTTTCCGCTCCCCAGCTGAACCCGGCCAGCGACACCGGCTGGCGCCGCCGCTGGTTCGACATCATCTACCGCCACGACACCCGGTCCTCGCGCAACTTCGACCTGCTGCTGGTGCTGGCGATCCTGGCCAGCGTGCTGACCATCCTGCTCGACAGCGTGCCGTCGATCCACGCGCGCGGCGCGCGCTGGCTGTATCCGCTGGAATGGGCCTTCACCGTGCTGTTCACCGCCGAATACCTGCTGCGGGTGCTGGTGGTGCGGCGGCCGCTGCGCTACGTGCTGAGCATCTGGGGGGTGATCGACCTGGCCTCGATCCTGCCCAGCTACCTGTCGTTCTTCATCCCCGGCGCGCAGACCCTGCTGGTGGTGCGTGTGCTGCGCATCCTGCGGCTGTTCCGCATCCTCAAGCTGACCCGCTACGTCGAGGAAAGCGGCATCCTGATGCAGGCGCTGTGGCGCAGCCGGCGCAAGGTGCTGGTGTTCCTGTTCACGGTGATCACCATCACCGTGATCGCCGGCGCGCTGATGTACGTGATCGAAGGCCCCGAGCACGGCTTCACCAGCATCCCGACCAGCATGTACTGGGCGATCGTGACGATGGCCACGGTCGGCTTCGGCGACGTGGTGCCGCAGACCACGCTGGGCCGCTTCGTGACCTCGGTGCTGATCCTGATCGGTTACAGCATCATCGCGGTGCCGACCGGCATCTACACCGCCGAGCTGGCGACCAGCCTGCGCGAGGCCGAGGACGCGCATCGCCACGACGAGCGCGGCTGCCCGGAATGCGGGCTGGAAGGCCACGACCGCGATGCCAGGCACTGCCGGCAGTGTGGCGCGCGCCTGCCGGAGGCGTTCCGCTGA	MRPFSAPQLNPASDTGWRRRWFDIIYRHDTRSSRNFDLLLVLAILASVLTILLDSVPSIHARGARWLYPLEWAFTVLFTAEYLLRVLVVRRPLRYVLSIWGVIDLASILPSYLSFFIPGAQTLLVVRVLRILRLFRILKLTRYVEESGILMQALWRSRRKVLVFLFTVITITVIAGALMYVIEGPEHGFTSIPTSMYWAIVTMATVGFGDVVPQTTLGRFVTSVLILIGYSIIAVPTGIYTAELATSLREAEDAHRHDERGCPECGLEGHDRDARHCRQCGARLPEAFR	PGPT0002715_2883	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
BMS020_07026	1233	astC_3	COG4992	Succinylornithine transaminase	ATGAGCACCGCGACCGATTCCCTGCTGTCCCTGTCCCGCTACTACCTGCCGGTCTACCGCCCGCGCCAGGTGGTGCTGGAGCGAGGCCAGGGCGCGCGGGTCTGGGACGATGCCGACCGCGAGTACGTGGACCTGTCGGCGGGCATCGCCGTGTGCGGGCTGGGCCACAACGACCCGGACCTGGTCGCGGCGCTGGTCGAGCAGGCCGGCAAGCTGTGGCATACCAGCAACATCTTCTACAGCGAGCCGCCGCTGCGGCTGGCCGAGGAACTGGTCACCGCCTCGCGCTTCGCCGAGACCGTGTTCCTGTGCAATTCCGGCACCGAGGCCAACGAGGCCGCGATCAAGCTGGTGCGCAAGTGGGCTGCCGGCAAGGGCCGCAGCGCGGACAAGCGCGTCATCGTCACCTTCCGCGGCAGCTTCCACGGCCGCACCCTGGCGGCGATCACCGCCACCGCCCAGCCCAAGTACCAGGAAGGCTACGAGCCGCTGCCCGGTGGCTTCCGCTACGTCGACTTCAACGACGAGGTGCAGCTGGAGACGGCGATGGCCGCCGGCGACGTCGCCGCGGTGATGATCGAGCCGGTGCAGGGCGAGGGCGGGGTGATGCCGGCCAAGCCGGGCTTCCTCAAGCGCATCCGCGAGCTGTGCGACCACCACGACGCGCTGCTGGTGCTGGACGAGATCCAGTGCGGCATGGGCCGCACCGGCACGCTGTTCGCGCACTGGCAGGACGAGGTGACCCCGGACATCGTGACCCTGGCCAAGGCGCTGGGCGGCGGCTTCCCGATCGGTGCGATGCTGGCCGGGCCGAAGGTCGCGCAGGTGATGCAGTTCGGCGCGCACGGCACCACCTTCGGTGGCAACCCGCTGGCCGCGGCGGTGGCGCGCGTGGCGCTGCGCAAGATCGCCTCGCCGCAGATCGCCGCCAACGTGTCGCGGCAATCGGCGGCGCTGCGCAAGGGCCTGGAGGCACTGAACGCCCGGCACGCGCTGTTCGCGCAGATCCGCGGCCGCGGGCTGATGATCGGCGCGCAGCTGGCGGCGCCGTTCGCCGGTCAGGCCGGCGCGATCCTGGATGCCGCCGCCGCCGAGGGGCTGCTGGCGCTGCAGGCCGGCCCGGACGTGCTGCGCTTCGTGCCGTCACTGAACATCACCGATGCCGAGCTGGCCGATGGCCTGGCGCGGCTGCACAAGGCGGTGGAAGGCTACCTGGCGCGCACGCAGCGCTGA	MSTATDSLLSLSRYYLPVYRPRQVVLERGQGARVWDDADREYVDLSAGIAVCGLGHNDPDLVAALVEQAGKLWHTSNIFYSEPPLRLAEELVTASRFAETVFLCNSGTEANEAAIKLVRKWAAGKGRSADKRVIVTFRGSFHGRTLAAITATAQPKYQEGYEPLPGGFRYVDFNDEVQLETAMAAGDVAAVMIEPVQGEGGVMPAKPGFLKRIRELCDHHDALLVLDEIQCGMGRTGTLFAHWQDEVTPDIVTLAKALGGGFPIGAMLAGPKVAQVMQFGAHGTTFGGNPLAAAVARVALRKIASPQIAANVSRQSAALRKGLEALNARHALFAQIRGRGLMIGAQLAAPFAGQAGAILDAAAAEGLLALQAGPDVLRFVPSLNITDAELADGLARLHKAVEGYLARTQR	PGPT0014253_743	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
BMS020_07027	2715	btuB_21		Vitamin B12 transporter BtuB	ATGGGAAAGCGCACCTCATATCGCCGTCCGCTGATCGCCGCACAGACCGATGGTCATCGCCGGGGCAGGATGGCCGCCTCGATTGCCCTGGTGCTCTGCGGCCTGCAGGGCCTGCCTGCCATGGCGGAGGACGCTCCAGCCGACGCCAAGACCCTGGACACGATCACCGTGATCTCCACCGGTACCCGCAAGGCCAACATGGCGGTCGGTGACAGTCCGGCGCCGATCCAGCTGATCAGCCCGGAGATGCTCAAGCAATCGGCCGCGCCGGATCTGATGAACGCCATCGCCAACCAGGTGCCGTCGTACAACGCCAGCCAGACCGGCGGCGACATGGCCAGCCAGACGCTCAATGCCAGCCTGCGCTCGCTGACCGCCAACCACACCCTGATCCTGGTCAACGGCAAGCGCCGCCACGTCACCTCCAACTTCGGCGTGGCCGGCAACGGCGAGATGGCCACCGACCTGTCGTTCATCCCGAGCTCGGCGATCGACCATGTCGAAGTGCTGACCGACGGCGCCGCGGCGCTGTACGGCTCGGACGCGATCGCCGGCGTGATCAACATCATCCTCAAGAAGAATTCCAGCGGCGGCGAAATCAACGCCGGCTATGCCGGCTACGCCGACGGCGGTGGCGGCACCGACAACTGGAGCGGCAACATCGGCCTGGGCGGCGAGAACGGCTTTGTCAGCATCAGCGCCGAGGTCGAGAACCGCAAAACGGTCTACCGCTTCTCCAATCCCAGCTACGCCAACTGCCTGCTCGACATCGCCGCCTGCACCGCCTACGCCAACGCCAATGGCCGTTCCGACCTGCTGAGCCGCATCGCCAACGACCAGGGCGCCATGCTCAACGGGCGCTACCCGGCGCTGAACGCCTGGCTCAATCCGCCGGAAGTGCATCGCAAGGTCATGTCCTTCAACGCCGGTTACGACTTTGGCGAAGGCCTGGAGTTCTACGCCTTCGGCAGCTACGGCAAGAAGACCGCGCAGTCGGAGGAGAACTACCGGCGTCCCTCGCAGGACGGTGGTTACGTCGATCCGGTCACCGGCGAGGTGACCCACATGTACGCCTACGGCTTCAACCCGTCCGAAGCCTCCGATGAGACCGACTACGACCTCACCGCCGGCATCAAGGGCATCCTCGGCGCGTGGTCGTGGGACGCCTCCACGACCTACGGCCGCAATGAGATGGACGTGTACACGCTCAACTCGATGAACTTCTCGCTGTGGAACGACTACGGCGCCTCGCCGACCGACTTCTACGACGGCACCTTCTACGCCACCCAGTGGACCAGCGACTTCAGCATGACCCGTGATTTCGACATCGGGTTGTCCTCGCCGCTGACCTTCAATACCGGCGTCGAGTACCGCCGCGACGGCTACGGCATCGAGCCGGGCGAGCCGGCGTCGTATTACGGCGCGGGTGCGTCCTCGTTCCCCGGTTACAACCCGCTCGGCACCGGCGACTACTCGCGCCACAGCTACGCGGTGTTCGTCGATGCCGTGCTCAACCCGACCGAGCACTGGCTGGTCGACGTGGCCGGCCGCTACGAGGATTACAGCGACTTCGGCAACAAGGCGGTCGGCAAGCTCACCACGCGCTACGACTTCACCGACACCTTCGCGGTGCGCGGCACCATCAGCACCGGCTTCCGTGCGCCGAACATGGGCGAGCAGTACTACTCGGCGATCCAGGTCAGCCCGACCGGTGCGACCGCGACCCTGGCCGGTTCCAGCGTCGGCAACGGCCTGAGCCCGGAAACCAGCGAGAACCTCTCGCTCGGCTTCGTGTTCAGCCCGGTGCAGAACCTGACCATGACCCTGGATGCGTACCAGATCAAGATCAAGGATCGCACCTACATGGGCACCTACAGTTACTCGATGGCGCAGTCCGCGGCCACGGTGACTGGCCGCACCACCGGCAGCTGGAACGCCGACCTGCCCGATCCGGCCGATACCGACGGCGATGGCATCCCCGACGCCACCTACAACCAGATCCTCGGCGATGCGCTGGTGGCCGGCGGCTTCATCAGCGACGCGACCGACCCGAGCGCGCCGGGCGGCAGCTTCGACCAGACCGCGCGCGCCAACATCGACCTGAGCTTCTTCAGCAACGTGCTCGATACCAAGACCAGCGGCGTGGACTTCGTCACCAACTACCTGAGCGAGTTCGGCTGGGGCTCGATCGACTGGTTGCTGGCCGCCAATTACAACAAGACCGAGGTGACCCGCGCCGGCCGTGCGCCGGGCTTCGAGAGCATTCCGATGTTCACCGCGGCCAACATCTCCGACATCGAGAACAACAGCCCGAAGTACCGGGTCAACCTGGCGGCCACCTTCAACTGGCAGAAGTTCAGCCTGACCCTGCGTGAATCGATCTACGGGCCGCAGTACACCGTGGCCAGCCTGGCCGGCTACGAACAGTTCGCCGATCAGCTCGACGTGGTCACGCTGGACGGCGGCCAGTACTACAAGCAGGAGATCGGCACGATGGCGTTGACCGGCTTCGACCTGACCTTCAAGCCGAACGACAACTGGGTCATCAGCATCGGTGGCGACAACGTGTTCAACAAGTATCCGGACAAGATCCCGGCGGCGGTGTGGAACTACGATGTCGCCAACTACCAGAACGGCAACAACGTCTACCTGACCGGTAGCCCGGTCGGCTACTTCGGCGCGCGTTACTACGCCAAGCTGACGTACCGGTTCTGA	MGKRTSYRRPLIAAQTDGHRRGRMAASIALVLCGLQGLPAMAEDAPADAKTLDTITVISTGTRKANMAVGDSPAPIQLISPEMLKQSAAPDLMNAIANQVPSYNASQTGGDMASQTLNASLRSLTANHTLILVNGKRRHVTSNFGVAGNGEMATDLSFIPSSAIDHVEVLTDGAAALYGSDAIAGVINIILKKNSSGGEINAGYAGYADGGGGTDNWSGNIGLGGENGFVSISAEVENRKTVYRFSNPSYANCLLDIAACTAYANANGRSDLLSRIANDQGAMLNGRYPALNAWLNPPEVHRKVMSFNAGYDFGEGLEFYAFGSYGKKTAQSEENYRRPSQDGGYVDPVTGEVTHMYAYGFNPSEASDETDYDLTAGIKGILGAWSWDASTTYGRNEMDVYTLNSMNFSLWNDYGASPTDFYDGTFYATQWTSDFSMTRDFDIGLSSPLTFNTGVEYRRDGYGIEPGEPASYYGAGASSFPGYNPLGTGDYSRHSYAVFVDAVLNPTEHWLVDVAGRYEDYSDFGNKAVGKLTTRYDFTDTFAVRGTISTGFRAPNMGEQYYSAIQVSPTGATATLAGSSVGNGLSPETSENLSLGFVFSPVQNLTMTLDAYQIKIKDRTYMGTYSYSMAQSAATVTGRTTGSWNADLPDPADTDGDGIPDATYNQILGDALVAGGFISDATDPSAPGGSFDQTARANIDLSFFSNVLDTKTSGVDFVTNYLSEFGWGSIDWLLAANYNKTEVTRAGRAPGFESIPMFTAANISDIENNSPKYRVNLAATFNWQKFSLTLRESIYGPQYTVASLAGYEQFADQLDVVTLDGGQYYKQEIGTMALTGFDLTFKPNDNWVISIGGDNVFNKYPDKIPAAVWNYDVANYQNGNNVYLTGSPVGYFGARYYAKLTYRF	PGPT0003790_3279	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_07028	615			hypothetical protein	ATGCCGGCCGTGATCGAGCTGTTGCTGCTGGATTTCGACGGCGTCCTCGCCCGCTACGCGCGCCCGATCCGCTTCGCCCGCCTGGCCGACATTGCCGGCTGCCCGCCGGAGCGGGTCGACCAGGTGCTATTCGGCTCGGGCCTGGAGCAGCGCTACGATGCAGGTGCGATCAGTACCGCCGACTACCTGCACCAGCTCGGCGAAGGACTCGGCGCGCGCATCAGCGAGGCCGACTGGCTGGACGCACGCGTCGCGGCCTGCGAGGGCGATCTGCGGGTGCTGGCGATGGTGGAGCAGGTCGCCGCGCGCATGCCGATCGCGGTGCTGACCAACAATGGTCCGTTGATGGCCCAGGCTGCGCTGCGGATCGTGCCGGCCCTGGCGCCGTGGCTGCATGGCCGGCTGCTGTGCAGCGGCGAACTTGGCGGCCGCAAGCCGGCGCTGTCCGTCTACCAGCGCGCGCTGCAGCGTCTGGACGCGCGCGCCGGGACCACGCTGTTCCTCGATGACCTGTTCGTCAATGTCCGCGGTGCCCGGGCCGCGGGGCTGCACGCCGACACCGTCAGCGGCGCCCCGTCGATGCGACGCGTGCTGCGCCGCTTCGGCCTGCTCTGA	MPAVIELLLLDFDGVLARYARPIRFARLADIAGCPPERVDQVLFGSGLEQRYDAGAISTADYLHQLGEGLGARISEADWLDARVAACEGDLRVLAMVEQVAARMPIAVLTNNGPLMAQAALRIVPALAPWLHGRLLCSGELGGRKPALSVYQRALQRLDARAGTTLFLDDLFVNVRGARAAGLHADTVSGAPSMRRVLRRFGLL	PGPT0017745_596	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017745-yihX-K20866	NA	NA
BMS020_07029	2709	btuB_22		Vitamin B12 transporter BtuB	ATGGTCAGGTATTTCAGTTCCGATCGACTCGCAGTGGCGTTGTCGAGCGTTATCAGCAGGCAACGGCGGCAGGCGTTGGTTTCGGCCGCGGCCTTGCTGGCCGGCATGCAGGCCGTCCCCGCCCTGGCACAGGGAGACGAGGACGATGCGGCCAAGACCCTGGATGCGATCACGGTGATCTCCACCGGCACGCGCAAGGCCAACATGGCGGTGACCGACAGCCCGGCGCCGATCCAGCTGATCAGTCCGGAGAAGCTCAGCTCCACCGCGGCCCCTGACCTGCAGAACGCCATCGCCAACCAGGTGCCGTCCTACAACGTCAACCAGGTCGGCAGTGACATGGGCAGCCAGACGCTGACCGCGTCGCTGCGCGGGCTCTCGCCCAACCACACGCTGGTGCTGGTCAACGGCAAGCGCCTGCACAACACCGCCAACGTCAACGCCTCCGACGGCTCGGCCGCGCCGGACCTGTCGTTCATCCCGGAAGCGGCGATCGACCACGTCGAGGTGCTGACCGACGGCGCCGCGGCGCTGTACGGTTCGGACGCGATCGCCGGCGTCATCAACATCATCCTGAAGAAGAACCACGACGGCGGCGAGGTCACCACCGGCTACTCCGGCTACCAGGATGGCGGCGGCAAGGACTTCAAGTGGGGCGCCAACATCGGCTTCGGCGACGCCAACAACTTCTTCAACCTCAGCGTCGAGGCCGAGAACCGCGCGTCGGTGTACCGCTTCGTGCCGACCGCGATGGCCAACTGCCTCGCCAACGAGGCCGACTGCGCGGCGGTCAATCCCAGTGCCTACAGCTATTTCGACAGCATCGATCCGAACCGCACCTCGCAGTACAACTCCAAGAATCCCTACCTCAACAACTGGCTCAATCCGCCGGAAGTGCATCGCAAGGCGCTGTACTTCAACTCCGGCGCGGTGCTGAGCGACAACGTCTCGTTCTACGCCTTTGGTGGCTACGGCAAGAAGACCGCCGAGTCGGAAGAGAACTACCGTGGCCCTGCGCAGCTGATGAGCTATACCGATGCTTCGGGCACCGAGCAGTACATGTATCCATACGGGTTCAATCCGTCCGAGTATTCCGAGGAGGAGGACTACACCCTGACCGCAGGCCTGAACGGCATGCTGGGCGCGTGGAGCTGGGATGCGTCCAGCACCTACGGCAAGGACAAGATGGATGTCTACACGCTCAACTCGATGAACCAGAACCTGTGGAACGAGTACGGCTATTCGCCGACCGACTTCTACGATGGCACGTTCACCTCGAGCCAGTGGACCACCAACCTCAATGCCACGCGTGACTTCGACATCGGCCTGGCCGCGCCGCTGACCTTCAATGCCGGCGTCGAGTACCGCCAGGACAAGTACGCGATCTCGCCGGGCGACTATGCTTCCTATTACAAGACCGGTGCGTCGTCGTTCCCGGGCTACAACCCGGATACCAACACCGGCAGCTACAGCCGCAACAGCTATTCGGTGTTCGCCGACGCGGTGCTGTACCCGGTGGAGAAATGGCTGGTCGACGCCGCGGTCCGCTATGAACACTACAGCGACTTCGGCAGCAAGACGATCGGCAAGCTGACCACGCGCTTCGACCTCACCGACAGCTTCGCGATCCGCGCCACTGCCAGCACCGGCTTCCGTGCGCCGACCCTGGGCGAGGAATACTACTCGGCGGTCAACGTCAGCCCGTCGGGTGCCTATCCGCAGCTGCAGGCCAACGGTGACGCGGCGGCCTCGCTCGGCTTCGGCAAGCTGAAGCCGGAAACCAGCACCAACCTGTCACTGGGCTTGGTGTTCAACCCGCTGCCGAACCTCAGCAGCACGCTGGATTTCTATCAGATCAGGATCGAAGACCGGATCATGCGTGCGTACTTCTGCTACGCCAGCGGCAGCGCGCCATGCGACGCGGTCAGCGGCGCCGAGACCGACAGCTACAACAGCGCGCTCGGCCAGGCGCTGGTCGATGCCGGCTACCTCGGCGGCATCGATCCGAGCACCAGCGGTGGCACGCTGGACACCAGTGCCCGGCAGAACATCGGCGTCTACCTGTTCAACAACGGCCTGGATACCAAGACCCAGGGCGTGGACTGGGTCACCAACTACCTGACCGAGTTCGGCTGGGGTTCGATCGACTGGGTGCTGGCGGCCAATTACGGGACGCTCGACGTGACCGGGGTGAAGGCCGCGCCGGCGAGCCTGGGCGGTGGTTCGATGTACAGCACCGCGACCCTGCTCAACCTGGAGAGCGCCAATCCGAAATACCGGATCAACCTGGGGGCGACGGTCAACGTCGGCAAGTTCACCATCAACCTGACCGAGGCGATCTACGGTCCGCAATCGCGCTGGCAGGCGGCCAACACCAACGACGAAGGCTTCGGTACCGCGTTCCCCGACTATGTGCTGGCCCAGCTGACCACCAGGGAGATGGACGGGGTCACCTACTACAAGCAGGAGATCGGCGTGTTGCCGACCACCAACCTGAGCATCGCGTTCAAGCCCAACGACAAGTGGACGCTGACCATCGGTGGCGACAACATCTTCAACAGGTATCCGGACAAATATCCGGCCGCGGTGTGGAACTGGGTGACCGCCAATTACGAGAACCAGTGGGGCTACCTGTCCAAGTACCAGACCTACAGCCCGATCGGCTACTTCGGCGGACGCTGGTACGCCAAGGCGAGCTACCGCTTCTGA	MVRYFSSDRLAVALSSVISRQRRQALVSAAALLAGMQAVPALAQGDEDDAAKTLDAITVISTGTRKANMAVTDSPAPIQLISPEKLSSTAAPDLQNAIANQVPSYNVNQVGSDMGSQTLTASLRGLSPNHTLVLVNGKRLHNTANVNASDGSAAPDLSFIPEAAIDHVEVLTDGAAALYGSDAIAGVINIILKKNHDGGEVTTGYSGYQDGGGKDFKWGANIGFGDANNFFNLSVEAENRASVYRFVPTAMANCLANEADCAAVNPSAYSYFDSIDPNRTSQYNSKNPYLNNWLNPPEVHRKALYFNSGAVLSDNVSFYAFGGYGKKTAESEENYRGPAQLMSYTDASGTEQYMYPYGFNPSEYSEEEDYTLTAGLNGMLGAWSWDASSTYGKDKMDVYTLNSMNQNLWNEYGYSPTDFYDGTFTSSQWTTNLNATRDFDIGLAAPLTFNAGVEYRQDKYAISPGDYASYYKTGASSFPGYNPDTNTGSYSRNSYSVFADAVLYPVEKWLVDAAVRYEHYSDFGSKTIGKLTTRFDLTDSFAIRATASTGFRAPTLGEEYYSAVNVSPSGAYPQLQANGDAAASLGFGKLKPETSTNLSLGLVFNPLPNLSSTLDFYQIRIEDRIMRAYFCYASGSAPCDAVSGAETDSYNSALGQALVDAGYLGGIDPSTSGGTLDTSARQNIGVYLFNNGLDTKTQGVDWVTNYLTEFGWGSIDWVLAANYGTLDVTGVKAAPASLGGGSMYSTATLLNLESANPKYRINLGATVNVGKFTINLTEAIYGPQSRWQAANTNDEGFGTAFPDYVLAQLTTREMDGVTYYKQEIGVLPTTNLSIAFKPNDKWTLTIGGDNIFNRYPDKYPAAVWNWVTANYENQWGYLSKYQTYSPIGYFGGRWYAKASYRF	PGPT0003790_4573	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_07030	1608		COG1231	L-amino acid oxidase	ATGCAAGGCAACACGCGTGGCGGAATGACGCGCCGCCAGCTGCTGGCGAAGATCGGCATGACTGCCGGTGGCGCGATGATGTACCAGGCGATGACCAGCCTGGGCATGGCGGCCGAATCGCAGTACCGCGGCCCGCTCAAGCTGGACGGCGACGTCAAGGGCGCATCGGTGCTGGTGCTGGGGGCGGGACTGGCGGGCATGACCGCCGCCTACGAACTGCGCAAGGCCGGTTACAAGGTGCAGATCCTGGAATTCAACCAGCGGCCGGGCGGGCGCAACTGGTCGCTGCACGGCGGCGACAGCTACACCGAGCTGGGCGGTGCCACCCAGCACTGCAACTTCGACAAGGACCTGTACCTCAACCCCGGCCCGTGGCGCATCCCGCACCACCACCGCGCGGTGCTGGGCTACTGCAAGCAGTTCGGGGTGCCGCTGGAGGCGTTCAACCAGGTCAACTTCAATGCACTGCTGCACAGCCAGCAAGGCTTCGGCGGCAAGCCGCAGCGCTTCCGCGACATCGATGCCGACTACAAGGGCCACGTCGCCGAGCTGCTGGCCAAGAGCACCCGCCAGCAGGCGCTGGACGAGGTGGTCGGCAAGGAGGACCAGGAGCTGCTGCTGGAGTCGCTGCGGACCTGGGGCGCGCTGGACCGCAACTTCGGCTACGTGAAGGGGCGCGAGAGCAGCGAGCGCCGCGGCTTCGCCAAGTACCCGGGCGGCGGGCTGTCGGGCAAGCCGGAGTTCTCCGAGCCGTTCAGCGTGCAGGACGTGCTGCGCTCGCGGCTGTGGACCACGCTGGCGGCCGGCAACAACTACGAGATGCAGACCACGATGTTCCAGCCGGTCGGCGGCATGGACCAGATCGGCAAGGCGTTCGCGCGCCAGCTGCCGGGGGTGATCCGCTACGGCGCCAAGGTCACCGGCATCGACCAGGACGCGCATGGCGTCACCGTCACCTGGCAGGACACCGCCAATGGCGATGCCGAGCAGGTCAGCAAGGCCGACTGGTGCATCTGCACGATCCCGCTGTCGATCCTCAGCCGCATCCCGGTCACCGCCAGCGAGGCGATGACCAGCGCGATCGCGGCGGTGCCGTACGCCGCCTCGGTCAAGGTCGGGCTGCAGTTCAAACGCCGCTTCTGGGAAGAGGACGAGGCGATCTACGGCGGCATCAGCTACACCGACCTGCCGATCACCCTGATCAGCTATCCCAGCACCGGCTATCACAGCCCCGGCAAGGGCGTGCTGCTCGGCGCTTACGTGTGGGGGCTGGAGGCCTACGAATTCACCTCGATGAAGCCGGAGGAGCGGGTGCGCAAGGCGGTGGAATACGGCAGCCAGCTGCACGCGCAGTATCCGCGCGAGTTCGACAACGGCATCGCGGTCGGCTGGCACCGGGTGCCGTTCACCCACGGCTGCTTCGGCCAGTGGAGCGAGCAGGCGCGCGCGCAGCACTACGACAACCTGTGCCAGGTCGACGGGCGCCTGGCGTTGGCCGGCGAACACGTCTCCTACATCCCGGCCTGGCAGGAGGGCGCGATCCTGTCGGCGCACGACGCGATCGGCCGCCTGCATCGCAAGGTCGTCGCCAGCGGAGGCCGCGCATGA	MQGNTRGGMTRRQLLAKIGMTAGGAMMYQAMTSLGMAAESQYRGPLKLDGDVKGASVLVLGAGLAGMTAAYELRKAGYKVQILEFNQRPGGRNWSLHGGDSYTELGGATQHCNFDKDLYLNPGPWRIPHHHRAVLGYCKQFGVPLEAFNQVNFNALLHSQQGFGGKPQRFRDIDADYKGHVAELLAKSTRQQALDEVVGKEDQELLLESLRTWGALDRNFGYVKGRESSERRGFAKYPGGGLSGKPEFSEPFSVQDVLRSRLWTTLAAGNNYEMQTTMFQPVGGMDQIGKAFARQLPGVIRYGAKVTGIDQDAHGVTVTWQDTANGDAEQVSKADWCICTIPLSILSRIPVTASEAMTSAIAAVPYAASVKVGLQFKRRFWEEDEAIYGGISYTDLPITLISYPSTGYHSPGKGVLLGAYVWGLEAYEFTSMKPEERVRKAVEYGSQLHAQYPREFDNGIAVGWHRVPFTHGCFGQWSEQARAQHYDNLCQVDGRLALAGEHVSYIPAWQEGAILSAHDAIGRLHRKVVASGGRA	PGPT0007641_369	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007641-aofH-K00274	NA	NA
BMS020_07031	426			hypothetical protein	ATGAGCCGCCTGCGTTCGCTGCTGCCGGCGCTGGCGGTGCTGGGCGCGCTGGCGCTGCTGCTGGCGCCGGTCGCGCCGGAAGTGCATGCGCAGAGTTCCGATGCCACGCCGTTGTATCCGCAGGCCGGCTTCGCCGCGGTGTCCGGCCAGGGCGTGTACCAGGCGATCTGCCAGGGTTGCCACATGCCCGAGGGGCAGGGCGCGCGCGGGGCCGGGGAATACCCGGCGCTGGCCGGCAATCCCAAGCTTGCCGCGGCGCCGTACGTGGCGATGATGGTGCTCGACGGCCACGCCGGCATGCCCGGCTTCGGCGAGATGCTCAACGACCAGCAGGTCGCCGAGGTCGTCACCTACGTCCGCACCCATTTCGGCAACGACTACCAGGACGCGCTGGGCGCCGAGGACGTCAAGAGCCTGCGTCACTGA	MSRLRSLLPALAVLGALALLLAPVAPEVHAQSSDATPLYPQAGFAAVSGQGVYQAICQGCHMPEGQGARGAGEYPALAGNPKLAAAPYVAMMVLDGHAGMPGFGEMLNDQQVAEVVTYVRTHFGNDYQDALGAEDVKSLRH				NA	NA	NA	NA	NA
BMS020_07032	498	rutC_5		Putative aminoacrylate peracid reductase RutC	ATGATCCGTGCTTCGCTGTTCGCCGCCGTACTCGGCCTGGCCCTGGCCCCGCTGACGGCCCCCGCCGCCGAGGTGGTGCGCCACAAGATCCCCGGCAGCGATTTCCCGATCGCCGCCGCGGTCGAGGTGCCGGCCGGCAAGACCACCGTCTACGTCAGCGGCAAGGTGCCGGCGGTGATCGATCCAAGCGCGCCGAAGGGCTCGGCTGCCGCCTATGGCGACACCAAGGCGCAGACCGTCAGCGTGCTGACCCAGATCCAGCAGCAGTTGCAGTCGATCGGCCTGGGCATGGGCGACGTGGTGAAGATGCAGGTATTCCTGGTCGGCGACCCGGCCAAGGAAGGCAAGATGGATTTCGCCGGGTTCATGGCCGGCTACACCCAGTTCTTCGGCACCAAGGAACAGCCCAACCTGCCGGCGCGCTCGGCGTTCCAGATCGCCGCGCTGGCCAATCCGGCGTTCCTGGTCGAGATCGAAGTGGTCGCCGTCCGTCCCTGA	MIRASLFAAVLGLALAPLTAPAAEVVRHKIPGSDFPIAAAVEVPAGKTTVYVSGKVPAVIDPSAPKGSAAAYGDTKAQTVSVLTQIQQQLQSIGLGMGDVVKMQVFLVGDPAKEGKMDFAGFMAGYTQFFGTKEQPNLPARSAFQIAALANPAFLVEIEVVAVRP	PGPT0020030_229	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
BMS020_07033	1185	hisC_4	COG0079	Histidinol-phosphate aminotransferase	ATGGCTACGCAGCTGTCGCGTCGTTCGTTCCTGCAGGGCTCGGCCGCGCTGGCCGGTGCCGCCGGGCTGGTGCCGGCGCCGCTGCTGGCCAAGGCCACGGCCGCGGTCGCACCGGCGGCGCTGACGCCGGTGATGATCAATGCCAACGAGCATCCGGAGGGGCCTGCGCCGGCGGCGCTGCAGGCGATCGCGGCGATCGCGCCGCAGGGCGGGCGCTATCTCGGCCCGTTGCAGATGGAGCTGCTGCAGACCCTGGCCGAGCAGGCCGGGGTGCCGGTGGATCACGTGATGGCCTACGCCGGCTCGACCGAGCCGCTGGACTACACGATGCTGGCGTTCACAGGGCCGCAGGCGCCGCTGGTCACCGCCGACCCGACCTTCGAGGCCGGCTGGCGTGCCGCCGAGCGCAACGGCGCGCGTGTGGTCAAGGTGCCGCTGCGCGCCGACGATTCGCACGACGTGCAGGCGATGTGCGCGGCCGAGTCCGGCGCCGGGGTGATCTACATCTGCAATCCGAACAACCCGACCGGCTCGATCACCGCGCGCCGCGATCTGGAGTACGCGCTGGCGCACAAGCCCAAGGGCAGCGTGCTGGTGGTCGACGAGGCCTACATCCACTTCGCCGACAGCGCGGTGAGCATGCTCGACCGCGTCGCCGCCGGCGACGACGTGATCGTGCTGCGCACCTTCTCCAAGCTCTACGGCATGGCCGGGATCCGCCTGGGCTACGCGGTGGCGCGCCCGGAGCTGCTGGCCAAGCTGAAGTTCTACAGCATCAACAGCCTGCCGGTGACCGCGGTCGCCGCCGGGCTGGCCAGCCTGCGCGATCCGCAGCTGGTGCCGCAGCGGCGCGCGCGCAACCGCGCGGTGCGCGAGGACGCGGTGGCGTTCCTGCATGCGCACGGCTACGCCTGCACCACCTCGGAGAGCAACTGCTTCATGCTCGACGTGAAGCGCCCGGCGCGCGAGTTCATCAATGCGATGGCCAGCTGGGGCGTGTTCGTCGGCCGCGGCTGGGAGGTGTGGCCGCAGCGCGTGCGCATCACCGTCGGCACCGCCGCGGAGATGACCCGCTTCAAGGAGGCCTTCGCCCAGGTGGTCGCTGGCAAGCTCGGCCCGCTGCCGCCGCCCGCGCCGCGCACCGCGCTCGGCGGGGCCTCGGGCTACGCCGCGCATTGCGCGTGA	MATQLSRRSFLQGSAALAGAAGLVPAPLLAKATAAVAPAALTPVMINANEHPEGPAPAALQAIAAIAPQGGRYLGPLQMELLQTLAEQAGVPVDHVMAYAGSTEPLDYTMLAFTGPQAPLVTADPTFEAGWRAAERNGARVVKVPLRADDSHDVQAMCAAESGAGVIYICNPNNPTGSITARRDLEYALAHKPKGSVLVVDEAYIHFADSAVSMLDRVAAGDDVIVLRTFSKLYGMAGIRLGYAVARPELLAKLKFYSINSLPVTAVAAGLASLRDPQLVPQRRARNRAVREDAVAFLHAHGYACTTSESNCFMLDVKRPAREFINAMASWGVFVGRGWEVWPQRVRITVGTAAEMTRFKEAFAQVVAGKLGPLPPPAPRTALGGASGYAAHCA	PGPT0020305_412	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
BMS020_07034	450			Azurin	TTGAAGCTGTCCGCAATGCTCGTCGTCCTCGCCCTGGTCCTGTTCGCCCCGTCCGCCTGGGCCCGCACCTGTGCGGTGACGATTTCCGGCAACGACCAGATGAAGTTCGACCAGAGCAGCATCAAGCTCGCGCCCGACTGCACCCAGGTCAGCCTGACCCTGAAGCACCCCGGCACCATGGCCGCCAAGGTCATGGGCCACAACTGGGTGCTGACCAAGACCAGCGATTTCCAGGCGGTCGCCAATGCCGGCATCCGCGCCACGATCGAGGACAGCTACCTGCCCAAGAACGACCCGCGCGTGATCGCCAACACCAAGGTGATCGGCGGTGGCGAGTCCACCACGATCACCTTCCCGACCAGCAAGCTCACCAAGGGCGGCGCGTACACGTTCTTCTGCTCGTTCCCGGGCCACTGGACGATGATGAAGGGCACGCTCAGCTTCGGCTGA	MKLSAMLVVLALVLFAPSAWARTCAVTISGNDQMKFDQSSIKLAPDCTQVSLTLKHPGTMAAKVMGHNWVLTKTSDFQAVANAGIRATIEDSYLPKNDPRVIANTKVIGGGESTTITFPTSKLTKGGAYTFFCSFPGHWTMMKGTLSFG				NA	NA	NA	NA	NA
BMS020_07035	2823	malT_3		HTH-type transcriptional regulator MalT	ATGCTGGCCGGCGTGGAACGGGGCGTCAGTACGCGTCCTCATCGCCTCATGCTCAAGCCTGTTGCGTTGCTCACCCCGCGTCCGTCGCCCCCGCGCGACACCGCACTGCCCGACTGGCTGCTGGGCAGCAAGCTGGAGCCGCCGCCATTGCGCAGCGGCGCCGTGGAACGGCCGACGCTGATCGCCCGCCTGGCGCAGGCCCAGACCCTGCCCTTGACCCTGCTGCTGGCGCCGCCCGGCTTCGGCAAGACCACCCTGCTGGCGCAGTGGCACCGCCACCTGCTGGCCGCCGGCGTCGCCACCGCGTGGCTGTCGCTGGACGAGGACGACGCCGATCCCGGCCGCCTGCTCGGCCACCTGGCGCTCGCGCTGCAACAGGCCGGCGCCGATCCGGCGCTGTGCGCGCCGCTGCTGCAGCCCGGCGCGGACGACAGCGCGACCCTGCCGGCGGTCAATGCGCTGATCCGCGCCGCACGCTGCGCCCCGCACGACATCGTGGTGCTGCTGGACGATTACGACCGGGCCACCGGTACCGTGGCCGACGACATCGTGCTGCGTCTGGCCGAACACGCCGGTAGCCGCCTGCGCCTGCTGCTGGCGACCCGCCGCGCGCCGGCGCTGCCGCTGGCGCGGCTGGCGCTGCAGGGCCGGTTGCTGCGCCTTGGCAGCGAGGAGCTGGCGCTGGATGCCGGCGAAGCCCAGCAGCTGCTCGGCGAGGAGGTCGGCGCCGAAACCGCGCTGGAGCTGTGCCGCTACACCGAGGGCTGGCCGGTCGCGCTGCACCTGGCGCGGCTGTGGTTGGCCGGCGATGCGGCGCGGGCCAGCGAGATGGCGCGCTTCAGCGGGCGCTCGGCGCAGATCGCCGCCTATCTGACCGAACAGGTGGTCGCCGACCTCGATCCGGCCGCGCGCGAACTGCTGCTGCGCACCGCGCCGCTGCAGCGCTTCAACGCCGCGCTCGCCGACCACGTGCGCCGCAGCGAGGACAGCGGCCGCGTACTGGCGCGGCTGACCCACTTCCACGGCCTGCTGGTGCCGCTGGACAGCGAACACGAGTGGTTCCGTCTGCACCCGCTGTTCGCCGACTATCTGCAGCAACAGCTCGAACGCGACCACCCCGGCGAGGCCACCCAGATCCACCTGCGCGCGGCACGCTGGTTCGGCGAGCACCGCCACCTGCCCGACGCGGTGCGCCACGCCGCGCGCGGCGGCGCCAGCGACCTGGCCGCCGGCTACGTCGCCCGCGCCGGCACCTGGCAGCTGCTGCTCGACCACGGCACCGCGCAGGTGCGTGCGCTGCTGCGCCACTTCGACCACCGCAGCATCCGCGACACCCCGGCCTTGAACCTCACCCAGGCCTACCTGCACATGAAGCTGGGCGAGTTCCCGCACGCGCGCCTGCTGCTGGAACGCTTCCGCGATTTCCCGGCGGCGCTGCGCGAGCCGCTGCAGCGCGACTACACCATCGTGGTGGCGCTGCTGCGCGACCTGCTGGACGAGGTCTGCGGCAACCCGCACGGGCTGGCCCAGGTCGCCGCGCAGGCCACCGCGCTCGATCCGGATGACCATGTCGGTCGCGGCACCCTGCTGTGCATCTGCGCGACCACCGCGCTCGGCCTCGGCGACTTCGCGACCGCCGAGCGCCACTCCAGCGCCGCGCACGAGGCGATGCAGCGCGCCGGCAGCAGCCTCGGTGCCGGCTACGCGCTGCTGCACCTCGGCCAGAGCCTGTATTACCGCGGCCGCCTCGGCGACGCCGAAGCGGTCTACCAACAGGCCGCCGCGCTGGCCGCGCACCACGCCCAGCAGGACCGTGCGCTGCAGGCCGCGGCCGGCTGCCTGCTGGCGCAGCTGCAATACGAGCGCGGACGCCACGACCAGGCTGCCGATCTGCTCGATGCGCATCTGGACTTCATCGAGCGCCACGACGGCTGGCTTGACGTCTACGCCGGCGCCTACGAGACCGCGTTCTGGCTGGCGCGCCAGCGCGACCGCAGCGGCCGCGCGGCGCTGGCCCTGCTCGACCGCGTGGACCGCTTCGCGCAGTCGCGGCGGCTGCCGCGCCTGGCCGAACTGGCCGTCGCCTGGCGCCTGGGGCTGCTGCTGGACCAGCCGCACGGCGGCGCCATCGACGCGATGATCGCGCGCGGCGGCGGCGAGGCCGGCTTCGTGCACGCGCTGCGCCACCGCCAGCAATGGCGCCAGGCCGCGGCACTCGGCTTCGCCCTCGCCCGCTGGCATCGCGTGGCCGGCCGCAGCAGCGCCGCACTGGCATTGCTGCGCCAGCTCGAACAGGCCAGCGAGGGCTCAGGCAACCAGCACCACCTGGTGCGCGTGCGTGCGCGCATCGCCATGGTGCTGCAGCAGCGCGGCGAACCGGAAGCAGCGCTGCCGTGCCTGCACGACGTGCTCGACCATGTCGCGCTGACCCACGGCTGGCAGGTCGTGGCCGAGCTCGGCCTGCCGGCCAAGGCGATGCTGCGCTCGCTGCGCCAGCACGACCCGCAGATCGCCACCGGCACCACCCGCGCGCTGACCGTGCAGGCGCTGCTGGAGCGGCTCAGCGATACCGACGAGGCCAGCGACGCCTTCAGCGAGCGCGAACTGGAAGTGCTGCAGCAGCTCGGCCGCGGGCACTCCAACAAGCAGATCGGCCGCCACCTGCACCTGTCGGAGAACACGGTGAAGTTCCACCTGAAGAACCTCTATCGCAAGCTCGACGCGCGCACCCGCGAAGCCGCGCTGGCCAGCGCGCTGCAGCGCGGGCTGTTGCAGGCGCTGGACGAACAGCCCGCCAATGGCGGCGATGGCGGCGAGGAGTGA	MLAGVERGVSTRPHRLMLKPVALLTPRPSPPRDTALPDWLLGSKLEPPPLRSGAVERPTLIARLAQAQTLPLTLLLAPPGFGKTTLLAQWHRHLLAAGVATAWLSLDEDDADPGRLLGHLALALQQAGADPALCAPLLQPGADDSATLPAVNALIRAARCAPHDIVVLLDDYDRATGTVADDIVLRLAEHAGSRLRLLLATRRAPALPLARLALQGRLLRLGSEELALDAGEAQQLLGEEVGAETALELCRYTEGWPVALHLARLWLAGDAARASEMARFSGRSAQIAAYLTEQVVADLDPAARELLLRTAPLQRFNAALADHVRRSEDSGRVLARLTHFHGLLVPLDSEHEWFRLHPLFADYLQQQLERDHPGEATQIHLRAARWFGEHRHLPDAVRHAARGGASDLAAGYVARAGTWQLLLDHGTAQVRALLRHFDHRSIRDTPALNLTQAYLHMKLGEFPHARLLLERFRDFPAALREPLQRDYTIVVALLRDLLDEVCGNPHGLAQVAAQATALDPDDHVGRGTLLCICATTALGLGDFATAERHSSAAHEAMQRAGSSLGAGYALLHLGQSLYYRGRLGDAEAVYQQAAALAAHHAQQDRALQAAAGCLLAQLQYERGRHDQAADLLDAHLDFIERHDGWLDVYAGAYETAFWLARQRDRSGRAALALLDRVDRFAQSRRLPRLAELAVAWRLGLLLDQPHGGAIDAMIARGGGEAGFVHALRHRQQWRQAAALGFALARWHRVAGRSSAALALLRQLEQASEGSGNQHHLVRVRARIAMVLQQRGEPEAALPCLHDVLDHVALTHGWQVVAELGLPAKAMLRSLRQHDPQIATGTTRALTVQALLERLSDTDEASDAFSERELEVLQQLGRGHSNKQIGRHLHLSENTVKFHLKNLYRKLDARTREAALASALQRGLLQALDEQPANGGDGGEE	PGPT0018616_369	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018616-malT-K03556	NA	NA
BMS020_07036	1290	hemL_2	COG0001	Glutamate-1-semialdehyde 2,1-aminomutase	ATGAACCACGCCCGTTCCCACGCCCTTTTCGCCCAGGCGCAGCAGCGCATCCCCGGCGGGGTCAATTCGCCGGTGCGCGCCTTCAAGTCGGTCGGCGGCGAGCCGTTCTTCGTGCAGCGCGCCGACGGCGCCTACCTGTACGACGTCGACGGCAACCGCTACATCGACTACGTCGGCTCGTGGGGCCCGATGATCGTCGGCCACAACCATCCGGCGGTGCGCGAGGCGGTGGCCACGGCGATCGGCAATGGCCTGTCGTTCGGCGCGCCGTGCCCGGCCGAGGTGACGATGGCCGACACCATCACCCGGCTGGTGCCGTCGTGCGAGATGGTGCGGATGGTCAACTCCGGCACCGAGGCGACGCTGTCGGCGATCCGCCTGGCGCGCGGCGCCACCGGCCGCCAGCGCATCGTCAAGTTCGAAGGCTGCTACCACGGCCATGGCGACTCGTTCCTGGTCAAGGCCGGCAGCGGCATGCTGACCCTGGGCGTACCAACCTCGCCGGGCGTGCCGGCCGGACTGAGCGAGCTGACCTCGACCCTCAGCTACAACGACTTCGACGGCGCCAGCGCGCTGTTCGAGCAGATCGGCGGCGAGATCGCCGCGGTGATCATCGAACCGGTGGTCGGCAACGCCAACTGCATCGCGCCGCTGCCGGGCTACCTGCAGCACCTGCGCGACCTGTGCACCCGGCATGGCGCGCTGCTGATCTTCGACGAGGTGATGACCGGCTTCCGCGTCGCGCTCGGCGGCGCCCAGGCGTATTACGGCATCACCCCGGACCTGACCACGTTCGGCAAGATCATCGGCGGCGGCATGCCGGTCGGCGCCTACGGCGGCCGCCGCGAGCTGATGGCGCAGATCGCCCCGTCCGGCCCGATCTACCAGGCCGGCACGCTGAGCGGCAACCCGGTGGCGATGGCGGCCGGGCTGGCGATGCTGGAGCTGATCCAGGCACCGGGCTTCCACGATGCGCTCGCCGCGACCACGGCGACGCTGTGCGAGGGCCTGGAAGCGGCCGCACGCGAAGCCGGCGTGGCGGTCACCACCACCCGCGTCGGCGCGATGTTCGGTCTGTTCTTCACCGACCAGACCGTCACCAGCTACGCCCAGGCCACCGCCTGCGACACCGCTGCGTTCAACCGCTTCTTCCACGCGATGCTGGAACGCGGCGTGTTCCTGGCGCCGTCGGCCTACGAGGCTGGCTTCGTCTCCAGCGCGCACGATGCCGCCGTGGTCGAAGCCACGCTGGAGGCGGCGCGCGGCGCCTTCGCGGCGATCGCCGGCTGA	MNHARSHALFAQAQQRIPGGVNSPVRAFKSVGGEPFFVQRADGAYLYDVDGNRYIDYVGSWGPMIVGHNHPAVREAVATAIGNGLSFGAPCPAEVTMADTITRLVPSCEMVRMVNSGTEATLSAIRLARGATGRQRIVKFEGCYHGHGDSFLVKAGSGMLTLGVPTSPGVPAGLSELTSTLSYNDFDGASALFEQIGGEIAAVIIEPVVGNANCIAPLPGYLQHLRDLCTRHGALLIFDEVMTGFRVALGGAQAYYGITPDLTTFGKIIGGGMPVGAYGGRRELMAQIAPSGPIYQAGTLSGNPVAMAAGLAMLELIQAPGFHDALAATTATLCEGLEAAAREAGVAVTTTRVGAMFGLFFTDQTVTSYAQATACDTAAFNRFFHAMLERGVFLAPSAYEAGFVSSAHDAAVVEATLEAARGAFAAIAG	PGPT0003680_3081	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845	NA	NA
BMS020_07037	3171	oar		Protein oar	ATGAAGCGACTGATCCGCAGGAGCGCGCTAGCGCTCGCATTGACCATGGCCGCCAACGGCGCCATCGCCCAGTCCACCACCGGCAGGATCTTCGGCAGCGTCACCGGCGCGGCGGACGGCGATACGGTTCTGGTCGAGAACAGCAGTGGCTTCTCCCGCGAGATCAAGGTCGATCGTGGTCGCTACAGTTTTGGCAGTCTGCCGCTGGGCAGCTACAAGGTGACGCTCAAGCACGACGGCCAGTCCGTCGACAGCCGCAGCGATGTGGTGATCACCGTCGGTGCCGGCACCGAGGTCGCCCTGTCGGCCGGCGGCGCGACCACGACGATGGACGCGGTGACGGTGTCGGCGGCGGCGATGTCGCCGATCGACGTGACCAGCGTCGACACCCGTACCGTGGTCACCGCCGAGCAGCTGCAGCAGCTGCCGCTCGGGCGCAGCGCCGAGGCGATAGCGCTGTTGGCGCCGGGCGTGGTGGTCAACAGCGGCGGTTTCGACAATGGCCCGCTGGGTGGGTCGCTGCCGAGCTTCGGCGGTTCGGCGGCGTCGGAGAACGCCTATTACCTCAATGGCTTCAATACCACCTCGACCGCCAACAACCTCGGCGGCCTGACCCTGCCGTACGGCGCGATCGACCAGCAGGAAATCTTCACCGGTGGCTACGGCGCCCAATACGGCCGTTCCAACGGTGGCGTGATCAACCAGGTCGGCAAGCGCGGCACCAACGAATGGAAGTTCGGCGCCGCGGTGGTGATGGAGCCGGATGCGTTCAAGACCAACCAGAAGGACATCTACTGGCGCCCGGACAGCCAGACCTCGACGGTCGACAACACCGCCTACAACTACGCGCGTGCGGCCAACGGCCTGTACCAGCCGCTGAGCGAGACCAAGGCCACCTCCTCGACCTACAGCGCGTATGTCGGCGGTCCGATCATCAATGACCGGCTGTTCTTCTTCCTGGCCGGTGAGCGCGTGGACTCGCACGGGACCCGCATCGCCAGCAACCGCGACGCCAACAACGGCAACTCCGGTGGACTGACCGACTACGAGTACACGCAGGACCGCTGGTACGGCAAGCTGGACTGGAACATCACCGACAACCACCTGCTGGAATTCACCGGTGCCAGCGACAAGTACAAGACCGGCGGCACGACCTACGAGTACGACTACGTCAACCGCGAGAAGGGCGACTACTACACCACCGAGAACGTCAACAAGGCCGGCCCGACCCTGTATTCGCTCAAATACACCGGCTATATCGGCGACAACATCACCGTCAGCGCGCTGTACGGCCAGATGAACACGCCGGATGAGATCAGCTACTACAACTACGATCCGGCCGATGGCGCGGTGATCAACAGTACCGCGCTGCAGAACCCGGCCTATACCGGCGGTACGCCGATCGAGGGGGCGCAGAAGCAGGGCTCGATCACCGCCGAGGACCGCGAATACGAGAAGCGCAATCTGCGCCTGAGCGTGGAATGGCGCATCGGTGACCACGCGATTACCGCGGGCATCGACAACCAGAAGCTGAAGGCCACCGACATCGGCACGCAGGCGTCCGGCCCGGGCTACGCGTGGACCTATGGCCTCACCAGCGATCCGTACGGCCTCAATACCAACGGCCTGATCAGCCAGTCCGCGAACGAGGCCGGTGGCGTCGGCGTGGCCAGTCCGGCGCTGGTCGATCCGGTCTATGGTGCCTCGGGGTACTACGTGACCAAGGACACCAGCACCGGCCTGAATTCCTACGACGCCGACCAGAAGGCCTACTACCTGGAAGACAAGTGGCAGGTGACCGACAACCTGCTGCTGAGCCTGGGCGTGCGCAAGGACGAGTTCACCAACTACGTGCCGATCAGCCACGTGCCCTACATCAGCGTCGATGCCTGGTCGCCGCGCATCGGCTTCAGCTGGGACGTGCATGGCGATTCCAGCCTGAAGGTGTTCGGCAACGTCGGCCGCTACTACCTGGGTCTGCCGCTGTCGGCCGTCGGCCTGTTCACCTCATCGGTCTCCAAGAGCGAGTACTTCACCTACAGCGGCATCAATGCTGACGGCACGCCGATCATTTCGCAGTCGCTGGGCCCGGCGGTGTCGGCCAACTCGCGCTTCGGCCGTGCCTCCGATCCGAGCGCGGCGGTGGTCAAGGACATCAAGGGCGAGAACCAGGATGAAGTGATCCTGGGCTTCACCAAGCAGATGGAGAACGGCTGGATCTACGGCGTGCGCGGCACCTATCGCCGCCTCAACGACGCGATCGACGACCAGAACTTCGACACCAGCAACCTCGGCCTGGTCAATTCGGCCGCCGCGCAGGGCATCGACATCGACTGGACCCGGACCGCGGGCGCCGAGCTGATCAACCCGGGCAAGACCAACGTCTGGAACGTCTACGACACCTCGGGCAACCTGCAGCAGGTGACGGTGACGCGCGAGGCGGCCGGCTTCCCCGAGCTCAAGCGTGACTACGGTGCGGTGGAGTTCAACTTCGAGCGGCCGTTCGACGGCAAGTGGTACGCCAAGTTCAATTATGTGTGGTCGCACAGCTACGGCACCACCGAGGGCCAGCTGCGTTCGGACCTGTTCCGCTCCGGCGGTGCGCTGGGCAGCTACCAGGGCCAGGCGGCGGTGTCGACCACGCAGAGCTGGGATCACGCGGCGCTGATGGAAAACACCAACGGCGATCAGTCCAACGATCACCGCCATCAGATCAAGATGTACGGCTATTACCAGCTGACCGGCGAGCTCGGCGTGTCGGCCAACCTCAGCATGATCTCCGGCGCGCCGAAGAACTGCCTGGGCAACTACTACGGCACCGCCTACAGCGGGACCGACCCGGCGGGTTATGGCGGCAGCGCGGTCACCGGTGGCCCCTACCACTACTGCTACAACGCCGCGACCGACACCGGTGAAGCCTCGCCCCCGGGCTCGCAGGGCCGCCTGCCGTGGATCAATCAGCTCGATCTGGGCCTGAGCTGGAAGCCGCAGTTCGCCGACGGCAAGCTGGCGGTCAACTTCAACGTGTTCAACGTGCTCAACGCGCAGAAGCCGACCACGATCTATCCGTTCTCGCAGCTGCCCGATGGCTCGCAGAACCCGCTGTACGGCCAGGCGGTGGTCTACCAGACCCCGCGCTACGCCCGCCTCACCGTCAGTTACGACTACTGA	MKRLIRRSALALALTMAANGAIAQSTTGRIFGSVTGAADGDTVLVENSSGFSREIKVDRGRYSFGSLPLGSYKVTLKHDGQSVDSRSDVVITVGAGTEVALSAGGATTTMDAVTVSAAAMSPIDVTSVDTRTVVTAEQLQQLPLGRSAEAIALLAPGVVVNSGGFDNGPLGGSLPSFGGSAASENAYYLNGFNTTSTANNLGGLTLPYGAIDQQEIFTGGYGAQYGRSNGGVINQVGKRGTNEWKFGAAVVMEPDAFKTNQKDIYWRPDSQTSTVDNTAYNYARAANGLYQPLSETKATSSTYSAYVGGPIINDRLFFFLAGERVDSHGTRIASNRDANNGNSGGLTDYEYTQDRWYGKLDWNITDNHLLEFTGASDKYKTGGTTYEYDYVNREKGDYYTTENVNKAGPTLYSLKYTGYIGDNITVSALYGQMNTPDEISYYNYDPADGAVINSTALQNPAYTGGTPIEGAQKQGSITAEDREYEKRNLRLSVEWRIGDHAITAGIDNQKLKATDIGTQASGPGYAWTYGLTSDPYGLNTNGLISQSANEAGGVGVASPALVDPVYGASGYYVTKDTSTGLNSYDADQKAYYLEDKWQVTDNLLLSLGVRKDEFTNYVPISHVPYISVDAWSPRIGFSWDVHGDSSLKVFGNVGRYYLGLPLSAVGLFTSSVSKSEYFTYSGINADGTPIISQSLGPAVSANSRFGRASDPSAAVVKDIKGENQDEVILGFTKQMENGWIYGVRGTYRRLNDAIDDQNFDTSNLGLVNSAAAQGIDIDWTRTAGAELINPGKTNVWNVYDTSGNLQQVTVTREAAGFPELKRDYGAVEFNFERPFDGKWYAKFNYVWSHSYGTTEGQLRSDLFRSGGALGSYQGQAAVSTTQSWDHAALMENTNGDQSNDHRHQIKMYGYYQLTGELGVSANLSMISGAPKNCLGNYYGTAYSGTDPAGYGGSAVTGGPYHYCYNAATDTGEASPPGSQGRLPWINQLDLGLSWKPQFADGKLAVNFNVFNVLNAQKPTTIYPFSQLPDGSQNPLYGQAVVYQTPRYARLTVSYDY				NA	NA	NA	NA	NA
BMS020_07038	630	thiE_2	COG0352	Thiamine-phosphate synthase	ATGTCCTCGACCTTCGCGCCTCGCGGCGTGTACCTGATCACGCCCGACGAGCCCGATACCGCGCGCCTGCTCGCGCGCACGCGCCCGCTGCTGCCGCACGTGGCCCTGCTGCAGTACCGCAACAAGGCCGCCGACGGCGCGCTGCAGCGCGCCCAGGCCGAGGCCCTGCAGGAGGCCTGCAGCCAGGCCGGGGTGCCGCTGCTGATCAACGGCGACATCGCACTGGCGCGCGCGGTCGGTGCCGCCGGCGTGCACCTGCCCGGCGATGGCGGCGACATCCGCGCTGCGCGCGACGTGCTGGGGGCCGCGGCGGTGATCGGCATCTCCTGCTACGACGAACTGGCACGCGCCGAGCGCGCAGCCGAACACGGTGCCAGCTACCTCAGCTTCGGCGCGTTCTTCGCCAGCCCGAGCAAGCGCACCACGCGCCGCGCCCCGGCGCAGCTGCTGCACGACGCGGCGCACTTCGGGCTGCCACGCGCGGCGATCGGCGGCATCACCCCGGACACCTGCGCGCCACTGATCGCCGCCGGCGCCGAGCTGATCGCCACGATCAGCAGCGTCTACGCCGCGCCCGACCCGCTCGCCGCGGTGCAGGCCTATCGCCGGCACTTCGGCCTGGCAGGCTGA	MSSTFAPRGVYLITPDEPDTARLLARTRPLLPHVALLQYRNKAADGALQRAQAEALQEACSQAGVPLLINGDIALARAVGAAGVHLPGDGGDIRAARDVLGAAAVIGISCYDELARAERAAEHGASYLSFGAFFASPSKRTTRRAPAQLLHDAAHFGLPRAAIGGITPDTCAPLIAAGAELIATISSVYAAPDPLAAVQAYRRHFGLAG	PGPT0008995_3523	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
BMS020_07039	189	rubA2	COG1773	Rubredoxin-2	ATGAGCGACGCGCCTGAGACCACCTACCGGACCTGGATGTGCGTGGTCTGCGGCTTCCTGTACCGCGAGGAGGACGGGCTGCCGGAAGAGGGCATCGCGCCGGGTACGCGCTGGGAGGACATCCCCGATACCTGGACCTGCCCGGACTGCGGCGTGACCAAGGACGATTTCGAGATGGTCGAGGTCTAG	MSDAPETTYRTWMCVVCGFLYREEDGLPEEGIAPGTRWEDIPDTWTCPDCGVTKDDFEMVEV	PGPT0031990_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-POLYENE_COLLIMOMYCINS_METABOLSIM,PGPT0031990-Rubredoxin_type_Fe(Cys)4_protein-NA	NA	NA
BMS020_07040	846			hypothetical protein	ATGGTGGACCGCCTGACCCTCCCCAGCTGGACGACCCTCGCCAAGGCCGACGACGACGCACTGCCGCTGTTGGGCACCGCGCTGCTGATCGCGCGCGACGAGTACCCGGAGCTGGACGCGGACCTGTACGACACGCTGATCCAGAGCCACGTCGAACACCTGCGCCACGAGGTCGACATGATCGAGCTGTGGCCGCTGAAGATGGCCGCGGTCAATCGCCACCTGTTCGAGGAGCTGGGCTACACCGGCAACCACGACGAGTACTACGACCCGCGCAACAGCTACCTCAACCAGGTGTTCGAACGCCGCCTCGGCAATCCGATCTCGCTGGCGATGGTGCAGATCGAAGTCGCGCGCCGGCTCGGCATCCCGCTCGACGGGGTGTCCTTCCCCGGCCACTTCCTGGTGCGCCTGCCGGTCGACGACGGCGTGCTGGTGATGGACCCGTTCAACGGCGGCCGCCCGCTCGGCGTCGACGAACTGCGCGAACGCGCCCGTCCGCACCTGGGCGGGGAGATTCCCGACGACGGCGCGCTGGCGCGCATCCTCGACCCGGCGCCGCACCGCGCGATCCTGGTGCGCATGCTGCGCAACCTGCACGGCGTGTACGCCGATGCCGGCGAATGGGACCGCGCCGCACGCAGCGCCGACCGCATCCTGCGGCTGATGCCCGACCAGGCCGAGGCGCTGCGCGATCGCGGCCTGGCCTATCTGGAACTCGGCCACCAGGCCGGCGCACGCCGCGACCTGGCGCGCTACGTGCAGCTCAACCCGCAGGCCCGCGACGGCCAGCAGATCCGCGACCACCTGGTCGACTTGGGCGGACAGCCGGTCCGCGCACACTGA	MVDRLTLPSWTTLAKADDDALPLLGTALLIARDEYPELDADLYDTLIQSHVEHLRHEVDMIELWPLKMAAVNRHLFEELGYTGNHDEYYDPRNSYLNQVFERRLGNPISLAMVQIEVARRLGIPLDGVSFPGHFLVRLPVDDGVLVMDPFNGGRPLGVDELRERARPHLGGEIPDDGALARILDPAPHRAILVRMLRNLHGVYADAGEWDRAARSADRILRLMPDQAEALRDRGLAYLELGHQAGARRDLARYVQLNPQARDGQQIRDHLVDLGGQPVRAH				NA	NA	NA	NA	NA
BMS020_07041	450			hypothetical protein	ATGCTCCTGATCCGCGCCGTCGTCCTGTCATCGCTGTTGCTGCTGGGCGCCTGCGCCAGCGCCGGTTCGCCGTGGGTGGAGCTGGGCGGCCAGCGCTACCAGGTGGAGCTGGCACAGACCGACCAGACGCGGGCGCGTGGGCTGATGTTTCGCGATGCGATGGATGCCGACCACGGCATGCTGTTCATCCATGAGCGCAGCGAACCGCAGGCGTACTGGATGAAGAACACCCGGATCGCGCTGGACATCCTGTATTTCGACGAACAGTTGCGCCTGGTGTCGCAGCAGCGCGACGTGCCGCCGTGCTCGGCCGGCGATGCCTGCCCGCCTTACCCCAGCCGCAAGCCGGCGCGCTACGTGCTCGAACTCAACGCCGGGCAGGCCGCGCGCCTGGGGCTGAAGGACGGCGCCACGCTCACCGTCAGCCCGGGCATCGCGACGCGGCACTGA	MLLIRAVVLSSLLLLGACASAGSPWVELGGQRYQVELAQTDQTRARGLMFRDAMDADHGMLFIHERSEPQAYWMKNTRIALDILYFDEQLRLVSQQRDVPPCSAGDACPPYPSRKPARYVLELNAGQAARLGLKDGATLTVSPGIATRH				NA	NA	NA	NA	NA
BMS020_07042	648	rpiA_2	COG0120	Ribose-5-phosphate isomerase A	ATGTCCGAAGCAAAACGGCTGGCCGCCGAGAAGGCCATCGACTACGTCGAAGACGGCATGATCGTCGGCGTCGGCACCGGCTCGACCGTCGCCTATTTCATCGATGCACTGGGCCGCATCGGCCATCGCATCAAGGGCGCCGTGTCCAGCTCCGAGGCCAGCACCGCGCAGCTGCGCAAGCACGGCATCGAGGTGTTCGACCTCAACCACACCGGCGACCTGTCGCTGTACGTGGACGGCGCCGACGAATGCGATCCGGGCAAGTGCCTGATCAAGGGCGGCGGTGCCGCGCTGACCCGCGAGAAGATCATCGCCGAGGCCAGCGAGCGCTTCATCTGCATCGTCGACCCGAGCAAGCAGGTGCCGGTGCTGGGCCGCTTCCCGCTGCCGGTGGAAGTGATCCCGATGGCCCGCAGCCTGGTCGCGCGCCGGATCATGGACATGACCGGCGGCCAGCCGACCTGGCGCGAGGGCGTGGTGACCGACAACGGCAATGCCGTGCTCGACATCCACCACCTGGAGATCACCGACCCGGTGAAGCTGGAAGCGCAGCTCAACCAGATCCCCGGCGTGGTCTGCGTCGGCCTGTTCGCGCGCCGCCGCGCCGACGTGGTGATCGTCGGTGGCGAGCCACCGCGGGTGCTCTGA	MSEAKRLAAEKAIDYVEDGMIVGVGTGSTVAYFIDALGRIGHRIKGAVSSSEASTAQLRKHGIEVFDLNHTGDLSLYVDGADECDPGKCLIKGGGAALTREKIIAEASERFICIVDPSKQVPVLGRFPLPVEVIPMARSLVARRIMDMTGGQPTWREGVVTDNGNAVLDIHHLEITDPVKLEAQLNQIPGVVCVGLFARRRADVVIVGGEPPRVL	PGPT0017390_3872	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
BMS020_07043	471			hypothetical protein	ATGACCGCACGCAAGCGCTATTGGCTGATGAAGTCCGAACCGGACGCCTTCTCCATCGACGACCTGCAGCGCGTGGGCAGCGAACCCTGGAACGGCGTGCGCAACTACCAGGCGCGCAACTTCATGCGCGACGGCATGCAGGTCGGCGACGGCATCCTGTTCTACCACTCCAACACCAAGGTGCCCGGCATCGTCGGCGTCGCCCAGGTGGGCAGCGCCGCCTATCCCGACGATACCCAGTTCGACCCGAAGTCCGACTATCACGACCCCAAGGCCAGCCGCGAGAACCCGCGCTGGTACCTGGTCGACGTGGCGTTCGAGCGCAAGCTGGCGCGCACGATCGCGCTGGACGAAATCAAGCAGCACGCCGATGCGCTGGGCGAAGGCTTCCCGCTGACCGCGCGCGGCAACCGGCTGTCGGTGTTCCCGGTCACCGCCGCGCAGTGGAAGCTGCTGCTGGCGCTGGAGTGA	MTARKRYWLMKSEPDAFSIDDLQRVGSEPWNGVRNYQARNFMRDGMQVGDGILFYHSNTKVPGIVGVAQVGSAAYPDDTQFDPKSDYHDPKASRENPRWYLVDVAFERKLARTIALDEIKQHADALGEGFPLTARGNRLSVFPVTAAQWKLLLALE				NA	NA	NA	NA	NA
BMS020_07044	624		COG0212	5-formyltetrahydrofolate cyclo-ligase	ATGGGGGCCGACTCCGCCGACGCCCCCTGCCCGATGACCTCCGACGACCGCGCGACCCTGCGCCGCCAGCTGCGCGAACGCCGCCGCGCCATTCCCGCCGCCGAACGCATCGCCGCCGCCGACGCGCTGGCTGCGCGCCTGCTGGCGCTGCCGTTCGCGCCGCAGGCCGGTCATGTCGCCGGCTACTGGGCGATGGACGGCGAGATCGCCCTGCACCGCTGGCAGCTGTCGCTGCCTGAGACGGTGCATTACTGCCTGCCGGTACTGCATGGCGAGGTGCTGCGCTTCGCGCCGTGGCGCCCGGGCGCGGCGCTGACCGCCAATCGCTACGGCATCCCCGAGCCCGACATCGCCCTGGCCGACACCTTGCCGGCCGAGGCGATGGCCCTGGTGGTCACGCCACTGGTCGGCTTCGATCCGGGCTGCCGCCGGCTGGGCATGGGGGGCGGCTGGTATGATCGCAGCTTCGCTTTCCGGCAACGCCAGGCCCCGCCGCCCTGGCTGGTCGGGGTCGGCTTCGCCGCCCAGCAGACCGATGCCCTGCCCGCGCAGGACTGGGACGTGCCGGTCGACGCGGTCTGCACCGAAGCTGCCACCTTCCTGAACGACCTGGTTCCCGCATGA	MGADSADAPCPMTSDDRATLRRQLRERRRAIPAAERIAAADALAARLLALPFAPQAGHVAGYWAMDGEIALHRWQLSLPETVHYCLPVLHGEVLRFAPWRPGAALTANRYGIPEPDIALADTLPAEAMALVVTPLVGFDPGCRRLGMGGGWYDRSFAFRQRQAPPPWLVGVGFAAQQTDALPAQDWDVPVDAVCTEAATFLNDLVPA	PGPT0008170_1577	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
BMS020_07046	300	zapA_2	COG3027	Cell division protein ZapA	GTGAGCGGCAACGAACCGGCCAGCGTCCGCATCCTCGACCGCGAATACACCGTCGGCGTCACCGCCGAGGAACGCGACAGCCTGCACGCCGCCGCGCGGCTGCTGGATACCCGCATGCGCGAGATCCGCGGCAGCAACCGCATGGCCGCGCTCGACCGCGTCGCGGTGCTGGCCGCGCTCAACCTCGCCCACGAGCTGCAGCAGCTGCGCGACGAACAGTCGCGGCAGTCGCGCGAGCTCGCGCAGACCCTGGATGCGCTCAACCGGCGCCTGGACAGCGTGGCCGATACACAGCGCTGA	MSGNEPASVRILDREYTVGVTAEERDSLHAAARLLDTRMREIRGSNRMAALDRVAVLAALNLAHELQQLRDEQSRQSRELAQTLDALNRRLDSVADTQR				NA	NA	NA	NA	NA
BMS020_07047	222			hypothetical protein	ATGGACACCCCCGACGCCCTAGAGCAACTCCGCGCCCTTGCCGCGCGCGTGGAGGCGTTGGTGGAACGCTGCCAGCGCCTGGCCGACGAGAACCGCAGCCTGCGCCACCAGCAGGAGCAGTTGGTCGGCGAACGCTCGCAGCTGCTGGCCAAGAACGAGCAGGCGCGTTCGCGCGTCGAAGCGATGATCACCCGCCTGAAGTCGCTGGAGCAGCACACGTGA	MDTPDALEQLRALAARVEALVERCQRLADENRSLRHQQEQLVGERSQLLAKNEQARSRVEAMITRLKSLEQHT				NA	NA	NA	NA	NA
BMS020_07048	2211			hypothetical protein	ATGCTGCCCACCTGCATTGCCGCGGGACTCGTCGCCCCCCCGTCGGCCTTGCCTGGCTGGATCGGCCTCGGCGTCACCGCCATCGGCGCCGCGCTGCTCGGCTGGCACCTGCATGCGCGCCGGATCGGCCGCCACCTGGACGCGGTACGACGTTCGCTGGCGGCCGGCTCCGGCCAGCTCTGGCACCTGGACCTGCGTCAGGGGCGGCTGTGGCTGTATGGCACGCTGGCCTTCGCCGACCGCGCCGTGCACACGCTGGACGTCGGCCGCAGCCGCGGCCTGCCGCCGGTGCATCCGGACGACATGGCCGCGCTGCAGCGCGCCTTCATCGCCCACCGCGACGGCGAACTGCCGAGCTTCCGCTGCGAATACCGCACCGACCTGCGCGGCGACGGCGGCTGGACCTGGCTGGACGTGCGCGGCAGCATCATCGAGCGCGATGGCGCCGGCCAGCCGCTGCGCATGGCCGGCATCGCCCGTGCGCTGCTGCAGGGCCAGGTCACCGATACCGAACGCAGCATCGCCGCCGAGGTGCTGCAGAGCATGAGCGAAGCGGTCGCGGTGCTGGACCGGCAGATGCGCTTCGTCTCGGTCAACCCGGCCTTCACCCGCATCACCGGCTACCCCGAGGCGGAGGTGATCGGCCACCCGCTGGCCCTGCTCGATCCACCCGGCGACGGCGTGGCCAGCAGCGCGCTGCCGGCGGCGCTGGAACGCGACGGCCACTGGCAGGGCGAATGCTGGCGCCAGCGCAGCGACCGCGAGGAGATCCTCTGCAGCGAGCGCATCAACCTGGTGCGCGACAACGCCGGCCACCGCATCTTCCACGTGCTGGTGATGGAGGACATCACCGAGCGCCGCCGCGCCGAGCAGGAACTGCGCTACCTGGCCAACTACGACACCCTGACCGGGCTGCCGAACCGCGCGCTGCTGACCGAGCGCCTGGCGATGGCGGTGACGCGCGCACGCGCCTCCGGCAGCCGCGGCGCGGTTTTGTTCCTGGACCTGGACCGGTTCAAGGACATCAACGATTCGATGGGCCATGCCTTCGGCGACCGGGTGCTGCGTGCCGTCGCCGAGCGCATGCGTGAATCGCTCGGGCTGCAGCACACCGCCGCACGCCTGAGCGGCGACGAATTCGCGGTGGTGGTCGAAGACCTCCCTGACGATGCCGAGGGCGCCGCGGGCGCGGCCGCACGACGCCTGCTGGCCGCGTTCGAGGCGCCGCTGCAACTGGACGCCACCCGCGAGGTGGCGATCTCGCCGTCGATCGGCATCAGCCTGTTCCCGGCCCACGCGCAGGTGCCGAGCGAGCTGCTCAAGCTCGCCGACACCGCGATGTACCGCGCCAAGGCGGTCGGCCGCCGCACCTTCCAAGTGTACTCGCCGCAGATGGACGCCGGCATGCGCGAACGCGCGCAGCTGGCCGGCGCGCTGCGCAAGATCCGCGCCGAGGCCGAGCTGCGCCTGGTGTACCAGCCGCGCTATTCACTGGGCGAACGCCGCATCGTCGGCTTCGAGGCGCTGCTGCGCTGGGACAGCCCGGAATTCGGCGCGGTGACGCCAGACCGGTTCATCCCGATCGCCGAGGAAACCGGGCTGATCGTGCCGTTCGGCGCCTGGGCGCTGCAGCAGGCCTGCCAGACGCTGCGGCAGTGGCATGCACGCGGCCAGCAGCACCTGGCGGTGTCGGTGAACGTCTCGGCGATCCAGCTCGCCCACGGCAACCTGGTGGCCACCGTGGCGCGGGTCCTGCAGGACACCGGCATCCCGCCGCACAAGCTCGAGCTGGAACTGACCGAAAGCGTGGTGATGGACGCCGCGCGCGGCCACGCCGAGACCCTGCATGCGCTGCGCCGGCTGGGCGTTGGCCTGGCGATCGACGACTTCGGCACCGGCTACTCCTCGCTGGCCTACCTCAAGCGGCTGCCGATCAACACGCTCAAGATCGACCAGGAGTTCATCGCCGACCTGACCCGCGACGCCGACGACGAGGCGATCACCAGCACGATCATCGCGATGGGCCACTCGCTGTCGCTGAAGGTCGTGGCCGAGGGCGTGGAGGACGGCGCCCAGCTCGCCTTCCTCGAACGCCACGGCTGCGAGGAAGTGCAGGGCTACCTGATCTCGCCGGCGCTGGAAGCGGAGGCCTGCGAGATCCTGCTGCGGCGCCCGCCACTGCAGACGCACGCCCAGCCGATCCCGTCTTGA	MLPTCIAAGLVAPPSALPGWIGLGVTAIGAALLGWHLHARRIGRHLDAVRRSLAAGSGQLWHLDLRQGRLWLYGTLAFADRAVHTLDVGRSRGLPPVHPDDMAALQRAFIAHRDGELPSFRCEYRTDLRGDGGWTWLDVRGSIIERDGAGQPLRMAGIARALLQGQVTDTERSIAAEVLQSMSEAVAVLDRQMRFVSVNPAFTRITGYPEAEVIGHPLALLDPPGDGVASSALPAALERDGHWQGECWRQRSDREEILCSERINLVRDNAGHRIFHVLVMEDITERRRAEQELRYLANYDTLTGLPNRALLTERLAMAVTRARASGSRGAVLFLDLDRFKDINDSMGHAFGDRVLRAVAERMRESLGLQHTAARLSGDEFAVVVEDLPDDAEGAAGAAARRLLAAFEAPLQLDATREVAISPSIGISLFPAHAQVPSELLKLADTAMYRAKAVGRRTFQVYSPQMDAGMRERAQLAGALRKIRAEAELRLVYQPRYSLGERRIVGFEALLRWDSPEFGAVTPDRFIPIAEETGLIVPFGAWALQQACQTLRQWHARGQQHLAVSVNVSAIQLAHGNLVATVARVLQDTGIPPHKLELELTESVVMDAARGHAETLHALRRLGVGLAIDDFGTGYSSLAYLKRLPINTLKIDQEFIADLTRDADDEAITSTIIAMGHSLSLKVVAEGVEDGAQLAFLERHGCEEVQGYLISPALEAEACEILLRRPPLQTHAQPIPS	PGPT0023624_400	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
BMS020_07049	558			hypothetical protein	GTGAAAGACACGATGACCCATCTCCCCGACGTGCTGGCGGTGCAGCAGGAAAGCGCCCGGCTCGGGCTGGCGGCCAATGCCGCCGAACTCCACGGTGGCCTGACCGGCTGGCTGGCCGGCGGCGGCGCCGACAGCGCGCAGTGGCTGGCCAAGGTGCTGGCCGACGAGAGCCTGCCGGCGCCCGACGCCGACGGCGCGCTGGCGCAGCTGCGCCGGGCCACGCATGCCCAGCTCGAGGACCGCGATTTCGCCTTCGAACTGCTGCTGGTCGCCGACGATGCAGCGCTGACGGCGCGCGCCGACGCCTTGTTCGACTGGTGCCGGGCGTTCCTGGGCGGCTTTGGCCTGGCCGCGGGCGGCCGCCCGGTGTTGTCCGAGGAGGGCGAGGAGGCGCTGCAGGATCTTGCGCGGCTGGCGCAGGCATCCTCGGAGGACTTCGACAGCACCGACGACGACGAGGACGCGCTGGCCGAGATCGAGGAATTCGTCCGCGTCGCCGCGCTGTTGCTGCATGGCGACTGCGTGCTCGGCGCGCGCCATCGCCAGCGTTTGAACTGA	MKDTMTHLPDVLAVQQESARLGLAANAAELHGGLTGWLAGGGADSAQWLAKVLADESLPAPDADGALAQLRRATHAQLEDRDFAFELLLVADDAALTARADALFDWCRAFLGGFGLAAGGRPVLSEEGEEALQDLARLAQASSEDFDSTDDDEDALAEIEEFVRVAALLLHGDCVLGARHRQRLN				NA	NA	NA	NA	NA
BMS020_07050	1326	pepP_2	COG0006	Xaa-Pro aminopeptidase	ATGAAACGCCTGACCGGCATCGGCGCGGCCGAGTTCGCGCGCCGTCGGCGCCGGCTGATGGACATGGCGGGCCCGGATGCGATCCTGGTGCTGCCGTCGGCGCCGGAGCGGGTGCGTAGCCACGACACCCACTACCCGTACCGGCAGGATTCGGACTTCTGGTACCTGAGCGGCTTTCCCGAGCCGGACGCGGTGCTGGTGCTGGTGCCGGGGCGCCGGCATGGCGAATCGATCCTGTTCTGCCGCGAGCGCGACCCCGAGCGCGAAGCCTGGGACGGCCCGCGTGCCGGCCAGGAGGGCGCGGTGGAGGCGTTCGGCATGGACGACGCCTATCCGATCGACGACCTCGACGAGATCCTGCCCGGCCTGCTCGAAGGGCGTTCGCGGGTGTACTACCACTTCGGCCGCGACGCCGACTTCGACCTCAAGCTGATCGGCTGGGTGAAGCGGGTGCGTGCGCAGGTCCGGCTCGGCGCCGAGCCACCGCACGAGTTCCTGGAGCTGGGCCACCTGCTGCACGAGCAGCGGCTGTTCAAGTCCAGGGACGAGATCGCGCTGATGCAGCAGGCCGCGGACATCAGCGTGCGCGCCCACCGCGCGGCGATGCGCGCGGCGCGGCCGGGCATCCACGAGTACGAGCTACAGGCCGACCTGGAGCGCGAATTCCGCGCCGCCGACGCGTGGCCGGCCTACGGCAGCATCGTCGGCAGCGGCGCCAACGCCTGCGTGCTGCACTACCGCGACAACAGTGCGCGCAGCCGCGATGGCGACTTGGTGCTGATCGATGCCGGCGCCGAATACCGCAGCTACGCGGCCGACATCACCCGCACCTTCCCGGTGAACGGGCGTTTCAGTCGCGAGCAGCGTGCGCTGCATGACCTGGTGCTGGCCGCGCAGGTGGCGGCGCTGGAGCAGGCGCGTCCCGGCGTCGCCTACGAAGAGGGGCACCTGGCCGCGGTCGAAGTGCTGACCGAGGGCCTGCTGCGGCTCGGGCTGCTGCAGGGCGACCTGGAGAGCAACATCGTCGAGGGCCATTACCGGCGTTTCTACCGGCACAAGACCGGGCACTGGCTGGGGCTGGACGTGCACGACGTCGGCGACTACAAGCTGGCCGGCGAATCGCGCCTGCTCGAGCCGGGCATGGTGTTCACGATCGAGCCGGGCCTGTACGTGGCGCCCGACGACGCCAGCGTGGCGGCGAAGTGGCGCGGCATCGGCATCCGCATCGAGGACAATGTGCTGATCACCGCCGACGGGCACCGCGTGCTCACCGATGCACTGGCGCGCAGCGCCGACGAGATCGAAGCGGAGATGGCGGCGCGCTGA	MKRLTGIGAAEFARRRRRLMDMAGPDAILVLPSAPERVRSHDTHYPYRQDSDFWYLSGFPEPDAVLVLVPGRRHGESILFCRERDPEREAWDGPRAGQEGAVEAFGMDDAYPIDDLDEILPGLLEGRSRVYYHFGRDADFDLKLIGWVKRVRAQVRLGAEPPHEFLELGHLLHEQRLFKSRDEIALMQQAADISVRAHRAAMRAARPGIHEYELQADLEREFRAADAWPAYGSIVGSGANACVLHYRDNSARSRDGDLVLIDAGAEYRSYAADITRTFPVNGRFSREQRALHDLVLAAQVAALEQARPGVAYEEGHLAAVEVLTEGLLRLGLLQGDLESNIVEGHYRRFYRHKTGHWLGLDVHDVGDYKLAGESRLLEPGMVFTIEPGLYVAPDDASVAAKWRGIGIRIEDNVLITADGHRVLTDALARSADEIEAEMAAR	PGPT0006770_4278	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
BMS020_07051	423			hypothetical protein	ATGCACGACCCGCGCCACGCCGGCCACCCCGACCACGCGCTGTACCAGCAGATCGAGCGCGGCGTGCACGCGCTCGATGCCCAGCACGGCCGCAGCCCCGACGCGCGCAGCGACCGCCTGGCCGCGGCGCTGCTGCCATTGGCCAAGGAACACGGCCTGAGCCGGGTCGACCATGTGATGGTCAGCCGCGACAACGGCCGCGGCGTCGCCACCGGCGAGCATGTGTTCGTGGTCCAGGGCGACCCCGCCGATCCGGCGCATCTGCGCGCCTACATGCGCACCGCCGATGCGATCGCGTTGCCCGAGCAGGAAGCCTGGCAGCGCGCGGCGCAGCTGCAACCAGCCGCGCCGGCGGTGCAGGCCGCGCCGGCGCCGGCGCAGGCGCAGGCCCAGGCCCAGGCACCCACCGTACCGGGGATCTGA	MHDPRHAGHPDHALYQQIERGVHALDAQHGRSPDARSDRLAAALLPLAKEHGLSRVDHVMVSRDNGRGVATGEHVFVVQGDPADPAHLRAYMRTADAIALPEQEAWQRAAQLQPAAPAVQAAPAPAQAQAQAQAPTVPGI				NA	NA	NA	NA	NA
BMS020_07052	1329	pepQ_1		Xaa-Pro dipeptidase	ATGAACCAGCACGACCCGGGCGCCCTGTATCCGGCGCATCTCTCCGTCCTCATGCAGCGTGCCGACACGGCGCTGGCGCGTGGCGGCTTCGATCACCTGGTCGTCCCCAGCGGCACCCTGCACTACCAGCTGTTCGACGACCGCGACTATCCGTACGCGGTGAACCCGCAGTTCAAGGCCTGGCTACCGCTGACCCGGGTGCCCAACAGCTGGCTGGTGTACACGCCGGGCAAGCGCCTGCAGGTGATCTTCCACCAGCCGCGCGACTACTGGCACGTGGTGCCGGACGCGCCCAGCGGCTGGTGGGTCGAGCACTGCGACATCCACATCATCCGCACCCCGGACGAGGCGCTGGCGCTGCTGCCCAAGGACGCCGCGCGCTGCGCGATCCTCGGCGAGGCGCAGAGCGCGCTCGGCGCGTTCGTGCCGAACAACCCGGCGCCGGTGGTCGATTACCTGGAATACCACCGCGCGTTCAAGACCCCGTACGAGCTGGCGCTGATGCGCCAGGCCCAGAAGCACGCGGTGCGCGGCCACCGTGCCGCCGAGGCGGCGTTCCGCGCCGGCGCCAGCGAGTTCGACATCCACATGGCCTACTGCGCCGCGGTCGGCCAGGATGCCAACGACCTGCCGTACGGCAACATCATCGCGCTCAACGAACACGGCGCGGTGCTGCACTACACCGAGCTGGGCCGCAGCGCGCCGCAGCCGCTGCGCAGCTTCCTGATCGATGCCGGTGCATCCGCGCACGGCTATGCCAGCGACATCACCCGCACCTACGCCGCCGACGCCGGCAGCGAGTTCCAGGCGCTGATCGACGCGGTCGACGCCGCGCAGGTGCGCATGGGCCAGGCGGTGCGCGCCGGCTTCGACTACAAGCAGCTGCATATCGATGCGCACCTGGCGCTGATGGGCGTGCTGAAGGACTTCGGCGTCATCACCGTGTCGCCGGAAGCCGCGCTGGCCACCGGCGTCAGCGCGGCGTTCTTCCCGCACGGCATCGGCCATGGCATCGGCCTGCAGGTGCACGACGTCGCCGGCTTCGCCGCCAGCGACCGCGGCGGCCGCATCGAGCGCCCGGCCGGCCACCCGTACCTGCGCATGACGCGGGTGCTGGAACCGGGCATGGTCGTCACCATCGAGCCGGGCGTGTACTTCATCGACATGCTGCTGGACGAGGTCAGGCAGGCCGGCCACGCCGCCAGCGTCGACTGGGAACGCGTGGCGCAGTTCAAGCCGTTCGGCGGCATCCGCATCGAGGACGAAGTGGTCTGCACCGATGCCGCGCCGGAAAACCTGACCCGCCCGGCATTCGCCGCCCTGACCTGA	MNQHDPGALYPAHLSVLMQRADTALARGGFDHLVVPSGTLHYQLFDDRDYPYAVNPQFKAWLPLTRVPNSWLVYTPGKRLQVIFHQPRDYWHVVPDAPSGWWVEHCDIHIIRTPDEALALLPKDAARCAILGEAQSALGAFVPNNPAPVVDYLEYHRAFKTPYELALMRQAQKHAVRGHRAAEAAFRAGASEFDIHMAYCAAVGQDANDLPYGNIIALNEHGAVLHYTELGRSAPQPLRSFLIDAGASAHGYASDITRTYAADAGSEFQALIDAVDAAQVRMGQAVRAGFDYKQLHIDAHLALMGVLKDFGVITVSPEAALATGVSAAFFPHGIGHGIGLQVHDVAGFAASDRGGRIERPAGHPYLRMTRVLEPGMVVTIEPGVYFIDMLLDEVRQAGHAASVDWERVAQFKPFGGIRIEDEVVCTDAAPENLTRPAFAALT	PGPT0006760_440	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
BMS020_07053	345			hypothetical protein	ATGATCCACGAAGCACGCCGCGCGCCGCGCCGCCAGCCCGCCAACCTGATCCCGGTGCACGATTTCATCGCCGATGCGGCGATCGGCCGGGTCGGCAACGTGTCCGAGGGCGGGATGCTGCTGCTCGCCTCCGCGCCACTGGTCGAGGACGCGCTGTACCAGCTCAGCTTTCCGCTCCCGGACCACACCGGACGCAACACCGAGATCAGCGTCGGCGCCCACGTGCTGTGGGTCGAGCAGGCGCACGCCCCGGGCCAGTCCTGGGCCGGCTTCCGCTTCCTGACCGTGTCCGAAGAGCACCGCGCGCGGCTGCGCGACTGGGTGGCGCAGGAACACGGCGGCTGA	MIHEARRAPRRQPANLIPVHDFIADAAIGRVGNVSEGGMLLLASAPLVEDALYQLSFPLPDHTGRNTEISVGAHVLWVEQAHAPGQSWAGFRFLTVSEEHRARLRDWVAQEHGG				NA	NA	NA	NA	NA
BMS020_07054	1236			hypothetical protein	ATGCGCGACCTGCAGCAGCAACTGCTCGGCCTGCTGCGCGAGGCGCACGGCCCCGAGGCCGGGTTGTCGCCACAGGACACCGATACCTTCGACCTGCTCGGCCTGCTGTACGGCGAGATCGAGCGTGAGGTGCGCGGCGGCACCTCCGCCGCGGAACTGCTGGTGCGGCTGCAGGTGCCGGTGGTCCGCGCGGCGCTGCAGGACCGCGCCTTCTTCGTGCGCGACCAGCACCCGGCGCGCGAGCTGCTCAATGCAGTGGCCGAATCGGGCGCGACCTGGCTGGCCGACGACGACGGTGACCCGCAGCTGCTGCAGAAGCTCAGCCGCGCGGTCGACAAGGTCGTCGCCGAGTACCAGGGCGACGAGGCGGTGTTCGAACACGCCAACGAGGAGATCCAGGCCCACCACAAGGCGCAGGTGCGCAAGGCCGAGGTCTCCGAGCGCCGCCATGTCGAGGCCGCGCGCGGCAAGGAACGGCTGGAGATGGCCAAGCGCCTGGCCGGCGACAGCATCGACCACGTCTGCGCCACCGCCGCGCCCCCCAAGTTCGTGCAGGCGCTGCTGCGCCAGGCCTGGTCGGATGTGCTGACCCTGACCCTGCTGCGCCAGGGCGAGCAATCGGCCGAATGGGAAGAGCGCCAGGCGCTGACCGACCGCATCGCCGAGGTCACCGGGCGGCCGTCCGGTGGCGAGGTCGACAGCGAGCTCGGCAGCGAAGTTGAAGCGGCGCTGGCCCAGGTCGGCTACCACCATGAAGAGGCCGCGGCGATCGCCCGCCGGCTGTCCACGCCTGGCGGCGAGGATGCAGCGACCTCGCGCACCGAACTGGCGGCCAAGCTGAAAGCGCGCGCACGCCTGGGCGAGACCCCGGACGCACGCCGCGCGCCGGCGGCGCCACGTTCGCCGGCCGAGCAGACCTGCTACGACCAGCTGCGCACCTTGCCGTTCGGCACCTGGTTCGAGTTCGTCACCAACCAGCAGGGCGATGCCCGCCGCCAGCGCCTGTCCTGGTACAGCCTGGTCACCGACCATGCGCTGTTCGTCAACCAGCGCGGGCAGAAGATCGGCGAACACACGCTGGACGCGCTGGCCCGGCTGATGGCGACCAGCCAGGTGCGGCTGCTCACCGAAGACCGCGGCCGCCTGATCGACCGCGCCTGGCAGGCCACCGTGCGCGCACTGCGCGCACTGGCTGGCGGGCGCGATGCCGCCACCGCGCAGGAGCGCCTCGCATGA	MRDLQQQLLGLLREAHGPEAGLSPQDTDTFDLLGLLYGEIEREVRGGTSAAELLVRLQVPVVRAALQDRAFFVRDQHPARELLNAVAESGATWLADDDGDPQLLQKLSRAVDKVVAEYQGDEAVFEHANEEIQAHHKAQVRKAEVSERRHVEAARGKERLEMAKRLAGDSIDHVCATAAPPKFVQALLRQAWSDVLTLTLLRQGEQSAEWEERQALTDRIAEVTGRPSGGEVDSELGSEVEAALAQVGYHHEEAAAIARRLSTPGGEDAATSRTELAAKLKARARLGETPDARRAPAAPRSPAEQTCYDQLRTLPFGTWFEFVTNQQGDARRQRLSWYSLVTDHALFVNQRGQKIGEHTLDALARLMATSQVRLLTEDRGRLIDRAWQATVRALRALAGGRDAATAQERLA				NA	NA	NA	NA	NA
BMS020_07055	1035	xerC_2	COG4974	Tyrosine recombinase XerC	ATGGATTACACCCCCGAAGTCGACGGCGTAATTGGCGGGCAGCGCCCGATGTTGCTGGAGATGGTGCGCCGGCGTATTCGCTTGAAGCACTACAGTATCCGCACTGAGCAGGCGTATGTGGGCTGGATCCGGCGCTTCACCCTCGCCAATGGACGGCGGCATCCGCGCGAGTTGGGGCACGCTGAGGTCGAGTTGTTCTTGAGTCGCTTGGCCAGTGAAGGCAATGTGGCGGCCGGCACCCAGAATCAGGCGTTGTCGGCGTTGCTGTTCCTGTACCGCGAGGTGCTGGAGATGGAGTTGCCGTGGATGGAGGACGTGGTCCGCGCCAAGCGCGCGCGACGGATTCCGGTGGTGCTGTCGGTCGAGGAGGTCGGAAGGCTGCTGGCGTGCATGCCCGATGGCACCTGCGAACTGCTCGGCCGGCTGCTTTATGGCACGGGCATGCGCCTGCTGGAGGGTTTGCGACTCCGGATCAAGGATGTCGACTTCGATCGTTGCGAGATCTGCGTGCGCCAGGGCAAGGGCGGCAAGGATCGTCGGGTGCCGTTGCCGGACAGTCTGCGTGGCCGCCTGCTCGGGCAGCGGGCGCGCGCGTTGTTGCTGCACGCGCAGGATCTGCGCGCGGGTGCCGGCAGGGTCCATCTGCCGCATGCGTTGGCCCGTAAATATCCGGGCGCGGACCGCGAGCCGGGCTGGCAATACCTGTTCCCGGCGGCGCGCACCTCACTGGACCCGCGCACCGGCCGCAGCGGTCGGCACCATGTGGGGGAGGAGGTGCTGCAACGGGCGATCAAGCGCGCCCGCCATCGCGCCGGCATCGCCAAGCCGGCCACGTGTCATACGTTGCGGCATTCCTTCGCCACGCATCTGCTGGAGGCGGGCAGCGACATCCGCACGGTGCAGGAGCTGCTGGGTCACAAGGACCTGGCGACCACGCAGATCTACACCCATGTGCTCGGCCGCGGTGCAGGCGCGGTGCGTAGTCCGCTCGACCGGCTGGAAGCGCTGCGTCCAACTGGCGTGGGCTTGGAGTGA	MDYTPEVDGVIGGQRPMLLEMVRRRIRLKHYSIRTEQAYVGWIRRFTLANGRRHPRELGHAEVELFLSRLASEGNVAAGTQNQALSALLFLYREVLEMELPWMEDVVRAKRARRIPVVLSVEEVGRLLACMPDGTCELLGRLLYGTGMRLLEGLRLRIKDVDFDRCEICVRQGKGGKDRRVPLPDSLRGRLLGQRARALLLHAQDLRAGAGRVHLPHALARKYPGADREPGWQYLFPAARTSLDPRTGRSGRHHVGEEVLQRAIKRARHRAGIAKPATCHTLRHSFATHLLEAGSDIRTVQELLGHKDLATTQIYTHVLGRGAGAVRSPLDRLEALRPTGVGLE				NA	NA	NA	NA	NA
BMS020_07056	1386			hypothetical protein	ATGCGCTCCCTGCTGCCACTGCTGCTCGCCGTCCCCGCCCTCGCCTGCGCCGAAACCTCGCCAACGCCCGCCAGCGCCGCGCAGGCGCAGCTGTACGCCATCGGGCGCGCGCCGTCGGCGGCCCGGATCGAGGCGGACGTGCGCACCCTGGTCGGTTTCGGCACGCGCCATACCTTGTCGGAGACCGCGTCGGACACCCGCGGCATCGGCGCGGCGCGGCGCTGGATCCACGCCCAGTTCGAGCAGATCTCGCGCGAGTGCGGCGGCTGCCTGGAAGTGCGCGACGTCAGCGGCACCGTGTCCGGCGAGAAGCGCATTCCGGATCCGACCGAGGTCGTCAACGTGATCGCGATCCAGCGCGGCACCACCGATCCGAACCGCTACGTGATCATGAGCGGCGACATCGACTCGCGCGTCAGCGACGTGATGAACGCGACCAGCGACGCTCCCGGCGCCAACGACGATGCCTCCGGCGTCGCCGGTACGCTGGAAGCCGCACGCGTGCTGAGCAAGCAGCGTTTCGCCGGCACGATCGTCTACGCCGCGCTGTCGGCCGAGGAGCAGGGCCTGTTCGGCGGCAAGATCCTGGCCGCGCAGGCCAAGCAGGAAGGCTGGCGGATCGAGGCGATGCTCAACAACGACATGATCGGCAACAGCCGCGGCCAGGACGGCGTGGTCGACAACAGCACCGCACGAGTGTTCTCCGAGGGCACCCGCGCGGTGGAGACCGCCGAGGAGCCCCGCCAGCGCCGCTTCACCGGCGGCGAGCTGGACTCGCCATCGCGCAACCTCGGGCGCTACATCGCCGGCATGGCCCAGTACGTGCCCAATCTCGACGTGATGATGGTCTACCGGCTCGACCGCTTCGGCCGCGGCGGCCACCACAGTCCGTTCAACGACGCCGGCTACCCCGCGGTGCGGATCATGGAGGCGCACGAGCATTACGACCGCCAGCACCAGGACCTGCGCACCGAGACCGACGCGCAAGGCCACGCACGCGGATACGGCGACACGGTCGAAGGCGTCGACTTCGCCTATGCCGCCAAGCTCACCGCACTCAACGCGGTGACCCTGGCATCGCTGGCCGCGGCGCCACCACCGCCAGCCGACGTACGCATCGAAGGCGCCGTGGCGTCGGACACCACGCTGCGCTGGACGCTGCCGCCCCCCGCCCAGGCCAAGAACCTGGCGGGCTACAAGCTGTATTGGCGCCTCACCACCGACGCCCAATGGACGCACAGCCGCACGGTCGGCAAGGTCGATGCGTTCACGCTGCAGGACACCGTGATCGACAACTACTTCTTCGGCGTCGCCGCGGTTGCGCTGGATGGCAGCGAGAGCCCGGTGGTGTTCCCCGGGGCCGCAGGCAGCTTCGGCGGTTACTGA	MRSLLPLLLAVPALACAETSPTPASAAQAQLYAIGRAPSAARIEADVRTLVGFGTRHTLSETASDTRGIGAARRWIHAQFEQISRECGGCLEVRDVSGTVSGEKRIPDPTEVVNVIAIQRGTTDPNRYVIMSGDIDSRVSDVMNATSDAPGANDDASGVAGTLEAARVLSKQRFAGTIVYAALSAEEQGLFGGKILAAQAKQEGWRIEAMLNNDMIGNSRGQDGVVDNSTARVFSEGTRAVETAEEPRQRRFTGGELDSPSRNLGRYIAGMAQYVPNLDVMMVYRLDRFGRGGHHSPFNDAGYPAVRIMEAHEHYDRQHQDLRTETDAQGHARGYGDTVEGVDFAYAAKLTALNAVTLASLAAAPPPPADVRIEGAVASDTTLRWTLPPPAQAKNLAGYKLYWRLTTDAQWTHSRTVGKVDAFTLQDTVIDNYFFGVAAVALDGSESPVVFPGAAGSFGGY				NA	NA	NA	NA	NA
BMS020_07057	570			hypothetical protein	ATGGCGATCCGCAATCCGCTCCAGGAACAACTGCTCAAGGCTGGCCTGGCCAAGAAGAGCCAGGCCGATCAGGCCGCGCGCGACCAGGCCAAGGCACGCAAGGACAAGAGCAAGGGCGTGGCGCTGCCGCAGCAGGCCGACAAGGTTGATGCCGCGCGCCTGCAGGCCGAGCGCGCCGAGCGTGATCGCGCCCTCGCCGCCGAGCGCAACGCGCAGCTGCGCGCGCAGGAGCTGCAGGCGCAGATCCGCCAGATCGTCGAGACCCACAAGGTCAAGCGCGGCGGCGAGATCGACTACCGCTTCAACGACGGCAGCATGATCCGCAGCGTGCTGGTCAACACCGCGCTGCGCAGTCAGCTCGCCAGCGGCGCGCTGGTGATCGTGCGCCACGGCGATGGCGTCGAGCTGGTGCCGCGCGCGGCCGCCGACAAGATCCATGAACGCGATCCGGCGGCGGTGTTGCTCGACCATGGGCGCAAGGACGGTGCCGCCGCGCCCGCCGCCACCGACGCGGGCGACGACTTCTACGACCAGGACCGCTTCCAGGTGCCGGACGACCTGGTCTGGTGA	MAIRNPLQEQLLKAGLAKKSQADQAARDQAKARKDKSKGVALPQQADKVDAARLQAERAERDRALAAERNAQLRAQELQAQIRQIVETHKVKRGGEIDYRFNDGSMIRSVLVNTALRSQLASGALVIVRHGDGVELVPRAAADKIHERDPAAVLLDHGRKDGAAAPAATDAGDDFYDQDRFQVPDDLVW				NA	NA	NA	NA	NA
BMS020_07058	381			hypothetical protein	ATGCGGCGCGTGACCGGTATCGGCGGCATCTTCTTCAAGGCCCGCGACCCCGCCCAGCTGGCGGCGTGGTACCGCGACCACCTGGGGCTGGACGTGACCGGCTGGAACGGCGCGATATTCCAGTGGGGCGGCGAAGGCAGCGCGGCCGGCGCGACCCTCTGGAGCCCGTTCGCCGCCGACAGCGAGTACATGGCGCCGGGCACGGCGAGCTTCATGGTCAATTTCCGCGTCGCCGACCTGGACGGCCTGCTGGCTGCCCTCAGGCAGGAAGGCTGCAACGTGCTCGATGACGTGCAGCGCTCCGAGCAGGGCGCATTCGGCTGGGTCATCGACCCGGAAGGCAACAAGGTCGAACTGTGGGAGCCGGCGGCGGGCATGTGA	MRRVTGIGGIFFKARDPAQLAAWYRDHLGLDVTGWNGAIFQWGGEGSAAGATLWSPFAADSEYMAPGTASFMVNFRVADLDGLLAALRQEGCNVLDDVQRSEQGAFGWVIDPEGNKVELWEPAAGM	PGPT0009155_2957	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
BMS020_07059	909			hypothetical protein	ATGCTCCGCCTGCCCGTTCTGCTGACCCTCGCGCTCGCCGCCGCCTGCACCGCGCCCGCGCGCGCCGCCGACGACACCCGGCTATGGGACGTCTACGCCACGCAGTTGAAGGGAGTGAAATACGTAACGCTGTCGCATGTGATCGCGCCCGACATCCCGGTCTGGCACGGCTTCGGCCCATCGAAGTTCGCGCCGGCCAGCAATCCCGAGACCGGCAAGGCGTACCGCTACGACAGCGACGGCTTCGAGGCCACGCGCTACACGCTGTCGACCGACCAGCTCGGCACCCAGCTCGATCCGCCGGCGCACTGGGCCCCCGAATATCCGTCGATCGACGAACTGCCGGCCAGCTACACGCTGCGACCGCTGGTGGTGATCTCGATCGTCGCGCAGGTGCAGAAGCATCCGGGTTACGCGTTGAGCGTGGCCGACATCCAGGCCTGGGAGAAGGCGCACGGGCGCATCCCGGCAGGCGCGGTGGTGTTCGTGCGCTCGGACTGGTCCAAGCGCTGGCCGGATCCGGCGCTGGCCAAGCTCGAGCACTTCCCCGGGGTATCGCTGCCGGCACTGCAGTTCCTGCACGAGCAGCGCCATATCCTGCTGCACGGCCACGAGCCGCTCGATACCGACGACAGCCCCAACCTCGAAGGCGAGGCGTGGCTGATGCACCACGGCTACGCGCAGGCCGAGGGCGTGGCGCACCTGGACCAGGTGCCCGAGGTCGGCGCACTGGTCGCGATCGGCTTCCCGCGCTTCAAGGGCGGCACCGGCGGCTACGCCAGCTTCACCGCGATCTGCCCACCGGACTGGCCGCACGGCGTCGCCGCCGATCCGCGCCGCGACGCCCCGCTGCCGCGTTCGGACAGCCCCCTGCATTGGGACCCGGCCCAGGGCGTGCGGGTGCGCTGA	MLRLPVLLTLALAAACTAPARAADDTRLWDVYATQLKGVKYVTLSHVIAPDIPVWHGFGPSKFAPASNPETGKAYRYDSDGFEATRYTLSTDQLGTQLDPPAHWAPEYPSIDELPASYTLRPLVVISIVAQVQKHPGYALSVADIQAWEKAHGRIPAGAVVFVRSDWSKRWPDPALAKLEHFPGVSLPALQFLHEQRHILLHGHEPLDTDDSPNLEGEAWLMHHGYAQAEGVAHLDQVPEVGALVAIGFPRFKGGTGGYASFTAICPPDWPHGVAADPRRDAPLPRSDSPLHWDPAQGVRVR				NA	NA	NA	NA	NA
BMS020_07060	360			hypothetical protein	ATGAAGAAGACCTCGATCCTGATGCTGGCGCTTGGCCTGGCCGTGTCCGCTGGCGCCTACGCCGCTCCACAGTCGCATGACGACCACGCCGCGCCGCAGGCGTCGGCACAGAAGTCGGCGCAGAAGGACGCGCAGAAGGATGCCAAGCCGGCAGCGAAGAGCCACGCCAAGAAGAGCTCGCCGTCGCACAAGAAGGGCGAGCGCCTGGCCAGTGGCAACCGCGGCGAGAGCGTGGACTACCGTGCGCACAAGCTGAAGGCACCGCCGAAGGGCCATGAGTGGCGCAAGGTCGGCAACGACTACGTGCTGATCGCGGTGGCCACCGGCCTGATCACCAGCGTCATCGCCGCCGGCAACTGA	MKKTSILMLALGLAVSAGAYAAPQSHDDHAAPQASAQKSAQKDAQKDAKPAAKSHAKKSSPSHKKGERLASGNRGESVDYRAHKLKAPPKGHEWRKVGNDYVLIAVATGLITSVIAAGN				NA	NA	NA	NA	NA
BMS020_07061	1839	ilvD_1	COG0129	Dihydroxy-acid dehydratase	ATGCCCGATTACCGCTCCAAGACCTCCACCGCCGGCCGCAACATGGCCGGGGCCCGCGCGCTGTGGCGCGCCACCGGCATGCAGGACGACGACTTCCACAAGCCGATCGTCGCCATCGCCAACTCCTTCACCCAGTTCGTGCCCGGCCACGTCCACCTGAAGGACCTCGGCCAGCTGGTCGCGCGCGAGATCGAGCGCGTCGGCGGCGTCGCCAAGGAGTTCAACACGATCGCCGTCGACGACGGCATCGCGATGGGCCACGACGGCATGCTGTACTCGCTGCCGAGCCGCGAGATCATCGCCGACGCGGTCGAGTACATGGTCAACGCGCACTGCGCCGACGCACTGGTGTGCATCTCCAACTGCGACAAGATCACCCCCGGCATGCTGATGGCCGCGCTGCGGCTGAACATCCCGGTGGTGTTCGTCTCCGGCGGGCCGATGGAAGCCGGCAAGACCAAGCTGGCCGACCACAAGCTCGACCTGATCGACGCGATGGTGATGGCGGCCGACCCGAACGCCAGCGATGAGCAGGTCGCCGCGGTCGAGCGCAGCGCCTGCCCGACCTGCGGCTCGTGCAGCGGCATGTTCACCGCCAACTCGATGAACTGCCTGACCGAGGCGCTGGGCCTGTCGCTGCCGGGCAACGGCACCGTGGTGGCCACGCACGCCGACCGCGAGCAGCTGTTCCTCAAGGCCGGCCGCACCGCGGTCGAGCTGTGCCACCGCTGGTACGGCGCCGAGGACCCGACCGCGCTGCCGCGCGGCATCGCCACGTTCGAGGCGTTCGAGAACGCGATGACGCTGGACATCGCGATGGGTGGCTCGACCAACACCATCCTGCACCTGCTTGCCGCCGCGCAGGAAGGCGAAGTGCCATTCACGATGCGCGACATCGACCGGCTGTCGCGGCGCGTGCCGCAGCTGTGCAAGGTCGCGCCGAACACGCAGAAGTACCACATCGAGGACGTGCACCGCGCCGGCGGCATCATGGCGATCCTCGGCGAGCTGGCGCGCGGCGGGCTGCTGCATACCGACGTCGCCACCGTGCATGCCAGGACCCTGGGGGATGCGATCGCACAGTGGGATGTCGGCGTCAGCACCGATGCCGCGGTGCAGACCTTCTACCAGGCCGGCCCGGCCGGCATCCCGACCCAGGTCGCCTTCAGCCAGGCCACGCGCTGGCCGTCGCTGGACGTGGACCGCGCGCAGGGCTGCATCCGTGATGTGGCCCACGCGTATTCGGCCGAAGGCGGGCTGGCGGTGCTGTACGGCAACATCGCGCTCGACGGCTGCGTGGTGAAGACCGCCGGCGTCGACGAATCGATCCACGTGTTCGAAGGCAACGCGCGCGTGTTCGAAAGCCAGGACGCCGCGGTGAAGGGCATCCTCGCCGACGAAGTGGTCGCCGGCGACGTCGTGGTGATCCGCTACGAAGGCCCGAAGGGCGGCCCGGGCATGCAGGAGATGCTGTATCCGACCTCGTACCTGAAATCCAAGGGCCTGGGCAAGAAGTGCGCGCTGCTGACCGACGGGCGGTTCTCCGGCGGCACCTCGGGGCTGTCGATCGGCCATGCCTCGCCGGAAGCGGCGGGCGGCGGCGCGATCGGCCTGGTGCGCGATGGCGACCGTATCCTGATCGACATCCCCAACCGTGGCATCAACCTGCTGGTCTCCGACGAGGAGCTGGCCGCGCGCCGCGCCGACCAGGACGCCAGCGGCTGGAAGCCGGCGCAGCCGCGCCCGCGCAAGGTCACCACCGCACTGAAGGCCTACGCACTGCTGGCCACCAGCGCCGACAAGGGCGCGGTGCGCGACAAGGCGCTACTGGACGGCTGA	MPDYRSKTSTAGRNMAGARALWRATGMQDDDFHKPIVAIANSFTQFVPGHVHLKDLGQLVAREIERVGGVAKEFNTIAVDDGIAMGHDGMLYSLPSREIIADAVEYMVNAHCADALVCISNCDKITPGMLMAALRLNIPVVFVSGGPMEAGKTKLADHKLDLIDAMVMAADPNASDEQVAAVERSACPTCGSCSGMFTANSMNCLTEALGLSLPGNGTVVATHADREQLFLKAGRTAVELCHRWYGAEDPTALPRGIATFEAFENAMTLDIAMGGSTNTILHLLAAAQEGEVPFTMRDIDRLSRRVPQLCKVAPNTQKYHIEDVHRAGGIMAILGELARGGLLHTDVATVHARTLGDAIAQWDVGVSTDAAVQTFYQAGPAGIPTQVAFSQATRWPSLDVDRAQGCIRDVAHAYSAEGGLAVLYGNIALDGCVVKTAGVDESIHVFEGNARVFESQDAAVKGILADEVVAGDVVVIRYEGPKGGPGMQEMLYPTSYLKSKGLGKKCALLTDGRFSGGTSGLSIGHASPEAAGGGAIGLVRDGDRILIDIPNRGINLLVSDEELAARRADQDASGWKPAQPRPRKVTTALKAYALLATSADKGAVRDKALLDG	PGPT0001875_1795	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
BMS020_07062	561			hypothetical protein	ATGAAGCGATCCAGGACCACCGCGCTGCTGCTGATGAGCACCGCGCCGCTGCTGTTCACTGCCTGCCAGCGCGAGCAGGCGGTGCAGGTGCAGGAAGGGCTGTACACCTCGGTGGACAGCTGCGTGCAGGCCACCGGCGACCCGTCGGCGTGCCGTACCGCGTTCGCACAGGCCAGCCAGCAGGCGGCCGATGCGGCGCCCAAGTACGCCAGCCGCGCCGAGTGCGAGAAGGACTACGCCGCCGACCAGTGCGTGGAACAGCGCACCTCGGCCGGGCATTCGTTCATCGGCCCGATGATGGCCGGTTTCTTCATGTCGCAGATGCTCAACAACCGCGCCGGGCTGGCCCAGCCGCCGGCGGCACCGGCCTATCAGGACCGCAACGCCGGCTGGGCACGCCCGGCCGCCGCGCCGGGTACCGGCGGGCTGAACACCGCCAGCGGCATCGGCAGCGGCAAGGCCGGGCTGGCGCCGATCAGCAGCACCCCGAATCGCGCGGTGACGGTCAGCCGCAGCGGGTTCGGTGGCAGCAGCAGCGGCCGCGGCAGCTTCGGCGGCTGA	MKRSRTTALLLMSTAPLLFTACQREQAVQVQEGLYTSVDSCVQATGDPSACRTAFAQASQQAADAAPKYASRAECEKDYAADQCVEQRTSAGHSFIGPMMAGFFMSQMLNNRAGLAQPPAAPAYQDRNAGWARPAAAPGTGGLNTASGIGSGKAGLAPISSTPNRAVTVSRSGFGGSSSGRGSFGG				NA	NA	NA	NA	NA
BMS020_07063	1182	ygiC_2	COG0754	Putative acid--amine ligase YgiC	ATGCGCCGCGTCCCGATCATCGAGCGCGGCGACTGGCGCGCGCAGGCCGCCGAGGCCGGTTTCCGCTTCCACACCATTGACGGTGAGCGCTACTGGGACGAACGCGCCTATTACGCGTTCACCCTGCGCCAGATCGAGCGCGACCTCGAAGACCCGAGCGTGGAGCTGCACCAGATGGCGCTGGCGCTGGTGGACGAGGTCGTTGCCAGCGAGGCGCTGATGCAGCGGCTGGCGATCCCGGCGCCGTTCCGCGACTGGATCGCCGACAGCTGGCGCCGCGGCGAGGCTTCGCTGTACGGCCGGCTCGACTTCGCCTACGACGGCCACGGCCCGGCCAAGCTGTACGAGCTCAACTACGACACCCCGACCTCGCTGTTCGAGGCGGCGTTCTTCCAGTGGCAGTGGCTGGAGGACCAGGTCGAGGCCGGGCGCCTGCCCGCCGGGGCCGACCAGTTCAACTCGATCCACGAGGCGCTGGTGGCGCGGTTCGGCGCACTCGCCGCGCAGTTGCCGCCGCCGCTGTACTTCAGCGCGGTGCGCGCCTCGGAGGAAGACCAGGGCACCATCGCCTACCTGCGCGACTGCGCCGCCCAGGCCGGGCTGCGCGGCGACACGCTGGCGATCGAGGACATCGGCCTGAGCGAGGACGGCCGTTACACCGATCTCGACGACACGGTGATCGGCGCGCTGTTCAAGCTGTACCCGCTGGAAGACCTGTTCGCCGACCAGTTCGGCCATGCGCTGCCGGGCTCCGGTCTGCGCCTGCTGGAACCGCCGTGGAAGGCGCTGCTCAGCAACAAGGGCATCCTGCCGCTGCTGTGGGAGCGCCATCGCGGCCATCCCAACCTGCTGGAGGCGCATTTCGACGACGGCGGCGCGCTGCCGGCCGGCTGGGTGCGCAAGCCGCTGCATTCGCGCGAGGGCGCCAACGTGGCGATGCACCTGGCTGATGGCCGCTGGCTGGAGAGCGAGGGGCCGTACGCCGGCCCGTGCGTGCGCCAGGTGCTGCATCCGCTGCCGCGCTTCGACGGCCAGTACCCGATGGTCGGCAGCTGGATCGTCGGCGACGCCGCCTGCGGCATCGGCATCCGCGAGGACAGCGGCCCGATCACCCGCGACAGCGCCCGCTTCCTGCCGCACGCGATCGTCGAGGACGACGCGCCCGGCGTGCTGTATGCCTGA	MRRVPIIERGDWRAQAAEAGFRFHTIDGERYWDERAYYAFTLRQIERDLEDPSVELHQMALALVDEVVASEALMQRLAIPAPFRDWIADSWRRGEASLYGRLDFAYDGHGPAKLYELNYDTPTSLFEAAFFQWQWLEDQVEAGRLPAGADQFNSIHEALVARFGALAAQLPPPLYFSAVRASEEDQGTIAYLRDCAAQAGLRGDTLAIEDIGLSEDGRYTDLDDTVIGALFKLYPLEDLFADQFGHALPGSGLRLLEPPWKALLSNKGILPLLWERHRGHPNLLEAHFDDGGALPAGWVRKPLHSREGANVAMHLADGRWLESEGPYAGPCVRQVLHPLPRFDGQYPMVGSWIVGDAACGIGIREDSGPITRDSARFLPHAIVEDDAPGVLYA				NA	NA	NA	NA	NA
BMS020_07064	663			hypothetical protein	ATGCCTGAGCCCGCCGCGCCCCGCCGGCATCGCGACGACGGGCGACCGCTGGCCGCGTACGCCGACCAGGTCGCGGTGCTCTGCCCGCGTTGCGGCGCCCCGGCATGGATCGTCGCGGCGTGGCAGCCGTACGCCTGGCGCGCGCTGCTGCGCTGTCGCTGCGGGCTGCGGCTGGACGACGCCTCGCCATGGCAGGGGCCGACGACGCTGAGCGGCTACCGCGCCTGCGGCGGCTGCGGCCACAAGTGGGTCAGCGCGCAGCGCGTGGCGGCGCAGCCATCGCCGCATCCGCCGGCGACGCTGGAAGGCAGATGCGCGCGCTGCGGGTGGCGCGGGCCGGTGCCGGTGCAGGCCCGGCCGCTGCGCGACGGCAGCGCGGTCGACCCGCACTTCGGCCTGCCGCTGCTGCTGCAGGCACCGACCCGTGCCGGCCTGCTGTGGGCCTACAACGCACGCCACCTGCAGACGCTGGCCGCGTTCGCCGGCGCACCGCTGCGCGAACGTCGTGGCGCCGGCAACCGCTCGCTGTTCTCGCGGATGCCGCTGTGGATGAAGCTGGCTCGGCACCGGCCGCTGCTGCTGCGCGCGGTGCAGCGGTTGCAGGCACGGCTGGCGACGTTGCCGGCCTGCCCGACGCTGCCGCCGCCCGGGCCGCAGGCGTAG	MPEPAAPRRHRDDGRPLAAYADQVAVLCPRCGAPAWIVAAWQPYAWRALLRCRCGLRLDDASPWQGPTTLSGYRACGGCGHKWVSAQRVAAQPSPHPPATLEGRCARCGWRGPVPVQARPLRDGSAVDPHFGLPLLLQAPTRAGLLWAYNARHLQTLAAFAGAPLRERRGAGNRSLFSRMPLWMKLARHRPLLLRAVQRLQARLATLPACPTLPPPGPQA				NA	NA	NA	NA	NA
BMS020_07065	270			hypothetical protein	ATGGAACCCTGCCTGGACTGCCGCGCCGACTGCGGCGCCTGCTGCATCGCGCCGTCGATCACCTCGGCGCTGCCCGGCATGCCGCACGGCAAGCCGGCCGGTGTGGCGTGCGTGCAGCTCGACGCCGACATGCGCTGCCGGGTGTTCGGCACGCCGCAGCGGCCCGGCTTCTGCGGCCGGCTGCAACCGGCGGCGGACATGTGCGGTAGCTCGCGCGCCGAGGCGATGGCCCTGCTGACCCTGCTGGAGCAGGCGACCCGGCCGGGTTGA	MEPCLDCRADCGACCIAPSITSALPGMPHGKPAGVACVQLDADMRCRVFGTPQRPGFCGRLQPAADMCGSSRAEAMALLTLLEQATRPG				NA	NA	NA	NA	NA
BMS020_07066	2121			hypothetical protein	ATGTCGCGTCGTTCCCCCAGCCTGCAGACCAAGCTGCTTGGCGCCCTGGCCGCGGGCCTGGGCATCGTCCTGCTGTGCGCGCTGACCGGGCTTGCCTCGGCCTGGCTCAACCTGTCCACCGACGTGCCGCGCGAGGTGCGCGAGGCCACCGTCGCCGAACACGCCGGGCGCGAATTCCGCCTGCAGGTGCAGGAGTGGAAGAACGTGCTGATCCGCGGCCACGATGCCGAGCAGTACAAGAAGTACCTGGCGGCGTTCCGTGAGCAGGGCGGCAAGGTCCAGGCGCTGGTCGGCCCGCTCGCCGACAGCGTGGCCGATCCGCAGGCGCGGCAACTCGCGGTCGACTTCCGCGACCAGCACCGCGCGCTGATGCAGCGCTACGAGGCCGGCCTGGCCGACTTCGCCGCTGCCGGCTTCAACACCCAGGCCGGCGACGCTGCGGTGAAAGGCGCCGACCGCGCCCCGACCAAGACCGTGGACGCGCTGGCCGCGCGCACCACGCAGCTGGCCGATGCCGCAGTGCAGGCCAGTTCGCAGCGCGCCCGGCGCACGTTGCTGGTGTCGGCGTTGGCCACGGTGCTGGCCGCGCTGACCCTGGTCGCGGTCGGCGTGGTGTGGGTGCGGCGTGCGGTGATCGGCCCGGTGGCGCGCATCGCCCAGGCCGCGGGCGAGGTCGCGCAGGGGCGCTTCGACGTGAACCTGCAGGTGCGCAGCCGCGACGAGATCGGTGCGTTGGCCGGTGCGATGGCCGGCATGGTGGCGACCCTGGGCGAGGTGTCCGCCGCCCAGGACACGATGGCCGCGCGGCACGAGGCCGGCGAGCTGAGTTACCGCATGCAGGCTGCGCGCTTCCCGGGCGCCTACGGCACGATGGTGGCGCAGACCAACGACCTGGTCGGTGCGCAGGTGGCGCTGATCCAGCAGATGCTGGACGTGATGCAGGCCTATGCCGACGGCGACTTCCGCGAGGACATGCCGGCGCTGCCGGGCGAGAAGGCCTCGATCAGCGCGGCGATGGCGGCAACCAAGCGCAACCTGCAGTCGATCAACCACGAGATCACCGCGCTGGTGGAGGCGGCCGCGGCCGGCGACTTCGCCCGCCGTGGCGACGCGGGCGCGTATCGGCATGAATTCCGCACGATGGTGGACGGGCTGAACCGGCTGATGGCCGGGGTCGGCGACAACCTGGAAGACATGTCGCGGCTGCTGCGCGCGATCGCCGCCGGCGATCTCACCGTGCGCATGCACGGCGAGCAGCGCGGGGTGTTCGCGCGGATGCGCGACGATGCCAACAGCACCGTCGAGCGCTTGACCGGCATCGTGACCGGCATCGCCACGGCGGCGGGGGCGATCGACACCGCCGCCTCGGAGATCGCCAGCGGCAACGACGATCTGGCCCGACGCACCGAACAGCAGGCGGCCAACCTCGAAGAGACCGCCGCGTCGATGGAGGAGCTGACCAGCACCGTGCGCCACAACGCCGATACCGCCGCCGAGGCCAGCCGCAAGGTCGCCGACGCGGCCGGCACGGCGCGGCGCGGCGGCGAGCAGGTGCAGGCGGTGGTGGCGTCGATGCAGCAGATCGAGGTGGCCTCGCGGCGCATCGCCGAGATCAACGCGGTGATCGACGGCATCGCCTTCCAGACCAACATCCTGGCACTCAACGCCGCGGTGGAAGCGGCGCGCGCCGGCGAGCAGGGCCGCGGCTTCGCCGTGGTCGCCACCGAGGTGCGCGCGCTGGCGCAGCGCTCGGCGCAGGCCGCGCGCGAGATCAAGGGCCTGATCGAGGACTCGGTGGCGCGCGTGGCCACCGGTGCCGACCAGGTCGCCGAGACCGGCGGCACGATGCAGGCGCTGCTGGCCGCCGTGCAGCATGTCGACGGCTTGATGGCGGAAATCTCCGCGGCCTCGCGCGAGCAGGCCAGTGGCATCGAACAGGTCGGCCGCACCGTCACCCAGATGGATGAGGCGACCCAGCAGAACGCCGCGCTGGTGGAGGAGGCCACGGCCGCGGCACGCGCGCTGGAGGAGCAGGCGCGCGGCCTGACCGGCGCGGTCGCGGTATTCCGCACCACGCCGGCGCGTGCCATCGCGCCGGCGCTGGTGTTGGCGGCCGGCTGA	MSRRSPSLQTKLLGALAAGLGIVLLCALTGLASAWLNLSTDVPREVREATVAEHAGREFRLQVQEWKNVLIRGHDAEQYKKYLAAFREQGGKVQALVGPLADSVADPQARQLAVDFRDQHRALMQRYEAGLADFAAAGFNTQAGDAAVKGADRAPTKTVDALAARTTQLADAAVQASSQRARRTLLVSALATVLAALTLVAVGVVWVRRAVIGPVARIAQAAGEVAQGRFDVNLQVRSRDEIGALAGAMAGMVATLGEVSAAQDTMAARHEAGELSYRMQAARFPGAYGTMVAQTNDLVGAQVALIQQMLDVMQAYADGDFREDMPALPGEKASISAAMAATKRNLQSINHEITALVEAAAAGDFARRGDAGAYRHEFRTMVDGLNRLMAGVGDNLEDMSRLLRAIAAGDLTVRMHGEQRGVFARMRDDANSTVERLTGIVTGIATAAGAIDTAASEIASGNDDLARRTEQQAANLEETAASMEELTSTVRHNADTAAEASRKVADAAGTARRGGEQVQAVVASMQQIEVASRRIAEINAVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVATEVRALAQRSAQAAREIKGLIEDSVARVATGADQVAETGGTMQALLAAVQHVDGLMAEISAASREQASGIEQVGRTVTQMDEATQQNAALVEEATAAARALEEQARGLTGAVAVFRTTPARAIAPALVLAAG	PGPT0015710_3835	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
BMS020_07067	1251	estB_3	COG1680	Esterase EstB	ATGACCGCCCGCGAATCCCTGCCCGACCCGGCCCGCCGCCAGCTGCTCGCCGCTGCCGTCGCCGCCGGCGTTGCCCTGCAGCTGCCCGCCGCGATCGCCGCCCCACGAGCCGGCGGCAACCGGATCGACGCGGCGATCGACCGCGCGCTTGCCGAGCAGCGCCTGGTCGGCGCACTGGTGCTGGTCAGCCACGCCGGCAAGCCGGTGTATCGCCGCGCCGCCGGCCTGGCCGACCGCGAGGCCGGCACCGCGCTGCGCGAGGATGCGCTGTTCCGCCTGGCTTCGGTCAGCAAGCCGGTGGTGACCACCGCGGCGATGGCGCTGGTCGCGCGTGGCACGTTGGAGCTGGATGCGGCCATCACGCGCTGGCTGCCGGACTTCCGCCCGGCACTGGCCGACGGCAGCCGCCCGCCGATCACGCTGCGCCAGCTGCTATGCCACACCTCGGGCCTGGGCTACCGCTTCGAGGAGACCGGCGCGCAGCAACCGTACGCGGCGCTGGGCGTCTCCGACGGCCTGGACCGCGCCGGCATCGACCTGGACGAGAACCTGCGCCGGCTGGCGCAGGCGCCGCTGCTGTTCGCGCCGGGCACGCGCTGGAACTATTCGCTGGGCATCGACGTGGCCGGCGCGGTGATGCAGCGTGCCGCCGACGCGCCCCTGGCGCAGATCGTGCAGCGCCACGTCGGCGCGCCGCTGGGCTGGACCGACACCACCTTCCACGCCACCGACGCCACGCGCCTGACCGCGGTCTACGTCAACGACGCCACCCCGCAGCCGCACCGCATGCGCGGCGCCGAGCTGGTGCCGCTGGTGCCGGGCAATCCGGGCGTGGCCTTCGATCCGGGGCGCGCGCTCGACCACGGCGCCTATCCCTCCGGCGGCGCCGGCATGGTCGGCCGTGGCGACGAGCTGATGCGTCTGTTCGAAGCGCTGCGCCGCGACGACGGCAGCGTGCTGCCGGCCGCGATGGTCGCGCAGATGCGTCGCGACCAGATCGCTCCGCATGCGGCCGGCGACGGCGTCGGCTTCGGCCTGGGCTTCTCGCTGATCAGCGACCACCGTGCCGCCCACACGCCGCAGGCCGACGGCAGCTGGGTCTGGGGCGGGGTGTACGGCCACAACTGGTTCGTCGACCCCGCGCGCCAGCTCAGCGTGCTGGCGCTGACCAACACGCTCTACGAAGGCATGTCCGGGCGCTTCGTCACCGAACTGCGCGATGCGGTGTACGCCCAGCTCGGCCTCGGCTGA	MTARESLPDPARRQLLAAAVAAGVALQLPAAIAAPRAGGNRIDAAIDRALAEQRLVGALVLVSHAGKPVYRRAAGLADREAGTALREDALFRLASVSKPVVTTAAMALVARGTLELDAAITRWLPDFRPALADGSRPPITLRQLLCHTSGLGYRFEETGAQQPYAALGVSDGLDRAGIDLDENLRRLAQAPLLFAPGTRWNYSLGIDVAGAVMQRAADAPLAQIVQRHVGAPLGWTDTTFHATDATRLTAVYVNDATPQPHRMRGAELVPLVPGNPGVAFDPGRALDHGAYPSGGAGMVGRGDELMRLFEALRRDDGSVLPAAMVAQMRRDQIAPHAAGDGVGFGLGFSLISDHRAAHTPQADGSWVWGGVYGHNWFVDPARQLSVLALTNTLYEGMSGRFVTELRDAVYAQLGLG				NA	NA	NA	NA	NA
BMS020_07068	924			hypothetical protein	ATGAAGATCTCATTCGCGGGCCGTGGCCTGCTGGCCGCGCTGGTGCTCGCACTGGCCCCGGCCGCCTTCGCCGATGACGCCGCCGACGCGCAGGAAGACGCCGGCGAGGGCATCACCGCCGAGCAGTTCGTGCAGACCCTGCACTTCCGCGACGGCCACATCGAGGTACCCGAAGCCAAGGCGCACTTCGACCTCGGCCAGGAATTCCGCTACCTCGACAAGGCCGATGCGCGCCGCGTGCTGGAATCGTTCTGGGGCAACCCGCCCGACGACAGCGTGCTGGGCATGGTCGTGCCGCGCCAGCCGGCGCTGGACGAACAGGGCAGCTGGGCGGTGGTGGTGACCTACGCCGACGACGGCTACGTGTCCGACGAGGACGCCGCCAAGATCGACTACGACGACTTGCTCGCGGACATGAAGCAAGGCACCACCGAGGAGAACGAGGAGCGCCGCAAGCAGGGCTACGAGACCGTCGACCTGGTCGGCTGGGCGGTGCCGCCGCGCTACGATGTCGGCAGCAAGAAGCTGCACTGGGCCAAGGAGCTGCACTTCGACGGCCAGTCGGAGAACACGCTGAACTACGACATCCGCGTGCTCGGCCGGCATGGCTTCCTCAGCCTCAATGCGATCGCCGGCATGGGCGAGCTGGCGCAGGTGCGCGAGGGCATGCAACAGCTGCTGCCGATGACCGATTTCGACAGCGGCGCGCGCTACGCCGACCACAACCCGTCCACCGACAAGATCGCCAGCTACGGCCTGGCCACGCTGATCGGCGGCGGCCTGGCCGCCAAGGCCGGCCTGTTCGCCAAGCTCGGCCTCGTGCTGGCCAAGTTCTGGAAGCTGCTGCTGATCGGCCTGGTCGCCTTCGGCGGCGGCATCAAGAAGCTGTTCGGCGGCCGCAACAAGCAGGACACGGTGCGCTGA	MKISFAGRGLLAALVLALAPAAFADDAADAQEDAGEGITAEQFVQTLHFRDGHIEVPEAKAHFDLGQEFRYLDKADARRVLESFWGNPPDDSVLGMVVPRQPALDEQGSWAVVVTYADDGYVSDEDAAKIDYDDLLADMKQGTTEENEERRKQGYETVDLVGWAVPPRYDVGSKKLHWAKELHFDGQSENTLNYDIRVLGRHGFLSLNAIAGMGELAQVREGMQQLLPMTDFDSGARYADHNPSTDKIASYGLATLIGGGLAAKAGLFAKLGLVLAKFWKLLLIGLVAFGGGIKKLFGGRNKQDTVR				NA	NA	NA	NA	NA
BMS020_07069	1179			hypothetical protein	ATGTTCCTGCGCCTGTTCCACGCACTGCGCGCCGAGCGCGTCCCGGTCACCCCGCGCGAATGGCTGGACCTGCTCGGCGCACTGCAGGCCGGCGTCGGCGCGGCCACGCCGGAGGCGCTGCATGCGCTGGCGCGCACCGTGCTGGTCAAGGACGAGCGCCACTACGACCGCTTCGACCGCGCGTTCGGCCGTTACCTGCAGGACGTCGCCGCGACGCCGCCCGAGGCGCTGCAGGCGGTGATTCCCGAAGACTGGTTGCGTGCCGCGCTCGGCCGCGCGCCCAGCGCAGAGGACCGCGCACGGGTGCAGCAGCTCGGCTCGCTGGAGGAACTGATGCGGCGCTTCGCCGAGCGCATGGGCGAGCAGCACGAACGCCACGAGGGCGGCAACCGCTGGATCGGCACCGGCGGCACCAGCCCGTTCGGCAACAGCGGCTACCACCCCGGTGGGCTGCGCGTGGGTGGCGAAAGCCGCAACCGCAGCGCGGCCAAGGTCTGGGAGCAGCGCGCGTTCCGCGACCTGGACGGCGATGCCGACCTCGGCCCGCGCAACCTGAAGATGGCGCTGCGGCGGCTGCGCCGCTTCGCCCGCGACGGCGCCGCCGAGGAGTTCGACCTGGATGCCACGGTCGCAGCGACCGCGCGCGAGGGCGGCGTGCTCGACGTGCGCATGCGCCCGCAGCGCCGCAACGCGGTCAGCGTGTTGCTGCTACTGGACATCGGCGGCTCGATGGACGATCACGTGCATGCGGCCGAGGCGCTGTTCGGCGCCGCGCGCGCCGAGTTCAAACGGCTCGAGCACCGCTACTTCCACAACTTCCTCTACGACCGGGTGTGGACCCATGCCCGCCGCGGCGGCGCCGATGCGGTCGCCACGCGCGATCTGCTGCAGCGCCACCCGCCCGAGCAGCGGGTGATCGTGATCGGCGACGCATCGATGCATCCCTACGAGATCAGCCATGCCGGCGGCGCCAGCGAGCACTGGAACGAAGAGCCGGGCGCGGTGTGGTTCCAGCGCCTGGCCGCGCACTTCCCGCACCTGGCCTGGATCAATCCGCTGCCGCGGGCGCGCTGGGACTGGACGCCGTCGATCGGCATGGTCCGCCAGCTGGTCGAGGACCGCATGTACCCGCTGACGCCGGACGGCCTCGGCGAGGCGATGGCGCGGCTGTCGCGCTAG	MFLRLFHALRAERVPVTPREWLDLLGALQAGVGAATPEALHALARTVLVKDERHYDRFDRAFGRYLQDVAATPPEALQAVIPEDWLRAALGRAPSAEDRARVQQLGSLEELMRRFAERMGEQHERHEGGNRWIGTGGTSPFGNSGYHPGGLRVGGESRNRSAAKVWEQRAFRDLDGDADLGPRNLKMALRRLRRFARDGAAEEFDLDATVAATAREGGVLDVRMRPQRRNAVSVLLLLDIGGSMDDHVHAAEALFGAARAEFKRLEHRYFHNFLYDRVWTHARRGGADAVATRDLLQRHPPEQRVIVIGDASMHPYEISHAGGASEHWNEEPGAVWFQRLAAHFPHLAWINPLPRARWDWTPSIGMVRQLVEDRMYPLTPDGLGEAMARLSR				NA	NA	NA	NA	NA
BMS020_07070	255			hypothetical protein	ATGCAGGCCATCGCCTTCGACAAGGACGAAAAGGCCGCGCTGGTGCGCCGGCTGCAGCGCTACTTCAGCGACGAGCTGCGCCAGGAGATCGGCCAGTTCGATGCCGAATTCCTGCTTGATTTCGTCTCCAGCGAACTGGGCGCTTCCTACTACAACCAAGGCGTGCGCGATGCGCAGGCCGCGCTGGCGGCCAGGCTCGAGGACATCCAGGACGCGCTGTACCAGCTGGAACGACCGACGGAGCTGCGCCGGTGA	MQAIAFDKDEKAALVRRLQRYFSDELRQEIGQFDAEFLLDFVSSELGASYYNQGVRDAQAALAARLEDIQDALYQLERPTELRR				NA	NA	NA	NA	NA
BMS020_07071	846			hypothetical protein	ATGAGCTTCACCGGTACCGAACGCTACGTCGCCACCCCGGAGCTGATGCAGGCGGTCAACGCCGCGATCGCGCTGCAGCGCCCGCTGCTGGTCAAGGGCGAGCCCGGCACCGGCAAGACCCTGCTGGCCGAGGAGGTCGCCGCCGCGCTCGGCGCGCCGCTGCTGACCTGGCACGTCAAGTCGACGACCAAGGCGCAGCAGGGCCTGTACGAGTACGACGCGGTCAGCCGGCTGCGCGATTCGCAGCTCGGCGATCCGCGCGTGCACGACATCGCCCACTACATCCGCCGCGGCAAGCTGTGGGAAGCGTTCGCCAGCGAGCAGCGCGCGGTGCTGCTGATCGACGAGATCGACAAGGCCGACATCGAATTCCCCAACGACCTGCTGCACGAGCTGGACCGGATGGCATTCGACGTCTACGAGACCGGGCAGACGGTGAGCGCGCGGCATCGCCCGGTGATCCTGATCACCTCCAACAACGAGAAGGAGCTGCCGGACGCGTTCCTGCGCCGCTGCTTCTTTCACTACATCGCCTTCCCCGATGCCGACACGCTGCGGCGCATCGTCGACGTGCACTTCCCGGCGATCGACCAGCAGCTGGTCGGCCGCGCCTTGCGCGCATTCTTCGAGCTGCGCGAGGTGCCGGGGCTGAAGAAGAAGCCATCGACGTCCGAGCTGATCGACTGGCTGCGACTGCTGATGGCCGACGAACTGGCCGCGCGCCAGCTGGCCGATGCCGAGCCGGCCAAGGCGCTGCCGCCGCTGGCCGGCGCGCTGGTCAAGAGCGAGCAGGACGTGCAGCTGCTGGAGCGGCTGATGTTCCTGCACCGCCGCCAGGGGCGCTGA	MSFTGTERYVATPELMQAVNAAIALQRPLLVKGEPGTGKTLLAEEVAAALGAPLLTWHVKSTTKAQQGLYEYDAVSRLRDSQLGDPRVHDIAHYIRRGKLWEAFASEQRAVLLIDEIDKADIEFPNDLLHELDRMAFDVYETGQTVSARHRPVILITSNNEKELPDAFLRRCFFHYIAFPDADTLRRIVDVHFPAIDQQLVGRALRAFFELREVPGLKKKPSTSELIDWLRLLMADELAARQLADAEPAKALPPLAGALVKSEQDVQLLERLMFLHRRQGR				NA	NA	NA	NA	NA
BMS020_07072	543	yrdA_2	COG0663	Protein YrdA	GTGCCGATCCGCCCCTTCCTCGCCACCGCCCCGCAGCTGGGCGCCCGGACCTACGTCGACGAGGCGGCCACCGTGATCGGCGACGTGGTGCTGGGCGACGACGTTTCGGTGTGGCCGGGCACGGTGATCCGCGGCGACGTCAACCACGTGCGCATCGGCGCGCGCAGCAACATCCAGGACGGCACGATCATCCACGTCAGCCATGCCAGCCCGTACAACAAGGGTGGCTACCCGACCCTGATCGGCGAAGGCGTCACCGTCGGCCACGGCTGCATCATCCACGCCTGCACGATCGGCGATTACTGCCTGATCGGCATGGGCGCGTGCATCCTCGACGGCGCGGTGATCGAGGCCAACGCCTTCATCGGCGCCGGCGCGGTGGTCGGCCCGGGCAAGCGCGTCGGCAGCGGCGAGCTGTGGGTAGGCAACCCGGCGCGGCCGGCACGCACGCTCAGCGAGCAGGACATCGAAGGCCTGCGCTATTCGGCCGACCACTACGTGCGGCTGAAGGACCAGTACCTGGCGATGGAGGCGGCGCGATGA	MPIRPFLATAPQLGARTYVDEAATVIGDVVLGDDVSVWPGTVIRGDVNHVRIGARSNIQDGTIIHVSHASPYNKGGYPTLIGEGVTVGHGCIIHACTIGDYCLIGMGACILDGAVIEANAFIGAGAVVGPGKRVGSGELWVGNPARPARTLSEQDIEGLRYSADHYVRLKDQYLAMEAAR	PGPT0002425_614	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002425-GAMMACA_like-K01726	NA	NA
BMS020_07073	1494	quiC_1		3-dehydroshikimate dehydratase	ATGCGTCGTTCCATGCCCCGACTGCTGTTGTTGACCGTCGCGCTCGCCCCGCTGGCGGCGCTGGCCTACCAGGCCGAGCCGGCGGTCGCCGCGCGTGAGGTGCTGCGCGTGGACCGCTACGCCGACGATGCCGCGCCCGGCTCGCTGCGCTGGGCGATCATCACCGCCAATGCCGCGCCCGGCCGCTACCGGATCGAGATCGCCGCGGTCGGCGCCGCGCCGTACGTGATCCGCCCGGCCTCGCCGTTGCCGGAGATCACCGGCCCGGTGCAGATCGTCGGCCTGCCGCTGGCGGCGGAGAACCGCTATGTGGCCATCGATGGCGCGGCCTACGTCAAGGGCGAGGGCACCCATGCCTGCCCGGGCGCCGAGCCGGGCCAGTTCGGCACCAACGTGCGCACCACCACGCTGCCGGGCCTGGTGCTGCGCGACACCCATGGTGTCGAACTGAGCGGGCTGGAGATCCGCAACTTCTGCATCGGCGTGCTGGTCAACCGCAGCAGCGGCAGCGAGATCCACGACAACCGCATCGTCGCCAACAAGGGCGGCGCCGGCATCATGCTGACCGGCGACGACGGCAAGGGCCAGTCGACCGCCACCACCACGGTGCACAACCGCATCGTGCGCAACGACTTCCTCGACAACGGTGACGGGCTCGAACTGACCCGCGGCGCCGCCTGGAACCTGGTCGCCGACAACGTGTTCCGTTCCACCGAGGCCAATGCCGAGCCGTCGCAGGGCATCGAGATCCTGTGGGGCAACGACAACACCGTGGTGCGCAACCGCTTCGAGAACTATTCCGACGGGTTGCAGATCAACTGGGGCAACCGCAACTTCATCGCCGCCAACACCTTCACCGGCAACTCCAACGGCCTGAGCATCACCGGCCGCGGCAACATCGTGGACGGCAACACCATCACCGGTAACGGCATCGGCATCGCGGTGCGCCCGCAGCCGACCAGCGAGGCCAACCGCTTCAGCGCCAACCTGATCTGGGGCAACGGGCTGAAGATCGAGCGCTGCCAGGCCGGCGGCGCCTGCGTACCGGGCCAGCCGCGCGGCGCGATCGTGTTCGGCGTACCGGGGCTGGAGCACGCGATCTTCGTCGGCTCGCGCGGGCTCGGCGTCGATACCGACCCGGCCAAGCGCGCGCGGATCTGCGGTCCCGGCATCGCCGATGACTGCCAGCCGGCGCCGAACCACGGCCAGGCCGCGCCGGTGCTGCAGGCCCTCAAGGCCGGGCGCGTGCAGGGCGGCTTCAGTGGCGTGCCGCAGGCGCGCTACGTCGTCGACGTGTTCGGCAACCGTGCCCGTGGCGGCGACGAGGCCGAGCTGTTCCTCGGCCGCATCGAAGTGCTCACCGATGGCGCCGGCCACGCCGCGTTCGACTGGGCGCTGCCGGCCGAGGCCAAGGGCCTGGCCACGCTGACCGCCACCGTGACCGCGCCGGACGGCGCCACCTCTCCGCTCAGCGCGCCACTGGCGTTGCGCTGA	MRRSMPRLLLLTVALAPLAALAYQAEPAVAAREVLRVDRYADDAAPGSLRWAIITANAAPGRYRIEIAAVGAAPYVIRPASPLPEITGPVQIVGLPLAAENRYVAIDGAAYVKGEGTHACPGAEPGQFGTNVRTTTLPGLVLRDTHGVELSGLEIRNFCIGVLVNRSSGSEIHDNRIVANKGGAGIMLTGDDGKGQSTATTTVHNRIVRNDFLDNGDGLELTRGAAWNLVADNVFRSTEANAEPSQGIEILWGNDNTVVRNRFENYSDGLQINWGNRNFIAANTFTGNSNGLSITGRGNIVDGNTITGNGIGIAVRPQPTSEANRFSANLIWGNGLKIERCQAGGACVPGQPRGAIVFGVPGLEHAIFVGSRGLGVDTDPAKRARICGPGIADDCQPAPNHGQAAPVLQALKAGRVQGGFSGVPQARYVVDVFGNRARGGDEAELFLGRIEVLTDGAGHAAFDWALPAEAKGLATLTATVTAPDGATSPLSAPLALR	PGPT0003575_10	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_QUINATE_CATABOLISM,PGPT0003575-quiC-K09483	NA	NA
BMS020_07074	1302	oprB_4	COG3659	Porin B	ATGTCCCACTTCACCCCGACCCGCCTGGCGGGCCTGATCGGCGCGGCGCTGCTGCTGCCAGCCCTGGCACAGGCACAGAGCGGCAACGACAACGCGTATTCCGGCAAGACCCTGAGCGGTGACTGGGGCGGCAGCCGCAGCGACCTGGCCGACAAGGGCATCAGCTTCCGCGGCGACTACGTCGGCGAGGCGATGGGCGTGGTCGACGGCGGCTACGGCGACACCGGCGCGCGTTACGCGCAGCAGGTCCGCGTGGGCCTGGACTTCGACATGGGCAAGCTGGCCGGCTGGGACGGCGGCACCTTCCGCTTCACCCTCAACGACCGCCGCGGCAACAGCACCTCGGCCGACCTGGTCGGCAACCGCTTCCCGATCCAGGAGGCCTACGGCGGCCAGTACACGCGCCTGACCGAGCTCAGCTACGACCAGACGTTCAACGCCGGCAAGTCGTACTTCAAGCTCGGCTTCTACGCGATGGGCAACCAGTTCGGCCTGCTCAGCGCCGGCACCAACTTCGTCAACGCCGCGTTCTGCGCGCACCCGCTGGCGATGTCCGGCAACAGCGGCTGGTACAACTACCCGACAGCGCGTTGGGGCGGCGAAGTGGCGCAGCAGGTCGGCGGCGACGTCAACGTCCGCGTCGGCTGGTTCCAGGTCAACCCGAACCTGGCCGGCGACAACGTGCACAACGCGTTCCGTCCGTTCGTCGACGGCACCATCGGCTCGCTGTTCCCGGTCGAGGTGACCTGGAAGCCGGGCACGGCCACGCGCTACCCGGGCGTGTACAAGTTCGGCGCCTATTACGATTCCTCGCGCACCGCCAGGAAGGGTCTGGACACCAGCGATACCACCGGCCGCCACGGCGCCTGGCTGCTGGCCGAGCAGAAGGTCTACGCCAGCGCTGCCGATCCGGCGCGCGGGCTGAGCCTGTTCGGCGAGTACATGCAGTCCGATCACGCCACCGCGCAGATCACCAAGTGGTACGCGTTCGGCGGCATCTGGCAGGGCATCGGCGAGCGCAGCCAGGACCGCATCGCGCTCGGCTACGTCGGCGCCGACATCAACCACCGCCTGGTCGACGCGCGCCGCGCCGCGCTCACCGATGCCGGCGTCGGCAACGACTCGCCGCTGTTCTACCTGACCGGCGCCGAGGAGCTGTATGAGCTGTCCTACAGCGTCCAGGTCACCCCGTGGCTGATGGTGCGCCCGGACCTGCAGTACATCGTCAATCCCGGCACGTTCTCCTACAAGCAGACCGACAACGCGCTCGCGGTCGGCCTGCAGGTCAAGGTCACGTTCTGA	MSHFTPTRLAGLIGAALLLPALAQAQSGNDNAYSGKTLSGDWGGSRSDLADKGISFRGDYVGEAMGVVDGGYGDTGARYAQQVRVGLDFDMGKLAGWDGGTFRFTLNDRRGNSTSADLVGNRFPIQEAYGGQYTRLTELSYDQTFNAGKSYFKLGFYAMGNQFGLLSAGTNFVNAAFCAHPLAMSGNSGWYNYPTARWGGEVAQQVGGDVNVRVGWFQVNPNLAGDNVHNAFRPFVDGTIGSLFPVEVTWKPGTATRYPGVYKFGAYYDSSRTARKGLDTSDTTGRHGAWLLAEQKVYASAADPARGLSLFGEYMQSDHATAQITKWYAFGGIWQGIGERSQDRIALGYVGADINHRLVDARRAALTDAGVGNDSPLFYLTGAEELYELSYSVQVTPWLMVRPDLQYIVNPGTFSYKQTDNALAVGLQVKVTF				NA	NA	NA	NA	NA
BMS020_07075	891	quiB_1	COG0710	Catabolic 3-dehydroquinate dehydratase	ATGAAATCGCGTCTGTTCCGAGTTTCCGCGCCGGTGCTCACCGGCCTGTTGCTGGCGATGGCCCTGCCGCTGTCGGCCACCGCCGCCGAGCCGGCCGCCGCCAGCGCCACGCTGCCGGTGGTGAAGGTGCTCGACGTGCGCGGCGTGCGCATCGGCGAAGGCGCGCCGAAGACCATCGTGCCGATCACCGGCGCGAGCGCGGCCGAAGCGCTGGCGCAGGCGGCGCGGATCGGCGCCAACGCCGATACCGACGTGGTCGAGTGGCGCATCGATTACCTCGACATCGCCCACGACGGCAAGGCGCTGGCGAAGCTGGCGCCGCAGGTGGCCAAGGCCGCCAACGGCAAGCCGGTGATCCTGACCTTCCGCACCAAGGCCGAAGGTGGCGCCGCGGCGATCAGCGACGCCGACTACGGCAAGCTCTACGCCGGCCTGATCAAGGCCAGGGCGGCCGACCTGTACGACGTGGAGATGTTCCGCGACCCGGCGGTGGTGGCGAAGATCGTCGCCGCCGCGCACCAGGCCGGCGCCTACGTGGTGATGTCCAACCACGATTTCCACGCCACCCCGGACACCGCCGAGATCGTCGCGCGGCTGCGCCGGCAGCAGGCGCTGGGCGCGGACGTGCTGAAGATCGCGGTGATGCCCAAGGACGCCGGCGACGTGCTCAAGCTGCTCGATGCCACCTGGCAGCTGCGCAGCAGCAGCGACCGCCCGCTGCTGACGATGTCGATGAGCGCCACCGGCGTGGTCTCGCGGCTGTCCGGCGAGACCTTCGGCCAGGCGCTGACCTTCGGCATGCTCGGCAAGGCGTCCGCGCCGGGCCAGGTCGAGGTCGGCAAGCTGCGCCAGGTGCTCGACACCATCCACCAGTCGGTGGCCGGCCCGTGA	MKSRLFRVSAPVLTGLLLAMALPLSATAAEPAAASATLPVVKVLDVRGVRIGEGAPKTIVPITGASAAEALAQAARIGANADTDVVEWRIDYLDIAHDGKALAKLAPQVAKAANGKPVILTFRTKAEGGAAAISDADYGKLYAGLIKARAADLYDVEMFRDPAVVAKIVAAAHQAGAYVVMSNHDFHATPDTAEIVARLRRQQALGADVLKIAVMPKDAGDVLKLLDATWQLRSSSDRPLLTMSMSATGVVSRLSGETFGQALTFGMLGKASAPGQVEVGKLRQVLDTIHQSVAGP	PGPT0012885_97	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_QUINATE_CATABOLISM,PGPT0012885-aroD-K03785	NA	NA
BMS020_07076	1311	pcaK_3	COG0477	4-hydroxybenzoate transporter PcaK	ATGAGCCACGCCGCCGCTGCGCCCACCACCGTCGTCCTGCACCGCATGAGCGGCTTCCAGTGGCTGGCGATCGCGATCTGCGTGCTGCTCAACATGCTCGACGGGTTCGACGTGATGGTGATGGCGTTCACCGCGCCGCATGTGTCGGCGGCGTGGGCGCTGTCGGGCAAGGCGCTTGGGTTGATGCTCAGTGCCGGCCTGGTCGGCATGGCGCTGGGCTCGCTGCTGCTGGCGCCGCTGGCCGACCGCATCGGCCGGCGCCCGATGATCCTGTGCTGCCTGGTGATCCTGACCGTCGGCATGGCCGCCTCGGCGCTGGCGCACAATGCCTGGCAGCTCGGTGCGCTGCGGGTGTTCACCGGCATCGGCATCGGCGGCATGCTGGCCGGGGTCGGGGTGATCACCGCCGAGTACGCCAACGCCAAGTGGCGCAGCACCGCAGTGGCGCTGCAGGCCACCGGCTATCCGATCGGCGCGACCATCGGCGGGGTGGTGGCCAGCGTGGTGCTGGAACACCTGAGCTGGCATGCGGTGTTCCTGCTCGGCGCCGGCGCATCGCTGCTGTGCATCCCGCTGGTGCTGCTGTGCCTGCCCGAATCGCTGGACTTCCTGGTCGCGCGCCGCCCGCCCGGGGCGCTGGCGCGGCTCAACGCGCTGCTGGCGCGCATGCGGATGGCGCCGCTGGCCGAGCTGCCGCCGCCGAAGCTGCGCGACGGCGGCGCCAGGCAGGGCTACGCGGCGCTGTTCGTCGGCGACCTGCGCAAGGTCTCGCTGCTGATCGCGCTGGCGTTCTTCCTGCACATGTTCGCGTTCTACTTCGTGCTCAGCTGGACCCCGAAGCTGCTGGTCGCCGCCGGCGTATCGGCGCAGCAGGGCATCACCGGCGGGGTGCTGCTGAACCTGGGCGGCATCGTCGGCGGCAGCCTGTTCGGCTGGCTGGCCTCGCGCATGCCGTTGGCGCGGCTGACCACCGCCAGCCTGGTGCTGGCATCGCTGGCGATGCTGCTGTTCGCCGGCTTCAACACCACGCTGGGCGTGGCGTTCCCGGTCGCGTGCGTGATCGGCGCGGCCCTGTTCGCGGCGATGGCCGGGCTGTACGCGGCGGCGCCGGTGGTGTTCGCGCCGGAGGTACGCACCACCGGGCTGGGTTGGGCGATCGGCATCGGCCGGGTCGGCGCGATCCTGTCGCCGCTGACGGTCGGCCTGCTGGTCGATGCCGGCTGGCCGCCGTCCACGCTGTACCTGGTGTTCGCGTTGCCGCTGCTGGGCGCCGCGGTGGCCTGCGCGGCGCTGCGTCCGCGCCGCGGCTGA	MSHAAAAPTTVVLHRMSGFQWLAIAICVLLNMLDGFDVMVMAFTAPHVSAAWALSGKALGLMLSAGLVGMALGSLLLAPLADRIGRRPMILCCLVILTVGMAASALAHNAWQLGALRVFTGIGIGGMLAGVGVITAEYANAKWRSTAVALQATGYPIGATIGGVVASVVLEHLSWHAVFLLGAGASLLCIPLVLLCLPESLDFLVARRPPGALARLNALLARMRMAPLAELPPPKLRDGGARQGYAALFVGDLRKVSLLIALAFFLHMFAFYFVLSWTPKLLVAAGVSAQQGITGGVLLNLGGIVGGSLFGWLASRMPLARLTTASLVLASLAMLLFAGFNTTLGVAFPVACVIGAALFAAMAGLYAAAPVVFAPEVRTTGLGWAIGIGRVGAILSPLTVGLLVDAGWPPSTLYLVFALPLLGAAVACAALRPRRG				NA	NA	NA	NA	NA
BMS020_07077	1242		COG2206	Cyclic di-GMP phosphodiesterase	ATGTTGCGCACCATCGATACCGAAGACCTCCGTCCAGGCATGTACGTCCACAAGCTGCTCGGCTCGTGGATGCACCATCCGTTCTGGCGCAGCTCGTTCCTGGCCAGCGCCGACGACGTGGAGCGGCTGCAGGCCAGCCGGGTCGCGCAGGTGGTGATCGACATCGGCCGCGGTCTGGCCCCGGACGGCACCGGCGCCGACGTGGCGGCGGACGCCGCCGACAGCCTGGAGGCGGAAGACGCCTCGCTGGCGCCGGCCGAGCCGGCCTGCGCGGCGCTGGCCGACGCGCAGGCGCCGGGGCAGGCGGTCAGCCTGGAGGCGGAAGTGCAGCGTGCCCGGCGCATCCTCGAGGACGGCCGCGACGCGATGCAGTCGATGTTCAACGAGGTGCGGCTGGGCCGCAGCGTCGACCCGGAGGCGGCGCTGCCGCTGGTGCAGCAGGTCAGCGATTCGGTGCTGCGCAATCCGCACGCGCTGATCAGCGTGGCGCGGCTGAAGACCGCCGACGACTACACCTACCTGCACTCGATGGCGGTGGCGGCGATGATGGGCACGCTGGCGCGCCAGCTCAAGCTGCCCGAGGCGCAGGTGCTGGAAGCGGCGATGGGCGGCCTGCTGCACGACATGGGCAAGGCCGCCACCCCGCTGGAGATCCTCAACAAGCCCGGCAAGCTCACCGACGAGGAGTTCGAGGTGATGCGCCGCCACGCCGCCGACGGCCACCGCCTGCTGCGCGATGGCGGGGTGGAGAACGCGGTGGTGCTGGATATCGCCCTGCACCATCACGAGAAGGTCGATGGCAGCGGCTACCCGGATCGTCTGGCCGGGCACGACATCTCGCTGATGGCGCGCATGGCCGCGGTGTGCGACGTGTACGACGCGGTCACCTCCAACCGCCCGTACAAGGCCGGTTGGTGCCCGGCCGATTCGCTCAAGCGCATGGCGTCGTGGCAGGGCCACTTCGACCCGCCGATCTTCCAGGCATTCGTGAAGTGCCTGGGCATCTATCCGGTCGGCTCGCTGGTGCGGCTGGAGTCGCAGCGGCTGGCGGTGGTGCTCGGGCAGACCCCGGGCATGCTGCTCAAGCCCAAGGTGCGGGCGTTCTATTCGGTGAAGTTGCGCAGCCACGTGCTGATGCAGGACCTGGACCTGGCCGCGCCCGATTGCGACGACCGCATCCTGCAGCCGGAGAACGCCTCCGACTGGGGCTTCCGCGATACCGACAAGCTGTGGCTGCCATGA	MLRTIDTEDLRPGMYVHKLLGSWMHHPFWRSSFLASADDVERLQASRVAQVVIDIGRGLAPDGTGADVAADAADSLEAEDASLAPAEPACAALADAQAPGQAVSLEAEVQRARRILEDGRDAMQSMFNEVRLGRSVDPEAALPLVQQVSDSVLRNPHALISVARLKTADDYTYLHSMAVAAMMGTLARQLKLPEAQVLEAAMGGLLHDMGKAATPLEILNKPGKLTDEEFEVMRRHAADGHRLLRDGGVENAVVLDIALHHHEKVDGSGYPDRLAGHDISLMARMAAVCDVYDAVTSNRPYKAGWCPADSLKRMASWQGHFDPPIFQAFVKCLGIYPVGSLVRLESQRLAVVLGQTPGMLLKPKVRAFYSVKLRSHVLMQDLDLAAPDCDDRILQPENASDWGFRDTDKLWLP				NA	NA	NA	NA	NA
BMS020_07078	678	pcaI_2	COG1788	3-oxoadipate CoA-transferase subunit A	ATGATCGACAAGACCCTGGCCTCCTGCGCCGAGGCCGTCGCCGACGTCTTCGACGGCGCCACCGTGATGATCGGCGGCTTCGGCACTGCCGGGATGCCCGACGAGCTGATCGACGCGCTGATCGCCCACGGCGCGCGCGAGCTGACCATCGTCAACAACAACGCCGGCAACGGCGAGACCGGGCTGGCCGCGCTGATCAAGCACAAGCGCGTGCGCAAGATCATCTGCTCGTTCCCGCGCCAGGCCGATTCGCAGCACTTCGACGCCGCCTACCACGCCGGCGAGATCGAGCTGGAGCTGGTGCCGCAGGGCAACCTGGCCGCGCGCATCCACGCCGCCGGCAACGGCCTGGGCGCGATCTTCACCCCGACCGGCTACGGCACCGAGCTGGCCGCCGGCAAGGAAACCCGCGAGATCGACGGCAAGCACTACGTGCTCGAATACCCGATCCGCGCCGATTTCGCGCTGATCAAGGCGCATCGCGGCGACCGCTGGGGCAACCTGGTGTACCGCAAGACCGCGCGCAATTTCGGCCCGATCATGGCGATGGCTGCCGACTGCACGATCGCCCAGGTCAGCCAGGTGGTCGCGCTCGGCGAACTCGATCCGGAAGCGGTGGTGACGCCGGGCATCTTCGTCCAGCGCGTGGTCGCCACCGCCGCCCAGGAGGCCGCATGA	MIDKTLASCAEAVADVFDGATVMIGGFGTAGMPDELIDALIAHGARELTIVNNNAGNGETGLAALIKHKRVRKIICSFPRQADSQHFDAAYHAGEIELELVPQGNLAARIHAAGNGLGAIFTPTGYGTELAAGKETREIDGKHYVLEYPIRADFALIKAHRGDRWGNLVYRKTARNFGPIMAMAADCTIAQVSQVVALGELDPEAVVTPGIFVQRVVATAAQEAA	PGPT0005025_391	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005025-pcaI-K01031	NA	NA
BMS020_07079	642	pcaJ_2	COG2057	3-oxoadipate CoA-transferase subunit B	ATGAACCGCTTGAACCGCGAGCAGATGGCCGCGCGCGTGGCCCAGGACATTCCCGACGGCGCCTACGTCAACCTCGGCATCGGCCTGCCGACCAAGGTCGCCAACTACCTGCCGGCCGACAAGGACATCTTCCTGCACAGCGAGAACGGCGTACTCGGCATGGGCCCGGCGCCGGCGCTGGGCGATGAGGATCCTGAGCTGATCAACGCCGGCAAGCAGCCGGTGACGCTGCTCGCCGGCGGCTGCTATTTCCACCACGCCGACTCGTTCGCGATGATGCGCAGCGGCCGCCTCGACGTCTGCGTGCTCGGCGCGTTCCAGGTCTCGGTGCACGGCGACCTGGCCAACTGGAGCACCGGCGCGCCCGGCGCGATCCCGGCGGTCGGCGGCGCGATGGACCTGGCGATCGGCGCGCGCGACGTGTTCGTGATGATGGAGCTGCTGACCAAGAGCGGCGAGAGCAAGCTGGTCGCCGACTGCAGCTATCCGTTGACCGGGCTGCGCTGCGTGTCGCGCGTCTACACCGACCTGGGCGTGTTCGCGGTCGGCAAGGACGGCGCGAAGGTGATCGAGACCATCGACGGCGTGTCGCTGGACGAGCTGCGCCGCCTGACCGGGCTGCCGCTCGAACTGGCCGCCTGA	MNRLNREQMAARVAQDIPDGAYVNLGIGLPTKVANYLPADKDIFLHSENGVLGMGPAPALGDEDPELINAGKQPVTLLAGGCYFHHADSFAMMRSGRLDVCVLGAFQVSVHGDLANWSTGAPGAIPAVGGAMDLAIGARDVFVMMELLTKSGESKLVADCSYPLTGLRCVSRVYTDLGVFAVGKDGAKVIETIDGVSLDELRRLTGLPLELAA	PGPT0005030_525	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005030-pcaJ-K01032	NA	NA
BMS020_07080	1209	pcaF_2		Beta-ketoadipyl-CoA thiolase	ATGAGCGAGACCTACATCATCGACGGCGTGCGCACGCCGATCGGCCGCTACGGCGGCGCGCTGGCCGGCATCCGTGCCGACGACCTCGGCGCGGTGCCGATCAGGGCGCTGCTGGCACGTCATCCGCAGCTGGATCCGGCACTGATCGAGGATGTCTACCTCGGCTGCGCCAACCAGGCCGGCGAGGACAATCGCAACGTCGCGCGCATGAGCCTGCTGCTGGCCGGGCTGCCGGTGAGCGTGCCGGGCAGCACGGTCAACCGGCTGTGCGGCTCGGGGCTGGATGCGCTGGGCACGGTGTCGCGCGGCATCCGTGCCGGCGAGCTGGGGCTGGCGATCGCCGGCGGCGTCGAATCGATGTCGCGCGCGCCGTTCGTGATGGGCAAGGCAGGCGGCGCGTTCGCGCGCGACCAGGCCATCGAGGACACCACGATGGGCTGGCGCTTCATCAATCCGAAGATGAAGGAGCTGTACGGCGTCGAGCTGATGGGCGAGACCGCCGAGAACGTCGCCGCGCGTTATGCCATCAGCCGCGAGGACCAGGACGCGTTCGCGCTGCGCAGCCAGCAGCGCACCGCCGCCGCGCAGGCGGCAGGCTTCTTCGATGGCGAGATCGTGCCGGTGACGGTGCCGGGCAGGAAGCGTGGCGAGACCACCGAGGTGACGCACGACGAACACCCGCGCGCCGACACCACGATCGAGGCGCTGGCCAAGCTCAAGCCGATCTTCCGCCAGCCCGGCACGGTCACCGCCGGCAATGCGTCGGGCATCAACGATGGTGCCGCGGCGCTGCTGCTGGCCTCCGGCGAGCAAGTCGAAGCGTTGGGCCTGCGCCCGCGTGCGCGCGTGCTCGGCTTCGCCAGCGCCGGCGTCGAGCCGGGCTACATGGGCATCGGCCCGGTGCCGGCGACGCAACGGCTGCTGGCGCGGCTGGGGCTGACGATCGGCGACTTCGATGCGATCGAACTCAACGAGGCGTTCGCCGCGCAGGGGCTGGCGTGCATGCGCGAACTCGGCATCGCCGACGACGCAGCGCACGTCAACGCCAATGGCGGCGCGATCGCGCTCGGCCATCCGCTCGGCATGAGCGGCGCGCGCATCGCGCTGACCCTGCTGCGCCAGCTCGAAGCGACCGGCGGCAGGCGCGGCCTGGCGACGATGTGCATTGGCGTCGGCCAGGGCGTGGCGCTGGCGATCGAGCGGGTGTAA	MSETYIIDGVRTPIGRYGGALAGIRADDLGAVPIRALLARHPQLDPALIEDVYLGCANQAGEDNRNVARMSLLLAGLPVSVPGSTVNRLCGSGLDALGTVSRGIRAGELGLAIAGGVESMSRAPFVMGKAGGAFARDQAIEDTTMGWRFINPKMKELYGVELMGETAENVAARYAISREDQDAFALRSQQRTAAAQAAGFFDGEIVPVTVPGRKRGETTEVTHDEHPRADTTIEALAKLKPIFRQPGTVTAGNASGINDGAAALLLASGEQVEALGLRPRARVLGFASAGVEPGYMGIGPVPATQRLLARLGLTIGDFDAIELNEAFAAQGLACMRELGIADDAAHVNANGGAIALGHPLGMSGARIALTLLRQLEATGGRRGLATMCIGVGQGVALAIERV	PGPT0001570_46	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0001570-pcaF-K07823	NA	NA
BMS020_07081	717	pcaH_2	COG3485	Protocatechuate 3,4-dioxygenase beta chain	ATGAGCGATTCCAACACCCATACACTGCTCGGCTACCGCAAGCCGTACCCGGGCAGCCAACCCAATGCGATCCATCCGCCGTACGCCTCGACCGTGCTGCGTGGGCCGAGCCGCGACCCGATCGCGATCCCGGCGACGCTGTCGGAGGTGACCGGCCCGACGCTGGACCGGCTGACCCTGGGCGAGCACGCCGCCGACCTCACCGCCGGCTTCCCCGGCGAGGCGCTCGGCGAGCGCATCATCGTCGCCGGCCGGGTGCTCGACGAGAACGGCCGGCCGGTGCGCAACACCGTGGTCGAGGTCTGGCAGTGCAACGCTGCCGGTCGCTACCTGCACAAGGGCGACCAGCACGACGCGCCGCTGGATCCGAACTTCAAGGGCACCGGCCAGGTGCTGACCGACGAGCACGGCCGCTACCGCTTCAAGACGATCAAGCCCGGCGCGTATCCGTGGCGCAACCACTACAACGCCTGGCGCCCGGCGCACATCCATTTCTCGCTGCATGGCGATGGCATCGGCCAGCGGCTGGTGACGCAGATGTACTTCCCCGGCGATCCGCTGCTGGCCTACGACCCGATCTACAACTGCGTCGAGGACGACAAGGCCAAGGCGCGCATGGTGTCTTCCTTCGATTGGGAAAACACCGCCAACGAATACGCACTCGGCTACCGCTTCGACATCGTGCTGCGCGGCCGCAAGATGACCGTCTGGGAGTGA	MSDSNTHTLLGYRKPYPGSQPNAIHPPYASTVLRGPSRDPIAIPATLSEVTGPTLDRLTLGEHAADLTAGFPGEALGERIIVAGRVLDENGRPVRNTVVEVWQCNAAGRYLHKGDQHDAPLDPNFKGTGQVLTDEHGRYRFKTIKPGAYPWRNHYNAWRPAHIHFSLHGDGIGQRLVTQMYFPGDPLLAYDPIYNCVEDDKAKARMVSSFDWENTANEYALGYRFDIVLRGRKMTVWE	PGPT0005015_697	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005015-pcaH-K00449	NA	NA
BMS020_07082	564	pcaG_2	COG3485	Protocatechuate 3,4-dioxygenase alpha chain	ATGAGCTTGCAATCGACCCCGTGGCAGACCGTGGGCCCGTATTACCGGCTGGGCCTGGAGCCGCTGTACCGCACCGAGATCGCGCCGCCCGGCGCGCTCGGTGAGCGCATCGAGATCAGCGGCCAGGTGTTCGACGGCCGCGGCGTACCGGTCGGCGATGCGGTGCTGGAGATCTGGCAGGCTGACGCCGCCGGCATCTACGCCCATCGCGAGGATCCGCGCCGCGACGAGCACGATCCGGCGTTCCAGGGCTGGGGTCGGGTACCCGGCGATGGCGATGGCCGCTTCGCCTTCAGCACGGTCAAGCCGGGCCGGGTCGCCGGTCCGTCCGCGGGCCCGCAGGCGCCGCACCTGGTGGTGCTGGTGTTCATGCGCGGGTTGTTGCGTGCGGCATCCGCCCGCGTCTACTTCTCCGATGAAGCCAGCAACGCCGACGATCCGATCCTGGCGCTGGTGCCGGCCGAGCGCCGCGCCACGTTGATCGCGCGCCAGATCGCACCGGGCCGCTATCAGTGGGATGTGCACATGCAGGGCGAGCAGGAGACGGTGTTCTTCAGCTATTGA	MSLQSTPWQTVGPYYRLGLEPLYRTEIAPPGALGERIEISGQVFDGRGVPVGDAVLEIWQADAAGIYAHREDPRRDEHDPAFQGWGRVPGDGDGRFAFSTVKPGRVAGPSAGPQAPHLVVLVFMRGLLRAASARVYFSDEASNADDPILALVPAERRATLIARQIAPGRYQWDVHMQGEQETVFFSY	PGPT0005010_782	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005010-pcaG-K00448	NA	NA
BMS020_07083	765			hypothetical protein	ATGGGCCCCCTCCGCAGCGGCGGGGCCGGCGGGCAAAACCCGCAGGGCGCCGTGCATGGATGCACGGTGTTTTTCGCCGGGACAGGATGTCCCGGCGAAAAATTCCCGTCGGACACGCGGACCCGGAGCGCCGTAGGCGCGGAGGGCGCGAGGCGGGGTGTGCTTTCTTTTGGTTACTTTTCTTTGCACAAGCAAAGAAAAGTGACTCGCGCCCGGGAGGGCGTGAAAGAAGTTGCCGATGATCTTCCTTGTTGGCTACATACCTTGGGCAATCCGTGGCGCGAGCAGGTAAGGGCTTTCGGTCCTTTCGGACCGAGTTACCTTTCTTTGCTCGTGCAAAGAAAGGTAACCCAAAGAAACACGCCCCAGTCCTCGCGCCCTCCGCTTCGCTGCGGGTCCGCTCCGTCGACGGGATTTTTCGACGCGGCATCCTGCCGCGGCGAAAAACGCCGCACATCCTTGTGCGGCGCCCCTTCGGGGTTTACCCCGCCGACTCCGCCGCTGCGGATGGGGGCCCATCAATCAAGAGCGGAGCAGGAGCAACAGCAACGACACGGCAACAGCAGCAGGAATCGGTGCGGCGCGATGGAACAGGGCAACAGCCACCTGCACCGCGCCATGATGCGGAAAGCCGTGCCGATGTCGCGGGTGCGGAAGCTCTGCATCAATGCCAGCCACCTTGTCCGCCAAGCGCCCGACCGGACGTTCTGCCCACAACCAACGCCGTCCCACGCCCGACCTCCAGCACCTGCCACGACCTTCTAA	MGPLRSGGAGGQNPQGAVHGCTVFFAGTGCPGEKFPSDTRTRSAVGAEGARRGVLSFGYFSLHKQRKVTRAREGVKEVADDLPCWLHTLGNPWREQVRAFGPFGPSYLSLLVQRKVTQRNTPQSSRPPLRCGSAPSTGFFDAASCRGEKRRTSLCGAPSGFTPPTPPLRMGAHQSRAEQEQQQRHGNSSRNRCGAMEQGNSHLHRAMMRKAVPMSRVRKLCINASHLVRQAPDRTFCPQPTPSHARPPAPATTF				NA	NA	NA	NA	NA
BMS020_07084	1344	pcaB_2	COG0015	3-carboxy-cis,cis-muconate cycloisomerase	ATGACCGCCACCAGCTCCCTGCTCGGCCCCCTGTTCGGCGATCCCGACATCGATGCGCTGTTCGACGACCGCGCCCGGCTGCAGGGCATGCTCGACGTCGAGGCCGCGCTGGCTCGGGCCGAGGCGCGCTGCGGGGTCATCCCCGAGGCCGCGGTCGGCGCCATCGTCACCGCCTGCGATGCCACGCACTACGACATCGGGGCGCTCGGTGCGGCCACTGCACTGGCCGGCAATCCCGCCATCCCGCTGGTCAAGGCGCTCACCGCACAGGTCGCGCAGCACGATGCCGAGGCCGCGCGCTGGGTGCACTGGGGCGCCACCAGCCAGGACATCATCGACAGCGGCACGGTGCTGCAGCTGCGTGCCGCGCTCGACCTGCTGCAGCCGCGGCTGGATGCGCTGTGCGAGGCGCTGGCGGCGCTGGCCGCGCGCGAGCGCGGCACCGGCCTGCCCGGGCGCACGCTGCTGCAGCAGGCGGTGCCGGTCACGTTCGGACTGAAGGCCGCCGGTTGGCTGGACGCGCTGCAGCGCGCACGCCTGCGCCTGGGCCGGCTACGCGACGAAGCGCTGGTGCTGCAGTTCGGCGGGGCTGCCGGCACGCTGGCCTCGCTGCAGGACCGTGGCCTGGAGGTGGCCGAGGCCCTCGCCGCCGAGCTGCGCCTGCCGCTGCCGGCGCTGCCCTGGCATGCCTCGCGCGACCGCATCGTCGAGATCGGCAGCGCCTTGGCGCTGCTGGTCGGCGTGCTCGGCAAGCTCGCCCGCGACGTGGTGCTGCTGATGCAGTCCGAGGTCGGCGAGGCGTTCGAGCCGGCCGCGGCCGGCAAGGGCGGCTCCTCGGCGATGCCGCACAAGCGCAACCCGGTCGGCTGCGTCGCCGCGATCGCCGCGGCGACCCGCGCGCCGGGCCTGGTGTCCACGCTGTACGCGGCGCTGCTGCAGGAACACGAGCGCGCGGTCGGCGCCTGGCATGCCGAATGGCAGACGCTGCCGGAGCTGGTGAAGCTGGCCGGCGGCAGCCTGGCGCAGCTGCGGATCGTCGTCGACGGCCTGCAGCTGGACCACGCGCGCATGCGCGCCCATCTCGACAGCCACGGCGGGCTGCTCTACGCCGAAGCGGTCACCGTCGCGCTGGCCGCGCAGCTCGGCAAGGCGGACGCGCATGCTCTGGTCGAACGCGCGGTACGCGTGGCGCTGGCGCAGCACCGCCACCTGCGCGAGGTGCTCGGCGATGAGCCGCAGGTGCGTGCGCAGCTGGCGCCGGCACAGCTGCAGGCCCTGTTCGCCGAGGACAGCTGGCGCGGCATGGCCGACACCTGGATCGCGCGCGTCCTCGCCGCGTCCTGA	MTATSSLLGPLFGDPDIDALFDDRARLQGMLDVEAALARAEARCGVIPEAAVGAIVTACDATHYDIGALGAATALAGNPAIPLVKALTAQVAQHDAEAARWVHWGATSQDIIDSGTVLQLRAALDLLQPRLDALCEALAALAARERGTGLPGRTLLQQAVPVTFGLKAAGWLDALQRARLRLGRLRDEALVLQFGGAAGTLASLQDRGLEVAEALAAELRLPLPALPWHASRDRIVEIGSALALLVGVLGKLARDVVLLMQSEVGEAFEPAAAGKGGSSAMPHKRNPVGCVAAIAAATRAPGLVSTLYAALLQEHERAVGAWHAEWQTLPELVKLAGGSLAQLRIVVDGLQLDHARMRAHLDSHGGLLYAEAVTVALAAQLGKADAHALVERAVRVALAQHRHLREVLGDEPQVRAQLAPAQLQALFAEDSWRGMADTWIARVLAAS	PGPT0005000_694	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005000-pcaB-K01857	NA	NA
BMS020_07085	780	catD_2	COG0596	3-oxoadipate enol-lactonase 2	ATGCACTTCCTCGACCTGCCCACGCACCGCCTGCACTACCGCGTCGATGGCCGCGAAGGCGCGCCGTGGCTGACCTTCTGCAACTCGCTCGGCACCGACCTGTACATGTGGGACCCGCAGGTCGACGCGCTCGCGGCCGAGTTCCGCATCCTGCGCTACGACCGCCGTGGCCATGGCGAATCCGGCACGCCGCCGGGCCGCTACGCCATCGCCGACCTCGGTGGCGACGTGCTGGCGCTGTGGGACGCGCTGGGCGTGCAGCGCTCGCATTACTGCGGCCTGTCGATCGGTGGCCTGACCGCGCAGTGGCTGGCCCTGCATGCGCCCGAGCGCGTGCAGCGGGTGGCGGTGGCCGCCACCGCGGCCAAGATCGGCAGCGCCGAGAGCTGGCAGGCGCGCATCGCCCAGGTCGCGCAGGGCGGGCTGCTGCCGCTGGTCGAGGGCACGCTGGAGCGTTGGTTCACTCCGGGCTACGCCGCCGCGCACCCGTTGGAGATGGACGAGATCGTCACCAGTTTCATGACCACCTCGCGCGAGGGCTACATCGGTTGCTGCGAGGCGGTCGGCAGCGCCGACTTCCGCGCCGCACTGGCGCAGCTGCAGGTGCCGCTGCTGGCGATCGCCGGCGACGAGGACCCGGTGTGCCCGCCCGGTGACCTGCTGCAGATCTCCACCGCGGTGCCGGACGGTCATTTCGTCAAGGTGCACGGGCGCCATATCTGCAACCTCGAATCGGCGACCGCGTTCACCACCGCGCTGCGCGAGTTCCTGCTGCGCTGA	MHFLDLPTHRLHYRVDGREGAPWLTFCNSLGTDLYMWDPQVDALAAEFRILRYDRRGHGESGTPPGRYAIADLGGDVLALWDALGVQRSHYCGLSIGGLTAQWLALHAPERVQRVAVAATAAKIGSAESWQARIAQVAQGGLLPLVEGTLERWFTPGYAAAHPLEMDEIVTSFMTTSREGYIGCCEAVGSADFRAALAQLQVPLLAIAGDEDPVCPPGDLLQISTAVPDGHFVKVHGRHICNLESATAFTTALREFLLR	PGPT0004995_1852	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
BMS020_07086	387			hypothetical protein	ATGAACGAAGACGACCGCTACCAGGCCGGCCTCAAGGTCCGCCGCGAAGTGCTCGGCGAAGCGCACGTGCAGCGCTCGCTCGACGCGCGCACCGACTTCACCAGCGAATTCCAGGCGTTCATCACCCGCACCGCCTGGGGCACGGTATGGACCCGCGATGCGCTGCCGCGCCATACGCGCTCGCTGCTGACCATCGTGATGATGGTCGCGCTCGGCCATGACGAGGAGTTCAAGCTGCACATCCGCGCCGCGCGCAACAACGGCGTGACCCCGGATGAGATCAAGGAAGTGCTGCTGCAGGCGGCGATCTACTGCGGCGTGCCGGCGGCCAACCACGCCTTCGCGCTGGCCAAACCGATCCTCGAGGAACAGGCCGCCGAAGGCTGA	MNEDDRYQAGLKVRREVLGEAHVQRSLDARTDFTSEFQAFITRTAWGTVWTRDALPRHTRSLLTIVMMVALGHDEEFKLHIRAARNNGVTPDEIKEVLLQAAIYCGVPAANHAFALAKPILEEQAAEG	PGPT0005005_3133	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005005-pcaC-K01607	NA	NA
BMS020_07087	930	menH_8		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGACGCTTCGCTCCGCCTGCCTGCTGCTGTCGTTGCTGCTGCTTCCCGCCGCCGTGGTGCAGGCGCAGCCGCAACCCGGGCCCGGTACCCAGCGCGACACGCTGCGCAGCGATGACGGCCAGCGTCTGGCGCTGTGGTCGCGGGTGCCGGCGCAGCCGCGCGGCACGATCCTGCTGGTGCACGGGCGCACCTGGAGCTCACTGCCGAACTTCGACCTGCAGGTGCCTGGCGAGCCGACCGATGCGCGCTCGGTGCTGGCCGCGCTGGCGCAGGCCGGCTATGCCGCCTATGCGCTGGACCTGCGCGGCTACGGCGGCAGTGCGCGCGACCGCAGCGGCTGGAACACCCCGGCACGCGCCGAAGCCGACGTCGCGCAGGCGCTGGCCTGGATCGCCGCGCGCCATCCGCAGCTGCCCGCGCCGGCGCTGCTGGGCTATTCCAACGGCGCGCGGGTCGCGCTGCTGGTCGCGCAGGCCCATCCGCAGGGGCTGTCGGCATTGCTGCTGTACGGCTTCCCCGATGACGTCGATGCGCCGGCCTGGGATGCGGACCCGGTCGGCAAGCCGGCGCGTGCGGCGACCACCGCCGAGGGCGCCGGCTCGGATTTCATCACCGCCGGCGCGCAGCCCGAGGCGGTGCGCGCGGCCTACGTCGCGCAGGCGCTGGCGGCCGACCCGGTGCGCACCGACTGGCGCGCGATGGCGCAGTTCGACTATCGCCCCGAGCAGGTGCGCGCGCCGGTGCTGTTGCTGCGCGGGGTCAACGATCCACTGGCCACGCAGGCCGAGAACGCGCACCTGTACCAGCGCCTGGGCAGCGCCGATCGCAGCTGGGTGACGCTGCCGCATGCCGACCACCTGGCCCAGGTCGAGGACAGCCACGCGGCCTGGGTCGATGCGGTGCTGGCGTTCCTGCGCCGCCCGCGTTGA	MTLRSACLLLSLLLLPAAVVQAQPQPGPGTQRDTLRSDDGQRLALWSRVPAQPRGTILLVHGRTWSSLPNFDLQVPGEPTDARSVLAALAQAGYAAYALDLRGYGGSARDRSGWNTPARAEADVAQALAWIAARHPQLPAPALLGYSNGARVALLVAQAHPQGLSALLLYGFPDDVDAPAWDADPVGKPARAATTAEGAGSDFITAGAQPEAVRAAYVAQALAADPVRTDWRAMAQFDYRPEQVRAPVLLLRGVNDPLATQAENAHLYQRLGSADRSWVTLPHADHLAQVEDSHAAWVDAVLAFLRRPR				NA	NA	NA	NA	NA
BMS020_07088	894	pcaR_4	COG1414	Pca regulon regulatory protein	ATGGGGAATTCCGATGGATCGCGCGACACGCTGATGGCCGACACTCCCAAGCCCGCCACCCGCCGCAAGGCCCGGGCCGCCGCGCCCGCCGCCGAACGCGGCCTCACCCACGAGCTGATGCAGCAGATCGACGAGGTCCAGGGCGATCCGGACTTCATGACCTCGCTGGCGCGTGGGCTGGCGGTGCTGAGCGTGTTCTCGCAGCATGCGCGCGAGGTGACGATGTCGCAGATCAGCACCGAGACCGGGATCTCGCGCGCCGCGGTGCGCCGCGTGCTGTACACGCTGACCAAGCTCGGCTACGTCGGCGAGCAGGGACGCGGCTATGTGCTGCTGCCGCGCGTGCTCGGCATCGGCGGCGCCTATGTGGCGTCCTCGTCGATGACCGCCGCCGCGCAGCCGGTGCTGGACGCGCTGCGCGACAGCGTGCACGAATCCTGCTCGCTGGGCGTGCTCGACGGTGACGACCTGCTGTACATCGCCCGCGCCGAGACCGTGCGGATCATGTCGATCGGCCTGCGCGCCGGCAGCCGCCTGCCGGCCTACTGCACCTCGATGGGCCGGGTGCTGCTGGCGGCGCTGCCGCACGACACGCTGGAGTCCTACCTGGAGCGCAACCCGCTGCGCCCGCGCACCGACCGCACCGTCACCGCCGCCGGCGACTTCCTCGACGTGCTGGCGCGGGTCAGGCGCGAAGGCGCCGCACTGGTCGACCAGGAACTGGAGATCGGCCTGCGCTCGATCGCGGTGCCGGTGCGCAACCGGGCCGGCGACGTGATCGCCGCGCTCAACATCGGCACCCAGGCCGGGCGCGTGAGCCTGCAGACGATGCAGGCGCAGCTGCTGCCGCCGCTGCGCGATGCCGCGCAGCGGCTGGGCCTGCTGCTCAGCTGA	MGNSDGSRDTLMADTPKPATRRKARAAAPAAERGLTHELMQQIDEVQGDPDFMTSLARGLAVLSVFSQHAREVTMSQISTETGISRAAVRRVLYTLTKLGYVGEQGRGYVLLPRVLGIGGAYVASSSMTAAAQPVLDALRDSVHESCSLGVLDGDDLLYIARAETVRIMSIGLRAGSRLPAYCTSMGRVLLAALPHDTLESYLERNPLRPRTDRTVTAAGDFLDVLARVRREGAALVDQELEIGLRSIAVPVRNRAGDVIAALNIGTQAGRVSLQTMQAQLLPPLRDAAQRLGLLLS				NA	NA	NA	NA	NA
BMS020_07089	2433	quiA_2	COG4993	Quinate/shikimate dehydrogenase (quinone)	GTGGATACGAAATCGGACGTCTCGGCCATTGGCCGCGGACTGCTTGGCCTGTTGGGCGTCATCGTCGCCCTGATGGGCCTGGCGCTGTTGGTCGGCGGTGCCCGGCTGGCGACGCTGGGGGGTAGTTGGTACTTCCTGCTGATGGGCTTGGCCTCGCTGGCGGCCGGTGCGCTGATCGTGGCGCGGCGCCCGCTCGGCGCGCTGGTCTACGCGGCGGCCTTCGTGCTGACCGTGCTGTGGGCACTGTGGGACGCCGGCGCCACGTTCTGGCCGTTGATCTCGCGCCTGATGATGCCGACCGGCTTCGCGATCCTGGTCGCGCTGGCTTACCCGCCCCTCAAGCGCGCCGCCGGCCAGCCGGCCGGACGCAGCGCCTACGCGCTGGCGGCGGTGCTGGTGGCCGGCTTCGCCGCCGCGTTCGCCGGCATGTTCATGCCGCATCCGACCGTGGCCGCCAACGGCGACGGCCCGGGCCTGACCCCGGTCGATCCGGCGCATGCGCAGAAGGACTGGGCCGCGTACGGCAACACCGACGGCGGCAGCCGCTTCGCCGCGCTGGACCAGGTCAACCGCGGCAACGTGAGCCAGCTGCAGGTGGCCTGGACCTACCACACCGGCGATGTCGCGCTCAGCGACGGCAACGGTGCCGAGGACCAGAACACGCCGCTGCAGATCGGCGAGAAGGTGTTCCTGTGCACGCCGCACAACAACCTGATCGCGCTCGACGCCAGCAGTGGCAAGCAGCTGTGGAAGCGCGAGATCAACGCGAAGTCGTCGGTGTGGCAGCGCTGCCGCGGCCTGGCCTACTTCGACGCGACCGCGCCGCTGGTGCAGCCGACCGCACCGGGCGCCACGCCGGTCACCGCGGTCGCGCTGGCCGAGGGCGGCAACTGCCAGCGCCGGCTGCTGACCAACACCATCGACGGCCGCCTGATCGCGGTCGACGCCGACACCGGCGCGTTCTGCCAGGGCTTCGGCAGCGACGGCCAGGTCGACCTGAAGGCCGGGCTGGGCGACGCGCATGATCCGTTCTACCAGCTGACCTCGGCACCGACGCTGGCCGGCACCACCGTGGTGGTCGGCGGCCGCGTCGCCGACAACGTGCAGGCCGACATGCCCGGCGGCGTGATCCGCGGCTTCGACGTGGTCACCGGCGCGCAGCGCTGGGCGTTCGACCCGGGCAACCCGGACGACAAGGCTGCCCCGGCCGACGGCAAGACCTACGTACGCAGCACGCCGAACTCGTGGGCGCCGATGTCCTACGACGCGGCGATGAACACCGTGTTCCTGCCGATGGGCAGCCCCTCGACCGACCTGTACGGCGTCGAGCGCACCCAGCTCGACCACCGTTTCGGCGCCTCGGTGACCGCGCTGGACGCGACCACCGGCCAGGTGAAGTGGGTCTACCAGACCGTGCACAACGATCTGTGGGACTTCGACCTGCCGATGCAGCCGAGCCTGATCGACTTCCCGAACAAGGCCGGCGGCACCACCCCGGCGCTGGTGATCGGCACCAAGGCCGGGCAGATCTATGTGCTCGACCGCGCCACCGGCACGCCGCTGACCGAGGTCAAGGAGATTCCGGTCAAGGCCGCCGACATTCCCGGCGAGCCGTATGCGCGCACCCAGCCGCTGTCGGTGGGCATGCCGCAGATCGGCACCCAGCGCCTGACCGAAGCGGACATGTGGGGCGCCACCCCGATCGACCAGATGCTGTGCCGCATCGCCTTCAAGCAGATGCGCTACGACGGCCTGTACACCGCGCCGGGCACCGACACGTCGCTGAGCTTCCCAGGGTCGCTGGGCGGCATGAACTGGGGCAGCCTGTCCACCGATCCGGTGCACGGCTACATCTTCGCCAACGACATGCGCCTGGGCCTGTGGGTGCAGATGCAGCCGCAGGCCAACCCCGGTGGCGTCAACGGCACCGCCGGCGGCGAAGCGGTCAACACCGGCATGGGCGCGGTGCCGCTGAAGGGCACCCCGTACTCGGTCAACAAGAACCGCTTCCTGTCGGCACTGGGCATTCCCTGCCAGGCGCCGCCGTACGGCACCCTGACCGCGATCGACCTGAAGACCCAGAAGGTCGCCTGGCAGGTGCCCGTCGGCACCGTGCAGGACACCGGCCCGCTCGGCATCAAGATGCACCTGCCGATGCCGATCGGCATGCCGACGCTGGGCGGCACGCTGTCGACCCAGGGCGGCCTGGTGTTCATCGCCGGTACCCAGGACTACTACCTGCGCGCGTTCGACACCGCCACCGGCAAGGAAGTGTGGAAGGCGCGGCTGCCGGTCGGCAGCCAGGGCGGCCCGATGACCTACGTGTCGGCCAAGACCGGCAAGCAGTACATCGTCATCACCGCCGGCGGCGCCCGCCAGTCCAAGGACCGCGGCGACTACGTGATCGCCTACGCGCTGCCCGACCAGCACTGA	MDTKSDVSAIGRGLLGLLGVIVALMGLALLVGGARLATLGGSWYFLLMGLASLAAGALIVARRPLGALVYAAAFVLTVLWALWDAGATFWPLISRLMMPTGFAILVALAYPPLKRAAGQPAGRSAYALAAVLVAGFAAAFAGMFMPHPTVAANGDGPGLTPVDPAHAQKDWAAYGNTDGGSRFAALDQVNRGNVSQLQVAWTYHTGDVALSDGNGAEDQNTPLQIGEKVFLCTPHNNLIALDASSGKQLWKREINAKSSVWQRCRGLAYFDATAPLVQPTAPGATPVTAVALAEGGNCQRRLLTNTIDGRLIAVDADTGAFCQGFGSDGQVDLKAGLGDAHDPFYQLTSAPTLAGTTVVVGGRVADNVQADMPGGVIRGFDVVTGAQRWAFDPGNPDDKAAPADGKTYVRSTPNSWAPMSYDAAMNTVFLPMGSPSTDLYGVERTQLDHRFGASVTALDATTGQVKWVYQTVHNDLWDFDLPMQPSLIDFPNKAGGTTPALVIGTKAGQIYVLDRATGTPLTEVKEIPVKAADIPGEPYARTQPLSVGMPQIGTQRLTEADMWGATPIDQMLCRIAFKQMRYDGLYTAPGTDTSLSFPGSLGGMNWGSLSTDPVHGYIFANDMRLGLWVQMQPQANPGGVNGTAGGEAVNTGMGAVPLKGTPYSVNKNRFLSALGIPCQAPPYGTLTAIDLKTQKVAWQVPVGTVQDTGPLGIKMHLPMPIGMPTLGGTLSTQGGLVFIAGTQDYYLRAFDTATGKEVWKARLPVGSQGGPMTYVSAKTGKQYIVITAGGARQSKDRGDYVIAYALPDQH	PGPT0019720_118	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_QUINATE_CATABOLISM,PGPT0019720-quiB-K05358	NA	NA
BMS020_07090	360			hypothetical protein	ATGACGTCCATGTCCTACCAGGAGCTGACCCGCGACATCTCGCGCAACCTGGGCGCGCTGCGCAGCCATAACAGCGAGGTCATGCAGGGCTTCGGCGCGCTCAGCAAGGCGGCGATGGCACCCGGCGCGCTGGATGAGAAAACCAAGGAGCTGATCGCGATGGCGATCGGCGTGGCCAACCGCTGCGATGGCTGCCTGGGCTTCCACGCCAAGGCGCTGGTGCGGCTGGGCGCCACGCCGGAGGAGTTCCACGACATGCTCGGGGTGGCGGTCTACATGGGCGGCGGACCGTCGCTGATGTACGCCGCCAACGCGACCGCCGCCTACGAGGAGTTCCGCGCCGCCGCAACGGCGGGCTGA	MTSMSYQELTRDISRNLGALRSHNSEVMQGFGALSKAAMAPGALDEKTKELIAMAIGVANRCDGCLGFHAKALVRLGATPEEFHDMLGVAVYMGGGPSLMYAANATAAYEEFRAAATAG				NA	NA	NA	NA	NA
BMS020_07091	318	ygaV_2	COG0640	putative HTH-type transcriptional regulator YgaV	ATGAGCCCGCCGATCACCTCCGCCGACCGTACCTTCATGCAGCAGGGCGCCGCCGACGCGGCGGCGATGTTGCGCACCCTGGGCCACGAGCAGCGCCTGCTGGTGCTGTGCCTGCTGGTCGGCCATGGCGAACGCAGCGTCGGCCAGCTGCTGGAGCAGGTCGAACTGAGCCAGTCGGCGCTGTCCCAGCACCTGGCGCGGATGCGTGACGACGGCCTGGTCGCCAGCCGTCGCGAAGGCCAATCGATGCTCTACCGCATCGCCGATCCGCGCGTGGCCACGCTGGTGGCGGCGCTGAAATCGGTGTTCTGCCCCTGA	MSPPITSADRTFMQQGAADAAAMLRTLGHEQRLLVLCLLVGHGERSVGQLLEQVELSQSALSQHLARMRDDGLVASRREGQSMLYRIADPRVATLVAALKSVFCP	PGPT0016126_353	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016126-bigR-K22042	NA	NA
BMS020_07092	522	ygaP_2	COG0607	Inner membrane protein YgaP	ATGAAGACCCTCAGCCCCGAAGCCGCGCAGCGCCTGCTCACGCAGGGCGCGTTGCTGATCGACATCCGTGGCGCCGACGAGCATGCGCGCGAGCGCATCCCCGGTGCCTGCTGCATTCCGCTGGCGGCGTTGGCCGATGCGCCGCAGTTGCGCGGCGCGCCGTCGCCGCTGCTGTTCCATTGCCGTTCCGGCATGCGGACCCAGGCCAATGCCGCCGCGCTGGAGGCGGCCGCGGCCGGGCGCGAGGCCTATGTGCTGGAAGGCGGGCTGGAGGCGTGGAAGCGTGCCGGTCTTGCCCTGGCTGGCGATGCCGGCGCGCCGCTGGAGCTCAACCGCCAGGTGCAGATCGTGGTCGGCAGCCTGCTGCTGCTCGGCAGCGTGCTGGCGGCGACGCTGTCGCCGTGGTTCCTGCTGCTGTGCGGCGCACTCGGCGCCGGCCTGCTGTTCGCCGGGCTGTCGGGGTTCTGCGGGATGGCGCGGCTGCTGCTGCGGATGCCGTGGAACCGCGCGCTGCGCGGCTGA	MKTLSPEAAQRLLTQGALLIDIRGADEHARERIPGACCIPLAALADAPQLRGAPSPLLFHCRSGMRTQANAAALEAAAAGREAYVLEGGLEAWKRAGLALAGDAGAPLELNRQVQIVVGSLLLLGSVLAATLSPWFLLLCGALGAGLLFAGLSGFCGMARLLLRMPWNRALRG				NA	NA	NA	NA	NA
BMS020_07093	1890	mnmG_1	COG0445	tRNA uridine 5-carboxymethylaminomethyl modification enzyme MnmG	ATGACCGACTCCTTCCATCGCTACGACGTCATCGTGATCGGCGGCGGCCATGCCGGCACCGAGGCCGCGCTAGCCGCGGCCCGTGCCGGCGCGCGCACCCTGCTGCTGACCCACAACGTCGAGACCGTCGGCGCGATGAGCTGCAATCCGGCGATCGGCGGCATCGGCAAGGGCCATCTGGTCAAGGAGATCGACGCGCTCGGCGGTGCGATGGCCAAGGCCGCCGACCTGGCCGGCATCCAGTGGCGCACGCTGAACGCCTCCAAGGGCCCGGCGGTGCGTGCGACCCGCTGCCAGGCCGACCGCAACCTGTACCGGATGGCGATCCGTGGCCTGGTCGAATCGCAGCCGAACCTGACCGTGTTCCAGGCCGCCGTGGACGACCTGCTGATCGATGGCGACCGGATCCGCGGCGTGCTGACCCAGACCGGCCTGCGTTTCGAGGCGGCCGCGGTGGTGCTGACCGCCGGCACCTTCCTGGCCGGCAAGATCCATATCGGCCAGACCCAGTACACCGCCGGCCGCATGGGCGACCCGCCGGCGACCACGCTGGCGGCGCGGCTGCGCGAGCGCCCGTTCGCGATCGACCGGCTCAAGACCGGCACGCCGCCGCGCATCGACGGCCGCTCGCTCGACTATTCGGTGATGGAAGAGCAGCCCGGCGACGATCCGCTGCCGGTGATGTCCTTCCTCGGCAGCGTGGCACAGCATCCGCGCCAGGTCAGCTGCTGGATCACCCACACCACCGAGCACACCCACGAGCTCATCCGCGGCGCACTCGACCGCTCGCCGCTGTACACCGGGCAGATCGAGGGCATCGGCCCGCGCTACTGCCCGTCGATCGAGGACAAGGTGGTGCGCTTCGCCGAGAAGACCAGCCACCAGATCTTCGTCGAGCCCGAAGGCCTGGACGTGGTGGAGATCTACCCGAACGGCATCTCCACCTCGCTGCCGTTCGACGTGCAGCTGGCGCTGGTGCGTTCGATCCGCGGCTTCGAGCACGCCCACATCACCCGTCCCGGCTACGCGATCGAGTACGACTTCTTCGACCCACGCGGGCTGAAGGCCTCGCTGGAGACCAAGCTGGTCAACGGCCTGTTCTTCGCCGGGCAGATCAACGGCACCACCGGCTACGAAGAGGCCGGCGCGCAGGGCCTGCTGGCCGGCATCAACGCCGCACGCCACGTGCAGCAGCGCGAGGCCTGGTGCCCGCGCCGCGACGAGGCCTACATCGGCGTGCTGGTCGACGACCTGATCACCCACGGCACCAGCGAGCCGTACCGCATGTTCACCAGCCGCGCCGAGTACCGGCTGCAGCTGCGCGAGGACAACGCCGACGTGCGCCTGACCGCGATCGGCCGCGACCTCGGCGTCGTCGACGACGTGCGCTGGGCAGCGTTCTCGGCCAAGCAGGAGGCGGTCGAGCGCGAGAGCGCGCGGCTGCGTGCGCTGTGGGCAACGCCGGGCAACGCGCTCGGGCGCGAGGTCGAGGCCGCGCTCGGGGTGGCGGTGAGCCGCGAGACCAACGTGCTCGACCTGATCAAGCGCCCAGAGCTGGATTACGCCAAGCTGATGACGGTGCCGTCGCTCGGCCCCGGCGTGGACGACGCCAAGGTCGCCGAGCAGGTCGAGATCGGGGTGAAGTACGCCGGCTACCTGGACCGCCAGCGCGAGGAGATCGCGCGCCAGCAGCGCCACGAGGACACGGCGATTCCCGACGGTTTCGACTACGCCACGGTGCGCGGGCTGTCGGCCGAGGTGCAACAGAAGCTCGAACGCGTGCGCCCGCAGACCATCGGCCAGGCCCAGCGCATCCCCGGCATGACCCCGGCGGCACTCTCGCTGCTGCTGGTGCACCTGGAGCGCGCGCGGCGCAGCCGCGTGGCCTGA	MTDSFHRYDVIVIGGGHAGTEAALAAARAGARTLLLTHNVETVGAMSCNPAIGGIGKGHLVKEIDALGGAMAKAADLAGIQWRTLNASKGPAVRATRCQADRNLYRMAIRGLVESQPNLTVFQAAVDDLLIDGDRIRGVLTQTGLRFEAAAVVLTAGTFLAGKIHIGQTQYTAGRMGDPPATTLAARLRERPFAIDRLKTGTPPRIDGRSLDYSVMEEQPGDDPLPVMSFLGSVAQHPRQVSCWITHTTEHTHELIRGALDRSPLYTGQIEGIGPRYCPSIEDKVVRFAEKTSHQIFVEPEGLDVVEIYPNGISTSLPFDVQLALVRSIRGFEHAHITRPGYAIEYDFFDPRGLKASLETKLVNGLFFAGQINGTTGYEEAGAQGLLAGINAARHVQQREAWCPRRDEAYIGVLVDDLITHGTSEPYRMFTSRAEYRLQLREDNADVRLTAIGRDLGVVDDVRWAAFSAKQEAVERESARLRALWATPGNALGREVEAALGVAVSRETNVLDLIKRPELDYAKLMTVPSLGPGVDDAKVAEQVEIGVKYAGYLDRQREEIARQQRHEDTAIPDGFDYATVRGLSAEVQQKLERVRPQTIGQAQRIPGMTPAALSLLLVHLERARRSRVA				NA	NA	NA	NA	NA
BMS020_07095	465			hypothetical protein	ATGAGATTCCGCCTGCTGCTTGCCTTGGGCGCGCTCGCGTCGTTGGGCGGCTGCGCCACCTACGACTACACCGGCGGCGCGAACGGCGGCTATTACCGCGGCACGCCCGGCGTGCAGTACCGCTATCCGGATGGCTATTACGGTCCCTACAGCGGCTATGGCTATCCGTACTACTACGGTGGCAGCTGGATCGGCCTGTACGACGCCCCGGTTTACCGCGGCGGCTACTACGGCCGCCCGGGGTACGCACCGCCCCCGCCTCCGCCCCGCCCCGGTCATGGCCACCCCGGCCCGCGACCGGGCGGCAACGACCGCCCGCCGCCCTCCCGCCCGCGTCCGCCGACCACACCACCGCCGTCGCGACCGGAACCGCGCCCCGATAGCCGGCCGCCGAGCCCGTGGCGCAACATGGACAGCCTCAAGCGCCCGACCACCCGCACGCCGCGCCGGACCCAGGAGCCCTGA	MRFRLLLALGALASLGGCATYDYTGGANGGYYRGTPGVQYRYPDGYYGPYSGYGYPYYYGGSWIGLYDAPVYRGGYYGRPGYAPPPPPPRPGHGHPGPRPGGNDRPPPSRPRPPTTPPPSRPEPRPDSRPPSPWRNMDSLKRPTTRTPRRTQEP				NA	NA	NA	NA	NA
BMS020_07096	963	thadh		L-threo-3-hydroxyaspartate ammonia-lyase	ATGAGTCCGTCTTCACTGCCTGCCTTCGACGACGTCCTGCGGGCCGCCGCGCGGATCGCGCCCCATGTCGAGACCACGCCGGTGCTGCGCTCGCGCGCGCTGGATGCGCTGGCCGGGGCCAGCCTGCACTTCAAGGCCGAGCACCTGCAGCGCGGCGGCGCATTCAAGTTCCGCGGGGCCTGCAACGCGGTCTGGGCGCTGGCGCCGGAACAGGCCAGCGCCGGCGTGGTGACGCATTCCTCCGGCAACCATGGTGCCGCGCTGGCGCTGGCCGCACGCACCCGCGGCATCGGCTGCCACGTGGTGGTGCCCCAAGGCGCGGTCGCCACCAAGCTCAACAACATCGCCCGCCATGGCGCCACGCTGTGGCGTTGCGAAGCCACGATCGATGCGCGCGAGCGCACCTGCGGCGAAGTGCAGGCGGTGACCGGCGCGCGGCTGGTGCATCCCTACACCGATCCGGCAGTGATCGCCGGCCAGGGCACCGCGGTGCTGGAACTGCTGCAGGCCTGCGACGGCCTGGACGTGGTGGTGGTGCCGGTCGGTGGCGGCGGCCTGGCCGCAGGCACCGCGTTGACCCTGCAGGCGCTGGCGCCGCACTGCCAGCTGGTGCTGGCCGAGCCGTCCGGCGCCGCCGACACGGCGCGCTCGCTGGCGGCCGGCGAGCGCCTGGTCGATTTCGTCCCGGAGACGGTCTGCGACGGCCTGCGCGGCAGCCTCGGGCTGGTGAATTTCACCCTGCTGGCCGCCGCCGGCGCGCAGGTGCTGACCGTCGACGACGCCGATACCATCGCCGCGATGCGGTTGCTGTGGCAGGTGACCAAGCAGACCGTGGAGCCGTCCTCGGCGATCGCGCTGGCGGCGGTGCTGGGCCAGCCGGCACGGTTTGCCGGCCGGCGCGTGGGCCTGGTGCTGTCCGGCGGCAACGTCGACCTCGACGCGCTGCCGTGGGCGCCGGCATGA	MSPSSLPAFDDVLRAAARIAPHVETTPVLRSRALDALAGASLHFKAEHLQRGGAFKFRGACNAVWALAPEQASAGVVTHSSGNHGAALALAARTRGIGCHVVVPQGAVATKLNNIARHGATLWRCEATIDARERTCGEVQAVTGARLVHPYTDPAVIAGQGTAVLELLQACDGLDVVVVPVGGGGLAAGTALTLQALAPHCQLVLAEPSGAADTARSLAAGERLVDFVPETVCDGLRGSLGLVNFTLLAAAGAQVLTVDDADTIAAMRLLWQVTKQTVEPSSAIALAAVLGQPARFAGRRVGLVLSGGNVDLDALPWAPA	PGPT0001960_6562	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
BMS020_07097	612			hypothetical protein	ATGAGCCGGCGACGGTCTGCCCGGGCCGGCCTGTGGGGCTGGTTCTGGCGGCTGGTCCTGCTGGTGCTGCTGTGGTTGTTGTGCGTGGCCGGCTGGATCATCTGGGTCGGCGAGCGCGACCAGGCCGCGCCGGCCGACGTGGTGATCGTGCTCGGCGCGGCGGCCTACGACGCGCGCCCTTCGCCGGTGTTCGAAGAACGCATTCGCCATGGCCTGGACCTGTACGAGCGCGGTTACGCACCCAAGCTGCTGTTCACCGGCGGCTTCGGCGGCAGCGCCGCACGCTTTTCCGAATCGCAGGTGGCGCGCCGCTACGCGCTGCGCCATGGCGTGCCGCCGCGCGACATCCTGATCGAGACGGTTTCGCGCACCACCCGGCAGAACCTGCTGCAGGCGCGCGCGCTGATGCAGCGCAACGGCATGCGCCGCGCGATCATCGTCAGCGACCCGCTGCACATGGCGCGCGCGCTGCGGCTGTGCCGTGAGCTGGACATCGACGCACTGGCCTCGGCGACGCCGAGCACGCGTTTCCGCAGCATCCACGCCAGCTGGCGTTTCCTGCTGCAGGAGGTCTACTTCTTCCACCGCGACCTGGTGGTGCCGGGCAGCTGA	MSRRRSARAGLWGWFWRLVLLVLLWLLCVAGWIIWVGERDQAAPADVVIVLGAAAYDARPSPVFEERIRHGLDLYERGYAPKLLFTGGFGGSAARFSESQVARRYALRHGVPPRDILIETVSRTTRQNLLQARALMQRNGMRRAIIVSDPLHMARALRLCRELDIDALASATPSTRFRSIHASWRFLLQEVYFFHRDLVVPGS				NA	NA	NA	NA	NA
BMS020_07098	453			hypothetical protein	ATGATGGGCGGCCCCACGTACGCGATGACCGCCATGAGCCACGACGCCCGCCGCCTCGCCACCGATCTGGTGCAGGCCTATTACGATGCCTTCAACCGTGGCGACTGGCCGGCGATGTTGGCCAAGCTCGACGCCGAGGTCGCGCACGACCTCAACCAGGGCGCGCGCGAGCGCGGCGTGACCGCGTTCGCCGCGTTCCTGCAGCGCATGGAGGCCAGCTACCGCGAGCAGTTGCGCGACATCGTGCTGATGGTCAGCGAGGACGGCCGCCGGGTCGGCGCCGAGTACGTGGTCCATGGCCAATACCACCACACCGACGAGGGCCTGCCGGAAGCGCGCGGGCAGACCTACGTGCTGCCGGGCGGCGCGTTCTTCGACATCCACGAAGGCCGCATCGCGCGGGTCAGCAACTACTACAACCTGCAGGACTGGATCGCCCAGGTGCAGGGCTGA	MMGGPTYAMTAMSHDARRLATDLVQAYYDAFNRGDWPAMLAKLDAEVAHDLNQGARERGVTAFAAFLQRMEASYREQLRDIVLMVSEDGRRVGAEYVVHGQYHHTDEGLPEARGQTYVLPGGAFFDIHEGRIARVSNYYNLQDWIAQVQG				NA	NA	NA	NA	NA
BMS020_07099	324			hypothetical protein	ATGATCAAGCTCAGCGTGATGTATCCGGCGCGCGATGGCGCGCGCTTCGACCATGCGTACTACCTCGACCGGCACATGCCGCTGATCAGGCAGCGCCTCGGCGAGGACTGCCTGTTCTATACCGTGGATCGCGCGCTGGCGGGCGGGGCGATGGGCGATGCCCAGCCGTTCGTGGCGATGTGCCACATCTACTTCGCTTCGCTGGAGCGCTTCAACGCCAGCTTCCCGCAGCATGGTCCGGAGTTGCAGGCCGACGTGGCCAACTACACCGACATCGTGCCGGTGATGCAGCTCAGCGAGGTCGGGGCCGGCCCGGACGCGTGA	MIKLSVMYPARDGARFDHAYYLDRHMPLIRQRLGEDCLFYTVDRALAGGAMGDAQPFVAMCHIYFASLERFNASFPQHGPELQADVANYTDIVPVMQLSEVGAGPDA				NA	NA	NA	NA	NA
BMS020_07100	906			hypothetical protein	ATGATCAAGTGGTCCCTCATCGCGCTGTTCGTCGCGTCGGCGCTGTACATCCATTTCCGCGGCCGCGTGCGCCACCGGCTCAGCCGGCAGCTGCTCGACCACTCCACCTTCATGGCGCCGATCAACACGCTGATGTACCTGTGTTCGCGCGTGCCGACCACGCCGTTCATCGACCCGGGCAAGGAATTCCCCGAGCTGGCGCCGCTGCGCGCGAACTGGCCGGCAATCCGCGACGAGGCGGTGGCGCTGGCCGAGATGAAGAAGATCCGCGCCGCCGAGGGCTATACCGACGTCGGCTTCAACTCGTTCTTCCGCCGCGGCTGGAAGCGCTTCTACCTGAAGTGGTACGGCACCGCGCATCCGTCGGCGGCCGAGCTGTGCCCGCAGACCACCGCGCTGCTGGCCTCGATCCCGACGGTGAAGGCGGCGATGTTCGCCGAGCTGCCGCCAGGCAGCGAACTGCGCCCGCACCGCGACCCGTTCGCCGGCTCGATGCGCCTGCACCTGGGCCTGGCCACGCCGAACGACGACGGCTGCTACATCGAGGTCGACGGCCAGCGCCACAGCTGGCGCGACGGCGAGTGGACGATGTTCGACGAGACCTATATCCACCACGCCCGCAACGACACCGACGCCGACCGCATCATCCTGTTCTGCGACGTCGAGCGACCGATGCGCTGGCGCTGGGCGCAGGCGGTGAACCGCCTGGTCGGCAAGACCCTGCTGGCCGCCGGCGCCTCGCCGAACCAGGACGGCGACAAGACCGGCGGCATCAACCGCCTGTTCCGCTACTTCTATGCGCTGCGGCTGAAGGCCAAGGCACTGAAGGAGCGCAACAATCCGCTGTACCAGACCCTGAAATGGGGCATCTTCGCGCTGGTGGTGGCGGGCATCATCCTGCTGTGA	MIKWSLIALFVASALYIHFRGRVRHRLSRQLLDHSTFMAPINTLMYLCSRVPTTPFIDPGKEFPELAPLRANWPAIRDEAVALAEMKKIRAAEGYTDVGFNSFFRRGWKRFYLKWYGTAHPSAAELCPQTTALLASIPTVKAAMFAELPPGSELRPHRDPFAGSMRLHLGLATPNDDGCYIEVDGQRHSWRDGEWTMFDETYIHHARNDTDADRIILFCDVERPMRWRWAQAVNRLVGKTLLAAGASPNQDGDKTGGINRLFRYFYALRLKAKALKERNNPLYQTLKWGIFALVVAGIILL	PGPT0022350_248	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022350-lpxO-K12979	NA	NA
BMS020_07101	939	bioC_2		Malonyl-[acyl-carrier protein] O-methyltransferase	ATGCCCGGCGCCGCGCCACGCGCGGTCGCGGGCGATAATGCCGCGGCAATGGATCCGACCCTCGACCCCCGCCACGTCCGCCGCGCCTATTCGCGCGCCGCCCCCGGCTACGATGCCGCCGCCGCCCTGCAGCGCGAGGTGCGCACGCGCCTGCTCGAATCGCTGGACTACCTGGACGGGCGCACGCCGCAGCTGGTGCTCGACGTCGGCGCCGGCCCCGGCCACGCCAGCGCGGCGATGCACAAGCGCTGGCCCAAGGCGCAGGTGCTGGCGCTCGACGTGGCGCTACCGATGCTGCAGCAGGCGCGCAAGCAGGCCGGCTGGTGGAAGCCGTTCCCGCGCGTGTGCGCCGATGCGCGCGCGCTGCCGGTGGCCGACGGCAGCGTCGACGTGATCTTCTCCAACCTGTGCCTGCAGTGGGTCGAGGACCTGCCGGCGGTGTTCGCCGGGTTCCGCCGCGCGCTCAAGCCTGGCGGGCTGCTGCTGTGCTCGACCTACGGCCCGGAGACGCTGCTCGAACTGCGCGAGGCCTTCGCCCAGGTCGATCCGGTGCCCCACGTCGGCCGCTTCGCGCCGATCGCCCAGTTCGGCGACGCGCTGATGATGGCCGGCTTCCGCGACCCGGTGCTGGACCGCGACCTGTTCACCCTGACCTACCGCGACCTGCCGGCGCTGATGCGCGAACTGCAGGCGCTCGGCGCCACCAACGCGCTGCGCGCACGCCGCCCCGGCCTGACCGGCAAGGGCCGCTTCGCCGCCGCGGCCGCCGCCTACGAACCGTTGCGCCGCCCGGACCAGACCCTGCCCAGCAGCTGGGAGGTCATCTATGCCCATGCCTGGGCGCCGGACCCGGGCGCGCCGGTGCGCGAGCACGGCCACGATGTCGCCAGCGTGCCGCTCGGCGCGATCCCGATCCGCCGCCGGCCGCGCGAATCCTGA	MPGAAPRAVAGDNAAAMDPTLDPRHVRRAYSRAAPGYDAAAALQREVRTRLLESLDYLDGRTPQLVLDVGAGPGHASAAMHKRWPKAQVLALDVALPMLQQARKQAGWWKPFPRVCADARALPVADGSVDVIFSNLCLQWVEDLPAVFAGFRRALKPGGLLLCSTYGPETLLELREAFAQVDPVPHVGRFAPIAQFGDALMMAGFRDPVLDRDLFTLTYRDLPALMRELQALGATNALRARRPGLTGKGRFAAAAAAYEPLRRPDQTLPSSWEVIYAHAWAPDPGAPVREHGHDVASVPLGAIPIRRRPRES	PGPT0022060_525	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022060-bioC-K02169	NA	NA
BMS020_07102	786	fabG_15		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGGATCTTGGAATCGCCGGGCGCTGGGCGCTGGTCTGCGGCGCCAGCAAGGGCCTGGGCCTGGGCTGCGCGCAGGCGCTGGCCGCCGAGGGCGTCAACGTGGTGATCGTCGCCCGCGGTGAAGTGGCGCTGGGCGACGCGGCGCAGGCACTGCGCGCGCTGCCGGGTGCCGGCGAGGTGCGCATGGTCGCCGCCGATGTCGCCAGCGAGGGCGGACGCGCCGCCGCGCTGGCGGCCTGCCCGCAGGTCGACATCCTGGTCAACAACGCCGGCGGCCCGCCGCCAGGCGACTTCCGCGACTGGCAGCGCGAGGACTGGATCGCCGCGCTCGATGCCAACATGCTGGCGCCGATCGCGCTGATCCGCGCCACCGTCGATGCGATGCGCGCGCGCCGCTTCGGCCGCATCGTCAACATCACCTCCAGCGCGGTGAAGGCGCCGATCGACATCCTCGGCCTGTCCAACGGCGCGCGCGCGGGGTTGACCGGCTTCGTCGCCGGACTGGCGCGCAGCGATCTGGCCGCCGACAACGTGACCATCAACAACCTGCTGCCCGGGCTGTTCGACACCGACCGGCTCAAGGGCAACCACGCCGCGCGCGCGCGCCAGCAGGGGCGCAGCGTCGAGGACGTGGCCGAGGCCGCGCGCGGCCGCATCCCGGCGGCGCGCTTCGGCACTCCGGCCGAGTTCGGCGCGGCCTGCGCGTTCCTGTGCAGCGCGCAGGCCGGCTACCTGACCGGACAGAACCTGCTGCTCGACGGTGGCGCCTACCCCGGCACGTTCTGA	MDLGIAGRWALVCGASKGLGLGCAQALAAEGVNVVIVARGEVALGDAAQALRALPGAGEVRMVAADVASEGGRAAALAACPQVDILVNNAGGPPPGDFRDWQREDWIAALDANMLAPIALIRATVDAMRARRFGRIVNITSSAVKAPIDILGLSNGARAGLTGFVAGLARSDLAADNVTINNLLPGLFDTDRLKGNHAARARQQGRSVEDVAEAARGRIPAARFGTPAEFGAACAFLCSAQAGYLTGQNLLLDGGAYPGTF	PGPT0003180_5091	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
BMS020_07103	750	bioH_2		Pimeloyl-[acyl-carrier protein] methyl ester esterase	ATGTACATCGAGACCGTCGGCCACGGCCCGTCGCTGGTGCTGATCCACGGCTGGGCGCTGCACGGCGGCGTGTTCGCACCGCTGGTTGAACGCCTGGCACCACGGTTCACCGTGCATCTGGTCGACCTGCCCGGTCACGGCCACAGCCACGACGACGCTACCCCGCTGGCATTGCCGCACGTGGTCGGCGCGATCGCCGCGGCCACCCCGCCAGCGGTGTGGCTGGGCTGGTCGCTGGGCGGGCTGTTCGCGCTGCACGCCGCCGCGACCCTGCCGCAGGTGCGCGCGCTGGCGATGGTCGCCGCGCTGCCGCGCTTCGTGCGTGGCGAGGACTGGCCGCCGGCCGCCGACCCGGCCGTGTTCCGCCAGTTCGGCCATGACCTGGCCACCGACTACCGCGGCACCGTGCAGCGCTTCGTCGCGCTGGACATGCCCGCCGGCGCACAGGCGCGCGCGCTTGGCGAGAGGCTGCTCGCGCGCGGTGAGCCGGCGCCGCGCGTCCTCGACGAAGGCCTGCGGCTGCTCGAACGCAGCGACCTGCGCCGCGGCCTGGCGGGGTTGTCCAAGCCCAGCCTGTGGCTGGCCGGCCAGCGCGACCGGCTGGTCCCGGCATCCGGCCTGGAGGCGGCCGCCGCGCTGTCGCCCCACGCCCGGCAGCACACCATCGGCGGTGGCGGCCATGCGCCGTTCCTGGGCCAACCCGATCACGTCGCCGGGCTGCTGCGCGAGTTCATCGACGCGCTGCCATGA	MYIETVGHGPSLVLIHGWALHGGVFAPLVERLAPRFTVHLVDLPGHGHSHDDATPLALPHVVGAIAAATPPAVWLGWSLGGLFALHAAATLPQVRALAMVAALPRFVRGEDWPPAADPAVFRQFGHDLATDYRGTVQRFVALDMPAGAQARALGERLLARGEPAPRVLDEGLRLLERSDLRRGLAGLSKPSLWLAGQRDRLVPASGLEAAAALSPHARQHTIGGGGHAPFLGQPDHVAGLLREFIDALP	PGPT0022065_253	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022065-bioH-K02170	NA	NA
BMS020_07104	1212	bioF_2	COG0156	8-amino-7-oxononanoate synthase	ATGGCCAGACCCGACCTGCACGAACGCATCCAGGCGCTGCGCAAACTGCGTGCGGCGCAGGAGCGCATCCGCGTGCGCCGGGCCGTCGGCCATCGCGACGGGGTGCGCCTGGAAGTCGACGGCCGCTGGCTGACCGGCTTCTGCTCCAACGACTACCTGGGCCTGGCCCAGCAGTTCGAGGTGGTCGGCGCGCTGCAGGATGCCGCCGCGCGCGAAGGCATCGGCGCCACCGCCTCGCACCTGATCTGCGGCCACCACGCGCTGCACGAGGCGCTCGAACGCGAAGTCGCCGACTGGCTGGGCTATCCACGCGCGCTGCTGTTCGGCAGCGGCTTCATGGCCAACCTGGCGGTGCAGCAGGCGCTGCTCGGCGAGGAGGACGACCTGTGCGTGCAGGACCGGCTCAACCACGCCAGCCTGCTCGACGCGACCCGCCTGGCCGGCTGCCGCCTGCGCCGCTACCCGCACCTGGACGCCGAAGGCGCGATGCGCCAGCTCAAGACCACCCCGGATGGGGCGGCGATGCTGGCCACCGACGGGGTGTTCAGCCTGGACGGCGACGTCGCGCCACTGCGCTCACTGAGCCTGGTCGCGCGCATGCAGCAGGCGCTGATGTTCGTCGACGACGCGCATGGCGTCGGCGTGGTCGGACCGCAGGGCCGCGGCTGCGTCGCCGAAGCCGGCCTTGGCGTGGCCGAGATCCCGCTGCAACTGGTGACGCTGGGCAAGGCGCTCGGCGGCACCGGTGCGCTGGTGGTCGGCGACGAGGCGCTGGTCCAGCACCTGGCCGAAACCGCGCGCCCCTACATCTACACCACCGCGATGCCGCCGGCGCAGGCCGCCGCGGCGCTGGCCGCGGTCAAGCTGGCGCGGCGCGACGACTGGCGCCGCGAACGGCTGCGCGACCTGGTCGCCGGGTTCCGCGACGGCGCGCGCCGCCACGGGCTGGAGCTGATGGCCTCGGAGACGCCGATCCAGCCTCTGCTGTGCGGCGACGAGGCGACCACGATGGCGATGGCCGCCTCGCTGGAGAACGCCGGCTTCCTGGTCGGCGCGATCCGCCCGCCGAGCGTGCCCGAGGGCAAGGCGCGGCTGCGCGTGACCCTGTCGGCGCTGCACACGCCGCAGCAAGTCGCCGCGCTGCTGGATGCGACCGCGCGCGCGCGCGACATCGCGCAGCGCCAGCAGCAGGTCGCCGCGCTCGGCGCCTGA	MARPDLHERIQALRKLRAAQERIRVRRAVGHRDGVRLEVDGRWLTGFCSNDYLGLAQQFEVVGALQDAAAREGIGATASHLICGHHALHEALEREVADWLGYPRALLFGSGFMANLAVQQALLGEEDDLCVQDRLNHASLLDATRLAGCRLRRYPHLDAEGAMRQLKTTPDGAAMLATDGVFSLDGDVAPLRSLSLVARMQQALMFVDDAHGVGVVGPQGRGCVAEAGLGVAEIPLQLVTLGKALGGTGALVVGDEALVQHLAETARPYIYTTAMPPAQAAAALAAVKLARRDDWRRERLRDLVAGFRDGARRHGLELMASETPIQPLLCGDEATTMAMAASLENAGFLVGAIRPPSVPEGKARLRVTLSALHTPQQVAALLDATARARDIAQRQQQVAALGA	PGPT0022095_1158	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022095-bioF-K00652	NA	NA
BMS020_07105	699			hypothetical protein	ATGACCCATGCCTGGTGGCATCGATGCCTGGAGGCGCTGCTGCCGCCGCGCTGCCTGCTCTGCGATGCGCCCGCCGCTGGCGGGTGGGAGTGCTGCACGGCCTGCCTGGCGGCGCTGCCGCACTGGCCCCGCGCCTGCGTGCGCTGCGCGGGGCCGCTGGCGGCGGCAACGGAGGCCGCGCTCTGCGGCGCCTGCCTGCGTCGGCCGCCGCCGCTGGACCTGGCCGTGGCCGCCTTCGCCTACCGCTGGCCGCTCGACGTGCTGGTGCCGCGCCTGAAGTTCCACCAGGACCTGGCGGCCGGTCGGCTGCTGTCGGCACTGATGCGCGAGCGGCTGGCATCGCTGCCGCGGCCGCGCGCACTGGTGCCGGTGCCGCTGCACCGCGAGCGGCTGCGCACGCGCGGGTACGACCAGGCGCAGGAACTGGCGCAGCCGCTGGCGCGTGCGTTCGGCCTGCCGTGCCTGGCGTTGCTGGAGCGCCGTCGTCCGACCCGTGCGCAGTCGGAGCTGGACGCGGCCGCGCGCGTGCGCAACCTGCGCGGAGCGTTCGTCGCGCGTGCCGCGCCCGCTTACCCGGACCACGTCGCGCTGGTCGACGACGTGATGACTACCGGCGCCACGCTGCATGCGGCCGCCACCGCCCTGCGCCGCGCCGGCGTCGTGCGGGTCGATGCCTGGGTATGCGCGCGGGTGCCGTGA	MTHAWWHRCLEALLPPRCLLCDAPAAGGWECCTACLAALPHWPRACVRCAGPLAAATEAALCGACLRRPPPLDLAVAAFAYRWPLDVLVPRLKFHQDLAAGRLLSALMRERLASLPRPRALVPVPLHRERLRTRGYDQAQELAQPLARAFGLPCLALLERRRPTRAQSELDAAARVRNLRGAFVARAAPAYPDHVALVDDVMTTGATLHAAATALRRAGVVRVDAWVCARVP				NA	NA	NA	NA	NA
BMS020_07106	1026	ubiA_2	COG0382	4-hydroxybenzoate octaprenyltransferase	GTGGTCGTGAACCTGCAAGCCTGCGCCGCACGCGACCGCATTGCCGTGACCTGGCGCGAAGAACCCGCAGTGCGCGGCGCGCGCATGGCCGCGGCCGGAGCGGGCTGCTACGCTTTCACGATGGGCTATGAACGTTTCGACTCTCCTGTTTCCACCGCAGCGCCGCGCTGGCGCGAGCGGCTCGGCCAGTACTGGAAACTGGTGCGCGGCGACCGCCCGATCGGCTCGCTGCTGCTGCTGTGGCCGACCTGGTGGGCGCTGTGGCTGGCCGCCGATGGCGTGCCGCCGCTGTGGACGTTGTTCGTGTTCACCGCCGGCGTGTGGCTGACGCGTTCGGCCGGCTGCGTGATCAACGACTACGCCGACCGCTGGCTGGACCCGCACGTCGAGCGCACCAAGGGCCGGCCACTCGCGACCGGCGCGGTGTCCGGGCGCGAAGCGCTGGTGGTGTTCGCGGTGCTGATGCTGGTCGCGTTCGCGCTGGTGGCGACCACCAACTGGCTGACCATCGCGCTGAGCGTGCCCGGGTTGTTCCTGGCCGCCAGCTACCCGTATCTCAAGCGCCACACCTATCTGCCGCAGGTCTACCTGGGCATGGCGTTCGGCTGGGGCATCCCGATGGCCTTCGCCGCGGTGCAGGGCACCGTGCCGGTGCTGGCCTGGCTGCTGTACGCGGCCAACATCCTGTGGGCCACCGCCTACGACACCTGGTACGCGATGGTCGACCGCGAGGACGACATCAAGATGGGCTCGAAGTCGACCGCGATCCTGTTCGGCGACCTCGATCTGGTCGCGCAGGGCGTGCTGTACGCGCTGACCTTCGCCGCGCTGGCGCTGGCCGGGCAACGCGCGCAGCTCGGGCCCTGGTACTGGGCCGGGCTGGGCGTGGCCGCGCTGCTGGTGGTGTACGAATTCCTGCTGGCCCGCGGCCGCGAGCGGGGGCCGTGCTTCCGCGCCTTCCTGCACAACAACTGGGTCGGCGCGGCGGTGTTCGCCGGCATCGCCGCGGCGCTGGCGCTGCGCTGA	MVVNLQACAARDRIAVTWREEPAVRGARMAAAGAGCYAFTMGYERFDSPVSTAAPRWRERLGQYWKLVRGDRPIGSLLLLWPTWWALWLAADGVPPLWTLFVFTAGVWLTRSAGCVINDYADRWLDPHVERTKGRPLATGAVSGREALVVFAVLMLVAFALVATTNWLTIALSVPGLFLAASYPYLKRHTYLPQVYLGMAFGWGIPMAFAAVQGTVPVLAWLLYAANILWATAYDTWYAMVDREDDIKMGSKSTAILFGDLDLVAQGVLYALTFAALALAGQRAQLGPWYWAGLGVAALLVVYEFLLARGRERGPCFRAFLHNNWVGAAVFAGIAAALALR	PGPT0009515_899	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009515-ubiA-K03179	NA	NA
BMS020_07107	1032	adh_3		Alcohol dehydrogenase	ATGAAGGCAGTGCGTTACGTGGAAACCGGCCGGCCGCCGGAGATCGTCGATGTTCCGGTGCCAACGCCTGGGCCGGGCGAGGTGTTGCTGCGGGTGGCTGGCGCCGGCGTCTGCCACTCCGACCTGCATGTGCTCGATCACGGGATCGGCCTGCCCGGGCCGTTCACCCTCGGCCACGAGAACGCCGGCTGGATCGCCGGGCTCGGTGCCGGCGTGGAGGGTTGGAAGGAAGGCGATGCGGTCGCGGTGTACGGGCCGTGGGGGTGCGGGCGCTGCCACAGCTGCCAGGGGGCGGCCGAGAACTACTGCGAAAACCACGCCAGCATTCCCAGCTACGGCGGTGGCCTGGGCTCCGACGGCGGCATGGCCGAGTACATGATCGTGCCGTCGGCGCGCCTGCTGGTGCCGCTGGGCGGCATCGATCCGCTGACTGCCGCGCCGCTGAGCGACGCCGCGCTGACCCCGTACCACGCGATCAAGGCCGCACTGCCGCAGCTGACCCCGGATGCGACCGTGCTGGTGCTCGGCATCGGCGGGCTCGGCCACATGGCGGTGCAGCTGCTGCGCGCGCTGACGCCGGCGCGGCTGATCGCCGGCGACATCGACGACGGCAAGCTCGCCCATGCGCGCGAACTTGGCGTCGAACACACCCTCAACACCCGCGACGGCAAGGCCGCGGCCGAGCACATCCGCGACCTCACCGGCCCGCGCGGCGCGGCGGTGGCGCTGGACTTCGTCGGCGCCCAGGCCACCATCGACCTGTGCAAGCGGGTGGTCGGTCGCGCCAGCCGGTTGACCGTGGTCGGGCTCGGTGGCGGCACGCTGCAGTACGCCTTCGACGATCCGCCGTACGGCTGCCAGGTCAGCATGCCGTACTGGGGCTCGCGCACCGAGTTGATGGAGGTGATCGCGCTGGCCGACGCGGGCCGGATCAAGGCCGATGTCGAGGTGTTCCCGCTGGAGCAGGCGGCCGAGGTCTACCAGCGCCTGCGCGAGGGCCGGATCCGCGGCCGCGCGGTGCTGCAGCCCTGA	MKAVRYVETGRPPEIVDVPVPTPGPGEVLLRVAGAGVCHSDLHVLDHGIGLPGPFTLGHENAGWIAGLGAGVEGWKEGDAVAVYGPWGCGRCHSCQGAAENYCENHASIPSYGGGLGSDGGMAEYMIVPSARLLVPLGGIDPLTAAPLSDAALTPYHAIKAALPQLTPDATVLVLGIGGLGHMAVQLLRALTPARLIAGDIDDGKLAHARELGVEHTLNTRDGKAAAEHIRDLTGPRGAAVALDFVGAQATIDLCKRVVGRASRLTVVGLGGGTLQYAFDDPPYGCQVSMPYWGSRTELMEVIALADAGRIKADVEVFPLEQAAEVYQRLREGRIRGRAVLQP	PGPT0006365_1632	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006365-adhP-K13953	NA	NA
BMS020_07109	2529			hypothetical protein	ATGCGTCCGCCGCCCGTGGGGAGCTATGATCCCGCACCCCCCATCAAACGCTTCTGCGTCCGCGCGCTCGTGGGCGCAGCGCTGCCTGAAACAGGCAAACATCTCCGCATGCCGATCAAAAAATCCGACCTCTATTCCAAGCTCTGGGCCTCCTGCGACGAACTGCGCGGCGGCATGGATGCCAGCCAGTACAAGGATTACGTGCTGGTGCTGCTGTTCATCAAGTACGTCAGCGACAAGTACAAGGACAAGCCCTTTGCCGAGATCACCGTGCCGCCGGGCGCGAGCTTCGAGGACATGGTGGCGCTCAAGGGCGCGGCCGACATCGGCGACCAGATCAACAAGAAGATCATCCGCCCGCTGGAAGAGGCCAACCGCCTGCGCATCAAGGCCGACTTCAACGATGACGCGCTGCTGGGCCAGGGCAAGGAGAAGGTCGACAAGCTGACCAACCTGATCGGCATCTTCGAGTCCAAGGATCTGGATTTCCGCCGCCATCGCGCCGAGGGCGACGACCTGCTGGGCGACGCCTACGAATACCTGATGCGCCACTTCGCCACCGAGAGTGGCAAGAGCAAGGGCCAGTTCTACACCCCGGCCGAAGTCAGCCGCATCATGGCCCAGGTGCTGGGCATCGCCCACGCCAAGACCAGCCCGGACACCACCGTCTACGACCCCACCTGTGGCTCCGGCTCGCTGCTGCTCAAGGTGGCCGAGGCCGCGCCCACGTCTGTCAGCATCTACGGTCAGGAGAAGGAAGAAGTCACCAGCGGCTTGGCCCGCATGAACATGATCCTGCACCACAACCCCGGTGCGGTGATCGAGCAGGGCAACACCCTGGCCGACCCCAAGTTTCTGGCCGGCGATCAGCTCAAGACCTTCGACTACGTGGTGGCCAATCCGCCGTTCTCGGACAAGCGCTGGAGCAACGGCCTGGTGGGCGATGCCTACGGCCGCTTCGACGGCTTCGGCACCCCGCCCGACAAACAGGGCGACTACGCCTACCTGCTGCACATCGTCCGCTCGCTCAAGAGCACCGGCCGGGGCGCCTGCATCCTGCCGCACGGCGTGCTGTTCCGTGGCAATGCCGAGGCCGAGATCCGCAAGAGCCTGGTGCGGCGTGGCCTGATCCTGGCCATCATCGGCCTGCCGGCCAACCTGTTCTACGGCACCGGCATCCCGGCCTGCATCATCGTCATCGACAAGGCCGGCGCGGCCGCCCGCAAGGGCATCTTCATGATCGATGCCGCCCAGGGCTACATGAAGGATGGCCCCAAGAACCGCCTGCGCTCGCGTGACATCCACCGCATTGTCGATGCCTTCACCACGCTGGACGCATCCGACCCGCGCTACGCCCGCATGGTGGGCCTGGACGAGATCGAGAAGAACGACTTCAACCTCAACCTGCCGCGCTACATCGACAGCAGCACGCCGGAAGACGCGCAGGACATCGACGCCCACCTCAACGGCGGCATCCCCGAGGCCGATGTACAGGCCCTGGCGCGCTACTGGGCCGTGTGCCCGGCCCTGCAGGCCAGCTTGTTCACCCCGCGCCGGCCCGGCTATCTGGACCTGACCGCCGCCCCGGCGGCCATCAAGGGCGTCATCCACGCCCACCCGCAATTTGCGGCCTTCACACAGGCGATGAACGGCCACTTCGATGCTTGGCGCGCCCCTGTGGCCGCGCGGCTCAAGACCCTGGCACCCGGCTTTGCGCCCAAGGCGCTGATCGCCGAACTGGCCGAGGGCCTGCTGACGCACTACGAGCAGCAACCCACCGCGCAGGCGCTGATCGACCCCTACGCCGTCTACCAGCACCTGATGGACCAGTGGGCCAGCACCCTGCAGGACGACGCCTACCTGATCGCCGAAGACGGCTGGAAGGCCACGCCGTACCGCGTGCTGGAAACCAAGAAGAACAAGGACGGCTCACCGGGCAAGACGGTGGACAAGGGCTGGGCCTGCGATCTGGTGCCCAAGGCGCTGCTGGTACAACACCACTTTGCCGCCGAACAGGCCGAGCTGGACCGGCTGGGCGCCGAGCTGGAAAGCATCCAGGCCGCCCAGACCGAGCTGGAAGAAGAGCACAGCGGCGAGGATGCCGTGTTCGCCGGCTTCGACAAGATCAACGACGCGCAGGTGAAGTCACGCATCAAGGAGATCGGCAAGGATGCCGATGCCGCCGACGAGCTGGCCGTGCTGAAGCAGTGGCTGTCCCTGTCCGAAGACGCCAGCCGCCTGAAGAAGCGCATCAAAACGCTGGACGCCGAGCTGGATGACAAGGCGCTGGCCCGCTACGCCACGCTCACACCCGACGAAGTGAAAGCCCTGGTGGTGGACCACAAGTGGCTGGCGTCGCTGGATGCCGCCGTGCACGGCGAGCTGGACCGCGTCAGCCAGGCGCTGACCGGGCGGGTGAAGGAACTGGCCGAGCGCTACGGGCGGACAATGCCGGAACTGGCGCAGCAGGTGGACGACCTGGAGGCGCGGGTGGCGGGGCATCTGGCGAAGATGGGGTTTGTGTGGTGA	MRPPPVGSYDPAPPIKRFCVRALVGAALPETGKHLRMPIKKSDLYSKLWASCDELRGGMDASQYKDYVLVLLFIKYVSDKYKDKPFAEITVPPGASFEDMVALKGAADIGDQINKKIIRPLEEANRLRIKADFNDDALLGQGKEKVDKLTNLIGIFESKDLDFRRHRAEGDDLLGDAYEYLMRHFATESGKSKGQFYTPAEVSRIMAQVLGIAHAKTSPDTTVYDPTCGSGSLLLKVAEAAPTSVSIYGQEKEEVTSGLARMNMILHHNPGAVIEQGNTLADPKFLAGDQLKTFDYVVANPPFSDKRWSNGLVGDAYGRFDGFGTPPDKQGDYAYLLHIVRSLKSTGRGACILPHGVLFRGNAEAEIRKSLVRRGLILAIIGLPANLFYGTGIPACIIVIDKAGAAARKGIFMIDAAQGYMKDGPKNRLRSRDIHRIVDAFTTLDASDPRYARMVGLDEIEKNDFNLNLPRYIDSSTPEDAQDIDAHLNGGIPEADVQALARYWAVCPALQASLFTPRRPGYLDLTAAPAAIKGVIHAHPQFAAFTQAMNGHFDAWRAPVAARLKTLAPGFAPKALIAELAEGLLTHYEQQPTAQALIDPYAVYQHLMDQWASTLQDDAYLIAEDGWKATPYRVLETKKNKDGSPGKTVDKGWACDLVPKALLVQHHFAAEQAELDRLGAELESIQAAQTELEEEHSGEDAVFAGFDKINDAQVKSRIKEIGKDADAADELAVLKQWLSLSEDASRLKKRIKTLDAELDDKALARYATLTPDEVKALVVDHKWLASLDAAVHGELDRVSQALTGRVKELAERYGRTMPELAQQVDDLEARVAGHLAKMGFVW	PGPT0027180_534	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027180-hsdM-K03427	NA	NA
BMS020_07110	1158			hypothetical protein	ATGGCTCCACTCGAAACAGGTGGTACGCCATCGACGCGAGTTGAAAGCAACTTTGGCGATGATTTTCCCTTTGTCAGTCCTGGTGACATTGGAGACGGGAAATACATTCGCATCACCGCACGACGGCTGTCCAAATCCGGATTTGACCAGTGTCGCGCCTTTCCTGCCGGATCGATCCTGTTCGTGAGCATCGGGTCGACCATCGGTAAATGTGCTGTTGCCTCAGAGCTACTGACGGCCAATCAGCAGATCAACGCGGTGCTACCAAGCGAGACAGTTGCCTCTGATTTCCTCTACTACGCATTGTGTATGCGGGGAACAGCGATCCGCGCACAGGCAGGCGAACAGGCTGTTCCCATCGTCAACAAGAGCCAGTTTGGTTCAACTCTTATCAGCTTCCCAGTCGACAAGCATGAGCAGTTCCGGATCGGTAACGCCCTCTCCGATGCCGACGCCCTGATCGACTCGCTGGAGCAACTGCTGACCAAGAAGCGCCAGATCAAGCAAGGCGCCATGCAGGAACTGCTCACCGGCAAGCGGCGGTTGCCGGGGGCAACTGGCGCATGGTCAGTGTGGCGATTGCGTGAGATCGCCAGACTGATTCGACTAAACGTGGTTCCAGCACAAACACCTGGAGCAGTGTTCACGCATTTCAGCCTTCCCGCCTTCGATGCCGGCATGACGCCGTCAATTGATCTGGGAAGCGAAATCGGCAGCAACAAATTCCGCGTTCCTCGCAACGCGGTGCTTGTGTCAAAGCTCAACCCACGAATTCCAAGAGTGTGGGCGCCAAATGAGGTTCCAGAAAATGCCGTAGCGTCCACTGAGTGGCTTGTACTGACACCGGAGCACACCATCGATCGGGAATTTCTGTACGCAGTCTGCCGATCACCCAGCTTCTCAGAACAAATGGAGTTGGCCGCCACAGGCACAACGGGTAGTCATCAGCGAATCAGCCCAGCAACAGCTCTGGATCTGGAAGTTCAGCTGCCAGATGATCTCAACGAACAAGCAAGGCTCGCACGAGTCCTGAGTGACTTCGACGAAGAAATCACCGCCCTCGAATCCCGCCTCACCAAAGCCCGCACCCTCAAGCAAGCCATGGCCCAAGCCCTGCTGACCGGCCGCATCCGCCTGGTGGAGCCTGCCGCGCCATGA	MAPLETGGTPSTRVESNFGDDFPFVSPGDIGDGKYIRITARRLSKSGFDQCRAFPAGSILFVSIGSTIGKCAVASELLTANQQINAVLPSETVASDFLYYALCMRGTAIRAQAGEQAVPIVNKSQFGSTLISFPVDKHEQFRIGNALSDADALIDSLEQLLTKKRQIKQGAMQELLTGKRRLPGATGAWSVWRLREIARLIRLNVVPAQTPGAVFTHFSLPAFDAGMTPSIDLGSEIGSNKFRVPRNAVLVSKLNPRIPRVWAPNEVPENAVASTEWLVLTPEHTIDREFLYAVCRSPSFSEQMELAATGTTGSHQRISPATALDLEVQLPDDLNEQARLARVLSDFDEEITALESRLTKARTLKQAMAQALLTGRIRLVEPAAP				NA	NA	NA	NA	NA
BMS020_07111	948	nucS		Endonuclease NucS	ATGATCGAGCCCGCCAAGCGCTACTACCGCGTGATGCTGGGCCGCCAGAGCGTGCATGCGGCCGAGTGCCTGGCGGGCGGTTTCATCGGCGCAGACTTCGGCATCGCGCAGGACCTGAGCGGCCAGTTGCCGGAGGAGTGGCGGCAGTTCAACGCCGCCTTTATCCCGGTGTTCCTGGCCGGCCACCCCGACAAGAGCAAGATCGCCGCGGGCCTGGCCTGCGGAGCGCTGTGGACGGTGGCCAAGGGCATCCGCACCGGCGATGTGGTGCTGTGCCCGGACGGCAGCGGCCAATACCTGGTGGGCGAGGTGCAGGGTGGCTACCACTACGCGCTCGGCCAGGTGCTGCCGCACCGCCGCCCGGTGAAGTGGCTGCCGCTGACGATCGCCCGCGCGGCGATGACCGAGGCGCTGCGCAACTCCACTGGCTCCATCGGAACGGTGAGCACCATCACCGAGTACCACCAGGAGATCGAGCAGTTCCTCGCCGCACTGCCCGGCCAGACGGTGCCCAACATCGTCGCCACCGACCCGGTGGTGGAAGACCCGGTGGCCTTCGCGATGGAGAAGCACCTGGAGGACTTCCTGGTGAAGAACTGGGCGCAGACCGAGTTGGCCCAGGATTTCAGGATTTATGAAGAAGACGGCGAGCTGGTCGGCCAGCAGTACGCCACCGACGCCGGGCCCATCGACATCCTGGCGGTGAGCCGCGACGGCCAGCGCCTGCTGGTGGTGGAGCTGAAGCGCGGCCGCGCCTCGGACATGGTGGTGGGCCAGATCCTGCGCTACATGGGCTACGTCAAAGAGCAGATCGCCGAGCCGCACCAGAGCGTGCAAGGCGCGATCATTGCGCTGGACGATGACCAGAAGCTGCGCTGGGCCTTGCAGATGGTGCCCAGCGTCAGCTTCTACCGCTACCAGCTGAGCTTCAAGCTGATCAAGCACTGA	MIEPAKRYYRVMLGRQSVHAAECLAGGFIGADFGIAQDLSGQLPEEWRQFNAAFIPVFLAGHPDKSKIAAGLACGALWTVAKGIRTGDVVLCPDGSGQYLVGEVQGGYHYALGQVLPHRRPVKWLPLTIARAAMTEALRNSTGSIGTVSTITEYHQEIEQFLAALPGQTVPNIVATDPVVEDPVAFAMEKHLEDFLVKNWAQTELAQDFRIYEEDGELVGQQYATDAGPIDILAVSRDGQRLLVVELKRGRASDMVVGQILRYMGYVKEQIAEPHQSVQGAIIALDDDQKLRWALQMVPSVSFYRYQLSFKLIKH	PGPT0027250_588	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_IV_R-M_SYSTEM,PGPT0027250-mrr-K07448	NA	NA
BMS020_07112	1014			hypothetical protein	ATGCACGAGTTCGTCACGAACGAAGCAATCTGGCAGCGCATTAAGAGTGCGTTGGATGACGAAAAGCCAGCGCGCATCGCCGTTCCTTTCATTGGCCTCGGAGTCAGTAGCTGGATCAAGCCGCCAGCGGATAGCTGGATACTTACGCGATGCGATCTGAAATCTGCACAAGCTGGGCAGGTGAGTGGTAAGGATCTTCTGAAATGGCATAAGAACGGCGTTCGCATCTTCAATTTGCAGGCGTTGCATGCCAAGGTATTTGCCTTTGAACGTGCGGTCTTCATCGGCTCAAGCAACGCATCAGTGACTAGTCGAGACCGTTTGATCGAAGCGGGAGTTTGGTCTACCGAAAGAGTCCTGGCGAAAGATGCTTGGGATTTTGTCGAAAGCCACTGTAACGAGGAGGTCGATGAGAAGTTCCTTGAGAAGCTTGCCGAGGCTTATCGTCCCCCAACCCAGTTTCCGTTGCACAGTGAGAACGAAGCAGCTAAGGGCGGCAGGGCTCTTGCCAAGAGAGCGTCGAGATTACAAGACGAAGCTCCTCTACACCTGATACGCCTTTATCACGTCAACTGGAATGAAGCCCAGCAAGCGGCGGTCGGTCGCGCTGAAGCTAACGGGCGCAAGCGGCTTGAGGGGAGCTTCAAAGGTGAGTTGAACTCATTCACCTGGCCGGGAGCGCCTGGACGATTTGCGGTAGGTGATTTGGTTCTCCCGCGCATGACTTATAGGGGGAAAGGGGGCGATATGGTCCAGCCGTGGGCGAGAGTCGTTGGTATGCACAAGGTCCGAGGTAAAGATGAGCACGCCGTGACCACGGTGACCATGCCCTCATGGAAATCGATGAAACTATCTGAGTTCATCGGGGCAACCGGTGGCATGTTAGATGCCTTCGTTAAGAAGGGCGGTCGTTCGCGCTTAGCCACTCCGGAGGAAAGAGCGATGGTGCTTACGATCTGGTCGCATCGGCGTGCAAAGTTGACTGTCGGAAAAAACAAGACATCGCGCGCGTAA	MHEFVTNEAIWQRIKSALDDEKPARIAVPFIGLGVSSWIKPPADSWILTRCDLKSAQAGQVSGKDLLKWHKNGVRIFNLQALHAKVFAFERAVFIGSSNASVTSRDRLIEAGVWSTERVLAKDAWDFVESHCNEEVDEKFLEKLAEAYRPPTQFPLHSENEAAKGGRALAKRASRLQDEAPLHLIRLYHVNWNEAQQAAVGRAEANGRKRLEGSFKGELNSFTWPGAPGRFAVGDLVLPRMTYRGKGGDMVQPWARVVGMHKVRGKDEHAVTTVTMPSWKSMKLSEFIGATGGMLDAFVKKGGRSRLATPEERAMVLTIWSHRRAKLTVGKNKTSRA				NA	NA	NA	NA	NA
BMS020_07113	3129			hypothetical protein	ATGGGTGAGAATGTCAGCAAGCCGGAGCGTGCCACCCAGGACCGGGTGATTGCGCTTTTTACCGAGCAGTTGGGCTATCGCTATCTGGGTGACTGGTCCGAGCGGCGCGACAACGCTTGCATCGACGAGGGTCTGCTGACCGCGTTCCTGCAGCGCAGTGGGTACGGCCCGGCGCATATCAGCGGCGCGTTGAAGACGCTGCGCAGCGAGGCGTCCGTCCACGGGCGCACGCTCTACGCCGCCAACCAGGCGGTGTACCAGCGGTTGCGCTACGGCATTCCGGTCAAGGTGGCGGCCGGCGAGTTGAACGAGACCGTGCATCTGGTCGACTGGGCCAACCCGGCCAACAACGACTTCGCCGTTGCCGAGGAAGTGACCCTGCGCGGTGTGCACGAGCGCCGCCCGGATATCGTGCTCTACCTCAATGGCTTGGCGGTGGGCGTGCTGGAGCTGAAGAGCAGCCGCGTGGGACTGGGCGAAGGCATCCGGCAATGCCTGTCCAACCAGCAGCCCGAGTTTCATCAGGACTTCTTCAGTGCGATGCAGCTGGTGATGGCCGGCAACGATTCCGAAGGCCTGCGCTACGGCACGATCGAAACGCAGGAAAAGTACTTCCTCAGCTGGAAGGAAGACGAGGCCGACAACAGCGGCTACAAGCTGGACAAGTACCTGGCCAAGCTGTGCAGCAAGCCGCGGCTGATCGAGCTGATCCACGACTTTGTGCTGTTTGACGGTGGCATCAAGAAGCTGCCGCGCGTACATCAGTATTTCGGCATCAAGGCCGCACAGACCCATGTGCAGCAGCGCCGCGGCGGCATCATCTGGCACACCCAGGGCGCAGGCAAGAGCATCCTGATGGTGCTGCTGGCGCGCTGGATTCTGGAGAACAAGCCCGCAGCACGCGTGGCGATCATCACCGATCGCGACGAGCTGGACAGGCAGATCGAGCGGGTGTTCAAGGAGGCGGGCGAGACCATCCACCGCAGCCAGAGCGGCCGCGATCTGATGGCCCAGCTGGCTCAGCCCAACCCGCGCCTGCTGTGCGCACTGGTGCACAAGTTTGGGCGGGTGGGTGCCACCGCCGACAAGGACGACTTCGAGGCCTTCCTGCGCGACCTGGCGGCAAAGCCTTGCCAGACCCAGGGCGAGATCTACGTCTTTGTCGACGAATGCCACCGCACCCAGGGCGGCAAGCTGCACAAGCTGATGAAGGCAATGATGCCCAACGCGGTGTTCATCGGCTTCACCGGCACTCCGCTACTCAAGAGCGATGCGCAGACCAGCCTGGAGGTGTTTGGCGGCTACATCCACACCTACAAGTTTGCCGAGGCGGTGGAAGACGGTGTGGTGCTGGACCTGGTCTACGAAGCACGCGATGTGGATCAGAAGCTGGTGGGCACGGAACCCGTCGACCGCTGGTTCGAGGCAAAGACGCGCGCGCTCAACGACTGGCAGCGCGGCGAGTTAAAGGCGCATTGGGGCACGATGCAGAAGGTGCTCAGCTCAAAGGCGCGCATGGGCCGGATCGTGGCGGATATCATGCTGGACTTCGCCGCCAGGCCACGGCTGAGCGATGGGCGGGGTAATGCCATTTTGGTGGCCTCCAGCATCTACGAAGCCTGCAAGTACTTCGAGCTTTTCAATGCCCGGGACACCGGTTTCGCCGGCCGCTGCGCGGTGGTCACCTCATACAACCCGCAGGCCAGGGATATCAGCAAGGAAGAGACCGGAGCCAACACGGAGAGTGACAAGCAGTACATCTATGCCACCTACACCGACCTGCTGAAGGATGTGGTCGCCGAGCCGGGCAAGACCAAGACCGAGACCTACGAGCAGCAGGTGAAAGACCGATTCATCAAGGCGCCAGCCAAGATGAAGCTGCTGATCGTGGTGGACAAGCTGCTGACGGGCTTCGACGCGCCGCCGTGCAGTTATCTCTACATCGACAAGTCGATGCAGGACCATGGCTTGTTCCAGGCGATCTGTCGCACCAACCGGCTGGACGGCGACGACAAGGACTTCGGCCACGTCGTTGACTACAAGGACCTCTTCAAGAAGGTGGAGAAGGCCATTGCGGTCTATACGTCGGAGTTGGACCACAATGTGGTCACCGGCGACCCAGAGATCCTGATCAAGGATCGTCTGCAGGCCGGCCGTGAGCGTCTTGATGACACGGTGGAGGCGCTTGCACTGCTGTGCGAGCCGGTCGAGCCACCCAAGGGTGACCTGGAACACATCCACTACTTCTGTGGCAACACCGAGATTCCCGAGGATCTGAAAACACGCGAGCCACGGCGAGTTGCGCTCTACAAGGCCGTGGTAGCGCTGCTGCGAGCCTTCGGTGGCATCGCAGACGAACTGGATGCCGCGGGGTATACGCCTGAGCAGACCGACAACCTCAGGCAGCTCCAGAAGCACTATGTGAACCTGCGCGAGATCATCCGCATGGCATCAGGCGAAACCCTGGATTTGAAGCCCTATGAGGCGGACATGCGCCACCTCATCGATACGTACATCGAGGCCCAGGTGCCGCGCAAGATTTCCCCGTTTGACGACGTCGGCCTGCTTGACCTCATCGTCAAATCTGGCATCGCCGATGCCATTGCTCAGCAGCTGGGCAGCATGCAGGGCAACAGGGAGTCCATCGCAGAGACGATCGAGAACAACGTTCGCAGCAAGATCCTGCAGGAGCAACAGGCGGACCCGGCATTCTTCGCGAAGATGTCGGCACTGCTGGACGAGATCATTCGTTTGCGCAAGGCGCGGGCAGTCGAGTACGAAGAGTACCTGGCCCGGATCGCGGAGGTTGTCAGGAAGGTCAATAGCGGCAAAGCCGACGACACGCCGAACGCGCTGAAAACTCCGGGGCAGTTGGCGCTGTACAACAACCTCAAGGGTCGCTTGGTCACCAAGGCCGTTCGGGATTCGGATGCTTCCGATATCGGTGAAGTCAAAGCTTTGGACATCGCACTTTTGCTTGATGCTGAAATCAAGGCACGCCGCCCCAATGGTTGGCGTGGTGTGCTGGCCAAGGAGCAGATGGTCAAGCAAGTGATGTATGAAGTATTGAAAGACATCCCGGAAGTGGATCGCCTGTTCCCGATCGTCACCGCCCAACAGGAATATTGA	MGENVSKPERATQDRVIALFTEQLGYRYLGDWSERRDNACIDEGLLTAFLQRSGYGPAHISGALKTLRSEASVHGRTLYAANQAVYQRLRYGIPVKVAAGELNETVHLVDWANPANNDFAVAEEVTLRGVHERRPDIVLYLNGLAVGVLELKSSRVGLGEGIRQCLSNQQPEFHQDFFSAMQLVMAGNDSEGLRYGTIETQEKYFLSWKEDEADNSGYKLDKYLAKLCSKPRLIELIHDFVLFDGGIKKLPRVHQYFGIKAAQTHVQQRRGGIIWHTQGAGKSILMVLLARWILENKPAARVAIITDRDELDRQIERVFKEAGETIHRSQSGRDLMAQLAQPNPRLLCALVHKFGRVGATADKDDFEAFLRDLAAKPCQTQGEIYVFVDECHRTQGGKLHKLMKAMMPNAVFIGFTGTPLLKSDAQTSLEVFGGYIHTYKFAEAVEDGVVLDLVYEARDVDQKLVGTEPVDRWFEAKTRALNDWQRGELKAHWGTMQKVLSSKARMGRIVADIMLDFAARPRLSDGRGNAILVASSIYEACKYFELFNARDTGFAGRCAVVTSYNPQARDISKEETGANTESDKQYIYATYTDLLKDVVAEPGKTKTETYEQQVKDRFIKAPAKMKLLIVVDKLLTGFDAPPCSYLYIDKSMQDHGLFQAICRTNRLDGDDKDFGHVVDYKDLFKKVEKAIAVYTSELDHNVVTGDPEILIKDRLQAGRERLDDTVEALALLCEPVEPPKGDLEHIHYFCGNTEIPEDLKTREPRRVALYKAVVALLRAFGGIADELDAAGYTPEQTDNLRQLQKHYVNLREIIRMASGETLDLKPYEADMRHLIDTYIEAQVPRKISPFDDVGLLDLIVKSGIADAIAQQLGSMQGNRESIAETIENNVRSKILQEQQADPAFFAKMSALLDEIIRLRKARAVEYEEYLARIAEVVRKVNSGKADDTPNALKTPGQLALYNNLKGRLVTKAVRDSDASDIGEVKALDIALLLDAEIKARRPNGWRGVLAKEQMVKQVMYEVLKDIPEVDRLFPIVTAQQEY	PGPT0027170_2224	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027170-hsdR-K01153	NA	NA
BMS020_07114	717			hypothetical protein	ATGCAGGACGTTTTGGAACTCGGGGACTTGCGGGCCGAGGTGACTCGCAAGCGCATCAAGCATCTGCATCTGAGCGTGCTGCCGCCGGTGGGCAAGGTACGCGTGGCGGCGCCGCAGGGAATGTCGCTGGAAACCATCCGGCTGTTCGTTGTCTCCAAGCTCAGCTGGATACGGGCGCAACAGCGCAAGTTGCAGTCGCAGGAGCGGGAGGCGCCCCGGGAGTACTTAAGCAAGGAAAGCCACTATTTGTGGGGCAAACGCTACCTGCTTGAGATCGGCTACGCGAATGCAGCGCCCTCAGTGCGACTGACGCCACGAAAGCTGCTGCTGCAGGTGCGTCCAGGCGCAGATCAAACTCGATGCGAACAGGTCATGGATGCGTGGTACAGGCAGCAGCTGCGCGAGGTGGTGCCTGCCTTGTTGAACAAGTGGGAGCTCGTGCTCAAGGTCAAGGCAAGCAAGATCTTCATCCAACGAATGAAGACCAAATGGGGAAGCTGCACGCCAATCTCAGGCTACATTCGTCTCAACACCGACCTGGCCAAGAAGCCTGCCGAATGTCTTGAGTACATCGTCGTACATGAGCTGGTTCACCTGCTTGAGCCCACGCACAACGAGCGATTCCACGCGCTGATGGATCTGTATCTGCCGAACTGGCAGCACCTGAGAAGACAGTTGAATCGGCTGCCAGTGAGGCACGAGGACTGGAACTACTGA	MQDVLELGDLRAEVTRKRIKHLHLSVLPPVGKVRVAAPQGMSLETIRLFVVSKLSWIRAQQRKLQSQEREAPREYLSKESHYLWGKRYLLEIGYANAAPSVRLTPRKLLLQVRPGADQTRCEQVMDAWYRQQLREVVPALLNKWELVLKVKASKIFIQRMKTKWGSCTPISGYIRLNTDLAKKPAECLEYIVVHELVHLLEPTHNERFHALMDLYLPNWQHLRRQLNRLPVRHEDWNY	PGPT0027180_1205	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027180-hsdM-K03427	NA	NA
BMS020_07115	1350			hypothetical protein	ATGAAGATCTTGGCCATCCCCGATCCTTACGCGCTGGGCACAGACGAGGCCGAATCCCTCCCATCGTTGATTGGACGCACGGCGCATTCCTATCGCGTCAAGACCTCACACGTCGTTCGCCTGGCGCTTATGACCGAAGGAATGAGCGGCGATATCGCCACCTACAATCGTATTGATTGTTGGCTTGGCCATACAAAAACCGCGCGACGACTCATTGATGGCCTTGAGCTTCTATCGGGCAGACGCGATGTAGCACTCACTTCATTGTGCAATCTCGGCCCCTTGGTGGGGCACGGCCGATCGCTGGTCTCAGACTCGGTCAGAGTCTGCCCGGCGTGCGTTCATCCGGAAACAGGGATCGGCTATGGAATGCTCAGCCACCAGATGCATAGCGTCTCTGTTTGCCACGTTCACGATGTCACCTTGCGTGAGGCGTGCGAAGCATGTGGTCGCCGTTTTCCAACGCACCAGGACCTTCTCCCCGGCGCGAATTGCGGATTCTGCAACAGCCCCTTATGGCTGCAGACGTGCGAGCCCCGAACACTTAGCAACTACCAAAAGTGGTCAGTGCGGCAGTGCTGCCATCTCATTGCCCATGCTTCGGGGCCGGAAGCCACCCAGGCCACGGACTCTTGGCGAACCGACTATCGAGTCTCTTTAGCCCGCATGTACTCCGCAAGAGCAGACACCTACACAGCAGAGGATCGTCAGTTCCTGAGGGATAGAATGAGGGCAGCGTCGCGCCATCACTCACTACTTCCTTCATTCAGTACACTGCTCCGCATGGCGGCGATGCAGTCTGTAGATATTGTCGAGTTCATAAAGTCTCCACGTGAATCAAGCTCTCCGAGGCTGTGCAAGCTCGACAACCCCGAGGACCCAACCACGCCGCGAGACATGATCGACAGCGCAATCTGGTCAGAAGCTAGGCGTCGCCTCGAAATCCTATTGGAGACCGGCTGTCACCTGCCACTCCCATCAAAGCGAAGCGCCATAGGTGATCTAGGGGTTACAGTGTCCGGATTTTGGCAGCACTTCCCTGATCTCGCCGTCCGTTACGAGAACGAACGAGCTAGGCGAGCCGCGGACATCCGAAGCCAGCAGTTCCGTGTGGCCTGCGCGGAAGCCAATCGAATTTTTGAGGATGGCCTAAACTCACTTACCGACATTAAAATCAAGGAAGCGTCGGCCGCTATCACTCAACAGCATAACGTCCCGAAGCGTATTGCTGAATGTGCGGTTGCCGTATTCCTGGCGACAACAGCTTCCAATCGATACGTTCTTCCAGAAGGCTTCCGGGGGCTGAGTAGGACATTGGGCGCGAATGGGCCCGAGATTCCTGGCTTATGA	MKILAIPDPYALGTDEAESLPSLIGRTAHSYRVKTSHVVRLALMTEGMSGDIATYNRIDCWLGHTKTARRLIDGLELLSGRRDVALTSLCNLGPLVGHGRSLVSDSVRVCPACVHPETGIGYGMLSHQMHSVSVCHVHDVTLREACEACGRRFPTHQDLLPGANCGFCNSPLWLQTCEPRTLSNYQKWSVRQCCHLIAHASGPEATQATDSWRTDYRVSLARMYSARADTYTAEDRQFLRDRMRAASRHHSLLPSFSTLLRMAAMQSVDIVEFIKSPRESSSPRLCKLDNPEDPTTPRDMIDSAIWSEARRRLEILLETGCHLPLPSKRSAIGDLGVTVSGFWQHFPDLAVRYENERARRAADIRSQQFRVACAEANRIFEDGLNSLTDIKIKEASAAITQQHNVPKRIAECAVAVFLATTASNRYVLPEGFRGLSRTLGANGPEIPGL				NA	NA	NA	NA	NA
BMS020_07116	1044			hypothetical protein	ATGAAGTTCCCCAGCAGCTCACAGGAGCTCGTTCTACATGGCAACTTCAACGGAACGCTATTACGGTGCGCAAGGTTTGTTGATGCCGCAGAGCCCGGCGACATTGCCCTCGTGATAGGACCAAGCGGCGCCGGAAAGTCGCGAATCGCGGAGGCCATAGGCCCTTACATCTTTGGAGACGAGCGGCACTGGCCGGATGGCAGCGTCCCCTTCATCCGCGTGGTCGCGGACAATCCGGACAGAGGATTCTTTTCACCCAAAGAGCTTACTAGGAACATGCTCACCGCGTTGCACGATCCATTCCGTGCGCAGCCGTGGGAGGTGGCCACCTGGGACATTGACCCTGAACTCAAGAAGAAATTGACAAGGTCGGCGCAGGCAATACCTAGGCGTCAGACAAGCGAGGCGGAGATGCGAGGCGTTATCGCATCGATCGCACCCAGTTATGCCCTTCGTCTCATCATCATCGATGAGGGCAACATGATGGTTCTTACAACCCGAAGCCGCGTACCGACCGACTACCTCGAAGGCATTCGGGTAATGGCCAAGAAGGCCGGCTGCTGCGTTCTGATCTTCGGAACAATAGATCTGCTCCAGCTGCGCGGCTTCAGTGCTCAACTGAATCGCGCTGTCATCTGCATCCATCTGGAGCGCATGCGCTGCGAGGACGAGAAGGGAGCATCCGAATTTTTCACGTACCTTGCCAATGCGGAAGCACAATGGTCGCTTCAGCCAGGCACTCTTACTGAGCACATTGAGAAGATCTTCGAATGGACTTACGGCGTATCGGGTGAAGTCGAAGCCCTGCTCAAGCGGGCCTCGGTCCGAGCGGCTGGAAACTGCGATGAAATCTCATGGCGAATCATCTCCTCTTGCCGACCATCGGATGTTGAGATCGAACAAATTAAATCCGAGGCGGACATCATCTTCGGCGTTCTGAATAACCAGAGCATTCCGGCTCAGCGAGGCAAATTGGTACGCCGCGAGCACTCTAGAAGAATGAAGCCACGGCGACTGCCAAACGGATCCAGCTCAGGCACATGA	MKFPSSSQELVLHGNFNGTLLRCARFVDAAEPGDIALVIGPSGAGKSRIAEAIGPYIFGDERHWPDGSVPFIRVVADNPDRGFFSPKELTRNMLTALHDPFRAQPWEVATWDIDPELKKKLTRSAQAIPRRQTSEAEMRGVIASIAPSYALRLIIIDEGNMMVLTTRSRVPTDYLEGIRVMAKKAGCCVLIFGTIDLLQLRGFSAQLNRAVICIHLERMRCEDEKGASEFFTYLANAEAQWSLQPGTLTEHIEKIFEWTYGVSGEVEALLKRASVRAAGNCDEISWRIISSCRPSDVEIEQIKSEADIIFGVLNNQSIPAQRGKLVRREHSRRMKPRRLPNGSSSGT				NA	NA	NA	NA	NA
BMS020_07117	2382			hypothetical protein	ATGGTCCGCTCGCTCGCCCCGTATGAAGCCCTCACTCCCGAGGGCATCGCCTATGTGCACGACGCACTCTTGGAACCTCCCGCCCGTGCGGTGGGCCAGACGTCACTCATGAGTGTCTCCGGGGCGTACGCAAGTCGCTTCCCCTATTTGGTCGACTATGAGTCCTCTGGCGCAGAAAAGCCCTTCGTACTCCTCTCCATCATCGATCCCGATGTCATCGACGTCATCTCCCAGCCAAAGACTGTGCGCGTCGTCGCTCACGACGTGCGTGGCAGGCGTCGGATCAAACTCTATACGCCAGACTATTTGTGCCTGAGCAAAGCTGGCTTCTTTCTGGTTGAAGTCAAGCACCAGGCCGATCTTGAGAAGCTCCAAGCAAAATATCCCCACGACTGGCTATACGACGGTGATAGCTGGCGCCATCCGCCAGGAGAGGATGTCGCGCATCGCTTGGGAATGCAGTTCAAGGTGTTCTGTCCAGATAGGTACCCGAAGAACTATCTCGCCAACCTCCAGATCATCAGCCGCTTCGAGCAGACCGACCGAAGCGAGGTGTCAGATAGCCTGTGCACCAAGATCCGCGCACTCGTCTCTCATACGCCAAAGACCATCCATCAGCTTTGTTCGATGTTCAGCGGGCTCACCGCTAGGGACATCTACTGGCAGATGCAGCGGGGCGAGCTGTTCGGAATGCTGGAGCATGACCTCATTGGTCCTGACTTCGTGATCTATGGTCGCAGCGAACAGCTCACATCGATCAAGAGCTATCTCCAACGATCCAACAGTTCATCAGAACAGCAAGCAACTGGCCCTCTTCATGCGCGCCTGCTGAATGCATCCTCTGCGCAGCTAGCGGCTGCCCGCAAGAGTGAGGCGACTTACCAACTCAGAAGGCAACAGGGATTGCCAATGAACGCCACTGACTTCCGGAAACAGAAGCTAATGCGGGAGGCAGAGGCGGAACATGCCCCCCAACTTGCCGCTTTCGTCCCTCTTACCCATCTGAGAGGTCGCCGCACCAAGCTCATCACCGCCGAACTGCATGAAGAGATCAAGAAGCACGCAATTCGGTACCTAGCAGCAGGGAATCCACCGCGCCACGCGAAGATCTTCGCGGACTTCTGCGTGTACGCGAAGTTGAACAGCATCTATGTCCCGAGCCAGGAGACCCACAGAAGGAGCTACTTGGCCAGTATCGCGCCCGAACGTGCGGCGTACATTTCAGGCGGCATTCGCTCCTTTCATGCCTCCCGCCCCGTCACCGACGGGGCACGCGTCGTCCCTCGTGTGGAGGTTGCGGGACTTCGCGTTCACTGCGACGGCGTGTATAGCGATTCCATCGCTGAACGCGACAGTGAGGCGGAGTACGCCAGGCCGATCTTCTATCCATTCATCGACGACGTAACCGGTCACGTTCTTTCGCTCGGCGTCAAGATCGGAAGACCGAGCCGCCTGGCCGTTGCGATGGCACACCGCGATTGCTACACGAAGAATGGCTTCCTTCCGACGCAGATCTACGCCGACTGGGGCTCAGAATTCCACAACAAGTTTGTCCCTGACATGCAGGCGCGCTTTGGCATTGGCTACGAACGGCGCCCCGTCGGCGCTCCACGACACGGCGGCAACGGCGAAATGTTCAACGCTCAGCTGAGCCGCTATTTGGAGACGCTCGCTGGCGGCATGTATTTCGACAAAGCGGGGCGTCGCGCTGACGGAAACAAAAAGGCGCGAGCTACAGCCACCCTCAGTGTCCGAGAGATCATCGAGCGCGTCCAGCGTTGGATAGAAGACGTCTGGGAGGTCACGCCAATCGGTCGACAGTCGCAGTCGCCGAGCGAGCGGTGGGAAGCGTCACTCAAGTGCTTCCCCGACGCGGTCGTTCCCGTGAGCGATGACCTGCTTGCGCGCTACTACACGTCACTCCCCCTTTCTCCTGGCAAGTTCACCTACAAGACGGGCTTCCGCTTCGCCGGAAATAAGTACTCCTCCGAAGCCCTCTGCCAAGCCCTTAGAGAATGCGACACCCCGACAGATCCGCGGCTGGATTGCATGGATCCAAGCATCATTTACGCCATGACGCGCCGCGGAGTGATTGAGCTCCGCTCTAGCAACTACGCCAAAACCTATGGAATGAGCTTCGAGAGAAGGATGCAGGAGATGAACTCCCTACTTTCCTCACGGGCGAAAGCGACGCGAAACCAGCGTGACAGGAACATGCGCGAAGCGCTACTTGCGGCCGCACCCGAGCCAACCCCTGCACCACCTCCGGAGGCAGGTCGCAATCCAACGAATACTGCGCCAAGTCAGCCGAGATCGGTCTTCAGCAATGTGTCCGCAATTGATCTACCGACCCTCAAACTAACAGGGAGTAGCGACAGATGA	MVRSLAPYEALTPEGIAYVHDALLEPPARAVGQTSLMSVSGAYASRFPYLVDYESSGAEKPFVLLSIIDPDVIDVISQPKTVRVVAHDVRGRRRIKLYTPDYLCLSKAGFFLVEVKHQADLEKLQAKYPHDWLYDGDSWRHPPGEDVAHRLGMQFKVFCPDRYPKNYLANLQIISRFEQTDRSEVSDSLCTKIRALVSHTPKTIHQLCSMFSGLTARDIYWQMQRGELFGMLEHDLIGPDFVIYGRSEQLTSIKSYLQRSNSSSEQQATGPLHARLLNASSAQLAAARKSEATYQLRRQQGLPMNATDFRKQKLMREAEAEHAPQLAAFVPLTHLRGRRTKLITAELHEEIKKHAIRYLAAGNPPRHAKIFADFCVYAKLNSIYVPSQETHRRSYLASIAPERAAYISGGIRSFHASRPVTDGARVVPRVEVAGLRVHCDGVYSDSIAERDSEAEYARPIFYPFIDDVTGHVLSLGVKIGRPSRLAVAMAHRDCYTKNGFLPTQIYADWGSEFHNKFVPDMQARFGIGYERRPVGAPRHGGNGEMFNAQLSRYLETLAGGMYFDKAGRRADGNKKARATATLSVREIIERVQRWIEDVWEVTPIGRQSQSPSERWEASLKCFPDAVVPVSDDLLARYYTSLPLSPGKFTYKTGFRFAGNKYSSEALCQALRECDTPTDPRLDCMDPSIIYAMTRRGVIELRSSNYAKTYGMSFERRMQEMNSLLSSRAKATRNQRDRNMREALLAAAPEPTPAPPPEAGRNPTNTAPSQPRSVFSNVSAIDLPTLKLTGSSDR				NA	NA	NA	NA	NA
BMS020_07118	936			hypothetical protein	ATGGACGCCCTGCAGCACCGGATCATCCTGGTGACGCGGCGTACCCGGCTCGAGGATCTGGTCGCTCGACTGAACACCGTCGAGCAGGCCAGATTCTACGTCGAGCATTTAGGCGCTGACTTCACCGACTACGAGACCGAGCACGCCGTCTATCACCGGGCTGTCGAGGAGGCCGAAGGGACGCTGCGTCGATATGGCCGGGTCCAGAAGCTTGATCGCAGCCTCGTACCGAACTTCCTGTTCCCGCCGGATTGCCTAGCGGTGGTCGTCGGCCAAGACGGGCTGGTCGCCAATACGCTCAAGTACCTCAATGGCCAGCCTGTGATCGGCGTCAATCCAGACCCGAAGCGTTGGGACGGCGTGCTGCTGCCATTCAAGGTCCACGATCTGAAGACCGTGGTTCCCGAAGCCCAAGCTGGCGCGCGTTCAACCAGGTCGGTCACCATGGCCCGCGTACGGCTGAGCGATGGGCAAGAACTGCACGCGGTGAATGACCTGTTCATCGGACCGAGGTCGCACGTGTCAGCGCGCTACACGATTGAAATGGGCGACCGACGAGAAGCTCATTCGTCGAGCGGGATCATCGTCTCGACCGGCCTGGGCTCGACCGGCTGGTTTCGCAGCCTGCTGACTGGTGCCCTGGCCATGGCGGGGCCGGCGAGCAGCGAGGAGCTCAGAGCACTGCAGCATGCCGGCTTCCCGTGGGAGTCAGAGCATCTGTATTTCACCGTGCGCGAACCATTCCCGAGTCGGAGCTCGCAAGCGGAGCTAGTGTTCGGACGCATCGAGCACGCGGACAGCCTGCGCATCACGTCGGCGATGCCGGACTATGGTGTGATCTTCAGTGATGGAATCGAAAGCGACTTCTTGGAATTCAATTCAGGGGTGCGGGCGGACATTGACGCAAGTCCCCGGATCGGAATGCTGGTTCAGTAA	MDALQHRIILVTRRTRLEDLVARLNTVEQARFYVEHLGADFTDYETEHAVYHRAVEEAEGTLRRYGRVQKLDRSLVPNFLFPPDCLAVVVGQDGLVANTLKYLNGQPVIGVNPDPKRWDGVLLPFKVHDLKTVVPEAQAGARSTRSVTMARVRLSDGQELHAVNDLFIGPRSHVSARYTIEMGDRREAHSSSGIIVSTGLGSTGWFRSLLTGALAMAGPASSEELRALQHAGFPWESEHLYFTVREPFPSRSSQAELVFGRIEHADSLRITSAMPDYGVIFSDGIESDFLEFNSGVRADIDASPRIGMLVQ				NA	NA	NA	NA	NA
BMS020_07119	1032			hypothetical protein	ATGTTTGGTATCCGCTACGCCAAGGTTAGCCCCACCACCTACCTGATCCAGTATCGCAGTGGCCAACCCGTCCGCGAAGGCACAGGTTTGGCCTTCTTCTACTCCGCACCAAGCGCATCGCTCGTATCCATCCCCATGGAAAGCGTAGATGTGCCTTTCATGTTCCGCGAGGTCAGCGCGGACTTTCAGGAAGTCACGGTCCAAGGCCAGGTCACATATCGGGTGGCCGATCCGAAGTTGCTTGCCTCGCTGATGAACTTCACGCTCAAGCCAAACGGCAACGAATACGTCTCAGAGGACCCGGGCAAGTTGCCACAGCGCGTGGTCAATGCTGTCCAAGTCCAGCTCCGCGCCGCGCTCCAGGGCCAGAACCTGCAGGGGTTGCTGCGGGAGTCAGAGGGACTGGTCCAAGCAGTCCGCGACGGACTTCGCCAGCCAGATGGTTTGCCCAGTCTAGGCCTCGAGCTGGTGAGCCTGGCCGTATTGGCCATCAAGCCCACGCCCGACACGGCACGAGCCTTGGAGGCCACCGTCCGCGAGCAGATTCTCAAGGACGCAGACGACGCCCTCTATGTCCGGCGCAACGCAGCGATCGAGCAGGAGCGCGCGGTCAAGGAGAACGAGCTCAACACCGAGATCGCGGTCGAGGCGAAGAAGCGGCAGATTCGCGAGACCCAGATGGAGGCCGAGCGCGCTCTGCTGGACAAGCGTCAGCAGATCCAAGCCCAGGAGATGCAAGGCAAGATCTCGCAGGAGAGGGAGAATGAGACGCTGACGGCGCTACGAGCGGCCAACGCTCAACGAGAGGCCGACGCCAAGGCCTACGCGATGGGCGCCCTGATCAAGACGGTCAGCGGTGTTGACCCGAAGGTGCTTCAAGCACTGGCGTTGGGTAGCGCGGAGCCCGGCGCCATCATTGCGGCGGCGTTCCAAGAGCTGGCCCAGAACGCTGGCAAGATTGGCGAGCTCAACATCTCCCCTGATCTGCTGCAGCAGCTGACCCAGTCGACCGCCAACGCATCGAGGAAGTGA	MFGIRYAKVSPTTYLIQYRSGQPVREGTGLAFFYSAPSASLVSIPMESVDVPFMFREVSADFQEVTVQGQVTYRVADPKLLASLMNFTLKPNGNEYVSEDPGKLPQRVVNAVQVQLRAALQGQNLQGLLRESEGLVQAVRDGLRQPDGLPSLGLELVSLAVLAIKPTPDTARALEATVREQILKDADDALYVRRNAAIEQERAVKENELNTEIAVEAKKRQIRETQMEAERALLDKRQQIQAQEMQGKISQERENETLTALRAANAQREADAKAYAMGALIKTVSGVDPKVLQALALGSAEPGAIIAAAFQELAQNAGKIGELNISPDLLQQLTQSTANASRK				NA	NA	NA	NA	NA
BMS020_07120	1035			Bifunctional NMN adenylyltransferase/Nudix hydrolase	ATGAGTCTCGATACCCTTGTCCTGATCGGGCAGTTCGCGCCGTTCCACAACGGCCATCTCGGCTTGGTGCGCAGCGCACTTGACCGCGCCAAGCACGTCATTCTCGTCATTGGCTCCGCGGGCCGCGCTCGCAACATTCGGCATCCCTGGACTGCCGCCGAGCGGGAGCACATGGTGCGCTTGGCATTGCCTGGTGACGCCGACCGTATCTCGGTCGTCCTGCTTCGCGATCACCTTTACACCGAGAACGCATGGGTTGCCGCGGTGCAGGCAGGGGTGCGCGACACGCTCGGTGCGACGCCAAACCTTTCGCATCGGATCTGCCTGATTGGCGGACCTGACGGCAGCAACGTGGACTACCTGCGTGCTTTCCCTCAGTGGCCGCGCCAAGAAGTCCAACTGATCGACTGTCCTAGCGCTAAAGAGCTACGTGAAAGCTTTCTGGCTGATTCGACCGAAGGCATGGAAACCGTCAGCGCCCATGTCCCGCCAGCCGTCGCGGAGCTGCTGGCAATGTTCCGCGAGACATCCCCTGCGTACCCAGCACTGGTCGAGGAAAGCCGCTTCATCTCTCAATACCGGCAAGGCTGGGCTTCCGTTCCATATGCGCCTACGTTCGTCACCGTTGACGGGGTCGTCGTCCATTCCGGCCATGTCCTTCTTGTTGAGCGCGGGGCACACCCTGGCAAGGGGCAATGGGCCCTTCCGGGAGGCTTTCTGAGAGGGGATGAGCGACTACTGGATGCTGTCATCCGCGAACTTCGCGAAGAGACCCGGCTGAAGTTGCCTGGCCCCGTGCTGCGCGGTTCGCTGTGTGGCCAGCAAGTCTTCGATCACCCCGAGCGCTCACTGCGGGGCCGCACGATCACGCATGCGTTTCACTTCGACTTTCCGGCTGGCGAATTGCCGCCAGTGAAGGGAGGCGACGACGCGGCCAAGGCGCGATGGTTCCCGCTGTCGGACCTGCGCCCCATGGAGTCGCAAATGTATGAGGATCACCTCTTCATCATCGAGCGCTTTACGAACACGTTGTAG	MSLDTLVLIGQFAPFHNGHLGLVRSALDRAKHVILVIGSAGRARNIRHPWTAAEREHMVRLALPGDADRISVVLLRDHLYTENAWVAAVQAGVRDTLGATPNLSHRICLIGGPDGSNVDYLRAFPQWPRQEVQLIDCPSAKELRESFLADSTEGMETVSAHVPPAVAELLAMFRETSPAYPALVEESRFISQYRQGWASVPYAPTFVTVDGVVVHSGHVLLVERGAHPGKGQWALPGGFLRGDERLLDAVIRELREETRLKLPGPVLRGSLCGQQVFDHPERSLRGRTITHAFHFDFPAGELPPVKGGDDAAKARWFPLSDLRPMESQMYEDHLFIIERFTNTL	PGPT0013430_130	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013430-nadM2-K13522	NA	NA
BMS020_07121	2091			hypothetical protein	GTGGGGGAATTTACGAAGCGGGTCCGCAACGCTGATATCGCCGGCCCGCTGAGGCGGGCGTTCACGCCCGACAAGTGGCACCGAGCATTCAGTGACTTGCCAACACCCGATGCCGTAGATCACGACATGCATGCCGCCGGGCTGGCCGTACACGAAAAGCTCGAAGCGATCCGCGGGGTCCTGAAGCTTTCCTCGTCTGACGAGGTCTCCGCGACGACCAAACTGCGGGCGTTCCTGGCGATCGCAAACTACGACTTTTTCGTTACGCGCGATAAAACAAAGATTGCGATTGAGAAATTCCAGGCGGGGAGAGAGGGTGGATCGGACGAGATCTACGCCATGGAGGAAATGGCGGGGGTGAAACTCAGCTTGCCTGGCGGGTTCAACTGGATGCCAAACGAGGTCGTGGAAAGCCTTGTGGATGGCATCGAACTGCCGATTCGGGTCGTTCTGCATGCCAACCCTACTCTAGCGGGCAATCCCCGAATGAATAAGATCCAGTGGACCGAGGCTGTTCGCGAACTGAACCTGGGCATCCTGTATCGCTTCGCCGAGGACGTGTGGGATGACTGCCTTTGGAACAGTTACAGGATGGTCGACAAGGGGCGGATCAAGGTTTTCCTGCCGCAGGATGTCGATGTACTCCGCGCCTATCGGATAGGCTTGGCGCGTCGGACTTCGCTCTCGATGGGCTTTAACATGGTGGCGATGCAGTTCCAGCGCGATGCGCTCGCTAGAGGTGCGCGACTGAGAATCCGTGAGGTCTGCGGCATCGAGCGCCGTGGCAAGCGCCAAATCATCAAGGTCGCCAAGCATGGCATCTCGACGGAGGTCCTCGAGGAACTGAGCGTATTGCGCACTCATGCGGCCGAACCGTATTACGAAGAGTTGCTGGAGGAACGCCTTGAATCTCTCCATGGATTGACCCTGTCCGCGCTCATCGACGCCTGGACGGTCATCTCGTGCGCCGCGCACGTGCTGGTTCAGTCCATTAGCGAGAGGCATGCCCGTAACGTTGGGGACGACCATGTTCATGCATGGATGCCCGAATACGCGCCCACGCTGCAGGTCGAGGCACTTGTGGACGCGCTGGCGACTGCGGCCGGGATCAATAAGCCGGAAGGCAGGGGAATCGTGGAGTTCTTCACGTTCCGCGGCATGGCCGGACAGGAGATATGGGCGCAGCCACTCGTACCTGTTGGGCCGGAGACCGTGGCACCTATCTTCGCAGCGGTTGTATCCCCCAATCTGAGGCGGCTGGCCGATGTGTGGATGCGCCAGACCGGCGTGGACCTGGGGAGACGAGGGCCCGCGTTCGAAACCCACATCCGAAAGCTTGTCATAGATGCCATTCAGAGATCGAAGCTCTTGTCACCCGTGGCCGCGTGCATCAGGGACGACTATACGTTCAAGCCCACAGGCAACCGCGATGAGCAGATCGATCTGATCTTCTCCATCGGAAACACGGTGTTCGTGGCCGAAGCCAAGTGCATCCTCGAGCCCACTGATGCCAAAGGTATCGCTATGCACCGTAAGACCGTGCTAGGCGCTGCCGAGCAGGCATTGCGGAAGGTCAAGGCGCTTGAGGACAACCGAACTGCATTCATTTTGGATGCACATCGTCTTGGCATGGCATTAACTGAAGACTTCAAAGTCAAACCCTTGGTCATCGTGAGCACCAGTACCCACGTAGGTATTGCCGCGCTGACGGTGCCTGTCATCGACGAGTTCATTCTTGGCCGCTTTCTGGATGGCGAGCTGGAGGATATCGCCTATCAACCGGGCGATCCGGCTTCCTCGAAGCAATTCAAGACCCGCTTCTACTCCAGCGCTGCTGAGGCTGAAGAGCGCGCTCCGGGATACTTTGCGTCTCCGCCACAGATGAAACGATTTATTGACGGTGTGCGCGGACGTATCGTGCCTATTTATGCCGCAAACGAAAGTGATTGGACGGGGCACGTAGTGACAATGGAGTGCGTAGCGGGAGGCATCCCACTCTCACTTCAAGAGCAGGAAAGCTCGGCAATCATAGGCGATCCCGCCGCGTCCATCGCTCACGAAGACCAAACCGACTTACCAAGGCCGAGGTGA	MGEFTKRVRNADIAGPLRRAFTPDKWHRAFSDLPTPDAVDHDMHAAGLAVHEKLEAIRGVLKLSSSDEVSATTKLRAFLAIANYDFFVTRDKTKIAIEKFQAGREGGSDEIYAMEEMAGVKLSLPGGFNWMPNEVVESLVDGIELPIRVVLHANPTLAGNPRMNKIQWTEAVRELNLGILYRFAEDVWDDCLWNSYRMVDKGRIKVFLPQDVDVLRAYRIGLARRTSLSMGFNMVAMQFQRDALARGARLRIREVCGIERRGKRQIIKVAKHGISTEVLEELSVLRTHAAEPYYEELLEERLESLHGLTLSALIDAWTVISCAAHVLVQSISERHARNVGDDHVHAWMPEYAPTLQVEALVDALATAAGINKPEGRGIVEFFTFRGMAGQEIWAQPLVPVGPETVAPIFAAVVSPNLRRLADVWMRQTGVDLGRRGPAFETHIRKLVIDAIQRSKLLSPVAACIRDDYTFKPTGNRDEQIDLIFSIGNTVFVAEAKCILEPTDAKGIAMHRKTVLGAAEQALRKVKALEDNRTAFILDAHRLGMALTEDFKVKPLVIVSTSTHVGIAALTVPVIDEFILGRFLDGELEDIAYQPGDPASSKQFKTRFYSSAAEAEERAPGYFASPPQMKRFIDGVRGRIVPIYAANESDWTGHVVTMECVAGGIPLSLQEQESSAIIGDPAASIAHEDQTDLPRPR				NA	NA	NA	NA	NA
BMS020_07122	639			hypothetical protein	ATGGACGACCCCGCGCATAACCGACCCAAGCAAGGCGAGTTCTTCCTTTTGGAAGCCGGCAAGATCAATGGCCCGGCCAACGGTGTCGTTTTTGCAAATCTCGACCGGCTGCTATCCCCGCCACGACTGATTCTTCGGCCGGAGGGTCGCGGCTTCCCGCCCCTCAAGGAGACCCCCCGCCTGGTTTACACCCCCAGCAAGGGCCCGCCGCCCTTGGACCTGGAGCCAGGGTTCAGCGGTTACTGGCTGGTGTCCGAGCGGCTCCAGCAAGTCATGGCTGCGGTGGATCCCAATGCGTTTGCCTTCGCCGAAGTGGACTACCACCTGCCCGACGACAGCCGAGGAGCGCGGCACTTCCTTTGCGACGTTGTGCAAGAAATCGATGCGCTGGATGAGACGTCTTCGAAGCTCTTCATCGACACGACTGAGCCCTTCGTCAACGGGAAATTCTACGATCTGACGGGCGGTGCCAGCGTCACCTTCGACCGTGCCAGGCTCGGTAAAGCTCACGTATTTAGAACGCCGTACACCAGTACGGTCTTCTGTGACCGAGTTTTCAAAGAGGCGGTGTCGGAGGCCGGGATTGAGACTGATACAGATGCAGATGGTCTCTGGTTGATCGACGCCTCGGACATCTAG	MDDPAHNRPKQGEFFLLEAGKINGPANGVVFANLDRLLSPPRLILRPEGRGFPPLKETPRLVYTPSKGPPPLDLEPGFSGYWLVSERLQQVMAAVDPNAFAFAEVDYHLPDDSRGARHFLCDVVQEIDALDETSSKLFIDTTEPFVNGKFYDLTGGASVTFDRARLGKAHVFRTPYTSTVFCDRVFKEAVSEAGIETDTDADGLWLIDASDI				NA	NA	NA	NA	NA
BMS020_07123	2577			hypothetical protein	ATGCCTCGCAACGGACCTGTTTTTCAAGACCATCACGCCATCGAGCAGCAGACGCTGCGGCGTAGTCAGCTGCTTAAGGCGCTTTCGGACGCTGGGCATTTCGACATCCATGCGCCCGAGAATCGAATCTTCTTGCCTGCAGATCCTGCGTTTGCACAAACCTTGGGCGTCACACCGCACAGCGGGGGCCCCATCGGCGATTATCAAGTCCAGTCACAATTACGATTGCGGCGTTTGGAGCAGACCCCCGATGGCGTGATGGCTCTGGCTGGTGATGCAGATGCACAGGAACGGATTGCGGTCCGAGTAGCCACCCTGCGCGACACCGTTCGTGTTGGCCTCATACGAGGGGACTTGTATACCAATGTGCCGCTAGGCTTGAAGGCCGACGACATTCGGCCCGGCGTCCAGAGCTTTTTTCGCAATGAGAGTGCTTACGGGCAGATCCACGCTACCGAAATTCAAGGGTTTAAGACCTATGCGCCTGTCGATCACGGCTGGGCCGCAGTAACGCACTCTGAGGGCAGGGTGGTCAGCACGCTCCAGCACATCGACACCGTCCCCAACGCATTGACCCGGGGCGGTAAAACCGAGCTGCAGCGCCATGGCTTGTCGCAAGCCATTTCCAACGCCTACCACGGCGGCAGGCTCACCCTGTCTCCTGGCGGCGTGGCCGTAGTGGAGAACACGCTCGGCGAAGAGGCCGCTCGGAACCTACGCGTCCCACGTGGCCAGCGCGGCGAAGTCTCGATGCAGTTGCTGATGGGCGAAGCGTCTGCACGGGGTCTGACCCGAGCCGGCGGCTTGCTGACCACCGGCGTGGATGCAGTTTCGACCGCGCGCACTGCGGCGGCGTTGATGGAAGCCGGCAACACGACAGCAGCGCAGTCGGAGATCGATCACGCCATCGCACGCAATGCCGGGGGATGGGCTGGCGGTGCCAGCACAGCGATGGCACTGGGCAGCAGCACTGGGTTTGTGCCGACCGCGTTGGCGGTCGGTGACGCGTTGCTGATGAGCAAGGCTTTCGACAAAGCCGTAGATCTGAAAGAGAACCGCGACATCTTCCACCAGACCGACAAGGCCAACGTGGAGTGGAAGTTCAACGGTCGCAATTGGGAGCGAGAGGCGACATTCGCGGGTTCAGCAGGCAACGCACCTGCCCAGGGAACGGTGACCGCCACCTACGAGAAGTCCCAGGAGCTCAACGCCATGGCCAATGCCAAGGCCGCCGAGCTCGCGTTGGGCAAAGCCCCGCCTCCGCAGGACCCCTTCGACCTCCCTGCCAAACCCGGTGACCAGATCGGCCTGGACAACACGAATTGGAAGCGCAACCCGGCGACGGAGTCCTGGGAGCGCCAGGTCAAGACCAGCGTCTCAGGAGCGAACGACCGGGGCACGTACGAACCCCAGACGGCCAGCCCTGAACAGGCGCAGCGCCTCAACCAAGAAGCACTCGGTCGCATCGAAAGCAACATCGCCAACGGACGCGAGGCGCTGGCCCAGGCGTACCTAGAGAACCATGCAGCCCAGCGGGGCCAGGCTTACGGGGTCGAGGTACCTAAAGCCGTGGAGCGAGCCAAAGCCAAACCAGATCAGGTGCAGGGCCACAACGGCCAGACCTATCAGCGGAGCGCTGAAGGCGACTGGATCGGCAAGGATGGCCCGGTCACGGGGAACCTGGCACTGGAGCTGGAGCTGACGAACCAGATGCGCCAACCCTCGCTAGAACGCTCCCAGGAAGCCCTGGCGGCGATCGAGGCTCGTCCGGCCCCCACCGCTGCGCAGCTGGAGCACAACGACGTTCTGCATCGCTACCGCGTCGCTGGCGTCAACATCGATGCGCAGGAGGGCAATCTTCAGGCCGTGGAGTTGGCGACCCGGCGCACCAGGGAAGCCGCCGGGCTCGTCGGTCCCGTGATGCAGCAGCTGAAGCGGGACGAGCACGGCAACTACGGCTACGACAGCCCGATTGCCCACCTCCAGGCTGGGCCTGATGGTGTTGTACGCCAGGTCGCCCTGACCACCAGCGAAGAGCTTCGGCAGGCCAAGGCGGAGCTGAGCCAGCCGCCGCCGGCGCATGTACCGACGTTGGGCACGGTCTCAGTGACGCCACCCGGGCGGAACAGGGACGAAGCTGACGCACAGGAGCCCGACAAGCCCGCCCAGAGCCCGGTGCTGGCTGACAACCCAGCCCACGCCGATCACCCTACGTATCAGCGGATCCACTCGTGGGTACGGGGAACAGGCAACTGGAACGAGGAAGAATGTCGGAACGTCACCGCTGCCCTCTACAAACAACAGATCGACGACCCGCTGATCGCGCGGGTCGATCAGGTCACCGGCGCCCTGGGAAAGGATGGAGCTCACAACGTATTTGCGGTTTACGCGCCGCATGGACTGGACAAGGGCCCGCAGTTCCACACTCACGTCGACGGCCGCCAGGCTGCCCAGGAGCCCGCCCAGCAGAACCTGCAGCGGGCCGAGGTGATTCACCAGGAGACGCAGACTCGCCAACAGGCGACGGAGCAGGACCAGCGGCAAACGCAGGAACAGGTAGCCCGTATGACGATGTAG	MPRNGPVFQDHHAIEQQTLRRSQLLKALSDAGHFDIHAPENRIFLPADPAFAQTLGVTPHSGGPIGDYQVQSQLRLRRLEQTPDGVMALAGDADAQERIAVRVATLRDTVRVGLIRGDLYTNVPLGLKADDIRPGVQSFFRNESAYGQIHATEIQGFKTYAPVDHGWAAVTHSEGRVVSTLQHIDTVPNALTRGGKTELQRHGLSQAISNAYHGGRLTLSPGGVAVVENTLGEEAARNLRVPRGQRGEVSMQLLMGEASARGLTRAGGLLTTGVDAVSTARTAAALMEAGNTTAAQSEIDHAIARNAGGWAGGASTAMALGSSTGFVPTALAVGDALLMSKAFDKAVDLKENRDIFHQTDKANVEWKFNGRNWEREATFAGSAGNAPAQGTVTATYEKSQELNAMANAKAAELALGKAPPPQDPFDLPAKPGDQIGLDNTNWKRNPATESWERQVKTSVSGANDRGTYEPQTASPEQAQRLNQEALGRIESNIANGREALAQAYLENHAAQRGQAYGVEVPKAVERAKAKPDQVQGHNGQTYQRSAEGDWIGKDGPVTGNLALELELTNQMRQPSLERSQEALAAIEARPAPTAAQLEHNDVLHRYRVAGVNIDAQEGNLQAVELATRRTREAAGLVGPVMQQLKRDEHGNYGYDSPIAHLQAGPDGVVRQVALTTSEELRQAKAELSQPPPAHVPTLGTVSVTPPGRNRDEADAQEPDKPAQSPVLADNPAHADHPTYQRIHSWVRGTGNWNEEECRNVTAALYKQQIDDPLIARVDQVTGALGKDGAHNVFAVYAPHGLDKGPQFHTHVDGRQAAQEPAQQNLQRAEVIHQETQTRQQATEQDQRQTQEQVARMTM				NA	NA	NA	NA	NA
BMS020_07124	465			hypothetical protein	ATGATCTATTCGACCGCGACCGTGCCGGTGAACCCGGCTGGCGAAACGCCACTGACCCGCGCAGAAGTCTGGCAGGGCTTGGTCCTCAAGGCACGCGATGCGCGACTGTTCCTCCCCGAAGGCCTGTGCACGCATTGCGAGGTCATCGAGGAAAGCACCACGCACTTCGTACGCGAAGCCACCATCAGCGGCATCGACCTGCGCGAGATCATCGTGCTGGAAACGGAGCGCAAGGTGACCTTCTTCCAGGCCACCGGCCCGCGCGAAGGTGCCATCGTCAACGAACTGTTCGAAGACGAAACTGGCGACCTCCAGCTGCGCTTCTACTGCTACCTCGGCCTGCGCGGAAAGGAACCGGGTGGCGCGGAGGAACAGGCCGAGCAGGCTCAGTTCGACAGTGAGCGGGGTTACAAGGCGGCGCTGCTGTCCACGTTGAAGCAGACACGGAAACTACTGGCCCGCTGA	MIYSTATVPVNPAGETPLTRAEVWQGLVLKARDARLFLPEGLCTHCEVIEESTTHFVREATISGIDLREIIVLETERKVTFFQATGPREGAIVNELFEDETGDLQLRFYCYLGLRGKEPGGAEEQAEQAQFDSERGYKAALLSTLKQTRKLLAR				NA	NA	NA	NA	NA
BMS020_07125	870	azoB		NAD(P)H azoreductase	ATGACCATTCTCGTCACCGGCGCAACCGGCACCGTAGGCCGCCAGGTCGTCGCACACCTCGCCAGGCACGGCGCCGATGTCCGCGCCCTCGTCCGCGATCCCGCCAAGGCCAACTTCCCCGCTGGCGTCAGCGTCGTCCAGGGCGACCTGCTCGATGTCGATGCGCTGCGCAGCGCCTTCTCCGGCGTCTCCACCCTGTTCCTGCTCAACGCCGTGGTGCCGGACGAATACACCCAGGCGCTGATCGCGCTCAACCTGGCCCGCGAGGCCGGCATCGAACGCATCGTCTATCTGTCGGTGATCCACAGCGACCGCTACGTGAACGTGCCGCACTTTGCGGGCAAATACGGCGTGGAACGCATGATCGAGCAGATGGGTCTGCATGCCACCATCCTGCGGCCAGCCTATTTCATCGACAACGATCACGCCATTACCGACGTGGTACGCAGCTACGGCGTCTATCCGATGCCGGTCGGCAGCAAGGGTTTGGCGATGGTCGATACCCGTGATATCGCCGAAATCGCCGCACTGGAACTGCTGCGCCGCGAGCGCTCGGCCACGCCGCTGCCGATCGACCGGATCAACCTGGTCGGCCCGGACACGCTGACCGGCGCGGACATCGCTGCGATCTGGACCGACGTGCTCGGCCGGCAGATTGCCTATCCGGGCGAAGACACCGCCGGATTCGAGCAGAACATGCGCCAGCACATGCCGAGCTGGATGGCCTTCGACATGCGCCTGATGGCCGAACGCTTCGCCACCGACGGAATGGTCCCCGAGGCCGGCGACGTGGAGCGGCTGAAAACGCTGCTCGGCCGCCCGCTGCACACCTACCGCGCATTCGCCGAGCAGGCCGCTGCGTCGCCCTAA	MTILVTGATGTVGRQVVAHLARHGADVRALVRDPAKANFPAGVSVVQGDLLDVDALRSAFSGVSTLFLLNAVVPDEYTQALIALNLAREAGIERIVYLSVIHSDRYVNVPHFAGKYGVERMIEQMGLHATILRPAYFIDNDHAITDVVRSYGVYPMPVGSKGLAMVDTRDIAEIAALELLRRERSATPLPIDRINLVGPDTLTGADIAAIWTDVLGRQIAYPGEDTAGFEQNMRQHMPSWMAFDMRLMAERFATDGMVPEAGDVERLKTLLGRPLHTYRAFAEQAAASP				NA	NA	NA	NA	NA
BMS020_07126	882	dmlR_29		HTH-type transcriptional regulator DmlR	ATGGACCTCAATGCACTGGAGGATTTCCACCTGGTCGCCGCTCACGGAGGCTTCGGCAAGGCCAGCCGTGCCAGCGGCCGCTCCAAGGCCACACTGTCCCGGCGCCTGGCAGATCTTGAAGAGTCGCTGGGCATCCGCCTCATCGAGCGCGGCAACCGCAGCCTGGAGCTGACAGAGGCTGGCCAGCTGCTGCTGGCGCGTACCGACGGACCAATGCGCGAGCTGACCGAGGCAGTGATGGCGGCGCGGGATGGCCAGTCCACGCCACGGGGCAGATTGCGCATCGCCGCGCCGTTGTTGTTCTCGCAAATCGCGCTGGGCCGGCTGGTGGCCGTGTTCCAGGCGCAGCACCCGGAGGTGCAGATTGAGGTCGTGGCCGAAGATCGCCTCGCGCAGCTGGTCGACGAGCACTTCGATGTCGCCATCCGCATCAACCCGGGCAAGGACAGCATGCTGGTGGGCCGCTGTTTCGCGAAGGATCGCTTGGTGCTGGCGGCAGCGCCCGCCATCCCGGTACCGAGCGGGGGCAATGAACCGGCATCACTTGCAGCGGTGGTCATGCCGACCTATCGGGATGGGCAGATCTGGTCGGTCCGCGGCGGCCAGCTCAGGATCGCCCCCCGCCCCGTGCTGCGCCTGTCCTCGCTGCTGACCGTCCGCGATGCCGTGGTCGCCGGTGCCGGCGTGGCGATGCTGCCGCACTCACTGGTGGGCGGCCTGGTCGAGGCTGGCGCGCTGACCACCTGGGGATTGGCCGATGACGAAGTGGAGCTCTGGGTGTTGCACACGTCCAGGCGCCTGCAGAGTCCGAAGGTCCGCGCGTTCGTGGACTTCATGTGCGAGCAGTATCCGGATGGCGTCTTCTCCCTTCCGGCGGGTTGA	MDLNALEDFHLVAAHGGFGKASRASGRSKATLSRRLADLEESLGIRLIERGNRSLELTEAGQLLLARTDGPMRELTEAVMAARDGQSTPRGRLRIAAPLLFSQIALGRLVAVFQAQHPEVQIEVVAEDRLAQLVDEHFDVAIRINPGKDSMLVGRCFAKDRLVLAAAPAIPVPSGGNEPASLAAVVMPTYRDGQIWSVRGGQLRIAPRPVLRLSSLLTVRDAVVAGAGVAMLPHSLVGGLVEAGALTTWGLADDEVELWVLHTSRRLQSPKVRAFVDFMCEQYPDGVFSLPAG				NA	NA	NA	NA	NA
BMS020_07127	324			hypothetical protein	ATGTTCCATACGCACCAAAAAGAGAGTGTCGCCGCCACTGCGGCTGAGCAGCAGCGATGCGAACTCAACAAGATCCCCGGCACCTCACCCGAGCTCGACCGCCTGGTCGCGCAGATCATCGGTCGCGTGGCGGACAAATGGACCATGCTGCTCATCGAGATACTGACCGAACGCGGCGACTGCCGGTTCGGGGCTCTTGCTCGCGCATGCGAGGGGATCAGTCAGAAGATGCTCACCCAAACGCTTCGCGCCATGGAGAGGGACGGTCTGGTCACGCGTACCGTATTTCCCGTCGTCCCGCCCAAGGTCGTATTCGTTGACTGA	MFHTHQKESVAATAAEQQRCELNKIPGTSPELDRLVAQIIGRVADKWTMLLIEILTERGDCRFGALARACEGISQKMLTQTLRAMERDGLVTRTVFPVVPPKVVFVD				NA	NA	NA	NA	NA
BMS020_07128	747	hcaB_3		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGCTTTTCCAGGACAAGAAGATCTTGATCACCGGCGGCAACTCCGGCATCGGCCAGGCGCTCGCCGAGGCGCTCCAGGCCAAAGGAAACAGGCTTGTGATCACCGGGAGGAAGAAGGATTCACTGCAGCAGGCTCTGGACAAGAACCCGGAGATGGCCGGTTACGTTTTGGATGTGACCGAGCCGGCGTCCGTTGACGCGTTCCTGAAGGCTCTGCTGTCCGAACATCCGGATCTGGACGCCGTCATTCTCAATGCGGGGATCATGGAGTCCGAGGATTACACGACCGACACCGTATCCACTGACGCGGCAGATCGGATGGTGGCCACGAACCTCACTGCTCCCATCCACCTTGCCGCAGCCGTGCTGCCCCACCTGCGCGCGCGTCCAGACGCCGCACTGGTCACGGTGTCGTCGGGTCTCGCGTTTGTTCCTCGCAACGACTACGCGGTCTACTCGGCAACCAAGGCCGCGATCCACTCCTGGACCCAGTCGGTGCGCCACCAGCTGCGTGAGACGTCCGTGTCCGTGTACGAGATTGCCCCGCCGCTGGTTGCCACCGAGCTCACGCCTGGACAGTCGAAGATCGAAGCGGCGCTCCCGCTCGATGCATTCGTGCAGGAAGTCGTCGACATCATGTCCCAGGAGCAGGTGCCGGATGAGATCCTGGTGCAACGGGTCAACTTCCAGCGAGGAGCGGAGCGCGAAGGGCGCTATCAACAGGCATTCGCGGCTATAAATCGCTGA	MLFQDKKILITGGNSGIGQALAEALQAKGNRLVITGRKKDSLQQALDKNPEMAGYVLDVTEPASVDAFLKALLSEHPDLDAVILNAGIMESEDYTTDTVSTDAADRMVATNLTAPIHLAAAVLPHLRARPDAALVTVSSGLAFVPRNDYAVYSATKAAIHSWTQSVRHQLRETSVSVYEIAPPLVATELTPGQSKIEAALPLDAFVQEVVDIMSQEQVPDEILVQRVNFQRGAEREGRYQQAFAAINR	PGPT0013220_503	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
BMS020_07129	915	pgrR_14		HTH-type transcriptional regulator PgrR	ATGGCCAAAAGAAACTTCAACGATCTGCTCTCATTCGTCACCGTCGCGCGCGAAGGCAGCTTCACCCGCGCGGCCGCGGTGCTGGGCGTGACGCAATCGGCACTCAGCCAGGCCATCAGCGGCCTGGAGGCACGATTGGAAATTCGACTGCTGACGCGGACCACGCGCAGCGTGTCGCCTACGGCTGCCGGTGAACGATTGCTACGGGGAATAGGGCACCGCTTCGACGAGATCGAGGCGGAACTGGACGAGTTGTCTGAGCTGCGCGACAAGCCCGCCGGCACGGTACGGATTACCTGTGGCGACCATGTCCTCAAGACCACGCTTCTACCGAAGGTCGCGCCGTTGCTGCATAAGTACCCGGACGTCAAGGTGGAGTTCGACGTGAACTACGGCTTCCGGGACATCGTGGCCGATCGATTCGATGCGGGCGTGCGCCTGGGTGACACCATCGACAAGGACATGATCGCGGTGCCAATCGGGCCGAAGCTGCGTATGGCGGCAGTCGCCGCGCCGGACTATTTCGACAAGTATCCGAAGCCCAAGAAGCCGGAAGACCTGACCAAGCACAGTTGCATCAACGTGCGCTTTCCCACGCATGGCGGGCTGTACGTTTGGGAGTTCGGCCGCAAGGGTAAGGCGTTGAACGTGCGCGTCGAGGGACAGGTCACGCTCAACAGCACCCCGCATATCGTGCAGGCGGCGCTGGAAGGGCTGGGCATTGCCTTTTTACCGGAGGAGGAATTCGCGCCTCATATCGAGGAAGGCAGGCTCGTGCGCGTGCTGAATGAGTGGTGCACGCCATTCGAGGGCTACTACCTCTATTACCCGAGCCGACGACAACCATCACCCGCGTTCTCTTTGGTGCTCAATGCGCTGCGCTCCAAGGAGGCGCCTGGTGAGCGGCGGCGATAG	MAKRNFNDLLSFVTVAREGSFTRAAAVLGVTQSALSQAISGLEARLEIRLLTRTTRSVSPTAAGERLLRGIGHRFDEIEAELDELSELRDKPAGTVRITCGDHVLKTTLLPKVAPLLHKYPDVKVEFDVNYGFRDIVADRFDAGVRLGDTIDKDMIAVPIGPKLRMAAVAAPDYFDKYPKPKKPEDLTKHSCINVRFPTHGGLYVWEFGRKGKALNVRVEGQVTLNSTPHIVQAALEGLGIAFLPEEEFAPHIEEGRLVRVLNEWCTPFEGYYLYYPSRRQPSPAFSLVLNALRSKEAPGERRR				NA	NA	NA	NA	NA
BMS020_07130	1110		COG1073	putative protein	ATGAAAAAGAACGATGAAGTTAACGGCGCCATCGCCCAGCAAGACGCCGCCAACGTCGGCCGTCGCAATGCACTGAAGGTGACCGCCACCGGGATCGTCGCCCTCGGTGTAGGGGCGGCTGCCGCAGGTCCAGCCATTGCACAGGCGCGTCAGACGCTCACCGACCAGTGGGACAAGACCTTCCCCAAAAGCGACAAGGTCGACCACAAGAAGGTCACATTCAAGAACCGCTACGGCATCACCCTGGCAGGCGACCTTTACCAGCCCAAGGGCGCCAGTGACGCGCTCGCAGCGTTGGCCGTCGGTGGCCCGTTCGGAGCGGTGAAGGAGCAATCGTCCGGTCTGTACGCGCAGACGATGGCCGAACGCGGCTTCGTCACGCTGGCTTTCGACCCGTCCTATACCGGAGAAAGCGCGGGCGTGCCACGCAATGTCACCTCGCCGGACATCAGCACCGAGGACTTCAGTGCGGCGGTGGACTATCTAGGCCTACTGCAGAATGTTGACCGCGAACGCATCGGTGCCATCGGCATCTGCGGCTGGGGTGGGTTCGTTCTGAACGCGGCTGCAGCAGACAAGCGCATCAAGGCGGTGGTGGCCAGCACCATGTACGACATCTCGCGCGTCAGTGCCCACGGCTACAACGACAGCGTGACCCCTGAGCAGCGCACGAAAATGCTCGAACAACTGAGTCTGCAGCGTTGGCGGGATGCGGAAGCAGGCAGGCCGGCTTACCAGCCCGCCTACAACAAGGATCTTCCCGATGGTGCTCCGCAGTTCATGGTGGATTACCACGACTACTACATGACTGCGCGCGGCTATCACCCGCGCGCAGTCAATTCGGGCAATGCGTGGACGCAGACCAATCCGCTGTCGTTCATGAACGCGCCGATTCTGAGCTATATCGGCGAAATCTCGCCGCGCCCAATCCTGCTCGTCCACGGCGAGAAGGCGCACTCGCGCTACATGAGCGAAACCGCCTACGAAGCCGCGGCGGAGCCCAAGGAGCTCGTGATCGTACCGGGCGCCGTCCACGTGGACCTCTACGACCAGATGGACAAGATCCCGTTCGACAAGCTGACGGCGTTCTTCAAGCAGCACCTCGCCTGA	MKKNDEVNGAIAQQDAANVGRRNALKVTATGIVALGVGAAAAGPAIAQARQTLTDQWDKTFPKSDKVDHKKVTFKNRYGITLAGDLYQPKGASDALAALAVGGPFGAVKEQSSGLYAQTMAERGFVTLAFDPSYTGESAGVPRNVTSPDISTEDFSAAVDYLGLLQNVDRERIGAIGICGWGGFVLNAAAADKRIKAVVASTMYDISRVSAHGYNDSVTPEQRTKMLEQLSLQRWRDAEAGRPAYQPAYNKDLPDGAPQFMVDYHDYYMTARGYHPRAVNSGNAWTQTNPLSFMNAPILSYIGEISPRPILLVHGEKAHSRYMSETAYEAAAEPKELVIVPGAVHVDLYDQMDKIPFDKLTAFFKQHLA				NA	NA	NA	NA	NA
BMS020_07131	1269	nepI_4	COG2814	Purine ribonucleoside efflux pump NepI	ATGGCGATTCCGCAGGAGCCGAGGGACAAGCCAAAGAATCTCATGACACCTAACACGTCTGATGCTCCCTTGGGAGCGCAAACCGGAGCCGAGGACCGCCCCGCCCACTGGAATGGCGTCCTCGCCCTGTCCTTGTGCGTGTTCGCACTCGTGGCCTCCGAATTCATGCCCGTGAGCCTGCTGACGCTGATCTCCGGCGACCTTCAGATCACTGAAGGCATGGCCGGTCGGGGCATCGCGATCTCAGGTGCCTTCGCGGTCCTGACCAGTCTGTCGATCTCGGCGCTGGCAGGCGCCATGGACCGCAAGAGGCTGCTACTGGTGCTGACTGTGTTGATGGGTGTCTCCGGCATCATCGTCGCGGTTGCACAAAGCTACCTGATCTACATGATCGGGCGTGCGCTCATCGGCGTGGTGATAGGCGGCTTCTGGTCGATGTCGGCCGCCATGGCGATCCGCTTGGTGCCCCCCGGCCAGGTGCCAAAGGCCCTGGCGATCTTCAATGGCGGCAATGCGCTGGCCACGGTGATCGCTGCGCCGCTGGGCAGCTACCTGGGCACCATCATCGGCTGGCGCGGCGCGTTCGCCGCACTGGTGCCCGTAGCGGTCATCACCTTGGTCTGGCAATGGCTCGCCTTGCCTGCGATGAGAGCCGAGGCGCGCGTAGCGTGCTCTGGCAACGTGTTCAAGGTGCTCAAGAGTCGTACCGTGGCCTACGGCATGGTGGCGTCAGGAGCCTTCTTCATGGGGCAGTTCGCGCTGTTCACCTATCTACGTCCCTTCCTCGAAACGGTGACGCACGTGGGCGTTGCCACGCTGTCACTGCTGCTATTGGTGATCGGTGTCGCGGGCTTCATCGGCACGGCGGTCATCGGTATGGTCCTCAAGCGCGGCTTGTACGGCCCGCTCATCGCCATTCCGGCGCTCATGGCGGTGATCGCCGTTGCGCTGATCCCGGTGGGTACCTGGGTACTTCCCGTTGCTGTGCTGCTGGGCCTGTGGGGATTGATGGCCACAGCCACGCCGGTGGGCTGGTGGAGCTGGATCGCGCAGGCCATGCCGCACGATGCCGAGGCCGGCGGCGGGCTGATGGTGGCTGTCATCCAGTTTTCCATTGCGCTTGGGTCCACCGTCGGCGGTGTGCTGTTCGACGCCAGTGGCTATCAGAGCACTTTCATTTCCAGCGCAGTGCTGTTGCTGTTTGCCGCCTTCCTGGCCTTGCAGACCTCGCGCGCACAAGCACGGCAAGGCGGCGGATCCCTTCAATAA	MAIPQEPRDKPKNLMTPNTSDAPLGAQTGAEDRPAHWNGVLALSLCVFALVASEFMPVSLLTLISGDLQITEGMAGRGIAISGAFAVLTSLSISALAGAMDRKRLLLVLTVLMGVSGIIVAVAQSYLIYMIGRALIGVVIGGFWSMSAAMAIRLVPPGQVPKALAIFNGGNALATVIAAPLGSYLGTIIGWRGAFAALVPVAVITLVWQWLALPAMRAEARVACSGNVFKVLKSRTVAYGMVASGAFFMGQFALFTYLRPFLETVTHVGVATLSLLLLVIGVAGFIGTAVIGMVLKRGLYGPLIAIPALMAVIAVALIPVGTWVLPVAVLLGLWGLMATATPVGWWSWIAQAMPHDAEAGGGLMVAVIQFSIALGSTVGGVLFDASGYQSTFISSAVLLLFAAFLALQTSRAQARQGGGSLQ	PGPT0021090_142	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021090-nepI-K03445	NA	NA
BMS020_07132	303			hypothetical protein	ATGCAGATCCAGATCAACACCGACAAGCATGTGCAGCACGACGAATCGGTAGTGCGCCATGTCGAGCAGACGCTGGCGGCGACGCTTGGTCGCTTCGCCAGCCAGATCACCCGCATCGAGGTCCACCTGAGCGACGAAAACGGCCAGCGCGGCGGCGGCAACGACCGCGTGTGCACGCTGGAAGTGCGCCCGGCCGGACGCCAGCCGGTGGCGGTGACCGACAAGGCCGATGCGATCGCCCCGGCGATCAGCGGCGCGGCGCGCAAGATGCAGCACCTGCTCGACGGCGCCCTGGCAAAGTAA	MQIQINTDKHVQHDESVVRHVEQTLAATLGRFASQITRIEVHLSDENGQRGGGNDRVCTLEVRPAGRQPVAVTDKADAIAPAISGAARKMQHLLDGALAK				NA	NA	NA	NA	NA
BMS020_07133	2115	mdoB_2		Phosphoglycerol transferase I	ATGATGCATTGGATCCTCGCCCTGTCGCTGCTGTCGCTGACCTGGCTGGTGCTGACCGCACCGCGCCGGGTCTGGGCGAAAGCCGTGCTGCTGTCGCTGCTGCTGCTGGCGCTGAGCGCATGGGCGTTGATCGACCGGCTCAGCGGCGACGGTATCAACGCCGCCACGCTTTACCACCTGCATGCCGACATGGATGGCGCCGGGATTGGCGATTTCCGCGGCTACATCGCCGTGTTCGTGCTGATGGCGCTGGGCTCGCTGCTGCCGCTGGCGCTGGTGCCGCTGCGGCGGTTCCGCTGGCGCGCGCATGGCGGGGCCGCCAGCGCCGCGTTCGCACTGCTGCTGGTGGTCGCGGTGGCCGCCAGCCCGCTGTACGCCGACGGCCGGCGCATCTGGTACCAGCTGCGCCCGGTCGACTACGCGCGCATCGCGCCGGAGTACGAGGTGCCGGTGCGCCCGCTGCAGCGACGGCCGAACATCGTCTGGATCTACGGCGAGAGCCTGGAGCGCACCTACTTCGATGCGAAGACCTTTCCCGGGCTGATGCCGCACCTGCAGCGCCTGGCCCGCGAGGCGCTGGACTTCCGCCATGTCGCCTCGGCCGAGGGCAGCGGCTGGACCATCGCCGGGCTGGTCGCCTCGATGTGCGGCGTGCCACTGACCACCGCACCAGGCGATGAGAACAGCATGGACCGCATGGGCCGGTTCCTGCCCGAGGCGCGCTGCCTGGGCGACTACCTGCGCGAACAGGGCTACCGCAACGAGTTCATCGGCGGCGCGCACGCCAGTTTCGCCGGCAAGGGCCAGTTCCTGGCCAGCCACGGCTTCGACGTGGTGCGCGACTATGCCGACTTCAAGCGGCGCCATGTCGGCGACGAGCACTTCTCGGCCTGGGGCGTACACGACGACGTGCTGCTGGACACCGCGTGGGAGCGCTTCCAGACGCTGTCGCGCGCCGGCCAGCCATTCATGCTGACCACCCTGACGATGGACACCCACCATCCGGCCGGGCACCTGCCGCTGGCCTGCAAGGACCAGCATTACGACAGCGCGCTCGGCCGCATCGGCATGCTCGACGCGCTCAAGTGCAGCGACCGGCTGGTCGCCGAGTTCGTCGAGCGCATCCGCGCCAGCCGCTATGGCCGCAACACCATCGTGGTGATCGCCTCCGACCACCTGGCCATGCCCAACGACCTCAGCGACGTGCTGGCCACGCTGCCGCGCGAGAACCTGCTGTTGGTACTCAAGCCCGGCCAGGCGCCGCAGCAGGTGCTGGCCAGCGCCGGCAGCACGCTCGATTCCGGCGCCACGTTGCTGCAGCTGATGGAACCGAACTTCCGCACGCTCGGCTTCGGCCGTTCGCTGCTGGCCGCCGACCGCGCGCCCAGCGCCAGCGTCGCCGCCGCGCACGATGCCAGCAAGGACTACGCGCCCTACCTCGCCTTCGCGCGCACGCTGTGGACCGGCCGCGACACCCGCAGGCTGCGCATCGACGGCAGCGGCCAGGTGCTGGTCGGGGTGCAACAGGTCAAGCCGCCGGTGTTGCTGGAATACGACCGCGGCTGGGACCTGAGGGCGATGTACCTGGAAAACACCTCGCGCAAGTTCGACAGCGCGCGGCCGAAGAACGTGTTCGCCTACGTCGACCGCTGCACCGCGTTCGAAGACGGCTCGGCCGACGGCGACTGGTGCGCGCTGCTGGTCGACCGCCATCGCGGCATCAAGCTGTACCGCGATGGCGACCTCAAGCACGGCATCACCGTGGATGCACCGCTGGATGCACGCCGCGACAGCACCCGCCCGCGCGTGCGCCAGCCGATCATGCTGACCCACCAGGGCCAGCGCGCCGAACCTGGCCAATACGTGCTGGACATGTATGCCAAGCGCCTGCCATCGCGGCCGTTCTGGGTCGAGGCGGTCTCATCGCAGCGCAACGTGGTGCTGGCCCAGCAGTGGGTGCAGCCGGATGCCGATGGCCGGATCCGCATCGCACTCGGCGTCGACCACGAAGTCGACGACCTGGAGATCCGCGCGTGGCTGGACTACACCGAGGCGGTGTCGCCCGACGACGTCGCACTGGCGCTGCTGCCGGCGCCGCCTGCCGAGCGCTCCTGA	MMHWILALSLLSLTWLVLTAPRRVWAKAVLLSLLLLALSAWALIDRLSGDGINAATLYHLHADMDGAGIGDFRGYIAVFVLMALGSLLPLALVPLRRFRWRAHGGAASAAFALLLVVAVAASPLYADGRRIWYQLRPVDYARIAPEYEVPVRPLQRRPNIVWIYGESLERTYFDAKTFPGLMPHLQRLAREALDFRHVASAEGSGWTIAGLVASMCGVPLTTAPGDENSMDRMGRFLPEARCLGDYLREQGYRNEFIGGAHASFAGKGQFLASHGFDVVRDYADFKRRHVGDEHFSAWGVHDDVLLDTAWERFQTLSRAGQPFMLTTLTMDTHHPAGHLPLACKDQHYDSALGRIGMLDALKCSDRLVAEFVERIRASRYGRNTIVVIASDHLAMPNDLSDVLATLPRENLLLVLKPGQAPQQVLASAGSTLDSGATLLQLMEPNFRTLGFGRSLLAADRAPSASVAAAHDASKDYAPYLAFARTLWTGRDTRRLRIDGSGQVLVGVQQVKPPVLLEYDRGWDLRAMYLENTSRKFDSARPKNVFAYVDRCTAFEDGSADGDWCALLVDRHRGIKLYRDGDLKHGITVDAPLDARRDSTRPRVRQPIMLTHQGQRAEPGQYVLDMYAKRLPSRPFWVEAVSSQRNVVLAQQWVQPDADGRIRIALGVDHEVDDLEIRAWLDYTEAVSPDDVALALLPAPPAERS				NA	NA	NA	NA	NA
BMS020_07134	1701	ubiB_2		protein kinase UbiB	TTGAGCGCGACCTCGGACCCGACCGCATCCGCCCCCCCGGGCACCGCCGTGATCGGCGGCATGAACCGGCGCACGCAGATCCTGCGGCTGCTGCTGCGCTACCGCCATTCCGGCGTGTTCTCCGGCATGCGCCTGGAGCCGGGGCTGGCCCAGGACCTGCCGGCCGACGGCAATCCGGAGCAGTTCGTGCACGACCTGGAGGCGCTGGGCCCGACCTTCGTCAAGCTCGGGCAGATGCTGTCCACGCGCCCGGACATCGTGCCGCCGGAGTTCGCCAGCGCGCTGGAGCGCATGCAGGAGCAGGTCGCGCCGGTGCCGGCCGAATACATCCACGCGGTGTTCGAGGAGGAGATCGGCGTCGCGGTCGGCAAGGCGTTCCAGTCCTTCGATCCGCAGCCGCTGGGCTGCGCGTCGCTGGCGCAGGTGCATCGCGCGGTGATGCGTGACGGCAGCCTGGTCGCGATCAAGGTGCAGAAGCCGGATGTCGCCGCGCAGGTGCGCTCGGACCTGGAGGTGCTGCGCAGCTTCGCCAGCGCCGCCGACCGCCTGACCGGCATCGGCCGCCGCGTGCGCTTCGCCGACTGGCTCAACGAATTCGCCAAGGCGCTGCTGGCGGAACTGAACTACCAGACCGAGGCGGAGAACCTGGTGCGCTTCGGCCAGCACCTGGCGCCGTTCGCGGAGCTGTGGGTGCCGCAGCCGGTGTGGGATTTCAGCGGCCGCCGCGTGCTGACGATGCAACTGGCCCAAGGCGTGCGCGTGGATGCGATCCCGCCGCTGCGGCGCACCGAGCAGCCGATGGCGCCGCTGGCCGGCGCGCTGGTGCGCGGCTACCTGGACCAGATGTTCGTGCATGGCGAGATCCATGCCGACCCGCATCCCGGCAACCTGCGGGTCACCCCGGACAACCGCCTGGCGATCTTCGACCTGGGCATGGTCGCGCACGTGCCACCGCGGCTGCGCGAACGCCTGCTCAAGCTGCTGTTCGCCGCGGTCGACGGCCGCGGCGAGGAAGTGGCGGACGAGACCATCGCGCTGAGCACGCGGCTGGAGGACTACGACGAGGAGCGCTACCTGCGCGAGGTCGGGCAGATGATCGCGCGCTATGCCGCGCACGACACCACCTCCGAAGGCCAGGTGGTGCTGGACCTGGTGCGCATTGCCACCGCCACCGGGCTGCGCACGCCGCCGGAACTGAGCCTGCTCGGCAAGACCCTGCTCAATCTGGAGATGGTGTGCCGCGCGCTGTCGCCGGAGCTGGACATCCGCCGCGTGGTCGAACAGCACCTGCAGCACGTGATGCGCGCGCGCCTGAGGAAGTCGCTGTCGGCGGCCAACCTGGCCAGCGAGGCGATGGAACTGCAGGGCCTGCTGCGCGAAGGGCCGCGGCGCATCTCCGACATCCTCTCGCTGGTCGCCGAGAACCGCATGCAGGTGCGCGTGGCCGGGCTGGAGGAATCGCACCTGATGGAAAGCCTGCAGAAGATCGCCAACCGCGTCGCCGCCGGCATCGTCACCGCCGCGCTGATCCTGGCGTCCTCGCAGATGATGCGCATCGACACCGGCTTCAAGATCGGCGGCTATCCGGCGATCGCGCTGCTGCTGTTCCTGCTCGGCGTGGTGCTGGGCCTGGGCATAGTGCTCAGCGCCCTGCTGTTCGATCGCCGTGCGCGCGCCCGCGAGGAACGCGGTCACCGCTGA	MSATSDPTASAPPGTAVIGGMNRRTQILRLLLRYRHSGVFSGMRLEPGLAQDLPADGNPEQFVHDLEALGPTFVKLGQMLSTRPDIVPPEFASALERMQEQVAPVPAEYIHAVFEEEIGVAVGKAFQSFDPQPLGCASLAQVHRAVMRDGSLVAIKVQKPDVAAQVRSDLEVLRSFASAADRLTGIGRRVRFADWLNEFAKALLAELNYQTEAENLVRFGQHLAPFAELWVPQPVWDFSGRRVLTMQLAQGVRVDAIPPLRRTEQPMAPLAGALVRGYLDQMFVHGEIHADPHPGNLRVTPDNRLAIFDLGMVAHVPPRLRERLLKLLFAAVDGRGEEVADETIALSTRLEDYDEERYLREVGQMIARYAAHDTTSEGQVVLDLVRIATATGLRTPPELSLLGKTLLNLEMVCRALSPELDIRRVVEQHLQHVMRARLRKSLSAANLASEAMELQGLLREGPRRISDILSLVAENRMQVRVAGLEESHLMESLQKIANRVAAGIVTAALILASSQMMRIDTGFKIGGYPAIALLLFLLGVVLGLGIVLSALLFDRRARAREERGHR	PGPT0009520_307	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
BMS020_07135	918	yedI_2	COG2354	Inner membrane protein YedI	ATGGCTGGTGCAAGCCTGTTGACCCTGCTCGACGACATCGCGACGCTGCTCGACGACGTCTCGGTGATGACCAAGGTCGCCGCGAAGAAGACCGCCGGCGTGCTCGGCGACGACCTGGCGCTGAACGCGCAGCAGGTCACCGGCGTCAACGCCGACCGCGAGCTGCCGGTGGTGTGGGCGGTGGCCAAGGGCTCGCTGGTCAACAAGGCGATCCTGGTGCCGGCGGCGCTGGCGATCAGCGCCTGGCTGCCGGCGGCGATCCCCTACCTGATGATGCTCGGCGGCGCGTTCCTGTGCTTCGAGGGTGTGGAGAAGCTGGCGCACAAGCTGCTGCATTCCAAGGAAGAGGACGAGGTCGAGCATGCGCGCCAGCGCGCGGCGCTGGCCGATACGGCGGTCGACCTGGTGGCGCTGGAGAAGAGCAAGATCAAGGGCGCGATCCGCACCGACTTCATCCTGTCGGCGGAGATCATCGTGCTGTCGCTGGGGGTGATGACCGGCGGTGCCGAAGTGCCGCTGCTGCAGCAGGTGCTGGTGCTGGTGCTGATCGCGCTGGCGATGACGGTCGGCGTGTACGGGCTGGTCGGCGCCATCGTCAAACTCGACGACCTCGGACTGTGGCTGTCGCGCAAGGGTGGCGCGCTGGCGGCGCTCGGCCGCGGCATCCTGGTCGCCGCGCCGTGGCTGATGAAGACCCTGTCGGTGGTCGGCACGCTGGCGATGTTCCTGGTCGGCGGCGGCATCCTGGTGCACAACATCCCGCTGCTGCACCACCTGGTCGAGGCGGTGACGCCGCAGGGCGGCCTGGCCGGCGTGGTCTCGATGCTGGGCAACGCGGTGGTCGGCGTCGTCGCCGGCGCGATCGTGCTGGCGGTCGTGGCGCTGGTGCAGAAGCTGCGCGGCAAGCCGGCGCACTGA	MAGASLLTLLDDIATLLDDVSVMTKVAAKKTAGVLGDDLALNAQQVTGVNADRELPVVWAVAKGSLVNKAILVPAALAISAWLPAAIPYLMMLGGAFLCFEGVEKLAHKLLHSKEEDEVEHARQRAALADTAVDLVALEKSKIKGAIRTDFILSAEIIVLSLGVMTGGAEVPLLQQVLVLVLIALAMTVGVYGLVGAIVKLDDLGLWLSRKGGALAALGRGILVAAPWLMKTLSVVGTLAMFLVGGGILVHNIPLLHHLVEAVTPQGGLAGVVSMLGNAVVGVVAGAIVLAVVALVQKLRGKPAH				NA	NA	NA	NA	NA
BMS020_07136	1617			hypothetical protein	ATGTCGGAGCACGAATCGCCCCCGCCGCCCCGCGGCCTGCGCCGGCTGCTGCCCTGGAGCAGCGGCGGCGGCGGTGCGCGCCCGGCCGCGCCGGTCGGCGACCTGCTCCCGCGCACCGGCAACGACGCCGACGCCCGCACCCTGGTCCCGGCCAAGCGCGGCGGCACCGGCGACCCGGCCGCGGCCTCGGCCAGCCTGGTACAGCTGTTCGCCCAGGCCGGCCAGCCCGACGCGCTGCTCGGCGCGTTCGCGCTGGGCATGCGCAGCCTGCATGGCGAGCTCGGCGACATGGGCAGCCGCCTGCAGGCCGCCTACCAGGCCGGCGACTGGCCCGGCTATGGCCGCGCGCTGCGCCAGCTGATCGACAAGTACATCCGCACGATCGACATCGGCGACTCGCTCGCCGAAGGCCGCACCGAGGCCGAGCAGCTGCGCGACCTGCTGCGCCACGCGCTCGGCAATACCCTGGCGATCCTGCTGCAGCGCAGCCCCGAGCTGGCCCGCGAGGCCGACACATTGGCCGCGGCGTTGCGCCATTGGCGCCCCGGCCACGCCCTGGCGCCGCTGGAGCTGCGCCTGCGCGAGCTGACCCACCAGGTCGGCCTGCGCGCCGACGACACCAACGAGCAGCAGAACCTGCTGCTGGGCCTGTTCGACCTGCTGCTGGAGAACGTCGGCGAGCTGCTCGACGACCGCAGTTGGCTGCAGAGCCAGATCAACGTGGTCCGCCAGCTGATCGCCGGCCCGCTGGACACCGCGGCGATCGAGCAGGCGCGCGGCACCCTGCGCGAGGTGACCTACCGCCAGGGCCTGCTCAAGCAGGGCATCGCCGAATCGAAGGCGGCCATGCGCGAGATGATGGTGGCTTTCGTCGACCGGCTGGACGGCATGGCCGCCAGCACCGGCCAGTACCACGACCGCATCGCCGGCTACTCCGAGGCGGTCTCGCACGCACGCAGCATCACCGAGCTGGGCCGGCTGCTGCAGGACGTGCTGCAGGACACCGCCGGGGTCCAGGCCCAGGCACTGGCCGCGCGCGACGAATTGCGCGAGGCCCAGCACCGGGTCGAGGAAGCCGAACAACGCATCACCGCGCTCGAGCAGGAACTGAAGGACGTGGCCGGGCTGGTGCGCGAGGACCAGCTGACCGGCGCGCTGAACCGGCGCGGGTTCGAGGAGATGTTCGTGCGCGAGGCCGCGCGCACCGAGCGCAGCAACCATCCGCTGTGCGTGGCGCTGCTGGACCTGGACGACTTCCGCCAATTGAACGAACTGCACGGCCATGCCGGCGGCGATGTCGCCCTGCGCCACTTGGTCGACGTGGCGCGCACCACGCTGCGCACCACCGATGCGGTGGCGCGCTTCGGCGGCGAGGAATTCGTGCTGCTGCTGCCGGATGCCACCATCTTCGAGGCCGCCGCCACGGTCGGGCGGCTGCAGCGCGCGCTGGCCCAGCGCGTGGTGCAGCACGACGACGTGCGCATGGCGTTCACCTTCAGCGCCGGCGTGGCGATGCGACGCGCGCAGGAGCCGCAGGACGAGCTGCTCAAGCGCGCCGATCGCGCGATGTACGAGGCCAAGCACGCCGGCAAGAACCGCGTGATCAGCGCCGATTGA	MSEHESPPPPRGLRRLLPWSSGGGGARPAAPVGDLLPRTGNDADARTLVPAKRGGTGDPAAASASLVQLFAQAGQPDALLGAFALGMRSLHGELGDMGSRLQAAYQAGDWPGYGRALRQLIDKYIRTIDIGDSLAEGRTEAEQLRDLLRHALGNTLAILLQRSPELAREADTLAAALRHWRPGHALAPLELRLRELTHQVGLRADDTNEQQNLLLGLFDLLLENVGELLDDRSWLQSQINVVRQLIAGPLDTAAIEQARGTLREVTYRQGLLKQGIAESKAAMREMMVAFVDRLDGMAASTGQYHDRIAGYSEAVSHARSITELGRLLQDVLQDTAGVQAQALAARDELREAQHRVEEAEQRITALEQELKDVAGLVREDQLTGALNRRGFEEMFVREAARTERSNHPLCVALLDLDDFRQLNELHGHAGGDVALRHLVDVARTTLRTTDAVARFGGEEFVLLLPDATIFEAAATVGRLQRALAQRVVQHDDVRMAFTFSAGVAMRRAQEPQDELLKRADRAMYEAKHAGKNRVISAD				NA	NA	NA	NA	NA
BMS020_07137	1566	glgA_2	COG0297	Glycogen synthase	ATGGTTGCTTTGGTGTCGGTCGATAGTCAGGTCGCGCTGCTCGAGCGCGACGTCCGGGTGCCGGTGGCGCCCACCCTCCCGCGTCCGCGCGACGCACGCGGGCGTTTCGTACGCCATCACGAACACTTGCCGGGCGTGCAGGCCGACAGCCGCGGCGCCTTGTTCGTGGTCTCGGAGATGGCCGATTTCGTCAAGGCCGGCGGGCTCGGCGACGTCGCCGCGGCGCTGCCGCGCGAGCTGCGTCGCTGCTATGACGTGCGGGTGCTGATCCCGGGCTATCCGGCGGTGCTGGCGCGGGCCGGGCAGATGGAGGTGGTCGGCCGGGTGCTGGCGCATGCCGGCCTGCCGGCCTGCGACATCGGCCGGATCGAGCAGGCCGACGGCCTGCCGGTCTACGTGCTGCTGTGCCAGGCGCTGTTCGAGCGCGGCGGCTCGCCGTACGTCAGCGACAGCGGCACCGAATGGGACGACAACGCGGTGCGCTTCGCGACCCTGTCGCATGCCGCCGCGGAGATCGCCGCCGGTCACGCCGGGCTGGACTGGAAGCCGCACCTGCTGCACCTCAACGACTGGCCGTGCGCGCTGGCCGCCGCCTACGTGCGCTGGTCCGGCGGCGACACGCCCTGCCTGCTGACCATCCACAACCTGGCCTACCAGGGCCTGTTCCCGCATGCGCTGGCGCCGCTGCTGGGCATTCCCGACGAGCGCGTGGCCGAACTGGAGTTCTACGGGCAGATGTCGTTCCTGCGCGGCGGCATCGTGCATGCCGACCACGTCAACACCGTCAGCATCAGCTACGCGGTGCAGATCACCGGCCCGGCGCAGGGCTGCGGGCTGGACGACCTGCTGGCCGGGCGTGCTGCCAGCGGCGGCCTCAGCGGCATCGTCAACGGCATCGACGCGAGCTGGGACCCGCGCACCGATGCGCACCTGAACACCCATTTCAGCGTCAACCAGTGGGCCGGCCGTGGCGACAACGCGCAGCAGGTGCGGCGCGCGTTCGGCCTGCCGGCCGGCAGCGGCCCGCTGTTCGCGGTGGTGTCGCGGCTGGTGCACCAGAAGGGGCTGGACCTGATCTGCGAGGTCGCCCCGCAGATCGTCGCCGCCGGCGGCCAGATCGTCATCATCGGCGGCGGCGAGCCGCAGATCGAGCAGCAGGTCGCCGCGCTGGCGCGGCGCTACCCGGGCGCGGTCGGCGCCTACATCGGCTTCGACGAGGCGTTGGCGCGGCGCATGTTCGCCGGTGCCGATTTCCTGCTGATGCCATCGCGCTTCGAGCCGTGCGGGCTCAGCCAGATGTACGCGCAGCGCTTCGGCTGCCTGCCGATCGCCCATGCCACCGGCGGGCTGATCGATACCGTCGACGACGGGGTGACCGGGTTCCTGTTCCATGGTGCCAGCGCCGATGCGCTGCGCCGCTGCCTGCAGCGCGCATTCCGCACCTTCCGCCTGCCCGGGCTGCTGACGGCGATGCGGCGCGCGGCGATGCTGCGCCCCAGCGGCTGGGACGTGGCCGCCGACAAATACATCGCCCTGTACGAGCGCACCACCGCGGAGGGTGCATGA	MVALVSVDSQVALLERDVRVPVAPTLPRPRDARGRFVRHHEHLPGVQADSRGALFVVSEMADFVKAGGLGDVAAALPRELRRCYDVRVLIPGYPAVLARAGQMEVVGRVLAHAGLPACDIGRIEQADGLPVYVLLCQALFERGGSPYVSDSGTEWDDNAVRFATLSHAAAEIAAGHAGLDWKPHLLHLNDWPCALAAAYVRWSGGDTPCLLTIHNLAYQGLFPHALAPLLGIPDERVAELEFYGQMSFLRGGIVHADHVNTVSISYAVQITGPAQGCGLDDLLAGRAASGGLSGIVNGIDASWDPRTDAHLNTHFSVNQWAGRGDNAQQVRRAFGLPAGSGPLFAVVSRLVHQKGLDLICEVAPQIVAAGGQIVIIGGGEPQIEQQVAALARRYPGAVGAYIGFDEALARRMFAGADFLLMPSRFEPCGLSQMYAQRFGCLPIAHATGGLIDTVDDGVTGFLFHGASADALRRCLQRAFRTFRLPGLLTAMRRAAMLRPSGWDVAADKYIALYERTTAEGA	PGPT0025880_917	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
BMS020_07138	2241	glgB_2		1,4-alpha-glucan branching enzyme GlgB	ATGAGCGAGCGCGGCGCGGCCGACGATGCCGGAGTGGAGCCGATGCCGATGGACGAAGGTGCCGCCGCTGCACCACCCCCGCTGCCGGCCGAGGCCTGGGCGCTGACGCGCGGCGAGCCGGCCGATGCGTTCGCACTGCTCGGGCCGCAGCCGCTCGCCGATGGCCGCGTGCGGCTGCGCGTGCTGGTGCCCGATGCCGAGGCGGTCGGCCTGACCGATGCGCAGGGGCGCCTGTTGACGCGGCTGCGCGCGTCGCCGGCCGCGGGCCTGTTCGAGGGCGAGCTGCCGAGCGCGCAGCCATATCGCCTGCGCATCGTCTGGGCCGAGGCGATGGAAGAGGTCGAGGACGCCTACGCCTTCGGCGCGCTGGCCGACGAGGCGCTGCTGCAGCAGCTGGTCGACGGCGAGGGCGAGGCGGTGCGCGCGCTGCTCGGCGCGCATCACGAACAGCACGATGGCGTTGCCGGCGTGCGCTTCGCGGTCTGGGCGCCGAACGCGCTGCGCGTGGCGGTGGTCGGCGACTTCAACGGCTGGGACGGCCGGCGCCATCCGATGCGGCTGCGCCACACCGCGGGGGTATGGGAAATCTTCCTGCCGCGGGTGGCCGCCGGCGCGCGCTACAAGTACGAGATCAGCACCGCCGAGGGGCGGCTGCCGCACAAGGCCGATCCGGTCGCACGCCAGGCCGAGCGGCCGCCGGCGACCGCTTCGATCGTGCCGCGCGCGGCGGCGATGGCGTGGACGGATGCGGCGTGGATGGCGCAGCGCGGCGCGCCGGCCCAGCCGCTGTCGATCTACGAAGTGCATGCCGCGTCCTGGCGGCGCGACGCGCACGGCCAGCCGCTGGACTGGGATGCGCTGGCCGCGCAGCTGGTGCCGTACGTGCAGCAGCTGGGCTTCACCCACATCGAGCTGCTGCCGGTCACCGAGTATCCGTTCGGCGGTTCCTGGGGCTACCAGCCGCTGGGCATGTACGCACCGACCGCACGCCACGGCAGCCCGGAGGCGTTCGCGCGCTTCGTCGCGGCCTGTCACCAGGCCGGCATCGGCGTGATCCTGGATTGGGTCAGCGCGCACTTCCCCGGCGACGAGCATGGCCTGCAGCGCTTCGATGGCACCGCGCTGTACGAGCATGCCGATCCGAAGGAGGGCATCCACCGCGACTGGAACACGCTGATCTACAACTACGGCCGCCATGAGGTGGCCGCGTACCTGATCGGCAGCGCGCTGGAGTGGATCGAGCGTTTCCACATCGATGGGCTGCGCGTGGACGCGGTGGCGTCGATGCTCTACCGCGACTACAGCCGCGAGGATGGCCAGTGGGTGCCCAACGCGCATGGCGGGCGCGAGAACCTGGAGGCGGTGGCGTTCCTGCGCCGGCTCAACGACACCATCGCCGCGCGCTTCCCGGGGGTGATGATGATCGCCGAGGAATCCACCGCGTGGCCGGGCGTGACCGCGGCCACGGCGCGCGGCGGGCTGGGCTTCAGCCACAAGTGGAACATGGGATGGATGCACGACACGCTGCAGTACATGCGCCGCGACCCGGTGTACCGCTCGCATCACCACAGCGAGATGACCTTCGGGCTGGTGTATGCGTTCTCCGAGCGTTTCGTGCTGCCGCTGTCGCACGACGAGGTGGTGCACGGCAAGCACGCGCTGCTGGCCAAGATGCCCGGCGACGAGTGGCAGCGCTTCGCCAACCTGCGTGCCTACCTGGCCTTCATGTGGGCGCACCCGGGCGCGAAGCTGCTGTTCATGGGCGGCGAGTTCGGCCAGCGCCAGGAATGGAACCACGACGCCACGCTGGACTGGGACGCGCTCGCGCAGCACCCGCACCACGGCCTGCAGCGGCTGGTCGGCGATCTCAATGGCCACTACCGCGGGCAGCCGGCGCTGCATCGCGGCGACTTCCGCGCCGATGGCTTCGACTGGAGCGTCGGCGACGACCAGGGCAACAGCGTGTTCGCCTTCGTGCGGCACGACCCGGATGGCCTGGCGCCGCCGCTGCTGGCGGTGACCAACATGACGCCGGTGGCGCGCGAGGGTTACCGGGTCGGCGTCCCGCGCGCCGGTGGCTGGCGCGAGATCCTCAACAGCGACAGTGCGCATTACGGCGGCAGCAACGCCGGCAACGGCGGTGGCCTGGCCACCGAAGCGGTGCCGATGCATGGCCATGGGCAATCGCTGCGGCTGCTGTTGCCGCCGTTGGCGACGCTATACCTGCTGGCGGAGGCGTGA	MSERGAADDAGVEPMPMDEGAAAAPPPLPAEAWALTRGEPADAFALLGPQPLADGRVRLRVLVPDAEAVGLTDAQGRLLTRLRASPAAGLFEGELPSAQPYRLRIVWAEAMEEVEDAYAFGALADEALLQQLVDGEGEAVRALLGAHHEQHDGVAGVRFAVWAPNALRVAVVGDFNGWDGRRHPMRLRHTAGVWEIFLPRVAAGARYKYEISTAEGRLPHKADPVARQAERPPATASIVPRAAAMAWTDAAWMAQRGAPAQPLSIYEVHAASWRRDAHGQPLDWDALAAQLVPYVQQLGFTHIELLPVTEYPFGGSWGYQPLGMYAPTARHGSPEAFARFVAACHQAGIGVILDWVSAHFPGDEHGLQRFDGTALYEHADPKEGIHRDWNTLIYNYGRHEVAAYLIGSALEWIERFHIDGLRVDAVASMLYRDYSREDGQWVPNAHGGRENLEAVAFLRRLNDTIAARFPGVMMIAEESTAWPGVTAATARGGLGFSHKWNMGWMHDTLQYMRRDPVYRSHHHSEMTFGLVYAFSERFVLPLSHDEVVHGKHALLAKMPGDEWQRFANLRAYLAFMWAHPGAKLLFMGGEFGQRQEWNHDATLDWDALAQHPHHGLQRLVGDLNGHYRGQPALHRGDFRADGFDWSVGDDQGNSVFAFVRHDPDGLAPPLLAVTNMTPVAREGYRVGVPRAGGWREILNSDSAHYGGSNAGNGGGLATEAVPMHGHGQSLRLLLPPLATLYLLAEA				NA	NA	NA	NA	NA
BMS020_07139	1746	treZ	COG0296	Malto-oligosyltrehalose trehalohydrolase	GTGGCGGGCATGGAAGCGGCGCCATGCTGGGGAGCCTGGCCGCAGTCGCCGGGCGAGGTGCGCTTCGCGGTCTGGGCGCCATCGGTGCGGCGCGCCGAGGTCGTGCTGGAGGACGGCCGCAGCCACCCGCTCGAGGCCGGCGCGGATGGCGTGCATGCCGCGCTGCTGGCCTGCGCGCCGGGCGCGCGCTACCGGCTGCGCTTCGACGGTGCCGCGCCGGTGCCCGATCCGGCCTCGCGCTGGCAACCGGACGGCGTGCACGGCGCCAGCGCGGTACTCGACCCGCACGGCTATGCCTGGCGCACGCCCGGCTGGCTGGGCCGGCCGTGGGCCGAGGCGGTGATCTACGAGCTGCACGTGGGCTGCTGCGGCGGCTATGCCGGCGTGCAGGCGCAGCTGCCGGCCTTGGCCGCGATGGGCATCACCGCGATCGAGCTGATGCCGCTGGCGAGCTTTGCCGGAACCCGCAACTGGGGCTACGACGGCGTGCTGGCCTACGCGCCGGCCGCGGCCTACGGCAGCCCGGATGAACTGAAGGCGCTGGTCGACGCGGCGCATGCGCACGGGCTGATGGTGCTGCTGGACGTGGTCTACAACCACTTCGGCCCGGACGGGAACTACCTCGGCCAGTACGCGCCGGAGGTGTTCCGCGACGACGTGCCCACGCCGTGGGGCGCGGCGATCGACTTCCGCCACGCCGCGGTGCAGCGCTACTTCATCGACAACGCGTTGATGTGGCTGCACGAATACCGCTTCGATGGCCTGCGCCTGGATGCGGTGCATGCGATCGTGCCCAACGGGTTCCTCGACACGCTGCGCGAGGCGATCGTGGCCAGCGTGCCGGCCGGGCGCCACGTGCACCTGGTGCTGGAGAACGAGGCCAACCAGGCCTCGCAGCTGGCGCGCGGTTACAGCGCGCAGTGGAACGACGACTTCCACAACGCGCTGCACGTGCTGCTCACCGGCGAGCAGGAAGGGTATTACGCCGCGTTCGCCGACGATCCCGCCGGGCATCTGGCGCGGGTGCTGGGCGAGGGCTTCGCCTACCAGGGCCAGCCCGATCCGCGCGGCCACGTGCGCGGCGAGCCGAGCGCGCAGCTGCCGCCGCACAAGTTCGTGGTGTTCGCGCAGAACCACGACCAGGTCGGCAACCGCGCCTTCGGCGAACGCCTGGGCGCGCTGGTGGCGCCGGCACGGCTGCGCGCGGCGTTGGCGCTGACCGCGCTGACGCCGATGATCCCGCTGTTCTTCATGGGCGAACCGTGGGCGGCGCGGCAGCCGTTCCTGTTCTTCACCGATTTCGCCCCGCCGCTCGACGAGGCGGTGCGCGAAGGGCGCCGCCGCGAGTTCGCCCGCTTCAGCGCATTCGCCGATCCGGCGCGGCGCGCGCGCATTCCCGATCCGAACGCCGAGGCGACCTTCCAGGCCTCGATCGCGCCGCTGACCGATGCCGAGGAAGGCGACGGCGCGCGCTGGCGCGCGCTCTTCGTGCGGCTGCTGGCGTTGCGCCGGCGCTGGCTGGTGCCGCGGCTGGCGCAGGCGCGCGCGCTCGGCGCCGAGGTGCTGGCACCCGGGGCGATCCGCGCCGGCTGGGCGCTGCCGGGCGGGCACTGGTGGCTGGCCTGCAACGTCGGCCCGGCCCCGGTCCGCCTCGCCCTGCCGGGCGTGCTGGTGCACGCCGAGGGCGAGGTCGGCGCGCTGCTGCCGGTCGATGGCCTGCGCGTGCACTGGGAGGCGCAGGCATGA	MAGMEAAPCWGAWPQSPGEVRFAVWAPSVRRAEVVLEDGRSHPLEAGADGVHAALLACAPGARYRLRFDGAAPVPDPASRWQPDGVHGASAVLDPHGYAWRTPGWLGRPWAEAVIYELHVGCCGGYAGVQAQLPALAAMGITAIELMPLASFAGTRNWGYDGVLAYAPAAAYGSPDELKALVDAAHAHGLMVLLDVVYNHFGPDGNYLGQYAPEVFRDDVPTPWGAAIDFRHAAVQRYFIDNALMWLHEYRFDGLRLDAVHAIVPNGFLDTLREAIVASVPAGRHVHLVLENEANQASQLARGYSAQWNDDFHNALHVLLTGEQEGYYAAFADDPAGHLARVLGEGFAYQGQPDPRGHVRGEPSAQLPPHKFVVFAQNHDQVGNRAFGERLGALVAPARLRAALALTALTPMIPLFFMGEPWAARQPFLFFTDFAPPLDEAVREGRRREFARFSAFADPARRARIPDPNAEATFQASIAPLTDAEEGDGARWRALFVRLLALRRRWLVPRLAQARALGAEVLAPGAIRAGWALPGGHWWLACNVGPAPVRLALPGVLVHAEGEVGALLPVDGLRVHWEAQA	PGPT0014130_1017	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0014130-treZ|glgZ-K01236	NA	NA
BMS020_07140	1926	malQ_2	COG1640	4-alpha-glucanotransferase	ATGAGCGCGGCCGACCTGCATGCGCTCGCCGCCGAGGCTGGCCTGCTGGTCGACTGGATCGACGTGTCCGGGCAGGCGCGGCAGGTGGCGCCGGCGACCCTGCAGGCGGTGCTTGAAGCGCTGGGCCTGCGCGCTGGCACCCCGCTGCAGTGCCGCGACAGCCTGCGCTACCTGCAAGGCGACAGCGGCGCACCGCCGCTGCTGACGGTGATCGCCGGGGCGACGCTGCAGGTCGGCGCGGTGCCGGGCGGCAGCGCGCGCTGGGTCGACGAGCAGGGCGCGGACAGCGAGGCGCGCGTCGATGCGGCCGGGGCGGTGCGCGCGCCGCTGCAGCCCGGCTACTGGACCTTGCTGCACGGCGGCCACGCGCAGGCGGTGGCGGTCGCGCCGGCGCGCTGCTATTCCGTCGCCGACGCCTGCGGCCATCCCGCGCCGCGCGCCTGGGGCCTAGCGCTGCAGGTGTATGCGGCGCGCAGTGCCGACGATGGCGGCATCGGCGATGCCGGCGGCAGCGACGACTGGCTGCGCCGGGTCGCACTGGCCGGTGCCGATGCGCTGGCGTTGAGCCCGGTGCACGCCGCGCGTCCGGTGCGCGGCAGCTACAGCCCGTATTCGCCCAGTGACCGCCGCTTCCTCGATCCGCTGCACGCCGCGCCGGCGCGCGTGCTCGGCGATGCCGCGCACCGCGCCGAGGCCCAGCTGCCGGGGCTGGCCGAGGAGCTGGCGCGGCTGCAGGCGCAGCCGCTGGTCGACTGGCCGGCCGCGGCGGCGGCCAAGTGGGCCTGGTTGCGTGCGTTGCACCAGGGCTTCGCCCACGCATCGCCGACCCTGCAGGCCGACTTCGCCGCGTTCTGCGCCGACGGCGGCGCGGCGCTGCTCGCGCATGCGCGGTTCGCCGCGGCCGACTTCGGCGATGCCGATCCGCACCTGCACCTGTTCGGGCAGTGGCTGGCGGCGCGCAGCTGGCGCGGCGTGCAGCGCGAAGCCAGCGAACGCGGCATGGCGATCGGGCTGGTCGCCGACCTCGCGGTCGGCTTCGATCCGCAGGGCGCCGAAGCCGCGGCCTGGCCGCAGGCGGTGCTGCCCGGCCTGGTGCTGGGCGCGCCGCCGGATGCGTTCAATGCCGACGGGCAGGGCTGGGGCATCGGCAGCTATTCGCCGGCCGGACTGAGCGCGACCGGCTACGCACCGTTCATCGCCTTGCTGCGCGCGGTGATGCGCGACCGCGGCGGCGTGCGCATCGACCACATCCTCGGCCTGCTGCGGCTGTGGGTGGTGCCGGCCGGCGCCGCCTCCGCCGATGGCGCCTACCTGGGCTATCCGCTGCAGGCGCTGCTGGATCTGCTGGCGCTGGAATCGTGGCGGCACCGGGCGATCGTGATCGGCGAGGACCTTGGCGTGGTGCCGCCGGGCATCCGCGCCGAGCTGGCGCGGCGCGGGGTGATGGGCATCGACGTGTTGCTGTTCACCCGCGGCGAGGACGGGCAGTTCCTGCCGCCGGCGTGCTGGCGCGAAGGCGCGGTGGCGACCACCACCACCCACGACCTGCCGACCCTGGTCGGTTGGCGCCAGGGCCATGACATTGCCTGGCGCCGGCGCCTGGGCGTGTCCGACGACGCGCCGGACGCATTGGCCACGCGCGCCGGCGAGGTGCAACGGCTGGAGCGCGCGCTGGCCGATGCCGGCGGCACCTGCGGCGATCCATGGCTGGATGCGCTGCGCTTCACCGCGCGCGGGCCGTCGCCGCTGGCGCTGCTGCCGGTCGAGGATGCCCTGGCGCTGGAGCAGCAGCCGAATCTGCCGGGTACCGTCGAAGGCCATCCGAACTGGCGCCGACGCCTGCCCGAGCCGCTGCCGACCCCCACGCTGCGCGCCGCGCTGCAGGCCTTCGACGAGGCGCGCCGCAGCGGCGCGGCGTTGCCGTGA	MSAADLHALAAEAGLLVDWIDVSGQARQVAPATLQAVLEALGLRAGTPLQCRDSLRYLQGDSGAPPLLTVIAGATLQVGAVPGGSARWVDEQGADSEARVDAAGAVRAPLQPGYWTLLHGGHAQAVAVAPARCYSVADACGHPAPRAWGLALQVYAARSADDGGIGDAGGSDDWLRRVALAGADALALSPVHAARPVRGSYSPYSPSDRRFLDPLHAAPARVLGDAAHRAEAQLPGLAEELARLQAQPLVDWPAAAAAKWAWLRALHQGFAHASPTLQADFAAFCADGGAALLAHARFAAADFGDADPHLHLFGQWLAARSWRGVQREASERGMAIGLVADLAVGFDPQGAEAAAWPQAVLPGLVLGAPPDAFNADGQGWGIGSYSPAGLSATGYAPFIALLRAVMRDRGGVRIDHILGLLRLWVVPAGAASADGAYLGYPLQALLDLLALESWRHRAIVIGEDLGVVPPGIRAELARRGVMGIDVLLFTRGEDGQFLPPACWREGAVATTTTHDLPTLVGWRQGHDIAWRRRLGVSDDAPDALATRAGEVQRLERALADAGGTCGDPWLDALRFTARGPSPLALLPVEDALALEQQPNLPGTVEGHPNWRRRLPEPLPTPTLRAALQAFDEARRSGAALP	PGPT0018570_1897	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018570-malQ-K00705	NA	NA
BMS020_07141	2109			hypothetical protein	ATGCTGGCGCTGGAACGCCAGCGGCCGGCGCGCGGCCGCGCCGCGCAGCGGCAGCGGCTGGTAATCGCCACACGCGAACAGGGCCGGCTGCCGCGCGCGCGCTTGCAGCAGGTTCGCCAGCAGGCGTGCCTTGGCCGCGCCGTCGCGCCAGTCGCGCAGCAGCGCATCCCAGTCACGCGGATCGTCCAGCCAGGCATGGCGGCGCGGGTAGTCCACCGGACGGCGGTTGTCCGGGTCGACCAGCGACAGGTCCCAGCCCTCGCCGCCCTGGTACAGATCCGGCACGCCCGGCACGGTGAGCCGCAGTGCCACCTGCACCAGACCATTGCAGGCCCCGGGCGCGGCGATCGCCTCGGCCGCCTGCCACAGCGCGCGCCGCAGCGGCAGCCCGGCGCGCGCGCACAAGGCCTGCTCCACGCAGGCCTGCGCGGCCTGCTCGTAGTCCGGCGCCGGGTCGGTCCAGCTGGTGAACAGCTTGGCCTCGCGCAGCGCCTTGCACTGCCAGGCCACCAGCCGCTCGGCATAGCCGCGCAGGCCCGGGCCGTCGTCGGGCGCCAGCGCCAGCGGCCACGCCGCCACGACGGTCTGCCACAGCATCCAGCGATCGCCGGCGGCCAGCGCGGCGCCGCCGCACGGGCGCGCCAGCGTGTCGAAGCGGCGCGCCTGCTGCAGCCACCAGCGCGCGCGTTCGGACAGCACCGCCAGCCGCGCGCGCACGTCCTCGCCGCGCTTGTGGTCGTGGGTGGCGGTGGCCAGCAAGGCACGCGGATGGGTCGCCGCGCGCGCCGCGCAGGCGGCGTGGAAGCGCTCCGGCGGCCATGCCAGGTGCCGCGGATCGCTGCCGACCTCGTTGCGCGACAGCAGCACGCCGTGGCGGTAGAACGCGGTGTCCTCGACCGCCTTGGCATTGAGCGGCGCCGACAGCTGCTCGAAGCGCCGCCGCGCGACCCGCCGCAGCGCCAGCTGCGCGCGGCCGGCACCGGCGTCGTCGCGCAGCCAGCGCGCGATCGCCGCCAGCGCCGCGCATACCGGCGACGGCATGCCCGCCCCGGCCTGGGCGATGCAGGCATCCAGGCGCACGGCCTCCGCCGCCGACAGCCCGTCCGGCCCGGCATAGCTGCGGTAGACCGGGAACCAGCGCAGCACCAGCAGCAGCGCGCGCGCCAGCATCTGCGGGCTGAACTCGGCGGTGGCCGGATCCAGCCGCGCCAACGCCGTGAACGCGGCCACCGTGCGGGCGAATTCCGCCTGCAGCGGGCCACGCAGCACCTCGTCGCGCGCGCAGCGCTCCTCCTCGCCGAAGTCGCCGCAGCGGCCGCTGATCCGGTGCCACGCGCTCCGCAGCGGCACCGCCGCCTCGGCGGCGTGCAGGACCGCGCCTACCTGGTCCATGAAGTCGTAGCCGGTGCTGCCATCGCAGCGCCAATCGGCCGGCAGTGCCTCGCCGTCGGCAAGGATCTTCTCGACATACAGCGCGATGCCGCCGGCACCGACGCCACGGCGGCGGCCGGCCGCATCCAGCCTGGCGCGCAGCCGGCGCAGGTAGCCGCGCGGATCGGCCAGCCCATCGATGTGGTCCACGCGCACGCCATCGAGATGGCCTTCGGCGACCAGCCGCAGCGGCAGCGCGTGCACCGCCTCGAATACCGCCGGCCGCTCCTGGCGCAGCGCCGCCAGGCCGCTGATGTCGAAGAAACGGCGGTAGTTGAGCATGTCGTTGCCGACCCGCCACCAGGCCAGCCGGTAGGCCTGGCGCGCGATCAGGCGCTGCAGCGCCACCCGATCGCGGTTGAGCGCCTGCAGCCAGGCCGCGCGCGACTCCAGCGGCGGCAGCCCGGGGCCGCGCAGCGCCAGCGGGAAGCGTTGCCCGCGATAGTCCAGGCACGGCTCGCCGTCCACCTCCTGCACCTGCAGCAGGCCGGCCTCGAGCACCTCGGCGAACGGCCGCTCCAGCACCGGCAGCCACAGCCGGCCATCGCGGCCGGGCGCGCGCCAGTCGATATCGAACCAGTCGGCGTGGCGGCTGCGCCGCCCGTGCCGCAGCACGTCCCACCACCAGTGGTTGGCCGCGTGCGCGGCCATGTGGTTGGGCACGATGTCCAGCAGTAG	MLALERQRPARGRAAQRQRLVIATREQGRLPRARLQQVRQQACLGRAVAPVAQQRIPVTRIVQPGMAARVVHRTAVVRVDQRQVPALAALVQIRHARHGEPQCHLHQTIAGPGRGDRLGRLPQRAPQRQPGARAQGLLHAGLRGLLVVRRRVGPAGEQLGLAQRLALPGHQPLGIAAQARAVVGRQRQRPRRHDGLPQHPAIAGGQRGAAARARQRVEAARLLQPPARAFGQHRQPRAHVLAALVVVGGGGQQGTRMGRRARRAGGVEALRRPCQVPRIAADLVARQQHAVAVERGVLDRLGIERRRQLLEAPPRDPPQRQLRAAGTGVVAQPARDRRQRRAYRRRHARPGLGDAGIQAHGLRRRQPVRPGIAAVDREPAQHQQQRARQHLRAELGGGRIQPRQRRERGHRAGEFRLQRATQHLVARAALLLAEVAAAAADPVPRAPQRHRRLGGVQDRAYLVHEVVAGAAIAAPIGRQCLAVGKDLLDIQRDAAGTDATAAAGRIQPGAQPAQVAARIGQPIDVVHAHAIEMAFGDQPQRQRVHRLEYRRPLLAQRRQAADVEETAVVEHVVADPPPGQPVGLARDQALQRHPIAVERLQPGRARLQRRQPGAAQRQREALPAIVQARLAVHLLHLQQAGLEHLGERPLQHRQPQPAIAAGRAPVDIEPVGVAAAPPVPQHVPPPVVGRVRGHVVGHDVQQ				NA	NA	NA	NA	NA
BMS020_07142	798	phnV	COG1177	Putative 2-aminoethylphosphonate transport system permease protein PhnV	ATGTTGATTTGGTCGCGTAAAGGCCGCGCGGCGGCGGGCGCGCTGGCGGTGACGTTCTTTGCCGGCATCTTCCTGCTGCCGCTGGCGGTGATTTTGCTCTCCAGCCTGAGCCAGCAGTGGAACGGCCTGCTGCCCACCGGCTTTACCTTTGCCCACTTTGTTAACGCTTTTCGCGGCGCGGCGTGGGATTCGCTGTTTTCCAGCCTGGTGGTGGGCTTCTGCGCCAGCCTGCTGGCGCTGTTGTGCGGGATGTGGGCGGCGCTGGCGCTGCGCCAGACGGGCGCGAAGCTGCAGAAATATCTTGGGTTGATGTTTTATCTGCCCAGCGCCATCCCCTCGGTTTCCGTGGGACTGGGCATTCTGGTGGCCTTCAGCCAGGGGCCGCTGCAGATGAATGGCACCTTCTTTATCGTCCTGGCGGCGCATTTCGTGCTGATCTCGGCCTTTACCTTCAGCAACGTGACCACCGGGCTGGCGCGAATTTCCGCTGATATTGAAAACGTCGCCTCCAGTCTGGGCGCTTCCCCGTGGTACCGCCTGCGCCATGTGACGCTGCCGCTGATGACGCCATGGATGATCTCGGCGCTGGCGCTGAGTTTATCGCTGTCGATGGGGGAGTTGGGAGCGACGGTGATGATCTATCCGCCGGGCTGGACCACCCTGCCGGTGACCATTTTCAGCCTGACCGATCGCGGTAATATCGCCGATGGCTCGGCGCTGACCATCGTGCTGGTGGGCGTCACGCTGCTGTTGATGATGAAGCTGGAGCGCATCGCCCGTCGTTTGTGTCAGAGATAA	MLIWSRKGRAAAGALAVTFFAGIFLLPLAVILLSSLSQQWNGLLPTGFTFAHFVNAFRGAAWDSLFSSLVVGFCASLLALLCGMWAALALRQTGAKLQKYLGLMFYLPSAIPSVSVGLGILVAFSQGPLQMNGTFFIVLAAHFVLISAFTFSNVTTGLARISADIENVASSLGASPWYRLRHVTLPLMTPWMISALALSLSLSMGELGATVMIYPPGWTTLPVTIFSLTDRGNIADGSALTIVLVGVTLLLMMKLERIARRLCQR	PGPT0002550_162	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002550-phnV-K11082	NA	NA
BMS020_07143	861	phnU	COG0555	Putative 2-aminoethylphosphonate transport system permease protein PhnU	ATGGCGCAAACCTTAATCCTTACGCGCCCGACGCGAAACCTGCGCCCTTACCTGTGGCTGGCGTTGCCGCTATTGGTGCTGGCGACGCTGTTTTTCTATCCGCTGTTGCTGATCGCCGAACAGGCGCTGCGCGACGCCAGCGGCAACCTGAGCCTCGAAACCTTCTGGCAGGTGATTGACTCAAAACGCTTTATTGGCGCGCTGCTCAATACCTTACAGATTGCGGTGTTCGCTACCCTTGGCTGCCTTGTGCTCGGCAGCGTTTTGGCGCTGATTCTGGTGTTTATTCCGTTCCCCGGTAGCCAGCTGATTTGCCGGGTGATCGATACTTTTATTGCGCTGCCGACCTTCCTTATCACTCTCGCGTTCACCTTTATTTACGGCTCGGCGGGGCTGCTCAACGGCGCCCTGATGGCGCTGTTCGCCTTTGAACTGCCGCCGGTGGACTTCCTCTATTCGATTAACGGCGTGATCCTGGCGGAGATCACCGTCTTTACGCCGCTGGTGATGCGCCCGTTGATGGCCGGACTGCGGCAGATCGATAAGAGTCAGCTGGAAGCGGCGAGTATTCTTGGCGCTCACCCGCTACGGGTGATGACCCAGGTTATCTTCCCGGCGGCGCTGCCGGCGCTGATGGCGGGGGGCAGCCTGTGCCTGCTGTTGACCACTAACGAGTTCGGTATCGTGCTGTTTATCGGCGCCAAAGGGGTCAATACCCTGCCGATGATGGTCTACAGCAAGGCGATTCTGGAGTCGGATTACAGCGTGGCCTGCATGATCGCGCTGATGAATATTCTGCTGTCGCTGGGGCTGTTTATGCTCTATCGGCTGGCGGCGGCGCGCACTGGCGTAAGGAGTTAA	MAQTLILTRPTRNLRPYLWLALPLLVLATLFFYPLLLIAEQALRDASGNLSLETFWQVIDSKRFIGALLNTLQIAVFATLGCLVLGSVLALILVFIPFPGSQLICRVIDTFIALPTFLITLAFTFIYGSAGLLNGALMALFAFELPPVDFLYSINGVILAEITVFTPLVMRPLMAGLRQIDKSQLEAASILGAHPLRVMTQVIFPAALPALMAGGSLCLLLTTNEFGIVLFIGAKGVNTLPMMVYSKAILESDYSVACMIALMNILLSLGLFMLYRLAAARTGVRS	PGPT0002545_163	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002545-phnU-K11083	NA	NA
BMS020_07144	1113	phnT	COG3842	Putative 2-aminoethylphosphonate import ATP-binding protein PhnT	ATGTTAATGAAAACGACCGTCACGCCTTCCCCGTCGCTGGCGGGGACTTCCGGGATCACCCTGGACTCGCTGCGCGTTTCCTACCACGGCAACGTGGTCTTAAAACCGCTGTCATTGACCATTGAACCCGGTGAGGTGCTGGCGCTGATTGGCCCTTCCGGTTCCGGGAAAACCACCGTGCTGCGGGCGATTGCCGGATTTGTGCAACCGGCTGGCGGGCGGATCCTGATCGGCGACACGGACGTCACCCACCTGCCGCCTTACCAGCGCGGGCTGGCGATGGTGGTGCAGAACTACGCGCTGTTTCCCCATATGAAGGTGGAAGACAACGTCGCCTTCGGCCTGCGGGCGCAAAAGCAGCCCAGGGCGCTGATCGCTGGGCGGGTGACTGAAGCCTTAAAAATCGTTGGTATGGCGGACTACGCCACCCGCTATCCGCATCAGCTTTCCGGCGGCCAGCAGCAGCGCGTCGCGATAGCCCGCGCCATTGCCGTGCGTCCTCGGGTGTTGTTGCTTGATGAACCGCTGTCGGCGCTGGATGCGCAAATTCGTCATAACATGGTGGAAGAGATTGCCCGTCTGCACCGCGAACTGCCGGAGCTGACCATCCTCTACGTCACCCACGATCAGACCGAAGCGCTCACTCTGGCGGATAAAATCGGCATTATGAAAGACGGGTCGCTGATCGCCCATGGCGAAACGCACGAGCTGTACCACTATCCGCCGAACCGCTTTAGCGCCGAATTCCTCGGCCGCGCCAATATCCTGCAGGCGACGGCGCTGACCGATAGTCTTCAGCCGGGTCTGGTTAACGTGAGCTGCGGCGGCGGCCTGGTTAACGCCTTCAGCCGGGGCGGGCTGCATGGCAACAACAAGCTGTTATGCATTCGCCCGCAGCATATGAGCCTGGCGCCGCGATCGGCAACCAGTAATCGCCTCAACGCCACCCTGACTTCGGTACACTGGCAGGGCGATCTGACGCATCTGCTGTGCGACGTCGCGGGCGAAGCGGTGCGGATCGTCATGACTCACGTCAACCCCCTGCCGCGCGCGGGCGACAAGCTGGCGCTCTACTTCGAACCTGGCGATGCGGTTCTGATCGAGGAGCAATGA	MLMKTTVTPSPSLAGTSGITLDSLRVSYHGNVVLKPLSLTIEPGEVLALIGPSGSGKTTVLRAIAGFVQPAGGRILIGDTDVTHLPPYQRGLAMVVQNYALFPHMKVEDNVAFGLRAQKQPRALIAGRVTEALKIVGMADYATRYPHQLSGGQQQRVAIARAIAVRPRVLLLDEPLSALDAQIRHNMVEEIARLHRELPELTILYVTHDQTEALTLADKIGIMKDGSLIAHGETHELYHYPPNRFSAEFLGRANILQATALTDSLQPGLVNVSCGGGLVNAFSRGGLHGNNKLLCIRPQHMSLAPRSATSNRLNATLTSVHWQGDLTHLLCDVAGEAVRIVMTHVNPLPRAGDKLALYFEPGDAVLIEEQ	PGPT0002540_80	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002540-phnT-K11084	NA	NA
BMS020_07145	1014	phnS	COG1840	Putative 2-aminoethylphosphonate-binding periplasmic protein	ATGAAACTCTCCCGACTTGCCCTGCTGTCCCTGTTCGCGCTGACCAGCTCCCCGGTTTGGGCGGACGGCGTCGTCACGGTTTACTCCGCCGACGGCCTGCATGACGGCGATAACAGCTGGTATCAGAGCCAGTTCGACGCCTTCACCGAAGCGACGGGCATCAAAGTGCAGTATGTGGAAGGCGGCTCCGGCGCGATTGTCGAGCGTCTGGCGAAGGAGCGCACCAATCCGCAGGCCGACGTACTGGTCACGGTGCCGCCGTTTATCCAGCGCGCCGCGAAAGAGCAGCTGCTGGCCACCTTTACTCCACAGGGCAGCGCGCAGATCCCTGGCGCCAACGACCGCTATTCGCCGCTGGTGAACAACTATCTGACCTTCATCTATAACGGTCAGTTGCTGAAAACCGCGCCGGCCAGCTGGCAGGATCTGCTGGATAGCCGCTTTAAGAATAAGCTCCAGTACTCCACGCCGGGCCAGGCGGGGGACGGCACCGCGGTGATGCTGCAGGCCTTCCACAGCCTTGGCGGTAAAGACGCTGGCTTTGCCTATCTTGGCAAGCTCCAGGCCAATAACGTCGGCCCATCGGCCTCCACCGGCAAGCTGACGGCGCTGGTCAACAAAGGCGAGCTGTACGTCGCCAACGGCGATCTGCAGATGAACCTGTCGCAGATGGCGCGTAACCCGAACGTTAAAATTTTCTGGCCGGCGGATGATAACGGCGAGCGCAGCGCGCTGGCGCTGCCCTACACCATCGGGCTGGTGCAGAACGGGCCGAACAGCGAAAACGGCAAAAAGCTGATTAATTTCCTGCTGGATAAACCGGCGCAATCCAGCGTCAGCGCGCGCTCCTGGGGCTTACCGGTACGCAACGACGTGGCGCCGGATGACGCTAACTTTAAGGCGGCGCAGGCGGCGCTCGACGGCGTGAAGCGCTGGGAACCCAACTGGGGCGACGTTGCGCTTTCTCTCTCGGCGGATATCGCCCGCTGGCATAAAGTGACCGATAGCGAGTAA	MKLSRLALLSLFALTSSPVWADGVVTVYSADGLHDGDNSWYQSQFDAFTEATGIKVQYVEGGSGAIVERLAKERTNPQADVLVTVPPFIQRAAKEQLLATFTPQGSAQIPGANDRYSPLVNNYLTFIYNGQLLKTAPASWQDLLDSRFKNKLQYSTPGQAGDGTAVMLQAFHSLGGKDAGFAYLGKLQANNVGPSASTGKLTALVNKGELYVANGDLQMNLSQMARNPNVKIFWPADDNGERSALALPYTIGLVQNGPNSENGKKLINFLLDKPAQSSVSARSWGLPVRNDVAPDDANFKAAQAALDGVKRWEPNWGDVALSLSADIARWHKVTDSE	PGPT0002535_85	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002535-phnS-K11081	NA	NA
BMS020_07146	720	phnR_2	COG2188	Putative transcriptional regulator of 2-aminoethylphosphonate degradation operons	ATGAAATCACCCTCTGGCGAGATGCCGCAATACCTGATGATTAAGGCGCAGCTGCAGGCGCGTATTCAAAACGGCGCCCTCAAAAGCGGCGATAAATTGCCTTCCGAGCGCGAGCTGTGCGCGTTGTTCAACACGACCCGTATCACCGTGCGCGAGAGCCTGGCGCAGCTGGAGGCCAGCGGCGTGATCTACCGCGCCGACCGCCGCGGCTGGTTTGTGACGCCGGAGCGGCTGTGGCTGGATCCGACGCAGAACACCAACTTCCACAAGCTGTGTCTCGAGCAGGGACGTGAGCCGAAAACGGTGCTGCTTGATGGCCGGTTATCCGCCGTGCCGCTGGATGTGATGGCGCCGCTGGCGCTGCAGCCCTTCGATCAGGTCTACCTGCTGACCCGCCTGCGCTATGCCGACGGGCGTCCGGTGTGCTATTGCGAAAACCACTGCCTGCCGGCCCGGGTGCCGGAGCTGCTGCGCCACGATCTCAACGGCAGTCTGACCGAGATTTATCAGAGCCAGTACGACCTGATCTATACCAGTATGCATTTGTCGTTTTATCCCACCTCCATGCCGCCGCAGGCCGCAGCGGCGTTGGGGGTGATGGAGGGGCGCCCGGCGCTGCTGCTGCGCAGGCTGAATTACGATCAGCACGGGCGTATTCTTGATTACGATATCGAATACTGGCGGCATGACAGCCTACGGATCGAAGTCGATACCCATTGA	MKSPSGEMPQYLMIKAQLQARIQNGALKSGDKLPSERELCALFNTTRITVRESLAQLEASGVIYRADRRGWFVTPERLWLDPTQNTNFHKLCLEQGREPKTVLLDGRLSAVPLDVMAPLALQPFDQVYLLTRLRYADGRPVCYCENHCLPARVPELLRHDLNGSLTEIYQSQYDLIYTSMHLSFYPTSMPPQAAAALGVMEGRPALLLRRLNYDQHGRILDYDIEYWRHDSLRIEVDTH				NA	NA	NA	NA	NA
BMS020_07147	1104	phnW	COG0075	2-aminoethylphosphonate--pyruvate transaminase	ATGACTTCACGAAACTACCTGCTGCTGACCCCCGGCCCGCTAACCACCTCCCGCACAGTGAAAGAGGCGATGTTATTCGATAGCTGCACCTGGGATGATGATTACAATCTCGGCGTGGTACAGACCATTCGTCAGCAGCTGGTGCAGCTGGCCACCCCGGCCGCCGGGTATACGGCGGTGCTGCTGCAGGGCAGCGGCAGCTACGCGGTCGAAGCGGTGCTCGGCAGCGTCATCGGCGAACAGGGCAAAGTGCTGATCGTCAGCAATGGCGCCTATGGCGCGCGTATGATTGAGATGGCGCAGCGGATGGGTATCGCCTTCCACCCTTACGACTGCGGCGAAGTCGCCCGCCCGGACGCCGCGGCGATCGCGCGGATCCTGCGGGATGACCCGGCGATCACCCATATCGCGATGGTGCATAGCGAAACCACCACCGGCATGCTCAACCCGATTGAAGAGGTGGCCGCGCTGGCGAAAGAGTATGGCAAACGCTATATCGTCGATGCGATGAGCAGCTTCGGCGGCATTCCGCTGGATATCGCCGCGCTGAATATTGACTACCTGATAAGCTCTGCCAACAAGTGCATTCAGGGCGTGCCGGGCTTCGCCTTCGTCATCGCCCGCGAATCGGAGCTGGCCGCCTGCAAAGGCCGCTCGCGCTCGCTGTCGCTGGATCTTTACGCCCAGTGGCGCTGTATGGAGGATAACCACGGCAAGTGGCGCTTCACCTCGCCGACCCATACCGTGCTGGCCTTCGCCCAGGCGCTGAAAGAGCTGGCCCAGGAGGGCGGCGTCAGCGCCCGCCATCAGCGCTATACCCGCAATCAGCGCCGACTGGTAGCCGGAATGCGCGCGCTCGGCTTCCGGCCGCTGCTCGACGACAGCCTGCACTCGCCGATCATTACCGCCTTTTATTCACCGGATGCGCCGCAGTATCGCTTTCACACCTTCTACCAGAAGCTGAAAGATCAGGGCTTCGTGATCTATCCGGGCAAAGTGTCGCAAAGCGATTGCTTCCGCATCGGCAACATCGGCGAAGTCTACGACGCCGACATCACCGCCCTGCTGGCGGCCATCGACAACGCCATGTACTGGAAACAATAA	MTSRNYLLLTPGPLTTSRTVKEAMLFDSCTWDDDYNLGVVQTIRQQLVQLATPAAGYTAVLLQGSGSYAVEAVLGSVIGEQGKVLIVSNGAYGARMIEMAQRMGIAFHPYDCGEVARPDAAAIARILRDDPAITHIAMVHSETTTGMLNPIEEVAALAKEYGKRYIVDAMSSFGGIPLDIAALNIDYLISSANKCIQGVPGFAFVIARESELAACKGRSRSLSLDLYAQWRCMEDNHGKWRFTSPTHTVLAFAQALKELAQEGGVSARHQRYTRNQRRLVAGMRALGFRPLLDDSLHSPIITAFYSPDAPQYRFHTFYQKLKDQGFVIYPGKVSQSDCFRIGNIGEVYDADITALLAAIDNAMYWKQ	PGPT0002485_537	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-ANTIBIOTIC_PHOSPHONATE_SUBSTANCES,PGPT0002485-phnW-K03430	NA	NA
BMS020_07148	810	phnX	COG0637	Phosphonoacetaldehyde hydrolase	ATGAACCGTATCACCGCACTCATTCTCGACTGGGCCGGCACCACCGTGGACTTCGGCTCCTTCGCGCCGACGCAAATTTTCGTCGAGGCCTTCCGCCAGGCCTTCGATATTGAGATCACCCTTGAAGAGGCCCGCGTGCCGATGGGGCTTGGCAAATGGCAGCACATTGAGGCGCTGGGCAAACTGCCGTCGGTCGACAGCCGCTGGCAGGCGAAATTTGGTCGGGCGATGACGGCCGCTGATATCGATGTGATCTACGCCGCGTTTATGCCGCTGCAAATCGCTAAGGTTGTCGATTTTTCCGCTCCGATCGCCGGCGTGGTCGACACCCTCGCCGCGCTGCGCGCCGACGGACTGAAGATCGGCTCCTGCTCGGGCTATCCGCGCCCGGTGATGGAAAAACTGGTTCCAGCCGCTGCCGCCCAGGGCTATGCCCCGGACCACTGGGTCGCCACCGATGACCTTGCCGCCGGCGGGCGTCCCGGGCCGTGGATGGCGCTGCAGAACGTGATTGCCCTGGGCATAGACGATGTGGCCCACTGCGTGAAGGTCGACGATGCCGCGCCGGGCATCAGCGAAGGGTTACATGCCGGGATGTGGAGCGTCGGCCTGGCGGTGTCGGGAAATGAATTTGGCGCCACCTGGGAGGCGTATCAGGCGATGTCGAAAGAGGAAATCGCCACCCGTCGCGAGCGGGCGGCAGGCAAGCTGTATGCCGCCGGGGCGCATTATGTGGTTGATACCCTGGCGGACCTGCCGGGGGTGATTGTCGACATCAACGCCCGGCTGGCAAAAGGCGAGCGGCCTTAA	MNRITALILDWAGTTVDFGSFAPTQIFVEAFRQAFDIEITLEEARVPMGLGKWQHIEALGKLPSVDSRWQAKFGRAMTAADIDVIYAAFMPLQIAKVVDFSAPIAGVVDTLAALRADGLKIGSCSGYPRPVMEKLVPAAAAQGYAPDHWVATDDLAAGGRPGPWMALQNVIALGIDDVAHCVKVDDAAPGISEGLHAGMWSVGLAVSGNEFGATWEAYQAMSKEEIATRRERAAGKLYAAGAHYVVDTLADLPGVIVDINARLAKGERP	PGPT0002490_444	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002490-phnX-K05306	NA	NA
BMS020_07149	1194	nepI_5	COG2814	Purine ribonucleoside efflux pump NepI	ATGAGTCATTCAAATGAAGCCAAAACCCACGCACGCGAGCTCGCGCGACCAAACTGGTCGGCAGTTTTCGCGGTTGCTTTCTGCGTCGCCTGCCTGATTACCGTCGAATTTCTACCGGTCAGTCTGCTGACGCCGATGGCGCTGGATTTAGGCATCTCCGAAGGGATGGCCGGGCAGTCGGTGACGACGACGGCGTTCGTCGCGATGTTTTCCAGCCTGTTTATCACCTCCGTTATTGGCAAAACCGATCGCCGCTACGTGGTGATCCTCTTTTCGCTGCTGCTGACCCTTTCCTGCCTGTTGGTGTCCTTTGCCGATAGCTTCACCCTGCTGCTGCTGGGACGCGCCTGTCTGGGGCTGGCGCTCGGCGGTTTCTGGGCGATGTCAGCCTCGCTGACCATGCGTCTGGTGCCGATGCGCGTGGTGCCGAAAGCGCTGTCGATTATCTTCGGCGCGGTATCCATCGCGCTGGTGATCGCCGCCCCGTTGGGCAGTTTCCTTGGCGGGCTTATCGGCTGGCGCAACGTGTTTAACGGCGCGGCGGTGATGGGCGTGCTGTGTACGATCTGGGTGTTGAAAGCGCTGCCGTCGCTGCCGGGTGAATCGGCGGCTCAGCAGCAAAAAATGTTTGGCCTGCTGAAGCGGCCGGGGGTGATGGCCGGCATGTGCGCCATTTTCATGGCTTTTGCCGGACAGTTCGCCTTCTTTACCTATATTCGCCCGGTGTACATGACCCTCGCCGGGTTTGATGTCGATGGCCTGACGCTGGTGCTGCTGAGCTTTGGTATCGCCAGCTTCATCGGCACGTCGCTCTCCTCGGTGCTGCTCAAACGCTCAGTGAAAGCGGCGCTGGCGATTGCGCCGCTGGTGCTGACCGCCTGCGCGGCGGCGCTGGTGCTGTGGGGGGAAAGCAAAATCGTCGCCTCGACGGTGGCGATCATCTGGGGCTTCGCGTTCGCCTTGATCCCGGTGGGGTGGTCAACGTGGATCACCCGTTCCCTCTCCGATCAGGCGGAAAAAGCCGGGTCGATTCAGGTGGCGGTGATCCAGCTGGCCAACACCTGCGGCGCCGCTGTCGGCGGCATTGCGCTTGACCATTTAGGCCTGCTGTCGCCGCTGGTGTTGTCAGGGGTATTGATGCTGTTTACCGGCCTGCTGGTGGCGGCCAAAGTGAAGGTGAATTCACCCGCTTAA	MSHSNEAKTHARELARPNWSAVFAVAFCVACLITVEFLPVSLLTPMALDLGISEGMAGQSVTTTAFVAMFSSLFITSVIGKTDRRYVVILFSLLLTLSCLLVSFADSFTLLLLGRACLGLALGGFWAMSASLTMRLVPMRVVPKALSIIFGAVSIALVIAAPLGSFLGGLIGWRNVFNGAAVMGVLCTIWVLKALPSLPGESAAQQQKMFGLLKRPGVMAGMCAIFMAFAGQFAFFTYIRPVYMTLAGFDVDGLTLVLLSFGIASFIGTSLSSVLLKRSVKAALAIAPLVLTACAAALVLWGESKIVASTVAIIWGFAFALIPVGWSTWITRSLSDQAEKAGSIQVAVIQLANTCGAAVGGIALDHLGLLSPLVLSGVLMLFTGLLVAAKVKVNSPA	PGPT0021090_86	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021090-nepI-K03445	NA	NA
BMS020_07150	360			hypothetical protein	ATGCATATCTTTAAAACCAAATGGTTCGCCAGAGAGGCCAGCTCTCATGGCATTTCCGACGACGAGCTCTATCAGGCAATTCAATCTGCGCTTCAGGGCAAAGTGGTTGATTTAGGAGGAGGGGTTTATAAAAAGCGACTCAACAAGAATCGCGATCGCGCAATCATCCTTACCAAAAGCGCAGGGTATTGGTTTTATACCTTTCTATATGCCAAACAGGATATGGCCAATATCAACCATCGCGAATTAATGGGGTTTCGTGAGTTAGCAAAACACTATGCCAATCTCTCTGAAGAGAAAACGACGGCCTTAGTTAAAAGTAAAGAAATGGTGGAGATTTGCGATGACAGCAAAAAATAA	MHIFKTKWFAREASSHGISDDELYQAIQSALQGKVVDLGGGVYKKRLNKNRDRAIILTKSAGYWFYTFLYAKQDMANINHRELMGFRELAKHYANLSEEKTTALVKSKEMVEICDDSKK				NA	NA	NA	NA	NA
BMS020_07151	324			hypothetical protein	ATGACAGCAAAAAATAAATACAAAAGCCCGGCTTTCGAAGCGATCCATAGCGCTGCGTCGGGGCTATTCAGCGTTGGCGCAATCCCACAGGAAACAATGCGCCATTTTGATGAATCATGTCTCGGTAGCGTAGCCGCACTTCAACCCATTGAAATTAAAGCGCTACGTGAACAACTCAATGTTAGCCAACCCGTGTTCGCTCGTTATCTGAATACCAGTGTGTCTACCGTGCAAAAATGGGAGACTGGCGCTAAACGACCGAGCGGAATGTCATTAAAATTGCTTAGCGTCGTACAAAAACACGGCCTGAAAATCCTACTGTAG	MTAKNKYKSPAFEAIHSAASGLFSVGAIPQETMRHFDESCLGSVAALQPIEIKALREQLNVSQPVFARYLNTSVSTVQKWETGAKRPSGMSLKLLSVVQKHGLKILL				NA	NA	NA	NA	NA
BMS020_07152	453			hypothetical protein	ATGATCTGGATAGGACTGGCCACCCTGGTAGTGGTGTTTGTTGTGGGATTTCGGGTGCTTACCTCTGATTCACGCCGCGCGATCCGCCGCCTGAGCGAACGCCTTGGCATTACTCCCGTCCCGCTGGAATCGATGATCGATCAGCTGGGTAAAACCGCCGGCAATGAGTATTTGCATTACCTGGAACGGCCGAATGAAGCGCATCTGCAGAATGCCGCGCAGGTGCTGCTGATCTGGCAGGTTGCGATTGTCGACGCCAGCGAAAAAAACCTGCATTACTGGTATCGCCTGATGCAAAAAGCGCGTTTAGCGGCGCCGATCACCGACGCGCAAATCCGCCTTGCGCAAGGGTTCCTGCGCGAGCTGGACCCGGATGTGAGCGATTTGCATAACCTTCAGCAGCGCTATAACGACCTGTTTCTCCCGGAAGACGGCGTGCACTGGTTGCACTGA	MIWIGLATLVVVFVVGFRVLTSDSRRAIRRLSERLGITPVPLESMIDQLGKTAGNEYLHYLERPNEAHLQNAAQVLLIWQVAIVDASEKNLHYWYRLMQKARLAAPITDAQIRLAQGFLRELDPDVSDLHNLQQRYNDLFLPEDGVHWLH				NA	NA	NA	NA	NA
BMS020_07153	1392	uhpT	COG2271	Hexose-6-phosphate:phosphate antiporter	ATGCTGGCCTTTCTGAATCAGGTTCGTAAGCCGACCCTGGATCTGCCGCTCGACGTGCGGCGCAAAATGTGGTTCAAACCTTTCATGCAGTCCTATCTGGTGGTCTTCATCGGCTACCTGACCATGTATCTGATCCGCAAGAACTTTAATATTGCGCAGAACGACATGATCTCCACTTACGGGTTGAGCATGACGCAGCTGGGGATGATTGGCCTGGGCTTCTCCATTACCTACGGCGTAGGGAAAACCCTGGTTTCCTACTATGCCGATGGCAAAAACACCAAGCAGTTCCTGCCGTTTATGCTGATCCTCTCCGCCATCTGCATGCTGGGCTTTAGCGCCAGCATGGGCGCGGGTTCCACCAGTCTGTTCCTGATGATCGCCTTCTATGCGCTGAGCGGCTTTTTCCAGAGCACCGGCGGCTCGTGCAGTTATTCCACCATCACCAAGTGGACGCCTCGCCGTAAGCGCGGCACCTTCCTCGGCTTCTGGAATATCTCTCACAACCTCGGCGGCGCCGGCGCGGCGGGCGTGGCGCTGTTTGGCGCCAACTACCTGTTCGACGGCCACGTGATCGGCATGTTTATCTTCCCGTCGATTATTGCGTTAATCGTCGGCTTTATTGGCCTGCGCTATGGTAGCGACTCCCCGGAATCCTATGGCCTCGGCACGGCGGAAGAGCTGTTTGGCGAAGCGATCAGCGAAGAGGATAAAGAGACCGAAGAAAACGCGATGACCAAGTGGCAGATCTTTGTTGAGTACGTGCTGAAAAACAAAGTGATCTGGCTGCTGTGCTTCTCCAACATCTTCCTCTACGTGGTGCGTATTGGTATCGATCAGTGGTCCACCGTGTATGCCTTCCAGGAGCTGAAGCTGTCTAAAGAGGTGGCGATTCAGGGCTTTACCCTGTTTGAAGTCGGCGCCCTGGTTGGCACGCTGCTGTGGGGCTGGCTGTCGGACCTGGCCAACGGCCGCCGCGCGCTGGTGGCCTGCATCGCGCTGGCGCTGATTATCGCCACCCTCGGCGTTTATCAACATGCCAGCAACCAGTACGTCTATCTGGCCTCGCTGTTTGCGCTGGGCTTCCTGGTGTTTGGTCCGCAGCTGCTGATCGGCGTCGCCGCCGTCGGTTTCGTACCGAAAAAAGCGATCGGCGCCGCCGATGGGATCAAGGGCACTTTCGCCTATCTGATCGGCGATAGCTTCGCCAAGCTGGGCCTGGGGATGATCGCCGACGGCACGCCGGTCTTCGGTCTCACCGGCTGGGCCGGCACCTTTGCGGCGCTGGACGCCGCCGCCATCGGCTGTATCTGCCTGATGGCCATCGTGGCTATCTTCGAAGAGCGTAAAATTCGCCGCGAGAAAAAGAATCGCATTTTGCAGACCGCCTGA	MLAFLNQVRKPTLDLPLDVRRKMWFKPFMQSYLVVFIGYLTMYLIRKNFNIAQNDMISTYGLSMTQLGMIGLGFSITYGVGKTLVSYYADGKNTKQFLPFMLILSAICMLGFSASMGAGSTSLFLMIAFYALSGFFQSTGGSCSYSTITKWTPRRKRGTFLGFWNISHNLGGAGAAGVALFGANYLFDGHVIGMFIFPSIIALIVGFIGLRYGSDSPESYGLGTAEELFGEAISEEDKETEENAMTKWQIFVEYVLKNKVIWLLCFSNIFLYVVRIGIDQWSTVYAFQELKLSKEVAIQGFTLFEVGALVGTLLWGWLSDLANGRRALVACIALALIIATLGVYQHASNQYVYLASLFALGFLVFGPQLLIGVAAVGFVPKKAIGAADGIKGTFAYLIGDSFAKLGLGMIADGTPVFGLTGWAGTFAALDAAAIGCICLMAIVAIFEERKIRREKKNRILQTA	PGPT0017185_96	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_HEXOSE_PHOSPHATE_UPTAKE_SENSING,PGPT0017185-uhpT-K07784	NA	NA
BMS020_07154	1329	uhpC	COG2271	Membrane sensor protein UhpC	ATGTTCGCCTTTTTAAAAGCCCCGCCGGACGCCGCGCCGATTAGCGATAAACGCGAGCTTGATGCGCGTTATCGCTACTGGCGTCGCCATATCCTGTTGACCATCTGGCTGGGCTACGCGCTGTTCTATTTCACCCGCAAAAGCTTTAACGCCGCGGTTCCTGATATTCTTGCCAGCAACGTGCTGACCCGCAGCGATATCGGTCTGCTGGCCACGCTGTTCTACATCACCTACGGACTGTCGAAATTTTTCTCCGGTATCGTCAGCGACCGCTCCGACGCCCGCTATTTTATGGGGCTGGGGCTTATCGCCACCGGGGTGGTGAATATTCTGTTCGGTTTTTCTTCCTCACTGTGGGCCTTCGCCCTGCTGTGGGCGCTGAACGCCTTCTTCCAGGGGTGGGGCTCGCCGGTCTGCGCCCGGCTGCTGACGGCCTGGTATTCACGCACCGAGCGCGGCGGCTGGTGGGCGCTGTGGAATACGGCGCATAACGTTGGCGGCGCGCTGATCCCGATGGTGGTGGGGGCGGCGGCGCTACATTACGGCTGGCGCGCGGGGATGATCATCGCCGGGGGCCTGGCGATCCTCGCCGGATTATACCTGTGCTGGCGACTGCGGGATCGTCCGCAGGCGGTGGGGCTGCCCGCCGTCGGCGACTGGCGTCACGATGCGCTGGAGATTGCCCAGCAGCAGGAGGGCGCCGGACTGACGCGTAAAGAAATCCTCACCCGCTACGTGCTGGCCAACCCCTATATCTGGCTGCTGTCGCTGTGCTATGTGCTGGTGTACGTGGTGCGGGCGGCGATTAACGACTGGGGCAATCTGTATATGTCGGAGACGCTTGGCGTCGATCTGGTGACCGCTAACTCGGCGGTGACCATGTTCGAGCTGGGCGGATTTATCGGCGCGCTGGTGGCGGGGTGGGGCTCGGATAAGCTGTTTAACGGCAATCGCGGGCCGATGAACCTGATCTTCGCCGCCGGAATTTTGCTGTCGGTTGGCGGCCTGTGGCTGATGCCGTTCGCCAGCTACGTGATGCAGGCGGCCTGCTTCTTCACCACCGGTTTCTTTGTCTTCGGCCCGCAGATGCTGATCGGCATGGCGGCGGCGGAGTGTTCGCATAAAGAGGCCGCCGGGGCGGCCACCGGGTTTGTCGGCCTGTTCGCGTATCTTGGCGCGTCGCTTTCCGGCTGGCCGCTGGCGCAGGTAATGGATATCTGGCACTGGACCGGATTCTTCGTGGCGATCGCGATTGCCGCCGGCATTTCCGCGCTGCTGCTGCTGCCGTTCTTAAACGCCCAGGCGCCGCGTGCGGCCAGTGAAGCGTGA	MFAFLKAPPDAAPISDKRELDARYRYWRRHILLTIWLGYALFYFTRKSFNAAVPDILASNVLTRSDIGLLATLFYITYGLSKFFSGIVSDRSDARYFMGLGLIATGVVNILFGFSSSLWAFALLWALNAFFQGWGSPVCARLLTAWYSRTERGGWWALWNTAHNVGGALIPMVVGAAALHYGWRAGMIIAGGLAILAGLYLCWRLRDRPQAVGLPAVGDWRHDALEIAQQQEGAGLTRKEILTRYVLANPYIWLLSLCYVLVYVVRAAINDWGNLYMSETLGVDLVTANSAVTMFELGGFIGALVAGWGSDKLFNGNRGPMNLIFAAGILLSVGGLWLMPFASYVMQAACFFTTGFFVFGPQMLIGMAAAECSHKEAAGAATGFVGLFAYLGASLSGWPLAQVMDIWHWTGFFVAIAIAAGISALLLLPFLNAQAPRAASEA	PGPT0017170_317	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_HEXOSE_PHOSPHATE_UPTAKE_SENSING,PGPT0017170-uhpC-K07783	NA	NA
BMS020_07155	1503	uhpB		Signal transduction histidine-protein kinase/phosphatase UhpB	ATGAAGACCTTACTCCCGCGCCTGCTGTCGGTGATCGGCTGCGCCTTTATCTTCGCCGCCGCCTGGTTTTGTCTGTGGAGCATCAGCCTGCATCTGGTGGAGCGCGCCGATCTGGCGGTGCTGCTGTTCCCCTTCGGCCTGCGGCTGGGGCTGATGCTCCAGTGCCCGCGCGGCTACTGGCCAGTGCTGCTGGGAAGCGAGTGGCTGCTGATCTTCTGGCTGACGCAGGAAGTGGCGCTGGCGCATCCGATAATATTGATGACCGGAAGCCTGCTGACCCTCCTGCCGGTGGCGCAGATCTCGCGATATCGTCAGCAGCGCGACTGGCTGACGCTTCTGCGTCAGGGCGGGGCGTTAATGGCCGCCGCGCTGCTGCAATCGCTGCCCTGGCTGGCGGAGGGGGACGAGGGGCTTAACGCCCTGCTGTTGACGCTCACCGGCGGCCTGACCCTGGCGCCGACCTGTCTGGTGTTCTGGCACTACCTCACCAGCACCGTCTGGCGGCCGCTGGGGCCGTCGCTGGTGGCGCAGCCGGTAAACTGGCGCGGGCGGCATCTGATCTGGTATCTGCTGTTATTCACCATAAGCCTGTGGCTGCAGCTTGGGCTGCCCGCCGAGCTCTCCCGCTTTACCCCGTTTTGCCTCGCGCTGCCGATTATCGCTCTGGCCTGGCACTACGGCTGGCAGGGAGCGCTGATCGCTACGCTGATGAACGCGATCGCCCTGATTGCCAGCCAGACCTGGCACGATCACCCCGTCGATCTCCTGCTTTCGCTGCTGGCGCAGAGCCTCACCGGGCTGCTGCTGGGGGCGGGGATCCAGCGATTGCGCGAGCTGAACCAGTCGCTACAGAGCGAGCTGGCGCGCAATCGGCGGCTGGCTGATCGTCTGCTGGAGACTGAAGAGAGCGTGCGCCGCGACGTTGCCCGCGAGCTCCACGATGATATCGGGCAGACCATCACGGCAATACGCACCCAGGCGGGGATCGTCCAGCGGCTGGCGCCGGACAACGCCAGCGTTCGCCAGAGCGGCCAACTGATTGAACACCTGTCGCTGGGGGTGTATGACTCGGTGCGTCGCCTGCTGGGCCGTCTTCGTCCGCGCCAGCTTGACGACCTGCCGCTGGAGCAGGCGGTACGTTCTCTGATGCGCGAAATGGAGCTGGAGGACCGCGGCATCGTCAGCCATCTCGACTGGCGGATTAACGAGGCGGGGCTGAGTGAAAACCAGCGCGTGACCCTGTTCCGCGTCTGCCAGGAGGGACTGAACAATATCGTCAAGCATGCCAGCGCCAGCGCCGTGACCCTGCAGGGCTGGCAGCAGGAGGAGCGACTGATGCTGGTGCTGGAGGATGACGGCTGCGGCCTGCCGCCGGGCTCCAGCGCGCAGGGGTTCGGTCTGACCGGCATGCGCGAGCGCGTGACCGCCCTGGGGGGCACGCTGACGATCTCCTGCACCCACGGTACCCGGGTGTGCGTCAATCTACCGCTGCGTTACGCCTGA	MKTLLPRLLSVIGCAFIFAAAWFCLWSISLHLVERADLAVLLFPFGLRLGLMLQCPRGYWPVLLGSEWLLIFWLTQEVALAHPIILMTGSLLTLLPVAQISRYRQQRDWLTLLRQGGALMAAALLQSLPWLAEGDEGLNALLLTLTGGLTLAPTCLVFWHYLTSTVWRPLGPSLVAQPVNWRGRHLIWYLLLFTISLWLQLGLPAELSRFTPFCLALPIIALAWHYGWQGALIATLMNAIALIASQTWHDHPVDLLLSLLAQSLTGLLLGAGIQRLRELNQSLQSELARNRRLADRLLETEESVRRDVARELHDDIGQTITAIRTQAGIVQRLAPDNASVRQSGQLIEHLSLGVYDSVRRLLGRLRPRQLDDLPLEQAVRSLMREMELEDRGIVSHLDWRINEAGLSENQRVTLFRVCQEGLNNIVKHASASAVTLQGWQQEERLMLVLEDDGCGLPPGSSAQGFGLTGMRERVTALGGTLTISCTHGTRVCVNLPLRYA	PGPT0017175_338	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_HEXOSE_PHOSPHATE_UPTAKE_SENSING,PGPT0017175-uhpB-K07675	NA	NA
BMS020_07156	594	uhpA	COG2197	Transcriptional regulatory protein UhpA	ATGACCACCATCGCCCTTATTGACGATCATTTGATTGTCCGCTCCGGCTTTGCTCAGCTGCTGGGGCTGGAAACTGATTTTCAGGTTGTCGCCGAATTTGGCAGCGGCCGCGAGGCGCTGGCGGGGTTGCCGGGGCGCGGCGTTCAGGTCTGTATCTGCGATATCTCGATGCCGGATATTTCCGGGCTGGAGCTGCTCAGCCAGCTGCCGAAGGGGATGGCGACCATCATGCTGTCGGTGCACGACAGCCCGGCGCTGGTCGAGCAGGCGCTCAACGCCGGCGCGCGTGGCTTTCTGTCGAAACGCTGCAGCCCGGACGAACTTATCGCCGCGGTGCGCACGGTGGCGGCGGGCGGCTGCTATCTCACGCCGGATATCGCCATGAAGCTGGCCGCCGGGCGTCAGGATCCGCTCACCAAACGCGAACGTCAGGTGGCGGAAAAGCTGGCGCAGGGCATGGCGGTAAAAGAGATCGCCGCTGAGCTCGGGCTGTCGCCGAAAACCGTCCACGTTCATCGCGCCAACCTGCTGGAAAAGCTGGGCGTCAGCAATGACGTCGAGCTGGCGCGCCGCATGTTTGACAGCTGGCAATGA	MTTIALIDDHLIVRSGFAQLLGLETDFQVVAEFGSGREALAGLPGRGVQVCICDISMPDISGLELLSQLPKGMATIMLSVHDSPALVEQALNAGARGFLSKRCSPDELIAAVRTVAAGGCYLTPDIAMKLAAGRQDPLTKRERQVAEKLAQGMAVKEIAAELGLSPKTVHVHRANLLEKLGVSNDVELARRMFDSWQ	PGPT0017180_91	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_HEXOSE_PHOSPHATE_UPTAKE_SENSING,PGPT0017180-uhpA-K07686	NA	NA
BMS020_07157	288	ilvN	COG0440	Acetolactate synthase isozyme 1 small subunit	ATGCAAAAACACTGTGATAACGTCATCCTGGAACTCACCGTCCGCAACCACCCCGGCGTCATGACCCACGTCTGCGGGCTTTTTGCCCGCCGCGCGTTTAACGTCGAAGGTATTCTCTGTCTACCGATTCAGGGCAGCGAACACAGCCGCATCTGGCTGCTGGTGAACGACGATCAGCGTCTCGGGCAGATGATTAGTCAGATTGAAAAGCTGGAAGATGTCACCAAAGTGGCGCGTAACCAGTCCGATCCCACCATGTTTAACAAAATTGCGGTGTTCTTCGAGTAA	MQKHCDNVILELTVRNHPGVMTHVCGLFARRAFNVEGILCLPIQGSEHSRIWLLVNDDQRLGQMISQIEKLEDVTKVARNQSDPTMFNKIAVFFE	PGPT0008205_4096	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
BMS020_07158	1689	ilvB	COG0028	Acetolactate synthase isozyme 1 large subunit	ATGGCAAGTTCGGGCACCACATCAAACACAATGCGCTTTACCGGCGCGCAGCTGGTTGTTCATTTACTGGAACGCCAGGGTATCACTATGGTTAGCGGCATTCCGGGCGGCTCCATCCTGCCTATCTACGATGCCTTAAGCCAGAGCACGCAGATCCGCCACATCCTGGCGCGCCACGAGCAGGGCGCGGGCTTTATCGCCCAGGGGATGGCGCGTACCGAAGGCAAACCGGCGGTCTGTATGGCCTGCAGCGGCCCGGGGGCGACGAACCTGGTGACGGCGATCGCCGATGCCCGCCTGGATTCGATTCCGCTGGTCTGCATCACCGGCCAGGTGCCGGCATCGATGATCGGCACCGACGCCTTCCAGGAAGTGGACACCTACGGCATCTCTATCCCCATCACCAAACATAACTATCTGGTGCGCGACATCGCCGAGCTGCCGCAGGTGATCAGCGACGCCTTCCGTATTGCTCAGTCCGGGCGTCCCGGGCCGGTGTGGATAGACATTCCTAAGGACGTACAGTCGGCGACCATTGAGCTGGAAACGCTGCCGGAGCCGGGCGAGCGCGCCGCAGCGCCGGCATTCGCCCCCGAAAGCGTGCGCGAAGCGGCGGCGATGATCAACGCGGCGAAGCGTCCGGTGCTCTATCTGGGCGGCGGGGTAATTAACGCGCCGCAGGAGATCCGTGAGCTGGCGGAAAAAGCCAACCTGCCGACCACCATGACCCTGATGGCGCTGGGCATGCTGCCGAAGGCGCACCCGCTGTCGCTGGGGATGCTGGGCATGCATGGCGCGCGCAGCACCAACTTCATTCTGCAGGAAGCGGATTTACTGATTGTCTTAGGCGCGCGTTTTGATGACCGGGCGATTGGCAAGACCGAGCAGTTCTGCCCGAACGCGAAGATTATCCACGTCGATATCGACCGCGCCGAGCTGGGCAAAATTAAGCAACCGCACGTGGCGATTCAGGGCGATGTGGCGGAAGTCTTAGCCCAGCTGAACCCGCAGGTTGAGGCGCAGCCGCGCGAGGAGTGGCGCCAGCTGGTGGCCGACTTGCAGCGCGAATTCCCCTGCGCCATCCCGCAGGAAAGCGACCCGCTCTCTCATTATGGCCTGATTAACGCCGTGGCCGCCTGCGTGGATGATGAAGCGATCATCACCACCGACGTAGGCCAGCACCAGATGTGGACGGCGCAGGCCTACCCGCTCAACCGTCCGCGCCAGTGGCTGACCTCCGGCGGTCTTGGCACCATGGGCTTCGGCCTGCCGGCGGCGATCGGCGCGGCGCTTGCGAATCCGCAGCGCAAGGTTATCTGCTTCTCCGGCGACGGCAGCCTGATGATGAATATTCAGGAGATGGCTACCGCCGCTGAAAATCAGCTGGATGTAAAAATTATTCTGCTGAACAACGAAGCGCTGGGGCTGGTGCATCAGCAGCAGAGCCTGTTCTATCAGCAGGGGGTTTTTGCCGCCACCTATCCGGGGATGATTAACTTTATGCAGATTGCCGCCGGTTTTGGCCTGCAAACCTGTGATTTAAATAACGAAGCCGATCCGCAGGCAGCGCTGCAGGCGATCATCGACCGTCCGGGGCCGGCGCTGATCCACGTGCGCATCGACGCGCAGCAGAAAGTGTATCCGATGGTACCGCCGGGTGCGGCTAATACTGAAATGGTGGGGGAATAA	MASSGTTSNTMRFTGAQLVVHLLERQGITMVSGIPGGSILPIYDALSQSTQIRHILARHEQGAGFIAQGMARTEGKPAVCMACSGPGATNLVTAIADARLDSIPLVCITGQVPASMIGTDAFQEVDTYGISIPITKHNYLVRDIAELPQVISDAFRIAQSGRPGPVWIDIPKDVQSATIELETLPEPGERAAAPAFAPESVREAAAMINAAKRPVLYLGGGVINAPQEIRELAEKANLPTTMTLMALGMLPKAHPLSLGMLGMHGARSTNFILQEADLLIVLGARFDDRAIGKTEQFCPNAKIIHVDIDRAELGKIKQPHVAIQGDVAEVLAQLNPQVEAQPREEWRQLVADLQREFPCAIPQESDPLSHYGLINAVAACVDDEAIITTDVGQHQMWTAQAYPLNRPRQWLTSGGLGTMGFGLPAAIGAALANPQRKVICFSGDGSLMMNIQEMATAAENQLDVKIILLNNEALGLVHQQQSLFYQQGVFAATYPGMINFMQIAAGFGLQTCDLNNEADPQAALQAIIDRPGPALIHVRIDAQQKVYPMVPPGAANTEMVGE	PGPT0008185_6573	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
BMS020_07159	96			hypothetical protein	ATGAACGCAACCCTGATCGCTTCGACCCTACTAAAAACCGCGCCAGCCGCGGTGGTCGTCGTGTCTGTGGTGGTCGTCGTCGGCAATGCGCCGTAG	MNATLIASTLLKTAPAAVVVVSVVVVVGNAP				NA	NA	NA	NA	NA
BMS020_07161	90			hypothetical protein	ATGGGCGGAATGGATATTATTATTTTAATCCTGAAACTCATGGTTGCTGTGTTGCAACTACTTGATGCAGTCCTGAAACAGTTCCGCTGA	MGGMDIIILILKLMVAVLQLLDAVLKQFR	PGPT0027310_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TisB-IstR_TOXIN-ANTITOXIN_SYSTEM,PGPT0027310-toxin_tisB-K19148	NA	NA
BMS020_07162	447			hypothetical protein	ATGCCACCCCTGTTAATTGCCGCCACGACGCCGGATGCCCCGGGGTTCGCGGCGCTGCGCACCGAAAGCCTTGAACAGCATTTCAATATGCTGCGCCGCCTGGCGGAAAACTGGCAGAGCGGCAAAAACCGCTTTACCGCGCCGGGCGAAACGCTGCTGGGCGCCTTCGTGAATCACCAGCTGGTTGGGGTATGCGGCATCAATAGCGATCCCTTCAGCCCCCAGCCGCGGGCCGGGCGTATTCGCCACCTCTACATCAGCGAGCGCTACCGCCGCCGGGGGATCGGCCAGCAGCTGCTGGTCTCGGTTATCACCCACTCCAGCGCCTGGTTCGATTTTCTCAACACCCACGCTCCGGCGCAGGCCTGGCCCTTTTATGAAAGACTTGGCTTTCGCCCGGTGTACGATGAACCGCGGGTGACGCATCGCCTGTTTTGTTCGCTGTAG	MPPLLIAATTPDAPGFAALRTESLEQHFNMLRRLAENWQSGKNRFTAPGETLLGAFVNHQLVGVCGINSDPFSPQPRAGRIRHLYISERYRRRGIGQQLLVSVITHSSAWFDFLNTHAPAQAWPFYERLGFRPVYDEPRVTHRLFCSL				NA	NA	NA	NA	NA
BMS020_07163	834			hypothetical protein	ATGACCCTCACCGTATTCTGCATTTTGCTGTTCGCCGCCCTGCTGCACGCCAGCTGGAACGCTATTGTCAAAGCCAGCGGCGATAAAATGTACGCGGCGATCGGCGTCAGCGGCTCGGCCGCGCTGCTCGCCCTGGTGATGCTGCCTTTTGCCCCGCAGCCCACGCTGGCCAGCGCCCCCTATCTGCTGGCGTCGTGCGCGTTACAGGTAGTGTATACGGTGCTGGTGGCGAAGACCTATCAGGTGTCGGATATGAGCCAGACCTATCCGCTGATGCGGGGGACTGCCCCGTTGCTGGTGGCGGCGATAAGCGTGCTGTTTCTCGGCGATCGTTTGTCGCCGCTGGCCTGGCTGGGCATCGGCGTCATCTGCCTGGCCATTCTGGCGATGGCCTTTAACGGCCGCGCCAGCTCCCGCAAAGGCATCGTGCTGGCGCTGATCAACGCCTGCTTTATCGCCGGCTATACGCTGGTGGATGGCACCGGCGTCCGGCTGGCGGGCTCGGCGCTGGGCTACACCCTGTGGACCTTTTTTATGAACGGCTTCTGCCTGCTAAGTTGGGCAATGATAACCCGCCGTGCTGAAGCCAGCCGCTATCTACGCCTGCACTGGCGAATAGGTATCCTCGGCGGGATCGGCACCATGGGCTCCTACGGCCTGGCGCTGTGGGCGATGACCCAGGCGCCGCTGGCGGTGGTCGCCGCGCTGCGTGAAACCTCCATTTTGTTCGGCGCGCTGATCGCGTTTATCGTCCTGAAAGAGCAACTGATGCCGCTGCGCATCGTCGCCGCCTGCGGGATTGCCGCCGGGGCGATCCTCCTGCGCCTCGCGTAA	MTLTVFCILLFAALLHASWNAIVKASGDKMYAAIGVSGSAALLALVMLPFAPQPTLASAPYLLASCALQVVYTVLVAKTYQVSDMSQTYPLMRGTAPLLVAAISVLFLGDRLSPLAWLGIGVICLAILAMAFNGRASSRKGIVLALINACFIAGYTLVDGTGVRLAGSALGYTLWTFFMNGFCLLSWAMITRRAEASRYLRLHWRIGILGGIGTMGSYGLALWAMTQAPLAVVAALRETSILFGALIAFIVLKEQLMPLRIVAACGIAAGAILLRLA				NA	NA	NA	NA	NA
BMS020_07164	1185	emrD		Multidrug resistance protein D	ATGAAACGGCATAAAAACTTCAATTTGTTGTTGATGCTGGTACTGCTGGTGGCCGTCGGCCAGATGGCGCAGACCATCTATATTCCGGCCATCGCCGACATGGCGGTCGCGCTGAACGTCCGCGAAGGGGCGGTACAAAGCGTAATGGCGGCCTACCTGCTGACCTACGGTATTTCACAGCTGTTTTACGGCCCGCTCTCCGACCGCGTGGGTCGCCGCCCGGTGATCCTCGTCGGGATGTCGATTTTTATTCTGGCGACGCTGGTAGCCATTACCACCCATAGCCTGCCGGTGCTGATCGCCGCCAGCGCCATGCAGGGGATGGGCACCGGCGTCGGCGGCGTGATGGCGCGCACCCTGCCCCGCGATCTGTACGAAGGCGCCCAGCTGCGTCATGCCAATAGCCTGTTAAATATGGGCATTCTGGTCAGCCCGCTGATTGCCCCGCTGCTCGGCGGCATCCTCGACACCCTGTGGAACTGGCGCGCCTGTTACGCCTTCCTGCTGGTGCTGTGCGCAGGGGTGACCTTTAGCATGGCGAAATGGATGCCGGAAACGCGACCGGAGGGCGCGCCGCGCACCAAACTTCTGGCCAGCTACAAAACGCTGTTCGGCACCGGCGCCTTTAACTGTTACCTGCTCATGCTGATCGGCGGCCTGGCGGGGATTGCGGTATTCGAAGCCTGTTCCGGCGTACTGATGGGCGCGGTGCTCGGCCTGAGCAGCATGGCGGTGAGTATTCTGTTTATTCTGCCGATCCCGGCCGCCTTCTTCGGCGCCTGGTTTGCCGGCCGGCCGAACAAGCGTTTCCCGACCCTGATGTGGCAATCGGTTATCTGCTGCCTGCTGGCGGGTCTGATGATGTGGATCCCGGGGCTGCTGGGCGTCATGACCGTCTGGACCCTGCTGGTGCCGGCGGCGCTGTTCTTCTTTGGCGCCGGCATGCTGTTCCCGCTGGCCACCAGCGGCGCGATGGAGCCATTCCCGTTCCTCGCCGGTACCGCCGGGGCGCTGGTTGGCGGCTTGCAGAATATCGGTTCCGGCGTGCTGGCATGGCTGTCAGCAATGATGCCGCAAACCGGTCAGAGCAGTCTCGGGCTGCTGATGATGCTGATGGGCCTGTTGATTCTGCTGTGCTGGCTGCCGCTGGCCTCGCGCTTTACTCATCATCAGCAGCCGGTATAA	MKRHKNFNLLLMLVLLVAVGQMAQTIYIPAIADMAVALNVREGAVQSVMAAYLLTYGISQLFYGPLSDRVGRRPVILVGMSIFILATLVAITTHSLPVLIAASAMQGMGTGVGGVMARTLPRDLYEGAQLRHANSLLNMGILVSPLIAPLLGGILDTLWNWRACYAFLLVLCAGVTFSMAKWMPETRPEGAPRTKLLASYKTLFGTGAFNCYLLMLIGGLAGIAVFEACSGVLMGAVLGLSSMAVSILFILPIPAAFFGAWFAGRPNKRFPTLMWQSVICCLLAGLMMWIPGLLGVMTVWTLLVPAALFFFGAGMLFPLATSGAMEPFPFLAGTAGALVGGLQNIGSGVLAWLSAMMPQTGQSSLGLLMMLMGLLILLCWLPLASRFTHHQQPV	PGPT0029225_312	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029225-emrD-K08154	NA	NA
BMS020_07165	924	dsdC_2	COG0583	HTH-type transcriptional regulator DsdC	ATGGATGTGCTAAAAAAAATAGGTACCCGGCTGCTGAACGGCTGGCAGCTCTCCAGGCTGTCGACCTTTGAAGTGGCGGCGCGGCACGAGTCGTTTGCCCTGGCCGCCGACGAGCTGGCGCTCACGCCTGGCGCCGTCAGCCACCGGATTAATCAGCTGGAAGCGGAGCTGGGGATCCTGCTCTTTGTCCGCTCGCATCGCAAAGTTGAGCTGACGCGTGAAGGTAAGCGGGTCTACTGGGCGCTGAAGTCGTCGCTGGATGGCCTCAATCAGGAGATCCTCGACATCAAAAACCAGGAGCTCTCCGGCAGTCTGACGGTCTACTCGCGGCCCTCTATCGCCCAGTGCTGGCTGGTGCCGGCTCTGGGAGACTTTACCCGCCGTTACCCTGCCATCTCCCTCACCGTGCTGACCGGCAACGAGAACGTTAACCTGCAGCGGACGGGCATCGATCTGGCGATCTATTTTGATGATGCGCCGTCGTCGCAGTTGAGCCACCATTTTCTGATGGATGAGGCGATCGTGCCGGTATGTACGCCGAATTACGCGCACCAGCGGCAGTTAATGTCGAATCCGGGCAATCTGCGCCACTGTACCTTGCTCCACGACCGCCAGGCATGGAGCAACGATTCCGGCACCGATGAGTGGTATAGCTGGGCGCAGCAGTTTGCGGTGGACCTGCCGCCATCGTCGGGCATTGGCTTCGATCGTTCCGATTTAGCGACGATCGCGGCGATGAACCACCTCGGGGTGGCAATGGGGCGTAAGCGGCTGGTGCAGAAGCGGCTGGAGAGCGGGGAGTTGATCGCCCCGTTTGGCGATATGACGCTGAAATGCCACCAGCACTACTATGTGACCACCCTGCCGGGTCGTCAGTGGCCGAAAATCGACGCCTTTATCGAGTGGCTGCATAGTCTGACCTGA	MDVLKKIGTRLLNGWQLSRLSTFEVAARHESFALAADELALTPGAVSHRINQLEAELGILLFVRSHRKVELTREGKRVYWALKSSLDGLNQEILDIKNQELSGSLTVYSRPSIAQCWLVPALGDFTRRYPAISLTVLTGNENVNLQRTGIDLAIYFDDAPSSQLSHHFLMDEAIVPVCTPNYAHQRQLMSNPGNLRHCTLLHDRQAWSNDSGTDEWYSWAQQFAVDLPPSSGIGFDRSDLATIAAMNHLGVAMGRKRLVQKRLESGELIAPFGDMTLKCHQHYYVTTLPGRQWPKIDAFIEWLHSLT	PGPT0026360_1447	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS020_07166	1338	dsdX		D-serine transporter DsdX	ATGGGTTCGCAAGTCTGGGTTGTGAGCACGCTGCTGATCAGCATCGTGTTAATCGTCTTAACGATCGTCAAACTGAAGTTTCATCCTTTTCTGGCGCTGCTGCTGGCGAGCTTTTTCGTCGGCGCGATGATGGGAATGGGCCCGCTGGAGATGGTCAACGCCATTGAGAGCGGGATCGGCGGCACGCTGGGCTTCCTGGCGGCGGTGATCGGCCTCGGCACCATTCTCGGCAAGATGATGGAGGTCTCCGGCGCGGCGGAGCGCATCGGTCTGACGCTGCAGCGCTGCCGCTGGCTGTCGGCGGACGTGATTATGGTGCTGGTCGGCCTGATCTGCGGCATCACGCTGTTTGTCGAAGTCGGCGTGGTCCTGCTGATCCCGCTGGCCTTCTCCATCGCAAAAAAAACCAACACCTCGCTGCTGAAGCTGGCTATTCCGCTGTGTACCGCGCTGATGGCGGTGCACTGCGTGGTCCCTCCGCATCCGGCGGCCCTGTTTGTCGCTAACAAACTGGGCGCCGATATTGGCACAGTGATTGTCTATGGCCTGCTGGTCGGTCTGATCGCCTCGCTGGTTGGCGGCCCGCTGTTTCTCCGAGCGTTAGGCAACCGCCTGCCGTACAAACCGGTCCCGGCCGAATTTGCCAATCTTGAGGTCCGCGAGGCGTCGACGCTGCCGTCGCTCGGCGCCACGCTGTTTACCGTACTGCTGCCGATTGGCCTGATGCTGGTGAAAACCGTCGCCGAACTGAACATGGCGAAAGGCGGCACGTTGTATACGGTGCTGGAATTTATCGGCAACCCCATCACCGCGATGTTTATCGCCGTCTTTGTCGCGTATTACATGCTCGGCATTCGTCGGCAAATGGGGATGGGCGTCCTGCTAACCCATACTGAAAATGGCTTTGGGTCGATCGCCAACATCCTGCTGATTATCGGCGCAGGCGGCGCGTTCAACGCGATCTTAAAATCCAGCGGCCTGGCCGATAGCCTGGCGGTGATCCTGTCGAACCTCGATATGCACCCGATTCTGCTGGCCTGGCTGGTGGCGCTTATCCTGCACGCCGCCGTCGGCTCCGCCACCGTGGCGATGATGGGCGCCACCGCCATCGTCGCGCCGATGCTGCCGCTCTATCCCGGCGTCAGCCCGGAGATCATCGCTATTGCTATCGGTTCCGGCGCCATTGGCTGCACGATCGTCACCGATTCCCTCTTCTGGCTGGTCAAACAGTACTGCGGCGCAAGCCTCAGTGAAACGTTCAAGTACTACACGACGGCGACTTTTATCGCGTCGCTACTTGCACTGGCCGCCACCTTCCTGCTTTCTTTCATTATCTGA	MGSQVWVVSTLLISIVLIVLTIVKLKFHPFLALLLASFFVGAMMGMGPLEMVNAIESGIGGTLGFLAAVIGLGTILGKMMEVSGAAERIGLTLQRCRWLSADVIMVLVGLICGITLFVEVGVVLLIPLAFSIAKKTNTSLLKLAIPLCTALMAVHCVVPPHPAALFVANKLGADIGTVIVYGLLVGLIASLVGGPLFLRALGNRLPYKPVPAEFANLEVREASTLPSLGATLFTVLLPIGLMLVKTVAELNMAKGGTLYTVLEFIGNPITAMFIAVFVAYYMLGIRRQMGMGVLLTHTENGFGSIANILLIIGAGGAFNAILKSSGLADSLAVILSNLDMHPILLAWLVALILHAAVGSATVAMMGATAIVAPMLPLYPGVSPEIIAIAIGSGAIGCTIVTDSLFWLVKQYCGASLSETFKYYTTATFIASLLALAATFLLSFII	PGPT0001340_510	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
BMS020_07167	1329	dsdA	COG3048	D-serine dehydratase	ATGAAACACGCTGAATTGACTACCTTGACCGCGACCTTCCCGCTTGTGCAGGATCTGATCGCCCTGAAAGAAACCACCTGGTTTAACCCCGCCACCACCCCTCTGGCGGAGGGATTGCCTTACGTCGGCCTGACCGCCGACGACGTGCAGGACGCCCATGCCCGCCTTCAGCGCTTCGCGCCCTATCTGGCGGAAGCCTTCCCGGAAACGGCCGTCAGCGGCGGGATCATCGAATCGGAAGTGGTCGCCATTCCGGCAATGAAGCACCGCCTCGAGCAAAAATTCGGCCAGCCGATTGGCGGCGAACTGCTGCTGAAAAAAGACAGCCATCTGCCGATCTCCGGCTCGATCAAAGCGCGCGGCGGCATTTATGAAGTGCTGACCCATGCGGAAAAGCTGGCGCTCGAGGCCGGGCTGCTGACTAGCGCAGATGATTATCGCAAATTGCTGACGCCGGAGCTTAAACAGTTCTTCCGCCAGTACAGCATCGCCGTCGGCTCAACCGGCAACCTCGGGATGTCGATCGGCATCATGAGCGCCCGCATCGGCTTTAAGGTTACCGTGCATATGTCCGCGGACGCCCGGGCGTGGAAAAAGGCCAAACTGCGCAGCCACGGCGTGACGGTGGTGGAGTATGAAGAGGACTACGGCGTGGCGGTCGAACAGGGACGCAAGGCGGCGGAATCCGACCCGAACTGCTTTTTCATCGACGATGAAAATTCGCGCACGCTGTTCCTCGGCTATGCCGTGGCCGGCGAGCGCCTGAAGGCGCAGTTCGCCAAAGCCGGACGGGTGGTCGATGCCGACCATCCGCTGTTCGTCTACCTGCCGTGCGGCGTCGGCGGCGGCCCCGGCGGCGTGGCGTTTGGCCTCAAGCTGGCCTTTGGCGACCACGTTCACTGCCTGTTCGCCGAACCGACCCACTCTCCCTGCATGCTGCTCGGCGTCTACACCGGGCTTCATGACCAGATAGCGGTGCAGGATTTAGGCATTGATAACCTGACCGCCGCCGACGGTCTGGCGGTCGGCCGGGCGTCCGGCTTCGTTGGCCGGGCAATGGAGCGCCTGCTCGACGGGTTCTATACCCTTGACGACCAGACGATGTATGACATGTTGGGCTGGCTGGCGACAGCGGAAAATATCCGCCTTGAGCCCTCCGCGCTGGCCGGGATGGCCGGGCCGCAGCGCGTCTGCGCCAGCAAAGCGTACCATCAGCTGCAGGGGCTGAGTGAGCAACAGCTGCAGCAGGCGACCCACCTGGTGTGGGCCACCGGCGGCGGAATGGTGCCGGAAGAGGAGATGGCGCAGTATCTGGCGAAGGGGCGCTAA	MKHAELTTLTATFPLVQDLIALKETTWFNPATTPLAEGLPYVGLTADDVQDAHARLQRFAPYLAEAFPETAVSGGIIESEVVAIPAMKHRLEQKFGQPIGGELLLKKDSHLPISGSIKARGGIYEVLTHAEKLALEAGLLTSADDYRKLLTPELKQFFRQYSIAVGSTGNLGMSIGIMSARIGFKVTVHMSADARAWKKAKLRSHGVTVVEYEEDYGVAVEQGRKAAESDPNCFFIDDENSRTLFLGYAVAGERLKAQFAKAGRVVDADHPLFVYLPCGVGGGPGGVAFGLKLAFGDHVHCLFAEPTHSPCMLLGVYTGLHDQIAVQDLGIDNLTAADGLAVGRASGFVGRAMERLLDGFYTLDDQTMYDMLGWLATAENIRLEPSALAGMAGPQRVCASKAYHQLQGLSEQQLQQATHLVWATGGGMVPEEEMAQYLAKGR	PGPT0001970_495	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0001970-dsdA-K01753	NA	NA
BMS020_07168	501			hypothetical protein	ATGACAGGATGTCCGGCGAATTTGCCTCTCACTCATGCCCCCGGCCAGCAACATGACACTCCCTTTCAGGCGGTAGTGGTCGAGGCGGAGCATTGCCGCCAGCCGCAGGCGTTCTATGCGCAGCTGCGTCAACAGGGGCTTACGGCTATCCATTTTATTCCGCAGCTGGCGGCTGGCGACGCCGCGCTGTGGGGAGAGTTTCTCTGCGCGGTCTTTCACCGCTGGGTGCGGGAAGATATTGGCCGTATCAATATTTTGCTGTTCAGCGAGACGCTGAGCGCCTGGTGCGGCGAGTTGATAACGCAGGCGGGCGCGCCGGCGGCCAACAGCGCCTGCTACGGCTGTCCGTGGCTACGCCTGTGCCGCTGCGGCGAACAGGAAGACCCGCTGTGCGCGGGTTATCGGCAGTTCTACGATCTCAGCGGGCCCTATATGAGAGTGATGCGGGACCTGCGCCGACAGCAGCGGCCGCCAGAGGCGTTGATGCCGCTGCTGCGCTGA	MTGCPANLPLTHAPGQQHDTPFQAVVVEAEHCRQPQAFYAQLRQQGLTAIHFIPQLAAGDAALWGEFLCAVFHRWVREDIGRINILLFSETLSAWCGELITQAGAPAANSACYGCPWLRLCRCGEQEDPLCAGYRQFYDLSGPYMRVMRDLRRQQRPPEALMPLLR	PGPT0026880_2445	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0026880-ydeM|yidF|alsB|chuR-K06871	NA	NA
BMS020_07169	363	yidG		Inner membrane protein YidG	ATGGCGGATAAACGCCGGGCGCGGCGGGAAAGCGACCCGGGGCTACAGCCAGAGCGCACCTCCCTGGCCTGGTTTCGCACCCTGCTGGGCTATGGCGCGCTGATGGCGCTGGCGATTAAGCACAGCTGGCACCGCGCCGGACTGCCGTTCTGGCTGTCGATCGGCGTGCTGGCGATAGTGGCGGGGATCCTTTGGGGCTATACCCGCCGTCGTCATCTGATGGACGTCGACGACAGCGATTTTTTGCAGCCGCGGGCGGTTCGTGACAAATTTTTGATCGCACTCGCAGTACTTTCTCTGGCATTCCTGTTTGCTGTTACTCACCTTCAACAGATCGTTTCATTCATTAGGGATATGTCATGA	MADKRRARRESDPGLQPERTSLAWFRTLLGYGALMALAIKHSWHRAGLPFWLSIGVLAIVAGILWGYTRRRHLMDVDDSDFLQPRAVRDKFLIALAVLSLAFLFAVTHLQQIVSFIRDMS				NA	NA	NA	NA	NA
BMS020_07170	348	yidH	COG2149	Inner membrane protein YidH	ATGAAAATCTCCCGCCTCGGCGAAGCGCCTGATTACCGCTTTTCGCTGGCTAACGAACGCACCTTTCTGGCGTGGATCCGCACGGCGCTCGGTTTTCTTGCCGCTGGCGTCGGTCTTGACCAGCTGGCGCCAGACTTTGCCACGCCGCTGATCCGTGAAATTCTCGCCCTGCTGCTGTGCCTGTTTGCCGGCGGCATGGCCATCTATGGCTATCTGCGCTGGCTGAACAACGAGAAGGCGATGCGCCTGAAGCAGGATCTCCCCTATACCCGGACGCTGCTGGTGATTAGCATCCTGCTGCTGGCGGTGGTGGTCGCGGTGATGCTGCTGGTGCTGTATGGCGGATAA	MKISRLGEAPDYRFSLANERTFLAWIRTALGFLAAGVGLDQLAPDFATPLIREILALLLCLFAGGMAIYGYLRWLNNEKAMRLKQDLPYTRTLLVISILLLAVVVAVMLLVLYGG				NA	NA	NA	NA	NA
BMS020_07171	1323	aglB	COG1486	6-phospho-alpha-glucosidase	ATGAAAAAATTCTCAGTTGTTATCGCAGGCGGCGGCAGCACCTTCACCCCGGGCATTGTCCTGATGCTGCTGGCAAACCAGGATCGTTTTCCGCTGCGGTCGCTGAAATTTTACGACAACGACGGGGCGCGGCAGGAGACCATCGCCGAGGCGTGCAAAGTGATCCTCAAAGAGCAGGCGCCGGAGATTGAATTCAGCTATACCACCGATCCGCAGGCGGCGTTTACCGATGTTGATTTCGTCATGGCGCATATCCGCGTCGGGAAATATCCGATGCGTGAACAGGATGAGAAAATCCCGCTGCGCCACGGCGTGCTGGGCCAGGAGACCTGCGGACCGGGCGGGATCGCCTACGGTATGCGCTCTATCGGCGGCGTGCTGGAGCTGGTGGATTATATGGAAAAATATTCGCCGAACGCCTGGATGCTTAACTACTCCAACCCGGCGGCGATTGTGGCGGAAGCTACCCGTCGTCTGCGGCCGAACGCCAAAATCCTCAACATCTGCGATATGCCGATCGGCATTGAAGGGCGGATGGCGCAGATTGTCGGCCTCAAAGACCGTAAACAGATGCGCGTGCGCTACTACGGCCTCAACCACTTCGGCTGGTGGACCTCGATTGAGGATCTCGACGGCAACGATTTGATGCCAAAACTGCGCGAATATGTGGCGAAATACGGCTATGTGCCGCCTTCTAACGACCCGCACACCGAGGCAAGCTGGAACGACACCTTTGCCAAAGCGAAAGATGTGCAGGCGCTGGATCCGCAGACCATGCCGAATACCTACCTGAAATATTACCTGTTCCCGGACTACGTGGTGGCCCACTCCAACCCGGAACGCACCCGCGCCAATGAGGTGATGGATCATCGTGAGAAAAACGTCTTCAGCGCCTGCCGGGCGATTATTGCCGCCGGGAAATCCTCCGCAGGCGATCTGGAGATTGACGAGCACGCGTCGTATATCGTCGATCTGGCGACGGCCATCGCCTTTAACACGCAGGAAAGGATGCTGCTGATTGTGCCGAACAATGGCGCGATCCATAACTTTGACGCCGACGCGATGGTGGAAATTCCTTGCCTGGTGGGCCACAACGGGCCGGAGCCGCTGACGGTCGGCGACATCCCGCACTTCCAGAAAGGGATGATGAGCCAGCAGGTGGCGGTGGAAAAACTGGTGGTCGATGCCTGGGAACAACGCTCTTACCACAAGCTGTGGCAGGCGATTACCCTGTCGAAAACCGTGCCGAGCGCCTCGGTGGCGAAAGCGATCCTCGACGACCTGATTGCCGCCAACAAGGATTACTGGCCGGAGCTGCATTAA	MKKFSVVIAGGGSTFTPGIVLMLLANQDRFPLRSLKFYDNDGARQETIAEACKVILKEQAPEIEFSYTTDPQAAFTDVDFVMAHIRVGKYPMREQDEKIPLRHGVLGQETCGPGGIAYGMRSIGGVLELVDYMEKYSPNAWMLNYSNPAAIVAEATRRLRPNAKILNICDMPIGIEGRMAQIVGLKDRKQMRVRYYGLNHFGWWTSIEDLDGNDLMPKLREYVAKYGYVPPSNDPHTEASWNDTFAKAKDVQALDPQTMPNTYLKYYLFPDYVVAHSNPERTRANEVMDHREKNVFSACRAIIAAGKSSAGDLEIDEHASYIVDLATAIAFNTQERMLLIVPNNGAIHNFDADAMVEIPCLVGHNGPEPLTVGDIPHFQKGMMSQQVAVEKLVVDAWEQRSYHKLWQAITLSKTVPSASVAKAILDDLIAANKDYWPELH	PGPT0014100_463	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0014100-glvA-K01232	NA	NA
BMS020_07172	1623	malP_6	COG1263	PTS system maltose-specific EIICB component	ATGCTCAGTCAAATACAACGCTTTGGCGGCGCCATGTTTACCCCGGTTTTATTGTTTCCTTTCGCCGGGATCGTGGTCGGTATCGCCATTATGTTGCGCAACCCGATGTTCGTCGGCGAAGCGCTGACCGCACCCGACAGCCTGTTTGCACAGATCGTTCACATCATCGAAGAGGGCGGCTGGACCGTCTTTCGTAATATGCCGCTGATTTTCGCCGTCGGTCTGCCGATTGGCCTGGCGAAGCAGGCCCAGGGCCGGGCCTGTCTGGCGGTACTGGTGAGCTTTCTCACCTGGAACTACTTTATTAACGCCATGGGGATGACCTGGGGCCACTTCTTCGGCGTCGACTTTTCCGTTGAACCCACGGCCGGCAGTGGCCTGACGATGATTGCCGGGATTAAAACCCTCGACACCAGCATTATCGGGGCGATCGTCATCTCCGGCCTGGTGACGGCCCTGCATAATCGCTATTTCGATAAACCCCTGCCGGTATTCCTCGGCATCTTCCAGGGCTCATCGTTTGTGGTCATTGTCGCCTTCCTCGCGATGATCCCCTGCGCCTGGCTGACGCTGCTCGGCTGGCCAAAAGTCCAGCTGGGTATTGAATCGCTACAGGCCTTCCTGCGCTCTGCCGGCGCGCTCGGGGTGTGGGTCTACATCTTCCTTGAGCGCATTCTGATCCCCACCGGTCTGCATCACTTCGTCTATGGCCCGTTCATCTTTGGCCCGGCGGTAGTGGAGGGCGGACTGCAGGTCTACTGGGCAGAGCATCTGCAGGCGTTCAGCCAGAGTACGGAACCGCTGAAGACGCTGTTCCCGGAGGGCGGCTTTGCCCTGCACGGTAACTCGAAAGTGTTTGGTTCGGTGGGCATTGCGCTGGCGCTTTACTTCACCGCCGCGCCGGAAAATCGCGTCAAGGTCGCCGGCCTGCTGATCCCCGCCACGTTGACCGCGATGCTGGTCGGGATCACCGAGCCGCTGGAGTTCACCTTCCTGTTCATCTCGCCACTGCTGTTCGCCGTCCACGCGGTGCTGGCGGCGTCCATGGCGACGGTGATGTACATCTGCGGGGTGGTGGGCAATTTCGGCGGCGGCCTGCTCGACCAGTTCTTGCCGCAAAACTGGATCCCGATGTTCCATCACCACGCCTCGATGATGTTCATTCAGATAGGTATTGGTCTCTGTTTCACCGCCCTCTACTTCGTGGTCTTCCGCACCCTGATCCTGCGTCTGAACCTGAAGACGCCGGGCCGGGAAGAGAGCGAAATCAAGCTCTACAGCAAGGCTGATTATCAGGCGGCGCGGGGTAAAACCACGGCGGCAGCCGCGCCAGAGACCCGGCTGGGCCAGGCCGCAGGCTTCCTGCAGGCCCTCGGCGGCGCCAGCAACATTGAAAGTATCAATAACTGCGCCACCCGACTGCGCATCGCGCTGGTCGATATGGCGAAAACGCAAAGTGACGACGTCTTTAAAGCGCTGGGCGCCCACGGGGTAGTACGGCGCGGCAACGGGATTCAGGTCATCGTCGGCCTGCACGTTCCCCAGGTGCGCGACCAGCTGGAAAACCTGATGAAAGATTCTCTTTCGACCGAACATACCACCATGACGGAGGCAGTATCATGA	MLSQIQRFGGAMFTPVLLFPFAGIVVGIAIMLRNPMFVGEALTAPDSLFAQIVHIIEEGGWTVFRNMPLIFAVGLPIGLAKQAQGRACLAVLVSFLTWNYFINAMGMTWGHFFGVDFSVEPTAGSGLTMIAGIKTLDTSIIGAIVISGLVTALHNRYFDKPLPVFLGIFQGSSFVVIVAFLAMIPCAWLTLLGWPKVQLGIESLQAFLRSAGALGVWVYIFLERILIPTGLHHFVYGPFIFGPAVVEGGLQVYWAEHLQAFSQSTEPLKTLFPEGGFALHGNSKVFGSVGIALALYFTAAPENRVKVAGLLIPATLTAMLVGITEPLEFTFLFISPLLFAVHAVLAASMATVMYICGVVGNFGGGLLDQFLPQNWIPMFHHHASMMFIQIGIGLCFTALYFVVFRTLILRLNLKTPGREESEIKLYSKADYQAARGKTTAAAAPETRLGQAAGFLQALGGASNIESINNCATRLRIALVDMAKTQSDDVFKALGAHGVVRRGNGIQVIVGLHVPQVRDQLENLMKDSLSTEHTTMTEAVS	PGPT0016930_91	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0016930-glvC|malP|aglA-K02750	NA	NA
BMS020_07173	747	mngR_2	COG2188	Mannosyl-D-glycerate transport/metabolism system repressor MngR	GTGATCTACAAATCCATTGCTGACCGCCTGCGGCTGCGGCTGAATTCTGCCGACTTCTCCATCGGCAGCCCGCTGCCGGGAGAGAAAAAACTGGCCGAGGAGTTCGGGGTGGCGCGCATGACCATCCGCAAAGCCATCGACCTGCTGGTGGACTGGGGGTTGGTGGTCCGTCGCCACGGCTCGGGGACCTACGTGGCGCGTAAAGACGTCCATCATGAAACCAGCAATCTCACCGGCCTGGCGGAAGTGCTGCGCAAGCAGGGTAAAGAGGTGGTAAGCCAGGTGCTGGCCTTCGAAGTGATGCCTGCCCCGCCGGCCATCGCCAGCCTGCTGCGAATTAAAATTGATGAACGGATCTACTTCTCGCGGCGGGTGCGCTTCGTCGACGGCAAGCCGCTGATGCTGGAGGATAGCTATATGCCGGTGAAGCTGTTCCGTAACCTGTCGCTGAGCCATCTGGAGGGATCGAAATTTGATTATATTGAGAAGGAGTGCGGGATCATCATCAGCGGGAACTATGAGACCCTGACGCCGGTGCTGGCGGACAGGCAGCTGGCGCGCTCAATGAACGTTCCGGAGCAGACGCCGCTGCTGCGGATTACCTCCCTTTCCTACAGCGACAGCGGCGAGTTTCTTAACTATTCGGTTATGTTCCGCAACGCCAGCGAGTATCAGGTGGACTACCATCTGCGCCGCGTCCAGGCGCACAGCCCGCTAGCTCACCCCCCAGAACAGCACGGCGAGTAG	MIYKSIADRLRLRLNSADFSIGSPLPGEKKLAEEFGVARMTIRKAIDLLVDWGLVVRRHGSGTYVARKDVHHETSNLTGLAEVLRKQGKEVVSQVLAFEVMPAPPAIASLLRIKIDERIYFSRRVRFVDGKPLMLEDSYMPVKLFRNLSLSHLEGSKFDYIEKECGIIISGNYETLTPVLADRQLARSMNVPEQTPLLRITSLSYSDSGEFLNYSVMFRNASEYQVDYHLRRVQAHSPLAHPPEQHGE				NA	NA	NA	NA	NA
BMS020_07174	1662	aspT_2		Aspartate/alanine antiporter	ATGAGTGAGATAGCATTGACGGTCAGCGTACTGGCGCTGGTGGCGGTGATTGGGCTGTGGATCGGCAATGTCAAAATCCGCGGCGTCGGCTTTGGTATTGGCGGCGTGTTGTTTGGCGGCATTATCGTCGGCCACTTTGTCGATCAGGCGGGAGTCGCCCTCAGCAGCCCGATGCTGCATTTTATTCAGGAATTCGGCTTGATCCTGTTTGTCTACACCATCGGTATCCAGGTGGGGCCGGGCTTTTTCGCCTCGCTGCGGGTCTCAGGCCTGCGGCTCAATCTTTTCGCTATCCTGATCGTGATTCTTGGCGGCCTGGTCACGGCGGTGCTGCATAAACTGTTCAATATTCCTCTCCCGGTGGTGCTTGGCATCTTCTCCGGCGCGGTGACCAACACGCCGGCGCTGGGGGCCGGGCAGCAAATCCTGCGCGATCTCGGGGTGCCGTTCGAGGTGGTCGATCAGATGGGGATGAGCTATGCGATGGCGTATCCGTTCGGCATCTGCGGCATTCTGCTGACCATGTGGCTGGTGCGCCTGTTCTTTCGCATCAATGTCGAGAAAGAGGCCCAGCAATTTGAGGAGAGCAGCGGCAACGGCCATGCCCATTTGCACACCATCAATGTGCGGGTGGAGAACCCCAACCTCAACCAGATGGCGATTCAGGATGTGCCGATGCTCAACAGCGACAATATCGTCTGTTCGCGACTGAAGCGCGGTGAGCTGCTAATGGTGCCTGCGCCGGGCACCCTTATCCAGGCCGGCGATCTGCTGCACCTGGTGGGGCGGCCGGAGGATCTGCACAATGCGCAACTGGTGATCGGCCAGGAGGTGGCCACCTCGCTGTCGACGCGCGGCACCGACCTGAAGGTAGAGCGGGTGGTGGTGACTAACGAGAAAGTGCTGGGGAAGAAAATACGCGATCTGCACGTCAAACAGCGCTATGACGTAGTGATCTCCCGGCTTAATCGCGCTGGCGTCGAGCTGGTGGCCAGCAGCAGCGCCAGCCTGCAGTTTGGCGATATTCTTAACCTGGTCGGCCGTCCGGAGGCGATTGACGCCGTGGCCGCCGAGCTGGGTAACGCCCAGCAGAAGCTGCAGCAGGTTCAGATGCTGCCGGTATTTATCGGCATCGGCCTCGGGGTACTGCTGGGATCTATCCCGTTATTTATTCCCGGCTTCCCCGCCGCCCTGAAGCTCGGGCTGGCCGGGGGGCCGCTGATTATGGCGCTGATTCTCGGGCGCATCGGGAGCATCGGCAAGCTGTACTGGTTTATGCCGCCGAGCGCCAACCTGGCGCTGCGCGAGCTGGGGATCGTGCTGTTTCTGGCGGTGGTTGGGCTGAAATCGGGGGGCGACTTTGTGGCGACCCTGACCCAGGGCGATGGTCTGAGCTGGATCGCTTACGGCATTTTCATCACCGCCATCCCGCTGCTGACGGTAGGCATTCTCGCGCGCATGCTGGCGAAAATGAACTATCTGACGCTGTGCGGCATGCTGGCCGGCTCGATGACCGACCCGCCGGCGCTGGCCTTCGCCAACAATCTGCACGCCACCAGCGGCGCGGCGGCGCTCTCTTACGCTACCGTCTATCCGCTGGTGATGTTCCTGCGGATTATCACCCCGCAGCTACTCGCCGTGCTGTTCTGGGGGGTGAGCTAG	MSEIALTVSVLALVAVIGLWIGNVKIRGVGFGIGGVLFGGIIVGHFVDQAGVALSSPMLHFIQEFGLILFVYTIGIQVGPGFFASLRVSGLRLNLFAILIVILGGLVTAVLHKLFNIPLPVVLGIFSGAVTNTPALGAGQQILRDLGVPFEVVDQMGMSYAMAYPFGICGILLTMWLVRLFFRINVEKEAQQFEESSGNGHAHLHTINVRVENPNLNQMAIQDVPMLNSDNIVCSRLKRGELLMVPAPGTLIQAGDLLHLVGRPEDLHNAQLVIGQEVATSLSTRGTDLKVERVVVTNEKVLGKKIRDLHVKQRYDVVISRLNRAGVELVASSSASLQFGDILNLVGRPEAIDAVAAELGNAQQKLQQVQMLPVFIGIGLGVLLGSIPLFIPGFPAALKLGLAGGPLIMALILGRIGSIGKLYWFMPPSANLALRELGIVLFLAVVGLKSGGDFVATLTQGDGLSWIAYGIFITAIPLLTVGILARMLAKMNYLTLCGMLAGSMTDPPALAFANNLHATSGAAALSYATVYPLVMFLRIITPQLLAVLFWGVS	PGPT0000709_971	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ALANINE_TRANSPORT,PGPT0000709-aspT|ybjL|yidE-K07085	NA	NA
BMS020_07175	429	ibpB_2	COG0071	Small heat shock protein IbpB	ATGCGTAACTACGATTTATCCCCCCTGCTGCGTCAATGGATCGGTTTTGACAAACTGGCCAGCGCCCTGCAAACCGCCGGCGAAAGCCAGAGCTTCCCGCCCTATAACATCGAAAAAAGCGACGATAACCACTACCGCATTACCCTTGCGCTGGCCGGTTTCCGTCAGGAAGATCTGGATATTCAGCTGGAAGGCACCCGCCTGGTGGTAAAAGGCACGCCGCAGCAGCCGGAAAAAGAGACCACCTGGCTGCACCAGGGGCTGGTGAGCCAGGCCTTCAGCCTGAGCTTCACCCTCGCCGACAACATGGAGGTCTCTGGCGCGACCTTCACCAACGGTCTGCTGCATATCGATCTGACCCGCCATGAGCCTGAGCAGATCGCCCCGCAGCGCATCGCCATCAGCGAACGACCGGCGTTAAATAGCTAA	MRNYDLSPLLRQWIGFDKLASALQTAGESQSFPPYNIEKSDDNHYRITLALAGFRQEDLDIQLEGTRLVVKGTPQQPEKETTWLHQGLVSQAFSLSFTLADNMEVSGATFTNGLLHIDLTRHEPEQIAPQRIAISERPALNS	PGPT0014630_138	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014630-ibpB-K04081	NA	NA
BMS020_07176	414	ibpA	COG0071	Small heat shock protein IbpA	ATGCGTAACTTCGATCTCTCCCCGCTTTATCGTTCAGCCATTGGTTTCGACCGCCTGTTTAACCTGCTGGAAAACAATCAAAGCCAGAGCAATGGCGGCTACCCTCCGTATAACGTCGAGCTGGTAGACGAAAACCACTATCGCATCGCTATCGCGGTGGCTGGCTTTGCTGAAAGCGAGCTGGAGATCACCGCCCAGGACAATCTGCTGATCGTCAAAGGCGCCCACGCTGCCGAGCAGAAAGAGCGTACCTACCTGTATCAGGGGATCGCCGAGCGTAACTTCGAGCGCAAATTCCAGCTGGCGGAAAACATTCATGTCCGCGGCGCCAACCTGGTAAACGGTCTGCTGTATATCGATCTGGAACGGGTGATCCCGGAAGCGAACAAGCCGCGCCGTATCGAAATCAACTAA	MRNFDLSPLYRSAIGFDRLFNLLENNQSQSNGGYPPYNVELVDENHYRIAIAVAGFAESELEITAQDNLLIVKGAHAAEQKERTYLYQGIAERNFERKFQLAENIHVRGANLVNGLLYIDLERVIPEANKPRRIEIN	PGPT0014641_17	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014641-ibpA-K04080	NA	NA
BMS020_07178	333			hypothetical protein	ATGAAAAGCAGACGACTGTTAAAGCTGGTCCTGTTCAGCGGGATAATAAGCCTGAGCGGTTGCTCCAGCGTAATGTCACATACCGGTGGCAAAGAGGGAACCTATCCGGGCACGCGATCCAGTGCGCAAACGCTGGGGGACAACAATACCAACTGGGGTGTGAAATCGCTGGTGGCGCTGGACATGCCGTTCACCGCCGTCATGGATACCCTGCTGCTGCCGTGGGATATGTTCCGCACCGACAGCTCAATCAAATCTCGGGTCGAAAAGAGCGAGAAGGCCACGCTGGCGACCAACTCGGTGATCCCGCCAGCGCCGATGCCTGCCCAGTAA	MKSRRLLKLVLFSGIISLSGCSSVMSHTGGKEGTYPGTRSSAQTLGDNNTNWGVKSLVALDMPFTAVMDTLLLPWDMFRTDSSIKSRVEKSEKATLATNSVIPPAPMPAQ				NA	NA	NA	NA	NA
BMS020_07179	1227			hypothetical protein	ATGAAACAAGTCACTTTTGCTCCCCGTCATCATCAGCTTACCAATGTTAATACCTGGACCCCCGACAGCCAGTGGCTGGTGTTCGACGTCCGCCCGTCCGGTGCGTCGTTCACCGGCGAGACCATTGAGCGAGTGAACGTAAACAGCGGCGCGGTGGAGACCATTTATCGTGCCACGCAAGGCGCGCACGTGGGCGTGGTGACCGTGCATCCAACCCAGGAGCGCTACGTGTTCATTCACGGCCCCGAGCGGCCGGATGCGCAATGGCAGTATGATTTTCATCACCGCCGCGGGGTGGTGGCCTTTCAGGATACCGTCGAGAATCTGGACGCCATGGACATCACTGCCCCTTACACCCCCGGGGCGCTGCGCGGCGGCAGCCACGTCCATGTCTATAGCCCCAACGGCCAGCTGGTCAGTTTTACCTACAACGATCATGTGCTGCACGAGCGCGACCCGGCGCTGGATCTGCGCAACGTCGGCGTGGCCGCGCCGTATGGACCCGTGACGCCGCCGGGCCACCATCTGCGCGAATATGGCGGCAGCCACTGGTGCGTGCTGGTGAGCCGCACGACGCCAACTCCCGCGCCGGGCAGCGATGAGATTAATCGCGCCTATGAAGAGGGCTGGGTCGGGAACCATGCGCTGGCGTTTATTGGCGATACGCTGGCGGAAAACGGCGACAAAGTCCCGGAGCTGTTTATTGTCGATCTGCCGCAGGATGAAGCCAGCTGGAAGCAGCCCGGCGGGGAGCCGCTGGCCGGTACCGCAACCACGATGCCCGCGCCGCCGGCGGGCGTCAGTCAGCGTCGTTTGACCTTCACCCACCATCGCCGTTATCCGGGGCTGGTGAATATTCCACGTCACTGGGTGCGCGCCAATCCACAGGCTACGAGCATCGCCTTCCTGATGCGCGACGACGCCGGTGAGGTGCAGCTGTGGCTGATTTCCCCACAGGGGGGCGAGCCGTGGCAGTTGACGCATCACACGTCGGGTATCCAGTCAGCGTTTAACTGGCATCCGTCGGGAGAGTGGCTGGGCTTTGTACTGGAGGGGCGGATTGCCTGCTGTCATGCCGGCACAGGCGACATCACCTTTTTAACCGAGGCGCATGCTCATGCGCCCTCGGCGGACGCGATCGTCTTTTCGCCAGACGGTAAACAGATTGCCTGGATGGAGGAGGTGGACGGTTATCGCCAGCTGTGGGTCACGCAGACCGGGCGATAA	MKQVTFAPRHHQLTNVNTWTPDSQWLVFDVRPSGASFTGETIERVNVNSGAVETIYRATQGAHVGVVTVHPTQERYVFIHGPERPDAQWQYDFHHRRGVVAFQDTVENLDAMDITAPYTPGALRGGSHVHVYSPNGQLVSFTYNDHVLHERDPALDLRNVGVAAPYGPVTPPGHHLREYGGSHWCVLVSRTTPTPAPGSDEINRAYEEGWVGNHALAFIGDTLAENGDKVPELFIVDLPQDEASWKQPGGEPLAGTATTMPAPPAGVSQRRLTFTHHRRYPGLVNIPRHWVRANPQATSIAFLMRDDAGEVQLWLISPQGGEPWQLTHHTSGIQSAFNWHPSGEWLGFVLEGRIACCHAGTGDITFLTEAHAHAPSADAIVFSPDGKQIAWMEEVDGYRQLWVTQTGR				NA	NA	NA	NA	NA
BMS020_07180	1293	dgoT_4		D-galactonate transporter	ATGGATATTTCAGTTACCGCTGTAAAAACCGGGCGTCGCCGTTATCTGACGCTCATCATGATCTTTATTACCGTGGTTATTTGTTATGTTGACCGCGCCAACCTCGCCGTCGCCTCGGCGCATATTCAGGAGGAGTTTGGTATTAGCAAAGCGGAAATGGGCTACGTATTTTCCGCCTTTGCCTGGCTGTATACCCTCTGCCAGATCCCGGGCGGTTGGTTCCTTGACCGCGTGGGGTCCCGGCTTACCTACTTTATCGCCATCTTTGGCTGGTCTGTAGCCACGTTGCTACAAGGCTTCGCCACCGGCTTAATGTCGCTCATAGGCCTGCGCGCTATCACCGGGATCTTCGAAGCACCTGCCTTTCCAACCAATAACCGCATGGTGACCAGCTGGTTCCCGGAACATGAACGCGCCTCCGCCGTCGGGTTTTATACCTCGGGGCAATTTGTTGGCCTGGCTTTCTTAACGCCGCTGCTGATTTGGATCCAGGAGCTATTGAGCTGGCACTGGGTGTTTATTGTTACCGGCGGTATCGGCATTATCTGGTCGCTGATCTGGTTCAAGGTTTATCAACCGCCGCGGCTGACCAAAAGCATCAGCAAAGCCGAACTCGACTATATTCGCGAGGGCGGCGGCCTGGTGGATGGCGATGCGCCGGTGAAGAAAGAGGCGCGTCAACCGTTATCGAAAGCGGACTGGAAGCTGGTCTTTCATCGCAAGCTGGTCGGTGTTTACCTTGGGCAGTTTGCGGTAACCTCGACGCTGTGGTTCTTCCTGACCTGGTTCCCGAACTACTTAACCCAGGAAAAAGGCATTACCGCGCTGAAGGCCGGTTTTATGACCACGGTGCCCTTCCTCGCTGCGTTTTTTGGCGTCCTGCTCTCTGGTTGGCTGGCGGATAAACTGGTGAAAAAAGGCTATTCGCTGGGCGTGGCGCGTAAAACGCCGATCATCTGCGGACTGCTGATCTCCACCTGCATCATGGGGGCGAACTACACCAACGACCCGGTATGGATTATGGCGCTGATGGCGCTGGCATTCTTCGGTAACGGTTTTGCCTCCATTACCTGGTCGCTGGTCTCATCCCTGGCGCCGATGCGCCTGATCGGTCTAACCGGAGGCGTGTTTAACTTTGTTGGCGGCCTGGGGGGGATCACCGTACCGCTCGTGATTGGCTATCTGGCGCAGGATTACGGCTTTGGCCCGGCGTTGGTCTATATCTCCGTGGTGGCGCTGATAGGCGCGCTGTCTTATATCCTGCTGGTCGGCGATGTGAAACGTGTAGGCTAA	MDISVTAVKTGRRRYLTLIMIFITVVICYVDRANLAVASAHIQEEFGISKAEMGYVFSAFAWLYTLCQIPGGWFLDRVGSRLTYFIAIFGWSVATLLQGFATGLMSLIGLRAITGIFEAPAFPTNNRMVTSWFPEHERASAVGFYTSGQFVGLAFLTPLLIWIQELLSWHWVFIVTGGIGIIWSLIWFKVYQPPRLTKSISKAELDYIREGGGLVDGDAPVKKEARQPLSKADWKLVFHRKLVGVYLGQFAVTSTLWFFLTWFPNYLTQEKGITALKAGFMTTVPFLAAFFGVLLSGWLADKLVKKGYSLGVARKTPIICGLLISTCIMGANYTNDPVWIMALMALAFFGNGFASITWSLVSSLAPMRLIGLTGGVFNFVGGLGGITVPLVIGYLAQDYGFGPALVYISVVALIGALSYILLVGDVKRVG	PGPT0002190_238	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_GALACTONATE_TRANSPORT,PGPT0002190-dgoT-K08194	NA	NA
BMS020_07181	1149	dgoD_1	COG4948	D-galactonate dehydratase	ATGAAAATAACCAATATCACCACGTACCGTTTACCTCCGCGTTGGATGTTCCTGAAGATTGAAACCGATGAAGGCATCGTCGGCTGGGGCGAACCGGTGATTGAAGGGCGCGCCCGAACGGTGGAAGCCGCCGTTCATGAATTTGGCGATTATCTGATTGGTCAGGATCCGGCGCGGATTAATGACCTGTGGCAAGTGATGTACCGCGGCGGCTTTTATCGCGGCGGTCCGATTATGATGAGCGCCATCGCCGGTATTGACCAGGCGTTATGGGATATTAAAGGTAAGGTCCTGAATGCCCCGGTCTGGCAACTGATGGGCGGGCTGGTGCGCGACAAAATTAAAGCCTACAGCTGGGTGGGCGGCGACCGCCCCGCCGAAGTGATTGACGGGATTAAGAAGCTGCGCGGCATTGGTTTCGATACCTTTAAATTAAACGGCTGCGAAGAGATGGGCATCATTGATAATTCCCGCGCGGTTGATGCGGCGGTGAATACCGTGGCGCAAATCCGCGAAGCGTTTGGCAATGAAATTGAGTTTGGCCTCGATTTTCATGGTCGGGTAAGCGCGCCGATGGCCAAAGTATTAATTAAAGAGCTGGAACCGTATCGCCCATTATTTATTGAGGAGCCGGTATTAGCCGAGCAGGCGGAATATTATCCGCGGCTGGCGGCGCAAACCCATATTCCTATTGCCGCCGGCGAACGTATGTTTTCGCGTTTTGAATTTAAACGGGTCCTTGAAGCGGGCGGGGTGGCTATTTTACAACCCGATCTGTCGCACGCAGGCGGTATTACCGAATGCTATAAAATTGCCGGCATGGCGGAAGCCTATGACGTTGGGCTGGCGCCGCACTGTCCGCTGGGGCCGATCGCACTGGCAGCCTGTCTGCACGTTGATTTCGTTTCGCATAATGCGGTCTTCCAGGAGCAGAGCATGGGGATCCACTACAACAAAGGCGCCGAACTGCTTGATTTTGTGAAAAACAAAGAAGATTTCAATATGGAAGGCGGCTTCTTTAAACCACTGATGAAGCCGGGGCTGGGCGTGGAAATTGATGAGGCCCGCGTGATTGAGTTAAGTAAAAACGCGCCGGACTGGCGAAACCCGTTGTGGCGGTATGAGGATGGCTCTGTCGCCGAATGGTAA	MKITNITTYRLPPRWMFLKIETDEGIVGWGEPVIEGRARTVEAAVHEFGDYLIGQDPARINDLWQVMYRGGFYRGGPIMMSAIAGIDQALWDIKGKVLNAPVWQLMGGLVRDKIKAYSWVGGDRPAEVIDGIKKLRGIGFDTFKLNGCEEMGIIDNSRAVDAAVNTVAQIREAFGNEIEFGLDFHGRVSAPMAKVLIKELEPYRPLFIEEPVLAEQAEYYPRLAAQTHIPIAAGERMFSRFEFKRVLEAGGVAILQPDLSHAGGITECYKIAGMAEAYDVGLAPHCPLGPIALAACLHVDFVSHNAVFQEQSMGIHYNKGAELLDFVKNKEDFNMEGGFFKPLMKPGLGVEIDEARVIELSKNAPDWRNPLWRYEDGSVAEW	PGPT0002220_1478	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0002220-dgoD-K01684	NA	NA
BMS020_07182	618	dgoA_2	COG0800	2-dehydro-3-deoxy-6-phosphogalactonate aldolase	ATGCAGTGGCAAACTAACCTTCCGCTTATCGCTATTCTGCGCGGTATTACGCCAGACGAGGCGCTGGCTCACGTTGGCGCCGTTATCGACGCCGGTTTCGACGCGGTCGAAATCCCGCTGAACTCGCCGCAGTGGGAGAAAAGTATTCCGCAGGTCGTCGACGCTTACGGCGAGCAGGCGCTTATCGGCGCGGGCACCGTGCTGCAACCGGAGCAGGTCGATCGGCTGGCGGCCATGGGCTGTCGGCTGATTGTGACGCCAAACATTCAACCGGAAGTGATCCGGCGAGCGGTGGGTTACGGCATGACCGTATGTCCAGGCTGCGCCACCGCCAGCGAAGCTTTCAGCGCGCTCGATGCCGGCGCGCAGGCGCTGAAAATTTTCCCGTCATCGGCTTTTGGCCCGGATTACATCAAAGCGTTGAAAGCCGTGCTTCCGCCCGAGGTTCCGGTCTTTGCCGTCGGCGGCGTGACGCCGGAAAACCTGGCGCAGTGGATTAAAGCCGGCTGTGTGGGGGCTGGGCTGGGGAGCGATCTCTATCGTGCCGGCCAGTCGGTTGAACGTACCGCGCAGCAGGCAGCCGCATTCGTAAAAGCGTATCGAGAGGCAGTGAAATGA	MQWQTNLPLIAILRGITPDEALAHVGAVIDAGFDAVEIPLNSPQWEKSIPQVVDAYGEQALIGAGTVLQPEQVDRLAAMGCRLIVTPNIQPEVIRRAVGYGMTVCPGCATASEAFSALDAGAQALKIFPSSAFGPDYIKALKAVLPPEVPVFAVGGVTPENLAQWIKAGCVGAGLGSDLYRAGQSVERTAQQAAAFVKAYREAVK	PGPT0018075_615	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018075-dgoA-K01631	NA	NA
BMS020_07183	879	dgoK1_2	COG3734	putative 2-dehydro-3-deoxygalactonokinase DgoK1	ATGACGGCTCGCTACATCGCAATAGATTGGGGATCGACGAATTTACGCGCCTGGCTGTACCAGGGCGAAGAATGCCTGGAAAGCAGGCAATCTGAAGCAGGCGTAACGCGCCTGAATGGTCGATCTCCCGCTGCGGTGTTAGCGGAAATCACACAATACTGGCGCGATGGCGCCACACCGGTGGTGATGGCAGGTATGGTCGGTAGCAACGTGGGCTGGAAAATTGCCCCTTATTTGCCGCTTCCTGCCTCTTTCTCGGATATTGGCCAGCAGTTAACTGCCGTTGGCGACAATATCTGGATAATTCCCGGCCTTTGCGTTTCCCGTGACGATAACCATAACGTCATGCGCGGGGAAGAAACGCAACTGCTGGGCGCACGCGCCTTAGCCCCTTCGTCTGTCTATGTGATGCCAGGAACCCACTGCAAATGGGTACTGGCCGATCGCCTGCAAATTCACGATTTTCGTACCGTTTTGACCGGTGAGTTGCATCATCTGTTGCTTCAGCACTCGCTGGTGGGCGCCGGCTTGCCGCCGCAGGAAACGTCCGCCGACGCATTCGCGGCCGGTCTGCAGCGCGGTATCAACAACCCCGCCGTCCTGCCGCAGCTGTTTGAAGTGCGCGCTTCGCACGTGCTGGGCGCGTTGCCTCGCGAGCAGGTTAGCGAATTTCTTTCCGGCCTGCTGATTGGCGCTGAAGTGGCCACCCTCAGCGCCACGTTCGCCGGAGAGCAGGCGATTACCCTCGTCGCCGGGTCATCGTTAACGTCCCGCTATCAGCAGGCATTCCGCGCCATTGGCCGCGAAGTCACTGCGGTTGCGGGCGATACGGCATTTCAGACAGGAATAAGGAGCATCGCTTATGCAGTGGCAAACTAA	MTARYIAIDWGSTNLRAWLYQGEECLESRQSEAGVTRLNGRSPAAVLAEITQYWRDGATPVVMAGMVGSNVGWKIAPYLPLPASFSDIGQQLTAVGDNIWIIPGLCVSRDDNHNVMRGEETQLLGARALAPSSVYVMPGTHCKWVLADRLQIHDFRTVLTGELHHLLLQHSLVGAGLPPQETSADAFAAGLQRGINNPAVLPQLFEVRASHVLGALPREQVSEFLSGLLIGAEVATLSATFAGEQAITLVAGSSLTSRYQQAFRAIGREVTAVAGDTAFQTGIRSIAYAVAN	PGPT0018080_954	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018080-dgoK-K00883	NA	NA
BMS020_07184	690	lutR_2	COG2186	HTH-type transcriptional regulator LutR	ATGACTCTCAATAAGACCGATCGCATTGTGATCTCGCTGGGCAGACAAATCGTCAGCGGTAAATACGTTCCCGGTTCGGCGCTTCCGGCCGAAGCGGAACTCTGTGAGGAGTTTGAAACCTCGCGCAACATCATCCGCGAAGTGTTTCGTTCCCTGATGGCGAAGCGGCTGATTGAAATGAAGCGCTATCGCGGCGCGTTTGTCGCCTCCAGAAACCAGTGGAACTACCTCGATACCGAGGTGCTGCAGTGGGTACTGGAAAATGACTATGACCCGCGTCTTATCAGCGCCATGAGTGAAGTGCGCAACCTGGTTGAACCCGCCATCGCACGTTGGGCGGCGGAACGCGCCACCTCAAGCGATCTGGCGGAAATCGAGTCGGCGCTGAATGACATGATTGCTAATAACCAAAACCGGGATGCCTTTAACGAAGCGGATATTCGCTACCACGAGGCGGTGCTGCAGTCAGTACATAATCCGGTTTTGCAGCAGCTTAGCGTGGCGATCAGTTCGCTGCAGCGGGCGGTATTTGAACGGACCTGGATGGGCGATGAAGGCAACATGCCGAAAACGCTCCAGGAACATAAAGCGCTATTTGACGCCATTCGGCATCAGGATAGCGACGCGGCAGAGCAGGCGGCGTTGACGATGATCGCCAGCTCGACACGAAGGCTCAAGGAAATCACATGA	MTLNKTDRIVISLGRQIVSGKYVPGSALPAEAELCEEFETSRNIIREVFRSLMAKRLIEMKRYRGAFVASRNQWNYLDTEVLQWVLENDYDPRLISAMSEVRNLVEPAIARWAAERATSSDLAEIESALNDMIANNQNRDAFNEADIRYHEAVLQSVHNPVLQQLSVAISSLQRAVFERTWMGDEGNMPKTLQEHKALFDAIRHQDSDAAEQAALTMIASSTRRLKEIT	PGPT0018085_247	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018085-dgoR-K19776	NA	NA
BMS020_07185	1140			hypothetical protein	TTGAGCCGACCGCTTAACCCTGTTCTGTTGCTTCTGACATGGGCGCTATGCGCGCCGGTCCAGGCGCAGGCCATCAGCCGCGAGCAAATCGACGGCTGGCTGCAGCATCTCGGCGCCAGCGATGAATTCGACGCCAGCAAAGGCATTGACTGGGGCGTGATGCCCGGTCCGTTCTATACGCCGGAGTTGGGGCTGGGCATCGGCACTGCCGTCGTCGGTCTCTACCGTCCCGATCCGCAGGATACCACCAGCCAGAATTCCACGCTGACGCTCAGCGGCTACGCCAGCTCCACCGGCGCCTTCGGCCTTAGCGTGAAAAACTACGCTTTTTTTGACCACGACCGATGGCGAATTTTTGTTGATGGATCGATGGCCAACACCCCGACGTATTTCTGGGGACAAGGCTTTCATGCCGGCGATAAAGACAACGAAAAAGAGAAATATACCGCCCAGGTGCTGACCCTGCGCCCGACGGTCTACCGGCAGCTTATCGACAATGTTTATCTCGGCGCCGGATGGTCGCTGGCGGCGCAGAATGCCGATGAGATGGACCATAACGATCTGCCGAAAATTGAAAATACCCCGCAGGGGCCGTCGGTATTCAGCTCGGGCGCCAGCGTCGCGCTCAACTGGGACGATCGCGACTTCGTCCCCAATCCGCGCCGGGGTCAGTATGCCAACTTCCGTTACACCCACTATGCGCCCGGCTTAGGCAGCGATACCCGCTTTGACGAATTTCAGCTGCACTATAGCCATTATCATGCCCTCAGCGAGAAAAGCGTCCTCGCCTGGGAGGCCGATGGCGCTTTCACCCAGGGCGATGTGCCGTGGAGCATGATGCCCCTGCTGGGCAGCGATGAGCGGATGCGCGGCTACTATCAGGGGCGTTATCGCGATAAAAACGTCGTTAGCAGCCAACTGGAATACCGCCGGCAGCTCACCTGGCGACACGGGATTGTGGCCTGGGCCGGGGCGGGAACCATGGGGCCATCCATGGATTCCCTGAATGACGGACGCTGGCTGCCTTCGGCGGGCGTCGGCTACCGCTTTGAATTCAAACCTCGCGTTAACGTTCGCCTCGACTACGGTATCGGCAAAGGCAGCAGCGGCTTTTACTTCCAGGTCGGCGAAGCGTTTTAA	MSRPLNPVLLLLTWALCAPVQAQAISREQIDGWLQHLGASDEFDASKGIDWGVMPGPFYTPELGLGIGTAVVGLYRPDPQDTTSQNSTLTLSGYASSTGAFGLSVKNYAFFDHDRWRIFVDGSMANTPTYFWGQGFHAGDKDNEKEKYTAQVLTLRPTVYRQLIDNVYLGAGWSLAAQNADEMDHNDLPKIENTPQGPSVFSSGASVALNWDDRDFVPNPRRGQYANFRYTHYAPGLGSDTRFDEFQLHYSHYHALSEKSVLAWEADGAFTQGDVPWSMMPLLGSDERMRGYYQGRYRDKNVVSSQLEYRRQLTWRHGIVAWAGAGTMGPSMDSLNDGRWLPSAGVGYRFEFKPRVNVRLDYGIGKGSSGFYFQVGEAF				NA	NA	NA	NA	NA
BMS020_07186	1083			hypothetical protein	ATGAATAAACGCCATTATTTGATGTTGGTTACGCTGCCATTCGCCTCTGTTCAGATCTGCGCGGCCGCGGAACCAACAACGCCGCTTGAGCCGGCGTATGCCTATCACGGCGCCGAGCCCGCGGATCTGCCGGCGCCAGAAAGTCGCCAGCCTGCGGCGACAGCATCGTCCTCGCTACTCCCTTTGCTAGGCGACGAGGCCAGAAAGCGTGGCTACGTCCTGCCGCTGCCGTTTGGCGTCAGCATTAACTATATGGATATGCGGCAGAATATTAATGTCGACAGCATTAGCTTCACCGGCCTGTCGCTGGACGGCCGCAATATCGATTGCGGTAAGGATCCTGTTTGCAAACGCGCCGTGAAGCACATTTTCGGTAATGGGCCGGTCTCGCTGGACAACGCCTTCCAGATTGGCGTCGGTAATACGCGGGAAAGCAGCAAAACCGAGACGCTCAAGCTGGATGCCTGGCTGCTGCCGTTTATGAATGTTTATGGTCTCGTCGGACACACCGAGGGGCACTCCATTTCGCAGATTGCCGTCGGGCTGAAGGGGCCGAACGGCAAAGTGGTGCCGATGCCGGGGATGCAGGACCTCGACTTTCGCCTCGATTTTAAAGGCACCACCTATGGGATGGGCACCACGCTGGTGGGCGGCATCGGCAACTGGTTTACCGTACTGGACGCTAACTACACCCAGACGCGCTTTGATATCCTCGACGGCAGCATCGATGCGTTTACCTTTTCGCCTCGCGTAGGCTATCGTTTCAATACGCCATCGGTCGATGCGCTACATCTCCCGGCCGGAAAGCTGAATCTATGGGTCGGCAGCATGTATCAGGACGTGCAGCAAGAGTTTAAGGGTAGCCTTAACGATCTCTCGATGCCGTCGCCGATGCTGCAAAACATGGTCAACCTGGCCAACCAGGACAATCATGGCCGCTTTGATGTGAAACAGCATCTGCAGTCGCCGTGGAACGTGCTGGTGGGAGCGCAGTATGAGCTGACGCAGAATTTTAATATCACCACGGAGTTTGGTTTTGCCGAGCGTAACAGCTTCTTTATCTCAGGCGAGTATCGCTTTTGA	MNKRHYLMLVTLPFASVQICAAAEPTTPLEPAYAYHGAEPADLPAPESRQPAATASSSLLPLLGDEARKRGYVLPLPFGVSINYMDMRQNINVDSISFTGLSLDGRNIDCGKDPVCKRAVKHIFGNGPVSLDNAFQIGVGNTRESSKTETLKLDAWLLPFMNVYGLVGHTEGHSISQIAVGLKGPNGKVVPMPGMQDLDFRLDFKGTTYGMGTTLVGGIGNWFTVLDANYTQTRFDILDGSIDAFTFSPRVGYRFNTPSVDALHLPAGKLNLWVGSMYQDVQQEFKGSLNDLSMPSPMLQNMVNLANQDNHGRFDVKQHLQSPWNVLVGAQYELTQNFNITTEFGFAERNSFFISGEYRF				NA	NA	NA	NA	NA
BMS020_07187	813	yidA	COG0561	Sugar phosphatase YidA	ATGGCTATTAAACTGATTGCAATTGATATGGATGGCACGCTGCTGCTGCCCGATCACACTATCTCTCCCGCCGTTAAAAACGCCATTGCCGCCGCCCGTGAAAAAGGGGTGAACGTGGTGCTGACCACAGGCCGCCCTTACGCGGGTGTCCACAGCTATCTGAAAGAGCTGCATATGGAGCAGCCGGGTGATTACTGCATCACCTACAATGGCGCGCTGGTGCAGAAAGCCGGGGACGGCAGCACCGTCGCACAAACCGCGCTGAGCTATGACGACTATCGCTTCCTCGAACAGCTCTCCCGCGAAGTCGGCTCCCACTTCCACGCGCTCGATCGCAATACGCTGTATACCGCGAATCGCGATATCAGCTACTACACCGTGCATGAATCCTATGTGGCGACCATCCCGCTGGTGTTCTGCGAAGCGGAAAAGATGGACCCTGAGATCCAGCTGCTGAAGGTAATGATGATCGATGAGCCGGCGATCCTCGACAAGGCCATCGCCCGTATCCCGGCGGAAGTGAAAGAAAAGTACACCGTGCTGAAAAGCGCGCCTTACTTCCTCGAAATACTGGATAAACGCGTCAATAAAGGCACCGGCGTGAAGTCGCTGGCCGATGCGCTGGGTATCAAACCGGAAGAGATTATGGCGATAGGCGATCAGGAAAATGATATCGCGATGATTGAATTTGCCGGCGTCGGCGTGGCGATGGAGAACGCCATTCCGGCGGTCAAAGAAGCGGCGAACTTCATTACCAAATCGAACCTCGATGATGGCGTCGCCTTCGCTATTGAAAAATACGTTTTAGCGTAA	MAIKLIAIDMDGTLLLPDHTISPAVKNAIAAAREKGVNVVLTTGRPYAGVHSYLKELHMEQPGDYCITYNGALVQKAGDGSTVAQTALSYDDYRFLEQLSREVGSHFHALDRNTLYTANRDISYYTVHESYVATIPLVFCEAEKMDPEIQLLKVMMIDEPAILDKAIARIPAEVKEKYTVLKSAPYFLEILDKRVNKGTGVKSLADALGIKPEEIMAIGDQENDIAMIEFAGVGVAMENAIPAVKEAANFITKSNLDDGVAFAIEKYVLA	PGPT0017727_172	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017727-yidA-NA	NA	NA
BMS020_07188	2415	gyrB_2	COG0187	DNA gyrase subunit B	ATGTCGAATTCTTATGACTCCTCCAGTATCAAAGTCCTGAAAGGGCTGGATGCGGTGCGTAAGCGCCCGGGTATGTATATCGGCGACACGGATGACGGCACCGGTCTGCACCACATGGTATTCGAGGTTGTGGATAACGCTATCGACGAAGCGCTCGCGGGTTACTGCAAAGATATCGTGGTGACCATCCACAGCGATAACTCCGTCTCCGTCCAGGATGACGGCCGCGGCATCCCGACCGGCATTCACCCGGAAGAGGGCGTCTCCGCAGCGGAAGTTATCATGACCGTCCTGCACGCTGGCGGTAAATTCGATGATAACTCCTATAAAGTCTCCGGCGGTCTGCACGGCGTAGGCGTCTCGGTGGTTAACGCCTTGTCGCAGAAGCTGGAGCTGGTTATCCAGCGCGATAACAAAGTGCACAAGCAGATGTATGAGCACGGTGTGCCGCAGGCGCCGCTGGCCGTGACCGGCGAGACCGACAAAACCGGCACCATGGTGCGTTTCTGGCCGAGCCTGGAAACCTTCACCAACGTCACCGAGTTTGAATACGATATCCTGGCGAAACGCCTGCGCGAACTGTCGTTCCTGAACTCCGGAGTCTCTATCCGCCTGCGCGATAAGCGCGACGGCAAAGAAGATCATTTCCACTACGAAGGCGGCATCAAGGCGTTCGTTGAGTATCTCAACAAGAACAAAACGCCGATCCACCCGAATATCTTCTATTTCTCTACTGAAAAAGACGGTATCGGCGTGGAAGTGGCCCTGCAGTGGAACGACGGCTTCCAGGAAAATATTTACTGCTTTACCAACAACATTCCGCAGCGTGACGGGGGGACTCACCTTGCCGGCTTCCGCGCGGCGATGACCCGTACCCTCAACGCCTACATGGACAAAGAGGGCTACAGCAAAAAAGCGAAAGTCAGCGCCACCGGCGACGACGCCCGTGAAGGCCTGATTGCCGTGGTATCGGTGAAAGTGCCGGATCCGAAGTTCTCCTCGCAGACCAAAGACAAGCTGGTCTCCTCCGAGGTGAAATCGGCGGTTGAGCAGCAGATGAACGAACTGCTGAGCGAATACCTGCTGGAAAATCCGTCCGATGCGAAAATCGTGGTCGGCAAAATTATTGACGCCGCACGCGCGCGCGAAGCCGCGCGTCGTGCCCGTGAGATGACCCGCCGTAAAGGCGCGCTGGATCTGGCTGGCCTGCCGGGCAAACTGGCGGACTGCCAGGAACGCGACCCGGCGCTCTCCGAACTGTACCTGGTGGAAGGGGACTCCGCGGGCGGCTCTGCGAAGCAGGGGCGTAACCGCAAGAATCAGGCGATCCTGCCGCTGAAGGGCAAAATCCTCAACGTTGAGAAAGCCCGCTTCGACAAGATGCTCTCTTCCCAGGAAGTGGCCACGCTGATCACCGCTCTGGGCTGCGGCATCGGCCGCGATGAGTACAACCCGGACAAACTGCGCTATCACAGCATCATCATCATGACCGATGCGGACGTCGACGGCTCGCACATTCGTACCCTGCTGTTGACCTTCTTCTATCGTCAGATGCCGGAGATCGTCGAGCGCGGCCATGTCTATATTGCTCAGCCGCCGCTGTACAAAGTGAAGAAAGGCAAGCAGGAACAGTATATTAAAGACGACGAAGCGATGGATCAGTATCAGATTGCCATCGCCCTCGACGGCGCCACCCTGCATACCAACGCCAATGCGCCAGCGCTGGCGGGCGAACCGCTGGAAAAACTGGTTGCTGAGTTTAACGCCACCCAGAAAATGATTGGCCGCATGGAGCGCCGCTTCCCGAAAGCGCTGCTGAAAGAGCTTATCTATCAGCCGACCCTGACCGAGGCCGATCTGGCGGACGAACAGAAGGTGACCCGCTGGGTGAACACACTGGTCTCCGAGCTGAATGAGAAAGAGCAGCACGGCAGCCAGTGGAAATTTGATCTCCATGAGAACAAAGAGCTGCAGCATTTTGAACCGGTTATTCGCGTTCGTACCCACGGCGTGGATACCGACTATCCGCTGGATAATGAGTTCATTATGGGGCCGGAATATCGCCGTATCTGTACCCTGGGCGAGAAACTGCGCGGCCTGATGGAAGAAGATGCTTACATCGAGCGCGGCGAACGCCGTCAGCCGGTAGCCAGCTTTGAGCAGGCTCTGGACTGGCTGGTGAAAGAGTCCCGTCGCGGCCTCTCTATCCAGCGCTATAAAGGTCTGGGCGAGATGAACCCGGATCAGCTGTGGGAAACCACCATGGATCCGGACAGCCGCCGTATGCTGCGCGTGACCGTCAAGGACGCGATTGCCGCCGACCAGCTGTTCACTACCCTGATGGGTGATGCCGTTGAACCGCGTCGCGCGTTTATCGAAGAGAACGCCCTGAAAGCGGCGAATATCGATATCTAA	MSNSYDSSSIKVLKGLDAVRKRPGMYIGDTDDGTGLHHMVFEVVDNAIDEALAGYCKDIVVTIHSDNSVSVQDDGRGIPTGIHPEEGVSAAEVIMTVLHAGGKFDDNSYKVSGGLHGVGVSVVNALSQKLELVIQRDNKVHKQMYEHGVPQAPLAVTGETDKTGTMVRFWPSLETFTNVTEFEYDILAKRLRELSFLNSGVSIRLRDKRDGKEDHFHYEGGIKAFVEYLNKNKTPIHPNIFYFSTEKDGIGVEVALQWNDGFQENIYCFTNNIPQRDGGTHLAGFRAAMTRTLNAYMDKEGYSKKAKVSATGDDAREGLIAVVSVKVPDPKFSSQTKDKLVSSEVKSAVEQQMNELLSEYLLENPSDAKIVVGKIIDAARAREAARRAREMTRRKGALDLAGLPGKLADCQERDPALSELYLVEGDSAGGSAKQGRNRKNQAILPLKGKILNVEKARFDKMLSSQEVATLITALGCGIGRDEYNPDKLRYHSIIIMTDADVDGSHIRTLLLTFFYRQMPEIVERGHVYIAQPPLYKVKKGKQEQYIKDDEAMDQYQIAIALDGATLHTNANAPALAGEPLEKLVAEFNATQKMIGRMERRFPKALLKELIYQPTLTEADLADEQKVTRWVNTLVSELNEKEQHGSQWKFDLHENKELQHFEPVIRVRTHGVDTDYPLDNEFIMGPEYRRICTLGEKLRGLMEEDAYIERGERRQPVASFEQALDWLVKESRRGLSIQRYKGLGEMNPDQLWETTMDPDSRRMLRVTVKDAIAADQLFTTLMGDAVEPRRAFIEENALKAANIDI	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
BMS020_07189	1074	recF_2	COG1195	DNA replication and repair protein RecF	ATGTCACTGACGCGCTTACTTATCAAAGATTTCCGCAATATTGAACATGCGGATCTCGCTTTATCTCCCGGCTTTAACTTCCTGGTTGGCGCGAACGGCAGCGGCAAAACCAGCGTGCTGGAAGCCATCTACACGCTTGGCCATGGCCGGGCGTTTCGCAGTTTGCAAATTGGCCGGGTGATCCGCCACGAGCAGGAGGCCTTTGTTCTGCATGGCCGTCTGCAGGGCGAAGAGCGGGAAACCGCCATCGGCCTGACCAAAGACAAACAGGGCGACAGCAAGGTGCGTATCGACGGCACCGACGGCCACAAAGTGGCGGAGCTGGCGCACCTGATGCCGATGCAGCTGATTACGCCGGAGGGGTTTACTTTACTCAACGGCGGCCCCAAATACAGAAGAGCATTTCTTGACTGGGGATGCTTTCATAACGAAGCCGGATTCTTCACCGCCTGGAGCAACCTGAAGCGCCTGGTCAAGCAGCGCAACGCCGCGCTGCGTCAGGTCAGCCGTTATGCCCAGCTGCGGCCATGGGATCTGGAATTAATCCCGCTGGCGGAGCAGATCAGCCGCTGGCGTGCCGAATACAGCGCCGCTATCGTCGAAGACATGGCGGATACCTGTCAGCAATTTTTACCGGAATTCTCGCTCTCTTTCTCCTTCCAGCGCGGCTGGGAAAAAGAGACCGACTACGCTGAAGTGCTGGAGCGGAATTTCGAGCGTGACAGAATGTTAACCTATACCGCCCACGGCCCGCATAAAGCGGATTTCCGTATTCGCGCCGACGGGGCGCCGGTGGAAGATACCTTGTCGCGCGGGCAGCTTAAGCTGCTGATGTGCGCCCTGCGTCTGGCGCAGGGCGAGTTCCTCACCCGCGTCAGCGGGCGGCGCTGCCTGTACCTGATAGATGATTTTGCCTCGGAACTCGATGATGCCCGCCGCGGTCTGTTATCCAGTCGCCTGAAAGCGACGCAGTCGCAGGTTTTCGTCAGCGCCATCAGCGCTGAGCACGTTATGGACATGTCGGACAAAAATTCGAAGATGTTCCGCGTGGAAAAAGGTAAAATAACGGATTAA	MSLTRLLIKDFRNIEHADLALSPGFNFLVGANGSGKTSVLEAIYTLGHGRAFRSLQIGRVIRHEQEAFVLHGRLQGEERETAIGLTKDKQGDSKVRIDGTDGHKVAELAHLMPMQLITPEGFTLLNGGPKYRRAFLDWGCFHNEAGFFTAWSNLKRLVKQRNAALRQVSRYAQLRPWDLELIPLAEQISRWRAEYSAAIVEDMADTCQQFLPEFSLSFSFQRGWEKETDYAEVLERNFERDRMLTYTAHGPHKADFRIRADGAPVEDTLSRGQLKLLMCALRLAQGEFLTRVSGRRCLYLIDDFASELDDARRGLLSSRLKATQSQVFVSAISAEHVMDMSDKNSKMFRVEKGKITD				NA	NA	NA	NA	NA
BMS020_07190	1101	dnaN_2	COG0592	Beta sliding clamp	ATGAAATTTACCGTAGAACGTGAACATTTATTAAAACCGCTGCAACAGGTGAGCGGTCCGTTAGGTGGTCGTCCGACGCTGCCCATTCTCGGTAACCTGCTGCTTCAGGTCGCGGACGGCGCGCTGTCGCTGACCGGTACCGATCTTGAAATGGAGATGGTGGCGCGCGTGGCGCTGGTTCAGCCGCACGAAGCGGGCGCCACCACCGTTCCGGCGCGTAAATTCTTTGATATCTGCCGCGGCCTGCCGGAAGGCGCGGAGATCGCGGTGCAGCTGGAAGGCGATCGCATGTTGGTGCGTTCCGGCCGCAGCCGCTTCTCGCTGTCGACCCTGCCCGCTGCCGACTTCCCGAATCTTGACGACTGGCAGAGCGAGGTGGAATTTACCCTGCCGCAGGCGACCATGAAGCGTCTGATCGAAGCGACGCAGTTCTCGATGGCGCACCAGGATGTTCGTTACTACTTAAACGGTATGCTGTTCGAAACCGAAGGCAGCGAACTGCGCACCGTCGCTACCGACGGTCACCGTCTGGCGGTCTGTTCGATGCCGCTGGAAGCGTCGCTGCCGAACCATTCGGTGATCGTGCCGCGTAAAGGGGTGATTGAGCTGATGCGGATGCTCGACGGCGGTGATACGCCGCTGCGCGTGCAGATCGGCAGCAATAATATCCGCGCCCATGTCGGCGATTTTATCTTCACTTCGAAGCTGGTTGATGGCCGTTTCCCGGATTATCGCCGCGTTCTGCCGAAAAATCCGGATAAACACCTCGAAGCGGGCTGCGATATTCTGAAGCAGGCTTTTGCCCGCGCGGCGATTCTCTCCAATGAGAAATTCCGCGGCGTGCGGCTGTACGTTAGCGAAAATCAGCTGAAAATCACCGCCAATAACCCGGAGCAGGAAGAAGCGGAAGAGATTCTGGACGTGACCTACGCCGGCACGGAGATGGAGATTGGTTTCAACGTTAGCTACGTGCTGGATGTGCTGAACGCGCTGAAGTGCGAGAATGTGCGCATTCTGCTGACGGATTCGGTGTCGAGCGTGCAGATTGAGGATGCGGCTTCACAAAGCGCAGCCTATGTTGTCATGCCTATGCGCTTATAG	MKFTVEREHLLKPLQQVSGPLGGRPTLPILGNLLLQVADGALSLTGTDLEMEMVARVALVQPHEAGATTVPARKFFDICRGLPEGAEIAVQLEGDRMLVRSGRSRFSLSTLPAADFPNLDDWQSEVEFTLPQATMKRLIEATQFSMAHQDVRYYLNGMLFETEGSELRTVATDGHRLAVCSMPLEASLPNHSVIVPRKGVIELMRMLDGGDTPLRVQIGSNNIRAHVGDFIFTSKLVDGRFPDYRRVLPKNPDKHLEAGCDILKQAFARAAILSNEKFRGVRLYVSENQLKITANNPEQEEAEEILDVTYAGTEMEIGFNVSYVLDVLNALKCENVRILLTDSVSSVQIEDAASQSAAYVVMPMRL				NA	NA	NA	NA	NA
BMS020_07191	1404	dnaA_2	COG0593	Chromosomal replication initiator protein DnaA	GTGTCACTTTCGCTTTGGCAGCAGTGTCTTGCCCGATTGCAGGATGAGTTACCAGCCACAGAATTCAGCATGTGGATCCGCCCATTGCAGGCGGAACTGAGCGATAACACGCTGGCACTGTATGCGCCAAACCGTTTTGTGCTCGACTGGGTAAGGGACAAATACCTCAATAATATCAATGGACTCCTCAATGATTTTTGCGGTGCGGACGCCCCGCAGCTGCGTTTTGAGGTGGGAGCTAAGCCCGCCAGCTCGCTGCAGAAAGGGGCGGTAAGCCCGGCCGCGGCGACTATCCCGGCGGCGCAGGTGCAGACCGCGCGCGTGGCGCCGACGATCGTGCGCCCTGGCTGGGATAATGTCCCGGCGCCGGCGGAGCCGACCTACCGTTCTAACGTTAACGTGAAACACACGTTTGATAACTTCGTCGAAGGTAAATCTAACCAGCTGGCCCGCGCGGCGGCGCGTCAGGTGGCGGATAACCCGGGCGGCGCCTATAACCCCCTGTTCCTCTACGGCGGAACGGGTCTGGGTAAAACCCACCTGCTGCACGCGGTGGGGAACGGTATCGTGGCGCGTAAACCGAACGCCAAAGTGGTCTATATGCACTCGGAGCGTTTCGTTCAGGACATGGTTAAAGCGCTGCAGAACAACGCCATCGAAGAGTTTAAGCGCTACTACCGATCCGTTGACGCCCTGCTGATCGATGACATTCAGTTCTTCGCTAATAAAGAGCGATCCCAGGAAGAGTTTTTCCACACCTTCAATGCCTTGCTGGAAGGTAATCAGCAGATCATTTTGACTTCGGATCGTTATCCCAAAGAGATCAACGGCGTTGAAGATCGTCTGAAATCCCGCTTCGGCTGGGGGCTGACGGTGGCGATCGAGCCGCCGGAGCTGGAAACCCGCGTCGCGATCCTGATGAAAAAAGCCGATGAGAACGACATCCGCCTGCCGGGCGAAGTGGCGTTCTTTATTGCCAAGCGCCTGCGCTCAAACGTGCGTGAACTGGAGGGGGCGCTGAACCGCGTTATCGCCAACGCCAATTTCACCGGCCGGGCGATCACTATCGATTTCGTGCGCGAAGCGCTGCGCGATCTGCTGGCGCTGCAGGAAAAACTGGTCACCATCGACAATATTCAAAAGACGGTGGCGGAGTACTACAAGATTAAGGTAGCGGACCTGCTGTCCAAACGCCGCTCCCGTTCGGTGGCGCGTCCTCGCCAGATGGCGATGGCGCTGGCCAAAGAGCTGACCAACCACAGCCTGCCGGAAATCGGCGATGCGTTTGGCGGCCGCGACCATACCACCGTGCTGCACGCCTGCCGCAAGATTGAGCAGCTGCGTGAAGAAAGCCACGACATTAAAGAAGATTTTTCCAATTTAATCAGAACATTATCCTCGTGA	MSLSLWQQCLARLQDELPATEFSMWIRPLQAELSDNTLALYAPNRFVLDWVRDKYLNNINGLLNDFCGADAPQLRFEVGAKPASSLQKGAVSPAAATIPAAQVQTARVAPTIVRPGWDNVPAPAEPTYRSNVNVKHTFDNFVEGKSNQLARAAARQVADNPGGAYNPLFLYGGTGLGKTHLLHAVGNGIVARKPNAKVVYMHSERFVQDMVKALQNNAIEEFKRYYRSVDALLIDDIQFFANKERSQEEFFHTFNALLEGNQQIILTSDRYPKEINGVEDRLKSRFGWGLTVAIEPPELETRVAILMKKADENDIRLPGEVAFFIAKRLRSNVRELEGALNRVIANANFTGRAITIDFVREALRDLLALQEKLVTIDNIQKTVAEYYKIKVADLLSKRRSRSVARPRQMAMALAKELTNHSLPEIGDAFGGRDHTTVLHACRKIEQLREESHDIKEDFSNLIRTLSS	PGPT0014800_2347	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0014800-dnaA-K02313	NA	NA
BMS020_07193	1647	yidC_2		Membrane protein insertase YidC	ATGGATTCGCAACGCAATCTTCTTATCATCGCTTTGTTGTTCGTGTCTTTCATGATCTGGCAAGCCTGGGAGCAGGACAAAAATCCGCAACCCCAGCAGCAGACCACGCAGACTACGACCACAGCAGCGGGTAGCGCCGCCGACCAGGGCGTACCGGCCAGTGGCCAGGGGAAACTGATTACGGTTAAAACTGATGTGCTTGATCTGACCATCAACACCCGCGGTGGTGATGTTGAGCAAGCGCTGCTTCCGGCTTACCCGAAAGCGCTGAAATCGACTGAACCGTTCCAGTTACTGGAAACTACGCCACAGTTTATCTACCAGGCGCAGAGCGGCTTAACCGGTCGTGACGGCCCGGATAACCCGGCTAACGGCCCGCGTCCGCTGTATAACGCTGATAAAGATGCGTATGTACTGGCTGATGGCCAGAACGAAATCGTTATTCCGCTGACCTATACCGACAAAGCCGGCAACGTCTTCACCAAGACCTTCACCCTGAAACGCGGTGATTATGCGGTGAACGTGGGTTATAGCGTGCAGAACGCCAGCGAGAAACCGCTGGAAGTCTCGACCTTCGGTCAGCTGAAGCAGACCGCCGCGCTGCCGTCCAGTCGCGATACGCAGACCGGCGGCCTGTCCACGATGCATACTTTCCGTGGCGCAGCGTTCTCCACCGCGGATTCGAAATACGAAAAATACAAATTCGATACCATCCTGGATAATGAAAACCTGAACGTCAGCACCAAAAACGGTTGGGTTGCCATGCTGCAGCAGTACTTCACCACCGCGTGGGTGCCGCAGAATAACGGGACGAATAACTTCTACACCGCCAACCTCGGCAACGGCATTGTCGCTATCGGCTATAAATCTCAGCCGGTACTGGTGCAGCCTGGTCAAACCGACAAACTGCAGAGCACGCTGTGGGTCGGCCCGGCGATTCAGGACAAAATGGCTGCCGTCGCGCCGCACCTGGATCTGACCGTCGACTACGGCTGGCTGTGGTTCATCTCCCAACCGCTGTTCAAGCTGCTGAAATTCATTCACGGCTTCCTCGGCAACTGGGGCTTCTCGATTATCGTCATCACCTTTATCGTTCGTGGCATCATGTACCCGCTGACCAAAGCGCAGTACACCTCCATGGCGAAGATGCGTATGCTGCAGCCGAAAATTCAGGCCATGCGCGAGCGTCTGGGCGACGATAAACAACGTCAAAGCCAGGAGATGATGGCGCTGTATAAAGCGGAAAAAGTGAACCCGCTGGGCGGCTGCTTCCCGCTGATTATCCAGATGCCGATCTTCCTTGCGCTGTACTACATGCTGAGCGCCTCGGTAGAACTGCGTCATGCGCCGTTTATCCTGTGGATCCACGATCTGTCTGCGCAAGACCCGTACTACATCCTGCCGATCATCATGGGCGCGACGATGTTCTTCATCCAGAAGATGTCGCCGACCACCGTGACCGACCCGATGCAGCAGAAGATCATGACCTTTATGCCGGTCATCTTCACGGTGTTCTTCCTGTGGTTCCCGTCTGGCCTGGTGGTGTACTACATCGTCAGCAACCTGGTGACCATTATCCAGCAGCAGCTGATTTACCGTGGTCTGGAGAAGCGTGGCCTGCATAGCCGCGAGAAGAAGAAATCCTGA	MDSQRNLLIIALLFVSFMIWQAWEQDKNPQPQQQTTQTTTTAAGSAADQGVPASGQGKLITVKTDVLDLTINTRGGDVEQALLPAYPKALKSTEPFQLLETTPQFIYQAQSGLTGRDGPDNPANGPRPLYNADKDAYVLADGQNEIVIPLTYTDKAGNVFTKTFTLKRGDYAVNVGYSVQNASEKPLEVSTFGQLKQTAALPSSRDTQTGGLSTMHTFRGAAFSTADSKYEKYKFDTILDNENLNVSTKNGWVAMLQQYFTTAWVPQNNGTNNFYTANLGNGIVAIGYKSQPVLVQPGQTDKLQSTLWVGPAIQDKMAAVAPHLDLTVDYGWLWFISQPLFKLLKFIHGFLGNWGFSIIVITFIVRGIMYPLTKAQYTSMAKMRMLQPKIQAMRERLGDDKQRQSQEMMALYKAEKVNPLGGCFPLIIQMPIFLALYYMLSASVELRHAPFILWIHDLSAQDPYYILPIIMGATMFFIQKMSPTTVTDPMQQKIMTFMPVIFTVFFLWFPSGLVVYYIVSNLVTIIQQQLIYRGLEKRGLHSREKKKS	PGPT0024530_2303	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
BMS020_07194	1365	mnmE_2	COG0486	tRNA modification GTPase MnmE	ATGAGCCATAACGACACTATCGTCGCCCAGGCAACCCCACCGGGACGCGGGGGTGTGGGCATCCTGCGTATCTCCGGCCTCAAAGCGCGCGACGTCGCGCAGGCGGTACTCGGCAAGCTGCCGAAGCCGCGCTATGCCGACTACCTGCCGTTCAACGACGTTGACGGTACGCCGCTGGATCAGGGGATTGCGCTGTGGTTCCCCGGGCCGAACTCCTTTACCGGGGAAGATGTGCTTGAGCTGCAGGGCCACGGCGGCCCGGTCATTCTCGACCTGCTGCTCAAACGTATTCTGACCCTGCCGGGCCTGCGCATCGCCAGACCGGGCGAATTCTCCGAGCGCGCGTTCCTTAACGACAAGCTCGACCTGGCGCAGGCAGAGGCCATCGCCGATCTTATCGACGCCAGCTCAGAACAGGCGGCGCGCTCGGCGCTGAACTCGCTGCAGGGGGCGTTCTCCGCGCGGGTGAACCACCTTGTGGAAGCGCTCACTCACCTGCGCATCTACGTGGAAGCGGCGATTGATTTTCCGGATGAAGAAATTGATTTCCTCTCCGACGGCAAAATTGAAGCCCAGCTGAACGAGGTGATGGTCGACCTCGACGCCGTCCGCGCCGAAGCCCGTCAGGGCAGTCTGCTGCGCGAAGGGATGAAAGTGGTGATCGCCGGGCGGCCAAATGCCGGTAAATCAAGCCTGCTGAACGCCCTGGCGGGCCGCGAAGCGGCGATCGTCACCGACATTGCGGGCACCACCCGCGATGTGCTGCGCGAGCATATCCATATCGACGGCATGCCCCTGCATATCATTGATACCGCGGGCCTGCGCGACGCCAATGACGAAGTGGAGCGTATCGGCATCGAGCGCGCCTGGCAGGAGATTGCGCAGGCTGACCGGGTGCTGTTTATGGTCGATGGCACCACCACCAGCGCCGTTGACCCGGCGGAGATCTGGCCAGATTTTATCGAGCGCCTGCCCGCTAAACTGCCGATTACCGTGGTGCGCAATAAAGCCGATGTTACCGGCGAAGCGCTGGGTATCAGCGAAGTAAATGGCCACTCACTGATCCGCCTGTCGGCACGCACCGGCGAAGGCGTCGAGGTGCTGCGTAATCACCTCAAGCAGAGCATGGGCTTCGATACCAATATGGAAGGCGGCTTCCTCGCCCGCCGTCGCCATCTGCAGGCGCTGGAAGAGGCGGCGAACCATCTGCAGCAGGGCAAAGCCCAGCTGCTGGGCGCCTGGGCCGGCGAGCTGCTGGCGGAAGAGCTGCGTCTCGCGCAGCAGGCGCTGAGCGAGATCACCGGGGAGTTCACCTCCGACGACCTGCTGGGCCGCATCTTCTCCAGCTTCTGTATCGGCAAATAA	MSHNDTIVAQATPPGRGGVGILRISGLKARDVAQAVLGKLPKPRYADYLPFNDVDGTPLDQGIALWFPGPNSFTGEDVLELQGHGGPVILDLLLKRILTLPGLRIARPGEFSERAFLNDKLDLAQAEAIADLIDASSEQAARSALNSLQGAFSARVNHLVEALTHLRIYVEAAIDFPDEEIDFLSDGKIEAQLNEVMVDLDAVRAEARQGSLLREGMKVVIAGRPNAGKSSLLNALAGREAAIVTDIAGTTRDVLREHIHIDGMPLHIIDTAGLRDANDEVERIGIERAWQEIAQADRVLFMVDGTTTSAVDPAEIWPDFIERLPAKLPITVVRNKADVTGEALGISEVNGHSLIRLSARTGEGVEVLRNHLKQSMGFDTNMEGGFLARRRHLQALEEAANHLQQGKAQLLGAWAGELLAEELRLAQQALSEITGEFTSDDLLGRIFSSFCIGK				NA	NA	NA	NA	NA
BMS020_07195	420			hypothetical protein	ATGACCGTTGAATATACCGTGATCGAGAAGGTGCCCTCCGCCGAAGCGTTTTGCCACCTGCGGGTGGTAGCGGGCATGTCGCCGCGCCCCGTAGAAGGCGCCAGAGCCGGGCTGCCGCAAAGCTGTTATGGCGTACATATCCTCTGGCAGGAGACGCCGATCGCCATGGGGCGCATCGTCGGCGACGGCGCGATTAATTTCGACATTGTCGACGTCGCCGTCGATCCGGCTCACCAGGGGAAGGGCCTTGGCCGGCTGGTGATGGAGAAACTGGTCGCCTGGCTGGATGCGAACGCCTTTGACGGCGCCTACGTTACGCTGGTGGCGGATGTTCCGGAGCTGTACGCGAAGTTTGGCTTCGAAAGCGTTCGGCCGGAAAGCGAAGGGATGGCCCGCGTCTGGCGACGCCGGGGCCGCTAG	MTVEYTVIEKVPSAEAFCHLRVVAGMSPRPVEGARAGLPQSCYGVHILWQETPIAMGRIVGDGAINFDIVDVAVDPAHQGKGLGRLVMEKLVAWLDANAFDGAYVTLVADVPELYAKFGFESVRPESEGMARVWRRRGR				NA	NA	NA	NA	NA
BMS020_07196	1185	mdtL		Multidrug resistance protein MdtL	ATGACACGCTTTCTTCTCTGCAGCTTTGCCCTGGTTCTGCTCTATCCCTCCGGCATCGATATGTATCTCGTCGGCCTGCCGCGTATTGCTCAGGATCTGGGAGCCAGCGAGGCGCAATTACATATCGCCTTCTCGGTCTATCTGGCCGGAATGGCCTCCGCGATGCTGTTTGCTGGCCGTATCGCCGACCGCTCGGGGCGCAAGCCTGTCGCCATTGTGGGCGCGGCGATCTTTGTTATCGCCTCCCTGCTCTGCGCGCAGGCGCACACCAGCAGCCACTTCCTTACCGGACGCTTTATCCAGGGGATTGGCGCCGGCTGCTGCTACGTGGTGGCTTTCGCTATTCTGCGCGATACGCTGGACGACCGTCGGCGGGCCAAAGTGCTGTCGTTGCTCAACGGCATTACCTGCATCATCCCCGTTCTGGCGCCGGTGCTCGGCCACCTGATCATGCTGAAATTCCCGTGGCAGAGTCTGTTCTACACCATGATCGGCATGGGGGTAACGGTGGGTTTACTGGCGGTATTTATCCTGCGCGAGACGCGTCCGACGGCGCCTCCGCAGACGGCTATGCCGCAGCATGGCGCGGATGAATCGCTGTTGAATCGCTTTTTCCTCAGCCGCATTCTCATCACCACCCTCAGCGTAACGGCGATCCTCACCTACGTGAACGTCTCGCCGGTACTGATGATGGAGGAGATGGGGTTCGATCGCGGCACCTATTCCATGACGATGGCGCTGATGGCGATGGTCAGCATGGCGGTCTCCTTCTCGACGCCGTTCGCCCTGTCGCTGTTTAAACCGCGCACCCTGATGATAACCTCGCAGCTGCTGTTCCTGGCGGCAGGCGTGGCGCTGAGCCTCGCCACCCACCAGGCCGTCACCCTGGTCGGGCTGGGCATGATTTGCGCCGGCTTCTCCGTCGGCTTCGGCGTCGCGATGAGCCAGGCCCTGGGGCCATTCACGCTGCGCGCCGGTGTCGCCAGCTCGGCCCTCGGCATCGCGCAGGTGTGCGGTTCGTCGCTGTGGATTTGGCTCGCCGCTATCATCGGACTCAGCGCAATGAATATGCTGATCGGGATACTCATTGCCTGTAGCATAGTGAGTCTTGTTCTGCTACTGGTCGCTACCCCGCCGCGGGTTGCGCAACACGATGAAGAAGCCGCTTTCGAGTCTCGATCTTAA	MTRFLLCSFALVLLYPSGIDMYLVGLPRIAQDLGASEAQLHIAFSVYLAGMASAMLFAGRIADRSGRKPVAIVGAAIFVIASLLCAQAHTSSHFLTGRFIQGIGAGCCYVVAFAILRDTLDDRRRAKVLSLLNGITCIIPVLAPVLGHLIMLKFPWQSLFYTMIGMGVTVGLLAVFILRETRPTAPPQTAMPQHGADESLLNRFFLSRILITTLSVTAILTYVNVSPVLMMEEMGFDRGTYSMTMALMAMVSMAVSFSTPFALSLFKPRTLMITSQLLFLAAGVALSLATHQAVTLVGLGMICAGFSVGFGVAMSQALGPFTLRAGVASSALGIAQVCGSSLWIWLAAIIGLSAMNMLIGILIACSIVSLVLLLVATPPRVAQHDEEAAFESRS	PGPT0029195_65	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029195-mdtL-K08163	NA	NA
BMS020_07197	960	yidZ		HTH-type transcriptional regulator YidZ	ATGAAGAAGCCGCTTTCGAGTCTCGATCTTAATTTACTCCTCTGCCTGCAGCTCCTGACCCAGGAGCTCAGCGTTACCCGTACGGCGAAGCGGATGAACGTTTCGCCCTCGGCGGTGAGCAAGTCGCTGGCCAAACTGCGCGCCTGGTTTGACGATCCGCTGTTTGTCAAAACGCCGCTGGGCCTGGCGCCCACGCCGCTGGTCAGCAGCATGGAGCAGGATCTGGCGGACTGGATGCAGATGGGCAACCAGATCCTCGATAAACCGCACCACACCATGCCGAGCGGCCTCAAGTTCGAGCTGGCGGCGGAAACGCCGCTGCTGATGATCCTGTTTAACACCCTCTCCCAGCGCATCTATCAGCGCTATCCGCAGGCATTGATTCGTTTGCGCAACTGGGACTACGACTCCCTGGACGCCATCATTCGCGGCGAGGTGGATATCGGCTTCTGCGGGCGCGAAAGCCATCCGCAGTCGCGAGAGCTGCTAAGCCTGCTGCCGTGGTATATCGATTTTGATGTGCTGTTCACCGACCTGCCGCAGGTCTGGCTGCGCGCCGATCATCCGGCGCTCAGGGAGGAGTGGGATCTGGCGGCATTCTTACGCTATCCGCATATCACCATCTGCTGGGAACAACGCGATACCTGGGCGCTGGACGACGTGCTGCAGGAGCTGGGGCATAAACGTAACGTGGCGCTGACCGTGCCGGGGTTTGAGCAATCCCTCTTTATGGCGGCCCAGCCGCAGCACACCATGCTGGCCACCGCGCCGCGCTACTGCCAGCACTATAATCAGCAGCACCAGCTCCCCCTGGTCTCCCGACCGCTGCCGCTGGAGCCGCAGCATCTGGAAAAGCTTCGCGTCCCCTTCACCTTGCTATGGCATAAACGCAACAGCTACAACCCGAAGCTTGTCTGGCTTAGAGATACGCTGAAAGCGCTCTATTCCGGTACGCTGTAA	MKKPLSSLDLNLLLCLQLLTQELSVTRTAKRMNVSPSAVSKSLAKLRAWFDDPLFVKTPLGLAPTPLVSSMEQDLADWMQMGNQILDKPHHTMPSGLKFELAAETPLLMILFNTLSQRIYQRYPQALIRLRNWDYDSLDAIIRGEVDIGFCGRESHPQSRELLSLLPWYIDFDVLFTDLPQVWLRADHPALREEWDLAAFLRYPHITICWEQRDTWALDDVLQELGHKRNVALTVPGFEQSLFMAAQPQHTMLATAPRYCQHYNQQHQLPLVSRPLPLEPQHLEKLRVPFTLLWHKRNSYNPKLVWLRDTLKALYSGTL				NA	NA	NA	NA	NA
BMS020_07198	729			hypothetical protein	ATGGCAACGCATTTTGCACGAGGGATACTCAGTACCGGGGAGCCGCTATCGACACGTTTGTCAGCGGCCTGTCATCAATCCGCACGTCGGCTCCCTGAATACCGGCAAGCCCGCTTTCGCGCTTCGCGGTCGCTGCTCGCCGAACTGCTGTTTATGCTTTACGGCATCAGCGAGCTGCCTGAAATCGTTAACGAAGCCAATGGCAGACCGGTTTTTAGCGATCGTCACCTTCCCCGCTTCTCTATCTCTTATACTGGCAATATCGTTGGCGTGGCGCTGACCACCGAGGGGGATTGCGGCCTCGACATGGAGCTGCAGCGCGCCGTTCGCAGCCACGACGCCGACCGGCAAAATTTCAGTAACAATGAGAATCTGTGGATTAACATTCAGCATGACCCGGACGAAGCGCGCAGCCAGCTGGTGGCGCTGCGCCGCAGCGTGCTGAAGCTGACCGGTGAGACATCAACGCAGCTGCAGCTGCTGCCTGGCTCCGGCCGCCTGCGTACCGCCGGCAGCCTGCCGATCGAAGCCGTCTGTGACGCCGAATCGCTGCTGGTGTGGTCGATTGCCGCTACCCCGAATATCGGCCCGCTGAAGGTCTGGGAGTATGATGCTAAGGGAGGCGACTGGCACAGCCTGGCGGACGCTCAGCGCCGCGCACGCGAACCCTCAGCCCGCCTGATGCGCTTTACCAGTCTGCCCACGGAAAAAACCTTATCCCTCAATTGA	MATHFARGILSTGEPLSTRLSAACHQSARRLPEYRQARFRASRSLLAELLFMLYGISELPEIVNEANGRPVFSDRHLPRFSISYTGNIVGVALTTEGDCGLDMELQRAVRSHDADRQNFSNNENLWINIQHDPDEARSQLVALRRSVLKLTGETSTQLQLLPGSGRLRTAGSLPIEAVCDAESLLVWSIAATPNIGPLKVWEYDAKGGDWHSLADAQRRAREPSARLMRFTSLPTEKTLSLN				NA	NA	NA	NA	NA
BMS020_07199	567	chrR_2	COG0431	Quinone reductase	ATGTCAGATACCTTGAAAGTGGTTGCGCTACTCGGCAGCCTGCGTAAAGGGTCGTTTAATGGAATGGTCGCGCGTACCCTGCCCGGCATCGCGCCGGCGGGTATGCACATCTCCGCGCTGCCGTCGATCGGCGATATTCCGCTGTACGATGCTGATATTCAGGAGGAAGAGGGATTCCCGCAGAGCGTGCAGGAGATTGCGCAGCAGATCCGCGAGGCGGATGGCGTGGTGATTGTCACCCCCGAGTATAACTATTCCGTGCCTGGCGGCCTGAAAAACGCCATCGACTGGCTTTCACGCCTGCCCGAGCAGCCGCTGTCCGGCAAGCCGGTGCTGATTCAAACCAGCTCTATGGGTGCCATCGGCGGCGCGCGCTGCCAGTATCATCTGCGGCAGATTCTGGTGTTCCTCGATGCGATGGTGATGAATAAACCGGAATTTATGGGTGGCGTGATCCAGAACAAAGTGGATCCGCAGTCGGGTGAAGTGGTCGATCAGAGCACCCTCGACCATCTGCGCGGCCAGCTGACTGCCTTTGGCGACTATATTCAGCGGGTTAAAGCATAA	MSDTLKVVALLGSLRKGSFNGMVARTLPGIAPAGMHISALPSIGDIPLYDADIQEEEGFPQSVQEIAQQIREADGVVIVTPEYNYSVPGGLKNAIDWLSRLPEQPLSGKPVLIQTSSMGAIGGARCQYHLRQILVFLDAMVMNKPEFMGGVIQNKVDPQSGEVVDQSTLDHLRGQLTAFGDYIQRVKA	PGPT0004195_1000	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0004195-chrR-K19784	NA	NA
BMS020_07200	1338	adeP	COG2252	Adenine permease AdeP	ATGAGTCAACAACAAACCAGCCAGTCTTCTGGCCAGGGTCTGCTGGAGCGCGTATTTAAACTGCGCGAGCACGGCACCACGGTGCGCACGGAAGCCATCGCCGGTTTCACCACGTTCCTGACGATGGTGTATATCGTTTTTGTTAACCCACAAATTCTTGGCGTAGCGGGCATGGATACCAGCGCCGTGTTTGTGACCACCTGTCTGATTGCCGCTTTCGGCAGTATCCTGATGGGGCTGTTCGCGAACCTGCCGGTCGCCCTGGCGCCGGCGATGGGCCTGAACGCCTTTTTCGCCTTTGTGGTGGTGCAGGCGATGGGCCTGCCGTGGCAGGTCGGGATGGGCGCGATTTTCTGGGGCGCCGTCGGCCTGCTGCTGCTGACGATCTTCCGCGTACGCTACTGGATGATCGCCAATATTCCGCTGAGCCTGCGCGTGGGCATCACCAGCGGTATCGGTCTGTTTATCGGTATGATGGGCCTGAAGAACGCCGGGGTTATCGTCGCAAACCCGGAAACGCTGGTCAGCATTGGTCATCTGACCTCCCACAGCGTGCTGCTGGGCGTGCTGGGCTTCTTTATCATCGCGATTCTGGCGTCGCGCAATATTCATGCCGCGGTTCTGGTCTCTATCGTGGTGACCACCCTGCTGGGCTGGATGCTGGGTGATGTACACTACACCGGAATCGTCTCGGCGCCGCCGAGCGTGACTTCGGTGATCGGTCATGTCGATCTGGCGGGCTCCCTGAATCTGGGCCTGGCCGGGGTGATCTTCTCCTTTATGCTGGTCAACCTGTTTGACTCCTCCGGGACGCTGATCGGCGTGACGGATAAAGCGGGTCTGGCGGACGCCAACGGTAAATTCCCGCGCATGAAGCAGGCGCTGTTTGTCGATAGCGTCTCGTCGGTGGCAGGCTCCTTCATCGGCACCTCGTCGGTAACAGCGTATATCGAATCCTCCTCCGGCGTTTCCGTGGGCGGGCGCACAGGCCTGACCGCCGTGGTCGTCGGTATCCTGTTCCTGCTGGTTATCTTCCTCTCTCCGCTGGCGGGGATGGTTCCGGCCTATGCGGCAGCCGGCGCGCTGATTTACGTCGGTGTGCTGATGACCTCAAGCCTGGCGCGCGTGAAGTGGGATGACCTGACGGAAGCGGTACCGGCGTTTATCACCGCGGTGATGATGCCGTTTAGCTTCTCGATCACCGAAGGCATTGCCCTGGGCTTTATCTCCTACTGCGTGATGAAAATTGGCACCGGCCGTCTGCGCGACCTCAGCCCTTGCGTCATTATCGTCTCGCTGCTGTTTGTGCTGAAGATTGTCTTTATCGATGCACATTAA	MSQQQTSQSSGQGLLERVFKLREHGTTVRTEAIAGFTTFLTMVYIVFVNPQILGVAGMDTSAVFVTTCLIAAFGSILMGLFANLPVALAPAMGLNAFFAFVVVQAMGLPWQVGMGAIFWGAVGLLLLTIFRVRYWMIANIPLSLRVGITSGIGLFIGMMGLKNAGVIVANPETLVSIGHLTSHSVLLGVLGFFIIAILASRNIHAAVLVSIVVTTLLGWMLGDVHYTGIVSAPPSVTSVIGHVDLAGSLNLGLAGVIFSFMLVNLFDSSGTLIGVTDKAGLADANGKFPRMKQALFVDSVSSVAGSFIGTSSVTAYIESSSGVSVGGRTGLTAVVVGILFLLVIFLSPLAGMVPAYAAAGALIYVGVLMTSSLARVKWDDLTEAVPAFITAVMMPFSFSITEGIALGFISYCVMKIGTGRLRDLSPCVIIVSLLFVLKIVFIDAH	PGPT0007325_3272	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
BMS020_07201	666	yieH	COG0637	6-phosphogluconate phosphatase	ATGACTCAACCAGAAGCAGTATTTTTTGACTGTGACGGCACGCTGGTGGACAGCGAGGTGATTTGCTCCCGCGCCTACGTGCACATGTTCCAGGAATTTGGCATTACGCTGGAGCTGGCAGAGATTTTTAAGCGCTTCAAAGGCGTAAAACTGTACGAAATAATCGACACCATCAACGCCGAGCATGGCGTTAACCTGCAAAAGGCCACTCTGGAGCCGATTTACCGTGCGGAAGTCGCCCGCCTGTTTGATAGCGAACTGGAGGTGATTGCCGGAGCCCAGGCGCTGCTGGATGCGGTAAGCGTCCCGATGTGCGTGGTTTCCAATGGCCCGGTCAGTAAGATGCAACACTCTCTCGGCCGCACCGGCCTGCTGCGCCATTTCGCTGACCGGTTGTACAGCGGCTACGATATTCAGCGCTGGAAACCCGATCCGGCGCTGATGTTCCATGCCGCAAAGGCGATGAGCGTTAACGTTGAGAACTGTATTCTGGTTGATGATTCCAGGGCAGGTGCACAATCGGGAATAGCCGCCGGCATGGAGGTGTTCTACTTCTGCGCCGATCCGCACAACCCGCCCATCGATCATCCCAACGTGACGACCTTTACCGATCTGGCTGCGCTTCCGGCATTGTGGAAAGCGCGCGGTTGGGATATCACTCGCTAG	MTQPEAVFFDCDGTLVDSEVICSRAYVHMFQEFGITLELAEIFKRFKGVKLYEIIDTINAEHGVNLQKATLEPIYRAEVARLFDSELEVIAGAQALLDAVSVPMCVVSNGPVSKMQHSLGRTGLLRHFADRLYSGYDIQRWKPDPALMFHAAKAMSVNVENCILVDDSRAGAQSGIAAGMEVFYFCADPHNPPIDHPNVTTFTDLAALPALWKARGWDITR				NA	NA	NA	NA	NA
BMS020_07202	1167	axe1-6A	COG2382	Carbohydrate acetyl esterase/feruloyl esterase	ATGAAACGACATGCCATTTATTTCGCCCTCGCGCTGGCGGGCGCGGCGTTCACCATTCAGGCGGCACCGTTGCCAGCGGTGCCCGAGCCCTCCCTGCCGGTGAGCCACTTTATCACTCAGGTTAACGCGGATAAGAGTATCACTTACCGCCTGTTTGCCCCTGATGCCCGGCGGGTTTCGGTGGTGACAGGCGCCACGCCGGACACCTTTGTCTCGCACGACATGACCAAAGCGGACCACGGGGTCTGGACATGGAAAAGCGAGCCAATGAAACCCAATCTCTATGAATACTATTTTGATGTGGACGGCTTCCGCTCGGTGGATACCGGCAGCCGCTATCAGAAGCCGCAGCGTCAGGTGAACACCAGCCTGATTCTGGTTCCCGGCAGTATTCTTGACGATCGCCCGGTCGCGCACGGCGATCTGCGCACCCTTACCTATCACTCGAAGGCGCTGAATGCGGAACGGCGGCTCTATGTCTGGACGCCGCCGGACTATAGCGGCAGCGGCGAGCCGCTGCCGGTGCTCTATTTCTATCATGGCTTTGGCGACAGCGGGCTGTCGGCCATCGATCAGGGGCGTATTCCGCAAATCATGGATAACCTGCTGGCGGAGGGCAAGATCAAGCCTATGCTGGTGGTGGTCCCGGATACCGAAACCGATACCCCGGAAGCCATCGCGGAAAACTTCCCGCCGCAGGAGCGACGCAAAACCTTCTATCCGCTGAATGCGCAGGCGGCGGATAAGGAGCTGATGCAGGACATCATTCCGCTGATCGATGCCCGGTTTAACGTGCGTAAAGATGCCGACGGTCTGGCGCTGGCTGGCCTCTCTCAGGGCGGGTATCAGGCGCTGGTTTCCGGGATGAATCATCTGGAGAGCTTTGGCTGGCTCGCCACGTTTAGCGGCGTCACGACCACCACGGTGCCGAATGCCGGTGTGGAAGCGCAACTGAAACATCCTGAGGCGATCAATAAACAGCTGCGTAACTTTACCGTGGTCGTCGGGGAAAAAGATTCCGTAACCGGCAAAGACATCGCGGGTCTGAAAAGCGAGCTGGAAAAACAGAAGATCAACTTTGACTATCACGCCTATCCCGGCCTGAACCATGAAATGGACGTCTGGCGCCCGGCCTACGCGGAGTTTGTGCAAAAACTGTTTAAATAG	MKRHAIYFALALAGAAFTIQAAPLPAVPEPSLPVSHFITQVNADKSITYRLFAPDARRVSVVTGATPDTFVSHDMTKADHGVWTWKSEPMKPNLYEYYFDVDGFRSVDTGSRYQKPQRQVNTSLILVPGSILDDRPVAHGDLRTLTYHSKALNAERRLYVWTPPDYSGSGEPLPVLYFYHGFGDSGLSAIDQGRIPQIMDNLLAEGKIKPMLVVVPDTETDTPEAIAENFPPQERRKTFYPLNAQAADKELMQDIIPLIDARFNVRKDADGLALAGLSQGGYQALVSGMNHLESFGWLATFSGVTTTTVPNAGVEAQLKHPEAINKQLRNFTVVVGEKDSVTGKDIAGLKSELEKQKINFDYHAYPGLNHEMDVWRPAYAEFVQKLFK				NA	NA	NA	NA	NA
BMS020_07203	1602	bglH_2	COG4580	Cryptic outer membrane porin BglH	ATGGTATTGCTGGCGCCGCTTTGTTATTCAACCACGCTGTTCGCGAGCCAGTTGACGGTAGAGCAACGGCTTGAGTTGCTGGAAAAAGCGCTTAGCGATACGCAAAAAGAGCTCAAAAAATATCAGGACCAGGAGAGAAAAAGAGACCAGATTTGGGCCACATGGTCTTCGCCTGCAGAGAGCCAGAAGCGCACCGTCGCGGCGGCGGCAGGACCGAAAGCAGCAGTGAAACCGGATGCGGTACTGGTCAAAAATCAACAACCTGCCACAGACGGCGCGCCAGCCTACAGCGCGATGACGCTCAAAGATTTTAGCAAGTTCGTCAAAGATGAAATTGGCTTTAGCTATAACGGCTACTTCCGCTCGGGCTGGGGAACCGCCTCGCATGGCTCGCCAAAGTCGTGGGCCATTGGCTCGCTTGGCCGTCTGGGCAATGAATATTCCGGCTGGTTCGATCTGCAGCTGAAGCAGCGGGTGTTTCAGGAAGGCGATAAACGCGTCGACGCCATCGTGATGCTCGACGGGAACGTTGGCCAGCAGTATTCCACTGGCTGGTTTGGTGACAATGCCGGCGGCGAAAACTACATCCAGTTCTCGGATATGTACGTCAACACCAAAGGATTCCTGCCGTTTGCCCCGGAAGCCGATTTCTGGGTCGGCAAACACGGTGCGCCAAAAATCGAGATCCAGATGCTGGACTGGAAAACGCAGAGAACCGATGCGGCGGCTGGCGTGGGGCTGGAAAACTGGCAGGTAGGCGCCGGGAAATTCGATATCGCGCTGGTCCGGGAGGATGTTGATGACTACGATCGTTCTTTAAGCAATAAGCAGCAAATTAACACCAATACCCTCGATATCCGTTACAAAGAGATCCCGTTGTGGGATAAAGCCAGTCTGATGGTCACCGGACGCTATGTCGCCGCCAACCAAAGTTCTTCTGAGAAATATAAAGAGGACAATGAAGGCTATTATCCATGGAAAGATACCTGGATGGCCGGCACCTCGTTAACGCAAAAATTTGCTCACGGCGGCTTTAACGAATTTTCTTTGTTGCTGGCGAATAACTCCATTGCCAGCAGCTTCTCGCGCTATGCCGGATCCAGCCCCTATACCACCTTTAACGGCCGCTATTATGGCGACCATACCAATGGCACCGCCGTGCGCTTAACCTCGCAAGGGGAAACCTATTTACGCGATGACATTATTATGGCGAATGCCATCGTTTACTCCTTTGGCAACGACGTTTACAGCTACGAGACCGGGGCCCACTCCGATTTTGAATCCATCCGTACGGTCCTGCGGCCGGCCTATATCTGGAATAAATATAACCAGACCGGCGTCGAACTGGGGTACTTCAGGCAGCAAAACAAAGATGTGACCGGCAAGAAATATAACGAGTCCGGCTATAAGACCACGCTGTTCCATACCTTCAAAGTTAATACCAGTATGCTGACCTCGCGCCCGGAAATTCGCTTCTATGCCACCTATATTAAAGCGAAGGATATCGACTTGGATAAGGCCGCGAATAACACCACCCACATTTTTGAAGACGGTAAAAACGATCAGTTTGCCGTAGGGGCGCAGGCGGAAATCTGGTGGTGA	MVLLAPLCYSTTLFASQLTVEQRLELLEKALSDTQKELKKYQDQERKRDQIWATWSSPAESQKRTVAAAAGPKAAVKPDAVLVKNQQPATDGAPAYSAMTLKDFSKFVKDEIGFSYNGYFRSGWGTASHGSPKSWAIGSLGRLGNEYSGWFDLQLKQRVFQEGDKRVDAIVMLDGNVGQQYSTGWFGDNAGGENYIQFSDMYVNTKGFLPFAPEADFWVGKHGAPKIEIQMLDWKTQRTDAAAGVGLENWQVGAGKFDIALVREDVDDYDRSLSNKQQINTNTLDIRYKEIPLWDKASLMVTGRYVAANQSSSEKYKEDNEGYYPWKDTWMAGTSLTQKFAHGGFNEFSLLLANNSIASSFSRYAGSSPYTTFNGRYYGDHTNGTAVRLTSQGETYLRDDIIMANAIVYSFGNDVYSYETGAHSDFESIRTVLRPAYIWNKYNQTGVELGYFRQQNKDVTGKKYNESGYKTTLFHTFKVNTSMLTSRPEIRFYATYIKAKDIDLDKAANNTTHIFEDGKNDQFAVGAQAEIWW				NA	NA	NA	NA	NA
BMS020_07204	726	phoU_1	COG0704	Phosphate-specific transport system accessory protein PhoU	ATGGACAACCTAAATCTTAACAAACATATTTCCGGCCAGTTCAACGCTGAACTGGAGTATATCCGCACCCAGGTGATGACCATGGGTGGGCTGGTGGAGCAACAGCTTTCTGATGCGATCACCGCCATGCATAACCAGGACAGCGATCTGGCGAAACGCGTGATTGACGGCGACAAGCAGGTCAACATGATGGAAGTGGCGATCGATGAAGCCTGCGTGCGCATCATCGCCAAGCGCCAGCCGACCGCCAGCGACCTGCGCCTGGTGATGGCGATCATCAAGACCATCGCTGAGCTGGAACGCATTGGCGACGTGGCGGATAAAATCTGCCGCACCGCGCTGGAGAAGTTTTCCCAGCAGCACCAGCCGCTGCTGGTGAGCCTCGAATCGCTGGGCCGCCATACGGTGCAGATGCTGCATGACGTGCTGGATGCCTTCGCGCGTATGGATCTCGACGAGGCGGTACGTATCTATCGCGAAGACAAGAAAGTCGACCAGGAGTATGAAGGCATCGTGCGTCAGCTGATGACCTACATGATGGAAGACTCGCGCACTATCCCCAGCGTTCTGACGGCGCTGTTCTGCGCGCGCTCCATCGAACGTATCGGCGACCGCTGCCAGAATATTTGCGAATATATTTTCTACTTCGTCAAAGGCCAGGATTTCCGTCATGTGGGCGGCGATGAACTGGATAAACTGCTCGCCGGAAAAGATCCGAAAGAGTAA	MDNLNLNKHISGQFNAELEYIRTQVMTMGGLVEQQLSDAITAMHNQDSDLAKRVIDGDKQVNMMEVAIDEACVRIIAKRQPTASDLRLVMAIIKTIAELERIGDVADKICRTALEKFSQQHQPLLVSLESLGRHTVQMLHDVLDAFARMDLDEAVRIYREDKKVDQEYEGIVRQLMTYMMEDSRTIPSVLTALFCARSIERIGDRCQNICEYIFYFVKGQDFRHVGGDELDKLLAGKDPKE	PGPT0002630_103	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ARSENIC_RESISTANCE	ARSENIC_RESISTANCE-PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002630-phoU|phoY-K02039	NA	NA
BMS020_07205	774	pstB_1	COG1117	Phosphate import ATP-binding protein PstB	ATGAGTATGGTGAATACAGCCCCGGGTAAGATTTCAGTTCGCAACCTGAACTTCTACTACGGTAAATTCCATGCCCTGAAGAACATCAACCTGGATATCACCAAAAACCAGGTGACGGCGTTTATCGGTCCGTCAGGCTGTGGTAAATCCACCCTGCTGCGTACGTTCAACAAAATGTTTGAACTGTATCCGGAGCAGCGCGCGGAAGGCGAGATCCTGCTGGATGGCGACAACATTCTGACCAACACCCAGGATATCGCCCTGCTGCGTGCCAAGGTTGGCATGGTATTCCAGAAGCCAACGCCGTTCCCGATGTCCATTTACGACAACATCGCTTTCGGCGTGCGCCTGTTTGAAAAGCTGTCCCGTGCCGATATGGATGAGCGCGTGCAGTGGGCGTTGACCAAAGCCGCATTATGGAATGAAACCAAAGATAAACTGCACCAGAGCGGGTATTCTCTCTCCGGCGGTCAGCAGCAGCGCCTGTGCATCGCCCGCGGTATCGCGATCCGCCCGGAAGTCCTGCTGCTTGATGAACCTTGCTCAGCGCTGGACCCGATCTCTACCGGGCGTATCGAGGAGCTGATCACCGAGCTGAAGCAGGATTACACCGTCGTTATCGTGACTCACAACATGCAGCAGGCTGCGCGTTGCTCCGACCATACGGCATTTATGTATCTTGGCGAGCTGATTGAGTTCAGCAACACGGATGACCTGTTCACCAAGCCCGCGAAGAAACAAACTGAAGATTATATTACTGGCCGCTACGGTTGA	MSMVNTAPGKISVRNLNFYYGKFHALKNINLDITKNQVTAFIGPSGCGKSTLLRTFNKMFELYPEQRAEGEILLDGDNILTNTQDIALLRAKVGMVFQKPTPFPMSIYDNIAFGVRLFEKLSRADMDERVQWALTKAALWNETKDKLHQSGYSLSGGQQQRLCIARGIAIRPEVLLLDEPCSALDPISTGRIEELITELKQDYTVVIVTHNMQQAARCSDHTAFMYLGELIEFSNTDDLFTKPAKKQTEDYITGRYG	PGPT0002615_143	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
BMS020_07206	891	pstA_1	COG0581	Phosphate transport system permease protein PstA	ATGGCGACCATTGAAATGCAAAGCACCGCCGAGCTGGCGGAGTCTCGCCGCAAGATGCAGGCTAAACGCCGCATGAAGAACCGTATCGCCCTGGCGCTGTCGATGGCCACCATGGCGTTTGGGTTGTTCTGGCTTATCTGGATCCTGATGGCGACGATAACCCGCGGCTTCGACGGCATGAGCCTGGCGCTGTTTACCGAAATGACGCCGCCGCCGAATACCGCGGGCGGCGGTCTGGCCAACGCCCTCGCCGGCAGCGGCCTGCTGATCCTGTGGGCAACCATCTTTGGTACGCCGCTGGGAATCCTCGCTGGAATTTATCTGGCGGAGTATGGCCGCAAGTCGGTGCTGGCGGAAATTATCCGTTTTATTAACGATATTCTGCTTTCCGCGCCGTCTATCGTGGTTGGTCTGTTCGTCTACACCATCGTGGTGGCGCAGATGCAGCACTTCTCCGGCTGGGCGGGGGTGATCGCCCTGGCGCTGCTGCAGGTGCCTATCGTTATTCGTACCACCGAAAACATGCTGAAACTGGTGCCGGATAGCCTGCGTGAAGCGGCCTATGCGCTGGGTACGCCGAAGTGGAAGATGATCTCGGCGATCACCCTGAAAGCGTCCGTCTCGGGGATTATGACCGGGATCCTGCTGGCTATCGCCCGTATCGCCGGGGAAACGGCGCCCCTGCTGTTTACCGCGCTGTCCAACCAGTTCTGGAGCACCGACATGATGCAGCCGATTGCCAACCTGCCGGTGACCATTTTCAAATTTGCCATGAGTCCGTTTGCGGAGTGGCAGCAACTGGCATGGGCCGGGGTATTGATTATCACCCTGTGCGTCTTGCTGCTGAACATCCTGGCGCGCGTTATCTTCGCCAAGAAGAAACACGGTTAA	MATIEMQSTAELAESRRKMQAKRRMKNRIALALSMATMAFGLFWLIWILMATITRGFDGMSLALFTEMTPPPNTAGGGLANALAGSGLLILWATIFGTPLGILAGIYLAEYGRKSVLAEIIRFINDILLSAPSIVVGLFVYTIVVAQMQHFSGWAGVIALALLQVPIVIRTTENMLKLVPDSLREAAYALGTPKWKMISAITLKASVSGIMTGILLAIARIAGETAPLLFTALSNQFWSTDMMQPIANLPVTIFKFAMSPFAEWQQLAWAGVLIITLCVLLLNILARVIFAKKKHG	PGPT0002610_3207	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002610-pstA-K02038	NA	NA
BMS020_07207	960	pstC_1	COG0573	Phosphate transport system permease protein PstC	ATGGCTGCAACCAAGCCTGCATTTACCCCTCCGGGGAAAAAGGGTGACATGATTTTCAGTGCGCTGGTAAAACTGGCTGCGCTGATTGTGCTATTGATGCTGGGCGGCATCATCGTTTCCCTGATCATCTCTTCCTGGCCGAGCATTCAAAAGTTTGGCTTTGCCTTTTTGTGGACCAAAGAGTGGGATGCGCCCAACGAAATCTTCGGCGCGCTGGTGCCGATTTACGGGACCCTGGTGACCTCCTTTATCGCGCTGCTGATCGCCGTACCGGTGAGCTTCGGCATCGCGCTGTTTCTGACGGAACTGTCCCCCGCCTGGCTCAAGCGTCCGCTGGGCATTGCGATTGAGCTGCTGGCCGCGATCCCGAGTATCGTGTATGGCATGTGGGGCCTGTTTATTTTCGCCCCGCTGTTTGCGACTTACTTCCAGGAGCCTGTCGGTAACGTCCTGTCGACTATTCCGTTCGTCGGCGCGCTGTTTGCTGGCCCGGCGTTTGGTATCGGTATTCTCGCCGCTGGCGTTATTCTGGCCATCATGATCATCCCTTATATCGCCGCGGTAATGCGTGATGTTTTCGAACAGACGCCGGTGATGATGAAAGAGTCGGCCTATGGCATCGGCTGCACCACCTGGGAAGTGATCTGGCGCATCGTATTACCGTTCACCAAGAACGGGGTGATCGGCGGCGTGATGCTCGGTCTGGGCCGCGCGCTGGGTGAAACCATGGCGGTCACCTTTATCATCGGTAACACCTACCAGCTCGACAGCATATCGCTGTATATGCCGGGGAACAGCATTACCTCCGCGCTGGCCAACGAATTCGCCGAAGCCGAAACCGGTCTGCACGTGGCGGCGCTGATGGAACTGGGTCTGATCCTGTTCGTTATCACCTTTATCGTTCTGGCGGCGTCGAAGTTCATGATTATGCGCCTCGCGAAGAATGAGGGGGCACGCTAA	MAATKPAFTPPGKKGDMIFSALVKLAALIVLLMLGGIIVSLIISSWPSIQKFGFAFLWTKEWDAPNEIFGALVPIYGTLVTSFIALLIAVPVSFGIALFLTELSPAWLKRPLGIAIELLAAIPSIVYGMWGLFIFAPLFATYFQEPVGNVLSTIPFVGALFAGPAFGIGILAAGVILAIMIIPYIAAVMRDVFEQTPVMMKESAYGIGCTTWEVIWRIVLPFTKNGVIGGVMLGLGRALGETMAVTFIIGNTYQLDSISLYMPGNSITSALANEFAEAETGLHVAALMELGLILFVITFIVLAASKFMIMRLAKNEGAR	PGPT0002620_2981	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
BMS020_07208	1041	pstS_1	COG0226	Phosphate-binding protein PstS	ATGAACGTTATGCGTACCACCGTCGCAACAGTTGTCGCCGCGACCTTATCGATGAGCGCTTTCTCTGCTTTCGCAGCAGCAAGCCTGACTGGCGCAGGTGCAACTTTTCCTGCGCCGGTGTATGCCAAATGGGCTGACACCTATCAGAAAGAAACCGGCAATAAAGTGAACTACCAGGGTATTGGTTCCTCTGGTGGCGTTAAGCAGATTATTGCCAACACCGTTGATTTCGGTGCTTCTGATGCTCCGCTGGCTGATGACAAACTGACCCAGGAAGGTCTGTTCCAGTTCCCGACCGTGATCGGCGGCGTGGTGCTGGCGGTTAACCTGCCTGGCGTGAAATCCGGCGAGCTGGTGCTGGATGGCAAAACCCTCGGCGATATCTATCTGGGTAAAATTAAAAAATGGGATGACGAAGCGATCGCTAAACTCAACCCGGGTCTGAAGCTGCCGTCGCAGAATATCGCCGTGGTTCGCCGCGCCGATGGTTCCGGTACCTCCTTCGTCTTCACCAGCTACCTGTCCAAAGTGAATGAAGAGTGGAAATCGAAAATCGGCGCAGGCTCTACCGTTAACTGGCCAACCGGTCTTGGCGGTAAAGGCAACGACGGTATCGCCGCCTTTGTTCAGCGTCTGCCGGGCTCGATTGGTTACGTCGAATACGCTTACGCCAAACAAAACAATCTGGCGTACACCAAACTGGTCTCTGCCGATGGCAAACCGGTTAGCCCGACTGAAGACAACTTCGCTAACGCCGCAAAAGGCGTTGACTGGAGCAAGTCTTTCGCTCAGGACCTGACTAACCAGAAGGGTGAAAATGCATGGCCGATCACCTCAACCACCTTCATCCTGGTGCATAAGGCGACTAACAAGCCTGAGCAGACCGCTGAAGTGCTGAAGTTCTTCGACTGGGCGTATAAAAACGGCGGGAAAGAAGCGAATGCGCTGGATTACGCATCGCTGCCGGAAAGCGTGGTTGAGCAGGTTCGTGCGGCATGGAAAACCAACGTCAAAGACAGCAGCGGTAAAGCGCTGTACTAA	MNVMRTTVATVVAATLSMSAFSAFAAASLTGAGATFPAPVYAKWADTYQKETGNKVNYQGIGSSGGVKQIIANTVDFGASDAPLADDKLTQEGLFQFPTVIGGVVLAVNLPGVKSGELVLDGKTLGDIYLGKIKKWDDEAIAKLNPGLKLPSQNIAVVRRADGSGTSFVFTSYLSKVNEEWKSKIGAGSTVNWPTGLGGKGNDGIAAFVQRLPGSIGYVEYAYAKQNNLAYTKLVSADGKPVSPTEDNFANAAKGVDWSKSFAQDLTNQKGENAWPITSTTFILVHKATNKPEQTAEVLKFFDWAYKNGGKEANALDYASLPESVVEQVRAAWKTNVKDSSGKALY	PGPT0002625_3094	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
BMS020_07209	1830	glmS_2	COG0449	Glutamine--fructose-6-phosphate aminotransferase [isomerizing]	ATGTGTGGAATTGTTGGCGCAGTCGCGCAGCGTGATATTGCTGAAATCCTTCTCGAAGGTTTACGTCGTCTGGAATACCGTGGCTATGACTCTGCCGGTCTGGCGGTAGTCGACAGCGAAGGTCATATGACCCGCGTGCGTCGCCTGGGTAAGGTACAGATGCTGGCTCAGGCGGTCGAAGAGCAACCGTTACACGGTGGTACCGGGATCGCCCATACTCGTTGGGCGACGCACGGCGAACCGTCTGAGAGCAATGCGCATCCGCATGTTTCTGAACACATTGTGGTGGTCCATAACGGGATCATCGAAAACCACGAGCCGCTGCGCGCACTGCTGCAGTCTCGCGGCTATGTCTTCGTCACTGAGACCGATACCGAAGTTATCGCCCATCTGGTGCACTGGGAGCTGGAACAAGGTGGTACCTTACGTGAAGCCGTGCTGCGCGCCATCCCGCAGCTGCGCGGCGCCTACGGCACCGTCATCATGGATACCCGCGACCCGGGAACTCTGCTGGCGGCCCGCTCCGGTAGCCCACTGGTTATCGGTCTGGGCATGGGTGAAAACTTTATCGCCTCCGACCAGCTGGCGCTGCTGCCGGTTACCCGCCGCTTCATCTTCCTCGAAGAGGGCGATATTGCGGAAGTGACTCGTCGCTCGGTGGTGATTTTCGATAAATCCGCTGCGCAAGTGAAGCGCCAGGAGATCGAATCCAATCTGCAGTATGACGCCGGCGATAAAGGTATCTATCGCCACTATATGCAGAAAGAGATTTTCGAACAGCCGAACGCGATTAAGAACACCCTGACCGGGCGTATCAGCCACGGCGAAGTCGATCTCAGCGAGCTGGGGCCGAACGCCAATGAAATGCTGGCTCAGGTCGAACATATTCAGATTGTTGCCTGCGGGACCTCCTATAACTCCGGGATGGTCTCCCGCTACTGGTTTGAAGCGTTAGCCGGCGTGCCGTGCGATGTGGAAATCGCCTCCGAATTCCGCTATCGCAAGTCCGCGGTGCGTCGTAACAGCCTGATGATCACCCTTTCCCAGTCCGGTGAAACTGCCGATACGCTGGCGGCGCTGCGATTGTCGAAAGAGCTGGGCTATCTCGGCTCGCTGGCCATCTGCAACGTGCCGGGCTCGTCGCTGGTGCGCGAATCCGATCTGGCGCTGATGACCAAAGCCGGAACGGAAATTGGCGTGGCCTCGACCAAGGCCTTTACCACTCAGCTGACGGTGCTGCTGATGCTGGTGGCGAAACTGGCGCGATTGAAAGGTCAGGATGCGTCCATTGAGCATGATATCGTCCACGGCCTGCAGGCGCTGCCGAGTCGTATCGAGCAGATGCTCTCTCAGGACAAGCGTATTGAGCAGCTGGCAGAGCGTTTCTCTGATAAGCACCATGCGCTGTTCCTCGGCCGCGGCGATCAGTATCCGATCGCCATGGAAGGGGCGCTGAAGCTGAAAGAGATCTCCTACATTCACGCGGAAGCCTACGCGGCGGGCGAGCTGAAGCACGGCCCGCTGGCGCTGATTGATGCGGAAATGCCGGTGATCGTGGTGGCGCCGAACAACGAGCTGCTGGAAAAACTGAAATCCAACATCGAAGAAGTTCGCGCCCGCGGCGGTGAGCTGTACGTCTTCGCCGACGGTGACGCCGGCTTCAACGGCAGCGACAACATGCACATCATTGAGATGCCGCATGTCGAAGAGACCATCGCCCCCATCTTCTACACCGTGCCGCTGCAGCTGCTGGCTTATCACGTTGCGCTGATCAAAGGCACAGACGTTGATCAGCCGCGTAACCTGGCGAAATCGGTCACGGTTGAGTAA	MCGIVGAVAQRDIAEILLEGLRRLEYRGYDSAGLAVVDSEGHMTRVRRLGKVQMLAQAVEEQPLHGGTGIAHTRWATHGEPSESNAHPHVSEHIVVVHNGIIENHEPLRALLQSRGYVFVTETDTEVIAHLVHWELEQGGTLREAVLRAIPQLRGAYGTVIMDTRDPGTLLAARSGSPLVIGLGMGENFIASDQLALLPVTRRFIFLEEGDIAEVTRRSVVIFDKSAAQVKRQEIESNLQYDAGDKGIYRHYMQKEIFEQPNAIKNTLTGRISHGEVDLSELGPNANEMLAQVEHIQIVACGTSYNSGMVSRYWFEALAGVPCDVEIASEFRYRKSAVRRNSLMITLSQSGETADTLAALRLSKELGYLGSLAICNVPGSSLVRESDLALMTKAGTEIGVASTKAFTTQLTVLLMLVAKLARLKGQDASIEHDIVHGLQALPSRIEQMLSQDKRIEQLAERFSDKHHALFLGRGDQYPIAMEGALKLKEISYIHAEAYAAGELKHGPLALIDAEMPVIVVAPNNELLEKLKSNIEEVRARGGELYVFADGDAGFNGSDNMHIIEMPHVEETIAPIFYTVPLQLLAYHVALIKGTDVDQPRNLAKSVTVE	PGPT0017630_3728	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
BMS020_07210	1371	glmU_1	COG1207	Bifunctional protein GlmU	ATGTCAAATAGTGCGATGAGCGTGGTTATCCTTGCCGCAGGCAAAGGGACCCGCATGTATTCCGATCTTCCTAAGGTGCTGCATACCCTGGCCGGGAAGCCAATGGTGCAGCATGTCATTGATGCCGCTAACGATTTAGGCGCATGTGCGGTACACCTGGTGTACGGCCACGGCGGCGATCTGCTGCGTCAGACGCTGCATGAAGACAACCTGAACTGGGTGCTGCAGGCCGAGCAGCTTGGAACCGGGCACGCCATGCAGCAGGCGGCGCCGTTCTTCAATGATGATGAAGACATCCTGATGCTCTACGGCGACGTGCCGCTGATCTCCGTCGAGACGCTACAGCGCCTGCGCGCCGCGAAACCGCAGGGCGGGATTGGTCTGCTGACGGTGAAGCTGGATGATCCAACCGGCTATGGCCGCATTACCCGTGAGAATGGCCAGGTGACAGGCATCGTTGAGCACAAAGATGCCAGCGAGGCGCAGCGCCAGATTCAGGAAATTAACACCGGGATCCTGATCGCCGGCGGAGCAGATCTCAAGCGCTGGCTGGCGAAGCTCACCAATAACAACGCCCAGGGCGAATACTACATCACCGATATCATCGCCATGGCGCATCAGGAAGGTCACGAGATCGTTGCCGTGCATCCCCAGCGCCTGAGCGAAGTCGAAGGCGTCAACAATCGCCTGCAGCTTGCGCGCCTGGAGCGCGTCTACCAGGCTGAGCAAGCGGAAAAGCTGCTGCTGGCGGGGGTGATGTTGCGCGATCCGGCGCGTTTCGATCTGCGCGGTACGCTGCAGCACGGGCGCGATGTGGAGATCGATACTAACGTTATTCTGCAAGGCCGCGTCGTGCTGGGCGATCGCGTGAAAATCGGCGCCGGCTGCGTGATTAAAAACAGCACTATCGGCGATGATTGCGAAATCAGCCCCTACAGCGTGGTAGAAGATGCCCAGCTGCAGGCGGCCTGCACCATCGGCCCATTTGCCCGTCTGCGCCCGGGCGCCGAACTGCTGGAAGGCGCCCACGTTGGCAACTTCGTGGAAATGAAAAAGGCGCGTCTCGGCAAAGGCTCCAAGGCGGGTCATCTGACCTATCTGGGCGATGCGGAGATCGGTGATAACGTCAATATCGGCGCGGGCACCATCACCTGCAACTATGATGGCGCGAATAAACATAAAACGATTATTGGCGATGATGTCTTTGTCGGCTCGGATACCCAGCTGGTGGCCCCGGTCACGGTAGGCAACGGCGTCACGATCGCCGCCGGCACCACCGTCACACGCAATATCGCCGATAACGAACTGGTGTTGAGCCGCGTACCGCAGGTCCACAAACAGGGCTGGCAGCGTCCGGTGAAGAAAAAATAA	MSNSAMSVVILAAGKGTRMYSDLPKVLHTLAGKPMVQHVIDAANDLGACAVHLVYGHGGDLLRQTLHEDNLNWVLQAEQLGTGHAMQQAAPFFNDDEDILMLYGDVPLISVETLQRLRAAKPQGGIGLLTVKLDDPTGYGRITRENGQVTGIVEHKDASEAQRQIQEINTGILIAGGADLKRWLAKLTNNNAQGEYYITDIIAMAHQEGHEIVAVHPQRLSEVEGVNNRLQLARLERVYQAEQAEKLLLAGVMLRDPARFDLRGTLQHGRDVEIDTNVILQGRVVLGDRVKIGAGCVIKNSTIGDDCEISPYSVVEDAQLQAACTIGPFARLRPGAELLEGAHVGNFVEMKKARLGKGSKAGHLTYLGDAEIGDNVNIGAGTITCNYDGANKHKTIIGDDVFVGSDTQLVAPVTVGNGVTIAAGTTVTRNIADNELVLSRVPQVHKQGWQRPVKKK	PGPT0018955_2247	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GLUCOSAMINE_MODIFICATION,PGPT0018955-glmU-K04042	NA	NA
BMS020_07211	420	atpC_1	COG0355	ATP synthase epsilon chain	ATGGCAATGACTTACCACCTGGACGTCGTCAGCGCAGAGAAACAAATGTTCTCTGGTCTGGTCGAGAAAATCCAGGTAACGGGTAGCGAAGGTGAACTGGGTATTTACCCGGGGCACGCGCCGCTGCTCACCGCCATTAAGCCTGGTATGATTCGCATCGTTAAGCAGCACGGTCACGAAGAATTTATCTACCTGTCAGGCGGCATTCTTGAAGTGCAGCCGGGTAGCACGACCGTCCTGGCGGATACCGCAATTCGTGGCCAGGATCTCGACGAAGCGCGAGCCCTGGAAGCGAAACGTAAGGCTGAAGAGCACATTAAGAGCTCTCATGGTGACGTGGATTACGCTCAGGCGTCCGCGGAACTGGCCAAAGCGATCGCTAAACTGCGCGTTATCGAGTTGACCAAAAAAGCGATGTAA	MAMTYHLDVVSAEKQMFSGLVEKIQVTGSEGELGIYPGHAPLLTAIKPGMIRIVKQHGHEEFIYLSGGILEVQPGSTTVLADTAIRGQDLDEARALEAKRKAEEHIKSSHGDVDYAQASAELAKAIAKLRVIELTKKAM	PGPT0014295_1494	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014295-atpC-K02114	NA	NA
BMS020_07212	1383	atpD	COG0055	ATP synthase subunit beta	ATGGCTACTGGAAAGATTGTCCAGGTAATCGGCGCCGTGGTCGACGTCGAGTTCCCTCAGGATGCCGTACCACGCGTGTACGAAGCCCTTGAGGTACAGAATGGTAATGAAGTTCTGGTGCTGGAAGTTCAGCAGCAGCTGGGCGGCGGTATCGTGCGTACCATCGCCATGGGTTCTTCCGATGGTCTGCGCCGCGGTCTGGATGTAAAAGACCTCGAGCACCCGATCGAAGTCCCGGTTGGTAAAGCTACGCTGGGTCGTATCATGAACGTACTGGGTCAACCGGTCGACATGAAAGGCGACATCGGCGAAGAAGAGCGTTGGGCTATCCACCGCGCAGCACCGTCTTATGAAGAGCTGTCCAGCTCTCAGGAACTGCTGGAAACCGGCATCAAAGTTATCGACCTGATGTGTCCGTTCGCGAAGGGCGGTAAAGTCGGTCTGTTCGGTGGCGCGGGTGTAGGTAAAACCGTAAACATGATGGAGCTGATCCGTAACATCGCGATCGAGCACTCCGGTTACTCCGTGTTTGCGGGCGTAGGTGAACGTACTCGTGAGGGTAACGACTTCTACCACGAAATGACCGACTCCAACGTTATCGACAAAGTATCCCTGGTGTATGGCCAGATGAACGAGCCGCCGGGAAACCGTCTGCGCGTTGCGCTGACCGGCCTGACCATGGCTGAGAAGTTCCGTGACGAAGGTCGTGACGTTCTGCTGTTCGTCGATAACATCTATCGTTACACCCTGGCCGGTACGGAAGTATCCGCACTGCTGGGTCGTATGCCTTCAGCGGTAGGTTACCAGCCGACCCTGGCGGAAGAGATGGGCGTTCTGCAGGAACGTATCACCTCCACCAAAACCGGCTCTATCACTTCCGTACAGGCGGTATACGTACCGGCGGATGACTTAACTGACCCATCCCCAGCCACTACCTTTGCTCACTTAGATGCAACCGTAGTACTGAGCCGTCAGATCGCATCCCTGGGTATCTACCCGGCCGTTGACCCGCTGGACTCCACCAGCCGTCAGCTGGATCCGCTGGTTGTTGGTCAGGAGCACTACGACACCGCTCGTGGCGTTCAGTCCATTCTGCAGCGTTATCAGGAACTGAAAGACATTATCGCCATCCTGGGTATGGATGAACTGTCTGAAGAAGATAAACTGGTGGTAGCTCGCGCGCGTAAGATCCAGCGCTTCCTGTCCCAGCCGTTCTTCGTGGCAGAAGTATTTACCGGTTCTCCGGGCAAATACGTCTCCCTGAAAGACACCATCCGTGGCTTTAAAGGCATCATGGAAGGCGAATACGATCACCTGCCGGAGCAGGCGTTCTACATGGTCGGTTCTATCGACGAAGCCGTGGAAAAAGCCAAAAAACTTTAA	MATGKIVQVIGAVVDVEFPQDAVPRVYEALEVQNGNEVLVLEVQQQLGGGIVRTIAMGSSDGLRRGLDVKDLEHPIEVPVGKATLGRIMNVLGQPVDMKGDIGEEERWAIHRAAPSYEELSSSQELLETGIKVIDLMCPFAKGGKVGLFGGAGVGKTVNMMELIRNIAIEHSGYSVFAGVGERTREGNDFYHEMTDSNVIDKVSLVYGQMNEPPGNRLRVALTGLTMAEKFRDEGRDVLLFVDNIYRYTLAGTEVSALLGRMPSAVGYQPTLAEEMGVLQERITSTKTGSITSVQAVYVPADDLTDPSPATTFAHLDATVVLSRQIASLGIYPAVDPLDSTSRQLDPLVVGQEHYDTARGVQSILQRYQELKDIIAILGMDELSEEDKLVVARARKIQRFLSQPFFVAEVFTGSPGKYVSLKDTIRGFKGIMEGEYDHLPEQAFYMVGSIDEAVEKAKKL	PGPT0014296_4157	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014296-atpD-K02112	NA	NA
BMS020_07213	864	atpG_1	COG0224	ATP synthase gamma chain	ATGGCCGGCGCAAAAGAGATACGTAGTAAGATCGCAAGCGTCCAGAACACGCAAAAGATCACTAAAGCGATGGAGATGGTCGCCGCTTCCAAAATGCGTAAATCGCAGGAGCGCATGGCGGCCAGCCGTCCTTACGCAGATACTATGCGCAAAGTGATTGGTCACCTTGCGAACGGTAATCTGGAATATAAGCACCCTTACCTGGAAGAACGCGACGTTAAGCGCGTGGGCTACCTGGTGGTGTCGACCGACCGTGGTTTGTGCGGCGGCTTGAACATTAACCTGTTCAAGAAACTGCTGGCGGAAATGAAAGCATGGTCCGATAAAGGCGTTCAGTGCGACCTCGCAATGATCGGCTCTAAGGGCGTCTCTTTCTTTAACTCCGTTGGCGGCAACGTCGTTGCACAGGTGACCGGTATGGGGGATAACCCATCCCTGTCCGAACTGATCGGCCCGGTAAAAGTGATGTTGCAGGCCTATGATGAAGGCCGTCTGGACAAGCTGTACGTTGTCAGCAACAAATTTATTAACACCATGTCTCAGGTTCCGACGATCACTCAGCTGCTGCCGTTACCGGCATCAGAAGACGCTGATCTGAAACGTAAATCCTGGGATTACCTGTATGAGCCCGATCCGAAAGCGCTGCTGGATACCCTCCTGCGCCGCTACGTCGAGTCTCAGGTTTATCAGGGCGTGGTTGAAAACCTGGCCAGCGAGCAGGCCGCCCGTATGGTGGCGATGAAAGCCGCGACCGATAATGGCGGCAGCCTGATTAAAGAGCTGCAGTTGGTATACAACAAAGCTCGTCAGGCCAGCATTACTCAGGAACTCACCGAGATCGTCTCGGGGGCCGCCGCGGTTTAA	MAGAKEIRSKIASVQNTQKITKAMEMVAASKMRKSQERMAASRPYADTMRKVIGHLANGNLEYKHPYLEERDVKRVGYLVVSTDRGLCGGLNINLFKKLLAEMKAWSDKGVQCDLAMIGSKGVSFFNSVGGNVVAQVTGMGDNPSLSELIGPVKVMLQAYDEGRLDKLYVVSNKFINTMSQVPTITQLLPLPASEDADLKRKSWDYLYEPDPKALLDTLLRRYVESQVYQGVVENLASEQAARMVAMKAATDNGGSLIKELQLVYNKARQASITQELTEIVSGAAAV	PGPT0014297_3616	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014297-atpG-K02115	NA	NA
BMS020_07214	1542	atpA_1		ATP synthase subunit alpha	ATGCAACTGAATTCCACCGAAATCAGCGAACTGATCAAGCAGCGCATTGCTCAGTTCAATGTTGTGAGCGAAGCTCATAACGAAGGTACTATTGTTTCTGTAAGTGACGGTGTTATCCGCATCCACGGCCTTGCCGAATGTATGCAGGGTGAGATGATCTCCCTGCCGGGTAACCGTTACGCTATCGCACTGAACCTGGAGCGCGACTCCGTTGGTGCGGTGGTGATGGGTCCGTACGCTGACCTCGCCGAAGGCATGAAGGTGAAATGTACTGGCCGTATCCTGGAAGTTCCGGTTGGCCGTGGCCTGCTGGGCCGCGTGGTTAACACCCTGGGCGCGCCAATTGATGGTAAAGGTCCGCTGGAAAACGACGGTTTCTCCGCCGTTGAAGCGATCGCGCCGGGCGTAATCGAACGTCAGTCCGTCGATCAGCCGGTACAGACCGGTTATAAATCCGTTGACGCCATGATCCCAATCGGTCGTGGTCAGCGTGAACTGATCATCGGCGACCGTCAGACCGGTAAAACTGCGCTGGCTATCGATGCCATCATCAACCAGCGTGATTCCGGCATCAAGTGCGTCTATGTTGCTATCGGCCAGAAAGCATCCACCATCTCTAACGTGGTGCGTAAACTGGAAGAGCACGGCGCGCTGGCTAACACCATCGTGGTGGTAGCGACTGCATCCGAATCTGCTGCACTGCAATACCTGGCGCCATACGCGGGTTGCGCAATGGGCGAATACTTCCGCGACCGCGGTGAAGATGCGCTGATCGTTTACGATGACCTGTCTAAACAGGCTGTTGCTTATCGTCAGATCTCCCTGCTGCTCCGTCGTCCGCCAGGACGTGAAGCGTTCCCGGGCGACGTATTCTACCTCCACTCTCGTCTGCTGGAGCGTGCTGCGCGTGTTAACGCCGAATACGTTGAAGCCTTCACCAAAGGTGAAGTGAAAGGGAAAACCGGTTCTCTGACCGCGCTGCCGATTATCGAAACCCAGGCGGGTGACGTTTCCGCGTTCGTTCCGACCAACGTAATCTCCATTACCGATGGTCAGATCTTCCTGGAAACCAACCTGTTCAACGCCGGTATTCGTCCTGCGGTTAACCCGGGTATCTCGGTATCCCGTGTGGGTGGTGCAGCGCAGACCAAGATCATGAAGAAACTGTCCGGTGGTATCCGTACCGCGCTGGCGCAGTATCGTGAACTGGCGGCGTTCTCCCAGTTTGCATCCGACCTTGACGATGCAACCCGCAAACAGCTGGACCACGGTCAGAAAGTGACCGAACTGCTGAAACAGAAACAGTATGCGCCGATGTCCGTCGCGCAGCAGTCTCTGGTTCTGTTCGCAGCAGAACGTGGTTATCTGGCTGATGTAGAACTGGCGAAAATCGGTAGCTTCGAAGCCGCTCTGCTGGCTTACGTCGACCGTGATCACGCTCCGCTGATGCAAGAGATTAACCAGTCCGGTGGCTATAACGACGAAATCGAAGGCAAGCTGAAAGGCATCCTCGATTCCTTCAAAGCAACCCAGTCCTGGTAA	MQLNSTEISELIKQRIAQFNVVSEAHNEGTIVSVSDGVIRIHGLAECMQGEMISLPGNRYAIALNLERDSVGAVVMGPYADLAEGMKVKCTGRILEVPVGRGLLGRVVNTLGAPIDGKGPLENDGFSAVEAIAPGVIERQSVDQPVQTGYKSVDAMIPIGRGQRELIIGDRQTGKTALAIDAIINQRDSGIKCVYVAIGQKASTISNVVRKLEEHGALANTIVVVATASESAALQYLAPYAGCAMGEYFRDRGEDALIVYDDLSKQAVAYRQISLLLRRPPGREAFPGDVFYLHSRLLERAARVNAEYVEAFTKGEVKGKTGSLTALPIIETQAGDVSAFVPTNVISITDGQIFLETNLFNAGIRPAVNPGISVSRVGGAAQTKIMKKLSGGIRTALAQYRELAAFSQFASDLDDATRKQLDHGQKVTELLKQKQYAPMSVAQQSLVLFAAERGYLADVELAKIGSFEAALLAYVDRDHAPLMQEINQSGGYNDEIEGKLKGILDSFKATQSW	PGPT0014298_2515	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014298-atpA-K02111	NA	NA
BMS020_07215	534	atpH_1	COG0712	ATP synthase subunit delta	ATGTCTGAATTTGTAACGGTAGCTCGCCCCTACGCCAAAGCAGCTTTTGACTTTGCCGTCGAACACAACAGTGTTGAACGCTGGCAGGATATGCTGGCGTTTGCCGCCGAAGTGACCAAAAACGACCAAATGGCAGAGCTTCTCTCCGGTGCTTTGGCGCCGGAAACGCTCTCAGAAGCGTTTATCGCTATCTGCGGCGAGCAACTTGACGAAAACGGCCAGAACCTGATTAAGGTGATGGCGGAAAATAATCGTCTGAAGGTGCTCCCGGACGTTCTTGAGCAATTCATTCACCTGCGCGCGGCCAGTGAGGCCATCGCAGAGGTAGAAGTCATATCTGCCAACCAACTGAGTGATGAACAGCTTGCCAGGATCGTCAGCGCGATGGAAAAACGTCTGTCACGCAAAGTTAAGCTGAATTGCAAAATCGATAAGTCTGTTATGGCAGGTATTATCATCCGTGCGGGTGATATGGTCATTGATGGCAGCGTACGCGGCCGTCTTGATCGCCTTGCAGACGTCTTGCAGTCTTAA	MSEFVTVARPYAKAAFDFAVEHNSVERWQDMLAFAAEVTKNDQMAELLSGALAPETLSEAFIAICGEQLDENGQNLIKVMAENNRLKVLPDVLEQFIHLRAASEAIAEVEVISANQLSDEQLARIVSAMEKRLSRKVKLNCKIDKSVMAGIIIRAGDMVIDGSVRGRLDRLADVLQS	PGPT0014299_3714	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014299-atpH-K02113	NA	NA
BMS020_07216	471	atpF_1	COG0711	ATP synthase subunit b	GTGAACATGAACGCAACAATCCTCGGCCAGGCCATCGCGTTTGTTATCTTCGTATGGTTCTGCATGAAGTACGTATGGCCGCCTTTAATGGCTGCCATCGAAAAACGCCAGAAAGAGATTTCTGACGGTTTAGCTTCTGCAGAACGCGCTAAGAAAGATTTGGACCTTGCACAGGCCAACGCGACCGACCAGCTGAAAAAAGCGAAAGCGGAAGCCCAGGTAATCATTGAGCAGGCGAACAAGCGCCGCTCTCAGATTCTGGACGAAGCTAAAGCTGAAGCAGAACAGGAACGCACCAAAATCGTTGCACAAGCGCAGGCTGAAATTGATGCTGAGCGTAAACGTGCACGCGAGGAGCTGCGTAAGCAGGTCGCTATCCTGGCTGTTGCTGGCGCCGAGAAGATCATCGAACGTTCCGTGGATGAAGCTGCTAACAGCGACATCGTGGATAAACTTGTCGCTGAACTGTAA	MNMNATILGQAIAFVIFVWFCMKYVWPPLMAAIEKRQKEISDGLASAERAKKDLDLAQANATDQLKKAKAEAQVIIEQANKRRSQILDEAKAEAEQERTKIVAQAQAEIDAERKRAREELRKQVAILAVAGAEKIIERSVDEAANSDIVDKLVAEL	PGPT0014301_4491	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014301-atpF-K02109	NA	NA
BMS020_07217	240	atpE	COG0636	ATP synthase subunit c	ATGGAAAACCTGAATATGGATCTGCTGTACATGGCTGCCGCTGTGATGATGGGTCTGGCGGCAATCGGTGCTGCGATCGGTATCGGCATCCTCGGAGGTAAATTCCTGGAAGGCGCAGCGCGTCAGCCGGATCTGATCCCTCTGCTGCGTACTCAGTTCTTTATCGTTATGGGTCTGGTGGATGCTATCCCGATGATCGCTGTAGGTCTGGGTCTGTACGTGATGTTCGCCGTCGCGTAG	MENLNMDLLYMAAAVMMGLAAIGAAIGIGILGGKFLEGAARQPDLIPLLRTQFFIVMGLVDAIPMIAVGLGLYVMFAVA	PGPT0014302_1616	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014302-atpE-K02110	NA	NA
BMS020_07218	816	atpB_1	COG0356	ATP synthase subunit a	ATGGCTTCAGAAAATATGACGCCGCAGGAATACATAGGTCACCATCTGAACAACCTTCAGATTGATCTGCGTACTTTCTCGCTGGTGGATCCGCACAACCCCCCGGCCACCTTCTGGACGCTCAACATTGACTCCATGTTCTTCTCGGTGGTTCTCGGTCTGCTGTTCCTGGCCATGTTCCGTAGCGTTGCTAAGAAAGCGACCAGCGGCGTACCAGGGAAATTCCAGACCTTCATCGAAATGATCATCGGCTTCGTCCATGGCAGCGTCAAAGACATGTACCATGGCAAGAGCAAGGTTATCGCGCCGCTGGCGCTGACCGTGTTCGTCTGGGTCTTCCTGATGAACCTGATGGACCTGCTGCCAATCGACCTGCTTCCTTATATCGGCGAACACATTTTCGGCCTGCCTGCACTGCGCGTGGTTCCGTCTGCTGACGTGAACATCACCCTGTCGATGGCGCTTGGCGTGTTCATCCTGATTATTTTCTACAGCATCAAAATGAAAGGCGTAGGTGGGTTCGTTAAAGAACTGACCATGCAGCCGTTCAATCACTGGGCGTTCATTCCTGTCAACTTAATCCTTGAAGGGGTAAGCCTGCTGTCCAAACCGGTCTCTCTCGGTCTGCGACTGTTCGGCAACATGTATGCCGGTGAGCTGATTTTCATTCTGATTGCTGGTCTGTTGCCGTGGTGGTCACAGTGGGTTCTGAATGTGCCTTGGGCCATTTTCCACATCCTGATTATTACGCTGCAAGCCTTCATCTTCATGGTTCTGACGATTGTCTATCTGTCGATGGCGTCTGAAGAGCATTGA	MASENMTPQEYIGHHLNNLQIDLRTFSLVDPHNPPATFWTLNIDSMFFSVVLGLLFLAMFRSVAKKATSGVPGKFQTFIEMIIGFVHGSVKDMYHGKSKVIAPLALTVFVWVFLMNLMDLLPIDLLPYIGEHIFGLPALRVVPSADVNITLSMALGVFILIIFYSIKMKGVGGFVKELTMQPFNHWAFIPVNLILEGVSLLSKPVSLGLRLFGNMYAGELIFILIAGLLPWWSQWVLNVPWAIFHILIITLQAFIFMVLTIVYLSMASEEH	PGPT0014303_1680	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014303-atpB-K02108	NA	NA
BMS020_07219	381	atpI	COG3312	ATP synthase protein I	ATGTCAGTGTCGCTCTTGAGTCGAAACGTTGCTCGCAAGCTTCTGTTTATTCAGTTACTGGCAGTAATGGCAAGTGGACTGCTGTTTAGCCTCAAAGACCCCTTCTGGGGCATTTCCGCGGTATGCGGCGGTTTGGCAGTGGTTTTGCCAAACCTGATGTTTATGATTTTTGCCTGGCGTCATCAGGCGCATACACCAGCAAAAGGCCGTGTGGCCTGGACCTTCGCCTTCGGTGAAGCCTTCAAGGTGTTGCTGACCTTCGCCCTCCTGGCGGTGGCGCTGGCCGTTTTAAAAGTGGTATTTTTGCCACTGATCGTGACGTGGGTTTTGGTGCTGGTGGTACAAGTTCTGGCGCCAGCTGTAATCAACAACAAAGGGTAA	MSVSLLSRNVARKLLFIQLLAVMASGLLFSLKDPFWGISAVCGGLAVVLPNLMFMIFAWRHQAHTPAKGRVAWTFAFGEAFKVLLTFALLAVALAVLKVVFLPLIVTWVLVLVVQVLAPAVINNKG	PGPT0030480_1420	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-ATP_SYNTHASE_ACITIVTY,PGPT0030480-atpI-K02116
BMS020_07220	624	rsmG_2	COG0357	Ribosomal RNA small subunit methyltransferase G	GTGCTCAACAAACTTTCTCGTCTGCTGGATGAAGCGGGTATTTCGCTCACCGATCACCAGAAAAATCAGCTGGTGGCTTACGTCGGGCTGCTCGATAAGTGGAACAAAGCCTATAACCTGACCTCCGTTCGCGATCCAAATGAGATGCTGGTGCGTCATATCCTCGACAGCATCATCGTCGCGCCTTATCTGCAGGGCTCGCGCTTTATCGATGTCGGTACGGGACCGGGGCTGCCGGGGATCCCGTTGGCTATCGTGCGCCCGGAGTCGCATTTCACCCTGCTGGACAGCCTTGGCAAACGCGTGCGCTTCCTGCGTCAGGTGCAGCATGAACTGAAGCTGGATAACATCACCCCGGTGCAGAGCCGCGTGGAAGCTTTCCCGGCCGAGCCGCCGTTTGATGGCGTGATAAGCCGCGCCTTCGCGTCGCTTAATGATATGGTGAGCTGGTGCCATCATTTGCCGGCCGCGAACGGTCACTTCTATGCGCTCAAAGGGTTAGCGCAAAAAGACGAAATGGAAAACCTGCCGGAAGGGTATGCCATAGCCGAGGTCATTGAGCTGCATGTTCCTCAGCTGGAAGGGGAGCGGCACCTGGTGGTGATTACGCCAAAAGCGAGTTAA	MLNKLSRLLDEAGISLTDHQKNQLVAYVGLLDKWNKAYNLTSVRDPNEMLVRHILDSIIVAPYLQGSRFIDVGTGPGLPGIPLAIVRPESHFTLLDSLGKRVRFLRQVQHELKLDNITPVQSRVEAFPAEPPFDGVISRAFASLNDMVSWCHHLPAANGHFYALKGLAQKDEMENLPEGYAIAEVIELHVPQLEGERHLVVITPKAS				NA	NA	NA	NA	NA
BMS020_07221	1890	mnmG_2	COG0445	tRNA uridine 5-carboxymethylaminomethyl modification enzyme MnmG	ATGTTTTATCAGGATCCTTTTGACGTCATTATCATTGGCGGGGGTCACGCAGGCACTGAGGCCGCAATGGCCGCAGCGCGTATGGGTCAACAGACCCTGCTTTTGACACACAATATCGACACGCTGGGGCAGATGAGCTGCAACCCGGCGATTGGCGGCATTGGGAAAGGACACCTGGTAAAAGAAGTGGACGCGCTCGGCGGCCTGATGGCCAAAGCGATCGATCAGGCAGGCATCCAGTTTAGGATACTAAACGCCAGCAAAGGCCCCGCGGTGCGCGCCACTCGCGCCCAGGCTGACCGCGTGCTGTACCGTCAGGCGGTACGCACTGCGCTGGAGAACCAGCCGAATTTGATGATCTTCCAGCAGGCAGTGGAAGATCTGATTGTCGAAAACGATCGCGTCGTAGGCGCAGTCACCCAGATGGGCCTCAAATTCCGTGCTAAAGCGGTGGTGCTGACCGTCGGAACCTTCCTTGACGGCAAAATCCATATTGGTCTGGATAACTACAGCGGCGGACGCGCCGGCGATCCGCCGTCGATCCCGCTGTCTCGTCGTCTGCGTGAACTGCCGCTGCGCGTAAGCCGACTGAAAACCGGGACCCCGCCGCGCATTGACGCGCGCACCATCGATTTCAGCGTGTTGGCTCAACAGCATGGCGATAACCCGATGCCGGTCTTCTCGTTTATGGGATCTGCCGATCAGCATCCGCGTCAGGTGCCGTGCTACATCACCCACACTAACGAGAAAACCCATGACGTGATCCGCAATAACCTCGATCGCAGCCCCATGTACGCCGGGGTGATCGAAGGGATCGGTCCACGCTACTGCCCGTCGATCGAAGACAAAGTCATGCGCTTTGCCGATCGCAACCAGCATCAGATCTTCCTCGAACCGGAAGGCCTGACCTCAAACGAAATTTATCCGAACGGCATCTCCACCAGCCTGCCGTTCGATGTGCAAATGCAAATCGTCCGCTCCATGCAGGGGATGGAAAATGCGCGGATCGTCCGTCCTGGCTACGCTATTGAGTACGACTTCTTCGACCCGCGCGATCTGAAACCGACGCTCGAGAGCAAATTCATTCAGGGTCTGTTCTTCGCCGGTCAGATCAACGGCACTACCGGTTATGAAGAAGCGGCGGCTCAGGGTCTGCTGGCCGGTCTTAACGCTGCTCGCTTCTCGGCGGAAAAAGAGGGCTGGGCACCGCGTCGCGATCAGGCCTACCTCGGCGTGCTGGTGGATGACCTGTGTACTCTGGGTACCAAAGAACCGTACCGCATGTTTACCTCTCGTGCTGAATATCGTCTGATGCTGCGCGAAGACAACGCCGACCTGCGTCTGACTGAGCAGGGGCGTGAGCTGGGTCTGGTGGATGATGAACGCTGGGCGCGTTACAACGAGAAGCTGGAAAGCATTGAGCGCGAACGCCAGCGCCTGAAATCGACTTGGGTGAACCCGCAGGCTGAGAGCGCTACCGAAGTGAACGCTCACCTGACCGCGCCGCTGTCGCGCGAAGCCAGCGGTGAAGATCTGCTGCGTCGCCCGGAAATGACCTACGAGCAGCTGGTTCAGCTCTCGCCGTTCGCGCCGGGGCTGGAAGATCGGCAGGCGGCTGAGCAGGTTGAGATCCAGGTGAAGTATGAAGGCTATATCGCGCGCCAGCAGGATGAGATCGAGAAACAGCAGCGCAACGAGAATACCTTGTTACCGGCGACGCTCGACTACCGTCAGGTCACCGGACTGTCTAATGAAGTGATCGCTAAACTAAACGACCATAAACCGTCGTCGATAGGGCAGGCGTCACGTATTTCCGGGATCACCCCGGCGGCGATCTCTATTTTGCTGGTTTGGTTGAAAAAGCAGGGGATGCTGCGTCGCAGCGCCTGA	MFYQDPFDVIIIGGGHAGTEAAMAAARMGQQTLLLTHNIDTLGQMSCNPAIGGIGKGHLVKEVDALGGLMAKAIDQAGIQFRILNASKGPAVRATRAQADRVLYRQAVRTALENQPNLMIFQQAVEDLIVENDRVVGAVTQMGLKFRAKAVVLTVGTFLDGKIHIGLDNYSGGRAGDPPSIPLSRRLRELPLRVSRLKTGTPPRIDARTIDFSVLAQQHGDNPMPVFSFMGSADQHPRQVPCYITHTNEKTHDVIRNNLDRSPMYAGVIEGIGPRYCPSIEDKVMRFADRNQHQIFLEPEGLTSNEIYPNGISTSLPFDVQMQIVRSMQGMENARIVRPGYAIEYDFFDPRDLKPTLESKFIQGLFFAGQINGTTGYEEAAAQGLLAGLNAARFSAEKEGWAPRRDQAYLGVLVDDLCTLGTKEPYRMFTSRAEYRLMLREDNADLRLTEQGRELGLVDDERWARYNEKLESIERERQRLKSTWVNPQAESATEVNAHLTAPLSREASGEDLLRRPEMTYEQLVQLSPFAPGLEDRQAAEQVEIQVKYEGYIARQQDEIEKQQRNENTLLPATLDYRQVTGLSNEVIAKLNDHKPSSIGQASRISGITPAAISILLVWLKKQGMLRRSA				NA	NA	NA	NA	NA
BMS020_07222	441	mioC	COG0716	Protein MioC	ATGGCAGACATTACACTTATCAGCGGCAGCACCCTGGGCAGTGCGGAATACGTAGCGGAGCATCTGGCGGAAAAGCTGGAAGAAGCAGGCTACAGCACTGAAATCCAGCACGGCCCGCTGGTGGACGATCTGCAGGCGCAGGGGATCTGGTTAGTTATCTCTTCCACCCATGGCGCCGGCGACATTCCCGACAACCTGGTTCCCTTCTATGACGCGCTGCTGGCGCAGCAGGCCGATCTTTCCGCCGTGCGCTTTGGCGCCATCGGGATCGGCAGCCGCGAATACGACACTTTTTGCGGCGCGATCGATAAATTAGAAGCGGCGCTGAAGGCCTGCGGGGCAAAACAGATCGGCGAGACCCTGAAGATCAACGTGCTGGAACATGAAATTCCAGAGGATCCGGCGGAAATTTGGCTGGGATCCTGGAAAAATTTGCTCTGA	MADITLISGSTLGSAEYVAEHLAEKLEEAGYSTEIQHGPLVDDLQAQGIWLVISSTHGAGDIPDNLVPFYDALLAQQADLSAVRFGAIGIGSREYDTFCGAIDKLEAALKACGAKQIGETLKINVLEHEIPEDPAEIWLGSWKNLL				NA	NA	NA	NA	NA
BMS020_07223	459	asnC	COG1522	Regulatory protein AsnC	ATGGAAAATTATCAGATCGACAATCTGGACCGCGGCATTCTCGATGCGCTAATGGCCAACGCCCGTACCGCCTATGCCGAACTGGCCAAACAGTTCAGCGTCAGCCCCGGCACTATTCATGTACGCGTCGAAAAGATGAAACAGGCGGGCATCATTACCGGCGCGCGCATTGACGTCAGCCCCAAACAGCTGGGCTATGACGTCGGCTGCTTCATCGGCATTATTCTCAAGAGCGCCAAAGACTATCCCTCCGCCCTCGCCCGCCTGGAAAGCCTGGAGGAGGTCACCGAGGCTTACTACACCACCGGCCACTACAGCATCTTTATTAAGGTGATGTGTAAATCCATCGATGCCCTGCAGCAGGTACTTATCAACAAGATCCAAACAATTGATGAAATTCAGTCCACCGAGACCCTGATCGTGCTGCAGAACCCGATCATGCGCACCATTAAGCCCTGA	MENYQIDNLDRGILDALMANARTAYAELAKQFSVSPGTIHVRVEKMKQAGIITGARIDVSPKQLGYDVGCFIGIILKSAKDYPSALARLESLEEVTEAYYTTGHYSIFIKVMCKSIDALQQVLINKIQTIDEIQSTETLIVLQNPIMRTIKP				NA	NA	NA	NA	NA
BMS020_07224	993	asnA	COG2502	Aspartate--ammonia ligase	ATGAAAACCGCATATATCGCAAAACAACGCCAGATCAGTTTCGTTAAATCCCACTTTTCCCGTCAGCTGGAAGAGAAGCTTGGCCTGATTGAAGTCCAGGCGCCAATCTTAAGCCGCGTGGGCGATGGGACGCAGGATAACTTGTCCGGCTGTGAGAAAGCGGTTCAGGTGAAAGTGAAAACACTGCCCGACGCCCAGTTCGAAGTGGTTCATTCGCTGGCGAAGTGGAAGCGTCAAACCCTGGGACAACACGACTTCAGCGCGGGCGAAGGGCTGTACACGCACATGAAGGCCCTTCGCCCCGATGAAGACCGTCTGACGCCGATCCATTCCGTCTATGTCGACCAGTGGGACTGGGAGCGGGTGATGGGGGATGAAGAGCGCCACGTCGGCACGCTGAAGGCGACCGTCGAAGCTATTTACGCCGGGATCAAAGCCACCGAGCTGGCGGTCAGCCAGGAATTTGGCCTGACGCCGTTCCTGCCGGAACAGATCCACTTTGTTCACAGCCAGGCGCTGCTGAGTCGCTATCCGGATCTTGATGCCAAGGGCCGCGAGCGAGCGATTGCCAAAGAGCTGGGCGCCGTCTTCTTAATCGGCATCGGCGGCAAACTCTCTGATGGCAAGCGCCATGATGTACGTGCGCCGGACTATGATGACTGGAGCACTGAGGTTTCTGAAGGCTTTGCCGGACTGAACGGCGATATCCTGGTGTGGAACCCCATGCTGGAAGATGCGTTCGAGATCTCCTCAATGGGGATCCGCGTTGACGCCGCGGCGCTGAAACGCCAGCTGGCGCTGACCGGCGATGAAGATCGCCTGAAACTGGAGTGGCACCAGGCGCTGCTGCGCGGCGAGATGCCGCAGACTATCGGCGGCGGCATTGGCCAGTCTCGCCTGACGATGCTGTTGCTGCAGCTCGACCATATCGGCCAGGTGCAGTGCGGCGTATGGCCGGCACAGGTTCGCGAAAGCGTTTCCGCGCTGCTGTAA	MKTAYIAKQRQISFVKSHFSRQLEEKLGLIEVQAPILSRVGDGTQDNLSGCEKAVQVKVKTLPDAQFEVVHSLAKWKRQTLGQHDFSAGEGLYTHMKALRPDEDRLTPIHSVYVDQWDWERVMGDEERHVGTLKATVEAIYAGIKATELAVSQEFGLTPFLPEQIHFVHSQALLSRYPDLDAKGRERAIAKELGAVFLIGIGGKLSDGKRHDVRAPDYDDWSTEVSEGFAGLNGDILVWNPMLEDAFEISSMGIRVDAAALKRQLALTGDEDRLKLEWHQALLRGEMPQTIGGGIGQSRLTMLLLQLDHIGQVQCGVWPAQVRESVSALL	PGPT0020145_676	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020145-asnA-K01914	NA	NA
BMS020_07225	1449	viaA	COG2425	Protein ViaA	ATGACGCTCGATATGCTGAATGTCATGCTGGCAGTCAGCGAAGAGGGAATGATCGAGGAGATGCTGCTGGCGCTGCTGGCCTCTCCGCAGCTGGCGGTTTTCTTTGAGAAATTTCCCCGCCTGAAAAACATCATCGCGGCGGATATTCCGCGCTGGCGGGAAGCCGTTCGCGCCCGCTTAAAAGAGGTTAACGTCCCGCCGGATCTGGACGCCGAGGTGCAAACCTATCAGCAGGCTCAGCTGCTCTCTACCTCGCAGTTTATCGTCCAGCTGCCGCAGATCCTCGGCAAGCTACACCAGCTCCAGTCCCCTTTTGCCGCCCAGGCGCAGAAGCTGGTGGACGACAATGCGACCTTTACCCCGGCGCTGCATACGCTGTTTTTACAGCGCTGGCGCCTGAGCCTGGTGGTGCAAGCCACCAGCCTTAACCAGCAGCTGCTGGATGAGGAGCGCGATCAGTTGCTCAGCGAGGTCCAGGAACGAATGACGCTCAGCGGTCAGCTCGATCCGGTGCTGGCTGAGAATGACACCGCCGCCGGACGCCTGTGGGATATGAGCGCCGGCGAACTCAAACGTGGCGACTATCAGCTGATCGTGCGCTATGGCGATTTTCTTAACCAGCAGCCGGAGCTGCTGCAGCTGGCGGAACAGCTGGGGCGCTCACGGGAAGCGAAATCCGTGCCGAAGAAAGACGCGCCGATGGAGACCTTCCGTAGCCTGGTGCGCGAACCTGCGACGGTGCCGGAACAGGTCGACGGCCTCCAGCAGAGCGATGACATTCTGCGCCTGCTGCCGCCGGAGCTGGCGACGCTCGGCATCACGGAGCTGGAATTTGAATTTTATCGCAAGCTGGTGGAGAAACAGCTCCTGACCTACCGGCTGCACGGCGACGCCTGGCGCGAAAAAATCACCGAACGCCCGGTGACGCGGCAGGATTTTGATGAACAGCCGCGCGGGCCCTTTATTGTCTGCGTCGATACGTCAGGATCGATGGGCGGTTTTAACGAGCAGTGCGCCAAAGCCTTTTGTCTGGCCCTGATGCGCGTCGCGCTAGCGGATAACCGCCGCTGCTTTATTATGCTGTTCTCCAGCGAAGTGGTGCACTACGAACTGACCTGCGAGGGCGGCCTGGAGCAGGCGATCCGCTTTCTGAGCCAGCGCTTTCGCGGCGGCACCGATCTGGCCAGCTGTTTTCGCGCCATTATTGAACGTCTGCAAAACCCGCAGTGGGTGGATGCGGATGCCGTGGTGATCTCCGACTTTATTGCCCAGCGATTGCCGGATGAGGTGATTGCTCAGGTGGGGGAGTTACAGCGAAAGCATCAGCACCGTTTTCACGCGGTGGCGATGTCGGTACACGGCAAACCCGGCATCATGCGCATCTTCGATCATATCTGGCGCTTTGATACCGGGTTGCGTAGCCGCCTGCTGCGACGCTGGCGGCGCTAA	MTLDMLNVMLAVSEEGMIEEMLLALLASPQLAVFFEKFPRLKNIIAADIPRWREAVRARLKEVNVPPDLDAEVQTYQQAQLLSTSQFIVQLPQILGKLHQLQSPFAAQAQKLVDDNATFTPALHTLFLQRWRLSLVVQATSLNQQLLDEERDQLLSEVQERMTLSGQLDPVLAENDTAAGRLWDMSAGELKRGDYQLIVRYGDFLNQQPELLQLAEQLGRSREAKSVPKKDAPMETFRSLVREPATVPEQVDGLQQSDDILRLLPPELATLGITELEFEFYRKLVEKQLLTYRLHGDAWREKITERPVTRQDFDEQPRGPFIVCVDTSGSMGGFNEQCAKAFCLALMRVALADNRRCFIMLFSSEVVHYELTCEGGLEQAIRFLSQRFRGGTDLASCFRAIIERLQNPQWVDADAVVISDFIAQRLPDEVIAQVGELQRKHQHRFHAVAMSVHGKPGIMRIFDHIWRFDTGLRSRLLRRWRR				NA	NA	NA	NA	NA
BMS020_07226	1500	ravA	COG0714	ATPase RavA	ATGGCTCAAACACATTTACTGGCTGAAAGAATTTCCCGACTCAGCGCGGCACTCGAAAAAGGACTCTTTGAACGCAGCCACGCGATACGCCTGTGCCTGCTGGCGGCGCTCAGCGGCGAGAGCGTATTTTTGCTCGGTCCGCCGGGGATTGCCAAAAGCCTGATTGCCCGCCGCCTCAAGTTCGCCTTCCAGCAGGCGCGCGCTTTTGAATACCTGATGACCCGCTTTTCCACCCCGGAAGAGGTTTTTGGCCCGCTGTCCATTCAGGCGCTGAAAGATGAAGGCCGCTACGAGCGTTTAACCGCCGGCTACCTGCCGGAAGCAGAAATCGTGTTCCTCGATGAAATATGGAAAGCGGGTCCGGCTATCCTTAACACCCTGCTGACGGCGATTAACGAACGTCACTTCCGCAACGGCGCTCACGAAGAGAAAATCCCGATGCGCCTGCTGGTGGCCGCCTCGAACGAACTGCCCGAAGCCGACAGCAGCCTGGAAGCGCTGTATGACCGCATGCTGATCCGTCTGTGGCTCGATAAAGTACAGGATAAAGGTAATTTCCGTTCGATGCTGGTCAGCCAGCAGGATGAAAACAGCAATCCGGTGCCCAGCGCGCTGCAGGTTAGCGATGAAGAGTTTACGCAATGGCAGCAGCAGATCGGCAATATCAAACTGCCGGACGCGGTGTTTGAGCTGATATTCCAGCTGCGCCAGCAGCTGGATGCCCTGCCAAACGCGCCATACGTTTCGGATCGCCGCTGGAAAAAGGCTATTCGCCTGCTGCAGGCCAGCGCCTTCTTCAGCGGCCGCGACAGCATCGCGCCGATAGATCTTATCCTGCTGAAAGATTGTCTGTGGCACAACGTCGAGAGCATGAACCTGATGTCGCAGCAGTTGGAAACGCTGATGACCTGCCACGCCTGGCAGCAGCAGGCGATGCTGACGCGGCTCGGGGCGATTGTGCAGCGACGCATTCAGATCCAACAGCAGCAAAGTGACAAAACGGCGCTAAAGGTCACCCGCCTTGGCGGCATGTTTAGCCGCAAGCCGCACTATGAGCTGCCGGCGGAGATCCAAGGGACCACCCTGACCCTGCTGCTGCAGCAGCCGCTCAAACTCCACGATATGGAAGTGATCCACATTACTTTTGAGCGCGAGGCGTTAGCCAGCTGGCTGGAAAAGGGCGGCGAGATCCGCGGCAAGCTCAACGGGATCGGCTTTGCCCAACTGCTCAATATGGATGTCGACACCAGCCAGCATCTGGTTGTTCGCGACGTCAGCCTGCAGGGCTCACGCCTCTCGCTGCCCGGCAGCACGTCGCAGGAAAACATGCCGGCGGAAATTCGCCAGCAGCTGGAGGCGCTGGACGATGAGTGGCACCAGCAACATAACCGCTTCAGCGAGCAGCAGAAGTGCCTGTTTATCCCGGTCGAGTGGCTGGGAAGAATCGAAGCCAGCCTGCAGGACGTCGGCGCGCAGATTAAACAGGCGAAGCAGCCATGA	MAQTHLLAERISRLSAALEKGLFERSHAIRLCLLAALSGESVFLLGPPGIAKSLIARRLKFAFQQARAFEYLMTRFSTPEEVFGPLSIQALKDEGRYERLTAGYLPEAEIVFLDEIWKAGPAILNTLLTAINERHFRNGAHEEKIPMRLLVAASNELPEADSSLEALYDRMLIRLWLDKVQDKGNFRSMLVSQQDENSNPVPSALQVSDEEFTQWQQQIGNIKLPDAVFELIFQLRQQLDALPNAPYVSDRRWKKAIRLLQASAFFSGRDSIAPIDLILLKDCLWHNVESMNLMSQQLETLMTCHAWQQQAMLTRLGAIVQRRIQIQQQQSDKTALKVTRLGGMFSRKPHYELPAEIQGTTLTLLLQQPLKLHDMEVIHITFEREALASWLEKGGEIRGKLNGIGFAQLLNMDVDTSQHLVVRDVSLQGSRLSLPGSTSQENMPAEIRQQLEALDDEWHQQHNRFSEQQKCLFIPVEWLGRIEASLQDVGAQIKQAKQP				NA	NA	NA	NA	NA
BMS020_07227	1869	kup_2		Low affinity potassium transport system protein kup	ATGAGCACTGATAATAAACAATCGTTGCCGGCGTTAACGCTGGCGGCCATCGGCGTGGTGTACGGTGATATCGGTACCAGTCCACTGTATACCCTGCGTGAATGCCTGTCAGGTCAGTTTGGCTTTGGCGTTGAGCGCGATGCCGTTTTTGGCTTTTTGTCGCTGATTTTCTGGCTGTTAATCTTTACCGTATCGATTAAATACATCACCTTCGTGATGCGGGCGGATAACGCCGGGGAAGGCGGGATCTTAACGCTGATGTCGCTGGCCGGACGCAATACCTCGGCGCGGATGACCTCTGTGCTGGTGATCCTCGGCCTGATCGGCGGCAGTTTCTTCTATGGCGAAGTGGTGATTACCCCGGCGATTTCGGTGATGTCGGCGATAGAGGGGTTAGAAATTATCGCTCCGCAGCTCGATAGCTGGATTGTGCCGATCTCCATTATCGTGCTTACCCTGCTGTTTATGATCCAGAAGCACGGGACCGGGATGGTCGGCAAGCTGTTTGCGCCGATTATGCTGATCTGGTTCTTGCTGCTGGCGGTGCTTGGCGCGCGAAGCATTTACGCTAACCCGGAAGTTCTGCAGGCGCTAAACCCCTACTGGGCGGTGCACTTCTTCCTGCAGTACAAAACGGTTTCCTTTATTGCGCTTGGCGCGGTGGTGCTGTCGATTACCGGGGTGGAAGCGCTGTACGCCGATATGGGGCACTTCGGCAAACTGCCGATCCGTGTCGCCTGGTTCTCCGTCGTGCTGCCTTCGCTGGTGCTGAACTATTTTGGCCAGGGGGCATTGCTGCTTAAGCATCCGGAAGCGATTAAAAACCCGTTCTTCCTGCTGGCGCCGGAGTGGGCGCTGATCCCGATGCTGATTATCGCCACACTGGCGACGGTTATCGCCTCGCAGGCGGTGATCTCCGGGGTCTTCTCCTTAACCCGTCAGGCGGTGCGTCTGGGCTATCTGTCGCCGATGCGCATCATCCACACCTCGGAAATGGAGTCCGGCCAGATCTATATCCCGTTCATTAACTGGCTGCTGTATGTCTCGGTAGTGATCGTCATCGTCAGCTTCGAACATTCGTCTAACCTGGCGGCGGCGTACGGTATCGCGGTCACGGGGACCATGGTGCTGACCTCCATCCTGTCGGCAACGGTGGCGCGCAAAAACTGGCACTGGAATAAACTGTTCGTTGGGCTGATGCTGGTGGCCTTCCTGTGCATTGATGTTCCGCTGTTCTCGGCGAACCTCGATAAGATTGTCTCCGGCGGCTGGCTGCCGTTGTCCCTGGGTCTGGTGATGTTTACGGTGATGACCACCTGGAAGAGCGAGCGTTTCCGCCTGCTGCGTCGAATGCACGAGCACGGCAACTCGCTGGAAGCGATGATCTCTTCGCTGGAGAAATCGCCGCCGGTGCGCGTGCCGGGTACTGCGGTGTATATGTCCCGCGCCCTGAACGTGATCCCGTTTGCCCTGCTGCATAACCTGAAGCACAACAAGGTGCTGCATGAGCGAGTGATCCTCCTGACCCTGCGCACCGAAGACGCGCCTTACGTGCATAACGTTCGCCGGGTGCAGATTGAGCAGCTGTCGCCCTCGTTCTGGCGGGTGGTGGCCAGCTACGGCTGGCGGGAAACGCCAAATGTCGAAGAGGTGTTCCATCGCTGTGGCCTGGAAGGACTCAGCTGCCGGATGATGGAGACCTCGTTCTTTATGTCCCATGAGTCGCTGATTATCGGCAAACGACCGTGGTATCTGCGCCTGCGCGGCAAGCTTTATCTGCTGCTGCAGCGTAACGCCCTGCGCGCGCCGGATCAGTTTGAAATCCCGCCAAACCGGGTTATCGAGCTCGGTACTCAGGTCGAAATCTGA	MSTDNKQSLPALTLAAIGVVYGDIGTSPLYTLRECLSGQFGFGVERDAVFGFLSLIFWLLIFTVSIKYITFVMRADNAGEGGILTLMSLAGRNTSARMTSVLVILGLIGGSFFYGEVVITPAISVMSAIEGLEIIAPQLDSWIVPISIIVLTLLFMIQKHGTGMVGKLFAPIMLIWFLLLAVLGARSIYANPEVLQALNPYWAVHFFLQYKTVSFIALGAVVLSITGVEALYADMGHFGKLPIRVAWFSVVLPSLVLNYFGQGALLLKHPEAIKNPFFLLAPEWALIPMLIIATLATVIASQAVISGVFSLTRQAVRLGYLSPMRIIHTSEMESGQIYIPFINWLLYVSVVIVIVSFEHSSNLAAAYGIAVTGTMVLTSILSATVARKNWHWNKLFVGLMLVAFLCIDVPLFSANLDKIVSGGWLPLSLGLVMFTVMTTWKSERFRLLRRMHEHGNSLEAMISSLEKSPPVRVPGTAVYMSRALNVIPFALLHNLKHNKVLHERVILLTLRTEDAPYVHNVRRVQIEQLSPSFWRVVASYGWRETPNVEEVFHRCGLEGLSCRMMETSFFMSHESLIIGKRPWYLRLRGKLYLLLQRNALRAPDQFEIPPNRVIELGTQVEI	PGPT0002720_3858	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002720-trkD|kup-K03549	NA	NA
BMS020_07228	420	rbsD	COG1869	D-ribose pyranase	ATGAAAAAAGGCACCGTACTTAACGCTGATATTTCCGCGGTTATCTCCCGCCTGGGCCACACCGATACGCTGGTGGTCTGCGATGCCGGATTACCGGTTCCCCGCAGCAGCGCGCGCATCGATATGGCGTTGACCCAGGGCGTACCTTCATTTATGCAGGTTCTGGAAGTGGTGACGACGGAAATGCAGGTTGAAGCGGCTGTCATCGCGGAGGAAATTAAGACGCATAATCCGCAGCTCCACGCGACGTTGCTCAACTATCTTGAGCAGCTGCAGCAGCACCAGGGAAACACCATTGAAATTCGTTACACCAGTCATGAGCAGTTCAAAAAACAAACCGCAGACAGTCAGGCGGTAATTCGCAGCGGGGAGTGTTCCCCGTTTGCGAATATCATTCTCTGTGCCGGCGTCACCTTCTGA	MKKGTVLNADISAVISRLGHTDTLVVCDAGLPVPRSSARIDMALTQGVPSFMQVLEVVTTEMQVEAAVIAEEIKTHNPQLHATLLNYLEQLQQHQGNTIEIRYTSHEQFKKQTADSQAVIRSGECSPFANIILCAGVTF	PGPT0016595_247	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
BMS020_07229	1506	rbsA_2	COG1129	Ribose import ATP-binding protein RbsA	ATGGAAGCCTTATTGCAACTGAAAGGGATCGATAAAGCGTTCCCTGGCGTCAAGGCGCTCTCCGGCGCCTCGCTGAATGTCTACCCTGGCCGGGTGATGGCGCTGGTGGGTGAGAACGGCGCCGGTAAATCCACCATGATGAAAGTGCTGACCGGGATCTATACCCGTGATGCTGGCGCTTTATTGTGGTTGGGCAAAGAGACCACCTTTAGCGGCCCAAAATCTTCCCAGGAAGCCGGGATCGGCATTATCCATCAGGAGCTGAACCTGATCCCGCAGTTGACGATCGCCGAGAACATCTTCCTCGGCCGCGAATTCGTTAACCGCTTTGGCAAAATCGACTGGAAGCGGATGTATGCCGAAGCCGACAAGCTGCTGGCGAAGCTGAATCTCCGTTTTACCAGCCAGAAGCTGGTGGGCGATCTGTCGATTGGCGATCAGCAAATGGTGGAGATCGCCAAAGTGCTGAGCTTCGAGTCGAAGGTCATCATTATGGATGAACCGACCGACGCGCTGACCGATACCGAAACCGAATCGCTGTTCCGTGTGATCCGCGAACTGAAATCGCAGGGGCGCGGCATCGTCTACATCTCCCACCGCATGAAAGAGATCTTCGAGATTTGCGACGACGTGACCGTGTTCCGCGACGGGCAGTTTATTGCCGAACGCGAGGTCTCCTCGCTGGATGAAGACCGCCTGATTGAAATGATGGTTGGCCGGAAGCTGGAAGATCAGTATCCGCATCTGGCTAAGGCGCCGGGCGCGGTGCGCCTGAAAGTCGATAATCTCTGCGGCCCGGGCGTGGAAAACGTGACCTTTACCCTGCGCCAGGGGGAAATCCTCGGCGTCGCCGGGCTGATGGGCGCCGGGCGGACCGAGCTGATGAAAGTGTTGTATGGCGCGCTGCCGCGCAGCAGCGGCTCCGTGACGCTCGACGGTCACGAAGTGGTGACCCGTTCGCCGCAGGATGGTCTGGCGAACGGCATTGTCTATATCTCCGAAGACCGTAAGCGTGACGGCTTAGTGCTCGGGATGTCGGTAAAAGAAAACATGTCCCTGACCGCCCTGCGCTACTTCAGCCGGACGGGGGGGAGTCTCAAGCATAAAGATGAACAGCAGGCGGTCAGTGATTTCATCCGGCTGTTTAACGTGAAAACGCCATCCATGGAGCAGGCGATCGGCCTGCTCTCCGGCGGCAACCAGCAAAAGGTCGCCATCGCCCGCGGGCTGATGACCCGGCCGAAGGTCCTGATCCTCGATGAGCCGACCCGTGGCGTCGACGTTGGGGCGAAGAAAGAGATCTACCAGCTTATCAATCAGTTCAAAGCCGATGGCCTGAGCATCATTCTGGTCTCCTCCGAGATGCCGGAAGTGTTGGGCATGAGCGATCGCATCATAGTGATGCATGAAGGGCATCTCGGCGGTGAATTCACACGCGAGCAGGCCACCCAGGAAGTATTGATGGCTGCCGCTGTGGGCAAGCTTAACCGTGTGAATCAGGAGTAA	MEALLQLKGIDKAFPGVKALSGASLNVYPGRVMALVGENGAGKSTMMKVLTGIYTRDAGALLWLGKETTFSGPKSSQEAGIGIIHQELNLIPQLTIAENIFLGREFVNRFGKIDWKRMYAEADKLLAKLNLRFTSQKLVGDLSIGDQQMVEIAKVLSFESKVIIMDEPTDALTDTETESLFRVIRELKSQGRGIVYISHRMKEIFEICDDVTVFRDGQFIAEREVSSLDEDRLIEMMVGRKLEDQYPHLAKAPGAVRLKVDNLCGPGVENVTFTLRQGEILGVAGLMGAGRTELMKVLYGALPRSSGSVTLDGHEVVTRSPQDGLANGIVYISEDRKRDGLVLGMSVKENMSLTALRYFSRTGGSLKHKDEQQAVSDFIRLFNVKTPSMEQAIGLLSGGNQQKVAIARGLMTRPKVLILDEPTRGVDVGAKKEIYQLINQFKADGLSIILVSSEMPEVLGMSDRIIVMHEGHLGGEFTREQATQEVLMAAAVGKLNRVNQE	PGPT0016600_3442	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
BMS020_07230	966	rbsC_7	COG1172	Ribose import permease protein RbsC	ATGACAACCCAGGCTGTTTCTGGTCGCCGTTATTTCACGAAAGCGTGGCTGATGGAGCAAAAATCGCTGATTGCCCTGCTGGTGCTGATCGCGGTGGTATCGACCATGAGCCCCAACTTTTTTACCGTCAATAACCTGTTCAATATTCTGCAGCAGACCTCCGTTAACGCCATTATGGCGGTAGGGATGACGCTGGTCATACTGACCTCGGGGATCGACCTGTCCGTCGGTTCCCTGCTGGCGCTCACCGGCGCGGTGGCGGCGTCGATCGTTGGCATTGAAGTGAATGCGCTGGTGGCGGTCGCTGCTGCCCTCGCATTAGGTGCGGCGATCGGCGCAGTCACCGGGGTGATTGTGGCGAAAGGCCGCGTGCAGGCTTTCATCGCCACCCTGGTGATGATGCTGCTGCTGCGCGGCGTGACCATGGTGTACACCAACGGCAGCCCGATCAATACCGGCTTTAGCGATAATGCCGATCTGTTCGGCTGGTTTGGTATCGGGCGTCCGCTGGGGATCCCGACGCCGGTATGGATCATGGCGATTGTCTTCCTGGCGGCCTGGTACATGCTGCACCATACTCGCCTGGGTCGTTATATCTACGCCCTTGGCGGTAATGAGGCGGCGACGCGCCTGTCCGGGATTAGCGTCAATAAAGTCAAAATTATCGTCTACGCGTTGTGCGGGATGCTGGCGTCGCTGGCCGGGATTATCGAAGTGGCGCGCCTCTCCTCCGCGCAGCCGACGGCCGGGACAGGCTATGAGCTGGACGCCATTGCGGCAGTCGTGCTCGGCGGCACCAGCCTGGCGGGCGGCAAAGGACGCATTGTCGGCACGCTGATTGGCGCGCTGATCCTTGGCTTCCTGAATAATGGTTTGAACCTTTTAGGCGTTTCTTCCTATTACCAGATGATCGTTAAAGCGGTGGTGATTTTGCTGGCGGTACTGGTAGATAACAAAAAGCAGTAA	MTTQAVSGRRYFTKAWLMEQKSLIALLVLIAVVSTMSPNFFTVNNLFNILQQTSVNAIMAVGMTLVILTSGIDLSVGSLLALTGAVAASIVGIEVNALVAVAAALALGAAIGAVTGVIVAKGRVQAFIATLVMMLLLRGVTMVYTNGSPINTGFSDNADLFGWFGIGRPLGIPTPVWIMAIVFLAAWYMLHHTRLGRYIYALGGNEAATRLSGISVNKVKIIVYALCGMLASLAGIIEVARLSSAQPTAGTGYELDAIAAVVLGGTSLAGGKGRIVGTLIGALILGFLNNGLNLLGVSSYYQMIVKAVVILLAVLVDNKKQ	PGPT0016590_4949	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
BMS020_07231	891	rbsB_4	COG1879	Ribose import binding protein RbsB	ATGAATATGAAAAAACTGGCGACCCTGGTCTCTGCTGTTGCGCTAAGTGCGACCGTTAGCGCGAACGCGATGGCCAAAGACACCATCGCTCTGGTTATCTCTACTCTCAACAATCCCTTCTTCGTGTCGCTGAAAGACGGCGCGCAAAAAGAAGCTGACAAACTGGGCTACAACCTGGTGGTGCTCGATTCCCAGAACAACCCGGCGAAAGAGCTGGCTAACGTTCAGGATTTAACGGTGCGCGGCGCGAAGCTGTTGCTGATCAACCCAACCGACTCTGATGCCGTCGGCAATGCCGTGAAGATGGCGAACCAGGCGAAAATCCCGGTCATCACCCTCGACCGTCAGGCGACAAAAGGCGATGTCGTGAGCCACATCGCCTCTGACAACGTGCAGGGCGGAAAAATGGCGGGCGATTACATTGCGAAAAAGCTGGGTGAAAGTGCGAAAGTCATTGAGCTGCAGGGCATTGCCGGGACTTCCGCGGCGCGTGAGCGCGGCGAAGGCTTCAAACAGGCCGTGGCGGCGCACAAGTTCAACGTTCTGGCCAGCCAGCCGGCCGATTTCGACCGTACCAAAGGGCTGAACGTGATGCAGAACCTGCTGACCGCCCATCCTGACGTCCAGGCGGTGTTCGCGCAGAATGATGAAATGGCGCTCGGCGCTCTGCGCGCGCTGCAGACCGCAGGCAAGTCCGATGTGATGGTGGTTGGATTTGACGGCACTCCGGATGGCGAAAAAGCAGTAAACAGTGGCAAACTGGCGGCGACCGTCGCACAGTTGCCGGAGCAGATCGGCGCGAAAGGCGTTGAGACTGCTGATAAGGTACTGAAGGGCGAAAAAGTGGAAGCTAACTACCCGGTTGAGCTGAAGCTGGTCGTTAAGCAGTAA	MNMKKLATLVSAVALSATVSANAMAKDTIALVISTLNNPFFVSLKDGAQKEADKLGYNLVVLDSQNNPAKELANVQDLTVRGAKLLLINPTDSDAVGNAVKMANQAKIPVITLDRQATKGDVVSHIASDNVQGGKMAGDYIAKKLGESAKVIELQGIAGTSAARERGEGFKQAVAAHKFNVLASQPADFDRTKGLNVMQNLLTAHPDVQAVFAQNDEMALGALRALQTAGKSDVMVVGFDGTPDGEKAVNSGKLAATVAQLPEQIGAKGVETADKVLKGEKVEANYPVELKLVVKQ	PGPT0015740_5991	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
BMS020_07232	930	rbsK_4	COG0524	Ribokinase	ATGAAAACTGCAGGCAAACTTGTCGTCCTTGGCAGCATCAATGCCGATCACATTCTCAACCTTGACGCTTTCCCGACGCCGGGTGAAACCGTCACCGGCAACCACTACCAGCTGGCGTTCGGTGGTAAAGGGGCCAACCAGGCGGTGGCCGCCGGGCGCAGCGGGGCGGATATCGCGTTTATCGCCTGCACCGGCGATGACGACATCGGTGAACGCATCCGTCGCCAGCTGGCGAGCGATAAAATCGATGTGGCGCCTGTGCGCGCGGTCGCCGGGGAAGCAACCGGCGTGGCGTTAATCTTCGTTAACGCCGAGGGTGAGAATGTCATCGGTATTCATGCCGGCGCCAATGCGGCCTTATCCGTCGCTGAGGTAGAGGCGGAAAAAGAGCGGATCGCCAGCGCGCAGGCGTTGTTGATGCAGCTCGAGTCGCCGCTGGAGAGCGTGCTGGCGGCGGCGAAAATCGCCCATCACCATCAGACCACCGTGGTGCTTAATCCCGCGCCAGCGCGTGAACTGTCCGATGAACTGCTGGCGCTGGTGGATATCATTACCCCCAACGAAACCGAAGCGGAAAAGCTGACGGGGATTCGCGTTGAGAGTGACGAGGATGCGGCAAAAGCCGCCGACGTGCTGCATGCCAAAGGCATTGGTACGGTAATGATCACCCTCGGCAGTCGCGGCGTCTGGCTCAGTGCCGAAGGCGAAAGCCGCCGGATCCCAGGGTTTCGCGTGCAGGCTATTGATACTATCGCGGCCGGCGACACTTTCAACGGCGCGCTGGTGACCGCGCTGCTGGAAGGGACCGCCCTGCCGGAGGCGATCCGCTTTGCGCATGCCGCGGCGGCGATTGCCGTGACTCGCAAAGGCGCGCAGCCTTCCGTGCCGTGGCGCACAGAGATTGATGAATTTTTAGCGCAACAGGGGTAA	MKTAGKLVVLGSINADHILNLDAFPTPGETVTGNHYQLAFGGKGANQAVAAGRSGADIAFIACTGDDDIGERIRRQLASDKIDVAPVRAVAGEATGVALIFVNAEGENVIGIHAGANAALSVAEVEAEKERIASAQALLMQLESPLESVLAAAKIAHHHQTTVVLNPAPARELSDELLALVDIITPNETEAEKLTGIRVESDEDAAKAADVLHAKGIGTVMITLGSRGVWLSAEGESRRIPGFRVQAIDTIAAGDTFNGALVTALLEGTALPEAIRFAHAAAAIAVTRKGAQPSVPWRTEIDEFLAQQG	PGPT0017405_1938	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
BMS020_07233	984	rbsR_4	COG1609	Ribose operon repressor	ATGAAAGATGTGGCCCGCGTCGCGGGCGTTTCCACATCGACGGTGTCACACGTCATCAATAAGGACCGCTTTGTCAGCGAGGCGATTACCGCCAAAGTCGACGCCGCGATCAAAAGCCTCAACTACGCCCCCTCGGCGCTGGCGCGTAGCCTCAAGCTTAATCAAACCCGCACCATCGGCATGCTGATCACCGCCAGTACCAATCCGTTTTATTCCGAGCTGGTGCGGGGCGTGGAGCGCAGCTGCTTTGAGCGGGGTTATAGTCTCGTACTCTGTAATACGGAAGGTGATGAGCAGCGAATGAATCGTAATCTGGAGACGTTAATGCAAAAACGCGTCGATGGATTACTGCTGCTGTGCACTGAGACCCACCAACCCTCCCCGGAAATTATGCAGCGCTATCCGTCGGTTCCGACGGTCATGATGGACTGGGCGCCGTTTGATGGCGATAGCGATCTGATTCAGGATAACTCGCTGCTCGGTGGCGATATGGCGACCCAGTATCTGATCGATCAAGGGTATTCACACATTGCCTGCATTGCCGGCCCGCTGGATAAAACCCCGGCGCGTCTGCGCCTTGAAGGTTACCATGCCGCGATGGCGCGCTGCGGTCTGCCCGTAGCCGAGGGATACGTGGTGACCAGTGATTTTGAGTTTGGCGGCGGATTTAGCGCGATGCAGCAGCTGCTGGCGTTGCCGCAGCGGCCGCAGGCGGTGTTTGTCGGTAACGACGCCATGGCGGTTGGCGCTTATCAGGCGTTATACCAGGCCGGGTTGCAGATCCCGCAGGATATGGCGCTGGTGGGTTACGATGATATTGAACTGGCTCGCTATATGACGCCGCCGTTAACCACCATTCACCAGCCGAAAGATGAGCTGGGGGAACTGGCCATCGACGTGCTGATCCATCGCATGGCCGACCCGCAGCAAAAACAGCAGCGCGTACAGTTAACCCCGGAGTTGGTGGTCCGCGGCTCCGCTTAG	MKDVARVAGVSTSTVSHVINKDRFVSEAITAKVDAAIKSLNYAPSALARSLKLNQTRTIGMLITASTNPFYSELVRGVERSCFERGYSLVLCNTEGDEQRMNRNLETLMQKRVDGLLLLCTETHQPSPEIMQRYPSVPTVMMDWAPFDGDSDLIQDNSLLGGDMATQYLIDQGYSHIACIAGPLDKTPARLRLEGYHAAMARCGLPVAEGYVVTSDFEFGGGFSAMQQLLALPQRPQAVFVGNDAMAVGAYQALYQAGLQIPQDMALVGYDDIELARYMTPPLTTIHQPKDELGELAIDVLIHRMADPQQKQQRVQLTPELVVRGSA	PGPT0017992_14339	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
BMS020_07234	1398	hsrA_2		putative transport protein HsrA	ATGAGCGGAAAAAAAGGGCGCAGCATGGCAGGCCTGCCGTGGATCGCGGCGATGGCCTTCTTTATGCAGGCGCTGGATGCCACCATTCTTAACACCGCCCTCCCGGCTATCGCCCACAGCCTGAACCGTTCCCCCTTAGCAATGCAGTCGGCCATCATCAGCTATACGCTGACGGTGGCGATGTTGATCCCGGTCAGCGGCTGGCTGGCCGATCGCTTCGGCACGCGCCGGGTCTTTGTCATCGCCGTTAGCCTGTTTACTCTCGGCTCCCTCGCCTGCGCGCTCTCGAGTTCATTAACGGAGCTGGTCATTTTTCGCGTTATTCAGGGGATCGGCGGGGCGATGATGATGCCGGTGGCGAGGCTAGCCCTCCTGCGCGCCTATCCGCGCAGCGAACTGCTGCCGGTACTGAACTTTGTCACCATGCCGGGACTGGTAGGACCGATTCTGGGCCCGGTTCTCGGCGGGGTATTTGTGACCTGGGCCAGCTGGCATTGGATTTTCCTGATAAACATTCCCATCGGCGTGATCGGCATTCTGTATGCCCGTAAATATATGCCAAATTTCACAACGCCGCGCCGACGCTTCGATATAACCGGTTTTCTGTTATTTGGCTTAAGCCTGGTGTTATTTTCCAGCGGTATTGAACTGTTTGGCGAAAAAATCGTGGCGACATGGCTGGCGCTGGCAGTGATCGCCGTCAGTCTGATACTGCTCCTGGCCTATGTCCGTCACGCGCGCCGCCATCCTGCGCCGCTGATCTCGCTCTCTTTATTTAAAACCCATACGTTCTCGGTCGGCATTGCCGGCAACCTTGCCACGCGGTTGGGTACCGGCTGCGTACCTTTTCTGATGCCGCTCATGCTGCAGGTTGGCTTTGGCTATCCGGCCATTATCGCCGGCTGTATGATCGCCCCCACCGCTATCGGCTCGATTATTGCGAAATCTACCGTTACCCAAGTGCTGCGCTGGTTTGGCTATCGTAAGACCCTGGTGGGGATCACCGTGTTTATTGGCCTTATGATTGCCCAGTTCTCGCTGCAGTCGCCAGAAATGCCGCTGTGGATGCTGCTTCTGCCGCTGTTCGTGCTGGGGATGGCGATGTCCACGCAGTTTACCGCCATGAATACCATTACCCTGGCCGATTTGACGGATGACAATGCCAGCAGCGGCAATAGCCTGCTGGCAGTCACCCAGCAGCTTTCCATCAGTCTCGGAGTGGCCATCAGCGCTGCGGTGCTGCGCTTCTATGAAGGTTTTGACAGCGCCAGCACCGTAGAGCAGTTTCACTACACCTTTATTACCATGGGCGTGATAACCATCGTGTCGGCGCTGATGTTTATGCTGTTGAGAGCGAAGGATGGCCGCAACCTGATTAGCGAGCGGCACAAACGCTAA	MSGKKGRSMAGLPWIAAMAFFMQALDATILNTALPAIAHSLNRSPLAMQSAIISYTLTVAMLIPVSGWLADRFGTRRVFVIAVSLFTLGSLACALSSSLTELVIFRVIQGIGGAMMMPVARLALLRAYPRSELLPVLNFVTMPGLVGPILGPVLGGVFVTWASWHWIFLINIPIGVIGILYARKYMPNFTTPRRRFDITGFLLFGLSLVLFSSGIELFGEKIVATWLALAVIAVSLILLLAYVRHARRHPAPLISLSLFKTHTFSVGIAGNLATRLGTGCVPFLMPLMLQVGFGYPAIIAGCMIAPTAIGSIIAKSTVTQVLRWFGYRKTLVGITVFIGLMIAQFSLQSPEMPLWMLLLPLFVLGMAMSTQFTAMNTITLADLTDDNASSGNSLLAVTQQLSISLGVAISAAVLRFYEGFDSASTVEQFHYTFITMGVITIVSALMFMLLRAKDGRNLISERHKR	PGPT0029180_57	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029180-mdtD-K18326	NA	NA
BMS020_07235	702	nanR_2		HTH-type transcriptional repressor NanR	ATGTCTTTAAGCGCACAGCAACTGGCGGCACAAAAGAACATCTCCTGGGTACTGGCCGAGAAGCTCGCCCAAAAGATACTGACTGGCGAATATCAGCCGGAAAGCATTCTTCCCGGCGAAATGGAGTTAGGGGAGCAGTTCGGCGTGAGTCGTACCGCCGTCCGCGAAGCGGTGAAGACGCTGACTGCAAAAGGCATGCTGCTGCCCCGCCCTCGCATTGGCACCCGGGTAATGCCGCGCAGCAGCTGGAACTTCCTGGATAAGGAACTACTCTCCTGGTGGCTCACGGAAGATAACTTCGAAGAGGTGGTGAGCCACTTTCTCGTCATGCGCAGCAGCCTGGAGCCACAGGCCTGTTTCCTCGCCGCCGCCCACGGCACCGCGGAGCAGAAAGCGCAGCTCAATACCCTTATGGAAGAGATGATTGCCCTGAAACGTCATTTTCAGCGCGATCGCTGGATAGACGTCGATATGGCCTGGCATGAACATATCTATGAAATGAGCGGCAATCCTTTCCTCAGCTCATTCGCCTCTTTATTTCATTCCGTCTACCACACCTACTTCACGTCGATTACGCAAAATGAAGTCGTGAAGCTCGATCTCCACCAGGCGATCGTCGATGCCATTCTCAATAGCGATGCGCCAGGTGCCTTGCTCGCCTGCCAGGCGCTGCTGAACGCCCCACACCACGTAAATCAATAA	MSLSAQQLAAQKNISWVLAEKLAQKILTGEYQPESILPGEMELGEQFGVSRTAVREAVKTLTAKGMLLPRPRIGTRVMPRSSWNFLDKELLSWWLTEDNFEEVVSHFLVMRSSLEPQACFLAAAHGTAEQKAQLNTLMEEMIALKRHFQRDRWIDVDMAWHEHIYEMSGNPFLSSFASLFHSVYHTYFTSITQNEVVKLDLHQAIVDAILNSDAPGALLACQALLNAPHHVNQ				NA	NA	NA	NA	NA
BMS020_07236	852	murI	COG0796	Glutamate racemase	ATGGCTACCAATCTGCAGGACGGGAATACACCTTGTCTGGCAGCTACACCTTCTGATCCACGTCCCACCGTGCTGGTGTTTGATTCCGGCGTCGGTGGGTTGTCGGTTTATAATGAGATTCGGCAGCTGCTGCCGAATCTGCATTACATCTATGCTTTCGATAACGTTGCCTTCCCCTATGGCGAGAAGAGCGAGGCGTTTATCGTTGAGCGCGTTGTGGAAATCGTCACCGCTGTCCAGCAGCGTTATCCCCTGGCGCTGGCGGTGATCGCCTGCAATACCGCCAGTACCGTCTCCCTGCCTGCTCTGCGTGAAAAGTTCGCCTTCCCCGTTGTCGGCGTGGTGCCAGCGATCAAGCCCGCCGCCCGCTTAACGGCGAACGGCATTGTTGGCCTGCTGGCGACGCGCGGCACCGTAAAGCGTCCTTATACCCGTGAGCTGATCGACCGCTTTGCCAATGAATGTCGGATTGAAATGCTGGGGTCGGCGGAGCTGGTGGAGCTGGCGGAAGCGAAGCTGCACGGCGAGCCTGTGCCGTTAGAAGAACTGCGCCGTATCCTGCGCCCGTGGCTGCGGATGCAGGAGCCGCCGGATACGGTGGTGCTGGGCTGCACCCACTTTCCTCTTTTACAGGAGGAGCTGCAGCACGTTCTGCCCGAGGGCACGCGGCTGATCGATTCCGGCGCGGCGATTGCCCGTCGCACCGCCTGGCTGTTAGAGCATGAAGCGCCGGACGCGAAGTCCAGCGACGAGAATAAAGCATTCTGCATGGCGTTGACGGCAGAAACGGAACAACTTTTACCCGTTTTGCATCGCTATGGCTTCTCGACGCTGGAAAAATTACCGCTTTAA	MATNLQDGNTPCLAATPSDPRPTVLVFDSGVGGLSVYNEIRQLLPNLHYIYAFDNVAFPYGEKSEAFIVERVVEIVTAVQQRYPLALAVIACNTASTVSLPALREKFAFPVVGVVPAIKPAARLTANGIVGLLATRGTVKRPYTRELIDRFANECRIEMLGSAELVELAEAKLHGEPVPLEELRRILRPWLRMQEPPDTVVLGCTHFPLLQEELQHVLPEGTRLIDSGAAIARRTAWLLEHEAPDAKSSDENKAFCMALTAETEQLLPVLHRYGFSTLEKLPL	PGPT0020200_799	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020200-murI-K01776	NA	NA
BMS020_07237	1839	btuB_23	COG4206	Vitamin B12 transporter BtuB	ATGATTAAAAAAGCTTCGCTGATGACGGCCTTATCCGTCACGGCATTTTCCGGCTGGGCGCAGGACAGCAATTCAGACACGTTGGTGGTGACAGCAAACCGTTTTCAACAGCCGGTCAATACCGTGCTGGCGCCGACCGATATAGTGACGCGCGATGACATCGACCGCTGGCAGTCCAAAGATTTAAACGATGTCATGCGTCGTCTTCCCGGGGTCGATATTGCCCGCAACGGCGGCATGGGGCAGAGCGCTTCGCTGTATGTTCGGGGGACGGAGGCTCGCCACGTGCTGGTGCTGATCGACGGTGTGCCGATGGCGCGTCCGGGGATCTCCAACGGCGTGGATATCAGTCAGATCCCTATCTCTCTGGTCCAGCGGGTGGAATACATCCGCGGCCCGCGCTCCGCGGTGTACGGCTCCGGGGCGATCGGCGGGGTGGTGAACATCATCACCATGACCGATGCTGAGCGTTCGCAGATCAACGCCGGCGCGGGAACGAACGGCTATCAGTCCTACGATGGCGCCTTTAACAAGCGGTTTGGCGATACGCTGGTTACCGCTGCCGGCGCCTATCAGACCACCAAAGGGTTTAACGTCCAGCCGAACTCCTCTTATAGCGGCGACAGCGATCGCGACGGCTACCGCAATAAAATGCTATGGGGCGGGGTACAGCATCAGTTCGATGACAACTTCTCGGGGTTCTTCCGCGGCTATGGTTATTCCGCCAATGCTGACTATGACCAGGGTAACTGGGGCTACGCAGGTGGAAACGATGAAGATCAGTCCTATACTCAATCCTGGGACACCGGTCTGCACTACCATTCCGGAATTTACTCCTCCCAGCTGATTGCGAACTATCAGCGTATTAAAGATTACAACTACAGCAGCGACGCTGGCCGCTATGCCGCGGGCACCACCCTGGATGATATGGAACAACGCTATATCCAATGGGGAAATAATGTTGTGGTGGGCCATGGCGCAGTGAGCGGTGGCGTAGACTGGAAACAGGAGAAGCTGAAATCCAGCGGAACGACCAGTACCGACGTGTATAAGCGCGATACCACCGGTCTTTATCTGACGGGCCAGCAGCAGATTGACAGCGTGACGCTGGAAGCTTCCGGCCGTGAGGATCATGACGAGCAGTTTGGCTGGCACGGTACCTGGCAGACGGCGGCAGGCTGGGAATTTATCGAGGGTTATCGGACAACGCTCTCGTACGGTACAGGATTCCTCGCCCCCTCCCTCGGACAGCAGTACGGCGCAGAACGTTTTGGCATCGCCTCTAACCCGAACCTGAAGCCAGAGGAGTCGAAGCAGTGGGAAGCGGGCCTCGAAGGGTTGACGGGGCCGGTCGACTGGCGTCTCTCCGCGTATCGCTATGAGATTCAAAACCTCATCGATTACGACAACAACGCCTATTACAACGTCAAGTCTGCGACGATCAAGGGGCTGGAGTGGACGGGGAATGTCACCACAGGGCCGGTGGAGCACCATCTGACGCTGCAGTATGTTGACCCTCGCGATGATGAAACTAACAAAATCCTCTATCGCCGGGCGAAGCAGCAGGTGAAATACGAGCTGAACGGCCAGGTCTACGATCTGGGGTGGGATGTGACGTATCACTACATCGGCAAGCGCTACGATTATGATTACGACAACTCGCGTACCGTCAATATGGGTGGGTTGAGCCTCTGGGATGTCGGTTTATCGTATCCCGTCACCTCACACCTGACAGTTCGTGGTAAAATAGCCAACCTGTTCGATAAAGATTACGAGACAGTTTATGGCTACCAATCTGCAGGACGGGAATACACCTTGTCTGGCAGCTACACCTTCTGA	MIKKASLMTALSVTAFSGWAQDSNSDTLVVTANRFQQPVNTVLAPTDIVTRDDIDRWQSKDLNDVMRRLPGVDIARNGGMGQSASLYVRGTEARHVLVLIDGVPMARPGISNGVDISQIPISLVQRVEYIRGPRSAVYGSGAIGGVVNIITMTDAERSQINAGAGTNGYQSYDGAFNKRFGDTLVTAAGAYQTTKGFNVQPNSSYSGDSDRDGYRNKMLWGGVQHQFDDNFSGFFRGYGYSANADYDQGNWGYAGGNDEDQSYTQSWDTGLHYHSGIYSSQLIANYQRIKDYNYSSDAGRYAAGTTLDDMEQRYIQWGNNVVVGHGAVSGGVDWKQEKLKSSGTTSTDVYKRDTTGLYLTGQQQIDSVTLEASGREDHDEQFGWHGTWQTAAGWEFIEGYRTTLSYGTGFLAPSLGQQYGAERFGIASNPNLKPEESKQWEAGLEGLTGPVDWRLSAYRYEIQNLIDYDNNAYYNVKSATIKGLEWTGNVTTGPVEHHLTLQYVDPRDDETNKILYRRAKQQVKYELNGQVYDLGWDVTYHYIGKRYDYDYDNSRTVNMGGLSLWDVGLSYPVTSHLTVRGKIANLFDKDYETVYGYQSAGREYTLSGSYTF	PGPT0003740_2184	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-VITAMIN_B12_RELATED_FERROUS_UPTAKE,PGPT0003740-butB-K16092	NA	NA
BMS020_07239	1101	trmA	COG2265	tRNA/tmRNA (uracil-C(5))-methyltransferase	ATGACCCCCGAACACCTTCCTACCGAACAATACGAAGCGCAGCTGGCAGAAAAAGTCGTCCGTTTGCAAACCATGATGGCGCCTTTCGCCGCGCCGGTTCCGGAAGTGTTTCGTTCGCCGGTCAGCCACTACCGTATGCGCGCCGAGTTCCGTCTGTGGCACGATGGCGACGACCTGTACCATATTATTTTCGATCAGCAGACCCGGTCGCGGATTCGCGTTGACAGCTTCCCGGCCGCCAGCGCGCTCATCAATCAGCTGATGACCGCCATGCTGGAGGGCGTGCGCAACAATCCCGTGCTGCGCCATAAGCTGTTTCAGATTGACTATCTGACCACCCTCAGCAACCAGGCGGTCGTCTCGCTGCTGTATCATAAAAAGCTCGATGATGCCTGGCGTGAGCAAGCGGAGGCGCTGCGTGACGCCCTGCGAGCCCAGGGGCTCAATGTGCATCTGATTGGTCGGGCGACTAAAACTAAAATCGAGCTCGATCAGGATTATATAGATGAACGCCTGCCGGTTGGCGGTCGGGAGATGATCTACCGTCAGGTGGAAAACAGCTTTACCCAACCGAACGCGGCCATGAACATTCAGATGCTGGAGTGGGCGCTGGATGTCACCAAAGGGGCGACCGGCGACCTGCTGGAATTGTACTGCGGCAACGGTAACTTCTCGCTGGCGCTGGCGCGTAATTTCGATCGCGTACTGGCCACTGAAATCGCCAAACCGTCGGTGGCGGCGGCGCAGTACAACATCGCCGCCAACCATATCGACAACGTGCAGATTATCCGCATGGCGGCTGAAGAGTTTACTCAGGCGATGAACGGCGTGCGTGAGTTCAACCGGCTGCAGGGTATCGATCTGCAAAGCTATCAGTGCGAGACTATTTTCGTCGATCCGCCGCGTAGCGGGCTGGACAGTGAAACGGAGAAAATGGTGCAGGCCTATCCGCGCATACTGTACATTTCGTGCAACCCGGAAACGCTGTGCCGTAATCTGGAAACGCTAAGCCAGACGCACAACGTTACCCGGCTGGCGCTGTTCGACCAGTTCCCGTATACCCATCACATGGAGTGCGGCGTTCTGCTGACCCGGAAATAG	MTPEHLPTEQYEAQLAEKVVRLQTMMAPFAAPVPEVFRSPVSHYRMRAEFRLWHDGDDLYHIIFDQQTRSRIRVDSFPAASALINQLMTAMLEGVRNNPVLRHKLFQIDYLTTLSNQAVVSLLYHKKLDDAWREQAEALRDALRAQGLNVHLIGRATKTKIELDQDYIDERLPVGGREMIYRQVENSFTQPNAAMNIQMLEWALDVTKGATGDLLELYCGNGNFSLALARNFDRVLATEIAKPSVAAAQYNIAANHIDNVQIIRMAAEEFTQAMNGVREFNRLQGIDLQSYQCETIFVDPPRSGLDSETEKMVQAYPRILYISCNPETLCRNLETLSQTHNVTRLALFDQFPYTHHMECGVLLTRK				NA	NA	NA	NA	NA
BMS020_07240	360	yijD		Inner membrane protein YijD	ATGAAACACTCAGTTCAAGATAAAGGTACGCTGCTGCTGGCGCTGATTGCCGGGTTATCTATTAATGGCGCCTTTGCGGCGCTGTTCAGTTCGATAGTTCCGTTTTCCGTCTTCCCCATCTTATCCCTGCTGCTGACGGTCTACTGTCTGCATCAGCGCTATCAGAATCGCAGTATGCCCGTCGGGCTACCGGGCCTGGCCGCCGCCTTTTTTATTCTCGGAGTGCTGTTGTACAGCACCGTCGTGCGTGCGGAGTACCCGGATATCGGCTCTAACTTCTTCCCGGCCGTTCTGTCCGTCGCGATGGTCTTCTGGATTGGCTACAAGATGCGTAACCGCAAAAATACCGCAGCCGAATAA	MKHSVQDKGTLLLALIAGLSINGAFAALFSSIVPFSVFPILSLLLTVYCLHQRYQNRSMPVGLPGLAAAFFILGVLLYSTVVRAEYPDIGSNFFPAVLSVAMVFWIGYKMRNRKNTAAE				NA	NA	NA	NA	NA
BMS020_07241	636	fabR_1	COG1309	HTH-type transcriptional repressor FabR	GTGATGGGCGTAAGAGCACAACAAAAAGAAAAAACCCGCCGTTCGCTGGTGGAAGCGGCATTCAGCCAACTTAGCGCTGAGCGGAGTTTCGCCAGCCTGAGCTTGCGTGAAGTGGCGCGGGAAGCAGGGATCGCGCCGACGTCCTTTTATCGTCATTTTCGCGATGTCGATGAGTTAGGCCTGACGATGGTCGATGAGAGCGGACTGATGCTGCGCCAGCTGATGCGCCAGGCGCGCCAGCGGATTGCCAAAGGCGGCAGCGTGATCCGCACCTCTGTCTCGACCTTTATGGAGTTTATCGGTAACAACCCGAACGCTTTCCGCCTGCTGCTGCGCGAGCGCTCGGGAACGTCTGCGGCGTTTCGCGCCGCCGTCGCACGCGAAATCCAGCATTTTATTGCGGAACTCGCCGACTATTTAGAACTCGAAAACCATATGCCGCGCGCCTTTACCGAAGCGCAGGCTGAAGCTATGGTCACCATCGTTTTTAGCGCTGGCGCGGAAGCGCTGGATGTCGGCCCTGAACAGCGCCGACAGCTGGAAGAACGGTTGGTACTGCAGCTCAGAATGATCTCTAAAGGCGCGTATTACTGGTATCGCCGTGAACAAGAAAAAATGTCACATCATTCCGAATAA	MMGVRAQQKEKTRRSLVEAAFSQLSAERSFASLSLREVAREAGIAPTSFYRHFRDVDELGLTMVDESGLMLRQLMRQARQRIAKGGSVIRTSVSTFMEFIGNNPNAFRLLLRERSGTSAAFRAAVAREIQHFIAELADYLELENHMPRAFTEAQAEAMVTIVFSAGAEALDVGPEQRRQLEERLVLQLRMISKGAYYWYRREQEKMSHHSE				NA	NA	NA	NA	NA
BMS020_07242	1401	sthA	COG1249	Soluble pyridine nucleotide transhydrogenase	ATGTCACACTCTTGGGATTATGATGCAATAGTGATTGGTTCCGGTCCTGGCGGCGAAGGCGCCGCCATGGGACTGGTGAAACAGGGAGCACGCGTTGCCGTCATCGAGCGCTACCATAATGTCGGCGGCGGTTGCACCCACTGGGGCACCATCCCGTCGAAAGCCCTCCGCCATGCCGTCAGCCGTATTATCGAGTTTAACCAAAACCCCCTCTACAGCGACCACTCCCGCCTTCTTCGCTCTTCTTTCGCCGACATCCTTAACCATGCCGACAGCGTCATCAACCAGCAGACTCATATGCGCCAGGGATTCTATGAGCGCAACCACTGTGAAATTCTGCAGGGCAATGCCCACTTCGTTGATGAGCATACTCTGGCGCTGGAGTGCCATGACGGCACGGTCGAGACGGTGACCGCGGAGAAATTCGTTATCGCCTGCGGATCTCGCCCCTATCATCCGGCGGATGTCGATTTCCACCACCCGCGCATCTATGACAGCGATTCGATTCTCAGCCTGCAGCATGAGCCGCGCCATGTGATCATTTACGGCGCCGGGGTAATCGGTTGTGAATATGCGTCGATCTTCCGCGGCATGGAGGTGAAGGTCGATCTGATCAACACCCGCGATCGTCTGCTGGCCTTCCTCGATCAGGAGATGTCAGATTCACTCTCCTATCACTTCTGGAACAGCGGCGTGGTGATTCGTCACAACGAAGAGTACGAAAAGATTGAAGGCGTTGATGACGGCGTCATCATGCATCTGAAATCCGGCAAAAAGCTCAAAGCGGACTGCCTGCTGTACGCCAACGGCCGCACCGGCAATACCGACACTCTGGCGCTGGAAAACATCGGTCTGCAGACCGACAGTCGCGGCCAACTGAAGGTCAACAGCATGTACCAGACCGCCCTTCCGCACATTTATGCGGTTGGGGATGTCATCGGCTATCCGAGCCTCGCCTCCGCGGCGTACGATCAAGGACGCATTGCCGCCCAGGCGCTGGTGAAAGGCGAAGCCTCAGCGCATCTGATTGAAGATATCCCGACCGGGATCTACACCATTCCGGAAATCAGCTCCGTCGGGAAAACCGAGCAGCAGCTGACGGCGATGAAAGTGCCGTATGAGGTGGGTCGCGCTCAGTTTAAACACCTGGCGCGGGCGCAAATCGTTGGCATGAGCGTGGGAACCCTGAAGATCCTGTTCCACCGGGAGACCAAGGAGATCCTCGGCATTCACTGCTTTGGCGAACGCGCAGCCGAAATCATTCACATCGGCCAGGCGATCATGGAGCAGAAAGGTGGTGGTAACACCATTGAGTACTTCGTCAACACCACCTTTAACTACCCGACCATGGCGGAAGCGTACCGGGTTGCCGCGCTGAACGGCTTAAACCGCCTGTTTTAA	MSHSWDYDAIVIGSGPGGEGAAMGLVKQGARVAVIERYHNVGGGCTHWGTIPSKALRHAVSRIIEFNQNPLYSDHSRLLRSSFADILNHADSVINQQTHMRQGFYERNHCEILQGNAHFVDEHTLALECHDGTVETVTAEKFVIACGSRPYHPADVDFHHPRIYDSDSILSLQHEPRHVIIYGAGVIGCEYASIFRGMEVKVDLINTRDRLLAFLDQEMSDSLSYHFWNSGVVIRHNEEYEKIEGVDDGVIMHLKSGKKLKADCLLYANGRTGNTDTLALENIGLQTDSRGQLKVNSMYQTALPHIYAVGDVIGYPSLASAAYDQGRIAAQALVKGEASAHLIEDIPTGIYTIPEISSVGKTEQQLTAMKVPYEVGRAQFKHLARAQIVGMSVGTLKILFHRETKEILGIHCFGERAAEIIHIGQAIMEQKGGGNTIEYFVNTTFNYPTMAEAYRVAALNGLNRLF	PGPT0013495_145	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013495-sthA-K00322	NA	NA
BMS020_07243	918	oxyR_6		Hydrogen peroxide-inducible genes activator	ATGAATATTCGCGATCTTGAATACCTGGTAGCGCTCGCCGAACACCGCCACTTCCGGCGGGCGGCTGACTCATGCCATGTGAGCCAACCGACGCTCAGCGGACAGATCCGCAAGCTGGAGGATGAGCTTGGCGTCATGCTGCTGGAGCGCACCAGCCGTAAGGTTCTGTTTACCCAGGCGGGGCTGTTGCTGGTGGATCAGGCGCGTACCGTGTTACGCGAAGTAAAAGTGCTCAAGGAGATGGCAAGCCAACAAGGGGAAACCATGTCCGGGCCGCTGCATATCGGCTTGATCCCGACAATTGGCCCGTACCTGCTACCGCACATCATTCCGATGCTGCATCAGACCTTCCCGAAGCTGGAAATGTATCTGCACGAAGCGCAGACCCATCAGCTGCTGGCTCAGCTCGACAGCGGTAAGCTCGACTGCGCCATCCTGGCGCTGGTCAAAGAGAGCGAGGCCTTTATCGAGGTGCCGCTGTTCGATGAGCCGATGATGCTGGCTATCTATGAAGATCATCCGTGGGCAAACCGCGACCGGGTGCCGATGTCGGATCTGGCCGGTGAAAAGCTGCTGATGCTGGAGGATGGCCACTGCCTGCGCGATCAGGCGATGGGCTTCTGCTTTGAAGCGGGGGCGGATGAGGATACCCACTTCCGCGCGACCAGCCTGGAAACGCTGCGCAATATGGTGGCGGCAGGCAGCGGTATTACCCTGCTGCCTGCGCTGGCAGTGCCGCAGGAAAGAAAACGCGATGGCGTGGTCTACCTGCCGTGCATTAAGCCAGAGCCAAGACGCACCATCGGTCTGGTTTACCGTCCGGGCTCACCGCTGCGCAGCCGCTATGAACATCTGGCTGAGGCCATCCGCGGCACGATGGATGGCCATTTCGACAAGGCGTTAAAACAGGCGGTTTAA	MNIRDLEYLVALAEHRHFRRAADSCHVSQPTLSGQIRKLEDELGVMLLERTSRKVLFTQAGLLLVDQARTVLREVKVLKEMASQQGETMSGPLHIGLIPTIGPYLLPHIIPMLHQTFPKLEMYLHEAQTHQLLAQLDSGKLDCAILALVKESEAFIEVPLFDEPMMLAIYEDHPWANRDRVPMSDLAGEKLLMLEDGHCLRDQAMGFCFEAGADEDTHFRATSLETLRNMVAAGSGITLLPALAVPQERKRDGVVYLPCIKPEPRRTIGLVYRPGSPLRSRYEHLAEAIRGTMDGHFDKALKQAV	PGPT0012965_1795	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
BMS020_07244	1374	argH_2	COG0165	Argininosuccinate lyase	ATGGCACTTTGGGGCGGGCGTTTTACACAGGCAGCAGATCAACGGTTCAAACAGTTCAACGACTCGTTGCGCTTCGACTATCGTCTGGCGGAGCAGGATATCGTTGGCTCTGTCGCCTGGTCGAAAGCGCTGGTAACGGTCGGCGTACTGAGTGCCGATGAACAACAGCAGCTGGAAGAAGCGCTGAACGTGCTACTGGAAGAGGTGCGCGCCAATCCGCAGCAAATCCTCGCCAGCGATGCTGAAGATATTCACAGCTGGGTGGAAGGCAAACTGATCGACAAAGTGGGTCAGTTGGGCAAGAAACTGCATACCGGCCGCAGCCGTAACGACCAGGTCGCTACCGATCTTAAACTGTGGTGCAAAGATACCGTTGTCGAACTGCTGTCGGCGAACCGCCAGCTGCAGAGCGCGCTGGTGGAGACGGCCCAGCAGAACCAGGACGCGGTGATGCCGGGGTACACCCACCTGCAGCGCGCCCAACCGGTGACGTTCGCCCACTGGTGTCTGGCCTATGTCGAAATGCTGGCGCGCGATGAAAGCCGCCTGCAGGACGCGCTGAAGCGCCTCGACGTTAGCCCGCTGGGCTGCGGCGCGCTGGCGGGGACGGCGTATGAAATCGACCGCGAGCAGCTGGCCGGCTGGCTGGGCTTTGCCTCCGCCACCCGCAACAGCCTCGACAGCGTGTCCGACCGCGACCATGTTCTGGAGCTACTTTCCGATGCCTCTATCGGCATGGTCCATCTGTCGCGCTTTGCGGAAGATCTGATTTTCTTTAACTCCGGCGAAGCGAATTTCGTCGAGCTTTCCGACCGCGTAACCTCAGGCTCCTCGCTGATGCCGCAGAAGAAAAACCCGGACGCCCTGGAGCTTATCCGTGGCAAATGCGGCCGCGTGCAGGGCGCGCTGACCGGCATGATGATGACCCTGAAAGGGCTGCCGCTGGCCTACAACAAAGATATGCAGGAAGATAAAGAGGGACTTTTCGACGCTCTGGATACCTGGCTCGACTGCCTGCATATGGCGACCCTGGTGCTGGATGGTATCCAGGTGAAACGTCCGCGCTGTGCGGAAGCGGCGCAGCAGGGCTATGCCAACGCCACTGAGCTGGCGGATTATCTGGTGGCGAAAGGCGTACCGTTCCGCGAGGCGCACCATATTGTCGGTGAAGCGGTGGTGGAAGCCATTGCGCAAGGGAAACCGCTGGAAGCGCTGGCCCTGGCCGACCTGCAGAAATTCAGCCCGGTGATTGCGGACGATGTTTATCCGATCCTGTCGCTGCAGTCCTGCCTTGATAAACGCGCGGCAAAAGGCGGCGTCTCGCCGCAGCTGGTGGCGCAGGCTATCGACGAGGCGAAGGCCCGTCTGAGCTAA	MALWGGRFTQAADQRFKQFNDSLRFDYRLAEQDIVGSVAWSKALVTVGVLSADEQQQLEEALNVLLEEVRANPQQILASDAEDIHSWVEGKLIDKVGQLGKKLHTGRSRNDQVATDLKLWCKDTVVELLSANRQLQSALVETAQQNQDAVMPGYTHLQRAQPVTFAHWCLAYVEMLARDESRLQDALKRLDVSPLGCGALAGTAYEIDREQLAGWLGFASATRNSLDSVSDRDHVLELLSDASIGMVHLSRFAEDLIFFNSGEANFVELSDRVTSGSSLMPQKKNPDALELIRGKCGRVQGALTGMMMTLKGLPLAYNKDMQEDKEGLFDALDTWLDCLHMATLVLDGIQVKRPRCAEAAQQGYANATELADYLVAKGVPFREAHHIVGEAVVEAIAQGKPLEALALADLQKFSPVIADDVYPILSLQSCLDKRAAKGGVSPQLVAQAIDEAKARLS	PGPT0014242_44	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014242-argHA-K14681	NA	NA
BMS020_07245	774	argB_2	COG0548	Acetylglutamate kinase	ATGAACCCATTAATTATCAAACTCGGCGGCGTATTACTCGATAGCGAAGAAGCGCTGGAGCGTCTGTTTACCGCGCTGGTCAATTACCGTGAAGCGCACCAGCGTCCGCTGATTATCGTCCATGGCGGCGGCTGCGTGGTGGATGAGCTGATGAAGCAGCTCAATCTGCCGGTGCAGAAGAAAAATGGTCTGCGGGTGACGCCGGCTGAGCAAATCGACATCATCACCGGCGCGCTGGCGGGAACCGCCAACAAGACGCTGCTGGCGTGGGCGAAAAAGCACGGTCTGGCCTCTGTCGGCCTGTTCCTCGGCGATGGCGATAGCGTGAAGGTGACACAGCTGGATGCTGAGCTGGGCCATGTCGGGCTGGCGCAGCCGGGCTCTCCGACGCTGATCAACACCCTGCTGGCGGGCGGTTACCTGCCGGTGGTGAGCTCTATCGGCGTGACCGACGAGGGCCAGCTGATGAACGTCAATGCTGACCAGGCGGCGACGGCGCTGGCGGCTACCCTGGGGGCGGATCTGATCCTGCTGTCTGACGTCAGCGGTATCCTCGACGGTAAAGGGCAGCGTATTGCCGAGATGACCGCCGAGAAAGCGGAGCAGCTGATCGAGCAGGGGATTATCACTGACGGCATGATTGTCAAAGTGAATGCGGCCCTCGACGCGGCGCGTGCTCTGGGCCGTCCGGTGGATATCGCCTCCTGGCGTCACGCCGAGCAGCTGCCGGCGTTGTTTAACGGCACGCCTATCGGCACACGTATTCTGGCTTAA	MNPLIIKLGGVLLDSEEALERLFTALVNYREAHQRPLIIVHGGGCVVDELMKQLNLPVQKKNGLRVTPAEQIDIITGALAGTANKTLLAWAKKHGLASVGLFLGDGDSVKVTQLDAELGHVGLAQPGSPTLINTLLAGGYLPVVSSIGVTDEGQLMNVNADQAATALAATLGADLILLSDVSGILDGKGQRIAEMTAEKAEQLIEQGIITDGMIVKVNAALDAARALGRPVDIASWRHAEQLPALFNGTPIGTRILA	PGPT0014249_3391	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014249-argB-K00930	NA	NA
BMS020_07246	1005	argC_2	COG0002	N-acetyl-gamma-glutamyl-phosphate reductase	ATGTTAAATACGCTGATTGTGGGTGCCAGTGGTTATGCCGGCGCAGAGCTGGTGACCTATATCAATCGTCATCCGCATATGAACATAACCGCTTTGACGGTCTCCGCGCAAAGCAATGATGCGGGAAAATTAATTTCCGACCTGCATCCGCAGCTCAAAGGCATTGTCGATATGCCGCTGCAGCCGATGTCCGATATCAGCGAATTCAGCGCTGGCGTGGACGTGGTGTTTCTCGCCACCGCGCACGAAGTGAGTCACGATCTGGCGCCGCAGTTCCTTGCCGCCGGCTGCGTGGTGTTCGATCTCTCCGGTGCCTTCCGCGTTAACGATGGGGCGTTCTACGAAAAATATTATGGTTTCACTCATCAGCATCCCGACCTGCTCAAACAGGCGGTGTATGGTCTGGCGGAGTGGAGCGCGGATGCGCTTAAAGAAGCGCAGTTAATCGCGGTGCCTGGCTGCTACCCGACGGCGGCGCAGCTGTCGCTGAAGCCGCTGATTGATGCCAGTCTGCTGGATCTCAACCAGTGGCCAGTGATCAACGCCACCAGCGGGGTGAGCGGCGCGGGACGCAAAGCCGCGATCGGCAACAGCTTCTGTGAAGTCAGCCTGCAGCCATACGGCATCTTTAACCATCGTCATCAGCCGGAGATTGCCAGCCACCTCGGAGCGAAGGTGATTTTTACCCCGCATCTGGGTAATTTTAAGCGCGGCATTCTGGAAACCATTACCTGCCGCCTGAAGCCGGGCGTTGGCCATGCGCAGATCGCGGCGGTTTACCAGCAGGCTTACGCCGATAAACCGCTGGTACGTTTATATGATAAAGGCGTGCCCGCATTGAAAAGCGTCGAAGGTCTGCCATTCTGTGATATCGGTTTTGCCGTGCAGGACGACCATCTCATCGTCGTCGCGGCAGAAGATAACCTGCTGAAAGGCGCCGCAGCGCAGGCGGTGCAGTGCGCGAATATTCGTTTCGGCTTCGCTGAGACGCAGTCTCTTATTTAA	MLNTLIVGASGYAGAELVTYINRHPHMNITALTVSAQSNDAGKLISDLHPQLKGIVDMPLQPMSDISEFSAGVDVVFLATAHEVSHDLAPQFLAAGCVVFDLSGAFRVNDGAFYEKYYGFTHQHPDLLKQAVYGLAEWSADALKEAQLIAVPGCYPTAAQLSLKPLIDASLLDLNQWPVINATSGVSGAGRKAAIGNSFCEVSLQPYGIFNHRHQPEIASHLGAKVIFTPHLGNFKRGILETITCRLKPGVGHAQIAAVYQQAYADKPLVRLYDKGVPALKSVEGLPFCDIGFAVQDDHLIVVAAEDNLLKGAAAQAVQCANIRFGFAETQSLI	PGPT0014251_3072	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014251-argC-K00145	NA	NA
BMS020_07247	1152	argE_3	COG0624	Acetylornithine deacetylase	ATGAAAAACAATTTACCGCCCTTTATCGAGATTTACCGCGCGTTGATCGCCACACCGTCCATCAGCGCGACCGAAGAGGCTCTCGATCAGAGCAATGAGTCTTTAATCAATTTGCTGGCCGGCTGGTTCCGCGATCTCGGCTTTAATGTCGAGGTACAGCCGGTGCCGGATACGCGCCATAAATTCAACCTGCTGGCCAGCACCGGACACGGCGCCGGCGGCCTGCTGCTCGCCGGGCATACCGATACCGTGCCGTTCGATGACGGCCGCTGGACGCGCGATCCGTTCACCCTTACCGAACACGATAACAAGCTCTACGGCCTCGGCACGGCCGATATGAAAGGCTTCTTCGCTTTTATTCTCGACGCCCTGCGCGATGTCGACGTCACCACGCTGAAAAAACCGCTGTATATTCTGGCCACCGCCGACGAAGAGACCAGCATGGCCGGCGCGCGCTATTTTGCCGAAACCACCCGGCTGCGCCCCGACTGCGCCATCATCGGCGAGCCCACCTCCCTGCAGCCGATCCGCGCCCATAAAGGACATATGTCCAACGCGATCCGTATTCAGGGCCAGTCCGGCCACTCCAGCGATCCGGCGCGCGGGGTCAACGCGATCGAGCTGATGCACGACGCCATCGGTCGGATTATGCAGCTGCGCGATTTGCTAAAAGAGCGCTACCACTTCGAGGCGTTCACGGTCCCTTACCCGACCCTCAACCTCGGCGCCATCCATGGCGGCGATGCCTCAAACCGTATCTGCGCCTGCTGTGAACTGCATATGGACATCCGCCCGTTGCCGGGGATGACCCTCAACGACCTCAATGGTCTGCTGGACGAGGCGCTGGCCCCGGTCAGCGAACGCTGGCCGGGCCGCCTGACGGTCTCGGAGCTGCATCCGCCGATCCCCGGCTACGAGTGCCCGCCGGATCATAAGCTGGTGCAGGTGGTTGAGAAACTGCTTGGCGCCCAAACCGACGTGGTGAACTACTGTACCGAAGCGCCGTTTATCCAGACGCTGTGCCCAACGCTGGTTCTCGGCCCGGGCTCGATCAATCAGGCCCATCAGCCTGACGAGTTTCTGGAGACGCGCTTTATCAAGCCGACGCGGGAGCTGATTAGCCAGGTGGTTCACCACTTCTGCTGGCACTAA	MKNNLPPFIEIYRALIATPSISATEEALDQSNESLINLLAGWFRDLGFNVEVQPVPDTRHKFNLLASTGHGAGGLLLAGHTDTVPFDDGRWTRDPFTLTEHDNKLYGLGTADMKGFFAFILDALRDVDVTTLKKPLYILATADEETSMAGARYFAETTRLRPDCAIIGEPTSLQPIRAHKGHMSNAIRIQGQSGHSSDPARGVNAIELMHDAIGRIMQLRDLLKERYHFEAFTVPYPTLNLGAIHGGDASNRICACCELHMDIRPLPGMTLNDLNGLLDEALAPVSERWPGRLTVSELHPPIPGYECPPDHKLVQVVEKLLGAQTDVVNYCTEAPFIQTLCPTLVLGPGSINQAHQPDEFLETRFIKPTRELISQVVHHFCWH	PGPT0014254_2006	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014254-argE-K01438	NA	NA
BMS020_07248	2652	ppc_2	COG2352	Phosphoenolpyruvate carboxylase	ATGAACGAACAATATTCCGCATTGCGTAGTAATGTCAGTATGCTCGGCAAGGTGCTGGGCGATACCATCAAGGATGCATTGGGAGAAAATATTCTTGATCGTGTCGAAACTATCCGTAAGTTGTCCAAATCTTCACGCGCCGGCAACGAAGCTAACCGCCAGGAGCTGCTGACCACGCTGCAGAATTTGTCTAACGACGAACTGCTGCCGGTGGCCCGTGCCTTCAGCCAGTTCCTGAATCTGGCCAACACCGCTGAGCAGTACCACAGCATTTCGCCGAATGGCGAAGCGGCCAGCAATCCGGAAGTCATTGCGCGCACCCTGAGAAAGCTCAAAGACCAACCCAATCTCAACGAAGACACCATCAAAAAAGCGGTGGAATCTCTGTCCCTGGAGCTGGTGTTAACCGCCCACCCGACCGAGATCACCCGCCGGACGCTGATCCATAAAATGGTGGAAGTGAACAACTGCCTCAAGCAGCTGGATAACAAAGATATCGCGGACTACGAGCACCACCAGCTGATGCGCCGCCTGCGCCAGCTGATCGCCCAGTCCTGGCATACCGATGAAATTCGTAAGCACCGCCCTTCCCCGGTCGATGAAGCCAAATGGGGCTTCGCGGTGGTGGAAAACAGCCTGTGGGAAGGGGTGCCTAACTACCTGCGCGAGCTGAACGAACAGCTGGAAGCCAACCTCGGCTATCAGCTGCCGGTGGACTTTGTCCCGGTGCGTTTCACTTCGTGGATGGGCGGCGACCGCGACGGCAACCCGAACGTGACCGCCGATATCACCCGCCACGTGCTGCTGCTCAGCCGCTGGAAAGCGACCGATCTGTTCCTCAAAGATGTGCAGGTGCTGATCTCCGAGCTGTCGATGGTGGAGTGTACTGACGAATTGCGCGCCCTGGCCGGCGCCGAGGGCGCTCAGGAACCGTACCGTTACCTGATGAAAAAACTGCGCACTCAGCTGATGGAAACCCAGGCCTGGCTGGAAGCGCGTCTGAAAGGTCAGAAGCTGCCGAAACCGGCGGGACTGATCACTCAGAACGAGCAGCTGTGGGAGCCGCTATACGCCTGTTATAAATCGCTACAGGCCTGCGGCATGGGCATTATCGCCAACGGCGAGCTGCTCGACACCCTGCGCCGCGTGAAGTCTTTCGGCGTACCGCTGGTGCGTATTGATATCCGTCAGGAAAGCACCCGCCACACCGAAGCGCTGGGCGAAATGACCCGTTACCTCGGGATCGGCGATTACGAAAGCTGGTCAGAAGCCGACAAACAGGCTTTCCTGATCCGCGAACTGAATTCCAAACGTCCGCTGCTGCCGCGCCAGTGGGAGCCAAGCGAAGAGACGCGCGAAGTTCTCGACACCTGTAGAGTGATCGCCGAGGCGCCGCGCGGATCGATCGCCGCCTACGTGATCTCGATGGCCAAAACGCCGTCCGACGTGCTGGCGGTTCATCTGCTGCTGAAGGAGGCCGGGATTGGCTTTGCCCTGCCGGTGGCCCCGCTGTTCGAAACGCTGGATGACCTGAACAACGCCAACGACGTCATGACCCAGCTGCTGAATATCGACTGGTACCGCGGCTTTATCCAGGGCAAACAGATGGTCATGATCGGCTACTCTGATTCCGCGAAAGACGCAGGCGTGATGGCCGCCTCCTGGGCGCAGTACCAGGCGCAGGACGCGTTGATCAAAACCTGTGAGAAAGCCGGGATCGAACTGACGCTGTTCCACGGTCGCGGCGGCTCCATTGGCCGCGGCGGCGCGCCGGCCCACGCCGCGCTCCTCTCACAGCCGCCGGGAAGCCTGAAGGGCGGCCTGCGCGTTACCGAGCAGGGTGAGATGATCCGCTTTAAGTACGGCCTGCCGGAAGTCACCATCAGCAGCCTGTCGCTCTATACCAGCGCGATCCTCGAAGCCAACCTGCTGCCGCCGCCGGAACCAAAACCGCAGTGGCGCGACATCATGGCCGAGCTGTCCGACGTGTCGTGCAAGATGTATCGCGGCTACGTGCGTGAAAACAAAGATTTCGTGCCTTATTTCCGCTCCGCCACTCCGGAGCAGGAGCTGGGCAAACTGCCGCTGGGTTCGCGTCCGGCAAAACGTCGTCCGACCGGCGGCGTCGAGTCGCTACGCGCCATTCCGTGGATCTTCGCCTGGACCCAGAACCGCCTGATGCTTCCAGCCTGGCTGGGCGCTGGCGCTGCGCTGCAGAAGGTGGTTGAAGGCGGAAAACAGAGTGAACTGGAAGCGATGTGTCGCGACTGGCCGTTCTTCTCCACCCGTCTCGGCATGCTGGAGATGGTTTACTCGAAGGCCGACCTGTGGCTGGCGGAGTACTACGATCAGCGCCTGGTGAAACCAGAGCTGTGGGCGCTGGGTACCGAGCTGCGCAAGCTGCTGGCTGCCGATATCAACGTCGTGCTGGCCATCGCCAACGACTCCCATCTGATGGCTGACCTGCCGTGGATCGCCGAGTCTATCCAGCTGCGTAATATCTATACCGACCCGCTGAACGTCCTGCAGGCGGAACTGCTGCACCGTTCGCGCCAGGCTGAAGAAGAGGGCAAAGACCCGGATCCGCGCGTTGAACAAGCGCTGATGGTCACCATCGCCGGCGTCGCCGCCGGTATGCGTAACACCGGCTAA	MNEQYSALRSNVSMLGKVLGDTIKDALGENILDRVETIRKLSKSSRAGNEANRQELLTTLQNLSNDELLPVARAFSQFLNLANTAEQYHSISPNGEAASNPEVIARTLRKLKDQPNLNEDTIKKAVESLSLELVLTAHPTEITRRTLIHKMVEVNNCLKQLDNKDIADYEHHQLMRRLRQLIAQSWHTDEIRKHRPSPVDEAKWGFAVVENSLWEGVPNYLRELNEQLEANLGYQLPVDFVPVRFTSWMGGDRDGNPNVTADITRHVLLLSRWKATDLFLKDVQVLISELSMVECTDELRALAGAEGAQEPYRYLMKKLRTQLMETQAWLEARLKGQKLPKPAGLITQNEQLWEPLYACYKSLQACGMGIIANGELLDTLRRVKSFGVPLVRIDIRQESTRHTEALGEMTRYLGIGDYESWSEADKQAFLIRELNSKRPLLPRQWEPSEETREVLDTCRVIAEAPRGSIAAYVISMAKTPSDVLAVHLLLKEAGIGFALPVAPLFETLDDLNNANDVMTQLLNIDWYRGFIQGKQMVMIGYSDSAKDAGVMAASWAQYQAQDALIKTCEKAGIELTLFHGRGGSIGRGGAPAHAALLSQPPGSLKGGLRVTEQGEMIRFKYGLPEVTISSLSLYTSAILEANLLPPPEPKPQWRDIMAELSDVSCKMYRGYVRENKDFVPYFRSATPEQELGKLPLGSRPAKRRPTGGVESLRAIPWIFAWTQNRLMLPAWLGAGAALQKVVEGGKQSELEAMCRDWPFFSTRLGMLEMVYSKADLWLAEYYDQRLVKPELWALGTELRKLLAADINVVLAIANDSHLMADLPWIAESIQLRNIYTDPLNVLQAELLHRSRQAEEEGKDPDPRVEQALMVTIAGVAAGMRNTG	PGPT0001165_2576	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-ALTERNATIVE_PAHTWAYS	CO2_FIXATION-PHOSPHOENOLPYRUVATE_CARBOXYLASE_BIOSYNTHESIS,PGPT0001165-ppc-K01595	NA	NA
BMS020_07249	651	zinT	COG3443	Metal-binding protein ZinT	ATGACCAGAAAGATCCCCCTGCTGGCCTTGGGACTCGGCATGGCGCTAGCCAGCGCCCAGGCGTTCGCCCACGGCAACCATAGCCATGGGCCGGCGCTAACCGAAGTGGAGCGTCAGGCCAGCGAAGGCATTTTTGCGGATAAAGATGTGCAGGACCGCGCGCTGAGCGACTGGGAGGGCGTCTGGCAGTCGGTGAACCCGTATCTGCTCAACGGCGATCTCGATCCGGTGCTGGAGCAGAAGGCGAAAAAGCCCGGCGGTAAGAGCGTGGAGGAGTATCGCGCCTATTATAAGAAGGGCTACGCCACCGATGTGGAACAGATTGGCATTGAAGATGACCTGATTGAGTTCCACATTGGCGAGACCGTCAACAGCTGCAAATACCGCTATTCAGGCTACAAAATCCTGCATTACGCCTCCGGTAAGAAGGGCGTACGTTATCTGTTCGAGTGCCAGCAGGGCGATGCCAGCGCGCCAAAATATGTCCAGTTCAGCGACCACATCATTGGCCCGCGTAAATCGCAGCATTTCCATATTTTCATGGGCAATGAATCACAGGAAGCGTTGCTGAAAGAGATGGATAACTGGCCGACCTATTATCCGTATGCGCTGCATAAAGAGCAGATCGTTGATGAGATGCTGCACCACTAG	MTRKIPLLALGLGMALASAQAFAHGNHSHGPALTEVERQASEGIFADKDVQDRALSDWEGVWQSVNPYLLNGDLDPVLEQKAKKPGGKSVEEYRAYYKKGYATDVEQIGIEDDLIEFHIGETVNSCKYRYSGYKILHYASGKKGVRYLFECQQGDASAPKYVQFSDHIIGPRKSQHFHIFMGNESQEALLKEMDNWPTYYPYALHKEQIVDEMLHH	PGPT0004220_3469	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	ROOT_COLONIZATION-ZINK_TRANSPORT_LIPOPROTEIN,PGPT0004220-znuA-K09815	NA	NA
BMS020_07250	864	rhaS_12		HTH-type transcriptional activator RhaS	ATGGACAACGATATCAATCAACTTATTGATGCATTGCTAAAAAAGCAGACCAGCCTCGGACGGGTTTATTTCGCCGGCGAGACGCGCTCGCCTGCTGAACCGGTGGTGCAGGTTGATTTTCCCCGTCTGAATATCCTCCTCGATGGGCAGCTGCGCGACCAGGCGCTCGGCGATAACGCCCCGCTCCTGGAGGCCCATGACGTGCTCTATATTCCTGGCGATAGCTGGAACTGCCCACAGTGGCAGGCGCCCTGCCTGCTGTTAAGCATCCTGTTCGCTAAGCAGCAGCTGGAGTGCTCACTGCAGCGCTGGAATGGCAAGACGATCGCCGTTGTTGAAAAGCTACAGGCGCTGCGTCGCGGGCCGCGCGTCGGTTCCTTCCTGCTGCAGGCGCTCAACGAGATCCGGATGCAGCCGCAGGAGCAGCAAACCGCCCGCAGCATCGTCATCAGCCTGCTCAGCCACTGCCATGATCTTCTCGGCAGCCAGGCGCAAACCTCCTCGCGCAGCCAGGCGCTGTTCGAGGCAATCCGTCAGTACATCGAGGTCCATTACGCGGAGCCGCTGAGCCGGGAATCGGTCGCCCAGGCGTTCTATCTCTCTCCCAACTATCTTTCCCATCTGTTCCAGAAATGTGGGCCAATGGGCTTCAATGAATATCTAAACCACATTCGTCTCGAACAGGCCCGTATGCTGCTGAAGGGCCACGATATGAAAGTGAAAGACATCGCCCACGCCTGCGGCTTCGCCGACAGCAACTACTTCTGCCGCCTGTTCCGCAAAACCACGGAACGCTCGCCGTCTGAATACCGCCGTCAGTACCATAGCCAGCTGACGGAAAAATCGTCCGCGGCAAAGAACTAG	MDNDINQLIDALLKKQTSLGRVYFAGETRSPAEPVVQVDFPRLNILLDGQLRDQALGDNAPLLEAHDVLYIPGDSWNCPQWQAPCLLLSILFAKQQLECSLQRWNGKTIAVVEKLQALRRGPRVGSFLLQALNEIRMQPQEQQTARSIVISLLSHCHDLLGSQAQTSSRSQALFEAIRQYIEVHYAEPLSRESVAQAFYLSPNYLSHLFQKCGPMGFNEYLNHIRLEQARMLLKGHDMKVKDIAHACGFADSNYFCRLFRKTTERSPSEYRRQYHSQLTEKSSAAKN	PGPT0014658_18	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA	NA	NA
BMS020_07251	663	fsaB	COG0176	Fructose-6-phosphate aldolase 2	ATGGAACTCTATCTGGATACCGCCAACGTCGCCGAAGTGGAACGCCTGGCCCGCATCTACCCGCTGGCCGGGGTGACCACCAACCCGAGCATTATCGCCGCCGGTAAAACCCCGGTGTGGGATGTACTGCCGCGCCTGCAAAAAGCCGTTGGTCCGGAAGGGATTCTGTTCGCGCAGACCATGAGCCGCGATGCGCAGGGCATGGTGGCAGAAGCCAAACGCCTGAGCAACGCCGTGCCGGGCATCGTGGTCAAAACCCCGGTCACCGCCGAAGGCCTCGCCGCTATCAAGCTGCTGAAGAAAGAAGGCATCCCGACCCTTGGCACCGCCGTCTACAGCGCTTCACAGGGTCTGCTGGCCGCGCTGGCCGGCGCAAAGTACGTCGCGCCTTACGTTAACCGCGTCGACGCTCAGGGCGGAGACGGCATCCGCATGGTGCAGGAACTGCAATCCCTGCTGGAAATGCATGCGCCCGAAAGCAAAGTGCTGGCGGCAAGCTTCAAAACGCCCCGTCAGGCGCTGGATTGCCTGCTGGCTGGCTGCGAAGCAATCACCCTTCCACTAGATGTAGCGCAACAAATGCTCGGCACCCCTGCGGTAGAGTCAGCCATAGAGAAGTTTGAACAGGACTGGAATAACGCCTTTGGCACGCTGAACCTGTAA	MELYLDTANVAEVERLARIYPLAGVTTNPSIIAAGKTPVWDVLPRLQKAVGPEGILFAQTMSRDAQGMVAEAKRLSNAVPGIVVKTPVTAEGLAAIKLLKKEGIPTLGTAVYSASQGLLAALAGAKYVAPYVNRVDAQGGDGIRMVQELQSLLEMHAPESKVLAASFKTPRQALDCLLAGCEAITLPLDVAQQMLGTPAVESAIEKFEQDWNNAFGTLNL	PGPT0017650_89	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017650-fsaB|talC-K08314	NA	NA
BMS020_07252	1104	gldA_2	COG0371	Glycerol dehydrogenase	ATGGATCGCATTATTCAATCACCAGGCAAATACATCCAGGGCGCAGGCGCCATCAAGCGCCTTGGCGACTACCTGAAACCGCTGGCCGAACGCTGGCTGGTCGTTGGCGATAAATTCGTGCTGGGATTCGCGGAAGAGATGCTACGCAAAAGCCTGGCTGACGCCGGCCTGGCGGCGGAAATCGCGCCGTTCGGCGGTGAATGTTCGCATAATGAAATCAATCGCCTGCGCGATATCGCCGGCAGTGCGAAATGCACCGCCGTGCTGGGGATCGGCGGTGGTAAAACCCTGGATACCGCGAAAGCGCTGGCCCATTTTATGAAGGTGCCGGTGGCGATCGCCCCCACCATCGCCTCCACCGATGCGCCGTGCAGCGCGCTGTCGGTGATTTACACCGACGAAGGCGAGTTCGACAGCTATCTGATGCTGCCGCACAACCCTAACATGGTCATTGTCGATACGCAGATCGTTGCCGGCGCGCCGGCTCGCCTGCTGGCCGCCGGGATTGGCGATGCGCTGGCCACCTGGTTCGAAGCCCGCGCCTGCTCACGCAGCGGCGCCACCACCATGGCGGGCGGGAAATGCACCCAGGCGGCGCTGGCGCTGGCCGAGCTGTGCTACAACACCTTACTCGAAGAGGGTGAAAAAGCGATGCTGGCCGCCGAACAGCACGTGGTCACTCCGGCGCTGGAGCGGGTGGTGGAAGCCAACACCTATCTGAGCGGCGTCGGTTTTGAAAGCGGTGGCCTGGCGGCAGCCCACGCGATTCATAACGGCATGACGGCCATCCCTGACGCCCACCACTATTATCACGGTGAAAAAGTGGCGTTCGGCACCCTGACGCAGTTGGTGCTGGAAAACGCGCCGGTGGAAGAGATCGAGACTGTCGCCGCGCTGTGTCACAGCGTTGGGCTGCCGATCACGCTGGCGCAGCTGGATATCAAAGGCGACATCCCGACCAAAATGCGCCTGGTAGCGGAAGCCGCCTGCGCTGAAGGCGAAACCATCCACAATATGCCGGGCGGCGTCGACGCCGACCAGGTCTACGCCGCGCTGCTGGTCGCCGACCAATATGGCCAGCGCTTCCTGCAGGAATGGGAATAA	MDRIIQSPGKYIQGAGAIKRLGDYLKPLAERWLVVGDKFVLGFAEEMLRKSLADAGLAAEIAPFGGECSHNEINRLRDIAGSAKCTAVLGIGGGKTLDTAKALAHFMKVPVAIAPTIASTDAPCSALSVIYTDEGEFDSYLMLPHNPNMVIVDTQIVAGAPARLLAAGIGDALATWFEARACSRSGATTMAGGKCTQAALALAELCYNTLLEEGEKAMLAAEQHVVTPALERVVEANTYLSGVGFESGGLAAAHAIHNGMTAIPDAHHYYHGEKVAFGTLTQLVLENAPVEEIETVAALCHSVGLPITLAQLDIKGDIPTKMRLVAEAACAEGETIHNMPGGVDADQVYAALLVADQYGQRFLQEWE	PGPT0008270_367	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0008270-gldA|dhaD-K00005	NA	NA
BMS020_07253	888	metF_2	COG0685	5,10-methylenetetrahydrofolate reductase	ATGAGCTTTTTTCACGCCAATCAGCGGGAAGCCCTGAATCAGAGCCTGGCGGAAGTCCAGGGCCAGATTAATGTGTCCTTTGAATTCTTTCCGCCGCGCACCAGTGAAATGGAGCAAACCCTGTGGAAATCCATCGATCGCCTGAGCAGTCTGAAACCGAAGTTTGTCTCGGTGACCTATGGCGCGAACTCCGGCGAGCGCGATCGCACCCACAGCATCATCAAAGGTATTAAAGAGCGAACCGGTCTGGAAGCGGCGCCGCACCTGACCTGTATCGATGCTACTCGCGATGAGCTGCGAACTATCGCCCAGGATTACTGGAACAACGGCATCCGCCATATCGTCGCTCTGCGCGGCGACCTGCCGCCGGGCAGCGGTAAACCGGAGATGTACGCCGCCGATCTGGTCACTCTGCTGAAAGAGGTGGGGGATTTTGATATCTCCGTCGCCGCGTATCCGGAAGTGCATCCGGAAGCGAAAAGCGCGCAGGCGGATTTGCTCAACCTGAAACGCAAAGTCGAGGCAGGCGCCAACCGCGCGATCACCCAGTTCTTCTTCGATGTGGAAAGCTACCTGCGTTTTCGCGATCGCTGCGTCTCGGCGGGCATCGACGTGGAAATTATTCCGGGTATCCTGCCGGTTTCCAACTTTAAACAGGCGAAAAAGTTTGCGGATATGACCAACGTTCGTATCCCGGTGTGGATGTCGAAAATGTTCGAAGGGCTGGATAATGACGCCGAAACCCGTCAGCTGGTGGGGGCGAATATCGCCATGGACATGGTGAAGATCTTAAGTCGGGAAGGGGTAAAAGATTTCCACTTCTACACCCTTAACCGCGCCGAAATGAGCTACGCCATCTGTCATACGCTGGGCGTGCGTCCGGCCTGA	MSFFHANQREALNQSLAEVQGQINVSFEFFPPRTSEMEQTLWKSIDRLSSLKPKFVSVTYGANSGERDRTHSIIKGIKERTGLEAAPHLTCIDATRDELRTIAQDYWNNGIRHIVALRGDLPPGSGKPEMYAADLVTLLKEVGDFDISVAAYPEVHPEAKSAQADLLNLKRKVEAGANRAITQFFFDVESYLRFRDRCVSAGIDVEIIPGILPVSNFKQAKKFADMTNVRIPVWMSKMFEGLDNDAETRQLVGANIAMDMVKILSREGVKDFHFYTLNRAEMSYAICHTLGVRPA	PGPT0008160_2302	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008160-metF-K00297	NA	NA
BMS020_07254	942	catM		HTH-type transcriptional regulator CatM	ATGACAACTTCGCGATTACATTCTCTCGATATCCGCCTGCTGCGTGCCTTTGCCGTGGTGGCGGAGGAAAATAACATCAGCCGGGCGGCGCAGCGGTTATTTATCTCGCAGCCGCCGCTGAGTCGCCATATGCGCTATCTGGAAGCGCAGCTGGGGGTGACGCTGTTTCAGCGCCATAGCAAAGGCCTGATCCTTACCGACGCGGGCAGAGAGGTGCTGGCGATCATTCGGCCTATGCTGGCGCTCCAGGAACGCACGCTGGCGGCATTGAGTGAGCTCTCCGTTCACTCGCCGCCGTCTCTGCGTCTGGGCGTGACCACCGCCTTCGAACAAGGCATTTTCGCTGCTGTTGAATCTGCGCTGAGCGAACATACCCGCGGGTTGCATATCACCCGTCACGCCTCACCGGCGCTGGCGCAGCAGGTGCGCAAAGGCAAACTCGATGCGGCGCTGGTCGCGCTGCCGCTCAATACTGAAGGGCTGCACCTGCATCCATTGCCGTATCAGGAGCCGCTCATCGCGGCAGTGCCAGCCTCCTGGCCGGAAGCCGTCATACCAGCGTTAACGCTAAGCGCGCTCAATCATCGGCCGCTATTCTGGTTTAAACGCGAGCGTAACCCCGATTTCTTTGACTACACGCGGCGCATTTTCGACCGGGCTGGCTATACCCCCGCTTATGTGGAAGAGCCTGCCGAACATGATGTGCTGCTGGCGCGAATCGCGCGTGGGGAAGGCATGATCCTCCTGCCGGCGTCCTTTTCCGCGATCCAGCGTCAGGGGGTGGTGTTCTGTCCTGTCGCTGAAGGCGACAGCATGCCGTTAAGCCTTGGGGTGATCTACGCGCCTCACCAGGCAGGAGCCGTGCGGCAATGGCTCTCACTGCTGGATGATCGCCTGACGACTTGCTCGTCCCATGCTGAATATCGTTCTACCCCATGTTGA	MTTSRLHSLDIRLLRAFAVVAEENNISRAAQRLFISQPPLSRHMRYLEAQLGVTLFQRHSKGLILTDAGREVLAIIRPMLALQERTLAALSELSVHSPPSLRLGVTTAFEQGIFAAVESALSEHTRGLHITRHASPALAQQVRKGKLDAALVALPLNTEGLHLHPLPYQEPLIAAVPASWPEAVIPALTLSALNHRPLFWFKRERNPDFFDYTRRIFDRAGYTPAYVEEPAEHDVLLARIARGEGMILLPASFSAIQRQGVVFCPVAEGDSMPLSLGVIYAPHQAGAVRQWLSLLDDRLTTCSSHAEYRSTPC				NA	NA	NA	NA	NA
BMS020_07255	372			hypothetical protein	ATGTCCAGCGAACGTTATACCACCGGTCAGGAAATGCTTCAGCGCGTGGACGGTCGCGGCGGGGAGGCCGTCGTCAACAGCCTGCGGGATATCGCCCCCGACTTCGCCCGCTATCTGATTGAGTTCCCCTTCGGCGATATTTACGCCCGGCCAGGGCTTGATTTGCGTAGCCGGGAAATCGCCACCATCGCCGCGCTCACCGCGCTGGGTAACGCCGAGCCGCAGCTGAAAGTACATATTGCCGCGGGATTAAATGTCGGTCTGACGCAAGAGGAAATTACGGAAGTGATCATGCAGATGGCGGTCTACGCCGGCTTCCCGGCGGCGCTAAACGGCCTGTTTGCCGCTAAAGCAGTTTTTGCGGCGCACTAA	MSSERYTTGQEMLQRVDGRGGEAVVNSLRDIAPDFARYLIEFPFGDIYARPGLDLRSREIATIAALTALGNAEPQLKVHIAAGLNVGLTQEEITEVIMQMAVYAGFPAALNGLFAAKAVFAAH	PGPT0005005_3767	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005005-pcaC-K01607	NA	NA
BMS020_07256	2433	metL	COG0460	Bifunctional aspartokinase/homoserine dehydrogenase 2	ATGAGTGTGATTGCGCAGGCAGGGGCGAAGGGTCGTCAGCTGCACAAATTTGGTGGGAGTAGTTTAGCGGATGCGAAATGTTACCTGCGCGTCGCGGGGATCATGAAGGAGTATTCCCAGGCGGGGGACATGATGGTCGTCTCCGCCGCTGGCAGCACCACCAACCAGCTGATCAGCTGGCTTAAGCTTAGCCAGAGCGATCGCCTTGCTGCGCATCAGGTTCAGCAGTCGCTTCGCCGCTATCACACCGAGCTGATTGGCGGTCTGGTGGAGCCTGCGGCGGCGGATACGTTGATCGCCGCCTTTATCCACGACCTTGAGCGTCTGGCTGGTCTGCTGGACGGCGGGGTTTCCGAAGCGGTTTATGCGGAAGTGGTCGGCCATGGGGAAGTGTGGTCCGCGCGCCTGATGGCGGCGGTTCTCAACCAGCTGGGAATGGAAGCCGCCTGGCTGGACGCGCGCGCGTTCCTGCGCGCGGAACGCGCCGCGCAGCCGCAGGTGGATGAAGGATTATCCTATCCACTGCTGCAGCAGCTGATGGCGCAGCATCCTAACAAGCGTCTGGTGGTGACCGGCTTTATCTCCCGCAACCAGGCCGGTGAAACCGTCCTGCTGGGCCGTAACGGGTCTGACTACTCAGCCACCCAGATCGGCGCGCTGGCGGGCGCTTCCCGCGTCACCATCTGGAGCGACGTCGCCGGGGTGTACAGCGCGGATCCGCGCAAGGTGAAAGACGCCTGTCTGCTGCCGCTGCTGCGTCTGGACGAAGCCAGCGAGCTGGCGCGTCTGGCCGCGCCGGTGCTCCATGCCCGCACGCTACAGCCGGTTTCCGCCAGCGATATCGATCTGCAGTTACGCTGCAGCTATACGCCGGAACAGGGTTCCACGCGCATTGAGCGCGTGCTGGCCTCCGGTACTGGCGCCCGGATTGTCACCAGCCATGACGATGTCTGCCTGGTGGAGTTCCAGGTGCCGGCCGGTCACGATTTCAAACTGGCGCATAAAGAGCTGGACGCCCTGCTCAAACGCGCCCAGCTGCGCCCGTTAGCCGTTGGCGTCCATGCCGACCGCAAATTGCTGCAGTTCTGCTATACCTCCGAGGTGGCCGACAGCGCGCTGAAGCTGCTCGATGAGGCAGGTCTGCCGGGCGAGCTGCGTCTGCGTCAGAAGCTGGCGCTGGTGGCGATGGTGGGCGCGGGCGTCACCCGCAACCCACTGCACTGCCACCGTTTCTGGCAGCAGCTGAAAGGGCAGCCGGTGGAGTTCACCTGGCAGTCGGAAGAGGGGATCAGCCTGGTGGCCGTCCTGCGCGCCGGGCCGACGGAAAGCCTGATCCAGGGGCTGCACCAGTCCTTATTTCGTGCCGAAAAGCGTATCGGCCTGATGCTGTTCGGCAAAGGGAACATCGGTTCCCGCTGGCTGGAGCTGTTCGCCCGTGAACAAACCACGCTCTCGGCGCGGACCGGCTTTGAGTTTGTGCTCGCCGGCGTGGTCGACAGTAAACGCAGTCTGCTGAACTACGACGGGCTGGACGCCAGCCGGGCGCTGGCTTTCTTCAACGATGAAGCGGTGGAGCAGGATGAAGAGTCGCTGTTCCTGTGGATGCGCGCGCACCCGTATGATGATTTAGTGGTGCTGGACGTCACCGCCAGCGAGCAGCTGGCCGACCAGTATCTTGATTTCGCCAGCCATGGCTTCCACGTGATCAGCGCCAACAAGCTGGCGGGGGCCAGCAGCAGCGATAAGTATCGCCAGATCCACGACGCGTTTGAGAAGACGGGGCGCCACTGGCTGTATAACGCCACCGTGGGCGCCGGCTTGCCGGTGAACCATACGGTGCGCGACCTGATCGACAGCGGCGATACCATCCTCGGCCTGAGCGGTATCTTCTCGGGAACGCTCTCCTGGCTGTTCCTGCAGTTTGATGGCACCGTGCCGTTCACCGACCTGGTGGATCAGGCGTGGCAGCAGGGTCTGACCGAGCCGGATCCGCGCGTCGATCTGTCCGGTAAAGATGTGATGCGCAAGCTGGTGATCCTCGCGCGGGAAGCGGGTTACGACATCGAGCCGGATCAGGTGCGCGTGGAATCACTGGTCCCGGCGCACTGTGAAGAGGGTTCGGTCGATCACTTCTTTGAGAATGGCGAAGAGCTGAACGAGCAGATGCTGCAGCGCCTGGAGGCGGCCCGAGAGATGGGGCTGGTGCTCCGCTACGTGGCGCGTTTTGATGCCAACGGCAAAGCACGCGTCGGCGTGGAAGCGGTACGCGAAGAGCACCCGCTGGCGGCGCTGCTGCCGTGCGATAACGTGTTCGCTATCGAAAGCCGCTGGTATCGCGATAATCCGCTGGTGATCCGCGGGCCCGGCGCCGGGCGCGATGTGACCGCCGGGGCGATCCAGTCGGATATTAACCGTCTGGCGCAGCTGCTGTAG	MSVIAQAGAKGRQLHKFGGSSLADAKCYLRVAGIMKEYSQAGDMMVVSAAGSTTNQLISWLKLSQSDRLAAHQVQQSLRRYHTELIGGLVEPAAADTLIAAFIHDLERLAGLLDGGVSEAVYAEVVGHGEVWSARLMAAVLNQLGMEAAWLDARAFLRAERAAQPQVDEGLSYPLLQQLMAQHPNKRLVVTGFISRNQAGETVLLGRNGSDYSATQIGALAGASRVTIWSDVAGVYSADPRKVKDACLLPLLRLDEASELARLAAPVLHARTLQPVSASDIDLQLRCSYTPEQGSTRIERVLASGTGARIVTSHDDVCLVEFQVPAGHDFKLAHKELDALLKRAQLRPLAVGVHADRKLLQFCYTSEVADSALKLLDEAGLPGELRLRQKLALVAMVGAGVTRNPLHCHRFWQQLKGQPVEFTWQSEEGISLVAVLRAGPTESLIQGLHQSLFRAEKRIGLMLFGKGNIGSRWLELFAREQTTLSARTGFEFVLAGVVDSKRSLLNYDGLDASRALAFFNDEAVEQDEESLFLWMRAHPYDDLVVLDVTASEQLADQYLDFASHGFHVISANKLAGASSSDKYRQIHDAFEKTGRHWLYNATVGAGLPVNHTVRDLIDSGDTILGLSGIFSGTLSWLFLQFDGTVPFTDLVDQAWQQGLTEPDPRVDLSGKDVMRKLVILAREAGYDIEPDQVRVESLVPAHCEEGSVDHFFENGEELNEQMLQRLEAAREMGLVLRYVARFDANGKARVGVEAVREEHPLAALLPCDNVFAIESRWYRDNPLVIRGPGAGRDVTAGAIQSDINRLAQLL	PGPT0020165_232	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020165-metL-K12525	NA	NA
BMS020_07257	1161	metB_2	COG0626	Cystathionine gamma-synthase	ATGACGCGTAAACAGGCCACCATCGCAGTGCGTAGCGGTTTAAATGACGACGAGCAGTACGGTTGCGTTGTCCCGCCGATCCACCTCTCCAGTACCTATAACTTCACCGACTTTAATGAACCTCGCGCTCACGACTATTCCCGCCGCGGCAACCCGACGCGTGATGTGGTGCAGCGCGCTTTAGCGGAGCTGGAGGGCGGCGCTGGCGCGGTGCTGACCAATACCGGTATGTCGGCGATCCTGCTGGTGACGACGGTGTTCCTTAAGCCTGGCGATCTGCTGGTGGCGCCGCACGACTGCTACGGCGGCAGCTACCGTCTGTTCGATAGCCTGGCGAAGCGCGGCTGCTATCGCGTTCAGTTCGTCGATCAAAACGATGAGCAGGCGCTGCGGGCGGCGCTGGCGGAAAAACCGAAGCTGGTGCTGGTCGAAAGCCCAAGTAATCCATTGCTGCGGGTGGTGGATATTGCGAAAATCTGTGGTCTGGCGCGCGAAGCCGGGGCGATCAGCGTGGTCGATAACACCTTCCTGAGTCCGGCGCTGCAAAACCCGCTGGCGCTGGGCGCCGATCTGGTGTTGCACTCCTGTACTAAATACCTTAATGGTCACTCTGATGTGGTGGCCGGGGTGGTGATTGCCAACGATCCGGCGACTGTCACCGAACTGGCATGGTGGGCGAATAACATTGGCGTCACCGGCAGCGCCTTCGACAGCTATCTGCTGTTGCGCGGGCTGCGGACGCTTTCTCCACGCATGGAAGTGGCGCAACGTAATGCCCTGGCGATCGTCGAGTATCTGAAAACCCAGCCGCTGGTGAAAAAGCTGTATCATCCGTCGCTGCCGGAAAACCAGGGGCATGAAATTGCGGCGCGTCAGCAAAAAGGTTTTGGCGCAATGTTAAGCTTCGAGCTGGACGGTGACGAGCAGACGCTGCGCCGCTTCCTGAGCGGGCTGTCGCTGTTTACACTGGCGGAATCGCTGGGGGGCGTTGAAAGCCTGATTTCCCATGCGGCAACGATGACGCATGCCGGCATGGCGCCTGAAGCGCGTGCCGCCGCCGGAATTTCAGAAACGCTCCTGCGTATTTCGACCGGTATCGAAGATGGTGAAGATTTAATTGCCGACCTGGAAAATGGCTTCCGGGCAGCAAACGAGGAATAA	MTRKQATIAVRSGLNDDEQYGCVVPPIHLSSTYNFTDFNEPRAHDYSRRGNPTRDVVQRALAELEGGAGAVLTNTGMSAILLVTTVFLKPGDLLVAPHDCYGGSYRLFDSLAKRGCYRVQFVDQNDEQALRAALAEKPKLVLVESPSNPLLRVVDIAKICGLAREAGAISVVDNTFLSPALQNPLALGADLVLHSCTKYLNGHSDVVAGVVIANDPATVTELAWWANNIGVTGSAFDSYLLLRGLRTLSPRMEVAQRNALAIVEYLKTQPLVKKLYHPSLPENQGHEIAARQQKGFGAMLSFELDGDEQTLRRFLSGLSLFTLAESLGGVESLISHAATMTHAGMAPEARAAAGISETLLRISTGIEDGEDLIADLENGFRAANEE	PGPT0001980_787	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001980-metB|met|cysA-K01758	NA	NA
BMS020_07258	318	metJ	COG3060	Met repressor	ATGGCTGAATGGAGCGGCGAATATATCAGCCCATACGCTGAGCACGGTAAGAAGAGTGAGCAAGTAAAGAAAATTACGGTTTCCATTCCTCTGAAGGTGTTAAAAATCCTCACCGATGAACGCACGCGTCGTCAGGTGAATAACCTGCGTCACGCGACCAACAGCGAACTGCTGTGCGAAGCGTTCCTGCATGCCTTTACCGGACAACCGTTGCCTAACGATGAAGACCTGCGTAAAGAGCGCAGCGATGAGATCCCGGAAGCGGCGAAAGCGATTATGCGTGAACTGGGTATCGACCCGGATACGTGGGAATACTGA	MAEWSGEYISPYAEHGKKSEQVKKITVSIPLKVLKILTDERTRRQVNNLRHATNSELLCEAFLHAFTGQPLPNDEDLRKERSDEIPEAAKAIMRELGIDPDTWEY	PGPT0020035_175	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020035-metJ-K03764	NA	NA
BMS020_07259	213	rpmE	COG0254	50S ribosomal protein L31	ATGAAAAAAGGTATTCACCCAAATTACGACGAAATTACTGCTACCTGTTCTTGCGGTAATGTCATGAAAATCCGCTCCACCGTAGGTCACGACCTGAACCTCGACGTGTGCGGCAAATGCCACCCGTTCTTCACCGGCAAACAGCGTGATGTTGCTACCGGTGGCCGTGTTGACCGCTTCAACAAGCGCTTCAGCATCCCGGGCAGCAAGTAA	MKKGIHPNYDEITATCSCGNVMKIRSTVGHDLNLDVCGKCHPFFTGKQRDVATGGRVDRFNKRFSIPGSK	PGPT0014325_3911	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014325-rpmEB-K02909	NA	NA
BMS020_07260	2196	priA_1	COG1198	Primosomal protein N'	ATGCCCGTCGCCCACGTTGCCCTACCCGTTCCGCTACCGCGCACTTTTGACTATCTGCTGCCTGAAGGCATGGCGGTCAAAGCGGGCTGTCGGGTGCGGGTGCCGTTCGGCAAACAGGAGCGGATCGGTATTGTCGCGGCGGTCAGCGAACGCAGCGAGCTGCCGCTGGACGAGCTAAAACCGGTCGCGGAAGCGCTGGACGACGAACCGGTCTTCTCCGGTACCGTCTGGCGGCTGCTGATGTGGGCGGCTGAGTATTACCATCATCCGATTGGCGATGTGCTGTTCCATGCGCTGCCCATTCTGCTGCGCCAGGGCAAACCCGCCAGCGCGACGCCGCTGTGGTACTGGTTCGCCACCGAGCAGGGGCAGGCCGTCGACCTTAACGGTCTGAAACGCTCGCCGAAGCAGCAGCAGGCGCTGGCGGCGCTGCGCCAGGGAAAAATCTGGCGTCATCAGGTTAGCGAACTGGAATTTAATGAAGCGGCGCTGCAGGCGCTGCGCGGCAAAGGGCTGGCGGAGCTGGCCTGCGAAGCGCCCGCCCTCATCGACTGGCGCAGCGCGTATTCGGTTGCCGGCGAACGCCTGCGTCTTAATACCGAGCAAGCCACCGCCGTCGGGGCGATCCACAGCGCCGCCGATCGCTTCTCCGCCTGGCTGCTGGCGGGTATTACCGGCTCAGGGAAAACGGAAGTCTATTTGAGCGTGCTGGAGAACGTGCTGGCGCAGGGGCGCCAGGCGCTGGTGATGGTGCCGGAGATCGGTCTGACGCCGCAGACCATCGCCCGTTTTCGCCAGCGCTTTAACGCGCCGGTGGAAGTGCTGCACTCCGGACTCAATGACAGCGAACGTCTTTCGGCCTGGCTGAAGGCGAAAAACGGCGAAGCGGCCATTGTGATCGGCACCCGCTCCTCGCTGTTTACCCCGTTTAAAGACCTCGGCGTCATCGTTATCGACGAAGAGCATGACAGCTCCTACAAGCAGCAGGAGGGCTGGCGCTACCATGCACGCGACCTGGCGGTATGGCGCGCCCACAGCGAACAGATCCCGATTATTCTCGGCTCGGCGACGCCGGCGCTGGAGACCCTGCATAACGTCCGCCAGGGCAAATACCGCCAGTTAACCTTAAGCAAACGCGCGGGCAATGCGCGCCCTGCCCAGCAGCACGTGCTCGATCTCAAAGGGCAACCGCTGCAGGCGGGTCTGTCTCCCGCGCTGATTAACCGTATGCGCCAGCATCTGCAGGCGGATAACCAGGTGATCCTGTTTCTTAACCGCCGCGGCTTTGCGCCAGCGCTGCTGTGCCACGACTGCGGCTGGATAGCGGAATGTCCGCGCTGCGACAGCTACTACACGTTGCACCAGGCGCAGCACCATCTGCGCTGCCACCATTGCGACAGTCAGCGCCCTATCCCGCGCCAATGTCCCTCCTGCGGCTCCACGCACCTGGTGCCGGTGGGTATCGGCACCGAACAGCTGGAGCAGGCCCTGGCGCCGCTGTTCCCTGACGTGCCTATCTCGCGTATCGACCGCGATACCACCAGCCGCAAAGGGGCGCTGGAAGAGCATCTCGCCGCCGTCCATCGCGGCGGGGCGCGTATTTTAATTGGCACCCAGATGCTGGCCAAAGGCCACCACTTCCCGGACGTCACCCTCGTCTCCCTGCTGGACGTCGACGGGGCGCTGTTTTCCGCGGATTTCCGCTCCGCCGAGCGTTTCGCTCAGCTCTATACCCAGGTCTCCGGGCGAGCGGGACGGGCAGGAAAACAGGGCGAAGTGATCCTGCAAACCCACCATCCTGAACACCCTCTGCTGCAGACCCTGCTGTATAAAGGCTACGACGCCTTCGCCGAACAGGCGCTGGCAGAGCGGCAGACAATGCAGCTACCGCCGTGGACCAGCCATGTGCTGATTCGTGCGGAAGACCATAACAACCAGCAGGCGCCGCTGTTTTTACAACAGCTGCGCAATCTGCTGCAGGCCAGTCCGCTGGCCGACGACAAGCTATGGGTGCTCGGTCCGGTTCCGGCGCTGGCGCCGAAGCGCGGCGGCCGCTGGCGGTGGCAGATATTGCTGCAGCATCCTTCGCGGGTACGCCTGCAGCATATCGTCAGCGGTACGCTGGCGCTGATCAATACGCTGCCGGAGGCGAAAAAAGTGAAGTGGGTGCTGGATGTCGATCCTATTGAAGGGTAA	MPVAHVALPVPLPRTFDYLLPEGMAVKAGCRVRVPFGKQERIGIVAAVSERSELPLDELKPVAEALDDEPVFSGTVWRLLMWAAEYYHHPIGDVLFHALPILLRQGKPASATPLWYWFATEQGQAVDLNGLKRSPKQQQALAALRQGKIWRHQVSELEFNEAALQALRGKGLAELACEAPALIDWRSAYSVAGERLRLNTEQATAVGAIHSAADRFSAWLLAGITGSGKTEVYLSVLENVLAQGRQALVMVPEIGLTPQTIARFRQRFNAPVEVLHSGLNDSERLSAWLKAKNGEAAIVIGTRSSLFTPFKDLGVIVIDEEHDSSYKQQEGWRYHARDLAVWRAHSEQIPIILGSATPALETLHNVRQGKYRQLTLSKRAGNARPAQQHVLDLKGQPLQAGLSPALINRMRQHLQADNQVILFLNRRGFAPALLCHDCGWIAECPRCDSYYTLHQAQHHLRCHHCDSQRPIPRQCPSCGSTHLVPVGIGTEQLEQALAPLFPDVPISRIDRDTTSRKGALEEHLAAVHRGGARILIGTQMLAKGHHFPDVTLVSLLDVDGALFSADFRSAERFAQLYTQVSGRAGRAGKQGEVILQTHHPEHPLLQTLLYKGYDAFAEQALAERQTMQLPPWTSHVLIRAEDHNNQQAPLFLQQLRNLLQASPLADDKLWVLGPVPALAPKRGGRWRWQILLQHPSRVRLQHIVSGTLALINTLPEAKKVKWVLDVDPIEG				NA	NA	NA	NA	NA
BMS020_07261	1029	cytR_3	COG1609	HTH-type transcriptional repressor CytR	GTGAAGCCCAAAAAACAAGTGGTTGCCGCCACCATGAAAGACGTCGCCTTAAAGGCAAACGTTTCCACGGCAACCGTGTCCCGAGCGTTGATGAACCCTGATAAGGTGTCGCAAGCCACCCGTAACCGGGTCGAGCAGGCGGCGCTGGAAGTCGGCTATTTACCGCAGTCGCTCGGACGCAATATGAAGCGCAACGAATCGCGGACGATCCTCGTGATCGTCCCGGATATCTGCGATCCCTTTTTTAGCGAAGTGATCCGCGGTATTGAAGTCACTGCAGCCGAGCACGGATATCTGGTGTTAATCGGCGATTGCGCCCACCAGAATCAGAAAGAAAAAACCTTTATCGACCTTATCATCACCAAGCAGATTGACGGCATGGTGCTGCTCAGCTCGCGCCTGCCGTTTGACGCCAGCGTGGAAGAGCAGCGTAATTTGCCGCCGATGGTCATGTCGAACGAGTTCGCGCCGGAGCTGGAGCTGCCCACCGTCCACATCGATAACCTGACGGCGGCTTTTAACGCGGTAAATTATCTTCACGAGCTGGGACACCAGCGTATCGGCTGCATCGCCGGCCCGGAAGATATGCCGCTGTGCCATTATCGCCTGCAGGGTTACGTGCAGGCGCTGCGCCGCAGCGGTATCACCGTTGATCCGCACTATATCGCTCGCGGCAACTTTACCTTCGAAGCTGGCGCCAATGCGCTGGAGCAGCTGCTGTCGCAGCCGGTACCGCCCACCGCGGTCTTTTGCCATAGCGATGTGATGGCGCTGGGCGCCTTATCGCTGGCGAAACGCCGCGGTCTGAAAGTGCCGGACGACCTGTCGATTGTCGGCTTCGATAACATCGCGTTGTCTGAATTTTGCGATCCGCCATTGACCACCGTGTCACAGCCGCGTTTTGATATCGGCCGTGAAGGAATGCTGCTATTACTTGAGCAAATGCAGGGTCATAACGTGAACAGCGGCTCGCGCCTGCTCGATTGCGAACTGATTGTTCGCGGCAGTACGCAAAAAATCAGACGATAA	MKPKKQVVAATMKDVALKANVSTATVSRALMNPDKVSQATRNRVEQAALEVGYLPQSLGRNMKRNESRTILVIVPDICDPFFSEVIRGIEVTAAEHGYLVLIGDCAHQNQKEKTFIDLIITKQIDGMVLLSSRLPFDASVEEQRNLPPMVMSNEFAPELELPTVHIDNLTAAFNAVNYLHELGHQRIGCIAGPEDMPLCHYRLQGYVQALRRSGITVDPHYIARGNFTFEAGANALEQLLSQPVPPTAVFCHSDVMALGALSLAKRRGLKVPDDLSIVGFDNIALSEFCDPPLTTVSQPRFDIGREGMLLLLEQMQGHNVNSGSRLLDCELIVRGSTQKIRR	PGPT0021075_661	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
BMS020_07262	852	ftsN_1	COG3087	Cell division protein FtsN	ATGGTGGCGATCGCGGCGGCTGTGCTGGTGGCCTTTATCGGTGGACTCTATTTCATTACGCACCATAAGAAAGAAGAAGCGGAAGCGATGCAAAATCGCCAGGCCGCCGGCAACGGCTTGCCGCCAAAACCGGAAGAGCGCTGGCGCTATATTAAAGAGCTGGAAAGCCGCCAGCCGGGCGTTCGCGCGCCGACCGAACCGACCGCCGGCGGCGAAGTGATGAAACCGGAGCAACTGACCGACGAACAGCGTCAGCTGCTGGCCCAGATGCAGGCCGATATGCGTCAACAGCCGACTCAGCTGACCGAAGTGCCGTGGAACGAACAAACGCCGGCCCAGCGCCAGCAGACGCTGCAGCGTCAGCGTTTAGCGCAGCAACAGCAGCAGGCGCAACAGCAACAGTGGGCGCAAACTCAGCAGCAGACCGTGCAGCAGCCGCCGCGCGTTCAGCAGCCGAAGCCGGTCCAGCAGCAACAGCCGAAGCAGACCGCGTCAAACCAGCAGCCGTACCAGGATCTGCTGCAGACGCCGGCGCACACTACGACTACGCAGCCGCGCGCGCAGGCCGCCGCGCCGGTGACTCGAGTGGAGGAAGCGCCGAAAACGACCGCCGAGAAAAAAGACGATCGTAGCTGGATGATCCAGTGCGGCTCCTTTAAAGGCGCCGAGCAGGCCGAAACCGTCCGCGCTCAGCTGGCTTTCGAAGGGTTTGCCTCGCACATCACCACCAACAACGGCTGGAACCGCGTGGTCATTGGCCCGCTGAAAGGCAAAGAAAGCGCCAACGAGATGATCACCCGCCTGAAGATGGCTGGACACGCGAACTGCATTCGTCTCGCCGCCAGGGGTTGA	MVAIAAAVLVAFIGGLYFITHHKKEEAEAMQNRQAAGNGLPPKPEERWRYIKELESRQPGVRAPTEPTAGGEVMKPEQLTDEQRQLLAQMQADMRQQPTQLTEVPWNEQTPAQRQQTLQRQRLAQQQQQAQQQQWAQTQQQTVQQPPRVQQPKPVQQQQPKQTASNQQPYQDLLQTPAHTTTTQPRAQAAAPVTRVEEAPKTTAEKKDDRSWMIQCGSFKGAEQAETVRAQLAFEGFASHITTNNGWNRVVIGPLKGKESANEMITRLKMAGHANCIRLAARG				NA	NA	NA	NA	NA
BMS020_07264	531	hslV_1	COG5405	ATP-dependent protease subunit HslV	GTGACTACAATTGTAAGTGTTCGCCGTAACGGCCATGTTGTTATTGCCGGTGATGGCCAGGCCACGCTGGGCAACACCGTAATGAAGGGCAACGTGAAAAAAGTGCGTCGTCTGTACAACGACAAAGTGATTGCCGGTTTCGCTGGCGGCACCGCCGACGCCTTCACGCTGTTCGAACTGTTTGAACGCAAACTGGAAATGCACCAGGGCCATCTGGTGAAGGCCGCCGTTGAGCTGGCTAAAGACTGGCGAACCGATCGGATGTTGCGCAAGCTGGAAGCGCTGCTGGCCGTCGCGGACGAAAACGCGTCGCTTATCATCACCGGTAACGGTGACGTGGTACAGCCGGAAAACGATTTGATTGCTATCGGCTCCGGCGGTCCTTACGCCCAGGCCGCGGCCCGCGCGCTGCTGGAAAACACCGATATGGGCGCGCGCGATATCGCCGAGAAAGCGTTGGATATTGCAGGCGATATCTGCATCTATACCAACCATTTCCACACCATCGAAGAATTACCTTCTAAAGCGTAA	MTTIVSVRRNGHVVIAGDGQATLGNTVMKGNVKKVRRLYNDKVIAGFAGGTADAFTLFELFERKLEMHQGHLVKAAVELAKDWRTDRMLRKLEALLAVADENASLIITGNGDVVQPENDLIAIGSGGPYAQAAARALLENTDMGARDIAEKALDIAGDICIYTNHFHTIEELPSKA				NA	NA	NA	NA	NA
BMS020_07265	1335	hslU_1	COG1220	ATP-dependent protease ATPase subunit HslU	ATGTCTGAAATGACCCCACGCGAAATTGTCAGCGAACTGGACAAACACATTATCGGCCAGGACGCCGCCAAGCGTTCTGTTGCTATCGCCCTGCGTAACCGCTGGCGCCGGATGCAGCTTAACGAAGAGCTGCGTCATGAAGTCACGCCGAAAAACATTCTGATGATCGGCCCAACCGGCGTCGGTAAAACCGAAATCGCTCGTCGTCTGGCGAAACTGGCCAACGCGCCGTTTATTAAAGTTGAAGCGACGAAGTTCACCGAAGTGGGCTATGTCGGTAAAGAAGTGGACTCTATCATCCGCGATCTGACCGATGCGGCGATCAAAATGGTTCGTATGCAGTCCATCGATAAGAACCGTTACCGCGCGGAAGAGCTGGCGGAAGAGCGCGTGCTTGACGTGCTGATCCCACCGGCGAAGAACAACTGGGGCCAAACTGAGCCGTCGCAGGAACCGTCTGCGGCGCGCCAGGCGTTCCGTAAGAAACTGCGTGAAGGCCAGCTGGACGATAAAGAGATTGAAATCGATCTCGCTGCGGCGCCGATGGGCGTTGAAATCATGTCCCCTCCGGGCATGGAAGAGATGACCAGCCAGCTGCAGTCCATGTTCCAGAACCTCGGCGGCCAGAAGCAAAAACCGCGTAAGCTGAAAATCAAAGACGCGATGAAGCTGCTGATTGAAGAAGAAGCGGCCAAACTGGTCAATCCGGAAGAGCTGAAGCAGGAAGCCATCGACGCTGTTGAGCAGCACGGTATCGTCTTTATCGACGAAATCGACAAAATCTGTAAGCGCGGCGGCAACACCTCCGGCCCGGACGTCTCCCGTGAAGGCGTACAGCGCGACCTGCTGCCGCTGGTGGAAGGCTGCACCGTCTCCACCAAGCACGGGATGGTCAAGACCGACCACATCCTGTTTATCGCCTCCGGCGCGTTCCAGGTGGCCAGCCCGTCCGATCTGATCCCGGAACTGCAGGGACGTCTGCCGATCCGCGTTGAGCTGAAGGCGCTGACCACCCATGACTTCGAGCGCATCCTTACCGAACCGAACGCCTCCATCACCGTGCAGTACAAGGCGCTGATGGCGACCGAAGGGGTGAATATCGAATTCACCGAAGACGGTATCAAGCGTATCGCTCAGGCCGCATGGCAGGTAAACGAAACCACCGAGAACATCGGCGCGCGCCGTCTGCACACCGTGCTGGAGCGCCTGGTGGAAGATATCTCCTATGATGCCAGCGAGATGAACGGCCAGACCGTCACTATCGATGCCGAATATGTGAGTAAGCACCTGGATGTTCTGGTGGCAGATGAAGATCTGAGCCGTTTTATCCTATAA	MSEMTPREIVSELDKHIIGQDAAKRSVAIALRNRWRRMQLNEELRHEVTPKNILMIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEVGYVGKEVDSIIRDLTDAAIKMVRMQSIDKNRYRAEELAEERVLDVLIPPAKNNWGQTEPSQEPSAARQAFRKKLREGQLDDKEIEIDLAAAPMGVEIMSPPGMEEMTSQLQSMFQNLGGQKQKPRKLKIKDAMKLLIEEEAAKLVNPEELKQEAIDAVEQHGIVFIDEIDKICKRGGNTSGPDVSREGVQRDLLPLVEGCTVSTKHGMVKTDHILFIASGAFQVASPSDLIPELQGRLPIRVELKALTTHDFERILTEPNASITVQYKALMATEGVNIEFTEDGIKRIAQAAWQVNETTENIGARRLHTVLERLVEDISYDASEMNGQTVTIDAEYVSKHLDVLVADEDLSRFIL				NA	NA	NA	NA	NA
BMS020_07266	921	menA	COG1575	1,4-dihydroxy-2-naphthoate octaprenyltransferase	ATGACTGATATCAGCCGTTCTCAGGCGTGGCTGGAAAGCCTGCGTCCTAAAACGTTACCGCTGGCGTTTGCCGCGATTATTGTTGGCACCGTCCTTGCCTGGGAGCAGGGGCATTTTGATCCCTGGGTCGCCCTGCTGGCGCTGATCACCGCCGGCTTGCTGCAAATTCTTTCCAACCTCGCCAATGACTACGGCGACGCGGTCAAGGGGAGCGATAAACCGGACCGCATCGGGCCGCTGCGCGGGATGCAGAAAGGGGTGATTACCCCCCAGCAGATGAAGCGCGCCTTGATTGTCACCGTCGCGCTGATCTGTCTGTTTGGTCTGGCGCTACTGTGCGTCGCCTGGCAGAGCGTCGGCGATTTCATCGGTTTCCTCGCGCTGGGTGGCCTGTCGATCGTGGCCGCCATCACCTACACAGTGGGCACCCGTCCGTATGGTTATATTGGCCTCGGTGATATTTCGGTACTCGTTTTCTTCGGCTGGCTGAGCGTCCTCGGCAGCTGGTATCTGCAAGCCCACAATGTGGAAGCGGCCATTTTTCTGCCGGCAACGGCCTGCGGTCTGCTGGCGACCGCCGTACTGAACATCAATAACCTGCGTGATATCGACAGCGACCGGCAGAACGGGAAGAACACCCTCGCCGTGCGCCTGGGGCCGGTCAATGCCCGCCGCTATCATGCCTGCCTGCTGCTCGGCGCCCTGCTGTGTCTGGCGCTGTTTAACCTGCTGGCGCTGCATTCTGCCTGGGGCTGGCTGTTTATTCTCGCCACGCCGCTGCTGGTCAAACAGGCGCGTTACGTCCTGCGCGAATCCGATCCGCTGGCGATGCGGCCGATGCTCGAAAAGACGGTCAAAGGGGCTTTGCTGACCAACCTGCTGTTTGTTATCGGGATTATTGCCAGTAAGCTGGCGGCTTAA	MTDISRSQAWLESLRPKTLPLAFAAIIVGTVLAWEQGHFDPWVALLALITAGLLQILSNLANDYGDAVKGSDKPDRIGPLRGMQKGVITPQQMKRALIVTVALICLFGLALLCVAWQSVGDFIGFLALGGLSIVAAITYTVGTRPYGYIGLGDISVLVFFGWLSVLGSWYLQAHNVEAAIFLPATACGLLATAVLNINNLRDIDSDRQNGKNTLAVRLGPVNARRYHACLLLGALLCLALFNLLALHSAWGWLFILATPLLVKQARYVLRESDPLAMRPMLEKTVKGALLTNLLFVIGIIASKLAA	PGPT0009395_1133	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009395-menA-K02548	NA	NA
BMS020_07267	486	rraA	COG0684	Regulator of ribonuclease activity A	ATGAAATACGATACTTCCGAGCTTTGTGACATCTACCAGGAAGATGTCAACGTCGTGGAACCGCTGTTCTCTAACTTTGGAGGACGGTCGTCGTTTGGTGGACAGATCATTACGGTAAAATGTTTCGAGGATAACGGGTTGCTCTACGATCTGCTCGAGCAGAATGGCCGTGGTCATATTCTCCTGATCGACGGCGGCGGCTCAGTACGACGCGCGTTAATTGACGCTGACCTGGCGCGTCTGGCCGTACAGAATGAATGGGAAGGGTTGGTGGTCTATGGCGCGGTGCGCCAGGTTGACGACCTTGAGGAACTGGATATCGGCATCCAGGCGCTGGCGGCCATTCCGGTCGGCGCGGCTGGCGAAGGCATCGGCGAAAGCGACGTGCGCGTCAATTTCGGCGGCGTGACCTTCTTCAGCGGCGACCATCTGTATGCCGATAACACCGGGATGATTCTGTCGGAAGACCCGCTGGATATCGAATAA	MKYDTSELCDIYQEDVNVVEPLFSNFGGRSSFGGQIITVKCFEDNGLLYDLLEQNGRGHILLIDGGGSVRRALIDADLARLAVQNEWEGLVVYGAVRQVDDLEELDIGIQALAAIPVGAAGEGIGESDVRVNFGGVTFFSGDHLYADNTGMILSEDPLDIE				NA	NA	NA	NA	NA
BMS020_07268	963	pfkA	COG0205	ATP-dependent 6-phosphofructokinase isozyme 1	ATGATTAAGAAAATCGGTGTGTTGACAAGTGGCGGTGATGCGCCGGGCATGAACGCAGCAATTCGTGGCGTTGTGCGCGCGGCATTAACGGAAGGTCTGGAAGTTTTTGGAATCTATGACGGTTACCTCGGCTTGTACGAAGACCGTATGGTTCAGCTCGACCGTTACAGCGTTTCCGACATGATCAACCGCGGCGGCACCTTCCTGGGCTCCGCTCGCTTCCCGGAATTCCGCGAAGAACACATCCGCGCAGTGGCTATCGAAAACATGAAGAAGCGTGGCCTGGACGCGCTGGTGGTTATCGGTGGTGACGGGTCCTATATGGGGGCGATGCGCCTGACCGAGATGGGCTTCCCGTGCATCGGCCTGCCGGGCACCATCGACAACGATATCAAAGGCACTGACTACACCATCGGCTTCTTCACCGCTCTGAGCACCGTGGTGGAAGCGATTGACCGTCTGCGCGACACCTCCTCTTCGCACCAGCGTATCTCCGTGGTGGAAGTGATGGGCCGTTACTGTGGCGACCTGACTCTGGCGGCGGCGATTGCCGGCGGCTGTGAGTTCATCATGGTGCCGGAAGTGGAATATACCCGTGACGATCTGGTAGCGGAAATCAAAGCCGGCATCGCGAAAGGGAAGAAACACGCTATCGTGGCGATCACCGAGCACATGTGCGACGTTGACGAGCTGGCAAGCTACATCGAGAAAGAGACCGGCCGTGAAACCCGCGCTACCGTCCTCGGCCACATTCAGCGCGGCGGTTCCCCGGTTCCTTACGACCGTATCCTGGCTTCCCGCATGGGCGCCTATGCGATTGAGCTGCTGCTGCAGGGCCATGGCGGCCGTTGCGTCGGCATCCAGAACGAGAAGCTGGTGCACCACGACATCATCGATGCCATTGAGAACATGAAGCGTCCGTTCAAGAACGACTGGCTGGATTGCGCGAAGAAACTGTACTAA	MIKKIGVLTSGGDAPGMNAAIRGVVRAALTEGLEVFGIYDGYLGLYEDRMVQLDRYSVSDMINRGGTFLGSARFPEFREEHIRAVAIENMKKRGLDALVVIGGDGSYMGAMRLTEMGFPCIGLPGTIDNDIKGTDYTIGFFTALSTVVEAIDRLRDTSSSHQRISVVEVMGRYCGDLTLAAAIAGGCEFIMVPEVEYTRDDLVAEIKAGIAKGKKHAIVAITEHMCDVDELASYIEKETGRETRATVLGHIQRGGSPVPYDRILASRMGAYAIELLLQGHGGRCVGIQNEKLVHHDIIDAIENMKRPFKNDWLDCAKKLY	PGPT0017595_3266	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
BMS020_07269	903	fieF	COG0053	Ferrous-iron efflux pump FieF	ATGAATCAATCTTATGGCCGGTTGGTCAGCCGCGCCGCTATCGCTGCGACGGCGATGGCCTCCGCGTTACTTTTGATCAAAATTTTTGCGTGGTGGTATACCGGTTCAGTCAGTATTCTGGCCGCGCTGGTGGATTCGCTGGTGGATATTGCCGCCTCGCTGACCAACCTGCTGGTGGTGCGCTATTCGCTGCAGCCTGCTGATGAAGAACATACCTTTGGCCACGGCAAAGCGGAGTCGCTGGCGGCGCTGGCGCAAAGCATGTTTATCTCCGGCTCGGCGCTGTTTCTGTTTCTTACCGGTATTCAGCACCTGGTGCGTCCGGAGCCGCTACAGGCCGCCGGCGTCGGGGTTGTCGTCACGTTGATTGCCCTGTTCAGCACGCTGGCGCTGGTGACCTTCCAGCGCTGGGTGGTGCGAAAAACCCAAAGCCAGGCGGTGCGGGCGGATATGCTTCATTATCAGTCTGATGTTATGATGAACGGCGCCATTCTGGTGGCGCTGGGCCTCTCCTGGTACGGCTGGCATCGCGCCGATGCGTTGTTTGCCTTAGGAATTGGCATCTATATTTTATATAGCGCGCTGCGGATGGGCTATGAGGCGGTTCAGTCGTTACTCGACCGCGCTTTGCCTGACGAGGAGCGTCAGGACATTATCACCATCGTGACCGCATGGCCCGGCATCCGCGGGGCGCACGATCTACGAACGCGGCAGTCAGGGCCGACCCGCTTTATTCAGATTCATTTGGAAATGGAAGATAACCTCCCGCTGGTGCAAGCCCACGTGATTGCAGACCAGGTGGAGCAGGCGATTCTGCGCCGTTTCCCGGGTTCCGATGTCATTATCCATCAGGATCCCAGTTCTGTGGTGCCGGCGGCGCAGCAGGGCTTTTTTGAGCGTTAG	MNQSYGRLVSRAAIAATAMASALLLIKIFAWWYTGSVSILAALVDSLVDIAASLTNLLVVRYSLQPADEEHTFGHGKAESLAALAQSMFISGSALFLFLTGIQHLVRPEPLQAAGVGVVVTLIALFSTLALVTFQRWVVRKTQSQAVRADMLHYQSDVMMNGAILVALGLSWYGWHRADALFALGIGIYILYSALRMGYEAVQSLLDRALPDEERQDIITIVTAWPGIRGAHDLRTRQSGPTRFIQIHLEMEDNLPLVQAHVIADQVEQAILRRFPGSDVIIHQDPSSVVPAAQQGFFER	PGPT0003831_468	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK|IRON-TRANSPORT,PGPT0003831-fieF-K13283	NA	NA
BMS020_07270	504	cpxP	COG3678	Periplasmic protein CpxP	ATGCGCAATGTTATCGCTGCCGTCATGGCCTCAACGCTGGCGCTAAGTGCATATAGCCAGGCCGCTGAAGTCGTTACCAGCGTTAACTGGCTCCCCGGAGACGAAGGGGGACAGCGCGGTAGCCAGAGCCATATGTTTGACGGCATAAGTTTAACCGAGCAGCAACGTCAGCAGTTACGGGATCTTATGCAACGGGCACGCCACGACAGGCTCCCCGTTAATGTTAGCGAAATGGAGACAATGCATCGCCTTGTCACCGCAGAAAATTTTGATGAAAACGCTGTGCGCGCTCAGGCAGAAAAGATGGCGCAGGAACAGGTTGCTCGCCAGGTCGAGATGGCTAAGGTCCGCAACCAGATGTACCACCTGCTTACGCCAGAGCAGCAAGCGGTTTTAAATGCTAAGCACCAGCAACGTATGGATCAGTTGCGTGAGGTTGCAAGGACGCAGAAAGGCTCAGCGATGATGCTTTCGAGTAGTAGCAACACCCTGCAACCCCAGTAA	MRNVIAAVMASTLALSAYSQAAEVVTSVNWLPGDEGGQRGSQSHMFDGISLTEQQRQQLRDLMQRARHDRLPVNVSEMETMHRLVTAENFDENAVRAQAEKMAQEQVARQVEMAKVRNQMYHLLTPEQQAVLNAKHQQRMDQLREVARTQKGSAMMLSSSSNTLQPQ				NA	NA	NA	NA	NA
BMS020_07271	699	cpxR	COG0745	Transcriptional regulatory protein CpxR	ATGAATAAAATCCTGTTAGTTGATGATGACCGGGAGCTCACCTCCCTGTTAAAAGAGCTGCTCGATATGGAAGGTTTTAACGTGCTGGTGGCCCATGATGGGGAACAGGCGCTGGCCCTTCTGGACGACAGCATTGATTTATTGCTGCTCGACGTAATGATGCCGAAGAAAAACGGTATCGATACGCTTAAAGAGCTGCGTCAGACACACCAGACTCCGGTTATCATGCTAACAGCGCGCGGGAGCGAGCTGGATCGCGTTCTCGGCCTCGAGCTGGGCGCAGATGACTATTTGCCTAAGCCGTTCAACGATCGCGAACTGGTGGCGCGTATACGCGCGATTCTGCGCCGTTCCCACTGGAGCGAACAGCAGCAGACGACCGAAGCCGGCTCGCCGACCCTGGAAGTGGATGCCTTAAGCCTCAATCCGGGCCGTCAGGAAGCCAATTTCGATGGCCAGACGCTGGAGCTCACCGGCACCGAGTTCACCCTGCTCTATCTGTTAGCGCAGCATCTCGGCCAGGTGGTGTCACGCGAACATTTAAGCCAGGAAGTGTTAGGCAAGCGCCTGACGCCGTTCGACCGCGCCATCGATATGCATATTTCCAACCTGCGGCGTAAGCTGCCGGAGCGCAAAGATGGCCATCCGTGGTTTAAAACGCTGCGTGGCCGCGGGTATCTGATGGTTTCCGCTTCATGA	MNKILLVDDDRELTSLLKELLDMEGFNVLVAHDGEQALALLDDSIDLLLLDVMMPKKNGIDTLKELRQTHQTPVIMLTARGSELDRVLGLELGADDYLPKPFNDRELVARIRAILRRSHWSEQQQTTEAGSPTLEVDALSLNPGRQEANFDGQTLELTGTEFTLLYLLAQHLGQVVSREHLSQEVLGKRLTPFDRAIDMHISNLRRKLPERKDGHPWFKTLRGRGYLMVSAS	PGPT0015100_212	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015100-cpxR-K07662	NA	NA
BMS020_07272	1374	cpxA		Sensor histidine kinase CpxA	ATGATTGGAAGTTTGACTGCACGCATCTTCGCCATCTTCTGGCTCACGCTGGCGCTGGTGTTGATGCTGGTGCTGATGCTGCCCAAACTGGACTCCCGGCAGATGACCGAGCTGCTGGAAAGCGAGCAGCGTCAAGGCATCATGATCGAGCAGCACGTCGAGGCCGAGCTGGCCAACGATCCGCCAAACGACCTGATGTGGTGGCGTCGTCTGTTTCGCGCCATCGATAAATGGGCGCCTCCGGGTCAGCGCCTGCTGCTGGTCACCAGCGAAGGCCGCGTGATCGGCGCAGAACGCAACGAGATGCAGATCATTCGCAACTTTATCGGCCAGGCCGATAACGCCGATCATCCGCAGAAAAAACGCTATGGCCGCCTGGAAATGGTGGGCCCGTTCTCCGTCAGGGATGGGGAGGATAACTATCAGCTGTATCTGATCCGTCCCGCCAGCACCTCACAATCCGACTTTATCAACCTGCTGTTTGACCGGCCGCTGCTGCTGCTGATCGTCACAATGCTGGTTAGCGCCCCGCTGCTGCTGTGGCTGGCGTGGAGCCTGGCGAAACCGGCGCGTAAGCTGAAAAATGCCGCTGACGAGGTCGCCCAGGGCAACCTGCGGCAGCATCCGGAGCTGGAAGCCGGACCGCAGGAGTTTTTAGCCGCCGGCGCCAGCTTTAACCAGATGGTGACGGCCCTGGAGCGGATGATGACCAGCCAGCAACGGCTGCTGTCCGATATCTCGCACGAGCTGCGCACGCCGCTCACGCGCCTGCAGCTGGGCACCGCCCTGCTGCGCCGCCGCAGCGGTGAGAGCAAAGAGCTGGAGCGTATCGAAACTGAAGCGCACCGACTGGACAGCATGATCAACGACCTGCTGGTGATGTCGCGCAATCAGGCGAAAAACGCCCTGGTGAGCGAGACGGTCAAAGCCAATCAGCTGTGGGGCGAAGTGCTGGACAACGCGGCGTTTGAAGCCGAGCAGATGGGTAAATCGTTCACCGTTGAGTATCCGCCGGGTCCGTGGCCGCTGTACGGTAACCCCAATGCGCTGGAAAGCGCGCTGGAGAATATCGTCCGCAACGCCCTGCGCTACTCGCACACCAAGATTTCCGTCAGCTTCTCAGTGGATAAAGACGGGATTACGGTTAACGTCGATGACGACGGCCCGGGAGTCAGCCCGGAGGATCGCGAGCAGATTTTCCGGCCATTCTACCGGACCGACGAGGCGCGCGACCGCGAGTCCGGCGGCACCGGCCTGGGGCTGGCGATTGTCGAAACCGCTATTCAGCAGCACCGTGGCTGGGTGAAGGCCGACGACAGCCCGCTGGGCGGTCTGCGCTTAACCCTCTGGCTACCGCTGTATAAGCGGACCTGA	MIGSLTARIFAIFWLTLALVLMLVLMLPKLDSRQMTELLESEQRQGIMIEQHVEAELANDPPNDLMWWRRLFRAIDKWAPPGQRLLLVTSEGRVIGAERNEMQIIRNFIGQADNADHPQKKRYGRLEMVGPFSVRDGEDNYQLYLIRPASTSQSDFINLLFDRPLLLLIVTMLVSAPLLLWLAWSLAKPARKLKNAADEVAQGNLRQHPELEAGPQEFLAAGASFNQMVTALERMMTSQQRLLSDISHELRTPLTRLQLGTALLRRRSGESKELERIETEAHRLDSMINDLLVMSRNQAKNALVSETVKANQLWGEVLDNAAFEAEQMGKSFTVEYPPGPWPLYGNPNALESALENIVRNALRYSHTKISVSFSVDKDGITVNVDDDGPGVSPEDREQIFRPFYRTDEARDRESGGTGLGLAIVETAIQQHRGWVKADDSPLGGLRLTLWLPLYKRT	PGPT0023495_364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0023495-cpxA-K07640	NA	NA
BMS020_07273	675	yiiM_2	COG2258	Protein YiiM	ATGCATTATCCGGTGAATGTCTTTGTCGGCAAAATCAGGGACTACACGGGCAGTCGTCCCAGCGCGATCGGCAAAATCCAGGTTGACGGCGAGTTGCAGCTCGGCGATCTCGGTCTCGAAGGGGATGAGCAGGCAGAGAAGAAAATACACGGCGGGCCGGACCGCGCGCTGTGTCACTATCCGCGCGAACACTATGCCGACTGGATCCGTGAATTTCCCCAGCAGGCCGATCGGTTCTGCGCCCCGGCGTTCGGCGAAAACCTCTCCACCACTGGCCTCACCGAACAAAACGTCTACATTGGCGACATCTTTCGCTGGGGCGAGGCGCTGATCCAGGTCACCCAGCCGCGCTCTCCGTGCTTCAAGCTCAACTTTCATTTTGCGATCGGTGATATGGCGCAGCTGATGCAAAACAGCGGGAAGACCGGCTGGTTGTACCGGGTGATCGCCGGGGGGCAAGTCTCCAGCGATGCGCCGCTCGAACTGGTCTCTCGCCTGAGCGATGTCAGCGTCCATGAGGCCGGGGCGATTGCCTGGCATATGCCGTTTGATGACGATCAGTACCACCGCTTATTGTCGGCTGCGGGCCTGTCGGTAAGCTGGAGTCGAACCATGCAGAAGCGCCGTTTAAGCGGCAAGATCGAGGATAATTCACGGCGATTGTGGGGGAAATAA	MHYPVNVFVGKIRDYTGSRPSAIGKIQVDGELQLGDLGLEGDEQAEKKIHGGPDRALCHYPREHYADWIREFPQQADRFCAPAFGENLSTTGLTEQNVYIGDIFRWGEALIQVTQPRSPCFKLNFHFAIGDMAQLMQNSGKTGWLYRVIAGGQVSSDAPLELVSRLSDVSVHEAGAIAWHMPFDDDQYHRLLSAAGLSVSWSRTMQKRRLSGKIEDNSRRLWGK	PGPT0009125_2	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
BMS020_07274	621	sodA	COG0605	Superoxide dismutase [Mn]	ATGAGCTATACCCTGCCATCCCTGCCGTACGCTTACGATGCTCTGGAACCGCACTTCGACAAGCAGACGATGGAGATCCATCACACCAAACACCACCAGACCTACGTGAACAATGCCAACGCCGCGCTGGAAAGCCTGCCGGAGTTCGCTAACCTGTCCGCTGAAGAGCTGATCACCAAGCTGGATCAGCTGCCGGCTGACAAAAAAACCGTACTGCGTAACAACGCCGGCGGCCACGCGAACCACAGCCTGTTCTGGAAAGGCCTGAAAACCGGTACCACCCTGCAGGGCGACCTGAAAGCGGCTATCGAGCGCGATTTCGGCTCTGTGGACAACTTCAAAGCGGAATTCGAAAAAGCCGCTGCGACCCGTTTCGGTTCCGGCTGGGCGTGGCTGGTCCTGAAAGGTGACAAACTGGCCGTTGTCTCCACCGCAAACCAGGATTCCCCGCTGATGGGCGAAGCCATTTCCGGCGCTTCCGGCTTCCCGATCCTGGGTCTGGACGTGTGGGAACACGCTTACTACCTGAAATTCCAGAACCGTCGCCCGGACTACATCAAAGCCTTCTGGGACGTGGTGAACTGGGACGAAGCTGCAGCGCGTTTTGCCGCCAAAAAATAA	MSYTLPSLPYAYDALEPHFDKQTMEIHHTKHHQTYVNNANAALESLPEFANLSAEELITKLDQLPADKKTVLRNNAGGHANHSLFWKGLKTGTTLQGDLKAAIERDFGSVDNFKAEFEKAAATRFGSGWAWLVLKGDKLAVVSTANQDSPLMGEAISGASGFPILGLDVWEHAYYLKFQNRRPDYIKAFWDVVNWDEAAARFAAKK	PGPT0004190_3020	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
BMS020_07275	1035	rhaT	COG0697	L-rhamnose-proton symporter	ATGAACCACGCGATTACGATGGGTATTTTTTGGCATTTGATAGGGGCCGCCAGTGCCGCCTGTTTCTATGCCCCGTTCAAGAAAGTAAAACACTGGTCGTGGGAAACCATGTGGTCGGTCGGGGGGATCGTCTCCTGGCTGATCCTGCCCTGGGCCATCAGCGCCACGCTGTTACCCGATTTCTGGGCCTACTACCGCTCCTTTAACGCCTCCACGCTGCTGCCGGTCTTTCTGTTCGGCGCCATGTGGGGCATCGGTAATATCAACTATGGCCTGACCATGCGCTATCTCGGCATGTCGATGGGGATTGGCATCGCCATTGGCATCACGCTGATTGTCGGTACGCTGATGACGCCGATTATTAACGGTCAGTTTTCGGTGCTGATGCACACCCAGGGCGGTCAAATGACGCTGCTCGGCGTGCTGGTGGCGGTGGTTGGCGTTGGCATCGTCACCCGCGCGGGCCAGCTGAAAGAGCGCAAAATGGGCATCAAAGCCGAAGAGTTCAATCTGAAGAAAGGGCTTCTGCTGGCGGTGATGTGCGGTATCTTCTCGGCAGGGATGTCGTTCGCGATGAACGCCGCCAAACCGATGCATGATGCCGCCGCGGCGCTCGGCGTCGACCCGTTATATGCGGCGCTGCCAAGCTACGTGGTGATTATGGGCGGCGGGGCGCTGGTCAACCTTGGCTTCTGCTTTATTCGTCTGGCGAAAGTGAAGACCCTGTCAGTCAAAGCCGATTTCTCACTGGCCAAACCGCTCATCATCAGCAACCTGCTGCTTTCCGCCCTCGGCGGCCTGATGTGGTATCTCCAGTTCTTCTTCTATGCCTGGGGCCACGCCAGCATTCCGGCGCAGTATGACTATATGAGCTGGATGCTGCACATGAGTTTCTACGTACTGTGCGGCGGTCTGGTGGGTCTGGTGCTGAAAGAGTGGAACAACGCCGGTCGTCGTCCGGTGAGCGTCCTGAGCCTCGGCTGCGTGGTGATCATCATCGCCGCCAACATCGTCGGTCTGGGAATGGCCAGTTAA	MNHAITMGIFWHLIGAASAACFYAPFKKVKHWSWETMWSVGGIVSWLILPWAISATLLPDFWAYYRSFNASTLLPVFLFGAMWGIGNINYGLTMRYLGMSMGIGIAIGITLIVGTLMTPIINGQFSVLMHTQGGQMTLLGVLVAVVGVGIVTRAGQLKERKMGIKAEEFNLKKGLLLAVMCGIFSAGMSFAMNAAKPMHDAAAALGVDPLYAALPSYVVIMGGGALVNLGFCFIRLAKVKTLSVKADFSLAKPLIISNLLLSALGGLMWYLQFFFYAWGHASIPAQYDYMSWMLHMSFYVLCGGLVGLVLKEWNNAGRRPVSVLSLGCVVIIIAANIVGLGMAS				NA	NA	NA	NA	NA
BMS020_07276	846	rhaR_8		HTH-type transcriptional activator RhaR	GTGGCCGGTCTGATTCTACGTAAAGAGGAGTTTTTCCCTTCCGCCACGCAGGCGGTGGCGGTGGCCGACCGCTACCCGCAAAACGTCTTCGCTGAACACACCCATGAGTTCTGCGAGCTGGTGCTGGTGTGGCGGGGCAACGGGCTGCACGTTCTCAACGACCGTCCCTGGCGCATTACCCGCGGCGATCTGTTCTATATTCGCGCCGAAGATAAACACTCCTATGCTTCCGTTAACGATCTGGTTCTGCAGAACATCATCTATTGCCCGGAGCGGCTGCAGCTCAATTTCGACTGGGCGGGGGCGATCCCTGGCCTTTTTGGCACCCCGTGGAAGCCCCACTGGCGTATGGGCAGCACCGGTATGGCGCAGGCGCGCCAGGTAATTAGCCAGCTTGAGCATGAGTGTTCCCGGCACGATGCGCAGGGGAATGCGATGGCCGAGCTGCTGTTTGCTCAGCTGGCGCTGACCCTCCAGCGCCATCGCTACGCGACGGATAATCTGGCGGCGACGCAGCGCGAAGCGCTGTTGGACAAACTGCTGGCCGCGCTGGCGGCCAGCCTGAGCCGACCCTTTGTCCTGGAGCGTTTCTGCGAGCAGGAGGGCGGCAGCGAGCGGGCGCTACGGCAGCAATTTCGCCAGCAAACCGGCATGACCATCAATCACTATTTACGCCAGCTACGGATCTGCCATGCGCAGTATCTGTTGCAGCATACCGAGCGCTTAATCGGCGATATCGCCATGCAGTGCGGCTTTGAGGACAGTAACTACTTTTCGGTGGTGTTCAGCCGGGAAATCGGCATGTCGCCGGGGCAGTGGCGGCAGCGCAGTCGCGCCGCCGCCTGA	MAGLILRKEEFFPSATQAVAVADRYPQNVFAEHTHEFCELVLVWRGNGLHVLNDRPWRITRGDLFYIRAEDKHSYASVNDLVLQNIIYCPERLQLNFDWAGAIPGLFGTPWKPHWRMGSTGMAQARQVISQLEHECSRHDAQGNAMAELLFAQLALTLQRHRYATDNLAATQREALLDKLLAALAASLSRPFVLERFCEQEGGSERALRQQFRQQTGMTINHYLRQLRICHAQYLLQHTERLIGDIAMQCGFEDSNYFSVVFSREIGMSPGQWRQRSRAAA	PGPT0017785_266	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017785-rhaR-K02854	NA	NA
BMS020_07277	837	rhaS_13		HTH-type transcriptional activator RhaS	ATGACCATATTGCACAGTACGGATTTCTTTAAGGCCGGGATCTCGACGGTGGCTATTGAACCCCGCCTCCCTCAGTCGGCCTTTCCGGAGCATCACCATGATTTCCATGAAATTGTCATCGTGGAGCAGGGCACGGGCATTCACGTCTTCAATGGCCAGCCTTATACCATCGGCGGCGGCTCGGTCTGCTTTATTCGCGATCACGACCGGCATCTTTACGAGCACACGGACAATCTGTGTCTGACCAACGTGCTCTATCGCGCGCCGGATGCGTTTCGTTTTCTCGCCGGGGTCAGCCAGCTGCTGCCCCAGGAGCAGGAGGGCAACTACCCGTCGCACTGGCGGGTGAACCAGACGGTCCTGCAGCAGGTGCGGCATATCGTGGCGCAGATGGAGGCCATGGGGAGCGAAACGGATACCCATGCCGTCGCCAGCCGTGAGATCCTGTTTATGCAGCTGCTGGTGCTGCTGCGGAAAAGCAGCCTTGCGGAAGAGGCCACCAACAACGATGCGCGGCTGAATCAGCTGCTGGCCTGGCTGGAAGACCATTTTGCGCAGGAGATCTGCTGGGAGGAGGTGGCGGCGCAGTTTTCGCTGTCGCTGCGTACTCTACACCGCCAGCTGAAGCAGCAGACCGGCCTGACGCCGCAGCGCTATCTCAATCGGGTGCGCCTGATGAAAGCCCGCCACCTGCTGCGCCACAGCGATGAAAGCGTGACTGATATCGCCTATCGCTGCGGATTCGGCGACAGTAACCACTTTTCGACGCTTTTTCGCCGCGAGTTTTCCTGGTCGCCGCGCGATATCCGCCAGGGGCGCGACGCTATTCTTCAGTAA	MTILHSTDFFKAGISTVAIEPRLPQSAFPEHHHDFHEIVIVEQGTGIHVFNGQPYTIGGGSVCFIRDHDRHLYEHTDNLCLTNVLYRAPDAFRFLAGVSQLLPQEQEGNYPSHWRVNQTVLQQVRHIVAQMEAMGSETDTHAVASREILFMQLLVLLRKSSLAEEATNNDARLNQLLAWLEDHFAQEICWEEVAAQFSLSLRTLHRQLKQQTGLTPQRYLNRVRLMKARHLLRHSDESVTDIAYRCGFGDSNHFSTLFRREFSWSPRDIRQGRDAILQ	PGPT0017780_156	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017780-rhaS-K02855	NA	NA
BMS020_07278	1467	rhaB	COG1070	L-Rhamnulokinase	ATGAGTATTCGTCATTGTGTCGCCGTCGATTTAGGCGCCTCCAGCGGGCGGGTCATGCTCGCCAGCTATCAGTCCGGGCCGCGCGCCCTGACGCTGCGTGAAATTCATCGCTTCACCAACAGCCTGCAGAAGGTGGATGGCTTCGACTGCTGGGATCTCGATAGCCTCGAAGGCGAGATCCGCCGCGGGCTGGAGAAAGTGTGTGAGCAGGGCATCCTGATCGACAGCATCGGCATCGATACCTGGGGCGTGGATTATGTCCTGCTGGATAAGCAGGGTCAGCGCGTCGGGCTGCCGGTCTCCTATCGTGACGATCGCACCCAGGGCCTGCTACGTCACGCTGAAGAACAGCTGGGCCGGGCGGAGATCTATCGCCGCAGCGGCATTCAGTTTCTGCCGTTTAACACCCTTTATCAGCTGCGCGCCCTGGTGGAGCAGCAGCCGGAGCTGGTCAGTCAGGCCGCCCATGCCGTGCTGATCCCCGACTATTTCAGCTTCCGCCTGACCGGCAATCTGAACTGGGAATATACCAACGCCACCACCACCCAGCTGGTCAACATCCACAGCGATAGCTGGGATGAGACGCTGCTGAACTGGACCGGCGCGCCGCGCGAATGGTTCGGTGCGCCGACGCATCCCGGCAACGTTATCGGCCACTGGATTTGTCCGCAGGGTAATAACATCCCGGTGGTCGCCGTCGCCAGCCACGACACCGCCAGCGCGGTGATCGCCTCCCCGCTGGCCGACCGCCACGCCGCCTATCTCTCCTCCGGGACCTGGTCGCTGATGGGGTTTGAAAGCCTGACCCCGTACACCTGCGACGCGGCGCTGCAGGCCAATATCACCAACGAAGGCGGGGCCGAAGGCCGCTATCGGGTGCTGAAAAATATTATGGGGCTGTGGCTGCTGCAGCGGGTGCTAAAAGAGCAAAACGTCAGCGACCTGCAAGGGCTAATCGCCCGCACCGCCGCGCTGCCGGCGTGCCGCTTCATCATTGACTGCAATGACGACCGCTTTATCAACCCGGCCAGTATGAGCGCCGAGATCCAGGCCGCCTGCCGCGGATCCGGTCAGCCGGTGCCTGACAGCGACGCCGAACTGGCGCGCTGCATTTTCGACAGCCTGGCGCTGCTCTACGCCCGGGTGCTTAACGAGCTGGCGGCGCTGCGCGGCCAGCCCTTCAGCCAGCTGCATATCGTCGGCGGCGGCTGCCAGAACGAACTGCTCAACCAGCTGTGCGCCGACGCCTGCGGGATCGTCGTCGTGGCCGGCCCGACAGAGGCCTCCACCCTCGGCAATATCGGCATCCAGCTAATGACCCTCGACGAGCTGGCCAGCGTCGATGAGTTTCGTCAGGTGGTGCGCGGCAACGCGTCCCTCACCACCTTTACCCCCAATCCTGATAGTGAAATTGCCCGTTTCGTGGCGCAGTTTCAGCCACAACAGACCAAGGAGCTTTGCGCATGA	MSIRHCVAVDLGASSGRVMLASYQSGPRALTLREIHRFTNSLQKVDGFDCWDLDSLEGEIRRGLEKVCEQGILIDSIGIDTWGVDYVLLDKQGQRVGLPVSYRDDRTQGLLRHAEEQLGRAEIYRRSGIQFLPFNTLYQLRALVEQQPELVSQAAHAVLIPDYFSFRLTGNLNWEYTNATTTQLVNIHSDSWDETLLNWTGAPREWFGAPTHPGNVIGHWICPQGNNIPVVAVASHDTASAVIASPLADRHAAYLSSGTWSLMGFESLTPYTCDAALQANITNEGGAEGRYRVLKNIMGLWLLQRVLKEQNVSDLQGLIARTAALPACRFIIDCNDDRFINPASMSAEIQAACRGSGQPVPDSDAELARCIFDSLALLYARVLNELAALRGQPFSQLHIVGGGCQNELLNQLCADACGIVVVAGPTEASTLGNIGIQLMTLDELASVDEFRQVVRGNASLTTFTPNPDSEIARFVAQFQPQQTKELCA	PGPT0017775_573	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017775-rhaB-K00848	NA	NA
BMS020_07279	1260	rhaA	COG4806	L-rhamnose isomerase	ATGACCACTCAACTTGAACAAGCCTGGGAAATTGCTAAGCAGCGCTACGCCGCCGTCGGCGTGGATGTCGAGGAGGCCCTGCGCCAGCTGGACCGTCTGCCCGTATCCATGCACTGCTGGCAGGGTGACGACGTCGCCGGGTTCGAAAATCCGGCGGGAAGCCTGACCGGCGGCATCCAGGCCACCGGCAACTACCCGGGCAAAGCGCGCAATGCTCAGGAGCTGCGCGCCGACCTTGAGCAGGCGCTGAGCCTGATCCCGGGGCCAAAGCGTCTCAACCTGCACGCTATTTATCTGGAATCCGACGCGCCGGTGGCGCGCAATGAGATTAAGCCGGAGCACTTTAAAAACTGGGTTGAGTGGGCGAAAGCCAACAAACTGGGGCTGGATTTCAACCCCTCCTGCTTCTCGCATCCGCTGAGCGCCGACGGCTTTACCCTATCGCATGCCAACGATGAGATCCGCCAGTTCTGGATCGACCATTGCAAAGCCAGCCGCCGCGTATCCGCTTATTTTGGCGAACAGCTGGGCACCCCGTCGGTGATGAATATCTGGGTGCCGGACGGCATGAAGGACATTACCGTTGACCGCTTCGCGCCGCGCCAGCGGCTGCTGAACGCGCTGGATGAAGTCATCAGCGAAAAATTCGACCCGGCGCATCACATTGACGCTGTGGAGAGCAAGCTGTTCGGTATCGGCGCCGAAAGCTACACCGTCGGCTCCAACGAGTTCTATATGGGCTACGCCACCAGCCGCCAGACGGCGCTGTGCCTGGATGCCGGCCACTTCCACCCGACGGAGGTCATCTCCGACAAGATCTCCGCCGCCATGCTCTACATCCCGCGCCTGCTGCTGCACGTCAGCCGCCCGGTGCGCTGGGACAGCGACCACGTGGTGCTGCTGGATGATGAGACCCAGGCCATCGCCAGCGAAATCATTCGCCATAACCTGTTTGACCGCGTGCACATCGGCCTCGACTTCTTCGATGCCTCCATCAACCGCATCGCGGCCTGGGTGATTGGTACCCGCAATATGAAAAAAGCGCTGCTGCGCGCCCTGCTGGAACCGACCGATCAGCTGCGCCAGCTGGAGAACGACGGCGATTACACCGCCCGCCTGGCGCTGCTCGAAGAGCAAAAATCCCTGCCGTGGCAGGCCATCTGGGAGATGTACTGCCAGCGTCACGACACGCCGGCGGGCAGCCAGTGGCTGGACAACGTGCGGGCTTATGAGAATGCGGTTCTGAGCCAGCGCGGGTAA	MTTQLEQAWEIAKQRYAAVGVDVEEALRQLDRLPVSMHCWQGDDVAGFENPAGSLTGGIQATGNYPGKARNAQELRADLEQALSLIPGPKRLNLHAIYLESDAPVARNEIKPEHFKNWVEWAKANKLGLDFNPSCFSHPLSADGFTLSHANDEIRQFWIDHCKASRRVSAYFGEQLGTPSVMNIWVPDGMKDITVDRFAPRQRLLNALDEVISEKFDPAHHIDAVESKLFGIGAESYTVGSNEFYMGYATSRQTALCLDAGHFHPTEVISDKISAAMLYIPRLLLHVSRPVRWDSDHVVLLDDETQAIASEIIRHNLFDRVHIGLDFFDASINRIAAWVIGTRNMKKALLRALLEPTDQLRQLENDGDYTARLALLEEQKSLPWQAIWEMYCQRHDTPAGSQWLDNVRAYENAVLSQRG	PGPT0017765_192	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017765-rhaA-K01813	NA	NA
BMS020_07280	831	rhaD	COG0235	Rhamnulose-1-phosphate aldolase	ATGCAGACCATTATCGACGCCTGGTTCGTCCAGGGCATGATCAAAGCCACCTCCGACGCCTGGCTGAAAGGCTGGGACGAGCGCAACGGCGGCAACCTGACGCTGCGTCTGGATGAGGCGGATATCGAACCTTACGTGGCGGATTTCCACGCTAAACCGCGCTATATCGCCCTCAGCCAGCCGATGCCAACCCTGGCTAACCAGCCGTTTATCGTCACCGGCTCCGGCAAATTCTTCCGTAATGTCCAGCTCGACCCGGCCGCTAACCTTGGCGTGGTGAAAGTCGACAGCGACGGCGCGGGATACCATATCCTGTGGGGTCTGACGGAGGATGCAGTGCCGACCTCCGAGCTGCCGGCACACTTCCTGTCGCACAGCGAGCGCATCAAACTGACCGACGGCAAGGACCGGGTGATCATGCACTGTCATGCCACCAACCTGATCGCCCTGACCTACGTCCTGGAGAACCACAGCGATCTGTTCACCCGCAAGCTGTGGGAAGGCAGCACCGAATGTCTGGTGGTCTTCCCGGACGGCGTCGGCATTCTGCCGTGGATGGTGCCAGGCACCGATGAAATCGGCCAGGCCACTGCGGAAACCATGCAAAAACACTCGCTGGTGCTGTGGCCGTTCCACGGCGTCTTCGGCAGCGGCCCAACCCTGGATGAGACCTTCGGCCTGATCGACACCGCCGAGAAGTCCGCCGAAGTGCTGGTGAAAGTCTTGTCCATGGGCGGTATGAAGCAGACCATCACTCGCGAAGAGCTTATCGCCCTTGGCAAACGATTCAACGTGCAGCCGCTGCAGTCCGCGTTAGATCTTTATCCATAA	MQTIIDAWFVQGMIKATSDAWLKGWDERNGGNLTLRLDEADIEPYVADFHAKPRYIALSQPMPTLANQPFIVTGSGKFFRNVQLDPAANLGVVKVDSDGAGYHILWGLTEDAVPTSELPAHFLSHSERIKLTDGKDRVIMHCHATNLIALTYVLENHSDLFTRKLWEGSTECLVVFPDGVGILPWMVPGTDEIGQATAETMQKHSLVLWPFHGVFGSGPTLDETFGLIDTAEKSAEVLVKVLSMGGMKQTITREELIALGKRFNVQPLQSALDLYP	PGPT0017790_161	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017790-rhaD-K01629	NA	NA
BMS020_07281	987	lsrB_2		Autoinducer 2-binding protein LsrB	ATGAAAACAAAGACAAGCTTGATCCTCACCGTTGCCGCCCTGGCGTTGTCCGGTTCCGCCTTAGCAGAAGTCAAAATCGCCCTCGTGGCGAAATCGCTGGGAAATGGCTTCTTCGAAGCCGCCAACGTTGGCGCCCAACAGGCAGCCAAAGAGTTAGGTGATGTCAAAGTGATCTACACCGGCCCGACCACCACTACCGCCGAAGCGCAGATCGACGTGCTGAACGGGTTGATCGCCCAGGGGGTGGATGCGATCGCCATTTCCGCTAACGATCCGGACGCGGTGGTGCCGGTGCTGAAAAAAGCGATGCAGCGCGGCATCAAGGTGGTCTCGTGGGACTCCGGCGTGGCGCCGGCAGGCCGCCAAATCCATCTTAATCCCTCCAATAACGCCTTAATTGGCGAGACCAACGTCAAGCTCGCCGCCGATGCGCTGAAGGCGCTGAACGTGGAGAAGGGGGATGTGGCAGTGTTAAGCGCCACTCCGACCTCCACTAACCAGAATATCTGGATTGAGGAGATGAAAAAGGTGCTGCCGCAGTATCCGTCCGTACACCTTGTCACGGTCGCCTACGGTGACGATCTGTCGGATAAAAGCTACCGCGAAGCGGTGGGCCTGCTGAAATCATATCCGGACCTGAAAGTCATTGTTTCGCCTTCGTCGGTGGGGATCGTTGCCGCCGCGCAGGCGGTGAAGGACCAGGGCAAAATCGGCAAAGTGTATGTCACCGGGCTGGGGCTGCCGTCGGAAATGGCCGGCGCGATCAAGTCTGGCGCCAGCAAAAGTTTCGCCATCTGGAACCCGATTGACCTGGGCTACGCCGCCACCTATCTGGCCGACGATTTAGTCAAAGGCACCGCGACCAAAACCGAAGCCAGTATGGGCAAGCTGGGCAAAGTGAAGCTGGATGCAGAGGGGAACGGCGCGATGGCCGAGCCGTTTGTCTACGATGCGAGCAACATCGATAAGTTCTCGAAGATTTTCTAA	MKTKTSLILTVAALALSGSALAEVKIALVAKSLGNGFFEAANVGAQQAAKELGDVKVIYTGPTTTTAEAQIDVLNGLIAQGVDAIAISANDPDAVVPVLKKAMQRGIKVVSWDSGVAPAGRQIHLNPSNNALIGETNVKLAADALKALNVEKGDVAVLSATPTSTNQNIWIEEMKKVLPQYPSVHLVTVAYGDDLSDKSYREAVGLLKSYPDLKVIVSPSSVGIVAAAQAVKDQGKIGKVYVTGLGLPSEMAGAIKSGASKSFAIWNPIDLGYAATYLADDLVKGTATKTEASMGKLGKVKLDAEGNGAMAEPFVYDASNIDKFSKIF	PGPT0016700_427	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RHAMNOSE_TRANSPORT,PGPT0016700-rhaS-K10559	NA	NA
BMS020_07282	1512	rbsA_3	COG1129	Ribose import ATP-binding protein RbsA	ATGTCAGCATCAACGCCACTGCTGTCGCTGAAGGGCATCACCAAGATTTTTCCCGGTGTGCGTGCCCTTGAGAACGTACAGCTTGATCTCTGGCCCGGCAAAGTGACCGCCCTCATCGGCGAAAACGGCGCGGGGAAATCCACGCTGGTCAAAGTCATGACCGGTATTTATCAGCCCGAAGAGGGGGAGATCCTCTATAAAGCGATCCCCATTCATCTGCCGACGCCGGAATCGGCGCACAAGGTGGGGATCACCGCCATTCACCAGGAAACCGTGCTGTTTGACGAACTCTCGGTCAGCGAAAACATTTTCGTCGGCCAGTATCTGTATAAGGGGCTGTTCAAAACGCTCGACTGGCCCGCGATGCATCGCCGGGCTGGCGAGATCCTCGCCCGGCTTGAAGTTCTGATCGACCCGCGCGCCACGCTGAAAACGCTCAGCATCGCCCAACGACACATGGTGGCGATTGCCCGGGCGCTGGCTTTCGACGCCCAGGTGGTGATCCTGGATGAGCCGACCGCCGCGCTCTCGCAACATGAAATTCTGGAGTTTTATCAGATCGTTGAGCGTCTGAAGCAGGACGGCAAAGCGATCCTGTTTATCTCGCATAAGTTTGATGAAATTTTCGAGCTGGCTGACTATTACACCATCCTGCGCGATGGCGTGTACGTGAGCTCCGGAGCGATGAGCGATATCACCGAAGAGCGGATGGTGTCGATGATGGTGGGCCGGGCGATCGACCAAACCTACCCGAAAGTTGACTGTACCCCAGGGGAAACGGTGCTGGAGGTGCAAGACCTCTGTCACCCCACCGAGTTTGCCCATATCAGCTTCAGCCTGCGCAAGGGAGAAATTCTCGGCTTTTACGGCCTGGTGGGCGCCGGACGCACCGAGCTGATGCAGGCGCTCTCCGGCGTAACGCATCCCTCCTCCGGCGAGATCCGGCTGAACGGCAGCCCCATGCGCTTTCGCCAGCCCGCCGACGCCATCCGCGCGGGCATCGTCTGCGTACCGGAAGAGCGGCAGAAACAGGGGGCGATCATCGCCCTGCCCATCGCCCAAAACATCAGTCTGCCGCAGCTCAGTAAGCTCAACCCTAACGGCGTCCTGAACGACGCCCGGGAATGGCGGCTGGCGGACGAGTACGCCTCGCGCCTGCAGGTTAAAGCCTTCAGCTGGCGGCAGCCGGTGGAGACCCTCTCCGGCGGCAACCAGCAGAAAGTGGTGATCGGCAAATGGCTGGCGACCCATCCCGAGGTGATTATCCTCGACGAGCCGACCAAAGGCATCGATATCGGCTCTAAAGCCGCCGTGCATCAGTTTATGTCCGAGCTGGTCAGCCAGGGGCTGGCGGTGATTATGGTCTCGTCAGAGTTGCCGGAAGTGATGGGCATGGCCGACCGGATTATCGTGATGCACGAAGGGCTGATGGTCGCCGAGTACCGGGCCGGGGAAGCGACGGCGGAAACCATCGTTAGCGCCGCCAGCGGCATTGGCCAGGAGGCAGCATGA	MSASTPLLSLKGITKIFPGVRALENVQLDLWPGKVTALIGENGAGKSTLVKVMTGIYQPEEGEILYKAIPIHLPTPESAHKVGITAIHQETVLFDELSVSENIFVGQYLYKGLFKTLDWPAMHRRAGEILARLEVLIDPRATLKTLSIAQRHMVAIARALAFDAQVVILDEPTAALSQHEILEFYQIVERLKQDGKAILFISHKFDEIFELADYYTILRDGVYVSSGAMSDITEERMVSMMVGRAIDQTYPKVDCTPGETVLEVQDLCHPTEFAHISFSLRKGEILGFYGLVGAGRTELMQALSGVTHPSSGEIRLNGSPMRFRQPADAIRAGIVCVPEERQKQGAIIALPIAQNISLPQLSKLNPNGVLNDAREWRLADEYASRLQVKAFSWRQPVETLSGGNQQKVVIGKWLATHPEVIILDEPTKGIDIGSKAAVHQFMSELVSQGLAVIMVSSELPEVMGMADRIIVMHEGLMVAEYRAGEATAETIVSAASGIGQEAA	PGPT0016705_354	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RHAMNOSE_TRANSPORT,PGPT0016705-rhaT-K10562	NA	NA
BMS020_07283	1008	rbsC_8	COG1172	Ribose import permease protein RbsC	ATGATGGGATACGCATGGCTGAAGTATCGCGAAGCGCTGCTGGCGGTGGTCATCATTTTGATGATCGGCGCCATTGGCAGCCGGGCGCCGTCGTTCGTTTCACCGGGCAATCTGGTGGAGATGTTTAACGATACCGCCATCCTTATCATCCTCGCCCTCGGGCAGATGATGGTGCTGCTCACCAAAGGCATCGATCTGTCGATGGCCGCCAACCTGGCGCTGACCGGGATGATCGTCGCCCTGCTTAACGCCCACTATCCGGGTATTCCGGTGGTGGCGCTGCTGGCGCTGGCAACCCTGCTGGGCCTGCTGATGGGGGTGATTAACGGCCTGCTGGTCTGGCGCCTCGGCATTCCCGCCATCGTGGTGACCCTGGGCACCATGAGTATCTATCGCGGCATTATCTTTCTGCTGACCGACGGCGGCTGGGTTAACTCACATCAGATGAGCGCTGATTTCCTCAGTCTGCCGCGCAGCGCCCTCCTGGGATTGCCGCTGCTGAGCTGGTGCGCCATCGCCGCGCTGCTGCTGGTGGGTTATTTCCTGCGCTACAGCCGCACCGGCCGGGCTTTATACACCGCAGGCGGCAACGCGACGGCGGCGTACTACACCGGTATTAACGCCGGGAAAATGCAGTTCGTCAGCTTCTGTCTCTCCGGCGCGCTGGCCGGCTTCTGCGGCTATCTGTGGATCTCGCGCTTCGCCGTCGCCTATGTCGACGTGGCGAACGGCTTTGAACTGCAGGTGGTCGCCGCCTGCGTGATCGGCGGTATCAGCACCATGGGCGGAAGCGGACGGGTGCTGGGCTGCCTGTGCGGCGCGCTGTTCCTCGGCGTCATCAATAATGCCCTGCCGGTGATCGGCATCTCGCCGTTCTGGCAAATGGCGATTTCCGGGGCGGTGATCGTCATGGCGGTGCTGCTTAACGAGCGCGGCAATCGCGGTCACGGGCGGTTAATCCTGCGTAACGCGGCGCTAGCCCGGCAGAAACAGGGGGTGAAATCATGA	MMGYAWLKYREALLAVVIILMIGAIGSRAPSFVSPGNLVEMFNDTAILIILALGQMMVLLTKGIDLSMAANLALTGMIVALLNAHYPGIPVVALLALATLLGLLMGVINGLLVWRLGIPAIVVTLGTMSIYRGIIFLLTDGGWVNSHQMSADFLSLPRSALLGLPLLSWCAIAALLLVGYFLRYSRTGRALYTAGGNATAAYYTGINAGKMQFVSFCLSGALAGFCGYLWISRFAVAYVDVANGFELQVVAACVIGGISTMGGSGRVLGCLCGALFLGVINNALPVIGISPFWQMAISGAVIVMAVLLNERGNRGHGRLILRNAALARQKQGVKS	PGPT0016690_191	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RHAMNOSE_TRANSPORT,PGPT0016690-rhaP-K10560	NA	NA
BMS020_07284	1005	lsrD_2		Autoinducer 2 import system permease protein LsrD	ATGAGCAAGATGATGGTATCTGAAGAGATGAAAAACGCCCCGGCCGCGCCGTCGCCGCTGCGCCGCCTGCTGTGCTGGGAAGGGTTTTTACTGGCGGTCACCCTGGCGGTATTTATCGGCAACGCCCTGGCTTCCCCTTATTTCCTTAATATCTGGAACCTGTCGGACGCCACCTTCACCTTTACCGAGAAAGCGATCGTCGTCCTGCCGATGGCGATGCTGATTATCGCCCGGGAAATCGATCTGTCGGTAGCCTCGACGATGGCGCTCAGCTCAACGGTGATGGGCTTCTGCGCGGCGGCGGGGATGGATACGCCGCTGCTGGTATTGGTCGGGCTGGGCGTGGGTCTGCTGTGCGGCCTGTTCAACGGTATCCTGGTGACGCGTTTTAACCTGTCGTCGATCGTGATCACCATCGGCACCATGAGCCTGTATCGCGGCATCACCTATATCCTGCTGGGCGATCAGGCGCTCAACCACTACCCGGAGAGCTTTGCCTGGTTCGGCCAGGGGTACGTGTGGGGCGCGCTCTCTTTTGAGTTTGCGCTGTTTATCCTCCTCGCGGCCGCCTTCACCTTCCTGCTGCATAAAACCAACTTTGGTCGCCGGACCTACGCCATCGGCAATAACCCGACCGGCGCCTGGTACTCCGGGATCAACGTGAAGCGCCATAACCTGGCGCTGTTCGCGCTGGTCGGGCTGATGGCCGGACTGGCGGCGGTCCTGCTGACCTCACGGCTCGGCAGTACCCGCCCTACCCTGGCGATGGGCTGGGAGCTGGCGGTTGTCACCATGGCGGTGCTCGGCGGCGTCAATATTCTCGGCGGCTCCGGCAGCATGCCCGGGGTGATCATCGCCGCCTTTCTGATGGGGCTGGTGACCTTCGGCCTGAGCCTGCTCAACGTCCCCGGCATCGTGATGTCGGTGATTATCGGCGCGATGCTGATCGTGGTTATCTCCCTGCCGATTATGACCCGGCGGATGCTGCAGCGAAGACGATGTTAA	MSKMMVSEEMKNAPAAPSPLRRLLCWEGFLLAVTLAVFIGNALASPYFLNIWNLSDATFTFTEKAIVVLPMAMLIIAREIDLSVASTMALSSTVMGFCAAAGMDTPLLVLVGLGVGLLCGLFNGILVTRFNLSSIVITIGTMSLYRGITYILLGDQALNHYPESFAWFGQGYVWGALSFEFALFILLAAAFTFLLHKTNFGRRTYAIGNNPTGAWYSGINVKRHNLALFALVGLMAGLAAVLLTSRLGSTRPTLAMGWELAVVTMAVLGGVNILGGSGSMPGVIIAAFLMGLVTFGLSLLNVPGIVMSVIIGAMLIVVISLPIMTRRMLQRRRC	PGPT0016695_275	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RHAMNOSE_TRANSPORT,PGPT0016695-rhaQ-K10561	NA	NA
BMS020_07285	1149	adhB_3		Alcohol dehydrogenase 2	ATGAGTTTTATGTTGGCACTACCTAAAATCAGCCTCCACGGCGCAGGCGCTATCGGCGATATGGTCAAGCTGGTAGCGGGCAAACAGTGGGGCAAGGCGCTGATCGTCACCGACGGGCAGCTGGTGAAGCTGGGCCTGCTGGACAGTCTGTTTTCCGCGCTGGATGAACAGCAGATGGCATATCAGCTGTTTGACGACGTGTTCCCCAACCCTACCGAAGCGCTGGTGCAGCAAGGCTATGCGGCGTACCAGGCGGCCCGCTGCGATTACCTGATCGCCTTCGGCGGCGGCAGCCCGATTGATACCGCCAAGGCGATAAAAATCCTCACCGCCAACCCTGGCCCCTCCACAGCCTATTCCGGCGTCGGCAAAGTGAAAAACGCTGGCGTGCCGCTGGTGGCCATCAACACCACTGCCGGCACGGCGGCGGAGATGACCAGCAACGCAGTGATTATCGATAGCGAGCGTCAGGTAAAAGAGGTGATTATCGACCCGAACCTGATCCCGGATATCGCCGTCGACGACGCCAGCGTGATGCTCGACATCCCGCCAGCCGTTACCGCCGCCACCGGCATGGACGCCCTGACCCACGCCATCGAGGCCTTTGTCTCCGTTGGCGCCCATCCCCTGACCGACGCCAACGCCCTCGAGGCCATCCGCCTGATCAACCTGTGGCTGCCGAAAGCGGTAGACGATGGACACGATCTGCAGGCCCGCGAGCAGATGGCGTTTGGCCAGTATCTGGCGGGCATGGCGTTCAACAGCGCCGGCCTCGGGCTGGTACACGCCCTGGCCCATCAGCCTGGCGCCACCCACAACCTGCCGCACGGGGTGTGCAACGCCATCCTGCTGCCGATCATCGAAAACTTTAACCGCCCGAACGCCGTGGCGCGCTTCGCCCGCGTGGCGCAGGCGATGGGTGTCGATACCCGCGGCATGAGCGATGAAGCCGCCAGCATGGAGGCCATCAACGCCATTCGCGCGCTGAGCAAACGCGTGGGGATCCCCCAGGGCTTCAGCCAGCTTGGCGTCAGCAAAGCCGATATCGAAGGCTGGCTGGACAAAGCGCTGGCCGACCCGTGCGCGCCATGTAACCCGCGCCCCGCCAGCCGCGATGAGGTCCGCGAGCTCTATCTGGAGGCATTATGA	MSFMLALPKISLHGAGAIGDMVKLVAGKQWGKALIVTDGQLVKLGLLDSLFSALDEQQMAYQLFDDVFPNPTEALVQQGYAAYQAARCDYLIAFGGGSPIDTAKAIKILTANPGPSTAYSGVGKVKNAGVPLVAINTTAGTAAEMTSNAVIIDSERQVKEVIIDPNLIPDIAVDDASVMLDIPPAVTAATGMDALTHAIEAFVSVGAHPLTDANALEAIRLINLWLPKAVDDGHDLQAREQMAFGQYLAGMAFNSAGLGLVHALAHQPGATHNLPHGVCNAILLPIIENFNRPNAVARFARVAQAMGVDTRGMSDEAASMEAINAIRALSKRVGIPQGFSQLGVSKADIEGWLDKALADPCAPCNPRPASRDEVRELYLEAL	PGPT0006375_451	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
BMS020_07286	315	rhaM	COG3254	L-rhamnose mutarotase	ATGATCCGTAAAGCCTTTGTCATGCAGGTGAACCCGGACGCGCACGAGGAGTACCAGCGTCGTCATAACCCCATCTGGCCGGAGCTGGAGGCTACGCTGAAAGCGCACGGCGCGCACCACTACGCCATCTATCTCGATAAAGAACGCCACCTGCTGTTCGCCACGGTGGAGATTGAGTCTGAAGCCCGCTGGGAGGCGGTCGCCAGCACGGAAGTGTGCCAGCGCTGGTGGAAATACATGCGCGAGGTGATGCCCAGCAACCCGGACAACAGCCCGCTGAGCGCGGAGCTCAAAGAAGTGTTTTATCTGGCGTGA	MIRKAFVMQVNPDAHEEYQRRHNPIWPELEATLKAHGAHHYAIYLDKERHLLFATVEIESEARWEAVASTEVCQRWWKYMREVMPSNPDNSPLSAELKEVFYLA	PGPT0017795_1229	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017795-rhaM|rhaU|yiiL-K03534	NA	NA
BMS020_07287	594	lacA	COG0110	Galactoside O-acetyltransferase	ATGATGGATATGAAAAAACGTATGAACAGCGGTGAGCTTTACCTGGATGCAGGATATGGCTTGCCGGAGCAGCGGCTGATGGGTAAAGCGCGGGCCTATGAATATAATCATTCGCATCCGTTTAATCAGGAATTGCGCAACGATATTATTCAGCGCATGTTCGCGAAAGTCGGCGAACAATGCTGGATAGAGCCGCCGATCAATATTGCCTATGGGATCCATACGACGATTGGTGATAATTTTTATGCCAATTTTAACCTCACGCTGGTCGACGATGCGGACATTATCATCGGCAATAACGTCATGTTTGCGCCAAATGTCACTATCTCCACCGCCGGGCATCCCATCCACCCCGCGCTGCGCCATACGCATCAACAGTTTTCATTACCGGTGGTGATTGAAGATGGGGTTTGGTTAGGCACGGGGGTGATTATTAATCCCGGGGTAACGATTGGCCAGAATTCAGTCATAGGCGCGGGCAGTGTGGTCAATCGCTCCATACCGGCGAATGTGGTTGCCGCAGGCGTACCTTGCCGGGTATTAAGAGAAATTACCGATGCGGATAAAGACAAATACGTACTTTTTCCCGGATGA	MMDMKKRMNSGELYLDAGYGLPEQRLMGKARAYEYNHSHPFNQELRNDIIQRMFAKVGEQCWIEPPINIAYGIHTTIGDNFYANFNLTLVDDADIIIGNNVMFAPNVTISTAGHPIHPALRHTHQQFSLPVVIEDGVWLGTGVIINPGVTIGQNSVIGAGSVVNRSIPANVVAAGVPCRVLREITDADKDKYVLFPG	PGPT0014340_159	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-BIOFILM_FORMATION_RESPONSE,PGPT0014340-lacA-K00633	NA	NA
BMS020_07288	1266	melY		Melibiose permease	ATGAACCCGACCGTCTGTACCCACAAAAACAACCCCAACTTCTGGATTTTCGGGCTGTTCTTCTTTCTCTACTTCTTCATCATGGCCACCTGCTTTCCGTTTCTGCCGATCTGGCTGTCGGACGTCATCGGCCTGAATAAAACCGAAACCGGCCTCGTTTTCTCCAGCCTGTCGCTGTTCGCCATCTGTTTCCAGCCGATCCTCGGGGTGATCTCTGACAAGCTGGGGCTGAAAAAACACCTGATGTGGATCGTGACCGTTTTGCTGGTGCTGATTGCTCCCTTCTTCCTTTATGTTTTCGCTCCGCTGCTGAAAACCAATATCTGGCTCGGGGCGTTGAGCGGCGGCGCTTACATTGGCTTTGTGTTCTCCGCCGGCGCCGGCGCGATGGAGGCCTATATCGAACGGGTAAGCCGCAACAGCGGGTTTGAATACGGCAAGGCGCGCACCTTTGGTTGCCTGGGCTGGGCGCTGTGCGCCACCACTGCGGGGATGCTGTTCAGCGTTAACCCGGAGTGGGTGTTCTGGATGGGCTCGGCCGCCGCGCTGCTGCTGGTGGTGCTGGTGGCTATCGCCAAACCGCAGGCCAGTCAGTCCGCGCAGGTAATGGACTCGCTCGGCGCCAATCGCCCGGCGATCGATTTAAAAACGGCGGTGCGCATGTTCCGCCAGCGGAAGATGTGGATGTTTATTCTGTACGTCATCGGCGTAGCCTGCGTGTATGACGTTTTCGATCAGCAGTTCGCCACCTTCTTCAAATCGTTCTTCGCGACCCCGGAAGCAGGCACCCGTGCCTTTGGTTTCGCCACCACCGCGGGAGAAATTTGTAACGCCATCATTATGTTCAGCTCGCCGTGGATTATTAACCGCATCGGGGCGAAGAATACCTTGCTGATTGCCGGGATGGTGATGGCGGCAAGAATGATTGGCTCTTCCTTCGCCACCACCGCCGCGGAAGTGGTGGCGCTGAAAATGCTCCATGCTCTGGAGGTGCCGTTCCTGCTGGTGGGCGCCTTTAAATATATTACCGGCGTGTTTGACGTCCGGCTGTCGGCGACCATTTACCTGGTGGGCTTCCAGTTCGCCAAGCAGGTGGCGGCGATCTTCCTCTCCGCCTTCGCCGGCAATATGTATGATCGGATCGGTTTCCAGGAGACCTATATGATCCTCGGCGGTATTGCCCTCACCGTCACTTTAATATCGGCGTTTACGTTAGCGGGTAAGACGAAAACTGAGCCGCTGCGCGATAATGCGATGACGGTTTAA	MNPTVCTHKNNPNFWIFGLFFFLYFFIMATCFPFLPIWLSDVIGLNKTETGLVFSSLSLFAICFQPILGVISDKLGLKKHLMWIVTVLLVLIAPFFLYVFAPLLKTNIWLGALSGGAYIGFVFSAGAGAMEAYIERVSRNSGFEYGKARTFGCLGWALCATTAGMLFSVNPEWVFWMGSAAALLLVVLVAIAKPQASQSAQVMDSLGANRPAIDLKTAVRMFRQRKMWMFILYVIGVACVYDVFDQQFATFFKSFFATPEAGTRAFGFATTAGEICNAIIMFSSPWIINRIGAKNTLLIAGMVMAARMIGSSFATTAAEVVALKMLHALEVPFLLVGAFKYITGVFDVRLSATIYLVGFQFAKQVAAIFLSAFAGNMYDRIGFQETYMILGGIALTVTLISAFTLAGKTKTEPLRDNAMTV	PGPT0016855_246	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_LACTOSE_TRANSPORT,PGPT0016855-lacY|MFS_transporter|OHS_family|lactose_permease-K02532	NA	NA
BMS020_07289	2124	rafA		Alpha-galactosidase	ATGTCTGATTCGATTATACGCCTGCAAAGCGCAACGGCTGACGTGGTGATCAAAACCCACCCTTTCGCCGAAATTATCTACTGGGGGCCGCATTTAAGCCACTTTTCGCCGCAGGATGCCGACAGCCTGACGCGGCCGGTCGCCAATGGCCGCCTCGACGTCGATTCCCCGGTCACCTTAATGGCGGAGCTGGGCCATGGTCTGTTTGGCGCTCCGGGCATTGAAGGCCATCGCCAGGGGCTGGATGCCTCGCCGATTTTCGCCACCAGCGAAGTGCGGCACGAGGGCCAGACGCTGACCCTGGTCAGCGAAGACCCGCAGGCCGGCCTGCGGTTGTGCAGTGAAATCCAGCTTGATAGCAGCGGCGTGCTGAGCGTGCGCCATGGCGTGACCAATTTGCGCGCCAGCCCATGGCAGGTGGATCGCCTGGCGGTCACGCTGCCGGTCGCCGAACGCGCTCGCGAGGTAATGGCTTTTCACGGCCGCTGGATCCGCGAATTCCAGCCCCATCGTCTGCTCCTTGAACACGACAGCTTTGTGCTGGAGAACCGCCGCGGGCGTACCTCTCACGAACATTTCCCGGCCTTGATCACCGGCAGCCACGCCTTTAGCGAGATGCAGGGTGAAGTCTGGGGCGTGCATCTGGGCTGGAGCGGCAACCATCGCCTGCGGGCGGAGGTGAAAACCGATGGCCGCCGCTATCTGCAGGCCGAGGCGCTCTATCTGCCTGGCGAAATGGCGCTGGCGGAAGGGGAAACCTTATGGACGCCGTACCTGTATGCCAGCTACTCGGCGAACGGGCTGAACGGTATGAGCCAGCAGTTCCATCGTTATCTGCGCGAACGGATTATTCGCTTCCCGGGCAACAAGCCGCGCCCGGTGCATCTCAACACCTGGGAGGGGATCTATTTCGACCACGATCCGGACTACATCATGCGCATGGCGGATGAAGCAGCGGCGCTGGGCGTGGAGCGTTTTATCATTGACGACGGCTGGTTTAAAGGTCGCAACGACGACTGGGCGGCGCTCGGCGACTGGTATCTCGATGAGGACAAATATCCCCACGGCCTGACGCCGGTTATCGACCACGTGAAGTCGCTGGGGATGGAGTTCGGCATCTGGGTGGAGCCTGAGATGATTAACCCGAACTCCGATCTCTACCGCGCCCATCCCGACTGGCTGCTGGCGCTGCCGGGCTATACGCCGCTTCCCGGGCGTCATCAGTTTGTCCTGAACCTGAATATTCCGGAAGCTTTTGATTATCTGCTGGAGCGGATGAGCTGGCTGCTGGGCGAGCACGCGGTGGATTATGTGAAGTGGGATATGAACCGCGAGCTGGTACAGCCCGGGCATAACGGTAAAGCTGCCGCCGATGCGCAAACCCGCCAGTTCTATCGCCTGCTCGATACGCTGGTGGCCCGCTTCCCGCATATTGAATTTGAATCCTGCTCCTCCGGCGGCGGTCGTATCGATTATGAAGTCCTCAAGCGCAGCCATCGCTTCTGGGCTTCTGACAACAATGACGCCCTTGAACGCAATACCATCCAGCGCGGCATGAGCTACTTCTTCCCGCCGGAGGTGATGGGCGCGCACATCGGTAATCGCCACTGTCATGCCACCTTCCGCCAGCACAGTATCGCCTTCCGCGGCCTGACGGCGCTGTTCGGTCATATGGGGCTTGAGCTGGATCCGGTGAGCGCCGATGAAGAAGAACGCGCCGGTTACCGGAAATACGCGGCCCTGCATAAGCAGTGGCGCGACGTGATCCATCACGGCGTGCAGTGGCGGATGGATATGCCGGATGCCACCACCCTTGCCCATGGCGTCGTCAGCCCGGATAAAGCGCAGGCGATTTTCCTCGTCAGTCAGCTGGCGATGCCGGACTACACCCTGATGGCGCCGCTGCGCCTGGCAGGGCTGGAGGCGAGCGCCCGCTATCAGGTGACGCTCCTCGATCATCCGAACATACAGATTACCGGCGAGGGCGGCCACACCATGCGGAAGCTGCCGGCATGGATGACGACGCCGCAGACCGTAAGCGGTGAGTGGCTACAGCAGGCGGGGTTGGCGCTGCCCATCCTCGACCCGGAAAGCGCCATTCTGATTGGCCTGCAACGCGTGTGA	MSDSIIRLQSATADVVIKTHPFAEIIYWGPHLSHFSPQDADSLTRPVANGRLDVDSPVTLMAELGHGLFGAPGIEGHRQGLDASPIFATSEVRHEGQTLTLVSEDPQAGLRLCSEIQLDSSGVLSVRHGVTNLRASPWQVDRLAVTLPVAERAREVMAFHGRWIREFQPHRLLLEHDSFVLENRRGRTSHEHFPALITGSHAFSEMQGEVWGVHLGWSGNHRLRAEVKTDGRRYLQAEALYLPGEMALAEGETLWTPYLYASYSANGLNGMSQQFHRYLRERIIRFPGNKPRPVHLNTWEGIYFDHDPDYIMRMADEAAALGVERFIIDDGWFKGRNDDWAALGDWYLDEDKYPHGLTPVIDHVKSLGMEFGIWVEPEMINPNSDLYRAHPDWLLALPGYTPLPGRHQFVLNLNIPEAFDYLLERMSWLLGEHAVDYVKWDMNRELVQPGHNGKAAADAQTRQFYRLLDTLVARFPHIEFESCSSGGGRIDYEVLKRSHRFWASDNNDALERNTIQRGMSYFFPPEVMGAHIGNRHCHATFRQHSIAFRGLTALFGHMGLELDPVSADEEERAGYRKYAALHKQWRDVIHHGVQWRMDMPDATTLAHGVVSPDKAQAIFLVSQLAMPDYTLMAPLRLAGLEASARYQVTLLDHPNIQITGEGGHTMRKLPAWMTTPQTVSGEWLQQAGLALPILDPESAILIGLQRV	PGPT0018835_1361	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407	NA	NA
BMS020_07290	996	rafR		HTH-type transcriptional regulator RafR	ATGTCGCTGAAAGCCATTGCTAAAGAACTTGGGATCTCGGTTACGACCGTCAGCCGCGCGTTAAACGGCTATGATGATGTGTCGCAGGAGACCCGTGCTCGCGTCGAGGCTGAAGCGCAGCGTCGCGGATATCGGCCAAACACGTTCGCGCGTCGCCTGAAAATGGGCAAAATCGACGCCGTTGGCCTCGTGTTCCCGGTGCGCCCCGCGCCGCTGAATAACAACGTCTTTCTCGAAATGGTGGGAGAAATCAGCCACGAACTGGCGCGCTATGAGATTGATTTACTGCTGATCGCCGATGATGAACAGGCCGATAAGCACGGGTATATGCGCATGGTGCAGAGCCGTCGCGTCGATGCGCTGATCGTCGCGCATACCCTGGACGACGACCCGCGCCTGATTCAGCTGCTCTCTTCCGGCTTTCCTTTCCTCGCGCTGGGCCGTAGCCGCCTGCCGCAGCCCTACGCCTGGTTTGATTTCGATAACCAGGCGGGCACCTACCGCGCCACCCGCCATCTGATTAGCCAGGGGCATCGGCGCATCGCGCTGCTGAGTGAAAATAATAATCAGGCGTTTATTACCCAACGGCGCAACGGTTACCTGGAAGCCCTGCGCGAAGCGGGCCTGGCGGAAACCTGGCTGCGCAGCGTGCCGCCCACCCGCCGCGGCGGGTTTCAGGCAACGATGGAGCTGCTGCGCTTGCCTGAACCGCCAACGGCGATTGTCACCGACTGCAACACCCATGGCGACGGCGCGGCGATGGCCCTGGCTCAGCTCGGGCGTCTTACCGGCGCCGATCGCGTCTCACTGGTGGTCTACGACGGTTTGCCGCAGGACAGCATCATCGACACCCCGGTAGGCGCAGTGGTTCAGTCCACCCGACAGGGGGTGGGACGCCAGATAGCCACGATGGTCCGCCGCTTAATCGCCGGCGAGGATCTGGCCTCGCTCCAGGTGCTCTGGCAGCCCGAATTCATCCCCGGCGAAACCGCCTGA	MSLKAIAKELGISVTTVSRALNGYDDVSQETRARVEAEAQRRGYRPNTFARRLKMGKIDAVGLVFPVRPAPLNNNVFLEMVGEISHELARYEIDLLLIADDEQADKHGYMRMVQSRRVDALIVAHTLDDDPRLIQLLSSGFPFLALGRSRLPQPYAWFDFDNQAGTYRATRHLISQGHRRIALLSENNNQAFITQRRNGYLEALREAGLAETWLRSVPPTRRGGFQATMELLRLPEPPTAIVTDCNTHGDGAAMALAQLGRLTGADRVSLVVYDGLPQDSIIDTPVGAVVQSTRQGVGRQIATMVRRLIAGEDLASLQVLWQPEFIPGETA	PGPT0017992_14003	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
BMS020_07291	549	sutR_3	COG1396	HTH-type transcriptional regulator SutR	ATGACACAGCCAATCAGCGTTATCGCCAAAAGCCTGGTGCGGGAGCGGGCGCGGACCGGGCTTTCGCTGGCGGAAGTCGCGCGTCGGGCGGGTATCGCCAAATCCACGCTATCGCAACTGGAGTCCGGCAACGGTAATCCTAGTCTGGAAACGCTGTGGTCGCTCTGCGTGGCGCTGGATATTCCATTTGCCCGGCTGCTTGAGCCGCAGGTGAACAAAACGCAGGTGATCCGCCGCGGCGAGGGGACAAAAGTGGTGGCGGAGCAGGCGAACTATCAGGCTATTTTGCTGGCCGCCTGCCCGCCCGGCGCACGTCGGGACATCTATTTGCTGCTCACCCAGCCCGGCGCCGACCGCATTTCGCATCCGCATCCGCCAGGGTCAGTGGAACATATTATCGTCACTCAGGGGCGCGCGCGGGTAGGATTGACGTCGGCGCCGGAAGAGCTCGGCGAGGGCGACTATATCTGCTACCCGGCGGATCAGGAGCATGTGTTTCAGGCCCTGGAGCCGGATACGCAGGCGCTGCTGATCGCTGAGCAAAACTGA	MTQPISVIAKSLVRERARTGLSLAEVARRAGIAKSTLSQLESGNGNPSLETLWSLCVALDIPFARLLEPQVNKTQVIRRGEGTKVVAEQANYQAILLAACPPGARRDIYLLLTQPGADRISHPHPPGSVEHIIVTQGRARVGLTSAPEELGEGDYICYPADQEHVFQALEPDTQALLIAEQN				NA	NA	NA	NA	NA
BMS020_07292	660			hypothetical protein	ATGAAACAAACTCTCTCCAGTCTCAGCGGAGACACGATAAAAGCGATTGCTTTAGTTTGCCTCGCCGTCGGGGTGGTGGGCATGTCCTATGGGTCGCTGGCGGTGGCTTACGGCTTCCCCTTATGGGTGCCGCTCGTGCTTTCGGTGTCCGTGCTGGCGGGCGCCTCTGAATTTATGTTTATCGGCATTGTCGCCAGCGGCGGTAGCCCACTGGCCGCCGCCGCCGCTGGCCTGTTAGTCAACGCGCGTCATATCCCTTTCGGGGTGACCGTGCGTGAACTGGTGGGTCAGCGCGCCTTAAGCTTTATCGGGTGCCACATTATGAACGACGAGAGCGTGGTCTTTGGCTTGTCGCAGCCCACCCCCGCGCAGCGCAAAGCGGCCTACTGGCTGTGCGGCGCCGGCGTGGCGCTGATCTGGCCTTTGGGTACGCTCACCGGCGCCGCCGTCGGCAAACTGCTGCCGGCGCCGGAGACCATCGGGCTTGATGCGGTCTTCCCGGCAATCCTGCTGGCGCTGGTGATCCCGGCCTTTAAAAACCGTACCACGCTGATCCGCGCCGCCAGCGGCGCCGCGCTGGCGCTTGCCGCCGTGCCGTTTGCGCCTACCGGGCTGCCGGTGCTGCTCTCGCTGTTTGGTTTACTGTCGAGGAAAAAATAA	MKQTLSSLSGDTIKAIALVCLAVGVVGMSYGSLAVAYGFPLWVPLVLSVSVLAGASEFMFIGIVASGGSPLAAAAAGLLVNARHIPFGVTVRELVGQRALSFIGCHIMNDESVVFGLSQPTPAQRKAAYWLCGAGVALIWPLGTLTGAAVGKLLPAPETIGLDAVFPAILLALVIPAFKNRTTLIRAASGAALALAAVPFAPTGLPVLLSLFGLLSRKK				NA	NA	NA	NA	NA
BMS020_07293	324			hypothetical protein	ATGGGCAATATGACGCTGTTTATCGCCGGTATCGCCATCCTGTCGCTGGGAACCTATCTGATGCGTCTTGGCGGCGCGAAGCTTGGTAATCGGCTGGCCTTTTCCGAGCGCTCGCAGGCGCTGCTTTCCGATGCGGCGACGGTGCTGCTTTTTTCCGTCGCCCTGGCCACCACTTTCTATGAAGGCGCACATTTCGCCGGCATGGCGCGCGTTCTGGGCGTTGCCGTCGCGGTGTTCCTCGCCTGGCGCAAGGTGCCGCTGATCGGCGTAATTATCGCCGCGGCGGTGGTGACGGCGCTGCTGCGGCTGGCGGGTATGCCCTAG	MGNMTLFIAGIAILSLGTYLMRLGGAKLGNRLAFSERSQALLSDAATVLLFSVALATTFYEGAHFAGMARVLGVAVAVFLAWRKVPLIGVIIAAAVVTALLRLAGMP				NA	NA	NA	NA	NA
BMS020_07294	594			hypothetical protein	ATGAACAGACATCTGACCCCAGTCTGCAAAACGGCTATTTTAATCAACGGCATTCCGGCTTCGGGGAAGAGTACCATCACCCGTTTGCTGGCGGAGACCTTCAGCCTGCCGGTATTGACGATCGACGGCATCAAAGAGCCTTTTATGGCGCGTCTGGCCCCGGTCGACCGGCCAATGAATCGCCAACTGGGCTGTGCGGCGTATGAGGTGATCTGGTCGATTGTCGGCGCATCGCCTGCCAGCATGGTCTGGTTGATCGACGCCTGGTTCGGCTTCCAGCCCCGGGAGACCTTGCAAAAATTGCTGCAGCAGGCGGGCGTGGAGCAGGTGATTGAGATCTGGAACCATATCTCCCCCGAGCTGGCGGTCGCGCGCTATGCCTCGCGGCTGGCGACGCGGTCGCCGGGCCACCCCGGCGAAGAGTATCTGCCGGAGCTGGCCCAACTGGCCGGGCGTGCGCAGCCCATGTCTTTAGGGCCCCTTCTGACGATAGACCAGCGGCGCCCGCTGGAGATAACGCCGGTTATTCACTGGCTTGAAGGCACAATTAGCGGACAACGCACCGGCCTGGCGAATTTCGCATACCCGTCCTAG	MNRHLTPVCKTAILINGIPASGKSTITRLLAETFSLPVLTIDGIKEPFMARLAPVDRPMNRQLGCAAYEVIWSIVGASPASMVWLIDAWFGFQPRETLQKLLQQAGVEQVIEIWNHISPELAVARYASRLATRSPGHPGEEYLPELAQLAGRAQPMSLGPLLTIDQRRPLEITPVIHWLEGTISGQRTGLANFAYPS				NA	NA	NA	NA	NA
BMS020_07295	438	ulaC	COG1762	Ascorbate-specific PTS system EIIA component	ATGACCATAAAAGAACTGCTTATTGAGGCCGATGCCATTCAGGTTGGCGTTGTGGAGTCCGACTGGCAGCGGGTAATAAAGCTGGCTGCCCGCCCGCTGGAGGCAAAAGGCTTTATTTCGACCGAATATAGCCAGGCGGTGATCGACAATACCCTGAACCATGGCGCCTATTACGTTTTCGATGAAGGTATTGCTATCCCCCATGCCCGACCCGAGTGCGGCGTCAGACGCAACTGCTTTAGCCTGGTGCTGTTGGAAAAGCCGATTCCCTTTGCAGACAGTGAAAAGGCCGACATCGTCATTATGTTTGGCGCCCGGGATAGCAATGCGCATATCGAGGAGGGGATCCGCTCCATCGTCGCGCTGCTGGATAACAATGACACGATGGCCAAACTGCGGATGGCCCGCAGCCGGGAGGAGGTTGTCGCATTACTATGA	MTIKELLIEADAIQVGVVESDWQRVIKLAARPLEAKGFISTEYSQAVIDNTLNHGAYYVFDEGIAIPHARPECGVRRNCFSLVLLEKPIPFADSEKADIVIMFGARDSNAHIEEGIRSIVALLDNNDTMAKLRMARSREEVVALL	PGPT0017115_1022	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
BMS020_07296	270			hypothetical protein	ATGTTTGAATCATTGAAAACGTTGTGGAAAAAAGAGCAAACCCCGCTGCAGGATTATGATCAACAGTCCCGTCAGTTGGCGGAGGAGATTGTCAGGCTGGAAGGCGAACTACAGCGCCAGCCTGGCAATAGCGAGGTGCAAAAAACATTGATGCTGACTTACAACCGGGCGCTATCCATATATGCCAAAAGCACCACCCACCGGCAGGATATTGATACGCTGTTTCTGCAGATTGATAATTTACGCAATATTATTCGCCGCAATATTTAG	MFESLKTLWKKEQTPLQDYDQQSRQLAEEIVRLEGELQRQPGNSEVQKTLMLTYNRALSIYAKSTTHRQDIDTLFLQIDNLRNIIRRNI				NA	NA	NA	NA	NA
BMS020_07297	849	fbaA_2	COG0191	putative fructose-bisphosphate aldolase	ATGTTCATGAGTCTGTATAATTTCAATGAGATTTTAAAAATCGCCCAAGAGAGAAATTTTAAAGCGATTGGCTCGTTTAACTTGCACTGTATTGAGATGCTACCGGCATTTTTCAAAGCCGCGCAAAACAGCCACAGCCCGTTAATGATCCAAATTTCAACCGGGACCGCGGAGTACCTCGGCTATCGTTTGCTGGTCGACGCCGTGCGTTCATTAGCGGACAGTGAAAATATTCCAACCTGTCTGCATCTTGACCACTGCTCAGATATTAAGGCCATCGAGACGGCAATGAACGCGGGCTTTTCGTCGGTGATGTACGACGGCTCACATTTAAGCCTTGAGGAAAATATCGGTAATACGCGAATAGTGGTGGAGATGGCCCGCCCGCGCAATATTACGGTAGAAGGCGAACTGGGGGCGATCGGCGGGTCAGAGGATGGAAAAGCGGTGGCGGCGGAAGATATCTGCTTTACCACCGTCGAAGACGCGAAACGCTTTGTGGAGGAGACCCAGGTCGATATGCTGGCCGTCTCGGTGGGCACTGTGCATGGCCTCTACACCGGTAAAGCGCAGATACAGCACCAGCGGCTGAAACAGATTAGCGCGGCGACCGGCGTGCCGCTGGTGCTGCACGGCGGTACCGGCGTCAGCGATGAGGATATGCGGCTGGCCGTCACCGAAGGGATTAATAAAGTGAACGTCGGGACGGAAATGAACGTGCAGTGGGTTGACCGCTGTAAAACGACGTTTGAGAAAGGGAAAGTGAATGACAGCGTACGGAAATTCTTAATTCCCGCCAACCAGGCTGTCACTGATGTCTTAATGGAAAAAATGGCGTTATTTAAATAA	MFMSLYNFNEILKIAQERNFKAIGSFNLHCIEMLPAFFKAAQNSHSPLMIQISTGTAEYLGYRLLVDAVRSLADSENIPTCLHLDHCSDIKAIETAMNAGFSSVMYDGSHLSLEENIGNTRIVVEMARPRNITVEGELGAIGGSEDGKAVAAEDICFTTVEDAKRFVEETQVDMLAVSVGTVHGLYTGKAQIQHQRLKQISAATGVPLVLHGGTGVSDEDMRLAVTEGINKVNVGTEMNVQWVDRCKTTFEKGKVNDSVRKFLIPANQAVTDVLMEKMALFK	PGPT0017615_5246	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
BMS020_07298	1368	ulaA_2	COG3037	Ascorbate-specific PTS system EIIC component	ATGAATAGCTTCGTTGCGTTTATCGTTAAGGATTTACTTGGTCAGGCATCTATTCTTATTGCTTTTATTGCCATGCTTGGCCTGATCCTGCAAAAGAAATCCCCGGGCAAAACCGCGGAAGGGACGTTTAAAACGCTGCTCGGCTTCTTAATTATGATGGCCGGGATCAACATCATTGTCGCCACGCTAACCTTCCTCAACGATATCTTCACCCAGGGGTTTGGCATGAAGGGCTACATTACCGATGTGGCCGCCATCGCCGGGTTAGCGAATCGTGAATTAGGTTCGGAAGTGGCGCTGACGCTGCTGGTGATCTTTGCCGTCAATATAATTATCGCCCGTCTGACGCCGCTAAAATATATTTTCCTGACCGGTCAGGCGCTGCTGTGGATGGCGACGATCGGCGCCGTGATTGGCTATAAATCCGGGCTCACCGGCGTACCGCTGATTTTAACCGGGGGCATCTTCGGCGGCGTGATGGCGGTGTTAATGCCGGCCCTGGCGCAGCCGGTGGTCAGGCGCATAACCGGGTCTGACGACGTAGCCCTGGGGCACTTCTGTACCATCGGTTATCTGGTGCAGGCCGCCGTCGCGAAGGTCGTCGGCAAAGGTTCCCGCTCCACGGAAGATCTCGAGCTGCCTGATAACTTTAAGTTTCTGCAGGATACCTATCTGGCCATGGCGGTGGTGATGGTGCCGATGTATCTCATCCCGGCTATCGCGGCAGGCCCGCAGTACATCGCGCAGTTCTCCGGCGGGATTAACTACCTGATGTATGCCTTTATGCAGTCCATTCAGTTTGTCGCCGGGGTTTTTGTCCTCTATAGCGGCGTGCGTTTATTGCTCAATGAGCTGGTGCCGGCCTTTCGCGGTATCGCGATGCGTATTGTTCCGGATGCGAAGCCGGCTCTCGATTGCCCGGTACTGTTTCCTTATGCGCCGAATGCGGTGATTGTCGGATTTCTGGCGACGACCGTCGGCTCGATTATCGGCATGCTGATCTTCCCAATGTTCGGTCTGGCGATGATCCTCCCCGGGCTGTTAACCAACTTTTTCGCCGGCGGCACGGCAGGGGTATTTGGCAACGCGCTGGGCGGACGCCGCGGGGCGATGATCGGCGGGGTTATTCACGGTCTGTTTATTACGTTTCTGCCGGCCATTCTGGTGCCCATGCTGGAGAGTTACGGCTTTACGGGCGTCACCTTCAGCGACTCTGACGTCATCAGCTCGGGTCTGGTATTAGGCCACGCCTTCCAGAATAACTGGCTCTTTGTCGCCTTATTTATTGTGTTTGTCGCCGCACTGGCATGGTTTGTCAACGGGAAATCCGCTAAGCCGAAAGGGGAAAATGTTCATGAGTCTGTATAA	MNSFVAFIVKDLLGQASILIAFIAMLGLILQKKSPGKTAEGTFKTLLGFLIMMAGINIIVATLTFLNDIFTQGFGMKGYITDVAAIAGLANRELGSEVALTLLVIFAVNIIIARLTPLKYIFLTGQALLWMATIGAVIGYKSGLTGVPLILTGGIFGGVMAVLMPALAQPVVRRITGSDDVALGHFCTIGYLVQAAVAKVVGKGSRSTEDLELPDNFKFLQDTYLAMAVVMVPMYLIPAIAAGPQYIAQFSGGINYLMYAFMQSIQFVAGVFVLYSGVRLLLNELVPAFRGIAMRIVPDAKPALDCPVLFPYAPNAVIVGFLATTVGSIIGMLIFPMFGLAMILPGLLTNFFAGGTAGVFGNALGGRRGAMIGGVIHGLFITFLPAILVPMLESYGFTGVTFSDSDVISSGLVLGHAFQNNWLFVALFIVFVAALAWFVNGKSAKPKGENVHESV	PGPT0017105_741	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
BMS020_07299	315			hypothetical protein	ATGCTGAAAATTTTATGCGTATGTGGCTGCGGCCTCGGTTCAAGCTTTGCCATTGAAATGACGGCGAAGGCAGTTTTAAAAAAGCTGGAAATTCCCGCTCATATTGAACACACCACCGTATCCGAAGCCGGAGCCTTTAAATCGGATATGATTTTGACGCAAAAAACCTTTGCCGACATCTTAACTGCCGATGCCACTGAAGAGGAAATTAAACGCGTCGTGGTGCTCAATAAACTTACGGATAAAGAGGAAATTGAAACCAAAATCGTCGCATTCTTAAAAGAACGTCATCTGAAGGTGGCTGATTATGAATAG	MLKILCVCGCGLGSSFAIEMTAKAVLKKLEIPAHIEHTTVSEAGAFKSDMILTQKTFADILTADATEEEIKRVVVLNKLTDKEEIETKIVAFLKERHLKVADYE	PGPT0017110_132	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
BMS020_07300	981	pfp_2	COG0205	Pyrophosphate--fructose 6-phosphate 1-phosphotransferase	ATGAAAATTGGCATCGTTATTAGCGGCGGGGATGTTTCGGGAATGAATAATTTTATATTCCAGATTGCCAGGCAGGCTGATGCCGAGATCACCCTGTTTAATGGCGGTATTCCTGGCCTGCTGGAGAAAAATCATCAGGATATCGCGTGGCGCGATCTGGTTGATTTCTCTATTACCGCTGTGCCGATCATTACCTCCGGACGCACCAGTCGCAAACTGCAGCGCAGCGAATATGAAATGATTGCTAAAAAACTTAAATCGTTGCGTATTGATGTGCTTATTATGGCCGGGGGGGATGGCAGCCTGCAGTTTCTCAATACCCTAAGTGAATTTGATATTAATTGCTTTGGCGTGGGAATGACTATCGATAATGATGTGTATGGCAGTGATTATACGATTGGTTTTTCCACGGCCTGCGAGCAGATTATTAAAGAAGTCTCCCGTTTAAGAAATACCGGAAGAGCGCTGCCGGGGCGGGTTTTTATGGTTGAGATATTAGGAGGTTATTGTGGAGAACTAACGTTACAGTCCGCCATTAAATGCAATGCGGATATTGCCCTGATTCCGGAGGCGCAGATGCCGCTGGCCATGCTTGCGGAACGGATTACCCGGAAGCTGAGCATGCAGAACAGCGTCGTTATCCTCTGCTCAGAAGGCTACACCAAAGAGTACTCTCCCGGCTTTCAGGGTGCGATTGATACCATGATCAAACAGCTGGAACCGCAAATTGGCGTCCGTATCCGTAAAACGATTGTCGGCTATGGCTTACGCAGCGGTGAACCGACCTGTGAAGAGATTTATCAGGGCACCATTATGGCCAGTGAGGTGGTTCGCTGTATTCAGTCAGGTATGAAAAATAAAGCCATAATAATTAATTCCAGTAATAAACCTATTCCGATTGATTTAGTCAGTATGAAAAAACGTCTGGTCGATACTGAAGGACATCATTATAAACTTGCCAAGCAACTCAATATTATTTGA	MKIGIVISGGDVSGMNNFIFQIARQADAEITLFNGGIPGLLEKNHQDIAWRDLVDFSITAVPIITSGRTSRKLQRSEYEMIAKKLKSLRIDVLIMAGGDGSLQFLNTLSEFDINCFGVGMTIDNDVYGSDYTIGFSTACEQIIKEVSRLRNTGRALPGRVFMVEILGGYCGELTLQSAIKCNADIALIPEAQMPLAMLAERITRKLSMQNSVVILCSEGYTKEYSPGFQGAIDTMIKQLEPQIGVRIRKTIVGYGLRSGEPTCEEIYQGTIMASEVVRCIQSGMKNKAIIINSSNKPIPIDLVSMKKRLVDTEGHHYKLAKQLNII	PGPT0017595_2552	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
BMS020_07301	213			hypothetical protein	ATGAAAAGCATCAAAACTTTTGTCGCAGTAATCGCTATGGCCGCCTCTTTTGCTTCCTTCGCTGCTGAAACCGTCACCGCTACCGCGACAACGATGGACGGCGCGGAAGCGAAAATCGCCGCACAGGCCCAGGCAGCAGGCGCCTCGTCTTACAAAATTACCGAAGCGTTTACCGGCAACCGCGTGCATATGACTGCGGAACTGAACAAATAA	MKSIKTFVAVIAMAASFASFAAETVTATATTMDGAEAKIAAQAQAAGASSYKITEAFTGNRVHMTAELNK	PGPT0015005_279	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0015005-comC|ycfR|bhsA-K12151	NA	NA
BMS020_07302	837	fdhD	COG1526	Sulfur carrier protein FdhD	GTGAACAAGAAGCCTCTCGAACAAATCGAAAATGTGACGAACATCACAGGATATCGCCAGGTCTCCCTCTGGAAGCGCGAGGATCTGCAACACCCTCAGCCAGATGAGTTAGCGGAAGAGGTCCCCGTCGCGCTGGTCTACAACGGTATCTCCCACGTAGTGATGATGGCCACGCCGAAAGACCTCGAGCAATTCGCCGTCGGCTTCTCCTTATCCGAAGGGATTATTGAGCATCGGCGGGAGATTTTCGGCATGGACGTGGTGTCGATGTGCAACGGCCTTGAAGTGCAGATTGAACTCTCCAGCCGGCGTTTTATGGGGCTCAAAGACCGGCGTCGCGCGCTGGCCGGGCGCACCGGCTGCGGGGTATGCGGCGTCGAGCAGCTCAATGATATTGGTAAGCCGGTCCAGCCGCTGCCGTTCACCCAGACGTTCGATCTCGCCAACCTCGACCAGGCTCTGGCGCATCTTAACGACTTTCAACCGATCGGCCGACTCACCGGCTGCACCCACGCGGCCGCCTGGGTCCGGTCGACGGGCGAACTGGCGGGCGGTTTTGAAGACGTCGGCCGGCATGTGGCGCTGGATAAACTGCTCGGCCGGCGGGCGGAAATCGGCGAGGGCTGGCTGCCTGGCGCCGCGCTGGTATCCAGCCGCGCCAGCTATGAAATGGTGCAGAAAGCCGCGATGTGCGGCGTCGAGATCCTGTTCGCGGTATCAGCAGCTACCACCTTAGCGGTGGAAGTCGCCGAGCGCTGCAACCTGACGCTGGTGGGCTTTTGCAAGCCGGGCAGGGCGACGATCTACACCCACCCGCAGCGTTTGAATGCGGGTTAA	MNKKPLEQIENVTNITGYRQVSLWKREDLQHPQPDELAEEVPVALVYNGISHVVMMATPKDLEQFAVGFSLSEGIIEHRREIFGMDVVSMCNGLEVQIELSSRRFMGLKDRRRALAGRTGCGVCGVEQLNDIGKPVQPLPFTQTFDLANLDQALAHLNDFQPIGRLTGCTHAAAWVRSTGELAGGFEDVGRHVALDKLLGRRAEIGEGWLPGAALVSSRASYEMVQKAAMCGVEILFAVSAATTLAVEVAERCNLTLVGFCKPGRATIYTHPQRLNAG	PGPT0019920_10	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_PHENYLACETATE_DEGRADATION,PGPT0019920-padA-K18360	NA	NA
BMS020_07303	588	fdoG_1	COG0243	Formate dehydrogenase-O major subunit	ATGCAGGTCAGCAGAAGGCAGTTCTTTAAGATCTGCGCTGGCGGTATGGCGGGAACCACGGCAGCAGCGCTGGGCTTTGCCCCGGCAACTGCGCTCGCGGAGACACGGCAGTACAAATTGCTGCGCACACGCGAAACCCGTAACACCTGCACATACTGTTCTGTCGGCTGTGGGCTGTTGATGTATAGCCTCGGCGACGGCGCAAAAAACGCCAAAGCATCCATTTTCCATATCGAAGGCGATCCGGATCATCCGGTTAACCGTGGTGCGCTCTGTCCGAAAGGGGCCGGTCTGGTAGACTTTATCCATTCTGAAAGCCGCCTGAAATTCCCGGAATATCGCGCGCCAGGCTCCGATAAATGGCAGCAAATCAGCTGGGACGAAGCGTTCGATCGCATCGCGAAGCTGATGAAAGAGGACCGCGACGCCAACTTTATCGCACAAAACGACGCCGGCACCACCGTCAACCGCTGGTTGACCACCGGGATGCTGTGCGCCTCCGCTTCCAGTAACGAAACCGGCTATTTAACGCAAAAATTCACCCGCGCCCTCGGGATGCTGGCGGTGGATAACCAGGCGCGTGTCTGA	MQVSRRQFFKICAGGMAGTTAAALGFAPATALAETRQYKLLRTRETRNTCTYCSVGCGLLMYSLGDGAKNAKASIFHIEGDPDHPVNRGALCPKGAGLVDFIHSESRLKFPEYRAPGSDKWQQISWDEAFDRIAKLMKEDRDANFIAQNDAGTTVNRWLTTGMLCASASSNETGYLTQKFTRALGMLAVDNQARV	PGPT0019635_3470	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019635-fdoG|fdhF|fdwA-K00123	NA	NA
BMS020_07305	2415	fdoG_2	COG0243	Formate dehydrogenase-O major subunit	ATGACCAACCACTGGGTGGATATTAAGAACGCCAACCTGGTCGTGGTGATGGGCGGTAACGCCGCTGAAGCGCATCCGGTGGGATTCCGCTGGGCGATGGAAGCCAAAATCCATAACGGTGCCAAACTCATCGTTATCGATCCGCGCTTCACGCGTACAGCGTCGGTGGCTGATTTCTATACCCCGATTCGTTCCGGTACCGACATTACCTTCCTGTCGGGCGTGATCCTGTACCTGCTGAATAACGAAAAATTCAACCGCGAATACACCGAAGCCTACACCAACGCCAGCCTGATCGTGCGTGAGGACTACAGCTTCGACGACGGGCTGTTCAGCGGCTATAACGCAGAAAAACGCCAGTACGACAAAACCAGCTGGAACTATGAGCTGGACGAAAACGGCTTCGCCAAACGCGATACCACGCTGCAACATCCGCGCTGCGTCTGGAACCTGCTGAAGCAGCACGTTTCCCGTTATACCCCGGATGTGGTCGAAAACATCTGCGGTACGCCGAAGGCCGACTTCCTCAAAGTCTGTGAATACATTGCCGAAACCAGCGCGCCGGATAAAACCGCGTCGTTCCTGTACGCTCTCGGCTGGACCCAGCACTCCATCGGCGCGCAGAACATCCGCACCATGGCGATGATCCAGCTGCTGCTCGGCAACATGGGGATGGCAGGCGGCGGCGTCAACGCCCTGCGCGGCCACTCCAATATCCAGGGTCTGACCGACCTCGGCCTGCTCTCTACCAGCCTGCCGGGCTACATGTCGCTGCCTAACGAAAAACAGGCCGACCTGCAGACCTACCTGACGGCTAACACGCCGAAGCCGCTGCTGAAAGACCAGGTCAACTACTGGGGCAACTATCCGAAGTTCTTCGTCTCCATGATGAAAGCCTTCTTCGGCGATAAAGCGACAGCAGAAAACAGCTGGGGCTTTGACTGGCTGCCGAAGTGGGATAAGAGCTACGACGTTCTGCAGTACTTCGAGATGATGAATCAGGGCAAAGTGAATGGCTATATTTGCCAGGGCTTTAACCCGGTCGCCTCGTTCCCGAACAAAAACAAGGTCGTCGCTTCCCTGTCGAAGCTGAAGTTCCTCGTGACCATCGACCCGCTCAATACCGAAACGTCCACCTTCTGGCAAAACCACGGTGAGTCGAACGATGTTGACCCGTCGAAAATCCAGACCGAAGTGTTCCGTCTGCCGTCCACCTGCTTCGCCGAAGAGAACGGGTCTATCGTCAACTCCGGCCGCTGGCTGCAGTGGCACTGGAAAGGTGCGGACGCCCCGGGGATCGCTGTCACCGATGGCGAAATCCTCGCCGGTATCTTCACTCGCCTGCGTAAGATGTATGCCGAAGAGGGTGGCCCGGCGCCAGAGCCAGTGCTCAACATGACGTGGAATTACTCCACACCGCATGAGCCGGCGTCGGAAGAAGTGGCGATGGAAAGCAACGGTAAAGCGCTGGCGGATATTACCGACCCGGCGACCGGCGCGGTGATCGTCAAGAAAGGGCAGCAGCTGAGCTCCTTCGCACAGCTACGCGACGACGGCACGACCTCCAGCGGCTGCTGGATCTTCGCCGGCAGCTGGACGCCGGAAGGCAACCAGATGGCGCGCCGCGATAACGCCGATCCGTCCGGTCTGGGCAATACGCTGGGCTGGGCCTGGGCATGGCCGCTCAACCGCCGCATCCTGTATAACCGCGCCTCCGCGGACCCGCAGGGTAAACCGTGGGATCCTAAACGTCAGTTGCTGAAGTGGGACGGCGCGAAATGGGGCGGCGTGGATATTCCGGACTACAGCGCCGCCGCGCCTGGCAGCGACGTCGGTCCGTTTATCATGCAGCCGGAAGGGATGGGCCGTCTGTTCGCTATCGATAAGATGGCGGAAGGACCGTTCCCGGAACACTACGAGCCGTTTGAAACGCCGCTCGGGACTAACCCGCTGCACCCGAACGTGGTCTCTAACCCGGCCGCTCGCGTCTTCAAAGGCGATCTCGAGCAGATGGGCAAAGCGGAGAAATTCCCGTACGTCGGCACCACTTACCGCCTGACCGAACACTTCCACTACTGGACCAAGCACGCGCTGCTTAACGCCATCGCGCAGCCGGAGCAGTTTGTGGAGATCGGTGAAAAACTGGCGAATAAGCTTGGCATCAGCCATGGCGATACCGTCAAGGTCTCCTCCAACCGCGGCTACATCAAGGCCAAGGCGGTGGTGACCAAACGTATTCGCACGCTGAAAGTGGACGGTAAGGATATCGATACCATCGGCATTCCTATTCACTGGGGCTATGAGGGCGTGGCGAAAAAAGGCTTTATTGCCAATACCCTGACGCCGTTCGTCGGTGATGCGAACACGCAGACGCCGGAGTTCAAAGCTTTCCTCGTGAACGTGGAAAAGGTGTAA	MTNHWVDIKNANLVVVMGGNAAEAHPVGFRWAMEAKIHNGAKLIVIDPRFTRTASVADFYTPIRSGTDITFLSGVILYLLNNEKFNREYTEAYTNASLIVREDYSFDDGLFSGYNAEKRQYDKTSWNYELDENGFAKRDTTLQHPRCVWNLLKQHVSRYTPDVVENICGTPKADFLKVCEYIAETSAPDKTASFLYALGWTQHSIGAQNIRTMAMIQLLLGNMGMAGGGVNALRGHSNIQGLTDLGLLSTSLPGYMSLPNEKQADLQTYLTANTPKPLLKDQVNYWGNYPKFFVSMMKAFFGDKATAENSWGFDWLPKWDKSYDVLQYFEMMNQGKVNGYICQGFNPVASFPNKNKVVASLSKLKFLVTIDPLNTETSTFWQNHGESNDVDPSKIQTEVFRLPSTCFAEENGSIVNSGRWLQWHWKGADAPGIAVTDGEILAGIFTRLRKMYAEEGGPAPEPVLNMTWNYSTPHEPASEEVAMESNGKALADITDPATGAVIVKKGQQLSSFAQLRDDGTTSSGCWIFAGSWTPEGNQMARRDNADPSGLGNTLGWAWAWPLNRRILYNRASADPQGKPWDPKRQLLKWDGAKWGGVDIPDYSAAAPGSDVGPFIMQPEGMGRLFAIDKMAEGPFPEHYEPFETPLGTNPLHPNVVSNPAARVFKGDLEQMGKAEKFPYVGTTYRLTEHFHYWTKHALLNAIAQPEQFVEIGEKLANKLGISHGDTVKVSSNRGYIKAKAVVTKRIRTLKVDGKDIDTIGIPIHWGYEGVAKKGFIANTLTPFVGDANTQTPEFKAFLVNVEKV	PGPT0019635_2967	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019635-fdoG|fdhF|fdwA-K00123	NA	NA
BMS020_07306	903	fdoH	COG0437	Formate dehydrogenase-O iron-sulfur subunit	ATGGCTTATCAATCGCAAGATATTATTCGTCGTTCCGCGACTAACGGTTTCACTCCCGCGCCTCAGGCGCGGGACCACCAGCAGGAGGTGGCGAAGCTTATCGACGTCACCACCTGTATCGGCTGCAAAGCCTGTCAGGTGGCCTGCTCCGAATGGAACGATATTCGTGATGAAGTCGGTCACAACGTCGGGGTGTATGACAACCCGGCGGACCTGACCGCCAAGTCATGGACGGTAATGCGCTTCTCGGAAGTGGAGCAAAACGACAAGCTGGAATGGCTCATCCGCAAAGATGGCTGCATGCACTGCGCCGATCCGGGCTGCCTGAAGGCCTGCCCGTCAGAAGGCGCGATCATTCAGTACGCCAACGGCATCGTCGATTTCCAGTCCGAGCAGTGCATCGGCTGCGGTTACTGTATCGCCGGCTGTCCTTTCGATGTGCCGCGTCTGAACCCGGAAGACAACCGCGTCTACAAATGTACCCTGTGCGTAGACCGCGTCACCGTCGGCCAGGAACCGGCCTGCGTGAAAACCTGCCCAACCGGCGCCATCCACTTTGGCTCCAAAGAGGATATGAAAACGCTGGCCGGCGAGCGCGTGGCTGAGCTGAAAACCCGCGGTTACGACAATGCGGGCCTGTACGATCCGGCCGGCGTCGGCGGCACCCACGTCATGTACGTGCTGCACCATGCCGACAAGCCGAATCTGTACCACGGCCTGCCGGAAAACCCGGAGATCAGCCAGACCGTCAAGTTCTGGAAAGGCATCTGGAAACCGCTGGCGGCCGTCGGCTTCGCCGCGACCTTCGCAGCCAGTATCTTCCACTACGTCGGCGTCGGTCCGAACCGCGCGGAAGAGGAAGAGGACAACCTGCATGAAGAGAAAGACGAGGTGCGCAAATGA	MAYQSQDIIRRSATNGFTPAPQARDHQQEVAKLIDVTTCIGCKACQVACSEWNDIRDEVGHNVGVYDNPADLTAKSWTVMRFSEVEQNDKLEWLIRKDGCMHCADPGCLKACPSEGAIIQYANGIVDFQSEQCIGCGYCIAGCPFDVPRLNPEDNRVYKCTLCVDRVTVGQEPACVKTCPTGAIHFGSKEDMKTLAGERVAELKTRGYDNAGLYDPAGVGGTHVMYVLHHADKPNLYHGLPENPEISQTVKFWKGIWKPLAAVGFAATFAASIFHYVGVGPNRAEEEEDNLHEEKDEVRK	PGPT0019665_1449	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019665-fdoH|fdsB-K00124	NA	NA
BMS020_07307	636	fdoI	COG2864	Formate dehydrogenase, cytochrome b556(fdo) subunit	ATGAAACGACGTGACACCATCGTGCGCTACACGGCGCCGGAACGCATCAACCACTGGGTCACCGCCTTCTGCTTCATCCTGGCGGCGGTAAGCGGGTTAGGCTTTTTCTTCCCGTCCTTTAACTGGCTGATGCATATCCTCGGCACGCCGCAGCTGGCGCGAATTCTCCACCCATTCGTCGGGGTGGTGATGTTCGCGTCGTTCATCATCATGTTTTTCCGTTACTGGCACCACAACCTAATCAATCGGGATGATATCTTTTGGGCGAAGAATATTCGTAAGATCGTCGTCAACGAGGAGGTAGGCGATACCGGGCGCTATAACTTCGGCCAGAAATGCGTATTCTGGGCGGCGATTATCTTCCTGGTACTGCTGCTGGTGAGCGGTGTGATCATCTGGCGTCCGTATTTTGCGCCGGCTTTCTCAATCCCGGTGATCCGATTTGCGCTGATGCTGCATTCATTTGCCGCAGTGGCGTTAATTGTGGTTATCATGGTGCATATCTACGCCGCCCTCTGGGTGAAAGGCACCATTACCGCGATGGTGGAAGGCTGGGTCACCAGTACGTGGGCGAAAAAACATCACCCGCGCTGGTACCGAGAGGTCCGCCAGAAACAGGAAAAGTCATCTGAATGA	MKRRDTIVRYTAPERINHWVTAFCFILAAVSGLGFFFPSFNWLMHILGTPQLARILHPFVGVVMFASFIIMFFRYWHHNLINRDDIFWAKNIRKIVVNEEVGDTGRYNFGQKCVFWAAIIFLVLLLVSGVIIWRPYFAPAFSIPVIRFALMLHSFAAVALIVVIMVHIYAALWVKGTITAMVEGWVTSTWAKKHHPRWYREVRQKQEKSSE	PGPT0019670_1121	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019670-fdoI|fdsG-K00127	NA	NA
BMS020_07308	930	fdhE	COG3058	Protein FdhE	ATGAGTATTCGCATAATCCCGCAAGACGAGCTGGGTTCGAGCGAGAAACGCACGGCGGAAGCCATTCCGCCGCTACTGTTCCCCAGACTGAAAAATTTGTATAACCGCCGCGCTGAACGCCTGCGCGAGCTGGCCGCCAATAACCCGCTGGGCGATTATCTGCGCTTTGCCGCGCTGATCGCCCATGCCCAGGAAGTGGTGCTGTACGACCATCCGCTGCAGATGGATCTCACCGCCCGCATTAAAGCGGCCAGCGAACAGGGCAAGCCGCCGCTGGATATCCACGTCCTGCCGCGCGACAAACACTGGCATAAGCTGCTGCACTCGCTGATTGCCGAGCTGAAGCCGGAGATGAGCGGCCCGGCGCTGGCGGTGATTGAGAATCTGGAAAAAGCCTCTGAGCAGGAGCTGGAGCAGATGGCCAGCGCGCTGTTTGCTTCCGACTTCGCCTCGGTCAGCAGCGATAAAGCGCCGTTCATCTGGGCCGCGCTGTCGCTCTACTGGGCGCAGATGGCCAGCCTGATCCCCGGAAAAGCGCGCGCCGAATACGGCGAACAGCGCCAGTTCTGCCCGGTGTGCGGCTCGATGCCGGTCTCCAGCATCGTGCAGATCGGTACCACCCAGGGGCTGCGCTATCTGCACTGCAATCTGTGCGAAACCGAGTGGCACGTGGTACGCGTCAAATGTAGCAATTGCGAACAGAGCCGCGATCTGCACTACTGGTCACTGGACAACGAGCAGGCTGCGGTGAAAGCTGAAAGCTGTGGCGACTGCGGAACCTACCTGAAGATTATGTATCAGGAGAAGGATCCGAAAGTCGAAGCCGTCGCCGACGATTTGGCATCCCTGGTGCTCGACGCCCGCATGGAGCAGGAAGGCTTCGCCAGAAGCTCAATAAACCCGTTCATGTTCCCCGGCGAAGGGGAGTAA	MSIRIIPQDELGSSEKRTAEAIPPLLFPRLKNLYNRRAERLRELAANNPLGDYLRFAALIAHAQEVVLYDHPLQMDLTARIKAASEQGKPPLDIHVLPRDKHWHKLLHSLIAELKPEMSGPALAVIENLEKASEQELEQMASALFASDFASVSSDKAPFIWAALSLYWAQMASLIPGKARAEYGEQRQFCPVCGSMPVSSIVQIGTTQGLRYLHCNLCETEWHVVRVKCSNCEQSRDLHYWSLDNEQAAVKAESCGDCGTYLKIMYQEKDPKVEAVADDLASLVLDARMEQEGFARSSINPFMFPGEGE				NA	NA	NA	NA	NA
BMS020_07309	918	nlhH	COG0657	Carboxylesterase NlhH	ATGGCGCTGGAAAAAGGGATTGCTTCGCTGGTTGAGGCGTTTATTGCGGCAGAGCGTCCGTCATCACGCGTTCAACATATTGATGATCGGAGAGCCGGCTATATCGCCAGCGCGGTGCTCGCCGGAGAGATGGAAACGAGAGTGCGGGTGGAGGATATCACGCTGGAGGGGATGAACTTCCGCATCGTTTCACCGCCCACCGCCAGCGGCTTGTTGCCGACACTTATCTACTACCACGGCGGCTGTTTTGTCAGCGGCGGCTTTGCCACCCACGACAATCAGCTCCGTCAGCTAGCCTGGTTCAGCGGCTGCCGGGTGATCGCCGTGCAGTACCGCCTGGCGCCGGAGCATACCTTTCCGGCGGCGCACGATGACGCTGAACAAGGTGTCATGATTATCCACCGACACGCGGAGCAGCTTGGCGTTGACGCATCACGCATCACCCTGGCTGGCGACAGCGCCGGCGGGCACCTCGCTCTGGTAACGGCCCTGCGCCTGAAAGCGAATACGGCGTGGCAACCCGCGCAACTGATTCTGATTTATCCCATGCTTGACCCCACCGCCAGCATGGCGAGCTACGTCAGCAACGGCGCTGACTATGTGATTACCCGGGACACGCTGCTGAGCGGCTATGAAATGTACCTCGCCTCGACGCCGGCGAACCATCCGGATGCCAGTCCGCTCTGGCGCGACGATTTTCACGGTTTGCCGCCGGTGCATATTCTGACGGCGGAGTTCGATCCTTTACGCGACGAGGGCGAAGCGCTGCATCGAAGGCTGATGGCGCAAGGGGTGGAGAGTTCCTGTCAGCGCTATCTGGGGGTGATCCACGGCTTCTTTCAGCTGGGGGGGATCAGCCGCGCCGCGCGAGAGGCCATGCGGGATATCGCCTGGCGCGTAGCATCGCCAGGACGATAA	MALEKGIASLVEAFIAAERPSSRVQHIDDRRAGYIASAVLAGEMETRVRVEDITLEGMNFRIVSPPTASGLLPTLIYYHGGCFVSGGFATHDNQLRQLAWFSGCRVIAVQYRLAPEHTFPAAHDDAEQGVMIIHRHAEQLGVDASRITLAGDSAGGHLALVTALRLKANTAWQPAQLILIYPMLDPTASMASYVSNGADYVITRDTLLSGYEMYLASTPANHPDASPLWRDDFHGLPPVHILTAEFDPLRDEGEALHRRLMAQGVESSCQRYLGVIHGFFQLGGISRAAREAMRDIAWRVASPGR				NA	NA	NA	NA	NA
BMS020_07310	942			hypothetical protein	ATGTATCACCTTCGTGTACCGCAAACAGCAGAAGAGTTAGAGAGCTACTATCAGTTCCGTTGGGAAATGCTGCGTAAGCCGCTGCATCAGCCTAAGGGTTCGGAACGTGACGCCTGGGATGCGATGGCGCATCATCAGATGGTGGTGGATGAAGAGGGCAACCTGGTGGCCGTCGGCCGGCTATATATCAATGCGGAGAATGAAGCTTCCATTCGCTTTATGGCCGTTCATCCCTCGGTGCAGGATAAAGGGCTGGGTACGCTGATGGCGATGACCCTCGAGTCCGTCGCGCGTCAGGAAGGGGTTAAGCGGGTCACCTGTAGCGCTCGCGAAGATGCGGTGGAGTTTTTCGCCAAGCTCGGCTTTGTCAATCAGGGGGAGATTACTACCCCGACCACCACGCCGATCCGTCATTTCCTGATGATTAAACCGGTCGCGTCGCTGGACGATATTCTCCACCGCGGCGACTGGTGCGCGCAGCTACAGCAGGCGTGGTATCAGCATATCCCGCTGAGTGAAAAGATGGGCGTGCGCATTCAGCAGTACACCGGGCAGAAATTTATAACTACCATGCCGGAAGCGGGGAACCAGAATCCGCACCACACGCTGTTTGCCGGCAGCTTGTTCTCGCTCGCCACCTTAACCGGATGGGGGCTTATCTGGCTGATGCTGCGCGAGCGGCACCTGGGGGGCACCATCATTCTGGCGGATGCGCACATCCGCTACAGTCAGCCCATTAGCGGCCGCCCCAGCGCCATTGCCGACCTCGGTTCTCTGAGCGGCGATCTTGACCGTCTGGCGCGTGGGCGTAAAGCCCGCGTGCAAATGCAGGTGGAGCTTTTTGGCGACGATAAACAGGGCGCCGTATTCGAGGGGATCTACATCGTACTGCCGGCGAAGCCCTTTGGCTCTTACGAAGAGGGCGGCAACGAGGAAGAGTAG	MYHLRVPQTAEELESYYQFRWEMLRKPLHQPKGSERDAWDAMAHHQMVVDEEGNLVAVGRLYINAENEASIRFMAVHPSVQDKGLGTLMAMTLESVARQEGVKRVTCSAREDAVEFFAKLGFVNQGEITTPTTTPIRHFLMIKPVASLDDILHRGDWCAQLQQAWYQHIPLSEKMGVRIQQYTGQKFITTMPEAGNQNPHHTLFAGSLFSLATLTGWGLIWLMLRERHLGGTIILADAHIRYSQPISGRPSAIADLGSLSGDLDRLARGRKARVQMQVELFGDDKQGAVFEGIYIVLPAKPFGSYEEGGNEEE				NA	NA	NA	NA	NA
BMS020_07311	438	dtd_1	COG1490	D-aminoacyl-tRNA deacylase	ATGATTGCATTAATTCAACGCGTATCCCGTGCAAGCGTTACCGTGGCGGACGAAGTGACGGGCGAAATTGGCCCGGGGCTTCTGGTGCTGCTGGGGGTCGAAAAAGACGATGATGAACAAAAAGCGAATCGCCTCTGCGAGCGCGTGCTGGGCTACCGCATCTTCAGCGATGCGGAGGGGAAAATGAACCTGAATGTTCAGCAGGCGGGCGGCAGCGTGCTGGTGGTTTCGCAATTTACGCTGGCGGCCGATACCGAGCGGGGGATGCGGCCGAGCTTCTCGAAAGGCGCTGCTCCGGACCGCGCTGAGGCGCTGTATGAGTATTTTGTCGCCCGCTGTCGCCAGCAGGAAATGAACACCCAGACCGGAAGATTCGCTGCGGATATGCAGGTTTCTTTGGTCAATGATGGTCCCGTGACCTTTTGGTTGCAGGTATGA	MIALIQRVSRASVTVADEVTGEIGPGLLVLLGVEKDDDEQKANRLCERVLGYRIFSDAEGKMNLNVQQAGGSVLVVSQFTLAADTERGMRPSFSKGAAPDRAEALYEYFVARCRQQEMNTQTGRFAADMQVSLVNDGPVTFWLQV				NA	NA	NA	NA	NA
BMS020_07312	861			hypothetical protein	ATGCTAAGAACCGTTCATCAAAAATTACTCCACCATACCCGGCCGCTGCTGGCGTGGCTTAAGCTGCTGTGGCGGCGTATTGATGAAGACCATATGACCACCCTGGCGGGGAACCTCGCCTATGTGTCATTACTGTCCCTGGTGCCGCTGATTGCCGTCGTGTTCGCGCTGTTTGCGGCCTTCCCCATGTTCTCCGAAGTCAGCGTGCAGATCCGCCATTTTATCTTCGCCAATTTTATTCCGGCGACCGGGGATGTGATCCAGGGATATATCGAGCAGTTCGTCGCCAATTCCAGCCGCATGACCGCCGTAGGCGCCTTTGGCCTGATCGTGACCTCGCTGCTGCTGATGTACTCGATCGACAGCGCGCTAAACACCATCTGGCGCAGCACGCGCAGCCGGCCCAAAGTTTACTCCTTTGCCGTCTACTGGATGATCCTGACCCTTGGTCCGCTGCTGGCGGGCGCCAGCCTGGCGATCAGTTCCTATCTGCTGTCGCTGCGCTGGGCAAGCGACCTGGACGGCGTAATTGATAATCTGCTCCGCCTTTTCCCGCTGATCCTCTCCTGGGCAGCATTCTGGCTGCTCTACAGTATTGTACCCACCACCCAGGTGCGTAACCGCGACGCGGTGATCGGGGCGCTGGTGGCGGCGCTGCTGTTCGAGGCAGGTAAAAAAGCGTTTGCCCTCTATATCACCACCTTTCCGTCCTATCAGCTCATTTATGGCGTGATTTCGGTGGTGCCGATTTTGTTCGTCTGGGTGTACTGGACCTGGTGTATCGTCTTGCTTGGCGCTGAAATTACTGTCACTCTCGGTGAATACCGCAAACTTAAAACAGAAGAAACAGAACAACCATGA	MLRTVHQKLLHHTRPLLAWLKLLWRRIDEDHMTTLAGNLAYVSLLSLVPLIAVVFALFAAFPMFSEVSVQIRHFIFANFIPATGDVIQGYIEQFVANSSRMTAVGAFGLIVTSLLLMYSIDSALNTIWRSTRSRPKVYSFAVYWMILTLGPLLAGASLAISSYLLSLRWASDLDGVIDNLLRLFPLILSWAAFWLLYSIVPTTQVRNRDAVIGALVAALLFEAGKKAFALYITTFPSYQLIYGVISVVPILFVWVYWTWCIVLLGAEITVTLGEYRKLKTEETEQP	PGPT0014525_6173	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
BMS020_07313	600	yihX	COG1011	Alpha-D-glucose 1-phosphate phosphatase YihX	ATGCTCTATATCTTTGATTTAGGTAATGTGATTGTCGACATTGACTTCAACCGGGTATTGGGGGCCTGGAGCGATTTAACCCGCATCCCTCTTGCGACGCTGAAGCAGCATTTCACCATGGGAGAGGCTTTCCATCAGCATGAGCGCGGCGAGCTCAGCGATGAAGATTTTGCCGCCGCCATGTGCCATGAAATGAATATGTCCCTCAGCTATGAGCAGTTTGCTCACGGCTGGCAGGCGGTGTTTGTCGCACTGCGTCCGGAAGTGATTGCGATCATGCAAAAACTGCGTGCCCAGGGCCATCGCGTGGTGGTGCTCTCCAATACCAATCGTCTTCACACCACGTTCTGGCCGGATGAATACCCGGAAGTGCGCGCTGCCGCCGATCGCATCTATCTGTCTCAGGAGATGGGAATGCGTAAGCCTGAAGCGCAAATTTATCAGCGAGTACTGGAAGAAGAGGGTTTTTCCGCCGCAGATACGGTCTTTTTTGATGATAACGTCGATAATATAGCAGGGGCTAACCGGTTGGGGATCACCAGTATTCTGGTGACCGGGAAGAAGACCATCCCTGACTATTTCGCGAAACAGCTATGCTAA	MLYIFDLGNVIVDIDFNRVLGAWSDLTRIPLATLKQHFTMGEAFHQHERGELSDEDFAAAMCHEMNMSLSYEQFAHGWQAVFVALRPEVIAIMQKLRAQGHRVVVLSNTNRLHTTFWPDEYPEVRAAADRIYLSQEMGMRKPEAQIYQRVLEEEGFSAADTVFFDDNVDNIAGANRLGITSILVTGKKTIPDYFAKQLC	PGPT0017745_647	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017745-yihX-K20866	NA	NA
BMS020_07314	1824	typA_2	COG1217	GTP-binding protein TypA/BipA	GTGATCGAAAATCTGCGTAATATCGCCATCATCGCGCACGTTGACCATGGTAAAACTACCCTGGTTGACAAGCTGCTACAGCAATCCGGTACGTTCGACGCACGTACTGAAGCACAAGAACGTGTGATGGACTCCAACGATTTGGAGAAAGAGCGTGGGATTACCATCCTCGCGAAAAACACCGCAATCAAATGGAATGATTACCGTATCAACATCGTTGATACCCCAGGGCACGCCGACTTCGGAGGTGAAGTTGAGCGTGTTATGTCCATGGTTGACTCTGTGCTGCTGGTGGTAGATGCCTTTGATGGCCCGATGCCGCAAACGCGCTTCGTGACCAAAAAAGCTTTTGCCCACGGTCTGAAGCCGATCGTGGTCATCAACAAAGTTGACCGCCCGGGCGCGCGTCCGGACTGGGTTGTCGATCAGGTGTTCGACCTGTTCGTTAACCTCGACGCGACCGACGAACAGCTGGACTTCCCGATCGTTTACGCGTCCGCGCTGAACGGTATCGCGGGTCTGGACCACGAAGACATGGCTGAAGACATGACCCCGCTGTACCAGGCGATTGTCGATCGCGTGCCGGCGCCGGACGTTGACCTTGACGGTCCGCTGCAGATGCAGATCTCCCAGCTGGACTACAACAACTACGTTGGCGTCATCGGCATCGGCCGCATCAAACGCGGTAAAGTGAAGCCGAACCAGCAGGTCACTATCATCGATAGCGAAGGCAAAACCCGTAACGGTAAAGTCGGTAAAGTACTGACCCACCTGGGTCTTGAGCGTATCGAGAGCGACGTAGCTGAAGCTGGCGACATCATCGCGATCACCGGTCTGGGCGAGCTGAACATCTCCGACACCATCTGCGACCCGCAGAATGTCGAAGCGCTGCCGGCCCTGTCCGTCGATGAACCGACCGTTTCCATGTTCTTCAACGTCAACACCTCTCCGTTCTGCGGTAAAGAAGGTAAGTTCGTTACCTCTCGCCAGATTCTGGACCGCCTGAACAAAGAGCTGGTGCACAACGTGGCGCTGCGCGTTGAAGAAACCGAAGACGCTGATGCGTTCCGCGTTTCCGGCCGTGGTGAACTGCACCTGTCCGTTCTGATTGAAAACATGCGTCGTGAAGGTTTCGAGATGGCGGTTTCCCGTCCGAAAGTTATCTTCCGTGAAATCGACGGCCGTAAACAAGAGCCGTTCGAGAACGTGACGCTGGACGTCGAAGAGCAGCACCAGGGTTCTGTTATGCAGGCGCTGGGCGAGCGTAAAGGCGACCTGAAAAACATGAATCCGGACGGAAAAGGCCGCGTACGTCTCGACTACGTGATCCCAAGCCGCGGTCTGATCGGCTTCCGTTCAGAGTTCATGACCATGACCTCCGGTACCGGTCTGCTGTACTCCACCTTCAGCCACTACGACGACGTTCGTCCGGGCGAAGTGGGCCAGCGTAACAACGGCGTGCTGATCTCCAACGGTCAGGGTAAAGCGGTAGCGTTCGCCCTGTTCGGTCTGCAGGATCGCGGTAAGCTGTTCCTCGGTCACGGTGCGGAAGTTTACGAAGGCCAGATCATCGGTATTCACAGCCGTTCTAACGACCTGACGGTAAACTGCCTGACCGGTAAGAAACTGACCAACATGCGTGCGTCCGGTACTGACGAAGCCACGGTTCTGGTTCCGCCGGTTAAGATGACCCTGGAGCAGGCTCTGGAGTTCATCGATGACGACGAACTGGTAGAAGTCACTCCGACCTCTATCCGTATCCGTAAACGTCACCTGACTGAGAACGACCGTAAACGCGCAATGCGCGGTGCAAAAGAAGAATAA	MIENLRNIAIIAHVDHGKTTLVDKLLQQSGTFDARTEAQERVMDSNDLEKERGITILAKNTAIKWNDYRINIVDTPGHADFGGEVERVMSMVDSVLLVVDAFDGPMPQTRFVTKKAFAHGLKPIVVINKVDRPGARPDWVVDQVFDLFVNLDATDEQLDFPIVYASALNGIAGLDHEDMAEDMTPLYQAIVDRVPAPDVDLDGPLQMQISQLDYNNYVGVIGIGRIKRGKVKPNQQVTIIDSEGKTRNGKVGKVLTHLGLERIESDVAEAGDIIAITGLGELNISDTICDPQNVEALPALSVDEPTVSMFFNVNTSPFCGKEGKFVTSRQILDRLNKELVHNVALRVEETEDADAFRVSGRGELHLSVLIENMRREGFEMAVSRPKVIFREIDGRKQEPFENVTLDVEEQHQGSVMQALGERKGDLKNMNPDGKGRVRLDYVIPSRGLIGFRSEFMTMTSGTGLLYSTFSHYDDVRPGEVGQRNNGVLISNGQGKAVAFALFGLQDRGKLFLGHGAEVYEGQIIGIHSRSNDLTVNCLTGKKLTNMRASGTDEATVLVPPVKMTLEQALEFIDDDELVEVTPTSIRIRKRHLTENDRKRAMRGAKEE	PGPT0023720_2720	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023720-typA|bipA-K06207	NA	NA
BMS020_07316	1410	glnA_2	COG0174	Glutamine synthetase	ATGTCCGCTGAACACGTTTTGACGATGCTGAACGAGCACGAAGTGAAGTTTGTCGATCTGCGCTTCACCGATACCAAAGGTAAAGAACAGCACGTCACGATTCCGTCTCATCAGGTAAATGCCGAATTCTTCGAAGAAGGCAAAATGTTTGATGGCTCCTCGATTGGTGGCTGGAAAGGTATCAACGAATCTGACATGGTCCTGATGCCGGACGCTTCCACCGCGGTCATTGACCCGTTCTACGAAGAACCGACCCTGATCATCCGCTGCGATATCCTCGAGCCAGGCACCCTGCAGGGCTATGACCGTGACCCGCGCTCCATCGCGAAACGCGCTGAAGAGTACCTGCGCGCCACCGGCATCGCTGACACCGTCCTGTTTGGGCCAGAACCAGAATTCTTCCTGTTCGACGACATCCGTTTCGGCGCCTCTATCTCCGGCTCCCATGTCGCGATCGATGACATCGAAGGTGCGTGGAACTCCTCCACCAAATACGAAGGCGGTAACAAAGGTCACCGTCCGGGCGTGAAAGGGGGTTACTTCCCGGTTCCGCCAGTAGACTCTTCTCAAGATATCCGTTCCACCATGTGTATGATCATGGAAGAGATGGGCCTGGTTGTTGAAGCTCACCACCACGAAGTGGCTACCGCAGGTCAGAACGAAGTGGCAACTCGCTTCAACACCATGACCAAAAAAGCGGACGAAATTCAGATTTACAAATACGTTGTTCACAACGTCGCTCACCGCTTCGGTAAAACCGCGACCTTTATGCCGAAACCGATGTTCGGCGACAACGGTTCCGGTATGCACTGCCATATGTCTCTGGCGAAGAACGGCACCAACCTGTTCTCCGGCGACAAATACGCAGGTCTGTCTGAGCAGGCGCTGTTCTACATCGGCGGCGTAATCAAACACGCTAAAGCCATCAACGCCCTGGCGAACCCGACCACCAACTCCTACAAGCGTCTGGTCCCGGGTTACGAAGCGCCGGTTATGCTGGCTTACTCTGCCCGTAACCGCTCTGCCTCCATCCGTATTCCGGTGGTGACCTCTCCGAAAGCGCGTCGTATCGAAGTGCGCTTCCCGGACCCGGCTGCCAACCCGTACCTGTGCTTTGCGGCGCTGCTGATGGCTGGCCTCGATGGTATCAAGAACAAAATCCATCCGGGCGAAGCAATGGACAAAAACCTGTATGACCTGCCGCCGGAAGAAGCGAAAGAGATCCCGCAGGTTGCCGGTTCTCTGGAAGAAGCCCTGCAGGCCCTGGATGCTGACCGCGAGTTCCTGACAGCTGGCGGCGTATTCACTAATGACGCTATCGATGCTTACATCGCCCTGCGTCTGGAAGAGAACGACCGCGTACGCATGACTCCGCATCCGGTTGAGTTCGAACTGTACTACAGCGTCTAA	MSAEHVLTMLNEHEVKFVDLRFTDTKGKEQHVTIPSHQVNAEFFEEGKMFDGSSIGGWKGINESDMVLMPDASTAVIDPFYEEPTLIIRCDILEPGTLQGYDRDPRSIAKRAEEYLRATGIADTVLFGPEPEFFLFDDIRFGASISGSHVAIDDIEGAWNSSTKYEGGNKGHRPGVKGGYFPVPPVDSSQDIRSTMCMIMEEMGLVVEAHHHEVATAGQNEVATRFNTMTKKADEIQIYKYVVHNVAHRFGKTATFMPKPMFGDNGSGMHCHMSLAKNGTNLFSGDKYAGLSEQALFYIGGVIKHAKAINALANPTTNSYKRLVPGYEAPVMLAYSARNRSASIRIPVVTSPKARRIEVRFPDPAANPYLCFAALLMAGLDGIKNKIHPGEAMDKNLYDLPPEEAKEIPQVAGSLEEALQALDADREFLTAGGVFTNDAIDAYIALRLEENDRVRMTPHPVEFELYYSV	PGPT0000645_3536	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
BMS020_07317	1050	glnL_2	COG3852	Sensory histidine kinase/phosphatase NtrB	ATGGCAACAGGCACACTGCCCGATGCTGGGCAGATCCTTAACTCTCTTATCAACAGTATCTTACTGGTCGATGACGACCTGGCGGTGCACTTTGCCAATCCTGCGGCCCAGCAGCTGCTGGCGCAGAGTTCGCGCAAACTGTTTGGCACCCCGTTACCTGAGCTGTTGAGCTATTTCTCATTGAATATCGGGCTGATGCAGGAGAGTCTGCAGGCGGGCCAGGGTTTTACCGATAACGAAGTGACGCTGGTTATCGATGGCCGCTCGCATATCCTGTCGCTGACCGCCCAGCGGCTGCCGGAAGGCTTTATTCTGCTGGAAATGGCGCCGATGGATAACCAGCGCCGCCTGAGCCAGGAGCAGCTACAGCACGCGCAGCAGGTCGCCGCCCGCGATCTGGTCCGCGGCCTGGCGCACGAGATTAAAAACCCGTTAGGCGGCCTGCGCGGCGCGGCACAGCTGCTCAGCAAAGCCCTGCCCGACCCGGCGCTAACGGAATATACCAAAGTGATCATCGAGCAGGCCGACCGGCTGAGAAATCTGGTCGATCGCCTGCTCGGGCCACAGCATCCGGGCATGCACGTTACCGAAAGCATCCACAAGGTCGCCGAACGGGTAGTGAAACTGGTCTCGATGGAGTTGCCGGACAACGTGAAGTTGATCCGTGATTACGACCCCAGCCTACCGGAACTCCCCCACGACCCGGATCAAATTGAACAGGTGTTGCTGAACATCGTCCGTAATGCGCTGCAGGCGCTGGGGCCGGAAGGGGGCGAAATTGTTCTCCGTACCCGGACCGCTTTCCAGCTGACGCTGCACGGGGTGCGTTATCGCCTCGCCGCCCGTATTGACGTCGAAGATAATGGCCCGGGTATTCCGCCCCAGCTCCAGGATACGTTGTTTTATCCGATGGTCAGCGGCCGCGAAGGCGGTACCGGCCTGGGCTTATCTATCGCCCGCAGCCTTATCGATCAGCACTCCGGCAAAATTGAATTCACCAGCTGGCCGGGTCATACCGAATTTTCGGTATACCTGCCTATTCGGAAGTAG	MATGTLPDAGQILNSLINSILLVDDDLAVHFANPAAQQLLAQSSRKLFGTPLPELLSYFSLNIGLMQESLQAGQGFTDNEVTLVIDGRSHILSLTAQRLPEGFILLEMAPMDNQRRLSQEQLQHAQQVAARDLVRGLAHEIKNPLGGLRGAAQLLSKALPDPALTEYTKVIIEQADRLRNLVDRLLGPQHPGMHVTESIHKVAERVVKLVSMELPDNVKLIRDYDPSLPELPHDPDQIEQVLLNIVRNALQALGPEGGEIVLRTRTAFQLTLHGVRYRLAARIDVEDNGPGIPPQLQDTLFYPMVSGREGGTGLGLSIARSLIDQHSGKIEFTSWPGHTEFSVYLPIRK	PGPT0000680_1253	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000680-ntrB|glnL-K07708	NA	NA
BMS020_07318	1410	ntrC_1	COG2204	DNA-binding transcriptional regulator NtrC	ATGCAACGAGGGATAGCCTGGATCGTTGATGACGATAGCTCCATCCGCTGGGTGCTTGAACGCGCGCTCACCGGAGCCGGCTTGAGCTGCACAACGTTCGAAAGCGGCAATGAGGTGCTAGATGCCCTCACCACCAAAACCCCGGATGTACTGCTGTCAGATATCCGTATGCCGGGAATGGATGGTCTGGCGCTGCTCAAACAGATTAAGCAGCGTCATCCAATGCTTCCGGTCATCATAATGACCGCGCATTCCGATCTGGACGCCGCGGTCAGCGCTTATCAACAAGGCGCGTTTGATTATCTGCCCAAACCTTTTGATATCGATGAAGCCGTCGCCCTCGTCGACCGGGCGATTAGCCACTATCAGGAGCAGCAGCAGCCGCGAAATGCGCCGATAAGCAGCCCCACCGCCGATATCATTGGCGAGGCGCCGGCCATGCAGGATGTCTTTCGCATTATTGGCCGTCTGTCGCGCTCATCCATCAGCGTGCTGATCAATGGCGAATCCGGTACCGGTAAAGAGCTTGTCGCTCATGCCCTGCATCGTCATAGCCCGCGCTCAAAAGCGCCATTTATCGCGCTGAATATGGCGGCGATCCCCAAGGACCTGATCGAATCGGAACTGTTTGGGCATGAAAAAGGGGCCTTTACCGGCGCCAATACCGTCCGTCAGGGTCGCTTTGAACAGGCTGACGGCGGCACGCTGTTCCTGGATGAAATTGGCGATATGCCGCTGGATGTCCAGACTCGCCTGCTGCGCGTTCTGGCGGATGGCCAGTTTTATCGCGTGGGCGGTTACGCGCCGGTGAAGGTCGATGTGCGGATCATCGCCGCCACCCACCAGAATCTGGAGCAGCGGGTGCAGGAGGGGAAATTCCGTGAAGATTTATTCCACCGCCTGAACGTGATCCGGGTGCATTTGCCGCCGCTGCGCGAGCGTCGGGAAGATATTCCTCGTCTGGCCCGCCATTTTCTGCAGATTGCCGCCCGCGAGCTAGGTGTTGAAGCCAAACAGCTGCATCCGGAAACGGAGACAGCGCTGACCCGCCTGGCGTGGCCGGGCAACGTTCGCCAGCTGGAAAACACCTGTCGCTGGCTCACCGTCATGGCCGCCGGCCAGGAGGTGCTGACGCAGGATCTGCCGAGCGAACTGTTTGAGACCACCATTCCTGATAGCCCGACGCAGATGCAGCCAGACAGCTGGGCGACGCTGCTGGGTCAGTGGGCCGATCGGGCGCTGCGCTCCGGTCATCAAAACCTGCTCTCAGAAGCGCAACCCGAAATGGAACGCACGCTGCTGACAACCGCCCTGCGTCATACTCAAGGACACAAACAGGAGGCTGCGCGCCTGCTGGGATGGGGTCGTAATACCCTGACGCGTAAGCTAAAAGAGTTGGGTATGGAGTAG	MQRGIAWIVDDDSSIRWVLERALTGAGLSCTTFESGNEVLDALTTKTPDVLLSDIRMPGMDGLALLKQIKQRHPMLPVIIMTAHSDLDAAVSAYQQGAFDYLPKPFDIDEAVALVDRAISHYQEQQQPRNAPISSPTADIIGEAPAMQDVFRIIGRLSRSSISVLINGESGTGKELVAHALHRHSPRSKAPFIALNMAAIPKDLIESELFGHEKGAFTGANTVRQGRFEQADGGTLFLDEIGDMPLDVQTRLLRVLADGQFYRVGGYAPVKVDVRIIAATHQNLEQRVQEGKFREDLFHRLNVIRVHLPPLRERREDIPRLARHFLQIAARELGVEAKQLHPETETALTRLAWPGNVRQLENTCRWLTVMAAGQEVLTQDLPSELFETTIPDSPTQMQPDSWATLLGQWADRALRSGHQNLLSEAQPEMERTLLTTALRHTQGHKQEAARLLGWGRNTLTRKLKELGME	PGPT0000685_1116	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000685-ntrC|glnG-K07712	NA	NA
BMS020_07319	1374	hemN_1	COG0635	Oxygen-independent coproporphyrinogen III oxidase	ATGTCTGAGCAGATAATCGACTGGGATCTGGCCCTGATCCAGAAATATAACTATTCCGGGCCGCGCTATACCTCGTATCCCACCGCGCTGGAGTTTTCACCACAATTCGGCGCGGCGGAATTCGATGCCGCTGTGGCCCGTTACCCACAGCGTCCCCTGTCGCTGTATGTGCATATCCCGTTTTGCCATAAGCTGTGTTATTTCTGCGGATGCAATAAGATCGTCACCCGCCAGCAGCATAAGGCCGATCAGTATCTCGATCTCCTTGAACAGGAGATCATCCACCGCGCGCCGCTGTTTGCCAACCGTCAGGTTAAGCAACTGCACTGGGGAGGCGGCACGCCGACCTATCTCAATAAGGCGCAAATCAGTCGCCTGATGGATCTGTTGCGTACCCATTTTCATTTCAGCGCCGAAGCCGAGATCTCTATCGAGGTCGATCCGCGTGAAATCGAGCTGGATGTCCTCGATCATTTACGCGCTGAGGGTTTCAACCGCCTGAGTATGGGCGTGCAGGACTTCAATAAAGAGGTTCAGCGTCTGGTTAACCGCGAGCAGGACGAAGCGTTCATCTTTGACTTGCTTCGCCATGCGCGGGAGATTGGATTTACTTCGACCAATATCGACCTCATCTACGGCCTGCCGAAGCAAACGCCGGAGAGCTTTGCCTTCACCCTGCAAAAGGTCGCCGAGCTCAACCCTGACCGCCTGAGCGTGTTTAACTACGCGCATCTGCCCACGCTCTTTGCCGCACAGCGCAAAATTAAAGATGCCGCTCTGCCCTCCGCTGAACAGAAGCTGGAGATCCTCCAGGAGACCATCGGCTCGCTGACGGCGGCGGGCTATCAGTTTATCGGCATGGACCACTTCGCGCGTCCTGATGATGAATTAGCGGTCGCGCAACGTCACGGCGTACTGCACCGCAATTTCCAGGGCTACACCACTCAGGGCGATACCGATTTGCTGGGGATGGGCGTGTCTGCGATCAGCATGATTGGCGACAGCTACGCTCAGAACCAAAAAGAGCTGAAGCAGTACTACCAGCAGGTGGCAGAGCAAGGGAACGCCCTGTGGCGCGGGATCGCGTTAACCCGTGACGACTGTTTGCGTCGCGACGTGATTAAGGCGTTGATCTGTAACTTCCGTCTGGATATTGATGCCGTCGAAGCGCAGTGGGCCGTGGATTTTCAGACTTATTTTGCCGAGGACCTGAAACTGCTGGCGCCGCTGGCGCATGACGGGCTGGTGGAGGTGGAGAGTAAGGCTATCCAGGTAACGGCGAAAGGCCGCCTGCTGATCCGCAATATCTGCATGTGCTTTGATGCCTATCTCCGGCAAAAGGCTCGGATGCAGCAGTTCTCACGGGTGATTTAA	MSEQIIDWDLALIQKYNYSGPRYTSYPTALEFSPQFGAAEFDAAVARYPQRPLSLYVHIPFCHKLCYFCGCNKIVTRQQHKADQYLDLLEQEIIHRAPLFANRQVKQLHWGGGTPTYLNKAQISRLMDLLRTHFHFSAEAEISIEVDPREIELDVLDHLRAEGFNRLSMGVQDFNKEVQRLVNREQDEAFIFDLLRHAREIGFTSTNIDLIYGLPKQTPESFAFTLQKVAELNPDRLSVFNYAHLPTLFAAQRKIKDAALPSAEQKLEILQETIGSLTAAGYQFIGMDHFARPDDELAVAQRHGVLHRNFQGYTTQGDTDLLGMGVSAISMIGDSYAQNQKELKQYYQQVAEQGNALWRGIALTRDDCLRRDVIKALICNFRLDIDAVEAQWAVDFQTYFAEDLKLLAPLAHDGLVEVESKAIQVTAKGRLLIRNICMCFDAYLRQKARMQQFSRVI	PGPT0003200_1561	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
BMS020_07320	237	yihI	COG3078	Der GTPase-activating protein YihI	ATGCTTTCACCGCAGGCTGAGCTGGAGTTGCTGGAGAATGATGAGCGCCTGGACGCGCTGCTGGAACGTCTGGAAGAGGGCGGTACCCTGAATGCAGAAGAGCAGAGCTGGGTGGATGCCAAACTGGATCGTATTGATGAGCTGATGCAGCAGCTCGGCCTCTCTTACGATGACGAAGATGAAGAAGAGGAAGAGCGTCAGGAAGATATGATGCGTCTGCTGAAGGGTGGAAAATAA	MLSPQAELELLENDERLDALLERLEEGGTLNAEEQSWVDAKLDRIDELMQQLGLSYDDEDEEEEERQEDMMRLLKGGK				NA	NA	NA	NA	NA
BMS020_07322	636	engB_1	COG0218	putative GTP-binding protein EngB	TTGACCAACTGGAATTATCAACTGACGCACTTTGTCACCAGCGCGCCAGATATCCGCCATCTTCCTGCCGATACTGGTATTGAAGTGGCATTCGCCGGCCGCTCCAATGCGGGAAAATCCAGCGCACTGAATACGCTGACCAACCAGAAAAGCCTGGCGCGGACCTCCAAAACGCCCGGACGTACACAGCTGATTAACCTGTTCGAAGTTGCCGAAGGCAAACGCCTGGTCGACCTGCCCGGCTATGGTTATGCGCAAGTCCCGGAAGAGATGAAGATCAAGTGGCAGCGCGCGCTGGGAGAATACCTGGAAAAACGTCTGTGCCTGAAGGGCCTGGTGGTTCTGATGGACATTCGCCACCCGCTTAAAGATCTCGATCAGCAGATGATCCAATGGGCGGTAGAAAGCGATATTCAGGTGCTGGTGCTGCTGACCAAAGCCGATAAGCTCGCCAGCGGCGCGCGTAAAGCGCAAGTGAATATGGTGCGTGAAGCGGTACTGGCCTTCAATGGCGATGTCCAGGTTGAACCCTTCTCCTCGCTGAAAAAATCTGGCGTGGATAAGCTGCGACAGAAGCTGGATAGCTGGTTTAACGAAATCCCGCCGCAGGAAGAAGAGCGCGCCGCAGACGAGTAA	MTNWNYQLTHFVTSAPDIRHLPADTGIEVAFAGRSNAGKSSALNTLTNQKSLARTSKTPGRTQLINLFEVAEGKRLVDLPGYGYAQVPEEMKIKWQRALGEYLEKRLCLKGLVVLMDIRHPLKDLDQQMIQWAVESDIQVLVLLTKADKLASGARKAQVNMVREAVLAFNGDVQVEPFSSLKKSGVDKLRQKLDSWFNEIPPQEEERAADE	PGPT0003655_8	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003655-hemB-K01698	NA	NA
BMS020_07324	2793	polA_3	COG0258	DNA polymerase I	ATGGTTCAGATCCCAGAAAACCCTCTCATCCTCGTTGACGGCTCCTCCTATCTTTATCGGGCGTATCATGCGTTTCCGCCGCTGACTAACAGCGCAGGGGAGCCCACCGGGGCTATGTACGGCGTACTGAATATGCTGCGCAGTTTGATTCTGCAGTATCAACCGACTCATGCCGTCGTGGTCTTTGATGCGAAAGGGAAAACCTTCCGTGATGAATTGTTCGAACATTACAAATCTCATCGCCCGCCGATGCCGGACGATCTGCGCGCGCAGATTGAGCCGTTGCATAAGATGGTGAAAGCGATGGGGCTGCCGCTGATGGCGGTCCCGGGCGTCGAAGCTGACGATGTGATTGGCACCCTGGCGCGGGAAGCGGAAAGGGCCGGACGTCCGGTGCTGATCAGTACCGGCGATAAAGACATGGCCCAGCTGGTGACGCCGGGGATCACCCTGATCAATACCATGACCAACACTATCCTCGGGCCGGATGAGGTGGTTACCAAATACGGCGTCCCGCCGGAGCTGATTATTGATTTCCTGGCGCTGATGGGCGACTCCTCGGATAACATTCCTGGCGTGCCGGGCGTGGGCGAAAAGACCGCCCAGGCGCTGCTGCAAGGCCTTGGCGGCCTCGATACGCTGTATGCGGAACCGGAGAAAATCGCTGAACTGAGCTTCCGCGGCGCGAAAACGATGGCGGCGAAGCTGGTGCAGAACAAGGAGGTGGCTTATCTCTCTTATCAGCTGGCGACCATCAAAACCGACGTCGAGCTGGAGCTCACGTGTGAAGAGCTTGAGGTGCAGCCGCCGGCTGCAGACGATCTGCTGGCGCTGTTCAGACAGTATGAGTTTAAGCGCTGGACCACCGACGTTGAAGCCGGGAAATGGCTGCAGGCGAAGGGGGGCAAACCGGCTGCGAAACCTGCAGTGCCTGCAGCAGCGGCAGAAGCCGAAGAAGAGGTTGAAGCCGCTACTGCACTTTCAGCAGAGCACTATGTCACTATCCTTGATGAGGCCACGCTGCTCACCTGGATCGATAAGCTGAAGCAGGCGCCGCTCTTTGCCTTTGATACGGAAACCGACAGCCTGGATAACATCTCCGCCAACATGGTCGGCCTTTCATTCGCTGTTGAGCCGGGCGTGGCCGCCTATGTCCCGGTAGCGCATGATTACCTTGATGCGCCGGACCAGATCCCGCGCGAGCGCGTGCTGGCGCTGCTTAAACCGCTGCTGGAGGATGAGAAGCTGCTCAAGGTTGGGCAAAATCTCAAATACGATCGCGGCATTTTGGCTAATTACGACATTGAGCTGCGCGGGATTGCGTTCGATACCATGCTGGAATCTTACATTCTCGACAGCGTGGCGGGCCGCCACGATATGGACAGTCTTTCCGACCGCTGGCTGAAGCATAAAACGATTACCTTCGAAGAGATCGCTGGCAAGGGTAAGAATCAGCTCACCTTTAACCAGATTGCGCTGGAAGAGGCTGGTCGCTACGCGGCGGAAGACGCCGACGTCACGCTTCAGTTGCATCTGAAAATGTGGCCGAAGCTGCAGCAGCATGAAGGTCCGCTGAATATCTTCCAGCACATTGAAATGCCGCTGGTGCCGGTGCTGTCTCGCGTTGAGCGCAATGGCGTTAAAATCGACCCCGCCGTGCTGCATGCGCACTCGCAGGAAATTGCCCAGCGCCTGGTTGAGCTGGAGCAGCGGGCGCATGAGATCGCCGGGGAAGCGTTTAATCTCTCCTCCACCAAACAGCTGCAAACGATCCTGTTTGAAAAACAGGGTATCAAACCGCTGAAGAAGACGCCGGGCGGCGCGCCGTCAACTTCTGAAGAGGTACTGGAAGAGCTGGCGCTCGATTACCCGTTGCCGAAGGTGATTCTGGAGTACCGTGGGCTGGCGAAGTTGAAGTCGACCTATACCGATAAGCTGCCGCTGATGATTAACCCCAAAACGGGCCGCGTGCATACCTCCTATCATCAGGCGGTTACCGCCACTGGCCGTTTGTCGTCTACCGATCCAAACCTGCAAAACATTCCGGTGCGTAACGAAGAAGGGCGCCGTATTCGCCAGGCGTTTATCGCGCCGGAAGATTACGTCATTGTCTCGGCGGACTACTCGCAAATCGAGCTGCGCATTATGGCGCATCTGTCGCGGGATAAAGGCCTGCTGACCGCCTTCGCGGAAGGGAAGGATATTCACCGGGCGACGGCGGCTGAAGTGTTTGGCTTACCGCTGGACAGCGTCAGCAGCGAACAGCGGCGCAGTGCGAAAGCTATCAACTTCGGTCTGATCTATGGCATGAGCGCCTTTGGCCTGGCCCGCCAGCTGAACATCCCGCGTAAAGAAGCGCAGAAGTACATGGATCTTTATTTCGAGCGTTATCCGGGCGTGCTGGAGTATATGGAGCGCACCCGCGCTCAGGCGAAGGAGCAAGGTTATGTTGAAACGCTGGATGGCCGTCGACTCTATTTACCGGATATCAAGTCCAGCAATGGCGCTCGTCGCGCCGGTGCGGAACGTGCGGCGATTAACGCCCCGATGCAGGGGACGGCTGCGGATATCATCAAGCGGGCGATGATTGCCGTTGATGAATGGCTGCGCAGCGAGAAGCCTCGCGTGCGGATGATCATGCAGGTTCACGATGAACTGGTCTTTGAAGTGCATAAAGATGAGCTCGATGCCGTATCGAAAAAGATCCACGAACTGATGGAGAACAGCACTACGCTGGCGGTACCGTTGCTGGTGGAAGTGGGCAGCGGAGAAAACTGGGATCAAGCGCACTAA	MVQIPENPLILVDGSSYLYRAYHAFPPLTNSAGEPTGAMYGVLNMLRSLILQYQPTHAVVVFDAKGKTFRDELFEHYKSHRPPMPDDLRAQIEPLHKMVKAMGLPLMAVPGVEADDVIGTLAREAERAGRPVLISTGDKDMAQLVTPGITLINTMTNTILGPDEVVTKYGVPPELIIDFLALMGDSSDNIPGVPGVGEKTAQALLQGLGGLDTLYAEPEKIAELSFRGAKTMAAKLVQNKEVAYLSYQLATIKTDVELELTCEELEVQPPAADDLLALFRQYEFKRWTTDVEAGKWLQAKGGKPAAKPAVPAAAAEAEEEVEAATALSAEHYVTILDEATLLTWIDKLKQAPLFAFDTETDSLDNISANMVGLSFAVEPGVAAYVPVAHDYLDAPDQIPRERVLALLKPLLEDEKLLKVGQNLKYDRGILANYDIELRGIAFDTMLESYILDSVAGRHDMDSLSDRWLKHKTITFEEIAGKGKNQLTFNQIALEEAGRYAAEDADVTLQLHLKMWPKLQQHEGPLNIFQHIEMPLVPVLSRVERNGVKIDPAVLHAHSQEIAQRLVELEQRAHEIAGEAFNLSSTKQLQTILFEKQGIKPLKKTPGGAPSTSEEVLEELALDYPLPKVILEYRGLAKLKSTYTDKLPLMINPKTGRVHTSYHQAVTATGRLSSTDPNLQNIPVRNEEGRRIRQAFIAPEDYVIVSADYSQIELRIMAHLSRDKGLLTAFAEGKDIHRATAAEVFGLPLDSVSSEQRRSAKAINFGLIYGMSAFGLARQLNIPRKEAQKYMDLYFERYPGVLEYMERTRAQAKEQGYVETLDGRRLYLPDIKSSNGARRAGAERAAINAPMQGTAADIIKRAMIAVDEWLRSEKPRVRMIMQVHDELVFEVHKDELDAVSKKIHELMENSTTLAVPLLVEVGSGENWDQAH				NA	NA	NA	NA	NA
BMS020_07325	909	yihG	COG0204	putative acyltransferase YihG	ATGTCGAGATTACTCGCTGCGATAACACTTCCGCTGAGTATCGCCTTAACCATCTTAGTCACCGTTATCTGCTCTGTACCGATCATCGTCGCCGGGCTGATTAAACTGCTGGTCCCCATTCCAGCGGTATGGCGCTCTATATCCGTTTTTTGCAATTTTATGATGTACTGCTGGTGCGAAGGGCTGGCGCTGCTGTTGCATCTCAATCCCTGGCTAAAATGGGACGTCCAGGGTCTGGAAGGCCTGAACAAAAAGAACTGGTATCTGCTGATCAGCAACCATCACAGCTGGGCAGATATCGTGGTGCTGTGCGTACTGTTCCGCAAGCATATTCCGATGAATAAGTACTTCCTTAAACAGCAGCTGGCGTGGGTACCGTTCATCGGTCTCGCCTGCTGGGCGCTGGATATGCCTTTTATGCGCCGCTATTCGCGTAGCTATCTTATTCGTCACCCGGAACGCCGTGGTAAAGATGTCGAAACCACCCGCCGTTCATGTGAGAAATTCCGCTCACATCCGACGACTATCGTCAATTTCGTGGAAGGCTCACGTTTTACCGACGCAAAAAAGCGCGAGACGCGCTCCCCTTACCACAATCTTTTACCACCGAAAGCGGCAGGTATAGCCATGGCGCTCAATGTTCTCGGTTCGCAGTTCGATAAACTGCTGAACGTTACGCTGTGCTACCCGGAAAATAATGCAAGGCCGTTTTACGACATGTTAAGCGGCCGACTGACGCGCATTGTGGTTCGTATCAATCTGGTACCGATTGGCGAGGAGCTACACGGCGATTACGTCAACGATAAGAACTTTAAGCGTGGCTTCCAGCGCTGGCTGAATGGGCTGTGGGAAGAGAAAGACCGTCAGTTAACTGACATTATGCGGGACAAAGAAGGGGCGCCACGGTAA	MSRLLAAITLPLSIALTILVTVICSVPIIVAGLIKLLVPIPAVWRSISVFCNFMMYCWCEGLALLLHLNPWLKWDVQGLEGLNKKNWYLLISNHHSWADIVVLCVLFRKHIPMNKYFLKQQLAWVPFIGLACWALDMPFMRRYSRSYLIRHPERRGKDVETTRRSCEKFRSHPTTIVNFVEGSRFTDAKKRETRSPYHNLLPPKAAGIAMALNVLGSQFDKLLNVTLCYPENNARPFYDMLSGRLTRIVVRINLVPIGEELHGDYVNDKNFKRGFQRWLNGLWEEKDRQLTDIMRDKEGAPR				NA	NA	NA	NA	NA
BMS020_07326	624	dsbA_2	COG0526	Thiol:disulfide interchange protein DsbA	ATGAAAAAAGTTTGGCTGGCGCTGGCTGGTATGATTCTGGCTTTTAGTGCATCCGCTGCCCAGATCACCGACGGCAAGCAGTACATCACCCTTGATAAGCCGGTTGCTGGCGAGCCACAGGTGCTTGAGTTCTTTTCATTCTACTGCCCGCACTGCTATCAGTTTGAAGAAGTGCTGCATGTCTCTGACAGCGTGCGCCAGAAACTGCCAGAAGGCACCAAAATGACCAAATACCACGTCGAGTTCCTGGGGCCGCTGGGCAAGGAGCTGACGCAGGCATGGGCTGTTGCCATCGCGCTGGGCGTTGAAGACAAAATTACGGCGCCGATGTTCGAAGCGGTGCAGAAAAACCAGACCGTGCAGAGCCTGGCTGACATTCGTAAAGTGTTCGTCGACGCTGGCGTGAAAGGGGAAGACTACGATGCCGCATGGAACAGCTTCGTGGTGAAATCTCTGGTCGCTCAGCAGGAGAAAGCGGCAGCCGATCTGCAGCTGCAGGGGGTACCGGCTATGTACGTCAATGGTAAGTACCAGCTGAACCCGCAGGGGATGGACACCAGCAATATGGATGTCTTCGTCGCTCAGTATGCGGATACCGTGAAGCAGCTGGTTGAGAAGAAATAA	MKKVWLALAGMILAFSASAAQITDGKQYITLDKPVAGEPQVLEFFSFYCPHCYQFEEVLHVSDSVRQKLPEGTKMTKYHVEFLGPLGKELTQAWAVAIALGVEDKITAPMFEAVQKNQTVQSLADIRKVFVDAGVKGEDYDAAWNSFVVKSLVAQQEKAAADLQLQGVPAMYVNGKYQLNPQGMDTSNMDVFVAQYADTVKQLVEKK	PGPT0015115_1219	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015115-dsbA-K03673	NA	NA
BMS020_07327	987	srkA_2	COG2334	Stress response kinase A	ATGCACGATAAGGCTTTTACTTTTCAGACGCTTCGCCCGGATACCATTATCGATGGATTATTCGATCTGGGTATGCGGGTGGACTCCGGTCTTACCCCGCTGAACAGCTATGAGAACCGCGTTTATCAGTTCCAGGACGAAGAGCGTCATCGCTATGTGGTGAAGTTCTATCGTCCTGAGCGCTGGTCGGCAGCGCAGATCCTTGAAGAACACCAGTTTGCGCTTCAGCTTGTAGAAGATGAAGTGCCCGTTGCTGCGCCGCTGTTATTTAACGACAGTACGCTTCATCAGCATCAGGGATTTTATTTTGCCGTTTTCCCAAGCCTTGGCGGCCGACAGTTCGAGGCGGATAACCTTGATCAGATGGAGTGGGTTGGCCGTTATCTTGGGCGCCTGCACCAGACCGGGCGCAAACAGCGCTTTTCTGCGCGTCCGGAGATTGGCGTGCAGGAGTATCTGCTGGAACCGCGCCAGGTATTTGAACAGTCGACGCTTATCCCGTCAGGCCTGAAGGCCGATTTCCTGAAGGCGACCGATAAACTCATCGCTGCCGTCATGACCCAATGGCACGGCGGCGGGACTACTTTGCGCCTGCATGGTGACTGCCATGCAGGCAATATCCTCTGGCGCGATGGGCCGCTGTTTGTTGACTTAGACGATGCGCGAACCGGCCCGGCGATTCAGGATCTGTGGATGCTGCTCAACGGCGATAAGGCTGAACAGCGTATGCAGCTGGAGACCATCGTCGAGGCCTATGAGGAATTCAGCCCCTTTAACAGCGATGAAATCGCGCTTATTGAACCTTTACGCGCCATGCGACTGGTTTATTATCTGGCGTGGTTGCTCAGACGCTGGGACGATCCGGCTTTCCCGGTTAATTTCCCCTGGTTAACCGGGGAGGATTACTGGCGAGGGCAGACGTCTACTTTTCTCGAGCAGGTGAAGGTTCTACAGGAACCCCCGCTTCAGTTAACGCCAATGTATTAA	MHDKAFTFQTLRPDTIIDGLFDLGMRVDSGLTPLNSYENRVYQFQDEERHRYVVKFYRPERWSAAQILEEHQFALQLVEDEVPVAAPLLFNDSTLHQHQGFYFAVFPSLGGRQFEADNLDQMEWVGRYLGRLHQTGRKQRFSARPEIGVQEYLLEPRQVFEQSTLIPSGLKADFLKATDKLIAAVMTQWHGGGTTLRLHGDCHAGNILWRDGPLFVDLDDARTGPAIQDLWMLLNGDKAEQRMQLETIVEAYEEFSPFNSDEIALIEPLRAMRLVYYLAWLLRRWDDPAFPVNFPWLTGEDYWRGQTSTFLEQVKVLQEPPLQLTPMY				NA	NA	NA	NA	NA
BMS020_07328	270	yihD	COG3084	Protein YihD	ATGAAATGTAAACGTCTGAATGAAGTAATTGAACTCCTCCAGCCCGCCTGGCAGAAAGAGCCTGAACTGAACCTGATGCAATTTTTGCAGAAGCTGGCGAAAGAGGCCGGCTATGATGGCGAACTGAGCGATCTTTCCGACGATATTCTGATCTATCACCTGAAGATGCGTGACTCTTCAAAAGATGCTGTCATCCCGGGTATTCAGAAGGATTATGAAGAGGACTTTAAAACCGCGCTGTTGCGCGCCCGCGGCGTAATAAAAGAGTAA	MKCKRLNEVIELLQPAWQKEPELNLMQFLQKLAKEAGYDGELSDLSDDILIYHLKMRDSSKDAVIPGIQKDYEEDFKTALLRARGVIKE				NA	NA	NA	NA	NA
BMS020_07329	582	mobA_3	COG0746	Molybdenum cofactor guanylyltransferase	ATGCAAAGCGAGGCGATAACCGGCGTCGTGCTGGCGGGCGGCAGGGCCACGCGAATGGGCGGCATTGATAAAGGATTACAGTTGCTCAATGGACGTCCTCTCTGGCGACACGTCGCGGAGGCATTAGCTCCGCAGGTAGATGAGTTAGTGATTAGCGCCAACCGTCACCTTACGCAGTGGCAAGCCAGTGGATATCCGGTGTTTCGTGATACGCAGGCGGGGTACCCGGGTCCTTTAGCCGGTATGCTTGCCGTGATGCAGCAGGTCGCGAGTCCATGGTTTGTTTTTTGCCCCTGCGACACGCCCTTCATTCCGTCATGTTTAGTTGAGCGCTTTATCCAGCAAAAAAGCGCTGCGCCGGTGGTTTGGGCCCATGACGGCGAACGGGATCATCCCGCCGTTGCGCTGGCGCATCGTCAAATTATTCCGCATCTGGAGGCCTATCTTGCCAGCGGCGAACGCCGGGTAATGGTGTTCATGCGCCAGATGGGCGGCCATCCGGTTAGCTTCAGCGAGGTAAAATCGGCTTTTATGAATGTGAATACGCTCGAGGATTTGCAACGTATGCAGGAGCCATCATGA	MQSEAITGVVLAGGRATRMGGIDKGLQLLNGRPLWRHVAEALAPQVDELVISANRHLTQWQASGYPVFRDTQAGYPGPLAGMLAVMQQVASPWFVFCPCDTPFIPSCLVERFIQQKSAAPVVWAHDGERDHPAVALAHRQIIPHLEAYLASGERRVMVFMRQMGGHPVSFSEVKSAFMNVNTLEDLQRMQEPS	PGPT0008430_495	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
BMS020_07330	507	mobB	COG1763	Molybdopterin-guanine dinucleotide biosynthesis adapter protein	ATGATCCCGCTATTAGCGATTGCCGCCTGGAGCGGTACAGGGAAAACGACATTATTAAAGCGTCTCATTCCTGAGCTGTGCGCTCAAGGATTACGCCCTGGTCTGATCAAGCATACCCATCATGATATGGACGTGGATAAGCCGGGCAAAGATAGCTATGAATTGCGCAAGGCGGGCGCTGCGCAAACCATTGTCGCCAGCGAACAGCGGTGGGCGCTGATGACCGAAACACCCGAGAAGCCGGAATTAGATCTCACATGGCTGGTCAGTCGAATGGATGCCAGCAGACTGGACCTTGTTTTGGTCGAGGGTTTCAAGCATGAAGCAGTGCCTAAGATCCTGCTTTTTCGGCAAAACAGCGGCCATCGTGTGGAAGAGTTAACGATGGATGATCATACGATCGCCGTGGCCAGCGATGTATCGATCGCGACCTCACTTCCGCTGTTGGATTTAAATAATATTCCGCAGATTGCGACATTTATTGTCGGCTGGTTAGCGAAGCAGTAG	MIPLLAIAAWSGTGKTTLLKRLIPELCAQGLRPGLIKHTHHDMDVDKPGKDSYELRKAGAAQTIVASEQRWALMTETPEKPELDLTWLVSRMDASRLDLVLVEGFKHEAVPKILLFRQNSGHRVEELTMDDHTIAVASDVSIATSLPLLDLNNIPQIATFIVGWLAKQ	PGPT0008430_683	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
BMS020_07331	147	oadB_2	COG1883	Oxaloacetate decarboxylase beta chain	ATGGCGGCCAGGGTGTCGAACAAGGTGGGTCTGGAAGCGGACGGGCAGAACTTCCTGCTGATGCACGCGATGGGCCCGAACGTGGCGGGGGTGATCGGCTCGGCGATCGCCGCCGGAGTGATGCTCAAGTACGTGCTGGCGATGTAA	MAARVSNKVGLEADGQNFLLMHAMGPNVAGVIGSAIAAGVMLKYVLAM	PGPT0001940_180	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0001940-madB|oadB|gcdB|mmdB-K20509	NA	NA
BMS020_07332	672	citG_4		2-(5''-triphosphoribosyl)-3'-dephosphocoenzyme-A synthase	ATGGAAGATACCGTATTACTGGATAACCAAAGAATACAGACCTCCGAACAGAGCAATATTATTCTCAGGTCGATACGGGCGATTGATTTAGTGAATCATCTGACACCGGAGCTAGGCATCATTGAGATCCTCAGCGAACAGTTCAATGTGCAGAAAATACTAGTGACTTGTCTTTATGCCGGACAGCAGCTTGCCATGGAACGGCGGATAGTATTGCCGCTATTACCCGAGTCGCTCTATTTGTTGGGTGGGGTAGTGATGGCCGCCGGAAAGTCAGTGGGAAAAAGAGAGACTCTCACTCACAACCGCCTGTGCGATGAGGCGGGAAAACTGCTTAACGACGATGCGGCCAGGGAGAGCTTTGATGTGATAAGAAGCATTGCTCTGCCGGTTTACCGCCGGCTGGTCAAAGAGCGGCGTACCCACGTCGCCTCTTTATTGCAGGCTATGCTGCATATTCTTGCCTGGCGTAGTGAAAGCGCATGGGCGCGGGACCAGGCGCAAAGAATGCTCTGGGCTGGTGGAGTGTTTGGACGGGGAGGGGTAGATTCGCTGATCGCCTTTGACCACACGTTGGCAGAAAAAGAGATAACATTCCCGTCTCTGCGCGAGTTGTTAACCGTGACGGCATTTCTGGCCCACTTCCCTGCGGGCCCGATCTTCGCTGATTAA	MEDTVLLDNQRIQTSEQSNIILRSIRAIDLVNHLTPELGIIEILSEQFNVQKILVTCLYAGQQLAMERRIVLPLLPESLYLLGGVVMAAGKSVGKRETLTHNRLCDEAGKLLNDDAARESFDVIRSIALPVYRRLVKERRTHVASLLQAMLHILAWRSESAWARDQAQRMLWAGGVFGRGGVDSLIAFDHTLAEKEITFPSLRELLTVTAFLAHFPAGPIFAD				NA	NA	NA	NA	NA
BMS020_07333	636	msrA_2	COG0225	Peptide methionine sulfoxide reductase MsrA	GTGAGTCTATTTGATAAAACGCATCTTGTCGCCCAGGCGGATGCGCTGCCTGGACGCAATACCCCGATGCCAGTGGCGACGCTCCACGCAGTTAACGGCCACTCGATGACCAACGTCCCGGCGGGGATGGAAGTCGCGCTGTTCGCCATGGGCTGCTTCTGGGGAGTTGAACGTCTGTTCTGGCAATTGCCGGGGGTTTACAGCACCGCCGCCGGCTACACTGGCGGCTATACGCCCAATCCGACCTATCGCGAAGTGTGCAGCGGCCAGACCGGTCACGCGGAAGCGGTGCGCGTGGTCTACGATCCGCAGGTCATTAGCTATGAGCAGTTATTACAGGTGTTCTGGGAAAATCACGATCCGGCGCAGGGCATGCGACAGGGCAACGACCACGGTACCCAGTACCGTTCGGCGATTTACCCGTTGACGCCGGAACAGACGGAAGCGGCAAAGGCCAGCCTCGCGCGCTTCCAGGCGGCGATGAACGACGCGCACGATACCCGGCACATCACCACCGAGATCGCCACCGCCAAACCGTTCTACTATGCCGAGGACGATCACCAGCAGTATCTGTATAAGAACCCGCACGGCTATTGCGGCATCGGCGGCATTGGCGTCTGCCTGCCGCCTCAGTAA	MSLFDKTHLVAQADALPGRNTPMPVATLHAVNGHSMTNVPAGMEVALFAMGCFWGVERLFWQLPGVYSTAAGYTGGYTPNPTYREVCSGQTGHAEAVRVVYDPQVISYEQLLQVFWENHDPAQGMRQGNDHGTQYRSAIYPLTPEQTEAAKASLARFQAAMNDAHDTRHITTEIATAKPFYYAEDDHQQYLYKNPHGYCGIGGIGVCLPPQ	PGPT0013065_2556	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013065-msrA-K07304	NA	NA
BMS020_07334	1734	tamA_2	COG0729	Translocation and assembly module subunit TamA	GTGCTAAAAATCCGCCAGTTATGTGTCACCAGCCTTTTGCTGGTCAGCGGGATCGCCAGCGCAGCGAATGTGCGTTTGCAGGTTGAAGGATTATCCGGGGAGCTGGAGAAAAACGTTCGCGCCCAGCTTTCCACCATCCAGAGTGATGAGGTCACGCCGGATCGTCGCTTTCGCGCGCGCGTCGATGACGCCATTCGCGAAGGTCTGAAAGCGCTGGGGTATTACGAGCCGACGATTGAATTTGATCTTCGTCCGCCGCCGAAAAGGGGCCGTCAGGTGCTGATCGCCAAAGTGACCCCGGGTGAGCCGGTGCGCATTGGCGGCACCGAGGTGATTCTGCGCGGCGGCGCCCGCACCGACAGCGACTATCTGGCGCTGTTGAAAACCCGCCCAGCCATCGGGACGGTGCTCAACCACGGCGATTACGACGGTTTCAAGAGCTCCCTGACCCGCGTCGCCCTGCGCAAAGGCTACTTTGACAGCGAGTTCATTAAAAGCCAGCTGGGGGTCTCCCTCGACCGCCATCAGGCGTTCTGGGATATCGATTACGACAGCGGCGAACGCTATCGCTTTGGCCACGTCACCTTCTCCGGATCGCAAATCCGTGATGAATACCTGCAAAACCTCGTGCCGTTTAAAGAGGGCGACTACTACACCTCTCAGGACCTGGCCGAGCTAAACCGCCGCCTGGCGGCGACCGGGTGGTTCAGTTCGGTGGTGGTGGCGCCTGATTTTGCTAAGTCACGGAAAACCAAGGTGCTGCCTCTGCAGGGCGTTGTCTCGCCACGCAAAGAGAACACCGTGGAAACCGGGGTAGGGTACTCCACAGACGTCGGTCCGCGGGTAAAAGCCACGTGGAAAAAACCGTGGATGAACTCCTATGGCCACAGCCTGACCTCCAGCGTCAGCCTCTCCGCCCCGGAGCAGCAGTTCGACTTCACCTATAAAGTCCCGCTGCTCAAGAGCCCGCTCGAGCAGTACTATCTGATGCAGGGCGGCTTTAAGCGTACCGATCTCAATGACACCCAGGCCGACTCCACCACCCTTGGGTTGTCGCGTTTCTGGGAGATGTCGAGCGGCTGGCAGCGGGCGATCAACCTGCGCTGGAGCCTGGACCACTTTACCCAGGCGAACGTCACCAACACCACCATGCTGATTTACCCCGGGGTCTCGGTGAACCGTACTCGCTCCCGCGGCGGCCTGATGCCCACCTGGGGCGATTCCCAGCGCTACTCGGTGGACTACTCCAACACCATGTGGGGCTCGGACATCAACTTCATCGTGATGCAGGCCCAGGACGTCTGGATCCGTACCCTCTATGACCGCCACCGCTTTGTGGTGCGCGGCAACCTGGGCTGGATCGAAGCGGATAACTTTGACAAGGTGCCGCCGGACCTGCGCTTTTTCGCCGGGGGCGATCGCAGTATTCGCGGCTATAAATACAAATCCATCTCGCCGAAGGACGATGACGGCAAGCTGATCGGGGCCTCGAAGCTGGCCACCGGCTCGCTGGAATATCAGTACAACGTCAGCGGCAAATGGTGGGGCGCCGTGTTTGTCGATAGCGGCGAAGCGGTCAGCGATATTCGCGAAAGTGATTTTAAAACCGGCGCCGGGGTGGGTGTGCGCTGGCAGTCGCCGGTGGGGCCGATCAAGCTGGATATCGCCCGGCCAATCGGCGACAAAGAAGAGCATGGTTTACAGTTTTACATCGGTCTGGGGCCTGAATTATGA	MLKIRQLCVTSLLLVSGIASAANVRLQVEGLSGELEKNVRAQLSTIQSDEVTPDRRFRARVDDAIREGLKALGYYEPTIEFDLRPPPKRGRQVLIAKVTPGEPVRIGGTEVILRGGARTDSDYLALLKTRPAIGTVLNHGDYDGFKSSLTRVALRKGYFDSEFIKSQLGVSLDRHQAFWDIDYDSGERYRFGHVTFSGSQIRDEYLQNLVPFKEGDYYTSQDLAELNRRLAATGWFSSVVVAPDFAKSRKTKVLPLQGVVSPRKENTVETGVGYSTDVGPRVKATWKKPWMNSYGHSLTSSVSLSAPEQQFDFTYKVPLLKSPLEQYYLMQGGFKRTDLNDTQADSTTLGLSRFWEMSSGWQRAINLRWSLDHFTQANVTNTTMLIYPGVSVNRTRSRGGLMPTWGDSQRYSVDYSNTMWGSDINFIVMQAQDVWIRTLYDRHRFVVRGNLGWIEADNFDKVPPDLRFFAGGDRSIRGYKYKSISPKDDDGKLIGASKLATGSLEYQYNVSGKWWGAVFVDSGEAVSDIRESDFKTGAGVGVRWQSPVGPIKLDIARPIGDKEEHGLQFYIGLGPEL				NA	NA	NA	NA	NA
BMS020_07335	3777	tamB	COG2911	Translocation and assembly module subunit TamB	ATGAGTTTATGGAAGAAGATAAGCCTCGGCGTCTTAATCGTGTTGGTCCTCCTGCTGGGCACCGTCGGGTTCCTGATGGGCACCACCACCGGCTTGCACCTGGTGTTCAAAGCGGCGGATCGCTGGGTACCGGGGCTGGAAATCGGCAAAGTGACCGGCGGCTGGCGTGATTTAACCCTCGATAATGTCCGCTATGAGCAGCCCGGCGTGGCGGTCACCGCCGGCCAGTTTCATCTTAGCGTCAGGTTGCGCTGCCTGTGGGACAGCAGTCTGTGCGTAAACGACATCTCGCTGCGCGATATTTACGTCGCCGTCGATACGAAGAAGATGCCGCCCTCTGCGCCGGTCGAGGAAGAGGACAGCGGGCCGCTGAATCTCGCCACCCCTTATCCGATCGACCTCAGCCGCGTCGCGCTGCATAACGTCAACGTCAAAATCGACGATACCGCGGTCTCTGTGCGCGATTTTTCCACCGGCCTGAACTGGCAGGAGAAAAACCTGACCCTGACGCCGACCTCGCTGCAGGGGCTGCTGATCGCCCTGCCGAAGGTGGCGAAAGTAGCGCAGGAGCAGGTGGTTGAACCGAAAATCGACAACCCGCAGCCGCAGGAAAAACCGCTCGGCGAGACGATGACCGACCTCTTCTCGCAGCCGGTGCTGCCGGCGATGACCGACGTCCATCTGCCGCTGAACCTCAATATTGAGGCGTTCCGCGGCGAGCAGCTGCGCCTCACCGGCGATACCGATATCACCGTGTATAACCTGCTGCTGAAAGTCAGCAGTATCGACGGGCAGATGAAGCTCGACGCCCTCGATATCGACTCCGATCAGGGCAAAGTCACCGCCTCGGGCAGCGCCCAGCTGCAGGATAACTGGCCGGTAGACATCACCCTCGCCGGAACGCTGAACGTCGACCCGATGAAAGGGGAGAAAGTGCAGCTGAAGGTGGGCGGCGAGATACGTAAAACGCTTAAGGTCGGGGTGGACTTAAGCGGGCCGGTAGCGGCCACGCTGCGGGCGGACGCGCAGCTGGCGGAGGCCGGGCTGCCGCTCAATATGGAGCTGAAGAGCAAGCAGCTCGCCTGGCCGTTCAGCGGCGAGAAGCAGTTCCAGGCCGATGACGTCCAGCTGAAGTTCAGCGGCAAAATGACCGACTACGCGCTGGCCTTCTCCACAGCGGTGAAAGGCCAGTCGCTGCCGCCGGCGAAAATCGCCCTCAACGCTAAAGGCAATGAGCGGCAGATCAATCTCGACAAGCTGACGGTCAATGCCCTGGAAGGGAAAACCGAGCTGAAGGCGCTCCTCGACTGGCAGCAGGCGATCAGCTGGCGCGGCGAGCTGACCCTCGACGGCATCAACACCGCCAAAGAGGTGCCGGACTGGCCGTCGAAGCTCAACGGCAGGATCAAGACCCAGGGCAGCCTGTACGGCGGCAGCTGGCAGATGTCGGTGCCGGAGCTGAAAATTACCGGCAACGTGAAACAGAACAAGGTGGATGTCTCCGGCTCGCTGCAGGGCAACAGCTATCTGCAGTGGAAGATCCCGGGGCTGCATCTGGCGTTAGGCCCGAACAGCGCCGATATCAAAGGCGAGCTGGGGGTGAAGGATCTGAATCTCGACGCCACCATCGATGCGCCGCACCTGGATAATGCGCTGCCGGGGCTCGGCGGGACGGCGAAGGGGCTGGTGAAAGTGCGCGGCACTGTCGATGCGCCGCAGCTGCTGGCGGACATCACCGCCCGGGCGCTGCGCTGGCAGGAGCTGAGCATCGCCCAGGTTAACGTCAAAGGGGATGTGAAATCCACCGATCAGATTGGCGGCAACCTGGACGTGCGGGTGGATCGCATCAGCCAGCCGGGGGTGAATATCAGCCTGGTGCAGCTCAATGCCAAAGGCACTGAGAAGCAGCATGAGCTGCGGCTGCGGGTGCAGGGCGATCCGGTTTCCGGCCAGCTGGCGCTGGCGGGCAGCTTCGATCGTCAGGCCGAGCGCTGGAGAGGCGCGCTAAGCGATACCCGCTTCCAGACGCCGGTGGGGCCGGTAGCGCTGACGCGCAGTATTGCGCTGGACTACCGTAACCAGGAGCAGAAAATCAGCATCGGGCCACACTGCTGGACCAACCCGAACGCCGAACTCTGCGTGCCTGAGACCATTGACGCGGGCGCCAGCGGGCGGGCGCGGGTGAATCTCAACCGCTTCGACCTGGCGATGCTTAAGCCGTTTATGCCGGAGGCGACCCAGGCCAGCGGCGTGTTTACCGGTAATGCCGATGTCAGCTGGGACACCACCAAAGAGGGGCTGCCGCAGGGCAAAGTGACCCTCAGCGGGCGCAACGTCAAAGTGACCCAGGTGGTCAATGACGCCCCGCTGCCGGTGGCGTTCGATACGCTGAACCTCAGCGCCGATCTGCACAACAATCGCGCGGAGCTGGGCTGGCTTATCCGCCTGACCAACAATGGCCAACTGGATGGGCAAGTGCAGGTCACCGACCCGCAGGGGCGGCGTAATCTCGGCGGCAACGTCAATATCAGCAACTTCTCGCTGGCGATGATCAACCCGATTTTCGCCCGCGGTGAAAAGGCGGAGGGACGGCTCAACGCCCGTCTGCGCCTGGGCGGCAACGTGAAAAGTCCGCAGCTGTTCGGCCAGATGCAGCTAAGCGGGGTGGATATCGACGGCAACTTTATGCCGTTTGATATGCAGCCGAGCCAGCTGGCGATGAACTTCAACGGCACGCGCTCGACCTTGCAGGGGACGGTGAACACCCGTCAGGGGCAAATCGCCCTTAGCGGGAACGCCGACTGGACGCAGATCGATAACTGGCGGGCGCAGATTGCGGCGAAAGGCAGCCGGGTGCGGATCACCGTGCCGCCGATGGTCCGTCTCGATGTATCGCCGGACGTGGTGTTTACCGCCACGCCAAGCCTGTTCAACCTCGATGGCAAGGTGGATGTGCCCTGGGCGCGGATCGTGGTCAACGAGGTGCCGGAGAGCGCGGTCGGCGTGTCGTCGGACGAAGTGATGCTCGACAAAAACCTCAAGCCGATTAAGCAGCAGAGCGCCGGGATCCCGATCAACAGCAACCTGACGATCCACGTCGGCAACAACGTTCGTCTGGAAGCCTTCGGTCTGAAAGCGCGTCTGACCGGCGATCTGAAAGTGGCGCAGGACAAGCAGGGGCTGGGACTCAACGGGCAGATCAATATTCCGGACGGCCGCTTCCACGCCTATGGCCAGGATTTGATTGTGCGCAAAGGGGAGCTGCTGTTCTCCGGTCCGCCGGATCAGCCGTTGCTGAATATCGAAGCGATTCGTAACCCGGATGCCACCGAAGACGACGTGATCGCCGGCGTTCGCGTCACCGGCTCCGCCGATCAGCCGAAAGCGGAGATCTTCTCCGACCCGGTTATGTCCCAGCAGGAAGCGCTGTCTTATCTGCTGCGCGGCCAGGGTTTGAGCAGCGGACAGAGCGATAGCGCCGCGATGACCTCAATGCTTATTGGTATGGGGGTTGCACAAAGTGGTCAGGTTGTGGGTAAAATCGGCGAGACGTTTGGCGTAAGCAATTTGGCGTTGGACACCGAAGGGGTAGGCGACTCTTCCCAGGTGGTGGTCAGCGGCTATGTACTGCCGGGTCTGCAGGTAAAATACGGGGTCGGTATCTTCGATTCCCTGGCGACGCTGACTTTACGTTATCGCCTGATGCCTAAGCTATATGTGGAAGCGGTGTCTGGCATCGACCAGGCGCTCGATTTGCTCTATCAGTTTGAGTTTTAG	MSLWKKISLGVLIVLVLLLGTVGFLMGTTTGLHLVFKAADRWVPGLEIGKVTGGWRDLTLDNVRYEQPGVAVTAGQFHLSVRLRCLWDSSLCVNDISLRDIYVAVDTKKMPPSAPVEEEDSGPLNLATPYPIDLSRVALHNVNVKIDDTAVSVRDFSTGLNWQEKNLTLTPTSLQGLLIALPKVAKVAQEQVVEPKIDNPQPQEKPLGETMTDLFSQPVLPAMTDVHLPLNLNIEAFRGEQLRLTGDTDITVYNLLLKVSSIDGQMKLDALDIDSDQGKVTASGSAQLQDNWPVDITLAGTLNVDPMKGEKVQLKVGGEIRKTLKVGVDLSGPVAATLRADAQLAEAGLPLNMELKSKQLAWPFSGEKQFQADDVQLKFSGKMTDYALAFSTAVKGQSLPPAKIALNAKGNERQINLDKLTVNALEGKTELKALLDWQQAISWRGELTLDGINTAKEVPDWPSKLNGRIKTQGSLYGGSWQMSVPELKITGNVKQNKVDVSGSLQGNSYLQWKIPGLHLALGPNSADIKGELGVKDLNLDATIDAPHLDNALPGLGGTAKGLVKVRGTVDAPQLLADITARALRWQELSIAQVNVKGDVKSTDQIGGNLDVRVDRISQPGVNISLVQLNAKGTEKQHELRLRVQGDPVSGQLALAGSFDRQAERWRGALSDTRFQTPVGPVALTRSIALDYRNQEQKISIGPHCWTNPNAELCVPETIDAGASGRARVNLNRFDLAMLKPFMPEATQASGVFTGNADVSWDTTKEGLPQGKVTLSGRNVKVTQVVNDAPLPVAFDTLNLSADLHNNRAELGWLIRLTNNGQLDGQVQVTDPQGRRNLGGNVNISNFSLAMINPIFARGEKAEGRLNARLRLGGNVKSPQLFGQMQLSGVDIDGNFMPFDMQPSQLAMNFNGTRSTLQGTVNTRQGQIALSGNADWTQIDNWRAQIAAKGSRVRITVPPMVRLDVSPDVVFTATPSLFNLDGKVDVPWARIVVNEVPESAVGVSSDEVMLDKNLKPIKQQSAGIPINSNLTIHVGNNVRLEAFGLKARLTGDLKVAQDKQGLGLNGQINIPDGRFHAYGQDLIVRKGELLFSGPPDQPLLNIEAIRNPDATEDDVIAGVRVTGSADQPKAEIFSDPVMSQQEALSYLLRGQGLSSGQSDSAAMTSMLIGMGVAQSGQVVGKIGETFGVSNLALDTEGVGDSSQVVVSGYVLPGLQVKYGVGIFDSLATLTLRYRLMPKLYVEAVSGIDQALDLLYQFEF				NA	NA	NA	NA	NA
BMS020_07336	345	ytfP	COG2105	Gamma-glutamylcyclotransferase family protein ytfP	ATGCGAATATTTGTTTACGGCAGTTTACGACGCAAACAAGGCAACAGCCACTGGATGACCAACGCCCAGTGGCTGGGCGCTCATAGTGTCGACGATTATCAGCTGTACAGCCTGGGCCACTATCCAGGCGCGGTGCCCGGCGAAGGCACAGTACATGGTGAAGTTTATCGTATTGATGCATCGACGCTGGCCGAACTGGATGCGCTCCGCACCAAGGGGGGCGAGTATGCGCGCCACCTGATTCAGACGCCTTACGGCAGCGCATGGATGTATGTCTATCAACGTTCCGTTGAGGGTTGTACGTTGATAGCGAACGGCAACTGGTTGGATCGCGACCAGTATTAA	MRIFVYGSLRRKQGNSHWMTNAQWLGAHSVDDYQLYSLGHYPGAVPGEGTVHGEVYRIDASTLAELDALRTKGGEYARHLIQTPYGSAWMYVYQRSVEGCTLIANGNWLDRDQY				NA	NA	NA	NA	NA
BMS020_07337	1188			hypothetical protein	GTGAAAAGCGTTCGCTATTTCACTCTTAACTTTTCTGGCTTCACAACCGCCGCCTCTGAAAAACAGGGGTATCTGCGCCTTATCGCCGGCGACCATGTCTTTTATACCGATAAACGCTATTTTAACGACCCCTCGCTTTTTGACCGCCTGAAGACCCATCAGCCTCTGTATCTCGGCGCCCGCCGCCTGGACAACGGCAGTTACTGGATCCACTGGCTCAGCGATGGCGAAACGCTCCTTGAGCCCAGTCAACGCGTCAAGCGCTGGGCCCGGCCGCTGCTGATTATCAGCCTGCTGACACTCATCGTCTCCCTTATTCCGCTCCTGGTGAGCGCCTCAGAATGGGCAAAGTTCGGCTGCGGCATTATCGCGGTACTGGCCTTCATCGCGCTGTTAACCGGGCTCTGCGAGCGGCTGTTCCACCCGGCGCTAAAACGGCACCCCGCCATGCGCGATCTGCTGGCGAAGATGGCGCAGGCCCGCCGCCGCGACTTTTCTTTTTGCCAGCCGCTACCCGCAACGCCGCGGGCCGTCCGCCGGTCGGCGATGCCTTTTACGCATGCCCTGCCGGTACGCTATGCGGCTAAGACAGACATCATCACCGATACCCACTTTAAGAAGTGGTATGCGGGCAATCCTACGCGGGAATATCACGGCCTCGGGATACAATGCGGTGCCCTGCCGCTGGCCTTCTGGTGGCAGGCAGGCTGCGCTAATTTCGCGCTGCATCCTGTTCTCTATCGTCGTCAGCCACCGTTTCTAGCCACTGGCGATCGTATCGTCGCCGTATACGAGCGCGACAGCCGGGCGATCCATGCGCTATACAATGCCAGCGACGGCGCGGCTTATGTAAAAAACCATCCGCTCTATCCTGGACGCAGACAGCTGTCGCTGCTTTATTACCTGTTTTACGGCCTCGCGCTGGTGATGTATCTGCTATTTCTCGGGGTAGAAATCATCAGCGCCCTTCAGTCTGGCCGGCGCGTCTGGTGGCAGGTTCAGGATTCACTGGACATGCTGTCCTTACTGTTACTCTGCTTTGGCGGGATACTGGCGGTACTGGAGCTGATTGGCCCAACGACCTGGTTATTGTCACACCGGGTGGCTGACTGGCTGAAGCTGCGATCGGCGATGCGGCGTTACCTGCGGGAGGCAGCCCCCCAAACCACGCCCGAGGAGGTCATGTAA	MKSVRYFTLNFSGFTTAASEKQGYLRLIAGDHVFYTDKRYFNDPSLFDRLKTHQPLYLGARRLDNGSYWIHWLSDGETLLEPSQRVKRWARPLLIISLLTLIVSLIPLLVSASEWAKFGCGIIAVLAFIALLTGLCERLFHPALKRHPAMRDLLAKMAQARRRDFSFCQPLPATPRAVRRSAMPFTHALPVRYAAKTDIITDTHFKKWYAGNPTREYHGLGIQCGALPLAFWWQAGCANFALHPVLYRRQPPFLATGDRIVAVYERDSRAIHALYNASDGAAYVKNHPLYPGRRQLSLLYYLFYGLALVMYLLFLGVEIISALQSGRRVWWQVQDSLDMLSLLLLCFGGILAVLELIGPTTWLLSHRVADWLKLRSAMRRYLREAAPQTTPEEVM				NA	NA	NA	NA	NA
BMS020_07338	531	ppa_4	COG0221	Inorganic pyrophosphatase	ATGAGCTTACTCAACGTACCTGCGGGCAAAGATCTGCCGGAAGACATCTACGTCGTGATCGAGATCCCGGCGAACGCAGATCCCATCAAATACGAAGTCGACAAAGAGAGCGGTGCACTGTTCGTTGACCGTTTCATGTCCACAGCGATGTTCTATCCGTGCAACTACGGCTACATCAACCACACCCTGTCCCTGGACGGCGACCCGGTTGACGTGCTGGTCCCGACCCCGTACCCGCTGCAGCCGGGCTCCGTGATCCGCTGCCGTCCGGTTGGCGTTCTGAAGATGACCGACGAATCCGGTGAAGATGCGAAACTGGTTGCGGTACCGCACACCAAGCTGAGCAAAGAATACGATCACATCAACGATGTGAACGACCTGCCGGAACTGCTGAAAGCCCAGATCACTCACTTCTTTGAGCACTACAAAGATCTGGAAAAAGGCAAGTGGGTTAAAGTCGACGGTTGGGACAACGCAGAAGCGGCGAAAGCTGAAATCGTTGCCTCTTTCGAGCGCGCTAAGCAGAAGTAA	MSLLNVPAGKDLPEDIYVVIEIPANADPIKYEVDKESGALFVDRFMSTAMFYPCNYGYINHTLSLDGDPVDVLVPTPYPLQPGSVIRCRPVGVLKMTDESGEDAKLVAVPHTKLSKEYDHINDVNDLPELLKAQITHFFEHYKDLEKGKWVKVDGWDNAEAAKAEIVASFERAKQK	PGPT0002600_2889	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-INORGANIC_PHOSPHATASE,PGPT0002600-ppa-K01507	NA	NA
BMS020_07339	957	ytfQ_2		ABC transporter periplasmic-binding protein YtfQ	ATGTGGAAGCGCTTACTTCTTGTCACAGCAGTTTCCGCAGCTATGTCGTCTATGGCGATAGCTGCCCCGCTAACCGTAGGTTTTTCGCAGGTCGGTTCTGAATCCGGCTGGCGTGCGGCAGAAACCAGCGTCGCGAAAGAGGAAGCCGCCAAGCGCGGTATCACGCTGAAGATCGCCGATGGTCAGCAAAAACAGGAAAACCAGATCAAAGCGGTGCGCTCCTTTATCGCCCAGGGGGTAGACGCGATCTTCATTGCGCCGGTGGTGGCTACCGGCTGGGAGCCGGTGCTGAAAGAGGCGAAAGAGGCCAAAATCCCGGTCTTCCTCCTCGACCGTTCCATTGATGTGAAAGATAAAGATCTCTACATGACCACCGTGACCGCCAACAACGTGCTGGAAGGTCAACTGATTGGCGACTGGCTGGTGAAAACCGTCGACGGTAAGCCGTGTAACGTCGTGGAACTGCAGGGCACCGTCGGGGCCAGCGTGGCCATCGACCGTAAGAAAGGCTTCGCTGACGCCATCGCCAAAGCGTCGAATATCAAAATCATCCGCTCTCAGTCCGGCGACTTCACCCGCAGCAAAGGGAAAGAGGTTATGGAGAGCTTTATCAAGGCTGAGAATAACGGCAAAAACATCTGCATGGTATTCGCTCATAACGACGATATGGCCATCGGCGCCATCCAGGCCATTAAAGAAGCTGGCCTGAAGCCGGGCAAAGATATTCTGACCGGCTCCATCGACGGCGTGCCGGATATCTATAAAGCGATGATCGCCGGCGAAGCCAACGCCAGCGTCGAGCTGACGCCAAATATGGCCGGCCCGGCGTTTGATGCGCTGGAGAAATACAAAAAAGACGGCACCCTGCCGGAGAAGCTGACCATTACCAAATCGACGCTGTATCTGCCGGATACGGCGAAAGAAGAGTTAGAGAAGAAGAAAAATATGGGCTACTGA	MWKRLLLVTAVSAAMSSMAIAAPLTVGFSQVGSESGWRAAETSVAKEEAAKRGITLKIADGQQKQENQIKAVRSFIAQGVDAIFIAPVVATGWEPVLKEAKEAKIPVFLLDRSIDVKDKDLYMTTVTANNVLEGQLIGDWLVKTVDGKPCNVVELQGTVGASVAIDRKKGFADAIAKASNIKIIRSQSGDFTRSKGKEVMESFIKAENNGKNICMVFAHNDDMAIGAIQAIKEAGLKPGKDILTGSIDGVPDIYKAMIAGEANASVELTPNMAGPAFDALEKYKKDGTLPEKLTITKSTLYLPDTAKEELEKKKNMGY	PGPT0016625_695	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016625-ytfQ-K23508	NA	NA
BMS020_07340	1503	fruK_2	COG1129	Fructose import ATP-binding protein FruK	ATGAGCGCCGAGGCACACCAGGAGATCCTTCGCACCGAAGGACTCAGTAAATTCTTCCCCGGCGTTAAGGCGCTGGATAACGTCAACTTTAGCCTGCGGCGCGGCGAAATCATGGCCCTGTTGGGCGAAAACGGCGCCGGGAAATCGACGCTGATCAAAGCGCTTACCGGCGTTTACCATGCCGATCGCGGCACTATCTGGCTGGAAGGCCAGGCCATTTCCCCGAAAAATACCGCCCATGCCCAGCAGCTGGGGATCGGCACTGTCTACCAGGAAGTGAACCTGCTGCCCAATATGTCGGTGGCGGATAACCTGTTCATCGGCCGTGAGCCGCGGCGGTTTGGCCTGCTGCGGCGGAAAGAGATGGAGGCCAGGGCGACGGCGCTGATGGCCTCCTACGGCTTTTCCCTCGATGTGCGCGAGCCGCTGAACCGCTTTTCAGTGGCGATGCAGCAGATCGTCGCTATCTGCCGGGCCATCGACCTGTCGGCCAAGGTGCTGATCCTCGACGAGCCCACCGCCAGCCTCGATACCCAGGAGGTGGAGATGCTGTTTACCCTGATGCGCCAGCTCAGGGATAACGGCGTCAGCCTGATCTTCGTCACCCATTTTCTCGACCAGGTCTATGCGGTCAGCGACCGCATTACCGTGCTGCGCAACGGCAGCTTCGTCGGCTGCCGCGAGACCCGCGAGCTGCCGCAGATTGAGCTGGTGAAAATGATGCTGGGCCGCGAACTGGACCACAACGCCCTGCAGCGGGCGGGCCGAACCCTGCTGAGCGATAAGCCGGTGGCGGCATTTGAAGGCTACGGTAAAAAAGGCACCATCGCCCCGTTCGACCTGCAGGTGCGTCCGGGCGAAATCGTTGGCCTCGCCGGCCTGTTGGGTTCCGGCCGCACTGAAACCGCCGAGGTGATCTTCGGTATTAAAACGGCGGACAGCGGGAAGGCGTGGATCAAAGGCAAACCGCAAACCCTGCGTTCTCCGCATCAGGCCTCCTGCCTCGGGATCGGCTTCTGTCCGGAGGATCGCAAAACCGACGGCATTATCGCCGCCGCCTCGGTGCGGGAAAATATCGTCCTCGCTCTGCAGGCGCAGCGCGGCTGGCTGCGGCCGATACCCCGGCGCGAACAGAACGAGATCGCCGAGCGCTTTATTCGCCAGCTGGGGATCCGCACCCCCAGCGCGGAGCAGCCGATCGAGTTTCTCTCCGGCGGCAACCAGCAGAAGGTGCTGCTTTCGCGCTGGCTGCTGACCAAACCGCAGTTCCTGATCCTCGATGAGCCGACCCGCGGCATCGACGTCGGCGCCCATGCGGAAATCATTCGCCTGATTGAAACCCTCTGCGCCGATGGCCTGGCGCTGCTGGTCATCTCCTCTGAACTGGAGGAGCTGGTGGGTTACGCCGATCGGGTCATTATCATGCGCGATCGCCGGCAGGTGGCCGAGATCCCGCTCGCCGAGCTCTCTGTACCGGCGATCATGAACGCAATTGCGGCATAA	MSAEAHQEILRTEGLSKFFPGVKALDNVNFSLRRGEIMALLGENGAGKSTLIKALTGVYHADRGTIWLEGQAISPKNTAHAQQLGIGTVYQEVNLLPNMSVADNLFIGREPRRFGLLRRKEMEARATALMASYGFSLDVREPLNRFSVAMQQIVAICRAIDLSAKVLILDEPTASLDTQEVEMLFTLMRQLRDNGVSLIFVTHFLDQVYAVSDRITVLRNGSFVGCRETRELPQIELVKMMLGRELDHNALQRAGRTLLSDKPVAAFEGYGKKGTIAPFDLQVRPGEIVGLAGLLGSGRTETAEVIFGIKTADSGKAWIKGKPQTLRSPHQASCLGIGFCPEDRKTDGIIAAASVRENIVLALQAQRGWLRPIPRREQNEIAERFIRQLGIRTPSAEQPIEFLSGGNQQKVLLSRWLLTKPQFLILDEPTRGIDVGAHAEIIRLIETLCADGLALLVISSELEELVGYADRVIIMRDRRQVAEIPLAELSVPAIMNAIAA	PGPT0016635_717	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016635-ytfR-K10820	NA	NA
BMS020_07341	1026	ytfT_2		Inner membrane ABC transporter permease protein YtfT	ATGATGCCTCGATCTCTTTCGCAAACCGGCCCGGAGAAGCGACGCTTCACCTGGCCGAAGGGCACCCCGCAGATCATTGCCCTGCTGCTGGTTCTGCTGGTCGACAGCCTGGTGGCGCCCCATTTTTATCAGGTGGTGCTCCAGGATGGCCGCCTGTTTGGCAGCCCAATCGATATTCTCAACCGCGCCGCCCCGGTGGCGCTGCTGGCCATCGGCATGACGCTGGTGATCGCCACCGGCGGCATCGACCTGTCGGTGGGGGCGGTGATGGCGATAGCCGGCGCGACGGCCGCCTCGATGACCGTCGCCGGTCACAGCCTGCCGGTGGTGCTGCTGGCCTCGCTGGCGGCGGGCGCGCTGGCCGGGCTGTGGAACGGCATTCTCGTGGCGGTCCTTAAGATCCAGCCCTTTGTGGCGACGCTGATCCTGATGGTGGCCGGACGCGGGGTGGCGCAGTTGATCACCGCCGGGCAGATCGTCACCTTTGATTCCCCGGCGCTGGCGTGGCTCGGCAGCGGATCGTTCCTCCTGTTTCCGACGCCGGTGATCATCGCCGCCGCGACCCTGCTGCTGTTCTGGCTGTTTACCCGCAAAACGGCGCTGGGCATGTTTATCGAAGCGGTAGGGATCAATATCCGCGCGGCGAAAAACGCCGGCGTCAATACCCGCATCGTGGTGATGCTGGCCTATGTCCTGAGCGGCGTCTGCGCGGCGATCGCCGGGATCATCGTGGCGGCGGACATTCGCGGCGCGGATGCCAATAACGCCGGGCTATGGCTTGAGCTGGACGCCATTCTGGCGGTGGTCATCGGCGGCGCTTCGCTGATGGGCGGGCGCTTCAACCTGCTGCTGTCGGTGGTGGGGGCGCTGATTATCCAGGGAATGAACACCGGGATTTTGCTCTCCGGCTTCCCGCCGGAGCTCAACCAGGTGGTGAAAGCGGTGGTGGTGCTGTGCGTACTGATTGTCCAGTCGCCGCGCTTTATCGGTTTACTGAAAGGGGTACGCGGCCATGATAAAACGTAA	MMPRSLSQTGPEKRRFTWPKGTPQIIALLLVLLVDSLVAPHFYQVVLQDGRLFGSPIDILNRAAPVALLAIGMTLVIATGGIDLSVGAVMAIAGATAASMTVAGHSLPVVLLASLAAGALAGLWNGILVAVLKIQPFVATLILMVAGRGVAQLITAGQIVTFDSPALAWLGSGSFLLFPTPVIIAAATLLLFWLFTRKTALGMFIEAVGINIRAAKNAGVNTRIVVMLAYVLSGVCAAIAGIIVAADIRGADANNAGLWLELDAILAVVIGGASLMGGRFNLLLSVVGALIIQGMNTGILLSGFPPELNQVVKAVVVLCVLIVQSPRFIGLLKGVRGHDKT	PGPT0016630_556	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016630-ytfT|yjfF-K23509	NA	NA
BMS020_07342	999	yjfF_2		Inner membrane ABC transporter permease protein YjfF	ATGATAAAACGTAATTTACCGTTGATGATCACCCTCGCGGTGTTTGTGCTGGGCTATCTCTACTGCCTGACGCAATTCCCCGGCTTTGCCTCGACGCGGGTGATCTGCAATATCCTGACGGATAACGCCTTCCTCGGGATCATCGCCGTGGGCATGACCTTCGTGATCCTCTCCGGCGGGATCGATCTGTCTGTCGGGTCGGTGATCGCCTTTACCGGCGTCTTTCTCGCCAAAGCGATTGGCTTTTGGGGAATATCACCGCTGGTGGCGTTTCCGCTGGTGCTGGTGATGGGCTGCGCCTTCGGCGCCTTTATGGGGCTGCTGATTGACGCCCTGAAGATCCCGGCCTTTATCATCACCCTCGCCGGCATGTTCTTCCTGCGCGGCGTGAGCTATCTGGTGTCAGAGGAGTCGATTCCAATTAACCACCCGGTGTACGACACCCTGTCCGGGCTGGCATGGACTATTCCCGGCGGCGGACGCCTCAGCGCCATGGGGCTGCTGATGCTGCTGGTGGTGGTGGCCGGTATTTTTGTCGCCCACCGCACCCGCTTCGGCAACCAGGTGTATGCCATTGGCGGCAACGCGACGTCGGCGAATTTAATGGGGATTTCCACCCGCAGCGCCACGATCCGTATCTATATGCTCTCCACCGGGCTGGCGACGCTGGCCGGGATCGTCTTTTCCATTTATACCCAGGCGGGCTATGCGCTGGCGGGCGTCGGCGTGGAGCTGGACGCCATTGCCTCGGTGGTGATCGGCGGCACGCTGCTCAGCGGCGGCGTCGGCACTGTGCTGGGAACCCTGTTCGGGGTGGCGATCCAGGGGCTGATTCAGACCTACATCAACTTCGACGGCACCCTCAGCTCATGGTGGACCAAAATCGCCATCGGCATTTTGCTGTTTATCTTTATCGCGCTGCAGCGTGGGCTGACCGTGCTGTGGGAAAACCGGCAGAATGCGGCGGTCACGCGGGTGAGCGGGGCGGGGAGTCGCTAA	MIKRNLPLMITLAVFVLGYLYCLTQFPGFASTRVICNILTDNAFLGIIAVGMTFVILSGGIDLSVGSVIAFTGVFLAKAIGFWGISPLVAFPLVLVMGCAFGAFMGLLIDALKIPAFIITLAGMFFLRGVSYLVSEESIPINHPVYDTLSGLAWTIPGGGRLSAMGLLMLLVVVAGIFVAHRTRFGNQVYAIGGNATSANLMGISTRSATIRIYMLSTGLATLAGIVFSIYTQAGYALAGVGVELDAIASVVIGGTLLSGGVGTVLGTLFGVAIQGLIQTYINFDGTLSSWWTKIAIGILLFIFIALQRGLTVLWENRQNAAVTRVSGAGSR	PGPT0016630_1056	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016630-ytfT|yjfF-K23509	NA	NA
BMS020_07343	999	fbp_2	COG0158	Fructose-1,6-bisphosphatase class 1	ATGAAAACGTTAGGTGAGTTTATTGTTGAAAAGCAGCACGAGTTCTCCCACGCCACCGGTGAGCTGACTGCTTTGTTGTCAGCAATAAAGTTGGGCGCCAAGATCATCCACCGCGATATCAACAAGGCCGGTCTGGTCGATATCCTGGGTGCCAGCGGTGCTGAAAACGTTCAGGGCGAGGTGCAGCAAAAACTCGATCTGTTCGCGAATGAAAAATTAAAAGCCGCACTGCGAGCACGCGATATTGTTGCCGGGATCGCCTCTGAAGAAGAAGATGAGATTGTCGTCTTCGAAGGGTGTGAACACGCCAAATACGTGGTGCTGATGGACCCTCTGGATGGCTCCTCTAACATCGACGTTAACGTCTCTGTTGGTACGATCTTCTCTATCTACCGCCGCGTGACGCCTGTTGGCACGCCGGTGACAGAAGAAGATTTCCTGCAGCCGGGCAACAAACAGGTGGCAGCGGGCTATGTGGTCTATGGCTCTTCGACGATGCTGGTGTATACCACCGGCTGCGGCGTCCACGCCTTCACCTACGACCCGTCCCTCGGCGTCTTCTGTCTGTGCCAGGAGCGCATGCGCTTCCCGGAGAAGGGCAATACCTACTCCATTAACGAAGGCAACTACATCAAATTCCCGCAGGGCGTGAAGAAGTACATTAAGTACTGCCAGGAAGAGGACAAAGCGACGCAGCGTCCTTATACCTCACGCTATATCGGCTCGCTGGTGGCGGACTTCCACCGCAACCTGCTGAAAGGCGGCATCTACCTCTATCCAAGCACCGCCAGCCACCCGGACGGCAAGCTGCGCCTGCTGTATGAATGCAACCCGATGGCCTTCCTCGCCGAACAGGCGGGCGGTAAGGCCAGCGATGGTAAAGAGCGTATTCTGGATATTGTTCCGGAAAGCCTGCACCAGCGCCGCTCCTTCTTCGTCGGCAACAACCACATGGTGGAAGACGTCGAGAACTTTATTAAGTCGTTCCCGGACGCCTAA	MKTLGEFIVEKQHEFSHATGELTALLSAIKLGAKIIHRDINKAGLVDILGASGAENVQGEVQQKLDLFANEKLKAALRARDIVAGIASEEEDEIVVFEGCEHAKYVVLMDPLDGSSNIDVNVSVGTIFSIYRRVTPVGTPVTEEDFLQPGNKQVAAGYVVYGSSTMLVYTTGCGVHAFTYDPSLGVFCLCQERMRFPEKGNTYSINEGNYIKFPQGVKKYIKYCQEEDKATQRPYTSRYIGSLVADFHRNLLKGGIYLYPSTASHPDGKLRLLYECNPMAFLAEQAGGKASDGKERILDIVPESLHQRRSFFVGNNHMVEDVENFIKSFPDA	PGPT0017665_2495	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017665-fbp|cbbFC-K03841	NA	NA
BMS020_07344	1374	mpl_2	COG0773	UDP-N-acetylmuramate--L-alanyl-gamma-D-glutamyl-meso-2,6-diaminoheptandioate ligase	ATGCGCATTCATATTTTAGGAATCTGTGGCACGTTTATGGGGGGCCTGGCCATGCTGGCGCGCTCCCTCGGTCATGAGGTAACGGGGTCGGATGCTAACGTCTATCCGCCGATGAGCACCCTGCTGAAAAACCAGGGGATTGATTTAATTCAGGGCTATGACCCCAGCCAGCTGGAGCCCCGGCCGGATCTGGTGATCATCGGTAACGCCATGACTCGCGGCAACCCGTGCGTTGAAGCGGTGCTGGAAAACAATATTCCCTATATGTCCGGCCCGCAGTGGCTGCACGACTTCGTGCTGCGCGATCGCTGGGTGCTGGCCGTCGCCGGGACCCACGGCAAAACCACCACCGCCGGCATGGCGACCTGGATCCTTGAAGCCTGCGGTTACCAGCCGGGCTTCGTGATCGGCGGCGTGCCGGGCAATTTTGACGTCTCTGCGCGCCTGGGCGACAGCCCGTTCTTCGTCATTGAAGCGGATGAATACGACTGCGCCTTCTTCGACAAGCGCTCCAAATTTGTTCACTACTGCCCGCGGACGCTGATCCTCAACAACCTTGAGTTCGACCACGCGGATATCTTTGACGACCTGAAGGCGATTCAGAAGCAGTTCCACCATCTGGTGCGCATCGTGCCGGGCAAAGGCAAAATTATCCTGCCGGAGAACGACATCAACCTGAAGCAGGTGATGGCGATGGGTTGCTGGAGCGAGCAGGAGCTGGTGGGCGAGCAGGGCCACTGGCAGGCGAAGAAGCTGAACGCTGACGCCTCGCAGTGGGAAGTGCTGTTCGACGGTGAAAAGGTCGGCGAGGTGAAGTGGACGCTGGTCGGCGAGCATAATATGCATAACGGCCTGATGGCCATTGCCGCGGCGCGTCACGTCGGGGTACTGCCGGCGGATGCCGCGAACGCGCTGGGCAGCTTTATCAACGCCCGCCGTCGCCTGGAGCTGCGCGGCGAAGCCAACGGCGTCACCGTGTATGACGATTTCGCTCATCATCCGACGGCCATCCTCGCTACGCTGCAGGCGCTGCGCGGCAAAGTGGGCGGCACCGCGCGCATTCTCGCCGTGCTGGAGCCGCGCTCTAACACCATGAAAATGGGCGTCTGCAAGGACGATCTGGCGCCGTCTCTTGGCCGCGCCGATGAGGTGTTCCTCCTGCAGCCGCAGCATATCCCGTGGCAGGTGGCGGAAGTGGCGGAAGCCTGCGTCCAGCCGGCTCACTGGAGCGCCGACGTCGATACCCTGGCGGAGATGGTGGTCAAAACCGCCCATCCTGGCGACCATATCCTGGTGATGAGCAACGGCGGCTTCGGCGGCATTCATCAAAAGCTGCTGGATAAACTGGCGCAAAAAGCGGCCGCGACAGAGTAA	MRIHILGICGTFMGGLAMLARSLGHEVTGSDANVYPPMSTLLKNQGIDLIQGYDPSQLEPRPDLVIIGNAMTRGNPCVEAVLENNIPYMSGPQWLHDFVLRDRWVLAVAGTHGKTTTAGMATWILEACGYQPGFVIGGVPGNFDVSARLGDSPFFVIEADEYDCAFFDKRSKFVHYCPRTLILNNLEFDHADIFDDLKAIQKQFHHLVRIVPGKGKIILPENDINLKQVMAMGCWSEQELVGEQGHWQAKKLNADASQWEVLFDGEKVGEVKWTLVGEHNMHNGLMAIAAARHVGVLPADAANALGSFINARRRLELRGEANGVTVYDDFAHHPTAILATLQALRGKVGGTARILAVLEPRSNTMKMGVCKDDLAPSLGRADEVFLLQPQHIPWQVAEVAEACVQPAHWSADVDTLAEMVVKTAHPGDHILVMSNGGFGGIHQKLLDKLAQKAAATE	PGPT0023975_805	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_LIGASES,PGPT0023975-mpl-K02558	NA	NA
BMS020_07345	528			hypothetical protein	ATGCTTACCCGCGAAAGCGTACTTTCTACCGACTCGCCCCATTTCGCCATGCTGGACGCGCTCTACGCGCGCGCCTTTCCTTGGCACGAGCAGCGCGAAAGCGAGGCCAAGCGTCAGGCGCTGAGCAACGCGCACTACGCGCTGGAGGCGTGGTTCGATGAGGACGTATTTATCGGCCTCAGCGGCTGCTGGCAGTTTGCCGGCTACTGTTATGTCGAACATTTGGCGATCGACGATACGCTGCGCTCCCGCGGCTATGGTAAACAGCTGCTGGCGCAGATCCTGACGCGCGCGCCGCTGACCATTCTGGAAATCGATCCGCTGAGCAGCGAGATCGCCCATAAACGGCTGCGCTTTTATCAGTCGATGGGATTTCACGCTAACCCCTGGGCGCATCGTCATCCGACCTATCATCAGGGCATCGCGGATCATGAACTGCTGGTGCTGAGCTACCCGCAGCCGATCGATGAGCGACAGTATCAGCAGTTTGCCCGGGATCTCGGGCGCGAGGTGATGGGGCGGGCGTAG	MLTRESVLSTDSPHFAMLDALYARAFPWHEQRESEAKRQALSNAHYALEAWFDEDVFIGLSGCWQFAGYCYVEHLAIDDTLRSRGYGKQLLAQILTRAPLTILEIDPLSSEIAHKRLRFYQSMGFHANPWAHRHPTYHQGIADHELLVLSYPQPIDERQYQQFARDLGREVMGRA				NA	NA	NA	NA	NA
BMS020_07346	1209			hypothetical protein	ATGAAAAAGACATTGGTTCTGACGGCTATCGCTCTGCTGGTTTCTGGCTCCGCCGCGGCAAAAACATGGGTGCTGACGAATGCTGAAGAGGGCATGGATAAAGGAAACTGGCAGATCGGCAGCGATCAGCTGAAGGTGAAAGACCATGCGTTCAGCATTGAGCAGAAAGTCCTGCACGGCGGCAAGCAGGAAGGCAGCAAAATCCTCACCATTCGCAGTAAAGACGGCCTGACCATCACCCTCAGCCCGACGCGCGGCATGAACTTGCTGCGAGTGGAAGGCTTCGGCAGCCGGATGGGTTGGGATTCGCCGGTCAAAGAGGTTGTTAACCCGGCGTTTATCAACCTGGAGAGTCGCAACGGGCTCGGCTGGCTGGAAGGGTTCAACGAAATGATGGTCCGCTGCGGCTATGAGTGGACCGGCCATCCGGTGACCGCGGACGGGCAAATTTATACCCTGCACGGCAAGGCAGGCAACACGCCGGCCTCTCTGGTGGAGGTAGAGGTGGCCGACAGCGCGCCGTATGAAATTCGCGTCCGCGGGCTGGTGAAAGAGAGCACCTTCAAAAAAGCCGATCTGCAAACCATGACCGAGCTTCGCTATATCCCGGGCAGCAACAGCTTCAGCCTGCACGATGTCTTAACCAATCACGCCGACTATCCGCATGATTACCAGATCATCTACCACAGCAACTTCGGCACCCCGATCCTGGAAGAAGGCGCGCGTTTCCTCGCCCCGATGTCCAGCATCAGCCCGTTCAATGATTACGCTAAGAGCGGATTAAAAACCTGGCAAACCTATCAGGGGCCGACCAAAGACTTTGACGAGATGGTGTTTAATATTCAGCCGCTGGCCGATGAAAATCACCAGACGCTGGCCGCCGTGGTCAACAAAGCGGGCGATAAAGGAGCCTCCATTCAGTTCGACACCCGCCAGCTGCCGGTCCTGACGCTGTGGAAAAACACCGACACCGTCAAACAGGGCTATGTCACCGGTATCGAGCCGGGGACCAGCTACGCCTATCCGGTGACCATTGAACGCGAGCAAAAACGCGTAAAACAGCTGCAGCCGGGCGCCAGCGCGCAGTTTGATCTGACCTACACCCTGCTGCATGACAGTGCCCAGGTGGCCGCCGTCGAGCAGAAAATCGCGCAGATTCAGGGCGACAATAAAGTGGCGGAGAACGACACGCCGATCGCCAAAGAGTAA	MKKTLVLTAIALLVSGSAAAKTWVLTNAEEGMDKGNWQIGSDQLKVKDHAFSIEQKVLHGGKQEGSKILTIRSKDGLTITLSPTRGMNLLRVEGFGSRMGWDSPVKEVVNPAFINLESRNGLGWLEGFNEMMVRCGYEWTGHPVTADGQIYTLHGKAGNTPASLVEVEVADSAPYEIRVRGLVKESTFKKADLQTMTELRYIPGSNSFSLHDVLTNHADYPHDYQIIYHSNFGTPILEEGARFLAPMSSISPFNDYAKSGLKTWQTYQGPTKDFDEMVFNIQPLADENHQTLAAVVNKAGDKGASIQFDTRQLPVLTLWKNTDTVKQGYVTGIEPGTSYAYPVTIEREQKRVKQLQPGASAQFDLTYTLLHDSAQVAAVEQKIAQIQGDNKVAENDTPIAKE				NA	NA	NA	NA	NA
BMS020_07347	552			hypothetical protein	ATGACAAAGCAGCCCGAAGACTGGCTCGACGACGTTCCCGGTGATGATATCGAGGATGAAGACGATGAAATTATCTGGGTCAGTAAGAGTGAAATTAAGCGCGACGCGGAAGAACTGAAGCGTCTTGGCGCGGAACTCGTTGACCTGGGGAAAAACGCGCTGGATAAAATTCCGCTGGATACCGACCTGCGCGACGCCATCGAACTCGCCCAGCGAATCAAAAAAGAGGGTCGCCGCCGCCAGCTGCAGCTTATCGGTAAGATGCTGCGCAATCGCGATGTCGATCCGATTCGTCAGGCGCTGGATAAGCTGAAAAACCGCCACAACCAGCAGGTTGCGCTGTTCCACAAGCTGGAGCAGATCCGTGACCGACTGATTGACGACGGGGATGACGCCGTAGCTGAAGTGCTGAACCTGTGGCCAGATGCTGACCGTCAGCAGCTGCGTTCCCTGATCCGCAATGCGAAGAAAGAGAAAGAAGGCAACAAACCGCCGAAATCCGCGCGCCTGATCTTCCAGTATCTGCGCGAACTGGCGGAAAACGAAGGCTAA	MTKQPEDWLDDVPGDDIEDEDDEIIWVSKSEIKRDAEELKRLGAELVDLGKNALDKIPLDTDLRDAIELAQRIKKEGRRRQLQLIGKMLRNRDVDPIRQALDKLKNRHNQQVALFHKLEQIRDRLIDDGDDAVAEVLNLWPDADRQQLRSLIRNAKKEKEGNKPPKSARLIFQYLRELAENEG				NA	NA	NA	NA	NA
BMS020_07348	1341	pmbA_2	COG0312	Metalloprotease PmbA	ATGAAAGTGATCTCTCAAGTTGCCCAGCAACGTAAGACGCTGGAAGAGGCCGTGACCACGGCGCTGGAACTGGCGGCAGGTAAATCCGATGGCGCGGAAGTCTCCGTCAGCAAGACGACGGGCATCGGCGTCAGCACCCGCTATGGCGAAGTGGAGAATGTAGAATTCAATAGCGATGGGGCGTTAGGCATCACGGTTTACCACCAGAACCGCAAGGGCAGCGCCTCTTCCACCGATCTCAGCCCGGACGCCATCGCCCGCACCGTGCAGGCGGCGCTGGATATCGCCCGCTACACCTCCCCGGATCCCTTCGCCGGCGTGGCGGATAAAGAGCTGCTGGCCTTTGACGCCCCGGATCTGGACCTGTTCCACCCGGCGGAGGTCTCCCCGGATGAGGCCATCGAACTGGCCGCCCGCGCAGAGCAAGCGGCGCTGAAGGCCGATAAACGCATCACCAACACCGAAGGCGGCAGCTTTAACAGCCACTACGGCATCAAAGTGTTCGGCAACAGCCATGGCATGCTGAAGAGCTACTGTTCGACTCGCCACTCCCTTTCCAGCTGCGTGATCGCGGAAGATGACGGCGACATGGAACGCGACTACGCCTATACCATTGGCCGGGCGATCGAGGATCTGCAGTCCCCGGAATGGGTCGGGGAAGAGTGCGCCCGCCGCACCCTGTCGCGCCTCGCGCCGCGTAAGCTGTCGACCATGAAGGCGCCGGTGATTTTCGCCAATGAAGTGGCGACCGGGCTGTTTGGCCACCTGGTCGGAGCGATTGCCGGTGGTTCGGTATACCGCAAATCCACCTTCCTGCTCGATTCGCTGGGCAAACAAATTTTGCCGGAGTGGCTGACCATTGAAGAGCATCCGCACCTGCGTAAAGGACTGGCCTCCACGCCGTTCGACAGCGAAGGCGTGCGCACCGAGCGTCGCGATATCGTCAAAGATGGCGTGCTGACCCAGTGGCTGCTGACCAACTACTCCGCCCGCAAGCTGGGGATGAAAAGCACCGGCCACGCCGGCGGCATCCATAACTGGCGCATCAACGGCCGCGGCCTGAGTTTTGCAAAGATGCTTAAAGAGATGGGCACCGGTCTTGTGGTTACCGAACTGATGGGGCAGGGTGTCAGTGGCGTCACTGGCGACTACTCACGCGGCGCATCCGGCTTCTGGGTAGAAAATGGCGAAATTCAATATCCTGTCAGTGAGATCACCATTGCAGGAAATCTGAAAGAAATGTGGCGTAATATCGTGACCATCGGCGATGATATTGAAACGCGCAGCAACATTCAGTGCGGTTCTGTGCTGCTGCCGGAGATGAAAATCGCCGGGCAATAA	MKVISQVAQQRKTLEEAVTTALELAAGKSDGAEVSVSKTTGIGVSTRYGEVENVEFNSDGALGITVYHQNRKGSASSTDLSPDAIARTVQAALDIARYTSPDPFAGVADKELLAFDAPDLDLFHPAEVSPDEAIELAARAEQAALKADKRITNTEGGSFNSHYGIKVFGNSHGMLKSYCSTRHSLSSCVIAEDDGDMERDYAYTIGRAIEDLQSPEWVGEECARRTLSRLAPRKLSTMKAPVIFANEVATGLFGHLVGAIAGGSVYRKSTFLLDSLGKQILPEWLTIEEHPHLRKGLASTPFDSEGVRTERRDIVKDGVLTQWLLTNYSARKLGMKSTGHAGGIHNWRINGRGLSFAKMLKEMGTGLVVTELMGQGVSGVTGDYSRGASGFWVENGEIQYPVSEITIAGNLKEMWRNIVTIGDDIETRSNIQCGSVLLPEMKIAGQ				NA	NA	NA	NA	NA
BMS020_07349	387	cybC	COG3783	Soluble cytochrome b562	ATGCGTAAAAAACTGTTAGCGATGCTGGCTGTCTCTGCTTTTGCGCTCGGTTCAGCCTCGGCCTTCGCCGACCTGGGCGAAGACATGGACACTCTGGCAGAAAATCTGCAAGTGGTACAGAAAACCTCCGACGCCGGCGAACTGAAAGCGGCGCTGAATAAGATGCGTACCGCCGCGGTTGATGCCCAGAAAGAGACGCCGCCGAAGCTGGAAGGCAAAGCGGCCGACAGCGCTGAGATGAAAGATTACCGTCACGGTCTGGATATTCTGATCGGCCAGATCGACGGCGCGCTGAAGCTGGCGAATGAAGGCAAGGTGAAAGAGGCGCAGGCCGCCGCGGAGGAGTTTAAAACCACCCGCAACACCTACCATAAGAAGTACCGCTAA	MRKKLLAMLAVSAFALGSASAFADLGEDMDTLAENLQVVQKTSDAGELKAALNKMRTAAVDAQKETPPKLEGKAADSAEMKDYRHGLDILIGQIDGALKLANEGKVKEAQAAAEEFKTTRNTYHKKYR				NA	NA	NA	NA	NA
BMS020_07350	339			hypothetical protein	GTGAATAACGGAGCGGTAATACACGACGTAGGGGAGCAGGCAGCGCAGACCGAACGCCTGGCTGACAAGATGCTGCAGCAGGTTTTTGCCCTGTTAAGCCGTCACGGCATCGTCCCTAACGACGTTCAGGAGCAAATGCTGACCTCCCACGTGCGGGCGATGGCCCACCGGTCAATCAGCGGGGAACCGCTGCCGGAAGTGGATGCCAGCCTGTTCGAAGAGATTTCACCAGATTCAATGACGTTGGCCCGCGAAGTGGTCGCGCAGTTCGGCAACCTGCCTGATGAAGAGGCCTGGCTGCTCTCCGTCCATTTCGAAGTCGCAAAAGAAAACCTGTAA	MNNGAVIHDVGEQAAQTERLADKMLQQVFALLSRHGIVPNDVQEQMLTSHVRAMAHRSISGEPLPEVDASLFEEISPDSMTLAREVVAQFGNLPDEEAWLLSVHFEVAKENL				NA	NA	NA	NA	NA
BMS020_07351	363			hypothetical protein	ATGGAACAAATCACCGTAGTTATTGGCGACCGTCTGGGTAAAGGCCAAAAAGTCGCCGCAGGCGCAGAGAAAGCCGGCGCACGTGCAGTGGTCGTCCCTGGCGTTGCTGCCGACATGAAGCTTGGCGACATGATGAAAGCGGAAAACGCCACCTTCGGCATCTCCTTCTGCGGCAGCGGCGGCGCCGGCGCCATCACCGCCCAGACCAAACACGGCTACAAAGCGAAATACGGCATGCGTTCCGTGGAAGAGGGCGTCACCGCCATCAACGAAGGCTGCAACGTGCTGGGCTTCGGCTTTATGGATAAAGAAGAGCTGGGCGAGCGGCTGGTAGAGGCCTGGAAAAAGAAATACGGCGCATAA	MEQITVVIGDRLGKGQKVAAGAEKAGARAVVVPGVAADMKLGDMMKAENATFGISFCGSGGAGAITAQTKHGYKAKYGMRSVEEGVTAINEGCNVLGFGFMDKEELGERLVEAWKKKYGA				NA	NA	NA	NA	NA
BMS020_07352	300			hypothetical protein	ATGAAAGAGCAATTCACCACCACGGTGAGGGTTGCCGGCAAAGGCGAAAGCAAATCACGGGCCTTCGCCGATGCCCTGAACCATGTGCAGGCTGCGGTGATGAAAACGTCATCGCACATTCTGCTGCGTATTGAGCCACAGGACGTGACGGTTGTTCATGCGCGCGAAGCGGTACGAAAAGAGGCCTTCCTGTTTTTCTTTTTGCGCCGTGAACGACGGACCTACAGCGTGGAGCTGGACGTCACCGTCAACGTGACCGCCATCGATCTCGATAAAGTGGATTTCGTCACGCAAACCTGA	MKEQFTTTVRVAGKGESKSRAFADALNHVQAAVMKTSSHILLRIEPQDVTVVHAREAVRKEAFLFFFLRRERRTYSVELDVTVNVTAIDLDKVDFVTQT				NA	NA	NA	NA	NA
BMS020_07353	777			hypothetical protein	ATGTTCCTGATAATATTAATAAAATCGCTTATCATCGGCGGCCTGGTCGGCGTCGGCGTGGGCGCCGGAGCGGCACGCATGTTTCATGCCCCTACCACCCAGGGGATGGGGGCGTTTCGAACCCTGGGCGAGCTGAACTCCTGTGAGGGCGATCCGGCTTCCCACTTCTCCTTTGGCCTCGGTTTCTTCTTTAACGCCTGGGCCTCTTCCGTTGCAGCAGGCTCCTTCACCCAGGATGTTGACCACCGCATTATCCCCAACTGGGGCGCGGCGGCGCTGATGCTGAAAAATCGTAACGTCGGCGAAACGCTGCACGATCCGAAAAAAATGGCCATCTCCTGCGGCATCATCGGCATGATCGTCGTCGCCTTCCTTAACCTCACCGCCTCGTCCGTACCGGAAGCGCTGCAGGTGACCGCGGTTAAGGTACTGGTCCCGGCGGCAAACCTGCTGGTGAACACCGTGATGCCGGTGATCTTCTGGCTGGCGGCGATCGACGCCGGTAAAAAATCAGGCTTCTGGGCGACCATCTTCGGCGGCGCGGCGCAGCTGATTATGGGCAACGCCGTACCGGGGCTGGTGCTGGGCATCCTGATCGGCAAAGGCGTTGAAGAGAGCGGCTGGAACCGGGTCACCAAAGTGATGATGGTGGCCATTGTCGCCCTGTTCGTCCTCAGCGGCTTCTTCCGCGGCTTCGACATGAAGATGATCGAATCCTTCCATCTGACCGTGCCGAACTGGCTGGACATGATCCACAACTCACTCAGCGGCAAGTAA	MFLIILIKSLIIGGLVGVGVGAGAARMFHAPTTQGMGAFRTLGELNSCEGDPASHFSFGLGFFFNAWASSVAAGSFTQDVDHRIIPNWGAAALMLKNRNVGETLHDPKKMAISCGIIGMIVVAFLNLTASSVPEALQVTAVKVLVPAANLLVNTVMPVIFWLAAIDAGKKSGFWATIFGGAAQLIMGNAVPGLVLGILIGKGVEESGWNRVTKVMMVAIVALFVLSGFFRGFDMKMIESFHLTVPNWLDMIHNSLSGK				NA	NA	NA	NA	NA
BMS020_07354	645			hypothetical protein	ATGGAACAGAATAAAGGTTTTTGGTATGCCGACTGGTCGTTCCCGATCTTCGTTGGCCTGCTCTCCTCCGGCGTCTTCGCCGGGACCCACATGTACTACCTGTACGGCATCGGCGCCTTTAACGAAGTCGCCTTCGTGGCGATGCTGAAGTCGGGGATTGATACCGGCGTTTACGGCGCGGTGGCGGCGTTTGGCGCCAGCTTCCTGTTCGCCCGCATCATCGAAGGGTCGCTGGTGGGGATCCTCGATATCGGCGGCGCTATTCAGACCGGGATCGGTCTTGGCGTCCCGGCGCTGCTGCTCGGCGCGGGCTTTGTCTTCCCGGTGGCGAACTTCGCCGCCTCGCTGGCAACCGGCCTGATCCTCGGCCTGGCGGTGGGCTACATCATCATTCTGGCGCGTAAGTTCACCATCAACCAGAGCGACTCTACCTACGGCGCCGACGTGATGATGGGGGCCGGTAATGCCTCCGGCCGCTTCCTCGGCCCCTTGATCATCCTCAGCGCAATGACCGCCTCGATTCCTATCGGGATCGGCTCGCTGGTTGGCGCCCTGCTGTTCTACATCTGGCAGAAACCGATCACCGGCGGCGCCATCCTCGGCGCGATGATCCTCGGCTCCATTTTCCCGGTGGCGATTAGCTAA	MEQNKGFWYADWSFPIFVGLLSSGVFAGTHMYYLYGIGAFNEVAFVAMLKSGIDTGVYGAVAAFGASFLFARIIEGSLVGILDIGGAIQTGIGLGVPALLLGAGFVFPVANFAASLATGLILGLAVGYIIILARKFTINQSDSTYGADVMMGAGNASGRFLGPLIILSAMTASIPIGIGSLVGALLFYIWQKPITGGAILGAMILGSIFPVAIS				NA	NA	NA	NA	NA
BMS020_07355	1134		COG3964	Deacetylase	ATGTTTGATTTACTCCTGCGCCGCGCGCGCCTCGTCGACGATACCCTGACTGATATCGCCATTCAGGACGGGAAAATCGCGGCGCTGGGCGAGATTAGCGCGCCCTCCCGCAAAACCCTCGATCTGCAGGGCAACAGCTACGTCAGCGCCGGCTGGATTGACTCCCACGTTCACTGCTACCCGAATTCGCCAATTTATCACGATGAGCCGGACAGCGTCGGTATCGCCACCGGCGTCACCACCGTGATTGATGCCGGCAGCACCGGCGCCGACGATGTCGATGAGTTCTATCAACTGACCCGTAAAGCGGCGACGGAAGTCTATGCCCTGCTCAATATCTCCCGCGTCGGGCTGATTGCCCAGAATGAACTGGCCAATATGACCAATATTGACGCCGAGGCGGTGAAGCAGGCGGTGCAGCGTCATCCCGATTTTATCGTTGGTCTGAAGGCGCGGATGAGCAGCAGCGTGGTGGGGGAAAACGGCATTACGCCGCTGGCGCGCGCCAAGGCGATTCAGCAGGAAAACGGCGACCTGCCGCTGATGGTGCACATTGGCAACAATCCGCCGAACCTCGATGAAATCGCCGATCTGCTGAGCCGCGGCGACATCATTACCCACTGCTATAACGGCAAACCGAACCGCATTCTGAATCCTGCCGGCGAACTGCGCAGTTCGATTACTCGCGCCCTGCAGCGCGGCGTGCGCCTCGACGTCGGCCACGGTACCGCCAGCTTCAGCTTTGAAGTGGCGCGCCGGGCGATTGCGCTGGGCATTCTGCCGCACACCATCAGCTCGGATATTTACTGCCGTAACCGCATCGACGGCCCGGTGCGTTCGCTGGCGCTGGTGATGTCGAAATTTCTCGCCATCGGCATGACCCTGCCGCAGGTGATTGCCTGCGTGACCGTCAGCGCTGCCGAGGGGCTGCGCCTGTCGCGTAAAGGGCGGCTGGAAGTGGGTTTCGACGCCGATCTCACGCTATTTCGCCTGGAGCGCCAGCCAACGCTGCTGGTGGATGCCGAAAAAGAGAGCCTCCAGGCAGACAACATTTTGGTGCCGCTGGCCGCGATCCGCGCGGGCAAAGGCTATCTGACCGAACAAGGGAGCGCGGAACATGCCTTCGATTTTTGA	MFDLLLRRARLVDDTLTDIAIQDGKIAALGEISAPSRKTLDLQGNSYVSAGWIDSHVHCYPNSPIYHDEPDSVGIATGVTTVIDAGSTGADDVDEFYQLTRKAATEVYALLNISRVGLIAQNELANMTNIDAEAVKQAVQRHPDFIVGLKARMSSSVVGENGITPLARAKAIQQENGDLPLMVHIGNNPPNLDEIADLLSRGDIITHCYNGKPNRILNPAGELRSSITRALQRGVRLDVGHGTASFSFEVARRAIALGILPHTISSDIYCRNRIDGPVRSLALVMSKFLAIGMTLPQVIACVTVSAAEGLRLSRKGRLEVGFDADLTLFRLERQPTLLVDAEKESLQADNILVPLAAIRAGKGYLTEQGSAEHAFDF	PGPT0021145_5602	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465	NA	NA
BMS020_07356	1119	dgaE_1		D-glucosaminate-6-phosphate ammonia lyase	ATGCCTTCGATTTTTGAAAAATACCATTTAAAACAAGTTATTAACACTTCCGGCCGGATGACGGCGCTGGGCGTTTCCACGCCGCGTCCGGAAGTGGTGGACGCCGCGATGGCCGGCATGAACCAGTACTTTGAAATGAAAGATCTGGTGAATAAAACCGGCGAGTACATCGCCAGGCTGCTGGACGTGGAAGGGGCGACCGTGGTCTCCTGCGCCTCGGCAGGGATTGCCCAGTCGGTGGCGGCGGTGCTGGTGAAAGACAGCGACTGGCTGCTGGAGAACCTGCACGTCACGCCGATAGAGCATAACGAAATCGTCCTGCCGAAGGGCCACAACGTCAACTTCGGCGCGCCGGTCGGCACCATGGTGGCGCTGGGCGGCGGCAGGCTGGTGGAAGCGGGCTACGCCAACGAATGCTCTGCCGAACAGCTGGCGGCGGCGATCACCCCGCGCACCGCGGCGATCCTCTACATCAAATCCCACCACTGCGTGCAGAAAAGCATGCTCAACGTGGCGCAGGCCGCGGAAGTGGCGCGTCAGCATCATTTACCGCTGATCGTCGACGCGGCGGCGGAGGAAGATCTGCAGGGCTACTACCGCATGGGCGCCGACCTGGTGATCTACAGCGGTGCGAAAGCGATTGAAGGGCCGACCAGCGGGCTGGTGATCGGCAAAACGCAGTACGTCGAGTGGGTTAAACGCCAGTCGATGGGGATTGGCCGGGCGATGAAAGTGGGTAAAGAGGGGATCCTCGGCCTGACCTGCGCCATTGAACACTACCTGACGGCAAGCAAAGAGAGCGGTGAAGAGATGGTGGCGAAGATGACGCCGTTTATCGAACAGCTCAATACCCTCAACGGCGTTACTGCCCGCGTGGTATGGGACAGCGCCGGCCGCGATATCGCCCGCGCCGAAATCAAATTCGACGAAGCGGTGACCGGCGTGAAGACCGGCGATCTGGTTAACGCGCTGAAGCAGGGCGAATACGCCATCTACTTCCGCGGCTATAAAGCGAATGAAGGCATTATCGAAGCCGATGTCCGCAGCGTTGACGCCCAGCAGCTGGCGGTAGTCGCCCGCCGTATCGCGGAAGTTCTGAACAAGGAGAAACAAGCATGA	MPSIFEKYHLKQVINTSGRMTALGVSTPRPEVVDAAMAGMNQYFEMKDLVNKTGEYIARLLDVEGATVVSCASAGIAQSVAAVLVKDSDWLLENLHVTPIEHNEIVLPKGHNVNFGAPVGTMVALGGGRLVEAGYANECSAEQLAAAITPRTAAILYIKSHHCVQKSMLNVAQAAEVARQHHLPLIVDAAAEEDLQGYYRMGADLVIYSGAKAIEGPTSGLVIGKTQYVEWVKRQSMGIGRAMKVGKEGILGLTCAIEHYLTASKESGEEMVAKMTPFIEQLNTLNGVTARVVWDSAGRDIARAEIKFDEAVTGVKTGDLVNALKQGEYAIYFRGYKANEGIIEADVRSVDAQQLAVVARRIAEVLNKEKQA	PGPT0004815_1535	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004815-selA-K01042	NA	NA
BMS020_07357	741	dgaF		2-dehydro-3-deoxy-phosphogluconate aldolase	ATGAAACTGACCCCAAACTTTTACCGTGACCGCGTGTGCCTGAACGTCCTGGCGGGTAGCAAAGACAACGCCCGGGAAATCTACGACGCGGCGGAAGGTCATGTCCTGGTCGGCGTGCTCTCCAAAAACTACCCGGACGTCGCCAGCGCGGTGGCCGATATGCGCGACTACGCGAAGCTGATTGATAACGCCCTCTCCGTCGGGCTGGGCGCAGGGGATCCGAATCAGTCGGCGATGGTGAGCGAGATTTCGCGCCAGGTGCAGCCGCAGCACGTCAATCAGGTCTTCACCGGCGTGGCCACCAGCCGCGCGCTGCTCGGGCAGAACGAAACGGTGGTCAACGGCCTGGTCTCGCCCACCGGCACCCCGGGGATGGTGAAGATCTCCACCGGCCCGCTGAGCAGCGGCGCGGCGGATGGGATTGTGCCGCTGGAAACCGCCATCGCGCTGTTAAAAGATATGGGCGGCAGCTCCATCAAATACTTCCCGATGGGCGGCCTGAAGCACCGCGACGAGTTCGACGCGGTGGCCAAAGCCTGCGCCGCGCACGATTTCTGGCTGGAGCCGACCGGCGGTATCGATCTGGAAAACTACAGCGCGATCCTGAAGATCGCCCTCGATGCCGGGGTGAGCAAAATCATCCCGCATATCTACAGCTCGATTATCGATAAGGCCAGCGGCAACACCCGCCCGGCCGATGTTCGCCAGCTGCTGGAGATGACCAAACAGTTAGTGAAGTAG	MKLTPNFYRDRVCLNVLAGSKDNAREIYDAAEGHVLVGVLSKNYPDVASAVADMRDYAKLIDNALSVGLGAGDPNQSAMVSEISRQVQPQHVNQVFTGVATSRALLGQNETVVNGLVSPTGTPGMVKISTGPLSSGAADGIVPLETAIALLKDMGGSSIKYFPMGGLKHRDEFDAVAKACAAHDFWLEPTGGIDLENYSAILKIALDAGVSKIIPHIYSSIIDKASGNTRPADVRQLLEMTKQLVK	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
BMS020_07358	1152	pgl_2	COG2706	6-phosphogluconolactonase	ATGCCTGTCGCTCGTCATCTGCTTGTCGCTTCACTGTCCCTGTTTGCCGCCGCCGCCGCCGCGCAAACTCACTATGCCTGGGTAGGCACCTATAATCCCAATGGCGAAGGTCTGTACCGCTTTACCGTTGATAGCCAAACCGGCGCGCTACGTGACAGGACGCTGGTGAGTTCGTTGCCGAACGCCGCGCAGCTGACCGTCTCGCGCGATGGCAAGACGCTGTATGCCGCCAGCGAAGTGGAGAAAGGCGTGGTGCAGGCGTGGCGTATTGAGAAGAACGGCGAGCTGACCGCACTCAATCAGGTCGCCTCCGGCGGCGCCGGTCCGGTTTATCTCTCCCTGACGCCGAACGGTAAACAGCTGCTGGTGGCCAACTACGTCAGCGGCAGCATCGCCGTGCTACCGGTGAAAGAAGACGGTAGCCTGGGCGAGGCGGTGGACAAGCATCAGGATGAAGGCCCGGCAGGGGCCGAACGCCCGGCGGCGGCCGTCGAGGGCAGCTTCGCCATCAGCGATCACAATGGCCCGCACGCCCATATGATCGCCGCCGATCCCAGCGGGAGATTTGTTTACTCCACCGATCTGGGGCTGGATCGGATCTATCAGTATCGGCTGGATAGCGCCAGCGGCAAGCTGACGCCGAACGATCCGCCGTTTATCGCTGCCTCGTCGCCGGGAGCCGGCCCGCGCCACTTCGTCTTCACGCCAAAGGGCGACGGTCTGTGGCTGATTAACGAGGAAGCGTCGACGCTGACCTTCTATCATCTGGATCAGCAAAGCGGCCTGCTGCGCGAAGGCAAAACCGTCTCCGCGCTGCCGAAAGAGTATAAGGGCACCAGCTTTGCCGCCGGCCTGGCGCTGAGCAACGACGGCAAACAGCTGTACGTCGCCAATCGTCTGCATAACAGCATCGCCCACTTTACGGTGCAGGCCGACGGCCGCCTGCGCCACCAGGAGGATATCTGGACGCGCGGAGATTACCCTCGCACGCTGACCCTGGATAATCAGGGGCAGTGGCTGTACGTCATGAACCAGCGTAGCGATAATATTACCCGCTTCAGCGTGGCGCCGAAGGATGGCAAATTGACCTTTGTCTCAGACTACACGCCGGTCGGCAGTCCATCGCAGATGGTGATTTCCGCCCAACCCTGA	MPVARHLLVASLSLFAAAAAAQTHYAWVGTYNPNGEGLYRFTVDSQTGALRDRTLVSSLPNAAQLTVSRDGKTLYAASEVEKGVVQAWRIEKNGELTALNQVASGGAGPVYLSLTPNGKQLLVANYVSGSIAVLPVKEDGSLGEAVDKHQDEGPAGAERPAAAVEGSFAISDHNGPHAHMIAADPSGRFVYSTDLGLDRIYQYRLDSASGKLTPNDPPFIAASSPGAGPRHFVFTPKGDGLWLINEEASTLTFYHLDQQSGLLREGKTVSALPKEYKGTSFAAGLALSNDGKQLYVANRLHNSIAHFTVQADGRLRHQEDIWTRGDYPRTLTLDNQGQWLYVMNQRSDNITRFSVAPKDGKLTFVSDYTPVGSPSQMVISAQP	PGPT0014975_623	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
BMS020_07359	1911	licR	COG1762	putative licABCH operon regulator	ATGCGATTTCCCAACCAACGCTTAGCGCAACTCTTCACCCTGCTGCGGAATGAAACGCTGCCGCAGGATGAGCTGGCGCAACGCCTGTCGGTTTCCACCCGTACCGTGCGCGCCGATATTACCGCCCTGAATGCGCTACTGGCGCAGTATGGCGCGCAGTTTATCCTTAACCGCGGCAGCGGTTATCAGCTGAAAATTGATAACCCGGCGAGCTTTCAGGCGCTGGAGGAGACGGCGCCGAAGGCGCAGCATGTTCCGCGTACCGCCCAGGATCGCATCACTTTCCTGCTGGTGCGTTTTCTGACGTCGGCGTTCTCGATCAAGCTGGAAGACCTGGCGGATGAGTGGTTCGTCAGCCGCGCCACGCTGCAAAACGATATGGTCGAGGTGCGCGAGCGCTTCCAGCGCTATCAGCTAACCCTTGAAACCCGCCCGCGCCACGGCATGAAGCTGTTCGGTAGCGAGGTATCGGTTCGCGCCTGCCTCACCGACCTGCTGTGGGAGCTAACCCAGCAGGGCGGTATCGCGCCGCCGATCGGCGCCGAGGCCTTTGCAGAGGAGGTGCCTGCGCTGCTGGAGCCGGTGCTGCAGGAGACGCTCACGCGCCACCATATTCGTCTCACCGACGTCGGCGAGCGCTTTATCTGCCTGTACGGGGCAGTGGTGGTGCGTCGCGTCAGCGAAGGCTACCCGCTGGCGGATTTTAGTGCTGAAGATGTGGCGCAGAACGTCCGCGATGCCGCGCGCGATCTGGCGGGCGAACTGCAGCGGCTGGCCGGTAAACCTTTATCGCCCGCGGAAGAAGAGTGGCTGTGCGTGCATATCGCCGCCCGTCAGGTACAGGACGTGGACCCGGAAACCATCAGCGCCGACGATGACGAAGCGCTGGTCAACTACATCCTGCGCTACATCAACAGCCAGTATAACTACAACCTGCTGGACGATGCCCAGCTGCACGCCGATCTGCTGACTCACATAAAGACCATGATCACCCGCGTACGCTACCAGATCATGATCCCTAATCCGCTCCTTGATAACATCAAACAGCACTACCCGATGGCCTGGGATATGACCCTCGCCGCGGTCTCCAGCTGGGGCAAATACACGCCTTATACCATCAGCGAAAACGAAATCGGCTTTCTGGTGCTGCATATCGGCGTCGGGCTGGAGCGCCACTACAACATCGGCTACCAGCGTCAGCCGCAGGTGCTGCTGGTGTGCGATACCAGCAATGCGATGGTGCGGATGATTGAGGCGATCCTGCAGCGCAAATATCCGCAGCTGGAGATCGCCGCCACTATTTCCCAGCGCGAGTACGAACAGCGGGACGCGATCGAGGCGGATTTTGTTATCTCCACGGTGCGGATCAGCGAAAAAGACAAGCCGGTAGTGACCATCGCGCCGTTCCCCACTGACTATCAACTGGATCAGATCGGCAAGCTGGTGCTGGTGGACCGTACCCGTCCATGGATGCTGAATAAGTACTTCGATGCCGCCCACTTCCGGGTGGTCGATACGCCGATGGATCAGCAAACGCTGTTCGCCGAGCTGTGCCAGCAGCTGCTGGAGGAAGGCTTTGTTGACGCCGAGTTTCATGCTTCGGTGGTGGAGCGTGAAGCGATTGTCAGCACCATGCTCGGCGATGGCATTGCGCTGCCGCACTCCTTGGGGCTACTGGCGAAAAAGACGGTGGTCTATACCGTCATTGCCCCGCAGGGCATCGCCTGGGGTGACGAAACCGCCCATATCATCTTCCTGCTCGCTATCAGCAAGCGCGAGTATGAAGAGGCGATGGCGATCTACGATATTTTCGTGACTTTCCTGCGCGAGCGCGCCATGAGCCGCCTCGCCGCGACCCGCAGCTTCGATGAGTTTAAAACGGTGGCGATGGAGTGCGTCAGCCGGTTTTGA	MRFPNQRLAQLFTLLRNETLPQDELAQRLSVSTRTVRADITALNALLAQYGAQFILNRGSGYQLKIDNPASFQALEETAPKAQHVPRTAQDRITFLLVRFLTSAFSIKLEDLADEWFVSRATLQNDMVEVRERFQRYQLTLETRPRHGMKLFGSEVSVRACLTDLLWELTQQGGIAPPIGAEAFAEEVPALLEPVLQETLTRHHIRLTDVGERFICLYGAVVVRRVSEGYPLADFSAEDVAQNVRDAARDLAGELQRLAGKPLSPAEEEWLCVHIAARQVQDVDPETISADDDEALVNYILRYINSQYNYNLLDDAQLHADLLTHIKTMITRVRYQIMIPNPLLDNIKQHYPMAWDMTLAAVSSWGKYTPYTISENEIGFLVLHIGVGLERHYNIGYQRQPQVLLVCDTSNAMVRMIEAILQRKYPQLEIAATISQREYEQRDAIEADFVISTVRISEKDKPVVTIAPFPTDYQLDQIGKLVLVDRTRPWMLNKYFDAAHFRVVDTPMDQQTLFAELCQQLLEEGFVDAEFHASVVEREAIVSTMLGDGIALPHSLGLLAKKTVVYTVIAPQGIAWGDETAHIIFLLAISKREYEEAMAIYDIFVTFLRERAMSRLAATRSFDEFKTVAMECVSRF				NA	NA	NA	NA	NA
BMS020_07360	243	relB	COG3077	Antitoxin RelB	ATGGCCACGCTCAACGTTCGACTGGACGATAAACTCAAAAAAGAGGCTTATGCCGTGCTGGAGAAACTCGATATGACGCCAACGGAGGCGGTGCGCCTGCTGTTTCAATACATTGCGGAAAATGGCCGCATGCCAGTGAAAAGTATGACTATCAGCGATAGCGAAGCGGCATTATTACGCACCGTCCGCGAGCGGCTGGAAAACCCGCAGCCGGAGGTGAAGGTGAGTCTGGATGACCTATGA	MATLNVRLDDKLKKEAYAVLEKLDMTPTEAVRLLFQYIAENGRMPVKSMTISDSEAALLRTVRERLENPQPEVKVSLDDL	PGPT0027435_95	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-RelE|StbE-RelB|StbD_TOXIN-ANTITOXIN_SYSTEM,PGPT0027435-antitoxin_relB|pasA-K18918	NA	NA
BMS020_07361	465	nrdG	COG0602	Anaerobic ribonucleoside-triphosphate reductase-activating protein	ATGAATTACCATCAGTACTACCCGGTAGATATTGTCAACGGCCCCGGCACCCGCTGCACCCTGTTTGTCTCCGGCTGCGTCCATGAGTGCCCCGGCTGCTACAACAAAAGCACCTGGCGGGTGAACTCCGGCATGCCGTTTACCGCCGAGATGGCCGACCGCATCATTGCCGATCTCAACGATACCCGCATCAAACGCCAGGGGATTTCACTCTCCGGCGGCGATCCGCTGCATCCACAGAACGTCGCGGAGATCCTCAAGCTGGTTCAGCGCGTGCGTGCCGAATGCCCCGGCAAAGATATCTGGGTCTGGACCGGCTATAAACTGGATGAGCTGAATGAGGCGCAGATGCAGGTGGTGAACCTGATCAACGTGCTGGTCGACGGTAAGTTTGTGCAGGATTTAAAAGACCCGGCGCTGATCTGGCGCGGCAGCAGCAACCAGGTGGTACATCATTTGCGATAG	MNYHQYYPVDIVNGPGTRCTLFVSGCVHECPGCYNKSTWRVNSGMPFTAEMADRIIADLNDTRIKRQGISLSGGDPLHPQNVAEILKLVQRVRAECPGKDIWVWTGYKLDELNEAQMQVVNLINVLVDGKFVQDLKDPALIWRGSSNQVVHHLR				NA	NA	NA	NA	NA
BMS020_07362	2139	nrdD_1	COG1328	Anaerobic ribonucleoside-triphosphate reductase	ATGACACCGCATGTGATGAAACGTGATGGCTGTAAAGTGCCGTTCAAGTCAGAGCGCATTCAGGAAGCAATTCTGCGTGCAGCTAAAGCAGCGGGAGTCGATGACGCAGACTATTGCGCCACCGTCGCAGAAGTCGTTAGCCAACAAATGCAGGGCCGCGCCCAGGTCGACATCAACGAGATCCAGACCGCGGTGGAAAACCAGCTGATGTCCGGCCCCTATAAGCAGCTGGCGCGCGCCTACATTGAGTATCGCCATGACCGCGATAGCCAGCGTGAGAAGCGCGGCCGCCTCAATCAGGAGATCCGCGGCCTCGTCGAGCAGACCAACTCCGCGCTGCTCAACGAAAACGCCAACAAGGACAGTAAAGTCATCCCGACCCAGCGCGACCTGCTGGCCGGTATCGTCGCCAAGCACTACGCCCGGCAGCACCTGCTGCCTCACGATGTGGTGATGGCCCACGAACGCGGCATGATCCACTATCATGACCTCGATTACTCGCCCTTCTTCCCGATGTTTAACTGCATGCTGATCGACCTGAAAGGCATGCTGACCCAGGGCTTTAAGATGGGCAACGCGGAGATCGAGCCGCCGAAGTCTATCTCTACCGCCACCGCGGTGACCGCGCAGATCATCGCCCAGGTCGCCAGCCATATTTATGGCGGCACCACCATCAACCGAATCGATGAAGTGCTGGCGCCGTTCGTCAGCGAAAGCTTTAACAAGCATCGTAAAATCGCCGAAGAGTGGCAGATCCCGGATGCCGAAGGCTATGCCCGCGCCCGTACCGAAAAAGAGTGCTACGACGCCTTCCAGTCGCTGGAGTATGAGGTTAACACGCTGCATACCGCCAACGGCCAGACGCCGTTCGTCACCTTCGGGTTCGGTCTCGGCACCAGCTGGGAATCGCGGCTGATCCAGCAGTCGATTCTGCGCAACCGCATTGCCGGCCTCGGTAAAAACCGTAAGACCGCGGTGTTCCCGAAACTGGTGTTCGCGATCCGTGACGGCCTGAACCATAAGTTCGGCGACCCGAACTACGACATCAAACAGCTGGCGCTGGAGTGCGCCAGCAAGCGCATGTACCCGGATATCCTCAACTACGACCAGGTGGTGAAGGTTACCGGGTCGTTTAAAACGCCGATGGGCTGCCGCAGCTTCCTCGGGGTGTGGGAAAACGAGAACGGCGAGCAGGTGCACGATGGGCGCAATAACCTCGGCGTCATCAGCCTCAACCTGCCGCGCATCGCCCTGGAAGCGAAAGGCGACGAAGCCGCCTTCTGGGCGCTGCTGGACGAGCGCCTGCAGCTGGCGCGCAAAGCGCTGATGACCCGCATTGCCCGCCTGGAAGGGGTAAAAGCGCGCGTGGCGCCGATCCTCTATATGGAAGGGGCCTGCGGCGTGCGGCTGAAAGCCGACGACGACGTCTCCGAGATCTTTAAAAACGGCCGGGCGTCGATTTCGCTGGGCTATATCGGTATCCATGAAACTATCAATGCGCTGTACGGCAACCAGCATATGTACGACAGCGAGGCGCTGCGCGAGAAGGGTGTGGCCATCGTCCAGCGCCTGCGCGACGCCGTCGATTTGTGGAAAGAAGAGACCGGCTACGGCTTTAGCCTGTACAGCACGCCGAGCGAAAACCTGTGCGACCGCTTCTGCCGTCTCGACACCGCCGAGTTTGGCGTGGTGGAGGGCGTGACCGACAAAGGTTACTACACCAACAGTTTCCACCTCGACGTGGAGAAGAAGGTCAACCCGTACGACAAGATCGATTTTGAAGCGCCGTATCCGCCGCTGGCTAACGGGGGCTTCATTTGCTACGGCGAATACCCAAACATCCAGCACAACCTGAAGGCGCTGGAAGACGTATGGGATTACAGCTATCAGCATGTGCCGTACTACGGCACTAACACGCCGATCGATGAGTGCTACGAGTGCGGTTTCACCGGCGAGTTCGAGTGCACCAGCAAGGGCTTTACCTGCCCGAAATGCGGTAACCACGACGCCTCCCGCGTTTCCGTTACCCGTCGGGTGTGCGGCTACCTCGGCAGTCCGGACGCGCGTCCGTTCAACGCCGGCAAGCAGGAAGAAGTGAAGCGCCGCGTGAAGCACCTGGGCAACGGGCAGATCGGTTAA	MTPHVMKRDGCKVPFKSERIQEAILRAAKAAGVDDADYCATVAEVVSQQMQGRAQVDINEIQTAVENQLMSGPYKQLARAYIEYRHDRDSQREKRGRLNQEIRGLVEQTNSALLNENANKDSKVIPTQRDLLAGIVAKHYARQHLLPHDVVMAHERGMIHYHDLDYSPFFPMFNCMLIDLKGMLTQGFKMGNAEIEPPKSISTATAVTAQIIAQVASHIYGGTTINRIDEVLAPFVSESFNKHRKIAEEWQIPDAEGYARARTEKECYDAFQSLEYEVNTLHTANGQTPFVTFGFGLGTSWESRLIQQSILRNRIAGLGKNRKTAVFPKLVFAIRDGLNHKFGDPNYDIKQLALECASKRMYPDILNYDQVVKVTGSFKTPMGCRSFLGVWENENGEQVHDGRNNLGVISLNLPRIALEAKGDEAAFWALLDERLQLARKALMTRIARLEGVKARVAPILYMEGACGVRLKADDDVSEIFKNGRASISLGYIGIHETINALYGNQHMYDSEALREKGVAIVQRLRDAVDLWKEETGYGFSLYSTPSENLCDRFCRLDTAEFGVVEGVTDKGYYTNSFHLDVEKKVNPYDKIDFEAPYPPLANGGFICYGEYPNIQHNLKALEDVWDYSYQHVPYYGTNTPIDECYECGFTGEFECTSKGFTCPKCGNHDASRVSVTRRVCGYLGSPDARPFNAGKQEEVKRRVKHLGNGQIG	PGPT0021330_974	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0021330-nrdD-K21636	NA	NA
BMS020_07363	192			hypothetical protein	ATGATGGGCGCTGGCGATAAATGTAAATTTATCTGGCTGGAAAATAAGCAAAAATGCCTGGCGTTCGCCACCGGCGCCAGGCATGACCTTCTCATTTCGGGAGGGCAGGGGACACCTTACGCCTGCAGCCACCATACCGCTTCGAACGGCCGCAGCGTCAGCCCGGTTGGGCGGGGCGTGGTCTCGGCATAG	MMGAGDKCKFIWLENKQKCLAFATGARHDLLISGGQGTPYACSHHTASNGRSVSPVGRGVVSA				NA	NA	NA	NA	NA
BMS020_07364	1656	treC	COG0366	Trehalose-6-phosphate hydrolase	ATGAATCATCTCCCCCACTGGTGGCAAAACGGCGTTATTTATCAAATCTATCCGAAGAGTTTTCAGGATACCACCGGCAGCGGCACCGGCGACCTGCGCGGCGTCACCTCCCGCCTCGACTATCTGCAAAAGCTTGGGGTCGACGCCATCTGGCTGACGCCGTTCTACGTTTCACCGCAGGTGGATAACGGCTACGACGTGGCAAACTACACCGCCATCGATCCCTCCTACGGCACGATGGCCGATTTTGACGCCCTGGTGGCGGAAGCGAAGGCCCGCGGGATCCGCATCGTGCTGGATATGGTGCTGAACCATACCTCGACCGAACACGAGTGGTTCCGTCAGTCGCTGAATAAGGAGAGCCCCTACCGTCAGTTCTATATCTGGCGCGACGGCGAACCGGACGCCCTGCCGAACAACTGGCGCTCCAAATTTGGCGGCAACGCCTGGCAGTGGCATGCCGACAGCGGTCAGTATTATCTGCACCTGTTCGCCATTGAGCAGGCGGATCTCAACTGGGAGAACCCGGCGGTGCGCGCCGAGCTGAAAAAGGTCTGCGAATTCTGGGCCGACCGCGGCGTCGACGGCCTGCGCCTCGACGTGGTTAACCTGATCTCGAAAGATCAGGCCTTTCCCTGCGATGCGGACGGGGATGGCCGCCGCTTCTACACCGACGGCCCGCGGGTGCATGAGTTCCTGCAGGAGATGAGCCGCGATGTCTTCACGCCGCGTCATCTGATGACCGTCGGCGAGATGTCTTCCACCTCGCTGGAACACTGCCAGCAGTACGCCGCGCTGGACGGCCGCGAGCTGTCGATGACCTTTAACTTCCACCATTTAAAAGTCGATTATCCCGGTGGGGAGAAGTGGACCCTCGCCCGCCCGGACTATGTGGCGCTGAAGGCGCTGTTCCGCCACTGGCAGCAGGGGATGCACAACCGGGCGTGGAACGCGCTGTTCTGGTGTAATCACGATCAGCCGCGCATCGTCTCGCGCTTTGGCGACGAAGGCGAGTACCGGGTGCCGGCGGCGAAGATGCTGGCGATGGTGCTGCACGGCATGCAGGGCACGCCCTATATTTATCAGGGCGAAGAGATCGGCATGACCAATCCGCACTTCAACAGCATCAGCGATTATCGCGACGTCGAGAGCCACAATATGTTTATCGAACGTGCGGCGCAGGGGCAAAGTCCGGACGAACTGCTGGCGATCCTTGCCAGCAAGTCGCGCGACAACAGCCGCACGCCGATGCCGTGGCATGGTGGCGAAAACGGTGGCTTTAGCGATGGCGAACCGTGGATCGGCCTTGGCGATAACTACCGGGAGATCAACGTCGAGGCGGCGCTGGCGGACCCTGATTCGGTGTTTTATGCCTATCAGCAGCTGATTACGCTGCGTAAAACCCTGCCGCTGCTGACCTGGGGCGATTATCAGGATCTCCTGCCTGACCATCCGTCGCTGTGGTGCTATCGCCGTCAGTGGCAGGGACAAACGCTGGTGGTCGCCGCCAACCTGAGCCGCGACCTGCAGGCCTGGCAGCCTGAGGACGCCCCGGGCGAGTGGAAGATGATCATCAGCAACTATGCCGAGACCACGCCCCGCCCAACCGGGCTGACGCTGCGGCCGTTCGAAGCGGTATGGTGGCTGCAGGCGTAA	MNHLPHWWQNGVIYQIYPKSFQDTTGSGTGDLRGVTSRLDYLQKLGVDAIWLTPFYVSPQVDNGYDVANYTAIDPSYGTMADFDALVAEAKARGIRIVLDMVLNHTSTEHEWFRQSLNKESPYRQFYIWRDGEPDALPNNWRSKFGGNAWQWHADSGQYYLHLFAIEQADLNWENPAVRAELKKVCEFWADRGVDGLRLDVVNLISKDQAFPCDADGDGRRFYTDGPRVHEFLQEMSRDVFTPRHLMTVGEMSSTSLEHCQQYAALDGRELSMTFNFHHLKVDYPGGEKWTLARPDYVALKALFRHWQQGMHNRAWNALFWCNHDQPRIVSRFGDEGEYRVPAAKMLAMVLHGMQGTPYIYQGEEIGMTNPHFNSISDYRDVESHNMFIERAAQGQSPDELLAILASKSRDNSRTPMPWHGGENGGFSDGEPWIGLGDNYREINVEAALADPDSVFYAYQQLITLRKTLPLLTWGDYQDLLPDHPSLWCYRRQWQGQTLVVAANLSRDLQAWQPEDAPGEWKMIISNYAETTPRPTGLTLRPFEAVWWLQA	PGPT0014095_571	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-PHOSPHOTREHALASE,PGPT0014095-treC-K01226	NA	NA
BMS020_07365	1419	treB	COG1263	PTS system trehalose-specific EIIBC component	ATGAGCAAAGTAAACCAGCAGGACATCGATAAACTGATCGAACTGGTGGGCGGGCGCGGCAATATCGCCACCGTCAGCCACTGTATTACCCGTTTGCGCTTTGTGCTGAACGACCCGGCCATCGCCAGACCAAAAGAGATTGAGCAGCTGCGCATGGTGAAGGGATGCTTCACTAACGCCGGTCAGTTCCAGGTGGTCATCGGCACCGAGGTGGGTGATTACTACAAGGCCCTGCTGGCGACCACCGGTCAGACTTCCGCCGATAAAGAGCAGGTCAAACAGGCCGCGCGGCAAAATATGAAGTGGCATGAACAGCTGATCTCGCACTTCGCCGAGATCTTCTTCCCGCTGCTGCCGGCGCTGATCAGCGGCGGTCTGATCCTTGGTTTCCGCAACGTCATCGGCGACTTACCCATGAGCAACGGCCAGACGCTGGCCCAGATGCACCCGTCGCTGAAAACCATCTATGACTTCCTGTGGCTGATTGGCGAGGCGATCTTCTTCTATCTGCCGGTGGGGATCTGCTGGTCGGCGGTGAAGAAGATGGGCGGTACGCCGATCCTTGGGATCGTCCTGGGCGTGACCCTGGTGTCCCCGCAGCTGATGAACGCCTATCTCCTCGGCCAGCAGGTGCCGGAGGTGTGGAACTTCGGCCTGTTTACCATTGCTAAAGTCGGCTACCAGGCGCAGGTCATCCCGGCCCTGCTGGCGGGCCTGACCTTAGGCTTTATCGAGACGCGCCTCAAGCGCATTGTGCCTGACTACCTCTATCTGGTCATTGTGCCGGTCTGCTCGCTGATCCTCGCGGTATTCCTCGCGCACGCCATTATCGGTCCGTTCGGCCGCCTGATCGGCGACGGCGTGGCCTTCGCAGTGCGCCATCTGTTAACCGGCAGCTTCGCGCCGATCGGCGCCGCGCTGTTTGGCTTCCTCTACGCGCCGCTGGTGATTACCGGCGTCCATCAGACCACCCTCGCCATCGATATGCAGATGATCCAGAGCATGGGCGGGACCCCGGTGTGGCCGCTGATTGCGCTGTCCAACATTGCCCAGGCGTCGGCGGTGGTCGGCATCATCATCGCCAGCCGCAAGCAGAATGAACGTGAAATCTCAGTACCGGCGGCGATCTCCGCCTATCTCGGGGTCACAGAGCCGGCAATGTACGGTATCAACTTGAAGTACCGCTTCCCGATGCTGTGCGCAATGATCGGCTCCGGCCTCGCCGGCCTGCTGTGCGGCCTGAACGGCGTGCTGGCGAACGGCATCGGCGTCGGCGGCCTGCCGGGGATCCTCTCCATCCAGCCGAGCTACTGGCAGGTGTACGCCATGGCGATGGCCATCGCGGTGGTGGTGCCGATTATCCTCACCACCGTGGTGTATCAGCGCAAGTACCGTCAGGGCACCTTGCAGATTGTCTAA	MSKVNQQDIDKLIELVGGRGNIATVSHCITRLRFVLNDPAIARPKEIEQLRMVKGCFTNAGQFQVVIGTEVGDYYKALLATTGQTSADKEQVKQAARQNMKWHEQLISHFAEIFFPLLPALISGGLILGFRNVIGDLPMSNGQTLAQMHPSLKTIYDFLWLIGEAIFFYLPVGICWSAVKKMGGTPILGIVLGVTLVSPQLMNAYLLGQQVPEVWNFGLFTIAKVGYQAQVIPALLAGLTLGFIETRLKRIVPDYLYLVIVPVCSLILAVFLAHAIIGPFGRLIGDGVAFAVRHLLTGSFAPIGAALFGFLYAPLVITGVHQTTLAIDMQMIQSMGGTPVWPLIALSNIAQASAVVGIIIASRKQNEREISVPAAISAYLGVTEPAMYGINLKYRFPMLCAMIGSGLAGLLCGLNGVLANGIGVGGLPGILSIQPSYWQVYAMAMAIAVVVPIILTTVVYQRKYRQGTLQIV	PGPT0014075_656	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014075-treB-K02819	NA	NA
BMS020_07366	948	treR	COG1609	HTH-type transcriptional regulator TreR	ATGCAGAACCGGCTGACCATCAAAGATATCGCGCGCTTAAGCGGCGTAGGGAAATCAACGGTATCCCGCGTCCTCAACAACGAGAGCGGGGTCAGCGAACGGACCCGCGAGCGCGTCGAAGCGGTGATGCAGCAGCACGGTTTCTCGCCCTCCCGCTCCGCCCGCGCCATGCGCGGCCAGAGCGATAAAGTGGTGGCGATTATCGTCACCCGTCTCGATTCGCTGTCGGAAAACCTCGCCGTGCAGACCATGCTGCCCGCCTTTTATGAGCAGGGTTACGACCCGATTATGATGGAGAGTCAGTTCTCCCCTGGGCTGGTGGAGGAGCATCTCGGCATGCTCGCCCGGCGTAATATTGACGGCGTGGTGCTGTTCGGTTTTACCGGCATCGACGAGGCGATGCTCGCTCCCTGGCGCGACACCCTGGTGCTGATGGCCCGCGACGCCCCCGGCTTCGCCTCGGTGTGCTATGACGACGAGGGGGCCATCACGCTGCTGATGCAGCGGCTCTACGAGCGCGGGCATCGCCACATCAGCTTCCTTGGCGTACCGCACAGCGACGTCACCACCGGCGAACGCCGCCATCTCGCCTACCTCGCCTTCTGTAAAAAGCATCGCCTGACGCCCACCGCCGCCCTGCCGGGGCTGGGCATGAAGCAGGGGTATGACACCGTCGCCAGCGTGCTGACGGCCGAGACCAGCGCCCTGGTGTGCGCCACCGATACCCTCGCCCTCGGCGCCAGCAAATATCTCCAGCAGCAGGGCCGCGATGCGCTGCAGCTCGCCAGCGTCGGCAGCACGCCGCTGATGAAGTTTCTCCACCCGGAAATATTGACCGTCGATCCTGGCTATGCCGAGTCCGGACGCCGGGCCGCCCGGCAGCTGATCGAGCAGATCGCCGGCAGCGTCGATCCCCGCCAGATCGTGATTCCCGCCGCCCTCAATTAA	MQNRLTIKDIARLSGVGKSTVSRVLNNESGVSERTRERVEAVMQQHGFSPSRSARAMRGQSDKVVAIIVTRLDSLSENLAVQTMLPAFYEQGYDPIMMESQFSPGLVEEHLGMLARRNIDGVVLFGFTGIDEAMLAPWRDTLVLMARDAPGFASVCYDDEGAITLLMQRLYERGHRHISFLGVPHSDVTTGERRHLAYLAFCKKHRLTPTAALPGLGMKQGYDTVASVLTAETSALVCATDTLALGASKYLQQQGRDALQLASVGSTPLMKFLHPEILTVDPGYAESGRRAARQLIEQIAGSVDPRQIVIPAALN	PGPT0014105_154	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014105-treR-K03485	NA	NA
BMS020_07368	2709	mgtA_2	COG0474	Magnesium-transporting ATPase, P-type 1	ATGCTGAAAAATTATACCCGGCAGCTGTTCGCACAGCTTAGCCGCCATCTGCCACGCCGTTTAGTCCAGCGCGATCCGCTGCCGGACGCCCGCCATCTGGCGAGCGGCCCCATTCCTGAGTCGCTGGGCAAACAGTGCCTGGACGTGGCGGCGATGGACGACCAGGAGATCTGGCGCGCCTTTGACAGCCACCCTGAAGGGCTCAATGAAGGCGAAGTGGCGGCGAAAATCCTTAAACACGGCGACAACCAGATCCCGGCGCAGAAGCCCTCGCCGTGGTGGGTGCATCTGTGGACCTGCTACCGCAACCCGTTCAATCTGCTGCTGACGGTGCTCGGCATCGTCTCCTATTCCACCGAAGATCTGTTCGCCGCCGGGGTGATCGCCCTGATGGTGGGGATCTCGACGCTGCTCAACTTCATCCAGGAGGCGCGCTCGACCAAAGCGGCGGATGCGCTGAAGGCGATGGTGAGCAATACCGCCACCGTGCTGCGGGTGGTCAACGAACAGGGGGAGAGCCGCTGGCTGGAGCTGCCTATCGACCAGCTGGTGCCGGGCGACATCATCCGGCTGTCGGCGGGGGACATGATCCCGGCGGACCTGCGTATCCTGCAGGCGCGGGATCTGTTCGTCGCCCAGGCCTCGCTGACCGGCGAATCGCTGCCGGTGGAGAAAGTGGCCCGCAGCCGCGATCCGCTGCAGCAGAACCCGCTGGAGTGCGACACCCTGTGCTTTATGGGCACCAACGTGGTGAGCGGCTCGGCGCAGGCCATCGTCTTCGCCACCGGCGGCCACACCTGGTTTGGTCAACTGGCCGGCCGCGTCAGCGAGCAGGAGAGCGAGCCGAACGCCTTCCAGAAAGGCATCAGCCGGGTGAGTATGCTGCTGATCCGCTTTATGCTGGTGATGGCCCCGGTGGTGCTGCTGATCAATGGCTACACCAAAGGCGACTGGTGGGAGGCGGCGCTGTTCGCGCTGTCGGTGGCGGTCGGCCTGACGCCGGAGATGCTGCCGATGATCGTCACCTCGACGCTGGCGCGCGGGGCGGTAAAGCTGTCGAAGCAAAAGGTCATCGTGAAGCACCTCGACGCCATTCAGAACTTTGGCGCGATGGACATCCTCTGCACCGATAAAACCGGCACCCTGACTCAGGATAAGATTGTGCTGGAGAACCATACCGACGTCTCCGGCAAGGTCAGCGAGCGCGTACTGCATGCCGCCTGGCTGAACAGCCACTACCAGACCGGGTTGAAAAATCTGCTCGACACCGCGGTGCTGGAGGGCGTTGAGCTGGAGGCCGCCCGCGGGCTGGCGGCGCGCTGGCAGAAAGTGGATGAGATCCCCTTCGATTTCGAACGCCGCCGCATGTCGGTGGTGGTGAAAGAGGAGGACGCCGCGCATCAGCTGATCTGCAAAGGGGCGCTGCAGGAGATCCTCAACGTCTCAACCCAGGTGCGCTACAACGGCGATATCGTGCCGCTGGACGACACCATGCTGCGCCGCATCCGCCGGGTCACTGACACCCTCAACCGACAGGGGCTGCGGGTGGTGGCGGTGGCGACCAGGTACCTGCCGGCCCGCGAAGGCGACTACCAGCGCGCCGATGAGTCGGACCTGATCCTTGAAGGCTACATCGCCTTCCTCGATCCGCCGAAAGAGACCACCGCCCCGGCGCTGAAAGCGTTAAAAGCCAGCGGCATCACGGTGAAGATCCTCACCGGCGACAGCGAGCTGGTGGCGGCGAAGGTGTGCCATGAAGTGGGGCTGGATGCCGGCGAAGTGGTGATTGGCAGCCAGATTGAAGCCATGAGCGACGACGAGCTGGCGGCGCTGGCGAAACGCACCACGCTCTTCGCCCGCCTGGCGCCGCTGCATAAGGAGCGCATCGTGACGCTGCTGAAACGCGAAGGCCACGTGGTGGGCTTTATGGGCGACGGCATCAACGACGCCCCGGCGCTGCGCGCGGCGGACATCGGCATCTCGGTCGACGGCGCGGTGGATATCGCCCGCGAGGCGGCGGATATCATTCTGCTGGAGAAAAGCCTGATGGTGCTGGAGGAGGGGGTGATCGAAGGCCGCCGCACTTTCGCCAACATGCTTAAGTACATCAAAATGACCGCCAGCTCCAACTTCGGCAATGTCTTCAGCGTGCTGGTGGCCAGCGCCTTCCTGCCGTTTCTGCCGATGCTGCCGCTGCACCTGTTGATTCAGAACCTGCTGTACGATGTCTCCCAGGTGGCGATCCCGTTCGATAATGTCGACGATGAACAGATCCGCAAGCCGCAGCGCTGGAACCCGGCCGACCTTGGACGCTTTATGGTCTTCTTCGGCCCGATCAGCTCGATTTTCGATATCCTCACCTTCGGCCTGATGTGGTGGGTGTTCCACGCCAATACCGTGGAGATGCAGACCCTGTTCCAGTCCGGCTGGTTTATTGAAGGGCTGCTGTCGCAAACGCTGATCGTGCACATGATCCGCACCCGGCGCATTCCGTTCGTCCAGAGCCGCGCCGCCTGGCCGCTGTTCGCCATGACCCTGGTGGTGATGGCGGTGGGGATCGCGCTGCCGTTCTCGCCGCTGGCGGGCTATCTGCAGCTGCAGGCCCTGCCGCTGAGCTACTTCCCATGGCTGGTGGCGATCCTGGCGGGCTATATGGTGCTGACCCAAACGGTCAAAGGCTTCTACAGCCGCCGCTACGGCTGGCAGTAA	MLKNYTRQLFAQLSRHLPRRLVQRDPLPDARHLASGPIPESLGKQCLDVAAMDDQEIWRAFDSHPEGLNEGEVAAKILKHGDNQIPAQKPSPWWVHLWTCYRNPFNLLLTVLGIVSYSTEDLFAAGVIALMVGISTLLNFIQEARSTKAADALKAMVSNTATVLRVVNEQGESRWLELPIDQLVPGDIIRLSAGDMIPADLRILQARDLFVAQASLTGESLPVEKVARSRDPLQQNPLECDTLCFMGTNVVSGSAQAIVFATGGHTWFGQLAGRVSEQESEPNAFQKGISRVSMLLIRFMLVMAPVVLLINGYTKGDWWEAALFALSVAVGLTPEMLPMIVTSTLARGAVKLSKQKVIVKHLDAIQNFGAMDILCTDKTGTLTQDKIVLENHTDVSGKVSERVLHAAWLNSHYQTGLKNLLDTAVLEGVELEAARGLAARWQKVDEIPFDFERRRMSVVVKEEDAAHQLICKGALQEILNVSTQVRYNGDIVPLDDTMLRRIRRVTDTLNRQGLRVVAVATRYLPAREGDYQRADESDLILEGYIAFLDPPKETTAPALKALKASGITVKILTGDSELVAAKVCHEVGLDAGEVVIGSQIEAMSDDELAALAKRTTLFARLAPLHKERIVTLLKREGHVVGFMGDGINDAPALRAADIGISVDGAVDIAREAADIILLEKSLMVLEEGVIEGRRTFANMLKYIKMTASSNFGNVFSVLVASAFLPFLPMLPLHLLIQNLLYDVSQVAIPFDNVDDEQIRKPQRWNPADLGRFMVFFGPISSIFDILTFGLMWWVFHANTVEMQTLFQSGWFIEGLLSQTLIVHMIRTRRIPFVQSRAAWPLFAMTLVVMAVGIALPFSPLAGYLQLQALPLSYFPWLVAILAGYMVLTQTVKGFYSRRYGWQ				NA	NA	NA	NA	NA
BMS020_07369	387	ridA_2	COG0251	2-iminobutanoate/2-iminopropanoate deaminase	ATGAGCAAAACTATTGCGACGGAAAATGCACCAGCAGCGATTGGCCCCTACGTTCAGGGCGTTGACCTGGGCAGCATGATCATCACCTCTGGCCAGATCCCGGTCGACCCGAAAACCGGCAGCGTTCCGGAAGACGTATCCGCGCAGGCGCGCCAGTCGCTGAACAACGTGAAAGCCATCGTTGAAGCCGCAGGCCTCACCGTCGGCGATATCGTCAAGACCACCGTTTTCGTCAAAGATCTCAACGATTTCGCTACCGTTAACGCCACATACGAAGCGTTCTTCACCGAGCACAACGCCACCTTCCCGGCGCGCTCCTGCGTTGAAGTGGCGCGTCTGCCGAAAGACGTGAAGATCGAGATCGAAGCCATCGCCGTACGCCGCTGA	MSKTIATENAPAAIGPYVQGVDLGSMIITSGQIPVDPKTGSVPEDVSAQARQSLNNVKAIVEAAGLTVGDIVKTTVFVKDLNDFATVNATYEAFFTEHNATFPARSCVEVARLPKDVKIEIEAIAVRR	PGPT0020030_2218	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
BMS020_07370	462	pyrI	COG1781	Aspartate carbamoyltransferase regulatory chain	ATGACACACGACAATAAACTGCAGGTAGAAGCGATCAAACGCGGCACCGTGATCGACCACATTCCGGCGCAGGTCGGTTTTAAGCTGCTCACCCTGTTCAAACTGACCGAAACCGACCAGCGCATCACCATCGGCCTGAACCTGCCCTCCGGCGAGATGGGCCGCAAGGATTTGATTAAAATCGAGAACACCTTCCTGACCGACGAGCAGGTTAACCAGCTGTCGCTGTACGCCCCGCAGGCGACGGTAAACCGCATTGATGAATACGAAGTGGTGGGCAAATCCCGCCCGAGCCTGCCGGATCGCATCGACAGCGTGCTGGTCTGCCCGAACAGCAACTGTATCAGCCACGCCGAACCGGTTTCTTCCAGTTTTGCAGTGAAAAAACGCACTGATGACATCGCACTCAAATGTAAATACTGCGAAAAAGAGTTTTCTCATTATGTGGTGCTGGCCAACTAA	MTHDNKLQVEAIKRGTVIDHIPAQVGFKLLTLFKLTETDQRITIGLNLPSGEMGRKDLIKIENTFLTDEQVNQLSLYAPQATVNRIDEYEVVGKSRPSLPDRIDSVLVCPNSNCISHAEPVSSSFAVKKRTDDIALKCKYCEKEFSHYVVLAN	PGPT0021165_513	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021165-pyrI-K00610	NA	NA
BMS020_07371	936	pyrB_2	COG0540	Aspartate carbamoyltransferase catalytic subunit	ATGGCTAACCCGCTATATCAAAAACATATCATTTCCATAAACGATCTCAGCCGCGAAGACCTCGAACTGGTGCTGGCGACGGCGGCAAAGCTGAAAGCTAATCCACAACCCGAGCTGCTGAAGCATAAGGTTATCGCCAGCTGTTTCTTTGAAGCCTCGACCCGCACCCGCCTCTCTTTTGAAACCTCGATGCACCGCCTGGGGGCCAGCGTGGTCGGCTTCTCCGACAGCGCCAACACCTCGCTGGGCAAAAAAGGGGAAACGCTGGCGGATACCATCTCCGTCATCAGCACCTACGTGGACGCCATCGTGATGCGTCATCCGCAGGAGGGCGCCGCCCGTCTGGCGACCGAATTCTCCGGCGGCGTGCCGGTACTGAACGCCGGCGACGGCGCCAACCAGCACCCGACCCAGACCCTGCTCGACCTGTTCACCATTCAGGAGACCCAGGGCCGCCTCGAAAACCTCAACGTGGCGATGGTCGGCGATCTGAAGTATGGCCGTACCGTCCACTCCCTGACCCAGGCGCTGGCCAAATTCAGCGGCAACCGCTTCTACTTTATCGCCCCGGACGCGCTGGCCATGCCGCAGTACATCCTCGATATGCTGGATGAAAAAGGTATCGCCTGGAGCTTGCATAGCGCCATCGACGACGTGATGGCGGAAGTGGATATTCTCTACATGACCCGCGTGCAGAAAGAGCGTCTGGATCCGTCGGAATACGCCAACGTCAAAGCGCAGTTCGTCCTGCGCGCCGCCGACCTCGAAGGGGCGCGCGCCAATATGAAGGTGCTGCACCCGCTGCCGCGCATTGACGAAATCACCACCGATGTCGATAAAACGCCGCACGCCTGGTACTTCCAGCAGGCCGGTAACGGCATCTTCGCCCGCCAGGCGTTACTGGCATTGGTACTGAATAGCGAGCTGGCACTGTAA	MANPLYQKHIISINDLSREDLELVLATAAKLKANPQPELLKHKVIASCFFEASTRTRLSFETSMHRLGASVVGFSDSANTSLGKKGETLADTISVISTYVDAIVMRHPQEGAARLATEFSGGVPVLNAGDGANQHPTQTLLDLFTIQETQGRLENLNVAMVGDLKYGRTVHSLTQALAKFSGNRFYFIAPDALAMPQYILDMLDEKGIAWSLHSAIDDVMAEVDILYMTRVQKERLDPSEYANVKAQFVLRAADLEGARANMKVLHPLPRIDEITTDVDKTPHAWYFQQAGNGIFARQALLALVLNSELAL	PGPT0021160_3000	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021160-pyrB-K00609	NA	NA
BMS020_07372	453	tabA	COG2731	Toxin-antitoxin biofilm protein TabA	ATGATTATTGGCAATATCCACCATCTGCAGCCATGGCTGCCTGCCGCGCTGCGCGAGGCTATCGAACACGTTATCGTCCATGTCAGCGAGGCGACGCCGCTGGGTAAACATGATATCGACGGCAACAACCTGTTTTATCTGATTTCCGAAGACACCACCGAGCCGCAGGACGCGCGTCGCGCGGAATATCATGCCCGCTATCTCGATATCCAGATTGTGCTCCGCGGCAGCGAGGGGATGACCTTCAGCACCCTGCCGGCTGGAGAGCCGCAGACCGACTGGCTGGCGGAGAAAGACATCGCTTTCCTGGCGGAGGGGGCGCAGGAGCAAACGGTGATCCTTAACGAAGGGGACTTTGTGGTGTTTTATCCCGGCGAAGTGCATAAACCGCTGTGTGCCGTGGGCGCCCCGGCGAAGGTGCGCAAAGCGGTGGTGAAGATGCTGATGGCGTGA	MIIGNIHHLQPWLPAALREAIEHVIVHVSEATPLGKHDIDGNNLFYLISEDTTEPQDARRAEYHARYLDIQIVLRGSEGMTFSTLPAGEPQTDWLAEKDIAFLAEGAQEQTVILNEGDFVVFYPGEVHKPLCAVGAPAKVRKAVVKMLMA	PGPT0026280_417	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0026280-tabA|yjgK|yhcHY|yiaL-K19334	NA	NA
BMS020_07373	1005	argI	COG0078	Ornithine carbamoyltransferase subunit I	ATGTCTGCGTTTTACCAGAAGCATTTTTTAAAGTTACTCGATTTTACGCCTGCAGAAATCACCGCCCTGCTCGAGCTGGCGGCAAAGCTGAAAGCCGATAAGAAAAACGGTATCGAAGTCCAGAAACTGGCAGGGAAAAACATCGCGCTCATCTTCGAAAAAGACTCAACCCGTACACGATGCTCTTTCGAAGTTGCCGCATACGATCAGGGCGCCCGCGTGACCTACCTGGGGCCCAGCGGCAGCCAGATTGGCCATAAAGAGTCGATCAAGGACACCGCCCGCGTGCTCGGACGGATGTACGACGGCATTCAGTACCGCGGCCACGGCCAGGAAGTGGTGGAGACCCTGGCGCAATACGCCGGCGTGCCGGTGTGGAACGGCCTCACCAACGAGTTCCACCCTACCCAGCTGCTGGCGGACCTGCTGACCATGAAAGAGCACCTGCCGGGCAAAGCCTTTAACCAGATGACGCTGGTCTACGCCGGCGACGCGCGCAACAACATGGGCAATTCGATGCTGGAAGCCGCGGCGCTGACCGGTCTGGATCTGCGCCTGGTGGCGCCCTCGGCCTGCTGGCCGGAGGCCGCGCTGGTGGAAACCTGTACCGCGCTGGCGAAACAGCAGGGCGGTAACATCACCCTGACGGAAGATATCGCCGCGGGGGTGCAAGGCGCCGATTTTATCTATACCGACGTCTGGGTCTCAATGGGCGAGGCGAAGGAAAAATGGGCCGAACGTATCGCCCTGCTGCGCGACTATCAGGTTAACAGTGCGATGCTGGCGCTGACCGGCAACCCGCAGGTCAAATTCCTCCACTGCCTGCCAGCGTTCCATGATGACCAGACCACGCTGGGCGAACAGATGGCTGCCGAATACGGCCTGCACGGCGGCATGGAGGTGACTGACGAGGTGTTTGAGTCGGCGGCAAGCGTGGTCTTCGACCAGGCGGAAAACCGGATGCACACCATCAAAGCGGTGATGGTGGCGACGCTGAGCAAATAA	MSAFYQKHFLKLLDFTPAEITALLELAAKLKADKKNGIEVQKLAGKNIALIFEKDSTRTRCSFEVAAYDQGARVTYLGPSGSQIGHKESIKDTARVLGRMYDGIQYRGHGQEVVETLAQYAGVPVWNGLTNEFHPTQLLADLLTMKEHLPGKAFNQMTLVYAGDARNNMGNSMLEAAALTGLDLRLVAPSACWPEAALVETCTALAKQQGGNITLTEDIAAGVQGADFIYTDVWVSMGEAKEKWAERIALLRDYQVNSAMLALTGNPQVKFLHCLPAFHDDQTTLGEQMAAEYGLHGGMEVTDEVFESAASVVFDQAENRMHTIKAVMVATLSK	PGPT0020080_587	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
BMS020_07374	423	rraB	COG3076	Regulator of ribonuclease activity B	ATGGCAAACCCGGAACACCTGGAAGAACAGCGTGAAGAGACGCGTCTGATTATCGAAGAGCTGCTGGAAGATGGCAGCGATCCGGACGCACTGTACACGATTGAGCATCACCTCTCTGCAGACGATTTCGAAACCCTGGAGAAAGTGGCGGTGGAAGCGTTTAAGCTGGGCTACGAAGTGACCGAGCCCGAAGAGCTGGAAGTGGAAGAGGGTGAAGTGGTCATCTGCTGCGATATTCTGAGCGAATGCGCCCTGAACGCAGAACTGATCGATGCCCAGGTGGAACAGCTGATGACGCTGGCAGAAAAATTTGACGTCGAGTATGACGGTTGGGGCACCTACTATGAGGACCCGAACGGCGAAGAAGACGGCGAGGATGACGAAGATTTTGTCGATGAAGACGACGATGGTGTTCGTCACTAA	MANPEHLEEQREETRLIIEELLEDGSDPDALYTIEHHLSADDFETLEKVAVEAFKLGYEVTEPEELEVEEGEVVICCDILSECALNAELIDAQVEQLMTLAEKFDVEYDGWGTYYEDPNGEEDGEDDEDFVDEDDDGVRH				NA	NA	NA	NA	NA
BMS020_07375	765			hypothetical protein	ATGGATTACCCGCAGATACTCTCCCCGATTATCAACTTCCTGCACTGCCCGACGCCGCAGGCGTGGATTGACGAAGCCCGCAAGCCGGAAAACCTGCCGCTGCTGCTGACCGACCATATGGTGTGCGAACTGAAAGCGGCGCAGAACGCCATGCTGCTGGTGCGTCGCTACGTCGCGGATAAAGCCGACGCCGACGAGCTGCTGGCCTGCCTGAAGCCGTATGAAGACTTCACCTACCGCCGGGGGCCAGAGCCGGATTTTGTCGCCCTGCATAAGCGGATCAACAAAAGCGCCATGCCGCAGACCGACGACCCGTGGGGCCGTCAGCTGCTGGACAGCATGATTTTGCTGATTAAAGAGGAGCTGCATCACTTCTGGCAGGTGCGGGAGATGATGCTGGCGCGCGATATCCCCTACGTCAAAATCACCGCCAGCAACTATGCCCGCGGCATGCGACGGGAGGTGCGCTCACATGAGCCGGTGATGCTGATCGATAAGCTTATCTGCGGCGCCTATATCGAGGCCCGCTCATGCGAGCGCTTTGCGGCGCTGGCGCCGTGGCTGGACGACGATCTGCAGAAGTTCTATCTGTCGCTGCTGCGCTCGGAAGCGCGTCACTATCAGGACTACCTGGATCTGGCGCAGAAGATTGCCGGAGAAGATATCAGCGAACGGGTCCGCCAGCTCGGCGAGGCGGAAGCGGCGCTGATCCTCCGTCCGGAGGCCGAGTTCCGCTTTCACAGCGGCGTGCCGGCGGCGGCGTAG	MDYPQILSPIINFLHCPTPQAWIDEARKPENLPLLLTDHMVCELKAAQNAMLLVRRYVADKADADELLACLKPYEDFTYRRGPEPDFVALHKRINKSAMPQTDDPWGRQLLDSMILLIKEELHHFWQVREMMLARDIPYVKITASNYARGMRREVRSHEPVMLIDKLICGAYIEARSCERFAALAPWLDDDLQKFYLSLLRSEARHYQDYLDLAQKIAGEDISERVRQLGEAEAALILRPEAEFRFHSGVPAAA	PGPT0007220_211	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007220-miaE-K06169	NA	NA
BMS020_07376	504			hypothetical protein	ATGAATCTTGCCGCGCCACAGACCTTTACTTTACGCCGTATCGCGGTACAGGATAACGCTGCGATAGCGGCCGTCATCCGCCAGGTATCCGCAGAATATGGCCTGACCGCCGATAAAGGCTATACGGTCGCCGACCCGAATCTCGATGAGCTGTATGAGCTGTACAGCCAGCCAGGCTCGGCCTATTGGGTGGTGGAGAAAGAGGGAGAAGTGGTTGGCGGCGGCGGCGTCGCGCCGCTCGCCTGCAGCGAGCCGGATATCTGCGAGCTGCAGAAAATGTATTTCATGACCAGCGCCCGCGGCCAGGGGCTGGCGAAGAAGCTGGCGCTGCTGGCGCTGGACTACGCCCGCGAGCAGGGCTTTAAACGCTGCTATCTGGAAACCACCGCCTTCCTGACGGAGGCGATCGGCTTATATGAGCATCTTGGCTTCGAACATATTGACGGTCCGCTGGGCTGTACCGGCCACGTAGACTGCGAAGTGCGGATGTTGAAAACGCTGTAA	MNLAAPQTFTLRRIAVQDNAAIAAVIRQVSAEYGLTADKGYTVADPNLDELYELYSQPGSAYWVVEKEGEVVGGGGVAPLACSEPDICELQKMYFMTSARGQGLAKKLALLALDYAREQGFKRCYLETTAFLTEAIGLYEHLGFEHIDGPLGCTGHVDCEVRMLKTL				NA	NA	NA	NA	NA
BMS020_07377	1194	yjgN	COG4269	Inner membrane protein YjgN	ATGAGTATGATTTCAGGGCAATTGCAGCGTTCTGGCCATTCTTTTGTTTTTCATGGTCAGGTCGGGCGCTATTTTATTATTTGTCTGGTTAATATTATTTTTTCTGTAATAACTTGTGGGTTGTTTATTCCGTGGGCATGGGTACGGAGTCGCCGTTATCTTTGTGAGAATATGGAGGTTAATGGCGCCCGCTTTGCCTATCACGGGCGCGGTATCACGATTTTACTCAGCTGGCTATTGATATTTGTCGTGCTGGTTTTACTCAGCTTAGCGCTTGCCATTTTCTCTCCCGGTAGCGAAGGGCTGGAGACGCTGGCATTTCTTATCCTGCTGCCGGTAATGATAATTAAGGGGTTAAGCTACCATGCGACGATGACCTCTTTCGCGAATATTCGCTTTGGGGTTCAGTGTCATCTGCTGCGCGGATGGTGGATTATGCTCGGCTTACCTTTGCTGATATACGTGCTAACAGCGGTGGTGTTCGCCATGCTGGGAAGTCGGCTCTTTTACAATGGCCTAAATAGCATGCTGCTGGGGATCGTTGTTCTGCTTTTGCTGGCGCTAGTTATTATGGCAATAACCAGCGGTGTGGTTTACAGCCACTGGCTTGATCTCATCGGCAAAGGCGCAACCTTAGGCAAAAATAAATTTAATATTTATGTGAGTACTAAGCGTTGTGTGGTGATTTTTTTATGGGCAACGGCGATTTTGTTGCCGTTTATCATCATTTTTATTGGCTTTTTATTTTCCGCATTCGCTCAACTGCTGACGGGCTGTATGTTTGGTCTGTGCAGTGAAGGTTCGGCACTGTTTATGGCATTGCGGCATCTTGGGGCGATATTAGGGGGATATATATTCCTCACTATCGGTATCGTGTTATCCATGGCATACCTTCGTGTGGCTTTACGTAATCACGCGATGAATAACCTGGTGCTGGGGGACAGCGTTCATTTTCGTTCCACCCTGACGTTTTTCGGTCTTGCTCCGCGTTTACTGGCGTTGACGTTTCTCACGCCGCTGACGCTGGGGCTGGCCTATCCCTGGTTCAAGATTGATTTGCTACGCTATATTGCTGAAAACACGACGATGGTCGGTGAGTTCGATTCGCTCGATCTGCAGCCGGCGACACCACCGCAGCCGACGGTATCTGACAAACTATGCGGCGGTTTTTTTCCGATGCTGCCGTTCCTGTAA	MSMISGQLQRSGHSFVFHGQVGRYFIICLVNIIFSVITCGLFIPWAWVRSRRYLCENMEVNGARFAYHGRGITILLSWLLIFVVLVLLSLALAIFSPGSEGLETLAFLILLPVMIIKGLSYHATMTSFANIRFGVQCHLLRGWWIMLGLPLLIYVLTAVVFAMLGSRLFYNGLNSMLLGIVVLLLLALVIMAITSGVVYSHWLDLIGKGATLGKNKFNIYVSTKRCVVIFLWATAILLPFIIIFIGFLFSAFAQLLTGCMFGLCSEGSALFMALRHLGAILGGYIFLTIGIVLSMAYLRVALRNHAMNNLVLGDSVHFRSTLTFFGLAPRLLALTFLTPLTLGLAYPWFKIDLLRYIAENTTMVGEFDSLDLQPATPPQPTVSDKLCGGFFPMLPFL				NA	NA	NA	NA	NA
BMS020_07378	2856	valS_2	COG0525	Valine--tRNA ligase	ATGGAAAAGACATACAACCCACAAGATATCGAACAGCCGCTTTACGAGCACTGGGAAAAGCAGGGCTATTTCAAACCGAATGGTGATGAAAGCCAGGAGAGCTTCTGCATCATGATCCCGCCGCCGAACGTCACCGGCAGTTTGCATATGGGTCATGCCTTCCAGCAAACCATCATGGATACCATGATTCGCTACCAGCGCATGCAGGGCAAAAACACCCTGTGGCAGGCGGGGACCGACCACGCGGGTATCGCTACCCAGATGGTGGTTGAGCGTAAGATTGCCGCTGAAGAAGGGAAAACCCGTCACGACTACGGCCGCGACGCCTTTATCGACAAAATCTGGCAGTGGAAAGCGGAATCCGGCGGCACCATTACCCGTCAGATGCGCCGTCTCGGCAACTCCGTTGACTGGGAGCGCGAGCGCTTCACCATGGACGAAGGCCTTTCCAATGCCGTGAAAGAAGTCTTCGTTCGCCTGTACAAGGAAGACCTGATCTACCGCGGCAAACGCCTGGTTAACTGGGACCCGAAACTGCGTACCGCCATCTCCGATCTGGAAGTGGAAAACCGCGAGTCTAAAGGCTCCATGTGGCATATCCGCTATCCGCTGGCCGATGGCGCGAAAACCGCTGACGGTAAAGACTACCTGGTGGTCGCCACCACCCGTCCGGAAACCCTGCTGGGCGATACCGGCGTGGCCGTTAACCCGGAAGATCCGCGTTACAAAGATCTGATTGGCAAATTCGTGGTGCTGCCGCTGGTTAACCGCCGCATCCCGATCGTGGGCGACGAACACGCCGACATGGAGAAAGGCACCGGCTGCGTGAAGATCACCCCGGCGCACGACTTTAACGACTACGAAGTGGGTCGTCGTCACCAGCTGCCGATGATCAACATCCTGACCTTTGACGGCGACATCCGCGAAAGCGCGGAAGTGTACGACACCAAAGGCAATGAATCCGACGTCTACTCCAGCGAGATCCCGGCGGAGTTCCAGAAACTGGAACGCTTCGCGGCGCGTAAAGCCGTCGTTGCGGCGGTTGACGCCCTCGGCCTGCTGGAAGAGATCAAACCGCACGACCTGACCGTGCCTTACGGCGACCGCGGCGGTGTGGTTATTGAACCGATGCTGACCGACCAGTGGTACGTGCGCGCGGACGTGCTGGCCAAGCCGGCGGTGGAAGCCGTTGAAAACGGCGACATTCAGTTCGTGCCGAAGCAGTACGAAAACATGTACTTCTCCTGGATGCGCGACATTCAGGACTGGTGTATCTCCCGTCAGCTGTGGTGGGGTCACCGCATCCCGGCATGGTACGACAACGACGGCAACGTTTACGTGGGCCGCACCGAAGACGAAGTACGCCAGGAAAATAACCTCGGCGCCGACGTGGCGCTGCGCCAGGACGAAGACGTGCTGGATACCTGGTTCTCCTCCGCGCTGTGGACCTTCTCCACTCTCGGCTGGCCGGAAAACACCGACGCCCTGCGTCAGTTCCACCCGACCAGCGTGATGGTCTCCGGCTTCGACATCATCTTCTTCTGGATCGCCCGCATGATCATGATGACCATGCACTTCATCAAAGATGAAAACGGTAAACCGCAGGTGCCGTTTAAGACCGTCTACATGACCGGTCTGATCCGCGATGACGAAGGCCAGAAGATGTCCAAATCCAAGGGTAACGTTATCGACCCGCTGGATATGGTTGACGGCATCACCCTGCCGGAGCTGCTGGAGAAACGTACCGGCAACATGATGCAGCCGCAGCTGGCGGAGAAAATCCGTAAGCGCACCGAGAAACAGTTCCCGAACGGCATCGAGCCGCACGGCACCGACGCCCTGCGCTTCACCCTGGCGGCGCTGGCCTCTACCGGCCGCGACATCAACTGGGATATGAAGCGTCTGGAAGGTTACCGTAACTTCTGTAACAAGCTATGGAACGCCAGCCGCTTCGTGCTGATGAACACCGAAGATCAGGATTGCGGCTTTAACGGCGGCGAGAGGGTACTCTCCCTGGCCGACCGCTGGATCCTCGCGGAATTCAACCACACCGTCAAAGCGTATCGCGAAGCGCTGGATAACTTCCGCTTCGATATCGCCGCCGGCATCCTGTACGAGTTCACCTGGAACCAGTTCTGCGACTGGTACCTGGAACTGACCAAGCCGGTGATGAACGGCGGCAGCGAAGCGGAACTGCGCGGCACTCGCCATACGCTGGTGACCGTGCTGGAAGGTCTGCTGCGCCTGGCGCATCCGATCATTCCGTTCATCACCGAGACCATCTGGCAGCGCGTGAAGGTCATCTGCGGGATCACCGCCGACACCATCATGCTGCAGCCGTTCCCGCAGTATGATGCCTCTCAGGTGGATGACGCGGCGCTGGCCGACACCGAATGGCTGAAGCAGGCGATCGTCGCCGTACGTAACATCCGTGCGGAAATGAACATCGCCCCGGGCAAACCGCTGGAACTGCTGCTGCGCGGCTGCAGCAAAGAGGCCGAGCGTCGCGTGAACGACAACCGCAGCTTCCTGCTGAATCTGGCGCGTCTGGAAAGCATTACCGTGCTGCCTGCCGATGATAAAGGTCCGGTCTCCGTGACCAAGATCGTCGACGGCGCCGAGCTGCTGATCCCAATGGCGGGCCTCATCAACAAAGAAGATGAGCTGGCGCGTCTGGCGAAAGAAGTGGCCAAAATCGAAGGCGAAATTGGCCGCATCGAAAGCAAGCTGGCTAACGAAGGCTTTGTCGCCCGCGCGCCGGAAGCGGTGATCGCCAAAGAGCGCGAGAAGCTGGAAGGCTACGCGGAAGCGAAAGCGAAGCTGATTGAGCAGCAGGCGGTGATCGCCGCGCTGTAA	MEKTYNPQDIEQPLYEHWEKQGYFKPNGDESQESFCIMIPPPNVTGSLHMGHAFQQTIMDTMIRYQRMQGKNTLWQAGTDHAGIATQMVVERKIAAEEGKTRHDYGRDAFIDKIWQWKAESGGTITRQMRRLGNSVDWERERFTMDEGLSNAVKEVFVRLYKEDLIYRGKRLVNWDPKLRTAISDLEVENRESKGSMWHIRYPLADGAKTADGKDYLVVATTRPETLLGDTGVAVNPEDPRYKDLIGKFVVLPLVNRRIPIVGDEHADMEKGTGCVKITPAHDFNDYEVGRRHQLPMINILTFDGDIRESAEVYDTKGNESDVYSSEIPAEFQKLERFAARKAVVAAVDALGLLEEIKPHDLTVPYGDRGGVVIEPMLTDQWYVRADVLAKPAVEAVENGDIQFVPKQYENMYFSWMRDIQDWCISRQLWWGHRIPAWYDNDGNVYVGRTEDEVRQENNLGADVALRQDEDVLDTWFSSALWTFSTLGWPENTDALRQFHPTSVMVSGFDIIFFWIARMIMMTMHFIKDENGKPQVPFKTVYMTGLIRDDEGQKMSKSKGNVIDPLDMVDGITLPELLEKRTGNMMQPQLAEKIRKRTEKQFPNGIEPHGTDALRFTLAALASTGRDINWDMKRLEGYRNFCNKLWNASRFVLMNTEDQDCGFNGGERVLSLADRWILAEFNHTVKAYREALDNFRFDIAAGILYEFTWNQFCDWYLELTKPVMNGGSEAELRGTRHTLVTVLEGLLRLAHPIIPFITETIWQRVKVICGITADTIMLQPFPQYDASQVDDAALADTEWLKQAIVAVRNIRAEMNIAPGKPLELLLRGCSKEAERRVNDNRSFLLNLARLESITVLPADDKGPVSVTKIVDGAELLIPMAGLINKEDELARLAKEVAKIEGEIGRIESKLANEGFVARAPEAVIAKEREKLEGYAEAKAKLIEQQAVIAAL				NA	NA	NA	NA	NA
BMS020_07379	444	holC_2	COG2927	DNA polymerase III subunit chi	ATGAAAAACGCAACGTTCTATCTTCTGGACAACGAAGACACCGTCGAAGGCCTGAGCGCCGTCGAGCAGCTGGTGTGTGACATTGCCGCAGAACGTTGGCGCAACGGCAAGCGCGTCCTGATCGCCTGTGAAGATGAGCAGCAGGCGATTCGTCTCGATGAGGCGCTGTGGTCGCGACCACCGGAGAGCTTTGTGCCGCACAATCTGGCGGGCGAAGGCCCGCGAGGCGGCGCGCCGGTAGAGATTGCCTGGCCGCAAAAGCGCAACAGCAGCCCGCGGGATATTCTTATCAGCCTGCGGCTTAACTTTGCAGATTTTGCCACCGCTTTCACAGAAGTGATAGACTTTGTCCCTTACGAAGAAAATCTGAAACAACTGGCGCGCGAACGCTATAAGGCGTACCGCATGGCTGGTTTCAACCTGAACACGGCAACCTGGAAATAA	MKNATFYLLDNEDTVEGLSAVEQLVCDIAAERWRNGKRVLIACEDEQQAIRLDEALWSRPPESFVPHNLAGEGPRGGAPVEIAWPQKRNSSPRDILISLRLNFADFATAFTEVIDFVPYEENLKQLARERYKAYRMAGFNLNTATWK				NA	NA	NA	NA	NA
BMS020_07380	1512	pepA_3	COG0260	Cytosol aminopeptidase	ATGGAGTTCAGTGTAAAAAGCGGTAGCCCGGAGAAGCAGCGGAGCGCCTGTATCGTGGTCGGCGTCTTTGAACCACGTCGCCTCTCCCCCATCGCCGAACAACTCGATAAAATCAGCGACGGCTACATCAGCGCCCTGCTGCGTCGCGGCGAGCTGGAAGGCAAACCTGGCCAGACGTTATTGCTGCACCATGTGCCGAACATTCTGTCTGAGCGCATTCTGCTGATTGGCTGCGGCAAAGAGCGCGAACTGGATGAGCGTCAGTACAAGCAGGTCATCCAGAAAACCATCAATACCCTGAATGATACCGGTTCAATGGAGGCAGTCTGCTTCCTGACCGAGCTGCACGTCAAGGGTCGTAACAACTACTGGAAAGTTCGCCAGGCGGTGGAAACCGCCAAAGAGACGCTGTACAGCTTCGATCAGCTGAAGACCAACAAAAGCGAGCCGCGTCGCCCGCTGCGTAAAATGGTCTTTAACGTGCCGACCCGTCGCGAGCTGACCAGCGGCGAACGCGCCATTCAGCACGGGCTGGCGATCGCCGCCGGCATCAAAGCGGCGAAAGATCTCGGCAACATGCCGCCGAACATCTGTAACGCCGCCTATCTGGCCTCCCAGGCGCGCCAGCTGGCCGATACCTATAGCAAAAACGTTATCACCCGGGTGATCGGCGAACAGCAGATGCGCGAGCTGGGAATGAACGCCTACCTCGCCGTCGGCAACGGTTCGCAGAACGAGTCGCTGATGTCGGTCATCGAGTATAAAGGCAACCCGTCGGAAGACGCGCGCCCTATCGTGCTGGTCGGTAAAGGCCTGACCTTCGATTCCGGCGGTATCTCCATCAAGCCGGCCGAAGGCATGGACGAGATGAAGTACGACATGTGCGGCGCCGCGGCGGTGTACGGCGTGATGCGGATGGTTGCTGAGCTGCAGCTGCCGCTGAACGTGATCGGCGTGCTGGCGGGCTGTGAAAACATGCCTGGCGGTCGCGCTTATCGCCCGGGCGATGTTCTGACCACCATGTCCGGCCAGACGGTGGAAGTGCTCAACACTGACGCCGAAGGCCGCCTGGTGCTGTGCGACGTGCTGACCTACGTTGAGCGCTTCGAGCCGGAAGCGGTTATCGATGTCGCGACGCTGACCGGCGCCTGCGTGATTGCCCTCGGCCATCACATCACCGGCCTGATGTCGAACCATAACCCGCTGGCCCATGAGCTGATCGGCGCCTCTGAACTGGCGGGCGACCGCGCATGGCGTCTGCCGCTGGCCGACGAGTTCCAGGATCAGCTGGAATCCAACTTTGCCGATATGGCGAATATCGGCGGCCGTCCTGGCGGCGCGATCACCGCCGGCTGCTTCCTGTCGCGCTTCACCCGCAAGTACAACTGGGCGCACCTCGACATCGCCGGCACCGCCTGGCGCTCCGGTAAGGCCAAAGGCGCCACCGGTCGTCCGGTCGCGCTGCTGTCGCAGTTCCTGCTCAATCGCGCGGGTTTTAACGGCGAAGAGTGA	MEFSVKSGSPEKQRSACIVVGVFEPRRLSPIAEQLDKISDGYISALLRRGELEGKPGQTLLLHHVPNILSERILLIGCGKERELDERQYKQVIQKTINTLNDTGSMEAVCFLTELHVKGRNNYWKVRQAVETAKETLYSFDQLKTNKSEPRRPLRKMVFNVPTRRELTSGERAIQHGLAIAAGIKAAKDLGNMPPNICNAAYLASQARQLADTYSKNVITRVIGEQQMRELGMNAYLAVGNGSQNESLMSVIEYKGNPSEDARPIVLVGKGLTFDSGGISIKPAEGMDEMKYDMCGAAAVYGVMRMVAELQLPLNVIGVLAGCENMPGGRAYRPGDVLTTMSGQTVEVLNTDAEGRLVLCDVLTYVERFEPEAVIDVATLTGACVIALGHHITGLMSNHNPLAHELIGASELAGDRAWRLPLADEFQDQLESNFADMANIGGRPGGAITAGCFLSRFTRKYNWAHLDIAGTAWRSGKAKGATGRPVALLSQFLLNRAGFNGEE				NA	NA	NA	NA	NA
BMS020_07382	1098	lptF_2	COG0795	Lipopolysaccharide export system permease protein LptF	GTGATAATCATAAGATATCTGGTTCGTGAGACGCTGAAAAGCCAGTTGGCGATCCTATTCATCCTGTTACTGATTTTCTTTTGCCAGAAATTAGTCAGGATCCTCGGCGCTGCGGTGGATGGCGATATCCCAACCAATCTGGTGCTCTCGCTGCTGGGGCTCGGCATCCCGGAGATGGCGCAGCTTATCCTGCCGTTAAGTCTGTTCCTTGGCCTGCTGATGACCCTCGGCAAGCTGTACACCGAAAGCGAAATTACGGTGATGCACGCCTGCGGCCTGAGTAAAGCCGTATTGATCAAGGCGGCGATGATCCTCGCGCTGTTCACCGGCGCGGTGGCGGCGGTCAACGTGATGTGGGCAGGGCCGTGGTCGTCGCGCCATCAGGATGAAGTGCTGGCGGAAGCCAAGGCCAACCCCGGCATGGCCGCGCTGGCCCAGGGCCAGTTCCAGCAGGCCAGCGATGGTAACGCGGTCATGTTTATCGAGAGCGTGAACGGCAACCGCTTCCATGACGTCTTCCTTGCCCAGCTGCGCCCGAAAGGCAACGCGCGCCCCTCCGTGGTGGTGGCGGATTCCGGCGAGCTGTCGCAGCAGAAAGACGGTTCGCAGGTGGTGACCCTCAACAAGGGCACCCGCTTTGAAGGCACTGCGATGCTGCGCGACTTCCGCATCACCGACTTCAATAACTATCAGGCCATTATCGGCCACCAGGCGGTGGCCGCCGATCCGGACGACACCGAACAGATGGATATGCGCACCCTGTGGCAGACCCACACCGATCGTGCGCGCGCCGAACTGCACTGGCGCTTCACGCTGGTGGCAACGGTCTTCATTATGGCGCTGATGGTGGTGCCGCTCAGCGTGGTCAACCCGCGCCAGGGCCGCGTGCTGTCGATGCTGCCGGCGATGCTGCTCTACCTGGTGTTCTTCCTGCTGCAGACCTCGATTAAGTCGAACGGCGGCAAAGGCAAAATGGACCCGGCTATCTGGATGTGGGCGATTAACCTGCTCTATTTTGCGCTGGCGGTGCTGTTAAACCTGTGGGACACGGTGCCGATGCGCCGATTCCGCGCCCGTTTTAATAAAGGAGCGGCCTGA	MIIIRYLVRETLKSQLAILFILLLIFFCQKLVRILGAAVDGDIPTNLVLSLLGLGIPEMAQLILPLSLFLGLLMTLGKLYTESEITVMHACGLSKAVLIKAAMILALFTGAVAAVNVMWAGPWSSRHQDEVLAEAKANPGMAALAQGQFQQASDGNAVMFIESVNGNRFHDVFLAQLRPKGNARPSVVVADSGELSQQKDGSQVVTLNKGTRFEGTAMLRDFRITDFNNYQAIIGHQAVAADPDDTEQMDMRTLWQTHTDRARAELHWRFTLVATVFIMALMVVPLSVVNPRQGRVLSMLPAMLLYLVFFLLQTSIKSNGGKGKMDPAIWMWAINLLYFALAVLLNLWDTVPMRRFRARFNKGAA	PGPT0023290_2184	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023290-lptF-K07091	NA	NA
BMS020_07383	1083	lptG_2	COG0795	Lipopolysaccharide export system permease protein LptG	ATGCAGGCGTTTGGCGTACTTGACCGTTATATCGGTAAGACGATTTTCAACACCATCATGATGACCCTGTTCATGCTGGTGTCGCTCTCCGGCATTATCAAGTTTGTCGATCAGCTGAAAAAGTCCGGGCAGGGTAGTTACGATGCGCTGGGCGCTGGCCTCTACACCATCCTCAGCGTGCCGAAAGACATCCAGATCTTCTTCCCGATGGCGGCGCTGCTTGGCGCGCTGCTGGGGCTGGGGATGCTGGCCCAGCGCAGCGAGCTGGTGGTGATGCAGGCGTCCGGTTTCACCCGGCTGCAGGTGGCGCTGGCGGTGATGAAAACCGCGATCCCGCTGGTGCTGTTGACCATGGCGATCGGCGAGTGGGTGGCGCCGCAGGGCGAACAGATGGCGCGCAACTACCGCGCCCAGCAGATGTACGGCGGTTCGCTGCTTTCCACCCAGCAGGGACTGTGGGCGAAAGATGGCCATAACTTTGTCTATATCGAACGGGTAAAAGGTAACGATGAGCTGGGGGGCGTCAGCATTTATGCCTTCAACCCGGAGCGTCGTTTACAGTCGGTGCGCTATGCCGCCTCGGCAAAATTCGATAGCGAGAATAAAGTGTGGCGCCTGTCGCAGGTGGATGAATCCGATCTGACCGATCCGAAGCAGGTGACCGGGTCGCAGATGGTGAGCGGCACCTGGAAAACCAACCTGACGCCGGACAAGCTCGGCGTGGTAGCCCTGGATCCGGACGCGCTGTCGATCAGCGGGCTGCACAACTATGTGAAATACCTGAAGTCCAGCGGCCAGGATCCGGGACGCTACCAGCTCAATATGTGGAGCAAAATCTTCCAGCCGCTGTCGGTGGCGGTGATGATGCTGATGGCGCTGTCGTTTATCTTTGGCCCGCTGCGTAGCGTGCCGATGGGCGTCAGGGTGGTGACCGGGATTAGCTTCGGCTTTATCTTCTACGTGCTGGATCAGATTTTCGGCCCACTGACCCTGGTGTACGGCATACCGCCGATCATCGGCGCCCTGTTGCCAAGCGCCAGCTTCTTCCTGATAAGCCTCTGGCTGATGATGCGCAAGGCCTAG	MQAFGVLDRYIGKTIFNTIMMTLFMLVSLSGIIKFVDQLKKSGQGSYDALGAGLYTILSVPKDIQIFFPMAALLGALLGLGMLAQRSELVVMQASGFTRLQVALAVMKTAIPLVLLTMAIGEWVAPQGEQMARNYRAQQMYGGSLLSTQQGLWAKDGHNFVYIERVKGNDELGGVSIYAFNPERRLQSVRYAASAKFDSENKVWRLSQVDESDLTDPKQVTGSQMVSGTWKTNLTPDKLGVVALDPDALSISGLHNYVKYLKSSGQDPGRYQLNMWSKIFQPLSVAVMMLMALSFIFGPLRSVPMGVRVVTGISFGFIFYVLDQIFGPLTLVYGIPPIIGALLPSASFFLISLWLMMRKA	PGPT0023295_1755	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023295-lptG-K11720	NA	NA
BMS020_07384	1503			hypothetical protein	ATGAGCTCACCCCTGTTGATTGCGCGCACGCTGGATAACGCGCTCTATTTGTTGCCCGCGATGGCCAACCGCCATGGGCTGATCACCGGTGCGACCGGCACCGGTAAAACCGTCACCCTGCAAAAGCTGGCTGAGTCGTTCTCGGAAATTGGCGTGCCGGTATTTATGGCGGACGTCAAGGGCGACCTGACCGGCATTGCCGCCGCGGGGCAGAGCTCAGAGAAACTGCAGGCGCGGCTGGAGAAGATCGGCGTCAGCGACTGGGAGCCGCACGCCAACCCGGTGGTACTCTGGGATATCTTTGGCGAGAAGGGCCACCCGGTTCGGGCGACGGTCTCCGATCTTGGCCCCCTGCTGCTGGCGCGCCTGCTCAATCTCAATGAGGTGCAGAGCGGCGTGCTGAACATTATTTTCCGCATCGCGGACGACCGCGGTCTGCTGCTGCTCGACTTCAAAGACCTCCGCGCCATCACCCAGTTTATCGGCGACAACGCCAAATCTTTCCAGAACCAGTATGGCAATATCAGCAGCGCCTCGGTCGGCGCCATCCAGCGCGGACTGTTGACCCTGGAGCAACAGGGCGCCGGGCACTTCTTCGGCGAGCCGATGCTGGATATTGCCGACTGGATGCGCGTCGATGCCAGCGGCAAAGGGATAATCAATATCCTCAGCGCCGAAAAGCTCTACCAGATGCCGAAGCTCTACGCCGCCAGCCTGCTGTGGATGCTCTCCGAGCTGTACGAGCGTCTGCCGGAGGCGGGCGATCTCGACAAGCCCAAACTGGTGTTCTTCTTCGATGAGGCGCATCTGCTGTTCAACGACGCGCCGCAGGTGCTGCTGGATAAAATCGAACAGGTGATCCGTCTTATTCGCTCCAAGGGCGTCGGCGTCTATTTTGTCTCGCAGAACCCGGCGGATATACCCGACGCCGTGCTCGGCCAGCTGGGCAACCGCGTACAGCACGCGCTGCGCGCCTTTACGCCGAAGGATCAGAAAGCGGTGAAAACCGCCGCCCAGACCATGCGCGCCAACCCGGCCTTCAGTACCGAGCAGGCGATCCAGGAGCTGGGCACCGGCGAGGCGCTGATCTCCTTCCTCGATGAGAAAGGCAGCCCCTCGGTGGTCGAGCGGGCGATGGTTATCGCCCCCTGCTCGCGAATGGGGCCGGTCAGCGATGATGAGCGCAATGGCCTGCTGAATCACTCGCCGCTGTACGGCAAGTATGAAGAAGAGGTGGACCGCGAGTCGGCCTTCGAAATGCTGCAGCAAGGGGTGCAGGTCACTACCGAGCAGCAGTCGGCTCCGCCGGCGAAGGGTCAGCAGAGCGGGGAAGACGATGGGCTGCTCGGCGGCCTGAAAGATATCCTGTTCGGCAGCACCGGTCCGCGCGGCGGCAAACGCGACGGTATCGTGCAGACCGCGGCGAAAAGCGCGGTTCGCCAGGTCACCAATCAGATCGTCCGCGGCATGCTGGGCAGTCTGCTGGGCGGCCGCAAGCGCTAA	MSSPLLIARTLDNALYLLPAMANRHGLITGATGTGKTVTLQKLAESFSEIGVPVFMADVKGDLTGIAAAGQSSEKLQARLEKIGVSDWEPHANPVVLWDIFGEKGHPVRATVSDLGPLLLARLLNLNEVQSGVLNIIFRIADDRGLLLLDFKDLRAITQFIGDNAKSFQNQYGNISSASVGAIQRGLLTLEQQGAGHFFGEPMLDIADWMRVDASGKGIINILSAEKLYQMPKLYAASLLWMLSELYERLPEAGDLDKPKLVFFFDEAHLLFNDAPQVLLDKIEQVIRLIRSKGVGVYFVSQNPADIPDAVLGQLGNRVQHALRAFTPKDQKAVKTAAQTMRANPAFSTEQAIQELGTGEALISFLDEKGSPSVVERAMVIAPCSRMGPVSDDERNGLLNHSPLYGKYEEEVDRESAFEMLQQGVQVTTEQQSAPPAKGQQSGEDDGLLGGLKDILFGSTGPRGGKRDGIVQTAAKSAVRQVTNQIVRGMLGSLLGGRKR				NA	NA	NA	NA	NA
BMS020_07385	822			hypothetical protein	ATGGCCATCGCAATGCAACGTTTTTGTATTAACCGCAAAATCGCGCCAGCGCTCAGCATTGAAGCGTTTTTCCGTCTGGTGAACCGTCTGGGCCTGAATAAAGTCGAGCTGCGCAACGATTTACCCAGCGGGAAAGTGACCGACGATCTGAGCCATCAGCAGGTACGCGAGCTGGCGGCGCGTTACCACATCGAGATCCTGACGATTAACGCGGTCTATCCCTTTAACCGCCGTAGCGAAGAGGTGCGGCAGCTGACCGAGTCGCTGCTGAAAGAGGCCCAGGCCATCGGCGCCAAATCGCTGGTGCTCTGCCCGCTCAACGACGGCAGCGAGGTGCCGGCCAGCGACACTCTGAGCGCCCTGCGCGACCTGGCGCCGCTGTTCGCCTTCTACGGCATCCACGGCCTGGTGGAGCCGCTGGGCTTTCCGCAAAGCTCGCTGCGATCTGCGCACCAAGCGCAGACGCTGATCCATGACGCCCGCGTGCCGTTTAAGCTGCTGATCGACACCTTCCATCACCATCTCTACCCGCAGGCGGCGGACGAGTTCAGCCAGGTGGAGGTGGCGGATATCGGTCTGGTGCACCTCTCCGGGGTGGACGATACCCGTCCGCGCGAGCAGCTCACCGATGCCGAGCGCATCATGCTGACGCCGCAGGATCGCCTCGGCACCTGCGAGCAGGTTAAAGCGCTGGAAGCCCGCGGCTATCAGGGGGTATACGCTTTTGAACCCTTCGCTCCCGAGCTGGCGCAGTGGAGCGAAGCGGATATCGAGCGCGAAATTGAGCAGAGCATTGCGCTTATCCAACGCCACTGCGCCTGA	MAIAMQRFCINRKIAPALSIEAFFRLVNRLGLNKVELRNDLPSGKVTDDLSHQQVRELAARYHIEILTINAVYPFNRRSEEVRQLTESLLKEAQAIGAKSLVLCPLNDGSEVPASDTLSALRDLAPLFAFYGIHGLVEPLGFPQSSLRSAHQAQTLIHDARVPFKLLIDTFHHHLYPQAADEFSQVEVADIGLVHLSGVDDTRPREQLTDAERIMLTPQDRLGTCEQVKALEARGYQGVYAFEPFAPELAQWSEADIEREIEQSIALIQRHCA	PGPT0018495_325	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
BMS020_07386	1506	bauC	COG1012	Putative 3-oxopropanoate dehydrogenase	ATGACGATCACAGGAAACTTTATTGGCGGGAAAACCGTTATCAGCAGCAGCAACGAAACGATGCCGGTGTACGATCCGGCGACGGGCAAAGCGGTGCGCGAAGTCACGGTATCGACCGCGCAGGAAGTCTCTGAGGCGATTCAGGTTGCTCGCGATGCGTTTGACAGCTGGTCTCGCACCACGCCGCTGCGCCGCGCCCGCGTGCTGTTCAACTTTAAAATGTTGCTGGAACAGCACGTGGAAGAGCTGGCGGGGATCATCGTCAGCGAGCACGGCAAAGTGTGGTCGGATGCGCTGGGCGAGCTGACCCGCGGCATGGAAGTGGTCGAATTCGCCTGCGGGATCCCGCACCTGATTAAAGGCGAATACTCCTCTGACGTCGGCACCGGCGTCGACAGCTACTCGTTGATGCAGCCGCTGGGCGTGGTGGCCGGGATCACCCCGTTCAACTTCCCGGCGATGGTGCCGATGTGGATGTTCCCGCTGGCGCTGGCCTGCGGCAACAGCTTCGTCCTCAAGCCGCCGGCGCTGGCGCCGACGGCCGCCGTGCGTCTGGCAGAGCTGCTGAAAGAGGCCGGTCTGCCGGACGGCGTGTTTAACGTCGTGCACTGCAGCAATGAAGATGCCGAGCAGCTGTACACTGACCCGCGCATTGCGGCGGTGAGCTTCGTCGGCTCCTCCGGCGTGGCGGAGTATATCTATAAGACCGCCAGCGCCCACGGCAAGCGCGTGCAGGCCTTCGGCGCCGCCAAAAACCACGCGATAGTGATGCCGGATGCCGATCTCGACGCCACCGTTAACGCCATTATGGGCGGCGCCTTCGGTTCCGCAGGCGAGCGCTGCATGGCGCTGCCGGTGGTGGTGGCGGTGGGAGATGAAACCGCCGACAAACTGATCGCTCGCCTGAAGCCGCTGGTGGAAGCGCTGAAAGTGGGCCCGGGCTGCATGCGCGGCCAGGAAGAGAACGAGATGGGGCCGGTGGTGTCTGATACTCACCAGAAAAAAGTGCTCGGCTATATTGATAAAGGCGAAAGCGAAGGGGCAAAACTGGTGGTCGATGGCCGCAAACTGCGCGTGCCGGGCTACGACGCGGGCTATTATATCGGCGGCACCCTGTTCGATCACGTCACCCCGGAGATGACCATCTGGCGCGAAGAGATCTTTGGCCCGGTGCTGGGGATTGTGCGCGCGGCGGACTATGACAGCGCCCTCGAACTGGTCAACAGCCACGAGTTTGGCAACGGCAGCGCCGTCTTCACCAGCAACGGCCACACCGCGCGTGAATTCGTCCACGACGTGCAGGCGGGGATGGTCGGGGTGAACGTGCCGGTCCCGGTGCCGATGGCGTTCCACAGCTTCGGCGGCTGGAAGCGCTCAGTGTTTGGCGCGCTGAACGTCCACGGGCCGGACGGCGTGCGCTTCTACACGCGCATGAAGACCGCCACCGTACGCTGGCCGGCAGGGCAGCAGACCGTATCTGAATTCAGCATGCCGACGTTAGGTTAA	MTITGNFIGGKTVISSSNETMPVYDPATGKAVREVTVSTAQEVSEAIQVARDAFDSWSRTTPLRRARVLFNFKMLLEQHVEELAGIIVSEHGKVWSDALGELTRGMEVVEFACGIPHLIKGEYSSDVGTGVDSYSLMQPLGVVAGITPFNFPAMVPMWMFPLALACGNSFVLKPPALAPTAAVRLAELLKEAGLPDGVFNVVHCSNEDAEQLYTDPRIAAVSFVGSSGVAEYIYKTASAHGKRVQAFGAAKNHAIVMPDADLDATVNAIMGGAFGSAGERCMALPVVVAVGDETADKLIARLKPLVEALKVGPGCMRGQEENEMGPVVSDTHQKKVLGYIDKGESEGAKLVVDGRKLRVPGYDAGYYIGGTLFDHVTPEMTIWREEIFGPVLGIVRAADYDSALELVNSHEFGNGSAVFTSNGHTAREFVHDVQAGMVGVNVPVPVPMAFHSFGGWKRSVFGALNVHGPDGVRFYTRMKTATVRWPAGQQTVSEFSMPTLG	PGPT0002295_1814	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
BMS020_07387	810	iolB	COG3718	5-deoxy-glucuronate isomerase	ATGTCGTTACTGGCTAAATCGCGAAAAGAGGGACAGATCCAGCACATTACGCCGCAAAGCGCCGGTTGGCGCTATATCGGCTTTGATGTCTGGATGTTGAAAAAAGGGCAGACCGTGACGCTGGAGAGCGGCGATCGCGAGCTGTGCCTGGTGCTGGTCGCTGGCCTGGCGTCGGTGAAAACGCAGCAGGCCGATTTCCCGAATCTCGGTAAACGGATGTCGCCGTTTGAACGTACCCCGCCGTGGTCGGTATACGTGCCGCCGCAGGATCGGGTCGAGGTGACCGCCGATTCCGATCTGGAGCTGGCGGTGTGCAGCGCGCCGGGCAAAGGCAGCTTCCCGGCACGCCTGATTCGGCCGGAAGACGTCGGCGTGGAGCACCGCGGGAAAGGGCGCAACCAGCGCCGGGTGCATAATATTCTGCCGGACAGCGCCGAGGCGGATTGCCTGCTGGTGGTCGAGGTCTACACCGACGAAGGGGCCACCAGCTCGTGGCCGTCGCATAAGCACGATACCGCCCAGCCGGGCAAAGAGACGCAGCTGGAAGAGACCTACTATCACCGCTTCGATCCGCCGCAGGGCTTTGCCTTCCAGCGGGTCTACACCGACGACCGCAGCCTGGACGCCTGCATGGCGCCCTATAACCACGATGTGGTGATGGTGCCGCGCGGTTACCATCCGGTGGCGGCGATTGCCGGTTACGACAGCTACTATCTGAACGTCATGGCCGGGCCGGATCGGAAATGGCTGTTCACCTGGGAAGAGGACCACGCCTGGATCAACACCCCGGAATATCCGCGCCACGACTAA	MSLLAKSRKEGQIQHITPQSAGWRYIGFDVWMLKKGQTVTLESGDRELCLVLVAGLASVKTQQADFPNLGKRMSPFERTPPWSVYVPPQDRVEVTADSDLELAVCSAPGKGSFPARLIRPEDVGVEHRGKGRNQRRVHNILPDSAEADCLLVVEVYTDEGATSSWPSHKHDTAQPGKETQLEETYYHRFDPPQGFAFQRVYTDDRSLDACMAPYNHDVVMVPRGYHPVAAIAGYDSYYLNVMAGPDRKWLFTWEEDHAWINTPEYPRHD	PGPT0018475_818	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
BMS020_07388	822			hypothetical protein	ATGCTAACCGGCCTTCTTGTCTATGGGCTGCGGGTGTTTTTTCGCGAAAGGCTCCGCGGAATCCCACTCCCAGGCCCGGCAAGCGCAGCGTCGCCGGGCAGTCAGGCACCGTACCCGTGGCTGTGCCGGATGGCGCTACGCTTATCCGGCCTACGGGGTCCTCTCACAGGCTCATACCTCCCAGGCCCGGCAAGCGCAGCGCCGCCGGGCAGGACATCGCAAACACCGTCGCTGTATTTATGCAGGATGGCGCCACGCTTATTCGGCCTACGGGGTCCTCTCACAGGCTCATACCTCGTAGGCCCGGCAAGCGCAGCGCCGCCGGGCAGGACACCGCAAACACCGTCGCCGTTTTTATGCAGGATGGCGCTACGCTTATCCGGCCTACGGGGTCCTCTCACAGGCTCATACCTCGTAGGCCCGGTAAGCGCAGCGCCACCGGGCAAGATATCAGGCTCGATACCCGTCATGTTGCCGGGTGGCGGCTGGCGCCTTACCCGGCCTACGTTCGTACGACCTGTCGTTAATTTATTCACCATTGTTGCTGAAACTGCCGGTGCTGACGGCCTCAAAATCGCTGAGACGTTCCCGGAAGGCCGGGGCAGCCCGCATGGATGCGGGCTGAGGGCCGTGTTTTGCACGGACGCTGCCTCGGCCCGACCCGAAGCCTGCAGGGATAAGTCGAAGGTACCGCGTAGCGGCGATTTTGCTGGCCGGAGCCCGGGGGTACAGGGGGCGGCGGCGACTGGCCGCCCCCTGTGCGCTCCCTGCGCCATGCCAGGCATAACGCAGACGATTAACCGGGAGCGCAAATTTCACTGA	MLTGLLVYGLRVFFRERLRGIPLPGPASAASPGSQAPYPWLCRMALRLSGLRGPLTGSYLPGPASAAPPGRTSQTPSLYLCRMAPRLFGLRGPLTGSYLVGPASAAPPGRTPQTPSPFLCRMALRLSGLRGPLTGSYLVGPVSAAPPGKISGSIPVMLPGGGWRLTRPTFVRPVVNLFTIVAETAGADGLKIAETFPEGRGSPHGCGLRAVFCTDAASARPEACRDKSKVPRSGDFAGRSPGVQGAAATGRPLCAPCAMPGITQTINRERKFH				NA	NA	NA	NA	NA
BMS020_07389	858	hexR_4	COG1737	HTH-type transcriptional regulator HexR	ATGGCCAATAACCCAACACAGCTGACCATCCTGCAGGATGAAATCAGGCGTCGCTACGATACGTTAAGCAAACGTCTGAAACAGGTCGCCCGCTATATCCTTGATAACAGCAATAGCGTGGCTTTCGATACCGTGGCCTCCATTGCGCAACAGGCGGACGTTCCCCCTTCCACGTTGATTCGTTTTGCCAACGCCTTCGGCTTCAGCGGCTTTAACGAAATGAAACAGATGTTCAAGCAGCATTTGATGGAAGAGACCGCCAACTATACCGAGCGCGCCCGTCTGTTCCGCCAGACCACCAGCGATGAGTCCAGCCCGCCGGAAACGCCGACGGAAATCCTCAATATGTTCACAATGGTGAACAACCAGGCGCTGCAGCAGCTGGCGATGCAGACCTCCAGCGATGAGCTGGAGCGCGCAGTGGCCCTGTTGGGCGAGGCGGAAAATATCTACGTCATTGGCCTGCGCCGGTCGTTCAGCGTCGCCTCCTATCTGACCTATGCGCTACGCCACCTCGATCGCAAAGCCTTTCTGATCGACGGCCTCGGCGGCATGTTCACCGAACAGCTGAGTCTGGTCGGCCCGAAAGACGTGGTGGTGGCGGTGAGCTTCTCGCCGTACGCCCGGGAAGTGGTCGAGCTGGTGGAGCTGGGCGCGCAGCGCAAAGCGCGGCAGATCGCCATTACCGACAGCCAGGTCAGCCCGCTGGCGGCCTTCAGCGATGTCTGCTTTGTGGTGCGGGAAGCGCAGGTGGATGGCTTCCGTTCGCAGGTTGCTTCCCTGTGCCTGGCCCAGACGCTGGCGGTTTCGCTGGCGCTGAACAGCAGTCAGGAGTCCGAGGCCAAGCAGAAGGCGTGA	MANNPTQLTILQDEIRRRYDTLSKRLKQVARYILDNSNSVAFDTVASIAQQADVPPSTLIRFANAFGFSGFNEMKQMFKQHLMEETANYTERARLFRQTTSDESSPPETPTEILNMFTMVNNQALQQLAMQTSSDELERAVALLGEAENIYVIGLRRSFSVASYLTYALRHLDRKAFLIDGLGGMFTEQLSLVGPKDVVVAVSFSPYAREVVELVELGAQRKARQIAITDSQVSPLAAFSDVCFVVREAQVDGFRSQVASLCLAQTLAVSLALNSSQESEAKQKA				NA	NA	NA	NA	NA
BMS020_07390	1914	iolC		5-dehydro-2-deoxygluconokinase	ATGAATGCAGCAGTAAAGCGGCTCGACGTCATCTGTATAGGTCGGGTGGCCGTCGACCTCTATGCCCAGCAGATCGGTTCGCGGCTAGAAGACGTTGCCAGTTTCTCGAAATATCTGGGCGGCTCCTCCGGCAACGTGGCCTTTGGCACCGCGATTCAGGGGCTGAAATCGGCCATGCTGGCGCGCGTTGGCGATGAACACAACGGCCGTTTCCTGCGTGAAACGCTCAACCGCGCCGGGGTGGATACCGAGTACCTGATTACCGACAAATCCCGCCTGACCGCGCTGGTGATGCTGGGGATCAAGGATCAGGAGACCTTCCCTCTGATTTTCTACCGCGATAACTGCGCCGATATGGCCTTAACGCCTGACGACATCAGCGAGGAGTATATTGCCTCCTCCCGGGCGCTGGCGGTGACCGGCACCCACCTGTCGCACGCCAACACCCGCGCCGCGGTGCTGAAGGCGCTGGAGTACGCTCGCCGTCACGGCCTGCGTACCGCGCTGGATATCGATTACCGTCCGGTGCTGTGGGGGCTCACCTCGCTCGGCGATGGCGAAACCCGTTTCATTGAGTCCGGGCCGGTCACCAGCCAGCTGCAGGAAGTGCTACATCTGTTCGATTTGGTGGTGGGGACCGAAGAAGAGTTTCATATTGCCGGAGGCAGCACCGATACCCTGACCGCGTTGAAAAATGTGCGCCATGCCACCAAAGCCACCCTCGTCTGCAAGCGCGGGCCGATGGGCTGCGTGGTGCTGGAAGGCGACATCCCGGACAGCTGGGACCAGGTGCCGCTGCAGCAGGGCGTGCGCGTGGAGGTGCTTAACGTGCTGGGCGCCGGGGATGCCTTTATGTCGGGCCTGCTGCGCGGCTGGCTTAACGACGAGGGCTGGGAGCAGGCTTGCCGTTACGCCAACGCCTGCGGGGCGCTGGTGGTCTCCCGCCACGGCTGCGCGCCGGCGATGCCGACCAAAGTCGAACTCGATGACTACCTGCAGCGCGCCGAATCGGTGCCGCGCCCGGACGTCGACGAGCGCCTCAACCATCTGCACCGGGTGACCAGCCGCCGCCAGCAGTGGCCGGAGCTGTGCATTTTCGCCTTCGACCATCGCAAACAGCTGGCCGACCTGGCGCGGGAGACCGGGCGCGATGAAGCCTGCATTCCGCAGCTCAAGCTGCTGTTGTTGGCCGCGGCCGAAGCGGCGGCGCAGGAGGCGGGACTCGACCAGCGCAGCGGCATTCTGGCCGACGGCACCTACGGCCAGCGTGCGCTGAACGCCATTACCGGCAAGGGCTGGTGGATCGGGCGCCCTATCGAACTGCCCAGCTCGCGCCCGCTGCGTCTGGAGCATGGCAACATCGGCTCGCAGCTGATCGACTGGCCGCTGGAGCATGTCGTCAAATGTCTGGTCTTCTATCACCCGGACGACCCGGCGGCGCTGCGTGAAGAGCAGGACGCTCTGCTGCTCGAGGTGTGGCAGGCCTGTAACAAATCAGGCCACGAGCTGCTGCTGGAGGTGATCCTCCCGGAAAATGGCCCGGACAAAGACGAGCGCCATTACCACACCATGCTGGAGCACTTCTATCAGCTGGGGATCAAGCCGGACTGGTGGAAGCTGCCGCCGCTCTCCAGCGCCAGCTGGCAGCAGATCACCGCCCTTATCGAGCGCGAAGATCCGTGGAGCCGCGGGATCCTGATCCTCGGTCTCGATGCGCCTTCCGACAAACTGCGCGCCGGTTTCGCCGAAGCGGCCGCACACCCGATGATCAAAGGTTTCGCCGTCGGGCGCACCATCTTTGGCCAGCCGTCGCGGCGCTGGATGCAGGGCGAGCTCAGCGATGAGGCGCTGATAGAGGAAGTGAAACGCAACTACCTGACGCTTATTGGCTACTGGCGCGAAGCCCGCCGCTGA	MNAAVKRLDVICIGRVAVDLYAQQIGSRLEDVASFSKYLGGSSGNVAFGTAIQGLKSAMLARVGDEHNGRFLRETLNRAGVDTEYLITDKSRLTALVMLGIKDQETFPLIFYRDNCADMALTPDDISEEYIASSRALAVTGTHLSHANTRAAVLKALEYARRHGLRTALDIDYRPVLWGLTSLGDGETRFIESGPVTSQLQEVLHLFDLVVGTEEEFHIAGGSTDTLTALKNVRHATKATLVCKRGPMGCVVLEGDIPDSWDQVPLQQGVRVEVLNVLGAGDAFMSGLLRGWLNDEGWEQACRYANACGALVVSRHGCAPAMPTKVELDDYLQRAESVPRPDVDERLNHLHRVTSRRQQWPELCIFAFDHRKQLADLARETGRDEACIPQLKLLLLAAAEAAAQEAGLDQRSGILADGTYGQRALNAITGKGWWIGRPIELPSSRPLRLEHGNIGSQLIDWPLEHVVKCLVFYHPDDPAALREEQDALLLEVWQACNKSGHELLLEVILPENGPDKDERHYHTMLEHFYQLGIKPDWWKLPPLSSASWQQITALIEREDPWSRGILILGLDAPSDKLRAGFAEAAAHPMIKGFAVGRTIFGQPSRRWMQGELSDEALIEEVKRNYLTLIGYWREARR	PGPT0018480_445	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
BMS020_07391	1941	iolD	COG3962	3D-(3,5/4)-trihydroxycyclohexane-1,2-dione hydrolase	ATGGGCAAACTGAGACTGACAACGGCGCAGGCGCTGGTGAAGTTCCTCGATAACCAGTACCTGGAAGTGGATGGCGAAGAGCTGAAGTTCGTGAAAGGCATTTTTGCGATTTTCGGCCATGGCAACGTCCTGGGGCTGGGGCAGGCGCTGGAGCAGGATAGCGGCGACATGCGCGTCTATCAGGGGCGCAACGAGCAGGGGATGGCCCACGCGGCCACCGGCTTTGCCCGCCAGGCCCTGCGCCGGCAGATTATCGCCTGCACCTCCTCCATCGGCCCGGGGGCGGCCAACATGATCACCGCCGCCGGCACCGCCAGCGCCAACCGCATTCCGCTGCTACTGCTGCCGGGCGATGTCTTCGCCACCCGCCAGCCGGACCCGGTGCTCCAGCAGATTGAACAGAGCTACGATCTCAGCATCAGCACCAATGACGCCTTCCGCGCGGTCAGCAAATACTGGGACCGCATTACCCGCCCGGAACAGCTGATGAGCGCCTGCATCAACGCCATGCGCGTCCTGACCGACCCGGCGGAAACCGGCGCAGTGACGCTGTGCCTGCCGCAGGATGTGCAGGGCGAAGCCTGGGACTACCCGGAATCCTTCTTTGCGCGTCGCGTACACCGTCTCGATCGCCGTCCGGCCAGCGCCGCGCAGCTGGCGGACGCCGTGGCGGCCATCAAAGCCAGCCGTAAACCGCTGATCGTCTGCGGCGGCGGGGTGAAATACTCCGGCGCGGGCGAAGCGCTGTCCCGTTTCGCCGAGCGCTACGGAGTGCCTTTTGCCGAAACCCAGGCCGGGAAGGGGACGGTGGTCTCTTCTCACCCCCTGAACGTCGGCGGCGTCGGCGAGACGGGCTGTCTGGCGGCGAACCTGCTGGCGAAAGAGGCCGACCTGGTGATCGGCGTCGGCACCCGTTTCAGCGATTTTACCACCGCCTCGAAATGGATTTTCCAGCACCCGGAGGTGCGTTTCCTGAATATTAACGTCAGCAACTTCGACGCCTGGAAGCTGGACGGCATTGCCATGCTGGCGGACGCCCGGGAAGCGATGACCGCCCTCAACGCGGCGCTGGCGGACAGCGGCTGGCAGGCCGGCTGGGGCGCGCAGATCGAGAGCGTGCAGAGCCGTCAGTTAAAAGAGACCCAGCGCGTGTACCAGGCGGTGTGGCAGGAGAAATCCTTTGTGCCGGAGATCGACGATCATCTCGATCGCGAATCGGTATATCGCGAGTTCCGCCAGATCACCGACTCCACCCTGACCCAGAGCAGCGTCCTCGGGGTGCTGAATGAAACGCTGCCGGCCGAGGCGGTGATCGTCGCGGCGGCGGGCAGCCTGCCCGGCGATCTGCAGCGCGTCTGGCGCAACCGCGCGGAAAACACTTATCACGTGGAGTACGGCTACTCCTGCATGGGATACGAAGTCAACGCGGCGCTGGGGGTGAAGCTGGCGCAGCCGCAGAGCGAAGTCTACTCCCTGGTCGGCGATGGCTCGTTCATGATGCTCCACTCTGAGCTGGTCACCTCCCTGCAGGAGCGGGCGAAGATCAACGTCGTGCTGTTCGACAACATGGCCAACGGCTGCATCAACAACCTGCAGATGGAGCACGGGATGGACAGCTTCGGCACCGAGTTCCGCTACCGCCAGCCGGAAACCGGCCAGCTGCAGGGCGGTCTGGTGCCGGTGGACTTCGCCACCATCGCCGCCGGCTACGGCTGCAAAACCTGGCGCGTCACCACCCTGGACGAACTGCGCCACGCGCTGGACGCCGCCCGTCGCGAAACGGTCAGCACCCTGATTGATATTAAAGTGCTGCCGAAGACCATGGTGCACAAATACGGCAGCTGGTGGAACGTCGGGGTCGCCCAGACGGCGCTCTCAGAGCGGATCCGCAAAGTTGCGCAAATGATTAATGAAAAGCGTGCCCAGGCGCGTGATTACTAA	MGKLRLTTAQALVKFLDNQYLEVDGEELKFVKGIFAIFGHGNVLGLGQALEQDSGDMRVYQGRNEQGMAHAATGFARQALRRQIIACTSSIGPGAANMITAAGTASANRIPLLLLPGDVFATRQPDPVLQQIEQSYDLSISTNDAFRAVSKYWDRITRPEQLMSACINAMRVLTDPAETGAVTLCLPQDVQGEAWDYPESFFARRVHRLDRRPASAAQLADAVAAIKASRKPLIVCGGGVKYSGAGEALSRFAERYGVPFAETQAGKGTVVSSHPLNVGGVGETGCLAANLLAKEADLVIGVGTRFSDFTTASKWIFQHPEVRFLNINVSNFDAWKLDGIAMLADAREAMTALNAALADSGWQAGWGAQIESVQSRQLKETQRVYQAVWQEKSFVPEIDDHLDRESVYREFRQITDSTLTQSSVLGVLNETLPAEAVIVAAAGSLPGDLQRVWRNRAENTYHVEYGYSCMGYEVNAALGVKLAQPQSEVYSLVGDGSFMMLHSELVTSLQERAKINVVLFDNMANGCINNLQMEHGMDSFGTEFRYRQPETGQLQGGLVPVDFATIAAGYGCKTWRVTTLDELRHALDAARRETVSTLIDIKVLPKTMVHKYGSWWNVGVAQTALSERIRKVAQMINEKRAQARDY	PGPT0018485_153	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
BMS020_07392	1014	iolG_4	COG0673	Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGTCGCTCAAATTAGGTGTCATCGGCGCTGGCGCTATCGGTAAAGAACACATCCGTCGCTGCACCCAGGTTCTGCAGGGCGCCACCGTTGTGGCGGTGTCTGATATCAATGCCGACAACGCCCGTGCGGCGGTCGCGCTGCCGGGCGTGCAGGCGGAAGTCTACGCCGACGGCCACGACGTGATTAACGCCAGCGATGTCGATGCCATCCTGGTCACCTCCTGGGACCCGACCCACGAAGAGTACACCCTGGCCGCCATCGCCGCCGGTAAGCCGGTGTTCTGCGAAAAACCGCTGGCGATGTCTGCGGAAGGCTGCCGCCGTATCGTCGATGCTGAAATGAAGGCCGGCCGTCGCCTGGTGCAGGTTGGCTTTATGCGCCCATACGACGAAGGCTATCTGGCGCTGAAAAAAGTGATCGACGATGGCGATATCGGCGCGCCGCTGATGCTGCGCTGCGCCCACCGCAACCAGGCGGTTGGCGAGAACTACACCACCGATATGGCGATCACCAACACCCTGATCCACGAGCTGGACGTGCTGCGCTGGCTGCTGAACGATGACTACCGTTCCGTGCAGGTGCGCTTCCCGCGCTCCACCTCGCACACCCATGCGCGCCTGAAAGATCCGCAGATCGTCTCCTTTGAAACCAAAAAAGGCACCCTGATCGACGTCGAGGTGTTCGTGAACTGCCAGTACGGGTATGACATCCAGTGCGAAGTGGTCGGCGAGACCGGGATTGCCCGTCTGCCGGAGCCGTCTGCCGTCCAGATGCGTAAGTCCGCCAGCCTGTCGACCGCCATTCTGACCGACTGGAAAGACCGCTTTATCAAAGCCTACGACGTCGAGCTGCAGGCCTTTATCAACGACGTCAAAGCCGGTCAGCTGCACGGCCCGTCGGCCTGGGACGGCTACGCGGCGTCGGTAGCGGCGGACGCCTGCATTAAAGCGCAGGGAACCAGCGAGCCGGTTGAGGTGACGCTGCCTGAGTGCCCGGCATTCTACAAACGTTAA	MSLKLGVIGAGAIGKEHIRRCTQVLQGATVVAVSDINADNARAAVALPGVQAEVYADGHDVINASDVDAILVTSWDPTHEEYTLAAIAAGKPVFCEKPLAMSAEGCRRIVDAEMKAGRRLVQVGFMRPYDEGYLALKKVIDDGDIGAPLMLRCAHRNQAVGENYTTDMAITNTLIHELDVLRWLLNDDYRSVQVRFPRSTSHTHARLKDPQIVSFETKKGTLIDVEVFVNCQYGYDIQCEVVGETGIARLPEPSAVQMRKSASLSTAILTDWKDRFIKAYDVELQAFINDVKAGQLHGPSAWDGYAASVAADACIKAQGTSEPVEVTLPECPAFYKR				NA	NA	NA	NA	NA
BMS020_07393	885			hypothetical protein	ATGAAAATTGCCTTTGATGTGGATGTGATTAAGGACCTCGGGATCACCCGCATGGTCCATCAGGTAGCGGAGTGGGGCTACAAGTACATTGAACAGTCGCCGCACCCGCAGATAAACCCGTTCTACAAGCACCCGCGCGCCAGCCGGGAGATCATGGCCGAGTACAAGCAGGCGCTGCGCGATACCGGCCTTGAGCTGTCGTCGTTTATCTGCGTCTACCGCTGGTCCGGCCCGGACGAACTGCGCCGCCAGGCGGCGGTGAAAAACTGGAAACGGCTGGTGGAAATTGCGGTGGAGATGGGCGTTCAGGTGATCAACACCGAGTTCTCCGGCGATCCGAATCAGCCTGAGATCTGCGATGAAATGTTCTATCGCTCGATGGAAGAGCTGTTGCCGATTTTTGAGCGGGAAGGCATCCGCGTGGAGATCCAGGCGCATCCCTGGGATTTCTGCGAAGAGAACAATGAAACCGTCGATATCGTGAAGTCGTTCCGCAGCGATAACGTGAAGTACGTCTACAGCGTGCCGCACACCTTTTTCTACGACAAAGGCGTCGGCGACGTGGCGAGCATGCTGCGCTATGCCGGGAGCGATCTCTCCCATGTCCTGATTGCGGATACCCGCAATCATACGAAACATTGCCGCTATATCGTTAACCCGCCGGGCGTGGATGCCGTGGTGCACCAGCACGTAGGCGTCGGGGAAGGGGATGTGGATTTTGACGCGCTGTTCCGCACCCTGCGCGAAATGAAATTCGCCGAGCAGACCTTCAAGGTCGGCGGGGAGCCGATTGTCGCCACCTCGCTGTTTGGCTACCCGGAAAAAATGAAATACCAGGCAGTGGAAACCCGTGAACTCATTGAACGTGAATTGCTGCGCCGGTAA	MKIAFDVDVIKDLGITRMVHQVAEWGYKYIEQSPHPQINPFYKHPRASREIMAEYKQALRDTGLELSSFICVYRWSGPDELRRQAAVKNWKRLVEIAVEMGVQVINTEFSGDPNQPEICDEMFYRSMEELLPIFEREGIRVEIQAHPWDFCEENNETVDIVKSFRSDNVKYVYSVPHTFFYDKGVGDVASMLRYAGSDLSHVLIADTRNHTKHCRYIVNPPGVDAVVHQHVGVGEGDVDFDALFRTLREMKFAEQTFKVGGEPIVATSLFGYPEKMKYQAVETRELIERELLRR	PGPT0020845_142	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020845-iolH-K06605	NA	NA
BMS020_07394	900	iolE_3	COG1082	Inosose dehydratase	ATGAACAAAGATAACGTCAAACTGGCTATCGCCCCGATCGGCTGGACTAACGATGATATGCCGGAGCTCGGCAGCGAAAACACTTTCCAGCAGATCGTCAGCGAAATGGCGCTGGCCGGCTTTACCGGCAGCGAAGTCGGCAGCAAATATCCGCGCGATCCGGCGGTTCTCAAGCCGATGCTGGACATCCGCGGCATTCAGATCTGCAACGCCTGGTTCAGCACCTTTTTCGCTAACGGCCAGCGGGAAAAAACCATTGATGAATTCGTCAATCACATGAACTTCCTCCATGCGATGGGCGCGAGAGTGATTGGCTGCTCCGAGCAGAGCGGCAGCATTCAGGGGCTGGATAAGCCGATCCTCGGCGATGCGAAGCCGTGCTTCAGCGAAGAAGAGTGGCAGCGGGTGGCGGAAGGCTACAACACCCTTGGTCGCCTGGCGGCGGAGAAGGGGATGCAGGTCTGTCTGCACCACCACATGGGCACCGGCATCCAGACCACTGCGGAAATCGACAAGTTTATGTCGCTGGTGGACGAGCGCGTCTTCCTGCTGTTCGACACCGGCCACGCCTGGTACTCCGAAGGCGGCGAAGCGCCGATGCTGGCGATCCTCAAAAAGTATCTGCCGCGCATCAACCACGTTCACCTGAAGGACGTCCGTCCGCCGGTGATCGACCAGGTGCGCCGCGACGGCCTGTCGTTCCTCGACGGCGTGAAAAAAGGCACCTTCACCGTCCCGGGCGATGGGGTGATCGATTTCCGTCCTGTGTTCAAGCTGCTGGACGACTTTGGCTATAAAGGCTGGATGGTGGTGGAAGCCGAGCAGGATCCTGCTCTGGCCAATCCTTTCGAATACGCCGTAAAAGCGCGCAAATATATCCGCGAAACGGCAGGGATCTAA	MNKDNVKLAIAPIGWTNDDMPELGSENTFQQIVSEMALAGFTGSEVGSKYPRDPAVLKPMLDIRGIQICNAWFSTFFANGQREKTIDEFVNHMNFLHAMGARVIGCSEQSGSIQGLDKPILGDAKPCFSEEEWQRVAEGYNTLGRLAAEKGMQVCLHHHMGTGIQTTAEIDKFMSLVDERVFLLFDTGHAWYSEGGEAPMLAILKKYLPRINHVHLKDVRPPVIDQVRRDGLSFLDGVKKGTFTVPGDGVIDFRPVFKLLDDFGYKGWMVVEAEQDPALANPFEYAVKARKYIRETAGI	PGPT0016785_1020	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016785-mocC-K03335	NA	NA
BMS020_07395	1311	ugpB_2	COG1653	sn-glycerol-3-phosphate-binding periplasmic protein UgpB	ATGTTTAAACCTCTTACGGTAGTCGCGGTTAGCCTCAGCCTCGCCCTGAGCGGCGCGGCGCTGGCGAAAGAGAAAATAGACTTCATGTTCCCGGCGCCGGTGGACGGCAAACTGACCATGGAGATGACCCGCGTCATTAAGCAATTCAACGACTCGCAGCAGGATGTGGAAGTGCGCGGCATCTTCACCGGCAACTACGACACCACCAAGATCAAAGCCGAATCGGCGCAGAAGGCCGGCCAGCCGCCGGCGCTGGTGATCATGTCCGCTAACTTCACCACCGATCTGGCGCTGAAGGATGAGATCCTGCCGATGGATGAGTTGTTTAAATATGGCGATCAACAGGCCGGCGATTTTCTGCAAAAAGAATTCTGGCCCGCGATGCATAAGAACGCCCAGGTGATGGGCACCACTTATGCGATCCCGTTCCATAACTCGACGCCGATCCTCTACTACAACAAGACGATGTTCGATCGGGCCGGGATCAAACAGCCGCCCCAGACCTGGGCCGAGCTGCTGGCCGATGCCAAAAAGCTGACCGACGAGAGCACCGGCCAGTGGGGGATCATGCTGCCGTCGACCAACGACGACTACGGCGGCTGGATCTTCTCGGCGCTGGTGCGCGCCAACGGCGGAAAATACTTTAACGAAGATTATCCGGGCGAGGTTTATTACAACTCGCCGACCGCCATCGGCGCCCTGCGCTTCTGGCAGGATCTGATCTACAAGGACAAGGTGATGCCGTCCGGGGTGCTGAACTCGAAGCAGATCAGCGCCGCGTTCTTCTCCGGCAAGCTCGGGATGGCGATGCTCAGCACCGGCGCGCTGGGCTTTATGCGCGAGAACAGCAAAGATTTTGAGCTGGGCGTGGCGATGCTGCCGGCTAAAGAGCAGCGGGCGGTACCGATCGGCGGCGCCAGCCTGGTTAGCTTCAAGGGCATCAACGACGCGCAGAAAAAAGCGGCGTATCAGTTCCTGACCTATCTGGTGAGCCCCGACGTAAACGGCGCGTGGAGCCGCTTTACCGGCTACTTCTCGCCGCGCAAGGCGTCATACGATACGCCGGAGATGAAGGCCTATCTGCAGCAGGATCCGCGGGCGGCGATCGCGCTTGAGCAGCTGAAGTACGCCCATCCGTGGTACTCCACCTGGGAGACCGTGGCGGTGCGTAAGGCGATGGAGAACCAGCTGGCGGCGGTGGTTAACGATGCCAAAGTGACGCCGGAAGCGGCGGTTCAGGCGGCGCAAAAGGAAGCCGACGCGCTGATGAAACCTTATGTGGATAAAACCGCGCTGGCGGAAGTGAAGTGA	MFKPLTVVAVSLSLALSGAALAKEKIDFMFPAPVDGKLTMEMTRVIKQFNDSQQDVEVRGIFTGNYDTTKIKAESAQKAGQPPALVIMSANFTTDLALKDEILPMDELFKYGDQQAGDFLQKEFWPAMHKNAQVMGTTYAIPFHNSTPILYYNKTMFDRAGIKQPPQTWAELLADAKKLTDESTGQWGIMLPSTNDDYGGWIFSALVRANGGKYFNEDYPGEVYYNSPTAIGALRFWQDLIYKDKVMPSGVLNSKQISAAFFSGKLGMAMLSTGALGFMRENSKDFELGVAMLPAKEQRAVPIGGASLVSFKGINDAQKKAAYQFLTYLVSPDVNGAWSRFTGYFSPRKASYDTPEMKAYLQQDPRAAIALEQLKYAHPWYSTWETVAVRKAMENQLAAVVNDAKVTPEAAVQAAQKEADALMKPYVDKTALAEVK	PGPT0016835_1348	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
BMS020_07396	1074	ugpC_2	COG3839	sn-glycerol-3-phosphate import ATP-binding protein UgpC	ATGCTTAGTCTGCAAAACATCAGTAAACGTTTCGACGGCAAGCCGGCGCTCAGCGCCCTGTCGCTGGATATTCACGAAGGCGAATTCGTGGTGCTGGTCGGCCCGTCGGGCTGCGGGAAAAGCACCCTGCTGCGCCTGCTCGCCGGCCTGGAGTCGGTCAGCGAAGGCCAAATCTGGCTGCATGATGAGAACATCACCGCCACCACGCCGCGCGAGCGCAACTTCGCGATGATCTTCCAGAACTATGCCCTGTTTCCGCATCTGTCGGTGCGCGACAACATCACCTTCGGCATGAAGGTGCGCAAGGAAGAGAAAAGCAGCTGGCAGCCGCGGGTGGACAACGTGGCGCAGATGCTGCAGCTGGAGGCGCTGCTCGACCGCAAACCGGCAAAGCTCTCCGGCGGCCAGCGCCAGCGGGTGGCGATGGCCCGGGCGATTGTGCGCAATCCGCGGCTGTTCCTGATGGACGAGCCGCTCTCCAACCTCGACGCCCGCCTGCGCAGCGAAGTGCGCGACAGCATTATGGCGCTCCATCAGCAGCTGAAAACCAGCACCATCTATGTGACCCACGACCAGACCGAGGCGATGTCGATGGCCGACCGCATCGTGGTGATGAACGGCGGCCACGTGCAGCAGGTCGGGCGCCCGGAGTATCTCTACGCCAACCCGGCCAACCTGTTCGTCGCCGGATTTATCGGTTCGCCGGCGATGAACCTGCTGTCGCTGCCCTGCGCCAACGGTGAAGTACTGTTGGGAGAACAGCGCCATCCGCTGCCGCCGCGCCACCGGGATCAGACCCGCGTCTGGCTGGGCATTCGCCCGGAACATATTACCGACCGCGTGGAGGAGGGCCATCTGCGCCTGCCGGCCACCGTTCTGCAACGAGAACTGATGGGGGCCGACTACCTGCTCCACGTCAGCACCCCGATCGGCACCCTGCGCTTTAGCCGCCGCCACCGCGGCACGGTGCCGGAGAAAGGCGAGTCGCTACCGATCGGCTTTTCGCCTGCCGATGTGCATCTTTTTCATGCTGAGACCCAGCATAATTTACTGATGGAGTGTAATCATGTTTAA	MLSLQNISKRFDGKPALSALSLDIHEGEFVVLVGPSGCGKSTLLRLLAGLESVSEGQIWLHDENITATTPRERNFAMIFQNYALFPHLSVRDNITFGMKVRKEEKSSWQPRVDNVAQMLQLEALLDRKPAKLSGGQRQRVAMARAIVRNPRLFLMDEPLSNLDARLRSEVRDSIMALHQQLKTSTIYVTHDQTEAMSMADRIVVMNGGHVQQVGRPEYLYANPANLFVAGFIGSPAMNLLSLPCANGEVLLGEQRHPLPPRHRDQTRVWLGIRPEHITDRVEEGHLRLPATVLQRELMGADYLLHVSTPIGTLRFSRRHRGTVPEKGESLPIGFSPADVHLFHAETQHNLLMECNHV	PGPT0016850_158	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
BMS020_07397	825	cpdA_3		3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	ATGCTGTTAGCGCACATTTCCGATACCCATTTCCGCAGCCGCGGCGAAAAGCTGTACGGCTTTATCGACGTCAACGCCGCCAACGCCGACGTGGTCTCCCAGCTTAACGCGCTGCGCGAGCGCCCGGACGCGGTGGTGGTGAGCGGGGATATCGTCAACTGCGGCCGCCCGGCGGAGTATCAGGTGGCCCGCCAGATCCTCGGCAGCCTGAACTATCCGCTGTATCTGATCCCCGGCAACCACGACGACAAAGCCCATTTTCTGGAGCATCTTCACCCGCTGTGCCCGCAGCTGGGCAACGATGCGCAAAATATGCGCTATGCGGTGGATGACTTCGCCACCCGCCTGCTGTTTATCGATTCCAGCCGCGCCGGCACCTCGAAAGGCTGGCTGACCGACGAGACCATCGGCTGGCTGGAAGCCCAGCTGTTCGAGGGCGGCGACAAACCGGCGACCCTCTTTATGCACCACCCGCCGCTGCCGCTGGGCAATGCGCAGATGGACCCGATCGCCTGCGAAAACGGCCACCGTCTGCTGGCGCTGGTGGAGCGTTTCCCGTCGCTGACGCGCATCTTCTGCGGCCACAACCACAGCCTGACCATGACCCAGTATCGCCAGGCGCTGATCTCCACTATCCCCGGCACCGTCCACCAGGTGCCGTACTGCCACGAAGACACCCGGCCCTATTACGACCTTTCTCCGGCCTCGTGTCTGATGCACCGCCAGGTCGGCGAGCAGTGGGTGAGCTACCAGCACTCTCTGGCCCACTACGCCGGGCCGTGGCTGTACGACGAAAACATCAGTTGCCCAACGGAAGAGCGCTAA	MLLAHISDTHFRSRGEKLYGFIDVNAANADVVSQLNALRERPDAVVVSGDIVNCGRPAEYQVARQILGSLNYPLYLIPGNHDDKAHFLEHLHPLCPQLGNDAQNMRYAVDDFATRLLFIDSSRAGTSKGWLTDETIGWLEAQLFEGGDKPATLFMHHPPLPLGNAQMDPIACENGHRLLALVERFPSLTRIFCGHNHSLTMTQYRQALISTIPGTVHQVPYCHEDTRPYYDLSPASCLMHRQVGEQWVSYQHSLAHYAGPWLYDENISCPTEER	PGPT0021595_1689	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
BMS020_07398	888	ngcG	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGAGCGCTGACATCTCTCCGCTGCTGGTCCGCACGCCCGCCGCCGCCCGTCCGCTGTGGCTGCGCCTGCGCCGCTCGTCGCCCTTTACGCTCACAGTATTAATGTGCTGCCTGGCGCTGCTATGGATCAGCCCGTTTATCTGGATGCTGGCCACCTCGTTCAGCGCCACCACCTTCGGGGAAGATATGGCCTCGCTGCTGCCGCGCCTGCCGCTGACCCTCGATAACTTCCGCGACGCCTGGAACAGCGCCGACTGGCTGAGCCTGTACGCCAACACCCTCATCTTCACCTTCGGCACCTTCTTCGTGCAGCTGTTGACCATCACCACCGCCGGGTACGTCTTCGCCTGCCACGAGTTTCGCGGCAAGCAGACGCTGTTTCTTCTGTTCCTGGTGCAGCTGATGATCATGCCGGTAGTGATGATGGTGCCGAACATGCTGACCCTGAAAACCTTCGGCCTGCTTAACACCCTCACCGGGGTGATGATGCCCTATTTCACCTCGGCGTTCGGCGTGTTCCTGATGCGTCAGGCGTTCCTCGCCATTCCGAAAGAGCTGGAGGAGGCGGCGCTGATGGAGGGCTGCCGCTGGTGGCAGGTGCTGTTCCGCGTGCTGCTACCGATGTCCTGGCCGTCGGTGCTGGCCTTCGCCACCGTCAGCATTACCTACCACTGGAACGAGTACCTGTGGCCGCTGATGATGCTCAACGATCCCGATAAGCAGGTGCTGACCGTCGGGCTGGTCTCCTTCGCCATGGGCGCCGAATCCGGCGGCCAGTGGGGCACCATCGGCGCCGGCACACTGATGGTCTGTCTGCCGCTGATGCTGGCGTTCATCCTTTTTCAGAAACAGTTCCTGCGGAGCTTCGGCTTCTCCGGGATCAAATAA	MSADISPLLVRTPAAARPLWLRLRRSSPFTLTVLMCCLALLWISPFIWMLATSFSATTFGEDMASLLPRLPLTLDNFRDAWNSADWLSLYANTLIFTFGTFFVQLLTITTAGYVFACHEFRGKQTLFLLFLVQLMIMPVVMMVPNMLTLKTFGLLNTLTGVMMPYFTSAFGVFLMRQAFLAIPKELEEAALMEGCRWWQVLFRVLLPMSWPSVLAFATVSITYHWNEYLWPLMMLNDPDKQVLTVGLVSFAMGAESGGQWGTIGAGTLMVCLPLMLAFILFQKQFLRSFGFSGIK	PGPT0016845_255	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
BMS020_07399	873	ugpA_2	COG1175	sn-glycerol-3-phosphate transport system permease protein UgpA	ATGAGAAAGACCTGGCTTCCCTGGCTGATCCTGTCGCCTTCCCTGCTGTTTTTACTGCTGTTTACCTGGTTCCCGCTGGGGCGTTCGGTGTATGACAGCCTGTTTGATACCCGCATGGCCAGCGACGGCGCGCAGTACGTCGGGCTGGATAATTTCGCCCGCCTGTTTGCCGATAACGTCTTCTGGCAGTCGCTGGGCAATAACCTGCTCTATATCCTGCTGACGGTGGTGCCCGGGGTGACCCTCGCCCTCCTGCTGGCGGTCGCCCTGAGCGAGAACCATCGCGTCAACCGCTGGCTGCGCACCGCCTTTTTCTTCCCGATGATTATCCCGATGGTCAGCGCCGCCGCGCTGTGGCTGTTTATCTTTATGCCCGGCCTCGGCCTGCTCGACCACTATCTGGCGAAGCTGTTCGGGCCGATGAACAACAACTGGCTGGGGCGCAGCAACAGCGCGCTGCTGGCCCTGGCGCTGATCGGCGTGTGGAAGTTCGCCGGCTACTACATGCTGTTTTTCCTCGCCGGGCTGCAGAGCATTCCGGCCTCGACGCGGGAAGCGGCGCTGATGGAAGGGGCTACCCGCACGCAGGTCTTTTTTAAGGTCACGCTACCGCTGCTGCGCCCGACGCTGAGCTTTGTGATCACCACCGCGCTGATCTACTCCATCACCCAGATCGACCACGTGGCGGTGATGACCCGCGGCGGGCCGGACAACGCCACCACCGTGCTGCTCTATTACATCCAGAATCTCGCCTGGGATACCCATGACCTCGGTAAAGCCTCCGCCGCCACCTTCCTGACCCTGGCCGGGCTGTTCGCCTTCTCGCTGATTAACCTGAAACTGCTGGAAAAAGGAGCCCACTATGAGCGCTGA	MRKTWLPWLILSPSLLFLLLFTWFPLGRSVYDSLFDTRMASDGAQYVGLDNFARLFADNVFWQSLGNNLLYILLTVVPGVTLALLLAVALSENHRVNRWLRTAFFFPMIIPMVSAAALWLFIFMPGLGLLDHYLAKLFGPMNNNWLGRSNSALLALALIGVWKFAGYYMLFFLAGLQSIPASTREAALMEGATRTQVFFKVTLPLLRPTLSFVITTALIYSITQIDHVAVMTRGGPDNATTVLLYYIQNLAWDTHDLGKASAATFLTLAGLFAFSLINLKLLEKGAHYER	PGPT0016840_1545	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
BMS020_07400	1020	ahr	COG1064	Aldehyde reductase Ahr	ATGAGCATCATTAAAAGCTACGCCGCCAAAGAAGCGGGCGCCGATCTGTCGCTGTGGGAATACGATGCCGGCGAATTACAGCCGGAAGATGTCGAAGTTGAGGTGGAATACTGCGGGATCTGCCATTCGGACCTGTCGATGATCGACAACGAATGGGGGATGTCGAGCTACCCGCTGGTGGCCGGTCACGAGGTGATTGGCCGGGTGGCGGCGCTGGGCAGCGCGGCGCAGGATAAAGGGCTGAAGATTGGCCAGAAGGTCGGCATCGGCTGGACGGCGCGCAGCTGCGGCCATTGCGACGCCTGCATCAGCGGCAACCAGATCAACTGCCTGGAAGGCTCGGTGCCAACCATTCTCAACCGCGGCGGCTTCGCCAATAAGCTGCGCGCCGACTGGCAGTGGGTGATCCCCCTGCCGGAGAGCATCGATCTGGCGTCCGCCGGCCCGATGCTGTGCGGCGGCATCACCGTCTTTAAACCGCTGCTGACCCACCACGTCACCGCCACCAGCCGCGTCGGGGTGATCGGCATCGGCGGTCTCGGCCATATCGCCATTAAGCTGCTGCGGGCGATGGGCGCGGAAGTGACCGCCTTCAGCTCCAACCCGGCCAAAGAGCAGGAAGTGCGGGCGATGGGCGCCGATCGCGTGGTCAACAGCCGCGATCCTGAAGCCTTAAAAGCGCTGGCCGGCCAGTTCGACCTGATTATCAACACTGTCGCCGTCGACCTCGACTGGCAGCCGTACTTTGAAGCGCTGGCGTACGGCGGCAACTTCCACACCGTCGGCGCGGTAATGAAGCCGTTCCCGGTGCCGGCCTTTACCCTTATCGGCGGCGACCGCAGCATCTCCGGCTCGGCGACCGGTAACCCGTCCGAACTGCGCACGCTGATGAAGTTCGCCGGGCGCAGCAAGGTGGCCCCGACCACCGAGCTGTTCCCGATGTCGCAGATTAACGAAGCGCTGAAACACGTTCGCGAAGGCAAAGCCCGCTACCGCGCGGTGCTGAAAGCCGACTTCTGA	MSIIKSYAAKEAGADLSLWEYDAGELQPEDVEVEVEYCGICHSDLSMIDNEWGMSSYPLVAGHEVIGRVAALGSAAQDKGLKIGQKVGIGWTARSCGHCDACISGNQINCLEGSVPTILNRGGFANKLRADWQWVIPLPESIDLASAGPMLCGGITVFKPLLTHHVTATSRVGVIGIGGLGHIAIKLLRAMGAEVTAFSSNPAKEQEVRAMGADRVVNSRDPEALKALAGQFDLIINTVAVDLDWQPYFEALAYGGNFHTVGAVMKPFPVPAFTLIGGDRSISGSATGNPSELRTLMKFAGRSKVAPTTELFPMSQINEALKHVREGKARYRAVLKADF	PGPT0019810_102	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	PLANT_DERIVED_GERANIOL_DEGRADATION,PGPT0019810-ahr|yjgB-K12957	NA	NA
BMS020_07401	1470	dauA_3	COG0659	C4-dicarboxylic acid transporter DauA	ATGAACACACTTCGTCAGGACTCTCTCGCCGGCATCGTCGTCTTCCTTGTCGCCCTGCCGCTGTGCCTCGGCATCGCCCAGGCCAGCGGCTTACCGCCCTTCGTTGGCCTGCTGACCGGCATCATCGGCGGCCTGGTCGTCACCGCCCTCAGCCCCTCCCGCTTCGCCGTCAGCGGCCCCGCCGCCGGACTGGTCACCATCGTCGTCGCCGTCATCGAATCCCTGGGTTCCTTCTCCGTCTTCCTGATGGCGCTGGTGCTGGCCGGCGTGCTGCAACTGCTGTTCGGCATTCTGCGGGCCGGGCGTTTTATCTCGCTGGTTCCCGCCAGCGTCATCAAAGGCATGCTGGCGGCGATCGGCATCCTGCTGATTATGCAGCAGATCCCCGTCGCGCTCGGTACGGCGGAAGAGACCGGGCTTGCCGATGTGGTTCAGGGCAATGCCGCTTTCTCCGTCACTGCGATTGCCGTCGCCGCGGGCGGCCTGCTGGTGCTCTGGCTCTGGGGCTCGCCGCTTATCCGCCGGGTGAAGAGCCTGCGCTGGATCCCCGGGCCGCTGATCGCCGTCCTGCTCGGCTGCGTGACCACCCTGCTGCTGACCCATTTTGCGCCGCAGCAGCTGGCCGCCCTGCCGCGTATTACCCTGCCGGCGTTCGGCAGCCTCGGCGACCTGCTGGGCGAGCTGGAGTCTCCGGCGTGGAGCGCGTGGCGCAATCCGTCGGTGTGGGTGGTGGCGGTGACCCTGGCGCTGGTCGCCAGCCTCGAAACCCTGCTCAGCCAGGAGGCGCTGAAAAAGCTGCGCCCGCAAAATCCACCCCCTTCGCCGAACCGCGAAATGGTCGCCCAGGGCGTCGGCAACCTGCTCTCCGGCGTGCTGGGGGCGATGCCGATCACCGCGGTGATCGTCCGCAGCTCGGTGAACGTCAGCAACGGCGCGCAGAGCAAACTGTCGATCTTTATCCACGGCGTGCTGCTGTTGATCTGCGGCCTGTGGTTCAGCGGCCTGCTGACCCTGATCCCGCTCGCCAGCCTCGCCGCCGTGCTGCTCTATACCGGCTATAAGCTGGCGACGCCGCGGCTGTTCATCGAGCAGTTCCGCCAGGGGGCGGCGCAGTACGTCCCCTTCCTCGCCACCATCGGCGGGATTATCGCCTTCGGCATGCTGGCGGGGATCGGGATTGGTCTTGCCACCCAGATGGCGTTCAGCCTCTGGCGCAGCCATCGCCACTCGCTGCAGCTGGCGCGCTACGATGACCACTACGTGCTGCGCATCCAGCAGAATCTGACCTTTATGCACAATCCGCATCTGCTGGCCCTGCTGGCGAAAATTCCGGAAAAGAGCGTGGTGATCGTCGAGCACGACAGCGTCGGCTACCTCGACCCGGACGTGCAGGCGGTGCTGGATGATTTTGCCGAGAACGCCCCGCAGCGCGGCATCCGCCTTAATCAGTGGCCGCTGGCCAGCCGCTGA	MNTLRQDSLAGIVVFLVALPLCLGIAQASGLPPFVGLLTGIIGGLVVTALSPSRFAVSGPAAGLVTIVVAVIESLGSFSVFLMALVLAGVLQLLFGILRAGRFISLVPASVIKGMLAAIGILLIMQQIPVALGTAEETGLADVVQGNAAFSVTAIAVAAGGLLVLWLWGSPLIRRVKSLRWIPGPLIAVLLGCVTTLLLTHFAPQQLAALPRITLPAFGSLGDLLGELESPAWSAWRNPSVWVVAVTLALVASLETLLSQEALKKLRPQNPPPSPNREMVAQGVGNLLSGVLGAMPITAVIVRSSVNVSNGAQSKLSIFIHGVLLLICGLWFSGLLTLIPLASLAAVLLYTGYKLATPRLFIEQFRQGAAQYVPFLATIGGIIAFGMLAGIGIGLATQMAFSLWRSHRHSLQLARYDDHYVLRIQQNLTFMHNPHLLALLAKIPEKSVVIVEHDSVGYLDPDVQAVLDDFAENAPQRGIRLNQWPLASR	PGPT0002415_255	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
BMS020_07402	675	can_3	COG0288	Carbonic anhydrase 2	GTGACGACGTTAAAACCTTTGCTGGCCCGCAACCGCAGCTGGGCGCTGCAGAAGTGTCAGCATGACCCGGACTATTTCGAAAAATGGGTCGACGGGCAGCGGCCCCACTCGCTGTGGATCGGCTGCTCAGACAGCCGCGTTCCCGCCGAGGTGCTCACCGGCAGCCAGCCCGGCGAGCTCTTTGTCCACCGCAATATCGCCAACATGCTCGATCCCGCCGACGACAACGTCATGAGCGTCCTGCAATATGCCCTCCACTACCTTGAGGTGGAGCAGGTGGTGCTCTGCGGCCACTACGGCTGCGGCGGCGTGCAGGCGGCGCTCTCTCTGCCCACCCTGCCGCTGGCGCAGGAATCCTCGGCGCTGGCTCGCCGCATCGGCCAGCTGCGCCACACCCTGCATCACGAAATTGCGCAAATCGCCGATGGATGTGGTGTTGCGGCCTCCCCCGGCGCCAGCGCCGGCACCGACGCGGAGCGCTCTCGCCATGCGCTGGACGCCCTGGTGGAAGCCAACGTTCGCGCCCAGTTCGCCCGTCTGCTGGAGAGTGAACCGGTGCAGATGGTGCTCGCCAGCGGGCGGCCGCTCAGCCTGCACGGCTGCGTCTACGATCTGGCTTCCGGCCATTTAACCACCCTCGTCGAACACCTCTCACCGCAGGAGCACGCCCCATGA	MTTLKPLLARNRSWALQKCQHDPDYFEKWVDGQRPHSLWIGCSDSRVPAEVLTGSQPGELFVHRNIANMLDPADDNVMSVLQYALHYLEVEQVVLCGHYGCGGVQAALSLPTLPLAQESSALARRIGQLRHTLHHEIAQIADGCGVAASPGASAGTDAERSRHALDALVEANVRAQFARLLESEPVQMVLASGRPLSLHGCVYDLASGHLTTLVEHLSPQEHAP	PGPT0002415_2610	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
BMS020_07404	1251	intS_3	COG0582	Prophage integrase IntS	ATGGCTCTTACTGATATCAAAGTCAGAACAGTTAAGCCTGCAGACAAACCTTTCAAACTTACCGATGGTGAGGGGATGCACCTGTTGGTTAACCCCAATGGCTCAAAATACTGGCGTCTTCAATATCGTTTTAGTGGCAAACAGAAGATGCTGGCGTTAGGGGTTTATCCAATGGTTTCATTGGCAGAGGCTCGTAAGAGGCGCGATGCCGCGAAGAAACTGGTATCTGATGGTATCGATCCCTCTCAAAAGAAAAAAGAGGACAAGATTGAAGAAAGCGGAGCACTAACCTTTGAGGCTGTAGCAAGAGATTGGCATGCTTCCTGTAGCAAAAAATGGTCTGAGTCCCATAGTGAGCGGGTGCTTAAAAGCTTAGTGGATAATCTTTTCTCTGCGTTAGGTAAACGTAAGATTTCGGAACTGAAGACTCGGGATCTACTCGCTCCAATTAAGGTAGTAGAGGCGAGTGGGCGATATGAAGTAGCTTCGCGTCTTCAACAGCGAACGACCGCAATCCTGCGTTTTGCCGTACAAAATGGTCTACTTGATTATAATCCAGCCCAAGATATGGCTGGCGCAATAGCTGTAGCTAAACGAGTGCACCGCCCAGCGCTTGATTTCGAACGTCTTCCCGAATTGCTTGATCGTATCGAATGCTTTAAAGGTCGAAAGTTGACTAAATTAGCAGTGAAACTAACACTGCTGGTATTCATACGTTCAAGTGAACTGCGTTTTGCAAGATGGGAAGAAATCGATTTTAAAAATGCGCTTTGGACGATACCTGCAGAACGAGAACCTCTGAAGGGCGTAAAGCACTCACATCGTGGTTCTAAGATGCGTAGCCCTCACCTCGTGCCTCTAAGCCGTCAGGCACTGGAAGTGTTAAAAGATATAAAACAAATCAGTGGGGATTACGAGTTGGTCTTCATCGGCGATCATCAGCAGGATAGGCCGATGAGCGAGAATACTGTTAATAAGGCTCTTCGCTCAATGGGCTATGACACTAAAACGGAAGTTTGCGGACACGGGTTTAGGGCGATGGCCTGTAGTGCCTTGATCGAATCCGGCTTATGGTCAAAAGATGCTGTTGAGCGTCAGATGAGCCATCAGGAGCGTAATAACCTTCGCGCTGCTTACATCCATCTTGCTGAGCATCTCGATGAGCGTAGGCTAATGCTACAGTGGTGGGCTGATTATCTTGATGCCAATCTTAACGATATGATCAGGCCGTTTGAGTTTGCCCACAGGTGA	MALTDIKVRTVKPADKPFKLTDGEGMHLLVNPNGSKYWRLQYRFSGKQKMLALGVYPMVSLAEARKRRDAAKKLVSDGIDPSQKKKEDKIEESGALTFEAVARDWHASCSKKWSESHSERVLKSLVDNLFSALGKRKISELKTRDLLAPIKVVEASGRYEVASRLQQRTTAILRFAVQNGLLDYNPAQDMAGAIAVAKRVHRPALDFERLPELLDRIECFKGRKLTKLAVKLTLLVFIRSSELRFARWEEIDFKNALWTIPAEREPLKGVKHSHRGSKMRSPHLVPLSRQALEVLKDIKQISGDYELVFIGDHQQDRPMSENTVNKALRSMGYDTKTEVCGHGFRAMACSALIESGLWSKDAVERQMSHQERNNLRAAYIHLAEHLDERRLMLQWWADYLDANLNDMIRPFEFAHR				NA	NA	NA	NA	NA
BMS020_07405	2004			hypothetical protein	ATGAATAAACTAACTTCTGATATGACAGAACTACAATCAATGAATATCACTGAAGACAATATTAGAAAACTTAAATCTCTGTTTCCCGAAGCATTTAATGAAGGAAGCATTGATTTTGACGTTTTAAAACAGCTTTTGGGTGAAAATGTTGACGAAAAAGAAGAGCGCTATGGCCTCAACTGGCATGGTAAACGTCAGGCTCGCCAGCTTGCTCTAATCCCTTCCCGTGGCACTTTACGCCCATGTAAAGGTGAAAGTGTTGATTGGGATAACACCAAAAACCTAATGATTGAAGGTGATAACCTTGAAGTATTGAAGCTTCTCCAAAAAAGTTATGCCGATAAAGTCAAGTTTATTTATATCGATCCACCTTACAATACCGGGAAAGATTTTGTTTACCCTGATAACTTCCAAGATAATATGAAAAATTATCTTGAAATCACAGGACAAACAGAAGAAGGATCTCGCTTAAGCACAAATACAGAAACCAGTGGGCGCTATCATACTGATTGGCTAAATATGATTTACCCTAGGATTAAACTTGCTAGAAATTTATTGAATAACGAGGGTATATTTATTGCCAGCATCGATGATGCGGAACTGAGCAATTTTAAAACAGTGCTAAATGAAACCTTTGGAGAAGAAAATCATCTAGGAACTCTAGTTTGGGACAGAAATAGAAAAAATGATGCAAAGTTTATTTCTGTAGGCCATGAATATATGTTGGTTTATGCTAAAAATATTCAGTCTTTAATAAATAACAATCTAGTCTTAAGAGAAGAAAGAGAAGGATTAGAAGAAGCTAAGGAAGTGTACAATAAATTAGTCAAACAATATGGTGAGGATTGGGATGAAATAAAATGCGGATGGCTTAAATGGTTTGATAATATTCCATTATCTGATCCAAAAAGGCGTATGATGCGTTTTGCAAAAGTTGGTTCTCGGGGACCATATCGGGATGATGGAAACATAAGCTGGCCCGGCGGTAATGGACCGAGATACGAAGTATTGCATCCTATAACTAAAAAACCAGTTCCAGTGCCTTCGAGAGGATGGGTTTATCCAAATGAAGGAAGGTTCTGGGAGGAGTACAATAAAGGTAAAGTCGTATTTGGCTCTGATCATACAACATCGGCTAGAATTGCATCGTATCTATTTGAGAGTGATGGACAGGTTTTACCTAGTGTTTTTTATAGCTATGCACAAACTTCTACTCAGGACTTTTTATCATTAATGGGGGAGAAGGTTTTCGATAATCCAAAAAGCAGAAAGGATATAGCACGCCTGATCAACTACTTTACAAAAAAAGATGATCTTATCTTGGACTTTTTTGCAGGTTCAGGAACCACAGGACATTCAGTTTACGATATCAATGCGCAAAAGAGTACAAATAGACACTTTATCCTTGTGCAGCTGCCAGAGCGTTTACATACAAATGTGAAAGAACAGAAAGTCGCTTATGAATTTTGTAATAAAAATGGAAAAGAAGAAAATATCACTGAAATAACTAAAGAACGCCTCCGCCGCGCAGGTAAAAAGGTTCGTGAAGACAATCCAGAGTGGAAAGGTGATATTGGTTTTCGTGTTTTCAAACTCGATACATCTAATATCCGTCCGTGGGAAGCCACAGCAGAAACCATCTCAGAACAGATTGACGCTTATGTAAGCCCAATCCTTGATGGCCGTAGTGAAGATGATTTGCTTACAGAGTTGATGCTTAAGCGTGGCATTGACCTGAGTGTAAACATTGAAACCCGTCAGTTTGATGGATTAACCGTTTCTTGCGTTGACGGTGGCAAATTGTTTACCTGCTTTGCTAAACAAATCCCTGCATCTTCAGTAGAAAAACTGACCAAGGGGATCATCGACTGGCATAAGAGTTTAAAGGCTGGCAAAGAAACTGTCTGCTATTTCCTTGATGACGCATTTGAAAATAACATTGCTAAAACAAATCTTTGCGCCATTCTGGAACAACACGGCCTGACTAACCTGCACAGCCTGTAA	MNKLTSDMTELQSMNITEDNIRKLKSLFPEAFNEGSIDFDVLKQLLGENVDEKEERYGLNWHGKRQARQLALIPSRGTLRPCKGESVDWDNTKNLMIEGDNLEVLKLLQKSYADKVKFIYIDPPYNTGKDFVYPDNFQDNMKNYLEITGQTEEGSRLSTNTETSGRYHTDWLNMIYPRIKLARNLLNNEGIFIASIDDAELSNFKTVLNETFGEENHLGTLVWDRNRKNDAKFISVGHEYMLVYAKNIQSLINNNLVLREEREGLEEAKEVYNKLVKQYGEDWDEIKCGWLKWFDNIPLSDPKRRMMRFAKVGSRGPYRDDGNISWPGGNGPRYEVLHPITKKPVPVPSRGWVYPNEGRFWEEYNKGKVVFGSDHTTSARIASYLFESDGQVLPSVFYSYAQTSTQDFLSLMGEKVFDNPKSRKDIARLINYFTKKDDLILDFFAGSGTTGHSVYDINAQKSTNRHFILVQLPERLHTNVKEQKVAYEFCNKNGKEENITEITKERLRRAGKKVREDNPEWKGDIGFRVFKLDTSNIRPWEATAETISEQIDAYVSPILDGRSEDDLLTELMLKRGIDLSVNIETRQFDGLTVSCVDGGKLFTCFAKQIPASSVEKLTKGIIDWHKSLKAGKETVCYFLDDAFENNIAKTNLCAILEQHGLTNLHSL	PGPT0027230_494	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
BMS020_07406	2961			hypothetical protein	ATGAAACTACATTTTGAATCTGACCTTACCTATCAGCAAAACGCCATCACATCGGTCTGTGATTTGTTTGAAGGGCAAGAGAAATGGGAAAGCGAAATGACTGTGCTGGCCCCAGCTCAGGGTGCACTCTCATTTGAAGGCGCAACAGGTTCAATGCCTGTAAACCCACAGATACCCGAAGATGATGTTCTGCTGAAAAACTTAAACAATGTTCAGTTGAAGAATCAGCTTCCTCCCTCACCTGTGCTCGACAGCCATGATTTTACTGTCGAGATGGAAACAGGAACAGGTAAAACGTATGTTTATCTTCGCACCATGCTTGAGTTGAATAAACGTTATGGCATGAGCAAATTTATCATCGTAGTTCCTTCCGTTGCCATCAAGGAAGGCGTTTATAAAACGCTACAAATCACTGAAGCACATTTTAAAAGCCTGTATGCGGGTACTCCATATCAATACTACCTGTATGACTCAGCAAAACCTGCGGATGTGCGAAATTTTGCTACCAGCTCTGTTATGCAGATCATGGTAATGACGGTGGGTGCGATTAACAAAAAAGATGTTAATAAGCTCTATCAGTCCAGTGAAAAAACAACCGTTGACGAACTGGATAAGCCAATCGATCTGATACGTGCTACACGTCCAATTATTATTGTAGACGAACCGCAAAGTGTGGATGGTGGTTTAAACGGTGCGGGTAAAACCGCTCTTGATGCTATGCACCCAATGTTCACCTTACGCTATTCTGCGACACATGTGCATAAACATCATATGGTGTATCGCCTCGATGCCATTGATGCCTACAATCAAAAACTGGTCAAACAAATCGAAGTTGCCGGGCTTGAAGTCCAGAATGCAAGCAATAGCCCATATGTAAAACTGGTCAGTATTAACAGTAAGAAGAATAATATTAACGCGACTGTTACTGTTGATATAACGGATAAAAAAGGGAGCATAAAGCGTACGGAGATTACCGTGTATGACGGTATGACACTTGATGACGAAACAGGGCGTGATATTTATCAGGGATACAGGATTAGCGAGATCCGCACGGGCAAAGAAGGTTATCTTACACTGGAAACACCTTCTAATACCTACTATATGAAAGTGGGTGATGTCGTGGGTGATATTGACCCGATGTTCATCCAGCGTCATATGATTAGGCGTACAATTCGTGAACATCTTGATAAAGAACTTCGCCTGAATTCTCAGCAAATCAAGGTTCTCACCCTGTTCTTCATTGATAAGGTTGATTTCTATCGCCAGACTAATGAAGAAGGACTTCGTGAACCGGGTGAATATGCACGTATCTTTGAAGAAGAATATCTAAAAGCGATCAAAAGCCCCGTATATAAAGATTTGCTCCCTTCTCATCCAGAACATGCTAAAGACGTTCATGATGGTTATTTCTCCATTGATAAAAAAGGTTCATGGGCTGAAACAAGCGAAAGCAATAATGCAGGCCGGGAAAATGCGGAGCGTGGTTATAATCTCATTATGAAAAATAAAGAGAAGCTTTTGAGTTTCTCGAATCCGGTAAGATTTATTTTTTCACACTCTGCTTTAAAAGAAGGCTGGGATAACCCCAATGTATTCCAGATCTGTAGCCTTCGAGAGATGGGAAGTGAACGAGAACGTCGTCAAACATTAGGCCGTGGTCTTCGCCTGTGCGTTAACCAAGAAGGTGAACGTGTTCGTGATGACAGCATTAACATTCTGACTGTCGTTGCCAGTGAAAACTATGAAGCCTATGCCGAACGACTACAGAGCGAAATTGAGAACGAAACAGGCATCCGTTTTGGTATCATCGAAAAAGATGCGTTTGCCCATCTGATCTTCCCTGATTCCTCACAAGCTGTGGGTATCGCCGGTTCACATGAGATTTGGTCTGAACTACAGACCGAAGGTTATCTGGAAAAATCGGGGAGTATCACAAAAGCCCTGAAAGAAGTGTTATTCGAAGACACTTTTGTTGTTAGTGAGAAGTATGCCTCCCTACAGGAACAAATTGAAGCTATCCTGCGTAAATCAGCAGGGCGACTCAATATAAACAATGCTGATGAGCGTAAAACAATCAAATACCGGAAAGAAGTCTTAAGCAGCCCGGAATTCGAAGCGTTATGGCTGCGCATTTGTCAAAAAACGCTGTACCGACTGGCATTTGACGAAGACGAATTGATTAAATCCTGTACGAAATCACTTTCTGAAATGCAGCCTGTAGCAAAAGCAATGGTCAGTTTCAGCAAAGCAACAATCAAACAAAGTCAATCTGGACTTGATGTCAAAGCTCAGTCTAATGGGACAACAAGCGCTGTTATAGATGTTGCAGAGCAGCCACTGCCAGATATTCTTGGTGTTCTACAGGAAAAAACCGGACTGACAAGACGCAGTTTAAGCACCATCCTGAAAGAGAGTGGAAGACTCGCTGATTTTGCTAAAAATCCACAGCAGTTTATCAGTGAAGCTATAGGCCGAATCAACTACTGCAAACGCCTGTCAATTGTTGATGGTATTAAATATTACCCACTAAAAGGAGAGGTTTATGCGCAAAGTCTCTTTATGGATAAAGAGCTAACAGGATATGCCCGTAATCTTTTCGAAACCTCATCTAAGTCAGTTTACGAATACGTTCCTAGAGATTCTGAAGTCGAAGGCCGTTTCGCTCAGGAACTCGAACAACAGGATGAAGTTAAGCTTTATGTGAAGCTTCCCGGTTGGTTTAAAATCCCGACGCCGCTGGGAACCTACAATCCTGACTGGGCCTTAGTTATTGAAGACCATGGTGAAGAACATATTTACTTTGTTGTAGAGACAAAAAGTAAACACATTGGTCTTGGTAATGAAGAAGATGCGAAAATTACTTGTGGTAATGCTCATTTTATCTCACTCAAAAAACAGATGCTTAATCCTGCGAGATATATGCTCTCTACAACCATAAATGATGTGTTAAGCAGTATATAA	MKLHFESDLTYQQNAITSVCDLFEGQEKWESEMTVLAPAQGALSFEGATGSMPVNPQIPEDDVLLKNLNNVQLKNQLPPSPVLDSHDFTVEMETGTGKTYVYLRTMLELNKRYGMSKFIIVVPSVAIKEGVYKTLQITEAHFKSLYAGTPYQYYLYDSAKPADVRNFATSSVMQIMVMTVGAINKKDVNKLYQSSEKTTVDELDKPIDLIRATRPIIIVDEPQSVDGGLNGAGKTALDAMHPMFTLRYSATHVHKHHMVYRLDAIDAYNQKLVKQIEVAGLEVQNASNSPYVKLVSINSKKNNINATVTVDITDKKGSIKRTEITVYDGMTLDDETGRDIYQGYRISEIRTGKEGYLTLETPSNTYYMKVGDVVGDIDPMFIQRHMIRRTIREHLDKELRLNSQQIKVLTLFFIDKVDFYRQTNEEGLREPGEYARIFEEEYLKAIKSPVYKDLLPSHPEHAKDVHDGYFSIDKKGSWAETSESNNAGRENAERGYNLIMKNKEKLLSFSNPVRFIFSHSALKEGWDNPNVFQICSLREMGSERERRQTLGRGLRLCVNQEGERVRDDSINILTVVASENYEAYAERLQSEIENETGIRFGIIEKDAFAHLIFPDSSQAVGIAGSHEIWSELQTEGYLEKSGSITKALKEVLFEDTFVVSEKYASLQEQIEAILRKSAGRLNINNADERKTIKYRKEVLSSPEFEALWLRICQKTLYRLAFDEDELIKSCTKSLSEMQPVAKAMVSFSKATIKQSQSGLDVKAQSNGTTSAVIDVAEQPLPDILGVLQEKTGLTRRSLSTILKESGRLADFAKNPQQFISEAIGRINYCKRLSIVDGIKYYPLKGEVYAQSLFMDKELTGYARNLFETSSKSVYEYVPRDSEVEGRFAQELEQQDEVKLYVKLPGWFKIPTPLGTYNPDWALVIEDHGEEHIYFVVETKSKHIGLGNEEDAKITCGNAHFISLKKQMLNPARYMLSTTINDVLSSI	PGPT0027225_509	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_III_R-M_SYSTEM,PGPT0027225-res-K01156	NA	NA
BMS020_07407	171			hypothetical protein	GTGGACGAGAAACAGCGCAAGCTGCGCATCGAGGAACTGGCACGCGAGATCTGGGAGGCCGAGGGCCGCCCGGACGGCCAGCAGATGCGTCACTGGGCCATGGCCGAGCGCCTGGTCGATGCCGAGATCCGCGCCGCGGCGCAGGAGCCCGGCGCAGGCGGTGCCGGTTGA	MDEKQRKLRIEELAREIWEAEGRPDGQQMRHWAMAERLVDAEIRAAAQEPGAGGAG				NA	NA	NA	NA	NA
BMS020_07408	2154	glgX_2	COG1523	Glycogen operon protein GlgX	ATGGCGCGGCGCTTGGTGCAGCGCTCGCGGGTGCGCGAGGGGCGGCCGTTTCCACTCGGCGCGCACTGGGACGGGCTGGGGGTCAACTTCGCGCTGTACTCGATGAACGCCACCCGGGTCGAGCTGTGCCTGTTCGACGAACGCGGCCGCGAGCAGGAGCGCATCGTATTGCCCGAATACACCGACGAGATCTGGCACGGCTACCTGCCCGACGCGCGGCCCGGGCAACGTTATGGCTACCGCGTGCACGGCCCCTACGCCCCCGAGGCCGGGCACCGCTTCAATCCCAACAAGCTGCTGCTGGATCCGTACGCCAAGCGCATCGTCGGGCAGCTGAAGTGGGCCCCGCAGCTGTTCGGCTATACCGTGGGCCATCGCGATGCCGATCTGAGCTTCGACCGCCGCGACAGCGCCGCGTTCATGCCCAAGTGCGCGGTGGTCGATCCGGCCTTCACCTGGGGCGCCGACCGCGCGCCGCGGACCCCGTGGAACCGCACCGTGGTCTACGAGGCGCACGTGCGCGGGCTGAGCATGCTGCATCCGGATGTGCCGCCGGAGCAGCGCGGCACGTTCTCGGCGCTGCGCTCGGATGCGCTGCTCGGGCACATCCGCGACCTCGGCGTGACCGCGGTGGAGTTGTTGCCGGTGCATGCCTACGTCGACGACAAGTACCTGCTGGAGAAAGGCCTGCACAACTACTGGGGCTACAACACCATCGGCTTCTTCGCGCCGCAGCCACGCTACATGGCCACCGATACCGTCGACGAGTTCAAGCAGATGGTGGCGCGGCTGCACGACGCCGGGCTGGAGGTGATCCTGGACGTGGTCTACAACCACACCGCCGAGGGCAACGAGCTGGGGCCGACGCTGTCGTTCCGCGGCATCGACAACGCCAGCTACTACCGCCTGGCCGAGCAGCGCCGCTTCTACATCAACGACACCGGCACCGGGAATACCTTCGACCTGACCAATGCCGGCGCACTGCGCATGGTGATGGACTCGCTGCGCTATTGGGTGCTGGAGATGCACGTCGATGGTTTCCGCTTCGACCTGGCCAGCATCCTTGGGCGCGAACGCTATGGCTTCGACCCGTCCGGCAGCTTCCTCGACGCGGTGCGCCAGGACCCGGTGCTCAGCCAGGTCAAGCTGATCGCCGAGCCGTGGGACATCGGGCCCGGTGGCTACCAGGTCGGCAACTTCCCGCCGGGCTGGGCCGAGTGGAACGACAAGTTCCGCGACACCATGCGCGGGTTCTGGCGTGGCGATGCCGGCAAGCTGGCCGAGTTCGCCACCCGCCTGACCGGCTCGGCCGATCTGTTCAACCACCATGGCCGCCGCCCCACCGCCTCGGTCAATTTCATCACCGCGCACGACGGCTTCACCCTGCGCGACCTGGTCAGCTACGAGCACAAGCACAACCTCGCCAACGGCGAGGACAACCGCGATGGCAGCGACCACAACCTGTCGTGCAACTACGGCGTGGAAGGCGACACCGACGACATCGGCATCCGCGAGTTGCGCCAGCGGCAGATGCGCAACCTGCTGGCCACGCTGCTGCTGGCGCAGGGCACGCCGATGCTGTTGGCGGGCGACGAGTTCGGCCGTGGCCAGCAGGGCAACAACAACGCCTACTGCCAGGACAACGAACTGAGCTGGATCGACTGGGAGGCCGCGCACGCGGCGCCGGCCGTGGACCTGGCCAACTTCGTGCGCCGGCTGCTGCAGGTGCGGCGGCGCTATCCACTGCTGCACCGCGCGCGCTTCTTCGATGGCGCCTTCGATGCCGAGCTGGGCCTGAAGGACGTGACCTGGCTGCGCCCGGATGGCGCGGAGATGCAGGACGGCGACTGGAACGACCCCGAGCGGCACGCGATCATGGTGCGGCTGGACGGGCGTGCCCCGGCCAGCGGCCTGCGCCAGATCGCCGGCAACGTGACCTTGCTGATGCTGGTCAATGCCGCGCAGGAGGCGGTCGCCTACCGCCTGCCATCGATGCACGACGAGCACTGGCGCGTGCTGGTGGATACCGCGCGCCACGGTGGCCGTTCGGTGGCCGGCGGCAGCGAGTGGACCGCGCCGGCGCGCTCGCTGGCCCTGCTGGCGGTGGAGCGCGACCGCGTCGCCAGCACCGCCAAGGTGCAGTCGCAGCATTGA	MARRLVQRSRVREGRPFPLGAHWDGLGVNFALYSMNATRVELCLFDERGREQERIVLPEYTDEIWHGYLPDARPGQRYGYRVHGPYAPEAGHRFNPNKLLLDPYAKRIVGQLKWAPQLFGYTVGHRDADLSFDRRDSAAFMPKCAVVDPAFTWGADRAPRTPWNRTVVYEAHVRGLSMLHPDVPPEQRGTFSALRSDALLGHIRDLGVTAVELLPVHAYVDDKYLLEKGLHNYWGYNTIGFFAPQPRYMATDTVDEFKQMVARLHDAGLEVILDVVYNHTAEGNELGPTLSFRGIDNASYYRLAEQRRFYINDTGTGNTFDLTNAGALRMVMDSLRYWVLEMHVDGFRFDLASILGRERYGFDPSGSFLDAVRQDPVLSQVKLIAEPWDIGPGGYQVGNFPPGWAEWNDKFRDTMRGFWRGDAGKLAEFATRLTGSADLFNHHGRRPTASVNFITAHDGFTLRDLVSYEHKHNLANGEDNRDGSDHNLSCNYGVEGDTDDIGIRELRQRQMRNLLATLLLAQGTPMLLAGDEFGRGQQGNNNAYCQDNELSWIDWEAAHAAPAVDLANFVRRLLQVRRRYPLLHRARFFDGAFDAELGLKDVTWLRPDGAEMQDGDWNDPERHAIMVRLDGRAPASGLRQIAGNVTLLMLVNAAQEAVAYRLPSMHDEHWRVLVDTARHGGRSVAGGSEWTAPARSLALLAVERDRVASTAKVQSQH	PGPT0019225_1315	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ISOAMYLASE,PGPT0019225-ISA|treX-K01214	NA	NA
BMS020_07409	234			hypothetical protein	ATGGCGCGCGAAAGCCGCTACGAGATCGAAACCTACCTGCTGCACGACATCCGCGTGCGCGCCCAGCGCGAAGACGTCGGCGCGCCGTGGCGCGTGCGCGTCGATGTGCGGCGGCCCAATGGCGAACACTGCCGGCGCGTCGAACCCGATGCCCAGCACTGGGCGCAGGCCGACCTGGCGATGCGCGACGGCTTCCAGCTCGGCCGCGCGATCGTCAACGCCGGCCTGCCCTGA	MARESRYEIETYLLHDIRVRAQREDVGAPWRVRVDVRRPNGEHCRRVEPDAQHWAQADLAMRDGFQLGRAIVNAGLP				NA	NA	NA	NA	NA
BMS020_07410	621	gstB_6	COG0625	Glutathione S-transferase GstB	ATGCTGAAGATCTGGGGGCGGCGCAATTCCAGCAATGTGCGCAAGGTGCTGTGGTGCGCCGAGGAGATCGGGGTGCCGTATGTGTCGATCGAGGTCGGCGGCGCGTTCGGCGGCACCGACGATCCGGCCTATCGCGCGTTGAATCCACACGGGCTGGTGCCGGTGATCGAGGATCACGGCCTGCCGGTGTGGGAATCCAACACGATCGTGCGCTACCTCAGCGCCCGCTATGCGCTGGATGTGCTGTACCCGTCCGATCCGGCCGAGCGCGCGCGCGGCGAGCAATGGATGGACTGGACCACATCGAGCTTCGCCGCGGCATTCCGGCCACTGTTCTGGGGCGTGCTGCGCACCGCGCCGGAGCAGCGCGACGGCGCGGCGATCGACGCCGCGCTGCAGGCATGCGCGCAGTTGCTGGCGCGCGCGGACCAGGCGCTGGCAGCGCAGCCATGGCTGTCCGGGGCGCGTTTCGCGATGGGCGACATCCCGCTCGGCGCATTCGCCTACGCCTGGTTCGAGATGCCGATCGAACGCCCGCCGCTGCCGCATCTGCAGGACTGGTACGCGCGCCTGCAGCAGCGACCGGCCTACCGCACCGCCGTGATGACGGCACTGACCTGA	MLKIWGRRNSSNVRKVLWCAEEIGVPYVSIEVGGAFGGTDDPAYRALNPHGLVPVIEDHGLPVWESNTIVRYLSARYALDVLYPSDPAERARGEQWMDWTTSSFAAAFRPLFWGVLRTAPEQRDGAAIDAALQACAQLLARADQALAAQPWLSGARFAMGDIPLGAFAYAWFEMPIERPPLPHLQDWYARLQQRPAYRTAVMTALT	PGPT0013170_18339	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS020_07411	636			hypothetical protein	ATGCACGCACGCATCGTCTTGGCGGGAGCGACCGGGCTGGTGGGCGCGCTGGTGTTGCGGCGCCTGCTCGACGATGCGCGCGTGGCCGAGGTCATCGCACCGACCCGGCGGCCGTTGCCGGCGGCGCCGAAGCTGCGCAACCCGGTGGTGGATTTCGAGGCGCTGCCGACGCTGGCGCGCGACTGGCATGCCGATGCGGCGATCTGCGCGCTCGGCACCACGCTGGCGCAGGCCGGCTCGCGCACCGCGTTCTTCCGCGTCGACCACGACTATCCGCTGTGGCTGGCGCAGGGCCTGCATGCGGCCGGGGTGCGCGCCTTCGCGCTGACCTCGGCGGCCGGTGCCGACGCGCAGTCGCGGCTGTTCTACAGCCGGGTCAAGGGCCAGCTGGAGCAGGACCTGCGCGCGCTCGGCTTCGGCTCGCTGACGCTGGTGCGCCCGGGCCTGATCGGCGGCGAACGCAGCGAGCGGCGCCCGCTCGAGCGCGCCTCCGCAGTGGTGCTCGGCGCGCTGCATCCGCTGCTGCCGCGCGGCTGGCGGATCAGCCCGGCGCCGCGCATCGCCGCGGCGCTGGTGGAGGCGGCGCTGCATCCACGCGATGGCGTGCACGTGGTTGGCGCGGCGGAGCTGGCCTAA	MHARIVLAGATGLVGALVLRRLLDDARVAEVIAPTRRPLPAAPKLRNPVVDFEALPTLARDWHADAAICALGTTLAQAGSRTAFFRVDHDYPLWLAQGLHAAGVRAFALTSAAGADAQSRLFYSRVKGQLEQDLRALGFGSLTLVRPGLIGGERSERRPLERASAVVLGALHPLLPRGWRISPAPRIAAALVEAALHPRDGVHVVGAAELA				NA	NA	NA	NA	NA
BMS020_07412	759	fabG_16		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGGAACCCGATTCCCTGCCTGGTTTGCGCGTCCTGGTCGCCGGTGGCAGCCGTGGCATCGGCCTGGCCATCGCCGCCGCATTCACCGCCGCCGGCGCCAGCGTCTCGCTGTGCGCGCGCGATCCGGGCGGGCTGGCCGCGGCCGGCGCGCGCCTGTGTGCGCTCGGCGCGGCGCCGCACCTGCACCGTTGCGACCTGGCCGACGACGCGCAGATCAGTGCCTGGGTCGATGCGGCCAGCGCTGCGCTCGGCGGCATCGACGTGGTGGTCAACAACGCCTCCGGCTACGGCAACGGCAGCGACGACGCCAGCTGGCGCGCCGGCTTCGAGATCGACCTGATGGCCGCGGTGCGCACCAACCGCGCCGCACTGGCGCAGCTGCGCCGCAGTGCCAGCCCGGCCATCGTCAACATCAGCTCGATCAACGGCCGCGTGCCGACGCCGCGCGCGGCGGCCTATTCCACCGCAAAGGCCGCGCTCAACTACTACACGGTGACGCTGGCGGCCGAGCTGGCGCGGGACAAGATCCGCGTCAACGCGGTCGCACCGGGCTCGATCGAATTCGACGACGGCCTGTGGGCACGCCGGCGACAGGAGGAGCCGGCGCTGTATGCGCGCATCCGCGACAGCATTCCGTTCGGCGGCTTCGGCGCGGTGGAGGATGTCGCCCAGGCGGTCCTGTTCCTCGCCTCGCCGCGGGCACGCTGGATCACCGGCCAGGTGCTGGCGGTGGATGGCGGCCAGGCGCTCGGGGCCTGA	MEPDSLPGLRVLVAGGSRGIGLAIAAAFTAAGASVSLCARDPGGLAAAGARLCALGAAPHLHRCDLADDAQISAWVDAASAALGGIDVVVNNASGYGNGSDDASWRAGFEIDLMAAVRTNRAALAQLRRSASPAIVNISSINGRVPTPRAAAYSTAKAALNYYTVTLAAELARDKIRVNAVAPGSIEFDDGLWARRRQEEPALYARIRDSIPFGGFGAVEDVAQAVLFLASPRARWITGQVLAVDGGQALGA	PGPT0003180_9657	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
BMS020_07413	1401			hypothetical protein	ATGGTCACGCACATCACGATCATCGGCGCCGGCTTTTGCGGCACGGCGCTGTTGCGCGAGCTGGCGCAGCAGGCTGGCGCGGCGCGCATCCGTGTCAGCCTGGTCGGCGTCGCCGACACCTTCGGCAGCGGCGTCGCCTATGGCGCGGCGCGCCCGGAGCACCTGCTCAATGTGCGCGCCAAGGATCTGGGCATCGACCCGGACGATCCGGGCGGCTTCAGCGACTTCCTGCGCCTGGGCGAGGGCGGTCGGCTGGAGTTCCTGCCGCGGCTGGCCTACGGCGACTATCTGCGCAGCCAGCTCGATGGCGCCGAGCAGCAGGCGGCGTTCGAGGTCGAACGCATCGGCGAGGAAGCGGTGGCGCTGGAGCGCGCGCCCGGTGGCGGCTTCCGCATCTTCCTGGCCAGCGGCGAAGCGCTGCGCAGCGACGTGGTGGTGCTGGCGCTCGGAGCGCTGCCGCCGCAGGCGCTGCCGGGGATCGGCCCGCGCCTGGGCGTGCATCCGCGCTACATCGGCTGGCCCTGGCAGGGCACGGCGCTGGACGGCATCGCACCGGACGCGCGCATCCTGGTGGTCGGCGCGGGCCTGACCATGGTCGATGTCGCCATCACCCTGGCGGTGCGTGGCCATCGCGGCCAGATCAGCGCGATCTCGCGGCGCGGGTTGGCCCCGCAGCCGCACCTGGCCTTGCCGGCGCCGTCGCTGGAGCTGCCGCCGAACATCCTGCGCGCGCTCAAGGAACACGACCTGGCCGGGGTGCTGCGCGGCGTGCGCCAGCTGACCGCGGTGCTGGACGACTGGCGGCGGGTCATCGATGCGCTGCGGCCGCACCTGCAGCCGTTCTGGCGCGGGTTGCCGGCCACGCAGCGGGCGCGGTTCCTGCGCCACCTGCGGCCGTACTGGGAAGTGGCGCGGCACCGGGTCGCGCCGGAAGCGCATGCGCGGCTGCAGATCCTGCAGAAGCTGGGCCGGCTGCGGATCCGTCCGGCGCGGCTGCTGCGCGCGCGGCTGGTCGAAAACGGGCTGGAGGCGGTGCTGCGCGAGCGCGGCCGCGAGGAGGCGCTGAGCGAGCGCTACGACGTGCTGATCCGTGCCACCGGACTGGATACCGACGTCGACCGTACCAGCGACCCGTTGGTCTCCAGCCTGCGCGAGGCCGGCCTGGTCAGTCCCGATCCGCTCGGTCTCGGCCTGGACGTCGATGCGGGGCTGCGGGTGCAGGATGCGGCCGGGCAGCCGGTGGATGGTCTGTACTGCGTCGGGCCGCTGTTGCGCGGCCGGCTGTGGGAGATCACGGCGGTGCCGGAGTTGCGGGTGGCGACGCGGCAGTTGGTCGCGCATCTGCTGGCCGGGAATGCGCGGGGCGAGACGACGGCGCAGGCGAAGCGGCGTCAGGCCTGA	MVTHITIIGAGFCGTALLRELAQQAGAARIRVSLVGVADTFGSGVAYGAARPEHLLNVRAKDLGIDPDDPGGFSDFLRLGEGGRLEFLPRLAYGDYLRSQLDGAEQQAAFEVERIGEEAVALERAPGGGFRIFLASGEALRSDVVVLALGALPPQALPGIGPRLGVHPRYIGWPWQGTALDGIAPDARILVVGAGLTMVDVAITLAVRGHRGQISAISRRGLAPQPHLALPAPSLELPPNILRALKEHDLAGVLRGVRQLTAVLDDWRRVIDALRPHLQPFWRGLPATQRARFLRHLRPYWEVARHRVAPEAHARLQILQKLGRLRIRPARLLRARLVENGLEAVLRERGREEALSERYDVLIRATGLDTDVDRTSDPLVSSLREAGLVSPDPLGLGLDVDAGLRVQDAAGQPVDGLYCVGPLLRGRLWEITAVPELRVATRQLVAHLLAGNARGETTAQAKRRQA				NA	NA	NA	NA	NA
BMS020_07414	2037	fusA_4	COG0480	Elongation factor G	ATGAACACCCAGTCCCTGTCGCGCCGTCGCAACCTCGGCATCATCGCCCACATCGACGCCGGCAAGACCACACTGACCGAACGCCTGTTGTGGCGCACCGGCGCGATCCATCGCATCGGCGAAGTCCACGACGGCGCCGCCACCACCGACTTCTCGGCGATCGAGCGCGAGCGCGGCATCACCATCGGCGCCGCCGCCGTGCAGGCACAGTGGGCGCCGCGCGACGCGCAGGCGTACCAGCTGACCCTGATCGACACCCCCGGCCACATCGATTTCGCGATCGAGGTGGAACGTTCGCTGCGCGTGCTCGACGGCGCGGTCGCGGTGTTCTCGGCGGTCGATGGCGTGCAGCCGCAGTCGGAGACCGTGTGGCGCCAGGCGCGCCGCCACGGCGTGCCGCTGCTGGCCTTCGTCAACAAGATGGACCGGGCCGGCGCGTCGTTCGACGGCGTCGTCGCGCAGATGCGCGCCAAGCTCGACGCCACGCCGTGGCCGCTGGGCCTGCCGCTCGGCGACGACGGCGCGTTCGACGGCTGGGTCGACCTGGTCGCGCGCGGCGTGGTCGGCTGGCCGCCTGCGCAGCCGGCGTCGCTGCGCCCGTGGACCGACGACGAGCAGGCGCGCTATGCGCCGGCGCGCGAGCGGCTGATCGCCGCGGTCGCCGAGCACGACGACGCGCTGGCCAGCGTCTACCTGGACGGCGGCGACGTCGATGCCGAGCTGCTGCGGGCGGCGCTGCGCCGCGCCACGCTGGCCGGTGCCGGCGTGCCGGTGCTGGCCGGCTCGGCGTTCAAGCACAAGGGCATCGAGCTGCTGCTCGACGCCATCGTCGACTACCTGCCCTCGCCGCTGGACCGTCCGGCGGTGAAGGCCGACAGCGACGACGGCGAAACGCGGCTGGCGGCGGACCCGGACGGCCCACTGGCGGCGCTGGTGTTCAAGATCACCCACCAGGAACATGCCGCGCTGGCGTTCGTGCGGGTCTATTCGGGCACGCTGAAGGTCGGCGACATGGTCGCCTCGTCGCATGCGCCGCGGCCGCGCCGGATCGGCCGGCTGGCGGTGGTGCAGGCCGACCGCGTGCACGACATCGCGCAGACGCAGGCCGGCGAGATCGTCGCGGTGCTGGGCTGGAAGGACGTCGCCAGCGGCGAGACGCTGAGCGCGCCGGCACGGCCGCTGCGGCTGGAGAGCATCCAGGCGCAGCCGGCGGTGCTGGCGTGGCGGCTGACCGCCGGCAATGCCAACGAGCTGATCCGGCTCGGCCAGGGCCTGGCGCAGCTGGCGCAGGAAGACCCGTCGTTCCGCGTCGGCAGCGATGCCGAGACCGGCGAGACGCTGGTGTGGGGCATGGGCGAGCTGCACCTGGAGGTGATGGTGGAACGCCTGCGCAGCGAGTGGAAGCTCGACGTGCGCACCGGTGCGCCGCGGGTGGCCTACCAGGAAACGCCGCGGCTGCTCCGGCGCGGCGTCGAGGGCAGGCTCTCCAAGCAGACCGGCGGCCACGGCCAGTTCGCGCGGGTGGTGCTGGACATCGTCCCGCGCGACGACGGCGAGGTGGTGTTCGTCGACCGCACCAGCGGCGGCGTGGTGCCGCGTGCGTTCGTCGCCGCCACCGAGAAGGGCGTGCGCGCGGCGCTGGCCGAAGGCCCGCGCGGCTTCCCGGTGGTCGGCGTCGAGGTGACGCTGGTCGACGGCGAGGCGCATGCGGTGGATTCGTCGGACATGGCGTTCCAGCGCGCGGCGGCCGAGGCGGTGCGCGGCGCCCTGCAGCAGGACGGCACGGTGCTGCTGGAGCCGGTGATGGCGTTGGCGATCGACACGCCGGCGGCCAGCGTCGGCGACGTGGTCGGCGACCTGCAGCGGCGCGAAGGGCGGGTGCTGGCGATCGAGGACCGCGGCAACCGCGCCGAGGTCAGCGCGCACGCCCCGCTGGCGCAGCTGCAGGCCTACACCACCGCGCTGCGCTCGCTGACCCAGGGCCGCGCCTCGGCCAGCCTGCAATTCGAAGGCTACGCCCCGGCCCGCACGGCCTGA	MNTQSLSRRRNLGIIAHIDAGKTTLTERLLWRTGAIHRIGEVHDGAATTDFSAIERERGITIGAAAVQAQWAPRDAQAYQLTLIDTPGHIDFAIEVERSLRVLDGAVAVFSAVDGVQPQSETVWRQARRHGVPLLAFVNKMDRAGASFDGVVAQMRAKLDATPWPLGLPLGDDGAFDGWVDLVARGVVGWPPAQPASLRPWTDDEQARYAPARERLIAAVAEHDDALASVYLDGGDVDAELLRAALRRATLAGAGVPVLAGSAFKHKGIELLLDAIVDYLPSPLDRPAVKADSDDGETRLAADPDGPLAALVFKITHQEHAALAFVRVYSGTLKVGDMVASSHAPRPRRIGRLAVVQADRVHDIAQTQAGEIVAVLGWKDVASGETLSAPARPLRLESIQAQPAVLAWRLTAGNANELIRLGQGLAQLAQEDPSFRVGSDAETGETLVWGMGELHLEVMVERLRSEWKLDVRTGAPRVAYQETPRLLRRGVEGRLSKQTGGHGQFARVVLDIVPRDDGEVVFVDRTSGGVVPRAFVAATEKGVRAALAEGPRGFPVVGVEVTLVDGEAHAVDSSDMAFQRAAAEAVRGALQQDGTVLLEPVMALAIDTPAASVGDVVGDLQRREGRVLAIEDRGNRAEVSAHAPLAQLQAYTTALRSLTQGRASASLQFEGYAPARTA				NA	NA	NA	NA	NA
BMS020_07415	342			hypothetical protein	ATGCGCAGGACCTACCGCCTCAACATCGAAGGCAAGAACCGCGATCGCCTGATCGAGGCCAGCAAGCACGACATCCGCAAGTACATCCGCCGCGAGCGCCGCAAAGAGCTGCCTGCCGGGGCCGATTTCTGGGACTTCGACACCAAGTTCGGCTTCGAGGAAGCCACCGCCGAGGTGATTCCACCGGCCGAGCTGATCCGCACGATCAGCGCGCACGTGGCCACCGGTGCCGAGCAGTTCTACGTCGAAGTGGTGCGCAAGCCGGGCAAGAAGGTGCCGCGCCAGGCGGCCGAAGCGGACGCCGACCCGGACGCGGAACTGGACTTCGACGACCAGGAATGA	MRRTYRLNIEGKNRDRLIEASKHDIRKYIRRERRKELPAGADFWDFDTKFGFEEATAEVIPPAELIRTISAHVATGAEQFYVEVVRKPGKKVPRQAAEADADPDAELDFDDQE				NA	NA	NA	NA	NA
BMS020_07416	1275	rhlE_3	COG0513	ATP-dependent RNA helicase RhlE	ATGCCTTTCGCCTCCCTCGGCCTTTCGCCCTCGCTGCTGCCCGCCTTCGCGCAGGCCCTGGACGCGGCCGGCTACCGCGCGCCGACGCCGGTGCAGCAACGCGCGATCCCGCTGATCACGCAGGGCCACGACCTGCGCGTGCGCGCGCAGACCGGCAGCGGCAAGACCGTCGCCTTCGCGCTGCCGCTGCTGCAGCGCTGCGCCGAAGCGCCGCCGTCGGCGCAGTTGCAGGCGCTGGTGCTGGTGCCCACGCGCGAACTGGCGGTGCAGGTCGGCGACACGCTGGTGCGGCTGGCGCAGCACCTGCCGCGCCGGATCCGAAGCGTCACCGCGGTCGGCGGGGTGTCGATCAACCCGCAGCTGATGGCGCTGCGCGGCGGTGCCGACGTGGTGGTCGCCACGCCCGGGCGCCTGCTCGACCTGGTCCGCCACAACGCGCTGCGCCTGGACGCGCTGACGCTGCTGGTCCTGGACGAGGCTGACCGGCTGTTGGAACTGGGCTTCGGCGAGGAACTCGAGGCGATCCTGGCGCTGCTGCCGCAGCGTCGCCAGACCCTGCTGTTCTCGGCCACCTATCCCGACGCCGCCGTGCGGCTGGCACAGCGCCTGCTGCAGGCGCCGCGCGAGGTGCTGATCGAAGACAGCGCCGCGCAACGGCCGGCGATCGTGCAGCGCGCGATCGAGGTCGATGCCCATCGCCGCACCGCGCTGCTGCGCCACCTGGTGGAACAGGAAGGCTGGCAGCAGCTGCTGGTGTTCGTCGCCAGCCAGCGCAGTGCCGACAACGTCGCCGAGAAGCTGCGCAAGGCCGGGCTGGCGGCGCAGGCGCTGCACGGCGAGCTCAGCCAGGGCCGGCGCGCGCAGGTGCTGCGCGACTTCCAGGCCAACACGCTGCAGATCGCCGTCGCCACCGACGTGGCCGCGCGCGGGCTGGACATCGCCGCGCTGCCGCTGGTGGTCAACTACGACCTGCCGCGCGCCACCGTCGACTACACCCACCGCATCGGCCGCACCGCGCGCGCCGGCGCCAGCGGCACCGCGATCAGCTTCGTCGATGCCGCCAGCGAGGCGCACCTGCGCCTGATCGAAAAACGCGAGCGGCAGCAGGTGCCGCGCGAGCGCATCGCCGGATTCGAGCCCAGCGCGACCGCCGCGCCGACACCGCCGGTCGCCGCCGACGGCAACGGCGGCATCAAGGGCCGCCGCCCGAGCAAGAAGGACAAGCTGCGCGCGGCCGCGGCGGCCAGGGCCGCCGACGGCGACGCGCACGAATAG	MPFASLGLSPSLLPAFAQALDAAGYRAPTPVQQRAIPLITQGHDLRVRAQTGSGKTVAFALPLLQRCAEAPPSAQLQALVLVPTRELAVQVGDTLVRLAQHLPRRIRSVTAVGGVSINPQLMALRGGADVVVATPGRLLDLVRHNALRLDALTLLVLDEADRLLELGFGEELEAILALLPQRRQTLLFSATYPDAAVRLAQRLLQAPREVLIEDSAAQRPAIVQRAIEVDAHRRTALLRHLVEQEGWQQLLVFVASQRSADNVAEKLRKAGLAAQALHGELSQGRRAQVLRDFQANTLQIAVATDVAARGLDIAALPLVVNYDLPRATVDYTHRIGRTARAGASGTAISFVDAASEAHLRLIEKRERQQVPRERIAGFEPSATAAPTPPVAADGNGGIKGRRPSKKDKLRAAAAARAADGDAHE	PGPT0013740_3521	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS020_07417	1461	pdhC_2		Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	ATGAGCGACACCAACCATTTCCACCTGCCCGACCTGGGCGAAGGCCTGCCGGACGCCACCATCGTCGAGTGGTTCGTCAAGGAAGGCGACACGATCCGCCTGGACGAACCGCTGGTCTCGATGGAGACCGCCAAGGCCGTGGTCGAGGTGCCCTCGCCGGTCTCGGGCAAGGTGCTGCATCTGTCCGGCGCCGCCGGCGACGTGATCGCCACCGGCGCGGTGCTGGCCAGCTTCGAGCTCGACCCGGCGCTGCCGCAGCGCGCCGCCGGCCATGACACCGGCCACCACCACGGCGGCACGGCGGCGGCGCAGGCGGCTGCCGCGCCGGCACCCGCGGTGGTCGCGGCGAACGAGGATAGCGACGCGCCGCAGGATGCCGGCACGGTGGTCGGCGCGATGCAGAGCTCCAACACCGTGCATGCCGAGCAGGCGATCGCGGTCGGCGGGGTCAAGGCGATGCCGGCGGTGCGCGCGATGGCACGCAAGCTCGGCGTCGACCTGGCGCGGGTGCGCGCCAGCGGCAGCGACGGCGCGGTGACCATGGCCGACCTGAAGCAGGCCGCGGCCGACGGCTCGGCACGCGCCTCCGCCATGGCGCCCTCACCCGACGCGCGGCGCGCGTCGACCTCTCCCGCAGGCGGGAGAGGGGATGGGAGCAACGCGGCCGGCGCCAGTGTCGGTGCTGCCGGTGCCGAGCGAAGCGTGGCCGGCGCGTCCCTTCTCCCGCATGCGGGAGAAGGTGCCCGCAGGGCGGATGAGGGCCGCTCGCCGCTTTCCGCCAGCGGCAAACCGATGCGCACCCAGCCGCCAGGCGTCGCCATCAAGGGCCAGCCCGAGCAGCTCAAGGGCGTGCGCCGCAACATGGCACGGGTGATGGCCGACGCACACAGCAAGGTGGTACCGACCACGCTGACCGACGACGCCGACATCCACGCCTGGCGCCCCGGCAACGACGTCACCGTGCGCCTGGTGCGCGCGATCGTCGTCGCCTGCCAGGCCGTGCCGGCGCTCAACGCCTGGTTCGACGGCGATGCGCTGAGCCGCACGCTGCACCATCAGATCGACATCGGCATCGCCGTGGACACCGACGAAGGGCTGTTCGTGCCGGCGCTGCGCAATGCCGACATGCTCGACGCGCGCGGCATCCGCGAAGGCGTCAACCGGCTGCGCGAGCAGGTCGGCAACCGCAGCATCGCCGCCTCGGAACTGTCCGGCTACACGATCTCGCTGAGCAATTTCGGCATGTTCGCCGGCCGCTACGCCACCCCGGTGGTGGTGCCGCCGTGCGTAGCGATCGTCGCCGCCGGGCGCGCGCGCTACCAGGTCACCCCGGTGATGGGCGGGATCGAAAGCCACAAAGTGATCCCGCTGTCGCTGACCTTCGACCACCGCGCCGCCACCGGCGGCGAGGCGGCGCGCTTCCTGCGCGCGATGCTCGACGACCTCGCGCTGGCGGACTGA	MSDTNHFHLPDLGEGLPDATIVEWFVKEGDTIRLDEPLVSMETAKAVVEVPSPVSGKVLHLSGAAGDVIATGAVLASFELDPALPQRAAGHDTGHHHGGTAAAQAAAAPAPAVVAANEDSDAPQDAGTVVGAMQSSNTVHAEQAIAVGGVKAMPAVRAMARKLGVDLARVRASGSDGAVTMADLKQAAADGSARASAMAPSPDARRASTSPAGGRGDGSNAAGASVGAAGAERSVAGASLLPHAGEGARRADEGRSPLSASGKPMRTQPPGVAIKGQPEQLKGVRRNMARVMADAHSKVVPTTLTDDADIHAWRPGNDVTVRLVRAIVVACQAVPALNAWFDGDALSRTLHHQIDIGIAVDTDEGLFVPALRNADMLDARGIREGVNRLREQVGNRSIAASELSGYTISLSNFGMFAGRYATPVVVPPCVAIVAAGRARYQVTPVMGGIESHKVIPLSLTFDHRAATGGEAARFLRAMLDDLALAD				NA	NA	NA	NA	NA
BMS020_07418	369			hypothetical protein	ATGCGCGCCCGTCTGCTCTGCGACTACGCCAGCGCCTACCCCAACCCGATCCGCTTCCGCACCGGCCAGGTGGTCGGGCTCGGGGTGCGCGACGAGGAATGGCCGGCGTTCGCCTGGGTCAGCGTCGACGGCGGCAACGCCGGCTGGGCGCCGCACGCCTGGCTGCGCCCGCTCGGCGACGGCCGCGCCGAAGCGCTGCGCGACTACGACGCGCGCGAACTGAATGCCGGTGCCGGCAGCGTGGTCGCGCTGCTGCACGAACACGGTGGATGGTGGTGGGCCGAACGCGCCGACGGCGCGCGCGGCTGGCTGCCGTCGGCCGACCTGGAACTGCTCGAAGAGCCCCATCTGGAACACGCATCCGCATGA	MRARLLCDYASAYPNPIRFRTGQVVGLGVRDEEWPAFAWVSVDGGNAGWAPHAWLRPLGDGRAEALRDYDARELNAGAGSVVALLHEHGGWWWAERADGARGWLPSADLELLEEPHLEHASA				NA	NA	NA	NA	NA
BMS020_07419	1077	pdhB	COG0022	Pyruvate dehydrogenase E1 component subunit beta	ATGAACATCGAGATCAACAAGCAGGCGGTGCTGACGCCGGTGGATGCCGGCACCACCCCGGCCGCGCTGGGCCAGGAGCGCACCGCGGCCGCCACCGCCACCCCGATCACCCTGATCGAGGCGATCACCCAGGCGCTGGCCTGGGAGCTGGCGCACGACCCGTCGGTGCTGGTGCTGGGCGAGGACGTCGGCGTCAACGGCGGCGTGTTCCGCGCCACCGCCGGGCTGCAGCAGCGCTTCGGCGCGCAGCGCGTGCTCGACACCCCGCTCGACGAGACCACCATCGCCGGGCTGTCGGTCGGCCTGGCCGCGCAGGGCATGAAGCCGGTGGCCGAGTCGCAGTTCGACGGCTTCGTCTATCCGATGGTCGACCACCTGGTCAGCCATGCCGCGCGCCTGCGCAACCGCACCCGCGGCCGCCTGCACTGCCCGATGGTGCTGCGCGTGCCGTGGGGTGGCGGGATCCGCGCGCCGGAGCACCACAGCGAGGCCAACGAGGCGATCTTCACCAACGTGCCGGGCCTGCGCGTGGTGATGCCGTCCAGCCCGCAGCGCGCCTACGGGCTGCTGCTGGCGGCGATCCGCGACCCCGATCCGGTGGTCTACATGGAGCCCAAGCGCATCTACCGCCAGTACAAGGAGCTGGTGGTCGACGACGGCGAGGCGCTGCCGCTGGACGTATGCTTCGTGCTGCGCGACGGCACCGACGTGACCCTGGTGGCCTGGGGCGCACAGATCAAGGAAGCGCTGGAAGCGGCCGACAAGCTCGCCGCCGACGGCATCAGCGCCGAGGTCATCGACGTGGCCACGCTGCGCCCGCTCGATTTCGACACTATCGCCGAATCGGTGGCGCGCACCGGCCGCTGCGTGATCGTGCAGGAAGCCCCGCGCACCGCCGGCTTCGGCGCCGAGATCGCCGCGCGGCTGGCCGAGTCGTCGATGTACGACCTGCTGGCGCCGGTCGAGCGCGTCACCGGCTACGACACCCACATCCCGCTGTTCCGGCTGGAGATGAAATACCTGCCGAGCGTGGAGCGGATCGTCGCCGCGGCGCGGCGCGCCGTGGGCGCGGGCTGA	MNIEINKQAVLTPVDAGTTPAALGQERTAAATATPITLIEAITQALAWELAHDPSVLVLGEDVGVNGGVFRATAGLQQRFGAQRVLDTPLDETTIAGLSVGLAAQGMKPVAESQFDGFVYPMVDHLVSHAARLRNRTRGRLHCPMVLRVPWGGGIRAPEHHSEANEAIFTNVPGLRVVMPSSPQRAYGLLLAAIRDPDPVVYMEPKRIYRQYKELVVDDGEALPLDVCFVLRDGTDVTLVAWGAQIKEALEAADKLAADGISAEVIDVATLRPLDFDTIAESVARTGRCVIVQEAPRTAGFGAEIAARLAESSMYDLLAPVERVTGYDTHIPLFRLEMKYLPSVERIVAAARRAVGAG	PGPT0008862_424	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
BMS020_07420	1080	pdhA		Pyruvate dehydrogenase E1 component subunit alpha	ATGACCGTTGCCGCACAGTTCGAGATCGAGTTCCTGCAGTACCTGGACGCGGACGGCACGCCGCTGCGTCCGCTGCCCGAGCACATTGACCCGCAGACCCTGCTGGCGCTGTTCAAGCACATGCTGTTCGTGCGGACCTTCGACACCAAGTCGATCGCGCTGCAGCGCACCGGCAAGCTCGGCACCTATGCCGCATGCCTGGGCCACGAGGCCGCGCATGTCGGCATCGGCGCGGCGATGCGCCCCGGCGACGTGTTCGCGCCGAGTTACCGCGAGTACGGCGCGCTGTTCGAGCGCGGCGTGCGCCCGCGCGACGTGCTGCTGTACTGGGGCGGCGACGAGCGCGGCAACGACTTCCCGCGCGACGCGCCGGCGGCGATCGACTTCCCGTTCTGCGTGCCGATCTCCACCCAGTGCCTGCACGCGGCCGGCGCCGCGTTGAAGTTCAAGCTCAACGCGCAGGCACAGGTCGCGGTGGCGGTGTGCGGCGACGGCGGCAGCTCCAAGACCGACTTCTACGCCGCGCTCAACGCGGCCGGCGCCTACGCGCTGCCGCTGATCCTGTGCGTGGTCAACAACGGCTGGGCGATCTCGGTGCCGCGCTCGGCGCAGACCGGTGCGCAGACGCTGGCGCAGAAGGGCCTGGCCGGCGGCCTGCATTGCCTGCAGGTGGACGGCAACGACCTGGTCGCGGTGCTCGACGCGATGCACCAGGCGCGCGTGCGTGCGCTCGCCGGCGACGGCGGCACGGTGATCGAGTTCCTCACCTACCGCCTGTCCGACCACACCACCGCCGATGACGCGCGCCGCTACCGCGACGATGCCGAGGTCAAGGCGGCCTGGACGCGCGAGCCGATGATCCGCCTGCGCACTTACCTGGTTGCGCAGGGCCTGTGGGACGAGGCCCGCGAGGATGCCTGGAAGGCCGAGTGCGCCTCCCAGATCGATGCCGAGGTCGATGCCTACCTCGCCACCCCGGTGCAGCCGGTCGAGGCGATGTTCGACTACCTGTATGCCGATCCGCCGCCGGAGCTGCTGTCCCAGCGCGCCACGGCCATCGCCCTGGAGCAGCGCGCATGA	MTVAAQFEIEFLQYLDADGTPLRPLPEHIDPQTLLALFKHMLFVRTFDTKSIALQRTGKLGTYAACLGHEAAHVGIGAAMRPGDVFAPSYREYGALFERGVRPRDVLLYWGGDERGNDFPRDAPAAIDFPFCVPISTQCLHAAGAALKFKLNAQAQVAVAVCGDGGSSKTDFYAALNAAGAYALPLILCVVNNGWAISVPRSAQTGAQTLAQKGLAGGLHCLQVDGNDLVAVLDAMHQARVRALAGDGGTVIEFLTYRLSDHTTADDARRYRDDAEVKAAWTREPMIRLRTYLVAQGLWDEAREDAWKAECASQIDAEVDAYLATPVQPVEAMFDYLYADPPPELLSQRATAIALEQRA	PGPT0008861_2123	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166	NA	NA
BMS020_07421	3570			hypothetical protein	ATGAGAGAGAGACTGCTACGGGCGTGCGCGCTCGCGGGCGCGTTCGCGTTCGCCGGCGGCGCCCAGGCGCAGGTCGTCATCAGCCAGGTGTATGGCGGTGGCGGCAACAGCGGCGCCGAGTACAAGAGCGACTTCATCGAACTGCACAACACCAGCAGCAGCGCCGTGGACATCGGCGGCTGGTCGGTCCAATACGCCTCGGCCTCCGGCAGCAGCTGGCAGGTCACCGCGCTCAGCGGCAGCATCGGCCCGGGCGGCTACTACCTGGTCAAACAGGCCGACGGCAGCGGCGGCAACACCGCCCTGCCCACGCCCGATGCGACTGGCACCATCGCGATGAGCGGCACCAACGGCAAGGTCGCGCTGAGCAATGCCAGCACCCAGCTCAGCGGCACCTGTCCGACCGGCAATGTCGACTTCGTCGGCTACGGCAGCGCCAACTGCGCCGAGGGCAGCGCGCCCACCGCGGCGCTGAGCAACACCACCGGTGCGCTGCGCAACGACAGCGGCTGCACCGACACCGACAACAACGCCGCCGATTTCACCGTCGCCGCGCCCGCGCCGCGCCCCGGCGCCGGCCCCGGGTACCAGTGCCGCGGCGGCCACACGCCGGTGCTGACCGTCGCCGACGGCTCGGTCGACGAGCGGGCCGGCAGCGTGCTGTTGAGCGTGACCCTGTCGCAACCGGCCGGGGCCGGCGGCGTCAGCGTCGACTACGCCACCGTCGATGGCACCGCCACCGCCGGCAGTGACTATCAGGCCACCTCCGGCACGCTGACCCTGCCCGAGGGCGTGGCCGGCTTCGTGCTGAACATCCCGATCAACGACGACAGCGAGGTCGAGGGCAACGAGGTCTTCTACGTCGATTTCAGCAACGTGCAGGGCGCCCTGCTGGGCACCACGCGCGCCACCGCGACCATCGTCGACGACGACTTCAACCGCATCGCCATCCATACCATCCAGGGCAACGGCGCGCGTTCGTCGTACGAAGGCCAGGTGGTGGCAACCTCCGGCATCGTCACCGGCCGGCGCAGCAGCGGCTTCTACCTGCAGGCGCCCGACGCCGAGGCCGATGCCGATCCGCTGACCTCCGAGGGCATCTATGTCTACACCGGCAGCACCCCGCCGGACATCGCCGCGGTCGGCAACCGCGTCACCGTGCAGGGCACGGTGCAGGAGTACGTGCCCAGCGCCGATCCGACCCAGCCGCCGCTGACCGAGATCGGCAACACGCCGACAGTGGTGTTTGAAGCGAGCGGCCAGGCACTGCCGATCCCGGTGGTGCTGAGCGTGGACTTCCCCGACGCGCAGGGCAGTTACGACCAGCTCGAACGGCTCGAGGGCATGCGCGTCAGCGCCGCCAGCCTGACCGTCAACGCGCCGACCGGCGGCAGCGTCAGCGAGGCCAACGCCAGCGCGACCAGCAACGGCGTGTTCCATGCGGTGGTCACCGGCCAGCCGCGCGCCTGGCGTGGTCCCGGCGTGCAGCTGCCCGATCCGCTGCCGGCCGGCTCGCCGGCCGACGTGCCGCGCTGGAACACCAGCCCGCAGGTGATCGCGGTCGCCAGCGCCGGGCTCGGTGGCGACCGCATCGACGTCGCCTCCGGGTGCATCGTCGCCAATGTCACCGGTCCGCTGGACTACAGCTACCGGCGCTACACGCTGTACCCGGAGAGCGCGCCGCAGGTGGACTGCAGCGGGGTCGCACCGGTCGCCGCGCCGCAGCCCGGGGCCGACGACATCAGCGTCGCCACCTACAACCTGGAGCGCTTCTTCGACGACAGCAACGACCCGGCGATCGGCGAGCCGGTGCTGTCCAGCAGCGCCTACCAGGGACGTCTGAACAAGCTGTCGCTGGCGGTGCGCGACTACCTGCACCTGCCCGACATCCTCGGCGCGGTGGAAGTGGAAAACCTGGCGGTACTGCAGCAGGTGGCCGCGCGGATCAACACCGACGTGGTCGCCGCCGGCCAGCCCGACCCGCAGTACGCCGCCTATCTGGTCGAAGGCAACGACGTCGGCGGCATCGATGTCGGCTTCCTGGTCAAGCAGGCCGAGGTCGCCGCCGGGCTGCCGCGCGTGGAAGTGCGCAACGTGGTGCAGGAAGGCAAGCAGACCACCTGGACCGAGCCGGACGGCAGCGTCAGCCTGCTCAACGACCGCCCGCCACTGGTGATGGAGGCGGTGGTGCACTTCGCCGACGGCCGCAGCCGGCCGCTGACCGCGATCGTGGTCCACCAGCGTTCGCTCAACGGTGCCGAGACCGACGACGCCGGCGGCGAACGCGTGCGTGCCAAGCGCCAGGCCCAGGCCGAGTTCCTGGCCAACCTGCTGCAGGCGCGCCAGGCCGCGCAGCCGGACGAGCACGTGCTGGTGATGGGCGATTTCAACGCGTTCGAGTTCAACGACGGCTACGTCGACGCGATGGGCACGGTCACCGGCCGCCCCAGCGCCGATGCCGAAACCGTCATCGCCGGCGACGGCACCGACCTGGTCACGCCGGACTACACCGACCTGACCTGGCTGGACACGCCCGACCGCAGCTATTCGTACACCTACGACGGCAACGTGCAGTCGCTGGACCACATCCTGGCCAGCCACGCGCTGATGACCTCGGCGCAGGTGGCGACGCTGCAGCTCGGCCATGCCCGGCTCAACGCCGACTTCCCGGAGACCGCGCGCAACGACTTCACCAGTCCGGCGCGCCTGTCCGACCACGACCCGACCGTGGTGCTGCTGCGGCTCAAGCCACTGCAGCGCGCCGACCTGGGCGTGGCGGTGAGCGCGGCCAACGACGCGGTCTACGCCGGCGACACGCTGGCCTACAGCGTCGACGTCGGCAACCGCGGCCCGGACGCGGCCGAACAGGTGGCGCTGGCGCTGGCGGTGGATGCGGCGATCGCGCCGCAGGTGCAGCCGCCGCCGGGCTGGAGCTGCCAGCCGGCGGTGGTCGACGGCGCCAACACCGTGGTCAGCTGCACCCGTGCCACGCTGCCCAGCGGCGATGCGCAGCGCTTCGGCGTGCGCGTGCCGACCGAGGCGGCGATGGCCGGGCGCACCCTGACCCTGGCCGCGGCGCTGCGCGCGCAGACCGAGGACCCGCAGCCGGACGACAACGACGACAGCCTCGCCCGCAGCCTGCAGGCGCGCCCGGCCAGCGACCTGGTGACCACGCTGAGCGGGCCGGCGACGGTGCCGCTGGGCACCTTCAGCGTCGACTATGCGCTGCAGGTCCGTAACGCCGGCAACGCGCCGGCAACCACGGTGACGCTGGAGGTGGACGGCAACACCATCAACCAGCTGTCGACGCTGACCGCTCCGGCTGGCTGGCAATGCGCCAGGCAGGCCATCGCCGGTCCGCGCAGCGCGCGCTTCCAGTGCGCCGCCACGCGCGAGCTGGCGGCGGGGGCGAGCGCGGCGTTCGCGTTGAAGGTCAATGCGGTGCCGGCGCCGGCCGATGGCGTGGTCACGGTGCAGGCGAGCGCGCATTCAGCCTCGACCGATGCGCACCCGGACGACAATTCGTCGCAGTGGAGCACGCAGATCGTGCGTCCCGGCAAGGGCCGCTGA	MRERLLRACALAGAFAFAGGAQAQVVISQVYGGGGNSGAEYKSDFIELHNTSSSAVDIGGWSVQYASASGSSWQVTALSGSIGPGGYYLVKQADGSGGNTALPTPDATGTIAMSGTNGKVALSNASTQLSGTCPTGNVDFVGYGSANCAEGSAPTAALSNTTGALRNDSGCTDTDNNAADFTVAAPAPRPGAGPGYQCRGGHTPVLTVADGSVDERAGSVLLSVTLSQPAGAGGVSVDYATVDGTATAGSDYQATSGTLTLPEGVAGFVLNIPINDDSEVEGNEVFYVDFSNVQGALLGTTRATATIVDDDFNRIAIHTIQGNGARSSYEGQVVATSGIVTGRRSSGFYLQAPDAEADADPLTSEGIYVYTGSTPPDIAAVGNRVTVQGTVQEYVPSADPTQPPLTEIGNTPTVVFEASGQALPIPVVLSVDFPDAQGSYDQLERLEGMRVSAASLTVNAPTGGSVSEANASATSNGVFHAVVTGQPRAWRGPGVQLPDPLPAGSPADVPRWNTSPQVIAVASAGLGGDRIDVASGCIVANVTGPLDYSYRRYTLYPESAPQVDCSGVAPVAAPQPGADDISVATYNLERFFDDSNDPAIGEPVLSSSAYQGRLNKLSLAVRDYLHLPDILGAVEVENLAVLQQVAARINTDVVAAGQPDPQYAAYLVEGNDVGGIDVGFLVKQAEVAAGLPRVEVRNVVQEGKQTTWTEPDGSVSLLNDRPPLVMEAVVHFADGRSRPLTAIVVHQRSLNGAETDDAGGERVRAKRQAQAEFLANLLQARQAAQPDEHVLVMGDFNAFEFNDGYVDAMGTVTGRPSADAETVIAGDGTDLVTPDYTDLTWLDTPDRSYSYTYDGNVQSLDHILASHALMTSAQVATLQLGHARLNADFPETARNDFTSPARLSDHDPTVVLLRLKPLQRADLGVAVSAANDAVYAGDTLAYSVDVGNRGPDAAEQVALALAVDAAIAPQVQPPPGWSCQPAVVDGANTVVSCTRATLPSGDAQRFGVRVPTEAAMAGRTLTLAAALRAQTEDPQPDDNDDSLARSLQARPASDLVTTLSGPATVPLGTFSVDYALQVRNAGNAPATTVTLEVDGNTINQLSTLTAPAGWQCARQAIAGPRSARFQCAATRELAAGASAAFALKVNAVPAPADGVVTVQASAHSASTDAHPDDNSSQWSTQIVRPGKGR				NA	NA	NA	NA	NA
BMS020_07422	870	kynA	COG3483	Tryptophan 2,3-dioxygenase	ATGTCTGTCGACAAGAACCTGCGCGAACTGGAAGCCGGCATCCATACCGACCTGGAGGGGCGCCTGACCTACGGCGGCTACCTGCGGCTGGACCAGCTGCTGTCGGCGCAGCAGCCGCTGTCGGACCCGCCGCACCACGACGAGATGCTGTTCATCGTCCAGCACCAGGTCTCCGAGCTGTGGCTGAAGCTGCTGGCGCACGAGCTGGGTGCGGCGATCGGCCATCTGCAGCGCGACGAGGTCTGGCAGTGCCGCAAGGTGCTGGCGCGCGGCAAGCAGGTGCTGCGCCAGCTGACCGAGCAGTGGTCGGTGCTGGAGACGCTGACCCCGAGCGAATACATGGGCTTCCGCGACGTGCTTGGCCCGGCTTCGGGGTTCCAGTCGCTGCAGTACCGCTACATCGAGTTCCTGCTGGGCAACAAGAACCCGCAGATGCTGCAGGTGTTCGGCCACGATCCGGCCGGGCAGGGACGGCTGCGCGCGGCGCTGGAGGCGCCCAGCCTGTACGAGGAATTCCTGCTGTACCTGGGGCGCTGGGGCCACGCGGTGCCGGCGCCGGCCGCGGCGACGGACTGGAGCGTGTCGCATACCTCCGACCCGGCGCTGCGGCCGGTGTTCGAACGCATCTACGAGAACACCGACCGCTACTGGCGCGAGTACTCGCTGTGCGAGGACCTGGTCGACCTGGAAAGCCAGTTCCAGCTGTGGCGGTTCCGCCACATGCGCACGGTGATGCGGGTGATCGGCTTCAAGCGCGGCACCGGCGGGTCCAGCGGGGTGGGCTTCCTGAAGCAGGCGCTGGAGCTGACCTTCTTTCCCGAGCTGTTCGAGGTGCGCACCTCGATCGGCATGGCGCCGCCGGGCGGCTGA	MSVDKNLRELEAGIHTDLEGRLTYGGYLRLDQLLSAQQPLSDPPHHDEMLFIVQHQVSELWLKLLAHELGAAIGHLQRDEVWQCRKVLARGKQVLRQLTEQWSVLETLTPSEYMGFRDVLGPASGFQSLQYRYIEFLLGNKNPQMLQVFGHDPAGQGRLRAALEAPSLYEEFLLYLGRWGHAVPAPAAATDWSVSHTSDPALRPVFERIYENTDRYWREYSLCEDLVDLESQFQLWRFRHMRTVMRVIGFKRGTGGSSGVGFLKQALELTFFPELFEVRTSIGMAPPGG	PGPT0020505_687	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TRYPTOPHANE_DEGRADATION,PGPT0020505-kynA-K00453	NA	NA
BMS020_07423	1506	dtpT_3	COG3104	Di-/tripeptide transporter	ATGAGCGTCGACGCCAACGCGCCTGACCCCGTCACCCCGCAGATCCCCGAGTTCAAGACCATCCTCGGCCATCCCAAGCCGTTGTGGATGCTGTTCATGACCGAGTTCTGGGAGCGCTTCGCGTTCTACGGCATCCGCTGGGCGCTGGTGCTGTACATCGTGGCGCAGTTCTACGGCGGCGAAGGCAGCGGCCAGGCCGAGGCCAGCCGCACCTACGGCGCCTACCTGGCGCTGGTGTACGCGGCGGCGATCTTCGGCGGCTACGTCGCCGACCGGGTGCTTGGCTACCAGCGGTCGATCCTGGTCGGCGCGGTGGTGATGGCCGCCGGCCTGTTCATGATCGCGGTGCCGGAGAAGGAGGTCTTCGAGCTCGGCCTGGCCACGATCATCGTCGGCAACGGCCTGTTCAAGCCCAACATCTCGACGATGGTCGGCCACCTGTACGCGCAGGGCGACAACCGCCGCGACAGCGGCTTCACCATCTTCTACATGGGCATCAACCTCGGCGCGATGATCTCGCCGGTGCTGACCGGCATCCTCGCCGACCAGATCTTCGGCACCCCCGAGCAGCCGGCCTACAAGTGGGTGTTCATGGCCTCGGGCGTGGGCATGCTGGCCTCGCTGGTGTGGTTCTACATCGGCCGCCGCGGCCTGCAGGGCATCGGCGCGCCGCCGGCCGGCGCGCAGGGCATGGGCCGGGTCGGGCTGGTGCTGGCCGGCTGCGTGGTCGCCATCCCGGTGGTGTACTTCATGCTCGCCGCCGGTGCCGCGGTGCTGGCCTGGATCCTCGGCGCGCTGTTCGTCGCGCTGGCGGCGATGCTGCTGGTCGAGGGCATCCGCGAGGGCAAGGTGCAGCGCGACCGGGTGATCGCGATGCTGATCATCTTCGCCTTCAACGTGCTGTTCTGGATGTTCTTCGAACAGGCCGGCAGCTCGTTCACCTTCCTGGCCGAGCAGATCGTCAACCGCGGCTTCGGCAGCTGGGAGTTCCCGGTGGCCTGGTTCCAGTCGGTGAACTCGGTGGCGATCATCACCCTGGCGCCGCTGATCGCCTGGATCTGGGTCAAGATGGGCTCGGCCAATCCGTCGATCCCGCGCAAGTTCGGCCTCGGCCTGCTGTTCAACGGCGTGGCGTTCGCGCTGCTGTGGTTCGCGCTGTCGAGCCTGGTCGATGACGCCGGCAAGATCCCGTTCTGGACCCTGTTCATGGTCTACGTCATCCAGTCGGTGGGCGAGCTGTGCCTGTCGCCGATCGGCCTGTCGATGGTGACCAAGCTGGCGCCGGTGCGCCTGGTCGGCTTCGGCATGGGCGGCTGGTTCCTGTCCACCGGCATCGGCAACAACCTGTCGGGCATCTTCGCCGGCATCGTCAGCGGCGAGGGCGGCATGACCGTGACCTCGGCCCAGCACGCCTATACGATGGGCTTCTGGATCCTGGCGGGCTTTGGCGTGCTGCTGTTCCTGATCGCCCCGCTGGTCAACAAGTTGATGCATGGCGTGAAGTGA	MSVDANAPDPVTPQIPEFKTILGHPKPLWMLFMTEFWERFAFYGIRWALVLYIVAQFYGGEGSGQAEASRTYGAYLALVYAAAIFGGYVADRVLGYQRSILVGAVVMAAGLFMIAVPEKEVFELGLATIIVGNGLFKPNISTMVGHLYAQGDNRRDSGFTIFYMGINLGAMISPVLTGILADQIFGTPEQPAYKWVFMASGVGMLASLVWFYIGRRGLQGIGAPPAGAQGMGRVGLVLAGCVVAIPVVYFMLAAGAAVLAWILGALFVALAAMLLVEGIREGKVQRDRVIAMLIIFAFNVLFWMFFEQAGSSFTFLAEQIVNRGFGSWEFPVAWFQSVNSVAIITLAPLIAWIWVKMGSANPSIPRKFGLGLLFNGVAFALLWFALSSLVDDAGKIPFWTLFMVYVIQSVGELCLSPIGLSMVTKLAPVRLVGFGMGGWFLSTGIGNNLSGIFAGIVSGEGGMTVTSAQHAYTMGFWILAGFGVLLFLIAPLVNKLMHGVK	PGPT0021010_2280	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021010-TC_POT-K03305	NA	NA
BMS020_07424	588	dsbD_4		Thiol:disulfide interchange protein DsbD	ATGGTGAAGTCCCCGATGCTGCTGGCCGCGCTCGGCGTGGCCCTGCTGGCCGGCTGCGGCAAGGCCCCGGCGCCGCCGGCGCCCAGGCCGCTGGATACCTCGGTGCAGAAGCCGCCGAGCGCCGACCCGACCCAGCCGGTGGCCTCGGGCAACACCCCGACCGCGGCCGATATCGCCGCGGCCGCGGCGCTGAGTGCCTCGTTCGACCCGGCGCGCGACCCGGTCGCCGACCTGGAGACCGCCAAGGTCGAGGCCAAGCGCGGCGGCAAGCGCATCCTGCTCGACGTCGGCGGCGAATGGTGCTCGTGGTGCCACGTGCTGGACGACTTCATCGGCGGCGACGCGGAGATCCGCAGCTTCCGCGACGCCAACTACGTCTGGCTGAAGGTCAATTTCAGCCCCGAGAACGAGAACGCCACGTTCCTGGCCCAGTACCCGGCGATCACCGGCTACCCGCACCTGTTCGTGCTCGACAACGACGGCAAGCTGCTGCATTCGCAGTTCACCGGCGAGCTGGAGAAGGGCAAGGGCTACGACCGCAAGAAGTTCTTCGCCTTCCTCAAGGACTGGGCCCCGCCGAAAGTCTGA	MVKSPMLLAALGVALLAGCGKAPAPPAPRPLDTSVQKPPSADPTQPVASGNTPTAADIAAAAALSASFDPARDPVADLETAKVEAKRGGKRILLDVGGEWCSWCHVLDDFIGGDAEIRSFRDANYVWLKVNFSPENENATFLAQYPAITGYPHLFVLDNDGKLLHSQFTGELEKGKGYDRKKFFAFLKDWAPPKV				NA	NA	NA	NA	NA
BMS020_07425	504			hypothetical protein	ATGCAGCGCAGCATGACCGACTCCGTCCCACCCGCCGCCTCCAGCCAGTCCCAGGTCCTGATCAACCTGGAACAGTTCCTGCCGTTCCGTATCAGCGTGCTGTCCAACCGGGTCAGCGCCAACATCGCCAAGATCTATGGCGACCGCTACGGCATCGCGATTCCCGAGTGGCGGGTGATCACCCTGCTGGCGCTCTACCCGGGCTCGTCGGCCAGCGAGGTCTCCGACCGCAGCGCGATGGACAAGGTCGCCGTCAGCCGCGCGGTGGCGCGCCTGCTCGAGCGTGGCTTCATCCGCCGCGAGACGCATGGCGACGACCGCCGCCGCTCGATGCTGGCGCTGTCGCCGACCGGCCGGCAGGTCTACGAGACCGTCGCCCCGCTGGTCAACGAGATGGAACAGCGGCTGATGTCGGTGCTCAGCGACGAGGAACGGCAGACGCTGGAACGGCTGATCGACCGCCTCGCCAAGGACGGGTTGCCGCGGATGGCGCAGAAGCCCTGA	MQRSMTDSVPPAASSQSQVLINLEQFLPFRISVLSNRVSANIAKIYGDRYGIAIPEWRVITLLALYPGSSASEVSDRSAMDKVAVSRAVARLLERGFIRRETHGDDRRRSMLALSPTGRQVYETVAPLVNEMEQRLMSVLSDEERQTLERLIDRLAKDGLPRMAQKP				NA	NA	NA	NA	NA
BMS020_07426	1116	hpd		4-hydroxyphenylpyruvate dioxygenase	ATGAGCGCGCAACCCCGTACCACCGATCATCGCCCGGATCCGGGCATGCAGGTGACCACGTTCGACAATCCGATGGGCATCGATGGCTTCGAGTTCGTCGAGTTCGCCGCGCCGCCCGGCCAGGCCCAGGCCTTGCACGCGCAGTTCCGCGCGCTGGGCTTCAGCGCGGTGATGCGCCATCGTAGCCGCCCGATCACGCTGTACCGCCAGGGCGGGGTCAATTTCCTGGTCAACGAGGACCCGGACGGCTTCGCCGCCGATTTCGCCGCCCAGCACGGGCCGTGCGCCTGCGGCTTCGCGATCCGCTTCCGCCACCCGGCCGCCGAGGTCGCGCAGGCGGTGCTGCGCAACGGCGGCGAGGCGGTGACGCACAAGCCGTCCTCGCGCGCGGTCGATGCGCCGGTGGTCAAGGGCATCGGCGACTGCATGCTGTACCTGGTCGACCGCTACGGCGCCGCCGGCAGCATCTACGACGACGCGTTCGTGCCGATCGCCGGGGTCGAGCAGCAGCCGGCCGGCTTCGGCCTGACCTTCATCGACCACCTGACCCACAACCTGTACTTCGGCAACATGCAGAAGTGGTCGGACTACTACGAGCGGCTGTTCAACTTCCGCGAGATCCGCTACTTCGACATCAAGGGCGCCAAGACCGGGCTGGTCTCCAAGGCGATGACCGCGCCGGACGGCATCGTGCGCATCCCGCTCAACGAATCGTCCGATCCGAAGAGCCAGATCAATGAGTACCTCGACGCCTACCATGGCGAGGGGATCCAGCACATCGCCTGCTTCACCGACGACATCTACGCCAGCGTCGAGGCGATGCGCGCGGCCGGGGTGGCGTTCCTGGAGACGCCGGACACCTATTTCGACGTGATCGACCTGCGCATCCCGCAGCATGGCGAGGACGTGGAGCGGCTGCGCCGCAACAAGATCCTGATCGACGCCGACCCGGACACCAAGACGCGCAAGCTGCTGCAGATCTTCACCCAGAACAGCATCGGCCCGATCTTCTTCGAGATCATCCAGCGCAAGGGCAATGAAGGCTTCGGCGAAGGCAACTTCCAGGCGCTGTTCGAGAGCATCGAGCGCGACCAGATCAAGCGCGGCGTGCTGTAG	MSAQPRTTDHRPDPGMQVTTFDNPMGIDGFEFVEFAAPPGQAQALHAQFRALGFSAVMRHRSRPITLYRQGGVNFLVNEDPDGFAADFAAQHGPCACGFAIRFRHPAAEVAQAVLRNGGEAVTHKPSSRAVDAPVVKGIGDCMLYLVDRYGAAGSIYDDAFVPIAGVEQQPAGFGLTFIDHLTHNLYFGNMQKWSDYYERLFNFREIRYFDIKGAKTGLVSKAMTAPDGIVRIPLNESSDPKSQINEYLDAYHGEGIQHIACFTDDIYASVEAMRAAGVAFLETPDTYFDVIDLRIPQHGEDVERLRRNKILIDADPDTKTRKLLQIFTQNSIGPIFFEIIQRKGNEGFGEGNFQALFESIERDQIKRGVL	PGPT0009480_1151	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0009480-hppD-K00457	NA	NA
BMS020_07427	1296	hmgA	COG3508	Homogentisate 1,2-dioxygenase	ATGCACGGTAACGGCTACCAGAGCGGTTTCGGCAACGAGTTCGCCAGCGAGGCCGTGCCCGGCGCGTTGCCGGTTGGGCAGAACTCGCCGCAGCGCGTGGCGCACGGGTTGTATGCCGAGCAGCTGTCCGGCACCGCGTTCACCGCGCCGCGCGGGCACAACCGGCGCAGCTGGCTGTACCGGATCCGCCCGGCGGCGCTGCACGGCCGCTTCGCGCCGCTGGCGCAGCCACGCTTCCACAATGCGTTCGGCGACGGCGGCCCGGTGTCGCCGGACCAGCTGCGCTGGAGCCCGCTGCCGTTGCCGGAGGCGCCGACCGACTTCATCGATGGCCTGTACACCATCGCCGGCAACGGCACGCCGTCGGCGCATGCCGGGGTCGGCATCCACCTGTATGCGGCCAACGCCTCGATGCAGCGGCGCTTCTTCTACGACGCCGATGCCGAGCTGCTGCTGGTGCCGCAGCTCGGGCGGCTGCGGCTGTGCACCGAGCTGGGCGTGCTGGAGCTGGAGCCGCAGCAGATCGCGGTGATCCCGCGCGGCGTGCGTTTCCGCGTGGAGCTGCCGGATGGGCCCTCGCGCGGTTATGTCTGCGAGAACTTCGGTGGCCTGCTGCGGCTGCCCGACCTCGGTCCGATCGGCGCCAATGGCCTGGCCAACCCGCGCGACTTCGAGACGCCGCATGCGGCCTACGAGGACATCGACGGAGGCTTCGAACTTGTGGCCAAGTTCGACGGTGCGCTGTGGCGTGCCGATATCGGCCACTCGCCGCTGGACGTGGTCGCCTGGCACGGCAACTATGCGCCGTACCGCTACGACCTGCGCCGCTTCAACACGATCGGCTCGATCAGCTTCGATCATCCCGATCCGAGCATCTTCACCGTGCTGACCTCGCCCAGCGACACGCCGGGCACGGCCAACCTGGACGTCGCGATCTTCCCGCCGCGCTGGCTGGTGGCGCAGCACACGTTCCGCCCGCCGTGGTTCCACCGCAACGTCGCCAGCGAGTTCATGGGCCTGGTGCACGGTGCCTACGACGCCAAGGCCGAGGGCTTCGTGCCGGGCGGCGCGTCGCTGCACAACTGCATGAGCGGGCATGGCCCGGATGCGGCGACGTTCGAGAAGGCGTCGGCGGCGGACCTGGGCCGGCCGGACGTGATCACCGACACCATGGCCTTCATGTTCGAGACCCGCGGCGTGCTGCGCCCGACCCGTCAGGCGCTCGACGCCGCACACCGCCAGGCCGACTACCAGCAGTGCTGGCAGGGCTTGCGGCGGCAGTTCCGCGCCCCATAG	MHGNGYQSGFGNEFASEAVPGALPVGQNSPQRVAHGLYAEQLSGTAFTAPRGHNRRSWLYRIRPAALHGRFAPLAQPRFHNAFGDGGPVSPDQLRWSPLPLPEAPTDFIDGLYTIAGNGTPSAHAGVGIHLYAANASMQRRFFYDADAELLLVPQLGRLRLCTELGVLELEPQQIAVIPRGVRFRVELPDGPSRGYVCENFGGLLRLPDLGPIGANGLANPRDFETPHAAYEDIDGGFELVAKFDGALWRADIGHSPLDVVAWHGNYAPYRYDLRRFNTIGSISFDHPDPSIFTVLTSPSDTPGTANLDVAIFPPRWLVAQHTFRPPWFHRNVASEFMGLVHGAYDAKAEGFVPGGASLHNCMSGHGPDAATFEKASAADLGRPDVITDTMAFMFETRGVLRPTRQALDAAHRQADYQQCWQGLRRQFRAP	PGPT0006025_1178	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_STYRENE_OXIDE_DEGRADATION,PGPT0006025-HGD|hmgA-K00451	NA	NA
BMS020_07428	546			hypothetical protein	ATGCACCCCCACAAGACCGCACTGGGCCAGCAGGTCCTGGCCACGCACCGCACCCCGCTGGACCTGCGTCAGCGTCGCGTGCTGATCCTGTGCGACGGTCAGCGCAGCGTGGCCGACCTCACCCGCCTGGTCGGCGAGGACACCCCGGCACTGGTGCGCCTGCTGCATGCGGCCGGCTACCTGGCCGGCGACGACGACGCAGAACAGCCGGCAACGCACGCGCAGCCTGCGACGCCGGACACGCAGTCCGAGGTTGTCGATGCACGGCCAACACGGCGTCGGTCGCTCAGCGCCGCACGCATGTACCTGCAGGACATGCTGGAACTGCAGCGCAACGAAGTGGCGCAGCTGTTGCGGCGGCGGCTGCTGATGGCGCACGAGGAAAACGCGATCGTCGCCGCGCTGCTCGAGGCGCTGGCCGAACTGCCGCGCTTCACCGCCGAAGGCTATGCCCGCCGGGTCCGCGAACGCGTCGCCGACGTGCTGCCGGAGCCCTATCTGCCGGCACTGGCGGCACTGGACACCGGGACGGTGGGCGCGCAGTGA	MHPHKTALGQQVLATHRTPLDLRQRRVLILCDGQRSVADLTRLVGEDTPALVRLLHAAGYLAGDDDAEQPATHAQPATPDTQSEVVDARPTRRRSLSAARMYLQDMLELQRNEVAQLLRRRLLMAHEENAIVAALLEALAELPRFTAEGYARRVRERVADVLPEPYLPALAALDTGTVGAQ				NA	NA	NA	NA	NA
BMS020_07429	627			hypothetical protein	ATGCGGAGACGACACGCGTGCACGACCGCGCTGGTGCTGCTGCTGGCCGGTTGCGGGCAGCAGCCACCGCCGCCGGACGTGGGCGCCGCGGCGCCGCCGGCGGCCGGGCAGGCGGCGGACCAGCCGGCCGATCCGGTGCCGCCGGCGACCGCGGCGGTGGCGTTGCCGCCATCGGCGGGCGATCCCCTGGCGCAGGCACGCATGGATGGTTATGGCGACCTGCGCCTGGGCATGGCCGCCGCCGCGTTGCCGGCCGCCTGGGGCGGTGAACTGAAGGGCGACACCGCCGCGACCGGCTGCCACCTGCTGGTGCCAGCCTGGGCGAAGGGCGTGCCCGAGCTGGCCTTCATGGTCGAGGGCGGGCGGTTCGTGCGCTACGACGTGCGCAGCGACAAGGAGGCCGCGCCGGGTGGCGGCCGGGTCGGCAGCAATGAGGCCGAGCTGCTGCGCCTGTACGCCGGGCGCATCGAGGTGCAGCCGCACAAGTACGGCGATGGTCACGTGCTGCGCATCGCCGATGCGGCCGCCGGCAGCGCCCTGCTGTTCGAGACCGACGCCGCCGGCACCGTCACGCGCTGGCGGGTCGGGCTGCCGCCGCAGGTGGATTACGTGGAAGGCTGCGGCTGA	MRRRHACTTALVLLLAGCGQQPPPPDVGAAAPPAAGQAADQPADPVPPATAAVALPPSAGDPLAQARMDGYGDLRLGMAAAALPAAWGGELKGDTAATGCHLLVPAWAKGVPELAFMVEGGRFVRYDVRSDKEAAPGGGRVGSNEAELLRLYAGRIEVQPHKYGDGHVLRIADAAAGSALLFETDAAGTVTRWRVGLPPQVDYVEGCG				NA	NA	NA	NA	NA
BMS020_07430	366			hypothetical protein	ATGATCGCCTTCACCGAATACCTGCTCGGCGTGCTGTTGATCATCGGCACGTTCTTCATCGTGGTCGGCGCGCTCGGGCTGGTGAAGCTCGGCGATTTCTTCAAACGCCTGCATGCGCCGACCAAGGCCAGCACGCTGGGCGTGGGTTGCGTGCTGCTGGGCTCGGTCGGCTACCACCTGTTCCTCGGCGAAGACCCGCAGCCGCGCGAACTGCTGATCACCGCGTTCCTGTTCATCACCGCGCCGATCAGCGCGCACCTGATGGCCAAGGCGGCGCTGTCGCTGATGCTGGCCGACCGCCCGGCGCCGCCGCCGGCGGCCACGCACGACCCAGCCCAGGCCAACGACGACACGCCCCCGGCCTGA	MIAFTEYLLGVLLIIGTFFIVVGALGLVKLGDFFKRLHAPTKASTLGVGCVLLGSVGYHLFLGEDPQPRELLITAFLFITAPISAHLMAKAALSLMLADRPAPPPAATHDPAQANDDTPPA	PGPT0013855_30	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013855-phaG-K05564	NA	NA
BMS020_07431	285			hypothetical protein	GTGACCGGCCACATGTTCATCGAAACCACGATCGTCGGCTGCATGTACGCGGTCGGCGTGGCGATCCTGCTGGCGCTGTGGCGGCTGCTGCGCGGGCCGAGCGTGCCCGACCGGATCCTGGCGCTGGACACGCTGTCGATCACCGCGATCGCCGAGCTGATGCTGTTCGGCATGCACCTGGATTCGCCGATCTATTTCGAGGCGGCGCTGGTGATCGCGATGCTCGGCTTCGGCAGCACCGTGGTGCTGAGCAAGTACGTGCTGCGCCGGGACATCGTCGAATGA	MTGHMFIETTIVGCMYAVGVAILLALWRLLRGPSVPDRILALDTLSITAIAELMLFGMHLDSPIYFEAALVIAMLGFGSTVVLSKYVLRRDIVE	PGPT0013850_70	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013850-phaF-K05563	NA	NA
BMS020_07432	510	mrpE	COG1863	Na(+)/H(+) antiporter subunit E	ATGACCACACCGCGCCCACCGCTGCTGCGCCGGCTGCTGCCCTCGCCGCTGCTCAGCCTCACCGTGTTCGCGTTCTGGCTGCTGCTCACCGACAGCTTCGGCGTCGGCGCGGCGCTGATGGGGCTGCTGCTCGGCGTGGTGATCCCGCTGTTCGCCACGCGCCTGGACCGCGAGTTCGCACGGATCGGCTCGCTGCGGCCGCTGCCGAAGCTGGCCTGCGTGGTCGCCTGGGACATCGTGCTGTCCAACGTCCGCGTGGCGCTGCAGGTACTCGGCCCGGAGGCCAAGCTGCACCCCGGCTTCATCTGGATCCCGCTGGAGATCGGCAACATCCACGGCATCACCGCGCTCACCAGCATGATCACGCTGACCCCGGGCACGGTCTCGGTGGCACTGTCCGACGACCGCCGCCACCTGCTGGTGCACGTGCTGCACCTGGACGGTGCCGACGCGCTGATCGCCGAGATCAAGCACCGCTACGAACGCCCGTTGATGGAGATCTTCCCGTGA	MTTPRPPLLRRLLPSPLLSLTVFAFWLLLTDSFGVGAALMGLLLGVVIPLFATRLDREFARIGSLRPLPKLACVVAWDIVLSNVRVALQVLGPEAKLHPGFIWIPLEIGNIHGITALTSMITLTPGTVSVALSDDRRHLLVHVLHLDGADALIAEIKHRYERPLMEIFP	PGPT0013845_151	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013845-phaE-K05562	NA	NA
BMS020_07433	1545	mrpD	COG0651	Na(+)/H(+) antiporter subunit D	ATGAACCACCTGGCGATCCTGCCGATCCTGATCCCGATGCTCGGTGCGGCCGCTTCGCTGTTCGTCGAGCACCGTCGCCATGGCGAGCGCGTGCGGCGCGGCGTGGCGGCACTGGCGCTGGCGGCACTGGCCGCGGCGGTGCTGGCGTTGTTCGCGCGCACCGCCGGCGGGCAGACCCTGGTCTACCTGCTCGGCGACTGGCCGGCGCGGCTGGGCATCGTGCTGGTCGCCGACCGGTTGAGCGCATGGATGCTGCTGACCACCACGCTGCTGGCCATTCCCTGCCTGCTGCACGCGTGCGCCGGCTGGGACCGGCGCGCGCCGCACTTCCACGCCCTGTTCCAGTTCCAGCTGATGGGCCTGAACGGCGCGTTCCTGACCGGCGACATCTTCAACCTGTTCGTGTTCTTCGAGGTGATGCTGATCGCCTCCTACGGGCTGCTGCTGAGCGGCGGGCGCGGGCTGCGCATGCGCATCGGCCTGCATTACGTGGTGTTCAACGTCGCCGCCTCGACCCTGTTCCTGGTCGCGCTCGGCCTGCTCTACGGCCAGCTCGGCTCGCTCAACATGGCCGAGCTGGCACCGCGCATCGCCGCGGTGCCGCCCGAGGCGCAGCCGCTGCTGCGCGCCACGCTCGGCCTGCTGCTGCTGGTGTTCTGCAGCAAGGCGGCGCTGCTGCCGCTGTACCTGTGGCTGCCGGAAACCTACGCGCGCGCGCCGGCGGCGATCGCCGCGCTGTTCGCGATCATGACCAAGGTCGGGCTGTACGCGCTGCTGCGCGTGAGCAGCCTGTGGTTCGGCGACGACGCCGGTGCGCTGGCCGGCTTCGGCCATGTCGCGCTGCTGTGGGCCGGCATCGGCACGCTGTTGCTGGCCGCACTCGGCGCGATGGCCGCGGCCCGGCTGCGGGTGATGGTGTCCTACCTGGTGGTGTTCTCGGCCGGCACGCTGTTCATCGCCTTCGCGCTGCGCACGCCGGGCGCGACCGCCGCCGGCCTGTACTACCTGCCGCACAGCTGCTTCGCCGCCGCGGCGCTGTTCATGGTCTCGGACCTGGTGCGGCGGCGCCGCGGCACGGCCTCCGACGACAAGGAGATCGTCGCCCAGCTGCCCGGGCGCGCGGTGCCCGGCACGCTGTACCTGATCTGCGCGATCGCGGTGGCGGGGCTGCCGCCGCTGTCCGGTTTCCTGGCCAAGGCCGCGCTGCTGCAGCACGTGCCGGCGGCGCAGACCCCGGCGGTGTGGGCGGCGGTGCTCGGCGCCAGCCTGCTGGTGGTGCTCGGCCTGACCCGCAGCGGCATCCGCCTGTTCTGGCGGCTGCCCGAGGCCGCCGGCGATGCCCCCGTACCACCGCCGCCACGACGCGCGCGGCTGCGCCCATTGGAGACCGCGGCCACCGTGCTGCTGATCGGCTACGTGCTGGCGATGACGTTGGCCGCCGGCCCGCTGATGGAACTCGCCGACGCCACCGCCGCGCAGCTGCACGCGCCACAGCGCTACCTCGAGCAGGTCCGCGCCACCACCCCGGAGCAGCGCGTGCCATGA	MNHLAILPILIPMLGAAASLFVEHRRHGERVRRGVAALALAALAAAVLALFARTAGGQTLVYLLGDWPARLGIVLVADRLSAWMLLTTTLLAIPCLLHACAGWDRRAPHFHALFQFQLMGLNGAFLTGDIFNLFVFFEVMLIASYGLLLSGGRGLRMRIGLHYVVFNVAASTLFLVALGLLYGQLGSLNMAELAPRIAAVPPEAQPLLRATLGLLLLVFCSKAALLPLYLWLPETYARAPAAIAALFAIMTKVGLYALLRVSSLWFGDDAGALAGFGHVALLWAGIGTLLLAALGAMAAARLRVMVSYLVVFSAGTLFIAFALRTPGATAAGLYYLPHSCFAAAALFMVSDLVRRRRGTASDDKEIVAQLPGRAVPGTLYLICAIAVAGLPPLSGFLAKAALLQHVPAAQTPAVWAAVLGASLLVVLGLTRSGIRLFWRLPEAAGDAPVPPPPRRARLRPLETAATVLLIGYVLAMTLAAGPLMELADATAAQLHAPQRYLEQVRATTPEQRVP	PGPT0013840_462	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013840-phaD-K05561	NA	NA
BMS020_07434	396	mnhC1	COG1006	Na(+)/H(+) antiporter subunit C1	ATGGAACTCGCCCTGGCCAGCGCGATCGGCGTACTCACCGCGGCGGGCGTGTACCTACTGCTGCGCGCGCGCAGTTTCGACGTGATCCTCGGCCTGACCTTCCTGTCCTACGCGACCAACCTGTTGATCTTCGCCGGCGGCCGCCTGCGCGAAGGCATGCCGCCGGTGCTGCGCGACGGCGTCGCCCCCGACCTGGGCCAGCACACCGACCCGCTGCCGCAGGCGCTGGTGCTGACCGCGATCGTGATCGCCTTCGCGATGACCGCGATCTGCCTGGTGCTGGCGATGCGCAGCCGCGCCGACAACCATAGCGACCACGTCGACGCGCACGAGCCCGAGGATGCCAACGTCCCGGTGGATTCCGGCGCGGCCACCGCGCGGGAGCCGCGCCGATGA	MELALASAIGVLTAAGVYLLLRARSFDVILGLTFLSYATNLLIFAGGRLREGMPPVLRDGVAPDLGQHTDPLPQALVLTAIVIAFAMTAICLVLAMRSRADNHSDHVDAHEPEDANVPVDSGAATAREPRR	PGPT0013835_80	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013835-phaC-K05560	NA	NA
BMS020_07435	2829	mrpA	COG1009	Na(+)/H(+) antiporter subunit A	ATGACGTCCCCGCTCGACATCCTGTTGGCGCTGCCATTCGTGATGGCCGCCGTCGTCGCCGCGCTGCGCCGCGTCCGCCGCGGCACCAGCGCGTGGCTGGCCGGCATCGCACCGCTGGCGGGGCTAACGCTGCTCGGTGCGCTGGGATCGCGCGTGCTCGCCGGCGACGTGGTGGTCTCGCGCCATGCCTGGCTGCCGCAGATCGGCCTGGACATCACCCTGCGCCTGGACGGCCTGGCCTGGATGTTCGCGCTGCTGGTGCTGGCGATCGGCGCGCTGGTGGTGATGTACGCGCGCTACTACCTCAGCGCGCGCGACAGCCTGCCGCGGCTGTATGCCTGCCTGCTGCTGTTCATGGGCGCGATGCTCGGCCTGGTGCTGTCGGGCAACCTGCTGCTGCTGATGGTGTTCTGGGAGCTGACCAGCATCAGCTCGTTCCTGCTGATCGGCTACTGGTCGCATCGCCGCGACGCGCGCGAAGGGGCGCGCATGGCGCTGGTGATCACCGGCGGCGGCGGCCTGGCGCTGCTCGGCGGCGTGCTGCTGATCGGGCGCATCGTCGGCAGCTTCGACCTGGACGTGGTGCTGGCCGCCGGCGACGTGATCCGCGCCAGCCCGCTGTATCCGTACGCGCTGCTGCTGGTACTGGCCGGCGTGTTCACCAAGAGCGCGCAGTTCCCGTTCCAGTTCTGGCTGCCGCATGCGATGGCCGCGCCGACGCCGGTGTCGGCGTACCTGCATTCGGCGACGATGGTGAAGGCCGGCGTATTCCTGCTGGCGCGGCTGCACCCGGCACTGGCCGGCAGCGAGCTGTTCTTCTACACCGTCAGCGGCATTGGCGCGGTCACGCTGGTGCTGGGCGCGTGGTTCGCGATCTTCCAGCACGACCTCAAGGGCCTGCTGGCGTATTCGACGATCTCGCACCTGGGCCTGATCACCATGCTGTTCGGCCTGTCCACGCCGATGGCGGTGGTGGCGGGGGTGTTCCACATCCTCAACCACGCGGTGTTCAAGGCCTCGCTGTTCATGGCTGCCGGCATCATCGACCACGAGACCGGTACGCGCGACATGCGCCGGCTGGGCGAGCTGCGGCGCTGGATGCCGATCACCAGCGCGCTGGCGATCATCGCCACGCTGTCGATGGCCGGCATTCCGCTGCTCAACGGCTTCCTGTCCAAGGAAATGTTCTTCGCGGTGGCGCTGGACACCCCGGCGCCGCAGCCGATGCGCGTGGCCACCACCGTCGCCGCGCTGCTGGCCGGCGTGCTCGGCGTCGCCTACAGCCTGCGCTTCGTCCACGACACCTTCTTCGCCGCTCCTGACGTGCCACTGGACCCGGTGCCGCACGAACCGCCGCGCTGGATGCGCATCCCGGTCGGCGTGCTGGTGCTGCTGTGCGTGGCGATCGGCGTGGCCCCGGCCTGGACGATCGCCCCGGTGCTGCACGCCGGCGCCGCGGCGATCCTCGGCGCGCAGATGCCCGAGTACAGCCTGGCGATCTGGCACGGCTTCAACTGGCCATTGATGATGAGCATCGGCGGCATGTTCGGCGGCGTGCTGGTGTACAGCGGGCTGCGCCGGCTGACCGACCTGCACGCCAGCGAGAACAGTTCGCGCGGGCGCGCCCTGTTCAACTGGAACCTCAACGCGCTGTCGGCGCTGGCGCTGCGCTTCACCGACGCGATCGCCAACGGCAGCCTGCAGCGCATGCTGATGCTGCTGGTGCTGAGCGCGGTGCTGGTCGGGGCGATGCCGTTCCTGGAAGGCGGCGCGCTGCCGGCGTGGCGCGCGCCGCAGCCGATGCCGCTGCTGGGCTGGGCGCTGTGGCTGCTGCTGGTGGGCTGCGCGATCGGCAGCCTGATGCTGTACCGGCGGCGCCTGCTGGCGGTGCTGGTGATCGGTGGCACCGGGCTGGCGGTGAGCCTGGTGTTCGTGTTCCTGTCAGCGCCGGACCTGGCGCTGACCCAGCTGCTGGTGGAGATGGTCACCCTGGTGCTGATGCTGCTGGCGATGAACTACCTGCCGGAATTCTCGCGCCGCGAGCGCGGCCAGCTGCAGCGCTGGCGCGATGCGGCACTGGCGCTGCTCGCCGGTGGCGGCATGGCGGCGCTGGCGTATGCGCTGATGACGCTGCCGCAGCACACCGTGGCCGGCGAGATGCTGCAGCGTTCGCTGCCCGAAGCCTATGGGCGCAACGTGGTCAACGTGATCCTGGTCGACTTCCGCGGCTTCGACACCTTCGGCGAGATCACCGTGTTCGCGATCGCCGGGCTGGTCGTGCATGCGCTGGTACGCCGCTCGCGGATGGCGCCGGAACGGGTGATGCCGGGCCCGCCGGTGAAGCTGCCGGTGCCGGCCGACCTGGCCCAGCTGATGTTCCCGCTGACGCTGACGGTGTCGATCTTCCTGTTCCTGCGCGGCCACAACGCCCCGGGTGGCGGCTTCATCGCCGGCCTGGTGCTGGCGGTGCCGCTGCTGATGCAGTACGTGCTGCAGGGCGCCGCCTCGGTCGAATCGCGCTTCGGTTTCGACTACATCCGCCTGATCGGCGCCGGCCTGCTGGTCGCGCTCGCCAGCGGCGCGGCCTCATGGCTGTTCGGCGTGCCGTTCCTGACCAGCGGCCACGTCGTGCTGCAGCTGCCGTTGATCGGCGAACTGGAGCTGGCCAGTGCGATGGGCTTCGATACCGGCGTCTATCTGGTGGTGTTCGGCGCGGCGATGCTGATGCTGTCGATGCTCGGCACGATCAAGCCCTCGCGCACGCGCGGCTCGCGCCGCGGCACCGTCGACCCCGCCGCGCGTTCGGCACGCACCGCGGAGATGCGCTGA	MTSPLDILLALPFVMAAVVAALRRVRRGTSAWLAGIAPLAGLTLLGALGSRVLAGDVVVSRHAWLPQIGLDITLRLDGLAWMFALLVLAIGALVVMYARYYLSARDSLPRLYACLLLFMGAMLGLVLSGNLLLLMVFWELTSISSFLLIGYWSHRRDAREGARMALVITGGGGLALLGGVLLIGRIVGSFDLDVVLAAGDVIRASPLYPYALLLVLAGVFTKSAQFPFQFWLPHAMAAPTPVSAYLHSATMVKAGVFLLARLHPALAGSELFFYTVSGIGAVTLVLGAWFAIFQHDLKGLLAYSTISHLGLITMLFGLSTPMAVVAGVFHILNHAVFKASLFMAAGIIDHETGTRDMRRLGELRRWMPITSALAIIATLSMAGIPLLNGFLSKEMFFAVALDTPAPQPMRVATTVAALLAGVLGVAYSLRFVHDTFFAAPDVPLDPVPHEPPRWMRIPVGVLVLLCVAIGVAPAWTIAPVLHAGAAAILGAQMPEYSLAIWHGFNWPLMMSIGGMFGGVLVYSGLRRLTDLHASENSSRGRALFNWNLNALSALALRFTDAIANGSLQRMLMLLVLSAVLVGAMPFLEGGALPAWRAPQPMPLLGWALWLLLVGCAIGSLMLYRRRLLAVLVIGGTGLAVSLVFVFLSAPDLALTQLLVEMVTLVLMLLAMNYLPEFSRRERGQLQRWRDAALALLAGGGMAALAYALMTLPQHTVAGEMLQRSLPEAYGRNVVNVILVDFRGFDTFGEITVFAIAGLVVHALVRRSRMAPERVMPGPPVKLPVPADLAQLMFPLTLTVSIFLFLRGHNAPGGGFIAGLVLAVPLLMQYVLQGAASVESRFGFDYIRLIGAGLLVALASGAASWLFGVPFLTSGHVVLQLPLIGELELASAMGFDTGVYLVVFGAAMLMLSMLGTIKPSRTRGSRRGTVDPAARSARTAEMR	PGPT0013830_553	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013830-phaA-K05559	NA	NA
BMS020_07436	897			hypothetical protein	ATGACCGCCGGGCCGACCTCGCTGCTGCTGGCCACCGACCTCAGCGCCCGCTGCGATCGTGCGCTCGCGCGCGCCGTGCAGCTGGCGCGCCAATGGCAGGCGCGGCTGATCGTGGCGACGGTCCTGCCGTCGCTGCAGGAGCTGGACTTCCACGACGGCATCCTCGGCACGCCGCCATGGCAGCGCCCGGCGCTGCTGGCCGAGCGCATCGGCGCGCGCCTGCGCCGCGAGCTCGGCGATCCCGACGTGGCGCTGCAGATCTGCGTCGAGACCGGCGCGGTCGGGCCGGCGCTGCTGCAGCTGGCGCGGCGCGAAGGCTGCGCGCTGATCGTGACCGGCATCGCCCGCAGCACGGTGTACGCGCAGCCACGGCTGGGCGCGACGGTGCACTGGCTGTGCCGCCACACCGAGCTGCCGCTGCTGGTGGTGCAGCGGCGCGCGCAGCACGGTTACGACGACATGGTGCTGGCCACCGACTACTCGGCCACCAGCCGCCATGCGCTGGCCGTCGCCCTGGGCCTGTTCGGCGAGCCGGCGACGCTGGCGCTGCTGCACGGCTATCAGCCGGCGCGGGTGGGCGCGCGCGATGCGCATCCACATACCGCGCTGGAGACCGCCCGCGCCGAGGCCGGACGCGCAGCCGACGCCCTGCTGGCAACGCTGCCCGGCAGCACCGCGCTGCGCCAGCGCGCCCGCGTGGTCGCCGCGCACGGCGATCCGGCCCGGCTGCTGCGCGATTACGTGCGCGACCACGACAGCGCGCTTGCGATCGTCGGCAGCCATGGCCGCAGCGCCCTGCTCGGTCTGCTGCTCGGCGATGTCGCCACGCGCATCCTCGCCAACGTGCAGACCGATCTGCTGCTGGTGCGGGCCCCACGCGAGGCCAGCGCAGGCTGA	MTAGPTSLLLATDLSARCDRALARAVQLARQWQARLIVATVLPSLQELDFHDGILGTPPWQRPALLAERIGARLRRELGDPDVALQICVETGAVGPALLQLARREGCALIVTGIARSTVYAQPRLGATVHWLCRHTELPLLVVQRRAQHGYDDMVLATDYSATSRHALAVALGLFGEPATLALLHGYQPARVGARDAHPHTALETARAEAGRAADALLATLPGSTALRQRARVVAAHGDPARLLRDYVRDHDSALAIVGSHGRSALLGLLLGDVATRILANVQTDLLLVRAPREASAG				NA	NA	NA	NA	NA
BMS020_07438	480			hypothetical protein	ATGGAACAGACCGCCGCACGCCCGATCGACCGTTTCTTCGCCAGCTACTCCGGCGACCACCGCAACGACACCAACCAGTCCATCCACGTGGTGGCGGTGCCGGCGATCCTGTGGTCGGTGGTCGCGTTGCTGTGGTGCATCCCGGTCGCGGCCAGCTGGTTCACCAGCGGCGTGTGGGCGGCCCTGGCGATGTTCGCGGCCTGGGCGTTCTACAACCGCCTCTCGCGCCCGCTCGGGCTGGGCATGCTGGCGGTGTTCTTCTTCTGCGGCTGCCTGTGCCGGCTGCTGGAGAACCGCCTCGGCCTGGGCGGACTGCTGACCACCGCGATCGCGGTGTTCGCGCTGGCCTGGATCGCGCAGTTCATCGGCCATCACATCGAAGGCCGCCGTCCCAGCTTCCTGACCGACCTGGTCTACCTGCTGATCGGCCCGGTGTGGGTGCTGGCCAAGCTGTACCGGCGGATGGGCTGGCACTACTGA	MEQTAARPIDRFFASYSGDHRNDTNQSIHVVAVPAILWSVVALLWCIPVAASWFTSGVWAALAMFAAWAFYNRLSRPLGLGMLAVFFFCGCLCRLLENRLGLGGLLTTAIAVFALAWIAQFIGHHIEGRRPSFLTDLVYLLIGPVWVLAKLYRRMGWHY				NA	NA	NA	NA	NA
BMS020_07439	249			hypothetical protein	ATGAAGACCCCCTACGAAGTGGAGCAGGAACTGGCCAGGCTGGAGCGCCTGGTCCCACACATCATCAGCGACCAGGGCGAGCGCGCCGAGGAAATCCTCGGTTTCCACGTCGCCAGCCTGCTGCAGAGCGCGCCGCCGACAAGCCATGCGCTGGTCCGCGAACGCACCGGGCAGATGGCGCGGCGCTGCCGCCAGGCGGCGCACGCGGCCGGCTGGGCCGGCATCGACGGGCTGGCCCAGCCGGCCTGA	MKTPYEVEQELARLERLVPHIISDQGERAEEILGFHVASLLQSAPPTSHALVRERTGQMARRCRQAAHAAGWAGIDGLAQPA				NA	NA	NA	NA	NA
BMS020_07440	264			hypothetical protein	GTGGTCGACGTGCAGGCCGAAGTCGCCCACTGGCAATCGCGCCATGCCCAGGGTGGGCTTGGCATCGGCAAGTTCTCCGAGTTGTCGCCGGTGGTGAAGATGGCCTGCGACATCTACCTGCAGGCGCCGTATTCGAGCGAGGAAGAGCGGCTGGCGATGTTCCGCCGCCGTATCGAGCACCACTTCATCGCCTCCGGCACCCAGGACACCTACGAACGGCTGGCGAGCAACTGCTGGCAGCGGCTCGCCCGCCGCGACTCCTGA	MVDVQAEVAHWQSRHAQGGLGIGKFSELSPVVKMACDIYLQAPYSSEEERLAMFRRRIEHHFIASGTQDTYERLASNCWQRLARRDS				NA	NA	NA	NA	NA
BMS020_07441	168			hypothetical protein	ATGGCGCCACAGCACCCGCATGGACACGGTTTCGACGAGGATGGGGATGCCGCAGCGGGCAGCAGCTGGTGGCGGGCATTGATGGCCTCGCATGTGTTCCGCTCGGTGCTGGCGGTCGCGGTCGTGATCGCCGGCATCGCGGTGTACGCCGTGTCGGTAAGCCACTGA	MAPQHPHGHGFDEDGDAAAGSSWWRALMASHVFRSVLAVAVVIAGIAVYAVSVSH				NA	NA	NA	NA	NA
BMS020_07442	258			hypothetical protein	ATGCGGCATGGATCATGGATCGTGAGCGCATCGGCGATCCTCGGCTGCGATGCCAGTCCGGCGGTGCTGCGGTTGATCCGCGACGGCGCGATGGCCGCCTCGGTGGAGCAGAGCGCCAGCGGCCAGGCGCGCACGGCACTGCGCGGCCTGGTCGCTCGTATCCGCGGGCAAGGCGCGGCCGGTGCGCAGGTTGTCGCGCCGGTGCTGATCACGGCGGCGAATCTGCAGCAGGCCGAGCACGCCGCCGCGGAGTTCTGA	MRHGSWIVSASAILGCDASPAVLRLIRDGAMAASVEQSASGQARTALRGLVARIRGQGAAGAQVVAPVLITAANLQQAEHAAAEF	PGPT0016745_39	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MYO_INOSITOL_TRANSPORT_1,PGPT0016745-ibpA-K17208	NA	NA
BMS020_07443	213			hypothetical protein	ATGCAGGCGAAACACCCAAGCGCGGCCCCTGCGGCCGCGGCGGCTGCGCGCGCGTCGCGCAGGCTACGGCTCGCAGTGGCCTGTGCCGCGGCGCTGACCGCGCCGCTGGCGCAGGCGCAGGACGACGGCCAGGCCGACGTCTCGACGCTGGACGCGGTCACCGTCACCGGCAACCGCCACGCGATCGAGATGGCGGTCGATGCCAAGAGCTAA	MQAKHPSAAPAAAAAARASRRLRLAVACAAALTAPLAQAQDDGQADVSTLDAVTVTGNRHAIEMAVDAKS				NA	NA	NA	NA	NA
BMS020_07444	2487			hypothetical protein	GTGTCGATCGCCGATTCGATCGCGCGCCTGCCCGGCATCGCCACCCAGCGCGTCGACGGGCGCTCGCAGGTGGTGCAGATCCGCGGCATGTCCGAGCAGTTCGTCGGCACCACGCTGAACGGCCGCGAGCAGGTCAGCACCGGCGACAGCCGCGGTGTGGAGTTCGACCAGTTTCCGGCCGAACTGATCAGCGCGGTCACCGTCTACAAGACCGCCGACGCGGCGGTGGTCGGCCAGGGCCTGTCGGGCACGGTCGACTTGAAGACGGTGCGTCCGCTGGACCTGGGCGAGCGCCGGATCGTGTTCGGCGGCCAGGCCGAACGCAACTCGCTGGGCACGCTCAGCAGCGACGGCGATGCCGACGGTTACCGCGCCAGCGCCTCGTACGTGGACCAGTTCGCCGACGACACCATCGGCATCGCGCTCGGCGTGGCGCGGCTGAACTCGCCGTTCCAGGAGCAGCACTACAAGCAGTGGTGGTGGGCCGACACCGACGTGTGGGGCGCGAGCCAGCCGGGCAAGCCGGCCGGCGCGATCGCGCTGCAGGGCTCGGAGGCCTGGGTGAAGTCGCGCGACCTGACCCGCGACGGGGTGATGGGCACGTTCGAATTCAAGCCCAACGAGCATGTGCACAGCGTGCTCGACCTGTACTGGTCCAAGTTCGCGCAGGACGAGGTGATGCACGGCACGATGTGGTCGAACGACCCGTGGTTCAGCAACGCCGCCGGCGGCCAGGTGGGCTACGCCGACGTCGCCACCACCGACAAGGGCGGCGTGCCGGTGATCACCAGCGGCACGCTCACCGGCACCCAGCCACTGGTGCGCAACGACAGCAACACCCGCGAGGACCGCTTGCTGTCGGTGGGCTGGACCAACACCTTGCGCTGGGATCCGTGGACCGCGACGCTGGACCTGAACTACGCGCGCGCCAAGCGCCGCCAGTCGCAGCTGGAGACCTATGCCGGCCTGCTCGATCCGCAGGCCATCGGCTTCGACATCCCGATCAGCGCCGGCTACGGCCGCTACGCGCTGGCCGACCTCGGCGACGCCGACAGCGTCTACCTGTGGGATGCGCAGAACTACGGCCACGACGGGCGGCTGGAAAACTCCTGGCAGAACGACGAGACCAAGGCCGGCCGCTTCGAGCTGAACTACGCGGTGGACACCGCCTTCGTGCGCAGCTTCGACCTCGGCGTGAACCTCAACCGGCGCAGCAAGGACAAGCGCGCCGACGTCTACTTCGCCGAGCTGCGCGACGGCACGCCGACGCTGGTCGATCCATCGCTGCTGTATTCGCCCACCTCGCTGGGCTTCGTCGGCATCGGCGGGGTGCTCAGCTTCGATCCGCGCGCGCTGCTCAGCCGCTACTACGACGTGGCGATCTCCGAGAGCAACGACGACCTGCGCAAGGACTACGTGGTCGATGAGGACGTCGATACCTACTACCTGCGCGCCAACATCGACATGGACCTGACCGCGCGCATCCGCGTGCGCGGCAACGCCGGCCTGCAGTACGTGGCCACCGAACAGTCCTCGACCGGCTTCAACGCCACCGGCGGGGCGATCGTCGGCGCACAGACGCTGGGCGCCAGTTACCACGACGCGCTGCCCAGCCTGAACCTGGTGTTCGACTTCGGTGGCGGCTGGATGGTACGGCTCGGCGCGGCCAAGCAGATGATGCGCCCGCCGATCAACTACCTCAGCGCCGATGCCGATGCCAGCGTCAGCCAGACCACGCGCGAGTGGAGCGGCAGTGGTGGCAACCCCAAGCTGGAACCGTACCGCGCCGATGCGGTGGACCTGTCGCTGGAGAAGTACTTCGGCACCGCCAGCTACGCCAGCGTGGCGCTGTTCCACAAGGATCTGGAGACCTACATCTACCGGCAGAACCTGCAGTGGGATTTCACCGGCTACGATGACAACGGCATCACGCCGATCTCCAACATCGGCAACTTCAGCACCTGGGCCAACGGCACGGGTGGCTACATGCGCGGCGTGGAGGCGGCGCTGACCCTGACCGGGGACCTGTTCGGCAGCGCGCTGGACGGCTTCGGCCTGCAGCTCAACGGGTCCTACACCGAGTCGTCGATCGATCCGGACCCGAGCGACGACAGCGTCGGCACCGACACCATCCCGGGGCTGTCCAAGGTGGTCGCCAACGCGACGCTGTTCTACGAAAAGCACGGGTTCGGCGCGCGCGTCAGCCAGCGCTACCGCGATGGCTATCGCGGCGAGTACGGCTCGCTGTTCGGCCAGCGCACCTACCGCAATACGCTCAGCGAGCGGGTCACCGACCTGCAGCTTAGCTACGAATTCCAGCCCGGCAGCCGCCTGGCCGGGTTGTCGCTGCTGTTCCAGGTCAACAACGTCACCAACGAGCCGTTCCGTACCGTGGTCAGCGACTCCACCGGCAGCATGATCTTCCTGCCCGAGGAGTACACCGAGTACGGCCGGCAGTACCTGCTGGGCTTCCGCTATGCGCTGTAG	MSIADSIARLPGIATQRVDGRSQVVQIRGMSEQFVGTTLNGREQVSTGDSRGVEFDQFPAELISAVTVYKTADAAVVGQGLSGTVDLKTVRPLDLGERRIVFGGQAERNSLGTLSSDGDADGYRASASYVDQFADDTIGIALGVARLNSPFQEQHYKQWWWADTDVWGASQPGKPAGAIALQGSEAWVKSRDLTRDGVMGTFEFKPNEHVHSVLDLYWSKFAQDEVMHGTMWSNDPWFSNAAGGQVGYADVATTDKGGVPVITSGTLTGTQPLVRNDSNTREDRLLSVGWTNTLRWDPWTATLDLNYARAKRRQSQLETYAGLLDPQAIGFDIPISAGYGRYALADLGDADSVYLWDAQNYGHDGRLENSWQNDETKAGRFELNYAVDTAFVRSFDLGVNLNRRSKDKRADVYFAELRDGTPTLVDPSLLYSPTSLGFVGIGGVLSFDPRALLSRYYDVAISESNDDLRKDYVVDEDVDTYYLRANIDMDLTARIRVRGNAGLQYVATEQSSTGFNATGGAIVGAQTLGASYHDALPSLNLVFDFGGGWMVRLGAAKQMMRPPINYLSADADASVSQTTREWSGSGGNPKLEPYRADAVDLSLEKYFGTASYASVALFHKDLETYIYRQNLQWDFTGYDDNGITPISNIGNFSTWANGTGGYMRGVEAALTLTGDLFGSALDGFGLQLNGSYTESSIDPDPSDDSVGTDTIPGLSKVVANATLFYEKHGFGARVSQRYRDGYRGEYGSLFGQRTYRNTLSERVTDLQLSYEFQPGSRLAGLSLLFQVNNVTNEPFRTVVSDSTGSMIFLPEEYTEYGRQYLLGFRYAL	PGPT0003790_3809	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_07445	1029	exuR_3	COG1609	putative HTH-type transcriptional repressor ExuR	GTGCCGGTGAGAATCGAGGATGTAGCGCGCGCGGCGGGCGTGTCGATGAAGACCGTCTCGCGCGTGTTGAACGGCGAGGCGGGCGTGCGCGAACCCGTGCGCGCCCGGGTGGGGGAGATCGCACGCTCGATGAACTACCGGCCGGATCCATCTGCGCGGCGGCTGGCCGGTCGGCGTTCGTATCTGGTCGGCTTCGTCTACGACAATCCGTCGGCGAACTACCTGATGGAACTGATCGCCGGCGTGGTGGAGGCCTGCGAGGAACTGCACTACGGCATGCTGGTGCAGCCGGTGGCGTTCCAGCGCCCCGACTTCGTCGACGCGGTCAAGGCGCTGGTGGCGTTCTCCAAGCTCGACGGGTTGATCCTGACCCCGCCGTTGACCGACAGCGACACGCTGCTCGCGGCGCTGCGCGAGGCCGGCATCGCCTTCGCCTGCGTCTCGCCCAAGGACTGCGACAGCAACATCGGCGTGACCTTGGACGAACGCGAGGCGGTGCGCGAGATCGTCGGCCTGCTGCTGCAGCGCGGCCATCGCCGCATCGGCCACATCCGCGGCCATCCGGCACACGGCGCCAGCGACTGGCGGCTGGACGGGTATCGCGACGCGCTCGCTGCGCACGGCGTGGCCTACGATCCGCAGCTCGTGGTCCCGGGCGAGTTCTCGTTCGATTCCGGCGTGCGCGCCGCGCGCCAGCTGCTGGACCTGGACGACCCGCCGACGGCGATCTTCGCCGCCAACGACGACATGGCCACCGGCGTGTTCAGCGAGGTGCAGGCGCGCGGCCTGCGCATCCCAGACGACATCGCGATCTGCGGCTTCGACGACATGCCGGTCTCGCGGCAGATCTATCCGCCGTTGACCACGATCCACCAGCCGGCGCGCGACATGGGCAAGGTGGTCACCGCCGAGCTGATCAAGGCGATCCGCCAGCCGGGCTCGGGCGCGATGGTGCGCATGCCGTACTCGCTGTGCCTGCGCGGCTCGGTCGGCCCGGCCAGGACCGAGGTGCCGCTGGGAGCGGGGTGA	MPVRIEDVARAAGVSMKTVSRVLNGEAGVREPVRARVGEIARSMNYRPDPSARRLAGRRSYLVGFVYDNPSANYLMELIAGVVEACEELHYGMLVQPVAFQRPDFVDAVKALVAFSKLDGLILTPPLTDSDTLLAALREAGIAFACVSPKDCDSNIGVTLDEREAVREIVGLLLQRGHRRIGHIRGHPAHGASDWRLDGYRDALAAHGVAYDPQLVVPGEFSFDSGVRAARQLLDLDDPPTAIFAANDDMATGVFSEVQARGLRIPDDIAICGFDDMPVSRQIYPPLTTIHQPARDMGKVVTAELIKAIRQPGSGAMVRMPYSLCLRGSVGPARTEVPLGAG	PGPT0017992_10735	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
BMS020_07446	669	fabR_2	COG1309	HTH-type transcriptional repressor FabR	ATGTCAGAAGCCGCCCTGTCCCCTGCCGACGCGCCCGCCCCGCCCCGCAAGGCGGCGATTTCGCGCGAGGACCTGCTAGCGGCGGCATTGAAACTGATCGGGCCGCACCGCAGCCTGTCGACGCTGAGCCTGCGCGAAGTGGCGCGCGAGGCCGGGATCGCGCCGAACAGCTTCTACCGCCAGTTCCGCGACATGGACGAGCTGGCGGTGGCGCTGATCGACCTGGCCGGCAGCTCGCTGCGCACCATCATCGGCCAGGCCCGCCAGCGCGCCACCTCCGGTGCGCGCAGCGTGATCCGGGTATCGGTGGAGACGTTCATGGAGCAGCTGCGCGCCGACGACAAGCTGCTGCACGTGCTGCTGCGCGAGGGCGCGGTCGGCTCGGATGCGTTCAAGCATGCGGTGGAGCGCGAGCTGCACTATTTCGAGGAAGAGCTGCAGCACGACCTGGTGCGGCTGGCCGCCGCCGACGGCGCGGTGCTGCATGCACCGGCACTGGCCTCGCAGGCGATCACCCGGCTGGTGTTCGCGATGGGCGCCAGCGCGATGGACCTGCCGCCGGAGAAGGACCCGGAGCTGATCGAGCAGATCTCACAGATGCTGCGGATGATCATCGTCGGCGCGCGCACGCTGGGCGCCGAGACCCAGCCCGGCGCCACCTCGCGCTGA	MSEAALSPADAPAPPRKAAISREDLLAAALKLIGPHRSLSTLSLREVAREAGIAPNSFYRQFRDMDELAVALIDLAGSSLRTIIGQARQRATSGARSVIRVSVETFMEQLRADDKLLHVLLREGAVGSDAFKHAVERELHYFEEELQHDLVRLAAADGAVLHAPALASQAITRLVFAMGASAMDLPPEKDPELIEQISQMLRMIIVGARTLGAETQPGATSR				NA	NA	NA	NA	NA
BMS020_07447	1095		COG1018	NADPH oxidoreductase	ATGTGCGTGCGGCCGTATAGTGGCGCCATGAACGCCATGGCCCCTGCCGCCCCCCTGTCCGTCCGCCTGCTTGGGCACTGTGTCTCGCCGACGCTGTTCGACTTCTGGGCCGGCAAGCTGAATCCGTTGTGGACGCTGCGCCAGCCGCTGGTGCGGCTGCTCGCGCGCGAACCGGCCGGCGCCGGCGCAGCCACGTTGGTGCTGCAGGCCAACCGCCACTGGCGCGGCCTGCGTGCCGGCCAGCACGTGACCCTGGGCGTGGAGGTTGACGGGCGCCGGTTGCGGCGCAGCTACAGCCCGACCCCGCTGGGCCGCGGCCGCATCGCGATCACCGTGCAGGCGGTCGAGGGCGGGCTGGTCAGCCGCCACCTGGTGCAGGTCGCGCCGATCGGCAGCGTGTTCGAGATCGAGCAGGCGTTCGGCGAGATGGTGTTGCCGGCGCAGGTGCCGCCGTTGCTGCTGCTGGCCGCCGGCAGCGGCATCACCCCGATGCGCGCACTGCTGCGGCAGCTGGCCGCGCAGGGCATGCCGGCGCCGGTCGACCTGCTGTACTGGGCGCGCACGCCGGAACAGTTCTGCTTCGGCGAGGAACTGCGCGCACTGCAGGCCGCGCATCCGGCGCTGCGCGTGCACTGGCTGGCCACGCGCAGCGGCGACGCGCCGGCAGCGCGCATCGATGCACACCCGCTGGACGCGATCGCCGGCCTGGCGCAGCGCCAGGTGTTCGCCTGCGGCCCGGCCGGCTTCGTCGATGCGGCGCGGGCGCGCCTGCACGACCAGGTCGCCGGCTTCGCCGCCGAGGCGTTCAGCGCCCCGGCCACGACCCCGCACGAAGAGGGCGAGGTCGAGGTGCACCTGGCACGCAGCGGCCGCACCCTGCGCCTGCCGCGCGCCAGCTCGCTGCTGGACGGGCTGGAAGCGCAGGGCATCAAGCCCAAGCACGGCTGCCGCATGGGCATCTGCAACAGCTGCGCCTGTGCGCGCCAGTCCGGCGCCACCCGCCACACGCGCACCGGCGAGCGCAGCGATGAACCCGCCGCGCAGGTGCGCCTGTGCGTCAGTGCGCCGAGCACCGACCTGATCCTGGATCTTTGA	MCVRPYSGAMNAMAPAAPLSVRLLGHCVSPTLFDFWAGKLNPLWTLRQPLVRLLAREPAGAGAATLVLQANRHWRGLRAGQHVTLGVEVDGRRLRRSYSPTPLGRGRIAITVQAVEGGLVSRHLVQVAPIGSVFEIEQAFGEMVLPAQVPPLLLLAAGSGITPMRALLRQLAAQGMPAPVDLLYWARTPEQFCFGEELRALQAAHPALRVHWLATRSGDAPAARIDAHPLDAIAGLAQRQVFACGPAGFVDAARARLHDQVAGFAAEAFSAPATTPHEEGEVEVHLARSGRTLRLPRASSLLDGLEAQGIKPKHGCRMGICNSCACARQSGATRHTRTGERSDEPAAQVRLCVSAPSTDLILDL				NA	NA	NA	NA	NA
BMS020_07448	1113	desA3	COG3239	NADPH-dependent stearoyl-CoA 9-desaturase	ATGAGCCGCATCCACAACCGCGCGCTGTCCCCGGCCGATCTGCAGGCCTTCGGCGACGAGCTCGACAGCCTGCGCGCCCGCGTGCAGGCCGACCTTGGCGCGCGCGACGCGCGTTACATCCGTCGCGTCGCCGCCGCGGTGCGCTGGTTCGGCGTCGCCGGCCGCGCGCTGCTGTTCCTCGGCGCCTTCGTGCACAGCGTGCTGTGGCCGGCGTGGATCGCCGGCACGCTGCTGCTGGCGTTGTCCAAGATCCTGGAGAACATGGAACTGGGCCACAACGTGATGCACGGCCAGTTCGACTGGATGGGCGATCCCAAGCTCGATGGCAACACCTACGAATGGGACATCGTCGCCACCGCCGACAACTGGCGCAAGACGCACAACTTCCGCCACCACACCTACACCAACGTGCGCGGCATGGACGATGACATCGGCTATGGCCTGCTGCGGATCTTCCCCGAGCAGCGCTGGCGGCCGTTCTACCTGCTGCAGCCGCTGATCGCGCCGGTGTTCGCGCTGCTGTTCCAGTGGGGCGTGGCGATCCAGGACCTGCGCCTGGGCCGCTGGTTCAAGGGCAAGCTGAGCGGGCGCCAGCTGTGGCGGCAGTTCCGTCCGGTCGGCGCCAAGATGGGCAAGCAGCTGCTGAAGGACTACGTGGTGTTCCCGCTGCTGGCCGGCCCGTTCTTCCTGCCGGTGCTGCTGGGCAACCTGGTCGCCAACGTGCTGCGCAGCCTGTGGACGTTCACGATCATCTTCTGCGGCCACTTCACCGCCGACGCCGAAACCTTTCCCAAGGAATGCCTGCGCAACGAATCGCGCGGCCACTGGTACCTGCGCCAGCTGCGCGGCTCGTCCAACCTCACCGGCGGTTGGCTGATGAACGTGCTCTCGGGCAACCTCAGCCACCAGATCGAGCACCACTTCTACCCGGACCTGCCGGCCAACCGCTACGCGGCGATCGCGGTCGAGGTGAAGCGCATCTGTGCGCATTACGGCCAGCACTACAACACCGGCTCGCTGCCCAAGCAGTTCGGCCAGGTCGCCTGGCGCATCGTGCGCCATGCCTTCCCGAGCCGGCCGCGGCCGTTGCCGGCGCTGCAGGCCGCCGGCTGA	MSRIHNRALSPADLQAFGDELDSLRARVQADLGARDARYIRRVAAAVRWFGVAGRALLFLGAFVHSVLWPAWIAGTLLLALSKILENMELGHNVMHGQFDWMGDPKLDGNTYEWDIVATADNWRKTHNFRHHTYTNVRGMDDDIGYGLLRIFPEQRWRPFYLLQPLIAPVFALLFQWGVAIQDLRLGRWFKGKLSGRQLWRQFRPVGAKMGKQLLKDYVVFPLLAGPFFLPVLLGNLVANVLRSLWTFTIIFCGHFTADAETFPKECLRNESRGHWYLRQLRGSSNLTGGWLMNVLSGNLSHQIEHHFYPDLPANRYAAIAVEVKRICAHYGQHYNTGSLPKQFGQVAWRIVRHAFPSRPRPLPALQAAG				NA	NA	NA	NA	NA
BMS020_07449	1569	pdeB_3	COG4943	putative cyclic di-GMP phosphodiesterase PdeB	ATGCCCGAGCCCCCCGCCTTGAAACGGCGCCGCATCATCAGCGTCAGTGTGCTGCTCGCACTGGCTTGCACGGCCGCACCGGTGTCGTTGTCGGCCTATCTGGCGTGGCGCCATGCCAGCCACACAAAACGCGAGCAGCTGGCCACGCTGGCCGAGCAGGCGATCGAGCGCGCACAGCGCAGCTTCGACGATGCGCACAGCATGCTGGCGACGATGGCCACCTCGCCGCTGCCGCCGTGCTCGCCGGCGCACATCGCGCAGATGCGCGCGCTGGTGTTCGCCAGCGAGTCGGTGCAGGAGCTGGGCTATTTCGACCACGATCGGATGCGCTGCACCTCTTGGGGCGTGCTGGACGAAGACGCCGACGTGCCACGCGCGCCGGCCGACTACACCAGCGCCGACGGGCTGCAGGTGACGCTGCAGCTGTATCCGGCCACCGATCCCGGGGTGCGGATGCTGGGACTGCATGCGGGCGCCTACAACGCGCTGGTCAACCCGCGCGTGCTGACCAACCTGGTGCTGCCGGGCGGCACCGAACTGGCCGTGGCCGATGCCAGCGGCCACGTACTGGCCGAGACCGGCCCGGCCGCAGTGCGTGCGCTGCTGCGCCCCAGCGGCGTGCCCGGCACCGAGGGCGTGCCGCTGCGCGGCCGCGCCCGCCGCGGCGAATGGGTGGCGGTGGCGACCCAGCCGGCGGCCGCGTTGAACGGCGCGTTGCGCAGCGAGCAGGCACATTGGCTGCCGGCCGGACTGGGCGTGTCGATGCTGCTGGTCGGCGTGGTGGTGTGGGCATCGCGCAAGCGCCTGTCGCCGCTGGCGCGGCTGCAGCTGGCAGTACAGCGGCGCGAGTTCGTCGTGCACTATCAACCGATCATCGCGCTGGACAGCGGCGCCTGCGTCGGCGCCGAAGCGCTGCTGCGCTGGCAGCTGCCGGACGGCACCGTACTCGGTCCGGACCGCTTCGTCGCGCTGGCCGAGCGCAGCGGCTTGATCTCGCCAATCACCGAACAGGTGATCGCGCACGTGCTGGCCGACCTCGGCCCGCTGCTGCGGCGCAGGCCGCAGCTGCACGTGGCGATCAACGTGCAGGCCGAGGACATCCAGGGCGACCGCGTGCGCACGATGCTGGCGCGGCAACTGCAAGACACCGGCATCGCGCCGCGCCAGCTGTGGATCGAGGCGACCGAGCGCAGCTTCATGGACATCGACAGCGCGCGTGATGCAATCACCCGCCTGCGCGAGCAGGGCCACGCGGTGGCAATCGACGATTTCGGTACCGGCTATTCGAGCCTGCAATACCTGGCCGACCTGCCGCTGGACGCACTGAAGATCGACAAGTCCTTCGTCGACACGGTCGGGCTCGGCTCGGCGACCAGCTCGGTGACCTCGCACATCATCGACATGGCCAAGGCGCTGGGCCTGCGCACCGTCGCCGAAGGCGTGGAGCGCCAGGAGCAGCTGGACTACCTGCGCGAGCGCGGCGTGGACTTCGCCCAGGGCTGGTTGTTCGCGCGCGCCCTGCCGGCGGCGGAGTTCATCGCGTTCCAGCGCCAGCACGCGGGCGGCTGA	MPEPPALKRRRIISVSVLLALACTAAPVSLSAYLAWRHASHTKREQLATLAEQAIERAQRSFDDAHSMLATMATSPLPPCSPAHIAQMRALVFASESVQELGYFDHDRMRCTSWGVLDEDADVPRAPADYTSADGLQVTLQLYPATDPGVRMLGLHAGAYNALVNPRVLTNLVLPGGTELAVADASGHVLAETGPAAVRALLRPSGVPGTEGVPLRGRARRGEWVAVATQPAAALNGALRSEQAHWLPAGLGVSMLLVGVVVWASRKRLSPLARLQLAVQRREFVVHYQPIIALDSGACVGAEALLRWQLPDGTVLGPDRFVALAERSGLISPITEQVIAHVLADLGPLLRRRPQLHVAINVQAEDIQGDRVRTMLARQLQDTGIAPRQLWIEATERSFMDIDSARDAITRLREQGHAVAIDDFGTGYSSLQYLADLPLDALKIDKSFVDTVGLGSATSSVTSHIIDMAKALGLRTVAEGVERQEQLDYLRERGVDFAQGWLFARALPAAEFIAFQRQHAGG				NA	NA	NA	NA	NA
BMS020_07450	411	hrp1	COG0517	Hypoxic response protein 1	ATGATCATCAAAGACGTGATGAGCCGCGACGTGGCGGTCATCGCACCGGACAACACGCTGCGCGAAGCGGCGGACATGATGCAGCGGATGGATATCGGCAGCCTGCCGGTGGGCGAGCACGACCGCCTGGTCGGCATGCTGACCGACCGCGACATCGTGATCCGCGCGGTCGCTGCCGGGCGCACCGGCGAGAGCCAGGTGCGCGAGGCGATGTCGGCGAAGATCAGGTATTGCTTCGAGGACGACGACGTCGACATGGTCGCCGAGAACATGGCGTCGTTGCAGATCCGCCGGCTGCCGGTGCTGGATCGCGACAAGCGCCTGGTCGGAATCGTTTCGCTGTCCAACATGGCGCATGCCGAGGACGATGCCTGTGAGGTGGTGGCCCGTGGCGTCGCCCGGCCGCACTGA	MIIKDVMSRDVAVIAPDNTLREAADMMQRMDIGSLPVGEHDRLVGMLTDRDIVIRAVAAGRTGESQVREAMSAKIRYCFEDDDVDMVAENMASLQIRRLPVLDRDKRLVGIVSLSNMAHAEDDACEVVARGVARPH				NA	NA	NA	NA	NA
BMS020_07451	210			hypothetical protein	GTGAGGTGGTGGCCCGTGGCGTCGCCCGGCCGCACTGACGGCGCGCGCGACCGGGTCGGCGGCGACGACGCCAACCCGGTCTACCGCGTCTACGAACAGACCCGCGACGGTGCGCTGGCCAAGTACGTGGTCGGCGAGACCGGCGTGGCCTTCGATACGCTGGAAGCGGCCGAGCGCGCCGCGCACGACCTGGGCCAGCTGCCACGCTGA	MRWWPVASPGRTDGARDRVGGDDANPVYRVYEQTRDGALAKYVVGETGVAFDTLEAAERAAHDLGQLPR				NA	NA	NA	NA	NA
BMS020_07452	507	blc_4	COG3040	Outer membrane lipoprotein Blc	ATGCACACATCCCCAGACCTGCAGACCGTGACCAGCGTCGACCTGGCCCGCTATCTGGGCACCTGGTACGAGATCGCGCGCCTGCCGATCCGCCACGAGCCACCCGATTGCACCGACGTGACCGCGCACTACGCGCGCTCCGACGACGGCACCGTGGAGGTACGCAACCGCTGCGTCGACGCAGACGGGAAGGTGCACGAAGCACTTGGCGTGGCCACGCCCGTCGACGCCAACAACAGCCGGCTTGAGGTGAGCTTCCTGCCTGCCGCGCTGCGCTGGATCCCGTTCACTCGCGGCGACTACTGGATCCTGCGGCTGGCGCCGGACTACCGCATGTCGCTGGTCGGCACCCCGGATCGCCGCCACCTGTGGCTGCTGGCGCGCACGCCGCGGCCGGCGCAGCAGGAGGTCGAGGACTTCCTCGCGACCGCGCGGGCGCGTGGCTTCGCATTGCAGGCATTGATCCGCACGCCACACACCGGCCGCGCCGACAGCGCGGCGGCGTGA	MHTSPDLQTVTSVDLARYLGTWYEIARLPIRHEPPDCTDVTAHYARSDDGTVEVRNRCVDADGKVHEALGVATPVDANNSRLEVSFLPAALRWIPFTRGDYWILRLAPDYRMSLVGTPDRRHLWLLARTPRPAQQEVEDFLATARARGFALQALIRTPHTGRADSAAA	PGPT0012970_2620	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012970-blc-K03098	NA	NA
BMS020_07453	927	hcaR_4		Hca operon transcriptional activator HcaR	ATGTTCGACCTCAGCCAACTGCGTTGCTTCGTGGCCGTCGCCGAGGAGCTGCACTTCAGCCGCGCCGCCGAACGCCTGCACATGACCCAGCCGCCGCTGAGCCGGCAGGTGCAGTTGCTGGAGCATGCGATCGGCACCGCGCTGTTCACCCGCAGCAACCGCATGGTGCGGCTGACCCCGGCCGGGCGCAGCCTGCTGCCGGAGGCGCGCACGATCCTGCGCCTGAGCGAACACGCCGGGTTGACCGCGCGTCGGGTCGGGCTCGGCGAAGCCGGCGCGATCAGCGTCGGCTTCACCGCCGCGGCCGGCTACCGTTTCCTGCCCGACGCGGTGGCGCGCTGGCGCGATGCGTTCCCGGACATCGGCCTGCAGTTGCGCGAGATGGTCAGTGGCGAACAGCTGGAAGCACTGGATGCGGGGCGGCTGGATCTGGGCCTGCTGCGCCCGCCGATCACCCGCGACGGGCTGCGCTCGCGCTGCATCGTGCGCGAGCCGCTGGTCGCCGCGCTGCACGTTTCGCACCCGCTGGCGGCCAGCGACGCGCTGCGCCTGCGCGACTTCGACCACTTGCCGCTGGTGATGTATTCGCCGGACGAGGCGCGCTATTTCTACGACCTGGTCGCGCGCATCTTCAGCCGCCACGGGGTCAGTCCGCGCTACGCCCAGCACGTCAGCCAGATCCACTCGGTGCTGGCACTGGTCCGCGCCGGGCTCGGCGTGGCACTGGTGCCGGAGGCGGCGACCAGCCTGCGTTACGAGGGCATCGTCTACCGCAACGTCACCGGGCTGGCGCCGGCACGCCCGGTGGAACTGCACATGGTCTGGCGCGAGGACAACGACAGCCCGATCCTGCCGCGGCTGCTTGCGCTGCTGCTCAACGAGCCGGCCGGCGACGACGCCGCCGCGACGATGCCGGCCACGCCCTGA	MFDLSQLRCFVAVAEELHFSRAAERLHMTQPPLSRQVQLLEHAIGTALFTRSNRMVRLTPAGRSLLPEARTILRLSEHAGLTARRVGLGEAGAISVGFTAAAGYRFLPDAVARWRDAFPDIGLQLREMVSGEQLEALDAGRLDLGLLRPPITRDGLRSRCIVREPLVAALHVSHPLAASDALRLRDFDHLPLVMYSPDEARYFYDLVARIFSRHGVSPRYAQHVSQIHSVLALVRAGLGVALVPEAATSLRYEGIVYRNVTGLAPARPVELHMVWREDNDSPILPRLLALLLNEPAGDDAAATMPATP				NA	NA	NA	NA	NA
BMS020_07454	918		COG0329	putative 5-dehydro-4-deoxyglucarate dehydratase	ATGAGCAAGTACACCCCCCAGGAAATGGCCAAGGCGCTGGGCGCCGGCCTGCTGTCGTTCCCGGTCACCCACTTCAAGGCCGACGACCATGCCTTCGACGAGGCGGCCTACCGCGCCAACCTGGGCTGGCTGTCGTCGTATCCGGCCTCGGGTCTGTTCGCCGCCGGCGGTACCGGCGAGCTGTTCTCGCTGACCCCGGGCGAAGTGAACCGCGCGGTCAAGGCCGCAGTCGAGGAAGCCGGGGCCAAGACCCCGATCATCGCCCCGGCCGGCTACGGCACCGCGATGGCGATCGAGATGGCCCAGGCCGCCGAGGCCAATGGCGCCGACGGCATCCTGCTGTTCCCGCCGTACCTGACCGAGTGCGACGCCAACGGCGTGGCCGACCACGTCGAGCGCGTCTGCAAGGCGACCAAGCTCGGCGTGATCGTCTACAGCCGCGCCAACGGCAAACTCGACGCCAACGCGGTCGCGCGCCTGGCCGAACGCTGCCCGAACCTGGTCGGCTTCAAGGACGGCGTTGGCGACGTCGACCGCATGACCCGCATCTATGCGCGCCTGGGCGACCGCCTGCTGTACATCGGCGGCCTGCCGACCGCCGAGACCTTCGCCCTGCCGTACCTGGAAATGGGCGTGACCACCTACTCGTCGGCGATCTTCAACTTCCTACCGGGGTGGGCGCTTGAGTTCTACAAGGCGGTGCGCGCGCGCGACATCGCCCACGTCTATCGTGAGCTTAACGACTTCGTGCTGCCGTACACCGAGCTGCGCAACCGCCGCGCCGGCTACGCGGTGTCGATCGTCAAGGCCGGCATGACCGCGGTCGGCCGCAGCGCCGGCCCGGTGCGCACCCCGCTGGCCGACCTGACCGGCGAGGAACTGGCCCAGCTCAAGACCCTGATCGGGGATCGCAAGTAA	MSKYTPQEMAKALGAGLLSFPVTHFKADDHAFDEAAYRANLGWLSSYPASGLFAAGGTGELFSLTPGEVNRAVKAAVEEAGAKTPIIAPAGYGTAMAIEMAQAAEANGADGILLFPPYLTECDANGVADHVERVCKATKLGVIVYSRANGKLDANAVARLAERCPNLVGFKDGVGDVDRMTRIYARLGDRLLYIGGLPTAETFALPYLEMGVTTYSSAIFNFLPGWALEFYKAVRARDIAHVYRELNDFVLPYTELRNRRAGYAVSIVKAGMTAVGRSAGPVRTPLADLTGEELAQLKTLIGDRK	PGPT0018160_346	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018160-kdgD|ycbC-K01707	NA	NA
BMS020_07455	1584	LhpG		Alpha-ketoglutaric semialdehyde dehydrogenase 3	ATGGCCGCGCTCACCGGCAAGATGCTGATCGGCGCCAGCGCCGTGTTCGGCGGCGAAGGCACCGTGCAGGGCATCGACCCGGCCACCGGCGCCAGCCTGGAGCCGGCCTACGGGCTGGCGTCGGATGCCGACCTGGAGCGCGCCTGCGCGCTCGCGGCGGCCGCCTTCGATGCCTACCGCGAGACCTCGCTGGAGGCGCGCGCGACGTTCCTGGAGACCATCGCCGAGCAGATCCTGGCGCTAGGCGACGAATTGATCGTGCGCGCGATGGCCGAATCCGGCCTGCCGCGCGCGCGCCTGGAAGGCGAGCGTGGCCGCACCGTTGGCCAGCTGCGCTTGTTCGCCTCGGTGGTGCGCGAAGGCAGCTGGCTGGACGCACGCATCGACCCGGCGCTGCCCGAGCGCACCCCGCTGCCGCGCAGCGACCTGCGCCAGCGCCACATCGCGCTCGGCCCGGTGGCGGTGTTCGGCGCGAGCAACTTCCCGCTGGCGTTCTCGGTGGCCGGTGGCGACACCGCCTCGGCGCTGGCCGCCGGCTGCCCGGTGGTGGTGAAGGCGCACAACGCCCATCCCGGTACCTCCGAGCTGGTCGGCAGCGCGATCCAGGCCGCGGTCGCCCAGTGCGGCCTGCCGGAAGGGACGTTCTCGCTGCTGTTCGGCGCCGGCACCAGGATCGGCAGCGCGCTGGTCGCCGATGCGCGGATCAAGGCGGTCGGCTTCACAGGCTCGCGCGGTGGCGGCACCGCGCTGATGCAGGTCGCCGCTGCGCGCCGCGAGCCGATCCCGGTGTACGCCGAGATGAGCGCGATCAACCCGGTCTACCTGCTGCCGGCCGCGCTCGACGCGCGCGCCGAGGCGCTGGGCAAGGCCTTCGTCGGTTCGCTGACGATGGGCGCCGGCCAGTTCTGCACCAATCCCGGCCTGCTGCTGGCGATCGACTCGCCGGCGCTGGAGCGCTTCGTCGCCGCCGCGGTCGAGGCACTCCAGGCCTCCTCCGCGTCGGTGATGCTGACCCCGGGGATCGGCAAGGCCTACGCCGACGGCGTCGCCGCATTGGCCGGCAATGCCAAGGTCACCACGCTGGCGCGCGGCTTGCCGGCCGACGGCCCGAACCGCTGCGAAGCAGCCTGGTTCGCCGCCGACGCGGAGGCGTTCCTCGCCGACGAGGCGCTGCAGGCCGAAGTGTTCGGTGCCTCCTCGCTGCTGATCCGCTGCAAGGATGCGGCCCAGCTGGTCGCGCTGAGCGAGCACCTGGAAGGCCAGCTCACCGCCACCCTGCAGATGGACGCCGGCGACACCGCGTTGGCGCGCACGCTGCTGCCGGTGCTGGAGCGCAAGGCTGGGCGAATTCTCGCCAACGGTTGGCCGACCGGCGTCGAGGTGTGCCACGCGATGGTGCATGGCGGCCCGTTCCCGGCCACCTCCGACAGCCGCACCACCTCGGTGGGCACGCTGGCGATCCGCCGCTTCCTGCGCCCGGTCTGCTACCAGGACCTGGCCGCGGAGCTGCTGCCGGAGGCGCTGGCCGACGGCAACCCGCTGGGCATCTGGCGCCGCACCGACGGCGTGCTCGGCACCGACTGA	MAALTGKMLIGASAVFGGEGTVQGIDPATGASLEPAYGLASDADLERACALAAAAFDAYRETSLEARATFLETIAEQILALGDELIVRAMAESGLPRARLEGERGRTVGQLRLFASVVREGSWLDARIDPALPERTPLPRSDLRQRHIALGPVAVFGASNFPLAFSVAGGDTASALAAGCPVVVKAHNAHPGTSELVGSAIQAAVAQCGLPEGTFSLLFGAGTRIGSALVADARIKAVGFTGSRGGGTALMQVAAARREPIPVYAEMSAINPVYLLPAALDARAEALGKAFVGSLTMGAGQFCTNPGLLLAIDSPALERFVAAAVEALQASSASVMLTPGIGKAYADGVAALAGNAKVTTLARGLPADGPNRCEAAWFAADAEAFLADEALQAEVFGASSLLIRCKDAAQLVALSEHLEGQLTATLQMDAGDTALARTLLPVLERKAGRILANGWPTGVEVCHAMVHGGPFPATSDSRTTSVGTLAIRRFLRPVCYQDLAAELLPEALADGNPLGIWRRTDGVLGTD	PGPT0018165_687	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018165-aldH-K13877	NA	NA
BMS020_07456	1209	oprP_2	COG3746	Porin P	ATGATGGTTTATCCGCAGCATTCGCGGCTGTTGCCGCGCGCACGCCTGATGGCGCTTCCGTTCGCCATCGCTGCCGCCGTCGCGGTTCCGGCCCAGGCCGAGACCAAGCTCGACAGCAACGGCTTCAACGCCGCGTCCGACGACGGCAACTACACCTTCGGCATCCATGGCCGCGTGCAGTTCGACGGCGGCTGGTTCGACAACGACGACCGCGGCAGCGACAACGTCTCCGGTACCGAGCTGCGCCGCGTGCGCCTGGCGATCTCCGGCAAGTTCGACGACTGGAGCTACCTGGTCGACTACGACTTCGCCGGCGGCGACATCACCGGCCAGACGATCACGATCTCGCATGCGCTGGGCCCGGGCAGCATCTCGATCGGCCAGATCAAGCCGTTCTTCTCGCTGGAATACACCACCGACGACCTCTGGGCGTCGATGCAGGAGCGCTCCTGGATCAGCGACACGATGGCGCCGGGCTACCGCTACGGCACGCAGTGGGTGGGCAACACCCGTCACTGGGTGTACGGCGTGAACCTGTACAACGAATCCAACACCGACAGCGACAAGAACGACGGCATCGGCGCCAGCGGGCGCGTGGTGTGGCTGCCGCTGGAGCAGGAAGACGGGGTGCTGCACCTGGGCGCGGACGTGATGCGCGACCAGTACGGCAAGGGCCCGGACGGCGACTACGTCGGCTACAGCAACGCGGTGCGCGCGGCCGGTCACCTGTCCGACCAGTCCAAGTTCACCCTGGTCAAGCTCGCCGATGGCCGCGAGGTCGACATCAACAAGTACGTCGGCGAGTTCGCCTATTCGCGCGGCCCGTTCTACGTGCAGTCCGAGTACGGCCATGCCGACTACGACGATGGGGCGCAGGACGCCGACCTGGACACCGGCTACGCGATCGTCGGCTGGTTCCTGACCGGCCAGAGCCGCGGCTACGACGCCAAGAAGGCCCGATTCACCCGCCCGGACAACATCGGCGAAGGCGGGGCATGGGAACTGGCGCTGCGCTACGACATGGCGCACGGCAAGCAGGACGCCAGCGACATCAAGGTCGAGGCGACCTCGCTCGGGGTGAACTGGTACGCCAGCCGCAACGTGCTGTTCCGCCTGGACCTGATCCACAGCGAGGCCAAGGACCGCCTGGCCAACGCCATCCTGGACAAGACCAACGCCGTCACCGGCCGCGTGCAGATCGCGTTCTGA	MMVYPQHSRLLPRARLMALPFAIAAAVAVPAQAETKLDSNGFNAASDDGNYTFGIHGRVQFDGGWFDNDDRGSDNVSGTELRRVRLAISGKFDDWSYLVDYDFAGGDITGQTITISHALGPGSISIGQIKPFFSLEYTTDDLWASMQERSWISDTMAPGYRYGTQWVGNTRHWVYGVNLYNESNTDSDKNDGIGASGRVVWLPLEQEDGVLHLGADVMRDQYGKGPDGDYVGYSNAVRAAGHLSDQSKFTLVKLADGREVDINKYVGEFAYSRGPFYVQSEYGHADYDDGAQDADLDTGYAIVGWFLTGQSRGYDAKKARFTRPDNIGEGGAWELALRYDMAHGKQDASDIKVEATSLGVNWYASRNVLFRLDLIHSEAKDRLANAILDKTNAVTGRVQIAF	PGPT0002640_661	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPHATE_TRANSPORT,PGPT0002640-oprO-K07221	NA	NA
BMS020_07457	1365	gudP_4		putative glucarate transporter	ATGAATGCCACCATCGAAAACGGGAAGAGAACGCGGGTCCGCCTCTGGATCGTGATGTTCCTGTTCCTGGTCACCACCATCAACTACGCCGACCGCGCGACGCTGTCGATCGCCGGTTCGTCGATGCAGAAGGAGCTGGGCATCAGTGCCGAGCAGCTCGGCTTCATCTTCTCGGCGTTCGGCTGGGCCTATGTGATCTGCCAGATCCCGGGTGGCTGGCTGCTGGACCGCTTCGGCGCCAAGAAGGTCTACGGCTGGGGTATCGCGCTGTGGTCGCTGTTCACCATGCTGCAGGGCGCGATCCACATCCTGCCCGGCGGCATGATGGTGCCGGCGCTGTTCCTGCTGCGCTTCCTGGTCGGTGTGGCTGAGGCGCCGTCGTTCCCGGGCAACAGCCGCATCACTGCAGCCTGGTTCCCGGCCAAGGAGCGTGGTTCAGCCTCGGCGTTCTTCAACTCCGCGCAGTACTTCGCCACGGTGGTGTTCGCGCCGCTGATGGGCTGGATGGTGGCGTCGTTTGGCTGGCACCACGTGTTCATCATCATGGGCGTGATCGGCCTGCTGGTGGCGCTGATCTGGACCCGGGTGATCCACAATCCGCGCCAGCACCCGCGTGCCAACAAGGCCGAGATCGACTACATCACCGAAGGCGGTGCGCTGGTCGACATGGACAGGCCGGGCGAGAAAAAATCGGGCAACCACTGGTTCTACGTCAAGCAGCTGCTCAAGAAGCGGATGATGCTCGGCGTGTACCTGGGCCAGTACGGCGTCAACGGCGTCACCTACTTCTTCCTGACCTGGTTCCCGGTGTACCTGGTGCAGGAGCGCGGCATGTCGATCCTCAAGGCCGGTTTCATCGCCTCGCTGCCGGCGCTGTGCGGTTTCGCCGGCGGCGTGCTCGGCGGCATGTTCTCCGACTGGCTGCTGCGCCGCGGGCATTCGCTGACCTTCGCGCGCAAGCTGCCGATCGTGCTCGGCATGGGCCTGTCCTCGGTGATCGTGGTCGCCAACTACGTGTCCACCGAGTGGATCGTGGTCGCGGTGATGGCGATGGCGTTCTTCGGCAAGGGCATCGGCGCGCTGGGCTGGGCGGTGGTGTCCGACACCGCGCCCAAGCAGATCATCGGCCTGGCCGGTGGCATGTTCAACATGTTCGGCAACATCGCCTCGATCACCACGCCGATCGTCATCGGCTACCTGGTCGGCACCAGCGGCTCGTTCAACTCCGCGCTGGCCTTCGTCGCCGCCAATGCCATCCTGGTCGTGGTCAGCTACCTGGTGATCGTCGGCCGCATCGAGCGCATCGAACTGCGCGATCCGCCCGAGGCCGGTCAGCCGCGCCAGGTGCCGCTCGCCCAGCACTGA	MNATIENGKRTRVRLWIVMFLFLVTTINYADRATLSIAGSSMQKELGISAEQLGFIFSAFGWAYVICQIPGGWLLDRFGAKKVYGWGIALWSLFTMLQGAIHILPGGMMVPALFLLRFLVGVAEAPSFPGNSRITAAWFPAKERGSASAFFNSAQYFATVVFAPLMGWMVASFGWHHVFIIMGVIGLLVALIWTRVIHNPRQHPRANKAEIDYITEGGALVDMDRPGEKKSGNHWFYVKQLLKKRMMLGVYLGQYGVNGVTYFFLTWFPVYLVQERGMSILKAGFIASLPALCGFAGGVLGGMFSDWLLRRGHSLTFARKLPIVLGMGLSSVIVVANYVSTEWIVVAVMAMAFFGKGIGALGWAVVSDTAPKQIIGLAGGMFNMFGNIASITTPIVIGYLVGTSGSFNSALAFVAANAILVVVSYLVIVGRIERIELRDPPEAGQPRQVPLAQH	PGPT0016475_197	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCARATE_TRANSPORT,PGPT0016475-gudP-K03535	NA	NA
BMS020_07458	1548	garD_2	COG2721	Galactarate dehydratase (L-threo-forming)	ATGTCCGTCGTTTCCGTTCCCCAGCCTCAGCAGTGGCGTTCGATCCAGCTGCGCCAGGAGGACAACGTCGCCGTCGTGGTCAATGACGGCGGCGCGCCGGCCGGCGCGGTGTTCCAGGATGGCATCGTCGCCGCCGAGCACGTGCCGCAGGGCCACAAGGTCGCGCTGGTCGACATCCCGGCCGGCGCGGCGGTGCTGCGCTACGCCACCCCGATCGGCTACGCCAACCGCGATATCGCCAGGGGCCAGTGGGTGCAGGAGGACATGCTCGACATGCCGTCGGCACCGGAACTGGATGCGCTCGACCTGACCCTGCACCCCGCGCCGGCCGTGCAGCCGTTGGAGGGCTACACCTTCCAGGGCTACCGCAACCGCGACGGCAGCGTCGGCACCCGCAACATCCTCGGCATCATGACCAGCGTGCAGTGCGTGGTCGGCGTGCTTGGCCATGCGGTCGAGCGCATCCGCGCCGAGCTGCTGCCGAAGTATCCCAATGTCGATGACGTGGTGGCGATCAACCACGTCTACGGCTGCGGCGTGGCGATCACCGCGCCGGAGGCGGTCATCCCGATCCGCACCCTGCGCAACATCGGCCGCAACCCCAACTTCGGTGGTCAGGCGCTGATCGTCGGCCTCGGCTGCGAGAAGCTGGTGCCGGAGAAGCTGCTGCAGGACGATGCCGACGCCGGCGACAGCGCGGTGTACCGGCTGCAGGAAGCGACCATGGGTTTCCAGGATATGGTCCGTTCGATCATGGACCTGGCCGAGGAGCGCCTGAAACACCTGGACCAGCGCCGCCGCGAGACGATTCCGGCCTCGGAGCTGGTGGTCGGCATGCAGTGCGGCGGTAGCGACGCGTTCTCCGGCATCACCGCCAATCCGGCGCTGGGCGTGGCCGCCGACCTGCTGGTGCGCGCCGGCGCGACGGTGATGTTCTCGGAGAACACCGAGGTGCGCGACGGCATCCACCTGCTGGCGCCGCGCGCGGCCAATGAGGAGGTCGCCAAGGCGCTGGTGCGCGAGATGGCCTGGTACGACCGCTACCTGGCGCGCGGCGACGCCGACCGCAGCGCCAACACCACGCCTGGCAACAAGAAGGGCGGGCTCAGCAACATCGTCGAGAAGGCGATGGGCTCGATCGCCAAGTCCGGCTCCAGCGCGATCAGTGGCGTGGTGCCGCCGGGCGAGCGGGCCAAGGGCCGCGGCCTGCTGTACTGCGCCACCCCGGCCAGCGATTTCGTCTGCGGCACGCTGCAGACCGCCGCCGGCATGAACCTGCACATCTTCACCACCGGTCGCGGTACGCCGTACGGGCTGGGCATGGTGCCGGTGATCAAGGTCGCTACCCGCAGCGAACTGGCGCGGCGCTGGGCCGACCTGATGGACGTCGATGCCGGCGTGGTCGCCACCGGCCAGAAGACGCTCGATGAGCTGGGCTGGGAGATCTTCCAGATGTACCTGGACGTGGCCAGCGGCGAGCGCACCTGGGCCGAGAAGCACCGCCTGCACAACGACCTGGCGCTGTTCAATCCCGCGCCGATCACCTGA	MSVVSVPQPQQWRSIQLRQEDNVAVVVNDGGAPAGAVFQDGIVAAEHVPQGHKVALVDIPAGAAVLRYATPIGYANRDIARGQWVQEDMLDMPSAPELDALDLTLHPAPAVQPLEGYTFQGYRNRDGSVGTRNILGIMTSVQCVVGVLGHAVERIRAELLPKYPNVDDVVAINHVYGCGVAITAPEAVIPIRTLRNIGRNPNFGGQALIVGLGCEKLVPEKLLQDDADAGDSAVYRLQEATMGFQDMVRSIMDLAEERLKHLDQRRRETIPASELVVGMQCGGSDAFSGITANPALGVAADLLVRAGATVMFSENTEVRDGIHLLAPRAANEEVAKALVREMAWYDRYLARGDADRSANTTPGNKKGGLSNIVEKAMGSIAKSGSSAISGVVPPGERAKGRGLLYCATPASDFVCGTLQTAAGMNLHIFTTGRGTPYGLGMVPVIKVATRSELARRWADLMDVDAGVVATGQKTLDELGWEIFQMYLDVASGERTWAEKHRLHNDLALFNPAPIT	PGPT0018155_546	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018155-garD-K01708	NA	NA
BMS020_07459	1524	comM_1	COG0606	Competence protein ComM	ATGAGTCTGGCGCTGGTGCACAGCCGTGCCCGCGCCGGCGTGCACGCGCCCGCGGTGCGGGTCGAGGTGCACCTGTCCGGCGGCCTGCCCTCGACCCAGATCGTCGGCCTGCCCGAGGCGGCGGTGCGCGAATCGCGCGATCGCGTGCGTGCCGCGCTGTTGTGCGCGCGCTTCGAGTTCCCGGCACGGCGCATCACCATCAACCTCGCTCCGGCCGACCTGCCCAAGGACGGCGGCCGCTTCGACCTGCCGATCGCGCTGGGCATCCTCGCCGCCAGCGGCCAGATCGACCGCAGCGCACTGGATGGCTGCGAGTTCATCGGCGAGTTGGCGCTGACCGGTGAACTGCGCGCGGTCGACGGCATCCTGCCGGCGGCACTGGCCGCCGCCGCTGCCGAGCGCCGGCTGGTGGTCCCGGCCGCCAACGGCGCCGAGGCCGCGCTGGCCAGCGGCGCCCGCGCCGCGACCGCACGCACCCTGCTCGAAGTCTGCGAAGCGCTCAACGGCGGGCGCACGCTGTCCGATGCGGCCGCCCCAGTCGCTGGCGCGCTCACCGAAGCGCTGGCCCTGCCCGACCTCGCCGACGTGCGCGGCCAGCCGCACGCGCGCCGTGCGCTGGAGATCGCCGCGGCCGGCGGCCACCATCTGCTGCTGATGGGCAGCCCGGGCTGCGGCAAGACGCTGCTGGCCTCGCGCCTGCCCGGCCTGCTGCCGCCGGCCAGTGAGGCCGAGGCGCTGGAAACCGCCGCGGTCGCCTCGATCAGCGGCCGCGGCATCGACCTGGGGCGCTGGCGGCAGCGGCCCTACCGATCACCGCATCACACCGCCAGCGCGGTGGCGCTGGTAGGCGGAGGGACGCACCCGCGCCCGGGCGAGATCTCGCTCGCGCACAACGGCGTGCTGTTCCTGGACGAACTGACCGAATGGCAGCGCAGCACGCTGGAGGTGCTGCGCGAGCCGCTGGAGTCCGGCGTGGTCACCGTCTCGCGCGCCGCACGCAGCCAGGACTTCCCGGCCAGGTTCCAGCTCGTCGCCGCGATGAATCCTTGTCCATGCGGCTGGGCCGGCGATCCGAGCGGACGCTGCCGCTGCGGCGCCGAGGCGATCCGCCGCTACCGCGGGCGGATCTCCGGGCCACTGCTCGATCGCATCGACCTGCATGTCGACGTGCCGCGGCTGCCGCCGCAGGACCTGCGCCCGGACGGCCCGCGCGGCGAGGACAGTGCCACGGTGCGCGGCCGGGTGGAGGCCGCCCGGGCGCGCCAACTGGCGCGTGGCGGCTGCCTCAACGCGCATCTGGGCCAGGCCGCGACCGAGCGCGACTGCCTGCTGCAGCCGACCGACCGCGCACTGCTGGAGCGGGCGATCGAACAGTTGCAGCTGTCGGCGCGTTCGCTGCACCGGATCCTGCGCGTTGCGCGCAGCATCGCCGACCTTGCCGACAGCGAGGCGATCGCCACCGGCCACCTCACCGAGGCGATCGGCTATCGCCGGCTCGACCGCGGCGCCAGCGTGGCCGCCTGA	MSLALVHSRARAGVHAPAVRVEVHLSGGLPSTQIVGLPEAAVRESRDRVRAALLCARFEFPARRITINLAPADLPKDGGRFDLPIALGILAASGQIDRSALDGCEFIGELALTGELRAVDGILPAALAAAAAERRLVVPAANGAEAALASGARAATARTLLEVCEALNGGRTLSDAAAPVAGALTEALALPDLADVRGQPHARRALEIAAAGGHHLLLMGSPGCGKTLLASRLPGLLPPASEAEALETAAVASISGRGIDLGRWRQRPYRSPHHTASAVALVGGGTHPRPGEISLAHNGVLFLDELTEWQRSTLEVLREPLESGVVTVSRAARSQDFPARFQLVAAMNPCPCGWAGDPSGRCRCGAEAIRRYRGRISGPLLDRIDLHVDVPRLPPQDLRPDGPRGEDSATVRGRVEAARARQLARGGCLNAHLGQAATERDCLLQPTDRALLERAIEQLQLSARSLHRILRVARSIADLADSEAIATGHLTEAIGYRRLDRGASVAA				NA	NA	NA	NA	NA
BMS020_07460	264	ubiK_2	COG2960	Ubiquinone biosynthesis accessory factor UbiK	ATGATCGACCTCAACCACATCGACGACCTCGCCCGCCGCCTCAGCGACCTGGTCCCGCCCGGGCTGCGCCAGTCGCGCGAGGAGCTGCAGTCCACCTTCAAGGGCGCGCTGCAGGCCGGGCTGGCCCGGCTCGACTTGGTCACGCGCGAGGAATTCGAGGTGCAGCGCGCGGTGCTGCTGCGTACCCGCGAGAAGCTCGAGGCGCTGGAGATGGCGGTGGCCGCGCTGGAAACGCGCGGCACCGACGGCCGCCCCGCCGGCTGA	MIDLNHIDDLARRLSDLVPPGLRQSREELQSTFKGALQAGLARLDLVTREEFEVQRAVLLRTREKLEALEMAVAALETRGTDGRPAG				NA	NA	NA	NA	NA
BMS020_07461	339	glnB_3	COG0347	Nitrogen regulatory protein P-II	ATGAAAATGGTCATGGCCATCGTCAAGCCGTTCAAGCTCGACGACGTGCGCGAGGCGCTGGCCGGTTGCGGCGTGGCGGGTATCACCGTGACCGAGGTCAAGGGCTTCGGGCGCCAGAAGGGCCACACCGAGCTGTATCGCGGCGCGGAGTACGTGGTCGACTTCCTGCCGAAGGTGAAGATCGAGGTCGCGGTGACGTCCGACCAGGTCGAGGCGGTGGTCGAGGCGATCGTCAATGCCGCCGGCACCGGCAAGATCGGCGACGGCAAGGTGTTCGTCTACGACCTGGGCAGCGTGGTGCGCATCCGCACCGGCGAGCTGGACGCCGACGCGCTGTAA	MKMVMAIVKPFKLDDVREALAGCGVAGITVTEVKGFGRQKGHTELYRGAEYVVDFLPKVKIEVAVTSDQVEAVVEAIVNAAGTGKIGDGKVFVYDLGSVVRIRTGELDADAL	PGPT0000650_1435	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000650-glnB|glnY-K04751	NA	NA
BMS020_07462	660			hypothetical protein	ATGAACACCGCCCCCTTGGCCGATCCCGGCCACGCGTCCGTTGCCCCGGTCCTGCTCAAGCAGGGCACGCGCCTGCTCGAACCGGACGTCTACCGCACCCACCTGGATGGCCGTCCGGCCGTGGTCAAGGACTACAGCCGCTACCGCTGGACGCTGCTGGCCCCGATCGCACGGCTGATGGTCCGCCACGAGGCGCGCATGCTGCGCCAGCTTTCCGGCTGGAAGCACGCGCCGGCGCTGCTGGGCACGCTCGGCGGCCTGGCGCTGGGCATGGAGTTCATTCCCGGCGAGACCCTCAGCGCCAGCAGCGCGGTGAGCCAGGAAGTGTTCCAGCAGCTGCAGGTGGCGCTGCGCCGCCTGCACGCGGCCGGCATCAGCCACAACGACCTGCACGGCACCAACGTGATGGTCAGTGCCGGCGTGCCGGTGCTGATCGATTTCACCTCAGCCTGGCGCTTCCCGCGCTGGCTGCGGCGCAACCCGCTGACGCGCCAGCTGTTCCGCAGCGACGTGGCCAATTTCCAGAAGATGCGCGCGCGTCTGGCCGGCATCGCGCCGAGCGCCGAGGAAGCGGCGCAGACCGCCGAACCGGGCTGGGTGCGCAAGCTGCGCACCGGCTGGAAGCGCGCCTATCGTCGCCTGAAGGGCGAGCACGCCTGA	MNTAPLADPGHASVAPVLLKQGTRLLEPDVYRTHLDGRPAVVKDYSRYRWTLLAPIARLMVRHEARMLRQLSGWKHAPALLGTLGGLALGMEFIPGETLSASSAVSQEVFQQLQVALRRLHAAGISHNDLHGTNVMVSAGVPVLIDFTSAWRFPRWLRRNPLTRQLFRSDVANFQKMRARLAGIAPSAEEAAQTAEPGWVRKLRTGWKRAYRRLKGEHA				NA	NA	NA	NA	NA
BMS020_07463	1131	ybjJ_3		Inner membrane protein YbjJ	GTGACAGGCCAGCTCCAGCACCAGCGGGCGACCCGCACCAGCTTCTTCACCGCCGGCGTGGCTCTGTCGGCCTGGGCGCCGCTGGTGCCGTTCGCGCGCGAGCGCCTGCACGCGGGCCCGGCCCAGCTCGGGCTGCTGATGCTGTGCCTGGGACTGGGCTCGGTGCTGGCGATGCCGCTGGCCGGCCTGGTCGCCGCGCGGATCGGCTGCCGGCGCCTGATCCTGACCGTCGCCGCGGCGAGTTGCGCCTGCCTGCCCGGGCTCGCGCTCGCTGCCGATACCACGTCGCTGGCACTGGTGCTGTTCGTCTACGGCGCCTCGCTGGGCTGCATGGACGTGGCGATCAACCTGCAGGCGGTGCTGGTCGAGCGCGAAGCCGGCAGGCCGCTGATGTCCGGCTTCCACGCCTGTTTCAGCGTCGGCTGCATCGCCGGTGCCGGCGGCATCGCTCTGCTGCTGTGGCTGGGCCTGTCGCCCACCGCGGCGGTGCTGGGCCTGGTCGCGCTGATCGCGGCTGGCCTGGCCAGCCAGGGCCGCCACCTGCTCGCCCATGGCGGCGCGCCCGCGGCCGGCTGGCGCTGGCCGCATGGGTCGGTCCTGGTGCTCGGCGCAGTCTGCTTCGCCACCTTCCTCACCGAGGGCGCCGTGCTGGACTGGAGCGCGCTGGCGCTGTCCACGCTGCAGGCGCTGCCGGCCGAACGCGGCGGCCTGGGGTTCGCCGCGTTCGCGACCACGATGACGCTGGCACGCTTCGCCGGCGACCGGCTGGTGGCACGGCTCGGCGCCGCCCCGGTGCTGGCCGGCGGCACCGCGCTGGCGCTGGCCGGGCTGGCCCTCGCGGTCTGCGCACCCGGCCCGGGCGCGGCGTTGGCCGGCTATGCGCTGGCCGGGCTGGGCGGCGCCAACATCGCGCCGCTGGTGTTCTCCGCCGCCGGGCGCCACGCGCGCGGCAACCCGCAAGCCGCCGTCGCCGCGGTGTCCACGCTGGGCTACAGCGGCGCGCTGGCGGGTCCGGGACTGATCGGCCTGGTCGCCCATGCCGCTGGCCTGCCGCTGGCGTTGGGGCTGGTCGCGCTGGGCCTGGGCGTGGCGGTCGCGCTCGGCTTCGCCGCCGTCACTGGCCGGGACTGA	MTGQLQHQRATRTSFFTAGVALSAWAPLVPFARERLHAGPAQLGLLMLCLGLGSVLAMPLAGLVAARIGCRRLILTVAAASCACLPGLALAADTTSLALVLFVYGASLGCMDVAINLQAVLVEREAGRPLMSGFHACFSVGCIAGAGGIALLLWLGLSPTAAVLGLVALIAAGLASQGRHLLAHGGAPAAGWRWPHGSVLVLGAVCFATFLTEGAVLDWSALALSTLQALPAERGGLGFAAFATTMTLARFAGDRLVARLGAAPVLAGGTALALAGLALAVCAPGPGAALAGYALAGLGGANIAPLVFSAAGRHARGNPQAAVAAVSTLGYSGALAGPGLIGLVAHAAGLPLALGLVALGLGVAVALGFAAVTGRD				NA	NA	NA	NA	NA
BMS020_07464	858	speE_3	COG0421	Polyamine aminopropyltransferase	ATGACGAACGATACCTGGTACATCGAACACTTCCAGCCGACCGGCTCGGCGATCGGCTTCCGCACCACCGGCAAGCTCGACGAGGTGCAGTCGCCGTTCCAGAAGATCGAGATCTACGACAGCACCGACTGGGGCAAGCTGATGGTCATCGACGGCGCGATGATGCTGACCAGCAAGGACAACTTCTTCTACCACGAGATGATCAGCCACCCGGTGCTGTTCACCCACGCCGCGCCCAAGCGCGTGGTGATCATCGGCGGCGGCGACTGCGGCACGCTGCGCGAGGTGCTCAAGCACCCGGGCGTGGAAAGCGCCACCCAGTGCGACATCGACGAGCAGGTCACCCGCATGGCCGAGAAGTACTTCCCGGAACTGTGCGAGTCCAATGGCGACGCGCGCGCCGAACTGCTGTTCGACGACGGCGTGGCGTACATGAAGAACCTGCCGGAAGGCAGCGTCGACGTGGTGATCGTCGATTCCACCGACCCGGTCGGCCCGGCCGAAGGCCTGTTCAACAAGGCGTTCTTCGAGAGCTGCTTCAAGGCGCTCAAGCCCGACGGCCTGCTGGTGCAGCAGTCCGAGTCGCCGCTGGCGCTGCTGGACCTGATCAAGGACATGCGCGCGGAAATGGGCAAGGCCGGCTTCCAGAGCTTCAAGACCCTGCCGTTCCCGCAGCCGTGCTATCCGACCGGCTGGTGGAGCGTCACCGTGGCCAGCAAGCAGGCCGGCTTCGGTTTCGATTTCCGCAAGGCCGATGCCGAGGCCAAGCCGTTCGAGACGCTGTACTACACCGCGCACCTGCACACCGGGGTCAGCGTGGCCCCGCCGTTCGTCGCCAAGGCGCTGGGCGAGGCCTGA	MTNDTWYIEHFQPTGSAIGFRTTGKLDEVQSPFQKIEIYDSTDWGKLMVIDGAMMLTSKDNFFYHEMISHPVLFTHAAPKRVVIIGGGDCGTLREVLKHPGVESATQCDIDEQVTRMAEKYFPELCESNGDARAELLFDDGVAYMKNLPEGSVDVVIVDSTDPVGPAEGLFNKAFFESCFKALKPDGLLVQQSESPLALLDLIKDMRAEMGKAGFQSFKTLPFPQPCYPTGWWSVTVASKQAGFGFDFRKADAEAKPFETLYYTAHLHTGVSVAPPFVAKALGEA	PGPT0007750_2697	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
BMS020_07465	1824	htpX_4		Protease HtpX	ATGGACACCCGCGAACGCATACGGACACCTCCACCCGGGCCCGGGCAGGGCACTGCGGCCCTGGCGGCGGGCGACCGCCTGCGCCTGCTGCTGTGGGCCGGGCTCGGCCATATGCTGTTGCTGGGCCTGCTGCTGCTCTGCGCGGGCACCCTGGGGGCGATGGCGTGGCGGCTGCTGACGGACGGATTCCGCGCCGATGCGGTGATCCCGTTCCTGCTGGTCGGCGCGCTGGTCCTGGCGATGGCGCGCGCGCTGTGGCTGCGGCGGGTGCCGCCGGAGGGCTACCGCCTGTCCGCCGCGGAGGCGCCGGCGCTGCAGGCCGAGATCGAGCGGATCCGGCGTGCGGTCGGTGCGCGTCCGCTGGATGGCATCGTCATCGACGCCGACCTCAATGCCGCGGCCGCCCACCTGCCGCGGGTCGCCGGGTTCGGCGGCGGGCGGCATTACCTGGTGCTGGGGCTGCCGTTGCTGCAGCTGCTGGACCGCGAGGAACTGGCGGCGGTGATCGCGCACGAATTCGGCCATTTCCATGGTGGCGATGGTCGCTTCTCCAGCTGGATCTACCGCGTCCGGGCCGGCTGGTGGCGGGTGGCGCAGGGGCTGTCGGCCAACGCATTCGCCATCCAGGTCCCGCTGCTGCTGTTCCTGCGCTGGTATCTGCCGCGGCTGGAGGCGGCCAGCATGCGGGTGTCGCGGCAGCAGGAGTTCGCCGCCGATGCGGTGGCCGCGCAGGTGGCGGGCGGACCGGCGGCGGGCGCTGCACTGATCCGCCTGGAGTTGGCCAGCGAGTGGCTGCAGCGCTGCTTCTGGCCCGAGGTCGAGCGCGGCGCGCAGCACCAGTCCTATCCGCCGGCGCGGGTTCATGAGCATCTGGCCGAGCAGCTATCCCGCCACCGCGGCGAGCCGCTGCGCCTGCCCGAGCGCCTGCTGCGCCGCCCGCCGGCGCCCCACGACACCCATCCGCCGCTGGCGCAGCGGCTGCAGGCCCTGGCGGTTCCGGCCGAGCTGTCGCCGGCGGGGCAGGGGGCATCGGCCGCCGCGTCGCTGCTGCCGTCGGAGCTGCGCGAGCGGCTGCACGACCGCTTCAGTCGTCAATGGCAGGAGGCGGCCCGGCCGGACTGGGGCCAGCGCCACCTGCGGCTGCACGCCGAGCGTGCGCGTCTCGCGCAGCTCGCCGACCTGGCGCCGCGTACCGCGGAACAGACCTTCGAATACGCGCGCCTGCTCGAGGCGCATCGGCCCGAGGCGCCGGTGGCGGCGCTGTATGCCGAGGTGCTGCAGGCGCTGCCGGCGCATCCGGGCGCGATCGCCCGCTCCGGGCTGGCGTTGCTGCGCGAAGGCCGCCACGCGGACGGCGAGGCGGCGCTGCGGCGCGCGCTGGCGATGGAGGGCGGCGCTGGCGACGACGTGTTGTCCGCCCTGCACGACCTGCAGGCGGCGCGGCCGGGCGACGCCACGCTGCAGGCCATGGCCGATGACCTGCGCGCGCAGCATGTCAGCGCCGGCCAGCAGCAGGAGGCGGTCGCCGCGCACACGCTGCCGCCGCCGCAGTTGGCCGCACTGGTGGCGCTGCTGTCCGCCGAGACCCGGATCACCAGCGCCTGGATCGTGCGCCGCGGCGCGGCCGATCCGCTGCAGCCGCCGCACCACCTGCTGCTGGTGCACTGGCGCGGATCGGTGGTCAGCGAAACTGCCGCACTGCCGCGCCTGGCTGCGCGCCTGCATGGCCAGGGCTGCTTCACCGTGCTCGGCAGCGCGGCCGATCGGGGCCTGGTCCGGCGCATCCGCGCCACGGCGGGCGCGCCGTTCCACCGCCGCCCGTAA	MDTRERIRTPPPGPGQGTAALAAGDRLRLLLWAGLGHMLLLGLLLLCAGTLGAMAWRLLTDGFRADAVIPFLLVGALVLAMARALWLRRVPPEGYRLSAAEAPALQAEIERIRRAVGARPLDGIVIDADLNAAAAHLPRVAGFGGGRHYLVLGLPLLQLLDREELAAVIAHEFGHFHGGDGRFSSWIYRVRAGWWRVAQGLSANAFAIQVPLLLFLRWYLPRLEAASMRVSRQQEFAADAVAAQVAGGPAAGAALIRLELASEWLQRCFWPEVERGAQHQSYPPARVHEHLAEQLSRHRGEPLRLPERLLRRPPAPHDTHPPLAQRLQALAVPAELSPAGQGASAAASLLPSELRERLHDRFSRQWQEAARPDWGQRHLRLHAERARLAQLADLAPRTAEQTFEYARLLEAHRPEAPVAALYAEVLQALPAHPGAIARSGLALLREGRHADGEAALRRALAMEGGAGDDVLSALHDLQAARPGDATLQAMADDLRAQHVSAGQQQEAVAAHTLPPPQLAALVALLSAETRITSAWIVRRGAADPLQPPHHLLLVHWRGSVVSETAALPRLAARLHGQGCFTVLGSAADRGLVRRIRATAGAPFHRRP				NA	NA	NA	NA	NA
BMS020_07466	1890	speA_2	COG1166	Biosynthetic arginine decarboxylase	ATGAGCGATTGGTCCATCGACCAAGCCCGCAAGACCTATTCGATCCCGCACTGGGCCGATGGGTATTTCGACGTGAACGCGGCCGGGCACGTGGTGGTGACCCCCACCGGCGCCGGTGGCCCGCAGGTCTCGCTGCCGGAAGTCGTCGATGCCGCGCGCGCCGCCGGCGCCAAACTGCCGCTGCTGGTGCGCTTCCCCGACATCCTCGGCCAGCGCCTGGGCAAGCTGCAGGGCGCCTTCGCCCAGGCCCAGGCCGACTGGGACTACGCCGGCGGCTACACCGCGGTCTACCCGATCAAGGTCAACCAGCACCGCGGCGTGGCCGGCACGCTGGCCAGCCACCATGGCGAGGGCTTCGGCCTGGAAGCCGGCAGCAAGCCGGAGCTGATGGCGGTGCTGGCGCTGAGCCGGCCGGGCGGGCTGATCGTCTGCAACGGCTACAAGGACCGCGAGTACATCCGCCTGGCGCTGATCGGCCGCAAGCTCGGCCTGCAGACCTTCATCGTCATCGAGAAGCCGTCCGAGCTGAAGCTGGTGCTGGAGGAAGCCAAGGCGCTGGACGTCAAGCCGGGCCTGGGCGTGCGCATGCGCCTGGCCAGCCTCGGCGCCGGCAAGTGGCAGAACAGCGGCGGCGACAAGGCCAAGTTCGGGCTGTCGCCGCGCCAGGTGCTGGACCTGTGGAAGTCGCTGCGCGACACCGAGTACGCCAGCTGCCTGAACCTGCTGCACTTCCACATGGGCAGCCAGATCTCCAACGTGCGCGACATCGCCAACGGCATGCGCGAGGCGACGCGTTATTTCGTCGAGCTCTCGCGGCTGGGCGCGCAGATCAGCCACGTCGACGTCGGCGGCGGCCTCGGCATCGACTACGAAGGCACCCGCTCGCGCAGCTACTGCTCGATCAACTACGGCCTGAACGCCTATGCCAGCAACATCGTGCAGCCGCTGGCCAGCGCCTGCGAGGAGCACGGGCTGACCCCACCGCGGATCGTCACCGAGTGCGGCCGCGCGATGACCGCGCACCACGCGGTGCTGATCGCCAACGTCTCCGAGGTCGAGCAGGCACCGGAAGGCCGGGTGCCGGATGCGCATGCCGACGAGCCGGCGGTGATCCGCCACCTGCGCGAGATCTTTGATGAGCTCGACGAGCGCCCGGCGGTGGAGCTGTTCCAGGAAGCCCAGCACTTCCACGCCGAAGGCCTGAGCGCCTACGCGCTGGGCCAGATCGACCTGACCCACCGCGCGCGCATCGACGACTTGTTCTACGCGATCGCCCACGGCGTGCGTGCGCGCCTGAGCTACGACGAGAAGAGCCATCGTCCCGCGCTGGACGAACTCAACGAGCGCCTGGTCGACAAGTACTTCGTCAATTTCAGCGTGTTCGAGTCGATTCCAGATGCATGGGCGATCGACCAGGTGTTCCCGATCGTGCCGATCGAACGGCTCGACGAAGCGCCGCAGCGCCGCGGCGTGGTCTGCGACATGACCTGCGACTCGGACGGCATGGTCAAGACCTATGTCGAGAACGAGAGCCTGGATTCATCGCTGCCGCTGCATGCGTTGAACGCCGGCGAGAGCTACCGGATCGGCTTCTTCCTGGTCGGCGCCTACCAGGAGATCCTCGGCGACATCCACAACCTGTTCGGCGATACCGATGCGGTCGAGGTGCTCGCCGACGAGGACGGTTATGCGATCACCCAGCAGCGCCGCGGCGACACCACCGACGTGATGCTCGATTACGTCGGTTACCAGCTCGATGAGCTGCGCAGCGCCTATGCCGAGCGGATCGCCGCCGCGCAGCTCGATGCCGCGCGTGCCGAGGAACTGGCCGCGGCACTGGAAGCCGGGCTGACCGGCTACACCTACCTCTCGGACGAACCGCTGGCCTGA	MSDWSIDQARKTYSIPHWADGYFDVNAAGHVVVTPTGAGGPQVSLPEVVDAARAAGAKLPLLVRFPDILGQRLGKLQGAFAQAQADWDYAGGYTAVYPIKVNQHRGVAGTLASHHGEGFGLEAGSKPELMAVLALSRPGGLIVCNGYKDREYIRLALIGRKLGLQTFIVIEKPSELKLVLEEAKALDVKPGLGVRMRLASLGAGKWQNSGGDKAKFGLSPRQVLDLWKSLRDTEYASCLNLLHFHMGSQISNVRDIANGMREATRYFVELSRLGAQISHVDVGGGLGIDYEGTRSRSYCSINYGLNAYASNIVQPLASACEEHGLTPPRIVTECGRAMTAHHAVLIANVSEVEQAPEGRVPDAHADEPAVIRHLREIFDELDERPAVELFQEAQHFHAEGLSAYALGQIDLTHRARIDDLFYAIAHGVRARLSYDEKSHRPALDELNERLVDKYFVNFSVFESIPDAWAIDQVFPIVPIERLDEAPQRRGVVCDMTCDSDGMVKTYVENESLDSSLPLHALNAGESYRIGFFLVGAYQEILGDIHNLFGDTDAVEVLADEDGYAITQQRRGDTTDVMLDYVGYQLDELRSAYAERIAAAQLDAARAEELAAALEAGLTGYTYLSDEPLA	PGPT0007770_401	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
BMS020_07467	1113	oatA		O-acetyltransferase OatA	ATGCGTTACCCCGGACTGGACCTGTTGCGCGCGCTGGCGATCGCCTGGGTGATGTGCTTCCACGCCTGGGTCGTCGGCGGCCTTGCGCCGGAATGGCAGTGGCTGGAACGCTACGGCTGGATGGGCGTGGACCTGTTCTTCGTGCTCAGCGGCTTCCTGATCGGCGGCCAGGTGCTGGCGCCGTTGTCGCGCGGCGAGCCGCTGGGCTTCGGCCCGTTCTACTGGCGCCGCGCGTGGCGCATCCTGCCGGCGTACTGGGTGGTGCTGGCGCTGTACGTGCTGGTGCCGGGCTGGCGCGAGCTGCCCGGCATGGAGCCGCTGTGGAAGTTCGCGCTGATGGTGATGAACATCGGCAACAACTACGCCAACCCGGCGTTCTCGCACGCGTGGTCGCTGTGCGTGGAGGAGCACTTCTACCTGCTGTTCCCGCTGCTGGCGTGGGCGCTGATGCGGCGGCCGGCGGCGTGGAAGCTGGTCGCGCTGGCCCTGGCGGTGATGATCGGCGGCATCGCGCTGCGGGCCGGGATCTGGATGCACGATGCGCGCGAGGCTGCGGCCGGGGCGCCGGCGCGCAACTGGTTTGTCGAGGACATCTACTACCCAACCTGGAACCGCCTGGACGGGCTGCTGTGCGGCGTGCTGCTGGCGACGTTCAAGACCTTCCGGCCGCTGCATTGGACGTGGCTGCAGCAGCGCGCGAACACGGTGCTGGTGGCGGGCGTGCTGGTGATGGCGCTGGCGCTGTGGCTGTTCCGTGAGCGCACCGGCCTGCTCGGCAATGCGCTGGGCTGGCCGGTGCTGTCGATGGCGCTGGCGTTGCTGGTGTTCGCCGGTGCCGACCGGCGCAGCCTGATCGGCCGCTGGACGCTGCCCGGCATCGGCTGGCTGGCCGCGGTCTCCTACAGCCTGTACCTGGTGCACAAGCCGATCTTCAAGCTGGTGCAGGTGCATCTGGGCGAGGTCATCGCCGGCTGGGGCGCGGCGCAGGCGCTGGTCTATGCCGCGGCGGCGCTGCTGGGTGCCGCGCTGCTGCATTACGCGGTCGAGCGGCCGGGCCTGCAGTTGCGCGCGCGCTGGGCGCGGTCGCCGCGGGCGCACGCGGCCAGCGTGTGA	MRYPGLDLLRALAIAWVMCFHAWVVGGLAPEWQWLERYGWMGVDLFFVLSGFLIGGQVLAPLSRGEPLGFGPFYWRRAWRILPAYWVVLALYVLVPGWRELPGMEPLWKFALMVMNIGNNYANPAFSHAWSLCVEEHFYLLFPLLAWALMRRPAAWKLVALALAVMIGGIALRAGIWMHDAREAAAGAPARNWFVEDIYYPTWNRLDGLLCGVLLATFKTFRPLHWTWLQQRANTVLVAGVLVMALALWLFRERTGLLGNALGWPVLSMALALLVFAGADRRSLIGRWTLPGIGWLAAVSYSLYLVHKPIFKLVQVHLGEVIAGWGAAQALVYAAAALLGAALLHYAVERPGLQLRARWARSPRAHAASV				NA	NA	NA	NA	NA
BMS020_07468	240			hypothetical protein	GTGAGCCTGCGCGAGGTCGCCGCGGACCAGTTCGCGGCGCTGTTCGCCCAGCACGGCGCGGTCGCACAGGGGTACGCAGCCGACGCCTGGCGTGGCCGCGCCGGGCGCGCCTGGCGTTACCTGTACGCGCCGCCGGCCTCGCCGGCGCATACGCGATTGTTCCTGGTGGCCGACACCGGCGCCGGCGAGATCCGCATGCTGTTCATGACCGAGGACGCGGAAGAGCGCTTGTTCCGCTGA	MSLREVAADQFAALFAQHGAVAQGYAADAWRGRAGRAWRYLYAPPASPAHTRLFLVADTGAGEIRMLFMTEDAEERLFR				NA	NA	NA	NA	NA
BMS020_07469	756	sdh		Serine 3-dehydrogenase	ATGTCCAAGACCGTTCTGATCACCGGCGCCACGTCCGGCTTCGGCGCCGCCGCGGTGCGCCGCTTCGCCGCCGCCGGCTGGAAGGTGATCGCCACCGGCCGCCGCGCCGAACGGCTGCAGGCGCTGGCCGCCGAACTGCCGGCCGGTCAGGTCCACACCGCCGCGTTCGACATCCGCGACGGCGCGGCGCTGGACGCGGCGATCGCCGCGCTGCCGGCCGCGTTCGCCGACATCGACGTGCTGGTCAACAACGCCGGGCTGGCGCTGGGCACCGCACCGGCGCAGCAGGCCGACCTGGCGCAGTGGCGGCAGATGATCGACACCAACGTCACCGCGCTGGTCAGCCTGACCCACCGCCTGCTGCCGACGCTGATCGCACGCAAGGGCGCGATCATCAACATCAGCTCGACCGCCTCGACCTATCCGTACACCGGCGGCAACGTCTATGGCGGCACCAAGGCGTTCGTGAAGCAGTTCTCGCTGGGCCTGCGCAGCGACCTGCACGGCACCGGCGTGCGCGTCACCAGCATCGAGCCGGGCATGGCCGAAACCGAGTTCACCCTGGTGCGCACCAGTGGCAACCAGGCCGCCTCCGATGCGCTGTACGGAGGCGCCGAGCCGATGACCGCCGAGGACATCGCCGAGCAGATCTTCCACGTCGCCACGCTGCCGGCGCACATCAACATCAACCGGATCGAACTGATGCCGGTCAGCCAGTCGTTCGCCGGCTTCCAGGTCGCGCGCGCGCAGACGTGA	MSKTVLITGATSGFGAAAVRRFAAAGWKVIATGRRAERLQALAAELPAGQVHTAAFDIRDGAALDAAIAALPAAFADIDVLVNNAGLALGTAPAQQADLAQWRQMIDTNVTALVSLTHRLLPTLIARKGAIINISSTASTYPYTGGNVYGGTKAFVKQFSLGLRSDLHGTGVRVTSIEPGMAETEFTLVRTSGNQAASDALYGGAEPMTAEDIAEQIFHVATLPAHININRIELMPVSQSFAGFQVARAQT	PGPT0021285_385	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021285-ydfG-K16066	NA	NA
BMS020_07470	843	ftsN_2		Cell division protein FtsN	ATGGCAGCACGACGCGGTAAGAGCCAGGCACGACGCAACAGCGGCAACGGCACGCCCGGCTGGGTGTGGCTGGTCGCCGGCGCGGCGATCGCCGCGGTGGTGTTCCTGGCGGCGCCGGGCCTGTTCAAGAAGGACGGCGACGGCTTCCTGCGCGTCGGCCCGCGTCCGAACCCGGACGCGCAGCCGGCCCCGGTCGCCGATGCCGACATCGACGCGCCGGCGGAGCTGCCGCGTCCGGCGACCCCGGCCAAGGACGGCGCCAAGCCGGCCGACGCGCAGACCCAGTTCGACTTCTACACCTTGCTGCCGGGCAAGGAAGTGCAGATGTCCGATGCCGAAATCGCCGCCAGCGCGCGCGCCGAGGAGGCCGCGCGCGCCCGTGCCGCGCTCGAGGGCAAGCCGGTGCCGGCGGCACCGGCCACGGCGACGGCCACGCCCCCGGCGCCGGCCGTCGTCGCCAGCACCGACAGCGCCACGGCGATGCCGGCCCCGCTGCAGGAAAGCAGCCCGGCCCGGCCGGCACCGGCGGCTGCCGCCGCCAGCACCACGCCTGCGGCGTCGACCGCGCCGGCCACGGTGGCAAGCGCCAGTCCCGCGATGACCAACGACAACGTGCGCTACATCCTGCAGGCCGGCTCGTTCGGCGCCTCCGGCGATGCCGAATCGACCAAGGCCAAGCTGGCCATGCTCGGCCTGGCCGCGCGGGTCGAGTCCGCGGCGATCGGCGGCAAGACCGTCTACCGCGTGCGCATGGGGCCCTACGGCACCGCCAGCGAGCTGGCCGAAGCCAAGCAGAAGCTGGCCGGCACCGGCCTGCCGGCGATCGCGATCAAGGCGCAGTAG	MAARRGKSQARRNSGNGTPGWVWLVAGAAIAAVVFLAAPGLFKKDGDGFLRVGPRPNPDAQPAPVADADIDAPAELPRPATPAKDGAKPADAQTQFDFYTLLPGKEVQMSDAEIAASARAEEAARARAALEGKPVPAAPATATATPPAPAVVASTDSATAMPAPLQESSPARPAPAAAAASTTPAASTAPATVASASPAMTNDNVRYILQAGSFGASGDAESTKAKLAMLGLAARVESAAIGGKTVYRVRMGPYGTASELAEAKQKLAGTGLPAIAIKAQ				NA	NA	NA	NA	NA
BMS020_07471	1689	argS_2		Arginine--tRNA ligase	GTGAAACCCTTACTCCGCGCCCTGATTGGCCAAGGCATCGAAGCCCTGCGCGCCAATGGCACCCTGCCTGCCGATACCCTGCCGCCGGATTTCGTGGTGGAGCGCCCCAAGACCCGCGAGCATGGCGACTTCGCCACCAACGCGGCGATGCTGCTGGCCAAGGCCGCGCGCAGCAACCCACGCGCGATCGCGCAGGCGCTGGTCGCCGCGCTGCCGGCCAGCGACGACGTGACCCGCGTGGAGATCGCCGGCCCGGGCTTCATCAACTTCCACCTCTCGCCCGGCGCCTACCAGCGCGAAGTGGTGACGGTGCTCAAGCAGGGCCACGACTACGGACGCGGCCTGGCCGGCAACGGCCGCACGGTCGGGGTCGAGTACGTCTCGGCCAATCCGACCGGCCCGCTGCACGTCGGCCACGGCCGCGCCGCGGCGATCGGCGATTCGCTGGCGCGCCTGCTCGAAGCCAACGGCTGGAACGCCAAGCGCGAGTTCTACTACAACGATGCCGGCGTACAGATCGAGAACCTGGCGCGATCGGTGCAGGCACGTGCGCAGGGCCTCAAGCCGGGCGATGCGCAGTGGCCGGAAGCGGCCTACAACGGCGAGTACATCGCCGACGTCGCCAACGCCTACATGGCCGGCGAGACCGTCGACCTGGAAGGCATGCTGGTCACCGGCGCCAAGGATGCCACCGACATCGAGGCGATCCGCCGCTTCGCCGTGGCCTACCTGCGCAACGAGCAGAACCACGACCTGGCCGCGTTCCGGGTCGATTTCGACATCTATTTCCTCGAAAGCTCGCTGTACAAGGACGGCAAGGTCGAGGAAGCGGTGCAGAAGCTGGTCGCCTCCGGCCACACCTACGAGGAAGGCGGCGCGCTGTGGCTGAAGTCCACCGACTTCGGCGACGACAAGGACCGCGTGATGCGCAAGTCCGACGGCACCTACACCTACTTCGTGCCGGACGTGGCCTACCACCTGACCAAGTGGCAGCGCGGCTACGAGCGCGCGATCACCGAGCTGGGCGCCGACCACCATGGCTCGCTGACGCGCGTGCGCGCCGGCCTGCAGGCGCTGGAGCTGGGCATCCCGCAGGGCTGGCCGGAATACGTGCTGCACCAGATGGTCACGGTGATGCGCGGCGGCGAGGAAGTGAAGTTGTCCAAGCGCGCCGGCAGCTACGTGACGCTGCGCGACCTGATCGAGGAAACCAGCGCCGATGCGGTGCGCTGGTTCCTGATCGCGCGCAAGCCCGATTCGCAGCTAACCTTCGACATCGACCTGGCCCGTCAGCAGAGCAACGACAACCCGGTGTTCTACGTGCAGTACGCACATGCACGCGTCTGCTCGCTGCTGCGCCAGGCGCAGGAGAAGGGCCTGGACTACCAGCAGGCCGCCGGCATCGCCGAACTGGCGCGCCTGGACGACGAGACCTCGCTGTGGCTGATGACCGAGATCTCGCGCTATCCGGAGGTGGTCGAAGCCGCCGGCGACGTGCTCGAACCGCACCTGGTCGCGCAGTACCTGCGTGAATTGGCGCATGCGTTCCACACGTGGTATCACGGCACGCCGGTGCTGGTGGAGGACGCCGCCGAACGCCACGCCAAGCTCACCTTGGCGTTGGCCGCGCGCCAGGCGCTGGCCAACGGCCTGGAAATCCTCGGCGTCAGCGCACCGGAAAAGATGTGA	MKPLLRALIGQGIEALRANGTLPADTLPPDFVVERPKTREHGDFATNAAMLLAKAARSNPRAIAQALVAALPASDDVTRVEIAGPGFINFHLSPGAYQREVVTVLKQGHDYGRGLAGNGRTVGVEYVSANPTGPLHVGHGRAAAIGDSLARLLEANGWNAKREFYYNDAGVQIENLARSVQARAQGLKPGDAQWPEAAYNGEYIADVANAYMAGETVDLEGMLVTGAKDATDIEAIRRFAVAYLRNEQNHDLAAFRVDFDIYFLESSLYKDGKVEEAVQKLVASGHTYEEGGALWLKSTDFGDDKDRVMRKSDGTYTYFVPDVAYHLTKWQRGYERAITELGADHHGSLTRVRAGLQALELGIPQGWPEYVLHQMVTVMRGGEEVKLSKRAGSYVTLRDLIEETSADAVRWFLIARKPDSQLTFDIDLARQQSNDNPVFYVQYAHARVCSLLRQAQEKGLDYQQAAGIAELARLDDETSLWLMTEISRYPEVVEAAGDVLEPHLVAQYLRELAHAFHTWYHGTPVLVEDAAERHAKLTLALAARQALANGLEILGVSAPEKM				NA	NA	NA	NA	NA
BMS020_07472	675			hypothetical protein	ATGCACATCCGCGACTGGCCCAGTACCGAACGTCCCCGCGAGAAGCTGCTGGCCCGCGGCGCCGGCACGCTGTCGGATGCCGAACTGCTGGCGATCTTCCTCGGCTCCGGGCTGAAGGGGCGCGACGCGGTGCAGACCTCGCGCGAACTGCTGCAGGCGCACGGGCCGCTGCGGCGCCTGCTCGACCGCGAACCGGGCGACCTGGCCCGGCTGCCCGGCCTCGGGCCCGCCCGCGCCTGCGCACTGGCCGCCGCGCTCGAGCTGGGCCAGCGCCACCTCGCCGCCGCGCTGGAACGCGGCAGCACCCTGAGCGACCCGATGACCGCCGGCCACTACTTCGCGCAACGCCTGCGCGCCCGCCCGCACGAGGTGTTCGCCGGGTTGTTCCTGGACACCCGGCACCGCGCGCTGGCCTTCGAGGAGCTGTTCCACGGCACCATCGACGGCGCCGAGGTGCATCCGCGCGAGGTGGTCCGGCGCGCCCTGGCCCACAACGCCGCGGCGGTCATCGTCGGCCACAACCATCCTTCCGGGCATCCGGAGCCCTCGGCCGCCGACCGCGCGGTTACCGCGCGATTGCGGCAGGCGCTGGAACTGGTCGATGTGCGCCTGCTGGACCACTTCGTGGTCGGCGACGGCCAACCGGTCTCGCTGGCCGCCCGCGGCTGGCTGTGA	MHIRDWPSTERPREKLLARGAGTLSDAELLAIFLGSGLKGRDAVQTSRELLQAHGPLRRLLDREPGDLARLPGLGPARACALAAALELGQRHLAAALERGSTLSDPMTAGHYFAQRLRARPHEVFAGLFLDTRHRALAFEELFHGTIDGAEVHPREVVRRALAHNAAAVIVGHNHPSGHPEPSAADRAVTARLRQALELVDVRLLDHFVVGDGQPVSLAARGWL				NA	NA	NA	NA	NA
BMS020_07473	1248	coaBC_2	COG0452	Coenzyme A biosynthesis bifunctional protein CoaBC	GTGACCGGCTCTTCTCAGGCACGCCCCCTGGACGCCCAGCGGCTGCTGCTGTGTGTCGGCGGCGGCATCGCGGCCTACAAGTCGCTCGACCTGGTACGCCGGCTGCGCGACGCCGGCGCCCAGGTCCAGGTCGCCATGACCGCTGGCGCGCAGCAGTTCGTGACCCCGCTCAGCTTCCAGGCCCTGTCCGATCAGCCGACCCGCACCACGCTGTGGGACAGCGCGGCCGAGCAGGCGATGGGCCATATCGAACTGGCGCGCTGGGCCGATCGCGTGATCGTCGCCCCGGCCACCGCCGACCTGCTGGCCCGGCTCAGCCACGGCATGGCCGACGATCTGGTGAGCACGCTGTGCCTGGCGACGACCGCGCCGTTGACCGTGTGCCCAGCGATGAACCACCGCATGTGGCTGCACCCGGCGACCCAGGCCAACATCGCCACCCTGCGCGAACGCGGGGTGCAGGTGATCGGGCCGGTGGACGGGCCGCTGGCCGAGGGCGAGTCCGGCCCGGGCCGGCTGGCCGAGCCGCTGGACATCGTTGCCGCGCTGGCCACGACCGCCGTGCCCGCGGCCGTTGTCGCCACGTCACCCGCGGTGGCGACGCGCCTGGGCGGGCTGCGCATCGTCATCAGCGCCGGGCCGACCTACGAGGACCTGGACCCGGTCCGCTACCTGGGCAACCGCAGCAGCGGCAAGATGGGCTACGCGCTGGCCGCCGCCGCCGCCCGCCGCGGCGCCGAGGTGGTGCTGGTCAGTGGCCCGGTGCAGCTGCCGACCCCGGCCGGGGTGTCCCGCGTCGACGTGCGCTCGGCGGCGCAGATGCGCGAGGCGGTGCTGGGCGCGTTCCCGGCCGACATCTATATCGGGGCCGCGGCGGTGGCCGATTACACCCCGCGCAAGGTCTGCAACCAGAAGATCAAGAAGTCCGGCGAGACCCTGACCCTGGAATTCGTGCGGACCCCGGACATCCTGGCCGAGGTGGCCGCGCAGACCGGCGCGCTGAAGCTGGTGGTCGGTTTCGCCGCCGAGACCCACGACGTGGAGAAGTACGCCCGCGGCAAGCTGGCCGCCAAGCGCCTGGATCTGATCATCGCCAACCAGGTCGGCGTCGCCGGCAGCGGGTTCGAGAGCGATGACAACGCCGCCACCGCTTACTGGCAGGGCGGCGAGCAGGTGTTCCCGAGCAGCAGCAAGGCCGAGCTGGCCGAGCAGTTGCTGTCCCTGATCGAAGCGAGGCTGGACGCATGA	MTGSSQARPLDAQRLLLCVGGGIAAYKSLDLVRRLRDAGAQVQVAMTAGAQQFVTPLSFQALSDQPTRTTLWDSAAEQAMGHIELARWADRVIVAPATADLLARLSHGMADDLVSTLCLATTAPLTVCPAMNHRMWLHPATQANIATLRERGVQVIGPVDGPLAEGESGPGRLAEPLDIVAALATTAVPAAVVATSPAVATRLGGLRIVISAGPTYEDLDPVRYLGNRSSGKMGYALAAAAARRGAEVVLVSGPVQLPTPAGVSRVDVRSAAQMREAVLGAFPADIYIGAAAVADYTPRKVCNQKIKKSGETLTLEFVRTPDILAEVAAQTGALKLVVGFAAETHDVEKYARGKLAAKRLDLIIANQVGVAGSGFESDDNAATAYWQGGEQVFPSSSKAELAEQLLSLIEARLDA	PGPT0008815_744	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
BMS020_07474	465	dut_2	COG0756	Deoxyuridine 5'-triphosphate nucleotidohydrolase	ATGACCGCACTGCAACCGTTGCAGGTGAAGCTGCTCGACCCCCGTTTCGGCGACGCGTGGCCGTTGCCGGCCTACGCCACCGAGGCCAGCGCCGGCATGGACCTGCGCGCCGCGCTGGATGCACCGATGGTGCTGGAGCCGGGCGATGCGGCGCTGATTCCCAGCGGCATCGCGATCCACCTGGCCGATCCGGGCCTGTGCGCGGTGGTGCTGCCGCGCTCCGGGCTGGGGCACCGCCACGGCATCGTGCTCGGCAACGGCACCGGGCTGATCGATGCCGATTACCAGGGACCGCTGCTGATCAGCGTGTGGAACCGCGGCCGCGAGGCGTTCACGATCCAGCCCGGCGATCGCATCGCCCAGTTGATGGTGCTGCCGATCGTGCGCGTGGCGTTGCAGGTGGTGGATACTTTCGCCGACAGTGCGCGGGGAACGGGTGGATTTGGCCACACCGGCGTGCGCTGA	MTALQPLQVKLLDPRFGDAWPLPAYATEASAGMDLRAALDAPMVLEPGDAALIPSGIAIHLADPGLCAVVLPRSGLGHRHGIVLGNGTGLIDADYQGPLLISVWNRGREAFTIQPGDRIAQLMVLPIVRVALQVVDTFADSARGTGGFGHTGVR	PGPT0021355_1955	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021355-dut-K01520	NA	NA
BMS020_07475	2343	glmM_3		Phosphoglucosamine mutase	ATGAGCAACGCGAACGAAGGCGGCCCAGCGCCCGCCGGCATGCGCAGGTCTGCGCCATTGCTGGCTACGGCACTGGTGCTGCTTGCCGGGTGGTTCGGCTGGAGCAGCTATGAGCAGTGGCGTGCCGACGCAGTGGCCGGGCAGGTGGAGCAGGCACGCGATGGCGCCGTCACCGGGCTGACCCAGGCGCTGGCCACCCAGTCGCGTCAGCTGGCCAGCGTCTTGAAGGAGCCTTCGGTCACCTCCGCGCTGGCGGCCGGGGATGCCACCGCCGCCGCCAATGCGATCCGCCAGGCATTCAAGGGCGCCGAAGACGTGCAGGTGCTGTCGGCCGATCTGGCCCAGGCCTATGCCGGCGCCGAACAGTTCGGCTATGCCCGGCTCGGCCTGCTTGAGGCGGCACTGGCCACTGGCCAGGCCCAGGTCCGCGTGGTGCGCGAGGAACGCCAGTCGCGCCTGGGCGTGGCGGCCCCGGTGGTGTTGGGCGGCGTGCCGTCGATCGCCTACGTGCGCCTGCCGCTGCTGCGCCTGACCGGTCCGCTGGACGCCATCGAGGTTCCTGGTGAGGCCTACCTGGCGCTGCGCCAGGGCGGCTACAACGTGGTCGAGAAGGGCAGCAAGGCCTTGTCCGGCAGTGCCGAGTCGCTGGCGCGTCCGCTCGGCAAGAGTGGTTTCCGCGTCGCCGCCGCCGCGGCGAGCGTCGATCCGGGCCCGATGGGCCTGGGGTGGCTGTCGTGCGGCGTGGTTGCATTGCTGCTGCTGGTCACCGCCGGCCTGCTGCTGGCTGCCACGACCGGACGGGTCAAGCTGGCGCCGCGGCGTCCTGTGGCCGGTCCGGACAGCGACGAGCCGACCCTCGGCCAGTCGTTGCAGGCCCAGGCCCCGCCGGCGTTGCTCGAGGGCGAGCCAAGCGACGCGGAAGCCGCCAGGCCGGTGGTTGCCGCACCGAAACTGGATCCGGGCATCTTCCGCGCCTACGACATCCGCGGCGTGGTCGGCAAGGACCTCACCCCGGCGGTGGCCGCATTGATCGGCCAGGCGATCGGCAGCGTGATGCAGGCCCAGGGCCTGCGCGACGTGGTGGTCGGCCGCGACGGTCGCCTGTCCGGGCCGGAACTGGCGGCCGGGCTGATCGACGGCCTGCGCCGTGCCGGCTGCAGCGTCACCGACATCGGCCTGGCGCCGACGCCGGTGGTCTACTTCGCCGCCTATCACCTGCGCGCCGGCAGCTGCGTGGCGGTCACCGGCAGCCACAATCCGCCGGACTACAACGGGTTCAAGATCGTGGTCGGCGGCGAAACGCTGTCCGGCGATGCGATCCACGACCTGTACCTGCGCATCGCCGAGGGGCGCCTGCATGCCGCGGCGGAGCCGGGCGGGTTGGAGCAGCGCGATGTCGGCGACGACTACATCCAGCGCATCGCCGACGACGTGCAGCTGGATCGCCCGATCAAGGTGGTCGCCGATGCCGGCAACGGTGTCGCCGGCGAGCTGGCCCCGCGCCTGCTGGAGGCGATCGGCGCCGAGGTGATCCCGCTGTACTGCGATGTCGACGGCACCTTCCCGAACCACCACCCGGACCCGAGCGAGCCGCACAACCTGGAGGACCTGATCCAGACCGTGAAGCGCTTCGACGCCGACATCGGCGTGGCTTTCGACGGCGACGGCGACCGCCTCGGCGTGGTCACCAAGGAGGGTGTGATCATCTATCCGGACCGGCTGCTGATGCTGTTCGCGGCCGATGTATTGCAGCGCAATCCGGGCGCGCTGGTGATCTACGACGTGAAGTGCACCGGCAAGCTGTCCGATTACGTGCTGCGCCAGGGCGGCAGCCCGATGATGTGGAAGACCGGGCACTCGCTGATCAAGTCGAAGATGCGCGAGACCGACGCCGAGCTGGCCGGCGAGATGAGCGGCCACTTCTTCTTCAAGGAACGCTGGTACGGCTTCGACGATGGCCTGTATGCGGCCGCACGCCTGCTGGAGGTGTTGGCGCAGCGCGACGAGACCCCGTCGGAGGTGCTCGGCGAGCTGCCGCAGAGCGTGGCCACGCCGGAGATCAAGGTGCCGGTGTCCGCTGCGGCGCATGCGCTGGTGGAGCGCTTCGTGCAGGCGGTCGATGCCGGCGAGGGCGGGGCGTTCGAAGGCGCGCGCCTGGCCACCATCGACGGCCTGCGTGCCGATTTCGCCGATGGCTGGGGCCTGCTGCGCGCTTCCAACACCACCCCGGTGCTGGTGCTGCGGTTCGAGGCGGAGAATCCGGCTGCGCTGGCGCGCATCCAGGGCCTGTTCCGCTCCCAGCTGCAGCCGCTGCTGCCGGAGCAGGACGCACTGCCGTTCTGA	MSNANEGGPAPAGMRRSAPLLATALVLLAGWFGWSSYEQWRADAVAGQVEQARDGAVTGLTQALATQSRQLASVLKEPSVTSALAAGDATAAANAIRQAFKGAEDVQVLSADLAQAYAGAEQFGYARLGLLEAALATGQAQVRVVREERQSRLGVAAPVVLGGVPSIAYVRLPLLRLTGPLDAIEVPGEAYLALRQGGYNVVEKGSKALSGSAESLARPLGKSGFRVAAAAASVDPGPMGLGWLSCGVVALLLLVTAGLLLAATTGRVKLAPRRPVAGPDSDEPTLGQSLQAQAPPALLEGEPSDAEAARPVVAAPKLDPGIFRAYDIRGVVGKDLTPAVAALIGQAIGSVMQAQGLRDVVVGRDGRLSGPELAAGLIDGLRRAGCSVTDIGLAPTPVVYFAAYHLRAGSCVAVTGSHNPPDYNGFKIVVGGETLSGDAIHDLYLRIAEGRLHAAAEPGGLEQRDVGDDYIQRIADDVQLDRPIKVVADAGNGVAGELAPRLLEAIGAEVIPLYCDVDGTFPNHHPDPSEPHNLEDLIQTVKRFDADIGVAFDGDGDRLGVVTKEGVIIYPDRLLMLFAADVLQRNPGALVIYDVKCTGKLSDYVLRQGGSPMMWKTGHSLIKSKMRETDAELAGEMSGHFFFKERWYGFDDGLYAAARLLEVLAQRDETPSEVLGELPQSVATPEIKVPVSAAAHALVERFVQAVDAGEGGAFEGARLATIDGLRADFADGWGLLRASNTTPVLVLRFEAENPAALARIQGLFRSQLQPLLPEQDALPF	PGPT0017725_158	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0017725-pmm_pgm-K15778	NA	NA
BMS020_07476	678			hypothetical protein	ATGATGCCGAACCATTCCCGCCGGATACTGCTGGCTGCCGCGCTGCTGGCCGCGGCCAGTGCGCCCGCGCTGGCGCAGAAGGGCAAGCCGTCGCAGGCGGCGGCGAACAAGAAGCTGTACTGCTGGGACCAGAACGGCCAGCGCGTGTGCAGCGATACGCTGCCGCAGGATGCGGTGAACCGCGCCCGCGACGAGTTCAACGCCAAGAGCGGCCTGCGCAGCGCCGAGGTCGACCGCGCGCTGACCGTGGAGGAACGCGCCAGCCTGGCCGCCGAGGCCGCGCAGTCGCGCCTGGACGATGCTGCCGAGCAGACCCGCAAGCGCACCGACCAGGCGATGCTGATGTCCTACCAGAGCGAGGACGACCTGCGCCGGGTGTTCACCGAACGCACCGCCATCCTCGACAACAACGTCGCTACCGCGCGCTACAACGTCGCCAGCCTGCGCGATGGTCTGGTGACGCTGCTGCGCACCGCCGGCGAACGCGAGCTGGGCGGGCAGAAGGTGCCGGAGAAGCTGGCCACCGAGATCCGCCAGCGCCACAACGAACTGCTGTGGCAGCAGCGCCTGCAGGTCAGCTTCGAGAAGCAGCGCGCCGATCTGGATGGCGAGGTCAGCGACACCCTGCGGCGTTACCGCGACCTGAAAGGCAGCCCGGCGACGCCGCCGGCCGGCTGA	MMPNHSRRILLAAALLAAASAPALAQKGKPSQAAANKKLYCWDQNGQRVCSDTLPQDAVNRARDEFNAKSGLRSAEVDRALTVEERASLAAEAAQSRLDDAAEQTRKRTDQAMLMSYQSEDDLRRVFTERTAILDNNVATARYNVASLRDGLVTLLRTAGERELGGQKVPEKLATEIRQRHNELLWQQRLQVSFEKQRADLDGEVSDTLRRYRDLKGSPATPPAG				NA	NA	NA	NA	NA
BMS020_07477	660	pyrE_2	COG0461	Orotate phosphoribosyltransferase	ATGACCGACCACCGCCACCGTTTCCTACAGCTGGCCCTGGATGCCGACGCGCTGCGCTTCGGCGAATTCACCCTGAAGTCCGGCCGCATCAGCCCGTACTTCTTCAACGCCGGGCGCTTCGACTCCGGCGCCAAGGCGGCCGGGCTGGCGCGCTGCTACGCCGATGCGATCAGCGCCGCCGGGCTGGAGTTCGACCTGCTGTTCGGCCCGGCCTACAAGGGCATCCCGCTGGCGACCGCACTGGCCTGCGAATACGCCGGTCGCGGCCGCGACCTGCCGCTGGCGTTCAACCGCAAGGAAGCCAAGGACCACGGCGAGGGCGGCACCCTGATCGGCGCGCCGCTGGCCGGGCGCAAGGTGCTGATCGTCGACGACGTGATCACCGCCGGCACCGCGATCCGCGAGGCGCTGGGCATCATCCGCGCCGCCGGCGGCATCCCGTCCGGGATCGTGGTGGCGCTGGACCGCCAGGAGATCGCTTCCGACAACGACCGTCGCTCGGCGGCGCAGGCGGTGGCCGCCGAGGCCGGCATTCCGGTGGTGGCGGTCGCCAACCTCGGCGATCTGCTTGCATTCGCCGACGGAAACGCCGACCTTGTCGGCTTCCGCGAGCCGCTGCTGGCCTATCGCGGGCGTTATGGAACCGACACGTCAGGCTGA	MTDHRHRFLQLALDADALRFGEFTLKSGRISPYFFNAGRFDSGAKAAGLARCYADAISAAGLEFDLLFGPAYKGIPLATALACEYAGRGRDLPLAFNRKEAKDHGEGGTLIGAPLAGRKVLIVDDVITAGTAIREALGIIRAAGGIPSGIVVALDRQEIASDNDRRSAAQAVAAEAGIPVVAVANLGDLLAFADGNADLVGFREPLLAYRGRYGTDTSG	PGPT0021200_971	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021200-pyrE-K00762	NA	NA
BMS020_07478	870	exoA	COG0708	Exodeoxyribonuclease	ATGTCCGCGTCGCGCGCGGACTGCGCCGTTCCCCTTTACCATGCCCCCATCATCGTCAACGGCTTGCCCATGCGGATCACCAGCTTCAACGCCAACGGCCTGCGCTCGGCCGCGTCCAAGGGATTCTTCGAGTGGTTCGCCGCGCAGCAGGTCGACGTGCTGTGCGTGCAGGAGACCAAGGCCCAGGAGCACCAGCTGGCCGGGCCGGAATTCCTGCCGGCCGGTTACAGGGCCTGGTTCCGCGACGCCAGCACCAAGAAGGGCTACAGCGGGGTGGCGATCTACAGCAAGGCCGAGCCGGACGAGGTGCGCACCGCGCTGGGCTGGCCGGAGTTCGACGAGGAGGGTCGCTACATCGAAGCACGCTACGGCAACCTCAGCGTGGTCTCCTTCTATATCCCGTCGGGATCGTCGGGCGAGCTGCGCCAGGACTACAAGTTCCAGGTGATGGACTGGCTGCGGCCGATCCTGGCCGAGTGGCTGGCCAGCGGCCGCGACTACGTGCTGTGCGGTGACTGGAACATCGTGCGCTCGGCGCTGGACATCAAGAACTGGAAGTCCAACCAGAAGAATTCCGGCTGCCTGCCGCCCGAGCGCGACTGGCTCAACGGCCTGTGCGCAGACCGCAGCGACGAGGCCGATCCGGCCAGCGGCCGCGGCTGGGTCGATGCCTACCGCGCGCTGCATCCGACCGGCGAGGACTACACCTGGTGGAGCAACCGCGGCGCCGCGCGTGCCAACAACGTCGGTTGGCGGATCGACTACCAGCTCGCCACGCCCGGGCTGCGCGAGCGCCTGCAGGCCTGCTCGATCTACCGTGAGCAGCGCTTTTCCGACCATGCGCCGTTCACGGTGGACTACGCGCCGTGA	MSASRADCAVPLYHAPIIVNGLPMRITSFNANGLRSAASKGFFEWFAAQQVDVLCVQETKAQEHQLAGPEFLPAGYRAWFRDASTKKGYSGVAIYSKAEPDEVRTALGWPEFDEEGRYIEARYGNLSVVSFYIPSGSSGELRQDYKFQVMDWLRPILAEWLASGRDYVLCGDWNIVRSALDIKNWKSNQKNSGCLPPERDWLNGLCADRSDEADPASGRGWVDAYRALHPTGEDYTWWSNRGAARANNVGWRIDYQLATPGLRERLQACSIYREQRFSDHAPFTVDYAP				NA	NA	NA	NA	NA
BMS020_07479	1305	ampG_2	COG0477	Anhydromuropeptide permease	GTGAGCGAGGCCGCCCCCGCCGCAGCGGCGGTGTCCTACAAGGGCTGGCGCGGCATCCGCCGCGCCTTCGCCACGCCGTCGGCGGCGGCGATGGCGTTGCTGGGCTTCGGTAGCGGCCTGCCGTTCCTGCTGATCGCCTCGCAGACCCTGTCCACGCGCCTGCGCGACGTCGGCCTGGACCTGGGCAGCATCGGCCTGATCAGCCTGGCCAGCTTCTTCTACCTGCTGAAGTTCCTGTGGGCGCCACTGATCGACCGGTATGCGTTCCCGTTGACTGCGTTCCTGGGGCGGCGGCGCTCGTGGCTGCTGGCCTCGCAGCTGGGCGTCACCCTGGCACTGGTGGCCCTGGCGTTCTCGCGCCCGGAACTGGGCGTCGCCGGGCTGGTCGGCTGGGTGCTGTTCGCCTCGTTCTGCGGCGCCACCCAGGATTCGGTGGTCGACGCCTACCGCATCGAAATCGCTCCCGATGAAGCCCAGGCCGCGCTGGCGGCGACCTATACGCTCGGCTACCGGATCGGTCTGATCCTGGCCGGGGCGGGCGCGCTGTACCTGGCGCAGTACCTGGACTGGCGCTGGTCCTACCTGGCGATGGCCGGGCTGATGCTGCTCCCGATCGCCACCACCCTGGTGTGCCGCGAGCCGCCGCGCGCGGCCGAGGCGGTGAGCCGGCGCATCGACGTGGCCGGCGCGTTCTGGCAGCCGATCACCGGCTTCTTCTCGACCAACGGCGTGGCGCTGGCGGTGGTGCTGCTGCTGTTCGTCGGCCTGTTCAAGTTTCCCGACCAGGTGATCGGGGTGATGGCCGGGCCGTTCTACCTGGACTCGGGCTACAGCAAGGCCGACATCGCCACCGTGTCCAAGCTGTTCGGGATCTGGATGGGCATCGTCGGCGCGTTCGCCGGCGGCGCGGCGGTGGCTGCGTTCGGGTTCCGCTGGATGCTGCTGGTGGCCGCGCTCGGCGTCGCGCTGTCGAACCTGGCGTTCCTGCTGATGGCGCACAACCCGGGGCAGATCTGGGCGTTCTATGCCGCGCTGTCGGCCGACAACCTGTTCCAGGGCTTTGCCGGCACGGTGCTGGTGGCCTTCATGTCGTCGCTGACCGACCGCAACTTCACCGCGACCCAGTACGCGCTGCTGGTGTCGCTGGCCAACCTGCCAGGCAAGTTCGTCGGTGGCGCCTCCGGATTCATCGTCGAGGCAACCTCCTACGCCACCTTCTTCATTCTCAGCGCGCTGACGGTGATCCCGACCCTGGCGCTGCTGGCCTGGCTGTGGCCGCGCATCCGCGAGCGGGCGGCCGATTGA	MSEAAPAAAAVSYKGWRGIRRAFATPSAAAMALLGFGSGLPFLLIASQTLSTRLRDVGLDLGSIGLISLASFFYLLKFLWAPLIDRYAFPLTAFLGRRRSWLLASQLGVTLALVALAFSRPELGVAGLVGWVLFASFCGATQDSVVDAYRIEIAPDEAQAALAATYTLGYRIGLILAGAGALYLAQYLDWRWSYLAMAGLMLLPIATTLVCREPPRAAEAVSRRIDVAGAFWQPITGFFSTNGVALAVVLLLFVGLFKFPDQVIGVMAGPFYLDSGYSKADIATVSKLFGIWMGIVGAFAGGAAVAAFGFRWMLLVAALGVALSNLAFLLMAHNPGQIWAFYAALSADNLFQGFAGTVLVAFMSSLTDRNFTATQYALLVSLANLPGKFVGGASGFIVEATSYATFFILSALTVIPTLALLAWLWPRIRERAAD	PGPT0028125_1544	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028125-ampG-K08218	NA	NA
BMS020_07480	228			hypothetical protein	ATGACCGATCTGGTGTTGCGGGACATCGACCCGATGATGGTCGATCGGATCCGCCGTATCTCCGTGGCACGCGGCTGGACGCAGCACCAGACCGTGATGCACCTGCTGGAACAAGGCCTGTTCGCCAGCGAGCACGAGGTGCACGGCGGGTTCCGCAACCCCGAGGTCGACGCGCTGGCCGATGCGATCGCCGCGCTGAAGGCGCTGCCGGCAGGCAACGACTTCTAG	MTDLVLRDIDPMMVDRIRRISVARGWTQHQTVMHLLEQGLFASEHEVHGGFRNPEVDALADAIAALKALPAGNDF				NA	NA	NA	NA	NA
BMS020_07482	1434	mepM_2	COG0739	Murein DD-endopeptidase MepM	ATGCAGAATTCCGAGCAGGGCCGTGCGCGCAGACAGCGCATCCAGGAACGCCTCCACGTCCTCCACGACACGGCCCTGCACCGACGGCTGAAGGACCACCTCCCCGCCGCCTTCAACGAGCGCTGGACCCGACGCCACTGGATCCACGCCAGTCTGTTCGCGACGATCGGCGCCCTGGTGGCGACCATCGTCCCCGGCTTCTCCAATGCGATTGACACCTCGGTGGCCAGCCACGCGACGCTGCCGCTGCCGCTGCCGCCGATGGCACTGGCCACGCGTACCCCGGCACACACCGATGACTGGCGCACCGTGCGCATCGCGCCGGGCCAGACCCTCAGCGGCGTCTTCAGCGAGCTGAGCATCCCGACCACGGTGATGTACCAGGTGCTGCAGCATCCGGGCACCCGCGACGTGCTGACGCGGCTGCGCCCGGGCTCGGAGCTGGCGTTCAACCTGGCCCGCGACGGCGCGTTGAGCGGGCTGCGCTTCGATCGCGATGCCAGCCATCGGGTCGAGCTGCAGTTGCAGGGCGACAACATCCGCGAGAAGGTCACCGAGCGCGCCACCACGACCCGGACCGTGGTCAGCAGCGGCGAGATCACCAGCTCGCTGTACGCCGCGGCCAGCAAGGCCGGGCTGCCGCTGTCGGCGGTGGCGGCGATGACCGACGACATCTTCAAGTACGACATCGACTTCGACAAAGACCTGCAGCCGGGCGACCGCTTCAGCGTCGTCGTCGACGAAACCTGGCGCGAGGGCGAGCGCCTGGACGGCAGCAAGATCCTGGCCGCGACCTTCACCACCGGCGGCAAGACCTACACCGGCTTCCGCTTCGAGCGTCCGGGCAAGGCGCCGGAATACTTCGACATCGATGGTCGCCCGCTGAAAAAGAGCTTCATCCGCATGCCGGTGTCCTATACCCGCATCAGCTCGTCCTTCGGCGCGCGCAAGCACCCGGTGCTGGGCCGGATGCGCATGCACAAGGGCATCGACTACGCCGCCCCCTCCGGCACGCCGATCATGGCGGCCGGCGACGCGCGGGTGCAGTTCGTCGGCACCCAGCGCGGCTACGGCAACGTGATCATCCTCGACCACGGCAAGGGCTACAGCACGCTGTACGGGCACATGTCGCGCTTCGGCAAGGTCAAGACCGGCCAGCACATCAACCAGGGCACGGTGATCGGCTACGTCGGCATGACCGGGCTGGCGACCGGCCCGCACCTGCACTACGAATTCCGCGTCAACGGCACCCAGCGCAATCCGGCCTCGGTGACGATGCCGCCGCCGGAGCCGCTGCGCGGTGCCGAGCTGACCGCGTTCCGTGCGCAGACCACGCCGGCCCTGGCACGGATCAAGGACATGGAACAGATGATCTACGCCGACGCGTCGCCCAAGAAGCCAGCCGCCAGGGCCGGCAGCAACAGCCGCGGCTAA	MQNSEQGRARRQRIQERLHVLHDTALHRRLKDHLPAAFNERWTRRHWIHASLFATIGALVATIVPGFSNAIDTSVASHATLPLPLPPMALATRTPAHTDDWRTVRIAPGQTLSGVFSELSIPTTVMYQVLQHPGTRDVLTRLRPGSELAFNLARDGALSGLRFDRDASHRVELQLQGDNIREKVTERATTTRTVVSSGEITSSLYAAASKAGLPLSAVAAMTDDIFKYDIDFDKDLQPGDRFSVVVDETWREGERLDGSKILAATFTTGGKTYTGFRFERPGKAPEYFDIDGRPLKKSFIRMPVSYTRISSSFGARKHPVLGRMRMHKGIDYAAPSGTPIMAAGDARVQFVGTQRGYGNVIILDHGKGYSTLYGHMSRFGKVKTGQHINQGTVIGYVGMTGLATGPHLHYEFRVNGTQRNPASVTMPPPEPLRGAELTAFRAQTTPALARIKDMEQMIYADASPKKPAARAGSNSRG				NA	NA	NA	NA	NA
BMS020_07483	1209	tyrS_2	COG0162	Tyrosine--tRNA ligase	GTGTCTTCGATCGCAGATTCGCTCGCCCTCATCGGCCGTGGGGCCGACGAGATCCTCAAACTGGACGAGCTGGAAGCCCGGCTGAAGACCGGCAAGCCGTTGCGGATCAAGGCCGGATTCGATCCGACCGCGCCGGACCTGCACCTCGGGCATACCGTGCTGCTGAACAAGATGCGCCAGTTCCAGGACCTGGGCCACCAGGTGATTTTCCTGATCGGCGACTTCACCGGCATGATCGGCGACCCGACCGGCAAGAGCGTCACCCGCAAGCCGCTGACCCGCGAGGACGTGCTGGCCAACGCGCGCACCTATGAAGAGCAGGTCTTCAAGGTGCTGGATCGCGCGCGCACCGAGGTCCGCTTCAATTCCGAATGGTTCGGCAAGATGGGCGCGGCCGACATGATCCGCCTGGCGGGCCAGCACACCGTCGCGCGCATGCTTGAGCGCGACGACTTCGCCAAGCGGTTTGCCGGGCAGCAGTCGATCGCGATCCACGAGTTCCTGTACCCGCTGGTGCAGGGCTACGACTCGGTGGCGCTGGAATGCGACGTCGAGCTTGGTGGTACCGACCAGAAGTTCAACCTCCTGATGGGCCGCGGGTTGCAGGAGCACCACGGGCAGAAGCCGCAGATCGTGCTGACCATGCCGCTTCTGGAAGGCCTGGACGGCGTCAATAAGATGAGTAAGTCGCTGGGCAACTACATCGGCATCAGCGAGCCGGCCATCGACATCGTCACCAAGACCATGAAGATCGGCGACGCGTTGATGTGGCGCTGGATCGAGTTGCTGTCGTTCGATATCTCCCAAGCTGAAGCCAAGGCGCTGCGCGAGCAGGTTGCGGCCGGCCTCAACCCGCGCGAGGTGAAGCTGCGCCTGGCGCGCGAGCTGGCGACCCGCTTCCATGACGCGGCCGCGGCCGAGCAGGCCATCGCCGGTTGGCAGGCTGCGGTGACCGGGCAGGGCGACATCACCCAGCTGCCGCTGCAGGAAGTGGCGATTCCGGCCGAAGGCCTGCGGATTGGCGCACTGCTGACCGCCGCCGGATTGACGCCGAGCAACTCCGAGGCGATGCGCAAGCTGAAGGAGCGTGCGGTCAAGGTGGATGGCGATGTCGTCGAAGACCCGCAGCAGGTCCTGGCGCCTGGATTCGAGGGCTTGCTGCAGGTCGGCAAGCGCAACTTCGCCCGCGTGCTGCTGGTGACCGGCTGA	MSSIADSLALIGRGADEILKLDELEARLKTGKPLRIKAGFDPTAPDLHLGHTVLLNKMRQFQDLGHQVIFLIGDFTGMIGDPTGKSVTRKPLTREDVLANARTYEEQVFKVLDRARTEVRFNSEWFGKMGAADMIRLAGQHTVARMLERDDFAKRFAGQQSIAIHEFLYPLVQGYDSVALECDVELGGTDQKFNLLMGRGLQEHHGQKPQIVLTMPLLEGLDGVNKMSKSLGNYIGISEPAIDIVTKTMKIGDALMWRWIELLSFDISQAEAKALREQVAAGLNPREVKLRLARELATRFHDAAAAEQAIAGWQAAVTGQGDITQLPLQEVAIPAEGLRIGALLTAAGLTPSNSEAMRKLKERAVKVDGDVVEDPQQVLAPGFEGLLQVGKRNFARVLLVTG				NA	NA	NA	NA	NA
BMS020_07484	543	hemG	COG4635	Protoporphyrinogen IX dehydrogenase [menaquinone]	GTGAAAACTTTAATTCTCTTTTCCACCCGCGACGGGCAGACACGTGAAATCGCTTCGTTTCTCGCCTCTGAGCTTAAAGAGCTGGGTATCGATGCGGACACCCTGAATCTGAACCGTACCGATGACGTGGAATGGCATCATTATGATCGCGTGGTGATTGGCGCGTCGATTCGCTACGGACACTTTCATCCGGCGGTGGACCGCTTTGTGAAAAAGCACCTTGCAGCATTACAGGCGCTGCCGGGGGCATTCTTTTCGGTGAACCTGGTTGCGCGCAAACCCGAGAAGCGCACGCCGCAGACCAACAGCTATACGCGCAAGTTTCTGCTCAACTCGCCGTGGCAGCCGCAGAGCTGCGCGGTGTTTGCCGGGGCGCTACGTTACCCGCGTTACCGCTGGTACGATCGGTTTATGATCCGCCTGATTATGAAAATGACCGGGGGCGAAACGGATACCCGTAAAGAAGTGGTCTATACCGACTGGCAACAGGTCTCCCGATTTGCCCGAGAAATCGCGCAAATGATCCGCAAACAGGGCGTTTAA	MKTLILFSTRDGQTREIASFLASELKELGIDADTLNLNRTDDVEWHHYDRVVIGASIRYGHFHPAVDRFVKKHLAALQALPGAFFSVNLVARKPEKRTPQTNSYTRKFLLNSPWQPQSCAVFAGALRYPRYRWYDRFMIRLIMKMTGGETDTRKEVVYTDWQQVSRFAREIAQMIRKQGV	PGPT0008470_280	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008470-hemG-K00230	NA	NA
BMS020_07485	1452	trkH	COG0168	Trk system potassium uptake protein TrkH	ATGCATTTTCGCGCCATAACCCGAATCGTTGGACTGCTGGTCATCTTGTTTTCGGGGACGATGATCGTCCCGGGATTAGTGGCCCTGATATATCGCGATGGCGCGGGACGGGCCTTCACTCAAACTTTTTTTGTCGCTCTGGCGATCGGCTCCATGCTGTGGTGGCCGAACCGTAAGCAAAAGGGTGAACTGAAATCCCGTGAAGGATTTCTGATCGTGGTGCTGTTCTGGACCGTGCTGGGTAGCGTAGGGGCCTTGCCCTTTATTTTCGCCGAACAGCCGAACCTGACGGTGACGGATGCCTTCTTCGAGTCATTTTCCGGCCTGACGACGACCGGGGCGACCACCCTGGTGGGGCTGGACTCGCTCCCGCACGCTATCCTCTTTTACCGGCAGATGCTGCAGTGGTTCGGCGGTATGGGGATCATTGTGCTGGCGGTGGCGATTCTGCCTATCCTCGGCGTCGGGGGGATGCAGCTCTACCGTGCGGAAATGCCCGGCCCGCTGAAAGATAACAAGATGCGCCCGCGCATCGCCGAGACGGCAAAGACATTGTGGCTCATCTATGTGTTACTGACGGTCGCCTGCGCATTGGCGCTCTGGTTTGCCGGTATGCCGGCCTTCGATGCGATAGGGCACAGCTTCGCCACCATCGCCATCGGCGGTTTCTCGACTCACGATGCCAGCGTCGGCTATTTCAACAGCCCGATGATCAACTCCATCATTGCCATCTTTCTGCTGATCTCCGGCTGTAACTACGGTCTGCATTTTTCGCTGTTGAGCGGACGCAGCCTGAAGGTGTACTGGCGCGACCCTGAGTTTCGAATGTTCATTGGCGTCCAGTTGACGCTGGTCATCGTCTGTACGCTGGTGCTATGGCTTCATAACGTGTACGGCTCGGTGCTGACGACGCTGAATCAGGCGTTTTTCCAGGTGGTGTCGATGGCGACCACCGCGGGATTCACCACCGATAGCATTGCGCGCTGGCCGCTGTTCCTGCCGGTGCTTCTGCTGTGCTCCGCATTTATCGGCGGCTGCGCAGGCTCTACGGGCGGTGGCTTAAAGGTTATCCGTATCCTGTTGCTGTTCAAGCAGGGCAACCGTGAGCTTAAGCGTCTGGTTCACCCGAATGCGGTGTATAGCATTAAATTAGGTAACCGCGCGCTGCCGGAACGTATTCTGGAAGCGGTATGGGGATTCTTCTCCGCCTATGCGCTGGTCTTTATCATTAGTATGCTGGCTATTATCGCCACCGGGGTGGATGACTTCTCCGCTTTCGCCTCCGTGGTGGCGACATTGAACAACCTCGGGCCTGGGCTCGGCGTCGTCGCGGACAACTTTGCCACCATGAACCCGGTCGCGAAATGGATCCTGATTGCTAATATGCTGTTTGGTCGTCTGGAAGTGTTCACCTTACTGGTGCTCTTTACTCCCACTTTCTGGCGCGAATAA	MHFRAITRIVGLLVILFSGTMIVPGLVALIYRDGAGRAFTQTFFVALAIGSMLWWPNRKQKGELKSREGFLIVVLFWTVLGSVGALPFIFAEQPNLTVTDAFFESFSGLTTTGATTLVGLDSLPHAILFYRQMLQWFGGMGIIVLAVAILPILGVGGMQLYRAEMPGPLKDNKMRPRIAETAKTLWLIYVLLTVACALALWFAGMPAFDAIGHSFATIAIGGFSTHDASVGYFNSPMINSIIAIFLLISGCNYGLHFSLLSGRSLKVYWRDPEFRMFIGVQLTLVIVCTLVLWLHNVYGSVLTTLNQAFFQVVSMATTAGFTTDSIARWPLFLPVLLLCSAFIGGCAGSTGGGLKVIRILLLFKQGNRELKRLVHPNAVYSIKLGNRALPERILEAVWGFFSAYALVFIISMLAIIATGVDDFSAFASVVATLNNLGPGLGVVADNFATMNPVAKWILIANMLFGRLEVFTLLVLFTPTFWRE	PGPT0002735_2136	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498	NA	NA
BMS020_07486	615	yigZ_2	COG1739	IMPACT family member YigZ	ATGGAGAGCTGGTTAATCCCGGCGGCGCCCGTTTCCGTCGTTGAGGAGATCAAAAAGAGCCGTTTTATCACGCTGTTGGCGCATACCGACGGCGTGGCGGCGGCGAAAGCCTTTGTCGAGTCCGTCAGAGCGGATCACCCCGATGCCCGTCACCACTGCGTGGCGTGGGTCGCCGGACCGCCTGATGATTCGCAACAGCTTGGATTTTCTGATGATGGCGAACCGGCGGGAACGGCGGGTAAACCGATGCTGGCGCAGCTGATGGGAAGCGGCGTCGGCGAGATAACCGCTGTCGTCGTGCGTTACTACGGTGGTATCCTGCTGGGCACCGGCGGTCTGGTGAAAGCCTATGGCGGCGGTGTTCATCAGGCGCTGGCGCAGTTGACGACACTGCGCAAGACGCCGTTAACGGCATATACTTTGCAATGTGAATATGGGCAACTGGCCGGCGTCGAAGCGCTGCTCGCCCAATTTTCCGGCAACGTCGTTGAAAGCGAATATCTGGCGTCGGTTCGGCTGCGCGTGGCGCTTCCCCAGGCTGAAGTGGCGGCTTTTTCAGCAAAACTGGCTGATTTTAGTCGTGGTTCATTGCAATTGCTGAAGATTAACGAATAA	MESWLIPAAPVSVVEEIKKSRFITLLAHTDGVAAAKAFVESVRADHPDARHHCVAWVAGPPDDSQQLGFSDDGEPAGTAGKPMLAQLMGSGVGEITAVVVRYYGGILLGTGGLVKAYGGGVHQALAQLTTLRKTPLTAYTLQCEYGQLAGVEALLAQFSGNVVESEYLASVRLRVALPQAEVAAFSAKLADFSRGSLQLLKINE				NA	NA	NA	NA	NA
BMS020_07487	1332	pepQ_2	COG0006	Xaa-Pro dipeptidase	ATGGAATCCCTGGCCGCGCTCTATAAAAATCATATTGTTACCCTACAAGAACGTACCCGCGACGTCCTGTCCCGTTTTCAGATGGATGCTCTGCTGATTCACTCCGGCGAGCTGGTTAACGTCTTCCTTGATGACCATCCGTACCCGTTCAAGGTCAATCCGCAGTTCAAAGCCTGGGTGCCGGTGACTCAGGTGCCTAACTGCTGGTTGCTGGTGGACGGTGTGAATAAACCGAAGCTGTGGTTCTATCTGCCGGTTGATTACTGGCATAACGTTGAGCCGCTGCCGACCTCGTTCTGGACCGAAGAGGTCGATGTAGTCGCGCTGCCGAAGGCCGATGGCATCGGCAGCCAACTGCCTGCCGCTCGCGGAAATATTGGTTATATCGGGCCGGTGCCGGAGCGCGCGCTGGGTCTGGGAATCGCCGCGGATAAGATCAACCCGAAAGGGGTTATCGATTATCTGCATTACTACCGGGCTTACAAAACCGATTACGAGCTGGCCTGTATGCGTGAAGCGCAGAAGTCGGCGGTGAATGGTCATCGTGCGGCCTATGAAGCTTTTCAGTCCGGGATGAGCGAATTCGATATCAATCAGGCCTATCTTACCGCAACCGGTCACCGCGATACCGACGTGCCTTACAGCAACATCGTGGCGCTGAACGAGCATGCTTCTGTCCTGCACTACACCAAACTGGACCACCGCGCTCCGGCGGAAATGCGCAGCTTCCTGCTCGACGCCGGTGCGGAATATAACGGCTATGCTGCGGATCTGACGCGGACCTGGGCGGCACACGGCGATAACGATTTCGCCCATCTGATTAAAGACGTTAACGACGAGCAGCTGGCGCTGATTAGCACCATGAAAGCCGGGACTCGCTACGTCGATTACCATATCCAGTTCCACCAGCGTATTGCGAAGCTGCTGCGTAAACACCAGTTAGTCACTGACATGAGCGAAGAGGCGATGGTGGAAAACGATCTGACCGGGCCATTTATGCCGCACGGGATTGGTCATCCGCTGGGTCTGCAGGTGCATGATGTTGCTGGCTTTATGCAAGACGACTCCGGTACGCATCTGGCGGCGCCAGCGAAATACCCGTATCTGCGCTGCACCCGTATTATCGAGCCGCGTATGGTGTTGACCATTGAACCCGGCATCTACTTTATCGAGTCGTTACTGGCGCCGTGGCGTGAAGGTCCGTTCAGCAAACACTTCAACTGGCAAAAAATTGACGCCATGAAGCCATTCGGCGGGATCCGTATCGAAGATAACGTGGTGGTTCACGAAAACAGTATCGAAAACATGACGCGCGATCTGAAGCTGGCCTAA	MESLAALYKNHIVTLQERTRDVLSRFQMDALLIHSGELVNVFLDDHPYPFKVNPQFKAWVPVTQVPNCWLLVDGVNKPKLWFYLPVDYWHNVEPLPTSFWTEEVDVVALPKADGIGSQLPAARGNIGYIGPVPERALGLGIAADKINPKGVIDYLHYYRAYKTDYELACMREAQKSAVNGHRAAYEAFQSGMSEFDINQAYLTATGHRDTDVPYSNIVALNEHASVLHYTKLDHRAPAEMRSFLLDAGAEYNGYAADLTRTWAAHGDNDFAHLIKDVNDEQLALISTMKAGTRYVDYHIQFHQRIAKLLRKHQLVTDMSEEAMVENDLTGPFMPHGIGHPLGLQVHDVAGFMQDDSGTHLAAPAKYPYLRCTRIIEPRMVLTIEPGIYFIESLLAPWREGPFSKHFNWQKIDAMKPFGGIRIEDNVVVHENSIENMTRDLKLA	PGPT0006760_134	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
BMS020_07488	2190	fadB_3	COG1024	Fatty acid oxidation complex subunit alpha	ATGCTCTACAAAGGCGACACCCTGTACCTCGACTGGCTGGAAGATGGCATCGCCGAACTGGTGTTCGATGCCCCAGGTTCGGTCAACAAGCTTGATACCGCAACCGTAGCCAGCCTCGGTCATGCGCTGGACGTACTGGAAAAACAAAACGATCTCAAAGGCCTGATGCTGCGCTCTGAAAAAGCGGCGTTTATCGTCGGCGCGGATATTACGGAATTCCTCTCACTGTTCCTGGTCCCTGAGGAGCAGTTAAGCCAATGGCTGCATTTTGCTAACAGCGTCTTCAACCGTCTGGAAGATCTTCCGGTCCCCACTGTCTCCGCCGTCAACGGTTACGCGCTGGGCGGCGGTTGTGAATGCGTCCTGACGACCGATTATCGCCTGGCGACGCCGGATCTGCGCATTGGTCTGCCGGAAACCAAACTCGGCATTATGCCAGGCTTCGGCGGCTCAGTCCGTTTGCCGCGCCTGCTCGGCGCCGACAGCGCGCTGGAGATCATTGCTGCCGGGAAAGATGTCGGTGCCGATCAAGCGCTGAAAATCGGCCTGGTGGATGGCGTAGTTGCTGCCGACAAACTGCGCGACGGCGCGCTGGCGATCCTGCGCCAGGCGATTCAGGGCGACCTGGACTGGAAAGCGAAACGGCAACCGAAGCTGGAGCCGCTGAAGCTCAGCAAAATTGAAGCGACGATGAGTTTCACCATCGCCAAAGGCATGGTCGCGCAAACCGCCGGGAAGCATTATCCGGCGCCGATCACCGCGGTGAAAACCATTGAAGCCGCCGCGCGTCTTGGTCGTGAAGAGGCCCTGGTGCTGGAAAATAAAAGCTTTGTCCCGCTGGCTCATACCAATGAGGCCCGCGCGCTGGTCGGTATCTTCCTCAACGACCAGTACGTCAAAGCGAAAGCGAAAAAACTGACCAAAGATGTCGAAACGCCGAAGCAGGCCGCCGTCCTGGGCGCGGGCATTATGGGCGGCGGCATCGCTTATCAGTCGGCGTGGAAAGGCGTGCCGGTCATCATGAAGGACATCAACGATAAATCGCTGACGCTCGGCATGACCGAAGCGGCGAAGCTACTGAATAAACAGCTGGAACGCGGCAAAATCGACGGTCTGAAGCTGGCCGGAGTAATAAGCACCATTCAGCCGACGCTGGAGTATAGCGGTTTTGATCGTGTGGACGTGGTCGTTGAAGCGGTGGTGGAAAACCCGAAAGTGAAGAAAGCGGTGCTGGCGGAAACGGAAGATAAAATCCGCCCGGATACCGTGCTGGCGTCCAACACCTCAACGATCCCCATCAGCGAGCTGGCCAGCGTTCTGCAGCGCCCGGAAAACTTCTGCGGCATGCACTTCTTTAATCCGGTGCATCGCATGCCGCTGGTAGAAGTGATCCGCGGCGAAAAAACCTCGGATAATACCATTGCCAAAGTCGTCGCCTGGGCCAGCAAAATGGGCAAGACGCCAATCGTGGTCAATGATTGTCCCGGTTTCTTCGTCAACCGCGTGCTGTTCCCCTACTTCGCCGGCTTCAGCCAGCTGCTGCGCGACGGGGCGGATTTCCGCAAAGTCGACAAAGTGATGGAGAAACAGTTTGGCTGGCCGATGGGCCCGGCCTATCTGCTGGACGTGGTCGGCATCGACACCGCGCACCATGCTCAGGCGGTCATGGCGGCGGGATTCCCGCAGCGGATGCAGAAAGATTATCGCGACGCCATCGACGCCCTGTTTGACGCCAACCGTTTCGGCCAGAAGAACGGCCTCGGCTTCTGGCGCTATAAAGACGACAGCAAAGGTAAGCCGAAGAAAGAAGAAGATGCCGCCGTCGACAGCCTGCTGGCCGACGTCAGCCAGCCGAAGCGCGATTTCAGCGATGAAGAGATTATCGCCCGCATGATGATCCCGATGGTTAACGAAGTCGTCCGCTGCCTGGAAGAAGGCATTATCGCCAGCCCGGCGGAAGCAGATATGGCGCTGGTATACGGCCTCGGCTTCCCTCCGTTCCACGGCGGCGCCTTCCGCTGGCTGGATACCATCGGCAGCGCGAAGTATCTCGATATGGCGCAGCAGTACCAGCACCTTGGGCCGCTGTATGAAGTCCCTGCCGGTCTGCGTGACAAAGCGCGCCATAACGAAGCGTATTATCCCCAGGTAGAGCCAGCCCGTCCGGTTGGCGCTCTGAAAACGGCTTAA	MLYKGDTLYLDWLEDGIAELVFDAPGSVNKLDTATVASLGHALDVLEKQNDLKGLMLRSEKAAFIVGADITEFLSLFLVPEEQLSQWLHFANSVFNRLEDLPVPTVSAVNGYALGGGCECVLTTDYRLATPDLRIGLPETKLGIMPGFGGSVRLPRLLGADSALEIIAAGKDVGADQALKIGLVDGVVAADKLRDGALAILRQAIQGDLDWKAKRQPKLEPLKLSKIEATMSFTIAKGMVAQTAGKHYPAPITAVKTIEAAARLGREEALVLENKSFVPLAHTNEARALVGIFLNDQYVKAKAKKLTKDVETPKQAAVLGAGIMGGGIAYQSAWKGVPVIMKDINDKSLTLGMTEAAKLLNKQLERGKIDGLKLAGVISTIQPTLEYSGFDRVDVVVEAVVENPKVKKAVLAETEDKIRPDTVLASNTSTIPISELASVLQRPENFCGMHFFNPVHRMPLVEVIRGEKTSDNTIAKVVAWASKMGKTPIVVNDCPGFFVNRVLFPYFAGFSQLLRDGADFRKVDKVMEKQFGWPMGPAYLLDVVGIDTAHHAQAVMAAGFPQRMQKDYRDAIDALFDANRFGQKNGLGFWRYKDDSKGKPKKEEDAAVDSLLADVSQPKRDFSDEEIIARMMIPMVNEVVRCLEEGIIASPAEADMALVYGLGFPPFHGGAFRWLDTIGSAKYLDMAQQYQHLGPLYEVPAGLRDKARHNEAYYPQVEPARPVGALKTA	PGPT0001865_63	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0001865-fadB-K01825	NA	NA
BMS020_07489	1164	fadA_2	COG0183	3-ketoacyl-CoA thiolase	ATGGAACAGGTTGTCATTGTCGATGCTATTCGCACCCCGATGGGCCGTTCAAAGGGCGGCGCATTTCGCCACGTGCGCGCGGAAGACCTCTCCGCGCACCTGATGCGTAGCCTGCTGTCGCGCAACCCGTCGCTTGAGGCAAGCGCGATAGACGATATCTACTGGGGCTGCGTACAGCAAACCCTCGAGCAGGGTTTTAACATCGCCCGTAACGCGGCGCTGCTGGCGGAGATCCCGCATTCGGTACCGGCAAACACGGTTAACCGTCTGTGCGGTTCTTCCATGCAGGCGCTGCACGATGCTGCACGCATGATCATGACCGGCGATGCCAGCGTCTGCCTGATTGGCGGCGTGGAGCACATGGGCCATGTGCCGATGAGCCACGGCGTCGATTTCCACCCGGGCCTGAGTCGCAACGTGGCGAAGGCGGCAGGGATGATGGGGCTGACCGCTGAAATGCTGGCGCGTCTGCACGGCATTAGCCGGGAAATGCAGGATCAGTTCGCCGCGCGCTCCCACGCCCGCGCCTGGGCTGCGACCCAGTCCGGCGCATTCAAAGCCGAGATTATCCCCACCGGCGGCCACGCTGCCGATGGCGTACTGAAGTCCTTTAACTATGACGAAGTGATCCGCCCGGAAACCACCGTCGAGACGCTGTCTACCCTGAGGCCGGCGTTTGACCCGGTGACCGGTACGGTAACGGCGGGTACCTCTTCCGCCCTTTCCGATGGCGCGGCGGCGATGCTACTGATGAGCGAAAGTCGCGCCCGCGAACTGGGGCTGAAGCCACGCGCCCGCGTCCGTTCGATGGCGGTGGTCGGCTGCGACCCGTCCATTATGGGCTATGGCCCGGTTCCCGCCTCGAAGCTGGCGCTGAAAAAAGCGGGCTTATCCACCAGCGATATCGACGTCTTTGAAATGAATGAGGCCTTTGCCGCGCAGATCCTGCCGTGCATTAAAGATCTGGGCCTGATGGAGCAGATCGATGAGAAGATCAACCTTAACGGCGGGGCGATCGCGCTCGGTCATCCGCTGGGTTGTTCCGGGGCGCGTATTAGCACCACGTTGATCAATCAGATGGAGCGTAAAGATGCCCAGTTCGGCCTCGCCACCATGTGCATTGGCCTGGGACAAGGGATCGCCACCGTGTTTGAGCGGGTGTAA	MEQVVIVDAIRTPMGRSKGGAFRHVRAEDLSAHLMRSLLSRNPSLEASAIDDIYWGCVQQTLEQGFNIARNAALLAEIPHSVPANTVNRLCGSSMQALHDAARMIMTGDASVCLIGGVEHMGHVPMSHGVDFHPGLSRNVAKAAGMMGLTAEMLARLHGISREMQDQFAARSHARAWAATQSGAFKAEIIPTGGHAADGVLKSFNYDEVIRPETTVETLSTLRPAFDPVTGTVTAGTSSALSDGAAAMLLMSESRARELGLKPRARVRSMAVVGCDPSIMGYGPVPASKLALKKAGLSTSDIDVFEMNEAFAAQILPCIKDLGLMEQIDEKINLNGGAIALGHPLGCSGARISTTLINQMERKDAQFGLATMCIGLGQGIATVFERV	PGPT0001565_4256	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
BMS020_07490	702	fre	COG0543	NAD(P)H-flavin reductase	ATGACAACCTTAAGCTGTAAAGTGACCTCGGTGGAGGCGATTACCGATACCGTGTATCGTGTTCGATTAGTACCGGAAGCGGCATTCTCTTTCCGCGCTGGCCAGTATCTGATGGTGGTAATGGATGAGCGCGACAAACGCCCATTCTCCATGGCCTCCACGCCGGCGGAACAGGAATTTATCGAACTGCATATCGGCGCCTCGGAGCTCAATCTGTACGCGATGGCGGTCATGGATCGCATCCTGAAAGAGCGCGAAATTGAGGTTGATATCCCGCATGGCGAAGCCTGGCTGCGTGAAGATGAAGACCGCCCGCTGATTTTGATTGCCGGCGGCACCGGCTTCTCTTATGTGCGTTCTATTCTGCTGACCGCGCTGTCACGCAATCCTCAGCGCGATATCGCGATTTACTGGGGCGGCCGCGAGACCAAACATCTGTACGATCTGGCTGAGCTGGAAGCCTTGAGCGTCAAACATCCGAATCTGCGCATTGAGCCGGTGGTTGAGCAGCCGGAAGAGGGCTGGCGTGGGCGTTCCGGCACCGTGCTGACCGCGGTGCTGCAGGATTACGGTACCCTGGCCGATCACGATATCTATATTGCCGGGCGTTTTGAGATGGCCAAGATTGCTCGCGACCTGTTCTGCAATGAACGCGGCGCGCGCGAAGATCGCCTGTTTGGCGACGCGTTTGCGTTTATCTGA	MTTLSCKVTSVEAITDTVYRVRLVPEAAFSFRAGQYLMVVMDERDKRPFSMASTPAEQEFIELHIGASELNLYAMAVMDRILKEREIEVDIPHGEAWLREDEDRPLILIAGGTGFSYVRSILLTALSRNPQRDIAIYWGGRETKHLYDLAELEALSVKHPNLRIEPVVEQPEEGWRGRSGTVLTAVLQDYGTLADHDIYIAGRFEMAKIARDLFCNERGAREDRLFGDAFAFI	PGPT0008705_249	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008705-fre|ubiB-K05368	NA	NA
BMS020_07491	1476	ubiD_1	COG0043	3-octaprenyl-4-hydroxybenzoate carboxy-lyase	ATGAAATATCACGATCTTCGCGACTTTCTGACACTCCTGGAACAACAGGGCGAACTAAAACGTATCACTCTGCCGGTCGATCCCCACCTGGAAATCACCGAAATTGCCGACCGCACCCTGCGCGCTGGCGGTCCGGCGTTGCTGTTTGAGAATCCGAAAGGCTATACCATGCCGGTGCTGTGCAACCTGTTCGGCACGCCGCGGCGCGTGGCGCTGGGGATGGGTCAGGAGGACGTCAGTTCGCTGCGCGAGGTGGGTAAGCTGTTAGCCTTTCTGAAAGAGCCTGAGCCGCCCAAAGGTTTCCGCGATCTGTTTGATAAGCTGCCGCAGTTTAAGCAAGTGCTGAATATGCCGACCAAACGTCTGCGCGGCGCACCCTGCCAGCAAAAAATCATCCAGGGCGATGACGTCGACCTGAGGAAAATCCCGATTATGACCTGCTGGCCGGACGATGCCGCGCCGCTGATCACCTGGGGGCTGACGGTGACCCGCGGGCCGCACAAAGAGCGGCAGAACCTGGGGATTTATCGCCAGCAGCTGATTGGCAAAAACAAACTGATTATGCGCTGGCTGTCTCATCGCGGCGGCGCACTGGATTTCCAGGAGTGGAGCGCGGCGCGTCCGGGCGAACGCTTCCCGGTTTCTGTGGCGCTCGGCGCCGACCCAGCGACCATTCTTGGCGCGGTGACCCCGGTGCCGGATACGTTGTCGGAATATGCCTTTGCCGGGCTGCTGCGCGGTACCAAAACCGAAGTGGTGAAATGCGTCTCGAACGATCTTGAAGTGCCTGCCAGCGCAGAGATTGTGCTGGAAGGTTATATCGAGGCCGGGGAGATGGCGCCGGAAGGTCCGTATGGCGACCATACCGGCTACTACAATGAAGTAGACCAGTTCCCGGTGTTTACGGTCACCCATATTACCCAACGTGAAGACGCGATTTATCATTCGACCTATACCGGCCGTCCGCCGGATGAGCCTGCGGTGCTGGGCGTGGCGCTGAATGAAGTCTTCGTCCCGATCCTGCAAAAACAGTTTCCGGAAATCGTCGATTTCTATCTGCCGCCGGAAGGGTGCTCCTACCGCCTGGCGGTGGTGACGATGAAAAAACAGTATGCAGGCCATGCCAAGCGCGTGATGATGGGCGTCTGGTCGTTCCTGCGCCAGTTTATGTACACCAAATTCGTGATTGTCTGCGATGACGATGTCAACGCCCGCGACTGGAACGATGTGATTTGGGCGATCACTACCCGTATGGACCCGGCTCGTGATACGGTACTGGTAGAGAATACGCCAATTGATTATCTGGATTTTGCCTCGCCGGTTTCCGGCCTGGGTTCAAAAATGGGGCTGGATGCCACCAATAAATGGCCTGGCGAAACCCAGCGTGAATGGGGCCGCCCAATCAAAAAAGATCCTGCCGTCACGGCGCGCATTGACGCCATCTGGGATGATCTGGCCATCTTTAAACAACAGTAA	MKYHDLRDFLTLLEQQGELKRITLPVDPHLEITEIADRTLRAGGPALLFENPKGYTMPVLCNLFGTPRRVALGMGQEDVSSLREVGKLLAFLKEPEPPKGFRDLFDKLPQFKQVLNMPTKRLRGAPCQQKIIQGDDVDLRKIPIMTCWPDDAAPLITWGLTVTRGPHKERQNLGIYRQQLIGKNKLIMRWLSHRGGALDFQEWSAARPGERFPVSVALGADPATILGAVTPVPDTLSEYAFAGLLRGTKTEVVKCVSNDLEVPASAEIVLEGYIEAGEMAPEGPYGDHTGYYNEVDQFPVFTVTHITQREDAIYHSTYTGRPPDEPAVLGVALNEVFVPILQKQFPEIVDFYLPPEGCSYRLAVVTMKKQYAGHAKRVMMGVWSFLRQFMYTKFVIVCDDDVNARDWNDVIWAITTRMDPARDTVLVENTPIDYLDFASPVSGLGSKMGLDATNKWPGETQREWGRPIKKDPAVTARIDAIWDDLAIFKQQ	PGPT0009530_1528	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009530-ubiD-K03182	NA	NA
BMS020_07492	489	rfaH	COG0250	Transcription antitermination protein RfaH	ATGCAAGCCTGGTACTTACTGTATTGCAAACGTGGGCAGCTACAACGAGCCCAGGAACATCTGGAACGTCAGTCAGTTAACTGCCTGATGCCGACGATTGCGCTGGAAAAAATCATTCGCGGTAAACGCACCATGGTCAGCGAACCGCTGTTTCCGAACTACCTGTTTATTGAGTTCGATCCAGAGGTGATTCATACCACCACCATCAGCGCCACACGCGGGGTTAACAACTTCGTGCGCTTTGGCGCCCTACCCGCTATCGTCCCCTCGGCGGTCATCCATCAGCTCTCTATCTATAAACCGGAAGGCATCACCGACCCGGAAACGCCGCATGAAGGCGATAGCGTACTGATCACCGACGGCGCGTTCGAAGGCTTACAGGCTATCTTTACCGAGCCGGACGGTGAAGCACGCTCTATGTTGCTGTTAAACCTGCTGAATAAGCAAGTCCTGCAGAGCGTAAAAAACACCGATTTCCAGAAAATCTAA	MQAWYLLYCKRGQLQRAQEHLERQSVNCLMPTIALEKIIRGKRTMVSEPLFPNYLFIEFDPEVIHTTTISATRGVNNFVRFGALPAIVPSAVIHQLSIYKPEGITDPETPHEGDSVLITDGAFEGLQAIFTEPDGEARSMLLLNLLNKQVLQSVKNTDFQKI				NA	NA	NA	NA	NA
BMS020_07493	792	tatD_1	COG0084	3'-5' ssDNA/RNA exonuclease TatD	ATGTTTGATATCGGCGTTAATCTGACCAGTTCGCAGTTTGCCCGCGACCATGATGAGGTGGTGGCGCGCGCCCGGTCGGCGGGTGTCCACGGCATGCTGCTGACCGGCACAAATTTGCCGGAGAGCCAGCAGGCGCAGAGAATGGCGAGCCATTACGCCGGCTGCTGGTCCACGGCGGGGGTTCATCCCCATGACGGCAGCAGCTGGACGCCAGCGGTCGCCGAGGCGATTTATGTCCTTGCCCGCGAGCCGCAGGTGGTGGCGATAGGGGAATGTGGTCTGGATTTTAATCGTAATTTCTCCACGCCGCAGGAGCAGGAGGCGGCATTCAGCGCCCAACTGGCGCTGGCCGCCGAGCTGTCGATGCCGGTGTTTTTACACTGCCGCGACGCCCACGACCGGTTTCTGACGCTACTTAAACCCTGGCTTGGGAAGATCCCGGGCGCGGTGCTGCACTGCTTTACCGGCAGCCGCAGCGAGGTGCAGGAATGTCTGGATCTGGGGCTGTTTATCGGCATTACCGGTTGGGTGTGCGATGAGCGGCGCGGGCTTGAGCTGCGAGAGCTACTGCCGGCGATCCCGGCGGAACGTCTGCTGCTGGAGACCGATGCGCCCTATCTGCTGCCGCGCGACCTCAAGCCGAAACCCGCCTCGCGTCGTAACGAGCCCGCGTATTTGCCGCATATCCTGGCCAGCGTCGCGGCCTGGCGCGGCGAGGAGGCGCAGTGGCTTGAGGCGCAAACGGACGCAAACGTCAGAGCGCTGTTTGGCGTCGACGTTATCGGCGCTTAG	MFDIGVNLTSSQFARDHDEVVARARSAGVHGMLLTGTNLPESQQAQRMASHYAGCWSTAGVHPHDGSSWTPAVAEAIYVLAREPQVVAIGECGLDFNRNFSTPQEQEAAFSAQLALAAELSMPVFLHCRDAHDRFLTLLKPWLGKIPGAVLHCFTGSRSEVQECLDLGLFIGITGWVCDERRGLELRELLPAIPAERLLLETDAPYLLPRDLKPKPASRRNEPAYLPHILASVAAWRGEEAQWLEAQTDANVRALFGVDVIGA				NA	NA	NA	NA	NA
BMS020_07494	780	tatC_2	COG0805	Sec-independent protein translocase protein TatC	ATGGGCGTAGACGATACACAACCGCTAATTTCGCATCTGATTGAGCTGCGCAAGCGTCTGCTCAACAGCATCATTGCTATCCTGGTGATCTTCCTGGCGCTGGTCTATTTCGCCAATGATATTTATCAGCTGGTCTCGGCCCCGCTTATCAGCAAGATGCCGGTAGGCGCGACGATGATCGCCACCGATGTCGCTTCACCTTTCTTTACGCCGATAAAGCTGACCTTTATGGTGTCGGTGATCCTGTCGGTGCCGATTATTCTGTATCAGGTATGGGCCTTCGTCGCGCCGGCGCTGTATAAGCACGAGCGCCGGCTGGTGGTGCCCTTGCTGGTCTCCAGCACGCTGCTGTTCTATATCGGCATGGCTTTCGCGTATTTTGTCGTGTTTCCGCTGGCGTTCGGCTTTCTGACCCATGCTGCCCCGGAGGGGGTGCTGGTCTCGACCGATATCCGCAGCTATCTCGACTTCGTGATGGCGCTGTTTATGGCGTTCGGGGTCTCTTTTGAGGTGCCGGTCGCCATTGTGCTGCTCTGCTGGATGGGCGTCACTACGCCGGAAGAGCTGCGCAAAAAACGGCCGTATGTGCTGGTGGGCGCCTTCGTGGTGGGCATGCTGCTGACGCCGCCGGACGTGTTCTCGCAGACGCTGCTGGCCATTCCGATGTACTGTCTGTTTGAAGTCGGGGTGTTCTTTGCCCGCTTCTACACCGGGAAGCGTCTGACGCGTGATGACGATGCCGCGGCCGAAGCTGAAGCCGCTGAGCACAGAGAAGAGTAA	MGVDDTQPLISHLIELRKRLLNSIIAILVIFLALVYFANDIYQLVSAPLISKMPVGATMIATDVASPFFTPIKLTFMVSVILSVPIILYQVWAFVAPALYKHERRLVVPLLVSSTLLFYIGMAFAYFVVFPLAFGFLTHAAPEGVLVSTDIRSYLDFVMALFMAFGVSFEVPVAIVLLCWMGVTTPEELRKKRPYVLVGAFVVGMLLTPPDVFSQTLLAIPMYCLFEVGVFFARFYTGKRLTRDDDAAAEAEAAEHREE	PGPT0029295_2786	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
BMS020_07495	525	tatB_2	COG1826	Sec-independent protein translocase protein TatB	GTGTTCGATATTGGTTTTAGTGAACTACTGCTGGTGTTTGTAATTGGCCTCATTGTTCTGGGGCCACAGCGGCTTCCCGTCGCGGTTAAAACGGTGGTTGGCTGGATCCGTACGCTACGGTCGCTGGCGACCACGGTGCAGAATGAGCTGGCTCAGGAGCTAAAACTGCAGGAGTTCCAGGAGAGCCTCAAGAAGGTGGAAAAGGCCAGCCTGAATAACCTGACGCCGGAGCTGAAAGCCTCCATGGACGAGCTGCGCGAGGCCGCGGAGTCGATGAAGCGCTCCTATAGCGCCCACGATCCGGAAAAGGCCAGCGACGAAGCGAATACCATCCATAATCCGGTGGTGAAAGGCAGCGAAGCGCAGCGGCAGGACGTCACGCCGGCGACGGCCGAACATCAGGCCAGCGCTCCGGCTCATGCGCCAGAGCCTGTGGCCGACGAGCAACCCGCTTCACCGGCAGAGAAAACATCCGCTACGGCGGCTGCCCCCCATTCTTCCCCCGCATCGAGTGATAAACCGTAA	MFDIGFSELLLVFVIGLIVLGPQRLPVAVKTVVGWIRTLRSLATTVQNELAQELKLQEFQESLKKVEKASLNNLTPELKASMDELREAAESMKRSYSAHDPEKASDEANTIHNPVVKGSEAQRQDVTPATAEHQASAPAHAPEPVADEQPASPAEKTSATAAAPHSSPASSDKP	PGPT0014360_842	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PATHWAY	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PROTEINS,PGPT0014360-tatB-K03117	NA	NA
BMS020_07496	252	tatA_2	COG1826	Sec-independent protein translocase protein TatA	ATGGGTGGTATCAGTATTTGGCAGTTATTAATTGTTGTCGTCATCGTAGTTCTGCTATTCGGGACGAAGAAGCTGAGCTCACTGGGGTCAGACTTAGGGGCATCCATCAAAGGCTTTAAAAAAGCCATGAGTGATGATGACAAACCCGAAAAGTCGGCGCCAGACGCAGATTTCACGGCGAAAACTATCGCCGACAAACAGGATGATGCAAAAAAAGACGAGACAAAACGCCACGACAAAGAGCAGGTGTAA	MGGISIWQLLIVVVIVVLLFGTKKLSSLGSDLGASIKGFKKAMSDDDKPEKSAPDADFTAKTIADKQDDAKKDETKRHDKEQV	PGPT0029290_756	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
BMS020_07497	1641	ubiB_3	COG0661	putative protein kinase UbiB	ATGACGCCAGGAGAATTACGGCGCCTGTATTTCATCGTCCACACCTTTTTGAGCTACGGGCTCGATGAGCTCATCCCCAAAATGCGGATCACGCTGCCGCTGCGTATCTGGCGGCGGATGCTGTTCTGGATGCCAAACCGCCATCAGGATCAACCCCTTGGCGCCCGTCTGCGGCTGGCGCTTCAGGAGCTGGGGCCGGTGTGGATTAAATTCGGCCAGATGCTGTCCACACGGCGGGATCTCTTTCCGCCGCATATTGCCGATCAGCTGGCGCTGTTGCAGGACCGCGTGGCGCCCTTTGACGGGAAGCTCGCGCAGCAGCAGATAGAGAAAGCGATGGGTGGCCTGCCCGTGGAGGCCTGGTTTGATGATTTCTCCGTTGAGCCGTTAGCCTCGGCGTCTATCGCCCAGGTGCATACCGCGCGTCTGAAAGAGAACGGCAAAGAGGTGGTGATCAAGGTTATCCGTCCGGATATTTTGCCGATCATTAAAGCGGACATGAAGCTCATCTACCGCCTGGCGCGCTGGGTGCCGCGTCTGCTGCCTGACGGCCGCCGTTTGCGCCCGCAGGAGGTGGTTCGTGAGTATGAAAAAACGCTGCTGGACGAGCTGAACCTGCTGCGGGAATCCGCTAACGCCATTCAGCTGCGGCGTAATTTCGAAGACAGCCCGATGCTGTATGTGCCGGAAGTGTACCCCGACTACTGCAGCGAAAGCATGATGGTGATGGAGCGCATCTACGGCATTCCGGTGTCCGACGTCGAGGCGCTGGAGGCTCAGGGAACCAACCTGCAGCTGCTGGCGGAGCGGGGCGTGCAGGTCTTCTTCACCCAGGTGTTCCGCGACAGTTTTTTCCATGCTGATATGCACCCTGGCAACATATTCGTCAGCTACGAGCACCCGGAAGATCCGCAGTATATCGGCATCGATTGCGGCATTGTCGGCTCGCTGAACAAAGAAGATAAGCGCTATCTGGCGGAAAACTTTATCGCCTTTTTCAACCGCGATTATCGTAAGGTTGCCGAGCTGCACGTCGACTCCGGTTGGGTTCCGCCGGACACTAATGTCGAAGAGTTTGAGTTCGCGATCCGCACGGTCTGCGAGCCCATCTTTGAGAAGCCGCTGGCGGAGATCTCCTTCGGCCACGTGCTGCTTAATCTGTTCAACACCGCGCGGCGCTTCAATATGGAAGTCCAGCCGCAGCTTGTTTTGCTACAGAAGACATTACTTTACGTAGAAGGGGTAGGCCGGCAGCTCTATCCTCAGTTAGACTTGTGGAAAACGGCGAAGCCTTTCCTTGAGTCGTGGATCAAAGATCAGGTCGGTATTCCGGCGCTGGTGCGCGCGTTTAAAGACAAAGCGCCGTTCTGGATCGAAAGAATGCCTGAAATACCTGAGCTGGTGTATCAGAGCCTGCAGCAGAGCAAACAGCTGCAGACCAGCGTCGATACTATCGTGCGGGATATGCATGTGCGTCATGTGCGCCAGGGCCAATCCCGTTATCTGTTTGGTATAGGCGCGGTTTTATTGCTCAGTGGTACGCTGCTCTTTATCCATCGCCCTGAGTGGGGAATGATGCCCGGCTGGCTGATGGCCGGCGGTGTCGTGACCTGGCTGATTGGCTGGCGAAAAACTCGCTGA	MTPGELRRLYFIVHTFLSYGLDELIPKMRITLPLRIWRRMLFWMPNRHQDQPLGARLRLALQELGPVWIKFGQMLSTRRDLFPPHIADQLALLQDRVAPFDGKLAQQQIEKAMGGLPVEAWFDDFSVEPLASASIAQVHTARLKENGKEVVIKVIRPDILPIIKADMKLIYRLARWVPRLLPDGRRLRPQEVVREYEKTLLDELNLLRESANAIQLRRNFEDSPMLYVPEVYPDYCSESMMVMERIYGIPVSDVEALEAQGTNLQLLAERGVQVFFTQVFRDSFFHADMHPGNIFVSYEHPEDPQYIGIDCGIVGSLNKEDKRYLAENFIAFFNRDYRKVAELHVDSGWVPPDTNVEEFEFAIRTVCEPIFEKPLAEISFGHVLLNLFNTARRFNMEVQPQLVLLQKTLLYVEGVGRQLYPQLDLWKTAKPFLESWIKDQVGIPALVRAFKDKAPFWIERMPEIPELVYQSLQQSKQLQTSVDTIVRDMHVRHVRQGQSRYLFGIGAVLLLSGTLLFIHRPEWGMMPGWLMAGGVVTWLIGWRKTR	PGPT0009520_1467	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
BMS020_07499	606	ubiJ_3	COG3165	Ubiquinone biosynthesis accessory factor UbiJ	ATGCCTTTCACACCCCTGGTGACCGCTGGCATTGAAACGGCGCTGAATACTTTCCTCTGGCGCGACAAAGCGCTAAAACCCGCCCGCCAGCGCCTGCTGGGCAAGGTATTGCGGGTACAGCTGCAGGACTTCTCCACGCCCGTGGTGCTGGTGTTCAGCGAACGCCAGGTTGATGTCCTGAGCGCCTGGGAGGGAGAGGCCGACTGCACCGTGATTACCCGGCTCAGCGTACTGCCAAAACTGCGCAACCGTCAGCAGCTCACGGCGCTTATCCGCAGCGGCGAGCTGGAAGTGCAGGGCGATCTGCAGGTGGTGCAGAACATGGTCACCCTGTGCGATCTGGCGGAGTTCGATCCCGCTGAACTGCTGGCGCCTTACACCGGCGACATCGTGGCCGAAGGCGTCGGTAAAGTTCTCCGCGGCGGCGCTCAGTTTTTACTGAAAGGGGCGCAGCGCCAGCAGCGCTATGTCGCGGAAGCGATCACTGAAGAGTGGCGCCTGGCGCCGGGGCCGCTGGAGCTGGCCTGGTTTGCTGAAGAGACGACGGCTATTGAACGCGCGCTGGCCGCACTGGAAAAACGGCTGGAAACGCTGGAGGGCAAATGA	MPFTPLVTAGIETALNTFLWRDKALKPARQRLLGKVLRVQLQDFSTPVVLVFSERQVDVLSAWEGEADCTVITRLSVLPKLRNRQQLTALIRSGELEVQGDLQVVQNMVTLCDLAEFDPAELLAPYTGDIVAEGVGKVLRGGAQFLLKGAQRQQRYVAEAITEEWRLAPGPLELAWFAEETTAIERALAALEKRLETLEGK	PGPT0009560_996	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009560-ubiJ|yigP-K03690	NA	NA
BMS020_07500	756	ubiE_1	COG2226	Ubiquinone/menaquinone biosynthesis C-methyltransferase UbiE	ATGGTTGAGGATTCACAAGAAACGACGCACTTTGGCTTTCAGACGGTCGCTAAAGAGCAGAAAGCGGACATGGTGGCGCATGTATTCCATTCTGTCGCCGCAAAGTATGATGTGATGAATGACTTAATGTCGTTTGGTATCCATCGTTTGTGGAAGCGTTTCACCATCGACTGCAGCGGTGTACGTCGCGGGCAGACCGTGCTGGATCTGGCGGGGGGTACCGGTGATTTGACGGCTAAGTTTTCCCGTCTGGTAGGGGAAACCGGCCGCGTTATGCTTGCTGATATCAATGATTCAATGCTCAAAATGGGCCGCGAAAAGCTGCGCAATATCGGCATCGTGGGTAACGTTGAGTATGTTCAGGCCAACGCGGAAGCCCTGCCGTTTGCTGATAATACCTTTGACTGCATCACCATCTCTTTCGGTCTGCGTAACGTGACCGACAAAGAAAAAGCGCTGCGTTCGATGTACCGCGTGCTGAAGCCGGGCGGACGTCTGCTGGTGCTGGAGTTTTCTAAACCCATTATTGAACCGCTGAGCAAAGCCTACGACGCTTACTCCTTCCATATCCTGCCGAAGGTGGGCGAGCTGGTGGCAAAAGACGGCGACAGCTATCGCTACCTGGCGGAGTCGATCCGTATGCATCCGGACCAGGAATCCCTGAAAGGGATGATGCAGGATGCAGGCTTCGAAAGCGTGGACTACTACAACCTGACGGCAGGTATCGTTGCTTTGCATCGCGGTTACAAGTTCTGA	MVEDSQETTHFGFQTVAKEQKADMVAHVFHSVAAKYDVMNDLMSFGIHRLWKRFTIDCSGVRRGQTVLDLAGGTGDLTAKFSRLVGETGRVMLADINDSMLKMGREKLRNIGIVGNVEYVQANAEALPFADNTFDCITISFGLRNVTDKEKALRSMYRVLKPGGRLLVLEFSKPIIEPLSKAYDAYSFHILPKVGELVAKDGDSYRYLAESIRMHPDQESLKGMMQDAGFESVDYYNLTAGIVALHRGYKF	PGPT0009535_1120	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009535-ubiE-K03183	NA	NA
BMS020_07501	1449			hypothetical protein	GTGGATCTCTCCATTATTATCAGCGCGGTTATCGCACTGGCTGCTGGATTAATCGTCGGCTGGCTGGCGACCAAAGCGCGCGCCGATCAAATTCGGGCCGATCTTATCGAGGAGCGGCGAGAGCTGGATATTGAGCTGAGCGCCGCCCGTCAGCAGCTGGTACAGGAAGCCCACTGGCGTGAAGAGTGCGAGCTGCTGAACAACGAGCTGCGCAGCCTGCGGGATATCAATACCTCGCTGGAGGCCGATCTGCGGGAGGTTACCACCCGGCTCGAATCCACCCAGCTGCATGCGGAAGATAAGATCCGCCAGATGGTGAACAGCGAACAGCGCCTGAGCGAGCAGTTTGAAAACCTCGCCAACCGCATTTTCGAACACAGCAACCGACGCGTCGATGAGCAAAATCGCCAGAGCCTGCATGGCCTGCTGACCCCGCTGCGCGAACAGCTGGACGGGTTCCGCCGCCAGGTGCAGGAGAGCTTCGGCCAGGAGGCGCGGGAAAGGCACACCCTGGCGCATGAGATCCGCAACCTGCAGCAGCTGAACGCGCAGATGGCGCAGGAGGCGCTGAACCTGACCAAAGCGCTGAAGGGCGATAACAAAACTCAGGGCAACTGGGGGGAAGTGGTTCTCACCCGCGTGCTGGAAGCCTCCGGCCTGCGGGAAGGCTATGAGTACCAGACCCAGGTCAGCATCGAGACCGACAACCGCTCGCGGATGCAGCCGGACGTCATCGTGCGCCTGCCGCAGGGTAAAGACGTGGTTATCGACGCCAAAATGACCCTTGTCGCCTATGAGCGCTATTTCAACGCCGAGGATGACTACACCCGCGAAGTCGCGCTGCAGGAGCACCTTGCCTCGGTGCGTAATCATATTCGCCTGCTGGGACGCAAGGATTATCAGCAACTGCCGGGCCTGCGCTCCCTCGACTATGTGCTGATGTTTATTCCCGTCGAGCCGGCATTCTTGCTGGCCATTGATCGCCAGCCCGAGCTTATCAGCGAGGCGCTGCAAAATAATATTATGCTGGTCAGCCCGACGACGCTGCTGGTGGCCCTGCGCACCATCGCCAATCTGTGGCGTTATGAGCACCAGAGCCGCAACGCGCAGAAGATCGCCGAGCGGGCGGGGCGCCTTTACGACAAAATGCGCCTGTTTGTGGACGATATGTCCGCTATCGGCCAGAGTCTGGATAAAGCGCAAGAGAACTATCGCCAGGCGATGAAAAAGCTCGCTTCCGGGCGCGGTAATCTGCTGGCTCAGGCGGAGGCTTTTCGCGGGTTGGGCGTGGAGGTCAAGCGCGGGATTAATCCTGATTTAGTCGAACAAGCCACTGCTCAGGACGATCAATATCGTCTCGAAGAGGAGGATAACCTGCCGGAAAATGACGCATTTTCGCCCGACTCTGCCGAGGCGGTGCGCAGCCGGGAGGCGGCTCCGCCACGCTGA	MDLSIIISAVIALAAGLIVGWLATKARADQIRADLIEERRELDIELSAARQQLVQEAHWREECELLNNELRSLRDINTSLEADLREVTTRLESTQLHAEDKIRQMVNSEQRLSEQFENLANRIFEHSNRRVDEQNRQSLHGLLTPLREQLDGFRRQVQESFGQEARERHTLAHEIRNLQQLNAQMAQEALNLTKALKGDNKTQGNWGEVVLTRVLEASGLREGYEYQTQVSIETDNRSRMQPDVIVRLPQGKDVVIDAKMTLVAYERYFNAEDDYTREVALQEHLASVRNHIRLLGRKDYQQLPGLRSLDYVLMFIPVEPAFLLAIDRQPELISEALQNNIMLVSPTTLLVALRTIANLWRYEHQSRNAQKIAERAGRLYDKMRLFVDDMSAIGQSLDKAQENYRQAMKKLASGRGNLLAQAEAFRGLGVEVKRGINPDLVEQATAQDDQYRLEEEDNLPENDAFSPDSAEAVRSREAAPPR				NA	NA	NA	NA	NA
BMS020_07502	762	udp	COG2820	Uridine phosphorylase	ATGTCCAAGTCTGATGTTTTTCATCTCGGCCTCACCAAGAACGATTTACAAGGGGCTACGCTGGCTATCGTCCCTGGCGATCCGGAGCGTGTGGAAAAGATCGCCGCGCTGATGGATAAGCCGGTTAAGCTGGCATCTCACCGCGAATTTACCTCCTGGCGCGCGGAACTGGACGGCAAACCGGTGATCGTCTGCTCCACCGGCATCGGCGGCCCGTCTACGTCTATCGCTGTGGAAGAGCTGGCGCAGCTTGGCGTGCGTACCTTCCTGCGCATTGGCACCACCGGCGCCATTCAGCCGCACATCAACGTTGGCGATGTGCTGGTGACTACCGCTTCCGTTCGTCTGGACGGCGCCAGCCTGCACTTCGCGCCGATGGAATTCCCGGCCGTCGCAGATTTCGCCTGCACCACCGCGCTGGTGGAAGCAGCGAAATCCATTGGCGCCACCACCCATATCGGCGTGACTGCTTCCTCGGATACCTTCTACCCGGGACAGGAGCGTTACGACACCTTCTCCGGCCGCGTAGTGAGCCGCTTCAAAGGCTCCATGGAAGAGTGGCAGGCGATGGGCGTGATGAACTATGAAATGGAATCCGCTACGCTGCTGACCATGTGCGCCAGCCAGGGCCTGCGCGCCGGGATGGTGGCCGGGGTTATCGTTAACCGTACCCAGCAAGAGATCCCTAACGCCGAAACCATGAAGCAAACCGAAAGCCACGCGGTGAAAATCGTCGTGGAAGCGGCGCGCCGTCTGCTGTAA	MSKSDVFHLGLTKNDLQGATLAIVPGDPERVEKIAALMDKPVKLASHREFTSWRAELDGKPVIVCSTGIGGPSTSIAVEELAQLGVRTFLRIGTTGAIQPHINVGDVLVTTASVRLDGASLHFAPMEFPAVADFACTTALVEAAKSIGATTHIGVTASSDTFYPGQERYDTFSGRVVSRFKGSMEEWQAMGVMNYEMESATLLTMCASQGLRAGMVAGVIVNRTQQEIPNAETMKQTESHAVKIVVEAARRLL	PGPT0021235_793	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021235-udp-K00757	NA	NA
BMS020_07503	813	clcD_1		Carboxymethylenebutenolidase	ATGACCACCACCAAGCAACCTGGATTCGCACCTGCAGCCTCGCCGCATGCCGCAACCGCCGTTCATACGCCGGAAGAGCATATTGTCGCCGGAGAGACCTCTATTCCCTCTCAGGGGGAAAACATGCCGGCTTACCATGCCCGCCCGAAAAACGCCGATGGCCCATTGCCGATCGTCATCGTGGTGCAGGAAATCTTCGGCGTGCATGAGCATATTCGCGATCTTTGTCGTCGCCTGGCGCAGGAAGGCTATCTGGCTATCGCGCCTGAATTGTACTTCCGTCAGGGCGATCCGAATGAGTATCACGATATCCCGACCCTGTTTAAAGAGCTGGTTACGAAGGTGCCGGACGCGCAGGTGCTGGCGGATCTCGACCACGTCGCCAGCTGGGCGGCGCGCCATGGCGGCGATGCCCATCGTCTGCTGATCACCGGCTTCTGCTGGGGCGGACGTATCACCTGGCTATATGCTGCCCATAACCCGCAGTTGAAGGCGGCGGTAGCCTGGTACGGCAAACTGGTAGGAGAAAAATCGCTGAATTCGCCAAAACACCCGGTGGATATCGCCGTCGATCTTAACGCCCCGGTACTCGGCCTGTACGGCGCTAAAGACGCCAGCATTCCACAGGACACCGTCGAAACCATGCGCCAGGCGCTGCGGGCGGCCAACGCCACGGCGGAAATCGTGGTCTATCCTGAAGCCGATCACGCCTTTAACGCCGACTATCGCGCCAGCTATCATGAAGAGTCAGCCAAAGACGGCTGGCAGCGGATGCTCGACTGGTTTGCTCAATATGGCGGTAAAAAAGGGTAA	MTTTKQPGFAPAASPHAATAVHTPEEHIVAGETSIPSQGENMPAYHARPKNADGPLPIVIVVQEIFGVHEHIRDLCRRLAQEGYLAIAPELYFRQGDPNEYHDIPTLFKELVTKVPDAQVLADLDHVASWAARHGGDAHRLLITGFCWGGRITWLYAAHNPQLKAAVAWYGKLVGEKSLNSPKHPVDIAVDLNAPVLGLYGAKDASIPQDTVETMRQALRAANATAEIVVYPEADHAFNADYRASYHEESAKDGWQRMLDWFAQYGGKKG	PGPT0005685_2089	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_CHLOROBENZENE_DEGRADATION,PGPT0005685-catA-K01061	NA	NA
BMS020_07504	2265	metE_1	COG0620	5-methyltetrahydropteroyltriglutamate--homocysteine methyltransferase	ATGACAATTATTAACCACACCCTCGGTTTTCCTCGCGTTGGCCTGCGCCGCGAGCTGAAAAAAGCGCAAGAGAGCTACTGGGCGGGCAATGCCACTCGCGAGGAGCTGCTGGCGGTAGGCCGGGAACTGCGCGCCCGTCACTGGGAGCAGCAGAAGCAGGCCGGTATTGACCTGCTGCCGGTGGGCGATTTCGCCTGGTACGACCATGTTCTGACCACCAGCCTGCTGCTTGGCAACGTGCCGGCTCGTCATCAGAACAAAGACGGCTCTGTCGATATCGATACCCTGTTCCGCATTGGCCGCGGCCGCGCTCCCACCGGCGAGCCAGCGGCCGCTGCGGAAATGACCAAGTGGTTCAACACCAACTATCACTACATGGTGCCAGAGTTCGTGAAGGGCCAGCAGTTCAAACTGACCTGGACCCAACTGCTGGATGAAGTGGACGAAGCGTTGGCGCTGGGCCACAAGATCAAGCCCGTGCTGCTGGGGCCGGTGACCTATCTGTGGCTGGGCAAAGTGAAAGGCGAACCGTTTGACCGTCTGAGCCTGCTGAATGACATCCTGCCGGTTTATCAGCAGGTGCTGGCCGAACTGGCGAAGCGCGGCATTGAGTGGGTGCAGATTGATGAACCGGCGCTGGTGCTGGAGCTGCCGCCAGCGTGGCTGGAGGCCTTTAAACCGGCTTATGACGCCCTGCAGGGCCAGGTCAAACTGCTGCTGACCACCTATTTTGAAGGCGTTAGCGACAATCTCGAGACCATTGCTGCGCTGCCGGTCCAGGGGCTGCACGTCGATCTGGTCCACGGTAAAGATGATGTCGCCGAACTGCATAAATGTCTGCCTGCCGACTGGCTGCTGTCCGCCGGCCTGATCAACGGGCGTAACGTCTGGCGCGCCGATCTCGCCGAAAAATATGCGCAAATTAAAGACCTCGTCGGTAAGCGCGAGCTGTGGGTCGCGACATCCTGCTCTCTGTTGCACAGCCCGATCGACCTGAGCGCGGAGACGCGCCTTGATGCGGAAGTGAAGAGCTGGTTTGCCTTCGCGCTGCAAAAATGCGGTGAGCTGGCGCTGCTGCGCGATGCGCTGAACAGCGGCGATACCGCGGCGATTACCGAGTGGAGCGCGCCAGTCCATGCCCGTCGCCATTCGACGCGCGTACACAACCCGGCGGTGGAAAAACGGCTGGCGGCGATCACCGCTCAGGACAGCCAGCGCGCCAGCCCCTATGAGGTTCGCGCTCAGGCGCAGCGTCAACGCTTTAACCTGCCGGCGTGGCCGACCACCACTATCGGGTCATTCCCGCAGACGACCGAGATCCGCGGCCTGCGCCTGGACTTCAAAAAGGGCAATCTGGACGCCAGTCATTATCGTACCGGCATTGCGGAACATATTAAGCAGGCGATCGTCGAGCAGGAGCGGTTAGGATTAGACGTGCTGGTGCACGGGGAAGCCGAGCGGAACGATATGGTGGAATACTTCGGTGAGCATCTGGACGGTTTCATCTTCACGCAAAACGGCTGGGTGCAGAGTTATGGCTCCCGCTGCGTGAAGCCGCCGGTGGTGATCGGCGACGTCAGCCGTCCACAGGCGATCACCGTCGAATGGGCGAAGTACGCGCAGTCGCTGACCGACAAGCCGGTGAAAGGGATGCTCACTGGACCGGTGACGATTCTGTGCTGGTCCTTCCCGCGGGAAGACGTCAGCCGTGAAACCATCGCGAAACAGATTGCGCTGGCCCTGCGTGATGAAGTGGCGGATCTGCAAGCGGCCGGTATCGGCATCATCCAGATTGATGAGCCTGCTTTGCGCGAAGGGTTACCGCTGAAGCGCAGCGATTGGGATGCCTATCTGCAGTGGGGTGTGGAAGCCTTCCGCCTTAACGCCGCGGTGGCCAAAGACGACACTCAGATCCATACCCACATGTGCTATTGTGAGTTCAACGACATCATGGACTCCATCGCCGCGCTGGACGCCGACGTGATCACCATTGAAACCTCGCGTTCAGACATGGAACTGCTGGAGTCGTTCGAAGTGTTCGAGTATCCCAATGAAATCGGGCCGGGGGTATATGATATTCACTCGCCAAACGTACCGAGCGTGGAGTGGATCGAAGCGCTGCTGGAAAAAGCCGCGCAGCGTATCCCGGCGGAGCGGCTGTGGGTTAACCCGGACTGCGGCCTGAAAACCCGGGGCTGGCCGGAGACTCGCGCCGCGCTGGCGAATATGGTGCAAGCGGCGCGTAACCTGCGTCAATCTGCCTGA	MTIINHTLGFPRVGLRRELKKAQESYWAGNATREELLAVGRELRARHWEQQKQAGIDLLPVGDFAWYDHVLTTSLLLGNVPARHQNKDGSVDIDTLFRIGRGRAPTGEPAAAAEMTKWFNTNYHYMVPEFVKGQQFKLTWTQLLDEVDEALALGHKIKPVLLGPVTYLWLGKVKGEPFDRLSLLNDILPVYQQVLAELAKRGIEWVQIDEPALVLELPPAWLEAFKPAYDALQGQVKLLLTTYFEGVSDNLETIAALPVQGLHVDLVHGKDDVAELHKCLPADWLLSAGLINGRNVWRADLAEKYAQIKDLVGKRELWVATSCSLLHSPIDLSAETRLDAEVKSWFAFALQKCGELALLRDALNSGDTAAITEWSAPVHARRHSTRVHNPAVEKRLAAITAQDSQRASPYEVRAQAQRQRFNLPAWPTTTIGSFPQTTEIRGLRLDFKKGNLDASHYRTGIAEHIKQAIVEQERLGLDVLVHGEAERNDMVEYFGEHLDGFIFTQNGWVQSYGSRCVKPPVVIGDVSRPQAITVEWAKYAQSLTDKPVKGMLTGPVTILCWSFPREDVSRETIAKQIALALRDEVADLQAAGIGIIQIDEPALREGLPLKRSDWDAYLQWGVEAFRLNAAVAKDDTQIHTHMCYCEFNDIMDSIAALDADVITIETSRSDMELLESFEVFEYPNEIGPGVYDIHSPNVPSVEWIEALLEKAAQRIPAERLWVNPDCGLKTRGWPETRAALANMVQAARNLRQSA				NA	NA	NA	NA	NA
BMS020_07505	954	metR_2		HTH-type transcriptional regulator MetR	ATGATCGAAATTAAACATCTGAAAACGCTGCAAGCGTTGCGGAACAGCGGTTCACTGGCGGGCGCAGCGGCTGCCCTGCATCAGACCCAGTCCGCCTTGTCTCACCAGTTCAGCGATCTGGAACAGCGCCTCGGCTTTCGTCTCTTTGTGCGTAAGAGCCAGCCGCTGCGTTTTACTCCTCAAGGGGAGATCCTCTTACAGCTGGCCAACCAGGTGCTGCCGCAGATCGCTCGCGCCCTGCAGGACTGTAACGAACCACAACAGACCCGGCTGCGGCTGGCTATCGAATGCCACAGTTGTATTCAGTGGCTCACGCCGGCGCTGGAGAATTTCCGCGCCCGCTGGCCGCACGTGGAAGTCGACTTCCATTCCGGCGTCACCTTCGACCCGCAGCCTGCGCTGCAGCAGGGCGAACTGGATCTGGTCATGACATCTGATATCCTGCCGCGCAGCGGTCTGCACTACTCGCCAATGTTTGATTATGAGGTGCGCCTGGTGCTGGCGCCTGAGCACCCGTTAGCCATGAAGACGCTGATTACGCCGGAGGATCTGGCCACAGAAACGCTGCTGATTTATCCCGTGCAGCGCGGACGCCTCGACATCTGGCGTCATTTCCTGCAGCCGGCCGGCATCAGTCCTCAGCTGAAAAGCGTCGATAACACGCTGTTGCTGATCCAGATGGTGGCTGCCCGGATGGGTATCGCCGCGCTGCCGCACTGGGTGGTGGAAAGTTTTGAACGCCAGGGTCTGGTGGTGACCAAAACCCTGGGCGAGGGATTATGGAGCCGGCTGTACGCGGCCGTTCGCGATGGCGAACAGCGTCAACCGGTCACCGAAGCGTTTATTCGCTCTGCGCGGAACCACGCGTGCGATCATCTGCCGTTTGTCCGGAGTGCGGAGCGACCCAGCGTCGATGGACCCACAGCGAGGCCAGGATCACCAACGCTCCGCTAA	MIEIKHLKTLQALRNSGSLAGAAAALHQTQSALSHQFSDLEQRLGFRLFVRKSQPLRFTPQGEILLQLANQVLPQIARALQDCNEPQQTRLRLAIECHSCIQWLTPALENFRARWPHVEVDFHSGVTFDPQPALQQGELDLVMTSDILPRSGLHYSPMFDYEVRLVLAPEHPLAMKTLITPEDLATETLLIYPVQRGRLDIWRHFLQPAGISPQLKSVDNTLLLIQMVAARMGIAALPHWVVESFERQGLVVTKTLGEGLWSRLYAAVRDGEQRQPVTEAFIRSARNHACDHLPFVRSAERPSVDGPTARPGSPTLR				NA	NA	NA	NA	NA
BMS020_07506	900	bioP	COG0697	Biotin transporter	GTGGCGCTGTTAATTATCACCACTATCCTGTGGGCCTTTTCTTTCAGCCTGATTGGCGAGTACCTGGCCGGTAGCGTCGACAGCTATTTTTCGGTGCTGATGCGCGTGGGCCTGGCGGCGCTGGTGTTCCTGCCTTTCCTGCGGACGCGCGGCCAGTCTCCGCGCACGATCGTGCTCTATATGCTGGTGGGCGCGATGCAGCTTGGCATCATGTACCTGCTGGCCTTTCGCGCCTATCTCTATCTGACGGTCTCGGAATTCCTGCTGTTTACCGTGTTTACCCCGTTGTATATCACGCTGATCTACGATTTGCTCAGCGGACGTAAACTACGCTGGGGCTATCTGCTGAGCGCCGCGCTGGCGGTGCTGGGGGCGGCGATTATCCGTTACGACAAAGTCAGCGATCATTTCTGGACCGGGCTGTTACTGGTGCAGTTGTCAAACCTCTGCTTCGCCATCGGGATGGTGGGTTACAAGCGCCTGATGGAGGTGCGACCGATGCCGCAGCACAATGCCTTTGCCTGGTTCTATGTCGGGGCCTTTATCGTGGCGGTGGCGGCATGGTTTATGCTGGGCAACCCACAGAAGCTGCCGACCACCAGGCTGCAGTGGAGCGTGCTGGTGTGGCTTGGCGTCGTGGCTTCCGGGCTGGGCTACTTTATGTGGAACTATGGCGCCACTCAGGTGGATGCCGGCACGCTGGGGATCATGAATAACGTCCATGTCCCCGCCGGGCTGTTGGTTAACCTTGCCATCTGGCAGGAGCAGCCGCACTGGCCGAGCTTTATTAGCGGAGCGTTGGTGATCCTGGCCTCGCTGTGGGTCCATCGACGCTGGGTCGCTCCGCACTCCGGACAAACGGCAGATGATCGCACGCGTGGTTCCGCGCAGAGCGAATAA	MALLIITTILWAFSFSLIGEYLAGSVDSYFSVLMRVGLAALVFLPFLRTRGQSPRTIVLYMLVGAMQLGIMYLLAFRAYLYLTVSEFLLFTVFTPLYITLIYDLLSGRKLRWGYLLSAALAVLGAAIIRYDKVSDHFWTGLLLVQLSNLCFAIGMVGYKRLMEVRPMPQHNAFAWFYVGAFIVAVAAWFMLGNPQKLPTTRLQWSVLVWLGVVASGLGYFMWNYGATQVDAGTLGIMNNVHVPAGLLVNLAIWQEQPHWPSFISGALVILASLWVHRRWVAPHSGQTADDRTRGSAQSE				NA	NA	NA	NA	NA
BMS020_07507	801	yigL	COG0561	Pyridoxal phosphate phosphatase YigL	ATGTACCAGGTTGTTGCGTCTGATTTAGACGGCACGCTGCTTTCCCCCGATCATTTCCTGACCCCGTATGCCAAAGAGACGCTGAAGCTGCTTACCGCCCGTGGGATCAATTTCGTCTTCGCCACCGGCCGACACTACATCGACGTCGGGCAGATCCGCGATAATCTCGGCATCCGGTCGTACATGATCACCTCTAACGGCGCCCGCGTTCACGATAGCGATGGCCAGCAAATTTTCGCCCATAACCTCGACCGCGATATTGCCGCCGACCTGTTTGAAATCGTGCGCAACGACCCGAAAATTGTCACTAACGTCTATCGGGAAGATGAGTGGTATATGAACCGCCATCGCCCGGAAGAGATGCGCTTTTTCAAAGAGGCGGTGTTTAACTACAAGCTGTATGAGCCGGGCGAACTGGATCCGCAGGGGATCAGCAAGGTGTTCTTTACCTGTGAGGATCACGAACATCTACTGCCGCTTGAGCAGGCGATGAACGCCCGCTGGGGCGATCGCGTGAACGTCAGCTTCTCCACCTTAACCTGCCTGGAGGTGATGGCGGGCGGGGTATCGAAGGGGCATGCGCTGGAGGCGGTGGCGAAAATGCTCGGCTACAGTCTGTCCGATTGCATCGCTTTCGGCGACGGTATGAACGACGCCGAGATGCTGTCGATGGCCGGTAAAGGCTGCATTATGGCCAACGCCCACCAGCGGCTGAAGGATCTGCATCCGGAGCTGGAAGTGATCGGCAGCAACGCCGACGATGCGGTCCCGCACTATCTGCGTAAGCTGTACCTCGACTGA	MYQVVASDLDGTLLSPDHFLTPYAKETLKLLTARGINFVFATGRHYIDVGQIRDNLGIRSYMITSNGARVHDSDGQQIFAHNLDRDIAADLFEIVRNDPKIVTNVYREDEWYMNRHRPEEMRFFKEAVFNYKLYEPGELDPQGISKVFFTCEDHEHLLPLEQAMNARWGDRVNVSFSTLTCLEVMAGGVSKGHALEAVAKMLGYSLSDCIAFGDGMNDAEMLSMAGKGCIMANAHQRLKDLHPELEVIGSNADDAVPHYLRKLYLD	PGPT0017726_143	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017726-yigL-NA	NA	NA
BMS020_07508	993	pldB	COG2267	Lysophospholipase L2	ATGTTTGGGCAGAAAAAGGACTGGGAAACACGAGAAAACGCGTTTGCGGCCTTTAGCATGGGGCCGCTGACGGATTTCTGGCGACAGCGCGAAGAGGCTGAATTTAAAGGCGTCGATGATGTACCGGTACGCTTTGTTCGCTTTTGCGCGCAAAATAACGATCGGCTGGTGCTGATTTGCCCCGGGCGCATTGAAAGCTACGTGAAGTATGCTGAAGTGGCCTACGATCTCTTTCACAGCGGCTTTGACGTAATGATCATTGATCATCGCGGCCAGGGACGCTCGGGTCGTCTGCTCTCTGATACCCACCGCGGGCACGTGGTTAACTTCAGCGATTATGTTGATGACCTGGCTGCGCTCTGGCAGCAGCAGGTGGTCCCGGGCCACTGGCGAAAACGGTTTATCCTCGCTCACTCTATGGGCGGGGCGATTGCCACGCTTTTTCTGCAACGCTACCAGGCGCATTGCGATGCCATTGCGCTCTGCGCGCCGATGTTCGGGATTATCATTCGGCTGCCGGACTGGATGGTGCGGCATATTCTCGACTGGGCTGAGGGCCATCAGCGCATTCGCGAAGAGTATGCCATCGGCACCGGACGCTGGCGGGCGCTGCCTTTTGCCGTTAACGTGCTGACGCACAGTCGACAACGCTATCGTCGTAACCTGCGCTTCTATGCCGACGAGCCGCGACTGCAGGTCGGCGGCCCGACCTGGCACTGGGTGCGCGAAGGCATGCTGGCCGGTGACGAAGTGCTGGCGAATGTGGAGAAAGATACGGCCCCGACGCTGCTGCTGCAGGCGGAAGAGGAGCGAGTGGTCGATAATCTGATGCACGACCGCTATTGTGAATTACGGGCCGCCGCCGGCCATCCCTGTGAGGGCGGAAAGCCGCTCGTCATTGAAGGGGCATACCATGAGATCCTTTTTGAAAAGGACGCTATGCGCTCAGTCGCGCTCAATGCCATCGTCGAGTTTTTCAATCGACATACTTAA	MFGQKKDWETRENAFAAFSMGPLTDFWRQREEAEFKGVDDVPVRFVRFCAQNNDRLVLICPGRIESYVKYAEVAYDLFHSGFDVMIIDHRGQGRSGRLLSDTHRGHVVNFSDYVDDLAALWQQQVVPGHWRKRFILAHSMGGAIATLFLQRYQAHCDAIALCAPMFGIIIRLPDWMVRHILDWAEGHQRIREEYAIGTGRWRALPFAVNVLTHSRQRYRRNLRFYADEPRLQVGGPTWHWVREGMLAGDEVLANVEKDTAPTLLLQAEEERVVDNLMHDRYCELRAAAGHPCEGGKPLVIEGAYHEILFEKDAMRSVALNAIVEFFNRHT	PGPT0023520_419	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_LYSOPHOSPHOLIPASE_ACTIVITY,PGPT0023520-pldB-K01048	NA	NA
BMS020_07509	621	rhtB_2	COG1280	Homoserine/homoserine lactone efflux protein	ATGACCATTGAGTGGTGGTTCGCCTACCTGCTGACATCAATCATTCTCAGCCTGTCCCCGGGTTCCGGAGCGATTAATACCATGACCACCTCCATTAACCACGGTTACCGCGGCGCGGCGGCGTCGATTGCCGGTTTGCAGACCGGGCTGGCCATTCATATCGTGCTGGTCGGCGTCGGCCTCGGCACTCTCTTCTCTCGCTCGGTGCTGGCCTTTGAGGTGCTGAAATGGGCCGGCGCAGCCTACCTGATCTGGCTGGGTATCCAGCAATGGCGCGCGGCAGGGGCCATCGACCTGAATACGCTGGCGAAGGCGCAGACCCGCGGCAAACTGTTCCAGCGGGCGGTGTTCGTGAATCTCACCAATCCTAAAAGCATCGTTTTTCTGGCCGCCCTGTTTCCACAGTTTATCCTGCCCCACCAGCCCCAGGTGATGCAGTATCTCGTTCTGGGCGTCACCACCATCGTCGTCGATATCATTGTGATGATTGGCTATGCAACCCTCGCACAGCGCATTTCAGCATGGATTAAGGGGCCAAAGCAGATGAAGGCGCTGAACAAAGTCTTTGGTTCACTGTTTATGCTGGTTGGGGCGCTGCTTGCCTCCGCCCGTCACGCCTGA	MTIEWWFAYLLTSIILSLSPGSGAINTMTTSINHGYRGAAASIAGLQTGLAIHIVLVGVGLGTLFSRSVLAFEVLKWAGAAYLIWLGIQQWRAAGAIDLNTLAKAQTRGKLFQRAVFVNLTNPKSIVFLAALFPQFILPHQPQVMQYLVLGVTTIVVDIIVMIGYATLAQRISAWIKGPKQMKALNKVFGSLFMLVGALLASARHA	PGPT0021036_861	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_RELATED_GENES	CE-QSR-PUTATIVE_TRANSPORTER,PGPT0021036-rhtB-K05834	NA	NA
BMS020_07510	933			ISNCY family transposase ISSen7	ATGGCAGAAACGGCGACCCCACATGATGCGGTATTTAAAACTTTTCTGTCGCGGGCAGAGACAGCGCGCGATTTTATCGAGATCCACCTGCCACCGTCGTTAACAGCGATCTGCAAACTGGATACCCTGCGTCTGGAATCCGGCAGCTTTCTTGAAGACGATCTCAGGCCCTACTACAGCGATATTCTCTATTCGCTGGAAACCACCCGCGGTAAAGGGTATGTCCATGTTCTGATCGAGCACCAGAGCGCCCCCGATAAACTGATGGCATTTCGCTTAATGCGCTATGCCGTCGCCGCCATGCAGCGCCATCTGGAGAGCGGCCATAAAACGCTGCCTCTGGTTATTCCGGTCCTCTTCTATCAGGGACGACGCAGCCCCTATCCCTGGTCTATGAGCTGGCTGGATAATTTCGCCGATCCCGAGACCGCCCGCCAGCTCTATAGCGGGGCGTTTCCGCTGGTCGATATCACGGTGATCCCCGACGACGACATTATGCAGCACCGCAGCATGGCGGCCCTGACGCTGGTGCAAAAACACATCCGCCAGCGCGATATGGCGCAATTGCTGGATAAGTTGACCCAACTCTTAATGCTGGAGCAGATGAGCGGACAACAAATCACCGTATTGGTAAACTATATGGCTCAGGCAGGGGATGCCGAGGATACTCGGGCACTCTTATACGGGCTGGCACAGCGCGTGCCGCAGCATGGAGGATTACTGATGACGCTGGCGGAAACATGGCTCGCAGAAGGTATGGAAAAAGGCATCAGGAAAGGCGTACAGCAAGGCATAAAGGAAGGTATAAAGGAAGGCAAACATCAGGCCTTGCTGCAGGTTGCCGAAGCGATGCGCAAACGCGGGATCGATGACGAAGCGATTATGGAAATGACCGGTCTGTCTGAAGACGAGCTGCAGCGACTTCGCTATTGA	MAETATPHDAVFKTFLSRAETARDFIEIHLPPSLTAICKLDTLRLESGSFLEDDLRPYYSDILYSLETTRGKGYVHVLIEHQSAPDKLMAFRLMRYAVAAMQRHLESGHKTLPLVIPVLFYQGRRSPYPWSMSWLDNFADPETARQLYSGAFPLVDITVIPDDDIMQHRSMAALTLVQKHIRQRDMAQLLDKLTQLLMLEQMSGQQITVLVNYMAQAGDAEDTRALLYGLAQRVPQHGGLLMTLAETWLAEGMEKGIRKGVQQGIKEGIKEGKHQALLQVAEAMRKRGIDDEAIMEMTGLSEDELQRLRY				NA	NA	NA	NA	NA
BMS020_07511	621	rhtC_3	COG1280	Threonine efflux protein	ATGCTGATGCTTTTCCTCACCGTGGCGCTGGTGCATATCATTGCGCTAATGAGCCCGGGGCCGGATTTTTTCTTTGTCTCACAAACGGCCATCAGCCGCTCGCGCAGAGAGGCGATGATGGGCGTACTGGGGATCACCTGCGGCGTAATGATCTGGGCGGGGGTTGCGCTGCTCGGCCTGAACCTGATCCTCGCCAGAATGGCATGGCTGCACAACATCATTATGATCGGCGGTGGCTTGTACCTGTGCTGGATGGGCTATCAGATGTTGCGCGGCGCGTTGAAAAAAGAGGCGGTGTCCCCGGCAGAACCGCAGGTTGAACTGGCCCACAGCGGACGCAGCTTCCTGAAGGGATTGCTGACCAATCTGGCGAACCCGAAAGCGATTATCTACTTCGGCTCGGTGTTCTCGCTGTTCGTCGGTGACAGCGTTGGCGCCGGCGCGCGCTGGGGCATTTTTCTGCTGATTATCATGGAGACGCTGGCCTGGTTTTTGGTGGTTGCCAGCCTGTTCGCCCTGCCGGGGATGCGCCGCGGCTATCAGCGGATGGCGAAGTGGATCGACGGTATCGCCGGCACGCTGTTTGCGGGCTTCGGCATCCACCTGATTATCTCGCGTTAA	MLMLFLTVALVHIIALMSPGPDFFFVSQTAISRSRREAMMGVLGITCGVMIWAGVALLGLNLILARMAWLHNIIMIGGGLYLCWMGYQMLRGALKKEAVSPAEPQVELAHSGRSFLKGLLTNLANPKAIIYFGSVFSLFVGDSVGAGARWGIFLLIIMETLAWFLVVASLFALPGMRRGYQRMAKWIDGIAGTLFAGFGIHLIISR				NA	NA	NA	NA	NA
BMS020_07512	1827	recQ_2	COG0514	ATP-dependent DNA helicase RecQ	GTGGCACAGGCGGAAGTATTAAATCAGGAATCGCTGGCTAAGCAGGTTTTACAAGAGACCTTCGGCTACCAGCAGTTCCGTCCTGGCCAGGAGACGATTATCGAGACGGCGCTCGAGGGCCGTGACTGCCTGGTGGTTATGCCGACCGGTGGCGGCAAGTCGCTGTGTTATCAGGTACCGGCGCTGGTCATGGGCGGCCTGACGGTCGTGGTCTCGCCGCTGATCTCGCTGATGAAAGATCAGGTCGATCAGCTGCTGGCCAACGGCGTGGCGGCGGCCTGTCTGAACTCGACGCAGAGCCGCGAACAGCAGCAGGACGTGATGGCCGGCTGCCGCAGCGGGCAGGTTCGTCTGCTGTATATCGCCCCGGAACGGTTGATGCTCGACAACTTCCTTGAGCATCTGGCGAACTGGAATCTGGCGATGCTGGCGGTGGACGAAGCGCACTGCATCTCCCAGTGGGGCCATGACTTCCGCCCGGAATATGCCGCGCTGGGCCAGCTGCGTCAGCGGATGCCGCAGATCCCGTTTATGGCGTTGACCGCCACCGCCGATGACACCACCCGCCGCGATATCGTCCGTCTGCTGGGACTTAACGATCCGCTGATTCAGGTCAGCAGCTTCGACCGGCCGAACATCCGCTATATGCTGATGGAGAAATTCAAGCCGCTCGACCAGCTGATGCGCTACGTCCAGGATCAGCGAGGCAAATCGGGCATTATCTACTGCAACAGCCGTTCGAAAGTGGAAGATACCGCCGCGCGTCTGCAGAGCCGCGGCATCAGCGCGGCGGCTTACCATGCCGGCCTGGAAAACGACGTGCGCGCCGACGTGCAGGAGAAATTCCAGCGCGACGATCTGCAGATTGTGGTGGCGACAGTGGCCTTTGGGATGGGCATCAACAAGCCGAACGTCCGCTTTGTGGTGCATTTTGATATCCCGCGAAATATTGAATCCTACTATCAGGAGACCGGCCGCGCCGGGCGTGACGGCCTGCCGGCGGAAGCGATGCTGTTTTACGATCCGGCGGACATGGCGTGGCTGCGTCGCTGTCTGGAAGAGAAGCCCGCCGGACCGCTGCAGGATATCGAACGGCATAAGCTGAACGCGATGGGGGCGTTTGCTGAAGCCCAGACCTGTCGTCGTCTGGTGCTGCTGAACTACTTTGGCGAAGGACGCCAGGAGCCGTGCGGTAACTGCGATATCTGTCTCGATCCGCCGAAGCAGTATGATGGCTTAATGGACGCCCGCAAGGCGCTCTCCACTATTTATCGGGTTAACCAGCGCTTCGGGATGGGTTACGTGGTGGAAGTCCTGCGTGGCGCCAACAATCAGCGCATCCGCGAGATGGGCCACGATAAGCTCCCGGTATACGGCATCGGCCGGGAACAGAGTCACGAGCACTGGGTGAGCGTGATCCGCCAACTGATTCACCTTGGGCTGGTGACGCAGAATATCGCCCAGCACTCCGCGCTGCAGCTGACCGAAGCCGCACGCCCGGTGCTGCGCGGCGACGTTCCGCTGCAGCTTGCCGTACCGCGTATCGTGGCGCTGAAGCCGAAGGCGATGCAGAAATCCTTCGGCGGTAATTACGATCGTAAGTTGTTTGCCAAGCTGCGCAAGTTACGTAAAGCGATTGCCGATGAAGAAAACATTCCCCCGTACGTGGTCTTCAACGACGCGACGCTGATTGAGATGGCGGAGCAGTCGCCGCTAACCGCTGGCGAAATGCTCAGCGTCAACGGCGTAGGGACACGTAAACTCGAGCGTTTCGGCAAGCCGTTTATGGCGCTGATCCGGTCGCATGTCGATGGCGACGATGAGTAG	MAQAEVLNQESLAKQVLQETFGYQQFRPGQETIIETALEGRDCLVVMPTGGGKSLCYQVPALVMGGLTVVVSPLISLMKDQVDQLLANGVAAACLNSTQSREQQQDVMAGCRSGQVRLLYIAPERLMLDNFLEHLANWNLAMLAVDEAHCISQWGHDFRPEYAALGQLRQRMPQIPFMALTATADDTTRRDIVRLLGLNDPLIQVSSFDRPNIRYMLMEKFKPLDQLMRYVQDQRGKSGIIYCNSRSKVEDTAARLQSRGISAAAYHAGLENDVRADVQEKFQRDDLQIVVATVAFGMGINKPNVRFVVHFDIPRNIESYYQETGRAGRDGLPAEAMLFYDPADMAWLRRCLEEKPAGPLQDIERHKLNAMGAFAEAQTCRRLVLLNYFGEGRQEPCGNCDICLDPPKQYDGLMDARKALSTIYRVNQRFGMGYVVEVLRGANNQRIREMGHDKLPVYGIGREQSHEHWVSVIRQLIHLGLVTQNIAQHSALQLTEAARPVLRGDVPLQLAVPRIVALKPKAMQKSFGGNYDRKLFAKLRKLRKAIADEENIPPYVVFNDATLIEMAEQSPLTAGEMLSVNGVGTRKLERFGKPFMALIRSHVDGDDE				NA	NA	NA	NA	NA
BMS020_07513	861	pldA	COG2829	Phospholipase A1	ATGCGTATCTCTTTGGCCTGCCTGGCGGCGCTGTGCGCGCTACCGGCTGGTGTTATGGCGCAGGATGCGTCGGTACACGACAAACCAGCAGTGCGCGGCAGTATTATCGCCAACCTGCTACAGGATCATGATAATCCTTTTCTGCTCTACCCTTATGAAAGCAACTATCTGCTCTACACGTGGACCAGCGATCTCAATAAAGAGGCGATTCGCAGCTATGACTGGGCCGAAAATGCCCGTAAAGATGAAGTGAAGTTTCAGCTGAGCCTCGCCTTCCCGCTGTGGCGCGGCATCCTGGGGGATAATTCGCTGCTCGGCGCGTCCTATACCCAGAAATCCTGGTGGCAGCTCTCCAACAGCAAAGAGTCGGCGCCGTTTCGCGAAACCAACTACGAACCCCAGCTGTTTCTTGGCTTTGCGACCGACTATCAGTTTGCCGGCTGGACGTTGCGCGATATCGAAATGGGATATAACCACGACTCGAATGGCCGTTCCGATCCCACCTCACGCAGCTGGAACCGGCTTTATGCCCGCCTGATGGCGCAAAATGGCAACTGGCTGGTGGAAGTGAAACCCTGGTATGTGGTGGGCAGCACCGATGATAACCCAGACATCACCAAATATATGGGTTATTACCGCCTGAAGGTGGGCTACCAGCTGGGCGAGGCGATCCTTAGCGCGCAGGGGCAATACAACTGGAATACTGGCTACGGCGGGGCGGAACTTGGGGTGAGCTATCCCATCACCAAACATGTTCGCGCTTACACCCAGATCTACAGCGGCTACGGCGAATCGCTTATCGACTACAACTTTAATCAAACGCGCGTCGGCGTCGGGCTAATGCTTAACGATCTGTTTTAA	MRISLACLAALCALPAGVMAQDASVHDKPAVRGSIIANLLQDHDNPFLLYPYESNYLLYTWTSDLNKEAIRSYDWAENARKDEVKFQLSLAFPLWRGILGDNSLLGASYTQKSWWQLSNSKESAPFRETNYEPQLFLGFATDYQFAGWTLRDIEMGYNHDSNGRSDPTSRSWNRLYARLMAQNGNWLVEVKPWYVVGSTDDNPDITKYMGYYRLKVGYQLGEAILSAQGQYNWNTGYGGAELGVSYPITKHVRAYTQIYSGYGESLIDYNFNQTRVGVGLMLNDLF	PGPT0009570_948	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHOLIPASE_ACTIVITY,PGPT0009570-pldA-K01058	NA	NA
BMS020_07514	465			hypothetical protein	ATGTCCGAACTTACTGCCGAAGCAGCTCTGAAACTGGTGGGGGAGATTTTCGTCTATCACATGCCGTTTAACCGCGCCCTCGGCCTCGAACTGGAGCGCTATGAAAAAGCGTTTGCCCAGCTCAGCTTTAATAATCAGCCGATGATGGTCGGCAACTGGGCGCAAAGCATTCTGCATGGCGGAGTGATCGCCTCCGCGCTGGACGTCGCCGCAGGGCTGGTCTGCGTTGGCAGCACCCTTACCCGCCATGACACTATCAACGAAGAAGAGCTGCGCCAGCGGCTTTCCCGCATGGGAACCATCGACCTGCGCGTGGACTACCTGCGTCCGGGCCGCGGCGAACGTTTTACCGCGACCAGCACCCTGCTGCGCGCCGGCAATAAAGTGGCGGTAGCCCGTGTGGAACTGCATAACGAAGCGCAGGTATATATTGCCAGCGCAACAGCGACCTATATGGTGGGTTGA	MSELTAEAALKLVGEIFVYHMPFNRALGLELERYEKAFAQLSFNNQPMMVGNWAQSILHGGVIASALDVAAGLVCVGSTLTRHDTINEEELRQRLSRMGTIDLRVDYLRPGRGERFTATSTLLRAGNKVAVARVELHNEAQVYIASATATYMVG	PGPT0001841_39	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001841-yigI-NA	NA	NA
BMS020_07515	897	rarD_2	COG2962	Protein RarD	ATGGATGCGAAACAGACGCGGTTGGGGATTATTCTGGCCCTCGCCGCCTACTTTATCTGGGGTATCGCGCCGGCGTACTTCAAACTTATCTACTATGTTCCCGCCGATGAAATTCTGACCCATCGCGTGATCTGGTCTTTCTTCTTCATGGTGGCGCTCATCAGCGTCAGCCGCCAGTGGCCGCAGGTGAAAAAGCTGCTGAAGACGCCGCGCAAGATCTTCCTGCTGGCGCTCTCTGCGGTGCTGGTCGGCGGCAACTGGCTGCTGTTCATCTGGGCGGTGAATAACCACCATATGCTGGAAGCCAGTCTCGGCTACTTTATCAACCCGCTGGTGAATATTCTGTTAGGGATGATTTTCCTTGGCGAACGTTTCCGTCGCCTGCAGTGGCTGGCGATGATCCTCGCCTTTTGCGGCGTGCTGGTGCAGCTCTGGACCTTTGGTTCGCTGCCGATTATCGGCCTTGGGCTGGCCTTCAGCTTTGCCTTTTATGGTCTGGTGCGCAAGAAAATCGCTGTCGATGCGCAGACCGGCATGCTGGTGGAAACGCTGTGGCTGTTGCCGGTGGCGGCGATTTGGCTGTTCGGCATCACCGACAACCCCACCAGCCATATGGGGCAGAACCCCTGGTCGCTCAATCTGCTGCTGATGGCGGCGGGCGTGGTGACCACCATCCCTCTGCTGTGCTTCACCGGGGCGGCAACGCGTCTGCGGCTCTCCACGCTGGGCTTTTTCCAGTACATCGGCCCAACGCTGATGTTCCTGCTGGCGGTGACGTTCTACGGCGAAGTGCCGGGCAAGGATAAAATGGTCACCTTTGGCTTTATCTGGGTGGCGCTGGCGATATTCGTGATGGATGCGGTGTATACGCAAAGACGGGGGCGTCGGAGCCAGTAG	MDAKQTRLGIILALAAYFIWGIAPAYFKLIYYVPADEILTHRVIWSFFFMVALISVSRQWPQVKKLLKTPRKIFLLALSAVLVGGNWLLFIWAVNNHHMLEASLGYFINPLVNILLGMIFLGERFRRLQWLAMILAFCGVLVQLWTFGSLPIIGLGLAFSFAFYGLVRKKIAVDAQTGMLVETLWLLPVAAIWLFGITDNPTSHMGQNPWSLNLLLMAAGVVTTIPLLCFTGAATRLRLSTLGFFQYIGPTLMFLLAVTFYGEVPGKDKMVTFGFIWVALAIFVMDAVYTQRRGRRSQ	PGPT0003906_2122	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003906-rarD-K05786	NA	NA
BMS020_07516	951	corA_3	COG0598	Magnesium transport protein CorA	ATGCTGAGCGCATTTCAACTGGAAAACAATCGTTTAACGCGCCTGGAAGCCGATGAGATCAAGCACCTCGCCAGCTCGGTGTGGGTCGATCTGGTCGAGCCTGACGATGATGAGCGAAGCCGCGTGCAGACGGAACTGGGTCAGAACCTGGCGACGCGCCCTGAACTGGAAGATATCGAAGCCTCCGCACGTTTCTTTGAAGATGAAGACGGGTTACATATCCACTCCTTCTTCTTTTTCGAAGATGCCGACGATCACGCTGGTAACTCTACCGTGGCGTTTACTATCCGCGAAGGGCGCCTGTTTACGCTGCGCGAGCGTGAACTGCCGGCTTTTCGCCTCTACCGCATGCGCGTGCGTAACCAGACGCTGGTGGACGGTAACGCTTACGAGCTATTGTTAGATCTGTTCGAGACCAAAATCGAACAGCTGGCGGATGAGATAGAAAACATCTACAGCGACCTGGAAAAGCTGAGCCGCGTGATTATGGAAGGCCACCAGGGCGATGAGTACGACGAAGCGCTGTCGACGCTGGCGGAACTGGAAGATATCGGCTGGAAGGTCCGCCTCTGTTTGATGGATACCCAGCGCGCGCTGAACTTCCTCGTACGTAAGGCGCGCCTGCCGGCGGGCCAGCTGGAGCAGGCGCGGGAGATCCTGCGCGATATCGAATCCCTGCTGCCGCACAACGAATCGCTGTTCCAGAAGGTGAACTTCCTGATGCAGGCGGCGATGGGCTTTATCAATATCGAACAGAACCGCATCATTAAGATCTTCTCGGTGGTGTCGGTGGTGTTCCTGCCGCCAACTCTGGTGGCCTCCAGCTACGGAATGAACTTTGAATTTATGCCGGAGCTGCACTGGAGCTTCGGCTACCCGGGGGCGATCGTCTTTATGATGCTGGCCGGCCTGGCGCCGTATCTCTACTTCAAGCGTAAAAACTGGCTGTAG	MLSAFQLENNRLTRLEADEIKHLASSVWVDLVEPDDDERSRVQTELGQNLATRPELEDIEASARFFEDEDGLHIHSFFFFEDADDHAGNSTVAFTIREGRLFTLRERELPAFRLYRMRVRNQTLVDGNAYELLLDLFETKIEQLADEIENIYSDLEKLSRVIMEGHQGDEYDEALSTLAELEDIGWKVRLCLMDTQRALNFLVRKARLPAGQLEQAREILRDIESLLPHNESLFQKVNFLMQAAMGFINIEQNRIIKIFSVVSVVFLPPTLVASSYGMNFEFMPELHWSFGYPGAIVFMMLAGLAPYLYFKRKNWL	PGPT0014010_3357	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284	NA	NA
BMS020_07517	2163	uvrD_2	COG0210	DNA helicase II	ATGGACGTTTCTTACCTGCTCGACAGCCTCAATGACAAACAGCGTGAAGCCGTAGCGGCCTCGCGCACCAACATGCTGGTGCTGGCAGGGGCGGGCAGTGGTAAGACGCGCGTTCTGGTGCACCGTATCGCCTGGCTGCTGAGCGTAGAGAACTGCTCGCCGTATTCTATTATGGCGGTGACCTTTACCAACAAAGCGGCGGCAGAGATGCGCCATCGTATCGGCCAGCTGATGGGCACCACCCAGGGCGGCATGTGGGTGGGCACCTTCCACGGCCTGGCCCACCGCCTGCTGCGCGCGCACCATCTGGACGCCAACCTGCCGCAGGATTTCCAAATCCTCGATAGCGAAGACCAGTTGCGCCTGCTGAAGCGTCTGATTAAGGCGATGAACCTCGATGAGAAGCAGTGGCCGCCGCGTCAGGCGATGTGGTACATCAACAGCCAGAAAGATGAAGGGCTGCGTCCGCATCATATTCAGAGCTACGGCAACCCGGTCGAGCAGACCTGGCAGAAGGTCTATCAGGCCTATCAGGAAGCCTGCGATCGCGCCGGGCTGGTGGACTTCGCCGAACTGCTGCTGCGCGCCCACGAGCTGTGGCTGAATAAGCCGCATATCCTCCAGCACTACCGCGAGCGTTTCACCAATATCCTCGTCGACGAATTCCAGGATACCAACAACATTCAATACGCCTGGATCCGCCTGCTGGCGGGCGATACCGGCAAGGTGATGATCGTCGGCGATGACGATCAGTCGATTTACGGCTGGCGCGGCGCGCAGGTCGAGAACATTCAGCGCTTCCTTAACGATTTTCCCGGTGCGGAAACCATCCGCCTTGAGCAGAACTATCGCTCGACCAGCAACATCCTCAGCGCCGCCAACGCCCTGATTGAAAACAACAACGGTCGCCTGGGCAAGAAGCTTTGGACCGACGGCGCCGACGGCGAGCCAATCTCGCTGTACTGCGCTTTCAACGATCTCGACGAAGCTCGCTTCGTGGTGAACCGGATAAAAACCTGGCAGGAGAACGGCGGGGCGCTGGAGCAGTGCGCCATCCTCTATCGCAGCAACGCCCAGTCGCGCGTGCTGGAAGAGGCGCTTCTGCAGGCCAGCATGCCGTACCGTATCTATGGCGGCATGCGCTTCTTCGAGCGCCAGGAAATCAAAGATGCGCTCTCGTACCTGCGTCTGATCGCCAACCGTAACGACGATGCGGCGTTTGAGCGCGTAGTCAATACGCCGACCCGCGGCATCGGCGACCGCACGCTGGACGTGGTGCGCCAGACGTCGCGCGATCGTCAGCTGACGCTGTGGCAGGCCAGCCGCGAGCTGCTGAAAGATAAAGCGCTGGCCGGTCGCGCCGCCAGCGCCTTGCAGCGCTTTATGGAGCTGATTGACGCGCTGGCGCAGGAGACCACCGATATGCCGCTGCACGTCCAGACCGATCGGGTGATTAAAGACTCCGGGCTGCGCGCGATGTACGAGCAGGAGAAAGGCGAGAAGGGCCAGACCCGTATTGAAAACTTAGAGGAGCTGGTGACGGCGACGCGCCAGTTCAGCTACAACGAAGAAGATGAAGATCTGATGCCGCTGCAGGCGTTCCTCTCCCACGCCGCGCTGGAAGCGGGCGAAGGGCAGGCGGACACCTGGCAGGATGCGGTTCAGCTGATGACCCTGCACTCGGCGAAAGGGCTGGAGTTCCCGCAGGTGTTCATCGTCGGCGTCGAAGAGGGGATGTTCCCGAGCCAGATGGCCCTTGATGAAGGCGGCCGCCTGGAAGAAGAGCGTCGTCTGGCCTACGTTGGCGTGACGCGCGCCATGCAGAAGCTGACGCTGACCTACGCGGAAACCCGCCGTCTGTACGGCAAAGAGGTTTACCATCGCCCGTCGCGGTTTATTGGAGAACTGCCGCAGGAGTGCGTAGAAGAGGTGCGTCTGCGGGCCACGGTAAGCCGCCCGGTAAACCATCAGCGACTGGGCGCGCCGATTGCCGAGAGCGATACCGGCTACAAATTAGGCCAGCGCGTACGACATCCGAAGTTCGGCGAAGGCACCATCGTCAACCTCGAAGGCAGCGGCGAGCACAGCCGGCTGCAGGTGGCTTTTCAGGGTCAGGGGATCAAATGGCTGGTAGCGGCTTACGCCCGGCTCGAGGAAGTGTAA	MDVSYLLDSLNDKQREAVAASRTNMLVLAGAGSGKTRVLVHRIAWLLSVENCSPYSIMAVTFTNKAAAEMRHRIGQLMGTTQGGMWVGTFHGLAHRLLRAHHLDANLPQDFQILDSEDQLRLLKRLIKAMNLDEKQWPPRQAMWYINSQKDEGLRPHHIQSYGNPVEQTWQKVYQAYQEACDRAGLVDFAELLLRAHELWLNKPHILQHYRERFTNILVDEFQDTNNIQYAWIRLLAGDTGKVMIVGDDDQSIYGWRGAQVENIQRFLNDFPGAETIRLEQNYRSTSNILSAANALIENNNGRLGKKLWTDGADGEPISLYCAFNDLDEARFVVNRIKTWQENGGALEQCAILYRSNAQSRVLEEALLQASMPYRIYGGMRFFERQEIKDALSYLRLIANRNDDAAFERVVNTPTRGIGDRTLDVVRQTSRDRQLTLWQASRELLKDKALAGRAASALQRFMELIDALAQETTDMPLHVQTDRVIKDSGLRAMYEQEKGEKGQTRIENLEELVTATRQFSYNEEDEDLMPLQAFLSHAALEAGEGQADTWQDAVQLMTLHSAKGLEFPQVFIVGVEEGMFPSQMALDEGGRLEEERRLAYVGVTRAMQKLTLTYAETRRLYGKEVYHRPSRFIGELPQECVEEVRLRATVSRPVNHQRLGAPIAESDTGYKLGQRVRHPKFGEGTIVNLEGSGEHSRLQVAFQGQGIKWLVAAYARLEEV				NA	NA	NA	NA	NA
BMS020_07518	717	yigB_2	COG1011	5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YigB	ATGCGTTTTTACCGACCTCTGGGCCAGATTTCCGCGCTGACGTTTGACCTGGACGATACCCTTTATGATAACCGCCCGGTAATTGACCGGACGATGCACGAGTCGCTGGCTTTTGTGCGCAGCTACCATCCGTCGCTCAGCCAGTTCGACGCCCATGAGCTTAATCAGCTGCGCCAGACGCTGCTGGCATCCGAGCCTGAGATCTATCACGACGTGACCGTCTGGCGCCACCGTGCGCTGGAGTTAGGCATGCGTAACGCCGGCCTCTCCGCCGACGCGGCGAAAGCGGGGGCCGATGCGGCGATGGAACACTTCGCCCACTGGCGCAGCCGCGTCGATGTCCCGCAGGAGACCCACGATACGCTGGCGAAGCTGGCGGAGAAGTGGCCGCTGGTGGCGATTACCAACGGCAACGCCCGACCAGAGCTGTTCGGCCTGAGCGACTATTTCCGCTTTGTGCTGCGCGCCGGGCCGGATGGCCGCTCCAAGCCGTTTGCCGACATGTACCATCTGGCGGCGGAGCGCCTGAACTTACCGCTCGGGCATATTCTGCACGTCGGCGATGACCTGACCACTGACGTCGCCGGATCGCTGCGCTGTGGCATGCAGGCATGCTGGATCAAACCGCAAGGCGCGGACCTGATGCACACCGCGGACAGCCGCCTGCTGCCGCATATTGAAATTTCACGGTTGGCATCTCTGACCTCGCTGATATAA	MRFYRPLGQISALTFDLDDTLYDNRPVIDRTMHESLAFVRSYHPSLSQFDAHELNQLRQTLLASEPEIYHDVTVWRHRALELGMRNAGLSADAAKAGADAAMEHFAHWRSRVDVPQETHDTLAKLAEKWPLVAITNGNARPELFGLSDYFRFVLRAGPDGRSKPFADMYHLAAERLNLPLGHILHVGDDLTTDVAGSLRCGMQACWIKPQGADLMHTADSRLLPHIEISRLASLTSLI	PGPT0008585_498	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
BMS020_07519	903	xerC_3	COG4973	Tyrosine recombinase XerC	ATGACCGATTCTCCTCTCTTCTCCGCCGTCTCCCGCTTTCTGCGCCACCTGGGCGTTGAACGCCAGCTCAGCCCGATCACGTTACTGAATTACCAGCGACAGCTGGACGCGCTGATCGCCCTGGCGGATGAGGCGGGTCTGAAAAGCTGGTCGCAGTGCGATGCCGCTCAGGTGCGAAGCTTTGCGGTGCGCAGTCGCCGCGCGGGGTTAGGCCCGGCGAGCCTGGCGCTTCGCCTGTCGGCGCTGCGCAGTTTCTTCGACTGGCTGGTCGGCCAGGGCGAGCTCAGCGCCAACCCGGCGAAAGGGATCGCCGCGCCGAAAATTCCCCGTCACCTGCCGAAAAATATCGATGTCGATGACGTCAATCGGCTGCTGGATATCGATCTCAACGATCCGCTGGCGGTGCGCGACCGGGCGATGCTGGAGGTGATGTACGGCGCGGGGCTGCGTTTGTCCGAGCTGGTCAACCTTGATATCAAACATCTCGATCTCGAAAGCGGCGAGGTCTGGGTGATGGGCAAAGGCAGCAAAGAGCGCCGTTTGCCGATCGGTCGCAACGCCGTGATGTGGATTGAGCACTGGCTGGACTTACGCGGCCTGTTCGGCACCGACGACGACGCGCTGTTTTTGTCGAAACTGGGCAAGCGCATTTCGGCGCGCAACGTACAGAAGCGGTTCGCCGAGTGGGGCATTAAGCAGGGGCTGAACAGCCATGTGCATCCGCACAAGCTTCGCCACTCCTTTGCCACTCATATGCTGGAGTCCAGCGGCGATCTGCGCGGTGTGCAGGAGCTGTTGGGGCATGCTAACCTCTCCACCACCCAAATTTATACCCATCTCGACTTTCAACACCTTGCCTCGGTGTACGATGCCGCGCATCCGCGCGCAAAACGGGGGAAATAA	MTDSPLFSAVSRFLRHLGVERQLSPITLLNYQRQLDALIALADEAGLKSWSQCDAAQVRSFAVRSRRAGLGPASLALRLSALRSFFDWLVGQGELSANPAKGIAAPKIPRHLPKNIDVDDVNRLLDIDLNDPLAVRDRAMLEVMYGAGLRLSELVNLDIKHLDLESGEVWVMGKGSKERRLPIGRNAVMWIEHWLDLRGLFGTDDDALFLSKLGKRISARNVQKRFAEWGIKQGLNSHVHPHKLRHSFATHMLESSGDLRGVQELLGHANLSTTQIYTHLDFQHLASVYDAAHPRAKRGK	PGPT0021995_3164	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0021995-xerC-K03733	NA	NA
BMS020_07520	708			hypothetical protein	ATGAAACCAATCGGGGAAGAACAACAGGAGGTCGCCAGCGCATTGAACGATCGCGCCGTGGTGGACTATCTGTTGCAACATCCTGAATTTTTTATTCGTAATGCCGCCCAGGTCGAACACCTCCGCGTCCCGCATCCGGTACGCGGTACGATTTCGCTGGTGGAGTGGCATATGATGCGGGCGCGTAACCATATTCATGTGCTGGAAGAGAATATGTCGCTGCTGATGGAGCAGGCGGTCGCCAATGAAAGCCTGTTCCAGCGCCTGCTGCAGCTGCAAACGCGGCTGGCGGCGGCGGAGAGCCTCGACGATATGCTCAACCGCCTTCACCGCTGGGCGCGCGAGTTGGGGCTGGCGGGCGCCACGGTGCGCCTGTTCCCTGACAGCTGGCGCCTCGGCGCGCCTTCGAAGTTTACCCATCTGGCGTTAAGCCGGCAGGCGTTTGAGCCGATCCGTATTCAACGTCTGGGCCAGGCGCGCCACTACCTTGGGTCGCTCAACGGTCCGGAGCTGCTGGTGGTGCTGCCGGAGGCGAAAGCCATTGGGTCAGTGGCGATGTCGCTGCTGGGCGGCGATAATGCCCCCGGCGTGATGCTCTTTAGCAGCCGCGATGCGCAGCATTATCAGCCAGGACAGGGGACGCAGCTGCTGCAGGAGATTGCCCAGATGCTGCCCGGCCTGCTGGAGCGCTGGATTGAACGCGCATGA	MKPIGEEQQEVASALNDRAVVDYLLQHPEFFIRNAAQVEHLRVPHPVRGTISLVEWHMMRARNHIHVLEENMSLLMEQAVANESLFQRLLQLQTRLAAAESLDDMLNRLHRWARELGLAGATVRLFPDSWRLGAPSKFTHLALSRQAFEPIRIQRLGQARHYLGSLNGPELLVVLPEAKAIGSVAMSLLGGDNAPGVMLFSSRDAQHYQPGQGTQLLQEIAQMLPGLLERWIERA				NA	NA	NA	NA	NA
BMS020_07521	825	dapF_2	COG0253	Diaminopimelate epimerase	ATGCAGTTCTCTAAAATGCATGGCCTTGGCAACGATTTTATGGTCGTTGACGCGGTAACGCAGAATGTTTTTTTCTCGCCGGAGCTGATTCGCCGCCTGGCGGATCGCCACCTTGGCGTCGGGTTCGATCAGCTGTTAGTGGTGGAGCCGCCCTACGATCCGGATCTGGATTTCCATTACCGGATCTTTAATGCCGACGGCAGCGAAGTGTCGCAGTGCGGCAACGGCGCGCGCTGTTTCGCACGCTTCGTCCGGCTGAAAGGCCTGACCAATAAACGTGACATCCGCGTGAGTACGGCCAACGGCCGTATGGTATTAAGCGTAACGGAAGACGATCTGGTGCGGGTGAACATGGGCGAGCCCAACTTCGAGCCCTCCCAGGTGCCGTTCCGCGCCAACAAAGCGGAAAAGACCTATATCATGCGTGCCGCCGAGCAGACAGTATTGTGCGGCGTGGTATCCATGGGGAACCCGCACTGCGTTATCCAGGTGGATGATGTGGATACGGCGGCGGTGGAAACCCTCGGCCCGGTAATGGAAAGCCATGAGCGTTTTCCGGAGCGCGCCAATATCGGCTTTATGCAGGTGGTTGGCCGGTCCCATATCCGTCTGCGCGTCTACGAACGCGGCGCAGGGGAAACTCAGGCCTGCGGCAGCGGCGCCTGCGCCGCGGTGGCGGTGGGGATCCAGCAGGGGCTGCTCGCTGAAACGGTACGTGTGGAATTACCCGGCGGTCGTCTTGATATCGCCTGGAAAGGCCCGGGCCAGCCGCTGTTTATGACCGGCCCGGCGGCCCATGTCTATGATGGATTTATTCATTTATGA	MQFSKMHGLGNDFMVVDAVTQNVFFSPELIRRLADRHLGVGFDQLLVVEPPYDPDLDFHYRIFNADGSEVSQCGNGARCFARFVRLKGLTNKRDIRVSTANGRMVLSVTEDDLVRVNMGEPNFEPSQVPFRANKAEKTYIMRAAEQTVLCGVVSMGNPHCVIQVDDVDTAAVETLGPVMESHERFPERANIGFMQVVGRSHIRLRVYERGAGETQACGSGACAAVAVGIQQGLLAETVRVELPGGRLDIAWKGPGQPLFMTGPAAHVYDGFIHL	PGPT0007230_3306	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007230-dapF-K01778	NA	NA
BMS020_07522	321	cyaY	COG1965	Iron-sulfur cluster assembly protein CyaY	ATGAATGACAGTGAATTTCATCGCCTTGCCGACAGCCTGTGGATGACCATCGAAGAACGCCTGGACGACTGGGACGGCGATAGCGACATCGACTGCGAAATCAACGGCGGCGTGCTGACCATCAGCTTTGAAAACGGCAGCAAAATCATTATTAACCGTCAGGAGCCGCTGCACCAGGTATGGCTGGCCACCAAACAGGGCGGCTACCATTTCGATCTCAAAGGCGACGAGTGGATCTGCGATCGCAGCGGCGAGACCTTCTGGGATCTGCTGGAGCAGGCGGCAAGTCAGCAGGCCGGTGAGACGGTGAGATTCCGTTAA	MNDSEFHRLADSLWMTIEERLDDWDGDSDIDCEINGGVLTISFENGSKIIINRQEPLHQVWLATKQGGYHFDLKGDEWICDRSGETFWDLLEQAASQQAGETVRFR	PGPT0004050_566	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDATIVE_STRESS_RELATED_PROTEIN,PGPT0004050-cyaY-K06202	NA	NA
BMS020_07523	2553	cyaA	COG3072	Adenylate cyclase	TTGTACCTCTATATTGAGACACTGAAACAGAGACTGGATGCCATTAACCAACTGCGCGTGGATCGCGCGCTTGCTGCCATGGGACCCGCTTTCCAGCAGGTTTACAGTCTACTGCCAACGTTATTACATTATCATCACCCGCTGATGCCGGGTTACCTTGACGGTAACGTTCCCCGTGGCATTTGCCTCTACACGCCTGATGAAACCCAACGCCACTATCTTGAAGAACTGGAACTGCATCGCGGCATGCAGACCCAGGAGCCGCCGAAAGGCGAGCTGCCGATCACCGGCGTCTACTCGATGGGCAGTACCTCCTCCGTCGGCCAGAGCTGTTCTTCCGATCTGGATATCTGGGTATGTCACCAGGCCTGGCTGGATAGCGAAGAGCGCCAGCTGCTGCAGCGAAAATGCAGCCTGCTTGAGAGCTGGGCGGCCTCGCTCGGTGTGGAAGTCAGCTTCTTCCTGATCGACGAAAACCGCTTCCGCCATAACGAAAGCGGCAGCCTCGGCGGCGAAGACTGCGGTTCGACCCAGCATATTTTACTGCTCGATGAGTTCTACCGCACCGCGGTCCGTCTCGCCGGCAAGCGTATTCTGTGGAATATGGTGCCGTGCGATGAAGAAGAGCATTACGACGATTACGTCATGGGGCTGTATGCCCAGGGCGTGCTGACGCCAAACGAGTGGCTCGATCTCGGCGGCCTCAGCTCGCTGTCGGCGGAAGAGTACTTCGGCGCCAGCCTGTGGCAGCTGTATAAGAGTATCGACTCCCCCTATAAAGCGGTGCTGAAAACGCTGCTGCTGGAAGCCTATTCCTGGGAATACCCCAATAACCGCCTGCTGGCGAAAGATATCAAACAGCGCCTGCACGATGGCGAGATCGTCTCCTTCGGCCTCGACCCGTACTGCATGATGCTGGAGCGCGTCACCACCTACCTGCAGGCCATCGAAGATGAAACCCGTCTCGACCTGGTGCGCCGCTGCTTCTATCTGAAAGTGTGTGAAAAACTCAGCCGCGAACGCGCCTGCGTCGGCTGGCGTCGCGAAGTCGTCAGCCAGCTGGTCAACGCGTGGGGCTGGGATGAAAAGCGTCTGATGATGCTCGACAACCGCGCGAACTGGAAAATTGATGAAGTGCGCAAGGCGCACAACGAACTGCTCGATGCGATGATGCAGAGCTATCGTAATCTGATCCGCTTCGCGCGGCGCAATAACCTCAGCGTCTCCGCCAGTCCGCAGGATATTGGCGTGCTGACGCGTAAGCTGTATGCGGCTTTTGAAGCGCTGCCGGGCAAAGTGACGCTGGTGAACCCGCAAATATCGCCGGACCTGTCGGAACCGAATCTGACCTTTATCCACGTGCCGCCGGGTCGCGCCAACCGTACCGGTTGGTATCTGTACAACCGCGCGCCGGATATGGAATCGATCATCAGCCATCAGCCGCTGGAATATAACCGTTATCTTAATAAGCTGGTGGCCTGGGCCTGGTTTAACGGCCTGCTGACCTCACGCACCCGCCTGTTTATTAAGGGCAACGGCATCGTCGATCTGGCGAAGCTGCAGGAGATGGTGGCCGACGTGTCGCACCACTTCCCGCTGCGCCTGCCGGCGCCGACGCCAAAAGCGCTATACAGCCCATGCGAAATTCGCCACCTGGCGATTATCGTCAACCTCGAATATGACCCGACGGCGGCCTTCCGCAATCAGGTGGTGCACTTTGATTTCCGTAAGCTTGATGTTTTCAGCTTCGGCGAAGAGCAAAAATGCCTGATCGGCAGCGTCGACCTGCTGTATCGCAACTCGTGGAACGAAGTGCGTACCCTGCATTTCAACGGCGAGCAGGCGATGATCGAAGCGCTGAAAACGATCCTCGGTAAAATGCATCAGGACGCCGCGCCGCCGGACAGCGTGGAGGTGTTCTGCTATAGCCAACATCTGCGCGGCCTGATCCGTACCCGCGTACAGCAGATGATCTCCGAGTGCATCGAACTGCGTCTCTCCAGTACCCGCCAGGATACCGGGCGCTTTAAAGCGCTGCGCGTCTCCGGCCAGACCTGGGGGCTGTTCTTCGAGCGTCTCAATGTTTCGGTGCAGAAGCTGGAAAACGCCATTGAATTCTACGGCGCTATCTCGCACAACAAGCTCCACGGCCTGTCGGTGCAGGTGGAAACCAATCACGTTAAGCTGCCGGCGGTGGTGGACGGCTTCGCCAGCGAAGGGATTATTCAGTTCTTCTTTGAAGACGCGGATAACAATGACAGCGGCTTTAACATCTATATTCTCGATGAGAGCAACCGCGCTGAGGTGTATCACCACTGCGAGGGCAGCAAAGAGGAGCTGGTGCGCGACGTCAGCCGCTTCTATTCGTCATCGCACGATCGTTTTACCTACGGCTCCAGCTTTATCAACTTCAACCTGCCGCAGTTCTATCAGATTGTCGAGGTGGACGGGCGCACCCAGGTGATCCCTTTCCGCACTCAGGCGATTGCCGCCGCGATACCCACCAGCCAGGACGTTACCGCCTCGCCGGTGCTGCAGCAGCGCTACTCGTAG	MYLYIETLKQRLDAINQLRVDRALAAMGPAFQQVYSLLPTLLHYHHPLMPGYLDGNVPRGICLYTPDETQRHYLEELELHRGMQTQEPPKGELPITGVYSMGSTSSVGQSCSSDLDIWVCHQAWLDSEERQLLQRKCSLLESWAASLGVEVSFFLIDENRFRHNESGSLGGEDCGSTQHILLLDEFYRTAVRLAGKRILWNMVPCDEEEHYDDYVMGLYAQGVLTPNEWLDLGGLSSLSAEEYFGASLWQLYKSIDSPYKAVLKTLLLEAYSWEYPNNRLLAKDIKQRLHDGEIVSFGLDPYCMMLERVTTYLQAIEDETRLDLVRRCFYLKVCEKLSRERACVGWRREVVSQLVNAWGWDEKRLMMLDNRANWKIDEVRKAHNELLDAMMQSYRNLIRFARRNNLSVSASPQDIGVLTRKLYAAFEALPGKVTLVNPQISPDLSEPNLTFIHVPPGRANRTGWYLYNRAPDMESIISHQPLEYNRYLNKLVAWAWFNGLLTSRTRLFIKGNGIVDLAKLQEMVADVSHHFPLRLPAPTPKALYSPCEIRHLAIIVNLEYDPTAAFRNQVVHFDFRKLDVFSFGEEQKCLIGSVDLLYRNSWNEVRTLHFNGEQAMIEALKTILGKMHQDAAPPDSVEVFCYSQHLRGLIRTRVQQMISECIELRLSSTRQDTGRFKALRVSGQTWGLFFERLNVSVQKLENAIEFYGAISHNKLHGLSVQVETNHVKLPAVVDGFASEGIIQFFFEDADNNDSGFNIYILDESNRAEVYHHCEGSKEELVRDVSRFYSSSHDRFTYGSSFINFNLPQFYQIVEVDGRTQVIPFRTQAIAAAIPTSQDVTASPVLQQRYS	PGPT0015070_310	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-OTHER_BACTERIAL_DEFENSE_SYSTEMS	CE-BACTERIAL_FITNESS-BACTERIAL_TOXINS,PGPT0015070-cyaA-K05851	NA	NA
BMS020_07524	942	hemC_1	COG0181	Porphobilinogen deaminase	ATGTTAGACAAAGTTTTGAAAATTGCCACACGGCAAAGCCCGCTTGCGCTATGGCAGGCGCAATATGTTAAAGCGCGCCTGGAACAAGCGCATCCCGGACTGAAGGTCGAGCTGGTGCCGATGGTCACTCGCGGGGATGTCATCCTTGATACTCCCCTGGCAAAGGTGGGTGGCAAGGGCTTATTTGTGAAAGAGTTAGAGCTTGCCATGCTCGAAGGGCGCGCCGATATCGCCGTTCATTCGATGAAAGATGTGCCGGTGGAATTCCCGGAGGGGCTGGGGCTGGTGACTATCTGCGAGCGCGACGATCCGCGCGACGCGTTTGTCTCCAATCGCTATGCCTCGATTGATGAACTCCCGGCCGGCAGCGTCGTTGGCACGTCAAGTTTACGCCGTCAGTGCCAGCTGGCCGCCACCCGTCCGGATCTGGTGATCCGCTCTCTGCGCGGTAACGTCGGTACCCGACTGAGTAAGCTGGATAACGGCGAGTATGACGCCATCATCCTCGCCGCCGCCGGCCTGAAGCGCCTGCAGCTCGAGGCGCGAATTCGCCAGCCGCTGTCGCCTGAGCAATCTCTGCCGGCGGTCGGCCAGGGCGCGGTGGGCATCGAATGCCGTCTCGACGATGCATGGACCCAGGGGCTGTTAGCGCCTCTCAACCATACGGAAACGGCAGTGCGCGTTCGCGCCGAGCGGGCGATGAACACGCGTCTCGAAGGCGGCTGTCAGGTGCCGATTGGTAGCTATGCGGAACTGAAAGACGGTGAATTGTGGCTGCGGGCGCTGGTTGGCGCCCCGGATGGTTCGCAGATGGTACGCGGCGAACGGCGCGGGCCAGCAGAGCAGGCCGAAGCGCTTGGCATCTCGCTGGCGGAAGAGCTCCTGGATAACGGTGCCCGCGATATTCTCGCGGCAGTTTATGATGGAGAAGCCCCACGATGA	MLDKVLKIATRQSPLALWQAQYVKARLEQAHPGLKVELVPMVTRGDVILDTPLAKVGGKGLFVKELELAMLEGRADIAVHSMKDVPVEFPEGLGLVTICERDDPRDAFVSNRYASIDELPAGSVVGTSSLRRQCQLAATRPDLVIRSLRGNVGTRLSKLDNGEYDAIILAAAGLKRLQLEARIRQPLSPEQSLPAVGQGAVGIECRLDDAWTQGLLAPLNHTETAVRVRAERAMNTRLEGGCQVPIGSYAELKDGELWLRALVGAPDGSQMVRGERRGPAEQAEALGISLAEELLDNGARDILAAVYDGEAPR	PGPT0003660_1729	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003660-hemC-K01749	NA	NA
BMS020_07525	741	hemD	COG1587	Uroporphyrinogen-III synthase	ATGAGCATCCTGGTCACTCGTCCACTACCGCAAGGAGAAGCGCTGGTCAGCCGTCTGCGGGCCATGGGACGCGTGGCCTGGAGCTTTCCGCTGATAGAATTTACGCCCGGTCGGGAGCTTCCCGCGCTGGGCGACGCGCTTGCCCGCCTGGGGCCTGACGATCTGCTGTTCGCGCTGTCCCAGCATGCGGTGGAGTTCGCCCATGCCCGTCTGCAGCATCAGGGTATGCCCTGGCCCACTTCCCCGCGTTATTTTGCCATTGGCCGCACGACGGCGCTGGCCCTGCATACGGTCAGCGGGCAGCACATCCATTACCCGTTAGATCGGGAAATTAGCGAAGTCTTGCTACAATTACCTGAATTACAAAACATTGCCGGGAAGAATGCGCTGATCTTACGCGGCAATGGTGGGCGGGAACTCTTAGGCGCGACGCTGACCGAGCGCGGCGCCAGGGTCACATTTTGTGAATGTTATCAACGTAGTGCAAAGCATTACGATGGCGCAGAAGAAGCGATGCGCTGGCAATCTCGCGGGGTCACCACGCTGGTGGTCACCAGCGGCGAGATGCTGCAGCAGCTATGGTCGTTAATACCGCAATGGTATCGCGAACGGTGGCTCCTGCACTGCCGCGTTGTCGTTGTCAGCGAACGTCTGGCCCTTCAGGCCCGGGAGCTGGGCTGGCAGGAGATTCAGGTTGCCGATAGCGCCGACAACGATGCGCTGCTACGCGCATTACAATAA	MSILVTRPLPQGEALVSRLRAMGRVAWSFPLIEFTPGRELPALGDALARLGPDDLLFALSQHAVEFAHARLQHQGMPWPTSPRYFAIGRTTALALHTVSGQHIHYPLDREISEVLLQLPELQNIAGKNALILRGNGGRELLGATLTERGARVTFCECYQRSAKHYDGAEEAMRWQSRGVTTLVVTSGEMLQQLWSLIPQWYRERWLLHCRVVVVSERLALQARELGWQEIQVADSADNDALLRALQ	PGPT0003665_3302	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719	NA	NA
BMS020_07526	1182	hemX	COG2959	Protein HemX	ATGACGGAACAACAAAATCAATCCGCCGTGGTTGAAGAGACCAGGGAGGCCGTGGAGACCACACCACAGCCAGAGAACACTGATAAGAAGAAGGCTGGCAACAAAACCAGCCTGGCGCTCAGCGCGATCGCTATCGCCATTGCGATAGCCGCCGGTATCGGCCTGTATGGCCTGAACAAACAGCAGGCCTCGCGTCAAAACGAAACCACCTCTGAATTATCAAGCCAGGTCGCGGCGCTGCAAAAAGCGCAGGAGAGCCAAAAAAGCGAACTGGAAGGCATTATCAAACAGCAGGCCGAGCAGCTAAACGAAGCCAAACATCAGCAGGAGACGCTGGCCAAACAGCTGGACGAAGTCCAGCAAAAAGTGGCGATCATTTCCGGTAGCGACGCCAAAACCTGGCTGCTGGCCCAGGCCGACTTCCTCGTCAAGCTGGCGGGACGTAAGCTGTGGAGCGATCAGGATGTCACCACCGCCGCCGCGCTGCTGAAAAGCGCCGACGCCAGCCTCGCCGACATGAATGACCCAAGCCTGATCGGCGCCCGCCGGGCGATCACCGACGATATCGCCACCCTCTCCGCGGTGAACCAGGTCGACTACGACGGCATGATCCTCAAGGTTAATCAGCTGGCGAACCAAATCGATAACCTGCGGCTGGCGGATAATAACGATGACGATTCGCCGATGGATTCTGATAGCGATGAGCTCTCCAGCTCCATCAGCGAATGGCGCGTCAATCTGCAGAAAAGCTGGCAGAATTTTATGGACAGTTTTATCACCGTGCGCCGCCGCGATGAAACGGCGGTCCCGCTGCTGGCGCCGAATCAGGATATCTATCTGCGGGAAAATATTCGCTCTCGCCTGCTGGTCGCCGCGCAGGCAGTGCCGCGCCATCAGGAAGAGACCTGGAAACAGTCGCTGGATAACGTCTCGACCTGGGTACGCGCCTATTACGATACCGATGACGCCACCACTAAAGCCTTCCTTGAAGAGGTGGATAAGCTCAGTCAGCAAAGCATTACCATGACGGTGCCGGAAACGCTGCAGAGCCAGGCGTTGCTGGAAAAACTGATGCAGACCCGGGTGCGTAATCTGATGGCGCAGCCTGCCGTTTCCGCAGGCGGCGCGCCCTCGCCTGCACCTGCTGCACCGGCCGCCCCCGCTGCGCCGCAAGGAGAGTAA	MTEQQNQSAVVEETREAVETTPQPENTDKKKAGNKTSLALSAIAIAIAIAAGIGLYGLNKQQASRQNETTSELSSQVAALQKAQESQKSELEGIIKQQAEQLNEAKHQQETLAKQLDEVQQKVAIISGSDAKTWLLAQADFLVKLAGRKLWSDQDVTTAAALLKSADASLADMNDPSLIGARRAITDDIATLSAVNQVDYDGMILKVNQLANQIDNLRLADNNDDDSPMDSDSDELSSSISEWRVNLQKSWQNFMDSFITVRRRDETAVPLLAPNQDIYLRENIRSRLLVAAQAVPRHQEETWKQSLDNVSTWVRAYYDTDDATTKAFLEEVDKLSQQSITMTVPETLQSQALLEKLMQTRVRNLMAQPAVSAGGAPSPAPAAPAAPAAPQGE	PGPT0008495_402	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008495-hemX-K02496	NA	NA
BMS020_07527	1197	hemY	COG3071	Protein HemY	ATGCTGAAAATTCTTTTACTCTTCGCACTGTTGATCGCCGGGATCGTGCTTGGCCCGATGATCGCCGGGCATCAGGGCTACGTCCTGATCCAGACCGATAATTACAATATCGAGACCAGCGTGACCGGGCTGGTGATCATCCTGATCCTCGCCATGGTGGTGCTGTTCGCCATTGAATGGCTGCTGCGCCGCATTTTCCGCACCGGGGCGCATACGCGCGGCTGGTTTGTCGGCCGTAAACGCCGTCGTGCGCGTAAGCAAACCGAGCAGGCGCTGCTTAAGCTGGCGGAAGGTGATTACCAGCAGGTTGAGAAGCTGATGGCGAAAAACGCCGATCACGCCGAACAGCCGGTGGTGAACTATCTGCTGGCGGCGGAAGCGGCCCAGCAGCGCGGCGATGAAGCGCGGGCTAACCAGCATCTGGAGCGCGCCACCGACCTGGCGGGCGATGACCTGATCCCGGTGGAAATCACCCGCGTTCGCCTGCAGCTGGCGCGCAATGAAAATCACGCCGCGCGTCATGGCATCGATAAGCTACTGGAAATCACCCCGCGTCATCCGGAAGTGCTGCGCCTCGCCGAACAGGCTTATACCCGTACCGGCGCCTGGCAGTCGCTGCTGGATATCATTCCGTCGATGGCGAAAGCTAACGTCGGCGATGAAGAGCACCGCGCCGCGCTGGAACAGCTGGCATGGATTGGCCTGATGGACAAAGCGCTGGCCGACGGCGGCAGCGAGGGGCTGCGGGAATGGTGGCGCAACCAGAGCCGTAAAACGCGGGCGCTGGTGCCGCTGCAGGTGGCGATGGCCGAGCGCCTCATCGAGAGCGACGATCACGATACCGCGCAGCAAATTATTATTGATGGTCTGAAGAAACAGTATGACGACCGTCTGGTGATGCCGATCCCGCGCCTGAAGACCAATAACCCGGAACAGCTGGAGAAAGTACTGCGCCAGCAGATCAAAGCCGTTGGCGATCGTCCGCTGCTGTGGAGCACCCTGGGCCAGTCGCTGATGCGGCACGGCGAATGGCAGGAGGCCAGCATCGCCTTCCGCGCCGCGCTTAAGCAGCGTCCGGATGCCTTTGATTACGCCTGGCTGGCGGATGCTCTGGATCGTCTCCATCAACCGGAGGAAGCGGCTACCATGCGCCGCGATGGTCTGCTGCTGACGCTGCAGAATAACCCTCAGCAATAA	MLKILLLFALLIAGIVLGPMIAGHQGYVLIQTDNYNIETSVTGLVIILILAMVVLFAIEWLLRRIFRTGAHTRGWFVGRKRRRARKQTEQALLKLAEGDYQQVEKLMAKNADHAEQPVVNYLLAAEAAQQRGDEARANQHLERATDLAGDDLIPVEITRVRLQLARNENHAARHGIDKLLEITPRHPEVLRLAEQAYTRTGAWQSLLDIIPSMAKANVGDEEHRAALEQLAWIGLMDKALADGGSEGLREWWRNQSRKTRALVPLQVAMAERLIESDDHDTAQQIIIDGLKKQYDDRLVMPIPRLKTNNPEQLEKVLRQQIKAVGDRPLLWSTLGQSLMRHGEWQEASIAFRAALKQRPDAFDYAWLADALDRLHQPEEAATMRRDGLLLTLQNNPQQ				NA	NA	NA	NA	NA
BMS020_07533	1386	yifK	COG1113	putative transport protein YifK	ATGACTGAGAAAAAAGCGGAGCTCCAGCGTGGACTGGAGGCCCGGCATATTGAACTGATCGCCCTTGGGGGGACGATTGGCGTGGGGTTGTTTATGGGGGCGGCCAGTACCCTGAAGTGGGCTGGGCCTTCCGTGCTGCTGGCGTACATTATCGCTGGCCTGTTCGTCTTTTTCATTATGCGCTCAATGGGCGAAATGCTGTTCCTTGAGCCCGTCACCGGCTCCTTCGCGGTGTATGCGCATCGCTATATGAGCCCCTTCTTCGGCTACCTGACCGCCTGGTCGTACTGGTTTATGTGGATGGCGGTGGGCATCTCTGAGATTACCGCCATCGGCGTCTATGTGCAGTTCTGGTTCCCGGAGATGGCGCAGTGGATCCCGGCGTTAATTGCCGTGGGGCTGGTGGCGCTGGCTAACCTCGCGGCGGTCCGGCTGTACGGTGAAATCGAGTTCTGGTTCGCCATGATTAAAGTGACCACCATTATCGTGATGATCGTCGTGGGCCTGGGCGTCATTTTCTTCGGCTTTGGCAACGGCGGCCACTCCATCGGTTTTGGCAACCTGACCGAACATGGCGGCTTCTTTGCCGGCGGCTGGAAGGGCTTCCTGACGGCGCTGTGTATCGTGGTCGCGTCCTATCAGGGCGTGGAGCTCATCGGCATTACCGCTGGTGAAGCGAAAAATCCGCAGGTCACACTGCGCAGCGCGGTGGGCAAAGTGCTGTGGCGGATCCTGATTTTCTACGTCGGCGCGATTTTCGTTATCGTCACCATCTTCCCATGGGATCAAATCGGCTCCAACGGCAGCCCGTTCGTACTGACGTTTGCCAAAATCGGTATTACCGCCGCGGCGGGGATTATCAACTTTGTGGTGCTGACGGCGGCGCTTTCCGGCTGCAACAGCGGGATGTACAGCTGCGGACGTATGCTGTACGCCCTGGCGAAGAACCGTCAGCTGCCGGCGGCGATCGGTAAGGTATCGCGCAACGGCGTTCCGGCCATCGGCGTGGCGCTGTCTATTCTGATCCTGCTGGTAGGCTCCTGCCTGAATTACATCATTCCTAATCCGCAACGGGTGTTTGTCTATGTCTATAGCGCCAGCGTCCTGCCGGGGATGGTGCCCTGGTTTGTGATCCTGATTAGTCAGCTGCGTTTCCGTCGCGTACATCGGGCAGCGATAGCCAGCCATCCGTTCCGTTCGCTGCTGTTTCCGTGGGCCAACTATTTCACCATGGCTTTCCTGATCTGCGTGCTGATCGGGATGGGGCTGAATGATGAAACCCGGATGTCGCTCTTTGTCGGCATTATTTTCCTTGCTGCCGTTACCCTGATTTATAAGGTGTTTGGCCTTGGAAGGCAGGGGCAAGTCAATAATACGGCTGAATAA	MTEKKAELQRGLEARHIELIALGGTIGVGLFMGAASTLKWAGPSVLLAYIIAGLFVFFIMRSMGEMLFLEPVTGSFAVYAHRYMSPFFGYLTAWSYWFMWMAVGISEITAIGVYVQFWFPEMAQWIPALIAVGLVALANLAAVRLYGEIEFWFAMIKVTTIIVMIVVGLGVIFFGFGNGGHSIGFGNLTEHGGFFAGGWKGFLTALCIVVASYQGVELIGITAGEAKNPQVTLRSAVGKVLWRILIFYVGAIFVIVTIFPWDQIGSNGSPFVLTFAKIGITAAAGIINFVVLTAALSGCNSGMYSCGRMLYALAKNRQLPAAIGKVSRNGVPAIGVALSILILLVGSCLNYIIPNPQRVFVYVYSASVLPGMVPWFVILISQLRFRRVHRAAIASHPFRSLLFPWANYFTMAFLICVLIGMGLNDETRMSLFVGIIFLAAVTLIYKVFGLGRQGQVNNTAE	PGPT0000815_1466	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
BMS020_07534	741	wecG	COG1922	UDP-N-acetyl-D-mannosaminuronic acid transferase	ATGACTGGGACCATTTCCGCGCCGTTGTACCTGTTAAGAGGGCTGCAGCTCATAGGCTGGCGCGATATGCAGCACGCTCTGGATTATTTGTATGCCGACGGCGTTCTCCGGGAGGGGACGCTGGTGGCGATTAATGCCGAGAAAATGCTGGCCGTAGAGGATAACCCCGAGGTGCGGGCGCTGATTGAGGCGGCGGAGTTTAAATATGCGGATGGCATCAGCGTGGTACGTTCGCTGCGTAAAAAATATCCGCAGGCCCAGGTGTCCCGCGTGGCGGGAGCCGATCTCTGGGAAGCGTTAATGCAGCGCGCCGGCGCTGAAGGCACTCCGGTGTTTTTGGTCGGCGGTAAACCTGAAGTCCTGGCGCAGACGGCGTCCAGCCTGCGCCAGCGCTGGCAGGTGAATATCGTCGGCAGCCAGGACGGCTATTTTGCGCCTGAGCAACGGCAGGCATTGTTCGAACGCATTCGCGACAGCGGGGCGAAAATCGTCACCGTCGCCATGGGGTCCCCGCGTCAGGAGATCTTTATGCGCGACTGTCGGCGCCTGTACCCGCACGCGCTGTATATGGGCGTCGGCGGCACTTACGATGTTTTCACCGGGCACGTTCATCGGGCGCCGAAGTTCTGGCAGGATTTGGGACTGGAGTGGTTTTACCGCCTGGTTTCCCAGCCGAGCCGGATTAAAAGGCAGGCCCGTCTGCTACGATATTTACGTTGGCATTACACCAATAAACTCTAA	MTGTISAPLYLLRGLQLIGWRDMQHALDYLYADGVLREGTLVAINAEKMLAVEDNPEVRALIEAAEFKYADGISVVRSLRKKYPQAQVSRVAGADLWEALMQRAGAEGTPVFLVGGKPEVLAQTASSLRQRWQVNIVGSQDGYFAPEQRQALFERIRDSGAKIVTVAMGSPRQEIFMRDCRRLYPHALYMGVGGTYDVFTGHVHRAPKFWQDLGLEWFYRLVSQPSRIKRQARLLRYLRWHYTNKL	PGPT0023235_67	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023235-wecG|rffM-K02852	NA	NA
BMS020_07535	1347	wzyE		putative ECA polymerase	ATGACGTTAATGCAATTTAGCGGGCTGCTGGTGGTCTGGCTGCTGTCGACGCTGTTTATCGCCACCGCCACCTGGTTTGAGTTCCGTCGGGTACGCTTCAACTTCAACGTCTTTTTCTCGTTGCTGTTTCTGCTGACCTTTTTCTTCGGTTTCCCGCTGACCAGTATTCTGGTGTTCCGCTTTGACGTCAGCGTGGCGCCGCCGGAGATTTTGCTGCAGACGCTGCTGATCGCGGTGTGCTTCTACGCGATCTACTACGTGACCTATAAAACGCGGCTGCGTCCGGCATCGCGTGAGGTTACGCGTCGGCCGCTGTTTACCATGAACCGGGTGGAAACCCATCTGGCGTGGGGCATACTGATGGGGCTGGCGCTGCTGTGCGTCGGCATCTTCTTCGCCCACAATGGTTTCCTGCTGTTTAAGCTCAACTCCTACAGCCAGATTTTCTCTGCTGAAGTCTCCGGCGTGGCGTTGAAGCGCTTCTTCTACTTCTTTATCCCGGCGATGCTGGTGGTCTATTTCCTGCGCCAGGATTATAAGGCGTGGATTTTCTTCCTCGTCAGCACCGTGGCCTTTGGTCTGCTGACCTACGCTATCGTCGGCGGGACTCGCGCCAATATCATCATCGCCTTCGCCATCTTCCTGTTTATCGGCATTATTCGCGGCTGGATCAGCTTGTGGATGCTGGCTGCGGCGGGCGTGCTGGGCATCGTCGGCATGTTCTGGCTGGCGCTGAAGCGCTACGGGATGAACGTCAGCGGCGACGAAGCGTTTTATACCTTCCTCTATCTCACACGCGATACCTTCTCGCCGTGGGAGAACCTGGCGCTGCTGCTGCAAAACTATGACAAGATCGATTTCCAGGGGCTGGCGCCGATGATCCGCGACTTCTACGTCTTTATCCCCAGCTGGATGTGGCACGGTCGTCCGACGATGGTGCTCAATACCGCCAACTACTTCACCTGGGAAGTGTTAAACAACCATTCGGGGCTGGCGATTTCGCCGACGCTGATTGGCTCGCTGGTGGTGATGGGCGGCGTCTGGTTTGTGCCGCTGGGCGCTGTGGCGGTCGGGTTGATTATTAAATGGTTCGACTGGCTGTATGAGCTCGGCAACCGGGAGAGCAATCGCTATAAAGCGGCAATCCTGCATAGTTTCTGTTTCGGCGCTATCTTCAACATGATAGTGCTGGCGCGCGAGGGGCTGGATTCGTTCGGCTCCCGCGTGGTGTTTTTCCTCGTGATCTTTGGTATCTGCTTGCTGGCGGCGAAACTGCTGTACTGGTTCCTGGATAGCGTGGGACTGATTCATAAGCGCGTAAAACCGCTTTCGCAACCGCAAGTCTGA	MTLMQFSGLLVVWLLSTLFIATATWFEFRRVRFNFNVFFSLLFLLTFFFGFPLTSILVFRFDVSVAPPEILLQTLLIAVCFYAIYYVTYKTRLRPASREVTRRPLFTMNRVETHLAWGILMGLALLCVGIFFAHNGFLLFKLNSYSQIFSAEVSGVALKRFFYFFIPAMLVVYFLRQDYKAWIFFLVSTVAFGLLTYAIVGGTRANIIIAFAIFLFIGIIRGWISLWMLAAAGVLGIVGMFWLALKRYGMNVSGDEAFYTFLYLTRDTFSPWENLALLLQNYDKIDFQGLAPMIRDFYVFIPSWMWHGRPTMVLNTANYFTWEVLNNHSGLAISPTLIGSLVVMGGVWFVPLGAVAVGLIIKWFDWLYELGNRESNRYKAAILHSFCFGAIFNMIVLAREGLDSFGSRVVFFLVIFGICLLAAKLLYWFLDSVGLIHKRVKPLSQPQV	PGPT0023280_243	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023280-wzyE|rffT-K02853	NA	NA
BMS020_07536	1077	wecF		TDP-N-acetylfucosamine:lipid II N-acetylfucosaminyltransferase	ATGACAGCACTGATACATGTACTGGGATCGGATATCCCGCATCATAACCAGACCGTACTGCGGTTCTTTAACGACGAACTGGCCGCCGATCCGCAGGCCAGGAGATTTATGGTCGTCGGTGATGAGGCCAGCGTGCGTGATGGGTATCCGGCGCTGGACATCACCTGCTATCCGGGGAAGAAGTCGCTGGCGCAGGCGGTGATTGCGCAAGCCAAAGCCAACCGTCAGCAGCGCTTTTTCTTCCACGGCCAGTTCAATACCGGCCTGTGGCTGGCGCTGTTGAGCGGCGGTATCCGCCCATCGCAGTTTAACTGGCATATCTGGGGGGCGGATCTGTATGAAAACGCGACCAGCCTGAAGTTCCGCCTGTTCTATCCGCTGCGCCGCCTGGCGCAGGGGCGGGTAGGGCGCGTTTTCGCCACCCGCGGCGATCTTAGCTGGTTCGCTAACCGCCATCCGCGTGTTCCGGGCGAACTGCTCTACTTCCCGACCCGTATGGATCCGGCGCTGAATACCCTGGCCGAAAACGCGCCGCGCGGCGACACGCTGACCATTCTGGTGGGCAACTCCGGGGATCGCAGCAATGAACATATTGCCGCGCTGAAGGCTATCCATCAGCAGTTTGGCGATACGGTAAACGTCATCGTGCCGATGGGCTATCCGGCGAATAACGAGGCCTATATCAATGAGGTTCGTGAGGCGGGGGCGGCGCTGTTTAATCGCGAGCATCTGCAGATCCTCAGCGAGAAGCTTGAGTTTCATGATTATCTGGCACTGCTGCGCCGCTGCGATCTGGGCTATTTCCTGTTTGCGCGTCAGCAGGGGATCGGCACCCTGTGCCTGTTGATTCAGGCGGGCATTCCCTGCGTGCTCAACCGCGAAAACCCGTTCTGGCAGGATATGACCGAGCAGCATGTGCCGGTGCTGTTCACCAGCGATGCGCTGGACGTCAGCGTGGTGCGCGAAGCGCAGCGCCAGCTGGCGAGCGTGGATAAGTCGGGTATCGCTTTCTTCCGGCCGAACTATCTGACGGGCTGGCAGCGGGCGCTACGGTTAGCGGCGGAGGGGCAGGCATGA	MTALIHVLGSDIPHHNQTVLRFFNDELAADPQARRFMVVGDEASVRDGYPALDITCYPGKKSLAQAVIAQAKANRQQRFFFHGQFNTGLWLALLSGGIRPSQFNWHIWGADLYENATSLKFRLFYPLRRLAQGRVGRVFATRGDLSWFANRHPRVPGELLYFPTRMDPALNTLAENAPRGDTLTILVGNSGDRSNEHIAALKAIHQQFGDTVNVIVPMGYPANNEAYINEVREAGAALFNREHLQILSEKLEFHDYLALLRRCDLGYFLFARQQGIGTLCLLIQAGIPCVLNRENPFWQDMTEQHVPVLFTSDALDVSVVREAQRQLASVDKSGIAFFRPNYLTGWQRALRLAAEGQA	PGPT0023230_328	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023230-wecF|rffT-K12582	NA	NA
BMS020_07537	1251	wzxE	COG2244	Lipid III flippase	ATGTCGTTAGCAAAAGCCTCATTGTGGACGGCGGCCTCGACGCTGGTCAAAATCGGCGCCGGGCTGTTGGTCGTCAAGCTGCTGGCCGTCTCGTTTGGGCCCGCGGGCGTTGGTCAGGCCGGTAACTTCCGGCAACTGGTCACCGTGCTCGGCGTGCTGGCCGGGGCCGGGATATTTAACGGCGTCACGAAGCTGGTGGCTCAGCATCACGACGATCCCCCGCGCCTGAAGCAGGTGGTGGGCACCTCGTCGGCGATGGTGCTTGGCTTTTCCACGCTGCTGGCGCTGGTGTTTTTACTGGCGGCGGCGCCGATAAGCCAGGGGCTGTTCGGTCATACTCATTATCAGAATCTGGTACGGCTGGTGGCGCTGGTGCAGATGGGGATCGCCTGGGCGAACTTCCTGCTGGCGCTGATGAAAGGCTTTCGCGATGCGGCGGGAAACGCCTTCTCGCTGATTGCCGGCAGCCTGATTGGCGTGGCGGCCTATTATGCCTGTTACTACTTCGGTGGTTACCAGGGGGCGCTGCTGGGGCTGGCGTTAGTGCCGGCGCTGGTGGTGATCCCGGCGGGCATCATGCTCTGGCGGCGGGGTAATATTCCGCTGAGCGCCCTGCGTCCGCGCTGGGATAACGGTCTGGCGGGACAGCTATCGAAATTTACCCTGATGGCGCTGATAACCTCAGTGACCCTGCCGGTGGCTTATGTGATGATGCGTAATCTGCTGGCGGCGCATTATGGCTGGGAGGCGGTCGGTATCTGGCAGGGGGTGAGCAGTATCTCCGATGCCTATCTGCAGTTTATTACCGCCTCGTTCAGCGTCTATCTCCTGCCGACGCTGTCGCGGCTGAGCGCCAAAACGGATATCACCCGCGAGATAGTCAAGTCGCTGAAATTCGTCCTGCCGGCAGTGGCGGCGGCGAGCCTGACGGTCTGGCTGCTGCGCGATTTTGCCATCTGGCTGCTGTTTTCCGATCGCTTTACCGCGATGCGTGACCTGTTCGCCTGGCAGTTGGTGGGCGACGTTTTAAAAGTAGGCGCCTACGTCTATGGCTATCTGGTGATCGCTAAAGCGTCGCTGCGTTTTTATATTCTGACGGAAATCAGCCAGTTCACGCTGCTGACCGCATTCTCACACTGGCTTATACCGGCGCACGGCGCGGTTGGCGCGGCGCAGGCGTATATGGCCACTTATATTGTTTATTTCGCCCTTTGTAGTGGCGTGTTTTTACTCTGGCGTAAACGGGCATGA	MSLAKASLWTAASTLVKIGAGLLVVKLLAVSFGPAGVGQAGNFRQLVTVLGVLAGAGIFNGVTKLVAQHHDDPPRLKQVVGTSSAMVLGFSTLLALVFLLAAAPISQGLFGHTHYQNLVRLVALVQMGIAWANFLLALMKGFRDAAGNAFSLIAGSLIGVAAYYACYYFGGYQGALLGLALVPALVVIPAGIMLWRRGNIPLSALRPRWDNGLAGQLSKFTLMALITSVTLPVAYVMMRNLLAAHYGWEAVGIWQGVSSISDAYLQFITASFSVYLLPTLSRLSAKTDITREIVKSLKFVLPAVAAASLTVWLLRDFAIWLLFSDRFTAMRDLFAWQLVGDVLKVGAYVYGYLVIAKASLRFYILTEISQFTLLTAFSHWLIPAHGAVGAAQAYMATYIVYFALCSGVFLLWRKRA	PGPT0023275_168	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023275-wzxE-K16693	NA	NA
BMS020_07538	1131	wecE	COG0399	dTDP-4-amino-4,6-dideoxygalactose transaminase	ATGATCCCATTTAACGCGCCGCCGGTGGTTGGAACCGAGCTTGATTACATGCAGTCTGCGATGAACAGCGGCAAGCTGTGCGGCGACGGCGGCTTTACGCGCCGCTGCCAGCAGTGGATGGAGCAGCGTTTTGGCACGGCAAAAGCCCTGCTAACCCCTTCCTGCACGGCTTCGCTGGAGATGGCCGCGCTGCTGCTGGATATCCAGCCGGGCGACGAAGTGATTATGCCCAGCTATACCTTTGTCTCCACCGCCAATGCCTTTGTGCTGCGCGGGGCGAAAATCGTCTTCGTCGATATCCGTCGCGATACGATGAATATCGATGAAACGTTAATCGAAGCCGCTATCACCGATAAAACCCGGGCGATCGTCCCGGTGCACTATGCCGGCGTAGCCTGCGAGATGGATACCATCATGGCCATCGCCGACAAGTACAACCTGTTCGTGGTGGAAGACGCCGCGCAGGGGGTGATGTCCACCTACAAGGGGCGCGCGCTGGGCACCATCGGCCATATCGGCTGTTTCAGCTTCCATGAAACCAAAAACTACACCGCCGGCGGTGAGGGCGGGGCGACGCTGATCAACGATCGCACGCTGGTGGAACGTGCGGAGATCATTCGCGAAAAAGGCACCAACCGCAGCCAGTTCTTTCGTGGCCTGGTGGATAAATATACCTGGCGGGACATTGGCTCCAGCTATCTGATGTCCGACCTGCAGGCCGCCTATCTGTGGGCGCAGCTGGAAGCGGCGGAGCGCATCAACCAGCAGCGTCTGGCGCTGTGGCAGAATTACTATGACGCGCTGCTGCCGCTGGCCCGCGCGGGACGTATCGAACTGCCGACGGTCCCGGCTGACTGCGGGCAAAACGCGCACATGTTCTACATTAAGCTGCGCGATATCGAGGATCGCAGCAGGCTTATCGCCTGGCTGAAAGAGGCGGAGATCCTCGCGGTATTCCATTACATTCCCCTGCACAGCTGTCCGGCAGGCGAACACTTCGGCGAATTCCACGGTGAAGACCGCTATACCACCCAGGAGAGTGAGCGCCTGGTGCGCCTGCCGCTGTTTTACAATCTGTCTGTGGTGAACCAGCGGACGGTGATTAACTCGCTGCTGAGCTACTTCTCCTGA	MIPFNAPPVVGTELDYMQSAMNSGKLCGDGGFTRRCQQWMEQRFGTAKALLTPSCTASLEMAALLLDIQPGDEVIMPSYTFVSTANAFVLRGAKIVFVDIRRDTMNIDETLIEAAITDKTRAIVPVHYAGVACEMDTIMAIADKYNLFVVEDAAQGVMSTYKGRALGTIGHIGCFSFHETKNYTAGGEGGATLINDRTLVERAEIIREKGTNRSQFFRGLVDKYTWRDIGSSYLMSDLQAAYLWAQLEAAERINQQRLALWQNYYDALLPLARAGRIELPTVPADCGQNAHMFYIKLRDIEDRSRLIAWLKEAEILAVFHYIPLHSCPAGEHFGEFHGEDRYTTQESERLVRLPLFYNLSVVNQRTVINSLLSYFS	PGPT0022845_518	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0022845-wecE|rffA-K02805	NA	NA
BMS020_07539	675	wecD	COG0454	dTDP-fucosamine acetyltransferase	GTGCCCGTCCGCGCCAGTATTGATCCCCTGGAGTGGGAGAACCGCTTCTTTGCCGTTAACAGCGCCGTCGTTCACTTTGACGAGCATGCGCCGCGGCTGACGCCTGAGGCGCTGGCGGGGTGGTCGCGAGTGCAGGCGAAGGTAGCCGCCAGCGACACCGTCCGGCTCGACGCGCTGCAGCAGCTGGGTTTTCAGCTGGTGGAAGGCGAGGTCGATCTGGCGCTACCGGTGGGCAACCCTGCGGATGCGGGCGCCGACGTCGCCGTGGAGGCGGATATTGCGCCACTGCGCGAGCAGGCGGCGCAGGCCTTTGCGATGAGCCGCTTTCGCGCGCCCTGGTATGCTGCCGACGCCAGCGGCCGCTTCTATGCCCAGTGGATTGAAAATGCGGTGCGCGGCACCTTCGATCATCAGTGCCTGATTTACCGCCATCCAGAGGGCGATATTCGCGCCTTTGTCTCTCTGCGCCAGCTCAATGCCACCGAGGCGCGTATCGGCCTGCTGGCCGGACGCGGCGCCGGGGCGCAGCTGATGCAGGCGGCGCGGTACTGGGCCGCTTCGCGCGGACTTTCTACACTGCGGGTGGCGACCCAGATGGGCAACACCGCCGCGCTTAAACGTTATATTCTCAGCGGTGCTAATGTGGAAAGCACCGCCTACTGGCTATACAGGTGA	MPVRASIDPLEWENRFFAVNSAVVHFDEHAPRLTPEALAGWSRVQAKVAASDTVRLDALQQLGFQLVEGEVDLALPVGNPADAGADVAVEADIAPLREQAAQAFAMSRFRAPWYAADASGRFYAQWIENAVRGTFDHQCLIYRHPEGDIRAFVSLRQLNATEARIGLLAGRGAGAQLMQAARYWAASRGLSTLRVATQMGNTAALKRYILSGANVESTAYWLYR	PGPT0022850_357	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0022850-rffC|wecD-K16704	NA	NA
BMS020_07540	882	rffH_2	COG1209	Glucose-1-phosphate thymidylyltransferase 2	ATGAAAGGTATTATTCTGGCGGGGGGTTCCGGAACGCGACTGCATCCCATCACCCGCGGCGTGTCGAAGCAGCTGTTGCCGATCTACGATAAGCCGATGATCTACTACCCGCTGTCGGTATTAATGCTGGCCGGGATCCGTGAGATCCTGATCATCACCACGCCGGACGATCTGCGCGATTTTCAGCGCCTGCTCGGCGATGGCTCAGAGTTTGGCATTGCGCTGCACTATGCCGTACAGCCGACGCCGGATGGTTTAGCCCAGGCGTTTATCATCGGCGAAGCCTTTCTTAACGGCGAACCGGCGTGCCTGGTGTTAGGCGACAACATCTTCTTCGGCCAGAGCTTCAGCCCCAAGCTGCGCAGCGTGGCTGCCCGCACGGAAGGGGCGACGATTTTTGGCTATCAGGTGATGGATCCTGAGCGCTTTGGCGTGGTGGAGTTTGATGACAACTTTCGCGCGCTGTCGCTGGAAGAGAAGCCGAAGCAGCCGAAGTCGAACTGGGCGGTCACCGGTCTCTATTTCTACGATGGCAAGGTGGCGGAGTACGCCAAACGGGTCAAGCCATCCGAGCGCGGCGAACTGGAAATCACCTCCATCAACCAGATGTACCTTGAAGATGGCGCACTGACCGTCGAACTGCTTGGACGCGGCTTTGCGTGGCTGGATACCGGCACCCACGATAGCCTGATCGAGGCCAGCATGTTCGTGCAGACCGTCGAGAAGCGTCAGGGCTTCAAAATCGCCTGTCTGGAAGAGATCGGCTGGCGCAACGGCTGGCTGGACGACGACGGCGTCAAACACGCGGCGAAGCGGTTGGAAAAAACCGGCTACGGCCAATATCTGCTGGATCTGCTCCGTGCCCGTCCGCGCCAGTATTGA	MKGIILAGGSGTRLHPITRGVSKQLLPIYDKPMIYYPLSVLMLAGIREILIITTPDDLRDFQRLLGDGSEFGIALHYAVQPTPDGLAQAFIIGEAFLNGEPACLVLGDNIFFGQSFSPKLRSVAARTEGATIFGYQVMDPERFGVVEFDDNFRALSLEEKPKQPKSNWAVTGLYFYDGKVAEYAKRVKPSERGELEITSINQMYLEDGALTVELLGRGFAWLDTGTHDSLIEASMFVQTVEKRQGFKIACLEEIGWRNGWLDDDGVKHAAKRLEKTGYGQYLLDLLRARPRQY	PGPT0022600_2581	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
BMS020_07541	1068	rffG_3	COG1088	dTDP-glucose 4,6-dehydratase 2	GTGAGAACCATTCTGGTCACCGGCGGCGCGGGCTTCATTGGTTCGGCGGTAGTGCGGGAGATTATCCAGCACACCGCCGATCGCGTGGTGGTGGTGGATAAACTGACCTACGCCGGCAATTTAATGTCGCTGGCGCCGGTGGCGCAGGATGCGCGTTTCGCCTTTGAACAGGTGGATATCTGCGACCGCGGCGAGCTGGACCGTATTTTCGTGCAGTATCAACCGGATACAGTGATGCACCTGGCGGCGGAAAGCCATGTCGATCGGTCGATTGACGGCCCGGCGGCATTTATTGAAACCAATATCGTGGGCACCTATACGCTGCTGGAGGCGGCCCGTAGCTGGTGGAATACGCTGGCTACGGCGCAAAAATCGGCGTTTCGCTTCCATCACATCTCCACCGATGAGGTGTATGGCGATCTGCACGGCAGCGATGATTTCTTTACCGAGACCACGCCCTATGCGCCAAGCAGCCCCTATTCGGCCTCGAAAGCCAGCAGCGACCACCTGGTGCGTGCCTGGCTGCGGACCTATGGCCTGCCGACGCTTATCACCAACTGCTCGAATAACTACGGCCCATATCACTTCCCCGAGAAGCTGATCCCGCTGACCATCCTCAACGCGCTGGCAGGCAAGCCGCTGCCAGTGTATGGCAATGGACAGCAGATCCGCGACTGGCTGTACGTGGAAGATCACGCCAGAGCGCTGTATCTGGTGGCGACCCGCGGCGAACCGGGCGAGACTTACAATATCGGCGGTCATAACGAGCGTAAAAACATCGAGGTGGTGGAAACCATTTGCGAATTGCTCGAAGCGCTGGCGCCGCATAAGCCGCAGGGCGTGGCGCACTATCGCGACCTGATCGCCTTTGTTGCCGATCGCCCGGGCCACGATCTGCGCTATGCCATTGATGCCTCGAAGATTGCCCGTGAGCTGGGCTGGACGCCGGCTGAGACCTTCACTTCCGGTATGCGTAAGACCGTGGCGTGGTATCTGGCGAACGAGACATGGTGGCGCCAGGTTCAGGACGGAAGCTATCAGGGCGAGCGTCTTGGACTGCAAGGCTAA	MRTILVTGGAGFIGSAVVREIIQHTADRVVVVDKLTYAGNLMSLAPVAQDARFAFEQVDICDRGELDRIFVQYQPDTVMHLAAESHVDRSIDGPAAFIETNIVGTYTLLEAARSWWNTLATAQKSAFRFHHISTDEVYGDLHGSDDFFTETTPYAPSSPYSASKASSDHLVRAWLRTYGLPTLITNCSNNYGPYHFPEKLIPLTILNALAGKPLPVYGNGQQIRDWLYVEDHARALYLVATRGEPGETYNIGGHNERKNIEVVETICELLEALAPHKPQGVAHYRDLIAFVADRPGHDLRYAIDASKIARELGWTPAETFTSGMRKTVAWYLANETWWRQVQDGSYQGERLGLQG	PGPT0022625_1302	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
BMS020_07542	1263	wecC	COG0677	UDP-N-acetyl-D-mannosamine dehydrogenase	ATGAGTTTTTCTACCATTTCAGTGATTGGCCTTGGCTATATCGGGCTGCCAACCGCTGCCGCGTTCGCCTCCCGGCAGAAGCGGGTGGTCGGCGTTGATGTCAATCAACATGCCGTGGAGACCATTAACCGTGGAGAGATTCATATCGTGGAGCCGGATCTGGCGAGCGTGGTGAAGACCGCGGTCGAGCAGGGATATTTAAGCGCCACCACCACCCCGGTGGCAGCGGATGCCTACCTGATTGCCGTGCCGACGCCGTTTAAAGATCGCCACGAGCCGGATATGGTGTTTGTCGAGTCGGCGGCTAAATCCATTGCGCCGACGTTAAAGAAAGGCTCGCTGGTGATCCTCGAGTCCACCTCGCCGGTCGGGTCGACCGAACAGATGGCTGAGTGGCTGGCGGAGATGCGCCCGGACCTCAGCTTTCCCCAGCAGGTGGGTGAAGCGGCGGACGTGAATATCGCCTACTGCCCGGAGCGGGTATTGCCCGGCCAGGTGATGGTCGAGCTGATTAAAAACGACCGCGTTATCGGCGGCATGTCGCCGGTCTGCTCCGCTCGCGCCAGCGAGCTGTATAAAATCTTCCTCGAAGGCGAATGTGTGGTGACCAACTCGCGTACCGCCGAGATGTGCAAGCTGACGGAAAACAGCTTCCGCGACGTCAACATCGCTTTTGCCAACGAGCTGTCGCTGATTTGCGCCGATCAGGCCATTAACGTCTGGGAACTGATCCGCCTGGCGAACCGCCATCCGCGAGTGAATATCCTGCAGCCGGGACCGGGCGTCGGCGGCCACTGTATCGCCGTCGACCCGTGGTTTATCGTGGCGCAAAACCCGCAGCAGGCGCGTCTGATCCGCACGGCTCGTGAGGTCAACGACCACAAGCCGGAATGGGTTATCGAACAGGTGAAGGCGCAGGTAGCTGACTGCCTGAATGCCACCAACAAACGGGCCAGCGAGCTGACCATTGCCTGTTTTGGCCTCGCCTTTAAGCCGAATATTGACGACCTGCGCGAAAGCCCGGCAATGGAAATTGCCGCGCAGATTGCCCGCTGGCACAGCGGCACGACGCAGGTAGTTGAGCCCAACATTCACGCGCTGCCGCAGAAACTCGACGGTCTGTGTACGCTGGCGACCCTCGATGCGGCGCTGGCCAGCGCCGACGTGCTGGTGATGCTGGTCGATCACAATGAATTTAAAGCCGTTAGCGGCGACAGCGTCACCCAGGCGTATATCATCGACACCAAAGGAGTGTGGCGGTGA	MSFSTISVIGLGYIGLPTAAAFASRQKRVVGVDVNQHAVETINRGEIHIVEPDLASVVKTAVEQGYLSATTTPVAADAYLIAVPTPFKDRHEPDMVFVESAAKSIAPTLKKGSLVILESTSPVGSTEQMAEWLAEMRPDLSFPQQVGEAADVNIAYCPERVLPGQVMVELIKNDRVIGGMSPVCSARASELYKIFLEGECVVTNSRTAEMCKLTENSFRDVNIAFANELSLICADQAINVWELIRLANRHPRVNILQPGPGVGGHCIAVDPWFIVAQNPQQARLIRTAREVNDHKPEWVIEQVKAQVADCLNATNKRASELTIACFGLAFKPNIDDLRESPAMEIAAQIARWHSGTTQVVEPNIHALPQKLDGLCTLATLDAALASADVLVMLVDHNEFKAVSGDSVTQAYIIDTKGVWR	PGPT0022670_775	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-UDP-N-ACETYL-D-MANNOSAMINE_METABOLISM	CE-EPS-UDP-N_ACETYL_D_MANNOSAMINE_MODIFICATION,PGPT0022670-wecC-K02472	NA	NA
BMS020_07543	1086	wecB	COG0381	UDP-N-acetylglucosamine 2-epimerase	ATGGCTCCTCTGGTCCATGCGCTGGCAAAGGATCCTCATTTTGAGGCGAAAGTATGCGTGACCGCGCAGCATCGGGAGATGCTCGATCAGGTGTTGAAACTATTCTCCATCACCCCGGACTACGATCTTAACATCATGAAGCCGGGGCAGGGGCTCACCGAGATCACCTGCCGTATTCTTGAGGGGCTGAAGCCGGTTCTGGAGTCGTTTAAACCCGACGTGGTGCTGGTGCATGGCGATACCACCACCACGATGGCGGCGAGCCTGGCGGCGTTTTACCAGCGCATACCGGTGGGCCATGTAGAGGCGGGTCTGCGGACCGGCGATTTAAGTTCGCCGTGGCCGGAAGAGGGCAACCGTACGCTGACCGGGCATCTGGCGACGTACCATTTCGCCCCTACGGAAACCTCGCGGCAGAATCTGCTGCGGGAAAACATTGCCGACAGTCGCATCACGGTGACCGGGAATACGGTCATCGATGCCCTATTCTGGGTGCGCGATCGCGTTCTGGGCGATGAAGCGCTACGGGAGACCCTGCTGCAGCGCTATCCTTTCATTAGCCACGGTAAAAAAATGATTCTGGTTACCGGCCATCGGCGGGAAAGCTTTGGGCTCGGCTTTGAGCAGATCTGCCAGGCGCTGGCGGAGATAGCCCATACCCACCCTGAGGTGCAGATTGTCTATCCGGTTCACCTGAATCCTAACGTCAGCGAACCGGTGAACCGTATTCTCGGCCATATCGACAACGTGATGTTGATTGAACCGCAGGACTACCTGCCGTTCGTCTGGTTGATGGATCGGGCCTGGCTCATCCTGACCGATTCCGGTGGTATTCAGGAAGAGGCGCCTTCCCTGGGGAAACCGGTGCTGGTCATGCGCGATATGACCGAACGTCCGGAAGCGGTGGCCGCCGGTACCGTCTGTCTGGTGGGCACCGACAGCCAGCGCATCGTGGCGGAAGTCACGCGACTGCTGGAGGATGATGCCGCATACCAGGCGATGAGCCGCGCGCATAATCCTTATGGCGATGGCGAAGCATGTCGTCGAATTTTGTCTGCACTTAAAAATAATCAGGTAACGCTATGA	MAPLVHALAKDPHFEAKVCVTAQHREMLDQVLKLFSITPDYDLNIMKPGQGLTEITCRILEGLKPVLESFKPDVVLVHGDTTTTMAASLAAFYQRIPVGHVEAGLRTGDLSSPWPEEGNRTLTGHLATYHFAPTETSRQNLLRENIADSRITVTGNTVIDALFWVRDRVLGDEALRETLLQRYPFISHGKKMILVTGHRRESFGLGFEQICQALAEIAHTHPEVQIVYPVHLNPNVSEPVNRILGHIDNVMLIEPQDYLPFVWLMDRAWLILTDSGGIQEEAPSLGKPVLVMRDMTERPEAVAAGTVCLVGTDSQRIVAEVTRLLEDDAAYQAMSRAHNPYGDGEACRRILSALKNNQVTL	PGPT0018905_1695	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
BMS020_07544	1017	wzzE	COG3765	ECA polysaccharide chain length modulation protein	GTGAACGTTGAGAACGAGCTGGATATTCGCGGGCTGTTTCGCGCTTTATGGGCAGGAAAAGGCTGGATAGTCGGCGGTGCTGTACTCTTCGCCGCTATCGTGTTGGTGTATACCTTCTTTGCTCGCCAGGAGTGGAGCGCCACGGCGATCACCGATCGGCCTACTGTCAACATGTTGGGGGGGTACTATTCCCAGCAGCAGTTCTTACGCAATCTGGATATCAAAGCCGACCTGGCCTCGGTGGATCAGCCTTCCGCCATGGATGAAGCGTATAAAGAGTTCATCATGCAGTTGGCCTCCTGGGATACCCGGCGTGATTTCTGGCTGCAAACGGACTACTACAAGCAGCGACAGTCGGGTAATGCTCGCGCCGATGCGGCGATGCTGGATGATTTAATTAACAATATCCAGTTTATGCCAGGCGATGCGGCCAAGAGCGTCAACGACAGCGTCAAACTGACCGCCGAGACCGGGCAGGATGCCAATAATTTGCTGCGCCAGTATGTGGCTTTCGCCAGCCAGCGGGCGGCCGGCCATCTTAACGACGAGCTCAAAGGCGCCTGGGCGGCGCGAACGGTGCAAATGAAGGCGCAGGTGAAGCGCCAGGAAGAGGTGGCCGAGGCTATTTTCAACCGCCGGACCCACAGCGTGGAGCAAGCGCTGAAGGTCGCTCAGCAGCATAATATTTCGCGCAGCGAAACGGATGTTCCTGCCGATCAGTTGCCGGATTCAGAGCTATTTTTATTGGGCAGGCCGATGCTGCAGGCCAGACTGGAAAACCTGCAGGCCGTCGGACCGGAATATGACCTCGATTACGACCAGAATCGCGCCATGCTGAGCACGTTGAACGTCGGTCCAACGTTGGATCCGCGTTTTCAGACTTACCGGTATTTGCGAACGCCGGAAGAACCTGTAAAACGCGATAGCCCTCGCCGTGTATTTCTGATGGTGATGTGGGGGATTGTGGGTGCGCTCATCGGCGCAGGCGTGGCGTTATCGCGTCGTCGTGTCCTGTGA	MNVENELDIRGLFRALWAGKGWIVGGAVLFAAIVLVYTFFARQEWSATAITDRPTVNMLGGYYSQQQFLRNLDIKADLASVDQPSAMDEAYKEFIMQLASWDTRRDFWLQTDYYKQRQSGNARADAAMLDDLINNIQFMPGDAAKSVNDSVKLTAETGQDANNLLRQYVAFASQRAAGHLNDELKGAWAARTVQMKAQVKRQEEVAEAIFNRRTHSVEQALKVAQQHNISRSETDVPADQLPDSELFLLGRPMLQARLENLQAVGPEYDLDYDQNRAMLSTLNVGPTLDPRFQTYRYLRTPEEPVKRDSPRRVFLMVMWGIVGALIGAGVALSRRRVL	PGPT0023270_252	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023270-wzz|wzzE-K05790	NA	NA
BMS020_07545	1104	wecA_2	COG0472	Undecaprenyl-phosphate alpha-N-acetylglucosaminyl 1-phosphate transferase	GTGAATTTACTCACTGCTATTACTGAATTAATCAGTATTTTCTTATTCACGACCCTCTTTATTTTTGTCGCGCGGAAAGTGGCAAAAAAGATTGGGTTAGTGGATAAACCAAACTATCGCAAACGGCATCAGGGGTTGATTCCGTTGGTCGGTGGTATCTCAGTTTATGCAGGCATCTGTTTCACCTTCGCCATCGCCGATTATTATATTCCTCACGCCTCGCTGTATCTGGCCTGTGCGGGGGTATTGGTGCTGGTTGGCGCGCTGGACGATCGCTTCGACATCAGCGTGAAAATTCGCGCGGTCATTCAGGCCGCGATCGCCGTGATTATGATGATGGCAGGGAATCTGCATCTGAGTAGTCTGGGCTTTATTTTTGGCTCGTGGGAGCTGGTGCTGGGGCCTTTCGGCTTCTTCCTCACTCTGTTTGCCGTCTGGGCCGCCATCAACGCGTTTAATATGGTCGATGGGATTGACGGCCTGCTCGGCGGCCTGTCATCCGTCTCCTTTGCGGCGACCGGGATCATCCTCTGGTTTGACGGTCAGTACAGCCTGGCGATGTGGTGTTTTGCGATGATCGCCGCCATTCTGCCCTATATTCTTCTTAATCTTGGCGCCCTCGGCCGCCGCTATAAAGTTTTTATGGGTGACGCCGGCAGCACCATGATTGGCTTCACCATCATCTGGATCCTGCTGGAAACCACACAAGGTAAAACGCATCCCATCAGCCCGGTCACCGCGCTGTGGATTATCGCTATCCCGTTGATGGATATGGTGGCGATTATGTATCGCCGCCTGCGCAAAGGCATGAGTCCTTTCTCACCGGACCGGCAGCATATTCATCATTTGATCATGCGCGCCGGGTTTACTTCCCGCCAGGCGTTCGTCCTGATCACCCTGGCCGCTGCCCTGCTGGCGCTGGTTGGCGTCGCGGCGGAATATACCCGCATTGTGCCGGAATGGGTGATGTTAATTCTCTTTTTGGTGGCCTTCTTCCTTTATGGCTACTGTATTAAGCGCGCCTGGAAAGTGGCGCGTCTGGTTAAGCGCATCAGACGCAGAATTCGGCGACACAGCGGCAATAATCCGAAACTAACCAAGTAA	MNLLTAITELISIFLFTTLFIFVARKVAKKIGLVDKPNYRKRHQGLIPLVGGISVYAGICFTFAIADYYIPHASLYLACAGVLVLVGALDDRFDISVKIRAVIQAAIAVIMMMAGNLHLSSLGFIFGSWELVLGPFGFFLTLFAVWAAINAFNMVDGIDGLLGGLSSVSFAATGIILWFDGQYSLAMWCFAMIAAILPYILLNLGALGRRYKVFMGDAGSTMIGFTIIWILLETTQGKTHPISPVTALWIIAIPLMDMVAIMYRRLRKGMSPFSPDRQHIHHLIMRAGFTSRQAFVLITLAAALLALVGVAAEYTRIVPEWVMLILFLVAFFLYGYCIKRAWKVARLVKRIRRRIRRHSGNNPKLTK	PGPT0015240_1339	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
BMS020_07546	1260	rho_1	COG1158	Transcription termination factor Rho	ATGAATCTTACCGAATTAAAGAATACGCCGGTTTCTGAGCTGATTACTCTCGGCGAAAATATGGGGCTGGAAAACCTGGCTCGTATGCGTAAGCAGGATATTATTTTTGCCATCCTCAAGCAGCATTCGAAGAGTGGCGAAGATATCTTTGGCGACGGCGTACTGGAGATACTGCAGGATGGATTTGGATTCCTCCGCTCCGCAGACAGCTCCTACCTCGCCGGCCCTGACGACATCTACGTATCCCCCAGCCAAATCCGCCGTTTCAACCTCCGCACTGGTGACACCATTTCCGGTAAGATTCGTCCTCCGAAAGAGGGTGAGCGTTACTTTGCGCTGCTGAAAGTTAACGAAGTTAACTACGACAAGCCGGAAAACGCCCGTAACAAGATCCTGTTCGAGAACTTAACGCCGCTGCACGCGAATTCTCGTCTGCGTATGGAGCGTGGTAACGGTTCTACCGAAGACTTAACCGCTCGCGTACTGGATCTGGCTTCCCCGATTGGCCGCGGCCAGCGTGGTCTGATCGTCGCGCCGCCGAAAGCCGGTAAAACCATGCTGCTGCAGAACATCGCGCAGAGCATCGCTTACAACCATCCGGACTGCGTGCTGATGGTGCTGCTGATCGACGAACGTCCGGAAGAAGTGACCGAGATGCAGCGTCTGGTGAAAGGTGAAGTGGTTGCTTCCACCTTCGACGAACCGGCATCTCGTCACGTTCAGGTTGCTGAGATGGTTATCGAGAAAGCGAAACGTCTGGTTGAACACAAGAAAGACGTTATCATCCTGCTTGACTCCATTACCCGTCTGGCGCGCGCCTACAACACCGTGGTCCCGGCTTCCGGTAAAGTGCTGACCGGTGGTGTGGACGCCAACGCCCTGCACCGTCCGAAGCGTTTCTTCGGTGCGGCGCGTAACGTCGAAGAGGGCGGCAGCCTGACCATCATCGCCACGGCGCTGATCGACACCGGCTCCAAAATGGATGAAGTTATCTACGAAGAGTTTAAAGGCACCGGTAACATGGAGCTGCACCTCTCTCGTAAGATTGCCGAAAAACGCGTCTTCCCGGCTATCGATTACAACCGTTCCGGTACGCGTAAAGAAGAGCTGCTCACCACTCAGGAAGAGCTGCAGAAAATGTGGATCCTGCGCAAAATTATCCATCCGATGGGTGAGATCGACGCGATGGAGTTCCTCATTAATAAACTGGCAATGACTAAGACGAATGATGACTTCTTCGATATGATGAAGCGCTCGTAA	MNLTELKNTPVSELITLGENMGLENLARMRKQDIIFAILKQHSKSGEDIFGDGVLEILQDGFGFLRSADSSYLAGPDDIYVSPSQIRRFNLRTGDTISGKIRPPKEGERYFALLKVNEVNYDKPENARNKILFENLTPLHANSRLRMERGNGSTEDLTARVLDLASPIGRGQRGLIVAPPKAGKTMLLQNIAQSIAYNHPDCVLMVLLIDERPEEVTEMQRLVKGEVVASTFDEPASRHVQVAEMVIEKAKRLVEHKKDVIILLDSITRLARAYNTVVPASGKVLTGGVDANALHRPKRFFGAARNVEEGGSLTIIATALIDTGSKMDEVIYEEFKGTGNMELHLSRKIAEKRVFPAIDYNRSGTRKEELLTTQEELQKMWILRKIIHPMGEIDAMEFLINKLAMTKTNDDFFDMMKRS				NA	NA	NA	NA	NA
BMS020_07547	330	trxA_1	COG0526	Thioredoxin 1	ATGAGCGATAAAATTATTCACCTGACTGACGACAGTTTTGACACGGACGTACTCAAGGCTGACGGGCTGACCCTCGTCGATTTCTGGGCAGAGTGGTGTGGTCCGTGCAAAATGATCGCCCCGATTCTGGATGAGATCGCTGAAGAGTATCAGGGCAAACTGACCGTAGCTAAGCTGAACATCGACCAGAACCCGGGCACCGCGCCGAAGTACGGCATTCGCGGCATCCCAACCCTGCTGCTGTTCAAAAACGGCGAAGTGGCGGCCACCAAAGTCGGCGCACTGTCCAAGGGTCAGCTGAAAGAGTTCCTCGACGCCAACCTGGCGTAA	MSDKIIHLTDDSFDTDVLKADGLTLVDFWAEWCGPCKMIAPILDEIAEEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLA	PGPT0013055_5102	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
BMS020_07548	1266	rhlB_1	COG0513	ATP-dependent RNA helicase RhlB	ATGAGCAAAACACATTTAACAGAACAGAAGTTTTCCGACTTCGCCCTGCACCCGGCAGTCATTGAAGCCCTTGAAAAGAAAGGGTTTCATAATTGCACACCTATTCAGGCCCTCGCCCTTCCGCTGACGCTGGAAGGCCGCGATGTCGCCGGGCAGGCGCAAACCGGTACCGGTAAAACGATGGCGTTCCTGACGTCGACGTTTCATTATCTTCTCTCTCACCCGGCTATCGCCGATCGCCAGGTTAATCAGCCGCGCGCGCTGATTATGGCGCCGACGCGCGAACTGGCGGTACAGATCCACGCGGACGCTGAACCGCTGGCGCAGGCCACCGGTCTGAAGCTGGGTCTGGCTTACGGCGGCGACGGCTACGATAAGCAGCTGAAAGTGCTGGAAAGCGGCGTCGATATTCTGATCGGTACCACCGGTCGTCTGATCGATTACGCGAAGCAAAACCACATTAACCTCGGCGCCATTCAGGTCGTCGTGCTGGACGAAGCCGATCGCATGTACGATCTCGGCTTTATTAAAGATATCCGCTGGCTGTTCCGCCGCATGCCGCCGGCCACTCAGCGTCTGAACATGCTGTTCTCCGCGACGCTTTCTTATCGCGTACGCGAACTGGCGTTCGAACAAATGAACAACGCCGAGTACGTTGAAGTCGAGCCGGAACAGAAAACGGGCCACCGTATTAAAGAAGAGCTCTTCTACCCGTCCAACGAAGAAAAAATGCGCCTGCTGCAGACGCTGCTGGAAGAAGAGTGGCCCGATCGCGCCATCGTCTTCGCTAATACCAAGCATCGTTGTGAAGATATCTGGGGCCATCTCGCCGCCGACGGCCATCGCGTAGGTCTGCTGACCGGCGACGTGGCGCAGAAAAAACGTCTGCGGATTCTCGAAGAATTTACCCGCGGCGACCTTGATATTCTGGTCGCGACTGACGTTGCCGCTCGTGGCTTGCACATTCCGGCCGTGACCCACGTCTTTAACTACGATCTGCCGGACGACTGCGAAGATTACGTTCACCGCATTGGCCGTACCGGTCGCGCTGGCGCCAGCGGTCACTCCATCAGCCTCGCCTGCGAAGAGTATGCGCTGAACCTGCCGGCTATCGAAACCTATATTGGTCACTCAATTCCGGTCAGCAAGTACAACCCGGACGCGCTGATGACCGACCTGCCTAAGCCGCTGCGCCTGACCCGTGCGCGTCCAGGCAACGGCCCGCGCCGCAGCGGTCCACCGCGCAATCGTCGTCGTTCAGGTTAA	MSKTHLTEQKFSDFALHPAVIEALEKKGFHNCTPIQALALPLTLEGRDVAGQAQTGTGKTMAFLTSTFHYLLSHPAIADRQVNQPRALIMAPTRELAVQIHADAEPLAQATGLKLGLAYGGDGYDKQLKVLESGVDILIGTTGRLIDYAKQNHINLGAIQVVVLDEADRMYDLGFIKDIRWLFRRMPPATQRLNMLFSATLSYRVRELAFEQMNNAEYVEVEPEQKTGHRIKEELFYPSNEEKMRLLQTLLEEEWPDRAIVFANTKHRCEDIWGHLAADGHRVGLLTGDVAQKKRLRILEEFTRGDLDILVATDVAARGLHIPAVTHVFNYDLPDDCEDYVHRIGRTGRAGASGHSISLACEEYALNLPAIETYIGHSIPVSKYNPDALMTDLPKPLRLTRARPGNGPRRSGPPRNRRRSG	PGPT0013740_3719	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS020_07549	1491	gppA	COG0248	Guanosine-5'-triphosphate,3'-diphosphate pyrophosphatase	ATGAAGAGCATGAGCTCCACCTCGCTGTATGCCGCCATTGATTTGGGCTCCAACAGTTTCCATATGTTGGTGGTGCGCGAGGTGGCTGGCAGTATCCAGACGCTGAGCCGCATTAAGCGCAAAGTTCGTCTGGCCGCCGGCCTGAATAGCGACAACACGCTCTCCGCAGAAGCGATGGAGCGCGGCTGGCAGTGCTTACGCCTGTTTGCCGAACGCCTGCAGGATATTCCGCCGGCGCAAATCCGCGTCGTGGCCACCGCCACGCTGCGTCTTGCCGTCAATGCCGGCGAATTTCTGGCGAAAGCGCAGGAGATCCTCGGCAGTCCGGTACAGGTCATTAGCGGTGAAGAAGAAGCGCGCCTGATTTATCAGGGTGTCGCCCACACCACCGGCGGCGCCGATCAGCGTCTGGTGGTCGATATCGGCGGCGCCAGCACCGAACTGGTGACCGGCACCGGCGCGCAAACGACCTCGCTATTTAGCCTGTCGATGGGCTGTGTGACCTGGCTTGAACGCTATTTCGCCGACCGCAGCCTGACGAAAGAGAATTTCGATCTTGCCGAGGCGGCCGCGCGTGAGGTGCTACTGCCCATCGCCGATGTGCTGCGCTATCACGGATGGAAAGTGTGCGTTGGCGCCTCCGGCACCGTTCAGGCTCTGCAGGAAATTATGATGGCGCAGGGGATGGATGAGCGGATCACCCTGACCAAACTCCAGCAGCTTAAACAGCGCGCCATCCAGTGCGGACGCCTGGAAGAGCTGGAGATCGAAGGCTTAACCCTTGAGCGAGCGCTGGTGTTTCCGAGCGGGCTGGCGATCCTTATCGCTATCTTCAGCGAACTGAATATTCAGTGTATGACCCTCGCGGGCGGCGCATTACGGGAAGGGCTGGTGTATGGCATGCTGCATCTCTCCGTTGAACAGGACATCCGCAGCCGCACTCTGCGTAATATTCAGCGTCGTTTTATGATCGACACCGAACAGGCCCAGCGCGTCGCTGGTCTCGCCAGCCACCTGCTCAGCCAGCTGGACGGCTGCTGGGAACTGGATCCGCTGAGCCGCGATTTGCTCCTCAGCGCCTGTGCGTTGCATGAGATTGGCCTGAGCGTGGATTTTAAGCGCGCGCCGCAGCACGCGGCCTATCTGGTCAATAATCTCGACCTGCCCGGCTTTACCCCAGCGCAGAAGAAGCTGATTGCGACGCTGCTGCTTAACCAGACTAACGCCATCGACCTCTCATCGCTTCATCAGCAGAACGCCGTCCCGCCGCGGGTTGCCGAACATCTTTGTCGCCTGCTGCGACTGGCGATACTCTTTGCCAGCCGGCGGCGTGACGATTTGCTGCCCGCCATCAATCTGGTGGCCGATGATGAAACACTGTCCCTGACGCTGCCGGAAAACTGGCTGGATAATCACCCGCTTGGGGCTGAGCTGATCGAACAGGAATGCCAGTGGCAAAGCTATGTGCACTGGATGCTTGAGGTGAAGTAA	MKSMSSTSLYAAIDLGSNSFHMLVVREVAGSIQTLSRIKRKVRLAAGLNSDNTLSAEAMERGWQCLRLFAERLQDIPPAQIRVVATATLRLAVNAGEFLAKAQEILGSPVQVISGEEEARLIYQGVAHTTGGADQRLVVDIGGASTELVTGTGAQTTSLFSLSMGCVTWLERYFADRSLTKENFDLAEAAAREVLLPIADVLRYHGWKVCVGASGTVQALQEIMMAQGMDERITLTKLQQLKQRAIQCGRLEELEIEGLTLERALVFPSGLAILIAIFSELNIQCMTLAGGALREGLVYGMLHLSVEQDIRSRTLRNIQRRFMIDTEQAQRVAGLASHLLSQLDGCWELDPLSRDLLLSACALHEIGLSVDFKRAPQHAAYLVNNLDLPGFTPAQKKLIATLLLNQTNAIDLSSLHQQNAVPPRVAEHLCRLLRLAILFASRRRDDLLPAINLVADDETLSLTLPENWLDNHPLGAELIEQECQWQSYVHWMLEVK	PGPT0002595_2919	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002595-ppx|ppx_gppA-K01524	NA	NA
BMS020_07550	2025	rep_4	COG0210	ATP-dependent DNA helicase Rep	ATGCGTTTAAACCCTGGCCAACAACAAGCCGTCGAATTTGTAACCGGACCGTGCCTGGTGCTGGCGGGCGCCGGCTCCGGTAAGACCCGCGTGATCACCAATAAAATCGCCCACCTGATCCGCGGCTGCGGCTATCAGGCGCGCCATATCGCGGCCGTGACCTTTACCAACAAAGCCGCGCGCGAGATGAAAGAGCGCGTTGGGCAAACGCTGGGGCGCAAAGAGGCGCGCGGGCTGATGATTTCCACCTTCCACACCCTGGGGCTGGATATCATCAAGCGGGAATACGCCGCGCTGGGCATGAAGTCTAACTTCTCCTTATTCGACGATACCGACCAGGTGGCGTTGCTCAAAGAGCTGACCGAAGGGTTGATCGAAGATGACAAAGTGGTGCTCCAGCAGTTGATCTCGACGATCTCCAACTGGAAAAACGATCTGAAAACCCCGGCCCAGGCCGCCGCGGGTGCGAAAGGCGAACGGGACCGCATCTTCGCCCACTGCTATGGGCTGTACGATGCGCATATGAAGGCCTGCAATGTCCTCGATTTTGACGATCTGATCCTGCTGCCGACGCTGCTGCTGCAGCGCAACGAGGAGGTGCGCGAACGCTGGCAGAATAAGATCCGCTACCTGCTGGTGGATGAGTATCAGGATACCAACACCAGCCAGTATGAGCTGGTGAAGCTGCTGGTGGGCCAGCGGGCGCGTTTTACCGTGGTAGGCGACGATGACCAGTCGATCTACTCGTGGCGCGGCGCGCGGCCACAGAACCTGGTGCTGCTCAGCCAGGACTTCCCGGCGCTGCAGGTTATCAAGCTTGAGCAGAACTATCGCTCCTCCGGGCGTATTCTGAAAGCCGCTAACATTCTGATCGCCAACAACCCGCACGTTTTTGAAAAGCGTCTGTTCTCCGAACTGGGATACGGCGCTGAGCTGAAAGTGCTCTCCGCCAATAATGAAGATCATGAAGCGGAGCGCGTGGCCGGGGAACTGATCGCCCACCACTTTATTAATAAAACCAATTACAAAGACTATGCGATCCTTTATCGCGGCAATCACCAGTCGCGGGTCTTTGAAAAGATGCTGATGCAGAACCGCATCCCGTACAAAATCTCCGGCGGCACGTCGTTTTTCTCGCGCCCGGAAATTAAAGATCTGCTGGCCTATCTGCGCGTGCTGACCAACCCGGACGACGACAGCGCCTTTCTGCGTATCGTCAACACGCCGAAGCGCGAGATCGGCCCGGCGACGCTGCAAAAGCTCGGTGAGTGGGCGATGGGCCGCAACAAAGGATTGTTCACCGCCAGCTTTGATATGGGTCTTAGCCAGACGCTGACCGGGCGCGGCTATGAATCACTCACCCGCTTCACCCACTGGCTGCGCGAGATCCAGCAACTGGCCGAACGCGAGCCGGTCAACGCCGTGCGCGACTTGATCCGCGGGATTGATTACGAATCCTGGTTGTATGAAACCTCGCCCAGCCCGAAAGCCGCGGAAATGCGCATGAAAAACGTCAACCAGCTGTTCACCTGGATGACCGAGATGCTGGAAGGCAGCGAAATCGATGAGCCGATGACCCTGACGCAGGTGGTCACCCGCTTTACGCTGCGCGACATGATGGAGCGCGGCGAATCGGATGAAGAGCTGGATCAGGTGCAGCTGATGACCCTCCATGCCTCAAAAGGGCTGGAGTTCCCGTATGTTTACCTGGTGGGCATGGAGGAGGGATTGCTCCCGCACCAGAGCAGCATTGATGAAGATAACGTCGATGAAGAGCGCCGGTTAGCCTACGTGGGCATCACCCGTGCGCAGAAAGAGCTGACCTTTACGCTCTGTAAGGAGCGCCGGCAGTATGGTGAGGTGGTGCGCCCGGAACCGAGCCGTTTCCTGCTCGAGCTACCCCAGGACGATCTGATTTGGGAGCAGGCGCGCAAAGTGATTACCGCTGAAGAGCGAATGCATAAAGGACAGGCTAACGTGGCGAACATTCGCGCCATGCTGGCAAAAGCTAAAGAGAAAGGATAG	MRLNPGQQQAVEFVTGPCLVLAGAGSGKTRVITNKIAHLIRGCGYQARHIAAVTFTNKAAREMKERVGQTLGRKEARGLMISTFHTLGLDIIKREYAALGMKSNFSLFDDTDQVALLKELTEGLIEDDKVVLQQLISTISNWKNDLKTPAQAAAGAKGERDRIFAHCYGLYDAHMKACNVLDFDDLILLPTLLLQRNEEVRERWQNKIRYLLVDEYQDTNTSQYELVKLLVGQRARFTVVGDDDQSIYSWRGARPQNLVLLSQDFPALQVIKLEQNYRSSGRILKAANILIANNPHVFEKRLFSELGYGAELKVLSANNEDHEAERVAGELIAHHFINKTNYKDYAILYRGNHQSRVFEKMLMQNRIPYKISGGTSFFSRPEIKDLLAYLRVLTNPDDDSAFLRIVNTPKREIGPATLQKLGEWAMGRNKGLFTASFDMGLSQTLTGRGYESLTRFTHWLREIQQLAEREPVNAVRDLIRGIDYESWLYETSPSPKAAEMRMKNVNQLFTWMTEMLEGSEIDEPMTLTQVVTRFTLRDMMERGESDEELDQVQLMTLHASKGLEFPYVYLVGMEEGLLPHQSSIDEDNVDEERRLAYVGITRAQKELTFTLCKERRQYGEVVRPEPSRFLLELPQDDLIWEQARKVITAEERMHKGQANVANIRAMLAKAKEKG				NA	NA	NA	NA	NA
BMS020_07551	282	ppiC_1	COG0760	Peptidyl-prolyl cis-trans isomerase C	ATGAAAAAGACCGCAGCAGCCCTGCATATCCTGGTCAAAGAAGAAAAACTGGCCCAGGAGATCCTCGCCAAACTGGAGCGGGGCGTCAGCTTCGATCATCTGGCGAAGCGCTATTCCCAATGTCCGTCGGGGCGCAACGGCGGCGACCTGGGCGAGTTTCAGCAAGGCGCGATGGTCGGCCCATTCGATCAGGCGGTCTTTAGCTGCCCGCTTCTCAAGCCCTACGGTCCGGTAAAAACCAAGTTTGGCTACCATATCATTAAGGTGCTTTATCGCCGCTGA	MKKTAAALHILVKEEKLAQEILAKLERGVSFDHLAKRYSQCPSGRNGGDLGEFQQGAMVGPFDQAVFSCPLLKPYGPVKTKFGYHIIKVLYRR	PGPT0000050_2262	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000050-nifM-K03769	NA	NA
BMS020_07552	282	ppiC_2	COG0760	Peptidyl-prolyl cis-trans isomerase C	ATGGCAAAAACAGCAGCAGCACTGCATATTCTTGTTAAAGAAGAGAAACTGGCTCTGGATCTTCTGGAGCAGATTAAAAACGGCGCCGACTTCGGTAAGCTGGCAAAGAAACACTCTATTTGCCCATCAGGTAAACGCGGCGGTGATCTAGGTGAATTCCGCCAGGGCCAGATGGTCCCGGCGTTCGATAAAGTGGTCTTCTCCTGTCCAGTGCTGGAGCCAACCGGACCGCTGCATACCCAGTTCGGCTACCACATCATCAAAGTCCTGTACCGGAAATAA	MAKTAAALHILVKEEKLALDLLEQIKNGADFGKLAKKHSICPSGKRGGDLGEFRQGQMVPAFDKVVFSCPVLEPTGPLHTQFGYHIIKVLYRK	PGPT0000050_2240	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000050-nifM-K03769	NA	NA
BMS020_07553	1476	ilvC_2	COG0059	Ketol-acid reductoisomerase (NADP(+))	ATGGCTAACTACTTTAATACACTGAACCTGCGCCAGCAGCTGGCACAGCTGGGCAAATGCCGCTTTATGGCGCGCGACGAATTCGCCGATGGCGCAAGCTACCTTCAGGGTAAAAAAGTGGTCATCGTCGGCTGCGGCGCGCAGGGTCTGAACCAGGGTCTGAACATGCGTGACTCCGGCCTGGATATCTCCTATGCGCTGCGCAAAGAAGCGATCGCCGAGAAGCGCGCCTCCTGGCGTAAAGCGACCGAAAACGGTTTTAAAGTCGGCACTTATGAAGAGCTGATCCCACAGGCGGACCTGGTGGTTAACCTGACCCCGGACAAACAGCACTCTGACGTTGTGCGCTCCGTACAGCCGTTGATGAAAGACGGCGCGGCGCTGGGCTACTCCCACGGCTTCAACATCGTGGAAGTGGGCGAGCAGATCCGTAAAGACATCACCGTGGTGATGGTGGCGCCGAAGTGCCCGGGTACCGAAGTGCGTGAAGAGTACAAACGCGGTTTCGGCGTACCGACGCTTATCGCGGTACACCCGGAAAATGACCCGAAAGGCGAAGGCATGGCCATTGCGAAAGCATGGGCAGCGGCGACCGGCGGCCACCGTGCGGGCGTCCTGGAGTCTTCCTTCGTGGCAGAAGTGAAATCTGACCTGATGGGCGAGCAGACCATCCTCTGCGGCATGCTGCAGGCGGGTTCTCTGCTGTGCTTCGACAAGCTGGTGGCGGAAGGTACCGACCCGGCGTATGCAGAAAAACTGATTCAGTTCGGCTGGGAAACCATCACCGAAGCGCTGAAGCAGGGCGGCATCACCCTGATGATGGATCGCCTCTCTAACCCGGCGAAACTGCGCGCTTATGCTCTCTCCGAGCAGCTGAAAGAGATTATGGCGCCGCTGTTCCAGAAACACATGGACGACATCATTTCCGGCGAATTCTCCTCCGGTATGATGGCGGACTGGGCGAACGACGATAAGAAACTGCTGACCTGGCGTGAAGAGACGGGTAAAACCGCGTTCGAAACCGCGCCGCAGTATGAAGGTAAAATCGGCGAGCAGGAGTACTTCGATAAAGGCGTTCTGATGATCGCGATGGTGAAAGCAGGCGTTGAGCTGGCGTTCGAAACCATGGTCGATTCCGGCATCATCGAAGAGTCCGCTTACTACGAATCACTGCACGAGCTGCCGCTGATCGCCAACACCATCGCCCGTAAGCGTCTGTACGAGATGAACGTGGTTATCTCCGATACCGCTGAATATGGTAACTACCTGTTCTCTTACGCTTGCGTACCGCTGCTGAAAGAGTTCATGACCACCCTGCAGACTGGCGACCTGGGTACGGCGATTGCCGAAGGCGCGGTAGACAACGCCCAGCTGCGTGATGTCAACGAAGCCATCCGCAGCCACCAGATCGAGAAAGTGGGTCACAAACTGCGTGGCTATATGACCGATATGAAGCGTATTGCGGTTGCCGGCTAA	MANYFNTLNLRQQLAQLGKCRFMARDEFADGASYLQGKKVVIVGCGAQGLNQGLNMRDSGLDISYALRKEAIAEKRASWRKATENGFKVGTYEELIPQADLVVNLTPDKQHSDVVRSVQPLMKDGAALGYSHGFNIVEVGEQIRKDITVVMVAPKCPGTEVREEYKRGFGVPTLIAVHPENDPKGEGMAIAKAWAAATGGHRAGVLESSFVAEVKSDLMGEQTILCGMLQAGSLLCFDKLVAEGTDPAYAEKLIQFGWETITEALKQGGITLMMDRLSNPAKLRAYALSEQLKEIMAPLFQKHMDDIISGEFSSGMMADWANDDKKLLTWREETGKTAFETAPQYEGKIGEQEYFDKGVLMIAMVKAGVELAFETMVDSGIIEESAYYESLHELPLIANTIARKRLYEMNVVISDTAEYGNYLFSYACVPLLKEFMTTLQTGDLGTAIAEGAVDNAQLRDVNEAIRSHQIEKVGHKLRGYMTDMKRIAVAG	PGPT0008735_580	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
BMS020_07554	891	oxyR_7		Hydrogen peroxide-inducible genes activator	GTGGATTTACGCGATCTGAAAACCTTTCTGCATCTGGCGGAAAGCCGCCATTTTGGCCGCAGCGCGCGGGCCATGCACGTCAGCCCGTCGACGCTTTCGCGCCAGATCCAGCGCCTGGAAGAGGACCTCGGCCAGCCGCTGTTCGTGCGAGATAATCGCACGGTGACCCTGACCGAAGCCGGGGAAGAGTTACGCACCTTTGCCCAGCAGACTTTACTGCAGTATCAGCAGCTTCGCCACGCCATCGATCAGCAGGGCCCTTCGCTCTCCGGCGAGCTGCACATCTTCTGCTCTGTCACCGCCGCCTATAGCCATCTGCCGCCGATCCTCGACCGCTTTCGCGCTGCGCATCCTTCGGTGGAGATCAAGCTCTCGACCGGCGACGCCGCTGACGCCATGGAGAAGGTCGTTACCGGCGAAGCCGACCTGGCGATTGCCGGTAAGCCGGAGACCCTGCCAGGGTCGGTGGCGTTTTCGATGCTGGAGAACCTCGCCGTGGTGTTAATTGCCCCGGCCCTTCCCTGCCCGGTGCGCAACCAGGTGACCGTCGAGCGTCCGGACTGGTCGACAGTGCCGTTTATCATGGCTGACCAGGGGCCGGTACGTCGGCGCATCGAGCTGTGGTTTCGACGGCATAAAATCAGCAATCCGTCGATCTACGCCACCGTCGGGGGCCACGAAGCGATGGTGTCGATGGTCGCCCTGGGATGCGGCGTGGCGCTGCTGCCGGAGGTGGTGCTGGAGAACAGTCCGGAGCCGGTACGCAACAGGGTGATGATTCTGGAGCGCAGCGATGAGCAAACCCCGTTCGAGCTCGGCGTTTGCGCACAAAAAAAGCGGCTGCATGAGCCGCTTATTGATGCTTTCTGGAAAATCTTGCCGAACCACTAG	MDLRDLKTFLHLAESRHFGRSARAMHVSPSTLSRQIQRLEEDLGQPLFVRDNRTVTLTEAGEELRTFAQQTLLQYQQLRHAIDQQGPSLSGELHIFCSVTAAYSHLPPILDRFRAAHPSVEIKLSTGDAADAMEKVVTGEADLAIAGKPETLPGSVAFSMLENLAVVLIAPALPCPVRNQVTVERPDWSTVPFIMADQGPVRRRIELWFRRHKISNPSIYATVGGHEAMVSMVALGCGVALLPEVVLENSPEPVRNRVMILERSDEQTPFELGVCAQKKRLHEPLIDAFWKILPNH				NA	NA	NA	NA	NA
BMS020_07555	1545	ilvA	COG1171	L-threonine dehydratase biosynthetic IlvA	ATGGCGGATTCACAACCCCTCTCCGGCGCCCCCGAGGGCGCCGAATACCTGAGAGCAGTGCTGCGCGCGCCGGTTTATGAAGCGGTGCAGAAAACGCCGCTGCAAAAAATGGACAAACTCTCTTCTCGCCTGGATAACGTTATTCTGGTGAAGCGCGAAGATCGCCAACCGGTACACAGCTTTAAGCTGCGCGGCGCCTACGCGATGATGTCCAGCCTGACCGCGGAACAGAAATCCCACGGGGTGATCACCGCCTCGGCGGGCAATCATGCCCAGGGCGTGGCGTTCTCCGCATCGCGGCTGGGCGTTAAGGCGCTGATCGTGATGCCGGTAGCGACCGCCGACATCAAAGTGGATGCCGTTCGCGGCTTTGGCGGCGAAGTGCTGCTGCATGGCGCCAATTTTGACGAAGCGAAGGCGAGAGCGATCGAGCTGGCGCAGCAGCAGGGTTTTACCTGGGTGCCGCCGTTCGATCACCCGATGGTCATCGCCGGTCAGGGAACCCTGGCGCTGGAGCTGCTGCAGCAGGATGCCCACATTGACCGCGTGTTCGTCCCGGTGGGCGGCGGCGGCCTGGCGGCAGGCGTGGCGGTGTTGATCAAGCAACTGATGCCGCAGATTAAAGTGATAGCGGTGGAAGCGGAAGATTCGGCCTGCCTGAAGGCGGCGCTGGATGCCGGTCATCCGGTGGATCTGCCGCGCGTCGGCTTGTTTGCCGAAGGCGTGGCGGTCAAACGCATCGGCGATGAAACCTTCCGTCTGTGCCAGGAGTATCTGGACGACATCATCACCGTCGACAGCGACGCTATTTGCGCGGCGATGAAGGATTTGTTCGAAGATGTGCGGGCGGTGGCAGAGCCTTCCGGCGCCCTGGCGCTGGCGGGGATGAAGAAATATGTCGCCCAGCACAATATTCGCGGCGAGCGACTGGCTCACATTCTGTCCGGGGCCAACGTCAACTTCCACGGTCTGCGCTACGTGTCTGAACGCTGCGAGCTCGGGGAACAGCGCGAAGCGCTGCTGGCGGTGACGATCCCGGAAGAGAAAGGCAGCTTTCTGAAGTTTTGCCAGCTGCTGGGGGGGCGTTCGGTGACCGAGTTCAACTACCGCTTTGCCGATGCCAAAGACGCCTGCATCTTTGTGGGGGTGCGTCTGAGTCGTGGGCTGGAGGAGCGGAAAGAGATCCTCCAGTTACTGAACGATGGCGGCTACAGCGTCGTTGACCTTTCCGATGACGAAATGGCCAAGCTCCATGTGCGCTATATGGTTGGCGGCCGACCGTCCAAAGCGCTGCAGGAGCGGCTGTTCAGCTTCGAATTTCCAGAGTCCCCGGGGGCGCTGCTGAAGTTCCTGCACACCCTTGGCGCCCACTGGAATATTTCGCTGTTCCACTACCGTAGCCACGGCACCGACTATGGTCGGGTTTTGGCGGCCTTCGAGCTGGGCGAGCACGAGCCGGACTTTGAAACTCGTCTCAATGAGCTGGGCTATGAGTGTCACGATGAGACCCATAACCCGGCATTCCGCTTTTTCCTCGCGGGCTAG	MADSQPLSGAPEGAEYLRAVLRAPVYEAVQKTPLQKMDKLSSRLDNVILVKREDRQPVHSFKLRGAYAMMSSLTAEQKSHGVITASAGNHAQGVAFSASRLGVKALIVMPVATADIKVDAVRGFGGEVLLHGANFDEAKARAIELAQQQGFTWVPPFDHPMVIAGQGTLALELLQQDAHIDRVFVPVGGGGLAAGVAVLIKQLMPQIKVIAVEAEDSACLKAALDAGHPVDLPRVGLFAEGVAVKRIGDETFRLCQEYLDDIITVDSDAICAAMKDLFEDVRAVAEPSGALALAGMKKYVAQHNIRGERLAHILSGANVNFHGLRYVSERCELGEQREALLAVTIPEEKGSFLKFCQLLGGRSVTEFNYRFADAKDACIFVGVRLSRGLEERKEILQLLNDGGYSVVDLSDDEMAKLHVRYMVGGRPSKALQERLFSFEFPESPGALLKFLHTLGAHWNISLFHYRSHGTDYGRVLAAFELGEHEPDFETRLNELGYECHDETHNPAFRFFLAG	PGPT0001960_903	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
BMS020_07556	1851	ilvD_2	COG0129	Dihydroxy-acid dehydratase	ATGCCTAAGTACCGTTCCGCCACCACCACACATGGCCGCAATATGGCGGGCGCCCGCGCGTTGTGGCGCGCAACCGGGATGACCGATGCCGATTTCGGCAAACCGATTATCGCCGTCGTTAACTCCTTTACCCAGTTTGTTCCCGGGCACGTGCACCTGCGCGACCTCGGCAAACTGGTTGCCGAGCAGATTGAAGCCGCCGGTGGCGTGGCCAAAGAATTCAACACCATCGCAGTGGATGATGGGATCGCCATGGGCCACGGGGGTATGCTCTATTCACTGCCATCCCGCGAGCTGATTGCCGACTCGGTGGAGTACATGGTTAACGCCCACTGTGCGGATGCGATGGTCTGTATCTCCAACTGCGACAAAATCACCCCGGGGATGTTGATGGCTTCCCTGCGCCTGAACATTCCGGTGATCTTTGTGTCCGGCGGCCCAATGGAAGCCGGGAAAACCAAGCTGTCAGATAAAATCATCAAGCTCGACCTGGTGGATGCGATGATCCAGGGGGCGGATCCGAAAGTGTCCGACGAGCAGAGTAATCAGGTGGAACGCTCCGCCTGTCCGACCTGCGGCTCCTGTTCCGGGATGTTTACCGCCAACTCCATGAACTGCCTGACCGAAGCGCTGGGCCTGTCGCAGCCGGGTAACGGCTCTCTGCTGGCGACCCACGCCGATCGTAAGGAGCTGTTCCTTAACGCCGGGAAACGTATCGTTGAGCTGACCAAACGCTATTACGAGCAGGATGACGCTTCCGCGCTGCCGCGCAATATCGCCAGCAAGGCGGCCTTTGAGAACGCCATGACGCTGGATATCGCCATGGGCGGTTCCACCAACACCGTTCTGCACCTGCTGGCGGCGGCGCAGGAAGCTGAAATCGATTTCACCATGAGCGATATCGATAAGCTCTCCCGCAAAGTGCCGCAGCTGTGTAAGGTGGCGCCGAGCACGCAGAAATACCATATGGAAGATGTGCATCGCGCCGGCGGCGTGCTGGGCATTCTGGGCGAGCTGGACCGCGCCGGGCTGCTGAATCGCGAGGTTAAAAACGTCCTCGGCCTGACGCTGCCGCAGACCCTGGAACAGTACGATGTGATGGTGACCCAGGACGATGCGGTGAAAAAGATGTTCCGCGCCGGCCCGGCGGGCATCCGTACCACCCAGGCGTTCTCGCAAGACTGCCGCTGGGATACGCTGGATGACGATCGCGCCGAAGGCTGTATCCGTTCTCTGGAACATGCTTACAGCAAGGACGGCGGCCTGGCGGTGCTGTACGGCAATTTCGCGGAAAACGGTTGTATCGTGAAAACCGCCGGCGTGGACGACAGCATCCTGAAATTTACCGGTCCGGCGAAAGTATATGAGAGCCAGGACGATGCGGTAGAGGCCATCCTCGGCGGTAAAGTCGTTGAAGGCGACGTCGTCGTGATCCGCTACGAAGGGCCGAAAGGCGGGCCGGGGATGCAGGAGATGCTTTACCCCACCAGCTTCCTGAAGTCGATGGGGCTGGGCAAAGCCTGCGCGCTGATCACCGATGGCCGTTTCTCCGGCGGCACCTCAGGGCTCTCTATCGGTCACGTCTCACCGGAAGCGGCGAGCGGCGGCAACATTGCGCTCATTGAAGATGGCGACATGATCGCGATTGATATTCCGAACCGCAGCATCCAGCTGCAGCTGAGCGATGCGGAAATTGCGGCGCGTCGTGAAGCCCAGGAAGCGCGTGGCGACCAGGCGTGGACGCCGAAGCATCGCCAGCGTCAGGTCTCCTTTGCCCTTCGCGCCTACGCCAGCCTGGCGACCAGCGCTGACAAAGGCGCGGTTCGCGATAAATCGAAACTGGGTGGCTAA	MPKYRSATTTHGRNMAGARALWRATGMTDADFGKPIIAVVNSFTQFVPGHVHLRDLGKLVAEQIEAAGGVAKEFNTIAVDDGIAMGHGGMLYSLPSRELIADSVEYMVNAHCADAMVCISNCDKITPGMLMASLRLNIPVIFVSGGPMEAGKTKLSDKIIKLDLVDAMIQGADPKVSDEQSNQVERSACPTCGSCSGMFTANSMNCLTEALGLSQPGNGSLLATHADRKELFLNAGKRIVELTKRYYEQDDASALPRNIASKAAFENAMTLDIAMGGSTNTVLHLLAAAQEAEIDFTMSDIDKLSRKVPQLCKVAPSTQKYHMEDVHRAGGVLGILGELDRAGLLNREVKNVLGLTLPQTLEQYDVMVTQDDAVKKMFRAGPAGIRTTQAFSQDCRWDTLDDDRAEGCIRSLEHAYSKDGGLAVLYGNFAENGCIVKTAGVDDSILKFTGPAKVYESQDDAVEAILGGKVVEGDVVVIRYEGPKGGPGMQEMLYPTSFLKSMGLGKACALITDGRFSGGTSGLSIGHVSPEAASGGNIALIEDGDMIAIDIPNRSIQLQLSDAEIAARREAQEARGDQAWTPKHRQRQVSFALRAYASLATSADKGAVRDKSKLGG	PGPT0001875_93	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
BMS020_07557	930	ilvE_2	COG0115	Branched-chain-amino-acid aminotransferase	ATGACGACGAAAAAAGCTGATTACATCTGGTTCAATGGCGAGATGGTTCCGTGGGGCGAAGCGAAAGTTCATGTGATGTCCCATGCGCTGCACTATGGCACCTCGGTATTCGAGGGCATCCGTTGCTATGACTCGCACAAAGGCCCGGTGGTGTTCCGTCATCGCGAACATATGCAGCGTCTGCATGATTCAGCCAAAATTTATCGTTTCCCGGTCTCCCAGAGCGTCGACGAACTAATGGAAGCCTGCCGCGAAGTCATTCGCACCAATAATCTGACCAGCGCTTATATCCGCCCGCTGGTGTTTGTTGGCGATGTCGGCATGGGGGTAAACCCGCCTCCGAGTTACAACACTGACGTGATCATCGCGGCGTTCCCGTGGGGAGCCTACCTCGGCGCAGAAGCGCTGGAGCAGGGGATCGATGCAATGGTCTCTTCCTGGAACCGCGCGGCGCCGAACACCATCCCGACGGCGGCGAAAGCCGGCGGCAACTATCTCTCCTCGCTGCTGGTTGGCAGCGAAGCGCGTCGCCATGGCTACCAGGAGGGTATCGCCCTCGATGTTAACGGCTATATCTCGGAAGGCGCAGGCGAAAACCTGTTTGAAGTGAAGGACGGCGTGCTGTTCACCCCGCCGTTTACCTCTTCCGCGCTGCCGGGCATTACCCGCGACGCCATCATCAAGCTGGCGAAAGATCTCGGTATTGAAGTCCGCGAGCAGGTATTGTCCCGTGAATCCCTGTACCTGGCGGATGAAGTCTTCATGTCCGGCACCGCGGCGGAAATCACCCCGGTACGCAGCGTGGATGGCATCCAGGTCGGCGCAGGCCGTCGCGGTCCGGTTACCAAACGCATTCAGGAAGCCTTCTTTGGCCTCTTCACCGGTGAAACAGAAGATAAATGGGGCTGGTTGGATCCGGTAAGTAAGTAA	MTTKKADYIWFNGEMVPWGEAKVHVMSHALHYGTSVFEGIRCYDSHKGPVVFRHREHMQRLHDSAKIYRFPVSQSVDELMEACREVIRTNNLTSAYIRPLVFVGDVGMGVNPPPSYNTDVIIAAFPWGAYLGAEALEQGIDAMVSSWNRAAPNTIPTAAKAGGNYLSSLLVGSEARRHGYQEGIALDVNGYISEGAGENLFEVKDGVLFTPPFTSSALPGITRDAIIKLAKDLGIEVREQVLSRESLYLADEVFMSGTAAEITPVRSVDGIQVGAGRRGPVTKRIQEAFFGLFTGETEDKWGWLDPVSK	PGPT0008860_4514	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826	NA	NA
BMS020_07558	258	ilvM	COG3978	Acetolactate synthase isozyme 2 small subunit	ATGATGCAACATCAGGTCGCTTTACAGGCACGTTTCAACCCGGAAACCTTAGAGCGCGTGCTGCGCGTTGTCCGCCACCGTGGTTTCCAAATCTGCGCAATGAACATGGAAACCGCGGCGGACGCACAGAACATAAATATCGAATTGACCGTTGCCAGCCCGCGGCCCGTCGAATTACTGTTTAGTCAATTAAGCAAACTGGTCGACGTTGCCTGCGTCGAGATCCAGCAACCCACATCACAACAAATCCGCGCCTGA	MMQHQVALQARFNPETLERVLRVVRHRGFQICAMNMETAADAQNINIELTVASPRPVELLFSQLSKLVDVACVEIQQPTSQQIRA	PGPT0008210_198	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,PGPT0008210-ilvM-K11258	NA	NA
BMS020_07559	1647	ilvG_2		Acetolactate synthase isozyme 2 large subunit	ATGAATGGCGCGCAGTGGGTGGTACATGCTTTGCGGACGCAGGGGGTCGACACCGTTTTTGGCTATCCGGGTGGCGCAATTATGCCGGTTTACGATGCACTGTATGACGGCGGCGTGGAGCACCTGCTGTGCCGGCATGAGCAAGGGGCAGCCATGGCGGCCATTGGTTATGCGCGAGCAACCGGTAAAACCGGAGTGTGTATCGCGACCTCCGGCCCGGGCGCGACCAATCTGATCACCGGCCTGGCGGACGCTTTGCTTGACTCCATCCCCATTGTCGCCATCACCGGCCAGGTGGCCGCGCCCTTCATCGGCACGGATGCGTTTCAGGAAGTAGACGTTCTCGGTTTGTCACTGGCCTGTACTAAGCACAGTTTCCTCGTGCAGTCTCTGGACGAGCTGCCGCGGGTCATTGCTGAAGCTTTCCAGGTGGCAAACTCAGGCCGTCCAGGCCCGGTGCTGGTTGATATCCCTAAGGATATTCAGATGGCGCAGGGCGATCTCGATCCCCATTTCTCTACGGTCGCCGATGAGATGGCATTTCCGCAGGCGGAAGTGGCTCAGGCTCTGCAGATGCTGGCTCAATCGCAGCAACCGATGCTGTATGTTGGCGGCGGGGTCGGCATGGCGCAGGCGGTACCGGCGCTGCGTGAATTTCTCGCCGTAACCCGGATGCCAGCGACCTGCACTCTGAAAGGGCTGGGCGTGGTGGACGCCGATTACCCGTATTATCTCGGCATGCTGGGAATGCACGGCACCAAGGCGGCCAACCTGGCGGTACAGGAGTGCGATCTGCTGATCGCCGTCGGCGCGCGCTTTGACGATCGCGTGACCGGCAAGCTCAACACCTTCGCGCCGCATGCCAAAGTGATCCATATGGACATCGATCCGGCGGAGCTGAACAAGCTGCGCCAGGCGCACATCGGTCTGACCGGCGACCTGAACCGCTTGCTGCCGGCGCTGCAGCAGCCGTTAGCTATCGATGGCTGGCGCGAGCGGAGTGCCGCGCTGCGTGCCGATCACGCCTGGCGTTACGATCATCCCGGTGAGGCAATCTACGCGCCGCTGTTGCTGAAACAGCTTTCCGACCGCAAGCCGGCGGACAGCGTGGTGACAACCGACGTTGGTCAGCATCAGATGTGGTCGGCTCAGCATATGACCTATACCCGCCCGGAAAACTTCATCACCTCCAGCGGCTTAGGCACCATGGGCTTTGGCCTGCCGGCCGCCGTTGGCGCCCAGGTGGCGCGCCCTAACGATACAGTGATCTGTATCTCCGGTGACGGCTCCTTCATGATGAATGTGCAGGAGCTGGGCACCGTTAAACGCAAGCAGTTACCGCTGAAGATCGTATTACTCGACAACCAGCGGTTAGGGATGGTTCGACAATGGCAGCAGCTGTTTTTCCAGGAACGTTATAGCGAAACCACTCTGACTGATAACCCTGATTTCCTCACGCTGGCCAGCGCCTTCGGTATTCCTGGCCAACACATCACCCGTAAAGACCAGGTTGAAGCGGCACTCGACACCATGCTTTCGAGCCAGGGGCCATACCTGCTTCATGTCTCAATCGACGAACTTGAGAATGTCTGGCCGTTGGTGCCGCCCGGCGCCAGTAACTCTGAAATGCTGGAGAAATTATCATGA	MNGAQWVVHALRTQGVDTVFGYPGGAIMPVYDALYDGGVEHLLCRHEQGAAMAAIGYARATGKTGVCIATSGPGATNLITGLADALLDSIPIVAITGQVAAPFIGTDAFQEVDVLGLSLACTKHSFLVQSLDELPRVIAEAFQVANSGRPGPVLVDIPKDIQMAQGDLDPHFSTVADEMAFPQAEVAQALQMLAQSQQPMLYVGGGVGMAQAVPALREFLAVTRMPATCTLKGLGVVDADYPYYLGMLGMHGTKAANLAVQECDLLIAVGARFDDRVTGKLNTFAPHAKVIHMDIDPAELNKLRQAHIGLTGDLNRLLPALQQPLAIDGWRERSAALRADHAWRYDHPGEAIYAPLLLKQLSDRKPADSVVTTDVGQHQMWSAQHMTYTRPENFITSSGLGTMGFGLPAAVGAQVARPNDTVICISGDGSFMMNVQELGTVKRKQLPLKIVLLDNQRLGMVRQWQQLFFQERYSETTLTDNPDFLTLASAFGIPGQHITRKDQVEAALDTMLSSQGPYLLHVSIDELENVWPLVPPGASNSEMLEKLS	PGPT0008185_9203	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
BMS020_07561	1521	comM_2	COG0606	Competence protein ComM	ATGTCGCTCGCCATCGTCTATACTCGCGCGGCGCTCGGTATCGAAGCGCCATTGATTACTGTCGAGGTTCATCTCAGCAACGGTCTGCCCGGCCTGACTATGGTCGGACTGCCGGAGACTACCGTGAAAGAGGCCCGTGACCGGGTCCGTAGCGCCCTGATCAACAGCGGCTACGCTTTCCCTGCCAAGAAAATAACCATTAACCTGGCGCCAGCGGATCTACCTAAAGAGGGCGGACGATACGATCTGCCTATCGCTCTCGCGCTTCTCGTCGCCTCAGAGCAGCTCAATACGACGCGACTGAATCACTATGAGTTTGTGGGCGAACTCGCCCTCACAGGTGGGTTACGTGGCGTTCCAGGGGCGATCCCCAGCGCAATGGAGGCCATCAAAGCCGGCCGGCGTATCGTCGTCTCCGCTGATAATGCGGCTGAGGTCGGCCTGATCGGCGGCAGCGATTGCCTGGTCGCCGACCATCTGCAGGAGGTGTGCGCTTTTCTCGCGGGGCAGACATCGCTTTCACCGCCTCTTGCCGAGGCACCTATTGTTGATGAACGCGGCGAAGATTTGCGCGATGTTATCGGCCAGCAGCAGGGAAAACGAGCGCTGGAGATTGTGGCCGCCGGGGGTCACAACCTGCTCCTGATAGGGCCGCCCGGCACCGGGAAAACCATGCTTGCCAGCCGGTTACCCGGTCTCCTGCCGCCATTAAGCAATCAGGAAGCACTGGAGAGCACCGCCATTCAGAGCCTGGTCAATCTGCATACCGCGAAGACCCGGTGGCGTCAGAGGCCGTTTCGCGCGCCTCACCATAGCGCCTCGCTGGCAGCGATGGTGGGCGGCGGCTCAATACCGGTCCCCGGTGAGATTTCCCTGGCCCATAATGGCGTGCTGTTTCTTGATGAACTGCCGGAGTTTGAGCGGCGTGTACTGGATGCGCTGCGCGAACCCATTGAGTCAGGCAAGATCCACATATCACGCTCGCGCGCCAAAATTGACTATCCGGCGCGCTTTCAACTTATCGCGGCGATGAACCCAAGCCCGACAGGGCATTATCAGGGCAAACATAATCGTACATCGCCTGAGCAGACATTACGTTATCTGGGACGTCTGTCAGGCCCCTTCCTTGACCGCTTCGATCTCTCCTTAGAGATCCCGCTGCCGCCGCCAGGGATACTGAGCCAGGGCACGCAGGGCGAAGAGTCTAGCGCAACGGTCCGGCAGCGGGTGCTGGCGGCGCGCGAACGGCAAATGCTCAGGCAAAATAAGCTCAATGCTCATCTTGAGAATCGTGAAATGAAGAGCTGCTGCCACTTACGGCGGGAGGACGCTGTCTGGCTGGAACAGACGCTAACGCAGTTGGGACTCTCTATTCGAGCCTGGCAGCGGCTGTTAAAGGTGGCGAGAACCATTGCCGATCTGGCAGAGGCTGAAGAGATTGAACGCCGTCATTTGCAGGAGGCGCTCAGCTATCGGGCGATAGACCGGATGCTAAACCATCTGCAGAAAATGATGGCGTAA	MSLAIVYTRAALGIEAPLITVEVHLSNGLPGLTMVGLPETTVKEARDRVRSALINSGYAFPAKKITINLAPADLPKEGGRYDLPIALALLVASEQLNTTRLNHYEFVGELALTGGLRGVPGAIPSAMEAIKAGRRIVVSADNAAEVGLIGGSDCLVADHLQEVCAFLAGQTSLSPPLAEAPIVDERGEDLRDVIGQQQGKRALEIVAAGGHNLLLIGPPGTGKTMLASRLPGLLPPLSNQEALESTAIQSLVNLHTAKTRWRQRPFRAPHHSASLAAMVGGGSIPVPGEISLAHNGVLFLDELPEFERRVLDALREPIESGKIHISRSRAKIDYPARFQLIAAMNPSPTGHYQGKHNRTSPEQTLRYLGRLSGPFLDRFDLSLEIPLPPPGILSQGTQGEESSATVRQRVLAARERQMLRQNKLNAHLENREMKSCCHLRREDAVWLEQTLTQLGLSIRAWQRLLKVARTIADLAEAEEIERRHLQEALSYRAIDRMLNHLQKMMA				NA	NA	NA	NA	NA
BMS020_07562	339			hypothetical protein	ATGGCGGAAAGCTTTACGACGACTAATCGTTTTTTCGACAATAAAAATTATCCACGCGGGTTCTCCCGTCACGGTGATTTCACCATCAAAGAGGCGCAACTGCTGGAACGTCATGGTTATGCCTTTAACGAACTGGAACTGGGTAAACGCGAACCTGTTACCGATGATGAAAAACAGTTTGTCTCGGTGTGCCGTGGTGAGCGTGAGCCGGTAACGGAAGCAGAACGCGTATGGATTAAGTATATGGCGCGCATCAAGCGGCCGAAGCGTTTCCATACCCTTTCCGGCGGCAAACCGCAGATGGAAGGCGCTGACGATTACACCGAAAGCGATGACTAA	MAESFTTTNRFFDNKNYPRGFSRHGDFTIKEAQLLERHGYAFNELELGKREPVTDDEKQFVSVCRGEREPVTEAERVWIKYMARIKRPKRFHTLSGGKPQMEGADDYTESDD				NA	NA	NA	NA	NA
BMS020_07563	822	hdfR_4		HTH-type transcriptional regulator HdfR	GTGGATACGGAATTGCTCAAGACTTTCCTGGAAGTGAGCAGAACTCGTCACTTTGGGCGAGCAGCAGAGGCGCTTTACCTGACGCAATCAGCGGTCAGCTTTCGTATTCGTCAGCTGGAAAATCAACTTGGTGTGAACCTGTTCACCCGACATCGTAATAACATTCGCCTGACGACGGCCGGAGAAAAGCTCCTGCCTTACGCCGAAACGTTAATGAATACCTGGCAGGCTGCGCGCAAGGAGGTCGCACACTCTTCGCGACATAATGAATTCTCCATCGGAGCCAGCGCCTCGCTGTGGGAATGCATGCTTAACGGCTGGCTCGGCACCCTCTACAGCGCACCTTACAATCTCCAGTTTGAAGCGCGTATCGCACAGCGGCAGTCGCTGGTTAAACAGCTTCACGAACGCCAGTTGGATCTGCTGATCACCACCGAATCGCCGAAGATGGATGAATTAAGCAGCCAGCTGTTGGGTAATTTTACCCTTGCCTTGTATTGCGCATCGCCTGCAAAAAACAGAAATGAATTGAATTACTTGCGCCTTGAATGGGGGCCTGATTTTCAGCAAAACGAAGTGGGTCTGATAGGAAGCGATGATGTTCCGCTGCTCACTACCTCTTCAGCTGAATTGATCTACCAGCAATTATCACGCCTGAACGGCTGCTGTTGGCTACCTGTTCGCTGGGCGAAAGAGAAGCATGGGTTACATACGGTCATGGACAGCGCTACGCTTTCCCGCCCACTCTATGCGATCTGGTTACAAAATAGCGATAAGCAGGGGCAGATCCACGAGATCCTGAAAAGCCCTATCCTGGAATAA	MDTELLKTFLEVSRTRHFGRAAEALYLTQSAVSFRIRQLENQLGVNLFTRHRNNIRLTTAGEKLLPYAETLMNTWQAARKEVAHSSRHNEFSIGASASLWECMLNGWLGTLYSAPYNLQFEARIAQRQSLVKQLHERQLDLLITTESPKMDELSSQLLGNFTLALYCASPAKNRNELNYLRLEWGPDFQQNEVGLIGSDDVPLLTTSSAELIYQQLSRLNGCCWLPVRWAKEKHGLHTVMDSATLSRPLYAIWLQNSDKQGQIHEILKSPILE	PGPT0015580_730	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015580-hdfR-K23773	NA	NA
BMS020_07566	1527			hypothetical protein	GTGACCGATGCGCAGCTGCGCGCGCACATCCAGACCGTGGTGGTGCTGTACGCGGAGAACCGCAGCTTCAACAACCTGTTCGCCGGCTTCCCCGGCCTGCAGCAGCCGCTGGCGGCGATCGACCCGGAACGCGCGCAGCAGCGCGACCGCGACGGCCGCGTGCTCAAGACCCTGCCGCCGATCTGGGAAGGCCTGGTGCCGGACGAACAGGTAGTCGACCACGACCGCTACAAGATCGACCAGGACGCGATCACCGGGCTGGCCAACGCGCCGTTCGCGCTGTCCACGCCCGAGGGCGCGCCGCTGCCGCATGGCGTGGTCACCCGCGACCTGGCGCACGAGTTCTACCGCAACCAGATGCAGATCAACGGCGGCCGCAACGACCAGTTCGTCGCCTGGGGCGACAGCGGCGCGCTGGTCATGGGCCACTACGGCCAGACCGCGGTGAACCTGCGGCTGTGGCGGCTGGCCGAGCAGTACACGCTGTGCGACAACTTCTTCATGGGCGCGTTCGGCGGCTCGTTCCTCAACCACCAGTACCTGGTCGCGGCGCAGCCGCCGACCTACCCGGACGCCGACAAGGGCCCGGCGCGCTTCAACATCGCCGTCACCGAGGACGGCAAGCCGGACGGCACCCGCCTGCTGGTGGCGCCGGGCAGCCCGGCCAGCGCGATGGATGGCGTGCCCAAGTTCGCCTCGCGGCCGACGCTGAGCCCGGACTTCTGGGCGGTCAACACGATCGGCCCGGCCTACGCGCCCGGCTTCAACGTCGACAGCGCCAATCCGCAGCTGGCCGATGCGACCAGCCCGAACACGCTGCCGCCGCAACGGCACAAGCACATCGGCGACATGCTCAGCGCCAAGGACGTTGACTGGGCCTGGTACGGCGGCGGCTTCCAGGCCGCGCTCGACGGCCACGGCGACAGCGACGCCAGCTTCCCGAGCCGGCCGAACTTCCAGCCGCACCACCAGCCGCTGAACTACTTCGTCGGCCTGGCGCCGGGGACGCCGGCGCGCGCGCAGCACCTGCGCGACGGCGGCACCGGCGAGACCGCGGCCAGCAACCGCTTCATCGCCGACGCCGCGGCCGGCACGCTGCCGGCGGTCAGCTTCTACAAGCCGCAGGGCAACCTCAACATGCACGCCGGCTACTCCGACGTGGAGGCCGGCGACCGCCACCTGGCGGCGATCGTGCATGCGCTGCAGAACAGCCCGCAGTGGAAGGACATGCTGATCGTCATCACCTTCGACGAGAACGGCGGCTGGTGGGACCACGTGGCGCCGCCGAAGGGCGACCGCTGGGGCCCGGGCACGCGCATCCCGGCGCTGGTGGTGTCGCCGCACGCCAAGCGCGGCCACGTCGACCACACGATCTACGACACCGGCTCGATCGCGCGTTTCCTGACCCGCCGCTTCGGGCTGGAGAAGCTGCCCGGCTTGCAGCTGCGCGAGGACGCGATGACCGCCGCCGGTGGTCCGGCACCGGGCGACCTGACCGGCGCGCTGGCGTTCGCCGAGCCGGCCTGA	MTDAQLRAHIQTVVVLYAENRSFNNLFAGFPGLQQPLAAIDPERAQQRDRDGRVLKTLPPIWEGLVPDEQVVDHDRYKIDQDAITGLANAPFALSTPEGAPLPHGVVTRDLAHEFYRNQMQINGGRNDQFVAWGDSGALVMGHYGQTAVNLRLWRLAEQYTLCDNFFMGAFGGSFLNHQYLVAAQPPTYPDADKGPARFNIAVTEDGKPDGTRLLVAPGSPASAMDGVPKFASRPTLSPDFWAVNTIGPAYAPGFNVDSANPQLADATSPNTLPPQRHKHIGDMLSAKDVDWAWYGGGFQAALDGHGDSDASFPSRPNFQPHHQPLNYFVGLAPGTPARAQHLRDGGTGETAASNRFIADAAAGTLPAVSFYKPQGNLNMHAGYSDVEAGDRHLAAIVHALQNSPQWKDMLIVITFDENGGWWDHVAPPKGDRWGPGTRIPALVVSPHAKRGHVDHTIYDTGSIARFLTRRFGLEKLPGLQLREDAMTAAGGPAPGDLTGALAFAEPA				NA	NA	NA	NA	NA
BMS020_07567	1020			hypothetical protein	ATGTCCAACACCCGCCTCGCCTCCGCCCTGCTGCTCTGCTCCGCGCTGTGGTCCGGCCACGCGCTGGCCTGGGGCCACCGCGGCCACGTCGCGATCGATACCGCCGCGGTGCAGGCGCTGCCCGACGACGGTCCGGCGTTCCTGAAGCGCTACCTGCAGGTGATCGCCGACGGCAGCACGATGCCCGATGACTGGCGCGGCGAATCCGAGCCGTTCCTGAAGATCGAGGAAGACCCCAACCACGGCTGGTTCCGCGAGCAGTTCGCCTTCATGAAGACGCCGCCACGTTCCCGCTATGCGTTCGTGCTGGCGCTGTACGACGAGCAGCGGCGCATCGAACGCACCGATCCGGAGCTGGCACGGCGCATGAACGTGCGTTGGACCGGCACCCTGCCCTACGCCGCGGTCGAAGGCTATGAACGGCTGGTGGTGACGATGCGGCAGATCCGCGCGATGCGCGCGCGTGGCCAGGACAGCGGCGAGCTCGAACGCACCTGCGCGTTCTACGTCAGCTGGTTCGGCCACTACATCGGCGATGGCGCCAACCCGATGCATGACAGCATCCACCACGACGGCTGGTCGGGCCCGAACCCGCATGGCTATTCGCGCGCCCCGCAGGTGCATGGCAAGTTCGAGAGCGCGTTCGTCGACAAGATGGCGCTCAGCGGCGAGATGCTCGCCAGCCACATGGCGCCGCTCGACCACCAGCAGGGCGACGTGTTCGATCTGATCCTCGCCTACCTGGACAAGGGCACCGGCCGGGTGGAGTGGCTGTACCGGCTGGAGCACGATGGCGCGTTCGACGACGCAGCGCGCCAGGATGGCCGCGATGCGGTGTTCAGCACCGCCGGCGATGGCGCGTCGATGCTGCGCGACCTGCTGGTGCGCGCCTGGCGCGAGAGTGCGCGCGCGCCAACCCGCTCGGGATTGCCGGCAACGATGGCGCCATCCCACCCGCAGTACGACCCGCGCACCGGCAGCGCGCCGGCGGCGCTGTCGCCGCCGCTGCCGCAGGACTGA	MSNTRLASALLLCSALWSGHALAWGHRGHVAIDTAAVQALPDDGPAFLKRYLQVIADGSTMPDDWRGESEPFLKIEEDPNHGWFREQFAFMKTPPRSRYAFVLALYDEQRRIERTDPELARRMNVRWTGTLPYAAVEGYERLVVTMRQIRAMRARGQDSGELERTCAFYVSWFGHYIGDGANPMHDSIHHDGWSGPNPHGYSRAPQVHGKFESAFVDKMALSGEMLASHMAPLDHQQGDVFDLILAYLDKGTGRVEWLYRLEHDGAFDDAARQDGRDAVFSTAGDGASMLRDLLVRAWRESARAPTRSGLPATMAPSHPQYDPRTGSAPAALSPPLPQD				NA	NA	NA	NA	NA
BMS020_07568	819	cobB_4	COG0846	NAD-dependent protein deacetylase	ATGAGCACGCCGCAGCAGCTGCGCGGCTTCGTCGAGCGGCACGAGCGGCTGTTCGTGCTGACCGGCGCCGGTTGCAGCACCGGCTCGGGCATTCCCGATTACCGCGACACCGATGGGCAGTGGAAGCGCGCGCAGCCGGTGACCTACCAGGCGTTCATGGGCGAGCTGGCCACGCGCCAGCGCTACTGGGCGCGCAGCCTGCTGGGCTGGCCGCGGTTCCTGGCCGCGCGACCGAACGGCGTGCACGATGCGCTGGCGGCGCTGGAGGTACGCGGCCAGGTCTCGCTGCTGCTGACCCAGAACGTGGATGGCCTGCACCAGGCCGCCGGCAGCCAGGCGGTGATCGACCTGCATGGCCGCCTGGACGTGGTGCGCTGCATGGAGTGCGAACGGCGCACGCCGCGGGTGGACTTCCAGCATGCGCTGGTTGCGGCCAATCCCGACTGGCTGGCACTGGAGGCCGGCATCGCCCCGGATGGCGACGCCGATCTGGAGGGCGTGGACTTCGCCGCGTTCCAGGTGCCGGCGTGCAGCCGCTGCGGCGGCGTGCTCAAGCCGGACGTGGTGTATTTCGGCGAGAACGTGCCGCGCGAGCGCGTGCAGGCCGCGCGCGAGGCGCTCGCCGCCAGCGACGCGATGCTGGTGGTCGGCTCGTCGCTGATGGTCTATTCCGGCTTCCGCTTCGCGCAGTGGGCGCACGCCGCGGGCACCCCGATCGCCGCGTTGACGCTGGGTCGCACCCGCGCCGACGACCTGCTGGCGTTGAAGGTGCAGCATGACTGCGCCGAGGCACTGGCCTTCCTGCGCGCCACACCATGA	MSTPQQLRGFVERHERLFVLTGAGCSTGSGIPDYRDTDGQWKRAQPVTYQAFMGELATRQRYWARSLLGWPRFLAARPNGVHDALAALEVRGQVSLLLTQNVDGLHQAAGSQAVIDLHGRLDVVRCMECERRTPRVDFQHALVAANPDWLALEAGIAPDGDADLEGVDFAAFQVPACSRCGGVLKPDVVYFGENVPRERVQAAREALAASDAMLVVGSSLMVYSGFRFAQWAHAAGTPIAALTLGRTRADDLLALKVQHDCAEALAFLRATP				NA	NA	NA	NA	NA
BMS020_07569	1098	namA_4	COG1902	NADPH dehydrogenase	GTGAGCCAGTTGTTCTCGCCGATCGCGTTCGGCCCGCTGCAGCTTTCCAACCGGATCGTCATTGCGCCGATGTGCCAGTACTCGGCCGAAGACGGCTGCGTCGGCAGCTGGCATGCCCAGCACCTGGGCACGCTGGCGCAGTCCGGCGCCGGCCTGCTGATCCTGGAGGCCAGCGCGGTCGAACCGCGCGGCCGCATCAGCCATGCCGACGTGGGCCTGTACGACGACGCCAGCGAGGCCGCGCTGAAGCGGGTGCTCGACGACGTGCGGCGCTGGTCGTCGATGCCGCTGGGCATCCAGCTCGCACACGCCGGCCGCAAGGCGTCCACGGCGCGGCCGTGGGAGGGTGGCGGCGCGATCGCGCCGGATGCCGCCAACGGCTGGCAGACCGTGGCGCCGTCGGCGCAGCCGTTCACCCCGGGCGCGCCGGCGCCGCAGGCGCTGGACGAGGCTGGCATCGACGCGATCGTCGAGGCGTTCGCCGCCAGTGCGCGGCGTGCCGAGCGCATCGGCCTGCAGCTGATCGAGATCCACGCCGCGCACGGCTACCTGCTGCACCAGTTCCTGTCGCCGCTGAGCAACCAGCGCGACGACGGCTACGGCGGCAGCCTGGACAACCGCCTGCGGCTGACGCTGCGGGTGTTCGATGCGGTGCGCGCGGCGGTCTCCGATGCGGTCAGCGTCGGTGTCCGCATCTCGGCGACCGACTGGGTCGAGGGCGGCTGGGACCTGGCGCAGAGCATCGCGCTGGCCAAGGCGCTGGACGCGCGCGGCGCGCAGTTCATCCACGTCTCCAGCGGCGGTCTGGACCCGCGCCAGAAGATCGCGCTCGGCGCCGGCTACCAGGTGCCGTTCGCGCAGGCGATCAAGGCCGACGTGGCGATGCCGGTGATCGCGGTCGGCTTGATCACCGACCCGTTGCATGCCGACTCGCTGCTCGACGAGGGCCGCGCCGATGCGATCGCGCTGGCCCGCGGCATCCTCTACGACCCGCGCTGGCCGTGGCACGCCGCCGCGACCCTGGGCGCCACACTGCAGCCGGCGCCGCAGTACCTGCGCTGCGAGCCGCGCGAGGCGCGTGGCCTGTTCTCGGCGTGA	MSQLFSPIAFGPLQLSNRIVIAPMCQYSAEDGCVGSWHAQHLGTLAQSGAGLLILEASAVEPRGRISHADVGLYDDASEAALKRVLDDVRRWSSMPLGIQLAHAGRKASTARPWEGGGAIAPDAANGWQTVAPSAQPFTPGAPAPQALDEAGIDAIVEAFAASARRAERIGLQLIEIHAAHGYLLHQFLSPLSNQRDDGYGGSLDNRLRLTLRVFDAVRAAVSDAVSVGVRISATDWVEGGWDLAQSIALAKALDARGAQFIHVSSGGLDPRQKIALGAGYQVPFAQAIKADVAMPVIAVGLITDPLHADSLLDEGRADAIALARGILYDPRWPWHAAATLGATLQPAPQYLRCEPREARGLFSA	PGPT0005575_381	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
BMS020_07570	876	garR_3	COG2084	2-hydroxy-3-oxopropionate reductase	ATGGCGATCGGTTTTCTCGGGTTGGGCACGATGGGCCGGCCGATGGCGCGCAGCCTGCTGCGCGGCGGCTTCGAGCTGGTGGTGTGGAACCGCAGCCGCGCCGCGATGGAGGCACTGCAGACCGAGGGCGCGGGCGTGGCCGACAGCGCCGCGGCGGCCGCGACCGGGCCGCTGCTGTTCTCGATGCTGGCCGACGATGCCGCGGTACGCGCGGTGGTCCTCGACGGCGGCGTGCTCGACGCGCTGCCGGCCGGCAGCGTGCACGTGAACATGGCCACGATCTCGGTGGCGCTGGCGCGCGAGCTGCACGCGCTGCATGCCGAGCGCGGCATCGCCTATGTCGCCGCGCCGGTGCTCGGGCGCGAGGACGTGGCCGCGGCCGGGCGGTTGAACATCCTCGCCGCCGGCGACGCCGTGGCACTGGCGCGGGTGCAGCCGATGTTCGACGCGATGGGCCAGCACACCTGGTCGTTCGGCACCGCGCCGGAACGCGCCAATGCGGTCAAGCTGGCCGCCAACCTGTGCCTGGCCAGCGCGATCGGCACCATGGCCGAGGCCGCGACGCTGGTGCAGGGGCACGGCGTGGAGCGCGCCGCGTTCCTGCAGATGCTGACCTCCACGTTGTTCGCCGCGCCGGCCTACCAGGGCTATGGCGGCCTGATGGCCGAGCGGCGCTACCGCCCGGCCGGGTTCACCACGGTGCTGGGGCGCAAGGACGTCGACCTCGGCCTGGCCGCGGCGCAGGCGCGCGGCATCCCGATGCCGTTGGCCGAACTGCTGCGCGCCGAACTCGATACCGCCATCGCCGCCGGCGACGGCGATGCCGACTGGGCGGTGCTGGCGGAAGTGGCCACGCGCCGCGCAGGCCAGGGCTGA	MAIGFLGLGTMGRPMARSLLRGGFELVVWNRSRAAMEALQTEGAGVADSAAAAATGPLLFSMLADDAAVRAVVLDGGVLDALPAGSVHVNMATISVALARELHALHAERGIAYVAAPVLGREDVAAAGRLNILAAGDAVALARVQPMFDAMGQHTWSFGTAPERANAVKLAANLCLASAIGTMAEAATLVQGHGVERAAFLQMLTSTLFAAPAYQGYGGLMAERRYRPAGFTTVLGRKDVDLGLAAAQARGIPMPLAELLRAELDTAIAAGDGDADWAVLAEVATRRAGQG				NA	NA	NA	NA	NA
BMS020_07571	378			hypothetical protein	ATGAACGCATCGGTCCCGATTGGTCCCGACCACCCCGAGCATCCCGATCATCGCCTGTATGCGCAGATCCGCGACGGCGTGGCCCGTCTCGACGCCGAACTCGGCCGCACCCCGGATGCGGTCAGCGAGCGCATGGCCGCACGGCTGCTGCCGCTGGCCAAGCAACATGGGTTCGACCAGGTCGACCACGTGGTGCTCAGCCAACACCTCGGCGAAACCGGCGAGCGCGTGTTCGTGGTGCGTGGCGCGTTGCACGATCCAGGCCACCTGCGCGCGCACGTGGACACCGACGAGGCCACCGGCACGCCGGTCGCCGACTCGCTGGCGCGGCTGGACGAGGTCAATCGCCGGCTGATGCTGCGCCTGCCGCTGCGCTGA	MNASVPIGPDHPEHPDHRLYAQIRDGVARLDAELGRTPDAVSERMAARLLPLAKQHGFDQVDHVVLSQHLGETGERVFVVRGALHDPGHLRAHVDTDEATGTPVADSLARLDEVNRRLMLRLPLR				NA	NA	NA	NA	NA
BMS020_07572	975	argP_4		HTH-type transcriptional regulator ArgP	ATGAATCTCCTGCAGTCGATCCGCAGCTTCGTGCGCACCGTCGAGGCCGGCAGCATCGCCGGCGGCGCGCGCAGCCTGGGCATCAGCGCAGCCGCGGTCAGCCAGAACATCGCCCGGCTCGAAGCCGAGCTCGACGTGCGCCTGCTCAACCGCAGCCCGCGCAGCCTGGCGCTGACCGAGCGCGGCCAGCGCTACTACGACCAGGTGCGGCAGATCGACCGCCAGCTCGAACACGCGCGCCAGGCGGCCACCGGCGACGATGCCGAACCGGCCGGACGGCTGCGCATCGCCTGCACCGGCGCGTTCGCCCGCCATGTGCTGGCCCCGGAGCTGCCGGCACCGCGCGCACGCCACCCGCGGCTGGAGCTGGAACTGTTGGTCGACGATGGCCTGCCCGAGCATGCCCGCGATGGCCTCGACGCCAGCATCCGCATCGAGGAACAGCTTGAGGACGGGCTGGTCGCGCGCTGCATCGCCGCGGTGCCGTTCGTGCTGTGCGCCGCACCGGACTACCTGGCCCGGCGTGGCCGGCCGCAGTCGCCCGAGCAGCTGACCGCGCACGACTGCGTGCTGTTCCGCCACCCGGTCGACGGCTGCTACCTGCGCTGGGGATTCCGCCGCGACGGCCGACGCATCGCGCCGGAGCTGCGCGCCAGCCTGGCCGGCAACGACATCGACGCGATCGCGGCGATGGCCGCCGCCGGCGGTGGCATCACCCGCCTGGCGGCCTTCGTCGCCCAGCCCTACCTGGAACGCGGCACGCTGGTGGCACTGGCCGGCGATGGCGACGACGCCGGGTTCGACGCCGCGCCGGAACCGATGCGGCTGTTCCTGTGCCTGAGCGACCGCCGCGACCTGACCCCGAAACTGCGCGCGTTCCTGCACCACCTGCAGGCACGGCTGCCAGCGGCCCGGGCGCCTCCGTTCGACGCCGCGCTCAGCGCAGCGGCAGGCGCAGCATCAGCCGGCGATTGA	MNLLQSIRSFVRTVEAGSIAGGARSLGISAAAVSQNIARLEAELDVRLLNRSPRSLALTERGQRYYDQVRQIDRQLEHARQAATGDDAEPAGRLRIACTGAFARHVLAPELPAPRARHPRLELELLVDDGLPEHARDGLDASIRIEEQLEDGLVARCIAAVPFVLCAAPDYLARRGRPQSPEQLTAHDCVLFRHPVDGCYLRWGFRRDGRRIAPELRASLAGNDIDAIAAMAAAGGGITRLAAFVAQPYLERGTLVALAGDGDDAGFDAAPEPMRLFLCLSDRRDLTPKLRAFLHHLQARLPAARAPPFDAALSAAAGAASAGD				NA	NA	NA	NA	NA
BMS020_07573	249			hypothetical protein	ATGGTGACCCTGATCCTGCTGCATGGCGGTGCGCGTTTCAGCCGCGAACACCGCGACGACGCCCCCGAGCTGCTCGAGCACGCCGGGCAGAGCTATTCGCTGCGCGCCGGGCCGCGCACGCCGCTGCCCACCGGGCATGCCTGGGCGCCGGTGGCGGTGTATGCGCCGGACGACTTCAACGAGGAGGAGTTCCAGGACATGTACGCCAGTGCCCGCGCGCAGGTGGAGGAGTTCAACCTGCACTACTGA	MVTLILLHGGARFSREHRDDAPELLEHAGQSYSLRAGPRTPLPTGHAWAPVAVYAPDDFNEEEFQDMYASARAQVEEFNLHY				NA	NA	NA	NA	NA
BMS020_07574	330			hypothetical protein	GTGGCCGGTGCCGGCCGCCGGCAGCATCTGCGGCCGCCGCACTGTCGCGGCGTCGCTGCGAGTTCCGCCTTGGCTACTGCCCCGAGCCCCGTTCGCCGCCGTTGGAAACTGGCGGCGCGTGCCACGCCGTTCGCGTTCGCCTTCTACATGGCGGCGATCATGGCGCTGCTGATGTGCCTGGTGATCACCGCCGCGCGCGGCATCGGCGCGGACTACCTGCAGCAGGTGCTGGGCGCCTACCGGCTGGCGATGCCGACCGCGTTCTGCTGCGTGCTGCTGGTGCGGCCGCTGGTGCTGCGGCTGGTGGCGTGGTCGGTGCATCCGCACTGA	MAGAGRRQHLRPPHCRGVAASSALATAPSPVRRRWKLAARATPFAFAFYMAAIMALLMCLVITAARGIGADYLQQVLGAYRLAMPTAFCCVLLVRPLVLRLVAWSVHPH				NA	NA	NA	NA	NA
BMS020_07575	852	purU_2	COG0788	Formyltetrahydrofolate deformylase	ATGCGCCCCGATTACATCCTGACCCTGTCCTGCCCGGACCGTACCGGCATCGTCTACCGCGTCAGCGGACTGCTGTTCGAGGCCGGCTGCAACATCCTCGACGCGCAGCAGTTCGGCGACGAGGAGCGCGGCCGGTTCTTCCTGCGCGTGCATTTCGACACCGCCGCCGATGCGGCGCTGGACGCGCTGCGTGCGCGCTTCGCCGACCTGGCCGAGGCGTTCGCGATGGACTGGCAGCTGCACGACGCGCGCCGTCGCGCGCGCCTGCTGGTGCTGGTCAGCAAGCAGGGCCACTGCCTCAATGACCTGCTGTTCCGCGCGCACAGCGGCCAGCTCAAGGTCGACATCGCCGCGGTGGCCTCCAACCACACCGATTACGCCGCGCTCAGTGCGTCGTACCAGGTGCCGTTCCAGCACCTGCCGGTGGATGCGTCCAACCGCTTCGAGCAGGAGCAGGCGATCATCGACCTGGTCGAGCGCGAGCGCATCGACCTGGTGGTGCTGGCGCGCTACATGCAGATCCTCAGCCCGCGCCTATGCGAAGCGCTGGCCGGGCGCGCGATCAACATCCATCACAGCTTCCTGCCCAGCTTCAAGGGCGCGCAGCCGTACCACCAGGCGCATGCGCGTGGGGTCAAGATCATCGGCGCCACCGCGCACTACGTGACGCCGGACCTGGACGAGGGCCCGATCATCGAGCAGGACGTGGCGCGCGTGGACCACGCGATGACCCCCCGCGACCTGGTGCGCCTGGGCAGCGATACCGAGTCGCTGGTGCTGGCGCGCGCGGTGCGTCGCCATGTCGAGCACCGCATCCTGCTCAACGGCCACCGCACGGTGGTGTTCCGCTGA	MRPDYILTLSCPDRTGIVYRVSGLLFEAGCNILDAQQFGDEERGRFFLRVHFDTAADAALDALRARFADLAEAFAMDWQLHDARRRARLLVLVSKQGHCLNDLLFRAHSGQLKVDIAAVASNHTDYAALSASYQVPFQHLPVDASNRFEQEQAIIDLVERERIDLVVLARYMQILSPRLCEALAGRAINIHHSFLPSFKGAQPYHQAHARGVKIIGATAHYVTPDLDEGPIIEQDVARVDHAMTPRDLVRLGSDTESLVLARAVRRHVEHRILLNGHRTVVFR	PGPT0008155_2712	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433	NA	NA
BMS020_07576	144			hypothetical protein	ATGGGCAGTTTCAGCATCTGGCACTGGATCGTGGTGTTCGGCATCGGCCTGTTCGGCGCGGCGGCGATCACCCTGCTGGTGTGGGTGGTCCGGCGCGCGAGCACCCGCCCCGGCGCCGGGCAGCGCCCGCCGCCGACCGATTGA	MGSFSIWHWIVVFGIGLFGAAAITLLVWVVRRASTRPGAGQRPPPTD				NA	NA	NA	NA	NA
BMS020_07577	741	fabG_17		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGACATCCACCCCTCGCAAGACCGCGCTGGTCACCGGCGCTTCCCGTGGCATCGGCCGCGCCATCGCCGAACGGCTGGGCCGTGATGGCTTCGACGTGGTGGTCGGCTACGCCGGCAACGCGGCCAGCGCCGAGCAGACCGTGCAGGCGATCGCCGACGCCGGCGGCAGCGCGCTGGCGGTGCAGGCCGACATCGCCGATGCGGGCGCTGTGCAGGCCTTGTTCGAGCAGGCGATCGCACGCTTCGGCCGGCTCGACGTGGTGGTCAACAACGCCGGCGTGATGGAGATGGCACCGATCGCCGACGCCAGCCTGGACGCGTTCGACGCGATGGTCGCCACCAACCTGCGCGGCGCCTTCCTGGTGCTGGCGCAGGCGGCCCGGCACGTGGTCGACGGCGGCCGCATCGTCGCGCTGTCGACCAGCGTGATCGCCAAGGCGTTCCCGAACTACGGCCCGTACATCGCCACCAAGGCCGGCGTCGAAGGCCTGGTGAAGGTGCTGGCCAACGAACTGCGCGGCCGCAACATCAGCGTGAATGCGGTCGCGCCCGGCCCCACCGGCACCGAGCTGTTCCTGACCGGCAAGAGCGAGGCGCAGATCGCCCAGCTGGCCAAGCTGCCGCCGCTGGAACGGCTGGCCACGCCGGAGGACATCGCCGCGGTGGTCGCGTTCCTGGCCGGCGCGGACGGCGGCTGGGTCAACGCGCAGGTGCTGCGCGCCAACGGCGGCTTCGCCTGA	MTSTPRKTALVTGASRGIGRAIAERLGRDGFDVVVGYAGNAASAEQTVQAIADAGGSALAVQADIADAGAVQALFEQAIARFGRLDVVVNNAGVMEMAPIADASLDAFDAMVATNLRGAFLVLAQAARHVVDGGRIVALSTSVIAKAFPNYGPYIATKAGVEGLVKVLANELRGRNISVNAVAPGPTGTELFLTGKSEAQIAQLAKLPPLERLATPEDIAAVVAFLAGADGGWVNAQVLRANGGFA	PGPT0003180_11631	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
BMS020_07578	930	pgrR_15		HTH-type transcriptional regulator PgrR	ATGGACCGCTTCGATTCCCTGCAGTTGTTCGTGCGCATCGTCGAACTGGGCAGCTTCAGCCGCGCCGCCGCCGAGCTCGGCCTGCCGCGCGCCACCGCCACCCACGCGATCAAGCAGCTCGAAGCGCGGCTGGGCTGCCGGCTGCTGGAGCGCACCACCCGCCAGGTGCGGCCCAGTGTCGATGGCCAGGCCTTCTACACGCGCTGCGTGCACCTGCTGGCCGAGCTGGAGGAGGCCGAGGGCGCGCTGCGCAACGTCGCCGCGCGTCCGCGCGGCACGGTGCGGGTGGAGATGCATGGCAGCCACGTGGTGCAGCTGCTGCTGCCGCGGCTGCATGACTTCCATGCGCGCTACCCGGACATCGCGCTGAGCATCAGCAGCGGCGACCGCCTGGTCGACCTGGTGCGCGAGGGCGTGGACTGCGCGCTGCGCAGCGGACCGCTGCGCGATTCGTCGCTGGTGGCGCGCCGCGTGGCGACGCTGCACGAAGTGGTCTGTGCCAGCCCCGACTACCTGGCCGCGCACGGCACGCCGCTGCACCCCGAGCAGCTCGCGGCGCACCGCGCGGTCGGGTTCTTCGCCCGCGAGCACGACATCGCCTATCCGTTCGCGTTCCTGGTCGACGGCCAGCGCCGGGAGTTCGAGCTCGGCGGCTGGCTCAAGGTCAACGAGGCGCGCGCCTATGTCGCCGCGGCGGTGCACGGGCACGGATTGATCCAGCTGCCGCGCATGGGCGTGGCCGCGGAACTGGCCAGCGGCGCGCTGGTGCAGGTGCTGGCCGACTGGCCGGCGCCGCCGATCCCGGTGCACCTGCTGCTGCCGAGCCGGCATCCGGCGCCGCGGGTGCGGGTGTTCGCCGATTGGATCGCGCAGGTGTATGCCGAGGCGTTGGGGGACGAGGGCGCTGGGCAGGGACAGCCGATGCGGTAG	MDRFDSLQLFVRIVELGSFSRAAAELGLPRATATHAIKQLEARLGCRLLERTTRQVRPSVDGQAFYTRCVHLLAELEEAEGALRNVAARPRGTVRVEMHGSHVVQLLLPRLHDFHARYPDIALSISSGDRLVDLVREGVDCALRSGPLRDSSLVARRVATLHEVVCASPDYLAAHGTPLHPEQLAAHRAVGFFAREHDIAYPFAFLVDGQRREFELGGWLKVNEARAYVAAAVHGHGLIQLPRMGVAAELASGALVQVLADWPAPPIPVHLLLPSRHPAPRVRVFADWIAQVYAEALGDEGAGQGQPMR	PGPT0028940_744	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
BMS020_07579	675	baeR_2	COG0745	Transcriptional regulatory protein BaeR	ATGAGCGGCGAGCGCATCCTCGTGGTCGAGGACGAACCGCGGCTGGCTGCGGTGCTGCGCGACTACCTGCATGCGGCCGGCTACCGCAGCGACTGGATCGCCGACGGCGCGGCGGTGCTCGACGGCGTGGCCCGGCTGCAGCCGGACCTGGTGCTGCTCGACCTGATGCTGCCCAACCGCGATGGCGTGGAGATCTGCCGCGCGTTGCGCGCGCTCGGCGAGCTGCCGGTGATCATGGTGACCGCACGGGTCGAGGAAGTGGACCGCCTGCTCGGCCTGGAGGTCGGCGCCGACGACTACATCTGCAAGCCGTTCAGCCCACGCGAGGTGGTGGCGCGGGTCGGCACGGTGCTGCGCCGCGCGCAGCGCGATGCCGCGCAGCCGGCGCTGCCCGGCCTGCAGATCGACGAGGCCGGCTGCCGCGCGCTGCTGCACGGCACGGCGCTGGACCTGACCCCGGTCGAATTCCGCCTGCTGCGCACGCTGGCGGCCACGCCCGGGCGGGTCTGGTCGCGCGACCAGCTGATGGACCACCTCTACGCCGACCACCGCGTGGTCACCGACCGCACCGTCGACAGCCACGTCAAGAACCTGCGCCGCAAGCTGATGGACGCCGGCGGCAACGACGATCCGATCCGCTCGATCTACGGCGTCGGCTACCGCCTGGATGCCTGA	MSGERILVVEDEPRLAAVLRDYLHAAGYRSDWIADGAAVLDGVARLQPDLVLLDLMLPNRDGVEICRALRALGELPVIMVTARVEEVDRLLGLEVGADDYICKPFSPREVVARVGTVLRRAQRDAAQPALPGLQIDEAGCRALLHGTALDLTPVEFRLLRTLAATPGRVWSRDQLMDHLYADHRVVTDRTVDSHVKNLRRKLMDAGGNDDPIRSIYGVGYRLDA	PGPT0003990_480	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-ENVELOPE_STRESS_RESPONSE,PGPT0003990-baeR-K07664	NA	NA
BMS020_07580	1383	baeS_2	COG0642	Signal transduction histidine-protein kinase BaeS	ATGAAACCCGGCATCACCGTCAAACTGTTCCTGGTCGTGCTCGCCGCCTGCGCGGTGGTGCTGGCGGTCAACGGCGTGGCGACACGGATTACCTTCGAACGCGGCTTCCTGGGCTATCTCAACGACCAGGGCACCGGGCGCATGGAGCACCTGCTGCCGCGCCTGCGCGAGGCCTACGCCGCGCACGGCAGCTGGGAGTTCGTGCGCCACGCGCCGGACACCTGGTTCACCCTGCTCAAGCCCAGCGTCGGCGAGGACATCGACTACGCGATGCAGGCGCCACCGGTGTCCGACCAGAGCGGCGCGGTGTTCCGGCTGGCGCTGCTGGATGCGCAGGGCAAGCACGTGATCGGCAACCCGCGCATCGAGGACGATGCGATCCGCCGCGCCATCGTCGTCGATGGCCGCACCGTCGGCTGGCTGGCGATGATCCCCTTCCAGAAGGTGCTGGCCGCCAACGAGCAGCACTTCATCGAAGACCAGAAGCGCTACTGGTGGATCATCGGCATCGCCTCGGTGCTGGTCGCCGCGGGACTGTCGTGGCTGGTCTCGCGCACCCTGCTCGGCCGCGTGGGCGGGCTGGCCAGGGCGATCCACCACCTCGCCGCCGGCAATTACGAAGCGCGCATCGCGCGCATCGACAGCGACGAGATCGGGCGGCTGGCGCAGGACGTCAACCGTCTCGCCGACACCCTGGCCAGCACCGAGCAGAACCGGCGCACCTTCATGGCCGACATCTCGCACGAGCTGCGCACGCCGCTGGCAGTGCTGCGCGCCGAGCTGGAGGCGATCCAGGACGGCATCCGGCCGATGCAGCCGGCCAGCCTGGCGCCGCTGCAGGCCGAGGTGCAGCAGCTCGGCAAGCTGATCGACGACCTGCACGAACTGGCGCTGACCCAGTCCGGGATGCTGGCCTACCGGCTGGCGCGGATCGACCTGGACGCGGTGCTGCAGACCACCCTGGCCGGCATGCGCGGCCGCTTCGCCGACGCCGGGCTGGCGCTGCACGCCGACATCGAGGCGGTGCCGCTGCTGGTCGATGGCGACGAACGCCGGCTGCAGCAGCTGTTCGCCAACCTGCTGGAGAACGCGCTGCGCTACACCGATCGCGGCGGCCAGGTGCGGGTGACGCTGCGCCGCAGCGGCGGCCGCATCGAGGCCGCGATCGAGGACAGCGCGCCGGGCGTGGCCGCCGACGGTCGCGCGCGGCTGTTCGAGCGCTTCTACCGGGTGGAAGGCTCGCGCAACCGCGCCAGCGGCGGCAGCGGACTGGGCCTGTCGATCTGCCGCAACATCGTGCTCGCGCATGCCGGGCAGATCCACGCCGAGGACTCGCCGCTGGGCGGGCTGCGCGTGGTGGTTTCGCTGCCGGTGCCGGCATGA	MKPGITVKLFLVVLAACAVVLAVNGVATRITFERGFLGYLNDQGTGRMEHLLPRLREAYAAHGSWEFVRHAPDTWFTLLKPSVGEDIDYAMQAPPVSDQSGAVFRLALLDAQGKHVIGNPRIEDDAIRRAIVVDGRTVGWLAMIPFQKVLAANEQHFIEDQKRYWWIIGIASVLVAAGLSWLVSRTLLGRVGGLARAIHHLAAGNYEARIARIDSDEIGRLAQDVNRLADTLASTEQNRRTFMADISHELRTPLAVLRAELEAIQDGIRPMQPASLAPLQAEVQQLGKLIDDLHELALTQSGMLAYRLARIDLDAVLQTTLAGMRGRFADAGLALHADIEAVPLLVDGDERRLQQLFANLLENALRYTDRGGQVRVTLRRSGGRIEAAIEDSAPGVAADGRARLFERFYRVEGSRNRASGGSGLGLSICRNIVLAHAGQIHAEDSPLGGLRVVVSLPVPA	PGPT0003985_838	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-ENVELOPE_STRESS_RESPONSE,PGPT0003985-baeS-K07642	NA	NA
BMS020_07581	1203	acrA_2		Multidrug efflux pump subunit AcrA	ATGTCTTCTCCCGTTCGCATTCCGTCCCCGTCGCGCCGGCATTGGCTGCTGGCACCGGCGATCGCGCTGGTCCTGGCCGGCTGCCATTCCGAGCAGGCGCCGCCGCAGCAGACCGCCCAGGTCGGCGTGCAGGTGGTGAGCACGCAGTCGCTGGCGATGGAGCAGGCGCTGCCCGGGCGCACGGTCGCCTACATGGTCTCGGACGTGCGTCCGCAGATCAGCGGCATCATCCAGAAGCGGCTGTTCACCGAGGGCCAGGACGTAAAGGCCGGCCAGGTGCTGTACCAGATCGATCCGGCCACCTACCAGGCCACGTACGACAGCGCCAAGGGCTCGCTGGCGCAGGCCGAGGCGGCGGTGCTGTCGTCCCGGCCGCAGGCCGAGCGCTACGCCAACCTGCTCAAGGTCGATGCGGTCAGCAAGCAGGACGCCGACGATGCCACCGCCACGCTGCGCCAGAACGAGGCGGCGGTGGTGGCGGCCAAGGCCACGCTGCAGAGCGCCAAGATCAACCTCGACTACACCCGCATCACCGCGCCGATCAGCGGCCGCATCGGCACCTCGACCTACACCCCGGGCGCGCTGGTCACCGCCAGCCAGGACACCGCGCTGAGCACGATCCAGCAGCTTGATCCGATCTATGTCGACGTGACCCAGACCAGCGCGCAGTTGCTGGCGCTGCGCAAGCAGCTCGCCAGCGGCGCGCTGAAGGCGGTGGACGGCAAGGTCAAGGTCAAGGTGGAGCTGGAGGACGGCAGCACCTACGCGCGCGAAGGCACGCTGGAATTCGTCGGCACCTCGGTCGATACCGGGACCGGCAACGTGACCCTGCGCGCAGTGGTGCCCAACCCGGACGGCCTGCTGCTGCCGGGCACCTACGTGCGCGCGCTGCTGCCGATGGCGGTGAACCCGCAGGCGGTGCTGGTACCGCAGAGCGCGGTGAGCCGCAACACCAAGGGCGAAGCCACGCTGAAGCTGGTCGGCAGCGACGGCAAGGTCGAAGAGCGCGTGGTGCAGGTCGGCGATGCGATCAAGGACCAGTGGGTGGTGATGTCCGGGTTGAAGGCCGGCGAGAAGCTGATCGTCGACGGCGGCAGCAAGGTCGGCGCCGGGCAGGCGGTGCAGATCGCCCAGCCGGCGGCCGCGCAGCCCGCTGCCGCGGCCAACGCTGCCACGCCGGCCGCTGCCGCCAAGGGCGAGTAA	MSSPVRIPSPSRRHWLLAPAIALVLAGCHSEQAPPQQTAQVGVQVVSTQSLAMEQALPGRTVAYMVSDVRPQISGIIQKRLFTEGQDVKAGQVLYQIDPATYQATYDSAKGSLAQAEAAVLSSRPQAERYANLLKVDAVSKQDADDATATLRQNEAAVVAAKATLQSAKINLDYTRITAPISGRIGTSTYTPGALVTASQDTALSTIQQLDPIYVDVTQTSAQLLALRKQLASGALKAVDGKVKVKVELEDGSTYAREGTLEFVGTSVDTGTGNVTLRAVVPNPDGLLLPGTYVRALLPMAVNPQAVLVPQSAVSRNTKGEATLKLVGSDGKVEERVVQVGDAIKDQWVVMSGLKAGEKLIVDGGSKVGAGQAVQIAQPAAAQPAAAANAATPAAAAKGE	PGPT0029100_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029100-smeA-K18321	NA	NA
BMS020_07582	3144	mexB_2	COG0841	Multidrug resistance protein MexB	ATGGCCCGCTTCTTCATCGACCGACCCATCTTTGCCTGGGTCATCGCCATCGTCATCACCCTGGCCGGCACGCTGGCGGTGTTCACCCTGCCGATCGAGCAGTACCCGGACATCGCGCCGCCGAGCGTGTCGATCCGCGCCACCTACACCGGCGCCTCGGCCGAGACCACCGAGAACTCGGTCACCCAGGTCATCGAGCAGAACATGACCGGCCTGGACAACCTGATGTACATGTCCTCGAGCAGCTCGTCCTCGGGCAGCTCGCAGGTGACGCTGACGTTCAAGAGCGGCACCGACCCGGACATCGCCCAGGTGCAGGTGCAGAACAAGCTGCAGCAGGCGCAGTCGCTGCTGCCCGACTCGGTGCAGAGCACCGGCGTCACCGTGACCAAGTCCTCCGGCAGCATGTTCATGGTGCTGGCGTTCACCTCCGACAACGGCAGCATGGACGGCACCGACATCGCCGACTACATGGTGTCCACGCTGCAGGACCCGCTGAGCCGGGTCAACGGCGTCGGCAACGTGCAGGTGATGGGCTCGGAATACTCGATGCGCATCTGGCTCAACCCGGAGAAGCTGCGCACCTATTCGCTGATGCCCTCGGACGTGACCAGCGCAATCAGCGCGCAGAACAGCGACGTCACCGCCGGTTCGCTCGGCGCGCTGCCGGCGGTGCAGGGCCAGTCGCTGACCGCGACGGTGACCGCGCGCAGCCGCCTCAAGAGCGTGGCGCAGTTCGAGAACATCGTGGTCAAGTCCGACAGCAGCGGCGCGCGGATCCTGCTCAAGGACCTGGCCAAGGTCGAGCTGGGCACCGAGGACTATTCGATCAACAGCCAGTTCAACGGCAAGCCGGCCGCCGGCATCGGCATCGAGCTGGCCTCCGGCGCCAACGCGATGGACGTGTCCGAGGCGGTGCAGGCCAAGCTCGACGAGCTCAAGCCGTACTTCCCCACCGGGCTGACCTACCACGTGGCCTACAGCACCACCCCGTTCGTGAAGATCTCGATCGAGGAAGTGGTCAAGACCCTGATCGAGGCCATCATCCTGGTGGTGGCGATCATGTACCTGTTCCTGCAGAACTGGCGGGTGACGCTGATCCCGGCGATCGCGGTGCCGGTGGTGCTGATGGGCACGTTCGGCGTGCTGTCGCTGCTGGGCTATTCGATCAACACGCTGTCGATGTTCGCGATGGTGCTGGCGATCGGCCTGCTGGTCGATGACGCGATCGTGGTGGTGGAGAACGTCGAACGGCTGATGAGCGAGGAAGGGCTGTCGCCGTACGACGCCACGGTCAAGTCGATGGGCCAGATCACCGGCGCGCTGGTCGGCATCGTGCTGGTGCTGGTGGCGGTGTTCCTGCCGATGGCGTTCTTCGGCGGCGCCACCGGGGCGATCTACCGCCAGTTCTCGGTGACGATCGCCTCGGCGATGGTGCTGTCGGTGCTGGTCGCGATGACCCTGACCCCGGCGCTGTGCGCGACCATCCTGACCCCGATCGAGAAGGGCGGCCACACCACCGCGCGCGGCCCGCTGGGACGCTTCTTCACCTGGTTCAACCGCTTCTTCGACCGCAGCGCCGACCGCTACAGCCACGGCGTGGAGAAGGTGGTCACCCATCGCACGCTCGGCGTCGCCGCCTATGCGCTGATCCTGGTGGCGATGGGCCTGCTGTTCTGGCGCCTGCCGACCTCGTTCCTGCCGGACGAGGACCAGGGCATGCTGATGGTGATGGTCAAGCTGCCGTCGGGCGCCACCCAGCAGCAGACGCTGAAGGTGATGGACGAGGTCAGCAGCTTCGTGCGCCAGCAGCCGGAAGTGGATTCGATCATGTCGGTGGCCGGCTTCAGCATGGGCGGCAGCGGGCAGAACTCCGGCATGGGCTTCATCAAGCTCAAGGACTGGAGCGAGCGCGACACCGCCGCCAGCGACATCGGCATGCGCATCACCATGGCGATGATGCGCAAGTACCGCGACGCGCAGATCTTCGCGATGGCGCCGCCGAGCATCCAGGGCCTGGGCACCAGTTCCGGCTTCACCCTGGAGCTGCAGGACGTCGGCGGTGCCGGCCACGAGGCGCTGGTCGCGGCCAAGGACCAGCTGCTGAAGCTGGCCGGGCAGAGCAGCGTGGTCAACTCAGTGCGCTATTCCGCGCTGGAGGACGCGCCGACCTTCGACGTCAAGATCGACGACGCCAAGGCCGGTGCGCTGGACCTGAGCCAGAGCGACATCAATTCCACCCTCAGCACCGCGATGGGCAGCACCTACGTCAACGACTTCGTCAACGGCGGCCGCATCAAGAAGGTCTACGTGCAGGGCGAAGCCGCCGCGCGCATGCTGCCGCAGGACGTCAACCGCTGGTCGGTGCGCAACAGCGACGATGCGATGGTGCCGTTCTCGGCGTTCGCCAGCACCGGCTGGGGCTATGCGCCGGCCTCGCTGGCGCGCTTCAACGGCACCGCCTCGATGGAGATCACCGGCCAGGCCGCCAGTGGCGTCAGCTCCGGCACCGCGATGGCCGAGATGGCCAAGCTGGTCGGGCAGGTTCCGGGGCAGTTCGGCTACTCGTGGTCGGGGCTGTCCTACCAGGAGCAGCAGTCCGGTTCGCAGGCGCCGCTGCTGTACGCGGTGTCGCTGCTGTTCGTGTTCCTGTGCCTGGCGGCGCTGTACGAGAGCTGGTCGATCCCGATCTCGGTGATGCTTGCGGTGCCGATCGGCGTGCTCGGCGCGCTGCTGCTGACCACGCTGCGCGGGCTGGAGAACGACGTGTACTTCCAGGTCGGCCTGCTCGCCACCGTCGGCCTGGCGGCCAAGAACGGCATCCTGATCGTCGAGTTCGCCAAGGAGCTGGAGGACAAGGGCGAGAGCCTGATCAAGGCCACGCTGCATGCCACCCGGCTGCGCCTGCGCCCGATCCTGATGACCTCGCTGGCGTTCATGCTCGGCGTGCTGCCGCTGGTGATCAGCAGCGGCGCCGGCTCCGGTGGCCGCCATTCGCTGGGCACCGGCGTGCTCGGCGGCACCCTGGCCTCGACCCTGCTCGGCATCTTCTTCGTCCCGCTGTTCTACGTGATCGTCCGCAGCCTGTTCCCCGGCAAGCGCCGGGCCGGCAGCGCCGCGGCCACGACCGAGGTGACCCCATGA	MARFFIDRPIFAWVIAIVITLAGTLAVFTLPIEQYPDIAPPSVSIRATYTGASAETTENSVTQVIEQNMTGLDNLMYMSSSSSSSGSSQVTLTFKSGTDPDIAQVQVQNKLQQAQSLLPDSVQSTGVTVTKSSGSMFMVLAFTSDNGSMDGTDIADYMVSTLQDPLSRVNGVGNVQVMGSEYSMRIWLNPEKLRTYSLMPSDVTSAISAQNSDVTAGSLGALPAVQGQSLTATVTARSRLKSVAQFENIVVKSDSSGARILLKDLAKVELGTEDYSINSQFNGKPAAGIGIELASGANAMDVSEAVQAKLDELKPYFPTGLTYHVAYSTTPFVKISIEEVVKTLIEAIILVVAIMYLFLQNWRVTLIPAIAVPVVLMGTFGVLSLLGYSINTLSMFAMVLAIGLLVDDAIVVVENVERLMSEEGLSPYDATVKSMGQITGALVGIVLVLVAVFLPMAFFGGATGAIYRQFSVTIASAMVLSVLVAMTLTPALCATILTPIEKGGHTTARGPLGRFFTWFNRFFDRSADRYSHGVEKVVTHRTLGVAAYALILVAMGLLFWRLPTSFLPDEDQGMLMVMVKLPSGATQQQTLKVMDEVSSFVRQQPEVDSIMSVAGFSMGGSGQNSGMGFIKLKDWSERDTAASDIGMRITMAMMRKYRDAQIFAMAPPSIQGLGTSSGFTLELQDVGGAGHEALVAAKDQLLKLAGQSSVVNSVRYSALEDAPTFDVKIDDAKAGALDLSQSDINSTLSTAMGSTYVNDFVNGGRIKKVYVQGEAAARMLPQDVNRWSVRNSDDAMVPFSAFASTGWGYAPASLARFNGTASMEITGQAASGVSSGTAMAEMAKLVGQVPGQFGYSWSGLSYQEQQSGSQAPLLYAVSLLFVFLCLAALYESWSIPISVMLAVPIGVLGALLLTTLRGLENDVYFQVGLLATVGLAAKNGILIVEFAKELEDKGESLIKATLHATRLRLRPILMTSLAFMLGVLPLVISSGAGSGGRHSLGTGVLGGTLASTLLGIFFVPLFYVIVRSLFPGKRRAGSAAATTEVTP	PGPT0029105_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029105-smeB-K18322	NA	NA
BMS020_07583	1461	oprM_4	COG1538	Outer membrane protein OprM	ATGATCCGCACCCACGTGCCGCGCGCGCTGCTCGCCGCGGCCTGCACCCTCGCGTTGGCCGGCTGCGTCAGCATGGCGCCGCGCTACCAGCGCCCCGATGCGCCGGTGGCGGCGCAGTTCCGCGACGCTCCGGCGGGCACCGGCGCGACCGCCGGCGATGCCGGCGCGGTCGCCACCCTGGACTGGCGTAGCGTGTTCCTCGATGCGCGCCTGCAGCAGGTGATCGCCAGCGCGCTGGACAACAACCGCGACCTGCGCGTGGCGATGCTCAACATCGAGAAGGCGCGCGCGACCTACCGCATCCAGCGCGCCGACCTGCTGCCTTCGGTCGATGCCAGCGGCAGTTACAGCTCGGCGCGCAGCAGTGCCGCCACCAGCACCACCGGCACCTCGCAGGTCAGCCGCAGCGCCAGCGCCGAAGTCGGCTTCAGCAGCTGGGAGCTGGACCTGTTCGGGCGCATCCGCAGCCTCAAGAACGAAGCGCTGGAGACCTGGCTGGCCACCGAGCAAACCCAGCGCAGCACGCGCATGAGCCTGGTCGCCGAAGTGGCCGGCGACTGGCTCACCGTGGGTGCCTACCAGGCGCAGCTGGCGCTGGCCAGGCAGACCCTGGACAGCCAGCGCCGCACCCTGGAGCTGACCGAGCGCCGGCACGAGCAGGGCGTGGTCTCCGGCGTCGACCTGGCCTCGGTGCAGAGCAGCGTGGAAAGCGCCCGCGCCGACGTCGCCAGCTACACCACCTCGCTGGCGCAGGCGCGCAACGCGCTGGAGCTGGTGGTCGGCGCGCCGGTTGCCGATGCGCAGCTGCCGCTGCAGGACGCCACCAACGAGGCGGTGGCGCTGGCGCCGCTGCCGGCCAACCTGTCCTCGGCGGTGCTGCTGCAGCGCCCGGACGTGCTGTACGCCGAGCACACGCTGAAGGCGGCCAATGCCGACGTCGGCGCGGCGCGCGCGGCGTTCTTCCCGACCATCTCGCTGACCGCCGCCACCGGCAGCAGCAGCGACCAGCTGTCCGGCCTGTTCGAGTCCGGCACCCGCACCTGGTCGTTCGTGCCGTCGATTTCGCTGCCGATCTTCCACGCCGGTGCGCTGAAGGCCTCGCTGGATTCGGCCAAGATCGCCAAGCAGATCGAGGTGGCCGATTACGAGAAGGCGATCCAGACCGCCTTCAGCGAGGTCGCCGATGCGCTGGCCGCACGCGCCAACATCGACGAGCAGCTGGACGCGCAGCGCGCCTACGTCGATGCCAGCCGGCGCAGCTACGAACTCAGCGACGCGCGTTACCGCAACGGCGTGGACAGCTACCTCGATGCGCTGACCGCGCAGCGCTCGTACTACAGCGCGCAGCAGAGCCTGATCACGCTGCAGCTGACCGAGGCGACCAACCGGGTCACGCTGTACAAGGTGCTGGGCGGCGGTGCCGACGCGCAGTCGGCCGCGGCCACGGCCAGCACCCCGTGA	MIRTHVPRALLAAACTLALAGCVSMAPRYQRPDAPVAAQFRDAPAGTGATAGDAGAVATLDWRSVFLDARLQQVIASALDNNRDLRVAMLNIEKARATYRIQRADLLPSVDASGSYSSARSSAATSTTGTSQVSRSASAEVGFSSWELDLFGRIRSLKNEALETWLATEQTQRSTRMSLVAEVAGDWLTVGAYQAQLALARQTLDSQRRTLELTERRHEQGVVSGVDLASVQSSVESARADVASYTTSLAQARNALELVVGAPVADAQLPLQDATNEAVALAPLPANLSSAVLLQRPDVLYAEHTLKAANADVGAARAAFFPTISLTAATGSSSDQLSGLFESGTRTWSFVPSISLPIFHAGALKASLDSAKIAKQIEVADYEKAIQTAFSEVADALAARANIDEQLDAQRAYVDASRRSYELSDARYRNGVDSYLDALTAQRSYYSAQQSLITLQLTEATNRVTLYKVLGGGADAQSAAATASTP	PGPT0029110_21	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029110-smeC-K18323	NA	NA
BMS020_07584	1206	bcr_4		Bicyclomycin resistance protein	GTGAGTGCTGGCGAGGCGACCCGCAGCGCCGCGCGGAGCACCCCGCGCGGCCTGATCGTGCTGCTCGGCGCGCTCAGCGCGTTCAGCCCGTTCGCGACCGATGCCTACCTGTCCGGCCTGCCGGAGATCGCGCGCGATCTGGGTAGCGACCTGGCGCACGTGCAGTTGAGCCTGTCGAGCTATTTCGCCGGCATGTGCATCGGCCAGCTGCTGTGCGGGCCGATGACCGATGCCTGGGGCCGGCGCCGGCCGTTGCTGGTCGGCGTGGCGCTGTTCACCGCGACCTCGCTGCTGCTGGCGGCGTGCCGCGATGTGGACACGCTGGTCGGCGTGCGCGTGCTGCAGGCGATGGGCGGCTGCGCCGGGGTGATCGTTGCGCGCGCGGTGATCCAGGACCTGCTCAGCGGGCTGGCCGCGGCGCGCGCGCTGTCGAGCATGATGGTGGTGCAGGGCCTGGGCCCGGCGCTGGCGCCGCTGGTCGGCGCGTGGCTGCTGGGCCTGGCCGGCTGGCGCAGCGTGTTCGTGTTCCTGGCGTTGTTTGGCGCTGCCTGCCTGCTGGCGGCGTGGTGGCGCCTACCGGAAACGTTGGCGCCGGAGCGCCGTCGGCCGCTGCATCCGGCGACCACGCTGCGCACCTTCGGTGGCCTGCTGCGCCAGCGCGCGTTTCTGCTGCCGCTGCTGACCGGCGCCACCGCGATGGCGGCGATGTTCGCCTACATCACCGGTTCGCCCGGCGTGTTCATCGCCCAGCACGGGCTGAGCCAGCACCAGTACGGCTGGCTGTTCGCGGCCAACGCGCTCGGCATGATCGTCGCCGGGCGGATCAACCTGCGCCTGCTGTGCCACCACTCGCCGGAGAGCGTGCTGTGCGGCGCCGCCTGTGTGATGGCGTCGGCGGCGCTGATGCTGGTGCTGCTGCGCCAGCAGGTGTCGTGGCAGGTGCTGGCGGTGCCGGTGTTCGTGTGCATCTCGTGCGTGCCGCTGGTCGCGGCCAACAGCGCCGCCCTGGCGATGGCGGCAGGGCGTGAGGCCGCCGGCAGCGCCTCGTCGCTGATCGGCGCGATGCAGTTCGGCCTGGCCGCGGCCGCCAGCGGCCTGGTCGGGGTGTTCGAGAACGGCACGGTGCTGCCGATGGCGGCGGTGATGGCCGCCTCCACGCTGCTGGCGGTGCTGCTGGCGTGGTGGCCGCGCTTCTCGGAAAGCTGA	MSAGEATRSAARSTPRGLIVLLGALSAFSPFATDAYLSGLPEIARDLGSDLAHVQLSLSSYFAGMCIGQLLCGPMTDAWGRRRPLLVGVALFTATSLLLAACRDVDTLVGVRVLQAMGGCAGVIVARAVIQDLLSGLAAARALSSMMVVQGLGPALAPLVGAWLLGLAGWRSVFVFLALFGAACLLAAWWRLPETLAPERRRPLHPATTLRTFGGLLRQRAFLLPLLTGATAMAAMFAYITGSPGVFIAQHGLSQHQYGWLFAANALGMIVAGRINLRLLCHHSPESVLCGAACVMASAALMLVLLRQQVSWQVLAVPVFVCISCVPLVAANSAALAMAAGREAAGSASSLIGAMQFGLAAAASGLVGVFENGTVLPMAAVMAASTLLAVLLAWWPRFSES	PGPT0029005_4326	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
BMS020_07585	627	pncA_2	COG1335	Nicotinamidase	ATGCCCGAGTTTCCCCGCGACACCGCGCTGATCGTCGTCGACCTGCAGCCGGACTTCATGCCCGGCGGTGCGCTGGCCTGCCACGAAGGCGATGCGCTCGTCGCGCCGATCGATGCACTGCTGCGTGCACGCCACTACGCCACCGTGGTCGCCACCCAGGACTGGCATCCGTCCAACCACGCCTCGTTCGCCAGCCAGCATGCCGGCCACGCGCCGTTCGACACGATCCAGCTGCACGGCCATGCGCAGACGCTGTGGCCGGATCATTGCGTGCAGGGCAGCGCCGGCGCGGCGCTGGACCCGCGCGTGGACTGGAACGCGGCCGACCTGGTACTGCGCAAGGGCAGTCATCCGCAGGTCGATTCCTACAGCGGCTTCCGCGAGAACCACGGCCCGGATGGCGCCCGCCCGGCCACCGGGCTGGCCGGATGGCTGCGCGAACGCGGCATCGCCGAAGTCCACGTTTGCGGGCTGGCGCGTGACTACTGCGTGCTGTGGACCGCACAGGACGCCGCCGCCGAGGGATTCCGCGTGCGTTTCCTGTGGGAGCTGACCCGCCCGGTCAGCCCGGCCGGCGACGCGCCGACCCGCGCCGCGCTGGACGCGGCCGGGATCGCGATCGGCTGA	MPEFPRDTALIVVDLQPDFMPGGALACHEGDALVAPIDALLRARHYATVVATQDWHPSNHASFASQHAGHAPFDTIQLHGHAQTLWPDHCVQGSAGAALDPRVDWNAADLVLRKGSHPQVDSYSGFRENHGPDGARPATGLAGWLRERGIAEVHVCGLARDYCVLWTAQDAAAEGFRVRFLWELTRPVSPAGDAPTRAALDAAGIAIG	PGPT0013470_1097	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013470-pncA-K08281	NA	NA
BMS020_07586	2292	metE_2	COG0620	5-methyltetrahydropteroyltriglutamate--homocysteine methyltransferase	ATGACGATCGTGACCAACCTGGGGTTCCCGCGCATCGGCGCGCGCCGCGAACTCAAGCACGCGCTGGAGGCCCACTGGCGTGGCGACAGCAGCGCGGCGCAACTGCAGGACAGCGCGCGCGCGCTGCGTGCGGCGCACTGGCAGCTGCAGCGCGAGGCGGGCGTCGACCTGCCGCCGAGCAACGACTTCAGCCTGTACGACCAGGTGCTCGACACCGCGTTCCTGTTCGATGCCATCCCCGAACGCTACCGCGCGCTCGCCGACGCCGATCCGCTGGCCGGCTATTTCGCGATGGCGCGCGGCCACCAGTCCGGCGCGGTGGACCTGCACGCGCTGGAGATGACCAAGTGGTTCGACACCAACTACCACTACATCGTGCCGGAGCTGCACGCCGGGCAGCAGTTCCGGCTGCGCGGCGACAAGCCGCTGGCCGAGTTCAAGGAAGCGCTGGCGCTGGGCATCACCACCCGGCCGGTGCTGATCGGTCCGGTGACGCTGCTGTGGCTGTCCAAGACCCTCGACGGCAGCGACCGGCTGGAGCTGCTGCCGCAGCTGCTGCCGGCCTATGTCGAGCTGCTGGAGCAGCTCAAGGCCGCCGGTGCGCAGTGGGTGCAGCTCGATGAGCCGGCGCTGGTGCTGGACCTGGACCCGCGCTGGCAGCAGGCCTACCGCGCCGCGTATGCCGCACTCGCCGAGGCCAACCGTCCCAAGCTGCTGCTGGCCAGCTACTTCGGCGCGCTCGGCGACAACCTGGAGCTGGCCGCCGCGCTGCCGGTCGACGGCCTGCATGTCGACCTGGTGCGCGGCACCGAGCAGCTCGATGCGCTGCTCAAGGCGCTGCCGGCCGGGCGCGTGCTCTCGGCCGGCCTGGTCAACGGCCGCAACATCTGGCGCACCGCGCTGGACAACGCGCTGACCCTGGCGCGTTACGCGCAGGGCCATGTCGGCGCCGAGCAGCTGTGGCTGGCGCCGTCGTGCTCGCTGCTGCACGTGCCGGTCGACCTGGCGCAGGAAAAGAGCCTGGACGCCGACCTCAAGCGCTGGCTGTCGTTCGCCCGGCAGAAGCTGGCCGAGCTGCGCACGCTGGCCGATGCGCTGGACGGCAAGGCCGAGGCCGCCACGCCGCTGGCGCAGGCGCGCGAGGCGCTGGAAGCACGCCGGCAGTCGCCGCGCGTGCACCGCCCCGAGGTCGCGCGCCGGCTCGCCGCGCTCGGTCCGGACGCCGCGCGCCGCGCCTCGCCCTACCCGCAGCGCGCGCAGGCGCAGCAGCAGGCGCTGCAGCTGCCGCTGTATCCAACCACCACGATCGGCTCGTTCCCGCAGACCCACGAGGTGCGCGAGGCGCGTGCGAAGCACAAGTCCGGCAAGCTGTCCGATGCCGACTACGACGCGTTCCTGAAGGCGCAGACCGCGCATTGCGTGCGCGTGCAGGAGCAGCTGGGCATCGACGTGCTGGTGCACGGCGAGTTCGAGCGCAACGACATGGTCGAGTACTTCGGCGAGCAGCTCGACGGCTTCGCCTTCACCAAGCTCGGCTGGGTGCAGAGCTACGGCAGCCGCTGCGTGAAGCCGCCGATCATCTTCGGCGACGTACAGCGGCCGGCGCCGATGACGGTGTACTGGTCGCAGTACGCGCAGTCGCTGACCACGCGGCCGATGAAGGGCATGCTGACCGGGCCGGTCACGGTGCTGCAGTGGTCGTTCGTGCGCGACGACCAGGCCCGCCGCGAGACCTGCCGGCAGATCGCGCTGGCGCTGCGCGACGAGGTGCGCGACCTGGAGGCCGCCGGCATCGGCGTGATCCAGATCGACGAGCCGGCGATCCGCGAGGGCCTGCCGTTGCGCCGCAGCGAGTGGCGCGCCTACCTGGACTGGGCGGTGGAGAGCTTCCGCATCTCCGCCAGCGGCGTGCGCGATGCCACCCAGATCCACACCCACATGTGCTACTCGGAGTTCAACGACATCATCGAGGCGGTCGCGGCGATGGATGCCGATGTGATCTCGATCGAAACCTCGCGCTCGAAGATGGAGCTGCTCGACGCGTTCGTGCAGTTCAAGTATCCGAACGCGATCGGCCCGGGCGTCTACGACATCCACTCGCCACGGGTGCCGTCGCAGGCGGAGATGGTGCAGCTGCTGCGCAAGGCGCGCGACGTGCTGGCACCGGAGCAGTTGTGGGTGAATCCGGACTGCGGGCTGAAGACCCGCGGCTGGCCCGAGACCGAAGCGGCGCTGCAGGCGCTGGTGCAGGCCGCGCGGCAGCTGCGCACGCAGGTGGCGGCCGCCGCCTGA	MTIVTNLGFPRIGARRELKHALEAHWRGDSSAAQLQDSARALRAAHWQLQREAGVDLPPSNDFSLYDQVLDTAFLFDAIPERYRALADADPLAGYFAMARGHQSGAVDLHALEMTKWFDTNYHYIVPELHAGQQFRLRGDKPLAEFKEALALGITTRPVLIGPVTLLWLSKTLDGSDRLELLPQLLPAYVELLEQLKAAGAQWVQLDEPALVLDLDPRWQQAYRAAYAALAEANRPKLLLASYFGALGDNLELAAALPVDGLHVDLVRGTEQLDALLKALPAGRVLSAGLVNGRNIWRTALDNALTLARYAQGHVGAEQLWLAPSCSLLHVPVDLAQEKSLDADLKRWLSFARQKLAELRTLADALDGKAEAATPLAQAREALEARRQSPRVHRPEVARRLAALGPDAARRASPYPQRAQAQQQALQLPLYPTTTIGSFPQTHEVREARAKHKSGKLSDADYDAFLKAQTAHCVRVQEQLGIDVLVHGEFERNDMVEYFGEQLDGFAFTKLGWVQSYGSRCVKPPIIFGDVQRPAPMTVYWSQYAQSLTTRPMKGMLTGPVTVLQWSFVRDDQARRETCRQIALALRDEVRDLEAAGIGVIQIDEPAIREGLPLRRSEWRAYLDWAVESFRISASGVRDATQIHTHMCYSEFNDIIEAVAAMDADVISIETSRSKMELLDAFVQFKYPNAIGPGVYDIHSPRVPSQAEMVQLLRKARDVLAPEQLWVNPDCGLKTRGWPETEAALQALVQAARQLRTQVAAAA				NA	NA	NA	NA	NA
BMS020_07588	588			hypothetical protein	ATGAACAAGCTGGCCCCCTTCATCGTTCTTTCCCTGTCGGCCCTGGCCGCGACACCGCAGGCCATCGCCGCATCGGCCGATGGCGCCGGCTGGTTCGTCGGCGGCTACGCCGGACGCGCCTCAGTGGACAAAGACGCCTACAAGGGCGACGACACCGGCTACGGCATCGCCGGCGGCTACCGCTGGCAGCTGTTCGACTGGCTGTCGCTGGGCGTGGAAGCCGGCTACAACGATCTTGGCAACATCGACGCGCGCAACCTGTTCAACGGCGACGCCGTGGTGCAGGACCGCAGCAAACTGCGCGGCTGGACCGCCGGCATCAGCCAGCGCTTCGCGCTCGGCCCGCGCTGGTATGCCAGCGTGCGCGGCGGCGTGTACGGTTGGAAGGGCCACGGCCTGAGCAACGACGACGTGGCCGGGCACGGCGGCGACCTGGACCAGCTGTCGTGGTACGCAGGCGCAGGCGCCGGCTACAACGTCACCAGCAGGTTCAGCGTGGGCGTGAACTACGACCACTTCGACGCGAAGAAGGACGGCCTCGACCTGAGCACCAACCTGGCCTCGCTCGGGGTCGAATACCGCTTCTGA	MNKLAPFIVLSLSALAATPQAIAASADGAGWFVGGYAGRASVDKDAYKGDDTGYGIAGGYRWQLFDWLSLGVEAGYNDLGNIDARNLFNGDAVVQDRSKLRGWTAGISQRFALGPRWYASVRGGVYGWKGHGLSNDDVAGHGGDLDQLSWYAGAGAGYNVTSRFSVGVNYDHFDAKKDGLDLSTNLASLGVEYRF	PGPT0022215_5091	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022215-ompA_ompF_porin|oprF-K03286	NA	NA
BMS020_07589	1041			hypothetical protein	ATGTTGGATGTGAAGTTCGGCCGGAAGGCGCGCCTGCTCGTGCCGCTGGTGTTGCTGGCGGGCCTGGCGGCCTGCTCCAAGCAGGAAGACGCGCCGGCGGGTCAGCAGGCCACGCCTGCCACCTCCACGGCTCCGGCCGCACCGGCCGCGGCCACGCCCGCGTCGACCGCACCGGCACCGACCGCCGACACCGCGGTGTCGCCGCAGGTCGCGGCGATGTCGGTCGACCAGCTGCGCGAAGCCGCCACCCAGGCGCTGCGCGACAACCGCATGTACGCACCGGGCGGCAACAACGCGGTCGAGTTCTATCTCGCGCTGCGCGACAAGCAGCCCGACGACGCGACGGTGAAGAGCGCGCTGACCGACCTGATGCCGTACACGCTGATCGCCACCGAGCAGAGCATCAACCGCGAGGAATTCCCCGAGGCGCAGCGCCTGATCGCGTTGATCGAGCGCGTCGATCCGGCTGCACCGGCGCTGCCGCGGCTCAAGTCCGGCGTGACCAACGGCATCCAGTCGGCCGCCAACCGCACCGCCGCCGAGACCGAGAAGGTCAAGCGCGAGGCCGAGCAGAAGACCCAGCAGCTGGCCGAGCAGAAGAAGCTGGCCGAGCAGCAGGCCAAGGAAGCCGCCGCCGCGCAGGCGCTGGCCGCCCAGCAGGAGGCCGCGCGCCAGCAGCAGGCCGCCTCGGCCGCCGCCGATGCCGAGCGCCAGGCCGCCGCCCGCCGCGAGGCCGAGCAGAAGGCCGCGCAGGCCGCCGCCGCCCGCGCCGCGGTGCCGGCTCCGGCCACGCTGCGCCCGATCAGCACCCCGGCGCCGCGTTATCCGCCGGAAGCGCTGCGTGCCGGCACCTCGGGCGAAGTGCTGGTGGAAATCACCGTCGGCACCGACGGCTCGGTCACCAACACCCGCGTGCTGCGCGCCAACCCGCCGCGCATCTTCGACCGCGAGGCGCTCAACGCGACCAAGCGCTGGAAGTTCGAGCCGGTGCCGGCGCCGGTGACCACCCGCCGCACGCTTTCGTTCAACCCCGGCGCGTAA	MLDVKFGRKARLLVPLVLLAGLAACSKQEDAPAGQQATPATSTAPAAPAAATPASTAPAPTADTAVSPQVAAMSVDQLREAATQALRDNRMYAPGGNNAVEFYLALRDKQPDDATVKSALTDLMPYTLIATEQSINREEFPEAQRLIALIERVDPAAPALPRLKSGVTNGIQSAANRTAAETEKVKREAEQKTQQLAEQKKLAEQQAKEAAAAQALAAQQEAARQQQAASAAADAERQAAARREAEQKAAQAAAARAAVPAPATLRPISTPAPRYPPEALRAGTSGEVLVEITVGTDGSVTNTRVLRANPPRIFDREALNATKRWKFEPVPAPVTTRRTLSFNPGA	PGPT0003745_267	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003745-tonB-K03832	NA	NA
BMS020_07590	618			hypothetical protein	ATGCAGCAGCCGGCCCCCAAGCTTTCGCCGATTCCCGCCCTGATCTTCGCCTCGCGCTGGCTGCAGCTGCCGCTGTACCTGGGGCTGATCCTGGCCCAGGGCGTGTACGTGTTCCTGTTCGCGAAGGAGCTGTGGCACCTGATCCACGAGGCGCCGAGCCTGGGTGAGCAGCAGATCATGCTGATCGTGCTCGGCCTGATCGACGTGGTGATGATCTCCAACCTGCTGGTGATGGTGATCGTCGGCGGCTACGAGACCTTCGTCTCGCGCCTGCGCCTGGAAGGCCACCCGGACCAGCCGGAGTGGCTGAGCCACGTCAACGCCTCGGTGCTGAAGGTCAAGCTGGCGATGGCGATCATCGGCATCTCCTCGATCCACCTGCTGAAGACCTTCATCGCCGCCGGCGCGCTCGGCGGCATGCCGATGTGCGCACCGGAGGTGCTGAGCAAGACCGCCGGGCAGATCAGCCAGGTCAGCTGCGCCACGCTGACCCAGCAGGGCGTGCTGTGGCAGACCATCATCCACTGCGTCTTCATCCTCTCGGCGATCGGCATCGCCTGGACCGACAAGCTGATGGCATCCAACGCCAGCGCGCATGGGCGCCACCCCACGCACTGA	MQQPAPKLSPIPALIFASRWLQLPLYLGLILAQGVYVFLFAKELWHLIHEAPSLGEQQIMLIVLGLIDVVMISNLLVMVIVGGYETFVSRLRLEGHPDQPEWLSHVNASVLKVKLAMAIIGISSIHLLKTFIAAGALGGMPMCAPEVLSKTAGQISQVSCATLTQQGVLWQTIIHCVFILSAIGIAWTDKLMASNASAHGRHPTH				NA	NA	NA	NA	NA
BMS020_07591	1275	gerN	COG0475	Na(+)/H(+)-K(+) antiporter GerN	ATGGCGCCCACGCTCAGCACCACCGAAGTGTTCCTGGTCGCGATGGCGATCATCGTCAGCGTGCCCTACTTGGTGTGGCGGCTGGGCCGCACCGACTACTACGCGCCGCTGGTGGTGGTGCAGATCCTCGCCGGGATCCTGCTCGGCCCCGGCCTGCTCGGCAAGGCGTTCCCCGACTACTACGCGTTCGTGTTCAACCCCGACGTGATCAAGACCCTCAACGGCCTGGCGTGGTGGGCGGTGATGCTGTTCGTGATGATCGCGGGGATCGAGCTGGACCTGCGCCAGGCCTGGCGCCACCGCCGCGAGACCGGGCTGACCGCGGCGCTGGCGCTGGGCGCGCCGCTGCTGGCCGGCGCCGCGGTGGCCACCGGCATGCTCGCCTTTCCCGGCTGGATCGGCAGCGGCGGCAAGCCCTGGCAGTTCGTGTTCGGCATCGGCATGGCCTGCGCGGTCACCGCGCTGCCGATCCTGATCCTGTTGATGGAGAAGCTGGCGCTGCTGCGCACGCCGCTGGGCCAGCGCATCCTGCGGTATGCCAGCCTCGACGACATCGCGGTCTGGGCGGTGCTGGCGCTGGTGCTGCTGGACTGGCAGCGGATCGGCCGGCAGGCGGCGTTCCTGGCGCTGTTCGCGCTGGCCTGCGTCGGCTTCCGCGCGCTGATGCGCCGCGTGCCCGAGCGTGACCGCTGGTATCTGGCGCTGATCTGGCTGGCGCTGTGCGCGTTCGGCGCGGACTGGTCGGGCCTGCACTTCATGGTCGGCGCGTTCCTGGCCGGCGTGGTGATGGACGCGGAGTGGTTCGAACAGGAGGGCATGGACCGGCTGCGCCACCACGTGCTGCTGGTGATGATGCCGGTGTTCTTCCTCAGCACCGGGCTGAAGACCGACTGGTCGGTGGGCGGCGTGGCGGTGTTCGTCGCCGCGGCGGCGCTGCTGGCGGCGGCGGTGCTCGGCAAGCTCGCCGGCGTGCGCCTGGCCGGGCGCCTGCTCGGCTGGGGCCGCGGCGAGGCGTCGCTGATCGGCTGGCTGCTGCAGACCAAGGCGCTGATCATGATCATCTTCGCCAACGTGCTGCTCGACAAGCACATCATCACCAACCCGACCTTCACCGCGCTGCTGCTGATGGCGGTGGCCAGCACGATGCTGACGGTGCCGCGCGCGACGCCGCTGCTGCGCGCGCTGCGCGACGGACATGGCGATGCCGCGGTAGCGGTCGGCGGGGTGGGCGAGGATCGGGCTGCGACGCCGTCGCGCGAACCTGATCGGGGCTGA	MAPTLSTTEVFLVAMAIIVSVPYLVWRLGRTDYYAPLVVVQILAGILLGPGLLGKAFPDYYAFVFNPDVIKTLNGLAWWAVMLFVMIAGIELDLRQAWRHRRETGLTAALALGAPLLAGAAVATGMLAFPGWIGSGGKPWQFVFGIGMACAVTALPILILLMEKLALLRTPLGQRILRYASLDDIAVWAVLALVLLDWQRIGRQAAFLALFALACVGFRALMRRVPERDRWYLALIWLALCAFGADWSGLHFMVGAFLAGVVMDAEWFEQEGMDRLRHHVLLVMMPVFFLSTGLKTDWSVGGVAVFVAAAALLAAAVLGKLAGVRLAGRLLGWGRGEASLIGWLLQTKALIMIIFANVLLDKHIITNPTFTALLLMAVASTMLTVPRATPLLRALRDGHGDAAVAVGGVGEDRAATPSREPDRG				NA	NA	NA	NA	NA
BMS020_07592	1509	prnA		Flavin-dependent tryptophan halogenase PrnA	GTGCCCGTCTCCACTCCACTGTCCGACACCCCGATCCGCCGCGTGGTCATCGCCGGAGGCGGTACCGCCGGCTGGATGGCCGCCGCGGCGCTGTGCAAAGTGCTGGGCCGCACGTTGCAGGTCACCCTGGTCGAATCGGAGGAGATCGGCACCGTCGGCGTCGGCGAGGCGACGATCCCCTCGCTGGCGACCTTCCACCGGCTGCTGGAGATCGACGAACGCGCGTTCCTCACCGCCACCCAGGGCACGATCAAGCTCGGCATCGCATTCGAGAACTGGCGCACGCCGCAGCATCGCTACATCCATTCCTTCGGCAGCACCGGCACCGACCACTGGAGCGCCGGCTTCCAGCATTTCTGGATGAAGGGCCGCGAACGCGGCCTGGCCGGCCCGTACGAGGACTACTGCATCGAACTGCAGGCGGCGCTGCAGCACCGCTTCGGCCACCTGCCGCAGTACCGCATGAACTACGCCTACCACCTCGACGCCGCCCTGTACGCGCGCTTCCTGCGCCGGATGGCCGAGCAGCACGGCTGCCAGCGGATCGAGGGCAAGGTGGTGGAGGTGAGCACCGATCCGGACACCGGCCACATCCGCGCGCTGCGGCTGGAGCGCGGCGAGGTGATCGAAGGCGACCTGTTCCTGGACTGCACCGGCTTCCGCGCCCTGCTGATCGGGCAGACCCTGGGCGTGGGCTTCGAGGACTGGTCGCACTGGCTGCTCAACGACCGCGCGATCGCCACCCAGACCACCGCGGTGCGCGACGCAGTGCCGTACACGCGCGCCATCGCCGAGCCCTGGGGCTGGCAGTGGCGCATCCCGCTGCAGCACCGGGTCGGCAACGGCGTGGTGTATTCCAGCCGGCATGTCGCCGACGACGAGGCCAAGGCGCGCTTCCTGGCCAGCGTCGAGGGCGAGGTGATCAAGGACCCGTGGCCGGTGCGGTTCCGGCCCGGCCGGCGCGAGCGCTGCTGGGCCAAGAACTGCATCGCGCTGGGCCTGGCCGGCAGCTTCATCGAGCCGCTTGAGTCGACCACGATCCACCTGATCCAGCGCGGCATCACCCGGCTGATGCAGTGCTTCCCGAGCGTCATCACCCAGGTCGCGATCGACGAGTACAACCGCCAGCTCGACGAGGAGCTGACCCACGTGCGCGACTTCGTGGTGCTGCACTACCACGCCACCGAGCGGCGCGATTCGGCGTACTGGCAGCACGTGGCGGCGATGCCGCTGCCGGCGTCGCTGCAGCACCGCGTGGACCTGTTCCGCGAGACCGGCACGGTGTTCCACCAGCCGCAGGAGCTGTTCGCGGAGAACTCGTGGATCCAGGTGATGCTCGGCCAGGGCATCGTGCCGAAGCGCCGCCACCCGACCGCCGAGCTGATGGGCGATGCCGAGCTGGCGCAGTTCCTGGCCGGCATCCGCAGCGGCGTGGAGCGCACCGTCGCGCAGCTGCCGGCGCACATGGACTACCTGCGGCGCTACAGCCCGGCGGCGATGCCGGGCTGA	MPVSTPLSDTPIRRVVIAGGGTAGWMAAAALCKVLGRTLQVTLVESEEIGTVGVGEATIPSLATFHRLLEIDERAFLTATQGTIKLGIAFENWRTPQHRYIHSFGSTGTDHWSAGFQHFWMKGRERGLAGPYEDYCIELQAALQHRFGHLPQYRMNYAYHLDAALYARFLRRMAEQHGCQRIEGKVVEVSTDPDTGHIRALRLERGEVIEGDLFLDCTGFRALLIGQTLGVGFEDWSHWLLNDRAIATQTTAVRDAVPYTRAIAEPWGWQWRIPLQHRVGNGVVYSSRHVADDEAKARFLASVEGEVIKDPWPVRFRPGRRERCWAKNCIALGLAGSFIEPLESTTIHLIQRGITRLMQCFPSVITQVAIDEYNRQLDEELTHVRDFVVLHYHATERRDSAYWQHVAAMPLPASLQHRVDLFRETGTVFHQPQELFAENSWIQVMLGQGIVPKRRHPTAELMGDAELAQFLAGIRSGVERTVAQLPAHMDYLRRYSPAAMPG	PGPT0011765_360	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-PYRROLNITRIN_METABOLISM,PGPT0011765-prnA|rebH|ktzQ-K14266	NA	NA
BMS020_07593	1017			hypothetical protein	ATGTCGCAGCCCACGCCTGAGCCGATCGCCGAGCGTGGCGACATCGACCCGGCTGCGCTGCCGGACGCGCTGCTGCGCCCCACCCGGCCGCTGGTGCTGCGCGGGCTGGCCGCACACTGGCCGCTGGTGCAGGCCGGGCGCGCCGGCCCGCAGGCGGCGGTGCAGCTGCTCAAGCAGCACGCACGGCCGGAGCCGGTGACCGCGACGGTGGCGCCGCCGCAGGCCGGCGGTCGCTTCTTCTACGATGCGACCGGCACCGGCTTCAACTTCCGCCGCGAACAGGTGCCGCTGCCGGTGGTGCTGGACACGCTGCTGCGCTACCTGGACGAACCGGCGCCGCCGGCGATCTACGTCGGCTCGACCACCATCGACACCTGGTTGCCCGGCCTGCGCGCCGCCAACGACCTCGGCTTCGGCACGCGCGACCCGCTGGCCAGCATCTGGATCGGCAACCGTACCCGCATTGCCGCGCACCAGGACCTGCCCGACAACATCGCCTGCGTCGCCGCCGGGCGCCGGCGGGTCACGCTGTTCCCGCCCGATCAGCTGCGCAACCTGTACATCGGCCCGCTCGACCGCACCCCGGCCGGGCAGGCGATCAGCCTGGTGGATTTCGCCGCGCCGGATTTCGCCCGCTTCCCGCGCTTCGCCGAGGCGCTGGCGCATGCGCAGGTGGCCGAACTCGGCCCCGGCGACGCGGTGCTGATCCCGAGCATGTGGTGGCACCACATGGAGGCGCTGGAGGGCTTCAACATCCTGGTCAACTACTGGTGGCGGCAGGCGCCGGCGTACATGGATTCGCCGATGAACGCGCTGATGCTGGCGCTGCTGAGCGTGCGCGATCTACCCGCGCACGAACGCGAGACCTGGCGCGAGGTGTTCCGCCATTACGTGTTCGACGCCGACGCCGACACCGCTGCGCACATCGACCCTGCCGCGCGCGGCACGCTCGGCGCGCTCGACGACGCCCAGGCCGGCGCGCTGCGCGCGCGCCTGCTGCAACGCCTCAACCGCTGA	MSQPTPEPIAERGDIDPAALPDALLRPTRPLVLRGLAAHWPLVQAGRAGPQAAVQLLKQHARPEPVTATVAPPQAGGRFFYDATGTGFNFRREQVPLPVVLDTLLRYLDEPAPPAIYVGSTTIDTWLPGLRAANDLGFGTRDPLASIWIGNRTRIAAHQDLPDNIACVAAGRRRVTLFPPDQLRNLYIGPLDRTPAGQAISLVDFAAPDFARFPRFAEALAHAQVAELGPGDAVLIPSMWWHHMEALEGFNILVNYWWRQAPAYMDSPMNALMLALLSVRDLPAHERETWREVFRHYVFDADADTAAHIDPAARGTLGALDDAQAGALRARLLQRLNR				NA	NA	NA	NA	NA
BMS020_07594	708			hypothetical protein	ATGCCGCGCCACGTCCTGCTCAACAACCTCGACCACCGCGCGCTGCGCGTGCGCGGCGGCCACGGCGCCGGGCTGGACGAGGGCACGATGGCGGTGCCGACCTTCGCCGCCGAGTTCCGCCAGCTGCAGGCGCATTACCCGATCGTGTTCCACAAGGATGCGCAGGGCCGCGTCCACCCGCTGGCGCTGCTCGGGCTGCAGCCTGGGCGCAACCTGTTCCTTCGCGAAGACGGCTGGGACGCGCACTACCTGCCGCTGGCGGTGCGCCGGCAGCCGTTCCTGATCGGCCACGACGCCGGCGGCGAGCCGCTGCTGCACATCGACCTGGACCACCCGCGGGTCGGCGACGAGGGCGAGGCGCTGTTCCTCGAACACGGCGGCAGCACGCCATTCCTGCAGCACGCCGCGTCATTGATGCGCGCGCTGCACGAAGGCATCGCCAGCAACGCCGCGTTCGTGGAGGCGTTGCTGGACCACGCGCTGCTGGAGCCGTTCACGCTGGAGGTGGCATTGCCGGGGGCGGCACCGCTGCGGTTGGCCGGCTACTACACCATCGCCGAGGAGCGGCTGGCGCGGCTGGAGGCCGCCGCGCTGCACGCGCTGGCCGGCGCCGGCTGGCTGCAACCGGTGTACATGGCGCTGGCCTCGCAGGGCCAGCTGCGCGCGTTGATCGGCCGGATGGAACGCGATGTCGCAGCCCACGCCTGA	MPRHVLLNNLDHRALRVRGGHGAGLDEGTMAVPTFAAEFRQLQAHYPIVFHKDAQGRVHPLALLGLQPGRNLFLREDGWDAHYLPLAVRRQPFLIGHDAGGEPLLHIDLDHPRVGDEGEALFLEHGGSTPFLQHAASLMRALHEGIASNAAFVEALLDHALLEPFTLEVALPGAAPLRLAGYYTIAEERLARLEAAALHALAGAGWLQPVYMALASQGQLRALIGRMERDVAAHA				NA	NA	NA	NA	NA
BMS020_07595	1554	rebH_2		Flavin-dependent tryptophan halogenase RebH	ATGGAACACAGGATCGAGCACGTGGTCATCGTCGGCGGTGGCTCGGCCGGCTGGCTGACCGCCGGCCTGCTCGCCGCCGAGTACCGCGCGGTGGCCGGCGCCTCGCTGCGGATCACCTTGGTGGAATCGCCGGACGTGCCGGCGATCGGCGTCGGCGAAGGCACCTGGCCGACGATGCGCGACACGCTGCGCCGGATCGGCGTGCGCGAAAGCGACCTGGTGCGCGCATGTGACGCCACCTTCAAGCAGGGCTCGCTGTTCGTCGGCTGGGCCGACGGCAGCCCCGGCGACCGCTACTACCATCCGTTCGTGCTGCCGCAGGGGTATGGCGAGACCCACCTGGCCGCCGGCTGGCTGGCCGACGGCGCACGTCAGCCGTTCGCCCACCAGGCCAGCTTCCAGCCGCACCTGTGCGATGCCGGGCGCGCGCCCAAGCAGTTCGCCACGCCGGAATTCGCCGCGGTGGCCAACTACGCCTACCACCTCGACGCAACCAGACTCGGCCCGTTCCTGCGTCAGCACTGCGTGGACGTGCTTGGCGTGCAGCACGTGGTCGGCCACGTCGAAGGCATCGACGCGCATGCCAACGGCGATATCGCCGCGCTGCGCGTGGCCGGGCACGGGCGCATCGACGGCGACCTGTTCGTCGACTGCACCGGGCTGCGCGCACTGCTGATCGAAGGCCATTGCGGGGTGCGCAGCACGCCGGTCGACACGGTGCTGTTCAACGACCGTGCACTGGCGCTGCAGGTGCCGTACCCGCAACCCGATACGCCGATCGCCAGCCAGACCGTATCGACCGCGCAGCAGGCCGGCTGGATCTGGGACATCGGGCTGTCGGCGCGGCGCGGGGTCGGCCATGTCTACGCCAGCGCGCACATGTCCGACGACGCGGCCGAGGCCGCGCTGCGCCACTACATCGAACGCAGCGGTGGGCCGGCCGCCGACAGCCTGCCGGCGGCGCGGCGGATCGACCTCACGCCGGGCTACCGGGCCACGCCGTGGCAACGCAACTGCGTGGCGATCGGCCTGTCCAGCGGCTTCGTCGAACCGCTGGAGGCGTCCTCGGTGGTGCTGGTGGAACTGGCCGCCGGCCGGCTGGCCGAGGAACTGCCGGCCGACCGCGCCGACATGGACCGGGTCGCCGCGCGCTTCAACGCCGCCTTCGCCTACCGCTGGCAGCGCGTGGTGGAATTCCTCAAGCTGCACTACGTGCTGAGCCGCCGCGGCGGCGCCTACTGGGCGCGCCACCGCGACCCGGCGACGGTGCCCGACAGCCTGCAGGACATGCTGCAGCGCTGGCGCCACCGGCCGCCGGCGCGCAGCGATTTCCCGCAGTCCGAGGAGATCTTCCCCACCGCCAGCTGGCACTACATCCTGTACGGCATGGGCGCGCGACCGCAGCCGGGGCGCGCGCGCCGCGCCGACGATGCGGCCGCCGCGCAGGCCTGTTTCGCCGACGCCGCCGCGTTGGCGCAGCGGATGCTGCCGGCGCTGCCGGCGCACCGCGCGCTGGTCGACCACATCAAGGCCCATGGCCTGCCCCGCATCTGA	MEHRIEHVVIVGGGSAGWLTAGLLAAEYRAVAGASLRITLVESPDVPAIGVGEGTWPTMRDTLRRIGVRESDLVRACDATFKQGSLFVGWADGSPGDRYYHPFVLPQGYGETHLAAGWLADGARQPFAHQASFQPHLCDAGRAPKQFATPEFAAVANYAYHLDATRLGPFLRQHCVDVLGVQHVVGHVEGIDAHANGDIAALRVAGHGRIDGDLFVDCTGLRALLIEGHCGVRSTPVDTVLFNDRALALQVPYPQPDTPIASQTVSTAQQAGWIWDIGLSARRGVGHVYASAHMSDDAAEAALRHYIERSGGPAADSLPAARRIDLTPGYRATPWQRNCVAIGLSSGFVEPLEASSVVLVELAAGRLAEELPADRADMDRVAARFNAAFAYRWQRVVEFLKLHYVLSRRGGAYWARHRDPATVPDSLQDMLQRWRHRPPARSDFPQSEEIFPTASWHYILYGMGARPQPGRARRADDAAAAQACFADAAALAQRMLPALPAHRALVDHIKAHGLPRI	PGPT0011765_513	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-PYRROLNITRIN_METABOLISM,PGPT0011765-prnA|rebH|ktzQ-K14266	NA	NA
BMS020_07596	3051	btuB_24		Vitamin B12 transporter BtuB	GTGGAGAAGCATCTCGTCCTGCCGCCGAAGCGGCTGCTCACGTCCGCACTGCTGCTGGCGCTGTCCGCGCCGGTTGCCGCCCAGACCGCCACCACCAGCGGCCAGCCCGCGACCGGCACGCCCGATCCGGCGACGCTGGACACGGTCCAGGTCACCGGCATCCGCGGCAGCCTGACCTCGTCGATGAACCTCAAGCGCGATGCGCAGGGCGTCGTCGACGGCATCGTCGCCGAGGACATCGGCAAGTTCCCCGACACCAACCTGGCCGAGTCGCTGCAGCGCATCTCCGGCGTGTCGATCGACCGCAGCAACGGCGAAGGCTCGCGCGTGACCGTGCGCGGCATGGGCCCGGACTACAACCTGGTGCTGCTCAACGGCCGGCAGATGCCGACCGCGACCGGCAGCCGCGCGTTCGAGTTCGCCGACCTCGCCTCCGAGTCGATCTCGGCGGTGGACGTGTACAAGACCAGCCACGCCAGCACCCCGGCCGGCGGCATCGGCGCGACCATCAACATCAAGACCGCGCGGCCGCTGGACAACCCCGGCTTCCACACCAGCATCGGCATCAAGGGGGTGATGGACACCTCCGACGACGACCTGCCGCGCAGCTACCAGGGCCGCGACATCACCCCGGAGATGTCGGGCATCTTCAGCAACACCTGGGCCGACGACCGCTTCGGCATCTCGCTCAGCGCCAGCCGCCAGGACCGCGAGTCCGGCTCGGCCTCGGCCTACGTCGCGCCCGGCAACGGCTGGCAGACCTTCATCGACACCCCGCAGGCCAACGGCGTCGGCGGCCCGTCCTCGCTGCCGCAGGCCGGCCAGCCCGGCTATGACGCGATCACCAACCGCCCCGGCGCGAACGACGTCTATTCGATGCCGCAAAGCCTGGGCTACAGCGTCAATTCGGTGCACCGCCAGCGCACCAACGGCCAGCTGACCATGCAGTTCAAGCCGGTCGACAACGTCACCACCACGCTGGACTACACCTACTCGGACAACAAGATCCAGGCCCGCCGCAACGACATGTCGGTGTGGTTCAACATGACCCCGGACCAGTCCGCGTGGACGCAGGGCTCGGGCGCGTCGCCGACCTACTACCACGAGACCTACGGCGCCAACGGCGAGGGGCTGTATTCGGACTTCGCCAACGGCGCGTCCAACACCGCGGTCGAGCACAAGAACGAGTCGCTGGGCTTCAACGTCGACTGGCAGGTCAACGACCAGCTCAACATCAACCTGGATTACCACGACTCCAGCGCCGAATCGCGCCCGGACAGCCCGTACGGCACCAGCAACACCATGTCCACCGCCGGCTTCTTCCGCGCCGGCGCCGGCTTCGACATGAGCGGCGACTTCCCGATCCTGACCCTGGACCTGCCGCCGGGCATGAGTGCGATCGACCCGTCGCAGATGGAAGCGACCGGCTCGGTGTTCCGCAACGACTACCAGAAGGCGCAGATCAAGCAGCTGCAGGCCAGCGGCGAGTTCGTGTTCGAGGACTACTCCAAGCTGCGCTTCGGCGTGTCCAGCACCGACTACAAGAACCGCTCGGCGTTCACCAACGTGCAGCTCGACACCTGGGGCGGCAACGTGCACGCCGAGGGTGGCCCGGCGCTGTACCCGGACGACGCGTTCCCGCTGGCGCACATGGGCGACTACTTCAGCCAGTTCGGCGGCGCCAACAGCGCGGCGTTCTCCGACGCGTTCTTCCTGTTCGACTTCGAGCGCATCCGCGAGCTGGCCGCGCAGAACTGGGTCAATGCCGGCAAGGGCGTGGCCGAGGACTACCTGGCCTCGACCGACTACAGCGGCGCCACCGTGGTCGGCAGCGGCGCCAGCCGCACCGTCGGCGACAGCCGCGTGCGCGAGAAGTCGCGCAGCGCCTACCTGGAATGGAGCACGGTGTTCGACTGGTCGATGCCGCTGAGCGTCAACGTCGGCATCCGCTACGAGGACACCAAGGTCGATGCCAGCGCGCTGCAGCCGGCGCCGGTGGCGGTGAACTGGGCCTCGGCCAACGAGTTCAACCTGGTCTACGACGGCTCGCAGTTCTACAGCCTGGGCGGCGACTACCAGTACTGGCTGCCCAACCTCGACCTGGGGCTGGACCTCAACGACACGATGAAACTGCGTTTCAGCTACGGCAAGACCATCGGCCGGCCGAACTGGAGCGACCTCAGCGCGGCGCAGAGCCTGGGCAGCCCGGCACGCTTCGACGGCGGCGGCGGCAGCTCCGGCAACCCGGCGCTGAAGCCGCTGGTGTCCAACAACTTCGACCTGTCCTACGAGTGGTACTACGCCGAGGCCAGCTACTTCTCGATCGGCTACTTCTACAAGAAGATCGACAACTTCATCGCCACCCAGACCGTGCGCGACACCCCGATCGGCGACCTGTACACGCCGGCCGGCGGCACCTACTGGAACGAGGCGCTCGGCGCCGGCTGCGCCTCCACCGACCGGGTCTGCATCCGCGACTACATCTTCGCCAACCACGATGGCGATCCGGGCGTGAACGCGGCCACCGGCAGCATCGTCGGCCAGCCGGGCGACCCGGTGCTGGAGTTCAACCTGAGCCGGCCGGTCAACAACCGCTCCGACAAGCTGTACGGCTGGGAGCTCAACGTGCAGCACATGTTCGGCCAGTCCGGCTTCGGCGTGGCGGCCAACTACACCAAGGTCGATTCCGGCCTGACCTACGACAACGGCCGGCTCGGCACCCAGTTCGCGCTGACCGGGCTGAGCGATTCGGCCAACCTGGTGGCGTTCTACGACAAGGGCCCGTGGCAGGTGCGCGCGGCCTACAACTGGCGCGACGAGTTCCTCAGCGCGCTGGGCGACGGCAAGGGCTCCAATCCGCTGTACGTGGAGGCCTACGGCCAGCTCGACATGAACATCAGCTACCAGGTCACGCCGAAACTGACCCTGTCGCTGGAGGGCATCAACCTGACCAACGAGACCACCCGCGTGCACGGGCGCAATTCGCACCAGCTGTACACGCTGGAGGAATTCGGCCCGCGCTACATGGCCGGGTTGCGCTACAAGTTCTGA	MEKHLVLPPKRLLTSALLLALSAPVAAQTATTSGQPATGTPDPATLDTVQVTGIRGSLTSSMNLKRDAQGVVDGIVAEDIGKFPDTNLAESLQRISGVSIDRSNGEGSRVTVRGMGPDYNLVLLNGRQMPTATGSRAFEFADLASESISAVDVYKTSHASTPAGGIGATINIKTARPLDNPGFHTSIGIKGVMDTSDDDLPRSYQGRDITPEMSGIFSNTWADDRFGISLSASRQDRESGSASAYVAPGNGWQTFIDTPQANGVGGPSSLPQAGQPGYDAITNRPGANDVYSMPQSLGYSVNSVHRQRTNGQLTMQFKPVDNVTTTLDYTYSDNKIQARRNDMSVWFNMTPDQSAWTQGSGASPTYYHETYGANGEGLYSDFANGASNTAVEHKNESLGFNVDWQVNDQLNINLDYHDSSAESRPDSPYGTSNTMSTAGFFRAGAGFDMSGDFPILTLDLPPGMSAIDPSQMEATGSVFRNDYQKAQIKQLQASGEFVFEDYSKLRFGVSSTDYKNRSAFTNVQLDTWGGNVHAEGGPALYPDDAFPLAHMGDYFSQFGGANSAAFSDAFFLFDFERIRELAAQNWVNAGKGVAEDYLASTDYSGATVVGSGASRTVGDSRVREKSRSAYLEWSTVFDWSMPLSVNVGIRYEDTKVDASALQPAPVAVNWASANEFNLVYDGSQFYSLGGDYQYWLPNLDLGLDLNDTMKLRFSYGKTIGRPNWSDLSAAQSLGSPARFDGGGGSSGNPALKPLVSNNFDLSYEWYYAEASYFSIGYFYKKIDNFIATQTVRDTPIGDLYTPAGGTYWNEALGAGCASTDRVCIRDYIFANHDGDPGVNAATGSIVGQPGDPVLEFNLSRPVNNRSDKLYGWELNVQHMFGQSGFGVAANYTKVDSGLTYDNGRLGTQFALTGLSDSANLVAFYDKGPWQVRAAYNWRDEFLSALGDGKGSNPLYVEAYGQLDMNISYQVTPKLTLSLEGINLTNETTRVHGRNSHQLYTLEEFGPRYMAGLRYKF				NA	NA	NA	NA	NA
BMS020_07597	690	yfcG_3	COG0625	Disulfide-bond oxidoreductase YfcG	ATGATCGACCTGCATTACTGGCCCACGCCGAACGGGCACAAGATCACCCTGTTCCTGGAGGAGGCCGGGCTGGCGTACACGATCAAGCCGGTCAACATCGGCGCCGGCGAGCAGTTCGCGCCGGAGTTCCTGGCGATCGCGCCGAACAACAAGATGCCGGCGATCGTCGACCACGCCCCGGCCGATGGCGGCGCGCCGCTCAGCGTGTTCGAGTCCGGCGCGATCCTGCTGTACCTGGCCAACAAGACCGGGCGCTTCTTCGGTGCCGACGTGCGCGCCAAGGTTGCGGTCAACCAGTGGCTAATGTGGCAGATGGGCGGGCTGGGCCCGATGACCGGGCAGTACGGGCACTTCAACGTGTACGCGCCGGAGAAGATCGCCTACGCGATCGCACGCTATACCGCCGAGGTGCAGCGCCTGCTCGGCGTGCTCGACCGGCAGCTGCTCGGCCGTGCCTTCGTCGCCGGCGACGACTACAGCATCGCCGACATGGCGATCTATCCGTGGATCAATCCCTATGCCGCGGCGCCGCTCGACCTGACGCCATATCCGCAGGTGCGCCGCTGGCAGGCCGAGATCGCCGCGCGTCCGGCCACCCAGCGCGCGTATGCGTTGACCCGGCAGGTCAACCCCAACGCCGGCCAGCCGCTCAGCGACGAGGAACGCCAGCACCTGTTCGGCAAGCGCTGA	MIDLHYWPTPNGHKITLFLEEAGLAYTIKPVNIGAGEQFAPEFLAIAPNNKMPAIVDHAPADGGAPLSVFESGAILLYLANKTGRFFGADVRAKVAVNQWLMWQMGGLGPMTGQYGHFNVYAPEKIAYAIARYTAEVQRLLGVLDRQLLGRAFVAGDDYSIADMAIYPWINPYAAAPLDLTPYPQVRRWQAEIAARPATQRAYALTRQVNPNAGQPLSDEERQHLFGKR	PGPT0013045_2408	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013045-yghU|yfcG-K11209	NA	NA
BMS020_07598	2193	dap4		Dipeptidyl aminopeptidase 4	ATGCCTGCCGCTACTGCCACGCCGCTCACCCTGGAGGCCATCACCGGGCCGCAGCCGCTGTCCGGACCGACCCTGCTCAAGCCGCTGTTGGCACCGGACGGCTCGCGCGTGGGCTTCCTGCGTGGGCGCGACGACGACCGCAACCGGCTCGACCTGTGGGAGTACCACGTCGCCAGCGGCCAGACCCGGCGCCTGGTCGATGCCGACCTGATCCAGCCTGGCGCCACCGAGCGGCTCAGCGACGATGAACGCGCGCGCCGCGAGCGCCAGCGCATCGCCGCGCTGTCGGGCATCGTCGAGTACCAGTGGGCGCCGGATGCGCGCGCGCTGTTGTTTCCGCTCGGCGGCCAGCTGTACCTGTATCGCCTCGATGTCGCCGACCCGCACGCCGCAGTGCGCTGCCTGACCACGGACGCGGGCTTCGCGACCGATCCGCGGATCTCGCCGCGCGGCGGCTTCGTCAGTTTCGTGCGTGGACGCGACCTATGGGTGGTGGACCTGGCCGACGGGCGCGAGCACCGCCTGACCGAGGACGGCGGCGCAACCATCGGCAATGGCGTGGCCGAGTTCGTCGCCGACGAGGAAATGGGCCGCCACACCGGCTACTGGTGGGCGCCGGACGATTCGGCGATCGCATTCGCGCGCATCGACGAATCCGCGGTGCCGCTGCAGCGCCGGGTCGAGGTGCATGCCGACCGTACCGACGTGGTCGAGCAGCGCTATCCGCAGGCCGGGCAGGCCAACGTCCGCGTCGCGCTCGGCGTGGTCGCTCCGCGAGCGGGCGCGCGTCCGCAGTGGATCGATCTCGGTGCGGACCCGGACATCTACCTCGCGCGCGTGGACTGGCGCGATCCGCAGCGGCTGACGTTCCAGCGCCAGTCGCGCGACCAGCAGCAGCTGGAGCTGGTCGAGGTGACCCTGGCCAGCGGCGTGCAGCGGCTGCTGCTGCGCGAGACCTCGCCGACCTGGGTGCCGCTGCACGACGACCTGCGCTTCCTCGACGACGGCCGCCTGCTGTGGCGTTCCGAGCGCGATGGCCACGCCCACCTGTATGTCGGCGGCGAAGACGGCACGTGGCTGCGCGCGCTGACCAGCGGCGACTGGGACGTGGACCGGCTGGAAGCGGTGGATGCCGATGCCGGGCTGGTGTACTTCAGCGCGACGGCCGCCTCGCCGCTGCAGCGCCAGCTGTACGTGGTGGCGCTGGCCGGCGGCGCGCCGCGCCAGCTCAGTGCCGCCGGTGGAAACCATCAGGTCAGCTTCGCCGCGCAGGCCGCGGTCTACGTCGACCACTGGTCCGACAGCGCCACGCCGCCGCAGCTGGACCTGCACCGCGCCGACGGCAGCCGCGTGGCACGGCTGCTGCACAACACCCTGGACGATCCGGCGCATCCCTACGCACGCTACCGCGATGCGCACCTGCCGACCCGCTTCGGCACGTTGACCGCCGCCGACGGGCGCACGCCGCTGCACTACCGGCTGACGCTGCCGGCCGGCTTCGATCCGGGCCGGCGCCATCCGGCGGTGGTGTACGTCTACGGCGGCCCGGCCACGCAGACCGTGCTCGATGCGTGGCCGGTGCGCGGCGACGCGCTGTTTGACCAGTACCTGGCCCAGCGCGGCTACGTGGTGTTCTCGCTGGACAACCGCGGCACGCCGCGGCGTGGCCGCGCGTTCGGCGGTGCACTGTACGGTCGCCAGGGTACGGTCGAGGTCGACGACCAGATGCGCGGGGTCGACTGGCTGCGCGCGCAGCCGTGGATCGACCCGGCGCGGATCGGCGTGCAGGGCTGGTCCAACGGTGGCTACATGACGCTGATGCTGCTGGCGCGCCACAGCGACGCATTCGCCTGCGGCATTGCCGGCGCCGCGGTGACCGACTGGGCGCTGTACGACAGCCACTACACCGAGCGCTACATGGGCCTGCCCGGCACCAATGCCGATGGCTACGCCGACGCGCGCGTGCTCGCCCACATCGACGGGCTGCGTGCGCCGCTGCTGCTGGTGCACGGCATGGCCGACGACAACGTGCTGTTCTCGCACGCGACCACGCTGATGGGCGCGCTGCAGGCGCGCGGCGTGCCGTTCGACTTCATGGCGTATCCGGGCGCGCGCCACGGCCTGTCCGGTCGCGATGCGCTGCACCGCTACCGCACCGCCGAACGTTTCCTGGCGCGCTGGTTGCAACGGTGA	MPAATATPLTLEAITGPQPLSGPTLLKPLLAPDGSRVGFLRGRDDDRNRLDLWEYHVASGQTRRLVDADLIQPGATERLSDDERARRERQRIAALSGIVEYQWAPDARALLFPLGGQLYLYRLDVADPHAAVRCLTTDAGFATDPRISPRGGFVSFVRGRDLWVVDLADGREHRLTEDGGATIGNGVAEFVADEEMGRHTGYWWAPDDSAIAFARIDESAVPLQRRVEVHADRTDVVEQRYPQAGQANVRVALGVVAPRAGARPQWIDLGADPDIYLARVDWRDPQRLTFQRQSRDQQQLELVEVTLASGVQRLLLRETSPTWVPLHDDLRFLDDGRLLWRSERDGHAHLYVGGEDGTWLRALTSGDWDVDRLEAVDADAGLVYFSATAASPLQRQLYVVALAGGAPRQLSAAGGNHQVSFAAQAAVYVDHWSDSATPPQLDLHRADGSRVARLLHNTLDDPAHPYARYRDAHLPTRFGTLTAADGRTPLHYRLTLPAGFDPGRRHPAVVYVYGGPATQTVLDAWPVRGDALFDQYLAQRGYVVFSLDNRGTPRRGRAFGGALYGRQGTVEVDDQMRGVDWLRAQPWIDPARIGVQGWSNGGYMTLMLLARHSDAFACGIAGAAVTDWALYDSHYTERYMGLPGTNADGYADARVLAHIDGLRAPLLLVHGMADDNVLFSHATTLMGALQARGVPFDFMAYPGARHGLSGRDALHRYRTAERFLARWLQR				NA	NA	NA	NA	NA
BMS020_07599	756	fnr_2	COG0664	Fumarate and nitrate reduction regulatory protein	ATGAACAATCTCGCTCTGCCGAAGTCGCGCAAGCTGCCGCTAAGCCCCTGTGGAAACGCCTTCTCGCTGCGCCTGTGCAGTGTCTGCGATGTCGGCGAATTCTGCCTGGGCAGTCCGGACATGGACCGCATGCGCGCGCTCGACGCCTACGTCGAGCATTCCGGTTCGTATCCAGCTGGCACCTACCTGTTCCGCGAAGGCGATCCGTTCACCTCGCTGGTGGTGGTGCGCACCGGCACGGTCAAGTTGTTCATGGTCGAACCGTCCGGCGCCGAGCAGATCGTCGGCTTCGCCCAGGCCGGTGACGCGATCGGGCTCGATGCGATCCACGGCAGCCGCCACGGCTGCCATGCGATGGCGCTGGACACCGTGTCGCTGTGCCAGCTGCCGTTCCCGATGGTCGCGCAGGTGTCGGCGGCGATGCCGCTGCTGCAGCGCAGCCTGCTCAACCTGCTCAGCCGCCATATCGCCGGCACCTACATGCTGTTCGGGCGGCACTCGGCCGAACAGCGCCTGGCGGTGTTCTTCCTGCTGCTGTCGCGCCACGCGCAGCGCCGCGGGCTGTCGCCGACGCGGTTTCGCCTGAGCATGCCGCGCACCGATATCGCCAACTACCTGCGGCTCACCCCGGAGACGGTCAGCCGCATGCTGCGCCGCTTCCAGCAGCAGGCGTTGCTGCGCATCGACCGGCGCGACGTCGAGATCCTCGACAACGAGGCGTTGCTCGCCGCGGCCGGCAGCCCGCTGCGCGACTGA	MNNLALPKSRKLPLSPCGNAFSLRLCSVCDVGEFCLGSPDMDRMRALDAYVEHSGSYPAGTYLFREGDPFTSLVVVRTGTVKLFMVEPSGAEQIVGFAQAGDAIGLDAIHGSRHGCHAMALDTVSLCQLPFPMVAQVSAAMPLLQRSLLNLLSRHIAGTYMLFGRHSAEQRLAVFFLLLSRHAQRRGLSPTRFRLSMPRTDIANYLRLTPETVSRMLRRFQQQALLRIDRRDVEILDNEALLAAAGSPLRD	PGPT0000515_890	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000515-fnr-K01420	NA	NA
BMS020_07600	1488	ubiD_2	COG0043	3-octaprenyl-4-hydroxybenzoate carboxy-lyase	ATGAGCCACCACGATCTGCGCAGTTTCCTCAACCAGCTCCGCCGCAGCGGCGACCTGCACCACGTCGACACGCCGGTGGACCCGGTGCTCGAAGCCACTTCGCTGTGCCTGCGCGCACAGCGCGCCGAAGGTCCGGCGCTGCTGATGCAGCAGCCGACCGGCGCGCGCCATGCGCTGCTCGGCAACCTGATGGGGCATCGGCGCCGGGTCGAGGCGGCGCTGGCCGGGCGCCCGCTGGCGTCGCTGCGCGAACTCGGTGAACTGCTGGCCGGGCTGAAGGAGCCGCAGTGGCCGGGCAGCCTGCGCCAGGCGCTGGAGAGCTGGCCCCAGTTGGCGCAGCTGAGCCTGGTGGCACCACGCCACGTCGGTGAGGCGGCGTTCGAGTACGAGCGCGTGCCGGGCCCGGAGATCGATCTGGCGCGGCTGCCGATCCAGCACTGCTGGCCGGACGACGCCGGGCGCTTGATCACCATCGGCCTGGTGGTCACCCGCGGGCTACGCCAGGCCCGCCAGAACGTCGCCGTGTACCGGCTGCAACCGCTCGGCGGCAACCGCCTGATCATGCGCTGGCTGCCGCACCGCGGCGGCGCGCTCGATCACGCCGACTGGCTGGCGCAGCGCCCGGACGCGCCGTTCCCGGTGTTGATCGCGATCGGGGTCGATCCGGCGACGCTGCTGGCCGCGGTGGCGCCGGTGCCGGACACCCTGTCCGAATACGAGTTCGCCGGCCTGCTGCGCGGCCAGCGCAGCCAGGTGCGCACCGGTGCGGTGACCGGGCTGGACGCCCCGGCCGGCGCCGAGATCGTGCTCGAAGGTTTCATCCATCCCGGCGACAGCGCCGAGGAAGGCCCGTTCGGCGACCACACCGGCTACTACAACAGCCGCGCGCCGTTCCCGGTGGTGACGCTGGAGCGGATGTCGCTGCGCGCCAACGCGCTCTATCACGGCAGCTACATGGGGCGCGCACCGCACGATGAGCCGTCGGTGATGGCCTCGGCGCTCAACGAGGTGTTCGTGCCGATCCTGCGCAAGGTGTTCCCGGAAATCGTCGATTTCCACCTGCCGCCGGAAGCGTGCTCATACCGCATCGCGGTGGTGTCGATCCGCAAGCAGTACGCCGGCCACGCGCGGCGGATGATGATGGCGGTGTGGTCGTACCTGCGGCAGTTCACCTACACCAAGTTCGTCATCGTCACCGACGAGGACATCGACGTGCGCGACTGGGGCCAGGTGATGTGGGCGGTGTCCACGCGGGTGGATCCGGCGCGCGATGCGCTGCTGGTCGAGAACACCCCGATCGACTACCTCGACTTCGCCAGCCCCGAGCCCGGGGTCGGCTCCAAGCTCGGGCTCGACGCGACCAACAAGTGGCCGGGCGAGACCCGCCGCAGCTGGGGCCGGCCGATCGCGCTGGATGCGCAGGTCGAGCGGCGTGTGGATGCGCTGTGGGCGCAGGTGCTGGCCGCGCGCGGCGGGGCGGGCGCATGA	MSHHDLRSFLNQLRRSGDLHHVDTPVDPVLEATSLCLRAQRAEGPALLMQQPTGARHALLGNLMGHRRRVEAALAGRPLASLRELGELLAGLKEPQWPGSLRQALESWPQLAQLSLVAPRHVGEAAFEYERVPGPEIDLARLPIQHCWPDDAGRLITIGLVVTRGLRQARQNVAVYRLQPLGGNRLIMRWLPHRGGALDHADWLAQRPDAPFPVLIAIGVDPATLLAAVAPVPDTLSEYEFAGLLRGQRSQVRTGAVTGLDAPAGAEIVLEGFIHPGDSAEEGPFGDHTGYYNSRAPFPVVTLERMSLRANALYHGSYMGRAPHDEPSVMASALNEVFVPILRKVFPEIVDFHLPPEACSYRIAVVSIRKQYAGHARRMMMAVWSYLRQFTYTKFVIVTDEDIDVRDWGQVMWAVSTRVDPARDALLVENTPIDYLDFASPEPGVGSKLGLDATNKWPGETRRSWGRPIALDAQVERRVDALWAQVLAARGGAGA	PGPT0009530_1132	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009530-ubiD-K03182	NA	NA
BMS020_07601	1014	yhbU_2	COG0826	putative protease YhbU	ATGAGCGCGTCCACGCCGCGGCTGGTGTGCCCGGCCGGCAACCTGCCGGCGCTGCGCGCGGCGGTCGACGCCGGCGCCGATGCGGTCTACGCCGGCTTCCAGGACCAGAGCAACGCGCGTGCGTTCCCGGGGCTGAACTTCGGCGCCGGCGAACTGCGCGCCGGCATCGACTACGCGCATGCGCGCGGCCGCCAGGTGTACCTGGCGCTCAACACCTATTCCGACGACGCACACCTGCCGGCGCGCTGCGCACGCGTCGACGCCGCCGCCGAGCTTGGCGCCGACGCGATCATCGCCGCCGACCTGGCGCTGCTCGACTACGCCGCGCGCGCGCAGCCGCAGCTGGCGCGGCACCTGTCGGTGCAGGGCAGCGCGACCACCGCCGCGGCGCTGCGCTACATGCACGAGCGGGTCGGCATCAGCCGCGCGGTGCTGCCGCGGGTGTTGTCGCTGCGCCAGGTCGAGCGATTGTGCGAGACCTCGCCGGTGGCGCTGGAGGTGTTCGCGTTCGGCAGCCTGTGCATCATGGTCGAAGGCCGCTGCCAGCTGTCGAGCTACCTCACCGGCGCCTCGCCCAACTGCCAGGGGGTGTGCTCGCCGCCGGCGTTCGTGCGCTGGGAGGAGCATGCCGATGGCGCGCGCGAGGTACGGCTCAACGGCGTGCTGGTCGACCGCTTCGGTCGCGACGAGCCGGCCGGCTACCCAACCATCTGCAAAGGCCGCTACCGCGTCGCCGGGCAGGTCGTGCACGCGCTGGAGGAACCGACCAGCCTCAACACGCTGGCACTGCTGCCGCGGCTGGCCCAGGCCGGCGTGGCGGCGCTGAAGATCGAGGGCCGCCAGCGCGGGCTGGCCTACGTGCAGCGCGCGACCGCGACCTGGCGCGCCGCGCTCGATGCGCATCGCGCTGCGCCGGCGCAATGGCAGCCGCGAGCGGAGTGGCAGGCGGCGCTGGCCCGGCATGCCGAGGGCCGGCAGACCACGCTCGGTCCGTACAGCCGGAGCTGGCAGTGA	MSASTPRLVCPAGNLPALRAAVDAGADAVYAGFQDQSNARAFPGLNFGAGELRAGIDYAHARGRQVYLALNTYSDDAHLPARCARVDAAAELGADAIIAADLALLDYAARAQPQLARHLSVQGSATTAAALRYMHERVGISRAVLPRVLSLRQVERLCETSPVALEVFAFGSLCIMVEGRCQLSSYLTGASPNCQGVCSPPAFVRWEEHADGAREVRLNGVLVDRFGRDEPAGYPTICKGRYRVAGQVVHALEEPTSLNTLALLPRLAQAGVAALKIEGRQRGLAYVQRATATWRAALDAHRAAPAQWQPRAEWQAALARHAEGRQTTLGPYSRSWQ				NA	NA	NA	NA	NA
BMS020_07602	900			hypothetical protein	ATGGCCGCGGTGATCGCCCTGCAGCCGTCGCGCCTGAGCCTGGGGCCGCTGCAGTACGGCTGGCCGCGGGCACAGGTGGAGGCGTTCTACCGCGAGGCCTGTGCCTGGCCGGTCGATATCGTCTACCTGGGCGAAACGGTCTGCGGCAAGCGCCGCGAGCTGCGTCTGGACGACTGGCTGCGCATCGCCGCGGCGCTGGTCGAGGCCGGCAAGCAGGTGGTGCTGTCGTGCCTGGCGCTGGTGGAGGCCGAATCGGAGCTGGCGGCGATGCGGCGCATCGTCGGCAACGGCACGCATGCGGTGGAGGCCAACGACCTGTCGGCGGTGCAGCTGTGCCGCGAACGCGGCATCGGCTTCGTCGCCGGGCCGGGGTTGAACGTCTACAGCGCGCGGACGCTGGCACTGCTGCGCGAGGACGGGATGGCGCGCTGGGTGGCCGGGGTGGAGATCGGTGGCGAGGCGCTGGGGCGCCTGCACGCGGCGCTGGCGCCGTCCGATCCGGCGCTGGAGTGGGAGATCCCGGCCTGGGGACGGCCGGTGCTGGCGCATTCGGCGCGCTGCTTCACCGCCCGCGCGCACGGCATCGGCAAGGACGATTGCGGCTTCCGCTGCCTGGACGATCCCGATGGCCTGGCGCTGGCGACCCGCGACGGCGTGCCGCTGCTGCGCATCAACGGCGTGCAGGTGCAGGGCGAGGCGGTGCTCGACCTGGCGCCGGAACTGGCGCAGCCGCCGTTCCCGGCGATCCTGCGCCTGGCGCCGCAAGCCGAGGGCATGGCGGCGGTGGTCGCGCGCTTCGGCCAGGCGCTGGCCAGCGGGGTCGCGCCGACCCGGATCGGCGCGCGCAGCGGCTACTGGCACGGGGAAGCCAGCATCGGCGACGCGGCGGTGCCGCGCTGA	MAAVIALQPSRLSLGPLQYGWPRAQVEAFYREACAWPVDIVYLGETVCGKRRELRLDDWLRIAAALVEAGKQVVLSCLALVEAESELAAMRRIVGNGTHAVEANDLSAVQLCRERGIGFVAGPGLNVYSARTLALLREDGMARWVAGVEIGGEALGRLHAALAPSDPALEWEIPAWGRPVLAHSARCFTARAHGIGKDDCGFRCLDDPDGLALATRDGVPLLRINGVQVQGEAVLDLAPELAQPPFPAILRLAPQAEGMAAVVARFGQALASGVAPTRIGARSGYWHGEASIGDAAVPR				NA	NA	NA	NA	NA
BMS020_07603	837	ubiJ_4		Ubiquinone biosynthesis accessory factor UbiJ	ATGGCCGGCGTGCCACCGCTGCCGTGGCTGCGGCAGGCGATCGACCTGGTCGACGACGGCGTGGTCGTGCTGGTGGCGGCGCGGCGCCTGCTGGTACGCGGCGTGGCCGCGCGCAAGCAGGCGCTGGCCGGCCGCGTGCGCGACCCCGTGCGCGAGCGCGGCGTGCGCCGTCGCGCGGCCCGCCTCGGCCAGCGCCTGGGGGTGCCGCCACGCACGGCCGGGGCGCTGATGACGCTGTTGATCCGCGATGCCTGCCGCCAGCAGGCCCACGTCTTCCAGGAGCCGGCGATGCATGCTGCCCCCGCGTTCGATCCCCACCGCGCCGAGCGTTTGCTCGGTTACCTGCCGCCGCCGGCGCGCTGGCGCCCGCTGCTGCGCCTGCTGCCGGCGCGGCTGCCGGCGCGCGCGCTGCAGGCCACGCTCAACCATGCGCTGGCCAAGCTGCTGGCCGACGACACGCTGGCACCGCTGCACGGCCGCCGCATTGGCCTGCAGGTGGAAGACCTGGGCCTGCGCTGGACCTGTGCGCTGCAGGCCGACGGCCTGCGCGTGGACACCGGCAGCCAGGCCGACGCCAGCGTCGCCGGCAGCGCCACCGACCTGCTGCTGCTGGCCAGCCGCCAGGAGGACGCCGACACGCTGTTCTTCCAGCGCCGGCTGCGCCTGACCGGCGATGTCGAGCTCGGCCTGACCCTGCGCAACCTGCTCGACCGCATGCCGTGGGAGCAGCTGCCGCTGGGCGCGCGCGTGCTGCTGCATCGCGGCGCCGGGCTGGCCGCGCAGGCGCGGCAGGCGCACCGGGCCCGCCGCCCGTCGACCACGACCTCCGGCCCATAG	MAGVPPLPWLRQAIDLVDDGVVVLVAARRLLVRGVAARKQALAGRVRDPVRERGVRRRAARLGQRLGVPPRTAGALMTLLIRDACRQQAHVFQEPAMHAAPAFDPHRAERLLGYLPPPARWRPLLRLLPARLPARALQATLNHALAKLLADDTLAPLHGRRIGLQVEDLGLRWTCALQADGLRVDTGSQADASVAGSATDLLLLASRQEDADTLFFQRRLRLTGDVELGLTLRNLLDRMPWEQLPLGARVLLHRGAGLAAQARQAHRARRPSTTTSGP				NA	NA	NA	NA	NA
BMS020_07604	1806			hypothetical protein	ATGAAACCCTCGCTGCTCGCTCTTTCGCTGTTGCTGGCGGTGCCTGCGCTGGCGCTGCCGCCCGCCGCGCTGGCCGCGCCTGCCGATGTCGCCGCGGCCGCGCCGCGCGCGGTGCCGGCCTGGGTGGAGCGCAGCAACGCCGATGCACAGATCCTGCTGCGCGCGCAGGCGCCGTTCCAGCCGGAATTCGCCAGCTTCTTCGGCGTGCCCGGCTACGACGGCCAGGTCAGCGACCTCGGCCCGGACAACGCCGCGCGCTTCCGCGCGGCGATGGAGCAGGCCAAGCAGCAGCTGCAGGCGCGGCTGGCGCAGGAGCAGGACCCGAACGTGCGCCAGGACCTGCAGATCATGCAGCACGCCGCCGACAGCAACATCACCGGCAGCCGCCTCAACGAACGCTATCTGCTGCCGTGGACCGACGCGCCGCAGCTGGTGTTCTCCGGCCTCAACGGGCTGCTGTCCGAGCAGGTGCCGGCCGAACGCCGCGCCCACGCGCTCGACCGCCTCAAGCGCTATGCCGGGTTGGTGCCGGGCAGCACCGCGATCACCACGCTGGCGCGCCAGCGCTACGAGGAGAAGCTGGCCGACAAGGCGCTGCTGCAGCCGACCGAGCGCGAGGTGCAGCAGGCGCTGGCGAACGTGGACACCTACATCGCCGGCATCGACGCGCTGTTCGCCACCTACAAGGTCGCCGGCGCCGATCCGGCGCTGAAGGCGCTCGCCGGCCAGCTCAAGGACTACGCGGCGTGGACGCGCAAGGTGGTGCTGCCGAAGGCCCGCAAGGATGCGCGCCTGCCCGAGCCGCTGTATGCCTACCAGCTCGAACAGGTCGGCATCGACATCGATCCGCGCCAGCTGATCCAGCGCGCGCAGCTGGAGTTCATGGAAACCCGCGCGGCGCTGCGCCAGATCGCGCCACTGGTGGCCAAGGACAAGGGCCTGCCGGCCGGTGGCGACTATGTCGAGGTGATCCGTGGGCTCAAGCGCGACAAGATCGCCGACGACCAGCTGGAAACGCATTACCGCGGGGTGATCGACCAGATCGATCCGATCATCCGCGCGCGCCGCATCGTCGGCGTGCCGGACCGCCCGCTGCAGATGCGCCTGGGCAGCGCCGCCGAGAGCGCCGCCTCGCCGGCGCCGCACTACCTGCCTGCGCCGCTGATCGGCAACACCGGCCAGCAGGGCCAGTTCGTGCTGCCGCTGGGCAACCCCGAGGCCGGCAGCGCGGCCAAGGCCGACCAGTACGACGACTTCAACTTCGCCGCCGCGGCCTGGACCCTGAGCGCGCACGAGGGCCGCCCCGGCCACGACCTGCAGTTCGCCGCGATGGTCGAGCGCGGGGTGTCGCTGGCGCGCAGCATGTTCGCGTTCAATTCGGTCAACGTCGAAGGCTGGGCGCTGTACGCCGAAGCCGAGATGGTGCCGTACGAGCCGCTGGAGGGGCAGCTGATCGCGCTGCAGTTCCGCCTGCTGCGCGCCGCGCGCGCGATGCTCGACCCGATGCTCAACCTCGGCCTGATCGACCGCGAGCGCGCGCGCCAGGTGCTGGAGGACGATGTCGGGCTGTCGCCGGCGATGGCGCGCCAGGAGCTGGACCGCTACATGATCCGCGCGCCCGGCCAGGCCGGGGCCTACTTCTACGGCTACAGCCGGATCCTGGAGCTGCGGATGCGGACCGAACTGGCGCTGGGACCGAAGTTCGACCGGCTGAAGTTCAACGACTTCCTGCTCGACCAGGGCCTGCTGCCGCCGGACCAGCTGGCGCAGGCGGTGGACACGGTGTTCATCCCGTCGCAGCGCTGA	MKPSLLALSLLLAVPALALPPAALAAPADVAAAAPRAVPAWVERSNADAQILLRAQAPFQPEFASFFGVPGYDGQVSDLGPDNAARFRAAMEQAKQQLQARLAQEQDPNVRQDLQIMQHAADSNITGSRLNERYLLPWTDAPQLVFSGLNGLLSEQVPAERRAHALDRLKRYAGLVPGSTAITTLARQRYEEKLADKALLQPTEREVQQALANVDTYIAGIDALFATYKVAGADPALKALAGQLKDYAAWTRKVVLPKARKDARLPEPLYAYQLEQVGIDIDPRQLIQRAQLEFMETRAALRQIAPLVAKDKGLPAGGDYVEVIRGLKRDKIADDQLETHYRGVIDQIDPIIRARRIVGVPDRPLQMRLGSAAESAASPAPHYLPAPLIGNTGQQGQFVLPLGNPEAGSAAKADQYDDFNFAAAAWTLSAHEGRPGHDLQFAAMVERGVSLARSMFAFNSVNVEGWALYAEAEMVPYEPLEGQLIALQFRLLRAARAMLDPMLNLGLIDRERARQVLEDDVGLSPAMARQELDRYMIRAPGQAGAYFYGYSRILELRMRTELALGPKFDRLKFNDFLLDQGLLPPDQLAQAVDTVFIPSQR				NA	NA	NA	NA	NA
BMS020_07605	450			hypothetical protein	ATGCATACACGCCTGTTCACCGCCGCGCTGCTCGGCCTGGCCCTGGCCGGCTGCGCCAGTTCCTCCAAGGTGATGGTCGGCCAGGCGCGAGCGCCGATCGACCCGGCCCTGGTCCGCGTCTACTCGACCCCGCCGGCCGGCGCGACCGAGATCGCCCAGCTCGAATCCACCAGCGCCGCCGGCTTCGGCACCCAGGGCCAGACCGATGCCGCGGTCGCGCGGCTCAAGCGCGAGGCGGCCAAGCTCGGCGCCAACGGCGTGGTGCTGATGGGCGTGGGTTCGGAGCGCTCCGGCGGCGGCGTGTCGGTCGGCGCCGGCACCTATGGCGGCCACGTCGGCGGCGGGCTCGGCATCGGCATCCCGACCACGCAGAAGCGCGCGGCCGGCGTGGCGATCTGGGTGCCGGCCGAGGCCGAGGCGGCGACGCCGAGCGAACCGCCGGCGCACTGA	MHTRLFTAALLGLALAGCASSSKVMVGQARAPIDPALVRVYSTPPAGATEIAQLESTSAAGFGTQGQTDAAVARLKREAAKLGANGVVLMGVGSERSGGGVSVGAGTYGGHVGGGLGIGIPTTQKRAAGVAIWVPAEAEAATPSEPPAH				NA	NA	NA	NA	NA
BMS020_07606	249			hypothetical protein	ATGGGACTGATCAGCCTGCTGTGGGGCGTGGTGGCACTGTTGTGGATGATCCTGGCGTTCATCCCGTTGCTGGGCTGGGGCAACTGGTTCCTGATCCCGTTCGCCGCGGTCGGCGCGATCATCGCCGCGATCGGCATCGCCGTCACCGCGCCGGGCAACCGCGGCCGGGCCAAGACCGGGCTGGTGCTCAACGCCGTGGTCATCGTGGTCGGGGTGTGCCGGCTGGTGCTGGGCGGCGGCGTGATCTGA	MGLISLLWGVVALLWMILAFIPLLGWGNWFLIPFAAVGAIIAAIGIAVTAPGNRGRAKTGLVLNAVVIVVGVCRLVLGGGVI				NA	NA	NA	NA	NA
BMS020_07607	918			hypothetical protein	ATGATCATCCGCCCGCGTCCCCACGGTTGGCAGCTGCTCTACATCATGCGCGGCTCGATCGTGCCGGCGGTGGCGCCGAAGGTGCTTGCGATCGCGCTGCTGTCGATCGCGGTGGCGGCGTTCGCCGAGCTTGGCCATCCGCCCGGCATCGAGCGCGTCTCGGTCGCGCCGTTCAGCCTGCTCGGCCTGGTGCTGTCGATCTTCCTCAGCTTCCGCAACAACGCCTGCCACGAGCGCTGGTGGGAAGCGCGCAAGCAGTGGGGCCAGCTGGTCTACGAGATGCGCGGGCTGGCGCGGCAGTGCGCCACCCTGCTCGATGGCGACCCGGCGCGGCAGCGGCGCATCGGCTACCTCGCCGCCGGCTTCGCCCATGCGCTGGCCGCGCGCCTGCGCGGGCGCGACATGGTCGCCGCGGCGCAGCCGTGGCTGCCGGGCCAGGACCTGGCCTTGCTGGCCGGGCGCAACAACGTGCCCGACCAGCTGCTGACCCTGATCGGCACCGAGCTGGCGCAGGCGCAGCGCGAGGGCCGGATCGATTCCTACCTGTACGCCGTGATCGAGGCGCGGGTGCAGGCGATGGCCGGCATCCAGGCCGGCTGCGAGCGCATCCTGTCCACGCCGCTGCCGTTCGCCTACACCCTGCTGCTGCACCGCTGCGCCTGGATGTTCTGCGTGCTGCTGCCATTCGGCCTGGCGACCACGCTGGGCTGGGCCACGCCGGTGGTGTCGGTGATCCTGGCCTATGCGTTCTTCGGCCTGGACCAGCTCGGCGAAGAAATGGAAGAGCCGTTCGGGCTCGAGCCCAACGACCTGCCGATCGATGCGCTGGTGCGCACCATCGAAATCGACCTGCGCGAAGCGCTCGGCGAGCGTGACCTGCCGCCGCCGCTGCTGCCGCGCGACTACCTGCTGCAATAA	MIIRPRPHGWQLLYIMRGSIVPAVAPKVLAIALLSIAVAAFAELGHPPGIERVSVAPFSLLGLVLSIFLSFRNNACHERWWEARKQWGQLVYEMRGLARQCATLLDGDPARQRRIGYLAAGFAHALAARLRGRDMVAAAQPWLPGQDLALLAGRNNVPDQLLTLIGTELAQAQREGRIDSYLYAVIEARVQAMAGIQAGCERILSTPLPFAYTLLLHRCAWMFCVLLPFGLATTLGWATPVVSVILAYAFFGLDQLGEEMEEPFGLEPNDLPIDALVRTIEIDLREALGERDLPPPLLPRDYLLQ				NA	NA	NA	NA	NA
BMS020_07608	993	hemB_2	COG0113	Delta-aminolevulinic acid dehydratase	ATGGCCCACCCGCACTACCGCCCGCGCCGCATGCGCCGCCACGACTTCACCCGCCGGCTGATGCGCGAGCACACGCTGACCGTGGACGACCTGATCTGGCCGGTGTTCGTGCACGAGCTGGAAGGCCGTGTCGCGGTGGCGTCGATGCCGGGCGTGGAGCGCATGTCGATCGATGCGCTGCTGCACGAGGCCGAGCAGGCACTGGAGCTGGGCATCCCGGTGATCGACCTGTTCCCGGTGATCGACACCGCGCGCAAGAGCCTGGACGCGGCCGAGGCCTGGAACCCGGACGGCCTGACCCAGCGCACCATCCGCGCGCTGAAGTCGCGCTTCCCCGAACTGGGGGTGATGACCGACGTCGCACTGGACCCGTACACCACCCACGGCCAGGACGGCATCATCGATGCCGACGGCTACGTGCTCAACGAGGTCACCGTCGAGGCGCTGGTCAAGCAGTCGCTGTCGCATGCCGAGGCCGGCGCCGACATCATCTCGCCCAGCGACATGATGGACGGCCGCATCGGCGCGATCCGCCGCGCGCTGGACGCCGATCCGCGCTTCCTCAACGTGTCGATCATGGCCTATTCGGCCAAGTACGCCTCGGCGTTCTACGGCCCGTTCCGCGACGCGGTGGGCAGCGCCGGCAACCTCGGCAAGGCCGACAAGAAGACCTACCAGATGGACCCGGGCAACACCGACGAGGCGCTGCGCGAGATCGCGCTGGACCTGGAGGAGGGCGCGGACATGGTGATGGTCAAGCCGGGCATGCCGTACCTGGACGTGGTGCGCCGGGTGAAGCAGGAGTTCGGTGTGCCGACCTATGCGTACCAGGTCAGCGGCGAGTACGCGATGATGCAGGCCGCCTTCGCCAACGGCTGGCTGGACGAGCGCAAGTGCGTGCTGGAGTCGCTGCTGGGCTTCAAGCGCGCCGGCGCCGACGGCGTGCTGACCTACTTCGCGCCGAAGGTCGCGCGCTGGCTCAGGGAAGGCTGA	MAHPHYRPRRMRRHDFTRRLMREHTLTVDDLIWPVFVHELEGRVAVASMPGVERMSIDALLHEAEQALELGIPVIDLFPVIDTARKSLDAAEAWNPDGLTQRTIRALKSRFPELGVMTDVALDPYTTHGQDGIIDADGYVLNEVTVEALVKQSLSHAEAGADIISPSDMMDGRIGAIRRALDADPRFLNVSIMAYSAKYASAFYGPFRDAVGSAGNLGKADKKTYQMDPGNTDEALREIALDLEEGADMVMVKPGMPYLDVVRRVKQEFGVPTYAYQVSGEYAMMQAAFANGWLDERKCVLESLLGFKRAGADGVLTYFAPKVARWLREG	PGPT0003655_2648	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003655-hemB-K01698	NA	NA
BMS020_07609	453			hypothetical protein	ATGGCGACGCCGCGGATCCGGCCGGCCACGGTCGATGATGCCGCGGCGATCGCGCGCCTGAGCGGCCAGCTCGGCTATCCGGCCGACGCCGCCACGTTCGCGCGGCGGCTGGCGCTGATCGCCGGCTCGCCGCGGCATGCGGTGTTCGTCGCGGTCGATGCGGACGCTGGCGCCAAGGTGTTGGGCATGGTCGGCGTCGAGCAGCGGCTGATGCTCGAGACCGGCGAGCCGGCCGAGATCGTGGCGATGGTGGTCGATGCCGATGCGCGGCGGCTCGGCCTCGGCCGGGCGTTGATCGCCGCCGCCAGCGACTGGGCCCGGCAGCGTGGTTGCACGCGGATCTTCCTGCGCTCGAACGTGCTGCGCGACCAGGCGCATGCCTTCTACCCGGCGTTGGGATTCACCCGCAGCAAGAGCCAGCACGTCTACGAACAGGCGCTGCAGGCCGGGTGA	MATPRIRPATVDDAAAIARLSGQLGYPADAATFARRLALIAGSPRHAVFVAVDADAGAKVLGMVGVEQRLMLETGEPAEIVAMVVDADARRLGLGRALIAAASDWARQRGCTRIFLRSNVLRDQAHAFYPALGFTRSKSQHVYEQALQAG				NA	NA	NA	NA	NA
BMS020_07610	2511			hypothetical protein	ATGTTCAAGACACTCGTATTCCAGCTGCACTGGCTGCTGGGCATCACCGCCGGCACCGTGCTGGCGCTGATGGGCCTGACCGGCGCCACGTTGTCGTTCCAGGACGAGCTGCTGCGCTGGAGCGATCCGGGACTGGCACGCATCGCCCAGCGCCAGCAGGCCGGCGAACTGCCGCTGCCGTTGCCGGAACTGGTGCAACGGCTCGGTGTCGACGGCGGCCAGGGCCTGAACCGGTTGATCATCGATCCCAGCGGCGCCCGGCCGTCGCGGCTGCGGCTGGAGTCGCCCGCGCCGGGGCAGCCGCGCGAGCGCTACTTCGATCCCTACACCGGCCAGGAGCTGCCGGCGCCGCGCGGCATGGCGTTCTTCCACGTGGTCGAGGACCTGCACCGGCGCCTGGCCGCCGGCGAGCGTGGCAAGGCGGTGACCGGGGCCTGTGTGCTGGCGCTGGTGTTCTTCTGCCTGTCCGGGCTGTACCTGCGCTGGCCGCGACGCTGGTGGAACTGGCGGGTCTGGTTGGCGGTGGAATGGCGCCGCGACGGCCGCAGTTTCCTGTGGAGCCTGCATTCGGTGATCGGCACCTGGTGCCTGCTGCTGTACCTGGTGATCGCGCTGACCGGGTTGTACTGGTCCTACGACTGGTACCGCGCCGGCCTGGTGCAGGTGCTGGGTGGCCCGGCGCGCGAGCAACCGCGTGGGCCCCGTGGCACGGCGCCGCCGCCGCTGGACCTGGCCGGCGTGCAGCGCGTGCTGGCGCAGTTGCCGGATCGCCATGGCACCCTGGTCGACCTGCGCGTGCCGGCCAGCGGCACCACGTTGACGCTGCGCACGCGCAGTGCCGGCGCCGCGCACGACCGCGCCTACGACAGCATCGAGCTCGACCGCGCCAGCGGCCAGGTCCTGCGCCGCGAGCCATACGCGGCGCAGCCGCCGGGGCGCAAGCTGCTGACCAGCATCTTCGCGCTGCATTCGGGCAGCTTCTTCGGCTTGGCCGGGCGGCTGGCGTGGATGTTGGCGGCGTTGTGCATGTCGCTGTTCTTCGTTACCGGCTGGATGCTGTACCTGGACCGGCGGCGCAAGAAGCGCGCGCTGCGCAACGCACGCGGTGGCCTGGCGGCGCCGCGCGCCGACGGCGAGCCGTGGCTGGTCGCGTTCGCCAGTCAGAGCGGCTTCGCCGAGCAGCTGGCCTGGCAGACCGCCGGACAGCTGCAGGCCGCCGGGCAGGCGGTCCGGGTGAGTGCGCTCGGCCAGCTCGACCACGGCACGCTGCAGGCGACCCGGCGCGCGCTGTTCGTGGTCAGCACGTTCGGCGATGGCGAGCCGCCGGATGCGGCGCGTGGCGTCGAGCGGGCGCTGCTGCGCCAGGCCGGGGCACTGCCGCAGCTCGGCTATGCGCTGCTGGCGCTGGGCGATCGCCAGTACGCGCGCTTCTGCGGCTTCTCGCGCCGGCTGGACCAGTGGCTGGCGGGGCAGGGTGCCAATGCGCTGTTCCCGACCATCGAGGTCGACAATGCCGATCCGGTCGCGCTGGCGCAGTGGCAGCGCCAGCTCGGCGACCTCACCGGCGTGGAGGCGGCGCCGATGCCGCTACAGTCGCCGCCGCCATCGGCATGGACGATGCGCGGGCGCACGCCGCTCAACCCCGGCAGCGACGGCGCGCCGGTATGGCGCATCGACCTGCTGCCGCCGCCGCAGGCGCACTGGCAGGCCGGCGACATCCTGCTGGTGCAGCCGCAGCACGCGCCGGACACGCTGCGGACGTGGCTGGCCGCGCACGCGCTGGATGCGGCGACAGCGGTGCATGTCGATGGTCGCGACGTCGCCCTCGCCGAAGCATTGGCGACGCGCGTGCTGCCGGCCGCGGCCGATGCCGCGCTGCCGGTCCAGGCCTGGCTGGAGACGCTGTCCGCGTTGCCGCCGCGCGAGTACTCGATCGCCTCGGTGCCGGCCGATGGCGTGCTGCAGCTGGTCGTGCGTGAAGTCATCGGCGCCGATGGCCGGCCCGGGCTCGGCTCCGGCTGGCTGTGCCGGCACGCGCCGGTGGGCACCGAGCTGCTGGCGCGGGTGCGCGCCAACCCCGGCTTCCGCCGCCATGGCGACGCGCCGATGGTGCTGATCGGCAACGGCACCGGCATCGCCGGCCTGCGCAGCCTGCTGCGCGAGGCGGCCAACGCCGGCAGCCATGGCCACTGGCTGCTGTTTGGCGAGCGCCATGTCGCGCACGACCGCCTGTTCGGCGACGAACTGGCGGCCTGGCGCGCGGCGGGGCATCTGCAGCGGCTGGACCTGGCGTTCTCGCGCGACCAGCCACACAAGGTCTACGTCCAGCACCTCCTGCGTGACGCCGCCGACATGCTGCCGGACTGGCTGGCGCGCGGCGCGGTGCTGCACGTCTGCGGCAGCCTGGTCGGCATGGCGCAGGAGGTCGATGCGGAGCTGCGTCGTCAGCTCGGCGACGCAGTGCTCGACACGCTGGCCGCGCAGGGCCGTTATCGCCGCGACGTGTATTGA	MFKTLVFQLHWLLGITAGTVLALMGLTGATLSFQDELLRWSDPGLARIAQRQQAGELPLPLPELVQRLGVDGGQGLNRLIIDPSGARPSRLRLESPAPGQPRERYFDPYTGQELPAPRGMAFFHVVEDLHRRLAAGERGKAVTGACVLALVFFCLSGLYLRWPRRWWNWRVWLAVEWRRDGRSFLWSLHSVIGTWCLLLYLVIALTGLYWSYDWYRAGLVQVLGGPAREQPRGPRGTAPPPLDLAGVQRVLAQLPDRHGTLVDLRVPASGTTLTLRTRSAGAAHDRAYDSIELDRASGQVLRREPYAAQPPGRKLLTSIFALHSGSFFGLAGRLAWMLAALCMSLFFVTGWMLYLDRRRKKRALRNARGGLAAPRADGEPWLVAFASQSGFAEQLAWQTAGQLQAAGQAVRVSALGQLDHGTLQATRRALFVVSTFGDGEPPDAARGVERALLRQAGALPQLGYALLALGDRQYARFCGFSRRLDQWLAGQGANALFPTIEVDNADPVALAQWQRQLGDLTGVEAAPMPLQSPPPSAWTMRGRTPLNPGSDGAPVWRIDLLPPPQAHWQAGDILLVQPQHAPDTLRTWLAAHALDAATAVHVDGRDVALAEALATRVLPAAADAALPVQAWLETLSALPPREYSIASVPADGVLQLVVREVIGADGRPGLGSGWLCRHAPVGTELLARVRANPGFRRHGDAPMVLIGNGTGIAGLRSLLREAANAGSHGHWLLFGERHVAHDRLFGDELAAWRAAGHLQRLDLAFSRDQPHKVYVQHLLRDAADMLPDWLARGAVLHVCGSLVGMAQEVDAELRRQLGDAVLDTLAAQGRYRRDVY	PGPT0002795_614	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002795-cysJ-K00380	NA	NA
BMS020_07611	870	tolB_5		Tol-Pal system protein TolB	ATGCGGACCCGACTGTCGTTGCTCGCGCTGGCGGCGAGTGTACTCTGCGCGCCCACCGCGGCGGGCCTGGCCGAATTCGGCATCGAAGGCATGGGCGTGGTCTCGACCAAGGCCAACGAAGGCCGCGCGAGCGTGTCGCCGGACGGCCAGCGCATCGTCTGGGCCAGCGACCGGGCCGGCGGCTGGGACCTGTGGCAGGCGCGGCTGCAGGGCGGGCGCTGGAGCGATGCGCAGGCGTTGGCGCTGAACGCGCCGGGCGAGGATGTCGATCCGTTCTTCAGCGCCGATGGGCGCTGGCTGTACTTCGCCTCCGACCGTCGCGGCGGGCGCGGCGGCCATGACCTGTACCGCGCACCAGTCGACCGCGACGGGGCCATCGGCACGCCGCAGCCGCTCGGCGATGCGGTCAACGGCCGCGGCGACGAACGCGCCCCGGCGCTGTCGCTGGACGGCACCCGGTTGCTGTTCGCCCGTGGCGACCAGGACCACCATGCGCTGCTCGTGGCGCGCTGGGACGGCCAGGCGTTCGCTGCGCCGGCCGCGCTACCCGGCATCGCACGCGATGACGACATTCCCGATGCGAGCTGGCTCGGCGATGGCCGGGCGCTGGTGTTCGCCCGCGTCGAGGATGCGACGACCACGCGGCTGTGGATCGCCCAGTGCGAACAAGGTCGGTATGCCGCGCCCGAACCGCTGCCGGTGTCGTTCAACAGCAGCGGCAGCGTGACCCGCGCCGCGGTACTCGACGCCAGCAAGCCCGGCGAGCTGCTGCTGAGCGGCCAGGCGCGCGCGCCGCGCGCCGGGGGCGCCGACCTCTACCGGATGAAGGCGCCGGCTGCCCGCGGCGACGCCAGCTGCATGACGCACTGA	MRTRLSLLALAASVLCAPTAAGLAEFGIEGMGVVSTKANEGRASVSPDGQRIVWASDRAGGWDLWQARLQGGRWSDAQALALNAPGEDVDPFFSADGRWLYFASDRRGGRGGHDLYRAPVDRDGAIGTPQPLGDAVNGRGDERAPALSLDGTRLLFARGDQDHHALLVARWDGQAFAAPAALPGIARDDDIPDASWLGDGRALVFARVEDATTTRLWIAQCEQGRYAAPEPLPVSFNSSGSVTRAAVLDASKPGELLLSGQARAPRAGGADLYRMKAPAARGDASCMTH				NA	NA	NA	NA	NA
BMS020_07612	849	aroE_4	COG0169	Shikimate dehydrogenase (NADP(+))	ATGCCCGTGTCCCGCTACGCCGTGTTCGGCCACCCCGTCGCCCATTCGCTGTCGCCGCAGATCCACGCCCGCTTCGCCGAGCAGACCGCCATCGCGCTGGAATACACCGCGATCGATGCCGCACCGGAGGCGTTCACCGCCAGCGTCGAGCGCTTCGCCGCCGAGGGCGCTGCCGGCGCCAACGTGACCTTGCCGCTGAAGGAACTGGCCTACGCGCTGTCGACCACGCTCAGCGAGCGCGCGCGCCGCGCCGGTGCGGTCAACACCCTGGTGCGCAATGACGGCCAGTGGCATGGCGACAACACCGACGGCGCCGGCCTGGTGCGCGATCTCACCGAGCGCCACGGGCTGGACCTGCGCGGCCGTCGCGTGCTGCTGCTCGGTGCCGGCGGCTCGGCACGCGGCGTGGCACCGGCACTGCTGGATGCCGGCGTGCTTGAACTGGTCGTGGTCAACCGCACGCCCGAACGCGCCGACGCACTGTGCGACGTGCTCGGCGAACCGGCGCGCGCGCGATCGCGCTACTGGGAGGACCTGCACGAACTCGGCGACTTCGAACTGATCGTCAACTCGACCTCGGCCGGGCGCGACGACGGCGCCGGCTTCGCGCTGCCGCTGTCGCTGGTCAACAGCATGACCACCGCGGTCGACCTCAACTACGGCGAGGCGGCGATCTCCTTCCTCGCCTGGGCGCGCGCGGCGCATTGCCGTGGCAGCGTCGACGGGCTTGGCATGCTGGTGGAACAGGCTGCCGAGAGCTTCGCGCTGTGGCACGGCGTCCGCCCGGACACCGCGCCGGTGTACGCGGCGCTGCGCGCCCGCGACGCGCTGCTGGTCAGCGCCGACTGA	MPVSRYAVFGHPVAHSLSPQIHARFAEQTAIALEYTAIDAAPEAFTASVERFAAEGAAGANVTLPLKELAYALSTTLSERARRAGAVNTLVRNDGQWHGDNTDGAGLVRDLTERHGLDLRGRRVLLLGAGGSARGVAPALLDAGVLELVVVNRTPERADALCDVLGEPARARSRYWEDLHELGDFELIVNSTSAGRDDGAGFALPLSLVNSMTTAVDLNYGEAAISFLAWARAAHCRGSVDGLGMLVEQAAESFALWHGVRPDTAPVYAALRARDALLVSAD	PGPT0012890_2089	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
BMS020_07613	345			hypothetical protein	ATGGATCCGATGAACCTGATGACCGTGCTGCTCGGCAGCCTGGTCTATCGCCTGCCTGCGCTGATCGGCATCGTGGTCGGCCTGGTCATGCTGGCATCGGTGCCGGCCAGCCGCGCGCGTAGCGGCGGCCTGCTCGGACTGGTCCTGCTGCTGGCGGCGATGCTGCTGGGGCTGGGGCTGTCGGCGCTGCCGATGCTGATGATGGCCAACGCGGGCAGCCTCGGCTCGCTGTCCGTGGTGATGGCGGTCACGGGCTTCGTGGTCTCGCTGGTCGAAGCGGCCGGCATCGTGCTGCTGGCGGTGGCGCTGCTGCGCGCGCTGCGCCCGCAGCCGGCGGGGGGCTGA	MDPMNLMTVLLGSLVYRLPALIGIVVGLVMLASVPASRARSGGLLGLVLLLAAMLLGLGLSALPMLMMANAGSLGSLSVVMAVTGFVVSLVEAAGIVLLAVALLRALRPQPAGG				NA	NA	NA	NA	NA
BMS020_07614	234			hypothetical protein	ATGCTGCCGCTGCGCCCCATGTTGATGACGCTCGCCGGCGCGGTCTGTACCGCCCAGGCCGGCTGGACCCTGCTGCATCCGGAGCGGATCGCCCAGGTCAACCGCCAGGGCTGGCTGTACGAGCGCTTCGGCGCCGCCGGAGTCGGGGCTGGGCTGTTGCTGCTGGGCCTGGCGATGCTGGTCGGTGGCGCGCTCTGGAGCCGGCGCGCCTGGCGCCGCTGGCGCACCGGCTGA	MLPLRPMLMTLAGAVCTAQAGWTLLHPERIAQVNRQGWLYERFGAAGVGAGLLLLGLAMLVGGALWSRRAWRRWRTG				NA	NA	NA	NA	NA
BMS020_07615	2136	dinG_2	COG1199	ATP-dependent DNA helicase DinG	ATGAATGATGCAGCCAGTCCGCCGTCGGACACCGCCAAGTCCGAGTCCACGCGCGGCCTGACCGATCCGCTGAAGACCGCGATCCGCGACACCTACGGCAAGCTCCAGGCCAACACCCCCGGCTTCACCACCCGCCGTGCGCAGAGCCAGATGATCGGCGCGGTGTCGCGCGCGCTGGCCACCTCCGGCGGGGTCGGCGTGGTCGAGGCGCCGACCGGCGTCGGCAAGAGCCTGGGCTATCTGACCGCCGGCGTGCCGATCGCGCTGGCGACCAAGAAGAAGCTGGTGATCAGCACCGGCACCGTGGCGCTGCAGTCGCAGCTGGTCGAACGCGACATCCCGGCCTTCCTGAAGGCCACCGGCCTGGAGGCGACGGTGGCGCTGGCCAAGGGCCGCACCCGCTACCTGTGCACCCGCAACGCCGCCGAACTGCATGGCGAGACCAGCCAGGAAGGCATGTTCGAGGACGAGCAGGTGCTGTACGACCGCCCGCTCAGTCCGGCCGATGCCGAGATCGCCCACCGCCTGGCCAAGGCCTACAGCGAGCGGCGCTGGAACGGCGATCTCGATGACGCGCCCGAGCAGGTCTCCGGCCCGCTGCGGATGCGCATCACCACCCCGGCCTCCGGCTGCGCCGGGCGCCGTTGCAGTTACTCGGCGCAGTGCCCTGTGCTGAAGGCGCGCACCGAGGTGCGCGAGGCGCAGATCGTGGTCACCAACCACGCGCTGCTGCTGTCGACGCTGTCGCTGGGCGATGTCGAGAACGGCCAGCCGTTGATCGCCGCGCCAGCCGACATGCTGCTGGTGCTCGACGAAGGCCACCACATCGCCTCGGTGGCGATCGACCAGGGCGCGGCCAGCCTGCCGCTGGACGACATGGCGCGGCGCACCGGCCGGCTGCAGATCCTGATCGCCGCGACCTTCCGCGCGATCGACCGCGAGAAGGTCGGCAACGTGCTGCCCAACGAAGCGGTGGAACTGGCATCGAAGGTGTCCAAGCAGCTCAAGGCGTTCCACGCGCTGGTCGAACAGACCTGGCGCCCGGACGCGTCCGAGCGCGAACCGCAGTGGCGCGCGCCGAACGGCCAGCTGCCGCCGGCATGGCTGCCGGCGATCGCCGAGCTGGGCGAGGACACCCGCGCGCTGTTCAACTTCATCCATGCCGCACATGGGCTCATCGCCAAGGGCAAGCAGGACGATGCGGCGCGCGAGCGCCTGCAGCGTAGCCTCGGCCTGGCGCTGGAGATGGTCGAGCAGCAGCACGGCCTGTGGAGCGCGTGGCAGCGCGAGGACAAGGACGGCCAGCCGCCAATGGCGCGCTGGATCACCTTGTCGCGCGATGGCGACCTGGTCTGCCACGGCTCGCCGGTGTCGGCGGCGCAGGTGCTGCGGCAGCTGCTGTGGAGCGAGGTCGACTCGGTGCTGATGACCTCGGCGACGCTGACCGGCGGCAACGATTTCCATGCGTTTGCGATCGACAACGGCTTGCCCGACCACGCCGAGATGATCGCGCTGTCCTCGCCGTTCGACCTGCCCAACCAGGCCGAGTTGATCGTGCCGAATTTCCCGGCGACGCCGGACGACCGCGAAGGCCATCCGAAGGAGGTCGCACGCTACCTGGTGCGCGAGCTGGACTGGGGCAAGGGCAGCATCGTGCTGTTCACCTCGCGCTGGAAGATGGAGAAGGTCGCCGACCTGCTGCCGATCGCCCAGCGCAACCGCGTGCTGGTGCAGGGCGAGGGCAACAAGAGCCAGTTGATCGGCGAGCACATGCGCCGCATCGGCGCCGGCGAAGGGTCGGTGCTGTTTGGGTTGAATTCGTTCGGCGAAGGCCTGGACCTGCCCGGCGAGGCCTGCACCACGGTGGTGATCACCCAGGTGCCGTTCGCGGTGCCGACCGATCCGCAGACCGCGACCTTGGGCGAGTGGCTGGAAAGCCGCGGCCACAACGCCTTCAACCTGATCGCGATCCCGCACGCGCTGCGCACGCTGACCCAGTTCGCCGGCCGGCTGATCCGTAGTTCCAGCGACCACGGCCGCGTCATCATCCTCGACTCGCGGCTGCTCACGCGCCGCTACGGCCGCCGCATCATCGACGCGCTGCCGCCGTTCAAGCGCGTGATCGGCAAGCAATAG	MNDAASPPSDTAKSESTRGLTDPLKTAIRDTYGKLQANTPGFTTRRAQSQMIGAVSRALATSGGVGVVEAPTGVGKSLGYLTAGVPIALATKKKLVISTGTVALQSQLVERDIPAFLKATGLEATVALAKGRTRYLCTRNAAELHGETSQEGMFEDEQVLYDRPLSPADAEIAHRLAKAYSERRWNGDLDDAPEQVSGPLRMRITTPASGCAGRRCSYSAQCPVLKARTEVREAQIVVTNHALLLSTLSLGDVENGQPLIAAPADMLLVLDEGHHIASVAIDQGAASLPLDDMARRTGRLQILIAATFRAIDREKVGNVLPNEAVELASKVSKQLKAFHALVEQTWRPDASEREPQWRAPNGQLPPAWLPAIAELGEDTRALFNFIHAAHGLIAKGKQDDAARERLQRSLGLALEMVEQQHGLWSAWQREDKDGQPPMARWITLSRDGDLVCHGSPVSAAQVLRQLLWSEVDSVLMTSATLTGGNDFHAFAIDNGLPDHAEMIALSSPFDLPNQAELIVPNFPATPDDREGHPKEVARYLVRELDWGKGSIVLFTSRWKMEKVADLLPIAQRNRVLVQGEGNKSQLIGEHMRRIGAGEGSVLFGLNSFGEGLDLPGEACTTVVITQVPFAVPTDPQTATLGEWLESRGHNAFNLIAIPHALRTLTQFAGRLIRSSSDHGRVIILDSRLLTRRYGRRIIDALPPFKRVIGKQ				NA	NA	NA	NA	NA
BMS020_07616	867	qorB_2	COG0702	Quinone oxidoreductase 2	ATGTCCAGTCCCCGCATCCTCGTCACCGCCGCCACCGGCCAGCTCGGCCGCAAGGTCGTCGCTGAACTGCTCAAGCGCCTGCCGGCCGCCGAGATCGCCGTCGCGGTGCGCAACCCCGACGCTGCCGCCGACTTCGCCGCCACCGGCGTACAGGTCCGCACCGCCGACTACGCCCAGCCGGCCGGCTGGGACGCGGCGCTGGCCGGCATCGAGCGCGTGCTGCTGATTTCCTCCAATGCGATCGGCCAGCGCACCGCACAGCACCGCACCGTCATCGAAGCCGCCACGCGTGCCGGCGTCCAGCTGATCGCCTATACCAGCGTGCTGCGCGCCGAGGGCAGCGCGCTCGCCCTGGCCGGCGAGCACCGCGAGACCGAGGCGCTGCTGCGCGCCTCGGGCCTGCCGTTCACGCTGTTGCGCAACGGCTGGTACACCGAGAACCTGACCGCCTCGCTCGGCCATGAGCTGGAGAGCGGCGTGCGCTATGGCAGCGCCGGCGCAGGCCGCTTCGCCAGCGCCACGCGCGAAGACTATGCCGAGGCCGCGGCGGTGGTGCTGAGCAGCGACGGTCATGCCGGCAAGGTCTATGAACTGGCCGGCGACGACGCCTACACGCTGGACGCGTACGTCGCCACGATCAGCCGCCTGAGCGGCACGCCGGTGCGCTACCAGGACCTGCCGGAGGCCGAGTACCGCGCCGCGCTGGAGCAGGCGGGGCTGCCGGCGCCGTTCGCCGCGCTGCTGGCCGATTCGGATGCGGCCGCGGCCGGTGGCGCGCTGTTCGACGATGGCCACCAGCTGAGCGCGTTGATCGGGCGACCGACCACGACGCTGGAAGCCACATTGAAGGTGGCGCTGGCGGGCTGA	MSSPRILVTAATGQLGRKVVAELLKRLPAAEIAVAVRNPDAAADFAATGVQVRTADYAQPAGWDAALAGIERVLLISSNAIGQRTAQHRTVIEAATRAGVQLIAYTSVLRAEGSALALAGEHRETEALLRASGLPFTLLRNGWYTENLTASLGHELESGVRYGSAGAGRFASATREDYAEAAAVVLSSDGHAGKVYELAGDDAYTLDAYVATISRLSGTPVRYQDLPEAEYRAALEQAGLPAPFAALLADSDAAAAGGALFDDGHQLSALIGRPTTTLEATLKVALAG	PGPT0009465_1772	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009465-qorB-K19267	NA	NA
BMS020_07617	405			hypothetical protein	ATGCCATCCTCTGCACAGCAAGCCTGCACCCGTTGGCTCGGCGCCGGCATCGACCTGCGGACCAAATGCCCGGTCCGCGATGTGCTGGACCACGTCGCGGCGAAGTGGTCCACGCTGATCCTGATCGCGCTGGATGGCGGCCCGCTGCGGTTCGGCGCGCTGCAACGGGCGCTGCCGGACATCTCCAAGCGCATGCTGACCCAGAGCCTGCGCGACCTGGAGCGCGACGGCCTGCTGACCCGCCACGTGTTCCCGACCAAGCCGCCGAGCGTGGAGTACCGGCTCTCGCCGCTGGGGCAGTCGATGCTGGTGCCGCTGGCGGCACTGGTCGACTGGGCCGCCCAGGCCCATCCGACGATCCTGCAGGCTCGCCAGGCCTACGATGCGGCTGAGGCCGCGGCATGA	MPSSAQQACTRWLGAGIDLRTKCPVRDVLDHVAAKWSTLILIALDGGPLRFGALQRALPDISKRMLTQSLRDLERDGLLTRHVFPTKPPSVEYRLSPLGQSMLVPLAALVDWAAQAHPTILQARQAYDAAEAAA				NA	NA	NA	NA	NA
BMS020_07618	1125	dusA_2	COG0042	tRNA-dihydrouridine(20/20a) synthase	ATGCGGCTGAGGCCGCGGCATGAACCGGGCCTGCCGGCGCAGCGCGCTAAACTGTGCGCTTCCCGCATCGTTCCCCGGCGCCCGTTGCCTGCGGCGCCCGCCTTCGCCATGACCCACGCTTCCGCCACCACGACGGCCTATGCCGACTCCCTGCGCCTGTCCGTTGCGCCGATGATGGACTGGACCGACCGCCATTGCCGGGTGTTCCACCGGCTGCTGGCGCCGTCGGCACGGCTGTATACCGAGATGGTGCATGCCAACGCGGTGATCCATGGCGACCGCGAGCGCCTGCTCGGCTTCGACGCAGTGGAGCAGCCGTTGGCGCTGCAGCTTGGCGGCAGCGAGCCGGCGCTGCTGGCGCAGGCTGCGCGGATCGCCCAGGACTGGGGCTATGCCGAGATCAACCTCAACTGCGGCTGCCCGTCCGACCGCGTGCAGGCCGGGCGCTTCGGCGCCTGCCTGATGCGCGAGCCGGCGCTGGTCGCCGACTGCGTCGCGGCGATGCATGCGGCGGTGCAGATCCCGGTTACGGTGAAGTGCCGGCTCGGCGTCGACGAGGACGACGACTACGCCGTGTTCGCGTCCTTCGTCGACCAGGTGGTCGCCGCCGGCAGCGCGATGGTGGTGGTGCATGCGCGCAACGCCTGGCTGCAGGGGCTGTCGCCGAAGGAGAACCGCGAAGTGCCGCCGCTGCGCTACGACTGGGCCTACCGGCTCAAGCAGGAACGGCCGCAGCTACCGGTGGTGCTCAACGGCGGCATCGCCACGCTGGAGGCGGCGCATGCACACCTGCAGCAACTCGACGGGGTGATGCTCGGTCGTGTGGCGTATCACGAGCCTTATGTGCTGCACACGCTGGACGCCGCGCTGTACGGCGCGCCGTTGCGCCCGCGCGCCGAGCTGCTGCGCGCGCTGCGTCCCTATGTGGAGGCGCAGCTGGCGCGTGGCATGGCGCTCAAGCACATCACCCGCCATATCCTCGGCCTGTTCCATGGCCAGCCCGGTGGGCGCGCGTTTCGGCAGGTCCTCAGCGAGGGCGCGCATCGCGCCGGCGCCGACTGGCGCCTGGTCGAGCAGGCCTTGCAGGTCACCGAAGACCAGGCACAGCGCGTCGCCGCGGCCTGA	MRLRPRHEPGLPAQRAKLCASRIVPRRPLPAAPAFAMTHASATTTAYADSLRLSVAPMMDWTDRHCRVFHRLLAPSARLYTEMVHANAVIHGDRERLLGFDAVEQPLALQLGGSEPALLAQAARIAQDWGYAEINLNCGCPSDRVQAGRFGACLMREPALVADCVAAMHAAVQIPVTVKCRLGVDEDDDYAVFASFVDQVVAAGSAMVVVHARNAWLQGLSPKENREVPPLRYDWAYRLKQERPQLPVVLNGGIATLEAAHAHLQQLDGVMLGRVAYHEPYVLHTLDAALYGAPLRPRAELLRALRPYVEAQLARGMALKHITRHILGLFHGQPGGRAFRQVLSEGAHRAGADWRLVEQALQVTEDQAQRVAAA				NA	NA	NA	NA	NA
BMS020_07619	447			hypothetical protein	ATGAACAAGACCGAGCACACCCTCAACGACCTGATCCAGATCGCCCGCGACGGGCAGACGTTCTATACCGAAGCCGCCGGCAAGGTGAACGATGCCGAGTTGTCGGCGTTGTTCACCCGCATCGCCGCGGTCAAGGCCGAGATCATCGCCGCCTTCGGTGCCGCGGTGGCCGCGGCCGGTGGCACGCCGGCCGAGCACGGCACCGTCGTCGGCAGCATGCAGAAGATGTACGGCCGGCTGCGTGCCTCGCTGGGCGATACCACCTACGGCTATGTCGCCGAGCTGGAGGAATCGGAGGATCGCCTGCTGGGTGCGTTCCGCGACGCGCTCAACGATGCCGACACCCCGCCGCTGGCGCGTCAGGAGATCACCCGCCTGCTGCCGGACGTGCAGGAATGCCACGCGGTGATGCGCAACCGCAAGCGCCTGCTCAAGCACGCCAGCTGA	MNKTEHTLNDLIQIARDGQTFYTEAAGKVNDAELSALFTRIAAVKAEIIAAFGAAVAAAGGTPAEHGTVVGSMQKMYGRLRASLGDTTYGYVAELEESEDRLLGAFRDALNDADTPPLARQEITRLLPDVQECHAVMRNRKRLLKHAS				NA	NA	NA	NA	NA
BMS020_07620	1698			hypothetical protein	ATGAGCAACGACCCGATCTACACCGACCTGGTGCAGCCCCGCGGACCGGGCTACCGCAGCGAGAACATCAAGCCGTGGAGCCACTACCGTGAACCCATCGACAGCGGCGATGGCCAGCTCCACGGCGAATCGCGCCGCTGGGGCGACGCCTCCGCACAGACGCAGTCGCGGGTGATCGACAGCCTGATCGACGCTTCCCGCGACGCCGGGCTGTCATCGCGCGAGACCGCCTACGTGCTGGCCATCGCCCGGATCGAATCCGGCTTCAACCCCGACGCGGCTGCAGGCACCACCTCCGCGTCCGGCCTCGGCCAGTTCATCGACCGCACCGGCGCCCACTACGGCGTCGACAACAGCAACCGCTTCGACGTGCAGACGCAGTCGCAGGCACTGGTGCAGCACTTCATCGACAACCGCGATCTGGCCCATAGCCGCGGCCAGGGCGAGGACTACATCTACAAGTACCACCACGACGGCCCGAGCCGCGACTACGGTGGGCTGGGCCTGTCCCGGCGCGAGGTGGCGCCGTACCTGGACCGCTACGAGCAGTTCGTCCAGCAACGCTTGTCGCAGACCCAGCAGCACGACGGCCACGCGCCGACGGTCCCCCCGCCCGCGGCGGCAGCCCCGAGCGCGCCGGCCAGCACCCGCAGCGACTTCCAGCAGACGATGGAGCGCATGCTGCCGGGCCAGGGCGGCGTGGATCCGCACATCACCGGCCACTATGGCGAGCATCGCGGCAGCCGCGGCCCGCACGGCGGCACCGACTTCAACTACGAAGGCGGCCAGGCCGGGCGCAACCTGCAGCACCCGACCGTGCATGCGCCGATCGGCGGCGTGGTGACCTTCTCCGGCGGCCAGTACGGCACGGTGAAGATCCGTGATGCGCAGGGCAACTCGCACGAGATCCTGCACCTGGATGCGCGCTCGGTGAAGGAAGGCCAGACCGTGCAGGCCGGCGATCCGATCGGCACCATGGGTGGGCGTGGCCCCAACGGCGAACGCCAGTACGCCCAGCACGTGCATTACCAGATGCACGATGCCAACGGGCAGCGGGTCAGCCCGGAGACCTGGTGGAACCAGGGCCGCCAGGTCGAGACCGGCGGACAGCCGGCGCATGCCGGCGGCACGCTGCGCCACGGCGACCGCAGCGACGAGGTACGCGGCCTGCAGCAGCAGCTCAACCAGCTTGGCGTGCGCGACGCGCATGGCAAGCCGCTCGGCGAGGATGGACGCTTCGGCGACAACACCCGCGCCGCGGTGCAGGCGCTGCAGGAACAGCACGGACTAAGCAAGGATGGCGTGGTCGGTCCGGCCACCCACAAGCTGCTGCAGCAGCTGCAGCAGGAGCGCACGCAGGCGACGCAGGGACCCGGCCTGGACGATGCGGCGCACCCGAACCACCAGTTGCACCAGGCGATCCGCGCCCAGCTGCCTTCGCCGCTGTCCAACGATGCCGCCGCGCATGTGACCGCGCAGGCGGTCCGGGCCGGGATCGACAGCCCGGACAAGCTGCGCGGGGTGGCGGTGCAGGACAACAACGTGCACGTGCTCGGCAACGTGCCGGGGTTCCGGGCCTCGGTGGACCTCAGCCAGGCGCCGCCGCCGGCGCAGCAAAGCGCCTCGCAGCTGCTCGCCGACGCCGCGGCGACGCAGCAGCACCAGGAGCGCCAGCAGGTGGCGATGGGCGGGCGCTGA	MSNDPIYTDLVQPRGPGYRSENIKPWSHYREPIDSGDGQLHGESRRWGDASAQTQSRVIDSLIDASRDAGLSSRETAYVLAIARIESGFNPDAAAGTTSASGLGQFIDRTGAHYGVDNSNRFDVQTQSQALVQHFIDNRDLAHSRGQGEDYIYKYHHDGPSRDYGGLGLSRREVAPYLDRYEQFVQQRLSQTQQHDGHAPTVPPPAAAAPSAPASTRSDFQQTMERMLPGQGGVDPHITGHYGEHRGSRGPHGGTDFNYEGGQAGRNLQHPTVHAPIGGVVTFSGGQYGTVKIRDAQGNSHEILHLDARSVKEGQTVQAGDPIGTMGGRGPNGERQYAQHVHYQMHDANGQRVSPETWWNQGRQVETGGQPAHAGGTLRHGDRSDEVRGLQQQLNQLGVRDAHGKPLGEDGRFGDNTRAAVQALQEQHGLSKDGVVGPATHKLLQQLQQERTQATQGPGLDDAAHPNHQLHQAIRAQLPSPLSNDAAAHVTAQAVRAGIDSPDKLRGVAVQDNNVHVLGNVPGFRASVDLSQAPPPAQQSASQLLADAAATQQHQERQQVAMGGR	PGPT0012140_11	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012140-putative_chitinase-K03791	NA	NA
BMS020_07621	552			hypothetical protein	ATGCGGCGATCCCTTGCCCTCCCGCCAGCCCTCGGCCTGACGCTGCTGCTCGCCGCCTGCGGCGGCGCTCCCGCCCCCTCGGACCAGGCCACGGCGCAACCGGCGCCGGCCGCGCCCGCTTCGACCGAAACCGCCACACAAGGACAGACCGGCATGATCAAGCAGTGCGCAGGCGCCCGCCTGCACCTGGTCGCGCTGCCTGCGCAGGGCGATGCCGCCCCGACCAGGACGCGCGTGGAACTGGAACGCGATGGCCAGCGCCAGGCGCTGACGCCGCCGGCCGAGATGGCCGACTACACCGCGGTGGGCATGGGCTGCGCCGAGGACGGCAAGGGCGCCGCCTATGTCGTCGTGCAGTTCGGCGAGCTGCCCTACGGCTGCGAATTCTGCGAGTGGTTCTTCCTCTACGACCTCAACGGCGAGCTGCTCAACCACGCCACCCCGCCGCTGCGCGACGACGCCGGTGGGCAGAGCCCGAACAACGACGACTACGAACACCAGCTCGAGGCGCTGGGCCTGCGGCATCCGCAGATCACGCCGTTCCAGCCCTGA	MRRSLALPPALGLTLLLAACGGAPAPSDQATAQPAPAAPASTETATQGQTGMIKQCAGARLHLVALPAQGDAAPTRTRVELERDGQRQALTPPAEMADYTAVGMGCAEDGKGAAYVVVQFGELPYGCEFCEWFFLYDLNGELLNHATPPLRDDAGGQSPNNDDYEHQLEALGLRHPQITPFQP				NA	NA	NA	NA	NA
BMS020_07622	516			hypothetical protein	TTGGTCTCCATCCGCATCTTGTCGTCCGCGCTGGCACTGAGTCTGGCACTGGTTGCCTGCAAGCCGCAGGCACAGCCGCCTGCCGAGGCCGCCACGCCCACCGCCCCGGCCCCAGCGCCCACCGCCCCGGCCCCAGCGCCCGCCGACGCTCCCGCCGCGGCGAGCGCGCCGGCCTGCCCCGATGCCAGCTTCGAGGACTTCCTGGCCCGCTTCAGCGCCGACATCGCCGTGCAGGAAAAGGCCACGGCCGATCCGTTGACGATGATCCAGATCGATGCAGACGCCCAGCCCGAACCGGCGCAGGTCAGCCGCGAGGTCCCACTGGCCGAGGTCGAATGGCCGGTTATCCCGAACCTGCAGGCGGCCCGCACCGGCGGGCGCGAGGTCGTGGTCTCGGAGAACGCCGATGGACGCCAGGTCCTGGTGCGCACGCCCAATACCGGCGACCAGCAGGTCTACCACTTCGCGCAGCGTCCATGCTGGACCCTGGTGAAGGTGGACGACCAGTCCATGTAA	MVSIRILSSALALSLALVACKPQAQPPAEAATPTAPAPAPTAPAPAPADAPAAASAPACPDASFEDFLARFSADIAVQEKATADPLTMIQIDADAQPEPAQVSREVPLAEVEWPVIPNLQAARTGGREVVVSENADGRQVLVRTPNTGDQQVYHFAQRPCWTLVKVDDQSM				NA	NA	NA	NA	NA
BMS020_07623	927	purC_2	COG0152	Phosphoribosylaminoimidazole-succinocarboxamide synthase	GTGTCGACCACGCTGTTGCAATCCGATCTCCCCGGCCTGCCCCTGCGTCACCGTGGCAAGGTCCGCGATGTCTTCGACATCCCCCGCGAGCGCCTCCCCGCCGACGTCCCGCCCGGCGACTACTTGTTGATGGTCGCCACCGACCGCCTGTCGGCGTTCGACGTGGTGCTGCCCGACCCGATCCCGGGCAAGGGCGAGATGCTGTGCCAGGTCTCCAATTTCTGGTTCAAGCAGACCGAACACCTGATGCCCAACCACCTGACCGGCATCGACGTCGCCAGCGTGCTGCCGGACGGCGTGGACACCGCGCTGTACGCCAAGCGCGCGGTGGTGACCAAGAAGCTCAAGCCGGTGCCGGTGGAAGCGATCGCCCGTGGTTACCTGATCGGCAGCGGCTGGAAGGACTACCAGCGCACCGGCAAGATCAGCGGCATCGAACTGCCCGACGGGCTGCGCCAGGCCGAGAAGCTGCCGGAACCGATCTTCACCCCGTCGACCAAGGCCGCCGTCGGCGATCACGACGAGAACATCGACTTCGACGCGATGGTGAAGGCGGTGGGCGCCGAACTGGCCGAGCGCGTGCGCGACGCCACGCTGCGCATCTACCGCTTCGCCGCCGAGTACGCGGCCGAGCGCGGCATCCTGCTGGCCGACACCAAGTTCGAGTTCGGCACCGATGCCGACGGCCGCCTGTACATCATGGACGAGATGCTGACCCCGGATTCCTCGCGCTACTGGCCGGCCGACGAGTACGAGGTGGGCACCAGCCCGCCGAGCTACGACAAGCAGTTCGTGCGCGATTACCTGGAGACGCTGGACTGGGGCAAGACCGCGCCCGGCCCGACGCTGCCGGCCGAGGTGATCGCCCGCACCCGCGCCAAGTACGCCGAGGCGCTGCAGCGCCTGGCCGGGATCAGCATCGACTGA	MSTTLLQSDLPGLPLRHRGKVRDVFDIPRERLPADVPPGDYLLMVATDRLSAFDVVLPDPIPGKGEMLCQVSNFWFKQTEHLMPNHLTGIDVASVLPDGVDTALYAKRAVVTKKLKPVPVEAIARGYLIGSGWKDYQRTGKISGIELPDGLRQAEKLPEPIFTPSTKAAVGDHDENIDFDAMVKAVGAELAERVRDATLRIYRFAAEYAAERGILLADTKFEFGTDADGRLYIMDEMLTPDSSRYWPADEYEVGTSPPSYDKQFVRDYLETLDWGKTAPGPTLPAEVIARTRAKYAEALQRLAGISID	PGPT0021565_1143	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021565-purC-K01923	NA	NA
BMS020_07624	330	djlA_2		Co-chaperone protein DjlA	ATGCCCTGGTACGGAAAACTGCTCGGCGCCCTGCTCGGCGCGCTGCTGTTCCGCGGTTCGCCGTCGGTCGGCGTGCTGCTGGGTCTGCTGGTCGGGCACGCGGTCGACGCCGGTTGGTTCAGGGCGCGCCGCGACAACCCCTACCAGGCGCTGGGGCTGACCCCGGACGCCACCAATGCCGAGATCGAGCTGGCCTACCGCCGGCTGATGTCGCAGTACCACCCCGACAAGGTCGCGCGCGCCGAGCCCGAGCTGCGCCGCCAGGCCGAACGCCGCGCCAGCGAGATCAACGCGGCCTACGACCGCATCCAGCGCCTGCGCCGGCGCTAG	MPWYGKLLGALLGALLFRGSPSVGVLLGLLVGHAVDAGWFRARRDNPYQALGLTPDATNAEIELAYRRLMSQYHPDKVARAEPELRRQAERRASEINAAYDRIQRLRRR				NA	NA	NA	NA	NA
BMS020_07625	690	rpe_2	COG0036	Ribulose-phosphate 3-epimerase	ATGTCCGACTGCATCATCGCCCCGTCCATCCTGTCCGCCGATTTCGCCCGCCTCGGCGAGGAAGTGGACAACGTGCTCGCCGCCGGTGCCGACTGGGTGCACTTCGACGTGATGGACAACCACTACGTGCCCAACCTGACCATCGGCCCGATGGTCTGCCAGGCGCTGCGCAAGCACGGCGTCACCGCGCCGATCGACGTGCACCTGATGGTCGAGCCGGTGGACCGCCTGGTGCCGGATTTCGCCGAGGCCGGTGCCACCTTGATCAGCTTCCACCCGGAAGCCAGCCGCCATGTCCACCGCACCATCCAGCTGATCAAGTCGCATGGCTGCCAGGCCGGGCTGGTGCTCAACCCGGGCTCGCCGCTGGAGCTGCTGGACTGGGTGCTCGAGGATGTCGATCTGGTGATGCTGATGTCGGTCAATCCCGGCTTCGGCGGGCAGAGCTTCATCCCGTCCACGCTGGACAAGCTGCGCGCGCTGCGGGCGATGATCGACAAGACCGGCCGGCCGATCCGGCTGGAGGTGGATGGCGGGGTCAAGGCCGACAACATCGGCGAAATCGCCGCTGCCGGTGCCGATACGTTCGTCGCCGGTTCGGCGATCTTCCGCGAGCCGCGTACCCGCGACGCGTATGCGCAGACCATCACGTCCATGCGCGCGGCAGTGGCCGAGGCCAAGCGCGCGTGA	MSDCIIAPSILSADFARLGEEVDNVLAAGADWVHFDVMDNHYVPNLTIGPMVCQALRKHGVTAPIDVHLMVEPVDRLVPDFAEAGATLISFHPEASRHVHRTIQLIKSHGCQAGLVLNPGSPLELLDWVLEDVDLVMLMSVNPGFGGQSFIPSTLDKLRALRAMIDKTGRPIRLEVDGGVKADNIGEIAAAGADTFVAGSAIFREPRTRDAYAQTITSMRAAVAEAKRA	PGPT0017425_1621	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
BMS020_07626	504			hypothetical protein	GTGAGTGCGCCGCACATCCGCAGCGCCACGCCGGACGACGCGCCGCTGCTGCACGAACTGGTCACCGCGCTGGCGGTCTACGAGCGCGAGCCGGATGCGGTCAAGGCCAGCGTCGAGGACCTGCGCACCAGCCTGTTCGGCAATGGCGCCACCGCGCATGCACTGGTCTGCGAGGTCGACGGCGTCGCGGTCGGCTTCGCGGTGTACTTCTTCAATTACTCGACCTGGCTGGGCCGCAACGGCATCTACCTGGAAGACCTGTTCGTGCGCCCGGAATATCGTGGTCACGGCGCCGGGCTGGCGCTGCTGCGCCATCTTGCGCAGCTGGCGGTCGAGAGGCACTGCGGGCGCTTCGAATGGTCGGTGCTGGACTGGAACCAGCCGGCGATCGACTTCTACCGCGCCGCCGGTGCCAAACCCATGGACGAGTGGACCGTGCATCGGCTGGAAGGGCAGGCGCTGGTCGAGTTCGCCGCAGGCGTCCGTCCCGCCGCGCGCGGCTGA	MSAPHIRSATPDDAPLLHELVTALAVYEREPDAVKASVEDLRTSLFGNGATAHALVCEVDGVAVGFAVYFFNYSTWLGRNGIYLEDLFVRPEYRGHGAGLALLRHLAQLAVERHCGRFEWSVLDWNQPAIDFYRAAGAKPMDEWTVHRLEGQALVEFAAGVRPAARG	PGPT0007790_1103	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
BMS020_07627	945	yegS_2	COG1597	Lipid kinase YegS	ATGACTCCAGCGCATTGGCGATTGATCCTCAACGGCAAGGCTGCCGGCGACGAGGCGCTGCGTGCGGCGGTCGGCGAGATGCGTGCGCAGGGCGTGACCATGGATGTGCGGGTGACCTGGGAAGCCGGCGATGCCGAGCGCTACGTCGCCGAGGCGATCGCCGACGGCGTCGGCACCGTGCTGGCCGGCGGTGGCGACGGCACCCTCAGCGAAGTGGCGACCACGCTGGCGCATCGCGACGAGGCGTGTACGGAGCTGCCCAGCCTCGGTCTGGTGCCGCTTGGCACTGCCAACGACTTCGCCAGCGCGGCCGGCGTTCCCGTCGATGCCGCCGCGGCGTTGCAGCTGGTGCGGACCCGGCCGGCGGTGCCGATCGACCTGTTGCGGGTGCAGGCCGAGCATGGTCCGCACTGGTGCGCCAATGTCGCCAGCGGTGGCTTCGGCACCCAGGTCACGGTGGAGACCGACGAAGGGCTGAAGAAGATGCTCGGCGGCCTGGCCTACCTGATCACCGGCATGGCCAGGCTTGGCCGCATCGAGCCGGTGCGCGCGACGATCCGCGGGCCGGATCTGCGCTGGGAGGGCGACTTCATTGCGTTGGGTATCGGCAACGGCCGCCAGGCCGGCGGCGGGCAGGCGCTGTGTCCGGATGCGCGGATCGACGACGGCCTGCTCGACCTGACCATCGTGCCCGAGCTGAGCGGCGAGGTGGCCGGCACCCTCGGCGCGCTGGTGACTGGCGGCAAGCGTGCCGCGCTGGAACGCATCGCCGTGCGCACGCAGCTGCCATGGCTGGAGATCGATGCGGCCGAGCCGCTGACGCTCAACCTCGACGGCGAACCGGAGACGTCGCGCCACTTCCGCATCGACTGCTGTCCCGGGCGGCTGCGCATGCACCTGCCGGCCGAGTGCCCGTTGCTGGGAAGCACCGCCGCGGCGGCCTAG	MTPAHWRLILNGKAAGDEALRAAVGEMRAQGVTMDVRVTWEAGDAERYVAEAIADGVGTVLAGGGDGTLSEVATTLAHRDEACTELPSLGLVPLGTANDFASAAGVPVDAAAALQLVRTRPAVPIDLLRVQAEHGPHWCANVASGGFGTQVTVETDEGLKKMLGGLAYLITGMARLGRIEPVRATIRGPDLRWEGDFIALGIGNGRQAGGGQALCPDARIDDGLLDLTIVPELSGEVAGTLGALVTGGKRAALERIAVRTQLPWLEIDAAEPLTLNLDGEPETSRHFRIDCCPGRLRMHLPAECPLLGSTAAAA				NA	NA	NA	NA	NA
BMS020_07628	1476	trpE_2	COG0147	Anthranilate synthase component 1	TTGATCACTGCCGAGCAGTTCCAGCAGCAGGCCGCTGAAGGCCACACCCGCATCCCTGTCGTCCGCGAAGTGCTGTCCGACCTGGACACGCCGCTCTCGGTTTACCTGAAGCTCGCCGACGGCCCCTATACCTATCTGTTCGAATCGGTCGAGGGCGGCGAGCGCTTCGGGCGCTATTCGATCATCGGCCTGCCGGCGCGGCGCGTGTACAGCTTCCGCGGCCATACGCTCGAAGTGAGCGAGCTGGGCGAGGTGGTGGAAACCCGCGAGGTCGCCGATCCGCTGGCCGAGGTCGAGGTGCTGCGCGCCGAGCATTCGGTGCCGAAGATCGACGGCCTGCCCGGCTTCACCGGCGGCCTGGTCGGTTGGTTCGGGTTCGAGTGCATCGGCTACATCGAGCCGCGCCTGGCCGCCGGCGACAAGCCCGACGAGCTCGGTACCCCCGACATCCTGCTGATGCTGTCCGAAGAGCTGGCGGTGTTCGACAACCTCAAGGGCCGGCTGTACCTGATCGTGCACGCCGACCCGCGCCAGCCGCAGGCACTGGCACGCGCCAACCGGCGCCTGGACGAACTCGCGCACCGGCTGCGCCAGGCCGGCGCTGGCTATCCGCAGGCGCAGGTGTCCGACGCGATCGACGAAGGCGATTTCCGTTCCTCGTTCACCCGCGAGGAGTACCACGCGGTGGTGCGCACCGCGCAGGAGTACGTGCGCGCTGGCGACATCTTCCAGGTGGTGCCGAGCCAGCGCCTGCGCGTGCCGTTCCGCGCGCGCCCGATCGACGTCTACCGTGCGCTGCGCGCGCTGAATCCGTCGCCGTACATGTACTTCGTCGATGTCGGTGGCACCCAAGTGGTCGGCTCGTCGCCGGAGATCCTGGCGCGGCTGCGCGATGGCGAGGTCACCGTGCGCCCGATCGCCGGTACCCGCCCGCGCGGCGCCACGCCCGAACTCGACCAAGCATTGGAAGCCGAGCTGCTGGCCGATCCGAAGGAGCGTGCCGAGCACGTGATGCTGATCGACCTCGGCCGCAACGATGTCGGCCGTGTCGCCGAAGCCGGCAGCGTGCAGGTCAAGGAATCGTTCGTGATCGAGCGCTACAGCCACGTGATGCACATCGTCAGCGAGGTCACCGGCACGTTGAAGGCGGGCCTGAGCTACGCCGACGTGCTGCGCGCGACGTTCCCGGCCGGCACCGTCAGTGGCGCGCCGAAGATCCGCGCGCTGGAGGTGATCCGCGAGCTGGAGCCGGTCAAGCGCAACGTCTATTCCGGCGCGGTCGGCTACATCGGCTGGCACGGCGATGCCGACACCGCGATCGCGATCCGCACCGCGGTGATCCAGGACGGCCACCTGTACGTGCAGGCCGGCGGCGGCGTGGTCTACGACTCCGATCCCGACCTGGAATGGCAGGAAACGATGAACAAGGGCCGCGCGCTGTTCCGCGCGGTGGCCCAGGCCGCCAAGGGGCTGTGA	MITAEQFQQQAAEGHTRIPVVREVLSDLDTPLSVYLKLADGPYTYLFESVEGGERFGRYSIIGLPARRVYSFRGHTLEVSELGEVVETREVADPLAEVEVLRAEHSVPKIDGLPGFTGGLVGWFGFECIGYIEPRLAAGDKPDELGTPDILLMLSEELAVFDNLKGRLYLIVHADPRQPQALARANRRLDELAHRLRQAGAGYPQAQVSDAIDEGDFRSSFTREEYHAVVRTAQEYVRAGDIFQVVPSQRLRVPFRARPIDVYRALRALNPSPYMYFVDVGGTQVVGSSPEILARLRDGEVTVRPIAGTRPRGATPELDQALEAELLADPKERAEHVMLIDLGRNDVGRVAEAGSVQVKESFVIERYSHVMHIVSEVTGTLKAGLSYADVLRATFPAGTVSGAPKIRALEVIRELEPVKRNVYSGAVGYIGWHGDADTAIAIRTAVIQDGHLYVQAGGGVVYDSDPDLEWQETMNKGRALFRAVAQAAKGL	PGPT0007095_3456	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
BMS020_07629	1071	ltaE_2		Low specificity L-threonine aldolase	ATGGACGGGCAGGGCAGTGGTGCGCGGATCAGCTTCCGCAACGACTACAGCGAGGGCGCGCATCCGCGCGTGCTGCAGGCGCTGGCCGCGGCCGGTGCCGAGCAGAACGCCGGCTACGGCCTGGACCGGCACAGCCTGCGTGCGGCCGAGCTGATCCGTGGCGCCTGCGCGCAGCCCGATGCCGCGGTGCATCTGCTGGTCGGCGGCACCCAGACCAACCTGGTGGCGATCGCCGCGTTTCTCCGCCCGCACCAGGCGGTGATCGCCACCGAGCACGGCCACATCGCCACCCACGAGACCGGCGCGATCGAGGCGACCGGGCACAAGGTGCTGGTGGCGCCATCGCACGACGGCAAGCTGACCCCGGCGGCGATCGAAGCGCTGCTCGCCACCCACGGCAACGAGCACATGGTGCAGCCGAAGCTGGTGTACGTGTCGCAGAGCACCGAGTTCGGCACCGTGTATGCGCTGGCCGAACTGCAGGCGCTGGCCGCCTGCTGCCGCGCCCACGAACTGCTGTTCTTCATCGATGGCGCGCGCCTCGGCGTGGCGCTGGCCGCGGCCGGCAACGACGCCAGCCTGGCCGACATCGCCGCGCTCGCCGATGCGTTCTACATCGGCGGCACCAAGAACGGCGCGCTGCTCGGTGAGGCGCTGGTGATCGTCAACCCGGCGCTGCAGGCCGATGTGCGCTACCTGATCAAGCAGCGCGGCGCGCTGCTGGCCAAGGGCATGGTGCTGGGCGCGCAGTTCTGTGCGCTGTTCGAGGACGGCTTGTTCCTCGAACTCGCCGCGCATGCCAATGCGATGGCGCAGCGCCTGCGCGAAGGCCTGGCCGCGGCCGGTGCGCGCTTCACCATCGATTCGCCGACCAACCAGCAGTTCGTCGCAGTGACTCCGGCGCAGCTGGATGCGCTGGCGCGCCGCTACGACTTCGAACGCTGGGAACAGCGCGCCGACGGCGAGGTGCTGATCCGCTTCGTCACCTCGTGGGCGACGCTTGTCGGCGACGTCGATTGCCTGTGCCGCGATTTCGCCGCGATGGCGCGTGGCGCCGCCGCGCCCCACTGA	MDGQGSGARISFRNDYSEGAHPRVLQALAAAGAEQNAGYGLDRHSLRAAELIRGACAQPDAAVHLLVGGTQTNLVAIAAFLRPHQAVIATEHGHIATHETGAIEATGHKVLVAPSHDGKLTPAAIEALLATHGNEHMVQPKLVYVSQSTEFGTVYALAELQALAACCRAHELLFFIDGARLGVALAAAGNDASLADIAALADAFYIGGTKNGALLGEALVIVNPALQADVRYLIKQRGALLAKGMVLGAQFCALFEDGLFLELAAHANAMAQRLREGLAAAGARFTIDSPTNQQFVAVTPAQLDALARRYDFERWEQRADGEVLIRFVTSWATLVGDVDCLCRDFAAMARGAAAPH	PGPT0020465_633	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020465-ltaE-K01620	NA	NA
BMS020_07630	774			hypothetical protein	ATGAAGACGATCGGATCATGGATGTTCGCGGGCCTGCTTGCATTGCCGCTGCTGGCATCGGCGCAGGTCAACAGCCTGCCGTCGCAGCCGCACCTGCTGGTGAAGGGGGAGGCGGAGCAGAAGGTGGTGCCCGACCGTTTCGCAATCACCATCACGTTGCGCGTGGTCGACATGCAGCCTGAAGCGGCGCGCAAGCATGTACAGGAAAAGGTCGCGGCGATCCTTGCCGCGCTCAAGGCGCACCACGCAATCGGCGGCGAGATCGAGGCCTCGGCGTTATCGATCGCGCCGGCATACCGGTTTGAGAATAGCAAGCGGATCTTCGAGGGGAGCGAGGTCAAGCGGACGTTGGGTGCACGATTCGCCGCGCTGGAAGACGCGCGCGGCTTTCTCGGCACGCTTCAGACGTCGGAGCAAGTCCAGCTGTCCGGCATTGTGCCCACGTACAGTCGCGAGGCCGAAGTCCGCGCTGGGCTGAAGCATGAGGCTGCTCAGCAGACACGTCGTTCCGCGGATGCGCTTGCAACGGCGTACGGGGTGAAGCTTGGTGGCATCTACACCATCTCCGATATTGCGCCCGATTTCGCCTATGGCGTCCAGGCTGGCACGTGGCCAGGCGCAAGGATTGTGTTGCCGCCGAGTCCGCCGGCGCCGAGTCATTCCGTGTCAGGCGATGCCAGGGCGGCCGATCTCGTCGCCGAGGCCGAATCCCTCGAAGCCGGCAGCATCACCCTTACCGAAAACGTCTACGCGGTCTTCCTGATCGCACAATGA	MKTIGSWMFAGLLALPLLASAQVNSLPSQPHLLVKGEAEQKVVPDRFAITITLRVVDMQPEAARKHVQEKVAAILAALKAHHAIGGEIEASALSIAPAYRFENSKRIFEGSEVKRTLGARFAALEDARGFLGTLQTSEQVQLSGIVPTYSREAEVRAGLKHEAAQQTRRSADALATAYGVKLGGIYTISDIAPDFAYGVQAGTWPGARIVLPPSPPAPSHSVSGDARAADLVAEAESLEAGSITLTENVYAVFLIAQ	PGPT0012980_335	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012980-yggE-K09807	NA	NA
BMS020_07631	1194	intS_4	COG0582	Prophage integrase IntS	ATGCCGCTGACCGATGCCAAGATTCGAACTGCCAAGCCCGGCGTGAAGCCGGTCAAGCTGCCCGACGGAGCTGGCTTGATCCTTGAGGTTCGCCCGAGCGGTTCAAAGCTGTGGCGCTATCGGTACAGGATCGGTGGCAAGGAGAACGTCTACGCACTCGGTGAGTATCCGGACGTCTCACTTCAAGAGGCCCGCTTGGAGCGGGATAGGGCCAGGTCTCTAGTCAAGCAAGGCGTGCATCCCGCGCACGAGCGCTCAAAGGCGCGCGCTGAAACCATCGCCGCGAACGGCGATACGTTCAGGGCGATGGCAGAGGAGTGGATCAGTGATGGACGTGCGCGATGGACTGCCTATTACACCGGTCAGATCGAGTCTTACTTTCAGCGCGATGTCTACCCAAAGATCGGCAAGCGACCGATGCGGTCGATCATTTCCGCTGACATCCTTGAGATCATCAAGTCGATATCGGGACGAGGGGCCAAGGCTGCGGCAATCAATGTGCGGCAGTGGATATCAGCGGTTTTCTGCCATGCCGTAGCCAACCTAAAGGCGGATGCGGATCCTGCTGCCGCGCTCCGCCGGACCGTTCTGCGGGGGCCGATTCAGCATGCCAGATCGCTCAGCGATCAAGAGATCGAGACGTTCTATAGCCGTCTTGCTCACTTCAGGGGTAACAGGACCACCGCCATTGCCCTTCGACTTCTGCTGCTCATGTGGACGCGTACTGCTGAGCTGCGGAAGGCCGAGTGGGCAGAGTTCAACGTAGAAGCAAGGCTGTGGACAATTCCTGCGGGGAGGATGAAGCGCAGGCGGAAGCATCTCGTGCCTCTGTCGCCGCAGGCAGTAAGCCTCCTTGAAGAACTGAAAGAAATATCCGGGTCCGGCAAATACCTCTTCCCCAACACGCGGCGCCCGCGAGACGTCATGAGTGCGACGACAATCAATCGAGCCTTGGAGCACATGGGATTCTCGTCAGGCGACGTTACTGGTCATGATTTCAGGGCGACCGGATCGACCCACATGCTTGAGATGGGTTACGGCAAGGAGGTAGTTGAGGCGCAACTGGCCCACGCCAAAAAGAGTCGAACTGACGCAGCGTATGATCATGCCGTGTATTTGAAAGCTCGAGCAGAGATGCTTTGTGCTTGGGCGGATAGGCTCGATGGTCTTGATCGGTCTTCGCATCAGCGATGA	MPLTDAKIRTAKPGVKPVKLPDGAGLILEVRPSGSKLWRYRYRIGGKENVYALGEYPDVSLQEARLERDRARSLVKQGVHPAHERSKARAETIAANGDTFRAMAEEWISDGRARWTAYYTGQIESYFQRDVYPKIGKRPMRSIISADILEIIKSISGRGAKAAAINVRQWISAVFCHAVANLKADADPAAALRRTVLRGPIQHARSLSDQEIETFYSRLAHFRGNRTTAIALRLLLLMWTRTAELRKAEWAEFNVEARLWTIPAGRMKRRRKHLVPLSPQAVSLLEELKEISGSGKYLFPNTRRPRDVMSATTINRALEHMGFSSGDVTGHDFRATGSTHMLEMGYGKEVVEAQLAHAKKSRTDAAYDHAVYLKARAEMLCAWADRLDGLDRSSHQR				NA	NA	NA	NA	NA
BMS020_07632	1101			hypothetical protein	ATGGCCTATGTTTTTAACTATGCAGATCGCTATATTGGTGGGAACGGAAACGACAGCTACTTCCTGAACTACACATACTTCTCGACAGCGAGCCCATACACCGCGACCACCCTCACTATCGAGGAAGAGGCGGATGGTGGTGTTGACACCCTCTACACCAACTTCTACCACGCCACGATCGGCACCAACATCGAGAACCTGGTCTACACCCCGGCCAACTTCTGGTGGTCCGATATTCCCGCCCAGCTGACTGGGAATTCGTTGGACAATGTGCTCCAGGTCGTGGCGGGAAGCCCCATTCTTGATATGTCGGCCCTCAAGTTCCGTTTTGACGGAGGCGGCGGCAAGGACACCTACATGGGCTCGGCTGCCCAGGACACGTACGTCGTCGACAGCGCGGACGACACCATCATCGAGCAGCAGACCGGTTACGACTCGATCGATACTGTCGAGACCAGCCTGGACTACTCGATCGAGACACGTCTGGATCTGGAGAACATTCGCTTGACCGGCAGCGTAACGACGGCGACCGGCAACAGCGACGACAATGTCCTGAAGGGCAACAAGTTCAGCAACGAGATCAGAGGTGGAGAAGGTGATGACGTCATCTGGGGCTATTCGAAGAATCCTTACGACAGCGACGTTTCCAGCTCCTCACAGCGGGATGTTCTCTATGGAGACGCCGGAAATGACACGATCACCTCCTCGATCTACGGAGCGGACCTGCATGGTGGTGCGGGTGATGACCTGCTGATCGGTGTTGGTGGCGCATACGTATCCGGAACTTACAGGAGCATATACGGCGTCGGCGATCGACTCTTCTATGACGCGGGCGGTGGCACTGACACTATTCGGTTCTGGAACAGTAGCGCCGATGACTTCGACCAAGTCATCTTCGGAGAAGGCATTGATCCGGATGGGTTCACCCCCGTTTTCACGGACACTTACGAGAAGGCCGATTCAGGCCATGAGGAGTGTTCATGTCGAAGCGACGGAAGTTCAGTGCCGAGTTCAAGCGCGGTGCGGTTGAGCAGGCCAGCCAGCCTGGTGTCAGTTGCGCCCAGGTGGCGCGGGAATTGGGGATCCGCGACACCTTGCTGA	MAYVFNYADRYIGGNGNDSYFLNYTYFSTASPYTATTLTIEEEADGGVDTLYTNFYHATIGTNIENLVYTPANFWWSDIPAQLTGNSLDNVLQVVAGSPILDMSALKFRFDGGGGKDTYMGSAAQDTYVVDSADDTIIEQQTGYDSIDTVETSLDYSIETRLDLENIRLTGSVTTATGNSDDNVLKGNKFSNEIRGGEGDDVIWGYSKNPYDSDVSSSSQRDVLYGDAGNDTITSSIYGADLHGGAGDDLLIGVGGAYVSGTYRSIYGVGDRLFYDAGGGTDTIRFWNSSADDFDQVIFGEGIDPDGFTPVFTDTYEKADSGHEECSCRSDGSSVPSSSAVRLSRPASLVSVAPRWRGNWGSATPC				NA	NA	NA	NA	NA
BMS020_07633	861			IS3 family transposase ISStma5	GTGATCGAACGTTGCCGCGATGCGTTTCCGATTCGCCTGATGTGTCGGTGCCTGAAGGTCTCGACCAGTGGCTACTACGATTGGAGCAAGCGATTGCCCAGCGCCCGCGAACGCGACAACCAACGTCTGCTCGGCAGGATCCGTGAGCTGCACGAGGACAGTCGGGGGACGTTGGGGGCTGGCCGGATGCAGGAGGATCTTGCCGAGGCTGGCGAAAAGGCGAGTCTGAACCGAGTGGCGCGCCTGATGGCCGCTAACAGCCCGCAGGGTTGCCCTCGGCCCAAGCGCCGTGGCCAGCGTGCCCAGCCGGCGTCGACACCACCAGGGGTGCGCAACTTGCTGGAGCGGGATTTCATCGCGCTGGAGCCGGAGACCAAATGGGTGACCGACATCACCGAGATCAAAACCAGCCAAGGCAAGCTGTACCTGTGCATCGTGCTGGATCTGTTCGACCAGCGTGTGGTGGGCTGGTCGATGCACCACCGTCAGGACCGGCAGATGGTGATCCGGGCGGTGCAGATGGCGGTGTGGCAGCGCCAAGGCGATCACGAGGTGATCCTGCATTCGGATCGCGGCAGTCAATTCCGTAGCGGCGACTACCAGCGATATCTGGCAACCAACGGTCTGGTGTGCTCGATGAGCGCCGTGGGGCACTGCGGCGATAACGCGGCCTGCGAAGGCTTTTTTGGCCTGCTCAAGCGAGAGCGTGTCTACCGATCGAGCTACACGACGCTGGAAGCGGCAAGAGCCGATGTGTTCGAATACATCGAGCGACGGCACAACCCGAGAATGCGACGAAGGGTTGCCAAGCAAGACAGCAAGTTCAAAGCCCTTTTACAACCGTCCGTGATTTCGGGGTAG	MIERCRDAFPIRLMCRCLKVSTSGYYDWSKRLPSARERDNQRLLGRIRELHEDSRGTLGAGRMQEDLAEAGEKASLNRVARLMAANSPQGCPRPKRRGQRAQPASTPPGVRNLLERDFIALEPETKWVTDITEIKTSQGKLYLCIVLDLFDQRVVGWSMHHRQDRQMVIRAVQMAVWQRQGDHEVILHSDRGSQFRSGDYQRYLATNGLVCSMSAVGHCGDNAACEGFFGLLKRERVYRSSYTTLEAARADVFEYIERRHNPRMRRRVAKQDSKFKALLQPSVISG				NA	NA	NA	NA	NA
BMS020_07634	957			hypothetical protein	ATGCACCTCGTGGAATCAATGGCATTCGCAGGCCAAGCGCCTTGGCACGGCCTAGGTAACAAGCTGGCAAAACACCAGTCGATAGACGTCTGGAGACGTCAGGCTGGTATGGATTGGGAGATCAAGGCTTCTGAGGTCCGCTATAGCACCGAATCGCGGGCTTCAGCGGCGGGCAGTGTCTTTCCGGATCAGAAGGTGCTCTATCGCTCGGATACCAAGGCGCCGTTAGCCGTGGTGTCCAAGCGCTTCCAGGTCGTCCAGCCGGGTGAGATCCTCGAGTTCTACCGGGATCTGACTGCACTACATGGCTTTGAACTGGAAACAGCTGGTGTCCTGCGCGGTGGTAGGAAGTTCTGGGCCTTGGCCAGAACAGGGCAGAGTGTCACGCTCAAGCGCAAGGATAGGGTGGATGGGTATCTGCTCCTCGCAACGGCCTGTGATGGGACACTGGCGACGACGGCTCAGTTCACCTCCGTCCGGGTGGTCTGTAACAACACCCTGCAGATCGCCGTCGGTCAGCGTAACGGCGCGATCAAAGTGCCGCACCGCAGCCAGTTCCAGCCTGACGACATCAAGCGGCAGTTGGGGATCACGGTCGCAGCTTGGGATGGCTTCGTCGATCGGATGAAGTCGCTATGCGACCGGCCGGTGGATCCGGACTCGGTTGATGGGCTTTTGCGGCGTGTGCTGGTGTATGGGGCGCCGGGGGCTGCAGTACCCGTGGTGAACGAGCAGGCAGTGGCTGGTGTCCGCGCACTGTACGAAGGTGGCGGGCGTGGGGCAATGCTTGCCTCCAGCCGTGGGACCGCCTGGGGCGTATTGAACGGCCTGACCGAGTTCGTCGACCACCATCGGCGGGCACGCAGTGATGACCACCGGCGTGATGCCGCCTGGTTCGGACAGGGGGCGGCAATCAAGCAGCGGGCCTGGGATGAGGTCATGAGGCTTGCCATATGA	MHLVESMAFAGQAPWHGLGNKLAKHQSIDVWRRQAGMDWEIKASEVRYSTESRASAAGSVFPDQKVLYRSDTKAPLAVVSKRFQVVQPGEILEFYRDLTALHGFELETAGVLRGGRKFWALARTGQSVTLKRKDRVDGYLLLATACDGTLATTAQFTSVRVVCNNTLQIAVGQRNGAIKVPHRSQFQPDDIKRQLGITVAAWDGFVDRMKSLCDRPVDPDSVDGLLRRVLVYGAPGAAVPVVNEQAVAGVRALYEGGGRGAMLASSRGTAWGVLNGLTEFVDHHRRARSDDHRRDAAWFGQGAAIKQRAWDEVMRLAI				NA	NA	NA	NA	NA
BMS020_07635	516			hypothetical protein	ATGATCGCCTTGGCAGAGTTGCTTGAGGGGGCTATTCGCTGTGAATCCGAGCCGCCGCTGCAGGATGCAGCGCGCGCCCGGGATGATCGGGCGAACGCTCGGGCGTTGCAGATCATCGAGCGGCGTGCAGGTGGAGCAGGGCAATTGCTAAGCGATCCAGAGACCTGCGGCCGCTTCTTCCGGCTGCGACTGGCGGATGAGCAGCGTGAGCACTTCGAGGTCGCCTTCCTCGATACGCGGCACCGATTGATCGGTGCCGAGCGGCTGTTCTCGGGATCAGTTGACCAGTCCACTGTCCATCCGCGCATCGTGGTCCAGCGCGCGCTGGCGGTGAATGCAGCCGCGATACTACTTGCCCACAATCACCCTAGCGGAAACCCGGAGCCCTCGTCTGCAGATCGCATGTTGACGCAGCAGCTGAGGCAAGCCTTGGCCCTGGTCGAGATCAGGGTGCTGGACCACTTCGTTGTAACCAACAGCGCGGCGCTGTCGATGGCCGCGCGCGGCCAGGTGTAG	MIALAELLEGAIRCESEPPLQDAARARDDRANARALQIIERRAGGAGQLLSDPETCGRFFRLRLADEQREHFEVAFLDTRHRLIGAERLFSGSVDQSTVHPRIVVQRALAVNAAAILLAHNHPSGNPEPSSADRMLTQQLRQALALVEIRVLDHFVVTNSAALSMAARGQV				NA	NA	NA	NA	NA
BMS020_07636	582			IS3 family transposase ISXac4	ATGAAGCTCAACCTACGCCGTGCTGCAAAGCGTCGCCTTCCCAAGCGTGAGCGGGTGCCGCTCTACGTGCCGAGGCTGCCAGACACCGTCTTGTCGGTCGACTTCATGAGCGATGCGCTGGCATGCGGACGACGCTTTCGCACCTTCAACGTGGTGGATGACTTCAATCGCGAGGCGCTGCACATCGAGGTTGATACCTCGATCAACTCGCAACGGCTTGTGCGTGTGTTCGAGCAGATCAAACGCGATCACGGCCTGCCTCAGGTGGTGCGCTCTGATAACGGCCCCGAGTTCCTGGGCGAAGCGTTTACCAGCTGGCTCAAGACAAATGGCGTCGCACTGCAGTACATCCAGCCGGGAAAGCCAAATCAGAATGCCTTCATTGAGCGCTTCAATCGCACGTTCCGCGAGGAAGTGCTCGACCTGAATCTCTTCGCCTGCCTCGACGATGTGCGCGAAGCCGCCCACTGGTGGATGATCGACTACAACGAAGCAAGATCCCACGATTCGCTCGGCGGAATGACCCCGGTCGAGTACCGCAACAAGCACGCCGAAAGCTCTACTTTTGAAGTGCCTGCTTGA	MKLNLRRAAKRRLPKRERVPLYVPRLPDTVLSVDFMSDALACGRRFRTFNVVDDFNREALHIEVDTSINSQRLVRVFEQIKRDHGLPQVVRSDNGPEFLGEAFTSWLKTNGVALQYIQPGKPNQNAFIERFNRTFREEVLDLNLFACLDDVREAAHWWMIDYNEARSHDSLGGMTPVEYRNKHAESSTFEVPA				NA	NA	NA	NA	NA
BMS020_07637	396			hypothetical protein	ATGGAGATGTTCGACGGCTTTCCGATTAAGAGTGGTTTTTCTGGCTCCGGCTGGGAGTTGGAGAACTGTGTAGCTATTGCAGCACTACACCCAGCGACCTTCGAGGTGCCGTCGCCTGATGAGGCCGCACTGGCGCAAATGGGTGACTTCCTTAGGCTGCACTTCTTAATTACAGATTCCGAGATCATATCGGATCCGCGGAACCCACGAGCCGAGCGCATGTGGGTCGAGGTGTGCGACCTGCCCGGAAATGGCCTCTTTCGCGGGCACCTCACGAACGCGCCAGTCTTTATTGACTCACTTGAGCTAGGAGACGTCATAGAGTTCAGGTGGGAGCATGTGGCCAAGGTTTACGTCAAAGTTGGCGACCCAAGGCATGCTGATGAACGCGCCTAA	MEMFDGFPIKSGFSGSGWELENCVAIAALHPATFEVPSPDEAALAQMGDFLRLHFLITDSEIISDPRNPRAERMWVEVCDLPGNGLFRGHLTNAPVFIDSLELGDVIEFRWEHVAKVYVKVGDPRHADERA				NA	NA	NA	NA	NA
BMS020_07638	924			IS110 family transposase ISBcen8	ATGACGGCAGTAGGCATCGATGTGGGCAAGGCGGCCTTGGATGTGGCTGTCGAAGGTAAGCCAGGCGTGATGCGGGTGGCCAATTCGGCTGCGGGCATCCGTAAGCTGGTTCGTCAGCTTGTGGGGCTGGACCAGGTTAGGGTCTTGGTCGAAGCGACCGGTGGCTACGAGGAAGCGTTGCTCGAGGCGTGTTGCGACGCGAACGTGTGGATCGCTCGGGTCAATCCTCGGCAGGCGCGTCACTTCGCACGTGCCACCGGCGACGTCGCCAAGACGGATGCCATCGACGCACAGATGCTGTGCTTGATGGCCCGGATGTTCGACGGCCGGCTGCAGCGCTACCATGCGCCACTACCGTGGCAGCGCGAACTGCGCGACTGGCTGCGGCGCCGTGGGCAGGTCGTCGTCGCGCTGCAGGCACATCGGCAGCAGATGGCTATGTGCCCGACCGCGATTCGGCAGTTGGCTGCCAAGACCATCGCCGCGCTGCGCCGCGAGCTTGCAGCGATCGACCAACAGATGCGAGCTCTGCTGGACGCGCATGCGTCACCGGCGCTGGGGTCGTGCAAGGGGCTTGGCCCGGTGTTTCAGGCCACCAGCCTGGCATTGTTGCCGGAGTTGGGGGCGTTGAGTCGTCGCCAGATCGCGCGCCTGGTCGGCGTGGCGCCAATGAACCGAGACAGCGGTCAGAGCGCAGGTGTTCGACGCATCCGAGGAGGACGTGCGCCGGTACGAGTGGCCTTATACATGGCCACGCTTTCGGCCGTGCGTTGGGATGCGATGATGAAGGCGCACTACCAACAACTACGCGCGCGGGGAAAGCTCGCCAAAGTCGCGTTGGTGGCGTGCATGCGCAAGCTTCTGACCATCGTCAACGCGCGTCGTCGGGAAGAGTTGATGAGGGAGGCCGCCAAGCCCAGCTAA	MTAVGIDVGKAALDVAVEGKPGVMRVANSAAGIRKLVRQLVGLDQVRVLVEATGGYEEALLEACCDANVWIARVNPRQARHFARATGDVAKTDAIDAQMLCLMARMFDGRLQRYHAPLPWQRELRDWLRRRGQVVVALQAHRQQMAMCPTAIRQLAAKTIAALRRELAAIDQQMRALLDAHASPALGSCKGLGPVFQATSLALLPELGALSRRQIARLVGVAPMNRDSGQSAGVRRIRGGRAPVRVALYMATLSAVRWDAMMKAHYQQLRARGKLAKVALVACMRKLLTIVNARRREELMREAAKPS	PGPT0030635_4582	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
BMS020_07640	873			hypothetical protein	GTGCGCGAGCAGTCCGTTATCCGAAACCCGCTGACCGTTATCGCGATCTTCGCCGGCATAGCCGAAGTGAGCGGCACTGTAGTGCTCCCGCTGTTGCACGTTCAGCAGCAATCGGTGTTCATGTGGTTTGTCATGGGCTTTCCATGTCTCCTCGTTCTTTTGTTTTTTACAGTTTTGTGGATGAAGCACGAGGTGCTGTATGCCCCGTCCGACTTTCGCGACGATTCCGGTTTTCTTGAAGCACAACGCCGGCGCACCGAAAGCGCAGCCCGCCATGCAAAGTTCATTGAAGACGTAGAGTTCGCCACAGGGGAATCCGAAACGAACAGGCAGCCCGAGCAGGCGGAGCGGCAACCGACGGCAGCGGCGCCGCCAACTCCGACGCCCACGCCAACCGCCACTGTGGCACCAGCCGTACAGGCGCCCACCCTCACTCCCGAGGCAACGCGCGTTGCTCGAGGTAATTACCTGCTAGCGGAGCGGGCAGTTCTCACCAGGCTTCAAAAGGAGCTGCCTGGCGAATTCAACAAAGACACTGTGCTAGTGGTCGACAACGCCGTCTACGCCTTTGACGCTACGTTCCAAGGCTCAGGCTTCATGATCGGCGTAGACGTTAAATATGTGCCCGGTGTGGACTTCAATAAGGGTTTGTTGCGCACCCAGCTTTCCAAACTCGACTCCTTCTACAAAAGCCTTCCCGAAGACGCGCAACGAGGCTTCAAGATGATCGTCGCTGTGGCAACAGACGCACTGCCTGCCGAGCAGCGCTTGATCTGGAATAACGTAGAGGCGTTGGCTAAGCGATTCTCTGTTCCTATAGACGTTCGCGTGTACGACATGCGGGTTCTGGAGGAAGAGCTTGATGGGCGCTAA	MREQSVIRNPLTVIAIFAGIAEVSGTVVLPLLHVQQQSVFMWFVMGFPCLLVLLFFTVLWMKHEVLYAPSDFRDDSGFLEAQRRRTESAARHAKFIEDVEFATGESETNRQPEQAERQPTAAAPPTPTPTPTATVAPAVQAPTLTPEATRVARGNYLLAERAVLTRLQKELPGEFNKDTVLVVDNAVYAFDATFQGSGFMIGVDVKYVPGVDFNKGLLRTQLSKLDSFYKSLPEDAQRGFKMIVAVATDALPAEQRLIWNNVEALAKRFSVPIDVRVYDMRVLEEELDGR				NA	NA	NA	NA	NA
BMS020_07641	309			hypothetical protein	ATGAGAGATATCCAGCGAGAGCTAATCAACAGCATTGCCTCTGCACTTCGGGAGGCAGAGGATGCCGGCGATATCGTCATTTGCACGACAACCCCAGAACGCACTGCCGACCTCATCTCTGAGAAGGTTCGAGCCGTCTTTACAGGCGATCTTTTCTCTCCGGAAGAGCTATTCGCGCTTAGTGGACTCATCTCACAGGCGGTATCGGACAAAAGATTCTATGACTGGGAGATGCCAACACTCCTCGGGCACAGCGCAGAGGAAATGGCCGAGCTTGGCCGCCGGATCCGTCACCTGACAGCCCTCTAA	MRDIQRELINSIASALREAEDAGDIVICTTTPERTADLISEKVRAVFTGDLFSPEELFALSGLISQAVSDKRFYDWEMPTLLGHSAEEMAELGRRIRHLTAL				NA	NA	NA	NA	NA
BMS020_07642	567			hypothetical protein	ATGCGGAACCGCATTCTCGCTTTGAGTATTCTCACTGCTTCCCTGGGCATGACCGGTTGTGCGACCTCGTGGGAGGTGTCGGCCACCTGTTCACAGACGGCAAAATGCAGCGCAACAGGCAAGATCGGGGGGACGTTCGACAAGCGCTCCATCCCGCTACATGAAAAGATCCTGATGACCGCTCTGGCTGACGTTCCGGACGCATCGCAATTTGAGCTCGATCTCTGCGGCTCAACTGTAACCTACCCGTCCACTGGAACTGTGACGTTGACCCTGTTCAACACGACTACAAACACTGCCGTCGCCGCAAGACAGTTTGCCTGGTATCGCAGTGGCAATACACTCCGGCTTTCTGACCCCAATGCAGTGAATGCGTGGGCTGCATCAGATGGCGGCAATGCCAATGAGCTGCGATACACCTTGGCGCGCACCGATGTAGCTGCAAATCCCGGGGAAAATGTGATCACTGTGACCTCCAAGTATCAGGGTTCACAGACCGCAACTTCGTCCTCAAGCTTTGTTCGCTGCACGACGTATCCTTCGCCGTATCTGTGCTCCGGCGCATGA	MRNRILALSILTASLGMTGCATSWEVSATCSQTAKCSATGKIGGTFDKRSIPLHEKILMTALADVPDASQFELDLCGSTVTYPSTGTVTLTLFNTTTNTAVAARQFAWYRSGNTLRLSDPNAVNAWAASDGGNANELRYTLARTDVAANPGENVITVTSKYQGSQTATSSSSFVRCTTYPSPYLCSGA				NA	NA	NA	NA	NA
BMS020_07643	852			hypothetical protein	ATGACCGTCGGCGCCACGCGTTTTCACGTGTGGCGCTGTTACTTTGCCTTGATACTAACTGTGGGATGCAGCGGGATCCTTGCGGGTTGCGCGAGCATTTCGATGCCCCCGTCGTCTTCCCTGGGCGAACGTGGCGGACGCGCCACGAGCGTAGCGAAAGTAGGGGCTTGGTATCTCATCGGCACAGCCTCTGTTGTGCCAGGTCAGGCCCATCCCTGGCCCGCTGAGTGGGAGGTTCGGCGCTGTGGAGAGAACCATCTGGAAATTGAGGTCCTAGCCGCGAAGAACACCCTTGATAGCGATTCCGAATCCGCTCTGTGCACTGCTGCGCACAAGGCGATTCGATATGTCGCCTTCGGGCCTTGGAGCATAGATGCGAGTGTTAAGTTTCGCATTTATCTTCTACCAAAAGGGATGGAGGTTAGACGCCAACATCGGGCGTGGACAATCAAGAAGACAGCAGTAGTCGAATACGCATTTCAAATGAATGCCGACGAGTCGTCCGTTGCTTCAGTCATTTCCGCGGTGGCCCATGAAGCTTTTCATCTATACGGCGCACTCGCCGCTCTCACACCGAGCGTACGGGGGAACGAGGATTTGGCTTACACATTTGGGGCATGTGCGCAACTCAACGCGATAGGCTGGTTACGTGGCCAGGATATGCCGAACGCCGAGCTATCGGAGACATCGGTTGGCATTTCGCGCGCTATGCTTATATCCAGTCGCGCAGGCGTCAGACTCATTGACAAATTTCGCCCCTACTTCGATGAGTCGGGTGAGATTAGAAGTCCTTCGCAAGGCGCTGATTCCGCGCTGGACTACTGTCGGAAAACGCTCTTTATTCCACATTAA	MTVGATRFHVWRCYFALILTVGCSGILAGCASISMPPSSSLGERGGRATSVAKVGAWYLIGTASVVPGQAHPWPAEWEVRRCGENHLEIEVLAAKNTLDSDSESALCTAAHKAIRYVAFGPWSIDASVKFRIYLLPKGMEVRRQHRAWTIKKTAVVEYAFQMNADESSVASVISAVAHEAFHLYGALAALTPSVRGNEDLAYTFGACAQLNAIGWLRGQDMPNAELSETSVGISRAMLISSRAGVRLIDKFRPYFDESGEIRSPSQGADSALDYCRKTLFIPH				NA	NA	NA	NA	NA
BMS020_07644	1572	emrB_3		Multidrug export protein EmrB	ATGGCTTCCCAAGCTCCCGCAGCGCCGGCCGCACCGGCGCCCGCAGCCGGCTTCAAGCCGGCCAGCGTGGCGCTGTGTACCGTCGGCCTGGCGATGGCGTCGTTCATGCAGGTGCTGGACACGACCATCGCCAACGTCTCCTTGCCGACCATCGCCGGCAACCTCGGCGCCAGTTCGCAGCAGGCGACCTGGGTCATCACCTCGTTCGCGGTCAGCACCGCGATCGCCTTGCCGCTGACCGGCTGGCTCAGCCGCCGGTTCGGCGAGACCAAGCTGTTCGTGTGGTCCACGCTGGCCTTCACCATGGCCTCGCTGCTGTGCGGCCTGGCCCAGAGCATGGGCATGCTGGTGGTGTCGCGTGCGCTGCAGGGGTTCGTCTGCGGCCCGATGTACCCGATCACCCAGAGCCTGCTGGTGTCGATCTATCCACGCGAGAAACGCGGGCAGGCGCTGGCGTTGCTGGCGATGATCACCGTGGTCGCGCCGATCTGCGGCCCGATCCTCGGCGGCTGGATCACCGACAACTACAGCTGGGAATGGATCTTCCTGATCAACGTGCCGCTGGGCATCTTGGCCAGCTCCATCGTCGGCTCGCAGCTGCGCAACCGCCCCGAGCAGATCGAGCGGCCGAAGATGGACTACGTCGGCCTGGCGCTGCTGGTGATCGGCGTGGGCGCGCTGCAGATCGTGCTCGACCTGGGCAACGACGAGGACTGGTTCAGTTCCGACAAGATCGTCGTGCTCGCCTGCGTCGCCGCGGTGGCGCTGGTCACGTTCGTGATCTGGGAGCTGACCGACGACGACCCGATCGTCGACCTGCGCCTGTTCCGGCACCGCAACTTCCGCGCCGGCACGCTGGCGATGGTGGTGGCGTACGCGGCGTTCTTCAGCGTCAGCCTGGTGATCCCGCAGTGGCTGCAGCGCGACATGGGCTACACGGCGATCTGGGCCGGCCTGGCCACCGCGCCGATCGGCGTGCTGCCGGTGATCCTGACCCCGCTGGTCGGCAAGTACGCACTGCGGTTCGACCTGCGCATGCTGGCGAGCATCGCCTTCGTGTTCCTGTCGTTCACCAGCTTCTTCCGCTCCAACTTCAACCTGCAGGTCGACTTCCACCACGTGGCGGAAATCCAGCTGGTGATGGGCGTGGGCGTGGCGCTGTTCTTCATGCCGGTGCTGCAGATCCTGCTGTCGGACCTGGACGGGCGCGAGATCGCGGCCGGCTCGGGCCTGGCGACGTTCCTGCGCACGCTCGGCGGCAGCTTCGCCGCCTCGCTGACCACCTACCTGTGGGCACGGCGCACCCAGGTCCACCATGCGCACCTGACCGAGCACATCTCGGCCTACGACCCGGGCATGACCGAACAGGTCAAGGCGATGGGGCAGGGCGACCTGCAGCACGGCGCGGCCTTCCTCAACAACATGATCAACCACCAGGCATCGCAGATGGGCTTCAACGACATCTTCTACATGCTGGGCTGGACGTTCCTGGTGATCATCGCGTTCCTGTGGCTGGCTAAGCCGCCATTCGGCGCTGGTGCTGGCAGTGCCGCGGCTGCTGGTGGGCATTGA	MASQAPAAPAAPAPAAGFKPASVALCTVGLAMASFMQVLDTTIANVSLPTIAGNLGASSQQATWVITSFAVSTAIALPLTGWLSRRFGETKLFVWSTLAFTMASLLCGLAQSMGMLVVSRALQGFVCGPMYPITQSLLVSIYPREKRGQALALLAMITVVAPICGPILGGWITDNYSWEWIFLINVPLGILASSIVGSQLRNRPEQIERPKMDYVGLALLVIGVGALQIVLDLGNDEDWFSSDKIVVLACVAAVALVTFVIWELTDDDPIVDLRLFRHRNFRAGTLAMVVAYAAFFSVSLVIPQWLQRDMGYTAIWAGLATAPIGVLPVILTPLVGKYALRFDLRMLASIAFVFLSFTSFFRSNFNLQVDFHHVAEIQLVMGVGVALFFMPVLQILLSDLDGREIAAGSGLATFLRTLGGSFAASLTTYLWARRTQVHHAHLTEHISAYDPGMTEQVKAMGQGDLQHGAAFLNNMINHQASQMGFNDIFYMLGWTFLVIIAFLWLAKPPFGAGAGSAAAAGGH	PGPT0029220_1203	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029220-emrB-K03446	NA	NA
BMS020_07645	1185	emrA_4	COG1566	Multidrug export protein EmrA	ATGAGCCAGACCACTTCCACTCCTTCGACGGATACCGCCACGCCGAGCCGGCGCGGCAAGCTGCTGCGGATCTTCGCGGTGATCGTGATCGCGCTGGTTGCGCTGATCGCGATCTGGTACTTCATGTACGGCCGCTGGTTCGAAGACACCGACGACGCCTACGTGCAGGGCAACCAGGTGCAGATCACCCCGCTGATCGGCGGCACCGTGGTCAGCATCGGCGCCGAGGACGGCATGCGCGTGGAGCGCGGCCAGCTGCTGGTGCAGCTGGACCCGGCCGACACCCAGGTCGCGCTGCAGCAGGCCGAAGCCAACCTCGCCAAGACCGTGCGCCAGGTGCGCGGCCTGTACCGCAGCGTGGAAGGCGCGCAGGCCGAACTGTCGGCCCGCCAGGTCACCCTGCAGCGTGCCCGTGCCGACTTCGAGCGCCGCAAGGACCTCGCCAAGAGCGGTGCGATCTCCAATGAAGAGCTGGCGCATGCCCGCGACGAACTGGCCGCCGCCGAAGCCGCGGTCAGCGGTTCGCGCGAATCGTTCGAGCGCAGCCGCGCGCTGGTCGACGACACCGTGATCGCCACCCAGCCGGACGTGCAGGCCGCCGCCGCGCAGCTGCGCCAGGCCCACCTCAACAACGCCCGCAGCGCGATCGTCGCGCCGGTGGCCGGCTATGTCGCACGCCGTGCGGTGCAGGTCGGCCAGCGCGTGCAGCCGGGCACCGCGCTGATGGCGGTGGTGCCGCTGGAGCAGGTGTGGGTCGAGGCCAACTTCAAGGAAACCCAGCTCAAGCACATGCGCCTGGGTCAGGACGTGGAGCTGGAGTCGGACCTGTACGGTGGCGCGGTCAGCTACACCGGCCGCGTGCAGAGCCTGGGCCTGGGCACCGGCAGTGCGTTCTCGCTGCTGCCGGCGCAGAACGCCAGCGGCAACTGGATCAAGATCGTGCAGCGCGTGCCGGTGCGCATCGCCATCGACGCCAAGCAGCTGCACGACAACCCGCTGCGCATCGGCCTGTCGATGAAGGTCAAGGTCAACCTGCACGACCAGAACGGCGGCGTGCTGCCGCAGCAGGCCGCCAAGGGCGCGCTGTTCGACACCGACGTGTATGCCAAGCAGCTGCAGGAGGCCGATGACGATATCCATCGCATCATCCAGGCCAACCTGCCGGCGCAGGGCAAGGCGGGCTGA	MSQTTSTPSTDTATPSRRGKLLRIFAVIVIALVALIAIWYFMYGRWFEDTDDAYVQGNQVQITPLIGGTVVSIGAEDGMRVERGQLLVQLDPADTQVALQQAEANLAKTVRQVRGLYRSVEGAQAELSARQVTLQRARADFERRKDLAKSGAISNEELAHARDELAAAEAAVSGSRESFERSRALVDDTVIATQPDVQAAAAQLRQAHLNNARSAIVAPVAGYVARRAVQVGQRVQPGTALMAVVPLEQVWVEANFKETQLKHMRLGQDVELESDLYGGAVSYTGRVQSLGLGTGSAFSLLPAQNASGNWIKIVQRVPVRIAIDAKQLHDNPLRIGLSMKVKVNLHDQNGGVLPQQAAKGALFDTDVYAKQLQEADDDIHRIIQANLPAQGKAG	PGPT0013750_1181	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0013750-emrB-K03543	NA	NA
BMS020_07646	1506			hypothetical protein	ATGAAAACCACCTCTCCCAACACGATGACGCAGATGCTGCGTCCGGCGGCCGTGTCGCTGCTGACCCTCGCCCTGGCCGCCTGTGCCAGCAGCCGGGGCCTGCAGCCGCAAGGCCATCTGATCGATGCGTCCGGCCTGCACGCCGAGAAGACCCTCGGCACGGCCGCGCTCAGCCCGGCCGCCTGGCCGGCCACCGACTGGTGGCGCGCGCTGGGCGATGCCCAGCTCGATGCGCTGGTCGGCGAAGGCCTGCAGGCCAGCCCGAGCCTGGCCGCCGCGCAGGCGCGCCTGGCCCAGGCCACCGCCGCGGCCGGCGCCAGCGATGCCGAGCGCAAGCCCAGCCTGTCGCTGTCGCCCGGCTACACCGGGCTGCAGCTGCCCGAATCGATGGTCGGCGACGAGATGGGCGGCAGCTATGCCGGCAGCGGCCAGCTGGTGCTCGACTTCAGCTACGGCGTGGACCTGTGGGGCGGCAAGCGTGCCGCCTGGGAAGCGACGGTTGGCCAGCTGCGTGCGGCCGAGGTCGACGCCCAGGCCGCGCGCGTGGAGCTGTCGGCGGCGATCGTCGAGGCCTACGTGCAGCTGGACCTGGCCTGGCGCGAGCTCGATGTCGCCAACGACGAACTGGCCCGTTCGCAGAAGACCCTGGAACTGACCCGCCAGCGCCGCAGCGCCGGCATCGACAGCGACCTGCAGGTGCGCCAGGCCGAGGCCCGCGTGCCCGCCGCGCAGCAGCAGGCGCAGGCCGCGCAGCAGCAGATCGACGAGGCCCGCAACGCGCTGGCCGCGCTGGTCGGGCAGGGCCCGGACCGCGGCCTGGCGATCGCCCGCCCGCAGCTGGCCGGCCCGCAGGCGCTGGCGCTGCCGAGCGTGCTGCCGGCCGATCTGCTCGGCCATCGCCCGGACGTGGTCGCCGCGCGCTGGCGCGTCGAGGCGGCCGACAAGGACATCGCCTCGGCCAAGACCAAGTTCTATCCCAGCCTCAACCTCACCGCGCTCGGCGGCGTGGTCAACGCCGACGTCGGCCAGCTGTTCAAGAGCGAATCGGTGTTCGGTCTGGTCGCCCCGGCGCTGTCGCTGCCGATCTTCGACGGCGGCCGCCTGCGCGCCAACCTGGCCGGCAAGGACGCGCAGTACGACGTGGCCGTGGCCGACTACAACCAGAAGGTGCTCGGCGCGCTGCGCGAGGTCGCCGACCAGGTCAACGCGGTGCGCTCGCTCGACGGCCAGACCCGGTCGCAGGCGCAGGCGCTGGACACCGTGCAGGCCGCGCATGAGCTGGCCCAGCAGCGCTACCGCGCCGGCATCGGCAGCTACCTGCAGGTGCTGAGCGTGGAAGAGCAGTTGCTGACCGCGCAGCAGCGCATGGCCAGCCTGCAGTCGCAGCAGATCCTGGCCTCGGTGAAGCTCAGCCGCGCCCTGGGCGGCGGGTTCTCCGCCGACACCCCGGCCGCTGGCAGCAACGCCGCCGATGCCGAAGCCGTTTCCGATTCCAAGCATTCCTGA	MKTTSPNTMTQMLRPAAVSLLTLALAACASSRGLQPQGHLIDASGLHAEKTLGTAALSPAAWPATDWWRALGDAQLDALVGEGLQASPSLAAAQARLAQATAAAGASDAERKPSLSLSPGYTGLQLPESMVGDEMGGSYAGSGQLVLDFSYGVDLWGGKRAAWEATVGQLRAAEVDAQAARVELSAAIVEAYVQLDLAWRELDVANDELARSQKTLELTRQRRSAGIDSDLQVRQAEARVPAAQQQAQAAQQQIDEARNALAALVGQGPDRGLAIARPQLAGPQALALPSVLPADLLGHRPDVVAARWRVEAADKDIASAKTKFYPSLNLTALGGVVNADVGQLFKSESVFGLVAPALSLPIFDGGRLRANLAGKDAQYDVAVADYNQKVLGALREVADQVNAVRSLDGQTRSQAQALDTVQAAHELAQQRYRAGIGSYLQVLSVEEQLLTAQQRMASLQSQQILASVKLSRALGGGFSADTPAAGSNAADAEAVSDSKHS				NA	NA	NA	NA	NA
BMS020_07647	456			hypothetical protein	ATGATCTGCCCGACCACCCCGTCCATGACCCCGACCTTCGGCCTGCTGCTGCGGCAGGTCCGCGATGGCCTGATGCGCCAGCTGGAGCTGGAATTGAAGGAAGCGCTGCCCGATTTCGGCTTCAGCCACTACCTCGGCCTGAAGGTGCTGGCGGCGCGTTCGCCGTGCACCGCCAACGAGCTGGCGCAGGCGTTGGAGCAGACCCCCAGCGCGATCACCCGCCTGCTCGACAAGCTGGAGTCGATCGGGGCAGTGCGCCGGGAACCGCATGCGCAGGACCGCCGCGCGCTGCAGATCGTGATGACCGATGCCGGCCGCGCGCTGTGGGAACAACTGCGCAAGCACGGCGACCGCGCCATGGAATTCGCCCTGCGCGACCTGTCCACGGACGAGCGCGAGCTACTGACCCATCTCCTCACCCGCGTCCGCGATTCACTCAATTCGAATTCGCCATGA	MICPTTPSMTPTFGLLLRQVRDGLMRQLELELKEALPDFGFSHYLGLKVLAARSPCTANELAQALEQTPSAITRLLDKLESIGAVRREPHAQDRRALQIVMTDAGRALWEQLRKHGDRAMEFALRDLSTDERELLTHLLTRVRDSLNSNSP				NA	NA	NA	NA	NA
BMS020_07648	870	nimR_6		HTH-type transcriptional regulator NimR	ATGGATGTCGAGATCGAGCCATCGTCGGAACGCCTGCCGGACAACCCCGGCCTGGTCGAGTGGTTCGAGCGCGCCGACGGGCCGGCGGTGATGGCCTTCCGCCTGCAGAGCGAGCACGGGCTGCGCCACGAGGTCGACTGGCACCGCCACGGGCGCGGCCAGCTGATCAGCGTGGAGGCCGGGCTGCTGAGCGTGCGCACCGCGCGCGGCGAGTGGTCGCTGCCGACCGGCTCGGCGGGCTGGATGCCGCCGGACGAGCTGCACACGGTGGCGATCCACGGCGCCTTCCGCGGCTGGGGCCTGCTGATCGCGCCGAGCGCTGCCGCGGCGCTGCCGCCCCACCCCTGCGTGATCGGGGTCGACGACCTGACCCGCCACCTCGCCGAGCGCCTGGCCGGCTGCAGCCTCGAGGCCCTGCTCGACCCGCGCCAGCAGCGCCTGGGCGCGGTGCTGCTGGATGAGCTGCGCGATGCCCCGGTGCAGGCCTACCACCTGCCGATGCCGCAGGACCGGCGCCTGCTGCGGATCACCGCCCAGCTGCTGGCGGCGCCGGACGATCCGCGCGACCTGGCCGACTGGGCACGCTGGGCCGGGTTGTCGCCGCGCACCCTGACCCGGCACTTCCGCGAGGAGACCGGGCTCAGCTTCGGCCAATGGCGGCAGCAGGCGCGGCTGGCCGAGTCGCTGCGGCTGCTGCATGCCGGCCACGCGGTCGGCGAGGTCGCCCTGCAGCTGGGCTACAGCAGCGCCAGCGCCTTCGTCACCGTGTTCAGCCGCCACTACGGCGCCCCGCCCGGGCGCTACCTGCAGCGGGTACGCCAGGCCGGCGCCGGCGCGGCGCGCTTGGCATCCCCGGCCGCATCCGGATAA	MDVEIEPSSERLPDNPGLVEWFERADGPAVMAFRLQSEHGLRHEVDWHRHGRGQLISVEAGLLSVRTARGEWSLPTGSAGWMPPDELHTVAIHGAFRGWGLLIAPSAAAALPPHPCVIGVDDLTRHLAERLAGCSLEALLDPRQQRLGAVLLDELRDAPVQAYHLPMPQDRRLLRITAQLLAAPDDPRDLADWARWAGLSPRTLTRHFREETGLSFGQWRQQARLAESLRLLHAGHAVGEVALQLGYSSASAFVTVFSRHYGAPPGRYLQRVRQAGAGAARLASPAASG				NA	NA	NA	NA	NA
BMS020_07649	2244	parC_2	COG0188	DNA topoisomerase 4 subunit A	ATGACCGATCTCACCCGCCCCACCTTCCACGGTTTCGAGCAGCTGCCGCTGCGCGAGTACGCCGAACGCGCCTACCTCGACTACTCCATGTACGTGGTGCTGGACCGCGCCCTGCCGTTCGTCGGCGACGGGCTCAAGCCGGTGCAGCGGCGCATCATCTATTCGATGAGCGAGCTCGGCCTGAACGCCGCCTCCAAGCCGAAGAAGTCCGCGCGCACGGTCGGTGACGTGATCGGTAAGTACCACCCGCATGGCGACAGCGCCTGCTACGAAGCGCTGGTGCTGATGGCGCAGCCGTTCTCGTACCGCTACCCGCTGATCGAGGGCCAGGGCAACTTCGGCTCGCCGGACGATCCGAAGTCGTTCGCGGCGATGCGTTACACCGAATCCAAGCTGACCCCGATCGCCGAGGTGCTGCTGGGCGAGCTCGGCCAGGGCACCACCGACTGGACCCCGAACTTCGACGGCACGCTGGAAGAGCCGAGCTGGCTGCCGGCGCGCCTGCCGCACCTGCTGCTCAACGGCACCACCGGCATTGCCGTGGGCATGGCCACCGACGTGCCGCCGCACAACCTCAACGAGATCGTCAGCGCGCTGCTGCGCCTGCTCGACGACCCGGACGCGACGGTCGCCGACCTGTGCGAGCACGTGCGCGGCCCGGACTACCCGACCGCCGCCGAGATCATCACCCCGGCCGCCGACCTGCGCGCGCTGTACGAGACCGGCAACGGCAGCGTGCGCGCCCGCGCCACGTTCGCGCGCGAGGGCGGCAACATCGTCGTCACCAACCTGCCGCACCAGGTCTCGCCGTCGAAGGTGATCGAGCAGATCGCCCAGCAGATGCGCGCCAAGAAGCTGCCGTGGCTGGAGGACATCCGCGACGAGTCCGACCATGAGAACCCGGTGCGGGTGGTGCTGGTGCCGCGCTCCAGCCGCGTCGATGCCGAGCAGCTGATGGGCCACCTGTTCGCGACCACCGACCTGGAGAAGAGCTACCGGGTCAACCTCAACGTGATCGGCCTGGACGGCCGCCCGCAGGTCAAGAACCTGCGCCAGCTGCTGACCGAATGGCTGAGCTTCCGCAGCGACACCGTCACCCGCCGGCTCAACCACCGCCTGCAGAAGGTCGAGCGCCGCATGCACCTGCTGGAAGGCCTGCTGGTGGCCTTCCTCAACCTGGATGAGGTGATCCGCATCATCCGCACCGAGGACGAGCCCAAGCAGGCGCTGATCGCCCGCTTCGCGCTGTCCGAGGAACAGGCCGAGTACATCCTCGAGACCCGCCTGCGGCAGCTGGCGCGGCTGGAGGAAATGAAGATCCGCGGCGAGCAGGACGCGCTGGAGAAGGAGCGCAACCAGATCCTGGCGATCCTGGGCAGCCCGGCCAAGCTGAAGAAGCTGATCAAGGACGAGCTGACCGCCGATGCGGCCAAGTTCGGCGACGCGCGCCGTTCGCCGCTGGTGCAGCGCGGCGCCGCCCAGGCGATCGACGAGACCGAACTGGTGCCGAGCGAGCCGATGACCGTGGTGCTGTCGCAGAAGGGCTGGATCCGCGCGGCCAAGGGCCACGATGTCGACGCCGCCAGCCTGTCCTACCGCGAGGGCGATGCGCTGCAGGCCGCGGTGCGCAGCCGCAGCACCCAGCAGGTCGCCTTCCTCGACACCGAGGGCCGCGCCTACTCGACCGCGGTGCACACGCTGCCGTCGGCGCGTGGCAACGGCGAGCCGCTGACCGGGCGCTTCTCGCCGGCGGCCGGCGCCTCGTTCCAGGCGCTGGCCAGCGGCGACAACGACACCCGTTACGTGCTGGCGTCGTCGCACGGCTATGGCTTCGTCACCCGCTTCGAGAACCTGGTCGGCCGCAACAAGGCCGGCAAGGCGATGCTCAACCTGAGCACCGGCGCCGGCGTGCTGGCCCCGGCCCTGGTGCCCGATCCGGCCAACGGCCGCATCGTCGCGGTCACCAGCGCCGGCAACCTGCTGGCGATCCCGGCCGGCGAGCTGCCGGAACTGGACAAGGGCAAGGGCAACAAGATCATCGAGATCCCCAAGGCCAAGCTCGCCACCGAACGGGTGGTCGCGGTCGCCGCGGTGGCGCCGGGCAACACCCTGCTGGTGCGCAGCGGCGCGCGCACGATGAGCCTGTCGTTCAAGGATCTGGATGCGTACATCGGCGCCCGCGCCAGCCGTGGCCACCTGCTGCCGAGGGGATGGCAGAAGGTCGACGGCCTTTCCGTCGAGTGA	MTDLTRPTFHGFEQLPLREYAERAYLDYSMYVVLDRALPFVGDGLKPVQRRIIYSMSELGLNAASKPKKSARTVGDVIGKYHPHGDSACYEALVLMAQPFSYRYPLIEGQGNFGSPDDPKSFAAMRYTESKLTPIAEVLLGELGQGTTDWTPNFDGTLEEPSWLPARLPHLLLNGTTGIAVGMATDVPPHNLNEIVSALLRLLDDPDATVADLCEHVRGPDYPTAAEIITPAADLRALYETGNGSVRARATFAREGGNIVVTNLPHQVSPSKVIEQIAQQMRAKKLPWLEDIRDESDHENPVRVVLVPRSSRVDAEQLMGHLFATTDLEKSYRVNLNVIGLDGRPQVKNLRQLLTEWLSFRSDTVTRRLNHRLQKVERRMHLLEGLLVAFLNLDEVIRIIRTEDEPKQALIARFALSEEQAEYILETRLRQLARLEEMKIRGEQDALEKERNQILAILGSPAKLKKLIKDELTADAAKFGDARRSPLVQRGAAQAIDETELVPSEPMTVVLSQKGWIRAAKGHDVDAASLSYREGDALQAAVRSRSTQQVAFLDTEGRAYSTAVHTLPSARGNGEPLTGRFSPAAGASFQALASGDNDTRYVLASSHGYGFVTRFENLVGRNKAGKAMLNLSTGAGVLAPALVPDPANGRIVAVTSAGNLLAIPAGELPELDKGKGNKIIEIPKAKLATERVVAVAAVAPGNTLLVRSGARTMSLSFKDLDAYIGARASRGHLLPRGWQKVDGLSVE	PGPT0027705_2890	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
BMS020_07650	660	tpm		Thiopurine S-methyltransferase	ATGCACGCGGAATTCTGGAAGCAACGCTGGCAGCAGGGCCACACCGCATTCCATCGCACGGCGGTGCAGCCGCTGCTGCAACAGCACTGGCCGACGTTGGCGCTGCCCGCCGGCAGCCAGGTGCTGGTGCCGCTGTGCGGCAAGTCGCTGGACATGCACTGGCTGGCCGCGCGCGGGCACCGCGTGCTCGGCGTGGAGCTGTCCGAACAGGCGGTGGCGCAGTTCTTCGACGAGGCCGGATTGCAGCCGCAGCGGCATCGCAGCGCCAGCGGCGAGCACTACCGCGCCGGGGCGATCGAGCTCATCGTGGGCGATGCCTTCGCGCTGGCGCCGGAGCTGCTGGCCGGCTGCGACGCCGTCTACGACCGCGCTGCGCTGGTCGCGCTGCCGGACGCACTGCGCCGGCGCTACCTGGACCAGGTCTACGCGCGCCTGCCGGTCGGCTGCCGCGGGTTGCTGATCACGATGGAGTATCCGCAGCCGCAGTACGCCGGGCCGCCGTTCGCGGTCGCGCCGGACGAGGTGCAGGCGTTGTTCTCCGACGCGTTCGCGATCACGCCGCTGGCGCGTCACGACATCCTCGCCGAGGAACCACGCATGGCCGCCGCCGGGCTGACATCGCTGTGGAGCGCGGTGTACCGGCTGCAGCGCACGCCCTAG	MHAEFWKQRWQQGHTAFHRTAVQPLLQQHWPTLALPAGSQVLVPLCGKSLDMHWLAARGHRVLGVELSEQAVAQFFDEAGLQPQRHRSASGEHYRAGAIELIVGDAFALAPELLAGCDAVYDRAALVALPDALRRRYLDQVYARLPVGCRGLLITMEYPQPQYAGPPFAVAPDEVQALFSDAFAITPLARHDILAEEPRMAAAGLTSLWSAVYRLQRTP				NA	NA	NA	NA	NA
BMS020_07651	486	bfr_2	COG2193	Bacterioferritin	ATGAAAGGCCATCCCGACGTCGTCGAATGCCTCAAGCAGCTGCTGCGTGGCGAGCTCGCCGCGCGCGACCAGTACTTCCTGCATTCGCGTCGCTACGAGGACCAGGGGCTGATGGCGCTGTACGCGCGCATCAACCACGAGATGCAGGAAGAGACCGAGCACGCCGACGCGATCCTGCGCCGCATCCTGTTCCTGGAAGGCGATCCGGACATGCGCCCGAGCGCGTTCGAGCCGGGCAAGACCGTGGTCGAGATGCTGGAGAAGGACCTGCAGGTCGAATACGAAGTGCGCGCCAACCTCGCCGCGGCGATGAAGCTGTGCGAGGAACGCCAGGACTACGTCAGCCGCGACATGCTGCTCAAGCAGCTGCACGACACCGAGGAGGACCATGCCTGGTGGCTGGAGCAGCAGCTCGGCCTGATCAAGCGCATCGGCCTGGAGCTGTACCAGACCTCGAAGATCGGCGGCGGCGCGCCGGGCGCCTGA	MKGHPDVVECLKQLLRGELAARDQYFLHSRRYEDQGLMALYARINHEMQEETEHADAILRRILFLEGDPDMRPSAFEPGKTVVEMLEKDLQVEYEVRANLAAAMKLCEERQDYVSRDMLLKQLHDTEEDHAWWLEQQLGLIKRIGLELYQTSKIGGGAPGA	PGPT0003965_937	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003965-bfr-K03594	NA	NA
BMS020_07652	2385	acyII		Penicillin acylase 2 proenzyme	ATGCGCGCACTGCTCGGCCGGCTGCTGCTGGCGCTGCTTGGATTGCTGCTGCTCGCCCTGCTGGCGGCCTGGCTGCTGGTGCGCGGCAGCCTGCCGCTGCTGCACGGCGAGCAGGCGCTGGATGGACTGGCCGCTCCGGTGCGGGTCGAGCGCGATGCGCTCGGCACCGTCACCATCGACGCCGGCAGCGAGGCCGACGCGATGCGCGCGCTCGGCTACGTGCACGCGCAGGAGCGCTATTTCGAGATGGACCTGATGCGGCGCTCCGCGGCCGGCGAGCTGGCCGAACTGTTCGGCCCGGCGGCGATCACGCGCGACCGGCAGATGCGCGTGCATCGCCTGCGCACCCGCGTGGATGCCGACCTGGACACCGCGCTCGGCGGCCAACGCAGCGTGCTCGAAGCGTATCGCGACGGCGTCAACGCCGGCCTGGGCGACCTGCGCGTGCGCCCGTGGAGCTACCTGCTGCTGCGGCAGGCGCCACGGGCCTGGGCATTGGACGACTCGGTGCTGGTCGCGCTGGCGATGTACGCCGACCTGCAGGATCCGGCCAACCAGCGCGAACAGGCCTGGATCGGCCTGCAGGCCACGCTGCCGGCACCGCTGTACGCACTGCTGCGCCACGACGGCAGCACATGGGACGCGCCGCTGCTGGGCCCGCTGCGCGGCGATGCGCCGTTGCCGGGAGCCGCAACACTCGATCTGCGGCAACACCCGGCACCGGCCGCGGCGCCGGGCGCAACCGGCCGCATGCCTTCACCGGCGCTGGCGGCTTCCGGCATCGACGACGCCGCGGAGGCCCGCGATGCCGTTCCGGGCAGCAACAACTTCGCCGTGGCCGGCACGCTGACCGCCGACGGGCGCGCGATCCTCGCCGACGACATGCACCTGTCGCTGCGCGCACCGAACATCTGGTTCCGCGCGCGCCTGCGCTACCCGGACCCGCGGGCGCCAGGCGGACGCGTCGACGTCACCGGCTTCACCCTGCCCGGCCTACCGGCGGTGATCGTCGGCAGTAACGGCCATGTCGCCTGGGGCTTCACCAACAGCTACATCGACACGGCCGATTTCGCCAAGCTGCCTGCCGACGCGACGACCACACAGCACGTGGAAGCGATCCGCGTCGCCAGTGCCGACGAGACACTGCTGGAGGTCGAGGAGAGCGCATGGGGCCCGGTCGTCGGGCGGGCACCGGACGGCAGCCGGCTGGCGCTGCGCTGGGCCGCGCAGCTGCCCGGCGCGGTGCGCCTGGACTTCATCGACATGCTGCGTGCCGGCGACCTCGACCAGGCGTTCGCGGTCGCCGACCGGGCCGGCATCCCGGCGCAGAACCTGCTGGTCGCCGACAGCGGCGGACGCATCGGCTGGCGGATCATCGGCGCGCGTCCGTCACGCGCGCCCGGTTGCACGCCAGACCCTGTGCTGCAGGCCAGCACGTGCCCGCCGTGGGCGCTGCGCAGCGATGCCGCGCCGGCCCTGGTCGATCCACCAAGCCAGCGCCTGTGGACCGCCAACAACCGGGTGGTGGACGGCGCGACGCTGGCCGAGGTCGGCGACGGCGGCTACGACCTGGGCGCACGTGCGCGGCAGATCCGCGACGACCTGTTCGCGCACGGCAGCTTCAGCGAGCGCGATCTGCTCGCGATCCAGCTCGATGACCGCGCGTTGTTCCTGCAGCGCTGGTGGACGCTGCTGCGCCAGGTGGTCGAACATGCCGACGACCCGCACTTGCAACAGCTCGAACGCGCCACCCGGCAATGGGAAGGGCGCGCCGCGGTGGACTCGACCAGCTACCGGATCGTGCGCGCGTTCCGCACCGCCACACTCGACGCCATCGCCAGCGGCCTGCTCGCGCCGGCCAAGGCGCGCCTGGGCGATGCCTACGTGGCGCCGAAGCTGACCCAGCTCGAAGGCGTGGCCTGGCCCCTGCTGAGCGAGCGCCCGGCACACCTGCTGCCACCCGGGCATGCAAGCTGGGACGCGCTGCTGCAGGCCTCCGCGCGCCAGGCCGTGCACACGCTGGCCGAAGAACACCCGGGCGCGCTGGCGCAGCGCAGCTGGGGCGAGCGCAACACCAGCGCGATCTGCCACCCGATCGCGCGCGCGTTGCCGGCCATCGCCACGCGCTGGCTGTGCATGCCGGCCGAGCCCCTGCCTGGCGACCGCGACATGCCGCGGGTGCAGGGGCCGGCGTTCGGCGCATCGGAGCGGATGGTGGTCGCGCCCGGCCATGAGGCCGACGGCCTCGTGCATATGCCCGGCGGCCAGAGCGGGCATCCGCTGTCGCCGTTCTGGGGCAGCGGCCACGCCGACTGGGCGCAGGGCCGGCCAACGCCGTTCCTGCCGGGCCCGGCGCGCGAGCACCTGCTGCTGCGCCCGCGCTGA	MRALLGRLLLALLGLLLLALLAAWLLVRGSLPLLHGEQALDGLAAPVRVERDALGTVTIDAGSEADAMRALGYVHAQERYFEMDLMRRSAAGELAELFGPAAITRDRQMRVHRLRTRVDADLDTALGGQRSVLEAYRDGVNAGLGDLRVRPWSYLLLRQAPRAWALDDSVLVALAMYADLQDPANQREQAWIGLQATLPAPLYALLRHDGSTWDAPLLGPLRGDAPLPGAATLDLRQHPAPAAAPGATGRMPSPALAASGIDDAAEARDAVPGSNNFAVAGTLTADGRAILADDMHLSLRAPNIWFRARLRYPDPRAPGGRVDVTGFTLPGLPAVIVGSNGHVAWGFTNSYIDTADFAKLPADATTTQHVEAIRVASADETLLEVEESAWGPVVGRAPDGSRLALRWAAQLPGAVRLDFIDMLRAGDLDQAFAVADRAGIPAQNLLVADSGGRIGWRIIGARPSRAPGCTPDPVLQASTCPPWALRSDAAPALVDPPSQRLWTANNRVVDGATLAEVGDGGYDLGARARQIRDDLFAHGSFSERDLLAIQLDDRALFLQRWWTLLRQVVEHADDPHLQQLERATRQWEGRAAVDSTSYRIVRAFRTATLDAIASGLLAPAKARLGDAYVAPKLTQLEGVAWPLLSERPAHLLPPGHASWDALLQASARQAVHTLAEEHPGALAQRSWGERNTSAICHPIARALPAIATRWLCMPAEPLPGDRDMPRVQGPAFGASERMVVAPGHEADGLVHMPGGQSGHPLSPFWGSGHADWAQGRPTPFLPGPAREHLLLRPR	PGPT0028075_861	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028075-pac-K01434	NA	NA
BMS020_07653	1020			hypothetical protein	ATGCTCCCCGTTCTACGCTGTTGTTTCCTGCTGGCCCTGCTGCCGGCGCCCGCCGCGCTGGCGGCCACTCCTTCCGCGCCGGCGTGCACGGCCCAGGCGCGCCCCGGCGACGACCTGCAGGCCGCGATCGACCACCTGCCTGCCACCGGCCCTGCCACGCTGTGCCTGGCCGCGGGCGACTATCCGCTGCACCAGCTGCTGTCGATCACCCGCGACCACACCACCGTGCGCGGCAGCGGCCACGCCACCCGCCTGCGCATGGCCGACGGCGTGCAGCAACCGCTGCTGGTGGTGGGCGACCATCGCCACGAAACGCCGGCGCGACGCATCCGCGATGTCACCATCGCCGACCTGCAGCTGGTCGGCGGCAAGGCCGAGCATGAGTTCATGCCCGAACACCCCTATCTCAGCAACAGCGCGGTGGTGATCCGCGCCGGCGAGCGCATCCGCCTGTCCGGCCTGAAGGCAAGCCAGTGCCGCAGTGCCTGCCTGCTCAGCGAACGCGACAGCCGCGACCTCACCTTCGAGCACAACGACGTGTCCGCGGCCGACTGGGACGGCGTGTCGTTCAACAGCACGCATGGCGTACGCCTGATCGACAACTACATCCACGACAACGTCGCCGCCGGCATCACCACCGAGGAGCTCAACGACAGCGAGATCCGCGGCAACCGGCTCGAACGCAACGGCAGCCAGGGCATCTACCTGTCCAACGGGCGTCGCAACCGCTTCGTCGACAACCAGTTCACCGACAACAAGTCGGCCGGTGTGTTCCTGGCCTGTTCGATCCGCTACCGCACCCCGGAGGTGCTGTGCTGGGACAACAGCATGAGCCAGGACAACCTGTTCGAACGCAATACCTTCAAGGGCAGCCCCTACACCTACACGATCGGGGTGGATCGCGCGGCCAACTGCAAGAACGCCGGTTTCAAGCCCAACCTGTGGCGCAACAACCAGGCCGACGCCACTGGTTTCAATCCGCCGGTGGAGACATACGGCAGCTGCGTGCACAGCGAATAG	MLPVLRCCFLLALLPAPAALAATPSAPACTAQARPGDDLQAAIDHLPATGPATLCLAAGDYPLHQLLSITRDHTTVRGSGHATRLRMADGVQQPLLVVGDHRHETPARRIRDVTIADLQLVGGKAEHEFMPEHPYLSNSAVVIRAGERIRLSGLKASQCRSACLLSERDSRDLTFEHNDVSAADWDGVSFNSTHGVRLIDNYIHDNVAAGITTEELNDSEIRGNRLERNGSQGIYLSNGRRNRFVDNQFTDNKSAGVFLACSIRYRTPEVLCWDNSMSQDNLFERNTFKGSPYTYTIGVDRAANCKNAGFKPNLWRNNQADATGFNPPVETYGSCVHSE				NA	NA	NA	NA	NA
BMS020_07654	624	rhtC_4	COG1280	Threonine efflux protein	GTGAGTGGCGGCACGCTGCTGGCGATCGGCGGCGTGCTCGCACTGGGGGCGATGAGCCCGGGCGCCAGCTTCCTGCTGGTCGCGCGGTTGGCAGCGGCGCGTTCGCGCGCCGCCGGCATCGCCGCCGCGCTGGGCATGGGGGCGGGGTGCGCACTGTTCGCGCTGCTGGCGCTGTGCGGATTGCAGGCGCTGCTCGACCGGGTGCCGGCCTTGCACCGCGTGTTGTCGATGGCTGGCGGGATCTATCTGCTGTGGCTGGCCTGGGGCTTGTGGCGGCGCGCGCCGTCGGTGGCCGACGGCGACACGGCGGCCGACCGGTCCGGGCCGGCGCGTCCGGCGTTCGCACTGGGCTTGCTGACCCAGTTGAGCAATCCGCAGACCGCACTGGTGTTCGGCAGCCTGTTCGCGGCGTTGTTGCCGCCGGTGCGGGAGGCGGCCGATTACGTGCTGCTGCCCATGCTGGCGTTCGCGGTCTATGCGGCCTGGTTCGCACTGGTGGCCTGCCTGCTCTCGGCCGCGTCGCCGCGGCGCTGGTGGTCGCGCGCGCGGCGCCCGCTGGATCGCGTCAGCGCGGTGCTGATGGCCGGAATGGGCGCGCGCCTGCTGCTGCGCGCGCCGCATTGA	MSGGTLLAIGGVLALGAMSPGASFLLVARLAAARSRAAGIAAALGMGAGCALFALLALCGLQALLDRVPALHRVLSMAGGIYLLWLAWGLWRRAPSVADGDTAADRSGPARPAFALGLLTQLSNPQTALVFGSLFAALLPPVREAADYVLLPMLAFAVYAAWFALVACLLSAASPRRWWSRARRPLDRVSAVLMAGMGARLLLRAPH				NA	NA	NA	NA	NA
BMS020_07655	1716	asnB_2	COG0367	Asparagine synthetase B [glutamine-hydrolyzing]	ATGTGTTCGATCTTCGGCATCTTCGGCCTGCAACCGGGCGACGACCAGCAGGCGCTGCGCCGGCAGGCGCTGGAATGCTCGCAGCGCCAGCGCCACCGCGGCCCGGACTGGAGCGGCGTGTATCTCGACGAGGGGGTGATCCTGGTGCATGAGCGCCTGGCCATCGTCGATCCGGCTGGTGGCTCGCAGCCGCTGCTGTCGGAGGACGGGCGCCTGGCGTTGGCGGTCAACGGCGAGATCTACAACCACGTTGCGCTGAAGGCGGAGCTGGCGCATCCGTACGCGTTCCAGACCGCTTCGGACTGCGAGGTGATCAACGCGCTGTACCTGCAGGACGAGCCGGCGCTGTTCCTGGAGCGGCTCAACGGCATCTTCGCCTTCGCGCTGTGGGACAAGGCGCGCGGCCGCGTGATCATCGCCCGCGACCCGATCGGCGTGGTGCCGCTGTACTGGGGGCATGACAAGGAGGGCCGGCTGCGTGTCGCGTCGGAGATGAAGTCGCTGGCCGATACCTGCGCCGATGTCGCGCAGTTCCCGCCGGGGCATTACTACGACAGCGCGCTGGATGACGGCACCGGTGCGGCCTCGGCGCTGCGCCGCTACTACCAGCAGCCGTGGCGCGACTACGACGCGGTCGAGGGCGTGCAGGTGTCGCCGGCGGAACTGCGCGAGGCGTTCGAGGCCGCGGTGCATCGCCAGCTGATGACCGACGTGCCGTACGGCGTGCTGCTGTCCGGTGGGCTGGATTCCTCGCTGGTGGCCGCGGTCGCCGCGCGCTACGCACGCCACCGTATCGAGGATGGCGATCGCACCGAAGCCTGGTGGCCGCGGCTGCATTCGTTCGCAATCGGCCTGAAGGGCTCGCCCGACCTGGCCGCGGCCAAGGTCGCCGCCGAGGCGCTGGGCACCGTGCACCACGGCTTCGAATACACCTTCGAAGAAGGCCTGGATGCGCTGCCGGAAGTGATCCGCCACATCGAGACCTATGACGTCACCACGATCCGTGCATCGACGCCGATGTTCCTGCTGGCGCGGCGGATCAAGGCGATGGGGGTGAAGATGGTGCTCAGCGGCGAGGGCAGCGACGAGATCTTCGGCGGCTACCTGTACTTCCACAAGGCGCCGAACGCGCGCGAGTTCCACGAGGAGCTGGTGCGCAAGCTCGATGCGCTCAACAACTACGACTGCCTGCGCGCCAACAAGTCGATGATGGCCTGGGGCGTGGAGCCGCGCGTGCCGTTCCTGGACCGCGAATTCCTCGACGTGGCGATGCGCATGGACGCCAAGTACAAGATGATCGACAAGGCCAGCGCCGGCCCGCAGCGGATGGAGAAGGGCGTGCTGCGCCAGGCGTTCGATGGTTACCTGCCGAAGGAAATCCTGTGGCGGCAGAAGGAGCAGTTCAGCGATGGCGTCGGCTATGGCTGGATCGACGGGCTGAAGGCGCATGCCGAGGCGCAGGTGTCCGACCGCGTGCTGGCCGCGGCCGACAAGCGCTTCCCGGTGAACCCGCCGCAGACCAAGGAGGCGTACTACTACCGCCACCTGTTCGAGCAGTTCTATCCGAGCCCGGCCGCGGCCGAGACGGTGCCGGGCGGCAAGTCGATCGCCTGCTCCTCGCCGGCGGCGATCGCCTGGGATGCGAGCTTCGCCAAAATGGCCGATCCGTCCGGGCGTGCGGTCGCCGGCGTGCACGAGCAGGCGCTGGCGTCGTGA	MCSIFGIFGLQPGDDQQALRRQALECSQRQRHRGPDWSGVYLDEGVILVHERLAIVDPAGGSQPLLSEDGRLALAVNGEIYNHVALKAELAHPYAFQTASDCEVINALYLQDEPALFLERLNGIFAFALWDKARGRVIIARDPIGVVPLYWGHDKEGRLRVASEMKSLADTCADVAQFPPGHYYDSALDDGTGAASALRRYYQQPWRDYDAVEGVQVSPAELREAFEAAVHRQLMTDVPYGVLLSGGLDSSLVAAVAARYARHRIEDGDRTEAWWPRLHSFAIGLKGSPDLAAAKVAAEALGTVHHGFEYTFEEGLDALPEVIRHIETYDVTTIRASTPMFLLARRIKAMGVKMVLSGEGSDEIFGGYLYFHKAPNAREFHEELVRKLDALNNYDCLRANKSMMAWGVEPRVPFLDREFLDVAMRMDAKYKMIDKASAGPQRMEKGVLRQAFDGYLPKEILWRQKEQFSDGVGYGWIDGLKAHAEAQVSDRVLAAADKRFPVNPPQTKEAYYYRHLFEQFYPSPAAAETVPGGKSIACSSPAAIAWDASFAKMADPSGRAVAGVHEQALAS	PGPT0020150_5124	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953	NA	NA
BMS020_07656	1131	dapE_2	COG0624	Succinyl-diaminopimelate desuccinylase	ATGAGTGACGTGCTGGACCTGACCTGCGAGCTGATCGCCAGGCCGTCGGTGACCCCGGACGATGCCGGCTGCCAGGCGCTGATCGCCGAGCGGCTGCAGCGCGCGGGGTTTACCTGCGAGCAGCTGCGCTTCGGCGCGGTCGACAACCTGTGGGCCACGCACGGGCAGGGCGCGCCGGTGCTGGTGCTGCTCGGCCATACCGACGTGGTGCCGCCCGGGCCGCGCGAAGCCTGGGCCTCCGATCCGTTCGAACCGCAGGTGCGCGACGGCGTGCTGTACGGGCGCGGCGCCGCCGACATGAAGAGCGGCGTGGCCGCGTTCGTGGTCGCCGCCGAGCGCTTCGTCGCCGCGCATCCGGACCACCCCGGCACGCTGGCGCTATTGCTGACCAGCGACGAGGAAGGCGATGCGATCGACGGCGTGCGCCATGTCGCCAAGGTGTTCGCCGAGCGTGGCGAGCGCATCGACTGGTGCATCACCGGCGAACCGTCCTCGACCGAGCGCCTGGGCGACCTGCTGCGGGTCGGCCGGCGCGGCAGCCTGTCCGGCACGCTGACGGTGAAAGGCGTGCAGGGCCATGTGGCCTATCCGCACAAGGCGCGCAACCCGATCCACCTGGCTGCGCCGATGCTGGCCGAACTGACGGCGCGGCAATGGGACGACGGCTACGAGAGCTTCCCGCCGACCAGCCTGCAGATCAGCAACATCCACGCCGGCACCGGCGCCAACAACGTGATCCCGGGCGAGCTGCAGGTGCTGTTCAACCTGCGCTACAACCCGCATTGGGATGCGCCGACGCTGGAAGCGGAGATCGCCGCGCTGCTGGCGCGGCATGGGCTCGATTACGCGCTGCGCTGGCATCGCAGCGGCGAGCCGTTCTACACGCCCGAAGGGCGGCTGCGCAGCGTCGCACGCGAGGTGCTGGGCGCGTTCGCCGGCGCGCCACCGGAGGAGAGCACCGGCGGCGGCACCTCCGACGCACGCTTCATCGCGCCGCTGGGCGCGCAGTGCATCGAGGTCGGCCCGGTCAACGCCAGCATCCATCAGGTCGACGAACACGTGCGCGTGGCCGACCTGGAGGCATTGCCGGACCTGTACCAGCGGCTGATCGAACGCCTGCTGGTGGCATGA	MSDVLDLTCELIARPSVTPDDAGCQALIAERLQRAGFTCEQLRFGAVDNLWATHGQGAPVLVLLGHTDVVPPGPREAWASDPFEPQVRDGVLYGRGAADMKSGVAAFVVAAERFVAAHPDHPGTLALLLTSDEEGDAIDGVRHVAKVFAERGERIDWCITGEPSSTERLGDLLRVGRRGSLSGTLTVKGVQGHVAYPHKARNPIHLAAPMLAELTARQWDDGYESFPPTSLQISNIHAGTGANNVIPGELQVLFNLRYNPHWDAPTLEAEIAALLARHGLDYALRWHRSGEPFYTPEGRLRSVAREVLGAFAGAPPEESTGGGTSDARFIAPLGAQCIEVGPVNASIHQVDEHVRVADLEALPDLYQRLIERLLVA				NA	NA	NA	NA	NA
BMS020_07657	360	yffB_2	COG1393	Protein YffB	ATGAGCACCACGCTGTACGGATTGAAGAACTGCGACACCTGCAAGAAGGCCACCAAGTGGCTCGACCGTTTCGAGGTGGCGTACACCTTCGTCGATTACCGCGAGCACAAGCCCAGCCCGGAAACGCTGGTCGAATGGGCCGACAAGGCCGGTGGCTTCGAGGCGCTGATCAACAAGTCCTCCACCACCTGGCGGCAGTTGCCGGACACCCGCAAGGGCGCGGCCAGTGCGGCGGAGTGGAAGCTGCTGCTGCGCGAATATCCGCAGCTGATCCGCCGGCCGCTGGTGCTGAAGGACGATGGCAGCCTCAGCCAGGGCTTTTCCGACAACGGCTTCAAGAAGCTGTTCGGCATCGGCTGA	MSTTLYGLKNCDTCKKATKWLDRFEVAYTFVDYREHKPSPETLVEWADKAGGFEALINKSSTTWRQLPDTRKGAASAAEWKLLLREYPQLIRRPLVLKDDGSLSQGFSDNGFKKLFGIG	PGPT0004720_3278	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004720-arsC1-K00537	NA	NA
BMS020_07658	978	xsa_1		Xylosidase/arabinosidase	ATGGGTGCAGGTGGGCGCATGGCGCGATGGGTGCTGCTGGCGGCGATCGGTGGGCTGGCAGGGCCGGCGGCGGCCGGAAACCCGGTCTTTCCCGGCTGGTACGCCGATCCGGAAGCGGCGGTGTTCGACAAGACCTACTGGATCTACCCGACCAGCTCGCGCGCATACGCCGCGCAGCGCAGCTTCGATGCGTTCTCCTCGCCCGATCTGCTGCACTGGACCAGACACGCCGACGTGCTGAAGATCGAAGCGGTCAGCTGGGCCAACAAGGCGCTGTGGGCGCCGTCGGTGGTGCGCAACCACGGCCGCTACTACTTCTTCTTCGCTGCCAACGACATCCAGCATGACGGCGAGCTTGGCGGCATCGGCGTGGCGGTCGCCGAGCGCCCGGACGGCCCGTACCGCGACCTGCTCGGCAAGCCGCTGGTCGGGACATTCCACAACGGCGCGCAGCCGATCGACCAGTTCGTGTTCCGCGACGACGATGGCAGCTGGTACATGGTCTACGGCGGCTGGAAGCACGCCAACATCGTGCGGCTGGCCGACGATTTCCGCAGCCTGCGGCCATTGCCGGATGGCACGTTGTTCAAGGAGATCACCCCGGCGCCGGAGTACGTCGAGGGGCCGATGATGTTCAAGCGCGGCGGGCGCTACTACTTCATGTGGTCCGAAGGCAGCTGGGGCGGGCCGGACTACTCGGTCGCCTACGCGATCGGTGACGCGCCGACCGGGCCGTTCAAGCGCATCGGCACGATCCTGCGCCAGGACCCGGCGGTCGCCACCAGCGCCGGCCACCACTCGCTGATCCACACGCCGGACGACGACGGCTGGTACATCGTCTACCATCGGCGCCCGCTGGGCGACGACCACCGGGACCACCGGGAGACGGCGATCGAGCGCATGGACTTCGACGCGCAGGGCCACATCCTGCCGGTGAAGATCACCCACGAAGGCGTGCCGGCGCATCGACTGCGCTGA	MGAGGRMARWVLLAAIGGLAGPAAAGNPVFPGWYADPEAAVFDKTYWIYPTSSRAYAAQRSFDAFSSPDLLHWTRHADVLKIEAVSWANKALWAPSVVRNHGRYYFFFAANDIQHDGELGGIGVAVAERPDGPYRDLLGKPLVGTFHNGAQPIDQFVFRDDDGSWYMVYGGWKHANIVRLADDFRSLRPLPDGTLFKEITPAPEYVEGPMMFKRGGRYYFMWSEGSWGGPDYSVAYAIGDAPTGPFKRIGTILRQDPAVATSAGHHSLIHTPDDDGWYIVYHRRPLGDDHRDHRETAIERMDFDAQGHILPVKITHEGVPAHRLR	PGPT0019091_257	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
BMS020_07659	1047	dapD_2		2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-succinyltransferase	ATGGCCACCAAGCCTGCGACCAAGAAGCCCGCCGCCAAGACCGCGGCCAAGCCCGCCACGACCAAGACGGCGGCCGTGAAGAAGGCGGCCAAGAAGCCGGTTGCCAAGCCGGTTGCCGCCGCCAAGCCGGCGCCGAAGGCGAAGGCGCCGGTCGCCAAGTCCGCCGCGCCCGCCGAGGCCGCGCGCCGCAGCCTGCGCAAGCCGCCGGCACCGGGCGTGGCCGAGCTGAAGTTCGGCATCGAGAGCGCCTTCGAGCGCCGTGCATCGCTGACGATGGACGAGATCGAAGGCTCGACCAAGGCGATGGTCAACCGCGTCATCGACGGGCTTGAGAGCGGCGAATTCCGCGTCGCCGAGCCGGATGGCCACGGTGGCTGGAAGGTCAACGAGTGGCTGAAGAAGGCGGTGCTGCTGTACTTCCGCGTCAACGACATGGCGGTGGTCGATGGCCGCCCGGCGCCGTTCTGGGACAAGGTCGAGGCCCGCTTCGCCGGCTTCGACGAGGCCAAGTTCCGCGCTGCCGGCGTGCGCGTGGTGCCGGGCGCGGTGGCGCGTCGCGGCAGCTATTTCGGCAAGGACGTGGTGCTGATGCCGAGCTTCACCAACATCGGCGCCTACGTCGGCGAAGGCACCATGGTCGACACCTGGGCCACGGTCGGTTCGTGCGCGCAGATCGGCAAGCATTGCCACCTGTCTGGCGGTGCCGGCATCGGCGGCGTGCTCGAGCCGCTGCAGGCCAGCCCGACCATCATCGAGGACCACTGTTTCATCGGTGCGCGCTCGGAAGTGGTCGAGGGCGTCGTGGTCGGCCACCACAGCGTGATCGGCATGGGCGTGTTCCTCAGCCAGTCCACGCGCATCTACAACCGCGCCACCGGCGAGATCAGCTATGGCTACATCCCGCCGTACAGCGTGGTGGTGTCCGGCTCGCTGCCGTCCAAGGACGGCACGCACTCGCTGTACTGCGCGGTGATCGTCAAGCAGGTCGATGCCAAGACGATCGGCAAGACCAGCGTCAACGAGCTGCTGCGCGGTCTGGCCGACTGA	MATKPATKKPAAKTAAKPATTKTAAVKKAAKKPVAKPVAAAKPAPKAKAPVAKSAAPAEAARRSLRKPPAPGVAELKFGIESAFERRASLTMDEIEGSTKAMVNRVIDGLESGEFRVAEPDGHGGWKVNEWLKKAVLLYFRVNDMAVVDGRPAPFWDKVEARFAGFDEAKFRAAGVRVVPGAVARRGSYFGKDVVLMPSFTNIGAYVGEGTMVDTWATVGSCAQIGKHCHLSGGAGIGGVLEPLQASPTIIEDHCFIGARSEVVEGVVVGHHSVIGMGVFLSQSTRIYNRATGEISYGYIPPYSVVVSGSLPSKDGTHSLYCAVIVKQVDAKTIGKTSVNELLRGLAD				NA	NA	NA	NA	NA
BMS020_07660	2610	glnD_2	COG2844	Bifunctional uridylyltransferase/uridylyl-removing enzyme	GTGAGCATCCTGCCGGCGGGCGTGGCCCCAGCGGCCGGCGCCGCCGGCGATGCCGAATGGGCGGCGCAGGCGCGCCAGGCGCTGGTGCATGCCGATGCGCGGCTCGAGCGGCGCTTCGACCATGGCGATCCGATCGACCGCCTGCTGGCGCTGCGCGCGCGCGCGGTCGACGAACTGATCCGCTCGGCCTGGCAGCACTGCCTGCCGGACGGCGCCGGTTTGTCGCTGCATGCGGTGGGCGGCTACGGGCGCGGCGAACTGTTCCCGCGCTCGGACATCGACGTGCTGGTGCTGGGCGAGCCCGAGCAGCAGCGTACGCATGAGCAGGCGCTGGCGCGGTTGTTCGCGCTGCTGTGGGATGCCGGTCTGCCGGTCAGCCACGCGGTGCGCTCGCCGGCCCAGTGCACCGAGGCCGGCGCCGACCAGACCGTGCTGACCGCATTGCTGGAATCGCGGCCGCTGCAGGCCGATGCGGCCGAGCGCGCGGCGCTGGCCGAGGCGATCTCGCCGGCGCGGGTATGGCCGGCGCGGGCGTTCTTCCTGGCCAAGCGCGAGGAACTGCAGACGCGCCACCAGCGGTTCGGCGATACCGCCGACAACCTTGAGCCGGACATCAAGGACGGCCCGGGTGGCTTGCGCGACCTGCACACGCTGGGCTGGATGGCGCTGCGCGCGTTCGGCGTGCGCGACCTGGAGGCGCTGGTGGGGCTCGGCCACGTCGGCGCCGACGAGGCGGCGGCGCTGAGCCGCGAGCGGCGGGAACTGGCGCGGCTGCGCTTTGGCCTGCATCTGGTCGCCAACCGGCCGGAAGAGCGGCTGCGGTTCGATTACCAGAAGACCCTGGCACAGCGCCTCGGGTACCGCGACGACCCGGAGAGCCTGGGCGTCGAGAAGATGATGCAACGCTTCTACCGCAGCGCCTCGATGGTGCGGCGGATCAGCGACCGCCTGCTGCAGCGGTTCGAGGAGCAGTTCGATGGCGAGGCGGTGCCGCAGTCGCTGGGCGACGGGTTCTCGCTGCGGCGCGGCTACCTGGCCGCCGATGCCGAGGATTGGCCGCGCGGCGACGTGCTGCAGGTGTTCGCGTTGTTCGCCAGCTGGGCGGCGCACGGCGAAGTGCGCGGGCTGCACTCGCTGACCGCGCGCGCGCTGGCCGAGGTGCTGCCGCGGCTGCCCGCCTACACGGTGGCACCGCCGGCCGCGCGCGAGCGCTTCATGGCGCTGATGCGCGGCCCGCGCGCGGTGGAGACGCTGGCGCGGATGGCCAGGCTGGGCGTGCTCGGGCAGTGGATCCCGGAGTTCGCCAAGGTCTCCGGGCGCATGCAGTTCGACCTGTTCCATGTCTACACCGTCGACCAGCACACGCTGATGGTGTTGCGCAACATCGCGATGTTCGCTTCCGGGCGCGCCGACGAGCGCTTCTCGATCGCGCATGAGGTATGGCCGCGGCTGCGCAAGCCGGAGCTGCTGCTGCTGGCGGGCCTGTTCCATGACATCGCCAAGGGCCGTGGCGGCGATCATTCCGAGCTGGGGGCGGTGGATGCGCGTGCGTTCTGCCACACCCACCTGCTCAGCGATGCCGACACCGAGCTGGTGGCCTGGCTGGTGGAGCAGCACCTGCGCATGTCGGTGACCGCGCAGAAGCAGGACATCTCCGATCCCGAGGTGATCCAGCGCTTCGCCGCGCTGGTCGGCACGCGCGAGCGGATGGACTACCTGTACCTGCTCACCTGCGCCGATATCGCCGGCACCAGCCCCAAGCTGTGGAACACCTGGAAGGACCGGTTGCTGGCCGACCTGTACTTCGCCACCCGTCGCGCGCTGCGCGAAGGGCTGGAAAATCCGCTGCCGCTGGACGAGCGCCTGCGCGAGGCGCGCGAGTCGACCCGCGTGCTGCTGCATGTGCAGGGACTGGACGATGCCATCATCGACCGCCAGTTCGGCGGCATGCCGGACGAGTGCTTCCTGCGCTTCCGTCCCGAACAGCTGGCCTGGCAGGCGCAGTCGCTGATCGAGGTCGAACTCGGCGGCACCCTGGTGCGCGCGCGGCGGGCGACGCCGGACACCGATGCGCTGGAAGTGTTCGTCTATTCGCCCGACCGCGATGGCCTGTTCGCCGCGATCGTCACCACGCTCGACCGCAAGGGCTACGGGATCCATCGCGCCCGCGTGCTGGATGCGCCGCACGGCGCGATCTTCGACACCTTCGAGGTGCTGCCCGCCGATGCCTACGCCGAGCGCGACCCTGAACGCTTGGCGGCGGCGCTGGCGACGGTGCTGGCCGGCGACCTGCAGCAGGTGCGTCCGTCGCGGCGGGTGATGCCGCGGCAGCTGCGCCACTTCCGCTTCGCGCCGCGGGTGGAGTTCCGCGACGACGCCAGCGGCCGCACCCGGCTGAGCCTGGTGGCGCCGGATCGCCCCGGGCTGCTGGCCGATCTTTCGCAGGTGCTGCGGCGCCAGCACCTGCGCGTCCACGACGCGCGTATCGCCACCTTCGGCGAGCGCGCCGAGGACCAGTTCCTGATCACCGACGAGCACGACCAACCGTTGCCCGACGCTTCCCGGCAGGCCCTGCGCGATGCGCTGGCCGCCTGCCTCGACCCCAAGTAG	MSILPAGVAPAAGAAGDAEWAAQARQALVHADARLERRFDHGDPIDRLLALRARAVDELIRSAWQHCLPDGAGLSLHAVGGYGRGELFPRSDIDVLVLGEPEQQRTHEQALARLFALLWDAGLPVSHAVRSPAQCTEAGADQTVLTALLESRPLQADAAERAALAEAISPARVWPARAFFLAKREELQTRHQRFGDTADNLEPDIKDGPGGLRDLHTLGWMALRAFGVRDLEALVGLGHVGADEAAALSRERRELARLRFGLHLVANRPEERLRFDYQKTLAQRLGYRDDPESLGVEKMMQRFYRSASMVRRISDRLLQRFEEQFDGEAVPQSLGDGFSLRRGYLAADAEDWPRGDVLQVFALFASWAAHGEVRGLHSLTARALAEVLPRLPAYTVAPPAARERFMALMRGPRAVETLARMARLGVLGQWIPEFAKVSGRMQFDLFHVYTVDQHTLMVLRNIAMFASGRADERFSIAHEVWPRLRKPELLLLAGLFHDIAKGRGGDHSELGAVDARAFCHTHLLSDADTELVAWLVEQHLRMSVTAQKQDISDPEVIQRFAALVGTRERMDYLYLLTCADIAGTSPKLWNTWKDRLLADLYFATRRALREGLENPLPLDERLREARESTRVLLHVQGLDDAIIDRQFGGMPDECFLRFRPEQLAWQAQSLIEVELGGTLVRARRATPDTDALEVFVYSPDRDGLFAAIVTTLDRKGYGIHRARVLDAPHGAIFDTFEVLPADAYAERDPERLAAALATVLAGDLQQVRPSRRVMPRQLRHFRFAPRVEFRDDASGRTRLSLVAPDRPGLLADLSQVLRRQHLRVHDARIATFGERAEDQFLITDEHDQPLPDASRQALRDALAACLDPK	PGPT0000660_1560	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	GLN-NITROGEN_REGULATORY_SYSTEM,PGPT0000660-glnD-K00990	NA	NA
BMS020_07661	834	map_4	COG0024	Methionine aminopeptidase	ATGCCGGCCAGCCACCGCAGCCATTCAGATCCGGCCAGGATCGGCGATAATCCCGGGATGAGCGTCAACCTGAAAACCAAAGAAGAAATCGAGCTGATGCGCGTCGCCGGCCGCCTGGCCGCCGAAGTGCTGGACATCGTCACCCCCCACGTGAAGGCGGGGGTGACCACCGCCGAGCTGGACCGCATCTGCCACGAGCACATCGTCAACGTGCAGGGCACGGTGCCGGCCAACGTCGGCTACCGTGGCTTCCCCAAGACCGTGTGCACCTCGGTCAACAACGTGATCTGCCACGGCATCCCGAGCGAGGCCAAGGTCCTGAAGGACGGCGACATCGTCAACATCGACGTCACCGTGATCAAGGACGGCTGGCACGGCGACACCAGCCGCATGTACTACGTCGGCGCACCGTCGGTGATGGCGCGGCGGCTGGTGGAGACCACCCGCGAGGCGATGTGGCGTGGCATCCGTGCGGTCAAGCCGGGCGCGACCCTGGGCGATGTCGGCAACGCGATCCAGCAGTACGCCGAGAGCGAGCGCTTCAGCGTGGTGCGCGAGTATTGCGGCCACGGCATCGGCAAGGTCTACCACGACGAACCGCAGGTGCTGCACTACGGTCGCCCGGGCGAAGGCCTGGTGCTGAAGCCGGGCATGACCTTCACGATCGAACCGATGATCAACGAGGGCACCCGCTACACCAAGGTGCTGCCGGATGGCTGGACCGTGGTCACCAAGGACCGCAAGTTGTCGGCGCAGTGGGAGCACATGATCGCCGTCACCGAGGACGGCGTGGACGTGCTGACCCTGTCGCCCAACGACACCTTGCGCGCGTGA	MPASHRSHSDPARIGDNPGMSVNLKTKEEIELMRVAGRLAAEVLDIVTPHVKAGVTTAELDRICHEHIVNVQGTVPANVGYRGFPKTVCTSVNNVICHGIPSEAKVLKDGDIVNIDVTVIKDGWHGDTSRMYYVGAPSVMARRLVETTREAMWRGIRAVKPGATLGDVGNAIQQYAESERFSVVREYCGHGIGKVYHDEPQVLHYGRPGEGLVLKPGMTFTIEPMINEGTRYTKVLPDGWTVVTKDRKLSAQWEHMIAVTEDGVDVLTLSPNDTLRA	PGPT0020010_6817	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
BMS020_07662	534			hypothetical protein	ATGCACACAGCTACCACGCGCGTCCTGCAGCTGTCGGGCCTAGCCCTTGCACTGGCCCTGGGGCCGGCCGGGGCCGCCGATACCACCACGTTCAACGTCAAACTGATCATCACCAAGGCCTGCACGATCACCGCCGCGGCCGCGACCGACGTCGACTTCGGCAGCAGCCTGGCCGACGCGACCACGGAACTGAATGCGCAGGGCAGCGTCACCGCCCGCTGCAGCGCCACCACCCCCTATACGATCGCCCTGAACGCCGGCGCCAACGCCAGCACCGCCAACGACGTCACCACGCGCCGCATGAAGAACACCGACGCGGCGGTGACCACCAACAACTACGTCGCCTATCAGCTCTACAGCGACTCCGGGCGCACCGCGGTGTGGGGCGCGACCACCGGCACCAACACCCAGGCCGGCACCGGCACCGGCGCCAACCAGGTCTACCCGGTGTACGGCCGGGTCGCCGACCCCAGCGCCAACAACGCCACACCCGGCAATTACCAGGACACCGTCACCGCGACGATCACCTATTGA	MHTATTRVLQLSGLALALALGPAGAADTTTFNVKLIITKACTITAAAATDVDFGSSLADATTELNAQGSVTARCSATTPYTIALNAGANASTANDVTTRRMKNTDAAVTTNNYVAYQLYSDSGRTAVWGATTGTNTQAGTGTGANQVYPVYGRVADPSANNATPGNYQDTVTATITY				NA	NA	NA	NA	NA
BMS020_07663	762			hypothetical protein	ATGCTCAGCGCGCCAGGCACGTTGCGGTGGCCGGCAGCGCTCGCGGCCATGTCCCTGTTGTTGGCCGGGACCTGGGCGACGCTCGCAGGCGCAGCCAGCCTCCAGGTCTCGCCCACCCTGCTCGAACTGCAGCCCCGCCAGAATGCCGGCGGGCTGTGGCTGAGCAACAGCGGCACCCAGCCGCTGCAGGTGCAGATCCGGCTGTACCGCTGGACCCAGCAGGACGGCGCCGACGTGCTGCAGCCGAGCGACGCGCTGCTGGCCAGCCCGCCGATGCAGCAACTGGCCGCCGGCCAACGCCAGCTGGTGCGGATCGTGCGCGCCGACGACGCACCACCGGCCACGCAGGCCAGCTACCGGGTGATCGTCGACGAGCTTCCCAACACCGCCCCCGGCCGCACCGGCATGCAGTTCGTGCTGCGCTACTCGGTGCCGATCTTCGTTGATCCCGCGCCCGGCCCGGCGCTGCAGCCGCAGCTGCGGGCGCGGCTGCTGGACGTGGGCGGCATGGCGGTGCTGGAAGTCAGCAACCACGGCGCCGGCTACGCCCAGCTCGCCGACCTCGGCTATGCCGCCGGCGCGCCCGAGCAGGCGACGCCGCGCATGGTGCGCTCCGGGCTGATCGGCTATGTCCTCGCCGGCCAGACCATGCGCTGGCCGCTCGACCACCCCATCGACAGCTTCCAGGACGGCACCTTCAGCGCGCGGGTCAATGGTGAGACGCAACAGACGCCCCTCCCGACGGCGCCCGCGGCTCGCTGA	MLSAPGTLRWPAALAAMSLLLAGTWATLAGAASLQVSPTLLELQPRQNAGGLWLSNSGTQPLQVQIRLYRWTQQDGADVLQPSDALLASPPMQQLAAGQRQLVRIVRADDAPPATQASYRVIVDELPNTAPGRTGMQFVLRYSVPIFVDPAPGPALQPQLRARLLDVGGMAVLEVSNHGAGYAQLADLGYAAGAPEQATPRMVRSGLIGYVLAGQTMRWPLDHPIDSFQDGTFSARVNGETQQTPLPTAPAAR	PGPT0016035_643	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016035-fimC-K07346	NA	NA
BMS020_07664	2334	htrE_4	COG3188	Outer membrane usher protein HtrE	GTGCTCGCCTGCTGGATGGCCAGCCAGGGGCTGTCTGGCGCGCGTGCCGCCAACGAGGCCGGACCGGCCACCGCCGCCGACGTGCTGCTGCCGGCGCCAACGCCACTGACCGCCACCCAGACCGTCTATCTCGACGTGACCCTCAACCAGAGCCCGCGCGGATTGCTGCCCTTCACCGACGTCGCCGGCCGCCTGCAGGCACCGGCCGGCACGCTGCGCCAGCTCGGCTTCCCGGTCCAGGGCGATGCGCCCGCCTTCCTGGACCAGATCGCCGGCGCGGTGGTGCGCTACGACACCGCGCTGCAGACGCTGGCGCTGGACGTGCCGCTGGAGCGGCTGGCGCTGCCGACCACCCGGGTCGGCGCGACGGCCGATGCCGCCCCGCGCGCCAGCGCCTCGCCCGGCGCCACGCTGGGCTACGACCTGTACGCCAGCCACACCGATGGCCGCGACAGCCTGAGCCTGACCAGCCAGTTGCAGGTGTTCGGGATCGGCGCAGGCAGCCTCGCGACCAGCACGCTGATGCGCACCTACCAGCAGGCCGACCGCGGCTGGCGCCACGATGCGGTGCGGCTCGACAGCCGCTGGGCGCTGGACCTGCCCGAGCGCGCGCTGACCCTGACCGTCGGCGACATCTACAGCGGCTTCCTCGACTGGAGCCGCCCGGTGAGGCTGGGCGGCATCCAGATCGGCCGCAACTACGGCCTGCAGCCGTACCGGGTGCTGACCCCGACGCCGGCATTCCTCGGCGAAGCGGTGGTGCCCTCGAGCGTGGAGCTGTACGTCGACGGCCTGCGCCAGTACAGCGGCGAGCTGCCGGTCGGCCCGTTCCAGCTGGCCGCCCAGCCCGGCATCAGCGGCACCGGCACCGCCCAGGTGGTCATCACCGATGCCTACGGACAGATGCGCACGCTGGATTTTTCCTTCTATGGCACCCAGCAGCTGCTCGCCGACGGCCTCTCGGACTGGTCCTTCGGTGTGGGCCAGCTGCGCGAGGATTACGGCGTCCGCTCGTTCGGCTACGACCCACGCACCGTCGCCAGCGCCACCTGGCGCTACGGCCTCGACGACCGTTTCACCATCGAAAGCCATGCCGAGGGAGGTGGCGGCGTGCGCAATGCCGGCGCCGGCGGCCTGTGGCTGCTGGGCCGCGCCGGCGTACTCAGCGCGGCCTATGCCGCCAGCCGCATGGATGGCCTGTCCGGCCGCCAGACCTCGCTCGGCTACAGCTGGAACAACCGCCGCTTCAACTTCAACCTGCTGTCGCGGCGCACCCACGGCGAATACCGCGACCTCGGCGCACTCCAGGACAGCCAGGCACCGAGCGTCAGCGAGCAGGCCACCGCCGGCATCAATCTGGGCCGAGCCGGATCGCTCAGCGCCAGCTACCTGCGCCTGGACTATCCGGAGCAGCCGCGCAGCCGCTATGCCAGCCTGTTCTGGTCGGGCAGCGTCGCGCGGCGCTGGTCGGCCTACGCCTCGTTCAACCAGGACCTGGACGATGCCAGCGAACGCAGCGTCTACCTGTCGCTGTCGGTCGACCTCGGCGACAGCCGCCAGGCCAGCGTCGCCGGGCAGCGCAATGGCGACACCCAGCTGTTCACCGCCGACGTGATGAAGCCCGTGCCGGGCGACGGCAACGGCGACGGCTACGGCTGGCGCGTGCAGGCGCGCGATGGCGACAACGGAGCCGGCGGGCTGGCCGAGATCGGCAAGCTTGGCCGCAACGGCCGCTATTCGCTGGGCGTGTCCAGCCAGGGCGGCACCACCGACGCCTATGCCAGCGCCAGCGGCAGCCTGGTGTGGATGGGCGGCCACGTCTTTGCCGCGCGCGAGATCCCGGATGCGTTCGCGCTGGTGTCCACCGGCTATCCGGGGGTACCAGTGCAGCTGGAGAACCGCGAGCTTGGCCGCACCGACGACCACGGCCTGCTGCTGGTGACGCCGCTGTTGTCGTGGCAGCGCAACCGCGTGTCGATCGACACCATGGCATTGCCCGGCGACGTGCGCGCCGACCGGGTCGAGGCGATCGCAACCCCGCGCCAGGGCGCCGGCGTGCTGGTCGACTTCGCGCTGCGCCAGGTGCGCGGGGTCATCGTCGTGGTGCACGCAGCCGACGGCACCGCGCCAGCGGCCGGCACCCGCGTGCTGCGTGACGGCCATCCCGATGGCGTGGTCGGCTACGACGGGCAGGTGTACATCGAGGATGTCGACGCAGTCACCATGCTGGTCCTGGTCGGCGAACACGGGCGCTGCCAGGTGCAGGTGCCGCCTCCGCCGCCCGGGGCGCGCCGGATCGGCCCGCTGGCCTGCGTCGCGGAGCCGGCGCCGTGA	MLACWMASQGLSGARAANEAGPATAADVLLPAPTPLTATQTVYLDVTLNQSPRGLLPFTDVAGRLQAPAGTLRQLGFPVQGDAPAFLDQIAGAVVRYDTALQTLALDVPLERLALPTTRVGATADAAPRASASPGATLGYDLYASHTDGRDSLSLTSQLQVFGIGAGSLATSTLMRTYQQADRGWRHDAVRLDSRWALDLPERALTLTVGDIYSGFLDWSRPVRLGGIQIGRNYGLQPYRVLTPTPAFLGEAVVPSSVELYVDGLRQYSGELPVGPFQLAAQPGISGTGTAQVVITDAYGQMRTLDFSFYGTQQLLADGLSDWSFGVGQLREDYGVRSFGYDPRTVASATWRYGLDDRFTIESHAEGGGGVRNAGAGGLWLLGRAGVLSAAYAASRMDGLSGRQTSLGYSWNNRRFNFNLLSRRTHGEYRDLGALQDSQAPSVSEQATAGINLGRAGSLSASYLRLDYPEQPRSRYASLFWSGSVARRWSAYASFNQDLDDASERSVYLSLSVDLGDSRQASVAGQRNGDTQLFTADVMKPVPGDGNGDGYGWRVQARDGDNGAGGLAEIGKLGRNGRYSLGVSSQGGTTDAYASASGSLVWMGGHVFAAREIPDAFALVSTGYPGVPVQLENRELGRTDDHGLLLVTPLLSWQRNRVSIDTMALPGDVRADRVEAIATPRQGAGVLVDFALRQVRGVIVVVHAADGTAPAAGTRVLRDGHPDGVVGYDGQVYIEDVDAVTMLVLVGEHGRCQVQVPPPPPGARRIGPLACVAEPAP	PGPT0016040_2674	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016040-fimD|fimC|mrkC|htrE|cssD-K07347	NA	NA
BMS020_07665	1038			hypothetical protein	GTGAGCCCACCGCGCCGGCTGTGGGCGCCGCTGGTCATCCTGGCCGCACTGCTGCTGCCCGCCGCCGCCCGCGCCGCGACCACCTGCACCCTCGGCAGCCCGACCCTCAGCTTCGGCGCGGTCGCCGGCAACCAGGTCGACGCCACCACCACGTTCAACATCAACTGCAGCACCGGCGCGGTGGCCGTGGCGTCGGATGTGAAGGTGCGCTTCTGCATCGGCCTGGGCGCCGGCAGCGGCGGCACCGCGGTCAGCCCGCAGCGCCAGCTCGCCAACGCCAGCAACGACAAGCTTGCCTACCAGTTGTATACCGACGCCAGCCGCAGCCAGGTATGGGGCAGCGGCAGCGCCTCCTCGCCGGCCTGGGCCTCGTTCACGCTGACCTACGGCGCCCTGCTGCTGGGCGGCTCAGGCAGCGGCACGATCACGCTCTATGGCCGCTACTTCGCCGGCCAGACCCTGTCGGCGGGCAGCTTCAGCAGCCTGTTCAGCGGCAGCGCGGTCAGCTTCCAGTACGCCTACAACGAACCGCTGCTGCTGGGGCTTGCCGACTACCCGGCAAGCTGCACCACCCTCGCCCCCACCGCGGCCGGCAACTCCGGCCTGCTGACCGGCGCGATGTCGCTGAACGTGAGCGCCAGCGTCGCCCCGCAATGCAGCGCCTACGTCACCACCGACATGGATTTCGGCAGCAATGCCGGCACCGTCGCGGCCAATATCGACCGGACATCGACCATCGGCCTGACCTGCATCAACCGCACCGCCTACACCGTCGGCCTGAACAACGGCGACAACGCCAGCGGCAGCACCCGCAGGATGCGCATCGCCGGCACCGCCTATTACCTGCCCTATGAGCTCTACAGCGATGCCGGGCGCAGCGTGCGCTGGGGCAACACGATCAACACCGACACCGTTGCCGGCACCGGCACCGGCAGCGCCCAGACCCTGACCGTCTACGGGCGGGTGCCACCGACCGGGGCCACGGTGCCCGCCCAGGGCAGCTACGGCGACACCATCACGGTCACCATCACCTACTGA	MSPPRRLWAPLVILAALLLPAAARAATTCTLGSPTLSFGAVAGNQVDATTTFNINCSTGAVAVASDVKVRFCIGLGAGSGGTAVSPQRQLANASNDKLAYQLYTDASRSQVWGSGSASSPAWASFTLTYGALLLGGSGSGTITLYGRYFAGQTLSAGSFSSLFSGSAVSFQYAYNEPLLLGLADYPASCTTLAPTAAGNSGLLTGAMSLNVSASVAPQCSAYVTTDMDFGSNAGTVAANIDRTSTIGLTCINRTAYTVGLNNGDNASGSTRRMRIAGTAYYLPYELYSDAGRSVRWGNTINTDTVAGTGTGSAQTLTVYGRVPPTGATVPAQGSYGDTITVTITY				NA	NA	NA	NA	NA
BMS020_07666	282			hypothetical protein	ATGCCCTCCCGTCCCGTCCTCCTCCTGGCGATGCTCGCCGCATCGCCCGTTGTCGCGCCTCGCGCCCATGCCGAGCAGAAGCAGTCCCAGTCCGGTCTCGGCCTGCGCCTGCGCGTGCTCGCCCACTGCCAGCCCGACTCCCACGCGGCCAGCTGTCCACCCGGCCCGCAGGTCGATTCGGCAGCGCACCCGGCCCCGCCGCAGGTGCGCGCCCTGACCCCACCCTCGCCGCAGCAGGCAGCACTCGCCCGCGGCCTGGTGTTTTCGACCCAGGCCTTCTGA	MPSRPVLLLAMLAASPVVAPRAHAEQKQSQSGLGLRLRVLAHCQPDSHAASCPPGPQVDSAAHPAPPQVRALTPPSPQQAALARGLVFSTQAF				NA	NA	NA	NA	NA
BMS020_07667	729			hypothetical protein	ATGCGCCGCCTGCCGCTGGCACTGGGATGGGCCGCCGCACTGGCGGTCGGCCCGGTACTCGCGGACGGCATCACCCTGGACCCGCAGACCGTGCGCCTGCCTGCCGACGCGCAGGCGAGCGAGATCTGGCTGGACAACCGCGGCGAGCACCCCTGGAGCGCAAGCGCCCGGATCTACCGCTGGAGCCAGCCCGACGACAGCGAGTCGCTCGCCGCCACTGCCGACATCGCGGTCAGCCCCCAGCATTTCAGCATCGCCCCGCACGGGCGCCAGCGCCTGCGCCTGGTCAGGCTGGGCGCCATCCCGACGCAGGAAACCGGCTACCGCCTGGTCATCGAGGAAGCCACCCAGGCCACTGCCGCCCCCGACCAGCCGCTGCTGCGCTATTCGACCGCGGTGTTCCTCGATCCCGCCGGACCCAGCGCCGCAGCGGCCGCTCCCCAGGTCGAGATCACGCTGGCCGGCGCAGGCGCCAGCCCCGCGCTGCGCCTGCGCAACAGCGGCAGCAGCCACGCCCGCCTCAGCGACCTGGCCTATGTCGACGCCGCCGGCGCGCGCCAGGTACTGATCCAGGGACTGGCCGGCTATATCCTGGCCGGCGCCCGCCGGACCTGGCCGCTCCCGCCCCGTGACGATGGCTATCTTCACGGCCGCTTCGAAGCCCGGATCGGCGACCAGCCCGCCGCCGCCCTCCCCGCCGTTGCTCCCGAGGACCAGACGGGGCTATAA	MRRLPLALGWAAALAVGPVLADGITLDPQTVRLPADAQASEIWLDNRGEHPWSASARIYRWSQPDDSESLAATADIAVSPQHFSIAPHGRQRLRLVRLGAIPTQETGYRLVIEEATQATAAPDQPLLRYSTAVFLDPAGPSAAAAAPQVEITLAGAGASPALRLRNSGSSHARLSDLAYVDAAGARQVLIQGLAGYILAGARRTWPLPPRDDGYLHGRFEARIGDQPAAALPAVAPEDQTGL	PGPT0016035_957	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016035-fimC-K07346	NA	NA
BMS020_07668	801	rpsB_2	COG0052	30S ribosomal protein S2	ATGCCTCAGGTCACCATGCGTCAGATGCTGGAAGCCGGCGTCCACTTCGGCCACCAGACCCGCTACTGGAACCCCAAGATGGGCCCGTACATCTTCGGCGCCCGCGGCAAGATCCACATCATCAACCTCGAGAAGACCGTTCCGCTGTTCAACGACGCGATGAACTTCCTCTCGAGCGTCGCCCAGAAGCGCGGCACCGTGCTGTTCCTGGGCACCAAGCGCAGCGCCCGCGACTCCATCAAGGAAGAAGCCGAGCGTTGCGGCATGCCGTTCATGAACCAGCGTTGGCTGGGCGGCACCCTGACCAACTTCCGCACCGTGAAGCAGTCGGTCGCCCGCCTGAAGGAACTGGAAGCGGCCGAGACCGACGGCACCTTCGAGAAGCTGGTCAAGCACGAAGTGCTGGGCCTGCGCCGCGAGCGCGACAAGCTGGAAGCCTCGCTGGGCGGCATCAAGGACATGAACCGCCTGCCGGACGCGATCTTCGTGATCGACATCGGCCATGAAGACATCGCCATCAAGGAAGCCAAGAAGCTCGGCATCCCGGTGATCGCGGTCGTCGACACCAACTACAACCCGGAACTGGTCGATTACGCGATCCCGGGCAACGACGACGCCATCCGCGCCGTGCAGCTGTACGCCCGCGCCGCCGCCGACGCCGTGCTGGAAGGCAAGGCTGCCGCTCCGAACGCCGCTTCGGTGCGTGAGGAAGAGTTCGCCGAGGCCGGCGCCGACGAAGGCAAGGGCCGCCGCGCCCCGGCCAAGAAGGGCAAGAAGGCCGACGAGGCCGCTGCCGAGTAA	MPQVTMRQMLEAGVHFGHQTRYWNPKMGPYIFGARGKIHIINLEKTVPLFNDAMNFLSSVAQKRGTVLFLGTKRSARDSIKEEAERCGMPFMNQRWLGGTLTNFRTVKQSVARLKELEAAETDGTFEKLVKHEVLGLRRERDKLEASLGGIKDMNRLPDAIFVIDIGHEDIAIKEAKKLGIPVIAVVDTNYNPELVDYAIPGNDDAIRAVQLYARAAADAVLEGKAAAPNAASVREEEFAEAGADEGKGRRAPAKKGKKADEAAAE				NA	NA	NA	NA	NA
BMS020_07669	879	tsf_2	COG0264	Elongation factor Ts	ATGGCTGAGATCACCGCTTCCCTGGTCAAGGAACTGCGCGAGCGCACCGGCGCCGGCATGATGGAGTGCAAGAAGGCGCTCACCGAAAACAATGGCGACATCGACGCCGCGGCCGAGTGGCTGCGCAAGTCGGGCCTGGCCAAGGCCGACAAGAAGGCCGACCGCGTCGCCGCCGAAGGTCGCGTCGCCGCGGCCCAGGAAGGCAACAAGGCCGTGCTGGTCGAGATCAACTCCGAGACCGACTTCGTCGCCAAGGACGCCAACTTCATCGCCTTCACCGACGCCGTCGCCCAGGCCGCCCTGGCCTCCGGCGCCGCCGATGCCGAGGCCCTGAAGGCCGCCAAGCTGCCGTCCGGCGAGACCGTCGAGGAAGCCCGCGCCGCCGCCGTCGCCAAGCTCGGCGAGAACATCCAGATCCGCCGCCTGGCGCGCCTGGACACCGCCAACACCGTGGCCGCCTACGTCCACGGCGGCAAGATCGGCGTGCTGGTCGAACTGGCCGGCGGCGACGTCGAGCTGGCCCGCGGCCTGGCGATGCACGTGGCCGCGATGAACCCGCCGTACAACAAGGCCGCCGACGTGCCGGCCGAGTTCGTGGCGAAGGAAAAGGAAATCGAGCTGGCCAAGATGTCTGAGAAGGACAAGGCCAAGCCGGCCGAGATCCTGGAGAAGATCATCTCCGGCAAGATCAACAAGATCGTCAACGAAGTGACCCTGTACGGCCAGGCCTACGTGCTGGACAGCGACAAGTCGGTCGAGCAGGCGGTCAAGGCCGCCGGCGGCGACGTGGTCGGCTTCCAGCGCCTGGTGGTCGGCGAAGGCATCGAGAAGGTGGTGGAAGACTACGCCGCCGAAGTCGCCAAGGCGATGCAGGTCTAA	MAEITASLVKELRERTGAGMMECKKALTENNGDIDAAAEWLRKSGLAKADKKADRVAAEGRVAAAQEGNKAVLVEINSETDFVAKDANFIAFTDAVAQAALASGAADAEALKAAKLPSGETVEEARAAAVAKLGENIQIRRLARLDTANTVAAYVHGGKIGVLVELAGGDVELARGLAMHVAAMNPPYNKAADVPAEFVAKEKEIELAKMSEKDKAKPAEILEKIISGKINKIVNEVTLYGQAYVLDSDKSVEQAVKAAGGDVVGFQRLVVGEGIEKVVEDYAAEVAKAMQV				NA	NA	NA	NA	NA
BMS020_07670	1500			hypothetical protein	ATGTCCCCTGACCTGAAGGCCACCCTGGCCTACTGCCGCAACCTGCCCTCGCCGCCGGGCATCGCCCTGCGCGTGATCGAGCTGGCGCAGGATCCCGAAGTGGACATGGCCACTGCGGCCGATGTGATCGCGATGGATATCGCGCTCAGTTCGCGCATGCTGCGCGTCGCCAACTCGCCGCTCTACGCCAGTCGCCGCCGGATCGAGAACCTCGGCCAGGCGCTGACCATGCTCGGCCTCAACGCCACCCTGAGCCTGGCGCTCGGCTTCACCATGGTGCAGGGACTGCGCAGCGCCTTCGGCCACCACCCGCTGCACGAGCGCATCTGGCGCCGCAGCGTGATCACCGCGATGGCCGCGCGCGTGCTCGGCCAGGCGCGCGGGCTGCGCAAGCCGGAAGAATTGATGCTGGCCGGCCTGCTGCAGGACATCGGCAGCCTGGCGCTGCTGGAAGCCGCCCCGGACCGCTACCCGGCGCTGCTCGAGGCCAGCACCGGCAACGACGCGCTGATCGCCGCCGAGCGCGCCATCCTGGGCTGCGACCACGCCGAGGTCGGCGCCTGGCTGGCGCAGGAATGGCACCTGCCCGAATACCTGCGCCACGCGATCGCCCGCAGCGAGTCCGAGCCGCAACCCACCGATCCGTTCACCGCCTGCGTGGCGCTGTCCGGCACGCTGGCCGAAATCTGGCTGTCGGCGGACCCGGCCGAGGCACAGGCAGCCGCGTTCGCGCGGGTCGCGCCAGCGCTGGACCTGGACGAGGAACGCTTCGAGAAGGTGCTCGAACGCATCGGCGAGTCGCTGCCGGAGATCGCCGCGCTGTTCGACGTGCGCATTCCGCAGCCGGAGAAGGTCGAATCGATCTTCGAGCAGGCGCGCGAGTTGGCCACGCTGCGCAACCTGCGCGAACTGCAGGAAGTGGCCGAGGCGCGCCGCCAGAGCGACGATTCGGAGAACCGCATCCGCCACCTCGCCGAGCAGGCCAGCCGCGACGCCTTGACCGGGGTATTCAACCGCCACCAGCTCGACAACACCCTGGCCCACGAATTCGACATCGCCGCGCGCAACGCCTGGCCGCTGTCGGTGGCCTTCGTCGACCTGGACGACTTCAAGCGCGTCAACGACGCCCACGGCCACCTGGTCGGCGACGAAGTGCTGCGCAACTTCGCCGACACCCTGCGCCGGATGCTGCGCAGCAGTGACGTGATCGCCCGCTATGGCGGCGAGGAGTTCCTGGTGATCCTGCCCAACACCAGCGAGACGGCGGCGCTGGCAGTGCTGCAGCGGATCCTCGCCGAGACCGTGCGCACGCCGATGGCGCAGCTGTCCGGCGGCCCGTTGCACATCACGTTCTCGGCCGGGCTGGCCACGCACGGGCCGCAACACCGCTTCGACGACATCGAGAGCCTGCTGCGCGCCGCCGACAACGTGCTCTACAGCGCCAAGCACCGCGGCCGCAACCAGGTCACCGTCTACGACCCGGCCGCGCCGGAAAGCTGA	MSPDLKATLAYCRNLPSPPGIALRVIELAQDPEVDMATAADVIAMDIALSSRMLRVANSPLYASRRRIENLGQALTMLGLNATLSLALGFTMVQGLRSAFGHHPLHERIWRRSVITAMAARVLGQARGLRKPEELMLAGLLQDIGSLALLEAAPDRYPALLEASTGNDALIAAERAILGCDHAEVGAWLAQEWHLPEYLRHAIARSESEPQPTDPFTACVALSGTLAEIWLSADPAEAQAAAFARVAPALDLDEERFEKVLERIGESLPEIAALFDVRIPQPEKVESIFEQARELATLRNLRELQEVAEARRQSDDSENRIRHLAEQASRDALTGVFNRHQLDNTLAHEFDIAARNAWPLSVAFVDLDDFKRVNDAHGHLVGDEVLRNFADTLRRMLRSSDVIARYGGEEFLVILPNTSETAALAVLQRILAETVRTPMAQLSGGPLHITFSAGLATHGPQHRFDDIESLLRAADNVLYSAKHRGRNQVTVYDPAAPES				NA	NA	NA	NA	NA
BMS020_07671	723	pyrH_2	COG0528	Uridylate kinase	ATGTCCGAACTCGCCTATCGCCGCATTCTTCTGAAACTTTCCGGGGAGGCGCTGATGGGGGACGAGGACTACGGCATCGACCCCAAGGTCATCAACCGCCTCGCCCATGAGGTGATCGAAGCCCAGCAGGCCGGCGCGGAAGTGGCGCTGGTGATCGGCGGCGGCAACATCTTCCGCGGCGCCGGCCTGGCCGCCGGCGGCATGGACCGGGTCACCGGCGACCAGATGGGCATGCTCGCCACCGTGATCAACGCGCTGGCGATGCAGGACGCGCTGGAGAAGCTCGGCGCCAAGGTCCGCGTGATGAGCGCGATCAAGATCAACGACGTCTGCGAGGACTTCATCCGCCGTCGCGCGATCCGCCACCTCGAAAAGGGCCGCATCGCGATCTTCGCCGCCGGCACCGGCAACCCGTTCTTCACCACCGATTCCGGCGCCGCGCTGCGCGCGATCGAGATGGGCGCCGACCTGCTGTTGAAGGCGACCAAGGTCGACGGCGTCTACGACAAGGACCCGAAGAAGCACGCCGACGCGGTCAAGTACGACAGCCTGAGCTACGACCAGGTCATCATCCAGGGCCTGGAAGTGATGGATACCGCCGCGTTCGCGCTGGCGCGCGACAGCGACCTGCCGCTGCGCATCTTCGACATGAGCCAGCCGGGCGTGCTGCTGCGCATCCTGCGCGGCGAGAAGATCGGCACCCTGGTCCAGGGCCGCGGCTGA	MSELAYRRILLKLSGEALMGDEDYGIDPKVINRLAHEVIEAQQAGAEVALVIGGGNIFRGAGLAAGGMDRVTGDQMGMLATVINALAMQDALEKLGAKVRVMSAIKINDVCEDFIRRRAIRHLEKGRIAIFAAGTGNPFFTTDSGAALRAIEMGADLLLKATKVDGVYDKDPKKHADAVKYDSLSYDQVIIQGLEVMDTAAFALARDSDLPLRIFDMSQPGVLLRILRGEKIGTLVQGRG	PGPT0021205_2428	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021205-pyrH-K09903	NA	NA
BMS020_07672	558	frr_2	COG0233	Ribosome-recycling factor	ATGCTCAACGAGATCAAACAAGACGCCCAGGCGCGGATGGCCAAGAGCATCGAGGCTCTCCGCCATTCGCTGACCACGATCCGCACCGGCCGCGCCTCGCCGTCGTTGCTGGACGGCATCAAGGTCAAGGCCTACGGCAGCGACACCCCGCTCAACCAGGTGGCCAGCATCAGCGTCTCCGAAGGGCGTTCGCTGGTGATCACCCTGTTCGACAAGGGCATGATCAAGGAAGTCGAGAAGGCCATCTACGCCTCCGACCTGGGCCTGACCCCGACCGTGATCGGCACCGTGGTGCGCCTGAACCTGCCTCCGCTGACCGAAGAGCGCCGCAAGGAGCTCGCCAAGACCGTGCACGGCGAAGGCGAGGACAGCAAGGTCGCGATCCGCAACATCCGCCGTGACGCCAACCAGCAGGTCAAGGATCTGCTGAAGGACAAGGCGATCACCGAGGACGAGGTCCGCCGCGGCGAAGAAGACATCCAGAAGATCACCGACAAGGCGATCAAGGACGTCGACGACGTGGTCAAGGCCAAGGAACAGGAACTGATGTCGGTCTGA	MLNEIKQDAQARMAKSIEALRHSLTTIRTGRASPSLLDGIKVKAYGSDTPLNQVASISVSEGRSLVITLFDKGMIKEVEKAIYASDLGLTPTVIGTVVRLNLPPLTEERRKELAKTVHGEGEDSKVAIRNIRRDANQQVKDLLKDKAITEDEVRRGEEDIQKITDKAIKDVDDVVKAKEQELMSV				NA	NA	NA	NA	NA
BMS020_07673	762	ispU_2	COG0020	Ditrans,polycis-undecaprenyl-diphosphate synthase ((2E,6E)-farnesyl-diphosphate specific)	ATGTCCACCGACAACGACCCACGCCCGCTGCCCCGGCACGTTGCCATCATCATGGATGGCAACGGTCGCTGGGCGCAGCGCCGTCGTCGCCCGCGCATGATCGGCCACCGCGCTGGCGCGCGCGCGGTCAACCGCACCATCGACGTGTGCCTGTCACGCGGCATCGAGGCGTTGACCCTGTTCGCCTTCTCCAGCGAGAACTGGGGCCGGCCGCAGGACGAGGTCGACGCGCTGATGAAGCTGTTCCTGCACGCGCTGGACCGCGAAGTGGCCGAGCTGCACCGGCGCGGTGTGCGCGTGCGCTTCATCGGCGACCGCTCGCGCTTCGCCGCCGGCATCCGCCAGCGCATGCAGCAGGCCGAGGACAGCACCGCCGGCAACAGCCGCCTGCACCTGTCGATCGCCGCCAGCTACGGTGGCCGACAGGACATCGCGCTGGCCGCGCGCGCACTCGCCGAGGAGGTCGCCGCCGGCCGCCTGGCGCCCGAGCAGATCGACGAGACCCTGCTGGCCCAGCGCGTGGCGCTGGCCGACCTGGCGCCGCCGGACCTGTTCATCCGCACCGGCGGCGACACCCGCATCAGCAACTTCCTGCTGTGGCAGCTGGCCTATACCGAACTGTGGTTCACCGAGACGCTGTGGCCGGATTTCGACGAGGCCACGCTGCAGCAGGCCCTGGACGACTATGTCCGGCGTGAGCGCCGCTTCGGGCTGACCAGCGCCCAGGTTGCCTCCGGCACCACCGAGACCCTTCCCGCATGA	MSTDNDPRPLPRHVAIIMDGNGRWAQRRRRPRMIGHRAGARAVNRTIDVCLSRGIEALTLFAFSSENWGRPQDEVDALMKLFLHALDREVAELHRRGVRVRFIGDRSRFAAGIRQRMQQAEDSTAGNSRLHLSIAASYGGRQDIALAARALAEEVAAGRLAPEQIDETLLAQRVALADLAPPDLFIRTGGDTRISNFLLWQLAYTELWFTETLWPDFDEATLQQALDDYVRRERRFGLTSAQVASGTTETLPA	PGPT0024180_1769	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024180-uppS|ispU-K00806	NA	NA
BMS020_07674	822	cdsA_2	COG0575	Phosphatidate cytidylyltransferase	ATGACCAAGACCCGCGTCATCGCCGCGCTGATCATGGCGCCCGCCGCCATCTGCGCGATCTTGCTGCTGCCCACCGACTGGCTCGCCGCGCTCGCCGCGCTGGTGTTCCTGGTCGGCCTGTGGGAGTGGCTGCGTCTGTCCGGCGTCGAGGACAGCCTGCCGCGCACGGTGCTGCTGTGCCTGAACCTGCTGGTGATGGTGCTGCTGGTCTGGGCCTCGGCCGGATCGATGGTGCTGTTCCAGATCGCCACCCTGGTCGGCGTTGGCTGGTGGCTGCTGGCGCTGCTATGGCTGCGCTTCTTCAATTTCGGCGCCGAGCCCGGGCGCGCCGGCGTGGTCAAGCTGGCCGCCGGCAGCCTGGCGATCATCCCGGCCTGGGCGGCGCTGCTGCTGATCCATGCCGAACGCCCGTCCGGCCACCTGTGGCTGCTGACCGCGCTCGCCCTGGTCTGGGCCGCCGATTCCGGGGCCTATTTCGCCGGCCGCCAGTTCGGCAAGCGCAAGCTGGCGCCGCGGATCAGCCCGAACAAGACCGTCGCCGGCCTGGTCGGCGGCTTGATCGCCGGCCTGATCGTCGCCACCGGCTTCGGCCTGCTGGCCGGCCTGCCGCTGGTCAAGCTGCCGCAGCTGCTGCTGGTGACCGCGCTGGCAGTGCTGGCCTCGGTGCTCGGCGACCTGTTCGAGAGCCTGCTCAAGCGCCATGCCGGCGCCAAGGACTCCGGCCACGTGATTCCCGGCCACGGTGGCGTGCTCGACCGCATCGACGGCGTACTCGCGGCACTGCCGGTGTTCGCGCTCGGCAAGGACATCCTGGGTTTCTGA	MTKTRVIAALIMAPAAICAILLLPTDWLAALAALVFLVGLWEWLRLSGVEDSLPRTVLLCLNLLVMVLLVWASAGSMVLFQIATLVGVGWWLLALLWLRFFNFGAEPGRAGVVKLAAGSLAIIPAWAALLLIHAERPSGHLWLLTALALVWAADSGAYFAGRQFGKRKLAPRISPNKTVAGLVGGLIAGLIVATGFGLLAGLPLVKLPQLLLVTALAVLASVLGDLFESLLKRHAGAKDSGHVIPGHGGVLDRIDGVLAALPVFALGKDILGF	PGPT0007685_4069	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE_ACTIVITY,PGPT0007685-cdsA|ynbB-K00981	NA	NA
BMS020_07675	1191	dxr_2	COG0743	1-deoxy-D-xylulose 5-phosphate reductoisomerase	ATGACCGCCCAACCGCTCCGCCGGGTCGCCGTGTTCGGCGCCACCGGCTCGATCGGCGCTTCGGCGCTGGACGTGATCGCCCGCCACCCGGATCGGCTGCGTGCCAGCGTGCTGGCCGCCGGCAGCCGCGTCGACGAGCTGCTCGCGCTGTGCCGCGCGCATCGCCCCGAGCACGCCGTGATCGCCGATCCGGCGCTGCTGGACGCACTGGCCACCGGCCTGCGCGAGGCCGGCCTGGCCACCCAACCGCACGCCGGGCCCGAAGCGCTCTGCCAGCTGGCCGCCGGCGATGCCTGCGACACCGTGGTCGCGGCGATCGTCGGCGCAGCCGGCCTGGGCTCGACCCTGGCCGCGGCCCGCGCCGGCAAGCGCCTGCTGCTGGCCAACAAGGAATCGCTGGTGCTGGCCGGCGAACTGCTGATGCACGAGGCCGCCACTGGCGGTGCCGAGATCATCCCGATCGACAGCGAGCACAGCGCGATCTTCCAGTGCCTGCGCTCGTGCGACACCAGCCGCGGCGTGCGCAAGGTGATCCTGACCGCCTCGGGTGGCCCGTTCCGTGGCCGTCGCCGCGCCGACCTGGCCAGCGTCACCCCGACGCAGGCGGTGGCGCACCCGAAGTGGTCGATGGGCCCGAAGATCTCGGTCGATTCGGCGACGCTGATGAACAAGGGGCTGGAGGTCATCGAGGCCCATCACCTGTTCGCACTGGCGCCGGAACGGATCGAAGTGGTGGTGCATCCGCAGAGCCTGGTGCATTCGCTGGTGGAATTCGTCGATGGCTCCACCCTGGCCCAGCTCGGCCTGCCGGACATGCGCACCACCCTCGCAGTCGGCCTGGCCTGGCCGGAGCGGATCGACTCCGGGGTCGGCGGGCTGGACCTGCGCCAGCAGGGCCGGCTGGATTTCGAGGCCCCCGATCTTGATGCCTTTCCGTGCCTGTCGCTGGCATGGAATGCCATGCAGGCCGGCGGTTGTGCGCCGGCGGTGCTGAACGCCGCCAACGAAGTGGCGGTTTCAGCGTTTCTTCAGGGCCAGATCGGTTTCCTTGCGATTCCCGCGCTGGTCGAGCACGCGCTCTCCACGCTGCCCGCAGCGAAAGCGGATACGCTTGAGCACCTGCTGGCGGCCGACGCCCAGGCCCGCAGGACCACCGAAGCCGCACTGCCCCGCTACGCTCTCCATGCCTGA	MTAQPLRRVAVFGATGSIGASALDVIARHPDRLRASVLAAGSRVDELLALCRAHRPEHAVIADPALLDALATGLREAGLATQPHAGPEALCQLAAGDACDTVVAAIVGAAGLGSTLAAARAGKRLLLANKESLVLAGELLMHEAATGGAEIIPIDSEHSAIFQCLRSCDTSRGVRKVILTASGGPFRGRRRADLASVTPTQAVAHPKWSMGPKISVDSATLMNKGLEVIEAHHLFALAPERIEVVVHPQSLVHSLVEFVDGSTLAQLGLPDMRTTLAVGLAWPERIDSGVGGLDLRQQGRLDFEAPDLDAFPCLSLAWNAMQAGGCAPAVLNAANEVAVSAFLQGQIGFLAIPALVEHALSTLPAAKADTLEHLLAADAQARRTTEAALPRYALHA	PGPT0007585_1662	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007585-ispC|dxr-K00099	NA	NA
BMS020_07676	1356	rseP_2	COG0750	Regulator of sigma-E protease RseP	ATGAGCGACATCATCGGCTCCATCTGGTGGATGATCGTCAGCCTCGGCGTGCTGGTCACCTTCCACGAATTCGGCCACTACTGGGTCGCGCGCCGCTGTGGGATCAAGGTGCTGCGCTTCTCGGTCGGCTTCGGCCGCCCGCTGTGGTCGCGCCGCGACCGCAACGGCACCGAGTTCGCGATCGCCGCGATCCCGCTCGGCGGCTACGTCAAGATGCTCGACGAGCGCGAAGGCAACGTGCATCCGGCCGAACGCGCGATGGCGTTCAACAACAAGACCGTCTGGCAGCGCATCGCCGTGGTCGCCGCCGGTCCGATCGCCAACATCGTGCTGTGCATGCTGCTGTTGTGGGCGATGTTCGTGATCGGCAAACAGGACTATTCGGCCACGCTCGGCGAGGTCCAGGGCCTGGCCGCCGAGGCCGGGCTGCGCCCGGGCGAGCGCATCGCCGCCATCGACGGCCGCGAGGTGAGCAGCTGGACCGACGCCAGCATGCTGCTGACCACCGCCGCGATGGACCGGCGCGATGCCCGCGTCAGCGTGCTCGGCGACGACGGCGGCAGCCACGAGGTGCGCGTCCCGATGTCGCACCTGCCGGAAGGCTTCGACGAACAGCGCGCGCCGGAACTGGCTGGCTTCGGCTGGAAGTTCCTGACCCAGCCGGCCGAGGTGTCGGCGGTCTCCCCAGGCTCGGCTGCCGACGGCCTGCTGCAGCCGGGCGACCACATCGTGGCGATCGACGGCCACCCGATCGCCGCGGCCGCCGACGTCGCCCCGCGCATGCAGGCACTGGGCGAGCGCGGCACCCCGGGCATGGTCGAGGTCGACCGCGGCGGGGATCGCCTGGCGCTGGAACTGCTGCCGACCAAGGTCACCGAGGCCGACGGCAAGACCGCCTACCGCGCCGGCATCGCCGTCGGCCGCTCCGGCCCGCCCCCCTACGACGCCCGCGTGCAGTACGGCGTGCTCGCGGCGGTCCCAGTGGCGATCCGCGAGACCGGGCGCCTGGCCGGCGATTCGCTGGGGATGATCCGGCGCATGCTGACCGGGCACGCCTCGGTCAAGAACATCTCCGGCCCGATCACCATCGCCAAGGTCGCCAACGCCTCGGCCAAGCGTGGCGCGGACTGGTTCCTGTATTTCCTGGCGTTGCTGTCGCTGAGCCTGGCGATCATCAACCTGCTCCCGATCCCGATCTTGGACGGGGGACACCTGCTGTATTACCTTATCGAGTTGGTCAAGGGCAGCCCGCTCAGCGAGCGCGCCATGGCCGCCGGGCAGTATGTCGGCCTGGCGGTCTTGGCCGGGCTGATGGGGTTGGCGTTCTACAACGACATCCTCGGCCGGATCCACTGA	MSDIIGSIWWMIVSLGVLVTFHEFGHYWVARRCGIKVLRFSVGFGRPLWSRRDRNGTEFAIAAIPLGGYVKMLDEREGNVHPAERAMAFNNKTVWQRIAVVAAGPIANIVLCMLLLWAMFVIGKQDYSATLGEVQGLAAEAGLRPGERIAAIDGREVSSWTDASMLLTTAAMDRRDARVSVLGDDGGSHEVRVPMSHLPEGFDEQRAPELAGFGWKFLTQPAEVSAVSPGSAADGLLQPGDHIVAIDGHPIAAAADVAPRMQALGERGTPGMVEVDRGGDRLALELLPTKVTEADGKTAYRAGIAVGRSGPPPYDARVQYGVLAAVPVAIRETGRLAGDSLGMIRRMLTGHASVKNISGPITIAKVANASAKRGADWFLYFLALLSLSLAIINLLPIPILDGGHLLYYLIELVKGSPLSERAMAAGQYVGLAVLAGLMGLAFYNDILGRIH	PGPT0011685_1597	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0011685-rseP-K11749	NA	NA
BMS020_07677	2409	bamA_2	COG4775	Outer membrane protein assembly factor BamA	ATGACGAGATTTCCCACTCGCCGCCTGCTCGCCCTCGCCCTCTCCGCCAGCCTGAGCCTGCCCGCCATTGCGGCCGCGGCGGAACCGTTCGTCGCCAGCGACATCCGCGTCGACGGCCTGCAGCGCATTGCCTCCGGCACGGTGTTCACCTACCTGCCGGTGAACCGTGGCGACAGCGTGGACGACGCCAAGGTCGCCGAATCGATCCGCGCGCTGTACAAGACCGGCTTCTTCGAGGACGTGCAGCTGGACCGCCAGGGCAGCATCTTGGTGATCACGGTCAAGGAGCGCCCGGCGATCAACAAGCTGACCGTGACCGGCAACAAGGACATCAAGTCCGAGGAGCTGCTCAAGGGCCTGAGCGACATCGGCCTGAGCGAGGGCGGCACGTTCGACCGCCTGAGCCTGGACCGGGTGACCCAGGAACTGACCCGCCAGTACAACAACCGCGGCAAGTACAACGTCACCATCACCCCGACCGTCAGCCCGCTCGACCGCAACCGCGTCGACGTGGCGATCGCGATCAAGGAAGGCAAGGCGGCCAAGATCCGCCACGTCAACCTGGTCGGCACCGAGAAGTTCCTCAACGAGGACATCCTGGCCGGTTGGGAATCCAAGGAGCACAACTGGGCCTCGTGGTACCGCCGCGATGACCAGTACTCCAAGGAAAAGATGTCCGGCGACCTGGAGAAGCTGAACTCCTGGTACCTGGACCGCGGCTACATCGACTTCAACATCGACTCCACCCAGGTGTCGATCAGCCCCGACAAGCGCGACATGTTCGTCAGCGCCGGCGTCACCGAGGGCGAGCGCTACAAGATCTCCGAGATCAAGGTCACCGGCGATACGGTGCTGCCGCAGGAAGAGATCGAGAAGCTGGTGATCCCCAAGGCCGGCGACATCTTCTCGCGCGCGCTGCTGGAGTTCAGCTCCGATGCGATCACCAACACGCTGAGCAACATCGGCTATGCCTTCGCCAAGGTCAACCCGATCCCGACCCCGGACCGCGAGAACCGCACCGTGGCGGTGAACCTGCAGGTGGTGCCGGGCCCGCGCGTGTCGGTGCGCCGGATCGTGTTCAAGGGCAACAGCCGTACCTCCGACGAGGTGCTGCGCCGCGAGATGCGCCAGTTCGAGAACAGCTGGTACTCGCAGGCGGCGATCGACCGCTCCAAGGTGCGCCTGCAGCGCTTGGGCTACTTCGAGACCGTCGATGTCGAGACGCCCGCCGTGCCGGGCAGCAACGACCAGGTCGACGTGGTCTACAACGTCAAGGAAACCACCTCGGGCAGCTTCCAGATCGGCCTGGGCTATTCGCAGACCTACGGCGTGACCACCTCGGTGCAGCTGTCGCAGAACAACTTCCTCGGCGGCGGCAACCGCGTGTCGGTCGAAGCCTCGCGCAGCAGCTACCAGGACCGCTTCGCGTTCTCCTACACCAATCCGTTCTTCACCGACGACGGCGTCTCGCTGGGCTACAACCTGTCCTGGCAGAAGCTGGACTACTCCGACTACAACACCGCGCAGTACAACAGCAAGCGCGGCTCGGCGCAGGCGGTGTTCGGCGTGCCGATCACCGAGAACGACGCGTTCTCGCTGATGTTCGGCATCGACAGCAACCAGATCACCACCTACGCCGGCTACACCCCGACCTCGATCATCAACTACATCGACGCGGTCGGGCAGCGCACCTTCCACACCTGGCGCACCGAGCTGGGCTGGGCGCGCGACACCCGTAACGACTACTTCATGCCGACCCGCGGCACCTACCAGCGCCTCGGCGTGGAAGTGGCGCTGCCGGGTTCGACCGCCGAGTTCTACAAATTCACCTACCAGTTCTCCAAGTACTGGCCGATCATCCCGTCGCTGGTCATCAACACCCGACTGGACCTGGGTTACGGCGACGGCTACGGCAAGACCTACTCGCGCGACATCTGCGGTACCACGACCACGGACGACGGCTACGTCGCCGCGGCCTGCGATGGCACCAACCTGATCCGCCACGTCAACGCCTCGGGCCTGCCGTTCTTCGAGAACTTCTACGCCGGCGGCACCAACTCGGTACGCGGTTTCGAGGACAACACCCTCGGCCCGCGCTCGGAGGCGACCGCGTACTACTCCGACGGCCAGCCGCTCGGCGGCTCGGCCAAGACGGTCGGTTCTATCGAAGCGTACTTCCCGAAGCTGTTCGACAGCCCGTCGGCGCGCGTTTCGGCGTTCGTCGACTTCGGCAACGTGTTCGACGGCATCGACAACGTCAAGGCCAACGAGCTGCGCGTCTCCACCGGTCTGGCCCTGCTGTGGCGCGCACCGGTCGGCCCGATCTCGATCAGCTACGCGATTCCGCTGAAGAAGGAAGACGGCGACGAGATCGAGCGTCTGCAGTTCACCTTCGGCGGGCAGTTCTGA	MTRFPTRRLLALALSASLSLPAIAAAAEPFVASDIRVDGLQRIASGTVFTYLPVNRGDSVDDAKVAESIRALYKTGFFEDVQLDRQGSILVITVKERPAINKLTVTGNKDIKSEELLKGLSDIGLSEGGTFDRLSLDRVTQELTRQYNNRGKYNVTITPTVSPLDRNRVDVAIAIKEGKAAKIRHVNLVGTEKFLNEDILAGWESKEHNWASWYRRDDQYSKEKMSGDLEKLNSWYLDRGYIDFNIDSTQVSISPDKRDMFVSAGVTEGERYKISEIKVTGDTVLPQEEIEKLVIPKAGDIFSRALLEFSSDAITNTLSNIGYAFAKVNPIPTPDRENRTVAVNLQVVPGPRVSVRRIVFKGNSRTSDEVLRREMRQFENSWYSQAAIDRSKVRLQRLGYFETVDVETPAVPGSNDQVDVVYNVKETTSGSFQIGLGYSQTYGVTTSVQLSQNNFLGGGNRVSVEASRSSYQDRFAFSYTNPFFTDDGVSLGYNLSWQKLDYSDYNTAQYNSKRGSAQAVFGVPITENDAFSLMFGIDSNQITTYAGYTPTSIINYIDAVGQRTFHTWRTELGWARDTRNDYFMPTRGTYQRLGVEVALPGSTAEFYKFTYQFSKYWPIIPSLVINTRLDLGYGDGYGKTYSRDICGTTTTDDGYVAAACDGTNLIRHVNASGLPFFENFYAGGTNSVRGFEDNTLGPRSEATAYYSDGQPLGGSAKTVGSIEAYFPKLFDSPSARVSAFVDFGNVFDGIDNVKANELRVSTGLALLWRAPVGPISISYAIPLKKEDGDEIERLQFTFGGQF				NA	NA	NA	NA	NA
BMS020_07678	1023	lpxD_2	COG1044	UDP-3-O-acylglucosamine N-acyltransferase	GTGAATACCTCGACCTATACCGCCCAACAGATCGCCGAGCGTTTCGGCCTGCAGCTGCATGGCGATGGTGCGACCGCGATCCACGGCGTCGCCACCCTCGCCCATGCCGGCACGGGCCAGCTCAGCTTCCTTGCCAATCCGCGCTACCGGCCGCAGCTGGCCGAGAGCCAGGCCTCGATCGTGGTCCTGCGTGCCGACGACGCCGAAGCCGCGCCGGGCACCGCGCTGATCGCCAAGGATCCCTACACCGCCTTCGCCAAGATCGCCGCGCTGTTCGACATCGCGCCGGCGCGCGATGCCGGGGTGCACCCGTCGGCGGTGATCGACCCCAGCGCCTCGGTCTCGCCCACCGCCCATGTCGGCCCGTTCGTCAGCATCGGCGCCCGCAGCGTGGTCGGCGATGGCTGCATCATCGGCGCGGGCAGCATCATCGGCGAGGACTGCGTGGTCGGCGACGGCAGCGAGCTGATCGCCCGCGTGACCCTGGTCACCCGCGTGCGCATCGGCAAGCGCGTGCGCATCCACCCCGGCGCGGTGCTCGGCGCCGACGGCTTCGGCCTGGCGATGGATGCCGGTCGCTGGATCAAGGTGCCGCAGCTGGGCGGCGTGCGCATCGGCGACGACTGCGAGATCGGCGCCAACGCCTGCGTCGACCGCGGCGCGCTGGAAGACACCATCCTCGACGAGGACGTGCGCATCGACAACCTGGTGCAGATCGCCCACAACGTGCAGATCGGTGCGCACAGCGCGATCGCCGGCTGCACCGGCATCGCCGGCAGCGCCAAGATCGGACGCTATTGCCTGCTCGGCGGCCACGTCGGCGTGGTTGGCCACCTCGAGATCTGCGACAAGGTCGTGATCACCGGCAAGTCGGTGGTCCGCAGCTCCATCCACGAGCCGGGCGAATATTCCTCCGGCACCCCCCTGGACACCAACCGCGCGTGGCGCAAGAACGCCGCCCGCTTCAAACAGCTCGACGCACTGGCCCGACGGGTGCTGGCTGCGGGCAAGGACAAAGAATGA	MNTSTYTAQQIAERFGLQLHGDGATAIHGVATLAHAGTGQLSFLANPRYRPQLAESQASIVVLRADDAEAAPGTALIAKDPYTAFAKIAALFDIAPARDAGVHPSAVIDPSASVSPTAHVGPFVSIGARSVVGDGCIIGAGSIIGEDCVVGDGSELIARVTLVTRVRIGKRVRIHPGAVLGADGFGLAMDAGRWIKVPQLGGVRIGDDCEIGANACVDRGALEDTILDEDVRIDNLVQIAHNVQIGAHSAIAGCTGIAGSAKIGRYCLLGGHVGVVGHLEICDKVVITGKSVVRSSIHEPGEYSSGTPLDTNRAWRKNAARFKQLDALARRVLAAGKDKE	PGPT0022340_2241	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022340-lpxD-K02536	NA	NA
BMS020_07679	459	fabZ_2		3-hydroxyacyl-[acyl-carrier-protein] dehydratase FabZ	ATGAACGATACGCTGCAACTGCCCATCGACGTGCTCCAGATCCAGGAGCTGATCCCGCACCGCTACCCGTTCCTGCTGGTGGACCGCGTGATCGAGCTGGACCTCGAGGCCAAGCGCGTCGTCGCGCAGAAGAACGTGACCATCAACGAGCCGTTCTTCCAGGGCCATTTCCCCGGCCGCCCGATCATGCCGGGCGTGCTGATCATCGAGGCGCTGGCGCAGGCCGGCGGCGTGATGACCCAGCTCAGCCTGGGCCGCGACGCGCAGTCCAAGCTGTTCTACATGGTCAAGGTCGAGAACGCGCGCTTCAACAAACAGGTGGTACCGGGCGACGTGCTGACGCTGGAAGTGCAGCTGAAGCGCCTGATCCGCAACATGGGCTGGTACTACGGCGAAGCCAAGGTCGGCGGCGAAGTGGTCGCCAGCGCCGAGGTGATGTGCGCCGGCGCCAAGGGCTGA	MNDTLQLPIDVLQIQELIPHRYPFLLVDRVIELDLEAKRVVAQKNVTINEPFFQGHFPGRPIMPGVLIIEALAQAGGVMTQLSLGRDAQSKLFYMVKVENARFNKQVVPGDVLTLEVQLKRLIRNMGWYYGEAKVGGEVVASAEVMCAGAKG	PGPT0008365_1725	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008365-fabZ-K02372	NA	NA
BMS020_07680	801	lpxA_2		Acyl-[acyl-carrier-protein]--UDP-N-acetylglucosamine O-acyltransferase	ATGAGCGAGAGCACGCCCCTGATCCATCCGACCGCGGTGATCGATCCGTCGGCCAAGCTCGCCGCGGACGTGCGCGTCGGCGCCTTCAGCCTGATCGGCGCCGGCGTCGAGATCGGCGAAGGCAGCGAGGTCGGACCGCATTGCAGCATCCACGGCCCGACCCGCATCGGCCGCAACAACCGCTTCGTCGGCCATGCCGCGATCGGCGGCGAGCCGCAGGACAAGAAGTTCGCCGGCGAGCGCACCGAGCTGGTGATCGGTGACAACAACCTGTTCCGCGAGTTCGTCACCGTCAACCGCGGCACCGGCACCGGCGGCGGCATCACCACCGTCGGCGACAACAACTGGATGCTGGCCTATACCCACGTCGCGCACGACTGCCATGTCGGCAACAACTGCGTGTTTTCCAACAACACCACGCTGGCCGGCCACGTCACCGTCGGCGACCACGTGATCATCAGCGGCTTCGCCGGTGCGCACCAGTTCTGCCGGATCGGCTCGCACGCCTTCCTCGGCATGGACGTGAAGTCCACCGGCGACATCCCGCCGTTCGTGATGGCCGCGGTCGATTCGGAAGGCCCGCTCGGCCGTCCGCGCGGCATCAACAGCGAGGGCCTCAAGCGCCGCGGCTTCAGCGCCGAGCGCATCGCCGCGATCAAGCGCGCCTACCGCACGCTGTACATCGCCGGGCTGCCGCTGGCCGACGCCAAGGCACAGCTGGCCGAGCAGGCCGCCGAGAGCGAGGACGTGCGCTACTTCCTCGACTTCATCGCGCAGGCCGAGCGGCCGTTGCTGCGATGA	MSESTPLIHPTAVIDPSAKLAADVRVGAFSLIGAGVEIGEGSEVGPHCSIHGPTRIGRNNRFVGHAAIGGEPQDKKFAGERTELVIGDNNLFREFVTVNRGTGTGGGITTVGDNNWMLAYTHVAHDCHVGNNCVFSNNTTLAGHVTVGDHVIISGFAGAHQFCRIGSHAFLGMDVKSTGDIPPFVMAAVDSEGPLGRPRGINSEGLKRRGFSAERIAAIKRAYRTLYIAGLPLADAKAQLAEQAAESEDVRYFLDFIAQAERPLLR	PGPT0022320_1245	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0022320-lpxA-K00677	NA	NA
BMS020_07681	1260	lpxB_2	COG0763	Lipid-A-disaccharide synthase	ATGACGGCCGGGACCCGGGAGCCGGTGCACGGAACCGGGCAGCCGGTGGCGTTCCCGCCCGCCGGCGCCTCCGTGCCCTCCGGCCCCGCGTCTGACGCCCCTGGCCAGCGCCCGCTGCGCATTGCACTGGTCGCCGGCGAGACCTCCGGCGACCTGCTCGGCGCCGGACTGATCGAACACCTGCGCGCACGCCATCCGGATGCCGAGTTCGCCGGGATCGGCGGCGATGCGATGCGCGGCGCCGGCTGCCAGACCTGGTTCGATGCCAGCGAACTGTCGCTGATGGGCCTGGTCGAGGTGCTGCGGCACCTGCCGCGCCTGCTCAAGCTGCGCGGCGAACTGCGCGAGCGCGTGCTCGCCTGGCAGCCGGACGTGTTCGTCGGCATCGATGCACCGGATTTCAACCTCGGCGTGGAGAAGTGGCTCAAGCACCGCGGCATCCGCACCGTGCACTACGTCAGTCCGTCGGTGTGGGCATGGAAGGAAAAGCGTGCCGAGAAGATCGGCGCCAGCGCCGACATGGTGCTGTGCCTGTTCCCGATGGAGCCGGCGATCTACGCCAGGCACGGCGTCGATGCGCGCTTCGTCGGCCACCCGATGGCCGACGCGATCGCCTACCAGACCGACCGCGAGGCGGCGCGCGCCGAACTCGGGCTGTCCTCGTCCAGCCCGGTGCTGGCGGTGCTGCCGGGCAGCCGGCACGGCGAGATCAGCCGGCTCGGCGACACCTTCTTCGAAGCCGCCTGGCAGCTGTCCGAGCAATTGCCGGGCTTGCAGGTGCTGATCCCGGCGGCGAATGCCGGCTGCCGCCCGCTGCTGGCCGAACAGCTCTCGCGCTCCTCGCTGCCGATGCTGCGCTCGCACCTGCTGGATGGGCAGGCGCGCACCGCGATGATCGCCGCCGACGCAGTGCTGCTGGCCTCGGGCACCGCGACGCTGGAGACGATGCTGGTCAAGCGCCCGATGGTGGTCGGCTACAAGGTCGCGCCGCTGACCGCGCGCATCGCGCGGGCGTTGAAGCTGCTCAAGGTCAACCGGTATGCGCTGCCCAACATCCTGGCCGGCGAGGACCTCGCCCCGGAACTGATGCAGGAAGCGTGCACCCCGGAAGCGCTGGCTGCAGCCCTGCTGCATTGGTTCCAGCATCCCGAGGCCGTCGCCGCGCTGCAGCCCAAGTACCTGAAACTGCACGCCGACCTGCGCCGCGACGCGTCCGCCCGCGCCGCCGAGGCGGTGGCCGAACTGGCGATGCGGCGGTGA	MTAGTREPVHGTGQPVAFPPAGASVPSGPASDAPGQRPLRIALVAGETSGDLLGAGLIEHLRARHPDAEFAGIGGDAMRGAGCQTWFDASELSLMGLVEVLRHLPRLLKLRGELRERVLAWQPDVFVGIDAPDFNLGVEKWLKHRGIRTVHYVSPSVWAWKEKRAEKIGASADMVLCLFPMEPAIYARHGVDARFVGHPMADAIAYQTDREAARAELGLSSSSPVLAVLPGSRHGEISRLGDTFFEAAWQLSEQLPGLQVLIPAANAGCRPLLAEQLSRSSLPMLRSHLLDGQARTAMIAADAVLLASGTATLETMLVKRPMVVGYKVAPLTARIARALKLLKVNRYALPNILAGEDLAPELMQEACTPEALAAALLHWFQHPEAVAALQPKYLKLHADLRRDASARAAEAVAELAMRR	PGPT0022325_153	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022325-lpxB-K00748	NA	NA
BMS020_07682	657	rnhB_2	COG0164	Ribonuclease HII	GTGAGCCCGGCGCCGGCTGGCGGCAGCCTGCCGCTGTTCGGCGAGGCCGCCGCTCTGGACCTGCGCACGCTGCGCGTGGCCGGCGTGGACGAGGCCGGGCGCGGCCCGCTGGCCGGCCCGGTGGCGGTCGCGGCCGTGGTCTTCGACCCGGCGCAGCCGCGCATCAACGGCCTGGACGATTCCAAGCAGCTCAGCGCGGAGCGCCGCGAGCAGCTGTATCCGCGCATCATCGAGCGCGCCCTGGCCTGGAGCGTGGTGTTGGTGACGGTCGAGGAAATCGATCGCCTCAACATCTTCCAGGCCACCATGCTGGGCATGCGCCGCGCCGTCGAGGCGGTCGCGCACGCCGCGCAGTACGCCCGCATCGACGGCAACCGCGTGCCCAAGGGCCTGCCCTGCCCGGCCGAGGCGCTGGTCGGCGGCGACGCGCTGGACCGCCGCATCATGGCGGCCTCGATCGTCGCCAAGGTCACCCGCGACCGCTACATGCAGGACCTGCATGCGCGGCATCCCGCGTATGGATTCGACCAGCACAAGGGCTACGGCACCCCGCAGCACCTGGCCGCCCTGCGCGACCACGGCCCCTGCCCGGAACACCGCCGCAGCTTCGCACCGGTGCGGGCGTGCCTGGAGCGCAGCGCCGCCTCGGCCCCCTGA	MSPAPAGGSLPLFGEAAALDLRTLRVAGVDEAGRGPLAGPVAVAAVVFDPAQPRINGLDDSKQLSAERREQLYPRIIERALAWSVVLVTVEEIDRLNIFQATMLGMRRAVEAVAHAAQYARIDGNRVPKGLPCPAEALVGGDALDRRIMAASIVAKVTRDRYMQDLHARHPAYGFDQHKGYGTPQHLAALRDHGPCPEHRRSFAPVRACLERSAASAP				NA	NA	NA	NA	NA
BMS020_07683	3591	dnaE_2	COG0587	DNA polymerase III subunit alpha	ATGACCACGTCCCGCTTCGTCCATCTCCACGTCCACACCGAATTCTCGATGGCGGATTCCACGATCCGCGTGCCCGAGAAGCCCGACTACGCCCATCCGGCCAAGGCCAAGCAGGCCAACCTGCTCAGCCGCGCGGTCGAGCTCGACATGCCGGCGCTGGCGGTCACCGACCTGAACAACCTGTTCGCGCTGGTCAAGTTCTACAAGGCCGCCGAAGGTGTGGGCATCAAGCCGATCGCCGGCGCCGACGTGATGATCGCCACGCCCGACCAGGCCCCGTGGCGGATGACCCTGCTGTGCCGCGACCGCGACGGCTACCTGAGCCTGTCGCGGCTGCTGACCAAGGCGTGGATGGAAGGCCATCGCCCCGAGGGCGGCGTGGCGGTGCTGCCGGAATGGCTGCACGAACACCACCACAACCTGTTCGCGCTGGCTGGCCGCGACAGCCTGGCCGGGCGCTTGTTCGCCGAAGGCCGGCATGACCTGGCCGAGCAGTCGCTGGGCGACTGGCAGCGCGTGTTCGGCGACGGCCTGCACCTGGAGCTGACCCGCACCGGCCGCGACGGCGAGGAGGCCTTCAACCGCTTCGCCCTGCATGCGGCCGGCGTGCGCGGGCTGCCGGTGATCGCCAGCAACGACGTGCGCTTCCTGGACCAGAAGGATTTCGCCGCGCACGAGGCGCGCGTGTGCATCTCCTCCGGGCGCGTGCTCGACGACCCCAAGCGGCCGCGCGACTACAGCCCCGAGCAGTACATGAAGTCGCCGGAGCAGATGTGCGAGCTGTTCGCCGACATCCCCGACGCGATCGACAATACGATCGAGCTGGCCAAGCGCTGCAACGTCGAGATGCGGCTGGGCACCTACTTCCTGCCGCAGTACCCGGTGCCCGACGACGAGACCCTGGACACCTGGATCCAGAAGCAGTCGCGCGAGGGCCTGGAAGAACGCCTGCAGAAGAACCCGCTGGCCGAGGGCAAGACCCGCGAGGACTACTTCGAGCGGCTGGAGTTCGAGCTCAACACCATCATCAAGATGGGCTTCCCGGGCTACTTCCTGATCGTTGCGGACTTCATCCAGTGGGGCAAGAACCAGGGCATCCCGATCGGCCCCGGCCGCGGCTCCGGTGCCGGCTCGCTGGTGGCGTGGGCGCTGAAGATCACCGACCTTGACCCGCTGCCGTACAACCTGCTGTTCGAGCGCTTCCTCAACCCGGAACGCGTGTCGATGCCCGACTTCGACATCGACTTCTGCATGGACCGGCGCGACGAGGTCATCGATTACGTCGCGCGCAAGTACGGCCGCGAACGCGTCAGCCAGATCATCACCTACGGCACCATGGCGGCCAAGGCGGTGGTGCGCGACTCCGGCCGCGTGCTCGGCTATCCGTATGGCCTGGTCGACGGCGTCTCCAAGCTGATCCCCAACATCCTCGGCATCACGCTGAAGGACGCGATGGGCGAAGGCAAGGACTCGGAAATGGCCTCGCCGGAGCTGATCCAGCGCTACCAGAACGAGGAAGAGGTCCGCGAACTGATGGACCTCGCGCGCCAGCTCGAGGACCTGACCCGCAACGCCGGCAAGCACGCCGGCGGCGTGGTGATCGCGCCCGAGCCGCTGGCCGAGTTCTGCCCGCTGTTCTCCGAACACGACGAGGACGGCCGCGGCAAGAACCCGGTCACCCAGTTCGACAAGAACGACGTCGAAGAAGTCGGCCTGGTGAAGTTCGACTTCCTCGGCCTGCGCACGCTGACCATCATCGACTGGGCGGTGAAGGCGATCAACGTGCGCCATGCGCGCGCCGGCGTGCCGCCGGTGGACATCGCCGCGATCCCGCTAGACGACACCGCAACCTATAAGGACATCTTCGCCGCCGGCAACACCGGCGCGGTGTTCCAGTTCGAATCCTCCGGCATGCGCCGGCTGCTGAAGGACGCGCGGCCCGACCGCTTCGAGGACCTGATCGCGCTGGTGTCGCTGTACCGCCCCGGCCCGATGGACCTGATCCCCTCGTTCAACGCGCGTAAGCACGGCCAGGAAGAGATCATCTATCCCGATCCGCGCACCGAAGCGATCCTGAAGGACACCTACGGCATCATGGTGTACCAGGAGCAGGTGATGCAGATGGCGCAGATCGTCGGCGACTACTCGCTCGGCGGCGCCGACCTGCTGCGCCGCGCGATGGGCAAGAAGGTGCCGGCGGAAATGGCCAAGCACCGCGAGATCTTCCGCGAGGGCGCGGCCAAGGGCGGCGTCGACGGCGCCAAGGCCGACGAGATCTTCGACCTGATGGAGAAGTTCGCCGGCTACGGCTTCAACAAGTCGCACGCCGCCGCCTACGCGCTGGTCAGCTACCAGACCGCCTGGCTCAAGCGCCATTACCCGGCCGAGTTCATGGCCGCGACGCTGTCCTCGGACATGGACAACACCGACAAGGTGGTCGGCTTCCTCGACGAGGTGCGCAACCTCGGCCTGACCGTGCTGCCGCCGCGCGTCAACGACTCGGCGTACATGTTCGAGGCCGCCAACGCCGACACCATCCGCTACGGCATCGGCGCGATCAAGGGCGTCGGCCAGGGCGCCTGCGAAGCGGTGGTCGAGGAGCGCCTGCGCGGTGGCGAGTACGCCACGCTGCTGGACTTCTGCACCCGCGTCGGCACCACCAAGCTCAACCGGCGCACGCTGGAAGCGATGATCAACGCCGGCGCGATGGATGGGCTCGGCAAGAACCGCGCCTCGCTGATGCTGCAGCTGCCGGAAGTGCTCAAGGCCACCGACCAGATGGCCAAGGAGCGCGCCTCCGGGCAGAACTCGCTGTTTGGCGGCCCGGATCCGGCCGGCCCGGCGATCCACCTCGACCTGCCCGAAAGCAAGGAATGGGCGCTGGGCCAGCTGCTCGGCGGCGAGCGCGACACCCTGGGCTTCTACCTCAGCGGGCACCCGTTCGACCCGTACCGCGACGACGTGAAGGAACTGGTCGGCTGCGACCTCGGCGCACTGGAGAAGATCGTCGCCTCGCAGCAGCGTGGCGGCGGCGGGGGCGGCGACGGCGAGAAGCGCGCCTGGAAGCCGGAAGTCAGCGCGATCCTGGCCGGCCAGGTGGTCGGCGTGCGCCGCAAGGGCGACAGCCAGGTGTTCGTGCAGCTCGAGGACGGCCGCGGCCGGGTCGAGTGCTCGGCGTTCTCCGATGCGATGGCCGAGTTCGGCGAGCTGCTGACCCGCGACCGCATCCTGATCGTCAAGGGCGGCCTGCGCGAGGACGAGTTCAACGGCGGCTACAGCCTGCGCATCCGCCAGGCCTGGGACTACGAGCAGGTCTGCGCCCAGCATGCCCAGCGGCTGATGCTGCGGGTGGACCTGCGCGACCGCCATGCCTGGCCGCGGATCGAGGCGCTGCTGGCCGGGTTCCGTCCCGGTCGCACCCCGATCCGGCTGGACCTGCTGCTGCGTACCGGCAAGTCCGGCGTTGCCGGTATGCTGGACCTGAACGGTCCGGGCGCGGTCCGGGTCGCCCCGCAGCTGGTCGACAGCCTGCGTGCCGACCCATGTGTCAAGACTGTAAAGGTAAAGTACACACCACCTTGGGCAAACTAG	MTTSRFVHLHVHTEFSMADSTIRVPEKPDYAHPAKAKQANLLSRAVELDMPALAVTDLNNLFALVKFYKAAEGVGIKPIAGADVMIATPDQAPWRMTLLCRDRDGYLSLSRLLTKAWMEGHRPEGGVAVLPEWLHEHHHNLFALAGRDSLAGRLFAEGRHDLAEQSLGDWQRVFGDGLHLELTRTGRDGEEAFNRFALHAAGVRGLPVIASNDVRFLDQKDFAAHEARVCISSGRVLDDPKRPRDYSPEQYMKSPEQMCELFADIPDAIDNTIELAKRCNVEMRLGTYFLPQYPVPDDETLDTWIQKQSREGLEERLQKNPLAEGKTREDYFERLEFELNTIIKMGFPGYFLIVADFIQWGKNQGIPIGPGRGSGAGSLVAWALKITDLDPLPYNLLFERFLNPERVSMPDFDIDFCMDRRDEVIDYVARKYGRERVSQIITYGTMAAKAVVRDSGRVLGYPYGLVDGVSKLIPNILGITLKDAMGEGKDSEMASPELIQRYQNEEEVRELMDLARQLEDLTRNAGKHAGGVVIAPEPLAEFCPLFSEHDEDGRGKNPVTQFDKNDVEEVGLVKFDFLGLRTLTIIDWAVKAINVRHARAGVPPVDIAAIPLDDTATYKDIFAAGNTGAVFQFESSGMRRLLKDARPDRFEDLIALVSLYRPGPMDLIPSFNARKHGQEEIIYPDPRTEAILKDTYGIMVYQEQVMQMAQIVGDYSLGGADLLRRAMGKKVPAEMAKHREIFREGAAKGGVDGAKADEIFDLMEKFAGYGFNKSHAAAYALVSYQTAWLKRHYPAEFMAATLSSDMDNTDKVVGFLDEVRNLGLTVLPPRVNDSAYMFEAANADTIRYGIGAIKGVGQGACEAVVEERLRGGEYATLLDFCTRVGTTKLNRRTLEAMINAGAMDGLGKNRASLMLQLPEVLKATDQMAKERASGQNSLFGGPDPAGPAIHLDLPESKEWALGQLLGGERDTLGFYLSGHPFDPYRDDVKELVGCDLGALEKIVASQQRGGGGGGDGEKRAWKPEVSAILAGQVVGVRRKGDSQVFVQLEDGRGRVECSAFSDAMAEFGELLTRDRILIVKGGLREDEFNGGYSLRIRQAWDYEQVCAQHAQRLMLRVDLRDRHAWPRIEALLAGFRPGRTPIRLDLLLRTGKSGVAGMLDLNGPGAVRVAPQLVDSLRADPCVKTVKVKYTPPWAN				NA	NA	NA	NA	NA
BMS020_07684	774			hypothetical protein	ATGAAGCACCTGTACGCCGCCCCCTTCATCGCCGTCCTGCTCGGCGCCTGCAGCTCCAATGCCGCGGGCCCGCAGGCGTTCGTGATCGACAACCCGACCGACGCCCCGGTCGCCGTGGCCATCGACGGCCATGCGCACCAGGTGCCGGCCCACGATGCCCGCACCGTCGAGCTGCAGGCCGGCGCGCACACGCTTAATACCGCGGCCGCCGGCGAGGTCAATTTCCTGGTCTACGCGCGCGGTCAGGGCGGCCTGATCAACCCGACCGGCAGCCAGTACGTGATCGCCCGCGCCCTGGCCGACGAGGCCGCGCCGGCGGTCAGCCGCTTCGACGCCCCCGCCGACGGCGTCACCGTCGACGGCATCCTGTTCGAAGGCCCGTACCGCAGCAGCACCGCGCTGATCATCGACCGCAGCTGGCGCGCCGGCGTGCACGACCCGGTGCTCGCCAGCGCCGATCCGGCCGGCCATGCCGATGCCAAGATCTTCGCCGCCGGCGACTTCGCCAGCTACCAGGAAACCGTGTCGCGCCAGCCCAGCACCTACGCCTATGTGGTGAACCCGGGCATGCCGGTGCCGAGCTACGACGCAGCGGTCGCCGCTGGCGGCCTGTCGGCGCTGCCGGCGGTGTTCGGCGCCGATGCCGGCCAGCTGCGCCACGTCTACACCGCCTACGTCGGCACGCTGGCCCCGGGCCTGCACCGCCACGACGACGGTACCCGGCTGGTTTACCTGCAGCCGGCCGCGGTGCGCTACGCCGCCCAGCGGCCCTGA	MKHLYAAPFIAVLLGACSSNAAGPQAFVIDNPTDAPVAVAIDGHAHQVPAHDARTVELQAGAHTLNTAAAGEVNFLVYARGQGGLINPTGSQYVIARALADEAAPAVSRFDAPADGVTVDGILFEGPYRSSTALIIDRSWRAGVHDPVLASADPAGHADAKIFAAGDFASYQETVSRQPSTYAYVVNPGMPVPSYDAAVAAGGLSALPAVFGADAGQLRHVYTAYVGTLAPGLHRHDDGTRLVYLQPAAVRYAAQRP				NA	NA	NA	NA	NA
BMS020_07685	960	accA_2	COG0825	Acetyl-coenzyme A carboxylase carboxyl transferase subunit alpha	ATGAACCCGAACTACCTCGACTTCGAGCAGCCCATCGCCGACCTGGAAGCCAAGATCCAGGACCTGCGCAACGCCAGCACCGGTCCTGCGGTCAATGTCGATGCCGAAGTCCGTGCCCTGCGCGACAAGCTGCGCGTGCGCACCGCGCAGATCTTCCGCGACCTGTCGGCCTGGCAGGTCTCGCAGCTGGCGCGCCATCCGCAGCGCCCGTACACGCTGGACTACGTCAAGGTCATCTGCGACGAATTCCAGGAGCTGGCCGGCGACCGTGCGTTCGCCGACGACAAGGCGATCGTCGGCGGCCTGGCCCGCATCGATGGCCGCCCGGTGATGGTGATCGGCCACCAGAAGGGCCGCGACACCAAGGAAAAGATCCGCCGCAACTTCGGCATGCCCAAGCCCGAGGGCTACCGCAAGGCGCTGCGCCTGATGAAGATGGCCGAGCGCTTCCGCCTGCCGCTGCTGACCTTCATCGACACCGCCGGCGCCTGGCCGGGCATCGATGCCGAGGAGCGCGGCCAGTCCGAGGCGATCGCGCGCAACCTGATCGAGATGGCCGAACTGACCGTGCCGGTGATCTGCACCGTGATCGGCGAAGGCGGCTCCGGCGGCGCGCTGGCGATCGGCGTCGGCGACCGCACCCTGATGCTGGAATACGGCACCTACTCGGTGATCTCGCCAGAAGGCTGCGCCTCGATCCTGTGGAAGGACGCGGCCAAGGCCAAGGATGCCGCCGAACAGCTCGGTCTGACCGCCAAGCGCCTGAAGGACCTCGGCCTGGTCGACAAGGTCGTGCGCGAGCCGACCGGCGGCGCCCACCGCAACCCGACGCAGATGGCCAAGCGCCTGAAGGCGGTGCTGCTCAACGAGCTGGACGCACTGGAGAAGCTGCCTGTGGACGCCCTGCTGGAGCGCCGCTACCAGCGCCTGCGCCGCTACGGGGCCTACGAGGCCGCCTGA	MNPNYLDFEQPIADLEAKIQDLRNASTGPAVNVDAEVRALRDKLRVRTAQIFRDLSAWQVSQLARHPQRPYTLDYVKVICDEFQELAGDRAFADDKAIVGGLARIDGRPVMVIGHQKGRDTKEKIRRNFGMPKPEGYRKALRLMKMAERFRLPLLTFIDTAGAWPGIDAEERGQSEAIARNLIEMAELTVPVICTVIGEGGSGGALAIGVGDRTLMLEYGTYSVISPEGCASILWKDAAKAKDAAEQLGLTAKRLKDLGLVDKVVREPTGGAHRNPTQMAKRLKAVLLNELDALEKLPVDALLERRYQRLRRYGAYEAA	PGPT0001695_1321	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0001695-accA-K01962	NA	NA
BMS020_07686	744			hypothetical protein	ATGAGCCCGATCCTGCTGCTGTCCATCGTCCTGCAGATCGCCTGCTGCGTGCACGTGGTGCGCAGCGGGCGGCCGCTGTACTGGATCCTGATCCTGCTGATGTTTTCCTACATCGCCGTGGCGATCTACGTGATCGCCGCGGTGATCCCGGATATGCGCCACGACCCGCGCGCCCGCGGCGGCCTGCGCAAGGTCCGGCAGACGCTCGACCCCGGCCGCGACCGGCGCGAAGCGGCGCGCCGGCTCGATGTCGCCGACACCCCGGAGAACCGCCGCCGCCTGGCCGAGCAACAGCTGGAACACGGCGACTACGCCGAAGCGGCCAAGCTCTACGAAGGCGCCCTGCGCGGCATCTACCGCCAGGATCCGGACCTGATGCTGGGCCTGGCCCGTGCACAGTTCGGCATGGACCAGCCACAGCAGTGCCGGCAGACGCTGGACGCGCTGATCGCCGCCAATCCGGCCTACCGCTCGCATGACGGCCACCTGCTCTATGCCCGTGCGCTGGAAGAGACCGGCGCCCTGGACGAAGCACTGCACGAATACGAGACCCTGGCGGCCGGCTATCCCGGCGAGGAAGGCCGGGTCCGCCATGCACTGCTGCTGGCACGCATGGGCCGCGGCGGCGACGCGCGCGACGCGTTCGAAGGCGTGCTGCGGCATGCGGCAGCCTCGCCGCGGCACTACCAGCGCGAACAGCGCGACTGGATCGAGCGCGCGCGCAGCGAGCTCAAGGCGCTCTGA	MSPILLLSIVLQIACCVHVVRSGRPLYWILILLMFSYIAVAIYVIAAVIPDMRHDPRARGGLRKVRQTLDPGRDRREAARRLDVADTPENRRRLAEQQLEHGDYAEAAKLYEGALRGIYRQDPDLMLGLARAQFGMDQPQQCRQTLDALIAANPAYRSHDGHLLYARALEETGALDEALHEYETLAAGYPGEEGRVRHALLLARMGRGGDARDAFEGVLRHAAASPRHYQREQRDWIERARSELKAL				NA	NA	NA	NA	NA
BMS020_07687	453			hypothetical protein	ATGACCCTGTACCTGTGGACCAAGACCTTCCACCTGCTGTTCGTGATCGCCTGGATGGCGGCGGTGTTCTACCTGCCGCGGATCCTGGTCAACATCGCCGAGACCGTCGGGCAGGCCGATGTGCAGGCGCGGTTGGTGCTGATGGGGCGCAGGCTGTACCGCTTCGGCCACGTCATGTTCGGGATCGCGGTGCTGTTCGGGGTGGTGCTGTGGCTGGGCTACCGGGTGCTGCCGGAGTTTCCGACCATGGTCGGCCCGGGCACCGGCTGGCTGCATGCCAAGCTGGCGCTGGTGGTGGTGCTGATGGGCTATTACACGGTCAGCGGGCGCTGGCTGAAGGGCGTCGACAAAGGCCGGGCACTGCCGTCGTCGCGCGCGCTGCGCTGGTTCAACGAGATCCCGTTGCTGGCGCTGGTCGGCATTCTCTGGCTGGTGCTGTTCAAGCCGTTCTGA	MTLYLWTKTFHLLFVIAWMAAVFYLPRILVNIAETVGQADVQARLVLMGRRLYRFGHVMFGIAVLFGVVLWLGYRVLPEFPTMVGPGTGWLHAKLALVVVLMGYYTVSGRWLKGVDKGRALPSSRALRWFNEIPLLALVGILWLVLFKPF	PGPT0008480_697	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008480-hemJ-K08973	NA	NA
BMS020_07688	591			hypothetical protein	ATGGACAAGCAATACGATGAACACTACTTCAAACACTGGTACCGCAAGGCCGGGCTGCACGATGCCGCGCGCCTGCGACGCAAGGTCGCACTCGCGGTGGCGCAGGCCGAGCACCACCTGGAGCGGCCGGTCCGCAGCGTGCTCGACATCGGCTGCGGCGAAGGCGCCTGGCGCGCGCCGCTGCGTGCGCTGCGCCCGCGCGCCAGCTACCTGGGCTTCGACAGCAGCGAGTACGCGGTGCGCCGCTACGGCCGCAGCCGCAACCTGCACCTGGCCCGCTTCGGCGATTTCGCCTGGCTGCGCCCGTGCGCGCCGGTGGACCTGCTGGTGTGCTCGGACGTGATGCACTACCTCGGCGACCGTGAGCTGGTGGCCGGCTTGTCGGGGCTGGCCGAGCTGTGCGGCGGCGTAGCGTTCCTGGAGACCTTCACCGCCGACGATGCGTTCGAAGGCGACCATGTCGGCTTCCAGCCGCGGCAGGCGCGCTGGTACCGCCGCCAGTTCGCCAAGGCCGGCTTCAGCGCGATCGGCGCGCACTGCTGGCTGGCGCCGGCCCTGGCCGGCAGCGCCTCGGCGCTGGAGACCTGCTGA	MDKQYDEHYFKHWYRKAGLHDAARLRRKVALAVAQAEHHLERPVRSVLDIGCGEGAWRAPLRALRPRASYLGFDSSEYAVRRYGRSRNLHLARFGDFAWLRPCAPVDLLVCSDVMHYLGDRELVAGLSGLAELCGGVAFLETFTADDAFEGDHVGFQPRQARWYRRQFAKAGFSAIGAHCWLAPALAGSASALETC				NA	NA	NA	NA	NA
BMS020_07689	1308			hypothetical protein	ATGCTTTATCAACTGCATGAGCTGACCCGTAACCTGCTTGCCCCTTGGGTGCACCAGGCCCAGGCCAACGCCAAGATGTTCTCCGACCCGGAAAGCCTGTGGGCCTCGCTGCCCGGGGCCGAGCGGTTGGCTGCCAGCAACGAACTCTTCCATCGTCTCGGCAAGGAATACGAAAAGCCGGCCTGGGCGCTGGACGACGTCGAGGTGGACGGCCACGCGCTGCCGATCCTCGAACGCGAAGTGCTGAGCAAGCCGTTCTGCCGGCTGCTGCGCTTCAAGCGCTTCAGCGACAGCGTCGAGCTGATCGATTCGATGAAGAAGCAGCCGACCGTGCTGGTGGTGGCGCCGTTGTCCGGTCACCACGCCACGCTGCTGCGCGACACCGTGCGCACGCTGCTGCGCAACCACAAGGTCTACGTGACCGACTGGGTCGACGCGCGCATGGTGCCGAGCGAGGCCGGCAGCTTCGGGCTTGAGGACTACATCGATTACATCCGCGAGTTCATCCGCCACATCGGCGCCGAGAAGCTGCACGTGATGAGCGTGTGCCAGCCGACCGTACCGGTGCTCGCCGCGGTGTCGCTGATGGCCGCCGATGGCGAGCCGACGCCGCGTTCGCTGGTGATGATGGGCGGCCCGATCGACGCGCGCCGCAGCCCGACCCAGGTCAACAACCTGGCCACGCGCAACCCGATCGAGTGGTTCCAGAACAACGTCATCCACACCGTGCCCTACCCGTATCCGGGGCATGGCCGCCAGGTGTACCCGGGCTTCCTGCAGCACGCCGGCTTCCTGTCGATGAATCCCAGCCGCCACGTGATGTCGCACTGGGACTTCTACACCAACCTGGTCAAGGGCGACCTGCAGGACGCGCAGTCGCACCGGCAGTTCTACGACGAATACAACGCCGTGCTCGACATGCCGGCCGAGTACTACCTCGACACGATCCGGGTGGTGTTCCAGGAGTTCCTGCTGCCGCGCGGCAAGTGGAAGGTGCGTGGGCAGCTGGTCAAGCCGGCGGCGATCCACAACACCGCGCTGCTGAGCATCGAAGGCGAGCTGGACGACATCGCCGGCCTCGGCCAGACCGAAGCCGCGCAGGACCTGTGCACCGGCATCGACGCCGGCGACCGCAAGCACCTGGTGGTCGAAGGCGCCGGCCATTACGGCATCTTCAGCGGCCGCCGCTGGCGCGAGGTGGTCTACCCGCAGGTGCGCGAGTTCATCGCCAATTACGATGCCGCCCCGATCGCCACCCGCAGCACCGCGACGGTCACGCCGATCAGCAAGCGCGGCAAGCGCGCCTGA	MLYQLHELTRNLLAPWVHQAQANAKMFSDPESLWASLPGAERLAASNELFHRLGKEYEKPAWALDDVEVDGHALPILEREVLSKPFCRLLRFKRFSDSVELIDSMKKQPTVLVVAPLSGHHATLLRDTVRTLLRNHKVYVTDWVDARMVPSEAGSFGLEDYIDYIREFIRHIGAEKLHVMSVCQPTVPVLAAVSLMAADGEPTPRSLVMMGGPIDARRSPTQVNNLATRNPIEWFQNNVIHTVPYPYPGHGRQVYPGFLQHAGFLSMNPSRHVMSHWDFYTNLVKGDLQDAQSHRQFYDEYNAVLDMPAEYYLDTIRVVFQEFLLPRGKWKVRGQLVKPAAIHNTALLSIEGELDDIAGLGQTEAAQDLCTGIDAGDRKHLVVEGAGHYGIFSGRRWREVVYPQVREFIANYDAAPIATRSTATVTPISKRGKRA				NA	NA	NA	NA	NA
BMS020_07690	675			hypothetical protein	ATGGTGGCATCGAGCGTGAACGTGAATCGTTGGTTGCTGGTCGGCCTGGTGGCCGGGGTCTGGGCGATGGTGGCGCAGCACTGGGTCGCCGAGGCGCGCGCCGATGCAGGGTCGGCGCCGAGTGCGCAGAAGGCGGTGGCGCGCTTCGACGAGATCGAGGTGCACCGGATCAACGTGGTCGAAGATGACGGCACCGCGCGGCTGGTGATCGCCAACAGCGCGCGTTTCCCGAATCCGGTGGTGCGCGGCAAGGAACTGCCGCGCAGCATCAGCGGCACTGCCGGCATGGTGTTCTACGATGCCGAGGGTGTGGAAACCGGTGGCCTGGCCAGCGCGCAGCGCGCCAACGGGCAGCGGGCCAATGCGTTGATCTTCGATTACAACGCGCAGCCGACCGACGGCATCGGCCTGGTCAAGACCGAGAACGCCGACGGCAGCCGCTTCGCCGCCGGGCTCACCGTCGCCGATCCGCGCCCGTTCAAACCGGGGCCGATCGAGAGTAGCGAGGGCATCTCGCGGATCTGGCTGGGCAACCAGGACAAGGATGCGCGGCTGGAGATCTACGACACGCAGGGGCGGCCGCGGGTGCGCATCGGTGTGGGGCGCGACGACGTCCCCGCGCTGGAGCTGCTCGATGCGGCCGGCAAGGTGGTGCGCCGGATCGACGCGGGTTGA	MVASSVNVNRWLLVGLVAGVWAMVAQHWVAEARADAGSAPSAQKAVARFDEIEVHRINVVEDDGTARLVIANSARFPNPVVRGKELPRSISGTAGMVFYDAEGVETGGLASAQRANGQRANALIFDYNAQPTDGIGLVKTENADGSRFAAGLTVADPRPFKPGPIESSEGISRIWLGNQDKDARLEIYDTQGRPRVRIGVGRDDVPALELLDAAGKVVRRIDAG				NA	NA	NA	NA	NA
BMS020_07691	648			hypothetical protein	GTGCCGCCTGCGCCGACGCCCGCGCCGCGCTCGGCATTGGCACGCTTCTTCGGCGTAGCGGTCGATCCGCGCACCTATGGCGCGCTGTTCTACATGCTGCTGTCGCTGGCGACCGGCGTGTTCTTCTTCAGCTGGACCATCACCGGTGTCGCGTTGTCGGCGGGGCTGATGATCCTGGTGATCGGCCTGCCGGTGACCTTGTTGTTCTTCGGTTCGATCCGCGGCCTGTCGCTGCTGGAAGGGCGCCTGGTCGAAGTGCTGCTGGGCGAGCGGATGCCACGGCGACCGACCTATTCCGACCGCAGCCGCGGCCTGCTCGACCGCATCCTCGACATGTTCCGCGACAGCCGCACCTGGCTGACGCTGCTGTATTTCCTGCTGATGCTGCCGCTGGGCACGCTCTACTTCACCGTCACCACCACGCTGCTGTCGGTGTCGCTGGCATTCATCTGGTCGCCGATCGCGGCGCTGTTCACCGGCGCGGTGCCGAACGTGGTGATCGACGGTGTACCGCTGTTCGGTCTGTGGGCGACGCCGCTGCTGGCCGCCATCGGCGTGCTGCTGCTGTTCCTGACGATGCACCTGGCGCGCGGCCTCGGCCGCCTGCATGCCCAGCTCGCCAAGCACCTGCTGGTGCGCCAGGGCTGA	MPPAPTPAPRSALARFFGVAVDPRTYGALFYMLLSLATGVFFFSWTITGVALSAGLMILVIGLPVTLLFFGSIRGLSLLEGRLVEVLLGERMPRRPTYSDRSRGLLDRILDMFRDSRTWLTLLYFLLMLPLGTLYFTVTTTLLSVSLAFIWSPIAALFTGAVPNVVIDGVPLFGLWATPLLAAIGVLLLFLTMHLARGLGRLHAQLAKHLLVRQG				NA	NA	NA	NA	NA
BMS020_07692	597	nfuA_2	COG0316	Fe/S biogenesis protein NfuA	ATGATCCAGATATCCGACAAAGCGCAGACACACTTCCGCAAACTGATCGAGCGCGAGGACATCCCCGGCATGGGGGTGCGCCTGAGCGCGGTCGATGCCGGCACGCCCAAGGCCGATGCCCGGCTGGAGTTCGCCGAGCCGGCGGACCTGCGTGGCGACGAGTGGGCAGTGGACTGCGACGGCTTCACCCTGTACGTCGCCGCCGACAGCGTGGCCTGGCTCGATGGTGCCGAGATCGACTACATCACCCAGGCCACCGGCAACCAGCAGCTCACGATCAAGGCGCCCAAGATCAAGGGCGAGGCGCCGGCCGATTCGGCTTCGCTGGTCGAGCGCGTGCGTTGGGTGGTCGAGAACGAGATCAACCCGCAGCTGGCCTCGCACGGCGGGCGCGTGGCGGTGCAGGAAGTATCCGCCGACGGCGTGGTGCTGCTGCGTTTCGGCGGCGGCTGCCACGGCTGCGGCATGGCCGACGTGACGCTCAAGCAAGGCATCGAGAAGACCCTGATGGGCCGCGTGCCCGGCGTGACCGCGGTGCGCGATGCCACCGACCACACGACCGGCGACGCACCGTACATCCCGCGCGACGCGGCCTGA	MIQISDKAQTHFRKLIEREDIPGMGVRLSAVDAGTPKADARLEFAEPADLRGDEWAVDCDGFTLYVAADSVAWLDGAEIDYITQATGNQQLTIKAPKIKGEAPADSASLVERVRWVVENEINPQLASHGGRVAVQEVSADGVVLLRFGGGCHGCGMADVTLKQGIEKTLMGRVPGVTAVRDATDHTTGDAPYIPRDAA				NA	NA	NA	NA	NA
BMS020_07693	351			Putative pterin-4-alpha-carbinolamine dehydratase	ATGACCGACCTGATCCCGCTCGCCCGGGCCCACTGCCTGCCGCGCAAGGGCAACGAGCACCGCCTGGGTGAAGCCCGGCTGGCCGAGCTGCTGCCGCAGGTGCCCGGCTGGGACCTGGTCGAGGACGGTGCCGCGCTGAGCCGGACGTTCCGCTTCCCCGACTACTACCGCACCCTGGCCTTCGTGAACGCGCTGGCCTGGATCGCGCACCGGGAAGACCACCATCCCGACCTCGGCGTGCATTACGACCGGGTGGTCGTGCGCTTCTCCACCCACGACGTGGGCGGTTTGAGCGAGAACGACTTCATCTGCGCCGCGCGGGCGTCGGAGATCTTCGAACAAGGAGCATGA	MTDLIPLARAHCLPRKGNEHRLGEARLAELLPQVPGWDLVEDGAALSRTFRFPDYYRTLAFVNALAWIAHREDHHPDLGVHYDRVVVRFSTHDVGGLSENDFICAARASEIFEQGA				NA	NA	NA	NA	NA
BMS020_07694	423			hypothetical protein	ATGAAATCGTTCTTCTATGCGTGGCTGGCGATGCCGGCGATGCTGCTGGTCGGCTGTGGCAAATCCGAGCCGCAGGCCGCGGCCACGCCGGCGATCGCCCCGACCGACGTCGCCGCGATAGACACCCCGCCGCCGGAGTACCCGGTGCAGCTGGCCTGCGCCGGCATCGGCGGCACCACCGAACTGATGGTGGTGATCGGCCCGGAGGGCACCCTGACCGACGTCAAGCTCAATCGCAGCAGCGGTCAGGCCGCGCTCGACGAGGCCGCGCAGAGCAAGGTCAAGACCTGGCGTTTCAAGCCCGCGACCCGCAACGGCAAGCCGATCCCGCAGACGATCAAGGTGCCGGTGGCGTTCAATCCGCCCCAGCCCAAGCCGGACGGCTGTTTCGCGATCGAGGAACAGGCGCGGCGCGGTGGCTGA	MKSFFYAWLAMPAMLLVGCGKSEPQAAATPAIAPTDVAAIDTPPPEYPVQLACAGIGGTTELMVVIGPEGTLTDVKLNRSSGQAALDEAAQSKVKTWRFKPATRNGKPIPQTIKVPVAFNPPQPKPDGCFAIEEQARRGG	PGPT0003745_7377	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003745-tonB-K03832	NA	NA
BMS020_07695	810	zupT_2	COG0428	Zinc transporter ZupT	GTGATCGCGCCGGCGCACGCCGAGGTCTGGACCGCGTTGCTGGTCACCCTCGCCGCAGGCCTGGCCACCGGCCTGGGCAGCTTGATGGTGGTGTTCTCGCAACGGCCCAACCCGCGCCTGCTGGCGTTCGGGCTGGCCTTCGCCGGCGGCGCGATGGTGTATGTGTCGCTGTCGGAGATCCTCAACAAGTCGATCGCCTCGTTCAGCAACGCCTACGACCCGCGCCTGGGCTTCACCTACGGCACGCTGGCCTTTCTCGGCGGCGTGCTGTTGATCCTGCTGATCGACCACCTGGTGCCGAATCCGCACCAGAGCCTGAGCAGTGATGATCCGGCGTTCCGCGACGACAACCGCGCCTACATCAAGCGCGTCGGCCTGCTGACCGCGATCGCGATCACCGCGCACAACTTCCCCGAAGGGCTGGCGACGTTCTTCGCGACCCTGGAAAGCCCCTCGGTGGGCATGCCGCTGGCGTTCGCGATCGCCATCCACAACATCCCCGAGGGCATCGCGATCGCGGTCCCGGTGTATTTCGCCACCCGCAACAAGTGGTACGCCTTCGCCGCCAGCCTGCTGTCGGGCCTGGCCGAGCCGATCGGCGCGGCGATCGGCTATGTCGCGCTGTCGCAGGTGCTGTCCGAAGCGGTGTTCGGCGCAGTGTTCGGGGTGATCGCCGGGGTCATGGTGTTCCTGGCCCTGGACGAACTGCTGCCGGCGGCCAAGCGTTATGCCAAGGGCCACGAAACCGTCTATGGCCTGGTCACCGGCATGTCGACGCTGGCGGTGAGCCTGGTGCTGTTCAAGTGGTGA	MIAPAHAEVWTALLVTLAAGLATGLGSLMVVFSQRPNPRLLAFGLAFAGGAMVYVSLSEILNKSIASFSNAYDPRLGFTYGTLAFLGGVLLILLIDHLVPNPHQSLSSDDPAFRDDNRAYIKRVGLLTAIAITAHNFPEGLATFFATLESPSVGMPLAFAIAIHNIPEGIAIAVPVYFATRNKWYAFAASLLSGLAEPIGAAIGYVALSQVLSEAVFGAVFGVIAGVMVFLALDELLPAAKRYAKGHETVYGLVTGMSTLAVSLVLFKW	PGPT0004250_1058	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
BMS020_07696	1245			hypothetical protein	ATGACCGATCCCCACACCCCGCGGCCAGGCCGCAAGTCCGCCCGCCCCGCCGGCCAGAAGCCGGCACGGACGCTGCGTGCCGTACAGGCCGCCAGGGCCGCTGCCAAGCCGGCCGCGGAGCGCGAGCCCCGTGGCGGCCAGCGCATGGCGCCGGCTGCGGCGCGCCCGGCCCACGCGCCAGTCAGGAAGACGGCGTCCGCACCGGCCCCGCGCCCCGGCGCCCGCGACGGGCAGGGCGGGGCGATGGTCGTTCCAGCCGGCGCCCGCGGGGGCGACGCCCAGCCCGCCGCGATGGAGCGTGCCCAGGCCCGTACAATCGTCGTGTCCGACGAGCGTGCCGGCCAGCGGCTGGACAACTTCCTGCTCGGCCAGCTCAAGGGCGCGCCACGCAGCCTGGTCTACAAGCTGGTACGCAGCGGCCAGGTCCGGGTCAATGGCGGCCGCGCCAAGGCCGAGCGCAAGCTGGACGGCGGCGACGAGGTGCGGATCCCGCCGATCCGCCTCGCCGAGGAAGGGGAGCGGACCCCGCCACCGGCCGCGTTCCTGGCCCGGCTGGAAGCGGCGATCGTGTTCGAGGACGCCCGGCTGCTGGCGCTGAACAAGCCGAGCGGGGTTGCCAGCCATGGCGGCAGCGGGATCAGCCACGGGGCGATCGAGACCCTGCGCGCCCTGCGTCCGAACGAGTCGCTGGAGCTGGTGCACCGGCTCGACCGGGATACCTCCGGGTTGCTGATCGTCGCCAAGAAGCGCTCGGCGCTGACCGAACTGCAGGCGTTGATGCGCGAGGGCGATTCCGACGAGGGCCGCGGCATCACCAAGCGCTACCTGACCCTGCTGGTCGGGCGGATGCCCGAGGGAACGATGTCGGTGGATGCGCCACTGCTGGTGGGCCTGCGCCAGGGCGGAGAACGCCATGTCCAGGTCAACCCGAACGGCAAGGCTTCGTTGAGCCACTTCCGGGTCCTGGAACGCCGCGGCGGACATTCCTATTGCGAGGTCCGGATCGAGACCGGTCGCACCCATCAGATCCGCGTGCATGCCCAGCATATCGGCCACGCGGTGGCCGGCGACGACAAGTACGGCGATCCGGAGACCAACAAGCGCCTGCGCGACCAGGCCGGGCTGCGCAGGTTGTTCCTGCATGCGGCTTCACTGGAGTTCGCGCTCGACGGCGGCAAGACGCCGTACGTGCTGAACGCGCCGCTGGCGCCGGAGCTGGCCGAGGTGCTGGACCGCCTGGGCTGA	MTDPHTPRPGRKSARPAGQKPARTLRAVQAARAAAKPAAEREPRGGQRMAPAAARPAHAPVRKTASAPAPRPGARDGQGGAMVVPAGARGGDAQPAAMERAQARTIVVSDERAGQRLDNFLLGQLKGAPRSLVYKLVRSGQVRVNGGRAKAERKLDGGDEVRIPPIRLAEEGERTPPPAAFLARLEAAIVFEDARLLALNKPSGVASHGGSGISHGAIETLRALRPNESLELVHRLDRDTSGLLIVAKKRSALTELQALMREGDSDEGRGITKRYLTLLVGRMPEGTMSVDAPLLVGLRQGGERHVQVNPNGKASLSHFRVLERRGGHSYCEVRIETGRTHQIRVHAQHIGHAVAGDDKYGDPETNKRLRDQAGLRRLFLHAASLEFALDGGKTPYVLNAPLAPELAEVLDRLG				NA	NA	NA	NA	NA
BMS020_07697	3174	rne_2		Ribonuclease E	ATGAAGCGAATGTTGATCAATGCCACGCAGGCCGAAGAGCTGCGCGTGGCCATCGTAGACGGGCAGACGCTGTACGACATCGACATCGAACAGCCGTCCAAGGAACAGAAGAAGTCCAACATCTACAAGGGCCGCATCACCCGGCTCGAACCTTCCCTTGAAGCCGCCTTCGTCGATTACGGCGCCGAGCGCCACGGCTTCCTGCCGCTGAAGGAAATCTCCCGCGACTACTTCCAGAGCGGTGTCGACCACCACAAGGCCGGCATCCGTGAGCTGCTGCGCGAAGGCCAGGAGATCGTCGTCCAGGTCGACAAGGAAGAACGCGGCAACAAGGGTGCCGCGCTGACCACCTTCATCTCGCTGGCCGGCCGCTACATGGTGCTGATGCCGAACTCGCCGTCCGCCGGCGGCGTGTCGCGCCGCATCGAGGGCGAGGACCGCGCGGCGCTGAAGGACGCGCTGGACAAGCTGAACATTCCCGACGACATGGGCGTGATCATCCGCACCGCCGGCGTCGGCCGCGATGCGGAAGAGCTGCAGTGGGACCTGGACTACCTGCTGCAGACCTGGCGCGCGATCGCCGAGGCGGCGCTGAGCAAGCCGGCGCCGTTCCTGATCTACCAGGAATCGCGACTGATCATCCGGGCGCTGCGCGACTACCTGCGCGCCGACATCGGCGAGATCCTGGTCGACACCGCCGAGATGTACGCCGACGCGCGCGAGTTCATGCAGCAGGTGATGCCGCAGAGCCTGCGCAAGCTCAAGCACTACACCGACGACATCCCGCTGTTCAACCGCTTCCAGATCGAATCGCAGATCGAAGGCGCCTACGAGCGCAACGTGCGCCTGCCGTCGGGCGGCTCGATCGTGGTCGACCAGACCGAAGCGCTGACCGCGATCGACGTGAACTCCTCGCGCGCCACCAAGGGCAGCGACATCGAGGAGACCGCGTTCCACACCAACCTGGAAGCGGCCGAGGAAGTGGCGCGCCAGCTGCGCCTGCGCGACCTGGGCGGCCTGGTCGTCATCGACTTCATCGACATGGCCTCGTCCAAGCACCAGCGCGAGGTCGAGAACCGCCTGCAGAACGCGCTGAAGTACGACCGCGCGCGCGTGCAGCTGGGCCGCATCTCGCGCTTCGGCCTGATGGAGATGAGCCGCCAGCGCCTGCGTCCGTCGCTGGGCGAATCCAGCCAGATCGTCTGCCCGCGCTGCGAAGGCCACGGCCGCATGCGTAGCGTCGAATCGCTGTCGTTGTCGATCATCCGCGTCGCCGAGGAGCACGCGATGAAGGAGAACACCGGACAGGTGCTGGTCCAGGCGCCGGTGGAGATTGCCAACTACCTGCTCAACGAGAAGCGCAGCGCGCTGCGCGAGATCGAGCAGCGCCACGAGTCGCCGATCATCATCGTCGCCGATGAGCAGCTGCACACGCCGCACTACGAAGTCACCCGCCTGCGCGAGAACGAGCTGGGTGAGGAAAGCGGCAAGCCGAGCTACCAGCGCGGCACTCCGCGCAAGCTGCCGGTGCACGCGCTGACCAAGGGCCAGCTCAACATCCCGCCGCCGCCGGCCGTCACCTCGATCAAGCCGAGCCAGCCGGCGCCGGTGCGCGAGGAAGCCGTCGAGCAGCCTGTTGCCGCCCCGGTCGCCGTGCCCGTCGCCGCCCCTGCCCCGGTTGCCGCCGGCGGCGTGGTCGGCTGGCTCAAGCGCATCTTCGGCGCACCGGAAACCGCCACCACGACCCCGACCGAAGCCACTCCGCGACAGAAGCAGGGCGAAGCCCGCGGCAACCGCAACGAGCGCGGCAACGGCCGTCGCGATCGTGATGGCCGCGGCAACAACGGCCAGAACAAGGAGCGCGGCAACCAGGGCGGCCGCCGCGAAGAGCGGCGCCAGGACGAGCGGCGCCAGGGCGGCAGCAACCAGCCGCAGGCGCAGCAGCAGCCCAAGGCCCGCAACGAGCAGCAACAGCAGGCGCCGGCCAAGCAGCAGAAGCAGCCGCAGCAGCAGCCCAAGCAGCCCAAGCAGCCCAAGCCGGTCGAAGCCGCTGCGCAGACCGAAGAGCGCCGGCAGCAGCCCGCGCGGCCGTCGCGCGAGGACAAGCCGCAGCAGCCGGCCGCGAGCGAAGCCGTGACGCCGGTGGTGCCGGCGGCGATCGCCGCGACTGCCGTGGCGGTCGAGCAGGTCGCTCCGGCTGCCGAGGTGCGTGCGCCGGTCGAGACGACAGCGGCTCCGAAGACCGAGCCGGCCAAGCCGGAGGTGGCCGAGGCCGATGCGACCGCGACCGCGACCGCGATCGAAGCCGATGCAGCCACTGCCGAAGGTGGTGCCGATGTCGCCGGTGATGCAGGCGAAGGCGGCAGCCGTCGTCGTCGTGGTCGCCGTGGCGGGCGTCGCCGTCGTCGCGGCGGCAATGGCTCCGGCGAGCCGGGCAGCGAGTCAGCCCTGGCCGACGGCGATGATGCCGATCAGGACACTGGTGACGACGTCGAGATCGAAGTCGAGGCGGACGGCGACGCCGCACCGCGCGGCGCGCAGCCGGAGTTCGAGTTCGATGACGAGCCGGCCCAGCCGCGCGCGTCGTCGACCCCGAAGGCCGCGCCTGCCCCCGTGCAGGCCGTGGTTGCCGCAGCTCCGGTGGTGACCGCGGCGCCGATCGCCGCCACGACCTCGGAAGCCGAAGCCCCGGCCGTGACGGCGGCGCCGGTCGTCGAGCCGGCCGTGCAGGCGCCGGTGGTGCAGGAAGCCGCAGCTTCGGCCGAGATTGCCGAACCTGCGCCCCCCGCGCCGGTCGTCGCAGCGGTCGAATCCCGCGTGGCGGTGACCGAAGAGGCGGTCGTCAGTGCCCCGGCCCCGCAGCCCGAGCCGGCCGCGACCGCAACGGTCGCCGAGGTGGATGCCGCGGCCGAGCAGGCTGTCGCTGCCACCCCGGTCGAGCCCGCCCCCGCCGCTGCCGTCGACGCGCCCAAGCCTTACGCTCCGGTGCAGACGACGCTGCTGGACGTGCTGGCCCCGAGCGAGCCGGTGGCGACGGCAGACAGCGGGATCGTCGCGGATGCCGCGGCCGCCACCGAGGCCCCTGCCGCGCCGACCACTGATGCCGCAACGAGCGACGTCGATGCCGGCGAGCCCCGCGAGGCGGAAGACGCAACCAAGCCCAAGGCCGACTGA	MKRMLINATQAEELRVAIVDGQTLYDIDIEQPSKEQKKSNIYKGRITRLEPSLEAAFVDYGAERHGFLPLKEISRDYFQSGVDHHKAGIRELLREGQEIVVQVDKEERGNKGAALTTFISLAGRYMVLMPNSPSAGGVSRRIEGEDRAALKDALDKLNIPDDMGVIIRTAGVGRDAEELQWDLDYLLQTWRAIAEAALSKPAPFLIYQESRLIIRALRDYLRADIGEILVDTAEMYADAREFMQQVMPQSLRKLKHYTDDIPLFNRFQIESQIEGAYERNVRLPSGGSIVVDQTEALTAIDVNSSRATKGSDIEETAFHTNLEAAEEVARQLRLRDLGGLVVIDFIDMASSKHQREVENRLQNALKYDRARVQLGRISRFGLMEMSRQRLRPSLGESSQIVCPRCEGHGRMRSVESLSLSIIRVAEEHAMKENTGQVLVQAPVEIANYLLNEKRSALREIEQRHESPIIIVADEQLHTPHYEVTRLRENELGEESGKPSYQRGTPRKLPVHALTKGQLNIPPPPAVTSIKPSQPAPVREEAVEQPVAAPVAVPVAAPAPVAAGGVVGWLKRIFGAPETATTTPTEATPRQKQGEARGNRNERGNGRRDRDGRGNNGQNKERGNQGGRREERRQDERRQGGSNQPQAQQQPKARNEQQQQAPAKQQKQPQQQPKQPKQPKPVEAAAQTEERRQQPARPSREDKPQQPAASEAVTPVVPAAIAATAVAVEQVAPAAEVRAPVETTAAPKTEPAKPEVAEADATATATAIEADAATAEGGADVAGDAGEGGSRRRRGRRGGRRRRRGGNGSGEPGSESALADGDDADQDTGDDVEIEVEADGDAAPRGAQPEFEFDDEPAQPRASSTPKAAPAPVQAVVAAAPVVTAAPIAATTSEAEAPAVTAAPVVEPAVQAPVVQEAAASAEIAEPAPPAPVVAAVESRVAVTEEAVVSAPAPQPEPAATATVAEVDAAAEQAVAATPVEPAPAAAVDAPKPYAPVQTTLLDVLAPSEPVATADSGIVADAAAATEAPAAPTTDAATSDVDAGEPREAEDATKPKAD				NA	NA	NA	NA	NA
BMS020_07698	648	gacA		Response regulator GacA	ATGACCATCAGGGTGTTTCTGGTCGACGATCATGCTCTCGTGCGCACCGGCATGAAGATGATCCTGTCGAACGAGTTCGACATCGACGTTGTCGGCGAAGCCGAGAGCGGCGAGGCGGCGCTGCCGCAGATCCGGCAGATGCGCCCCGATATCGTGCTGTGCGATCTGCACCTGCCGGGCGTAAGTGGGCTGGAGGTGACCGAGCGGCTGGTCAAAGGCGATTACGGCGTGCGCGTGATCATCGTCTCGGTGCTCGAGGACGGCCCGTTGCCGAAGCGGCTGATCGAGGTCGGTGCATCCGGATACATCGGCAAGGGCGGCGATGCGCAGGAGTTGCTGCGCGCGGTGCGCGAAGTGGCACTGGGCAAGCGCTATCTCGGCACCAGCATCGCGCAGAACATGGCGCTGGCGAATCTGGAAGGCACGGGCTCGCCGTTCGACGCGCTGTCGCCGCGCGAGCTGGAAGTGGCGCTGCTGCTGACCCAGGGCCTGCGCCAGGAAGACATCGCCCGCCGCCTGAGCCTGAGCGCCAAGACCGTGAACACGCACAAGGCGCGGCTGTTCGAGAAGGTCGGCATCCAGGACAGCATCGCGCTGGCGCGGCTGGCCAACCAGTACGGACTCACCGACCCGGCGCGGACCATCTGA	MTIRVFLVDDHALVRTGMKMILSNEFDIDVVGEAESGEAALPQIRQMRPDIVLCDLHLPGVSGLEVTERLVKGDYGVRVIIVSVLEDGPLPKRLIEVGASGYIGKGGDAQELLRAVREVALGKRYLGTSIAQNMALANLEGTGSPFDALSPRELEVALLLTQGLRQEDIARRLSLSAKTVNTHKARLFEKVGIQDSIALARLANQYGLTDPARTI	PGPT0012935_672	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-VarA|VarS_SIGNALLING_SYSTEM,PGPT0012935-gacA|uvrY|varA-K07689	NA	NA
BMS020_07699	771			hypothetical protein	ATGATCATCAACACCGCCGCCTACCAGTTCGTTCCGATCCAAGACCCGCAGGCGCTCGCCAGCGAGGTCCGCGAGCGGGCCGCACAGCTGGACCTGAAGGGCAGCGTCCTGCTGGCCGGGGAGGGCATCAACCTGTTCCTGGCCGGCGAAGCGGATGCGATCGCGACGTTCTACGCCTGGCTGCGCGCCGACCCGCGTTTCGCCGCGATCACGGTCAAGGAAAGCCGCAGCGCGCACGTGCCGTTTGCCAGGCTGAAGGTCAAGGTCAAGCCCGAGATCATCAGCTTCCGCCGCGACGATGCCTCGCCCCTGCAGCGTGGGCGCGCGCCGAGCGTGGCCCCGGAGGTGGTGCGCCGCTGGCTGCGCGACGGCCACGACGATGCCGGCAAGCGCGTGGTGATGCTCGATACGCGCAACCACCAGGAAGTCGCGTACGGCACCTTCGCCGGGGCGCTGACGCTGCCGATTGGCCGCTTCACCGAGCTGCCCGAGGCATTGGCGCCGCATCGCGCCGAACTCGCCGATGCGACCGTGGTGAGCTTCTGTACCGGCGGCATCCGCTGCGAGAAGGCGGCACTGTGGATGCGCGCGGACGGAATGGACAACGTGCTGCAGCTCGACGGTGGCATCCTGGGTTATTTCGAGCGCGTCGGCGGCGAGGGCTACGATGGGCGCTGCTTCGTGTTCGACGAGCGCGTCGCGCTGGACCCTGCGCTGGCGCCGCTGCACGACGTCGACGTTGCGCCGATGGCGGTAGCGGGAGATTTCTGA	MIINTAAYQFVPIQDPQALASEVRERAAQLDLKGSVLLAGEGINLFLAGEADAIATFYAWLRADPRFAAITVKESRSAHVPFARLKVKVKPEIISFRRDDASPLQRGRAPSVAPEVVRRWLRDGHDDAGKRVVMLDTRNHQEVAYGTFAGALTLPIGRFTELPEALAPHRAELADATVVSFCTGGIRCEKAALWMRADGMDNVLQLDGGILGYFERVGGEGYDGRCFVFDERVALDPALAPLHDVDVAPMAVAGDF	PGPT0013330_2506	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013330-UPF0176_protein-K07146	NA	NA
BMS020_07700	366			hypothetical protein	ATGGCCAAACTGCTGTTGAACCTGCGCAACGTGCCCGAGGACGAGGCCGACGATGTCCGCCACCTGCTCGACGCGCACGCCATCACCTACTACGAAACGCCGCCGAGCATGTTCGGCATCTCCGCCGGCGGGCTGTGGCTGCCCGATGCTGCCATGCACCCGCGCGCCAAGGCGCTGCTCGACGACTACCAGCGGGAACGCGGCGAGCGCGCACGCGCGCAGCGTCGGCAGGAGCTGGAGGCCGGGTCCGCGGAGACGTTCGCAACGCTGGTGCGGCGGCGGCCGCTGTTCGTGATCGCCACGCTGGTTGCGATGCTGCTGGTCGCCGCGCTGGTATTGCTGCCGTTCTGGCTGCTGTCGGCCTGA	MAKLLLNLRNVPEDEADDVRHLLDAHAITYYETPPSMFGISAGGLWLPDAAMHPRAKALLDDYQRERGERARAQRRQELEAGSAETFATLVRRRPLFVIATLVAMLLVAALVLLPFWLLSA				NA	NA	NA	NA	NA
BMS020_07701	435			hypothetical protein	ATGCCCCGTCTGCTCGCCCTGCTCCTGCTTGTCGCCCTCGTCGCCGGCTGCACGCCGCCGGGTCCGCCCCCGGGTGGGACCATCGCCCAGTTCCAGACGATCGACACCGTGACCGGTAGCGGTCGCGAGGCCAAGCCGGGCGACCGCGTCAGCGTCCATTACACCGGCTGGCTCTACGACGAGCACGGCCAGGACAAGCACGGCGAGAAATTCGACAGCTCGCTCGATCGCGGCGAGCCCTTCAGCTTCGCGCTCGGCGCTGGCCAGGTGGTCCGTGGCTGGGACGAAGGCGTCGCCGGCATGAAGGTCGGTGGCAAACGCACGCTGATGCTGCCGCCGGATTACGGTTACGGTGACCGCGGCGCCGGTGGGGTGATTCCGCCCGGCGCATCGCTGGTGTTCGACGTCGAACTGCTCGACGTGCAGGACCACTGA	MPRLLALLLLVALVAGCTPPGPPPGGTIAQFQTIDTVTGSGREAKPGDRVSVHYTGWLYDEHGQDKHGEKFDSSLDRGEPFSFALGAGQVVRGWDEGVAGMKVGGKRTLMLPPDYGYGDRGAGGVIPPGASLVFDVELLDVQDH	PGPT0015110_170	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015110-ppiA-K03767	NA	NA
BMS020_07702	1242	baiN	COG2081	3-dehydro-bile acid delta(4,6)-reductase	ATGCAGCACGCCAAACGCGTCGCGGTGGTCGGCGGCGGCCCGGCAGGCCTGATGGCCGCCGAGACGATCCGCGCAGCCGGCCACGCCGTCGATGTCTACGAGGCCAAGGGCTCGCCCGGGCGCAAGTTCCTGATCGCCGGCAAGGGCGGTCTCAACCTCACCCACTCCGATCCGCCGGCGCTGTTCGTATCGCGCTATCGCGAGCGTGCCGACGAGGTCGGGCGCTGGCTGGCCGGGTTCGACGCCGATGCGCTGCGTGCATGGGCGCGCGGGCTGGGCGTGGACACCTACGTGGGCAGCTCCGGCCGGGTATTCCCCACCGATCGCAAGGCGGCGCCACTGCTGCGCGGCTGGGTGCGCCGGTTGAAGGATGCCGGCGTGCGCTTCCACGTGCAGCACCGCTGGACCGGCTGGGACGCTGCAGGAGCGCTGCGCCTGGCGACCCCGGAGGGCGAGTTGGGCGTCGCCGCCGATGCGGTGGTGTTGGCGCTGGGCGGCGCGAGCTGGCCAGAACTCGGTTCCGACGGCGCCTGGACCGCGCCGCTGCAGCAGCGCGGGATCGAGCTCGCCCCGCTGCGGCCGGCCAACTGCGGCTTCGACATCGGATGGACGCCCTTCTTCGCCGAGCGCCATGCCGGCGCGCCGCTGAAGCCGGTGGTCGCCCACTGGAAGACGCTGGATGGCGAACTGTCGGCACTGCAGGGCGAATGCGTGCTTACCGCCACCGGCATCGAGGGCAGCCTGGTCTACGCGATCGCCGCGGATCTGCGCGAGACATTGCAGCGCGATGGCGCCGCGACGCTCTGGCTCGACCTGGTGCCCGGTCGCGACATCGCCCGGCTGCGCGCCGACCTGGGCAAGCCCCGCGGCGCGCGCAGCTTCGGTGAGCACCTGCGCCGCCAGGCCGGGCTCGACAAGGCCAAAGCCGCGCTGCTGTTCGAAGTGCTGGGGCGCCAGGCCGGCGATGACCTCGACGCCGTCGCCGCCACACTCAAGCGGCTTCCGTTGCCGCTGCAGGCGCCGCGTCCGGTCGCCGAAGCGATCAGCAGCGCCGGCGGCGTGCGTCTGGAGGCACTGGATGCGCAGCTGATGCTGCACGCGCTGCCGGGGGTGTTCTGCGCCGGCGAAATGCTGGATTGGGAGGCGCCGACCGGCGGCTACCTGCTCACCGCCTGCTTTGCCAGCGGCCGCCTGGCCGGCCAGGGCGTGCTGGACTGGCTGGCGGCACGGCCGCAGGCATGA	MQHAKRVAVVGGGPAGLMAAETIRAAGHAVDVYEAKGSPGRKFLIAGKGGLNLTHSDPPALFVSRYRERADEVGRWLAGFDADALRAWARGLGVDTYVGSSGRVFPTDRKAAPLLRGWVRRLKDAGVRFHVQHRWTGWDAAGALRLATPEGELGVAADAVVLALGGASWPELGSDGAWTAPLQQRGIELAPLRPANCGFDIGWTPFFAERHAGAPLKPVVAHWKTLDGELSALQGECVLTATGIEGSLVYAIAADLRETLQRDGAATLWLDLVPGRDIARLRADLGKPRGARSFGEHLRRQAGLDKAKAALLFEVLGRQAGDDLDAVAATLKRLPLPLQAPRPVAEAISSAGGVRLEALDAQLMLHALPGVFCAGEMLDWEAPTGGYLLTACFASGRLAGQGVLDWLAARPQA				NA	NA	NA	NA	NA
BMS020_07703	1293	wbpA	COG0677	UDP-N-acetyl-D-glucosamine 6-dehydrogenase	ATGTCCGCCGCACACTCCGTCGCAAGCGCCGCTCCCACCATTGCGATCATCGGCCTCGGTTACGTCGGCCTGCCACTGGCGGTCGAGTTCGGCCGGCAGCGTCCCACCCTCGGTTTCGACATCGATGCGTCGCGCGTGGCGCGGCTGCGTGCCGGCACCGACGATACCCGCGAACTCGACGGCGACGAGCTGGCCTCGGCACACCAGCTGCGCTACACCGCCGATGCGGCCGAGCTGGCCGGCTGCGGCATCTTCATCGTCACCGTGCCGACGCCGATCGACGCGCACGAGCAACCCGACCTGGAGCCGCTGCGCAGCGCGTCGCGGCTGATCGGCGCGGCGCTGCAGCCGGGCGGCCTGGTGATCTACGAGTCCACGGTGTACCCGGGCACCACCGAGGAAGTCTGCGTGCCGATCCTCGAGGAGGTGTCCGGCTTGCGCTTCAACGTGGATTTCCACTGCGGCTACAGCCCGGAGCGGATCAATCCCGGTGATCGCCAGCGGCGCCTGCCCGACATCCGCAAGATCACCTCCGGCTCGACGCCGGAGGCGGCCGCCGTGGTCGATGCGCTGTATGCGGCGATCATCAGCGCCGGCACCTGGCCGGCGCCGTCGATCCGCGTCGCCGAGGCGGCCAAGGTGATCGAGAACATCCAGCGCGACGTCAACATCGCCCTGGTCAACGAGCTGGCGCTGATCTTCGACCGGCTCGGCATCGATACCCAGGACGTGCTCGAGGCGGCCGGCACCAAGTGGAACTTCCTGCCGTTCCGGCCGGGCCTGGTCGGCGGCCATTGCATCGGCGTCGATCCGTACTACCTGCTGCACAAGTCCGAGAGCGTGGGCTACCACCCGGACCTGATCCACACCGCGCGCGCGGTCAACAACCGGATGGCGCCGCACGTGGTGCAGCGGGTGACCGGACTGCTGGCCGAACGCGGCACCGACATCGCGCAGGCGCGCATCCTGCTGCTCGGAGTGACCTTCAAGGAAGACTGCCCGGACCTGCGCAACAGCCGGGCGCTCGAACTGGTGCAGGCCTTCGCGGCGGCGGGGGCGCAGGTGGATGCGATCGATCCGTGGGCGTTGGCGGAGGAAGCGCGCCGCGTCGCCGGGATCGAGATCGCGCCAGCACCATGCGCGGACGGCTACGACGCGGTGGTGTTGGCCGTGGCGCATGCGCAGTTCCGCGGCTACGACGCGCAGCGCATCGCCGCGCTGGCGCGGCCCGGGGCGGTGGTCTACGACGTCAAGTCGGTGTGGCCGCGCGACGTGGTCACCGATCGCCTGTAA	MSAAHSVASAAPTIAIIGLGYVGLPLAVEFGRQRPTLGFDIDASRVARLRAGTDDTRELDGDELASAHQLRYTADAAELAGCGIFIVTVPTPIDAHEQPDLEPLRSASRLIGAALQPGGLVIYESTVYPGTTEEVCVPILEEVSGLRFNVDFHCGYSPERINPGDRQRRLPDIRKITSGSTPEAAAVVDALYAAIISAGTWPAPSIRVAEAAKVIENIQRDVNIALVNELALIFDRLGIDTQDVLEAAGTKWNFLPFRPGLVGGHCIGVDPYYLLHKSESVGYHPDLIHTARAVNNRMAPHVVQRVTGLLAERGTDIAQARILLLGVTFKEDCPDLRNSRALELVQAFAAAGAQVDAIDPWALAEEARRVAGIEIAPAPCADGYDAVVLAVAHAQFRGYDAQRIAALARPGAVVYDVKSVWPRDVVTDRL	PGPT0018915_441	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
BMS020_07705	1416	hemN_2	COG0635	Oxygen-independent coproporphyrinogen III oxidase	ATGGACATGATTGCCACCACGCCCGTCATCCCGGCCTGGGACTTCGACCCGGACCTGCTGCGCCGCTACGACCGGCCCGGGCCGCGCTACACCTCGTACCCGACCGCGCCGCACTTCCACGACGGCTTCGGCCACGCCGAGTTGCGCCAGGCGATCGGCCGGTCGCAGGCCGAGCGCCCGGATCGGCCACTTTCGCTGTACCTGCACGTGCCGTATTGCAGCAGCCCGTGTTTCTACTGCGGCTGCAACCGTGTGATCACCCGCGACCGCAGCCGCGGCGAGGCCTATGTCGAGCGCCTGCTGCGCGAGGCCGACCTGCTCGCCGACGTGGTCGATCCGCAGCGTGAGGTGGTGCAGCTGCACTTCGGCGGCGGAACGCCGAACTTCCTCGATGCCGGCACGATCGCGCGCCTCGTCGCTGCACTCGGCGAGCGCTTCCGCTTCGCACCTGCGGCGCGACGTGACTTCTCGATCGAGCTTGATCCTCGCCACGTCGGCGCCGAGGACATCGCCGTGCTGGCGGCCGCCGGCTTCAATCGCACCAGCCTGGGCATCCAGGATTTCGATCCGGACGTGCAGCGGGCGATCAACCGCGAGCAGGACATCGACGCCACGCTGGCAGTGATCGAAGCGTGCCGGACGCATGGCATTGGTTCGGTCAATGTCGACCTGATCTACGGCCTGCCGCGGCAGACCCTGGCTGGCTTCGGGCGCACCCTGGACGCGGTGATGGCGGTGCGTCCGGATCGCCTGGCGATCTACGGCTACGCCCATCTGCCGCACATGTTCAAGGCGCAGCGGCAGATCGCCGAGGCCGAGTTGCCCGATGCCGAGCTCAAGCTGGCGCTGCTGGGACTGGCGGTGCGGCGCTTGACCGCGGCTGGCTACCAGTACGTGGGCATGGACCACTTCGCGCTGCCGGGCGAGGACCTGGCACGTGCGCAGCGGCAGGGCGATCTGCACCGCAATTTCATGGGCTACACGACCCATGCCGATACCGACCTGCTCGGCATCGGGGTCAGCGCGATCAGCCGCGTCGGCGACAGCTATTGCCAGAATCCGCGCGACCTGCCGGCCTGGGAGGCCGCATTGGACAACGGACGGCTGCCGGCCTGGCGCGGATTCACCCTGTCGGCGGACGACCAGCTGCGTGCCGAGCTGATCCAGGAGCTGATGTGCCATGGCGAGCTGGACATGGATGCGCTCGGCCAGCGCCACGGCATCCATTTCGCCGGCTACTTCGCCGAGGAACTGCAGGCGCTGCGGCCGTTGCAGGACGATGGCCTGGTGAGCGTGCAGGGACGTTGGATCCGCGCCAGCGACCGCGGTCGTCCGCTGATCCGGCTGATCGCGATGTGCTTCGATCACTACCTGCGCGCACCGCAGGCCACAGCGCGTTATTCCAAGGCGATCTGA	MDMIATTPVIPAWDFDPDLLRRYDRPGPRYTSYPTAPHFHDGFGHAELRQAIGRSQAERPDRPLSLYLHVPYCSSPCFYCGCNRVITRDRSRGEAYVERLLREADLLADVVDPQREVVQLHFGGGTPNFLDAGTIARLVAALGERFRFAPAARRDFSIELDPRHVGAEDIAVLAAAGFNRTSLGIQDFDPDVQRAINREQDIDATLAVIEACRTHGIGSVNVDLIYGLPRQTLAGFGRTLDAVMAVRPDRLAIYGYAHLPHMFKAQRQIAEAELPDAELKLALLGLAVRRLTAAGYQYVGMDHFALPGEDLARAQRQGDLHRNFMGYTTHADTDLLGIGVSAISRVGDSYCQNPRDLPAWEAALDNGRLPAWRGFTLSADDQLRAELIQELMCHGELDMDALGQRHGIHFAGYFAEELQALRPLQDDGLVSVQGRWIRASDRGRPLIRLIAMCFDHYLRAPQATARYSKAI	PGPT0003200_530	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
BMS020_07711	636	pgsA_2	COG0558	CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase	ATGAAGCTGACCATCCCCACCTGGCTGACGTTGCTGCGGATCGTGATGATCCCGGTGCTGGTCGTGGTGTTCTACCTGCCGTACCCGTGGACCAATTTCGCCTCGGCGGCGATCTTCGGCCTGGCCGCGATCACCGATTGGCTCGATGGCTGGGTGGCGCGGCGCTACCACCAGTATTCGGCGTTCGGCGCGTTCCTGGACCCGGTCGCGGACAAGCTGATGGTCGCCGTGGCGCTGTTCCTGATCGTGCAGGGGCATCCGACGCCGTGGATGGCGTTCTGGGCAGCGGTGATCGTCGGTCGTGAGATCGCGGTCTCGGCGCTGCGCGAGTGGATGGCCGAGATCGGCCAGCGCGCCAAGGTCCGCGTGGCGATGATCGGCAAGATCAAGACCACCGCGCAGATGGTCGCGCTGCTGTGCCTGCTGTATTCGGTGACGCCGGGGCAGCCCTATGCCGGGGCCGGCATCTGGATGGGCCGTTTCGTGTTCCACGTCGGCGACTGGACGTTGGCGATTGCCGCGGTGCTGACGCTGTGGTCGGGGTTCCAGTACCTGCATGCGGCGTGGCCGAGCCTGCGCGCCGACGAAAAGGCCGCGATGCAGAAGAATCCGAAAAAAGTGCAAACCAATAGTTGA	MKLTIPTWLTLLRIVMIPVLVVVFYLPYPWTNFASAAIFGLAAITDWLDGWVARRYHQYSAFGAFLDPVADKLMVAVALFLIVQGHPTPWMAFWAAVIVGREIAVSALREWMAEIGQRAKVRVAMIGKIKTTAQMVALLCLLYSVTPGQPYAGAGIWMGRFVFHVGDWTLAIAAVLTLWSGFQYLHAAWPSLRADEKAAMQKNPKKVQTNS	PGPT0007705_1723	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995	NA	NA
BMS020_07712	1848	uvrC_2	COG0322	UvrABC system protein C	ATGAAGGCCGTGAAGACCCCGGGGTTCGATGGCAAGGCCTTCGCCGCCCGGTTGAGCACCGCGCCGGGCGTGTACCGGATGTATGCGGCGGACGACACGCTGTTGTACGTCGGCAAGGCGCGGGCGTTGCGCAACCGCGTCGGCAGCTATTTCAACGGCAGCCCGAAGACCGCGCGGATCATGTCGATGCTGTCGCAGGTCGCGCGCATGGACGTGACCGTGACCCGCAGCGAGGCCGAGGCGCTGCTGCTGGAGAACCAGCTGATCAAGTCGCTGTCGCCGCGCTACAACGTGGCCCTGCGCGACGACAAGAGCTACCCGTACGTGCTGCTGACCCGCGAGGCGTGGCCGCGCGTGGCGGTGCACCGTGGCCCGCGCGCGGTGCCGGGGCGCTACTTCGGTCCGTATGCCAGCGTCACCGCGGTGCGCGACGCGTTGAACCTGATGCACAAGCTGTTCCGTCTGCGCAGCTGCGAGGACAGCGTGTTCCGCAACCGCTCGCGGCCATGCCTGCAGTACCAGATCGGCCGCTGCAGCGCGCCCTGTGTGGGGCTGGTCGACGCTGACGATTACGCCGAGGCGATCCGCCGCGCGACGCTGTTCCTGGAGGGGCGCAGCGACCAGCTCGGCGACGAGCTGATGCAGTCCATGCAGCAGGCCAGCGAGGCGCTGGAGTTCGAACGCGCCGCGCGCCTGCGCGACCTGCTGGCGGCGCTGCGCGGGATGCAGAACCGCCAGTACGTCGACGGCCGCGCCGCCGACCTGGACGTGCTTGCGGTCGCCACCCAGATGCACCAGGCCTGCGTGCTGCTGCTCAGTTTTCGCGACGGCCGCAACCTGGGCACGCGCGCATTCTTCCCGCGCACCAATGGCGAGGACAGCCAGGACGAGATCCTGGCGGCCTTCGTGTCGCAGTACTACGCCGAGCATCCAGCGCCCGGCGAGATCCTGCTCGACCGTGAGATCCCGGAGGCGTCGATGATCGAGTCGGCGCTGGCCAGCGCGGCCGAACGCCGGGTGGCATTGAAGTGGAACGTGCGTGGCGAGCGCGCCGGCTACGTGGAGCTGGCCAGCCGCAATGCCCAGGTGACCCTGGCTGCGGAGCTGGGCAGCCAGTCGGCGCAGCTGGCGCGCAGCGAGGCGCTGCGCGAGTTGCTCGGGCTGGCCGAACCGGTCAAGCGCGTGGAATGCTTCGACATCAGCCACACGATGGGCGAGGCGACGGTGGCGTCCTGTGTGGTGTTCGATGCCGCGGGCCCGGTGCGCGCGCAGTACCGCCGCTACAACATCAGCGGGATCGAGCCGGGCGACGACTACGCGGCGATGCACCAGGCGATCGAACGGCGCTTCCGGCGCGCGGTAGAGGACGATGGCGTCCTGCCCGACGTGCTGCTGATCGATGGCGGTGCCGGCCAGCTGGCGCAGGCGCGTGCCGCATTGGCCGACCTCGGCGTGGAAGGGGTGATGCTGGTGGGCGTGGCCAAGGGCGAGGAACGCCGCGCCGGCCACGAGGCGCTGGTGATGCCGGACGGACGCGAGCTGCGGCCTGGAGCCGCGTCGCCGGCGTTGCAGTTCATCCAGCAGGTGCGCGACGAGGCCCATCGCTTCGCGATCACCGGCCACCGCGGGCGCCGGCAGAAGGCGCGCATGACCAGCAAGCTCGAGGACATCCCGGGAATCGGTCCGCGCCGTCGCGCCAACCTGCTCAAGCATTTCGGCGGATTGGCCGGGCTGCGCGCTGCCGGCGAGGCGGAAATCGCCCGCGTGGACGGGGTCAACGCCGCACTGGCCGCGCGAATCTACGCTAACCTGCACGGGTTGCCGTCCCCCGATGTCGCCGGCGAATAG	MKAVKTPGFDGKAFAARLSTAPGVYRMYAADDTLLYVGKARALRNRVGSYFNGSPKTARIMSMLSQVARMDVTVTRSEAEALLLENQLIKSLSPRYNVALRDDKSYPYVLLTREAWPRVAVHRGPRAVPGRYFGPYASVTAVRDALNLMHKLFRLRSCEDSVFRNRSRPCLQYQIGRCSAPCVGLVDADDYAEAIRRATLFLEGRSDQLGDELMQSMQQASEALEFERAARLRDLLAALRGMQNRQYVDGRAADLDVLAVATQMHQACVLLLSFRDGRNLGTRAFFPRTNGEDSQDEILAAFVSQYYAEHPAPGEILLDREIPEASMIESALASAAERRVALKWNVRGERAGYVELASRNAQVTLAAELGSQSAQLARSEALRELLGLAEPVKRVECFDISHTMGEATVASCVVFDAAGPVRAQYRRYNISGIEPGDDYAAMHQAIERRFRRAVEDDGVLPDVLLIDGGAGQLAQARAALADLGVEGVMLVGVAKGEERRAGHEALVMPDGRELRPGAASPALQFIQQVRDEAHRFAITGHRGRRQKARMTSKLEDIPGIGPRRRANLLKHFGGLAGLRAAGEAEIARVDGVNAALAARIYANLHGLPSPDVAGE	PGPT0014925_2120	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014925-uvrC-K03703	NA	NA
BMS020_07713	1419			hypothetical protein	ATGAACGCGCAGCCCGCCCAGGAATTTCCCGAGTTCCCCACCTGGCTCAACACCAGGCCATCCACCTTGCAGGAGCATCGCGGGCGGGCGCTTGCGCTGGCCTTCGTCAACGCCGGTTCGGCCTGGTGCAACCAGCGCCTGGCCGAGCTGTCGCAGTGGCAGGCGCGCAATCCCGGCAAGCTGCAGGTGGTGGTGGTGCAGGTGCCGCGCTTCGACAGCGAGCGCGATCCCGCGCGTGCGCTCAAGCTGCTGCGGGCGCAGGGCGTCAGCGCGCCGGCGCTGCTGGATACGGAATGGGAGACCTGGCGCCGGTTCGGGGTGGAATCATGGCCCACCGTGCTCCTGCTTGATGCCCAGGGGCGCGAGCAGCAGCGCCTGGTCGGCCTGACCGGCGACGTCGAGCGTGCGCTGGTCGCGGCCTGCGATGGCCAGCCTTCGCCGAGCGACGAAGACCTGGCGCCGGTACGTGAACTCAATCCGGAGCCGCGCCTGCCGCTGCGCTTTCCCAGCGGCCTGGCCGTCAGCGGCGAGCGTCTGTACGTGGCCGACAGCGGCCACCATCGCGTGCTCGAATGCACCCCGTCCGGGCGCATCCTGCGCCAGTTCGGCATCGGCACCGCGGACTTCATCGACGGTGGCGTCGGCGAGGCGGCGTTCAAGCATCCGACCGGCCTGGTGCTGGAACGCGAGAGCCTGTACGTGGCCGACAGCGGTAACCACGCGCTGCGCCGCATCCACCTCGGCAGCGGCCAGGTCGATACGTTGTGCGGCAATGGCCGTCCGGGCGAACCGGTCGAGGGCAAGGTCGACAACCCGGCGCTGGTCCAGCTGAACCATCCGCGCGGGCTGGCGCTGGCCGACAACCGCGTGTTGATCGCGATGTCCGGCGACAACCGGATCTGGAGTTACGACCTCGGCCAGCGGGCGCTGACCTGGCGCGCCGGTACCGGGGCGCTGGAGCACCGCGACGGCAGCGGCCACCTGGCCGCGTTCGCGCAGCCGGTGGCGCTGGCGGCGGTGCAGCAGGTGGCCTATGTCTGCGATGCGCTCGGCTCGTCGATCCGCACCATGCAACTGCGCGGCGACCTTGTGCAGACGCTGGTGGGCGGGCAGGGGCCGTGGGAGTTCGGCGACCAGGACGGACCGCGCAGCCAGGCCCGCCTGCAGTTCCCGCAGGCGATCGCGCTGGATGCCGATTCGCCGGTGCTGTGGATCGCCGACGCCGGCAATGCCTGCCTGCGTGCATTGCGCCTTGGCGGTGGCGAGGTGAGCCGGGTCGAGCTGCCGCGGCGCTTGCATGCGCCCGGCGCGTTGGCGCTGGCCGGCGGTGCGCTGTGGATCGCCGATACCGATGCGCATGCGGTGTTGCGTTACGACCTTGCCAGCGGCGCCCTGGACGACGTTCCGATCGACGAATGA	MNAQPAQEFPEFPTWLNTRPSTLQEHRGRALALAFVNAGSAWCNQRLAELSQWQARNPGKLQVVVVQVPRFDSERDPARALKLLRAQGVSAPALLDTEWETWRRFGVESWPTVLLLDAQGREQQRLVGLTGDVERALVAACDGQPSPSDEDLAPVRELNPEPRLPLRFPSGLAVSGERLYVADSGHHRVLECTPSGRILRQFGIGTADFIDGGVGEAAFKHPTGLVLERESLYVADSGNHALRRIHLGSGQVDTLCGNGRPGEPVEGKVDNPALVQLNHPRGLALADNRVLIAMSGDNRIWSYDLGQRALTWRAGTGALEHRDGSGHLAAFAQPVALAAVQQVAYVCDALGSSIRTMQLRGDLVQTLVGGQGPWEFGDQDGPRSQARLQFPQAIALDADSPVLWIADAGNACLRALRLGGGEVSRVELPRRLHAPGALALAGGALWIADTDAHAVLRYDLASGALDDVPIDE				NA	NA	NA	NA	NA
BMS020_07714	471			Putative low molecular weight protein-tyrosine-phosphatase	ATGAAGCTGCTGGTGGTGTGCCTGGGCAACATCTGCCGCTCGCCGATGGGCGAGGGGGCATTGCGCGCGCAGTTGCAGCGCGCCGGCCTGCAGGACCTGGTCGAGGTGGATTCGGCCGGGACCGGCGATTGGCATGCCGGCGAGCCCCCCGACCCGCGGGCGATCCGCTGCGCACGCAGCCACGGGGTCGACATCTCCGGGTTGCGCGCCAGGCAGATCCGCCGTGCCGACTTCGCCCGTTTCGACTGGGTGCTGTGCGCGGATGCGGCCAACCTGCGCGACGTGTCTTCGCTCGCGCCCACGGACGGAGGCGCCGGCGTGGCGCTGTGGCTGCTGTGGGCGGGGCTCGAGGGGGCGGGGGCGATTCCGGATCCCTATACCGGTGGCGCCGAGGATTTCGAACGCACCTGGACGCTGGTCGACGCGGCGGCGGCGGCGACGGTCGCACGCATCGCGGCAGGGCTGGTTTAG	MKLLVVCLGNICRSPMGEGALRAQLQRAGLQDLVEVDSAGTGDWHAGEPPDPRAIRCARSHGVDISGLRARQIRRADFARFDWVLCADAANLRDVSSLAPTDGGAGVALWLLWAGLEGAGAIPDPYTGGAEDFERTWTLVDAAAAATVARIAAGLV	PGPT0014530_6102	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
BMS020_07715	885	kdsB_2	COG1212	3-deoxy-manno-octulosonate cytidylyltransferase	ATGTTAGGTCGGGCGCGCCGCTGGCTGCGGATGTCGCTCGCGGCGAATGAAAATTATTCTCAGTTAACCGCCGGAGTGGCGCAATCGATGAATGCGGGAGTTGTTAAGGATTCGTTTGGAAATGCGGGCGACTTCGTCGTCGCGATCCCGGCGCGCTATGCCGCCTCGCGCCTGCCCGGCAAGCCGCTGCGCCTGCTCGGTGGGTGTCCGCTGGTGGCGCGGGTGGCCGAGCGCGCCCTGCAGGCCGGGGCGCGCGAGGTCTGGGTCGCGACCGATGACGCCCGCATCGCCGAGGCGGTGGCGGCCATCGATGGCCTGCACGTGGCGATGACCGCGGCCGACCACGTGTCCGGTACCGACCGGTTGGCCGAATGCGCGCGCATCGCCGGCTGGGATGACGCGGTGCGGGTGGTGAACCTGCAGGGCGACGAACCGTTCGCGCCAGCCGCCGGCATCCGCGCGGTGGCCGGGCTGCTGGCCAGTTCCGGTGCGGAGATGAGCACGCTGGCAACGCCGGTCGCGTCCGCCGAGGAAGTGTTCGATCCCAACGTGGTCAAGCTGGTGCGCAACGTGCGCGGCGATGCGATGTACTTCAGCCGTGCGCCGCTGCCATGGGCCCGTGACGCGTTCGCGCGCTCGCGCGAGCAGCTGCCGCCGGGCGAATGGCTGCGCCACATCGGCATCTACGGCTATACCGCCGGCTTCCTGCGCAGGTTCGCGGCGATGCCGGCCGGGCGCCTGGAGCAGGTCGAGTCGCTGGAGCAGTTGCGCGTGCTCGAAGCCGGTGCGCGGATCGCGGTCGGCCTGACGCCGGAGCCGTTCCCGCCGGGCATCGATACCCCGGAGGACCTGGCCCGCGCCGAAGCCTGGATCGCGGCGGCATGA	MLGRARRWLRMSLAANENYSQLTAGVAQSMNAGVVKDSFGNAGDFVVAIPARYAASRLPGKPLRLLGGCPLVARVAERALQAGAREVWVATDDARIAEAVAAIDGLHVAMTAADHVSGTDRLAECARIAGWDDAVRVVNLQGDEPFAPAAGIRAVAGLLASSGAEMSTLATPVASAEEVFDPNVVKLVRNVRGDAMYFSRAPLPWARDAFARSREQLPPGEWLRHIGIYGYTAGFLRRFAAMPAGRLEQVESLEQLRVLEAGARIAVGLTPEPFPPGIDTPEDLARAEAWIAAA	PGPT0023065_618	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-8-AMINO-3|8-DIDEOXY_D_MANNO-OCTULOSONIC_ACID_MODIFICATION,PGPT0023065-kdsB-K00979	NA	NA
BMS020_07716	2136	fpvA	COG4773	Ferripyoverdine receptor	ATGACACCGAACGCGTCGCACCATTCTTCGCCCCGCCGCGCCGTGCTGTTCCTGTCGACGCTGGCCGTCCTGGCCCTGCCGACGCTGGCCCACGCCGAGGTCGCCGCGGATGCGCGCACCCTGGATTCGGTCAAGGTCACCGCCGAACGCCAGGACGGCTACACCACCCGCAAGACCAGCAGCGCGACCAAGCTGGACCTGGCCCCGATCGAGACGCCGCAGTCGGTCAGCGTGGTCGGCCGCCAGCAGATGGACGACTTCGCGCTCAACAGCGCCAATGACGTGCTCGAGCAGGCTGCCGGCGTCAATGTCGAGAAGATCGAAACCGACCGCACCTACTACACCGCGCGCGGCTTCGACGTCACCAACTTCCAGGTCGACGGCCTCGGCCTGCCGTTCACCAATGGCGGTGCCGAGGGCGACATCGACACTGCGCTGTACGACCGCATCGAAGTGCTGCGTGGCGCCAACGGCCTGTTGTCCTCCACCGGCAATCCGTCGGCGACGATCAACTTCGTCCGCAAGCGTCCCACCGAGCAGTTCCAGGGCAACGTCAGCGTCGGCGGCGGTTCGTGGAGCAACTACCGGGTCGACGCCGACGTCTCCGGCAAGCTCAACGCCAGCGGCAGCGTCCGTGGCCGCGTGGTCGGCGCCTGGCAGGATGGCGACAGCTACCTGGACCGCTACAGCCGCAGCAAGCAGGTGTTCTACGGGGTGATCGAGGCCGACCTCAGCGACAGCACGCTGCTGACTGCCGGCGCCAGCTACCAGAAGAACAAGCCCAAGGGCGCGATGTGGGGTGCCTTGCCGCTGTACAACAGCGACGGCAGCGCGGTGGACTACGACCGCTCCACCAGCACCGCCGCCGACTGGAGCACCTGGAACACGACCGACAAGCGCGCATTCGTCGAGCTCGAACAGCAGCTCGGCGGCGACTGGAAGCTGAAGGGTGCGCTGAACTACCGCAAGCTCGAATCCGCCGGCGACCTGTTCTACGCCTACGGCACGCCCGACAGCAGCACCGGGCTTGGCCTGTACTCCTACCCCTCCTACTACGCCAGCGACGAAACGCAGAAGTACGCCGACCTGTACGCAACCGGCACCTTCGCGCTCGGCGGCCGCCGCCACGACCTGGTGGCCGGGGTGAACTGGGCGCACTACCAGGTCGACCAGCTGTCCTGGTACAGCGCCGACATCGGCACCGCGCTGCCGAGCCTGGAAGACTGGACCGGCGACTACACCAAGCCGAGTTTCGATGCCTATTCCTCCGGCGCGAACTTCGACATGACCCGCAAGACCGCCTACGCGACGGTCCGCTGGAATCTGGGCGAGCAGCTCAAGCTGATCACCGGGGTGAACTACACCCAGATCGAGAGCAGCGGCGAGAACTACGGCACCGCGCACGCCTACGATGCCAACAAGACCACGCCGTTCGTCGGCGCGATCTACAACTTCGACCAGGATTTCGCCCTGTACGCCAGCTACGCGGAGATCTTCAACCCGCAGACCGAGCTGGACGCGAACTTCCGCGTGCTCGACCCGGTCACCGGCAGCAATGCCGAGCTCGGCGTCAAGGCGCAGTGGCTGGATGGCCGCGTCAACGGCTCGTTCGCCTTCTTCCGTGCCAAGCAGGACGGGGTGGCCGAGGCCGGCGACTACATCAACAACCTCCAGACCTATTACGGCATCGATGCGACCTCGACCGGCTACGAGGCCGAGCTCGCCGGGCAGCTCGCCGAGGGCTGGCAGCTCAGCGCGAGCTATACCCAGCTCGGCATCAAGGACGACGCTGGCGCCAACGTCCGCACCTACGTGCCGCGGCGCACCGCGCACCTGGCCACGACCTACCGCATTCCCGGCCTGGAGCAGCTCAAGCTGGGCGCGAACGTGCGCTGGCAGGACGACATCTCCCGCGACCAGGGCGTGGTGGCGACCAATGGCGACGAGATCGTCACCCGCCAGGGCAGCTACGCCCTGCTCGGCCTGATGGGCAGCTACGACTTCAGCCCGAAGATCAGCGCGACGCTGAACCTCAACAACGTCACCGACCGCAAGTACATCAACAGCCTGTACTGGGCGCAGGGCTACTACGGCGCAGGGCGCAACTGGTGGCTGTCGGTGAACTACCGCTTCTAA	MTPNASHHSSPRRAVLFLSTLAVLALPTLAHAEVAADARTLDSVKVTAERQDGYTTRKTSSATKLDLAPIETPQSVSVVGRQQMDDFALNSANDVLEQAAGVNVEKIETDRTYYTARGFDVTNFQVDGLGLPFTNGGAEGDIDTALYDRIEVLRGANGLLSSTGNPSATINFVRKRPTEQFQGNVSVGGGSWSNYRVDADVSGKLNASGSVRGRVVGAWQDGDSYLDRYSRSKQVFYGVIEADLSDSTLLTAGASYQKNKPKGAMWGALPLYNSDGSAVDYDRSTSTAADWSTWNTTDKRAFVELEQQLGGDWKLKGALNYRKLESAGDLFYAYGTPDSSTGLGLYSYPSYYASDETQKYADLYATGTFALGGRRHDLVAGVNWAHYQVDQLSWYSADIGTALPSLEDWTGDYTKPSFDAYSSGANFDMTRKTAYATVRWNLGEQLKLITGVNYTQIESSGENYGTAHAYDANKTTPFVGAIYNFDQDFALYASYAEIFNPQTELDANFRVLDPVTGSNAELGVKAQWLDGRVNGSFAFFRAKQDGVAEAGDYINNLQTYYGIDATSTGYEAELAGQLAEGWQLSASYTQLGIKDDAGANVRTYVPRRTAHLATTYRIPGLEQLKLGANVRWQDDISRDQGVVATNGDEIVTRQGSYALLGLMGSYDFSPKISATLNLNNVTDRKYINSLYWAQGYYGAGRNWWLSVNYRF	PGPT0003775_1667	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_COMPLEX_RECEPTOR,PGPT0003775-fptA|fhuE|fpvA|C_FEV_OM1|fauA-K16088	NA	NA
BMS020_07717	1023	lpxK_2	COG1663	Tetraacyldisaccharide 4'-kinase	ATGAGCCGCACCGGAACCCGCACGCCGGACTACTGGTATGGCGATGCAGCGATCCCGCTGCTCGCCCGCCTGGGCGAGCCGTTGTACGCCGGGCTGGTCGCGCTGCGCCGCGGTCTTTACCGGCGTGGCTGGCGCCGCCGCCATAGCCTGCCGGTACCGGTGGTGGTGGTCGGCAACGTCACCGCCGGCGGTACCGGCAAGACCCCATTGACGATCGAGCTGGTGCTGCGCCTGCGCGCGGCCGGCTGGACCCCGGGCGTGGCCAGCCGCGGTTACGGACGCGAACAGAGTGGCCAGCCGCGCTGGGTCGAGCCCGCCACCGCGGTCGAGCTGAGCGGCGACGAGCCCGCCCTGATCGCGTGGAAGACCGGCGCGCCGGTCCGGGTCGACGCCGACCGCGTCGCCGCCGGGCGTGCGCTGGTCGAGGCCGGTTGCGACATCGTGGTCTGCGACGACGGCCTGCAGCACTACCGGCTGGCGCGCGACGTCGAGATCGAGGTGGTCGACGCGCAGCGCCGTTATGGCAATGGCCACCTGATTCCGGCCGGGCCGCTGCGCGAACCGGCCTCACGTGCGCGCGAGTGCGATTTCCGCGTGGTCAATCTTGGCCAGGCCAGCGATACCGATGGCAGCGATGTCGCGGCCGGATTCGGCGAGTGGGCGATGCGCCTGCGCATCGACAGCGCGCAACCGATGAACGGCGCGCGCGTGCAGCCGCTGTCGGCGTTCGCCGGCAGCCGCGTGCATGCGGTGGCCGGGATCGCGCATCCGGAGCGCTTCTTCGACATGCTGCGCGCGCGCGGCATCGGCGTGGTGCCGCATGCGTTCGGCGACCACCACCAGTACGTGGCGGAGGACTTCGCTTTTGGCAGCCGCCTGCCGGTACTGATGACCGAGAAGGATGCGGTCAAGTGCCGCGCACTCGCCGACGACTGGTTCCACAGCGTGCCGTTGCAGGCGGAGTTGCCGGCCGCGTTCTGGGTGGCGTTGCTGGACCGGCTGGGCAAGCTGTCACGCGGCTGA	MSRTGTRTPDYWYGDAAIPLLARLGEPLYAGLVALRRGLYRRGWRRRHSLPVPVVVVGNVTAGGTGKTPLTIELVLRLRAAGWTPGVASRGYGREQSGQPRWVEPATAVELSGDEPALIAWKTGAPVRVDADRVAAGRALVEAGCDIVVCDDGLQHYRLARDVEIEVVDAQRRYGNGHLIPAGPLREPASRARECDFRVVNLGQASDTDGSDVAAGFGEWAMRLRIDSAQPMNGARVQPLSAFAGSRVHAVAGIAHPERFFDMLRARGIGVVPHAFGDHHQYVAEDFAFGSRLPVLMTEKDAVKCRALADDWFHSVPLQAELPAAFWVALLDRLGKLSRG	PGPT0022380_843	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022380-lpxK-K00912	NA	NA
BMS020_07718	1770	msbA_3	COG1132	Lipid A export ATP-binding/permease protein MsbA	GTGAAATCCACTCCTGACACGTCCGTCGAGGTCTCGGCCTGGCGGACCTACCGCCGTCTGCTGTCGCATGCACGTCCTTACCGCTGGCTGCTGATCCTGGCCGCGGTCGGCGCGTTGCTGGAGGCGGGCGCGGGCTCGTGGTTCCTGGCGTTGATGAAGCCGATCACCGACGAGACCTTCATCGCCCGCAACCGCGAGGTGGCGATGTGGCTGCCGTTGCAGATCGTCGCGCTGTTCGTGTTGCGCGGCGTGGCCGGCTACATCACCGACATGTCGATGGGGCGCGCGGCGCGCAGCATTTCGCGCGATTTCCGCGTCAACGTGCTGGCCAAGTACCTGCGCCTGCCGGGCCACCGGTTCGACGGCGAACCGGTGGCGTCGATGCTGGTGCGGCTGGGTTCGGACAGCGAACAGGTCGCCCAGGCCGCGGTCGATGCATTGAAGGTGATGGTGCAGCAGACCCTGCAGGTGATCGGCGCGCTGGCGGTGATGATCTGGTACAGCTGGACGGTGACGGTGACGATCCTGATGGTCGCGCCGCCGCTGGCCTGGGTGATGAACAAGGTCGCCAAGCGCTACCGGCGGGTCAGCCACCGCATCCAGGAAAGCAGCGCGCAGCTGATGCAGGCCGCCGACCAGGCGCTGTCCGGCTACCAGGACGTGAAGGTCTACGGTGCGCAGGCCGCCGAGATGGAGCGCTATCGCCAGCTCGCCGACACCAACCTGCGGTTGGCGATGAAGGTCGAATCGACCCGCGGCATCTCCTCGGCGGCGGTGCAGCTGCTCGGCGCGGTCGGACTGGCCGCGCTGCTGCTGATCGCCGGCCATGAAGCGCTGGCCGGCCGGTTGACCGCCGGCGAGTTCGTCTCGCTGATGACCGCGATGATGGCGATCATCCCGGCGCTGAAGAACCTGACCAACGTGCAGAACACCTTGCAGCGCGGTGTTGCCTCGGCACAGCGGCTGTTCCTGGTGATGGATGCGCCCGACGAGCTGGACGCGGGCACCCGCGCGATCGCGCGCGCCGAAGGCCGGATCGAATTCCGCGCGGTCACGGCGACCTACCCGGGGCGGTCCCGGCCGGCGTTGGAGGACGTGAGCTTTGTCGCCGCGCCGGGCAGCGTGACCGCGATCGTCGGTCGTTCCGGCAGTGGCAAGTCGAGCCTGGTCAAGCTGATCCCGCGCTTCTACGACCCGCAATCCGGGCAGATCCTGCTCGACGGCCATCCGCTGCAGGACTACCGCCTGGCCGACCTGCGCCGGCAGATCGCCCTGGTCGGCCAGCAGGTGATGCTGTTCGACGGCAGCATCGCCGAGAACGTCGCCTACGGCGAGATGCGCACGGCCGACGCGCCGCAGCTGCAGGCGGCCATCCGCGGCGCCAACGCGCTGGAGTTTGTCGAGCAGCTGCCCGAGGGTGTGCAGGCGCAGGTCGGGGCCAAGGGCGGTCGCCTGTCCGGCGGCCAGCGCCAGCGCCTGGCGATCGCCCGGGCGATGCTCAAGGACGCGCCGATCCTGATCCTCGACGAGGCCACCGCCGCGCTCGACAACGAATCGGAACGCCTGGTGCAGGACGCGCTGCAGCGGTTGATGCCGGACCGCACCACGCTGGTCATCGCGCATCGCCTGTCGACGATCGAACATGCCGACCAGGTGCTGGTGATGGATCAGGGCCGCATCGTCGAGCGTGGCACCCACCGCGAACTGCTGGCGCTGGGCGGCTTGTACGCGCACCTGCACGGCATGCAGTTCCGCGAACGCCTGGCATGA	MKSTPDTSVEVSAWRTYRRLLSHARPYRWLLILAAVGALLEAGAGSWFLALMKPITDETFIARNREVAMWLPLQIVALFVLRGVAGYITDMSMGRAARSISRDFRVNVLAKYLRLPGHRFDGEPVASMLVRLGSDSEQVAQAAVDALKVMVQQTLQVIGALAVMIWYSWTVTVTILMVAPPLAWVMNKVAKRYRRVSHRIQESSAQLMQAADQALSGYQDVKVYGAQAAEMERYRQLADTNLRLAMKVESTRGISSAAVQLLGAVGLAALLLIAGHEALAGRLTAGEFVSLMTAMMAIIPALKNLTNVQNTLQRGVASAQRLFLVMDAPDELDAGTRAIARAEGRIEFRAVTATYPGRSRPALEDVSFVAAPGSVTAIVGRSGSGKSSLVKLIPRFYDPQSGQILLDGHPLQDYRLADLRRQIALVGQQVMLFDGSIAENVAYGEMRTADAPQLQAAIRGANALEFVEQLPEGVQAQVGAKGGRLSGGQRQRLAIARAMLKDAPILILDEATAALDNESERLVQDALQRLMPDRTTLVIAHRLSTIEHADQVLVMDQGRIVERGTHRELLALGGLYAHLHGMQFRERLA	PGPT0029415_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029415-comEC-K02238	NA	NA
BMS020_07719	438	tolR_2		Tol-Pal system protein TolR	ATGCGGATCCGCGACGACCGCGCGCAGGACGAGCCGCACATCGATCTGGTGCCCCTGATCGATGTGATCCTGGTGCTGATCATCTTCTTCGTGGTCACCACCACCTTCGATGCCCGTTCCACCCTGCAGCTGCAGCTGCCCAACGCCAGCGATCAGCACAACCCCGAGCCGCCGCGCTCGCTGAGCGTGCTGGTCAACGCCGACGGCCGCTATTTCATCAATGACCGCGAGGTGCTGCGCAGCGACGTGGAAGCGCTCAAGCAGACCATCGCCGAGGTCGCCGGCGACGACCGCCAGCAGAGCGTGCTGCTGCGTGCAGATGCCCGCACGCCGTACCAGGCGGTGGTCACCGCACAGGATGCGCTGGGCCAGCTCGGCTTCCGCCGCATCGCGATCGCCACCGCGCCCAACGTCAACCGGGACGGGAGCAGCAAGTGA	MRIRDDRAQDEPHIDLVPLIDVILVLIIFFVVTTTFDARSTLQLQLPNASDQHNPEPPRSLSVLVNADGRYFINDREVLRSDVEALKQTIAEVAGDDRQQSVLLRADARTPYQAVVTAQDALGQLGFRRIAIATAPNVNRDGSSK	PGPT0003755_936	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003755-exbD-K03559	NA	NA
BMS020_07720	675	tolQ_4		Tol-Pal system protein TolQ	GTGTTGGAACTGGTCAAGGCCGGCGGTTGGCCGATGCTGCCGCTGCTGGTGCTGGGCGTGATCGCCCTGGCGATCGTGCTCGAGCGCCTGTGGAGCCTGCGCCGCAACGAGATCCTGCCCCCGGGACTCGGTGAGGAGGTCCGCAACTGGGCCGCGCGCGGCAAGCTCGACCCGGCCCACATCGAATCGCTGCGCCGCAACTCGCCGCTGGGCGCGCTGCTGGCGGCGGCGCTGGATGTGCGCGGCCGTCCGCGCGAGCAGATCCGCGAGCGCATCGAGGACACCGGCCGGCACGTGGTGCACCGGATGGAGAAGTTCCTCAACGCGCTGGGCACGATCGCCTCGGCCGGGCCACTGCTCGGCCTGCTCGGTACCGTGGTCGGCATGATCCAGATGTTCCTGGGCATCCTCGACCACGGCGTCGGCGACGTGAATCAGCTCGCTGGCGGCATCGGCAAGGCGCTGGTGTGCACCGCCACCGGCATGATCATCGCGGTGCCGGCGCTGGTGTTCCACCGCTACTTCAAGGGCCGCATCGCCGGTTACGTGATCGAGATGGAGCAGGACGCGACGCTGTTGCTGGATGCGCTCGATGGGCGCCCGCTGCCGCCGGCCGCCGCCAAGGCCGCGCCCGCGCAGTCGCCGCAGCGCCCGGTCGCGGCGGCGAAGGGCTGA	MLELVKAGGWPMLPLLVLGVIALAIVLERLWSLRRNEILPPGLGEEVRNWAARGKLDPAHIESLRRNSPLGALLAAALDVRGRPREQIRERIEDTGRHVVHRMEKFLNALGTIASAGPLLGLLGTVVGMIQMFLGILDHGVGDVNQLAGGIGKALVCTATGMIIAVPALVFHRYFKGRIAGYVIEMEQDATLLLDALDGRPLPPAAAKAAPAQSPQRPVAAAKG	PGPT0003750_3983	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003750-exbB-K03561	NA	NA
BMS020_07721	2394	comEC	COG0658	ComE operon protein 3	ATGCGTGTACGGCGGCCGGCAGCGCCCGGCGCGTTTCCCTTGCTGGCGGCCTCTGCGGCGCTGCTCGTCGGCGTGACGCTGGCGCTGTGGCTGCCGCCGCGCGTGCCCTGGTGGCTGCACATGGCCGCACTGCTGTCGCTGCCGGCGTGGCCGTTGCTGCGTCAGCGACGCCACGCGGTGCTCGTGATGGCGTTGCTGCTGGGCTGGGGGCTGGCGGGGCTGCACGCAGCGCATGCGCAGGCCGGGCAGCTGCCGCTGGCATGGGAGAACCGCGAATGCTGGGTGCAGGGCCGGGTCGAGGGGCTGCCGCAGGTCGAGCCCAGGCGCACCCGGTTCTCCTTCGTGGTCGAGGAGACCGACGGGCCAGCCGCGTTGCGTGGACGCCGGATGCAGCTGGCGTGGTACGACGATTTCGGTGCGCAGGCGATCGGCCCGCGCGCGGCGCTGCAGGCCGGCGCCGGTTGGCGGCTGCGGGTGCGACTGCGTGCGCCGCGCGGCCTGGCCAACCCCGGCGGGTTCGATGCCGAGCGGCACGCGCTGGCCAACCGGGTGGTCGCAACCGGGCTGGTGCGCACGCCTGAACAGGCGCGCCCGCTGCGCGGTGCCCGCGGCATCGATGCCTGGCGGGCCGGCATGTCGCAGCGGATCGCGATGGCGGTGCCGCACCCGGCCTCGCGCTTCGTGCAGGCGCTCGCGCTCGGCGATACCCGGGCGCTGCAGGACGCGGACTGGGACACCTTGCGCCGGGCCGGTTTGACCCACCTGATCGCGATCTCCGGGTTCCATGTCGGCATCGTCGCGGCCAGCGCCGCGTTGCTGGTACGCGCCGTCTGGCTCGCGCTGCCGTGGCTGGGCCGCTGGTGGCCGCGACCGTTGGCGGCGGCGGTCGCCGCACTGGCGGGCGGTGCAGGCTACGCGCTGCTGGCCGGGATGTCGCTGCCGACGCTGCGTACCGTGCTGATGATCGCGGTGGCGGTCGCGGTGCGCCTGTTGCGCCGGCGCGGCAGCGTGGCCCAGGCCTTGGCACTGGCGTTGAGCGCGGTGCTGCTGTTCGATCCGCTGTCGGTGCTGTTCGCCGGCTTCTGGCTGAGTTTCGCCGGTGTCGCCTGGCTGGTGTGGTGCATGCCCACGTACGGCGGGTCGCCATGGCGTGGCTTCCTGTCGGCCCAGGGCGTGGCGACGGTCGGGCTGGTGCCGCTGACGGTGGCGCTGTTCGACCAGGTCTCGCTGCTCGGGCCGTGCGTCAACCTGTTGGCGATCCCATGGTGGACGCTGGTGGTGGTGCCGCTGGCGTTGCTTGGGTTGCTGCTGGATGCGCTCGTGCCGGGCAGCGGCGGCTGGGCATGGCGGTTGGCGGCGGGCTGCTTCGACGCCAGCTGGCAGCTATTCTCGCGATTGGCCGACTCGCCGTTGGCGGCCTGGTGGGCGCCTGAATCCGGCGCGGCGGCGCTGCTGCTGGCGTTGGCTGGCGCGTTCTGGTTGCTGATGCCGCGCGGGACGCCCGGGCGCTGGCTCGGCGTGGTGCTGTGGTTGCCGTTGTGCGTGCCGGACATGCAGCTGCCGCGCGCGGGCGAGCTGGATGTGCAGGTGCTGGATGTCGGCCAGGGCCTGGCGGTGCTGGTGCGCACCGAGCGTCATGCATTGCTGTACGACGCCGGTCCGGCGGTTCCCGATGGCTTCGACGCTGGCGAGCGCGTGGTGGTGCCGGCCCTGCGTGCACTGGGCGTGCGACGGCTCGATGCGATGGTGCTCAGCCATGCCGATGCCGACCATGCCGGCGGGTTCGCGGCCGTCGCGCGCGCGTTCCCCACGGGGCGCAGCCTCGCGCCGCCGGCGGCGCCCTTGCCGGTGCTGCAACGCTGCCGGGCCGGGCAGCGCTGGGAGTGGGACGGGATGGTGTTCCGCTTCCTGCATCCTGGCGCGGGCTTTCCGTACCTGCGCAACGAATCGAGCTGCGTGCTGCGGATCGAAAGCGCCCACGGTGCCGTGTTGCTGGCCGGCGACATCGGCGAGGTGATCGAGAGCCGCCTGTTGCGCGACGCCCGCGCCGACCTGCGCGCCGACGTCGTGCTGGTGCCGCACCATGGCAGTGCCGGTTCGTCCCAGCCCGGGTTCATTGCCGCAAGCGGCGCGCGCCTGGCGCTGGTGTCGGCCGGGCATGCAAACCGCTTCGGCCATCCGCGGCGCGACGTGGTGGCGCGCTGGCGCCTGGCCGGCGCCGAGGTACTGACCACGGCTGACAGCGGCGCGATCCGGGTCTGGCTCGGGCGCGGGGGGCTGCAGGTGCGCGAGCGCCGGGCCTGGGCCGGGCGGCGTTGGGATGCTGCGGAACGCGCGCGGGCGGCTGCTATCCTATCGGCAGACGAACATGCGGCCGGCGCGCCGGAGGGTTGA	MRVRRPAAPGAFPLLAASAALLVGVTLALWLPPRVPWWLHMAALLSLPAWPLLRQRRHAVLVMALLLGWGLAGLHAAHAQAGQLPLAWENRECWVQGRVEGLPQVEPRRTRFSFVVEETDGPAALRGRRMQLAWYDDFGAQAIGPRAALQAGAGWRLRVRLRAPRGLANPGGFDAERHALANRVVATGLVRTPEQARPLRGARGIDAWRAGMSQRIAMAVPHPASRFVQALALGDTRALQDADWDTLRRAGLTHLIAISGFHVGIVAASAALLVRAVWLALPWLGRWWPRPLAAAVAALAGGAGYALLAGMSLPTLRTVLMIAVAVAVRLLRRRGSVAQALALALSAVLLFDPLSVLFAGFWLSFAGVAWLVWCMPTYGGSPWRGFLSAQGVATVGLVPLTVALFDQVSLLGPCVNLLAIPWWTLVVVPLALLGLLLDALVPGSGGWAWRLAAGCFDASWQLFSRLADSPLAAWWAPESGAAALLLALAGAFWLLMPRGTPGRWLGVVLWLPLCVPDMQLPRAGELDVQVLDVGQGLAVLVRTERHALLYDAGPAVPDGFDAGERVVVPALRALGVRRLDAMVLSHADADHAGGFAAVARAFPTGRSLAPPAAPLPVLQRCRAGQRWEWDGMVFRFLHPGAGFPYLRNESSCVLRIESAHGAVLLAGDIGEVIESRLLRDARADLRADVVLVPHHGSAGSSQPGFIAASGARLALVSAGHANRFGHPRRDVVARWRLAGAEVLTTADSGAIRVWLGRGGLQVRERRAWAGRRWDAAERARAAAILSADEHAAGAPEG	PGPT0029415_334	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
BMS020_07722	378			hypothetical protein	ATGAGCGATCCCTACAACTCCGCCGCCAGCACCAGCGCTCGCGTGCTCGACGACCGCATGGTCAGCACCACCTTCGAACTGCCCGGCTACCGGGTGGTGCGCAACCTCGGTCTGGTCCGCGGCATCACCGTGCGCTCGCGCTCGGTGGTCGGCAACTTCATCGGTGGCCTGCAGACGCTGTTCGGCGGCAACATCACCATCTACACCCAGTTGTGCGAACAAGCGCGTTCGGACACTTACCGCGACATGGTCCAGCACGCGCGGCAACTGGGTGCCAACGCGATCATCGGCGTGCGCTACGACGCTACCGAACTGATGGCCGGGCTCACCGAGGTGCTGTGCTACGGCACCGCGGTGGACGTCGAGCCGCTCGACTGA	MSDPYNSAASTSARVLDDRMVSTTFELPGYRVVRNLGLVRGITVRSRSVVGNFIGGLQTLFGGNITIYTQLCEQARSDTYRDMVQHARQLGANAIIGVRYDATELMAGLTEVLCYGTAVDVEPLD				NA	NA	NA	NA	NA
BMS020_07723	705	lolD_3	COG1136	Lipoprotein-releasing system ATP-binding protein LolD	ATGAATGAGTCCCTGCAGGCGGTGATCCGCGCCGAGGCGCTGGCCAAGACCTACGCCGAAGGCAAGATGCACACCCCGGTGTTCGATGGCCTGGAGCTGGCGATCGCGCCGGGCGAGACGGTGGCCATCGTCGGCGCGTCCGGTGCCGGCAAGAGCACGCTGCTGCACCTGCTGGGCGGGCTGGACATACCGACCTCCGGTGAGGTCTACGTGGCCGGGCAGAAGATGTCGGCGCTGTCGGATGCCGCGCGGGGCGCACTGCGCAACCGCTCGCTCGGTTTCGTGTACCAGTTCCACCACCTGCTGCCGGAGTTCACCGCGCTTGAGAACGTGATGATGCCGGTGCTGTTGTCCGGCGACGATGTCGCGCCGGCGCGCCAGCGCGCGCAGCAGCTGCTGGAAGCGGTCGGCCTGGGCCATCGCCTGACCCACAAGCCGGGTGAGTTGTCCGGTGGTGAGCGCCAGCGCGCCGCGGTGGCGCGTGCGTTGGTCAACTGTCCGGCCTGCGTGCTCGGTGACGAGCCGACCGGCAATCTCGACGACAAGACCGCGGCGACGGTGTTCGAGCTGATGCTCGAGCTCAATCGCGCCCAGCGCACCAGCCTGGTGCTGGTGACGCACGACCGCGGCCTGGCGCGTCGCCTCGACCGCGTGCTGGAACTGCACCAGGGGCGCCTGCGCGAGCTGGCCCCGGCGCAGGTCTGA	MNESLQAVIRAEALAKTYAEGKMHTPVFDGLELAIAPGETVAIVGASGAGKSTLLHLLGGLDIPTSGEVYVAGQKMSALSDAARGALRNRSLGFVYQFHHLLPEFTALENVMMPVLLSGDDVAPARQRAQQLLEAVGLGHRLTHKPGELSGGERQRAAVARALVNCPACVLGDEPTGNLDDKTAATVFELMLELNRAQRTSLVLVTHDRGLARRLDRVLELHQGRLRELAPAQV	PGPT0024515_667	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_TRANSPORT,PGPT0024515-lolD-K09810	NA	NA
BMS020_07724	1242	lolC_2	COG4591	Lipoprotein-releasing system transmembrane protein LolC	ATGTTCAAGCCCATCCCCGTCGCCATCGGCCTGCGCTACCTGCGCGCCAAACGCCGCAACGGTTTCATCTCCTTCATCTCGATGGCCTCGATCCTCGGCATCGCCCTGGGCGTGATGGTGCTGATCACCACGCTGGCGGTGATGACCGGCTTCCAGAAAGAGATCCGCGACCGCCTGTTGCAGATGTCCGCGCACGCCACGGTCAGCGCCGACGGCGCGCCGCTGCAGGACTGGCAGCACGCGGTGGAGGTCGCGATGCAGGACCCGCGCGTCGCCGGCGCCGCGCCCTACATCGAGAAGGAGTCGCTGATCCAGGGCCCGCGCAACCAGCCGGCGATGGTGCGCGGCATCCTGCCGTCGCAGGAGCCGCACGTGTCGGTGATCGCGCAGAAGATGAAGCGCGGCAGCATCGACCAGCTCACGCCCGGTTCCTTCAACATCGCGCTTGGCCAGGAGCTGGCGCTGTGGCTGGGCGTGGACGTCGGCGACAAGGTCACGGTGATGCTTGGTGACGTGCAGGCCACGCCGCTCGGCGCGCTGCCGAAGATGAAGCGTTTCACTGTCAGCGGGATCTTCGAGGCCGGCTACAACGAGATCGATCGCGGCCTGGCGGTGGTCAACATGGAGGACCTGGCGCGGGTGATGCGGATGGACGGCGTCACCGGCGTGCGCCTGAAGATGCACGACATGGACCGCGCGCAGGAAGTCGCGGTCGACCTGGCGCTGAAGCTGCACGGGCCGTACCGGGTCAGCGACTGGACCCAGGAGAACGCCAACCTCTACAGCTCGCTGAAGATGGAAAAGACGGTGATGGGCATCCTGCTGTCGCTGATCATCGCGATGGGCGCCTTCAACCTGGTGTCCTCGCAGGTGATGCTGGTCACCGACAAGCAGGCCGACATCGCGATCCTGCGCACGCTCGGGCTGTCGCCGGGCGGGGTGATGAAGGTCTTCATGGTGCAGGGCTCGCTGATCGGCATCATCGGCACCGCGCTCGGCGTGATCGGTGGCATCGCGCTGACCTTGAACCTGGAGCGCATCCTCCACGCGATCGAAGCGCTGTTCAACGTCAAACTGCTGCCGGAGGACGTGTACTACATCACCGGCCTGCCGACCGACATGCAGGCGCACGACGTGGTGGTGATCACCATCGTCGCGCTGGCGATGAGTTTCCTGGCGACCCTGTATCCGGCATGGCGCGCCGCCCGTACCCAGCCCGCGGAGGCGCTGCGTTATGAATGA	MFKPIPVAIGLRYLRAKRRNGFISFISMASILGIALGVMVLITTLAVMTGFQKEIRDRLLQMSAHATVSADGAPLQDWQHAVEVAMQDPRVAGAAPYIEKESLIQGPRNQPAMVRGILPSQEPHVSVIAQKMKRGSIDQLTPGSFNIALGQELALWLGVDVGDKVTVMLGDVQATPLGALPKMKRFTVSGIFEAGYNEIDRGLAVVNMEDLARVMRMDGVTGVRLKMHDMDRAQEVAVDLALKLHGPYRVSDWTQENANLYSSLKMEKTVMGILLSLIIAMGAFNLVSSQVMLVTDKQADIAILRTLGLSPGGVMKVFMVQGSLIGIIGTALGVIGGIALTLNLERILHAIEALFNVKLLPEDVYYITGLPTDMQAHDVVVITIVALAMSFLATLYPAWRAARTQPAEALRYE	PGPT0024510_1464	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_TRANSPORT,PGPT0024510-lolC_E-K09808	NA	NA
BMS020_07725	453			hypothetical protein	ATGCACCCGCCGCCGAGCTCATCGCTTCCATCCGATCCATTCCGGCTTGAGCTGTCCCCCTCGCGCTGGGAACTGAGGGCGCTGCTGCTGGTCGCCGTGCTGGCGTTGCTCGCGGTGTGGCTGTGCGGTCTGCCGGGTCCGGTGCGGCTGGCGTTGGCCGCCGGCGTCTGCGGCTGGAGCGCCTGGTGCGCGCAGCGGCTGCGCAGGGGCAGGGTGCTGACGCTGCTGCTGCCATGGTCGCCGCAGCTGCCGGCGCAGATCGACGGCGTACCGGTTGGCGAACTGCGCATCGCCTGGCGCGGCCCGCTGGCGGCGCTGGGCTGGCGCCAGGGGCGGCGGATGCACTGGCGGCTGCTGTGGCCGGATACGCTGCCGCCGCCGGTGCGACGTGAACTGCGTCTGGCCGCGCAGGCGCGGGGCGTTTCGCGGAAACGCCGGCCGGTGGCACCATAG	MHPPPSSSLPSDPFRLELSPSRWELRALLLVAVLALLAVWLCGLPGPVRLALAAGVCGWSAWCAQRLRRGRVLTLLLPWSPQLPAQIDGVPVGELRIAWRGPLAALGWRQGRRMHWRLLWPDTLPPPVRRELRLAAQARGVSRKRRPVAP	PGPT0027745_130	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
BMS020_07726	249	sdhE_2	COG2938	FAD assembly factor SdhE	ATGGATGAAGCGACCCTTCTGAAGAAGCTGCGCTGGCGTTGCCGGCGCGGCATGCGCGAGCTGGATCAGCTGTTCGACCGCTACCTGGACCGACGCTGGGCGCAGGCGGCCGAGGACGAGCGGGCGGTTTTCCTATACCTGCTCGATTGCGAGGACGATAAGTTGTGGCGCTGGTTCATGGGCTACGAGGCCTGTCCGGATGCACCCGCCGCCGAGCTCATCGCTTCCATCCGATCCATTCCGGCTTGA	MDEATLLKKLRWRCRRGMRELDQLFDRYLDRRWAQAAEDERAVFLYLLDCEDDKLWRWFMGYEACPDAPAAELIASIRSIPA	PGPT0027750_1487	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-CptA-CptB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027750-antitoxin_cptB|ygfY|sdhE-K09159	NA	NA
BMS020_07727	783	sdhB_2	COG0479	Succinate dehydrogenase iron-sulfur subunit	ATGGCAGAGTTCAGCCTTCCCAAGAATTCCAAGATCGGCAAGGGCAAGCATTTTCCTGCCCCCGGTGCCAAGAACGTCCGGACCTTCAAGATATATCGCTGGAGCCCGGACGATGGGCAGAACCCGCGCACCGACACCTACGAGGTGGATCTGGACAAGTGCGGCCCGATGGTTCTGGACGCGCTGATCAAGATCAAGAACGAGATCGATCCGACCCTGACCTTCCGCCGCTCCTGCCGCGAAGGCATCTGCGGTTCGTGCGCGATGAACATCGACGGCACCAACACCCTGGCCTGCACCCGCGCGATCGCGGACTGCGGCAAGAAGGAAGTGCCGATCTACCCGCTGCCGCACATGAACGTGGTCAAGGACCTGGTCCCGGACCTGACCCACTTCTACGCGCAGTACGCCTCGATCAAGCCGTGGATCCGCACCCAGACCCCGGCGCCGCCGGACCGCGAGCGCCTGCAGTCGCCGGAAGACCGCAAGAAGCTCGACGGCCTGTACGAGTGCATCCTGTGCGCGTGCTGCTCGACCAGCTGCCCGAGCTACTGGTGGAACGGCGAGCGCTACCTGGGCCCGGCGATCCTGTTGCAGGCCTACCGCTGGATCATCGATTCGCGCGACGAGGACACCGGTGCGCGCCTGGACGACCTGGAAGATCCGTTCAAGCTGTACCGCTGCCACACCATCATGAACTGCGCGCGGACCTGCCCGAAGGGCCTGAACCCGGCGCTGGCGATCGCCGAGATCAAGAAGCTGATGATGGCGCGTCGCGCCTGA	MAEFSLPKNSKIGKGKHFPAPGAKNVRTFKIYRWSPDDGQNPRTDTYEVDLDKCGPMVLDALIKIKNEIDPTLTFRRSCREGICGSCAMNIDGTNTLACTRAIADCGKKEVPIYPLPHMNVVKDLVPDLTHFYAQYASIKPWIRTQTPAPPDRERLQSPEDRKKLDGLYECILCACCSTSCPSYWWNGERYLGPAILLQAYRWIIDSRDEDTGARLDDLEDPFKLYRCHTIMNCARTCPKGLNPALAIAEIKKLMMARRA	PGPT0001600_981	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
BMS020_07728	1791	sdhA_2		Succinate dehydrogenase flavoprotein subunit	ATGTCCGCTTACAAGATCACCGAACACAAGTACGACATGGTCGTGGTGGGCGCCGGCGGTGCCGGCCTGCGCGCGACCTTCGGCCTGGCCCAGAAGGGCCTGCAGACCGTGTGCATCACCAAGGTCTTCCCGACCCGTTCGCACACGGTCGCCGCGCAGGGCGGCATTTCCGCCGCGCTCGGCAACATGGGCGAGGACGACTGGCGCTACCACTTCTACGACACCATCAAGGGCTCGGACTGGCTGGGCGACCAGGATGCGATCGAGTACATGGTGCGCGAGGCGATCCCGGCGATCATCGAGCTCGAGCACTACGGTGTGCCGTTCTCGCGCACCGAGGAAGGCAAGATCTACCAGCGTCCGTTCGGTGGTATGACCACCAAGTTCGGTGAAGGCCCGGCGGCGCAGCGCACCTGCGCGGCGGCCGACCGCACCGGCCACGCGATGCTGCACACGCTGTACCAGCAGTCGCTGGCGCACAACGCGCGCTTCATGATCGAGTACTTCGCGCTCGACCTGATCTTCGACGAAGAAGGCGTCTGCCGCGGTGTGCTGGCGCTGGACATGGCCGAGGGCACGCTGCACCTGTTCCGCGCCCATGGCGTGGTGCTGGCCACCGGCGGTTATGGCCGTGCCTACTTCAGCGCCACCTCGGCGCACACCTGCACCGGCGACGGTGGCGGCATGGTGATGCGCGCCGGCCTGCCGATGCAGGACATGGAGTTCGTGCAGTTCCATCCGACCGGCATCTACGGTGCGGGCTGCCTGATCACCGAGGGCGTGCGCGGCGAAGGCGGCATCCTGCGCAACGACAGCGGCGAGCGCTTCATGGAGCGCTACGCCCCGCATTACAAGGACCTGGCGTCGCGCGACGTGGTCGCCCGTTCGATGACCGTCGAGATCCGCGAAGGCCGCGGTGTCGGCGAGCACAAGGACCACATCCTGCTCGACCTGACCCACCTCGGCCCGGGCGTGATCGACGAAAAGCTGCCGGGCATCGCCGAGAGCGCGCGCATCTTCGCCGGCGTCGACGTGCACAAGCAGCCGATCCCGGTGATCCCGACCGTGCACTACAACATGGGTGGTATCCCGACCAACTACCACGGCGAAGTGGTGCGCAAGGTCGGCGACAATCCCGATGCGGTGGTGCCGGGCCTGTACGCGATCGGCGAGGCCGCCTGCGTGTCGGTGCATGGCGCCAACCGCCTGGGCTCCAACTCGCTGCTCGACCTGGTGGTGTTCGGCCGTTCGGTGGCCAACCGCTGCGCCGAGACGATCCGTCCGAACCAGCCGCACAAGCCGCTGCCGTCGGATGCCTGCGACAAGGCGCTGGGCCTGCTCGACAAGCTGCGCAACGCCAACGGCGGCACGCCGACCGCGGTGATCCGCGACAAGATGCAGCGCACCATGCAGGCCGACGCCGCAGTGTTCCGTACCAGCAAGACACTGAAGGAAGGCTGCGAGAAGATGGATGACATCTTCGGCATGTTCGCCGACGTCAAGGTCTCGGACCGTTCGCTGGTGTGGAACTCCGACCTGATCGAGACCTACGAGCTGAACAACCTGCTGCTCAACGCGGTGGCGACGATCAACTCGGCCGAACAGCGCAAGGAAAGCCGCGGCGCGCATGCGCACGAGGACTTCCCGGACCGCGACGACGTCAACTGGCACAAGCACACGCTGGTGAACGTCGACGACAACGGCAAGTGCAGCTTCGATTACCGCCCGGTGCACATGTACACGCTGACCAAGGACGTGGACGTGGTCCCGCCGAAGCCGCGCGTCTACTGA	MSAYKITEHKYDMVVVGAGGAGLRATFGLAQKGLQTVCITKVFPTRSHTVAAQGGISAALGNMGEDDWRYHFYDTIKGSDWLGDQDAIEYMVREAIPAIIELEHYGVPFSRTEEGKIYQRPFGGMTTKFGEGPAAQRTCAAADRTGHAMLHTLYQQSLAHNARFMIEYFALDLIFDEEGVCRGVLALDMAEGTLHLFRAHGVVLATGGYGRAYFSATSAHTCTGDGGGMVMRAGLPMQDMEFVQFHPTGIYGAGCLITEGVRGEGGILRNDSGERFMERYAPHYKDLASRDVVARSMTVEIREGRGVGEHKDHILLDLTHLGPGVIDEKLPGIAESARIFAGVDVHKQPIPVIPTVHYNMGGIPTNYHGEVVRKVGDNPDAVVPGLYAIGEAACVSVHGANRLGSNSLLDLVVFGRSVANRCAETIRPNQPHKPLPSDACDKALGLLDKLRNANGGTPTAVIRDKMQRTMQADAAVFRTSKTLKEGCEKMDDIFGMFADVKVSDRSLVWNSDLIETYELNNLLLNAVATINSAEQRKESRGAHAHEDFPDRDDVNWHKHTLVNVDDNGKCSFDYRPVHMYTLTKDVDVVPPKPRVY	PGPT0001605_2457	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
BMS020_07729	396			hypothetical protein	ATGAGCAAGACGACAAAGTACCGCACCCCGCTCAAGAACGTGCGCGGCCTAGGCGCCGCCAAAACCGGCACCGAGCATTTCGTCCACCAGCGCCTGACCGCCACCGCCCTGGTGTTCCTGGGCATCTGGTTCGTCGCGTTCGTGCTGAGCCTGCTCGGCTCCGATTACGCCAGCGCCGTGCACGCGGTGTCGCGCCCGTGGAATGCGGTGCTGCTGGTCGGGTTCCTGTCGGCGATGTTCTGGCACGCCCAGCTGGGCCTGCAGGTCATCCTCGAGGACTACATCCACAATTCGCTGCTGGCCCTGGCGCTGCAGACCACGGTGAAGTTCATCGCCGTCGTCGGCGCGATCGCAAGCATCTTCGCGGTGGTCCGCATCGCGCTTGGCGCCGCCTGA	MSKTTKYRTPLKNVRGLGAAKTGTEHFVHQRLTATALVFLGIWFVAFVLSLLGSDYASAVHAVSRPWNAVLLVGFLSAMFWHAQLGLQVILEDYIHNSLLALALQTTVKFIAVVGAIASIFAVVRIALGAA	PGPT0001590_753	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001590-sdhD|frdD-K00242	NA	NA
BMS020_07730	393			hypothetical protein	ATGGCGACCCAAGAACGACCGTTGTCACCGCACCTCCAGGTGTATCGCTGGCAGATTCAGATGGCCACCTCGATCCTGCATCGAGCCACGGGCATCGTTCTGTCGCTAGGAGCCCTGATCATCGCCACCGCGTTGCTGGTGCTGATGCTTGGCCCCGAACACTGGGACTGCTTCACCTCGATGGCCGGCGCCTGGTATGGCCAGCTCTTCCTCTTCTTCTGGTCGTGGGCCTTCGCCTACCACCTGTGCAATGGCATCCGCCATATCGCGCAGGATTTCGCCCATGGCTACAGCAAGCCGGTCTTCATCCGGAACAGCTGGCTGTCGGTGGCCGGCAGCCTGGTGATCACCGCCCTGATCTGGGGCTATGTTCTGGTCGGAGCCGGCGCATGA	MATQERPLSPHLQVYRWQIQMATSILHRATGIVLSLGALIIATALLVLMLGPEHWDCFTSMAGAWYGQLFLFFWSWAFAYHLCNGIRHIAQDFAHGYSKPVFIRNSWLSVAGSLVITALIWGYVLVGAGA	PGPT0001595_2632	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
BMS020_07731	912	ygfZ_2		tRNA-modifying protein YgfZ	TTGGCCTATCATGAGGGTCTCGCAACGCAGCAAATTTTAGTCCTGCCCCCCGTGCCTGACAACCTTCACACGACGGACGCTTCCTTCAGCGCGCTTCCCGAGCTCCAGATCGTCACGCTGGAAGGCGTCGACGCGGTGCCATTCGCCCACGCCCAGTTCGCCAGCGACATCGCCGCGCTGCCCATCGGGCACTGGCACTGGAGCACCTGGCTGACCGCCAAGGGGCGGGTCCTGGCGGTGTTCGCCGCCTGCCTGGTCCGCCCCGACCTGCTGTTGCTGGCCCTGCCCGACGGCGATGCCGAGGCGCTGGCCGAGCAACTGCGGTGCTTCGTGTTCCGCCGCAAGGTCCGCATCGCCGCCCGTCCGGAGCTGGCCGCCAGCGGCGCGCTGGCCGCACCGCCCAGCACCGGCGCGACCGCGACCATCGACGGCGACGTGGTGCAGCTCGACCTCGGCACGCCGGCGCAGCCGCGCACCCTGCGCATCGCACCGGACAGCCTGGCGAGCACCCCGGCCAGCGAGGCCTTCAGCCTGTGCTGGCGGCAATGGGACCTGCGCATGGGCCTGCCGCGGCTGGTGCCGTCGCAGCGCGAACAGTGGACCCCGCAGCAACTGGGGCTGGATCGCCTGCAGGCCTACAGCGTCAAGAAGGGCTGCTATCCGGGCCAGGAAATCGTCGCCCGCACCCATTTCCTCGGCAAGGCCAAGCGCGCCACCCAGCTGCTGGAACTGGCCACCACGGCCGAAGCCGGCGATGCGGTGACCGCGGCCGGGCAGCCCTTGGGCAGCCTGGCCAGCGTCGCCTTGCCGTATGCCCTGGCGGTGCTGCCGCTCGATGCAGCCCTCGAGGCGCTGGCCGTGCACGGGGCCCCCGCCCACGCCGCACCGGGGTTGGACGGACTGGCCCGCTGA	MAYHEGLATQQILVLPPVPDNLHTTDASFSALPELQIVTLEGVDAVPFAHAQFASDIAALPIGHWHWSTWLTAKGRVLAVFAACLVRPDLLLLALPDGDAEALAEQLRCFVFRRKVRIAARPELAASGALAAPPSTGATATIDGDVVQLDLGTPAQPRTLRIAPDSLASTPASEAFSLCWRQWDLRMGLPRLVPSQREQWTPQQLGLDRLQAYSVKKGCYPGQEIVARTHFLGKAKRATQLLELATTAEAGDAVTAAGQPLGSLASVALPYALAVLPLDAALEALAVHGAPAHAAPGLDGLAR				NA	NA	NA	NA	NA
BMS020_07732	1092	msiK_2	COG3839	Diacetylchitobiose uptake system ATP-binding protein MsiK	ATGGCGAAAGTGCAGCTGGAAAAGGTCCGCAAGGTCTACGACAACGGCCAGGTGGCGGTGCAGGGTGCGGATTTCGAGGTCGCCGACGGCGAGCTGATGGTGCTGGTCGGGCCCTCCGGCTGTGGCAAGTCCACCCTGCTGCGGATGATCGCCGGGCTGGAGGAGATCAGTGGCGGCACCCTGCGCATCGGCGACCGGGTGGTCAACGACGTGGCGCCGAAGGATCGCGACATCGCGATGGTGTTCCAGAGTTATGCGCTGTACCCGCACATGACCGTGGCCGAGAACCTGGCCTTCGGGTTGAAGCTGCGTGGCACGGCCAAGGACGAAGTGCAGCGCCGGGTCAACGAGGCGGCGGAGATGCTTGGCCTGACTCCGATGCTGGACAAGCTGCCCAAGGCGATGTCCGGCGGCCAGCGCCAGCGCGTGGCGCTGGGGCGGGCGATGGTGCGCGAATCGGCGGTGTTCCTGCTCGATGAGCCACTGTCCAACCTCGACGCCAAGCTGCGCCACAGCGTGCGCACCGAGATCGCCCAGCTGCACCGCAAGCTCGGCACGACAATGATCTACGTGACCCATGATCAGGTCGAGGCGATGACGCTCGGCCAGCGCATCGTGGTGCTGAAGGATGGCGTGATCCAGCAGATCGACACGCCGATGGCGCTGTACGACCGGCCGGTGAACCTGTTCGTGGCCGGCTTCCTCGGCAGTCCGGCGATGAACGTGCTGCGCGGCACGCTGGTCGCCGAGGGCGGTCTGCGCCTGGAACTGGGCAACGGTGCCGCGGTGCCGCTCGGCGATGCGCGGATCGATCCGGACTGGCTGGGGCGGGAGATTGCGCTCGGCGTGCGCCCGGAGCACCTGCAGCCGGCGGCGGACGAAGCCGGCGCGTTCACCGTGCATGTCGAGGGCATCGAGCCGGTCGGCAACGAGATCTTCGTCAACATCGGCTTCGCCGGCATGCCGCTGGTGATGCGGGTGGCGCCGCGCACATTGCCGGCGGTCGGCGAGCCGCTGCAGGTGGCCGTCTGTAGTGAGGCGCTGCATGTCTTCGACGCCGACAGTGGCGTGCGCCTGGTCGCCGGCGGCTGA	MAKVQLEKVRKVYDNGQVAVQGADFEVADGELMVLVGPSGCGKSTLLRMIAGLEEISGGTLRIGDRVVNDVAPKDRDIAMVFQSYALYPHMTVAENLAFGLKLRGTAKDEVQRRVNEAAEMLGLTPMLDKLPKAMSGGQRQRVALGRAMVRESAVFLLDEPLSNLDAKLRHSVRTEIAQLHRKLGTTMIYVTHDQVEAMTLGQRIVVLKDGVIQQIDTPMALYDRPVNLFVAGFLGSPAMNVLRGTLVAEGGLRLELGNGAAVPLGDARIDPDWLGREIALGVRPEHLQPAADEAGAFTVHVEGIEPVGNEIFVNIGFAGMPLVMRVAPRTLPAVGEPLQVAVCSEALHVFDADSGVRLVAGG	PGPT0016310_1926	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
BMS020_07733	246			hypothetical protein	ATGCAGCCAACAAGCGATAGACCGCTTCACGCGCGCGCCGCGTCAGGGCCGGGCATTCCGGATTTCCCGGCCAGCTATGCCGCACCGGTGCTAACCACGCCCCGGGATTGCTGCAACAATCGAGGTCTGCCCGCCTGGCGGCTGCACGGCTTCCTTTTTCTTGATCGACACGCCATCTCCCGCGCGGAGATCCATCAGACAACCGGACTGCCCTACGCGTCCGGATCCCTTGGGCTGAGTAATTGA	MQPTSDRPLHARAASGPGIPDFPASYAAPVLTTPRDCCNNRGLPAWRLHGFLFLDRHAISRAEIHQTTGLPYASGSLGLSN				NA	NA	NA	NA	NA
BMS020_07734	1431	zwf_2	COG0364	Glucose-6-phosphate 1-dehydrogenase	ATGCACACCACTCTCCTCCTCTTCGGCGCCACCGGCGACCTGGCCCAGCGCTACCTGTTCCCGTCCCTGCTGCGGCTGTCGATCGACGGCCTGCTGCCGGCCGATTTCCGCGTGCGTGCGCTGGCGCTGTCGCCGCACGACACGGAGAAGTTCCGCGAGATTCTCAAGCCGCGCCTGGAGCAGGCGCTGCCGCACGCCACCGCGGCGCAGGTCGCCGACATGCTGGCGCGGGTGGACTACCGCTCGGTCGACCTGCGCGACACCGGCTCGGTGGCCTCGGCCGTGCGCGAGCTGACCGACCGCCCGTGCGTGAGCTACCTGGCGATTCCGCCGGGCCTGTACATCAGCACCTGCCAGGGGCTGGCAGAAGGCGGCGCGCTGGCCGCGCCGCACCGGCTGATGCTGGAAAAGCCGATCGGCCACGACTCGGCCAGCGCCCGCGAGATCATCGCCTCGATCGGCGCGCTGATCGACGAGGACCGCGTGTTCCGCCTGGACCACTACCTCGGCAAGGCCGCGGTGCAGAACCTGCTGGCGCTGCGCTTCGGCAACACGCTGCTGGAGGCGGTGTGGAACCGCAACTACATCGAGTCGGTGCAGATCCTGGTCGCCGAAAGCGAGGGCGTGGACGGGCGCGACGCCTACTACGCCCGCTCCGGCGCGCTGCGCGACATGGTCCAGAGCCACATCCTGCAGCTGCTGTGCCTGGTCGCGATGGAGCCGCCGGCCTCGCTGGAGTCCGACCGCATCCGCGACGAGAAGGTCAAGGTGCTGCGCGCGCTGCGCCCGATGAGCGCCGAGCACGTCGCGCGCGACAGCGTGCGCGGCCGCTACACCGCCGGCAGCATCAACGGCCAGCCGGCCCAGGCCTACCAGCCGCCCGAAGGCAGCGACGTGGAGACCTTCGTCGGCGTCACCGCGCGCATCGACAACTGGCGTTGGGAAGGCGTGCCGTTCCACCTGTGCACCGGCAAGCGCATGCCAGAGCGCACCACCCGTGTGGTGGTCACGCTCAAGCCGGTCACCCACTGGCTGTTCGAGCGCCCGGACCGCCAGCACGCGGTGCCGAACCGCCTGACCTTCCAGCTGCAGCCGCAGGAAAACATCGAGCTGGGCCTGATGAGCAGCCTGGCCGGCCCGGAATGGGGGGCGATCGAGCTGCAGCCGCTGGACCTGGAACTGTCGGTCCCGACCGGCCTGCACCGTCGCATCGCCTACGAGCGCCTGTTCCTGGACGCGTTCAACGGCAACCACGCACTGTTCGTGCGCGACGACGAGGTCAAGGCCGCCTGGGCGTGGATCGACAGCGTCAGCCAGGCCTGGAAGGACGCCGCGCTGGCACTGGAACCGTATCCGGCCGGTAGCTGGGGCCCGCAGCGCGCCGGCAGCTTCCTGCCGCCGGGCATCGACGGCCAGGGAGGCGGTGCATGA	MHTTLLLFGATGDLAQRYLFPSLLRLSIDGLLPADFRVRALALSPHDTEKFREILKPRLEQALPHATAAQVADMLARVDYRSVDLRDTGSVASAVRELTDRPCVSYLAIPPGLYISTCQGLAEGGALAAPHRLMLEKPIGHDSASAREIIASIGALIDEDRVFRLDHYLGKAAVQNLLALRFGNTLLEAVWNRNYIESVQILVAESEGVDGRDAYYARSGALRDMVQSHILQLLCLVAMEPPASLESDRIRDEKVKVLRALRPMSAEHVARDSVRGRYTAGSINGQPAQAYQPPEGSDVETFVGVTARIDNWRWEGVPFHLCTGKRMPERTTRVVVTLKPVTHWLFERPDRQHAVPNRLTFQLQPQENIELGLMSSLAGPEWGAIELQPLDLELSVPTGLHRRIAYERLFLDAFNGNHALFVRDDEVKAAWAWIDSVSQAWKDAALALEPYPAGSWGPQRAGSFLPPGIDGQGGGA	PGPT0017380_5105	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036	NA	NA
BMS020_07735	1008	glk_4	COG0837	Glucokinase	ATGAGCGCGCCGTCCAAGGCGGTCCTGGTCGCCGACATCGGCGGCACCAACGCGCGTTTCGCGCTGGCCGACGTGCATGCCTCGGTGCCGCTGCTGGACGACAGCGTGCAGGTGTATCCGGTGGTGGAGTTCCCCTCGCTCGGCGACGCGGCGCGGCACTACCTGGAACAGGTCGGCGTTGCCGCCAGCCACGGCGTGTTCGCAGTGGCCGGGCGCGTGGACGGCGATGAAGCGCGCATCACCAACCATCCCTGGGTGATCTCGCGCTCGCGCACCGCCGGCATGCTCGGCTTCGATTCGCTGCGCCTGATCAACGACTTCGCCGCGCAGGCGATGGCGATCAGCCTGCTGCAGCCCAAGGACGTGGTCCAGGTCGGCGGCGCCAGCTGGGAGCCGGTGCCGGTCGACCAGCCGCGCAACTACGCGGTGATCGGCCCGGGCACCGGGCTCGGGGTCGGCGGCCTGATGATCCGCAACGGCCGCTGCTATCCGCTGGAAACCGAGGGCGGCCATGCCAGCTTCCCGCCCGGCACCCCGGAGGAGATCCGTATCCTGGAGATCCTGTCCGGGCAGTTCGGCCGCGTATCCAACGAACGCCTGATCTGCGGTGCCGGCCTGGTCAACATCTACCGCTCGCTGAGCGAGATCGCCGGCGTCGACCCGGGTCCGATGGAGCCCAAGGACATCACCGCGCGCGCCGCCGCCGGCGACCCGCGCGCGGCGCGCACCATCGACCTGTTCTGCGCGATCTTCGGCGCGATCGCCGGCGACCTGGTGCTGGTGCAGGGTGCCTGGGATGGCGTATTCCTGACCGGCGGCCTGGTCCCCAAGCTGCTGGATGCGCTGCAGCACTCCGGCTTCCGCCAGCGCTTCGAACACAAGGGGCGCTTCTCCGCGATCATGTCGCGGGTGCCGTCACTGGCGGTGATGCACCCGCATGCCGGCCTGCTCGGCGCGGCGGCCTACGCCGTCGACGCCGAGCGCGAACTGGAAGGAGCGCCGCGATGA	MSAPSKAVLVADIGGTNARFALADVHASVPLLDDSVQVYPVVEFPSLGDAARHYLEQVGVAASHGVFAVAGRVDGDEARITNHPWVISRSRTAGMLGFDSLRLINDFAAQAMAISLLQPKDVVQVGGASWEPVPVDQPRNYAVIGPGTGLGVGGLMIRNGRCYPLETEGGHASFPPGTPEEIRILEILSGQFGRVSNERLICGAGLVNIYRSLSEIAGVDPGPMEPKDITARAAAGDPRAARTIDLFCAIFGAIAGDLVLVQGAWDGVFLTGGLVPKLLDALQHSGFRQRFEHKGRFSAIMSRVPSLAVMHPHAGLLGAAAYAVDAERELEGAPR	PGPT0017730_850	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017730-glk-K00845	NA	NA
BMS020_07736	720			hypothetical protein	ATGAAGCTGCTCGACCACACCCGTGTCGCGCTGGTCCAGCACGAGGACGAGCACGCCTGGATCGAGGCGGTCGCCGACGAGATCGCCAGCCTGCTCGCCCACGATGCCGAGCAGCACGGTCGCGCCCGCATGCTGCTGTCCGGCGGCACCACCCCGGCGCCGGTCTATGAAGCGCTGGCGACCCGCGCCCTGCCCTGGTCGCGGATCGAAGCCGGGCTGGTCGACGAACGCTGGCTGTCACCGCAGGACCCCGACAGCAATGCCTGGCTGGTCCGCGAGAGCCTGCTCGAGCACGCCGACGGCCTGCAGTTCGTGCCGCTGGTGCGCGAGGGCAAGCCGATCGACGAGTGCGTGCATGCGGCCAATCTGCATGCTCGCCACGCCAGCCCAGCCTGCGTGGCGGTGCTGGGGATGGGCGGCGATGGCCATACCGCCTCGCTGTTCCCGGGGGCGACCGACCTGGCCAAGGCCCTGGCAAGCCCGCAGCCGTACGCGTCGCTGGATGCGACCGGCTGCCCCGGCTCCAATACCTGGCCGCTGCGCATCACCCTGACCCCGGCCGGCCTGGCCGCTGCCGGCACCCGCCTGCTGCTGCTGCGCGGCAAGCAGAAGCTGCAGGTGCTGGAAGCCGCGCTGAAGGGGCAGGATCCGAACGAGTACCCGATCCGTGCGGCGATCGACCTGCCCGGCCCGCGCCTGCGCGTGCACTGGTGCGCTTGA	MKLLDHTRVALVQHEDEHAWIEAVADEIASLLAHDAEQHGRARMLLSGGTTPAPVYEALATRALPWSRIEAGLVDERWLSPQDPDSNAWLVRESLLEHADGLQFVPLVREGKPIDECVHAANLHARHASPACVAVLGMGGDGHTASLFPGATDLAKALASPQPYASLDATGCPGSNTWPLRITLTPAGLAAAGTRLLLLRGKQKLQVLEAALKGQDPNEYPIRAAIDLPGPRLRVHWCA				NA	NA	NA	NA	NA
BMS020_07737	1917	edd_2	COG0129	Phosphogluconate dehydratase	ATGAGCCTGCATCCCACCATCCATTCCGTCACCCAGCGCATCCGTGAGCGCAGCGCACCGTCGCGCGCCGCCTACCTGGCCGGCATCGATGCCGCGCTGCGCGAGGGTCCGTTCCGTTCGCGCCTGAGCTGCGGCAACCTCGCCCACGGCTTTGCCGCCTGCGGGCCGACCGACAAGGATCGCCTGCGCGGCGCGGTGTCGCCGAACCTCGGCATCATCACCGCGTACAACGACATGCTGTCGGCGCATCAGCCGTTCGAGCAGTACCCGGAACTGATCCGCGCGACCGCGCGTGCGCTGGGCGCCACCGCCCAGGTCGCCGGCGGCGTGCCGGCGATGTGCGACGGCGTCACCCAGGGCCGCGGCGGCATGGAACTGTCGCTGTTCTCGCGCGACGTGATCGCCCAGGCCACCGCGATCGGCCTCAGCCACGACATGTTCGACAGCACCGTCTACCTCGGCGTGTGCGACAAGATCGTGCCGGGCCTGCTGATCGGCGCGCTCGCGTTCGGCCACCTGCCGGCGGTGTTCATGCCGGCCGGGCCGATGACCCCGGGCATTCCCAACAAGCAGAAGGCCGAGGTGCGCGAGCGCTACGCCGCCGGCCAGGCCACCCGCGAGGAACTGCTCAAGGCCGAGTCCTCGTCCTACCACGCGCCCGGCACCTGCACCTTCTACGGCACCGCCAACTCCAACCAGGTGCTGCTGGAGGCGATGGGCGTGCAGCTGCCCGGCTCGTCGTTCGTCAACCCGGACACGCCGCTGCGCGACGCGCTGACCGCGCTGGGTACCGAACGTGCGCTGGCGATCAGCGCTCTGGGCCAGGACTTCCGTCCGTTCGGCCGGCTGATCGACGAGCGCGCGATCGTCAACGCGATCGTCGCGCTGATGGCCACCGGCGGTTCGACCAACCACTCGATCCACTGGATCGCGGTGGCGCGCGCGGCCGGCATCGTGCTGACCTGGGACGACATGGACCTGATTTCGCAGACCGTGCCGCTGCTGGCGCGCGTGTACCCGAACGGCGAGGCCGACGTGAACCGGTTCCATGCAGCCGGCGGCACCCCGTTCGTGTTCCGCGAACTGATGGACGCCGGGCTGATGCACGACGACCTGCCCACCATCGTCGAAGGCGGCATGCGCATGTTCGCGCAGGAACCGCGCCTGCAGGACGGCAAGGTGGTGTTCGTGCCGGGCACCGCGGCCAGCGCCGACGAGGCGGTGGCGCGTCCGGTCGCCACTGCGTTCGAAGCGCAGGGCGGCCTGCGTCTGCTGCGCGGCAACCTCGGCCGCTCGCTGATCAAGCTATCGGCGGTCAAGCCGGAATACCGGCGCATCGAGGCCCCGGCGGTGGTGGTCGATGCGCCGCAGATGCTCAACAAGCTGCATGCCGCCGGCGTGCTGCCGCAGGACTTCGTCGCGGTGGTGCGCTACCAGGGCCCGCGCGCCAACGGCATGCCGGAGCTGCATTCGCTGGCCCCGCTGCTCGGCCTGCTGCAGAACCAGGGCCGGCGCGTGGCGCTGGTCACCGACGGCCGTCTGTCCGGCGCTTCGGGCAAGATCCCGGCGGCGATCCACGTGACCCCGGAAGCCGCGCGCGGCGGCCCGATCGGCCGCATCCGCGAGGGCGACATGATCGTGCTCGACGGCGAAGCCGGCACACTGGAAGTGCTGGTCTCGCCGCAGGAATGGGCGGCGCGTGACATCGCCGCGAACACCGCACCGGCCGCCAACGACCTGGGCCGCAACCTGTTCGCGATCAACCGCCGCGTGGTCGGTCCCGCCGACCAGGGCGCGATCTCGATCGCCTGCGGCCCGATGAGCGCCGACGGCAGCATGTGGGACTACGACGCCGAATACGAGCTGGGCGACAGCCCGGCCGCGGCGGCGGCCCCGCACGAAGCCAAGGACGCCTGA	MSLHPTIHSVTQRIRERSAPSRAAYLAGIDAALREGPFRSRLSCGNLAHGFAACGPTDKDRLRGAVSPNLGIITAYNDMLSAHQPFEQYPELIRATARALGATAQVAGGVPAMCDGVTQGRGGMELSLFSRDVIAQATAIGLSHDMFDSTVYLGVCDKIVPGLLIGALAFGHLPAVFMPAGPMTPGIPNKQKAEVRERYAAGQATREELLKAESSSYHAPGTCTFYGTANSNQVLLEAMGVQLPGSSFVNPDTPLRDALTALGTERALAISALGQDFRPFGRLIDERAIVNAIVALMATGGSTNHSIHWIAVARAAGIVLTWDDMDLISQTVPLLARVYPNGEADVNRFHAAGGTPFVFRELMDAGLMHDDLPTIVEGGMRMFAQEPRLQDGKVVFVPGTAASADEAVARPVATAFEAQGGLRLLRGNLGRSLIKLSAVKPEYRRIEAPAVVVDAPQMLNKLHAAGVLPQDFVAVVRYQGPRANGMPELHSLAPLLGLLQNQGRRVALVTDGRLSGASGKIPAAIHVTPEAARGGPIGRIREGDMIVLDGEAGTLEVLVSPQEWAARDIAANTAPAANDLGRNLFAINRRVVGPADQGAISIACGPMSADGSMWDYDAEYELGDSPAAAAAPHEAKDA				NA	NA	NA	NA	NA
BMS020_07738	660	eda_2	COG0800	2-dehydro-3-deoxy-phosphogluconate aldolase	ATGAGCATCGCCCAGCATCAACAGAAAGCCGAACACCTGCTGCACGCCGCCGGCATCCTGCCGGTCCTGACCGTGCACACGCTCGAGCAGGCGCGCCGCGTCTCCGCCGCATTGCTGGAGGGCGGCCTACCCGCGATCGAACTGACCCTGCGCACGCCGGTGGCGATGGAAGCGCTGGCGATGCTGAAGAAGGAACTGCCCGATGTCGTGGTCGGCGCCGGCACCGTGCTGAGCGTGGAGCAGATGCAGCAGGCGATCGACGCCGGCGCCGATTTCCTGGTCACCCCGGGCACGCCGCCGGCGCTGGCCGATGCGCTGGCGCAGGCGCCGATCCCGGTGGTCCCGGGTGGCGCCACCCCGACCGAGTTCCTGTCGCTGATGGCGCGCGGCTTCCGCGTCTGCAAGCTGTTCCCGGCCAGCGCGGTCGGTGGGCTGGCGATGCTCAAGGGCCTGGCCGGCCCGCTGGCCGATTTGAAGATCTGCCCGACCGGCGGCATCAGCGAAGCCAACGCCGGCGAATTCCTCGCCCAGCCGAACGTGGTCTGCATCGGCGGCTCGTGGATGGTGCCGGGCAACTGGATCGCCGAGGGCGCATGGGACAAGGTCCGCGACACCTCGGCCAAGGCCGCGGCGATCGTCAAGCAGGCCCGCGGCGGCTGA	MSIAQHQQKAEHLLHAAGILPVLTVHTLEQARRVSAALLEGGLPAIELTLRTPVAMEALAMLKKELPDVVVGAGTVLSVEQMQQAIDAGADFLVTPGTPPALADALAQAPIPVVPGGATPTEFLSLMARGFRVCKLFPASAVGGLAMLKGLAGPLADLKICPTGGISEANAGEFLAQPNVVCIGGSWMVPGNWIAEGAWDKVRDTSAKAAAIVKQARGG	PGPT0002060_202	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
BMS020_07739	918			hypothetical protein	ATGAAAACCACCCCGTTGCTGCTGGCGCTGTCGCTGGCCTGCACGCTGTTCCCCGTGCAGGCCAAGGAGGGCGGCGACCAGTCCTCCAACGGCATGGAAAGCTGGGGCGCCGGCGTGCTGCCGCCGGCCGGCGACTACCTGCTCAACTACACCGGCTACTGGAGCGGCGACCTGCGCGATGGCCAAGGCCAGGCCGCGGACTTCGGCGGCGGGCGCCATGCCCGGATGAACTCCACCTTCGATGCATTCCGCTGGGTCCACGTGACCGGCCACAAGCTGTTCGGCGCCGACTACGCCGTGCATGTGATCGTGCCGGTGGTGAACCTGTCGGTGTCGCACCCGGCGCTGGGCGGACGCGACAGCGCACTGGATGTCGGCGACATCATCGTCAGCCCGCTCACCCTCGGCTGGCACCATGGCGACTGGCACACCGTCGCCGCGCTCGACGTGATGCTGCCGACGGGACGCTACGACCAGGACGATCCGCGCGTCAGCATCGGCGCCAACTACACCGCGTTCGAGCCGGTGGTCGCCGTGTCCTGGTTGCCGCGCAGCGGCTGGGAGCTGTCGGCCAAGGCGATGTACAACATCAAGACCGAGAACCACGACACCCACTACCAGTCCGGCGACGAATTCCACGTCGACTGGTTGGCCGGGCGCACGCTCGGCCGCTGGGGTGTCGGCGTGGCCGGCTACTACCTGGTGCAGACCAGCAGCGACGAGATCGACGGCGAGCGCGTCGCCGCATCGCCGGGCATCTGGGATGCCGGCCGCCGCGGCCGTGTGTTCGCCTATGGCCCGAGCGTGAAGTACAGCGCGTCCGGCGCCACCTTCGTGGCGCAGTGGCTGCACGAGACCGACCTGGAAAACCGCTTCGGCGGCAACCGGGTGCTGTTCAAGACCATCCTTCCGCTGTAA	MKTTPLLLALSLACTLFPVQAKEGGDQSSNGMESWGAGVLPPAGDYLLNYTGYWSGDLRDGQGQAADFGGGRHARMNSTFDAFRWVHVTGHKLFGADYAVHVIVPVVNLSVSHPALGGRDSALDVGDIIVSPLTLGWHHGDWHTVAALDVMLPTGRYDQDDPRVSIGANYTAFEPVVAVSWLPRSGWELSAKAMYNIKTENHDTHYQSGDEFHVDWLAGRTLGRWGVGVAGYYLVQTSSDEIDGERVAASPGIWDAGRRGRVFAYGPSVKYSASGATFVAQWLHETDLENRFGGNRVLFKTILPL				NA	NA	NA	NA	NA
BMS020_07740	3171			hypothetical protein	ATGACACGAGGGTGCGGCAAGACGATGCTGGGGCTGCTGCTGGCGATGAGCGCGAGCGGTGCGATGGCGCAGGAGGCCCGTGTCCTCGACGATTTCTCCGATCCCGGTGCGTGGAAGCTGGTGGTCTCCAACCAGGTCACCGGCTCGCTGCGGCCGGTGGCGGTGGCCGGTGGCGGCAAGGGCCTGTGCCTGGATTACAACTTCAACGGCGTGTCCGGCTACGTCGGCATCCGCCGTGCGCTGCCGGTGCAGTACCCGCAGAACTATCAGTTCTCGCTCAGCCTGCGCGGCGATTCGCCGGCCAACGACCTGCAGTTCAAGCTGATCGATGCCAGCGGCGACAACGTCTGGTGGGTGAACCGGCCGGGCTTCGCGTTCCCGAGGAACTGGACCACGTTCAACTACCGCAAGCGGCACGTGGACAAGGCCTGGGGGCCGGGCGCCGACAAGGTGCTGCGCAGCAGCGCGGCAGTCGAGTTCACGGTCTACAACAAGGTCGGCGGGCGCGGCACGGTGTGCTTCGACCGCTTGACCCTGGCCGAGCTGCCGCCCGAGGACGCGTCGCCGTACAAGCCTGCGGTGATCGCCGATACCGCGACCGCGCTGGAGCAGCGCGTCGCCGACGGGCGCGAGGATACGTTCTGGGTCAGCGGCAACGTCAAGCAGCAGACCGTCACCCTCGACCTCGGCCGGGTGCGCGAATTCGGCGGTGCCCGGGTCGACTGGGTGCCGGGGCTGCAGGCCTCGGCCTACCAGGTGCGTTCGTCGGTGGACGGGCGCAGCTGGAAGGATCTGCGCGAAGTCGTCGCCGGCGCCGGCGGTACCGACTGGCTGGCGCTGCCCGACGCCGAAGGCCGCTACCTGCGCTTCGACCTGCGCGACGGGCCGAGCTTCCGCTACGGCATCAAGGAAATCCAGGTGCAGCCGCTGGCGTTCGCCGCCACCCCCAACGATTTCATCAAGAGCCTGGCGGCGCAGTTTCCGAAGGGCAGCTTCCCGCGCGGCTTCTCCGGCGAGCAGCCGTACTGGACCATTCTCGGCCTGGACGGCGGCACCGAGCAGGGCCTGATCGGCGAGGACGGCGCGGTCGAAGTGGCCAAGGCCGGCTTCAGCATCGAGCCGTTCATCGCCAGCGGCGGCAAGCTGCTGCACTGGTCCGACGTCGCCAGCACACAGACGCTGCAGGACGGCTACCTGCCAATCCCGAGCGTGGAATGGAAGCACGCCGAGGCCGGCTTGAAGGTCACCGCCTTCGTGCAGGGGCAGCCGGGCGATGCGCAGCTGGTCACGCGTTACCTGTTGCGTAATACCGACAAGGTGGCGCACGACTACACGCTGGCGTTGGCGGTTCGCCCGTTCCAGGTCAATCCGCCGGCGCAGTTCCTCAACACGCCCGGCGGGGTCAGCCCGATCAACCAGCTGGCGATCGACGGGCCGCAGGTCAGCGTCAACGGCAAGGCGCGGCTGTTCGCCACGCAGGCGCCTGACCAGGCCTTCGCCACGCCGTTCGATGCCGGCATGGAGTTCACCCACCTGCTCGACAAGGCGCTGCCGGATACGCGCCAGGTGAAGGATGCGACCGGGCTGGCGTCCGGCGCGCTGTTGTATCGCTGGACGCTGCAGCCCGGCGAAGGCCGCGAGGTCGCGGTACTGGTGCCGCAGACCGGACCGGCGCGCATGCCGGACGGCTTCGATGCCGCGCGCGCGCAGCAGCAGGTCGCGCAGATGTGGCGCGACAAGCTCGACCGTGTGCGGTTCAGCGTGCCGGGCGAAGGCAAGCCGCTGGTCGACACGCTGCGCACCGCGTTGGCGCACATGCTGATCTCGCGGATCGGGCCACGCCTGCAGCCGGGCACGCGCTCGTATTCGCGCAGCTGGATCCGCGACGGCGCGATGATTTCCGAGGGCCTGCTGCGCATGGGGCGCGAGGACGCGGTGCGCGAGTACGTGGACTGGTTCGCGCCGTACCAGTTCGCCAACGGCATGGTGCCGTGCTGCGTCGACGACCGCGGCAGCGACCCGGTGCCGGAGAACGACAGCCACGGCGAGTTGATCTTCAACATCGCCGAGTACTACCGCTACACCGGCGATCGCGCCTTCCTGGAACGGATGTGGCCGCATGTCAGCGGCGCCTACGGTTACATGGAACAGTTGCGGCTGAGCGAGCGCACCGAGGCCAACTTCATGGTCAATCCGGCGTTCTACGGGATGATGCCGGTATCGATCAGCCACGAGGGGTACTCGGCCAAGCCGGTGCACTCGTACTGGGACGATTTCTGGGCGCTGCGCGGCTACAAGGACGCGGTGCTGATCGCCGACGCGCTGGCGCTGCCGGACGACGCGCAGCGCTTTGCCGCCTCGCGCGACCAGTTCCAGGACGACCTGTCCGCCTCGCTGCTGGCCAGCGTGCGCCAGCATGGCATCGACTATCTGCCCGGCTCGGCCGAACTCGGCGACTTCGATGCGACCTCGACCACCATCGCGCTCGCGCCCGGTGGCGAGCAGGCGCGGTTGCCGCAGGAACTGCTGTCGACGACCTTCGAGCGCTACTGGACCCAGTTCGTCGAGCGTCGCGACGGCAAGCGCGAATGGAAGGACTACACGCCGTACGAATGGCGCAACGTCGCCGCGTTCGTGCGTCTTGGCTGGCGCGAGCGTGCCTGGGACGCGGTCGACTTCTTCTTCGGCGACCGTACCCCGGCCGCCTGGAACCAGTGGGCCGAGGTCGTCTCGCACACGCCGCGCACGCCGTTCTTCGTCGGCGACCTGCCGCATGCCTGGGTGGCGTCGGACTTCGTGCGCTCGGTGCTGGACATGTTCGCCTACAACCGCGAGAGCGACGACAGCCTGGTGCTGGCCGCGGGCGTGCCTGCGCGCTGGTTCGAAGGGCAGGGCATCGCGATCGGCGACCTGCGCACGCCGCAGGGGCGCTTGAACTATGCGGTCAAGCGCAACGACAAGCAGCTGCTGCTGCAGGTGCAGACCGGCCTGGTGCTGCCGGCCGGCGGCATCGTGTTCCCGTGGCCGTACGCCGGCGAGCCGGGCAATGCCACGGTCAATGGCCAGGACGTGCCGTGGCAGGGCAATGAGCTGCATATCCAGCAGCTGCCTGCCGAGGTCGTCATCGACGTGCCGGCCTCGGTTCGCCGCGCGCAGCGTCGGGCGCAGTGA	MTRGCGKTMLGLLLAMSASGAMAQEARVLDDFSDPGAWKLVVSNQVTGSLRPVAVAGGGKGLCLDYNFNGVSGYVGIRRALPVQYPQNYQFSLSLRGDSPANDLQFKLIDASGDNVWWVNRPGFAFPRNWTTFNYRKRHVDKAWGPGADKVLRSSAAVEFTVYNKVGGRGTVCFDRLTLAELPPEDASPYKPAVIADTATALEQRVADGREDTFWVSGNVKQQTVTLDLGRVREFGGARVDWVPGLQASAYQVRSSVDGRSWKDLREVVAGAGGTDWLALPDAEGRYLRFDLRDGPSFRYGIKEIQVQPLAFAATPNDFIKSLAAQFPKGSFPRGFSGEQPYWTILGLDGGTEQGLIGEDGAVEVAKAGFSIEPFIASGGKLLHWSDVASTQTLQDGYLPIPSVEWKHAEAGLKVTAFVQGQPGDAQLVTRYLLRNTDKVAHDYTLALAVRPFQVNPPAQFLNTPGGVSPINQLAIDGPQVSVNGKARLFATQAPDQAFATPFDAGMEFTHLLDKALPDTRQVKDATGLASGALLYRWTLQPGEGREVAVLVPQTGPARMPDGFDAARAQQQVAQMWRDKLDRVRFSVPGEGKPLVDTLRTALAHMLISRIGPRLQPGTRSYSRSWIRDGAMISEGLLRMGREDAVREYVDWFAPYQFANGMVPCCVDDRGSDPVPENDSHGELIFNIAEYYRYTGDRAFLERMWPHVSGAYGYMEQLRLSERTEANFMVNPAFYGMMPVSISHEGYSAKPVHSYWDDFWALRGYKDAVLIADALALPDDAQRFAASRDQFQDDLSASLLASVRQHGIDYLPGSAELGDFDATSTTIALAPGGEQARLPQELLSTTFERYWTQFVERRDGKREWKDYTPYEWRNVAAFVRLGWRERAWDAVDFFFGDRTPAAWNQWAEVVSHTPRTPFFVGDLPHAWVASDFVRSVLDMFAYNRESDDSLVLAAGVPARWFEGQGIAIGDLRTPQGRLNYAVKRNDKQLLLQVQTGLVLPAGGIVFPWPYAGEPGNATVNGQDVPWQGNELHIQQLPAEVVIDVPASVRRAQRRAQ				NA	NA	NA	NA	NA
BMS020_07741	843	araQ	COG0395	L-arabinose transport system permease protein AraQ	ATGAGCATGACCCGCGAGGTCGGCGAATCGCGCTGGAACGCGCTGTTGGTGAACGGCGGCCTGGTGCTGCTGGCGCTGGTCAGCCTGGCGCCGTTGCTGTGGATGGTGTCGGTGTCGTTCATGCCGCGCGGCGAGGCCAGCCACTTCCCGCCGCCGCTGCTGCCGTCGCACGCGACCCTGGACAGCTACCGCGAGCTGCTGCAGCGCACCGGCATGGCACGCAACTTCGCCAACAGCCTGCTGGTATCGCTGGCGATCACCTTCGGCTCGCTGCTGGTCAACACGATGGCCGGCTACGCCTTCGCCAAGCTGCGCTTCGTCGGCCGCGAGCGGATCTTCCAGGTGCTGCTGGCGGCGCTGGTGATCCCGGCGCAGGTGGCGATGCTGCCGCTGTTCCTGCTGATGAAACAGCTGCACCTGGTCAACAGCTACGGCGGCGTCGTGGTGCCGGCGCTGGCGACGGTGTTCGGCATCTTCCTGGTACGCCAGTACGCGCGCAGCATCCCCGACGAGCTGCTGGAAGCGGCCCGCATCGACGGCGCCGGCGAGCTGCGGATCTTCTTCCAGATCGTGTTGCCGATGCTCAAGCCGGTGCTGGTGACGTTGACCATCTTCACCTTCATGGCGGCCTGGAACGACTTCATGTGGCCGCTGATCGTACTGACCGACCAGGAGCACTACACCTTGCCGGTGGCGCTGGCGGCGTTGTCGCGCGAGCACATCATGGACGTGGAGCTGATGATGGCCGGCGCGGTGGTGACGGTGATTCCGGTGCTGGCGCTGTTCCTGGCGCTGCAGCGCTACTACATCCAGGGGCTGCTGCTCGGCAGCGTCAAGGGGTAG	MSMTREVGESRWNALLVNGGLVLLALVSLAPLLWMVSVSFMPRGEASHFPPPLLPSHATLDSYRELLQRTGMARNFANSLLVSLAITFGSLLVNTMAGYAFAKLRFVGRERIFQVLLAALVIPAQVAMLPLFLLMKQLHLVNSYGGVVVPALATVFGIFLVRQYARSIPDELLEAARIDGAGELRIFFQIVLPMLKPVLVTLTIFTFMAAWNDFMWPLIVLTDQEHYTLPVALAALSREHIMDVELMMAGAVVTVIPVLALFLALQRYYIQGLLLGSVKG	PGPT0016540_5543	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
BMS020_07742	882	lacF_2		Lactose transport system permease protein LacF	ATGAAGCGTCACTCCCTCGTCGGCTGGGTCTTCGCCGGCCCCGCGCTGCTGGTGATCGGCCTGTTCTTCGGCGTGCCGGTGCTCTCGGCGTTGCTGCTCAGCCTGACCGATTTCGACCTCTACGCGCTGGCCGACAGCAGCCACCTGCGCATCGTCGGCCTGCACAACTACATCGACCTGCTGCAGACCCCGATGTTCTGGAAGTCGCTCTGGAACACCACCTACTTCGTGGTGGTCGGCGTGCCGCTGTCGATCGGCGTGTCGCTGGGCGCGGCGATGCTGCTCAATGCGCGCGCGGCGCGCTTCAAGGGGCTGTTCCGCACTGCGCTGTTCGCCCCGGTGGTGACCACGCTGGTCGCGGTGGCGGTGATCTGGCGCTACCTGTTCCACACCAGCTACGGCATGGTGAACTGGGCCCTTGGCCACATCGGCATCGACCCGATCGACTGGCTGGGCGACCCGCACTGGGCGATGCCGACGATCATGCTGTTCGCGGTCTGGAAGAACTTCGGCTACAACATGGTGATCTTCCTGGCCGGCCTGCAGGGCATCCCGCACGACCTGTACGAGGCCGCGCGCATCGATGGCGCCAACAAGTGGAAGCAGTTCCTGCACATCACCCTGCCGATGCTCGGGCCGGTGCTGCTGGTGGTCGGGGTGATCACCGTGTCCGGCTACTTCCAGCTGTTCGCCGAACCCTACGTGATGACCCGTGGCGACCCACTGCAGAGCACGGTGAGCGTGCTGTATTTCATGTTCGAGGAAGGCTTCAAGTGGTGGAACCTCGGCCGTGCGTCGGCCGTGGCGTTCCTGTTGTTCCTGATCATCCTGGCCGTGACGACGGTGATGCTGCGGATCGGCCGCAGGAAGGACCTGGTATGA	MKRHSLVGWVFAGPALLVIGLFFGVPVLSALLLSLTDFDLYALADSSHLRIVGLHNYIDLLQTPMFWKSLWNTTYFVVVGVPLSIGVSLGAAMLLNARAARFKGLFRTALFAPVVTTLVAVAVIWRYLFHTSYGMVNWALGHIGIDPIDWLGDPHWAMPTIMLFAVWKNFGYNMVIFLAGLQGIPHDLYEAARIDGANKWKQFLHITLPMLGPVLLVVGVITVSGYFQLFAEPYVMTRGDPLQSTVSVLYFMFEEGFKWWNLGRASAVAFLLFLIILAVTTVMLRIGRRKDLV	PGPT0016535_7808	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
BMS020_07743	1302	dasA	COG1653	Diacetylchitobiose binding protein DasA	GTGAGCACGATCCGATTGATCTTCATCGCGGCGCTGGCTTTGGCCGCCGCAGGCTGCGCCAGGCCGGAACAGGGCGAAACCGTGCGGTTCTGGGCGATGGGCCGCGAGGCCGAAGTGGTCAGCGGACTGATCGCCGACTTCGAGAAGGAGAACCCCGGCATCCATGTCGATGTGCAGGCGATCCCGATGACCGCCGCGCACGAAAAGCTGCTGACCGCGTTCGCCGCCGACGGCCTGCCGGACGTGTGCCAGCTCGGCAACACATGGGTGCCTGAGTTCGCCACGCTCGATACGCTGGAGCCGCTGCAGCCCTATCTCGCGCGTTCCAGCGTGATCGATCCGGCGGACTATTTCGCCGGCATCTGGGCCACCAATGTCGTCGACGGGCAGACGGTGGGCATCCCGTGGTATGTCGATACCCGGTTGCTGTTCTATCGCAAGGACATCCTGCGCGAGGCGGGGGTGAAGACGCTGCCGACCACCTGGGAGGAATGGAACGCGGCGATGGCGGCGGTCAAGCGCTACGTCGGCCCGGAGCGCTACGCGATCCTGCTTCCGCTCAACGAATTCGAGCAGCAGCTTTCGCTCGGCCTGCAATCGGACGACCCGTTGCTGCGCGACCACGACAACTACGGCAACTTCCGCAGCGCTGGATTCCGCAGGGCACTGGGGTTCTACGCCAACACCTTCGACCAGGGGTGGGCACCGAAGATGTCCGAAACCCAGATTTCCAACGTCTGGGACGAGTTCTTCGATGGGTTCTATGCGTTCTACCTGTCTGGCCCCTGGAATATCCGCGAGTTCAAGCTGCGCGAGCCGGAAGCGCTGAAGGGGCAGTGGGGCACCATGCCGCTGCCGGGGCCGGACGGCCCGGGCGCCGGCATCGCGAGCGGTTCCAGCCTGGTGATCTTCCGCTCCTCCGAGCACAAGGAAGCGTCCTGGAAGCTGATCGAATTCCTCTCGCGCCCGCAGGTGCAGCAGCGTTTCCATGGGCTGATCGGCGACCTGCCGCCGCGGCGCAGCACCTGGGAGTCGCCATCGCTGGCCAACGACACGCTGGCGCGCGCGTTCCGCGATCAGCTCGAGAGGGTCAAGCCGACGCCCAAGGTGCTGGAGTGGGAGCGGATCGTGCAGGAGATGCGGCTGGTGACGGAGCGGGTGGTGCGCGGCGGTGAGTCGCAGGACAGCGCGGTGGTCGACCTCGATCATCGTGTCGACGAGATCCTGGCCAAGCGCCGTTGGATCTATGCGCAGGAACATGAGGGCGAGGCGGCGGCCGGCAACAAGGAGGCGGCACGATGA	MSTIRLIFIAALALAAAGCARPEQGETVRFWAMGREAEVVSGLIADFEKENPGIHVDVQAIPMTAAHEKLLTAFAADGLPDVCQLGNTWVPEFATLDTLEPLQPYLARSSVIDPADYFAGIWATNVVDGQTVGIPWYVDTRLLFYRKDILREAGVKTLPTTWEEWNAAMAAVKRYVGPERYAILLPLNEFEQQLSLGLQSDDPLLRDHDNYGNFRSAGFRRALGFYANTFDQGWAPKMSETQISNVWDEFFDGFYAFYLSGPWNIREFKLREPEALKGQWGTMPLPGPDGPGAGIASGSSLVIFRSSEHKEASWKLIEFLSRPQVQQRFHGLIGDLPPRRSTWESPSLANDTLARAFRDQLERVKPTPKVLEWERIVQEMRLVTERVVRGGESQDSAVVDLDHRVDEILAKRRWIYAQEHEGEAAAGNKEAAR	PGPT0016545_6620	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
BMS020_07744	1635			hypothetical protein	ATGAACAGGGGCATGCGATCTCGTTGGCTGACCACGGCGATGCTGGCAGGCATGGTGTTGCTCGCTTCCTGCAAGCAGGAGGAGGAGCCGAAGGTGGAACATCCGCCGTTGAAGGTGATCCTGATCGAGGCCGAGCTGCCACCGGCGCCTCCCAAACCGGTGAAGCCCGAGCTGCCGCCGCTGTTCTTCGACATCGAGCGCCGCACGTTCCAGTACTTCTGGGATACCGCCAACGACCTCAATGGACTCAGCCCCGACCGCTATCCGTCGCGGCCGTTCGCCAGCGTGGCTTCGGTCGGCTTCGCGCTGACCGCGTATCCGATCGGCATCGAGAACGGCTGGGTCAGCCGCACCCAGGCCGTGGACCGCACCCTGCTCACGCTGAAGTTCTTCCGCGACCTGCCCAGTGGCCCGCAGGCCACCGGCCGGGCTGGCTACAAGGGCTTCTACTACCACTTCCTCGACATGCAGAAGGGCCTGCGTTACGACAGCTGGGTCGAGCTGTCGAGCGTGGACACCGCGCTGCTGATGATGGGCGTGCTGTTCGCGCAGTCGTACTACGACGGCGACGATCCGCGCGAGAAGGAGATCCGCCAGATCGCCGACGCGCTCTACAAGCGCGTGGACTGGGCCTGGTTGCAGCAGCGCAAGCCGTTGATCTCGATGGGCTGGTTCCCCGAGAGCGGCTTCATCGATCACGACTGGGCCGGCTACAACGAAGCGATGATGCTGTACGTGCTGGCGCTGGGCTCGCCGACGCATCCGGTCGCGCCGGAGGCCTGGTCGGTGTGGACGCGCACCTACAACAACGACTGGGGCGTGTACCAGGGACAGGAGTACCTGTCGTTCGGCCCGCTGTTCGGCCATCAGTACAGCCACGTCTGGATCGACTTCCGCGACATCCAGGACCAGTACATGCGTGAGCGTGGCATCGACTACTTCCTCAACACGCGGCGTGCGACGTTGGCGCAGCGCGACTACGCCATCGACAACCCGATGCAGTGGAAGGACTACGGCGAGAACGTCTGGGGCCTGACCGCCAGCGACGGGCCGCAGAACACCAGCCAGGAGTACAAGGGCGAGCAGCGCCAGTTCCGCCACTACTCGGCGCGCGGTGCCGGCCTGCGCGACGTGTTCGACGATGGCACGATCGCGCCGACCGCGGCGATCTCCTCGCTGCCGTACGCGCCGGAGGTGGTGATCCCGGCCACGGTGGAAATGCACAAGCGCTATGGCGACTTCCTGTATTCCAGCTATGGCTTCCTGGACGCGTTCAACCCGAGCTTCAACTACGACATCCCGCTGAAGACCGGGCGGCTGATCCCCGAGCGTGGCTGGGTGTCCAGCGACTACATCGCGATCGACCAGGGGCCGATCCTGGCCGGCATCGCCAATTACCGCGATGAGTTCATCTGGACCGTGATGAAGAAGAACCCGTACATCCGCAAGGGCCTGGAGCGTGCCGGGTTCACCGGCGGCTGGCTGGCGCCGGAAGGAGAGCAGCAGGCACCGCCACAGAAGGACGAGCAGGCGGCCGCGGCGCGGGCGCTGGGCATCGCCGAATCGCGCGCGGCCAGTGCCGAGGCGCAGCAGCAGGACCCGGGCGCGGGCCAGCGCCAGCAGAAACCCGAGTAA	MNRGMRSRWLTTAMLAGMVLLASCKQEEEPKVEHPPLKVILIEAELPPAPPKPVKPELPPLFFDIERRTFQYFWDTANDLNGLSPDRYPSRPFASVASVGFALTAYPIGIENGWVSRTQAVDRTLLTLKFFRDLPSGPQATGRAGYKGFYYHFLDMQKGLRYDSWVELSSVDTALLMMGVLFAQSYYDGDDPREKEIRQIADALYKRVDWAWLQQRKPLISMGWFPESGFIDHDWAGYNEAMMLYVLALGSPTHPVAPEAWSVWTRTYNNDWGVYQGQEYLSFGPLFGHQYSHVWIDFRDIQDQYMRERGIDYFLNTRRATLAQRDYAIDNPMQWKDYGENVWGLTASDGPQNTSQEYKGEQRQFRHYSARGAGLRDVFDDGTIAPTAAISSLPYAPEVVIPATVEMHKRYGDFLYSSYGFLDAFNPSFNYDIPLKTGRLIPERGWVSSDYIAIDQGPILAGIANYRDEFIWTVMKKNPYIRKGLERAGFTGGWLAPEGEQQAPPQKDEQAAAARALGIAESRAASAEAQQQDPGAGQRQQKPE				NA	NA	NA	NA	NA
BMS020_07745	2982			hypothetical protein	ATGACGCTGCATCGCAACTCCGTCGCCGCCAACAGGCCGGCACGCAAGCTCCTCACCTGTGCGCTCGCCAGCTGCCTGATGCTGTCGGCGCCAGCCTTCGCACAGAGCACCGCCGCGACCATCCGCGGCCAGGTCTCGGTCGGTTCGACCCCCGCCGCGCAGGCGCAGGTCACCGCCACCAACGTCGCCACCGGCCTGACCCGCACCGTGCAGGTCGGCGAGGGCGGCAACTACAACGTCGGCGGCCTGCCGCCGGGCACCTACCGCATCGATGTGACCGCCAACGGCCAGGCAAGTTCCCAGACCGTGACCGTGCAGGTCGGCCAGGTCGCCACGCTCAACCTCGGCGTCGACGGCGCGGGCGCTGCCGCGGCCGGGGATGCGACCACGCTCGACGCGGTCACCGTGACCGCGCCGCCGGTGCTGATCGAGACCCGCACCTCCGAGAACGCCACCTACATCTCCAACGTGCAGATCGAGAAGCTGCCGCAGGCCACGCGCAACTTCCTCGAAGTCGCCGACACCGTGCCGAGCGTGCAGTTCCGTCGCGATACCAGCGGCAACACCACGATGCGCTCCGGCGCGACCTCGGCCGATGGCACCAACGTCTACATCGACGGCATCAGCCAGAAGAACTACGTGCTGACCGGCGGCGTGTCGGGCCAGGACTCCAGCCGCGGCAACCCGTTCCCACAGTCGGCGATCGGCGAATACAAGGTCATCACCTCCAACTACAAGGCCGAGTTCGACCAGGTCAGCAGCGCGGCAATCGTCGCCTCGACCAAGTCGGGCACCAACGACTTCCATGGCAGCTTCTTCTGGGACACCACCAACGACAGCTGGCGTGAGGAAAGTCCGCTGGAGAAGCAGGCCGGCGAGCGTGACGACTTCTCCGAGACCGAGTGGGGCGCCACGTTCAGCGGCCCGATCCTGAAGGACCGCGCGCACTTCTTCATCGCCTACGAAAACAAGGAATACAGCACCCCGGCCACGGTGATCCCGGGCTCGATCTATTCCGACCGCGTCGACCAGTTGCCGAGCGAGCTGCAGCCGCTGGTGACGACCTACACCTCGCCGTTCAAGGAAGACCTGTACTTCGGCAAGATCGACTGGACCATCGGCGACAACAACCTGTTCGAGCTGACCAGCAAGTACCGCAAGGAAGACGGACTGGGCGACCTCGGGGGCACGACCACCTACGACCATGCCAGCCAGAACAGCCAGGAAGAGAAGCGTGCGAACCTGCGCTGGCAGTACAGCGGCGCCGCGTTCCTCAATGACCTGAACGTCAGCTACGAAAGCGCCTACTGGACGCAGGATCCGCTGACCGACGGCAACGGCTACGTGCTGTCGTATGCGCCGACCGCCGGTAGCGAGACCACGGTGCTGACCGCCGGTGCCGGCAGCAGCTACCAGAACAAGGGCCAGGAAGGCTGGCTGCTGCAGGACGACCTGACCCTGAGCAGCATGGACTGGCACGGCACCCACACGATCAAGATGGGCTTGAAGTACAAGGACGTCGAGCTGGATTCGACCCAGATCAATCCGGCCAATCCGCAGTACTACTACAACATCCTGACCGACACCGACACGCCCTACCGCGTGCGCTGGGGCGATACCGAGAACGGTTCGGTGGTGTCCAAGAATAAGCAGTACGGCGCCTACATCCAGGACGACTGGGAGGTCAATGAGCACTGGACCTTCAACGTCGGCCTGCGTTACGACTACGAGAAGACCCCGTCGTTCCTGAATTTCGTCACCCCGACCGACGTCGCCAGTGCGCTGCAGAGCTGGAGCAACCTGGACAACGCCAACTACAACATCGACGACTACATCAGCAACGGCCACAACCGCAAGGCATTCAAGGACGCCTGGCAGCCGCGCCTGGGCTTCTCCTACGACCTGTTCGGCGACCAGGCGCACGTGGTGTACGGCGGCGCCGGCCGTGCGTATGACCGCAACCTGTTCGACTACCTGGCGCTGGAGCAGCTCAACAACAGCTTCAAGTCCTACAGCTACTACTTCACCAGTGCGGCGAATCCGACCTGCCTGGGCTCGCCGTGCATCGCCTGGGACGACGCGTACCTGACCCAGGAAGGGCTGGACTCGCTGGCGGCGGACTCGAGCGGTGGCGGCGGGCGTGAGATCTACCTGATCGACAACAACATCAAGACCCCGTACTCCGACCAGTTCAGCCTGGGCATGCGCAACATGCTGCACTTCTGGGGCAACGACTGGTACACCGACGTTTCGCTGACCCGGATCGAGAGCCACGACGGGTTCGTGTTCCTGCGCGGCAACCGCCTGTCCGATGGCTCGTACTTCGCCGACGGCACCACCTCGGGCAATCCGACCGACTCGCCGAACGGCTACAGCACCATCGTGCTGGGCACCAATGGTCTGGAGACGCGCAACAACCAGTTGGCGTTCAAGATCGAGAAGCCCTACGACAAGGAATCGGGCTGGGGCGTCAGCCTGGCATACACGTTCTCCGATGCGAAGGAGAACCGTCAGTTCGGCGAGCATTACGCGCTGGATTACCCGTCGATGGCCGACTACGGCTGGCACCAGGCCGCCGGCATCGCCAAGAACCGCGTGGTGGCGACCGGTATCTACGATCTGCCCGGCGACGTGACCCTGTCCGGCAAGTTGTCGCTGGCCAGCCAGACCCCGCAGTACGGTTGGAACTGCGTCGACGGCGATACCCAGTGCTACATCGAGCAGTTCACCCCGAACGACCATCGTTGGGGCCTGGGCTACCGCGAGTTCAGCCTGGCGTTGAACAAGGAGTGGGATACCGGTGCGGGCATCAAGTTCAACGTGCGCGCCGACGTGATCAACGTGTTCAACTGGGTCAACTACTACAGCTACAACACCAGCACCGGCACCGCCGATGACCTGAATACCGCATATGCCAGCCCGACCGGGCTGCTGGCCCTGCCGATGCGGACGTTCAAGCTGTCGTTCGGGCTGAACTGGTGA	MTLHRNSVAANRPARKLLTCALASCLMLSAPAFAQSTAATIRGQVSVGSTPAAQAQVTATNVATGLTRTVQVGEGGNYNVGGLPPGTYRIDVTANGQASSQTVTVQVGQVATLNLGVDGAGAAAAGDATTLDAVTVTAPPVLIETRTSENATYISNVQIEKLPQATRNFLEVADTVPSVQFRRDTSGNTTMRSGATSADGTNVYIDGISQKNYVLTGGVSGQDSSRGNPFPQSAIGEYKVITSNYKAEFDQVSSAAIVASTKSGTNDFHGSFFWDTTNDSWREESPLEKQAGERDDFSETEWGATFSGPILKDRAHFFIAYENKEYSTPATVIPGSIYSDRVDQLPSELQPLVTTYTSPFKEDLYFGKIDWTIGDNNLFELTSKYRKEDGLGDLGGTTTYDHASQNSQEEKRANLRWQYSGAAFLNDLNVSYESAYWTQDPLTDGNGYVLSYAPTAGSETTVLTAGAGSSYQNKGQEGWLLQDDLTLSSMDWHGTHTIKMGLKYKDVELDSTQINPANPQYYYNILTDTDTPYRVRWGDTENGSVVSKNKQYGAYIQDDWEVNEHWTFNVGLRYDYEKTPSFLNFVTPTDVASALQSWSNLDNANYNIDDYISNGHNRKAFKDAWQPRLGFSYDLFGDQAHVVYGGAGRAYDRNLFDYLALEQLNNSFKSYSYYFTSAANPTCLGSPCIAWDDAYLTQEGLDSLAADSSGGGGREIYLIDNNIKTPYSDQFSLGMRNMLHFWGNDWYTDVSLTRIESHDGFVFLRGNRLSDGSYFADGTTSGNPTDSPNGYSTIVLGTNGLETRNNQLAFKIEKPYDKESGWGVSLAYTFSDAKENRQFGEHYALDYPSMADYGWHQAAGIAKNRVVATGIYDLPGDVTLSGKLSLASQTPQYGWNCVDGDTQCYIEQFTPNDHRWGLGYREFSLALNKEWDTGAGIKFNVRADVINVFNWVNYYSYNTSTGTADDLNTAYASPTGLLALPMRTFKLSFGLNW				NA	NA	NA	NA	NA
BMS020_07746	1011	ccpA_1	COG1609	Catabolite control protein A	TTGACCAAGAGTACGATCACCATCAAGGACGTCGCGCGCGAGGCGAAAGTCTCGGTGGCCACGGTGTCGCGTGCCCTGAATGGGCATAGCAACGTCGCCGAGCCGGTGCGCCAGCACATCCTCGAGATCGCCGGGCGGATGCGCTACAGCCCGCACGCGGCGGCGCGCAGCCTGAGCAGCCGGCATACCCAGACCATCGGGGTGGTGTTGCCGGACCTGTACGGCGAGTTCTTCTCGGAACTGATCCGCGGCATCGACGGCGTCGCGCGGGCACGCCACCAGCACCTGCTGGTCTCCAGCTACCACGGCAACCAGGACGAGCAGGGGCAGGCGCTGCGCGCGATGCGCGGACGCGTCGACGGCCTGCTGGTGCTGTCGCCGTATGCCGAACATCCGGGGTTCCTGACCGAGAACCTGCCGCAGGCGCTGCCGACCGTACTGGTCAACACGCGACTGCCGGAAGGCCAGCATCCGGTGTTGAACATCGACGACCACGGTGGTGCCGTGGCGATGACCCGGCACCTGCTCGATGCCGGGCACCGCCGCATCGCCTTCGTCGGCGGCCCCGCCTCCAATTTCGACGCGCGCGAACGCCTGCGCGGTTTCCGCGATGCGATCGCCGCGCATGGCGGCGACGCCTGCGCGATCGAGCTGCCGGGCGCGTTCGACGAAGCCTCGGGCTTCCGCGCCGGACAAGCGCTGCTGGCCGACGGGCCGCTGCCCGATGCGGTGTTCGCCGCCAACGACATGATGGCGCTCGGTTGCCTGTATGCGTTCGCCGAAGCCGGCGTGCGCGTGCCCGCCGACATCGCGCTGGCGGGCTTCGACGATATTCCGTTGGCGCGCTTCGTTCACCCGCCTTTGACCACGATGCAGGTCAGCATCGCCGAGCTGGGTGCGCAGGCGATGACGCGTCTGCTCGCGTTGATCGAGCATCCGGCCGCCGACGAACGCCGCTGCCAAACCCTCGTTCCGACGTTGATCGTGCGGCAGTCCAGCGCGATGGCGTAA	MTKSTITIKDVAREAKVSVATVSRALNGHSNVAEPVRQHILEIAGRMRYSPHAAARSLSSRHTQTIGVVLPDLYGEFFSELIRGIDGVARARHQHLLVSSYHGNQDEQGQALRAMRGRVDGLLVLSPYAEHPGFLTENLPQALPTVLVNTRLPEGQHPVLNIDDHGGAVAMTRHLLDAGHRRIAFVGGPASNFDARERLRGFRDAIAAHGGDACAIELPGAFDEASGFRAGQALLADGPLPDAVFAANDMMALGCLYAFAEAGVRVPADIALAGFDDIPLARFVHPPLTTMQVSIAELGAQAMTRLLALIEHPAADERRCQTLVPTLIVRQSSAMA	PGPT0017992_10304	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
BMS020_07747	261	bolA_2	COG0271	DNA-binding transcriptional regulator BolA	GTGAGTACCCGGCTGGAGCGGATCCGCGCGGCGCTGGAGCAGGCGTTCGCGCCGAGCGCGCTGGACGTGGTGGACGACAGCCACCGCCATGCCGGCCATGCCGGCGCCCGCGACGGCCGGGGCCACTTCAATGTGCGCATCCGTAGCGCGGCCTTCGCCGGGATGACGCCACTGGCCCGGCACCGCGCGGTCTATGCCGCGCTCGGCGAGATGATGCAGACCGATATCCACGCATTGTCGATCGACGCAGCGGCCGAGTGA	MSTRLERIRAALEQAFAPSALDVVDDSHRHAGHAGARDGRGHFNVRIRSAAFAGMTPLARHRAVYAALGEMMQTDIHALSIDAAAE	PGPT0014930_1102	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014930-bolA-K05527	NA	NA
BMS020_07748	300	yciI_2	COG2350	Protein YciI	ATGTGGTATGTGATCGAAGGTTATGACGGCGCCGAGGCCCTGCAGGGGCGCGCCCAGGCCCGCCCGGCGCATCTGGAGCGGCTGCGCCAGCTGCAGGACGAGGGGCGGCTGCTGGTGGCCGGGCCTTGCCCGGCGGTCGATGCCGCCGATCCCGGCGCGGCTGGCTTCAGCGGCAGCGTGGTGATCGCCGAGTTCGCCTCGCTGGAGCAGGCCCGGGCCTGGGCCGAGGCCGATCCGTATGTCGCCGCCGGCGTCTACGTGCGGACCGAGGTGCGTCCGTTCCGCAAGGTCCTGCCGTGA	MWYVIEGYDGAEALQGRAQARPAHLERLRQLQDEGRLLVAGPCPAVDAADPGAAGFSGSVVIAEFASLEQARAWAEADPYVAAGVYVRTEVRPFRKVLP	PGPT0014930_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014930-bolA-K05527	NA	NA
BMS020_07749	942	scpA		Segregation and condensation protein A	GTGGCGGCCGGCCAACGCAACACCGATTTCGAGCTGATGACCTCCGAACTCGCGCCCGACGCGACCGCGCCAATCCAGACGCATGCACCACAGCAGCAGGAAATGCCGCTGGCGGTCGTGCATGGGCAGCCGGTGCTGCAGATCCCGCAGGACCTGTATATCCCGCCGGACGCGCTGGAAGTGATCCTGGATGCGTTCGAAGGCCCGCTCGACCTGTTGCTGTACCTGATCCGCCGCCAGAACCTGGACATCCTCGACATCCCGGTCGCCGAGATCACCAAGCAGTACGTGGACTACATCGGGGTGATGCAGGAGCTGCGCTTCGAGCTCGCGGCCGAATACCTGGTCATGGCCGCGATCCTGGCCGAGATCAAATCGCGGATGCTGCTGCCGCGCCCGCCCAGCGTCGACGGCGAGGAAGAGGACCCGCGCGCCGAGCTGGTCCGCCGGCTGCAGGAGTACGAACGTTTCAAGCAGGCCGCCGAGGACCTGGACGCCCTGCCGCGGCAGGACCGCGACACCTCGGTGGCGCTGGCGCACGTGCCCGACCGCGCCGCGATCAAGCTGCCGCCGCCGGTGGACCTGAAGGAGATGCTGCTGGCGCTGCACGAGGTGCTCAAGCGCGCCGAGCTGTTCAGCGGCCACGCGATCAAGCGCGAGGCACTGAGCGTGCGCCAGCGCATGGGCGATGTGCTGGCGCGGCTGAACGACGGCATGTTCCGCCGCTTCGAGTCGCTGTTCACCGCCGAGGAAGGCAAGCTCGGCGTGCTGGTGACCTTCCTGGCGATGCTGGAGCTGGCCAAGGAGCAGTTGCTGGATATCGTGCAGGAAGCGCCGCTGGCGCCGATTTACGTCAAGTCGCTGGCGCTGAACAACACCAACGAACCGCTGCAGTTCTCCAGCGAGTTCGATGACAGCGACAGCGCCGACGCCCCCCTCTGA	MAAGQRNTDFELMTSELAPDATAPIQTHAPQQQEMPLAVVHGQPVLQIPQDLYIPPDALEVILDAFEGPLDLLLYLIRRQNLDILDIPVAEITKQYVDYIGVMQELRFELAAEYLVMAAILAEIKSRMLLPRPPSVDGEEEDPRAELVRRLQEYERFKQAAEDLDALPRQDRDTSVALAHVPDRAAIKLPPPVDLKEMLLALHEVLKRAELFSGHAIKREALSVRQRMGDVLARLNDGMFRRFESLFTAEEGKLGVLVTFLAMLELAKEQLLDIVQEAPLAPIYVKSLALNNTNEPLQFSSEFDDSDSADAPL				NA	NA	NA	NA	NA
BMS020_07750	873	scpB		Segregation and condensation protein B	ATGGATCAATTGCTGATCACGCGTATCGTCGAGGCCGCCTTGATGGCCAGCAGCCAGCCGCTGACCGTGGCCCAGCTCGGCGGCCTGTTCCCGGAGGAGGAACCGGCGCCGCCGGGCAGCATCGCGCGCGCGATCGAGCTGCTGCGCGAAGGCTGCGCCGAGCGTGGCGTGGAACTGGTCGAGGTCGCCTCCGGCTTCCGCTTCCAGGTCAAGGCCGACGTGCACGCCTGGGTCGCCCGGCTGTGGACCGAGCGCCGCACCCGTTACACCCGTGCGACACTGGAGACGCTGGCGCTGATCGCCTACCGCCAGCCGATCACCCGCGGCGAGATCGAGCAGGTCCGCGGCGTGGCGGTCAGCAGCAACATCATCCAGGCGCTGGAAGAGCGCGAATGGATCCGCGTGGTCGGCCACCGCGACGTGCCGGGCAAGCCGGCGCTGTTCGGCACCACCCGCGGCTTCCTGGACTACTTCGGGCTGAAGAGCCTGGACCAGCTGCCGCCGCTGTCGGAACTGAAGGACATCGGCGAGCTGGACCCGCAGTTGCCGCTGGACAAGGACGGCCAGCCGGCGGCACCGCTCGCCGCCGGCGCCGCCCTGCCCGACGACGACGCGTCCGATGCCGCGGCGGCGGATGCGGACACGGACGCGGATACAAACGCGGACGCGGATGCCACTCCAGCACCCGCAGAGGCGCGCAACACCCCAGATTCCGCCGTCGGCGACGACGGCCCCGATACCGCGCCGGGTGCACGCGCGGACGACACGAACGAAGACAACGCCGTCGCGATGACGACCGGGGCTGTTGACGAAGCCGATCCAGAACCAGAGGCCGAAGCGGATGCCGCCGGCCGGAGCCAGAACCATGAGTGA	MDQLLITRIVEAALMASSQPLTVAQLGGLFPEEEPAPPGSIARAIELLREGCAERGVELVEVASGFRFQVKADVHAWVARLWTERRTRYTRATLETLALIAYRQPITRGEIEQVRGVAVSSNIIQALEEREWIRVVGHRDVPGKPALFGTTRGFLDYFGLKSLDQLPPLSELKDIGELDPQLPLDKDGQPAAPLAAGAALPDDDASDAAAADADTDADTNADADATPAPAEARNTPDSAVGDDGPDTAPGARADDTNEDNAVAMTTGAVDEADPEPEAEADAAGRSQNHE				NA	NA	NA	NA	NA
BMS020_07751	1584			hypothetical protein	ATGAGTGACACCCCCCGCAAGCTGTCGTTGAACAAACTCTCGCTCAAGCGCGAAGCCGCCAGCGAACAGCCCAAACTCGAGGAGCGCCTGCACAAGGTGCTCGCCCAGGCCGGACTGGGCTCGCGCCGCGCGCTTGAACAGCGCATCGCCGACGGCCTGGTCAAGGTCAACGGCGAAGTCGCGCAGACCGGCCAGTCGGTGAAGAGCGGCGACAAGATCGAGCTGGATGGACGCGGCTTCGTCGCCAGCGCCCTGAGCGAGCCTTCGCGCGTGCTGATCTACAACAAGCCGGAAGGCGAAGTGACCACCCGCGAGGACCCCGAGGGCCGCCCGACGGTGTTCGAGTCGCTGCCGGTGCTGAAGGGCGCGCGCTGGATCGCGATCGGCCGCCTGGACATCAACACCACCGGCCTGCTGCTGCTCACCACCGACGGCGAGCTGGCCAACGCGATGATGCATCCCTCGTACGAGGTCGAACGCGAGTACGTGGTGCGCGTGCGTGCGCCGGAGGGCGAGGACAAGGTGCCCGACGCCGTCGTCGACCGCCTCGCCCGTGGCGTCGCGCTGGAAGACGGCCCGGCCAAGTTCGACGAGATCGAGCGCATCGGCGGCACCGACTCGCACGACTGGTTCCGCGTCGTGGTCAAGGAAGGCCGCAACCGCGAAGTGCGCCGCCTGTGGGAATCGCAGGGCTGCCAGGTCAGCCGCCTCAAGCGCACCCGTTATGGCGCCGCCGGCCTGCCGCGCGAACTGCTGCGCGGCCACTCGGTGGAGCTGCCGACCGCCCAGGTCGAGGCGCTGCGCGCCGAGCTCAAGCTCGAGGAAGGCACGCCGTCCGCGCTGACCCTGCAGCCGGTGATCGGCCAGCGTCGCGCCGCCAAGTCCACCGTGCACGTCGGCGGCGGCCGCAGCGCCGGCGCCTACGTCAACGGCCACAACACCGCCGACGAAGGGCGCGAACTGCGTCGCTTCGACAACGTGCGCGAAGACCGCGGCCGTGGCCGCGGCAAGGGCGGCGGCTTCAAGGGCGGCCTGACGGTCAGCGGCGAAGCCGCGGCCAAGCAGGCGCAGAAGCCGTTCAAGCAGCGCAAGCCGGTCAAGGGCGATCGCGGCGCCCTGCCCGAGGGCAACCCGGCGGCATTCCGCAGCTGGTACGTGCCCGATGGCGTCGACACCGGCCCGAGCGGCCACCGCAACGCCGGCCCGGGTGCCGGTCGTGGTGGTCCGGGTGGCCGTGGCGGCAATGCCGCCGGCAATCGCCGCGGCAAGCCCGGTGGCGGTGCGGGTGCGGGTGCAGGCGGCGCTGGCAGCCGTGGCGGCAACGCCGGCGGCGGCCAGGCGCAGGGCCAGCGCAAGCATCCTTACGGGCACCCGGGCAACGCCCCGAGCTTCCCGTCCGACCACGCCAATCCGGGCTACAGCCCGTACGGCGCGGCGCGTCCGGCCGGCGGCGGGCAGAAGCGTGGCCCCGGCGGTCCGGGGGGCGGCGGCCGTCCCGGCGGTGCCGGTCGCCCGGGCGGCGCCGGTCGTCCTGGTGGCGGCGGCAACCGTCGCCCGCCGGGCGGTGGCAACCGCGGCCGCTGA	MSDTPRKLSLNKLSLKREAASEQPKLEERLHKVLAQAGLGSRRALEQRIADGLVKVNGEVAQTGQSVKSGDKIELDGRGFVASALSEPSRVLIYNKPEGEVTTREDPEGRPTVFESLPVLKGARWIAIGRLDINTTGLLLLTTDGELANAMMHPSYEVEREYVVRVRAPEGEDKVPDAVVDRLARGVALEDGPAKFDEIERIGGTDSHDWFRVVVKEGRNREVRRLWESQGCQVSRLKRTRYGAAGLPRELLRGHSVELPTAQVEALRAELKLEEGTPSALTLQPVIGQRRAAKSTVHVGGGRSAGAYVNGHNTADEGRELRRFDNVREDRGRGRGKGGGFKGGLTVSGEAAAKQAQKPFKQRKPVKGDRGALPEGNPAAFRSWYVPDGVDTGPSGHRNAGPGAGRGGPGGRGGNAAGNRRGKPGGGAGAGAGGAGSRGGNAGGGQAQGQRKHPYGHPGNAPSFPSDHANPGYSPYGAARPAGGGQKRGPGGPGGGGRPGGAGRPGGAGRPGGGGNRRPPGGGNRGR				NA	NA	NA	NA	NA
BMS020_07752	600			hypothetical protein	ATGAGTGCTGTTTGGAAAGGCGTCTTTCAGGCGGCCAGCAACTTCCACCATGTTGCCGGCATTAACCGTCATGATCACAGGCTGATTGATGGCTTCGCTGATACTGGCTGCTGTCGCATATCCCTCGGCATAAAGCAGGTTGTCACCATCCTTCAGTTGGCCACCCACAACGAAAAAACTCCCCCATGCCTGGCCGTCTTTTTCAAGGTGTTTACTACCGTCGGACCAGATGCGCTCAAGGGTCCTGAACTCACCATCAGCATTAAACAGGGGGATCACAACGTTGCCCCGCTCATCAGCTTTAAGGCCGTTAGCGGCAATGACCTGTTTGTTTTTCAGGTATGCCAGATCTCCCGTGGCATCCGGAAGCCGGTTATATTCTTCCATCAACCGGTTAGCGGTCTGATCAAACTTATCCGCTTGCGCTGCAGCTCTTTGTTCACGCCTTGCCGCAGCATCAGCACGGAGCATGGCCATTTGTTCAGGGTTAGGGGCTGCGCCGGTAGATACCCATTTCTGAATTTCACCACCGTTCTTATAGTCCCTGTACCACCCTGCAGGTCGGCCATCCAGAAAGGCGGCATACACCCCCTTTCTTGA	MSAVWKGVFQAASNFHHVAGINRHDHRLIDGFADTGCCRISLGIKQVVTILQLATHNEKTPPCLAVFFKVFTTVGPDALKGPELTISIKQGDHNVAPLISFKAVSGNDLFVFQVCQISRGIRKPVIFFHQPVSGLIKLIRLRCSSLFTPCRSISTEHGHLFRVRGCAGRYPFLNFTTVLIVPVPPCRSAIQKGGIHPLS				NA	NA	NA	NA	NA
BMS020_07753	261			hypothetical protein	ATGGACATTAACAAATGGCGTTATGCAGGCCGGCCACTGACGGTTTTTGGTGTGCCTGTTATCTCGTTTCTTGTGTACTTCATCTGGTTTCCGTTCCCGTCAGTAAAAACCTTTGTGATCTGCACCTGTGTGGTTCTCTTTTACTTTCTGCTGGCCATGATGGGCTACACGTTACCGGTGCTGTACCAGGTCATTCTCCGGGTTATCCGCGGGAAAAAACTTACCGGGCGGCCGTGGTGGTACCGGCGCTCTCAGCGATAA	MDINKWRYAGRPLTVFGVPVISFLVYFIWFPFPSVKTFVICTCVVLFYFLLAMMGYTLPVLYQVILRVIRGKKLTGRPWWYRRSQR	PGPT0030280_44	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-ICM|DOT_SECRETION_SYSTEM,PGPT0030280-icmT|traK-K12222	NA	NA
BMS020_07754	1164			hypothetical protein	ATGGAAGCATTCAATTTTGGGCCAACGCTGACGCCACAGACGTTGGAACGTTTTCTCGTACACTGCTCAAACAATGAAGTGTCCGATATTCTGTTGCAGGGCGGAGATAAAATCTGGGTAGAACGTCATGGGCGCCAGTTGCCCATGACATCTTACCCGCTCGACAACCTGGAGCTGGAACGTACCGTTGATAAGGTGTTCGGTCAGGAGATCAAAGGGACGCTGAAAAGTGCTGCGGTCGTTAATACCGCTATCCAGCTAAGAGGTGATGAAGCGGGAACGATTGGACTCGGCCGCGGCGAAACCCGCCGGTTCCGCGCGAACTTTACTCAGGCCGATATTTATAAAACAGAAGCGGCAATGTCTCTGACACTCCGTGTTCTGAATGAGGTTATTCCTCAGCTTAAACAAATGGGTATTGAGCCGGACCTGTTTAATTCTCTGTTGCCGGCTGCCGGCCTCGGACTGATATGCGGCGAGACGGGATCGGGCAAGTCAACCCTGATGGCCAGCATCTTCCAGTATTGCGGTGAAACGTACCAGGATCGGAAAATCATCACGGTTGAAGATCCCATCGAGTATCGCCTGGGAAGTCGAGACTGGATTGCGCCGGCGCCGGCACAGTCACAGATTGGGCGCGATATTGATTCCTTCCACAATTTTATCACTCTCTCCGGGCTCCGTCGTTCTCCGAAGATTATGGGGGTTGGTGAGCTCCTTAACCGCCTGTCATTTGAAGCTGCTGTACTGGCAGGTAAATCCGGCCACTTTTGTCTTGGCACACTGCACGTCAAAACGGTCGGAGAAGCCATTTCCCGATCATTGCAGAACTATCCGCCGGAAATGCGTGAAGCTGCCGCCTTTGACCTGCTGAGCATCCTTTCTTACATCATCGTGCAACGCTTGCTTAAAACAAAAGACGGCCGGCGCAAGGCTGTCCGTGAATATCTCGTCATTGATAACAGCCTGCGCCGCAAACTCTATGACGTTGATTACAGCAAGTGGGGCCGCTACATCGACGACCTGTTGATCGCTGAAAACCGCAGTCTGATTCAGAACGCCTGGGTAATGCACCAGGAAGGTTTGATCGACGAAGCGGAAGTCATCGAGGTCGCAGGATATATGGACTATCTGGCGTTAAAAGAGGGCAAGTATGGACATTAA	MEAFNFGPTLTPQTLERFLVHCSNNEVSDILLQGGDKIWVERHGRQLPMTSYPLDNLELERTVDKVFGQEIKGTLKSAAVVNTAIQLRGDEAGTIGLGRGETRRFRANFTQADIYKTEAAMSLTLRVLNEVIPQLKQMGIEPDLFNSLLPAAGLGLICGETGSGKSTLMASIFQYCGETYQDRKIITVEDPIEYRLGSRDWIAPAPAQSQIGRDIDSFHNFITLSGLRRSPKIMGVGELLNRLSFEAAVLAGKSGHFCLGTLHVKTVGEAISRSLQNYPPEMREAAAFDLLSILSYIIVQRLLKTKDGRRKAVREYLVIDNSLRRKLYDVDYSKWGRYIDDLLIAENRSLIQNAWVMHQEGLIDEAEVIEVAGYMDYLALKEGKYGH	PGPT0030190_60	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-ICM|DOT_SECRETION_SYSTEM,PGPT0030190-dotB|traJ-K12203	NA	NA
BMS020_07755	780			hypothetical protein	ATGAAACTTAAACTGATCGTGCTTCTGACGTTACCGCTGCTTGCTGCGAACGTTGCACGCGCGGACGACTCCGATGTTAAAGGTCTGGATTACTACATGGACCCGCCAAGCCAAAGTGACGATGAGGCCGATGTTACTGGCAGTATGCTAAACGACGCAGCGCATACCATTGGATTTCGCGGCGGTAAGGCAGAACGCGCTAAAGAAATTCGCGCCGCGCTGGAAAATCAGCGCAGCAATCTTGATTACATGTATTCGTTCCAGCCGTTGATCTCTTCTGAAGGCTACCTGCCACCGGTCATTGCTGAAGCTAAAGACGTTGCACACATTACCAATGAGCAAATCCGAACGGCCAACCGTGCCTACGACATTGTTGTGCCGGCACGCTTTGTCAGTAACCCTCCGACCTGGAAAAGCTATCTTCTGACCGGACTGATGGCGCAGCGGATCGAATTGCCAGAGCCGGCGGCGATGCCGAAAGACGGCAAACAACGTGATATCTGGAAAAAGGCTGTCGCGCTGGGCTGGTCTGACGGCCGCCAAAAAGCTGATGAGATATTCACTGCTAATTTCAATCGCCTCACACGGGATTACACCGGCATGTTGCGCTACAGCACGCTACTGCAGCAGGGCATGATTAAGGCTCCAGTTATCACACAGCAGCAGCAAACAGTTACAGGGGATAAAAACCGTCTCATGCTGGGTGATAAAACGAAACGTATGAAGCAGCAAGCTGAGTTTGACATCAACAAACGCAGCTGGAAACCGACCATACGTTGA	MKLKLIVLLTLPLLAANVARADDSDVKGLDYYMDPPSQSDDEADVTGSMLNDAAHTIGFRGGKAERAKEIRAALENQRSNLDYMYSFQPLISSEGYLPPVIAEAKDVAHITNEQIRTANRAYDIVVPARFVSNPPTWKSYLLTGLMAQRIELPEPAAMPKDGKQRDIWKKAVALGWSDGRQKADEIFTANFNRLTRDYTGMLRYSTLLQQGMIKAPVITQQQQTVTGDKNRLMLGDKTKRMKQQAEFDINKRSWKPTIR	PGPT0030195_123	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-ICM|DOT_SECRETION_SYSTEM,PGPT0030195-dotC|traI-K12204	NA	NA
BMS020_07756	501			hypothetical protein	ATGAAAATCAAAATGCAAACGGTCCTCGCGGCCGTTTCTGTGTTAGCTCTTGCCGGGTGTGCCTCTCAAAGCGAAAAGGAAAAACAAATCTCTGCACAGCAGCTGGTAGATCAGGAATTGCGTGAGCAAGCCATTAAGATAAAACTCGCACAGGATGAGCTTTACCAGGCTGGAGCCATTAACAGGACCCGTTACAAATTCCCTACCATTATCAATGCAAACAGTCAGTATGTTCGCGTGAGCTGGCAGGGTGATGCTTACGAATTACTGGAGCAACTGGCTAAACAGCGTGGCCTTCAATTCACCAGTCAGGGGATCAAGTTACCGCTTCCACTCAATATCGATGTTGGTGGTTCGAAAGTTACGTTTGAACAGTTGCTGACCCTGATCCGACAACAAACGCAGTACCGTGCCACCATCAACCAGAAACCCGGTGAACTGCAGCTGCTTTACCTCACACCATCGAAGAAAGGTTCATTCCTCAGAGGGACCCGCCCATGA	MKIKMQTVLAAVSVLALAGCASQSEKEKQISAQQLVDQELREQAIKIKLAQDELYQAGAINRTRYKFPTIINANSQYVRVSWQGDAYELLEQLAKQRGLQFTSQGIKLPLPLNIDVGGSKVTFEQLLTLIRQQTQYRATINQKPGELQLLYLTPSKKGSFLRGTRP	PGPT0030200_27	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-ICM|DOT_SECRETION_SYSTEM,PGPT0030200-dotD|traH-K12205	NA	NA
BMS020_07757	1980	traI		Protein TraI	ATGGTGATACCTAAAATCATTGAGGGCCGAAGGGACAAAAAGTCCAGCTTTGGTCAACTGATTAAGTACATGGCAGACAAGCCGTCTCAGGAGTTGACTGATACTGTTCAGCCTACTCCTGAGACGGCTTTAGCTGTTAAATCGGATATGTTCGAAGGGTTAAACAATTACCTGACCCGTAAGCAGAAAGTGATCAGCACACCGGTGGATGTTGAGCCAGGTGTACAGCGCGTTGTGGTTGGTGATGTTACCTGCCAGTACAATACCTTCTCGCTCGATGGTGCAGCACAGGAAATGAATTCGGTTTCTCAGCAAAACACACGCTGTAAAGATCCAGTTATGCACTATGTTCTCTCATGGCCTGACTATGAGAAGCCGAATGATGATCAAGTTTTCGATTCGGTGAAGTTTACACTGGCATCTATGGGCATGTCCGATCACCAGTATGTTGCTGCCATCCACCGGGATACAGATAACCTGCATGTGCATGTAGCTGTTAACCGCATCAATCCCCAGACCTATAAAGCAGCCTCATCGAGCTTCAGCAAAGACACTCTTCATCAGGCGTGCCGCTTACTGGAATTGAAGAATGGTTGGTCCCATTCAAACGGCGCATATGTGGTTAATGACCGTCAACAGATTGTCCGGAACCCTCACAGCAAGAAAGAGCGGGGCAACTGGCGCTCACTCGATCGCATCAACAAGATGGAAAATAAAGAGGGTGTTGAAACGCTCTATCGCTATATCGTTGGTGATGAACAGATAGGCGGTAGTCGTCAAAACCTAATCCATGTTTCAGCTGGGCTTCGTGAAGCCAAAAGCTGGGATGATGTGCATAAGACATTTGCAGATATCGGTCTTCGTGTCGAAAAAGCACAGGGGAAAAAGGGCTACGTCATTACCCACGAACATCAAAACCAGAAGACGGCTGTTAAGGCGAGTCTGGTATTTAACAAGGCGCAATATACCCTGAAGTCGATGGAAGAGCGCTTTGGTGAATACCAGCCTTCACATATTGAACCGGCCAAAGTATCTGTATTTAAAACTGCATATACACCTGGTGCTTATCGACGGGATGCCAATAAGCGTCTGCAGCGTAAAATTGAGCGCGCAGAAGAACGAATGCTGCTCAAAGGCCGCTATCGCGCCTACCGGAATAATTTACCGATATATTCTCCGGATAAGGATCGCATCGCCGATGAATACCGGAAAATAGCCCAACATACCCGGTTAGTGAAAAATAACGTCCGGCATTCTGTTTCAGATCCTCATACCAGAAAGCTGATGTACAACCTGGCTGAGTTCAAACGCCTGCAGGCGGTTGCCAATCTGCGTCTTAGCTTGCGTGAAGAACGCAACGGTTTCAGGGCGGCTAACCCACGGCTTTCTTACCGGGAGTGGGTCGAACAGGAAGCACTGAAGGGTGATAAGGCAGCGCTCAGCCAAATGAGGGGCTTTGCCTATTCCTCCAGGAAGAAGGAGAAGTATAAACAGCAGCTGGTTGAGCAGATCGGGTTCAACCGTACCTTTAACGCCATCACCAGTCATGATCGTGATGATGTGGCCGTAATGGCCTCAGCACGTCATGGCGTCAAGCCACGGCTGTTGAAAGACGGTACTGTTATCTTTGAGCGCGACGGTAAACCGGTAGCGGCTGATCGTGGTCATATTGTGCTGACAGAAAGTAATGGAATCGACAAAGAGAAAACGGCTGATCTTGCAATTGCATTAACGATTGCAGGTAAAGCCAAATCTCTACGTGTTGATGGTGACGGCGAGTTTAAGGAACTGTGCTGTAATCGTATCGTCGATGCAGCTGTGAAGCATAATCACCCTGTTGCGCAGGGCATTACCTTCACAGATGCCGCTCAGCAAGCCTATGCTCAAAACGAGAAACATCGTTTGATTCGTGAGCAAAATAATAGTAAAAATGAAATGCAATTCAGAAGTGAGAACGACGACAAATTCAATCCGAAGTAA	MVIPKIIEGRRDKKSSFGQLIKYMADKPSQELTDTVQPTPETALAVKSDMFEGLNNYLTRKQKVISTPVDVEPGVQRVVVGDVTCQYNTFSLDGAAQEMNSVSQQNTRCKDPVMHYVLSWPDYEKPNDDQVFDSVKFTLASMGMSDHQYVAAIHRDTDNLHVHVAVNRINPQTYKAASSSFSKDTLHQACRLLELKNGWSHSNGAYVVNDRQQIVRNPHSKKERGNWRSLDRINKMENKEGVETLYRYIVGDEQIGGSRQNLIHVSAGLREAKSWDDVHKTFADIGLRVEKAQGKKGYVITHEHQNQKTAVKASLVFNKAQYTLKSMEERFGEYQPSHIEPAKVSVFKTAYTPGAYRRDANKRLQRKIERAEERMLLKGRYRAYRNNLPIYSPDKDRIADEYRKIAQHTRLVKNNVRHSVSDPHTRKLMYNLAEFKRLQAVANLRLSLREERNGFRAANPRLSYREWVEQEALKGDKAALSQMRGFAYSSRKKEKYKQQLVEQIGFNRTFNAITSHDRDDVAVMASARHGVKPRLLKDGTVIFERDGKPVAADRGHIVLTESNGIDKEKTADLAIALTIAGKAKSLRVDGDGEFKELCCNRIVDAAVKHNHPVAQGITFTDAAQQAYAQNEKHRLIREQNNSKNEMQFRSENDDKFNPK				NA	NA	NA	NA	NA
BMS020_07758	564			hypothetical protein	ATGCCGAACCGGATAAAATCGACCCAGGCTATTCGGGTGATTTTACATGATGCCCGGCACGATTCAATTGCTCTTCCTACCAGGCCCTTCGCTGCTGGCTTTCAAACCTCGCCGATGGTAGAATTCAATGAAGTATTTAAGTACGGGACAAGATGTGTTTTTGGAGTACCGCCGACACGCGGCGGCCGTCCAAAAACGTCTTGGTCAGGGCAAGCCCCGACACCCCCTAACGAGGTTAGCTATCTGATGAGCCGTAGCGAGAGCAGAAAAACAGACGATCGAATTCAGGTGAGATGTTCCACAGAAGTGAAAGCTAAACTCACCGAAAAGGCCCATGAAGCAGGGCTTAGTCTTAGTCAATATCTTATCAAATCTGGGCTTGGAAAGCGCATTCAATCGAAAGGGAATTACAATGCACTTGCCGCTCTTGTAAAGATAACAGCCCTTCAAAAACATTTGTTTAACGAAGGTGCCGGGGTTCATAGCAAGGAGTATTCGGAGATTCTGATCGAGGTCAAAAAGGCCGCACAGAAACTGCAACAGGAGATGGATGGTGATACCTAA	MPNRIKSTQAIRVILHDARHDSIALPTRPFAAGFQTSPMVEFNEVFKYGTRCVFGVPPTRGGRPKTSWSGQAPTPPNEVSYLMSRSESRKTDDRIQVRCSTEVKAKLTEKAHEAGLSLSQYLIKSGLGKRIQSKGNYNALAALVKITALQKHLFNEGAGVHSKEYSEILIEVKKAAQKLQQEMDGDT				NA	NA	NA	NA	NA
BMS020_07759	366			hypothetical protein	ATGCCTGCAAAAAAGAAAGCATTTTATAGCAGTGAGGACATCGGAAAATTCAAAAGCATTCTCGAAGACTTGCCTGATGTGACGTCAGAAAGGCTTGAGAAAAAGCACGTACTCGATGAGCTTAAATCTGACATTAAGAAGCTGAAAGATTCGAAAGGGTATGAAGATAAAGAGATACTGAAATTCCTCAATGATGCGGGTTTTTCAGATGTAACGTTACGCGATATCAAGGACATTACTGCCGGAAGAGTTGGAAAAAAGCGAACCAGCAATAACCGAAATAAAATCACTGGTGTTGACGAAACCCACCGCACACAAAATGGATCTACCGGTCAGAATCATGACGCTTCAGGTCCGCAGCATTAA	MPAKKKAFYSSEDIGKFKSILEDLPDVTSERLEKKHVLDELKSDIKKLKDSKGYEDKEILKFLNDAGFSDVTLRDIKDITAGRVGKKRTSNNRNKITGVDETHRTQNGSTGQNHDASGPQH				NA	NA	NA	NA	NA
BMS020_07760	141			hypothetical protein	ATGCCGTTGTGGATTATACACTATGCTGAAGATGTCGCAAACGGAGTGCAAACAAAGTCGCATCCGATGAACGCAGCGCAATGGGATCACTTCCGTTTCTGGTTGGCAGTGTTCCGGCGGATTAAAGAAGCCGCGATGTAA	MPLWIIHYAEDVANGVQTKSHPMNAAQWDHFRFWLAVFRRIKEAAM				NA	NA	NA	NA	NA
BMS020_07761	537			hypothetical protein	ATGGCGACCTTATACCCTTATGAGGTTTATACCCTTATTGTGTCAGAATTAATCGTGAGCCATTTTAATGATGTCGCTATGGTATATCCGGGAAGCGAAGAAATTAAAAAGAACTACGACAGTGAATTAAGTGCTGTACAGGTAGTTAATGGCATCAGAGAAAAACTGATTGAAGATGGTGTTATACAGTGCGAACAGTGCCCACTGCTATCCGAGTGGGATGAGAACAAGGTTATCAACCAGCTAATTAAAGATTACCGCCTGATTCTCAATCGTGACTATGAACTAAACCGTGTTCGTCAGCAGCTGGCCCCGGAGCTGATCGCACAGATAGAAAACTGGAAAGAGCAGAAGTATTCCGATTCTGCGAAGGAATACGAGGTGCTCTATGAAACCATCAACATCAACGGAAAGGAGGTTACAGGCAAACTAAACGTAGTTGCAGTAAGTCGCTTTGATGCTGTTTTCATCGTAGGGCAGCGTCACGCTAACGATAACTTTTTGGTTCTGGATGTGAAGGAGGTGATGAATCATTGA	MATLYPYEVYTLIVSELIVSHFNDVAMVYPGSEEIKKNYDSELSAVQVVNGIREKLIEDGVIQCEQCPLLSEWDENKVINQLIKDYRLILNRDYELNRVRQQLAPELIAQIENWKEQKYSDSAKEYEVLYETININGKEVTGKLNVVAVSRFDAVFIVGQRHANDNFLVLDVKEVMNH				NA	NA	NA	NA	NA
BMS020_07762	312			hypothetical protein	ATGAATATCAGTGAACAATATCGGGTGGCGGTCGTCAGTACCGGCCATGTAAAAAAAGAAGACGCGGAGCTACTGGACAAGGTCTGTAACGATGACTTGTCCGGTCAAGGTTTGTTCTGGATCGAGAAAAATCGATATGGGTGGATATTGCGTATTTCTGCTACTGAACAATGGCGAATGGAATTAACCAGGGCGGGGATCAGTGCAAGTGCTTTGGATAATATAGCCGCGCTAAATGGTGCCGGGTTCGACTGGATTTGGTTTGACCGGGATGCAGAACAGGTGCCAGAACTGACCGTTTGGGAGTGGTAA	MNISEQYRVAVVSTGHVKKEDAELLDKVCNDDLSGQGLFWIEKNRYGWILRISATEQWRMELTRAGISASALDNIAALNGAGFDWIWFDRDAEQVPELTVWEW				NA	NA	NA	NA	NA
BMS020_07763	435			Single-stranded DNA-binding protein	ATGTGGAAACGTGGCGAAAACAAAGTGATTCTGATGGGGCGTGCTGGCAAAGATGCAGAAGTGCGTTACACCCCAAACGGAACGGCCATTGCGAGCCTGACGCTGGCTACAGAAATCAGCTACAGCGACAACGAAGGGAAGGAGCAAAAAGAAACGGAATGGCATGATATTGTCATTTTTGGAAAGAAAGCCGAAGCAGCTGGGAAGTACTTCAAAAAGGGTATGATGCTGTATTTTGTCGGGCGCATTCGTAATAACAAATGGCAAGGGACAGACGGCAAAATGCGCAGCAATAAGGAAATTGTTATCGATAATAACGGCGAAATGCAGATGCTGCCGGGAGCTGGGCCACGTAACACCAGTGCAGAAGGCCAGGGAGGCATTGAAAATCATGATGAACCGCCGTTCCCGGATATGAATGATTACCCGCAGTGA	MWKRGENKVILMGRAGKDAEVRYTPNGTAIASLTLATEISYSDNEGKEQKETEWHDIVIFGKKAEAAGKYFKKGMMLYFVGRIRNNKWQGTDGKMRSNKEIVIDNNGEMQMLPGAGPRNTSAEGQGGIENHDEPPFPDMNDYPQ				NA	NA	NA	NA	NA
BMS020_07764	222			hypothetical protein	ATGAAAGAAGCAGACCAAAAAAAAGTGAATGCCGTAATGGCAATTGCTGATTATCTCGGTGTAAAAAATCAAATCGAGGTGATCGAATACTCAGCCGAATCAGTGCAGGTTGAGTGGCGAAATCCTAAAACAAAACAGCTTATTCATCGTGATTACACTTTTGCAAATTCCTTTGTAAAAGACTTTGAAAAAGCCCTGAAATCGAACGTGAAGTTTTACTGA	MKEADQKKVNAVMAIADYLGVKNQIEVIEYSAESVQVEWRNPKTKQLIHRDYTFANSFVKDFEKALKSNVKFY				NA	NA	NA	NA	NA
BMS020_07765	285			hypothetical protein	ATGTTAACACTAACTGATATTCGCGCCAGCAATACGGTGCTGGTTACGGAATTTGGCGGCGTGCGTGCTGTGCATTTCTGCCTGCACGAAAAACTAAGCGGTAGCGACAACGATCTGTGGTTTCCGCTTGCCAATGGGGCCGACCTGTTCGAGGCGCTGGAAAGCATTATGTGCATCAATTTTGCCGCTGCTAACGTTGTCTCGCTGGAGTTCCTGCGGCAGAACGGGAAGTGCAAAGACTACCGGATCACCTACAACAAGGCCAAATTCAAGCCATTATGTTAG	MLTLTDIRASNTVLVTEFGGVRAVHFCLHEKLSGSDNDLWFPLANGADLFEALESIMCINFAAANVVSLEFLRQNGKCKDYRITYNKAKFKPLC				NA	NA	NA	NA	NA
BMS020_07766	441	klcA		Antirestriction protein KlcA	ATGTCTACTGAACTGAATCAACCCGCCATCACTGCACGCATTATCCCCAATAACCGCCGCATGGCCTTCCTGCCACGCCTGTTCGGCGCCTGGTATCTCACAGGTGAGGCCGGTGTCTACAACCACGCACGCACTCTCTGCGCCGATTATCAAGGCGGTTCCTGGGAGTTCGTCGAACTGTCTTGCGGTAGCGGCTTCATGTACCCACTGAGTGCAGAGCGCTTCACGGTATCGGTTAGCGGCAACTGGTTCGAAGGGGAATTGTCCGCAGAAGCTACCGGTATCGTGCTGACCCTGTTCACCCTGAACCACATGATCTGGCACGCACATGAAGAAGGCTATCAGCACATCTGCGACATGCTGATCACCCAGCAGGAAAAGCTCAAATTATATGCCGACCAGCACGCCGAAGCCGGTTTGATTTACCGCGCGATTGACTGA	MSTELNQPAITARIIPNNRRMAFLPRLFGAWYLTGEAGVYNHARTLCADYQGGSWEFVELSCGSGFMYPLSAERFTVSVSGNWFEGELSAEATGIVLTLFTLNHMIWHAHEEGYQHICDMLITQQEKLKLYADQHAEAGLIYRAID				NA	NA	NA	NA	NA
BMS020_07767	306			hypothetical protein	ATGTCCCAGAATGAAGCCTATTATGAAACGCTGGCCCTGATTGAAAAGGGGGAATGGTGTTTCGGCAGTATGAACGAAGAGAACGAGGAGCGGGCAATCAAGGCCGCTAAGACGCTGGCGCTGTTTGCGCGCCTGAATGAGCAGGGCAGCGACGGACACCCGGTTTCCGAAATCATCGTTGATTTTATCGCTAACCTGATGCACCTGGGGGAAGCGATAAACTTTCGTGTGCTCGATGAGGAAAACACGGTGATCCCGTTAGTCAGGATCGCAGCCGTACACTTTAACGCTGAAACAAAGTCTTAG	MSQNEAYYETLALIEKGEWCFGSMNEENEERAIKAAKTLALFARLNEQGSDGHPVSEIIVDFIANLMHLGEAINFRVLDEENTVIPLVRIAAVHFNAETKS				NA	NA	NA	NA	NA
BMS020_07768	411			hypothetical protein	ATGCACGGTAACGTAAATGAAATTTGCGCAAGGCTTCTCGATAGTTTTGAACCACAGCAGCGGATCAGCCTTCTGATCTGGACTGCTGAAGATGTCCATGACTGCACCAGTGATATGAGCCTCACTGATGATGAGGCCGAAGCCGTTCTGGCAGAAATCGCGGAATGCAGTACACACAGCCGTTATGGCGTCGGGAAAGATACCGTCTGGAGCCTGGCGAAGCAGGTGCGCGAAGATGCCGCCCGCGATCGAAAGATTGAGGTTAATGCAGAAGCACTGCAAAAAGTCGTGGCACTGGCGGCGCAGTTTGTCCGGCTGGAAGAGATCCAGTCTGGCGAAGGAGCTGCACGCCGACTTTATCCGCAGGAGTCTGAGGCGCTGGACTGTATCACTCAGGCGATTAACGGCTAA	MHGNVNEICARLLDSFEPQQRISLLIWTAEDVHDCTSDMSLTDDEAEAVLAEIAECSTHSRYGVGKDTVWSLAKQVREDAARDRKIEVNAEALQKVVALAAQFVRLEEIQSGEGAARRLYPQESEALDCITQAING				NA	NA	NA	NA	NA
BMS020_07769	114			hypothetical protein	ATGACCTCTTCTGAAATCCTCCATAACCTCCCCCAGATTATCACGGCCGTGGCCGCCCTCATTACAGCCATTACCGGGCTGATTAAAGTCATGAAGGATAAGGGTAAGGACTGA	MTSSEILHNLPQIITAVAALITAITGLIKVMKDKGKD				NA	NA	NA	NA	NA
BMS020_07770	231	ymoA		Modulating protein YmoA	ATGGCGGAAACAGTTTATCAGGCGCGGAGGCGTTTCTACCTGCTCCGTTTTCGGCGCAGCCGTAACCCGGACACACTGGAAAAAATGTATGAATCCATGCGGGATCGTGGACAGGTGCCGCCGGAGGACACCGAGGCTTTTGAGGCTGCCGCCGACCACCGCCGCGCAGAGCTGGCATCGGGGCGCATCTGGGATAAGATCCCGCCGCATGTCTGGCAGTATGTAAAATAA	MAETVYQARRRFYLLRFRRSRNPDTLEKMYESMRDRGQVPPEDTEAFEAAADHRRAELASGRIWDKIPPHVWQYVK	PGPT0027510_14	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-Hha-TomB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027510-toxin_hha-K05839	NA	NA
BMS020_07771	339			hypothetical protein	ATGGCTATTCAATCCCTTCAGTTCCGTAACGGCTCCGTTTCTCTTGGTGATGTTTTTGTTTCCAGCTGGGGTTATGAGCAGACAAATACCTGTTTTTATCAGGTGATCGCCCTGCGTGGTAAGAAAACCGCCGTACTGCGCCGCATCGCTGCGCAGCAGGTGAAAGCAGACAGTGCGATGTCTGGCGAGTTAAAGCCGGTATTGAACGACTTTAAAGGCGAACCCGTGACCCGACGCATCCGTGAAAACCATGAGCATCCGTCTGTCAGCATTGACGAGTACGAACAGGCTTATAAGACCGATCCTAACGAAAGCCATTTTTACAGCACCTGGGGCTGA	MAIQSLQFRNGSVSLGDVFVSSWGYEQTNTCFYQVIALRGKKTAVLRRIAAQQVKADSAMSGELKPVLNDFKGEPVTRRIRENHEHPSVSIDEYEQAYKTDPNESHFYSTWG				NA	NA	NA	NA	NA
BMS020_07772	861			hypothetical protein	ATGTCATCTAAAAATACTCTCCCGTCGGTCGATCTGATGTCCTGCCAGCATGGCGGTGAAGTGATCCCATCCATTGCTATTGAGCGCATCATCTCGTTGCGGGATGAAGGTATCCGCGTCTATCTCGACGGCATAGACAAGCTGCGAAAAGCGCGCGATCTGATGCAGCAGGCCGGAGGCTGTCAGTACCTGTATGACTACGACAAAGCCGTAGAGAGTGCCATCAAATGGAGCGACACCACGCCAGATCAGGCCGAAACGGCTATTTCCCGCGTTATCGACGGAAAAATCTGGGATCGGCTGATGACGGAAACCGGTATGTATACGCTGATGAGCAACAAGCAGCGTCAGGAATGGGATCGGCAGGTGGCAGGCAAAGAAATGCCGCCGATAACGCTGGATAACGTTATGAGTACGTTCCGGCACCTGAACGCAAGCAAGGCTGATACTTTCACGCAAGGGCTGATTGATATCTTTAAATCCCTGTCGTGGGATTATAAAACCAATAACCCCTGCATGTTTGGCAAGCGTATCATCATCGCGCCGTTGCTCGATGTCTGGCGCAGTGGCTGGGTGCGCTTCAGCTCAGACGGGCACACCAAAATTGACGATCTGGCGCGGCCGTTCTACGTGCTGGACGGGCGTAACGTGCCTGATTACCGTGTTTCTGACGGTGCCAGACTGGATGCCTTTTTCAGTGAAAACCAGTTCAACGGTAAGGTGTTCGAGTGTGAATACTTCAGCGTGCGATATTACAAAAAGGGCAGCGCACACATTACGTTTAAACGCCCGGATCTGGTTGAGAAGATCAATAATCTGGTTGCCAGTCACTATCCTGGGATGTTACCCCCTCGCGTGTAA	MSSKNTLPSVDLMSCQHGGEVIPSIAIERIISLRDEGIRVYLDGIDKLRKARDLMQQAGGCQYLYDYDKAVESAIKWSDTTPDQAETAISRVIDGKIWDRLMTETGMYTLMSNKQRQEWDRQVAGKEMPPITLDNVMSTFRHLNASKADTFTQGLIDIFKSLSWDYKTNNPCMFGKRIIIAPLLDVWRSGWVRFSSDGHTKIDDLARPFYVLDGRNVPDYRVSDGARLDAFFSENQFNGKVFECEYFSVRYYKKGSAHITFKRPDLVEKINNLVASHYPGMLPPRV				NA	NA	NA	NA	NA
BMS020_07773	180			hypothetical protein	ATGAGTAAAGCACTGACCCCCTCCCAGCTTAAAGCTGAACTGGACACGCAGAAAGATGCGCTGCTGAAGGCGTGCCTGTATGCCCTCAACGAAATCCCTAACCGCCGTTTAAGTGGTCCGTATCAGTCCACGTATGCGCTGGCTGCAAAACTCGATCAACTGCTTCAGAGCTGCAAATAA	MSKALTPSQLKAELDTQKDALLKACLYALNEIPNRRLSGPYQSTYALAAKLDQLLQSCK				NA	NA	NA	NA	NA
BMS020_07774	1284			hypothetical protein	ATGAATACTGATAACTATTTTTTCAGAGTACCGGCCACACGCGGAATACAGGGCGGCATAGAACAATACATGCTGACGGTTCCTATGGTCGTGTTACGTCGTATTCTTGCAATGGACAATGATGGCGATGTTATGGATCGCAGCCAGCGAGAAGCGAACAAAACGCGGGCCAAAAAAATACGGAATTATGTTGCCGGCGCAACATCAAAACGAGCTCCCTATATTTTGCCGTCAATTACCGGAAATATTGATAGTCATGTTGAATTCCTTCCCAGCGAACTCTCGCCGGCAGTGGGGATTCTTAAAATTCCGATGGACGCTGATTTAAAATTATTCGATGGTCAGCACCGTGCGCTGGGTATTTTTGAATTTGTACGCGATTATTCCAATACGGAAGATACGATCAGCTTGTTGCTTACCGTTGGCCTGCCACTTGAGTTACGCCAGCAGTTTTTCGCTGATATTAATAACAACGCGAGCAAACCGGCAGCGGCGATCAGTATGGCATATAACAACAATGATCCGGTCAACCAGCTGGCAATGCATCTGGCTCGTACCGTCACCGGGCTGGCGGGCACAGTGGATTTTGAACACAACGTGGTCCCGGCGAAAAGCTCACGGCTGATCAGCTTTAAAGCACTGAACGATGCGACGAAAAAAATGCTCAACCTGCGGACCAACAGCATTCCCTCGACGCAACAGCGTGATATGGCAGAAAAGCTCTGGACTGCCTGGGCACAGGCGATGCGCTGGAATGATATTGCCCAGGATGATATCGCTGCGGAGTACCGTCAGGAGGCGCTGGGACTGCATGGCATCATGATAAATGCGATCGGTATGGCAACGGCCAGGATGTTACGGCACAGAACACCTGAAAGCATCGAGAACCTTCTGGCCTGTGCGGAAAACGGTGACAACGGTTTTCATTATCGGGAGTCGTTTGTACCTGAGTGCTGGGAAGGGAAGTGTGTTGATCCGGAGACTGGCACCATTAAAACTGACCGGCGGGCGCTTGAAGCAACAGCTGAAGCGTTGCAAAAGCTGATAGACCCGTTCGCAGATGCGCTGTGGTTGCGTGCTTATCTGCCAGCTGAAGAGGCGAGTGATACGGCATTACTGAAATATGCTGCTGACATCGAGAGTTATAAGCAGCGCACAGCCGTGCCGATGATCAATATCGTGGAGAAGCTGAAGGCGCTGGGTGACGGCGAACCGCAGTTCAGAGCGTCGGTGCTGGCTTCCCGTGAGGGGCTAAGCCGCTATCTGGCCGGGGCTGAAGGGTGA	MNTDNYFFRVPATRGIQGGIEQYMLTVPMVVLRRILAMDNDGDVMDRSQREANKTRAKKIRNYVAGATSKRAPYILPSITGNIDSHVEFLPSELSPAVGILKIPMDADLKLFDGQHRALGIFEFVRDYSNTEDTISLLLTVGLPLELRQQFFADINNNASKPAAAISMAYNNNDPVNQLAMHLARTVTGLAGTVDFEHNVVPAKSSRLISFKALNDATKKMLNLRTNSIPSTQQRDMAEKLWTAWAQAMRWNDIAQDDIAAEYRQEALGLHGIMINAIGMATARMLRHRTPESIENLLACAENGDNGFHYRESFVPECWEGKCVDPETGTIKTDRRALEATAEALQKLIDPFADALWLRAYLPAEEASDTALLKYAADIESYKQRTAVPMINIVEKLKALGDGEPQFRASVLASREGLSRYLAGAEG	PGPT0027765_24	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-SULFUR_MODIFICATION_PROTEINS,PGPT0027765-dndB-K19169	NA	NA
BMS020_07775	267			hypothetical protein	ATGGGCAATAAATATACCGTGCCGCTTAACGTGGGCGCGATCCGCGAAAGCTGTTTCCGTCCCGCTGATAAATGGACCCCGCCGACGGGGGATGAACTCCGCTATCTGCTGGAAAATGTGCTCAACCTGAGTCAGGAGGGGCTGGCGCGACATGTTGGCGTGAACGGCAGAACGGTGCGCCGCTGGGTGAACGGAGAAAGTGACATCGCGTATTCCGTCTGGTGCGTCCTTTGCATCGATGCCGGCTTACCGCCGATCTGGAAATAG	MGNKYTVPLNVGAIRESCFRPADKWTPPTGDELRYLLENVLNLSQEGLARHVGVNGRTVRRWVNGESDIAYSVWCVLCIDAGLPPIWK				NA	NA	NA	NA	NA
BMS020_07776	450			hypothetical protein	ATGAAATTTTCAGCAGAAGAACTCAACATTATCCGCCAGGCGGACGCCATTATTGCCGGTAAAATTACCACAACGGATTTTATCACCGGCGCCGACGCCGCGCGTTCCTTACTGCGGTTTCGTCTTGCTGCAGAACCACGCGAATCATTCTGCGCGTTCTTTCTTAACTGCCACAACGGCGTGATTGCGTTTGAAGAACTGTTTAAGGGAACTATCAGCAGCGTCACCGTTCATCCGCGTATCGTTCTGCAACGCGCCCTGCATCATAATGCCGCCGCCGTGGTACTGGCGCATAACCATCCTTCCGCTAACACTGCACCCAGCCAGGCTGACAAGCTGATCACCGAGCGTCTGGCGCAGGTGCTGGGGATGGTTGACGTCAAAGTCCTTGATCACCTGATTGTGGGCGGCAGCGATATTTACTCTTTTGCTGAACATGGTCTGATTTGA	MKFSAEELNIIRQADAIIAGKITTTDFITGADAARSLLRFRLAAEPRESFCAFFLNCHNGVIAFEELFKGTISSVTVHPRIVLQRALHHNAAAVVLAHNHPSANTAPSQADKLITERLAQVLGMVDVKVLDHLIVGGSDIYSFAEHGLI				NA	NA	NA	NA	NA
BMS020_07777	363			hypothetical protein	ATGACCATGCAATCAGAACTTGTTTTTACTGATCCTATGCTCAACGTCGTTATTGCTGAAGTTAAGCGTTTTAATTGCCCGCTTCTTTTTGTCAAAGATCATGGCGTGTATGTGATGGCGGCGAAAGGTGAGAAAAACAGTAATGGGATGCACAATGTCTGTTACGCCAATGGTTTTAATCCGGATACAACGGATTTTGACGAGCTCTGGGACCGGATGCGTGATGCCTGTGGCGGAGATGATTTTTGCGAATCCCTGGACCTCGATCCGAGGTCGATTGAACTTCTCAGCCGTACCAAACCCTGCCTGAAAATTATGCTTTCAGAGACGGAACTGGAAGTTATTGCAGGGGGACAGAAATAA	MTMQSELVFTDPMLNVVIAEVKRFNCPLLFVKDHGVYVMAAKGEKNSNGMHNVCYANGFNPDTTDFDELWDRMRDACGGDDFCESLDLDPRSIELLSRTKPCLKIMLSETELEVIAGGQK				NA	NA	NA	NA	NA
BMS020_07778	264			hypothetical protein	ATGACTGCTCTCAATTCTCAGCAACAGGCTGATGTTGCCCGCTATATCCGGGAACATGGCAATAAAACCGTTATTTCCCCTGAATGGTCACTTATTTATTTCTCGCTGTGTCAGTGTGAATTACATCAATCGCATGAAGCCATTATTTTTCATAATGGCCGACCTGCAGGGCTATTTCTTCTGAATGAAACAGGCGAGCTCACCGAATTATATCTGCTGGGGTCGCTTTCTGACATTCTCACCGCCGCTGCGGTCAACAAATAG	MTALNSQQQADVARYIREHGNKTVISPEWSLIYFSLCQCELHQSHEAIIFHNGRPAGLFLLNETGELTELYLLGSLSDILTAAAVNK				NA	NA	NA	NA	NA
BMS020_07779	411			hypothetical protein	ATGTTCACCACACGCCGAATGTTAATGCTGTATGCCGGCCTTGTGCCCGTAGCCCTGACAGGGTGTGATCTGGCTGGCTATTTCCCGAATGTGTCACAGCCCGTGCCCGTGATTTCGCCCGGTTATCAGGTTGACATCGATGGCCAGCCGGTCCGGATATCGGGATTTGACGACTGCCCGCGGGAAAAAGATGAAGCCCGGCACGCAGCTGCAAGGGATGAGAAAGGCTGCATTGTGCTGTCTGCAGAGCGTTCCGAGGTGAAGGTCAGACTGTATCAGCCAGCCGGCGCCGTCACCGAAACCTGGCGGATCATCCGGGAAAAAGACGCTCGCCAGAACGATATTATTCGCCTGCAGCGCCCGAACGGTGCGTTTGTGATGCAAAATTTACAGGGGAAAGAGTCTCCTTAA	MFTTRRMLMLYAGLVPVALTGCDLAGYFPNVSQPVPVISPGYQVDIDGQPVRISGFDDCPREKDEARHAAARDEKGCIVLSAERSEVKVRLYQPAGAVTETWRIIREKDARQNDIIRLQRPNGAFVMQNLQGKESP				NA	NA	NA	NA	NA
BMS020_07780	480			hypothetical protein	ATGATTAAGATGGTTAGTGTCGTTCCGCAGCCGGAAACAGTGAAGACGCTCCGGGAAAAAATGGGCATGACTGAAACCGCATTAGGGGCTGTCATGGGGTACGAACTGCGCGCCTGGCAGCGTAAGGAAGCCATCAGCGACGATCTCAGCCAGTACAACAAGACCAGTCTTCGCCCAGGTGAATATAACATGCTGATGCTGATCGCCGGCGTGCATCCTGATTACCGCCTGAACAGGGCATTCAGTCCGGATGATATGGTCAAAGATCCCGCCACGGCCGAAGACGTTCGCCGCCTGCGTCTGGCGCTGGGGCTGAAGCACGCTGAAATTGCAGCGCTGTTTGGCTATAAACCGGCGTCATGGCAGACCAAAGAGAAGGCCGCACAGCGTGGCGTGAAGCTCAAGACCGGGGAATACAATTTCCTGTTACTGCTGGCCGGTGAACATCCTTCACTGCAGCTGGTTGAGAAGGTGAAATAA	MIKMVSVVPQPETVKTLREKMGMTETALGAVMGYELRAWQRKEAISDDLSQYNKTSLRPGEYNMLMLIAGVHPDYRLNRAFSPDDMVKDPATAEDVRRLRLALGLKHAEIAALFGYKPASWQTKEKAAQRGVKLKTGEYNFLLLLAGEHPSLQLVEKVK				NA	NA	NA	NA	NA
BMS020_07781	507			hypothetical protein	ATGCAATCATTCCCCCTGTTCGTTTCCCGTGTCGTACCGGTGATCACCAATGGCCATTGCCTGCGGCAGCGGCGCTGGTCCCTGTACAACACGTCATGCCAGATTGACCTGAGATCAGGAAGTCACCTGCGTTCACGGCCTGTCTGCACGCTATCCAGACGGGAAATCAGCAACCGGCCACCGGCTATGCCCCGCGGTTACTGGTTCAGGCACTGCAGCCGGGATGTCATGTTTACGGGGCGCATCGATCAGGCAGAACATATGAAACAGGTCTATTACAACGAAGGCTGGAGCGGTCCGAACAAGTACACGTTTGAAGTCTATCAGCTGGAGAACGGGAGTTACCGGGCGCTCGCCCGCAAATGGAATGGCAAAATCAACAAGGTGCAGCAGGAAACGCAGTACCTGTCTGACACGCGGGAGGGGCTGAAGCACCAGGACTATCCCCGCACACGCCAGGTGAAAATTTTTCTGAATTCGGACTTCTGGGAGAAGGGTAATGATTAA	MQSFPLFVSRVVPVITNGHCLRQRRWSLYNTSCQIDLRSGSHLRSRPVCTLSRREISNRPPAMPRGYWFRHCSRDVMFTGRIDQAEHMKQVYYNEGWSGPNKYTFEVYQLENGSYRALARKWNGKINKVQQETQYLSDTREGLKHQDYPRTRQVKIFLNSDFWEKGND				NA	NA	NA	NA	NA
BMS020_07782	564			hypothetical protein	GTGAAAAAATATTTACTGTTAACACTGACCCTCATCGCCGGCACCGTGACAGCAAACCCGGTAACAGCGGCCGGCAATATTGCCGGCAATGTTCAGGTGCAAGCTGCGACTGAAGTGAAAACCGGGTTTTCACCCGGCGGGACCGCATTAAATCTGGTTCTGGATTCAATCGACCACGCGCAGCATGAGATTCTTGTTGCCGCGTACAGCCTGACCAGTCGTCCTGTTGCCGGCGCGTTGCGTGCCGCAAAAAAACGGGGCGTATCGGTGGTGGTGGTGGCCGATCGCAAAGCGAACGACAACCGGTACACCGAAGTGAACTTTCTGGCCAATAACCGCGTGGCGGTGCGGATCAACGATAACTACGAGGCCATGCATGATAAATTCATGGTCTTTGACCGCCGCGCCGTCTTGACCGGATCGTTTAACTTCAGCGCCAGTGCAGACAGTCGTAATGCGGAAAATGTGGTGCTGATCAGCGGCGCGCCTGCAGTAACTGAAGCCTACGTGAACGAGTTTTCCCGTTTATGGGGCGAAGGAAAGGACGTGGCCCCACGGTACTGA	MKKYLLLTLTLIAGTVTANPVTAAGNIAGNVQVQAATEVKTGFSPGGTALNLVLDSIDHAQHEILVAAYSLTSRPVAGALRAAKKRGVSVVVVADRKANDNRYTEVNFLANNRVAVRINDNYEAMHDKFMVFDRRAVLTGSFNFSASADSRNAENVVLISGAPAVTEAYVNEFSRLWGEGKDVAPRY	PGPT0029925_264	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029925-virD4|lvhD4-K03205	NA	NA
BMS020_07783	444	stbB		Protein StbB	ATGACTGATAACCGTAAGTGCTCGTTTTATATCTACCCGGAGCGCAATGCGGCGGACCGGGTAGCCGACGGCTTTCTTGAGAAACTGCCTCAGAAAGAGCGTGGCCGCGCGATGCGCGCCATGATGCTCTGTGGTGCCGCGTTGATGAAGCAGGACGAACGCCTGCCGTTCCTGATCGCTGAATTTCTGACGGAGAGCACCTCGATGCAGGATATTCAGCGGATCATCAGCAGTACGCTGCCGCAGCAGGATACAGGAGAAATGGCGCGTCTGGTTGAGGCGTTTCTGCAGGCCACCGGCGGTGGCAGCAATACGGTGTCGCCGGCAGGCGGCGCTGCGCCGGAAAACAGTCCCGCCGTGACTCCCGAACCGGCAGCACCGGAGGATAAGAATCTGGAAGAAACCCGTAAGAACGTCCAGCATCTGTTCCCGGATGATGATTAA	MTDNRKCSFYIYPERNAADRVADGFLEKLPQKERGRAMRAMMLCGAALMKQDERLPFLIAEFLTESTSMQDIQRIISSTLPQQDTGEMARLVEAFLQATGGGSNTVSPAGGAAPENSPAVTPEPAAPEDKNLEETRKNVQHLFPDDD				NA	NA	NA	NA	NA
BMS020_07784	975	parM_2		Plasmid segregation protein ParM	ATGCGTATTTTTGTTGACGACGGTTCCACCAACATCAAACTGGCCTGGATGGAAGACGGTGCGGTCAAAACGTTGATCAGTCCGAACAGCTTCAAGCCCGAATGGTCCATGACGTTGCTGACAGATTCATCAGTGCCGGCTTCCGCCAACTATGAAATTGACGGGGAAAAGTACAGCTTTGACCAGCTGAGCCCGGATGCCGTGCGCACCACGGAAACCCGCTATCAGTACAGTGATGTGAACGTTGTCGCTATCCACCACGCGCTGATGCAGTCCGGCATTGAACCGCAGCCGGTTGACATTGTGGTGACGCTGCCGCTGGGCGAGTACCTGGATGAGAACGATCAGCCTGATATGGCCAACATCGAGCGGAAAAAAGCGAACGTGAAGCGCGCGGTGGCCGTTCAGGGGCGTGAGAGCTTTACCGTGCGTAAAGTCAGTGTACTGCCAGAATCGGTCCCTGCAGGCTTCAGTGTGCTGAAGGATCTGGACGATCTGGACTCCCTGCTGATTGTGGATATCGGTGGAACCACGCTGGATATCGCGCACGTTCGCAGCAAAATGTCCGGCTTCACCAAGACGCATTGCGATCCTAAAACCGGCGTATCCATCATCACCGAAGCCGTAAAACATGCACTGGATACCAGCGTGAGCACCCGTACCAGTTCGTATTTTGCCGACCGTCTGATCCAGGCGCGAAATGACGAAACGTTTCTTTCCCGTTACCTCCAGAATGCTGACCAGCGGGCCCAGGTGATGAAGGTACTGCATGAGCGGGAAAAAGCCCTGACGCACCGTGTCACCGATTCAGTTGGCCGCTTTGCCGGCTTCACGCACGTCATGGTTGTCGGTGGCGGCGCCAGCCTGGTGGCCGGCGCAGTGAAGCAGGCCACGGGGGTGAGTGACGATCGTTTCTTCGTCAGTGATAACCCGCAGTTCGATCTGGTTCTGGGTATGGTGGCAATGAAGGGCTGA	MRIFVDDGSTNIKLAWMEDGAVKTLISPNSFKPEWSMTLLTDSSVPASANYEIDGEKYSFDQLSPDAVRTTETRYQYSDVNVVAIHHALMQSGIEPQPVDIVVTLPLGEYLDENDQPDMANIERKKANVKRAVAVQGRESFTVRKVSVLPESVPAGFSVLKDLDDLDSLLIVDIGGTTLDIAHVRSKMSGFTKTHCDPKTGVSIITEAVKHALDTSVSTRTSSYFADRLIQARNDETFLSRYLQNADQRAQVMKVLHEREKALTHRVTDSVGRFAGFTHVMVVGGGASLVAGAVKQATGVSDDRFFVSDNPQFDLVLGMVAMKG				NA	NA	NA	NA	NA
BMS020_07785	741	xerC_4		Tyrosine recombinase XerC	TTGAACACTTTCCCCCTGCAAATTTCTCAGAATTCACGTAGCGACGCCATCGGGACCGGGCGCGTGACATATGCCTACTTCGATTATGCCGATGCGCTGGCGCTGCGGGAGATGGCCAGCCAGGCTGATTTACCCAAATACCTGCTGGCCCCGGAGGTGTCGGTGTTTCTGCGGTATGTGCCAGACCTGCGCCAGCAGGTCCTTTTCGATACCCTCTGGAACACGGGCGCGCGTATTAATGAGGCGCTGGCGCTGACCGGCGCCAGCTTTCAGCTTGACGGTTCCCGGCCGTTTGTCCGGCTGAAGACGCTTAAACAGCGTCAGCGTGGTCGCGGCAGGCCGGGCAAGGATGAAGAGGTGTTCCGTCTTGTTCCTCTGACCGATCCTCAATATGTCAGGAAGGTGCGTGAATTTCTGACCACCCTGCGTATTGGTAAACAGCAGCTGCTCTGGCCGGTGCAGAGTGATAACACGCCGCGTAACTGGATCAGGAAGGCACTGGACCTCGCAAAACGTGACTCTGTCACTTTTAGTATCCCTGTTACCTGCCACACGTTCCGGCACAGCTTCTGTATGCACCTGATCCAGCATGGGGTTCCGCTGAAAGTTGTACAGGCTTATGCCGGGCATTCCCGGCTGGAAACCACAGAAACCTACACGCGCGTGTTTGCGCTCGATGTCGGCCGTCAGTATGGCGTCCGGTTCAGCCTGCCAGACAGTCATCTAACGCTTCCGGAATAA	MNTFPLQISQNSRSDAIGTGRVTYAYFDYADALALREMASQADLPKYLLAPEVSVFLRYVPDLRQQVLFDTLWNTGARINEALALTGASFQLDGSRPFVRLKTLKQRQRGRGRPGKDEEVFRLVPLTDPQYVRKVREFLTTLRIGKQQLLWPVQSDNTPRNWIRKALDLAKRDSVTFSIPVTCHTFRHSFCMHLIQHGVPLKVVQAYAGHSRLETTETYTRVFALDVGRQYGVRFSLPDSHLTLPE				NA	NA	NA	NA	NA
BMS020_07786	249			hypothetical protein	ATGAGTGGATTGAAAGGCCGCCGAATCAGCGCGGATATGTTTGCTATGATGTTAAAAGTACCTGTCGGGGAGCTGGTTTTTGCCGCCCGACACAACCAGCCGCTACACGGACAGGCGCTACCTCCCTACGGGATCGGCGGCGGGAAAAGCTGGAGCTCGACCGCTTCCACCCGCAGTATGACGTTTGATATGCAGGAAGCGGTCGATTTCAGCGAGAAATTTCATAAAATTCAGTCGCCTGACGGCTGA	MSGLKGRRISADMFAMMLKVPVGELVFAARHNQPLHGQALPPYGIGGGKSWSSTASTRSMTFDMQEAVDFSEKFHKIQSPDG				NA	NA	NA	NA	NA
BMS020_07787	486			hypothetical protein	ATGAAATTCAAAGGATACGTCGCCGCCCTGCCGGCACTGCTGCTGACAGGGTGCGCCATGCTCCCCGGCCAGCCCACCGATTATGACCGCTTCTGTAACGTCTCAGGCATCGCCAGCCACGGCGAAACCTACCGTGTCAGTGACAGCCAGGATTTCTGGTTAACCCCGAACGGCCGCTATCTCAGCCAGGCTGAGTACAGCAGTCCGGCAGATACGCTTCAGAAACTGACGGGTGTGGTCAGTGGTGAAGATCCTGACCAGGTGCGGAAGAACGCCGTCAGGGTAAGGGTGTTCCGCGTCGAGAGTGAAAACAGCCATAAAGGTGCGTGCCTGCCTGTGCGTTATGACGATAATGGCGCACAGCGTAAAATGGATTCACTGACTAACGGCCGCCGTATGGTGGTATTCAGTGAAGATGAAGGTCAGTCTGGTCAGCAGATTTACAACAAAAGTCGTGGTACAGGATTCAGTTACAGGTTGTTATGA	MKFKGYVAALPALLLTGCAMLPGQPTDYDRFCNVSGIASHGETYRVSDSQDFWLTPNGRYLSQAEYSSPADTLQKLTGVVSGEDPDQVRKNAVRVRVFRVESENSHKGACLPVRYDDNGAQRKMDSLTNGRRMVVFSEDEGQSGQQIYNKSRGTGFSYRLL				NA	NA	NA	NA	NA
BMS020_07788	588			hypothetical protein	ATGAATGAGTCCATCCATGTTGTCGGCTCTTTTATCCTTGCGGGTATCCTGCTGTATGGCCTCTGGCTGGGTACACGGCGACGCCGGCGCCGGCACGAACGGAAACAGGCCAGTGCGGTACGTGTGATCGATAAAATTAATACGTTTCCGTATTTCAGGCAGAAAATTGCCTATCTGCGCAAGATTGACCCGTTTGTGTTCGAAGAGCTGCTGCTTGAAGGCTTTGAACGCCGGGGCTTTGAAGTGATCCGTAACCGCCGGTATACCGGTGACGGCGGGATTGATGGCCGTGTGAAGATTGATGGCCAGACCTGGCTTATCCAGGCCAAACGCTATACCAGCTATATTGCCGTTGGCCACGTCCGTGACTTCAGCGACCTGCTGAACGCCACCGGTGCCCGCGGTTTTTTCTGCCATACCGGCAAAACGCGCGAAGGCACCAAATCGCTCATTCGCGGAGACAGCCGCATGATCCTGGTCAGTGGCCAGAAGCTGCTAGACCTTATTGCCACCGATGCGCCGTTTATCCCGTATCCGGGATACCGGCCACCGGCCGAAATGGTTCATCCTGAACAGGAGACAACATGA	MNESIHVVGSFILAGILLYGLWLGTRRRRRRHERKQASAVRVIDKINTFPYFRQKIAYLRKIDPFVFEELLLEGFERRGFEVIRNRRYTGDGGIDGRVKIDGQTWLIQAKRYTSYIAVGHVRDFSDLLNATGARGFFCHTGKTREGTKSLIRGDSRMILVSGQKLLDLIATDAPFIPYPGYRPPAEMVHPEQETT	PGPT0027250_1938	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_IV_R-M_SYSTEM,PGPT0027250-mrr-K07448	NA	NA
BMS020_07789	249			hypothetical protein	TTGACCGGCTTTGACTTGATCCTGTGGCGACGGGGCCTGAACTGGACCCAGGAACGCGCCGCGGCTGAGCTCGGTATCAGCCGTACCAGCCTGGTAAAATATGAGGACGGTGAGACAGTACCCCGGACCATACAACTTGCCACCGTCGCGCTGACGCTGAAAGCGGAATGGCCCACCCTGAAAACCATGAGCAAAGACAGGCTGCTGCGGCAGCTGAAGTATGAAGTGCTGAGGATCGATAATGAATGA	MTGFDLILWRRGLNWTQERAAAELGISRTSLVKYEDGETVPRTIQLATVALTLKAEWPTLKTMSKDRLLRQLKYEVLRIDNE				NA	NA	NA	NA	NA
BMS020_07790	462			hypothetical protein	ATGATAAAGAAACCACTTATTGCCGGCATCATGCTGGTTGTGGCACATACCGCCGGCGCTGCGCAGGGTGATGATACCAATCTGCAGCAGATTTATACCGAGGCGGGCATTCAGGGGATATGCAGCGCCGGGATGCTGGCTGTGCCGGAAGGGGCCAGGGATGAAGTTGTCCCGCAGAACGTCAGACACCTCCTGGCTCAGTGTGCCTATTTCGACGAGCAGCAGTTGCGCCGGCGTGCCGGCCTGCCGGCTCAGACATTTAGCCACTGGCGTGACCGCAATGCGGTCCTTAATCTGTCGTCTGACCAGGTATCTGATGCGCTCTGGCTGTCAGCGTGGCGTGATTTCCGGGCACAACTGGCCTCGGCCTACCCGGCCCCGGCGGAAAAAAAGGCACAGGGGAAAGAGGCCGTACCCGCCGGCACGAAGCCCGGCACTGAGCATGGGAGTGCGGCGGATTGA	MIKKPLIAGIMLVVAHTAGAAQGDDTNLQQIYTEAGIQGICSAGMLAVPEGARDEVVPQNVRHLLAQCAYFDEQQLRRRAGLPAQTFSHWRDRNAVLNLSSDQVSDALWLSAWRDFRAQLASAYPAPAEKKAQGKEAVPAGTKPGTEHGSAAD				NA	NA	NA	NA	NA
BMS020_07791	546			hypothetical protein	ATGGATATCAACTACTACGATGAACATCAGGAAGAATTTGAGGCGGTTAAACTGGCGCTGAAGGGTGAAATGGAAAGGATCTGGGGTTCCATGCTGAAAGAAAGCGGGGATAGCCTGGATGATGAAGCCACGTACCTGAACCTGTTTGAAGAACTGCAGTACACCTTCTCTCCGTCCAGCTTCAGTAAGCTCACCCCGTCGCAGGATCTGGATGAAGATAAAATAGCGGCCTTTGTGGCCAGAACCCGCGGCTATAAGCACGGCATCACGATCAAATGCCGGCCGGGTCGCCCGCAGAAGTGGCTGAAAGGCCGAATCAAACCACTTGAGGACGCGGAAGGCACAAACCTGTGCTGGATCGACACGGCCACCATCGTGCATATCGGTGCCGGTCAGCAGTTTGACGATCAGTATTACCTCACAGTGACCACACAGACCGGGCAGAGTTACCGCGTGAATGAACTCCGTCTGCCAGGTCGTCTGCTGGAAGCAGCCCAGGACAGCCTGTTCAGGGCACTGGATTCAACCACCGGCGGTAACTTCTGA	MDINYYDEHQEEFEAVKLALKGEMERIWGSMLKESGDSLDDEATYLNLFEELQYTFSPSSFSKLTPSQDLDEDKIAAFVARTRGYKHGITIKCRPGRPQKWLKGRIKPLEDAEGTNLCWIDTATIVHIGAGQQFDDQYYLTVTTQTGQSYRVNELRLPGRLLEAAQDSLFRALDSTTGGNF				NA	NA	NA	NA	NA
BMS020_07792	1290			ISL3 family transposase ISPpu12	ATGATGGGTCTCGTTACTGGCCTTATTAACCTCTCAAATTATGAGGTCAGGGACTCCAAGTCGACAGACGACGAAATGCACTTCCAGGTGGACGCACCCGATCCCATCGCGTGCGAGAAATGTGGCGTGCAGGGTGAAATCGTGCGGTTCGGCAAGCGTGATGTTCCTTATCGTGATTTGCCCATCCACGGCAAGCGGGTCACCCTCTGGGTGGTTCGTCGCCGGTACACCTGCCGGGCCTGCAAGACCTCCTTCAGGCCCCAGCTACCGGAGATGGTGGACGGCTTCCGCATGACGCGGCGGCTGCATGAGTACGTGGAGAAAGAATCCTTCAACCACCCCTACACCTTCGTGGCGGCGCAGACTGGCCTGGACGAGAAGACGGTACGCGACATCTTCAGCGCTCGCGCCGAGTTCCTGGGGCGCTGGCACCGATTCGAGACGCCTCGCATTCTGGGTATAGACGAGCTGTACCTGAACAAGCGCTACCGCTGCATTCTGACCAACATCGAGGAGAGAACCCTGCTCGACCTGCTGACCACCCGCCGGCAGGACTTGGTGACCAACTACCTGATGAAGCTGAAAGACCGGCAGAAGGTCGAGATCGTCAGCATGGACATGTGGAACCCCTACCGTACGGCGGTCAAGACGGTGCTACCACAGGCCCGTATCGTGGTCGATAAATTCCATGTGGTGCGCATGGCCAATGATGCCTTGGAGAAGGTGCGCAAGGGCCTAAGAAAGGAGCTGAAACCCTCCCAGAGCCGAACCCTCAAGGGAGACCGGAAAATCCTGCTGAAACGCGCTCACGAAGTCTCAGACCGAGAGCGGCTGATCATGGAGACCTGGACAGGCGCATTCCCGCAACTGCTGGCCGCCTACGAGCACAAGGAGCACTTCTACGGCATCTGGGATGCCATCACGCGCTCCCAGGCAGAAGCCGCCCTGGACGAGTGGATAGCCACCGTCCCGAAAGGCCAGAAGGAAATCTGGAGCGATCTGGTCAGAGCGGTGGGCAACTGGCGCGAAGAGATCATGACCTACTTCGAGACGGATATGCCCGTCACCAATGCTTACACGGAATCCATCAACCGACTGGCCAAGGACAAGAACCGTGAAGGGCGTGGTTACTCCTTCGAGGTGATGCGGGCACGAATGCTCTACACCACGAAGCACAAGAAGAAGGCCTCAACTGCGAAGGTCTCTCCATTCTACAAGAAAACCATCTGTTACGGACTGTCGGATTTCGCAGAGGAACTCAATTACGGGGTCGATCTATCAACCATCTGA	MMGLVTGLINLSNYEVRDSKSTDDEMHFQVDAPDPIACEKCGVQGEIVRFGKRDVPYRDLPIHGKRVTLWVVRRRYTCRACKTSFRPQLPEMVDGFRMTRRLHEYVEKESFNHPYTFVAAQTGLDEKTVRDIFSARAEFLGRWHRFETPRILGIDELYLNKRYRCILTNIEERTLLDLLTTRRQDLVTNYLMKLKDRQKVEIVSMDMWNPYRTAVKTVLPQARIVVDKFHVVRMANDALEKVRKGLRKELKPSQSRTLKGDRKILLKRAHEVSDRERLIMETWTGAFPQLLAAYEHKEHFYGIWDAITRSQAEAALDEWIATVPKGQKEIWSDLVRAVGNWREEIMTYFETDMPVTNAYTESINRLAKDKNREGRGYSFEVMRARMLYTTKHKKKASTAKVSPFYKKTICYGLSDFAEELNYGVDLSTI	PGPT0030630_693	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030630-tnpA-K07485	NA	NA
BMS020_07793	372			hypothetical protein	ATGACCCTTCGCCAACCCTGCCCACCCGGCGCCTGTGTCTGCAACCGTGAACAACTGCTGGAAGCTCCCGGCGCTGATCTGCGCATTCTGCAACTGACGCGACAGCAGGAAAAAATCCTGCTGGAGCGCCTGGAAAACCTCAAGAGCCTGCAAGACCTCGAACACTTGCAACAGCGGATGTACGACCAACTCGGCATCCGCGTCCACATCGCGCCCGGGCATACCGAGGTCAAAAGCATGCGCGGGATAGGAGCTGTAGGCGCTTTTCTTGTCGGAATCGCATTTTTGGCTGAACCGGTTAATGCAGCGAGAATCATTGCTGCGATCCTCATTGTTTCAGGGTTGGTGTTAATGAAACTATCCAGCGCCTGA	MTLRQPCPPGACVCNREQLLEAPGADLRILQLTRQQEKILLERLENLKSLQDLEHLQQRMYDQLGIRVHIAPGHTEVKSMRGIGAVGAFLVGIAFLAEPVNAARIIAAILIVSGLVLMKLSSA				NA	NA	NA	NA	NA
BMS020_07794	1257	aroA_2	COG0128	3-phosphoshikimate 1-carboxyvinyltransferase	TTGAGTTCGCAGAAAACCGTGACCGTTACACCGCCCAACTTCCCCCTCACTGGCAAGGTCGCGCCCCCCGGCTCCAAATCCATTACCAACCGTGCTCTGTTGCTCGCGGCACTGGCCAAGGGCACCAGCCGTTTGAGCGGCGCGCTCAAAAGCGATGACACACGCCATATGTCGGTCGCCCTGCGGCAGATGGGCGTCACCATCGACGAGCCGGACGACACCACCTTTGTCGTCACCAGCCAAGGCTCGCTGCAATTGCCGGCCCAGCCGTTGTTCCTCGGCAACGCCGGCACCGCCATGCGCTTTCTCACGGCTGCCGTCGCCACCGTGCAAGGCACCGTGGTACTGGACGGTGACGAGTACATGCAAAAACGCCCGATCGGCCCGCTGCTGGCCACCCTGGGCCAGAACGGCATCCAGGTCGACAGCCCCACCGGTTGCCCACCGGTAACGGTGCATGGCGCGGGCAAGGTCCAGGCCAGGCGTTTTGAGATTGACGGAGGCTTGTCCAGCCAGTACGTATCGGCCCTGCTGATGCTGGCGGCGTGCGGCGAAGCACCGATTGAAGTGGCGCTGACCGGCAAGGACATCGGCGCCCGTGGCTATGTGGACCTGACCCTCGATTGCATGCGTGCGTTCGGGGCCCAGGTAGACATCGTGGACGACACCACCTGGCGCGTGGCCCCCACGGGCTATACCGCCCATGATTACCTGATCGAACCCGACGCTTCCACCGCCACTTACCTGTGGGCCGCAGAAGTACTGACCGGTGGCCGTATCGATATTGGTGTAGCCGCGCAGGATTTCACCCAGCCCGACGCCAAGGCACAGGCCGTGATCGCGCAATTCCCGAACATGCAGGCCACGGTGGTGGGTTCACAAATGCAGGATGCGATCCCGACCCTGGCGGTGCTCGCCGCATTCAACAATACCCCGGTGCGCTTCACTGAACTGGCGAACCTGCGCGTCAAGGAATGTGACCGCGTGCAGGCGCTGCACGATGGCCTCAACGAAATTCGCCCGGGCCTGGCGACCATCGAAGGTGATGACCTGCTGGTTGCCAGCGACCCCGCTTTGGCTGGCACCGCCTGCACCGCACTGATCGATACCCACGCCGACCATCGCATCGCCATGTGCTTTGCCCTGGCCGGGCTGAAAGTCTCGGGCATTCGCATCCAAGACCCTGATTGCGTAGCCAAGACCTACCCTGACTACTGGAAAGCGCTGGCCAGCCTGGGCGTTCACTTGAGCTACTGA	MSSQKTVTVTPPNFPLTGKVAPPGSKSITNRALLLAALAKGTSRLSGALKSDDTRHMSVALRQMGVTIDEPDDTTFVVTSQGSLQLPAQPLFLGNAGTAMRFLTAAVATVQGTVVLDGDEYMQKRPIGPLLATLGQNGIQVDSPTGCPPVTVHGAGKVQARRFEIDGGLSSQYVSALLMLAACGEAPIEVALTGKDIGARGYVDLTLDCMRAFGAQVDIVDDTTWRVAPTGYTAHDYLIEPDASTATYLWAAEVLTGGRIDIGVAAQDFTQPDAKAQAVIAQFPNMQATVVGSQMQDAIPTLAVLAAFNNTPVRFTELANLRVKECDRVQALHDGLNEIRPGLATIEGDDLLVASDPALAGTACTALIDTHADHRIAMCFALAGLKVSGIRIQDPDCVAKTYPDYWKALASLGVHLSY	PGPT0012850_4672	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012850-yddE-K00800	NA	NA
BMS020_07795	408			hypothetical protein	ATGGTGACTCAGCCTATGGTGCTTCTGGGCGCGGTACACCCCGTAGCGGGTTATCTCTTCCTGGAGGTGATCCCTGACAGTGAGGTTGGCTTCGTTGATATATATCAGCTGACCGACCGTCTTTATGTTGGCGATTATCTGGTCATTAACAATCCGGAATGGCGGCGGCGTGAACCTGCATTTGACGGCCGGCCGTGGGATGAATGGGTGATCCGTGAACACCTGTCCCGCATAGACTGGTATTCGAATGACACCATTCTGAGGTTATGTCAGAGGCACAATCTGTCATGTGCTGACCTGCAAAAGTGGGGAGAAAACGTGGCACGCTGGAAGGATGTACCGGTGATGGTAGCGCGTGAAGAAGACGACGTGTCCATCACACTTCTTTCAGGATTTACAGATAACTGA	MVTQPMVLLGAVHPVAGYLFLEVIPDSEVGFVDIYQLTDRLYVGDYLVINNPEWRRREPAFDGRPWDEWVIREHLSRIDWYSNDTILRLCQRHNLSCADLQKWGENVARWKDVPVMVAREEDDVSITLLSGFTDN				NA	NA	NA	NA	NA
BMS020_07796	579			hypothetical protein	ATGGCCACCAAACATATAAATGATGAGCTCTGGAATCGCATTGAGGCGCTGACCGTCAAAGCTAACGCCAGGCATGGGTTGTTGCGGCCGATTAAAGAGGCTGAAGTACTGCATCTTGTCCTGCAGCGTGGCCTGGAACTGCTTACGGACGACGATCTGCTGCAGCTGGGCAAGTACCGGCGTCCGATAGGATTTGTGCTGCGTCGTCCGGGCGTGGAAATGGTGAAGCTGGATATGCTGAATATGGCAGATGCGGCAACCGTTCTTCTGCGCAGTGGACCCGCAACGCTGTGCATCTGGAGCCGCGACGATATCCTGCGCGAGGCCAGTGAAGCGGTGATCCGCGAACGGCTGCCGGATGCAGCCCTGCTGTCGGAGGGGGATGACCGGGCCCGGTTCCAGACGCTGCTGCCCGGATTCTGGAACGCCGCGCACCGGGGGGAAACGGCCGTGATTTCCCTGCGGGCTGACAGTGCGGATTACGCGATTGCGCGTATAACCGATCTGATGTGTGAAGCCCTACTGGGTTATAAAGGGCAGCGGGCCTGGAGGCCAGCTGAAGACGAACAGGGGGAATAA	MATKHINDELWNRIEALTVKANARHGLLRPIKEAEVLHLVLQRGLELLTDDDLLQLGKYRRPIGFVLRRPGVEMVKLDMLNMADAATVLLRSGPATLCIWSRDDILREASEAVIRERLPDAALLSEGDDRARFQTLLPGFWNAAHRGETAVISLRADSADYAIARITDLMCEALLGYKGQRAWRPAEDEQGE				NA	NA	NA	NA	NA
BMS020_07797	357			hypothetical protein	ATGGAATATGAAGCGTACAAAGTTCGCGGCTACGGCTTCGGACTGAAAAAAGAGATCACCGGCGTGCTGGGTCGTTACCCCACGCAGGAAGAGGCGCAGAAAGTCGCGGATGACTACACGCAGGCCTGCCTGCCGGATAACCTGCCGGACAGTTACGATATGGGCATGGTCCGGCCGGTCGTTGCCGGCGAACCTGCCGCCGTCGATCAGGGCGTGTTTCGCGGTCCGGGCGCGCCGTTCCTGATGGATGCCGGCCAGATAACCACGGGTCACACGGTATGCCTGGGCAAAGCAGCGGATGGAAAACGGTTTTATTTTGGCGGGGAGCATTCCGATGGCCACCAAACATATAAATGA	MEYEAYKVRGYGFGLKKEITGVLGRYPTQEEAQKVADDYTQACLPDNLPDSYDMGMVRPVVAGEPAAVDQGVFRGPGAPFLMDAGQITTGHTVCLGKAADGKRFYFGGEHSDGHQTYK				NA	NA	NA	NA	NA
BMS020_07798	636			hypothetical protein	ATGACCGGTTTGTTTGAACGTAAAAAGCGGGCCAAAAACGCCCAGCTGACCGTGCGTCTCGATGAGCAGCTGAAGAAACGCGCCGAACTGCGTCTGGAGGCAATGGGGATGACCGCCACGGAAGCAGTGGAGCAGCTTTACCGCTTCATCGCCGATCACGGCCGGATGCCCGTCACGGAGCGTATCGTCACATTTGACATCCAGTCACAGCGCGGCCGCGCCATCGCCCTCAATCCCGCCGACGCTGTGACCGAAAACACCCGGCGGTTTCTGCAGTCGCTGGGAGCTATGGAAGTGGTCTGCTGCGATCCCGCAGCATTTGAACAGGCGGTGCTGGAGTACTTCAGCCTGTATGTGGCCGACCAGGCTGCCTGTTTACTGGCCGGTGTACTGAACGTCACGTTCATGGTTAATGCCGCCAGTCGCGTGAAAGATGACTGGCATGACAGGCTGCAGTCCCTGTTACAGCGCGACTTTGATTTCAGCGAAGAACAGTCAGTGACGTTCATTAACAGCATCGTAGACAGCGAACATGTCGATCCTGCCATCGTCAGTCGAAATAATGCGGCCTGGCGGAGCGGAAAAAGCACCGGTTCCGGCGCCGGCGAATCGCCAGAGCCGGGAGCCGCGGAATGA	MTGLFERKKRAKNAQLTVRLDEQLKKRAELRLEAMGMTATEAVEQLYRFIADHGRMPVTERIVTFDIQSQRGRAIALNPADAVTENTRRFLQSLGAMEVVCCDPAAFEQAVLEYFSLYVADQAACLLAGVLNVTFMVNAASRVKDDWHDRLQSLLQRDFDFSEEQSVTFINSIVDSEHVDPAIVSRNNAAWRSGKSTGSGAGESPEPGAAE				NA	NA	NA	NA	NA
BMS020_07799	684			hypothetical protein	ATGAACAAACGCCTCCACCTCATCACCACCTGTACCCGGCGCAAGGCAGGCAGCGTGGAGGATACCGTTTTTCCGGGCGACGCTTCCCTTGATGACGCCTTTGACGGCTGGTACAGGCTGATCGCCCAGGCCGCCCGCCGTCCAGGCAGGGTGCAGGAAACGGGAGAACTTTACCGGGGCGCACACTGGCTGCGTGCCTGCGGTATCGCGTCGCGGTGGCCGGGTATCGAGCTGTGGGCCATGTCGGCCGGTCTGGGGCTGCGCCACCATACCGATCCGGCGGTCGCGTATGAGGCAACGTTTCACGCCATGCCCTTCGCGCCGGCGACCGTCTGGAGTTTACTGACGGCACGGCCACCGCTGGCAGGCCGATGTGCCTCCCTGGCTGAGCTGATGCAACGCTGCCCGGACGATCGCTTTGTGATCGCCGGTTCACCCGTGTATATCAGCGCGGCCGGGCAGGATATTCTGGCCGGCGTACCGGCACTGCGTGATGCGGCCGCTCAGCTGATTATCGTGACCTCACAGGGCTATCGTGGCCCGCTGCAGCCGTTTCTGAAAAGAAGCAGCGCGGACATGATGAAAGCGCTGAAATCGAACATGACGTGCCTGAACATTGCCTGCGCCGGCGCCCTGATTGACGCCATGATGCAGGCAGACGCCCGGCAGGCGGCGACCATTTAA	MNKRLHLITTCTRRKAGSVEDTVFPGDASLDDAFDGWYRLIAQAARRPGRVQETGELYRGAHWLRACGIASRWPGIELWAMSAGLGLRHHTDPAVAYEATFHAMPFAPATVWSLLTARPPLAGRCASLAELMQRCPDDRFVIAGSPVYISAAGQDILAGVPALRDAAAQLIIVTSQGYRGPLQPFLKRSSADMMKALKSNMTCLNIACAGALIDAMMQADARQAATI				NA	NA	NA	NA	NA
BMS020_07800	219			hypothetical protein	ATGTTCAGCATCATTTATCACGCCGGCGCTGCCGTCCTTTTCCTGGTCATGAGCCTGGCGGCCGGCGCCGGCCTCCTGCTTCATGGCCATGAATATACGACAGGTCATTTCTGGAACATGACGGGGCTGTGCATTGTGTCAACTCTCGTCTGGATCTGGGCTGTAGCTCAGGCAAAAGAAGCCTGGTACATTTCACGAAACATCAAAAAAGGACTCTGA	MFSIIYHAGAAVLFLVMSLAAGAGLLLHGHEYTTGHFWNMTGLCIVSTLVWIWAVAQAKEAWYISRNIKKGL				NA	NA	NA	NA	NA
BMS020_07801	210			hypothetical protein	ATGAAAGATGAAATTCGCCACGAAAAACCCGTTGAAGTGAATATGCAACTGACACACAGAGAAGCGCAGGCCTTGTCGCAACTGGTTAAGCGGCTGGGATTCAGCGACTGCCGCGGACTGGCAACGTCAGATATTGAGGCATATCTGATGATGGATGGAATCAACCAGATCATGAAAGCACTGGCTGAAGAGGGCTATGCACCGCGATAA	MKDEIRHEKPVEVNMQLTHREAQALSQLVKRLGFSDCRGLATSDIEAYLMMDGINQIMKALAEEGYAPR				NA	NA	NA	NA	NA
BMS020_07802	639			hypothetical protein	ATGTTATACATGGGTTTGTGCAGCTTTATGATGTTCATGGCGTTAAGTGAGATGATCCGCACGATGACGGCCATTGGCAATGGCAGTTTCGCCGGCAACCGCTTCATACCGCTCGCCTTAGTTCTGTTGACACTGGCGCTGGCATCGCCTTTCTTTGCCACATTTTATACACTGAGCCGGCCTGTTTCGATGGATGCACTCTCCAGCCTGTCCGTTGGTGCGCAGTGGGCAGGTATCGCCGCCGCCATTCTGCTGTGCATTCTGTATGGCTATCGTGCCTGGAAAAACGGCCGTTTCTGGTATACCGGCGCGGCCATTGCCTCAGTGGTGATTGCCGTTATTTTTGCCAACAGCCTGCTTTTCGTGTCCAGGCCCGATGCCGGCATCGTGGCCACTTTTGTGCTGAACAACGATGACAGTAATGACGTGCAGTGCGACCGTTCGGTACTGCTGGTTCATTACAACAAGGGAACCCCTACGGAGTGGCGCTGCCCGACCGGTATCATGTTCATGTCTGATGCGTCAAAACCCTTTCTTCCCTGGCCGGATTATCACGGCGGGCGGAGTCAGCATCTGACGACAGCACTGGATCAGATCACAGACAGCGCCATGCGCCTTGACCTAAGCCAGAAACCATAA	MLYMGLCSFMMFMALSEMIRTMTAIGNGSFAGNRFIPLALVLLTLALASPFFATFYTLSRPVSMDALSSLSVGAQWAGIAAAILLCILYGYRAWKNGRFWYTGAAIASVVIAVIFANSLLFVSRPDAGIVATFVLNNDDSNDVQCDRSVLLVHYNKGTPTEWRCPTGIMFMSDASKPFLPWPDYHGGRSQHLTTALDQITDSAMRLDLSQKP				NA	NA	NA	NA	NA
BMS020_07803	321			hypothetical protein	ATGAATAAGATGCAAAGTAAAGCCCCCTCGATGCGGCTCTCCGGTGTGCAAAAAGACGTATTGTTTGTTCTGTATGGTCTGGCAGAACGTCAGCTGGCGGGCCCGTTCCCGGCGATGCAGCTTTTCAGCATCCTCAATAAGGGACGCCTCCAGCCCGTTGCCGATACCAATTTTCGTCGCTCCTGCCATACGCTGAACCGTCACGGCCTGCTCAGCAAATACCGGGATAATCAGTCACTGACGCTCGCGTTTGGACTGACGGAGGCAGGCCTGGAGATCGCCAGAGAGGTTTATCACAAACGCCTGACGGAGATGGAATAA	MNKMQSKAPSMRLSGVQKDVLFVLYGLAERQLAGPFPAMQLFSILNKGRLQPVADTNFRRSCHTLNRHGLLSKYRDNQSLTLAFGLTEAGLEIAREVYHKRLTEME				NA	NA	NA	NA	NA
BMS020_07804	849	dinG_3		3'-5' exonuclease DinG	ATGAAGAATGATGAGCTGGCCACACGACGCGCAGAGGCGATAGCCGGCGATCGGTGTTTCACGAAAGGGCGCCTGCGCGATGAATTCAGAATGAAGCCGGCTCCCGGTGCTGAACCGGTGAAATGGTACAAAAGCGCCTATGGCGGCAAGTACGCCGTATACCGCATTGCAGACTGTGTTCCGATGCGGGAAAAACGTCCGCCGACCGAGAAGCAGCAGCAGGCCGGCCTGCGTCTTTCCGTCCTGTCCCGGCTTAACAGCGCCAGTGGCCGCATGGCACGGCGGGCACACGACTGGCTGAGTCAGGCGCCGCTCTTTCTGGATACCGAAACGACGGGGCTGGGTAATACCGCGGAAGCGCTGGAAATCGGCCTGACCGATGCGGCCGGCCGGGTGATATTTGAAACCCGCCTGAAGCCGACGGTCGCCATCGAGGCGCAGGCCGCCGCCGTGCATGGTATCGATGAGCCGGCACTCAGCGGCGCACCATCCTGGCCAGATGTGGCGATTCAGCTGCGCCACGCCATCGGGGCCCGGCCAGTGATTATCTTTAACGCCCCCTTTGATACCCGCATTCTGAAACAGACGGCCGCCGCACATGGCGATCCGGCCGACTGGCTGGGAGAACTGACAGTGTATTGCGCGATGGAGCTGGCAGCAGGGTATTTTGGGGCCACCAATCGCTATGGCACCATTTCGCTGGCCAGCGCGGCCAGTCAGGCAGCATTGACCTGGGAAGGGGAGGCACACTCGGCGATCGCCGATGCACGGATGACGGCTGGGGTGGTGAACGCCATTGCCGCATACCATCTGGCATTGCTGCAGGAGCAGGAACGGCTGCAGGCCTGA	MKNDELATRRAEAIAGDRCFTKGRLRDEFRMKPAPGAEPVKWYKSAYGGKYAVYRIADCVPMREKRPPTEKQQQAGLRLSVLSRLNSASGRMARRAHDWLSQAPLFLDTETTGLGNTAEALEIGLTDAAGRVIFETRLKPTVAIEAQAAAVHGIDEPALSGAPSWPDVAIQLRHAIGARPVIIFNAPFDTRILKQTAAAHGDPADWLGELTVYCAMELAAGYFGATNRYGTISLASAASQAALTWEGEAHSAIADARMTAGVVNAIAAYHLALLQEQERLQA				NA	NA	NA	NA	NA
BMS020_07805	1305	umuC_2	COG0389	Protein UmuC	ATGGGGTGTGGTTACGTTCACTGTCATGAGACACCGCCCGTGTACGCCTTAATCGATGTCAATTCGATGTACTGCAGCTGCGAAGAAGCGTTCCGCCCTGATTTACGAGGTCGCCCTGTGGTCGTTCTCAGCAACAACGACGGGGCGCTTGTTGCTGTCAATCGCGCGGCGAAAGCGCTGGGTGTGCGCCGCGGGGAGCCCTATTTCCGCTGCCGCCGCCTGCTGGAACAGCATAACGTTGCCGTATTCAGTTCCAACTACACCCTTTACGCCTCATTCTCCGCCAGATTTGCAACCGTGGTGGAGAGTCTGGCACCGCGGACATTTGTTTACTCAATTGATGAGCTCTTTGCGGATGCCTCTCATATGGATGGCGTGATGACGCCGCAGGCGTTTGGTCAGCTTTTGCGGGCTGAAGTGCTGCGCCAGACAACGCTCACCTGTGGAGTCGGCGTCGCGCCAACGAAGACGCTGGCCAAGCTGTGCAACCACGCCGCAAAGACGTGGCCTGCCACCGGGGGGGTGGTGGCGCTCAGTGATCCTGTAAGACTGAAAAAGCTGATGAGCCTGGTGTCGGCCGGTGATGTGTGGGGCGTTGGCCATCGTACCGAAAAAGGGTTGGCGGCAATGGGGATCAAAACGGCGCTGGCGCTCGCAGAGATGGATATCCGTCTTGCACGCCGGCTGTACGGTGTGACGCTGGAAAGGACCATTCGTGAGCTGCGTGGCGAGGCCTGCTTTGCCCTGGAGGAAGGAACCGGCGCGAAACAGCAGCTTGTTGTATCCCGTTCGTTTGGAGCGCGGGTCACGCAACTGGCGCAGATGCAGCAGGCGGTGACTAAATATGCCACACGGGCAGGGGAAAAGTTGCGCCAGGAAAACCGCCTGGCGAAGGTGGTAACGGTCTTTATCCGCAGCAGTGCTTATGACGCCGGCGGTGTGCCCTACAGTAACCAGGCTACGGAAGTGCTTCCCGTGCCAAGCCAGGATACCCGCGACATCATCGCCGCGGCGCAGCTGGGGCTGTCGCGTATCTGGCGTGAGGGCGTGCGGTATGCAAAAGCCGGCGTGATGCTCAGCGATCTGCAGGGATATGAAACCCAGCTGGATCTGTTTTCGCCGGCTGCAGTGCGGCCGGGCAGCGAAAAACTGATGGCCACCCTCGACAAAATAAACAGGGAAGGAAGGTCAAGGATCTTCTTCGCCGGAGAAGGTATTGATCCGGAATATGCCATGCGCCGTGAAATGTTGTCCCCGGCCTACACCACGCAGTGGAAGGATATTCCCGCGGCGTTTATGCGATAA	MGCGYVHCHETPPVYALIDVNSMYCSCEEAFRPDLRGRPVVVLSNNDGALVAVNRAAKALGVRRGEPYFRCRRLLEQHNVAVFSSNYTLYASFSARFATVVESLAPRTFVYSIDELFADASHMDGVMTPQAFGQLLRAEVLRQTTLTCGVGVAPTKTLAKLCNHAAKTWPATGGVVALSDPVRLKKLMSLVSAGDVWGVGHRTEKGLAAMGIKTALALAEMDIRLARRLYGVTLERTIRELRGEACFALEEGTGAKQQLVVSRSFGARVTQLAQMQQAVTKYATRAGEKLRQENRLAKVVTVFIRSSAYDAGGVPYSNQATEVLPVPSQDTRDIIAAAQLGLSRIWREGVRYAKAGVMLSDLQGYETQLDLFSPAAVRPGSEKLMATLDKINREGRSRIFFAGEGIDPEYAMRREMLSPAYTTQWKDIPAAFMR	PGPT0014882_503	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ADAPTIVE_MUTATION	CE-BACTERIAL_FITNESS-ENVIRONMENT-INDUCIBLE_DNA_POLYMERASES,PGPT0014882-umuC-K03502	NA	NA
BMS020_07806	435	umuD_2	COG1974	Protein UmuD	ATGGCGCTGGATCTCGTTTATCCCCGGCCTTCAGTGGGGGGCGACGCACTCCCTTTTTTTGCCGAACCCGTTGCGGCCGGCTTTCCCAGCCCGGCAGCAGGCTATGAGGCCAATGAACTTAACCTGCATGATTACTGTGTGCGGCATCCGGCCGCGACGTACTTCTTGCGTGTGTCCGGCGATTCCATGCGTGATGCGCGCATTCATGATGGCGATGTGCTGGTCGTCGATCGGGCAGAAGAACCCCGGCACGGCAGCATCGTGATTGCCAGCATCGATAATGAATTTACGGTCAAGCAGCTGCAGCTCCGCCCTTACCCCTGCCTGATGCCGCTGAATCCGGCTTTTCCGCCAATCAGGTTTGATCCGGAGGCGCTGCAGATATGGGGTGTGGTTACGTTCACTGTCATGAGACACCGCCCGTGTACGCCTTAA	MALDLVYPRPSVGGDALPFFAEPVAAGFPSPAAGYEANELNLHDYCVRHPAATYFLRVSGDSMRDARIHDGDVLVVDRAEEPRHGSIVIASIDNEFTVKQLQLRPYPCLMPLNPAFPPIRFDPEALQIWGVVTFTVMRHRPCTP	PGPT0015094_703	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ADAPTIVE_MUTATION	CE-BACTERIAL_FITNESS-ENVIRONMENT-INDUCIBLE_DNA_POLYMERASES,PGPT0015094-umuD-K03503	NA	NA
BMS020_07807	654			hypothetical protein	ATGATTCAGTCACGTAATAAATATCTGCAGTTCATGCTGGTTCTGCTGGCAGCCTGGGCCATAGCCTGGGGGGCCCTGTTAGTCATGGGGCAGACCGTTCTGCTCTATGGGCTGGGGAAAAATACGCTGTTCTTCATTCATGGTGCTGTTCTGGTGTACCTGCTGTGTGTGTTCCTGGTATACCGCCGCTGGGTTGCACCCCTACCGGTCGTTGGCCAGCTGCGCAACGTTGGCGCACCGTGGCTGGTCGGTGCGATGGCCGTGGTGTATGTCGGTGAATTTCTGCTGGGTAAAGTGCTGGACCTGCCCGCTGAGCCGTTTATGACGAAACTTTTTGCCGATAAATCCATACCCGACGTGATCCTGACGTTGCTGGCCATCTTTATCCTTGCCCCGCTGAATGAGGAAACGCTGTTCCGGGGGATCATGCTGAACGTCTTCCGTTCACGGTACCGCTGGACGATGTGGCTGGGGGCGCTGATAACGTCATTGCTGTTCGTCGCCGCGCACAGCCAGTATCAGAACCTGCTGACCCTGGCAGAACTGTTCCTGGTGGGGGTGATTACATCAGCTGCCCGGATCAGAAGCGGCGGCCTGCTGCTGCCGGTATTGCTGCATATGGAAGCAACCGCGCTGGGTTTACTGTTTGGCTGA	MIQSRNKYLQFMLVLLAAWAIAWGALLVMGQTVLLYGLGKNTLFFIHGAVLVYLLCVFLVYRRWVAPLPVVGQLRNVGAPWLVGAMAVVYVGEFLLGKVLDLPAEPFMTKLFADKSIPDVILTLLAIFILAPLNEETLFRGIMLNVFRSRYRWTMWLGALITSLLFVAAHSQYQNLLTLAELFLVGVITSAARIRSGGLLLPVLLHMEATALGLLFG				NA	NA	NA	NA	NA
BMS020_07808	351			hypothetical protein	ATGAAATCCAACACGAAGATTGCTCTCATTCTGACCGCATCCGTAATCAGTTGCAGTGCATTTGCTCAGAGCGTATCCGCGCCGAAAACCGATTCTTTGCTGAGCAACATTCTGGGTGAACAGGTACAGACAAACCAACATCTTGTACAACTGCTGGCAAAGGATCAGAATGCCGGTCTTACACTGACCCCGGAACAAAAGAAAACCGCCTGCCTGTATGAAAGTCGTTACTACAGCAGTGGCGCACAGCTTACCGTCGGAAAAGAGACGCTTCGCTGCACGCTGAGTGGCGAAATCCCGACATGGGAAAATGCGAATGAGGGCAACATTGTCTCTGCCGAAGGAAAATAA	MKSNTKIALILTASVISCSAFAQSVSAPKTDSLLSNILGEQVQTNQHLVQLLAKDQNAGLTLTPEQKKTACLYESRYYSSGAQLTVGKETLRCTLSGEIPTWENANEGNIVSAEGK				NA	NA	NA	NA	NA
BMS020_07809	396			hypothetical protein	ATGGTTGATGCCCCGCCCTCAATCCCGCTGCCAACCTGCATGGTTGAAGCAGCACAGATTTATCACATTCCTCTCCGTGGATTCCTCGCCTTGTGGCTGACTGAAGGCGGAAAACCGGGAATGAAAAATAAAAACAAAAACGGCACTTACGATTACGGCGCATTCCAGATAAACACCATCTGGGCGAATAAGCTGGCGTCCGATTTTGGCGTGAAAGCGGAGCAGCTGCAGCATGACTTTTGCGCCTCTGCAATGGCCAGTGCCTACATCCTCAAATACAACATCATTCTCGAAGGGGGGGATTTCTGGCAGGGTGTCGGCCGCTATCACTCCAACACGCCGGCGCGTAAGGCCTGGTATATCGGGAAGGTTTACCAAAATTCGCTGAGGTTCTGA	MVDAPPSIPLPTCMVEAAQIYHIPLRGFLALWLTEGGKPGMKNKNKNGTYDYGAFQINTIWANKLASDFGVKAEQLQHDFCASAMASAYILKYNIILEGGDFWQGVGRYHSNTPARKAWYIGKVYQNSLRF				NA	NA	NA	NA	NA
BMS020_07810	1308			hypothetical protein	ATGCAAAACCAGCCACAACGGAAAGGGGGAGGGGATGATGGCCTGATGATTATCGGGGCCCTTCTCATCATGATCACAGTGATGTGGTTTGGCTTTCGTGATTATGTGATTTACGGAGCCTGTCGCCTGCTTTACTGGATCTACGGTGTACTGCCGGACGCCATTACACCGGGTAATGCGGCCGAGCGCCGGGACATGCTGCTGTCGGCGGCGCGGTATAACCACCAGGTTTCGCTGTGGGACTTTATCAGCGTGATGAACGACACGGCCAGCGTGCTCTTTCCCCTGTTCATTTTAATCATCGGGCTGTTCGTCTGGGTTATCTCACGCAATCCTTACTACCGTCTGACCCGTAAACTGACCATCCGGAACCTGCCCTGGGTGATGGTAAAAAACTATCCGGGGATCGCCCATATCCTCGCCCGGTTTGGCCACCTCGATCAGCTGCTGCTGAATGAAGATCCGGAAGAAGCACGCAGCGCGCAGTCACCCGTTGAGTTTGCCCAGGAACATAACCTGATTGATACCGCTAAACGCCGCCTCCGTAAAAAAGCCGCACATAAAGTCTTCCTGTCACAGGTAAACCTGGCTCCCGAAGGGGCGGCTCTTTCTCTGGCTCCCTGGGAAAAAGCGCTCGCAGCCTCGTTTGTACATCTGCGCTTTATGGGCGACCGGCCAACGGCTAAATCCATTCTCGACGATCTCAACCGTTCCTGCCTGCGGACTAAAGACGGCTTCCCTGATTATTCGCTGGCCGCCGGGCTCTGGACCGTCGCCAGCCAGTGCGAAGCGTTCAGAGAATTTGCAAAGGGGCGCCGCAGCTCCCGTTCGCTACTCTACGCGCTGTTCGATGATGACCTGCAGCTGCCATCCGCAAATTTCCGGTGGCTGAAAGGCGTGGACCGCACGTTATGGTATGCACTTTCAAGCGCCGGCCGCGGCAAGTTCTTCATTGAGGGAGGTGGCGTTATTGCCTGGAGTCAGTGCGAAAGTTACCGGCTGACGCTCGATGAAGAAAAGGCGGCGAAATTCCCGCCGACCGTGCGGGCGGCCGTGCTGGGCCTTGAGCTGGATCTGCTCCATTACCGCCATATTGACCGCCGCGATCCCGCCATTCCGGTCGCTCACTGGCAGGAAGACGTTATACCGCCATTTACATTTGAATCTGACGCTGAAGCGGAAGACGAGCCGGCTACGCCGCCTGCAGCTCCGCACGACACCCCGAACAACAGTCTGCGACTGACAGACGATGAACCGACGCCGGCTAAACCTCAGCCGGCAACCCGTCCCGATCACCTGGAACTCTAA	MQNQPQRKGGGDDGLMIIGALLIMITVMWFGFRDYVIYGACRLLYWIYGVLPDAITPGNAAERRDMLLSAARYNHQVSLWDFISVMNDTASVLFPLFILIIGLFVWVISRNPYYRLTRKLTIRNLPWVMVKNYPGIAHILARFGHLDQLLLNEDPEEARSAQSPVEFAQEHNLIDTAKRRLRKKAAHKVFLSQVNLAPEGAALSLAPWEKALAASFVHLRFMGDRPTAKSILDDLNRSCLRTKDGFPDYSLAAGLWTVASQCEAFREFAKGRRSSRSLLYALFDDDLQLPSANFRWLKGVDRTLWYALSSAGRGKFFIEGGGVIAWSQCESYRLTLDEEKAAKFPPTVRAAVLGLELDLLHYRHIDRRDPAIPVAHWQEDVIPPFTFESDAEAEDEPATPPAAPHDTPNNSLRLTDDEPTPAKPQPATRPDHLEL	PGPT0025400_19	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-ICM|DOT_SECRETION_SYSTEM,PGPT0025400-icmP|trbA-K12218	NA	NA
BMS020_07811	951			hypothetical protein	ATGAAACTCACCGTAAAAACCGATCGCAACACACTTTATCTTTCCGCTGACGGAAACTACCAGGAACAAGCCCTGCACTCCTTCCCCCTGTCAGCCTGTCATTTTGGACTTGGCCATGATGCCGGCAGCGGCCACATCCTGACGCACAATACGTTTTCTGGTGAAGCGGTGCAGCTGTTCCGCTTTGAAAACGAATATCAGGCCATCGAGGCGCTGAACAATATCCGTAAAAAGCTGAAACAGCAGCGCGGACTCAATGCCGTGCGCCGGCTGTCTAACTTTATCTTCTGGCCAGTCGCCGCGCTGGGCTTTATCGTCTCCATCAACGGCGCATTGATGAATATGCATCAGCCGGCACAGCCACTGCCGGCAAACTCGTATGCTCCCGCGCCGGGTCTGCAGCAGCCTGCCACTGCGCCGGAACAGCTGCAGGTTCAGGCAGCACCTGAAGCCCCTAAAAAACTGGCTGATAACGACTTGCTGTCACTGAAAGATGCCGTCACCAGCGGACGCTTTACGATCTCGCTTTCAACCGGGCATAAACACACCCTGTATGTGTTTTCCGATCCGATGTGCCCGCACTGCCGCGCGCTGGAACCCCGACTGCAGGAACTGAGCAAACGTTATAACGTCGAGATTTTCCCCGTGTCCGTTTATGGCGACCTGCGCTCGATGGTCCGCGCCGCTCCTGTACTCGATACCGGGAAAGCTACCCGACTGAAAAGCTGGGAAGACACGATTAACATGGGATACACCACCATGAACCCGAAAATTGACGATCCGAAAACAGCCCCGGATACCACCGGCGCCCGCCTGGTTGATGCGAACAATATGGCATTTGCGAAATTCGGGTTTATCGGCACCCCGTCCATCGTTGCCGATTCGGGTGATGTGATCCCGGTTTCCGTCGTCAAAGACGATGCCCGCCTGCAGCAGGCAATAGGAGAATAA	MKLTVKTDRNTLYLSADGNYQEQALHSFPLSACHFGLGHDAGSGHILTHNTFSGEAVQLFRFENEYQAIEALNNIRKKLKQQRGLNAVRRLSNFIFWPVAALGFIVSINGALMNMHQPAQPLPANSYAPAPGLQQPATAPEQLQVQAAPEAPKKLADNDLLSLKDAVTSGRFTISLSTGHKHTLYVFSDPMCPHCRALEPRLQELSKRYNVEIFPVSVYGDLRSMVRAAPVLDTGKATRLKSWEDTINMGYTTMNPKIDDPKTAPDTTGARLVDANNMAFAKFGFIGTPSIVADSGDVIPVSVVKDDARLQQAIGE	PGPT0030310_30	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-ICM|DOT_SECRETION_SYSTEM,PGPT0030310-trbB-K12228	NA	NA
BMS020_07812	2088			hypothetical protein	ATGCAACAGGAATCTGTAGACAGTAAAAAAGTCATCCGCCCAGATGGTTCGTTCATGGAGTGGTTCCTCACCCCGAACGTACAGTTTGGCCTGCTGGCCATACTGACCGTGCTGGGTCTGTTTCTCCCCTTTACCATGCTGCTGAGCATCCTCATCCTTCCGCCGCTGATGGTGGCATTCACGGATCGTAAATTCCGGCCACCGCTGCGAATGCCGAAAGATTGCGAAATGTTCGACGACACCCTGACCACTGAAACCCAGGCGGAATACCGTCTGGGGCCTATTCGCATCCCGCATAAGGTCCGGGATCGAAAGAAAGCGAAGGGAATTTTATATGTCGGGTATGAACGGGGACGCCTGTTCGGCCGCGAGCTGTGGCTGAACATGACGGACCTGCTGCGCCACATGGTATTTTTTGGTACCACCGGGTCGGGTAAAACCGAAACCTTCTATGGGTTTATCGTTAACTTCCTGCTGTGGTGCCGTGGCTACTGCCTCTCAGACGGTAAAGCAGATAACAAGCTGGCCTTCGCCACCTGGTCGCTGGCGCGCCGTTTCGGCCGTGAGGATGATTATTACGTCCTCAACCTGCTGACCGGCAGTATTGACAGGTTCGTGAACCTGGTGAAGCAGGAAAGCATCCCCGCGCAATCCAACTCAGTCAACCTCTTCAGCGTTGCCCCGCCGACCTTCATCATCCAGTTGATGGAATCCATGCTCCCCCAGGTGGGCGGGGATTCGGCACAGTGGCAGGATACGGCAAAGGCCATGATGTCGGCGCTGATCAATGCCCTGTGTTATAAGCGCGCCCGCGGTGAACTACTTTTGTCACAGCGCACCATTCAGAAAAACATGTCGCTGCCGGCAATGGCCGCGCTGTACGTTGAGGCAAAGAAAAACGGCTGGCACAGCGAGGGTTACGCCGCGCTGGAAAGTTATCTGGAAAATACACCAGGCTTCCTGCTGGCCAACGCGGAATACCCGGAAACGTGGGAAGCCCGCGCCTTCGAACAGCATAACTACATGAGCCGTCAGTTCCTGAAGACGCTCTCCCTGTTCAATGAAACTTATGGCCATGTTTTTCCGGAAGACAGCGGCGATATCCGGATGGACGATATTTTCCACAATGACCGCATTCTCATCGTCATGATCCCGTCGCTGGAGCTGTCACGCGGTGAAGCGGCCACGCTTGGCCGTTTATATGTGACGCTGCAGCGAATGACCATCAGTAAGGACCTGGGCTACCAGTTGGAAGGGAAAAAAGAAGAAGTCTTGCTCACTCACGCGCTGAATAATCAGGCGCCATACGGGCTGATTTATGACGAGCTGGGCCAGTATTTCACCAGCGGTATGGATACGCTGGCGGCGCAGATGCGTTCACTGGAAAAAATGGGCGTATTTTCCTCCCAGGATCACCCGTCGCTCGCCCGCGGCGCGAACGGCGAGGTGGATTCGCTGATCGCCAACACCCGCGTGAAATATTTTGAGTCGATTGAAGACCGGAAAACCTTTGAAATACTGCGCGAAACCGTCGGCCAGGACTATTATTCCGAGCTCTCCGGGCAGGAAGCGGAACACGGCACGTTTTCCAAAACGGTCCGGGAAGGGGATCTGTACCAAATCCGTGAAAAGGACCGCGTGAACATTCGTGAGCTGCGTAAGCAGACCGAAGGTCAGGGGGTAATTTCTTTCCAGGATGCCCTGGTACGCAGCGCCGCGTTTTACATTCCGGACAATGAGAAGTTTTCCAGCGAACTGCCGATGCGGATAAACCGCTTTATCGAGGTATTGCCGCCATCGCCGGCAACGCTGTACAGCATTTATCCGGAACGCAAGGATGATGAACTGGCGGAAACGAACCCGGATGCAATGCACTTCCCGCCGATTAAGCTGTTCGGCTACGACAAAGCGGCCAACAGCCTGCTGGAAAAAATTGAGGTCTTCTACGAGCTGCAGTGTGGCGCAATTTCACCGGAGGAAATGTCGGTGTGCCTGTTTGAACTGTTCGCTGAATGGCTTGATGGAACGGAAACGGACGACGTGCTTTACCACCAGGAAGACGATCTGTTTCCGATGATCGAGATGTAA	MQQESVDSKKVIRPDGSFMEWFLTPNVQFGLLAILTVLGLFLPFTMLLSILILPPLMVAFTDRKFRPPLRMPKDCEMFDDTLTTETQAEYRLGPIRIPHKVRDRKKAKGILYVGYERGRLFGRELWLNMTDLLRHMVFFGTTGSGKTETFYGFIVNFLLWCRGYCLSDGKADNKLAFATWSLARRFGREDDYYVLNLLTGSIDRFVNLVKQESIPAQSNSVNLFSVAPPTFIIQLMESMLPQVGGDSAQWQDTAKAMMSALINALCYKRARGELLLSQRTIQKNMSLPAMAALYVEAKKNGWHSEGYAALESYLENTPGFLLANAEYPETWEARAFEQHNYMSRQFLKTLSLFNETYGHVFPEDSGDIRMDDIFHNDRILIVMIPSLELSRGEAATLGRLYVTLQRMTISKDLGYQLEGKKEEVLLTHALNNQAPYGLIYDELGQYFTSGMDTLAAQMRSLEKMGVFSSQDHPSLARGANGEVDSLIANTRVKYFESIEDRKTFEILRETVGQDYYSELSGQEAEHGTFSKTVREGDLYQIREKDRVNIRELRKQTEGQGVISFQDALVRSAAFYIPDNEKFSSELPMRINRFIEVLPPSPATLYSIYPERKDDELAETNPDAMHFPPIKLFGYDKAANSLLEKIEVFYELQCGAISPEEMSVCLFELFAEWLDGTETDDVLYHQEDDLFPMIEM	PGPT0030260_114	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-ICM|DOT_SECRETION_SYSTEM,PGPT0030260-icmO|trbC|-K12217	NA	NA
BMS020_07813	510			hypothetical protein	ATGGCTGATAAAGAAGAATTAACGGAAAAAATTCAATGCCTGGTGTGTGGAAAATACTTCTCGTTCCTGGCTCCGCACCTGAACAAAGCCCATCAGATGAACGCCAGGGAATACCGCGAACGCTGGTCTATTCCGTTACACACCCCCCTTGCCAGCGTCAGCCATTCCCGTCAGTGCAGAGAGAATGTATTGAACCGCATACGGCGAGGCGAGATTAATCCCGATGAACAGCTCGCGCTCATGGCTGAAGGAAGGAAGCACGCCCCGGAACGTGGAACCAGCACCAGGTTGCATAAAGTGTCTGCGCGAAACGTAGCGCAGACACATCAGATCTGGAAGCACTCGCCAGTGGTGAAAGTGGTACCAGAAGCGCTCAGGGCTGAAGCCGTGAAAAGGATGGAGGCCAGAAAAGTAACGGGGGAAAAAGTTAAGGCAATTGCTGCTGATCTGAACCTGTCGGTTGGGTGTCTGTATAAGTGGGTGTCGGCCGCTAAACAGACTGTAAAGTGA	MADKEELTEKIQCLVCGKYFSFLAPHLNKAHQMNAREYRERWSIPLHTPLASVSHSRQCRENVLNRIRRGEINPDEQLALMAEGRKHAPERGTSTRLHKVSARNVAQTHQIWKHSPVVKVVPEALRAEAVKRMEARKVTGEKVKAIAADLNLSVGCLYKWVSAAKQTVK				NA	NA	NA	NA	NA
BMS020_07814	1056	repA_2		Replication initiation protein	GTGAATCAAAAGAATCCATACCTACAGCTTTCTGACATTGAGTCAGTAGAAGGTCTTTCGCCGGAGTTCATCTCCTGGCTTGAAAGCCAGTCCCCTAAAGAATCGCCCCTGCAGCTGCTTCTCGATGAAGGCACCAAGCCCGTGCGCAAAACCCGCCGTCGTCGCGGTACGCACTCAACGGCGTGTCTCTGCCCGGAACCCAGCTGGTACCGACCTGACAATTTCAAAAAGCTCCCTGGCCAGCTTGGCCATGCCTACAACCGCCTTGTTCGCCGCGATCGCAAAACCGGCGCGTTAAGTCTGCGTATGCGGATCAGCCGCCACCCGTACTTCGTGCAGCTGCGCGAGCAGGCTGGCAGGCAGCGCGACTTCCGCCCGGAGCGGGAGAAATTACTCGATGCGATTGTGCCGCTCCTGGTCAGCACCGTTGACCGGGCTACCCATATTGACACTATCAACCTCAGTAAAATGGCGTGGCAGCTCAGCGAAAAGGACAGCGAAGGGAACGTGATCCGGAAAGTGACGGTACCGCGGGTTTGCCGGCTGCTGCAGCACATGATGGAATTCGGGTTACTGGCGCTGCCTGAAGGCGTCACATGGGACCCGTTTAACCGCAAGTGGTTCCCCAAGCATGTCGTGCTGACGGAACGCCTCTGGAAGATGATCGGTGTTGATCTCGATAAGCTGTATGCGGAGCAGGCCGAACAGGTGGCCGCTGAAGCTGCAGGCTGGATAACCCGTGATGAACATGGCCAGGCGGAAGAAATCTCTGTTAAAGCCGCGCGCCGGCGCTGGTATGAAAAAATGATGCACGCCACGCTGGTTCGCCGGCGTGAAGCCGCCCTGAAGGGGAAGCGCGAGAAGAAGCTGAAAGCGCTGGCAGAACAGCCCTATGACGACCGGGCTTACGCCATGTCCGTTCATCTGATACGGACGCTGCCGAAAGACGAACTGCACGCGCTGTCGCCTGAGCAGTTTACCCAGCGAGTACGCAGCCACCTGTATCAGCTCGATCTGGGGCTGGAGAGGGAATCCGGTCCTCCTGATTATCACTGA	MNQKNPYLQLSDIESVEGLSPEFISWLESQSPKESPLQLLLDEGTKPVRKTRRRRGTHSTACLCPEPSWYRPDNFKKLPGQLGHAYNRLVRRDRKTGALSLRMRISRHPYFVQLREQAGRQRDFRPEREKLLDAIVPLLVSTVDRATHIDTINLSKMAWQLSEKDSEGNVIRKVTVPRVCRLLQHMMEFGLLALPEGVTWDPFNRKWFPKHVVLTERLWKMIGVDLDKLYAEQAEQVAAEAAGWITRDEHGQAEEISVKAARRRWYEKMMHATLVRRREAALKGKREKKLKALAEQPYDDRAYAMSVHLIRTLPKDELHALSPEQFTQRVRSHLYQLDLGLERESGPPDYH				NA	NA	NA	NA	NA
BMS020_07816	249			hypothetical protein	ATGCTGTGGGAGGAAGTAGTGAACAGAGTTACTGAGCGTCAGGAACAGAAGAGTAACCCGGAGTTCCAGAGAGAGTACCGGAACCGTATCCGGGAAACACACGACCAGTTAAACCTTTATCTCCCCAAAGATGCAAAAAGAATGTTGATAGAGATCACAAAAGTAAAAAAGCTCACTCAGGCTGAAGTTATTGAATTTCTTGTAAAAAGCTATTATGACGGACTGAAATTTGACGATTCTGAAGAGTGA	MLWEEVVNRVTERQEQKSNPEFQREYRNRIRETHDQLNLYLPKDAKRMLIEITKVKKLTQAEVIEFLVKSYYDGLKFDDSEE				NA	NA	NA	NA	NA
BMS020_07817	654			hypothetical protein	ATGAATGCGTTATCAAACACTGACTTTAAGAAAATTAGTAACAATGCGCGTCCTAAAAGGCTTGGATACTACGCATCATGGCTCTGGATGATGTTTGTATTCCTCTTTCTGTTCGTTAGCGCTTTCGTGTTTCTGAGCGGCTTATACTGGACGATTAGAGACGGTTCAATTCAGGAGCACTGGTTTAGTACAGTTGGTATCTTTGTTATCGATGCAGTGCTGATCTGGATGTTGAAAAAGGACTTCAGGAGCCGCAAGCTCTACCAGGTAACTGCTTCAATGAAAAACTCTGGTTTCTTTGAGCCTCATAAGGACTGCGAGCACTATGACCTAGCCCGGAGGACTTACATAGGCTTTGACTTCAGTACTGGAATCATAGGAGTAGCATCTCTGTATGCCACATCCAGTATTAAACGTGAGCGGCTATTTTTTGAAGCCGAAACAGTCGAGTCATGGGAGTCAGTCGGCAGGGAGTTAATCATAAACCTGCGAAATACGGGGCTTACGACGATAACGATCACAGCTCCAAATATCAATAAAGCGTACAGGGATATGGAAATCATCTGTAGAACGCATAAAAATAGGGATGAAAACTATCAGCATCTGAAGAGTAAACTGACAGACGCTGGATGGTTCATAAACAGCAATTATTGA	MNALSNTDFKKISNNARPKRLGYYASWLWMMFVFLFLFVSAFVFLSGLYWTIRDGSIQEHWFSTVGIFVIDAVLIWMLKKDFRSRKLYQVTASMKNSGFFEPHKDCEHYDLARRTYIGFDFSTGIIGVASLYATSSIKRERLFFEAETVESWESVGRELIINLRNTGLTTITITAPNINKAYRDMEIICRTHKNRDENYQHLKSKLTDAGWFINSNY				NA	NA	NA	NA	NA
BMS020_07818	2181			hypothetical protein	ATGAGTAAATTAAAAAGGTTGCTTCTATCTCTTTTCGTTGTGGCGTCGCCTTCGTATTCAGCGGATTTGGGGATTGATGGCATAACTGAAGCGGCTAAACGTTCAGGTGACCTATCGCGCCAAATGTTACATACCGTTTTTGGTGAGGTAGTTAATAACCCGTTTAGCCCTTCCGGCGATGGCTTGCTTAATAACGTTTTCTTCACTGTCAACGAAGTTATAGCGATTCTTGCCCTCGTCTATATGGGGATAATCAGCATTAAGAAACTTCACCAGGCAGGTCAGTTGGGAAGTTTTATTGAGGGTGATGGCAACAACGCATTCAAAATTGTTAAAACGACTTTTGGGTGGTTGTTGCTTGTACCTACCGTTGTCGGTTGGTCTGTGGCGCAGCTGCTTTTTCTATGGTGCGGTTCAATCATTGGCGTAGGATCTGCCAATGTTATTGCAGACAAAACGGCTTCGGAATTAGCGAGTGGTAAAGCTGTCTATATAGCCCCTGTTATGCCAGAAATGGCGTCTGTTGCAAAAGGGATGTTTGAAACAAACCTTTGTGCTTTGGGTGTAAATCAGGGGATTGCTCAAATGGAGGCTTCTGGCCAACATTATGAGAATAACGCCAGAATGCAATACCAAACAGGTGATAGCACATATTCGATATCTGTAAACAACGGCTCAGCTGTATGTGGGACCGTTTCGCTCCCACAACGTCCAGCAGGATGGACTTCTATCTTCGCTAGCGGTTATGCGGATTCCGTCTACAGCGTTCAGCAACAAGCAACGGACACGTTGTGGGGAAAAATGAAGACTGCTGCAGAACAGTTTAATGCAGCATATATGGCAAAAATGCGTTCCGGGGACGGTGAGCTGCCAGATGTTGAAAGCGCGATCCAGACTGCTGCGCGTGATTATCAGCTTCAGGTTCAACACGCTGCTAATTCAGCAGCCGGTGATGACGAAATTGTTCAAAAAATGGAGTCGGATATCAAAGAGAAAGGGTGGCTATATCTTGGTGTGTACTATCACACATTAGCTACTGCGAATACCGAGATGAAAGATGTTGCTAACCTGAAGCCGGTAGTTTCAGGAATGAGTAATGATGGCGATATCGGCTCTATCGATTACTTTAAAGGCTTGTTCCAGGCTTACCATTCTCAACTGAAAAATAGTAATTATACGCCGCCTCTTGGCACCGAATCTAACGCACTTGCAAGGAACATTGATCAAAAAAGCCTTGAAAATGCCGCCACAACTGGAGACGGAACGTCCCTTATTACAAAAATTTTCGACTTCAACGTTACAAACTGGCTTGCAACGAGTAACTACGGCACTGGTGATGGTTACAGTGACGTGACCAACCCTTTACTCAAAATGAAAGCTATCGGCGATTACACGTTAGGTGTAGCTGAGGTTGGACTCGCCAGTTGGACCGCTATCAATGTTGCAGTGAAGGTTTCAGAAGGGAAGAGTCTACCCGGTTTTGCTGCGGGAATGATGAACAAACTTACAGGGATTCGAGATGCTATTGCAGGCGTATTAGAATCGGTTTCGTTCTTGGTTTACCCGCTGTTTTATAGCCTCTTTGGTATCGGTCTTGCGCTGTCTATCTGGCTGCCGTTTATACCGATGATTTATTGGTTTGTAGCTATGGCAGATTGGCTGGTTACGCTTATGACAGGTGTATTGGCGTCTTCCCTGTGGGCAGCTACCCATATCAACATTGGCCAGAGTAATGATGAGCGGAGTACATATGGTTATGTGTTCCTTATCGATGTAATGATTCGGCCGATGCTCATGGTAATGGGGTTTATTTTTGCTTCACTGGCCATCGTAGCTTTGGGAACGGCGTTAAACATGATGTTTAAATTCGCTATGGAACAGGTCCAGTCTGACTCTTTCACTGGCCTGCTGTCATCGATCGGATTTTTGATGTTATATGCAAGGCTTTGCACAGGTATGGTGGCTCGCGTATTTGCACTTCCTGCGAGGATGCCGAACTATGTTATAAACTGGATTGGACAGAAGATGAACGATTCAGTGTTGGGTGATATGCAGAACCATGTTCATGACATCTTTGCTGCGTTCGGTCGTGGAGCCAAAAATATGAACCGTAACAACCCTAAGCAATTTAATCCTGACGCAGGTGTAGATAAGAGCAAGGACGGCATCAAAGGAGCTTAA	MSKLKRLLLSLFVVASPSYSADLGIDGITEAAKRSGDLSRQMLHTVFGEVVNNPFSPSGDGLLNNVFFTVNEVIAILALVYMGIISIKKLHQAGQLGSFIEGDGNNAFKIVKTTFGWLLLVPTVVGWSVAQLLFLWCGSIIGVGSANVIADKTASELASGKAVYIAPVMPEMASVAKGMFETNLCALGVNQGIAQMEASGQHYENNARMQYQTGDSTYSISVNNGSAVCGTVSLPQRPAGWTSIFASGYADSVYSVQQQATDTLWGKMKTAAEQFNAAYMAKMRSGDGELPDVESAIQTAARDYQLQVQHAANSAAGDDEIVQKMESDIKEKGWLYLGVYYHTLATANTEMKDVANLKPVVSGMSNDGDIGSIDYFKGLFQAYHSQLKNSNYTPPLGTESNALARNIDQKSLENAATTGDGTSLITKIFDFNVTNWLATSNYGTGDGYSDVTNPLLKMKAIGDYTLGVAEVGLASWTAINVAVKVSEGKSLPGFAAGMMNKLTGIRDAIAGVLESVSFLVYPLFYSLFGIGLALSIWLPFIPMIYWFVAMADWLVTLMTGVLASSLWAATHINIGQSNDERSTYGYVFLIDVMIRPMLMVMGFIFASLAIVALGTALNMMFKFAMEQVQSDSFTGLLSSIGFLMLYARLCTGMVARVFALPARMPNYVINWIGQKMNDSVLGDMQNHVHDIFAAFGRGAKNMNRNNPKQFNPDAGVDKSKDGIKGA				NA	NA	NA	NA	NA
BMS020_07819	651			hypothetical protein	ATGACCGACGAAAATAAAACAGGGGATAAAGATACAGCTAAATCAGGAAAATTAAAAAAAGGGCTTGATGTTGTAACAGGAGTCAATGATCTCCCGGAAGGGAAGGCTAAACGAACGATATATTATATAACTGGCATCAGCGATATATATTTCATTATCGCGTCAGTAAAGCAAACATTCAGCCTGCTCTTTCAGCGGGCTTCATTCGTTAAGAAGCAAATAAAAAACCTTGATGGTCCACCTGTTGATTCTGATGCAAATCAGCCGTTCGCCGAAGTTATGAAACGGAGCAATAGACCTATACCAGAATTGTTGGATAAGGCCAGTTTGTACAAGAAATACTGGCTTTGTTGTTTTTTTGCATTAGTCCTCATTCTGCTTTTTTTAACGTCTGGTTATGCCAGATTGCTTCTAAATGGCTCACCGAACATGAGCTTGTTAAGAGCAACTCTCACCTGTGGCGTCCTGTTTGCTGCGGGGATCTTTGCTTTCATTAAGGCTCTCACATGTGAGTTCATGGGGTGGCAGTTACGAAACCAGGCTCACTCCGATGCAGAGCAAGGTACGTTACGTTATTTCCTTAATGATGGGGGAGTGCGTAATACATTTAATTTTTCGCAGGCTGGTCAAGAGCGGGGGCCACATGAGTAA	MTDENKTGDKDTAKSGKLKKGLDVVTGVNDLPEGKAKRTIYYITGISDIYFIIASVKQTFSLLFQRASFVKKQIKNLDGPPVDSDANQPFAEVMKRSNRPIPELLDKASLYKKYWLCCFFALVLILLFLTSGYARLLLNGSPNMSLLRATLTCGVLFAAGIFAFIKALTCEFMGWQLRNQAHSDAEQGTLRYFLNDGGVRNTFNFSQAGQERGPHE				NA	NA	NA	NA	NA
BMS020_07820	1209			hypothetical protein	ATGATAAAAATCGGAAACGCAAAACGGTCAGTGATGGCCGTTTCAATTCTGGCCTTCAGCGTACAGTCAGCATTTGCCTATACGGTCAACGTTAACAGCAGCATTCCCATCTCAACGCAGGTTATGCCGGCGTTGAGCACAGCTAATGGCCTGTTAGGTAACATCCAGGCCACGCTGATTAACATTGGTACGGCAATCAGCCAGCAGGGCGATCGCCAGGCAGCATTAATGCAGCAGGTGGCTGAAACTAACCGACAGTTCGAAGTCGAGCAAAAACGTAATGACCGGCTGCTGCAGGCACAGGATAAGTACCGTGTTCCGGATGATATCTGTGCGCAGTCTATTGGCGGTGGCGCTGCGGGGGTGTCCTCAGCGGCCGCTGGCGGTCAGCGAACGCTGGGAAGCGCCAGTTCTGCGAAAGATGTTAAGGCCATTTTTGAAGTGCCGGCACGCGCAACCGACGTGGATGCTTCTTCAACGGCCGAAGTTCACAGCCAGTACTGCGACAGTTCGGATTATGCTGCATTTGGCGGGACTTCATTCTGCCCAAGTGTATCTGACATGCCGCGGGCAGATACCTCACTGAGCTCGTTGCTTTATGGCGCCGGCAAAGAAGGCAAGGCACCTGATCTGACGTTTACAGATGAGCAGACAGATGCGGCGTTGCGCTATATGAAAAATACCGCGTTGCGCAGTGCTGGCCGTCAGCTGAGTCGTGGGGAAGTTAAAGGCGCCAGCGGGCGAATTTACCTGGGCATGATTCAGCAATACCAGGCGCTCACCGACGCGGCCGCACAACCTCAGATGGAAATGATTGCCAACTCCAAACCGAACCCGGCCACTGATGCCGCGCTTGCAGATGCGCGCAAAGTGCCGGAAGTCGAATCCTATTTCCAGGCGACGGCCAGTAACAGGGCGAAACAGCTTAACCGTATGTCTGCCAGAGAGTTTGAGGAATTCGAAGTAGGTCGCCGTTACAGCAACCCTGCTTACCAGGCGACGTTGACCAACAAGAACACCGAAGATTTGATGCGTGAGCAAATCAATATCGCCAATCTGAACAACTGGTTAGTGCTGAAAACCAAACAGCAGCTGGAGAAACAAAATGTGCTGCTTGGCCAGATCCTGGCGAACGATGCATATCAAACATACAAACCGATGCTGGCAGCACAGCTGGAGAGTGTGAACGCGGGAGTATCCAGAAAATGA	MIKIGNAKRSVMAVSILAFSVQSAFAYTVNVNSSIPISTQVMPALSTANGLLGNIQATLINIGTAISQQGDRQAALMQQVAETNRQFEVEQKRNDRLLQAQDKYRVPDDICAQSIGGGAAGVSSAAAGGQRTLGSASSAKDVKAIFEVPARATDVDASSTAEVHSQYCDSSDYAAFGGTSFCPSVSDMPRADTSLSSLLYGAGKEGKAPDLTFTDEQTDAALRYMKNTALRSAGRQLSRGEVKGASGRIYLGMIQQYQALTDAAAQPQMEMIANSKPNPATDAALADARKVPEVESYFQATASNRAKQLNRMSAREFEEFEVGRRYSNPAYQATLTNKNTEDLMREQINIANLNNWLVLKTKQQLEKQNVLLGQILANDAYQTYKPMLAAQLESVNAGVSRK				NA	NA	NA	NA	NA
BMS020_07821	3051			hypothetical protein	ATGATTTCTTTCTTTGAGGATGTGATCGAAGGTATCTCACGCAATCTTACGTCAAATGACTCGTTAAAATACTGTGATTTGACAACGGTTGTAGGGCTTACGTCGCAGGATCGCGTTGAGCATCCTGAAATCAGGGCTCCGTACATACTGACCACGAAGAACAACGATTTTCTTACCGTTATTGAGGTTCAGGGCGCTAAATCATCGTTTGACGAGAAGTCGTTTAATGACTTCATCATGCACCTTTCAAACTCGTTGTCGAATTCCTTTATTAACAGTGGCCATAAGCTGTCTGTGGTGTTTGAGCGCGACTTTACCAAGAACCAGGAAGAGCTGAATAATGTTTATAAACCGCAGGTAGCAGCAATAGAGCGCCTGCAGATCGACATTAAAGACCTGATCGCCGATGACGCAAAAAAAATCGCTGCCCATTACAGCCGTGAACGCGCTTACATCGTGCTGTATACCTCGAAGGGGATGATTGCGAAGGATGAACTTAAAAACGAGCAGGCAAAAGCTGCCGGCGTTATGAAGGATATCCCGCAGACTCGCTTCAGTCAGAACCCAATCGAATTTCAGCTTGAAGGTTTGAAGATCACGCATGACGCGATGCTTTGGCGGCTGATTGGTATGCTTCAGGGAGATGATGAGTCGGGGATGGGGCTTCTGGTTGATGTCCTCGATGTCAAACACGCCGGCGCAATGATGCGTCAGATGCTGTTCCGGAACTCAACATCAGAAAACTGGTACCCTCGCACGCCGTTTGACCAAAATCTGCGAGTTTATGGCGCTCCACGCAAAGGCAATATCGACTCCGTGCTGCCGCCGCGGCTGAATATCCAGATCATGGAAGGGGAACTGGAAGAAGATGGTGGCCTGATTTACTGCGATGGCAAGTATTACGGCTCTGTGGCCCTTGAGTTGCCACCACTTCACCCTGTCAAATTTAAGCAGTTATTCAACGCGATTAACCGGAAAATCCCGTACCGGATAAAATATGACTTTATGGGCGGGGGCAAAAAAGCACTGTTCTGGCCATCAGTGATCATCTCTTTCCTTCGTTTCATTCCCTCACTCGGTACTATCGCGCGTGATATGGATTATGTCGGGGCCCAGAGCGAAACCGATCCAACGGCTATCATGGCCATCAACTTTGCCACCTGGGGTGACACTAAGGATGAAGCCAAACGCAACCTGGCGGCTTTAACTAAGGCGATTGAAGGCTGGGGTGTATCAGGTGTGTCCAAGACGTATGGTAATCCAGGTAGCGCACTGATTGCATCCGTTCCGGGGCTGACGACGGCCACACCTGGCTCATTGCATTATCCGCCGTTGAGTGAAGGCTTGCGGATGTTACCTTTTGAACGTCCGGCCAGCCCCTGGCATGGTAAAGGCAATATCAACTTCATCACGCTCGATGGCAAGCTGTTCCCCTATCAAATCGCCAGTCCCCTGCAGGAGAAATTTACCGATGTCATCACCGGTGTTCCTGGTTCCGGTAAAAGCGTGCTGGCCAACCGCCTTAACCTGAGTTCGATTTACCGGGCTGATAAAAAGCTGCCTTATCTGACCATCATTGATAAGGGCTACAGTGCAAAAGGTATCGCCGATCTGATTAGCGCTGAGCTGCCGGCAGAGAAACGTCACCAGATTGCCAGTATCACCCTGAACAATGACGAGTCGCACTGTATTAACATCTGCGATACGCAGTTAGGTTCAAGGTATCTGACGCAGTTTGAGGAAGTATTCTTAAAGCAGATGCTTAACGCATTCTGTATTGATCCGGCAATTGGCCAGCCGCCAGATGCAATGAGCGTTGGCCAAATCGTCAGTAAGGTTGTATCAAACGTATACAAAGCAAAAGCGCATTCAAGTGCTAACTTGTTTAAGTATAACGACCCGGTGATTAATGAAGCTCTGAAAGAATCAGGTCTGGATAAAGAGCTCGGTGAAGACTGGTTTGAAAGAGCTACATGGTGGGAAGTCGTTGATAAGCTGTTTGCCAAAAAATATCTTCATGCTGCGACAGTTGCTCAGCGTTATGCTGTGCCAACCATTCACGATTTTATTGCTGAACTACAAACTGAATCATTTAAAAACCAATACGCTGACGTAAAAGTTAATGGGAGTGAGCCTGTAGTAGGCTTCGTTGCACGTTGTTTCCAGGCTGCTGCAGCTGAGTATGCCATTTTCTCTGGGATCACGGTTTATGATTTCAGCCCGGAGACTCGCATTGCGATCCTGGATATGCAAAACGTCCTCGGTGACAGAACGACACCTGCAGGTAAGCTCAAGTCCGGCATTATGTATCTTTTTGCGCGCCAGATGGCTGTGCGTAACTACTACCTGCCTCAGTCTGCAGAAACCTTCATTCCTGCTTTACCGGAGCAGTACAGGGCATATCACCAGGCGCGCATCAGGGAGCTTTCAGAAGAGGTTAAACATACCTTTTATGATGAGTGTCATAACTTTGCCGGCATCGACTTTATTCAAAATGCGCTGAATACCGCTGACCTTGAAGATCGTAAATTCAACGTTCGTACTGCGTTCTCGTCTCAGTATCTGAGCCATATGCCTTCGAGCGTGCTTAAAACCATGAACAGCCTGTTTATGATGCGCCTGACGGAAGGGGATGAAGAGTATCTGAAGCAACTAGAGATCAACATCCCGGCCGATATCCTGCGTCGTTTCAGACAGCTTCCGCAAGGGGTTTATCCGGACGGAAGTGGTACTGCATTTCTCGGTATTTTTAAAACTAAACGTGGTCTAATTTGCCATATTCTGAAAAATACATTAGGTCCAAAACTGCTTTGGGCATTGAACTCTTCTGCAAAAGACAGGGCGTTAAGGGATGTGCTTTATGAAGAGCTGGGAACGAAACAGGCAAGGGAAGTATTAGCAAATAGATTCCCTATGGGAAGTGCATCAAGTATCATAGATGAAATGGTGGTCAATCAGGGTGGTGAGCGTGATTCAGAAGAAGAATCACAAACTATGGCGATGAAGCTCGCTAAAGAAATCATTTCTGATGTGAGAAGGGGATTCAGATGA	MISFFEDVIEGISRNLTSNDSLKYCDLTTVVGLTSQDRVEHPEIRAPYILTTKNNDFLTVIEVQGAKSSFDEKSFNDFIMHLSNSLSNSFINSGHKLSVVFERDFTKNQEELNNVYKPQVAAIERLQIDIKDLIADDAKKIAAHYSRERAYIVLYTSKGMIAKDELKNEQAKAAGVMKDIPQTRFSQNPIEFQLEGLKITHDAMLWRLIGMLQGDDESGMGLLVDVLDVKHAGAMMRQMLFRNSTSENWYPRTPFDQNLRVYGAPRKGNIDSVLPPRLNIQIMEGELEEDGGLIYCDGKYYGSVALELPPLHPVKFKQLFNAINRKIPYRIKYDFMGGGKKALFWPSVIISFLRFIPSLGTIARDMDYVGAQSETDPTAIMAINFATWGDTKDEAKRNLAALTKAIEGWGVSGVSKTYGNPGSALIASVPGLTTATPGSLHYPPLSEGLRMLPFERPASPWHGKGNINFITLDGKLFPYQIASPLQEKFTDVITGVPGSGKSVLANRLNLSSIYRADKKLPYLTIIDKGYSAKGIADLISAELPAEKRHQIASITLNNDESHCINICDTQLGSRYLTQFEEVFLKQMLNAFCIDPAIGQPPDAMSVGQIVSKVVSNVYKAKAHSSANLFKYNDPVINEALKESGLDKELGEDWFERATWWEVVDKLFAKKYLHAATVAQRYAVPTIHDFIAELQTESFKNQYADVKVNGSEPVVGFVARCFQAAAAEYAIFSGITVYDFSPETRIAILDMQNVLGDRTTPAGKLKSGIMYLFARQMAVRNYYLPQSAETFIPALPEQYRAYHQARIRELSEEVKHTFYDECHNFAGIDFIQNALNTADLEDRKFNVRTAFSSQYLSHMPSSVLKTMNSLFMMRLTEGDEEYLKQLEINIPADILRRFRQLPQGVYPDGSGTAFLGIFKTKRGLICHILKNTLGPKLLWALNSSAKDRALRDVLYEELGTKQAREVLANRFPMGSASSIIDEMVVNQGGERDSEEESQTMAMKLAKEIISDVRRGFR	PGPT0030205_53	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-ICM|DOT_SECRETION_SYSTEM,PGPT0030205-icmB|dotO-K12206	NA	NA
BMS020_07822	495			hypothetical protein	ATGAAAGATTTTAAGCTCACCAGGAATGAACAACCTGCCAGATGCCATGTGTGCGGGATAAAGAGCAAAGATGTTTTCTCCCTCGCAGAAGATGGACAGAAAGAGAGAATGCTTTGCTCTGTATGCCTGTCGCTCGAACACCCGGAGAAAATGAAACTAGAAACTCAAACCGGACTTCTGCTGAAGAGAAATACAAACCGAAAACTCTACAGCCTGTTGTTTCGTTCAATTGCAAAGGCGGAAAAGTCAACGGACAATTCTTACCGTGAAAAGGCACAGAAACTTAAACAGATTTTGCTCAGCACAACTGACGTAGTTCTAAACGAAACCGGCAGTGATGATGGATACGATTTACTGCACCTGATAAAAAAACACCATCAGTTACTTCCCATGAATTTTGACGATGAGTTTGTCACTTCTGTCGCAGAGTCAGACGAATTGCCGGATGTAAGTGACTGGAATGAAATTTACAAGGGTAAGAGAGGTTTTAAATGA	MKDFKLTRNEQPARCHVCGIKSKDVFSLAEDGQKERMLCSVCLSLEHPEKMKLETQTGLLLKRNTNRKLYSLLFRSIAKAEKSTDNSYREKAQKLKQILLSTTDVVLNETGSDDGYDLLHLIKKHHQLLPMNFDDEFVTSVAESDELPDVSDWNEIYKGKRGFK				NA	NA	NA	NA	NA
BMS020_07823	390			hypothetical protein	ATGAAAATTGTTAAATTTATCAAAGACAAGGCGTTATCTGCATCCATCGCAGCGTATCAGCTGCGCGGAACGGTAGCAAAATCGTTAGTGGTATTACCCCTAGCATTACTGAGCAAAGAGGCTGCAGCTGAAACGACTGTCTGGGAAAAAATCAATACCTTCACTGAAGGTATGGCCAGTACCCAGCCTGGTCTGATTACCGCTGGTAAAGTGGTTGGTGTTGTGTGCTTCATCGTAGGTCTTGTAGCTCTGTGGCTCAAAAACAAACGCGGGAAAGATATCAGTGGCGGCTTCATCTTCTGGTCAATGGTTGTTGGAGCCTGTCTGGTCGGCCTGACCGCATGGATCTCTTCTGTTGGTTCAACCGTTGGCGTTGACGCAACCCTGTAA	MKIVKFIKDKALSASIAAYQLRGTVAKSLVVLPLALLSKEAAAETTVWEKINTFTEGMASTQPGLITAGKVVGVVCFIVGLVALWLKNKRGKDISGGFIFWSMVVGACLVGLTAWISSVGSTVGVDATL				NA	NA	NA	NA	NA
BMS020_07824	531			hypothetical protein	ATGGATTTAGAATCGGTATTAATTCAGGTTGCTAACGGTGGTCAGGAACCGCTGACAAGGCTAATCATAGGTGTCGCTGCACTCGTTGGGATCATTGGTGTTATTGGATATCTGATGAGCCTGCGTAAGCAGGCCAGGCATTCTACCAAAGGTGTTGAAGTTGGCAGAATTTTTGCCGGGATCATCTTCTGTGTATGCCTCATCACGCTGAAAGCACAGATGAACTCAGGCGGTGCCACTTTAGGATTTGGCGATGTCAGTTTCGGACCCGTCAGTTATGCGAGCGAATCTACGTTTGGCATGGGAGCCGCAGCAGTCAACGCAGTGCTGGGGATTGTTAGAATTCTCGGTGCATACTTTTTTTACAGGGGTATTAAGGGGTTGAAAGACTCTTACCTTGAGGGCCATACGGAGCTGTCAGCATCGGGCACGAGAGGGGCATCCATTGTGAAAATTGTATGTGGACTACTTCTGATGTTCGATACACAAACGCTCGATGCGTTGCAGAGCACATTAAACATTCACTGGTAA	MDLESVLIQVANGGQEPLTRLIIGVAALVGIIGVIGYLMSLRKQARHSTKGVEVGRIFAGIIFCVCLITLKAQMNSGGATLGFGDVSFGPVSYASESTFGMGAAAVNAVLGIVRILGAYFFYRGIKGLKDSYLEGHTELSASGTRGASIVKIVCGLLLMFDTQTLDALQSTLNIHW				NA	NA	NA	NA	NA
BMS020_07825	705			hypothetical protein	ATGAATCTGTTTGAAGATGACAATAAAAACGAAGCAGCTCCTGCCCAGGAATCTGTGACTGCGAAGCCTGCTGAAAAGCCAAAACCGACAGTGACGCCAGCAGCAAAAGCGAGCAAAAAGCCGCTTAATATTAGTGACTATGCATGGATTGGTGGTATCGCTGTCATCGGTATCCTGCTTTTAGTCTGGTTGTTTGGGGGCTCCGATAGTGACACTGCGCCTGCGGCCGGGAATGGCACGATCCAGTCTTCAGGGCAACGTCAGAACATACAGGCTGCCCCTGCCGGGCAGGATTCTGGTGACTTCCGCGAGCAAATTTCCGGGATTCTGCTGCAGCAAAAGGAACGGCTGGACGCGATAGAATCAACTTCTAAAAATGGAATGATGATCCTTTCCAGTCAGTTACAAAGCGCTAATGAACAAATCAAAAATCTGAACAATCAGGTTCAGGAACTGAAAATGAAAGCTGCTGGTTATGGGTCTTCATTTGGTAATCAGAGTGGAACAATTTCCGGTTCAACGTCACAGGCATTACCTTTGTTGAGAGGTTTTTCAATTAATGATTTATCTGGCGATCTTGCTTGGGTAAAATACAAAAACCAGACGTATGCTGTGAAGGTCGGAAGTCAACTTGGCGGAGTCACCATTACGGGTATCGATACTGAAAATAGAATCGTTACTACAAGTAAAGGCCTTATCCGCTAA	MNLFEDDNKNEAAPAQESVTAKPAEKPKPTVTPAAKASKKPLNISDYAWIGGIAVIGILLLVWLFGGSDSDTAPAAGNGTIQSSGQRQNIQAAPAGQDSGDFREQISGILLQQKERLDAIESTSKNGMMILSSQLQSANEQIKNLNNQVQELKMKAAGYGSSFGNQSGTISGSTSQALPLLRGFSINDLSGDLAWVKYKNQTYAVKVGSQLGGVTITGIDTENRIVTTSKGLIR				NA	NA	NA	NA	NA
BMS020_07826	1350			hypothetical protein	ATGGCTACAGATAAAGGTAAAGAAACCAGAAAAATGATGCTCTACGTCGGTGGTGCTGCTGCAGTGGTGGCGCTTCTGGGAGGGTACTGGTTGTTTGGCTCATCAGATGAGCCGGCAACGGGCGGGTCGCAGGTGAAGGCCCAGGGGCTGGAAGGGAAAACTGGCAGGGAAAAAGCTAATGATCCCCAATACAACAAGCTGCTGAATGAGTGGAATGCTGATAATTCAGAGAAAGCGGCTCTCACGGGGGATAGCTTCATATCCACGTTGTCAGCCAGTAACCCGGTGGCCGTTGATTACGGCACCAAAGTACCGCCACCAAAATATTCGTGGGAATCGTCAGCAAAACCGTCGGGCGATAACAGTAAGGCTAATGATGCTGAGCAGAAAGAGCGTGAGCGTCAGGCTAAAGCTGTGGCTACGTTACTGCAGAAAATAGACCAGGCCAGAACACCAGTTGTCACGGGTGTTGCACTTGCAACCTCTCTGGGAGCTGAGGGAAATGACAAGAACGGCGGGACTTTCTCAGGGTGGACCGATTCGGTCTATCCGCAGAACAAAAAGCCGGATGCTGAAAAACAACAGGGGGCGAAGAATAAGGCCAAAGATAAGGGAGCCCGACTTGTATCGGCGTACACGCTTGTGCCGGCGGTAATGGATACTGCGATGGACAGTGACGATCAGAACAGTATTGCTATTGCCCATGTTCCGACTGGAGCGCAGGCCGGCGCCAAATTCTATTCTGGCCAAAACCGTCTTGCCGGCGATGGTATTCGAATTCACTTCACTGGCATGGAACTGAACGGGGTGCAGTGTAAGGTCGATGCGTATGGTGTGGCTTCCGACTCGTTGCGCGCGGCCGTTTCATCAAATGTAAATAACCGCTGGTTCAGCCGTATTATTCTGCCGGCTGTCGCTAACGGATTAGGCCGAACTGGTCAGCTGTATGCGGACAGCAATTCGCAGATGATTATCACTGACGGCGGGAACGCATACCGCTCAACTGGCACACCGAACGGGAAGGCTGTAGCCGGTACCATTATAGGCGGGATGGGTGAGCAGGCAGGGCGTGTCCTGGCCGACGATGCAGCTCGCCTGCCGGTTAAGCAGGTAACGGTTGACCGTAATCAGCTCATAGGCATCCAGTTTGTCGCGCCGGTGTATGAAAGCGACTGTGGCGAGAATATGGAAAATGCTTCTGCAGAGCAGGCGCAGCAGCAAGCTACTCCGACACTCACCAGTGTGCCGCCTCAGCAGATGCCACAGCCACCGGCTCCTAATTACCCTCAGCAAAACTTCCCCAGCTACCCTGGCTACGGGTATGGCTCCAGTAACCCGTATTACCGTTAA	MATDKGKETRKMMLYVGGAAAVVALLGGYWLFGSSDEPATGGSQVKAQGLEGKTGREKANDPQYNKLLNEWNADNSEKAALTGDSFISTLSASNPVAVDYGTKVPPPKYSWESSAKPSGDNSKANDAEQKERERQAKAVATLLQKIDQARTPVVTGVALATSLGAEGNDKNGGTFSGWTDSVYPQNKKPDAEKQQGAKNKAKDKGARLVSAYTLVPAVMDTAMDSDDQNSIAIAHVPTGAQAGAKFYSGQNRLAGDGIRIHFTGMELNGVQCKVDAYGVASDSLRAAVSSNVNNRWFSRIILPAVANGLGRTGQLYADSNSQMIITDGGNAYRSTGTPNGKAVAGTIIGGMGEQAGRVLADDAARLPVKQVTVDRNQLIGIQFVAPVYESDCGENMENASAEQAQQQATPTLTSVPPQQMPQPPAPNYPQQNFPSYPGYGYGSSNPYYR	PGPT0030220_49	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-ICM|DOT_SECRETION_SYSTEM,PGPT0030220-icmE|dotG-K12209	NA	NA
BMS020_07827	1152			hypothetical protein	ATGAAGATTAAACTGTTAACCGTACTTATGGCCGCACTGTTTTCGGCAAATTCTGTATCTGCAGCTGATGCACCCACAAGTAATGGAGCGTCACAGCAAGCGACGCCAGCTGTGCCTGGTGGTGACATTGCTCAATGGCAGCAGGCCAGTTCCGGATTGCCCGTAAACCAGCAGGCACAGGTGCAACAGCCACCACAGCAAACAGCGCAGGAACAAGGTCAGCAGCAGGCGCAAGGCCAACAACCACAGCCACAGATCCAACAGCGGCCAACTGCTGCACTGCCTCCCGCACCCATGCCGCAAATACCTCCACCTCAGCAGCAGGTTACGCACGTTAATCCGCAGACACTGGAAGAGTTACCTGCACCTGTTCTGCAGCAGATCCAGCCTATTACCCCTGGTCAGGTACGGTCGGCCCGCAGCGCAATGGAAGATATGAGCGCGGCGGCCAAAACCTCACCACTAACGCCGATCCCACGAATTTCAAGCCAGACGGTATCACTGTCAGCTGGCGCATCCATTCCGCAGGTACGGGTATTTCCAAACCAGGCAACCACAGTGACGTTTTCAGATGCAACCGGACACCCCTGGGTATTAGGTGCCCCTCCATATAATTCGAGTCCCTGTGCATCTGGTGGTGAGCTGTGTGTTGGCTATATTCCAGGATCGGCGGTATTCACAATCCAGCCGACCAACGCCTATGCCAGCGGGAACATCACAGTGCTTCTGAAGGGGCTGGCCACGCCGGTCATTATTAACGTGAAGGGGGCTGAACCCTCCGTTAAATCAAAAACCGTTGATGTTGATTATCGTCTGGATCTCCGTATCCCGAAGCGCAGTCCTGACACACCGGTTTATACCGCTACGCCTGAGAAGAAAATCTCACTGTATGACAAGCAGCTGCAGAGCGTGCTCGATGGCATCCCGCCTGAAGATGCTCAGCGGTTGAAACTTAAAAACGCGCCAGGGAGTACCAAAGTCTGGCAGATCGGTGATGAACTCTACGTCAGAAGTAACATGCAGCTGCAGGATGAGTTTGAAAAAACGCTTTCCGCTATCGATGGCACACATGTTTACGTGCTGCCGGCAACACCAGTGCTGACCTTTTCGGTTAACGGTCAGGCGCGTGACGTTGAAGTTGAGCTGAATTAA	MKIKLLTVLMAALFSANSVSAADAPTSNGASQQATPAVPGGDIAQWQQASSGLPVNQQAQVQQPPQQTAQEQGQQQAQGQQPQPQIQQRPTAALPPAPMPQIPPPQQQVTHVNPQTLEELPAPVLQQIQPITPGQVRSARSAMEDMSAAAKTSPLTPIPRISSQTVSLSAGASIPQVRVFPNQATTVTFSDATGHPWVLGAPPYNSSPCASGGELCVGYIPGSAVFTIQPTNAYASGNITVLLKGLATPVIINVKGAEPSVKSKTVDVDYRLDLRIPKRSPDTPVYTATPEKKISLYDKQLQSVLDGIPPEDAQRLKLKNAPGSTKVWQIGDELYVRSNMQLQDEFEKTLSAIDGTHVYVLPATPVLTFSVNGQARDVEVELN	PGPT0030240_16	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-ICM|DOT_SECRETION_SYSTEM,PGPT0030240-icmK|traN|-K12213	NA	NA
BMS020_07828	714			hypothetical protein	ATGAAAACACAAAATGGTGAAAATATTATGGATCAAACTGAGTTAGAACAAAACTCAGCCGTTGATGAGGACAGCAACGCTCTTGCTCCAGCTCTGGCCGAAGAGAGTAACCGAACGGTACAAGAAATCGTATCGAAACATGGTTTAAAAGTAATTTTGATTCAGACGCTAATCATATTAGTCGCAATCATCATCATTGGTCTTCAGGGGTACTGGCTTCACCAGAAAAAAATTAAATATATTGCAACGAATGGGGGCATGATCACAGAAGTACACCCAACCGATGAGCCCGCTTACACGGCGGAAGAGGTGATGGATTTTGCCAACCGTACAATGATCAAATCGCTTTCACTGAACTTTGTGAATTACGAAAACCAATTAACCAGCGTCCGTGGCGATTTTAGTGCGGAGGGGTACGTTAGTTTCCGTAAAGCGCTGACCGATAGTGGGCTGCTGAAAGATATCAGTGATAAACGTCTGAACGTAAAACTTTCCACAACTCCTGGAACCCTGATCACGGAAGGTCTTATCCGTGGCACCAAAACCTATGCCTGGCAATACCGCATTCCGGTGACTGTTCAGCTCGTTGGCCAGGCTCAGGACTACAGACCACAACCTTACGATTTGATGGTTCAGGTACGCCGCGTCAAAGAAGACGAAGATCCACGGGGTATTCAAGTAGCGCAGGCCATTCTCAAACCCCGGAACTACTGA	MKTQNGENIMDQTELEQNSAVDEDSNALAPALAEESNRTVQEIVSKHGLKVILIQTLIILVAIIIIGLQGYWLHQKKIKYIATNGGMITEVHPTDEPAYTAEEVMDFANRTMIKSLSLNFVNYENQLTSVRGDFSAEGYVSFRKALTDSGLLKDISDKRLNVKLSTTPGTLITEGLIRGTKTYAWQYRIPVTVQLVGQAQDYRPQPYDLMVQVRRVKEDEDPRGIQVAQAILKPRNY	PGPT0030245_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-ICM|DOT_SECRETION_SYSTEM,PGPT0030245-icmL|traM|-K12214	NA	NA
BMS020_07829	651			hypothetical protein	ATGCAAACAGTGATGCATTCCCGTTCCATTTGTAACTACCGGAAGAGTCCTTTCGGGATTTTATCGAATAGCTTGCCGGTTCGTATTTCAACGCGGCGGTGTTCCGCCGCGGTTAGTAAACGCATAAATTCTGTGGCAGGTAGAACATCACGTTTTGAGTCTACATACGTATCAAGCGAATCTTCATTCATGAAACGTCTGACAGTATGCAGCCAGTCTTCAGCTGATTTCATATTTTTTGAGCTCATCGTCGCTCATCTCGGCAAACGCTGCAGGTCGGCGACCTTTTCCTGTCCAGGTTATGGACTTTCCATCAACTTCGATCCGGTACTTCACTTTTCCAAACGTGGATTTACTTTTCGTGGACGGACCAAAGAGATTTTCGAAGATCTGGAGAGCTTCATCAGCCGTAATATTGTGTTCTTCCATGAACCGCTTTGTGGCTGCGGCTTTCTCTTCAGTGGCCTTCTGTTCTTCCTTAAATTTCTCGATCATTCCCTGTGCAATGTCGGACCACATGTTAATGAGTTGTTCAAGGTTTTCTGGCGGGATTTTGCGCAAAACGGCGGTGGCTTTTCGTCGTTCGCACATGATAACTGCACAGGATTCGTAATCATTATGTTCGCTCATGTATACCTCATTGTTCATTAA	MQTVMHSRSICNYRKSPFGILSNSLPVRISTRRCSAAVSKRINSVAGRTSRFESTYVSSESSFMKRLTVCSQSSADFIFFELIVAHLGKRCRSATFSCPGYGLSINFDPVLHFSKRGFTFRGRTKEIFEDLESFISRNIVFFHEPLCGCGFLFSGLLFFLKFLDHSLCNVGPHVNELFKVFWRDFAQNGGGFSSFAHDNCTGFVIIMFAHVYLIVH				NA	NA	NA	NA	NA
BMS020_07830	1677			hypothetical protein	ATGATGGCCTTTGGCGGTGAAACAACTGACTCCGCTCAGCAAAAGCCTGAAGGGATAGCGCCCAGCGAACCTGTAGCTAATACCGCCCCGGCTGAAAATGAAACCGAGGAGAAGAAAAAAACAAACGAAGAACTGGAAAACGGCATACGCTGGGCAACCAACGATAATGCAGAAACGCCCCCAAAAGAACGTATAGACCTGGAAGGGTTAATTGCCCGGTTTGGGTACAGAGCAGAGAAAGACTATACGGCGTATACGCTTGATGGACAGGATGCGTTTTACGATTACGGCTCACATCTGCGTATGGCTACCCCTGAAGCCAGCCAGAGTGACGAGATGATCCTGGCGGCCGTTCTTACCGCGGATAAGCAACATCATCGTGGTATTGAAATCACCGGCAGTGACGAATTTAAAGAGCGAGTGTTTAACCTTATCAGTGAATACAACATTGAGGTGAAACTGACTAACCCAGAACAAAGGGTTAAATTGCTCGAACTCAAAAAAGCAAATGAATCAGCAAAAGAAACGGCAAAAGAAAATGTTGCTGATTCAAATGCGAATAAGCAGGAAGGGGTAAACGAAAAGGCAAATTCATCAGTTCAGCAGAATGGAATGCGCTGGGAAGAATCGGCCTCTGTACAGCCGAAGAAGCAGAATGCATCTGATACTCAAAAGGAAGATAAAGCTGCGGGTGAATCCTGGGAGAAAGGCGTTATCGTCGCGCATGGACGTGCTAAGTATGAGTGGAAAGATGATGAATCCATGAACTACTTTGTCACCCTCAAAAATGAACATGGAGAGAAGACACTCTGGGGGAAAGACCTTGAGAGAGCGGTTAAAGATGCTGGTGTAGACACCGAACGTCTTGTTACAGTCAGAAAGCTGGGATTTGTGGATGTTGAGGTGAATGCACCTGTCCGTGATGAAAGCAACAAGATCGTTCGTTATGAAACTATCCAGACCAAACGTAATGAGTGGGAAGTAAAACCTGTATACCCACAGCCAACAGCAGGGAATGAACAGGCCTATAAGCCTTCTGAACTGGTTCCGTATGATGCTGCAACCTTCCAGAAGCTCCGCACAACAATTCAGCAGATTACCGGTGTTGATCTCAGCCGTGAGGCCGTGCCTGAAAAAGAACTGTATTGGTTCCTGCCGAATGGTAAGCCTGCTCCTGAAAGCATGACAAAACCCACAGGCTATAAACTCCCTCAAGAGTCAAAAACTGCGGGTACACCTTTACTGGTCGCACCGCATAAAAAAGGCGAACGCCCGGATTATTACCTTGTTGAGTCTCGTAAAGGATTCATGCAGGGGATCGCAAAGGATAAGGAATCTGGCGAGTACCATAGCGTAATTGGTAAAGTGAACAAGCGTATTGATAAAGACGGAAACTGGAAGACGTATATGACACTTTCAGCAATCAATAAAAATTCTGAAAGTGGAATTGTTTTGCACGGTTATGGCCATGTTGATCAGGGGGGTAAAAACCTGCTTTACAAAAACACAATTGCAAATGAAAAACAGCCTCAGCATTTACAACCGGCCTCAGATGAGGTAAAAAACAAAACAGTAATGAAGCAGCTTTTTCATCCTTCTAATGCTGCAAAAAGAAAAGATGATGAAAGGAGAGAACAGACTCATGCACCAGTCGCAAAGTCAGCGCCTCGGCCATAA	MMAFGGETTDSAQQKPEGIAPSEPVANTAPAENETEEKKKTNEELENGIRWATNDNAETPPKERIDLEGLIARFGYRAEKDYTAYTLDGQDAFYDYGSHLRMATPEASQSDEMILAAVLTADKQHHRGIEITGSDEFKERVFNLISEYNIEVKLTNPEQRVKLLELKKANESAKETAKENVADSNANKQEGVNEKANSSVQQNGMRWEESASVQPKKQNASDTQKEDKAAGESWEKGVIVAHGRAKYEWKDDESMNYFVTLKNEHGEKTLWGKDLERAVKDAGVDTERLVTVRKLGFVDVEVNAPVRDESNKIVRYETIQTKRNEWEVKPVYPQPTAGNEQAYKPSELVPYDAATFQKLRTTIQQITGVDLSREAVPEKELYWFLPNGKPAPESMTKPTGYKLPQESKTAGTPLLVAPHKKGERPDYYLVESRKGFMQGIAKDKESGEYHSVIGKVNKRIDKDGNWKTYMTLSAINKNSESGIVLHGYGHVDQGGKNLLYKNTIANEKQPQHLQPASDEVKNKTVMKQLFHPSNAAKRKDDERREQTHAPVAKSAPRP				NA	NA	NA	NA	NA
BMS020_07831	480	mreD_2	COG2891	Rod shape-determining protein MreD	ATGAGCCGTCCACGCAAGGGCTGGGTGCTGCCGGTCAGCCTGGTGCTGGCGCTGTTGCTGGGGCTGCTGCCGCTGCCGGCACTGGTGCAGCCGCTGCGCCCGTACTGGCTGGCGCTGGTGCTGGCGTACTGGGTGATCGAGGAGCCGGACCGGGTCGGGCTCGGCTTCGTGTTCGTCGCCGGCGTGGTCGCCGACCTGCTGTACGGCGGTCTGCTCGGCGAGCAGGCGCTGCGGCTGGTGATCATGGCCTTCATCCTGCAGCGCTTCCGCGCGCGGCTGCGTTTCTTCCCGCTGTCGCAGCAGGCACTGGCGATCGGTGGCCTGCTGGTCAACGACCGGATCGTTTCGGCGGCGGTGCACCTGGCGATCGGCGAGCCGACCCTGCCGTGGAGCTACTGGTGGGCACCGCTGCTGGGCATGGCGCTGTGGCCGCCGCTGTTCGTGCTGCTCGACGCGCTGCGCCTGGGTCGGCGCCGCTAG	MSRPRKGWVLPVSLVLALLLGLLPLPALVQPLRPYWLALVLAYWVIEEPDRVGLGFVFVAGVVADLLYGGLLGEQALRLVIMAFILQRFRARLRFFPLSQQALAIGGLLVNDRIVSAAVHLAIGEPTLPWSYWWAPLLGMALWPPLFVLLDALRLGRRR				NA	NA	NA	NA	NA
BMS020_07832	2064	mrdA_3	COG0768	Peptidoglycan D,D-transpeptidase MrdA	ATGTACAAGCGCCGCGCCAACAAGAACCCGCACGCCGAGGCCGAGCAGTTCCGGCGCCGCGCCGCGCTGGGCTTCGTGATGGTGGTGCTGTGCCTGGCCGGGCTGGGCGGCTGGTACTTCAAGCTGCAGGTGGTCGACCACGACGTCTACGCCACCCGTTCCGACGCCAACCGGATCAAGCCGCGCCCGGTGGTGCCGGGGCGCGGGATGATCTACGACCGCAATGGGCGGCTGCTGGCCGAGAACGTGCCGGCGTTCCGCCTCGACGTGACCCCGGACAAGGTCGCCGACATGGACGCGATGCTGGCCGAGCTGGGCAAGGTCATCGCCATCTCGCCGGACGACCTGGAACGCTTCACCCGCGAACGCAAGGCGCGCCGTAGCTTCATGCCGGTCACCTTGCGGCTGCGCATGAGCGAGGACGAGATGGCGCGCTTCGCGGTCGAGCGCTGGCGCTTTCCCGGTGTCGAACTCGAGCCCTACCTGACCCGGCGCTACCCGTTCGGGGCATTGTTCGCGCACATCATCGGCTACGTCGGCCGGGTCGACGACAAGGACCTGGAGATGCTCGGCGAGGGCAATGCCGCGCTGACCCACATCGGCAAGTCCGGGCTGGAGCGCTATTACGAGCAGCAGCTGCGCGGCAGGGTCGGCTACGAGCAGGTCGAGACCAACGTGCAGGGCCGGGCGATCCGCACCGTCGGCCGGGTGCAGGCGCAGTCCGGCGCCGACCTGCGGCTGTCGATCGACGCCGACCTGCAGCGGGCGATGGTGGCCGCGTTCGGCAACTACGAAGGCGCGGCGGTGGCGATGGATCCGCGCAGCGGCGAGATCCTGGCGATGGTCAGCCTGCCGTCCTACGACCCCAACCTGTTCGTCAACGGCATCTCCCACGCCGATTTCAAGGCGCTCAACGAGAACCCGTCGCGGCCGCAGTTCAACCGGCTGGTGCTCGGCGGCGTGGCGCCTGGCTCGACGATCAAGCCGTTGATGGGCCTGGCCGGCCTGGACAGCGGCACGCGCAGGCCGGAGGACAAGATCCTGTCGACCGGCATGTTCTACCTGCCCGGGGTCAGCCGCGGCTGGGGCGACTCGCACCGCGGCGGCCACGGCTGGACCGACCTGCGCAAGTCGATCGCGCAGTCGGTCAACACGTATTACTACAAGCTCGCCATCGACATGGGCATCGGCAAGGTCGATGAGTACATGTACAAGTACGGCTTCGGCGCGCCGACCGGGATCGACCTGGTCGGCGAGATCGGCGGCATCGTGCCGTCGCCGGCGTACAAGATGAAGAGCCGCAAGGAGCAGTGGTACCCGGGCGACACGGTCAACATCGCGATCGGCCAGGGCGACTGGAAGGTCACGCCGCTGCAGCTGGTGCGCGCGGTGTCGGGCATCGCCAACGGCGAGCTGCGCACGCCGCATCTGGTGATGGAGCAGCGCAGCGCGTTCGACCGGCCGTGGACGCGGATGTCGCCCGGCCCGAGCAAGCCGATCACCGACAAGCCCGACAACCTGCAGTGGGTGCGCGAGGGCATGATGGACACGATGCGGCCCGGTGGCAGCGGCCATGCGATCACCATCGGCGCGCCGTACACGATGGCCGGCAAAACCGGCACCGCGCAGGTGGTCAGCCGCAAGGGCCTGGCCGCGGTCGACCCGCGCAGCCTGCCGATGCACCTGCGCCACCGCTCGCTGTTCGAGGGCTTCGCCCCGGCCGAGCACCCGACCATCGCCATCGCCATCGCGGTCGAGGGTGGCGGCTACGGCGCCAGTACCGCCGCGCCGATCGCGCGCAAGATTTTCGATGCCTGGCTGCTGGGCAAGATGCCGGCGGGGCTGGAGCCGCTGGATGCCGAGCGCGGCAGCGTCGCGGTCGGGCTGGTGCCGGTGGATGCCGACTCGCCGCAGCCGCGCATCGAGGGCGATCACGCCATGCTGGCGCTGGAGCCGCTGCCGGTGGCGCTGGGTGGGCAGGTCGTGGCGCTGGACCCGGCCGCGGTCCCGGTCGTGGAGCGCACGCCCGACGTGCCCGATGCGGTGCCGGAGGACGGCCAGTGA	MYKRRANKNPHAEAEQFRRRAALGFVMVVLCLAGLGGWYFKLQVVDHDVYATRSDANRIKPRPVVPGRGMIYDRNGRLLAENVPAFRLDVTPDKVADMDAMLAELGKVIAISPDDLERFTRERKARRSFMPVTLRLRMSEDEMARFAVERWRFPGVELEPYLTRRYPFGALFAHIIGYVGRVDDKDLEMLGEGNAALTHIGKSGLERYYEQQLRGRVGYEQVETNVQGRAIRTVGRVQAQSGADLRLSIDADLQRAMVAAFGNYEGAAVAMDPRSGEILAMVSLPSYDPNLFVNGISHADFKALNENPSRPQFNRLVLGGVAPGSTIKPLMGLAGLDSGTRRPEDKILSTGMFYLPGVSRGWGDSHRGGHGWTDLRKSIAQSVNTYYYKLAIDMGIGKVDEYMYKYGFGAPTGIDLVGEIGGIVPSPAYKMKSRKEQWYPGDTVNIAIGQGDWKVTPLQLVRAVSGIANGELRTPHLVMEQRSAFDRPWTRMSPGPSKPITDKPDNLQWVREGMMDTMRPGGSGHAITIGAPYTMAGKTGTAQVVSRKGLAAVDPRSLPMHLRHRSLFEGFAPAEHPTIAIAIAVEGGGYGASTAAPIARKIFDAWLLGKMPAGLEPLDAERGSVAVGLVPVDADSPQPRIEGDHAMLALEPLPVALGGQVVALDPAAVPVVERTPDVPDAVPEDGQ	PGPT0023885_714	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023885-mrdA-K05515	NA	NA
BMS020_07833	1119	mrdB_2	COG0772	Peptidoglycan glycosyltransferase MrdB	GTGAAGGATTTCCTGCGCTGGCTGTGGGACATCGGTGCGCGTTTCGCGCGCACCCTGGACTGGCCGCTGTGCCTGGCGCTGGCGGGGCTGATGGTGATCGGGCTGATGGTGCTCAAGAGCGCCGGCGGCGCCGCCAACGGCAACCACCTGATGCTGGCGCAGGGCGTGCGGTTCGCGATCGGCCTGGCGGCGATGTGGGCGATCTCGCGGGTGCAGGTGCCGCGGATGAAGGCGTGGACGCCGCTGATCTACGGCCTGTCGATGCTGCCGCTGCTGGCGGTGTTCGCGCTCGGCACCGGCAAGTACGGGCGGCAGTGGCTGGACCTGAAGATCTTCTACCTGCAGCCGGCCGAGCTGCTCAAGATCAGCCTGCCGATGATGGTGGCCTGGTACCTGCACCGGATGCCGCTGCCGCCGCGCATCCCGACCGTGCTGGTGGCCTGCGTGATCATCGGCGTGCCGACCGGGCTGATCATGCTGCAGCCGGACTTCGGCACCGGCGTGCTGATCGCCGCCTCCGGCGTGTTCGTGCTGCTGCTGGCCGGGCTGCCGTGGTGGTGGGTCGGCATCGGCGTCGGCGGCGTCGCCGCGGTGGCGCCGGTGGCCTGGTTCTGGCTGCTGCGGCCGTACCAGAAGGACCGCATCATGATGTTCCTCAACCCGGAGAACGATGCGCTCGGCGCCGGCTGGAACATCATCCAGTCCAAGATCGCGATCGGCTCGGGCGGGTTGTCCGGCAAGGGCTGGGGGCTGGGCTCGCAGTCGCACCTGAACTTCATCCCCGAGCAGACCACCGACTTCGCGTTCTCGGTGCTCAGCGAGGAATTCGGCTGGCTGGGCGTGGCCACGGTGCTGGCGCTGTACCTGGTGGTGATCGGGCGCTGCCTGTGGATCGCCGTCGAGGCGCGCGACACCTATTCGCGGCTGCTCGCCGGGGCTACCGGGCTGGCATTCTTCGTCTACGTGATCGTCAACGGCGGCATGATCTCCGGCCTGCTGCCGGTGGTCGGCGTGCCGATGCCGCTGATGAGCTACGGCGGCACCTCGGCGGTGTCGCTGCTGGCCGGCCTCGGCGTGGTGATGGCGGTCAAGTCGTACCGGCCGGTGCACGGCCACTGA	MKDFLRWLWDIGARFARTLDWPLCLALAGLMVIGLMVLKSAGGAANGNHLMLAQGVRFAIGLAAMWAISRVQVPRMKAWTPLIYGLSMLPLLAVFALGTGKYGRQWLDLKIFYLQPAELLKISLPMMVAWYLHRMPLPPRIPTVLVACVIIGVPTGLIMLQPDFGTGVLIAASGVFVLLLAGLPWWWVGIGVGGVAAVAPVAWFWLLRPYQKDRIMMFLNPENDALGAGWNIIQSKIAIGSGGLSGKGWGLGSQSHLNFIPEQTTDFAFSVLSEEFGWLGVATVLALYLVVIGRCLWIAVEARDTYSRLLAGATGLAFFVYVIVNGGMISGLLPVVGVPMPLMSYGGTSAVSLLAGLGVVMAVKSYRPVHGH	PGPT0023885_26	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023885-mrdA-K05515	NA	NA
BMS020_07834	1131			Tn3 family transposase TnXax1	ATGATTCGACGTGCGCTGGTCAGCCTGACAACCCTGGGCCTGGTCGCTTGTGCGACCGAGGCCAAGCCGCCGACGCCGCCGCAGGCGTTGCCCGTCACCCCGGTCCAGGCCGCCGCGACGCCCTCCGAGGCGGCGCCCGAAGCCCCCGCGCTGCCGCCGGTGGACTTGACCCCGGTGCCGTTCGAGACCGCCCGCGCCACCTTCGTGCGCGATACCGCGGCCAAATACGGGCTCGACCCGGCCGCGATCGAGGCCACGCTGGCGCAGGCCGAATTCAAGGACCCGATCATCGCGGCGATGTCGCGCCCGGCCGAGCGGGTCAAGCCGTGGAACGCCTACCGGCCGATGTTCATCACCCAGACGCGGATCGACGGCGGGCGGGCCTTCCTGGCCCAGCACCGCGCCGAACTGGCACGGGTCGAGGCCGCCACCGGCGTGCCGGCGCAGGTGATCGTGGCGATCATCGGCGTGGAGACCAGCTACGGCGCCAACACCGGCAAGTACCGCGTGCTGGATGCGCTGTACACGCTGGCCTTCAGGTATCCGCGCAGCGGCGACCCGGCCAAGCTCGAACGCGAGGTGCGGCGCGAGCTGTTCTTCCGCGACGAGCTCGGCCAGCTGTTCGCGCTCGGCAAGGAGGAGCGGCTGGACGTGGCCACGCTGACCGGCAGCTACGCCGGCGCGATGGGCATGGGCCAGTTCATGCCGTCCAGCTACCGTCAGTTCGCCGTCGACGGCAACGGCGATGGCCGCCGCGACCTGTTCGGCAGCTTCGACGACGTGTTCGCCTCGATCGCCAACTACTTCGTCAAGAAGGGCGGCTGGGTGCGCGGCGGCCAGGTCGCGGTGCCGGCTACGCTGGCCAGCGGCCATGAGGAATTCAACCCGACCGAATGGACCCCGACCTGGTCGCTGGCCGAACTGTCGCGGCGCGGCTACCACCCGGCCGCGCCGGTCGTCGCCGGTACGCTGGCCACGCCGGTCACGCTGAGCACCGACAGCGGCCCGCAGTACTGGCTGGGGTTCCAGAACTACTACGCGATCACCCGCTACAACATCTCCAAGATGTACGCGATGGCGGTGTTCCAGCTGTCCGAGGCCATCGCCGGCAAGGAGCTCCCACCGGCATGA	MIRRALVSLTTLGLVACATEAKPPTPPQALPVTPVQAAATPSEAAPEAPALPPVDLTPVPFETARATFVRDTAAKYGLDPAAIEATLAQAEFKDPIIAAMSRPAERVKPWNAYRPMFITQTRIDGGRAFLAQHRAELARVEAATGVPAQVIVAIIGVETSYGANTGKYRVLDALYTLAFRYPRSGDPAKLEREVRRELFFRDELGQLFALGKEERLDVATLTGSYAGAMGMGQFMPSSYRQFAVDGNGDGRRDLFGSFDDVFASIANYFVKKGGWVRGGQVAVPATLASGHEEFNPTEWTPTWSLAELSRRGYHPAAPVVAGTLATPVTLSTDSGPQYWLGFQNYYAITRYNISKMYAMAVFQLSEAIAGKELPPA	PGPT0023785_1123	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023785-mltB-K08305	NA	NA
BMS020_07835	1374	rlpA_2		Endolytic peptidoglycan transglycosylase RlpA	ATGAACATCCGATGGCTCGGCCCGGTATGCCTGGTCCTGGCGCTGGCGGCCTGCAGCAGCGCACCGAACAAGCCCAGCGGCGGCGCGGCCGCGGCCAAGGGTGTGAAGGTGGATGGCAAGGGCCAGGCGCATGTCGCCACCGGCTGCCCGTCGACCTCGCCGTACGCACCGGCCAAGGAAGACCCGTCCACGCGTGGTAACTACACCGCCGGCGGCCTGTACAAGCCGGGTGTCAACGACAGCACGCCGGACTACGTGCCCAACGTGGCCTGCATCCCCGAGCCGCTGGTCAGCAACGAGGCGCATTCGGCGATCGGCAACAAGTCGCCGTACGAGGTGCTGGGCAAGAAGTACAAGGTCCGCGACGACGCCAAGGGCTATGTCGAGCGCGGCACCGCCTCGTACTACGGCTCCAAGTTCCACGGCCGGCTGACCTCCAACCGCGAGGTGTACGACATGTACGCCTTCACCGCCGCGCACAAGACGCTGCCGCTGCCGAGCTTCGCGCTGGTCACCAACCTCGATACCGGCGATTCGGTGGTGGTGCGGGTCAACGACCGCGGCCCGTTCCACGATGGCCGGGTGATCGATCTGAGCTATGCCGCCGCGGTGAAGCTGGGCATCACCCAGCGCGGCACCGGCAATGTCGAGGTGCGTGGGCTGACCGAGGACGACAACGCGATGCTGCTGGCGCGTCGTCAGGCTCCCGGCACGCCGGCGCGTGCGCTGGCCGCCGCGCCCGCGACGGGGAAGAAGGACGCGCCGAACAGCGATATCGACAAGCTGGTGGCGACGCTGCCGGCCGCCGCCGCCAAGGGCGCCGCTGCCCCGCATTCCGTGGCCACGAGTACCGCCGCCAGCGCGGGCACCGCGCCGGCCGCTGCCGCTGCCGCTGGCGAGCGTTGGCGGTATCGCGTTGCCGAGGCGCGCCAGCCCGGCAATGCCGACAATTTCGATGCCTGGATGAAGGCGCAGGGCGTGCGCGTGGCGACCGGCAAGCCGGCGCCGTTCGTGGCCGAGGCCGAGGCCCAGCCCGCCGGCGACGCGGCGACCACGGCTGCGTCGCCTGCGCCTACGCGGGCGCCGGCGGCTTCCCCGGCGGTCGCACCGACCGAGGCGCCGACCCTGGCCGAATCCGCGCTGGGCAGCATCCTGCTGCAGGTCGCCAGCTTCGCCAGCCGCGAGAACGCCAACCGCGCGCTGGCCCAGCTGGCCTCGGCCGGCATCGTCGGCGCCAGCGTCAGCGACATCGTCAGTGGCGGGCGCACGCTGTGGCGGCTGCGGGTGAATGCGCGCGACCACGCCAATGCCTCGGAACTTGCCAGCCGCATTGCCGGTCTGGGCTTCGGGCGTCCGCAGATCGTCACGCGCTGA	MNIRWLGPVCLVLALAACSSAPNKPSGGAAAAKGVKVDGKGQAHVATGCPSTSPYAPAKEDPSTRGNYTAGGLYKPGVNDSTPDYVPNVACIPEPLVSNEAHSAIGNKSPYEVLGKKYKVRDDAKGYVERGTASYYGSKFHGRLTSNREVYDMYAFTAAHKTLPLPSFALVTNLDTGDSVVVRVNDRGPFHDGRVIDLSYAAAVKLGITQRGTGNVEVRGLTEDDNAMLLARRQAPGTPARALAAAPATGKKDAPNSDIDKLVATLPAAAAKGAAAPHSVATSTAASAGTAPAAAAAAGERWRYRVAEARQPGNADNFDAWMKAQGVRVATGKPAPFVAEAEAQPAGDAATTAASPAPTRAPAASPAVAPTEAPTLAESALGSILLQVASFASRENANRALAQLASAGIVGASVSDIVSGGRTLWRLRVNARDHANASELASRIAGLGFGRPQIVTR	PGPT0024465_21	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024465-rlpA-K03642	NA	NA
BMS020_07836	1203	dacC_2	COG1686	D-alanyl-D-alanine carboxypeptidase DacC	ATGAAATCCCGTTTTGCCGTCGCCGCCCTGGCCACGCTGGCCTTCGGCCTGGTGTCCGCCCAGACCCAGCCGACGCCGCAGCCGGTCGCCCCGGTCGCCCCGCCGCAGGTGCAGATCCCGCCGGCCCCGGCCCCGGCCGTGTCCAAGGCCTGGATCGTCATGGACTACGCCTCCGGCCAGGTCCTCGCCGGCGAGAACGTGCACGAGCACTTCGCTCCGGCCAGCATGACCAAGGTGATGACCTCCTACGTGATCGCCGCGGAGCTGCAGAACGGCAAGGTCAAGCGTGACGACCAGGTCACCATGACCGAGAACGCCTGGCGCAAGGGCGGTGCGGGTACCGACGGCAGTTACAGCGGCTTCCCGGTGAACAGCACCGCGCGCCTGGAGGACATGGAAAAGGGCATGGTGGTGCAGTCGGGCAACGATGCCGCCATCGCCCTGGCCGAGCATGTCGCCGGCAGCGAAGAGGCGTTCGTGTCGCTGATGAACAGCTACGCGCAGCGCATCGGCATGAAGGACTCGCAGTTCATGGACGCCACCGGCCTGTCGGCCGAGGGGCATTACTCCAGTGCCTACGACATGGCGCTGCTGGGCCGCGCGCTGATCCGCGACTACCCGGACACCTATGCGTACAACAAGATCAAGGAACTGACGGTCAACGGCATCAAGCAGCCGAACCGCAACCTGCTGCTGTGGCGCGACGCCAGCGTCGATGGCATCAAGACCGGCCACACCTCCGAGGCCGGCTACTGCATCATCAATTCGGCCAAGCGCGGTGACCAGCGCATCATCACCGTGATCATGGGCGACACCTCCGAGAAGCAGCGCGCGACCGACTCGCTGGCGCTGCTGAACTGGGGCTTCCGCTTCTACGAGACCCACCGCCTGTACGAGCCGGGCAAGGTCGTGGCCCAGCAGAAGGTGTGGAAGGGCGCCGCCGACCAGGTCCAGCTCGGCGTGGCCGCGCCGCTGCTGGTGGGCGTGCCGCGTGGTCGCTACGACGCGCTGAAGCCGAGCATCGAGCTGCCCAAGCAGCTGGTCGCGCCGATCAAGCAGGGCCAGCAGGTCGGCACCGTCAAGGTTACCCTCGACGGCAAGGTCGTCGCCGAGGCGCCGCTGGTCGCGGTCGCCGCGGTCGAGGAAGGCGGCTTCTTCAAGCGCCTGTGGGACAGCTTCTGGATGTGGTGGGAATCGGAGTAA	MKSRFAVAALATLAFGLVSAQTQPTPQPVAPVAPPQVQIPPAPAPAVSKAWIVMDYASGQVLAGENVHEHFAPASMTKVMTSYVIAAELQNGKVKRDDQVTMTENAWRKGGAGTDGSYSGFPVNSTARLEDMEKGMVVQSGNDAAIALAEHVAGSEEAFVSLMNSYAQRIGMKDSQFMDATGLSAEGHYSSAYDMALLGRALIRDYPDTYAYNKIKELTVNGIKQPNRNLLLWRDASVDGIKTGHTSEAGYCIINSAKRGDQRIITVIMGDTSEKQRATDSLALLNWGFRFYETHRLYEPGKVVAQQKVWKGAADQVQLGVAAPLLVGVPRGRYDALKPSIELPKQLVAPIKQGQQVGTVKVTLDGKVVAEAPLVAVAAVEEGGFFKRLWDSFWMWWESE	PGPT0024040_2758	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
BMS020_07837	1062			hypothetical protein	ATGCCCGCCCCACGACTCCTGCCCCTGCTGCTGGCGCTTGCCGCCTGCAGCCAATTCCCTGCTGCGCTCGCTGCCGACCAATGCCAGGACAGCACCCTGGACCAGACCCCTCCCGCGGTGAACTTCCGCGTCGACAACGACCTGTTCGGCGGCGAGGACCAGGACCAGGGCTATACCAACGGCGCCGTGCTGACCCTGGTATCGCCCAACCTGACCGACTACACCAACGACCCATGCCTGCCGCGGCTGGCACGCTGGATCAATCGCCACCTGGAACGCCTGCATCCGGGCGAATTCACCCAGCAGAACATGGTGTTCTCGCTCGGCCAGGGCCTGTTCACCCCGAGCGACTACACCCGCCGCGACCTGATCGAAAACGATCGCCCCTATGCCGGCATCCTGATGGCCAGCTTCGGCTACAACGCGCGTAACGCCGAGCACCTGCGCACCACCCAGCTGCAGCTCGGCGTGGTCGGCCCGTGGGCGCTGGGCAAGCAGACCCAGGACGCGGTGCACAGCCTGCTCGGCGATGAGAAGTTCGAGGGCTGGGACAACCAGCTGCACAACGAACCGTTGCTCAACCTGGTGCACGAACGCATGCGCCGCTGGCCCGGCGAGGCCAGCGTCAATGCCGGCGGCTGGGGCTGGGACTTCATCAGCCACTGGGGCGGCGCACTGGGCAACCGCGCGACCTACGCCAATGCCGGCGGCGAGCTGCGCTTCGGCTGGAAGCTGCCCGACGACTTCGGCAGCACGCCGATCCGCCCGGCCGGCGAGAACACCGCGCCGAGCACCCATGGGCGCCCGCGCGGCTGGTCGGGCCACGTCTTCCTGACCGGCGACGGGCGCTGGGTGGTGCGCGACATCACCCTGGACGGCAACACTTTCCGCGACAGCCACAGCGTCGACAAGCGCCCCTTCGTCGCCGACCTCGGCTACGGCGTGGCGGTGATGTACGGCCGCTGGAAGTTCGCGATCGCGCGCTATCACCGCACCCGCGAATTCGACGGGCAGAAGGAACTGCCGGTGTACGGCAGCTTCACCGTCAGCCGGATGCTCTGA	MPAPRLLPLLLALAACSQFPAALAADQCQDSTLDQTPPAVNFRVDNDLFGGEDQDQGYTNGAVLTLVSPNLTDYTNDPCLPRLARWINRHLERLHPGEFTQQNMVFSLGQGLFTPSDYTRRDLIENDRPYAGILMASFGYNARNAEHLRTTQLQLGVVGPWALGKQTQDAVHSLLGDEKFEGWDNQLHNEPLLNLVHERMRRWPGEASVNAGGWGWDFISHWGGALGNRATYANAGGELRFGWKLPDDFGSTPIRPAGENTAPSTHGRPRGWSGHVFLTGDGRWVVRDITLDGNTFRDSHSVDKRPFVADLGYGVAVMYGRWKFAIARYHRTREFDGQKELPVYGSFTVSRML	PGPT0022405_76	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022405-lpxR-K09953	NA	NA
BMS020_07838	993			hypothetical protein	ATGAGCAAGACCTCTTCCATCCAGGCCGCGGTGGCCACGGTCGCGCTGGGCGTTGCCCTGGCCGGCGCGAGCGCCCCCGCATCGGCTGGCATCAAGGACATGTTCGGCGGCAAGAAGAGCGGCGCTCAGGAAGACCGCGCCCAGGCCGAAACCCAGATCCCGACGTGCTCGCGCAACCTCGGCTCGATCTCGATCATCGAGCCGGAGGACGGCGTGCATTGGTGGACCGGCCAGCAGCTGCCGGCGCCGTCGAAGCTGATCAAGGTATTCGTCAACCGCTCCAAGTGCTTCACCCTGGTCGATCGCGGTGCCGGCATGGCCGCGGCCCAGCACGAGCGCGAACTGGCCTCCAACGGCGACCTGCGGGCGCGCTCCAATGTCGGCAAGGGCCAGGTGCGCGCCGCCGACTACGTGATGGTGCCGGACCTGATCTCGCAGAACAGCAACGCCAGCGGCAGCGCGGTCGGCGGCCTGCTCGGCGGCCTGGTCGGCGGCAATGCCGGGCGTGTGCTCGGCGGCATCAACATGAAGAGCAAGACCGCGGACGTGACCTTGACTATCACCGATGTGCGCTCGTCCGAGCAGGTCGCGATGGCCGAGGGCAGCGCCAAGAAGACCGATGTCGGCTTCAGTGCGCGCGGCGGCCTGTTCACCGGCAGCGACTACGGCGCGCTCGGGGCCGGCGGCTACGCCAACACCGAGATCGGCCAGGTCATCACCATGGCCTACCTGCAGGCCTATACCGACATCGTCACCCAGCTGGGCGGCCTGTCCGGCAACGCCGCCGCCTCCAACGTGCAGCAGGCGGTGACGGTGACCAAGCCCGGACGCCTGCTGGCCAACGCCAAGGGCACTGGCGCGGCGGTGCGCAGCCTGGATCCGGGCATGATGCTGTACCCGACCGGCAACAAGGAAGGCGTGATGTGGGAGGTCGAGGACGAGATGGGCAACAAGGGCTGGGTCTCCTCGACGATGCTCGAGCTGTCCAAGTAA	MSKTSSIQAAVATVALGVALAGASAPASAGIKDMFGGKKSGAQEDRAQAETQIPTCSRNLGSISIIEPEDGVHWWTGQQLPAPSKLIKVFVNRSKCFTLVDRGAGMAAAQHERELASNGDLRARSNVGKGQVRAADYVMVPDLISQNSNASGSAVGGLLGGLVGGNAGRVLGGINMKSKTADVTLTITDVRSSEQVAMAEGSAKKTDVGFSARGGLFTGSDYGALGAGGYANTEIGQVITMAYLQAYTDIVTQLGGLSGNAAASNVQQAVTVTKPGRLLANAKGTGAAVRSLDPGMMLYPTGNKEGVMWEVEDEMGNKGWVSSTMLELSK				NA	NA	NA	NA	NA
BMS020_07839	288			hypothetical protein	ATGGCCGCCATGGAGATCAAGTCCGACAATCCAGAACACGGCTTCCAGTTCCCCGGTGTGTTCGAGCTGAGCGCGATGGGCGCCGCCGACAAGGGCCTGGAGGTGGAGCTGCCGCGGCTGCTGGCCAGCACCGGCGTGGAGCTGCTGGAGGAGAGTGTGCGCTGGAAGCACTCCTCCAACGGCAAGTACGTGTCGGTGCGGATCGGCTTCCGCGCCGAATCGCGCGCGCAGTACGACGCCGCGCACAGCGCGCTGCGCGACCACCCGGAAGTGAAGTGGACGCTGTAG	MAAMEIKSDNPEHGFQFPGVFELSAMGAADKGLEVELPRLLASTGVELLEESVRWKHSSNGKYVSVRIGFRAESRAQYDAAHSALRDHPEVKWTL				NA	NA	NA	NA	NA
BMS020_07840	672	lipB_2	COG0321	Octanoyltransferase	GTGGACGCTGTAGCCGCAGCCGCCCCCCCGCGCGTGGTCCCGCCGGGACTGGTGCGCCAGCTCGGGCGCCAGCCTTACGAGCCGGTCTGGCATGCGATGCAGGCCTTCACCGACGCCCGCGGCGATGACACGCCCGACGAGCTGTGGGTGGTCGAGCACGAGCCGGTGTTCACCCTCGGCCAGGCTGGCAAGCCCGAGCACGTGCTGGCGCCGGGCGAGATCCCGGTGCTACATGTCGACCGCGGCGGCCAGGTCACCTACCACGGCCCCGGCCAGCTGGTGGTCTATCCGCTGCTGGACCTGCGCCGGCTGAAGATCGGCGTGCGCGAGTACGTGTGCCGCATCGAGCAGGCGATCATCGACACCCTGGCCGAATGGAACATCGAGGCGGTCCGGCGCGACGGTGCGCCCGGCGTCTACGTCGGCGACGCCAAGATCGCCGCGCTCGGCATCCGGGTGCGGCGTGGCTGCAGTTTCCATGGCCTGTCGTTCAACGTGGCGATGGACCTGGAGCCGTTCCGGCGCATCAACCCCTGTGGATATCAAGGCCTGCAGGTGACCTCGGTGCTAGACTTGGGCGGCCCTTCCGGCATGGAGCCGGTCCAGCGCGTGCTGCTGGAACAGCTGGGCCGGCAGTTCGGACTGGAACTGCGCCAGGCGCCCGACCTTTGA	MDAVAAAAPPRVVPPGLVRQLGRQPYEPVWHAMQAFTDARGDDTPDELWVVEHEPVFTLGQAGKPEHVLAPGEIPVLHVDRGGQVTYHGPGQLVVYPLLDLRRLKIGVREYVCRIEQAIIDTLAEWNIEAVRRDGAPGVYVGDAKIAALGIRVRRGCSFHGLSFNVAMDLEPFRRINPCGYQGLQVTSVLDLGGPSGMEPVQRVLLEQLGRQFGLELRQAPDL	PGPT0003925_1162	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
BMS020_07841	1014	lipA_2	COG0320	Lipoyl synthase	ATGACCCAGCCGATCAACCGTGCCATCCCCCTGCAGGTCCTCGCGACCGATTCCGCTCCGACCGCGCCGTTGCAGGCCGGCGTGAAGCAGCTGGGTGGGGACAAGATCAACCGCTCGCCGGTGCAGTTCGCCGATGCGCCGGTGCTGCGCAAGCCGTCGTGGATCCGCGTGCGCATCCCCTCGGGCAACGCGGTGGCCAACCTCAAGACCAAGCTGCGCGAAAACCGCCTGGTCACGGTCTGCGAGGAAGCCAGCTGCCCGAACATCCACGAGTGCTTCGGCCACGGCACCGCGACCTTCATGATCCTCGGCGAGGTCTGCACCCGCCGCTGCTCGTTCTGCGACGTCGCCCACGGCCGGCCCAAGCCGCCGGATGCGAACGAGCCGGCCAGCCTCGGCACCACCGTCGCCGACATGGGCCTGAAGTATGTGGTGGTGACCAGCGTCGACCGCGACGACCTGCGCGACGGCGGTGCCCAGCACTTCGTCGACTGCATCAGCGCGATCCGCGAGCGTTCGCCGAACACCCGCATCGAGATCCTCACCCCCGATTTCCGCGGCAAGGGCCGCATGGAGCGGGCGCTGGAGATCCTGGCGCAGAATCCGCCGGACGTGTTCAACCACAACATCGAGACCGTGCCGGACCTGTATCGCAACGTGCGTCCGGGCGCCGATTACCAGTGGTCGCTGACCCTGCTGAAGCACTTCAAGGCGCAGCACCCGGAGATCCCGACCAAGTCCGGCATCATGCTCGGCCTCGGCGAGACCATGGAGCAGATCCAGGCCACGCTGCGTGACCTGCGCGCGCACGATGTCGACATGGTGACGATCGGCCAGTACCTGCAGCCGACCGCGCATCACCACCCGGTGCTGCATTACTGGTCGCCGGAGGACTACAAGGCGCTGGAGGAGTACGGCTACGCGCTGGGCTTCAGCCACGTCGCCTCCGGACCGATGGTGCGCTCGTCCTACCACGCCGACCAGCAGGCCGCGGGCGCCGGCGTCGCGGCCTGA	MTQPINRAIPLQVLATDSAPTAPLQAGVKQLGGDKINRSPVQFADAPVLRKPSWIRVRIPSGNAVANLKTKLRENRLVTVCEEASCPNIHECFGHGTATFMILGEVCTRRCSFCDVAHGRPKPPDANEPASLGTTVADMGLKYVVVTSVDRDDLRDGGAQHFVDCISAIRERSPNTRIEILTPDFRGKGRMERALEILAQNPPDVFNHNIETVPDLYRNVRPGADYQWSLTLLKHFKAQHPEIPTKSGIMLGLGETMEQIQATLRDLRAHDVDMVTIGQYLQPTAHHHPVLHYWSPEDYKALEEYGYALGFSHVASGPMVRSSYHADQQAAGAGVAA	PGPT0003935_1146	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
BMS020_07842	2190	prc_2	COG0793	Tail-specific protease	ATGAAGCACAACGTCCCCAAGATCCTCACCGCCTGCGCCCTGACCCTGGCGCTGACGTCGCCGCTGGCGCTGCGGGCGCGTGCGGACACCGCGCTGCCGTTGCCTGCAGCCGCGACCCAGGACCAGTCCACCGCGACCAAGCTCGTCTACGGCCTGCTGTCGGACAGCCGCTACGCCTACCGGCCGCGCGCGCTCGACGAGACGATGGCCAAGGACGTGTTCAAGCGTTACCTGGAGTCGCTGGATGGCGGCAAGCAGTTCTTCACCCAGGCCGACATCGACGCGTTCGCGCCGGCGCAGGCCGGGGTCGCGCAGTCGATCCGCAGCGGCGACCTGGAGCCGGCGTTCCAGGTGTTCGCGGTCTACCGCAAGCGCGTGGACCAGCGCGTGGCCTACGCGCGCAAGCTGCTCAAGCAGGATTTCGATTTCACCGGCGACGAGAAGTTCCAGTACGACCGCGAGAAGGTGCCGTGGGCGAAGGACGACCAGGAGCTGGACGCGCTGTGGCGGCAGTCGGTGATGAACGACTGGCTGCGGCTGAAGATGGCCGGCAAGAAGCCCGATGACATCCGCAAGACCCTGGACAAGCGCTACGCGCAGCTGTCCAAGTCGGTGAGCGAGCTGAAGGCCGAGGACGTGTTCTCGTTCTTCCTCAATTCCTATACCAACGCGGTCGATCCGCACACGGACTACTTCACCCCGCGCACCGCCGAGAACTTCAACCAGCAGATGTCGCTGTCGCTGGAAGGCATCGGCGCGCAGCTGCAGAAGCAGGACGACATGACGGTGATCCGCGAGATCATCCCGGGTGGCCCGGCGGCGATCGACGGCACGCTCAAGCCGGGTGACCGCATCGTCGGCGTCGGCCAGGACAAGAGCGGGCAGATCGAGGACGTGATCGGCTGGCGCATCGACGATGTCGTCGCCAAGATCCGCGGCAGCAAGGACACCCAGGTGCGGCTGGAGTACATTCCGGCCGAATCCGGCATCGACGGCACGCACCGCACCGTGACCCTGACCCGGCAGAAGGTGCGTCTGGCCGAACAGGCCGCCAAGGGCGAGACCATCAGCCTGCCGGCGGCCAACGGCGAGCCGGCGCGCAAGGTCGGCATCGTCAAGCTGCCCGGCTTCTACCAGGACTTCGAAGGCCGCCGTCGCAACGCCACCGATTACGCCTCGGCGACCCGCGACGTGGCCAAGTTGCTGGCCGGCTTCAAGGCCGACAAGGTCGACGGCGTGGTGCTGGACCTGCGCAACAACGGCGGCGGTTCGCTGGACGAGGCGATCGAGCTGACCGGGCTGTTCATCGAGCAGGGCCCGGTGGTGCAGGTGCGCGAGTCCGGCGGCCGCGTCACCGTCAATGGCGACAAGAACGACAAGGTTTCCTGGGATGGCCCGCTGGCGGTGCTGATCAACCGCGGTTCGGCCTCGGCGTCGGAGATCTTCGCCGGTGCGATCCAGGACTACGGCCGTGGGCTGGTGATCGGCGAGACCAGCTTCGGCAAGGGCACGGTGCAGAACATCGTCGACCTGGACCGCTGGCCGGCCAGCGAGGGCGACCGCTTCGGCCAGGTCAAGCTGACCATCGCGCAGTTCTTCCGTGTCAGCGGCTCCAGCACCCAGCACAAGGGTGTGGTGCCGGACATCGCGTTCCCGGCCTCGATGGATGCCAGCGAGTTCGGCGAGAGCACCTACGACAACGCGCTGCCGTGGACCCGCATCGCCGCGGTGCCGCACACCCAGTACGGCAATTTCTCGCCGCTGCTGCCGAAGCTGGAGACGCTGCACGCCGCGCGCATCGCCCAGGACAAGGAATTCCAGTGGTGGCAGCAGGACGTCACCCAGTTCCGCGAGGAGAAGGCCAAGAAGTACATCTCGCTCAACGAGGCCGACCGTCGTGCCGAGCGCGAGAAGCAGGAAAGCCAGCAGAAGGAACGCCAGCAGATCCGCAAGCAGCTGGGCATGCCGCTGGATCCGCTGGCCGGTGATACCGATGACGGCCTGACCGGCAACGAGCGCGACATCATCAAGGACACCCAGCGCGAGAAGCTGGCCGACAAGCGTCCGGATCCGTTGCTGCACGAATCGGCGGCGATCCTGGCCGACGCGGTCAACCTGCTCGAGCATGATCGGCCGCTGTCGGCGCAGGTGCTGCCGCAGTCCTCCGCGCCGGGGCGCTGGGCCGACTGA	MKHNVPKILTACALTLALTSPLALRARADTALPLPAAATQDQSTATKLVYGLLSDSRYAYRPRALDETMAKDVFKRYLESLDGGKQFFTQADIDAFAPAQAGVAQSIRSGDLEPAFQVFAVYRKRVDQRVAYARKLLKQDFDFTGDEKFQYDREKVPWAKDDQELDALWRQSVMNDWLRLKMAGKKPDDIRKTLDKRYAQLSKSVSELKAEDVFSFFLNSYTNAVDPHTDYFTPRTAENFNQQMSLSLEGIGAQLQKQDDMTVIREIIPGGPAAIDGTLKPGDRIVGVGQDKSGQIEDVIGWRIDDVVAKIRGSKDTQVRLEYIPAESGIDGTHRTVTLTRQKVRLAEQAAKGETISLPAANGEPARKVGIVKLPGFYQDFEGRRRNATDYASATRDVAKLLAGFKADKVDGVVLDLRNNGGGSLDEAIELTGLFIEQGPVVQVRESGGRVTVNGDKNDKVSWDGPLAVLINRGSASASEIFAGAIQDYGRGLVIGETSFGKGTVQNIVDLDRWPASEGDRFGQVKLTIAQFFRVSGSSTQHKGVVPDIAFPASMDASEFGESTYDNALPWTRIAAVPHTQYGNFSPLLPKLETLHAARIAQDKEFQWWQQDVTQFREEKAKKYISLNEADRRAEREKQESQQKERQQIRKQLGMPLDPLAGDTDDGLTGNERDIIKDTQREKLADKRPDPLLHESAAILADAVNLLEHDRPLSAQVLPQSSAPGRWAD	PGPT0015095_206	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015095-prc|ctpA-K03797	NA	NA
BMS020_07843	384			hypothetical protein	ATGAGCCACCGCAGCCGGCTGGCCGGCTTCATCATCGACGGCCACGACCACGATGCCGACCAGGCGGCCGCGTTCTGGGCCGCCGCATTCGGCTGGCAGGCGCAACCGGCCCACCGCGAAGGCGATGCCGAGTACGCCGGACTGCTCGGCGCACCGACCGCCCTCAACGTCGAGGTGCAGCGCGTCGGCCACGACGCCCGCGTGCACCTGGACATCGAGAGCGACGACATCGATGCCGAGGCGGCGCGGCTGGAACGGCGCGGCGCACGCCGGATCGGCTTCGTCAAACGCGGGTGGGTGATGGACGCGCCGACCGGCCACCGCGTCTGCATCGTGCGCATGCGCGAGGACGCCGGCCGCACCGCGGCCACCGCCCGGGACTAG	MSHRSRLAGFIIDGHDHDADQAAAFWAAAFGWQAQPAHREGDAEYAGLLGAPTALNVEVQRVGHDARVHLDIESDDIDAEAARLERRGARRIGFVKRGWVMDAPTGHRVCIVRMREDAGRTAATARD				NA	NA	NA	NA	NA
BMS020_07844	846			hypothetical protein	ATGGGCATCGACACAAAGCTGGTGCGCCGCTGGGCGCTGGGGTTGGCGCTGCTGTTGCCGTTGACAGCGCAGGCCGGCGAGGCACTGAAAGTCATGTCGTTCAACGTGCGTACGCCGGCCGATACGCAGCCGGGCCGGCGCTGGGAGGACCGTCGCGATGCGATGGTCACGCTGCTGCAGCAGCAACGCCCCGACGTGGTCGGCACCCAGGAACTGGTCAAGGCGCAGGCCGACTATCTGGCCGCGCACCTGGACGGCTACCGCTGGTTCGGCCAGGGCCGCCGCGGCGGCGATGGCGACGAGCACATGGGCGTGTTCTACGACAGCCGGCGGCTGACGCTGCTGCAGTCGGGCGACTTCTGGCTGTCGGACACGCCGCAGGTGCCGGGCAGCATCAGCTGGGGCCATCCGTATCCACGCATGGTCACCTGGGGCCTGTTCGAGCGCCGCGACGATCACCGCCGCTTCTACCTGCTCGATACCCACCTGCCCTACCAGCCCCAGGACGAACCGGCGCGCGTGCGTGGCGCACTGACCATCCTGTCCAGCCTGCGTACGCTGCCGACCGACATCCCGGTCGTGCTCACCGGCGACTTCAACAGCGAGCCCGGCAGCAAAACCTGGCAGACCCTGACCGGCGAGCTGACCGACGCCCGCGCCGCGGTCGCCGCGCCGGTCGGCCCGGCCAAGACCTTCCACGACTTCAGCGGCGTGCCGACGACCCAACTGGACTGGATCCTGGTGCGCGGCCTGCGCGTGCAGCACTTCGCCACGCTCGATGCGCGCCCCGGCGGCGTGCTGCCGTCGGACCACTTCCCGGTGATGGCCACGCTCACCTGGCCCTGA	MGIDTKLVRRWALGLALLLPLTAQAGEALKVMSFNVRTPADTQPGRRWEDRRDAMVTLLQQQRPDVVGTQELVKAQADYLAAHLDGYRWFGQGRRGGDGDEHMGVFYDSRRLTLLQSGDFWLSDTPQVPGSISWGHPYPRMVTWGLFERRDDHRRFYLLDTHLPYQPQDEPARVRGALTILSSLRTLPTDIPVVLTGDFNSEPGSKTWQTLTGELTDARAAVAAPVGPAKTFHDFSGVPTTQLDWILVRGLRVQHFATLDARPGGVLPSDHFPVMATLTWP				NA	NA	NA	NA	NA
BMS020_07845	657			hypothetical protein	ATGTCCATGTCCCGCCCGCTCATCGCGTCCGCGCTGCTGGCCGCCGGCCTGACCGGATGCGGCGGCAAGGGCGACACGATGCTGATGCGCGAGTCCTTCAGCTCCGACAACACCTACTCGCGCAGCTACGACGTGGTACCGGGCGCGGCCTGCGAGGCGGCGCGGCGCGCGCTGCTCAGCCAGGGCTACGTGATCGCGCGCGCCGACGGCAACGGCGTGGAGGGCACCAAGAACTTCCAGCCCAGCGCCGACGACCACGAACAGCTGGACCTGCGCATCTCCTGCGTGGCCCAGGGCCAGGACAAGGCCTGGGTGTTCGTTAGCGCGCTGCAGGACCGCTACGCACTGAAGAAGAGCCCGACCTCGGCCAGCGTCGGCGTCAGCGTGCTCGGCTCGGTGTCGCTGCCGATCGGCAGCAGCGATGATTCGCTGGTGAAGGTCGCCAGCAGCACGGTGCAGGACGGCGCCTTCTACGACCGGTTCTTCGAACGTTTGCAGGCCTACCTGCCCAAGCCGGCGCCCGCCGCCGCGCCGCCGGCTCCGGCACCGGCCGAACCGGTGCACGAGCCGGCACCGGCGTCGCCGCAGGTGCAGCCGGCGGGTGCGGTGAATGCCGATGCCGGCGTGGCGCCCACGCCAGCAGCGAGCACCCCGTGA	MSMSRPLIASALLAAGLTGCGGKGDTMLMRESFSSDNTYSRSYDVVPGAACEAARRALLSQGYVIARADGNGVEGTKNFQPSADDHEQLDLRISCVAQGQDKAWVFVSALQDRYALKKSPTSASVGVSVLGSVSLPIGSSDDSLVKVASSTVQDGAFYDRFFERLQAYLPKPAPAAAPPAPAPAEPVHEPAPASPQVQPAGAVNADAGVAPTPAASTP				NA	NA	NA	NA	NA
BMS020_07846	369			hypothetical protein	ATGAACGATCGTAACCGGGCGCTGCGCGCCATTCCGCTCGTCGCGCTGCTGGTCGCCGCCGGTGCGGCACAGGCGCAGACCTATGGGCCGCAGGATGAGGGGCGGCGCTTCAACGATGGCAGCGTGGTGAAATGCCGCAAGGTCGAGGTGCAGAAGAACACCAGCGATCCCAACCGGGTCGGCGGCACCGTCGCCGGTGCGGCGATCGGCGGTCTGGTCGGCAACCAGTTCGGCAGTGGCAGTGGACGCAAGCTCGCCACGGTCGGCGGCGCGGTGGCCGGTGGTGCGACCGGCCGCTACATCCAGGGCCAGCGCCAGCAGAACACCGGTGACCGCGTGGTCGAAACGGTGTGCGAGCGCCGGCGTTGA	MNDRNRALRAIPLVALLVAAGAAQAQTYGPQDEGRRFNDGSVVKCRKVEVQKNTSDPNRVGGTVAGAAIGGLVGNQFGSGSGRKLATVGGAVAGGATGRYIQGQRQQNTGDRVVETVCERRR	PGPT0024490_1180	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024490-slyB-K06077	NA	NA
BMS020_07847	1257			hypothetical protein	GTGCGGGGCTTCTGCGTATCGGTGTCGCGGCGGGCGTTGCTGCTGGGCCTGGTGTTGTGCGCGCTGCCGGCGTGGGCCAGCGAAGGGGGCGACGATGCACGCTGCCTGGAGCAGGTGCTGCGCGAACTCGGCTGGCGCATCACGCGCAGCGCCGCGGCACCGGCGATGCAGGGCGGCACGCCGTGCACGCGTGGCTCGTTGGCCGAGGCGCAGGCGGCCGGCGACCTGCGCCTGCGGCTGCCGCTCGCGGCCGACGACCCGCAGCGCGAGCCGCTGCTGCGCGCGGCGCTGGATTCGCCGGCCAGCCAGTGCGCGTTCGGCTTCCGTCTGGGCGATGCGGTGCGCACGGCGACCACGCGCTTGGTGGCCAACCACGGCTATCGCTTCAGCGCGCTGCAGCTGGGCTGGATCGGCTTCGGCCTGCGCGGTGCCCAGGCGCAGGGCTGGCAACCGGTGCGCAGCTTCGGCCGTGGCTACGCGCCGCTGGCCGGCAACAGCCGCGCGCTGGAGGCGTTCTACAGCGGCCATGTCCGCTCCGAATGCGGCGTCGGGCGCCAGGTCGCGCAGCTGGCGACGCTGCGCGAGCTGTTCGGCGATGCGGCGTTCGATCGCCAGTTCAGTGCCGAGGAACTACGCATCGGCACGTTCCTGAGCCTGCACGCGACCGACAGCATCCTGCTCGGCGCGCATGCCGGGCCGCTGTTCGCCGACGGCAAGGCGGTGCGCACCGCGGCGCTGGGGCGGCAGGCGTTCATGGGCGTGCCGGGCTTCATCGAGCATGCGTTCGCGCCGGCCACGCTGGATGACATCAACAACCAGGCCGAGAACTTCGTCGTGGTCGATGTCGATGCCGCCGCGGCGCAGGCGTTGGCCCAGCATGGCGGGCTGGCCTGGTACGACGCGCGCAACCGGCGCATCTGGGAATTGGCGCAGCAGTTGCCGGGCACCATGTACCGGCGCTACGAACGGCTGCTGTACGCGCGCGATCCCGAGCTGCGCGCCAGCCTGACCCCGGCGCAGCGGGCGGTCGTCGCCGAACTGGATGCGCTGCTCGACGATCCGTTCTACCGCGGCTTCCGGATCTACGTGCATCCGCAGGGCATCCGCCCGATCGGCTTCCACATCGTGCGCCTGCTCGACCGCAATCCGCGCACGCCGTTCACCATCGACCTGGCGCTGCACAACCTGCACACCACGATCTACCAGCGCTGGATCGACAGCCGCCTGCGCGCCTGCGCCGACGGAACGCAGCATTGA	MRGFCVSVSRRALLLGLVLCALPAWASEGGDDARCLEQVLRELGWRITRSAAAPAMQGGTPCTRGSLAEAQAAGDLRLRLPLAADDPQREPLLRAALDSPASQCAFGFRLGDAVRTATTRLVANHGYRFSALQLGWIGFGLRGAQAQGWQPVRSFGRGYAPLAGNSRALEAFYSGHVRSECGVGRQVAQLATLRELFGDAAFDRQFSAEELRIGTFLSLHATDSILLGAHAGPLFADGKAVRTAALGRQAFMGVPGFIEHAFAPATLDDINNQAENFVVVDVDAAAAQALAQHGGLAWYDARNRRIWELAQQLPGTMYRRYERLLYARDPELRASLTPAQRAVVAELDALLDDPFYRGFRIYVHPQGIRPIGFHIVRLLDRNPRTPFTIDLALHNLHTTIYQRWIDSRLRACADGTQH				NA	NA	NA	NA	NA
BMS020_07848	906		COG1023	6-phosphogluconate dehydrogenase, NAD(+)-dependent, decarboxylating	ATGGAACTTGGAATGGTGGGGCTGGGCCGGATGGGCGCGAACATGGCCGAGCGGTTGGTACGTGGCGGCCACACGGTGGCCGGCTTCGATCCTGGCGAAGCCGCGCGCGATGCCGCCGGCAAGCGCGGCATCGCGGCGCGCGCATCGCTGCAGGCGCTGGTCGATGGCCTGGCGGCGCCGCGGGTGGTGTGGCTGATGGTGCCGGCCGGCAAGATCGTCGACGACACCCTGGCCGCGCTGCTGCCGTTGCTGGCGCCGGGCGACACCGTCGTCGACGGCGGCAATTCATACTACAAGGATTCGCTGCGCCGCGCCGACGAACTGGCCGCGCGCGGCATCGGCTACGTCGACTGCGGCACCAGCGGCGGCGTGTGGGGGCTGCAGGAAGGCTACAGCCTGATGGTCGGCGGCGAGGAAGCGGTGGTCGAGCGCGTCGCGCCGCTGCTGGCGACGCTGGCACCGAGCGCCACCAGCGGCTGGGGCCGGGTCGGCCCGAGCGGCGCCGGCCACTTCACCAAGATGGTCCACAACGGCATCGAGTACGGAATGATGCAGGCCTATGCCGAGGGCTTTGCGCTGATGCAGCGCAAGCAGGCGTTCGCGCTGGACCTGCACCAGGTCGCCGAGATCTGGCGCGACGGCAGCGTGGTGCGCTCCTGGCTGCTGGACCTGACCGCCGATGCGCTCAAGGACAATCCGACCATGCAGGGCATCGCGCCCTACGTGGAGGATTCAGGCGAGGGCCGCTGGACCGTGGCCGAGGCGATCGACCTGGACGTGCCGGCGCCGGTGATCACCACCTCGCTGCTGGAGCGGCTGCGTTCGCGCGACAAGGATTCGCTGACCGACAAGCTGCTGGCGGCGATGCGCAACCAGTTCGGCGGTCACGCGATCCGCCGCGAGTGA	MELGMVGLGRMGANMAERLVRGGHTVAGFDPGEAARDAAGKRGIAARASLQALVDGLAAPRVVWLMVPAGKIVDDTLAALLPLLAPGDTVVDGGNSYYKDSLRRADELAARGIGYVDCGTSGGVWGLQEGYSLMVGGEEAVVERVAPLLATLAPSATSGWGRVGPSGAGHFTKMVHNGIEYGMMQAYAEGFALMQRKQAFALDLHQVAEIWRDGSVVRSWLLDLTADALKDNPTMQGIAPYVEDSGEGRWTVAEAIDLDVPAPVITTSLLERLRSRDKDSLTDKLLAAMRNQFGGHAIRRE	PGPT0017385_4029	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
BMS020_07849	1044	ydgJ_3	COG0673	putative oxidoreductase YdgJ	ATGGCCCGTCCGTTCCGCATCGCCCTGGCCGGCTACGGCTACGTCGGCCGCGTCTTCCACGCACCGTTGATCCAGGCCACCCAGGGGCTGGTGCTGCACGCGGTGATCTCCAGCCAGCCGAACGCGACCGAGGCACTGCCCGGGGTGCTGCGCCTGGCGACGCTGGAGCAGGCACTCGCCGATGCCGACATCGACGCGCTGGTGGTGGCCACGCCCAACCAGACCCATGCACCGATCGCACTGGCCGCGCTGGCCGCCGGCAAGCACGTGCTGGTGGACAAGCCGTTCACCGTCGACGGCGACGAGGCGCGCCAGGTGCTGGCCGCGGCCGCGCAGGCCGGGCGCATTGCCAGCGTGTTCCAGAACCGGCGCTTCGACGCGGACTTCCTCACCGTCGCGCGGCTGCTGCGCGATGGCCGGCTCGGCCGCATCGCCGAGTTCCACTCGCACTTCGACCGCCATCGCCCGCAGGTGCGCGACCGTTGGCGCGAGAGCGAGGCGCCGGGCGCCGGGCTGTGGTTCGACCTCGGCCCGCACCTGCTCGACCAGGCGTTGCAGCTGTTCGGCGCCCCGCAGGCGCTGCAGGCCGACATCGCACGCCAGCGCGACGGCGCGCGCGGCGACGACTACTTCGACGTGACCCTGTTCTACGGCAGCATGCGCGTGGTGCTCCATGCCGCCTCGCTGGTCGCCGACAACCGCCTGCGCTTCGCCGTGCACGGCGAGCACGGCAGCTACCTCAAGCACGGGCTGGACACGCAGGAAGACATGCTGCGGGCCGGCCGCCAGCCCGGTGGCGCCGGCTGGGGCGAGGACCCCACGCCGGGCACGCTGACGCGGGTGGAGACGGACGGCCGCCTGGTCCGCCACACGTTGGACAACGAGCGTGGCGACTACCGCGCCTGCTATGCGCGCTGGCGCGATGCGATGGCCGGCGACGGCCCGGCGCCGGTCACCGGCGACGAAGCGCTGCAGCTGATGGACCTGCTGGTGCTGGCGGTGCGCAGCGCCGAACAGGGCCGGCGCCTGCCGGTGGCCGGCTGA	MARPFRIALAGYGYVGRVFHAPLIQATQGLVLHAVISSQPNATEALPGVLRLATLEQALADADIDALVVATPNQTHAPIALAALAAGKHVLVDKPFTVDGDEARQVLAAAAQAGRIASVFQNRRFDADFLTVARLLRDGRLGRIAEFHSHFDRHRPQVRDRWRESEAPGAGLWFDLGPHLLDQALQLFGAPQALQADIARQRDGARGDDYFDVTLFYGSMRVVLHAASLVADNRLRFAVHGEHGSYLKHGLDTQEDMLRAGRQPGGAGWGEDPTPGTLTRVETDGRLVRHTLDNERGDYRACYARWRDAMAGDGPAPVTGDEALQLMDLLVLAVRSAEQGRRLPVAG	PGPT0018530_473	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
BMS020_07850	354			hypothetical protein	ATGAACACGCGTAACCCGCATCTCCGCAAGCTGCTTGTCGTCTCGCTGGTCGCGGCGGCCACGTTCGGCGCCGGTCCGGTGCTGGCCGGCGATCCGCCGACCCAGGCGTCGAAGATGGAATCGCAGGAGCCGGTGACCGACACCTGGATCACCACCAAGGTCAAGAGCGACCTGCTGGCGACCAAGGACGTGGCCGGCACCGACGTCAAGGTCGAGACCAGCAATGGCCTGGTCAGCCTGTCGGGGACCGTCAAGAGCCAGGCCGAGCGCGACAAGGCGATCGACGTCGCCAAGCGCATCGACGGGGTCAAGCGCGTCGATGCCGCGCAGTTGAAGGTGACAGGGTCGCACTGA	MNTRNPHLRKLLVVSLVAAATFGAGPVLAGDPPTQASKMESQEPVTDTWITTKVKSDLLATKDVAGTDVKVETSNGLVSLSGTVKSQAERDKAIDVAKRIDGVKRVDAAQLKVTGSH	PGPT0013305_938	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013305-osmY-K04065	NA	NA
BMS020_07851	1812	sasA_13		Adaptive-response sensory-kinase SasA	ATGCAAACAACGGCCAATGAAGACGTTTGGGATCGCTGGCGCCTGCCCCTGCTGGCGCTGGCCGTGTTCCTGATCGTCGTGGTGCCGTCGCTGCTGCTGCAGCAGATGGCGCGCAGTTCGGACCAGGCGGCCAATTGGGCCGCGCACAGCCAGCAGGTCGGCCAGCTCGCGCAGGAGATGGAAGCCGGCCTGCGCGACATGGAGTCGGCCGCGCTGATGCTGTCGCACGGCGTGGACCGGCCGATCCTGCATGAGCGCATGCGCGAGGGTGAGCGCCAGGCGCATGCCAGCCTGGACGCGCTGGTCGACATGACCCGCGACAACCCGGACCAGCAGGTGCGCATCGGCCGGCTGCAGAGCACGATCGAACGCCGCATCATGTTGGCCGAGCAGATCGCGATCACCCGCGACGAGGCGCGCGTGCGCGACCTGATCGTCGACATGACCGTGCGCAACCCGGTGCGCACGTTGATCGACGACCTGCAGGCGCGCGAGACCGAATTGTTGAACGCACGCCAGCACGAGACCGCCCACCAGCGCAGGCTGTATGCCGGGCTGAGCTGGGGCGCGCTGGCCGTGCAGCTGCTGTTGCTGGGCACGGTGATCTGGTTGCTGCAGCGGCAGATCCGCCGCCGCCTTGCCGCCGAGACCGCCAGTCGGCAGGCCAGCGGCCGAGCCGCGGTGGTGCTGCAGACCGTGCGCGAACCGATCGTGCTGCTGGACGCGCGCCAGCAGGTGATCATGCACAACCCCGCGTTCTCCGAGCTGTACGGCCTGGAGGACGACGGCGTCAGTCCCAAGGTGGCGCTGCGGGACGTCGGCAACGGCGCCTGGGCCGACGGCCTGATCCAGCAGCGCCTGGCCGACGTGCTGCTGCGCGGGCGCGAGCTGTGGGATTTCGAGCACGAGCAGCGCGCCGCCGATGGCGTGGTGCGCACGATGATGCTCAACGCCCGGCGCATGCCGTTGCCGGACGTGGACGACCAGGTGGTGCTGATGACGGTCAGCGACATCAGCCTGCAGAAGGCCGCGCAGTTGCGCATCCAGGAGCTCAACCGCCAGCTCGAGGGCAAGGTGGAGCAGGTTTCGGAGGTCAACCGCGAGCTGGAGGCGTTCAGCTATTCGGTCTCGCACGACCTGCGCGCGCCGCTGCGCCACGTTGCCGGCTTCGCCGACAAGCTCGGTCGCCACCTCGGCGACGATGCCGACGAGAAGGCGCGCCACTACATGGAAGTGATCAGCAGCTCGGCGCGGCGCATGGCCTCGCTGATCGACGACCTGCTGGTCTATTCACGCCTGGGCCGCAGCGCGCTGCGGATGCAGGCGGTGGACATGCAGTCGCTGGTCGCCGAGACCCGCTCGATCCTCGATTCCAACGTCCAGGCCGAAGGCACCGGGCACCGCGTGGAGTGGCGCATCGCGCCGCTGCCGATCCTGATCGCCGACGAAAACATGATGCGCCAGCTGTGGATGAACCTGCTGGGCAACGCGGTCAAGTACAGCGCCAAGCGCGAGTCCGCGCGCATCGAGGTCGGCTACGAGGTACTGGCCGACGGCGCCCACCACTTCACCGTCGCCGACAACGGCGCCGGCTTCGACATGGAATACGCCGGCAAGCTGTTCGGCGTGTTCCAACGGCTGCACAAGGCCAGCGAATACCCCGGGACCGGCATCGGCCTGGCCAGCGTGCGCCGGGTGCTGTCGCGCCACGGCGGCCGCATCTGGGCCGAGGGCGTCGTCGATCAGGGCGCCACCTTCCATTTCGTTCTACCAACCGCGCTTGAAGCGCCCAACCAAGAGCCCGTCGCATGA	MQTTANEDVWDRWRLPLLALAVFLIVVVPSLLLQQMARSSDQAANWAAHSQQVGQLAQEMEAGLRDMESAALMLSHGVDRPILHERMREGERQAHASLDALVDMTRDNPDQQVRIGRLQSTIERRIMLAEQIAITRDEARVRDLIVDMTVRNPVRTLIDDLQARETELLNARQHETAHQRRLYAGLSWGALAVQLLLLGTVIWLLQRQIRRRLAAETASRQASGRAAVVLQTVREPIVLLDARQQVIMHNPAFSELYGLEDDGVSPKVALRDVGNGAWADGLIQQRLADVLLRGRELWDFEHEQRAADGVVRTMMLNARRMPLPDVDDQVVLMTVSDISLQKAAQLRIQELNRQLEGKVEQVSEVNRELEAFSYSVSHDLRAPLRHVAGFADKLGRHLGDDADEKARHYMEVISSSARRMASLIDDLLVYSRLGRSALRMQAVDMQSLVAETRSILDSNVQAEGTGHRVEWRIAPLPILIADENMMRQLWMNLLGNAVKYSAKRESARIEVGYEVLADGAHHFTVADNGAGFDMEYAGKLFGVFQRLHKASEYPGTGIGLASVRRVLSRHGGRIWAEGVVDQGATFHFVLPTALEAPNQEPVA				NA	NA	NA	NA	NA
BMS020_07852	441	rcp1		Response regulator rcp1	ATGACCGCCATTCGCACCATCCTGCTTGCCGAAGACAGCCCCGCAGACGCGGAGATGGCCGTCGACGCGCTCCGCGAGGCTCGTCTCGCCAATCCCATCGTGCATGTCGAGGACGGCGTGGAGACGATGGACTACCTGCTGTGCCGCGGCGCGTTCGCCGACCGCGAGCCCGGCCTGCCGGCGGTGCTGCTGCTGGACATCAAGATGCCGCGCATGGACGGGCTGGAAGTGCTCAAGGAGATCCGCAACGACGAGCACCTCAAGCGCCTGCCGGTGGTGATCCTGTCGTCCTCGCGTGAAGAGAGCGACCTGGCCCGCAGCTGGGACCTGGGCGTCAACGCCTACGTGGTCAAGCCGGTGGACGTGGACCAGTTCTTCAACGCGGTGAAGACGCTGGGCACGTTCTGGGCGGTGATCAACCAGGCACCGGAACGGGACTGA	MTAIRTILLAEDSPADAEMAVDALREARLANPIVHVEDGVETMDYLLCRGAFADREPGLPAVLLLDIKMPRMDGLEVLKEIRNDEHLKRLPVVILSSSREESDLARSWDLGVNAYVVKPVDVDQFFNAVKTLGTFWAVINQAPERD				NA	NA	NA	NA	NA
BMS020_07853	1512	rcsC_19		Sensor histidine kinase RcsC	ATGCCGCACGACGGGGCGAAGCTGGGCGAGTTGCGGATCCTGCTGATCGAGGATTCGCCGGAGGACGCCGAACTGCTGTCCGACCAGTTGCTGGAGTCGGGCCTGCAGGCGCGTTTCGAACGCGTGGACAGCGAGGACTCGCTGCGCCTGGCGCTGGAATCGTTCCAGCCGGACATCGTGCTGTCGGACCTGAGCATGCCGGGGTTCTCCGGCTACCAGGCGCTGCGCGTGGTGCGCGAAAGCTGCCCCAACACGCCGTTCGTGTTCGTCTCCGGCACGATGGGCGAGGAGACCGCGGTCAAGGCGCTGCAAGACGGTGCCAACGATTACATCATCAAGCACAACCCGACGCGGTTGCCTGCGGCGGTGACGCGCGCGGTCCGCGAGGCGCGCGCGGAGGCCGAGCGCCTGCGCGTGGAAGGCGAGCTGATGCGCGCGCAGCGGCTGGAGAGTCTGGCGCTGCTGGCGGCCGGGCTCAGCCATGACCTGCGCAACATCCTGCAGCCGCTGCTGATCGTGCCGGACCTGCTGGCCGGTCGCAGCGACGACCCGCAGCTGCGGCAGCTGGCCAACATCGTCGCCGAGTGCGGACGGCGCGGCCATGAGATGGCCGAGTCGATGCTGTCGTTCGTGCGCGGTTCGAGCAAACCGCGCGAGGAGGTGGCAATTGCCGCGCTGTTCGGCGCGGTGCAGCTGCTGCTCAAGAGCAGCCTGCCCGACGGCGTGCGCCTGCAGTTGGATGTGCCGGGCGAGGACCTCAGCGTCGAGGCCAACTACACCGAATTGCAGCAGTGCCTGCTCAACCTCGGCCTGAACGCGCTGCAGGCGATGCCGCAGGGCGGCACGTTGACCCTGGCGGCCGGCCGCGAGGCCGACGGCACGGTGCGCCTGAGCGTGATCGACACCGGCACCGGCATGGCGCCGGACACCCAGGCGCGGCTGTTCAGCCCGTTCTTCACCACCAAATCCGATGGCACCGGGCTGGGCCTGGTGTCGTGCAAGCGCATCGTCGAGGCCTATGGCGGCTCGATCCGGGTCGAGAGCGCGCCTGGCGCCGGCACCCGCTTCGACCTGCTGCTGCCGCCGCGCACGCGGGCGGTGGCCCCGGACGTGGATCACGATGCGCCGGTGGTGCTCGGCCGCGGGCAGCGCATCCTGCTGGTCGACGGCGAGGCGACGCGGTTGTCGCTGCTGGGCAATGCGCTGTCCAGCCAGGGCTACCAGCCGCAGCTCGCCGCCGATGGCGCGGCGGCGCTGCAGCACGCGCAGCGCCATGCGTTGCCGGATCTGGTGATCGTCGACAGCGACATCATCCTGTTGTCGGCGGTGAGCCTGCTGCTGACGATGCAGGACCTGGGCTACAACGGCCCGGCGATCGTGCTGGAGGATGCCGACGTGCCGCTCAAGCGCGAGCACTTCCCGTCCGACATCCCGGTGCATGTGCTGCGCAAGCCGCTGGAGATGCGCCGGGTGTTCCGCGCGGTGGCGCTGGCGCTGGAAACGGTGGAATGA	MPHDGAKLGELRILLIEDSPEDAELLSDQLLESGLQARFERVDSEDSLRLALESFQPDIVLSDLSMPGFSGYQALRVVRESCPNTPFVFVSGTMGEETAVKALQDGANDYIIKHNPTRLPAAVTRAVREARAEAERLRVEGELMRAQRLESLALLAAGLSHDLRNILQPLLIVPDLLAGRSDDPQLRQLANIVAECGRRGHEMAESMLSFVRGSSKPREEVAIAALFGAVQLLLKSSLPDGVRLQLDVPGEDLSVEANYTELQQCLLNLGLNALQAMPQGGTLTLAAGREADGTVRLSVIDTGTGMAPDTQARLFSPFFTTKSDGTGLGLVSCKRIVEAYGGSIRVESAPGAGTRFDLLLPPRTRAVAPDVDHDAPVVLGRGQRILLVDGEATRLSLLGNALSSQGYQPQLAADGAAALQHAQRHALPDLVIVDSDIILLSAVSLLLTMQDLGYNGPAIVLEDADVPLKREHFPSDIPVHVLRKPLEMRRVFRAVALALETVE				NA	NA	NA	NA	NA
BMS020_07854	840	prcB		Proteasome subunit beta	ATGACCTATTGCGTCGGCATCGAGGTGGACGAAGGCCTGGTCTTCGCCGCCGACACCCGCACCAACGCCTCGCTGGACGACGTCCGCGTCCACCGCAAGCTGCACGTGTTCGAATACCCCGGGCAGGCGGTGTTCGCGATCATGTCGGCCGGCAACCTCGCCACCACCCAGCTGGCGATGTCGCGGCTGCAGCGCGACGCCGACGATGGCGCGCCACGCAGCCTGCGCAGTTTCCGCCACCTGTTCGAGGTCGCCGAGTACGTCGGCGAAGTGCTGGTGGCCAGCCAGGTCGACACCTCCCAGCACCCGCAGCACGCCGGCATCAGCACCCAGGCCACCTTGATCCTCGGCGGCCAGATCGCCGGCGAGCGGCCGGGCCTGTACATGGTCTACCCGCTCGGCAACGCGATCGCCTCCTCGCCGGAGACGCCGTACATGCAGATCGGCGAATCCAAGTACGGCAAGCCGATCCTGGACCGCATCATCCGCCCGGAAATGAAGCTGGAGGATGCCGCGCGCACCGCGCTGGTATCGCTGGATTCGACCATCCGCTCCAACCTGTCGGTGGGCATGCCGATCGACCTGGCACTGATCCGCAGCAACGACCTGCGCATCACCGAGCGCATGCGGCTGGAAGGCGACACCCCGCTGTACGCGGAAATCCACGACACTTGGTCGCGCAAGCTCGAGAACGCGGTCCGTACGCTGCCGCGCTTCCCGTGGGAACCGGCGCTGCCCGCGGGCGAGGACACCGGCACGCATGCCGGCGCGCTACCGCCACTACCGCCGCGTCGTGCCGCGATCCGCCGCGACCCCGAGGACCAGGCCTCGCAGCAGTAG	MTYCVGIEVDEGLVFAADTRTNASLDDVRVHRKLHVFEYPGQAVFAIMSAGNLATTQLAMSRLQRDADDGAPRSLRSFRHLFEVAEYVGEVLVASQVDTSQHPQHAGISTQATLILGGQIAGERPGLYMVYPLGNAIASSPETPYMQIGESKYGKPILDRIIRPEMKLEDAARTALVSLDSTIRSNLSVGMPIDLALIRSNDLRITERMRLEGDTPLYAEIHDTWSRKLENAVRTLPRFPWEPALPAGEDTGTHAGALPPLPPRRAAIRRDPEDQASQQ				NA	NA	NA	NA	NA
BMS020_07855	516	folK_2	COG0801	2-amino-4-hydroxy-6-hydroxymethyldihydropteridine pyrophosphokinase	ATGCGCGAATATTGCATGACCAGCGTGCTTCTCAGCCTCGGCAGCAACCTCGAACCGGCCCGCTATCTGCGCGTCGCGGTGCAGGAGCTGCGGGACCGCTTCGGTGCCATCGCCGTGTCGCCGGCCTACCTGACGCCGGCGGTGGGCTTCGACGGCCCGGATTTCCTCAACAACGCGGTGCTGCTGCGGACCGAGATGCCGCTGGCCGAGCTCGATGCCTGGCTGCATGCGCTGGAGGACCGCCACGGGCGCGACCGTAGCGGGCCGCGCTTCAGCGACCGCACGCTGGACGTGGACATCGTGTTCTACGGCGATGCGATCGTCGATGGGCCGGGGCACCTGCGCATTCCGCGCCCGGAACTCAAGCACGCCTTCGTGCTGCGGCCGTTGGCCGACATCGCGCCGGACTTCGTCGATCCGCTCAGTGGGCGCACGCTGGCGGCGCTGTGGCAGGCGCATCCGGACCATGACCGCGCGTTCGCGGTGGTGGCGCTGGAGGCGGCGGCAACAGCGTAG	MREYCMTSVLLSLGSNLEPARYLRVAVQELRDRFGAIAVSPAYLTPAVGFDGPDFLNNAVLLRTEMPLAELDAWLHALEDRHGRDRSGPRFSDRTLDVDIVFYGDAIVDGPGHLRIPRPELKHAFVLRPLADIAPDFVDPLSGRTLAALWQAHPDHDRAFAVVALEAAATA	PGPT0007910_1652	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007910-folK-K00950	NA	NA
BMS020_07856	747	ycdF	COG1028	Glucose 1-dehydrogenase 2	ATGAGCGAAGCAACCCGGGTAGCGCTGGTGACCGGCGGCGCGCGCCGCATCGGCGCGGCGATCGTGCAGCGCCTGCACGCCAGCGGCTACGCGCTGGCGATCCACGCCAACGATTCCGGCACGGCGCTGGATGCACTGGTGCAGGCGTGCGAGGCGGCGCGCCCCGGCAGCACGCTGGCGCTGCGCGCCGACCTGCGCGACACCGCCGCGCCGGCGATGCTGGTGGAGGCCTGCGTGGCGCGCTTCGGCCGGCTCGATGCGCTGGTCAACAACGCCTCCAACTTCTTCCCCACGCCCATGCAGGAGGCCAGCGCGGAGGACTGGGACGCGCTGTTCGCGGTCAACGCGCGCGCGCCGTTCTTCCTCGCCCAGGCCGCTGCGCCGCACCTGCGCCGCAGCCAGGGTGCGATCGTCAACCTGACCGACCTGCACGCCAGCCAGCCGCTGCGTGCGCATCCGGTCTACAGCGCGGCCAAGGCCGCACTGGCGATGCTGACGCGCGCGCTGGCGCTGGAACTGGCGCCGGAGGTGCGGGTGAACGCGGTGGCACCGGGCGCGATCCTGTGGCCGGAGCATGGCAAGAGCGAGGCCGCGCGCGCGGCGCTGCTGGCACGCACGCCACTGGCGCGCACCGGCACCGCGGAGGAAGTCGCCGAGGCGGTGCGCTGGCTGCTGCAGGACGCCAGCTACCTGACCGGCCACAGCCTGGCCCTCGACGGCGGCCGCAGCCTGTCGCCGGCGACCTAG	MSEATRVALVTGGARRIGAAIVQRLHASGYALAIHANDSGTALDALVQACEAARPGSTLALRADLRDTAAPAMLVEACVARFGRLDALVNNASNFFPTPMQEASAEDWDALFAVNARAPFFLAQAAAPHLRRSQGAIVNLTDLHASQPLRAHPVYSAAKAALAMLTRALALELAPEVRVNAVAPGAILWPEHGKSEAARAALLARTPLARTGTAEEVAEAVRWLLQDASYLTGHSLALDGGRSLSPAT	PGPT0014705_509	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
BMS020_07857	1185			hypothetical protein	ATGCACGCCGATCTTCCCGAGCCCGGTCCCGACGCGCTCGCGCACAGCGACGCGCTCGCCGCCCACCTGCGCGCGGAGATCGCTGCCAGCGGCGGCGCCATTCCGTTCTCGCGCTTCATGGAAGTGGCGCTGTACGCGCCCGGTATGGGCTATTACAGCGCCGGCGCCAGCAAGTTCGGCGAGAGCGGCGATTTCGTCACCGCGCCGGAACTGGGCCCGCTGTTCGCCGCGACCGTGGCCGGCGCGCTGGCGCCGGTGCTGCAGCAACTGGGGCCGCAGTCGCGGGTGCTGGAACTGGGCGGCGGCAGCGGCGCCTTCGCCGAGGTGATGCTCAAGCGCCTGCTGGAACTGGATGCGCTGCCGGACCGTTACGCGATCCTGGAGCCCAGCGCCGACCTACGCGAACGCCAGCGCGAGCGGCTCGGCAAGGCGTTGATCCCGCCGGTGTTCGACCTGGTGGAATGGATCGACCGCCCGTTCGACGACGACTGGGACGGCGTGCTGTTCGCCAACGAGGTGATCGATGCACTGCCGACGCCGCGCTTCCTGGTCCGCGATGGCGAGGTCTACGAGGAAACCGTGCAGCTCGATGGCGAGGGCGCGTTCCGCCGCGGCGAGCAGCCGGCCGACGCGCTGACCTCGGCCGCGGTGCGCCACCTGGAACGCTACCTGGAACAGCCGTTCGAGCATGGCTACCGCTCCGAGCTGCTGCCGCAGCTGCCGTACTGGATCCAGGCGGTCGCCGGTGGCCTGCAGCGCGGGGCGATGCTGTTCGTCGACTACGGCTATCCGCGGCGCGAGTACTACCGCGCGCAACGCACCGACGGCACGCTGCGGGCGTTCTACCGCCACCGCGTGCATGACGATCTCTACCGCTGGCCGGGCCTGCAGGACCTCACCGCGTCGGTGGATTTCACCGCGCTGGCCGAGGCCGGCACCGGGGCCGGGTTCGACCTGGCCGGCTACTGCACGCAGGCCAGCTTCCTGCTCGGCAACGGGCTGGATGCGCTGCTGGAGCAGGCCGATGGCCGCACCGACGAGGTCGGCCGCATCCGCCTGCGCGAACAGGTCAAGCGGTTGACCCTGCCCAGCGAGATGGGCGAGCGCTTCCAGGTGATGGGCTTCACCCGTGATGTCGACCTCGAGGCGGCGTTCCTGCTCGGCGACCTGACGTGGCGGCTGTGA	MHADLPEPGPDALAHSDALAAHLRAEIAASGGAIPFSRFMEVALYAPGMGYYSAGASKFGESGDFVTAPELGPLFAATVAGALAPVLQQLGPQSRVLELGGGSGAFAEVMLKRLLELDALPDRYAILEPSADLRERQRERLGKALIPPVFDLVEWIDRPFDDDWDGVLFANEVIDALPTPRFLVRDGEVYEETVQLDGEGAFRRGEQPADALTSAAVRHLERYLEQPFEHGYRSELLPQLPYWIQAVAGGLQRGAMLFVDYGYPRREYYRAQRTDGTLRAFYRHRVHDDLYRWPGLQDLTASVDFTALAEAGTGAGFDLAGYCTQASFLLGNGLDALLEQADGRTDEVGRIRLREQVKRLTLPSEMGERFQVMGFTRDVDLEAAFLLGDLTWRL				NA	NA	NA	NA	NA
BMS020_07858	405			hypothetical protein	GTGAGCGGCGCGTTGCGGCCGTTCCGGCGGCCGCGGTTGTGGGTGGCGCTGTGGGCGCTGGCGATCGCGGTGACGGTGCTGGTGTGCCTGCTGCCGGGACCGTCGTTGCCGCAGGTGCCGCGTGGTGGCGACAAGCTCGAGCACCTGCTGGCGTATGCGCTGCTGGCGGCGTGGGCGGTGCAGCTGTTCGCGAGCCGTGCGGCGCTGTGGCGGGCGGCGGCCGGGTTGTTCGGCGTGGGCGTGCTGATCGAGATCCTGCAGGGCACGCTGACCACCACCCGCAGCGCCGATGCCGCCGATGCGCTGGCCGACGCCGCCGGCATCGCGCTGGGCATGCTGCTGGCGCGTACGCCGGCGCGCGGCTGGTTGCTGGCGCTGGACCGGCGGCTGCCCGCGCGCGGGTGA	MSGALRPFRRPRLWVALWALAIAVTVLVCLLPGPSLPQVPRGGDKLEHLLAYALLAAWAVQLFASRAALWRAAAGLFGVGVLIEILQGTLTTTRSADAADALADAAGIALGMLLARTPARGWLLALDRRLPARG				NA	NA	NA	NA	NA
BMS020_07859	2286			hypothetical protein	ATGCTGTCCCGCCATCTGCTGCGCGCGTGCGCCGCGCTCGTGCTGTCCGCCCCCACGCTGCTGGCCGCGGCGCCGCTGCCGCTGATCCCCGCCCCGGCACAGGTCCGCCTCGACGACGGCGCGTTCGTGCTGTCGCCCGCCACCCGCGTGCGCGCCGCAGATGCCGGCGCCGAAGCCACTGCGCGCCAGTTCGTCGCCGGGCTCGCACGTGGCAGCGGCATCGAACTGGCACTGGCACCGGCGGGCGCACGCGCCGGCACGCATGAGATCGTGTTCGCGCTCGACCCGGCTGCCAGCCGCTCGGCCGAGGGCTATGTGCTGCAGATCGGGCGCGACCGCGTCGAGGTCCGCGCCGCCGATGCGCGCGGCCTGTTCTACGGCGCGGTCAGTCTGTGGCAGCTGGCACCGGCACGCGGCGAGCCAGGCGCTCGGCAACTGCCGGCGCTGCGCATCGACGATGCGCCGCGCTTTCCCTGGCGCGGGGTGATGCTGGATTCGGCGCGGCATTTCCGCAGCGTCGCCGAGGTCAAGCAGCTGATCGACGCGATGGCGCTGCACAAGCTCAACACCCTGCACTGGCATCTCACCGACGACCAGGGCTGGCGCATCGAGATCCCCAAGTATCCGCGCCTGACCGAGATCGGCAGCTGCCGCGCGCCGGCCGGCGATGGCGGCGTCGCCGCCGATGGCACGCCGGTGCGCTACTGCGGCTACTACACCCAGGCGCAGATCCGCGACGTGGTCGCCTACGCCGCCGCGCAGCACATCACCATCGTGCCCGAGTTCGACCTGCCTGGGCATGCGACCGCGGCGCTGGCCGCGTATCCGCAGTTCGGCGTGAGCGGGCAGGCGCCGACGATCACCTCCGAGTGGGGCATCTTCACCCATCTGTTCAACGCCGACGATGCCACGCTGGCGTTCTTCAAGGACGTGCTGGGCGAGATGATCGCGCTGTTCCCCGGGACCTACATCCACGTCGGCGGCGACGAAGCGGTCAAGGACGAATGGAAGGCCTCGCCGAAGATGCAGGCACGCATCCGCGCGCTCGGATTGAAGGACGAGGAGGCACTGCAGGGCTGGATCATCCGCCAGCTCGACATCTACCTGCGCGCGCACGGCCGGCGCCTGCTGGGCTGGGACGAGATCCTCGCCGGCGGCTTGCCCGAGGAAGCCACGGTGATGTCGTGGCAGGGCATCCAGGGCGGCATCACCGCCGCGCGCCAGGGCCACGACGTGGTGATGGCGCCGGTCTCGCACCTGTACTTCGACTACCTGCAGACCACCTCGCCGCAGGAGCCGCCAGGCCGCCCGGCGGCGATCGAGCTGCGCAAGGTCTACGACTTCGACCCGGTGCCGGCCGAACTGGATGCGACACAGCGCCAGCACGTGATCGGCGTGCAGGCGACCAGCTTCTCCGAGCACATGCGCAGCTGGCAACGCGTGCAGCACGCGCTGTATCCGCGCATGGCGGCACTGGCGGAGATCGCCTGGACCCCGCAGTCGGGCAAGGACTACGCCCGCTTCCTGCAGCGCCTGCCGGGGCTGCTGGCGCATTACCGCGCCTGGGGCATCGACTACGCACAGACCCCCTTCCAGCCGATGTTCGCGCTGCAGGGCGATGCGTCCACCACCACCGCGATGGTGAGCCTGTCCAACCCGCTCGGCTATGCGGACATGCGCTACACACTCGACGGCAGCACGCCCGGAGCGGGTTCGCCGCGCTACACCGCGCCGCTGACGCTGCAGCTGCCAGCCACGCTGCGCGCGACCACGCTGGTCGACGCGCAGCCACTGGCAGCACCGAGCCAGCTCGAGCTGGCCGTCGACGCGCTGCGCAGCCGCAGCGACGAGGCGCTGGCGACCTGCAGCAACAAGCTGGTGCTGCGGCTGGAGGATGATGGCCCGCGCGAGGGACCGCGCGCGATCTTCAACGTCGACATCTTCGACCCGTGCTGGCGCTGGCCGCAGGCCGACCTGCGCGACGTGCGCCATGTCCAAGTGCGCGCCGGGCGCATCCCGTACTACTTCCAGCTCGCCCACGACGAGCAGCACCGGCGCTTCCATCCGGCCCGCAGCGCGCATGGCGAGCTGGTGCTGCGCGACGGCTGCGAGGGCCGCACGCTGGCCAGCCTGGCGCTGCCGGCCGCGCCGGATGCCGATGGCTTCCTGACCCTGACGGCGACCCTACCGCCGGATGCGCCGAAGCAGGCCGACCTGTGCGTCTACTTCAGCGGCGACACCCGGCCGACGATGTGGGTGCTCGACCGCCTGACGCTGCAGCCCTGA	MLSRHLLRACAALVLSAPTLLAAAPLPLIPAPAQVRLDDGAFVLSPATRVRAADAGAEATARQFVAGLARGSGIELALAPAGARAGTHEIVFALDPAASRSAEGYVLQIGRDRVEVRAADARGLFYGAVSLWQLAPARGEPGARQLPALRIDDAPRFPWRGVMLDSARHFRSVAEVKQLIDAMALHKLNTLHWHLTDDQGWRIEIPKYPRLTEIGSCRAPAGDGGVAADGTPVRYCGYYTQAQIRDVVAYAAAQHITIVPEFDLPGHATAALAAYPQFGVSGQAPTITSEWGIFTHLFNADDATLAFFKDVLGEMIALFPGTYIHVGGDEAVKDEWKASPKMQARIRALGLKDEEALQGWIIRQLDIYLRAHGRRLLGWDEILAGGLPEEATVMSWQGIQGGITAARQGHDVVMAPVSHLYFDYLQTTSPQEPPGRPAAIELRKVYDFDPVPAELDATQRQHVIGVQATSFSEHMRSWQRVQHALYPRMAALAEIAWTPQSGKDYARFLQRLPGLLAHYRAWGIDYAQTPFQPMFALQGDASTTTAMVSLSNPLGYADMRYTLDGSTPGAGSPRYTAPLTLQLPATLRATTLVDAQPLAAPSQLELAVDALRSRSDEALATCSNKLVLRLEDDGPREGPRAIFNVDIFDPCWRWPQADLRDVRHVQVRAGRIPYYFQLAHDEQHRRFHPARSAHGELVLRDGCEGRTLASLALPAAPDADGFLTLTATLPPDAPKQADLCVYFSGDTRPTMWVLDRLTLQP	PGPT0012150_1150	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
BMS020_07860	2712	btuB_25		Vitamin B12 transporter BtuB	ATGAAGTACCGCAACCGCAAGACCGTCCTGTCGGCCGCCATCGTCGCCAGCCTTGCCTTCGGCGCGCACGCGCAGGAGGCCGCTCCGTCCACCCAGGCCACCGACCTGGACACCATCCAGGTCGTCGGCATCCGCGGCTCGATGGAGAAGTCGCTGGATACCAAGCGCGAAGCGAAGTCGCACGTCGACGTCGTCACCGCCGAGGACATCGGCAAGCTACCGGCCAAGAACGTCGCCGACACCCTGCGCGAACTGCCCGGCGTGAACATCAGCTCGTCCAGCGCCAGCGAAGGCGCCTTCGACGAGGCCGACCGCGTCAGCCTGCGCGGCACCAACCCCAGCCTGACCCAGACCCTGGTGAACGGCCATGGCGTCGGCACCGGCGACTGGTTCGTGCTCAGCCAGACCGCCAACGTCGGCCGCAGCGTCAGCTACTCGCTGCTGCCGTCGGAGATCGTCGACCAGGTGGTCGTGCACAAGACCTCCGAGGCCAAGCTGGTCGAGGGCGGCAGCGCCGGTTCGGTCGACATCATCACCCGCAAGCCGCTGCAGTTCGCCGACAAGCTCACCACCGAAGCCTCGATCGGCGCGGCCTATTCCGACCTGCCGGACGAGACCAAGCCGCAGGTCAGCGCGCTGCTGAACTGGAAGAACGACGCCGACAATTTCGGCGTGATGGTGCAGGGCTTCTACGAGAAGCGCAGCCTGCGCCGCGACGGCCAGGAAGTGGTCGGCGGCTACGGCCAGATCGCCGACGACGCAGCGGTGGTGGCGACCAACCCCGACCTCGCCGGCGTGTACTACCCCAACCTGCTTGGCGCGGTGCTGTTCGAGCAGCAGCGCGAGCGCAAGGGCGGCGTGCTGGACATCCAGTTCAAGCCGCTGGACAACCTGACCCTGGACCTCAACGCGTTCTACTCCAAGCTCGAAGCGGACAACTACAACCGCAACTACATGATGTGGGCCAGCCAGTTCGTGAACTCGCAGGCGCCGCAGCCGGGCTACGTGATCAAGGACGGCGTGCTGACCCAGGCCACCTATGCCGCGGTCAGCAGCAGCACCGTCACCCCGTACGGCGTGTACGACATGATCTCGCGCCCGGGCGCCTCCTCGCAGTCGCGCTACGTGACCCTGGATGCCGACTGGCAGGCCACCGACACCTTGAACTTCAAGTTCCAGGCCGGCACCACCAAGGGCAACGGCAAGAGCCCGACCCAGGACGTGCTGGAGACCGGCACCGCTGGCAACGCCGGCGCCAGCTGGAGCATGGGCGGGCTGGGTGATCCGATCGACTGGACGCTGGGCGGCAACAACACCGCCGCCACCCACCTGCCCTCCTCGGGCTGGATCTTCGGTGGCCAGGCCATCGACGTGGTCGACAAGGAACACTGGTTCGCCGCCGACGGCGAGCTGTTCACCGGCACCGACGGCGTGCTGAGCTCGCTGGATTTCGGCGCGCGCTATGCCGAGCACGAGCGCCGCAACGACTTCGAGATCGCGCAGGGCCCGAACTGGGCCTCGGACTGGACCAACATCGGCGCCTATCCGACCAGCAGCGGCGCCTACCCGGACGACTTCGGCAGCGACCTCGGCGGCAGCTTCCCGTCCGGCATCTGGTACTACACCCCGTCGCAGCTGGCCGAGATCAACGCCGCGTTCGCCAACCGCGATCCGGTCGAGCGCTTCTACTTCTCCGACGTCTACGGCGTGAAGGAGAAGATCGGCGCGGCCTACGTGCAGGCCAACTTCGCCGGCGAGGCGTGGAGCGGCAACTTCGGCCTGCGCTACGTCAGCACCAAGACCGACGTGCGCTACAACCAGGCGCTGGCAGTGAACTCGGGCATCCCGGGCGCGGTGACCGGCTCGGCGTTCGGCGACTACCTGCCGGTGGTGGAGCACAACGACTACAACCGCCTGCTGCCGAGCGCCAACATCAAGCTCGACATGGCCGACGACGTGGTCGCGCGCTTCGCGATCTCGCAGACGATGACCCGCCCGGACTACTCCGCGCTGGCCGGCTCGCTGTCGCTGGATGACCTGACCCACACCGGCAGCGGCGGCAACACCCAGCTCAAGCCGATCGTCTCGACCAACTACGATGCCTCGGTCGAGTGGTATTTCGCGCCGCGCGCCCTGCTCTCGTTCGGCGTGTTCGCGATGCAGCTGAAGGACTACATCAACTTCGGCACCACCACGATCCAGTACAAGGACCAGGCCGCCAGCTACGCCAGCGGCAGCGACGTGTACGCCGATTACCAGGTGTCCGTGCCGGTCAACACCAACGGCAGCATCAAGGGCTTCGAGGCCGCCTACCAGCAGCCGATCGGCGAGTGGTTCGGCGTGTCGGCCAACTACACCTATGCCGATGGCGAGACCAGCGCCGGCGGCCCGCTCAACGGCACCTCCAAGAGCACCTACAACCTGGCCGGCTACTTCGAGAACGACCGCTTCAGCGCCCGCGTGAGCTGGACCTGGCGCGACGACTTCTACGCCGGCGTCAGCCGCACCGACGAGTTCTACCAGCAGTCGGTGGGCAACCTGTCGGCCTCGCTGTCGTACAAGGTCACCGACTGGATGACGGTGTCGCTGGACGGGCTGAACCTCAACAACCCGACCTACAAGTACTACACCAACAGCGACGCGGGCTACCTGCCGTACGCGTTCTACGCCAACGGCCGTCAGTACTACCTCAACATGCGCTTCAAGTTCTAA	MKYRNRKTVLSAAIVASLAFGAHAQEAAPSTQATDLDTIQVVGIRGSMEKSLDTKREAKSHVDVVTAEDIGKLPAKNVADTLRELPGVNISSSSASEGAFDEADRVSLRGTNPSLTQTLVNGHGVGTGDWFVLSQTANVGRSVSYSLLPSEIVDQVVVHKTSEAKLVEGGSAGSVDIITRKPLQFADKLTTEASIGAAYSDLPDETKPQVSALLNWKNDADNFGVMVQGFYEKRSLRRDGQEVVGGYGQIADDAAVVATNPDLAGVYYPNLLGAVLFEQQRERKGGVLDIQFKPLDNLTLDLNAFYSKLEADNYNRNYMMWASQFVNSQAPQPGYVIKDGVLTQATYAAVSSSTVTPYGVYDMISRPGASSQSRYVTLDADWQATDTLNFKFQAGTTKGNGKSPTQDVLETGTAGNAGASWSMGGLGDPIDWTLGGNNTAATHLPSSGWIFGGQAIDVVDKEHWFAADGELFTGTDGVLSSLDFGARYAEHERRNDFEIAQGPNWASDWTNIGAYPTSSGAYPDDFGSDLGGSFPSGIWYYTPSQLAEINAAFANRDPVERFYFSDVYGVKEKIGAAYVQANFAGEAWSGNFGLRYVSTKTDVRYNQALAVNSGIPGAVTGSAFGDYLPVVEHNDYNRLLPSANIKLDMADDVVARFAISQTMTRPDYSALAGSLSLDDLTHTGSGGNTQLKPIVSTNYDASVEWYFAPRALLSFGVFAMQLKDYINFGTTTIQYKDQAASYASGSDVYADYQVSVPVNTNGSIKGFEAAYQQPIGEWFGVSANYTYADGETSAGGPLNGTSKSTYNLAGYFENDRFSARVSWTWRDDFYAGVSRTDEFYQQSVGNLSASLSYKVTDWMTVSLDGLNLNNPTYKYYTNSDAGYLPYAFYANGRQYYLNMRFKF	PGPT0003790_4361	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_07861	987	glk_5	COG0837	Glucokinase	GTGAGCGCTGCTTCGAGCTTCCTCGCCGCCGACGTCGGCGGCACCCATGTGCGGGTTGGCCGCGTGCAGGTGCGCGACGACGCGACGCGCCCGTTCGAAGTGTTCGGCTACCGCAAGTACCGCTGCGCCGACCATCCGAGCCTGGCGGCGATCCTGGCCGACTTCCTCAGCGACGGCCCCGCTGTGGACGACGTGGTCATCGCCAGCGCCGGCTTCCCGCTGGAAGACGGCACCGTGATCACCGCCAATCTGCCGTGGGCGCTGTCGCCGGCGGCGATCCGCGACGCGCTCGGCCTGCGCGCGGTGTACCTGGTCAACGATTTCGAGGCGGTCGCGCACGCCTCGGCCTACGTCGATGCCAGCGAAGTGCTGCAGCTGACCGGCCCGGCGCAGGCGCCGCGCGCGCCGACCCTGGTCCTGGGACCCGGCACCGGTCTGGGTGCCGCGGTGTGGATCCCCACCAGCGGGCATCCGGTGGTGCTGGCGACCGAAGCCGGGCAGGCCGCGCTGGCGACCAACACCGAGCTGGAAATGCAGCTGGTGCGGCAGATGCTGAAGACCCGCAGCCACGTGCCGGTCGAGCACGCACTGTCCGGCCCGGGCCTGCTCAACCTCTACACCGCACTGTGCGCGGTGCGCGGCGTGGCGCCGGCCCATGCCACGCCCGATGCGATCACCGCCGCCGCGCTGGCCGGCGAGGACGCGCTGGCGGTCGAAAGCCTCGATGTGTTCTGCGGCCTGCTCGGCAGCGTGGTCGGCGACATGGCCCTGCTCTACGGCGTGCAGGGCGGCATCTACCTGGCGGGCGGGATCCTGCCCAAGATCCGTCAGTTCCTGATCACCAGCAGCTTCGTGCATCGCTTCCTGGACAAGGGACCGATGCGCGAGGCGCTGCTGCGCATTCCCGTGAAGTTGGTCGAGCACGGGCAGCTGGGCGTCGTCGGCGCTGCCAGTTGGTATCTGGGCCAGAAGACGCACCCGGCGTAA	MSAASSFLAADVGGTHVRVGRVQVRDDATRPFEVFGYRKYRCADHPSLAAILADFLSDGPAVDDVVIASAGFPLEDGTVITANLPWALSPAAIRDALGLRAVYLVNDFEAVAHASAYVDASEVLQLTGPAQAPRAPTLVLGPGTGLGAAVWIPTSGHPVVLATEAGQAALATNTELEMQLVRQMLKTRSHVPVEHALSGPGLLNLYTALCAVRGVAPAHATPDAITAAALAGEDALAVESLDVFCGLLGSVVGDMALLYGVQGGIYLAGGILPKIRQFLITSSFVHRFLDKGPMREALLRIPVKLVEHGQLGVVGAASWYLGQKTHPA	PGPT0017730_1066	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017730-glk-K00845	NA	NA
BMS020_07862	2685			hypothetical protein	ATGTCACGCCTCGCCCGCCCACGTTCGCGTTGCTGTTCCCTGTCCGTGCTTGCCCTTTCCATCAGCGCCGGCCTCGCTGCCGGTCCCGTCCTGGCCCAGGACGCCGCCAGTGGCGACAAGGACAAGGTCGCCGAGCTCGATACCATCACCGTCACCAGCTCGTACCAGAAGAGCCTGATCACCGCGCTGGACAAGAAACGCGACGACATCCGTGCCACCGACGGCATTTCGTCCGAAGACATCGGCAAGTTCCCCGCCGAAAACATCGCCGAGGCGATCCAGCGCATTCCCGGCGTGCAGATCTCCAGCATCAACGGCCGTGGTTCGACCATCAGCATCCGTGGCCTCGGCCCGCAGTACGCGATGACCACGGTGAATGGCCAGACCTTCAAGAGCGCCGATTTCACCGACGGCTTCCGCTACGACATCATCCAGCCCGAGCTGGCCGCGGGCATCCAGGTGATCAAGTCGCCGACCGCGGACATGGATGCCGGCGGCCTGTCCGGCACCGTCAACATCGATACGATCAAGCCGCTCGATTACAAGGAGCGCAAGCTGATCGTCTCGGCCACCGGCCAGCACTCTGATTCGGTCGGCACCACCACGCCGAAGGGCGTGCTCAGCTACATCGACCAGTTCAACGTCGGCGACGGCAAGCTCGGCCTGTTCTTCAACGCCGGCTACCAGAAGCTGGAGGATCGCGCCGACTACTTCTGGATCGACCGTTGGGGCACCGGGACCTACGACGGCGAATCGGTGGTGATGCCCACGCGTACGCGCTACCGCCGCATCGACCGCGACACCGAGCGCAAGATGCTCAACGGCGCACTGCAGTGGCAGCCGGCCGACAATCTGGAAATGGGCCTGACCTGGCTGTACAGCAAGGACAAGACCGAGAACGACATCAAGCAGCAGGTGTTCCTGCTCAGCTCCGGCACCGAGACCGTGCAGGAGGCCAGCAACGGCTATGCGACCAAGGTGCTGGCGGAAAACTACACGCTGGAGAACAACCGCCAGCTCGAGCAGCACGACTGGACTTCGCAGCAGGTCACCTACGACTTCAAGTGGACCCCGGGTGACTGGACCGTCAGTGGCGCGCTGAACCACACGCTCGGCGAGACCAAGGAGAGCGAGACCGCGGCGATCCTCGGCGTGGTGGTGGATTCGAGCGTGCTCGACATCTCCAATCCGTCCAGCCCGTCGTTCAGCGTGTCCAACAGCCTCACCGATGCCAGCTGGTACGACCCGAACACGATGGTGCGCAACGAGTACCCGAACGGCGCGATCAAGCACGTCAAGAACCAGGAGGATTCGGTGCAGCTCGATGCCGAACGCTGGCTGGGCTGGGGCTGGCTGAGCTCGGTGAAGTTCGGCGCCAAATACCGTCGCGAGACCCTGGACCGCAACGTGTGGCGGCGTGACCGCTACGTCATCGGCGACGCCGATCCGTCCGACCTGCCGACGATGGCCGACTACGCCACCACCGAAACCGGCTTCCTGGATGGGATGTACTCGATCCAGCACTCCTTCATCATCCCCAACATCGCCGCCTACGAGGCCGCGCTGGCCGCCGAGGGCGTGACCATCCCGGTGGTGTTCGCGCCGCAGAGCAGCTACTCGATCACCAACGACATCTGGTCCGGCTACGCGCTGGCCAAGATCGACACCGAGATCGGCTCGATGCCGCTGCGCGGCAACATCGGCATGCGCTACGAGAACACCTCGCGCGACACCAATACCTGGGTGACCGAGCCGGACGACGTCAACGAGGAAGCCAACAACATCGTCGGCACCGCCAACTCGACCTACCGCTACAACAACTGGCTGCCGAGCGTGAACCTGGTGCTGGAGATGCGCCCGGACCTGCTGCTGCGCGCGTCGGCGGCCAAGGTGCTGGTGCGGCCGATCCTGACCAGCAGCACCGCGATCGCCACGACCGAGGAAAGCAGCCTGCTCACCGACGGACGCACGCTGAACTCGGTGACGCTGGGCTCGGCCGACCTCAAGGCGATGACCGCCGAACAGGCTGACCTGGGCGTGGAGTGGTACTACGGCGGTGGCGGCCTGTCGCTGTCGGGCTTCTGGAAGGCGATCAAGAACGGCACCTACAACCAGGACTACTGCCCGGGCAGCTACAACGGCGTGGCGCTGAGCGGCAACAGCGACGGCGAATGCGTGTCCGCCGCGGGCGAGGTGTACGAAATCACCAAGACCTACAACAGCGACCAGACCAACTACCTGAAGGGCTACGAGCTGTCGTGGACGCAATCGCTGGACGCCTGGCTGCCGATCGACGGCTTCGGCCTGACCGCGAACTTCACCCGGGTGATCCCGAACTACAACGACGACTTCGTGATCAGCAACCTGTCGGAGAAGACCTGGAACGCCACCGCGTTCTGGGAGAACCGGATGTTCAGTGCGCGCCTGTCGGCCACCCATCGCAGCGAGTACTACCAGACCAAGTCCGACAGCTTCTTCGCCTACGCAGGGCACATGATGGAGGCGCGCACGCAGCTGGACGCGCAGCTGGGCTACCAGTTCAGCGACAAGCTCAGCTTCTCGCTGGGCGCGGTCAACCTGACCAACCAGAAGGAGAAGGCCTATTACCAGGTCAGCGACATCTGGCAGATGACCGGCGTCACCGGCCGCAGCTACTACCTGACCATGAAGTGGGAGATCCTCTGA	MSRLARPRSRCCSLSVLALSISAGLAAGPVLAQDAASGDKDKVAELDTITVTSSYQKSLITALDKKRDDIRATDGISSEDIGKFPAENIAEAIQRIPGVQISSINGRGSTISIRGLGPQYAMTTVNGQTFKSADFTDGFRYDIIQPELAAGIQVIKSPTADMDAGGLSGTVNIDTIKPLDYKERKLIVSATGQHSDSVGTTTPKGVLSYIDQFNVGDGKLGLFFNAGYQKLEDRADYFWIDRWGTGTYDGESVVMPTRTRYRRIDRDTERKMLNGALQWQPADNLEMGLTWLYSKDKTENDIKQQVFLLSSGTETVQEASNGYATKVLAENYTLENNRQLEQHDWTSQQVTYDFKWTPGDWTVSGALNHTLGETKESETAAILGVVVDSSVLDISNPSSPSFSVSNSLTDASWYDPNTMVRNEYPNGAIKHVKNQEDSVQLDAERWLGWGWLSSVKFGAKYRRETLDRNVWRRDRYVIGDADPSDLPTMADYATTETGFLDGMYSIQHSFIIPNIAAYEAALAAEGVTIPVVFAPQSSYSITNDIWSGYALAKIDTEIGSMPLRGNIGMRYENTSRDTNTWVTEPDDVNEEANNIVGTANSTYRYNNWLPSVNLVLEMRPDLLLRASAAKVLVRPILTSSTAIATTEESSLLTDGRTLNSVTLGSADLKAMTAEQADLGVEWYYGGGGLSLSGFWKAIKNGTYNQDYCPGSYNGVALSGNSDGECVSAAGEVYEITKTYNSDQTNYLKGYELSWTQSLDAWLPIDGFGLTANFTRVIPNYNDDFVISNLSEKTWNATAFWENRMFSARLSATHRSEYYQTKSDSFFAYAGHMMEARTQLDAQLGYQFSDKLSFSLGAVNLTNQKEKAYYQVSDIWQMTGVTGRSYYLTMKWEIL				NA	NA	NA	NA	NA
BMS020_07863	2289			hypothetical protein	TTGACTGCACACGCTTCGATCCGACGTCCCGCCGGCCGCCTGCTGCTGGTCCTTTCCGGCCTGCTGGCCGCCACCGCCGCACACGCCGGCGACGCCGCGCACGCAGTGCTCGAACGCAGTCTGGGGGCCGCGGCTGCGGCGCGAATCACCCTGAGCCAGAAACCCCAGGACGGCACGCCGTGGTACCGCGTCGAGGCGCAGGGCGCGCAGCTGCAGGTGCAGGGCTCCGATCCGGTCGCGCTGGCGCATGGTGCCTACGCCTATCTCGGGTCGATCGGCGCCGCATCGGTGAGCTGGGAGGGCGATCGCGTGGCGTTGCCGGCACGGTTCGCCCCGTTCCATGGCGACAAGGTCGCCACGCCGTTCACGCATCGGGCCTATCTCAATACCTGCACCTACGGCTACACCACGCCGTTCTGGGACTGGCCGCGCTGGGAGCGCGAGATCGACTGGATGGCATTGCACGGCATCGACATGCCGCTGGCGATGGAAGGCCAGGAGGCGGTGTGGCAGGCGCTGTGGCGTGAATTCGGCGTCGGCGACGCCGCGCTCGACGGGTATTTTTCCGGCCCGGCGTTCACGCCGTGGCAGCGCATGGGCAACATCGAGGGCTACCGTGCACCGCTGCCGCAGGCCTGGATCGAGGCCAAGCGCGGCTTGCAGAAGCAGATCCTGGCGCGGATGCGCGAGCTGGGGATGAAGCCGGTGCTGCCGGCGTTCGCCGGCTACGTGCCGAAGGCGTTCGCGCAGGCCCATCCGCAGGCGCGGATCTACCGCATGCGGGCCTGGGAGGGATTCCACGAAACCTATTGGCTGGACCCGGCGGACCCGTTGTTCGCGCGTGTGGCCAAGCGCTTCATCGAGCTGTACACCGCCGAGTACGGCGCGGGCCAGTACTACCTGGCCGACGCCTTCAACGAGATGCTGCCGCCGGTGGCGGCCGACGGCAGCGACGTCGCCGCGGCCAAGTACGGCGACAGCACCGCCAATACCGAGGCGGCCAAGGCCAAGGCGGTGCCGGCGGCGCAGCGCGACGCACGCCTGGCGCAGTACGGCGAGGCGATCTACCACTCGATCGCGCAGGCCAACCCCGGCGCGACCTGGGTGATGCAGGGCTGGCTGTTCGGTGCCGACCGCGAGTTCTGGCAGCCCGAGGCGATCGCCGCGTTCCTGAGCAAAGTGCCGGATGCGCACATGCTGGTGCTGGACATCGGCAACGACCGCTATCCCGGCACGTGGAAGGCATCGCAGGCCTTCGACGGCAAGCAGTGGGTGTACGGCTACGTGCACAACTACGGCGGCAGCAATCCGGTCTATGGCGATTTCGATTTCTACCGCCAGGACCTGCAGGGCCTGCTGGCCGATCGCAGCCATGGCCAGCTGGCCGGCTTCGGTGTGTTCCCGGAGGGGCTGCACAGCAACTCGGTGGTCTACGAATACCTGTACGACCTGGCCTGGGGCGGCACCGCGCAGCCGTGGGAGCAGTGGATCGCGCGCTACACCCGCGCCCGCTACGGGCATAGCGATGCGGCGTTGCTGGCGGCCTGGCAGGACCTGCGCGCGTCGGTGTACTCGACCCGCTACTGGAGTCCGCGCTGGTGGAACAAGCGTGCCGGCGGCTACCTGCTGTTCAAGCGCCCGAGCGCGTCGGTCACCGGCTTCGACGACACGCCTGGCGATCCGCAGCGGCTGCGCCGCGCACTCGAGGCGTTGCTGGCGCTGGCGCCGCGATACCGCGATGCGCCGCTGTTCCGCTACGACCTGGTGGATTTCGCCCGCCACTACCTGACCCTGCGCAGCGACGCCTTGCTGCAGCAGGCGGTGGCGGCCTATGCGCGCAAGGACTTCGCCGCCGGCGACGATGCACGCGATCGCGCCTTCGCACTGGTGCGTGGCATCGATGCGCTGGTCGGCGGCCAGCAGGAGACGCTGGCGAGCTGGACCGGGCAGGCGCGGGCGCAGGCCGTTGGTGATCCGGCGCTGGCGGCCTACTACGTCGGCAATGCGCGCGCGCAGGTCAGCGTGTGGGGCGGCGAGGGCAATCTGGCCGACTACGCGTCCAAGGCCTGGAGCGGCATGTATGCCGGCTTCTACTTGCAGCGCTGGACCCGCTTCCTGGATGCCTACCGCGCGGCGCAGCAGGCCGGGCGTGCATTCGACGAGGCAGCGGTCACCGCCGAACTGGCGCGCTGGGAGCGGCAATGGGCCGATTCCGGCGAGGTGCCGGCCGCGCCGGTTGCGCCGCGCGATCCGGCCGGCACGATCCGCCAGCTGCTGGACGGCGCGTGA	MTAHASIRRPAGRLLLVLSGLLAATAAHAGDAAHAVLERSLGAAAAARITLSQKPQDGTPWYRVEAQGAQLQVQGSDPVALAHGAYAYLGSIGAASVSWEGDRVALPARFAPFHGDKVATPFTHRAYLNTCTYGYTTPFWDWPRWEREIDWMALHGIDMPLAMEGQEAVWQALWREFGVGDAALDGYFSGPAFTPWQRMGNIEGYRAPLPQAWIEAKRGLQKQILARMRELGMKPVLPAFAGYVPKAFAQAHPQARIYRMRAWEGFHETYWLDPADPLFARVAKRFIELYTAEYGAGQYYLADAFNEMLPPVAADGSDVAAAKYGDSTANTEAAKAKAVPAAQRDARLAQYGEAIYHSIAQANPGATWVMQGWLFGADREFWQPEAIAAFLSKVPDAHMLVLDIGNDRYPGTWKASQAFDGKQWVYGYVHNYGGSNPVYGDFDFYRQDLQGLLADRSHGQLAGFGVFPEGLHSNSVVYEYLYDLAWGGTAQPWEQWIARYTRARYGHSDAALLAAWQDLRASVYSTRYWSPRWWNKRAGGYLLFKRPSASVTGFDDTPGDPQRLRRALEALLALAPRYRDAPLFRYDLVDFARHYLTLRSDALLQQAVAAYARKDFAAGDDARDRAFALVRGIDALVGGQQETLASWTGQARAQAVGDPALAAYYVGNARAQVSVWGGEGNLADYASKAWSGMYAGFYLQRWTRFLDAYRAAQQAGRAFDEAAVTAELARWERQWADSGEVPAAPVAPRDPAGTIRQLLDGA	PGPT0019185_515	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0019185-nglA-K01205	NA	NA
BMS020_07864	1125			hypothetical protein	ATGACCCTGGCCGTTTCCAAGCCGGAGCGCTTCCTGTCGCTCGACGTGCTGCGCGGGCTGACCATCTTCCTGATGATCCTGGTCAACACCGCCGGGCCCGGGGCGCACGCCTACGCGCAGCTCGAGCACGCCGCCTGGTTCGGCTTCACCCTGGCCGACCTGGTGTTCCCGACGTTCCTGTTCGTCACCGGCAACGCGCTGGCGTTCACCGCGCCTGGTGGAAGCGAGGCCGCGTTCCTGCGCCGGGTGTTCAAGCGCGCGGCGCTGATCTTCCTGTGCGGCTACCTGATGTACTGGTACCCGTTCGTGCAGGTGGTGGACGGGCACTGGGCATTGAAGCCGTTCGAGCAGACCCGGTTGTTCGGCGTGCTGCAGCGGATCGCGATCTGCTACCTGCTGGCCGCGCTCGCGGTGCGTTACCTGCCGGCCAGGCTGCTGCCGTGGCTGGCCCTGGCGCTGCCGCTGGGGTACTGGGCGGTGCTGTACCTGTTCGGCCAGCCGGGGCTGGAGCTGGACAAGCATCTCAACGCCGGCACCCGCCTGGACCTGTGGCTGGTCGGCGCCGAGCACCTGTACCGCAAGGATGGCGGGTTCGATCCGGAAGGTCTGCTCGGCGCGCTGCCGGCGACCGCCAACGTGCTCGGCGGCTACCTGGCCGGGCAGTGGCTGCGCAGCGCCGGCAAGCGCCCGCGCGCGGTGGCCTGGATGGCGGCCTGCGGTGTGCTGCTGGTGCTGCTGGCGCTGGTCTGGAATCCGTGGTTCCCGCTGTCCAAGAAGCTGTGGACCGGCCCGTTCGTGCTGCTGACGGTCGGCCTCGACCTGGTCTGGCTGGCGCTGCTGGTGTGGTGGATCGAGCTGCGTGGGCATGCCGGTGGCAGTGGCTTCTTCACCGTGCTGGGCAAGAACCCGCTGGCGATCTACCTGTTCTCCGAGCTGTTCGTGGTCACCCTGCAACTGGTGCAGGTGGCCCCCGGCGTGGGGGTGTACGACTGGCTCGGCGTGCAGGTATTCCAGGCGCTGCTGCCGGGGCCCCTGGGCTCGCTGCTGTGCGCGCTGGCCTACACCTTGGCCTGTTGGCTGCTGGCCTGGTGGATGGACCGACAGCGGATCTACGTGAGGCTCTGA	MTLAVSKPERFLSLDVLRGLTIFLMILVNTAGPGAHAYAQLEHAAWFGFTLADLVFPTFLFVTGNALAFTAPGGSEAAFLRRVFKRAALIFLCGYLMYWYPFVQVVDGHWALKPFEQTRLFGVLQRIAICYLLAALAVRYLPARLLPWLALALPLGYWAVLYLFGQPGLELDKHLNAGTRLDLWLVGAEHLYRKDGGFDPEGLLGALPATANVLGGYLAGQWLRSAGKRPRAVAWMAACGVLLVLLALVWNPWFPLSKKLWTGPFVLLTVGLDLVWLALLVWWIELRGHAGGSGFFTVLGKNPLAIYLFSELFVVTLQLVQVAPGVGVYDWLGVQVFQALLPGPLGSLLCALAYTLACWLLAWWMDRQRIYVRL				NA	NA	NA	NA	NA
BMS020_07865	756	nagR_2	COG2188	HTH-type transcriptional repressor NagR	ATGGCCAAATCCACGCTGGAATCGGATCCGCGCCTGGATGAGTTGGTATTGGACTCGTCGGCGCCAACCCCGTTGTACCTGCAGCTCGCCGACAAGCTCGGCATGAGCATCCGCGACGGGCGCTGGAAGAGCGGCGAGGCGCTGCCGGCCGAGCGCCACCTGTGCGAGCGCCTGCAGATCTCCCGCGTGACCCTGCGCCAGGCGGTCGACACCCTGGTCGACCAGGGCCTGGTCACGCGCCGCCAGGGCGCGGGCACCTTCGTTACCTCGCACATCCAGCACCAGCTCAGTGGCCTGACCAGTTTCAGCGAGACCCTGCGGATCAAGGGCTACGAGCCCGGCACGCGCTGGCTGGACCGGCGCCTGCGCCCGGCCCATGGCGAGGAGCTGATGCGGTTGGGGCTGTCGCCGGATTCGACGGTGGCGGCGTTGACCCGCCTGCGCAGCGCTGACGACCGGGTGATGGCCTACGAACAGGCGGTGCTGCCCGAGCGCATCGTGCCCGATCCGGAGCGGGTCGGCGATTCGCTGTACGCCTTCCTCGATGCGCAGGGCACGCCGGTGGTGCGCGCGCTGCAGTACTTCCGCGCGATCAACCTGCCGGCCCGGCTGGCCGAGCACCTGAAGATGCGCACCGGCGAGGCGATCCTGCACGTGGTGCGGGTCGGCTATGCCCGCGACGGCAGCGCGATCGAGCTGACCGATACCTACTGCCACAACGACTACTACGACTTCGTCGCCGAACTGCGGCGCTGA	MAKSTLESDPRLDELVLDSSAPTPLYLQLADKLGMSIRDGRWKSGEALPAERHLCERLQISRVTLRQAVDTLVDQGLVTRRQGAGTFVTSHIQHQLSGLTSFSETLRIKGYEPGTRWLDRRLRPAHGEELMRLGLSPDSTVAALTRLRSADDRVMAYEQAVLPERIVPDPERVGDSLYAFLDAQGTPVVRALQYFRAINLPARLAEHLKMRTGEAILHVVRVGYARDGSAIELTDTYCHNDYYDFVAELRR				NA	NA	NA	NA	NA
BMS020_07866	1269	fucP_3	COG0738	L-fucose-proton symporter	ATGACACCCGCCAGGCCCGCCAGTCCCCTTGCTTCGATCGCCATCGTCGGCTTGCTGTTCTTCATCATCGGCTTCCTGACCTGGGTCAACGGCCCGCTGATCACCTTCGTGCGCCTGGCCTTCGACCTCAACGAGGTCAACGCCTTCCTGGTGCTGATGGTGTTCTACCTGTCGTACTTCTTCCTGGCGCTGCCCTCGTCGTGGATCCTCAAGCGCACCGGCATGAAGAAAGGCCTGGCGCTGAGCCTGGTGGTGATGGCGGTGGGCGCGGCGGCATTCGGCCAGTTCTCCACCCAGCGCTGGTATCCGGGCGCGCTGGCCGGGCTGTTCGTGATCGGCAGCGGCCTGGCGCTGCAGCAGACCGCGGTCAATCCGTACATCAGCATCCTCGGCCCGATCGAGACCGCGGCGCGGCGCATCGCGGTGATGGGCATCTGCAACAAGATCGCCGGCATCCTGGCGCCGATCGTGATCGGCACGGTGGTGCTGCATGGCGTCGGCGACCTGTCGGCGCAGGTCGCCGCGGCCGATCCGGCGACCAAGGAGCAGCTGCTCGACGCATTCGCGGCCAAGATCCACGGCCCGTACCTGGTGATGGCCGGCCTGCTGGTGGTGGTGGCGCTGGGCGTGCTGCTGTCGCCGCTGCCGGAGATCAAGCCGTCGGAGGCCAATGCCGCGCCGCATGCGGGTGCGGGCGAGAAGCGCTCGATCTTCCAGTTCCCGCACCTGTGGCTGGGCGTGCTGTGCCTGTTCGTCTACGTCGGCGTGGAAGTGATGGCGGGCGATGCGATCGGCACCTACGGCCACGGCTTCGACCTGCCGCTGGACCGCACCAAGATCTTCACCACCTACACCCTGTGCGCGATGCTGGCCGGCTACCTGGCCGGGCTGGTGCTGATCCCGAAGGTGATCTCGCAGGCGGCCTACCTCAGCGTGTCGGCGGTGCTCGGCGTGCTGTTCTCGCTGGGCGCGTTCCTGACCCACGGCTACGTCTCGGTCGGCTTCGTCGCCGCGCTCGGCTTCGCCAACGCGATGATGTGGCCGGCGATCTTCCCGCTGGCGGTCAAGGGCCTGGGGCGCTTCACCGAGATCGGTTCGGCGCTGCTGATCATGGGTATTGCCGGTGGCGCGATCATCCCGCAGCTGTTCGCGGTGCTGAAGCAGCACTACGACTTCCAGCTGGTCTTCGCCGCGCTGATGGTGCCCTGCTACCTGTACATCCTGTTCTACTCGCTGCGCGGCCACCGGGCCGGGCAGGGCAGCGTGTAA	MTPARPASPLASIAIVGLLFFIIGFLTWVNGPLITFVRLAFDLNEVNAFLVLMVFYLSYFFLALPSSWILKRTGMKKGLALSLVVMAVGAAAFGQFSTQRWYPGALAGLFVIGSGLALQQTAVNPYISILGPIETAARRIAVMGICNKIAGILAPIVIGTVVLHGVGDLSAQVAAADPATKEQLLDAFAAKIHGPYLVMAGLLVVVALGVLLSPLPEIKPSEANAAPHAGAGEKRSIFQFPHLWLGVLCLFVYVGVEVMAGDAIGTYGHGFDLPLDRTKIFTTYTLCAMLAGYLAGLVLIPKVISQAAYLSVSAVLGVLFSLGAFLTHGYVSVGFVAALGFANAMMWPAIFPLAVKGLGRFTEIGSALLIMGIAGGAIIPQLFAVLKQHYDFQLVFAALMVPCYLYILFYSLRGHRAGQGSV	PGPT0016725_1366	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_FUCOSE_TRANSPORRT,PGPT0016725-fucP|MFS_transporter|FHS_family|L_fucose_permease-K02429	NA	NA
BMS020_07867	1068	cytR_4	COG1609	HTH-type transcriptional repressor CytR	ATGCGCAGGCCCACCATCAAGGATGTCGCCGAGCGCGCCAAGGTCTCGCTGAAGACCGTCTCGCGCGTGATCAACAACGAGCCTTCGGTGATGCAGGCCACCCGTGCGCGGGTGCTGCGCGCGATCGCCGAGCTCGACTACGAGCCCGATCCGTCCGCGCGCAATTTGCGCAGCGGCACGCCGTTCGTGGTCGGGCTGGTCTACGACAACCCCAATCCGTACCACATCATCGGCGTGCAGAACGGCGTGCTCGCGGCCTGCCGCGAGACCGGCTTCGGCCTGCAGATCAATCCGGTCGATTCGACCTCGCCGCTGCTGGCCGAGGAGCTGGCCGAATGGGTGCAGCGTTCGCGCCTGGCCGGGCTGGTGCTGACCGCGCCGATGTCCGAGCGGCCCGAACTGCTGGCCGGGCTGGACGCGCGCGGCATCCGCTACGTGCGCATCATCGCCGCCACCGAGGACCCGGGCGAGGGCGCGGTGGTCTACATCGACGACCGTGACGCCGCCTACGAGATCACCGAACACCTGATCCAGCTCGGCCACCAGCGCATCGGCTTCCTGTGGGGCGGCCCGCAGCACCGTTCCAGCGGCGAGCGCTACGCCGGCTACGAGGCGGCGCTGAAGGACTATGGCATCGCGCTGGACAAGCACCTGATCGTGCAGGGCGACTACACCTTCGACGACGGCTTCCGTGGCGCGCGCCGGTTGTTGTCGCTGCGCGAGCCACCGACCGCGATCTTCGGCAGCAACGACGAGATTGCCGCCGGCGTGCTGGCCGCGGCCAAGTCCGCCGGCATCAACGTGCCGTACCAGCTGTCCATCGCCGGCTTCGAGGACAGCCCGTTCTCGCGCCAGTCGTGGCCGGCGCTGACCACCGCCAAGCAGGCCACCGAGGACATCGCCCGCCACGCCGCGCGCCTGCTGATCAGCCAGCTGCGCAGCGACGCCTACGACGAACAGGGCGTGCAGCTGCAGAACCGCGGCTTCGTCCCGCAGCTGGTGGTGCGCGGCTCGACCGCGCCGCTGCAGCCCACGCCGCAACGCTCCCTTCCCGCCGAATCGACCTGA	MRRPTIKDVAERAKVSLKTVSRVINNEPSVMQATRARVLRAIAELDYEPDPSARNLRSGTPFVVGLVYDNPNPYHIIGVQNGVLAACRETGFGLQINPVDSTSPLLAEELAEWVQRSRLAGLVLTAPMSERPELLAGLDARGIRYVRIIAATEDPGEGAVVYIDDRDAAYEITEHLIQLGHQRIGFLWGGPQHRSSGERYAGYEAALKDYGIALDKHLIVQGDYTFDDGFRGARRLLSLREPPTAIFGSNDEIAAGVLAAAKSAGINVPYQLSIAGFEDSPFSRQSWPALTTAKQATEDIARHAARLLISQLRSDAYDEQGVQLQNRGFVPQLVVRGSTAPLQPTPQRSLPAEST	PGPT0017992_2315	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
BMS020_07868	1029	glmS_3	COG0449	Glutamine--fructose-6-phosphate aminotransferase [isomerizing]	ATGGCCCTGCCTTCCGAGACCGAGACCCTGATGCACCGCGAGGCGGCCCAAGCCGCCGACGTGATCGCCGCGCAGTTCGCGCGCAACCGCGCCACCATCGACGCGCTCGCCGCGTCGCTGCGCGCCGCGCCGCCGCCGTTCGTGGTGACCTGTGCGCGCGGCAGTTCCGACCATGCCGCCACCTACGCCAAATACCTGCTGGAGACCCAGCTGGGGCTGGTGACCGCGTCGGCCTCGCCGTCGGTGGGCTCGGTGTACGAGGCGCCGCTGCAGCTGCGCGGCGCGCTGTACCTGGTGATCTCGCAGTCCGGCAAGAGCCCGGACCTGCTGCGCAATGCCGAGGCCGCCAAGGCGGCCGGCGCGCGCGTGGTGGCGCTGGTCAATGTCGAGGATTCGCCGCTGGCCCAGCTGGCCGAGACCGTGCTGCCGCTGTGCGCCGGGCCGGAAAAGAGCGTGGCGGCGACCAAGAGCTACCTGGCCTCGCTGGCTGCGGTGCTGCAGCTGGTGGCGGTATGGAAGGGCGAGGCGCCGCTGCTGGCCGCGCTGGATGCGCTGCCCGACGCGCTGCGCCAGGCCTGGCAGTGCGATTGGCATGCGTTGACCGATGGCCTGGTCGAAGCGCGCAACCTGTTCGTGCTCGGTCGCGGCCTGGGTCTCGGCGCGGCGCAGGAGGCGGCGCTGAAGTTCAAGGAGACCTGCGGCCTGCATGCCGAGGCCTACAGCTCGGCCGAGGTCAAGCACGGGCCGATGGCGCTGGTCGGGCCGGGCTTCCCGGTGCTGGCCTTCGCCCAGCCCGACGAGACCGGCGCCGGGACGCGCACGCTGGCCGAGGAATTCCGCGGGCGCGGCGCGCACGTGTGGCTGGCCGCTGACGGTGGCGATCTGGCGCTGGCGTCCGCGCCGCATCCGGCCTGCGCGCCGCTGCTGGCGGTGCAGAGCTTCTACCGCGCGATCAACGCGCTGGCGCTGCGGCGCGGGTACAACCCTGACCTGCCGCCGCACCTCAACAAGGTGACGGAAACGGTCTGA	MALPSETETLMHREAAQAADVIAAQFARNRATIDALAASLRAAPPPFVVTCARGSSDHAATYAKYLLETQLGLVTASASPSVGSVYEAPLQLRGALYLVISQSGKSPDLLRNAEAAKAAGARVVALVNVEDSPLAQLAETVLPLCAGPEKSVAATKSYLASLAAVLQLVAVWKGEAPLLAALDALPDALRQAWQCDWHALTDGLVEARNLFVLGRGLGLGAAQEAALKFKETCGLHAEAYSSAEVKHGPMALVGPGFPVLAFAQPDETGAGTRTLAEEFRGRGAHVWLAADGGDLALASAPHPACAPLLAVQSFYRAINALALRRGYNPDLPPHLNKVTETV	PGPT0017630_6886	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
BMS020_07869	1140	nagA_2	COG1820	N-acetylglucosamine-6-phosphate deacetylase	ATGAGAACTCTGCTGCGCAATGTCCGGGTGCTGGTCGAGGACGGCTTCCGCACCGACCTGGCGGTGCTGCTCGAAGGTCCGCGCATTGTCGCGCTGCTGTCGCAGGCCGATGCGATTGGCGCCGTGGCCGATGTCGAGCTCGACCTGGCCGGCGATACGCTGCTGCCGGGCTTCATCGACATCCAGGTCAATGGCGGCGGCGGCGTGCTGTTCAACAACGACACCACGCCGCAGGCGCTGGCGACGATCGCGCGTGCGCACCGCCGCTTCGGCACCACCGGCATGCTGCCGACCCTGATCAGCGATACCGCGCCGAAGATGGCCGCGGCGATCGCCGCCACCCGCGAGGCGATCGCGCAGGGCGTGCCCGGCGTGCTCGGCATCCACCTGGAAGGCCCGTACCTCAATCCGGTGCGCAAGGGCACCCACGATGCCTCGGTGTTCCGGGCGCCGGATGCGCACGAGATCGAGGTCGATACCTCGCTGGACAACGGCGTCACCCTGATCACGCTCGCGCCGGAGCAGGTGCCGGCGCAGGACATCCGCGCGCTGGTCGCGCGCGGCGCGATCGTGTTCGCCGGGCATAGCGCCGGCAGCTACCAGGATGCGCGCAACGGCATCGCCGCCGGCATCCGGGGGTTCACCCATCTGTTCAATGCGATGTCGCAGCTGGCCGGACGCGAGCCGGGCATGGTTGGCGCCGCGCTGGAGGATGCCGATACCTGGTGCGGCATCATCGCCGACGGCGTGCATGTGCATCCGGCCAGCCTGCGCCTGGCGCTGGCGGCCAAGCCGCGCGGCAAGCTGCTGCTGGTCACCGATGCGATGCCGATGGTCGGTGCCGACAGCCCCAGCTTCGACCTGTACGGCGAGACCATCACCGAGGTCGACGGCGTGGTGCGCAATGCCGCCGGCGCGCTCGCCGGTTCGGCGCTGGACATGGCCACCGCGGTGCGCAACAGCGTCACCCTGCTTGGCGTCGACCTGGCCGAGGCGGCGCGCATGGCGTCGCTGTATCCGGCGCAATGCATCGGTCTCGACGACCGTCTCGGCAGGATCGCGCCCGGCTACCAGGCAGACCTGGTGCTGCTCGACCGCGACCTGCAGGTGGTCCGCACCTGGGTCGGCGGCGGCGACTGA	MRTLLRNVRVLVEDGFRTDLAVLLEGPRIVALLSQADAIGAVADVELDLAGDTLLPGFIDIQVNGGGGVLFNNDTTPQALATIARAHRRFGTTGMLPTLISDTAPKMAAAIAATREAIAQGVPGVLGIHLEGPYLNPVRKGTHDASVFRAPDAHEIEVDTSLDNGVTLITLAPEQVPAQDIRALVARGAIVFAGHSAGSYQDARNGIAAGIRGFTHLFNAMSQLAGREPGMVGAALEDADTWCGIIADGVHVHPASLRLALAAKPRGKLLLVTDAMPMVGADSPSFDLYGETITEVDGVVRNAAGALAGSALDMATAVRNSVTLLGVDLAEAARMASLYPAQCIGLDDRLGRIAPGYQADLVLLDRDLQVVRTWVGGGD	PGPT0018860_1865	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
BMS020_07870	2670	btuB_26		Vitamin B12 transporter BtuB	ATGATGGTATTGCCTGGGTGTTCCAGTTCCCGTTCCCTCCCCGCCGTTTCCGTGCCGTTGGACGTCGCCGTCGCGGCGCGCCCGCAGCGCCGCCTCGCCGCCGCGGTCCGCATCGCGCTAGCCGGTGGCGCCCTGTGCGCCGCGCAGCTGTGCGCGACTGCGTCCGCGCAGGAGCAGTCCGCCACCACCACCGATGCCGCCGCCGGCCAGTCCGCCACCACCCTCGATGAGGTCAAGGTGGTCGGCTACCAGGCCAGCCTGGGCAAGGCGATCGACGTCAAGCGCAATGCCAATGCGATCGTCGACGCGATCAGCGCCGAGGACATCGGCAAGTTCCCCGATACCAACGTCGCCGAATCGCTGTCGCACCTGGCCGGCATCACCGTCGACCGTCAGTTCGGCGAGGGCGAGAAGGTCAGCATCCTCGGCACCGATCCGGCGCTGAACCGGGTCCTGCTCAATGGCCAGACCATCGCCTCGACAAGCTGGGCCGGCGATCCCAACGACCCGGACAACCGCTCGTTCAACTACAGCATCCTGCCGTCGGAAGTCGTCGGCCTGATGGAGGTCTACAAGTCGCCGGAGGCGCGCATCGACGAAGGCTCGATCGGCGGCACGGTGATCGTGCACACGCGCAAGCCGCTGGAACTGGAGCGCAACGCGCTGTCCGGCACGGTCAGCTATGGCTACAACGACCTGTCCGACGAGGGACGTCCGAACGCCTCGCTGATGTACAACTGGAAGAGCAAGGACGACACCCTCGGCGTGCTGGTGTCGGCGATGCACTCGACCAAGGTGCTGCGCCGCGATGGCGTCGAGGTGTTCGGCTACACCGAGGCGTCCGATTACCCCGACAGCGCCACCAACGGCGCCAGCGGCGACGTGCCGACCTCGATCAATACTGCGCTGTTCCAGCAGACCCGCAAGCGCGATGGCGTGACCGCCGCGCTGCAGTGGAAGCCCAGCGACGAGTTCGAGCTCAACCTGACCGGGTTGTACATCAAGGAAAACTTCGACAACTGGAACCAGAGCCGCTACGCGTACTGGGCCGGCACCACGTCGTCGGCGACCGCGCTCGGCTTCGACAATGGCGTCGCCACCACCGGCAGTTTCGACGATACCGCGCCGACCTACCTGGACGGCTACTCGCGCCATTCCACGATCAAGACCAAGAGCATCAACCTGCAGGCCGACTGGCACGGCTATGACTGGAACCTGTCGAGCACCATCGGCCATACCGATTCGGCCGGCGGCTCGCAGGGCATCTACGGGTCGCAGTTCACCTCCTATGGTGGCTACAGCTACGCGATCGACGGGCGCGACACCTCGATCGACTACGACCTGGATCCGACCGATCCGAGCAACATGACGCTGAGCAGCGTGTCCAAGAACCTCGCGCCGACCTACGACCGCGAGAACTACTGGCAGCTCGACTACGACCACGCGCTGGAGTGGGGTCCGCTCAGCAAGATCCGCACCGGTGTGAAGATCACCAACCACGAGGCCGGCCAGCATTCCTACAGCCGCACCTGGACCATCAACGACGGCACCACGCTGGCGGCCTTCGATGGCGGCCTGACCCCGTCGGACTACATGGACGGCATCTCGGCCAGCGACGACATGTCGAGCTGGTCGACGATCAACCGCGGCGCGATCGAGGACTACACCGATGCGCTGGCCGCGCGCGATGGGCTGGCGATCGACTACAGCTCCACCTACGGGATCGAGGAAAAGACCCGCGCGTGGTACCTGCAGGCCGACTACGAAGGCGAGCGTTACCGCGGCAACTTCGGCGTGCGCTATGTGCACACCGAGGACGACACCAACGGCTACAACTACGACGAGACCGCCACCTACTCGCCGGTCAGCTACTCGAGCAAGTACGACAAGTGGCTGCCGTCGTTCAACTTCGCCTACGACCTGAGCGACGACCTGATCGGGCGCGTGTCGGTGGCCAAGGTGATCGCGCGTCCGCGCTACAGCAACATGACGCCGTACGTCTCGACCAGCGACAGCACACTGACCGCCTCGACCGGCAACCCGGACCTCAAGCCGTACGAGTCGGTCAACTACGACCTGTCGCTGGAGTGGTACTTCAACCCCACCAGCATCCTCAGCGGCGAGCTGTTCTACCGCGACATCTCCAACTACATCCTGACCGTCACCGAGAACCGCGACTTCTACAACCACACCACCGGCGGCACCAGCACCTATTCGACCTCGGTGCCGAGCAACGGCGGCAGCGCCAAGGTCCAGGGCGTGTCGGTGGCGTACACGACCAACTTCGGGCATGGCTTCGGCCTGGTGGCCAACTACACCTACTCCGATTCCAAGACCGACCAGGACTTCAGCCTGCCGTACAACTCGCGCAACTCGTACAACCTGAGTCCGTACTACGAGAGCGGCAAGTGGACCGCGCGCCTCAACCTGGGCTACCGCTCGGAGTACTTCACCCAGATCGGCCGCCTCAACGGCCAGCAGATGACCGACGAGTTCACCCAGCTCGACGCGACGGTCAGCTACCAGATCAACGACAAGCTGCGGATCGGGCTGGACGCGACCAACCTGCTCGACGAGACCTACTACAGCTACATCGGCAGCAAGGACCATCCGTACTACATCTACAAGAACGGCCGTTCCTTCATGCTCAGTCTGAACTTCAAGCTGTGA	MMVLPGCSSSRSLPAVSVPLDVAVAARPQRRLAAAVRIALAGGALCAAQLCATASAQEQSATTTDAAAGQSATTLDEVKVVGYQASLGKAIDVKRNANAIVDAISAEDIGKFPDTNVAESLSHLAGITVDRQFGEGEKVSILGTDPALNRVLLNGQTIASTSWAGDPNDPDNRSFNYSILPSEVVGLMEVYKSPEARIDEGSIGGTVIVHTRKPLELERNALSGTVSYGYNDLSDEGRPNASLMYNWKSKDDTLGVLVSAMHSTKVLRRDGVEVFGYTEASDYPDSATNGASGDVPTSINTALFQQTRKRDGVTAALQWKPSDEFELNLTGLYIKENFDNWNQSRYAYWAGTTSSATALGFDNGVATTGSFDDTAPTYLDGYSRHSTIKTKSINLQADWHGYDWNLSSTIGHTDSAGGSQGIYGSQFTSYGGYSYAIDGRDTSIDYDLDPTDPSNMTLSSVSKNLAPTYDRENYWQLDYDHALEWGPLSKIRTGVKITNHEAGQHSYSRTWTINDGTTLAAFDGGLTPSDYMDGISASDDMSSWSTINRGAIEDYTDALAARDGLAIDYSSTYGIEEKTRAWYLQADYEGERYRGNFGVRYVHTEDDTNGYNYDETATYSPVSYSSKYDKWLPSFNFAYDLSDDLIGRVSVAKVIARPRYSNMTPYVSTSDSTLTASTGNPDLKPYESVNYDLSLEWYFNPTSILSGELFYRDISNYILTVTENRDFYNHTTGGTSTYSTSVPSNGGSAKVQGVSVAYTTNFGHGFGLVANYTYSDSKTDQDFSLPYNSRNSYNLSPYYESGKWTARLNLGYRSEYFTQIGRLNGQQMTDEFTQLDATVSYQINDKLRIGLDATNLLDETYYSYIGSKDHPYYIYKNGRSFMLSLNFKL	PGPT0003790_4753	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_07871	1386			hypothetical protein	ATGGTGTCCAGGAACGGAACGTGGATTTGGCTGTTGGTGACGCTTGGGCTTGGGCTCGCCATGCTCGCCCCTGTCGCGACCGCCACGCCGTGGCGCCTGTCAACCGGCGTAGGCGCCTATCAGCTGGAGCAGGCGCAGGGCCGTGCGCTGGAGGCGTCGGGCGCTGTTGTGGTGCTGCGGTCGATTCCCGGGACCTTGGTGCCCTTCGGCAGTAGTCTGGACAGCATCGATGCGGCCGACTTCGCCGGCGGCTGGGTGGAACTTTCGGCGACGCTGCTCGGTGACCGTCCCGGGCTGCCGGGCGCGCTCTGGCTGCGCGTCGACGCTGCCGATGGCAGGGTCCTGGAATTCGCCAACACGCAGGCGCAGACGCTGGCCTCGACCGCGCCGGGCGAGCGCCGGATCGTACTGGCGGTGCCGAAGGATGCCGTCAGGATCGCGTTCGGGACTGTGCTCCGGGGCCCCGGCGTGCTGCGCGCCAGCCGATTGCGGCTGCAGCGCACCGATCCGCCGGCTGATGCCTGGCAGATGCGGCCCATGCTCGAGAGTGTGCTGGCATTGTTGCGCGACCACGCGCTCGCAGCGGATCGCGTGGATTGGCAGGCGCGTGCGCGGGAGGTCGATGGGCTCGGCCCGGTCGTGAGCCGCCATCGCGCTTACGCGATCATGCGTGGGTGGATCGCCGCGTTGGACGACGGGCACAGTTTCGTGAAGACACCCGAGCAGGTGTGGCGCGATCGCGATCCCACGCGGATGGTGATGCCCACGGTCGCGTTCGATGCCGACGGACTGGCCACGATCCGGTTGCCGGGCCTGCAGTCGGCGCCTGATGGGCGCGAGCAGCGCTACGTCGGAGAGCTGCAGCGCGGTATCGCGGCTGCAGCGGCTGGGGCACGCTGTGGTTGGGTCCTCGACCTGCGCGGCAATCACGGCGGCACCATGTGGCCGATGCTGGCTGGGTTGAAGGCGCTGCTGGGTCCGGGCGAACTGGGGTACTTCCAGTCCCGCCAGGGACGTTCACCGGCCTGGCACGCGGGCGATCATGTCGAACTGGTGCTGGCACCCGAGGCAGGCCTGGAGCGTGCGCCGTTAGCGGTGCTGTATGGTGCGCGCACCGCCAGTGCCGCCGAAGCGGTGGCGATCGCGTTGCGTGGGCGCGCCGCCAGCCGGGCATTCGGAATGCCGACTGCGGGGCTGAGCACGGGCAACCGGACCTTGCCGCTCCCGGATGGCGGTCTGCTGGGGGTGGCGGCGTCGCGCGAACTGGACCGGACCGGGCGGGCCTATACCGGGCCGATCGATCCGGAGGTCCTGATGCCGGAAGAGCGGGCGGAGAGCGCGGCGCGGGCCTGGCTGCTGTCGCAGTGCGACGTGGCCCGGCAATGA	MVSRNGTWIWLLVTLGLGLAMLAPVATATPWRLSTGVGAYQLEQAQGRALEASGAVVVLRSIPGTLVPFGSSLDSIDAADFAGGWVELSATLLGDRPGLPGALWLRVDAADGRVLEFANTQAQTLASTAPGERRIVLAVPKDAVRIAFGTVLRGPGVLRASRLRLQRTDPPADAWQMRPMLESVLALLRDHALAADRVDWQARAREVDGLGPVVSRHRAYAIMRGWIAALDDGHSFVKTPEQVWRDRDPTRMVMPTVAFDADGLATIRLPGLQSAPDGREQRYVGELQRGIAAAAAGARCGWVLDLRGNHGGTMWPMLAGLKALLGPGELGYFQSRQGRSPAWHAGDHVELVLAPEAGLERAPLAVLYGARTASAAEAVAIALRGRAASRAFGMPTAGLSTGNRTLPLPDGGLLGVAASRELDRTGRAYTGPIDPEVLMPEERAESAARAWLLSQCDVARQ				NA	NA	NA	NA	NA
BMS020_07872	1236	cca_2	COG0617	Multifunctional CCA protein	ATGAAGATCTATCTCGTCGGCGGCGCGGTCCGCGATGCGCTGCTGGACCAGCCTGCTGGCGACCGCGACTGGGTGGTGGTCGGTGCCGACCAGGCGCAGATGGAAACGCTTGGCTACAAGGCCGTGGGCCGCGATTTCCCGGTGTTCCTGCATCCGCACAGCGGCGAGGAATATGCGCTGGCGCGCACCGAGCGCAAGAGCGGGCGCGGCTACCGCGGCTTCGTCGTCGATGCCGATCCGTCGGTGACGCTGGAGCAGGACCTGCAGCGGCGCGACTTCACCATCAACGCGATCGCCCGCGACGAGGCCAGCGGCACCCTGGTCGATCCGTACGGCGGTGTGCGCGACATCGAACAGCGCGTGCTGCGCCATGTCGGCCCGGCGTTCGTCGAGGATCCGCTGCGGGTATTGCGCGCGGCACGCTTCATGGCGCGCCTCGCCCCGCTGGGATTCACCGTCGCTCCCGAAACCTTGGCGTTGATGCGGCAGATCGCCGACAGCGGCGAACTCGACACGCTGGTGCCCGAGCGGGTCTGGCAGGAGCTGCGCAAGGTGCTGGGGTCGAAGCAGCCGTCGGCGTTCCTGCGCACCCTGCACGCCGCCGGCGCGCTCGGCGCGGTGCTGCCGGAGCTGGAGGCGCTGTACGGGGTGCCGCAGCGGGCCGAGTTCCATCCCGAGATCGATACCGGCGTGCACCAGGAACTGGTCAGCGACATGGCCGCGCGGATCGCGCCGGGCGATGCGCTGATCGGCTTCGCCGCGCTGTGCCACGACCTCGGCAAGGGCCTGACCCCGCGCGAGGAATGGCCGCGCCACATCATGCACGAGCAACGCGGCGTGGCCCCGGTCAACGCGCTGTGCGAGCGCCTGAAGGTGCCGCAGGACTATCGCCAGCTCGCCGTCACCGTCTGCCGCGAACACCTCAACGTGCACCGCATCGATGAACTGCGCGACCGCACCGTGCACGAGCTGCTGCTGCGCTGCGACGGCTTCCGCCGGCCCGAGCGGATCGCCCAGCTCGCCCTGGCCTGCGAGGCCGACAAGCGCGGGCGCCTGGGTAGCGCCGAGGACGCCTACCCGCCCGGCGCCGAACTGCGCCGGCTGCATGCCGCGGCGTTGGCAGTGAATGCACGCGACCTGGCCGCGCAGGGTCTGCAGGGCCCACAGATCGGCGAGGCGCTGGCCAAGGCAAGGATCGCCGCGATCGCGGCGGCGCGCGCCAGCCAACACGGTTGA	MKIYLVGGAVRDALLDQPAGDRDWVVVGADQAQMETLGYKAVGRDFPVFLHPHSGEEYALARTERKSGRGYRGFVVDADPSVTLEQDLQRRDFTINAIARDEASGTLVDPYGGVRDIEQRVLRHVGPAFVEDPLRVLRAARFMARLAPLGFTVAPETLALMRQIADSGELDTLVPERVWQELRKVLGSKQPSAFLRTLHAAGALGAVLPELEALYGVPQRAEFHPEIDTGVHQELVSDMAARIAPGDALIGFAALCHDLGKGLTPREEWPRHIMHEQRGVAPVNALCERLKVPQDYRQLAVTVCREHLNVHRIDELRDRTVHELLLRCDGFRRPERIAQLALACEADKRGRLGSAEDAYPPGAELRRLHAAALAVNARDLAAQGLQGPQIGEALAKARIAAIAAARASQHG				NA	NA	NA	NA	NA
BMS020_07873	1953	slt_2	COG0741	Soluble lytic murein transglycosylase	ATGAAACGCCTCCTTGTCCTGCTTGCTGCGGCCGGTGCCGCGACCTGGCTGCCGAGCGCCGCCGCCCAGTCCACCGACGCCCAGCGGCTGGCGATGCGCACCGCGCTGGACGCCGCCGAGGCCGGCACCCTGAGCCCGGCGCAGGCCAGCGCCCAGGCGCGCAGCCCGGTGTACGGCTGGCTCGAATACGCGGCGATGAAGCGCAGCATCGACACCGTCGCCACCGCCCAGGCGCAGGACTTCCTGGCCCGCTATGCCGGGCAGCCGGTCGCCGAGGCGTTCCGCGCGCTGTGGTTGCCGGCGCTAGCGCGGCGCCAGGACTGGACGACCTTCCTGGCCAACTGGAAGCCCAGTGACAACCGCGGCCTGCGCTGCGCCGAACTGACCGCGCGCCAGGCCACCGGCAAGGCCGACGCGCAGTGGGATGCCGACGCGCAGGCGCTGTGGCGCAGCAACGGCAAGTCGCTGCCCGACGGCTGCGATGCGGTGTTCGCGGTGCTGCAGGCGCGCGGCGGGCTGACCGATGCGCTGCGCTGGCAGCGCGTGGACGCCGCCGCCGACGAACAGCAGCCGGCGGTGATGCGCAGCGCCGCACGCGGGCTGCCGGCCGCCGACCTGGCCCAGGCCAACGACTACGCCGGTTTCCTCGACCAGCCCGACGCCCGCGCGCTGCGCTGGCCGAAGACCGAGCGCAGCCGCCGTGTCGCCACCGACGGGCTGGAGAAGCTGGCCAAGAGCAATCCCGATGCCGCCGAGCAGCTGCTGCCGCAGGTCGCCGCCACGCTTGGCCTGAGCGAGACGCAACGCGGCCAGGTGCTGTACCAGATCGCGCTGTGGACCGTGGCGTCCTACCTGCCCGATTCGGCGCGCCGGCTCAACGCGGTGCCGGATGCGGCCTACGACGAACGCCTGCACGAATGGCGCACGCGCGAGGCGATGGCGCGCGGCGACTGGCCCGCGGCACTGGCGGCGATCCGCAAGATGCCGCCGGCCCAGCGCGCCGACGCGCGCTGGCAGTATTTCGAGGCGCGCCTGGCCGAGAAGACCGGCGATGCCGCCGCCGCACAGGCGCTGTACCGCAGCGCCGCGCGCGACCCCAGCTTCCACGGCTTCCTCGCCGCCGACCGGCTCAAGCAGTCCTACGCGCTGTGCCCGTGGGAACCGCGCGATGGCGCCCAGGCCAAGGCCGCGGTGGCGCGCGATCCGGCGCTGGTGCGCGCGCTGGAGCTGTTCCGCCTGGACCGCAGCGGCTGGGCGGTGCTGGAGTGGAACGACGCGCTGTCGCGCTTCGACGACACCCAGCGCCGGCTGGCGGTGGAAGTGGCCGGCGACGCCGGCTGGTTCGACCGTGCGGTGTTCGCGCTCGGCAAGCGCCCGGAGGAACAGCGCCTGTACGCGCTGCGCTTCCCGCTGCACCACGACGACGCGATCCGCCGCGAGGCGCAGAAGAACGCGCTCGACCCGGCCTGGATCGCCGCGGAAATCCGCGCCGAAAGCGTGTTCACCCCGACCGCACGCTCGCCAGCCAACGCGCGCGGGCTGATGCAGGTGCTGCCAAGCACCGGCGCGGCGGTGGCCAAGAACATCGGCCTGAACGGCTATGCCGGCGCGCAGAGCCTGTACGACCCGGAGACCAACATCGCCATCGGCAGCGCCTACCTGCGCCAGCTGATGAACACCTACGGCGGCCTGCCCTACGTGACGATGGCCGCCTACAACGCCGGCCCGACCCCGACCGCGCGCTGGCAGTCGCAGCGGCCGGGCTACGACCCGGACTTCTGGATCGAGACGATCAGCTACAAGGAAACCCGCGACTACATCGCGCGCGTGCTGGCCTTCAGCGTGATCTACGACTGGCGCCTCAATGGCGATGCGCTGCCGCTCAGCGACCGCCTGGTCGGCCGCCTCAACGACAGCCGGCGCCGCTTCACCTGCCCCGGCAGCAATGGCTGA	MKRLLVLLAAAGAATWLPSAAAQSTDAQRLAMRTALDAAEAGTLSPAQASAQARSPVYGWLEYAAMKRSIDTVATAQAQDFLARYAGQPVAEAFRALWLPALARRQDWTTFLANWKPSDNRGLRCAELTARQATGKADAQWDADAQALWRSNGKSLPDGCDAVFAVLQARGGLTDALRWQRVDAAADEQQPAVMRSAARGLPAADLAQANDYAGFLDQPDARALRWPKTERSRRVATDGLEKLAKSNPDAAEQLLPQVAATLGLSETQRGQVLYQIALWTVASYLPDSARRLNAVPDAAYDERLHEWRTREAMARGDWPAALAAIRKMPPAQRADARWQYFEARLAEKTGDAAAAQALYRSAARDPSFHGFLAADRLKQSYALCPWEPRDGAQAKAAVARDPALVRALELFRLDRSGWAVLEWNDALSRFDDTQRRLAVEVAGDAGWFDRAVFALGKRPEEQRLYALRFPLHHDDAIRREAQKNALDPAWIAAEIRAESVFTPTARSPANARGLMQVLPSTGAAVAKNIGLNGYAGAQSLYDPETNIAIGSAYLRQLMNTYGGLPYVTMAAYNAGPTPTARWQSQRPGYDPDFWIETISYKETRDYIARVLAFSVIYDWRLNGDALPLSDRLVGRLNDSRRRFTCPGSNG	PGPT0024070_1335	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
BMS020_07874	2874	btuB_27		Vitamin B12 transporter BtuB	ATGACACCACTGCGCCGCCATTCCCTGTTCCTGGCCGTGTTCGGCGCCGGCCTGTGTGCGCCGGCGCTGGCGCTGGCCCAGGACGCCGAGGCCGAGGCGAAGACGCTGCAGGGCGTGCAGGTCACCGGCAGCCGGATCAAGACCGCCGAGATCCAGGGCCAGGTGCCGATCCAGACGCTGAGTCGCGCCGACATCGAGCGCACCGGGCTGAGTTCGATCGGCGAGGTGCTGCAGCAGCTCACCGGGTCCGGCTCGGCGCTCAACGCCAAGTTCAACTCCTCGGGCAACTTCGGCTTTCCGCCGGATGGCAGCGGGGTGGGTGCCGGCTCGGGGCCGGGCGACCCGCGCCACCTCGGCGCCAAGCGCGTGCTGGTGCTGGTCGACGGGATCCGATGGGTCAACGAATCCTCGGCCTCGGGCGTCGGCGCGGCCACCGACCTCAACACCATCCCGCTGGCGCTGGTCGAGCGCATCGAGGTGCTGGAGGACGGCGCGTCCTCGCTGTACGGCTCCGATGCGATCGCCGGCGTGGTCAACATCATCACCCGCCGCGAGTTCGACGGCGCGCAGGTGACGATGAACATGGGCCAGTACGGCAAGGGCGACGGCACCAGCCGCGGCTTCGACCTGGCCTGGGGCACCGCGGGCGAGCGCACCAGCCTGTTCCTCGGCGCCAGCTTCACCCGCCAGGACCCGGTCTACGCCCGCGACCGCGCGCAGTCGCGCGTGCCGGTGCCGGGCACCGGGCTGACCTTCGGCAGTTCGGCCACGCCGGACGGCCGCTTCATCTTCATCGACCCCGTCACCGGTGCCGAGCAGGACCTGACGCCGAATGCCGGCGGCAGCGGCAACCCGGCCTACGACGGCAGCGCCGGCTGCACGCGCAGCGACGACTACCACTGCTTCGCCACCGCCGACCGCTACAACTTCGCCGCCGAGAACATGGTGTTGACGCCGTCCGAGCGCAAAAGCGTGTTCGGGCAGTTCCGCTACTTCTTCAACGACGACGTGCAGTGGTACCTGAAGGCGCTGTACAACCGCCGCGAGTCGAGCAACCGCGCCGCGCCCGAGCCGATCTTCCTCGGCCCGGATGCCGGCACCGGCAACCCGCTGGCCGACAACATCGTCATCTCGGCGCTCAATCCCTACAACCCGTTCGGCTTCGACCTGGATTCGTCGAGCAACCTGATCATGATCGGGCGGCGGCCGGTGGAGGGCGGGGCGCGCGTGTTCGAGCAGCAGGTCGATACGCAGTACGTCGGCAGCGGCTTCATCGGCACATTCGAGACCGCCGGGCGGACCTGGTTCTGGGACGCCAATGCGATGTACAGCCGCAACAAGGCCGAGCAGACCAACACCGGCAGCTACAACCTGCGCCACATCGCGCTGGCGCTGGGCGACCCGGCCGCGTGCGCGGCGGTGGCCGGCTGCGTGCCGCTGGACATCTTCGGCGGCGCCGGCAGCATCACCCCGCAGATGCTGCGCTGGATCCAGCCGGTGGTGCACGACCGCAGCCAGAACACGCTGGGCCAGGTCACCACCAACCTCAGCAGCGAGCTGTTCCAGCTGCCGGCCGGTCCGGTCGCGTTCGCCACCGGGCTGGAATACCGCCGCTACGAGGGCTGGTACCAGCCCGATCCGCTGACCGTGGCCGGCGACTACAACGGCGTGCCGTCGCAGCCGACCTCCGGCAGCTACCACGTCAACGAGGCCTACCTCGAACTGAGCGTGCCGCTGTTCGCCAAGTCGGCGCTGGGCGAGCGCCTGGACCTGAGCCTGGCCGGGCGCTATTCGGACTACTCGACCTTCGGTGGCGAATTCACCCCGAAGTACGGCCTGCGCTGGCAGGTCAGCGACGAGTTCCTGCTGCGCACCAGCTGGGCCGAGGGCTTCCGCGCGCCGAGCATCGGCGAGCTGTACGGCTCGGCCGCGCGTGCCGACCTGACCATCTCCGACCCGTGTTCGATCGGCCTGGGCGGCACCGCGCCGCGCGGCAGCGCCGCCAACTGCGCCGCGCTCGGCGTGCCGAGCGGATACCAGCAGGCCAATTCGCAGATCTCGGTGACCACCGGCGGCAACCGCGCGCTGGAACCGGAGCGTGCGCGCAGCTTCAGCGCCGGCTTCGTGTGGAGCCCGGATTTCGGCAGCAACACCGCCTGGTCCGAGCGCCTCGACATCGACGTGACGTTCTACCGCCACCATGTGGACGGGGCGATCCAGGCGATCGACGCGCAGACCCAGCTCGACCTATGCGTGGACACGCTCGATCCGACCTACTGCAACGGCATCACCCGCGCCTCCACCGGCGGCATCAACGGCTTCAACAACCGCCTGACCAACCTCGGTTCGATCAAGACCGACGGCTGGGACGTGGACCTGGCGTGGACGCTGCCGCAGACCACGGCCGGGCGCTTCAAGCTGCGTTGGCAGAACACCTTCGTCGGCCGCTACGAGGCCACCGGCGCGGCCGGGCAGCAGCAGCCGCAGGGCCCGGGGATCGAAGTCACCGACAGCGCGATCCCGGAGTGGACCAGCAACGCCTCGCTGGACTGGTCGCTGGGGCGCTGGAACGCGGCGTGGAGCATCCGCCACATTTCCGAGTTGACCGAGCAGTGCGGCGACGCCGTCGCCTTCGCGGTGTGCAGCGACCAGGCCACCGGCACCAACACGCTGGAGGCGACCACCTACCACGACGTGCAGCTGGGCTACCGCGTGGACTGGCTGAAGGGGCTGCAGCTGCTAGCCGGCATCAACAACCTGTTCGACCAGGATCCGCCGGTGTGCCTGTCGTGCTCGCTCAATGGCTACGACGCCTCGACCTACGACATCCCGCAGGGACGCTACTGGTACCTGCGCGCCGACCTGAAATTCTGA	MTPLRRHSLFLAVFGAGLCAPALALAQDAEAEAKTLQGVQVTGSRIKTAEIQGQVPIQTLSRADIERTGLSSIGEVLQQLTGSGSALNAKFNSSGNFGFPPDGSGVGAGSGPGDPRHLGAKRVLVLVDGIRWVNESSASGVGAATDLNTIPLALVERIEVLEDGASSLYGSDAIAGVVNIITRREFDGAQVTMNMGQYGKGDGTSRGFDLAWGTAGERTSLFLGASFTRQDPVYARDRAQSRVPVPGTGLTFGSSATPDGRFIFIDPVTGAEQDLTPNAGGSGNPAYDGSAGCTRSDDYHCFATADRYNFAAENMVLTPSERKSVFGQFRYFFNDDVQWYLKALYNRRESSNRAAPEPIFLGPDAGTGNPLADNIVISALNPYNPFGFDLDSSSNLIMIGRRPVEGGARVFEQQVDTQYVGSGFIGTFETAGRTWFWDANAMYSRNKAEQTNTGSYNLRHIALALGDPAACAAVAGCVPLDIFGGAGSITPQMLRWIQPVVHDRSQNTLGQVTTNLSSELFQLPAGPVAFATGLEYRRYEGWYQPDPLTVAGDYNGVPSQPTSGSYHVNEAYLELSVPLFAKSALGERLDLSLAGRYSDYSTFGGEFTPKYGLRWQVSDEFLLRTSWAEGFRAPSIGELYGSAARADLTISDPCSIGLGGTAPRGSAANCAALGVPSGYQQANSQISVTTGGNRALEPERARSFSAGFVWSPDFGSNTAWSERLDIDVTFYRHHVDGAIQAIDAQTQLDLCVDTLDPTYCNGITRASTGGINGFNNRLTNLGSIKTDGWDVDLAWTLPQTTAGRFKLRWQNTFVGRYEATGAAGQQQPQGPGIEVTDSAIPEWTSNASLDWSLGRWNAAWSIRHISELTEQCGDAVAFAVCSDQATGTNTLEATTYHDVQLGYRVDWLKGLQLLAGINNLFDQDPPVCLSCSLNGYDASTYDIPQGRYWYLRADLKF	PGPT0003790_2066	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_07875	768			hypothetical protein	GTGAGCGCTTCCTCCACGCGCACCCTGCGGGTGCTGACCGCCAACATCCAGGCCGGCTCCAGCACCCGCCGCTACAGCGACTACGTGACCCGTAGCTGGTCGCACGCTTTGCCCCTCGGGGCAAAGCGCACCAGCCTGGACACCATCGCCAAGCTCGCCGGCGAACGCGACATCGTCGGGCTCAACGAGTCCGACCCCGGCAGCCTGCGCTCGGGCTTCACCAACCAGACCCACTACCTGGCCGAGCGCGCCGGCTTCCACTACTGGAGCCACCAGCCGAACCGGCGCATGGGCGGCGTCGCCTCCAGCGCCAACGGCCTGCTCAGCAAGCTCGAACCGCTGCAGGTGGAAGACCACGCCCTGCCCGGCCGCATCGGCGGGCGCGGCGTGCTGCTGGCCAAGTTCGGCGAAGGCCGCAACGGGCTGGCGGTGGCGGTGGCGCATCTGTCACTGGGTGCCAATTCGCGGATGGCGCAGCTGGGCTTCATCGCCGAACTGCTGTCCGAGCACCCCAATGCGATCCTGATGGGCGACTTCAACTGCGTCGCCGACCGTCCGGAAATGCAGTCGCTGTACCGCCAGACCACGCTGCAGCCGCCCACCGAGGCGGTGCTGAGCTTCCCGAGCTGGCGCCCGCAGCGCGCGATCGACCACATCCTGGTCAGCGACGGGCTGAAGATCCACAAGACCGAGGCGATCCCGGCCGCGTTCTCCGATCACCTGGCGATCGGCATGGACATCGCGGTACCGGACACCACGCTCAAGTAG	MSASSTRTLRVLTANIQAGSSTRRYSDYVTRSWSHALPLGAKRTSLDTIAKLAGERDIVGLNESDPGSLRSGFTNQTHYLAERAGFHYWSHQPNRRMGGVASSANGLLSKLEPLQVEDHALPGRIGGRGVLLAKFGEGRNGLAVAVAHLSLGANSRMAQLGFIAELLSEHPNAILMGDFNCVADRPEMQSLYRQTTLQPPTEAVLSFPSWRPQRAIDHILVSDGLKIHKTEAIPAAFSDHLAIGMDIAVPDTTLK				NA	NA	NA	NA	NA
BMS020_07876	612	dsbA_3	COG0526	Thiol:disulfide interchange protein DsbA	GTGCAGGCGCAGGCCCCGAGCGGCCCGGAGCCGGTCGAGGGCACCGACTACGTGAGCATCGAAGGTGGCCAGCCGTACCAGGCCACCGCCGGCAAGATCGAAGTGGCCGAGATCTTCGGCTACGTGTGCCCGGCCTGTAACGCCTTCCAGCCGCTGATCGGGCCGTGGAAGGCCGGGCTGCCGTCCGACGTCAACTTCGTCTACGTGCCGGCGATGTTCGGCGGCACCTGGGACGACTACGCGCGCGCCTTCTTCGCCGCCCAGACCCTGGGCGTGCAGGAGAAGACCCATGACGCGCTGTACCGCGCGATCCACACCGACCAGGTGCTGAAGGGCGAGCGCGGCCGCGACTCGGTGCAGGACATCGCCAACTTCTACAAGGCCTACGGCGTCGACCCGAAGACCTTCGCCGACACCATGGCCAGCTTCGGCGTCTCGGCGCAGACCAACCGCGCCAAGCAGTTCGCCATGCGCAGCAAGATCACCGGCACCCCGTCGCTGATCATCAATGGCAAGTACCTGGTCAAGGGCAAGTCGTTCCCCGACATGCTGCGCATCGCCGACCACCTGATCGCGCGCGAGCGCGCCACGGCGGCCAAGACCGCCCAGTAA	MQAQAPSGPEPVEGTDYVSIEGGQPYQATAGKIEVAEIFGYVCPACNAFQPLIGPWKAGLPSDVNFVYVPAMFGGTWDDYARAFFAAQTLGVQEKTHDALYRAIHTDQVLKGERGRDSVQDIANFYKAYGVDPKTFADTMASFGVSAQTNRAKQFAMRSKITGTPSLIINGKYLVKGKSFPDMLRIADHLIARERATAAKTAQ	PGPT0015115_49	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015115-dsbA-K03673	NA	NA
BMS020_07877	1032	truD_2	COG0585	tRNA pseudouridine synthase D	GTGAGCGCGCTGCCCGGTGCGTTCGGCGGCGCGGTGCTGGACGCGCGGATCCGCACCAGTCCCGAGGATTTCCAGGTCGACGAGCTGCCGGCGTTCGAGCCCAGCGGCGAAGGCGAGCACCTGCTGCTGACGATCCGCAAGCGCGGCCAGAACACCTTGTTCGTCGCCAAGCGGCTGGCGCAGTGGGCCGGCGTCACCGAGATGGCGGTCAGCTATGCCGGGCAGAAGGATCGCCACGCGGTGACCACCCAGCGCTTCAGCGTGCACCTGCCCAAGCGGGTGGCGCCGGACATCGCCGCGCTGCAGGACGACGAGGTGCAGGTGCTCGAATCGCACTGGCACAACCGCAAGCTGCAGCGCGGCGCGCTGCTTGGCAACCGCTTCGTGCTGGTGCTGCGCGAGGTGCAGGGCGCGCCGGCGGCGATCGAGCAGCGGCTCGAGGCGATCATCGCGCGCGGCATCCCCAACTGGTTCGGCGAGCAGCGCTTCGGTCGCGGTGGCGGCAACATCGGCCAGGCGCTGGGTATGTTCGATGGGCGCCGGGTGCGCAAGGACCAGCGTTCGATGCTGCTGTCGGCGGCCCGTTCGGAGCTGTTCAACCGGGTGCTGGCGCAGCGCGTGGAGCGCGGCAACTGGGACGCGCCGCTGGACGGCGAGGTGTGGATGCTCGATGGCTCGCGCAGCGTGTTCGGCCCGGAGCCGTGGAGCGAAGTGCTGGCCGAGCGGCTGGCGCGGTTCGACATCCATCCCAGCGCACCGCTGTGGGGTGCCGGCGAACTGCGCAGCAGCGGCGAGGCGCATGCGCTGGAGCTGGACGCGCTGGCCGACGATGTGTCGCTGCGCCTGCGCAGCGGGCTGGAACAGGCCGGGCTGAAGCAGGAGCGTCGCCCGACCCGGTTGCGCCCGGCGCAGCTGCGCTACCACTGGCAGGAGGCCGGCGTGCTGCAGCTCGAGTTCGCGCTGCCGCCGGGCTGCTATGCCACCGCGCTGCTGCACGAACTGGGCAGCGTGGTCGACGCCAGCAACGCTTGA	MSALPGAFGGAVLDARIRTSPEDFQVDELPAFEPSGEGEHLLLTIRKRGQNTLFVAKRLAQWAGVTEMAVSYAGQKDRHAVTTQRFSVHLPKRVAPDIAALQDDEVQVLESHWHNRKLQRGALLGNRFVLVLREVQGAPAAIEQRLEAIIARGIPNWFGEQRFGRGGGNIGQALGMFDGRRVRKDQRSMLLSAARSELFNRVLAQRVERGNWDAPLDGEVWMLDGSRSVFGPEPWSEVLAERLARFDIHPSAPLWGAGELRSSGEAHALELDALADDVSLRLRSGLEQAGLKQERRPTRLRPAQLRYHWQEAGVLQLEFALPPGCYATALLHELGSVVDASNA				NA	NA	NA	NA	NA
BMS020_07878	489	ispF_2	COG0245	2-C-methyl-D-erythritol 2,4-cyclodiphosphate synthase	ATGTCCGTTTTGAATTTCCGCATCGGCCAGGGCTACGACGTGCACGCGTTCGGCCCCGGCGACCACGTGATGCTCGGGGGCGTGAAGGTGGCGCACGACCATGGTGTGCTCGCCCACAGCGACGGCGACGTGGTGCTGCACGCGCTGTGCGACGCGATGCTTGGCGCGCTGGCGCTGGGCGACATCGGCCAGCATTTCCCGCCGTCCGACGACCGCTGGAAGGGCGCCGACAGCAGCGCGTTCGTGCGTCACTGCGACGAGCTGCTGCGCACGCGCGGCTGGCGGGTCGGCAATGCCGACGTCACCGTGGTCTGCGAGCGGCCCAAGGTCGGTCCGCACGCGACGGCGATGCGCGAACGCATCGCCGCGTTGCTCGGCACCGGCGTGGACGAGGTCAGCGTCAAGGCCACCACCAGCGAGAAGCTCGGATTCACCGGCCGTGGCGAAGGCATCGCCGCGCAGGCCGTGGTGCTGGTGGCGCGCACGTGA	MSVLNFRIGQGYDVHAFGPGDHVMLGGVKVAHDHGVLAHSDGDVVLHALCDAMLGALALGDIGQHFPPSDDRWKGADSSAFVRHCDELLRTRGWRVGNADVTVVCERPKVGPHATAMRERIAALLGTGVDEVSVKATTSEKLGFTGRGEGIAAQAVVLVART	PGPT0007595_656	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
BMS020_07879	696	ispD_2	COG1211	2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase	ATGGGCACGGTCTGGGCGGTGGTGCCGGCAGCCGGGCGCGGCACGCGTTTCGGTGGCCCGGTGCCCAAGCAGTACCTGCATGCGGCGGGGCGTCCCGTGATCGCCTACGCGCTGGAGGCCCTGGTGGCGCATCCGGCGGTGGCCGGGCTGATGGTCGCCGTCGCCGAGGGCGACAGCGACTGGCCGGGTTGGTCGGAGGTCGGTGGCAAGCCGGTGCTGACCTGCATCGGTGGCGAGACCCGGGCCGGGTCGGTGCTGGCCGGCGTGCAGGCGCTGCCGGACACGGTCCGTGCCGACGACTTCGTGCTGGTGCACGACGCGGCGCGCCCGAACCTGGCGCTGGCCGACCTCGAACGCCTGCTGGAGACCGGGCGCACCGATCCGGTCGGGGCGATCCTGGCCGCGCCGGTGCGCGACACGCTCAAGCGCGCCGGCGACGATGGCGGCATCGATGCGACCGAGCCGCGGGCGCGGCTGTGGCGCGCCTTCACCCCGCAGCTGTTCCGGCGGCACCAGCTGGTGCGCGCGCTCGGCGAGGCGGCGGCGGCCGGGATCGAGGTCACCGACGAGGCGATGGCGATGGAGCGGCTGGGGCTGCGTCCGCTGCTGGTGGAATGCGCCGAAGGCAACTTCAAGGTCACCACGCCGGCCGACCTGGCGCGCTTTGAATTCGAACTTTCGCGACGCGCCGGCTGA	MGTVWAVVPAAGRGTRFGGPVPKQYLHAAGRPVIAYALEALVAHPAVAGLMVAVAEGDSDWPGWSEVGGKPVLTCIGGETRAGSVLAGVQALPDTVRADDFVLVHDAARPNLALADLERLLETGRTDPVGAILAAPVRDTLKRAGDDGGIDATEPRARLWRAFTPQLFRRHQLVRALGEAAAAGIEVTDEAMAMERLGLRPLLVECAEGNFKVTTPADLARFEFELSRRAG	PGPT0007590_225	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007590-ispD-K00991	NA	NA
BMS020_07880	357	ftsB_2		Cell division protein FtsB	GTGCGCAACTGGCGCTGGCTGCTGCTGGTGCTGGCGGTACTGCTGGCTTGGCTGCAGTACCGCTTCTGGTTCGGCGCGGGCAATTCCGGCGAGGTGATGATGCTGGAGGCCCAGGTCGCGCACCAACGTCACGACAACGACGGCCTGCGCCAGCGCAATGCGGCGCTGGCTGCCGAGGTCAAGGACCTCAAGGAAGGCGAGGCCGCGATCGAGGAGCGTGCGCGCAGCGAGCTGGGCATGATCAAGCCGGGCGAGACGTTCTACCGCGTGGTCGAGGATGCGCCGGTGCCGCCTGCCGGCGCCGCCGCGCCTGCGCGGCCGGTCGAGCCGGCCGCCGGCACCGGCGAGCAGCCCTGA	MRNWRWLLLVLAVLLAWLQYRFWFGAGNSGEVMMLEAQVAHQRHDNDGLRQRNAALAAEVKDLKEGEAAIEERARSELGMIKPGETFYRVVEDAPVPPAGAAAPARPVEPAAGTGEQP				NA	NA	NA	NA	NA
BMS020_07881	1293	eno_2		Enolase	ATGACCACTATCGCCAAGATCCACGCTCGCGAAATCCTCGACAGCCGCGGCAACCCCACCCTCGAGGCGGAAGTCACGCTGGCCGACGGTTCGTTCGGCCGTGCCGCCGTGCCCTCGGGCGCCTCGACCGGCACCAAGGAAGCCGTCGAGCTGCGTGACGGCGACAAGACCCGCTACCTGGGCAAGGGCGTGCGCAAGGCGGTGGAGAACGTCAACGGTGCCATTGCCGAGAAGCTCAAGGGCTTCGACGCGGCCGACCAGGAAGGCCTGGATCGTCGCCTGATCGACCTCGACGGCACCGAGAACAAGGGCCGCCTGGGCGCCAACGCGCTGCTCGGCGTGTCGCTGGCCGCCGCGCACGCGGTCGCCGCGTCGAAGCGGCAGCCGCTGTGGCAGTACCTGTCGTCGATCACCGAATCGGACGTGTCGCTGCCGGTGCCGATGATGAACATCATCAACGGCGGCGCGCATGCCGACAACAACGTCGACTTCCAGGAGTTCATGGTGCTGCCGGTCGGCGCGTCCTCGTTCTCCGAGGCGCTGCGCGCCGGCACCGAGATCTTCCACTCGCTCAAGTCGGTGCTGAAGGGCCACGGGCTGAGCACGGCGGTCGGCGATGAAGGCGGCTTCGCGCCGGACTTCCGCAGCAACGTCGAGGCGCTGGACACCATCCTCGAGGCGATCGGCAAGGCCGGCTACACCGCCGGCGAAGACGTGCTGCTGGGCCTGGACGTGGCGTCGAGCGAGTTCTACGAGAACGGCAAGTACAACCTGGTCGGCGAGAACAAGCGCCTGACCAGCGAGCAGTTCGTCGACTTCCTGGCCGACTGGGCCGCGCAGTACCCGATCATCACCATCGAGGACGGCCTGGCCGAGAACGACTGGGCCGGCTGGAAGCTGCTGACCGACCGCATCGGCGGCAAGGTGCAGCTGGTCGGCGACGACCTGTTCGTGACCAACCCGAAGATCTTCAAGGAAGGCATCGAGTCGGGCACCGCCAACGCGATCCTGATCAAGGTCAACCAGATCGGCACCCTGACCGAGACGCTGGAAGCGATCGCGATGGCGCACCACGCCAACTACGCGGCGATCGTCTCGCACCGTTCGGGCGAAACCGAGGACACCACGATCTCCGACATCGCCGTGGCCACCACCGCCACCCAGATCAAGACCGGCTCGCTGTGCCGCAGCGACCGCGTGGCCAAGTACAACCAGCTGCTGCGCATCGAGGAAACCCTCGGCAGCAGTGCGCGCTACGCCGGGCGTAACGCGTTCGTCTCGCTCAAGAAGTAA	MTTIAKIHAREILDSRGNPTLEAEVTLADGSFGRAAVPSGASTGTKEAVELRDGDKTRYLGKGVRKAVENVNGAIAEKLKGFDAADQEGLDRRLIDLDGTENKGRLGANALLGVSLAAAHAVAASKRQPLWQYLSSITESDVSLPVPMMNIINGGAHADNNVDFQEFMVLPVGASSFSEALRAGTEIFHSLKSVLKGHGLSTAVGDEGGFAPDFRSNVEALDTILEAIGKAGYTAGEDVLLGLDVASSEFYENGKYNLVGENKRLTSEQFVDFLADWAAQYPIITIEDGLAENDWAGWKLLTDRIGGKVQLVGDDLFVTNPKIFKEGIESGTANAILIKVNQIGTLTETLEAIAMAHHANYAAIVSHRSGETEDTTISDIAVATTATQIKTGSLCRSDRVAKYNQLLRIEETLGSSARYAGRNAFVSLKK	PGPT0018050_3435	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
BMS020_07882	348			hypothetical protein	GTGAGTCTGGATCCGTGGGCGGCGCTGGCACACCGGCGTCGCCGCAGGCACTGGCGGCAATGGCCCTGGGGCGCGATCGCCCTGGGCCTGGCGTCGCTGTCGATCGCCGGCATCTTCCCGGCCCTGATGCTGGCCGGTGCCGGCATGCGGCCGCCCGGCGATGGCGGCCACGGCCTGAACGTGAAGCCCTTCTTCATCGCGCTGGGACTGGCTGAGCTGGTAAGCATGTCCTCAGGCTTCATGGCCTGCGTGCTGGCCTGGCGCCTGAACCGGGGCCGGGTGACCGGCGCCGTGGCGCTGGTGCTGCTCTCGATGTGGGCCGGCGTGCTGCTCCACGATCTGCTTTGA	MSLDPWAALAHRRRRRHWRQWPWGAIALGLASLSIAGIFPALMLAGAGMRPPGDGGHGLNVKPFFIALGLAELVSMSSGFMACVLAWRLNRGRVTGAVALVLLSMWAGVLLHDLL				NA	NA	NA	NA	NA
BMS020_07883	831	kdsA_2	COG2877	2-dehydro-3-deoxyphosphooctonate aldolase	ATGAAGCTGTGTGGTTTTGAAGTCGGCCTCGACCAGCCGCTGTTCCTGATCGCCGGTCCCTGCGTGATCGAGTCGATGCAGCTGCAGCTCGACGTCGCCGGCAAGCTGAAGGAGATCACGTCCAAGCTCGGCGTGAACTTCATCTTCAAGTCCAGCTTCGACAAGGCCAACCGCACCTCGGGGAACAGCTTCCGTGGCCCGGGCCTGGAGGAAGGCCTGAAGGTGCTGGACGCGGTCAAGCAGCAGATCGGCGTGCCGGTGCTGACCGACGTGCACGAGTACACCCCGATGAACGAGGTCGCCGCCGTCGTCGATGTGCTGCAGACCCCGGCGTTCCTGGTGCGCCAGACCGATTTCATCAAGAACGTCTGCTCGGCCGGCAAGCCGGTCAACATCAAGAAGGGCCAGTTCCTGTCGCCGTGGGACATGAAGCCGGTGGTCGAGAAGGCCAAGTCCACCGGCAACGAGCAGATCATGGTCTGCGAGCGCGGCGCCAGCTTCGGCTACAACAACCTGGTCAGCGACATGCGTTCGCTGGCGGTGATGCGCGACACCGGCTGCCCGGTGGTGTTCGATGCCACCCACTCGGTGCAGCTGCCGGGCGGGCAGGGCGGCAGCTCCGGCGGCCAGCGCGAGTTCGTCTCGGTGCTGGCCAAGGCGGCGGTCGCGGTCGGCGTCTCCGGCCTGTTCGCCGAGACCCACCCGGACCCGAGCAAGGCGCTGTCCGATGGCCCCAATGCGTGGCCGTTGGACCAGATGGAAGGCCTGCTCGAGACCCTGCTGGAGCTCGATGCGGTCAGCAAGAAGCACGGGTTCGCGCGCTTCGCGTGA	MKLCGFEVGLDQPLFLIAGPCVIESMQLQLDVAGKLKEITSKLGVNFIFKSSFDKANRTSGNSFRGPGLEEGLKVLDAVKQQIGVPVLTDVHEYTPMNEVAAVVDVLQTPAFLVRQTDFIKNVCSAGKPVNIKKGQFLSPWDMKPVVEKAKSTGNEQIMVCERGASFGYNNLVSDMRSLAVMRDTGCPVVFDATHSVQLPGGQGGSSGGQREFVSVLAKAAVAVGVSGLFAETHPDPSKALSDGPNAWPLDQMEGLLETLLELDAVSKKHGFARFA	PGPT0023060_2068	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-8-AMINO-3|8-DIDEOXY_D_MANNO-OCTULOSONIC_ACID_MODIFICATION,PGPT0023060-kdsA-K01627	NA	NA
BMS020_07884	1665	pyrG_3	COG0504	CTP synthase	ATGACCCCCCTTATTTTTGTTACCGGCGGCGTCGTGTCCTCGCTTGGCAAGGGCATTGCGGCCGCTTCGCTTGCGTCCATCCTCGAAGCACGTGGCCTGAAGGTCACGATGATGAAGCTGGATCCGTACATCAACGTGGACCCGGGCACGATGAGCCCGTTCCAGCACGGCGAGGTCTACGTCACCGATGACGGTGCCGAGACCGACCTGGACCTGGGCCACTACGAGCGCTTCCTGCGCACCCGCCTGAGCCGCAAGAACTCGGTGACCACCGGGCGGATTTACGAGAACGTGATCCGCAAGGAGCGCCGTGGCGACTACCTGGGTGCGACCGTGCAGGTGATCCCGCACATCACCGACGAGATCCGTCGCTGCGTCGACGAGGCCACCGCCGGCTTCGACGTGGCACTGGTGGAGATCGGTGGCACCGTCGGCGACATCGAGTCGCTGCCGTTCCTGGAGGCGATCCGCCAGGTCCGCACCGAGCGCGGCGCCGAGAAGGCGATGTTCATGCACCTCACCCTGGTGCCGTACATCGCCGCTGCCGGCGAGCTGAAGACCAAGCCGACCCAGCATTCGGTCAAGGAACTGCGTTCGATCGGCATCCAGCCGGACGTGCTGCTGTGCCGCTCCGAGCAGGCGATCCCGGATTCGGAGCGGCGCAAGATCGCGCTGTTCACCAACGTCTCCGAACGTGCGGTCATCAGTGCCGCCGACATCGACGTGCTGTATGGCATGCCGCTGGAGCTGCACCGCCAGGGCCTGGACGAGATCGTCATCGACCAGTTCAAGCTGCGCGACAAGGCCGGTCCGGCCGAGCTGTCGGAGTGGGCGGGCGTGGTCGACGCGGTCAAGCACCCGCTGGACGAGGTCACGATTGCCGTGGTCGGCAAGTACATCGACCACCAGGACGCCTACAAGTCGGTCGGCGAGGCGCTCAAGCACGGCGGCCTGCGCCAGCGCACCAAGGTCAACCTGAAGTGGATCGAGGCGCAGGAGCTGGAAGGCACCGACATGGCGGCGCTGGACGGCATCGACGGCATCCTGGTGCCGGGCGGCTTCGGCGACCGTGGGTTCGAGGGCAAGGTGCTGACCTCGCGCTATGCACGCGAGCACCGCGTGCCGTACTTCGGCATCTGCTACGGCATGCAGGCGGCGGTGGTCGATTACGCCCGCCACGTGGCTGGCCTGGACGATGCCAACAGCACCGAGAACGACCGCCAGTCGCCGAACCCGGTGATCGGCCTGATCACCGAATGGCGCACCGCCACCGGCGAGGTCGAGAAGCGCGACGAGAAGTCCGACCTGGGCGGCACCATGCGCCTGGGCCTGCAGGAGCAGCGGCTGAAGCCGGGCACGCTGGCGCGCGAGCTGTACGGCAAGGACGTGGTCGCCGAGCGCCACCGCCACCGTTACGAGTTCAACAACCGCTACCGCACCCAGCTGGAGGACGCCGGCCTGGTGATCGCCGCCAAGTCGATGGACGACACGCTGGTGGAGATGGTCGAGCTGCCGCGCGAGGTGCATCCGTGGTTCCTGGCCTGCCAGGCGCACCCGGAGTTCCTGTCCACCCCGCGCGATGGCCACCCGCTGTTCGTCGGCTTCATCCGCGCCGCGCGCGAGAAGAAGGCCGGCGGCAAGCTGCTGAAGGAAGCGCGCGCCTGA	MTPLIFVTGGVVSSLGKGIAAASLASILEARGLKVTMMKLDPYINVDPGTMSPFQHGEVYVTDDGAETDLDLGHYERFLRTRLSRKNSVTTGRIYENVIRKERRGDYLGATVQVIPHITDEIRRCVDEATAGFDVALVEIGGTVGDIESLPFLEAIRQVRTERGAEKAMFMHLTLVPYIAAAGELKTKPTQHSVKELRSIGIQPDVLLCRSEQAIPDSERRKIALFTNVSERAVISAADIDVLYGMPLELHRQGLDEIVIDQFKLRDKAGPAELSEWAGVVDAVKHPLDEVTIAVVGKYIDHQDAYKSVGEALKHGGLRQRTKVNLKWIEAQELEGTDMAALDGIDGILVPGGFGDRGFEGKVLTSRYAREHRVPYFGICYGMQAAVVDYARHVAGLDDANSTENDRQSPNPVIGLITEWRTATGEVEKRDEKSDLGGTMRLGLQEQRLKPGTLARELYGKDVVAERHRHRYEFNNRYRTQLEDAGLVIAAKSMDDTLVEMVELPREVHPWFLACQAHPEFLSTPRDGHPLFVGFIRAAREKKAGGKLLKEARA	PGPT0021215_1815	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021215-pyrG-K01937	NA	NA
BMS020_07886	258			hypothetical protein	ATGAAGACCAAGCACATCCTGATGCTCGCGGCCGGCCTGGCCGCCATTGCCGCAGCGCCGATGGTGCTGGCCCAGGCGGCCCAGCAGCAGGCCGGCCAGCAGGGCGCGACTGCGCAGAAGCAGGTCGAGGACAAGGCCCAGAGCGAAGCCGAGCGCAAGGCCCAGCGCCGCGCCGCAGCGGCCGCCGACAAGGCCAAGGCCGAAAAGAGCGGCAAGCTCGGCGGGCACGCCGAGGAAGAGGAAGAACAACCGCGCTGA	MKTKHILMLAAGLAAIAAAPMVLAQAAQQQAGQQGATAQKQVEDKAQSEAERKAQRRAAAAADKAKAEKSGKLGGHAEEEEEQPR				NA	NA	NA	NA	NA
BMS020_07887	1890	parE_2	COG0187	DNA topoisomerase 4 subunit B	ATGAACACCCGTTACAACGCCGCCGATATCGAAGTCCTCTCCGGCCTGGATCCGGTCAAGCGCCGCCCCGGCATGTACACCGACACCACGCGCCCGAACCACCTGGCGCAGGAAGTCATCGACAACTCCGTCGACGAGGCGCTGGGCGGGCACGCCAAGACGGTCGAAGTGACCATCTACAAGGACGGCAGCGTCGAGGTGGCCGATGACGGCCGCGGCATGCCGGTGGACATCCATCCCGAGGAGAAGATCCCCGGCGTGGAACTGATCCTGACCCGGCTGCATGCCGGCGGCAAGTTCAGCAACAAGAACTACACCTTCTCCGGCGGCCTGCACGGCGTCGGCGTCAGCGTGGTCAACGCGCTGTCGACGCTGGTGGAGATCCACATCCGCCGCGAGGGCGCCGAGCACCGCATCACCTTCCGCGACGGCGACCGCGCCAGTCCGCTGGAAGTGGTCGGTACCGTCGGCAAGAAGAACACCGGCACCCGCCTGCGTTTCTGGCCCGACCCGAAATACTTCGACACGCCGAAGATCAACGTGCGCGCGCTGCGCCACCTGCTGCGCGCCAAGGCGGTGCTGTGCCCGGGACTGACCGTCAAGCTGTTCGACGAGGCCACCGGCGACGCCGACACCTGGCACTTCGAGGACGGCCTGCGCGACTACCTCAAGGGCGAGATGGGCGAGCGCGAGCTGCTGCCGGCCGAGCTGTTCGTCGGCGCGCTGAAGAAGGATACCGAGGTGGTCGACTGGGCCGCGGCCTGGGTGCCCGAAGGCGAGCTGGTGCAGGAGAGCTACGTCAACCTGATCCCGACCGCGCAGCACGGCACCCACGTCAACGGCCTGCGCTCGGGCCTGACCGATGCGCTGCGCGAGTTCTGCGACTTCCGCAACCTGCTGCCGCGCGGGGTCAAGCTGGCCCCGGAAGACGTGTGGGACCGCGTCACCTTCGTGCTGTCGCTGAAGATGACCGACCCGCAGTTCAGCGGCCAGACCAAGGAGCGCCTGTCCTCGCGCCAGGCCGCCGGCTTCATCGAAAGCGCGGTGCACGACGCCTTCAGCCTGTATCTCAACCAGAACGTGGAGATCGGCGAGAAGATCGCGCAGATCGCCATCGAGCGCGCCAGTGCGCGACTGAAGACCGAGAAGCAGGTGGTGCGCAAGAAGGTCACCTCCGGCCCGGCCCTGCCCGGCAAGCTGGCCGACTGCATCAGCCAGGACCTGTCGCGCACCGAGCTGTTCCTGGTCGAGGGCGACTCGGCAGGCGGCAGCGCCAAGCAGGCGCGCGACAAGGACTTCCAGGCGATCATGCCGCTGCGCGGCAAGATCCTGAACACCTGGGAAGTGGCCTCCGGCAGCGTGCTGGCCTCGGAAGAAGTGCACAACCTGGCCATTGCGATCGGCTGCGACCCCGGCAAGGACGACATCTCCGGCCTGCGCTACGGCAAGGTGGTGATCCTGGCCGACGCCGACTCCGACGGCCTGCACATCGCCACGCTGTTGTCGGCGCTGTTCCTGAAGCACTTCCCGGCACTGGTCGCGGCCGGCCACGTGTTCGTGGCGATGCCGCCGCTGTTCCGCGTCGACGTGGGCAAGCAGGTGTTCTACGCGCTGGATGAAGAGGAAAAGCGCGTGCTGCAGGAGAAGATCCAGCGCGAGAAGATCAAGGGCCAGGTCAGCGTGACCCGCTTCAAGGGCCTGGGCGAGATGAATCCGCAGCAGCTGCGCGAATCCACCATCCACCCCGACACCCGCCGCCTGGTGCAGCTGACCGTGGAGGATGGCGACCAGACCCACGGCCTGATGGACATGCTGCTGGCGAAGAAGCGCGCGGGCGATCGCAAGACGTGGCTGGAGACCAAGGGCGATCTGGCTTCGCTGGAAGTCTGA	MNTRYNAADIEVLSGLDPVKRRPGMYTDTTRPNHLAQEVIDNSVDEALGGHAKTVEVTIYKDGSVEVADDGRGMPVDIHPEEKIPGVELILTRLHAGGKFSNKNYTFSGGLHGVGVSVVNALSTLVEIHIRREGAEHRITFRDGDRASPLEVVGTVGKKNTGTRLRFWPDPKYFDTPKINVRALRHLLRAKAVLCPGLTVKLFDEATGDADTWHFEDGLRDYLKGEMGERELLPAELFVGALKKDTEVVDWAAAWVPEGELVQESYVNLIPTAQHGTHVNGLRSGLTDALREFCDFRNLLPRGVKLAPEDVWDRVTFVLSLKMTDPQFSGQTKERLSSRQAAGFIESAVHDAFSLYLNQNVEIGEKIAQIAIERASARLKTEKQVVRKKVTSGPALPGKLADCISQDLSRTELFLVEGDSAGGSAKQARDKDFQAIMPLRGKILNTWEVASGSVLASEEVHNLAIAIGCDPGKDDISGLRYGKVVILADADSDGLHIATLLSALFLKHFPALVAAGHVFVAMPPLFRVDVGKQVFYALDEEEKRVLQEKIQREKIKGQVSVTRFKGLGEMNPQQLRESTIHPDTRRLVQLTVEDGDQTHGLMDMLLAKKRAGDRKTWLETKGDLASLEV	PGPT0027710_2532	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
BMS020_07888	753			hypothetical protein	ATGACGCTCGCGCTGGTCTGCCTGTTCGGCGTGCTCGCCGCGCTGCTGGCCTGGCGCGGCTGGCGGCGCAGTGCCAGGGGCGTGGGCCTCCTGGCGCTGGGCGTCGGCGCGCTGATCGGCTGCGGTCCGGCCAGCGGCTGGATGCTGGATGGGCTGCAGCGCGGCCTGCCGGCCCACTACGACGACTGGGCCGAGCGCAACGTGATCGTGCTGCTCGGTGCCGGGACGCAGGCGACGCCGGGCGGGGTCGAGCCCAGTCTGTTCGCGCATGGGCGTATCGCCAAGGCCGCGCAGCTGTGGCATGCCTGTCGCCAGGTGCCGAGGCGGACCTGCCGGCTGGAAATCAGTGGTGGCGATGCGCTCGGCAATGGGCGCTCCGAGGCGGCGGTGTACCGGCAGGCGCTGCTGGCGCTGGGCGTGCGTGCCGACGACCTGCTGCTGGAGCCCAACAGCATGAATACCTGGCAGAACGCGCAGTTCAGCGCGCCGCTGCTGGAGCAGCTGGGTGCGCAGCGGGTGCTGCTGGTGTCCTCTGCGACGCATCTGCCGCGTGCGGGGCTGTATTTCCGTCATTTCGGCACCCAGGTGGTGCCGGTGCGGGCGGATTGGCTGGCGCCGCGGATGGGGCTGCCGAGCGGCATCAACTTCCTGATGGCCGATGTCGCCCTGCACGAATACCTGGGCATCGCCCGTTATCACCTGTACCAGGCGATGGGCTGGAACGTCGAGGCGACCAGGCCGGGGGCGTTGTAG	MTLALVCLFGVLAALLAWRGWRRSARGVGLLALGVGALIGCGPASGWMLDGLQRGLPAHYDDWAERNVIVLLGAGTQATPGGVEPSLFAHGRIAKAAQLWHACRQVPRRTCRLEISGGDALGNGRSEAAVYRQALLALGVRADDLLLEPNSMNTWQNAQFSAPLLEQLGAQRVLLVSSATHLPRAGLYFRHFGTQVVPVRADWLAPRMGLPSGINFLMADVALHEYLGIARYHLYQAMGWNVEATRPGAL				NA	NA	NA	NA	NA
BMS020_07889	801	cdh_2	COG2134	CDP-diacylglycerol pyrophosphatase	ATGGTGCGGTTGAAGGTGAAGTACTGGCTGGGTGCGGTGGCGGTGCTGGCGCTGGTGGCCTGCGTAAGCGCGCCACGGGTGCGGCATGCGGCCGATCCCGACGCGCTGTGGCGCATCGTCAACCAGCATTGTCTGGTGCCTGCCGCGCAACGGCCGGCGCAGGACTGTGTGGCGGTGTGGCGCGACCCGGCGCGGCGCGCGGTGGTGCTCAAGGACAACCACGGCGACTTCCAGTACCTGTTGATTCCGATGGACCGGGTCAGTGGCATCGAGAGTCCGGCGCTGCTGCAGCCGCAGGCGCCGAATTATTTCGCCGCGGCCTGGCAGGCGCGCAGTTTCGTCGCCGAGCGGCTGGCGCGGCCGTTGCCGCGGCCGTACGTGAGCCTGGCGCTGAACTCGCCGCACGGGCGTTCGCAGGAGCAGCTGCATATCCATGTCGACTGCGTGCGCCCCGATGTGCGCGCGCAGCTGGACCGGCTGCAGGCCGGCATCGGCCCGGCGTGGCAGGCGTTGCCCGAGCCGCTGCTGGGCAACCGCTACCTGGCCCGCGATCTGCCGGGCGATGTGATGCAGCACGATCCGGTGCGCCTGCTCGCCGACGGCCTGGCGCCGGGCGAGCGCGTGGGCGACTACTCGCTGGTGGTGGTCGGGCGCACCGATGCGGCCGGCACCCCGGGGTTCACCCTGCTGGCGACGCGCTACGACCTGGCCGCGGGCAATCGCGCCAGCGGCGAGGAGTTGCAGGACCATGCCTGTGGGCTGGTGACCGGCGCGACGCGCGTGCTCGAGGGCGTGCTGTGA	MVRLKVKYWLGAVAVLALVACVSAPRVRHAADPDALWRIVNQHCLVPAAQRPAQDCVAVWRDPARRAVVLKDNHGDFQYLLIPMDRVSGIESPALLQPQAPNYFAAAWQARSFVAERLARPLPRPYVSLALNSPHGRSQEQLHIHVDCVRPDVRAQLDRLQAGIGPAWQALPEPLLGNRYLARDLPGDVMQHDPVRLLADGLAPGERVGDYSLVVVGRTDAAGTPGFTLLATRYDLAAGNRASGEELQDHACGLVTGATRVLEGVL	PGPT0024400_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PYROPHOSPHATASE_ACTIVITY,PGPT0024400-cdh-K01521	NA	NA
BMS020_07890	1488			hypothetical protein	ATGAAGTCCGCGCTGTACACGGCCGCGCTTGCCACTGCGCTGCTGCTGCCCCTGCCCTCCGCCCTCGCCGCCGACAAGCCGGCCGAGGACAAACCCGCCGCGCCGGCGCCGGCCGCGCTGCCCGCCGACGCTTCGGTGCGGCAGTCGATCCGCCTCGACGGCCATGGCCTGTCCTACACCGCCACCGTCGGCACGCTGCCGGTGCGCGATGCGCAGGGCAAGACCACCGGCGAGGTGGTATTCACCGCCTACACCGTCGACGGCAAGGACCGTCCGGTGACCTTCGCGCTCAACGGCGGCCCCGGCGCGGCCTCGGTCTACCTCAACCTCGGCGCGATCGGGCCGAAGGTGGTGCCGTTCGGCGCCGCCGGCGGCAGCGCCTCGGCGCCGGCCACGCTGCGCGACAACCCCGGCACCTGGCTGGGCTTCACCGACCTGGTGTTCATCGACCCGGTCGGCACCGGCTTCAGCCGCGCGCTGGTCGGCGACGACGAGGCCAAGAAGCAGTTCTACAACCCCAAGGCCGACGTCGAGTACCTGTCGCGCGCGATCTACGACTGGCTGCTGAAGAACCGCCGCCTGCAGGCACGCAAGTACCTGGTCGGCGAAAGCTACGGCGGCTTCCGCGGCCCGCGCATCACCCACTACCTGCAGACCCGGCTTGGCGTGGCGATGAACGGCGTGGTGCTGGTCTCGCCGTACCTCAACCCCACGCTGGACGACAACGGCGACGTGTCGCCGCTGGCCTGGATGCTGACCCTGCCGTCGATCGCCGCCGCCAACCTGGAACGCAAGCACCAGCTGAGCGACGCGGCGATGCGCCAGGTGATCGACTACACCCGCACCGACTACGCCAGCGCGCTGATGCAGGGCCGCGCCAACCCGCAGGCGACCGAAGCGATGATCGCCAAGGTCACCGAGCTGAGCGGGCTGGACCCGGCGTTCGTGCGCCGCGCCGGCGGCCGGCTGGAAACCCAGGCCTACCTGCGCGAGGTGTTCCGCGACAAGGGTGAACTGGGCAGCCGCTACGACTCCAATGTCACCGCGTTCGACCCGTTCCCGAACGACCCCGAGCAACGCGCCAACGACCCGCTGCTGGACAGCATCATCGCCCCGACCACCACCGCGATGGTCGATTTCGTCACCCGCGTGGTCGGCTGGAAGGTCGATGCGCGCTACCAGGCGCTGAACTACGACGTGAACCGGCTGTGGGACTGGAACGACGAGCTGCGCAAGGGCGCGGTGACCCAGCTGCGCCAGGCGGTGGCGATCGATCCGCAGCTGCGGGTGCTGATCGCGCACGGCTGGAACGACCTGTCGTGCCCGTTCATGGGCTCGGTGCTGACCGTCGACCAGATGCCGGTGATGGGCAATGACCCGCAGCGCGTGCAGGTGCGCGAATACCCCGGCGGCCACATGTTCTACAACCGCCCCGACAGCCAGGCCGCGTTCCGCACCGACGTCGAGGCGATGTACCGGCGCAACTGA	MKSALYTAALATALLLPLPSALAADKPAEDKPAAPAPAALPADASVRQSIRLDGHGLSYTATVGTLPVRDAQGKTTGEVVFTAYTVDGKDRPVTFALNGGPGAASVYLNLGAIGPKVVPFGAAGGSASAPATLRDNPGTWLGFTDLVFIDPVGTGFSRALVGDDEAKKQFYNPKADVEYLSRAIYDWLLKNRRLQARKYLVGESYGGFRGPRITHYLQTRLGVAMNGVVLVSPYLNPTLDDNGDVSPLAWMLTLPSIAAANLERKHQLSDAAMRQVIDYTRTDYASALMQGRANPQATEAMIAKVTELSGLDPAFVRRAGGRLETQAYLREVFRDKGELGSRYDSNVTAFDPFPNDPEQRANDPLLDSIIAPTTTAMVDFVTRVVGWKVDARYQALNYDVNRLWDWNDELRKGAVTQLRQAVAIDPQLRVLIAHGWNDLSCPFMGSVLTVDQMPVMGNDPQRVQVREYPGGHMFYNRPDSQAAFRTDVEAMYRRN				NA	NA	NA	NA	NA
BMS020_07891	1122			hypothetical protein	ATGCTGACGCTCGTGATCGTGGTGGTGCTGGCCGCGCTGGTGTTCGAGTTCATCAACGGCTTCCACGACACCGCCAACTCGATCGCCACCGTGGTGGCGACCAAGGTGCTCAGCCCGGGCTGGGCGGTGATGCTGGCGGCGGCGACCAACTTGTTCGGCGCGCTGACCGGCACCGCGGTGGCGCTGACGATCTCCTCCGGCCTGCTCGATGCGAACGTGATCGAGGTGACCCCGCAGGTGGTGCTGTGCGCGCTGCTGGGCGGCATCATCTGGAACCTGATCACCTGGTGGAAGGGGTTGCCGTCCTCGTCCTCGCACGCGCTGATCGGTGGTCTGTGCGGCGCCGGCCTGGCCGCCGCGCACAACAACTGGGACGTGCTGATCTGGTCGCAGAGCGTTGGCGACTGGGCCAAGAACAAGGGACTGCTGTGGAAGGTGTTCGTGCCGATGGTGACGTCGCCGATCGCCGGCTTCCTGCTCGGCATCGTGGTGATGATGCTGCTGTGGGCGATCATCGCCGGCCTGGCGAAGGTGGGCGGGCCGATCGGCCGGCTGGCGCGTCCGCGCTGGGTCAACGCGTTCTTCGGCAAGGCGCAGATCGCCTCGGCGGCCTACATGGGCTATGCGCACGGCCACAACGACGCGCAGAAGACCATGGGCATCATCGCGATGACGCTGATCGGCGCGCAGTCGGTCGGCGCGCTCGACGACCTGCCGGGCTGGCTGGCGTTCCTGCACCCGGCCGCGCATGGCGGCGACGGCATCCCGCTGTGGATCGTGCTGACCTGCGCGCTGGTGATGGCCGCGGGTACCGCCTCGGGCGGCTGGAAGATCATCAAGACGCTCGGCCACAAGATGGTCAAGCTGCACCCGATCCACGGCTTCGCCGCGGAGACCAGCTCGGCGACGATCCTGACCCTGGCCGCGCACTTCGGCATGCCGGTGTCGACCACGCACAGCATCTCGACCGCGATCATGGGCGTGGGTTACGCCAAGAACCCGCGGTCGCTGCGCTTCGGGGTGATCGAGCGCATCGTCTGGGCGTGGATCCTGACGATCCCGGCCGCCGGTGGCGTGGCCTACCTGATCCTGCGCATGTTCGAGCTGTTCGGCTGGGCGTGA	MLTLVIVVVLAALVFEFINGFHDTANSIATVVATKVLSPGWAVMLAAATNLFGALTGTAVALTISSGLLDANVIEVTPQVVLCALLGGIIWNLITWWKGLPSSSSHALIGGLCGAGLAAAHNNWDVLIWSQSVGDWAKNKGLLWKVFVPMVTSPIAGFLLGIVVMMLLWAIIAGLAKVGGPIGRLARPRWVNAFFGKAQIASAAYMGYAHGHNDAQKTMGIIAMTLIGAQSVGALDDLPGWLAFLHPAAHGGDGIPLWIVLTCALVMAAGTASGGWKIIKTLGHKMVKLHPIHGFAAETSSATILTLAAHFGMPVSTTHSISTAIMGVGYAKNPRSLRFGVIERIVWAWILTIPAAGGVAYLILRMFELFGWA	PGPT0002655_2447	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPHATE_TRANSPORT,PGPT0002655-TC_PIT-K03306	NA	NA
BMS020_07892	627			hypothetical protein	ATGTTTTCCCTGCAGACCATCTTCGGTTCCGGCAAGCAGTTCTACACGCTGCTGAACGAAGCGGCCGAGGCCGCCCACGACAGTACCAAGGCCTTGCACGCGATGATGCGCGAGGCTGACCGCCAGCCGGCGCTGGACGCCTTCAAGCTGGCGCGCCTGCGCGAGCGCGCCGCCTCCGACAAGATCGGCCAGGCGCTGGTCGACAGCTTCATGACCCCGATCGAGCGCGAGGACATCGAGGCGCTGGGGTCGGCGCTGTACAAGATTCCCAAGCAGGTCGAGAAGTTCGCCGACCGCTACTCGCTGGCCACCCAGCACCTGGCCCACATCGACTTCGCGCCGCGCGCGGCGATGCTGGAGCAGGCCGCCTCGGTGGTGGTGGAGATGGTGCGCGAGCTGCCGGCGATGAACATCGACCGCATGACCGCGCTCAACGACAAGCTGCGCATGCTCGAGAACGAGGCTGACCGGCTGATGCTGGAGCTGTACCGGGACATCTATTCCGGCCGCCTGGACCACCTGCAGATGTTCCTGCTGAAGGAATTCTTCGAGATCCTCGAGAAGGCCATCGACCGCTGCCGCGAAGCCGGCGTGGTGGTCTACCAGATCGTGCTGAAGAACTCCTGA	MFSLQTIFGSGKQFYTLLNEAAEAAHDSTKALHAMMREADRQPALDAFKLARLRERAASDKIGQALVDSFMTPIEREDIEALGSALYKIPKQVEKFADRYSLATQHLAHIDFAPRAAMLEQAASVVVEMVRELPAMNIDRMTALNDKLRMLENEADRLMLELYRDIYSGRLDHLQMFLLKEFFEILEKAIDRCREAGVVVYQIVLKNS				NA	NA	NA	NA	NA
BMS020_07893	1344			hypothetical protein	GTGTTTGAACTGCTCATCGTCATTGCCCTGATCGTGCTCAACGGCTTCTTCGCCATGTCGGAGATGTCGCTGATGACCTCGCGCAAGAGCCGGCTGAAACAGCTGGCCTCCAGCAGCAAGCGCGCCGCCAAGGCGCTGGAGCTGGCCGAGAAGCCGGAAACCTTCCTGTCCACGGTGCAGATCGGCATCACCCTGATCGGCATCCTGACCGGCGTGTTCGGCGGCGATGCGATCGGCAGCGCGATCGCCACCCACCTGCAGGCGCTGTTCCCGTCGCTGCAGGCCACCTTCACCCTGATCGGCGAGCCGCAGCCGTACTCCGAGGCCATCGGCAAGACCCTGGCGGTCGCGCTGATCACCTTCCTGACGCTGATCTTCGGCGAACTGGTGCCAAAGCGCCTGGCGCTGACCCGCTCTGAAGCCATCGCCGGCTTTGTCGCGGTGCCGATGGGCTGGCTGGCCCGGGTCGCCGCGCCGTTCGTCTGGGTGCTGGCGCAGTCGACCCGGCTGGTGCTGCGCCTGTTCGGCCTGGGCAAGGACGAATCGGCCTCGGTCACCGAGGAGGAGATCCGCATGCTGGTGGCCGAGAGCCACGAGGCCGGCGTGATCGACGCGCACGAGCGCGACATGATGAACCGGGTGATGCGCCTGGGCGACCGCACCGCCGACAGCCTGATGACCCCGCGCAACCGCATCGCCTGGCTGGACCTCAACGCCTCGCTGGAGAAGAACCTGGCGGTGATGCGCGAGTACGAGTTCTCGCGCTACCCGGTGTTCCGCGACAACGACCAGGACATCGTCGGCGTGCTCGAGGTGAAGTCGCTGGTCACGCGCCTGGAGGGCGGCTCCAAGGAGCTGTTCCACAACCTGCGCGAAACCCTGTTCGTATCCGAATCGACCCACGCGATGAAGCTGCTGGAGATCTTCCGCGAGGAACAGCAGTCGGTGGCGCTGGTGGTCGACGAGTACGGCGAGATCCAGGGCCTGGTCACCATCAGCGACCTGATGGGCGCGGTGGTCGGCCGCCTGCAGGCGGTGGAGAACACCGACGAGGACGCGCTGGTGGTCACCCGCGAGGACGGCTCGCTGCTGATCGACGGCTCGCTGCCGGTCGAGGAGCTGCGCGAAGTGCTGGGCGGGGCCGAACTGCCGGACGCGCAGGAAGGCGATTACCACACGCTCGCCGGCATGTGCATCTACTACTTCGGCCGCATCCCGCACGCCGGCGAATACTTCGACTGGGCCGGCTGGCGCATCGAGATCGTCGACCTGGACGGCGCCCGCATCGACAAGCTGCTGGTGCGCCGCCTGGCCGAAGAGGACAGCGATGAGCTCACCGGATGA	MFELLIVIALIVLNGFFAMSEMSLMTSRKSRLKQLASSSKRAAKALELAEKPETFLSTVQIGITLIGILTGVFGGDAIGSAIATHLQALFPSLQATFTLIGEPQPYSEAIGKTLAVALITFLTLIFGELVPKRLALTRSEAIAGFVAVPMGWLARVAAPFVWVLAQSTRLVLRLFGLGKDESASVTEEEIRMLVAESHEAGVIDAHERDMMNRVMRLGDRTADSLMTPRNRIAWLDLNASLEKNLAVMREYEFSRYPVFRDNDQDIVGVLEVKSLVTRLEGGSKELFHNLRETLFVSESTHAMKLLEIFREEQQSVALVVDEYGEIQGLVTISDLMGAVVGRLQAVENTDEDALVVTREDGSLLIDGSLPVEELREVLGGAELPDAQEGDYHTLAGMCIYYFGRIPHAGEYFDWAGWRIEIVDLDGARIDKLLVRRLAEEDSDELTG				NA	NA	NA	NA	NA
BMS020_07894	648			hypothetical protein	ATGAGCTCACCGGATGAGCACGGCGCCGGCGAGGCGCGCTACCGCAACGAGGGCATCCGCAGCCTGCTGGCGCACTTCACCGCCGGCCCGCCCGACGAACTGCTGAGCATCCACGCGATCCTCGGCGAACTGCGCCACAGCGGCTTCGGCGTGTTCCTGTTCGTGGCGATCCTGCCGGCGTTCGTGCCGATCCCCGGCGTCGGCGGCGCGGTCAGCGGACCGCTGGCGATGCTGATCGGCCTGCAGCTGCTGATCGGCCTGCGCAATCCCTGGGTGCCGGCGCTGATCGGCCGGCAAGGCCCGCGCCGCAGCACCACGCAGCGCTTCATGGGCAAGATCGGGCCACTGCTGCGCTGGCTGGACCGGGCGCTGCGCCCGCGCCTGCAGCTGCTGGTGGCGCCACTGCCGGCGCGCATCTTCACCGGCCTGCTGGTGGCGCTGACCGGGCTACTGCTGTCGCTGCCGATCCCGCTGACCAACTACCTGTTCGGTGTGATCCTGCTGGCCTTCGCGCTGGCGCTGCTGGAACGCGACGGCGTGCTGATGCTGGCGTGCTGGATCGCCGCGATCGCCTGCCTGTGCATCTTCGGCCTCACCTCCGACCAGCTGATCGACGTGGCCGGCGACTGGCTGGCAAAGCTGCGCTGA	MSSPDEHGAGEARYRNEGIRSLLAHFTAGPPDELLSIHAILGELRHSGFGVFLFVAILPAFVPIPGVGGAVSGPLAMLIGLQLLIGLRNPWVPALIGRQGPRRSTTQRFMGKIGPLLRWLDRALRPRLQLLVAPLPARIFTGLLVALTGLLLSLPIPLTNYLFGVILLAFALALLERDGVLMLACWIAAIACLCIFGLTSDQLIDVAGDWLAKLR				NA	NA	NA	NA	NA
BMS020_07895	1005			hypothetical protein	ATGCTCCCGATCTCCGTGCTCGACCTGGCCCCCGTCTGCGAGGGCAGCGATCCCACGCAGGCCTTCGCCAACATGCTCGATCTGGCCCAGCATGCCGAGCGCTGGGGCTACCACCGCTACTGGCTGGCCGAGCACCACAACATGCCGGGCATCGCCAGCGCCGCCACCGCGGTGCTGATCGGCCACGTCGCCGGCGGCACCCGCACGCTGCGGGTCGGCTCCGGCGGCATCATGCTGCCCAACCATGCGCCGCTGCAGGTGGCCGAACAGTTCGGCACGCTGGCCTCGCTGTATCCGGGGCGCATCGACCTGGGCCTGGGCCGCGCGCCCGGCACCGACCAGGCCACCGCGCGCGCCCTGCGCCGCTATTTCGACGGTGCCGACAGCTTCCCGCACGACGTGGCCGAACTGCTGCGCTATTTCGAGCCGGCGGTCGACGGCCAGCTGGTGCGCGCGGTGCCGGGCGCCGGCATCGAGGTGCCGGTGTGGCTGCTCGGCTCCAGCCTGTTCAGTGCGCGGCTGGCGGCGGCGATGGGGTTGCGCTTCGCGTTCGCCTCGCACTTCGCCCCGGATGCGATGGACGAGGCGCTGGCGATCTACCGCCGCGAATTCCGCCCGTCGGCGCACCTGCAGGCGCCGTACGCGATGCTGGCGCTGAACGTGGTCGCCGCCGGCAACGAGGCCGAGGCGCGGCGGTTGTTCACCAGCCAGCAGCAGAGTTTCGTCAACCTGCGCCGCGGCCGGCCCGGGCGCATTCCGCCGCCGATCGACGACATCGAGGCGTTCTGGCAGCCGCACGAGAAGCTCGGCGTGGAGAACGCGCTGGCCTGCACCGTGCTTGGCGATGCGGCGCAGGTCGCGCAGGGGCTGGCCGAGTTCGTGCAGCGCCATCGCCCGGACGAGCTGATGCTCACCGCCAACATCCACGACCACGCCGCGCGCTTGCGTTCGTTCGAGCTGGCCGCACAGGCCTGGCGTGCGCTGCAGGACGGCGAGACGGGCTGA	MLPISVLDLAPVCEGSDPTQAFANMLDLAQHAERWGYHRYWLAEHHNMPGIASAATAVLIGHVAGGTRTLRVGSGGIMLPNHAPLQVAEQFGTLASLYPGRIDLGLGRAPGTDQATARALRRYFDGADSFPHDVAELLRYFEPAVDGQLVRAVPGAGIEVPVWLLGSSLFSARLAAAMGLRFAFASHFAPDAMDEALAIYRREFRPSAHLQAPYAMLALNVVAAGNEAEARRLFTSQQQSFVNLRRGRPGRIPPPIDDIEAFWQPHEKLGVENALACTVLGDAAQVAQGLAEFVQRHRPDELMLTANIHDHAARLRSFELAAQAWRALQDGETG	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
BMS020_07896	378			hypothetical protein	ATGAACACCAAGAAGTCTGTTGCCTGGCTGCTGGCTGGTGCCGCGTCGCTGACGGTCGCCGCGCCGGTCTTCGCGCAGGACTACCACGACGACGACCGCGGCCCGCCGCATGACCAGCGCGATCACCGCGACCACGACGATCGTGGCGATTACCGCGACGACCGCCCGGGTCCGGACCACGGCCCGCATGGCGACTGGCATCGCGGCGACCGTTACGACGGTCCGCGCTACGTGGTCGAGGATTACCGCCGCTACGACCTGCCGCCGCCGCCGGACGACCGCCACCGCTGGGTGCGCGACCGCAACGGCGATTTCGTGCTGATCGCGATCACCACCGGCATCATCACCGACCTGCTGCTGGGCGGGCACCACCGTTGA	MNTKKSVAWLLAGAASLTVAAPVFAQDYHDDDRGPPHDQRDHRDHDDRGDYRDDRPGPDHGPHGDWHRGDRYDGPRYVVEDYRRYDLPPPPDDRHRWVRDRNGDFVLIAITTGIITDLLLGGHHR				NA	NA	NA	NA	NA
BMS020_07897	846			hypothetical protein	ATGAAAGCCGCACGCCGGATCGCTAGACTGGTGGTGAACCAAGGGGACAACCAGATGAAGACCATGACCACCGCCGCGCTCGCGGCGGTCCTGCTGTGCGGCTGCACCGTCGTTTCGCCCGAACCCGGCCAGCAGGCCGTGCTGATCGACAAGCCGATCTTCTTCGGCAAGGGCGGCGTGCGCCAGGACGACGTGCGCGAACCGGGCCGCACCTACGCCTGGTGGACCACCGACAAGGTCTATGTCGACGTGACCCCGCAGACCGTGCAGGTCGCCTTCGACGACTTCTCCTCCAGCGACAACATCCTGCTCGACTTCTCCACCCAGATCCAATACCGCATCACCGCGCCGGCGATGCTGCTGTCGCGCTTCGGCGCGGACTGGTTCAAGAACAACGTCGCCAGCCAGTACGCGGCGATCGTGCGCGACCAGGTCAAGCGCTACGACATGACCAGGATGATGAGCGACCCGGACACCGCCAAGAAGATCGACGATGCGGTGACCGAGAACGTGCGCGCCTTGGCCAAGGAGCAGCAGCTGCCGATCGAGATCCAGAACATCACCCTGGGCCGCGCCCGCCCCAACCCCGACGTGCTGCAGCAGATGAACCTCACCGCCGCCCAGCAGCAGCGGGTCAAGACGCTGGTGGAAGCCACCAACGCCGAGCGCCAGCGCGAGCAGGAACAGGTCGCCAAGGCCGACGCCGACAACGCCTACCGCAACCGCATGGGCCTGACCCCGGAGCAGTACCTGGCCAGCCAGATCGCCGAGATCAACGCCGACGCCTGCGCCAAGGCCCAGGCCTGCTACATGGTGCCGTCGGGCACGTCGGTGATCGCGAAGTAG	MKAARRIARLVVNQGDNQMKTMTTAALAAVLLCGCTVVSPEPGQQAVLIDKPIFFGKGGVRQDDVREPGRTYAWWTTDKVYVDVTPQTVQVAFDDFSSSDNILLDFSTQIQYRITAPAMLLSRFGADWFKNNVASQYAAIVRDQVKRYDMTRMMSDPDTAKKIDDAVTENVRALAKEQQLPIEIQNITLGRARPNPDVLQQMNLTAAQQQRVKTLVEATNAERQREQEQVAKADADNAYRNRMGLTPEQYLASQIAEINADACAKAQACYMVPSGTSVIAK				NA	NA	NA	NA	NA
BMS020_07898	504			hypothetical protein	ATGGATGCCACGACACGTGTCGAAACGACCTTCCAGCCAAGCTTTTCAGAACGCGTACATGCCGAAGCGTTCCTAATGCGGCATTCCTTCATGGCGGTGCTTGCAGCGCTTCCGTTTCCCGTCATTGGACTGTGGTTGATCGCCGCCACGCTGCTGCATCCCCATTCCGCCTCCACATCGACGTGGCTGGCGGCGCTGCTCGCGCTGGCCTTTTCGCCGGGCCTGTTCCTGTTCAACTGCTACCGTGCGCACCGCTCATGCAAAGCAGTCGGGCCGTTTACCTATGCGCTCGATCCTGCAGGAATCCACATCGCCACGACGCATTCGCACTCCTCGACCAGCTGGGCCGCGCTTCAGCGCCTGCGCACCTCGTCCAGCATGCTGTTCGTCTACGTCAACAAACGCTGCGCGCACTTCATTCCCTTCCGCGCACTCTCCAGTCCCCATGACGTCGACGCGATCCGCGGTCTCGCGCACGCGGCGGGAGTGAAACACATCGCCTGA	MDATTRVETTFQPSFSERVHAEAFLMRHSFMAVLAALPFPVIGLWLIAATLLHPHSASTSTWLAALLALAFSPGLFLFNCYRAHRSCKAVGPFTYALDPAGIHIATTHSHSSTSWAALQRLRTSSSMLFVYVNKRCAHFIPFRALSSPHDVDAIRGLAHAAGVKHIA				NA	NA	NA	NA	NA
BMS020_07899	2079			hypothetical protein	ATGAAGCTCCTCAATTCCCTCAAGATCGGACCGCGCCTGGCGTTGGCGTTCGGCCTGCTGATCGTGTTGCTGGTGGTGTCGGTCGTGTTGTCGGTGCAGCAGTTCAACCAGCTGCGCGGCAGCATCGTGCAGATGGTCGATGTCGAGAACCGCAAGGCCGACCTGTTGTGGCGGATGCGCGAGAGCAACCTGATCGGCGAGGGGCAGGTGCGCGATTACCTGCTGGCCACGCCGGAGCTGCGCGCGGAGATCCACGAGAAGCTCAAGCAGAACCGCGCGCTCTACGCCGACCTGCGCAAGCAGCTGGAGGAGATCCCGCCAAGCCCGGCGGCCAAGGAGGCGCGCAAGCGCATCGATGCGACCGTGGACGGCGCGCGCGAGCTCAACGGCCGGGCGATGGCCTTGGCCGACAGCGGCGACCTGGCTGGCGCCGGCGTGCTGCTGCGCGAGGGCGCCGAGCTCTCGGCGGCGCGGGCCAAGGCGATCAGCGATGGCGTGGCGCTGCAGCTGCGGGTCAATAGTGCGCGTGCGCAGGAGATGGTGGCCGCGGTGCGGCATTCCACCTTCGTGCTGCTCGGTTTCGGCGTGATCGCGCTGGTCGCCGGCATCGGCCTGTGCGTGCTGATCGCGCGCTCGATCACCGTCAATGTCGGCCGTGCACTGGCGGCGGTGCAGGCGGTGTCGCGCGGCGATCTGACGATGCGCATCGACAACCCCGGCAACGACGAGATCGGCAGCATGCTGGCCGCGACCGGGCAGATGATCACGATGCTGCGGCGCTTCTCCGACGAGGCCGCGCTGATGGCCAGGAAGCACGAGGCCGAGGACATGGGGCACCGCATGCCGCAGGACTTCCCCGGCGTTTACGGCGAGCTGGCGCGCGGCATCAACACGATGATGTTCGAGCACCTGGATGCACTGACGGATGCCATCGGCATCCTCAACGAGTACGCGCATGGCGACCTGCATCGCGACGCGCGGCGACTGCCGGGCAGCCGTGCCGGCCTGCACGAGGCGATGGACGCGGCCAAGGCCAGCCTGGGCGCGATCAACGGCGAGATCCAGCGCCTGGCGCAGGCGGCCGCGGCCGGCGAGTTCTCGGTGCGCGGTGACGTGGCGCGCTTCAAGCACGATTTCGCCCGCATGGTCGGCGACCTCAACGCGATGATGCAGGCCAGCGACGACAGCCTCGGCAAGCTGTCCGCGCTGCTCGGGGCGATCGCCAACGGCGACCTGACCGCGCGCATGGACGGCCAGTTCCACGGCGTGTTCGCCCGCATGCGCGACGATGCCAACACCACCACGCAGCGCCTGTCCGGCATCGTGGCCGGCATCCAGGACAGCGCCGCACAGATCCGCCTGGCGGCCGGTGAGATTTCCGAGGGCAATGCCGACCTGTCGCGCCGCACCGAGCAGCAGGCCGCCAACCTGGAGGAAACCGCGGCGTCGATGGAGGAGCTGACCTCCACCGTGCGCCAGAACGCCGAGCATGCGCGCCAGGCCAATACGCTGGCGATCGGCGCGGCCGGGGTGGCCGGGCAGGGCGGCGACGTGGTCGGGCGGCTGGTCGGCACGATGGGCCAGATCGATGCGTCGTCGAAGAAGATCGCCGACATCATCACGGTGATCGACGGCATCGCCTTCCAGACCAACATCCTGGCGCTGAACGCTGCGGTCGAGGCGGCGCGTGCCGGCGAGCAGGGCCGCGGCTTCGCGGTGGTGGCGACCGAGGTGCGCACGCTGGCGCAGCGCTCGGCCAATGCCGCGCGCGAGATCAAGGAGCTGATCGGCGATTCGGTGGAGAAGGTCGCCGACGGCACCACGCTGGCCGGCCAGGCCGGCACCACGATGCAGGAGATCGTCGGCGCGGTGCAGCGCGTGACCGACATCATGGCCGAGATCTCGGCCGCCTCGCAGGAACAGGCGGCGGGCATCGAGCAGGTCAACCAGACCGTCACCCAGATGGACGAGACCACCCAGCAGAACGCGGCACTGGTCGAGGAAGCCTCGGCGGCGGCGCGCGCGATGGAAGAGCAGGCCGACGCACTGGCCGGCGCGGTGGGTGTGTTCCGGATCTGA	MKLLNSLKIGPRLALAFGLLIVLLVVSVVLSVQQFNQLRGSIVQMVDVENRKADLLWRMRESNLIGEGQVRDYLLATPELRAEIHEKLKQNRALYADLRKQLEEIPPSPAAKEARKRIDATVDGARELNGRAMALADSGDLAGAGVLLREGAELSAARAKAISDGVALQLRVNSARAQEMVAAVRHSTFVLLGFGVIALVAGIGLCVLIARSITVNVGRALAAVQAVSRGDLTMRIDNPGNDEIGSMLAATGQMITMLRRFSDEAALMARKHEAEDMGHRMPQDFPGVYGELARGINTMMFEHLDALTDAIGILNEYAHGDLHRDARRLPGSRAGLHEAMDAAKASLGAINGEIQRLAQAAAAGEFSVRGDVARFKHDFARMVGDLNAMMQASDDSLGKLSALLGAIANGDLTARMDGQFHGVFARMRDDANTTTQRLSGIVAGIQDSAAQIRLAAGEISEGNADLSRRTEQQAANLEETAASMEELTSTVRQNAEHARQANTLAIGAAGVAGQGGDVVGRLVGTMGQIDASSKKIADIITVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVATEVRTLAQRSANAAREIKELIGDSVEKVADGTTLAGQAGTTMQEIVGAVQRVTDIMAEISAASQEQAAGIEQVNQTVTQMDETTQQNAALVEEASAAARAMEEQADALAGAVGVFRI	PGPT0015710_2767	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
BMS020_07900	333			hypothetical protein	ATGCACAAATGGATGGCGGCCGCGCTGGCCGCGGCACTGCTGATGACCGGCTGCGCCCGGCTGGAGGGCGAGAAGTTCGTCGGCCACTGGGTCAACGTGCAGGCGCAGGACGACGTGATGGACATCGAACGCAACGGCGAGTCCTTCATGGTGCGCAACACCACCCCGCGCTTCTTCAGCCGCAAGCCCAAGACCGAGAGCTACCCGGCCATCTACAAGGACGGCGTGCTGCAGGTCAGCAACGACGGCGAAACGGTGAGCTTCGCCATCGATGAGGCCAACGGCCACCTCAATACCGGCAGCGATGAGTACCAGAAGGTGCCGGTGAAGTAA	MHKWMAAALAAALLMTGCARLEGEKFVGHWVNVQAQDDVMDIERNGESFMVRNTTPRFFSRKPKTESYPAIYKDGVLQVSNDGETVSFAIDEANGHLNTGSDEYQKVPVK				NA	NA	NA	NA	NA
BMS020_07901	738	rluB_3	COG1187	Ribosomal large subunit pseudouridine synthase B	ATGTCTGTCCAGGTCCGTCTGTCCCACCGTGTCGCCGAGCAGGTTGGCTGCTCGCGCGCCGAAGCCGAGCAGTACATCGAGAACGGCTGGGTCCGCGTCGACGGCGTCGTGGTCGAGATGCCGCAGTTCAAGGTCACCGATGAGCAGATCACGCTCGATCCGGATGCGCGGCTGGAGGCGATCGAGCCGGCGACGATCCTGCTGCACAAGCCCGCCGGCTACGACGCGCTCGACGGCGACAAGCCGGCCAGCGTGCTGGTGACGCCGGCCAGCCACTGGGCCGAGGATCCTTCGGAGGTGCGCCTGCTGCACCGGCACTTCCACCGGCTGGTGCCGCTGGTGTCGCTGGACACCGCGGCCAGCGGCCTGATGGTGCTCAGCCAGGACGGCCGCGTGCAGCGGCGCCTCAACGAGGACGCCGACCTGATCGAACACGAATACATCGTCGAGGTGGACGGCGAGATCGTCCCCTACGGCCTGCGCCGGCTGGCGCATGGGCTGGCATTCGAAGGCCGTGCGCTGCCGCCGTGCAAGGTCAGCTGGCAGAACGAGACCCGGCTGCGCTTTGCGATCAAGGCGGTGCGCGACGGGCAACTGGTGGACATGTGCAGGCAGGTCGGCCTGGAAGTGGTCTCGATCCGCCGCCTGCGCATCGGCCGCATCCCGCTGGGCAAGGGCGCGGAAGGCGCGATGCCGCCGGGCGCATGGCGCTACCTGCCGGTCGGCGAGCGGTTCTGA	MSVQVRLSHRVAEQVGCSRAEAEQYIENGWVRVDGVVVEMPQFKVTDEQITLDPDARLEAIEPATILLHKPAGYDALDGDKPASVLVTPASHWAEDPSEVRLLHRHFHRLVPLVSLDTAASGLMVLSQDGRVQRRLNEDADLIEHEYIVEVDGEIVPYGLRRLAHGLAFEGRALPPCKVSWQNETRLRFAIKAVRDGQLVDMCRQVGLEVVSIRRLRIGRIPLGKGAEGAMPPGAWRYLPVGERF				NA	NA	NA	NA	NA
BMS020_07903	297			hypothetical protein	ATGCACGACGTTTCAGGGAACCCGCACCACGCGCCCGGCTATCTGCTGCCGGACGACATGTACGCCCTGCTCCACGAGGTCGCCGACGAGCTGGAACTGCTCGCCGGCCTGACCGCCACCGGCCATCCACTCGATGGCGAACTACAGACGCTGCCGTTCAAGCGCGCCGGCCTGGCCAGCTACCTGCGCGGCGCGCACGGCCGCATCGAAACCGCTCTGCAGGCCTGCCGCTATACCGCCCGGCATGACGAAGACCAAGACGCCCACCGCCCCGGCCAGCGCGAGGTGTCGCCATGA	MHDVSGNPHHAPGYLLPDDMYALLHEVADELELLAGLTATGHPLDGELQTLPFKRAGLASYLRGAHGRIETALQACRYTARHDEDQDAHRPGQREVSP				NA	NA	NA	NA	NA
BMS020_07904	459			hypothetical protein	ATGAACGCAGAAGCCGGATCCACCCACTTGGCATACGGGCTCACGGTTGATCAGCTGGATAAGCTCCAGCAACTGACCGGCAGCCTCCGCGCCCAAGGGGACGTGCTGGCGACCAGCCGCCCTCGCGAACTGGCCCCAGGCAGCCTGGAAGTGATCGGTGAAACCATCTTCCAGATCGCGTGCGAGACGCGCGACATCGTCGACCAGATCGAAGCACAACGACTGACAGACGTCTCGGCAGCCGCCTCGCCCGTCACCAACCAGGCAGGTCGACCCGCGTTCGACAGCGCCATGCACGAAGCCCTGCTGCAGGCGTTCTCGATCATGCAGCTGATGACCATCGCCGCCCATCAGGACAACGGCATGGACGACGCCAGCGGCGCCTGCCAGTTGGTCAGTGAACTGCTGTGGAAAGTGCATGAGTACGTGGCAGCGAACTTCGATTCACTGCCGAAGTAG	MNAEAGSTHLAYGLTVDQLDKLQQLTGSLRAQGDVLATSRPRELAPGSLEVIGETIFQIACETRDIVDQIEAQRLTDVSAAASPVTNQAGRPAFDSAMHEALLQAFSIMQLMTIAAHQDNGMDDASGACQLVSELLWKVHEYVAANFDSLPK				NA	NA	NA	NA	NA
BMS020_07905	582			hypothetical protein	ATGACCTTTAACCTCGAACGCAATAACCTCCACTGGCAGCAATACATTGCATTGGAAGAAGATCTGGTCAGGATTTCCAGGTTCATCGAAGTTCATGAGGACAATATGTCCACCTATTCCATTGAACTTGCTCGACTCCTTTTGGCCAGCTGCTCGCAAGTAGAGATCGTCGGAAAATCCATTGCGTCTCTCGCCGGGAAAAAAGCAAAGAACATCAGAAGCATCATGGAAGTATTGACGGACTCCGACCCCAGTCTTGTCCATGCCAGGGTCACGATCCCGCGCTACAGTCAGGAGACTCAGCCTTGGAAAGCATGGGGAAATTCCGAAACGCCAGCCTGGTGGGATGCTTACAACAGCAGCAAGCACGACGAAGATAATTCGCTTAAGCAAGCCTCACTTCGGAACTGCATTGATGCCATCGCGGCGCTACTTCTACTCACATTGGTTCTCGGACACCACCGGAACGTTGACGCGTTTAAGCCAAGCACCGCTCTCTTCTATCCACCTGAAGACTTTGCTTCCCTCGACATGATGCCGGACGGGGGCATCATGTACATCTCATATAGGACGCCCCAATAA	MTFNLERNNLHWQQYIALEEDLVRISRFIEVHEDNMSTYSIELARLLLASCSQVEIVGKSIASLAGKKAKNIRSIMEVLTDSDPSLVHARVTIPRYSQETQPWKAWGNSETPAWWDAYNSSKHDEDNSLKQASLRNCIDAIAALLLLTLVLGHHRNVDAFKPSTALFYPPEDFASLDMMPDGGIMYISYRTPQ				NA	NA	NA	NA	NA
BMS020_07906	1746			hypothetical protein	ATGAAGCTCCGCCGCCTGCAAATTCAGAATTTTCGCTCCATCGTTAATGCTGACATCGAGATTCACGACTACACGATGATCGTGGGTGCGAACAATGCGGGAAAGAGCAACATCATTTCCGCGTTGCGCGCGTTCTATGAGGACATCAAGCACGGCGGCGACGACATCCCGAAGATGAAGGATGCCCAGGTTGATGAGTCGTGGATCGAACTGACCTTCGATCTGACCGAAGGTGAGTGGGAGGGGCTGGCGGATAAATACAAGCAAGGCATGGCACGGCGAACGCTCACAGTCCGCCGCTACTTCGTATCTAAAGAGCGAGTGAAGGCTAGCCAGAGCAACATTTACGCCATCATCAATGGCGAGTTGGAAAAAGACTTGTTCTATGGTGCCAAGAACGTCGGCACAGCGAAGGTCGGTAGCATCATCTACATCCCGGCACTCACTACGGCTGCAGACCAGATGAAGACCAGTGGCCCCTCGCCGTTGCGAGACATGCTCAACCTGATGTTGAAACGTGTGGTTGCGGATAGCCCAGCCTTCAAGGAGATGGAAGGCGCGTTCGTAAAGTTGAATGACGAGGCGCGCGGCGAGGAAGGTTTTCTGTCGAAGATTTCCAGGCCCATCAATCAATCCATTGAGCAATGGGGCATTCGATTCGACATGGGCGTCAGCCCAGTTGCGCCGGAGGACATCACCAAGAATCTCATCCGGCATAGTTTCGTGGATGCGATGCTGGGGGAAACGTCGTTTGCTCTTGACCGCTACGGGCATGGGTTCCAGCGGTCGTTTCTGTACGAACTCATCAAGCTTGCCCCCAGCTTTGTGGAGGGTAAGGCAGTAGCAAAAAAGGAGTTCGACCCAGACTTCACTCTCATCCTGTTCGAGGAGCCGGAAGCATTCTTGCATCCAGCCCAACAGGAGAACATGGCCTATCACCTGCGAAGGCTGGGCGCCGGCGTTACGCAACAAGTCATTGTCACCAGTCATTCTCCAATCTTCGTCGGCAAGGTGGCTGATGACCTCTGCCAGATTGTTCGTGTTCGCCGCAAAAACGGCACTAGCAATGTCGGACAGATCAAGATGCATGACCTCAGTGGCGTGCTTGGACAGGGATATGAGTTCAAGACTTGGCTTGAGGCTTACGTCAATGACAAAGCTGTCCCTGATAACGCAAAAGGCTACGCTAAGCGGCTTTTGCAGGGAGCCACTGACGATGCTGCAATTGCAGAGCAGGAAGAACGATTCCGATATCAGCTTTGGCTGGACTCTGAGCGCGCCTCGATGTTCTTTGCTGATCGCGTGCTTCTTGTCGAAGGCGCAACCGAGAAGGCCTTGTTTGCGTGGTTGCTTGCTAGGGATTGGCATGACTTGAGCCGACATCGCGTCGCGATTGTTGATGCGATGGGTAAGTACAATCTGCATCGCTACATCGCATTGCTGGAGGGATTTGGAATCCCCTACGGCTTGATGCTGGACGACGATCAGGACAAAGATCATCACAAGGTCGTAAACGAGATGTTGAAGAACAAGGTTGGCCAAAGCCGCGTTGCCGAGCCTTGTTTCATCAGTGAGTGCATGGAGAAGTTCCTCGGTCTGAACTTGCCTGTGCGGGATGATCAGAAGCCTGTTCATACTCTGAAGGCCATTGAGGCTGGCGACATCGCGAAAGACAAGCTCGATGAGTTGCGCGAACTGTTCCTGAAATCCCTCGCGCTTGAAGCTCAGCAACCTGTGGCTGCGTAA	MKLRRLQIQNFRSIVNADIEIHDYTMIVGANNAGKSNIISALRAFYEDIKHGGDDIPKMKDAQVDESWIELTFDLTEGEWEGLADKYKQGMARRTLTVRRYFVSKERVKASQSNIYAIINGELEKDLFYGAKNVGTAKVGSIIYIPALTTAADQMKTSGPSPLRDMLNLMLKRVVADSPAFKEMEGAFVKLNDEARGEEGFLSKISRPINQSIEQWGIRFDMGVSPVAPEDITKNLIRHSFVDAMLGETSFALDRYGHGFQRSFLYELIKLAPSFVEGKAVAKKEFDPDFTLILFEEPEAFLHPAQQENMAYHLRRLGAGVTQQVIVTSHSPIFVGKVADDLCQIVRVRRKNGTSNVGQIKMHDLSGVLGQGYEFKTWLEAYVNDKAVPDNAKGYAKRLLQGATDDAAIAEQEERFRYQLWLDSERASMFFADRVLLVEGATEKALFAWLLARDWHDLSRHRVAIVDAMGKYNLHRYIALLEGFGIPYGLMLDDDQDKDHHKVVNEMLKNKVGQSRVAEPCFISECMEKFLGLNLPVRDDQKPVHTLKAIEAGDIAKDKLDELRELFLKSLALEAQQPVAA				NA	NA	NA	NA	NA
BMS020_07908	996	dmlR_30		HTH-type transcriptional regulator DmlR	ATGCACGACCTGAATGACCTGTACTACTTCGCGATGGTGGTCGACCACGGCGGTTTCGCCGCTGCCGAACGTGCGCTTGGCATCCCCAAGTCGCGCCTGAGCCGGCGCATCAGCCAGCTCGAAACCGACCTCGGCGTGCGCCTGCTGCAGCGCTCCACCCGCCGCTTCGCGGTCACCGATGTCGGCATGAGCGTGCACCGCCACGCCCAGACCATGCTGGCCGAGGCGCAGGCCGCGCGCGAGGTGGTCGATCGTCTCAGCGCCGAACCACGCGGTCTTGTACGTGTGAGCGTTCCGGTGTCGCTGGCGCAGATCCAGCTGCCGCGGCTGCTGCCGGAGTTCCTCGACAAGTACCCCAAGGTGCGGCTGCAGCTGAACATCAGCAACCGCCGCGTGGACGTGATCAACGAAGGCTTCGACGTCGCCCTGCGCGTGCGCTCGCGGTTGGACGACGACGGCAGCCTGGTGATGCGCAGCTTCGGCCAGGTGCAGGAACTGCTGGTCGCCAGCCCGAAGTACCTGGACCGCGCCGGCCGCCCCAAGACGCCCGACGACCTGGCCCACCACACCACCATGAGCATCAGCGAGGACGAGGTGCACCAGCGCTGGGAGCTGCACGGCCCCAACGGCGAGGTGCAGCGCGTGGACCTGCAGCCGCGCCTGGCCGGCTTCGACTTCCCGCTGCTCAAGTCGATGGCGCGCGACGGCTTCGGCATCACCATGCTGCCCGAGACCGTGTGCGCCGAAGAAGTGCGCAACGGCGAGCTGGAAGTGGTGCTGCCGGACTGGTCGCTGCCGCAGGGCATCTGCCACGCCGTGTTCGCCTCGCGTCGCGGCCTGCTGCCGGCGGTGCGGGTGTTCATCGACTTCCTGGCCGAGCGCCTGCCCACCGCGATCGAACGCTCGCGGCTGGACTGCGGCGGCAACTGCGAGGAAGTGAAGGCCAAGCTGCAGCGCGCCAGCGCCCAGCGCATGCCGACCGCCGAGGTCGGCTGA	MHDLNDLYYFAMVVDHGGFAAAERALGIPKSRLSRRISQLETDLGVRLLQRSTRRFAVTDVGMSVHRHAQTMLAEAQAAREVVDRLSAEPRGLVRVSVPVSLAQIQLPRLLPEFLDKYPKVRLQLNISNRRVDVINEGFDVALRVRSRLDDDGSLVMRSFGQVQELLVASPKYLDRAGRPKTPDDLAHHTTMSISEDEVHQRWELHGPNGEVQRVDLQPRLAGFDFPLLKSMARDGFGITMLPETVCAEEVRNGELEVVLPDWSLPQGICHAVFASRRGLLPAVRVFIDFLAERLPTAIERSRLDCGGNCEEVKAKLQRASAQRMPTAEVG				NA	NA	NA	NA	NA
BMS020_07909	561	azoR1	COG1182	FMN-dependent NADH-azoreductase 1	ATGAAGCTGCTGCACATCGATTCCAGCGCCCTCGGCGGCCATTCCGTGACCCGCGAGCTGTCGGCCGCGGCGGTGGCGCGCCAGCAGGCGCTGCACCCGGGCATCGAGGTGGACTACCTCGATCTGGACCAGTCGCCGCTGCCGCACCTGACCGCGCAGTCGCTGGCCAAGGCCGATCCGGCCGAGGCCGCGGCGTCCGAAGCGCTGCTGGCGCAGTTCCTGGCGGCCGATGTGATCGTGATCGGCGCGCCGATGTACAACTTCTCGGTGCCGTCGACGTTGAAGGCGTGGATCGACCGCGTGGCGGTGGCCGGGCGCACCTTCAAGTACACCGAGAACGGTCCGGAAGGCCTGGCCGGCGGCAAGACGCTGATCATCGCCAGCGGCCGCGGCGGCATCCACACCGATGCGCCGACCGATTTCCAGGAGCCCTACCTGCGCCAGGTGTTCGGCTTCCTCGGCATCACCGACATCCAGTTCGTGCGCGCCGAAGGCGTGGCGTATTCGCCGCAGCACCGCAGCGACGCGATCGCCGGTGCGCTGGCCGCGCTCGCGGCCTGA	MKLLHIDSSALGGHSVTRELSAAAVARQQALHPGIEVDYLDLDQSPLPHLTAQSLAKADPAEAAASEALLAQFLAADVIVIGAPMYNFSVPSTLKAWIDRVAVAGRTFKYTENGPEGLAGGKTLIIASGRGGIHTDAPTDFQEPYLRQVFGFLGITDIQFVRAEGVAYSPQHRSDAIAGALAALAA	PGPT0006790_3274	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
BMS020_07910	1278	serS_2	COG0172	Serine--tRNA ligase	ATGCTAGATCCGGCCCTGCTCCGCCAACAGCCCGCTGAACTCGCCGAACGCCTGCGCGCCACGCGCGGGTTCGCGCTCGATGTCGCCGCGCTGGAGTCACTGGAGTCCGAGCGCAAGCGTATCCAGGTGCGCACCCAGGAGTTGCAGAGCCTGCGCAACAGCAAGTCCAAGGCGATCGGCCAGGCCAAGGCCAAGGGCGAGGACGTGTCGGCGATCATGGCCGAAGTGGCCGCGTTCGGCGACGAGCTGAAGACCTCGGAAATCGCGCTCGACCGCATCCGCGCCGAGCTGGAGGCGGTGGCGCAGGGCATCCCGAACCTGCCGCAGGCCGACGTGCCGCTGGGCGCCGATGAATCGCAGAACGTCGAGCAGGCGCGCTGGGGTACGCCGCGCAGCTTCGACTTCGCGGTCAAGGACCACGTGGAGCTGGGCGCGCGCAACGGCTGGCTCGACGGCGAGACCGCAGCCAAGCTGTCCGGCGCGCGCTTCACCGTGCTGCGCGGGCCGATCGCCCGCCTGCACCGCGCGCTGGCGCAGTTCATGCTCGACCTGCACACCGGCGAGCACGGCTACGAAGAAACCAACGTGCCGGTGATCGTCAACGCCGACAGCATGACCGGTACCGGCCAGCTGCCGAAGTTCGAGGAAGACCTGTTCTCGACCCAGCTTGGCGAGCACAAGCGCTACCTGATCCCGACCTCGGAAGTGCCGCTGACCAATATCGTTCGCGACGAGATCGTCGACGCCGAGCGCCTGCCGCTGCGCATGACCGCGCACTCGATGTGCTTCCGCTCCGAGGCCGGCAGCGGTGGTCGCGATACCCGCGGCATGATCCGCCAGCACCAGTTCGAGAAGGTCGAGCTGGTCAGCGTCTGCGCCCCCGAGGACAGCGAGGCCGAACACCAGCGCATGACCCGTTGCGCCGAGACCGTGCTGGAAAAGCTCGGCCTGCCGTACCGCAAGGTGCTGCTGTGCACCGGCGACATGGGCTTCTCGGCGGTGAAGACCTACGACCTGGAAGTGTGGCTGCCCTCGCAGGACACCTACCGCGAGATCTCCTCGTGCTCCAACTGCGGCGACTTCCAGGCCCGGCGCATGCAGGCGCGCTGGCGCGTGGCCGGCGGCAAGCCGGAGCTGGTGCACACCCTCAACGGCTCCGGCGTGGCGGTGGGCCGGGCGATGATCGCGGTGATGGAGAACTACCAGAACGCCGACGGCTCGATCACCGTGCCCGACGCGCTCAAGCCCTACATGGGCGGGATCGAGACCATCGGCTGA	MLDPALLRQQPAELAERLRATRGFALDVAALESLESERKRIQVRTQELQSLRNSKSKAIGQAKAKGEDVSAIMAEVAAFGDELKTSEIALDRIRAELEAVAQGIPNLPQADVPLGADESQNVEQARWGTPRSFDFAVKDHVELGARNGWLDGETAAKLSGARFTVLRGPIARLHRALAQFMLDLHTGEHGYEETNVPVIVNADSMTGTGQLPKFEEDLFSTQLGEHKRYLIPTSEVPLTNIVRDEIVDAERLPLRMTAHSMCFRSEAGSGGRDTRGMIRQHQFEKVELVSVCAPEDSEAEHQRMTRCAETVLEKLGLPYRKVLLCTGDMGFSAVKTYDLEVWLPSQDTYREISSCSNCGDFQARRMQARWRVAGGKPELVHTLNGSGVAVGRAMIAVMENYQNADGSITVPDALKPYMGGIETIG				NA	NA	NA	NA	NA
BMS020_07911	645			hypothetical protein	ATGTCCGCTTCCCGCCCCACCGACCGCCCCATCACCCTGCGCGTCCCGCGCAACACCTTCAAGATCGCCGGCATCGCCTTCGGGGTTGGCCTGCTCGGGTTCGTGCTGGTGTGGGCCACCAGTCGCAACGACGACTTCTACAAGGCGCCCGACGCCAGCAAGACCGCCGCGCAGCCCACCGAGCAGTTGGCACCGCTGCCCGAGCCGCTGCCCGCCGGCGGTGGCGCCAGCGACATGCCCGACGCCAAGCCCGTACCAGCCGAGGAAGCCCCCAAGCTGGTCGAGACCGCGCCCCCCGCCCCGCCGCCGGCGCCGGTCCCGGAAGCCGCGCCTGCGCCGGCCCCGACCGTGCAGGCCAGCGCGCCCGGCGACAAGCCGCTGCCGATCCAGGGCCAGATGCCGCCGCCGGAATACCCGGCCTCGGCGCTGCGCCGTGGCGAACAGGGCACGGTGGTGGTGCGCGTGGACGTGGACGCCAACGGCAGCCCGACCGGCGTGACCCTGGTCGAGCGCAGCGGTTCGCGCGCGCTCGACCGCGCGGCGATGGAAGCGGTGCGGCGCTGGCAGTTCCAGCCGGCGCAGCGCGATGGCCAGCCGGTCGCCGGCAGCATCGACGTGCCGTTCGATTTCAAGCCGGCTCAGTAA	MSASRPTDRPITLRVPRNTFKIAGIAFGVGLLGFVLVWATSRNDDFYKAPDASKTAAQPTEQLAPLPEPLPAGGGASDMPDAKPVPAEEAPKLVETAPPAPPPAPVPEAAPAPAPTVQASAPGDKPLPIQGQMPPPEYPASALRRGEQGTVVVRVDVDANGSPTGVTLVERSGSRALDRAAMEAVRRWQFQPAQRDGQPVAGSIDVPFDFKPAQ	PGPT0003745_6249	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003745-tonB-K03832	NA	NA
BMS020_07912	570			hypothetical protein	ATGTCGATGTCCCCGACTCACCACGGCGATCTGCACCAGACCCGCGAGCCGGACGGCGATGAGCGCGATGGCGCGTCACCGCTGCTGTGGGGCCTGTTGATCCTGGCGCTGGTCGCCGCCCCCGCCTGGTGGTGGATCCGCAACAGCGGCGAGCCGCACACCGTGGTCGCGCCTGCGGTGGAAACCCGCACGCAGGCCGCCGAAAGCCAGGTGATCCCGCCGCCGGCGCAGCAGAAGCAACCGGCCATGGTGCGCAAGGAAACCCCGCGCACCGGCGCCGCCCGCGGCGACCACGACGCCCGTCCGCTGGGCAGCAACGCCGCGCCGACCTACCCGCCGCGGGCGCTGCGTGCCGGCATCGAGGGCGGCGTGGTGGCGCAGGTCCAGGTGGACCCGCGCGGCCACGTCAGTGAGGTCAGCATCGTCGAGCGCAGCGGTCCGCGCGATCGCGACATCGATCGCGCGGTGATCGCGGCGCTGCGCGACTGGCGCTTCGAACCGGCGGTGCGCGACGGCCAGGCCGTGGCCAGCAGCGTGCGCGTGCCGGTGGACTTCAAGACCCAGCAGTAA	MSMSPTHHGDLHQTREPDGDERDGASPLLWGLLILALVAAPAWWWIRNSGEPHTVVAPAVETRTQAAESQVIPPPAQQKQPAMVRKETPRTGAARGDHDARPLGSNAAPTYPPRALRAGIEGGVVAQVQVDPRGHVSEVSIVERSGPRDRDIDRAVIAALRDWRFEPAVRDGQAVASSVRVPVDFKTQQ	PGPT0003745_6804	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003745-tonB-K03832	NA	NA
BMS020_07913	1320	aroA_3	COG0128	3-phosphoshikimate 1-carboxyvinyltransferase	ATGACCAGCTCCCACTCCCAATCCTGGATCGCCCACCAAGGCTCGGCGCTGCACGGCACGCTGGCCATTCCCGGCGACAAGTCGGTCTCGCACCGGGCGGTAATGTTCGCCGCGCTCGCCGATGGCACCTCGCGCATCGATGGGTTCCTCGAAGGCGAGGACACCCGTTCGACCGCGGCGATCTTCTCCAAGCTGGGCGTGCGCATCGAAACGCCGTCGCCGTCGCAGCGCATCGTGCATGGCGTCGGCGTCGATGGCCTGCAGCCGCCGCAGGGCGAGCTGGACTGCGGAAACGCCGGCACCGGCATGCGCCTGCTCGCCGGCCTGCTGGCCGCGCAGCGCTTCGACAGCGTGCTGGTCGGCGACGAATCGCTGTCCAAGCGGCCGATGCGCCGGGTCACCGTGCCGCTGACGCAGATGGGCGCGAAGATCGATACCCGCGACGACGGCACGCCGCCGCTGCACATCCATGGTGGGCAGGCGCTGCACGGCGTCGATTTCGCCTCGCCGGTGGCCAGCGCCCAAGTCAAGTCCTGCATGCTGCTGGCCGGGCTGTACGCGCAGGGCGACACCAGCGTGCGCGAACCGCACCCGACCCGCGACTACACCGAGCGCATGCTGTCGGCGTTCGGCGTTGAGATCGAATTCTCGCCCGGCTACGCCAAGCTGCGTGGCGGCCAGCGCCTGCGCGCGACCGATATCGCGGTGCCGGCGGATTTCTCCTCGGCCGCGTTCTTCATCGTCGCCGCCAGCATCATTCCCGGCTCTGACGTGACCTTGAAGGCGGTCGGGCTCAACCCGCGCCGCACCGGCCTGCTGGCCGCGCTGCGCCTGATGGGCGCCGACATCGAGGAGCTCAACCACGCCGAACACGGCGGCGAGCCGGTGGCCGACCTGCGCGTGCGCTACGTGGCGCTGCAGGGCGCGCGGATTCCGGAAGACGTGGTGCCGGACATGATCGATGAGTTCCCGGCGCTGTTCGTCGCCGCTGCCGCCGCGCAGGGCCAGACCATCGTCAGCGGCGCGGCGGAGCTGCGGGTCAAGGAATCCGATCGCCTCGCGGCGATGGCCACCGGCCTGCGCACGCTCGGCATCCAGGTCGATGAGACCCCGGATGGCGCCACCATCCACGGCGGCACGCTCGGCGCCGGCACGATCGAAAGCCATGGCGACCATCGGATCGCCATGGCCTTCGCGATCGCCGGCCAGCTGGCTACCGGCGAGGTGAGGATCAACGACGTCGCCAACGTGGCGACGTCGTTCCCGGGCTTCGACACGCTCGCGCGTGGCGCCGGCTTCGGGCTTACTGCTGGGTCTTGA	MTSSHSQSWIAHQGSALHGTLAIPGDKSVSHRAVMFAALADGTSRIDGFLEGEDTRSTAAIFSKLGVRIETPSPSQRIVHGVGVDGLQPPQGELDCGNAGTGMRLLAGLLAAQRFDSVLVGDESLSKRPMRRVTVPLTQMGAKIDTRDDGTPPLHIHGGQALHGVDFASPVASAQVKSCMLLAGLYAQGDTSVREPHPTRDYTERMLSAFGVEIEFSPGYAKLRGGQRLRATDIAVPADFSSAAFFIVAASIIPGSDVTLKAVGLNPRRTGLLAALRLMGADIEELNHAEHGGEPVADLRVRYVALQGARIPEDVVPDMIDEFPALFVAAAAAQGQTIVSGAAELRVKESDRLAAMATGLRTLGIQVDETPDGATIHGGTLGAGTIESHGDHRIAMAFAIAGQLATGEVRINDVANVATSFPGFDTLARGAGFGLTAGS	PGPT0012850_1683	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012850-yddE-K00800	NA	NA
BMS020_07914	1158	pheA_2		Bifunctional chorismate mutase/prephenate dehydratase	ATGGCTGCAAAGCCCAAGAAGCCCGCCGCCAAGCCGGCACCCACGTCCAAGCCGGCCAAGGCCGAGTCCGCCGCGCCGCCGCTGGTGCTGGCCGACGTGCGCGCCAAGATCGACGAGATCGACCGCACCATCCAGTCGCTGATCGCCGAGCGCGCGCAGTTCGCCCACCAGGTCGGCAAGGCCAAGGGCAAGCTCGCCGCGGCGGTGGACTACTACCGGCCCGAGCGCGAGGCGCAGGTGCTGCGCATGGTGGTGGACCGCAACGAGGGCCCGCTGTCGGACGAAGTGCTGGTGCACGTGTTCCGCGAGATCATGTCGGCGTGCCTGGCCCAGCAGGAGCCGCTGAAGATCGGCTACCTCGGCCCGGAAGGCACCTTCAGCCAGCAGGCGGTGCTCAAGCACTTCGGTCGCTCGGCGGTCGGCATCCCGATGGCGACCATCGAGGAAGTGTTCCAGGAAGTGGAGAGCGGCAACGCCGATTTCGGCGTGGTGCCGGTCGAGAATTCGGGGCAGGGCACGATCCAGGTCACGCTGGACATGTTCCTGACCTCCGGGCTGAAGATCTGCGGCGAGACCGAGCTGCGCATCCGCCAGTACCTGATGTCGCGCAGCGGCCGCATCGAGGACATCGAGCGCATCTACGCGCATCCGCAGTCGTTCGCGCAGACCGCCGGCTGGCTGCGCGCCAACCTGCCGAAGATCGAGAAGATCGCGGTGTCGAGCAATGCCGAGGGTGCGCGCCGGGCCAGCAAGGCCGAGGATGCGGCGTCGATCGGCGGCGAGAGTGCGGCGCACGTGTATGGCCTGAAGAAGGTCATCATGCAGCCGATCGAGGACGACAACGACAACACCACGCGCTTCCTGGTGATCGGTCGCAAGATCTTCCCGCCGTCCGGGCACGATCGCACTTCGATCCTGGTGTTCATCCACGACAAGGCCGGCGCGTTGTTCGACGTGCTCAGTCCGTTCGCGCGGCAGGGCATCAGCATGAACCGGATCGAGTCGCGGCCGTCGCACAACGCGAAGTGGGAGTACGGCTTCTTCATCGACCTGGCCGGGCACATCGAGGACGAGGCGATGAAGCTGGCGCTGGCCGAGTTGGAAGCGCACTCGGCGCAGATCAAGGTGCTGGGGTCGTATCCGGTGGCGGTGCCGTAA	MAAKPKKPAAKPAPTSKPAKAESAAPPLVLADVRAKIDEIDRTIQSLIAERAQFAHQVGKAKGKLAAAVDYYRPEREAQVLRMVVDRNEGPLSDEVLVHVFREIMSACLAQQEPLKIGYLGPEGTFSQQAVLKHFGRSAVGIPMATIEEVFQEVESGNADFGVVPVENSGQGTIQVTLDMFLTSGLKICGETELRIRQYLMSRSGRIEDIERIYAHPQSFAQTAGWLRANLPKIEKIAVSSNAEGARRASKAEDAASIGGESAAHVYGLKKVIMQPIEDDNDNTTRFLVIGRKIFPPSGHDRTSILVFIHDKAGALFDVLSPFARQGISMNRIESRPSHNAKWEYGFFIDLAGHIEDEAMKLALAELEAHSAQIKVLGSYPVAVP				NA	NA	NA	NA	NA
BMS020_07915	1086	serC_2	COG1932	Phosphoserine aminotransferase	ATGACCCGCGCGTTCAATTTCAGTGCCGGCCCTGCGACGTTGCCGGAATCGGTCCTGCGCCAGGCGCAGGCGGAGATGTTGGAATGGAACGGCGTGGGCGCCTCGATCGTCGAAATCAGCCACCGCAGCGCCGATTTCATGGCGGTTGCGGCCGCCGCCGAGGCCGACCTGCGTACCCTGCTGGCGATCCCCGATGACTACGCCGTGCTGTTCATGTCCGGCGGCGCGACCACCCAGCAGGCGCTGCTGCCGCTGAACTTCGCCGCGCCCGGGCAGAGCGTCGACTACGTCGTCAGCGGCCACTGGGGCAAGACCGCGATCAAGCAGGCCAAGCCGTACGTGAAGGTCAACGTCGCCGCCGACGGCGAGCCGGGCGGCTTCCACGACATCCCGGCGCGCGCCGGCTGGCAGCTGTCGGCGGACGCGGCCTACGTGCACATCACCGCCAACGAGACCATCCACGGGCTCGAATACCGCGACGTGCCGGATGTGGGCGAGGTGCCGCTGTTCGCCGATTTCAGCTCCTCGATCGCCTCCGAGCCGCTCGACGTGGCCAAGTACGGGCTGATCTACGCCGGCGCGCAGAAGAACCTCGGCCCGGTCGGCATCTCGGTGGTGATCGTGCGCCGCGCGCTGCTCGAACGCGCCGGCCAGCCGCGCGCCGACATCTTCACCTATGCCTCGCACGCCGCGCGCGACTCGATGCTCAACACCCCGCCGACCTGGAACTGGTACCTGCTCGGGCTGACCGTGAAGTGGATGCTGGACGAAGGCGGCGTGGCCGAATTCGCCCGTCGCAACGCCACCAAGGCCGGCCTGGTCTATGGCGCCATCGATGGTTCCGGCGGCTATTACCGCAACCAGATCGCGCCGGCGGTGCGTTCGCGGATGAACATCCCGTTCTTCCTGCCCAACGCCGAGCTGGATGCGCTGTTCGTCGCCGAATCCAAGGCCGCCGGGCTGCTGGCGCTGAAGGGCCACAAGGCGGTCGGCGGCATCCGCGCCTCGCTGTACAACGCGATGCCGGTCGCCGGCGCCGAGGCGCTGGTGGCGTTCATGCGCGATTTCCAGCAGCGCCACGGCTGA	MTRAFNFSAGPATLPESVLRQAQAEMLEWNGVGASIVEISHRSADFMAVAAAAEADLRTLLAIPDDYAVLFMSGGATTQQALLPLNFAAPGQSVDYVVSGHWGKTAIKQAKPYVKVNVAADGEPGGFHDIPARAGWQLSADAAYVHITANETIHGLEYRDVPDVGEVPLFADFSSSIASEPLDVAKYGLIYAGAQKNLGPVGISVVIVRRALLERAGQPRADIFTYASHAARDSMLNTPPTWNWYLLGLTVKWMLDEGGVAEFARRNATKAGLVYGAIDGSGGYYRNQIAPAVRSRMNIPFFLPNAELDALFVAESKAAGLLALKGHKAVGGIRASLYNAMPVAGAEALVAFMRDFQQRHG	PGPT0009160_3113	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
BMS020_07916	972	msrP_2	COG2041	Protein-methionine-sulfoxide reductase catalytic subunit MsrP	ATGTCGTTGCGCGAAGTCCTCAGCATCCCCGACCACAAGGTCACCGACGAAGCCGTCTACCGCCAGCGTCGACGCCTGCTGCAGGCGTTCTCGCTGGCGCCGGCGCTGGGCCTGGCCGGCTGTGCCGAGGCCGATCCGCCACCTCCGCCCAGCACACGCACGCTCACGCCGGAGCAGGCCCGCAGCGGCTTCAGCACCAATGAAACGCTGACCCGCATCGAGGATGTGACCAGCTACAACAACTTCTACGAGTTCGGCACCGGCAAGACCGACCCGTCGCAGGCGCCGCGCACGCTGCAGACCAAGCAATGGTCGATCCAGGTCGGCGGTTACTGCGACAAGCCCGGCATGATCGGGCTGGAGGACCTGCTGAAAGGCTTCACCGCGCAGGAGCGCATCTACCGCCTGCGCTGCGTGGAAGGCTGGTCGATGGTGATCCCGTGGCTGGGGGTGCCGCTGGCGGACGTGCTCAAGCGCTTCGGCCCGACCGCCAAGGCCAAGTACGTGGCCTTCACCACGCTGGAGGACCCGCAGCAGATGCCCGGGCAGCGCTACCGCTCGATCGACTGGCCGTACCGCGAGGGCCTGCGCATCGACGAGGCGATGCATCCGCTGGCGTTTCTGGCCACCGGGCTGTACGGCAAGCCGCTGCCGCAGCAGAACGGCGCGCCGCTGCGGCTGGTGGTGCCGTGGAAGTACGGCTTCAAGAGCATCAAGTCGATCGTCGAGATCCGCTTCGTCGAACGCATGCCGCCGACCGCCTGGAATACGCTGCAGCCGGAGGAGTACGGGTTCTTCTCCAACGTCAATCCGGCGGTGGACCACCCGCGTTGGAGCCAGAAGACCGAGCGCCGCATCGCCGGCACCGCGAGCAAGCTGTTCGCCGAGCGCATCCCGACCCGCCCGTTCAACGGCTACGCCGACCAGGTCGCCTCGCTGTATGCCGGCATGGATCTAAAGAAGTGGTTTTGA	MSLREVLSIPDHKVTDEAVYRQRRRLLQAFSLAPALGLAGCAEADPPPPPSTRTLTPEQARSGFSTNETLTRIEDVTSYNNFYEFGTGKTDPSQAPRTLQTKQWSIQVGGYCDKPGMIGLEDLLKGFTAQERIYRLRCVEGWSMVIPWLGVPLADVLKRFGPTAKAKYVAFTTLEDPQQMPGQRYRSIDWPYREGLRIDEAMHPLAFLATGLYGKPLPQQNGAPLRLVVPWKYGFKSIKSIVEIRFVERMPPTAWNTLQPEEYGFFSNVNPAVDHPRWSQKTERRIAGTASKLFAERIPTRPFNGYADQVASLYAGMDLKKWF	PGPT0013075_1047	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013075-msrP|yedY-K07147	NA	NA
BMS020_07917	630	msrQ_2	COG2717	Protein-methionine-sulfoxide reductase heme-binding subunit MsrQ	ATGGCTAAGACCTCCACCGGCCTGGTGGCCGCCAAGACCGTCGTCCACCTGCTCGCACTGGCGCCGCTCGCCTGGCTCGGCTGGCAGTTCTGGCAGGTGTGGCAGACCGGCAGCGACGCGCTCGGCGCCGATCCGGTGGCCGAAATCGAGCACCGCACCGGGCTGTGGGCGCTACGGCTGCTGCTGGTCACGCTGGCGCTGACGCCGCTGCGCCAGCTCAGCGGCCAGGCGCAGCTGATCCGCTTCCGACGCATGCTGGGGCTGTACGCCTTCTTCTACGCCACGGTGCATTTCGCGGCCTACCTCGGGCTGGACCTGCGCGGCTACTGGACGCAGATCTTCGAGGACATCCTCAAGCGCCCCTACATCACCGTCGGCTTCGCCGCGTGGCTGCTGCTGGTGCCACTGGCGATCACCTCCACCCAGGGCTGGATACGCCGGCTCAAGCGCCGCTGGGGGCAACTGCACAAGGCGATCTATGCGATCGGCGTGCTCGCCGTGCTGCACTTCTGGTGGCTGGTGAAGTCCGATATCCGCGAACCGGCGCTGTATGCGGCGATCCTCGCCGCCCTGCTCGGCTGGCGGGCGTGGAAACGGCTCAGCGCGCGCCGAACCACAGCAGCGCGCTGA	MAKTSTGLVAAKTVVHLLALAPLAWLGWQFWQVWQTGSDALGADPVAEIEHRTGLWALRLLLVTLALTPLRQLSGQAQLIRFRRMLGLYAFFYATVHFAAYLGLDLRGYWTQIFEDILKRPYITVGFAAWLLLVPLAITSTQGWIRRLKRRWGQLHKAIYAIGVLAVLHFWWLVKSDIREPALYAAILAALLGWRAWKRLSARRTTAAR	PGPT0013685_13	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013685-gbcB-K21832	NA	NA
BMS020_07918	903			hypothetical protein	GTGGCGGTGGATGCAAAGACGCCCATTGTGCGCGCCCGCGTCACCGCGACCAAGCGCGGGCGCTTCTGGAGCGGCGGGCAACCTGCTAGGCTGCGGCGGGTGCGCGACCTGCAGATTCATTTCACCCACCGGCAGCAGCCGGACCATCCGCTGAGCGCGGGCGTCCACCGCATCGTGCGCCATGCCAGCGGCACCGTCCGCCTGGTCGCCGATACGCAGGGCGCCTTGCTACTGGCCCAGTTCTGCCTCGATCGCCGCGGCCTGTGGCTGCAGGTCGCCAACGGCGTGCGCGGCATCCACGTCAACGGTCGCCCGGTGCGCCGGATGGCGGTGCTGCGCGCCGGCGACGCGGTCTATGCCGACGGCGTGGAAATGGTGGTGCGTGGGCCGCTGGCCGTGCAGGCACGCTTGCCGGCGCCCGCCGAGGCCGGCGAAGGCGATCCGGGCGTGGTGCTGCGCGGGGTCGGCGGCATCCACCACGGGCGCAGCTTCACCCTCGACCGCCCACGCGTGGTCGGCAGCGACCCGACCGCCGACATCGTCGTCGCCGATCCGGTCTTCGCCGCACGCCACGCCAGTTTCGAACAGCACGGCGAACGCGTGCTGCTGCGCGACCTGGGCTCGGACGAGGGCAGCCAGGTCAACGGCCGGCCGGTGCGCGACTGCTGGCTGCAGCCGGGCGACCAGGTGGCGTTCGACAGCCGCCACCGCTTCGTGCTGGAAGTGCCGCACCAGCCGGTCGACGCCACGCTGGCGGCGCCGCCGGACGAACCGGCCGCGCTGCAGGCCCAGGCCGCACCGGATGCCGGCGCGGCCAAGGTCGCGCGCTGGCCGTGGCTGCTGCTCAGCGCGGTGCTGCTGGCCGCGGTGATCAGCGCGCTGCTGTGGTTCGGCGCGCGCTGA	MAVDAKTPIVRARVTATKRGRFWSGGQPARLRRVRDLQIHFTHRQQPDHPLSAGVHRIVRHASGTVRLVADTQGALLLAQFCLDRRGLWLQVANGVRGIHVNGRPVRRMAVLRAGDAVYADGVEMVVRGPLAVQARLPAPAEAGEGDPGVVLRGVGGIHHGRSFTLDRPRVVGSDPTADIVVADPVFAARHASFEQHGERVLLRDLGSDEGSQVNGRPVRDCWLQPGDQVAFDSRHRFVLEVPHQPVDATLAAPPDEPAALQAQAAPDAGAAKVARWPWLLLSAVLLAAVISALLWFGAR				NA	NA	NA	NA	NA
BMS020_07919	279			hypothetical protein	ATGTCCAGCATCGATATCCGCTTCGACCACAGCAAGACCCCCGAACAGGCCCGCCAGGCCATCGAACAGGCCGCCGCCAAGCTCACCGAGCGCTTCGGCGCCAACACCCGCTGGAACGGCGAGCGCCTGGACTTCTCCGGCTCCGGCGTCGATGGCGCGATCGAGCTGCTGCCGCAGCAGGTGCACGTCACCGCGACGCTGGGCTTCCTGCTGTCGGCGATGAAGGGCATGGTCGAAGGCGAGATCCGCCGCGTGCTGGCCGAGAAGCTCGGCGACTGA	MSSIDIRFDHSKTPEQARQAIEQAAAKLTERFGANTRWNGERLDFSGSGVDGAIELLPQQVHVTATLGFLLSAMKGMVEGEIRRVLAEKLGD				NA	NA	NA	NA	NA
BMS020_07920	495			hypothetical protein	ATGCCCACCGCCCGCCCGCACGCCCGTAGCGGCGCCCACGCCGACGACCACGCCGGCGATGGCGCCGGCTTCACCCGCCGGCTCGGCGATTCGGCCCAGCAGGTCTGGCTGGCCGGACTGGGTGCACTGGGCCGCGCGCAGAGCGAGGGCACGCGCCTGTTCGAGAGCCTGGTCAAGGAAGGCGCCAGCTACGAAAGCCGTGGCCGGCGACGTGCCGAGGCCGGGGTGGAGGCGGTGCGCGAGGAAGTGGAGACGCGCTTCGACCAGGCCCGCGAGATCGCCAGCGGCGGCTGGGAACGGATCGAGCGCGCCCTCGACGAGCGCGTGAAGGGCGTGCTGCGCACGCTGCAGATCCCCGATCGCGACGAAGTCGAGGCGCTGCGGGCGCAGGTGGAGGCGCTGAAAGCGCAGGTCCGGACCCAGGCCGCAGCGAGCCGCCGACGCGCCCGGCCGCGCCCGGTTGCACCCGCCCCGAGCCCGGCCGACGGGGCCTGA	MPTARPHARSGAHADDHAGDGAGFTRRLGDSAQQVWLAGLGALGRAQSEGTRLFESLVKEGASYESRGRRRAEAGVEAVREEVETRFDQAREIASGGWERIERALDERVKGVLRTLQIPDRDEVEALRAQVEALKAQVRTQAAASRRRARPRPVAPAPSPADGA				NA	NA	NA	NA	NA
BMS020_07922	984			hypothetical protein	ATGTTTGCGTGGATTTTGGCGTTGGTACTGGCGGTCGTCCTATGGGTCGCCGCGGCCGCGTTCCTGTGGCTGATACGCCGTCGCGAGAATGAGACCCGGGAGGGCCTGAAGGCACTCGCCGGCCTGCATTGGCGCGAGTTCTCCGAAATCGTGCGGCGTGCGCTGCAGGACCAGCGCGGCTGGTCCGGCGACGAGCTGCCGAGCGACGACGCCACCCCGCAGGCCGACTTCCTGATGCGCGACGCCAGCGGCAGCTGGATGGTGTCGTGCAAGCACGGGCGCGCCTATCGCATCGGCACCGCCGCGGTGAACGAGCTCGCCTCGGCCGTGCGCCTGGCCGGTGCCCAGGGCGGCGTACTGATCACCGAAGGACGCGTGCAGCGCGAAGGCCTGGCTGCCGCCGAGAAGCAGGCGATCGAGATCCTCGACGGCCGCCGGATCTGGCCGGTGCTGCGGCCGTACCTCGCCGGCGACATCGAGAACCGCATCGTGCACGAGGCCCGCCGCCGCGCGCAGCGGCATATCGCGATCGCCGCGCTCGCCTCGCTGACCCTGGGGCTGATGGGCGGGCTGGGCTACCTCTCCATCCAGAGCGAGCACCCGCCGCAGCAGGCGGCCCAGGCGCATCCGCAACCGCCTCGACCGACACCCCCGCCGCCGGGACCGACCACGCCAGCGCCTGCCGCGACCGCCACCGTCGCGACCGCGACGCTGGATGCCGATGGCGAACCCGACGCGGCGACGCTGGACCGTTATCAGGCAGAGGTCTCACGCGCGCTGGCCACCGCCGACGGCATCACCCGCGGCATCTGGCTGACGCGGATGACCCTGGCGGTGGATCGCGAGGCCGACGACGCCACGGTATGGCCGCGGATCTGCCAGACGCTGGAACGCTACCCGGTGCTGCGCACCGTGCGGGTCCAGCTCAACCCCCGCCCCGGCGTCAACGAGCCGGTGCGCTGGCGGCAATGCAGCACGATCTGA	MFAWILALVLAVVLWVAAAAFLWLIRRRENETREGLKALAGLHWREFSEIVRRALQDQRGWSGDELPSDDATPQADFLMRDASGSWMVSCKHGRAYRIGTAAVNELASAVRLAGAQGGVLITEGRVQREGLAAAEKQAIEILDGRRIWPVLRPYLAGDIENRIVHEARRRAQRHIAIAALASLTLGLMGGLGYLSIQSEHPPQQAAQAHPQPPRPTPPPPGPTTPAPAATATVATATLDADGEPDAATLDRYQAEVSRALATADGITRGIWLTRMTLAVDREADDATVWPRICQTLERYPVLRTVRVQLNPRPGVNEPVRWRQCSTI				NA	NA	NA	NA	NA
BMS020_07923	312			hypothetical protein	ATGGCCATCAGCAGCGTCGGCAGCAGCAGCGCCGCCATTGCCAATCGCCCCGCCCACAAGGCGGACGGCGACAAGAACGCCAAGGACGTCAAGGACGCCAGCAAGGCCGACAAGACCGCCGAGGCGGATGAAGCCGAACAGGGCGACGGCACCGGCAGCATGACCGCGATGCATTCGGTGGTCGCCGGCGCGCTCGGGCTGGACGACCCCACGATCGAGAAGCCCAAGGAAGAAGAGAACAAGTTCTACACCGCTGGCAAGGTGATGGCAGCGATCGGCACCGTCGGCACGATCCTGTCCGTGCTGGCCTGA	MAISSVGSSSAAIANRPAHKADGDKNAKDVKDASKADKTAEADEAEQGDGTGSMTAMHSVVAGALGLDDPTIEKPKEEENKFYTAGKVMAAIGTVGTILSVLA				NA	NA	NA	NA	NA
BMS020_07924	738	nagR_3	COG2188	HTH-type transcriptional repressor NagR	ATGCCTACGAAGTCCGCCGCACCCCCTGCCACGCTGCATCAGCGCATCCGTGGCGACATCGAAGCCCGCATCCACAGCGGCGAATGGCCACCCGGGCACCGGGTCCCGTCCGAGCATGCGTTGATGGAGCGCTACGGCTGCTCGCGGATGACCGTCAACAAGGTGCTGGGGCTGCTCGCCGATGCCGGCATGATCGAGCGCCGGCGCCGCGCCGGCTCCTTCGTCGCCCGGCCGCACCCGCATATCGAGCAGGTCGCGCTGGCGATCCCCGACATCGAGGCCGAGGTCACCGGGCGTGGCCATGCCTACGCGCATCGCGTGCTGCTGCGGCGTATGCGGGCGCCATCGCGCCGCTGTCAGCCCGAGCTCGACCTGGGCTGCCGCGGCCAGGTGCTGGCGTTGCGCTGCCTGCACCTGGCCGATGGCCGGCCGCTGGCGCTGGAGGATCGGGTGATCGACGTGGAGACGGTGCCCGAAGCGTTGCAGCAGCCGTTCGCCGCGCTGGCGCCGGGCAGCTGGCTGTTGCGCAACGTGCCATGGACGCGCGCCCAGCACCGGATCTCGGCGATCAATGCCGATGCCGCGCAGAGCGGGTTGCTGGAGGTCGCCGCCGGCGCGGCCTGCCTGGTGATCGACCGCCATACCTGGCGCGGCGAGCAGCCGGTGACCTACGTGCGGCAGGTGTTCCTGGGCGATGCCTACGACCTGGTGGCGCGGTTCGCGCCGGGGATGCGCTGA	MPTKSAAPPATLHQRIRGDIEARIHSGEWPPGHRVPSEHALMERYGCSRMTVNKVLGLLADAGMIERRRRAGSFVARPHPHIEQVALAIPDIEAEVTGRGHAYAHRVLLRRMRAPSRRCQPELDLGCRGQVLALRCLHLADGRPLALEDRVIDVETVPEALQQPFAALAPGSWLLRNVPWTRAQHRISAINADAAQSGLLEVAAGAACLVIDRHTWRGEQPVTYVRQVFLGDAYDLVARFAPGMR	PGPT0020245_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020245-hutF-K05603	NA	NA
BMS020_07925	1383	dadD_2		5'-deoxyadenosine deaminase	GTGGCGGTGCAGCACGACAACGGCAGGCAGGCGCTGTGGGCGCCGCGGGCGCTGCTGGCGCAGGGCTGGGCCCAGGACGTCCGGCTGGAACTGGCCGGCGGGCGCATCGCCGCGGTCGCGACCGGGGTGCCGGCACAACCGGGCGACACCCGTCTGCAGGTGGCGCTGCCGGGGCTGGGCAACCTGCACAGCCACGCCTTCCAGCGCGGCATGGCCGGGCTGACCGAGGTGGGCGGCCAGGGCGGCGACAGTTTCTGGAGTTGGCGCGAGCTGATGTACCGCTTCCTGGAGCGGCTCGATCCGGACAGCCTGCAGGCGATCGCCGAGCAGGCCTATGTCGAGATGCTGGAGTCCGGCTTCACCCGGGTCGGCGAATTCCATTACCTGCACCATGCCGCCGATGGCCGCGCCCACGCCGACCCGGCCGAGATGTCGGCGCGGATCGCCGCCGCCGCGCAGGCCAGCGGCATCGGCCTGACCCTGCTGCCGGTGTTCTATGCCCATGCCGATTTCGGTGGTGCGCCGCCCAATCCCGCGCAGCGCCGGCTGATCCACGACGTCGACGGTTTCGCCGGGCTGCTGCAGCGCTGCGGGGCGGTATTGCAGGCGTTGCCCGACGCGGTGCTCGGCATCGCTCCGCACAGCCTGCGCGCGGTGACCCCGGACGAGTTGGCGGCGTTGCTGCCGCTGGCCGGTGGCCCGGTGCACATCCATATCGCCGAGCAGACCCGCGAGGTCGAGGCCTGCCAGGCCTGGTCCGGCCAGCGCCCGGTCGAATGGCTGCTGGCGCATGCACCGGTGGATGCGCGCTGGTGCCTGGTGCATGCCACGCATGTCGATGCGGGCGAGCTGGCCGGCATCACCGCCAGCGGCGCGGTGGTCGGGCTGTGCCCGATCACCGAGGCCAATCTCGGTGACGGCCTGTTCCCGATGCATGCGTTCGCGCAGGGTGGTGGCGTGTTCGGGGTCGGGTCCGATTCCAACGTGCTGATCGATGCGGCCGAGGAGCTGCGCCTGCTCGAATACGGCCAGCGCCTGCAACGGCGCGGGCGCAACGTGCTGGTGCCGGATCCGGCGCTGTCCAGCGGGCGTTGGCTGTACCAGCAGGCCGTGGCCGGCGCCGGTCGCGCGCTCGGCGTGGCCAGCGGGCTGCAGCCCGGGGCCAGTGCCGACGTGGTCGAGCTGGAGCTGGCGCATCCTTCGCTGGCCGCGCATGCCGGCGATGCGCTGCTCGACGGCTGGCTGTTCGCCGCCCGCGGCGGTGCGGTGCGCGCAGTCTGGCGCCACGGCGTGCAGGTGGTCAGCGAAGGCCGCCACCTGCGCCGCGAAGCCGTCGCCGCGCGCTACCGGCAGGTGCTGGCGCGGCTGCTGGCGGCGTCGTGA	MAVQHDNGRQALWAPRALLAQGWAQDVRLELAGGRIAAVATGVPAQPGDTRLQVALPGLGNLHSHAFQRGMAGLTEVGGQGGDSFWSWRELMYRFLERLDPDSLQAIAEQAYVEMLESGFTRVGEFHYLHHAADGRAHADPAEMSARIAAAAQASGIGLTLLPVFYAHADFGGAPPNPAQRRLIHDVDGFAGLLQRCGAVLQALPDAVLGIAPHSLRAVTPDELAALLPLAGGPVHIHIAEQTREVEACQAWSGQRPVEWLLAHAPVDARWCLVHATHVDAGELAGITASGAVVGLCPITEANLGDGLFPMHAFAQGGGVFGVGSDSNVLIDAAEELRLLEYGQRLQRRGRNVLVPDPALSSGRWLYQQAVAGAGRALGVASGLQPGASADVVELELAHPSLAAHAGDALLDGWLFAARGGAVRAVWRHGVQVVSEGRHLRREAVAARYRQVLARLLAAS	PGPT0020245_112	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020245-hutF-K05603	NA	NA
BMS020_07926	1206	hutI_2	COG1228	Imidazolonepropionase	ATGCACTGCGACGTCCTCTGGCACCACGCGCACCTGATCACCCTGGACGACCCGACCGGCGGCCTCGGCGTGGTCGACGATGGCGTGCTGGCCTGCCGCGACGGGCAGATCGTGTACTGCGGCCCGGCCGCGACCGCGCCGGCGTTCACGGCCACGACCCGCATCGACTGCGGCGGCCGCTGGATCAGCCCCGGCCTGATCGACTGCCACACCCACCTGGTCTATGCCGGCAACCGTGCCAACGAGTTCGAGCAGCGCCTGCGCGGCGCCAGCTATGCGCAGATCGCCCAGGCCGGCGGTGGCATCGTCTCGACCGTGCGCGCCACCCGCGCCGCCGATGACGACGCGCTGCTGGCCGCCACCCTGCCACGGCTGGATGCACTGATCGCCGAGGGCGTCACCACCGTCGAGGTCAAATCCGGCTACGGGTTGAGCCTGGCCGAGGAGCGCAAGCAGCTGCGCGTGGCCGCACGGCTCGCCGCGCTGCGCCGCGTCGAAGTGGTACCGACCTTCCTCGGCGCGCACGCGGTGCCGCCGGAGCGCGAGTCGCAGGCCTACATCGACGAGGTCTGCGCGCTGATGATCCCGGCGATCGCCGCCGAGGGCCTGGCCGAGGCGGTCGACGTGTTCTGCGAGCACATCGCGTTCTCGCCGGCGCAGGCCGAGCAGGTGTTCGTTGCCGCCAAGGCGCATGGGCTGCAGGTCAAGATCCACGCCGAGCAGCTCAGCAACCAGCATGGCGCGGCGCTGGCCGCGCGCCATGGCGCGTTGTCGGCCGACCACATCGAGCATGTCGACGATGCAGGCATCGCCGCGATGGCCGCCGCCGGCACCGTCGCGGTGCTGCTGCCGGGCGCGTTCTACTTCACCCGCGACACCCTGGTGCCGCCGATCGACAAGCTGCGCGCGGCCGGCGTGCCGCTGGCGCTGGCCACCGACTGCAATCCGGGCACCTCGCCGCTGACCAGCCCGCTGCTGGCGATGAACATGGCCGCAACGCTGTTCCGCATGACCGTCGACGAATGCATCGCCGGCTTCACCCGCGAGGCGGCGCGCGCGCTCGGCCGGCAGCAGCGGCTGGGCCGGCTGCATGCAGGCTTCGATTGCGACCTGGCGATCTGGAACATCGAGTCCCCGGCCGACCTGGTCTACCGGATGGGCTTCAACCCGTTGCACGCCCGCGTCTGGCGCGGGCTGACCACCTGA	MHCDVLWHHAHLITLDDPTGGLGVVDDGVLACRDGQIVYCGPAATAPAFTATTRIDCGGRWISPGLIDCHTHLVYAGNRANEFEQRLRGASYAQIAQAGGGIVSTVRATRAADDDALLAATLPRLDALIAEGVTTVEVKSGYGLSLAEERKQLRVAARLAALRRVEVVPTFLGAHAVPPERESQAYIDEVCALMIPAIAAEGLAEAVDVFCEHIAFSPAQAEQVFVAAKAHGLQVKIHAEQLSNQHGAALAARHGALSADHIEHVDDAGIAAMAAAGTVAVLLPGAFYFTRDTLVPPIDKLRAAGVPLALATDCNPGTSPLTSPLLAMNMAATLFRMTVDECIAGFTREAARALGRQQRLGRLHAGFDCDLAIWNIESPADLVYRMGFNPLHARVWRGLTT	PGPT0020235_2149	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020235-hutI-K01468	NA	NA
BMS020_07927	1536	hutH_3		Histidine ammonia-lyase	ATGAACGACCCGGTCCTGCTGCGCCCCGGCGCGGTCAGTCTCGCGCAGTGGCGCGCCATCTACCGTGGCGCCGCGGTGCGTCTGGATCCCGAGTGCGCCGCAGCGGTGCTGCGCAGCGCGCAGACGGTCGAGGCGATCGTCGCGCGCGGCGCGCCGGTCTACGGCATCAACACCGGCTTCGGCAAGCTGGCGAGCGTGCGCATCGAACGCGATGACCTGGAGACGCTCCAGCGCAACATCGTGCTGTCGCATGCCGCCGGCGTCGGCGAGCCGATGCCGCTGCCGGTCGCACGGCTGATGCTGGCACTGAAGCTGGTCAGCCTGGCGCAGGGCGCCTCCGGCGTGCAGCCGGCGACACTGGCGCTGCTCGAAGCGATGCTGATCGAGGACGTGATTCCGGTGGTGCCCAGCCAGGGCTCGGTCGGCGCCTCCGGCGACCTCGCGCCGCTGTCGCACATGGCCACGGTGATGATCGGCGTCGGCGAGGCGTTCCATCACGGCCAGCGCATGCCCGCCGCCGCGGCGCTGGAGCGCGCCGGGCTCGCACCGCTGGTGCTCGGCGCCAAGGAAGGCCTGGCGCTGCTCAACGGCACCCAGTTCTCCACCGCCAACGCGCTGGCCGGGCTGTTCGAGATCGAAACCGTGTTCCAGGCCGCCTTGGTTGCCGGTGCACTGTCGACCGAAGCGGCGAAGGGTTCGGACACGCCGTTCGATCCGCGCATCCATGCGCTGCGCGGCCAGCCTGGCCAGATCGCGGTCGCCGACGCGCTGCGCGCGCTGATGGCCGACAGCGCGATCCGCGAATCGCATCGCGAGAACGATGTGCGCGTGCAGGATCCGTACTGCCTGCGCTGCCAGCCACAGGTGATGGGCGCGGCATTGGATGTGATGCGTCAGGCCGCGCGCACGCTGGAGATCGAGGCCAATGGCGTGTCCGACAACCCGCTGGTATTCAGCGATACCGGCGAGGCGCTGAGCGGCGGCAACTTCCACGCCGAGCCGGTGGCGTTCGCCGCCGACATGCTGGCGATGGCGGTGTGCGAGATCGGCTCGATCAGCGAACGCCGCATCGCGATGCTGGTCGACCCGGCGCTGTCGGGGCTGCCGGCGTTCCTGACGCCCAAGCCCGGCCTGAATTCCGGCTTCATGATTCCGCAGGTCACCGCCGCGGCGCTGGTGTCGGAGAACAAGCAGCGCGCGTATCCGGCCAGCGTCGATTCGATCCCGACCTCGGCCAACCAGGAAGACCACGTGTCGATGGCCGCGCACGGCGCGCGCCGGCTGCTGGCGATGGCCGAGAACGCCGCCAACGTGGTCGGCATCGAACTGCTGGCCGCCGGCCAGGGTTGCGACTTCCACGCCCCGCTCGCCTCCAGCAGCGCGCTCGAAGCCGCGCGTGCCCTGCTGCGTGCGCAGATGCCGACGCTGCAGGACGACCGCTACTTCCATCCGGACATGCTGGCCGCGACCACGCTGGTGCGCAGCGGCGCGCTGGCCGACAGCGCTGGCGCGGCGCTGCCGGGTGTCGAGGGCTGA	MNDPVLLRPGAVSLAQWRAIYRGAAVRLDPECAAAVLRSAQTVEAIVARGAPVYGINTGFGKLASVRIERDDLETLQRNIVLSHAAGVGEPMPLPVARLMLALKLVSLAQGASGVQPATLALLEAMLIEDVIPVVPSQGSVGASGDLAPLSHMATVMIGVGEAFHHGQRMPAAAALERAGLAPLVLGAKEGLALLNGTQFSTANALAGLFEIETVFQAALVAGALSTEAAKGSDTPFDPRIHALRGQPGQIAVADALRALMADSAIRESHRENDVRVQDPYCLRCQPQVMGAALDVMRQAARTLEIEANGVSDNPLVFSDTGEALSGGNFHAEPVAFAADMLAMAVCEIGSISERRIAMLVDPALSGLPAFLTPKPGLNSGFMIPQVTAAALVSENKQRAYPASVDSIPTSANQEDHVSMAAHGARRLLAMAENAANVVGIELLAAGQGCDFHAPLASSSALEAARALLRAQMPTLQDDRYFHPDMLAATTLVRSGALADSAGAALPGVEG	PGPT0020230_1704	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745	NA	NA
BMS020_07928	840			hypothetical protein	ATGCCCCACTCCGACTGGCTTGAACTGCACCGCGGCGATGCGCCGCTGATCGTCAGCTTCCCGCATACCGGCACCGAACTGCCGGCCAGCGAGGCCGATGGCTTTGCTTCGCCGTGGCTGGCGCGGCGCGATGCCGACTGGTGGGTGCATCACCTGTACGACTTCGCCCGCGCGCTCGGCGCGACCACGCTGCGCACCGCGATCTCGCGCTCGGTGATCGACGTCAACCGCGATCCGTCCGGCGCCTCGCTGTATCCCGGCCAGAACACCACCGGGCTGTGCCCGCTGACCACCTTCGACGACCAGCCGTTGTACCGCCCCGGCGCCGAACCGGACGCGGCCACCATCGCGCGCCGCCGCGACAGCTGGTTCATCCCGTACCACGCCGCGCTGGCCGCGGAGATCGCCCGGCTGCGGGCGCTGCATCCGGCCATCGTGGTCTACGACGCGCACTCGATCCGCTCGCAGATCCCGCACCTGTTCGACGGCGAGCTGCCGCAGTTCAACCTCGGCAGCAACGACGAGCGCAGCTGCGCGGTCGCGCTGACCGACGCGGTCGAGCGGCTGTGCCGCACCAGCGGCATGAGCACGGTGCGCAACGGCCGGTTCAAGGGCGGCTGGATCACCCGTCACCACGCCGCTCCGGGCAACGGCGTGCACAGCCTGCAGATGGAGCTGGCCTGCCGCGGCTACATCGACGAGCCGACCGTGCCGACTCCGGACAACTGGCCCACGCCGTGGCAGCCCGAGCGCGCCGCGCCGCTGCGCGCGGTGCTGCAGCAGGTGCTTGGCGCCTGCCTCGACTTCGCCCGCCACGCGCCTGCCCGAACGCAGGCCTGA	MPHSDWLELHRGDAPLIVSFPHTGTELPASEADGFASPWLARRDADWWVHHLYDFARALGATTLRTAISRSVIDVNRDPSGASLYPGQNTTGLCPLTTFDDQPLYRPGAEPDAATIARRRDSWFIPYHAALAAEIARLRALHPAIVVYDAHSIRSQIPHLFDGELPQFNLGSNDERSCAVALTDAVERLCRTSGMSTVRNGRFKGGWITRHHAAPGNGVHSLQMELACRGYIDEPTVPTPDNWPTPWQPERAAPLRAVLQQVLGACLDFARHAPARTQA				NA	NA	NA	NA	NA
BMS020_07929	1668	hutU_2	COG2987	Urocanate hydratase	ATGACCCGCCGCGACCCAACCCGCGTCATCAACGCCCCGACCGGCAGCACGCTCAACACCCGAAGCTGGCTGACCGAAGCGCCGTTCCGGATGCTGCAGAACAACCTGCACCCGGACGTGGCCGAGCGCCCGGAAGAACTGGTGGTCTACGGTGGCATCGGCCGCGCCGCGCGCGACTGGGAATCCTTCGACACCATCCTCGATACGCTCAAGCGGCTGGACGACGACCAGACCCTGCTGGTGCAGTCGGGCAAGCCGGTCGGCGTGTTCCGCACCCATGCCGATGCACCGCGCGTGCTGATCGCCAACTCCAACCTGGTGCCGCGCTGGGCCACCTGGGACCACTTCAACGAGCTGGATAAAAAGGGGCTGGCGATGTACGGCCAGATGACCGCCGGCAGCTGGATCTACATCGGCGCGCAGGGCATCGTCCAGGGCACCTACGAAACCTTCGTCGAGATGGGCCGCCAGCACTACGACGGCGACCTGTCCGGCCGCTGGCTGTTTACCGGCGGCCTCGGCGGCATGGGCGGCGCGCAGCCGCTGGCCGCGGTGATGGCCGGCGCCTCGTGCCTGGCGGTCGAATGCCGCAAGACCAGCATCGACATGCGCCTGCGCACCGGCTACCTGGACACCTGGACCGACAATCTCGACGAGGCGCTGCGGCTGATCGACGAGTCCTGCACCGCGAAAAAGCCGCTGTCGGTCGGCCTGCTCGGCAATGTCGCCGACGTGCTGGCCGAACTGCTGGCGCGCGGCATCAAGCCCGACCTGCTGACCGACCAGACCTCCGCGCACGATCCCGTCAACGGCTACCTGCCGCAAGGCTGGAGCGTCGAGCAATGGGACGCCAAGCGCGTCTCGGCACCGAAGGAGGTCGAAAAGGCCGCGCGTGCGTCGATGGCCAACCACATCCGCGCGATGCTCGGCTTCCACGCGCTGGGCGTGCCTACCGTGGATTACGGCAACAACCTGCGGCAGATGGCACTCGAAGAAGGCGTCACCAACGCCTTCGATTTCCCCGGCTTCGTGCCCGCCTACATCCGCCCGCTGTTCTGCCGTGGCATCGGCCCGTTCCGCTGGGCGGCGCTGAGCGGTGATCCGCAGGACATCGCCAAGACCGACGCCAAGGTCAAGGAACTGATCCCGGACAACCCGCACCTGCACCGCTGGCTGGACATGGCCAGCGAAAAGATCAAGTTCCAGGGCCTGCCGGCGCGGATCTGCTGGGTCGGCCTCGGCGATCGCGATCGGCTCGGCCTGGCGTTCAACGAGATGGTGCGCAACGGCGAGCTGAAGGCGCCTGTCGTCATCGGCCGCGATCACCTCGACAGCGGCAGCGTCGCCTCGCCGAACCGCGAAACCGAAGCGATGGCCGATGGTTCGGACGCGGTCTCCGACTGGCCGCTGCTCAACGCGCTGCTCAACACCGCATCGGGTGCGACCTGGGTGTCGCTGCACCACGGCGGCGGCGTCGGCATGGGCTTCTCGCAGCACGCCGGCATGGTGATCGTCTGCGACGGCACTGAAGCCGCCGACAAGCGCATCGCCCGCGTGCTGTGGAACGACCCGGCCACCGGCGTGATGCGCCACGCCGATGCCGGCTACGACATCGCGATCCAGTGTGCGAAGGACAAGGGCCTGGATCTGCCCGGCATCCTCGGCTGA	MTRRDPTRVINAPTGSTLNTRSWLTEAPFRMLQNNLHPDVAERPEELVVYGGIGRAARDWESFDTILDTLKRLDDDQTLLVQSGKPVGVFRTHADAPRVLIANSNLVPRWATWDHFNELDKKGLAMYGQMTAGSWIYIGAQGIVQGTYETFVEMGRQHYDGDLSGRWLFTGGLGGMGGAQPLAAVMAGASCLAVECRKTSIDMRLRTGYLDTWTDNLDEALRLIDESCTAKKPLSVGLLGNVADVLAELLARGIKPDLLTDQTSAHDPVNGYLPQGWSVEQWDAKRVSAPKEVEKAARASMANHIRAMLGFHALGVPTVDYGNNLRQMALEEGVTNAFDFPGFVPAYIRPLFCRGIGPFRWAALSGDPQDIAKTDAKVKELIPDNPHLHRWLDMASEKIKFQGLPARICWVGLGDRDRLGLAFNEMVRNGELKAPVVIGRDHLDSGSVASPNRETEAMADGSDAVSDWPLLNALLNTASGATWVSLHHGGGVGMGFSQHAGMVIVCDGTEAADKRIARVLWNDPATGVMRHADAGYDIAIQCAKDKGLDLPGILG	PGPT0020250_2056	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020250-hutU-K01712	NA	NA
BMS020_07930	585			hypothetical protein	ATGACGCTGGACGAACTGCGCCTGGATTTCATTACCCGCCGCGCCGGGTGCCTGTCGCTGCCGATCACCGGCGGCATCGTCTGGTCGCTGGCGGCGATCGCCGGGCTGCTGGTGCCGCCGGCCTACGCCAACCTCGCGTTGATCGCCTGCTACTTCCTGATGGTGCCGGTGTCGATCGTGATCGGCCGGTTGCGTGGCGAGCAGCTGCGTGGCGGCGCGGAGAACCCGTTGCTGCGGTTGGCGGCGCTGGCGCGGCTGATGGTGATGCTGCTATGGGCCATCCACCTGCCGCTGCTAGTGCTCGCGCCGGCGTTGTTCCCACTGAGCATGGGCATCGGCTTCGGCATCCACTGGATCGTGTTCTCGTGGACCATCGGCCATCCACTCGGGGTGCTGCACGCCTGCCTGCGCAGGCTGATGGCGCTCGCCGCGTGGTGCGCCTTCCCGCAGCAGCCGGTGAGCGCGGTGTCCGCCGCGGTCGCGATCGCCTATGGCATCTCGGTCTGGCAGTTGGCAGCGCTGCGCCGTGGTGGCTGGCCGGGCAATGCGCATGCAGTAGAAACGCACTGTGCGAATGACGCATAG	MTLDELRLDFITRRAGCLSLPITGGIVWSLAAIAGLLVPPAYANLALIACYFLMVPVSIVIGRLRGEQLRGGAENPLLRLAALARLMVMLLWAIHLPLLVLAPALFPLSMGIGFGIHWIVFSWTIGHPLGVLHACLRRLMALAAWCAFPQQPVSAVSAAVAIAYGISVWQLAALRRGGWPGNAHAVETHCANDA				NA	NA	NA	NA	NA
BMS020_07931	1116	menH_9		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGTCCCGCCCCCGTTCTCCGCTGCCCACGCCCGTCCGCCCGCGCTGGCGCCGGATGTGGCGGGTGCTTGTGCTGCTTGCGGTCATCGCGGTGCTGGCGATCGCCGTGGCCGCCTGGCGCATCGTCAGCTACCGCGATCCTTGGCATGCGCGGGTCGAGGCCGCCGGCTACCTGCACAAGAGCGCGCAGGTCAACGGCATCACCCTGCGCTACGTCGAAGGCCCCGACAACGGCCCGCCGCTGGTGCTGCTGCATGCACAGCTGCTGGACTGGTTCGGCTACAGCCGGGTGCTGCCCGACCTGTCGCGCTCGTTCCACGTGTTCGACATCGACTACCCCGGGCACGGCGCCACCCGCACGCCGGCTGACTACCCGATGGATGCCAACCGCATCGGCGCCGACCTCGGCGACTTCATCGCCCGCGAGATCGGCGAACCGGTATACGTCAGCGGCAACTCGTCCGGCGGGCTGCTGGCCACGTGGCTGGCCGCCAACCGACCGCAACTGGTCAAGGCCGCGGTGCTGGAGGATCCGCCGATGTTCTCCTCCGAGTTCCCGCGCATCAAGCGCACCATCGCCGACCGCGCCTTCGTCACCAGCGCCAGCGCCGCCTCCCGCGATCATCCCGACGACTTCCTGCTGTACTGGATCCACCGCAATGCCGGCTTCTTCCGCCACAACGTCGGCCCCGGCACGCCGTTCCTGCTGACCCAGGCGGTGCGCCTGCGGCGCCTGGCGCATCCGCACGAACCGGTGGAGATCGGCCTGCTCGGCAACGACACCGTGCGCCTGCTACTGCGCGGTCTGGACCGCTACGACCCGCGCTTCGGCGCCGCGTTCCACGACGGCCGCTGGAACGCCGGCTTCGGCCACGCCGACGCGCTGCGCCGGATCGATTGCCCGGTACTGCTGCTGCAGGCCAATACCAGCACCCTGGCCGATGGCACGCTGGATGGCGCGATGAGCGCCGAAGACGCCGCGCACGCGATGGCGCTGCTCAAGCATGGCCATTACGTCAAGGTCGATGCCGGGCACGTGGTAAACCTGGAAGCGCCGCAGCAGTTCACCCGGCTGCTGCGGCAGTTCTTCCTCGGCGACGGCGACGTGATGCGCTGA	MSRPRSPLPTPVRPRWRRMWRVLVLLAVIAVLAIAVAAWRIVSYRDPWHARVEAAGYLHKSAQVNGITLRYVEGPDNGPPLVLLHAQLLDWFGYSRVLPDLSRSFHVFDIDYPGHGATRTPADYPMDANRIGADLGDFIAREIGEPVYVSGNSSGGLLATWLAANRPQLVKAAVLEDPPMFSSEFPRIKRTIADRAFVTSASAASRDHPDDFLLYWIHRNAGFFRHNVGPGTPFLLTQAVRLRRLAHPHEPVEIGLLGNDTVRLLLRGLDRYDPRFGAAFHDGRWNAGFGHADALRRIDCPVLLLQANTSTLADGTLDGAMSAEDAAHAMALLKHGHYVKVDAGHVVNLEAPQQFTRLLRQFFLGDGDVMR				NA	NA	NA	NA	NA
BMS020_07932	1008			hypothetical protein	ATGGTGGCTGCGAACGGGCAGGCGAAAGGATCACGCATCGCAACGAATACGTCGCGCCGCATCGGGCCACGCTGCCTGCAGGGGCTGCTGCTGGCCGTGTGCGGCATGCCGCTGCTGGCCGCGGCCAGCGAGGGCGGTCTGGGTCGGCCGATCACCGGCCTGCAGATCACGCCGTATGCGGGGCTGATTCCACCGACGCCGGGCATGCAGTGGACGGTCGGCTACGTGCATTACGACGGTTCGATCGGCGCCAGCCGGCAGGTGCCCGTGGCCGGGCAGGTCTCGCTCGGCCTGGACGTGCAGCTGGAGCTGTTCACCGCCACCGGCGTCTACATCTGGCCGACCGGCGAAGGGCGCTGGAACTACGCCAGCATGCTGACCGTTCCTTACATCGATGTCGGCATCGACGCGACGCTGGCCGGCGATCCAGGCCAGCTGCGGCGGCGCCAGCATGCCGGCAACCTGTTTGACCTGTACTTCGCGCCGGTGATCGCCAGCTACCACATCGATCAGACCCACCACCTGTCGATGGGCCTGTACGTGTATGCACCGACCGCCGAGTACGACGCGTCGCGGCTGGCCAACCCCGGCCTCAACGTGTGGACCGTGTCGCCGACGCTGGGCTACACCCAGCTGATGAGCAACGGCACGCTGGAATTCAGCCTGCAGGGCGCGCTGGACTGGTACAGCCGCAACGACGATACCGACTACAAGAACGGCGTGGTCTGGCGCAGCGAGGCGCTGCTGGTGAAACGCTACGCCGGCGGTTGGGGCGTCGGTGCGGCCGCCGGCTGGATCCAGCAGCTCGAGCGCGACGATGGCGCCTTGGCCGATCGGCTCGACGGCTTCAAGGGGCGTGCGTTCGGCGTGGGCCCGGTGTTGACCTACAGCAAGGCCTGGGAAGGTGGGCAGCATGTGGACGTGGCGTTCCGCTACCTCGGCGAGTTCTCGGTCAAGAACCGCTTCGATGGCGACCCCCTGAGCTTGAGCATCGGCTTCGCGTTCTGA	MVAANGQAKGSRIATNTSRRIGPRCLQGLLLAVCGMPLLAAASEGGLGRPITGLQITPYAGLIPPTPGMQWTVGYVHYDGSIGASRQVPVAGQVSLGLDVQLELFTATGVYIWPTGEGRWNYASMLTVPYIDVGIDATLAGDPGQLRRRQHAGNLFDLYFAPVIASYHIDQTHHLSMGLYVYAPTAEYDASRLANPGLNVWTVSPTLGYTQLMSNGTLEFSLQGALDWYSRNDDTDYKNGVVWRSEALLVKRYAGGWGVGAAAGWIQQLERDDGALADRLDGFKGRAFGVGPVLTYSKAWEGGQHVDVAFRYLGEFSVKNRFDGDPLSLSIGFAF				NA	NA	NA	NA	NA
BMS020_07933	867			hypothetical protein	ATGGCTGTCACGCTACCGCCGGCGCACCGCGTCCTGGACCTGTTGCCGGATGCGGTGTGCATGGTCGATCCGCAGGGGCACTTCCTCTACGTCAACGCCGCGTTCGAGCGCATCTTCGGCTACACGCCCGCCCAGGCGCTGGGCATGCAGATGCTCGACCTGGTGCATCCGGACGATCGCGAGGCGACGCTGCAGGTGGTGGCCGCGATCATGCAGGGGCAGGCGCAACCGCACTTCCGCAACCGCTACCTGCACCGCGATGGGCACGTGGTGGACGTGCAGTGGTCGGCGCGCTGGTTGCCTGACTATGGCCTGCGCCTGGCGGTCGGCCACGAAGTCACCGCGCTGCGCGGGATGGAGCGGACCCTGGAGCACATGGCCAGCCACGATCCGTTGACCGGCCTGGCCAACCGCGCCCGGCTGTGGGCGGCGCTGGCCGATGCGGTGGCGCAGTCGGAGCGCTCCGGCAGCGGGGTGGCGGTGCTGTACCTGGACCTGGATGGCTTCAAGTGCATCAACGACCTCCACGGCCACGCCGTCGGCGACCAGGTGCTGCGCGATCTGGCCGGGCAGCTGCGCCAGGCCGTGCGCCAGCATGACCTGGTCGCGCGGGTCGGCGGCGACGAATTCGTGGTGGTGCTGCCGGGCTGCGGCGCCGGTGCGGCGCTGGAGGCGATTGTGCGCAGCGTGCGTGGCGCGGTGACCTGCATGGATCTGCCGCATCCACTCGACGTCAGCATCGGCGTGGCCTGCCATCCGGGCGATGGCGACAGCGCCGACACACTACTGCGCCACGCCGATACGGCGATGTACGCGCAGAAGAGCAGCCGGCGCGCGCAGCCACCGGGGCGCCCGATCCCCGCGTGA	MAVTLPPAHRVLDLLPDAVCMVDPQGHFLYVNAAFERIFGYTPAQALGMQMLDLVHPDDREATLQVVAAIMQGQAQPHFRNRYLHRDGHVVDVQWSARWLPDYGLRLAVGHEVTALRGMERTLEHMASHDPLTGLANRARLWAALADAVAQSERSGSGVAVLYLDLDGFKCINDLHGHAVGDQVLRDLAGQLRQAVRQHDLVARVGGDEFVVVLPGCGAGAALEAIVRSVRGAVTCMDLPHPLDVSIGVACHPGDGDSADTLLRHADTAMYAQKSSRRAQPPGRPIPA	PGPT0014690_276	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-OXYGEN_AVAILABILITY_SIGNALLING,PGPT0014690-ydaM-K21088	NA	NA
BMS020_07934	1956			hypothetical protein	ATGTCGAAGCGAACGATCCAGTTGCGTTACGCGTTGCTGCTGTCGGCCGCAGCCGCGCTTGCCATCGGCTGCAGCCGCGCACCGGAAACCGGTGAAGCGGCGGTCGCACCGGCCGCCCCCCCGGCACCGGCGCCCGCCAGCACGCCGGACGTTCCCGTCTACCCCGACAAGCAGGCCTACTTCGGCGAGCTGCACCTGCATACCGCCTACTCGCTGGACGCCTACATCTTCGGCAACACGATGAACGATCCGTTCACCGCATACCGCTTCGCCAAGGGCGAGGAAGTCACCCTGCCCTCCGGGCAGAAGAAGAAGATCATCAAGCCGCTCGACTTCGCCGCGATCACCGACCACGCCGAGGCGCTGGGCGAATACGAGCTGTGCACCAAGCAAGGCAGTTCCGGCTACGACAGCCCCACCTGCACCGGCATCCGCGCCGGCGACCAGGAACCGTTCGGGCGGATCTTCGCCGGCATCTCCAAGACCCCGGCCAAGCGCGAGGCCGACATCTGCGGCGAAGACGGCACCGCCTGCCTGGATGCCGTCGATGGCCCGTGGAAGCGCATCCAGCAGGCCGCCGCGGAGAACTACCAGCCCGGCAAGTTCACCAGCTTCGTCGCGTGGGAATTCTCGGCCAATGCGCCCGAGGGCAAGGGCGGCATGATGCATCGCAACGTGATCTTCCGCAGCGCCACGGTGCCCAAGCCGTTCTCGGCGTTCGAAGGCACCGGCGAGGACCTGCAGGCCTACCTGGAGAAGAACTGCACCGGCGACTGCCAGGTGCTGACCATCCCGCATAACCCGAACTTCTACTGGGGCCGGTTGTACTGGGGCAAGGCCAGCGACGGCCAGGAATGGACCCAGGAGGGCCTGGAGCGCCGCGCGCGGATGGACCGGCTGGTGGAGATCATGCAGATCAAGGGCAATTCCGAATGCCAGACCGGCATCGCCACCACCGACGAGGAATGCAATTTCGAGACGGTGTTCCAGCCGTGCAAGCCGGGCGAGAAAGGCGGCTGCGACGACGACAACGGCTTCGTCCGCAACGGCCTGAAGAAGGGACTGGTCGTCGAAGCCGAACGCGGCGTCAATCCGTTCAAGCACGGCTTCGTCGGCGGCACCGACAACCACAACGGTACGCCGAGCGACACCACCGAGAGCGACTTCAAGGGCCACTACGCCAACAACGACAGCTCGCCGGAAGTGCGGCTCGGCCTGAAGCCCAATCCCACCGCCGAGCAGATGGGACTGAGCGGCGACGAGGACCCGACCAAGCTCTACAACCCCGGCGCGATCGCCGGCGTCTGGGCGCAGAGCAACACCCGCGAGGCGATCTGGGATGCGCTGCATCGCAAGGAGACCTTCGCCACCAGCGGCACCCGCACCAAGATCCGCTTGATGGCCGGCTTCGACTTCGCCGAGGACCTGGGCACGCATCCGGACTGGGTGCAGGTCGGCTACAAGACCGGCGTGCCGCAGGGCGGCGATCTCGGCAACGCGCCCGAAGGCAAGGCGCCGGTGCTGGTTGCCTGGGCGCAGCGCGACCCGGACAGCGCACCGCTGGCGCGGCTGCAGATCATCAAGGGCTGGGCCGACAAGGCCGGCAAGACCCACGAGATGACCTACGACGTGGCCTGCTCCGACGGCGGCGTGCCGGACGCGAAGACCTATCGCTGCCCCGACAACGGCGCCACGGTGAACCTGCAGGACTGCTCGATCAGCACCGACAAGGGCGCGCCGGAACTGGTCGCGACCTGGAAGGACCCGGAGTTCAAGGCCGACGAGCGCGCGTTCTACTACGCCCGCGTGCTGGAAAACCCGGTGTGCCGCTGGAGCATGTACGACGCACTGGCGCTGAAGGTCGATTCGCCGAAGGAACTGGCCAAGACGGTCAAGGAACGCGCCTGGTCCTCGCCGATCTGGTACACCCCGGCCGGACAGACGGTTACGCCCTGA	MSKRTIQLRYALLLSAAAALAIGCSRAPETGEAAVAPAAPPAPAPASTPDVPVYPDKQAYFGELHLHTAYSLDAYIFGNTMNDPFTAYRFAKGEEVTLPSGQKKKIIKPLDFAAITDHAEALGEYELCTKQGSSGYDSPTCTGIRAGDQEPFGRIFAGISKTPAKREADICGEDGTACLDAVDGPWKRIQQAAAENYQPGKFTSFVAWEFSANAPEGKGGMMHRNVIFRSATVPKPFSAFEGTGEDLQAYLEKNCTGDCQVLTIPHNPNFYWGRLYWGKASDGQEWTQEGLERRARMDRLVEIMQIKGNSECQTGIATTDEECNFETVFQPCKPGEKGGCDDDNGFVRNGLKKGLVVEAERGVNPFKHGFVGGTDNHNGTPSDTTESDFKGHYANNDSSPEVRLGLKPNPTAEQMGLSGDEDPTKLYNPGAIAGVWAQSNTREAIWDALHRKETFATSGTRTKIRLMAGFDFAEDLGTHPDWVQVGYKTGVPQGGDLGNAPEGKAPVLVAWAQRDPDSAPLARLQIIKGWADKAGKTHEMTYDVACSDGGVPDAKTYRCPDNGATVNLQDCSISTDKGAPELVATWKDPEFKADERAFYYARVLENPVCRWSMYDALALKVDSPKELAKTVKERAWSSPIWYTPAGQTVTP				NA	NA	NA	NA	NA
BMS020_07935	999			hypothetical protein	ATGAGCGCCGCGCGCGCGGCCGCGGCCTGGTGCGTGCTGCTGCTTGCGCTGCTGGCCGGGGTGGCGCGCGCGGATGTCTTCAAGCCGGCCTATCTCGAATTGCGCGAAGCCGGCGCGGACCGATACGAGGTGACCTGGCGGGTGCCGGTGCTGGACGCCTCTTCGCCGATCACGCTGGAGGTGGTGTTCCCGCCCGGCACGCAGCGCGTGCGCGAGCCGCACCCGGTGTTCGTCAACGGCGCGTGGCTGGAGCGCTGGCAGGTGCAGCGCCGCGGCGGGCTGGTCGGGCAGACGATCGGGATCGCCGGGCGCTCCACCACGGTCAGCGACATCATCGTCCGGGTCGAGCGGCGCGACGGCAGCAGCCAGGTCGAACGCTTGCGCATCGACGCGCCGCGCTTCACCGTCGCCGCGCCAGCCGGCACCGGCGAGATCGCCTGGGCCTACCTGGTGCTGGGCGTGGAGCACATCCTGTCCGGCATCGACCACCTGCTGTTCGTGCTCGCGCTGCTGCTGGTGGTCCGTGGCGGGCGGCGCATCTTTCTGACGATCACCGCGTTCACGCTCGCGCACAGCATCACCCTGGTGGCCGCGACGCTCGGCTGGGTGCATGTGCCGGGGCCGCCGGTGGAGGCGATCATCGCGTTGAGCATCGTGTTCGTCGCGGCCGAGGCGGTGCACGGCATGCGCGGAACGCCAGGCATCACCGCGCGTGCGCCGTGGCTGGTGGCCTTCAGCTTCGGCCTGCTGCACGGGCTGGGGTTCGCCGGCGCGCTGGCCGAGGTCGGGCTGCCGCAGACCGCGATCCCGGTGGCGCTGCTGATGTTCAACGTCGGCGTGGAGCTGGGCCAGTTGCTGTTCGTCAGCGCGGTGCTGGCGCTGATCGCGCTGGCCCGCCGCATGCGGATCGGATGGGGGCCACGCGTCGCCCAGGTGCTGCCGTATGCGATCGGCAGCATGGCGATGTTCTGGGTCTGCGAGCGCATCGCCGCGTTCTGA	MSAARAAAAWCVLLLALLAGVARADVFKPAYLELREAGADRYEVTWRVPVLDASSPITLEVVFPPGTQRVREPHPVFVNGAWLERWQVQRRGGLVGQTIGIAGRSTTVSDIIVRVERRDGSSQVERLRIDAPRFTVAAPAGTGEIAWAYLVLGVEHILSGIDHLLFVLALLLVVRGGRRIFLTITAFTLAHSITLVAATLGWVHVPGPPVEAIIALSIVFVAAEAVHGMRGTPGITARAPWLVAFSFGLLHGLGFAGALAEVGLPQTAIPVALLMFNVGVELGQLLFVSAVLALIALARRMRIGWGPRVAQVLPYAIGSMAMFWVCERIAAF				NA	NA	NA	NA	NA
BMS020_07936	612			hypothetical protein	GTGGTTCCGGTCGCGCCGGCCGAGGCGATCGTCGCCGCGCCGGCCGCGCGTGCCTCGGTCGACGACGTGCCGCCGTGGGCGACCGATGATCGTCCGGTCGCGGCGCCGCGTGCGCCGGTCGAAGCCGCGCCGGTGGTGGTGGCTCCCGAGCCGGCCCCGGAACCGGAACCCGACATCGCCGCCGCGTCGGCGGTGGCCCCCGCGTTCGCCGGCGGGGAGCGCATCGCCGATGCCGACCACTGGCTGGAACTGGTCGCGCGCAGCGGCTTGAACGGCCCGTCGCGCCAGCTCGCCGCCAATGCCGGCTTTGTCAGCCACCAGAGCGGGGTGCTGCGTCTGTCGCTGTCGGCGGGGTTCGAATACCTGCAGTCCGACCGCGCGATCGGTGATCTGGCCGAGGCGCTGGCCGCCTCGCTCGGCCAGGCGCCGAAGATCGTGATCGAGGCGGGCGCCGCGGTCGCCGAGACTCTGCACGAGCGTGCGCACCGCCAGCAGGGCGAGCGCCAGAGCGCCGCCGAAGAGACCTTCATGAACGACCCCAGCGTCCGCCAGCTGATCGAGCAGCAGGGAGCGCGGGTCGTCCCCGATTCCATCCGCCCTTACGACGAGTAA	MVPVAPAEAIVAAPAARASVDDVPPWATDDRPVAAPRAPVEAAPVVVAPEPAPEPEPDIAAASAVAPAFAGGERIADADHWLELVARSGLNGPSRQLAANAGFVSHQSGVLRLSLSAGFEYLQSDRAIGDLAEALAASLGQAPKIVIEAGAAVAETLHERAHRQQGERQSAAEETFMNDPSVRQLIEQQGARVVPDSIRPYDE				NA	NA	NA	NA	NA
BMS020_07937	321	ybaB_2	COG0718	Nucleoid-associated protein YbaB	ATGCGTGGCAATATCGCCCAGATGATGCAGCAGGCGCAGAAGATGCAGGAGAACCTGCAGCGCGCCCAGGAAGAACTGGCCAAGCTGGAAGTGACCGGTAGCGCCGGCGGCGGCATGGTCAGCGTGACCCTGACCGGCGCCAAGGAGTGCCGCAAGGTGCGCATCGACCCGAGCATCCTGTCCGACCAGGAGATGGTCGAGGACCTGATCGCCGCGGCGTTCAACGATGCCGCCAACAAGGTCGACGCCGAATCCAAGAGCCGCATGGGTGCGGTGACCGCCGGCATGCCGCTGCCGCCGGGCTTCAAGATGCCGTTCTGA	MRGNIAQMMQQAQKMQENLQRAQEELAKLEVTGSAGGGMVSVTLTGAKECRKVRIDPSILSDQEMVEDLIAAAFNDAANKVDAESKSRMGAVTAGMPLPPGFKMPF				NA	NA	NA	NA	NA
BMS020_07938	597	recR_2	COG0353	Recombination protein RecR	ATGTCCTCGCCATTGCTCGAACAACTGATCGATGCGTTCCGCGTGCTGCCCGGCGTGGGGCGCAAGAGCGCGCAGCGCATGGCCTACCACGTGCTCGAACGCGAGCGCGAGGGTGGCCAACGGCTGGCCGAGGTGCTGGCGCAGGCGGTCGAGCGCATCGGCCACTGTGCGCAGTGCCGCGATTTCAGCGAGACCGAGGTGTGCGCGACCTGCGCCAGCAGCAGCCGCGAGCGCCAGCAGCTGTGCGTGGTCGAATCGCCGGCCGACCGCCTGGCGATCGAACACGCGACCGGCTATCGCGGCCTGTACTTCATCCTGCAGGGCAGGTTGTCGCCGCTGGACGGGATCGGCCCGCGCGAGCTCGGGCTGGACCGGCTGGAGGCACGCCTGGCCGGTGGCGAGGTGCAGGAGCTGATCATCGCCACCAATGCCACTGTCGAAGGCGAGGCCACCGCGCACTACCTGGCGCAGCTAGCCCGCGCGCAGCAGGTGCGGCCGAGCCGGCTGACCCAGGGCATGCCGCTCGGCGGCGAGCTGGAATACGTCGACCGCGGCACCTTGTCGTATGCATTCGGCAGCCGCAGCGAGATGCCGTAG	MSSPLLEQLIDAFRVLPGVGRKSAQRMAYHVLEREREGGQRLAEVLAQAVERIGHCAQCRDFSETEVCATCASSSRERQQLCVVESPADRLAIEHATGYRGLYFILQGRLSPLDGIGPRELGLDRLEARLAGGEVQELIIATNATVEGEATAHYLAQLARAQQVRPSRLTQGMPLGGELEYVDRGTLSYAFGSRSEMP				NA	NA	NA	NA	NA
BMS020_07939	351		COG0537	Purine nucleoside phosphoramidase	ATGACCGACACGATCTTCGCCAAGATCATCCGCCGCGAAATCCCCGCCACGATCGCCTACGAGGACGACGAGGTGCTGGGCTTCAACGACATCGCGCCGCAGGCGCCGGTGCACGTGCTGTTCATTCCCAAGCACGCCGCGATCCCGACGCTGGACGACGTGCAGCCCGAGCAGGCGCCGCTGATCGGCAAGCTGGCGCTGGCCGCCGCCGCGTACGCGCGCCGCGAGGGACTGGCACAGGACGGCTACCGCATCGTGATGAACTGCCGCGAGCACGCCGGGCAGACCGTGTTCCATATCCACCTGCACCTGCTTGCCGGCGCGCCGCTGGGGCGTTTCGGCACGCCCTGA	MTDTIFAKIIRREIPATIAYEDDEVLGFNDIAPQAPVHVLFIPKHAAIPTLDDVQPEQAPLIGKLALAAAAYARREGLAQDGYRIVMNCREHAGQTVFHIHLHLLAGAPLGRFGTP				NA	NA	NA	NA	NA
BMS020_07940	525	slp_2	COG3065	Outer membrane protein Slp	ATGAACATCCGTTTCATCCTTCCCTTGGCCGCCGTCCTGTCATTGGCCGCGTGCGCGACCGCGCCCAAGCCGCTGCAGGGTCAGTTCAGTGCGGTGTCGCCGCGCGACGCCGTGGCCGGCCAGACGGTCGGCACGCCGGTCCGCTGGGGCGGGCGCATCATCGAGACCAACCCGGGCCAGGGCCAGACCTGCTTCCAGTTGCTGTCGCGCCCGCTCAACGCCAGCGGCCGTCCGGACAGCAGCTCCTCCGACGCCAGCGACGGCCGCTTCGTCGCCTGCCGCGCCGGCTTCTACGACCCGGCGGTGTTCGAGGCCGGCCGCGACGTGACCTTCATCGGCCACATCGCCGGCTACGAGAACGCCAAGATCGGCGAGTACGAGTACCGCCTGCCGAAGATCGACGCCGACGTGGTCTACCTGTGGCCGGTGGTGCGCCAGGTCGACGTGGTGCCGGCCTATCCGTACGGCCCGTGGGGTCCCTGGGATCCGTGGGGCCCGCGCTGGGGCCGCTGGGGCTGGTGGTAA	MNIRFILPLAAVLSLAACATAPKPLQGQFSAVSPRDAVAGQTVGTPVRWGGRIIETNPGQGQTCFQLLSRPLNASGRPDSSSSDASDGRFVACRAGFYDPAVFEAGRDVTFIGHIAGYENAKIGEYEYRLPKIDADVVYLWPVVRQVDVVPAYPYGPWGPWDPWGPRWGRWGWW	PGPT0015050_553	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0015050-slp|yeaY-K07285	NA	NA
BMS020_07941	1959	tgpA	COG1305	Protein-glutamine gamma-glutamyltransferase	ATGACTGAGTCCATCGCCCCCCTGCGCCGCTCCGGCCGGGCCTGGGTGCTGGCCACCGCCTGGCTGTGCCTGGCGCCGCTGCTGCTGCAGTTGCCTGCGGCGCTCGGCCTGGCCATCGGATTGATCGCCCTGCTCACTGGCGCGGTCGCCTGGCGCTACCGCGTGCCGACCGCGCTGAAGCTGCTGCTGGTCGCGGCGATGCTGCTATTGGTCGCCTGGCAGGCCGGCATGCGCTTCGGCCGCGACACCGGCTGCGCGCTGCTGGCGGCGATGCTGGCGATCAAGGCCACCGAGCTGCGCTCGATCCGCGACGCCCGCAGCCTGCTCGGCTTCGCCCTGTTCGGCCCGTTCGCCGCCTTCCTGCTCGACCAGGGCCCGGCGACCATGGCGCTGGCGCTGCTGGCGGCACTGGCCGCGCTGCTGTGCATGCAGCAGCTGGCCGACGAGGAAGCCAGCACCGGCACGCCACTGCGCGAACGCCTGCGCGGCGTGGCCCGGCTCGCCGTGATCGGCCTGCCGCTGGCGCTGGCTGCATTCTGGCTGTTCCCGCGGCTGGGCTCGCCGCTGTGGGGCATTCCCGAACGCGCGATGGGCCGCCCCGGATTGTCCGACCGGATGAGTCCGGGCGAGTGGATCGACCTGATGGCCGACGACACCCCGGCGCTGCGCGTGCAGTTCTTCGGCGCGGTGCCGAACGCGCAGCAGCGCTACTGGCGCGGACCGGTGCTGTGGCAGTTCGATGGCCGCAGCTGGACTGGCCTGGATCGCCCCCCGGGCGCACCGTTACCACCGGTGCAGCGCGGTGCGGCGCGCTGGGACTACCAGATCGACTACGAACCCACCGATCGCCGCCAGCTGGTCGCGCTCGACCTGCCGCTGCAGGCGCCCGCCGGCGCACAGCTCGACGGCGACTTCTCGTTGAGCAGCGAGCAGCGGCTGACCGGCATCACCCGCTGGCGCCTGCAGTCGGGGCCGGCGCAGCAGTTCCAGGCCGAGCTGCCGCCCGCACTGCGGCAGCGCGCGCTGCAGTTGCCGCCCGGGCTCAATCCGCGCACCCGTGCACTGGCGCAGCAGTGGCGCGCGCAGGCCGGCGCGGACGATGCAGCCATCGTCCGTCGCGCGCTGCAGTGGATCCACGCCGAACTCGGCTACACCCTGGACACACCGCTGCCCGGCCGCGACGGCGTCGACGAATTCCTGTTCCAGTACAAGGCCGGCTTCTGCGAGCACTTCAGTTCCGCCTTCGCGGTGCTGATGCGCGACGCCGGCATTCCGGCGCGCGTGGTCACCGGCTACGCCGGCGGCGTGCGCAACCGGGTCGGCGGCTACTGGGTCGTGCGCAGGATGGACGCGCACGCCTGGACCGAGGTCTGGCTGCGCGGACGCGGCTGGGTCCGCGTCGACCCCACTGCCGCGGTGGCGCCCGAGCGCATCTACGACACGCTGGAAGACCGCCTCGGCGAGGACCAGGGCGGCGGCGCGGCCGGCGGCGACGACTGGCGCATGGCCGACGTCGGCGACTGGCTGCGCAGCCGCTGGAACCAGCTGGTGCTCGGCTTCAATGCCGAACGCCAGCAGCAGCTGCTGCGCCCGTTCGGGATCGGCAGGCTCGAACCGGGCCAACTGGTGGCGATGTTCGCGCTGGTCGCACTGGCGGCGATGGGCTGGATGGCCTGGCTGCTGGCACGCGGCGAGCGCGAGCGCGACCCGCTGCTGCGCGCCTGGCACCGTCTCAATCGTCGCTACGCCCGACACGGGTTGGCACGCGAAGTACACGAACCTGCGCTCCAATGGGCCAGGCGCGTGCACGCCGCGCGCCCGGACCCCGCGCTGCTTTCGCTCAGCCAACGTTTCGCCGAAACACGCTACGCTGCCGCCGACCCGCACAGCGCACACCCGTCAACGCACCTGGTCAACGATCTGCTACGTCATCGCCCGAACACCGGAGCACGCCCATGA	MTESIAPLRRSGRAWVLATAWLCLAPLLLQLPAALGLAIGLIALLTGAVAWRYRVPTALKLLLVAAMLLLVAWQAGMRFGRDTGCALLAAMLAIKATELRSIRDARSLLGFALFGPFAAFLLDQGPATMALALLAALAALLCMQQLADEEASTGTPLRERLRGVARLAVIGLPLALAAFWLFPRLGSPLWGIPERAMGRPGLSDRMSPGEWIDLMADDTPALRVQFFGAVPNAQQRYWRGPVLWQFDGRSWTGLDRPPGAPLPPVQRGAARWDYQIDYEPTDRRQLVALDLPLQAPAGAQLDGDFSLSSEQRLTGITRWRLQSGPAQQFQAELPPALRQRALQLPPGLNPRTRALAQQWRAQAGADDAAIVRRALQWIHAELGYTLDTPLPGRDGVDEFLFQYKAGFCEHFSSAFAVLMRDAGIPARVVTGYAGGVRNRVGGYWVVRRMDAHAWTEVWLRGRGWVRVDPTAAVAPERIYDTLEDRLGEDQGGGAAGGDDWRMADVGDWLRSRWNQLVLGFNAERQQQLLRPFGIGRLEPGQLVAMFALVALAAMGWMAWLLARGERERDPLLRAWHRLNRRYARHGLAREVHEPALQWARRVHAARPDPALLSLSQRFAETRYAAADPHSAHPSTHLVNDLLRHRPNTGARP				NA	NA	NA	NA	NA
BMS020_07942	957			hypothetical protein	GTGCTGACGGCGTGGCGGTCCTGGGCGGAGCGTGCCGCGCGGCTGGCGCGTCCACGCGCGCCCGAAGCGTTGCCGCAGCGCTTGGACCGCCGCCGGATCTACGTGCTGCCGACGCCGTTCGGGGCGTTCGTCGCGCTGCTGCTGGGCACGATGCTGCTCGGCGCATTGAACTACAACAACAACCCGGCGCTGCTGCTGGCACTGCTGCTGGCCGCCACCGGCATCGCCAGCGCGGTGATGGCGCACCTGCAACTGTCGGGCATCCGCATCGACGCGGCCGCCGCCGAGCCGGTCGCGGCCGGATCGTCACTGCTGCTGCGGGTATCGCTGTCGGTCCGCGACCAGCGCCGCCGGCGCGGACTGCGCCTGGACCTGGAAGGCCGGCGCCTCCACTGCACCCTGGCCCCGGCCGCGGAGACGGTGGTGGAGCTGGCACTGGACAGTACACGCCGCGGCTGGCGCGATATCGGCCGCCTGCGCCTGTCCACCACCCAGCCGCTCGGTCTGGTCCGCGCCTGGTCGTGGGTCTGGCCGGAACAGCCGCTGCTGGTCTACCCGCGCCCGGAAGCCGACGCACCGCCCCTGCCGGCGGGATCGGGCAGCACCCAGCGCAGCCGCCCGGACAGCCAGGGCGAGGAGATGCACCAGCTACGCCCGTATCGCAGCGGCGACGCGGCGCGCACGATCAGCTGGAAGCACTCGGCCCGGCGCGACGCACTGCTGGTGCGCGAGTTCGAGACCCCGCTCGGCAGCGAGGTCGTGCTCGACTGGCGCAGCCTGCACGCCCTGCCCTACGAGCGGCGCATCGCGCGGCTGGCACGCTGGATCGACGACGCCGAGCGCCAGGGCCGGCGCTATCGGCTGGCGCTGCCGGGCCAGCCGGTGATCGGCCCGGGCCAGGGCGGCCAGCACCGCCACCGCTGCCTGCGCGACCTGGCGCTGCTGCCGCATGACTGA	MLTAWRSWAERAARLARPRAPEALPQRLDRRRIYVLPTPFGAFVALLLGTMLLGALNYNNNPALLLALLLAATGIASAVMAHLQLSGIRIDAAAAEPVAAGSSLLLRVSLSVRDQRRRRGLRLDLEGRRLHCTLAPAAETVVELALDSTRRGWRDIGRLRLSTTQPLGLVRAWSWVWPEQPLLVYPRPEADAPPLPAGSGSTQRSRPDSQGEEMHQLRPYRSGDAARTISWKHSARRDALLVREFETPLGSEVVLDWRSLHALPYERRIARLARWIDDAERQGRRYRLALPGQPVIGPGQGGQHRHRCLRDLALLPHD				NA	NA	NA	NA	NA
BMS020_07943	954			hypothetical protein	ATGTCGATGATGCCCCGACCGAAGGAAATGCTAACCGATGCACTGCAGGATGCACTGCGCCGGGCCCAGGAGCAGGTCAATTCACTGCTGCTGGGCAAGCAGCACGAGGTCCGGTTGGCGTTTGTCGCGCTGCTGTCCGGCGGACATCTGCTGATCGAGGACCTGCCCGGACTGGGCAAGACCACGCTGGCGCACGCGCTGGCCTCGAGCCTGGGGTTGAAGTTCCAGCGCGTGCAGTTCACCTCCGACCTGCTGCCGGCCGACGTGCTCGGCGTGTCGGTGTACGAGGCGCAGGCGCGGCGCTTCGAGTTCCACCCCGGCCCGGTGTTCACCCACGTACTGCTGGCCGACGAGATCAACCGCGCCCCGCCGCGCACCCAGAGTGCGCTGCTGGAGGCGATGGCCGAACAGCAGGTCACCCTCGACGGCGCCACCCATGCGCTGCCGGAGCCGTTCTTCGTGATCGCCACGCAGAACCCGGTCGACCTGTCGGGCACCTTCCCGCTGCCCGATTCGCAGCTGGACCGCTTCCTGCTGCGGTTGTCGCTGGGCTATCCGAACGCCGAATCCGAGCGTGCGCTGCTCAGCGGCAGCGACCGCCGCGCGCTGATCGCCCGTGCCGAACCGTGCCTGTCCGATGCCGACGTGCTGCAACTGCGCGGCAGCGTCGAACAGGTGCATGCCAGCGAGGCGCTGATCGCCTACCTGCAGGCACTGCTCGCGCGCAGCCGGCAATACCCGGGCGTACGTGTCGGCCTGTCACCGCGCGCCGGGCTGGCGCTGCTGCGTGCGGCCAAGGCCTATGCGTTGCTGCTCGGCCGCGCGCACGTGCTGCCGGAGGACATCCAGGCGCTGTTCGAAGCGGTCGCCGCGCACCGGCTGGTCGCCGAGGCCGAGACCGCCTCGGCGGCCGCGCTGGCCAAGAAGATCCTGCACAGCGTGCCGGTGGACTGA	MSMMPRPKEMLTDALQDALRRAQEQVNSLLLGKQHEVRLAFVALLSGGHLLIEDLPGLGKTTLAHALASSLGLKFQRVQFTSDLLPADVLGVSVYEAQARRFEFHPGPVFTHVLLADEINRAPPRTQSALLEAMAEQQVTLDGATHALPEPFFVIATQNPVDLSGTFPLPDSQLDRFLLRLSLGYPNAESERALLSGSDRRALIARAEPCLSDADVLQLRGSVEQVHASEALIAYLQALLARSRQYPGVRVGLSPRAGLALLRAAKAYALLLGRAHVLPEDIQALFEAVAAHRLVAEAETASAAALAKKILHSVPVD				NA	NA	NA	NA	NA
BMS020_07944	1842			hypothetical protein	ATGCAGGGAGAACAGCGCGCGCATCGCATCTTCGTGATCCTGTGGACACTGGTGACTGCCGTCAAGCTGGTGCTGGCGGCGCGCCTGCCGTTGTTCGTGGACGAAGCGTTCTACTGGCAGGAGGGCCAGCACTTCGCCGCGGCGTACTCGGATCTGCCCGGCATGACCGCCTGGCTGGCGCGGCTGGGTGTGGAGCTTGGCGGCCAGCACGTGCTGGCGCTGCGGTTGCCGTTCCTGGTGATCGCCTCGCTGCTGCCGTGGCTGGTGGCGCGGGTGGCGATGCGCTGGTTCGGCGCCAGCCTGGGCTGGCAGGCGGGCTGCCTGACGTTGCTGATGCCGCTGTCGGCGACGCTGGGCATCCTGGCGGTGCCGGACGTGCCGATGGCCTTGGCGGCGGTGCTGTGCCTGGATGCCGGCGCGCGGTTGCTGCGCGAGGTCGACGCGACCAGTGCGCTGGAGCTGGCGATCGGCCTGCTGATCGGCGCGCTCAGCCACTACCGTTTCGTCGGCGTGATCGGGGTCGGTTTCATCGCGCTGGTGTTCATCCCGCAGGGGCGTGCGGTGCTGCGCGATCCGCGCGTGTGGATCGCGCTGATGGTCGGGGTGATGGCGTGGCTGCCGCTGCTGATCTGGAACACCGACCATCACGACGCCGGCCTGCGCTTCCAGATGGTCGACCGTCACCCGTGGAGCTTCCAGCCGACCGGGGCCTGGTTCCTGCTGATCCAGGCCGCGCTGGTCACGCCGCTGCTGGCGTTCGCGATGGCGCAGGTGGTGATGGCCGGTACCCGCAGCGGTGGCGGAACCCGCGCCCAGTGGCGCTATTTCGGCCTGATCGGCGGGGTCTCGACGCTGGCGATCTTCGTGCTCGGCTTCTTCACCGACGTGGAGCGGATCAGTTTCCACTGGCCGCTGCCGGGCTACCTGGCGCTGCTGGTCGGCGCGCCGCTGATCCTGGCGCGCTGGCCGCGCCCGGCGCGCCGCGCGACCTGGCTGCTGGCCGCGCTCGGCATGCTCGGCGCCTACGGCTACTACCTGGCGGTATCGGTGCCGGCGCTGCGCGAGCGCAGCGCGGGGCAGAAGTTCTACCCGCGCAACTTCGCCGGCTGGGAGCGGCTCGGCGGCGCGGTGCGCGCGCAGCTGGCGACGATGCCGCCCGGCAGCCGCGTGCTGGCCGGCAATTTCAAGGTCGGCGCCGAACTGGGCTTCCAGCTCGGCGATGCGACGATCGACGTGTTGCCGTCGGCGCTCAACGACAAGCATGGGCGCTCGGCGCAGCTGGCGCAGTGGGGGCTGCTCAGCGACGGTTCGCGCGCCGGCGAGCGGTTGCTGGTGCTGTCGCCCAGCGACCAGCGCTACCGCGAGCTGCTGCAGCGCTATCACGATGTCTGTGCGCTGGTCGGACCGCTGCCGCCGCCGACGGTGGTCTCCACCGATCACGGGTTCCAGCGCTTCCTGTTGTTCCGCCTGCCGGCGCAGCGCCAGCCCGGTGCCTGCGTGACGCCGGCGATGGCCTGGGTCGACCGGCCGCTGCCGTCGGACCGGGTCAATGCACCGTTCGTGGTGTCTGGCTGGGCGTTCAAGGATGGCGCCGGCCTGGCCCGGGTCGAGGTGCTGGTGGATGGCCGCGTGGCCGCCGAGGCAACCTATGGCGAGGTGCTCGACGTGCGTCCGTACTGGAAGATCTCCACCGATCCGAACCATCCGCATATCGGCTTCCGCGCCCGCATCGATCCGGTCGGGCTCGCCCCCGGTACCCACTGGCTCGGCCTGCGCCTGCACGGCAGTGATGGCAGCGTCGAGGACTGGTGGGAGCAGCCATTCGATGTCGCGCGCCCATAA	MQGEQRAHRIFVILWTLVTAVKLVLAARLPLFVDEAFYWQEGQHFAAAYSDLPGMTAWLARLGVELGGQHVLALRLPFLVIASLLPWLVARVAMRWFGASLGWQAGCLTLLMPLSATLGILAVPDVPMALAAVLCLDAGARLLREVDATSALELAIGLLIGALSHYRFVGVIGVGFIALVFIPQGRAVLRDPRVWIALMVGVMAWLPLLIWNTDHHDAGLRFQMVDRHPWSFQPTGAWFLLIQAALVTPLLAFAMAQVVMAGTRSGGGTRAQWRYFGLIGGVSTLAIFVLGFFTDVERISFHWPLPGYLALLVGAPLILARWPRPARRATWLLAALGMLGAYGYYLAVSVPALRERSAGQKFYPRNFAGWERLGGAVRAQLATMPPGSRVLAGNFKVGAELGFQLGDATIDVLPSALNDKHGRSAQLAQWGLLSDGSRAGERLLVLSPSDQRYRELLQRYHDVCALVGPLPPPTVVSTDHGFQRFLLFRLPAQRQPGACVTPAMAWVDRPLPSDRVNAPFVVSGWAFKDGAGLARVEVLVDGRVAAEATYGEVLDVRPYWKISTDPNHPHIGFRARIDPVGLAPGTHWLGLRLHGSDGSVEDWWEQPFDVARP				NA	NA	NA	NA	NA
BMS020_07945	975			hypothetical protein	ATGAATTCTCCCCAGACGGCCGGCGGCACAGGGCCGCGGATCGCGGTGATCGTGCCCTGCCATGACGAGGCGGCGACGGTCGCGCTGGTGGTCGCCGACTTCCTCGCCGCGTTGCCCGGTGCGTGCGTGCACGTGTTCGACAACAACTCCACAGACGCCACGGTCGCCGAAGCGAGCGCGGCCGGGGCGCAGGTGCATCGCGTCGGGCTGCAGGGCAAGGGCAACGTGGTGCGACGCGCCTTCGCCGACGTCGAGGCCGACATCTACGTGCTGGTCGACGGCGATGCCACCTACGAGGCCGCGGCGGCGCCGCAGCTGGTGCGGCGGCTGGTCGAGGACGGGCTGGACATGGTGGTCGGCGCGCGCCGCGACCAGGTGCAGGCCGCCTATCGTGCCGGCCACCGCACCGGCAACCTGTTGCTGACGCGCTGCGCGGGGTTGCTGTTCGGGCGCAGCTTCGAGGACATGTTGTCCGGCTACCGGGTGTTCTCGCGCCGCTACGTGAAGTCGTTCGGCGCGCACGCGCGCGGCTTCGAGACCGAGACCGAACTGGCGGTGCATGCGCTGCAGCTGCGCATGCCGGTGGCCGAGGTGGTCACTGCGTATGGCGCGCGCCCGGAAGGCTCGCAGAGCAAGCTCAATACCTGGCGCGACGGCTGGCGGATCCTGAGCACGATCCTCAAGCTGTTCAAGGCAGAGCGCCCGCTGATGTTCTTCTCGATCGGCTTTGCCGGCTGCTCGCTGCTGTCGGTGCTGCTGGCGTTGCCGCTGTTGTGGACCTATGCCGAGACCGGGCTGGTGCCGCGCTTCCCAACCGCGATCCTGTGCGTGGCGTTGATGCTGCTGGGGTTTCTGCTGCTGGCCTGCGGGCTGATCCTGGACACGGTGACGCGCGGCCGGATCGAAGCCAAGCACCTGGCCTATCTGGCCGAGTCGAAGCTGCCGGCCGATGCGCTGGATGGAGCCGGGCGATGA	MNSPQTAGGTGPRIAVIVPCHDEAATVALVVADFLAALPGACVHVFDNNSTDATVAEASAAGAQVHRVGLQGKGNVVRRAFADVEADIYVLVDGDATYEAAAAPQLVRRLVEDGLDMVVGARRDQVQAAYRAGHRTGNLLLTRCAGLLFGRSFEDMLSGYRVFSRRYVKSFGAHARGFETETELAVHALQLRMPVAEVVTAYGARPEGSQSKLNTWRDGWRILSTILKLFKAERPLMFFSIGFAGCSLLSVLLALPLLWTYAETGLVPRFPTAILCVALMLLGFLLLACGLILDTVTRGRIEAKHLAYLAESKLPADALDGAGR				NA	NA	NA	NA	NA
BMS020_07946	1869			hypothetical protein	ATGACCGGCATCGCGCTGCCGCGCATGCCGGCATCGCTGCGACGCCTGGCCGGCTGGCTCGATCGGCGCTTCGCCTTCGACACACGCGGCAACGTGCTGCGCGCGGTCCTGGCCGTCGCCGCGCTCGGTGCGGTGGTGGCGCTGCTGCAGGGTCAGGATGCCAACTGGGACCTGCGCAATTACCACCTGCACAACGGCTATGCGTGGTTGCACGGCCGCCTGGCGCTGGACCTGGCGCCGGCACAGATGCAGAGCTACTTCAGTCCGCTGCTGGATGTGCTGCATTACGCGCTGATGGTGCATTGGCCGGCGCCGCTGGCCGGGGCGCTGATGGGCGTGCTGCATGCGCTGCTGTTCGTGCCGCTGGCGGTGATCGCCTGGCAGGTGCTGCGCGCGCACCCGCAGCGGGCCCGTCTGGTACCGCTGCTGGCGCTGGCCGGACTGTGCACCGGTGCGTTCCTGTCCGAATTCGCCGGCAGCATGGCCGACACCACCACGGCGCTGCCGGTGCTGGCGGCGCTGGCGCTGCTGCTGGATGCACAGCACCGGCAGCAGGGCGGCGGGTTTTCCGCTGGGCGCTGGTTGCTGGCTGGCGTGCTGCTCGGGCTGGCGGTGGCGCTGAAGCTCACCAATGCGGTGTACGCGCTGGGCTTGGCTGCGGCGGCGTTGGCGGGGGGCGGGGGCTGGATGCGCCGCATCGGTGGCCTGGCGTTGCTGGCGCTGGCGGCACTGGCGGTATGCGCGGTACTGGCCGGGCCGTGGTACTGGCAGGTCTGGCAGGTGTTCGGCAATCCGCTGTTGCCGCAGTTCAACGGGGTGTTCGGCGCGCCGCTGGCGCAACCGGTCTCCGTCGCCGATACGCGCTGGCTGCCGCACGGCTGGCTGGAACGCCTGGCGTGGCCGCTGCTGTTTAGCGTGCGGCCCTGGCGGGTCAGCGAGATCGCGCTGTTCCAGGCGGTGTGGGCGGTGCTGTACCTGCTGGGTGCGGCGCTGCTGGTGCGTTGGCTGCTGCGGCGGCCGACGCGCGCGGCGAGGTTCGCCGCACCAGCGTTGCCGGCCGTGCTGGTCTTCTTCGGCGTGTCCTACCTGGTCTGGCAGGGGCTGTTCAGCATCCACCGTTACCTGGTGGCACTGGAAGTGCTGGCGCCGTTGTTGATCTGGATCGCCTGCCAGCGCCTGTTCGCTCCTGCGCGTGCGCGGCTGATCGCACCGGGCCTGCTGCTGTTCTGTGCGGCGATCTCGCTGGGTGGGTGGAACGATTGGGGGCACGAGCCGTGGGCGCGGCGCGCGTTCACCGTGCAGGCGCCACCGGTCGCGGCTCCGGCCCGGAGCACGGTGGTCTTGGTCGGTGGCGAGCCGCAGGCCTGGCGGATTCCGTTCCTGCCAGCGCAGGCGCGTTATCTGTCGGTGGCGTCCAATTTCGCCGAGTCGCAGGCGTACGCGGCGCGCGTGCATGCCATGCTCGCGGCGCGCCCCGGGCGGTATGCGCTGCTGCCGGCCGCGGTCGATCGCAAGGCGGAGCGGGTGGTGCGGATGAATGCCTGGGCGCAGCGTCTGGGGTTGGCCCGGCAGTCCGACTGTCGCACGCTGCGCTGGCTGGTCGCGCATGGTCTGCGTGCGCGCATCGATGAAGCGGCGTCGCCGGGCTGCCGGCTGTTGCCGCGAGCGGGCGCCGAGCGTGACCTGGCCGCAGACGATGCGGTGCTGCGCGACATCGCCACCCAGCAGCTCGCGCCTTACGGACTGATGCTGGTGCCGGGCTCCTGCCGCAGGTTGTCCTCCTGGATCGGCACCACCGACTATCCGTACCAGTGGTGCGACCTGGCGTTCGCCGCAGCGGACGGCGCGCCGGTTCAGGGCAGCAGATAG	MTGIALPRMPASLRRLAGWLDRRFAFDTRGNVLRAVLAVAALGAVVALLQGQDANWDLRNYHLHNGYAWLHGRLALDLAPAQMQSYFSPLLDVLHYALMVHWPAPLAGALMGVLHALLFVPLAVIAWQVLRAHPQRARLVPLLALAGLCTGAFLSEFAGSMADTTTALPVLAALALLLDAQHRQQGGGFSAGRWLLAGVLLGLAVALKLTNAVYALGLAAAALAGGGGWMRRIGGLALLALAALAVCAVLAGPWYWQVWQVFGNPLLPQFNGVFGAPLAQPVSVADTRWLPHGWLERLAWPLLFSVRPWRVSEIALFQAVWAVLYLLGAALLVRWLLRRPTRAARFAAPALPAVLVFFGVSYLVWQGLFSIHRYLVALEVLAPLLIWIACQRLFAPARARLIAPGLLLFCAAISLGGWNDWGHEPWARRAFTVQAPPVAAPARSTVVLVGGEPQAWRIPFLPAQARYLSVASNFAESQAYAARVHAMLAARPGRYALLPAAVDRKAERVVRMNAWAQRLGLARQSDCRTLRWLVAHGLRARIDEAASPGCRLLPRAGAERDLAADDAVLRDIATQQLAPYGLMLVPGSCRRLSSWIGTTDYPYQWCDLAFAAADGAPVQGSR				NA	NA	NA	NA	NA
BMS020_07947	570	yceF_2	COG0424	7-methyl-GTP pyrophosphatase	ATGCCTCTGATCCTCGCCTCCACCTCGCGCTATCGCCAGGAGCTGCTGCAGCGCCTGGGCCTGCCGTTCGGCACCGCGCGCCCGGAGGTCGATGAAACTCCGCACGCCGGCGAAGCCCCGGAGGCGCTGGCGCTGCGACTGGCGCGCGCCAAGGCCGCCGCGGTGGCCGAGTTGCATCCCAGCGCCTGCGTGATCGGCTCGGACCAGGTCGCCGAGCTCGACGGCACCGCGCTGGGCAAGCCGGGCAGCGTTGCCGGCGCGCATGCGCAGTTGGCGGCGATGTCCGGGCGCAGCGTGCGCTTTCTCACCGCGGTCTGCGTGCGCGGCCCGCACGGCGAGGACAGCGCCCTGGATGTGACCGACGTCCGCTTTCGCCAGCTCGATGCCGAGACCATCGCCCGCTACATCGATGCCGAGTCGCCACTGGACTGCGCCGGCAGCTTCAAGTGCGAAGGCCTCGGCATCGCCCTGTTCGAGGCAATCCGCAACGACGATCCGACCGCGCTGATCGGCCTGCCGCTGATCGCGACCGCACGCCTGCTGCGCCAGGCCGGCTATCTGCTGCCCTGA	MPLILASTSRYRQELLQRLGLPFGTARPEVDETPHAGEAPEALALRLARAKAAAVAELHPSACVIGSDQVAELDGTALGKPGSVAGAHAQLAAMSGRSVRFLTAVCVRGPHGEDSALDVTDVRFRQLDAETIARYIDAESPLDCAGSFKCEGLGIALFEAIRNDDPTALIGLPLIATARLLRQAGYLLP				NA	NA	NA	NA	NA
BMS020_07948	510	yceD_2	COG1399	Large ribosomal RNA subunit accumulation protein YceD	ATGTCCGCGAACGTGCCCGAATTGCTGGATGCCTGGCGGATGGTTGCCGCCCGCAGGCGTTTCGATGGCCGGATCCCGCTGGCGCAGATGCAACGGCTTGGCGGCAGTCTGGTGGATGCCGAAGGCGAGTGCAGCTACTGGCTGGAGTTCGGTCGCGACGACGTGCTTGGTGTGTCCTACGTCGAGCTGGGCGTCGACGCCGGCCTGCCGCTGGAATGCCAGCGCAGTCTGCAGCGCTTCGTGCTGCCGGTGGTGATCAGGCAACGGCTCGGGTTGATCCGCGAAGAGGCCGAGGAAGCGGCCCTGCCGGAGGACTACGAGGCGCTGCTGGTGCCCGAGGACGGCATGCTGCGGCCGGTGGACCTGGTCGAGGACGAGCTGGTCCTGGCGGTGCCGGTGGTGCCGGTGGCCCCGGGCAGCGAGCCGGTCGAGGCTGACTGGTCGGCCTCCGAGGAAGAAGTGAGCAAGGTCAGCCCGTTCGCGGCGCTGGCGGCACTCAAGAAGAAGTAA	MSANVPELLDAWRMVAARRRFDGRIPLAQMQRLGGSLVDAEGECSYWLEFGRDDVLGVSYVELGVDAGLPLECQRSLQRFVLPVVIRQRLGLIREEAEEAALPEDYEALLVPEDGMLRPVDLVEDELVLAVPVVPVAPGSEPVEADWSASEEEVSKVSPFAALAALKKK				NA	NA	NA	NA	NA
BMS020_07949	195	rpmF_2	COG0333	50S ribosomal protein L32	ATGGCTGTGCAGAAATCCCGTGTCACCCCGTCCCGCCGCGGCCAGCGCCGTGCGCATGACGCCCTGAGCGCCAAGCAGCTGTCGACCGACCCGACCACCGGCGAAGTCCACCTGCGCCACCACATCACCGCCGACGGCTACTACCGCGGCAAGAAGGTCATCCAGACCAAGACCTCGGCTGTCGAAGAAGACTGA	MAVQKSRVTPSRRGQRRAHDALSAKQLSTDPTTGEVHLRHHITADGYYRGKKVIQTKTSAVEED				NA	NA	NA	NA	NA
BMS020_07950	978	fabH_3	COG0332	3-oxoacyl-[acyl-carrier-protein] synthase 3	ATGAGCAAGCGGATCTATTCCAGAATCGCGGGCACGGGCAGCTATTTGCCTGAGAAGGTCTTGACCAACGACGACCTCGCCGCGATCGTCGACACCAGCGACGAATGGATCCGCTCGCGCACCGGCATCGAGGAACGGCACATCGCCGCCGAGGGCCAGACCACCAGTGACCTGGCCTACGAGGCCTCGCTGCGTGCGCTTGAAGCCGCGGGCGTGGATGCCTCGCAGATCGACCTGATCGTGGTCGGCACCACCACGCCGGACCTGATTTTCCCGTCCACCGCCTGCCTGCTGCAGGCGCGCCTCGGCGCGCTCGGCTGTGGCGCGTTGGACGTGAACGCCGCCTGCTCGGGCTTCATCTACGCGCTCAGCGTCGCCGACAAGTTCATCCGCAGCGGCGACTGCAAGAACGTGCTGGTGGTCGGTGCCGAGACCCTGACCCGCATCGTCGACTGGAACGACCGCACCACCTGCGTGCTGTTCGGCGACGGTGCTGGCGCGGTGGTGCTGCAGCCCGACGAGGACACCGGCATCCTCAGCACCCACCTGCATGCCGACGGCAGCAAGAAGGAGCTGCTGTGGGACCCGGTCGGCGTGTCGGTCGGTTTTGGCGAAGGCAAGAACGGTGGCGGCGCGTTGCTGATGAAGGGCAACGACGTGTTCAAGTACGCGGTCAAGGCGCTGGATTCGGTGGTCGACGAGACCCTCGAGGCCAACGGCCTGGACAAGGGCGACCTGGATTGGCTGATCCCGCACCAGGCCAACCTGCGCATCATCGAAGCCACCGCCAAGCGGCTGGACATGTCGATGGACCAGGTCGTGGTGACGGTCGACAAGCACGGCAACACCTCGGCCGGTTCGGTGCCGCTCGCGCTGGACGCCGCGGTGCGCTCCGGCCGCGTGCAGCGCGGCCAGCTGCTGCTGCTGGAAGCGTTCGGTGGCGGCTTCACCTGGGGTTCGGCGCTGCTGCGCTACTAA	MSKRIYSRIAGTGSYLPEKVLTNDDLAAIVDTSDEWIRSRTGIEERHIAAEGQTTSDLAYEASLRALEAAGVDASQIDLIVVGTTTPDLIFPSTACLLQARLGALGCGALDVNAACSGFIYALSVADKFIRSGDCKNVLVVGAETLTRIVDWNDRTTCVLFGDGAGAVVLQPDEDTGILSTHLHADGSKKELLWDPVGVSVGFGEGKNGGGALLMKGNDVFKYAVKALDSVVDETLEANGLDKGDLDWLIPHQANLRIIEATAKRLDMSMDQVVVTVDKHGNTSAGSVPLALDAAVRSGRVQRGQLLLLEAFGGGFTWGSALLRY	PGPT0008355_5024	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
BMS020_07951	783			hypothetical protein	ATGGCTGAACCCATCGTCATCGACGGGCAGCGTGCTTGGCTCAAGCAGTACGGCGAAGGTAGCCGTGCGCTTGCGCTGGGTGCGCTCAACTTCGTTTCCCGCCGCTTCGGACTCGACGCGCTGCGTCCGCCGCCGCACCGCGGCGGCGATGCCGCGCGCGCCATCGAGGCGCGGCGCCTGGCCGAGCTGCAGGCGCAGGATGTCAACGTGCCGCAGGTGATCGGCAGTGGTCGCGCGGCGCTGGTGCTCAGCGACAACGGCCGCTCGTTGGCGGCCTGCCTGCGCGAGGCCGACGACGCCGGGCGCGATGCCCTGGTGAGGCTGGCGCTGGCGACGATCGCCGAGGCGCATCGCCACGGCGCCTATTTCGGCCAACCGCTGCCGCGCAACATGACCTACGACGGCCAGGCGATCGGCTTCATCGATTTCGAGGAAGATCCGCTCGAAGTGATGGACCTGGAGCAGGCACAGGCGCGTGACTGGCTGATGTTCGGCTACGGCGTCGCCAAGTACTACGGCGAGCGCCTGGAGGTGCTGCGTGCGCTGATGGTCGGGGCGCTCGGCGAGGAGCGCACGCCGGTGCTGGCGCATGCGCATGCGGTGACCGGACGGCTGCAGCGTTTCGCGCGCTTCGGCCTGCGCTTCGGTCGTTCCATGCGCGCGCTGGCGCATTCGATCCTGATCCTGCACGCGGCGACCTCGCTGGGCGTGCTGCTGGTGGCGGCGCTGTGCGTGGACTGGTTCGCCGACGGCCAGCTGGACGTGCTCAAGCTGTTCGTCTGA	MAEPIVIDGQRAWLKQYGEGSRALALGALNFVSRRFGLDALRPPPHRGGDAARAIEARRLAELQAQDVNVPQVIGSGRAALVLSDNGRSLAACLREADDAGRDALVRLALATIAEAHRHGAYFGQPLPRNMTYDGQAIGFIDFEEDPLEVMDLEQAQARDWLMFGYGVAKYYGERLEVLRALMVGALGEERTPVLAHAHAVTGRLQRFARFGLRFGRSMRALAHSILILHAATSLGVLLVAALCVDWFADGQLDVLKLFV				NA	NA	NA	NA	NA
BMS020_07952	945	fabD_3	COG0331	Malonyl CoA-acyl carrier protein transacylase	GTGACCGAATCCAATCTTGCCTTCGTGTTCCCCGGCCAGGGATCCCAGTCGCTGGGAATGCTGGCGGAACTGGCGGAACTGCATCCGGAAATCCGCGAGACGTTCGCCGAGGCTTCCGATGGCGCTGGCGTCGACCTGTGGGCGCTGTCGCAGGGCGGTCCGGAAGAAATGCTCAACCGCACCGAGTACACCCAGCCGGCGCTGCTGGCCGCGGGCGTGGCGGTGTGGCGGCTGTGGCAGTCCCAGGGCGGTGCCGCGCCGGCGCTGCTGGCCGGGCACAGCCTGGGCGAGTACACCGCGCTGGTCGCGGCCGGCGCGCTGTCGCTGCGTGATGGCGCCCATCTGGTGCGCATCCGCGGCCAGCTGATGCAGGACGCGGCGCCGGCCGGTGTCGGCGCGATGGCGGCGGTGCTCGGTGCCGAGGACGCACTGGTGCGCGAGGTCTGCGAGCAGGCCGCGCAGAGCCAGGTCGTGGTGCCGGCCAATTTCAATTCCCCCGGGCAGATCGTCATCGGCGGCGACGCCGCGGCGGTCGACCGCGCGCTGGCGCTGCTGGCCGAGAAGGGCGTGCGCAAGGCGGTGAAGCTGGCGGTCAGCGTGCCGTCGCATACGCCGCTGATGCGCGAGGCCGCCAACCGGCTGGCCGAGACCATGGCCGGGCTGCAGTGGCAGCAGCCGCAGCTGCCGGTGGTGCAGAACGTCGATGCCAAGATCCACGACGGCGTCGAGGCGATCCGCCAGGCGCTGGTGCAGCAGCTGTACCTGCCGGTGCAGTGGACCGGCTGCGTGCAGGCGCTGGCCGAGCGCGGCGTGACCCGCATCGCCGAATGCGGTCCGGGCAAGGTGCTGAGCGGGCTGGTCAAGCGCATCGACAAGGCGCTCGAGGCCCGTGCGCTGGGCACCCCGGGTGAATTCGCCGGCGCCCGCGACGACTGGTCTGCCTGA	MTESNLAFVFPGQGSQSLGMLAELAELHPEIRETFAEASDGAGVDLWALSQGGPEEMLNRTEYTQPALLAAGVAVWRLWQSQGGAAPALLAGHSLGEYTALVAAGALSLRDGAHLVRIRGQLMQDAAPAGVGAMAAVLGAEDALVREVCEQAAQSQVVVPANFNSPGQIVIGGDAAAVDRALALLAEKGVRKAVKLAVSVPSHTPLMREAANRLAETMAGLQWQQPQLPVVQNVDAKIHDGVEAIRQALVQQLYLPVQWTGCVQALAERGVTRIAECGPGKVLSGLVKRIDKALEARALGTPGEFAGARDDWSA	PGPT0008350_1784	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
BMS020_07953	744	fabG_18		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAGCAAGCCCCTGCAGGGAGAGATCGCGCTGGTCACCGGCGCCAGCCGCGGCATCGGTGCCGCGATCGCCGATACGCTGGCCGCCCAGGGCGCCACCGTGATCGGCACGGCCACCTCGGCCAGCGGCGCGCAGGCGATCGGCGAGCGCCTGGCGGCGCTGGGCGGCCACGGCCGCGAGCTCAACGTCACCGACGCCGGCGCGGTCGACGCGCTGATCGAGGCGATCGGCAAGGAATTCGGCGCGGTCTCGATCCTGGTCAACAACGCCGGCATCACCCGCGACAACCTGCTGATGCGGATGAAGGACGAGGACTGGCAGTCGATCCTCGACACCAACCTGACCAGCGTCTACCGCACGTCCAAGGCAGTGATGCGCGGCATGATGAAGGCGCGCAAGGGCCGCATCATCAACATCGCCTCGGTGGTCGGCGTGACCGGCAACCCGGGACAGACCAATTACGCGGCGGCGAAGGCCGGCATCATCGCCTTCTCCAAGTCGCTGGCCAAGGAAATCGGCTCGCGCGGGGTCACCGTCAACGTGGTCGCGCCGGGCTTCATCGATACCGACATGACCAAGGCGCTGCCCGAAGAGGCGCGCACCGCGCTGCTCGGCCAGATCGCCCTGGGCCACCTCGGTGAGCCGGCCGACATCGCCAACGCGGTGGCGTTCCTGGCCGGGCCCTCGGCCAAGTACATCACCGGCGAGACGCTTCACGTCAACGGCGGCATGTACATGCCCTGA	MSKPLQGEIALVTGASRGIGAAIADTLAAQGATVIGTATSASGAQAIGERLAALGGHGRELNVTDAGAVDALIEAIGKEFGAVSILVNNAGITRDNLLMRMKDEDWQSILDTNLTSVYRTSKAVMRGMMKARKGRIINIASVVGVTGNPGQTNYAAAKAGIIAFSKSLAKEIGSRGVTVNVVAPGFIDTDMTKALPEEARTALLGQIALGHLGEPADIANAVAFLAGPSAKYITGETLHVNGGMYMP	PGPT0003180_14690	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
BMS020_07954	240	acpP_3		Acyl carrier protein	ATGAGCACCATCGAAGAACGCGTCAAGAAAATCGTCGTCGAACAGCTCGGCGTCAAGGAAGAGGAAGTCACCACCAGCGCATCGTTCGTCGATGACCTGGGTGCCGACTCGCTGGACACCGTCGAACTGGTGATGGCGCTGGAAGAAGAGTTCGAGTGCGAAATCCCGGACGAAGAGGCCGAGAAGATCACCTCGGTCCAGCAGGCCATCGACTACGTCAAGGCTCACGTCAAGAGCTGA	MSTIEERVKKIVVEQLGVKEEEVTTSASFVDDLGADSLDTVELVMALEEEFECEIPDEEAEKITSVQQAIDYVKAHVKS	PGPT0011375_5212	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
BMS020_07955	1236	fabF_5	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGAGTCGTCGTGTCGTCGTTACCGGCATGGGCATCGTGTCGCCGCTGGGCAATGATCTGGCCAGCAGCTGGGATGGCATCGTCAACGGCCGTTCCGGCATCGGCCCGATCACGCAGATCGATGCGTCGCAGTTCACCACCAAGATCGCGGGCGAGATCAAGGATTTCGATCCGACCGTGTTCGTGTCCTCCAAGGACGCGAAGAAGATGGATTCGTTCATCCATTACGGCGTCGGCGCCTCGTTCATGGCGCTGGACGATGCCGGCCTGGAGATCAACGAGGGCAATGCCGAGCGCATCGGCGCGATCCTCGGTTCGGGCATCGGCGGCCTGCTCGGCATCGAAGAGCAGACCATCAAGTTCCACGAGGGCGGCGCGCGCAAGATCTCGCCGTTCTACGTCCCCAGCACCATCATCAACATGCTTCCTGGCCAGGTCAGCCTGATCAAGGGCCTGAAGGGCCCGACGTTCTCGGCGGTCTCGGCCTGCGCCACCTCCAACCATTCGATCGGCACCGCGCTGCGCATGATCCAGCACGGCGATGCCGACGTGATGCTGGCCGGCGGCGCCGAGCGCGGCTCCTCGCCGACCTCGGTCGGCGGCTTCTGCTCGATGAAGGCGATGTCGACCCGCAACGACGACCCGGCCGCGGCCTCGCGTCCGTGGGACAAGGGGCGCGACGGCTTCGTGCTCGGCGATGGCGCCGGCGTGCTGGTGCTGGAAGAGTACGAACACGCCAAGGCGCGTGGCGCGCGCATCTACTGCGAGCTGGTCGGCTTCGGCGCCAGTTCCGACGCGTTCCACATGACCGCCCCGAGCGAGGATGGCGAGGGCGCCGCGCGCAGCATGGCCGCGGCGATCCGCGACGCCAAGCTCAACGCCGACCAGATCGACTACCTCAACGCGCACGGCACCTCGACCCCGCTCGGCGACCTCGCCGAGACGATGGCGATGAAGCGCGCGCTGGGCGACCACGCCTACAAGACCATGGTCAGCTCGACCAAGTCGATGACCGGCCACCTGCTCGGCGCCGCCGGCGGCGTGGAGGCGATCTTCTCGGTGATGGCGATCCACACCGGCATCATCCCGCCGACCATCAACCTGGAAGAGCCCAGCGAGGGCTGCGACCTGGATTACGTGCCGAACGTGGCGCGCGAGAAGAAGATCGACGTGGCGATGTCCAACGGCTTCGGCTTCGGCGGCACCAACGGCACGCTGGTGTTCAAGCGCATCTGA	MSRRVVVTGMGIVSPLGNDLASSWDGIVNGRSGIGPITQIDASQFTTKIAGEIKDFDPTVFVSSKDAKKMDSFIHYGVGASFMALDDAGLEINEGNAERIGAILGSGIGGLLGIEEQTIKFHEGGARKISPFYVPSTIINMLPGQVSLIKGLKGPTFSAVSACATSNHSIGTALRMIQHGDADVMLAGGAERGSSPTSVGGFCSMKAMSTRNDDPAAASRPWDKGRDGFVLGDGAGVLVLEEYEHAKARGARIYCELVGFGASSDAFHMTAPSEDGEGAARSMAAAIRDAKLNADQIDYLNAHGTSTPLGDLAETMAMKRALGDHAYKTMVSSTKSMTGHLLGAAGGVEAIFSVMAIHTGIIPPTINLEEPSEGCDLDYVPNVAREKKIDVAMSNGFGFGGTNGTLVFKRI	PGPT0008360_6534	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
BMS020_07956	1371	pabB_2	COG0147	Aminodeoxychorismate synthase component 1	ATGACGCTGATCCGACCGCTGCGTGCCGATATCGACCTGCTGGACCTGCACCGGTCGGCACCGGCGCGCTACCCGGCGCTGTTCGAATCGACCGCGTCCGGTACCACGCATGGGCGCTGGGACCTGCTGCTGCGCGCCGAGGGCGGCCTGCTGCGGCTGGACGCCGATGGGCTGACCCGCGACCAGGATGGACACGTGCTCGCCGGGGGGTTCCTCGATGCGCTCGATGCCGCCTGGCGCCGCGACGCGCTGCCGGCCGCCGGTGAGGCTGATGCGGGTGCACCGCCGTTCCGCGGCGGCTGGGCGCTGTTGCTGGATTACGAACTGGCGGCCGAGGTCGAGCCGGTGCTCACCGTGCCGGCGCGGGCTGACGCACGCCCGGCTGCGCTGGCGCTGCGCTGCCCGGCCGCGGTGTTGCGCGACCGCGCCAGCGGCGCCTGCTTCGGCGTCGCCGAGGCGGGGCACGAGGCGCTGCTGGACGCGATCGGCGCCGAGCTTGATGCCGCCGCGACGCAGCCGCCGTTGCCGGCGTGGCAGGTGCCGGTCGAGGTCGTGGAGGACCTCCCGGCGCGCTTCACCGATGCGGTGGAGCGCGTGCTGGAGTACCTGCGTGCGGGCGACGTGTTCCAGGCCAACATCTCGCGCGGCTGGCAGGCGCGCTTCGCCGCGGATGTCGATCCGGCGGCGCTGCACGCGCGCCTGCGCGCGGCCAACCCGGCACCGTTTGCTGGCGTGTTCGTCGCGCAGGGGCGGGCCGTGGTGAGCTCTTCGCCGGAACGGCTGGTGTCGGTGCGCGGGCCCCGGGTCGAGACCCGTCCGATCGCCGGCACCCGCCCGCGCTTCGCCGGCGACGACGAGCGCGCGCGGATCGACGAGCTGGTCGGGCATCCGAAGGAACGCGCCGAGCACGTGATGCTGATCGACCTGGAGCGCAACGACCTGGGCCGGGTCAGCGCGGCGGGCACGGTCGAGGTCGACGAGTTGATGACGGTGGAGAGCTACGCCCACGTGCACCACATCGTCAGCAACGTGCGCGGCCGCCTGCGCGCCGGGGTCACGCCGGGCGAGGTGATCGCCGCGGTGTTTCCCGGGGGCACCATCACCGGCTGCCCCAAGGTGCGCTGCATGCAGATCATCGCCGAGCAGGAACAGGTCGCCCGCGGCGCCTATACCGGCGCGTTCGGCTGGCTCAACCGCGACGGCGACATGGACCTGAACATCCTGATCCGCACCGCCGAGGTCGATGGGGCGCAGCTGGCGTTCCGCACCGGCGCCGGCATCGTGGTGGATTCGCTGCCGGAGCGCGAGCTGGAAGAGACCCGGGCCAAGGCCCGCGGGCTGCTGCGCGCGCTCGATCCGGCGCGCGGATGA	MTLIRPLRADIDLLDLHRSAPARYPALFESTASGTTHGRWDLLLRAEGGLLRLDADGLTRDQDGHVLAGGFLDALDAAWRRDALPAAGEADAGAPPFRGGWALLLDYELAAEVEPVLTVPARADARPAALALRCPAAVLRDRASGACFGVAEAGHEALLDAIGAELDAAATQPPLPAWQVPVEVVEDLPARFTDAVERVLEYLRAGDVFQANISRGWQARFAADVDPAALHARLRAANPAPFAGVFVAQGRAVVSSSPERLVSVRGPRVETRPIAGTRPRFAGDDERARIDELVGHPKERAEHVMLIDLERNDLGRVSAAGTVEVDELMTVESYAHVHHIVSNVRGRLRAGVTPGEVIAAVFPGGTITGCPKVRCMQIIAEQEQVARGAYTGAFGWLNRDGDMDLNILIRTAEVDGAQLAFRTGAGIVVDSLPERELEETRAKARGLLRALDPARG	PGPT0007095_4699	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
BMS020_07957	1056	mltG_2	COG1559	Endolytic murein transglycosylase	GTGGCTGCAGGCAAACGGGGCTGTTTGGCCGTGCTGGCGGTGGTATTGGTGGTCGCACTGGTCTGCGCCGGCGTCGCCGGGTGGCTGTGGCAGCGTTACCAGACGTTTGCCGCGCAGCCGCTGCAGGCCGCCCAGCCGAGCGTGGTGGTGGCCCCGGGCGATGGCCTGCGCGCGGTGCTGCGCAAGCTGCGCGATGCCGGCATCGAGGCCGGTACGGACACCGAGTGGCAGCTGCTGGCGCGCCAGGTCGATGCCGCCGGCAAGCTCAAGGTCGGCGAATACGCGCTGTCCCCGCCGCTGTCCCCGCGCGACCTGTTGCTGCGCATGCGCCAGGGCCGGGTGATCCAGTACCGCTTCACCCTGGTCGAAGGCTGGAACGTGCGCCAGCTGCGCGCCGCGTTGAACGCGGCCAGTCCGCTGCAGCACGCCGGCGCCGACCTGGACGATGCTGCGCTGATGGCCCGGCTCGGCTTCCCGGGCCAGCACCCGGAGGGACGTTTCCTGCCGGAAACCTACCTGTACCAGCGCGGCGACAGCGACCTGGACGTGCTGCGTCGTGCGCATGCGGCGATGGAGCAGGCACTGGCGGAGGCCTGGGCGCAGCGCGCCGACGGCCTGCCGGTCGCTTCGCCGGAACAGGCGCTGGTGCTGGCCTCGATCGTCGAGAAGGAGACCGCGCTGGCCAGCGAGCGCCCGCAGATCGCCGGCGTGTTCGCGCGGCGGTTGCAGCAGGGAATGAAGTTGCAGACCGATCCGACCGTGATCTACGGCATCGGCAGTGCCTACGACGGCAACATCCGCAAGCGCGACCTGGAAACCGACACCCCGTACAACACCTATACCCGCGCCGGCCTGCCGCCGACGCCGATCGCGATGCCAGGCAAGCAGGCGCTGCAGGCCGCGGTGCGTCCGGCGCCGGGCAATGCGCTGTACTTCGTCGCGGTCGGCGACGGCAGCGGCGCGCACGTGTTTTCCGCCAGCTACGCCGAGCACACCGCCGCGGTGGCGCGTTACCTGCAGCGGCTGCGCCAGGCGCGCGCCGGGGTGGCGCCATGA	MAAGKRGCLAVLAVVLVVALVCAGVAGWLWQRYQTFAAQPLQAAQPSVVVAPGDGLRAVLRKLRDAGIEAGTDTEWQLLARQVDAAGKLKVGEYALSPPLSPRDLLLRMRQGRVIQYRFTLVEGWNVRQLRAALNAASPLQHAGADLDDAALMARLGFPGQHPEGRFLPETYLYQRGDSDLDVLRRAHAAMEQALAEAWAQRADGLPVASPEQALVLASIVEKETALASERPQIAGVFARRLQQGMKLQTDPTVIYGIGSAYDGNIRKRDLETDTPYNTYTRAGLPPTPIAMPGKQALQAAVRPAPGNALYFVAVGDGSGAHVFSASYAEHTAAVARYLQRLRQARAGVAP				NA	NA	NA	NA	NA
BMS020_07958	657	tmk_2	COG0125	Thymidylate kinase	ATGAGCCAGGCATTGCTGCAGCATCCGCGCTTCATCAGCCTGGAAGGGGGTGAGGGCGCGGGCAAGACCACTGCGATCAACGCGATCCGCGACTGGCTGGCGCGGCATGGGCATGAGGTGGTGCTGACCCGCGAGCCGGGCGGCACGCCGCTGGCCGAGCGCATCCGCGCCCTGCTGCTGGACAAGCAGCCCGGGGCCGAGCCGCTGGCCGCCGAGGCCGAGCTGCTGCTGGTGTTCGCCGCGCGTGCCCAGCACGTGCGCGAAGTGATCCGCCCGGCACTGCAGCGCGGCGCGTTCGTGGTCAGCGACCGCTTCACCGATTCCAGTTACGCCTACCAGGGCGCCGGGCGTGGGTTGGATCCGGCCTGGATCGCCGACCTGGAGCGACGCGCTGTCGGCCTGGAGCCGGGCATGACGCTGCTGCTCGATCTCGACGTGCGCGTCGGCCGCGCCCGCACCGGCGGCCGTGACCTGCAGCCGGACCGGATCGAGAGCGAGCATGACGAGTTCTTCGAGCGGGTGCGCGCGGCGTTCCGGCAACGCGCCGGCGAACGTGGCGAGCGCTTCCGCATCATCGACGCATCGCAGGGCCCGGTGGAGGTCGCGCGCGACGTCGCCGAGGCGGTCGCACGCTTCGTGCAGGGAGTGGCGGAATGA	MSQALLQHPRFISLEGGEGAGKTTAINAIRDWLARHGHEVVLTREPGGTPLAERIRALLLDKQPGAEPLAAEAELLLVFAARAQHVREVIRPALQRGAFVVSDRFTDSSYAYQGAGRGLDPAWIADLERRAVGLEPGMTLLLDLDVRVGRARTGGRDLQPDRIESEHDEFFERVRAAFRQRAGERGERFRIIDASQGPVEVARDVAEAVARFVQGVAE	PGPT0021395_1244	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021395-tmk-K00943	NA	NA
BMS020_07959	957			hypothetical protein	ATGAGCACGTTGTCGCCCTGGCAGCAGCGTGCCTACGACCAGACCGTGGCCGCGCTCGATGCAGGCCGGCTCGGGCATGGCCTGCTGGTGTGCGGCCCGGCTGGACTGGGCAAGCGCGAGGTGGTGCTGAAGCTGGCCGAGCACGTGCTGACGCGCGGGCCGGAGCCGGCCGCGAACCGGCGCGCCAGCCAGCTGATCGCGGCCGGCACCCATCCGGACCTGCGGCTGGTGTCGTTCATTCCCAACCGCACCGGCGACAAGCTGCGCACCGAGATCATCATCGATCAGGTGCGCGAGATCTCGCAGCAGTTGGCGCTGACGCCGCAGTACGGCCTCGCCCAGGTGGTGGTGGTCGATCCGGCCGACGCGATCAACCGCGCCGCCTGCAATGCCTTGCTGAAGACGCTGGAGGAGCCGGCGCCCGGCCGTTACCTGTGGCTGATCAGCGCCGAGCCGGCGCGCTTGCCGGCGACGATCCGCAGCCGCTGCCAACGGCTGGAGTTCAAGTTGCCGCCGCGGCATGAGGCCGAGGCCTGGCTGGAGACGCAGGGCTTCGCCGGCGCCGCCGCGCGCGAGGCGCTGGAGGCTGCGCGCGGCCACCCCGGCCTGGCCGCGGACTGGCTGCGCAGTGACGGCCTGGTACTGCGTGGCGAGGTTGGCCGCGATCTGGAGCAGGTCGCGGCTGGCCGCGTTGGCGTGGTCGAGGTCGCGCAGCGCTGGACCGGCGACGAGCGTGCCGAGGCACGCCTGCGCCATGCCGCCGATCTGGTGCTGGCGCAGGCCTCGTCCGGCTTGACCGATCCGGAGCGATTGCACAAGCTGGCCGCCTGGTTCGACGCCGCCAACCGCACGCGTGACCTGCTGCGCACCACGGTGCGCGCCGACCTGGCGGTGGCGGAACTATTGCTTGCTTGGCGCGGTGGGGATCGCGCCGCCCGCAGAGGGGGAAATCGATGA	MSTLSPWQQRAYDQTVAALDAGRLGHGLLVCGPAGLGKREVVLKLAEHVLTRGPEPAANRRASQLIAAGTHPDLRLVSFIPNRTGDKLRTEIIIDQVREISQQLALTPQYGLAQVVVVDPADAINRAACNALLKTLEEPAPGRYLWLISAEPARLPATIRSRCQRLEFKLPPRHEAEAWLETQGFAGAAAREALEAARGHPGLAADWLRSDGLVLRGEVGRDLEQVAAGRVGVVEVAQRWTGDERAEARLRHAADLVLAQASSGLTDPERLHKLAAWFDAANRTRDLLRTTVRADLAVAELLLAWRGGDRAARRGGNR				NA	NA	NA	NA	NA
BMS020_07960	354			hypothetical protein	ATGAGTGCGATGGGTGGACGCCAGGGCATCCTGTCCCTGGCCGTGAAGGATAAGACCGCGCTGTACGGCGCGTACATGCCGTTCGTGAAGAACGGCGGCATCTTCGTGCCGACGCCGAAGCGCTACTTCCTCGGTGACGAGGTGTTCCTGCTGCTGACCCTGCCCGAGTCCAGCGAGCGCCTGCCGGTCGCCGGCAAGGTGGTGTGGACGACGCCGGCCGGTGCGCAGGGCAACCGTGCCGCCGGGATCGGCGTGCAACTGCCGGACGGGCAGGAAGGCGAGGCGGTGCGCCATCGCATCGAGACCCTGCTGGCGGGCCTGCTCGGTTCCGAGAAGCCGACCCATACGATGTGA	MSAMGGRQGILSLAVKDKTALYGAYMPFVKNGGIFVPTPKRYFLGDEVFLLLTLPESSERLPVAGKVVWTTPAGAQGNRAAGIGVQLPDGQEGEAVRHRIETLLAGLLGSEKPTHTM	PGPT0015970_339	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015970-pilZ-K02676	NA	NA
BMS020_07962	780			hypothetical protein	ATGCCCCGACACTCCGCCGGCCTGGCCCTAGGTCGTCTTGCCTGCGAGGAATGCGGCGCGGCCCTCGTCGCGCTGCGCTCCAGGCGCGGCATCCACGTCCGCGTGCACGAAGCACGCAAGGCGGTACGACGCACCCGCGCCCTGCTCGCCCTGGTCCGCGACAGCGGCGCCGACCTCGCGCTGGAGCCGCTCGACGCCGCGCTGCGCCGGCTCGGCGACAGCCTGTCGCAACTGCGCGACGCCCACGTCGCCACCGAGACCGCCAAGGCGCTGTGCCGCGATGATGATCGCCGGCCCTGGCGTCCGGTCGCCAGCGCGCTGCGCATACGCGCGCAGACGATGGTCGAGCGCGAACGGATCCGCGATCCGGGCTTCGGCCGCCGCTGCCGCAGCATCGAGCGCGTGCTCGCGCAGCTGCAGCAGCAGCCGTGGCAGGACATCAGCCCGTCCCAGGTCCGCGCCGGCCTGCAGCGCCAGCAGCAGCGCGTCGCCCGCGCCGAACGTCGCGCACGCCATCATCCCGACGCCGAACGTCTGCACGACTGGCGGCGCAAGGTCCGCCGCCTGCGCATGCAACTCGATGCCCTGCCCCGGCTAGGCCCGCATGCTCCCAAGGCGCATGCACCCGCCAAGGCCAGGGCGCTGCACCGGCTGGCCGACGCACTCGGCCTGCACCAGGATCGCCACGTACTGTCGCAGCTGCTCACCCGCTTGCCCGGCATCGAGGACCGCGCCGGGCTGCGCGCCCGGCTCACCGCACTGGACGCGGCGACAAGCTGA	MPRHSAGLALGRLACEECGAALVALRSRRGIHVRVHEARKAVRRTRALLALVRDSGADLALEPLDAALRRLGDSLSQLRDAHVATETAKALCRDDDRRPWRPVASALRIRAQTMVERERIRDPGFGRRCRSIERVLAQLQQQPWQDISPSQVRAGLQRQQQRVARAERRARHHPDAERLHDWRRKVRRLRMQLDALPRLGPHAPKAHAPAKARALHRLADALGLHQDRHVLSQLLTRLPGIEDRAGLRARLTALDAATS				NA	NA	NA	NA	NA
BMS020_07963	1230	citZ	COG0372	Citrate synthase 2	ATGCCCACGCCGTCCGCCCGCGAGCTGGTTCCCGCCGCCGAGGCCTGCCAACTGCTCGGCATCAGCGCCGCCACGCTGTACGCCTATGTCAGCCGCGGCCTGCTGACCTCGCGCCCGGGACCGGACCATCGCAGCCGCGTCTACCTGCGCGCCGAAGTCGAGCGGCTGGCGCAGCGCAAGCGCGCCGGGCGCGGCGCGGCGCGCGGTGCGGCGCAGAGCCTGGACCGCGGCCTGCCGGTGCTGGAGACGCGGATCTCGCTGATCCGCCCGGATGGGCCGTATTACCGCGGCCGTTCGGCCGTGGCGGCGGTCCGCGATGGCGCCACCCTGGAAGACATCGCCCGCCTGCTGTGGGACTGCGACGCCCAGGACCCGTTCGCCACGGCGCTGCCCCCGACCTGGCCGGCACGCGTCGCCGCGCTGGCCGGCGATACAACGCTGCCGCCGCTGGAACGCGCGATGGCCTGCATCCCGCTGCTGGCACTGGAGCTGCGGCAATCGCTGAATCCCGCGGCGTCGGTGCGTCGCGAGCTGGCCGCGGTGCTGCTGCGGCAGAACGCCGCGCTGCTGGTCGGCACCGCGCCGCAGGATGGTCCCGTCCACCAGCTGCTGGCCGAGGCCTGGTGCCCCGACGACGCGGGCTTCGCCGAGCTTGTCCGCGCCGCACTGGTGCTGTGCGCCGACCACGAGCTCAATGTCTCCGCGTTCGCCGCGCGCGTGGTCGCCTCCACCGGCACCCACCTGCATGCGACCGTCAGCGCCGGCCTGGCGGCACTGTCCGGGCCACGCCACGGCGGCGCCACCGCGCGCGCGCATGCTCTGCTGCGCGACGCGCTCGACGCGGCCGATCCCGCCGGCTTCATCGCCGCACGTTGGCAGCGCGGCGACGACCTGCCCGGCTTCGGCCATGTGCTTTATCCCGATGGCGACCCACGCGGCGCCGAGGTGCTGCGCCTGCTGCGGATCCAGCGCGGCGACAGCGCGGCAATGGCCCAGGTCGAGCACGTGATCGCCGCGGTCGAGGAAAGCAGCGGCCAGCGCCCCAACATCGACGGCATGCTGGCGGCGCTGTGCTTCGTCCACGGCCTGCCGGCCACCCCGGCACTGGTGATGTTCGCCACCGCGCGGCTGTCCGGCTGGCTGGCGCATGCGCTCGAACAGCAGGCGCTCGGCACCCTGATCCGCCCGCGCGCCCGCTACACCGGGCTGCCACCGGGCGAGCCCGGCTGA	MPTPSARELVPAAEACQLLGISAATLYAYVSRGLLTSRPGPDHRSRVYLRAEVERLAQRKRAGRGAARGAAQSLDRGLPVLETRISLIRPDGPYYRGRSAVAAVRDGATLEDIARLLWDCDAQDPFATALPPTWPARVAALAGDTTLPPLERAMACIPLLALELRQSLNPAASVRRELAAVLLRQNAALLVGTAPQDGPVHQLLAEAWCPDDAGFAELVRAALVLCADHELNVSAFAARVVASTGTHLHATVSAGLAALSGPRHGGATARAHALLRDALDAADPAGFIAARWQRGDDLPGFGHVLYPDGDPRGAEVLRLLRIQRGDSAAMAQVEHVIAAVEESSGQRPNIDGMLAALCFVHGLPATPALVMFATARLSGWLAHALEQQALGTLIRPRARYTGLPPGEPG	PGPT0001455_4643	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
BMS020_07964	888	prpB_2	COG2513	2-methylisocitrate lyase	ATGAGTCGTGTTTCCGCAGGCGCCGGGTTCCGCGCCGCCCTGGCCGCCGAATCGCCGCTGCAGGTGATCGGGGCGATCAACGCCAACCACGCGCTGCTGGCCAAGCGCGCCGGCTACCGCGCGATCTACCTGTCCGGTGGTGGCGTCGCCGCCGGCTCGCTGGGCCTGCCGGACCTGGGCATCAACACACTCGACGACGTGCTGATCGACGTGCGCCGCATCACCGACGTCTGCGACCTGCCGCTGCTGGTCGACATCGACACCGGCTTCGGTCCGAGCGCGTTCAACATCGAGCGCACGATCAAGGCGCTGATCAAGGCCGGCGCCGCTGCCTGCCACATCGAGGACCAGGTCGGCGCCAAACGCTGCGGCCATCGTCCCGGCAAGGAAATCGTCTCCAAGGGCGAGATGGCCGACCGGGTCAAGGCCGCCGCCGATGCCAAGACCGATCCGGAGTTCTTCCTGATCGCGCGCACCGACGCGATCCAGGCCGAGGGCGTGGACGCGGCGATCGAGCGCGCGATCGCCTGCGTCGAGGCCGGCGCCGACGGCATCTTCGCCGAGGCCGCCTACGACCTGCCGACCTACCGCCGCTTCGTCGATGCGGTGCAGGTGCCGGTGCTGGCCAACATCACCGAGTTCGGCAAGACCCCGCTGTTCACCCGCGACGAACTGGCCAGTGCCGGCGTGGCGATCCAGCTGTTTCCGCTGTCGGCGTTCCGCGCGGCCAACAAGGCCGCCGAGAACGTCTACGCGGCGATCCGCCGCGATGGCCACCAGCAGGCGGTCATCGACACGATGCAGACCCGCGAGGAGCTGTACGAGCGGATCGGCTACCACGCCTTCGAGCAGCGGCTGGATGCGCTGTTCGAGCGCAAGGGCGCATGA	MSRVSAGAGFRAALAAESPLQVIGAINANHALLAKRAGYRAIYLSGGGVAAGSLGLPDLGINTLDDVLIDVRRITDVCDLPLLVDIDTGFGPSAFNIERTIKALIKAGAAACHIEDQVGAKRCGHRPGKEIVSKGEMADRVKAAADAKTDPEFFLIARTDAIQAEGVDAAIERAIACVEAGADGIFAEAAYDLPTYRRFVDAVQVPVLANITEFGKTPLFTRDELASAGVAIQLFPLSAFRAANKAAENVYAAIRRDGHQQAVIDTMQTREELYERIGYHAFEQRLDALFERKGA	PGPT0001555_1067	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001555-prpB-K03417	NA	NA
BMS020_07965	612			hypothetical protein	ATGAACAGCCGTCCCGCCACCGCCCATCAGCATCCGCCAGGAAACCGCGTCGACCGCCGCGAGGTTGCGCGGCAACTGCTGCAGCAGGAGCTGGAAAAACTGCCGGTCGACGAGCGCGCGGTGGTCGAGCGCTTCATCGCCAAGCGGCGGGTGGCGCGCAACATCATGCAGGAGTTCGACCAGGGCCAGTCGCTGGGCGATCGGATTGCCGACAAGGTCGCCGACATCGGCGGCAGCTGGACCTTCATCCTCTCGTTCATCGCCTGCCTGCTGGCGTGGATCGGCATCAACAGCTTCGTGCTGGCGCGCGGCTTCGATCCGTATCCGTACATCCTGCTCAACCTGTGCCTGTCGTGCCTGGCGGCGATCCAGGCACCGGTGATCATGATGAGCCAGAACCGCCAGGCCGCGGTCGACCGGCTGCGCGCGCAGAACGACTACGAAGTGAACATCAAGGCCGAGCTGGAGATCCTGCAGGTCCACGAAAAACTCAACCAGCTGCGCGACCAGGACTGGGAAACGCTGGTCGCGCAGCAGAACCGCCAGATCGAGATGCTGCAGCAGCTGCTGGCGCGCGGCGACGCGCAAGCCACGCCCGCCGCCGCGCATTGA	MNSRPATAHQHPPGNRVDRREVARQLLQQELEKLPVDERAVVERFIAKRRVARNIMQEFDQGQSLGDRIADKVADIGGSWTFILSFIACLLAWIGINSFVLARGFDPYPYILLNLCLSCLAAIQAPVIMMSQNRQAAVDRLRAQNDYEVNIKAELEILQVHEKLNQLRDQDWETLVAQQNRQIEMLQQLLARGDAQATPAAAH				NA	NA	NA	NA	NA
BMS020_07966	1155	prpC_2	COG0372	2-methylcitrate synthase	ATGAACGACACCGTCGTCACCGGCTTCAAGCCGAAGAAGTCCGTCGCGTTGAGCGGCACCGCCGCCGGCAATACCGCGCTGTGCACGGTCGGGCGCAGCGGCAACGACCTGCACTACCGCGGCTACGACATCCTCGATCTGGCCACCACCAGCGAGTTTGAGGAGATCGCCTACCTGCTGGTGCACGGCAAACTGCCGACCGCCGCCGAACTGCGTGGCTACAAGGCCAAGCTGAAATCGCTGCGCGGTATCCCGGCGGCGGTGAAGGCGGCGCTGGAGGAGTTGCCGCCATCCGCGCATCCGATGGACGTGATGCGCACCGGCGTGTCGATCCTCGGCTGCGTGCAGCCGGAGAAGGACGACCACAACCATCCCGGCGCGCGCGACATCGCCGACAAGCTGATGGCCTGCCTCGGTTCGATGCTGCTGTACTGGTACCACTGGAGCCACAACGGCCGTGCGATCGACGTGGAGACCGACGACGATTCGATCGGTGGCCATTTCCTGCACCTGCTGCACGGTGAGCAGCCGCGCGAGTCGTGGGTCAAGGCGATGCACACCTCGCTGATCCTGTACGCCGAGCACGAGTTCAACGCATCGACCTTCACCAGCCGGGTGATCGCCGGCACCGGCAGCGACATGTACAGCTGCATCGCCGGCGGCATCGGTGCGCTGCGCGGGCCCAAGCACGGCGGCGCCAACGAGGTCGCCTTCGAGGTGCAGAAGCGCTACGACACGCCTGAGGAGGCCGAGGCCGACATCAAGGCCCGGGTGGAACGCAAGGAAGTGGTGATCGGCTTCGGTCACCCGGTCTACACCGTGTCCGATCCGCGCAACAAGGTGATCAAGCAGGTTGCCAAGGACCTGTCGCAGGAACAGGGCAGCATGAAGATGTACGCGATCGCCGAGCGCCTGGAAGCGGTGATGTGGGACATCAAGAAGATGTTCCCCAACCTCGACTGGTTCAGTGCGGTCAGCTACCACATGATGGGCGTGCCGACGGCGATGTTCACCCCGCTGTTCGTGATCGCGCGCACCGCCGGCTGGAGCGCGCATGTGATCGAGCAGCGCATCGACGGCAAGATCATCCGCCCGAGTGCGAACTACACCGGGCCGGAAGACCAGACGTTCGTGCCGATTGAAAAGCGGGCTTGA	MNDTVVTGFKPKKSVALSGTAAGNTALCTVGRSGNDLHYRGYDILDLATTSEFEEIAYLLVHGKLPTAAELRGYKAKLKSLRGIPAAVKAALEELPPSAHPMDVMRTGVSILGCVQPEKDDHNHPGARDIADKLMACLGSMLLYWYHWSHNGRAIDVETDDDSIGGHFLHLLHGEQPRESWVKAMHTSLILYAEHEFNASTFTSRVIAGTGSDMYSCIAGGIGALRGPKHGGANEVAFEVQKRYDTPEEAEADIKARVERKEVVIGFGHPVYTVSDPRNKVIKQVAKDLSQEQGSMKMYAIAERLEAVMWDIKKMFPNLDWFSAVSYHMMGVPTAMFTPLFVIARTAGWSAHVIEQRIDGKIIRPSANYTGPEDQTFVPIEKRA	PGPT0001480_431	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-CITRIC_ACID_BIOSYNTHESIS,PGPT0001480-prpC-K01659	NA	NA
BMS020_07967	2619	acnM	COG1048	Aconitate hydratase A	ATGATGAACAGTCAATTCCGCAAGCCCCTGCCGGGCACCACGCTTGAGTACTACGACGCCCGCGCCGCGGTCGATGCGCTGCGCCCCGGTGCCTGGGATGGCTTGCCGTACGTCTCGCGCGTGCTCGCCGAAAACCTGGTGCGCCGCTGCGATCCGGCCACGCTCGATGCCTCGCTGCTGCAGCTGATCGAACGCCAGCGTGAGCTGGATTTCCCGTGGTATCCGGTGCGGGTGGTCTGCCACGACATCCTCGGCCAGACCGCGCTGGTCGACCTGGCCGGCTTGCGCGATGCGATCGCCGAGCGTGGTGGCGATCCGGCGCAGGTCAATCCGGTGGTGCCGGTGCAGCTGATCGTTGACCACTCGCTGGCGGTGGAATGCGGTGGCGATGATCCGCAGGCGTTCGCCAAGAACCGCGCGATCGAGGACCGCCGCAACGAGGACCGCTTCCACTTCATCGAGTGGACGCGGCATGCGTTCCGCAACATGGACGTGATCCCGCCGGGCAACGGGATCATGCACCAGATCAACCTGGAGAAGATGTCCCCGGTGGTCTACGTGCAGGACGGCGTGGCGTTCCCGGATACCTGCGTCGGCACCGACAGCCACACACCGCATGTCGATGCGCTGGGCGTGATCGCCATTGGCGTTGGCGGGCTGGAAGCGGAGAACGTGATGCTCGGGCGCGCGTCGTGGATGCGCCTGCCGGACATCGTCGGCGTCGAGTTGAGTGGCCGGCCGCAGCCGGGCATCACCTGCACCGACATCGTGCTGGCGCTGACCCAGTTCCTGCGCGCGCAAAAAGTGGTCGGCGCGTGGCTGGAATTCTTCGGCGACGGAGCCGCGGCGCTGACGATTGGTGATCGCGCGACGATCTCCAACATGTGCCCGGAATACGGCGCGACCGCGGCGATGTTCCATATCGACGCGCAGACGCTGGACTACCTGCGCCTGACCGGCCGCGAGGACGCCCAGGTCGCGCTGGTCGAAACCTATGCAAAAACTGCAGGGTTGTGGGCCGACGACCTGCGTGGCGCGCAGTACGAACGCGTGCTGCATTTCGATCTGTCGAGCGTGGTGCGCAACATGGCCGGTCCATCGAACCCGCACGCGCGGCTGGCGACCAGCGAGCTGGCCGCGCGCGGCGTGTCTGACGAGACCAAGCTGCTCGCCGGCCGCGACGACGAGGCGCAGGGGCTGATGCCCGATGGCGCGGTGATCATCGCCGCGATCACCAGCTGCACCAACACCTCCAACCCGCGCAACGTGATCGCCGCCGGCCTGCTGGCGCGCAACGCCAACCGGCTCGGCCTGGCGCGCAAGCCGTGGGTGAAGTCGTCGTTGGCGCCGGGCTCGCGGGTGGTGCAGGACTACCTGCGCGAGGCCGGGCTGGAGCACGAGCTGGAGCAGCTCGGCTTTGGCGTCGTCGCGTTCGCCTGCACCACCTGCAACGGCATGAGTGGCGCGCTGGCGCCGGCGATCCAGCAGCAGATCATCGACCGCGACCTGTACGCGGTGGCGGTGTTGTCGGGCAATCGCAATTTCGACGGACGCATCCACCCGTATGCCAAGCAGGCGTTCCTGGCGTCGCCGCCGCTGGTGGTCGCCTACGCGATCGCCGGCACGATCCGCTTCGACATCGAGAAGGACGTGCTGGCGGTGGTCGGTGGCCGCGAGATCCGCCTGAAGGACATCTGGCCCAGTGATGCCGAGATCGAGGCGGTGGTGAAGGCGTCGGTCAAGCCGGCGCAGTTCCGCAAGGTCTATGGGCCGATGTTCGACGTGCGCGTCGAGCATGGTGGTCCGATCGATCCGCTGTATGCGTGGCGACCACGCAGCACCTATATCCGCCGGCCGCCGTACTGGGAAGGCGCGCTGGCCGGCGAGCGCACGCTGCGGGGGATGCGGCCGCTGGCGATCCTGCCGGACAACATCACCACCGACCACCTGTCGCCGTCGAACGCGATCATGGCCAACAGTGCCGCCGGCGAATACCTGGCGACGATGGGCCTGCCCGAGGAAGACTTCAATTCCTACGCCACTCATCGCGGCGACCACTTGACCGCGCAGCGGGCCACCTTCGCCAATCCGAAGCTGTTCAACGAGATGGTGCGCAACGCCGATGGCAGCGTGCGGCAGGGCTCGTTGGCGCGGGTGGAGCCGGAAGGCGAGGTGATGCGGATGTGGGAGGCGATCGAGACCTACATGCAGCGCGGCCAGCCGTTGATCGTGATCGCCGGCGCCGACTATGGCCAGGGCAGTTCACGCGACTGGGCGGCCAAGGGCGTGCGGCTTGCGGGCGTCGAGGCGATCGTCGCCGAGGGCTTCGAGCGGATCCATCGCACCAACCTGATCGGCATGGGCGTGCTACCGCTGGAATTTACCCCTGGCAGCAACCGGCTCACGCTGGGCCTGGATGGCAGCGAGACCTATGACGTGGTTGGCGCACGCACGCCGCGCGCGACGCTGACGCTGCGCGTGCATCGGCGCGATGGCAGCACGCTCGAGGTGCCGGTGACCTGCCGGCTGGATTCGGACGAGGAGGTCTCGATCTACGAGGCCGGCGGCGTGCTGCAGCGTTTCGCACAGGATTTCCTCGAATCGGCGCAGGTGGCCTGA	MMNSQFRKPLPGTTLEYYDARAAVDALRPGAWDGLPYVSRVLAENLVRRCDPATLDASLLQLIERQRELDFPWYPVRVVCHDILGQTALVDLAGLRDAIAERGGDPAQVNPVVPVQLIVDHSLAVECGGDDPQAFAKNRAIEDRRNEDRFHFIEWTRHAFRNMDVIPPGNGIMHQINLEKMSPVVYVQDGVAFPDTCVGTDSHTPHVDALGVIAIGVGGLEAENVMLGRASWMRLPDIVGVELSGRPQPGITCTDIVLALTQFLRAQKVVGAWLEFFGDGAAALTIGDRATISNMCPEYGATAAMFHIDAQTLDYLRLTGREDAQVALVETYAKTAGLWADDLRGAQYERVLHFDLSSVVRNMAGPSNPHARLATSELAARGVSDETKLLAGRDDEAQGLMPDGAVIIAAITSCTNTSNPRNVIAAGLLARNANRLGLARKPWVKSSLAPGSRVVQDYLREAGLEHELEQLGFGVVAFACTTCNGMSGALAPAIQQQIIDRDLYAVAVLSGNRNFDGRIHPYAKQAFLASPPLVVAYAIAGTIRFDIEKDVLAVVGGREIRLKDIWPSDAEIEAVVKASVKPAQFRKVYGPMFDVRVEHGGPIDPLYAWRPRSTYIRRPPYWEGALAGERTLRGMRPLAILPDNITTDHLSPSNAIMANSAAGEYLATMGLPEEDFNSYATHRGDHLTAQRATFANPKLFNEMVRNADGSVRQGSLARVEPEGEVMRMWEAIETYMQRGQPLIVIAGADYGQGSSRDWAAKGVRLAGVEAIVAEGFERIHRTNLIGMGVLPLEFTPGSNRLTLGLDGSETYDVVGARTPRATLTLRVHRRDGSTLEVPVTCRLDSDEEVSIYEAGGVLQRFAQDFLESAQVA	PGPT0001515_145	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACONITIC_ACID_BIOSYNTHESIS,PGPT0001515-acnD-K20455	NA	NA
BMS020_07968	459			hypothetical protein	ATGAGCAGCCAGCCCGGGACCGTCACCCTGCAGCGCGTGCTGCGCGCGCCGCCGTCGCGGGTCTACCGTGCCTTCCTCGATCCGCTGGCGATCGCCAAGTGGATGCCGCCGTACGGCTTCATCGCCCGTGTCGATGCGATGGACGTCCGCGTCGGTGGCAGCTTTCGCATGGCGTTCACTAATTTCTCGACCGGCTCCAGCCAGGCGTTTGGCGGCACCTATCTGGAGCTGGTGCCCGATACGCTGATCCGCTACACCGACCGCTTCGACAACCCCGATCTGCCCGGCGAAATGCTGGTGTCGGTGCGATTGCGCGCAGTCGCCTGCGGCACCGAAGTGCGGATCGAGCAGGCCGGCGTGCCGGCGGTGATTCCGCTGGAGTTCTGCTATCTCGGCTGGCAGGAATCGCTGGCGCAGCTGGCGCATCTGGTCGAGCCCGAGATTCCGGACGGGGCCTGA	MSSQPGTVTLQRVLRAPPSRVYRAFLDPLAIAKWMPPYGFIARVDAMDVRVGGSFRMAFTNFSTGSSQAFGGTYLELVPDTLIRYTDRFDNPDLPGEMLVSVRLRAVACGTEVRIEQAGVPAVIPLEFCYLGWQESLAQLAHLVEPEIPDGA				NA	NA	NA	NA	NA
BMS020_07969	558			hypothetical protein	ATGGCGGATGGGTTGATCGTAATGGCGCGCCCGCCGGCCGCGGTGCTGGAGGCGATCGATGCGCGGCTCGCCTCGCTCGGGCTTGCACCGGAGGCGCAACGCGCGCTGGTCGCGCCGGCCAATCGCCACCAGTCGCTGTCGGACAAGCATCCGCCGGACGCGCGCGAACGCCTGCTGCAGGCCTGTGCGGGCATCCGCAGTGCCGGGTTCACGCTGGTGTTCGACCGGATCAGCAGCGGCCGCGAACCGGCCGGTTCGATCCACTGGACGCTGCAGACGCGTGGCGGCAAGCCCGATGGCTTCGTCGAGCTGCTCGAGCAGGTGCGGCGCGCGCTGGCCACGGTCGGCATCGACGACCAGCTCGGCCACAGCGCGCACATCACGCTGAGCTATTTCGCCCGCCAGCCGTTGGGTGATGGCCGTGGAGCGTTGCGGATCGCGCCGATCGCCTGGCAGGTCGACACGATCGAGCTGGTCGCTGCCGGCGGCACGCCATACCGCTACGACACGCTGATGCGATGGCCACTGCTGGCACCGCGCCAGGCCGCGCTGTTCTAG	MADGLIVMARPPAAVLEAIDARLASLGLAPEAQRALVAPANRHQSLSDKHPPDARERLLQACAGIRSAGFTLVFDRISSGREPAGSIHWTLQTRGGKPDGFVELLEQVRRALATVGIDDQLGHSAHITLSYFARQPLGDGRGALRIAPIAWQVDTIELVAAGGTPYRYDTLMRWPLLAPRQAALF				NA	NA	NA	NA	NA
BMS020_07970	1191	prpF	COG2828	2-methyl-aconitate isomerase	ATGAGCCACGTTCCGCAAGTCCGCATTCCTGCCACCTATCTGCGCGGCGGCACCAGCAAGGGCGTGTTCTTCCGCCTCGACGACCTGCCCGAGCGTGCGCGTGCGCCGGGCGCCGCGCGTGATGCGCTGCTGCAGCGGGTGATCGGCTCGCCCGATCCGTATGCCAAGCAGATCGACGGCATGGGCGGGGCGAGCTCGAGCACCAGCAAGACGGTGATCCTGGCGCGCAGCACGCGTGCCGACCACGACGTCGACTATCTGTTTGGTCAGGTCGCGATCGACAGCGCCTTCGTCGACTGGTCCGGCAACTGCGGCAACCTGTCGGCGGCGGTTGGGCCGTTCGCGATTGCCGCCGGGCTGATCGATCCGGCACGGGTGCCGCGCGATGGCCTGTGCACGGTGCGGATCTGGCAGGCCAACATCGGCAAGACCATCGTCGCGCACGTGCCGATCAGCGATGGCCAGGTGCAGGAGACCGGCGATTTCGAGCTGGACGGCGTGACCTTCCCGGCTGCGGAAGTACAGCTGGAATTCCTCGATCCGGCCGACGATGGCGACGGCGAGGGCGAGGCAATGTTCCCCACCGGCCAGTTGGTCGACGACCTCGACGTGCCCGGCATCGGCCGCTTCCGCGCGACGCTGATCAATGCCGGCATCCCGACGATCTTCATCGACGCCGCCGCGCTCGGCTACACCGGCAGCGAGCTGCAGGAGGCGATCAACGGCGATGCGGCGGCGCTGGCGCGGCTGGAGACGATTCGCGCGTATGGCGCGCTGAGGATGGGCTTGATCGACGACCTCGCCCAGGCCGCGACCCGCCAGCACACGCCCAAATTGGCCTTCGTCGCGCCTCCGGCCGACTACCTCAGCTCCAGCGGCAAGCAGGTGCATGCCACCGACATCGACCTGCGCGTGCGTGCGATGTCGATGGGCAAGCTGCACCACGCGATGATGGGCACCGCGGCGGTGGCGATCGGCACCGCCGTGGCGATCCCCGGCACGCTGGTCAACCTGGCCGCCGGTGGAGGCGAGCGCGCCGCGGTGCGCTTCGGCCATCCCTCCGGCACGCTGCGGGTCGGCGCCGAAGCGCGGCTGCAAGACGGCCAGTGGCGCGTGACCAAGGCGGTGATGAGTCGCAGCGCACGGGTGCTGATGGAAGGCTGGGTGCGGGTGCCGGGCGACAGTTTCTGA	MSHVPQVRIPATYLRGGTSKGVFFRLDDLPERARAPGAARDALLQRVIGSPDPYAKQIDGMGGASSSTSKTVILARSTRADHDVDYLFGQVAIDSAFVDWSGNCGNLSAAVGPFAIAAGLIDPARVPRDGLCTVRIWQANIGKTIVAHVPISDGQVQETGDFELDGVTFPAAEVQLEFLDPADDGDGEGEAMFPTGQLVDDLDVPGIGRFRATLINAGIPTIFIDAAALGYTGSELQEAINGDAAALARLETIRAYGALRMGLIDDLAQAATRQHTPKLAFVAPPADYLSSSGKQVHATDIDLRVRAMSMGKLHHAMMGTAAVAIGTAVAIPGTLVNLAAGGGERAAVRFGHPSGTLRVGAEARLQDGQWRVTKAVMSRSARVLMEGWVRVPGDSF	PGPT0001520_395	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACONITIC_ACID_BIOSYNTHESIS,PGPT0001520-prpF-K09788	NA	NA
BMS020_07971	630			hypothetical protein	GTGACCGAAGTCGCTTTGCCGCCGGATGTGGATGCCGTCGTGTTCGACCTGGGCGGCGTGTTGATCGACTGGAATCCTCGCCATCTGTACCGCCAGCTGTTCGACGACGCGGCGGCGATGGAACGTTTCCTCGCCGAGGTCTGCAGCCCGGCGTGGAATGCGCGCCAGGATGCGGGCCGGCCATGGGACGAGGCGGTGGCCGATCTGGCGGCGCGGTATCCGGAACAGGCCGCGCTGATCGCGGCGTTCCGCGACCGCTGGGACGAGATGCTGGGCGGCGAGATCGCCGGCAGCGTGGCGTTGCTGGCCGAGCTGCGCAGGCATGGGGTGCCGGTGTACGCGCTGACCAACTGGTCGCAGCAGACCTTTCCGGTGGCGCAGGCGCGCTACCCGTTCCTGGGCTGGTTCGGCGGCATCGTGGTGTCCGGCGAAGAGGGCCTGATCAAGCCGGATGCGGCGATCTATGCGCGGATGCTGCAGCGCTTCGGCCTGGACCCGGCGCGGACCGCCTTCATCGACGATGCCCCGGCCAACGTTGCCGCCGCCGCGGCGCTGGGCCTGCGGGCGCTGCAGTTCCGCGATCCGGAGCGGTTGCGCGCCGACCTGCGCGGGTTGCGGTTGCCGGTCTGA	MTEVALPPDVDAVVFDLGGVLIDWNPRHLYRQLFDDAAAMERFLAEVCSPAWNARQDAGRPWDEAVADLAARYPEQAALIAAFRDRWDEMLGGEIAGSVALLAELRRHGVPVYALTNWSQQTFPVAQARYPFLGWFGGIVVSGEEGLIKPDAAIYARMLQRFGLDPARTAFIDDAPANVAAAAALGLRALQFRDPERLRADLRGLRLPV	PGPT0006885_3237	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
BMS020_07972	2238	btuB_28		Vitamin B12 transporter BtuB	ATGCCCGTCATCCGCTCGCTGCGCGCCAGCGCACTTGCCGTTGCAGTCCTGTCCACCGTCCCGTTCGCCGCTGCCGCCCAGCAGTCCGGTGTCGCCCAGCTTGATTCGGTCAAGGTCACCGCCGACCGCAAGGTGGAAGACTCCAAGGACGTGCCGGTCTCGGCTACCGTGCTGCGCCCGGAATACCTCGATGCGATCGCCACCAGCGCCTCCGACGTACGCGTGCTGGCCGGCAAGGTGCCGAGCCTGAACATCGAGTCGTCCAACGGCCGCGTGTTCCCGCGCTTCTACATCCGTGGCTACGGCAACACCGATTACACCACCTACGCCTCGCAGCCGGTGTCGCTGGTGTACGACGACGTGGTGCTGGAGAACGCCTTCCTGAAGGGCTTCCCGATGTTCGACCTGGACGGCGTGGAAGTGCTGCGCGGTCCGCAGGGCAGCCAGTTCGGCCGCAACACCCCGGCCGGCGTGGTCAAGTTCAACTCCGCCAAGCCGGTGCTCGGCGACACCAGCGGGTACGTCAACGCCTCCTACGGCACCCACGCGACCACCTCGCTGGAAGGCGCGCTCAACCTGCCGATCAACGATGCCTGGGCTGCGCGCATCTCGCTGCTGCAGCAGCACCGCAACGACTACGTCACCAGCCAGGTCACCGGCCAGAAGCTGGAAGGCTACGACGACAACGCCGCGCGCGTGCAGGTGCTGTTCCAGCCCGACGAGGACTTCAGCGCGCTGTTCAACGCCCACGTGCGCAAGCTCAACGGCACCGCACGGCTGTTCCGCGCCAACATCTTCAATGCCGGCAGCAACCAGCTGGTCGACGGTTTCGACGTCGACAAGGCCTACATCGACGGCTACAACACCCAGCAGCTGACCACCTGGGGCGCCAGCGCCAACCTGACATGGGACCTGGGCGACATCGCGCTGCATTCGATCACCGGCTACGAGGCGGTGCCGAAGTACTACAGCCGCGGTGACATCGACGGCGGCAACACCACCGTCGCGCCGACCGGCCCGGGCACGATTCCGTACGCGTCGGAAACCGCCGGCGGGATCAAGGATCTCAGCCAGTTCACCCAGGAGCTGCGGCTGGAATCACAGTACGCCGGGCCGCTGAACTGGCAGGCCGGCGTCTACTACTTCGCCGACGACGTCGAAGGCGAGGGCTACGCGTACACCACGCCGGCCGGCAGCGACAAGGGCAACTGGTCCGGCTACGACCTGAGCCGGCAGAAGAACACCTCGTGGGCGGGCTTCGGCTCGATCAACTGGCAGGCCACCGAGCGCCTCAACGTGCGCGCCGGCCTGCGCTACACCTACGACAAGAAGACCTTCGACGTGCTGGCCTGGGACTATGGCTTCTCCAGCCCGACCGCGTACCCGACCTTCCCGGACGGCCGCAAGATCAGCGACTCCAAGGTCAGCGGCGACGCCAGCGCCACCTTCGCGCTGACCGACGACGTCAATGTCTACGCCCGCTACGCGCGCGGCTTCCGCGCCGGCAGCTTCTCGGCGCCGACCCAGTTCCTGTCCACGCTGACCAGCGTCGAGCCGGAAACCGTCGATTCCTGGGAGACCGGCATCAAGGCCGACCTGTTCGACCGCCGTGCCCGCGTCGATTTCGACGTGTACTGGATGAGCATCAAGAACCAGCAGCTGACCGCGGTCGGCGGCGCCGCCAACTCGGTGCAGCTGATCAACGCCGACAAGAGCGAGGCCTACGGCGCCGAGTTCAACTTCGAGGCGCTGGTCACCGAGAACCTGCGCTTCACCCTCGGCGGCAGCTACAACCACACCGAGCTGAAGGACCGCGACCTGGCGACCTCGGCCTGCGGTTCGGGCATGTGCACCGTGACCGACCCGCTCAACGCCGACGGCTACGCGCTGCTGTACGGCAACGCGCTGCCGCAGGCGGCCAAGTGGATCGGCAACGCCACGCTGCGTTACGGCATCCCGATGGGCGACGACGGTGAGCTGTTCTTCTACACCGACTGGTCCTACCGCAGCGAGGTCAACTTCTTCCTGTACGAGTCGAAGGAGTTCATCGGCCAGCCGCTGTTCGAGGGCGGTGCGAAGATCGGCTACAACTGGGCCGGCGGCCAGTACGAGGCCTCGGTGTTCTGCCGCAACTGCACCAACCAGATCCGTGCCACCGGTGCGATCGACTTCAACAACCTCACCGGCTTCGTCAACGATCCGCGCGTGATCGGCGTGCAGTTCCGCGCCGGCTTCTGA	MPVIRSLRASALAVAVLSTVPFAAAAQQSGVAQLDSVKVTADRKVEDSKDVPVSATVLRPEYLDAIATSASDVRVLAGKVPSLNIESSNGRVFPRFYIRGYGNTDYTTYASQPVSLVYDDVVLENAFLKGFPMFDLDGVEVLRGPQGSQFGRNTPAGVVKFNSAKPVLGDTSGYVNASYGTHATTSLEGALNLPINDAWAARISLLQQHRNDYVTSQVTGQKLEGYDDNAARVQVLFQPDEDFSALFNAHVRKLNGTARLFRANIFNAGSNQLVDGFDVDKAYIDGYNTQQLTTWGASANLTWDLGDIALHSITGYEAVPKYYSRGDIDGGNTTVAPTGPGTIPYASETAGGIKDLSQFTQELRLESQYAGPLNWQAGVYYFADDVEGEGYAYTTPAGSDKGNWSGYDLSRQKNTSWAGFGSINWQATERLNVRAGLRYTYDKKTFDVLAWDYGFSSPTAYPTFPDGRKISDSKVSGDASATFALTDDVNVYARYARGFRAGSFSAPTQFLSTLTSVEPETVDSWETGIKADLFDRRARVDFDVYWMSIKNQQLTAVGGAANSVQLINADKSEAYGAEFNFEALVTENLRFTLGGSYNHTELKDRDLATSACGSGMCTVTDPLNADGYALLYGNALPQAAKWIGNATLRYGIPMGDDGELFFYTDWSYRSEVNFFLYESKEFIGQPLFEGGAKIGYNWAGGQYEASVFCRNCTNQIRATGAIDFNNLTGFVNDPRVIGVQFRAGF	PGPT0003790_17107	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_07973	960	rihA_3	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihA	ATGAAGATGCTTACGCGCGGCTGGCTGGCCGCCTTGCTGTTGGGCCTGGCCGCGCCGGCATCGGCGCTGTCGCCGCCGATGCCGCAGCCGGTTGTGGTGTCGACCGACGTCGGCGACGACATCGATGACGCCTTCGCGCTGGCGTTGCTGCTGCGCAGCCCGGAGCTGGAGGTGCGCGGCATCGCCTCGAGCTGGGGCGACACCGCGCTGCGCACCCGACTGCTGCAGCACCTGCTCGCCGTGGCCGGGCGCAGCGACATCCCGCTCGCGGTCGGTGCGCCCACCACCAGCACCATTCCCTTCAGCCAGGCGCGCTGGGCCGCACGCGGCAGCCTGCCGGCGCAGGCGCCGGATGCGGCGGCGATGATCCTGGCGCAGGCGCGCGCCCAGCCCGGGCAGGTCAGCCTGCTGGTACTGGGGCCGCTGACCGACGCGGCGCAGGCGCTGCAGCGCGATCCGGCGGCGTTCGCGCAGTTGAAGCGGATCGTGCTGATGGGCGGCTCGCTGCGTCGCGGCTACGGCAAGTCCGCGTACCGCGCGCCGAGCGCACCGGCGGCCGAGTACAACATCGCCGCCGACATTCCGGCCGCGCAGGCGGTGTTCGGCGCCGGCGTGCCGATCGTGATGCTGCCGCTGGATTCGACCCAGGTCACGTTGGAAGAGCCGCAGCGGGTGGCCTTGTTCGCCCATGGCGACGGGCTGACCGACGCGCTGGCGCAGCTGTACTACCAGTGGCGCGACACCGACCAGCCGTGGGCGGCCGCGTCGCCGACACTGTTCGACGTGGTGCCGGTGGCGTATCTGGCACGGCCTGGCCTGTGCCCGACTGTGCCGCTGCATGTCGCAGTCGATGGGCAGGGCTACACCCGCGAGGCGGCCGGCACGGCGAACGTGCAGGCCTGCCTGCGGCTCGACGCGCCGGCGCTGATCGACTTCTACATGCAGCGCCTGCTGCGCTGA	MKMLTRGWLAALLLGLAAPASALSPPMPQPVVVSTDVGDDIDDAFALALLLRSPELEVRGIASSWGDTALRTRLLQHLLAVAGRSDIPLAVGAPTTSTIPFSQARWAARGSLPAQAPDAAAMILAQARAQPGQVSLLVLGPLTDAAQALQRDPAAFAQLKRIVLMGGSLRRGYGKSAYRAPSAPAAEYNIAADIPAAQAVFGAGVPIVMLPLDSTQVTLEEPQRVALFAHGDGLTDALAQLYYQWRDTDQPWAAASPTLFDVVPVAYLARPGLCPTVPLHVAVDGQGYTREAAGTANVQACLRLDAPALIDFYMQRLLR	PGPT0013465_595	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
BMS020_07974	4941	yfhM_2	COG2373	Alpha-2-macroglobulin	ATGGGAACGCAGGCGAAGGCAGGGAGTCACGGCAGGCGCGTCGTCCAGACGCTGGCGATCGCGGGGTTGGCGATGCTGGTGCTGGCGATGGCCGGCTGCAAGCGCAACGAGAGCGGCCAGTTGCCAACCGCCAGCGGCGAGGCGATCCAGGCCCACAAGGATGAGGTCAAGGGCTTCGCGCTGGTGCGCGCCTACCCCGACCAGAAGGGCGACGGCGTGTCGCTGGCGCTGGAATTCTCCCGGCCGCTGGTCGGGACCCAGGATTTCGACGCGTTGGTGCGGTTGGAGGAGAAGGTCGGTGACGGCGACAGCAGCTGGTCGCTGTCCGACGATGGCAAGACCCTGCGCTATCCCTTCGTCGAAGCGGCCAAGGACTACACCGTGGTGCTGTCGGCCGACCTGCTCGCCGCCGACGGCAGCCGCCTGGGCCAGCAGCTCAAGCAGAAGGTCTACACCGGCGAGCTCAAGCCGGCCGCCGGCTTCGCCTCGCAGGGCAGCGTGCTGCCGGCACGCGAGAGCCGCGGTCTGCCGGTGGTGTCGGTCAACGTGCCGGAGGTCGACGTCGAGTTCCTGCGCGTGCGCGAGAAGTCGCTGCCGGCGTTCTTCGCCCAGTACCAGCGCGGCGGCCGCCGCGGCAGCTGGGAACTGGACAGCGACTACAGCGACAACACCCCGATCGCGCAGCTGGCCGAGCCGGTGTACGTCAACCGCTTCGTGCTCGGCAGCAAGCAGAACGAGCGTGCGCTGACCTACCTGCCGATCCAGGAGATCAAGGAGCTGCAGCAGCCGGGGCTGTATTTCGCGGTGATGAAGCGCACCGGCAGCTTCGACAACGAGTACGACACCGCGTTCTTCACCGTCAGCGACATCGGCCTGCACACCCGCGCCTACAAGGACAAGCTGTTCGTGCACACCGCCTCGCTCAAGAGCGGCGAGCCGGTGAAGAACGTCGAGCTGCGTATCCTCGACGCCAAGGGCGAGCTGTTCTTGAAGGCGGCCACCGACGGCAACGGCAACGCGTTGCTGAACTACACCCTGGACGCCGGCCACGTGCTGGTGGCCAGCAGCGGCACCGACGTGTCGATGCTGCCGTTCAACCAGCCGGCGCTGGACCTGAGCGAATTCGCGGTGGCCGGGCGCGAGAACGCCTGGTTCGACGTGTTCGCCTGGTCCGGGCGCGACCTGTACAGGCCCGGCGAGACGCTGCGGGTCTCGGCGATCCTGCGCGACAACGACGGCAAGCCGGTGGCCGGCCCGGGCAAGGGCGGGCAGCCGGTGTTCCTGCGGCTCAAGCAGCCCGACGGCAAGACCTTCCGCGAGACCCGGCTGCAACCGGGCGAGCAGGGCTATTTCGAGTTCACCCAGACGATTCCCGCCGATGCGCCGACCGGGCGCTGGCAGGTCGAGTTCCGCACCGATCCGGCCAGCAAGGAGGCGGTGCAGGGCATGACCGTGCGGGTGGAGGAGTTCCTGCCCGAGCGCATGAAGCTGGACCTGGGCAGCCCGCAGAAGACCATCAAGCCGGGCCAGCCGTTCAAGCTGACCGCCGATGCCGCCTACCTGTATGGCGCGCCGGCCGATGGCAACCGCTTCACCGCCAAGCTGGCGGTGGCGGTCGAGCAGCACCCGCTCGACGGCATGCCGGGCTGGTTCTTCGGCGACCCGACCCAGCAGCTGCCGCGCGAGGCCAAGGACGTCATCGACACCGAATTCGGCGCCGACGGCCGCATCGCCGAGGACGTCGACCTGCCGGTCGATGCCAAGCCGCTGACGCCGGTGGGCGCGGTGGTGTCCGGCAGCGTCTACGAGACCGGCGGCCGCACCGTCACCCGCACCGTCAAGCGCGTGCTGTGGCCGGCGCCGGCGCTGGTCGCGGTGCGCCCGCTGTTCGACGATGCCGACGGCGCCGACGCCAACAGCAACGCGCGCTTCGAGCTGACCCGGGTCGACGCCGACGGCAAGCCGCAGCCGGCCAAGGGCCTGAAGGTCACCCTGGTACGCGAGCTGCGCGACTACCACTGGACCTACGCCGACGACCGCTGGGACTACGACTTCACCCGGCGCTTCGAGAACAAGGACACGCGTACGCTGGATGTCGGCGGCGAAAGCGCCAAGTTCGACTTCCCGGTGGAGTGGGGCGAGTACCGCGTCGACGTGTTCGACCCGGCCAGCGGCCTGACCATGCGCTATCCGTTCCATGCCGGCTGGAGCTGGGGCGATGAGAACCGCGGCCTGGACGCGCGTCCGGACAAGGTCAAGGTGGCGCTGGACAAGACCGCCTACCGCGCCGGCGACACGCTCAAGGTCACCCTGACCCCGCCGCACGCCGGCAAGGGCCTGCTGCTGGTGGAGAGCGACAAGCCGCTGTACGTGCAGGACATCGACGTCAAGCCGGGCAGCAGCTTCGAGATCCCGGTCAGCGCCGAATGGGAGCGCCACGACGTCTACGTGACCGCGCTGGTGTTCCGTGGCGGCAGCGCGCCGAGCAAGGTGACGCCGGCGCGCGCGGTGGGCGTGGCGCACGTGCCGATGGACCGCAAGGCGCGCCGCGTCGCGGTCGGCCTGAGTGCGCCCAAGCAGATGCGCCCGGAACAGCCGCTGCCGGTGACGGTCAGCGTGCCCGAACTGGCCGGCAAGGCCGCGCACGTGACCGTGTCGGCGGTGGACGTGGGCATCCTCAACATCACCCGCTTCCCGGTGCCGGACGCCAACGCGCAGTTCTTCGCCCAGCGTCGGCTCGGCGTGGACGCCTATGACATCTATGGGCGGGTGATCGAAAGCTTCGAAGGCGCCAGCGGCAAGCTGAAGTTCGGCGGCGACATGGCGCTGGAGGCGTTGCCGCAGGCCAAGCGCCCGACCGCGCGGGTGCAGACCGTCGACCTGTTCTCCGGTTCGGTCAAGCTCGACGCCAAGGGCATCGCCAAGCTGCAGCTGCCGGTGCCGGACTTCAACGGCACGCTGCGGGTGTCGGCGCTGGTGTATGCCGATGAGCGCTACGGCAACCGCGACGTGGAGACCGTGGTGCGCGCGCCGATCCTGGCCGAAGCCAGCATGCCGCGGGTGATGGCGCCGGGCGATCGCAGCACGGTGACCCTGGACGTGCAGAACTTCACCGGCAAGCCGGGCGAGTTCAAGGTGCGCGTGGACGGCATCGGGCCGCTGGCGATCGGCGAAGGCAGCCGCGTGGCCAAGCTCGGCGTCGATGCCAAGACCACGCTGAACTTCCCGCTGGCCGCGCAGGAGGGCTACACCGTGGCCAAGGTGCGGGTGCAGGTGGAGGGCAACGGCTTCAAGGCCGATCGCCGCTACGACCTGCCGGTGCGCGCGGCGTGGCCGTCTGTGCTGCGCTCGCAGACCCGCGTGCTCGACCCGGTCGCGCCGGTGACGCTGGAGGCCGGCATGGCCGAGGGCCTGATGGCCGGCTCGGTCAGCGCACGCATGACGGTCAGTGCCCTGCCGGCGATCCCGTTCGCCAGCGCGTTGAAGGGTGCGCTGGACTATCCGTATGGCTGCGCCGAGCAGACCACCAGCAAGGGCTACGCCGCGCTGCTGCTCGATGACGCCACCGCGACCATGCTCGGTGCCAAGGGGCTGGAGGTGGACAAGCGCCGCGAGCGCATGGAAGGCGCGTTCGGGCGCCTGGCCTCGATGCAGGTGTCCAGCGGCCACTTCTCGATGTGGGGCGACGACGGCTACGTCAACGCCGGGCTGACCCCGTACATCGCCGAGTTCCTGCTCGACGCCAAGGAGGCCGGTTTCGCGGTGCCGGAGGGCGTGCTGCAGAAGGCGCTGAACCGGCTCAGCGAAGACCTGCTGTCCGGCGGCAACCAGTTCTACGGCCAGGACCGCCGCGAGGAGCTGAAGTTCGCCAACCAGGCCTGGTCCGGCTATGTGCTGGCCCGCGTCAACCGTGCGCCGTTGGGCACGCTGCGCGCGCTGTACGACAACGACCGCGGCAAGGCGGTGAGCGGGCTGTCGCTGGTGCAGCTGGGCGTCGCGCTGTCGCTGCAGGGCGACACCAAGCGCGGTGCGGCGGCGATCAAGGTCGGGTTCGACAAGGACAACGCCGAGCGTCCGTACTACTTCGGCGATTACGGCAGCGTGGTGCGCGACGATGCGCTGATGATCGCGCTGCTGCACGAACGCGGCCTGGCCAAGCCCGAGTACGACGCCCGCGCGATCGCGTTGGGGCGTGCGCTCGATGCGCGCCGCAACAGCGGCTGGCTGTGGTTGAGCACGCAGGAGCAGGTCGCGCTGGCGCGGATGGGCAAGGCGCTGCTGGCCGACCAGAAGAAGCAGCTGTCGGGCGAGCTGGCGGTGGGGGACCAGGTCGAGGCGATCGCCCCGACCCGGCTGTTCGGGCGCGGGTTCGACGGCGCCGAGCTGGCGCGTGGCGTGCGCTTCACCCCGCAGGGCGAAGCCCCGCTGTTCGCCAGCCTGGACATCGCCGGCATCCCGCGCCGCGCGCCGGACCCGGACAACAGCCAGATCGGCGTGGAGCGCAGCTGGTACACCACCGACGGCAAACCGTGGACGCCGCGGCCGCTGAAGGAGGGCGAGGCGCTGATCGTGCGCGTGGCGATGACCGCCAACACCAGCATGCCCGATGCGCTGCTGACCGACCTGCTGCCGGCCGGCCTGGAGATCGAGAACTTCAATCTCGGCGATGCCAAGCAGTGGGCCGACGTGGTGGTGGACGGCATCGGCATCAGCGACCGCGCCAATGCCGCCGACGTCAAGCACGAGGAGTTCCGCGACGACCGCTACGTGGCGGCGCTGTCGCTCGCGCGTGGCAGCAAGGCGCAGGTGTTCTACCTGGTGCGTGCGGTGACCCCGGGCACCTATACGGTGCCGCCGCCGCTGGTCGAGGACATGTACCGCCCCGACCTGCGCGGCGTCGGCCGCAGCACGCCGAGCACGATCACGGTGGTGCAGCCGTAG	MGTQAKAGSHGRRVVQTLAIAGLAMLVLAMAGCKRNESGQLPTASGEAIQAHKDEVKGFALVRAYPDQKGDGVSLALEFSRPLVGTQDFDALVRLEEKVGDGDSSWSLSDDGKTLRYPFVEAAKDYTVVLSADLLAADGSRLGQQLKQKVYTGELKPAAGFASQGSVLPARESRGLPVVSVNVPEVDVEFLRVREKSLPAFFAQYQRGGRRGSWELDSDYSDNTPIAQLAEPVYVNRFVLGSKQNERALTYLPIQEIKELQQPGLYFAVMKRTGSFDNEYDTAFFTVSDIGLHTRAYKDKLFVHTASLKSGEPVKNVELRILDAKGELFLKAATDGNGNALLNYTLDAGHVLVASSGTDVSMLPFNQPALDLSEFAVAGRENAWFDVFAWSGRDLYRPGETLRVSAILRDNDGKPVAGPGKGGQPVFLRLKQPDGKTFRETRLQPGEQGYFEFTQTIPADAPTGRWQVEFRTDPASKEAVQGMTVRVEEFLPERMKLDLGSPQKTIKPGQPFKLTADAAYLYGAPADGNRFTAKLAVAVEQHPLDGMPGWFFGDPTQQLPREAKDVIDTEFGADGRIAEDVDLPVDAKPLTPVGAVVSGSVYETGGRTVTRTVKRVLWPAPALVAVRPLFDDADGADANSNARFELTRVDADGKPQPAKGLKVTLVRELRDYHWTYADDRWDYDFTRRFENKDTRTLDVGGESAKFDFPVEWGEYRVDVFDPASGLTMRYPFHAGWSWGDENRGLDARPDKVKVALDKTAYRAGDTLKVTLTPPHAGKGLLLVESDKPLYVQDIDVKPGSSFEIPVSAEWERHDVYVTALVFRGGSAPSKVTPARAVGVAHVPMDRKARRVAVGLSAPKQMRPEQPLPVTVSVPELAGKAAHVTVSAVDVGILNITRFPVPDANAQFFAQRRLGVDAYDIYGRVIESFEGASGKLKFGGDMALEALPQAKRPTARVQTVDLFSGSVKLDAKGIAKLQLPVPDFNGTLRVSALVYADERYGNRDVETVVRAPILAEASMPRVMAPGDRSTVTLDVQNFTGKPGEFKVRVDGIGPLAIGEGSRVAKLGVDAKTTLNFPLAAQEGYTVAKVRVQVEGNGFKADRRYDLPVRAAWPSVLRSQTRVLDPVAPVTLEAGMAEGLMAGSVSARMTVSALPAIPFASALKGALDYPYGCAEQTTSKGYAALLLDDATATMLGAKGLEVDKRRERMEGAFGRLASMQVSSGHFSMWGDDGYVNAGLTPYIAEFLLDAKEAGFAVPEGVLQKALNRLSEDLLSGGNQFYGQDRREELKFANQAWSGYVLARVNRAPLGTLRALYDNDRGKAVSGLSLVQLGVALSLQGDTKRGAAAIKVGFDKDNAERPYYFGDYGSVVRDDALMIALLHERGLAKPEYDARAIALGRALDARRNSGWLWLSTQEQVALARMGKALLADQKKQLSGELAVGDQVEAIAPTRLFGRGFDGAELARGVRFTPQGEAPLFASLDIAGIPRRAPDPDNSQIGVERSWYTTDGKPWTPRPLKEGEALIVRVAMTANTSMPDALLTDLLPAGLEIENFNLGDAKQWADVVVDGIGISDRANAADVKHEEFRDDRYVAALSLARGSKAQVFYLVRAVTPGTYTVPPPLVEDMYRPDLRGVGRSTPSTITVVQP				NA	NA	NA	NA	NA
BMS020_07975	2382	pbpC_2	COG4953	Penicillin-binding protein 1C	ATGGACGACGCGCACCACCTGGAAGCCCCGCAACCGCACCACTGGCGCCGACGTGCGCTGACGCTGCTGCGCTGGGGCACGGTGGCGTTGCTGACGCTCCTGCTGCTGCTCGACCTGGCCTTCCCGCCGCCGCTGCCGAAATCGCGCGACACCTCCACGCTGGTGGTCGCGCGCGACGGCACGCCACTGCGCGCGTTCGCCGACAGCGACGGCGTATGGCGCTATCCGGCCACGCCCGAGGCGGTCTCGCCGCTGTACCTGCAGGCGCTGTTGAACTACGAGGACCGCTGGTTCTGGCGCCACCCGGGGGTCAATCCGTGGGCGCTGCTGCGCGCCAGCGGGCAGTTGCTGCGTTCGCGGCATATCGTCTCCGGCGGCTCGACGCTGACCATGCAGGTCGCGCGCATCCTCGATCCGCATACGCGCACGCCGTGGGGCAAGCTCAAGCAGCTGCTGCGCGCGCTGCAGCTGGAGGTGCACCTGAGCAAGCGCCAGATCCTGCAGCTGTACCTGGAACGCGCGCCATACGGCGGCACCATCGAGGGCGTGGAGGCGGCCAGCTGGGCCTACCTGGGCAAGCCGGCCTCGCAGCTGTCGCGCGCCGAGGCCGCGCTGCTGGCGGTGCTGCCGCAGTCGCCCAGCCGGTTGCGCCCGGACCGGCATCCGGAGGCCGCGCGCATCGCCCGCGACAAGGTGCTCGAACGCATGGTCGCGCTTGGCGTGTGGAGCCGCGAGCAGGTCGACGACGCTCGCATCGAGCCGGTGGTCGCGCGCTCGCTGCAACCGCCGCTGCACGCGGCGCTGCTGGCCCAGCAGCTGCGGGTCAAGCAGCCGCGCGCGGCGCGGATCGTCTCCACCATCGATCCGGAACTGCAGCGCACGCTGGAGGAGCGCGTCGCCGCGTATTTTTCGCAGTTGCCCGAGCGCACCTCGGCGGCGCTGCTGGTGGTCGACAACGCCACGCTGGAGGCGCGCGCCTATGTCGGCTCGGTGGCGTTCGGCGACCGCAAGCGGCTTGGCCATGTCGACATGGTGCAGGCCTGGCGCTCGCCCGGCTCCACGCTCAAGCCGTTCCTGTACGGCATGGCGCTGGACGATGGCCTGATCCATTCCGAGAGCCTGCTGGTGGATGCGCCGCAGAGCTTCGGCGACTACCGCCCGGGTAATTTCGATGCCGCATTCAACGGCCCGATCGGCGCCGCCGAGGCGTTGCGGCTGTCGCTCAACGTGCCGGCGGTGGATCTGCTCGACCGGGTCGGCCCGGCGCGTTTCGCCGCGCGCCTGGACAACGCCGGCATCACCCTGCGCTTCCCGCACGGCAGCGCGCCCAACCTGGCGCTGATCCTCGGTGGCACCGGCGCGCAGCTGCAGGAACTGGTTGGCGCCTATGTCGCGCTCAACCGCGGCGGCATCGCCGGCCACGTGCGCTACACGCCCGACGACCCGCGCATCGAGCGCCGGGTGATGTCGCCGGGCGCGGCGTGGATCGTGCGCGAGATCCTCGAAGCCAATCCACGCCCGGGCTATGGCCTGGGCACCTTCGATACCGCCACGCGGCCGCGGGTGGCCTGGAAGACCGGCACCAGCTACGGCTTCCGCGATGCCTGGGCGATCGGCGGCACGCGCCGCTACACCGTCGGCGTGTGGGTCGGCCGACCGGACGGCACGCCGCTGCCCGGCCAGTACGGCGCGGTCACCGCGTTGCCGTTGATGTTCGAGGTGGTCGATTCGCTGCCGCGCGCGCGCGGCGATGCCGCGCCGGCGCCGCTGCCGGGCAACGTGCGTGAACTCGACGTGTGCTGGCCGCTGGGGATCGCCGCCGATGCGACCGCGCCGGCGCTGTGCCGGCGGCGCATGCAGGCCTACAGCCTGGACGGCGTGGTGCCGCCGACCTTCGCCGAGCGCGACGCGCGGCTGTGGCAGTCCGGGCTGCAGCGTTTCCAGGTCGATGCACGCAGCGGGCAGCGGCTCTCGGCTGCGTGCAGCAAGCCGCATGTGTCGCGGGCGGCCGAGCGTGCGCGCTGGCCGGCGCTGCTGTCGCCCTGGCTGTCGGCGGCCGACCGCCAGGCCGCCGCGTTGCCGCCGCTGGCGCCGGACTGCGCGCCGGACGGGCGCGATGCGGGCGGCACGCTGCGCATTGATGGGCTGCTCGACCGCGCCACGCTGGCGCGTGCGCCGGGCAGCGTGCATCCGGTACGCCTGCAGCTGCGCGCGCTCGGCAGCGAGGCGCGCATCGACTGGCTGCTGGACGGGCGCTGGATCGCGCAGACTGAGGGCGCGCGGACCTTCCAGCGCGATTTCGGCGAGGTCGGCGAACACACCTTGACCGCACTCGGCGAGGATGGCGCCTGGAGCAGCCTGCGGTTCCGGGTGCTGCGGTGA	MDDAHHLEAPQPHHWRRRALTLLRWGTVALLTLLLLLDLAFPPPLPKSRDTSTLVVARDGTPLRAFADSDGVWRYPATPEAVSPLYLQALLNYEDRWFWRHPGVNPWALLRASGQLLRSRHIVSGGSTLTMQVARILDPHTRTPWGKLKQLLRALQLEVHLSKRQILQLYLERAPYGGTIEGVEAASWAYLGKPASQLSRAEAALLAVLPQSPSRLRPDRHPEAARIARDKVLERMVALGVWSREQVDDARIEPVVARSLQPPLHAALLAQQLRVKQPRAARIVSTIDPELQRTLEERVAAYFSQLPERTSAALLVVDNATLEARAYVGSVAFGDRKRLGHVDMVQAWRSPGSTLKPFLYGMALDDGLIHSESLLVDAPQSFGDYRPGNFDAAFNGPIGAAEALRLSLNVPAVDLLDRVGPARFAARLDNAGITLRFPHGSAPNLALILGGTGAQLQELVGAYVALNRGGIAGHVRYTPDDPRIERRVMSPGAAWIVREILEANPRPGYGLGTFDTATRPRVAWKTGTSYGFRDAWAIGGTRRYTVGVWVGRPDGTPLPGQYGAVTALPLMFEVVDSLPRARGDAAPAPLPGNVRELDVCWPLGIAADATAPALCRRRMQAYSLDGVVPPTFAERDARLWQSGLQRFQVDARSGQRLSAACSKPHVSRAAERARWPALLSPWLSAADRQAAALPPLAPDCAPDGRDAGGTLRIDGLLDRATLARAPGSVHPVRLQLRALGSEARIDWLLDGRWIAQTEGARTFQRDFGEVGEHTLTALGEDGAWSSLRFRVLR	PGPT0023940_98	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023940-pbpC-K05367	NA	NA
BMS020_07976	570			hypothetical protein	ATGTCAAAGCCAGCCAAGCAGACCGCCACCCGCACCACCACCGGCATCGACGACACCGCCACGCTGCGCGCCAACGCGCGCAAGCGCATCGAGGACGGGGCGATCACCGACAGCTACAGCGCCGACCGCAAGGCGGTGATCAAGCTGCTCAACGACGCGCTCGCCACCGAATATGTGTGCGTGCTGCGCTACTACCGCCATTACTTCATGGCCAAGGGCATGCTCGCCGACGCGGTCAAGGCCGAGTTCCTCGAGCACGCGCAGCAGGAACAGGCGCATGCCGGCAAGCTGGCCGAGCGCATCGTCCAGCTCGGCGGCGAACCGGACCTCAACCCGGACACGCTGAGCGCGCGCTCGCACGCCGAGTACAAGGAAGGCAGCGACCTGCGCGACATGGTGCGCGAGAACCTGATCGCCGAGCGCATCGCGATCGACAGCTACCGGCAGATGATCAACTTCGTCGGCGACAAGGACACCACCACCAAGCGCATCCTGGAGGAGATCCTGGCGCAGGAGGAGGAGCACGCCGACGAGTTCGCCGACCTGCTGGAAGGCTGGATCGGGAAGTAA	MSKPAKQTATRTTTGIDDTATLRANARKRIEDGAITDSYSADRKAVIKLLNDALATEYVCVLRYYRHYFMAKGMLADAVKAEFLEHAQQEQAHAGKLAERIVQLGGEPDLNPDTLSARSHAEYKEGSDLRDMVRENLIAERIAIDSYRQMINFVGDKDTTTKRILEEILAQEEEHADEFADLLEGWIGK	PGPT0003965_64	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003965-bfr-K03594	NA	NA
BMS020_07977	501			Peroxiredoxin	ATGTCGATCCAGGTTGGCGAACGCATTCCCGAGGTTGTGCTCAAGCGCCTGCGCGAAGGCCTCGAAAGCATCGATACGCATGCGCTGTTCCGCGGCCGCAACGTGGTCCTGTTCGCGATCCCCGGGGCGTTCACCCCGACCTGCTCGGAGAAGCACTTCCCGGGCTACGTCGAGCACTTCGACGCCTTCCGCCAGCGCGGCATCGAGGTGTGCTGCATGGCGGTCAACGATCCGTTCGTGATGCGCGCCTGGGGCCGCAGCCAGTCCGCGCCGGAGGGCCTGCAGCTGCTGTCGGACGGCAACGGCGAACTGACCCGCGCGCTCGGCCTGGAAATGGACGCCAGCAGCTCCGGCATGGGCTGGCGTTCACGCCGCTTCGCGCTGTACGCCGAGGACGGCGTGGTCAAGGCGCTGTTCCTGGAACAGCCCGGCGAATTCAAGGTCTCCGCGGCGGATTACGTGCTGCAGCACCTGCCGACCGACGGAACCACCCACACCTAG	MSIQVGERIPEVVLKRLREGLESIDTHALFRGRNVVLFAIPGAFTPTCSEKHFPGYVEHFDAFRQRGIEVCCMAVNDPFVMRAWGRSQSAPEGLQLLSDGNGELTRALGLEMDASSSGMGWRSRRFALYAEDGVVKALFLEQPGEFKVSAADYVLQHLPTDGTTHT	PGPT0013100_597	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013100-prx3-K24138	NA	NA
BMS020_07978	441			hypothetical protein	ATGAACGTCTTACGTTACCGCCGTTGGCCGCAGGCCGTGGTCCCGGGCGAGGCCGGTGCGCTGTTCCAGCGCATCGAAGGCGCCGCCAACACCGAGGCAGGCCCATGGCTGCCGCGCGTGGACATCCGCGAGGAGGACGGCCAGTTCGTCCTGCTGGCCGACCTGCCGGGCGTGGATCCGGCCACGATCGAGCTGCAGATGGACCGCAACGTGCTGTCGATCAGCGGCGAGCGGCGCCACGCCGCGCTGGCCGAGGGCCAGCGCCAGGTGCTGGGCGAACGCCGTGAGGTCCGGTTCGCGCGGCGCTTCGTGCTGCCCGACAGCGCCGATGCCGACGGCATCACCGCCAGCGGCCGCCACGGCGTGCTGGAAGTGCGCATTCCGAAGAAGGCCGAGGTCGCTCCGCGGCGCATCCAGGTCGGCGGCGACACGCTGCAGTAA	MNVLRYRRWPQAVVPGEAGALFQRIEGAANTEAGPWLPRVDIREEDGQFVLLADLPGVDPATIELQMDRNVLSISGERRHAALAEGQRQVLGERREVRFARRFVLPDSADADGITASGRHGVLEVRIPKKAEVAPRRIQVGGDTLQ	PGPT0014635_3015	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993	NA	NA
BMS020_07979	879	cbpA_2	COG2214	Curved DNA-binding protein	ATGGAATTCAAGGATTACTACGCGACGCTCGGCGTCGAACCCAGCGCGGGCGAGGCGGAGATCAAGACCGCCTACCGCCGGCTGGCGCGCAAATACCATCCCGACGTCAGCAAGGAAGCCGGTGCCGAGGAGAAGTTCAAGGCGGTCAATGAGGCCTACGAGGCGCTGCGCGACCCGCAGAAGCGCGCGGCCTACGACCAACTGCGCGCGCAGGGCTACCGCCCCGGCGACGAGTTCAATGGCGCGCCGAACTTCGGCGGCGGCCAGGGCTTCGACTTCGACGAGGTCTTCGGCAACGGCGGCGCTGGCGGCGGCTTCAGCGACTTCTTCGAGAGCCTGTTCGCCAACCAGCGCGGTGGCCGCGCGCGCGGTCCGGGTGCCGGCGCGCAGCCGCGTGGCGATACCCGCGCCAAGCTGGCGGTGCCGCTGGAGGCGGTCTACAGCGGCGACAGCGTGCGCATCACCGTGGCGGGCAAGCAGCTGGACGTGCGCGTGCCCAAGGGCATCAAGCCGGGCCAGGCGATCCGGCTGGGCGGGCAGGGCAACGGCGGCGGCAACCTGCTGCTGGAGATCGAGTACGCCGCGCACCCGCAGTTCGAGGTCGATGGGCAGAACATCCTGCATACGCTGCAGGTGACGCCATGGCAGGCTGCGCTGGGCACCACGATCAGCGTGCCGACGCTGGGCGGGGCGGTCGAACTGAAGGTGCCGGCCGGCTCCGACGCCGGGCGCAAGCTGCGCCTGCGTGGCCGCGGCCTTCCGGGCAGCCCGCAGGGCGACCAGATCGTGGAGCTGGAGATCACCGCGCCGGCGCCGGTCGACGACGCGCAGAAGAAGGCCTACCGCAGCCTGGCGAAGGCCTTCGGCGAGAGCGTCTAA	MEFKDYYATLGVEPSAGEAEIKTAYRRLARKYHPDVSKEAGAEEKFKAVNEAYEALRDPQKRAAYDQLRAQGYRPGDEFNGAPNFGGGQGFDFDEVFGNGGAGGGFSDFFESLFANQRGGRARGPGAGAQPRGDTRAKLAVPLEAVYSGDSVRITVAGKQLDVRVPKGIKPGQAIRLGGQGNGGGNLLLEIEYAAHPQFEVDGQNILHTLQVTPWQAALGTTISVPTLGGAVELKVPAGSDAGRKLRLRGRGLPGSPQGDQIVELEITAPAPVDDAQKKAYRSLAKAFGESV				NA	NA	NA	NA	NA
BMS020_07980	387	phoP_7	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein PhoP	ATGGCACGCATCCTGATCGTCGACGACTCGCCGTCGCAGCTGCTCGGCATCCAGCGCATTGTCGAAAAGCTCGGCCACGAGACCATCACCGCCACCGACGGCGCCGCCGGCGTCGAAGCGGCCAAGGCCAACCTGCCCGACCTGGTGCTGATGGACGTGGTGATGCCCAACCTCAACGGGTTCCAGGCCACCCGCACGCTCAAGCGCGAAGCCAGCACCCAGCACATTCCGGTGATCCTGGTGACCACCAAGGACCAGGACACCGACCGCATGTGGGGCATGCGCCAGGGCGCCAAGGCCTACATCACCAAGCCGTTCTCCGAGGACGAGCTGTCAGAGGTGATCGAGCGCGTCTTCAGCCAGACCGAAGAACCGCCGGCGGCCTGA	MARILIVDDSPSQLLGIQRIVEKLGHETITATDGAAGVEAAKANLPDLVLMDVVMPNLNGFQATRTLKREASTQHIPVILVTTKDQDTDRMWGMRQGAKAYITKPFSEDELSEVIERVFSQTEEPPAA	PGPT0015840_50	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015840-pilH-K02658	NA	NA
BMS020_07981	1131	hflK_2	COG0330	Modulator of FtsH protease HflK	ATGGCCTGGAACACACCCGGCAGCAAGGGCGATGGCCCTGACGACAACCGCCGCGGCGGCTGGAACCCGCGTGGCGGCGGCAACGGAGGCGGCGGCTTCAACCTGCCGGGACCGCTGAAGGACCTGCTGGACGGCGGCCTCTGGCGCTGGGTGCTGGCGGCCGTGGTGGTGCTGGTGCTGCTGTCGAGCTTCCAGCTGATCGGCGAACAGCAGCGCGGCGTGGTGCTGCGCTTCGGCCAGTTCTCGCGGGTGCTGCAGCCCGGCCCGAACTTCAAGTTGCCGTGGCCGATCGAATCGGTGCGCAAGGTCAACGCGACCCAGATCCTGACCTTCTCCAACCAGGTGCCGGTGCTGACCCGCGACGAGAACATCGTCAACGTGGCGTTGAACGTGCAGTACCGCATCGACGATCCGCGCCAGTACCTGTTCGGGTCGCGCAATGCTGACCTGGTGCTGGAGCAGGCTGCGCAGAGTGCGGTGCGCGAGCAGGTCGGCCGCTCCGACCTCAACGCGGTGCTCAACAACCGCGGCCCGCTGGCCACCGCCGCCAAGGACCGCCTGCAGACCTCGCTGGCCGCCTACAACACCGGCCTGGTGGTCACCGGCCTGACCTTGCCGGACGCGCGTCCGCCGGAGGAAGTGAAGCCGGCGTTCGACGAGGTCAACGGCGCCCAGCAGGTGCGCGAGCGCCTGATCAACGAGGCCCAGGCCTATGCCGCCAAGGTGGTGCCCGAGGCCCGCGGCCAGTCCGCGCGCATCCGCACCGTGGCCGAGGGCTACAAGGACGCGGTGATCGCCAAGGCCGAGGGTGACGCCGACCGCTTCACCCTGCTGCAGCAGCAGTACAAGGACGCGCCGGACGTGACCCGCAAGCGCCTGTGGCTGGAGACGGTGCAGAAGGTGCTGTCGGAGAACCGCAAGGTGATCGGCGGCGACGGCCGCCAGCTGATCTACGTGCCGATGCCAGCGGATCCGGCCAAGAGCACCACGTCGGCCGGCGTGCCGGCGTCGAGCCTGCCGCTGATCTCGCAGGATTCGGCGCTGTCGCCGCTGCAGAGCAGTGCGCTGCCGGAAGGCATCCGCAATCCGGAACGCGGCCCGCGCCCGACCGGCCGTGAGGGGAACGAATGA	MAWNTPGSKGDGPDDNRRGGWNPRGGGNGGGGFNLPGPLKDLLDGGLWRWVLAAVVVLVLLSSFQLIGEQQRGVVLRFGQFSRVLQPGPNFKLPWPIESVRKVNATQILTFSNQVPVLTRDENIVNVALNVQYRIDDPRQYLFGSRNADLVLEQAAQSAVREQVGRSDLNAVLNNRGPLATAAKDRLQTSLAAYNTGLVVTGLTLPDARPPEEVKPAFDEVNGAQQVRERLINEAQAYAAKVVPEARGQSARIRTVAEGYKDAVIAKAEGDADRFTLLQQQYKDAPDVTRKRLWLETVQKVLSENRKVIGGDGRQLIYVPMPADPAKSTTSAGVPASSLPLISQDSALSPLQSSALPEGIRNPERGPRPTGREGNE				NA	NA	NA	NA	NA
BMS020_07982	867	hflC_2	COG0330	Modulator of FtsH protease HflC	ATGATGAAGAATCCGATCTGGATCGTGGCCGCGATCGCGGTGGTGCTGGGTCTGTTCGGGTCGCTGTTCGTGGTCCGCGAGGACCAGACCGCGATGGTGCTCAACCTTGGCCGCGTGGTGCGCGCCGACCTCAAGCCCGGCCTGCATTTCAAGATCCCGCTGGTGGAATCGGTGCGGGTGTTCGACCGCCGCTTCCAGGTGCTCGACACCGCCGCGGCGCGTTACTTCACCGCCGAGCAGAAGGACGTCAGCGTCGACTTCTTCGCGATCGGCTACATCTCCGACGTGCGCGCGTTCTACCGCGCCACCGGCGGCGAGGAGAGCGTAGCCAACGCGCGCCTGGCGCCGATCATCACCGACTCGCTGCGCAACCAGATCAACTCGCGCACGCTGCAGGAACTGGTGTCGGGTGATCGCAGCGAGTTGATCGCCGGCCAGCTGCAGAGCATCAACAAGGCCATCGAAGGCCTGGGCATGCAGATCACCGACCTGCGCATCAAGCAGATCGACCTGCCGACCGACAGCCAGGTGATTACCGACGTGTACGAGCGCATGCGCGCCCAGCGCAAGCAGGAGGCCGCCAAGCTGCGTGCCGAGGGCGAGGAGCAGTCGCTGAGCATCCGTGCCCAGGCCGACCGCGAATCCACCGTGCTGGTCGCCGATGCCGAGCGCGACGCGCAGAAGCTGCGCGGCCAGGGCGATGCCGAGGCCGCACGGATCTACGGCAAGGCCGGCAGCGCCGACCCGGGCTTCTATGCGTTCTACCGCAGCCTGGAGGCCTATCGAAACTCGATGGCCGACGGCAACGGCGTGATCGTGCTCGACAAGAACGACCCGTTCCTGCAGTACCTCAAGAGCGACCGCTGA	MMKNPIWIVAAIAVVLGLFGSLFVVREDQTAMVLNLGRVVRADLKPGLHFKIPLVESVRVFDRRFQVLDTAAARYFTAEQKDVSVDFFAIGYISDVRAFYRATGGEESVANARLAPIITDSLRNQINSRTLQELVSGDRSELIAGQLQSINKAIEGLGMQITDLRIKQIDLPTDSQVITDVYERMRAQRKQEAAKLRAEGEEQSLSIRAQADRESTVLVADAERDAQKLRGQGDAEAARIYGKAGSADPGFYAFYRSLEAYRNSMADGNGVIVLDKNDPFLQYLKSDR				NA	NA	NA	NA	NA
BMS020_07983	1293	purA_2	COG0104	Adenylosuccinate synthetase	ATGGGTCAGTCTGTTGTCGTGATCGGCGCCCAGTGGGGCGATGAAGGCAAGGGCAAGATCGTCGATCTGCTCACCGAGGAAATCGGTGCCGTCGTGCGTTTCCAGGGCGGCCACAACGCCGGCCACACCCTGGTCATCAATGGCAAGAAGACCGTGCTGCACCTGATCCCCTCCGGCATCCTGCGCGACGACGCGCTGTGCCTGATCGGCAATGGCGTGGTGATCTCCCCGGCCGCGCTGATCAAGGAGATCGGCGAGCTGGAAGCGGCCGGCGTGGAAGTGCGTTCGCGCCTGAAGATCAGCCCGGCCGCGCCGCTGATCATGCCGTACCACATCGCCCTGGATCAGGCCCGCGAGAAGGCCGCCGGCGGCAAGGCCATCGGCACCACCGGCCGCGGCATCGGCCCGGCGTATGAAGACAAGGTGGCGCGCCGCGGCATCCGCATCGCCGACCTGCACTACCCCGACCAGCTGGCCGAGAAGCTCAAGGCCGCGCTGGATTACCACAACTTCGTGCTGACCAAGTACCTGGGCGTGGAAGCGGTGGATTACCAGAAGACCTACGACGAGGCCCTGGCCTTCGGCGAGTACGTGCAGCCGATGAAGTCCGACGTCGCCGGCATCTGCCACGACCTGCGCAAGCAGGGCAAGCGCATCCTGTTCGAAGGCGCGCAGGGCGCGCTGCTGGACATCGACCACGGCACCTACCCGTACGTCACCAGCTCCAACACCACCGTCGGCGGCGCACTGGCCGGCACCGGCGTGGGCGCTGACGCCATCGACTACGTGCTGGGCATCGCCAAGGCCTACGCCACCCGCGTCGGCGGCGGCCCGTTCCCGACCGAGCTGGACGACGAGATCGGCCAGGGCATCCGCGACCGCGGTGCCGAGTACGGCGCCTCCACCGGCCGTCCGCGCCGCTGCGGCTGGATGGACATCGTCGCGCTGAAGCGTGGCGTGGCCATCAACGGCATCTCCGGCCTGTGCATCACCAAGCTCGACGTGCTCGACGGCATGGAGAAGCTGAAGATCTGCATCGCCTACGAATACCGCGGCAAGCGCACCGAGTACGCCCCGCTGGACGCCCAGGGCTGGGACGAGATCACCCCGGTCTACCTGGAATTCCCGGGCTGGAGCGAGAACACCCACGGCATCACCGAGTGGGACAAGCTGCCGCCGGCGGCCCGCGCCTACCTGCGCGCGCTGGAAGAACTGGCCGGCTGCCCGATCAGCATCGTCTCCACCGGCCCGGACCGCGACCACACCATGGTGCTGCAGGACCCGTTCGCCTGA	MGQSVVVIGAQWGDEGKGKIVDLLTEEIGAVVRFQGGHNAGHTLVINGKKTVLHLIPSGILRDDALCLIGNGVVISPAALIKEIGELEAAGVEVRSRLKISPAAPLIMPYHIALDQAREKAAGGKAIGTTGRGIGPAYEDKVARRGIRIADLHYPDQLAEKLKAALDYHNFVLTKYLGVEAVDYQKTYDEALAFGEYVQPMKSDVAGICHDLRKQGKRILFEGAQGALLDIDHGTYPYVTSSNTTVGGALAGTGVGADAIDYVLGIAKAYATRVGGGPFPTELDDEIGQGIRDRGAEYGASTGRPRRCGWMDIVALKRGVAINGISGLCITKLDVLDGMEKLKICIAYEYRGKRTEYAPLDAQGWDEITPVYLEFPGWSENTHGITEWDKLPPAARAYLRALEELAGCPISIVSTGPDRDHTMVLQDPFA	PGPT0020140_2727	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020140-purA-K01939	NA	NA
BMS020_07984	936			hypothetical protein	GTGAAGAATGCCTGTACTGCTGTTCCCTTGTTTTGCGGCCTTCTGCTGACGTCAGGATGCGTCCAGTCGATTGCTGGGCCCGCGGTTGGGCCATCAGCTGATTCCGCCAAAAGCGTCGAAATCGGCGAGTCGGACGGATTGGCCGACTTTCCCGAAGTGCCCCAGCGCAGCTCCAAGCCGTGGGCGCCGCTGGAGCTGGAGCGCAGCTTGGGCGCTACCTGCGTGGACTTCGATCACAACCATAGTGGTTCGCAATCGTTGCTGATACCAGACGAGTACTGCCGGGGCCCTGCGCCGCGGCATATCGCCCGTGCATGGCTGGCAATCCCTGCCGATGTGCTTGGCGTGTCCGGGCAGGAACGAATCAGCGCCCTGCACACGACGGTCTACCTGGCTGCGCCAGGCTACGGTAGTCGCGCCGATTTCACCGTTGTCATCGGAGAAAGCTTCATTCGATCGTTCGAGAGCCCGGATCCGGCCCAAACGGTCTATCTGGTGTGGCCGGCAACGTGCAGCGAAGGCGATGGCAGCATGGAATGCAATGCAGGCCGGGGGCGCAGGGCGTTCCGGATCGACGCGGACGGACGATCCCACGATGTCAGTGCCGAAGTGTTTCCGCGCGATCCGGTGCTGGATGCTGCCGATCTGGCGCGACAGGACGCGCATGGTGGCAGCGATATGTTCCTGCTCAGCGACAAGCTGGCCTATGTCCCGACCATGCGCTGGCTGATGGAATTCGACCCCGATCAGCCACTCGCATCAGATGATCCCCGCAGGGCACAGGCCTTTGCCCACTTCGGCTTCGTGCACTGGGACGGCACGCGCTTCGAACTGGTGCAGCGCATTTCCAGAATGCAATGGCCGTGCCGCCAGGTTCCCGTTGGACGGCCCGCGTGTTCCGACGATGGCGGCGACGATCCTTTCATCATCCAATGA	MKNACTAVPLFCGLLLTSGCVQSIAGPAVGPSADSAKSVEIGESDGLADFPEVPQRSSKPWAPLELERSLGATCVDFDHNHSGSQSLLIPDEYCRGPAPRHIARAWLAIPADVLGVSGQERISALHTTVYLAAPGYGSRADFTVVIGESFIRSFESPDPAQTVYLVWPATCSEGDGSMECNAGRGRRAFRIDADGRSHDVSAEVFPRDPVLDAADLARQDAHGGSDMFLLSDKLAYVPTMRWLMEFDPDQPLASDDPRRAQAFAHFGFVHWDGTRFELVQRISRMQWPCRQVPVGRPACSDDGGDDPFIIQ				NA	NA	NA	NA	NA
BMS020_07985	267			hypothetical protein	ATGAGCGACATTCCGGTCAAGAGCCCGGAGGACATTGGCAACATCATCCGGCAGGTGCGTAAGCAGCAGGGCATCCGCCAGGACGATCTGGCCGCCATCATCGAGTCCAGCCATGTGTTCATGCGTGACGCGGAGCGCGGCAAGACAACGGTGCAGCTGGGTCGGATCATGCGTGCGCTGGACGAGTTGGGCATCACCATGAAACTGGATGTGCCGGACGCCTATCTTGATCAGGGCAAGTCCAAAGCCCGCAAGCGCAGCCCATGA	MSDIPVKSPEDIGNIIRQVRKQQGIRQDDLAAIIESSHVFMRDAERGKTTVQLGRIMRALDELGITMKLDVPDAYLDQGKSKARKRSP				NA	NA	NA	NA	NA
BMS020_07986	1254			hypothetical protein	ATGAACGCACCGGTAGCGCGGGAACTGTGGGTCTGGCTGGATACGGCACTGGTCGGCCGGCTATCCGAGCAGGGCAACGTCTGGCAGTTCGTCTATGACCCCGCCTGGGGCGGCGGCGACCTGTCGCCGGCCTTGCCGCGTGCCGCCGGCACCATCGTCGATGGTGGGAGCCAGCGCCCGGTGCAGTGGTTCTTCGGCAACTTGTTGCCGGAAGAAGGTGCCCGCGCGCTGCTGGCACAGGATGCGCAGCTCGACGCCGCCGACAGCTTCGGCCTGTTGGCCTGGTACGGGCGTGAATCCGCAGGTGCCCTCACGCTGCTGCCGGCGGGCGCCGGCCCCAGTGCCTCTGGCATGGAACCGCTGGATGATGCCGAACTGTCACGACGCATTCGCAACCTGCCGCGCCTGCCACTCACCCACGGCGCGGCCAAGCGGATGTCCCTGGCCGGCGCCCAGCACAAGCTGGCGGTCATCCTCCAGGGCGATGCACTGTTCGAGCCCATCGGCGCTGCGGCGTCCACCCACATCCTCAAGCCGGATCATCCGCAGCCGGACGACTACTGGCATACCACCATCAACGAATGGTTCGTGATGAACCTGGCTGGCGCCGTGGGGCTGCAGACAGCGGAGGCGATCCTGCGACGCGTGCCCGAGCCGGTATACCTCACCCGCCGTTTCGATCGCACTGGTGCATCGCCGGTGCGCCGGCTGCATGTCCTCGACGGCTGCCAGCTGCTCTCCCTGGATGCGGTGTTCAAATACACGCAGGCCACCGTTGAAGCGTTGCTGGCGCTGGCGGAGCTGTGTCGGGCCAAGGCGAGCACGCGGCAGCGTCTGTACCAGTGGTGGGTGTTCAACCTGATCACCGGAAATTCGGACGCGCACCTGAAAAACCTCAGCTTCTTCGGCACGGCCGATGGCTGGGCGCTGGCTCCGCATTACGATCTCATCTGCACCAGTGTGTACCGCGGCGACAATGGCTGGAACCACGACAGTCCGGTGACACCGCAAGGCGTGCGCTATGCCGACTTCGATCGCGCCAGGGTGCTGGAGATCGCCGCGCGGATGCGGATCCCGGCCGGCGCCGCGCAGCGCGAACTGGAGCGCCTGCGCACGGCGATTCCCTTGCACGCCCAGCGTCTCTACGACAGCTATCTGAGCGGCATCACCGGGCCCGCGCAGGACGGCGAAGCACGTCTGCTCCGCAGCATCATCCATGGCCCGCTGCAGGAGATGGTGGCGCGGCTGGCCTGA	MNAPVARELWVWLDTALVGRLSEQGNVWQFVYDPAWGGGDLSPALPRAAGTIVDGGSQRPVQWFFGNLLPEEGARALLAQDAQLDAADSFGLLAWYGRESAGALTLLPAGAGPSASGMEPLDDAELSRRIRNLPRLPLTHGAAKRMSLAGAQHKLAVILQGDALFEPIGAAASTHILKPDHPQPDDYWHTTINEWFVMNLAGAVGLQTAEAILRRVPEPVYLTRRFDRTGASPVRRLHVLDGCQLLSLDAVFKYTQATVEALLALAELCRAKASTRQRLYQWWVFNLITGNSDAHLKNLSFFGTADGWALAPHYDLICTSVYRGDNGWNHDSPVTPQGVRYADFDRARVLEIAARMRIPAGAAQRELERLRTAIPLHAQRLYDSYLSGITGPAQDGEARLLRSIIHGPLQEMVARLA	PGPT0027480_1809	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HipA-HipB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027480-toxin_hipA-K07154	NA	NA
BMS020_07987	351			hypothetical protein	ATGGCAATGAGTGAATTCGAAAACCGCCGTGCGGAAAAGCTGCTCGCCGACTATGTGAACAAGCATCGTCCCGCGCCCCATGTCAGGCCCAAGCTGGACATCGGCTGGCGCCGCGCGGGGCAGAGCGTCGAGCTCTTCGAGATCCGTCCGCGATGGCGTGGTGCACCGGGCGAGATGGTGGAGATTCCGGTGGTCAAGGCCACCTGGGTCAAGAGCCGCAGGCACTGGCGGGTGTTCTGGCAGCGTGCCGACCTCAAGTGGCACCGCTACGACTCGCTGCCGGAAGCCGACACGCTGGAGTCGGTGCTGGATGAAGTGCAGGCCGATCCGTTCGGCTGCTTCTGGGGTTAG	MAMSEFENRRAEKLLADYVNKHRPAPHVRPKLDIGWRRAGQSVELFEIRPRWRGAPGEMVEIPVVKATWVKSRRHWRVFWQRADLKWHRYDSLPEADTLESVLDEVQADPFGCFWG				NA	NA	NA	NA	NA
BMS020_07988	288			hypothetical protein	GTGAGCACCACCACCATTCGATTGCCCGATGAGCTCAAGGCGCGCGTTGCCGCCTTGGCAAAGCGCGGCGGGACCACTACGCACAACTTCATCCTCGAAGCGATTGCCGAGAAGACCGACCAGGCCGAGCGCCGCGCTGACTTTGACGCCGTTGCCGAAGCGCGCTACGCCGACATCGTCGCCTCCGGCAAGACCATCGCATGGAACGACATGCGTGGTTATCTGCAAAAGCGCATGGCGGGCGACCCCGCGGAACGTCCGCTGGCCAGAAAGCTGGCAAAGGAGTGA	MSTTTIRLPDELKARVAALAKRGGTTTHNFILEAIAEKTDQAERRADFDAVAEARYADIVASGKTIAWNDMRGYLQKRMAGDPAERPLARKLAKE				NA	NA	NA	NA	NA
BMS020_07989	297			hypothetical protein	GTGACGCGTGTCGAACTGGCGCCGGAGGTAGGCGAGGATTTCGAGCGGATTCTCGATCATCTGCAGCGGCATGAGGCTGCAAGACTGCACGCCCGATTGCACGAAATCATCGAGGCCATCGCCGTGCTGGAAACCAATCCACTGATCGGGCGGCCTGCCGACAACGACAAGCGCGAACTGGTGATCGGCCGTGGTGCGCATGGCTATCTGGCCCTGTACCGCTATGTGGCGCAGATCGATACAGTCTTCGTGCTGGCAGTGCGGTCCCAGCGCGAAGCGGGCTTTGCTGGTGGCTGA	MTRVELAPEVGEDFERILDHLQRHEAARLHARLHEIIEAIAVLETNPLIGRPADNDKRELVIGRGAHGYLALYRYVAQIDTVFVLAVRSQREAGFAGG	PGPT0027550_2147	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-ParE-ParD|paaAR_TOXIN-ANTITOXIN_SYSTEM,PGPT0027550-toxin_parE1_3_4-K19092	NA	NA
BMS020_07990	267			IS3 family transposase ISXac4	ATGCGCACATCGAAGTTCACCGAGACACAGATCATCGCCACGCTCAAGCAGGCCGACGCAGGCGTTCCAGTCAAAGACATCTGTCGCCAAGTCGGCATCAGCACGGCGACCTATTACCAGTGGAAGAGCAAGTACGGTGGCTTGGAGGCGTCCGAGCTCCGGCGGGTCAAGGAGCTCGAGTCCGAGAACGCCAAGCTCAAACGGATGTATGCCGAGTTGGCGCTCGACAACGCAGCGATGAAGGACCTGATCGCAAAAAAACTCTAG	MRTSKFTETQIIATLKQADAGVPVKDICRQVGISTATYYQWKSKYGGLEASELRRVKELESENAKLKRMYAELALDNAAMKDLIAKKL				NA	NA	NA	NA	NA
BMS020_07991	1077			hypothetical protein	ATGAACCTGCCTGCGGCTGGCCCGGAAGCCAGTGTCGATGATCACCTGCGCTCGGTCGGCGAGCTGACCGGCACCCTGCTCTCGCAATTGCGCGGCTCGCTGCGGCGCATCGACGAGATCAACCGCACCACCCAGGTGATCTCGATGAACGCCCGCATCGAATCGGCGCGGATCGGCCACGCCGGGCGCGGCTTCGCGGTGATCGCGCAGGAGATGGACGGGCTGTCGCGCCGCGTCGCCGACGCCACCGGCGCGATCGACCGCATGGCCGCCAGCACCAGCACGCAGATGCAGACCACCCTGAGCCGGCTCGAGGACGAAGTCCGCCGCACCCGCCTGAGCGAACTGGCGCTGGGCAACATCGACCTGATCGACCGCAACCTCTACGAGCGCAGCTGCGACGTGCGCTGGTGGGCCACCGACGCGGCGGTGGTGGCCGCCGCGCGCGCCGACCGCAGCGCCGACGCACTGGCCCATGCCAGCCGGCGCATGGGCCAGATCCTCGATTCGTACACGGTCTACTTCGACCTGGTGCTGGCCGACCGCGATGGCCGCATCCTCTGCAACGGGCGCCCGACGGACTATGCCTCGGCCGGCCTGGACGTACGCGGCAGCACCTGGTTCGACAGCGCCGCGCGCACCGCCAGCGGCGAGGAATTCGGCTTCCAGAGCGTGCACGCCAGCCCGCTGGCCGGCGGCGAGCGGGTGCTGGTGTATGCCTGCAGCGTGCGCGAGGGCGGTCGCGTCGACGGCCGTCCGCTCGGCGTGCTCGGCATCGTGTTCCGCTGGGACGCCCTGGCGCAGACCATCGTCCAGCGCACACCGTTGTCGGAACAGGAATGGGGCCGCAGCCGGGTCTGCATCGTCGACGATGCCGGCTGCGTGCTGGCCGATTCGGCCGGCCGCCAGTTGCAGGACCAGATCGACTTCCCCGGGCGCGAGGCCCTGCTGCGGCAACCGCGCGCGGCCCAGCTGCTCGACTGGCAGGGCCGGCCGCACTGCATCGCCCATGCCGCTTCGCCCGGCTACGAGACCTATCGCACCGGCTGGCATTCGCTGATCCTGCAGGCGGTGTGA	MNLPAAGPEASVDDHLRSVGELTGTLLSQLRGSLRRIDEINRTTQVISMNARIESARIGHAGRGFAVIAQEMDGLSRRVADATGAIDRMAASTSTQMQTTLSRLEDEVRRTRLSELALGNIDLIDRNLYERSCDVRWWATDAAVVAAARADRSADALAHASRRMGQILDSYTVYFDLVLADRDGRILCNGRPTDYASAGLDVRGSTWFDSAARTASGEEFGFQSVHASPLAGGERVLVYACSVREGGRVDGRPLGVLGIVFRWDALAQTIVQRTPLSEQEWGRSRVCIVDDAGCVLADSAGRQLQDQIDFPGREALLRQPRAAQLLDWQGRPHCIAHAASPGYETYRTGWHSLILQAV				NA	NA	NA	NA	NA
BMS020_07992	1182	gapA_2	COG0057	Glyceraldehyde-3-phosphate dehydrogenase A	ATGGGCGCAGTTTTCGGTTTTCTTAACGTCGTCGCCTTGATCCTGATCAAACACGGCGGCCGGCTCAGCCTGCACTCAGCCAAGACCGCGCGGTGCCGGAGCGGGGCATGGCCCCTGCTAGAATGGCCGCCCCTTTCCACCCGCCGCCCCGTCGCGGCGTCGCAGGAGTTCGAGAACATGGCAATCAAGGTCGGCATCAACGGTTTCGGTCGCATCGGACGCAACGTGCTGCGCTCGGCGGTGCAGAACTTCGGCAGCGACATCGAGATCGTCGCCATCAACGACCTGCTGGAGCCGGATTACCTGGCCTACATGCTGCAGTACGACTCGGTGCACGGTCGCTTCAAGGCCGACATCAAGGTCGACGGCAACACCCTGCTGGTCAACGGCAAGAAGATCCGCCTGACCCAGGAGCGCGACCCGGCCAACCTGAAGTGGGACGAGGTCGGCGCCGAGGTGGTGATCGAATCGACCGGCCTGTTCCTGACCAAGGAAACCGCCGAGAAGCACCTGGCCGCCGGTGCCAAGAAGGTGATCATGTCGGCGCCGTCCAAGGACGACACGCCGATGTTCGTCTACGGCGTCAACCACGCCGAGTACGCCGGCCAGACCATCGTCTCCAACGCCTCGTGCACCACCAACTGCCTGGCGCCGCTGGCCAAGGTCGTGCACGACAAGTGGGGCATCAAGCGTGGCCTGATGACCACCGTGCATGCCGCCACCGCGACCCAGAAGACCGTCGACGGCCCGTCCAACAAGGACTGGCGCGGCGGCCGCGGCATCCTCGAGAACATCATCCCGTCCTCGACCGGTGCGGCCAAGGCGGTCGGCAAGGTGATCCCGTCGCTCAACAAGAAGCTGACCGGCATGAGCTTCCGCGTGCCGACCTCGGACGTGTCGGTGGTCGACCTGACCTGCGAACTGGAAAAGCCGGCGACCTACGCCGAGATCTGCGCCGAAGTGAAGGCGCAGAGCCAGGGCGCGCTGAAGGGCATCCTCGGCTACACCGAGGACAAGGTCGTGGCGACCGACTTCCGCGGCGAGACCTGCACCTCGGTGTTCGACGCCGACGCCGGCATCCAGCTCGACGACACCTTCGTCAAGCTGGTGTCGTGGTACGACAACGAGTGGGGCTACTCCAACAAGTGCCTGGAGCTGGCCAAGGTCGTCGCGGCGAAGTAA	MGAVFGFLNVVALILIKHGGRLSLHSAKTARCRSGAWPLLEWPPLSTRRPVAASQEFENMAIKVGINGFGRIGRNVLRSAVQNFGSDIEIVAINDLLEPDYLAYMLQYDSVHGRFKADIKVDGNTLLVNGKKIRLTQERDPANLKWDEVGAEVVIESTGLFLTKETAEKHLAAGAKKVIMSAPSKDDTPMFVYGVNHAEYAGQTIVSNASCTTNCLAPLAKVVHDKWGIKRGLMTTVHAATATQKTVDGPSNKDWRGGRGILENIIPSSTGAAKAVGKVIPSLNKKLTGMSFRVPTSDVSVVDLTCELEKPATYAEICAEVKAQSQGALKGILGYTEDKVVATDFRGETCTSVFDADAGIQLDDTFVKLVSWYDNEWGYSNKCLELAKVVAAK	PGPT0018000_4935	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
BMS020_07993	642	ompW_2	COG3047	Outer membrane protein W	ATGCGCACTTCCTCCATCCTCACCGTCGCCACCCTGGCCGCCGCCCTGTTCGCCGCCACCCCGGCCATGGCCCAGTCCAAGGGCGACTGGACCCTCGGCGTCGGCGTGCACGCGGTCGATCCCAAGTCCGACGCCGGCGACCTGAACGGTTCCGCGCTTGGCCTCGGTGCGCTGTCGACCAAGGTCGACAGCGACGTCAAGCCGACCATCACGTTCGAATACTTCATCGCCGACAACGTCGGCATCGAAGTGCTGGGTGCCCTGCCGTTCAAGCACGAAGTCAGCATCGACGGCGTCGGCAAGGTCGGCGAGACCAAGCAGCTGCCGCCGGTGGTGTCGCTGCAGTACCACTTCGCCAACAGCACCAAGCTGACCCCGTTCGTCGGCCTCGGCGTGAACTACACCAAGTTCTTCAGCACCGACAGCAAGGGCGCCCTGTCGGGCACCGACCTGAAGCTGGAAGACTCCTGGGGCGTGGCCGCGCACGTCGGCCTGGACTATGCGCTGAGCGAGAAGGGCGCGCTGCGCGTGGACCTGCGCTGGGCCGACATCGACACCGAGGTCAAGGTCAACGGCAACAAGCTCGGCACCGCCGAGATCGACCCGCTGGTCTACGGCGTCGCCTACGTCTTCAAGTTCTGA	MRTSSILTVATLAAALFAATPAMAQSKGDWTLGVGVHAVDPKSDAGDLNGSALGLGALSTKVDSDVKPTITFEYFIADNVGIEVLGALPFKHEVSIDGVGKVGETKQLPPVVSLQYHFANSTKLTPFVGLGVNYTKFFSTDSKGALSGTDLKLEDSWGVAAHVGLDYALSEKGALRVDLRWADIDTEVKVNGNKLGTAEIDPLVYGVAYVFKF	PGPT0022210_1143	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	OTHER_INTEGRAL_MEMBRANE_REMODELLING__PROTEINS,PGPT0022210-ompW|yciD-K07275	NA	NA
BMS020_07994	639	ompW_3	COG3047	Outer membrane protein W	ATGAAAATCCGCTTGATCCGCGGCCTGTCCGCCACGCTCGCCCTGCTTGCCGCCACGCTCGCCCTGCTTGCCGCCACGCCGGCCCTCGCCCAGTCCGCCGGCCACTGGAGCACCGGATACGGCGCCGCCATGGTCGTACCCAAGTCCGACAACGGAACCCTGGCCGGCACTCCGGCAACCATCGACAACGCCGCCGCGCTCTCGTTCACCTACGAATACTTCATGCGCGATGCGCTGGGCATCGAGTTCAACGCGCTGCTGCCGTCGCGCCAGGACGTCGCCCTGCGCGGCGCCGGCACCGTCGCCGAATACTGGTCGTTTTCGCCGAGCATGCTGCTGCAGTACCACTTCAATGCCCACGGCATGGTGTCGCCGTTCGTCGGCGCCGGCGTCAACGTCACCACCTTCGTTGGCGAGGACGGCAAGGGCGCGCTCGACGGCGCCGACGTGGCGTTCAAGGACAGCATCGGCGCTACCGCGCATGCCGGCATCGATTTCGCCTTCGGCGAGCGCAGCGCGATCCGGGTCGACGCGCGCTGGACCGACCTGCGCAGCAGCGTGGAGATCGAGGGCCAGCGCGTCGGCAAGGCCCGGATCGACCCGATGAGCTACGGCGTGTCCTACGTGCTCAGCTACTGA	MKIRLIRGLSATLALLAATLALLAATPALAQSAGHWSTGYGAAMVVPKSDNGTLAGTPATIDNAAALSFTYEYFMRDALGIEFNALLPSRQDVALRGAGTVAEYWSFSPSMLLQYHFNAHGMVSPFVGAGVNVTTFVGEDGKGALDGADVAFKDSIGATAHAGIDFAFGERSAIRVDARWTDLRSSVEIEGQRVGKARIDPMSYGVSYVLSY	PGPT0022210_1728	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	OTHER_INTEGRAL_MEMBRANE_REMODELLING__PROTEINS,PGPT0022210-ompW|yciD-K07275	NA	NA
BMS020_07995	810			hypothetical protein	ATGAATCTTCGTCCCCTGTTGTTGTCGAGCGGCCTGCTGGCCACCCTGTTCTCCTTCGATGCGGCCGCCTGGGGCGGCCAGGGCCACCGCCTGGTGGCCCGCATCGCCGATACCGAGCTCACCCCGCAGGCGCACGCCGAAGTGGCGCGGCTGCTGGCCGGCGAGCCAGATCCCACGCTGGCTGGCGTCGCCTCCTGGGCCGACGAGCTGCGCGAGCACGACCCCGACCTGGGCAAGCGCAGCGCGCGCTGGCACTACGTCAACCTCGGCGAACACGATTGCGGCTACCAGCCGCCCCGCGACTGCCCGGACGGCAACTGCGTGATCGAGGCGCTCAAGACCCAGACCGCGATCCTCGCCGACCGCACCCAGCCGCTCGCCGCGCGCCGGCAGGCGTTGAAGTTCGTCGTCCACCTGGTCGGCGACATCCACCAGCCGATGCATGCCGGCTATGCCCACGACAAGGGCGGCAACGACTTCCAGCTGCAGGTCGATGGCCGCGGCAGCAACCTGCATGCGCTGTGGGACAGCGGCATGCTCTACCAGCGCCACCTGTCCGACGAGGCCTACCTGAAGGACCTGCTGGCCCTGCCGGCACCGCCAGCCGACCACACCGCGGCGCTGCCGCCGGCGGCGTCCGCGTGGGCGCAGGCCGCGTGCCGCATCGCGGTCACACCGGGTGTCTACCCGCCGGGTCACGTGCTGTCCGACGACTATGTCGCCACCTGGCGGCCGGTGGCCGAACAGGCGTTGCGCCAGGCCGGCGACCGCCTGGCGGTGCTGCTCAACGCCACGCTGTCCTCACCCTGA	MNLRPLLLSSGLLATLFSFDAAAWGGQGHRLVARIADTELTPQAHAEVARLLAGEPDPTLAGVASWADELREHDPDLGKRSARWHYVNLGEHDCGYQPPRDCPDGNCVIEALKTQTAILADRTQPLAARRQALKFVVHLVGDIHQPMHAGYAHDKGGNDFQLQVDGRGSNLHALWDSGMLYQRHLSDEAYLKDLLALPAPPADHTAALPPAASAWAQAACRIAVTPGVYPPGHVLSDDYVATWRPVAEQALRQAGDRLAVLLNATLSSP				NA	NA	NA	NA	NA
BMS020_07996	825			putative metallo-hydrolase	ATGACCGCGCCCTTCGTGCAGCCGTTCTTCCACGCCGCCAGCAACACCTTCAGCTACCTGGTCGCCGACCCGCTCCGGGGCGAGGCGGCGATCATCGATCCGGCGCTGGACTACGACGCCGAGCACGGCACCACCAGCACCGTCTCGGCACAGGCGCTGCTGGACGCGCTCGACCAGCACGGCTGGACGCTGCGCTGGATTCTCGAAACCCACGCCCACGCCGACCATCTCTCGGCCGGGCTGTGGCTGCGCGACCGGCGCCCCGGCGCGCGCCTGGGCATCGGCGCGGGCATCCGCACGGTGCAGGCCACGCTGGCGCCGCGCTACCCGCTGCCAGCGGATTTCCGCAGCGACGGCTCGCAGTTCGACCAGCTGTTCGACGATGAGGCGACGTTTGCGCTCGGCGCGCTTGCAGTGCGGGTGATCGCGGTGCCCGGCCACACCCCGGACAGCATCGCCTACCTGGTCGGCGATGCGCTGTTCCCGGGCGATTCGATCTTCATGCCCGACGGCGGCACCGCCCGCTGCGACTTCCCCGGTGGCGACGCGGCGCAGCTGTACCGCTCGATCCAGCGCCTGTACGCGCTGCCCGATGCGACCCGCGTGTTCGTCTGCCACGACTACGGCCCCGGTGGCCGCGCGGTCGCCTGCGAAACCACGATCGGTGCGCAGAAGGCCGGCAACATCCATGTGCGCGATGGCATCGCCCAGGCCGATTTCGTGCAGCAGCGCCAGGCGCGCGACGCTACCCTGGCCGAACCGAAGCTGATGCGCCCGGCAATCACCGCCAACCTGCAGGCCGGCCGCGCGCCCGACGCCGGCTGA	MTAPFVQPFFHAASNTFSYLVADPLRGEAAIIDPALDYDAEHGTTSTVSAQALLDALDQHGWTLRWILETHAHADHLSAGLWLRDRRPGARLGIGAGIRTVQATLAPRYPLPADFRSDGSQFDQLFDDEATFALGALAVRVIAVPGHTPDSIAYLVGDALFPGDSIFMPDGGTARCDFPGGDAAQLYRSIQRLYALPDATRVFVCHDYGPGGRAVACETTIGAQKAGNIHVRDGIAQADFVQQRQARDATLAEPKLMRPAITANLQAGRAPDAG				NA	NA	NA	NA	NA
BMS020_07997	771	modA_2	COG0725	Molybdate-binding protein ModA	ATGACGATCCTGGCCCGCCTGCTGGTGCTGTGTGCACTGGCGCTACCCGCGCTGGCGCACGCGCAACCGGCACTGACCGTGTTCGCCGCCGCCAGCCTCAAGGAATCGATGGACGCCGCGGCCGCCGCCTACGGCAAGGCCAACGGCACCCAGGTGCGGGTGTCGTACGCGGCCAGTTCGACGCTGGCGCGGCAGATCGAACAGGGTGCGCCGGCCGATGTGTTCGTCTCCGCCGACCTGGACTGGATGGACTACCTGCAGCAGCGCGGGCTGGTCGCAGCGGCGCAGCGCCGCAACCTGCTCGGCAACAGCCTGGTGCTGATCGCGCCGGCAGACAGCAAGGCCGTGGTCGATCCGGCACGCAGCGGCGCGATCCTGGCCGCGCTCGGCACGCAGGGCCGGCTCGCGGTGGGCCAGACCGACAGCGTGCCGGCCGGCAAGTACGCCCGCCAGGCGCTGCAGCAGCTCGGCCAGTGGGAGGCACTGACGCCACGCCTGGCCGAAGCTGAAAGCGTGCGCGCGGCGTTGATGCTGGTCGCGCGCGGCGAAGCGCCGCTCGGCATCGTCTACGGCTCCGATGCCAAGGCCGAGCCGCAGGTGCGAGTGGTGGCGACCTTCCCGGCCGACAGCCACCCACCGATCATCTACCCGGTGGCGCCACTGAAGGGCGCGCAGGGCGAGCAGGCGCAGGCCTTCGTGCAGTGGCTGGGGTCGCCGGCCGCACGCAGCATCTTCCTGTCGCGCGGCTTCACCCTGCAGCCGTCGCCGTAG	MTILARLLVLCALALPALAHAQPALTVFAAASLKESMDAAAAAYGKANGTQVRVSYAASSTLARQIEQGAPADVFVSADLDWMDYLQQRGLVAAAQRRNLLGNSLVLIAPADSKAVVDPARSGAILAALGTQGRLAVGQTDSVPAGKYARQALQQLGQWEALTPRLAEAESVRAALMLVARGEAPLGIVYGSDAKAEPQVRVVATFPADSHPPIIYPVAPLKGAQGEQAQAFVQWLGSPAARSIFLSRGFTLQPSP	PGPT0008435_2299	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008435-modA-K02020	NA	NA
BMS020_07998	702	modB_2	COG4149	Molybdenum transport system permease protein ModB	ATGAGCGCCGTGTTCGCCTTCAGCGAAGCCGAACTCACCGCGATCGCGCTGAGCCTGAAGGTCGCTGCGGTGTCGGTGCTGGCCAGCCTGCCGGCCGGCATCGGCTGCGGCTGGCTGCTGGCGCGGCGGCGCTTCCCCGGCAAGGCGCTGTTCGACGCGCTGCTGCACCTGCCGCTGGTGATGCCGCCGGTGGTGACCGGCTACGCGCTGCTGGTGCTGCTGGGCAACCGCGGCGTGCTCGGCGGCTGGCTGCTCGAGCACCTCGGCGTGCAGTTCGCATTCCGCTGGACCGGCGCCGCGCTGGCCTGCGCGGTGATGGGCTTCCCGCTGATGGTGCGCGCGATCCGCATGGCCATCGAGGCCAGCGACCGGCGCCTGGAACACGCCGCGGCCACGCTCGGCGCCGCGCCGTGGCGGGTGTTCCTGACCATCACCCTGCCCCTGGCCTGGCCTGGCATCGTCGCCGGCGCGGTGCTGGCCTTCGCCAAGGCACTGGGCGAGTTCGGCGCCACCATCACCTTCGTGTCCAACATCCCCGGCGAGACCCAGACCCTGTCGGCGGCGATCTACGGGCTGCTGCAGGTGCCGGGGATGGAATCGGGCATCTGGCGGCTGGCCGGCGTGGCGCTGGCGATCTCGCTGGGGGCACTGATGCTGTCGGAGTGGCTGGTGCGGCGCCATCCGGCACGGCGGGAGGAATGA	MSAVFAFSEAELTAIALSLKVAAVSVLASLPAGIGCGWLLARRRFPGKALFDALLHLPLVMPPVVTGYALLVLLGNRGVLGGWLLEHLGVQFAFRWTGAALACAVMGFPLMVRAIRMAIEASDRRLEHAAATLGAAPWRVFLTITLPLAWPGIVAGAVLAFAKALGEFGATITFVSNIPGETQTLSAAIYGLLQVPGMESGIWRLAGVALAISLGALMLSEWLVRRHPARREE	PGPT0008440_1756	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008440-modB-K02018	NA	NA
BMS020_07999	615	cysA_2	COG1118	Sulfate/thiosulfate import ATP-binding protein CysA	ATGCTGGATATCGACATCGTCCTGCAGCGCGGCGGCTTCCAGCGCCATGTGGCGATCCGCGACGAGGCGCGCGTGCTGGCCCTGGTCGGCCACTCCGGCGCCGGCAAGACCAGCGTGCTCAATGCCATCGCCGGCCTGCTGCGGCCACAGGCCGGGCACATCGTCGTCGATGGCCGGCCGCTGTTCGACGCCAGCCGCGGCATCGACCTGGCGGTGCATCGGCGCCGGGTCGGCTACGTGTTCCAGGATGCGCGGCTGTTTCCGCACCTGGATGTACGCGCCAACCTGCGCTACGGCCGCCACCGCGACGCGCGCGGCGGCTTCGGCTTCGACGAGGTGGTGGAGCTGCTCGGCATCGGCGCGCTGCTGGCGCGGCGCCCGCGCACGCTGTCCGGCGGCGAGGCGCAGCGCGTGGCGATCGGCCGTGCGCTGCTGGCGCAGCCGGCGATCCTGCTGCTGGACGAGCCGTTGTCCGCGCTTGACCGCGCGCGCCGCGACGAGCTGATCCCCTACCTGCAGCGCGTGCGCGACGAAGTGCGCCTGCCGATGCTGTACGTCAGCCACCAGCTCGAGGAAGTGCAGGCACTGGCCGATGCGCTGCACGTGCTGGACTAG	MLDIDIVLQRGGFQRHVAIRDEARVLALVGHSGAGKTSVLNAIAGLLRPQAGHIVVDGRPLFDASRGIDLAVHRRRVGYVFQDARLFPHLDVRANLRYGRHRDARGGFGFDEVVELLGIGALLARRPRTLSGGEAQRVAIGRALLAQPAILLLDEPLSALDRARRDELIPYLQRVRDEVRLPMLYVSHQLEEVQALADALHVLD	PGPT0008445_3272	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008445-modC-K02017	NA	NA
BMS020_08000	558			hypothetical protein	ATGAAACGCTACCGCAAGCAGGACTTCCCGGTCGGCGACGTGCGCCGCTTCCTCGAACCCGGCCCGGTCGTGCTGGTCGGTACCGCGCACGCCGGCGAGCGCGACGTGATGACGATGGGCTGGCACATGGTGCTGGAATTCGCGCCATCGCTGCTGGCCTGCTGCCTGTCGCGCGGCAACCACAGCCACCGGCTGGCGCGCGCCAGCGGCGAATGCACGATCCACCTGCCGACCGCCGACATCGTCGATACCGTGGTCGGCATCGGCAACTGCAGCGGCGCGGACACCGACAAGTTCGCCCGCTTCGGCCTGACCACCACGCCGGCCAGCGAGGTCGGCGCGCCGTTGATCGACCAGTGCTATGCCAGCTTCGAGTGTCGGTTGCACGACGACAGCCTGGTCGAGCGCTACGACCTGTTCGTCTGGGAGGTGGTCAAGGCGCACGTGGCCCCGGTGCCGAAGCTGCCGCGCACCGTGCACTACCGTGGCGACGGCCAGTTCATGCTCGCCGGCGCGGAGATCTCGCGGCGCCGGCTGTTCCGCCCGGAGATGCTGTAG	MKRYRKQDFPVGDVRRFLEPGPVVLVGTAHAGERDVMTMGWHMVLEFAPSLLACCLSRGNHSHRLARASGECTIHLPTADIVDTVVGIGNCSGADTDKFARFGLTTTPASEVGAPLIDQCYASFECRLHDDSLVERYDLFVWEVVKAHVAPVPKLPRTVHYRGDGQFMLAGAEISRRRLFRPEML				NA	NA	NA	NA	NA
BMS020_08001	576			hypothetical protein	ATGAGCACGCGCGGGCTGGCGCTCGCGCTGCCGCTGGCGATCGCCGGGTGCGCGAGCGTGCCGCCGGAGGCCGGCCAGGCGCAGCGGCTGTCCGCGCATGTCGATGGCCAGGTGTTGCCGGAGCAGTCCGACGGCACCGCGGCCGGCTTCAGGGTGGAGCGCTACACGCCGCAGCCGGCGCAGCGCTTCCGCATGCCGCGTGCCGAGCTGGCGCCGCCACCGGCACTGCCCGCCGCAATGGCGACGCGGACCCTGGCACCGACCAGGGTCTGCGCGCGGGTGGCGATCGCCGCCGATGGCGCGGTGATGTTCGCCACGCCGCTGCTGACGCGCACCGAATGCGCCGCTGGCGCGCAGCCGGCGAATGCGCCGCTGCTGCAGGCGACGCTGGTGGCATTGCGCGGCTGGCACTTCCGCCCGGCGGCGATGTGCACGTTCCCGGCCGGGCAGGTCCCGGACGATCCGGGCGACTGCGCGCAGGCGCTGACGGTTTCGCCGCTGCCGGTGACGCTGGAATTCGCCTTCACCTTCGAGGTCAACGACGGCCATGCCCGGGTCAGCACGCAAGCGCCCTAG	MSTRGLALALPLAIAGCASVPPEAGQAQRLSAHVDGQVLPEQSDGTAAGFRVERYTPQPAQRFRMPRAELAPPPALPAAMATRTLAPTRVCARVAIAADGAVMFATPLLTRTECAAGAQPANAPLLQATLVALRGWHFRPAAMCTFPAGQVPDDPGDCAQALTVSPLPVTLEFAFTFEVNDGHARVSTQAP				NA	NA	NA	NA	NA
BMS020_08002	1320			hypothetical protein	ATGGGCAGTGACGCGCTGGCCCTGTGGCTGGCGCGCTGGCTGCTGGCCGGCGCTGCGGCATTGGCGCTGGTGCTGGTGGTGCGGCGGCCGCTGCGCGCCTGGCTCGGGCCGCGCTGCGCGTATGCGCTGTGGGCGGCGGTCCCGCTGGTGGCGCTGGCGGCGTTGCTGCCCGCGCGCCGGGTGGTGATGCCCGCCTTGCCGTTGCCTGCCACGCGGATGGGGGTGGCGCTGCAGGCGGCGCCGATGGATGCGCCGGTGGATGTGGCGGGCGGGCTGTTGCTGGTCTGGGCCGCGGCTGCACTGGCGCTGCTGCTGTGGCAGGGCTGGCGCCAGCGTCGTTTCGTGCGTGCGCTGGGGCCGCTGCAGGCACAGGGCGGGCGCGTGTTCCTCGCGCCGACCTGCGACGGCCTGCCGGCGACGTTCGGCCTGCTGCGACCGCGCATCGTGCTGCCAGCCGATTTCGCCAGCCGCTACAGCGAGGAAGAACAACGGCTGGTGCTGGCGCATGAACGCGTGCACCTGCGCCGCGGCGACCTGTGGGCGAACGCGCTCGCGCTGGTGCTGCTGAGCCTGCAATGGTGCAACCCGCTGGCGCTGCTGGCCTGGCGCGCATTCCGGCGCGACCAGGAACTGGCCTGCGATGCGGTGGTGATCGCCGCCGCGCCGAACGCGCGCCGCCACTACGGCGCGGCGCTGCTGAAGAGCCCGGCCATCGTCGCCCCGGCGGCGATGGCCTGCCAATGGATACCGACCCACCCGCTGAAGGAGCGCATCCTCATGTTGAAGCAGCAAGGATTGTCCAGGTCGAAGTTGCTGTACGCCCGCGCCGCTGTCGGCGTCGCCTGCATCGCGATCGCGGCCAGCGCCTGGGCGGCGCTGCCGACCCGGGTCGTGCCGGCCGAGGCGATCGACAAGACCCCGCCGCGCTACCCGCTGCAGGCGCTGCGCCAGGCGCAGAGTGGCGAGGTGGTGCTGCTGGTCGATGTCGACGCGCAGGGGCACGTGGCGGACGCGACGGTGGAACGCAGCACCCCGGCCGGGGTGTTCGATGCCGCCGCGTTGCAGGCGGCGCGTGGCTGGACGTTCTCGCCGCGACGCGAGGGCGGCAAGGCAGTGGCGGGGCGCGTGCGCGTGCCGGTGACCTTCGAAGCGAACATGCGGCCGGTCGCGACGCCGGTGGGAGCTCCAGCCGGCAACTACGCCTGGTATCGCGCTGATCTTGGCGTGCATGCGACGCAAGCTTGTGATGTCCTTGTCGTCGACACCGAGCGACCCAATGGCGACCCGCTGTGCGGCATCCGCCAGCTGGCGAAGCGATGA	MGSDALALWLARWLLAGAAALALVLVVRRPLRAWLGPRCAYALWAAVPLVALAALLPARRVVMPALPLPATRMGVALQAAPMDAPVDVAGGLLLVWAAAALALLLWQGWRQRRFVRALGPLQAQGGRVFLAPTCDGLPATFGLLRPRIVLPADFASRYSEEEQRLVLAHERVHLRRGDLWANALALVLLSLQWCNPLALLAWRAFRRDQELACDAVVIAAAPNARRHYGAALLKSPAIVAPAAMACQWIPTHPLKERILMLKQQGLSRSKLLYARAAVGVACIAIAASAWAALPTRVVPAEAIDKTPPRYPLQALRQAQSGEVVLLVDVDAQGHVADATVERSTPAGVFDAAALQAARGWTFSPRREGGKAVAGRVRVPVTFEANMRPVATPVGAPAGNYAWYRADLGVHATQACDVLVVDTERPNGDPLCGIRQLAKR				NA	NA	NA	NA	NA
BMS020_08003	369	blaI	COG3682	Penicillinase repressor	ATGCAGATCAGCGAAGCCGAGGCGGTGGTGATGCAGGTGCTGTGGACGCGGCATCCGGTCGGGGCCGACGAGGTGGTCGCGGCGCTGGCCGGGCACAGCGACTGGGCCGAGCCGACCGTGAAGACCTTGCTCAACCGCCTGCTCAACAAGGGCGCGATCAGTGCCGCCAAGCAGGGCCGGCGCTACCTGTACTCGCCCGAGCTGCAGCAGGCGGCGTGGGTCGCGCAGCAGAGCGAGGGCCTGCTGGCGCGGCTGTTTGGCGGCCGCGTGGCGCCGCTGGTGGCGCACTTCAGCGAGCAGGGCAAGCTCAGCCGCGCCGACATCGCCGAGCTCAAGCGCCTGCTGGACGAGCTCGACGATGGGCAGTGA	MQISEAEAVVMQVLWTRHPVGADEVVAALAGHSDWAEPTVKTLLNRLLNKGAISAAKQGRRYLYSPELQQAAWVAQQSEGLLARLFGGRVAPLVAHFSEQGKLSRADIAELKRLLDELDDGQ	PGPT0028105_824	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
BMS020_08004	1986			butyrate:acetyl-CoA coenzyme A-transferase	ATGGCGACCCGGCCGACGTGCTCGGCTACGCTGCGGCGCATGAGTGAACACCTGCACGACATCGACGCCACCGTCGACCACATCTTCCAGCGCATCCCTGGCGAACTGCGGGTCGGCGCACCGCTCGGCATCGGCAAGCCGCATCGCCTGCTCAACGCGCTGTACCAGCGCACGCTGCGCGAGCCGGGCCGACGGCTGCAGCTGTACACCGCGCTGTCGTTGAACCCGCCGGCACCCGGCCGCGGCCTGCAGGCGCGCTTCGCCACGCCGTTCCTGGCCCGGCATTTCGGCGCGGACTTCCCGCGCCTGGCGTACGTCGATGCACTGCAGCGCGACGCGTTGCCGGCGCAGGTGACGGTCGAGGAGTTCTACATGCAATCGGGCGCACTGCTCGGCTCGGCGCAGGCCCAGCGCGCCTACACCAGCCTGAACTACACCATGGCCGCCGACGCGATCGCCGCGCGCGTACCGAACCTGGTCGTGCAGAAGGTCGCCGCCGAGCCCGACGGCCCCCGCCTGTCGTTGTCGTGCAACACCGACATCACCGAGGACCTGCTCGAGGCGATGCAGCGCCGCGGGCTGCCACGCCCGCTGCTGGTGGCCGAAGTCGATCCGGAGTTGCCATGGATCGGCGGCAGCGCGGCGGTGACGCAGGACTTCTTCGACCTGGTGCTGAGCCCGCCGGCGCCGTATCCGCGCCTGTTCGGGCTGCCGCGGCAGCCGGTCGGCGACGTCGACTACGCGATCGGCCTGTACGCCAGCACGCTGGTGCGCGATGGCGGCACGCTGCAGATCGGCATCGGCGCGCTGGCCGACGCGCTCAGCCACGCACTGGTGCTGCGGCATACCGACAACGCCACCTATCGGCGCGTGCTGGACGCGCTGGCGCCGGGCATCGCCGAACACCCCAGCGTGCGCGCCAGCGGTGGGCTGGGACCGTTCGAGATCGGTCTGTACGGCTGCAGCGAGATGCTCAACGAAGGCTTCAAGCGCCTGGTCGAAACCGGGGTGATCCGCCGCCGCGTGCTCGACGACGCGCCGCTGATGCAGCGCATCGCCGATGGCAGCGCCAGCACCGACGACCACGCACGGCTGCAGCGCGATGGCGAGTTCCTGCATGGCGCGTTCTACCTCGGCTCACCGGCGTTCTACGCCTGGCTGCGTGCGCTGGATGCGGACACGCGCGGCGCGATCGGCATGCGCCGGATCGGCGAGATCAACCAGCTGTACGGCGGCAACGAGGCGCTGGAGCGGCTGCAGCGCCACGACGCGCGCTTCTTCAACACCTGCATGATGGCCACCGCGCTGGGCGCGGCGGTGTCCGACGGCCTGGAGGATGGACGCGTGGTGTCCGGCGTCGGCGGCCAGTACAACTTCGTGGCGATGGCGCATGCACTGCAGGACGCGCGCAGCGTGCTGATGCTGCGCGCGGTACGCGAGGACGGCGGCCGGGCGGCCTCCAACCTGCGCTGGAACTACGGCCACACCACGATCCCGCGCCACCTGCGCGACATCTACCTCAGCGAGTACGGCATCGCCGACCTGCGCGGGCTGACTGACGAGGACTGCGTGCTGGCGATGGCCGGCATCTGCGATGCGCGCTTCCAGCCGGCGCTGCTGCAGCAGGCGCAGGCGGCACGCAAGCTGCGCACCGACGTGCAGGCGCCCGCGACCTGGGCCGCGAACACCCCGCAGCGGCTGGCCACCGCATTGGCGCCGTTCCGCGGCGACGGCACCCTGCCCGACTTCCCGCTCGGCAGCGACTTCAGCCCGGTCGAACAGCGCCTGCTGAAGGCGCTTGGATGGTTGAAGGCGCGCACCGCCAGCAAGCGCGGCATGCTCGCCAGCGTGATCGCCGCGCTGCGCCTGCCACCGCCCGGCGACGACGCCGAGGCATTGGCGCGGATGCAGCTGCAGGCGCCGCGCGGGCTGCGCGAGCGCATCGAGGCGCGGCTGCTGCGGCTGGCGCTGGCGCGCACGCGCTGA	MATRPTCSATLRRMSEHLHDIDATVDHIFQRIPGELRVGAPLGIGKPHRLLNALYQRTLREPGRRLQLYTALSLNPPAPGRGLQARFATPFLARHFGADFPRLAYVDALQRDALPAQVTVEEFYMQSGALLGSAQAQRAYTSLNYTMAADAIAARVPNLVVQKVAAEPDGPRLSLSCNTDITEDLLEAMQRRGLPRPLLVAEVDPELPWIGGSAAVTQDFFDLVLSPPAPYPRLFGLPRQPVGDVDYAIGLYASTLVRDGGTLQIGIGALADALSHALVLRHTDNATYRRVLDALAPGIAEHPSVRASGGLGPFEIGLYGCSEMLNEGFKRLVETGVIRRRVLDDAPLMQRIADGSASTDDHARLQRDGEFLHGAFYLGSPAFYAWLRALDADTRGAIGMRRIGEINQLYGGNEALERLQRHDARFFNTCMMATALGAAVSDGLEDGRVVSGVGGQYNFVAMAHALQDARSVLMLRAVREDGGRAASNLRWNYGHTTIPRHLRDIYLSEYGIADLRGLTDEDCVLAMAGICDARFQPALLQQAQAARKLRTDVQAPATWAANTPQRLATALAPFRGDGTLPDFPLGSDFSPVEQRLLKALGWLKARTASKRGMLASVIAALRLPPPGDDAEALARMQLQAPRGLRERIEARLLRLALARTR				NA	NA	NA	NA	NA
BMS020_08005	930			hypothetical protein	ATGCCCACAGCCCGGATTGTCCTGCTCGCGCTGACCCTGCCGCTGGCCGCGGCCTTCAATGCGCGCGCCGATGCGCTGCCCGACCAAGGCCCGCGGTCGGACCTGCGCGCGCAGGTGCTGCTCGACCGTGTGCATTTCTCCCCTGGCCAGATCGACGGCGTGGCCGGCTCCAACCAGCGCCGCGCGGTGGCCGGCTTCCAGGCCGCCCGTGGCCTCACCCCCAGCGGTGCGCTCGATGGACCAACCTGGACCGCGCTCGATGCCGACCAGGCGCCGGTGCTGACGCGCTACACGCTCAGCGATGCCGACGTCGCCGGCCCGTACGTGCCGGTCCCCGATGCGCCTTCCGCGCAGGCGGCGCTGCCGGCGCTCGGCTACGCCTCGGTGGAGGAGATGCTGGGCGAGCGCTTCCATGCCGATCCGGCACTGCTGCGCGCGCTGAACCCGCAGGCGGACTTCGGTCGCGCCGGCACTACTCTGCAGGTACCGGCGATCGATGCGCCGGCGCCGTTGGCGAAAGCGGCTCGGATCATCGTCGACCGCTCCGATTCCACGCTGCGCCTGCTCGGTGCCGACGGCCGCACCTATGCGCAGTTCCCAATCTCCTCCGGCAGCGAGCACGACCCGCTGCCGCTCGGGCGCTGGAAGATCCTCGGCGTTTCGCGCGATCCGCCGTTCCACTACAACCCGAAGCTGTTCTGGGACGCCCGTCCCGGGGAGGGCAAGGCCACGCTGCCGCCGGGCCCGAACAATCCGGTCGGCGTGGTCTGGATCGACCTGTCCAAGCCGCATTACGGCATCCACGGCACGCCCGAGCCCGGGCATGTCGGCAAGACCGAATCGCATGGCTGCGTGCGCCTGACCAACTGGGATGCGCGCCAGCTCGCCGATGCGGTCGACCCTTCGACTGCGGTGCTGATGCAGGAGTGA	MPTARIVLLALTLPLAAAFNARADALPDQGPRSDLRAQVLLDRVHFSPGQIDGVAGSNQRRAVAGFQAARGLTPSGALDGPTWTALDADQAPVLTRYTLSDADVAGPYVPVPDAPSAQAALPALGYASVEEMLGERFHADPALLRALNPQADFGRAGTTLQVPAIDAPAPLAKAARIIVDRSDSTLRLLGADGRTYAQFPISSGSEHDPLPLGRWKILGVSRDPPFHYNPKLFWDARPGEGKATLPPGPNNPVGVVWIDLSKPHYGIHGTPEPGHVGKTESHGCVRLTNWDARQLADAVDPSTAVLMQE				NA	NA	NA	NA	NA
BMS020_08006	705			hypothetical protein	ATGCGCATTGCCTGGGTGATCGGGGTCGGGCTGCTGTTGGGCGCGGCCGCATACTGGCTGCTCCACGCCGAACGCGACCAGCCGACGCTGGCCGAGGCGATCGCCGCCGCCGCGCAGCCGCGCGCCAGCGCCGGCGATGCCGCGCCGGTGCTGGCGGCAGGCGGCGCCGCCCCTGCGCGCACCCAGGCGGCACCCGCGCCAGCCACGGCGTCCGAGGCGTCCACGCCGGCCCCGCCCATGGCGGACATGCAGACCGCAGCCAGCGACGCGCGGCTGCCGGTGCCGGTCCAGGGCGTTGCCGCCAGCGCGCTGCACGACACCTTCAGCGACGCGCGCAGCCAGGGCCGCGTGCATGACGCGATCGACATCATGGCCGCCGCCGGCACGCCGGTCCTGGCGGTGGCCGACGGCCATGTGGAAAAGCTGTTCGACAGCCAGCGCGGCGGGCTGACGCTCTATCAGTTCGATCCCGACGGCCGCTACTGTTACTACTACGCGCACCTGCAGCGGTATGCCGACGGACTGGCCGAAGGCCAGCCGCTACGGCGCGGCCAGGTCATCGGCTACGTCGGCAGCAGCGGCAACGCCAGCGCCGACGCCCCGCACCTGCATTTCGAGGTGCACCGGCTCGGCCCCGAGCGGCAGTGGTGGAAAGGCGAGGCGCTCAATCCGTATCCGCTGCTGACCCAGGCCGCGCCACCCTAG	MRIAWVIGVGLLLGAAAYWLLHAERDQPTLAEAIAAAAQPRASAGDAAPVLAAGGAAPARTQAAPAPATASEASTPAPPMADMQTAASDARLPVPVQGVAASALHDTFSDARSQGRVHDAIDIMAAAGTPVLAVADGHVEKLFDSQRGGLTLYQFDPDGRYCYYYAHLQRYADGLAEGQPLRRGQVIGYVGSSGNASADAPHLHFEVHRLGPERQWWKGEALNPYPLLTQAAPP	PGPT0024030_614	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_LD-ENDOPEPTIDASE_ACTIVITY,PGPT0024030-lytH-K21472	NA	NA
BMS020_08007	1677		COG3507	Non-reducing end alpha-L-arabinofuranosidase BoGH43A	ATGACCCGCATCCTGCTGGCGCTGCTGCTCGGCGCGCTGTTGCCCACCCCGGCCCATGCCGAGGCACTGTTCACCGAAGTGTCCTACCGCGGCGAGGATCCCGCACCGGCGCCCGCCGCCGGCCAGTACCGCAATCCGGTGATCGCCGGCTTCTATCCGGACCCGTCGGCGATCCGGGTCGGCGACGACTTCTACCTGGTCAATTCCAGCTTCGGCTACTTTCCCGGCCTGCCGGTGTTCCACAGCCGCGACCTGGTGCACTGGACCCAGATCGGCAATGCGATCGACCGCCCCGGCCAGGTCGACTTCGGCCACAACGAACTCAGCCGCGGCCTGTTCGCCGCCTCGATCAGCCATCACGACGGCACCTACTACATCGTCAATACCTGCTTCTACTGCGACCGCGGCAACTTCGTGATCACCGCCGCGGACCCGGCCGGGCCGTGGTCGGACCCGCACTGGCTGATGTACGAAGGCATCGACCCATCGCTGTTCTTCGACGACGACGGCCGCGCCTGGATGGTCAACAACGATGTGCCTGCCGGCGCGCTGCGCTACGAGGGCCATCGCGCGATCTGGCTGCAGCAGTTCGACCCGAAAGCGCTGCGCCTGGTCGGGCCGCGCACGGTGATCGTCGATGGGGGCGCCGACCCGGCCAGCAAGCCCGAATACGTCGAAGGCCCGCACCTGTTCCGCCACGACGGCTGGTATTACCTGACCGCCGCCGAGGGTGGCACCGGCGAGCAGCACGCGCAGATGGTCTGGCGCAGCCGCAAGGTCACCGGCCCGTACCAGCCGTTCCCGGGCAACCCGGTGCTGACCCAGCGCGACCTCGATCCGGCACGCGCTGCCGCGGTGACCTCGGCCGGCCACGCGCAGTTCGTCGCACTCAAGGACGGCAGCTGGTGGGCGGTGTTCCTGGCCACGCGCCCGTACCGCGGCAACCAGTACAACCTCGGCCGCGAGACGTTCCTGCTGCCGGTGCGCTGGCAGGACGGCTGGCCGCAGGTGCTGCCGCACGGTACGCCGGTGCCGCTGCTGGCCGACGCACCGGCTCTGCCCGGCGGCAAGGCGGCGCGCCCGACCACCGGCAGCTTCGCCTGGAGCGAGCGCTTCGACGCGCCGGCGCTGCCACTGGACTGGATGATGATCAACGCCCCGGCTACCCGCTGGTACGCCACGGGGCGCGACGGCCTGCGCCTGCAGGCCTCGACCACGCCGCTGGGCGAACACGCCAGCGGCCAGCCGGCCTATCTCGCCCATCGCCTGCAGCATGCGCGCGCCACGCTGGAAACCCGCGTGGACGGACGCGGCCTGGCCATCGGCGAACAGGCCGGGCTGGCGCTGCTGCAGAACGAGGGCCACTTCTACGCGGCGATGCTGGTCCGCGAGGCCGCCGGCGCGGCGCTGGTGCTGTTCCGGCGTGCCGGCGCGGACCAGCCCAAGAGCGGCCTGCCGCTGGCGCGCATCGCGCTGCCGGACGCGCGCCAGCCGCTGCGCCTGCGCCTGCGCATCGACGGCCCGCGCCTGGATGCCGACTACGCGCTCGGCGATGGCGGCTGGCAACCGCTGGCGCACGCCCTCGATGCCAGCCTGCTGAGCGTGGCCAGCGCCGGCGGCTTCATCGGCAACACCTTCGGGCCGTATGCCTATCACGCTCCGGCAGCGACACCATGA	MTRILLALLLGALLPTPAHAEALFTEVSYRGEDPAPAPAAGQYRNPVIAGFYPDPSAIRVGDDFYLVNSSFGYFPGLPVFHSRDLVHWTQIGNAIDRPGQVDFGHNELSRGLFAASISHHDGTYYIVNTCFYCDRGNFVITAADPAGPWSDPHWLMYEGIDPSLFFDDDGRAWMVNNDVPAGALRYEGHRAIWLQQFDPKALRLVGPRTVIVDGGADPASKPEYVEGPHLFRHDGWYYLTAAEGGTGEQHAQMVWRSRKVTGPYQPFPGNPVLTQRDLDPARAAAVTSAGHAQFVALKDGSWWAVFLATRPYRGNQYNLGRETFLLPVRWQDGWPQVLPHGTPVPLLADAPALPGGKAARPTTGSFAWSERFDAPALPLDWMMINAPATRWYATGRDGLRLQASTTPLGEHASGQPAYLAHRLQHARATLETRVDGRGLAIGEQAGLALLQNEGHFYAAMLVREAAGAALVLFRRAGADQPKSGLPLARIALPDARQPLRLRLRIDGPRLDADYALGDGGWQPLAHALDASLLSVASAGGFIGNTFGPYAYHAPAATP	PGPT0018665_473	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
BMS020_08008	1998	tktA_2	COG0021	Transketolase 1	ATGACCCAGCCCACCCGCCGCCAGCTGGCCAACGCCATCCGTTTCCTCGCCGCCGACGCGGTCCAAGCCGCCAACTCCGGCCATCCGGGCATGCCGATGGGCATGGCCGACATCGCCGAGGTGCTGTGGAACGACTTCCTGCGCCACAACCCGAACAATCCGAAGTGGTTCAACCGCGACCGCTTCGTGCTGTCCAACGGCCATGGCTCGATGCTGCAGTACGCGCTGCTGCACCTGAGCGGCTACGACCTGCCGCTGGACGAGCTGAAGAACTTCCGCCAGCTGCACAGCAAGACCGCCGGCCACCCCGAGCGCAGCGAGACCCCCGGGGTCGAGACCACCACCGGTCCGCTGGGCCAGGGCTTCGCCAACGCAATCGGTTTCGCGCTGGCCGAGCGCGTGCTGGCCGAGCGCTTCAACCGCCCCGAGCACGTGGTCGTCGACCACCGCACCTGGGTGATGATGGGCGACGGCTGCATGATGGAAGGCGTCTCGCACGAGGCCGCCTCGCTGGCCGGCACCTGGAAGCTGGGCAAGCTGACCGCGTTCTGGGACGACAACGGCATCTCCATCGACGGTGAGGTCCACGACTGGTTCACCGACGACACCCCGGCGCGCTTCGAGGCCTACGGCTGGCACGTGGTGCGCGGCGTCGACGGCCACGATCCGGAGGCGATCAAGGCCGCGATCGAGGCCGCGATCGGCGTCGAGGACAAGCCGAGCCTGATCTGCTGCAAGACCACGATCGGCTTCGGTTCGCCGAACAAGGCCGGCAAGGAATCCTCGCACGGCTCGCCGCTGGGCAAGGACGAGGTCGAGGCGACCCGCAAGGCGCTGGACTGGGCCTACCCGGCGTTCGAGATCCCGGAGGCGATCTACGCCGGCTGGCGCGCCAACGGCACCGGCACGCTGCGCCAGGCCGAATGGGAGCAGGCGTTCGACAAGTACGCCGCGCAGTACCCGGCCGAAGCGGCCGAGCTGACCCGCCGTTCGCACGCCGAACTGCCGGCCAACTTCATCGCCGACGCCGATGCCTACATCGCCAAGGTCCAGGCCGAGGGTGCCAACATCGCCTCGCGCAAGGCCTCGCAGAACGCGATCGAAGCCTACGCCGCGCTGCTGCCGGAACTGATCGGCGGCTCGGCCGACCTGGCGCCGTCGAACCTGACCCAGTGGAAGGCCAGCAAGTCGGTCACCGAGATCGATCCGGGCGCCAACTACGTGCACTACGGCGTGCGCGAGTTCGGCATGAGCGCGATCGCCAACGGCCTGGCGCTGCACGGCGGCTTCCTGCCGTTCGACGCGACCTTCCTGGTGTTCAGCGACTACGCGCGCAACGCGCTGCGCATGAGCGCGCTGATCCCGGCGCACGTGATCCACGTCTACACCCACGATTCGATCGGCCTGGGCGAGGACGGCCCGACCCACCAGCCGGTCGAGCACCTGGCCTCGCTGCGCTACATCCCGGGCAACGACGTGTGGCGCCCGTGCGACGCAGCCGAATCGGCGGCGGCGTGGAAGGCGGCGATCATGCGCCAGGACGGCCCGAGCTGCCTGGTGTTCAGCCGCCAGAACCTGCCGCACCAGCCGCGTGATGCCGACCAGCTCGGCCTGATCGAGCGCGGTGGCTACGTGCTGGCCGACGCCGAGGGCACGCCGGACGTGATCCTGATCGGTACCGGCTCGGAAGTGGGCCTGGCGGTGGAAGCGAAGCAGGCGCTGGACGCGCAGGGCATCAAGACCCGCGTGGTGTCGATGCCGTCGAGCGACGTGTTCGACCGCCAGGACGCCGCCTACCGCGACAGCGTGCTGCCGGCGCACATCCGCAAGCGCGTCGCGGTCGAGGCCGGTGTCACCGGCTTCTGGCACAAGTATGTGGGCCTGGACGGCGCCGTGGTCGGCCTGGACAGCTTCGGTGCCTCGGCCCCGGCCGACGTGCTGTACAAGCACTTCCGCATCACCGCCGAGCACGTGGTGGAAGCGGCCAAGGCGCTGTAA	MTQPTRRQLANAIRFLAADAVQAANSGHPGMPMGMADIAEVLWNDFLRHNPNNPKWFNRDRFVLSNGHGSMLQYALLHLSGYDLPLDELKNFRQLHSKTAGHPERSETPGVETTTGPLGQGFANAIGFALAERVLAERFNRPEHVVVDHRTWVMMGDGCMMEGVSHEAASLAGTWKLGKLTAFWDDNGISIDGEVHDWFTDDTPARFEAYGWHVVRGVDGHDPEAIKAAIEAAIGVEDKPSLICCKTTIGFGSPNKAGKESSHGSPLGKDEVEATRKALDWAYPAFEIPEAIYAGWRANGTGTLRQAEWEQAFDKYAAQYPAEAAELTRRSHAELPANFIADADAYIAKVQAEGANIASRKASQNAIEAYAALLPELIGGSADLAPSNLTQWKASKSVTEIDPGANYVHYGVREFGMSAIANGLALHGGFLPFDATFLVFSDYARNALRMSALIPAHVIHVYTHDSIGLGEDGPTHQPVEHLASLRYIPGNDVWRPCDAAESAAAWKAAIMRQDGPSCLVFSRQNLPHQPRDADQLGLIERGGYVLADAEGTPDVILIGTGSEVGLAVEAKQALDAQGIKTRVVSMPSSDVFDRQDAAYRDSVLPAHIRKRVAVEAGVTGFWHKYVGLDGAVVGLDSFGASAPADVLYKHFRITAEHVVEAAKAL	PGPT0011200_1466	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
BMS020_08009	1980	tolB_6		Tol-Pal system protein TolB	ATGTCGCACTTTTCCCATCGCATCCTGGCCGCGGCGCTGGCCGTGCTGTGCGCCGGCCACGCGTCGGCAGCCGATGCCGTCAAGCCGGCGGCGATGACCGTCGACGGTGCGCCCGCGGTGCCGCAGGCGCTGGTCGATGCCACCGCGCCTTATCTGCAGGCGCGCAGCGCCACCTTCATGGACTGGAACGCGAAGGACCACTCGATGCTGGTCCGCACCCGCTTCGGCGATACCGACCAGCTGCACAGCGTGGCCGCGCCGGGCGCGGCGCGTACCCAGGTCAGCTTCGAGAGCGAGCCGGTGCTGTTCGGCACGCTGGCGCCCACACGCGGCGACGTGCTGGTGGTGCAGAAGGACGTCGGCGGTGGCGAGTTCTACCAGCTGTTCCGCCTCGACCACGGCAAGCTGACCCTGCTGACCGACGGCAAGAGCCGCAACTGGTTCGGCAGCTGGAGCCGCGACGGCCGCCTGGTCGGTTACATGTCCACGCGCCGCAACGGCGCCGACGGCGACCTGTACGTGGTCGATCCGCGTGATCCATCCAGCGACCGCCTGGTCGCCAAGGTCAGCGGCGGCGGCTGGAACTTCGCCGACTTCTCGCCCGACGGCCGCAAGGCGCTGGTGGTCAACCGGCAGTCGATCACCCATGCCGATGTCTACGAAGTGGACCTCGCCAGCGGCACGCTGACCCAGCTCAACCACAACGCCGGGCACGTGTCGTACGAGGCGCCGCAGTACGGTGCCGATGGCCGCGTGTGGCTGCTGTCCGACGCCGGTTCGGACTTCAAGCGCCTGGGCGTGCTCGATGCCAAGGGCAGCTTCGTGGCCAAGAGCCCGGAGCCGAAGTGGGACGTCAGCGAGTACGCGATGGCGCCGGACGGCAGCTTCATCGCCTACGCGATCAACGCCGCGGGTGTGGCGAAGCTGCGCGTGCTCGACATCGCCAGCGGCACCGTGCGCCATGTCGACGGGCTGCCGAACGGAGTGATCCCGTGGTCGTTCGGCCACACGCTGTCGATCGCGCCGTGGGGCGACATCGCGCTGAGCATGTCGGCGGCGAAGGTGCCGGGCGACGTGTTCTCGGTGGACAGCAAGAGCCTGAAGGTGACGCGCTGGACCACCAGCGAGGCCGGCGGCCTGGATACCGAGGCCAACGTCGAACCGGAGCTGGTGACGATCAAGAGCTTCGACGGCGAGCCGGTGACCGGCTTCCTGTATCGGCCGGATCCGAAGCGCTTCCCCGGCAAGCGTCCGCTGATGTTCGACATCCACGGCGGCCCCGAGGGCCAGACCCGTCCGGACTTCCTCGGCCCGCAGAACTACTACCTCAACGCGCTGGGGGTGGCGCTGTTCTTCCCCAACGTGCGCGGCTCGGATGGCTTCGGCAAGCGCTTCGTCGGCCTGGACAACGGTCCGTTCAAGCGCGAGGACTCGGTCAAGGACATCGGCGCGATGCTCAAGGCGCTGGCCAAGGATCCGACCCTGGACGCCAGCCGCTTCGGCGTCACCGGCGTCTCCTACGGCGGCTACATGTGCTACGCCAGCGCGGTCCATTACAGCGCGCTGCTGAAGGGCGCCAGCTGCTATGTCGGCATCTCCAACTTCGTCACCTTCCTGGAGAATACCCAGTCCTACCGCCGCGACCTGCGTCGGCCGGAGTACGGCGACGAGCGCGACCCGAAGCAACGCGCGCAGCTGCAGAAGATCTCGCCGCTGAACCACGTCGACCAGATCCGCGTGCCGCTGCTGATCGCGACCGGTGCCAACGATCCGCGCGTGCCGGCGTCGGAAGCCGAGCAGATCATCACCGCGGTGCGCGGGCAGGGCGGCAGTGCCTGGCACCTGCTGGCTGGCAACGAGGGCCACGGCTTCCACAAGAAGGACAACGCGGACTACTACTTCCGCACCGCGGTGCTGTTCTGGCAGCAGCAGCTGCTCGGCCAGGACGTGCAGGCCGGCGCGTCCCAGCCGGGCAAGTGA	MSHFSHRILAAALAVLCAGHASAADAVKPAAMTVDGAPAVPQALVDATAPYLQARSATFMDWNAKDHSMLVRTRFGDTDQLHSVAAPGAARTQVSFESEPVLFGTLAPTRGDVLVVQKDVGGGEFYQLFRLDHGKLTLLTDGKSRNWFGSWSRDGRLVGYMSTRRNGADGDLYVVDPRDPSSDRLVAKVSGGGWNFADFSPDGRKALVVNRQSITHADVYEVDLASGTLTQLNHNAGHVSYEAPQYGADGRVWLLSDAGSDFKRLGVLDAKGSFVAKSPEPKWDVSEYAMAPDGSFIAYAINAAGVAKLRVLDIASGTVRHVDGLPNGVIPWSFGHTLSIAPWGDIALSMSAAKVPGDVFSVDSKSLKVTRWTTSEAGGLDTEANVEPELVTIKSFDGEPVTGFLYRPDPKRFPGKRPLMFDIHGGPEGQTRPDFLGPQNYYLNALGVALFFPNVRGSDGFGKRFVGLDNGPFKREDSVKDIGAMLKALAKDPTLDASRFGVTGVSYGGYMCYASAVHYSALLKGASCYVGISNFVTFLENTQSYRRDLRRPEYGDERDPKQRAQLQKISPLNHVDQIRVPLLIATGANDPRVPASEAEQIITAVRGQGGSAWHLLAGNEGHGFHKKDNADYYFRTAVLFWQQQLLGQDVQAGASQPGK				NA	NA	NA	NA	NA
BMS020_08010	2727	btuB_29		Vitamin B12 transporter BtuB	ATGTCGCATGCAGTCCGGCGCGCCGCCGTCCCCGGCGCGCTCATCCGTCGCTTCATCCCCAGCGCGTTGGCGCTGTGTTGCGCATCGGCGCTGGCGCAGGAGGCCACCGGGCCGGCCGATGAAGACGCGACTGCCAAGCTCGTCACCACCGACACGGTGAAGGTGTCTGCGTCGCGCATCGATCGCCCGGGCTTCCAGGCGCCGACGCCGACCATGCAGATCAGCAACGAGGAGTTGAGCGTGGCCTCGCGCCCGAACGTGGCCGCGGCGTTGAACGATCTGCCGCAGTTCCGCGCCACCCAGTCACCGCAGACCACCAGCACCAACACCGGCTCCGGTGGCGCGCCGGTCGACCTGCGCGGGCTCGGCGTCAGCCGCACCCTGGTGCTGGTCGATGGCCGCCGTTTCTCCAGCGACAACGACCTCAACACGATTCCTTCGATCCTGGTGAAGAACGTCGACGTGGTCACCGGTGGCGCGTCCGCAGCCTGGGGTTCGGGCGCGGTTGGTGGCGTCGTCAACATCGGCATCGACGAAGACTTCAGCGGCGCGCGCCTGGACGTGCAGGCCGGGCAGTCCTCGCGCAACGACGACGACGGCCATCGCCTGCAGGCGGCGTTCGGTGGTGATTTCGGCAGCGCCGGCCACGCCGTGTTCGGCATCGACTACGCCCACAGCGACGGCATCATCCCGCGCACCGCGCGCGCCAACGCCGGCCGCTGGGCCACCTTCGCCAACGCCGACGGCACCTCGACGATGAGCGCCAACGTCGGATCGTCCAACCTGGTGTACGGCGGCATCATCACCTCCGGCGTGCTGTCCGGCTACGCGTTCAATCCGGACGGCTCGCTGCGCCAGGTCAGCTTCGATTCGGTGCGCGGCACCACCGCGATCGGCGACGAGGCCCGCTCCAGTGATGATCTCAGTCCGCTGGTCACGCCGCAGAAGCACTACGCGATGCTCGGTCGCGCGACCTGGAACTTCGGCGACTCGGTGAAGCTGACCGGCGAGCTGCGCCATTCGCGGATGTGGAACGACTACATCTGGTTCGGCGACCACAACCGCGGCAACCTGACCATCGGCATCGACAACGCCTACCTGCCCGATGAGGTGCGCAGCGCGATGGAGGCCGCTGGCGAGACCAGCTTCAGCATGGGCCGCTACAACAGCGACCTGTCGTATTCGCGCATCGACTTCTCGCGCAAGACCACCCAGGGCACGCTGGCGCTCGATGGCAGCTTCGGCGACAACTGGCGCTGGGATGCGTACTACAGCCATGGCGAGTTCGTGCAGGACTACCGCACGCCCGGCTTCCTGCTGACCGAGGAGTACGCCAACGCAGTCGATTCGGTGATCAGCCCGACCACCGGCGAGCCGATCTGCCGCGTCGCGCTGACCGACCCATCCAGCACCTGCGTGCCGATCAACCTGTTCGGCCTGGGTTCGCCGTCGCAGGCGGCGATCGACTATGTCACCGGGACGCCGAGCTCGCATTCGGTGACCCGGCTCGATACCGGCGGCGCCAGTCTGCGCGGCGAACCGTTCTCGCTGCCGGCGGGCGAGGTGTCGGTGGCGATGGGCGTGGAAGCACGCCGCGAGGCGATCAGGACCACGGTCGGCGCGCTGGATGCGGCCAATGCCTTCACCACCTTCAGCTTCTCGCCGATGCAGGGCAGCTACAACGTCAAGGAAGCCTTCGCCGAAGTGCTGGTGCCGGTGCTGAAGGACAAGCCGGTGTTCGAGAATCTCGCGGTCAACGCCGCCGCGCGCTTCTCCGACTACAACACCAGTGGTGGCGTGTGGTCGTGGAAGCTTGGCATCACCAACGAGTTCCTGCCCGGGTTGCGTGGCCGCTTCACCCGCTCGCGCGACATCCGCTCGGCCAACATGAGCGAGATGTACACGACCAGCACCACCGGCTACAACACGGTCACCGATCCGTTCACCAACCAATCGGTGTACGTGCTGACCAACGGTGGCGGCAATCCGGCGCTGAGCCCGGAGACCGCGTACTCGACCACCTACGGACTGACCTGGTCGCCGCAATCGGTGCCGGGGCTGGACATGTCGCTGGACTACTTCGACATCACCATCGACAACGTCATCACCACGGTCTCGGCGCAGGACATCCTGACCCGCTGCTACAACGGCAACCAGGCCATGTGTACGCGCATCGAACGCGACGCCGCCGGCAACCTGAGCCGCATCGTGTCCAGCTACGTGAACCTGTCCCGGTACGCCACCGATGGCATCGATGCCGAAGCCGCGTACTCGCTGCCGCTGAGCCGCTTCAGCGACCTGCCGGGCATGCTCAGCTTCCGCCTGCTCGGTACCTGGGTGCACAGCCTGACCACCAACGACGGCGTCAGCGAGATCGAGTACGTCACTTCGCAGGGCTATTCGTTCGGCCTGGGCACGCCGCGCTGGCGCGCCAATGCGTCGGTTGCCTACCAGAACGCCAGCTGGGGCGCGAACCTGCGCGCGCGCTACATCTCGCCGGGCGTCTACAACCGCACGCTCAACATCACCAACAACGCGATCCCCAGCTACATGTACTACGACCTCGGCCTGACCTGGAACCTGCCGACCGGCAACGGCCCGACGTTGCAGCTGTATGCCAACGTCAACAACCTGACCGACAAGGATCCGCCGCCGGGTTCGATCTTCTCGCCGTACTACGACGTGATCGGCCGCTACTACACGGTCGGTGCCCGTATCGACTTCTGA	MSHAVRRAAVPGALIRRFIPSALALCCASALAQEATGPADEDATAKLVTTDTVKVSASRIDRPGFQAPTPTMQISNEELSVASRPNVAAALNDLPQFRATQSPQTTSTNTGSGGAPVDLRGLGVSRTLVLVDGRRFSSDNDLNTIPSILVKNVDVVTGGASAAWGSGAVGGVVNIGIDEDFSGARLDVQAGQSSRNDDDGHRLQAAFGGDFGSAGHAVFGIDYAHSDGIIPRTARANAGRWATFANADGTSTMSANVGSSNLVYGGIITSGVLSGYAFNPDGSLRQVSFDSVRGTTAIGDEARSSDDLSPLVTPQKHYAMLGRATWNFGDSVKLTGELRHSRMWNDYIWFGDHNRGNLTIGIDNAYLPDEVRSAMEAAGETSFSMGRYNSDLSYSRIDFSRKTTQGTLALDGSFGDNWRWDAYYSHGEFVQDYRTPGFLLTEEYANAVDSVISPTTGEPICRVALTDPSSTCVPINLFGLGSPSQAAIDYVTGTPSSHSVTRLDTGGASLRGEPFSLPAGEVSVAMGVEARREAIRTTVGALDAANAFTTFSFSPMQGSYNVKEAFAEVLVPVLKDKPVFENLAVNAAARFSDYNTSGGVWSWKLGITNEFLPGLRGRFTRSRDIRSANMSEMYTTSTTGYNTVTDPFTNQSVYVLTNGGGNPALSPETAYSTTYGLTWSPQSVPGLDMSLDYFDITIDNVITTVSAQDILTRCYNGNQAMCTRIERDAAGNLSRIVSSYVNLSRYATDGIDAEAAYSLPLSRFSDLPGMLSFRLLGTWVHSLTTNDGVSEIEYVTSQGYSFGLGTPRWRANASVAYQNASWGANLRARYISPGVYNRTLNITNNAIPSYMYYDLGLTWNLPTGNGPTLQLYANVNNLTDKDPPPGSIFSPYYDVIGRYYTVGARIDF	PGPT0003790_4379	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_08011	897			hypothetical protein	ATGTTGATGCTGGCCCATGCAGAGGGCGACCCGACGCTGCATCCGCAAGCGCTCGCGCGCACCGGACTGCTGACCGCGCTGGACGTGGACGAACTGTGGCAGGCCTGCGTGGCGGAGGTCGTCGCGCGCCTGCCCTGCCATTCGTGCAGCCTGCTGTACGACATCGAAGACCTGCACCCGCGCCGCGGCCTGCACCATGTGGCCGCCGACGCTGCCCAGCCGATACGGCCGGCGACCAGCCTCGCGGTCGCCGCGCCGTTCCTGCAGCGCCATCCGCGCATCCTCGCGTACACGTTCTCGCAGATCGCGCTGGATGACCGCCAGGCCTGCGCACGCGTACTCGCGCAGGACCCTGCGCCCGGCTGGCGCGATTTCATCCACATGGCGTTCTGGCACGAGGACGGGCTGGACGCCGTGCTGAGCATCCGCCTGAGCAGCACCTGCCCGGCGCCTGGCGCGGACGACCTGGACTTCCTGGTCGAACTGCATCCGCTGGTCGACGCGGCGTTGCAGCGGATCCGCCGCCTGCGTGCCGAACGCCGGCGCCAGCGCGCGCTGGAGGCACGCCTGCTCGGCGATGCCGGGCAATCACGGCTCGCCGCTGGCGTTGGCCGCATCGCCGCGACCGGGCAGCGCCAGCGCCGCCGCACCGCCACCGACGCCGGCACCGAGCCGCGCGCGTTCGCCTGCGAACGCGACGCCACCGACAGCGCGCTGCTGCAGCGGCTGTCGCCGCGCGAGCGGCGGGTGGCGGCGATGGTCGGCAGCGGCATGCGCAACGCGGCCATCGCCGCGCAGCTGTGCCGCTCGCCGAAGACCATCGAGAACCAGATCAGCGCGATCTATCGCAAGCTCGGCATCGAGAACCGCGCCCAGCTCGCGCGCCTGCTGGCCTGA	MLMLAHAEGDPTLHPQALARTGLLTALDVDELWQACVAEVVARLPCHSCSLLYDIEDLHPRRGLHHVAADAAQPIRPATSLAVAAPFLQRHPRILAYTFSQIALDDRQACARVLAQDPAPGWRDFIHMAFWHEDGLDAVLSIRLSSTCPAPGADDLDFLVELHPLVDAALQRIRRLRAERRRQRALEARLLGDAGQSRLAAGVGRIAATGQRQRRRTATDAGTEPRAFACERDATDSALLQRLSPRERRVAAMVGSGMRNAAIAAQLCRSPKTIENQISAIYRKLGIENRAQLARLLA				NA	NA	NA	NA	NA
BMS020_08012	1152	dap_3		D-aminopeptidase	TTGATCCGGCGCGGGCGCGGGCCGGCGCTGCGTGCGCTGGCCTGTCTGTGGCTGTGCCTGGTCGCGCTGCCGGCGCTGGCGCTGCAGCCGGCCGAGGTCGTGCGGCGGCTGGAGCAGCTGCGCGAGCAGGCCGGCGCGCCGGGGGCGTCGGCGGCGATCATGGTGCGCGGCGAGCTGGTGTACTCCGGCGGTGTCGGCCTGGCCGATGCCGAGAACCAGGTGCCGATGACCGGCGCCAGCGTGCACAACGTTGGCTCGGTGTCCAAGCTGTTCGGCGCGGTCGGGGTGATGCAGCTGGTGGAGCGTGGCAAGGCGCGGCTCGACGCGCCGATCCAGGAGTCCGCGCCGTGGTGCCCGCGCAAGCAGGCACCGATCACGGTGCGCCAGCTGATGACCCATACCTCCGGCATCCGCCATTACCGCGACGGCGAATTCGGCGACGGCGAGGTGCTCAAGTACCAGGCCTTCGACAGCCTGCAGGCGGCATGCCGGCGCTGGCAGGACGAGCCGCTGCTGTTCGCGCCCGGCACGCACTGGAGCTACACCTCGTACGGCGCCAGCCTGCTGCAAGCGGTGATCGAGCACGGCAGCGGCCAGCCGCTGGAGCAGTACCTGCGCGAGCACGTGTGGATTCCCGCCAGCATGGTGCGCACCTCGCTGGACGTGCCGGAGCGGATCGTGCGCGACCGCGCCCACGGCTACGTCTACGACCCGGCCACGCGCACGCTGCGCAATGCCGATCCCGAGAATGTCAGCTACAAGTACATCGGTGGCGGCATCCTCGCCAGCGACGAGGACATGGTGCGGTTCGGGCACGCGCTCAACCAGGGCGTGCTGCTGGGTGCGAAGGCACGCAGGGAGATGTACCGCCCGCAGCTGCCCGCCGGTCTTCCTGGCTGGCCGGGCGAGGACGGCTCGCCGCAGAAGGTGCCCGAGCAGGCGCTGGTCTGGCGGGTGCTCCATGATCCGGCCGCGCGCACCTATGTCGGCCACAGCGGCAGCGTGAAGGGCGCGCTGTCGTTCCTTGCCGATTACGTCGATGCCGACGTGGTGGTGGCGTTGCACGTCAATGCGTCCGGCGGCAAGCCCGAGCTCAAGGACGCCGCCGAGGACCTGGCCGCACTGGCGATGACGGACGCGGCGCCGCGCTGA	MIRRGRGPALRALACLWLCLVALPALALQPAEVVRRLEQLREQAGAPGASAAIMVRGELVYSGGVGLADAENQVPMTGASVHNVGSVSKLFGAVGVMQLVERGKARLDAPIQESAPWCPRKQAPITVRQLMTHTSGIRHYRDGEFGDGEVLKYQAFDSLQAACRRWQDEPLLFAPGTHWSYTSYGASLLQAVIEHGSGQPLEQYLREHVWIPASMVRTSLDVPERIVRDRAHGYVYDPATRTLRNADPENVSYKYIGGGILASDEDMVRFGHALNQGVLLGAKARREMYRPQLPAGLPGWPGEDGSPQKVPEQALVWRVLHDPAARTYVGHSGSVKGALSFLADYVDADVVVALHVNASGGKPELKDAAEDLAALAMTDAAPR				NA	NA	NA	NA	NA
BMS020_08013	1311	gltP_2	COG1301	Proton/glutamate-aspartate symporter	ATGACCCATGCCCCGTCCACGCCCCGCAAGGCCCTGCCGCTGCATTGGAAGATGGGCATCGGCTTCGGCGTGGGCCTGCTGCTGGGCCTGTGCAGCTTCTACCTGGCCGGTAGCGATGCCGGCTGGGTACGCGGGTTGACCACCTGGGTCACCACGCCGTTCTCCAAGCTGTTCCTCAACCTGATCTTCATGCTGATCGTGCCGCTGCTGTTCTCGGCGCTGGTGATGGGCGTGGCCGAAATGGGCGACATCCGCGCGCTCGGCCGGATCGGCTGGAAGACCCTGGGCTACACCATCGTGCTGTCCGGCGTGGCGGTGCTGCTGGGGCTGGTGCTGGTCAACGTGCTGCGCCCCGGCGCCGGCGTCGATCCGCAGCTGGCGCAGCAGCTGATCAGCGAGAACGCCGAGCGCACCCGCGAGATCGTCGCCTCCTCCGGCGGCCAGCCGCAGGGCATGGACATGCTGATGTCGATCGTGCCCAGCAACGTGGTCGAAGCCGCGTCCAGCAACGGCGCGATCCTGTCGCTGATGTTCTTCGCGGTGATGTTCGGCGTCGGCATGGTGCTGTCGCCGGCGGAGAAGGTCAGCACGCTCAAGCACGCCATCGAGGGCATCTTCGAGATCTCGATGACGCTGATCGGGCTGGTGATCCGGCTGGCGCCGTACGCGGTGGCCTGCTTCATGTTCAACCTGGCCGCGCTGTTCGGCTTCGAGCTGCTGGTACGGCTGGGCGCCTACGTCGGCGTGGTGGTGCTGGCGCTGGGCCTGCACATGGTGGTCAGCTACGGCGTGGCGGTGTGGTTCGCCGGGCGCTCGCCGCTGGCGTTCTTCCGCGCCACCCAGGAAGCGACGGTGATGGCGTTCTCCACCGCGTCCAGCAACGCGACCTTGCCGACCGCGCTGCGCGTGGCCGACGAGATGGGCCTGCCGCAGAAGGTCTCGCGCTTCGTGCTGACCGTCGGTGCCACCGCCAACCAGAACGGCACCGCGCTGTTCGAGGGCGTCACGGTGATCTTCCTGGCACAGTTCTTCGGCGTCGACTTGAGCCTGTGGCAGCAGTTCACGGTGATGCTGGTGTGCATCCTCGGCGGCATCGGCACCGCCGGCGTGCCGTCCGGCTCGCTGCCGGTGGTCGCGCTGATCTGCGCGATGGTCGGGGTCAACCCGGTCGGCATCGGCCTGATCCTCGGCGTCAACCATTTCCTCGACATGTGCCGCACCGCGCTCAACGTCACCGGCGACCTGGCGTTGACCACGCTGGTGGCCAAGGGCGAGCGCGACGAGACGGCTGCGGCCGGGACCGGGTCTTGA	MTHAPSTPRKALPLHWKMGIGFGVGLLLGLCSFYLAGSDAGWVRGLTTWVTTPFSKLFLNLIFMLIVPLLFSALVMGVAEMGDIRALGRIGWKTLGYTIVLSGVAVLLGLVLVNVLRPGAGVDPQLAQQLISENAERTREIVASSGGQPQGMDMLMSIVPSNVVEAASSNGAILSLMFFAVMFGVGMVLSPAEKVSTLKHAIEGIFEISMTLIGLVIRLAPYAVACFMFNLAALFGFELLVRLGAYVGVVVLALGLHMVVSYGVAVWFAGRSPLAFFRATQEATVMAFSTASSNATLPTALRVADEMGLPQKVSRFVLTVGATANQNGTALFEGVTVIFLAQFFGVDLSLWQQFTVMLVCILGGIGTAGVPSGSLPVVALICAMVGVNPVGIGLILGVNHFLDMCRTALNVTGDLALTTLVAKGERDETAAAGTGS	PGPT0013965_25	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0013965-TC_DAACS-K03309	NA	NA
BMS020_08014	1680			hypothetical protein	ATGCCACGCCAAGCCAACCTCGCGCGCACGCTGCTGGCGGTGGCGCTGCTGATGCTGGCGGTCGCCGCGCAGGCGCGCACGCGCGCCTGGCTCGACCGCGACACCGCCGCGATCGGCGAGCCGGTCACCTTGAATGTGGAGACCGACCAGGCTGGCGCGCGCCCGGATTTCAGCCCGCTGCGCGCGCAGTTCTCGCTCAGCGGCGAGAGCAGCAGCCAGCAGTACAGCCTGGCCAATGGCCGTGCCTCGGCCACCGCGCGCTTCGGCGTCGCGCTGACGCCGCGCCAGGCCGGCGAGCTGAGCATCCCGGCCCTGCGCGTGGGTAACGAGAGCACCGCGCCGCTACGGCTGCTGGTCAGCGCCGACGCCGCCGCCGATGCCGGCCAGGCGCGCGGCAACGACACCGCCTTCGTCGAAACCGTGGTCGATGACCGCCAGCCCTACGTGCAGCAGAGCGTCGGCGTGGTGGTGCGGCTGTACTTCGCCACCCAGCTGGCCTCGGGTGAGCTCGACCTGGATCCGCCCGATGGTGCCTCGCTGCAGCGCATCGGCGACGACGTCAGCACGGTGAAGACGCTCAACGGCCGCCAGTACAACGTGGTCGAGCGCCGCTTCCTGCTGGTTCCCGAACACAGCGGGCCGCTGCTGCTGCCGGGGGCGCGCTTCAGCGGTCGGGCGGTCGGCGGGTTCTTCGACGACTACTTCGGCCGCGGTAACGGCGAGTTGGAGGCGCGCAGTGCCGGTACCACGCTGCAGGTGCGTGCCGAGCCGGCCAACGCGCCGCAGCCGTGGCTGCCGCTGCACGACCTGCAGCTGCGCTATACCGCCACGCCGCGCCAGGTCGTGGCCGGGCAGGCCGCGCAGGTGGTGGTGGAGGCGACTGCCACCGGCGCCACCCAGGCGCAGTTCCCGGAACTGGAGGTGCCGTCGATGCCCGGTGCGCAGGTGTTCGCCGAGCCGCCGCAGTACGACGAACGCTTCGTCGGCGGCTCGCCGACGCTGAAGATGACCCGACGCTATTCGATCGTGCCCAACGCCGCCGGCACGTTGGTGCTGCCGGGCCCGCGACTGGGCTGGTGGGACGTCGGCAAGGCGCAGGCGAGCGAGGCGCGCCTGCCGGACCTGACCCTGCAGGCCATGCCGGGCACTGGCGCGTTCGCGGCCCCGCCGCCGGCCCCCGCGCCGGCGACGGCGGCCCCGCCGATCGCCTCGTCGGCGCTGGCGCCGAACGCTGGCGCGTCCGCGGCGGCGCGTCCCTGGGGCTGGATCGCCGCGGTGGCGGCCCTGGCCTTGCTATGGCTGCTGACCCTGCTGGTGCTGTGGCGGGTCTGGCGGCGCCGCCCGCTGGCGGCGCCGCCCGCCGCCGTGCCCGTGGCGGAGCGCTATCACCTGGCCGACCTGCGCCGCGCGCTGGACGCCGGCGGCTTCGATGAGGTCACGCGGATCCTGTGCGCGCTCGGGCGGGTCGAGGATCTGGACAGCCTGGCCCGGCGCCTGCGCGATCCGGCCCAGCAGGCGGCACTGGCGCGGCTGCAGCGCGCGCGCTGGGCCGGCGAGGGCGACCTGGGTGCGGTGCGTGGCGTGCTGCGCGAGGCCTTCCGCAACGGCCCGGCGTTGCAGGCGCAGACGGCCGCGCCGGCGCCGGCGCTGGCACCGTTGTATCCGGAGCGGCGCGACTGA	MPRQANLARTLLAVALLMLAVAAQARTRAWLDRDTAAIGEPVTLNVETDQAGARPDFSPLRAQFSLSGESSSQQYSLANGRASATARFGVALTPRQAGELSIPALRVGNESTAPLRLLVSADAAADAGQARGNDTAFVETVVDDRQPYVQQSVGVVVRLYFATQLASGELDLDPPDGASLQRIGDDVSTVKTLNGRQYNVVERRFLLVPEHSGPLLLPGARFSGRAVGGFFDDYFGRGNGELEARSAGTTLQVRAEPANAPQPWLPLHDLQLRYTATPRQVVAGQAAQVVVEATATGATQAQFPELEVPSMPGAQVFAEPPQYDERFVGGSPTLKMTRRYSIVPNAAGTLVLPGPRLGWWDVGKAQASEARLPDLTLQAMPGTGAFAAPPPAPAPATAAPPIASSALAPNAGASAAARPWGWIAAVAALALLWLLTLLVLWRVWRRRPLAAPPAAVPVAERYHLADLRRALDAGGFDEVTRILCALGRVEDLDSLARRLRDPAQQAALARLQRARWAGEGDLGAVRGVLREAFRNGPALQAQTAAPAPALAPLYPERRD				NA	NA	NA	NA	NA
BMS020_08015	1812			hypothetical protein	ATGACCGTGGCGCAGCTGTTGCAGGCCGCGGGCGAGGCCGCGGCCGGGTTCCACCTGCTGCGTCCGCAGTGGCTGTGGGGACTGCTGGCGCTGCCGCTGTTGAGCATGGCGTGGCTGTTCGGACGGCGCCGCGCGGCGGCCTGGCGCCGGCATGTCGATGCGCACCTGCTGCCGCACCTGCTGGTGCCGGGCGGCACGGTGGGCAGCTGGCTGCTGTTGCTCGCCCTGCTGCTGGGCAGCGCGTTGGCGGTGCTGGCGATGGCCGGCCCAAGCTGGCGCGAGGACGCGCAACCGTTGTTCCGTGCGCACACGCCGCTGGTGATCGCGCTGGACCTGTCTTCCAGCACCAACGCCGGCGACCTGCCGCCGTCGCGATTGCTGCAGGCGCGGGCCAAGCTGGCGACGTTGCTGAAGCAGCGCGTCGGTGGCGACGTGGCGTTGCTGGCCTTCGCCGGGGACAGCTTCACCGTGGCGCCGCTGACCGCCGATACCGGCAATGTCGCGTTGTTCCTCGATGCGTTGGCGCCGGAGGTGATGCCGCAGGACGGCAAGCGCGCCGACCGTGCGATCGAGGCGGCGGTCACCCTGCTGGGTCAGGCCGGCTTCGCCGATGGCGACGTATTGCTGATCAGCGACAGCGCCGATGGCGCCGCGCGCAACGCCGCATCGCGGGCCGCCGCGCATGGCTATCACATATCGGCGCTGGGGTTGGGAACCGCCGCCGGCGCGCCCTACCGCGACGCCGCTGGCGCGATCAGCCAGGCGCGCCTGGACGAAGCGGCGCTGCAGGCATTGGCCGCCGCAGGCGGTGGCCGCTACGCGCGCTTGAGCCGCGATGACGCCGACCTGCGCGCGCTCGGCGTGCTCGATGCGCGGGTGCGCGATGCCCGTGCCACCGACGACAGCGGTGGACGCAGCTGGCGCGACGAAGGGTATTGGCTGTTGCCGCCGGTGATGCTGCTGGCGTTGTTGGCGTTCCGGCGCCGACCGGCGGCGTTGGCGATGATGGCGATGGTGTTGCTGCCGCTGGCTGCGCCGTTGCAGGCGCAGGAGCGCGGCGACTGGTGGCAGCGTGCCGACCAGCAACGGCAGCAGCGCATCGCCTCCGGCGTGGAGGCCTACCGGAAGGGCGATTACGCCGCGGCCGGCAAGGCGTTCGACGGCATCGAGACCGATGAAGGCCAGTACAACCTCGGCAACGCGCTGGCCCGGCAGGGCCAGTACGACGCGGCGATCGCCGCTTACGACCGGGCGCTGGCGCAGCACCCCGGCATGGCCGATGCGGTCGCCAACCGGGCCGCGGTCGACGCGGCACGGCGGCGCCAGCAGCAGGGCGGCGGCAAGGGCCAGGGCAAGGGGCAGGGCAAGGACCAGCAAGGCCAGAATCCGCAAGGCCAGCGGGGCCAGGATCGCGATCATCCGCAGCCGCCGGACCAGCCGCCGCAGGACGGCGGGGCCAAGCAGCCCCCGGCCGATGACGCGCAGCGCGCGCAGGACCCGGCGCAGGGCGAACAGGGGCAGCGCAAGCCCGGCGACACCGCGTCACCGCCGCAGGCGCCCAAGGCCGAGGATGCGCGTGCCCAGCAGCAGGCCGACCAGGCCCAGCAACAACGCATGCAGCAGGCGCTGCAGCAGCAACAACAGCAGGGCCAGGCCACGCCGCAGGCCCAGGCCGCGGCGGAGACATCGCAGCAGCGCGAGCAGCGCCAGGCGACCGATGCCTGGCTGCGGCGGGTGCCGGACGATCCGGGCAGCCTGCTGCGGACCAAGTTCCGGCTGGAATACGAACGCAGACAACGGGAAGGACGCTGA	MTVAQLLQAAGEAAAGFHLLRPQWLWGLLALPLLSMAWLFGRRRAAAWRRHVDAHLLPHLLVPGGTVGSWLLLLALLLGSALAVLAMAGPSWREDAQPLFRAHTPLVIALDLSSSTNAGDLPPSRLLQARAKLATLLKQRVGGDVALLAFAGDSFTVAPLTADTGNVALFLDALAPEVMPQDGKRADRAIEAAVTLLGQAGFADGDVLLISDSADGAARNAASRAAAHGYHISALGLGTAAGAPYRDAAGAISQARLDEAALQALAAAGGGRYARLSRDDADLRALGVLDARVRDARATDDSGGRSWRDEGYWLLPPVMLLALLAFRRRPAALAMMAMVLLPLAAPLQAQERGDWWQRADQQRQQRIASGVEAYRKGDYAAAGKAFDGIETDEGQYNLGNALARQGQYDAAIAAYDRALAQHPGMADAVANRAAVDAARRRQQQGGGKGQGKGQGKDQQGQNPQGQRGQDRDHPQPPDQPPQDGGAKQPPADDAQRAQDPAQGEQGQRKPGDTASPPQAPKAEDARAQQQADQAQQQRMQQALQQQQQQGQATPQAQAAAETSQQREQRQATDAWLRRVPDDPGSLLRTKFRLEYERRQREGR	PGPT0014015_1359	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
BMS020_08016	993			hypothetical protein	ATGATCGACTGGCGCGGCCTGCCTGATCTGTTCGCTTGGCCCTGGGCGTGGCTGTTGCTGCCGCTGCCGTTGCTGATGTGGCTGTGGCCGCGCCGCGGCACGGCAGGCGCGGCGCTGCGCATGCCCGAGGACGCGCGTCTGCTGGCGGTGGCGCAGGGCCAGCGTGCGCCGCTGCTGCACGGGAGCCAATGGCTGCAGTGGCTGGCCTGGATCCTGCTGTGCGCCGCGCTGGCGCGTCCGCAGGCGCTGGGCGAGCCGGTGGCCCCGCCGCAGGAGGCACGCCAGATGATGCTGGCGGTGGACCTGTCCGGCAGCATGAGCGAGCCGGACATGGAACTGGGCGGGCGTCCGGTCGACCGCCTCACCGCGGCCAAGGCGGTGCTGGCCGACTTCCTCGACCGTCGCCAGGGCGATCGCGTCGGTCTGCTGGTGTTCGGCCAGCACGCCTACGCGCTGACGCCGCTGACCGCCGATCTCGCCAGCGTGCGCAGCCAGCTGCGCGACAGCGTGGTCGGTTTGGCCGGGCGCGAGACCGCGCTCGGCGATGCGATCGCACTGTCGGTCAAACGCCTGCGCGAACAACCGCGCGGACAGCGCGTGGTGATCGTGCTGACCGATGGAGTCAACACCGCCGGCGTGCTCGAGCCGTTGAAGGCGGCCGAGCTGGCGCAGGTCGAGGGCGTGCGCGTGCACACGATCGCGTTCGGCAGCAGTGGTGGCTATGCGCTGTTCGGCATCCGGGTCGGTGGCGGCGGCGAGGACCAGATCGACGAGGACACCCTGCGCAAGATCGCCGAGACCACCGGCGGGCGGTTCTTCCGCGCCCGCGACACCGCCGCGCTCGCCGGCATCTACGCCGAGCTGGACCGGCTCGAGCCGGTCAAGGCGCTGGCGCCGGCGGTGCAGCCGCGGATCGAGCGCTACTGGTGGCCGTTGGGCGCGGCGTTGCTGCTGGGCCTGCTGGCGTTTGCATTGCGGGGGCGTGGCCGATGA	MIDWRGLPDLFAWPWAWLLLPLPLLMWLWPRRGTAGAALRMPEDARLLAVAQGQRAPLLHGSQWLQWLAWILLCAALARPQALGEPVAPPQEARQMMLAVDLSGSMSEPDMELGGRPVDRLTAAKAVLADFLDRRQGDRVGLLVFGQHAYALTPLTADLASVRSQLRDSVVGLAGRETALGDAIALSVKRLREQPRGQRVVIVLTDGVNTAGVLEPLKAAELAQVEGVRVHTIAFGSSGGYALFGIRVGGGGEDQIDEDTLRKIAETTGGRFFRARDTAALAGIYAELDRLEPVKALAPAVQPRIERYWWPLGAALLLGLLAFALRGRGR	PGPT0014015_5106	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
BMS020_08017	456			hypothetical protein	ATGGCGGGCAGCCAACTGCCATTGCGCGACGTGCACCTGCCGCCGGCGCCGGCGTGGTGGCCGCCGGCCCCGGGCTGGTGGCTGCTGGCCGCGGCGGTGTTGCTCGTGCTCGCGGTGGCCTGGGTGTTGCTGCTGCGGCGGCGTCGCCGGCGCGCCGGCTGGGCCCGGGTGTTCGATGCTGAAACCGCCGTCGCCGCGGATGACGTGCAGTGGCTGGCGATCGCCTCGGCGCTGCTGCGGCGCGCCGCGCGGCGCGTGCAGCCCGATGCCGACCGGCTGCGTGACGAGGCCTGGCTGCGGCTGCTCGATGGTCGGCGCGGAACCGCCTTCAGCGCCGGCCCGGGGCGGGTGCTGCTCGATGGCGGCTATCGCGCCGAGTTGCAGCTGGACGATCCCGCGCGGGTGAAGGCGCTGGTGCGCGTGCGCTTTCTCGAACTGATGGCGGGGCGGCGATGA	MAGSQLPLRDVHLPPAPAWWPPAPGWWLLAAAVLLVLAVAWVLLLRRRRRRAGWARVFDAETAVAADDVQWLAIASALLRRAARRVQPDADRLRDEAWLRLLDGRRGTAFSAGPGRVLLDGGYRAELQLDDPARVKALVRVRFLELMAGRR				NA	NA	NA	NA	NA
BMS020_08018	930			hypothetical protein	GTGAGCGTCGGGGGCACGCGCGCCCCCGCGGCCGCGGATGCGCATCCCGCGCCGGCGGATGACGGGGTGCGCCCGCACCTGGCGGAACTGCTGGCGCTGCGCGGCAGCGCGGCGCGTCCTGCGGCCCGGCGCGGCCGGCATGGCGTGGTCGGCGCTGCGCCGGCGCCACAGCGTGGCCGCGGCATGGAATACGCCGAGTCGCGCGAATACGTCGCCGGCGACGACGCGCGCCACATCGACTGGCGGGTCACCGCGCGCAGCGGCCGGGCCCACACCAAGGTGTTCCAGGCCGAGCGCGAGCAGCTGAGCTTGATCGTTGCCGACACCGCACCCGGCCTGTTCTTCGGCACCCGCGTCCGCTACAAGTCGGTGCAGGCCGCGCGTGCCGCCGCCGTGGCGGCCTGGGCCGCGCAGCGCCGCGGCGACCGCGTGGCCGCGCTGCGCGGTGGCGAGGCGCCGGTCGCCCCGGCCTCCGGCAGCCGTGGCGTGCTGCGCGTGCTCGACGCGCTGGTGCGCTGGTATGCGGCCCCGCCGCCGGCCGACGCCGGACTCGGGATCGCGCTGGACCATGCCAGCCGCCTGCTGCGCCCTGGCGCGCGGCTGCTGGTGTTCGCCGATCCGCGCAGCGTCGCCGCACAGCCCTTGTCGCGCTGGGCCGGGCTGGCCCAGCACCACGACGTCGCCGTGGTGATGCTGGTCGATCCACTGGAATCCACCCCGCCGGCGGTGCGGGTGCCGTTCCTGGCCGGCGCACGCCGCATCGCCGTCGACCTGGCGCTGCCGGCGGTACGCGCGCGGTGGCTCGACGAATTCGCCGCACCGGCGCAGGCCCTGCAGCGTGCGCTTGTCGCACGGCGGGTACAGGCGCGGCTGCTGTCGACCGACGAGGCCAGCGATGCCTGGCTGGCGCCATCCACGGGGGGCGGCTGA	MSVGGTRAPAAADAHPAPADDGVRPHLAELLALRGSAARPAARRGRHGVVGAAPAPQRGRGMEYAESREYVAGDDARHIDWRVTARSGRAHTKVFQAEREQLSLIVADTAPGLFFGTRVRYKSVQAARAAAVAAWAAQRRGDRVAALRGGEAPVAPASGSRGVLRVLDALVRWYAAPPPADAGLGIALDHASRLLRPGARLLVFADPRSVAAQPLSRWAGLAQHHDVAVVMLVDPLESTPPAVRVPFLAGARRIAVDLALPAVRARWLDEFAAPAQALQRALVARRVQARLLSTDEASDAWLAPSTGGG				NA	NA	NA	NA	NA
BMS020_08019	1020			hypothetical protein	ATGAACGCACCTCCCCAACTCCCCACCGAAACGCTGGCGACGCCGGAAGGCGCGCGCCTGCATGCGGCGTTCACCACGCTGCGCGATGCCTTGTCGGCCCGTATCGTCGGCCAGTCGGCGCTGGTCGAACGGCTGCTGATCGCGCTGTTGGCCGATGGCCACCTGCTGGTCGAGGGCGCGCCGGGCCTGGCCAAGACCACCGCGATCCGGGCACTGGCGGCGCGGTTGGAGGCTGAATTCGCCCGCGTGCAGTTCACCCCGGACCTGCTGCCGGCCGACCTCACCGGCACCGAGATCTGGCGGCCGCAGGAGGGACGCTTCGAGTTCGTGCCGGGGCCGATCTTCCATCCGATCCTGCTTGCCGACGAGATCAACCGCGCGCCGGCCAAGGTGCAGTCGGCGCTGCTGGAGGCGATGGGCGAGCGCCAGGTCACCGTGGGCCGGCATACCTACGCGCTGCCGCCGCTGTTCCTGGTGATGGCCACGCAGAATCCGATCGAGCAGGAAGGCACGTTCCCGCTGCCGGAAGCGCAGCTGGACCGCTTCCTGATGCATGTGCGCATCGGCTACCCGGAGGCCGAGGCCGAAGTGGAGATCCTGCGCCTGGCGCGCGAGGCCGCACGCGATGCGCTGCGCCCCGCCGAGCCGGCGCCGGCCAAGCTGCCGATGGCCGACGTGCATGCCGCGCGCAGCGCGGTGTTGGCGCTGCACGTCGCGCCGCAGCTGGAGCGCTACCTGGTTGAACTGGTGCTGGCCTCGCGCGATCCCGCGCGCTACGACCCGGCGCTGGCACGGCGCATCGCCTGGGGTGCAAGCCCGCGCGGTTCGATCGCATTGGAGCGCTGCGCACGGGCACGGGCGTGGTTGGCGGGTCGCGATTTCGTCACGCCCGACGACGTGCGCGACGTGGCCGTCGACGTGCTTAGTCATCGCGTCCTGCCCAGCTACGAGGCCACGGCCGAGGGCTGGGATGGCGAGCGCCTGGTGCGGGCCCTGCTCGAACGGGTGCCGCTGCCGTGA	MNAPPQLPTETLATPEGARLHAAFTTLRDALSARIVGQSALVERLLIALLADGHLLVEGAPGLAKTTAIRALAARLEAEFARVQFTPDLLPADLTGTEIWRPQEGRFEFVPGPIFHPILLADEINRAPAKVQSALLEAMGERQVTVGRHTYALPPLFLVMATQNPIEQEGTFPLPEAQLDRFLMHVRIGYPEAEAEVEILRLAREAARDALRPAEPAPAKLPMADVHAARSAVLALHVAPQLERYLVELVLASRDPARYDPALARRIAWGASPRGSIALERCARARAWLAGRDFVTPDDVRDVAVDVLSHRVLPSYEATAEGWDGERLVRALLERVPLP				NA	NA	NA	NA	NA
BMS020_08020	1866	pilQ_2		Type IV pilus biogenesis and competence protein PilQ	ATGACTTTTTCCAAAGCCTTGAGCCTGCGTCCCTTCCGGCGCCGCGCGATGTTCCAGAGGTGCGCGCTGGGGTTCGCGCTCGCTCTGGCCGGGGGCTCCGTATTCGCGGCGACCACGACCACGGCCGCCACCGACCTCAACGCCCGTGACCCGGCGAAGGCGGTTCCGGCCACCGTGGCGGTGTCCAAGATCGACTTCAAGCGCGGCGAAGACGGCTCCGGCCGGCTGATCCTGCAGTTCGACGGCCAGGGCGCCAGCCCTGACCTGCGGACCCAGGGCGCCAGCGTGCTGGTCGATGTCGGCAATGCCAAGCTGCCGGCGGAACTGCAGAAGCCGCTGAACGTGACCGACTTCGCCACGCCGGTGCAGCGCATCGACGCCAAGCCGTCCGGTGCGGGTGCGCAGCTGGTGCTGACCACCAATGCGCCGTTCGAGTCGCTGGCCTACCAGAGCGGCAACGAGTACGTCGTCGAGATCTCGCCGCGCAAGGGCGAGGCGGCGGTGGGCGCGGTGACTTCGGCCACGGTCAGCCAGGCCGCGGCCAAGATCGCCGCGCGCGGCTACAGCGGCCGTCCGGTGACGTTCAACTTCCAGGACGTGCCGGTGCGCACCGTGCTGCAGCTGATCGCCGAGGAGTCCAACCTCAACGTCGTCGCTGCCGACACCGTGCAGGGCAACGTCACCCTGCGCCTGGTCAACGTGCCGTGGGACCAGGCGCTGGACATCGTGTTGCGCGCCAAGGGCCTGGACAAGCGCCGCGACGGTAGCGTGATCTGGGTCGGCCCGCAGGCCGAGCTGGCCAAGTTCGAGCAGGACAAGGAAGACGCGCGCATCGCGATCGAGAACCGCGAGGACCTGATCACCGACTACGTGCAGATCAACTACCACTCCGCCAGCGCGATCTACAAGGCGTTGACCGAGGCCAAGGGCATCGGTGGCAGCAGCGGCGGTGGCAGCCAGAACGAGAACGGCTTCCTGTCGCCGCGTGGTCGCCTGGTCGCCGACGAGCGCACCAACACCTTGATGATCAGCGACATCCCGAAGAAGGTCGCGCAGATGCGCGAGCTGATCGACCATATCGACCGTCCGGTCGACCAGGTGCTGATCGAGGGCCGCATCGTCATCGCCACCGATACCTTCGCCCGCGACCTCGGCGCGCAGTTCGGCATCGGCGGCAGCCGGGCCTATGGTGGCAACACCGCGACGATCGGCAGCGGCGTCACCGGCGGCGACACGTCGGCGACCCAGGGCCTGAACGTCGACATGGGTGCCAACACCTTCACCGACGGCACCATGTCCAGCATCGGCTACACGCTGCTGGGCGCGAACTTCAACCTGAACCTGGCGCTGTCGGCGCTGCAGGAAGAAGGCCGCGGCGAGGTGATCTCCAACCCGCGCATCGTCACCGCCAACCAGCGTGAGGGCGTGATCAAGCAGGGTAAGGAAATCGGCTACGTGACGATCACCGGTGGCTCCACCGGTACCACCACGCCGAACGTGCAGTTCAAGGAAGTGCTGCTCGAGCTGAAGGTCACCCCGACCATCACCAACGACAACCGCGTCTTCCTGAACATGAACGTGAAGAAGGACGAGGTCGACGAATACCTGGTGCTGGACGGCTACGGTACCGTGCCGACCATCAACCGCCGCGAGATCAACACCGCGGTGCTGGTCGAGGACGGGCAGACCGTGGTGATCGGTGGCGTGTACGAGTTCACCGACCGCAAGAGCGTCAGCAAGGTGCCGTTCCTGGGCGATATCCCGTTCCTGGGCAACCTGTTCAAGAAGACCGGTCGCAGCAAGGAAAAGGCCGAGCTGCTGATCTTCGTGACGCCGAAGGTGCTGCGCGTGGCCAAGGCCGGCTGA	MTFSKALSLRPFRRRAMFQRCALGFALALAGGSVFAATTTTAATDLNARDPAKAVPATVAVSKIDFKRGEDGSGRLILQFDGQGASPDLRTQGASVLVDVGNAKLPAELQKPLNVTDFATPVQRIDAKPSGAGAQLVLTTNAPFESLAYQSGNEYVVEISPRKGEAAVGAVTSATVSQAAAKIAARGYSGRPVTFNFQDVPVRTVLQLIAEESNLNVVAADTVQGNVTLRLVNVPWDQALDIVLRAKGLDKRRDGSVIWVGPQAELAKFEQDKEDARIAIENREDLITDYVQINYHSASAIYKALTEAKGIGGSSGGGSQNENGFLSPRGRLVADERTNTLMISDIPKKVAQMRELIDHIDRPVDQVLIEGRIVIATDTFARDLGAQFGIGGSRAYGGNTATIGSGVTGGDTSATQGLNVDMGANTFTDGTMSSIGYTLLGANFNLNLALSALQEEGRGEVISNPRIVTANQREGVIKQGKEIGYVTITGGSTGTTTPNVQFKEVLLELKVTPTITNDNRVFLNMNVKKDEVDEYLVLDGYGTVPTINRREINTAVLVEDGQTVVIGGVYEFTDRKSVSKVPFLGDIPFLGNLFKKTGRSKEKAELLIFVTPKVLRVAKAG	PGPT0015965_968	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015965-pilQ-K02666	NA	NA
BMS020_08021	537			hypothetical protein	ATGAGCATGACGACGTCCTGCAAGCGAGTTTCCTGCCTGGCCATCGTGCTCGTGCTCGCCGGCTGTGCCCGCGGCGTGAGCAGCACGCCGGGTGAGGCGCCCAATCTGCAAAAGTGGGTGACCGAGGTGCGCGCGCGCCCGGCACCGCCGCTCGAACCGCTGCCGGTGATGCAGCAGTTCGAGACGTTCGAGTATTCCGCTCAAGGGATGCGTGATCCCTTCACCGACGCCTGGGCCAATCCTGATGGGGGGAATGGCCTGCGCCCGGATCCGAACCGCCGCAAGGAGCCGCTGGAAGCGTTCCCGCTCGACAGCCTCGACATGGTGGGCACGATCGGCAGCGGCGGTGGTCTGGTAGCGCTGGTGATGGCACCGGACAAGGTGACCTACCGGGTCCGCCCCGGGGTTTACATGGGGCAGAGCGATGGCCGCGTGACCGGGGTGTCCGAGGACCATATCGACCTGGTTGAACTTGTGCCGGATGGTGCGGGCGGTTGGCTGGAGCGGCCGGCCTCGCTCGCACTCGATGATCAATGA	MSMTTSCKRVSCLAIVLVLAGCARGVSSTPGEAPNLQKWVTEVRARPAPPLEPLPVMQQFETFEYSAQGMRDPFTDAWANPDGGNGLRPDPNRRKEPLEAFPLDSLDMVGTIGSGGGLVALVMAPDKVTYRVRPGVYMGQSDGRVTGVSEDHIDLVELVPDGAGGWLERPASLALDDQ	PGPT0015950_535	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015950-pilP-K02665	NA	NA
BMS020_08022	675			hypothetical protein	ATGAGTAAGAAGAAATTCAGCGTCAAGGATCTCGATTTCAACAACATCGGCAGCTGGCCGCGCAACGCCAAGATGGTGTTCTGCGCGCTGGTCGGGCTGGTGATCGTGGTGCTGGCCTGGTTCCTGCTCGTCAAGAGTGATGCCGAGCAGCTGGAAGGCCTGGAGCACAAGGAAACCGAGCTGCGGCAGGAGTTCGAGAAGCAGCAGGGGCGTGCGGTCAACCTGGAGCCGCTCAAGCAGCAGCTCGCGCAGATGGAGCAGGTGCTGCAGCAGATGCTGCGCCAGCTGCCCAGCAAGACCGAAATGCCCGACCTGATCATCGACATCTCGCAGACCGCGCTGTCCAGCGGGCTTAACAACGAGCTGTTCCAGCCGGGTCCGGAGTCGCCGAAGGAGTTCTACGCCGAGAAGCCGATCGCCCTGCGCATGGTGGGCAGCTACCACCAGTTCGGTGCGTTCGTCAGTGGCGTGGCCTCGCTGCCGCGCGTGGTGATCCTGACCATGCACGACATCAACCTCAAGCCGAAGGACGTCAAGCAGGGCATCACCCCGCGCGGCGCGCTCGAGCTGTCCGGTACGGTCAAGACCTACCGTTACCTCGACGACGAGGAGATGGCCGAGCAGGAGAAGGCGGCGGCCGAGGCGGCGAAGAAGACCAAGAAGGGCAAGGCATGA	MSKKKFSVKDLDFNNIGSWPRNAKMVFCALVGLVIVVLAWFLLVKSDAEQLEGLEHKETELRQEFEKQQGRAVNLEPLKQQLAQMEQVLQQMLRQLPSKTEMPDLIIDISQTALSSGLNNELFQPGPESPKEFYAEKPIALRMVGSYHQFGAFVSGVASLPRVVILTMHDINLKPKDVKQGITPRGALELSGTVKTYRYLDDEEMAEQEKAAAEAAKKTKKGKA	PGPT0015955_452	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015955-pilO-K02664	NA	NA
BMS020_08023	747			hypothetical protein	ATGGCAAAGATCAACCTGTTGCCCTGGCGCGCCGAACGCCGCAAGCAGCGCGAACGCGAGTTCTACACGATGCTCGGCTTCGCGGCGCTGGCCGGCGTGCTGCTGTCGGCGCTGATCTGGTTCTATTACGACCAGCAGATCAGCGGCCAGAACGCGCGCAACGCGTTCCTGACCGCCGAGATCGAGAAGGTGAAGGCGCAGAACAAGGAGATCGACGAGCTCGACAAGAAGCGCGATCGCCTGCTGGCGCGCAAGCGCGTCATCGAGGAACTGCAGGCCAACCGCTCGCAGATGGTGCACCTGTTCGACTCGCTGGTGCGCACGATCCCCGACGGCGTGGTGCTGACCGCGATCAAGCAGGACGGCGAGATCCTGACCCTGGAGGGGCGTTCGCAGTCCAACGCGCGCGTCAGTGCCTACATGCGCAACCTCGAAGGCTCCGGCTGGATGACCAAGCCCGACCTGTCGATCATCGAAGCCAAGGCCGCCGACAAGGTGGGCAAGGCGGCGAGCGGCTTCGACGCCAACTCGCTGCCGTACACCTTCACCTTGAAGGTGACCCTGGCCAGTCCGCAGGAGGACAAGGATGGCGCGGCGCCGGCGACCGAGGCTCCCGCTGCCGGGGCCGCCCCGGCACCCGCCGCAGGTGCCGCTCCGGCACCGGCCGGCGACGGCCAGCCCGCATCCGCCACTCCGCCTGCAACGCCGCCGGCGGCCGCCAAGCCGCAGGGGGGAGCGACGTCATGA	MAKINLLPWRAERRKQREREFYTMLGFAALAGVLLSALIWFYYDQQISGQNARNAFLTAEIEKVKAQNKEIDELDKKRDRLLARKRVIEELQANRSQMVHLFDSLVRTIPDGVVLTAIKQDGEILTLEGRSQSNARVSAYMRNLEGSGWMTKPDLSIIEAKAADKVGKAASGFDANSLPYTFTLKVTLASPQEDKDGAAPATEAPAAGAAPAPAAGAAPAPAGDGQPASATPPATPPAAAKPQGGATS	PGPT0015940_107	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015940-pilN-K02663	NA	NA
BMS020_08024	1059	ftsA_3		Cell division protein FtsA	GTGGGGCTTATTCCCAAAAGTCAGTCGCCGCTCATTGGCGTCGACATCAGTTCGACTGCGGTCAAGCTATTGCAGCTGACCCGCAGCGGTAGCCGTTTCCGCGTGGAACACTACGCGGTCGAGCCGCTTCCGCCCAACGCGGTGGTGGAGAAGAACATCGTCGAGGTCGAGGCGGTGGGCGAGGCCATTCGCCGGGCGGTCAACCGCTCCGGCAGCAAGGCCAAGCACGCTGCGGCGGCCGTGGCCGGCTCGGCGGTGATCACCAAGGTGATCCCGATGTCGGCCGATCTCGACGAGGACGACCTGGAAGCCCAGGTCGAGCTCGAGGCGACCAACTACATCCCTTACCCGATCGAGGAAGTGAACCTCGACTTCGAGGTGCTCGGGCCGATCGCCAACAACCCGGAGATGGTCCAGGTGCTGCTGGCCGCCTCGCGTTCGGAGAACGTCGAGCTGCGCCAGTCCGCGCTCGAGCTGGGTGGGCTGACCGCCAAGGTGATGGACGTGGAGGCCTTCGCGATCGAGAACGCCTTCGCGCTGGTGGCCAGCGAGCTGCCGATCCCGCACGACGGCGTCGTCGCCCTGGTCGACATCGGTGCGACGATGACCACGCTCAATGTGCTGCGCGGCGGGCGCAGCCTGTACAGCCGCGAACAGGTGTTCGGCGGCAAGCAGCTCACCGACGAGGTGATGCGTCGCTACGGGCTGACCTACGAGGAAGCCGGCCTGGCCAAGCGCCAGGGCGGCCTGCCGGAAAGCTACGAGATCGAAGTGCTGGAGCCGTTCAAGGAGGCCACGGTCCAGCAGATCAGCCGCCTGCTGCAGTTCTTCTACGCCGGCAGCGAGTTCAACCGCGTCGACCACATCGTGCTCGCGGGCGGCTGTGCTGCGTTGGCCGGCCTGCCGGACATGGTGGAAGAGCAGCTCGGCGTGGCGACCACGGTCGCCAACCCGCTGGCGCAGATGACGCTGGGCCCGAAGGTCCAGGCGCAGGCGCTGGCGCAGGACGCGCCGGCCCTGATGATCGCCACCGGTCTGGCGTTGAGGAGCTTCGACTGA	MGLIPKSQSPLIGVDISSTAVKLLQLTRSGSRFRVEHYAVEPLPPNAVVEKNIVEVEAVGEAIRRAVNRSGSKAKHAAAAVAGSAVITKVIPMSADLDEDDLEAQVELEATNYIPYPIEEVNLDFEVLGPIANNPEMVQVLLAASRSENVELRQSALELGGLTAKVMDVEAFAIENAFALVASELPIPHDGVVALVDIGATMTTLNVLRGGRSLYSREQVFGGKQLTDEVMRRYGLTYEEAGLAKRQGGLPESYEIEVLEPFKEATVQQISRLLQFFYAGSEFNRVDHIVLAGGCAALAGLPDMVEEQLGVATTVANPLAQMTLGPKVQAQALAQDAPALMIATGLALRSFD	PGPT0015945_997	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015945-pilM-K02662	NA	NA
BMS020_08025	2424	mrcA_2	COG5009	Penicillin-binding protein 1A	ATGCCCCGTTTCCGTCGTTGGCTGGGCTGGATCCTGGCCGCGTGCGTCGTGCTTGCGCTGCTGGGCGGGATCGCCGCCGCCGGTGTCTACTACGCCGTTTCCTCCAAGTTGCCGGACGTCCAGGCCCTGAAGCAGGTCGAGCTGCAGGAGCCGATGTACGTGTACTCGCGCGACGGCAAGCTGATGGCCGTCTATGGCGAGACCCGCCGCTACCCGATCCACATGCAGGACGTGCCTGAGCGGTTGAAGCAGGCGTTCCTGGCCACCGAGGACGCGCGCTTCTACGAGCACGGCGGCGTGGACTACAAGGGCATCGCGCGCGCGGTGTGGCTGCTGGCCACCACCGACGCCAAGCGCGTGCCGGGCGGCTCGACAATCACCCAGCAGGTCGCCCGCCAGTTCTTCCTGAGCTCGGAATACAGCTATACGCGCAAGTTCGCCGAGATCCTGCTGGCCCGCAAGATCGAGAGCGAGCTGAGCAAGGACGAGATCTTCGAGCTGTATCTCAACAAGAGCTTCTTCGGCAATCGCGCCTACGGCGTCGCCGCGGCGGCCGAGTACTACTACGGCAAGAAGCTGGGCGAGCTGAGCCTGGACGAGATGGCCTCGCTGGCCGGCATCCCCAAGTTCCCGTCCAGCGGCAACCCGATCAGCAACCCCGAGCGCGCCCGCGAGCGCCGCGACTACTACGTGCTGCAGCGCATGGCCGACCTGGGCTTCATCAGCCAGGCCGAGGCCGACGCGGCCAAGGCGGTGCCGATGCATGCCAGCCCGCACGAGCCGCCGGTGCAGGTCGACGCCCCCTACGTGGCCGAAATGGTCCGCCAGGAGATGATCGCCAAGTACGGCGGCGACGTGCTCAACAAGGGCTACCACGTCACCACCACGATCGACTCGGCGATGCAGGAAGCAGCCGACAAGGCGATCACCGACGGGCTGCTGCTGTACGACCACCGCCACGGCTGGCACGGGGTCGAGCAGCACATCGAGGTCGGCGCCACCGACGATGCCGCGGCCCTGGCCAAGCACCTGGCCGGGATCCCGTCGCAGTCCGGGCTGCTGCCGGTGATCGTCGCCAGCACCCAGGCCGACGGCGGGGTGACCGTGGTCCGGCGCGACCGCAGCGAGCTGGTGCTGCCGGCCTCGGCCACCCGCTGGGCCAACAAGTCCGCCGCCAGCCTGCTCAAGCGCGGTGACCTGACCCGGATCCGCGCCGGCGAGAAGGACGGCGAGTGGACCATCGACCAGATTCCGCGCGGGCAGTCCGCACTGGTGTCGCTGGATGCCGAGACCGGCGCGCTGAAGGCGATGGTCGGCGGCTTCAGCTACGCCGGCAACAAGTTCAACCGCGCCACCCAGGCGCGCCGCCAGCCCGGCTCCAGCTTCAAGCCGTTCGTCTATGCGGCCGCGTTCGAGAAGGGCTTCAATCCCGCCTCGATCGTGCTCGATGCCCCGGTCGTGTTCCGCGACCGGCGCGGCAAGACCTGGTCGCCGCAGAACGACGGCGGCGGCTTCCGCGGGCCGATGCGCCTGCGCGAGGCGCTGGTGCAGTCGCGCAATCTGGTCTCGGTGCGCCTGCTCGACGCGATCGGGGTGGACTTCGCGCGCAAGTACATCACCCAGTTCGGCTTCGACGAGGCCGAGCTGCCGCCGAACCTGTCGATGTCGCTGGGCACCGCCTCGCTGACCCCGCTGTCGGTGGCGCGCGGCTACGCGGTGTTCGTCAACGGCGGCTCGCGCGTGGACACCTGGCTGGTCGATGAGGTCAAGGACCGCGACGGCAACCAGCTGTTCAAGGAGAACCCGGCCATCGCCTGCCGCAGCTGCGCGACCCAGGGCGGCTCGGCAGCGCCGGTCAGCCAGGTCGTGGACGGCTTCAACTTCGGTGCGCCCGCGCCGGCCAAGCCCGCCGCCGACGCGGCGGCGGAAACCGCCGCGCAGACCGCCGCGGCGCCGCCCGCCGATGCCCGCATCGCCCCACGCGCGATCGACGAGCGCACCGCCTACCAGCTGGTGTCGATGATGCGCGACGTGGTCCAGCGCGGCACGGGCACCGCGGCCAAGGTGCTCGGCCGTGAGGACATCGGCGGCAAGACCGGCTCCACCAACGACCACCGCGACGCCTGGTTCTCCGGCTTCGGGGCGCGCACCGTGACCACGGTCTGGGTCGGTCGCGACGACTTCCGCTCGCTCGGCTATCGCGAGTACGGCGGCCGCGCCGCGCTGCCGATCTGGATCGACTACATGCGCGCGGCCCTGAAGGACCAGCCGATCGCCAGCAACGACCCGCCCAACGGCATGACCCAGGCCACCCTCAACGGCGCCACCGAGTGGATCAAGAACGAGGACCTGGACCGCCTGCAGGTTTACGACTACGGGCTGCAGGAGCAGCAGGCCGACGAGAAGGCGTTCGACATCTTCTGA	MPRFRRWLGWILAACVVLALLGGIAAAGVYYAVSSKLPDVQALKQVELQEPMYVYSRDGKLMAVYGETRRYPIHMQDVPERLKQAFLATEDARFYEHGGVDYKGIARAVWLLATTDAKRVPGGSTITQQVARQFFLSSEYSYTRKFAEILLARKIESELSKDEIFELYLNKSFFGNRAYGVAAAAEYYYGKKLGELSLDEMASLAGIPKFPSSGNPISNPERARERRDYYVLQRMADLGFISQAEADAAKAVPMHASPHEPPVQVDAPYVAEMVRQEMIAKYGGDVLNKGYHVTTTIDSAMQEAADKAITDGLLLYDHRHGWHGVEQHIEVGATDDAAALAKHLAGIPSQSGLLPVIVASTQADGGVTVVRRDRSELVLPASATRWANKSAASLLKRGDLTRIRAGEKDGEWTIDQIPRGQSALVSLDAETGALKAMVGGFSYAGNKFNRATQARRQPGSSFKPFVYAAAFEKGFNPASIVLDAPVVFRDRRGKTWSPQNDGGGFRGPMRLREALVQSRNLVSVRLLDAIGVDFARKYITQFGFDEAELPPNLSMSLGTASLTPLSVARGYAVFVNGGSRVDTWLVDEVKDRDGNQLFKENPAIACRSCATQGGSAAPVSQVVDGFNFGAPAPAKPAADAAAETAAQTAAAPPADARIAPRAIDERTAYQLVSMMRDVVQRGTGTAAKVLGREDIGGKTGSTNDHRDAWFSGFGARTVTTVWVGRDDFRSLGYREYGGRAALPIWIDYMRAALKDQPIASNDPPNGMTQATLNGATEWIKNEDLDRLQVYDYGLQEQQADEKAFDIF	PGPT0023875_2511	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023875-mrcA-K05366	NA	NA
BMS020_08026	642			hypothetical protein	ATGCATCGCGCCCGCCAGCACGCCGAGACCCAGACCCGCGAGCGCCGCCACCGGCTCGCCCACGAAGCCGCGCGACTGATGGCCGAAGGCGGCATTCGCGACTACCACCAGGCCAAGCTCAAGGCCGCCAGCCGGCTCGGCATCCACGACGACGCATCTTTGCCACGCAATCGCGAGATCGACGATGCGCTGCGCGAGTACCAGCGCCTGTTCGCCGGCCACGATCGCGCCAGCAGCCTGCGCCAACGTCGCGAGGCCGCCCTGCGCGCGCTCGATTTCCTGGCCCCGTTCTCGCCGCGCCTGGCCGGCCCGGTCCTGGACGGCACCGCCGACGCCAACGCACCGGTGCAGCTGCATCTGCACAGCGACGATCAGGACGCGGTGCAGCGGTTCCTCGAAGAACACCGGATCCCCGCCGACGCGCGCACGCGGCGGGTGCGGCTGGACCGGCACCGCACCCTGGACGCACCGGTGTGGCTGTTCTCCGCCGAGGAGCTGAGCTTCGACCTGCTGGTACTGCCCTACGACGCGCTGCGGCAGGCCCCGCTGTCGCAACTGGACGAGCGGCCGGCCGCGCGCGCCAGCGCCAGCCAGCTGCGCGGCCTGCTGGCCGAGGAGGAAATCGATGGCTACATCGGCTGA	MHRARQHAETQTRERRHRLAHEAARLMAEGGIRDYHQAKLKAASRLGIHDDASLPRNREIDDALREYQRLFAGHDRASSLRQRREAALRALDFLAPFSPRLAGPVLDGTADANAPVQLHLHSDDQDAVQRFLEEHRIPADARTRRVRLDRHRTLDAPVWLFSAEELSFDLLVLPYDALRQAPLSQLDERPAARASASQLRGLLAEEEIDGYIG				NA	NA	NA	NA	NA
BMS020_08027	678			hypothetical protein	ATGGCTACATCGGCTGAGCCGCAACCGGCTCGCATCCAGGCGCGGATCGCCGCGATCTGGCTCGCCGTCCTGCTGCTGGCCGGCGTCGTCACCCTCGCCGCACTGGCCCGCATCCGCAGCAACGCCGAGGCGATTCCCGGCCCCTGGGTCGACCTGCCCGGCGGCGGCATGGACGTCTCCGAGTGGGACGCACGCCAATGGCTGCGTGACGGCCACCTCGGCGGGCTCGGCGACGGCCTGGCGGCGCGCTGCGGCCACGACCACAACCTGCCGGCCGAGCGCTACACGCTGCGCCTGCCCGACAGCGGCTGGCGCGCCAACATCGACATCGGCGCGGACATGGCCTGGGTCACCGCCACGCGCGACGACGCCGTACAGCTGGCACCGGACCGCTCGCCGGTGCGCGCTGCCGGCGACGCGCAGCGCGCCGCCCCCATCGCCACACCCCGGCGCTTCGCCCGCGAACAGCTCGACGCGCTGCGCCGCAGCTGGCGCTCGCCGACGCTGTGGAGCAGCCCGGTGAGCGACCTCGGCGGGCAGGACCTGCGCGGCGCTGCCGTGCTGGAGGCCTGCGTGGACGGGCTCTACGCCATCCGCCTGCGCAGGCCGTCGGCGGCCACGCAGCAGCTCGAGGCCGCGCTGACCGCCTTGACGACCACCTCCGCGCCGCCACGCTGA	MATSAEPQPARIQARIAAIWLAVLLLAGVVTLAALARIRSNAEAIPGPWVDLPGGGMDVSEWDARQWLRDGHLGGLGDGLAARCGHDHNLPAERYTLRLPDSGWRANIDIGADMAWVTATRDDAVQLAPDRSPVRAAGDAQRAAPIATPRRFAREQLDALRRSWRSPTLWSSPVSDLGGQDLRGAAVLEACVDGLYAIRLRRPSAATQQLEAALTALTTTSAPPR				NA	NA	NA	NA	NA
BMS020_08028	1290	gltA_3	COG0372	Citrate synthase	GTGTCCGATCTTGATCAGGTCACGCTCAACGCCGGCGACAAGTCGGTTGTTCTGCCGGTACTCAAGCCCACGCTGGGCAATGATTGCGTCGACGTTTCCAAGCTGACCAAGGAAACCGGTCTCTTCACCTACGACCCGGGCTTCGGCGCCACCGCCAGCTGCAAGTCGGCCGTCACCTACATCGACGGCGACCAGGGCGTCCTGCTGTATCGCGGTTACCCGATCGAGCAGCTGGCTGCCAATTCCAGCTTCACCGAGGTCTCCTACCTGCTGATGAACGGCGAGCTGCCCAGCGCCGCCGAGCTGAGCAAGTTCGAGCACGAGGTGACGCATCACACGATGATGCACGAGTCGCTGAAGTCCTTCCTCAAGGGCTTCCACTACGACGCGCACCCGATGGCCATGCTGGCCGCCTCGGTCGCCTCGCTGTCGGCGTTCTACCACGACACCCTGGACCTCAACGATCCGGAGCAGCGCCGTCTGGCCGCGATCCGTCTGATCGCCAAGATGCCGACCCTGGCTGCTGCCGCGTACCGCTACTCGATCGGCCAGCCGATCCGCTATCCGCGCAACAACCTGAGCTACGTCGACCGCTTCCTGCACATGATGTTCGAAGTGCCGAGCGAGCCGCTGGAAATGAGCCCGGTCGTGGCCAAGGCCATGGACCTGCTGTTCATCCTGCACGCCGACCACGAGCAGAACGCGTCGACCTCGACCGTGCGTCTGGTGGGTTCGACCGGTGCCAACCCGTACGCGTCGGTGGCTGCGGGTATCACCGCGCTGTGGGGTCCGGCCCACGGCGGCGCCAACGAGGCCGTGCTGAAGATGCTGGCCGAGATCGGCACCGCCGACCAGGTCGAGAAGGCCGTGGTCCGTGCCAAGGACAAGAACGACCCGTTCCGCCTGATGGGCTTCGGCCACCGCGTCTACAAGAACTTCGACCCGCGCGCCAAGATCATCCGCGAGATGACCCACAAGGTGCTGGGCGATCTGGGCATCGACGATCCGCTGCTGGACGTGGCGATGAAGCTGGAAGAGGTCGCCCTGAAGGACGACTACTTCGTCGAGCGCAAGCTGTACCCGAACGTCGACTTCTACAGCGGCATCATCTACAAGGCGCTGAAGATCCCGACCGAGATGTTCACGGTGATGTTCGCGATCGGCCGGACGCCGGGCTGGGTCGCGCACTGGCTGGAACAGCAGGTCGATCCGGAAGCCCGCATCGGCCGTCCGCGGCAGATCTACACCGGCTACGACAAGCGCGACTACGCGGCCGTCGACAAGCGCTGA	MSDLDQVTLNAGDKSVVLPVLKPTLGNDCVDVSKLTKETGLFTYDPGFGATASCKSAVTYIDGDQGVLLYRGYPIEQLAANSSFTEVSYLLMNGELPSAAELSKFEHEVTHHTMMHESLKSFLKGFHYDAHPMAMLAASVASLSAFYHDTLDLNDPEQRRLAAIRLIAKMPTLAAAAYRYSIGQPIRYPRNNLSYVDRFLHMMFEVPSEPLEMSPVVAKAMDLLFILHADHEQNASTSTVRLVGSTGANPYASVAAGITALWGPAHGGANEAVLKMLAEIGTADQVEKAVVRAKDKNDPFRLMGFGHRVYKNFDPRAKIIREMTHKVLGDLGIDDPLLDVAMKLEEVALKDDYFVERKLYPNVDFYSGIIYKALKIPTEMFTVMFAIGRTPGWVAHWLEQQVDPEARIGRPRQIYTGYDKRDYAAVDKR	PGPT0001455_3996	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
BMS020_08029	243	rpmE2_2	COG0254	50S ribosomal protein L31 type B	ATGAAGGCCGACATCCATCCGAATTACCGCGACGTCGTCTTCCACGACGTGACCTCCGATTTCAAGTTCCTGACCCGTTCCACGATGGCCACGAAAGAGACCGTCACCTGGGAAGATGGCCAGGAATACCCGCTGATCAAGGTCGAAATTTCTTCGGCCTCGCACCCGTTCTACACGGGCAAGCACAAGGTCATCGACACCAGCGGCCGTATCGACAAGTTCCAGAAGCGCTACGCGCGCTGA	MKADIHPNYRDVVFHDVTSDFKFLTRSTMATKETVTWEDGQEYPLIKVEISSASHPFYTGKHKVIDTSGRIDKFQKRYAR	PGPT0014325_2453	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014325-rpmEB-K02909	NA	NA
BMS020_08030	939	rihA_4	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihA	ATGAGCAAGAAGATCCCGCTGCTGATCGACACCGATCCCGGCGTCGACGATGCGCTGGCGCTGTTGATGGCGTTCAACGATCCGAGGCACGACGTGGTCGCGCTGACCATCGCCGCCGGCAACGTCGGTCTGGCGCACACCGTGCGCAACGCGCTGAAGCTGTGCGAAGTCGCCGGACGCGATGACGTGCCGGTGTTCGCCGGTTGCCCCGATCCGCTGGTGCATCCGTCGGTGGACGCCGCGCACGTGCATGGCGTGGACGGATTCGGCGACGTCGGTCTGCCCCCGGCGGCACGTGCGGCCGAGGCCGAGCATGCGGCACTGGCGATCCTGCGGCTCTCGCACCAGTACGCCGGCGAGCTGGTGCTGGTTGCATTGGGGCCGCTGACCAACGTGGCCATCGCCTTGAAGCTCGATCCCACCCTGCCGCAGCGCGTGGCGCGCTTCGTGGTGATGGGCGGTGCGGTGACCGCGCACGGCAACATCACCCCGGCGGCCGAGTTCAACATCGGCTTCGATCCGGAGGCGGCGCACATCGTGCTGTCGGGGTTCCCGCGGTTCGAGCTGGCGGACTGGGAGGCGACCCTCGCCCACGGCCTGCCGCACCGCGAGGTGGAGCAGTGGCTGGCGGCGCCGTCGCCGCGGGCGCGCTTCTACGAGGCGATCTCGCGCAAGACCCGGTTGTGGTCCGAGGACAGCCGCGGCGAGCACTGGTATGCCGCCGACGCGCTGGCGATGGCGTTGGTGCTGGAGCCGGAGGGCGCGACCCGGGTCGAGACACGGCCGCTGGTGGTGGAACTGGAGGGCCGCCATACCCGTGGCGCCACCGTGGTCGATTGGAATCGGCAGCTGGGCCGGGCGGACAACGCGACGATCCTGCTTGGCTACGACCAGGCCAGGTTCCAGCGGCTGGTGGCGGGCGCGCTGGCCGCCGGCTGA	MSKKIPLLIDTDPGVDDALALLMAFNDPRHDVVALTIAAGNVGLAHTVRNALKLCEVAGRDDVPVFAGCPDPLVHPSVDAAHVHGVDGFGDVGLPPAARAAEAEHAALAILRLSHQYAGELVLVALGPLTNVAIALKLDPTLPQRVARFVVMGGAVTAHGNITPAAEFNIGFDPEAAHIVLSGFPRFELADWEATLAHGLPHREVEQWLAAPSPRARFYEAISRKTRLWSEDSRGEHWYAADALAMALVLEPEGATRVETRPLVVELEGRHTRGATVVDWNRQLGRADNATILLGYDQARFQRLVAGALAAG	PGPT0013465_2142	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
BMS020_08031	2142	recG_2	COG1200	ATP-dependent DNA helicase RecG	GTGCCGCGTCAGCGTGCAGCCGCCCCGCAGCTGGCTTCCGGCGACGCGCCGCTGGCCAGCCTGCCGGGCGTCGGCCCCCGGGTCGCCGAGAAGTTCGCTGCGCGTGGCATCGCCACGCTGCAGGACCTGTGGCTGCTGCTGCCGCTGCGTTATGAGGACCGTACCCGCCTGACCGCCGTCGCCGCGCTGCAGGGTGGGGTGCCGGCGCAGGTCGAAGGCCGCGTGACCGCGGTGGAGCGCGGCTTCCGCTTCCGCCCGGTGTTGAAGGTGGCGCTGGCCGATGCCGCTGGCGGCAGCGTGGTGCTGCGGTTCTTCCATTTCCGCGCGGCGCAGGTGGCGCAGTTCGCGGTCGGCGCGCGCGTGCGCGCCTATGGCACGCCCAAGCCCGGCCAGTTCGGCTGGGAGATCGTGCACCCGTCCTACCGCGTGCTCGGCGCCGATGAGGAGGCCGGGCTCGGCGACAGCCTGGATCCGGTCTATCCGACGGTCGAAGGCATCGGTCCGGCCAGCCTGCGCAAGCTGATCGGACAGGCGCTGGAACGCTTGCCGGAGGCGGCCGCGCTGGAGCTGTTGCCGGCCGAATGGCTGGCGCGGCAGCAGCTGCCGTCGCTGCGCGAGGCGCTGCTGACGATGCACCGCCCGCCGTTGGACAGTGATACCGGGGCGCTGCTGGCTGGGCGCCATCCGGCGCAACAACGTCTGGCGCTGGAGGAGCTGCTTGCCCACCAGCTGAGCCTGCGTCGCCAGCGCATCGCGTTGCGCCGGCATGCCGCCCCGGCGCTGGCCAACGGCTGCGGCCTGGTCGAGCGCCTGCAGGCTGCGCTGCCGTTTGCGCTGACCGCAGCGCAGCAGCGCGTCTTCGCCGAGATCCGTGCCGACCTGGCGCGGCCGGTGCCGATGCTGCGGCTGGTGCAGGGCGATGTCGGCAGCGGCAAGACCGTGGTCGCCGCGTTGGCGGCGATGCTCGCGGTCGGCCATGGCAAGCAGGTCGCGCTGGCGGCGCCGACCGAACTGCTGGCCGAGCAGCACCTGGCCAACCTGCGTGGCTGGCTCGCGCCGCTCGGCGTGCGGGTGGCCTGGCTGGCCGGCAAGGTCACCGGCAAGGCGCGCGCGGCCACGCTGGCGCAGGTCGCCTCGGGCGACGCGCAGGTCGTGGTCGGCACGCATGCGCTGATGCAGGAGTCGGTGGTGTTCGCCGACCTGGCGCTGGCGATCGTCGACGAGCAGCACCGCTTCGGCGTGCACCAGCGGTTGGCGCTGCGCGACAAGGGCGCGGGCGAAGGCAGCGTGCCGCACCAGCTGGTGATGACCGCCACGCCGATCCCGCGCACGCTGGCGATGTCGGCCTACGCCGACCTGGACGTCTCGGCGATCGACGAGCTGCCGCCCGGGCGCACGCCGGTGCAGACCATCGTGCTCAGCGCCGAGCGCCGCCCGGAGCTGGTCGAGCGCATTCGCGGCGCCTGTGCCGAGGGGCGTCAGACCTACTGGGTCTGCACGCTGATCGAGGAGCTTGACGAGGCCGCCGCCGGATCCGGCCAGAACGCTGGGCGCGGCGAGGCGCAGGCGGCGCAGACCACCTACGAGACGCTGTCGGCGCAGCTGCCGGGCGTGCGCGTCGGGCTGGTGCACGGGCGCATGAAGGCCGCCGAGAAGCAGGCGGTGATGCAGGCGTTCAAGCAGGGCGAACTCGGCCTGCTGGTGGCGACCACGGTGATCGAGGTGGGGGTCGATGTGCCCAACGCCTCGTTGATGGTGATCGAGAACGCCGAGCGCCTCGGCCTGGCGCAGTTGCACCAGCTGCGCGGGCGGGTGGGGCGCGGCGCGGCGGCGTCGAGCTGCGTGCTGATGTACCAGGCGCCGTTGTCGGTGATGGCGCGGCAGCGCCTGGAGACCATGCGGCAGACCAACGACGGCTTCGTGATCGCCGAGAAGGATCTGGAGCTGCGTGGCCCGGGCGAGCTGCTCGGCACGCGCCAGACCGGCCTGGCCAGCTTCCGTGTCGCCGACCTGGCGCGCGATGCGGCGCTGCTGCCGCGCGTGCATCGCCTGGCCGAGGCGATGCTCGAGCGTTCGCCGGCGATGGCCGATCGCGTGGTCGCGCGCTGGATCGGCGGCGCGGCGCGTTACGCGGCGGCGTAG	MPRQRAAAPQLASGDAPLASLPGVGPRVAEKFAARGIATLQDLWLLLPLRYEDRTRLTAVAALQGGVPAQVEGRVTAVERGFRFRPVLKVALADAAGGSVVLRFFHFRAAQVAQFAVGARVRAYGTPKPGQFGWEIVHPSYRVLGADEEAGLGDSLDPVYPTVEGIGPASLRKLIGQALERLPEAAALELLPAEWLARQQLPSLREALLTMHRPPLDSDTGALLAGRHPAQQRLALEELLAHQLSLRRQRIALRRHAAPALANGCGLVERLQAALPFALTAAQQRVFAEIRADLARPVPMLRLVQGDVGSGKTVVAALAAMLAVGHGKQVALAAPTELLAEQHLANLRGWLAPLGVRVAWLAGKVTGKARAATLAQVASGDAQVVVGTHALMQESVVFADLALAIVDEQHRFGVHQRLALRDKGAGEGSVPHQLVMTATPIPRTLAMSAYADLDVSAIDELPPGRTPVQTIVLSAERRPELVERIRGACAEGRQTYWVCTLIEELDEAAAGSGQNAGRGEAQAAQTTYETLSAQLPGVRVGLVHGRMKAAEKQAVMQAFKQGELGLLVATTVIEVGVDVPNASLMVIENAERLGLAQLHQLRGRVGRGAAASSCVLMYQAPLSVMARQRLETMRQTNDGFVIAEKDLELRGPGELLGTRQTGLASFRVADLARDAALLPRVHRLAEAMLERSPAMADRVVARWIGGAARYAAA				NA	NA	NA	NA	NA
BMS020_08032	384		COG0251	RutC family protein	ATGTCCCGCCAGATCATCCAGACCGACAAGGCCCCCGCCGCGATCGGGCCGTATTCGCAGGCCGTCAAGGCTGGCAACACCGTGTATTTCTCCGGCCAGATCCCGCTGGATCCGGCGACCGGCGACATCGTGGGCGGCGGCATCGAGGCGCAGGCCCGTCGTGCCTTCGACAACCTCAAGGCGGTGGCCGAGGCAGCCGGTGGCTCGCTCGACCAGATCGTCCGTCTCGGCCTGTACCTGACCGACCTGGGTGAATTCGCCAAGGTCAATGCGGTGATGCAGGAATACTTCCAGGCACCGTTCCCGGCGCGCTCGACGATCGAGGTCTCGGGGCTGCCCAAGGGGGCCGGCTTCGAAGTCGACGCGGTGATGGTGATCGACTGA	MSRQIIQTDKAPAAIGPYSQAVKAGNTVYFSGQIPLDPATGDIVGGGIEAQARRAFDNLKAVAEAAGGSLDQIVRLGLYLTDLGEFAKVNAVMQEYFQAPFPARSTIEVSGLPKGAGFEVDAVMVID	PGPT0020030_2995	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
BMS020_08033	2172	spoT_2	COG0317	Bifunctional (p)ppGpp synthase/hydrolase SpoT	ATGAACCCAGGCCCCTCCGCCCAGGCTGCCCTCGCGACGCCCGTGTCGTCCGACGCGGCGGTACCGGACTATGTGCTGCAGCTCGAGCGAGCCGCCAGCTACCTGCCCGCCGAACAGCTGTCAGTGCTGCGGCGCGCGTGGGAGGTGGGCGCGGCCGCGCACGCCGGCCAGACCCGCAAGTCGGGCGAACCCTACATCACCCATCCGGTGGCGGTTGCCTGCGTGCTGGCCGAACTGGGCATGGACGCCGAGTCGCTGGTCGCGGCGATCCTGCACGACACCATCGAAGACACGCCGTTGACCCGCGAGGAGCTTGCCGGCGAGTTCGGTGAGACCGTCGCCGAGCTGGTCGACGGCGTCACCAAGCTGGACAAGCTGAAGTTCCGTGACCGCCAGGAAGCGGCCGCCGAGAGCTTCCGCAAGATGCTGCTGGCGATGTCGCGCGACCTGCGCGTGATCATGATCAAGCTCGCCGACCGGCTGCACAACATGCGCACGCTGGGCGCGCAGAGCACCGAGGCGCGCAGCCGCATCGCGCGCGAGACGCTGGAGATCTACGCGCCGATCGCCCAGCGCCTGGGCATGGCGCTGATCAAGTCCGAGCTGCAGAACCTCGGCTTCCGCGCGCTGTATCCGTGGCGCCACGCGATCATCGAAAAGCACATCCGCAGCCAGCCGGTGGTGCGCCGCGAGGCGATGGCGCAGGTCGAGGTGCAGCTCAGCCAGCGCCTGGCCAAGGAAGGGCTGGAGCATCGCCTCGTCAGCCGGATCAAGACGCCCTGGAGCATCTACAACAAGATGCGCGAGGAGAACAAAAGCTTCGACCAGGTGATGGACGTGTTCGGCTTCCGCCTGGTGGTGCGCTCGGTGCCGGACTGCTACCACGCCCTGGGCGCGGTGCATGCCACCTTCAAGCCGCTGGACGGGCGCTTCCGCGATTTCATCGCGATCCCCAAGGCCAACGGCTACCAGTCGCTGCACACGGTGCTGTTCGGGCCGTACGGTTCGCCGATCGAGGTGCAGATCCGCACCGAGGAGATGGACCTGATCGCCGAGCGTGGCGTCGCCGCGCACTGGACCTACAAGCTCGGCAGCGACGCGCCCAACAGCGCGCAGAGCCGCGCGCATGCCTGGATCGTCGAGCTGATCGAAAGCCAGCGTGCCGCCGGGTCGTCGCTGGAGTTCCTCGACAACGTCAAGGTCGACCTGTTCCCCGACGAGGTCTACCTGTTCACGCCGAAGGGCAAGATCCTGGCCTTGCCGAGGAACTCGACCTCGCTGGATTTCGCCTACGCGGTGCATACGGGCGTCGGCAACCAGGCGGTGGCCTCGCGCGTGGACAAGAAGCTGGTGCCGCTGCGCACCAAGCTGGTCAGCGGCCAGACCGTGGAGATCATCACCGCGCGCTCGGCCACGCCCAAGCCGCAGTGGCTGGAGTTCGTGGTCAGCTCCAAGGCCCGCACCGCCATCCGCCACCAGCTCAAGCAGCTCGAGCACGAGGATGCCGTGCAGCTGGGCCACCGCATGCTCGACCGCGCGCTGGAGGCGATGGATTCCTCGCTGGAGCGGCTGCCCAAGGGGCGGCTCGATGCGTTCCTGGCCGAGCACCGCTACCCGCGCCTGGAAGCGCTGCTGGCCGACGTCGCGCTCGGCAACTGGATGCCCAACCAGGCTGCGCAGGCGCTGATGGCCTATGCCGAACTGCGCGGCGGCGGCGGTTCCAAGCATTCGCACGAGAAGATCCTGATCGACGGCAGCGAGCGTGGCGTGGTGAGCTTCGCCAACTGCTGCCAGCCGATCCCCGGCGACGAGGTCATGGGCTACCACACCGCCGGCAAGGGCATCGTGGTGCACCGGCTGGATTGCCCGAACCTCGCCGAGCTGCGCAAGTCGCCCGAGCGCTGGGTGCCGATCGACTGGGATTCCGGCGTCAGCGGCGATTACGACACCGCGCTGGTGGTCGAGGTGGAGAACCGCACCGGCGTGCTGGCGCAGCTGGCCGCGGCGATCGCACAGAGCGAATCCAACATCGAACGCGTGGACTACCTGGATCGCGATTTCAATGCGGCGGTGCTGCGGTTCAACATCCAGGTGCGCGACCGCCGCCACCTCGCCGAGGTGATGCGCCGGCTGCGGCGTCTGCACGTGGTGCAGAGCGTGCGCCGGCAGTAG	MNPGPSAQAALATPVSSDAAVPDYVLQLERAASYLPAEQLSVLRRAWEVGAAAHAGQTRKSGEPYITHPVAVACVLAELGMDAESLVAAILHDTIEDTPLTREELAGEFGETVAELVDGVTKLDKLKFRDRQEAAAESFRKMLLAMSRDLRVIMIKLADRLHNMRTLGAQSTEARSRIARETLEIYAPIAQRLGMALIKSELQNLGFRALYPWRHAIIEKHIRSQPVVRREAMAQVEVQLSQRLAKEGLEHRLVSRIKTPWSIYNKMREENKSFDQVMDVFGFRLVVRSVPDCYHALGAVHATFKPLDGRFRDFIAIPKANGYQSLHTVLFGPYGSPIEVQIRTEEMDLIAERGVAAHWTYKLGSDAPNSAQSRAHAWIVELIESQRAAGSSLEFLDNVKVDLFPDEVYLFTPKGKILALPRNSTSLDFAYAVHTGVGNQAVASRVDKKLVPLRTKLVSGQTVEIITARSATPKPQWLEFVVSSKARTAIRHQLKQLEHEDAVQLGHRMLDRALEAMDSSLERLPKGRLDAFLAEHRYPRLEALLADVALGNWMPNQAAQALMAYAELRGGGGSKHSHEKILIDGSERGVVSFANCCQPIPGDEVMGYHTAGKGIVVHRLDCPNLAELRKSPERWVPIDWDSGVSGDYDTALVVEVENRTGVLAQLAAAIAQSESNIERVDYLDRDFNAAVLRFNIQVRDRRHLAEVMRRLRRLHVVQSVRRQ	PGPT0014310_3158	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014310-spoT-K01139	NA	NA
BMS020_08034	300	rpoZ_2		DNA-directed RNA polymerase subunit omega	ATGGCCCGCATTACCGTAGAAGATTGCCTGGAAGTCGTTAACAACCGTTTCGAGCTGGTCATGATGGCCTCCAAGCGCGCCCGCCAGCTGGCCAACGGCGTGCAGGCGACCTTGGACAACAGCGAGAGCGCCGACAAGCCGACCGTGCTGGCCCTGCGCGAGATCGCCGCGCGCAAGATCGACAACGCGCTGATCGAGGAAGTGGAGAAGGCCGAGCGCGAGCGCGCCGAGCGCGAAGCGCTGGAGTGGGCCGCCGCCGAAGTGGTGGCCGACGAGGACATGTCCAAGAACGACGACTGA	MARITVEDCLEVVNNRFELVMMASKRARQLANGVQATLDNSESADKPTVLALREIAARKIDNALIEEVEKAERERAEREALEWAAAEVVADEDMSKNDD				NA	NA	NA	NA	NA
BMS020_08035	624	gmk_2	COG0194	Guanylate kinase	ATGCGTGGCACCCTCTACATCGTCGCGGCGCCCTCCGGCGCCGGCAAGAGCAGCATCGTCAACGCGACGCTGGCGCGCGACCCGCAGATCGCTTTGTCGATCTCCTTCACCTCGCGCGCGCCGCGCCCGGGTGAGCGCCATGCCGAGCACTACCACTTCGTGTCGGCCGAGGAGTTCCGGCGGATGATCGCCGCTGGCGACTTCTTCGAGCACGCGCTGGTGCACGGCGACTGGAAGGGCAGCGCGCGGCAGTCGGTGGAGCCGCAACTGGCGGCCGGGCACGACGTGCTGCTGGAGATCGACTGGCAGGGTGCGCGCCAGGTGCGCGAGAAGGTGCCGGACGCGGTCACCGTGTTCATCCTGCCGCCGTCGCGGCAGGCGCTGGAAGAGCGCATGCGCAAGCGCGGCCAGGACAGCGAGGAGACCATCGCCCGCAGGCTGGCCGCCGCGCGCGAGGAGATGTCGCACTACGACGAGTACGACTACGTGATCGTCAACGAGGATTTCGACACCGCGGTTGGCGAGATGTGCGCGATCTTCGTGGCCAGCCGGCTGCGTCGCGCGCAGCAGCAGGAGCGCCATGCAGGGCTGATTGCCGGCCTGCTGGATGCCCCAACTGCCTGA	MRGTLYIVAAPSGAGKSSIVNATLARDPQIALSISFTSRAPRPGERHAEHYHFVSAEEFRRMIAAGDFFEHALVHGDWKGSARQSVEPQLAAGHDVLLEIDWQGARQVREKVPDAVTVFILPPSRQALEERMRKRGQDSEETIARRLAAAREEMSHYDEYDYVIVNEDFDTAVGEMCAIFVASRLRRAQQQERHAGLIAGLLDAPTA	PGPT0021475_3682	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942	NA	NA
BMS020_08036	861			hypothetical protein	ATGATCCGCAGCATGACCGCCTTCGCCGGCGCCGAACGCACCACGCCGTGGGGCACCCTGGGATGCGAGCTGCGCTCGGTCAACCACCGTTTCCTCGAGCTCGGCGTGCGCCTGCCGGAGGAACTGCGGGCGCTGGAGCCGCAGCTGCGCGAGCGGGTGGCGGCGCGGGTCAGCCGCGGCAAGCTCGACCTGGTGCTGCGCCTGCGCGCACCGGAGGACGCCGGCAGCCTGTCGGTGAACGAGCCGATGCTCGACCGGCTGGCCGAGCTGGCGCGGCGCATGGATGCCAAGTTCCCCGACCTGCGGGTGGAGTTCACCGAGCTGCTGCAGCTGCCCGGCGTGCTGCAGGCGCCGGCCGCCGACCAGGAGGCGCTGCAGGCCCAGGCGCTGGAGCTGCTGGAGACGGTCATCGATGGTTTCCTCGATGCACGCGCCCGCGAGGGCGCCAAGCTGGCCGCGGCGATCGCCGAGCGCGTCGATGCGATCGAGCGCATCGCCGGCGAGGTCAAGGGGCTGATCCCGGCGATCCGTGACGGCCAGCGTGCCAAGCTGGCCGCGCGGTTGGCCGACCTGCCGCATCCGGTCGATCCGGGCCGCGCCGAGCAGGAACTGGTGCTGTGGCTGCAGAAGCTGGACGTGGACGAGGAGCTGGACCGCCTGGGCAGCCACATCGCCGAGATCCGCCGTGTGCTGAAGCAGCGCGAGCCGGTCGGCCGGCGGCTGGATTTCCTGCTGCAGGAGTTCAACCGCGAGGCCAATACCCTGGGGTCCAAGTCGGTGGACAGCCGTACCAGCAACGCCGCGGTCGAGCTGAAGGTGTTGATCGACCAGATCCGCGAGCAGGTGCAGAACCTGGAGTGA	MIRSMTAFAGAERTTPWGTLGCELRSVNHRFLELGVRLPEELRALEPQLRERVAARVSRGKLDLVLRLRAPEDAGSLSVNEPMLDRLAELARRMDAKFPDLRVEFTELLQLPGVLQAPAADQEALQAQALELLETVIDGFLDARAREGAKLAAAIAERVDAIERIAGEVKGLIPAIRDGQRAKLAARLADLPHPVDPGRAEQELVLWLQKLDVDEELDRLGSHIAEIRRVLKQREPVGRRLDFLLQEFNREANTLGSKSVDSRTSNAAVELKVLIDQIREQVQNLE				NA	NA	NA	NA	NA
BMS020_08037	726	rph_2	COG0689	Ribonuclease PH	ATGAGCTTTTCCCGCCCCAGCGGTCGCCTCGCCGACCAGTTGCGCCCGGTGCGCATCGAGCGCGCCTTCACCCGTCATGCCGAAGGCTCGGTGCTGGTCAGCTTCGGCGACACCCGCGTGCTGTGCACCGCCAGCGTCGACAACAAGGTGCCGCCGTTCCTGCGCGGCAAGGGCGAAGGCTGGGTGACCGCCGAATACGGCATGTTGCCGCGCTCCACCCACACCCGCTCCGACCGCGAGGCCGCGCGCGGCAAGCAGGGCGGGCGCACGCTGGAGATCCAGCGCCTGATCGGCCGCGCACTGCGCGCCTGCGTGGACCGCAACGCGCTCGGCGAACGCACCATCACCCTGGATTGCGACGTGCTGCAGGCCGACGGCGGCACCCGCACCGCGGCGATCACCGGCGCCTACGTCGCGCTGGCCGATGCGGTGGCATGGATGCGCAAGCGTGGCGACATCAAGAAGCACCCGCTGATCGGCGCGGTGGCGGCGGTGTCGGTCGGCGTCTACCGCGGCGTGCCGGTGCTGGACCTGGACTACGCCGAGGACAGCGACTGCGACACCGACATGAACGTGGTGATGAACGACGGCGGCGGCTTCATCGAGCTGCAGGGCACCGCCGAAGGCCATGCGTTCCGCCGCGACGAACTGGACGCGCTGCTGGCACTGGCCGAAGGCGGCATCGCCCAGCTGCTGACCGCGCAGCGCGAGGCGCTGGGACAGTGA	MSFSRPSGRLADQLRPVRIERAFTRHAEGSVLVSFGDTRVLCTASVDNKVPPFLRGKGEGWVTAEYGMLPRSTHTRSDREAARGKQGGRTLEIQRLIGRALRACVDRNALGERTITLDCDVLQADGGTRTAAITGAYVALADAVAWMRKRGDIKKHPLIGAVAAVSVGVYRGVPVLDLDYAEDSDCDTDMNVVMNDGGGFIELQGTAEGHAFRRDELDALLALAEGGIAQLLTAQREALGQ	PGPT0021590_9	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
BMS020_08038	387			hypothetical protein	GTGACGCGACGCCTGGCGCTGGCCACGCTGGTGGTGGCCGACTACGACGAGGCGATCGCCTGGTTCACCGGCAAGCTCGGCTTCGTCCTGCTCGAGGACATCGACCAGGGTGACAAGCGCTGGGTGGTGGTCGGCCCGGCCGGGCGCGAGGACGCCGCGCTGCTGCTGGCGCGCGCCAGCACCGACGCGCAGCGTGCGCGCATCGGCGACCAGACCGGCGGCCGGGTCGGCTTCTTCCTGCACACCGACGATTTCCAGCGCGACCACGCCGCGATGCTGGCGCAGGGCGTGGAATTCCTAGAAGCCCCGCGCCATGAGCCGTACGCCACGGTCGCGGTGTTCCGCGACCTGTATGGCAACACCTGGGACCTGCTGGAGCCGACCTGA	MTRRLALATLVVADYDEAIAWFTGKLGFVLLEDIDQGDKRWVVVGPAGREDAALLLARASTDAQRARIGDQTGGRVGFFLHTDDFQRDHAAMLAQGVEFLEAPRHEPYATVAVFRDLYGNTWDLLEPT				NA	NA	NA	NA	NA
BMS020_08039	609	rdgB_2	COG0127	dITP/XTP pyrophosphatase	ATGGATGCAACCCCGACCGACCGGATCGTGCTGGCCAGCGGCAACGCCGGCAAGCTGCGCGAACTGCAGGCGATGCTGGCAGAGCTGCCGTACGCCATCGTGCCGCAGCGGGAACTGGGCGTGGACGACGTGCCCGAGACCGGACTGACCTTCGTCGAGAACGCGCTGATCAAGGCCCGCCACGCCTGCCGCGTCACCGGCCTGCCGGCGCTGGCCGACGATTCCGGCCTGATCGTCGATGCGCTCGGCGGCGCGCCCGGGCTGTACAGCGCCCGCTACGCCGGCAGCCCGACCGATGACGCCGCCAACAACACCAAGCTGCTCGATGCCCTGCGCGACGTCCCGGCCGAGCGGCGCACGGCGCGCTTCTACGCGGTGATCGTGCTGCTGCGCCACGCCGAGGACCCGCAGCCGCTGATCTGCGAAGGCAGCTGGGAAGGCGTGATCCTCGACGAACGCCGCGGCAGCCATGGCTTCGGCTACAACCCGGTGTTCCTCGACCCGGTGCACGGGCTGACCGCCGCGCAGATGGAGCCGGCGCTGAAGAACACCCTGAGCCATCGCGGCAAGGCGCTGGCGCTGCTGCGCGCCCGCCTGACGGCGTGGTGA	MDATPTDRIVLASGNAGKLRELQAMLAELPYAIVPQRELGVDDVPETGLTFVENALIKARHACRVTGLPALADDSGLIVDALGGAPGLYSARYAGSPTDDAANNTKLLDALRDVPAERRTARFYAVIVLLRHAEDPQPLICEGSWEGVILDERRGSHGFGYNPVFLDPVHGLTAAQMEPALKNTLSHRGKALALLRARLTAW	PGPT0021590_3699	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
BMS020_08040	528			hypothetical protein	GTGAATCCGGCGGCCGCCGCGCCGCGGCGGATCCGCAGCAGCCTGGCCGCCTACCTGTGGCCGGGCACGATCGCCGCGCTGCTGCTCGCTGCCGGCTTGCTGGCGATCGCGCTGCTGCAGCGGCATGTCGCCGGCGGCCTGCCCTGGCAGGCCGCGCTGGCGATCGCCGGGCTGGTCTGGCTGATCTGGTCGAGCATCGCCGGGCTGTTCGCGGCCCAGTCGGTCTGGCTGCATGCCGACGGCACGATCGAGGTGCGCGGCGCCGGCACCGGCTTCCGGCGCCGTCGCTTCGCCGCCGCCGAGGTCCAGTTCGTCCATCTGGCGCGTTGGACCGCGCTGTACCGCAGCCCGGCCGGACGCCTGCTGCTGCAGCTGAAGGCCGCGCCGCACCGCGACTGGACCCTGGTCGGGGTGGTCGACAGCGCGCCATTCAGCCGCAGCGACGGCGCGCTGTTCCAGGCCGTGCTCGACGCGATCGCCCTGGCCCAGCCGGGCCGCCGGCTGCCGGTCGCGCGCCGCGCCGGCTAG	MNPAAAAPRRIRSSLAAYLWPGTIAALLLAAGLLAIALLQRHVAGGLPWQAALAIAGLVWLIWSSIAGLFAAQSVWLHADGTIEVRGAGTGFRRRRFAAAEVQFVHLARWTALYRSPAGRLLLQLKAAPHRDWTLVGVVDSAPFSRSDGALFQAVLDAIALAQPGRRLPVARRAG				NA	NA	NA	NA	NA
BMS020_08041	1161	hemW_2	COG0635	Heme chaperone HemW	GTGACCTCGCTGATTCCGCCGCCACTGTCGCTGTACGTGCACCTGCCCTGGTGCGTGCGCAAATGCCCGTACTGCGACTTCAACTCGCACGCCGGCAAGGGCGCGCTGCCGTTCGACGCCTATGTCGATGCGTTAATCCGCGACCTGGACCACGACCTGCCGCTGGTCTGGGGCCGGGTGGTCAACAGCGTGTTCTTCGGCGGCGGCACCCCCAGCCTGTTCCCGCCGGAAGCGATCGATCGTTTCCTGCAGGCGGCCAGCGCACGGCTGCGCTTCGCGCCGAACCTGGAAGTGACGCTGGAGACCAACCCCGGCACCGCCGAACACGGGCGCTTCGACCGCTATCTGGCCGCCGGGGTGAACCGGATCAGTTTCGGCATCCAGAGTTTCGACGACGCCGCGCTGAAGCGGCTGGGCCGCATCCACGACAGCGGCGAGGCCGAACGCGCGGTCAAGCTGGCCCAGGACGCCGGCTACGACAACTTCAACCTCGACCTGATGTACGCGCTGCCCGAGCAGACCCTGGCCCAGGCCGAACGCGACCTGGAGCGTGCGTTCGCGCTGCAGCCCACGCACATCTCGCACTACCAGCTGACGCTGGAACCGAACACGGTGTTCTTCGCGCGCCCACCCAAGGGCCTGCCCGACGACGACGACGCCTGGGACATCCAGGACCACTGCCAGCAGATGCTCGCCGAGGCCGGCTACGGCCACTACGAGGTCAGCGCCTATGCCAAGCCCGACCGGCAGTGCGCGCACAACCTGAACTACTGGCGCTTCGGCGACTACCTCGGCATCGGCGCCGGCGCGCACGGCAAGATCAGCTCCGGTGCCGGGCAGAACGTGCTGCGCCGCTGGAAGCACAAGCATCCGCAGAGCTACATGGACAGCGCCGGCAGCGCCGCGGCGATCGGCGGCGACGACATCATCCCGGCCGCACGACTGCCGTTCGAATACATGCTCAACCTGCTGCGTCTGCACGAAGGCTTCGCGCTGCGCGACTTCGAGGCCCGCACCGGGCTGCCAGCGGCGGCGATCGCCCCGCAGCTGGCGCAGGCGCGCGCACGTGGCTGGCTGGAGGACGCCGGCGACGGCCGGATCGTGCCGACCGAGCTCGGCCGCCGCTTCACCAACGACGTGGTCGAACTGTTCCTGGACTGA	MTSLIPPPLSLYVHLPWCVRKCPYCDFNSHAGKGALPFDAYVDALIRDLDHDLPLVWGRVVNSVFFGGGTPSLFPPEAIDRFLQAASARLRFAPNLEVTLETNPGTAEHGRFDRYLAAGVNRISFGIQSFDDAALKRLGRIHDSGEAERAVKLAQDAGYDNFNLDLMYALPEQTLAQAERDLERAFALQPTHISHYQLTLEPNTVFFARPPKGLPDDDDAWDIQDHCQQMLAEAGYGHYEVSAYAKPDRQCAHNLNYWRFGDYLGIGAGAHGKISSGAGQNVLRRWKHKHPQSYMDSAGSAAAIGGDDIIPAARLPFEYMLNLLRLHEGFALRDFEARTGLPAAAIAPQLAQARARGWLEDAGDGRIVPTELGRRFTNDVVELFLD				NA	NA	NA	NA	NA
BMS020_08042	672			hypothetical protein	GTGGTAGACCAGGCCCGGCAGCACGCCCTCGTGCGCCAGCAGCACGTTGGCGCGCTCCAGCACCTCGCCCAGGCGGTCCATCGACTGGCGCTCGAATACCCGGTACAGCATCAGCTGGCTGTCCAGTGCCAGGCCCAGCGTCTCGCCGGCATCGCGCAGCACCCGGCACAGCGCGTGCGGGCCCATCGGCAGCTGCTCCAGGTCGAACGCCGGCAGCGCCGCGAGCACGCCGAAGCGCTGGCTCAGCAGCTGCAGCGCACCGGTGGCGCGCGAAGCCTCGCGGCGCGCGATCTCGTTGAGCACGATGTCGCGGTCGATGTCGGTGTCCTCGACCAGCGTCAGGATCTGGAATGCCTGCGTCGGCAGCTCGCGGCCGGGCGCGGTGCGCTTGGGCTCGCGCAGCGTCGCCAGTTCGCGCGCCATGCCGGTCACCATCGCCGGCGCGAAGCGCGCGCCATGCTCGCGCAGGCGCTGCATCTCGGCGTACAGGTCGGCCTGCACCTGGCTGTTGCGGGCGCGTTCGGCATGCTTGAACAGCTCGCGCTCGAGCTCGACCAGGGTCAGTTTGAACGGGTTGGCCATCGCCTGCGCCGAAAGCGCATGCAGGGCCTCGAGGATGTGCCGCGCGCGCGCGGCTACCGGCGCCGTGGCCAGCAGGCCCGACGGATCTGA	MVDQARQHALVRQQHVGALQHLAQAVHRLALEYPVQHQLAVQCQAQRLAGIAQHPAQRVRAHRQLLQVERRQRREHAEALAQQLQRTGGARSLAARDLVEHDVAVDVGVLDQRQDLECLRRQLAAGRGALGLAQRRQFARHAGHHRRREARAMLAQALHLGVQVGLHLAVAGAFGMLEQLALELDQGQFERVGHRLRRKRMQGLEDVPRARGYRRRGQQARRI				NA	NA	NA	NA	NA
BMS020_08043	1494	xylB_5	COG1070	Xylulose kinase	ATGAGTCTGTACATCGGCCTGGACGTGGGCACGCAGAGCGTGAAGCTGGTGGCCTACGATCCGGCGGGCAGGGCGGTAGTGGCGACGACGGCGAAGGCGATGGCGCTGGTCAGCCGCGAGGACGGCACCCGCGAGCAGGATGCGGCGTGGTGGATTGACGGCATCGTCGAATGCTTCGCCGGGTTGAGCGCGCAGCAGCGGGCGCAGGTGCGTGGGATCGCGGTGTCCGGCCAGCAGCATGGCTTCGTGCCGGTGGCCGCCGATGGCGCGGTCACCGCGCCGGTGAAGTTGTGGTGCGACACCAGCACCCATGCCGAGTGCGAGCAGATCATGGGGGCGGTTGGTGGCGCATCCGGTGCGATTGCCGCCGCCGGCAACCCGATCCTGGCCGGCTATACCGCCTCCAAGCTGCCGTGGACGCGCACGCATCGGCCTGAGGTGTATGCGGCGATGGCGACGATCCTGCTGCCGCACGACTACGTGAATTTCTGGCTGACCGGCCAGCGCTTCATGGAGGCCGGCGATGCCTCGGGCACCGGCTGGCTGGATGTGCGCACGCGCCAGTGGTCGCAGCCGATGCTCAAGGCACTCGATGGCGAGCGCGATCTGACTGACGCACTGCCGCCGCTGGTGTCGCCCGATGCGGTGTTCCCGTTGTCCGAATGCGCCGCGGCCACGCTCGGCCTGCCGGCTGGCGTGCAGGTCGCGGTCGGCGGCGGCGACAACATGATGGCCGCGATCGGTACCGGCAATGTGGTGCCGGGGCGGCTGACGATGAGCCTGGGTACCTCGGGCACGCTGTTCGCGCACGCCGATCATCCGGTGGTTGACGATGCCGGCCGCTGGGCGGCGTTCTGCGATTCGACCGGCGGCTGGCTGCCGCTGATCTGCACGATGAACTGCACCGTGGCCACCGAGACCGCGATGCGCATGTTCAACCTCTCACGCGAGCAGGCCGAAGCGGCGATCGTATCGACGCCGCCGGGCGCTGATGGGCTGGTGATGCTGCCGTTCTTCAACGGCGAGCGCACCCCGGACCTGCCCGAAGCACGCGGCGGCCTGTTCGGCATGGACCTGCACAACACCACGCCGGCACATATGTATCGCGCAGCGATGGAAGGGGCGACCTACACGCTGCGCAATGGTTTCGATGCGTTCGTCGGCGCCGGCCTGCCGTTCGACACGATCCTGCTGACTGGCGGCGGCAGCAAGAGCGCGCAGTGGCGGCAGATGATCGCCGACGTGTTCAACCTGCCGGTGGTGGTGCCTAGCCAGCCTGAGGGCGCCGCGTTCGGCGCCGCGCTGCAGGCGCTGTGGGCCTGCGAGCGTGCAGCCAGCGGCGAGACGTTGGCGACCACCGTCGATGCACACCTGCAGGTGGACGATGCGTTGTCCGCCCAACCCGATCCACACCGTGTGGCGCAGTACGCGCGCGGCTATGCGCAGTTCCAGCGCTATCTGCACGCCATCGCGCCGTTGTACCGCACTCCATGA	MSLYIGLDVGTQSVKLVAYDPAGRAVVATTAKAMALVSREDGTREQDAAWWIDGIVECFAGLSAQQRAQVRGIAVSGQQHGFVPVAADGAVTAPVKLWCDTSTHAECEQIMGAVGGASGAIAAAGNPILAGYTASKLPWTRTHRPEVYAAMATILLPHDYVNFWLTGQRFMEAGDASGTGWLDVRTRQWSQPMLKALDGERDLTDALPPLVSPDAVFPLSECAAATLGLPAGVQVAVGGGDNMMAAIGTGNVVPGRLTMSLGTSGTLFAHADHPVVDDAGRWAAFCDSTGGWLPLICTMNCTVATETAMRMFNLSREQAEAAIVSTPPGADGLVMLPFFNGERTPDLPEARGGLFGMDLHNTTPAHMYRAAMEGATYTLRNGFDAFVGAGLPFDTILLTGGGSKSAQWRQMIADVFNLPVVVPSQPEGAAFGAALQALWACERAASGETLATTVDAHLQVDDALSAQPDPHRVAQYARGYAQFQRYLHAIAPLYRTP	PGPT0017535_1681	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
BMS020_08044	2388			hypothetical protein	ATGGACCTGATGTTGAGCCGTCGTGGCCTGTGCAAGGCGGTTGGCGCCGGGCTTGCCGCGGGCGTGGCCGTGCCGGTGGTGCCGGCGCTGGCCGCATCGCCGCGCAAGCGCGACGCGCTGCCGCCGGTGGTCGATGATCCGCAGGCCTTGCAGCTGTGGTATGCCGCGCCGGCCACCGAATGGGTGCAGGCCTTGCCGGTCGGCAACGGCCGGCTCGCGGCGATGGTCTGGGGCGGGATCGCGCACGAGCGCATCCAGCTCAACGAGGACACCCTGTATGCCGGCGGTCCGTACGACGCCACCAGTCCCGATGCGCTGGCGGCGTTGCCGCAGGTGCGCGAGTTGATCTTCGCCGGTCGCTATGCCGAGGCCGAGCAGCTGGCCGACGAGAAGCTGCTGTCGCGCCCGGCCAAGCAGATGCCGTTCCAGCCGCTGGCCGACCTGCTGCTGGATGTCGACCGTGCCGATGGCATCGATGGCTACCGGCGCGAGCTGGACCTCGACACCGCGGTGGCGACCACCCGCTTCACTTCCGGTGGTGCCAGCCATCGCCGCGAGGTGTTCGTCTCGCCGGTCGACCAGTGCATCGTCGTGCGCCTGTCGGCCGATCAGCCGGGGCGGGTGTCGCTGCGCCTGGGCATCGACAGCCCGCAGCATGGCGAGGTCACGATCGACGATGGTGCCTTGCTGTTCTCCGGCCACAACGCCGCCTTCGCCGGCATCGACGGACAGCTGCGTTTCGCGCTGCGGGTGTTGCCGGTGGTGCGCGGTGGCAGCGTCACCGCGCTGCGCGACCGCATCCGCATCGAGAATGCCGACGAGGTGGTGCTGCTGCTGGCGGCGGCGACCAGTTACCGCCGCTACGACGATGTCGGCGGCGATCCGCTGGCCGCGACGGCCGCGACGCTGCGCAAGGCCCGCGGCATCGACTATCCGACGCTGCTGCAGCGCCATCTCGACGAGCACCGGCGGCTGTTCCGCCGCGTCGCGATCGACCTCGGCCACAGCGACGCGGTTGCGTTGCCGACCGATGAGCGCGTGCGGCGCTTCGCCGACGGCGGCGATCCCGCACTGGCCGCGCTGTACCACCAGTACGGCCGCTACCTGCTGATCTGCAGCTCGCGGCCCGGCAGCCAGCCGGCCAACCTGCAGGGGGTCTGGAACGACCTGATGCAGCCGCCGTGGGAAAGCAAGTACACGATCAACATCAACACCGAGATGAACTACTGGCCCAGCGAGGCCAACGCGCTGCACGAGTGCGTCGAGCCGCTGGAAGCGATGGTGTTCGATCTGGCGCGGACCGGCGCACATACCGCCAGGGCGATGTACGACGCGCCCGGCTGGGTGGTGCACAACAACACCGACCTGTGGCGCCAGGCCGGGCCGATCGACGGCGCGCAGTGGAGCCTGTGGCCGATGGGCGGGGTGTGGCTGCTGCAGCAGCTGTGGGACCGCTGGGACTACGGCCGCGATCGTGCCTACCTGCAGAAGATCTATCCGTTGTTCAAGGGCGCGGCCGAGTTCTTCGTCGCCACGCTGCAGTGTGATCCGCGCACCGGCGCGATGGTGACCAATCCGTCGATGTCGCCGGAGAACCAGCATCCGTTCGGTGCCGCGGTCTGCGCCGGGCCGTCGATGGATGCGCAGCTGCTGCGCGACCTGTTCGCCCAATGCATCGCGATAGGCAAGCTGCTCGGCGTCGATGATGCGTTCGGCCAGCAGCTGGCCGCGCTGCGCGCGCAGCTGCCGCCGCACCGCATTGGCAAGGCCGGCCAGCTGCAGGAATGGCAGCAGGACTGGGACATGGAGGCACCGGAGATCCACCATCGCCACGTCTCGCACCTGTACGCGCTGCATCCGTCGAGCCAGATCAACCTGCGCGACACGCCCGAGCTGGCCGCTGCGGCACAGCGCTCGCTGGAGATCCGCGGTGACAACGCCACCGGCTGGGGCATCGGCTGGCGCCTGAACCTGTGGGCGCGGCTGCGCGATGGCGAACACGCCTACCGCATCCTGCAGTTGCTGCTGGCGCCGCAGCGCACCTATCCGAACCTGTTCGATGCGCACCCGCCGTTCCAGATCGACGGCAACTTTGGCGGCACCGCCGGCATCACCGAGATGCTGGTGCAGAGCTGGGGCGGCACGGTGTTCCTGCTGCCGGCACTGCCCAAGGCCTGGCCGGACGGCGTGCTGCGCGGCGTGCGCGTGCGCGGTGCGGCGTCGCTGGACATCGCCTGGGCGAACGGTGTGCTGATGCAGGCGACGCTGCGCAGCGACAAGGGCGGCAACTACGAAATCTCCCATGCGGGACAAACGCTGGCGTTCGCGCTGGCGGCTGGGCGCGAGCAGCGCGTGGGCCTGGTCAACCAACGATTGGTGAAGCAATGA	MDLMLSRRGLCKAVGAGLAAGVAVPVVPALAASPRKRDALPPVVDDPQALQLWYAAPATEWVQALPVGNGRLAAMVWGGIAHERIQLNEDTLYAGGPYDATSPDALAALPQVRELIFAGRYAEAEQLADEKLLSRPAKQMPFQPLADLLLDVDRADGIDGYRRELDLDTAVATTRFTSGGASHRREVFVSPVDQCIVVRLSADQPGRVSLRLGIDSPQHGEVTIDDGALLFSGHNAAFAGIDGQLRFALRVLPVVRGGSVTALRDRIRIENADEVVLLLAAATSYRRYDDVGGDPLAATAATLRKARGIDYPTLLQRHLDEHRRLFRRVAIDLGHSDAVALPTDERVRRFADGGDPALAALYHQYGRYLLICSSRPGSQPANLQGVWNDLMQPPWESKYTININTEMNYWPSEANALHECVEPLEAMVFDLARTGAHTARAMYDAPGWVVHNNTDLWRQAGPIDGAQWSLWPMGGVWLLQQLWDRWDYGRDRAYLQKIYPLFKGAAEFFVATLQCDPRTGAMVTNPSMSPENQHPFGAAVCAGPSMDAQLLRDLFAQCIAIGKLLGVDDAFGQQLAALRAQLPPHRIGKAGQLQEWQQDWDMEAPEIHHRHVSHLYALHPSSQINLRDTPELAAAAQRSLEIRGDNATGWGIGWRLNLWARLRDGEHAYRILQLLLAPQRTYPNLFDAHPPFQIDGNFGGTAGITEMLVQSWGGTVFLLPALPKAWPDGVLRGVRVRGAASLDIAWANGVLMQATLRSDKGGNYEISHAGQTLAFALAAGREQRVGLVNQRLVKQ	PGPT0018650_914	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018650-afcA-K15923	NA	NA
BMS020_08045	2880		COG1501	Alpha-xylosidase BoGH31A	ATGCTTGAATCCAACCGCACCATCCATCTCCGCCCGCACGCACTGGCGCGCGGCCTGGCCGTCTCGCTGCTGCTGGTCGCCGCCGGCGCCGGCGCGCAGGAAGTGAAGAAGAGCGACGACGGCGTCACCGTGCTGCCCGCCGCGCCGGGCGCGGCCGCGGTGCGGCTGCAGGTGGTCGACAGCGGCATCATCCGCGTCAGCGCCGACCCGGACGGCGACTTCCAGCGCAGCGCCAGCCTGATGCGCGTGCCGGTGCAGGGCGATGCCGCCTTCAGCCTGGACGAGCAGGGCGATGCGGTCACGCTGAAGACCGCCAAGGTCACCGCCACGGTGTCCAAGGCCGATGGCCACGTCAGCTTCTTCGACGCGGCCGGCACGCCGGTGCTGGCCGAAGTCGCCGGCGGCCGCAGCTTCGCGCCGACCAGCGCCGAGGGCAGTGGCCCGCTGCTGAGCATGCGCCAGCGCTTCGTGTCGCCGCAGGGCGAGGCGATCTACGGCTTCGGCCAGCACCAGCAGGGCTGGATGGACCAGAAGGGCCGCAACGTCGAACTGCAGCAGAACAACCTCGACCTGGCGGTGCCGTTCCTGGTCTCCAGCCGCAACTACGGCCTGCTGTGGGACAACAACTCGATCAGCCGCCTGGGCGACCCGCGCGGCCTGCAGCCGCTGGGCAAGTCGCTGAAGCTGTACGACGCCAAGGGCAAGGCCGGCGCGTTGACCGCGACCTATTCGGTCGACGGCAAGGTGCTGGTGACCCGTCGCGAGAGCGAGCTGAACTACCAGTACATCAAGCAGCTGGCCAACTTCCCGGCCAAGGGCAAGAACCCGGACAAGAACGGCCGCAGCCAGGTCACCTGGGAAGGCGACATCGAGGCGCTCAGCGGCGGCGAGCACACCTTCTCGCTGTACGGCAGCGAGTACATGAAGCTGTATGTCGACGGCAAGGAAGTGATCAACCGCTGGCGCCAGAACTGGAACCCGTGGCACCACGAGTTCGCGCTGCAGATGCAGCCCGGTGAGCGCCACCACGTCAAGGTCGAGTGGAACCTGATCGATCCCAGCTACATCGCGCTGCTGCACCGCGACCCGCTGCCGGCGGCCGAAGCCAAGGACCTGTCGCTGTGGTCCGAGGCCGGGCAGATGATCGACTACTACTACGTGGCCGGCGCCAATGCCGACCAGGTGATCGCCGGTTACCGCGAGCTGACCGGAAAGGCGGTGCTGCTGCCGAAGTGGGCGTATGGCTTCTGGCAGAGCCGCGAGCGTTACAAGAACCAGCAGGAAATGCAGGACGTGGTCGCCGAGTACCGCAAGCGCGGCCTGCCGCTGGACAACATCGTGCTCGACTGGTCGTACTGGCCGGTCGATGCCTGGGGCTCGCATGACTTCGATCCGCAGTTCTGGCCGGACCCGGACGCGATGATCAAGTACTTCCACGACCACAACACCCACATGATGATCTCGGTGTGGCCGAAGTTCTATCCGAACACCGCCAACTACAAGGAGCTGGCGGCCAAGGGCCACATGTTCACCCGCAATGTGGACGCCGGCGAGCTGGACTGGATCGGCAAGGGTTACCTCAACGCGTTCTATGACCCGTTCTCGACCGAGGCGCAGAAGATCTACTGGCGCCAGATCGACGAGAAGCTCAACCGCCGCGGCATCGACGCGTGGTGGCTGGATGCCGACGAGCCGGACATCCATTCCAACCTCGATGTCGACACCCGCAAGCACCGGCTGACCCCGAATGCGCTCGGCAGCGCGACCGAGTACTTCAACGCCTATCCGCTGGAGCACACCCAGGGCGTCTACCAGGGTGACCGCGCCGCCGACGGCAAGCGCGTTTTCATCCTGTCGCGCAAGGGCTATGCCGGCACCCAGCGCAATGCGGTGGCGGTGTGGAGCGGCGACATCGTCTCGCGCTGGGACGACATGCGCGACCAGATCTCGGCCGGCGTGAACATCTCGATGTCGGGCCTGCCGAACTGGACCTTCGACATCGGCGGCTTCTCGGTCGAGAAGCGCTACGAGAGCCAGGACCCGGCACACCTGCCGGAATGGCGCGAGCTGCAGACGCGCTGGTTCCAGTTCGGCGCGTTCGTGCCGCTGTTCCGCTCGCACGGCCAGTTCCCGTACCGCGAGATCTGGAACGTCGCGCCCGAAGGCACGCCGTACTACGCCTCGCTGGCCTACTACGACAAGCTGCGCTACACGCTGATGCCGTACATCTACACGCTGGCCGCCGATACCTATTTCAAGGACGGCGTGATCATGCGTGGCCTGCCGATGGACTTCCCGCATGATCCCAAGGTCGCCGACCTCAACGACGAATACCTGTTCGGGCCGTCGTTCCTGGTCGCGCCGGTGACCACGTTCGGTGCCACTTCGCGCCAGGTCTACCTGCCGGCCGGCACCAGCTGGATCGACTTCAACACCGGCAAGCGCTACGACGGCGGCCAGACCCTCGAGGCGGCCGCGCCGCTGGAGCGGATGCCGCTGTTCGTGCGTGCCGGCGCGATCGTGCCGACCACCACGGTGCAGCAGTACGTCGACCAGGTGCCGGATGCGCCGCTGACGGTGGTCGTCTATACCGGCGCCGACGGCAGCTTCTCGCTGTACGAGGACCAGGGCACCGACTACGGCTACGAAAAGGGCGAGTACAGCCGTATCCCGCTGCAGTGGAACGAGGCCAAGGGCGTGCTGAGCATCGGCAAGCGCGAGGGCAGCTGGCCGGGCATGCTGGCCAAGCGCACGATCAAGGTGCGCTTCGTCGCCGGTCCGCGCGAGGATGCCGGCGCGCTGGAACCGTCCGTCGATGCCACCGTGCAGTACAGCGGCAAGCCGCTGACGGTCGCGTTCAAGGGCGGCAAGGCGAAGTGA	MLESNRTIHLRPHALARGLAVSLLLVAAGAGAQEVKKSDDGVTVLPAAPGAAAVRLQVVDSGIIRVSADPDGDFQRSASLMRVPVQGDAAFSLDEQGDAVTLKTAKVTATVSKADGHVSFFDAAGTPVLAEVAGGRSFAPTSAEGSGPLLSMRQRFVSPQGEAIYGFGQHQQGWMDQKGRNVELQQNNLDLAVPFLVSSRNYGLLWDNNSISRLGDPRGLQPLGKSLKLYDAKGKAGALTATYSVDGKVLVTRRESELNYQYIKQLANFPAKGKNPDKNGRSQVTWEGDIEALSGGEHTFSLYGSEYMKLYVDGKEVINRWRQNWNPWHHEFALQMQPGERHHVKVEWNLIDPSYIALLHRDPLPAAEAKDLSLWSEAGQMIDYYYVAGANADQVIAGYRELTGKAVLLPKWAYGFWQSRERYKNQQEMQDVVAEYRKRGLPLDNIVLDWSYWPVDAWGSHDFDPQFWPDPDAMIKYFHDHNTHMMISVWPKFYPNTANYKELAAKGHMFTRNVDAGELDWIGKGYLNAFYDPFSTEAQKIYWRQIDEKLNRRGIDAWWLDADEPDIHSNLDVDTRKHRLTPNALGSATEYFNAYPLEHTQGVYQGDRAADGKRVFILSRKGYAGTQRNAVAVWSGDIVSRWDDMRDQISAGVNISMSGLPNWTFDIGGFSVEKRYESQDPAHLPEWRELQTRWFQFGAFVPLFRSHGQFPYREIWNVAPEGTPYYASLAYYDKLRYTLMPYIYTLAADTYFKDGVIMRGLPMDFPHDPKVADLNDEYLFGPSFLVAPVTTFGATSRQVYLPAGTSWIDFNTGKRYDGGQTLEAAAPLERMPLFVRAGAIVPTTTVQQYVDQVPDAPLTVVVYTGADGSFSLYEDQGTDYGYEKGEYSRIPLQWNEAKGVLSIGKREGSWPGMLAKRTIKVRFVAGPREDAGALEPSVDATVQYSGKPLTVAFKGGKAK	PGPT0019340_47	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0019340-xylS|yicI-K01811	NA	NA
BMS020_08046	1710			hypothetical protein	ATGACATTCCGCGTTTGTTCCCAACCCCACCGACCGCGCCTGCGTGCGCTGGCCCCGGCGCTGCTGCTTGCGCTGGCCGGCTGCCAGGGCGGCCAGCCCGATTCCACCGCCAAGCCGGCCGCCGAGGCCGGCCGCGCCGCGCCGGCTGCGGCCGCTGCACCGGTCACGCAGCAGCCGATCCCGCAGTTCGTCAGCAAGGACGGCAAGCACGCGCTGATCGTCGATGGCGCGCCGTTCCTGATCCTTGGCGCGCAGGTCAACAATTCCAGCAACTATCCGGCCGCGCTCGAGCAGGTGTGGCCGGCGATGCAGGTGCTGGGCCCGAACACCGTGCAGGTGCCCATCGCCTGGGAGCAGGTCGAGCCGATCGAAGGGCAGTTCGACTTTTCCTTCGTCGACACGCTGCTGGCGCAGGCGCGCGAGCACAAGGTGCGGCTGGTGCTGCTGTGGTTCGGCACCTGGAAGAACAACGGCCCCAACTACACCCCGCACTGGGTGAAGACCGACAACCAGCGCTTCCCGCGCCTGGTCGCCCGTGATGGGCGCAGCATCGGCTCGCTGTCGCCGCATGCGCCGGCGACGCTGGAAGCCGATACCAAGGCGTTCGTGAAGTTCATGGAGCACCTCAAGCAGGCCGATCCGCAGCGCACCGTGATCATGGTGCAGCCGGAGAACGAGGCCGGTACCTATGGCAGCGTGCGCGACTTCTCGCCGATGGCGCAGCAGCTGTTCGACGGGCCGGTGCCGGACGCGCTGCTGAAGAAGCTCGGCAAGCAGCCCGGCAGCTGGAGCCAGGTGTTCGGCAAGGACGCCGACGAGTTCTTCCATGCCTGGTCGATCGGCCGCTTCATCGACCAGGTCGCCGCCGCCGGCAAGGCCGCGTATCCGCTGCCGATGTACGTCAACGCGGCGTTGCGCGGCCCGTTCAATCCCGGCCAGCCGGGCCAGTACGCCAGTGGCGGCCCGACCGACAACGTGCTCGACGTGTGGAAGGCCGCCGGTCCGCACATCGACCTGCTGGCGCCGGACATCTACATGCCCGAGTACACGATGTACACCACGGTGCTGGAGCGCTACGCGCGCGCCGACAACGCGCTGTTCGTCGCCGAGACCGGCAACCGCACCGAGTATGCGCGCTACCTGTATCCGACCCTGGGCCATGACGGCATCGGCTGGTCGGCGTTCGGCATCGATTACACGCGCTATTCCAACTATCCGCTCGGCGCCAAGCACGTCAACGAGGAAACGCTGGCGCCGTTCGCGCTTGGCTACGCCTCGGTGAACCTGGGCATGCGCGCGTTCGCCAAGGCCTCCTCCGAAGGCAAGCTGCACGGCGTGGCCGAGCAGCCGGGCGTGGCGGTGCAGGAGATCGCGCTCAACGACCGCTGGGCGGCGACGATCACCTACGGCGTGCCGCAGTTCTGGTTCCAGGGCCAGCCGCCGGGCAATCCCGAGCCGGTCGGCGGCGCGCTGATCGCCGAGCTTGGCCCGGACGAGTTCCTGGTCACCGCCGCGCACGCGCGCGTCACCTTCCATCCGGCCTCGGAGGGCACCGCCAACATGGTGCTGGACCGGGTCGAGGAGGGGCGCTACGACGACGCCGGGCAGTGGCAGTTCCAGCGCAACTGGAACGGCGACCAGACCGATTACGGCCTGAATTTCTCCAGCGTGCCGCAGCTGCTCAAGGTCCGCCTGGACACCTATCGATGA	MTFRVCSQPHRPRLRALAPALLLALAGCQGGQPDSTAKPAAEAGRAAPAAAAAPVTQQPIPQFVSKDGKHALIVDGAPFLILGAQVNNSSNYPAALEQVWPAMQVLGPNTVQVPIAWEQVEPIEGQFDFSFVDTLLAQAREHKVRLVLLWFGTWKNNGPNYTPHWVKTDNQRFPRLVARDGRSIGSLSPHAPATLEADTKAFVKFMEHLKQADPQRTVIMVQPENEAGTYGSVRDFSPMAQQLFDGPVPDALLKKLGKQPGSWSQVFGKDADEFFHAWSIGRFIDQVAAAGKAAYPLPMYVNAALRGPFNPGQPGQYASGGPTDNVLDVWKAAGPHIDLLAPDIYMPEYTMYTTVLERYARADNALFVAETGNRTEYARYLYPTLGHDGIGWSAFGIDYTRYSNYPLGAKHVNEETLAPFALGYASVNLGMRAFAKASSEGKLHGVAEQPGVAVQEIALNDRWAATITYGVPQFWFQGQPPGNPEPVGGALIAELGPDEFLVTAAHARVTFHPASEGTANMVLDRVEEGRYDDAGQWQFQRNWNGDQTDYGLNFSSVPQLLKVRLDTYR				NA	NA	NA	NA	NA
BMS020_08047	1932			hypothetical protein	GTGCGGCAACAGGCAGGACGTGCATGGCGGGCGCTGGCGCTCGCAACCGGGATGGTGATGGCGACGGGCGCGGCGCAGGCGGCGCCGACGCTGCCGCTGCTGTTCGCCGATGGCGCGGTGCTGCAGCGCGACCAGCCGATGCCGGTGTGGGGCTGGGCAACGCCCGGCGCGAGCCTGCAGGTCGGCTTCGACGGACACCAGGCGCAGGCGCGCGCCGATGCGCAGGGGCGCTGGAAGGTGCTGCTGCCGGCGCATGCCGCGGGCGGGCCGTATGCGCTGAGCGTGCGCGGCGACGGCGCCACGCTGACCGTGCGCGACGTGCTGGTCGGTGACGTGTGGCTGGCCAGCGGCCAGTCGAACATGGAATTCCCGCTGGCGCAGGCGCGCGACGCCGCGCGCGAGATCGCCGCGGCCCATGATCCGCAGCTGCGCCACTTCAAGGTGCCCAAGGCCTGGGCGACCAGCGCGCAGGCGCGCCTGCCCGGTGGCGACTGGCGTGCGGCGACGCCGGCCGATGCCGGGCAGTTCTCGGCGGTGGCCTACGTGTTCGCACGCGAGCTGCGCCAGGCGACCGGGGTGCCGATCGGCATCGTCGACAGCACCTGGGGCGGCAGCGCGATCGAGGCGTGGATGGATGCGCCGAGCCAGGGGCTGGAGCCGCAGGCGCTGGCCACGCAGATGGCCGCGCTCGATGCCGAGGATGCGCGCCAACGCGCGATCACCGAGCAGCGCGTGGCGCGCTGGCCGGCGGTGCACGGCGACCCGGACTGGTCGGCCGCGGCGCTGGACGATGGCGATTGGGACCGCATCGCGGTACCCGGTGCCTGGGAGAACGCCGGCTACCCCGGCATGGATGGCGTGGCCTGGTACCGGGTCAGCTTCACCCTGAGTGCGGCCGAGGCGCGTGCCGGCGTCAGCCTGGGCGTGGGCCGCATCGACGATGCCGACGTCACCTACGTCAACGGCCGCGAGGTCGGGCGCACCGCGCAGTACAACGTCGCCCGGGTTTACACGGTGGCGCCGGCGCAGCTGCATGCCGGCGAGAACCAGCTGGCGGTGCGGGTCACCGACCTCGGCGCCGGCGGCGGCATCCAGGGTGAGCCGGCGGCGCTGTTCGTGCAGCCGGTCGGCGGCGCCAGGCGCGCGTTCGATGGCCAGTGGCGCTTCCGCCCGGCGGCGGTCACCGTTTCGGCCGATGCCGACAAGAACCAGAAGCCGACCCTGCTGTACAACGCGATGATCCGCCCGCTGCAGGCGTTCCCGGTCAAGGGCGTGATCTGGTACCAGGGCGAGAGCAACGCGTTCAATGCCGCGACCGCGCTGAAGTACCGCGAGCAGTTCCCGGCGATGATCCAGGCCTGGCGTGCCGAACGCGGCCAGCCGCAGCTGCCGTTCCTGTGGGTGCAGCTGGCCAACTTCCGCAGCGGCGCCGATGCCGGCGACAGCAGCCCGTGGGCGCTGCTGCGCGAAGCACAATCGCGCACGCTGGCGCTGCCGGCCACCGCCCAGGCGGTGATCATCGATGTCGGCAATCCCGACGACATCCATCCCACCGACAAGCAGAGCGTCGGCCATCGCCTGGCGTTGGCCGCGCGCCACGTCGCCTATGGCGAGAGCCTGGCCTATGCCGCGCCGGCCTACGAGCAGGCGCGCTTCTCCGAGGACGCCGCGGTGGTCGGCTTCGACCTGCATGGCAGCGCGCTGGCGGTCCGCGGTGGCGGCAGCGAGGTGCACGGCTTCGCGCTGGCCGGGCAGGACCGGATCTTCCGCCCGGCCCGGGCGCGGATCGATGGCGACCACGTGGTGGTGCACGCCGATGGCGTGCCGCACCCGGTCGCGGTGCGCTACGGCTGGAGCGACAACCCGGCCGATGCCGACCTGGTCAGCCGCGAACAGCTGCCGGTTTCCCCTTTCCGATCCGATGCCTGGTGA	MRQQAGRAWRALALATGMVMATGAAQAAPTLPLLFADGAVLQRDQPMPVWGWATPGASLQVGFDGHQAQARADAQGRWKVLLPAHAAGGPYALSVRGDGATLTVRDVLVGDVWLASGQSNMEFPLAQARDAAREIAAAHDPQLRHFKVPKAWATSAQARLPGGDWRAATPADAGQFSAVAYVFARELRQATGVPIGIVDSTWGGSAIEAWMDAPSQGLEPQALATQMAALDAEDARQRAITEQRVARWPAVHGDPDWSAAALDDGDWDRIAVPGAWENAGYPGMDGVAWYRVSFTLSAAEARAGVSLGVGRIDDADVTYVNGREVGRTAQYNVARVYTVAPAQLHAGENQLAVRVTDLGAGGGIQGEPAALFVQPVGGARRAFDGQWRFRPAAVTVSADADKNQKPTLLYNAMIRPLQAFPVKGVIWYQGESNAFNAATALKYREQFPAMIQAWRAERGQPQLPFLWVQLANFRSGADAGDSSPWALLREAQSRTLALPATAQAVIIDVGNPDDIHPTDKQSVGHRLALAARHVAYGESLAYAAPAYEQARFSEDAAVVGFDLHGSALAVRGGGSEVHGFALAGQDRIFRPARARIDGDHVVVHADGVPHPVAVRYGWSDNPADADLVSREQLPVSPFRSDAW				NA	NA	NA	NA	NA
BMS020_08048	2307			Xyloglucanase	ATGACCGCGGTTTCCAGGACCATCCCCGAACGCGCCGTAGGAAGTGCGTCTCCGGACCGGTGTGCCGAACAGGCCGCCGGCCCGGTGTTTTCATTCAAGCGCCGTTGCCACGCCGCGGCTACGGCAGCACTGTTGGCGCTGCTGGCGCATGTGCCGGCCGTCGCCGCCGCGGCCCCGGCGGCTGCGCCGTACACCTGGCGCAATGTCGCGATCGGCGCTGGTGGCTTCGTCACCGGGGTGTTCTTCCATCCGGGCGAACGCGGCCTGGCCTATGCACGCACCGATATCGGCGGCGCCTACCGCTGGGATGCGGCGGCGCAGCGCTGGCTGCCGCTGCTGGACTGGCTGGCGCCGGCCGACGGCAACCTGATGGGGGTGGAGAGCCTGGCGCTGGACCCGTCCGACCCGGACCGGCTGTACCTGGCGGTCGGCACCTATCTCAATGCGCGGGTCGGCAATGGCGCGATCCTGCGCTCGTCCGACCGCGGCGCCAGCTTCCAGCGCACTGACCTGCCGTTCAAGCTTGGCGGCAACGAAATGGGGCGCGGCAATGGCGAGCGGCTGGCGGTGGATCCGCACGACGGCCGCGTGCTGTTGTTCGGTTCGCGTGCGCAGGGTCTGTGGCGCAGCGCCGACGCCGGCGCGCACTGGACGCGGCTGGAGAGCTTCCCGGCCGCGGCGAGCGCAGCCGAATCCACGGTGCAGACCAGCTGGGCCGGCGCGCAGCCGGTCGGCATCGTCGCGCTGTTGTTCGATCCGGCCAGCGGCCGCGCCGGCACGCCGACCCCGACCGTCTACGCGGCGGTCTCGACCCAGCGCACCAGCCTGTACGTCTCGCACGATGGCGGCATGCACTGGACACCGCTGCCGGATCAGCCGACCGGACTGCGGCCGACGCGGATGGCGCTGGCCGGCGATGGTGAACTGTACGTGGCCTACGGCGATGCGCCGGGCCCGAACGTGATGAACAACGGCGCGCTGTGGCGCTTCTCCAGCGCGTCTGGCGCATGGAAGGACATCAGCCCGGCGCCGCAGTCCAGCGACCTGCAGCGCGATGGCTTCGGCTGGGGTGCGGTGGCGGTGGATCCGGCCAATCCGAAGGTGCTGATCGCCTCGACGTTCTGCCGCTACGCGCCGCACGAGGAGATCTTCCGCAGCATCGATGGCGGCGAGCACTGGACCCCGGTGCTGGGCGATGCGCAGTTCGACCATAGCGTGGTGCCGTGGACCGCGCAGGCGTTCCCGCACTGGATCGCCTCGCTGGCGATCGACCCGTTCGATCCGGACCATGCGCTGTTCGTCACCGGTTACGGGCTGTGGGCCTCGCGCAACCTGAGCCAGGCCGGCGCCGCGCCGGTGCGTTGGGGCTTCGACGATGCCGGGCTGGAGGAAACCGCGGCGCTGGCGCTGGCCAGTCCGTCGCAGGGCGCGCACCTGGTCAGCGGGCTGGGCGACATCGACGGCTTCCGCCATGACGATCTGGACCGCTACACGCTGCAGTTCGGCGGCCCGCGGCTGACCAATACCGAGGCGCTGGCCTGGGCCGGGCAGGCGCCGCAGGTGCTGGTGCGCGCCGGCCGCATCCGCCATCGCGATGGCGAGGTGCGGGCGCTGTATTCGCGTGATGGCGGGCGCAGCTGGAGCGCGTTCGCCAGCGAGCCGCCGCAGGGCGAGGGCGCCGGCCGCATCAGCGTGTCGGCCGACGGTACGCGGGTGATCTGGACCCCGGACAAGGCCACGCAGGCCTGGATCAGCGCCGACTTCGGCGGGCATTGGCAGGCGGTGAAGGGCGTGCCGGGCACCGCCGTGATCGAGGCCGACCGGGTCGATCCGGGCATCTGGTACGGCTTCGATCCGGCCAGTGGCGGGCTCTATGTCAGCGGCAACGGCGGCGTGGAATTCAAGCAGGCCGGCGGCGGCACCGGCGAGATCGGGCCGTGGTACCGCGCCGAGCTGCGTCCGTCGCCGCTGCAGCCGGCCACCGTGTATGTGACCGCGGCCTGGCACGGCCTGCTGCGCTGGTCGCCGAAGGGGCTGCAGCGCCTGCCGGGCGTGGAGAACGCGCTGTCGCTGGGGCTGGGCGCGCCGCGCCCGGGCAGCAAGGTGCCGACCTTGTTCGTGTACGGCCAGGTGGCCGGCAGCACCGGCCTGTTCCGCTCCGACGACGACGGGCGGCATTGGACCCGGATCGACGACGACGCGCACCGCTATGGCGGCATGCGCCTGGTCACCGGCGATCCGCGCGTGTACGGCCGGGTGTATTTCGCCGCGGAAGGGCGCGGCGTGATCTACGGCGATCCGAACTAG	MTAVSRTIPERAVGSASPDRCAEQAAGPVFSFKRRCHAAATAALLALLAHVPAVAAAAPAAAPYTWRNVAIGAGGFVTGVFFHPGERGLAYARTDIGGAYRWDAAAQRWLPLLDWLAPADGNLMGVESLALDPSDPDRLYLAVGTYLNARVGNGAILRSSDRGASFQRTDLPFKLGGNEMGRGNGERLAVDPHDGRVLLFGSRAQGLWRSADAGAHWTRLESFPAAASAAESTVQTSWAGAQPVGIVALLFDPASGRAGTPTPTVYAAVSTQRTSLYVSHDGGMHWTPLPDQPTGLRPTRMALAGDGELYVAYGDAPGPNVMNNGALWRFSSASGAWKDISPAPQSSDLQRDGFGWGAVAVDPANPKVLIASTFCRYAPHEEIFRSIDGGEHWTPVLGDAQFDHSVVPWTAQAFPHWIASLAIDPFDPDHALFVTGYGLWASRNLSQAGAAPVRWGFDDAGLEETAALALASPSQGAHLVSGLGDIDGFRHDDLDRYTLQFGGPRLTNTEALAWAGQAPQVLVRAGRIRHRDGEVRALYSRDGGRSWSAFASEPPQGEGAGRISVSADGTRVIWTPDKATQAWISADFGGHWQAVKGVPGTAVIEADRVDPGIWYGFDPASGGLYVSGNGGVEFKQAGGGTGEIGPWYRAELRPSPLQPATVYVTAAWHGLLRWSPKGLQRLPGVENALSLGLGAPRPGSKVPTLFVYGQVAGSTGLFRSDDDGRHWTRIDDDAHRYGGMRLVTGDPRVYGRVYFAAEGRGVIYGDPN	PGPT0018630_142	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCANASE,PGPT0018630-xghA-K18578	NA	NA
BMS020_08049	123			hypothetical protein	ATGTCGAAGCCGTCCTTCAACGCGCCGCCGCAGCGGATCGCGCGCCAGTCGCCACGCATGCCGGTGCATGCCGGGGCCGGCACGCCGCACCGCACGCCGGGGCGGTGGCAGGCGGCGGCATGA	MSKPSFNAPPQRIARQSPRMPVHAGAGTPHRTPGRWQAAA				NA	NA	NA	NA	NA
BMS020_08050	2919			hypothetical protein	ATGTCGATTCGCTTGGCCTCCACGCGGCCGGGGATTTCCGCGCGTGCGCCGCATGCCCACACCGTCCGTCGTTCACTGCTGGCGCTTGGCGTCTGGCTGATCCTGGCCCCCCTGGCACAGGCCCAGGACGCCGCCACCGCGACCCAGGACGCCGATTCCAAGGCTGCCGATACCAGCAACGGCAAAGCGATCGATCTCGATTCGGTCGAAGTGCGTGGCGTGCGCGCCAGCCTGATCAAGTCGCAGGTGATCAAGCGCGATTCGGACCAGATCGTCGACGCGGTCAGCGCCGAGGACATCGGCGCGCTGCCGGACCGCAGCGTCACCGAGACGTTGCAGCGCGTGTCGGGCGTGACCATCGACCACTTCATGGCGCGCAACGACCCGGACCACTTCTCGGCCGAGGGCAGCGGGGTGATGATCCGCGGCCTGACCCAGGTGCGCGGCGAGCTCAACGGGCGCGACATCTTCAGCGCCAGCTCCGGGCGCGGGCTGAGCTTCGAGGACGTGCCGGCCGAGCTGATGGCCGGCGTGGACGTGTACAAGAACCCGTCGGCGGAGATCATCGAGGGCGGCCTCGGCGGCACGGTCAACCTGCGCACGCGCATGCCGTTCGACAGCGAGGGGCGGGTGATCGGCGGCAACGTCGACATGAACTACGGCGACTTCAGCAAGAAGTACAAGCCGTCCGGCTCGTTCCTGTACAGCGACCGCTGGGACACCGGCATCGGCGAGATGGGCTTCATGCTGGACGTGGCGTACTCGGAGCTGGCCACGCGCACCGACGGCATCCAGGTCGAGCCCTACACCCGGCGCACCGACGATGCGGTGCTGGCCGGCACCGACCGCGACGAGGTCTACGTGCCGGGCGGCATGAACTGGCGCACGCTGGACTTCGACCGCAAGCGCAAGGGCGTGGCGGCGGCGTTCCAGTGGCGTCCGGACGATGCCACCGAGATCTATGCGCAGTACCTGCGTTCCAGCTACGAGATGCAGTGGCTGGAACATGCGGTGCTGTTCGGCTCCGATGCCGACACCATCGTGCCGGCCGACGGCACCACCTTCAGTTATGACGACAACGGCGTGTTCGTCAGCGGCACGCCCGCAGCCGACAGCAGTGGCAGCCCGATCCGGCTCAACACCGATACCCGCTACGCCTGGCAGAAGACCACCACGTCGGACCTGTCGGTCGGCTTCAAGCACGACCTGACCGATCGCATCAAGGTCAGCGCCGATGCGCAGCTGGTGCAGTCGGAAAGCAACGCGCTGGACTTCACCGTCTACAACTCGACCTATGTCGACGGCCTGAGCTACGACCTGTCGGGCAGCTATCCCAGCGTCACCACCAGCAGCTCCACCACCGACGCCAGCGACTATTTCTGGTACGCGGCGATGGACCACCACGCGCAGAACCGCGCACGCGAGCTGGCCCTGCGCGCCGACCTGGAGTATTCGTTCTACGACAGCGACTGGCTGCGCTACGCCAAGTTCGGCCTGCGTTCCACCGACCGCGACCAGACCAACAAGAGCTCGGGCTACAACTGGGGCGCGATCAGCGACAGCTGGGCCACGGTCGATTCGGACAGCGGCCTGGCCGACATCAGCAGCTACCTCAGCGGCTACTCGCAGCTGTATTCGTTCTCGAACTTCTACAAGGGCAAGGTCAGCGTTCCCAGCAGCCTGTATTTCCCCGCTGCCAGCCTGGTCTCCAACTACAGCCAGGCGGTCGATCTGATCCAGTCGATCTACGCCTCGCGCGGTTGGGGCTGGTCGCCCGACAGCTATGGGGTGGCCGACATCAACCGCCAGTCCGAACGCACCCAGGCCGGGTACGCGATCCTCTATTTCGGCAACGACGAGGCGTTCGCCTCGGGCGTGGATGGCAACATCGGCGTGCGCGTGGTGCAGACCAAGACCCAGGCCGACGGCTACGGCCAGTATCCGGACCTGACCGGGTCGGTGGCGTCCAGCGACCTGCAGGCGCAGTACTACGGGCAGTATTTCGGCATCAGCTCGTCGGGCAGTTACACCAACGTGCTGCCGAGCTTCAACCTGCGGGTGCGGCTGAGCGACAGCCTGCAGTGGCGCTTCGCCGCCTCCAAGGCGATGGCGCGCCCGGACTACAGCCAGCTGCAGGCTTACCTGCAACTGGCCGCGACCGTCGACGACGACGGCAACGTGACCAAATGGACCGGCACCGCGGGTAATCCGGACCTGAAGCCGATGACCGCCAACCAGCTGGACATGGCGCTGGAGTGGTACTTCGACAGCAGCGACATGCTGTACGCGACGTTGTTCTACAAGCGCGTGCACGACTACTTCGCCAGCCAGACCGAGACCGAGACCTATGGCGGGCAGGACTACCTGGTCACGCGCCCGTACAACATGGACAAGGGCACCATCCAGGGCGCCGAAGTGGGCTACACCCAGTTCTTCGATTCGTTGCCGGGCTGGATGAGCGGCTTCGGCGTCACCGCCAATTTCACCTATGTCGACAGCGAGGGCGGGCGCAACACCGCGACCGATCCGTACAGCGACGCCACCGTCGACGGCGTGGTGCTGCCGCTGGAAGGCCTGTCGCGGCGCAGCTACAACGTCGCCGGCATCTACGAGAAGGGGGCGATCTCGGCGCGCCTGGCCTACAACTGGCGCTCGCGCTACCTGCTGACCACCAGCGATGCGGCGACCAACCTGCCGACCTGGGCCGACGACTACGGCCAGCTCGATGCCTCGGTGTTCTACCGCTTCAACCCGCATGTGCAGCTGGGCCTGCAGGTCAACAACATCACCAACGCCGAAACCCGGGTGCTGATGGGGCCGACCGTCTACGACGACGGCGAGGTCGACTACCGCCTGTACACCCGCGGCTGGTTCGTCACCGACCGGCGTTACTCGATGGTGCTGCGCATGAACTGGTAA	MSIRLASTRPGISARAPHAHTVRRSLLALGVWLILAPLAQAQDAATATQDADSKAADTSNGKAIDLDSVEVRGVRASLIKSQVIKRDSDQIVDAVSAEDIGALPDRSVTETLQRVSGVTIDHFMARNDPDHFSAEGSGVMIRGLTQVRGELNGRDIFSASSGRGLSFEDVPAELMAGVDVYKNPSAEIIEGGLGGTVNLRTRMPFDSEGRVIGGNVDMNYGDFSKKYKPSGSFLYSDRWDTGIGEMGFMLDVAYSELATRTDGIQVEPYTRRTDDAVLAGTDRDEVYVPGGMNWRTLDFDRKRKGVAAAFQWRPDDATEIYAQYLRSSYEMQWLEHAVLFGSDADTIVPADGTTFSYDDNGVFVSGTPAADSSGSPIRLNTDTRYAWQKTTTSDLSVGFKHDLTDRIKVSADAQLVQSESNALDFTVYNSTYVDGLSYDLSGSYPSVTTSSSTTDASDYFWYAAMDHHAQNRARELALRADLEYSFYDSDWLRYAKFGLRSTDRDQTNKSSGYNWGAISDSWATVDSDSGLADISSYLSGYSQLYSFSNFYKGKVSVPSSLYFPAASLVSNYSQAVDLIQSIYASRGWGWSPDSYGVADINRQSERTQAGYAILYFGNDEAFASGVDGNIGVRVVQTKTQADGYGQYPDLTGSVASSDLQAQYYGQYFGISSSGSYTNVLPSFNLRVRLSDSLQWRFAASKAMARPDYSQLQAYLQLAATVDDDGNVTKWTGTAGNPDLKPMTANQLDMALEWYFDSSDMLYATLFYKRVHDYFASQTETETYGGQDYLVTRPYNMDKGTIQGAEVGYTQFFDSLPGWMSGFGVTANFTYVDSEGGRNTATDPYSDATVDGVVLPLEGLSRRSYNVAGIYEKGAISARLAYNWRSRYLLTTSDAATNLPTWADDYGQLDASVFYRFNPHVQLGLQVNNITNAETRVLMGPTVYDDGEVDYRLYTRGWFVTDRRYSMVLRMNW	PGPT0003790_1403	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_08051	2739			hypothetical protein	ATGTCAGTGCAGCATCGCCACGTTCCGGCAGGCCGGACCGTGGGCCAGCGTTCCATCCGTGAGTTCCGCCGTTCGATCATGGCGGTGAGCGTCGCCGCGCTGCTGAGCGCGAACGCCTACGCGCAGGATGCGACCACGCCGCAGGACGCCACGACCGATTCGGCCGCGACCCAGCTCGATACCGTGCAGGTCACCGGCACCCGTTCCAGCGTGACCAAGGCGCAGCTGGTCAAGCAGAATTCCGAGCAGATCGTCGATTCGATCGTCGCCGAGGACATCGGCAAGCTGCCCGACAACAACGTGGCCGAGGCGCTGCAGCGCATCTCCGGCATCCAGATCTCGCGCGCCTACGGCGAGGGCAGCACCATCGCGATCCGCGGCCTGACCCAGGTCCGCACCGAGCTCAACGGCCGCGACATCTTCACCGCCAACGACGGCCGCGGCCTGAGCTTCGAGGACGTGTCGGCCGAGCTGCTGGCTGGCGTCAACGTCTACAAGAATCCCTCGGCCGACATGATCGAAGGTGGCCTCGGCGGCACCGTCGACCTGCGCACCCGTCTGCCGTTCGACTACGACGGCATGAAGGTCGCCGGCAGCGTGCAGTACAACTACTACGACCTGGCCGACAAGGGCGAGACCGCGTTCTCCGGGCTGTTCTCCAACCGCTGGAACACCGGCATCGGCGAGATCGGCCTGCTGGTGAACCTGTCGCAGCAGGACGGCTCGTTCCGCCAGGACACGATCTCGATCGAGCCGTGGTGGGTACAGACCGACATGCCGGGTTACGAAGGCCAGGAGGTCTACGTGCCGCGCGGCGCCGGCATCAACACCACCGAAGGCGATCGCAAGCGCAAGACCGGTTCGGCCGCGGTGCAGTGGCGTCCGAGCGACGATGTCGAGGTCTACGCGCAGGTGCTGCGTTCGGACTACGACTTCCAGTGGCACGATTACTCGTTCTTCGTGTACGGCAACGGCAACCCGATGATCGGCGACAGCAACATCGTCGTGAACGACAACAACGAGTTCGTCAGCGGTACGTTCCGCGACACGCCGGCCGATTCCAACACCAGCCTGACCACGCGCCATTCGGTCACCACCGACTACTCGGCGGGCGCCAAGTGGACGGTGAACCCGAACCTGACGCTGAGCACCGACCTGCAGTACGTGGACGCGACCACCAAGGGCACGCGCTACATCCTGGCCACCGGCATGAACAACGTGCCGTACTACACCATCGACCTCAGCGGCGATCTGCCCAAGCTGTACGTCACCGACGCCTCCGGCAGCCAGGGCTACCTGTCCGACGCCTCGAACTACGTCGGCTGGAAGTGGCACCTGGACAACAAGGACGACAACAAGGGCACCGAGTTCGCCTGGCGCGCCGACATGGACCTGGCGTTCGATGATGGCTTCGCGCGCAGCTTCAAGGCCGGCGTGCGTTACACCGACCGCGATGCGGAGAACAAGGGCAACGTGTGGCGCTTCATGTGCCTCAACGGCTGCGCGGGCGCGGCGTACTCCGATTACCCGGACATCGCGCTGGTGCAGAACCCGATCACCGATTTCTTCCGCGGTGACAGCTACACCTTCGGCCCGACGCTGACCGCGTCCGACGCGGCGGTGGAGAACTACGCGCAGACGCTGGCGGCGTTCGGCGCCGACCCGATCGTGTTCGGCCCGACCAACATCAACACCCAGAACGAGAAGACCTACACCGCGTACGGTCTGCTGCGCTTCGGCGTGGACGATGCGGCGATTCCGTTCGACGGCAACATCGGCGTGCGCGTGGTACGCACCGAGGTGTCGTCCGACGGCGTGCGCACCGCGACCGCGTCCGAGGGTGGCGGCCTGCTGCCGATCAACGTCGAGCAGACCTATACCGACGTGCTGCCGAGCCTGAACCTGCGCTGGTTCCTCACCGACAGCCTGCAGTGGCGCTTTGCCGCCTCGCGCGGCCTGTCGCGCCCGGGCTTCGACAAGCTCAACCCGAACCTGAGCCTGAGCTCGACCAACGTCGGCGGCGTCGCCGTGCGCACCGGTTCGGCCGGCAATCCGAACCTGTCGCCGATGAAGGCCGACCAGTTCGATACCGCGCTGGAGTGGTACTTCGGCAAGGGCTCGATGGCCTACGGCACGGTGTTCTACAAGAAGGTCAAGGGCTTCATCGCCAATGCGGTGGTGCGCGAGCAGTACCTGGACGACAACGGCAACCTGGTCGACTGGGACATCACCCGCCCGGTCAACGGCGACGAAGGCACCATCAAGGGCGTCGAGGTCGGCTACACCCAGTTCTTCGACTTCCTGCCGGGTTGGCTGAGCGGCTTCGGCCTTCAGACCAACTACACCTACGTCGATTCGGAAGCGCCGAGCCCGAGCGCGACCGACAACGAAGGCAATCCGCTGATCGTGCCGCTGGAAGGCCTGTCCAAGAACAGCTACAACGTGATCCTGAGCTACGAGCTGTCCAAGTTCCAGGCGCGCGTGGCCTACAACTGGCGCAGCGACTGGCTGGTGACCACGGCCGGCAACGGCACCGGCAACCTGCCGGTGTACAACAAGGGCTTCGGCCAGCTCGACGCCTCGTTCCGCTACAACATCAACGATGTGTGGTCGGTGTCGCTGGACGCGGTGAACCTGCTCGACACCCGTCTGGAGAGCTACACCGGTTTCGAATCGCGCTACCGCGATTTCGTGATCAACGATCGCCGTTACGGCATGTCGGTGCGCGCCAGCTTCTGA	MSVQHRHVPAGRTVGQRSIREFRRSIMAVSVAALLSANAYAQDATTPQDATTDSAATQLDTVQVTGTRSSVTKAQLVKQNSEQIVDSIVAEDIGKLPDNNVAEALQRISGIQISRAYGEGSTIAIRGLTQVRTELNGRDIFTANDGRGLSFEDVSAELLAGVNVYKNPSADMIEGGLGGTVDLRTRLPFDYDGMKVAGSVQYNYYDLADKGETAFSGLFSNRWNTGIGEIGLLVNLSQQDGSFRQDTISIEPWWVQTDMPGYEGQEVYVPRGAGINTTEGDRKRKTGSAAVQWRPSDDVEVYAQVLRSDYDFQWHDYSFFVYGNGNPMIGDSNIVVNDNNEFVSGTFRDTPADSNTSLTTRHSVTTDYSAGAKWTVNPNLTLSTDLQYVDATTKGTRYILATGMNNVPYYTIDLSGDLPKLYVTDASGSQGYLSDASNYVGWKWHLDNKDDNKGTEFAWRADMDLAFDDGFARSFKAGVRYTDRDAENKGNVWRFMCLNGCAGAAYSDYPDIALVQNPITDFFRGDSYTFGPTLTASDAAVENYAQTLAAFGADPIVFGPTNINTQNEKTYTAYGLLRFGVDDAAIPFDGNIGVRVVRTEVSSDGVRTATASEGGGLLPINVEQTYTDVLPSLNLRWFLTDSLQWRFAASRGLSRPGFDKLNPNLSLSSTNVGGVAVRTGSAGNPNLSPMKADQFDTALEWYFGKGSMAYGTVFYKKVKGFIANAVVREQYLDDNGNLVDWDITRPVNGDEGTIKGVEVGYTQFFDFLPGWLSGFGLQTNYTYVDSEAPSPSATDNEGNPLIVPLEGLSKNSYNVILSYELSKFQARVAYNWRSDWLVTTAGNGTGNLPVYNKGFGQLDASFRYNINDVWSVSLDAVNLLDTRLESYTGFESRYRDFVINDRRYGMSVRASF	PGPT0003790_2789	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_08052	2925			hypothetical protein	ATGTCGATTTTCGTGTGCCGTACGTCGGCGGGGGCGGGCGTGCGCCCGCGTCGTACCCAACTGGTCTCGTCGCGCCGCCTGCTGGCGGTGGCGATCGGGCTGCAGCTGGCGTTGCCGGCCTTCGCGCAGGACGCGCCCGCCACCGAGCAGGAAGCCGCAGCAGACAAGCGCAAGGCAACCAACCTCGACGCGGTCGAGGTGCGCGGCGTGCGCGCCAGCCTGATCAAGTCGCAGGTGATCAAGCGCGACGCCGAACAGATCGTAGATTCGGTCAGCGCCGAGGACATCGGCGCGCTGCCCGACCGCAGCGTCACCGAGACGCTGCAGCGCGTGTCGGGCGTGACCATCGACCACTTCATGGCGCGCAGCGACCCCGACCACTTCTCCGCCGAAGGCAGCGGCGTGATGATCCGCGGCCTGACCCAGGTGCGTGGTGAGCTCAACGGTCGCGACATCTTCAGCGCCGCCAGTGGACGCGGGCTCAGCTTCGAGGACGTGCCGGCCGAACTGATGGCCGGCGTGGACGTGTACAAGAACCCGTCGGCGGAGATCATCGAAGGCGGCCTGGGCGGCACGGTCAACCTGCGCACGCGCATGCCGTTCGACCAGGAAGGGCGGCTGATCGGCGGCACCGCCGACGTCAACTACGGCGACTTCGCCAAGAAGTACAAGCCGTCGGCCTCGTTCCTGTACAGCGATCGCTGGAAGGTCGGCGATGGCGAGATGGGCTTCATGTTCGACATTGCCCATTCCGAGCTGAGCACGCGCACCGACGGCATCCAGGTCGAGCCGTTCGTGCGCCGCACCGACGCGGCGGCGCTGGCCGGTACCAGCTTCAGCGAGGTCTACGTGCCGGCCGGCGTGAACTGGCGCCAGCTCGACTTTGAACGCAAGCGCGACGGCGTCGCGGCGGCGTTCCAGTGGCGCCCCAGCGATGCCACCGAGATCTACGTGCAGTACCTGCGCTCAAAGTACGAGATGAACTGGCAGGAGCGCGCGGCGTTCTTCAACGACAGCAACAACAGCATCACTCCGGCCGACGGCACCACCTTCGAGTACGACGACGAAGGGCGCTTCCTCAGCGGTTCGCCGCAGTCCGATTCCTGGCGCGGCACCCTGACCGGCGACGGCGTGCGCTTCAATACCGACAACCGCTACGCGACCCAGACCACGACCACCTCGGACCTGTCGGCCGGCTTCAAGCACTACCTGACCGACAACCTGGTGGTGAAGGGAGACATGCAGCTGGTGCAGTCCGACAGCGAGCAGCTGGACTTCACCGTGTTCACCGCGACCTACCTGCCGGGCCTGAGCTACGACCTGTCCGGCAAGTATCCATCGGTGACGATCGCCGACCCGAGCTATGCCGCCGATCCGTCCAACTATTTCTGGGCCGCGGCGATGGACCACCTGGCCAAGAACCGCGGGCGTGAGCTGGCCACGCGCGCCGACGTCGAATACACCTTCCAGGACAGCGACTGGCTGCGCATGTTCCGTGTCGGCATCCGCGCCACCGACCGCACCCAGACCAACAAGAACTCCGGCTACAACTGGGGCGTGCTCAGCGATAACTGGGCGGCGGTGCCGGGCGCGACCAACGGCCTGGCCGACCTGGCCAGCTACATGACCTCGTCGGCGTCGCTGTACACGTTCTCCAACTTCTTCCGCGGCAAGGTCAACATCCCCGGTGGCGTGTACATGCCGCTGGACGCGCTGGTGAAGAACTACGGGTCGACCTCGGCGATGCTGGAGGCGCTGGTCGCGCTGCGCGGCTGGGGCTGGGCGCCGGACCAGTACAACCTGCAGGACACCAACCGCCAGTTCGAGCGCACCCAGGCCGCCTATGCCGCGCTGTACTTCGGCAACGACGATGCGGGGATCGACGGCAACATCGGCGTGCGCGTGGTGCAGACCCGCGCCGAGGCCGACGGCTATGGCCAGTACCCGGACACCACCGCGCTGAATGTCTCCGACGAGGTCAAGGCGCTGTACTACGGTCAGTACTTCGAGAACGATTCGCACGGCAACAGCTACACCAACGTGCTGCCGAGCCTGAACCTGCGCTTCAAGCTGACCGAGGCGCTGCAGCTGCGCTTCGCCGCGTCCAAGGCGATGGCGCGGCCGGACTACACCCAGTTGCAGCCGTACCTGCTGCTGGCGGTGACCACCGACGACAACGGCGACATCACCGAGTACACCGGCACCGCTGGCAATCCGGACCTCAAGCCGATGCGCGCCAACCAGTACGACGCGGCGGTGGAGTGGTACTTCGACACCAGCGACATGCTGTACGCGACGTTGTTCTACAAGAGCGTCAAGGACTACTTCGCCACCCAGACCCGCACCGAGAGCTATGGCGGCGAGGACTGGCTGGTGACCCGTCCGTACAACATGGACAAGGGCATCATCCGTGGCTTCGAACTCGGCTACACCCAGTTCTTCGACTCGCTGCCGGGCTGGCTGAGCGGCTTCGGCGTCAATGCCAACTTCACCTTCGTCGACAGCCGCGGCGGCGTGAACACCTCGACCGATCCGTACACCAACACCACGGTCACCGGTGTCTCGCTGCCGCTGGAAGGCCTGTCGCGGCGCAGCTACAACCTGGCGGCGATCTACGAGAAGGGGCCGATCTCGGCGCGCCTGGCCTACAACTGGCGTTCGCGCTACCTGCTGACCACCAGCGACGTGGCGACCAAGCTGCCGACCTGGACCGACGATTACGGCCAGCTCGACGCGTCGGTGTTCTATCGCTTCGATACGCACTGGCAGCTCGGCATCCAGGCCAACAACCTGACCAACTCGGTGACCAAGGTGCTGATGGGTCCGACCGTCTACAGCGACGGCGAAGTGGACAGCAAGCTCTACACCCGTGGCTGGTTCGTCAACGACCGCCGCTACTCGCTGGTGCTGCGCGCGAACTGGTGA	MSIFVCRTSAGAGVRPRRTQLVSSRRLLAVAIGLQLALPAFAQDAPATEQEAAADKRKATNLDAVEVRGVRASLIKSQVIKRDAEQIVDSVSAEDIGALPDRSVTETLQRVSGVTIDHFMARSDPDHFSAEGSGVMIRGLTQVRGELNGRDIFSAASGRGLSFEDVPAELMAGVDVYKNPSAEIIEGGLGGTVNLRTRMPFDQEGRLIGGTADVNYGDFAKKYKPSASFLYSDRWKVGDGEMGFMFDIAHSELSTRTDGIQVEPFVRRTDAAALAGTSFSEVYVPAGVNWRQLDFERKRDGVAAAFQWRPSDATEIYVQYLRSKYEMNWQERAAFFNDSNNSITPADGTTFEYDDEGRFLSGSPQSDSWRGTLTGDGVRFNTDNRYATQTTTTSDLSAGFKHYLTDNLVVKGDMQLVQSDSEQLDFTVFTATYLPGLSYDLSGKYPSVTIADPSYAADPSNYFWAAAMDHLAKNRGRELATRADVEYTFQDSDWLRMFRVGIRATDRTQTNKNSGYNWGVLSDNWAAVPGATNGLADLASYMTSSASLYTFSNFFRGKVNIPGGVYMPLDALVKNYGSTSAMLEALVALRGWGWAPDQYNLQDTNRQFERTQAAYAALYFGNDDAGIDGNIGVRVVQTRAEADGYGQYPDTTALNVSDEVKALYYGQYFENDSHGNSYTNVLPSLNLRFKLTEALQLRFAASKAMARPDYTQLQPYLLLAVTTDDNGDITEYTGTAGNPDLKPMRANQYDAAVEWYFDTSDMLYATLFYKSVKDYFATQTRTESYGGEDWLVTRPYNMDKGIIRGFELGYTQFFDSLPGWLSGFGVNANFTFVDSRGGVNTSTDPYTNTTVTGVSLPLEGLSRRSYNLAAIYEKGPISARLAYNWRSRYLLTTSDVATKLPTWTDDYGQLDASVFYRFDTHWQLGIQANNLTNSVTKVLMGPTVYSDGEVDSKLYTRGWFVNDRRYSLVLRANW	PGPT0003790_1403	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_08053	957	gbpR_3		HTH-type transcriptional regulator GbpR	ATGGCAACAACCGTCAATCCCTGGTTCAACGCATCGCGGCTGAAAACCCGCCAGCTGCTGCTGCTGTTGCACCTGCACGAACAACGCTCGGTGCTGCGCGCCGCCGAGGCCGCGAGCATGACCCAGCCGGCCGCGTCCAAGCTGCTGGCCGAGATGGAGGACATGCTCGGGGTTAAGCTGTTCGAGCGCCACGCCCGTGGCGTCGAGCCGACCTGGTACGGGCAGGTGCTGATCCGCCGCGCGCGCGCGGCGATGTCCGAGATCGGCCGCGCCCAGGAGGAGATCGCCGCGCTGCGCAGCGGGCGCATGGGCCAGGCGTCGATCGGCACCGTGGTCAACCCGGGCACCAACCTGGTGCCGCAGGCGATCGCCGAGGTCAAGCGCGAGTTCCCCGACATCCTAGTGCGGGTCGAGATGGACTACAGCCGGCCGCTGGTGGCCAAGCTGCTCGATGGCCAGCTGGATATCGTGATCGGCCGCATCCTCGGGCCGGAGGGGGCGGGCGAGCTGGAGTTCGAGCCGCTGGCCGACGAGCCGCATTCGGTGATCGCCCGTGCCGGCCATCCGCTGGCCAGCCGCAGCGGGCTGCAGCATGCCGACCTGCTGCGCTACGGCTGGGTGCTGCCGCCGGCCGACAGCGTGCTGCGTGCGCGACTGGATTCGATGTTCATGGAGCACGGCCTGCACGCGCCGACCAACGCGATCGAGACCTCCTCGCTGCCGCTGACCCAGAACCTGCTGCGTGGCAGCGACCTGCTGACCGCGCTGCCGACTGACTCGGTGGCGCCGCTGGTGCAGGCCAAGCTGCTGACCGTGCTGCCGATCGAACTGGGGGTGCGGATGGAATCGTTCGGGATCATCCGTCGCCGCGACTACATCCTGCCGCCGGGCGCGGAGCGGATCCTGCACGCGCTGCGTTCGACCGCACGCCGGCTCTATCCCGAGCTGAGGACGTAA	MATTVNPWFNASRLKTRQLLLLLHLHEQRSVLRAAEAASMTQPAASKLLAEMEDMLGVKLFERHARGVEPTWYGQVLIRRARAAMSEIGRAQEEIAALRSGRMGQASIGTVVNPGTNLVPQAIAEVKREFPDILVRVEMDYSRPLVAKLLDGQLDIVIGRILGPEGAGELEFEPLADEPHSVIARAGHPLASRSGLQHADLLRYGWVLPPADSVLRARLDSMFMEHGLHAPTNAIETSSLPLTQNLLRGSDLLTALPTDSVAPLVQAKLLTVLPIELGVRMESFGIIRRRDYILPPGAERILHALRSTARRLYPELRT				NA	NA	NA	NA	NA
BMS020_08054	741	ucpA_1		Oxidoreductase UcpA	ATGACGCAGCGGCTGTCCGGCAAATCCATCATCGTCACCGGTGCCGCCAGCGGCATCGGCGCGGCCACCGCGCAGCTGTTCGCCGACCACGGCGCGCTGGTCACCGGGCTGGATCGCAACACGCCGCTCGCCGCCGATCCGCGCGTGCACTACCAGCTGGCCGACATCACCGATGTCGCCGCGGTCGATGCCGCCGTCGCCGCGGTCGTGCAACGCCACGGCCGGGTCGACGCGTTGATCAACAACGCCGGCGCCGACGTCTTTTCCGATCCGCTGCAGCTCGACGATGCCGACTGGCAGCGCTGCCTGGAGCTCAACCTCAAGGGCGCCTGGAACCTGTGCAAGGCGGTGCTGCCATCGATGCTGGCCCAGCAGGCCGGCAGCATCGTCAACATCGCCTCGGTGCACGGCCACAAGATCATCCCGCATGCCTTCCCGTACCCGGTCGCCAAGCACGGCCTGATCGGCCTGAGCAAGGCACTGGGCATCGAGTACGCCGCGCACGGCATCCGCGTGAACTCGATCTCGCCGGGGCTGATCCTGGTGCCGCGCATCGAGGCCTGGTTCGCCCGCGAACCCGGCGCGCGCGAACGCCAGACCGAGCTGCTGCCGCCCAAGCGCATCGGTACGCCCGAGGAAGTGGCCTACACCGCGCTGTTCCTGGCCAGCGACGAGGCCCGTTTCATCAATGCCACCGACATCCTCATCGACGGCGGCCGTTCCCAGCTCTACCACGAGTAA	MTQRLSGKSIIVTGAASGIGAATAQLFADHGALVTGLDRNTPLAADPRVHYQLADITDVAAVDAAVAAVVQRHGRVDALINNAGADVFSDPLQLDDADWQRCLELNLKGAWNLCKAVLPSMLAQQAGSIVNIASVHGHKIIPHAFPYPVAKHGLIGLSKALGIEYAAHGIRVNSISPGLILVPRIEAWFAREPGARERQTELLPPKRIGTPEEVAYTALFLASDEARFINATDILIDGGRSQLYHE				NA	NA	NA	NA	NA
BMS020_08055	639	dgoA_3	COG0800	2-dehydro-3-deoxy-6-phosphogalactonate aldolase	ATGTCCAACCACGAGCGCCTGTTCAAGCTGCCGCTGGTCGCGATCCTGCGCGGCATCACGCCTGAAGAGACCCTGGCGCATGTCGGCGCGCTGGTCGATGCCGGCTTCGACGCGATCGAGATCCCACTGAATTCGCCGCGCTGGCAGGAGAGCATCGCCATGGCCCAACAGGCCTATGGCGAACGCGCCTGGATCGGCGCCGGCACCGTGCTGCGCAACGAGGACGTCGACACCCTGGTCGACATCGGCGCGCGCTTCATCGTCACCCCCAACACCCGGCCGTCGCTGATCCGCCACGCGGTCGCGCGCGGACTGGTCGTCGTGGCCGGCTTCGCCACCGCCAGCGAGGCGTTCGACGCGATCGACGCCGGCGCGCAGGTGCTCAAGCTGTTCCCCGCCGCCACCTACGGCGCCGGCCATGTGCGCGCACTGCGTTCGGTGCTGCCGGCCAGCGTGCCGGTGTACGTGGTCGGCGGGGTCACCACCGATACGCTGGCCGGCTTCCTCGGCAAGGGCGCCGCTGGCGCCGGCATCGGCGGCGAGCTGTACAAGCCGGGCCAACCGCTCCAGACCACCCAGTCGCATGCACGCGCGTTCGTGCAGGCATACCAGGCCGCTCACCAGGATCTCCCGGGATGA	MSNHERLFKLPLVAILRGITPEETLAHVGALVDAGFDAIEIPLNSPRWQESIAMAQQAYGERAWIGAGTVLRNEDVDTLVDIGARFIVTPNTRPSLIRHAVARGLVVVAGFATASEAFDAIDAGAQVLKLFPAATYGAGHVRALRSVLPASVPVYVVGGVTTDTLAGFLGKGAAGAGIGGELYKPGQPLQTTQSHARAFVQAYQAAHQDLPG	PGPT0018075_328	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018075-dgoA-K01631	NA	NA
BMS020_08056	1149	dgoD_2	COG4948	D-galactonate dehydratase	ATGAAGATCACCCGCCTCACCACCTACCACGCCGCACCGCGCTGGCTGTTCCTGAAGGTCGAGACCGACGAAGGCATCACCGGCTGGGGCGAGCCGGTGATCGAAGGCAAGGCGCGCAGCGTCGAGGCCGCCGTGCACGAACTGTCCCCCTACGTGGTCGGGCAGGACCCGCGCCGGATCAACGACCTCTGGCAGACCCTGTACCGCGGCGGCTTCTACCGCGGCGGCGCGATCCTGATGAGCGCGATCGCCGGCATCGACCAGGCGCTGTGGGACATCAAGGGCAAGGCGCTGGGCGTGCCGGTGTACGAGCTGCTCGGCGGCCTGGTGCGCGACCGCATGAAGACCTACCGCTGGGTCGGCGGCGACCGCCCGGCCGACATCGTCGCGCAGATGCGCAGCTACATGGCGCTGGGCTACGACACCTTCAAGCTCAACGGCACCGAGGAAATGACCCTGATCGACAGCCCGCGCGCGGTCGACGCCGCGGTGGCCAAGATCGCCGGCATCCGCGAGGCGCTCGGCAACACGGTGGATTTCGGCATCGACTTCCACGGCCGCGTCGGCGCACCGATGGCCAAGCCGCTGCTGCGCGAGCTGGAGCCGTTCAAGCCGCTGTTCGTCGAGGAGCCGGTACTGGCCGAGCAGTACGAGTACTACCCGCGCCTGGCCGCGTCGACCTCGATTCCGCTCGCCGCCGGCGAGCGCATGTACTCGCGTTTCGAATTCAAGCACGTGCTCGCCTCCGGCGGCATCGGCATGCTGCAGCCGGACCTGTCGCATGCCGGCGGCATCACCGAATGCGTCAAGATCGCCGCGATGGCCGAGGCCTACGATGTCGCGCTTGCGCCGCACTGCCCGCTCGGCCCGATCGCCCTGGCCGCGTGCCTGCACGTGGACTTCGTCGCGCACAACGCGGTGCTGCAGGAACAGAGCATCGGCATCCACTACAACCAGGGCGCCGACCTGCTCGACTACGTGGTCAACAAGGACGACTTCCGCTGCATCGATGGCAGTATTGCCGCACTGCCCAAACCGGGCCTTGGCGTGGAAATCGATGAAGAGATGCTCAAGCGTGCCCACCAGACGCCGCCGGACTGGCGCAATCCGCTGTGGCGGCATGCCGACGGCAGCGTGGCCGAATGGTGA	MKITRLTTYHAAPRWLFLKVETDEGITGWGEPVIEGKARSVEAAVHELSPYVVGQDPRRINDLWQTLYRGGFYRGGAILMSAIAGIDQALWDIKGKALGVPVYELLGGLVRDRMKTYRWVGGDRPADIVAQMRSYMALGYDTFKLNGTEEMTLIDSPRAVDAAVAKIAGIREALGNTVDFGIDFHGRVGAPMAKPLLRELEPFKPLFVEEPVLAEQYEYYPRLAASTSIPLAAGERMYSRFEFKHVLASGGIGMLQPDLSHAGGITECVKIAAMAEAYDVALAPHCPLGPIALAACLHVDFVAHNAVLQEQSIGIHYNQGADLLDYVVNKDDFRCIDGSIAALPKPGLGVEIDEEMLKRAHQTPPDWRNPLWRHADGSVAEW	PGPT0002220_1108	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0002220-dgoD-K01684	NA	NA
BMS020_08057	903	araB_4		L-arabinolactonase	GTGAGTGCATCGCAGGTCACCCTGGCGGTGGACAGCCGCTGCACCCATGGCGAAGGCGTGCTCTGGTGCGCGCGCCGGCAGGCGCTGTTCTGGGTCGACATCAGCGAAAAGCGGTTGTGGATGCATCACCCGGACGACGGCGCCACACGCCACTGGCCCCTGCCCGACCGCCCCGGCTGCATCGGCCTGCTCGATGACGGGCGGCTGCTGCTGGTGCTGGCCAAGTCGATCCAGCTCGCCGAGATCGACAACGCCGCTGCCGACGCGCTGCCGCTGCAGCACCTGGTCGATGTCGAACCGGACAATCCGCACACCCGCAGCAACGATGGCCGCGCCGACCGCGCCGGCAACTTCGTGTTCGGCACCATGGACGAGCACGCGCACAAGACCGGGCGCGGCAGCTTCTACCAGTTCTCGCTGCGCCATGGTCTGCGCCGGCTGCCGCTGGGCGGCGTGTCGATCCCCAACTCGATCTGCTTCAGCCCCGATGGCCGCACTCTGTATTACTGCGACTCGGTGACGCCGCAGATCCTGGCCTGCGACTACGATCCGGCAACCGCCAGCACCGCCAACGCGCGCGTGTTCGCCACGTTGGACCGCGCCGACGCCGAGCCGGATGGCTCCATCGTCGATGCCGACGGCCACCTGTGGAACGCGCAATGGCGTGCCTGGCGGGTGGTGCGCTACCGCCCCGATGGCAGCGTGGAGCGCAGCATCGCGATGCCGGTCAAGCACCCGACCTGCTGCGCGTTCGGCGGCCCCGCGCTGGATCGCCTGCACGTGATCAGCTCGCGCCTGGACCACGGCGACGCCGAGCTGGCCGCCACGCCGCAGGCCGGCAGCCTGTTCCAGTGCGATCCGGGCATCGCCGGCCTGCCCGAGAGCCGGGTGGCCAGCGCATGA	MSASQVTLAVDSRCTHGEGVLWCARRQALFWVDISEKRLWMHHPDDGATRHWPLPDRPGCIGLLDDGRLLLVLAKSIQLAEIDNAAADALPLQHLVDVEPDNPHTRSNDGRADRAGNFVFGTMDEHAHKTGRGSFYQFSLRHGLRRLPLGGVSIPNSICFSPDGRTLYYCDSVTPQILACDYDPATASTANARVFATLDRADAEPDGSIVDADGHLWNAQWRAWRVVRYRPDGSVERSIAMPVKHPTCCAFGGPALDRLHVISSRLDHGDAELAATPQAGSLFQCDPGIAGLPESRVASA	PGPT0017460_97	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017460-araB|L_arabinonolactonase-K13874	NA	NA
BMS020_08059	324	fdxA	COG1146	Ferredoxin 1	ATGCCTTTTGTTGTCACCGATAACTGCATCAAGTGCAAATACACCGACTGCGTCGAAGTCTGCCCCGTCGACTGCTTCCATGAAGGCCCGAACTTCCTGGTGATCGATCCGGACGAATGCATCGACTGCACGCTGTGCGAGCCCGAGTGCCCGGCCAACGCGATCTATCCGGAAGACGACGTACCGGCCGGCCAGGAAGGCTTCGTGGCGTTGAACGCGGAGCTGTCCAAGGCCTGGCCGGTGCTGACCGTGCGCCGCGAACCGCTGGCCGACGCCGCCGAGTGGGACGGCAAGCCGGGCAAGCTGTCGCTGCTGGAGCGCTGA	MPFVVTDNCIKCKYTDCVEVCPVDCFHEGPNFLVIDPDECIDCTLCEPECPANAIYPEDDVPAGQEGFVALNAELSKAWPVLTVRREPLADAAEWDGKPGKLSLLER	PGPT0030810_954	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0030810-fdxA-K05524
BMS020_08060	516			hypothetical protein	ATGCGTCAAACCGTTTCCACCGTCCGCGTGCTCTCGCTCGCGCTGCTGGCGACCAGCGCCGTCGCCGCCACGAGCGGTTGCAGCTGGTTCCACAAGGGAGCCCGTGGCGATTACGCGCTGCCGGCCGAACAGCGTCCGCTGGAAGTGCCGCCGGATCTGAACCTGCCCGACACGTCCGGCGCGATGAAGGTGCCGACGCTGGCCTCGACGACGCAGGGCCCGGCGCAGGCCGGCCAGGCCAGCAACAGCGGCTTCAATGTCGATGGCAGCCGCGACGCGGTGTTCGCCAAGGTCGGCGATGCGCTGGCGCAGGTGCCGGGCGTGACCATCGCCAGCCGCGCGCAGATGCTCGGCTCGTTCGACGTCAGCTACGAAGGCAGCAGCTTCCTGGTGCGTGTTGCCAGCACCCAGGGCGGCAGCTACGTGTCGGCGGTGGACCCGCGCGGCATGCCGGCCACGGCCGAGGCCCCGGTCAAGCTGATCGGCACCCTGAAGGGCGCGCTCGGCGGTCGCTGA	MRQTVSTVRVLSLALLATSAVAATSGCSWFHKGARGDYALPAEQRPLEVPPDLNLPDTSGAMKVPTLASTTQGPAQAGQASNSGFNVDGSRDAVFAKVGDALAQVPGVTIASRAQMLGSFDVSYEGSSFLVRVASTQGGSYVSAVDPRGMPATAEAPVKLIGTLKGALGGR				NA	NA	NA	NA	NA
BMS020_08061	909	dapA_5	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	TTGTCCCTTTCCGGCATCATCACCGCGCTGGCGACCCCGTTCGGTCGCGACGGCGCTCTCGACCTCGACGCCTGGCAGCGCCTGCTCGACCAGCAGCTCGGCCGCGGTATCCAGGGTGTCGTCGTGGCCGGCTCGACCGGCGAGGCGGCCACGCTGTCCGACGAGGAATACGACCTGATCCTGCGCACCGCGGTGGAGCGGGTGGCCGGGCGGGTGCCGGTGCTGGCCGGGACCGGCCTGTCCGGGACCGCCAAGACCATCGCCCAGACCCGCCGCGCCGCGGCCGGTGGCGCCGACTGCGCGCTGGTGGTGACCCCGCCGTACGTGCGCCCGACCCAGGAAGGGCTGAAGGCCCATTACCTGGCCGTGGCCGAACAGGGCGGCCTGCCGGTGCTGTTGTACAACGTGCCCGGCCGGACCGGCTGCGACCTGCTGCCGGAGACGGTGGCCGAGCTCGCCAGCCACCCGAACATCGTCGGCATCAAGGAAGCCCGCAGCGAACCGGAGCGGATGCAGGCGCTGCTGGCGCTGCGTGGCGAAGGCTTCAGCGTGCTCAGCGGCGATGACGGCAGCGCCGGGCGCGCGATGCTGGCCGGGGCCGATGGCCTGATCTCGGTGGCGTCCAACGCGCTGCCGGCCGCCTACCGCCGCCTGTGCGATCTGGCCCGCGGCGGCGAGCGCGCTGCTGCCGAGGCCTGGGATGCGCAGTTGGGCGAGTTCCACGAATTCTGCGGCGTCGAGTCCAACCCGATCCCGGTCAAGGCGCTGTTGCAGCGGCTGGGATACGGCGATGGCCTGCGGCTGCCGCTGCTGCCGCTGTCGGCCGCGCACCACGCGGCCGCCGACCGCCTTGCCGCCAGCGTCCAGGCGCTGGAGGAACGTTCCAGCCGCGAGCGTCTCGCGGCCTGA	MSLSGIITALATPFGRDGALDLDAWQRLLDQQLGRGIQGVVVAGSTGEAATLSDEEYDLILRTAVERVAGRVPVLAGTGLSGTAKTIAQTRRAAAGGADCALVVTPPYVRPTQEGLKAHYLAVAEQGGLPVLLYNVPGRTGCDLLPETVAELASHPNIVGIKEARSEPERMQALLALRGEGFSVLSGDDGSAGRAMLAGADGLISVASNALPAAYRRLCDLARGGERAAAEAWDAQLGEFHEFCGVESNPIPVKALLQRLGYGDGLRLPLLPLSAAHHAAADRLAASVQALEERSSRERLAA	PGPT0002080_2961	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
BMS020_08062	561	gcvR_2	COG2716	Glycine cleavage system transcriptional repressor	TTGACCGACGCCACGCCGCGGCCTTCGCCGAACGAAAACCACCTCCTGATCAACGCCTATACGACGCATCCGGAGTCCCCCCTGCTGCCCGTCACCCGCCGGATCGCCGACAGCGGCTGCAATCTGGTGGACGCCCGGCTGTCCACGGTGGGCCGCGATGTCTCGGTCACCGCGCTGGCGACCGGCTCCTGGGACTCGGTGGCCAAGCTGGAGGCGATGCTGACCCGGCTGGAGCGCGAGGAAGGCCTGAAGCTGATCTGGTACCGCACCGCGGCCAAGCAGACCCAGTCGAACCTGCTGCCCTACATCGTCGAGGTCATCGCCGCCGACAAGCCGGGCATCCTGTTCCAGCTGGCCGACTTCTTCGACCGCCAGGGCATCACCATCGAGAACCTGCAGAGCACCCGCTACCGGGCGATGCAGACCGGCGCGGAGATGTTCAGCGCGCAGGTGACGATCGGGGTGCCGGCCAACATGCACATCGCCGCCCTGCGCGACGATTTCCTCGAGTTCTGCGACCACCTGAACCTCGACGCGATCATGGATCCGATGAAGTTCTGA	MTDATPRPSPNENHLLINAYTTHPESPLLPVTRRIADSGCNLVDARLSTVGRDVSVTALATGSWDSVAKLEAMLTRLEREEGLKLIWYRTAAKQTQSNLLPYIVEVIAADKPGILFQLADFFDRQGITIENLQSTRYRAMQTGAEMFSAQVTIGVPANMHIAALRDDFLEFCDHLNLDAIMDPMKF	PGPT0026370_318	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026370-gcvR-K03567	NA	NA
BMS020_08063	405			hypothetical protein	ATGGCCATCGATACGTCCTCCGTGGACCAGATGTTCGCCGACATCCGTGCCGAGACCGACTGGAACCTCGACGGCCCCATGCTGTGGGGCTACTTCTTCACCGATGCCGACCCGCACAAGCTCAAGCGCCTGAGCGACCAGCTGGTGCAGGACGGCTACCGCCACGTCGATATCTTCACCATCGAGTCCGACGGCAGCACCGATCTCGGCGAGGCCGAGGCCGAGGCCGACGTGTACTTCCTGCACGTCGAACGGGTGGAAACCCACAGCACCTGGTCGCTGGAACTGCGCAACCGCGGGCTGGAGGCGCTGGCCGCCAGGTTCGACGTCGCCACCTACGATGGCATGGACGTCGGCCCGGTGCCGACGGACGACGACGCCTCCACACGGGATTCCGATGACTGA	MAIDTSSVDQMFADIRAETDWNLDGPMLWGYFFTDADPHKLKRLSDQLVQDGYRHVDIFTIESDGSTDLGEAEAEADVYFLHVERVETHSTWSLELRNRGLEALAARFDVATYDGMDVGPVPTDDDASTRDSDD				NA	NA	NA	NA	NA
BMS020_08064	483	bcp_2	COG1225	Peroxiredoxin Bcp	ATGACTGACGCCCCCACCGCCCTGCCCGACACCACCCTGGACCTGCCACTGGCGCTGTCCGGCGGACAGTCCACGACGCTGCGCGCGCTCGCCGGCCACTGGGTCGTGCTGTACTTCTACCCGAAGGACAGCACTCCGGGCTGCACCACCGAGGGCCTGGAGTTCAACGCACTGCTGCCCAAGTTCAAGCGCGCCGGCGCGGCGGTGCTCGGCGTCTCGCGCGACTCGCTGAAGTCGCACGACAACTTCTGCGCCAAGCAGGGCTTCGCCTTCCCGCTGGTCAGCGACGCCGACGAGGCGCTGTGCAAGGCCTTCGATGTCATCAAGCTGAAGAACATGTACGGCAAACAGGTGCTCGGCATCGAGCGCAGCACCTTCCTCATTTCGCCCGACAGTCGTATCGTGCAGGCGTGGCGCAAGGTGAAGGTCGCCGGCCACGCCGAACTGGTTCTCCAAGCCCTGAAGGCCCACAGCAAGCAGTGA	MTDAPTALPDTTLDLPLALSGGQSTTLRALAGHWVVLYFYPKDSTPGCTTEGLEFNALLPKFKRAGAAVLGVSRDSLKSHDNFCAKQGFAFPLVSDADEALCKAFDVIKLKNMYGKQVLGIERSTFLISPDSRIVQAWRKVKVAGHAELVLQALKAHSKQ	PGPT0013120_1750	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013120-bcp|PRXQ|DOT5-K03564	NA	NA
BMS020_08065	1401			hypothetical protein	ATGACCCGAGGCAAGCGCATCTACGTGCTGGACACCAACGTGCTGATGCACGATCCCACCGCGCTGTTCAAGTTCGAAGAACACGACGTGTTCCTGCCGATGCAGGTGATCGAGGAGCTGGACAACGCCAAGAAAGGCACCTCCGAGGTCAGCCGCAACGCGCGCCAGGTCAGCCGCTTCCTCGACGAGCTGCTCGGCAACGCCAGCGCCGAGCAGATCCAGGCCGGCATCCGCCTGGCCCACCCGCAGGGCATCCAGCTCAAGGGCCAATCCGGCATCGGCAAGCTGTATTTCCAGACCACCACCAGCCAGCCGGCCGATACCTTCGGCAAGGCGATGCCGGACAACAAGATCCTGGCCTCGGTGCTGGAGCTGCGCAGCGCGCAGCCGGACGTGCCAGTGGTACTGGTGTCCAAGGACATCAACCTGCGCATCAAGGCCTCGATCAGCGGCCTGGTCGCCGAAGACTACGAGAACGACCGTGCGCTCGACGATTTCAGCCTGCTGTTCACCGGCGCGATCGAGCTGCCGGAGGATTTCTGGCAGAAGCACAACCAGGACCTGCGCAGCTGGAACGAGAAGGGCCGCACCCACTACGAGATCAAGCTGGCCAAGGACGAGGATTTCCATCCCAACCAGTACCTGCACCTGCCGGGCGAGGACGAGGTCGAGCTGCGCGTGGCGCGGATCGGCGGCGACGGCAAGGCGACGCTGAGCCTGGTCGAGGATTTCCGCGCCGGCCAGCACGCGGTCTGGGGCATCGCCGCGCGCAACCGCGAGCAGAACTTCGCGCTCAACGCGCTGATGGACCCGGACATCGATTTCGTCACCCTGCTCGGCACCGCCGGCACCGGCAAGACCCTGCTGGCGCTCGCCGCCGGCCTGGCGCAGACGATGGACCAGCAGCGCTACCGCGAGATCATCATGACCCGCGCCACCGTCAGCGTCGGCGAGGACATCGGTTTCCTGCCCGGCACCGAGGAAGAAAAGATGACGCCGTGGATGGGCGCACTGACCGACAACCTGGAAGTGCTGACCCACAACCAGGAAGGCGGCGCCTGGGGCCGTGCGGCGACCAACGACCTGCTCGCCTCGCGGATCAAGATCCGCTCGATGAACTTCATGCGCGGCCGCACCTTCCTGTCGCGCTACCTGATCCTGGACGAGGCGCAGAACCTCACCCCGAAGCAGATGAAGACGCTGATCACCCGCGCCGGCCCGGGCACCAAGATCGTCTGCCTCGGCAACGTCGAGCAGATCGACACGCCGTACCTGACCGAGACCACCTCGGGCCTGACCTACGCAGTGGACCGCTTCAAGAACTGGCCGCACAGCGCGCACGTGACGCTGCGCCGCGGCGAGCGCTCGCGCCTGGCCGACTACGCCTCGGAGGTACTGTGA	MTRGKRIYVLDTNVLMHDPTALFKFEEHDVFLPMQVIEELDNAKKGTSEVSRNARQVSRFLDELLGNASAEQIQAGIRLAHPQGIQLKGQSGIGKLYFQTTTSQPADTFGKAMPDNKILASVLELRSAQPDVPVVLVSKDINLRIKASISGLVAEDYENDRALDDFSLLFTGAIELPEDFWQKHNQDLRSWNEKGRTHYEIKLAKDEDFHPNQYLHLPGEDEVELRVARIGGDGKATLSLVEDFRAGQHAVWGIAARNREQNFALNALMDPDIDFVTLLGTAGTGKTLLALAAGLAQTMDQQRYREIIMTRATVSVGEDIGFLPGTEEEKMTPWMGALTDNLEVLTHNQEGGAWGRAATNDLLASRIKIRSMNFMRGRTFLSRYLILDEAQNLTPKQMKTLITRAGPGTKIVCLGNVEQIDTPYLTETTSGLTYAVDRFKNWPHSAHVTLRRGERSRLADYASEVL				NA	NA	NA	NA	NA
BMS020_08066	480			hypothetical protein	GTGAGCGCCCGCCTCGCCCTCGTCGCTGCCGGCCTGCTGGCACTGTCCGGCTGCGCCAGCCAGGCCCCGCGCAGCGTGCCGACCGCGCTCAAGAGCGGCCAGTCGTGGGTCGTCACCCGCCCGCAGCTGGCCGCGCAGGTACTGGACACCTGCTCGCGCGACAGCCCCGCCCGCCACCCTGGTGGCGTCAGCGGCTACTGGGCGCCGAGCCGGCAGCAGATCGAGCAGCTCGAGGCGCAACAGGACCAGCTGAAACCGACCATCGCCGCGCCGCGCGACTTCGACCGCCAGTACGTCGGCATCGAAGCCGGCGGGCGCCGACTGATCTACATCAACGCGTTCCACCTGCCGGACAGCAGCGAACTCGATCCGGGCCGCACCGCAGTGCAGGTCTGCGACGGCGGCGCCGGCTTCTGGGGCGCGGTCTACGATCCCGAACACGGCAGCTTCTCCGACATCGCCGTCAACGGTCCGGGCTGA	MSARLALVAAGLLALSGCASQAPRSVPTALKSGQSWVVTRPQLAAQVLDTCSRDSPARHPGGVSGYWAPSRQQIEQLEAQQDQLKPTIAAPRDFDRQYVGIEAGGRRLIYINAFHLPDSSELDPGRTAVQVCDGGAGFWGAVYDPEHGSFSDIAVNGPG				NA	NA	NA	NA	NA
BMS020_08067	672			hypothetical protein	ATGGGCATCCGTCTCCCCGCGTGGGTCTGGGTCGGTGCGATCACGCTGGCCGGCGTGGCCGGCATGGTCAACGTGATCGCCTACCTCGGCGTCGAGCACCAGGTGGTCAGCCACCTGACCGGCACCACCAGCCTGCTCGGCGCCGCGCTCGCGCATGGCCAGTGGGCCGAGGCACGCTTCCTGTGGAGCGTGCTGATCGCCTTCAGCATCGGCGCGATGCTGAGCGGGCTGATCATCCAGGACAGCGCGTTGCAACCCGGCCGGCGCTATGGTGTCGCGCTGCTGCTGGAAGCGGCACTGCTGCTCGCCGCCACCTGGTTGTTCGGCCGCGCCTCCGCCAACTGGGCGGTAGCCGCGGCAGCGGCGGCCTGCGGACTGCAGAACGCGATGGCCACGACCTTCAGCGGCGCCGTGGTGCGCACCACCCACCTCAGCGGGATGTTCACCGATCTGGGCATCGGTCTCGGCCACCTGCTGCGCGGCCTGCCCCTGCAGGTCCGCCGGTTGACCTTGAGTGGGCTGATCATCGGCGGCTTTCTCGCCGGCAGCCTGGCCGGCACCTGGCTGTTCGACCTGCTGCAATACCGCGCCCTGCTGGTACCGGCCGCGATCACCGGGCTGACCGGCGCCGGCTACGTCGCCTGGCGGCACCACAGCCACGCCGACCGCTGA	MGIRLPAWVWVGAITLAGVAGMVNVIAYLGVEHQVVSHLTGTTSLLGAALAHGQWAEARFLWSVLIAFSIGAMLSGLIIQDSALQPGRRYGVALLLEAALLLAATWLFGRASANWAVAAAAAACGLQNAMATTFSGAVVRTTHLSGMFTDLGIGLGHLLRGLPLQVRRLTLSGLIIGGFLAGSLAGTWLFDLLQYRALLVPAAITGLTGAGYVAWRHHSHADR				NA	NA	NA	NA	NA
BMS020_08068	801	pdxK_3	COG0351	Pyridoxine kinase	ATGAGCCCACCCGACTGTGTGTCCGCCCTGACCATCGCCGCCGCCGACAGCGGCGGCAGCGATGGCATCCAGACCGACCTGAAGACATTCGCCGCCCTGCGCGTGCACGGCGTGAGCGCGATCAGCGCGCTGCGCGGCTCCTTCGGCGGCGATCACGCACCTGTCTGGCACCCGTTACCGCCGCAGCTGCTGCGCGCCCAGATCGACGCCTGCTTCGACGGCTTCGACGTGCAGGCAGCGAAGATCGGAATGCTTGCCGACGCCGCGCAGGTCGAGGTGGCCACCGACGCGATCGCGCGCCATCGCCCACCGCAGGTGGTGCTGGCGCCCGAGCATCGCGCGACCGACGCGGCAACGGACATTCGCGATGCACTGCGGCGGCGGTTGCTGCCGCTGGCGACGCTGCTGGTTGTCGACATCGGTGCTGCGGAATGGCTGCTGGGCCACCACATCGACGATGCCGACGCCGCTGATGCCGCGCTCGACGCACTGCTCGATGCCGGCGCCAACGCGGTGCTGCTCACGTGCGCACGGCTGGACGAGGGCACACGCATCATCGAGCGCTTCGGTGATGGCGTCAGCCGCCACGAATTCCGCCACGCACGGCTGCCGCTTCGCGCGCGCGGCGCCGGCACCACGCTGGCCGCGGCGACCACCGCCCTGCTCTGCCACGGCGCGGCGCTGGCCGATGCCTGCGGCAGCGCGATCGACTATCTGGCGCGGGCGCTGCAGCCCGGACTGCAGCCGTGCCACGATGACATCCGGGTGCCGGATCACATCGGCGCAGGACGCCACGCATGA	MSPPDCVSALTIAAADSGGSDGIQTDLKTFAALRVHGVSAISALRGSFGGDHAPVWHPLPPQLLRAQIDACFDGFDVQAAKIGMLADAAQVEVATDAIARHRPPQVVLAPEHRATDAATDIRDALRRRLLPLATLLVVDIGAAEWLLGHHIDDADAADAALDALLDAGANAVLLTCARLDEGTRIIERFGDGVSRHEFRHARLPLRARGAGTTLAAATTALLCHGAALADACGSAIDYLARALQPGLQPCHDDIRVPDHIGAGRHA	PGPT0008915_2282	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
BMS020_08069	840			hypothetical protein	ATGAACAGCACGGACGGCACCATCGACGCGACCGCCAACGACGGCCACCGCTGGCAACTGCTCGCCGCCCTTCCCGACGCCGCACCGCGCGCACGCCTGCTGTGGCTGCCCGCGCTTGGCGTCGCCGCGCGTCATTACACGCCGTTCGCCCAGGCGCTGGCCGCGCGCGGGGTCGCGGTGTACGTGCACGAATGGCGCGGCAACGGCAGCAGCAGCCTGCGCCCGTCGCGCAGCGTCGACTGGGGCTATCGCGAGCTGCTGTGCGAGGACCTGCCAGCCAGCCTGGCCGCGCTCGGCGACATCGATGCGTTGCGCATCGGCGGCCACAGTCTTGGCGGCCAGCTCGCCTGCTGCTTTGCCGGCCTGCAGCCGCATCGCTTCGCCGGCCAGTGGCTGGTCGCCAGCGGCAGTCCGTACTGGCGGGCGTTTCCGCGCCCGCTGCGCTACGCGCTGCCGCTGGTATACCGCTTCCTGCCGTGGATCGCACGACGGCAAGGCGTGCTGCACGGGCGCCGCCTGCGCTTCGCCGGCACCGAGGCGCGCGGCCTGATCGCCGACTGGGCGCGCGTCGGCTTGAACAATCGCTATGCCGGCGCCGGCCTGGAGATCGACCTGGAAGCGGCGCTGGCCGCGGTACGGGCTCCCACCGCCGGCATCGTGCTCGGCCAGGACCGGCTCGCACCGGAAGGATCGCTGCGCCAACTGCTGGGCAAGCTGGGCGGAGCAGTCCCGCGCGTCGCCCACCTGGATGCACGCCAGCTCGGCACGCAGGCCGACCATTTCGCCTGGATGAAGCGACCGGATGCGGTCGCCGAGACCTTGTTGATGGCGCTCGACTGA	MNSTDGTIDATANDGHRWQLLAALPDAAPRARLLWLPALGVAARHYTPFAQALAARGVAVYVHEWRGNGSSSLRPSRSVDWGYRELLCEDLPASLAALGDIDALRIGGHSLGGQLACCFAGLQPHRFAGQWLVASGSPYWRAFPRPLRYALPLVYRFLPWIARRQGVLHGRRLRFAGTEARGLIADWARVGLNNRYAGAGLEIDLEAALAAVRAPTAGIVLGQDRLAPEGSLRQLLGKLGGAVPRVAHLDARQLGTQADHFAWMKRPDAVAETLLMALD				NA	NA	NA	NA	NA
BMS020_08072	966			hypothetical protein	ATGCAGGCGCTGCTCGAACACTTTGGACTCGCCCTGGTCTTCGTCAATGTGCTCGCATTGGCGGTTGGGCTGCCGGTGCCTGCGATGCCGACGCTGGTGTTCGTCGTCGCTGGATTCGCCGCGCAGGGTGGTGAGCCGGCGGTGATCGGCTGCGCGATGGCGGTGCTGCTCTCGGTGCTGGCCAGTCTGCTGGGCGACGCGGCGTGGTACTGGGCGGGGCGGCGCTACGGCAGTCGTACGCTGCAGTCGCTGTGCCGGCTGTCGCTGTCGCGCGACAGCTGCATGAAGAAGACCGAGCGCTTCTACGGCCGCTGGGGCGTGCGGGTGCTGGCGGTGGCCAAGTTCGTGCCGGGCTTGTCGATGGTCTCGGTGCCGATGGCGGGTGCGATGCGGGTAGGGTTTGCCCAGTTCCTGCGCTACGACGCGCTGGGGGCGTTGCTGTGGGCTGGCGTGGGTGCCGGCCTGGGCATCGTGTTCCGCGACCAGGTGCAGGACGCGCTGGCGCTGCTGGCGGGGTTGGGGCGTGGGGCGCTCGGCGTGATTGCGCTGCTGCTTGCCGGTTACATCGGCTGGCGCTGGTGGCGCCGCCGGCAGTTGCTGCGCACGCTGGAGCGGGCGCGCATCAGCGTGGATGAGCTGCATGGCCTGCTCGGCGGCGGTGGCGAGCCGCCGGTCATCCTCGACATCCGTGCACCGGGCTATCGCGATCTGGATCCGCATGTGATTCCGGGTGCGGTGGAGGCCGATGAGCGCGACCTGCCGGCGATCCTGGCTGCATACGCGCCGGAGCGCAGCATCGTGGTGTATTGCGGGTGTCCGAACGAGGTGTCGGCGGCATGGTTGGCGGCGCGGCTGCGCGAGCATCGTTACCGCGACGTGCGGCCGCTGCTGGGTGGCCTGGATGCGTGGCGGGCGGCGGGCTACGAAGTGCAGGCGGTGCAGGCGGCGAGTGCGCGCCTCGGCTGA	MQALLEHFGLALVFVNVLALAVGLPVPAMPTLVFVVAGFAAQGGEPAVIGCAMAVLLSVLASLLGDAAWYWAGRRYGSRTLQSLCRLSLSRDSCMKKTERFYGRWGVRVLAVAKFVPGLSMVSVPMAGAMRVGFAQFLRYDALGALLWAGVGAGLGIVFRDQVQDALALLAGLGRGALGVIALLLAGYIGWRWWRRRQLLRTLERARISVDELHGLLGGGGEPPVILDIRAPGYRDLDPHVIPGAVEADERDLPAILAAYAPERSIVVYCGCPNEVSAAWLAARLREHRYRDVRPLLGGLDAWRAAGYEVQAVQAASARLG				NA	NA	NA	NA	NA
BMS020_08074	213	csrA_2		Translational regulator CsrA	ATGTTGATCCTGACTCGTCGCGTCGGCGAAACCCTGATGATCGGAGACTCGGTCACCGTGACCGTGCTTGGCGTCAAGGGTAACCAGGTGCGTATCGGCATCACCGCGCCGAAGGACGTTGCCGTCCATCGCGAAGAAATCTACCAGCGCATCCAGCGCGGCGACGAGCATGTCGGCGCCGGCGCGGGTCATGGTGACGATTCTTCGAATTAA	MLILTRRVGETLMIGDSVTVTVLGVKGNQVRIGITAPKDVAVHREEIYQRIQRGDEHVGAGAGHGDDSSN	PGPT0015065_1057	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
BMS020_08075	2649	alaS_2	COG0013	Alanine--tRNA ligase	ATGAACGCACCCGCCAAATTCACCACTTCCCAGATTCGCAGCGATTTCCTTGAATTCTTCAAGGGCAAGGGGCACACCATCGTGCCGTCCGCGCCGCTGGTGCCGGGCAACGATCCGACCCTGCTGTTCACCAACTCCGGCATGGTGCAGTTCAAGGACGTGTTCCTGGGGGCCGAGAAGCGCAGCTACGTGCGCGCGGCCGACGTGCAACGCTGCCTGCGTGCCGGCGGCAAGCACAACGACCTCGATTCGGTCGGCTACACCGCCCGCCACCACACCTTCTTCGAGATGCTGGGCAACTGGTCGTTCGGCGACTACTTCAAGAAGGACGCGATCGCCTGGGCCTGGGAGCTGCTGACCCAGGTCTGGAAGCTGCCGGCCGAGCGCCTGCTGGTCACCGTCTACCACACCGACGACGAGGCCTACGGGCTGTGGCGCGACATGGTCGGGATCCCGGAAGAGCGCATCGTCCGGATCGGCGACAACAAGGGCGCGCCGTACGCCTCGGACAACTTCTGGCAGATGGCCGATACCGGTCCCTGCGGTCCGTGCACCGAGATCTTCTACGACCATGGCGCGCACATCGCCGGTGGCCCCCCGGGCTCGCCGGACGAGGATGGCGACCGCTTCATCGAGATCTGGAACCTGGTGTTCATGCAGTTCGACCGCCAGCCCGACGGCACCCTGGTGCCATTGCCGGCGCCGTGCGTGGACACCGGCATGGGCCTGGAGCGCCTGGCGGCGATCCTGCAGCACGTGCACACCAACTATGAGATCGACCTGTTCCAGGCGCTGATCCGCAAGGCCTCCGAGCTGACCGGCACCGCCGACCTGGAGAACAAGTCGCTGCGCGTGATCGCCGACCACATCCGCGCCTGTTCGTTCCTGATCGTCGATGGCGTGCTGCCCTCCAACGAGGGCCGCGGTTACGTGCTGCGCCGGATCATCCGTCGCGCCCTGCGCCACGGCTGGATGCTGGGCGTGCGCGGTCCGTTCTTCAGCAAGCTGCTGCCGACCCTGGTCGAGCAGATGGGCGAGGCCTACCCGGAACTGCCGGCCGCTGCCGACATGGTCGGCAAGGCGCTGCTGGCGGAGGAGGAGCGCTTTGCCGAGACGCTCGATTCGGGCATGAAGATCTTCGACGACGTTGCGGCCAAGGTCGACGACGGCGTGATTCCCGGCGCCGACGCGTTCCGCCTCTACGACACCTATGGTTTCCCGGTCGACCTGACGGCCGACATCGCCCGCGAGCGCGGCATGCGCGTGGACATGGACGGCTTCGATGCGGCGATGGAGCGGCAGCGCGAGACCGCGCGGGCTGCCGGCAAGTTCGGTGGTGGCGTGCAGCTGCCGGCCGAACTGGTGGCGACGCTGACGCCGACCGCGTTCCTGGGCTACGACGCGCTCCAGGCCGGCGAGCTGCGCGTGGTTGCGTTGCTCAAGGGCGGGCGCCCGGTGCAGGCGGTCGAGGCTGGCGACGAGGTCATCGTGCTGACCGACCGTACGCCGTTCTATGCCGAGTCCGGTGGCCAGGTCGGCGATACCGGCGTGCTGGCCAATGCCGCCGTGCGCGTCGACGTCGCCGATACACAGAAGTTCGCCGGGCAGTTCCATGGCCATGTGGGGCGCGTTGTGCACGGTGGCCTGAAGGTCGGCGACGTATTGGCGGGCGAGGTCGACGGTGCTCGCCGCGCCACGATCGTGCTGAACCATTCGGCGACCCACCTGCTGCACGGCGCGCTGCGCGGGCTGCTGGGAACCCACGTCGCGCAGAAGGGCTCGCTGGTCGCGCCCGACCGTCTGCGCTTCGACTTCTCGCATTTCCAGCCGATCACCCAGGCCGAGTTGATCGAGATCGAGCGCCGGGTGAATCACGAAGTGCGCGCGAACCACGCGGTGACGATCCAGCAGATGGACATCCAGTCCGCGCTGGATGCCGGTGCGATGGCGCTGTTCGGCGAGAAGTACGGCGAGCGCGTGCGCGTGGTGACGATGGGTGAATCGGTGGAGCTGTGCGGCGGCACGCATGTGGCCCGTACCGGCGACATCGGCCTGTTCAAGATCACGGCCGAGGGCGGCGTGTCCTCGGGCGTGCGCCGCATCGAGGCGGTGACCGGGCAGGGTGCGCTGGACCAGATCGCCGGCGAGCAGCAGCAGCTGCACGAGGCCGCCGGCCTGCTCGGTGGCAGCGTTGGCGATGTGGTCGAGAAGATCCGCCAGCTCGGCGACCGGCAGAAGCGCCTGGAACGCGAACTGGAGGCCGCCAAGGCCAAGCTCGCTTCCGGGGCGACCGCCGATCTGGCCGGCCTGGCCGTCGAGGTCGCCGGCGTGAAGGTGCTGGCCGCGCGCCTGGAGGGCTTCGACGCCAAGGCGCTGCGCGAAGCGATCGACCGCCTGAAGCAGCAGCTCGGCGACGCCGTGGTGCTGCTGGCCGGGACCGCGGACGGCAAGGCGGCCCTGGTTGCTGGCGTGAACGGCAGCCCAATGGGACGGGTCAAGGCGGGGGAACTCCTTGCACATGTGGCCGGTCAGATCGGGGGCAAGGGCGGCGGCCGCCCGGACCTCGCCCAGGGTGGTGGCGAGGACGGGCCCGCCCTTGCCTCGGCCTTGCAGGGCGTCGTCCCCTGGGTCAGCCAGCACCTCTCCTGA	MNAPAKFTTSQIRSDFLEFFKGKGHTIVPSAPLVPGNDPTLLFTNSGMVQFKDVFLGAEKRSYVRAADVQRCLRAGGKHNDLDSVGYTARHHTFFEMLGNWSFGDYFKKDAIAWAWELLTQVWKLPAERLLVTVYHTDDEAYGLWRDMVGIPEERIVRIGDNKGAPYASDNFWQMADTGPCGPCTEIFYDHGAHIAGGPPGSPDEDGDRFIEIWNLVFMQFDRQPDGTLVPLPAPCVDTGMGLERLAAILQHVHTNYEIDLFQALIRKASELTGTADLENKSLRVIADHIRACSFLIVDGVLPSNEGRGYVLRRIIRRALRHGWMLGVRGPFFSKLLPTLVEQMGEAYPELPAAADMVGKALLAEEERFAETLDSGMKIFDDVAAKVDDGVIPGADAFRLYDTYGFPVDLTADIARERGMRVDMDGFDAAMERQRETARAAGKFGGGVQLPAELVATLTPTAFLGYDALQAGELRVVALLKGGRPVQAVEAGDEVIVLTDRTPFYAESGGQVGDTGVLANAAVRVDVADTQKFAGQFHGHVGRVVHGGLKVGDVLAGEVDGARRATIVLNHSATHLLHGALRGLLGTHVAQKGSLVAPDRLRFDFSHFQPITQAELIEIERRVNHEVRANHAVTIQQMDIQSALDAGAMALFGEKYGERVRVVTMGESVELCGGTHVARTGDIGLFKITAEGGVSSGVRRIEAVTGQGALDQIAGEQQQLHEAAGLLGGSVGDVVEKIRQLGDRQKRLERELEAAKAKLASGATADLAGLAVEVAGVKVLAARLEGFDAKALREAIDRLKQQLGDAVVLLAGTADGKAALVAGVNGSPMGRVKAGELLAHVAGQIGGKGGGRPDLAQGGGEDGPALASALQGVVPWVSQHLS				NA	NA	NA	NA	NA
BMS020_08076	492	recX_2	COG2137	Regulatory protein RecX	ATGACGAACGAGGCGGAGCAGGGCGGTCGCGGCCGACGCAAGCGGCGTGAACAGACCCCGGTGCAGCGTGCGCTCGGGTTGCTGGTGCGGCGCGAGCATTCGCGCCGCGAGCTGACCCGCAAGCTGCAGGGACGCGGGGTCGATGCCGACGAGGCTGGCGCCGCGGTGGCCCGGCTGGCCGAGGCTGGCTGGCAGGACGACGCCCGTTTCGCCGAATCGCTGGTCCGCAGTCGTGCTGCGGCTGGCTATGGCCCGCTGCACGTGCGTGCCGAGCTGGGGACCCACGGTCTGGAGCACGAACTGGTCTGTTCGGTGCTCGACGGTTACCAGGGCGACTGGACCGAAAACGCCCGGGATCTGGTGCGTCGCCGGTTCGGCGAGGCCGGGCCGATCGACCTGGCGCAGCGGCGCAAGGCGGCCGAGTTGCTGATGCGGCGCGGCTTCGACGGCGACAGCATCCGGGCGGCAACCCGCTTCGACCCTGAGGACTGA	MTNEAEQGGRGRRKRREQTPVQRALGLLVRREHSRRELTRKLQGRGVDADEAGAAVARLAEAGWQDDARFAESLVRSRAAAGYGPLHVRAELGTHGLEHELVCSVLDGYQGDWTENARDLVRRRFGEAGPIDLAQRRKAAELLMRRGFDGDSIRAATRFDPED	PGPT0007240_2534	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007240-recX-K03565	NA	NA
BMS020_08078	1032	recA_2		Protein RecA	ATGGACGAGAACAAGAAGCGCGCCCTTTCCGCCGCCCTGGGCCAGATCGAGAAGCAGTTCGGCAAGGGCTCGGTGATGCGCATGGGCGACCGTGTGGTCGAGCCGGTCGAGGCGATCCCCACCGGTTCGCTGATGCTGGACATCGCGCTCGGCATCGGCGGCCTGCCGAAGGGACGCGTGGTCGAGATCTACGGCCCGGAATCCTCGGGCAAGACCACGCTGACCCTGCAGGCGATTGCCGAATGCCAGAAGCAGGGCGGCACCGCGGCGTTCATCGACGCCGAGCACGCGCTCGATCCGATCTATGCCGCCAAGCTTGGGGTCAACGTCGACGACCTGCTGTTGTCGCAGCCGGATACCGGCGAGCAGGCGCTGGAGATCGCCGACATGCTGGTCCGTTCCGGCTCGATCGACATCCTGGTCATCGACTCGGTCGCCGCGCTGACCCCGAAAGCCGAAATCGAAGGCGAGATGGGTGATCAGCTGCCGGGCCTGCAGGCCCGCCTGATGAGCCAGGCGCTGCGCAAGCTGACCGGCAACATCAAGCGCTCCAATACCCTGGTGATCTTCATCAACCAGCTGCGCATGAAGATCGGCGTGATGATGCCGGGCCAGAGCCCGGAAACCACCACCGGCGGCAACGCGTTGAAGTTCTATGCCTCGGTGCGCCTGGACATCCGCCGCATCGGTGCGATCAAGAAGGGCGACGAGATCATCGGCAACCAGACCAAGATCAAGGTGGTCAAGAACAAGCTGGCGCCCCCGTTCAAGCAGGTCGTCACCGAGATCCTGTACGGCGAGGGCATCAGCCGCGAGGGCGAGCTGATCGACATGGGCGTGGACGCCAAGCTGGTGGACAAGGCTGGCGCCTGGTACAGCTACGGCGACGAGCGCATCGGCCAGGGCAAGGACAATGCCCGCGGCTACCTGCGCGACAACCCGCAGGTCGCCGCCAGGCTCGAAGCGGAGCTGCGCGAGAAGTTCCAGCCGGCCGATTCGTCGCGTGAAGAGAACGACGGCGACGACGAGTAA	MDENKKRALSAALGQIEKQFGKGSVMRMGDRVVEPVEAIPTGSLMLDIALGIGGLPKGRVVEIYGPESSGKTTLTLQAIAECQKQGGTAAFIDAEHALDPIYAAKLGVNVDDLLLSQPDTGEQALEIADMLVRSGSIDILVIDSVAALTPKAEIEGEMGDQLPGLQARLMSQALRKLTGNIKRSNTLVIFINQLRMKIGVMMPGQSPETTTGGNALKFYASVRLDIRRIGAIKKGDEIIGNQTKIKVVKNKLAPPFKQVVTEILYGEGISREGELIDMGVDAKLVDKAGAWYSYGDERIGQGKDNARGYLRDNPQVAARLEAELREKFQPADSSREENDGDDE	PGPT0007235_4142	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0007235-recA-K03553	NA	NA
BMS020_08079	645	lexA_3		LexA repressor	ATGGACCTGACCGATACCCAGCAGGCGATCCTGTCGTTGATCGCCGAGCGCATCGAGACCGATGGCGTGCCGCCGTCGCAGACGGAAATCGCCCGCGCGTTCGGCTTCAAGGGCGTGCGGGCGGCGCAATACCATCTGGAAGCGTTGGAACAGGCCGGGGCGATCCGGCGGGTTCCCGGCCAGGCACGGGGAATCCGCCTGGCGGCGCCGGTGGCGGCGCGCGCCGAGGCGCCCGTGGCCGTTCCGCCGCATAGCGATGACGTGCTGCGGCTGCCGGTGCTGGGGCGGGTCGCGGCGGGTCTGCCGATCGGTGCCGACATCGGGTCGGACGATTTCGTGGTGCTGGACCGGGTGTTCTTTTCTCCGGCGCCGGATTACCTGCTGAAAGTGCAGGGCGACTCGATGATCGACGAGGGCATCTTCGACGGCGACCTGATCGGCGTGCACCGTACCCGCGATGCCCGCTCCGGGCAGATCGTGGTCGCGCGGATCGACGACGAGATCACCGTCAAGCTGCTGAAGATCGGCAAGGACCGGATCCGGCTGCTGCCGCGCAATCCCGACTACGCACCGATCGAGGTGCTGCCGGACCAGGACTTCGCGATCGAGGGCCTGTACTGCGGCTTGTTGAGGCCGAACCGCTGA	MDLTDTQQAILSLIAERIETDGVPPSQTEIARAFGFKGVRAAQYHLEALEQAGAIRRVPGQARGIRLAAPVAARAEAPVAVPPHSDDVLRLPVLGRVAAGLPIGADIGSDDFVVLDRVFFSPAPDYLLKVQGDSMIDEGIFDGDLIGVHRTRDARSGQIVVARIDDEITVKLLKIGKDRIRLLPRNPDYAPIEVLPDQDFAIEGLYCGLLRPNR	PGPT0014895_2035	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014895-lexA-K01356	NA	NA
BMS020_08080	1416			hypothetical protein	ATGCCCGTTTTCCTCCGCCCAACCCGCCTGCTCGCGGTCGCCGTGCTGGCGGTTTCGTCCGGTGCCGCTGCGCAACAGGCCACGCCACCCACCACAACGATCGCCACCGGCACCATCGTCGGCAACCGCGACGGCGCGCTCGCGACCTATAAGGGCATTCCGTACGCGGCGGCGCCGGTCGGAGCGCTGCGCTGGCGGGCACCCCAACCGGCCGCCCCATGGCGCGGCATACGCGCGGCGACGCACTACGGCGCCGACTGCATGCAGAAGCCGTTCCCCAGCGATGCCGCGCCGCTGGGAACCACGCCCGCCGAAGACTGCCTGTACGCGAACGTGTGGACGCCGGCCAAGCCAGGCGAACGCCTGCCGGTGATGGTCTGGATCTATGGTGGCGGCTTCGTCAACGGCGGCGCCTCGCCACCGACGTATTCCGGCGCCGCGCTGGCGACGAAAGGCATCGTCGTGGCCAGCTTCAATTACCGGCTCGGGCGCTTCGGCACGTTCGCGCACCCGCAGTTGCGCGCGGCGGACGCCGACCAGGGACTGCTCGCCAACTACGGCTTCATGGACCAAGTCGCCGCCCTGCGCTGGGTGCGCGACAACATCGCCGCATTCGGCGGCGATCCGGACCGGGTCACCATCGTTGGCGAAAGCGCCGGCGGCCGCTCGGTGCATACGCTGATTTCCTCGCCACTGGCACGCGGCCTGTTCACCCAGGCAGTGATCCAGTCTGGTGGCGACGGCAACGCCCTGCCCGGCACGCTCGCCAGCGCCAGCCGCGAGGGACTGAGCTTCGCGGCCGCCAACGGCATTGCCGCCGACGCTCCCGACGCACTCGCACGACTGCGCGCATTGCCAGCCAGCAGCATCACCGGCGACCTCAATCTTGCCAGCCTGTTCGCACCTGGCGACGGCCCGCGCACGTTCTCCACCCCGGTCACCGACGGACGCATCGCGGTCGATCCCACGCACGCGTATGCCTCCGGCGCCTTCAACACGGTCCGCGTGATGATCGGCGCGACCAGCGACGATATCGGCGGGCGCAACGGTGCGATGATCGCCGGTGCACGCCAGGCCGCCGCGCGCTTCGCCGGGCTGGGATTGCCGGTGTGGTACTACCGTTTCTCGCACGTCGCCAAGGCCGCACGCACCGCGCAAACCCGCGGTGCCGGGCATGCCACCGACATCCCGTTCTTTTTCGATACCGCCGAGATCAAATACGGCACGGACACGCAGCCCGGCGATCGCGCCGTGGCCGCGCGCGCCAGCGACTACCTGGTCAATTTCGTCAAACACGGCGATCCCAATGCTGCAGGATTGCCGGCATGGCCGCGCTACACGCCGGCGACGCAGGCGATGCTCGACTTCGGCCAGGGTGCAGCGCTCAGCAGCGGACGCGATCCGTGGGCGGACTGA	MPVFLRPTRLLAVAVLAVSSGAAAQQATPPTTTIATGTIVGNRDGALATYKGIPYAAAPVGALRWRAPQPAAPWRGIRAATHYGADCMQKPFPSDAAPLGTTPAEDCLYANVWTPAKPGERLPVMVWIYGGGFVNGGASPPTYSGAALATKGIVVASFNYRLGRFGTFAHPQLRAADADQGLLANYGFMDQVAALRWVRDNIAAFGGDPDRVTIVGESAGGRSVHTLISSPLARGLFTQAVIQSGGDGNALPGTLASASREGLSFAAANGIAADAPDALARLRALPASSITGDLNLASLFAPGDGPRTFSTPVTDGRIAVDPTHAYASGAFNTVRVMIGATSDDIGGRNGAMIAGARQAAARFAGLGLPVWYYRFSHVAKAARTAQTRGAGHATDIPFFFDTAEIKYGTDTQPGDRAVAARASDYLVNFVKHGDPNAAGLPAWPRYTPATQAMLDFGQGAALSSGRDPWAD	PGPT0030515_2538	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TANNIN_DEGRADATION	PUTATIVE-TANNIN_DEGRADATION-1,PGPT0030515-pnbA-K03929
BMS020_08086	381			hypothetical protein	ATGTCCGCTCTCTCAGGCCTGAAGGTCCTCGTCGTCGAGAATGACGAGATGAACGCCATGCTGCTGGAAATGCAGCTGCAACAGGCCGGTGCCGCGATCCTCGGGCCTGCCGGCGTGGTCGCCGATGCGTTGCGGCTGGTCAAGGAGCATGCGCCACAGGCGGCGATCCTCGACTACCGCCTGGGCGACGGCGAAACCAGCGAGCCGGTCGCCGAGCTGTTGACCGCCCGTGGCATCCCCTTCGTGCTGGCCACCGGCATCTCCGCCGAGAAAGTCCCCCCGGTGTTCGGTGCCGGCGAGATCCTGACCAAGCCGTATCTTGCCGAAGAACTGGTGCACTCTCTGGCCCAGGCGCGTCGCAGGCTGACCGCAGACAGCTGA	MSALSGLKVLVVENDEMNAMLLEMQLQQAGAAILGPAGVVADALRLVKEHAPQAAILDYRLGDGETSEPVAELLTARGIPFVLATGISAEKVPPVFGAGEILTKPYLAEELVHSLAQARRRLTADS				NA	NA	NA	NA	NA
BMS020_08087	3750	rcsC_20		Sensor histidine kinase RcsC	ATGGAAGGATCAACCACGCCAACACAGCAACCGTGGTCTTGCGGTGAGGACGCCGCGGCCGCGCTCGAGTGCGTGCCCGATGTTCTGCCCGCATGCGGGCCGCAACAGCGGGCCACGTTGCTGGCCGCGCTCACCACTTGCCTGGCCAGCCCGGGCCCGATGCTGTTGTGCTGGGGCCAGCCGGCACGCGTGTTCTTCAACGCGGCCAGCCTGGAACTGGTCGGCCCCCAGCATCCGCAGCTCTGGGGTGCGCCGCTGGAACAGGCCTCGGCCGGGATACGCCAGGCCATCGCGATGGCCGAAACCGGCCAGGCCGGCTGGAAACGGCAAGCGCTGAACATCGACGGCCACACGCACGGCATGCTGGTGGTCCCGCCGCACGCCGCGGTGGCCGGCGCGGCGCGGGAACTCATGCTTGCCTCGGCGTTCGAACAATCGCCGGCATTCCTGGCGGTCCTGCGCGGCCCCGACTACGTGTTCGAAACGGCGAACCTGCGCTTCCAGGAAATGGCCGGCGACCGTCCGCTGATCGGGCTGCCGCTGGTGCAGGCGATGCCGGAGATCGTCGAGCAAGGCTTCATCGGCCTGCTCGACAACGTCCGCAGCAGCGGCCAGCCGTTCGTCGGCGAATCGATGAGCGCCACCCTCACCCACCCCGGTCGCGAGCCGTACGAGGCGGTGCTGGATTTCGTCTACCAGCCGATGCACGCCAGCGACGGCAGCGTCGACGCGATCCTGCTGCACGGCGTGGACGTGACCCAGCAGCACCGCGCAGAAGCCCGCGACAGTTTCCTGCTGGCGCTCGAGGACGAGCTGCACGAGCTGTCCGACCCACAGCAGATCATCGACACCAGCGTGCGCCTGCTCGGCGAACAACTGCACGCGCACCGCTGCGGTTACGGCGCCATCGACCACGACGGCGAGATGATGCATGTGATCAGCGATCACGTGCAGGGCATGGAGAGCGTGCAGGGCGAATTCCGCCTGGCCGAGGTCGCGCCGCACCTGCACGAGGCGCTGGCGCAGAACCGGCCATGGATCGTCAACGACAACCAGGCCGAGGGCGCGGCGAAGTACACCTCCGAGGCCTACCTGCGTACCGGCATCCGCGCCACCCTGGCGGTTCCGCTGCACAAGGGCGGCGAACTGGTCGCAGCGATGGGCGTGCACCAGCGCACGCCGCGGCGCTGGACATCCACCGAAGTCGAACTGGTGCGCCTGGTGCTGGTGCGTTGCTGGGAATCGCTGCAGCGCGCGCGCGCGCAGCGGCGCCTGGCGGCCAGCGAGTCGCACCTGCGGCTGCTCGCCGATACCTTGCCGCAGATCATCTTCGTCACCGCCGAGGACGGCACCCCGCAGTACTTCAACCAGCGCTGGTACGAGTACACCGGGATCGATCCGGACGCCGACGGCGTGCAGACCTGGCGCAATGCGCATACCGAGGTCGGCCTGCTGCACTCTAACGCGGCCTGGGCGCTGGCGCTGGCCGGCACCCGTGCCTACGAGATGGAGTGCGAACTGCGCGCCGGCGACGGCAGCTTCCGCTGGCACCTGGTCCGCGCACTGCCGGTGCAGGACAACCACGGCGCGGTGCGGCAGTGGATCGGCACCTACACCGACATCCACGACCGCCGTGACTTCGAAGGCAAGCTCGCCGAAAGCGAGACCCGCTTCCGCCACCTGTGCGAAACCGTGCCGACGATGATCTGGATGTCCGACGCCGAGGGCGCCTGCGTGTACTGGAACCCGCAGTGGCACGACTTCACCGGCCAGACCGACGCCGAGGCGCTGGGACGCGACTGGTGGAGCGCGCTACACCCGGACGACGTCTCGCGGGTGCGCCAGGGCTTCGAGCAGGCCTTGCAGGAACGGCGGCCGTTCTCGGCCGATTACCGCGTGCGGCGCGCCGACGGACGCTACCGCTGGTGCGTGAACAACGCCTCGCCGCACTTCGGCTTCGACGGCGAATTCCTCGGCCATATCGGCTCGGTGATGGACATCACCGAGCGCAAGCACATCGAGGACGAAACCGCGTCGGAGCGTTCGATCCTCAACCTGATCACCACCGGCGTGACCCTGCCGGTCGTGCTGGACGCGATCGCGGTCAACGTCGAATCGCGCGGCGAGACCGATCTGCGCTGCGCCATCATGCTGGTCGAGGGCAACCGCCTGCGCCACGCCGCCGCGCCGCACATGCCGCTGGACTACAGCCAGCAGTTCGATGGCCTGCCGGTCTCGGCCGATGGACCGCCGTGCGGCCGCGCGGCCTGGTCCCGGCACCAGGTGATCTGCGACGACGTCGCCGACGACGAGGCCTGGGGCGAGTACCAGGCGACCGCATTGGCGATGGGAATCGCCGCCTGCTGCGTGACCCCGATCATCGGCAGCAACGGCACGGTGCTCGGCACGTTGTCGATGTACTACCGGCTGCCGCACGTGCCGTCGCTGCACGAACAGGCGATGGCGCGCTCGGCCTCGTACCTGGCTGGCATCGTGATCGAGCGCAACCTGATCGACGCGCAGCTGCAGCAGTCGCTGCAGTCGGAAAAGGACGCGCGCGGCATGGCCGAGCACGCCAACCGGGTGAAGGACGAATTCCTGGCGACGTTGAGCCACGAGCTGCGCACGCCGCTGAACGCGATCCTGGGCTGGTCGCGGCTGATGCAGGCCGAGGGCTTCGCCAAGGACAACATCGGCAAGGGACTGGTCATCATCGAGCGCAGCGCGCGCTCGCAGGCGCAGATCATCGACGACCTGCTGGACATGAGCGCGATCCTGTCCGGCAAGGTGCGCCTGCAGCACGAGCACTTCGATATCGCCGGGCTGGTGCGCAGCACGGTGGAGCTGCTGCGCCCCGCCGCGCTCGCCAAGCAGATCGAACTGCGCTCGATCGGCGCCGAGGACGCCCCGATCGCGTTCTTCGGCGACGCCGGGCGGCTGCAGCAGGTGCTGACCAACCTGATCGGCAACGCGATCAAGTTCACCCCCCTCGAAGGCACGGTGACGGTCTCGGTGGAACTGGAGGGCGCGCGGCTGCGGCTGGCGGTGCGCGACAGCGGCATCGGCATCGAGCCGGAGTTCCTGCCGCACGTGTTCGACCGCTTCCGCCAGGCCGATGCCAGCACCACGCGACGGATGGGCGGGCTTGGCCTTGGCTTGTCGATCTCGCGCCAGCTGGTCGACCTGCATCACGGCAGCCTGGGCGCCTCCAGCGCCGGCCCCGGCTGCGGCGCGACCTTCACCGTGGTGCTGCCGGTCCATGCCGGCGCGGCGATGCGGCCACCGGCGTCGCTGGCGCCTTCGCGGGTCGGCCCACTCCCCGGGCACTGCCGCGAGCGCCTGGCCAAGGTGCGGGTGCTGCTGGTGGACGACGACGACGATTCGCGCGAGGCCGCCTGCGAGCTGCTGCGCAGCGCCGGCGCCGAGGTGGTCGGCGCCGGCTCGGCCGACCATGCCGAACGTCTGCTGCAATCGAACGACTTCACCATCCTGGTCAGCGACATCGCGATGCCGGGACGCGACGGCTACGACCTGATCGGCGCGGTACGCGCCTCGGACCTGCGCGCGCGCGACATCCCGGCGATCGCGCTGACCGCCTACGTGCGCGACGAGGACCGCGAACGGGCGATGCTGGCCGGCTTCGATGCCCACATCGGCAAGCCGCTGGATCCGGTCGGCCTGGTCGACCTGATCGAGATCCTGTCGATGCGCCGCCGCAACGCCGACGTGGAGCCGGCGGCGGCGGACTGA	MEGSTTPTQQPWSCGEDAAAALECVPDVLPACGPQQRATLLAALTTCLASPGPMLLCWGQPARVFFNAASLELVGPQHPQLWGAPLEQASAGIRQAIAMAETGQAGWKRQALNIDGHTHGMLVVPPHAAVAGAARELMLASAFEQSPAFLAVLRGPDYVFETANLRFQEMAGDRPLIGLPLVQAMPEIVEQGFIGLLDNVRSSGQPFVGESMSATLTHPGREPYEAVLDFVYQPMHASDGSVDAILLHGVDVTQQHRAEARDSFLLALEDELHELSDPQQIIDTSVRLLGEQLHAHRCGYGAIDHDGEMMHVISDHVQGMESVQGEFRLAEVAPHLHEALAQNRPWIVNDNQAEGAAKYTSEAYLRTGIRATLAVPLHKGGELVAAMGVHQRTPRRWTSTEVELVRLVLVRCWESLQRARAQRRLAASESHLRLLADTLPQIIFVTAEDGTPQYFNQRWYEYTGIDPDADGVQTWRNAHTEVGLLHSNAAWALALAGTRAYEMECELRAGDGSFRWHLVRALPVQDNHGAVRQWIGTYTDIHDRRDFEGKLAESETRFRHLCETVPTMIWMSDAEGACVYWNPQWHDFTGQTDAEALGRDWWSALHPDDVSRVRQGFEQALQERRPFSADYRVRRADGRYRWCVNNASPHFGFDGEFLGHIGSVMDITERKHIEDETASERSILNLITTGVTLPVVLDAIAVNVESRGETDLRCAIMLVEGNRLRHAAAPHMPLDYSQQFDGLPVSADGPPCGRAAWSRHQVICDDVADDEAWGEYQATALAMGIAACCVTPIIGSNGTVLGTLSMYYRLPHVPSLHEQAMARSASYLAGIVIERNLIDAQLQQSLQSEKDARGMAEHANRVKDEFLATLSHELRTPLNAILGWSRLMQAEGFAKDNIGKGLVIIERSARSQAQIIDDLLDMSAILSGKVRLQHEHFDIAGLVRSTVELLRPAALAKQIELRSIGAEDAPIAFFGDAGRLQQVLTNLIGNAIKFTPLEGTVTVSVELEGARLRLAVRDSGIGIEPEFLPHVFDRFRQADASTTRRMGGLGLGLSISRQLVDLHHGSLGASSAGPGCGATFTVVLPVHAGAAMRPPASLAPSRVGPLPGHCRERLAKVRVLLVDDDDDSREAACELLRSAGAEVVGAGSADHAERLLQSNDFTILVSDIAMPGRDGYDLIGAVRASDLRARDIPAIALTAYVRDEDRERAMLAGFDAHIGKPLDPVGLVDLIEILSMRRRNADVEPAAAD				NA	NA	NA	NA	NA
BMS020_08088	2364	yhgF_2	COG2183	Protein YhgF	ATGCAAGACAGCAAGCTCGCCCAGCAGATCGCCCAGACCATCGCCGACGAGATCGGCGCCCAGTCCGCCCAGGCCCGCGCCGCCATCGCCCTGCTCGACGAGGGCGCCAGCGTCCCGTTCATCGCGCGCTACCGCAAGGAAGTCACTGGTGGGCTCGACGACACCCAGCTGCGCAATCTGGAAACGCGCCTGACCTACCTGCGCGAACTGGAGGACCGCCGCGCGGCGATCCTGGCCAGCGTCGCCGAGCAGGGCAAGCTGACCGACGAACTGCGCGCCGACATCGTCGCCGCCGATTCCAAGTCGCGCCTGGAAGACCTGTATCTGCCGTACAAGCCCAAGCGCCGCACCCGCGCGCAGATCGCCCGCGAGGCCGGGCTGGAGCCGCTGGCCGACGGCCTGCTGGCCGATCCGTCGCGCGACCCGCAAGCCTTCGCCGCCGGCTTCGTCGATGCCGACAAGGGCGTGGCCGATGCCAAGGCCGCACTGGAAGGCGCCCGCGCGATTCTGATGGAGCGTTGGGGCGAGGACGCCGCGCTGGTCGGTGAACTGCGTGGCTGGCTGGCCGACACCGGCGTGATCCGCGCCCGCGTCGCCGAAGGCAAGGAAGAGGCCGGCGCGAAGTACCGTGATTACTTCGACCATGCCGAATCGCTGGCGAAGATTCCCTCGCACCGCCTGCTGGCGCTGTTCCGTGCGCGCCGCGAAGAGGTGCTGCACCTGGATCTGGATCCGGGCAGCGAGGCCGAGGCCGGCCACCAGTACGCCGAGGGCCGGGTCGCGCGTGCCGCCGGCATCGCCGACAAGGGCCGCCCGGGCGATGCCTGGCTGCTGCAGGCCTGCCGCCTGACCTGGCGCGCCAAGCTGCACATGCACCTGCTGCTGGACCTGTTCAACCAGGCACGCGAAAAGGCCGAGGCCGAGGCGATCGCGGTGTTCGGCGACAACCTCAAGGACCTGCTGCTGGCCGCGCCGGCCGGCGCCAAGACCGTGCTTGGGCTGGACCCGGGTATCCGTACCGGCTGCAAGATCGCGGTGGTCGATGCCACCGGCAAGCTGGTCGCCACCGAGACGATCTACCCGCACGAACCCAAGCGGCAGTGGGACCAGTCGCTGCACACGCTGAAGAAGCTGTGCGAGCAGCACAACGTCGAGCTGATCGCGATCGGCAATGGCACCGCCAGCCGCGAGACCGACAAGCTCGCCGGTGACGTGATCAAGGCCTGCGCGAACCCGAAGCTGCAGAAGATCGTGGTCAGCGAGGCCGGCGCGTCGGTGTATTCGGCCTCCGAATTCGCCGCCAAGGAATTTCCGGGCCTGGACGTGTCGCTGCGCGGCGCGGTGTCGATCGCGCGGCGGCTGCAGGACCCTCTGGCCGAGCTGGTCAAGATCGAGCCGAAGGCCATTGGCGTAGGGCAGTACCAGCACGACGTCGACCAGTTCCGTCTGGCCAAGGCGCTGGATGCGCGCGTGGAGGACTGCGTCAACGCGGTCGGCGTCTACGTCAACACCGCCTCGGCGGCACTGTTGTCGCGGGTCTCGGGGCTGTCGGCGACGGTGGCCGAGAACATCGTCCGCCATCGCGACGACAACGGCCCGTTCAAGCGCCGCAAGGACCTGCTGAAGGTGCCGCGGCTGGGCGACAAGACCTTCGAGCAGTGCGCCGGCTTCCTGCGCATCGCCGACGGCGACGAGCCGTTGGATGCCTCGGCGGTGCACCCGGAAGCCTATCCGGTGGTCGAACGCATCGTCGCCGCGACCGGCAAGCCGATCAAGGCGATGATCGGCGACGGCAGCTTCGTGCGCGGCCTGAAGGCCGAGCAGTTCACCGACGAGCAGTTCGGCGTGCCGACCGTGCGCGACATCCTCAAAGAGCTGGAGAAGCCGGGCCGCGACCCGCGCCCGGAGTTCAAGGCGGCCAAGTTCGCCGACGGCGTCGAGGACATCAAGGACCTGCGCCCGGGCATGGTGCTGGAAGGCGTGGTCAGCAACGTTGCCGCGTTCGGCGCGTTCGTCGACATCGGCGTGCACCAGGACGGCCTGGTGCACATCTCGGCGTTGTCGGACACCTACGTCAAGGATCCGCGCGACGTGGTCAAGGCCGGTGACATCGTCAAGGTCAAGGTGCTGGAGGTCGACGTGGCGCGCAAGCGCATCGCGCTGACCCGGCGCATGGACGACGTGCCGGGCGCCGACAACGCGCGCGATGCACGCGGTGCAGGTGCAACGGCCGGCGGCGGTCGTCGCGATGGCGGTGGGCGCGGCGGCGACCACCGTGGCGGGCAGGGCGGCAAGCCGAAGCTGTCGGCGCCGCCGGCCAACAACGCGCTGGCCGAGGCGTTCGCCCGCGCGCGCAAGAACTGA	MQDSKLAQQIAQTIADEIGAQSAQARAAIALLDEGASVPFIARYRKEVTGGLDDTQLRNLETRLTYLRELEDRRAAILASVAEQGKLTDELRADIVAADSKSRLEDLYLPYKPKRRTRAQIAREAGLEPLADGLLADPSRDPQAFAAGFVDADKGVADAKAALEGARAILMERWGEDAALVGELRGWLADTGVIRARVAEGKEEAGAKYRDYFDHAESLAKIPSHRLLALFRARREEVLHLDLDPGSEAEAGHQYAEGRVARAAGIADKGRPGDAWLLQACRLTWRAKLHMHLLLDLFNQAREKAEAEAIAVFGDNLKDLLLAAPAGAKTVLGLDPGIRTGCKIAVVDATGKLVATETIYPHEPKRQWDQSLHTLKKLCEQHNVELIAIGNGTASRETDKLAGDVIKACANPKLQKIVVSEAGASVYSASEFAAKEFPGLDVSLRGAVSIARRLQDPLAELVKIEPKAIGVGQYQHDVDQFRLAKALDARVEDCVNAVGVYVNTASAALLSRVSGLSATVAENIVRHRDDNGPFKRRKDLLKVPRLGDKTFEQCAGFLRIADGDEPLDASAVHPEAYPVVERIVAATGKPIKAMIGDGSFVRGLKAEQFTDEQFGVPTVRDILKELEKPGRDPRPEFKAAKFADGVEDIKDLRPGMVLEGVVSNVAAFGAFVDIGVHQDGLVHISALSDTYVKDPRDVVKAGDIVKVKVLEVDVARKRIALTRRMDDVPGADNARDARGAGATAGGGRRDGGGRGGDHRGGQGGKPKLSAPPANNALAEAFARARKN				NA	NA	NA	NA	NA
BMS020_08089	219			hypothetical protein	ATGTCGATCGTCCTGTACGTCGGTGGCAGCAAGGATGGCGAGAAGGGCGTGGTGCCGTACGGGTTCCGCAAGTCGGTGGCGATGAGCGATGCCGGGCGTGAGGTCTACGTGCGCCGCGAGGTCGCGCTGGATGCGGTTGGCAAGGTGCCGGTAATGGCGCTGGAGTCGCTGCAGGACCACATCGTGGTGCAGCGCCTGGCCGGGCACTACCGGCGCTGA	MSIVLYVGGSKDGEKGVVPYGFRKSVAMSDAGREVYVRREVALDAVGKVPVMALESLQDHIVVQRLAGHYRR				NA	NA	NA	NA	NA
BMS020_08090	1215	puuB_3		Gamma-glutamylputrescine oxidoreductase	ATGGACCTCAAGAGTGGTTACCCGTTCTGGCCGATCCGCGACGGCCTGCCGCATGCGTTCCCGCGCCTGGAGCGCGACCTGCGCTGCGAGGTCGCGGTGATCGGCGGCGGCATCACCGGCGCGCTGATCAGCGACACGCTGTGCAGGCATGGCATCGAGGTGGTGGTGCTGGACCAGCGCGAGATCGGCTGGGGCAGCACCGCGGCCAGCACCGCTCTGCTGCAGTACGAGATCGACACGCCGATGCGCGCACTGGCGGCCCGGCACGGCCTGGCCGCGGCGGCGCTGGCCTACCGTGCCTGCGCCGAGGCGATCGACCAGCTGGCGACGTTGGCCGGCGGGCTCGGCGAGGTGGAATTCGCCCGCACTGCCAGCCTGTGCTACGCCAGCCGCCGGCGCGACATCGCCGCGCTGCGTGCGGAGGTGGCCCTGCGCCGCCGGCATGGTCTGGATGCGCGCTGGCTGCAAGCTGCGCCGCTGTGGCACGACTACGGGGTGCGCGCCGACGGTGCCGCCCTCACCCTGCAGGCCGCGCGCGTGGATCCGTACCGGATGACCTACCAACTGCTGCAGCGCAGCGCCGCGGCCGGCGCGGCGGTCCACGACCGCACCCACGTCACCGCACTGGAGCACACCGAGCACGGCGTGACACTGACCACCGCCAGCGGCGCCCGCATCCATGCCCGGCACGTGGTGGTCGCCGCCGGCTACGCCGGCCAACGCTGGCTGCGGCAACGCGTCGCACGCAACCGCAGCAGCTACGCCTTCGTCACCGATCCACTGCCGGACCAGGCGCTTGGCGCACTCAGGCACACGCTGGTATGGGAAACCGCCCGCCCCTACCTGTATCTGCGCGGCACTGCCGATGGGCGTGCGATCGTCGGCGGCGAGGACGACAGCATCGACCTGCCGGCGCGCCGCGACCACCGCGTCCCCGCCAAGGCGGCCACCCTGCAACGCAAGCTCGCGCGCGTGCTGCCGGACCTGCGCCTGCAGCCGGCCTTCGCCTGGGGCGGCACCTTCGCCGAAACCGCCGACGGCCTGCCGTTCTTCGGCGCGCATCCCCAGCACGGTCCGCGCGTGCTGTTCGCGATGGCCTACGGCGGCAACGGCATCACCTACAGCATGCTTGGCGCGGAGCTGCTGCACGCCGCCATCGAACGGCGCCCGCACCCACTGGCTGCGTTGTTCGGCTTCCAGCGCCTGAACAGGTGA	MDLKSGYPFWPIRDGLPHAFPRLERDLRCEVAVIGGGITGALISDTLCRHGIEVVVLDQREIGWGSTAASTALLQYEIDTPMRALAARHGLAAAALAYRACAEAIDQLATLAGGLGEVEFARTASLCYASRRRDIAALRAEVALRRRHGLDARWLQAAPLWHDYGVRADGAALTLQAARVDPYRMTYQLLQRSAAAGAAVHDRTHVTALEHTEHGVTLTTASGARIHARHVVVAAGYAGQRWLRQRVARNRSSYAFVTDPLPDQALGALRHTLVWETARPYLYLRGTADGRAIVGGEDDSIDLPARRDHRVPAKAATLQRKLARVLPDLRLQPAFAWGGTFAETADGLPFFGAHPQHGPRVLFAMAYGGNGITYSMLGAELLHAAIERRPHPLAALFGFQRLNR				NA	NA	NA	NA	NA
BMS020_08091	456			hypothetical protein	TTGAGCGGCGCGGGCGCGCTGGCACGGCGCGGCCTGTTCGCGCTCGGCGTGCTGTGGACGTTGCCGAACAGCCTGCTGGGCGCGTGCGCGGGCGTGGCCGGCATGGCGTTCGGGGCGCGGCCGCGCTGGAGCCGGCGCGATCGCGCGCTGGTGTTCGAGCACTGGCCGTGCGGGCCGGGCGGTGCGCTGACCCTGGGCAATGTGATCCTGGTGAAGGCCGCCACGCTCGATTCGATCTGCGCGACCTACGAGCACGCCGCCGGCCGCTGCCGGCATCCACCCGTGCGGCTCGGCGACCACGAGCGTGCGCATGTCTACCAGTATCTGGTGCTGGGGCCACTGTTCCTGCCGGTGTACCTGCTCTGTGGCGGCGTCAGCGTGCGCAACCCGTTCGAGCGCGCCGCCGATCGTTACGCGCTGTGCGGCCGCGGCTGGTGGCCGGGCATCGCGGGCTGA	MSGAGALARRGLFALGVLWTLPNSLLGACAGVAGMAFGARPRWSRRDRALVFEHWPCGPGGALTLGNVILVKAATLDSICATYEHAAGRCRHPPVRLGDHERAHVYQYLVLGPLFLPVYLLCGGVSVRNPFERAADRYALCGRGWWPGIAG				NA	NA	NA	NA	NA
BMS020_08092	204			hypothetical protein	ATGAACCAAGCCCCGCGCGCGCTGGCGCGCTCGCTCAATGACCGCATGATCGCCGGCGTGATCGGCGGCATCGCGCGTCGCTTCGGCTGGAGCGCGACATTGCTGCGGGTGCTGTACGTGATCGTGTCGATCGCCTCGGCGGCGTTTCCCGGCATCGTGGTCTATCTCGTGCTGTGGTTGCTGATCCCGAACGAGGCCGATTGA	MNQAPRALARSLNDRMIAGVIGGIARRFGWSATLLRVLYVIVSIASAAFPGIVVYLVLWLLIPNEAD	PGPT0027520_1625	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
BMS020_08093	435			hypothetical protein	ATGGCTAGCCGGCGCGGCGTCGGGTTGGCCGCCATGTGGCTGGCATTGGCGGGCACCTCCGCGTCGGCGGCGCAGGAGGGCGAGCGCGCGGTCGCCGCCGAAGTGGCCACGCTGGTCGATGCGCTGCCGGCGTCCGGCTGCCGCTTCCAGCGCAATGGCAGCTGGTACGACGGCGCCCGTGCGCGCGAGCACCTGCTGCGCAAGTACGACTATCTACGCCGGCGCGGACTGGCCGGCAGCAGCGAACTGTTCATCACCCGCGCCGCCTCGCGCAGCAGCGTCAGCGGCGCGGACTACCGCGTCGCATGCCCGGGCGAGCCCGAACAGCCGGCGGAGGTGTGGTTCCGCGCGCGCCTGCAGCGCCTGCGCCATCACGAGGCATCGTCGGCGGTGCCGCTACAGTCGGGGTTCCCTCGCCGGATGTCGCTGCCATGA	MASRRGVGLAAMWLALAGTSASAAQEGERAVAAEVATLVDALPASGCRFQRNGSWYDGARAREHLLRKYDYLRRRGLAGSSELFITRAASRSSVSGADYRVACPGEPEQPAEVWFRARLQRLRHHEASSAVPLQSGFPRRMSLP				NA	NA	NA	NA	NA
BMS020_08094	1074	phaC	COG3243	Poly(3-hydroxyalkanoate) polymerase subunit PhaC	ATGATGAAGGGGCCGTTGGGGTTCAACGCCGACGACCTGCTGCAGGAGACGCTGGCGCTGCAGCGCAAGCTCAGCGAAGGCCTGCGTACGCTGGGCGGGCTGGACGAGGTCGATTACGGCGCGACCACCCGGCAGGAGGTGTGGCGCGATGGCAAGGTGGTGCTGTACCGCTTCGTCGGCGAGACCGCGCCCACCGCCAAGGTGCCGCTGCTGATCGTCTATGCGCTGGTCAACCGCCCGTATATGGTCGACCTGCAGGCCGACCGCTCGCTGGTCAAGCGGCTGCTGGCACTGGGCGAGGATGTCTACGTGCTGGACTGGGGCTACCCGGATCGCTCCGAGCGCTACCTCACCATCGAGGACTACCTGCTGCGCTACGTCGATGGCGCGGTGGACCACCTGCGCCAGGCGGCCGGGGTCGAGGCGCTCGATCTGCTCGGCATCTGCCAGGGCGGCACGTTCTCGCTGTGCTATGCCGCGCTGCGCCGCGAAAAGGTGCGCAACCTGGTGACGATGGTGACGCCGGTGGATTTCCACACCCCGGACAACATGCTGTCGAACTGGGCGCGGCTGGTCGACGTGGACCTGTTCGTCGACACGATGGGCAACGTGCCGGCCGACCTGATGAATGCCAGCTACCTGATGCTCAAGCCGTACCGGCTGAACCTGCAGAAGTATGTCGGGCTGCTCGACATCCTCGACGACAAGCAGGCGCTGGAGGACTTCCTGCGCATGGAAAAGTGGATCTTCGATTCGCCGGACCTGGCCGGCGAGGCGTTCCGCGAGTTCATCAAGTTCTTCTACCAGGGCAACGGCCTGGTACAGGGCACGATCGAGATCGGCGGCGAGCCGGTGGACCTGGCCGTGCTCGACATGCCGATCCTGAACATCTACGCCGAGCAGGACCACCTGGTGCCGCCGGATGCATCGCGTGCCCTGCGCGGCCTGGTCGGCAGCGCCGACTATTCGGAGCTGAGCTTCCGCGGCGGCCATATCGGCATCTACGTGTCCGGACGGGCGCAGCGCGAGGTGCCGGCGGCGATCCACGACTGGCTGCGCGCGCGCGATGGCTAG	MMKGPLGFNADDLLQETLALQRKLSEGLRTLGGLDEVDYGATTRQEVWRDGKVVLYRFVGETAPTAKVPLLIVYALVNRPYMVDLQADRSLVKRLLALGEDVYVLDWGYPDRSERYLTIEDYLLRYVDGAVDHLRQAAGVEALDLLGICQGGTFSLCYAALRREKVRNLVTMVTPVDFHTPDNMLSNWARLVDVDLFVDTMGNVPADLMNASYLMLKPYRLNLQKYVGLLDILDDKQALEDFLRMEKWIFDSPDLAGEAFREFIKFFYQGNGLVQGTIEIGGEPVDLAVLDMPILNIYAEQDHLVPPDASRALRGLVGSADYSELSFRGGHIGIYVSGRAQREVPAAIHDWLRARDG	PGPT0014740_2230	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-POLYHYDROXYBUTYRATE_PRODUCTION,PGPT0014740-phbC|phaC-K03821	NA	NA
BMS020_08095	1338	tpa	COG0161	Taurine--pyruvate aminotransferase	ATGAAGCTGGCAATTCACAACGAGGTCGCGGTAAGCAATGACGAAGTTCGGCAATTGGATCGCGCCTATGTGTTTCATTCATGGTCGATGCAGGGCAATCTCAACCCGCTGGTCATCGCCGGGGCGCAAGGCTGCGAGCTATGGGATTATGAGGGGAACACCTGGCTCGACTTCAGCAGCCAGCTGGTGAACGTCAACATTGGTTATCAACATCCCCGGGTGCTGGCGGCCATGAAGGCGCAGCTGGAGACCCTGGTCACCATCGCGCCCGCTACCGCCAACCTTGCCCGCGGCGAAGCGGCGAAGCGCATCGTCGACCTGGCGCCGGCGGGCTTCAGCAAGGTATTTTTCACCAACGCCGGGGCGGATGCCAATGAGAACGCGATTCGCATGGCGCGGCTGTATACCGGACGCGACAAGGTGCTGTCGGCCTATCGCTCCTACCATGGCAACACCGGCAGCGCGATCGCCGCCACCGGCGACTGGCGCCGGGTGCCGAATGAGTTTTCCCGCGGCCATGTGCATTTCTTCAATCCTTACCTTTACCGCAGCGAGTTCAACGCCGCGACCGAGGAGGAGGAGTGCCAGCGCGCGCTGACCCATCTGCGGCGGATCATTGAATGCGAGGGGCCGACGGCTATCGCGGCGATCCTGCTGGAGTCTATCCCCGGCACCGCCGGGATCCTCGTGCCGCCGGCAGGCTATATGCAGGGCGTGCGCGCGCTGGCCGACGAGTTTGGCATCGTGCTGATCCTCGATGAGGTGATGGCCGGCTTTGGTCGTACCGGCAGCTGGTTCGCCTTTGAACAAGATGGCGTGGTGCCGGATCTGGTGACCTTTGCCAAGGGGGTTAACGCCGGCTACGTGCCGGCGGGCGGGGTGCTGATTAGCGAGCCGATTGCCCGCTATTTTGACGATCACTTCTTTGCCGGGGGGCTGACCTACTCCGGCCATCCACTGGCGATGGCGGCGATTGTCGCCACCATCGACGCGATGAAAGAGGAGAAGGTGGTTGAGAACGCGGCCTATATCGGCAACGAGGTGCTGCGCCCCGGTCTCGAGGCGCTGGCGGAGAAGCACGCCATTATCGGCGAGGTGCGCGGTCGCGGCCTTTTTCAGGCGCTGGAGCTGGTGAGCAGCCGTGAACAAAAAACGCCGTTGACCGCCGCCGACATGGCCGCGATCAAAGGGGCCCTGACCGAAGCCGGGCTGCTGGCCTTTGTGGTGGAGAACCGCATTCATGTGGTACCGCCGTGCACCATTACTGCTGAGCAGGTGGCGCAGGGGCTGGGGATTTTTGATGCGGTCTTCGCCCGCTTTGCCAGCCTGGCGAAGTAG	MKLAIHNEVAVSNDEVRQLDRAYVFHSWSMQGNLNPLVIAGAQGCELWDYEGNTWLDFSSQLVNVNIGYQHPRVLAAMKAQLETLVTIAPATANLARGEAAKRIVDLAPAGFSKVFFTNAGADANENAIRMARLYTGRDKVLSAYRSYHGNTGSAIAATGDWRRVPNEFSRGHVHFFNPYLYRSEFNAATEEEECQRALTHLRRIIECEGPTAIAAILLESIPGTAGILVPPAGYMQGVRALADEFGIVLILDEVMAGFGRTGSWFAFEQDGVVPDLVTFAKGVNAGYVPAGGVLISEPIARYFDDHFFAGGLTYSGHPLAMAAIVATIDAMKEEKVVENAAYIGNEVLRPGLEALAEKHAIIGEVRGRGLFQALELVSSREQKTPLTAADMAAIKGALTEAGLLAFVVENRIHVVPPCTITAEQVAQGLGIFDAVFARFASLAK				NA	NA	NA	NA	NA
BMS020_08096	765	isfD	COG4221	Sulfoacetaldehyde reductase	ATGGCAACGAGCAACGTAGTGTTTATCACCGGGGCGACCTCGGGTTTTGGCGAAGCGGCAGCGCAGGTGTTTGCCGATGCGGGCTGGTCGCTGGTGTTGAGCGGGCGCCGCTATCCGCGACTGAAGGCCTTGCAGGACAGACTCGCCGCCCAGGTGCCGGTGCATATTATTGAGCTTGACGTTCGTGACAGCGAGGCGGTGGCTGCGGCGGTGGCGTCGCTGCCCGCCGATTTCGCCGATATCACCACCCTGATCAACAACGCCGGGCTGGCGCTGTCGCCGCTGCCGGCGCAGGAGGTGGCGCTGGAGGACTGGAAAACGATGATCGACACCAACGTCACCGGTCTGGTGACGATGACCCACGCCCTGCTGCCGACGCTGATCCGCCATGGCGCCGGGGCGAGCATTATCAATATCGGCTCGATCGCCGGGCAGTGGCCCTATCCCGGCAGCCATGTCTATGGCGCCAGCAAGGCCTTTGTAAAACAGTTCAGCTATAACCTGCGCTGCGATCTGCTTGGCACCGGCGTGCGGGTCACCGATCTGGCGCCGGGGATTGCCGAGACCGAATTTACCCTGGTGCGCACAAAGGGCGACCAGGCGGCATCGGATAAGCTCTATCGCGGCACCACGCCGCTGAGCGCGCGCGATATCGCCGAGCAGATGTTTTATATCGCCACGCTGCCGGCGCATATGAACATTAACCGGGTGGAGGTGATGCCGGTGCGTCAGGCGTGGCAGCCGTTCGCCATCGACCGGGATTAA	MATSNVVFITGATSGFGEAAAQVFADAGWSLVLSGRRYPRLKALQDRLAAQVPVHIIELDVRDSEAVAAAVASLPADFADITTLINNAGLALSPLPAQEVALEDWKTMIDTNVTGLVTMTHALLPTLIRHGAGASIINIGSIAGQWPYPGSHVYGASKAFVKQFSYNLRCDLLGTGVRVTDLAPGIAETEFTLVRTKGDQAASDKLYRGTTPLSARDIAEQMFYIATLPAHMNINRVEVMPVRQAWQPFAIDRD	PGPT0021285_721	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021285-ydfG-K16066	NA	NA
BMS020_08097	762	occP_2		Octopine permease ATP-binding protein P	ATGCCTGAGTCTATTGCCGTAAGCGTCAAAAACGTCTCCAAGCAGTTCGATAATGTGGAAGTCCTGCGGGATATTAACCTGACGGTGGAGAAGGGGACCGTGGTGAGTATTCTCGGCTCGTCCGGGTCGGGAAAATCCACCCTGCTGCGCTGTATGAACTGGCTGGAACAGCCGGACCGCGGCGAAATTCATATCGGCGGTCAGCGGCTGGGGATTGATGAGCAGCGCGGCCGGGCGATGTCGCACCGCCAGCTGGCGAAAATCCGCGAACGGGTGGGGATGGTGTTTCAGAGTTTTAACCTGTGGCCGCACCTGACCGTGCAGCAGAACGTCAGCGAGGCGCTGCTGCGCGTTAAGGGCATGAAACGAGACGAGGCGCAGGCCATGGCCATGCAGCAGCTGGAGAAAGTCGGCATGGCGCACAAAGCCGATGTCTACCCGATCACTCTCTCCGGCGGGCAGAAGCAGCGGGTGGCGATCGCCCGTTCGCTGGCGATGTCGCCGGAAGTTATCCTCTTTGACGAACCGACCTCGGCGCTGGATCCGGAGCTGGTGAACGAGGTGTTAGGGGTGATGAAAGCCCTTGCCGCCGAGGGCTACACCATGGTGGTGGTGACCCACGAGATGGATTTTGCCCGCCAGGTGTCCAATGAGGTGGTGTTTCTGGAGAAGGGGCTGCTGATTGAGAAGGCGCCGCCGGAGAAGTTTTTCACGCAACCTGACTCCGAACGCGTCAGGCAGTTTCTGCAAAGCAGCCGCTAG	MPESIAVSVKNVSKQFDNVEVLRDINLTVEKGTVVSILGSSGSGKSTLLRCMNWLEQPDRGEIHIGGQRLGIDEQRGRAMSHRQLAKIRERVGMVFQSFNLWPHLTVQQNVSEALLRVKGMKRDEAQAMAMQQLEKVGMAHKADVYPITLSGGQKQRVAIARSLAMSPEVILFDEPTSALDPELVNEVLGVMKALAAEGYTMVVVTHEMDFARQVSNEVVFLEKGLLIEKAPPEKFFTQPDSERVRQFLQSSR	PGPT0020790_2879	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
BMS020_08098	666	hisQ_2	COG4215	Histidine transport system permease protein HisQ	ATGAATCAGTGGGGCGTTATCTGGTCGGTACGCGATAGCTTTATTGCCGGGTTATTCGCGACCCTCGAACTGTTTATTACCGCCGCCCTCGCGGCCCTTATTATCGGTATTGCGCTGTGTTATTTTAGCGAATATCAAAAGAAAGTCCTTAACCGGGTTATCATTGGTTTCGTCAGCCTGATGCGCGCGATCCCTTTTTTGATCCTCGCCTATCTGCTGTATTACGGACTGCCGCAGCTCGGTATTAGCATGGAGCCGTGGACCGCCGGTTTACTGGCCCTGATTATTTATCATGGCGCCTATTTCTTTGAAATATTGCGCAGCCAGCGGCGGGTATTTTCCGGCGGGTATATTGAAGCCGCCATTGCTCAGGGCTTTTCTCGCTATGCCATTTTTCGGCGGATTATTTTACCCAATATCGTCTCTTCCGCCTTACCGCTGATCGGCAATCAGCTGATTATCTGCCTGAAGGACACCGCTTTTCTGAGCATTATTACCGTTCAGGAGATCACCGCCGCCGCCAACAGCGTCCAGGCGACCTATTTTATTCCGTTTAACGCCTTTATCGTCGCCATTGGGCTTTACTGGGCGATCAGCATTCTGCTGGAGCTGCTGATTAAGCGCCTGACCGCCTGGGGAGCCAAAAGAGGAATGAGCCATGCCTGA	MNQWGVIWSVRDSFIAGLFATLELFITAALAALIIGIALCYFSEYQKKVLNRVIIGFVSLMRAIPFLILAYLLYYGLPQLGISMEPWTAGLLALIIYHGAYFFEILRSQRRVFSGGYIEAAIAQGFSRYAIFRRIILPNIVSSALPLIGNQLIICLKDTAFLSIITVQEITAAANSVQATYFIPFNAFIVAIGLYWAISILLELLIKRLTAWGAKRGMSHA	PGPT0020795_8440	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
BMS020_08099	642	yecS_3	COG0765	L-cystine transport system permease protein YecS	ATGGATGCAATTTCCTGGCAGTTATTAATCGAAGGCGCATGGACGACCCTCTGGATTTCGGCCATCGCTATCGCCTTCGGGGTGGTGGCGGGGCTGCTGATCGCCCTGGTGCGGATGCTGCGCCTGCCGGTTATCGACCAGCTGCTGGTGGTCTATATCAGCCTGGCCCGCGCGACGCCGCTGGTGACGCTGGTGCTGTTTCTGTTCCTTTCCCTGCCCACGATGGGCATTAACCTCGACAAGAACGTGGCCGCCATCGTGGCGCTGACGCTTAACACCTCGGCGTTTAACGCTGAGATCTGGCGCAACGCCTTCCGCACCTTTCCGCGCGAACAGCGGGAGGCGGCGGAATCGGTGGGAATGCGCCGCTGGACCTACTTCCGCTACATCATGCTGCCGCAGATGTGGATCGAGAGCCTGCCGGCGCTGGTCAATGAGATGTCGTTTTTGATCAAAGGTAGCCCGGCGATCGCCGTGATCGGCGTGGTGGATCTCACCCGGGTGACCAACCGTATCTCCTCGGTCACCTACGAGCCGCTGTCGCCGATCCTCGCCGCCGGCCTGCTGTATGTGGCGATCATCGGCTGTTTATTGAAGCTGCAGGGGATTGCGGAACGGAAAGCCAGGCGCCTGGCGCGCTAG	MDAISWQLLIEGAWTTLWISAIAIAFGVVAGLLIALVRMLRLPVIDQLLVVYISLARATPLVTLVLFLFLSLPTMGINLDKNVAAIVALTLNTSAFNAEIWRNAFRTFPREQREAAESVGMRRWTYFRYIMLPQMWIESLPALVNEMSFLIKGSPAIAVIGVVDLTRVTNRISSVTYEPLSPILAAGLLYVAIIGCLLKLQGIAERKARRLAR	PGPT0020795_11610	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
BMS020_08100	852	fliY_5	COG0834	L-cystine-binding protein FliY	ATGAAAAAATCATTGGCATCAATGTGTCTGAGCGCTGTATTAACGGTTGCTTTTTCTTATCACGCCGTCGCGGCCGATCTGCCGGAAATAGAAAAATCCGGCACCCTGAAAGTGGCGACGGAAGATGATTATGCGCCATTTAACTTTATGAATAATGGTCAGGCCGATGGCTTTAACAAAGATATGCTTGAGGAGTTACGTAAATACGCCAAATTTCATGTCGACCAGAGCATATTACCGTGGACCGGATTATTAGCGGCGGTTTCCACCGGACAATACGATATGGCCTTGACCGGGGCGGTTATTACCGATGAGCGGCTGAAGGTCTTTGATTTCACCCCGCCGTGGGCCTCCGCGCAGCACTATTTCGTCAAACGCGCTGGCGATACCTCGCTAAACACCATTGCCGATCTCAGCGGCAAAAAAGTGGGCGTGCAGGCGGGCAGCGCGCTGCTGGCGCGTTTGCCGGAGCTGAAGGCGATGCTGGAGAAGACCGGCGGCAAGCTGGGGCCGGTGGTGGAGTACCCCTCCTATCCGGAAGCCTACGCCGACCTGGCGAATAAGCGGCTGGATTACGTGATTAACGTGGTGATCTCGGTGAACGACCTGGCGAAAGCCAAACCGAAGGTCTTCGCCAAAGGGCTGGCCGTCTCCGGACCGGGCTATATGGCGTGGCCGATCCCGAAAAACTCGCCGCAGCTGCTGGCCTATATGACCAAGTTTATGAACCACATGAAGGAGACCGGCAAGCTCGCCGAGCTGCAGAAAAAGTGGTTTGGCGAAACCTATGACAACCTGCCTACCGAGGCGATCACCAGCCCGGAACAGTTTCATAAGCTTGCCGGTCTGTAA	MKKSLASMCLSAVLTVAFSYHAVAADLPEIEKSGTLKVATEDDYAPFNFMNNGQADGFNKDMLEELRKYAKFHVDQSILPWTGLLAAVSTGQYDMALTGAVITDERLKVFDFTPPWASAQHYFVKRAGDTSLNTIADLSGKKVGVQAGSALLARLPELKAMLEKTGGKLGPVVEYPSYPEAYADLANKRLDYVINVVISVNDLAKAKPKVFAKGLAVSGPGYMAWPIPKNSPQLLAYMTKFMNHMKETGKLAELQKKWFGETYDNLPTEAITSPEQFHKLAGL	PGPT0020800_5251	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
BMS020_08101	1464	tauR	COG1167	HTH-type transcriptional regulator TauR	ATGATCCGTCACCTGTTACACGTTGATTTTGAGCCTGGCCGCGGTTTGCAGGAGCAGGTGCGAGAGACGCTGGTGAATGCCATTCTCAGCGGGATCTTCGCCGCCGACACCCCGCTGCCCTCCTGCCGCCAGCTGGCCAGCCAGCTGCGCGTCTCGCGCAATACCACCGCCCTGGTGTTCGAAAGCCTGGTCAACGAGGGCTATCTGATAAGCCGCCCGCGAAGCGGTTACTACCTGCATCCCGACTATCACGACGCTTCGCCTCCCGCGGTCGAGAGTGCACCGCAGCGCGAAGCGGCTGCACCACGCTGGGGCGACCGGCTGCAGATGACCCCCAGCCAGCAGGAGTCGATCCTCAAACCGGCGGGCTGGATGCACTACCGCTACCCGTTTATCTACGGCCAGCCCGATACCCGACAGTTCCCGCTGGCCACCTGGCGCTCGGCGGCCAACTGGCTGCACGGCGGGGTGCGCGATCCGGCGTGGGTGGTCGACCATATTGACCAGGATGTGCCGATGCTCATCGAGCAGATCCGCACCCGGGTGCTGCCCAAGCGCGGCATTGTCGCCGCCCCGGACGAAATTCTCATCACCCTGGGCTCGCAAAACGCCCTCTACCTGCTGACACGGCTGCTGCTCTCTTCCACCACCCGCATTGGCGTCGAAAACCCCTGCTTTCGCGAAGCCATCAACACCTTTCTGCTCGCCGACGCCGAGGTGGCGCCGCACCCGGTGGATGAAGAGGGGATCGTGCTTAATGAGCGTCCCTGCGATTACTACTATGTCACCCCCGGCCACCAGGTGCCCACCGGAGTGGCGATGAGCAGCGCGCGCCGCCGCCAGCTGCTGGAGCATGCCGCCCGCCATGACGCGGTGATCATTGAAGATGATTATGACTCGGAGAGTAACTTTACCCAAAACCCGCTGCCGGCGCTGAAGGCCAGCGATCGCAGCGGCCGGGTGGTGTATGTCAGCAGCCTGTCAAAGGCGCTGTCGCCGGGGCTGCGGCTGGGGTTTATGGTCGCCGACCCGGACCTGATCGACGAGGCGCGCGCCCTGCGCCGGCTGGTCTATCGCCATCCGCCGACCAACATTCAGTACCAGATGGCCCACTTCCTCGCCCAGGGCCATTATGAAACCCATCTGCGGCGCTACCATTACGACTCCGCCCAGCGCTGGGAGCGCCTGCACGCCGCCCTGCAGCGCTACCTGCCGTCGTGCCGCGCGCTGGCGGGAAGCGAACACGCTAACGCCTTCTGGCTGCAGACCCCGGCGCAGATCAACACCCAGCAGCTTACCTGGCGCGCCGCCCACGCCGGCGTGCTGATTGAGCCCGGGGCGCGCCATTTTCTCAACGCCGCGCCGCCGGATAACTACTTTCGCATGGGATTCCACGCCATTAACCCCGACGCCATCGCCCGGGGGGTAGAAGTCCTGCGCGGCCAGCTGGAGCAGATGGGTTAG	MIRHLLHVDFEPGRGLQEQVRETLVNAILSGIFAADTPLPSCRQLASQLRVSRNTTALVFESLVNEGYLISRPRSGYYLHPDYHDASPPAVESAPQREAAAPRWGDRLQMTPSQQESILKPAGWMHYRYPFIYGQPDTRQFPLATWRSAANWLHGGVRDPAWVVDHIDQDVPMLIEQIRTRVLPKRGIVAAPDEILITLGSQNALYLLTRLLLSSTTRIGVENPCFREAINTFLLADAEVAPHPVDEEGIVLNERPCDYYYVTPGHQVPTGVAMSSARRRQLLEHAARHDAVIIEDDYDSESNFTQNPLPALKASDRSGRVVYVSSLSKALSPGLRLGFMVADPDLIDEARALRRLVYRHPPTNIQYQMAHFLAQGHYETHLRRYHYDSAQRWERLHAALQRYLPSCRALAGSEHANAFWLQTPAQINTQQLTWRAAHAGVLIEPGARHFLNAAPPDNYFRMGFHAINPDAIARGVEVLRGQLEQMG	PGPT0016790_2427	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
BMS020_08102	1335	hisC_5		Histidinol-phosphate aminotransferase	ATGAAAGCCCGATACAAAGCCGTTGTCGACCGATACGCGCAGGCGATCCGCAGCGGGCAGCTGCCCGCCGGCAGCCGTCTGCCGACGCACCGTACCCTGGCCGCCGAGGAACGCCTCTCGCTGGCCACCGCCACGCGCGTCTACCGTGAACTGGAGGAGATGGGGCTGGTCAGTGGCGAAACCGGGCGCGGCACCTTCGTGCGGGACCTCTCGCTGCCGCCGGGGCATGGGGTCGACCAGCAGGTGGTGGCCGCCGACGTCGTGGATCTTAACTTCAACTACCCTTCGCTGCCGGCGCAGGGCGATGCGCTGCGCGAGGCGCTCAGGCAGCTGGCGATGGCGGGCGATATTGACTCGCATCTGCGCTATCAGCCTCACGCCGGGCGGCTCGCCGAGCGGGAAATCATCGCCCGCCATTTGACCTGCCTGCACTTTGCGCCGGACGCGGAAAATGTCCTGATCGTCAACGGCGCGCAGCACGGGCTGGCGGTGACCGTTATGGGGCTGTTACGTCCGGGGGATGTGGTGGCGGTTGATGCGCTGACCTATTCGGGCTTCAAGGTGCTGGCGGCGCTCTATCATCTGGAGCTGGCGGCGATCCCCTGTCGGGCCGAAGGGCCGGACCTGCAGGCGCTTCACACGCTGTGCCAGCAGCGGCGGGTGCGGGCGGTGTATACCATGCCGACGCTGCACAATCCGCTGGGCTGGGTGCTCAACGCCGGGCAGCGGCAGGCGCTGGCCGACCTCGCGCGCCAGCACGATCTGCTGATTATCGAAGATGCCGCCTACGCCCGGCTGGTGAGCCGTCCGCCGCCGCCGGTGGTCAGCTATGCGCCGGAAAGAACGGTGTATGTCACCGGATTTTCGAAAAATATCGCCACCGGACTGCGCGTGGGGGTAGTGATTTCTCCGCCGCGCTATCGGCCGGAGATTGAGCGCGCCATCCGGGCCACGACGTGGAATACGCCGACGCTGATAAGCTCGCTGATCTGCGCCTGGATTGAAGATGGCACGGTGGCCCGCTTTGAAACGCAGAAACGACAAGATGCGCGACAGCGGCAGCAGGTGGCCCGCGAGGTGCTCTGCGGCCTTCCCGTCGTGAGTCATCCCGATTCGTACTTCGTCTGGCTGCCGCTGGGCGAAGAGAGCCGGGCCGACCGGCTGGCGAATGCGCTGATGGAACGCCGTATTTCGGTGTCGACCGCCGAGCCGTTCTGCGTCTCCGCCACGATCCCACAGGCGCTGCGCATCGCGCTCGGTTCGGTGCCTTTCGACAGCCTGCGCCCGGCGCTGCTCAACGTGCGCGATGCCGTCGAGTATGAGCAATCCCGCTAA	MKARYKAVVDRYAQAIRSGQLPAGSRLPTHRTLAAEERLSLATATRVYRELEEMGLVSGETGRGTFVRDLSLPPGHGVDQQVVAADVVDLNFNYPSLPAQGDALREALRQLAMAGDIDSHLRYQPHAGRLAEREIIARHLTCLHFAPDAENVLIVNGAQHGLAVTVMGLLRPGDVVAVDALTYSGFKVLAALYHLELAAIPCRAEGPDLQALHTLCQQRRVRAVYTMPTLHNPLGWVLNAGQRQALADLARQHDLLIIEDAAYARLVSRPPPPVVSYAPERTVYVTGFSKNIATGLRVGVVISPPRYRPEIERAIRATTWNTPTLISSLICAWIEDGTVARFETQKRQDARQRQQVAREVLCGLPVVSHPDSYFVWLPLGEESRADRLANALMERRISVSTAEPFCVSATIPQALRIALGSVPFDSLRPALLNVRDAVEYEQSR				NA	NA	NA	NA	NA
BMS020_08103	924			hypothetical protein	GTGGTAGATTCAACACTGGATAAATCGGCGCCCGGCCCCTGGTCCGGATGGCTTCATGGTTTACTGGGGGTGATCATTTTCAGCGGTTCGCTGCCCGCGACGCGGCTGGCGGTGCAGGATATGGATCCGTTGTTATTGACCTTTCTGCGCGCCTCCATCGCCGGGCTGCTTGCCGTCGCGCTGCTGGTCGGCTTTCGTCAGAAACGCCCGCGCCTGGCGCAGCTTGTGCCCCTGATCATCGTCTCATTCGGGGTGGTGATCGGCTTTCCCCTGCTCACGGCGCTGGCCCTGCAGCGCATTACTTCAGCGCATTCGATTGTATTCATTGGCCTGCTGCCGCTGATGACCGCCCTCTTCGGCGTACTGCGCGGCGGCGAACGTCCGCGGCGGGCTTTCTGGATCTTTTCGCTGCTGGGCAGCCTGCTGGTGATGGGATTCGCCCTGACGCAAAGTGCGGCGGCGTCGCTCAGCGGCGATCTGCTGATGCTGGCGGCAGTGATCGCCTGCGGCCTCGGCTATGCGGAAGGGGCAAAGCTGACCCGGGAGCTCGGCGGCTGGCAGGTGATCTGCTGGGCGCTGGTGATAGCCCTGCCGTTGATGCTCCCCGCCTCGCTGATAGTTCAGCCCGCGTCCTGGCGCGCCATATCGACCTCCTCCTGGGCGGCGCTCGGCTATGTGTCGCTCTTCAGCATGCTGATCGGTTTCATCTTCTGGTACAAAGGGCTGGCGGCGGGCGGGATCGCCGCCGTCGGCCAGCTCCAGCTATTGCAGCCGTTCTTCGGGCTTGGCCTGTCGGCGGCGCTGTTGCACGAAACCGTCAGCCCCTTGATGCTGGCGGTCACGCTGGGCGTGGTGCTGTGCGTGGTGGGCTCGCGCAAATTTGGCCGCCAGCGGGTTGGCGCAGGGAGCGGGAGCCGCGCCTGA	MVDSTLDKSAPGPWSGWLHGLLGVIIFSGSLPATRLAVQDMDPLLLTFLRASIAGLLAVALLVGFRQKRPRLAQLVPLIIVSFGVVIGFPLLTALALQRITSAHSIVFIGLLPLMTALFGVLRGGERPRRAFWIFSLLGSLLVMGFALTQSAAASLSGDLLMLAAVIACGLGYAEGAKLTRELGGWQVICWALVIALPLMLPASLIVQPASWRAISTSSWAALGYVSLFSMLIGFIFWYKGLAAGGIAAVGQLQLLQPFFGLGLSAALLHETVSPLMLAVTLGVVLCVVGSRKFGRQRVGAGSGSRA				NA	NA	NA	NA	NA
BMS020_08104	1269	hyuC	COG0624	N-carbamoyl-L-amino-acid hydrolase	ATGAGCAGTGATGTACTTTTTACCCCCGCCACCGACACCACCCGCTGGCGCATCAATGGCGACCGCCTGTGGGCGTCGTTAATGGACCTTGCTCAGATCGGCGCCACGCCGAAGGGCGGCTGCCGCCGTCTGACCCTCACCGACCTCGACCGCCAGGGGCGGGACCGGGTGATTAGCTGGGCGCGGGAGGCCGGGCTGAGCGTCACCATCGATAAAATCGGCAATGTGTTTATGCGCCGGGAAGGGCGCAACCCCAGCCTGCCGCCCATCGTCTCCGGCAGCCATATCGACACCCAGCCCTCCGGCGGCAAATTTGACGGCAACTACGGCGTGCTGGCGGCGCTGGAGGTGGTGCGCACGCTCAACGATCGGCAGATTGCCACCGAGGCGCCGATTGAGGTGGTGTTCTGGACCAACGAAGAGGGGGCGCGCTTCGTGCCGGTGATGATGGGCTCCGGGGTCTTTGCCGGGGTCTTCCCGCTGGAGGAGACCTGGGCCGTCACGGATAAAGAGGGCGTCAGCGTCGGCGAGGCGCTGGCGCAGATCGGCTATATCGGCGAGCAGACCCCGGGAGAACATCCCATCGGCGCCTATTTTGAGGCGCACATTGAGCAGGGACCGATCCTAGAAGATGAAGCGAAAACCATCGGTATCGTGCAGGGCGTGCTGGGGATCCGCTGGTACGACTGCGTGGTCACCGGCCAGGCGTCGCACGCCGGACCCACGCCGATGCGCCTGCGTCAGGATGCCCTGCAGGTGGCGACCCGCATTATGCAGGAGGTGGTCGCCATTGCCGGGCGCAGCGAAGAGGGACGCGGCACCGTCGGCAGCGTGCAGGTGTGGCCCAACAGCCGCAACGTGGTGCCCGGGGAGGTCACCTTCTCCATTGATATGCGCAATCTCAGCGATGCGCTGGTGGATGAAATGGATCGCCAGCTGCGGGCGTTTATCACGGAGGTTGAGCGGGAGAGCGGTCTGCAGGTGGCCCTGAAGCAGGTGAGCCATTATCCGGCGGCGCCGTTCGATGGCGAATGCCAGCAGGCCATTGCCGATGCCGCGCAGCGGCTGGGCTATCCGGCGCGGCCGATTGTCTCCGGCGCCGGGCATGACGCCGTGTATATGAGCTACCTGGCGCCGACCGGGATGATTTTTATTCCCTGCAAGGACGGGATCAGCCATAACGAAATGGAGTATGCCTCGCCGGAGCACGTCGCCGCCGGGGCCAACGTGCTGCTGCAGGTGATGCTCCAGTACGCGCGGCCGGTGTAG	MSSDVLFTPATDTTRWRINGDRLWASLMDLAQIGATPKGGCRRLTLTDLDRQGRDRVISWAREAGLSVTIDKIGNVFMRREGRNPSLPPIVSGSHIDTQPSGGKFDGNYGVLAALEVVRTLNDRQIATEAPIEVVFWTNEEGARFVPVMMGSGVFAGVFPLEETWAVTDKEGVSVGEALAQIGYIGEQTPGEHPIGAYFEAHIEQGPILEDEAKTIGIVQGVLGIRWYDCVVTGQASHAGPTPMRLRQDALQVATRIMQEVVAIAGRSEEGRGTVGSVQVWPNSRNVVPGEVTFSIDMRNLSDALVDEMDRQLRAFITEVERESGLQVALKQVSHYPAAPFDGECQQAIADAAQRLGYPARPIVSGAGHDAVYMSYLAPTGMIFIPCKDGISHNEMEYASPEHVAAGANVLLQVMLQYARPV	PGPT0021095_857	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0021095-pydC-K06016	NA	NA
BMS020_08105	1011	oppD_2	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGTCGCATAACGCCTTTGTCCATGTGCGCGACCTGCGGGTCGTCTTTCGCCGCGACGGACAGACCATCAACGCGGTCAACGGGGTCTCCTTTGACGTACAAAAGGGGGAGGTGATGGCGTTGATTGGCGAGTCGGGTTCCGGCAAGAGCGTGACCCTGCGGGCGCTGATGCGCCTGCACCCGCCGGGGAGCAGTGAGCTCTCCGGCACCCTGCGGGTGGGGGACGACGCGGTGCTGACGATGAACGCCAGCCAGCTGCGGCGCTATCGCGGCGGGCGCTGCGCGATGATTTTTCAGGAGCCGCTGCTGGCCTTCGATCCGGTCTACACCGTCGGGCAGCAGATTATAGAAGGGCTGCGCCGCCACGAAGGGCTGTCGCGCCAGGCGGCCCGGGACAGAGCGCTGGAGGCCCTGCGTCAGGTGCGCATTCCCAGCCCCGAACGGCGGCTGGAGGCTTACCCGCACGAGATGTCCGGCGGGATGCGCCAGCGGGCGATGATCGCCCTTGCGCTCTCCTGTAACCCGCAGCTGCTGCTGGCGGATGAGCCGACCACCGCCCTCGACGCCACGGTGCAAATCCAGATCCTGATCCTGCTGCGCGAGCAGCAAAAGCAGCGCGGGCTGTCGATCGTGTTTGTGACCCACGATATCGGCGCCGCGGTGGAGATTGCCGACCGGGTGGCGGTGATGTACGCCGGGCGGATCGTCGAGGAGGCCGCCATGAGCGAGATCCTGCGCCACCCGCGCCATCCTTATACCCGGGTGCTGCTGGGCAGCCGGCCGAAAGAGGGGCTCAAGAAAGGCGATGCCCTGCACTGCATTCCCGGCGCGCCGCCGGATCTGGCGCGCTTGCCCCCCGGCTGCGCCTTTGCCGAGCGCTGCCCGCACCGTCGCCCGGTCTGCGAGCAGAGCCTGCCGCCGACGGAGGCCGCAGCGGAGCGCCACACGGTGAGTTGCCACCGCTGGCGCGAGCTGGCGATTGACGCCCACGCGCAGGCCCTGGCCGTCTGA	MSHNAFVHVRDLRVVFRRDGQTINAVNGVSFDVQKGEVMALIGESGSGKSVTLRALMRLHPPGSSELSGTLRVGDDAVLTMNASQLRRYRGGRCAMIFQEPLLAFDPVYTVGQQIIEGLRRHEGLSRQAARDRALEALRQVRIPSPERRLEAYPHEMSGGMRQRAMIALALSCNPQLLLADEPTTALDATVQIQILILLREQQKQRGLSIVFVTHDIGAAVEIADRVAVMYAGRIVEEAAMSEILRHPRHPYTRVLLGSRPKEGLKKGDALHCIPGAPPDLARLPPGCAFAERCPHRRPVCEQSLPPTEAAAERHTVSCHRWRELAIDAHAQALAV	PGPT0004435_8910	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
BMS020_08106	1038	btuD_16		Vitamin B12 import ATP-binding protein BtuD	ATGCAACCCTTTACCAATATCGACCTCGGCGGGCCGGCGCAGCCGCTGCTGAAGGTCAATCACCTGCTGAAGTACTTCCGCGGCGGCAAAGGCCGGGAGGTGGTCCAGGCGGTGGACGATATCAGCTTCACGGTGATGAAAGGCGAAACTCTGGGGGTGGTCGGCGAGTCGGGCTGCGGCAAATCGACCACCGCCCGGCTGCTGATGCAGCTGCTCACCCAGGACAGCGGCGAACTGATCTTCGACGGGCTGGGGGTCGGCTCGTCGCGCCTGCCGCTGAAAGCTTACCGTCGCCAGGTGCAGATGGTTTTCCAGGACAGCTATGCCTCGCTCAATCCGCGCCTGACCATGGAGGAGAGCATCGCCTTCGGCCAGCGGGTCCACGGCGTCAGCGCCAGAGAGGCCAGCGAATACGCCCGCTATCTGCTGGCGCACGTTGGCCTTGAGCCGGCGCGCTTTGCCGACCGCTATCCCCATGCGCTCTCCGGCGGCCAGCGGCAGCGGGTGAATATCGCCCGCGCGCTGGCGATGAAGCCGCGGCTGGTCATTCTTGATGAAGCGGTGTCGGCGCTGGATAAATCGGTGGAAGCTCAGGTGCTGCAGCTGCTGCAGGAGCTGAAGCGGACCCTCGAGCTGACCTATGTGTTTATCAGCCACGATCTGCACGTGGTGCGCTGGCTGTCGGATCGGATCCTCGTCATGTACCTTGGCGAAGTGGTGGAGATTGGCCCGGCGGAGCAGCTGTTTACCGCCTCCGCCCATCCCTATACCCGGGCGCTGTTAAGCTCCATGCCCTCCATGGATCCGCAAAACCGCACCCTGACCTCGCCGCTGAGCGGCGATCCCCCCAGCCCCATCGCGCCGCCGAGCGGCTGCCGCTTTCACACCCGCTGCCCGCACGCGAAGGCGGTCTGCGCCGAGGTGAAACCGCGGCTGGAGGCGGTCGGGGAGGGGCACCAGAGCGCCTGCCTGATGGCGCAGCCGGCCTCGCCCTGGCATCAGAGCATCCCTCTTAAGGAGGTCAGCCATGTCGCATAA	MQPFTNIDLGGPAQPLLKVNHLLKYFRGGKGREVVQAVDDISFTVMKGETLGVVGESGCGKSTTARLLMQLLTQDSGELIFDGLGVGSSRLPLKAYRRQVQMVFQDSYASLNPRLTMEESIAFGQRVHGVSAREASEYARYLLAHVGLEPARFADRYPHALSGGQRQRVNIARALAMKPRLVILDEAVSALDKSVEAQVLQLLQELKRTLELTYVFISHDLHVVRWLSDRILVMYLGEVVEIGPAEQLFTASAHPYTRALLSSMPSMDPQNRTLTSPLSGDPPSPIAPPSGCRFHTRCPHAKAVCAEVKPRLEAVGEGHQSACLMAQPASPWHQSIPLKEVSHVA	PGPT0004440_6771	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
BMS020_08107	894	gsiD_3	COG1173	Glutathione transport system permease protein GsiD	ATGGTGGATACGGCAACGACGAAAGCGGTCCCGGCCGCGCCGGCCAACGCTTCCCGGCAAGGTTACTGGCGCGGCGTGCTGCGCCGCCTGCTGCGCGACCCGGGCGGGGTATTCGTCGGCGCGATCATTCTCGTTCTGCTGGCCCTGGCGCTGTTCGGGCCGTGGCTTATCGTCAAAGACCCCTATCAAACGTCGATGTTCCTGCGCCTGAAGCCCATCGGCAGCGACGGCTTCCCGCTGGGCTCTGATGAGCTGGGGCGCGACATGCTGTCGCGACTGATCCTCGGCACCCGGCTGTCGCTGTTTATGGGGATTGTCCCGGTGGTGTTCGCCTTTTTTATCGGCGGCGCCATCGGGATCATCGCTGGCTACATGGGCGGCAAAATCAATACCCTGATCATGCGCACCGTGGATGTGTTCTATGCCTTTCCCTCGGTCCTGCTGGCGATTGCGCTGTCGGGGGCGCTGGGGGCGGGCATCGGCAATGCGCTGCTGTCGCTGACCCTGGTGTTTGTCCCGCAGGTGGCGCGGATTGCCGAGAGCGTGACCGCCCAGGTACGGCATATGGACTATATCGATGCCGCCCGGGCCACCGGCGCCAGCGCGTTGACCATTATCCGCGTCCAGGTGCTGGGTAACGTGCTCGGGCCGATCTTCGTCTTTTCCACCGGGCTGATTTCGGTGTGCATGATCCTCGCCTCCGGCCTGTCGTTTCTCGGCCTCGGCGTGCGGCCGCCGGAGCCCGAGTGGGGGCTGATGCTCAATACGCTGCGCACGGCAATCTATACCCAGCCGTGGTTGGCCGCCCTGCCGGGCCTGATGATTTTTATCACCTCCATTTCGTTCAATATCCTCGCGGACCGCCTGCGTGCGGCAATGGCGATTAAGGAGTAA	MVDTATTKAVPAAPANASRQGYWRGVLRRLLRDPGGVFVGAIILVLLALALFGPWLIVKDPYQTSMFLRLKPIGSDGFPLGSDELGRDMLSRLILGTRLSLFMGIVPVVFAFFIGGAIGIIAGYMGGKINTLIMRTVDVFYAFPSVLLAIALSGALGAGIGNALLSLTLVFVPQVARIAESVTAQVRHMDYIDAARATGASALTIIRVQVLGNVLGPIFVFSTGLISVCMILASGLSFLGLGVRPPEPEWGLMLNTLRTAIYTQPWLAALPGLMIFITSISFNILADRLRAAMAIKE	PGPT0004450_8288	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
BMS020_08108	954	gsiC_4	COG0601	Glutathione transport system permease protein GsiC	ATGATCAATACGCTGCTATACCGCATTCTGCTGGCTATCCCCACCATGCTTGGGGTGGCGGTGATCTGTTTCATGCTGGTGCAGATAGCGCCTGGCGACCCGCTGGTGTCGGTAATGCCGCCGGACGCCTCGGAGGCGCTGCGCCAGACGTTGATGCAGGCCTACGGCTTTGATAAGCCGCTGCCCCTGCAGTTTATCCACTGGCTGTGGCGGGCGCTGCACGGCGACCTCGGTATGTCGGTCGCCACCGGCCGCCCGGTTATTGACGAGGTGATGACCGCGGTAAGCTACTCCCTGCGCCTGGCGCTGCTGGCGACGGCGATCGGCTTCGTCCTCGGCAGTCTGTTCGGCTTTGTCGCCGGCTATTTTCGCAACAGCGTCATTGACCGTCTGGCCTCGGTGTTGTCGGTGTTTGGCGTCAGCGTGCCGCACTACTGGCTGGGGATGCTGCTGGTGATCCTCTGCAGCGTCAAGTTCGCGCTGCTGCCGGCCACCGGCGGCGGGCCGATAGGCGAGGTGGGCTGGCAATGGGACTGGGCGCACCTGCAGTTCATGCTGCTGCCGGCCATCACGCTGTCGGTGATCCCGACCGGGATTATCGCCCGCACCGTGCGCTCGCAGGTCGCCGATATCCTCAGCCAGGAGTTTATCGTTGGCCTGCGCGCCCGCGGCCTTAACGAATCGCGCATCTTTGTCCACGTCATGAAAAATGCCGCGCCAACCGCGCTGGCGGTGATGGGGCTGCAGGTGGGCTATCTGATGGGCGGCTCGATCCTCGTGGAGACCGTCTTCTCCTGGCCGGGAACCGGGCTGCTGCTCAACACCGCCATTTTTCAGCGCGATCTGCCCCTGCTGCAGGGCACCATCTGGGTGCTGGCGCTGTTTTTCGTATTGCTCAACCTGTTGGTGGATATTCTGCAGACCACCCTCGACCCGCGCATTAAGAGGAGCTGA	MINTLLYRILLAIPTMLGVAVICFMLVQIAPGDPLVSVMPPDASEALRQTLMQAYGFDKPLPLQFIHWLWRALHGDLGMSVATGRPVIDEVMTAVSYSLRLALLATAIGFVLGSLFGFVAGYFRNSVIDRLASVLSVFGVSVPHYWLGMLLVILCSVKFALLPATGGGPIGEVGWQWDWAHLQFMLLPAITLSVIPTGIIARTVRSQVADILSQEFIVGLRARGLNESRIFVHVMKNAAPTALAVMGLQVGYLMGGSILVETVFSWPGTGLLLNTAIFQRDLPLLQGTIWVLALFFVLLNLLVDILQTTLDPRIKRS	PGPT0004445_9860	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
BMS020_08109	1668	dppA_3	COG0747	Periplasmic dipeptide transport protein	ATGCACAAAACGACGTTATTTTCGCGTGCCGGTCGTCTCGCCGTGGCGGTGAGCGGCGCACTGGCCCTGGCGGGTGCCGCCTTACCTGCCAACGCCTCCACGCTGCGGATCGCCATGACCGCCGCGGATATTCCGTTGACCCTCGGCCAGCCGGATCAGGGCTATGAGGGCAACCGCTTTACCGGCATCCCGCTGTACGACGCGCTGGTGGAGTGGGATCTGTCGCAAGGGGAAAAGCCCAGCGGTCTGGTGCCGGGGCTGGCGACCGAGTGGCACATCGATCCGCAGAACACCCGCCGCTGGATTTTCACCCTGCGTCCGGGGGTGAAATTTCATGATGGGAGCGAGGTGAACGCCGACGCCATCGTCTGGAACGTGGATAAGGTGCTCAATAAAGCAGCGCCACAGTACGCCCCGGGTCAGATCGGCAACACCCTGTCGCGGATGCCGACCCTCGCCGGCGCGGAGAAAATTGACGATCACACCGTGGCGCTGACCACCTCGGAACCGGACGCGCTGCTGCCGTACAACATCACCAACCTGTTTATTGTCTCGCCCACGGCGTGGCAGAAGCAGTATGACGCGGTGCCGGCCAGCGCGGGCGATAGCGCCGCGCGCAGCAAACAGGCGTGGACCGCCTTCGCCGCCCATGCGGTGGGCAGCGGCCCGTTCAAACTGGAGAAGCTGGTGCCGCGTCAGCAGCTGATCCTCGCGAAAAACCCCGACTACTGGAATAAAGATCGCATTCCCCGGGTGGATAAGGTGGTGCTGATCCCCTTGCCGGAGGCTAACGCCCGCACCGCGGCGCTGCTGTCGAAGCAGGTGGACTGGATTGAAGCCCCGGCGCCAGACGCCATCGATCAGATCAAGTCTCAGGGTTTTCACCTCTACGCCAACACCCAGCCGCACCTGTGGCCCTGGCAGTTCTCCTTTGAAAAAGGATCCCCGTGGCAGGACATTCGGGTGCGCAAAGCGGCCAACCTGTGTCTGAACCGCGCCGAGCTGAAGAGCTACCTCGGCGGCTATATGACCGAGGCCACCGGGGTCTACGAGGCCGACAGCCCGTGGCATGGCAAACCCACCTTCCAGATCAAATATGACCCGGACGCCGCCCGTCAGCTGATGACCGAGGCCGGATACAGCGCCGGCAAGCCGCTGCACGTCACGGTGGCGACCTCGGCTTCCGGCTCCGGGCAGATGCAGCCCTTGCCGATGAACGAGTATATCCAGCAGAGCCTGAAGAGCTGCTTCTTCAATGTGGATATCAAAGTGGTGGAATGGAACACCCTGTTCACCAACTGGCGTCTGGGCGCCCGGGATCCCTCGGCAAAAGGGATCGACGCGATCAACGTCAGCGCCGCGGTCAACGATCCCTATTTTGGCCTGATCCGCTTCTCCACCGCCAAAGCGTTTCCGCCGGTGGCGACCAACTGGGGCTACTTCTCCACCCCGGAGACGGAAAAACTGGCCGCCGCCGTCAAGCACGCCTTTACCCCGGAAGCGATGAATAAAGCCGCCGGCGAGCTGCACGCCGCGCTGGTGGATCAGGTGCCGTTCCTGTTTGTCGCCCACGACGTCGGGCCGCGCGCGATTTCGCCCGCGGTGACCGGGGTGGTGCAACCGCAGAGCTGGTTTATCGACCTCAGTCTGGTGAGCAAAAAAGAGTAA	MHKTTLFSRAGRLAVAVSGALALAGAALPANASTLRIAMTAADIPLTLGQPDQGYEGNRFTGIPLYDALVEWDLSQGEKPSGLVPGLATEWHIDPQNTRRWIFTLRPGVKFHDGSEVNADAIVWNVDKVLNKAAPQYAPGQIGNTLSRMPTLAGAEKIDDHTVALTTSEPDALLPYNITNLFIVSPTAWQKQYDAVPASAGDSAARSKQAWTAFAAHAVGSGPFKLEKLVPRQQLILAKNPDYWNKDRIPRVDKVVLIPLPEANARTAALLSKQVDWIEAPAPDAIDQIKSQGFHLYANTQPHLWPWQFSFEKGSPWQDIRVRKAANLCLNRAELKSYLGGYMTEATGVYEADSPWHGKPTFQIKYDPDAARQLMTEAGYSAGKPLHVTVATSASGSGQMQPLPMNEYIQQSLKSCFFNVDIKVVEWNTLFTNWRLGARDPSAKGIDAINVSAAVNDPYFGLIRFSTAKAFPPVATNWGYFSTPETEKLAAAVKHAFTPEAMNKAAGELHAALVDQVPFLFVAHDVGPRAISPAVTGVVQPQSWFIDLSLVSKKE	PGPT0004430_5431	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
BMS020_08110	1116	ybdK	COG2170	Putative glutamate--cysteine ligase 2	ATGCCTTTAGCCGATTTTCACCGCTCCGATCCGTTTACCCTCGGTATCGAACTGGAACTGCAGGTGGTGAACCCGCCGGGTTACGACCTCAGCCAGGATGCCTCGACCCTGATTGCCGACGTCCAGCATGAACTGACCGTGGGAGAAGCCAAGCACGATATCACCGAGAGCATGCTGGAGATCGCCACCGGGGTGTGTCGCGACATCAGCCATGCGCAAGCCCAGCTCAGCGCCATCCAGCAGGCGGTCCAGCGCGCGGCGCTGCATCATCATCTGCAGATCTGCGGCGGCGGTTCGCACCCCTTTCATGCCTGGCAGCGCCAGCAGATCAGCGACAATCCGCGCTATGTCAAAACCGTCGAGCATTTTGGCTATCTGGCGCAGCAGGCGACGGTCTTTGGCCAGCATGTGCACGTCGGCTGCCAGAGCGGCGACGACGCCATCTATCTGCTGCACGGCCTGTCGCGCTTTGTGCCGCATTTCATCGCCCTTAACGCCGCCTCGCCGTGGTTCGACAGCACCGACAGCCGCTTCGCCTGTTCGCGCCTCAACCGCTTCTCCTCTTATCCCGACAACGGCCCGATGCCGTGGGTGGCCGACTGGCAGGGGTTTCGTCGCCTGTTCCGCCAGCTGAGCTACACCAGCATGATCGACAGCATGAAGGATCTGCACTGGGATATTCGCCCCAGCCCGCAGTTTGGGACCGTCGAGGTGCGGGTGATGGACACCCCCCTGACCCTCGACCAGGCGATCCACATCGCCGGCTTTATTCAGACCCTGGCCTGCTGGCTGTTGACGGAGCGTCCTTTTAAGCACCAGCCTGACGATTATCTGCTGTACCCTTTTAACCGCTATCAGGCCTGTCGCTACGGGCTGGACGGGACTCTCACCGATGTGCGCGGCGGGGAGCAGCGCAGCATCCGCCAGGAGATCCTGCAGCTCGCCGACCGGCTGGCTCCTTTCGCCCATCAGCTGAAGGCGACGGCGGCGCTGGAGGCGGTGGTTCGTCAGGCGAAATCGCCGCACAGCGAGGCGCAGCAGATGCGCGAGTTTATCGCCAACGGCGGTTCGCTTTCCGGGCTGGTGCAAAAACACTGTGAGATTTGGGCGGCATAA	MPLADFHRSDPFTLGIELELQVVNPPGYDLSQDASTLIADVQHELTVGEAKHDITESMLEIATGVCRDISHAQAQLSAIQQAVQRAALHHHLQICGGGSHPFHAWQRQQISDNPRYVKTVEHFGYLAQQATVFGQHVHVGCQSGDDAIYLLHGLSRFVPHFIALNAASPWFDSTDSRFACSRLNRFSSYPDNGPMPWVADWQGFRRLFRQLSYTSMIDSMKDLHWDIRPSPQFGTVEVRVMDTPLTLDQAIHIAGFIQTLACWLLTERPFKHQPDDYLLYPFNRYQACRYGLDGTLTDVRGGEQRSIRQEILQLADRLAPFAHQLKATAALEAVVRQAKSPHSEAQQMREFIANGGSLSGLVQKHCEIWAA	PGPT0026300_1324	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048	NA	NA
BMS020_08111	720			hypothetical protein	ATGTTATTACGCTGCCTGCTCCCCCTGGCGCTGCTGCCCCTGGCCACCCTCGCCAGCGCCGCCTGTACCCTCACCGACCCGACGCTGACCCTGCAGAGCTATCGGGTGGATGCGCAGAAAGAGCGCATTGCGATGTACTGGCAGGATCGGCACGGCAAAGCCTGGGGTTCCCTGCGTTCGCTGCTGGCGGGTATCGATGGCGATGGCCGGGTGCAGATGGCGATGAACGGCGGCATTTACGATAAGGCCTACGCGCCGCTGGGGCTGTATATCGAAGACGGCAAGCGCCTGACGCCGGTAAACCGCTCCGCCGGCGGCGGGAACTTCTTTATCCGCCCCGGCGGCGTATTCCTGGTGGAGAACGGCCGGGCGAAAATCGTGCCGCTGCCGGCGTTTAAACGCTCTCCCGCCATCCGCTATGCGGTGCAGTCCGGCCCGATGCTGATTGAAAATGGCGCTATCAACTGGCGGCTGAAGCCCTCCGCCAGCTCGCGCAAACTGCGCAACGGCGTTGGCATCGATAAGCAGGGCCGGGTGGTGTTTATGCTCAGCGAGCGCGAGACCAACTTCTATGATTTTGCCTGCTATGCGCAGTCAAAGCTTGGGGTGCGGCAGATGCTTTATCTCGACGGCACCCTGTCGAAGATGTACCGCAAAGGCGGCAGCGTGCCGTGGCAGTATCATCCGTTCGTGACCATGATAACGGTGGAGAGGAAATAG	MLLRCLLPLALLPLATLASAACTLTDPTLTLQSYRVDAQKERIAMYWQDRHGKAWGSLRSLLAGIDGDGRVQMAMNGGIYDKAYAPLGLYIEDGKRLTPVNRSAGGGNFFIRPGGVFLVENGRAKIVPLPAFKRSPAIRYAVQSGPMLIENGAINWRLKPSASSRKLRNGVGIDKQGRVVFMLSERETNFYDFACYAQSKLGVRQMLYLDGTLSKMYRKGGSVPWQYHPFVTMITVERK				NA	NA	NA	NA	NA
BMS020_08112	3093	bepG		Efflux pump membrane transporter BepG	ATGCTGACCTTTTTTATCCGTCGTCCGCGATTTGCGATGGTGATCGCGCTGCTGCTGACCTTTGTCGGCGCGGTATCGCTGAAGCTGATCCCGGTGGAGCAGTACCCGGCGATCACGCCCCCGGTGGTGAACGTCACCGCCAGCTGGCCGGGCGCCAGCGCGTCAGACGTGGCGGAGGCCATCGCCGCCCCGCTGGAGACCCAGCTCAACGGCGTCGATCATATGCTGTATATGGAGTCCACCAGCTCGGACGAGGGGACGTACCGCCTGAGTATCACTTTCGCGGCAGGCACCGATGCCGATCTGGCGGCGATCGACGTGCAAAACCGGGTGGCGCAGGCGCTGGCGCAGCTTCCGGCGGAAGTGCAGCAGAATGGCGTCCAGGTGCGCAAGCGCGCCAGCAACCTGCTGATGGGGGTAAGCCTTTACTCGCCGCTGGGCACGCTGTCGCCGCTGTTTGTCAGCAATTACGCCAGCACCCAGGTGCGCGAGGCGCTGGCCCGCCAGCCCGGCGTCGGCGAGGTGCAGATGTTTGGCGCCCGGGATTACAGCATGCGCATCTGGCTGCGCCCGGACCGCATGAACGCCCTCAACATCACCACGGATGACGTTGCCCAGGCGCTGCGCGAGCAGAATGTGCAGGGGGCGGCGGGGCAGGTGGGCACCCCACCGGTGTTCAACGGCCAGCAGCAGACGCTGACCATCAACGGACTGGGGCGTCTGAACGAGGCGGCCAGCTTTGGCGAGATTATCCTCCGCCGCGGCGCGCAGGGGCAGCTGGTGCGCCTCGCCGACGTGGCGACCATCGAGCTGGGCGCCCGCAGCTACAGCTCCGGCGCGCAGCTGAACGGTAAAGCGTCGGCCTATCTGGGGATCTATCCGACGCCTACCGCCAACGCCCTGCAGGTCGCCAGCGCGGTGCGCGCGGAGCTTAACCGCCTGCACACTCGCTTTCCGGCGGATCTCACCTGGGAGGTGAAGTTCGATACCACCCGCTTTGTGGCGGCGACGATCAAAGAGATCGGCGTTTCGCTGGCGCTGACCCTGCTGGCGGTGGTGGTGGTGGTGTCGCTGTTCCTGCAGAGCTGGCGGGCGACGCTGATCGTGGCCCTGGCGATCCCGGTGTCACTGATCGGCACCTTTGCGGTGCTCTATCTGCTGGGCTACAGCGCCAACACCCTCAGCCTGTTCGCGATTATTCTCGCCCTGACGATGGTGGTGGATGACGCCATTGTGGTGGTGGAGAATGTCGAAACCAAAATGGCGGAAGGACTGGATCGCCTGCAGGCCACCGCCCAGGCGCTGCGGCAGATCGCCGGGCCGGTGATCGCCACGACCCTGGTGCTGTTGGCGGTGTTTGTGCCGGTGGCGCTGCTCCCGGGGATCGTCGGCGAGCTGTATCGGCAGTTTGCCGTGACGCTCTCCACCGCGGTGGCCCTGTCGAGCCTGGTGGCGTTAACCCTGACCCCGGCCCTCTGCGCGCTGCTGCTGCGCCCGCGACCCGCCCGGCCGGCGGCAGTGTGGCGGGCGTTTAACCGTCTTCTCGACGGCACCCGCGACGGCTATGGCCGGCTGGTGGGCTGGATGAACCGCCGCCCGTGGCTGGCGCTGGCGGCGACGGTAGCGGCGGGCGCGCTGGTGGCGTTCAGCTTCACCTCGATGCCGAAAGGCTTCCTGCCGCAGGAAGATCAGGGCTACCTGTTTGCCAGTGTGCAGCTGCCGGAGGCGGCGTCGCTGGAGCGTACCGAAGCGGTGATGGCCCAGGCGCGCAAGCTGCTGACGGCTAACCCGGCGGTGGAGGATGTGATTCAGGTGTCCGGCTTTAACATTCTCAACGGCACCAGCGCCGCTAACGGCGGGTTTATCTCGGTGATGCTCAAGGACTGGCATCAGCGGCCGCCGCTGGATACGGTGATGGCGGATATTCAGCGCCAGCTGCTGTCGCTGCCGGAGGCGACGATCATGACCTTCGCGCCGCCGACCCTGCCGGGCCTGGGCAATGCCTCGGGGTTTGATCTGCGCATTCTGGCGCAGGCCGGTCAGTCGTCGGCAGAGCTGGAGCAGGTGACGCGGGAGATCCTTCAGCTGGCGAACCAGCATCCGCAGCTGAGCCGGGTATTTACCACCTGGAGCAGCAACGTGCCGCAGCTGACCCTGACGGTCGACCGCGATCGGGCGGCGCTGCTGGATGTGCCGGTGGCGCAGATCTTCAGCAGCCTGCAGACGGCGTTCGGTGGCACGCGCGCCGGCGATTTCAGTCTTAACAACCGTGTCTATCATGTGGTGATGCAAAATGAGATGCAGTGGCGCGAGCGGGCTGAGCAGATTAGCGAGCTGTACGTCCGCAGCCGCGACGGCGAGCGGGTGCGGCTGAGCAATCTGGTCACCATTACGCCGACGGTGGGGGCGCCGTTTATTCAGCAGTACAACCAGTTCCCGTCCGTGTCGGTGAGCGGTTCAGCGGCCGAGGGGGTCAGCAGCCGCACGGCGATGGCGGCCATGGAGCAGATTTTGCAGGCCCATCTGCCGCCGGGGTATGACTATGCCTGGAGCGGGATCTCCTGGCAGGAGCAGCAGACCGGCAATCAGGCGGTGTGGATCGTGCTGGCAGCGGTGGCGATGGCGTGGCTGTTCCTGGTGGCGCAGTATGAAAGCTGGACGCTGCCGGCGAGCGTCATGCTCTCGGTGCTGTTCGCCATCGGCGGAGCGCTGGTCTGGCTGTGGACGGCGGGCTATGCCAACGATGTGTATGTCCAGATAGGGCTGGTGCTGCTGATCGCCCTGGCGGCGAAGAATGCGATTCTGATCGTTGAGTTCGCCCGCAGCCGGCGCGAGGAGGGGCTGTCGATAGTCGACGCCGCGCGCGAGGGCGCCACCCGCCGCTTCCGCGCGGTGATGATGACCGCGGTGTCGTTTATTATCGGCATCATGCCGATGATGCTCGCCACCGGCGCCGGGGCGCAGAGCCGGCGGATCATCGGCACCACGGTGTTCAGCGGGATGCTGGTGGCGACGATGGTTGGCATCCTGTTTATTCCTTCGCTGTATGTGCTGTTTCAGCGTATGCGCGAGTGGGCGCATCGGCGGGGGTAA	MLTFFIRRPRFAMVIALLLTFVGAVSLKLIPVEQYPAITPPVVNVTASWPGASASDVAEAIAAPLETQLNGVDHMLYMESTSSDEGTYRLSITFAAGTDADLAAIDVQNRVAQALAQLPAEVQQNGVQVRKRASNLLMGVSLYSPLGTLSPLFVSNYASTQVREALARQPGVGEVQMFGARDYSMRIWLRPDRMNALNITTDDVAQALREQNVQGAAGQVGTPPVFNGQQQTLTINGLGRLNEAASFGEIILRRGAQGQLVRLADVATIELGARSYSSGAQLNGKASAYLGIYPTPTANALQVASAVRAELNRLHTRFPADLTWEVKFDTTRFVAATIKEIGVSLALTLLAVVVVVSLFLQSWRATLIVALAIPVSLIGTFAVLYLLGYSANTLSLFAIILALTMVVDDAIVVVENVETKMAEGLDRLQATAQALRQIAGPVIATTLVLLAVFVPVALLPGIVGELYRQFAVTLSTAVALSSLVALTLTPALCALLLRPRPARPAAVWRAFNRLLDGTRDGYGRLVGWMNRRPWLALAATVAAGALVAFSFTSMPKGFLPQEDQGYLFASVQLPEAASLERTEAVMAQARKLLTANPAVEDVIQVSGFNILNGTSAANGGFISVMLKDWHQRPPLDTVMADIQRQLLSLPEATIMTFAPPTLPGLGNASGFDLRILAQAGQSSAELEQVTREILQLANQHPQLSRVFTTWSSNVPQLTLTVDRDRAALLDVPVAQIFSSLQTAFGGTRAGDFSLNNRVYHVVMQNEMQWRERAEQISELYVRSRDGERVRLSNLVTITPTVGAPFIQQYNQFPSVSVSGSAAEGVSSRTAMAAMEQILQAHLPPGYDYAWSGISWQEQQTGNQAVWIVLAAVAMAWLFLVAQYESWTLPASVMLSVLFAIGGALVWLWTAGYANDVYVQIGLVLLIALAAKNAILIVEFARSRREEGLSIVDAAREGATRRFRAVMMTAVSFIIGIMPMMLATGAGAQSRRIIGTTVFSGMLVATMVGILFIPSLYVLFQRMREWAHRRG	PGPT0003280_1207	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003280-acrB|acrE|mexB|adeJ|smeE|mtrD|cmeB-K18138	NA	NA
BMS020_08113	1080	mdtA_9		Multidrug resistance protein MdtA	ATGATTAACACCTTTCGCTTTGCGCTGCTGGCCTGCGTCCTGGGCGGCAGCGCCCTGACGGCGACCGCCGCGCCGGCGGTGCCGGTCCGCGTCGCCACGGTAGAACGGGCTCCTCACGCTGAAGAACGCGCCATCCCCGGGCGGGTCGAGGCGATCCGCGCCGTCGACATTCGCGCGCGCACCGAAGGGGTGATTGTTCAGCGCCACTTCCAGGACGGGCAGTATGTGACCGAGGGCGACCTGCTGTTTACCCTCGACGACGCGCAGCCCCGCGCGGCGCTGGCCCTGGCGCAGGCCGAGCTGAAAAGCGCCGAAGCCTCGCTACGCCAGTCGCAGCAGCTGCTCACTCGCTATGAGCGGCTCATCAACAACCACTCCATCAGCCGCAACGACCTCGACACGGCCCGGATGCAGCGCGACGTCGCCGCCGCCGCTGTGCAGCAGGCGAAAGCCCGCGTCGAGGCTCAGCAAATTGTGCTCGGTTATACCCGGATTGCGGCGCCGGTGACCGGGCGGGTGGGCCACAGCGCCTTTCACGTCGGGACGCTTGTCAACCCGTCCAGCGGGGTGCTGGCGGACATCGTGCAGCTCGATCCGGTACGGGTGTCGTTTGCCCTCGACGAAGCCGCGTTTTTCAGCAAAACCGGCCAGCATGCCGACATCCACGCCCTGAAGCAGGCATGGCTGGCGCAAATTGACGTGGATGGCAAACGGCGCGACGGCGTGTTGACCTCCATCGATAACCGGATCGACGCCCGCACCGGCAGCGTGGCGGTGCGGGCGGAGTTTGCCAATCCGCAGCACCGTCTGCTGCCGGGCGGCAGCGTGACGATCCTGTTCCGTCCGCAAGCGCTGTCGTCGCGGGTGATGATCCCGGCTGCCGCCGTGCAGCAGGATCCGCAGGGCTTTTTCAGCTGGGTGCTGAAGCCGGACCACACCGCCGGGCAGCGTCGTCTGACCCTTGCGGGGCAACAGGGGCAGCAGTTTGCGGTCGAGAAAGGGCTGCAGGCGGGCGAGCAGGTGATCACTGACGGCGCGCAGCGGCTGCGCGAAGGCGCCGCGGTGCAGGTGCTGAACTAG	MINTFRFALLACVLGGSALTATAAPAVPVRVATVERAPHAEERAIPGRVEAIRAVDIRARTEGVIVQRHFQDGQYVTEGDLLFTLDDAQPRAALALAQAELKSAEASLRQSQQLLTRYERLINNHSISRNDLDTARMQRDVAAAAVQQAKARVEAQQIVLGYTRIAAPVTGRVGHSAFHVGTLVNPSSGVLADIVQLDPVRVSFALDEAAFFSKTGQHADIHALKQAWLAQIDVDGKRRDGVLTSIDNRIDARTGSVAVRAEFANPQHRLLPGGSVTILFRPQALSSRVMIPAAAVQQDPQGFFSWVLKPDHTAGQRRLTLAGQQGQQFAVEKGLQAGEQVITDGAQRLREGAAVQVLN	PGPT0003275_3559	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585	NA	NA
BMS020_08114	2715	ctpF_2	COG0474	putative cation-transporting ATPase F	ATGAATAACCCAAAGTTTACGACGCCCTCGGGCGACACCGCGCCACGGCAGGTCTGGCAGCAGACCGTTGACGCAGTGCTGGCGCAGACCAAAAGCCAGGCCGCTGGGTTAAGTTCTGCAGACGCCGCCGAGCGCCTGAATACCTGCGGGCCGAACGCGCTGCCGGAAAAGAAGGGAAAACCGGCCTGGCTGCGCTTTCTCGCCCACTTTAACGACGTACTGATTTATGTGCTGCTGGCCGCCGCGGCGCTGACCGCCATCATGGGGCACTGGGTCGATACCCTGGTGATCCTTGGCGTGACGGTGATTAACGCCCTGATCGGCCATATCCAGGAGAGCAACGCCGAAAAATCCCTGCAGGGGATCCGCAACATGCTCTCCAGCGATGCCCGCGTCCAGCGTAACGGCAAACATGAGACTATCCCGACGCGCGACCTGGTTCCGGGGGATATCGTTATCCTGCGCGCCGGCGACCGCGTGCCGGCGGACATGCGGCTGATTGAAACGCACAACCTGCGGGTGGAAGAGGCGATCCTCACCGGCGAGTCGACGGTGGTGGATAAAATCACCGACGCGCTGGAGGGCGACCTGCCGCTGGGCGACCGGGTGAACATGGTCTTCTCCGGGACCACCGTCAGCGCCGGCGGCGGCGTCGGCGTGGTGACCGCCACCGGCGCGCAGACCGAACTCGGCCATATCAACCAGATGATGGCGGGCATTGAGAAGCACCGCACCCCGCTGCTGGTGCAGATGGATAAGCTCGGCAAAGCGATTTTCGTCATTATCCTCGCCATGATGGTGGCGCTGTTTATTTTCAGCCTCGCGTTGCGGGACATCCCGATGGGCGAACTGCTGCTGTCGCTGATTAGCCTGGCGGTGGCTGCGGTACCGGAGGGGCTGCCGGCGATCATCTCGATTATTCTGTCGCTCGGCGTCCAGACGATGGCGCGCAAGCGGGCGATTATCCGTAAGCTGCCGACCGTGGAAACCCTCGGCGCCATGACCGTGGTCTGCTCGGATAAAACCGGCACCCTGACGATGAACGAAATGACCGTCAAGGCGATCATCACCGCCGACTGCTGCTACCGGGTGGAAGGCGAAAGCTATGAGCCGCAGGGGCGGATCTTCCTTGAGGGGAGCGATGAGCCCGTGCAGGTTCAGCCGGGTACCGTGCTGGAGACCTGGCTGCGCACCATCGACCTGTGCAACGACAGCCAGCTTACCCAGGATGAGCGCGGCCTGTGGGGGATCACCGGCGGGCCAACCGAAGGGGCGCTGAAGGTGCTGGCGGCGAAAGCGCAGCTCCCGGCGGTGGAGGCCCGTCTGGTGGCCAAGATCCCCTTTGACTCACAGTACAAATATATGTCGACGCTGCAGCACATCGATGGCGATGCCCGGGTGTTAATCACCGGTGCGCCGGACGTCATCTTCGCCATGTGCCGCGAGCAGATGACCCGCCAGGGCGCGGTGCCCTTCGAGGCGCACTACTGGGAAGAGGAGATGGCGCGCTTCGCCCGTCAGGGGCTGCGCATGGTGGCGGCGGCCTGTAAGCCGGCCAGCGTTGATGCCACCACGCTGAACCATGAGGATCTGCAGGAGGGACTGATTTTCCTCGGCATCGCCGGGATGATGGATCCCCCGCGTCCGGAAGCGATTGACGCTATCCACGCCTGCCAGACCGCCGGCATCCGCGTGAAGATGATCACCGGCGACCACCCGCAGACGGCGATGAGCATCGGCCAGATGCTGGGGATCACCAACAGCAGCCAGGCCATGACCGGCTACCAGCTGGAGCACATGGACGATGCGGCGCTGGCGAAGGCGGCGGTGGAGTACGACATCTTTGCCCGCACCAGCCCGGAGCATAAGCTGCGCCTGGTGAAAGCCCTGCAGGATAACGGCGAAGTGGTCGGCATGACCGGCGACGGCGTCAACGACGCGCCGGCGCTGCGCCAGGCCGACGTGGGTATCGCCATGGGCATCAAAGGCACCGAAGTCACCAAAGAGGCGGCTGACATGGTGTTGACCGATGATAACTTCGCCACCATCGCCAGCTCGGTAAAAGAGGGCCGTCGGGTCTATGACAACCTGAAGAAGACCATCCTCTTCATCATGCCGACCAACCTGGCGCAGGGGCTGCTGATCATCATCGCCCTGCTGGCGGGGAACATGATTCCGCTGACCCCGGTGCTGATCCTGTGGATGAACATGGCGACGTCGGCGACGCTCTCCTTCGGCCTGGCCTTTGAGGCCGCGGAGCGCAACGTAATGAACCGCCCGCCGCGTAAAACCGGCCAGCACGTGATGGATGGTTTCGCCGTATGGCGGGTGGCTTTCGTCGGGTCGATGATCGCGATCGCCGCCTTTATCCTTGAGGCCTGGCTGGCGCCGCGCGGCCACAGTCCGGAGTTTATCCGCACCGTGCTGCTGCAGATGCTGGTGACAGCGCAGTGGGTCTACATGATCAACTGCCGCAGCAGCGACAGCTTCTCCCTGAGCATGGGCCTGCTGCGCAACAAAGGCATCTGGCTGGTGACCGGTGTCCTGCTGCTGATGCAGCTGGTGATTATCTATGTCCCGCTGATGCAGAGCATGTTTGGCACGGAAGCGCTGCCGCTGCGCTACTGGTTTGTCACCCTGGTCATCGGTATCGCCATGTTCCTGGTGGTGGAAGTCGAGAAGCGTCTGACGCGCCGGTTGCGCAAAACGGCCTGA	MNNPKFTTPSGDTAPRQVWQQTVDAVLAQTKSQAAGLSSADAAERLNTCGPNALPEKKGKPAWLRFLAHFNDVLIYVLLAAAALTAIMGHWVDTLVILGVTVINALIGHIQESNAEKSLQGIRNMLSSDARVQRNGKHETIPTRDLVPGDIVILRAGDRVPADMRLIETHNLRVEEAILTGESTVVDKITDALEGDLPLGDRVNMVFSGTTVSAGGGVGVVTATGAQTELGHINQMMAGIEKHRTPLLVQMDKLGKAIFVIILAMMVALFIFSLALRDIPMGELLLSLISLAVAAVPEGLPAIISIILSLGVQTMARKRAIIRKLPTVETLGAMTVVCSDKTGTLTMNEMTVKAIITADCCYRVEGESYEPQGRIFLEGSDEPVQVQPGTVLETWLRTIDLCNDSQLTQDERGLWGITGGPTEGALKVLAAKAQLPAVEARLVAKIPFDSQYKYMSTLQHIDGDARVLITGAPDVIFAMCREQMTRQGAVPFEAHYWEEEMARFARQGLRMVAAACKPASVDATTLNHEDLQEGLIFLGIAGMMDPPRPEAIDAIHACQTAGIRVKMITGDHPQTAMSIGQMLGITNSSQAMTGYQLEHMDDAALAKAAVEYDIFARTSPEHKLRLVKALQDNGEVVGMTGDGVNDAPALRQADVGIAMGIKGTEVTKEAADMVLTDDNFATIASSVKEGRRVYDNLKKTILFIMPTNLAQGLLIIIALLAGNMIPLTPVLILWMNMATSATLSFGLAFEAAERNVMNRPPRKTGQHVMDGFAVWRVAFVGSMIAIAAFILEAWLAPRGHSPEFIRTVLLQMLVTAQWVYMINCRSSDSFSLSMGLLRNKGIWLVTGVLLLMQLVIIYVPLMQSMFGTEALPLRYWFVTLVIGIAMFLVVEVEKRLTRRLRKTA	PGPT0013990_3133	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CALCIUM_TRANSPORT,PGPT0013990-yloB|ctpA-K01537	NA	NA
BMS020_08115	111			hypothetical protein	ATGTTTGGAATCTACCGCGGACGCCGTCTGGCGCTGTACATCCTGCTGGCCATCATCGCTGCCACGCTGGTGGGGTATAGCACTTATAGTTTTGTAAAAGCGCTGGCATAA	MFGIYRGRRLALYILLAIIAATLVGYSTYSFVKALA				NA	NA	NA	NA	NA
BMS020_08116	249			hypothetical protein	ATGAAACATCCGCTGGAAACGCTCCTCTCCGCCGCCGGGATCTTACTGCTGGCCCTGCTCTCCTGTCTGCTGTTGCCCGCGCCGTCGCTGGGCCTGACGCTGGCGCAAAAGCTGGTTGAGACATTCCATATGATGGATCTCAACCAGCTTTATACCGTGCTGTTTTGTCTGTGGTTCCTGGCGCTGGGCGCCATTGAGTATCTGGTGCTGCGCTGGGTGTGGCGTCGCTGGTTTTCCCTCGAACGCTAA	MKHPLETLLSAAGILLLALLSCLLLPAPSLGLTLAQKLVETFHMMDLNQLYTVLFCLWFLALGAIEYLVLRWVWRRWFSLER				NA	NA	NA	NA	NA
BMS020_08117	342	marA_2		Multiple antibiotic resistance protein MarA	ATGACGATTTCCGCTCAGGTGATTGACACTATCGTCGAGTGGATTGATGACAACCTGCATCAACCGCTGCGTATTGATGATATCGCTCGCCATGCCGGGTATTCGAAATGGCATCTGCAACGGCTGTTTTTACAGTATAAAGGGGAGAGCCTGGGGCGCTATATACGCGAAAGGAAGCTGCTGCTGGCCGCCCGCGATCTGCGCGACACCGATCAGCGGGTCTACGATATCTGCCTGAAGTATGGCTTCGATTCACAACAGACCTTTACCCGCGTCTTCACCCGGACCTTCAATCTGCCGCCGGGCGCCTACCGTAAAGAGAACCACAGCCGCGCCCACTGA	MTISAQVIDTIVEWIDDNLHQPLRIDDIARHAGYSKWHLQRLFLQYKGESLGRYIRERKLLLAARDLRDTDQRVYDICLKYGFDSQQTFTRVFTRTFNLPPGAYRKENHSRAH	PGPT0029090_147	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0029090-ramA-K18325	NA	NA
BMS020_08118	1101		COG2220	putative protein	ATGAACCGTGTCACTTTCAGCGTGGTCGCCATCATGTTACTCGCAGCAGCAACGACATTGCCGTTTGTCCTCAATGCCGGTTTTGGTAAGGCGCCGCAGGGGGCACTGCTTAGCCAGGTGGAAGCGTCTCCCCACTATCGGGACGGCCAGTTCCATAACCAACTGCCCACGCCGGGATTCACCGGGCAGAAAAATATGCTGGCGGCGTGGTGGGATTTTTTGATGACCAAACGGGAAAACGCCCGTCCCGCGCAGCCGCTGCCGCTGGTGAAAACCGACCTGGCGACGCTGCCCCTCGGGCAGGACGTGATGGTCTGGCTCGGCCACTCTTCCTGGTATCTGCAGCTGGCGGGAAAACGCATCCTGATCGACCCGGTGTTCAGCGATTACGCGGCGCCGTTCTCCTTTATCAATAAAGCCTTCCCCGGCGATTATCCGTGGCGGGCGGAAGGGATGCCGGAGATCGATCTGCTGATCGTTTCCCACGATCACTACGACCATCTGGATTACGCCACCATCCGCGCCCTGCTGCCGAAAATTAAGAGGGTCATTACGCCGCTGGGGGTTGGGTCGCACCTGCGCTACTGGGGAATGGACGGGGCGCTGATTACCGAAGCGGACTGGCAGCAGGCGATTCCGGTTAGCGACGAGCTCAGCGTCCACGTCCTGCCGGCGCGGCACTTTTCCGGCCGTGGGCTGAAGCGCAACCAGACGCTGTGGGCCAGTTTTCTGTTCGTTACCCCGCAGCAAAAGATTTATTACAGCGGCGACAGCGGGTATGGGCCGCACTTTAAAGCGATAGGCGATGAGTTCGGTCCGATCGATCTGGCGATCATGGAGAACGGACAGTATGACCAGGACTGGAAATATATCCACATGATGCCGGATGAAACGGCTCAGGCTGCTGACGACCTGCGCGCTCGCGCGGTGCTGCCTGGGCATGCAGGACGATTCGTTTTGGCGAAACATAGCTGGGATGAACCGTATCAACGGCTGGCGGCTGCCAGCGAAGGAAGGGGCTGGCGTCTGCTGACGCCTGTGCAGGGCGAGCCGTTGTGGGTCGCCGATAAGACGCAATCATTTAACGCCTGGTGGCGCTAA	MNRVTFSVVAIMLLAAATTLPFVLNAGFGKAPQGALLSQVEASPHYRDGQFHNQLPTPGFTGQKNMLAAWWDFLMTKRENARPAQPLPLVKTDLATLPLGQDVMVWLGHSSWYLQLAGKRILIDPVFSDYAAPFSFINKAFPGDYPWRAEGMPEIDLLIVSHDHYDHLDYATIRALLPKIKRVITPLGVGSHLRYWGMDGALITEADWQQAIPVSDELSVHVLPARHFSGRGLKRNQTLWASFLFVTPQQKIYYSGDSGYGPHFKAIGDEFGPIDLAIMENGQYDQDWKYIHMMPDETAQAADDLRARAVLPGHAGRFVLAKHSWDEPYQRLAAASEGRGWRLLTPVQGEPLWVADKTQSFNAWWR				NA	NA	NA	NA	NA
BMS020_08119	585			hypothetical protein	GTGGCTCGTCCAAAGAGTGAAGATAAAAAGCAAGCGTTACTGGAAGCTGCCGCCGCGGCTTTCGCCCAGTCCGGCATCGCCGCCTCGACGTCGGCCATCGCCCGCAGCGCCGGGGTTGCCGAGGGGACGCTGTTTCGCTATTTCGCCACCAAGGATGAGTTGCTCAACGAACTGTACCTCGCCATTAAGCTGCGCCTGGTGCGGATGATGATCGCCGGGCTGGATCCGGACGAAAAGCGCCCGAAAGAGAACGCGCGCAATATCTGGAACAGCTATATCGACTGGGGCGTGCGCAACCCGATGGAGCACAAGGCGATCCGCCGGATGGCGCTCAGCGAGCGCATCACGGACGAAACCCGCCGCCAGGTGAAAGAGAGCTTTCCGGAGCTCAACGAAATGTGCCAGCTGTCGGTGAAAGAGATATTCCTCAGCGAAGCGTATCGCGCCTTTGGTGATGCCCTGTTTCTGTCGCTGGCGGAAACCACTATCGAATTCGCCAGCCACGATCCGCAGCGCGCCCGGGAGATTATCGCCCTCGGCTTTGAAGCCATGTGGAACGCCCTGCATGAGGCGGACGCCAAATGA	MARPKSEDKKQALLEAAAAAFAQSGIAASTSAIARSAGVAEGTLFRYFATKDELLNELYLAIKLRLVRMMIAGLDPDEKRPKENARNIWNSYIDWGVRNPMEHKAIRRMALSERITDETRRQVKESFPELNEMCQLSVKEIFLSEAYRAFGDALFLSLAETTIEFASHDPQRAREIIALGFEAMWNALHEADAK				NA	NA	NA	NA	NA
BMS020_08120	369			hypothetical protein	ATGACGCCGGAAACGCTGCACCCCTGCGCCCACCGTATCGCCCTGACCTACCCGTTTACCGAGCACTGCTGGCCCTTTGGGCCGGAGTACGACGTGTTTAAGGTCGACGGCCGCATCTTTATGATCACCATGACCATTCGCGGCCGGGCGCTGGTCAACCTCAAGGCCGAGCCGCAGAAGTCGCTGCTCAATCAGGAAATTTATCGCAGTATCGAACCGGGCTACCATATGAACAAGAAACACTGGATCACGGTGGTGCCGGGGGACGATATCAGCGAGGATCTGCTGGCCGAGCTGATTGACGACTCATGGCATCAGGTGGTGAACAAGCTGAGCAAAAAGGCCCAGCAGCGCCTGCGTCCGCGCTGA	MTPETLHPCAHRIALTYPFTEHCWPFGPEYDVFKVDGRIFMITMTIRGRALVNLKAEPQKSLLNQEIYRSIEPGYHMNKKHWITVVPGDDISEDLLAELIDDSWHQVVNKLSKKAQQRLRPR				NA	NA	NA	NA	NA
BMS020_08121	654	nfsB_2	COG0778	Oxygen-insensitive NAD(P)H nitroreductase	ATGGATATCGTATCGGTCGCTTTGAAGCGCTATTCCACCAAGGCCTTTGACGCCACGAAAAAGCTGACTGCCGGGGAAGCGGAACAGCTGAAAACGCTGCTGCAGTACAGCCCGTCTAGCACCAACTCCCAGCCGTGGCACTTTATCGTCGCCAGCACCGATGAAGGGAAAGCCCGCGTGGCGAAAGCCGCCAGCGGTACCTACGTGTTCAACGAACGTAAAATTCTCGACGCCTCGCACGTGGTGGTGTTCTGCGCGAAAACCGCGATGGACGACGCCTGGCTGCAGCGCGTCGTGGATCAGGAAGAGGCCGATGGCCGTTTCGCCACCCCGGACGCAAAAGCCGCTAACCACAAGGGTCGCACTTTCTTTGCCGATATGCACCGCAAAGAGCTGAAGGATGACGATCAGTGGATGGCGAAGCAGGTGTATCTCAACGTCGGCAATTTCCTGCTGGGCGTAGCGGCGATGGGTCTCGACGCCGTGCCGATTGAAGGGGTTGATTTTGCGATCCTCGATGAGGAATTTGACCTGAAAGCCCAGGGCTACACCAGCCTGGTGGTGGTCCCGGTCGGCCATCATAGCGTTGAAGACTTTAACGCCTCCCTGCCGAAGTCGCGTCTGCCGCAGTCGACGACGATTACCGAGATTTAA	MDIVSVALKRYSTKAFDATKKLTAGEAEQLKTLLQYSPSSTNSQPWHFIVASTDEGKARVAKAASGTYVFNERKILDASHVVVFCAKTAMDDAWLQRVVDQEEADGRFATPDAKAANHKGRTFFADMHRKELKDDDQWMAKQVYLNVGNFLLGVAAMGLDAVPIEGVDFAILDEEFDLKAQGYTSLVVVPVGHHSVEDFNASLPKSRLPQSTTITEI	PGPT0005925_297	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_NITRO-AROMATE_DEGRADATION,PGPT0005925-nfnB|nfsB-K10679	NA	NA
BMS020_08122	288			hypothetical protein	ATGAGTAAAAAGATCATTGACTGGGATACGTTAAAAACGGAACTGCTCAGCCAGCCTGAGGTTCAGGCTGCGTTCGATGCGCAAGAACGTCAACATCGATTACGTACTATGCTGGCGCAATGGCGCGAGCAGGCGGGGCTGACCCGAGCCCAGGTGGCGCAGAGGATGGGGGTGAGTGCGCCAACGGTCTCCAGAATGGAAGCCAATATCACCCGCGCCAGTCTGGATACCTTAACGCGATACGCGTTAGCCTGCGGTATAAAGCACCCGCAAGTTTTGCTTTATTAA	MSKKIIDWDTLKTELLSQPEVQAAFDAQERQHRLRTMLAQWREQAGLTRAQVAQRMGVSAPTVSRMEANITRASLDTLTRYALACGIKHPQVLLY	PGPT0027571_43	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HigB-HigA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027571-toxin_higB1-na	NA	NA
BMS020_08123	318			hypothetical protein	ATGTTCAGAATGGTTGTGCACGTGGACGTTAAAAAGGAATTGCAGGCGCTTCCGGCCATTGTCCAGGCGAAGATGATCAGGCAATTAGACAAGTTACGCCAAAATCCCACCGCGCTGAGAGAACCTGATAGTAAACCGCTGGGGCAGGGGCTATTCGAAATTCGGGCGTTAGGTTCGGTACAGGGGCGGGGGATTTACGTTTTTCAGCAAGGCAAGACGCTCTTTCTGCTACGGGTATTTGTCAAGAAAACGCAAAAAACCCCGTCATCGGAAATTCGCCTGGCGCTGAAGCGATTAGAGGAGATGCGCAATGAGTAA	MFRMVVHVDVKKELQALPAIVQAKMIRQLDKLRQNPTALREPDSKPLGQGLFEIRALGSVQGRGIYVFQQGKTLFLLRVFVKKTQKTPSSEIRLALKRLEEMRNE	PGPT0027571_11480	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HigB-HigA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027571-toxin_higB1-na	NA	NA
BMS020_08124	1044			hypothetical protein	ATGAACGTAACCCGAAAAGAGCAGCGCATTATTCAGCGCACGCTGAACGCCTGGCAGGCCAGCGGGGAGTTAACCCCGGCAGACAGCCAGCGGCTGGCGCAAACGCTGCGCGTCTCCCCCTTTGACTGGCGGCGTCTGAGCCGCTATGCCTTCTGGACCGCGCTGGCCTGCGTGCTGATTGCTCTGGGCAGTCTGTTCGCCGACAATGAACTGGTGGCGTGGCTGCTGAGCCTGTTCAGCCGCTCGGCGCTGACGCGGATCCTGCTGCCTGCGCTGCTGGCTGTCGCCTGCTACGCCTGGGGTTTTCGCCGCCAGCGGCGGGAAACGCAGTGGCACTACAGCACCGAGGCGATTTTGTTTCTGGGCGTTGTCTTTACCGCGGTGGCGCTATGGCAGCTTGGCGAACGGCTGGATAACGGCAGCGGCCATATCGCGCCGCTGTTTCTGGCCGGATGCGTGATTTACGGCGCTATCGGCTATGCTGCCCGCTCCGGGCTGGTGTGGCTCTTTTTTCTGCTGGCGCTGGGCAACTGGTTTGGCGCGGAAACCGGCTATGTCTCGGGGTGGGGCGCCTACTGGCTGGGCATGAACTACCCGATTCGCTTCGTCCTGTTCGGCGGCGCGCTGCTGGCGCTCTGCTACGGCGCGCAGTCCCTGCTTCGCCAGCGGCAGCTGTTTACCGTCAGCAAGGCGATGGGTCTCACGTATCTGTTTATTGCGCTGTGGATCCTGTCGATTTTCGGTAATTACGACGCTGACAGCTGGTACAACGTGAGCCAGGCGCGACTCCTGCCGTGGGGGCTGCTGTTTGCCGCGGCGGCCGGCGTCTGCATTTTTATCAGTCTGAAAACCGATGACGCAATGCTGCGCGGCTTTGGGTTAACCTTCCTGGCGATCAATCTCTATACCCGCTTCTTTGAATTTTTCTGGAACGGGATGCACAAGGTGCTGTTTTTCCTGATCCTTGCCGTCTCGCTGGCGGTGATTGGCCGCTATGCCGAGCGCATCTGGCATGCGGGTGAAAGGCAGGTGGAGAACAACTAA	MNVTRKEQRIIQRTLNAWQASGELTPADSQRLAQTLRVSPFDWRRLSRYAFWTALACVLIALGSLFADNELVAWLLSLFSRSALTRILLPALLAVACYAWGFRRQRRETQWHYSTEAILFLGVVFTAVALWQLGERLDNGSGHIAPLFLAGCVIYGAIGYAARSGLVWLFFLLALGNWFGAETGYVSGWGAYWLGMNYPIRFVLFGGALLALCYGAQSLLRQRQLFTVSKAMGLTYLFIALWILSIFGNYDADSWYNVSQARLLPWGLLFAAAAGVCIFISLKTDDAMLRGFGLTFLAINLYTRFFEFFWNGMHKVLFFLILAVSLAVIGRYAERIWHAGERQVENN				NA	NA	NA	NA	NA
BMS020_08125	867			hypothetical protein	ATGACTACGATGCCGCAACGAGAGTCGACGTTCGCCGTGCCGGACGATCGGCGCAAACAGCTGGGGGCGTTTCTGCGCGCCCGGCGTGAGAGCCTCGATCCGCAGCGCCTGGGGTTGCCCCGGGTGGGCCGCCGGCGCACGCCGGGTCTGCGTCGGGAGGAGGTGGCGATGCTTGCCGACGTCGGCGTCACCTGGTACACCTGGCTGGAGCAGGGGCGGGAGGTGAATCCGTCGGAAGCGGTGCTGGTGGGGGTAGCGAATGCCCTGCAGTGCAGCCCGCTGGAGACCCGGCACCTGTTCGTTCTCGCCGGGCTGACCCCGCCGGAAGCGACCCAGGTGACGGTATGCGAAGGCATCAGCCCCGGCACCCGGCGAATGCTCGACAGCCTGATGCCGCAGCCGGCCAGTATTCAGAAACCGAACTTTGATATTGTGGCCTGGAATGACAGCTTCTGCCGCCTGATGGGCATCGATTTCGCCACCCTCCCGGAAGAAGATCGCAACTGCATTTATCTGTATCTGACCCATGAGACCTGGCGCAGCCGGATCGAAAATCGCGATGTGCTGCCGACCTTCGTCTCCTATTTCCGCGCCGCGATGGCCGAGCACCGCGGCGATCCGGCATGGGAAAACAAACTGGCGCGCTTTTTCGCCGCCTCGTCGGAGTTTGAAGCGCTGTGGCATCAGCGCTACGAGGTGCGCGGCGTGGAAAACCAGATTAAACATTTTAACCACCCGCAGCTCGGGCGATTCAGCCTGCAGCAGATGTACTGGTATTCGGCGCCGCGCAACGGTTCGCGCCTGCTGGTCTACCTGCCGATGGACGAGGCGGGCGAGCAGGCGCTGGCGTGGCTGGACCAACATTAA	MTTMPQRESTFAVPDDRRKQLGAFLRARRESLDPQRLGLPRVGRRRTPGLRREEVAMLADVGVTWYTWLEQGREVNPSEAVLVGVANALQCSPLETRHLFVLAGLTPPEATQVTVCEGISPGTRRMLDSLMPQPASIQKPNFDIVAWNDSFCRLMGIDFATLPEEDRNCIYLYLTHETWRSRIENRDVLPTFVSYFRAAMAEHRGDPAWENKLARFFAASSEFEALWHQRYEVRGVENQIKHFNHPQLGRFSLQQMYWYSAPRNGSRLLVYLPMDEAGEQALAWLDQH				NA	NA	NA	NA	NA
BMS020_08126	1428	jefA		Drug efflux pump JefA	ATGAAAACGTCTGCTGTTTCACCCGGCCGCGCCGGTCTGTGGCTGCTGCTGGGCGGCCAGATGCTGCCGCTTATTGATACCTCGATCACCAATGTGGCGCTGGACGCCATCACCCACACCCTGGCGGCCAGCGCCACGCAGCTGGAGCTTATCGTCGCGCTCTACGGCGTCGCCTTTGCCGTCTGCCTGGCGATGGGCAGTAAGCTTGGCGATAACTATGGCCGCCGTCGCCTGTTTATGTGGGGCGTCGCTCTCTTTGGCATCGCTTCCCTGCTGTGCGGCATGGCGAACAGCATCAGCGCCCTGCTGGCCGCCCGCACCCTGCAGGGCGCCGGGGCGGCGCTGATTGTGCCGCAGATCCTCGCGACCCTGCACGTCACCCTCAAAGGCCCGGCCCACGCCCGGGCCATCAGCCTGTATGGCGGGATCGGCGGGATCGCGTTTATCGTCGGTCAGATGGGCGGCGGCTGGCTGGTATCGGCGGATATCGCCGGGCTGGGCTGGCGCAACGCCTTTTTTATCAATGTGCCGATCTGCCTGCTGGTGCTGGCCCTGAGCCGCCGCTATGTGCCGGAAACCCGTCGTGAGACGCCGTCGCGGATTGACTGGCAGGGTACCCTGTACCTCGCCCTCATTCTCTGCTGCCTGCTGTTCCCGATGGCCCTCGGTCCCGAGCTGCACTGGCCGCTGTGGCTGCAGCTGATGCTGGTGGCGGTCCTGCCGCTGCTGTTCGCCATGCGTCAGAGCGCCCTGCGCCAGCAGCAGCGCGGCGACCATCCCCTGCTGCCGCCGCGTCTGCTGCAGTTAACCAGCATCCGCTTCGGGATGGCCATCGCTCTGCTGTTCTTCAGCGCCTGGTCCGGCTTTATGTTCTGCATGGCGCTGACCATGCAGGAGGGGCTGGGGATGGCGCCATGGCAGTCCGGCAATAGCTTTATCGCCCTCGGCGTGGCCTATTTTATTTCGGCGCTGTATGCCCCGCGGCTTATCGCCCGCTACAGCATGGGGCGGATCCTGTTGACCGGTCTGACGGTGCAGATCGCCGGGCTACTGCTGCTGTGCGCCACCTTCTCCCGCTTCGGCGTCGCCACCACCGCCCTGACGCTGGTCCCCGCCACGGCGCTGATCGGCTACGGTCAGGCGCTGATCGTCAACAGCTTTTACCGCATTGGCATGCGCGATATCAGCGCCAGCGACGCCGGGGCCGGGAGCGCCATCCTCAGCACCCTGCAGCAGGCGACCCTCGGTCTCGGGCCGGCTATACTCGGTTCGCTGTTTCTGGCGCTGGCCCGCCGCGGCGGCGGAAACTATCCGCAGGCGCTGATTGATTTTCTGCTGGTCGAGGTGGCCATGATGCTGTTGCTGGGGGCCATCGCGCTGTGGCTGCGCCATCATCTCAACCGACAGCCGGCGACGGTGGCGTCGTAA	MKTSAVSPGRAGLWLLLGGQMLPLIDTSITNVALDAITHTLAASATQLELIVALYGVAFAVCLAMGSKLGDNYGRRRLFMWGVALFGIASLLCGMANSISALLAARTLQGAGAALIVPQILATLHVTLKGPAHARAISLYGGIGGIAFIVGQMGGGWLVSADIAGLGWRNAFFINVPICLLVLALSRRYVPETRRETPSRIDWQGTLYLALILCCLLFPMALGPELHWPLWLQLMLVAVLPLLFAMRQSALRQQQRGDHPLLPPRLLQLTSIRFGMAIALLFFSAWSGFMFCMALTMQEGLGMAPWQSGNSFIALGVAYFISALYAPRLIARYSMGRILLTGLTVQIAGLLLLCATFSRFGVATTALTLVPATALIGYGQALIVNSFYRIGMRDISASDAGAGSAILSTLQQATLGLGPAILGSLFLALARRGGGNYPQALIDFLLVEVAMMLLLGAIALWLRHHLNRQPATVAS				NA	NA	NA	NA	NA
BMS020_08127	1245	ybdG_2	COG0668	Miniconductance mechanosensitive channel YbdG	ATGCAGGAATTAATATCGCAAATTGCCGCCTTAGGAATCGAAATAACCCCCACCCGCTCGCTGATGATTATCTTCGGCATTATCTTGTTCACCGCCGTCGTCGTGCATTTGATATTGCACAAAGTGGTCCTGCGCGCTTTTGAAAAACGGGCGTTGGCCAGCAGCCATCTGTGGTTGCAAATCATCACGCAGAATAAACTCTTTCACCGACTGGCCTTTACCCTGCAGGGGATCATCGTTAACGTGCAGGCGGTGCTGTGGCTGCAAAAAGGCAGCGAGGCCGCGGAAATATTAACCACCGTGGCTCAGCTATGGGTGATGATATATGCCATGCTGTCCTTCTTCTCGCTGCTGGATGTGATCTTAAAGCTGGCGCAGAAATTTCCCGCCGCCTCTCAGCTACCGCTGAAGGGGATATTCCAGGGAATTAAGCTGGTGACGGCGATTATTATCGGCATCCTGATTATTTCCCTGCTGATAGGCCAGTCGCCAGCGATCCTGATTAGCGGGCTCGGCGCGATGGCCGCGGTACTGATGCTGGTATTTAAAGATCCGATCCTTGGTCTGGTGGCCGGTATTCAGCTCTCGGCCAACGATATGCTCAAGCTTGGCGACTGGCTGGAGATGCCGAAGTACGGCGCCGACGGCGCGGTGATCGATATCGGCCTCACCACGGTCAAGGTACGCAACTGGGACAACACCATCACCACCATTCCGACCTGGTCGCTGGTCTCCGACTCATTTAAAAACTGGAGCGGGATGTCGGCCTCCGGCGGCCGCCGCATTAAGCGCAGCCTCAACATCGACACCACCAGCATTCATTTCCTCGATGAACAGGAGCAGCAGCGCTTGATCCGGGCGAAGTTGCTTAAACCCTATATGGATTCGCGCCACGAGGAGATTAGCGCCTGGAACCAGCAGTATGCCGGGGAGCAATCGGTCCTCAACGAGCGCCGAATGACCAATGTCGGCACCTTCCGCGCCTATCTGCAGGAGTATTTACGTCATCATCCGCGCATCCGCCAGGATATGACCCTGATGGTGCGCCAGCTGGCGCCGGATGCCAACGGCTTGCCGATCGAGATCTACTGCTTCACCAACACCGTGGTGTGGGCGGAATATGAGGGGATCCAGGCGGATATTTTCGACCATGTCTTCGCCGTGGTGGAGGAGTTTGGCTTACGCATTCATCAAACGCCCACCGGCAACGACATTCGCGCGCTGGCGGGGGCCTTCTCCCGCTAA	MQELISQIAALGIEITPTRSLMIIFGIILFTAVVVHLILHKVVLRAFEKRALASSHLWLQIITQNKLFHRLAFTLQGIIVNVQAVLWLQKGSEAAEILTTVAQLWVMIYAMLSFFSLLDVILKLAQKFPAASQLPLKGIFQGIKLVTAIIIGILIISLLIGQSPAILISGLGAMAAVLMLVFKDPILGLVAGIQLSANDMLKLGDWLEMPKYGADGAVIDIGLTTVKVRNWDNTITTIPTWSLVSDSFKNWSGMSASGGRRIKRSLNIDTTSIHFLDEQEQQRLIRAKLLKPYMDSRHEEISAWNQQYAGEQSVLNERRMTNVGTFRAYLQEYLRHHPRIRQDMTLMVRQLAPDANGLPIEIYCFTNTVVWAEYEGIQADIFDHVFAVVEEFGLRIHQTPTGNDIRALAGAFSR	PGPT0013774_790	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013774-mscM|ybdG-K16053	NA	NA
BMS020_08128	981	rbsR_5	COG1609	Ribose operon repressor	ATGTCTATTCAGAAAATTGCTCGTCTGGCCGGCGTTTCGGTGGCCACGGTGTCGCGGGTGCTGAACAACAGCGATACGGTAAAAGCCAAAAACCGTGAGCGCGTGCTGCAGGCGATCAAAGAGAGCAACTATCAGCCGAACCTGCTGGCGCGACAGCTGCGAACCGCCCGCAGCAATATGATCCTGGTGATGGTCTCCAATATCGCTAACCCCTTTTGCGCCGAGGTGGTGAAAGGGATAGAAGAAGAGGCGGAAAAGAACGGCTACCGCATTCTGCTGTGTAACTCCGGGTCGGATCTGGCCCGCTCGACCTCGGGCCTGCAGCTGCTCTCCGGCAAAATGGTCGATGGCATTATCACCATGAACGCGCTCTCCAGCCTGCCGGAACTGACCACCATGATTGGCGATGCGCCCTGGGTGCAGTGTGCGGAGTATGCCGACACCGGCAGCATCTCCTGCGTCGGGATTAACGACGTCGAGGCGGCCCAGGGGGCGGTGTCCCGGCTGGCCGACTGCGGCCGCCGGCGCATTGCGCTCATTAATCACGACCTCAGCTATCGCTACGCTCGTCTGCGCGAGCGCGGCTATAAAAGCGTGCTGCACGTGCACGGTCTGGCGTATCAGCAGGTGACCTACGCGCAGGATCTTAGCGCGGCGGCCGGTAAACGGGCGATGGAGCAGTTGCTGTCGCAAGACGAGAAGCCCGACGCGGTATTTGCCGTATCGGACTCCCTTGCCGCCGGGGCGCTGCGGGCGATTGACCAGGCCGGGCTGCGGGTGCCGGAGGATATCGCGGTGATCGGCTTCGACGGCACCGAGCTGGCGGAAGTGGTCTCCCCGCAGCTGACCACCGTTGAACAGCCCTCCCGGGCGATCGGCCGCACGGCGGTGGATCTGTTAATGAAACGCATCGACGATCCCGACGCCGCCGTCGAGCGGGTGATGATGGACTGGCGCGTGATAGCCCGCGCCAGCGCCTGA	MSIQKIARLAGVSVATVSRVLNNSDTVKAKNRERVLQAIKESNYQPNLLARQLRTARSNMILVMVSNIANPFCAEVVKGIEEEAEKNGYRILLCNSGSDLARSTSGLQLLSGKMVDGIITMNALSSLPELTTMIGDAPWVQCAEYADTGSISCVGINDVEAAQGAVSRLADCGRRRIALINHDLSYRYARLRERGYKSVLHVHGLAYQQVTYAQDLSAAAGKRAMEQLLSQDEKPDAVFAVSDSLAAGALRAIDQAGLRVPEDIAVIGFDGTELAEVVSPQLTTVEQPSRAIGRTAVDLLMKRIDDPDAAVERVMMDWRVIARASA	PGPT0021075_1735	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
BMS020_08129	417			hypothetical protein	ATGAGGCTCTCCACCGCGATTCTCGCCCTCAGCTGTGCCCTGGTAACGATCACCGGCTGCACCTCGTCAAAATCGTCACCGGAACGCCACGCCTATGCGTTCGTCGCCCACCGCTCCGATTTTGTCGGCGGCAACTTCACCGTCAACCGTCAGGAAAATTACCGTTTAAACCTGCCGACCTTCACGGCGATGTACGCCCGCGGCCAGCAGGATAAAGCCGCTGGCATGAGCGAAAGCGACGCCCGTCGCACCGCCGAGGCCATCAAACAGCAGGCGGCGCAGGGCACCCGCACCGAGCACGCCTTTACCGGCAACGCCAGCGACAAATGGGATAATGCGATGGAAAATAAAGATGCCGTCCTGTTCGGCAATGAGCTCTCCGGGGCCTATCTCGACGGCTATCTTGGGGTGAAATAA	MRLSTAILALSCALVTITGCTSSKSSPERHAYAFVAHRSDFVGGNFTVNRQENYRLNLPTFTAMYARGQQDKAAGMSESDARRTAEAIKQQAAQGTRTEHAFTGNASDKWDNAMENKDAVLFGNELSGAYLDGYLGVK				NA	NA	NA	NA	NA
BMS020_08130	1152	iolG_5		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGATTCAGGTCGCGATTATTGGGGCAGGGTTTATTGGTCCGGCGCATCTGGAGGCGCTGCGGCGGCTGGGGGATATCGAGGTGGTGGCGCTGTGCGACAGCAGCCTTGAGGCGGCGCAGCGCAAGGCGCGTGCGCTGAATATTGCCCATGCCTACGACAGCGTGGAGGCGCTGCTGGCCCATCCGGGGCTGCAGGTGGTGCATAACTGTACGCCGAACCATCTGCATGCTCAGATTAACCGGCAGATCCTCGCCGCCGGGCTGCACGTCTTCTCCGAAAAACCGCTGTGTATGACGGCGGAGGAGGCGCGGGAGCTGGTGACGCTTGCCGCCCGGGCCGGCGTGGTGCACGGCGTCAGCTTCGTCTATCGCCAGTTCGCCATGGTCCAGCAGGCGGCGGCGATGATCCGCCATGGCGATGTCGGCAGAATCTTCGCGGCGCACGGCGGCTATTTACAGGACTGGATGCTGCTGGAGACCGACTACAACTGGCGGGTTGATTCGGCGCAGGGCGGCGCGTCGCGGACGGTGGCCGACATCGGCTCCCACTGGTGCGATACCGTGCAGTTTATGACCGGTCGGCGGATTGTCGAGGTGATGGCGGATCTGTCTATCGTCTGGCCGACGCGTAAAGCGCCAGTGAATGGCAAAGCGACCTTCAGCGCCGTTCACGAGGCGCAGGGATATGAAACCCGGCCTGTCGATACCGAGGACTTTGGCTCGGTGCTGTTGCGTTTTGACGATGGCAGCAAAGGCAGCTTTATGGTCTCTCAGGTGAGCGCTGGGCGGAAAAACCGTCTGGCGGTGGAGATTAACGGCAGCCGCTGTTCTCTGGCCTGGGATCAGGAAGTGCCCCAGCGGCTGTGGATTGGCCATCGCGAGCAGCCGGATCGGCGGCTTAGCGACGACCCCAGCCTGCTGCGGCCGGAGATCGCTGACAGCGCCCATTACCCCGGCGGCCATATTGAGGGCTGGCCGGACGCCTTTAAGAATATGATGGGCCATTTTTATCAGGCGGTGCGCGCCGGGAAGATGCCGGAGGCCGGGGCCCGGCGCTTCGCCGCTTTCGACGACGGCGCCGATGTGATGTACATCATCGAGGCGATCGTCAAAAGCCATCAGCAGCAGCGCTGGGTGAGCGTCGAACGCTGA	MIQVAIIGAGFIGPAHLEALRRLGDIEVVALCDSSLEAAQRKARALNIAHAYDSVEALLAHPGLQVVHNCTPNHLHAQINRQILAAGLHVFSEKPLCMTAEEARELVTLAARAGVVHGVSFVYRQFAMVQQAAAMIRHGDVGRIFAAHGGYLQDWMLLETDYNWRVDSAQGGASRTVADIGSHWCDTVQFMTGRRIVEVMADLSIVWPTRKAPVNGKATFSAVHEAQGYETRPVDTEDFGSVLLRFDDGSKGSFMVSQVSAGRKNRLAVEINGSRCSLAWDQEVPQRLWIGHREQPDRRLSDDPSLLRPEIADSAHYPGGHIEGWPDAFKNMMGHFYQAVRAGKMPEAGARRFAAFDDGADVMYIIEAIVKSHQQQRWVSVER				NA	NA	NA	NA	NA
BMS020_08131	1023	iolE_4		Inosose dehydratase	ATGAAAACGATTAAGGGACCGGGCATTTTTCTGGCGCAGTTTATCGGCCCGCAGGCGCCGTTTAACACGCTGGAGGGGGTGGCGCAGTGGGCCGCCGGCCTCGGGTACAAGGCATTGCAGATCCCCTGCAACCACCCGGCGATTTTCGATGTCGAGCGGGCGGCGGCGAGCCAGACCTACTGCGACGAGGTCAGCGGTGTCCTGGCGGAGCATGGGCTGGCGATCAGCGAGCTGTCCACCCACCTTGAAGGACAGCTGGTGGCGGTGCATCCGGCGTATGACGCGGCGTTTGACGCCTTTGCTCCGGCGGCGCTGCATGGCGATCCGCAGGCGCGCCAGCGCTGGGCGGTGGAGAAGGTCAAGCAGGCGGCGGTGGCCTCCGGTCGCCTGGGGCTGAAGGCCCATGCGACCTTTTCCGGGGCGCTGGCATGGCCCTTTTTTTATCCATGGCCGCCGCATAATCAGCCGCTTCTGGATGAGGCCTTTGCCGAGCTGGCCCGGCGCTGGCGGCCGCTGCTGGACCTCTTCGATGAGCAGGGCGTTGATGTTTGCTACGAGATCCACCCCGGCGAAGACCTGCACGATGGCGTGACCTTTGAGCGTTTTCTCGCGCGGGTGGATAACCATCCGCGCTGCAATATGCTCTATGACCCGAGCCACCTGCATCTGCAGCAGATGGATTACCTGACCTATATCGATATCTATCATTCGCGTATTAAAGCGTTTCACGTCAAGGACGCCGAATTTCGCCGCAACGGGCGCAATGGCGTCTACGGCGGCTATCAGCCCTGGCAGCAGCGGGCTGGCCGGTTCCGCTCTCCCGGCGACGGGCAGATCGACTTCAAAGGGGTGTTCAGTAAGCTGACCGAATATGATTTTGACGGCTGGGCGGTGCTGGAGTGGGAGTGCTGCCTGAAGGACGCCGAGACCGGCGCGTGTGAGGGCAGCGAGTTTATTCGTCGCCATATCATTCCCGTTGCCGGGCGGGCCTTCGATGACTTTGCCGCCGGCGGGAGGGAATAA	MKTIKGPGIFLAQFIGPQAPFNTLEGVAQWAAGLGYKALQIPCNHPAIFDVERAAASQTYCDEVSGVLAEHGLAISELSTHLEGQLVAVHPAYDAAFDAFAPAALHGDPQARQRWAVEKVKQAAVASGRLGLKAHATFSGALAWPFFYPWPPHNQPLLDEAFAELARRWRPLLDLFDEQGVDVCYEIHPGEDLHDGVTFERFLARVDNHPRCNMLYDPSHLHLQQMDYLTYIDIYHSRIKAFHVKDAEFRRNGRNGVYGGYQPWQQRAGRFRSPGDGQIDFKGVFSKLTEYDFDGWAVLEWECCLKDAETGACEGSEFIRRHIIPVAGRAFDDFAAGGRE	PGPT0016785_21	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016785-mocC-K03335	NA	NA
BMS020_08132	1242	yegT		Putative nucleoside transporter YegT	ATGGTCACAACAACAGAAGGTCGGGAAAGTGTCCGCGTGAGCCACCGTTTTCTGGTGCCGCGGCTGTCGTTAATGATGTTTATGCAGTTCTTTATCTGGGGCAGCTGGTCGGTGACCCTGGGGCTGGTCATGACCCGCTATGAGATGTCATTGCTGATCGGCGACGCGTTCTCCGCCGGGCCGATCGCCTCCATCCTGTCTCCCTTTGTGCTGGGGATGCTGGTGGATCGCTTTTTCGCCTCGCAGAAGGTGATGGCGGTGATGCACCTGGCCGGGGCGGCGATCCTGTGGTTTGTCCCCCAGGCGCTGGTGGCGCAGAACGGCGCGCTGCTGATTGGCCTGCTGTTCGGCTATACGCTGTGCTACATGCCGACCCTGGCGCTGACCAACAATATCGCCTTCCACAGCCTGGCTAACGTCGATAAAACCTTCCCGGTGGTCCGCGTGTTCGGCACCATCGGCTGGATTATCGCCGGGATCTGCATCGGGGTGACCGGCATCTCTGACACCACCGGCATCTTCACCCTGGCGGCACTCTGTTCGGTGGCGCTGGCGATCTACAGCCTGACGCTGCCCCACACCCCGGCGCCGGCCAAAGGCATGCCGGTTCAGTTTCGCGATCTGCTGTGCGCGGACGCCTTCGCGCTGCTGAAAACGCGCCATTTCCTGATTTTCTCTCTCTGCGCCACCTTAATTTCCGTGCCGTTAGGCACCTATTACGCCTATACCGCGTCGTATCTGGCGGATGCCGGCGTTAAGGATGTCAGCACCGCGATGTCCTTCGGCCAGATGTCAGAGATCGTCTTTATGCTGGTGATCCCGCTGCTGTTCCGTCGCCTCGGGGTGAAATACATGCTGCTTATCGGCATGGTGGCGTGGTTTGTGCGCTATGCCTTTTTCGCCCTCGGCGTCAGCGAAGAGGGGCGCTTCCTGCTCTATCTTGGCATTTTGCTGCACGGCGTGTGCTATGACTTTTTCTTTGTCGTCGGCTTTATCTATACCGACCGCGTGGCGGGCGAGAAGGTCAAAGGCCAGGCGCAGAGCATGATTGTGATGTTCACCTACGGGATCGGCATGCTGCTGGGCTCGCAGATCTCCGGCGCGCTGTATAACCATCTGGTGGCCGGGCAGAGCGTGCCGCAGGCCTGGGTGACCTTCTGGTGGATCCCGGCGGTGGCCGCCGCGGTTATCGCGCTGATTTTCCTTTTCTCTTTCCAGTACAACGAGAAAGAGCCGCACTAA	MVTTTEGRESVRVSHRFLVPRLSLMMFMQFFIWGSWSVTLGLVMTRYEMSLLIGDAFSAGPIASILSPFVLGMLVDRFFASQKVMAVMHLAGAAILWFVPQALVAQNGALLIGLLFGYTLCYMPTLALTNNIAFHSLANVDKTFPVVRVFGTIGWIIAGICIGVTGISDTTGIFTLAALCSVALAIYSLTLPHTPAPAKGMPVQFRDLLCADAFALLKTRHFLIFSLCATLISVPLGTYYAYTASYLADAGVKDVSTAMSFGQMSEIVFMLVIPLLFRRLGVKYMLLIGMVAWFVRYAFFALGVSEEGRFLLYLGILLHGVCYDFFFVVGFIYTDRVAGEKVKGQAQSMIVMFTYGIGMLLGSQISGALYNHLVAGQSVPQAWVTFWWIPAVAAAVIALIFLFSFQYNEKEPH				NA	NA	NA	NA	NA
BMS020_08133	1377	pheP	COG1113	Phenylalanine-specific permease	GTGAAAGACGCGTCAACGTCGTCGGATGCCGTAGAAGAGAGCGGCCCGACGCTTCATCGCGGTTTACAGAACCGACACATTCAACTTATCGCCCTTGGCGGCGCGATTGGCACCGGCCTGTTTCTCGGCATTGGTCCGGCGATTCAAATGGCTGGCCCGGCGGTCTTGCTGGGCTACGCGGTGGCCGGGATTGTCGCTTTTCTGATCATGCGCCAGCTGGGCGAGATGGTGGTGGAAGAGCCGGTATCCGGCTCCTTTGCCCACTTTGCCTACAAATACTGGGGCCCGTTCGCCGGCTTCCTGTCCGGCTGGAACTACTGGGTGATGTTCGTGCTGGTGGGAATGGCGGAGCTGACCGCCGCCGGGATCTACATGCAGTACTGGCTGCCCGACGTTCCGACCTGGATCTGGGCGGCGGCCTTCTTCCTCATTATTAACGCCGTCAACCTCGTCAACGTGCGCCTGTATGGCGAAGCGGAGTTCTGGTTCGCGCTGATAAAAGTGCTGGCGATTATCGGCATGATTGCCTTTGGCCTGTGGATGCTGTTTGGCGGCCACGGCGGCAGCAAGGCGGGTTTCGACAACCTGTGGAAGCACGGCGGTTTCTTCGCCACCGGCTGGCACGGTCTTATCCTGTCGCTGGCGGTGATCATGTTCTCCTTCGGCGGGCTGGAGCTTATCGGCATCACCGCCGCGGAAGCGCAAAATCCGGAAAAGAGCATTCCGAAAGCGGTCAACCAGGTGGTTTATCGTATCCTGCTGTTTTATATCGGTTCGCTGGTGGTGCTGCTGGCGCTCTACCCGTGGGTGGAGATCAAATCCGACAGCAGCCCGTTTGTGATGATTTTCCATCATCTCGACAGCAACCTGGTGGCGTCCGCGCTGAACTTCGTCATTCTGGTGGCTTCGCTGTCGGTCTATAACAGCGGCGTGTACTCCAACAGCCGGATGCTGTTCGGCCTGTCGGTGCAGGGCAATGCGCCGACGTTCCTCGCCCGCGTCAGCAAGCGCGGCGTGCCGGTGAACTCTCTGCTGCTCTCGGGGATTATCACCTCGCTGGTGGTGGTGCTGAACTACCTGCTGCCGCATGAAGCGCTGGGACTGCTGATGGCCCTGGTGGTGGCGACGCTGCTGCTGAACTGGATCATGATCTGTATGGCGCACCTGAAGTTCCGCGCCGCCCAGCGGCGCAAAGGGCGTGAGTCGAAGTTTAAAGCGCTGCTGGCGCCCGCCAGCAACTACTTCTGCATTGCTTTCCTTGGGCTGATTCTGGCGCTGATGTGCACGATCGACGGGATGCGCCTGTCGGCGATCCTGCTGCCGGTGTGGATCCTGTTCCTGTTTATCGCCTTCAAACTGCTGCGCCGCCCGGCGTAA	MKDASTSSDAVEESGPTLHRGLQNRHIQLIALGGAIGTGLFLGIGPAIQMAGPAVLLGYAVAGIVAFLIMRQLGEMVVEEPVSGSFAHFAYKYWGPFAGFLSGWNYWVMFVLVGMAELTAAGIYMQYWLPDVPTWIWAAAFFLIINAVNLVNVRLYGEAEFWFALIKVLAIIGMIAFGLWMLFGGHGGSKAGFDNLWKHGGFFATGWHGLILSLAVIMFSFGGLELIGITAAEAQNPEKSIPKAVNQVVYRILLFYIGSLVVLLALYPWVEIKSDSSPFVMIFHHLDSNLVASALNFVILVASLSVYNSGVYSNSRMLFGLSVQGNAPTFLARVSKRGVPVNSLLLSGIITSLVVVLNYLLPHEALGLLMALVVATLLLNWIMICMAHLKFRAAQRRKGRESKFKALLAPASNYFCIAFLGLILALMCTIDGMRLSAILLPVWILFLFIAFKLLRRPA	PGPT0020807_625	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020807-aroP-K11734	NA	NA
BMS020_08134	1548	feaB_2	COG1012	Phenylacetaldehyde dehydrogenase	ATGGGCGGCGGCGGGAAGCCGTGCTGTGATGGGCCAACGTTGCTGAAAAAACGGGTACTGACGATGAGCGAGATAACCTTACTGGCGGAAGTGACCGCCTTTTTACGCCAGCCGCACGGGCAGTTTATCGCCGGTGAGCGAGAGGCGGGCCGCGGCGCGCCGTTTGCGGTGATCAACCCGGCCACCGGGCGGGCGATCGCCGAGGTCACCGCGGCGGATAGCGACCAGGCGGACCGCGCGGTAGAGAGCGCCCGCCAGGCGTTTAGTCAGTGGCGCGAAATGCCGACGCTGGCGCGCGGAACCTTGCTGCTGAAGCTGGCGGATGCCCTGGCTGAGCATCGCGAAGCGCTGGCGCAGCTGGAAAGTCTCTGCTCCGGTAAGACCATCACCCTGGCGCGGATGTTAGAGCTGGATCAATCGGTCGCGTTCCTGCGCTACTTCGCCGGCTGGGCGGGTAAGGTGACCGGCGAAACGCTGGATGTGTCGCTGCCGTCGATGGCCGGGGAGAAATATACCGCCTTCACCCGCCGCCAGCCGCTGGGGGTGGTGGTGGGCATCGTGCCGTGGAACTTCTCCATCATGATTGCCGTCTGGAAGCTGGCGGCGGCCCTGGTCTGCGGCTGCACCATCGTCCTCAAGCCGAGCGAGTATACGCCGCTGACGCTGCTGCGCGTGGCGGAGCTGGCGAAAGCGGTGGGTATTCCTGACGGGGTGATTAACGTGGTCAACGGCGCCGGCGGCGAGATTGCTCAGCGGCTGATTACCCATCCGGCCTGCGCCAAGGTGAGCTTCACCGGCTCGGTGGCTACCGGCGAGAAAGTCCAGCAGTCGGCTGGCGCTTTCGGTAAACGGGTCACCCTTGAGCTGGGGGGCAAAAACGCCGCGCTGTTTCTTGACGACCTGACGCCGGAGGCGATGGTCAACGGCATTCTTGAAGCCGGCTACCTGAACCAGGGGCAGATTTGCGCCGCCGCGGAGCGCTTTTATCTGCCGCAGGGCAAACTGGATGCGGTGCTGGCGCTGCTGAAAGAAAGACTCAGCGCCTTCGCGCCGGGATCGCCGCTGGATGAGCGCACGCTGATGGGGCCGCTGGCCAACCGCCAGCAGCATGAAAAAGTATTGCGGCTCATTCAGACCGCACGCGACGAGGGCGATACCATCGTCTGCGGCGGCGAAGCCCTGCCGGGGGAGGGCTATTTCCTGCAGCCGACGGCGGTCAAAGTGCGCAGTGAAGAGAGCACCCTGATGCGCGAGGAGACCTTCGGCCCGGTGTGCAGCTTTATCGGCTATCACAGTGAAGACGAGGCGCTGGCGCGGATGAATGCCTCGCCGTATGGCCTGGCGGCCAGCGTCTGGTCGGATAATATTCGCCTGGCGCTGCGCTACTCGGAGGCGATAGACGCCGGCATCGTGTGGGTCAATATGCATACCTTCCTCGACCCGGCGGTGCCGTTCGGCGGCATGAAGGGCTCGGGCATCGGTCGCGAATTCGGCAGCGCGTTTATCGATGACTACACGGAGCTGAAGTCGGTGATGGTGCGATATTAA	MGGGGKPCCDGPTLLKKRVLTMSEITLLAEVTAFLRQPHGQFIAGEREAGRGAPFAVINPATGRAIAEVTAADSDQADRAVESARQAFSQWREMPTLARGTLLLKLADALAEHREALAQLESLCSGKTITLARMLELDQSVAFLRYFAGWAGKVTGETLDVSLPSMAGEKYTAFTRRQPLGVVVGIVPWNFSIMIAVWKLAAALVCGCTIVLKPSEYTPLTLLRVAELAKAVGIPDGVINVVNGAGGEIAQRLITHPACAKVSFTGSVATGEKVQQSAGAFGKRVTLELGGKNAALFLDDLTPEAMVNGILEAGYLNQGQICAAAERFYLPQGKLDAVLALLKERLSAFAPGSPLDERTLMGPLANRQQHEKVLRLIQTARDEGDTIVCGGEALPGEGYFLQPTAVKVRSEESTLMREETFGPVCSFIGYHSEDEALARMNASPYGLAASVWSDNIRLALRYSEAIDAGIVWVNMHTFLDPAVPFGGMKGSGIGREFGSAFIDDYTELKSVMVRY	PGPT0006035_697	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_LIGNIN_DEGRADATION|LIGNINASES	PLANT_LIGNIN_DEGRADATION-DEHYDROGENASE_ACTIVITY,PGPT0006035-feaB-K00146	NA	NA
BMS020_08135	1302	puuB_4		Gamma-glutamylputrescine oxidoreductase	ATGAACATCAAAATCGATGCGCTGAACTACTACGGCGCGACGAAGAAATACCACCTCCATTTTCCGGCGCTGCGGGAAGATATTGAAGCCGACGTGGTGATTATCGGCGGCGGCTTCTCCGGCATTAACACCGCCCTTGAGCTGGCGGAACAGGGCATCACTAACGTGGTGGTGCTGGAAGCGCGCCATCTCGGCTACGGCGGCACCGGGCGCAACGGCGGCCAGGTGATGGCCGGTATCGGTCACGATATCGAAGCGGTAAAAAAGCACGTCGGCAAAGAGGGGCTGGAGACGCTGTTTAAAATCGCCAACCTCGGCGCAGGCATCATTCGCGAGCGCATCCGCAAATACAACATCGACGCCGATTTCGTCCCCGGCTACGGCTACCTCGCCTATAACCAGCGGCAGCTCAAAACGCTGCGCCAGTGGGAGAAAGAGTTTAAGGCCGCCACCCCGGATGAAGATATCGAACTGTATACCGGGAAAGAGGTGCAGCAGGTGGTCGGCTCCGAGGTCTACTGCGGCGCGCTGAAACATATGGGCGGCGGGCAGATACATTCGCTCAATATGCTCCTCGGCTCGGCGCAGGCCGCCCATTCGCTGGGGGTGAAGATCTTCGAATCCTCGCCGGTGGTGGAGGTGAATTACGGCAAACAGGTGCGGGTACGGACCGCGATGGGCAGCGTCAAAGCCGCCAAGCTGCTGTGGGCCTGCGACAGCTTCCTCAACAATATGGAGCCGGAGATCTACAACAAAACGCTGGTCACCTACTCCTACCAGGTATCGACCGAGCCGCTCTCCGATGAACTGATCGAGCGCATCAGCCCGCTGCGCGGCGCCTTCAGCGATATTCGCCCGGTGATTAACTACTACCGCGTCACCCGGGAAAACCGCCTGCTGTTCGGCAGCGCCACCCGCTTTGTGGAGTATACGCCGAACGATTTCGCCGCCTGGAACCGCACGCTGCTGGCGGAGGTCTTCCCCTATTTGAAGGATGTGAAGATCGATTTCGCCTGGGGCGGGCCGATGGCCTGTAGCGCCAACCTGTTCCCGCAGATCGGCACCCTACGCGATCACAACAACGTCTTTTACGTCCAGGGGTACTCCGGCTTCGGCGTCACCCCGTCGCACATCGTGTGCAAAATACTCGCCGAAGGGATCAACGGCGGTTCCGACCGCTATCGTCTGCTGAGCAGCATCCCCCACGCGACCATCCACGGCCGTGACAGCCTGCGCTTGCTATTAGTCACTGCCGGAAAACTGATGCATCAAACCGCCGGTTTCTGGAAAGGCCGGAGTTAA	MNIKIDALNYYGATKKYHLHFPALREDIEADVVIIGGGFSGINTALELAEQGITNVVVLEARHLGYGGTGRNGGQVMAGIGHDIEAVKKHVGKEGLETLFKIANLGAGIIRERIRKYNIDADFVPGYGYLAYNQRQLKTLRQWEKEFKAATPDEDIELYTGKEVQQVVGSEVYCGALKHMGGGQIHSLNMLLGSAQAAHSLGVKIFESSPVVEVNYGKQVRVRTAMGSVKAAKLLWACDSFLNNMEPEIYNKTLVTYSYQVSTEPLSDELIERISPLRGAFSDIRPVINYYRVTRENRLLFGSATRFVEYTPNDFAAWNRTLLAEVFPYLKDVKIDFAWGGPMACSANLFPQIGTLRDHNNVFYVQGYSGFGVTPSHIVCKILAEGINGGSDRYRLLSSIPHATIHGRDSLRLLLVTAGKLMHQTAGFWKGRS	PGPT0007637_746	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007637-puuB|ordL-K09471	NA	NA
BMS020_08136	366			hypothetical protein	ATGCACGCTTTTAAACTTAAACACCCGGTGCCCGACCTGCAGCCAATCGGCAGCGTCAGCCTGCTCGGCGCGACGCCGACCGCCGGCGACCCGCAGGTGGCCGGGGCGATGATCTACGGCGAGCCGCAGGATGCCTTTACCTGCGGACTGTTTTCGTCCACTGAGGGGAGCTTTACCATGACCTATCCGTTTACCGAACACGCCACCGTGCTGGAAGGCGAAGTGGAGCTGACCGTCGCCGGCGGCGAGCCGCAGCGCTTTGCGCCGGGCGACAGCTGGTTTGTTAAACAGGGTACCGAAGTGGAGTGGAAAATCCTGACGCCGCGCTTTGTGAAGCACTACCTGGCGAACGTCGAGACGCGCTAA	MHAFKLKHPVPDLQPIGSVSLLGATPTAGDPQVAGAMIYGEPQDAFTCGLFSSTEGSFTMTYPFTEHATVLEGEVELTVAGGEPQRFAPGDSWFVKQGTEVEWKILTPRFVKHYLANVETR				NA	NA	NA	NA	NA
BMS020_08137	1500	steT_1	COG0531	Serine/threonine exchanger SteT	ATGTTTAGTAACAGACTTGCCAGCCATCTTGAGCGCGGGGTCGTCGGCTTCCCGACCACTCTCGCCAGCTCCGTCGGGCTGATTATGGCCAGCCCGGTGATCCTGACGGTGACCAGCGGCTTCGGCATGGGCGGTGATACCTTCGCGCTGGCGGTGCTGCTGGCCTTTATTATGATGCAGGCGCAGGTCACCACCTTTGCCGAGGCGGCGACGCTCATTCCCACCACCGGTTCGGTGTACGACTATATCTCCTGCGGCATGGGACGCTTCTTCGCCATCACCGGCGCGCTGTGCGCCTATCTGATCGTGCATATTTTCGCCGGGACGGCGGAGACGATCCTGGCCGGCATTATGGCGCTGGTGAACTTCGAATCGATCAACGCCCAGATGGCCGCTCACCAGAACACCTGGATGGTGGGCGTCGGCATGGTGGTGGTTTTCGGCCTGTTGAACGCCATCGGCGTGGAAATCTTCGGCAAGGTCGAAGTGGTGCTGACCTTCGGCATGTGGACCACGCTGACCATTTTCGGCCTGTGCGGCATTTTTATGGCGCCGGTCACCCATCTTTCCGGCTGGTTCGGCACGCCGCTGAACGTCAGCGATATCCATGGCCTGTTCGGCTATATCGGCATGGCGATGTTTATGTTCGTCGGTTGCGAACTGGTGACGCCGATGGCGCCGGAGATCAAACAGGCTCACCGTACCATTCCGCGGGCGATGGCGCTGGGCCTGCTGGGGGTCGCCAGCTGCATGTTTATCTACGGGGCGGCGATCAACCGCCAGGTGGAGAACACCGTGCTCGACGCGGCCAACAACGTCCATCTGCTGGATACGCCGATGGCGATCCCGGCCTTTGCCGAGCGGGTGATGGGCCACGCCGGCCAGTACTGGCTGGGGGTTGGGCTGCTGCTGGCGGGCTGCGCCACCATCAATACGCTGATGGCCGCGGTACCGCGCATTATTTACGGTATGGCGCTGGACGGCGCGCTGCCCCGCTTCCTGACCTGGCTGCATCCGCGCTTTAAAACGCCGGTGATCGCCATCGCCATCGGGGTGGCGATCCCCTGCCTGCACGCCTGGTATCTGAACGGCGATCTGGACCGCATCGTGCCGCTGATCCTCGCCGCGGTCTGCGCCTGGGGCGTCGCCTATCTGCTGGTTACTCTGTCGGTGGTGATGCTGCGCATTCGCCGCCCGGACCTGCCGCGCGCCTACCGCTCGCCGTGGTTCCCGCTGCCGCAGATTATCTCCAGCGTCGGAATTATCATCGCTATCGTCAATATCACCCCGCCGGGGATGGACAGCCGCCAGGTGCTGGTGCCGTTCGGCATTATGCTCGGCCTGACCGCCGCCTACGCCCTGTTCTGGACGGTGTGCGTACAGCGCGTCAATCCGTTCAAGCCGCTGGTGGTGGAAGAGGTGGTCGACCGTGCCATCAGCAACTACGAAAAACAGACCCGCGGGGAGATGACGCCAGATGTCCTCCGTCCCCTGGTTTGA	MFSNRLASHLERGVVGFPTTLASSVGLIMASPVILTVTSGFGMGGDTFALAVLLAFIMMQAQVTTFAEAATLIPTTGSVYDYISCGMGRFFAITGALCAYLIVHIFAGTAETILAGIMALVNFESINAQMAAHQNTWMVGVGMVVVFGLLNAIGVEIFGKVEVVLTFGMWTTLTIFGLCGIFMAPVTHLSGWFGTPLNVSDIHGLFGYIGMAMFMFVGCELVTPMAPEIKQAHRTIPRAMALGLLGVASCMFIYGAAINRQVENTVLDAANNVHLLDTPMAIPAFAERVMGHAGQYWLGVGLLLAGCATINTLMAAVPRIIYGMALDGALPRFLTWLHPRFKTPVIAIAIGVAIPCLHAWYLNGDLDRIVPLILAAVCAWGVAYLLVTLSVVMLRIRRPDLPRAYRSPWFPLPQIISSVGIIIAIVNITPPGMDSRQVLVPFGIMLGLTAAYALFWTVCVQRVNPFKPLVVEEVVDRAISNYEKQTRGEMTPDVLRPLV				NA	NA	NA	NA	NA
BMS020_08138	594			hypothetical protein	ATGTCCTCCGTCCCCTGGTTTGAGACGCCGTTAATGAACGCGGTGCAGCGCGATCTGGCCGGCTGGCCCTGCGAAAAGCTGAGCGAGCGCAGCGCGCTGCTGCGATTGAACGACGCCACCGCCGTCACCTTCAGCGTGCGTCAGAAGCGGCTGTTTATGGCCAGCATTCACAGTTGCGAATTTGTCGTCGCAGGGCCGGTCACCCGGCCCGTGCGCGGTCACATTCGCGCCCATCAATCCGGCTGGTGGAAACGCCAGCCGATCCGCTTTATCGGCGGCAAAGGCAGCGAGGAACTCGCCGGCTATCTCAACGGGTTTCCTAATCTCCAGCAGACCCTAAGCGAACTGGACTACCGCCGCTTTTCGTTGACCTTTGACGGTAACGGCTGGCGCTGCAGTATTGAACCCTGGGCCGCCAGCGAAGTGGTCTGTAAAATGCCGCCGCTGCGCCGCTATCTGCGGCTGGAAGCGCAGCAGCGGATGCTGCTGCTCAGCGTGCTGGCGATGATCGATCAGGCAGTCAGTCAGTGGATGCGCGGTGAAATCGTAGATGAGAAAGCATTTTCTTCCCCGCCATCACAGCGGGGAAGCTGA	MSSVPWFETPLMNAVQRDLAGWPCEKLSERSALLRLNDATAVTFSVRQKRLFMASIHSCEFVVAGPVTRPVRGHIRAHQSGWWKRQPIRFIGGKGSEELAGYLNGFPNLQQTLSELDYRRFSLTFDGNGWRCSIEPWAASEVVCKMPPLRRYLRLEAQQRMLLLSVLAMIDQAVSQWMRGEIVDEKAFSSPPSQRGS				NA	NA	NA	NA	NA
BMS020_08139	1116		COG0123	Histone deacetylase-like amidohydrolase	GTGAAAAGAAAAACCGGTTTCTTCTTTGATGAACGTTGTTTCTGGCACAGTACCGGTCTGCACGCGGTGACGCTGCCGGTGGGCGGGTGGGTGCAACCGCCCGCCGGCGGCGGTCATGCCGAATCGCCGGAGACCAAACGGCGGATGAAAAACCTGATGGACGTCTCCGGGCTGACGCCGCAGCTGGCGCTGCGCAGCGCGGCGCCGGCAAGCCTTGCGGACCTGCGGCGGATCCATCCCGACAGCTATCTTGAGCGCTTCAAGGCGATAAGCGATAACGGCGGCGGCATGCTGGGCAAAGAGGCACCGTTGGGGCCGGGCAGTTATGAAATCGCCTGTCTCTCCGCCGGACTGGCCTGCGCGGCGGTGGAAGCGGTGCTGAAGGGCGAGCTGGATAATGCCTATTCGCTGTCGCGGCCGCCCGGACACCACTGCCTGCCGGACCAGTCGATGGGCTTCTGTTTCCTCGCCAATATTCCGATTGCCGTCGAGCGGGCGAAAGCGCTGCTGGGGCTCGGCAAGGTGGCGATCATTGACTGGGACGTTCATCACGGCAACGGCACCCAGCATATCTACCTGCAGCGCGACGACGTGCTGACCATCTCCTTGCATCAGGACGGTTGCTTCCCACCCGGTTATGCCGGTGAGGACGATCGCGGCGCGGGCGCGGGCGAAGGTTACAACATCAATATTCCGCTGCTGGCCGGGGCGGGGGACGACAGCTGGCGCTATGCGCTGGAAACCATCGTTATTCCGGCGCTGGCGCGCTTTGAGCCGGAGCTGATTATCATCGCCTGCGGCTATGATGCCAACGCCATGGACCCGCTGGCGCGGATGCAGCTGCACAGCGACAGCTTCCGGGCGATGACCGGGCTGGTGCAGCAGGCGGCGGATCGTCTGTGCGGCGGGAAACTGGTGATGGTGCACGAGGGCGGCTACGCCGAATCCTACGTGCCGTTCTGCGGCCTGGCGGTGATGGAGGCCCTGAGCGGCATTCGCACCGCGGTCCAGGATCCGCTGCTGGAATTTATTCAACAGCAGCAGCCGCGGGCGGAGTTTGCGCAGTTCCAGAGGCAGGCCATCGATCGGCTGGCGCAACGGTTTGGCCTGCAGTAA	MKRKTGFFFDERCFWHSTGLHAVTLPVGGWVQPPAGGGHAESPETKRRMKNLMDVSGLTPQLALRSAAPASLADLRRIHPDSYLERFKAISDNGGGMLGKEAPLGPGSYEIACLSAGLACAAVEAVLKGELDNAYSLSRPPGHHCLPDQSMGFCFLANIPIAVERAKALLGLGKVAIIDWDVHHGNGTQHIYLQRDDVLTISLHQDGCFPPGYAGEDDRGAGAGEGYNINIPLLAGAGDDSWRYALETIVIPALARFEPELIIIACGYDANAMDPLARMQLHSDSFRAMTGLVQQAADRLCGGKLVMVHEGGYAESYVPFCGLAVMEALSGIRTAVQDPLLEFIQQQQPRAEFAQFQRQAIDRLAQRFGLQ				NA	NA	NA	NA	NA
BMS020_08140	1194			hypothetical protein	ATGTCAAGTACCCCTCTCACTGAACATGCGCTTTCCCGGCCCGCCGGGCTGGTCGTGTCCCTGCGTTTGCTGGCGGCGATTGTGATTTTCGCCGCTATTGCGCCGGGTATTCTGATGACCGCGCCGGCGGTGGCGGCGCAGCTGGCCAGCGAATGGCAGCTAAAACCCGGCCAGATCGGCTGGTTGTTCTCGGCGGAACTGGGGGCGATGAGCCTGGCGACGCTGCCGGCGTGGTGGTGGATGAGTCGCCTCGACTGGCGGCGGGTCGCCCTGACGGCCGGGGTCGTGTTTCTGACAGCCAATCTCGCCTCGGCGGCGGTGACCCAGTATGAGACGCTGCTGGCGGTGCGCTTTCTCGCCTCGCTGGCGGGCGGCACGCTGATGATTCTGTGCATCAGCTGCGCGGCGGGAACCTCGAACCCGTCGCGAGTCTATGCCTTCTGGGTGCTTGGGCAACTGCTGCTGGGGATGCTTGGTCTGCTGGTGCTGCCCGGGCTGTTTGCCAGCTTTGGCCTCAAGGTGGTCTATCTGATCCTCGCCGCCATTATGCTCTGCTGCCTGCCGCTGGTGTCTGCTTTCCCGCCGCGCTTTCAACCGTTGTCCGTCTCGCGCCAGCAGCCGCCGACGGCGCTGTGGCGTCAGGCGCTGGCGGTCCTCGCGGTGCTGACCTTCTATATCAGCCTTAGCGCGGTGTGGACTTTTATCGGCACCCTCGGCGCGGCGGCGGGCCTGAGCCCGACGCAGGTCGGCCTGGTGCTGGCGGCGGCGACGGTGTGCGGCATTATCGGCGCGGGGGGCGCGGCCCTGCGCGGCACCCGGCGGGCCGATCGTTTGCCGGTGTGGCTGGGCTACGGCCTGCTGATCCTCAGCGTCGCGCTGCTGATCGGCCAGCCGCTGCTGGCGCGCTACGCCATCGCGGCGCTGCTGTTTAAGTTCACCTGGACCTTCGTGCTGCCCTTTATTCTCGCCCGCGTCGCCGGGCTCGATAACAACGGCCGGCTGATGAACAGCATTAATCTGGTGATCGGCGGCGGCATGGCGGCCGGTCCGGCATTAGCCGGGGCTTTACTGCAGCATTTTGCCAGCGCCGATCCGCTGCTGCTGGCGGCAGGGGGCTGCGCGCTGCTGTCACTGATTTTGATTGCGGCGGCGTCGGCCGCCGGCAAAGGCTTAGCCAACGGGAGGTTAGAGTGA	MSSTPLTEHALSRPAGLVVSLRLLAAIVIFAAIAPGILMTAPAVAAQLASEWQLKPGQIGWLFSAELGAMSLATLPAWWWMSRLDWRRVALTAGVVFLTANLASAAVTQYETLLAVRFLASLAGGTLMILCISCAAGTSNPSRVYAFWVLGQLLLGMLGLLVLPGLFASFGLKVVYLILAAIMLCCLPLVSAFPPRFQPLSVSRQQPPTALWRQALAVLAVLTFYISLSAVWTFIGTLGAAAGLSPTQVGLVLAAATVCGIIGAGGAALRGTRRADRLPVWLGYGLLILSVALLIGQPLLARYAIAALLFKFTWTFVLPFILARVAGLDNNGRLMNSINLVIGGGMAAGPALAGALLQHFASADPLLLAAGGCALLSLILIAAASAAGKGLANGRLE	PGPT0028991_3866	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
BMS020_08141	684	malT_4		HTH-type transcriptional regulator MalT	ATGTCTGCTTTGTTAAAAGCCAGCCGTAATGATGCGATAATAGCCCGTTGTTTACAGACTATTTCCCAGTTAATTCCACTGTCTTCGGCGGTATTTTATCGAGTAAATAATCGGTTAAAACCCGAAAACTATATATTGCATAATATTTCTGATAATACGCACCAACAATATCTGGAAAACTTCCAGCCGCTGGATCCGTTGCTGCCGTCGCGCTTTAGCCACCAGAACACCACCATGGCGGCGATGACGCCGCGGCTCTGCGACCGCAACCGGCATTATTATCATGAATTTATGTTGCCGAATAATGTGCGCGACATGACCGAGATCTTTATTCGCCGCGAGCGGCGGATCGTCGCCGGTATCTCGCTGATGCGCGACGTGCCTTTCTCCTGCGAAGAGCGTCATCGGGCCCAGGCGGTGCTGCCGCTGGTGGAGCTGGCGATCCGCGACTGCCTGCAGGACGAAGATGACCTGCCCGCCATCCTGACGGCCAAAGAGCGGGAAATCGTCGGCATGGTGCGCGAAGGGGCCAGCAATAAGCTGATTGCCCGCCGGCTGGATATCTCGCTCTCGACGGTGAAAACGCACCTGCGCAATATTTTCGCCAAGACCGAAGTGGTCAATCGTACTGAACTCGTTTCCCGAACCTGGATGCCGGCCGCTCAGCGTACGCTGCATCTGTGA	MSALLKASRNDAIIARCLQTISQLIPLSSAVFYRVNNRLKPENYILHNISDNTHQQYLENFQPLDPLLPSRFSHQNTTMAAMTPRLCDRNRHYYHEFMLPNNVRDMTEIFIRRERRIVAGISLMRDVPFSCEERHRAQAVLPLVELAIRDCLQDEDDLPAILTAKEREIVGMVREGASNKLIARRLDISLSTVKTHLRNIFAKTEVVNRTELVSRTWMPAAQRTLHL				NA	NA	NA	NA	NA
BMS020_08142	1188	atsB	COG0641	Anaerobic sulfatase-maturating enzyme	ATGCTGAATATCGCCGCCCTGCGCCAGCAGCAAATTCCGCTGGCCGCTGAGCCGCGCTCGCCGGTGCCGTTTCATATTCTGATGAAGCCGATTGGCCCCGCCTGCAATCTCGCCTGCCGCTACTGCTATTACCCACAGGATGAAACGCCGGTCAACAAGATGGACGAGGCGCGGCTGGAGCAGTTTATCCGCCGCTATATCGCCGCCCAGCCCGCCGGCGCGCGGGAAATCAACTTTGTCTGGCAGGGCGGCGAGCCGCTGCTGGCCGGCCTGAGCTTCTACAAAAAAGCGCTCGCCCTGCAGGCGCGTTATGCCCCCGACGGCGTCACCATCAGCAACAGCCTGCAGACCAACGGCACGCTGCTCAACGACGCCTGGTGCCGGCTGTTTCGCGAGCATCGCTTTATTATCGGCTTGAGCCTCGAAGGCAGCGAAGCGCTACAGGACCAGCATCGTCCGGATAAACGCGGCCGGGCCACCTGGCCGGCGGCGCTGCGCGGCATCGACCTTCTCCACCAGCACCAGGTGGAGTTTAACCTGCTGGTGGTGGTGCATAACGAGATGGCGGCGCACGCGGCGGCGATTTATGACCGGGTGGTCAGCCTCGGCGCGCGCTATCTGCAGTTTCAGCCGCTGATGAGCGAAGGCGCAGCGCTGCGCGAGGGCTATCAGCTGAGCGCCGATAACTGGGGGCGTTTTATGGTCGGCATCTGGCGGCAGTGGCAGAAGCGCTGCGACAAGGGGCGGGTGTTCGTCATCAATATCGAGCAGGCGTGGGCGCAGTACTTCACCCACACCAGCGGCAGCTGCGTGCACAGCGCCCGCTGCGGCAGCAATCTGGTGATGGAGCCCGACGGAGAGCTCTACGCCTGCGATCATCTGATCAACGCCGAGCATCGGCTGGGCCGCCTCGATGAGCAGACGCTCGCCGCCGCGGTCGACGCCTCGGTGCAACTGCCTTTCGGTCAGCAGAAAAGCCTGCGCCGCGAATGCCAGACCTGCGCGGTCAAAATGGTCTGCCAGGGCGGCTGTCCGGCGCATCTCAACGCCGCGGGCAACAACCGCCTCTGCGGCGGCTACTACCGCTTCTTTAGCGAAATTCTTGCGCCCGTGCGCCCCTTTTCCCGCGACCTTGAAGGGCTGCAAGCCTGGCGGGCCGCGTTTGTCGGGGCCGCGCATCCGGCGTAG	MLNIAALRQQQIPLAAEPRSPVPFHILMKPIGPACNLACRYCYYPQDETPVNKMDEARLEQFIRRYIAAQPAGAREINFVWQGGEPLLAGLSFYKKALALQARYAPDGVTISNSLQTNGTLLNDAWCRLFREHRFIIGLSLEGSEALQDQHRPDKRGRATWPAALRGIDLLHQHQVEFNLLVVVHNEMAAHAAAIYDRVVSLGARYLQFQPLMSEGAALREGYQLSADNWGRFMVGIWRQWQKRCDKGRVFVINIEQAWAQYFTHTSGSCVHSARCGSNLVMEPDGELYACDHLINAEHRLGRLDEQTLAAAVDASVQLPFGQQKSLRRECQTCAVKMVCQGGCPAHLNAAGNNRLCGGYYRFFSEILAPVRPFSRDLEGLQAWRAAFVGAAHPA				NA	NA	NA	NA	NA
BMS020_08143	1734	atsA	COG3119	Arylsulfatase	GTGAATAAAACAGCCATGGCCGCGGCGGTCAGTGTCATCCTCGCCGGCGGCGCGCACGCCGCGCAGCAGGAGCGTCCGAACGTCATCGTCATTATCGCCGATGATATGGGCTACTCGGACATTAGCCCCTTCGGCGGCGAGATCCCCACCCCCAACCTGCAGGCGATGGCCGAGCAGGGGATGCGCATGAGCCAGTATTACACCTCGCCGATGTCGGCCCCGGCGCGCTCCATGCTGCTCACCGGCAACAGCAACCAGCAGGCCGGGATGGGCGGCATGTGGTGGTATGACAGCACTATTGGCAAGGAGGGCTACGAGCTGCGGCTGACCGACCGCGTCACCACCATGGCCGAGCGCTTTAAAGACGCGGGGTATAACACTCTGATGGCCGGCAAGTGGCACCTCGGTTTTGTTCCCGGCGCCACGCCGAAGGACCGCGGCTTTAACCACGCTTTCGCCTTTATGGGCGGCGGCACCAGCCATTTTAACGACGCTATTCCGCTGGGTACCGTTGAAGCGTTTCACACCTACTACACCCGCGACGGCGAGCGCGTCTCCCTGCCGGACGATTTCTACTCCAGCGAGGCCTACGCCCGGCAGATGAACAGCTGGATTAAAGACACGCCGCAGGAACAACCGGTCTTCGCCTGGCTGGCCTTTACCGCCCCGCACGACCCGCTGCAGGCGCCTGACGAATGGATCAAGCGCTTCAAAGGCCAGTATGAGCAGGGCTACGCCGAGGTCTATCGCCAGCGTATCGCCCGCCTGAAAGCGCTGGGGATTATCCATGACAACACCCCGCTGCCGCACCTTGAGCTGGATAAAGAGTGGGACGCGCTGACCCCGGAGCAGCAGAAATATACCGCGAAAGTGATGCAGGTCTACGCGGCGATGATCGCCAATATGGACGCGCAGATCGGCACCCTGATGGAAACGCTGAAGCAAACCGGTCGCGATAAAAACACCCTGCTGGTGTTCTTAACCGACAACGGCGCCAACCCGGCGCAGGGCTTCTACTACGAATCCACTCCGGAATTCTGGAAGCAGTTTGACAACAGCTATGACAACGTTGGCCGCAAAGGCTCGTTTGTCTCCTACGGCCCGCACTGGGCCAACGTCAGCAACGCCCCTTACGCCAACTATCACAAAACCACCAGCGCTCAGGGCGGGATTAACACCGACTTTATGATCGCCGGCCCCGGGATTACCCGCCACGGTAAAATCGACGCCTCGACGATGGCGGTGTATGACGTGGCGCCGACCCTGTATGAATTCGCCGGTATCGATCCGAACAAATCGCTGGCGAAGAAGCCGGTGCTGCCGATGATTGGCGTCAGCTTTAAGCGCTATCTCACCGGCGAAGTGCAGCAGCCGCCGCGCGGGAACTACGGCGTCGAGCTGCATCATCAGGCGGCGTGGGTCGATGGCGAATGGAAGCTGCGGCGGCTGGTGCCGCGGGGCTTCACCGCCGGCGACGCGCCGTGGCAGCTGTTTAATCTGCACGACGATCCGCTGGAAACTCATGACGTCGCGGCCCAACACCCCGATCGGGTCAAAGCGATGAGCGAAGCCTACGAGGCGTTCGCCAGACGCACCATGGTCACCCGGGCGCAGGGCAAAATGATCGATTACGTCGGCATCGACAGCAAGACCGGACGCTATCTGGCGGTCGACCCCGCCACCATGAAGCCGGTTCCGGCGCCGCAGGCGATCCCGGTGAGCGAGCTCCATTAA	MNKTAMAAAVSVILAGGAHAAQQERPNVIVIIADDMGYSDISPFGGEIPTPNLQAMAEQGMRMSQYYTSPMSAPARSMLLTGNSNQQAGMGGMWWYDSTIGKEGYELRLTDRVTTMAERFKDAGYNTLMAGKWHLGFVPGATPKDRGFNHAFAFMGGGTSHFNDAIPLGTVEAFHTYYTRDGERVSLPDDFYSSEAYARQMNSWIKDTPQEQPVFAWLAFTAPHDPLQAPDEWIKRFKGQYEQGYAEVYRQRIARLKALGIIHDNTPLPHLELDKEWDALTPEQQKYTAKVMQVYAAMIANMDAQIGTLMETLKQTGRDKNTLLVFLTDNGANPAQGFYYESTPEFWKQFDNSYDNVGRKGSFVSYGPHWANVSNAPYANYHKTTSAQGGINTDFMIAGPGITRHGKIDASTMAVYDVAPTLYEFAGIDPNKSLAKKPVLPMIGVSFKRYLTGEVQQPPRGNYGVELHHQAAWVDGEWKLRRLVPRGFTAGDAPWQLFNLHDDPLETHDVAAQHPDRVKAMSEAYEAFARRTMVTRAQGKMIDYVGIDSKTGRYLAVDPATMKPVPAPQAIPVSELH				NA	NA	NA	NA	NA
BMS020_08144	777	fabG_19		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGGCGAAAGTCGTGGTGATCACCGGCGGCGGAACCGGAATTGGCGCCGCCTGCGCGCGGCTGATGCGCGCCGCGGGCGACCGGGTGTTTATTACCGGACGGCGCGAGGCGCCATTGCGGGCTGTCGCCGATGAGACCGGCGCCACGGCGCTGATGGGCGATGCCGCCGACGGCGAGGCGTGGCGCCAGCGGCTGCTGCCGGCCATTCTCGACCAGGCCGGCGGTATCGATGCCCTCATCTGCAGCGCCGGCGGGATGGGCAACAGCCCCGCCGCCGATACCAGCGACCGCCAGTGGCGCGAGGCGCTGGACGGCAATCTCACCAGCGCCTTCGCCAGCGTTCGCGCCTGCCTGCCCTCGCTGATTGCCCGCCGCGGCAACGTGCTGTTTGTCGCCTCCATCGCCTCGCTGGCCGCCGGTCCGCAGGCCTGCGGCTACGTCACCGCCAAACACGCCTTAATCGGCCTGATGCGCTCCGTCGCCCGCGATTACGGCCCGCAGGGGGTGCGCGCCAACGCCGTCTGCCCCGGCTGGGTCACCACGCCGATGGCGGATGAAGAGATGCTCCCGCTGATGCAGGCGGAAGGGTTGTCGCTGACTGAGGCGTATCAGCGGGTCTGTCGCGACGTTCCGCTGCGCCGACCCGCCAGCCCCGAGGAGATAGCCGAGGTCTGTCAGTTTCTCTGTTCGCCGCAGGCCGCCATCATCAGCGGCGCTACGCTGGTCGCCGACGGCGGCGCCAGTATCGTCGATGTTCCCACTCTGGCGTTTGCCTAA	MAKVVVITGGGTGIGAACARLMRAAGDRVFITGRREAPLRAVADETGATALMGDAADGEAWRQRLLPAILDQAGGIDALICSAGGMGNSPAADTSDRQWREALDGNLTSAFASVRACLPSLIARRGNVLFVASIASLAAGPQACGYVTAKHALIGLMRSVARDYGPQGVRANAVCPGWVTTPMADEEMLPLMQAEGLSLTEAYQRVCRDVPLRRPASPEEIAEVCQFLCSPQAAIISGATLVADGGASIVDVPTLAFA	PGPT0008190_344	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
BMS020_08145	792	moaF		Protein MoaF	ATGACTTCAGAAGCCGTATTTATCCAGGTCGGCGCGCTGGCCGATGGTTTTGCGCCACACGGTAATGTACTCGCCACCGCCAGCCTGCCCGCAGGCGAGCGCTTTACCTTTTATGTCGCCGGGAGCGAGCCGCAGCAGCTGATCATCGAAGATGAGCAGACGCTAAGCTGGAACGGCACTCGCGCTCCCTGGCGGGCGACCGCCCTGCGCCCGGATATTCTGTTTATCGACTTCCTTGACCCGGAGCGGGATAACGCCAGCATCAGCGCGGTATGCAACCTGACGCAGCGCAACGCTACCCTGGTCTATGGCCAGCTGCCGGACGAAGCCGCCGCGCGGCTGGACGCCTTCAGCCGGGTGGAGCGAGGCCTGCCGCTGACCGCGGTAGAAGCGCGCTTTGTCTTCGCCCGCCTGGATGCGCAGCCGGGGCCGCTGCCGGGCTTTACCCCTGCGCTGGTCGGCATGCGCAATCAGTACACCTACAGCCCGACCGAGCGCTATGAGCACATCTATCTCAACGATAATTTTTACGCCTGGCAGTGTCTGGACGGCGTGGAAAAGGGGCTGGCGGATGTCGACCGCTGCCACTATGTGCTGGTGGCGGAGGATCTCTATCTGTTTGTCTGGCGCGAGAAAATCATTCCGACGCTGGGGGTGATCCTGATCGATCTTCAGCAAATGCGCACCGACGGCAAGATCATGGGCTATCAGGGCAGCGACTTCGGCGCCCTCAGCAATTTCCCGGTCGGCGCCAGCGCGAAGATCCTCAACATCACCCGCCATCAGGAATAA	MTSEAVFIQVGALADGFAPHGNVLATASLPAGERFTFYVAGSEPQQLIIEDEQTLSWNGTRAPWRATALRPDILFIDFLDPERDNASISAVCNLTQRNATLVYGQLPDEAAARLDAFSRVERGLPLTAVEARFVFARLDAQPGPLPGFTPALVGMRNQYTYSPTERYEHIYLNDNFYAWQCLDGVEKGLADVDRCHYVLVAEDLYLFVWREKIIPTLGVILIDLQQMRTDGKIMGYQGSDFGALSNFPVGASAKILNITRHQE				NA	NA	NA	NA	NA
BMS020_08146	2184	priA_2	COG1198	Primosomal protein N'	ATGCCCATCGCCACGCTTCAGGTCGCCCTGCCCGTCCCCCTGCCGCAGGCGTTCGACTACCTGCCGCCGCCCGGACCAGGCCCCGCCGGCGATCCGCAGGGCTGCCGGGTGCGGGTGCCGTTCGGCAGCCGCGAACTGGTCGGGGTCGTCGTCGGCCAGGGCCAGGCCGAGGACGCATGCGAGCTGAAGGCCGCCCTGGACTGGATCGACCCCGCGCCGCTGCTTGCCGGCGAGCTGGCGCGCTCGCTGCACTGGCTGGCGCGCTATACCCATGCCCCGCTCGGCGAAGTGCTGGCGACCGCCCTGCCCGGCCCGCTGCGCCGCGGCGAGCCGCTGGCCGACACCCGGATCTGGGCCTGGCAGCTGACCGAAGCCGGCCGCACGGGCCAGGCCTCGCTGCGCCAGGGCACCCGTCCGGCCCGCCTGGCGGCGCTGCTGGCCGACGGCGCGGCGACCGAGGATGCGCTGGACGGCCAGTTCGAGGGCTGGCGCGAGGCGGCGCGTGCGCTGGCCCGGCGCGAGCACGCCGAGCGCGTCGCGATCGTCGCCCCAGCGCCGGGCGCGGCCCGGCCCGGCCCGCCGCTCAATGCCGAGCAGCAGGCCGCGGTGGAGGCGCTGGCCAGCCACACCGGGTTCGGCACCTGGCTGCTGGATGGCGTGACCGGCAGCGGCAAGACCGAGGTCTACCTGCAGGCGATCGCCGACTGCCTGGCGCGCGGCCGCCAGGCGCTGGTGCTGGTGCCCGAGATCGGCCTGACCCCGCAGACGCTGGCGCGCTTCCGCGCCCGCCTGGGCACCACGGTGCACGCGCTGCACTCGGGGCTGTCCGACGGCGAACGCGCGCGGGTCTGGGCAGCCGCGTGGCGCGGCGAGGCGCGGCTGGTGGTCGGCACCCGCTCGGCGGTGTTCACCCCGTTGCCCAACGCCGGGCTGATCGTCGTCGACGAGGAGCACGACGGCAGCTACAAGCAGCAGGACGGCATCCGCTACCACGCCCGCGACTTCGCCCTGGTGCGCGGCAAGGCGCTGGACGTGCCGGTGATCCTGGGCAGCGCCACGCCGTCGCTGGAATCGCTGCACAACGCCGCCAGTGGCCGCTACCGGCACCTGCGCCTGGCCCGCCGCGCCGGCGAGGCCCGGCCGCCACAGGTGCGCGTGCTCGACGTGCGCAAACGCCCGCTGCAGGACGGCCTGTCGGCTGAAGTGCTCGCGGGCATCGGCGCGGCGCTGCAACGCGGCGAACAGGTGCTGGTGTTCAAGAACCGCCGCGGCTACGCCCCCGTGCTGCTGTGCCACGACTGCGGCTGGACCGCGCCATGCAAGCGCTGCAGCACGCCCGAACACGCCACGCCGATGACCGTGCACGGCGCCGGCCGCCGGCTGCAATGCCACCACTGCGGCGCGCGCGCACCGGTGCCGCTGGCCTGCCCGGCCTGTGGCAGCCTGGCGCTGCAGCCGCAGGGCATCGGCACCGAGCGGCTGGAGGAACGCCTGGTCGAGGCGTTCCCCGAGCACCCGGTGGTGCGCATCGACCGCGGCACCACCGCGCGACGCGATGCGCTGCAGACCCAACTGGCCAAGCTCGGCGATGCGCCCGGCATCCTGGTCGGCACCCAGATCCTGGCCAAGGGCCACGACCTGCCGAAGCTGACGATGGTAGTCGTGGTCGGCATCGACGAGGGGCTGTTCTCGGCCGATTTCCGCGCCGCCGAGAAGCTGGCCCAGCAACTGATCCAGGTCGCCGGGCGCGCCGGCCGCGCCGAGCGCCCCGGCGAGGTGTGGCTGCAGACCCACCATCCGGACAACGCGCTGCTGCACACGCTGGTGTCGGGCGGCTACCACGCCTTCGCCGCCGCCGAACTGGCGCAGCGCGAGGCGGCGGGATTCCCGCCCTTCGCGCACCTGGCGCTGTTCCGCGCCGAGGCCAAGCAGATCGACGCCGCCAACGGCTTCCTCGCCGGCGTGCGCGCCCAGCTGCAGGACGCGCAGGTCGAGGTCTACGGGCCGATGCCGGCGCCGATGCCGCGCCGTGCCGGCTTCCAGCGCAGCCAGCTGCTGCTGTCTTGTCCGCAGCGCGCGCCGCTGCATGCGCGCCTGGACCAGGCGCTGCCGGCGATCCACGCGCTGCCGGAGGCGCGCCGGGTGCGCTGGTCGCTGGATGTGGATCCGCAGGATCTGTATTAG	MPIATLQVALPVPLPQAFDYLPPPGPGPAGDPQGCRVRVPFGSRELVGVVVGQGQAEDACELKAALDWIDPAPLLAGELARSLHWLARYTHAPLGEVLATALPGPLRRGEPLADTRIWAWQLTEAGRTGQASLRQGTRPARLAALLADGAATEDALDGQFEGWREAARALARREHAERVAIVAPAPGAARPGPPLNAEQQAAVEALASHTGFGTWLLDGVTGSGKTEVYLQAIADCLARGRQALVLVPEIGLTPQTLARFRARLGTTVHALHSGLSDGERARVWAAAWRGEARLVVGTRSAVFTPLPNAGLIVVDEEHDGSYKQQDGIRYHARDFALVRGKALDVPVILGSATPSLESLHNAASGRYRHLRLARRAGEARPPQVRVLDVRKRPLQDGLSAEVLAGIGAALQRGEQVLVFKNRRGYAPVLLCHDCGWTAPCKRCSTPEHATPMTVHGAGRRLQCHHCGARAPVPLACPACGSLALQPQGIGTERLEERLVEAFPEHPVVRIDRGTTARRDALQTQLAKLGDAPGILVGTQILAKGHDLPKLTMVVVVGIDEGLFSADFRAAEKLAQQLIQVAGRAGRAERPGEVWLQTHHPDNALLHTLVSGGYHAFAAAELAQREAAGFPPFAHLALFRAEAKQIDAANGFLAGVRAQLQDAQVEVYGPMPAPMPRRAGFQRSQLLLSCPQRAPLHARLDQALPAIHALPEARRVRWSLDVDPQDLY				NA	NA	NA	NA	NA
BMS020_08147	1053	malI_3	COG1609	Maltose regulon regulatory protein MalI	ATGAACTTACCGCCTTCCGACGCCGGAAAGCCCGCGCGCAAGCGTGCGGTCACCGTGACCGACATCGCGCAGGCGGCCGGGGTGTCGCGCGCGACGGTGTCGCTGGTGCTGCGCGGCAGCTCGCTGGTCAACGCCGCCACCCGCAGCCGCGTGGAGGAGCAGCTGCGTCGCCTGGGCTACGTCTACAACCGTACCGCGGCCAACCTGCGCCGGCGCACGTCCTCGTCGATCGCGCTGGTGATCAACGACCTGTCCAATCCGTTCTTCGCCGAGTTCGCCGCCGGCGTCGACGAGGCGCTCGGCGCGCAGGGCTACGTGACCCTGCTCGGCAGCACCGGCGAGTCGCCGCAGCGGCAGCAGGCGGTGCTGGCGACGCTGATGGAGCATTCACCAACCGGCGTCATCCTGTCGCCGGCCGAAGGCAGCGATGCGGCGCAGCTGCAGCAGGTGCTGGGCGCGCATGCCAACGTGCTGCTGTTCAACCGCGAACTGCCTGGCGCCGACTGGGACTTCCTCACCCTGGACAACCAGCAGGGCGCGTACCTGGCGACCCGCCACCTGATCGAACGCGGCCATCGCGAGATCGGCTTCTTCGGTGGCCATGCGGCGTCGAGCTCGTGCCGCCAGCGCCGCGCCGGCTACCAGCAGGCACTGGCCGAGGCCGGGCTGTCGGTGCATGCGCCGTGGCTGGTCGAATCGGCGCCGACCCGGCTGGACGCCGCCGCGCGCGCGACGGCGTTGCTGGCGGCCGGCGCGCGTCCCAGCGCCGCGGTCTGCTACAACGATACGGTCGCGCTCGGCTTGATGCTGGGACTGGCCTCGCACGGCATCCGCGCCGGCGAGGACTTCGCCGTCACCGGCTTCGACGACATCGCCGAAGCCGCGCTGGCGGTGCCGCCGTTGACCACGCTGACCGCCGATCCGCGCGCACGCGGCCGCCAGGCCGCCGAACTGCTGCTGCAGCGCCAGCGCCAGCCGGACGCGCCGCCGCAGCGCACCATCGCGCCGGTGCAGCTGCAGGTCCGCCAGAGCAGTTCCGCACCGCGTAGCTGA	MNLPPSDAGKPARKRAVTVTDIAQAAGVSRATVSLVLRGSSLVNAATRSRVEEQLRRLGYVYNRTAANLRRRTSSSIALVINDLSNPFFAEFAAGVDEALGAQGYVTLLGSTGESPQRQQAVLATLMEHSPTGVILSPAEGSDAAQLQQVLGAHANVLLFNRELPGADWDFLTLDNQQGAYLATRHLIERGHREIGFFGGHAASSSCRQRRAGYQQALAEAGLSVHAPWLVESAPTRLDAAARATALLAAGARPSAAVCYNDTVALGLMLGLASHGIRAGEDFAVTGFDDIAEAALAVPPLTTLTADPRARGRQAAELLLQRQRQPDAPPQRTIAPVQLQVRQSSSAPRS	PGPT0017992_2711	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
BMS020_08148	2463			hypothetical protein	ATGCGCCGATCGCCGTCCGTTCGTTCCCGCCGTTCCCCGCGCCGCCTGGCACTGCTCGCCGGCGCTCTGTTGGCGTTGACCACGCCGTCCCTGCTGCTGGCGGCATCGTCGCCGTTCGAGCGCGAGGTCAACACCTTCATCGGCAGCCAGGACGAGGGCAACACCTATCCGGGCGCGGCGGCGCCGTTCGGCCTGATCCAGGTCAGCCCGATCGGCAGCCATTACGCCGGTTGGCGCTACAGCGACGAGACGATCCGCGGCTTCGGCCATTCCTTCATCTCCGGCGCCGGCTGCTGGGAGCAGGGTGGCCAGGTGTCGGTGCTGCCGGTCACCGGCAGCATCGGCCCGGGTGGCGACTTCGACACCGCCGATGCCAAGCGCTTCGACCACACGGCCTACGCCTCGCACTACAGCCATGACGGCGAGATCGGCCAGGCCGGCTACTACAAGGTGCGGCTGACCGACTACGGCGGCATCGATGTCGAGGCGACCGCGCGCACCCGCGCCGCGGCCGAGCGCTACACCTTCGCCGCCGATGCGACCACCGGCCAGGTGCTGGTCAACCTGGGCCAGGCCAACGAGCGCCATACCGTCATCGGCAGCACGATCGAGGTGGTCGGCGACCGCGCGGTCGAAGGCAAGCTGGTGACCAAGAGCTTCTGCGGCGGCCACCAGTACACGACCTGGTTCCGGATCGAGTTCGATCGTCCGTTCAAGGCCTTCGGCACCTGGGGTGAAGACGGCGGCCATCCCGGATCGCGCCACAGCATGGAAGGCGAACTCAAGCCGAATGGCGCCTGGCTCAGCTTCGATCTCGCCAGCGGCCGCGCGGTGACCGCGACCAGCGCGATCTCGCACGTCGATGCCGAAGGCGCACGCGGCAACCTGCGCGCGGACGGCATGGCCGACGGCAGGCTGCTCGGCTTCGAGCGCATGCGCGCGCTGGCGCAGCGGCAGTGGCGCGACCAGCTGGCCGGGGTGAAGGTTCAGGGCGGCAGCAGCGATGACCGCACCGTGCTGTACACCGCGCTGTACCACGCGCTGCTGCAACCGATGACCGGCAGCGATGCTGATGGCCGCTACCGCGGCTACGACGATGCGATCCACCGTGCCGATGGCTGGACCTACTACGAGTACTTCTCGCTGTGGGACACCTACCGCTCGCAGAACCAATGGCTGGCGCTGACCCAGCCGCAGGTCGCGCGCGACATCGCCCGCAGCGTGCTGACGATCGACGAACAGGGTGGCTGGCTGCCGCGCTGGGGTTACGCGAACTTCGAGACCAACATCATGACCGGCGATCCGGTCACGCCGTTCCTGGTCGACCTGTGGCGCTTCGGCGCGCTGGCCGGCCGTGAAGCCGAGGCCTGGGCCGCGCTGCGCCGCAACGCGTTCGGCATGCCGCCGATGAACTCGCGCCACGCCGGTCGCTCCGGCAACGGCAGCTACCTGGCCGATGGCTACGTCGTCTACGACCGCGCCTATCCGTCCAAGGGCATGGACGTGGACCCGCACCATGGCGGTTCGGCGACGCTGGAATACGCGCTGGCCGACTGCGCGCTGGCGCAGATGGCCGACGGCCTCGGCCATGCCGACGATGCGGCGGCGCTGCGTGCCCGCGGCGGCAACTGGCGCAAAGTGTGGGATGCGGACGTGCGCGATGCCGACACCGGCTTCAGCGGCTTTCCGCGCCCGCGCATCGAAGGCGGCGCGTGGTACACGCCGGCCGATGGCCATTACACCCCGCGTTCGCAGCACGGCTTCCACGAAGGCACTGCCTGGCAGTACCAGTGGCTGGCGCAGCAGGACGTGCCGGGGCTGGTCGCGGCGATGCACGGGCGCGAGCAGGCCGGACGCCGGCTGGATGCGTTCTTCGCCTACGGCGCGCTGCTGCAGGCGCCGCTGACCGCGGCGCGCAAGGAATGGGTGGTGGGCCCGTACAGCTACTACAACCAGTACCGCTACAACCCCAACAACGAGCCGGACCTGCACGCGCCGTGGATGTACACGCTGATCGGCCAGCCGTGGAAGACCGCGACCGTGGTGCGCGCCGCGCAGCAGCTGTTCACCAATGCGCCGAACGGCGTCACCGGCAACGACGACCTCGGCACGATGTCGGCCTGGTACCTGTTCAGTGCGCTCGGGCTGTATCCAGCGGTGCCCGGCAGCGGCCAGTTCCTGCTGCATGCGCCGCGCTTTGCCAAGGTCGAGGTCGCGCTCGGCAACGGTCGCACGCTGCGGCTGGAAGCGCCCGGCGCCGATGGCCGCACGCTGCAGTACATCGACGGCGTGCGGGTCGACGGCACGCCGCAGCAGGCGGTGTGGCTGGACTGGCAGCGCTTGCAGCAGGGGCCGACGCTGCGCTACACGCTGACCGGCACCGCGCCCGAGCACGGCTGGGGCACCGCGCTGGCGGACCTGCCGGGCTCGTACTGCGCCACGCCGGGGGTCTCGCTGGAGTGA	MRRSPSVRSRRSPRRLALLAGALLALTTPSLLLAASSPFEREVNTFIGSQDEGNTYPGAAAPFGLIQVSPIGSHYAGWRYSDETIRGFGHSFISGAGCWEQGGQVSVLPVTGSIGPGGDFDTADAKRFDHTAYASHYSHDGEIGQAGYYKVRLTDYGGIDVEATARTRAAAERYTFAADATTGQVLVNLGQANERHTVIGSTIEVVGDRAVEGKLVTKSFCGGHQYTTWFRIEFDRPFKAFGTWGEDGGHPGSRHSMEGELKPNGAWLSFDLASGRAVTATSAISHVDAEGARGNLRADGMADGRLLGFERMRALAQRQWRDQLAGVKVQGGSSDDRTVLYTALYHALLQPMTGSDADGRYRGYDDAIHRADGWTYYEYFSLWDTYRSQNQWLALTQPQVARDIARSVLTIDEQGGWLPRWGYANFETNIMTGDPVTPFLVDLWRFGALAGREAEAWAALRRNAFGMPPMNSRHAGRSGNGSYLADGYVVYDRAYPSKGMDVDPHHGGSATLEYALADCALAQMADGLGHADDAAALRARGGNWRKVWDADVRDADTGFSGFPRPRIEGGAWYTPADGHYTPRSQHGFHEGTAWQYQWLAQQDVPGLVAAMHGREQAGRRLDAFFAYGALLQAPLTAARKEWVVGPYSYYNQYRYNPNNEPDLHAPWMYTLIGQPWKTATVVRAAQQLFTNAPNGVTGNDDLGTMSAWYLFSALGLYPAVPGSGQFLLHAPRFAKVEVALGNGRTLRLEAPGADGRTLQYIDGVRVDGTPQQAVWLDWQRLQQGPTLRYTLTGTAPEHGWGTALADLPGSYCATPGVSLE				NA	NA	NA	NA	NA
BMS020_08149	3114	btuB_30		Vitamin B12 transporter BtuB	ATGAAGCACACGTCACGCAGCCACAGCCGCGCCACCTTGTCCGCGGCCATCGCCGCCGCGCTGGTCGCCGCCACACTGCTACCGGCCAGCGCACTCGCGCAGCAGGCCACCACCAGCACCGCCACGGACGCCCAGGCGCCCGCCAGCCCCGACGCCACCACGCTCGATGCGGTCACCGTGACCGGCTATCGCTACGCGATCGAAAAGAGCCTGGACCAGAAGCGCGACGCCAACGCGATCGTCGACGTGATCAACGCCGAGGACGTCGGCAAGTTCCCCGACAAGAACGTCGCCGACGCGCTGCAGCGCGTGCCGGGCGTGATCGTCAGCCGCGACGGCGGCGAGGGCAAGAACGTCAGCGTCCGCGGCCTGTCCTCGGAGCTGACCCTGACCGAATTGAACGGCAACTACATCGCCACCGCCGAATCCAACGGCGACCCGTCGCGTTCGTTCAACTACGCCCTGCTGCCGTCGAACATGCTGTCCAGCGCCGAGCTGTTCAAATCGCCGGAAGCGCGCATCGACGAAGGCGGCATCGGCGGCACGGTGATCCTGCACACGCGCCGGCCGCTGGAGATGGAATCCAACAGCGGCTTCGTCACCGCCGAGGGCACCTGGGCCGACACCACCAAGAAGACCGACGGCCAGTTCTCCGGCTCCTATGCCTGGCACGACAAGGACGACCGTTTCGGCGTGTTCGTCGGCTACACCCAGCAAAAGCGCACCAGCCGCACGATGGAGGCGACCACCGAAGACTGGCAGTGGTACGCCGACGACTACGACGCGCACCCGGCCAGCGACATCCACGGCAACCCATCCGGCATGACCGGGTACTGGTGGGGCGAGTCCGGCTTCTACGACCAGGCTGGCAACTACTACAGCAACTTCATGATGCCGACCTCGGTCAATTTCGCGGTCAAGGACCAGGACCGCGAGCGCAAGGGCGGCCAGGTCACCGTGCAGTTCAAGCCGACCGACAGCCTGACCCTGACCGCCAACTACTTCCGCTTCGATCTGCAGGAGAACTACACGCAGAACATGCTGAAGATCCCGGAGTGGAACCTGGCGCGCTACAACGGCGACGGCAACTGGCCGGGCGGACGCATGCTCGACGGGCTCACCCTGGATCCGAGCGGCACCATCGTCACCGGCGCGCAGTACCAGCTGCATCCCGGCAAGGCCTACTACTGCAGCGGCGACGAGGCCGCGGCCGGCGGGCTGACCAATACCGGCGGCTTCGGCCCGGATGACTGCACCATCCCGACCCCGCAGCTGACCGGCAGCTACAACATCGAGAGCGCGCTGTCGCAGACCGCCGATTTCGAAGCGGCCTGGCAGGGCGAATCGCTGGACGCCACCTTCAAGGGCGGCCGCACCTGGGCCAAGGGCGGCCCGTCGCTGGCGATGCGGATGTCGGCCAAGCCGCGCGTCAGCGTCGATGGCGAATACATCCCCGGCAACTACTACAGCGCCTGGGACCTGAGCGGCACGCCGTCGATGACGTTCTCGCCGGAGCTGATGCAGAACCTGCTGGCCGGCATCGCCGAGGTCGACGTCGGCTCCACCGACTCGTCGTGGACGCGCAACAACACCTGGCAGAACTACGCCCAGATCGACCTCACCTGGCACAACGACGGCGGCTGGCTGGACTCGCTGCAGTTCGGCCTGAAGGCGCGCGACGGCGGCACCCACCGCAGCACCGGCAACAACTACTGGGTCTGCCAGGGCACCGACCCGTCCAACTACGCCAACCGCTACCAGAACTGCGATTCGACCGCGACCACGTTCCTGTCGCAGTTCCTCTACCCGCAGTCGCTGGACGACATCGAAGGCGGCTTCACCGCCAGCGCGTTCCCGGCAATCAACTACCCGGCCTACGTCGCCTACCTCAACCAGACCTACGGCGCGATGCAGACCCGGCAGGAGGACAACTTCGTCTACAACGTCGGCGAGAAGATCTACTCCACCTACCTGCAGGCCAACTTCCGCACCGACCGCCTGCGCGGCAATGTCGGCGTGCGCGTGGTCAGCACCCAGCAGCACGCCGACTCCACCGACAAGGTCGACTACTACAACGACTACTTCCTCGATGGCGCAGACGGCAACCCGCTGGCCTGCACGCCGGACAACGTGACCGCCGGCTATGCCTGCGAGAGCGGCTTCACCAAGCTGCCCGACGACACCAGCGACCCGAACGCCACCGCGCACACCTCGACCTACGTGGTCAGCGCGCTGGATCGCTCGTACCTGGACGTGCTGCCCAGCTTCAACCTCGCCTTCGACCTGAGCGAGAACCTGCTGTTGCGCGCCGCCGCGTCCAAGGTGATCGCGCGGCCGAGCTACAACGACATCGCCGCTCCCGGCAGCCTGTCGTACTACAGCGAGGAGTACGTCAACGACCGTCGCGTCGCCGGCGGTGCCAACCAGATGGGCTGGTACGGCTCGGGCAGCAACAAGAACCTGGACCCATACAAGGCCAACCAGTACGACCTGAGCCTGGAGTGGTACTTCCGTCCTGGCTCGGTGGTCGGCCTGGACCTGTTCCGCAAGGACGTCAGCAACTTCTCGGTGCCGGTGGTCATGGACACCACGATGGATGTCGGCGGCCAGACGGTGACGGTGCAGAACTATTCGACCAGCGCCGGCGGCCGCGATGCGACCTCCGAAGGCGTGGAGTTCTACGCCCAGCACACGCTGGATTTCGGCCTCGGCTTCCAGTTCAACTACACCTACAACAAGACCAACGAAGCGGCCATCACGCTCGAGGATGGCACCGAGATCGGCAAGTCGCCGCTGGTCGGCAGTGCCAAGAACCAGGCCAACTTCACCGTGTTCTACGAGGCCGGCAAGCTGCTGCTGCGCGCCTCGTACAACCGCCGCGGCGAAGTGGTCGACGGCCTGGTGCAGGGCCTGAACGTCTATGAAGAACCGTACGAGCAGATCGACCTCAACGCCGCGTACAACTTCACCGACGCACTCAGCCTGACCGCCTCGGTGCTGAACCTGACCAAGGAAGAGCAGCGCATGCACCTGGGCAACGACACCAAGGACCGCTTCTACTCCAACAGCTACGCTGGCCGCATCGCCTACATGGGCCTGACGTACCGGTTCTGA	MKHTSRSHSRATLSAAIAAALVAATLLPASALAQQATTSTATDAQAPASPDATTLDAVTVTGYRYAIEKSLDQKRDANAIVDVINAEDVGKFPDKNVADALQRVPGVIVSRDGGEGKNVSVRGLSSELTLTELNGNYIATAESNGDPSRSFNYALLPSNMLSSAELFKSPEARIDEGGIGGTVILHTRRPLEMESNSGFVTAEGTWADTTKKTDGQFSGSYAWHDKDDRFGVFVGYTQQKRTSRTMEATTEDWQWYADDYDAHPASDIHGNPSGMTGYWWGESGFYDQAGNYYSNFMMPTSVNFAVKDQDRERKGGQVTVQFKPTDSLTLTANYFRFDLQENYTQNMLKIPEWNLARYNGDGNWPGGRMLDGLTLDPSGTIVTGAQYQLHPGKAYYCSGDEAAAGGLTNTGGFGPDDCTIPTPQLTGSYNIESALSQTADFEAAWQGESLDATFKGGRTWAKGGPSLAMRMSAKPRVSVDGEYIPGNYYSAWDLSGTPSMTFSPELMQNLLAGIAEVDVGSTDSSWTRNNTWQNYAQIDLTWHNDGGWLDSLQFGLKARDGGTHRSTGNNYWVCQGTDPSNYANRYQNCDSTATTFLSQFLYPQSLDDIEGGFTASAFPAINYPAYVAYLNQTYGAMQTRQEDNFVYNVGEKIYSTYLQANFRTDRLRGNVGVRVVSTQQHADSTDKVDYYNDYFLDGADGNPLACTPDNVTAGYACESGFTKLPDDTSDPNATAHTSTYVVSALDRSYLDVLPSFNLAFDLSENLLLRAAASKVIARPSYNDIAAPGSLSYYSEEYVNDRRVAGGANQMGWYGSGSNKNLDPYKANQYDLSLEWYFRPGSVVGLDLFRKDVSNFSVPVVMDTTMDVGGQTVTVQNYSTSAGGRDATSEGVEFYAQHTLDFGLGFQFNYTYNKTNEAAITLEDGTEIGKSPLVGSAKNQANFTVFYEAGKLLLRASYNRRGEVVDGLVQGLNVYEEPYEQIDLNAAYNFTDALSLTASVLNLTKEEQRMHLGNDTKDRFYSNSYAGRIAYMGLTYRF	PGPT0003790_1070	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_08150	1980			hypothetical protein	ATGCCCGCAGCCATCCCGTTGTTCGCCGCCGTCACGCTGTCGTTGTCGGCCGTTGCCGCCCAGGCGGCGCCACCGGTCGCCAAGCAGTTGGCCGGTCCACCCGAGGAATTCACCCAGATGCGCGCGCCCGAGCCCGCCGCGGCCGCGGTGCTGTCGCGCAGCGCGCTGCTGCCGGTGACGCTGACGCCGCAGCCCGATGGTGCGCAGTGGCGTGGCGCGCTGCCGTCCGAAGGCGGGCGGCTGCGCTTCATGGTGCTCGATGGCGGCGCTGGCTGGCAGGCCGCCGCGACCCAGCCCGGTATCGCGTTGCGTGCCGATGCGGGCAATGCGCTGCCATTGCAGGCCGCCGCCACCGCGCTGCAGCTGCAGGGCGCGGCGATCGCCGGCAGCCGCTACCAGCTCGACGCCAGCGCCAGCGGCGAGTGGACGCTGCAGCTGCGCTCCAGCGCGGCGCAGGCGCAGCGCGGCTACCTGCTGCTGGAAGGCGACGCACGCACCCAGCTGGCCTCGCACCCGCTCACGCGCCAGCGCCAGGTCGGGCAGCCGCTGGCGTTCAACGCGATGCTCGCCGACATCGCCGCCGACCGCGACACGCGGTTGGGCAGCGCTGCCGGACAGATCGCGCGCGCCGAGCTGCGCGTGCTCGCGCCGGACGGCACGGAAACGATCTGGCCGATGGCCGACGACGGCGCCCACGACGATGGTGCCGCCGGCGACGGGATCTATGGTGGCCGGTTCGTGCCCGACCGTTCCGGTAGCTGGATCGTGCAGAGCGTGGTGCACGGCCATGACCGCAACGGTGCCCCGATCGTGCGTACCGCCGAGCACGTGTTGGCGGTGCTGGATGCGCAGCTGCGCCTGCTGGGCGGCGTGCGCGCGCAGGATGGTGGCGACGGGCGGCTGGCACTGCAGCTGCCGGTCGCGGCCAGCGGTGTCGATGCGCCCGATCACTACCGGGTGCTGGCCGAGGTCTGGGGCCATGACCACAACGGGGCCGAACTGCCGGTGGCTTGGATCGGCGGCATGGTTAGCGCGCAGTCCGGGCGCTTGCAGCTGGCGCTGGACGAACGCTGGATCAGCCGCGTCGGTGCGCAGGCGCCGTTCGTGCTGCGCCGGCTGCGCATCGAGGACCCGGACCATGCGGTGCCGCTGCTGGAGCGCGCCGAGCTGGCGTTGCCGCTGCCAGCGGCGCGCATCGCCGCGCTGGCGAAGGCCGCAGCGACCGCGGCGGCGCCAATCGACGAGTTGATGCGGATGGGGCCGCGCCCGCAGGCACTGACGGCGGCGAAGACATCTGCCGCGCTGACAACGCCGCAGGCCGCGAGTGGACGGCTGCTGCTGGTGCATGGCTACTGTTCCGGCGGGGTCTGGCCGGTAGCGCAGTTCGCCGATGCCTCGGCGTTCCTCGATGTGAACCAGAACCGCAGCAACGACCAGTTCGCGCAGCTGCTGGCGCAGTTCGGCAGCCAGTGGCCATCGTTCGGCACGGTGGCGCACAGCCAGGGCGGTATGGCCGCATTGCACCTGTATGCGTACTACTGGAGCGGGCTGGATAACGCGACCGGCACGCGGCTGCTGCAGTCTGTCGGCACGCCGTACCAGGGCACCAACCTCGCCGGGATCCTGGCCACGGTCGGCTCGTGGTTCGGCGTCGGCTGCGGCAGCAACACCGACCTGACCTACGACGGTGCGCAGGCCTGGCTGGCCGGCATCCCGGTCGCGGCGCGGGCCAAGGTCAGCTATTACACGACCGGCTTCGCCTCGACCAACTGGTGGACCAACGACTACTGCAACGCCGCCTCGGACCTAGTGTTGAACGATCCGGAGGACGGCACCGTCGAGCGGGTCAACGCGCAGCTGCCGGGTGGGGTGAACATGGGCCACACCAGCGGGCAATGCCATACCACCGGCATGCGTGATCCGGCGCAGTATCTGGATGCGTCACGCAACGCGGTGATGAGCGCCAACGCCGCGCGCTGA	MPAAIPLFAAVTLSLSAVAAQAAPPVAKQLAGPPEEFTQMRAPEPAAAAVLSRSALLPVTLTPQPDGAQWRGALPSEGGRLRFMVLDGGAGWQAAATQPGIALRADAGNALPLQAAATALQLQGAAIAGSRYQLDASASGEWTLQLRSSAAQAQRGYLLLEGDARTQLASHPLTRQRQVGQPLAFNAMLADIAADRDTRLGSAAGQIARAELRVLAPDGTETIWPMADDGAHDDGAAGDGIYGGRFVPDRSGSWIVQSVVHGHDRNGAPIVRTAEHVLAVLDAQLRLLGGVRAQDGGDGRLALQLPVAASGVDAPDHYRVLAEVWGHDHNGAELPVAWIGGMVSAQSGRLQLALDERWISRVGAQAPFVLRRLRIEDPDHAVPLLERAELALPLPAARIAALAKAAATAAAPIDELMRMGPRPQALTAAKTSAALTTPQAASGRLLLVHGYCSGGVWPVAQFADASAFLDVNQNRSNDQFAQLLAQFGSQWPSFGTVAHSQGGMAALHLYAYYWSGLDNATGTRLLQSVGTPYQGTNLAGILATVGSWFGVGCGSNTDLTYDGAQAWLAGIPVAARAKVSYYTTGFASTNWWTNDYCNAASDLVLNDPEDGTVERVNAQLPGGVNMGHTSGQCHTTGMRDPAQYLDASRNAVMSANAAR				NA	NA	NA	NA	NA
BMS020_08151	741			hypothetical protein	GTGAGCAACGAACCGGAGACGCGCATCGCCCTGCTGGTGGACGCCGACAACGCGCCGGCGGCCAAGATCGACGTGGTGCTGGCCGAGGTCGCCCGCTACGGCGTGGCCAATGTGCGCCGCGCCTACGGCAACTGGAAGAGCCCGCACCTGAAGAGCTGGGAGGCGGTGCTGCACGAGTACGCGATCCGCCCGATCCAGCAGTTCGCCTACAGCAGCGGCAAGAACGCCTCGGACATGGCGATGGTGATCGACGCGATGGACCTGCTGTACGCGCGCAACCTCGACGGGTTCGCGATCGTCTCCAGCGATGCCGACTTCACCCCGCTGGTGATGCGGCTGCTGACCGACGGCATGAAGGTCTATGGGTTCGGCGAAAAGAAGACCCCGGCGCCGTTCGTCAACGCCTGCTCCAAGTTCACCTACCTGGAGGCGCTGGGTGCGGCCGCGACCGATGCGCAGGCGGTGGATGCGCGCAGCGGCGAAAAGGAGCTGCGCAGCGACACCCGCCTGGTGCAGCTGCTGCGCGGCGCGGTGGATGCCGAATCGGAGGACGACGGCTGGGCGCACCTGGGCGCGGTCGGCAAGCAGATCGCCAACCAGGCCTCGTTCGACCCGCGCAACTACGGCTACCGCAAGCTCAGCGACCTGGTGAAGGCGATCGGGCTGTTCGAGGTGCGCCAGGACAACCAGGTGATCTGGATCCGCGACAAGCCGAAGGCGCGCAAGCCGGCGCGCGGCTGA	MSNEPETRIALLVDADNAPAAKIDVVLAEVARYGVANVRRAYGNWKSPHLKSWEAVLHEYAIRPIQQFAYSSGKNASDMAMVIDAMDLLYARNLDGFAIVSSDADFTPLVMRLLTDGMKVYGFGEKKTPAPFVNACSKFTYLEALGAAATDAQAVDARSGEKELRSDTRLVQLLRGAVDAESEDDGWAHLGAVGKQIANQASFDPRNYGYRKLSDLVKAIGLFEVRQDNQVIWIRDKPKARKPARG				NA	NA	NA	NA	NA
BMS020_08152	1284	yjlD	COG1252	NADH dehydrogenase-like protein YjlD	ATGACTTCCACTCTCCCGCACTTCGTCGTGATCGGCGGCGGCTTTGCCGGCCTCTGGGCCACCCGCGCGCTGGCCGACGCGCCGGTCCGCATCACCCTGATCGACCGCCACAACCATCACTTGTTCCAGCCACTGCTGTACCAGGTCGCCACCGCCGGCCTGTCGGCGCCGGACATCGCCGCGCCGCTGCGGCATATCCTGCAGCACCAGCGCAACGTCGAGGTGCGCCTGGGCGAGGTCGCGCGGATCCATCCGCAGGCCCGCCAGGTCGAGCTCGGCGACGGCCAGCGGCTGGAGTACGACTACGCGCTGGTCGCCACCGGCGCCACCCACGCCTACTTCGGCAACGACCAGTGGGCCGAGCACGCGCCAGGCCTGAAGACCCTCAACGACGCGCTGGCGCTGCGGCGCAAGCTGCTGATGGCGTTCGAACGCGCCGAATCCGAACGCGACCCGGCCGCGCGCGCGGCCTGGCTGAACTTCGCCATCGTCGGCGGCGGCCCGACCGGCGTCGAACTGGCCGGCACCCTGGCCGAGATCGCCCGGCACACGCTGAAGAACGAATTCCGCAACATCGACCCGCGCGAGGCGCGGGTGCGGCTGATCGAGGCCGGCCCGCGGGTGCTGCCGTCCTTCCCCGAGGACCTCACCGACAAGGCCAAGCGCCAGCTGGAGAAGCTCGGCGTCGAGGTCGTCACCGGCACCCCGGTCGCCCATATCGACGGCGACGGCTACCGGCTGGGCGAAGAGTTCATCGCCGCCCGCACCGTGGTCTGGGCCGCAGGCGTGGCCGCCTCGCCGCTGGCGCGCACGCTGGACGCCCCGCTGGACCGCGCCGGCCGCGTGCTGGTCGAGCCGGACCTGAGCGTGCCCGGCCACCCGGAGCTGTTTGTGGGTGGCGACCTGGCCTCGCTGCAGCAGGACGGCAAGCCGGTACCGGGCGTGGCCCCCGCCGCCAAGCAGATGGGCAAGCACATCGCCCAGGTCGTGCGCGCGCGCCTGCAGGGCAGGCCCGCCAAGCCGTTCCACTACGCCGACTACGGCAACCTGGCCACCATCGGGCGGATGGCGGCGATCGTGCATGTGGGCAAGCTGAAGCTGTCCGGACTGCTGGCCTGGTGGTTCTGGCTGGCCGCGCACGTGTACTTCCTGATCGGCTTCCGCAACCGCTTCGTGGTGCTGGTGAACTGGGCGATGGCGTACTGGAGCTACCAGCGCGCGGCGCGGATCATCTTCGGCCGCCCGCACGACGACGAGCCAGGCCGCGCCCGCCGCGGCGACTGA	MTSTLPHFVVIGGGFAGLWATRALADAPVRITLIDRHNHHLFQPLLYQVATAGLSAPDIAAPLRHILQHQRNVEVRLGEVARIHPQARQVELGDGQRLEYDYALVATGATHAYFGNDQWAEHAPGLKTLNDALALRRKLLMAFERAESERDPAARAAWLNFAIVGGGPTGVELAGTLAEIARHTLKNEFRNIDPREARVRLIEAGPRVLPSFPEDLTDKAKRQLEKLGVEVVTGTPVAHIDGDGYRLGEEFIAARTVVWAAGVAASPLARTLDAPLDRAGRVLVEPDLSVPGHPELFVGGDLASLQQDGKPVPGVAPAAKQMGKHIAQVVRARLQGRPAKPFHYADYGNLATIGRMAAIVHVGKLKLSGLLAWWFWLAAHVYFLIGFRNRFVVLVNWAMAYWSYQRAARIIFGRPHDDEPGRARRGD	PGPT0004020_3223	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
BMS020_08153	876	rpoH_2	COG0568	RNA polymerase sigma factor RpoH	ATGAGCCAGACCACCTCGACTGCCCTTGTGGCAAACAACCTGCCGGTCCCCAGCGCGCTGGGTTCGCTCGACGCCTATATCGGCGCCGTGCACCAGATCCCGGTGCTGTCGGTCGATGACGAACAGGCCCTGGCGCGGCGTTACCGCGACCATGAGGACCTCGATGCCGCGCGCGAGCTGGTGCATTCGCACCTGCGTTTCGTCGTGCACGTGGCGCGTGGCTACAACGGCTACGGCCTGCAGATGGGCGACCTGATCCAGGAAGGCAACATCGGCCTGATGAAGGCGGTGAAGCGCTTCGATCCGGACATGGGCGTGCGCCTGGTGTCGTTCGCGGTGCACTGGATCCGCGCCGAGATGCACGAGTTCATCCTGAAGAACTGGCGCATCGTGAAGGTCGCCACGACCAAGGCGCAGCGCAAGCTGTTCTTCAATCTGCGCAAGTCCAAGACCCGCCTGGGCTGGTTGAACGCTTCCGAGGTCAGCGCCGTCGCCAAGGACCTGAACGTGTCCGAGCGCGAGGTGCTGGAGATGGAGTCGCGCCTGTCCGGTCGCGACATCGGCTTCGATGCGCCGTCCGACGAGGACGACGACCACGCGCCGCCGTCGCCGGTCAGCTACCTGGTCGCCAACGACGAAGACCCGTCGATGGCCTATGAGCGCGCCGACAGCGAGGACCACCAGCTGGAGCTGCTGCGCGAAGGCTTGGCGGGTCTGGACCAGCGCTCGCGCGATATCGTGCGCCGCCGCTGGCTGGATTCGGAATCGAAGGTGACGCTGCAGGAACTGGCCGACGAGTACGGCGTGTCGGCCGAGCGCATCCGCCAGATCGAGGCCAACGCGCTGAAGAAGATGAAGGCGCTGTTCGCAGCCTGA	MSQTTSTALVANNLPVPSALGSLDAYIGAVHQIPVLSVDDEQALARRYRDHEDLDAARELVHSHLRFVVHVARGYNGYGLQMGDLIQEGNIGLMKAVKRFDPDMGVRLVSFAVHWIRAEMHEFILKNWRIVKVATTKAQRKLFFNLRKSKTRLGWLNASEVSAVAKDLNVSEREVLEMESRLSGRDIGFDAPSDEDDDHAPPSPVSYLVANDEDPSMAYERADSEDHQLELLREGLAGLDQRSRDIVRRRWLDSESKVTLQELADEYGVSAERIRQIEANALKKMKALFAA				NA	NA	NA	NA	NA
BMS020_08154	717	ung_2	COG0692	Uracil-DNA glycosylase	ATGAGCGGGGCGGAAGCGCGGATCCAGCTCGAGCCTTCGTGGCGCGCGGCGGTCGGCGACTGGCTGCTGCGGCCCGAGATGCAGGAATTGTCTGCGTTCCTGCGCCAGCGCAAGGCCGCCGGCGCGCGGATCTTCCCGCCCGGCCCGCAGATCTTCGCCGCGTTCGATGCCACCCCGTTCGACCAGGTCAAGGTGGTGGTGCTGGGCCAGGATCCATACCACGGCTACGGCCAGGCGCACGGGCTGTGCTTCTCGGTGCTGCCGGGCGTGCCGGTGCCGCCGTCGCTGCTGAACATCTACAAGGAGCTCGAGACCGACCTCGGGTTGCCGCGCCCGGGGCATGGCTACCTGATGCCGTGGGCGCGCCAGGGCGTGCTGCTGCTGAACGCGGTGCTGACGGTCGAGGAAGGGCAGGCCGGCAGTCACCAGGGCAAGGGCTGGGAGGGGTTCACCGACCACGTCGTGGACACGCTGAACCGCGAGCGCGAGGGGCTGGTGTTCCTGCTGTGGGGCAGCTACGCGCAGGCCAAGGGCAAGGTCATCGATACCCGCCGCCACCGCGTGCTGAAGGCCCCGCACCCCTCGCCGCTGTCGGCGCATCGCGGCTTCCTCGGTTGCCGGCACTTCTCCCAGGCCAACGAGTACCTGGCCAGGCGCGGGGTCGCCGGGATCGACTGGCGGCTGCCGGGCCAGGTCGCGGCCGACGCGGCCGGCTGA	MSGAEARIQLEPSWRAAVGDWLLRPEMQELSAFLRQRKAAGARIFPPGPQIFAAFDATPFDQVKVVVLGQDPYHGYGQAHGLCFSVLPGVPVPPSLLNIYKELETDLGLPRPGHGYLMPWARQGVLLLNAVLTVEEGQAGSHQGKGWEGFTDHVVDTLNREREGLVFLLWGSYAQAKGKVIDTRRHRVLKAPHPSPLSAHRGFLGCRHFSQANEYLARRGVAGIDWRLPGQVAADAAG	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
BMS020_08155	843	rssB_4		Regulator of RpoS	ATGCGCACTCCCGACCTCAAGCATCTGATCAGCGAAGCCCCGCGCGTGATGGTGGTGGACGGCTCCAAGCTGGTCCGCAAGCTGATCGCCGACGTGCTCAAGCGCGAGCTGCCGGCGGTGGAAGTGGTCGGCTGCGCGAGCATCGCCGAGGCGCGCGAGGCGCTGGACGCCGGTTCGGTGGACCTGGTGACCACCTCGCTGTCGCTGCCCGACGGTGACGGCATGGCGCTGGCGCGCAGCGTGCGCGAGGCGGCGGGGCAGGCCTACGTGCCGGTGATCGTGGTGTCCGGCGATGCCCAGCAGCATCTGGTCGAGCGTCGTTTCACCGAATTCGTCACCGACTACTTCGACAAGGCGCTGGGCCACGAGGCGCTGGCGACCTTCATCCGCGGCTACGTCCAGCCCGAGCCGATCCCCGGCGCGACGGTGCTGTACATCGAGGACAGCCGCGTGGTCGCCGAGGCGACCAAGCGCATGCTGGAACGGCAGCGCCTCAACGTGATGCACGTGCTGACCGCCGAAGACGCGTTCGCGCTGCTGACCGCCGAGTCGCTGGGCCGCACCGAGCGCCGCATCGACCTGGTGCTGACCGACGTGACGCTGAAAGGCGAGCTCAACGGCCGCGACGTGGTCGAGCGCATCCGCATCGATTTCGCCTACGGCAAGCGCCGCTTGCCGGTGCTGGTGATGACCGGCGACGGTAACGCCCACAACCAGTCCGAACTGCTGCGCGCCGGTGCCAACGACCTGGTGCAGAAGCCGATCGAGGAGCGCCTTCTGGTCACCAAGGTGCTGTTCCAGCTGCGGCTGGCGCGCCTGGAAGACCAGACCGTGATGCTATGA	MRTPDLKHLISEAPRVMVVDGSKLVRKLIADVLKRELPAVEVVGCASIAEAREALDAGSVDLVTTSLSLPDGDGMALARSVREAAGQAYVPVIVVSGDAQQHLVERRFTEFVTDYFDKALGHEALATFIRGYVQPEPIPGATVLYIEDSRVVAEATKRMLERQRLNVMHVLTAEDAFALLTAESLGRTERRIDLVLTDVTLKGELNGRDVVERIRIDFAYGKRRLPVLVMTGDGNAHNQSELLRAGANDLVQKPIEERLLVTKVLFQLRLARLEDQTVML	PGPT0015900_1155	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-CELL_FATE_CONTROL	PUTATIVE-CELL_FATE_CONTROL-1,PGPT0015900-pleD-K02488
BMS020_08156	963	ftsX_2	COG2177	Cell division protein FtsX	ATGAACACTCCCACGAACAAGCCGGGCAACACCGTCGCCGCCGCGCCGTCGCGGCTGGGAATCTGGTTCGACCACCACCTGCACAGCGTGGCGTTCAGCCTCGGCCGCGCGCTGCACAAGCCATGGGCGACGCTGCTGACGGTCGCGGTGATGGCGTTGGCGCTGGCGCTGCCGCTGGGGCTGTCGGTCGCGCTCGCCAACCTCACCAGCCTGGCCGGCAGCGTGCAGCAGTCGCGCGACATCAACGTGTTCCTGAAGACCGGGATCGACACCGCCTCCGCGCAGCAGGTCGCCGAGACCCTGCGTGGCCGCGGCGACGTCGCGGCGGTGGCGTTGCGCACGCCCGAGCAAGGCCTGGCCGAACTGCGCAGCAGCGCCAGGCTGGACGAGGCGATCGACGCGCTCGGCGACAACCCGCTGCCCAGCCTGCTGATCGTGACCCCGGCCGGCAGCGCCGACGACGCGCGCCTGGCGCAGTCGCTGCAGGCGATGGCGCAGGTCGACCAGGTCCAGCACGACGCGCAATGGCGCCGCCGCCTGGACGGCTGGCTGCAGTTCGGCGCGCGCCTTGTGCAGGTGCTGGCGGTCCTGCTCGGCGCCGGTGCGGTGCTGGTGGTGGGCAACACCGTGCGCCTGGACATCCAGGCGCGGCGCGAGGAGATCGGCGTGCTGCAACTGCTCGGGGCCAGCGATGGCTTCATCCGCCGCCCGTTCCTGTACCTGGGCGCCTGGTATGGGCTGGGGGCCGGCGTGCTCGCGCTGGCGCTGCTGCTGGCCAGTGGGCTGGCGCTGCGCGCGCCGCTGGCGGCGCTGGCCGACAGCTACGGCAGCAGCTTCGCCCTGCATGGACTGGACCTGGCGCAGGCCGGGCTGGTGCTGGCCGGCACCGCCTTGCTCGGCTGGCTGGGCGCATGGCTGGTGACCGGCCACTTCCTGCGTCAGACTCGACCGACCGAAACCTGA	MNTPTNKPGNTVAAAPSRLGIWFDHHLHSVAFSLGRALHKPWATLLTVAVMALALALPLGLSVALANLTSLAGSVQQSRDINVFLKTGIDTASAQQVAETLRGRGDVAAVALRTPEQGLAELRSSARLDEAIDALGDNPLPSLLIVTPAGSADDARLAQSLQAMAQVDQVQHDAQWRRRLDGWLQFGARLVQVLAVLLGAGAVLVVGNTVRLDIQARREEIGVLQLLGASDGFIRRPFLYLGAWYGLGAGVLALALLLASGLALRAPLAALADSYGSSFALHGLDLAQAGLVLAGTALLGWLGAWLVTGHFLRQTRPTET				NA	NA	NA	NA	NA
BMS020_08157	687	ftsE_2	COG2884	Cell division ATP-binding protein FtsE	ATGAGCGTCCTGCGATTCGACAATGTCAGCAAGCAGTATCCAGGCGGGCACACCGCGCTGGAGGACGTGAGTTTCGAGGTCGGCCAGGGCGAAATGCTGTTCGTCACCGGCCACTCCGGCGCCGGCAAGAGCACGCTGCTGAAGCTGATCCACCTGAGCGAGCGGCCCAGCCGCGGTGCGGTGGTGTTCGGCGAGCGCAACCTGCTGAAGGTGCGTGGCGGCCAGGTCGCGCTGCACCGGCGCGAGGTCGGCGTGGTCTACCAGGACCACCGCCTGCTGACCGACCGCAGCATCGCCGAGAACGTCGCGCTGCCGCTGATCCTGCGCGGCACCCGCCGCGGCGAGATCGGCAAGCGCGTGCGTTCGGCGCTGGAGCGGGTGGGGCTGGGCCATCGCGAGAAGGCGCTGCCCACCCAGCTGTCGGCCGGCGAGCAGCAGCGCGTCGGCATCGCCCGCGCGATCGTCGCCGAGCCGCGCCTGCTGGTCGCCGACGAGCCCACCGGCAATCTCGATCCGACGCTGGCCGCCGAGATCATGCAGCTGTTCGCCGAACTGCCGGCGCGCGGTACCAGCGTGCTGGTGGTCAGCCACGACCTGGCCCTGCTCAAGCGCATGCGCCGGCGCGTGCTGATCCTCGATCATGGCCGGCTGGTCGACGACATCTCGCCCCAGGACCTGGCGGAATGA	MSVLRFDNVSKQYPGGHTALEDVSFEVGQGEMLFVTGHSGAGKSTLLKLIHLSERPSRGAVVFGERNLLKVRGGQVALHRREVGVVYQDHRLLTDRSIAENVALPLILRGTRRGEIGKRVRSALERVGLGHREKALPTQLSAGEQQRVGIARAIVAEPRLLVADEPTGNLDPTLAAEIMQLFAELPARGTSVLVVSHDLALLKRMRRRVLILDHGRLVDDISPQDLAE	PGPT0024515_936	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_TRANSPORT,PGPT0024515-lolD-K09810	NA	NA
BMS020_08158	1761	rhlB_2		ATP-dependent RNA helicase RhlB	ATGCAAGCCGCGCCGGGGTGGCCCCAGGCGCCCCACGAAGATGGAATGATGAGCGACAAACCGCTGACTGATTTGACTTTTTCCTCGTTCGAGCTGCACCCGACGCTGCTCGCGGGGCTGGACGGTGCCGGGTTCACCCGCTGCACCCCGATCCAGGCGCTGACCCTGCCGGTCGCGCTCGCTGGCGGCGATGTCGCCGGCCAGGCCCAGACCGGCACCGGCAAGACCCTGGCCTTCCTGGTGGCGGTGGTGAACCGCCTGCTGAGCCGTCCGGCGCTGGCCGACCGCAAGCCGGAGGACCCGCGTGCGCTGATCCTGGCGCCGACCCGCGAGCTGGCGATCCAGATCCACAAGGACGCGGTGAAGTTCGGCTCCGACCTGGGGCTGCGCTTCGCGCTGGTCTATGGCGGCGTCGATTACGACAAGCAGCGCGAGCTGCTGCAGCAGGGCGTGGACGTGATCATCGCCACCCCGGGCCGGCTGATCGACTACGTCAAGCAGCACAAGGTGGTCTCGCTGCACGCCTGCGAGATCTGCGTGCTCGACGAGGCCGACCGGATGTTCGACCTGGGTTTCATCAAAGACATCCGCTTCCTGTTGCGGCGCATGCCCGAGCGCGGCACCCGCCAGACCCTGCTGTTCTCGGCCACCCTCAGCCACCGCGTGCTGGAGCTGGCCTACGAGCACATGAACGAGCCGGAGAAGCTGGTCGTCGAGGCCGAGACCATCACCGCCGCGCGGGTCCGGCAGAAGCTGTACTACCCGGCCGATGAGGAGAAGATCCCGCTGCTGCTGGGCCTGCTGTCGCGTGGCGAAGGCGCGCGCACGATGGTGTTCGTCAACACCAAGGCGTTCGTCGAGCGCGTTGCGCGCTCGCTGGAGAAGGCCGGCTACCGCGTCGGCGTGCTGTCCGGCGATGTGCCGCAGAAGAAGCGCGAGACCCTGCTCAACCGCTTCCAGAAGGGGCAGCTGGAGATCCTGGTCGCCACCGACGTGGCCGCGCGCGGCCTGCACATCGACGGCGTGAAGTACGTCTACAACTACGACCTGCCGTTCGACGCCGAGGACTACGTGCACCGCATCGGCCGCACCGCGCGGCTGGGCGAGGAAGGCGATGCGATCAGCTTCGCCTGCGAGCGCTACGCGATGGGCCTGCCGGACATCGAGGCCTACATCGAGCAGAAGATCCCGTCCGAGCCGGTGACCAAGGAACTGCTGACCCCGCTGCCGCGCCCGGAGCGCGCGCCGCTGCCGGAAGGCGAGCAGGAGGAGAGCGTCGGCGAGATCTTCCGCGAGGCGCGCGAGCAGCGCCTTGCCGACGAGCAGCGTCGCGGCGGTGGCCGTGGCGGCAAGCCGGGCGGCGCTGGTGGCCGCGGTCCGCGTGGCGAGCGCCGCGAGGATGGTGCCGGCGGCGAAGGCCGTGCCCGGCGTCCGCGCAAGCCGCGTCCGGAAGGTGCGGTCGAGGGTCAGGCGCCGGTCGAGGCCGCGCCGGTGGCCGCTGTGGCCGTGGCCGCCCATGATGCGGTGAGCACGCACGCTGCGGCGCCGGTCGGCGAGGGCGAGCGCGCGCCGCGCAAGCGCCGTCGTCGCCGTCGCGGCCGTCCGGTCGAAGGTGGTGGTGCCGAGGGCGTGGCCGCGCCGACCACCGCCGCGCCGCGCAAGCCGGTGCAGGTGGTGGCCACGCCGGTCAAGGCGACCGGCAACGAGTCGTTCCTGTCGCGGCTGGGTCGCAAGATCCGCTCGCTGGTGTCCGGCAGCTGA	MQAAPGWPQAPHEDGMMSDKPLTDLTFSSFELHPTLLAGLDGAGFTRCTPIQALTLPVALAGGDVAGQAQTGTGKTLAFLVAVVNRLLSRPALADRKPEDPRALILAPTRELAIQIHKDAVKFGSDLGLRFALVYGGVDYDKQRELLQQGVDVIIATPGRLIDYVKQHKVVSLHACEICVLDEADRMFDLGFIKDIRFLLRRMPERGTRQTLLFSATLSHRVLELAYEHMNEPEKLVVEAETITAARVRQKLYYPADEEKIPLLLGLLSRGEGARTMVFVNTKAFVERVARSLEKAGYRVGVLSGDVPQKKRETLLNRFQKGQLEILVATDVAARGLHIDGVKYVYNYDLPFDAEDYVHRIGRTARLGEEGDAISFACERYAMGLPDIEAYIEQKIPSEPVTKELLTPLPRPERAPLPEGEQEESVGEIFREAREQRLADEQRRGGGRGGKPGGAGGRGPRGERREDGAGGEGRARRPRKPRPEGAVEGQAPVEAAPVAAVAVAAHDAVSTHAAAPVGEGERAPRKRRRRRRGRPVEGGGAEGVAAPTTAAPRKPVQVVATPVKATGNESFLSRLGRKIRSLVSGS				NA	NA	NA	NA	NA
BMS020_08159	342	trxA_2	COG0526	Thioredoxin 1	GTGAGCGACAAGGTTCTGCATGTCGGCGACGCCGACTTCGACAACGCGGTGCTCCAGTCCGGCGAGCCGGTGCTGGTGGATTTCTGGGCCGAATGGTGCGGCCCCTGCAAGATGATCGCCCCGGTGCTGGACGACCTGGCCGACACGTACCAGGGCAAGCTCAAGGTCGCCAAGGTGAATGTGGACGAAAACCGCGCCCTGGCGGTGAAGTACCACGTGCGTTCGATCCCGATGCTGCTGCTGTTCAAGGACGGCCAGGTGCAGGCGACCCAGATCGGCGCGGTCGGCAAGGGCCAGCTGACCCAGATGATCGACAAGACCCTGGGCAGCGCCGCGGCCTGA	MSDKVLHVGDADFDNAVLQSGEPVLVDFWAEWCGPCKMIAPVLDDLADTYQGKLKVAKVNVDENRALAVKYHVRSIPMLLLFKDGQVQATQIGAVGKGQLTQMIDKTLGSAAA	PGPT0013055_5015	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
BMS020_08160	1740	rho_2		Transcription termination factor Rho	TTGTCCGAGAATACTTCTTCCGAAACCGGGAGCGTCGACGCCCCCGTCGAAAAGCGCGTGCGCAAGCCGCGCGTCGCCAAGACCGCCACGGCCGGCCATGAGGCCGCCGACAGCGGCAGCCACCAGCAGCCCGACCTGCCGCTGGCCAGCAGCGCCCCCGCCGTCTCCGAGTCCCGTCCGGCCAACGAAGCGCCGGCCCCGGCGCCGCGCGCCGAGGCGGGCCCTGGCGCCGACAGCGCTCCGGCCCCGTCCGGCGATGCCGGCCAGCAGGGCGGCCAGCGCGGCGGCCACCAGAACCAGAACGCCCAGCAGGGCGGCGGCCAGCAGCAGGGGGGCGGCAACAACCGCCGCGACCGCTTCCGCAACCGCCGCGAGCGCAACCGCGAGCGTTTCCGCGACGACGGCGGCATGCAGCAGGATGGCGGCAACGAGCCGTTCGTGCCGCGCCCGCATCCGAACGTGCCGGAAGGCTTCCCGCAGTACTCGCTGAGCGATCTGAAGAAGATGCCGGCGCACAAGCTGCTGGAGATCGCCGAGCAGCTGCAGATCCAGGAAGGCGTGGCCCGCGCCCGCAAGCAGGACGTGATCTTCGCCCTGCTCAAGGTGCTGACCCGCCACGGCGAAGGCGTCGCCGCCGACGGCGTGCTGGAAATCCTGCCGGACGGCTTCGGCTTCCTGCGTGCGGCCGAGGCCAGCTACCTGGCCGGCCCGGACGACACCTACATCTCGCCGAGCCAGATCCGCCGCTTCAACCTGCGCACCGGCGACCACATCGCCGGCCGCATCCGCTTCCCGAAGGACGGCGAGCGCTACTTCGCGCTGAACATCGTCGACACCATCAACGGCGAGCCGATCGAAGCGTCGAAGAACAAGGTGCTGTTCGAGAACCTGACCCCGCTGTTCCCGCGCAAGCGCTTCACGCTGGAACGCGGCAACGGTTCGTCGGAAGACATCACCGGCCGCATCCTCGACCTGATGGCCCCGCAGGGCAAGGGCCAGCGCGCGCTGATCGTCTCGCCGCCGAAGGCCGGTAAGACGATGATGATGCAGCAGGTGGCGACCGCGATCACCACCAACCACCCGGAAGTGCACCTGATCGTGCTGCTGGTGGACGAACGTCCGGAAGAAGTGACCGAAATGCAGCGCACCGTGCGCGGCGAAGTGGTCTCCTCGACCTTCGACGAGCCGGCCGCGCGCCACGTGCAGGTCGCCGAGATGGTGATCGAGCGCGCCAAGCGCCTGGTCGAGCACAAGAAGGACGTGGTGATCCTGCTCGACTCGATCACCCGCCTGGCCCGCGCCTACAACAACGTCGTGCCCAGCTCCGGCAAGGTGCTGACCGGCGGTGTCGATGCCAACGCGCTGCACCGCCCGAAGCGCTTCTTCGGCGCGGCGCGCAACGTCGAGGAAGGCGGCTCGCTGACCATCATCGCCACCGCGCTGGTCGAGACCGGCTCGAAGATGGACGAGGTGATCTACGAAGAGTTCAAGGGCACCGGCAACAGCGAAGTGCACCTGAACCGCCGCATCACCGAGAAGCGCGTGTACCCGGCGATCGACATCAACCGTTCGGGCACCCGTCGCGAGGACCTGCTGATCGAGCCGGAGCTGCTGCAGAAGATCTGGATCCTGCGCAAGCTGCTGCACCCGATGGACGAGATCGCGGCGATGGAGTTCCTGCTCGACAAGATGAAGAACACCAAGTCCAACGACGAGTTCTTCAGCTCGATGAAGCGCTGA	MSENTSSETGSVDAPVEKRVRKPRVAKTATAGHEAADSGSHQQPDLPLASSAPAVSESRPANEAPAPAPRAEAGPGADSAPAPSGDAGQQGGQRGGHQNQNAQQGGGQQQGGGNNRRDRFRNRRERNRERFRDDGGMQQDGGNEPFVPRPHPNVPEGFPQYSLSDLKKMPAHKLLEIAEQLQIQEGVARARKQDVIFALLKVLTRHGEGVAADGVLEILPDGFGFLRAAEASYLAGPDDTYISPSQIRRFNLRTGDHIAGRIRFPKDGERYFALNIVDTINGEPIEASKNKVLFENLTPLFPRKRFTLERGNGSSEDITGRILDLMAPQGKGQRALIVSPPKAGKTMMMQQVATAITTNHPEVHLIVLLVDERPEEVTEMQRTVRGEVVSSTFDEPAARHVQVAEMVIERAKRLVEHKKDVVILLDSITRLARAYNNVVPSSGKVLTGGVDANALHRPKRFFGAARNVEEGGSLTIIATALVETGSKMDEVIYEEFKGTGNSEVHLNRRITEKRVYPAIDINRSGTRREDLLIEPELLQKIWILRKLLHPMDEIAAMEFLLDKMKNTKSNDEFFSSMKR				NA	NA	NA	NA	NA
BMS020_08161	411	fosA_2	COG0346	Glutathione transferase FosA	ATGGTCTCCGGGCTCAGCCACCTGACCCTGTCGGTGGCTGATCTCGAGCGTTCGATCGCCTTCTATCGCGATCTGCTGGGCCTGCGGCTTGAAGCCAGCTGGGATCGCGGCGCCTATCTGGCCGCGGGCGGGCTGGGGCTGAGCCTCGCGCTGGCCAGCGACGCGGCCGTGGCGCCGGCGCAGGGGTATACCCATTACGCCTTCGCGCTGGAGCGCGATGCGTTCGCGCAGCAGGTCGCGCTGTTGCGCCGCCATGGCGTGCCGGAATGGCAGTTCAACCGCAGCGAGGGGGCGTCGCTGTACGTCCTCGATCCGGACGGCCACCGGCTGGAGTTGCACGTCGGCGACCTGGCCGCGCGGCTCGCGCATTGCCGGCGCCATCCTTACCCGGGCATGCGCTTCCACGCCTGA	MVSGLSHLTLSVADLERSIAFYRDLLGLRLEASWDRGAYLAAGGLGLSLALASDAAVAPAQGYTHYAFALERDAFAQQVALLRRHGVPEWQFNRSEGASLYVLDPDGHRLELHVGDLAARLAHCRRHPYPGMRFHA	PGPT0028550_56	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-FOSFOMYCIN_RESISTANCE,PGPT0028550-fosA5-K21265	NA	NA
BMS020_08162	882			hypothetical protein	ATGATCAAGGGAATGCATGTGCTGCTGCTGTCGCTGTGCCTGACCGGCGTGGCGGTCGATACCGCCCAGGCGCAGGGGGCCGGCGCGGTACGCAAACAGATCGAGAGCAGCCTGATGGTGCGCGGCGAGGTCGACATCGAGCGCGACGGCTCGGTCTCGGCGCTGGCGATCGAGCACGAGGACAAGCTGGATGCAGGCGTGGTCACGTTCGTGCGCGCCAATGCGATGCAGTGGAAGTTCGAGCCGGTGCTGCGCGATGGCCAGGCGATGCGGGCGCGCTCGCCGATGAGCCTGCGCGTGGTCGCCAAGAAGCTCGACAGCGGCGATTACCGCATCGAGCTGCGCGGGGTCAGCTTCCAGCGTTACGACGCCAAGGATCCGGCAAGCCTGGCCAGCATCGAGATGACGCCGCCGCGCTACCCGGAACAGGCCTTCCGCGCCGGCGCCGCCGGCAACGTTTACCTGGTGCTGAAGGTCGGCCGCGACGGCAAGGTCGAGGATGTCATCGCCGAGCAGGTCAATCTGCGCGTGGTCGCCAGCGAGGGTGAGATGCGGCAGTTGCGCGGTCTGTTCGCCCGGAGCGCGCTGGCGGCAGCGGCCAAATGGACCTTCCGCGTGCCCAGCCAGGGCGCAGAAGCGACCGCGCCGTTCTGGAGCATCCGGGTTCCGGTCAGCTACAGCCTGGACCGGCAGCCAGTCGAGGGTGGGGCCCGCGACGCCGGAACCTGGATCAGCTACGTCCCGGGCCCGCGCGAGCGGGCGCCGTGGTCGCAGCAGGATTCGGAAGCCTCCGGCTTCTCGCCGGATACGCTCGCCGACGGTGGCGTCTACATGGCCGACGGTCGCAGCCCGCGGCTGCTGACGCCGCTGCAGGGCGGCTGA	MIKGMHVLLLSLCLTGVAVDTAQAQGAGAVRKQIESSLMVRGEVDIERDGSVSALAIEHEDKLDAGVVTFVRANAMQWKFEPVLRDGQAMRARSPMSLRVVAKKLDSGDYRIELRGVSFQRYDAKDPASLASIEMTPPRYPEQAFRAGAAGNVYLVLKVGRDGKVEDVIAEQVNLRVVASEGEMRQLRGLFARSALAAAAKWTFRVPSQGAEATAPFWSIRVPVSYSLDRQPVEGGARDAGTWISYVPGPRERAPWSQQDSEASGFSPDTLADGGVYMADGRSPRLLTPLQGG				NA	NA	NA	NA	NA
BMS020_08163	1737	aceK_2	COG4579	Isocitrate dehydrogenase kinase/phosphatase	ATGACCGCCCTGAGCCCCCCGCAGTCCGAGCGCCGTGCGCAGGCCATCGCGCGCACGGCGTTCGAGGCGTTCGAGGACTACCACGCACGCTTCGCCGAGATCACCGCGCGTGCGCGCCGGCGCTTCGAGGCCCGCGACTGGAGCGGCGCCCGCGACGACGCGGTCGAGCGCATCGCGCTCTACGACCAGTGCGTCGGCGAATGCATGCTGAGGCTGCGTGCGGTGCTGCTCGGCCAGGCCCACGACCGCACGCTGTGGGTACGCGCGCGCGCGCACTATGCCGCACTGCTCGCCGGCTTGATCGATCTGGAGCTGTACAAGACCTTCTACAACACGCTGACGCGGCGCTACTTCCGCACCCAGGGCGTCGATGCCGACATCGAGTTCGTCGCGCTCGACATCGAGCCGACCGACGCGATCACTCATCCGGTCGCACGGCACGCCTACGCCGTCTCGGCGGGGCGGCTGACCGAAGTGCTGATGCGCGTGCTGGGCGACTATCCATTCGAGGTGCCGTACGCGCACCGCACCCGTTGCGCGGCGGCGATCGCGGTGCGGCTGCAGGACGACCTTGCGCACTGGGGCGATCACCCGGTGCGCAGCATCGAGTTGCTGGAGACGGTGTTCTACCGCGAACGCCGCGCCTACCTGGTCGGGCGCGTGTTCGGCGAACACCGGTTCTCGCCGTGCGTGATCGCGCTGGTCAACGATGCGGCCGGCCTGCGCGCCGAAGCGGTGCTGACCCGGCGCAGCGATGTCGCGCAGCTGTTCAGCAATTCGCGCAGCTACTTTCAGGCCGACCTGGCGACGGTCGGCGACGCGGTGGTGTTCCTGCGCAGCCTGCTCAGCCACAAGCCCATCGACGAGCTCTACACCATGCTTGGCCGCGCCAAGCAGGGCAAGACCGAGCGTTACCGCACCTTCTTCCGGCATTTCCAGGCGGTGCCCGAGGAAGTGCTGGTGCATGCCGACGGCACCCCGGGCATGGTGATGGCGGTGTTCACCCTGCCGAGCTATCCACTGGTGTTCAAGGTGATTCGCGACCGCTTCGCCTATCCCAAGCAGGTCAGCCGCGCGCAGGTCGAGGAGAAGTACGAGCTGGTGTTCCAGCTGGACCGCATCGGCCGCCTGCTCGATGCGCAGCCGTACCGCTCGCTGCGCTTCCCGCGCGCGCGCTTTGCCCCGGCGCTGCTCGAGGAGCTGCTGGGCAGCTGCGCGCGCGGCATCAGCGAAGAGGACGGCGACCTGGTGTTCGAGCTGTGCTACGTGCAGCGCCGGTTGCGCCCGCTCAACCTGTACCTGCGCGAGCAGACCGCCGAGGCGGCGAAGCTGGCGGCGCTGGACTACGGCCAGGCGATCAAGGACATGGCGCGCAACAACATCTTCCCCGGCGACATGCTGCTGAAGAACTTCGGCGTCACCCGCCACCAGCGCGCGGTGTTCTACGACTACGACGAGTTGTGCCTGATCACCGAGTGCACGTTCCGCGACTGGCCGCAGGCGACCACCTACGAGGAACAGATGGCGGCCGAGCCGTGGTTCCATGTCGCCCCGCGCGACGTGTTCCCGGAGCGATTCGCGCTGTTCATGGGCCTGCCGGGACCGGTGCTGGAGGCGGTCCGCGCGGTCCATGGCGAGCTGTTCGATCCGGCCTGGTGGCGCGCGTTGCAGGCGCGCCTGCGTGAGGACGACTATCCCGACACGCCCCCCTACGCCGACGCGCTGCGGCTGGCCTGA	MTALSPPQSERRAQAIARTAFEAFEDYHARFAEITARARRRFEARDWSGARDDAVERIALYDQCVGECMLRLRAVLLGQAHDRTLWVRARAHYAALLAGLIDLELYKTFYNTLTRRYFRTQGVDADIEFVALDIEPTDAITHPVARHAYAVSAGRLTEVLMRVLGDYPFEVPYAHRTRCAAAIAVRLQDDLAHWGDHPVRSIELLETVFYRERRAYLVGRVFGEHRFSPCVIALVNDAAGLRAEAVLTRRSDVAQLFSNSRSYFQADLATVGDAVVFLRSLLSHKPIDELYTMLGRAKQGKTERYRTFFRHFQAVPEEVLVHADGTPGMVMAVFTLPSYPLVFKVIRDRFAYPKQVSRAQVEEKYELVFQLDRIGRLLDAQPYRSLRFPRARFAPALLEELLGSCARGISEEDGDLVFELCYVQRRLRPLNLYLREQTAEAAKLAALDYGQAIKDMARNNIFPGDMLLKNFGVTRHQRAVFYDYDELCLITECTFRDWPQATTYEEQMAAEPWFHVAPRDVFPERFALFMGLPGPVLEAVRAVHGELFDPAWWRALQARLREDDYPDTPPYADALRLA	PGPT0001475_566	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-CITRIC_ACID_BIOSYNTHESIS,PGPT0001475-aceK-K00906	NA	NA
BMS020_08164	360			hypothetical protein	ATGGCTGGACTGAATGAATCGCTGCGCGAACTGATGACGATCGATGGCGCCCAGGCGGTCGCGCTGGTCGACTACGAGAGCGGCATGCTGTTGGGCGACGCTGGTTCGGGCGTCGACATGGAGGCGGCGGCGGCCGGCAATACCGAGGTGATCCGCGCCAAGCTGAAGACCGCCGCGTCGCTCAACCTCAACGACACCATCGAGGACATCCTGATCTCGCTGGGCAAGGCCTACCACATCATGCGACCGGTGGCCTCCAAGCGCGGCTTGTTCTTCTACGTGGTGCTCGACCGCGGCAAGGCCAACCTGGCGCTCGCGCGGCGCAAGGTGCTGGAAGTGGAGGGCCAGCTCTCGCTGTGA	MAGLNESLRELMTIDGAQAVALVDYESGMLLGDAGSGVDMEAAAAGNTEVIRAKLKTAASLNLNDTIEDILISLGKAYHIMRPVASKRGLFFYVVLDRGKANLALARRKVLEVEGQLSL				NA	NA	NA	NA	NA
BMS020_08165	408			hypothetical protein	ATGACCGGGGATGACTTCACGGGTGGCGACGAGCGCGCGCTGATGCGGCGCAGCCTCGAAGCATTCGTCGCCGCGACCGCCGGGGTGCGGGTCGCGGTGGTGGCCAGCGTCGACGGCTTCGCGCTGGTGCAGGCGCCGGTGCATGCGCCCAACGGCGAGCGGCTGGCGGCGATGACCAGCGCGATGCTCGGGCTGGCCGCCGCGGTCGGGCGCGAACTGGCGCTGGGCGAGCTGGAGGTGCTGATGCTGGAGGCCGACGCCGGCAAGACCATCATGACCTCGATCCCGGTGCCGGGCCGGTCGCTGCTGCTGATGGCGGCCTGCGACAAACGCACCGTGGCCGGCGCGGTGCTGTGGGGGGCGAAAGAATGTGGCCAGCAGATCGCGGCCGGGCTGGATGGCGGTTGA	MTGDDFTGGDERALMRRSLEAFVAATAGVRVAVVASVDGFALVQAPVHAPNGERLAAMTSAMLGLAAAVGRELALGELEVLMLEADAGKTIMTSIPVPGRSLLLMAACDKRTVAGAVLWGAKECGQQIAAGLDGG				NA	NA	NA	NA	NA
BMS020_08166	552			hypothetical protein	ATGCGCGAGCACAAGATCGTGGTGCTGGGGGCGATGGGCAGCGGCAAGACCACGCTGGTACGTGCGCTCGCCGGCAGCGGCGCGCACGTGGTCGATACCGACGTGGCCAACAGTGATCGCGCTGCCGGCAAGGCGGCGACCACGGTGGCGATGGACTACGCCGATATCGCCTTGCCCAATGGCGACCGCCTGCGCCTGTACGGCACCCCGGGCCAGCAGCGCTTCGACTTCGTCTGGCCGGTGCTGCTGCAGGGCGCGCGCGGCGTGCTGCTGCTGGCCAATGCCAGCCAGCCGGCGGAAGGGCACGGGCTGGGGACGTACCTGCAGGCGCTGGAGCGGTACGCGCCGGACATTCCGGCCGTGGTGGCGCTGACGCACGTGGACCGGGCGCTGGAACTGGATCTGCCGCTGGAGGCCGCCGCCGTGTCCGTCGGCGCTCGTGCGCTGCCGGTGTTGCCGGCCGACGCGCGCGCGCCGGAGCAGGTGCTGTTGCTGCTGGACATGCTGATGGCCGAGATCGAAGCGATGGAGATGTGTGATGACCGGGGATGA	MREHKIVVLGAMGSGKTTLVRALAGSGAHVVDTDVANSDRAAGKAATTVAMDYADIALPNGDRLRLYGTPGQQRFDFVWPVLLQGARGVLLLANASQPAEGHGLGTYLQALERYAPDIPAVVALTHVDRALELDLPLEAAAVSVGARALPVLPADARAPEQVLLLLDMLMAEIEAMEMCDDRG				NA	NA	NA	NA	NA
BMS020_08167	963			hypothetical protein	ATGGCCCGAGTGCTGGTTGTGGGAATGGATCTGGCGGGGGAGCGGGCGGTGCTTGCGCGGCTGGCGCAGGCGGCGCCGGGCGGTGCGGACGCGGTGCTGCCGGCGCGCGATCTGGATGGCTGCGATGTCCTGGTCGTGGGCGATTCGCCCGGCCTGCGCGCCACGGTGTCGCGCATGCTCGTTGCCCGTCCGGGCATGGACGTGCTGGTGCAGGCCGGCGATGGCGAACTGCACGACCTGCGCGTACGCACGGGCGGCGCGCTCGATGCTGTGCGTTTGGTCGCGCTGATGGCGCGTCACGCCGCACCGGCGGGCGGGAACGATGCCGCGGCCGATGCCGCCTTCGCGCGCGGCGCCAAGCCGGTGACGCGGCTGCTGCGGGCCAACCTGCGCGCCGGCAGCGGTCAGCTGCTGCTGGCCATCGACGACGCGCCGGCGGCGCTGCTCGACTTCGCCGCCGACCAGGCCCTGTGCCTGTCCAGCGCGCCGGCGCAATCGCGCGATTGGGCGGCCTGCCTGGGCCAGGACTTCGACCGCGCCAGTTTGCACGCGGTGGACCCGGCGCTGGCCGCCCCACCGTCCGCGCAGCTGCGCCAGCCGCTGCGGCCATTGCTGTGGCAGGCCGCGGCGACCTCCGCGCACTGGCGCGACCTGGATGCGCGGCTGGCGCGGCAGGCACGCATCCACCTGCTGCGCTGGCCCGACTTCCGGGTGCTGGCGCATCGGCCAGAAGCGTTCCGGCTGTGCTCGTTGCTGCTCAAGCGGGCCAGCACGCTGGAGGAGTGCAGCGAGTTGCTGCAGATCGGCCGCGGCGACGTGCTGGCGTTCGCCCATCCGGCCTATCTGTGCGGCTACGCGCAGATCGACGCGGTGCAGTCGCCGCCGCCGTGTCCGCCGGTGCGTGGCGAGGGCTCGCTGCTGGCGAGGATGTGGCGCGGCATGCGGGCGATGGGAGGGGCGTGA	MARVLVVGMDLAGERAVLARLAQAAPGGADAVLPARDLDGCDVLVVGDSPGLRATVSRMLVARPGMDVLVQAGDGELHDLRVRTGGALDAVRLVALMARHAAPAGGNDAAADAAFARGAKPVTRLLRANLRAGSGQLLLAIDDAPAALLDFAADQALCLSSAPAQSRDWAACLGQDFDRASLHAVDPALAAPPSAQLRQPLRPLLWQAAATSAHWRDLDARLARQARIHLLRWPDFRVLAHRPEAFRLCSLLLKRASTLEECSELLQIGRGDVLAFAHPAYLCGYAQIDAVQSPPPCPPVRGEGSLLARMWRGMRAMGGA				NA	NA	NA	NA	NA
BMS020_08168	927	gcvA_7		Glycine cleavage system transcriptional activator	ATGGCACGTCCGCCGCTCCACGCGCTGCAGGGATTCGTCACCGCTGTCCGGCTGGGCAACCTGTCGCGCGCGGCCGAGGCGATGAACCTGACCGTCAGTGCCCTGAGCCACCAGATGCGCGGGCTGGAGCAGCGCCTGGGCTATCCGCTGCTGCGGCGGCACGCGCGCGGGGTCAGCGCGACCCCGGAAGGCCAGCGTCTGATCGACAAGATCGCGCCACATCTGGACGCGATCGCGCAGGCCTTCCAGCCGTTCGCCGCGCGTCGCGAGGACGTGCTGACGCTGAGCATCCTGCCGTCGATGGCCTCGGCGTGGCTGGTGCCGCGGCTTGGCGACTTCCTGGCCACCCATCCGCACATCGAGATCAACCTGCAATCGACCGAGCGCGTGGTCGATTTCGAGCGCGAGCTGCAGTACGACGCGGCGATCCGGGTCGGGCGCGGCTCCTGGCCCGGCGTGCAGGCCGAGGCGCTGTTCGACGACTGGCTGGTGCCGATGGCCAGTCCGGATCTCGTCGCGCGGATGGGACGGCAGCGGCCGCTGTCGGAATGGCCGCTGCTCGGCGATCCGGATGGGCAGTGGGAGCGTTGGTTCGCGCTGGCCGGGTTGCAGCCGCCGACGCGCTACGTGGCGATGCTCGACGATTCCGAATCGCACCATCGTGCCGCCGCATCCGGGGTCGGCGTCGCGCTCGGGCGCATGACCCGTGCGCGGCTGCTGGTCGAGTCCGGGCAGCTGGTGGTGCTATCGCCGCACCGGCTCAAGGCCGCCTGGTCGCACTATCTGGTACATCCGCCACGTTCGGATGCGCATCGCGGCTTCATTGCGTTCCGCGACTGGCTGCGCGCGCAGGCGCGCGAGCACGCTGCGCGCTTGGAGGCGATCGCGGCCCCGGCGGCGGCTGCGCGGCGGCCCCGGCGGCGCTGA	MARPPLHALQGFVTAVRLGNLSRAAEAMNLTVSALSHQMRGLEQRLGYPLLRRHARGVSATPEGQRLIDKIAPHLDAIAQAFQPFAARREDVLTLSILPSMASAWLVPRLGDFLATHPHIEINLQSTERVVDFERELQYDAAIRVGRGSWPGVQAEALFDDWLVPMASPDLVARMGRQRPLSEWPLLGDPDGQWERWFALAGLQPPTRYVAMLDDSESHHRAAASGVGVALGRMTRARLLVESGQLVVLSPHRLKAAWSHYLVHPPRSDAHRGFIAFRDWLRAQAREHAARLEAIAAPAAAARRPRRR	PGPT0026360_4691	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS020_08169	201			hypothetical protein	ATGGGCATCTTCACCGGACTGCTGTTCCAGCATGGCCATATCGCCGACGTGGCACTGGCGAAATCACTGGCCGAGCCCACCCCGCCGCCCGCGTGCAAGGACGCGGCGGACGCCGCGCGGCAACGCCTGCGCGCGCGGCGCAACCGCGCATTGCGGCGGCTGGCCCTGCGTGGCGCAGCGTCGCTGTCGCTGTTCCGCTGA	MGIFTGLLFQHGHIADVALAKSLAEPTPPPACKDAADAARQRLRARRNRALRRLALRGAASLSLFR				NA	NA	NA	NA	NA
BMS020_08170	2232	icd_2	COG2838	Isocitrate dehydrogenase [NADP]	ATGTCGAATACCCCGAAGATCATCTACACGCTTACCGACGAGGCCCCGTTCCTGGCGACGCAGTCGCTGCTGCCGATCATCGACGCCTACACCGACACCGCCGGGATCGTGGTGGAGACCCGCGACATCTCGCTGGCCGGGCGCATCCTCTCGCAGTTCCCGGATTACCTCGACGACGCGCAGAAGATCGGCGACCACCTGGCCGAACTCGGCGACCTGGCGACCACGCCGGAAGCCAACATCATCAAGCTGCCGAACATCAGCGCCTCGGTGCCGCAGCTGAAGGCGGCGATCGCCGAGCTGCAGGCGCAGGGCTACAAGCTGCCGGCCTATCCGGACGAACCCAAGGACGCCACCGAGAAGGACGTCAAGGCGCGCTACGACAAGGTCAAGGGCAGCGCGGTCAATCCGGTGCTGCGCGAAGGCAACTCCGATCGCCGCGCACCGCTGTCGGTGAAGAACTACGCGCGCAAGCATCCGCACCGCATGGGCAAGTGGAGCGGCGAATCGAAGTCGCACGTCTCGCACATGCAGTCCGGCGATTTCTTCGGCAGCGAGACCTCGGCGACGCTGGCTTCGGCCGGTGCGCTGAAGATCGAGCTGGTCGGTGCCGACGGCGCCACCACCGTGCTGAAGGACAAGGTCGCGGTGAAGGCCGGTGAAGTGGTCGACGCGGCGGTGATGAGCCGCAAGGCGCTGGCCGCGTTCATCGACGAGCAGGTGGCCGACGCCAAGGCCAAGGGCGTGCTGTTCTCGCTGCACCTGAAGGCGACGATGATGAAGGTCTCCGACCCGATCATGTTCGGCATCGTCGTCGGCGAGTTCTACAAGGACGTGCTGGCCAAGCACGCCGAGGCGCTGAAGTCGGTGGGTTTCGATGCCAACAACGGCATCGGCGACCTGTACGCGCGCATCGGCGCGCTGCCGGCCGCGCAGCAGGAGGCGATCAAGGCCGACGTGCAGGCCGAATACGCCAAGCGCCCGGCGCTGGCGATGGTCAATTCCGACAAGGGCATCACCAACCTGCACGTGCCCAGCGACGTGATCGTCGACGCCTCGATGCCGGCGATGATCCGCGACAGCGGCCAGATGTGGAACGCCGAAGGCAAGCTGCAGGACACCAAGGCCGTGATCCCGGATCGCTGCTATGCCGGCGTGTACCAGGCGGTGATCGATGATTGCCGTACGCACGGCGCGTTCGATCCGGCGACCATGGGCAGCGTGCCCAACGTCGGCCTGATGGCGCAGAAGGCCGAGGAATACGGCTCGCACGACAAGACCTTCCAGATCCCGGCCGACGGCACGGTCAAGGTCACCGATGCCAGCGGCGCGGTGGTGTTCGAGCACGCGGTCGAGGCGGGCGACATCTGGCGCATGTGCCAGACCAAGGACGCGCCGATCCAGGACTGGGTCAAGCTCGCGGTCAGCCGCGCGCGCCTGTCGCAGACTCCGGCGGTGTTCTGGCTGGATGCGGCGCGCGCGCACGATGCGCAGATCATCGCCAAGGTGCAGACCTACCTGAAGGACCACGACACCAGTGGCCTGGACATCCGCATCCTGCCGCCGGTCGAGGCGACGAAGGTGTCGCTGGAGCGCATCCGCAAGGGCGAGGACACCATCTCGGTGACCGGCAACGTGCTGCGCGACTACCTCACCGACCTGTTCCCGATCATGGAGCTGGGCACCAGCGCCAAGATGCTGTCGATCGTGCCGCTGATGGCCGGTGGCGGCCTGTTCGAGACCGGTGCCGGCGGTTCGGCGCCCAAGCACGTGCAGCAGTTCGTCGAGGAGGATTACCTGCGCTGGGATTCGCTGGGTGAGTTCCTGGCGCTGGCCGCCTCGCTCGAGCACCTCGGCCAGAGCTACGACAACGCCGCGGCGCTGACCCTGGCCAAGGCGCTGGACGCGGCCAACGGCAAGTTCCTCGACAACAACAAGTCGCCGGCGCGCAAGGTCGGCGAGATCGACAACCGCGGCAGCCACTTCTACCTGGCGATGTACTGGGCGCAGGCACTGGCCGAGCAGGACGACAACGCCGAGCTGAAGGCGCGCTTCGCCCCGCTGGCCAAGCAGTTGACCGACAACGAGGCGACCATCGTCGCCGAGCTGGTCGGCGCGCAGGGCAAGCAGGTCGACATCGGTGGCTACTACCACCCGGACCTGGGCAAGTGCGCTGCGGCGATGCGTCCGAGCAAGACCTTCAACGACGCGATCGCATCGCTGTCGGCCTGA	MSNTPKIIYTLTDEAPFLATQSLLPIIDAYTDTAGIVVETRDISLAGRILSQFPDYLDDAQKIGDHLAELGDLATTPEANIIKLPNISASVPQLKAAIAELQAQGYKLPAYPDEPKDATEKDVKARYDKVKGSAVNPVLREGNSDRRAPLSVKNYARKHPHRMGKWSGESKSHVSHMQSGDFFGSETSATLASAGALKIELVGADGATTVLKDKVAVKAGEVVDAAVMSRKALAAFIDEQVADAKAKGVLFSLHLKATMMKVSDPIMFGIVVGEFYKDVLAKHAEALKSVGFDANNGIGDLYARIGALPAAQQEAIKADVQAEYAKRPALAMVNSDKGITNLHVPSDVIVDASMPAMIRDSGQMWNAEGKLQDTKAVIPDRCYAGVYQAVIDDCRTHGAFDPATMGSVPNVGLMAQKAEEYGSHDKTFQIPADGTVKVTDASGAVVFEHAVEAGDIWRMCQTKDAPIQDWVKLAVSRARLSQTPAVFWLDAARAHDAQIIAKVQTYLKDHDTSGLDIRILPPVEATKVSLERIRKGEDTISVTGNVLRDYLTDLFPIMELGTSAKMLSIVPLMAGGGLFETGAGGSAPKHVQQFVEEDYLRWDSLGEFLALAASLEHLGQSYDNAAALTLAKALDAANGKFLDNNKSPARKVGEIDNRGSHFYLAMYWAQALAEQDDNAELKARFAPLAKQLTDNEATIVAELVGAQGKQVDIGGYYHPDLGKCAAAMRPSKTFNDAIASLSA	PGPT0001170_1467	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
BMS020_08171	483			hypothetical protein	ATGCAGAGCACATCCAATCGCGCCATCTGCGGGCTGTCCATCGCCGCGGTGCTGGCGCTGGCCGGCTGCAAGAAGCCGGAAGAGGCGGCCGTGGCGCCGCCGCCCGCGGCCGAGCCGACGCCCGCGCCCGCCGCCGCGGAACCGGCGCCGATGCCGGCGACGGTATCGGTCACCGCATTGACCGTCGGCAACGCGGCCGCGGCCGACAAGAGCGTGGCGCCGGTGGCCGCGCTCGGCAGCCACGACAAGATCATCGTTTCAATCAAAACCGACGGCAGTGCCAGCGCCGTACAGGTCTCGGCCAAACTGACCTACCAGGATGGCCAGGTCGCCGGCGAGCAGGGCGTCACCCTGAACACCACCGGCCCGGAGACCACCAACATCGAGTTCAGCAACGCCAATCCGTGGCCGGCGGGCACGTATACCGCCGAGGTCAGCGTCAGTGGCAAGGCGGTGGGGCAGCAGCAGTTCGAGATCAGATAG	MQSTSNRAICGLSIAAVLALAGCKKPEEAAVAPPPAAEPTPAPAAAEPAPMPATVSVTALTVGNAAAADKSVAPVAALGSHDKIIVSIKTDGSASAVQVSAKLTYQDGQVAGEQGVTLNTTGPETTNIEFSNANPWPAGTYTAEVSVSGKAVGQQQFEIR				NA	NA	NA	NA	NA
BMS020_08172	294			hypothetical protein	ATGCCCGACAACAAGGCCGATTTCTCCGGCGTCAGCAGCAAGGTCGACACCACCGCGCAGGTCGTGCCCGCGGCTGACTTCTCCGGCGTCAGTGCGCGTGTGGAGAGCACCGCCGAGGTGGTGGGCGAGCAGACCTACACCGTGCAGAAGGGCGATTCGCTGTCGAAGATCGCCAAGCACTTCTATGGCGACGGCAACCTCTGGACGCGGATCTTCGAGGCCAATCGTGGCGTGCTCGACGACCCGGACAAGATTTTCCCCGGGCAGTCGCTGCGGATCCCGCCGGCCGCCTAG	MPDNKADFSGVSSKVDTTAQVVPAADFSGVSARVESTAEVVGEQTYTVQKGDSLSKIAKHFYGDGNLWTRIFEANRGVLDDPDKIFPGQSLRIPPAA				NA	NA	NA	NA	NA
BMS020_08173	816	queF_2	COG0780	NADPH-dependent 7-cyano-7-deazaguanine reductase	ATGAACACTCCCCAGGACTCTTCCCTCGGTCGCGAGGTCGCCTACCCGGACCGCTACGATCCGGCCCTGTTGTTCCCGATCCCGCGCGCGGCCGCACGCGCCGAGATCGGCCTGCCGACGCCGCTGCCGTTCGCCGGGCTGGATCGTTGGCATGCCTACGAGCTGAGCTGGCTGGACGCGCGCGGCAAGCCGTGCGTGGCCACGGCCACCTTCAACGTGCCGTGCACCTCGCCGCACCTGGTCGAGTCCAAGTCGCTCAAGCTCTACCTCAACTCGCTCAACGGCGCGCGCTTCAACAGCGCCGAGGCGGTCCGCACCTGCATCGCCACCGACCTGTCGGCGCGCGCCGGTGCCGAGGTCACGGTCGAGTTCGGGCTGCCGCCGGTGGACCCGCTGGGCGGCGAGGGCGAGTCGATCGACGGACTCGACATCGACATCGACGATTACGGCCCGCCCAACGCCCGTTACCTGCAGGCCGGCGACGCCATCGTCGAGGAGACGCTGGTGTCGGCGCTGCTGAAGTCCAACTGCCCGGTGACCGGCCAGCCGGACTGGGCCAACCTGACGCTGCGCTACCGCGGCGGCCGGATCGACCGCGAAGGGCTGCTGCGCTACCTGGTCAGTTTCCGCGAGCACGCCGAGTTCCACGAGCAGTGCGTCGAGCGCATCTTCCACGACGTGCAGCAGCAGTGCCGCCCGCAGTGGCTGGCGGTCGAGGCGCGCTACACCCGCCGCGGCGGCCTGGACATCAATCCCTACCGCGCCTCGCCGTCGCTGCCGGTGCTGCGCAGCGTGCTGCGCGACCCGCGCCAGTAA	MNTPQDSSLGREVAYPDRYDPALLFPIPRAAARAEIGLPTPLPFAGLDRWHAYELSWLDARGKPCVATATFNVPCTSPHLVESKSLKLYLNSLNGARFNSAEAVRTCIATDLSARAGAEVTVEFGLPPVDPLGGEGESIDGLDIDIDDYGPPNARYLQAGDAIVEETLVSALLKSNCPVTGQPDWANLTLRYRGGRIDREGLLRYLVSFREHAEFHEQCVERIFHDVQQQCRPQWLAVEARYTRRGGLDINPYRASPSLPVLRSVLRDPRQ				NA	NA	NA	NA	NA
BMS020_08174	462			hypothetical protein	ATGGACGACAAACTCAAGGCCCTGCTTGCCCGCACCAACCTCGACGAGCTGGCCCCGCCCCCCGATGCAACGCGGGACTACCACCAGCCTGTCGCCAACGCACCCACCCCCACAGCGCCGCAGATCCGCTCGACCACCGATCCGCTGCAGATCCAGTTCGCAGCACCGGACATGATCGGCAAGCTGCAGGAGCCCCGCGTCGGCGGCAAGCTGCGCCTGTTCGCGCTGGTCTTCCTGGCAGGGCCGTTCATGATCTTCGGCGTGATGCTGCTGGGCTTGTGCTGGCTCGATCCGGCGACGGGTCAGCTGCACCCGTTCGCCTCCGCCGCCGCCTGGATCCGCGCGGGCTACGGCAGCCTGGCCGCCCTGGCCCTGATCGCCGGTCCGGCCTGGCTGGTGCTGCGCCGGCGACCCCTGACACGCCCGGGCCACACGGTTCAGCCGCGCGGCGCTTGCAGGTAG	MDDKLKALLARTNLDELAPPPDATRDYHQPVANAPTPTAPQIRSTTDPLQIQFAAPDMIGKLQEPRVGGKLRLFALVFLAGPFMIFGVMLLGLCWLDPATGQLHPFASAAAWIRAGYGSLAALALIAGPAWLVLRRRPLTRPGHTVQPRGACR				NA	NA	NA	NA	NA
BMS020_08175	1314	scmP_2	COG1473	N-acetylcysteine deacetylase	ATGCGCCCCATCCGCCTGATTGCCGGCACGCTGCTGCTGGCCAGCCCCCTGATCGCCTCCGCCGCCGGCGACGAGCGCCCCGACGTGCAGGCCGCCGCCAAGCGCGTGCAGGCCGAGGTCGTGGCCTGGCGCCGCGATTTCCACCAGCACCCGGAGCTGTCCAACCGCGAGACCCGCACCGCCGCCAAGGTCGCCGAGCACCTGCGCGCGCTGGGCCTGAAGCCGGTCACCGGGGTTGCCCACACCGGCGTGGTCGCGGTGATCAAGGGCGGCCGGCCGGGGCCGCGGATCGCGCTGCGGGCGGACATGGACGCGCTGCCGGTGACCGAGCAGACCGGGCTGCCGTTCGCCTCCAAGGCCACCGCCGAGTACCGCGGCGAGCCGGTCGGGGTGATGCATGCCTGCGGCCATGACGCCCATACCGCGATCCTGCTGGGCGTGGCCGACGCCCTGGTGGCGATGCGCGAGCGCCTGCCGGGCGAGGTGATGCTGGTGTTCCAGCCGGCCGAGGAGGGCGCGCCCGGCAACGAGGAGGGCGGGGCGCGGCTGATGCTCAAGGAGGGCGTGTTCGCCGACTTCAAGCCGGAGGCGGTGTTCGGCCTGCACGTGTTCTCCAGCGTGCCGGTCGGCAAGATCGCGGTGCGCGGCGGCCCGCTGATGGCGGCGTCGGACCGCTTCAGCATCAAGGTCAGTGGTCGCCAGACCCACGGCTCGGCGCCGTGGAACGGCATCGACCCGATCGTCGCCGCGGCCGACCTGATCGGCACCGCGCAGACCGTGGTCAGCCGTCGCGCCAACATCGCCAAGCAGCCGGCGGTGGTCAGCTTCGGCGCGATCAAGGGCGGCATCCGCTACAACATCATCCCCGACGACGTGGAGATGGTCGGCACCATCCGCACCTTCGACGAGGACATGCGCAAGCAGATCTTCGCCGACCTGACCACGGTGGCCGAGCACACCGCTGCGGCCCACGGCGCCACCGCGACCGCGCAGGTGCCGGACCAGGAGGGCTATCCGGCCACGGTCAACGACCCGGCGCTGACCGCGCGGATGCTGCCCAGCCTGCAGGCGGTGGTCGGCAAGGACAACGTCTACGAGCCGCCGCTGCAGATGGGCGCCGAGGACTTCTCGCTGTTCGCGCGCGAAGTGCCGGGGCTGTTCTTCTTCGTCGGCGCCACCAGTGCCGGGATCGACCCGGCCACCGCGCCGAGCAACCACTCGCCGAAGTTCCTGCTCGACGAGCAGGCGCTGGACGTGGGCCTGCGCGCGCTGTTGCAGGTGTCGCTGGACTACCTGCAAGCGCCGCGCGGCTGA	MRPIRLIAGTLLLASPLIASAAGDERPDVQAAAKRVQAEVVAWRRDFHQHPELSNRETRTAAKVAEHLRALGLKPVTGVAHTGVVAVIKGGRPGPRIALRADMDALPVTEQTGLPFASKATAEYRGEPVGVMHACGHDAHTAILLGVADALVAMRERLPGEVMLVFQPAEEGAPGNEEGGARLMLKEGVFADFKPEAVFGLHVFSSVPVGKIAVRGGPLMAASDRFSIKVSGRQTHGSAPWNGIDPIVAAADLIGTAQTVVSRRANIAKQPAVVSFGAIKGGIRYNIIPDDVEMVGTIRTFDEDMRKQIFADLTTVAEHTAAAHGATATAQVPDQEGYPATVNDPALTARMLPSLQAVVGKDNVYEPPLQMGAEDFSLFAREVPGLFFFVGATSAGIDPATAPSNHSPKFLLDEQALDVGLRALLQVSLDYLQAPRG				NA	NA	NA	NA	NA
BMS020_08176	1245	mdtA_10		Multidrug resistance protein MdtA	ATGTCGCGTTTCTGGAAGATCACGCTGCTGGTTGTGGCAGCGGTCCTCGTGCTGTTCATCGGTGCGCGGATGATCCGCGGCGGGGGCCACGCCGGGCCTGGAGGGGCGCCAGGCGCCGCCGGCGGCAGCGACAGCGAGTCCGGCCCGGTGCCGGTGACCGCGGTCGCCGCGACCAGCCAGGAGGTGCCGGTCTACGCCAGCGCGCTGGGCACCGTGACCGCGCTGAACACCGTGACGGTCAACCCGCAGGTCGGCGGCCAGCTGCTGAGCATCAACTTCAAGGAAGGCCAGGAAGTGAAGAAGGGCGACCTGCTGGCGCAGATCGACCCGCGCACCCTGCAGGCCAGCTATGACGAGGCCGCCGCGGCCAAGGCGCAGAACCAGGCGCTGCTGGCCACCGCGCGCTCCAACTACGCGCGCTCCAACTCGCCGGCCTACCAGCCCTACGTGGCCAAGACCGACCTGGATTCGCTGCGCAACTCGGTCAGCCAGTACGAAGCGGCGGTCGCCGCCAACGACGCCTCGATGCGCGCCGCGCAGGTGCAGCTGCAGTACACCCGCATCACCGCGCCGATCGACGGCATCGCCGGCATCCGCGGCGTCGACGCCGGCAACATCGTCAGCACCAGCACCAGCATCGTCACCCTGACCCAGATCCACCCGATCTACGTCAGCTTCAACCTGCCGGAGACCCAGCTGCAGCCGGTGCGCGAAGGCCAGGCGCAGGCGCCGCTGGAAGTGGCCGCGCTCGACCGCGGCGACGCCCACGTGATCAGCGAGGACGGCAAGCTCGACGTGATCGACAACGCGATCAGCTCCGACAGCGGCACCTTCGCCGCGCGCGCGGTGTTCACCAACGCCGACAACGCGCTGTGGCCGGGCCAGTTCGTCAACGTGCGGGTGCGCCTGCGCACCATCGGCGGCGGCATCGTGGTGCCGACCCAGGCGGTGCAGCGCGGCCCGGACGGCGACTACGTGTACGTGGTGCAGGCCGACAACACCGTCAAGATGCAGACCGTGACCTCCGGGGTGGAGGTCGACGACAGCCACGTGCAGATCGCCAAGGGTCTGACCGCCGGCGAGAAGGTGGTCACCGAAGGCCAGTTCCGCCTGAAGCCGGGCAGCAAGGTCACCGCGCTGGCCCCAGGCGAGACCCCGGCGCCGCCGACCGAGGCCGAACTGAAGGCCGCCCAGCAGAAGGAAGGCCACGGCGGCGGTGGCCGTCGCGGCGGTGGCCCGCGCTGA	MSRFWKITLLVVAAVLVLFIGARMIRGGGHAGPGGAPGAAGGSDSESGPVPVTAVAATSQEVPVYASALGTVTALNTVTVNPQVGGQLLSINFKEGQEVKKGDLLAQIDPRTLQASYDEAAAAKAQNQALLATARSNYARSNSPAYQPYVAKTDLDSLRNSVSQYEAAVAANDASMRAAQVQLQYTRITAPIDGIAGIRGVDAGNIVSTSTSIVTLTQIHPIYVSFNLPETQLQPVREGQAQAPLEVAALDRGDAHVISEDGKLDVIDNAISSDSGTFAARAVFTNADNALWPGQFVNVRVRLRTIGGGIVVPTQAVQRGPDGDYVYVVQADNTVKMQTVTSGVEVDDSHVQIAKGLTAGEKVVTEGQFRLKPGSKVTALAPGETPAPPTEAELKAAQQKEGHGGGGRRGGGPR	PGPT0003585_805	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003585-mdtA-K07799	NA	NA
BMS020_08177	3303	mdtB_4	COG0841	Multidrug resistance protein MdtB	GTGGGCTTCTCGACGATCTTCATCCGCCGCCCCATCGCCACCTCGCTGCTGATGGCGGGCGTGCTGCTGCTGGGCATCCTCGGCTACCGCCAGCTGCCGGTCTCGGCGCTGCCGGAAATCGACGCCCCCAGCCTGGTGGTGACGACCCAGTATCCCGGCGCCAACGCCTCGACGATGGCCTCGCTGGTCACCACGCCGCTGGAGCGCCAGTTCGGGCAGATCTCCGGCCTGGACATGATGACCTCCGACTCCTCGGCCGGCCTGTCCACGATCATCCTGCAGTTCTCCACGGACAAGGACATCGACATCGCCGCGCAGGACGTGCAGGCGGCGATCCGCCAGGCCACCCTGCCCAGCTCGCTGCCGTACCAGCCGGTCTACAACCGGGTCAATCCGGCCGATGCGGCGATCATCACCCTCAAGCTGACCTCCGACACGCTGCCGCTGCGCGAGATCAACCGCTACGCCGACGCGATCCTGGCCCAGCGCCTGTCGCAGGTGCCGGGCGTGGGCCTGGTGTCGATCGCCGGCAACGTGCGGCCGGCGGTGCGCATCCAGGTCAATCCGGCGCAGCTGTCCAACATGGGCCTGACCCTGGAGTCGCTGCGCAGCGCGCTGACCCAGACCAACGTGTCGGCGCCGAAAGGCTCGCTCAACGGCAAGACCCAGTCGTATTCGATCGGCACCAACGACCAGCTCACCGACGCAGCGCAGTACCGCGACACCATCATCAGCTACGACAACGGCCGCCCGGTGCGGCTGTCGGACGTGGCCAACGTGGTGGACGGGGTCGAGAACGACCAGCTTGCGGCCTGGGCCGACGGCAAGCCGGCGGTGCTGCTGGAGATCCGCCGCCAGCCTGGCGCCAACATCGTGCAGACCGTGCAGCAGGTGCGCGGGATCCTGCCGCAGCTGCAGGCGGTGCTGCCGGCCGACGTGAAGCTGGAAGTCTTCTCCGACCGCACCGAAACCATCCGCGCCTCGGTGCACGAGGTGAAGTTCACCCTGATCCTGACCATCGGCCTGGTGGTCGCGGTGATCTTCGTGTTCCTGCGACGGCTGTGGGCGACGATCATCCCGTCGATCGCGGTGCCGCTGTCGCTGGCCGGCACCTTCGGGGTGATGGCCTTCGCCGGGATGTCGCTGGACAACCTGTCGCTGATGGCGCTGGTGGTGGCCACCGGCTTCGTCGTCGACGATGCGATCGTGATGATCGAGAACATCGTGCGCTACATCGAACAGGGCAAGGACGGGCGCGAGGCGGCCGAGATCGGCGCGCGCCAGATCGGCTTCACCGTGCTGTCGCTGACCGTGTCGCTGGTGGCGGTGTTCCTGCCGCTGATCCTGATGCCGGGCGTGACCGGGCGGCTGTTCCACGAGTTCGCCTGGGTGCTGAGCATCGCGGTGGTGATCTCGATGCTGGTGTCGCTGACGCTGACGCCGATGATGTGCGCCTACCTGCTCAAGGCCGACGCGCTGCCCGAGGGCGAGGACGCGCACGAACGCGCCGCCGCCGCCGGCAAGGTCACGCTGTGGTCGCGCACGGTCGCGCTGTACGAACGCACCCTGGACTGGGTGCTGGCGCGGCAACCGCTGACCCTGGGCGTGGCGATCGGCGCGGTCGCGCTGACGGTGATCCTGTACGTGGTGATTCCCAAGGGCCTGCTGCCCGAGCAGGACACCGGGCTGATCACCGGCGTGGTCCAGGCCGACCAGAACGTCGCCTTCCCGCAGATGGAGCAGCGCACCCAGGCGGTGGCCGAGGCGCTGCGCAAGGACCCGGCAGTGACCGGCGTGGCCGCCTTCATCGGCGCCGGCACGATGAACCCCACGCTCAACCAGGGCCAGCTGTCGATCGTGCTGAAGGAACGCGGCGAGCGCGACGCGCTCGAGGACGTGGTGGCGCGGCTGCAGGACGACGTGAAGGACATCCCCGGCGTGGCGCTGTACCTCAAGCCGGTGCAGGACGTGACCCTGGATACCCGCGTGGCCGCGACCGAATACCAGTTCTCGCTGTCCAGCGTGGACAGCAGCGAGCTGAGCACCTGGGCCGGCAAGATGACCGAGGCGATGCGCAAGCTGCCGCAGCTGGCCGACGTCGACAACAACCTGGCCAGCCAGGGCCGTGCGCTGCAGGTCACCATCGACCGCGACAAGGCCAGCATGCTCGGCGTGCCGATGCAGACCATCGACGACACGCTCTACGACGCGTTCGGCCAGCGCCAGATCTCCACCATCTTCACCGAGCTCAACCAGTATCGGGTGGTGCTGGAAGTGGCGCCGGAGTTCCGCACCAGCAACGCGCTGATGAACCAGCTGGCGGTGGCCTCCAACGGCACCGGCGCGCTGACCGGCACCAACGCCACCAGCTTCGGCCAGGTGACCTCGTCCAACTCGTCCACCGCCACCGGCACCGGCGAGCGCAACACCGGCATCACCGTCGGCTCCGGCAGCATCATCCCGCTGGCCGCGCTGGCGACCGCGAAGATCGGCAACACCCCGCTGGTGGTCAGCCACCAGCAGCAGCTGCCGGCGGTGACGATCTCCTTCAACCTGGCGCCGGGCTATTCGCTGTCGCAGGCGGTGTCGGCGATCAACGAGGCGCGCGACGCGCTGCAGCTGCCCAGCCAGGTGCATGCCGAGTTCGTCGGCAAGGCGGCCGAGTTCACCGGCAGCCAAAGCGACGTGGTGTTCCTGCTGCTGGCGGCGATCGTGGTGATCTACATCGTGCTGGGCGTGCTCTACGAGAGCTACATCCATCCGCTGACGATCATCTCCACGCTGCCGCCGGCCGGCGTCGGCGCGCTGCTGGCGTTGATGCTGTGCGGGATGAGCCTGTCGGTGGACGGCATCGTCGGCATCGTGCTGCTGATCGGCATCGTCAAGAAGAACGCGATCATGATGATCGACTTCGCGATCGAGGCGCGCCGCACCGGCGTGAGCGCGCACGAGGCGATCCGCCGCGCCTGCCTGCTGCGCTTCCGCCCGATCATGATGACCACCGCCGCGGCGATGCTCGGCGCGCTGCCGCTGGCGCTCGGCGACGGCATCGGCTCGGAGCTGCGCAAGCCGCTGGGCATCGCCATCGTCGGCGGCCTGCTGCTGAGCCAGCTGGTCACGCTGTACACCACGCCGGTGATCTACCTGTACATGGAGCGCCTGTCCGAGCGCCTGGCGGCCTGGCGCGCGCCGCGCCGCGCAGGCCGGTACCAGCGCCACTGCGGAGCAGGCATGAGCACGCGCCTGAGCGCCGCGGCCGCGGCAACCGGCGCGCGTACCGGCCCGACGGAGCGCGCGCGATGA	MGFSTIFIRRPIATSLLMAGVLLLGILGYRQLPVSALPEIDAPSLVVTTQYPGANASTMASLVTTPLERQFGQISGLDMMTSDSSAGLSTIILQFSTDKDIDIAAQDVQAAIRQATLPSSLPYQPVYNRVNPADAAIITLKLTSDTLPLREINRYADAILAQRLSQVPGVGLVSIAGNVRPAVRIQVNPAQLSNMGLTLESLRSALTQTNVSAPKGSLNGKTQSYSIGTNDQLTDAAQYRDTIISYDNGRPVRLSDVANVVDGVENDQLAAWADGKPAVLLEIRRQPGANIVQTVQQVRGILPQLQAVLPADVKLEVFSDRTETIRASVHEVKFTLILTIGLVVAVIFVFLRRLWATIIPSIAVPLSLAGTFGVMAFAGMSLDNLSLMALVVATGFVVDDAIVMIENIVRYIEQGKDGREAAEIGARQIGFTVLSLTVSLVAVFLPLILMPGVTGRLFHEFAWVLSIAVVISMLVSLTLTPMMCAYLLKADALPEGEDAHERAAAAGKVTLWSRTVALYERTLDWVLARQPLTLGVAIGAVALTVILYVVIPKGLLPEQDTGLITGVVQADQNVAFPQMEQRTQAVAEALRKDPAVTGVAAFIGAGTMNPTLNQGQLSIVLKERGERDALEDVVARLQDDVKDIPGVALYLKPVQDVTLDTRVAATEYQFSLSSVDSSELSTWAGKMTEAMRKLPQLADVDNNLASQGRALQVTIDRDKASMLGVPMQTIDDTLYDAFGQRQISTIFTELNQYRVVLEVAPEFRTSNALMNQLAVASNGTGALTGTNATSFGQVTSSNSSTATGTGERNTGITVGSGSIIPLAALATAKIGNTPLVVSHQQQLPAVTISFNLAPGYSLSQAVSAINEARDALQLPSQVHAEFVGKAAEFTGSQSDVVFLLLAAIVVIYIVLGVLYESYIHPLTIISTLPPAGVGALLALMLCGMSLSVDGIVGIVLLIGIVKKNAIMMIDFAIEARRTGVSAHEAIRRACLLRFRPIMMTTAAAMLGALPLALGDGIGSELRKPLGIAIVGGLLLSQLVTLYTTPVIYLYMERLSERLAAWRAPRRAGRYQRHCGAGMSTRLSAAAAATGARTGPTERAR	PGPT0003590_39	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003590-mdtB-K07788	NA	NA
BMS020_08178	3141	mdtC_5		Multidrug resistance protein MdtC	ATGAACCTCTCGGCCCCCTTCATCAAGCGCCCGATCGGCACCGCGCTGCTGGCGATCGGTTTGTTCGTGATCGGCCTGATGTGCTACCTGCGGCTGGGCGTGGCGGCGCTGCCGAACATCCAGATCCCGGTGATCTTCGTCCACGCCACCCAGTCCGGCGCGGACGCCAGCACGATGGCCTCCACGGTCACCGCGCCGCTGGAACGCCACCTCGGCCAGGTGCCGGGCATCGACCGCATGCGCTCCTCCAGTTCGGAGGGCAGCAGCATGGTGTTCATGATCTTCCAGAGCAGCCGCAACATCGATTCGGCCGCGCAGGACGTGCAGACCGCGATCAACGCCTCGCAGGCCGACCTGCCCTCCGGGCTGGGCACGCCGATGTACCAGAAGGCCAACCCGAACGACGATCCGGTGATCGCCATCGCGCTGACCTCGGAGACGCAGTCGGCCGACGAGCTGTACAACGTCGCCGATTCGCTGCTGGCGCAGCGCCTGCGCCAGATCGAGGGCATCAGTTCGGTCGACATCGCCGGCGCCTCCACCCCGGCGGTACGCGTGGACGTCGACCTGCACGCGATGAGCGCGATGGGCCTGACCCCGGACGACCTGCGCAACGCGGTGCGCGCGGCCAACGTGACCTCGCCCACCGGCTTCCTCAGCGACGGCACCAGCACCACCGCGATCGTAATCAACGATTCGGTGGCCAAGGCCGCCGACTTCGCCCAGCTCGCCATCGCCACCCAGTCCAACGGCCGCATCGTGCGCCTAGGCGACATCGCCAAGGTCTACGACGGCCAGCAGGACGCGTACCAGGCCGCCTGGTTCGGCGGCAAGCCGGCGGTGGTGATGTACGCCTTCACCCGCGCCGGGGCGAACATCGTCGCCACCGTGGACAAGGTCAAGGCGCAGATCCCCGAGCTGCGCGGCTACCTGCAGCCTGGCACCACGCTGACCCCGTACTTCGACCGCACCCCGACCATCCGCGCCTCGCTGCACGAGGTGCAGGCCACGCTGCTGATCTCGCTGGCGATGGTGATCATGACCATGGCGCTGTTCCTGCGCCGGCTGGCGCCGACGCTGATCGCCGCGGTCACCGTGCCGCTGTCGCTGGCCGGCTCGGCGCTGGTGATGTACGTGCTCGGCTTCAGCCTCAACAACCTCAGCCTGCTGGCGCTGGTGATCGCGATCGGCTTCGTGGTCGACGATGCGATCGTGGTGATCGAGAACATCTCGCGCCACCTCGACGAAGGCATGCCGCGGATGCAGGCGGCATTGGCCGGCGCGCGCGAGATCGGCTTCACCATCGTCTCGATCACCGCCTCGCTGGTCGCAGTGTTCATCCCGCTGCTGTTCGCCAGCGGCATGATCGGCGCGTTCTTCCGCGAGTTCACCGTAACCCTGGTGGCGGCGATCGTGGTCTCGATGCTGGTCTCGCTGACGCTGACCCCGGCGCTGTGCAGCCGCTTCCTGTCGGCGCACGACAGCGTCGAGCCGGGCCGCTTCGGCGCCTGGCTGGAGCGCCAGCACGCACGCATGCTGAAGGTCTACACGGTGGCACTGGACTTCTCGCTGCGCCATGCGCTGCTGATGTCGCTGACCCCGCTGCTGCTGATCGTGGCCACGGTGTTCCTGGCCGGCGCGGTGAAGAAGGGCAGCTTCCCGGCGCAGGACACCGGGTTGATCTGGGGCCGCGCCAGTTCCAGCGCCACGGTGTCCTTCGCCGACATGGTCGAGCGCCAGCGCCGCATCACCGACATGCTGGTGGCCGACCCGGCGGTGAAGATCGTCGGCGCGCGGCTGGGCTCCAGCCGGCAGGGCTCCAGCGCCTCGTTCAACATCGAGCTGAAGAGCCGCGCCGACGGCCGCCGCGAGACCACCGACCAGGTGCTGGCGCGGCTCAGCGCCAAGGCCGACCGCTATCCGGACCTGCAGCTGCGCCTGCGCGCGATCCAGGACCTGCCCAGCGACGGCGGCGGTGGCACCAGCCAGGGCGCGCAGTACCGCGTGTCGCTGCAGGGCAACGACCTGGCGCAGCTGCAGGAATGGCTGCCCAAGCTGCAGGCGGTGCTGAAGCAGAATCCGAAGCTGCGCGACGTCGGCACCGACGTGGATACCGCCGGGCTGCGCCAGAACATCGTCATCGACCGCGCCAAGGCCGCGCGCATGGGCATCTCGATCGGCACCATCGACGGTGCGCTGTACGGCGCCTTCGGCCAGCGCTCGATCTCGACGATCTACAGCGAGCTCAACCAGTACAGCGTGGTGGTCAACGCGCTGCCGTCGCAGACCGCGACGCCGGCGGCACTGGACCAGATCTACGTGCCCAACAGCGCCGGCACGATGGTGCCGATCACCGCGGTGGCGCACCAGGAGCCCGGGCTGGCGCCGCCGCAGATCAGCCACGACAACCAGTACACGACGATGGACCTGAGCTACAACCTCGCGCCGGGCGTCAGCACCGGCGAGGCCGACGCGATCATCGCCGCGGCGGTGAAGGGGCTGCGCATGCCCGGCGACGTGCGCATCGCCGGCGACAGCAGCTTCGGCGTGCAGCTCAGCCCGAACTCGATGCTGGTGCTGCTGCTGGCGGCGATCCTGACCGTGTACATCGTGCTCGGCATGCTCTACGAGAGCCTGATCCACCCGGTGACGATCCTGTCGACGCTGCCGGCCGCGGGCATGGGCGCGCTGCTGGCGCTGTTCGTCACCAACACCGAGCTGAGTGTGATCTCGATGATCGCGCTGGTGCTGCTGATCGGCATCGTCAAGAAGAACGCGATCATGATGATCGACTTCGCGCTGGTGGCCGAGCGCGAGCACGGCAAGGCGCCGCGCGAGGCCGCGCGCGAGGCCTCGGTGGTGCGCTTCCGCCCGATCATGATGACCACGATGGTGGCGATCCTGGCGGCGGTGCCGCTGGCGGTCGGGCTGGGCGAAGGCTCCGAACTGCGCCGCCCGCTCGGCATCGCGATGATCGGCGGCCTGGTCATCTCGCAGAGCCTGACCCTGCTCAGCACGCCGGCGCTGTACGTGATCTTCTCCTGCCTGGCGCAGCACTGGAAGAACTGGCGTGCGCGCCGGCGCGAGAAGAAGGCGGCGCGACGCCGCGCACGGCTGGGGGTTCCCAGCCCGCAGCAGTAA	MNLSAPFIKRPIGTALLAIGLFVIGLMCYLRLGVAALPNIQIPVIFVHATQSGADASTMASTVTAPLERHLGQVPGIDRMRSSSSEGSSMVFMIFQSSRNIDSAAQDVQTAINASQADLPSGLGTPMYQKANPNDDPVIAIALTSETQSADELYNVADSLLAQRLRQIEGISSVDIAGASTPAVRVDVDLHAMSAMGLTPDDLRNAVRAANVTSPTGFLSDGTSTTAIVINDSVAKAADFAQLAIATQSNGRIVRLGDIAKVYDGQQDAYQAAWFGGKPAVVMYAFTRAGANIVATVDKVKAQIPELRGYLQPGTTLTPYFDRTPTIRASLHEVQATLLISLAMVIMTMALFLRRLAPTLIAAVTVPLSLAGSALVMYVLGFSLNNLSLLALVIAIGFVVDDAIVVIENISRHLDEGMPRMQAALAGAREIGFTIVSITASLVAVFIPLLFASGMIGAFFREFTVTLVAAIVVSMLVSLTLTPALCSRFLSAHDSVEPGRFGAWLERQHARMLKVYTVALDFSLRHALLMSLTPLLLIVATVFLAGAVKKGSFPAQDTGLIWGRASSSATVSFADMVERQRRITDMLVADPAVKIVGARLGSSRQGSSASFNIELKSRADGRRETTDQVLARLSAKADRYPDLQLRLRAIQDLPSDGGGGTSQGAQYRVSLQGNDLAQLQEWLPKLQAVLKQNPKLRDVGTDVDTAGLRQNIVIDRAKAARMGISIGTIDGALYGAFGQRSISTIYSELNQYSVVVNALPSQTATPAALDQIYVPNSAGTMVPITAVAHQEPGLAPPQISHDNQYTTMDLSYNLAPGVSTGEADAIIAAAVKGLRMPGDVRIAGDSSFGVQLSPNSMLVLLLAAILTVYIVLGMLYESLIHPVTILSTLPAAGMGALLALFVTNTELSVISMIALVLLIGIVKKNAIMMIDFALVAEREHGKAPREAAREASVVRFRPIMMTTMVAILAAVPLAVGLGEGSELRRPLGIAMIGGLVISQSLTLLSTPALYVIFSCLAQHWKNWRARRREKKAARRRARLGVPSPQQ	PGPT0003595_397	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003595-mdtC-K07789	NA	NA
BMS020_08179	447			hypothetical protein	ATGAAGACCACGCCCTATCTCAGCTTCCACGGCGAGTGCCGCGAGGCGTTCGCGACCTACAAGCGCATCTTCGGTGGTGAGGTGTTCCAGATCACCTACGGCGAGGCGCCACCGCAGCCGGAAGGCGCCGCACCGCCACCCGAGGGCTGTGGCGACGTCGGCGCCAGCGCCGGCGACCTGATCATGCACGCCACGCTGGCGCACGGGCAGGCGGCATTCCTGATGGGTTCGGACATGCCACCGGGCATGGCCAAGGCGAGCGGCGGGATCTCGGTCGCGCTCAACTGCGACGACAACGCCGAAGCCGAACGCGTGTTCGCCGCGCTGTCCGAACGCGCACAGGTGCAGATGCCGCTGGCCGAGACGTTCTGGGCCGAGCGCTTCGGCATGCTGACCGATCGCTTCGGCACGCCGTGGCTGATCAACGGCGTCTACAAGCAACCCTAG	MKTTPYLSFHGECREAFATYKRIFGGEVFQITYGEAPPQPEGAAPPPEGCGDVGASAGDLIMHATLAHGQAAFLMGSDMPPGMAKASGGISVALNCDDNAEAERVFAALSERAQVQMPLAETFWAERFGMLTDRFGTPWLINGVYKQP	PGPT0030505_1605	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
BMS020_08180	426			hypothetical protein	ATGCCCACGGTCAAACAGCTCTTCGTCAACCTGCCGGTGGCGTGGCTGCCGCGCGCGATGGAGTTTTTCGGCGCGCTCGGCTTCCGCTTCGATCCGAAGTACACCAACGACGATGGCGCCTGCCTGGTACTCGGCGAGAACATCTACGCGATGCTGCTGGCGCGGCCGTTCTTCGAGGGCTTCATGAGCAAGCAGATCTGCGACAGCAGCGCCGCCTGCGAGGTGATCAACGCCCTGGCGGTGGAAAGCCGCGAGGAGGTCGATGCGCTGGTGCGGCGCGGGCTCGATGCCGGTGGCAGTGCATCCGGCGAGCCGCGCGATGACGGCTTCATGTACCAGCACGGCTTCCAGGACCCGGACGGGCATCTGTGGGAGGTCTTCCATGCCGCCTCCGGCGCCGAGCCGCCGTGGGATTCGGCCGATTGA	MPTVKQLFVNLPVAWLPRAMEFFGALGFRFDPKYTNDDGACLVLGENIYAMLLARPFFEGFMSKQICDSSAACEVINALAVESREEVDALVRRGLDAGGSASGEPRDDGFMYQHGFQDPDGHLWEVFHAASGAEPPWDSAD	PGPT0028555_1633	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
BMS020_08181	1362		COG5383	putative protein	ATGAGCTCCACCGCACACGTTTCTCCCGACGAGATCCGCAGCCTGTTCGCGCAGGCGATGTCGGACATGTACCGCACCGAGGTACCGTTGTACGGCACGCTGATGGCGCTGGTCGCGCAGGTCAACGCCGAGACCCTGGCCGCCGATCCGGCGCTGGCCGCGCAGGTCGAACGCAACGACGAGCGCGCGCGGCTGGACCTGGAGCGGCACGGCGCGATCCGTGTCGGCAGCGCGCAGGAACTGGCCACGCTGCGGCGCCTGTTCGCGGTGATGGGCATGCATCCGGTCGGCTACTACGATCTGTCGGTGGCCGGGGTGCCGGTGCATTCCACCGCGTTCCGCCCGGTCGAGGCTGCGGCGCTGGCGCGCAATCCGTTCCGGGTGTTCACCTCCTTGCTGCGGCTGGAGCTGATCGAGGATGCCGCACTGCGCGCGCAGGCGGCCGAGATCCTGTCCCGGCGGAAGATCTTCACCGACACCGCGCTGGCGCTGATCGCGCAGGCCGAGCGCGACGGCGGCCTGGCGGCGGCCGATGCGCGGGCGTTCGTCGACGCGGCGCTGGAGACGTTCCGCTGGCATGCCGACGCGACCGTGTCGCTGCCGACCTACCGCGCGCTGCACGACGCGCACCGGCTGATCGCCGACGTGGTCAGCTTCCACGGCCCGCACATCAACCACCTGACCCCGCGTACGCTGGACATCGATGCCGCACAGGCGCAGATGCAGCAGCGCGGCATCGATGCCAAGGCGGTGATCGAAGGCCCGCCGCGCCGGCGTTGCCCGATCCTGCTGCGCCAGACCAGCTTCAAGGCGCTGGAGGAGGCCGTGCGCTTTCCCGGTACCGCGGGCAACGAGAGCGGGACCCACACCGCGCGCTTCGGCGAGATCGAGCAGCGCGGGCTGGCGCTGACGCCGAAGGGCCGCGCGCTGTACGACAGCCTGCTGGAACAGGCGCGCGCGGGCGATGGCAGTGCCGGTGGCGACTATGCGCAGCGGTTGCAGGCGGCGTTCGTCGGCTTCCCGGATGACTACGCCACGCTGCGCCGCGAGGGCCTGGGGTATTTCCACTACCGCCTGACCGCGGCCGGGCGCGCCGACCCGGACGCCGCGGCGGCGGTGCCGGCCGAGGCGGCGATCGCCGCCGGCCTGGTCAGTGCCGATCCGGTGGTCTACGAGGACTTCCTGCCGGTCAGCGCGGCCGGCATCTTCCAGTCCAACCTGGGTGGCACCGAGCAGCGCGCCTATGCGGCGCACGCCAACCAGGCTGCGTTCGAGCAGGCGCTGGGCGCGCCGGTGGCCGACGAGTTCGCGATCTATGCCGGTATCGAGCGCGCCTCGCTGGAGGCGCTGGCGCAGTCCTGA	MSSTAHVSPDEIRSLFAQAMSDMYRTEVPLYGTLMALVAQVNAETLAADPALAAQVERNDERARLDLERHGAIRVGSAQELATLRRLFAVMGMHPVGYYDLSVAGVPVHSTAFRPVEAAALARNPFRVFTSLLRLELIEDAALRAQAAEILSRRKIFTDTALALIAQAERDGGLAAADARAFVDAALETFRWHADATVSLPTYRALHDAHRLIADVVSFHGPHINHLTPRTLDIDAAQAQMQQRGIDAKAVIEGPPRRRCPILLRQTSFKALEEAVRFPGTAGNESGTHTARFGEIEQRGLALTPKGRALYDSLLEQARAGDGSAGGDYAQRLQAAFVGFPDDYATLRREGLGYFHYRLTAAGRADPDAAAAVPAEAAIAAGLVSADPVVYEDFLPVSAAGIFQSNLGGTEQRAYAAHANQAAFEQALGAPVADEFAIYAGIERASLEALAQS				NA	NA	NA	NA	NA
BMS020_08182	570			hypothetical protein	ATGCTCGCCTGCGCACGCCTCGTCCTGTTGCTCCTCACCGTGTCCGCCTGCGCGCTGGCGCAGGCCCAGCGGCCGCCGGCCGTGGGTGAGGCGGCCGCGGTGTATGCGCCGGCGACCGGCGACGGATGGATCGACCGCCAGCTCGACGACATCAATGCCTATGCACGGCGCTACCCGGACAGTTTCCTCGACGAGCTCGCGCGCTACGCCAACGTGCGCCGCGGCTACGTGCAGGCGCTGCTCGAACGCCAGCACCTGGTGCCGGGCGACATCTATTTCGCCTGCGCGTGGGCGTTCGCGACCAACCTGTCGTGCCGCGAGACAGTGCGCGCCTGGAACCTGGATCGCGGCGCGGGTTGGGCCACGGCGCTGGCGAAGCTGCCGATCGCGCCGGATACCCTGCATTACCGCGCGGTGCGCCACGCGATCGTCGCCAGCTACGACCGCTGGGACCGGCCGATCCGGCTGGACCCGATGCTGCAGCGTCAACTCGGCGACCGCGCCCAGCGGCTGGAGCGCGCCCGCCAGGCCGCCCAGGCCGAGGCCGCCGCCGACGCCCAGCGGCTTTAG	MLACARLVLLLLTVSACALAQAQRPPAVGEAAAVYAPATGDGWIDRQLDDINAYARRYPDSFLDELARYANVRRGYVQALLERQHLVPGDIYFACAWAFATNLSCRETVRAWNLDRGAGWATALAKLPIAPDTLHYRAVRHAIVASYDRWDRPIRLDPMLQRQLGDRAQRLERARQAAQAEAAADAQRL				NA	NA	NA	NA	NA
BMS020_08183	456			hypothetical protein	ATGTGCGGGCTGCTGCTCGCCGCGGCGATGACGGCGCCTGTGCGGGCGGGCGAGCTCGAGGAAGAGCAGGTCAACCCGAGCGAGGTGACCTTCCGCAACGGCGTGCCGTACTACTACGACGCCGGCAACGCGGTGCGACTGGCCACGCGCCACGAAGGCGGCACCACGATCTACTACCGCATGGTCCGCTACGACGCGCAGGACGGCTACCTGCGCGAAGACGGTTCCAGCGTGCCGGCACGGCACGCACAGGCGACCGCGTCGGCGTACAGCGGCAGCGGGCGGGTGAAGTACTACGGCAACGGTCTGTACGGGCCGGATTACTACAACAGCCCCTACAACCGCGACGCGCGCCAGCGCTACTACGGGCCCGGCTACGTGGGTGCCTGTGATTGGCGCGGCTGCAAGGAAGTGCATTACGCGGTGCCGGTCTACGGCTACTACGAACCCTACTAG	MCGLLLAAAMTAPVRAGELEEEQVNPSEVTFRNGVPYYYDAGNAVRLATRHEGGTTIYYRMVRYDAQDGYLREDGSSVPARHAQATASAYSGSGRVKYYGNGLYGPDYYNSPYNRDARQRYYGPGYVGACDWRGCKEVHYAVPVYGYYEPY				NA	NA	NA	NA	NA
BMS020_08184	741			hypothetical protein	ATGGCGAACCCGATTTCCAGCAGCCGCGCGCCGCACGCGATCACGATGGTCGGCTTCGACGGCGACGACACGCTCTGGCACAGCCAGGGCTTCTACGACCAGGCGCAGGCGGATTTCGAGGCGATCATCGCCCGTTACGTCGACCTCGACGGCCCCGGCCTGCGCGCCCGCCTGCTGGCCACCGAGCGCGCCAACCTGACCCAGTACGGCTACGGCGTGAAGGGCATGATCCTGTCGATGGTCGAGGCTGGCATCGCCCTGACCGATGGCCGGATCGAAGCGCGCGACATCCACACGATCATGGAGATGGGCAAGGCGCTGCTGGTGCATCCGGTCGAGTTGTTGCCGGGCATCGCCGACGCGGTCGCCGAGGTCGCCCGGCACTACCGCGTGGTGTTGATCACCAAGGGCGACCTGTTCCACCAGGAGCGCAAGGTCGCGCAATGCGGGCTGAGCGAGTTCCATCGCATCGAGATCGTCTCCGAGAAGGACGAGGCGACCTATCGGCGCCTGCTGCAGGAGTTCGAGGTCGCGCCGGAGGAATTCGTGATGGTCGGCAATTCGATGAAATCCGACATCGCTCCGGTGGTCGAGCTTGGCGGCCGCGGCATCTACATGCCGTACCACGCGACCTGGGCGCACGAACTGCTGGCCGAGTTCGACGGCGGCGGGCGCGTGGTCGAAGTGGATGGTGCGGCAGGCATCGTCGACGCGCTGGCGCGCCTGTCCGCGGCGGGCTGA	MANPISSSRAPHAITMVGFDGDDTLWHSQGFYDQAQADFEAIIARYVDLDGPGLRARLLATERANLTQYGYGVKGMILSMVEAGIALTDGRIEARDIHTIMEMGKALLVHPVELLPGIADAVAEVARHYRVVLITKGDLFHQERKVAQCGLSEFHRIEIVSEKDEATYRRLLQEFEVAPEEFVMVGNSMKSDIAPVVELGGRGIYMPYHATWAHELLAEFDGGGRVVEVDGAAGIVDALARLSAAG				NA	NA	NA	NA	NA
BMS020_08185	336			hypothetical protein	ATGAACATCCGTACCCGCAGCTCGCTCGCCGTCGCCACCGCCGCGCTCGCCGCCGCGCTGGCCTTGCCGGCGATGGCGCAGTCGGCGCAGCAGGACGCAGCTGCCGCGGCGGCGCAGTCGGGCCAGTCCTCCGGTGGCGGCCAGACCTGGGCCAGCGTGGACACCGACAGCGACGGCGCGATCAGCAAGCAGGAAGCGCAGGTCAACGCCGGCCTGACCCAGGTCTTCGACCAGGCCGATGGCAATGCCGACGGCAAGCTGACCCCGGACGAGTACAAGGCCTTCGTCGCCAAGCAGCAGAGCGGCGCGAGCAGCGCGCCGCAGCAGCAGAACTGA	MNIRTRSSLAVATAALAAALALPAMAQSAQQDAAAAAAQSGQSSGGGQTWASVDTDSDGAISKQEAQVNAGLTQVFDQADGNADGKLTPDEYKAFVAKQQSGASSAPQQQN				NA	NA	NA	NA	NA
BMS020_08186	378			hypothetical protein	ATGAATCTGCCGCTGCATTTTGGCCTGCTGGGTTCGCTCGAGGCCGGCGCGATCGCGCTGCTGGTCGGCGTGCTGGTGTTCGCGGTGTGGGCGCGGCTCGGCCGCGGCGGCGCGCTGTCGCACGGCCATGTGCTGGGTTGGGCCTGCGTGGTCGCGATCGCGATCGGTGCCGGCTACGACATCTGGAACCTGTTCTACACCAGCATCGTGCGGCTGGAATCGCCGTTGTACGCGCGCATGGCGCTGGCCAGCATCCACGACCCGGACGAGCTGGGCACGCGCGTGGTGCTGGAAGTGGCCGGCGCGCTGGCCGGCGTCGGCCTCGGCTGGCGTCTGTTCAGTGCGCGGTCAGGCGGCGACGACGGCGAGACGGCCTGA	MNLPLHFGLLGSLEAGAIALLVGVLVFAVWARLGRGGALSHGHVLGWACVVAIAIGAGYDIWNLFYTSIVRLESPLYARMALASIHDPDELGTRVVLEVAGALAGVGLGWRLFSARSGGDDGETA				NA	NA	NA	NA	NA
BMS020_08187	1995	murQ_3		N-acetylmuramic acid 6-phosphate etherase	ATGACGCTCGCCGACAACGCGCATGAGCGGCTGGCAACACGGCCGGGACGGCTGGGGATCGCCAACGCGGCGGCGTCGCGCGATTACCTGGAACGACGACGCGAATTCCAGCTGCACGGCCTGCTCACCGAACAGCGCCATCCGCGCACGCGGCGGCTCAGTCGCGAGGTGGCCGGCGATGTCGAGGCCGGGCTGGCCAGCCTGCTCGACGTGGACGAGGACGTGGCCGCGGCGCTGGCGGCGATTGCCGCGGACCCGGCGCGACTGGCGCTGCTGGAGCGCGCGCTGGCGGCGATCTGCAGTGCCCTGCGTGCCGGCCGGCGCGTCTATGTGTACGGCACCGGCTCGACCGGGCGGTTGGCGGCGACGCTGGAAAGCGCGCTGTGGCGGCCGTTCTGGTCGCGGCTCGCCGATACCGCACTCGGCGACAAGGTCGCGACGGCGCTGCCGACGATCAGCGCGCGCGTGCGCGGCGAGATCACCGGCGCGGATCGCGCGTTGATCAGCTCGCTGGAAGGCTTCGAGGACCTGCCGCTGATCGGCCGGCTGCAGCTCGAGGACAACGCGATTGGGCCGGGTGACGTGGTGTTCGCGGTCACCGAAGGCGGCGAGACCTCGGCGGTGATCGGCACCGCGCTGGCCGCCGCCGCGCAGCCCGGCCGCAGTGCCGACGAGGTCTGGTTCGTGCACAACAATCCGCCGGCGGTACTGCGGCCGCTGGCACGCAGCCGCGCCGTGCTCGATCACCCCGGCATCGTCGCGCTGGCGCTGCCGACCGGGCCGCAGGCGATCGCCGGCTCGACCCGGATGCAGGCCACCACGACCAGCCTGTACGTGCTCGGCACGCTGCTTGAAGCCGCCGCCTGCGCGCTGCTGGCCGACCATGTCGACGCGCCCCTGCTGCGTGATGCCGGCGTGCCGACGGCGATCGACCTGGCCACGCGGCTGCGGCGCTTCGCCACGCTGCAGCAGGCCACGCGCGCGGCGGCAGCGGTGTTGGTACCGTGGACGCGGCGCGAGGCGGCGACGTATGCCGCCAGCCATTGTGCCTGCTACCTGGCCGGTCGCGCGTTGATGCCGGTGTTCGTCGATGTCACCGAGCGCGCGCCGACGTTCCGGCTGGCGCCGCTGGACACCGTCGCTGCCGACCCGCCACGTTCGTGGATCAGCGTGCGTGCACCGGTCGAAGATGCCGATGCGGCGTGGCAGGCGCTGCTGCAGCGCCGCTTCCACGGGTTGGCGCAGACACGCTTCGGCGCGGCGTTCGCCAACGATCTCGACGATGCCTACCTGCAGGCGGCCGCGTTGCGTGGGCTTGCCCTGGCCGGGCAGGCGCAGGCGCGGCTGTACGACCTGTCGCTGGCGGCGCAGCCGGTGTTGCGTGGCGGCGACCTGGCGGTGCTGGTGCTGCTCGGCGACGAACGCACCGATGCGGCCACGCGGCGCTGGCTGGAGGCGGCGCGGGACGCCGGCGCGCAGGTGGTGCTGGTGACGGTCGGCGCGGCTGCGTCGGCGCACCAGGACATCGCCGCCGACGAACGCGTGGCGATACCGCTGCCCGACGGCGCCGATCCGCTGTGGCTGGAGCAGACCATCGCGCTCAAGATGCTGCTCAACGCGCATTCCAGTGCGGTGATGGCGCGGTTGGGCCGGGTGGTCGGCAACACGATGACCGCGGTGCAGCCAGGCAACCTCAAGCTGATCGGGCGCGCCACCCACCTGATCCAGATGCACGTCAACGCGGTGCTCGACAGCCCGCGCTGGCGGGTACGGCACGGCAACGTCGCGGCGCTGGAGTATGCCGAGGCCAATGCGGCGCTGTTCGCCGCGCTCGAGTGGCGCGAGCACCAGCATGCCGAGGCCACCGAGGTGGAGCTGGCAGTAGTGGCGATCCTCGATGCGCTGGGCAGCGCGGCAGGGCTGGACTGGCCGGGTGCGCAGGCGCGGCTGCGCACGCAGCGGCTGGATGATCTGCTCGCCGACTGGCTGGATTGA	MTLADNAHERLATRPGRLGIANAAASRDYLERRREFQLHGLLTEQRHPRTRRLSREVAGDVEAGLASLLDVDEDVAAALAAIAADPARLALLERALAAICSALRAGRRVYVYGTGSTGRLAATLESALWRPFWSRLADTALGDKVATALPTISARVRGEITGADRALISSLEGFEDLPLIGRLQLEDNAIGPGDVVFAVTEGGETSAVIGTALAAAAQPGRSADEVWFVHNNPPAVLRPLARSRAVLDHPGIVALALPTGPQAIAGSTRMQATTTSLYVLGTLLEAAACALLADHVDAPLLRDAGVPTAIDLATRLRRFATLQQATRAAAAVLVPWTRREAATYAASHCACYLAGRALMPVFVDVTERAPTFRLAPLDTVAADPPRSWISVRAPVEDADAAWQALLQRRFHGLAQTRFGAAFANDLDDAYLQAAALRGLALAGQAQARLYDLSLAAQPVLRGGDLAVLVLLGDERTDAATRRWLEAARDAGAQVVLVTVGAAASAHQDIAADERVAIPLPDGADPLWLEQTIALKMLLNAHSSAVMARLGRVVGNTMTAVQPGNLKLIGRATHLIQMHVNAVLDSPRWRVRHGNVAALEYAEANAALFAALEWREHQHAEATEVELAVVAILDALGSAAGLDWPGAQARLRTQRLDDLLADWLD				NA	NA	NA	NA	NA
BMS020_08188	807			hypothetical protein	ATGCCATCTGCCATCGATCGCCTGCGTCCTTCGTCATTGCCGCGCCTGCTGGGCGTGCTCGCACTCGCCGCGCTGCTGTCGGCCTGCGCGCACGCGCCACAACGCAACCCGCTCGCGCACTGGGTGGAATCGCCGAACCAGGACCTGCGCCGGCCGATCCTGATCGTCATCCACTTCACCGACCAGCACTCGGTGAAGCAGAGCCTGCAGACGTTGCGCACCCGCAACAGCGGCGGCCCGGTCAGCGCGCACTACCTGGTCGGTGCCGACGGCAGCCGCTACCAGCTGGTCAGCGACGAACGCCGTGCCTGGCACGGTGGCGCCGGGCGTTGGGGCACGATCACCGACATCAACTCTGCCTCGATCGGCATCGAGCTCGACAACGACGGCCATACCCCGTTCGCGCCGGCGCAGATCCAGAGCCTGCTGGCCTTGCTCGACGACCTGTGCACGCGCTGGCGGATTCCGCGCACGCAGGTGGTCGGCCACGAGGACATCGCGCCGTCGCGCAAGACCGATCCAGGCCCGCTGTTCCCGTGGAAGCAGTTGGCCGAGGCCGGCTTCGGCCGCTGGCCGGCCGCCGATGCGCCGCCGGCGCCGCAGGGCTTCGACCCGTGGACCGCGCTGCGCCTGGTCGGCTATGCGATCGACAGCCCGGACGACACCGCGCGCGCATTCCACCATCACTACCGCGGCATCGACCGCGGTCTGCCGTTCGACGCCGAGGACCTGCGCATCCTGCAGGCGCTGTCGGCCTCGCCGGCGCAGACGTTGGCCGCGCCGAACGACGAACCCGAGGCGCACTAG	MPSAIDRLRPSSLPRLLGVLALAALLSACAHAPQRNPLAHWVESPNQDLRRPILIVIHFTDQHSVKQSLQTLRTRNSGGPVSAHYLVGADGSRYQLVSDERRAWHGGAGRWGTITDINSASIGIELDNDGHTPFAPAQIQSLLALLDDLCTRWRIPRTQVVGHEDIAPSRKTDPGPLFPWKQLAEAGFGRWPAADAPPAPQGFDPWTALRLVGYAIDSPDDTARAFHHHYRGIDRGLPFDAEDLRILQALSASPAQTLAAPNDEPEAH	PGPT0019115_1208	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
BMS020_08189	1578	dap_4		D-aminopeptidase	ATGCTGGTGGTTGCCGCGCTGCTGGCCGCCACGGGCAGCGCTGCGGCCGATGCCGGCCGTGGCGCTGAGCGGCAGCGCGCGTTTGATCGCCTGTTCGAGCAGACGCTGGCGCAGTACCCGCTGCCGGGGCTGGCGGTGGGCGTGGTCGAGGATGGCAAGATCGTCTATCGCCGCACCGCCGGCGAGCTGCAAGCCGGCAGTGGCGAGAAGATCGATGCCGACACGCTGTTCAAGATCGCCTCCAACAGCAAGGCGATGACCACCGGGCTGCTGGCGCGGCTGGTCGATCAGGGCAAGCTGGCCTGGGACGACCCGGTGAGCAAGTACCTGCCCGACTTCCGCATGTACGACCCCTGGGTGACGCGCAACATCCAGGTGCGCGACCTGCTGATCCACAACAGCGGTCTCGGCCTCGGTGCCGGCGACCTGATGCTGTGGCCGGAGCCGAACGACTTCAGCCGCGACGACATCATCGCCGGGCTGGCCTATCTCAAGCCGACCCACAGCTTCCGCGCGCACTACGCCTACGACAACCTGATGTACGTGGTGGCCGGCAAGGTCGCCGAGCGCGCGGGTGGCAAGCCGTATGCGCAGCTGATCCGCGAGCAGGTGTTCGCGCCGCTGGGCATGCAGCGCTGCCAGGTCGGCGCGTGGTCGCGCGATGCGGTCGGCAATGTCGCCCAGCCGCACATGCTGCAGGACGGTCGCAACATCGTCGTGCGCGCCGATTCTGCACAGATTCCCGACAGCGCCTCGATGGCGGCCGGTGGCATCCGCTGCAGCCTGGACGACATGCTGGCGTGGATCGTACACGCCTGGCTGGCGCCGGATCCGGCCCGGCCGTGGTTGTCCGATGCGCAGCGCCGCGCAGTGTGGAGCATCCAGACGCCGATGCCGATCAGCCAGCGCCTGCGCGAGTGGGACGACACCCATGTCTACGGCTATGGCTACGGTTGGCGGATCTCCGATGTCGATGGCCAGTGGCGCGTGGCGCATACCGGCACGCTGATGGGCATGTATTCCTCAGTGGTGCTGCTGCCCAGCCGTGGCGTCGGCGTGGTGATCCTGATCAACGGCGACGGCGGGCGCGCACGCGAAGCGCTCGGCGAGGCGCTGACCAAGCACTACACGCGTCCGGATGCCGGGCTCGACGTCGACCACTACGCTGCGCTGCTGGACGCGCCGCCGCCGGCCACGGACGCGGCGGTGGCCGCCGATACCTCCGCGCGCGTGCCGGCGACCGCGGCGCAGCTGCGCGGTGAACTCGGCCGCTACCGCGACCCGTGGTTCGGCGAGGTGCAGCTGTGTGCGGTCGGCACCGGCGTGCGCCTGCGTTCGCTGAAATCGCCGCTGCTGCAGGGCCAGGTGATGCGCGTCGGCGCACGCTGGCTGGTGGACTGGGACGATCCCAGCGTCGATTCCGAACCGTGGCTGGCGTTCTCCAGCGCACGCCAGGGTGTGCGGATGACGCTGGCGCCGGTCGATCCACACGCCGACTTCAGCTACGACTACCACGACCTCGACTTCTCGCGCGTCGGCCGCTGTCCGCCCGACGTTGCCGCACCAGACCGGAACTGA	MLVVAALLAATGSAAADAGRGAERQRAFDRLFEQTLAQYPLPGLAVGVVEDGKIVYRRTAGELQAGSGEKIDADTLFKIASNSKAMTTGLLARLVDQGKLAWDDPVSKYLPDFRMYDPWVTRNIQVRDLLIHNSGLGLGAGDLMLWPEPNDFSRDDIIAGLAYLKPTHSFRAHYAYDNLMYVVAGKVAERAGGKPYAQLIREQVFAPLGMQRCQVGAWSRDAVGNVAQPHMLQDGRNIVVRADSAQIPDSASMAAGGIRCSLDDMLAWIVHAWLAPDPARPWLSDAQRRAVWSIQTPMPISQRLREWDDTHVYGYGYGWRISDVDGQWRVAHTGTLMGMYSSVVLLPSRGVGVVILINGDGGRAREALGEALTKHYTRPDAGLDVDHYAALLDAPPPATDAAVAADTSARVPATAAQLRGELGRYRDPWFGEVQLCAVGTGVRLRSLKSPLLQGQVMRVGARWLVDWDDPSVDSEPWLAFSSARQGVRMTLAPVDPHADFSYDYHDLDFSRVGRCPPDVAAPDRN				NA	NA	NA	NA	NA
BMS020_08190	120			hypothetical protein	ATGACTCCTCAGCTCAAAGCCAAAGAGCTTGTGGGTGACTCGCTCTTCTACATCGGCGTTCAGCACGCCCTCGCACGCAAGCCCAACTATGTCCGTGTCACACTGGCTAGTGACGGCTAA	MTPQLKAKELVGDSLFYIGVQHALARKPNYVRVTLASDG				NA	NA	NA	NA	NA
BMS020_08191	300			hypothetical protein	ATGTACGGCCTGATCGGAAAGATGAAAGCGGTTCCCGGCCAACGGGATGCACTTATCTCAATCCTGCTGGATGGTGTCTCGGGGATGCCCGGATGCTTGAGCTATGTCGTCGCACAAGATCCTGCGGACGCCGACGCAATCTGGATAACTGAGGTCTGGGACAGTCAGGCCAGCCACAGAGCCTCATTGTCGTTGCCGTCGGTTCAAGCTGCCATTTCACAGGGCAGGCCGTTGATTGCAGGTTTCGACCAGCACATCGAGACTTCACCAGTGGGCGGGCACGGCATTGCCGCCGCCTAA	MYGLIGKMKAVPGQRDALISILLDGVSGMPGCLSYVVAQDPADADAIWITEVWDSQASHRASLSLPSVQAAISQGRPLIAGFDQHIETSPVGGHGIAAA				NA	NA	NA	NA	NA
BMS020_08192	462			hypothetical protein	GTGGCCGCAGTGAAGACCTTCAAGTTCTCCCACCCTTTGCTTGGCGTAGTCGCACTTGTCTTCGTAGTGGGCTACAAGAACCAAGGTGGATACCTGCGCGGGGAGTTCCATTTGACATTTTCTGGGAAAACCACGAGTTCCAGATCAGAACTGATCAAGTTCGAGCAATCTCCGCACGACGGTGGCGCATTGCAGATTACGGAAGATGTGATGGCCGACTTGGCGCTAGACGAAGCTAAGACGCACCTAGAAGAGTACGTCAATGACCTGCCGGAGCTGCGCAAGAATATGCTCGCTTTAGCTTCACTATCTGCTGCTGAACCGCAGGATCTTCTCCAGGCTTGGGTCAGGCAGCAGTTCCCGCAGATGCATCAATTGTCCTTCCAGACGGAGTCACAGGACTTGCGTATTTTCATTCAGTCGTTCACCAAGTATCCACAGATCAAGGCGAGTGCACTCTAA	MAAVKTFKFSHPLLGVVALVFVVGYKNQGGYLRGEFHLTFSGKTTSSRSELIKFEQSPHDGGALQITEDVMADLALDEAKTHLEEYVNDLPELRKNMLALASLSAAEPQDLLQAWVRQQFPQMHQLSFQTESQDLRIFIQSFTKYPQIKASAL				NA	NA	NA	NA	NA
BMS020_08193	354			hypothetical protein	TTGTCTCGCAACGTTCTTTTCATCTGCACACAGAATCGTCTACGCAGCCCGACTGCGGAGCACGTATTCGCCGATTGGCCAGGCATCGACACCCAGTCGGCCGGCCTTGGAAACGGCGTTGCAAATCCTGTTTCGCCGGAGGTTTTGGCCTGGTCCGACCTGATCTTCGTCATGGAGAAGGCCCAACGCAACAAGCTCTCCAAAAAGTTCCGTGCCCACCTCAGCGGCAAGCGCGTCATCTGCTTGGACATCCCGGACGACTATGACTATATGGATCCTGTTCTTGTTCAGTTGCTACGCGCCAAGGTGACCCGCTTTCTTCCAACGGTCCAGACAAAGCAGCCTGTGCCCTAA	MSRNVLFICTQNRLRSPTAEHVFADWPGIDTQSAGLGNGVANPVSPEVLAWSDLIFVMEKAQRNKLSKKFRAHLSGKRVICLDIPDDYDYMDPVLVQLLRAKVTRFLPTVQTKQPVP				NA	NA	NA	NA	NA
BMS020_08194	345	rutC_6	COG0251	Putative aminoacrylate peracid reductase RutC	ATGCTGCAGCGATACGAGACCGGTCCGCGCATGTCGGAAATGACCGTCGCCCATGGCGTGTGCTACCTGGCCGGCCAGGTGGCCGAGGACGCCAGCGCCGACATCAAGGGGCAGACCCGCCAGGTGCTGTCGGAGATCGATCGCCTGCTGGCGCTCGCGGCCAGCGACAAGACCAAGATCCTGCGTGCCGAGATCTACCTCGCCGACATCGCCGACTTCCCGGCAATGAACGAAGTCTGGGACGGCTGGGTCAGCGCCGGTTTCACCCCGGCCCGCGCCACCGTGCAGGCCAAGCTGGCCAACCCGGACTGGAAGGTCGAGATCGTCATCACCGCGGCGATCTGA	MLQRYETGPRMSEMTVAHGVCYLAGQVAEDASADIKGQTRQVLSEIDRLLALAASDKTKILRAEIYLADIADFPAMNEVWDGWVSAGFTPARATVQAKLANPDWKVEIVITAAI				NA	NA	NA	NA	NA
BMS020_08195	690			hypothetical protein	ATGACATTCCGAATCGCCGCTTCAGCCGCCAGACGGCGTGGCGCCATGGCCGGCTTGCTGGCCGCACTCGTCGGCAGCGGCTTCCTGCTGCTGGTGCTGGCGCTGCAGTTCGTGCGCGGCGACCTGGCATGGGTCGACGCCCCGCTCAGCCTCTATCTGCACGGGCCGTACGGGCTGCTCTTGCGCAGCGCCTACTGCGTGCTGGCGCTGTCGATGGTGGTGCTGGCGGTCGGCCTGCAGCGCGCACTGGCCGCAGCGGCGCGCAGCGCGACCGTGCTCGGGCTGTTCTGCGCCGCGGGCATCGGCCTGGCATCGGTGGCGATCGGCGACAGCTGGTTGCCGCAACTGGCGCCGGCAGTCGCGCTGCCGGTCCACCTGGTCTCGGCGCAGGCGGCGTTCCTGTGCGTGATCGCCGCGGTACTGCTGCAGTCGTGGTACTTCCGACGCGATCCGGCGTGGCAGCGGCATGCAGTGCTGGCGCGCATGCTCGCGGTGGCGGCCTTCATCGTGCTGGCCTGGCACGTGGGGGTGTCCGGCGCGCCGCGCGGACTGAGCCAGAAGCTGGCGATCGTGTTGATCGTGGCCTGGCTGATCGTCACCGGATGGCGCCTGTGGCGGCCGGTGGTCGCTGGGGCTGCACCACAGCCCGCTTCGCGTGACAATGGTGCTCTTCAACCAGAGGAGGCCTGA	MTFRIAASAARRRGAMAGLLAALVGSGFLLLVLALQFVRGDLAWVDAPLSLYLHGPYGLLLRSAYCVLALSMVVLAVGLQRALAAAARSATVLGLFCAAGIGLASVAIGDSWLPQLAPAVALPVHLVSAQAAFLCVIAAVLLQSWYFRRDPAWQRHAVLARMLAVAAFIVLAWHVGVSGAPRGLSQKLAIVLIVAWLIVTGWRLWRPVVAGAAPQPASRDNGALQPEEA				NA	NA	NA	NA	NA
BMS020_08196	2577	mprF		Phosphatidylglycerol lysyltransferase	ATGACGGCTCCCGCCACGCAAGCACCTTCTCGCGCCGGCTGGCGCCGCGCCCTCCCGGTCCTGGCCAGCCTGGCAATCCTCGCGCTGGCCCTGCACGCGCTGTCGGCGGAATTCAGCGAACACGGCTACCGGCAGATCCGCGAGGCGTTCCGGGCGTTCACCGCCGGCCAGATCCTCGCCACGCTGGTGCTTGGGCTCAGCAGCTATGCCTGCCTGGTCGGCTTCGACAGCATCGGCCTGCACCGGACCGGCCGCCAGTTGCATCCGGCGCGGATCGGCATCACCGCCTTCCTCGCCCACGCGGTCGGGCAGACACTGGGATTCGCGGCCTTGACCGGCGGCGCGGTGCGCCTGCGCGGCTATGGCTCGGTGGGCCTGAGCCTGGCCGAGATCGGCCAGGTGGTGCTGATGAGCACGCTGGGCTTCGTGTTCGGTGCGTGGGTGCTGCTCGGACTGGCCCTGGTGCTCGAACCGGATGCGGCCGCACGCGTCCTGCCGATCGCGGCCAGCGGCGTGCGCCTGCTCGGCGGCGCGATCCTGCTCGGGTACGCGGCGATGTTGCTGCTGGTTGGCCGGCAGGGGCGCGAATTCGGCATCGGCACGCATCGCCTGTGGCTGCCGGACCGGCGCACCGTGCTCGGCGTCACCGCGCTGAGCGTGGTCGAACTCGGGCTGGCCAGTGCCGCGTTCTACGTGCTGCTGCCGCCCGATCCGGGCACCGGCTACTTCGGTTTCATCGGGCTGTGGCTGGTCGCGGTGCTGGCCGGCCTGGTCTCGACGGTACCGGCCGGCCTGGGCGTATTCGAGTGGAGCCTGCTGAAGCTGCTGCCGCAGGTCGCGCCCGGAGCGCTGCTGGCCGCAGCGCTGGCCTACCGGGTGACCTATTACCTGGCGCCGTTGCTGATCTCCACCGCGATGGCCGCGTCCACCGGCCTGCGCGTGCCGGCACGGCGCGGCACCGCCGGCGCGCGCGCGGCATGGAAGACCATCCGCCCGTGGCTGCCGCAGATCATCGCGCTGGCCGTGTTCGCCGTGGGCGTGGTGCTGACGATCGATGGCACCCTGCCGACGCCGCGCTCGCGCCAGCTGGTGGCACCGCTGCCGCTGATCGAGACCTCCAATCTGCTGGTCAGCCTCGGCGGCGTGGTGCTGCTGCTGATCGGCCAGGGCCTGCAACGGCGCAGCCATGCCGCCTGGGCGCTGGCGCTGGCGATCTGCGTGGCCCTGGTGCCGTTGTCGCCGCTGCGCGGCAGCCACTATTCGATCGCCCTGTTCGCGCTGCTGACCGCCGTGGCGTTGTGGATGTCGCGCCGGGAGTTCTACCGCGAAGGCGCGCTGCTCGACGAGGCCTGGTCGTGGCGCTGGCTCAGCAACCTCGGCCTGGTGCTGGTCGCCACGATCTGGCTGCTGTTCTTCGTCTACAGCCACGTCGAGTACAGCAACGACCTGTGGTGGCAGTTCGCCACCTCGGCGAACGCACCGCGGGCGCTGCGGGCGCTGCTGGTGATCTGCGTGGTGGTGATCGTATTCGGCCTGGCCCGCCTGCTGCGCAGCGCGCGCCGGCCGCTGCCGCCAGCGGCGGTCGGCGAACTCGAACGCTTGCGCCCGCTGCTCAATGCCTGCCAGGACACCCAGGCCTGCCTGGCGCTGACCGGTGACAAGGCGCTGCTGCGCGACGAGGCCGGCCTGGGCTTCGTGATGATGCAGCGCTACGGCGGCTCGCTGATCTCGATGGGCGATCCGGTCGGCCCGCCCGAGGTCGCCCGCGCCCTGATCTGGCGCTTCCGCGAGGAAGCCGACCGGCTGGGCTTGCGCCCGGTGTTCTACCAGGCCGGGGAACAGCACTGGCAGACCTACCTCGACCTCGGGCTGACCCTGGTCAAGCTCGGCGAGGAGGCGATCGTGCCGATCGCGCAGTTCGCGCTGGAGGGCCGCGAACGCGCCGAGCTGCGCCAGGCCTTCAACAAGGGCAAGCGGATGGGGCTGAGCTTCCGCATGGTCCCCGCCGACGAAGTGACGCCGCTGCTGCCGCGCCTGCGCGAGGTCTCCGACCAGTGGCTGGAGGAAAAGGCCGGCGAGGAGAAGGGGTTCTCGCTGGGCAGCTTCGACCCCGACTACCTGGCGCGTTTCCCGGTGGCCGTGGTGGAGCTGGCCGAGGAAGGCGCATCACCGCGCATCGTCGCCTTCGCCAATGTCTGGCAGGCGCCGGCCGGTGGCGAGCTGTCGATCGACCTGATGCGGCACGCCGCCGATGCGCCCAAGGGCAGCATGGACTACCTGTTCGTCGAACTGTTCCTGTGGGGCGCGGCGAACGGCTACAGCCGCTTCTCGCTCGGCATGGCGCCGCTGTCCGGCCTGGCCCAGCACCGCCTGGCCGGGCGCTGGAACCGCTTCGCCAACCTGGTGGCGCGGCATGGCGAGCGCTTCTACGGTTTCAGCGGCCTGCGCCGCTTCAAGGCCAAGTTCTCCCCGAGCTGGCGCCCGCGCTACCTGGCCGCGCCCGGCGGCATGCACCTGCCCGCCGCGCTGCTGGACGTCACCCGGCTGATCTCGCTGGACCCGCGCCGCCACGACTGA	MTAPATQAPSRAGWRRALPVLASLAILALALHALSAEFSEHGYRQIREAFRAFTAGQILATLVLGLSSYACLVGFDSIGLHRTGRQLHPARIGITAFLAHAVGQTLGFAALTGGAVRLRGYGSVGLSLAEIGQVVLMSTLGFVFGAWVLLGLALVLEPDAAARVLPIAASGVRLLGGAILLGYAAMLLLVGRQGREFGIGTHRLWLPDRRTVLGVTALSVVELGLASAAFYVLLPPDPGTGYFGFIGLWLVAVLAGLVSTVPAGLGVFEWSLLKLLPQVAPGALLAAALAYRVTYYLAPLLISTAMAASTGLRVPARRGTAGARAAWKTIRPWLPQIIALAVFAVGVVLTIDGTLPTPRSRQLVAPLPLIETSNLLVSLGGVVLLLIGQGLQRRSHAAWALALAICVALVPLSPLRGSHYSIALFALLTAVALWMSRREFYREGALLDEAWSWRWLSNLGLVLVATIWLLFFVYSHVEYSNDLWWQFATSANAPRALRALLVICVVVIVFGLARLLRSARRPLPPAAVGELERLRPLLNACQDTQACLALTGDKALLRDEAGLGFVMMQRYGGSLISMGDPVGPPEVARALIWRFREEADRLGLRPVFYQAGEQHWQTYLDLGLTLVKLGEEAIVPIAQFALEGRERAELRQAFNKGKRMGLSFRMVPADEVTPLLPRLREVSDQWLEEKAGEEKGFSLGSFDPDYLARFPVAVVELAEEGASPRIVAFANVWQAPAGGELSIDLMRHAADAPKGSMDYLFVELFLWGAANGYSRFSLGMAPLSGLAQHRLAGRWNRFANLVARHGERFYGFSGLRRFKAKFSPSWRPRYLAAPGGMHLPAALLDVTRLISLDPRRHD	PGPT0024390_361	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLGLYCEROL_LYSYLTRANSFERASE,PGPT0024390-mprF|fmtC-K14205	NA	NA
BMS020_08197	1356			hypothetical protein	ATGAAGCAATGGCGTGAACGATGCGGTTCCCTGTGCGTGGCGGTGCTGGCGGCGTTGGCCCCGGCGCTGGGCTGCGCTGCGGAGACCGTCAGCCATGGCCGGTTCGAGCAGGTGCCGGTGCTGCGGCCGCAGGGCGAGCCGCAGCGCGTGGTGCTGTGGTTCGCCGGCAACGGGCCGGCGCTGGCGCGCCAGGCCCAGGCCGAGGCGCTGCGCGCCGATGGCGCGATGGTCGCGCTGGTCGACACCCGCCACCTGTACGCGGTGCTGGCCAAGGATGGTGGCGACTGCGTGTTTTCCTCGGGCGACGTGGAGAATTTCTCCCGCTACCTGCAGGCGTACTACCACGTGCCGACCTACCGGCTGCCGGTGCTGGTCGGCGATGGCGATGGCGCGGCGCTGGCCTATGCGGTTGCCGCGCAGGCGCCCGAGCACACCCTGGCCGGTGTCTACACCGACGGGCTGTGCCCGCAGGCGGTGGCGCCGAAGGCGATCTGCGGCGCCGGCGTGGCCAGCAAGGCCACCGCGCTGCAGCCGGCACGGCTGCCGGTGCCGTGGCTGGCCGCGCCGAATGCGCAATGCCCACAGGCCGCACTGGATGGCTTCGTCGCCAAGGTGCCGCAGGGGCGGGTGCTGGCGCGCCCGGGCCATGGCGATCCGCTGCCGGGCTTGCGTGCCGCGCTGCGTTCGCTCGGCGCGCAGAAGGGCGTCAGCCTGCCGCCGCCACCGGCCGATCTGGCCGGCCTGCCAGTGGTGGAAGTGCCGGCTGCCGCTGGCGGCAGTGGCGACAGCTTCGCGATCTTCGTCTCCGGCGATGGCGGCTGGGCCGGGTTGGACAAGCAGGTCGCAGGGGCGCTGGCGCAGGCCGGCATTCCGGTGGTCGGCGTCGATTCGCTGCGCTACTTCTGGAGCGAGCGCACCCCGGCCGGCTTCGCCGCCGATCTGGACCGCATCGCCCGCTTCTACGCGCAGCGCTGGCAGCGCCAGCGCGTGGTGCTGATCGGGTTCTCGCAGGGCGCCGACGTGCTGCCGGCGGCGATCAACCAGCTGCCGCCGGCACTACGCGCGCAGGTGCGGATGACCGCGCTGCTGTCGGTGGGCAAGTTCGCCGACTACGAATTCCACGTGACCAACTGGATCAGCAGCGACGACGACGGCCTGCCGATCGCGCCGGAAGTGGCCAAGTTGCCGCTGGCCAGCACGGTATGCATCTATGGCGTGGACGACGACGATGCGTTGTGCCCGTCGCTGCCCAAGCAGAGTCGCCGCGTCGGGCTGCCCGGTGACCACCACTTCAAGGGCGATTACCAGACGCTGGCCAAGACCATCCTGGAGCAGCTCGACACCCCCGCGCACTGA	MKQWRERCGSLCVAVLAALAPALGCAAETVSHGRFEQVPVLRPQGEPQRVVLWFAGNGPALARQAQAEALRADGAMVALVDTRHLYAVLAKDGGDCVFSSGDVENFSRYLQAYYHVPTYRLPVLVGDGDGAALAYAVAAQAPEHTLAGVYTDGLCPQAVAPKAICGAGVASKATALQPARLPVPWLAAPNAQCPQAALDGFVAKVPQGRVLARPGHGDPLPGLRAALRSLGAQKGVSLPPPPADLAGLPVVEVPAAAGGSGDSFAIFVSGDGGWAGLDKQVAGALAQAGIPVVGVDSLRYFWSERTPAGFAADLDRIARFYAQRWQRQRVVLIGFSQGADVLPAAINQLPPALRAQVRMTALLSVGKFADYEFHVTNWISSDDDGLPIAPEVAKLPLASTVCIYGVDDDDALCPSLPKQSRRVGLPGDHHFKGDYQTLAKTILEQLDTPAH				NA	NA	NA	NA	NA
BMS020_08198	234			hypothetical protein	ATGACGCCGGCGCTACACTATGCCGGTATCGCCACGCCCGCCGCCGGGCTCTCCATGACCCAGCCGATGTCCGCCGACGATCCCCGCCCGCAGCCGCCCGAGCCACCGGCCGACAACGAATGCTGTGGCAGTGGGTGTCCGCTGTGCGTCTACGACCTGTACGAAGACCAGCGGGCGCAGTACCGGCAGGCGTTGGCGGCGTGGTTGCAGCGCCACCCGGATGCGGCCGGTTGA	MTPALHYAGIATPAAGLSMTQPMSADDPRPQPPEPPADNECCGSGCPLCVYDLYEDQRAQYRQALAAWLQRHPDAAG				NA	NA	NA	NA	NA
BMS020_08199	609			hypothetical protein	ATGGACATCGTCGATCCCGTGCAACTCGATGCCGCGCAGTGGCAGTGGCTGGAAACCGCCCACGCCACGCCGCCGCGCGTCTACCACTCCATCGCCCACGTGCGCGCGCTGCTGCAGCATCACCGTGACGTGGCGCAGGATGGCCCGGGCTGGCGGCAGCCGGCCGAGACCTGGCTGGCGATGCTGTTCCACGACGCGGTGTACCGGGCTGGCCGTAGCGACAACGAGGCCGAATCGGCGCGGCTGGCCGGCGAGCGCATCGCGACCTGGTGGCCGCAGGGCGGTTACGACATCGCGCGGGTGCAGGCGCTGATCCTGCTGACCGCCCGCCACGGCCAGCTGCAGCCGGAGGACGTCGACGCCGAGGCGGCGCTGTTCCTGGATTGCGACATGGCGATCCTGGGCGCGCCGCCGGCGGTCTTCGATGCCTACGACCGCGGGATCGCCGAGGAGTACCGCGGCCATGTGCCGGGCATGCTGTTCCGGCACCAGCGCCGGCGCTTCCTGCGCATGCTGCTGGAACGGCCGCGGATCTTCCTGAGCGACTACTTCCACGCCCGCCTCGACGCGACCGCGCGCGCCAACCTGGCGCGCCGGCTGGCCGGCTGA	MDIVDPVQLDAAQWQWLETAHATPPRVYHSIAHVRALLQHHRDVAQDGPGWRQPAETWLAMLFHDAVYRAGRSDNEAESARLAGERIATWWPQGGYDIARVQALILLTARHGQLQPEDVDAEAALFLDCDMAILGAPPAVFDAYDRGIAEEYRGHVPGMLFRHQRRRFLRMLLERPRIFLSDYFHARLDATARANLARRLAG				NA	NA	NA	NA	NA
BMS020_08200	600	thpR_2		RNA 2',3'-cyclic phosphodiesterase	ATGACCCGCCAGTTCCTCTATCTGTCGTCCGCCGAAGCCCAGCTCTCGCTCGGGCTCGGCGAAGAGAAGCCCAGCGAACGGCTGTTCTTCGCGGTGATGCCCGATGCGGCCACCGCGCACGCGATCGGCGCGTTCGCCCGCGGCCTGGTCGCCGAGGAGCGCCTGCACGGCCGCCCGATCGACGACGAACGCCTGCACGTCACCCTGCATCATCTCGGCGATTACGCCGGCTTGCCGCCGTCGCTGCTGGAACGCGCCCGGCGTGCCGGTGCGCGGCTGGCGATGGCACCGTTCGAGGTGTGCTTCGACCGCGTCGGCAGCTTCGGCGGGCGCCGCAAGCAGATGCCGTGCGTGCTGCGCGGCGAGGACGGCGTGCGCGAGCTCGGCCTGCTGCAGCGCACGCTGGCGCGGCGCATGGCCGAGGAGGGCATCACCGGCGACCAGCGCTTCACCCCGCACCTGACTCTGGTCTACGCGGACACCACGTTGCCGCTGCGTCGGATCGAGGCGTTTCGCTGGCGGGTCGAGGAGTTGGTGCTGATCCGCAGCTTCCTCGGCCAGTCGCGCTACCAGATCGAAGGGCGCTGGGCGCTGGCCTGA	MTRQFLYLSSAEAQLSLGLGEEKPSERLFFAVMPDAATAHAIGAFARGLVAEERLHGRPIDDERLHVTLHHLGDYAGLPPSLLERARRAGARLAMAPFEVCFDRVGSFGGRRKQMPCVLRGEDGVRELGLLQRTLARRMAEEGITGDQRFTPHLTLVYADTTLPLRRIEAFRWRVEELVLIRSFLGQSRYQIEGRWALA				NA	NA	NA	NA	NA
BMS020_08201	1110			hypothetical protein	ATGTTCCCGCTGGCCTCACTGCTGCTCGCCACCGCGCTGGCGCTGCCCGCTTCCGAACCGGACATCGCGGCCGAAGCCGCTGCGCAGCCGCCGCCTGCCGACACCATCATGCGCATCCCCCCGCAGCTGGACGCGCTGCTGTACGAGCGCGTCCTGCGCCGCAGCAGCTCGCAGCAGGAGCGCCTGCAGCTGCTGGTGCGGATGATCTTCGACGACGACGGCCTGGCGCTGCACTACGGCGCCAGCGACACCCACACCGTGGCCGAGACCTTCACCACGCGCCGCGCCAACTGCCTGTCCTTCAGCCTGCTGCTGGTGGCGCTGTCGCGCCGCGCCGGGATCTATGCCCGCCCGCAGGAAGTGGGCCAGGTGCTGGGCTGGTACGCCGAGGGCGGCACCGCCTACAACTACGGCCACATCAATGCGCAGGTACGCATCGACGGGCGCACCGGCACCGTCGATCTCGACAGCAACATCCTGATGGACCGGCGCGGCCCGCATCCGATCAGCGACACCCGCGCGTTCGCCCACTACTACAACAACCGCGGCGCCGAGCTGATGGGCAAGGGCGAGCTGGCGCTCGCGCGGCGCTACTTCGACCAGGCGCTGCACACCGCGCCCGACCTGACCGAGGCCTGGAACAACCTCGGCGTGCTCGACTACCGCGAGCAGAACTACGCCGCCGCGGCCAGCGACTACGCAATGGCGCTGTCGCTGCAGCCGCGCCACGCCGCCTCGCTGTCCAATGCGATCAACCTGTACCGCCGGCTCGGCGACAACGCCAATGTCGCCAGGCTGGTCGCGCGGCTGGAGGACGTGCGCGACGCCGATCCGTTCCACCAGTACGTACTCGGCACCGAGGCGGAAACCCGCGGCGACTACCCGCGTGCGAGCCGCTACTACGCCCGCGCGATCCGCCTGTATCCGGACGCGCACCAGTTCCATTTCGGCCTGGCACGTGTGGCGTTCCTGAGCGGCGACAGCCGCCTGGCCGAGCGCGAACTGCGCCGCGCCCGCGCGCTCGGCCCGCCGTCGGAACAGGCCCGCTACCAGGCCAAGCTCGACAGCCTGAAGCGCTGGTCCGCCGCCGGCACGCCGTTGCCGCGCTGA	MFPLASLLLATALALPASEPDIAAEAAAQPPPADTIMRIPPQLDALLYERVLRRSSSQQERLQLLVRMIFDDDGLALHYGASDTHTVAETFTTRRANCLSFSLLLVALSRRAGIYARPQEVGQVLGWYAEGGTAYNYGHINAQVRIDGRTGTVDLDSNILMDRRGPHPISDTRAFAHYYNNRGAELMGKGELALARRYFDQALHTAPDLTEAWNNLGVLDYREQNYAAAASDYAMALSLQPRHAASLSNAINLYRRLGDNANVARLVARLEDVRDADPFHQYVLGTEAETRGDYPRASRYYARAIRLYPDAHQFHFGLARVAFLSGDSRLAERELRRARALGPPSEQARYQAKLDSLKRWSAAGTPLPR				NA	NA	NA	NA	NA
BMS020_08202	762	fabG_20		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGACCGATTCGTCCCGCATCACCCTGATCACCGGCGGCAGCCGTGGCCTGGGCCGCAACGCCGCGTTGGCGCTGGCCGCGGCCGGCAGCGACCTCCTGCTGACCTATCGCGCCCGCGCCGACGAGGCCGCGGCGGTGGTCGCGCAGATCGAGGCGCTGGGGCGCCGGGCCGCGGCGCTGCCGCTGGACGTGGCCGATGCCAGCACCTTCCCCGCCTTCGCCGAGCAGGTGCGCGCGCAGGTGCAGGCGTGGGGCCACGCGCGCTTGGATGCGCTGGTCAACAACGCCGGCACCAGCCTGCACGCGCCGATCGCCGAGACCAGCCACGCGCAGTTCGACGAGATGGTGGCGGTGCACCTGAAAGCGCCGTTCTTCCTGACCCAGGCGCTGTTGCCGCTGCTCGCCGATGGCGGCCGCATCCTCAACGTGTCCAGCGGGCTGACCCGCTTCGCGATGCCGGGCAGCGCGGCCTACGCGATGGTCAAGGGCGGCATCGAGGTGTTCAGCCGCTATCTCGCCAAGGAACTGGGCAGCCGTGGCATCAGTGCCAACACGCTGGCGCCGGGCGCGATTGAAACCGACTTCAGTGGCGGCATGGTCCGCGACAACCCGCAGGTCAACGCGATGGTCGCCTCGGCCACTGCACTCGGCCGCGCCGGCAAGCCGGACGATATCGGTCCGGTGGTGGCGGCGCTGCTGGCGCCGGGCACCGCATGGATCAACGGCCAGCGCGTGGAGGCCTCCGGCGGCATGCTGGTGTGA	MTDSSRITLITGGSRGLGRNAALALAAAGSDLLLTYRARADEAAAVVAQIEALGRRAAALPLDVADASTFPAFAEQVRAQVQAWGHARLDALVNNAGTSLHAPIAETSHAQFDEMVAVHLKAPFFLTQALLPLLADGGRILNVSSGLTRFAMPGSAAYAMVKGGIEVFSRYLAKELGSRGISANTLAPGAIETDFSGGMVRDNPQVNAMVASATALGRAGKPDDIGPVVAALLAPGTAWINGQRVEASGGMLV	PGPT0003180_13877	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
BMS020_08203	915	dmlR_31		HTH-type transcriptional regulator DmlR	ATGGACCGCCTCGACCAGCTCCGCAGCTTCCTGCGGGTCGCAGAACTCGGCTCGTTCACCCGCGCGGCCGCGGTGCTCGGGTTGCCCAAGGCCAGCGTGTCGACCGCGGTGCAGAAGCTGGAGGCCGAGCTCGGCACGCAGCTGCTGCACCGGACCACCCGCCGCGTGCAGCTGACTGCCGACGGCGCGGCGTTCCAGCAGCGCGCGCGCGACCTGCTCGACGACATCGACGAGCTGCACGGCATGTTCCAGCACGGCGATGCGCCGTTGCGCGGGCGGCTGCGCGTGGACATGTCCAGCGGGCTGGCCAAGCTGCTGGTGATCCCGCATCTGCCCGACTTCCTTGCCCGCCACCCGGCACTGGAGCTGGAACTGAGCGGCAGCGACCGCCGCGTCGACGTGATCCGCGAAGGCTTCGACTGCGTGGTGCGCGGCGGCGCGCTGGACGACAACGGCCTGGTCGCGCGCCCGCTCGGCACGCTGCACATCGCCAACTGCGCCAGCCCGGCCTACCTGGCCCGGCACGGCACCCCCACCACCCTCGCCGACCTGTCCGCGCACGTGCTGGTGCATTACGCCGCCAGTCTTGGCCAGGGCGCGTCCGGCTTCGAGTACCACGATGGCGCCGGCTATCGGCTGCTGCCGATGCCCGGGCAGCTGACCGTCAACAATGGCGATGGCTACATGGCCGCGGCACTGGCCGGGCTGGGCATCATCCAGGTGCCGCGCGTGGGCGCGCGCGCGGCGCTGGCCAGCGGTGCGCTGGTCGAAGTGCTGCCGCAGCTGGTCGCCGAGCCGATGCCGCTCACCCTGCTCTATCCGCAGCGCCGCCACCTGCCGCGGCGGGTGGCGGTGTTCATGGACTGGCTGGCGACGCTGCTGCGCCCGCACCTGGAGCCGCCCGCCATCACGTGA	MDRLDQLRSFLRVAELGSFTRAAAVLGLPKASVSTAVQKLEAELGTQLLHRTTRRVQLTADGAAFQQRARDLLDDIDELHGMFQHGDAPLRGRLRVDMSSGLAKLLVIPHLPDFLARHPALELELSGSDRRVDVIREGFDCVVRGGALDDNGLVARPLGTLHIANCASPAYLARHGTPTTLADLSAHVLVHYAASLGQGASGFEYHDGAGYRLLPMPGQLTVNNGDGYMAAALAGLGIIQVPRVGARAALASGALVEVLPQLVAEPMPLTLLYPQRRHLPRRVAVFMDWLATLLRPHLEPPAIT	PGPT0028940_939	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
BMS020_08204	1041			hypothetical protein	ATGCACCGATTGCTGACGCTGCTGCTGCTCGCCCTGCTTGCCGTCCCCAGCGCCCAGGCGGTGCCGTTCTGGGGGGCTAAGACCTCCAGCCCGATCGGCACGCCGCCGGAGCAGCTCAAGCCCGGCGAGTGGTACTGGGGCGGCCTGAGCAAGGCCCAGGGCCCGATCGCGGTGATCGTCAGCCTGACCGAACAGCGCGCCTACGTGTATCGCAACGGCATCCTGATCGGGGTCAGCACGGTCAGCACCGGCAAGGATGGCTACGAAACCCCGACCGGGGTGTTCACGATCCTACAGAAGGACAAGGACCACCGGTCCAACATCTACAACAACGCACCGATGCCCTACCAGCAGCGGCTGACCTGGGGCGGCATCGCCCTGCATGCCGGCGGCCTGCCCGGGTATCCGGAGTCGCACGGCTGCGTGCACCTGCCCTCGGAATTCGCCCGGCTGCTGTTCCAGGACTCGGGCATGGGCATGGTGGTGGTGATCTCCAAGGCCGGCGTGAGCCCGGAGTCGCTGGTGCATCCGCAACCGCTGAGCCCGATCGACCCGCTGACCGGCGCCGACCGCACGCCGCTGGCGCTCGGCGACGCGAGCTACACCTGGACCCCGGACGCCGCGCCGCAGGGACCGATCTCGATGGTGCTCAGCGCCGCCGATCAACGTCTGGTGGTCTACCGCAACGGCGTGGAGATCGGCCGCAGCCGCGCCGAGGTGCGCGAGCTGGCGCCGGAATTCGGCACCCAGGTCTATCTGGTCGGCCAGGGGTATCTGCCCGGGGACCTGGCGGGAACGCCGGGGCTGCGCATGCCGAACTGGCTGCACATCGGCGTCAATGGCGATGCCAAGTCCGGCGAGGTGCTCAGCGCCGAGGCCGTCGCCCGGGTGCAGATCCCGCCGGCATTCCTGGCCGACCTGCTGCCGCAGCTCGCGCCCGGCACCGCGCTGGTGGTGACCGACCAACCGATCCTGGCCAGCACCACCGGCCGCAGCCAGCAGGTGATCGACGCCGACCCGAGCGAGGCGACGCCGCACTGA	MHRLLTLLLLALLAVPSAQAVPFWGAKTSSPIGTPPEQLKPGEWYWGGLSKAQGPIAVIVSLTEQRAYVYRNGILIGVSTVSTGKDGYETPTGVFTILQKDKDHRSNIYNNAPMPYQQRLTWGGIALHAGGLPGYPESHGCVHLPSEFARLLFQDSGMGMVVVISKAGVSPESLVHPQPLSPIDPLTGADRTPLALGDASYTWTPDAAPQGPISMVLSAADQRLVVYRNGVEIGRSRAEVRELAPEFGTQVYLVGQGYLPGDLAGTPGLRMPNWLHIGVNGDAKSGEVLSAEAVARVQIPPAFLADLLPQLAPGTALVVTDQPILASTTGRSQQVIDADPSEATPH				NA	NA	NA	NA	NA
BMS020_08205	336			hypothetical protein	ATGTCCGCCCCCGCCTGCCCGCAATGCACCCTGGAAAACACCTATGTCGATGGCGCGCTGTGGGTCTGCGCCGATTGCGGCCATGAGTGGGCGGCGAGTGACGAGGGCGGCGAGCCGCAGCTGGTGGTGCGCGACTGCAACGGCAACGTGCTGGCCGAGGGCGATACCGTCACCGTGATCAAGGACCTGAAGGTCAAGGGCGCCTCGATTCCGCTCAAGCAGGGCACGGTGATCCGCAACATCCGCCTGGTCGATGGCGATGCCGAGCACATCGAAGGCCATTCCGAGAAGATCAAGGGCCTGGTGCTGAAGACCTGCTACCTGCGCAAGGCTTGA	MSAPACPQCTLENTYVDGALWVCADCGHEWAASDEGGEPQLVVRDCNGNVLAEGDTVTVIKDLKVKGASIPLKQGTVIRNIRLVDGDAEHIEGHSEKIKGLVLKTCYLRKA	PGPT0030500_1751	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030500-phnA|yjdM-K06193
BMS020_08206	768			hypothetical protein	ATGCACCGCCACACCCGCCGCCTGCTGCCGCTGTCGCTGCTGCTTTCGCTGGCGACCGCGGCCCATGCCGCCGGCGCGGCCCCACCTCCACGACAGCCGCCCAGCCCCGGCTGCCTGGACGCACGCCGCATCAGCGAAGTCCGCCAGCCCGCCGCAGACCTCCTGGCCATCGCCAGCGCACCGGACCAGTTCCATCGCCTGCGGCTCGCCAGCGCCTGCCACGGCGTGGAAGCCAGCAGCGACGCGACCCTGCTGGCGCCACAGGGCTGGGCCTGCACCGGCGCGCCCGCGTTCGTGCGCCATGGCACGCAGCTGTGCCGCATCGCCGCGGTCGAGCCGCTGGCGGCGCGCGAATTCGCCGCGCTGTCGCGCCAGGCCGACCGCAGCGACGTCGCCACGCTGGAACCGGTGCAGGTCACCGGCGAGGCGAAGGCGGTGCGACACGGCTTCAGCGGCTCGCCGAACTACTGCTTCAGCCCACGCCAGATGCGCAGCTGGAGCTCGGACCCGAAGGGACTGGTGGTGCATGTCGCGCCACGCTTCAACGCGGGCCGGCACGTCTATCGCGTCGAACTGGCGGGCACCTGCCCGGTGCTGGCGTCCAGTCCGGCGCTGCAGTTCGTCTCCGGGCTCGGCATCGGCGTGATCTGCGGCAACCCGGGCGACGTGCTGCTGGCCCACCTGGACCGCCCCAGCCTCGCAAGCCACGGGGCCCGCGCGGTATCCAGCGGCGCCCGCTGCGCGGTCAGCGCGGTCTATCCGCAGTAG	MHRHTRRLLPLSLLLSLATAAHAAGAAPPPRQPPSPGCLDARRISEVRQPAADLLAIASAPDQFHRLRLASACHGVEASSDATLLAPQGWACTGAPAFVRHGTQLCRIAAVEPLAAREFAALSRQADRSDVATLEPVQVTGEAKAVRHGFSGSPNYCFSPRQMRSWSSDPKGLVVHVAPRFNAGRHVYRVELAGTCPVLASSPALQFVSGLGIGVICGNPGDVLLAHLDRPSLASHGARAVSSGARCAVSAVYPQ				NA	NA	NA	NA	NA
BMS020_08207	183			hypothetical protein	ATGGCACGTCCGTCCGCCAAGACCCAAAACCAGCCCAGCATCAGCCGCGAGGCGAAGGGCCAGCCCCTGACCAGCGAGCGCATCGCCGCCGATCTGGCCGCGTTCCGCAAGTCCGGCGGCCGCATCGAAGTGCTGGTCAGCCCGTTCCGCGCCGCGCGCAACGAAGACGCCAAGCCGGAATAA	MARPSAKTQNQPSISREAKGQPLTSERIAADLAAFRKSGGRIEVLVSPFRAARNEDAKPE				NA	NA	NA	NA	NA
BMS020_08208	897			hypothetical protein	ATGCACAAGATCAAGATCCCGGGCATGGCCCTGCTGCTGTTGGCGACCAGCGCGCTGGCCCCGCCGCTGTGCGCGCAGAGCCGCGTCGACGAGCATCACGCGCTGGCCCGGGGCGGCCGGGTGGAGCTGGAGAACATCGCCGGCAAGGTGAGTGTGCGTGGCTGGGATCGTGACGAGGTCGCGCTCACCGGGCAGCTCGGCGAAGGCCAGCGCATCGACGTCAACGCCAGCAAGGATCGGGTGCAGTTGCGGGTGATCTATCCGCGCGACGGCCGCAACGGCGATGGCGCGGTGCTCGAGCTGCGGGTGCCGCGCAACGCGGAGCTGAGCGCGACCACGGTCAGTGCGTCGATGGATATCGCCGAGGTCGATCTGGCGCGGCTGCAGGCGCGGACCGTCAGTGGCGGACTGACCGCCGGCGGTCGCGCCGGCGAGGCGCAGTTGAACACCGTCAGCGGCGGCATCCAGTCGCGGCTGGCGACCGGGCGGCTGCGCGGTAACACCGTCAGCGGGCGGTTGTCCGCCACCGCCGGTGCCAGCGGCGACGTGGTCGCCGAAACGGTGTCCGGGCGGATCGACCTGGCCGCCGGCGCGGTCTCGCGGCTGCGTGCGGAAAGCGTGTCCGGCAGCATCAACGTCAGCACCAGCGGGTTGACCCCGGGCGGCAGCATCGCGCTGCAGACGGTCAGTGGTTCGATCGACCTGGCGTTGCCGCGCGATGCTTCGGCGCTGCTCAATGTCGAGACGTTCTCCGGCGACATCCAGTCCGATGCGGGCCAGGTGAAGCGCCCGCAATACGGACCGGGGCAGAGCCTGGATGCCAAGCTCGGCGGCGGTAATGGCGATGTCAGCGTGGAATCGCACTCCGGCGCGGTGCGGGTGCGCCAGGGCGGCTGA	MHKIKIPGMALLLLATSALAPPLCAQSRVDEHHALARGGRVELENIAGKVSVRGWDRDEVALTGQLGEGQRIDVNASKDRVQLRVIYPRDGRNGDGAVLELRVPRNAELSATTVSASMDIAEVDLARLQARTVSGGLTAGGRAGEAQLNTVSGGIQSRLATGRLRGNTVSGRLSATAGASGDVVAETVSGRIDLAAGAVSRLRAESVSGSINVSTSGLTPGGSIALQTVSGSIDLALPRDASALLNVETFSGDIQSDAGQVKRPQYGPGQSLDAKLGGGNGDVSVESHSGAVRVRQGG				NA	NA	NA	NA	NA
BMS020_08210	582	sigE	COG1595	ECF RNA polymerase sigma factor SigE	ATGCTCGAATCCACCGTGCCCATGCCGACCCTGGCCCCTGTTGTCGACCTGCAGGACGACGAGGCGTTGGCGCGCTCGGCGGCCGCCGGCGATGTACGCGCCTACGAGGCGATCTACCGGCGCCATGCCGCGCGCCTGCATGCGGTGGTCTGGCGGCTATGCGGCGGCAATGCCGCGCGTGCCGAGGACGTGCTGCAGGAGACCTTCATCAAGGCCTGGCGGGCGCTGCCGCAGTTCCGCTTCCAGAGCGCGTTGGCGACCTGGCTGCACCGGCTTGCGGTCAACACCGCGCTGATGGAGTTGCGGGCGCGGGCTAGCTCGGTCGATCTGGAACTGGGCGACGACGGCATGATGCTGCTGGAAGGTGTGGCCGGCGAGAGCCGCTGCCACGCCACCGGCATGGACCTGGAACGGGCATTGGCGACGTTGCCGCCGCGCGCACGCGCGGTGCTGGTGTTGCACGATATCGAAGGCTGGAAGCACCACGAGATCGCCGAGGAACTGCGCATGGCGGTAGGCAGTTCCAAGGCACAGCTGCATCGCGCGCGCGGCCTGCTGCGCGCACGACTTGGAGAGGCATGA	MLESTVPMPTLAPVVDLQDDEALARSAAAGDVRAYEAIYRRHAARLHAVVWRLCGGNAARAEDVLQETFIKAWRALPQFRFQSALATWLHRLAVNTALMELRARASSVDLELGDDGMMLLEGVAGESRCHATGMDLERALATLPPRARAVLVLHDIEGWKHHEIAEELRMAVGSSKAQLHRARGLLRARLGEA	PGPT0014960_6168	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS020_08211	1692	fadD3	COG0318	3-[(3aS,4S,7aS)-7a-methyl-1,5-dioxo-octahydro-1H-inden-4-yl]propanoyl:CoA ligase	ATGTCCGAGCCCTCATCCGCACCGCTTCCCAGCCACGTGATCGGCCCGCGCGGGACGCCACTGCTGCAGGACACCGTCGGCGGCCTGCTCTCCCGCATCGCCAGGCGATGGCCCGACCGGCCGGCCCTGGTGGTGCCCCCGCAACAGGTCCGCCTGGACTACGCCCAGCTGGACGCGGTGGTGACCCGGCTCGCCGCCGGCCTGCTCGCGCTCGGGCTGGCACCTGGCGACCGCATCGGCATCTGGTCGCTCAACCGCGCCGAGTGGGTGCTGCTGCAGTTCGCCAGCGCACGCGCCGGGCTGATCCTGGTCAACATCAATCCGGCCTACCGCAGCCACGAGCTGGAATATGCACTGGCCCAGGTCGACTGCCGGGCACTGGTGATGGCGCGCCGGTTCAAGAGTTCGGACTACCCGGCGACGCTGCGCGAGCTGGCGCCGGAACTCGACCACTGTGCCCCCGGCGCGCTGCACGCCGCGCGCCTGCCGGCGCTGCGCCACGTGATCCTGCTCGGCGACGAGCCTGCGCTGCCCGGGACCTGGCGCTTCAACGACATCGCCAACTGCCGCGATCCGCAGGCCTGGGCGCGGGTCGAGGCGTTGCAGCCCACGCTGCAGCCCGACGATCCGATCAACATCCAGTTCACTTCCGGCACCACCGGCTCGCCCAAGGGCGCGACGCTGAGCCACCGCAACATCGTCAACAACGGCTTTTTCATCGGCGAGTGCATGCGCCTGGACCCGCACGACCGGCTGTGCATCCCGGTGCCGTTCTACCACTGCTTCGGCATGGTGCTGGGCAACCTCGCCTGCGTCACCCACGCCAGCTGCATGGTCGTGCCCGGCGAAGGCTTCGATCCGCTGGTCACGCTGCAGACCGTGCAGGACGAGCGCTGCACCGGGCTGCATGGCGTGCCGACGATGTTCATCGCCGAGCTGGAGCACCCGCGCTTCGCCGAGTTCGACCTGTCCTCGCTACGCACCGGGATCATGGCCGGCTCGCCCTGCCCGGTGGAAGTGATGCGCAAGGTGGTCGAACAGATGCACATGCACGAGGTGACGATCGCCTACGGCATGACCGAGACCAGCCCGGTGAGCTTCCAGACCACGCCGGAAGACCCGCTGGCGCGGCGCGTGGATTCGGTCGGGCGCGTGCACCCGCATGTCGAGGTGCGCATCGTCGATGGCGACGGCCACGTGGTGCCGCGCGGCGTCACCGGCGAGCTGCAGACCCGCGGCTACTCGGTGATGCGCGGCTACTGGAACGACCCGGAGCGCACCGCCGAGGCGCTCGACGCCGACGGCTGGATGCATACCGGCGACCTGGCGACGATCGACGAGGAGGGCTACTGCCGCATCGTCGGCCGGCTCAAGGACATGCTGATCCGCGGCGGCGAGAACATTTATCCGCGCGAGATCGAGGAATTCCTGCACACCCATCCGGCGGTCGCCGACGTGCAGGTCTTCGGCGTCCCCGATGCCAAGTTCGGCGAGGAGGTCTGCGCCTGGGTGCGCCTCGGCGACGGCCGCAGCGCCAGCGTCGAGGACCTGCGTGACTACTGCCGCGCGCGCATCGCCTACTACAAGGTGCCGCGCTACGTGGAGTTCGTGCAGGACTTCCCGATGACCATCACCGGCAAGGTGCAGAAGTTCGTGATGCGCGAGGAGATGGCGCGCCGCCTCGGCTTCTGA	MSEPSSAPLPSHVIGPRGTPLLQDTVGGLLSRIARRWPDRPALVVPPQQVRLDYAQLDAVVTRLAAGLLALGLAPGDRIGIWSLNRAEWVLLQFASARAGLILVNINPAYRSHELEYALAQVDCRALVMARRFKSSDYPATLRELAPELDHCAPGALHAARLPALRHVILLGDEPALPGTWRFNDIANCRDPQAWARVEALQPTLQPDDPINIQFTSGTTGSPKGATLSHRNIVNNGFFIGECMRLDPHDRLCIPVPFYHCFGMVLGNLACVTHASCMVVPGEGFDPLVTLQTVQDERCTGLHGVPTMFIAELEHPRFAEFDLSSLRTGIMAGSPCPVEVMRKVVEQMHMHEVTIAYGMTETSPVSFQTTPEDPLARRVDSVGRVHPHVEVRIVDGDGHVVPRGVTGELQTRGYSVMRGYWNDPERTAEALDADGWMHTGDLATIDEEGYCRIVGRLKDMLIRGGENIYPREIEEFLHTHPAVADVQVFGVPDAKFGEEVCAWVRLGDGRSASVEDLRDYCRARIAYYKVPRYVEFVQDFPMTITGKVQKFVMREEMARRLGF	PGPT0008380_8037	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
BMS020_08212	579			hypothetical protein	ATGTCGAACGCGCCCGACCACGCCCCCCTGATCCGCGACCTGCTGCCACGCTGGAACCGGCAGCTGCTCGACGTGGTGGTGCCGGCGCTGGAGATCGGACTGATCCTGCTGGCGGCGGTACTGGTGCGCTGGCTGCTGCGGCGGTTGCTGCGCCGCCTCGGCGAGCGCTACCACATCCCGCCGGAACTGATGATCGGGCTGCGCCGGTTCGGCGGCTTCGTGGTGTCCTTCGCCGCGGTGTTGGCGGTGCTGCGGGTGTTCAACGTCTCCGGCGCGGTGCTGTGGACCGCATTCACCGGCTTCGCCGCGGTCGGCGCAGTGGCGTTCTTCGCCGCATGGAGCGTGCTGTCCAACATCTTCTGCACCTTCCTGATCGTGACCACGCGGCCGTTCCGCCTGCACGACGACATCGAGCTGCTGGAAAACGGCGAGAAGCCCGGCCTGCGCGGCAAGGTGGTGGACATCAACGTGATCTACACCACGCTGCAGGAGCACGGTGCCGATGGCGCGAGCGTGCTGCAGATTCCCAACAGCCTGTTCTTCCAGCGCACCACCCGCCGCTGGCGCGATGGCAGCTGA	MSNAPDHAPLIRDLLPRWNRQLLDVVVPALEIGLILLAAVLVRWLLRRLLRRLGERYHIPPELMIGLRRFGGFVVSFAAVLAVLRVFNVSGAVLWTAFTGFAAVGAVAFFAAWSVLSNIFCTFLIVTTRPFRLHDDIELLENGEKPGLRGKVVDINVIYTTLQEHGADGASVLQIPNSLFFQRTTRRWRDGS				NA	NA	NA	NA	NA
BMS020_08213	267	ybiI	COG1734	putative protein YbiI	ATGGCAACCGGATGGGCCGGCGACGGCGCGGTACAGGACCAGATCGATGCCACCGTGGACGATGCGGTGCGGCGTGCGCGCAGCCAGCTCGCCAGCGGGCCCGGGCTGACGCAGTGCGAGGATTGCGGCGCGGCGATCCCCGAGGCGCGCCGCCGCGCGGTGCCGGGCGTGCGCCTGTGCGTGCGCTGCCAGGCCGCGCTGGATGCGAGCGAGCAGGCGCATGCCGGCTACAACCGACGTGGCAGCAAGGACAGCCAGCTGCGCTAG	MATGWAGDGAVQDQIDATVDDAVRRARSQLASGPGLTQCEDCGAAIPEARRRAVPGVRLCVRCQAALDASEQAHAGYNRRGSKDSQLR				NA	NA	NA	NA	NA
BMS020_08214	243			hypothetical protein	ATGGAACAGCCCATCCACCCGTTCTCGGAGTTGTTCGCCCAACTGGGACTGCCCGCGGACGAGCCCAGCATCCAGGCATTCATCGGCCGCAACGGCCCGCTGCCGGACGGCATGCGGCTGGAGGAGGCCCCGTTCTGGTCGTCCGCGCAGGCCGCGCTGCTGCGCGAGGAACGACTGGACGACGCCGACTGGGTCGAGACCATCGACCAGCTCAACCTGGCCCTGCACGCGACGCCGCGCTGA	MEQPIHPFSELFAQLGLPADEPSIQAFIGRNGPLPDGMRLEEAPFWSSAQAALLREERLDDADWVETIDQLNLALHATPR				NA	NA	NA	NA	NA
BMS020_08215	549			hypothetical protein	ATGCGATCGATGCTGCCGCAGGGACTCGGACTGGCGGTGATGCTGCTTGCTGGAGGCTGCGCCTCGGTGCCGCAGGTGCAGACCGACCACGATCCGCAGGTCGACTTCAGCCGCTATCACAGCTATCGCTGGATCGCCCCACCCGACGGCGCGCCACCACTGGTCGCGCAGCGCATCACGGCCGCCGTCGACACCGCGCTCGGCGCGCGCGGCTGGACCCTGCGCGAGGACGGCGAAGTCGCCCTGGCCGCACATGTGGCCACCAGCCAGCGCCAGAGCGTCGACACCTTCTACGACAGCCCGTCGTGGGCCGGATGGGGCTGGCGCGGCGGCTGGGGCGGCATGGGCATGTCGCATACCCAGGTGCGCACCTACGAGGTCGGCACGCTGGTGCTGGACATGTTCGACAGCGCCAGCAAGCGGGCGATCTGGCGTGGCACCGCCAGCCAGACCGTGCCCTCGACACCGGAGAAGGTCAACGCGGCGATCCCGGTCGCGATTGAGAAGATCCTCGCCGGCTTCCCGCCGGGCACGCAGCCACCGCACTAA	MRSMLPQGLGLAVMLLAGGCASVPQVQTDHDPQVDFSRYHSYRWIAPPDGAPPLVAQRITAAVDTALGARGWTLREDGEVALAAHVATSQRQSVDTFYDSPSWAGWGWRGGWGGMGMSHTQVRTYEVGTLVLDMFDSASKRAIWRGTASQTVPSTPEKVNAAIPVAIEKILAGFPPGTQPPH				NA	NA	NA	NA	NA
BMS020_08216	3228			Extracellular serine protease	ATGGAACGCGCACGACGCGGCGGTCGCCGCACCCGCAAGACCCCCTCCCCCAGCCACCTCACCCGCGCCCTTGCACTGGCCCTCGTGCTCGGTGCCAGCCAGCCCGTGCTGGCCCAGACCACCGGCACCATCGGCGATCCGGCCAGCTGGGTGGACGAGGAATTCCAGGCCGACTGGGGCCTCTCGGCGATCAACGCCCAGTACGCCTACGCGCGCGGCCTGACCGGCAAGGGCGTCCGTCTCGGCCTGTTCGACAGCGGCGTGGACCTCAAGCACAGCGAGTTCGCCGGCAAGGACGCCAACGGCCTGGTGGTGGGCGACCTGCTCGCCGACGGCAGCATCTGCGGCAACGCAACCCTGATGACCGACGACGCCTGCTACGCCTCCACCGGCGATAGCGTCGCGATCGATTACATCGATTACGACCAGGACATGATCCAGTACCTGATCGACATCGGCTACCTCAACCCCGGCGCGCGCGCGATCATCGAGCAGGAATACGCCGGCGCCCATTACGCCACCCACGGCACCCACGTCGCCGGCACCATGGCCGCCAACCGCGACGGCAGCGGCACGCACGGCGTGGCATTCGCCGCCGACCTGACCTCGGCGCGCATGTTCGGCAACAGCTACATGGACACCGCCGGCTTCATCCAGTCGATCGGCGGCGACGTGCGCGATGTCGGCATCGACGAGGACGGCGTCTGGCTCGGCACCAGCCCGGATTCGACCAGCTTCGCCAGCATGTACCAGCAGATGGCCGCGCAGGGCGTGCGCGCGATCAACCACAGCTGGGGCCTGAGCAACGAGCCGACCACCGCCGCGGCGATGGACAACCTGTACGCCGGCAACAGCGAGTACCTGGCCACCTTCACCGATCCCTCGCTCGAGCACGGCACCCTGCAGGTCTGGGCTGCCGGCAACAACTACGGCGAGATCGCCGGCATCTACGCCACGCTGCCGCGCTACGTGCCGGAGGTGGAGCAGTACTGGCTGAGCGTGGCCAACCTCAACCCGGACGGCACGCTCGACGAGAGCTCCAGCATCTGCGGCCTGAGCATGGACTGGTGCGTCACCGCACCGGGCACCGACATCACCTCCAGCGTGGTCGCCGGGCAGATCGACGCCACGCCGATCCTCGATGACGATGGCAACGTGATCGGCCTGCAGGTCAATTCCGCCACCCCGGAATACGGCTACGGCGACCTGACCGGCACCTCGATGGCGGCACCGCACGTCACCGGCGCGCTGGCGCTGCTGATGGAGCGCTTCCCGTACCTGGACAACCCGCAGATCCGCGACGTGCTGCTGACCACCGCGACCGACCTCGGCGCCGCCGGCGTCGACGAGATCTACGGCTGGGGCCTGATCAACCTGCAGAAGGCCATCGACGGCCCGGCCCAACTGCGCGTGGACACCGACGTGGTGATGAACCAGCGCGCCGGCGGCACCCAGGTCTGGGAAGGCGAGGCCTGGGACGACTGGAGCAACGACATCAGCGGCCCCGGCAAGCTGACCAAGTCCGGCATCGGCTGGCTGCGCCTGAGCGGCGACAACAGCTTCGCCGGCGCCAGCGTCAAGGAAGGCATCCTGGAACTGACCGGCGCGAACGCGCTGAGCGGCGCGGTCTCGGTCGACGGCAAGGCGATCCTGAAGCTGGAAGGCAGCCTCAGCGGCAGCGACCTGACGGTGAACCAGGGCTATGCGGTCATCAACGGCAGCGTCAGCGGCGGCACCACCACCGTCGAACGCGACGGCACGCTCTCGGGCACCGGCACGCTGGGCAACACCGTCGTGCGCGGCACCATCGCCCCGGGCAACTCGATCGGCACGCTGACCATCGACGGCGACTACACCCAGGAAGCCGGCTCGGTCTACGACGCCGAGCTGCTGCCGCCCGACCAGGCCGACCTGCTGGCGATCTCCGGCGTGGCCAACCTGCTCGGCGGCACGCTCAAGCTCAGCGCCGGCGAGGGCGTCTACCTGCTCGGCCAGCACTACCAGCTGTTGGACGCGGCCGGCGGCGTCAACGGCAGCTTCGACAGTGTCGACACCGCAGCGTTCTCCTCGTTCCTGCGCGTGCAGGTGAACTACACCGGCTCCGGCATCGGCCTGGACGTGCTGCGTGGCGCCGCGTTCGCCAGTACCGCCGACACCGGCAACCAGACCGCCACGGCCACGGCGATCGATGCCCTGGCCGACGACAACGTGCTGGTGCAGCGTCTGGTGATGCTGTCCGACGCCCAGGCACGCGCCGCCTTCGACGCACTGGGCGGCGAGCTGCACGCCAGCAGCAAGGCGCTGCTGCTGCAGGACGCCCACCAGGTCCGCGACAGCGCGCTGGCACGCGCACGCAACGGCCAGGATGCGTTCACCGCACAGCGCGACGCCGACGCCAACGTCGGCGCATGGGCCGAGGTGATCCACGGCAGCAGCCGCCTGGACGGCGACGGCAATGCCGCGCAGGCCCGCCTGGACGGCAACACCACCCTGGTCGGTGCCGACCTGCAGCTGGCCGGCGGCTGGCGGCTGGGCGTGCTCGGCGGCGGCGGGCGTTCCGATGCCAAGATCGGCGCGCACGGCTCCAAGGCCAAGATCGATGCGACCCACGCCGGCGTCTATGCCGGCCAGCAGTGGGGCAGCTTCGGTCTGCGCGCAGGCTACGCCCAGGCCTGGCAAGAACTGGACACCCAGCGCCGCGTGGACATCCCCGGCCTGGTCGATGCTCCGCGTGCCCGCTACGACGCGACTACCCGCCAGGCCTTCCTCGAGGCTGGCTACCGCTTCGCGTTCGGCCGCACCGAGCTCGAGCCGTTCGCGCAGGTCGCGCAGGTTCGGGTGAAGACCGACGATGCGGCCGAACAGGGCGGCGATGCCGCGCTCACGCTGCAGGGCGACACCCAGAAGGCCACCCTGTCCACCGCCGGCGTGCGCTTCAACGCCAACCTCGGCGGCGCGGCGCAGACCGCAAGCTGGCTCAGCCTGCGCGGCAGCCTGGCCTACCGCCGGGCCTCCGGCGACATCGCACCAACGGCCACCGCCGCACTCGCCGGCAGCAGCGATTTCACCGTCGCCGGGGCGCCGCTGGCGCGCGATGCCACCCTGGCCGAGCTCGGCGTGGCGACGCGGTTCTCGCCCAACACGCTGCTCGAACTCGGCTACACCGGCCAGTTCGCCAGCGAAGCCCGCGACACCGGCCTCAACGCGCGGTTCTCGGTGCAGTTCTAA	MERARRGGRRTRKTPSPSHLTRALALALVLGASQPVLAQTTGTIGDPASWVDEEFQADWGLSAINAQYAYARGLTGKGVRLGLFDSGVDLKHSEFAGKDANGLVVGDLLADGSICGNATLMTDDACYASTGDSVAIDYIDYDQDMIQYLIDIGYLNPGARAIIEQEYAGAHYATHGTHVAGTMAANRDGSGTHGVAFAADLTSARMFGNSYMDTAGFIQSIGGDVRDVGIDEDGVWLGTSPDSTSFASMYQQMAAQGVRAINHSWGLSNEPTTAAAMDNLYAGNSEYLATFTDPSLEHGTLQVWAAGNNYGEIAGIYATLPRYVPEVEQYWLSVANLNPDGTLDESSSICGLSMDWCVTAPGTDITSSVVAGQIDATPILDDDGNVIGLQVNSATPEYGYGDLTGTSMAAPHVTGALALLMERFPYLDNPQIRDVLLTTATDLGAAGVDEIYGWGLINLQKAIDGPAQLRVDTDVVMNQRAGGTQVWEGEAWDDWSNDISGPGKLTKSGIGWLRLSGDNSFAGASVKEGILELTGANALSGAVSVDGKAILKLEGSLSGSDLTVNQGYAVINGSVSGGTTTVERDGTLSGTGTLGNTVVRGTIAPGNSIGTLTIDGDYTQEAGSVYDAELLPPDQADLLAISGVANLLGGTLKLSAGEGVYLLGQHYQLLDAAGGVNGSFDSVDTAAFSSFLRVQVNYTGSGIGLDVLRGAAFASTADTGNQTATATAIDALADDNVLVQRLVMLSDAQARAAFDALGGELHASSKALLLQDAHQVRDSALARARNGQDAFTAQRDADANVGAWAEVIHGSSRLDGDGNAAQARLDGNTTLVGADLQLAGGWRLGVLGGGGRSDAKIGAHGSKAKIDATHAGVYAGQQWGSFGLRAGYAQAWQELDTQRRVDIPGLVDAPRARYDATTRQAFLEAGYRFAFGRTELEPFAQVAQVRVKTDDAAEQGGDAALTLQGDTQKATLSTAGVRFNANLGGAAQTASWLSLRGSLAYRRASGDIAPTATAALAGSSDFTVAGAPLARDATLAELGVATRFSPNTLLELGYTGQFASEARDTGLNARFSVQF	PGPT0030315_144	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5a_AUTOTRANSPORTER_SECRETION,PGPT0030315-ssp|pspB|pspA|ssph1|ssph2-K12685	NA	NA
BMS020_08217	390			hypothetical protein	ATGCCCCCCCATCCCGTCACTCCGTCCGCGCTGGCGTTGCTTGCGGCCCTGTCCGGGCCGCTCACCGCGGCGGCGACCACGCCGCCAGCGCAGGCGCTGCCGCATTCGGACAGCCCCCCGCCTGCACGCGTGGACAGACCCGCACGTCCGCGCGACGCGGCCCGCGCCCGGGTCGTGCTGCCCCAGCAGGTCCGCCGCGGCACGTTGCTGGTCGGCCAGGCGCCGCCCGGCAGCCAGGCCAGCATCGACGGCACCGCGTGCCCCGTCGATTCCCATGGCCAGTTCGCCTGGCCGGTACCACTCGACGCCGCCGGCCCGCTGACGGTACGCATCGTGCGCCCGGACGGGCGTACGCTGCGCCTGCGGGTGCAGCTCGAACCGGCGCGCTAG	MPPHPVTPSALALLAALSGPLTAAATTPPAQALPHSDSPPPARVDRPARPRDAARARVVLPQQVRRGTLLVGQAPPGSQASIDGTACPVDSHGQFAWPVPLDAAGPLTVRIVRPDGRTLRLRVQLEPAR				NA	NA	NA	NA	NA
BMS020_08218	1101	ldh_2		Leucine dehydrogenase	ATGCTTTTCGAAACCCTCGATACCAGCGGCCACGAGCAGATCGTGTTCTGCCACAACCGCGAAGCCGGCCTGAAGGCGATCATCGCGCTGCACAGCACGCGCCTCGGCCCGGCCCTGGGAGGTGTGCGGATGCGCCCCTATGCCAGCACCGAGGCCGCGCTCAACGACGCGCTGCGGCTGAGCCGCACGATGACCTACAAGAACGCGCTGGCCGGCTTGAACGTGGGCGGCGGCAAGGCGGTGATCATCGGCGACCCCAAGGCCGACAAGAGCGAGGTGCTGTTCCGCGCGTTCGGCCGCTTCGTCGAGTCACTCGGCGGCCGCTACATCACCTCCGAAGATGTCGGCAGCGATGTCAACGACATGGAGCAGATCTACCTGGAAACCGGCTACGTGACCGGGGTGCACCAGGTTCACGGCGGCTCGGGCGACCCGGCGCCGTTCACCGCCTACGGCGCGCTGCAGGCATTGATGGCGGCACTGAACCGCCGGCTCGGCCACGAGGAGGTCGGCAAGATCAGCATCGCCGTGCAGGGCCTGGGCCACATCGGCATGGAACTGGTGAAGCTGCTCAAGGAGCGCGGTGCCAAGCTCTACGTCACCGACCTGGACAGCCGCCTGATCGACCGTGCGGTCAGCGAATACGGTGCCGAAGCGGTGAGCCCGGACCAGATCTACGACGTCGGCGCCGACGTGTTCGCGCCGTGCGCGCTGGAAGGGGCGATCAACGAGGAGACGCTGCCGCGGCTGAAGGCCGGCATCGTCTGCGGCACCGCCAACAACCAGCTGTCGAGCGAGGCGATCGGCGCCGAACTGCACCGCCGCGGCGTGCTGTACGCGCCCGATTACGTGGTCAACGCCGGCGGCGTGATGAACGTGTCGCTGGAGATCGACGGCTACAACCGCGAGCGCGCGATGCGGCTGATCCGCAGCATCTACCACAACCTCGAAAAGGTCTTCGACCTGTCCACGCGCGACGACATCCCGCCGCAGCAGGCCGCCGACCGCATCGCCGAGGCGCGCATCGAGGCGATCAGCCGCCTGAAGCTGCCGCAGGGCCGCACCTCGCCGCGGTTCGTGTCGCGCCTGCGCGGCGAATGA	MLFETLDTSGHEQIVFCHNREAGLKAIIALHSTRLGPALGGVRMRPYASTEAALNDALRLSRTMTYKNALAGLNVGGGKAVIIGDPKADKSEVLFRAFGRFVESLGGRYITSEDVGSDVNDMEQIYLETGYVTGVHQVHGGSGDPAPFTAYGALQALMAALNRRLGHEEVGKISIAVQGLGHIGMELVKLLKERGAKLYVTDLDSRLIDRAVSEYGAEAVSPDQIYDVGADVFAPCALEGAINEETLPRLKAGIVCGTANNQLSSEAIGAELHRRGVLYAPDYVVNAGGVMNVSLEIDGYNRERAMRLIRSIYHNLEKVFDLSTRDDIPPQQAADRIAEARIEAISRLKLPQGRTSPRFVSRLRGE	PGPT0020320_255	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0020320-ldh|leu-K00263	NA	NA
BMS020_08219	2964			Extracellular serine protease	ATGAGAGAGGCATTGCTTGCCCGGACGCTGCTGGCGTCCGCCCTGGCGCTGGCGTTGACCGCCTGTGGCGGCGGTGGGGGCGGCGCGGTCCGATCCGATGCGCCGGCGACCTCGCCACCACCGACGTCGCCACCGCCCCCCACCTCGCCACCGCCGACCTCGCCGCCACCGCCGACGATCCCGCAGCCGGCGTTCGATGCGCACCTGACGCTGACCAATGCGGTCGATGCGCGCCTCAACGGCCACGATGGCAGCGGCGTGCGCATCGGCATCGTCGATACCGGCGTCAACCGCAACCACCCGGCGCTGGCCGGGCGGGTGCTGGCCAACTACAGCTACGTCGACCCGGCCAGCAACAATCTCGCCGTCGACGACGTGGTCGGCCATGGCACCACGGTGGCGCAGCTGGCGGCCGGCGCCGCGGTCGGCGACTGGCCGGGCGGCATCGCGCCAGGCGCGCAGATCGTTTCGGCGCGGATCATCAACGACGAGTCGCCGGAGGATGACGGCTCCGGGCAGGGCAACGAGGTCGATGGCGCGCTCGGCCTGGCGGCGATCCACCAGGACCTGATCGCCGCCGGCGTGCAGGTGATGAACAATTCCTGGGGCGGGCTGTACTGGACCAACCCGAATGCGACCGCGGCGATCGCCGCGGAGTACCGCCCGTTCGTGATCGACCACGGCGGCCTGGTGGTATTCGCCACCGGCAACGATTCCGGCAGCGATCCCTCCGACATGGCGGCGTTGCCGAGCCAGCCGGGGCCGAACGGCAGCTATCCTGCCGCCGACCTGGAGCGCGGCTGGCTGGCGGTGGCGGCGCTGGATACCTCGACGCCGACCCAGCTGGAGTACTACTCCAACGCCTGCGGCGTGGCGATGCACTACTGCCTGGTCGCGCCGGGCACGGCGGTGTTCACCGGCAGCGACGATACCGCCACCAGCATCAGCTATTACTACGGCAGCGGCACCTCGTACGCCGCGCCGCTGGTGTCCGGCGCCGCCGCGTTGGTGTGGCAGGCATTCCCGTACTTCGACAACGACCTGGTCCGGCAGACCCTGCTCGGCACCGCCAAGGACCTGGGCGATCCGGGCGTGGATGCGGTGTTCGGCTATGGCCTGCTCGATGTCGGCAAGGCATTGCGCGGGCCGGCCCGCTTCGACTGGGGCGATGTCGCGGTGACATTGCCGGCCGGCACCAACAGTGTGTGGTGGAACGGCATCGGCGGGAGCGGCGGCTTGACCGTCGATGGCGATGGCGAGGTGGTCGATGGTGTGGACGACCCCTGGCTGTGGCTGGACGGCAGCAACACGTTTACCGGTGGCCTACGGGTCACCAACGGAGCGACGGTGACGCTCGGCGGCGAGTTCGCCTCCGATGTCACCGTCGACCCGGGCGCCTACCTGTATGTGTGGGAGACGCGCCTGGCCGGCGATCTCACCAACTACGGCGTGGTGCAGATCAACTCGCCCGAGTACGTGAGTTCGGAGACGGTGATCGCCGGCAACGTGGTCAACCACGGCATCTTCTTCAATCGCGATTTCCCCCACACCACGCTGACCGGCTCGTTCGTGCAGGGCGCCGACGGCGAGTTCTGGACCTGGCTTGGCACCGATCCGCTGCGCGTGTCCGGCAGCGCGACGCTGGATGGGCGCTTGTTCATCTACGCGGTGAAGTCCGGGTACATCGCGCATGACCGCACCGAGGTGCTGGTCGCCGACGGCGGCATCTCCGGCCAGTTCGCCGCCACCGACTACAACGCCGGCAGCATGCTGCTGGAGGCGACGGTGGGCTACGACGCCACCACGGTCTGGCTGGACGTCGATCGCGTCGACGTGACCGCGGCGGCGGCCAGTCTGGGCAGCGGGCTGGGGATCGCCGCGACCACGGCTGCGACGCGGGTGGAAACCGCCTTCCAGCAGGTCGACGCAGCGCTTGCCGGCGACGTGGTCGTTGGCGATCCGCCGTCGCAGGCGCTGGTGCAGGGGGCGGCGCAGATCCAGCAGGTCGGCGATGCCAGTGCGTTCAAGGCGACGCTGGAGAGCCTGAGCGGCGAAGTGCATGCATTGGCGACCGCGCGCAGCTTCGATGGTCTGGACCTCAGCCGGCGCACGTTGATGGCCCAGCTCGACGGGCGCGCGGCGCTGGCGTCGGCCCCGGGGGCATTGCGGACCTGGTCCAGCGCGCTCGACGGCGTCGGCGCGCAGGGCCATGCCGGCAGCAGCGCGCGGTTGTCGGGCTGGATGCTCGGCCAGGATCTGCGGCTGGGCGTGCATGGCCTGCTCGGATTCGCGTTCGGCCAGACCCATGCCGACACCTGGGGCAGCGCCGGCCCCGGCGACAGCGGGCGCGACCGGCAGGCGCTGGCACAGCTGTATACCGGCTGGTTCGGAGCCAATGCCTATGCCGCGGCGCAGCTCGCCAGTGGTCGCTACACCCGCCAGGTGGAGCGCGGGTTGCTGCTCGGCAGCGCGCGCTACGGCGTCCACAGCCGCTATGCCGGCGACCTGGTCGATGTGTCGTTGGAGAGTGGGTACCGCTGGCGTTTCGGCGCGGCGAGCCTGACCCCGTACCTCGGCGCGGACCATGCGCGGGTGGAGACGCCGGCGTTCGCCGAGCGCGGCGGGCTGGGCTTCGGCCTGCGCAGCGAGGCGGCGGTGGTCGAGCGCACGCAGGCGCTGCTCGGCCTGCGCGTGGGCTATGCGCGCCGTGGCTGGCGCGTGGGCGGCTATCTCGAGCACCAGCATCTGCTGGATGCCGGCACGCGCGGCGGCGCGGCCAGCTTCACCGGGGTCGATGCGTGGGCACCGCTGCCGGCATCGCCATTCGCGCGCAACGCGCTGCTGGCCGGGCTGTCGACCAGCGTGATGCCGGCCGCCGGCGGCGAGCTGAGCCTGGCCTACGACCAGCGGTTCGGCAGCAACAGCGAAACCGCTTGGTCGCTGCGCTACCTGCGCGGCTTCTGA	MREALLARTLLASALALALTACGGGGGGAVRSDAPATSPPPTSPPPPTSPPPTSPPPPTIPQPAFDAHLTLTNAVDARLNGHDGSGVRIGIVDTGVNRNHPALAGRVLANYSYVDPASNNLAVDDVVGHGTTVAQLAAGAAVGDWPGGIAPGAQIVSARIINDESPEDDGSGQGNEVDGALGLAAIHQDLIAAGVQVMNNSWGGLYWTNPNATAAIAAEYRPFVIDHGGLVVFATGNDSGSDPSDMAALPSQPGPNGSYPAADLERGWLAVAALDTSTPTQLEYYSNACGVAMHYCLVAPGTAVFTGSDDTATSISYYYGSGTSYAAPLVSGAAALVWQAFPYFDNDLVRQTLLGTAKDLGDPGVDAVFGYGLLDVGKALRGPARFDWGDVAVTLPAGTNSVWWNGIGGSGGLTVDGDGEVVDGVDDPWLWLDGSNTFTGGLRVTNGATVTLGGEFASDVTVDPGAYLYVWETRLAGDLTNYGVVQINSPEYVSSETVIAGNVVNHGIFFNRDFPHTTLTGSFVQGADGEFWTWLGTDPLRVSGSATLDGRLFIYAVKSGYIAHDRTEVLVADGGISGQFAATDYNAGSMLLEATVGYDATTVWLDVDRVDVTAAAASLGSGLGIAATTAATRVETAFQQVDAALAGDVVVGDPPSQALVQGAAQIQQVGDASAFKATLESLSGEVHALATARSFDGLDLSRRTLMAQLDGRAALASAPGALRTWSSALDGVGAQGHAGSSARLSGWMLGQDLRLGVHGLLGFAFGQTHADTWGSAGPGDSGRDRQALAQLYTGWFGANAYAAAQLASGRYTRQVERGLLLGSARYGVHSRYAGDLVDVSLESGYRWRFGAASLTPYLGADHARVETPAFAERGGLGFGLRSEAAVVERTQALLGLRVGYARRGWRVGGYLEHQHLLDAGTRGGAASFTGVDAWAPLPASPFARNALLAGLSTSVMPAAGGELSLAYDQRFGSNSETAWSLRYLRGF				NA	NA	NA	NA	NA
BMS020_08220	1176	thlA_4	COG0183	Acetyl-CoA acetyltransferase	ATGTCCGAGATCGTCATTGCCGCGGCCAAACGCACCGCGATCGGTTCCTTCCTGGGCCAGTTCAACGGCGTCCCCACCACCACGCTCGGCGCCACTGCAATCGAGGCCGCGCTGGCGCAGTCCGGCATCCCGGCCGGCGACGTATCCGAGGTGATCATGGGCTGCGTGCTGCCGGCCAACCTTGGCCAGGCCCCGGCCCGGCAGGCGGCGATCGCCGCCGGCATCCCGGTGTCGGCCGGCGCACTGACCATCAACAAGGTCTGCGGCTCGGGCATGAAGGCGATCATGCTCGGCCACGACCTGATCAAGGCCGGCTCGGCCAGCATCGTCGTCGCCGGCGGCATGGAGTCGATGAGCAACGCGCCGCACCTGATCCCGAATTCGCGCAGCGGCAACCGCTACGGCAACTTCCAGGCGGTCGACCATATGGCCTGGGACGGCCTGACCAATCCCTACGACGGCCAGGCGATGGGCGTGTTCGGCGAGGCCACCGCCAGCACGCTCGGCTTCAGCCGCGAGGAGCAGGACGCCTACGCGATCGAATCGGTGCGCCGCGCCCAGGCCGCGCAGGCCGAGGGCGCCTTCGCCGACGAGATCGTCCCGGTCAAGCTGAGCACCCGCAAGGGCGAGGTCGAGATCACCAGCGACGAACAGCCCGGACGCTCGGACATCGGCAAGATCCCCACGCTGAAGCCGGCGTTCAAGAAGGACGGCACGATCACCGCGGCCAGCTCCTCCAGCATCTCCGACGGCGCCGCCGCCACCGTGCTGCTCAGCGCAGAGGAAGCCGCACGCCGCGGCATCGTGCCGCTGGCGCGCATCGCCGGGCACAGCACCTTCTCGCAGGCGCCGGAATGGTTCACAACCGCCCCGGTGGCGGCGATCGAAGCGCTCGCGGCTAAGGTCGGCTGGTCGCTGGACGAGGTCGACCTGTTCGAGATCAACGAGGCGTTCGCAGTGGTCGCGATGGCGCCGATCAAGCAGCTCGGCCTGCCCCATGCGAAGGTCAACGTGCACGGCGGCGCATGCGCGCTGGGCCACCCGATCGGCGCCTCCGGTGCCCGCCTCGTGGTGACCTTGTTGAATGCGTTGCGCAAGCGCGGCGGCAAGCGTGGCATCGCCACGCTCTGCATCGGCGGCGGCGAGGCGACCGCCATCGCCATCGAATTGATTTGA	MSEIVIAAAKRTAIGSFLGQFNGVPTTTLGATAIEAALAQSGIPAGDVSEVIMGCVLPANLGQAPARQAAIAAGIPVSAGALTINKVCGSGMKAIMLGHDLIKAGSASIVVAGGMESMSNAPHLIPNSRSGNRYGNFQAVDHMAWDGLTNPYDGQAMGVFGEATASTLGFSREEQDAYAIESVRRAQAAQAEGAFADEIVPVKLSTRKGEVEITSDEQPGRSDIGKIPTLKPAFKKDGTITAASSSSISDGAAATVLLSAEEAARRGIVPLARIAGHSTFSQAPEWFTTAPVAAIEALAAKVGWSLDEVDLFEINEAFAVVAMAPIKQLGLPHAKVNVHGGACALGHPIGASGARLVVTLLNALRKRGGKRGIATLCIGGGEATAIAIELI	PGPT0008320_11376	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
BMS020_08221	342			hypothetical protein	ATGAGCATCAACAAGCTGCTGATCGCGGGCTCCCTGGCTCTGGCCCTGGCCGCGTGCTCGAAGCCGGAACAGGCCCAGGACGCTGCTGCTTCTGCCAACGAAGCCGCCGCCGACGCCCAGCAGGCCGCCGACCAGGCCGCCGCCGCCGCTGCCCCGACCGCTGACGCTGCCCAGGCTTCGGCCGACGCCGCCGCCACCGCCGCCGACACCGCTGCCGACGCTGCCAACACCGCTGCTGCCGCCACCACCGACGCCGCTGCCGACCAGGCTGCCGACGCTGCGAAGGCTGCGGAAGACACCGCTGCGCAGGCCAAGGACGCTGCTGAAGAAGCCAAGAAGTAA	MSINKLLIAGSLALALAACSKPEQAQDAAASANEAAADAQQAADQAAAAAAPTADAAQASADAAATAADTAADAANTAAAATTDAAADQAADAAKAAEDTAAQAKDAAEEAKK				NA	NA	NA	NA	NA
BMS020_08222	360			hypothetical protein	ATGAAGATGCGCCACCGTTCCGCCCTGACCACGTTGCTGCTGCCGCTGGCGCTGGCCGCCTGCCAGGGACCCGATGCCGAACAGGCCCGCCGCGATGCCGCCTCCGCCGCCGAACACGCCGCCGCGGCCACCCGCGATGCCGCCGACCGCGCCGCCGAGCAGGCCCGCGACGCAACCGCGCGCTCGCGCGAAGCGATCCGCGACGCTTCCCGCGAAGCCGGCAACGCCGCCGACGCGATCGCCGCCGACACCAGCCGCGCGGCGGCCGACGCGGCCGATGCGACCGCGGACAAGGCGCGCGAGCTGGCCGACCATGCCGAGCACAACGCCGACAAGCAGCAGGCCGACCAGCGGCACTGA	MKMRHRSALTTLLLPLALAACQGPDAEQARRDAASAAEHAAAATRDAADRAAEQARDATARSREAIRDASREAGNAADAIAADTSRAAADAADATADKARELADHAEHNADKQQADQRH				NA	NA	NA	NA	NA
BMS020_08223	1707			hypothetical protein	ATGCCCAGCCCCGCCAGCAACCACACCCCGCCCCGTGTCGCCCTGGCGATCTCGGCGATCGTGTTCATCGGCATCGGCATCGGCATCTACGCCGGCGCGCGCAGTTCGATCGCCGACGGGGCGCTGGTCGCCCACACCCATGAGGTGATCGGCCGGATCGACGAGATCCAGGCCCAGGTCCTGGATGCCGAATCGGCCGAGCGCGGGTATCTGCTGACCGGCAACCAGGCCTACCTGGTCGACTACCAGAACAGCGTCGAGCGCCTGCCGCTGCTGCTCAACCAGCTGGGCAACAAGGTCGCCGACAACCCTGCGCAGCGCAGCAACGTGTCCACGCTCAAGGGACTGGTCGAGGCGCGCCTGGCGCAGATCAAGCGCATCCTCGACCTGTACGAGCACAACGGGCTTGAAACCGCGCGCAACTCGATCAATCGCTCCGCGTTCCGCACCACCAGCGCGATCCGCGAGCACGTGCTGGAGATGGTCAGCACCGAACAGACCCTGCTGGCGGCGCGTGCGCAGAGCAGCCAGCGCAGCGCCAACCTGCTGCTCGGCCTGGCGCTGGCCGGGATTCCGTTCGGCCTGCTGCTGATCGGCGGCGCCTACGTGCTGCTGAAGCGCGAGCTGGGCCGCCGCGCGGCCGCCGAGCAGTCCGCCTACACCGCCAACCACGAGCTGCAGGAGAGCAACGCCCAGCTGCAGCACAACGCCGCCGACCTCAACCAGCTGGCGCGCTACACCGGCATGCTGCAGAGCTGCATCTCCGCCGAAGAAGCGCTGGAGATCACCAGCCGCGTACTGTCCGGGCTGCTCCCCGGGGTGGCCGGCAGCGTCTACCTGCTGCGCGCCTCGCAGGACCGCGCCGAAGCGATCAGCAGCTGGGGCGACCCGCCGCTGCAAAGCGATCCGCAGCTGCTGCCCGAGGCCTGCTGGGCATTGCGGCGCGGCAAGCCACACGTGGTCAACGACGTGTACCACGACCCGATGTGCCCGCACGTCCATGCCGACAGCGCGCGTCCGGCGGTACACGCCTGCCTGCCCATGTCGGCGCAGGGCGTCCAGCTCGGATTCCTGTTCCTGACCAGCGCCGGCAGCGGCCCGTTGCCGCGGCTGGAGATCGCCGAGGCCGCGGCCGAACAGCTGTCGCTGGCCCTGAGCAACCTGCGCCTGCGCGAATCGCTGCGCCGGCAATCGATCCGCGATCCGCTGACCGGGCTGTACAACCGCCGCTACCTGGAAGAATCGCTCCCGCGCGAGCTGGGCCGCTGCGAACGGCGCGGCCTGCCGCTGTCGGTGCTGATGCTCGACGTCGACCACTTCAAGCAGTTCAACGACAGCCAGGGCCATGCCGGCGGCGACGCCCTGCTGGCGGCGGTCGGCCGGCTGCTGGCCACCCACCTGCGCAGCGAGGACATCGCCTGCCGCTACGGCGGCGAGGAATTCACCATCATCCTGCCCGAAAGCGACCGCGACGATGCGCTGGCGCGCGCCGACCACCTGCGCGAGCTGCTGGCGGCGCTGGTCGCCAGCGACGGCGAACGCCGACTGCCGTCGGTGACCGCGTCGATCGGCGTGGCCACCTTTCCGCACGATGGCGACGGCGGCCCCACCCTGATCCGCAAGGCCGACTCCGCGCTGTACCAGGCCAAGCACAATGGCCGTAACCGGGTCGAGCGCTACGACATCGCCCAGCGCATCCCGGACTGA	MPSPASNHTPPRVALAISAIVFIGIGIGIYAGARSSIADGALVAHTHEVIGRIDEIQAQVLDAESAERGYLLTGNQAYLVDYQNSVERLPLLLNQLGNKVADNPAQRSNVSTLKGLVEARLAQIKRILDLYEHNGLETARNSINRSAFRTTSAIREHVLEMVSTEQTLLAARAQSSQRSANLLLGLALAGIPFGLLLIGGAYVLLKRELGRRAAAEQSAYTANHELQESNAQLQHNAADLNQLARYTGMLQSCISAEEALEITSRVLSGLLPGVAGSVYLLRASQDRAEAISSWGDPPLQSDPQLLPEACWALRRGKPHVVNDVYHDPMCPHVHADSARPAVHACLPMSAQGVQLGFLFLTSAGSGPLPRLEIAEAAAEQLSLALSNLRLRESLRRQSIRDPLTGLYNRRYLEESLPRELGRCERRGLPLSVLMLDVDHFKQFNDSQGHAGGDALLAAVGRLLATHLRSEDIACRYGGEEFTIILPESDRDDALARADHLRELLAALVASDGERRLPSVTASIGVATFPHDGDGGPTLIRKADSALYQAKHNGRNRVERYDIAQRIPD				NA	NA	NA	NA	NA
BMS020_08224	1635	aidB_2	COG1960	Putative acyl-CoA dehydrogenase AidB	ATGGACCAGCACGCGCCGTTGCCGCCGTTCGAAACGCATCGGGTCGAGAACCAGCCGCCGCCCTTCGAGGACCGCGACCTGTGGGCCGACGACATCGCCCTGCGCGAGGCGGTGCGGCGTGCCAGTGGCGGGCGCGATCTGGCGCCGCTGGCGGCCTACGGTGCGCTCGCCGGGGGCGAGCTGTACCGGCTGGGATTCGAGGCCAACCGCGATCGCCCGCGCCTGCGTAGCCACGACCGCTACGGCCAGCGCATCGACCTGGTCGAATTCAACCCGGCTTACCACCGCTTGCTGGAACTGGCCAAGCAGCACGGCGTGGCCGGCGTGTCGTGGCACGCGCCGGCACCGGGCGCGCATGTGGCGCGCGCCGCGCTCAGCTATCTGCACCACCAGGCCGAGGCTGGGACCAGTTGCCCGTTGACGATGACCCACGCCGGCGTCGCGGTGCTGCGCCAGGTACCGGCGCTGCGCGAATGGGCCGACAAGGCCGCCGCGCCGGTCTACGACCCGCGCGATCTGCCGATCGCGGCCAAGGCCGGCATCACCCTCGGCATGGGCATGACCGAGAAGCAGGGCGGTTCGGACGTGCGCGCCAACGCCACCGAGGCGACGCCACAGAGCGATGGCGGCTATGCGCTGGTCGGCCACAAGTGGTTCTTTTCCGCGCCGATGTCCGACGGGTTCCTGGTACTGGCGCAGTCGCCGGGCGGCCTGAGCTGCTTCCTGGTGCCGCGGCGGCTGGCGGATGGATGCAAGAACGCATTCCGGCTGATGCGGTTGAAGGACAAGCTCGGCGACTGGGCGAATGCGTCCAGCGAAGTCGAGTTCTGCGGCACGCAGGCACTGCTGGTCGGCGAGGAGGGGCGCGGCGTCGCCACCATCATCGGGATGGTCATGCTGACGCGGCTGGACTGCATGCTCGGCGCCGCGGCGGAGATGCGTATGGCGCTGGCGCAGGCGCTGCACCACGCGCGCCACCGGCACAGTTTCGGCCGGCCGCTGGTGGCCCATCCGCTGATGGCCAACGTGCTGGCCGACCTGGCGCTGGAATCGGAGGCGGCCACCACGTTCGCGGTGCGCGTCGCGGCGGCGGTGGATGCCGCCGAGCGCGATCCGGCCGCGGCGGCGTTCGCGCGCGTGGCCACCGCGCTGGGCAAGTACTGGATCTGCCGGCGCGCACCGGGCTTCGTCAACGAGGCGCAGGAGTGTCTTGGCGGCGCCGGCTATGTCGAGGAGTCGATGCTGCCCAGGCTGTACCGGCAGGCGCCGTTGAATTCGATCTGGGAAGGCAGCGGCAACATCCAGTGCCTGGACGTGCTGCGCGCACTGGCGCGCGAACCGCGTTGCGCCGAGGCGGTGCTGGCCGAACTGCAGGCGGCCGGGGAGGGCGGTGCCGATTACGCCGCCGCCGTGCAGGTCATCGCACTGCGGTTGCAGGCGCCGTTGGTCGAGGCCGAGGCGCGCGCGTTCAGTGAGGCGTTGGCCTTGGCGCTGCAGGCGGCGGCCCTGTTGCAGGCCGGCAGTCCGCTCGCCGCGGCATTCATCGCCGCGCGCCTGGGCGCCGTGCGCGGGCTGGCCTACGGCACGCTGCGTGGGCTGGATCCTGCGCCGATCCTGGCGCGTGCGCTGCCCTGA	MDQHAPLPPFETHRVENQPPPFEDRDLWADDIALREAVRRASGGRDLAPLAAYGALAGGELYRLGFEANRDRPRLRSHDRYGQRIDLVEFNPAYHRLLELAKQHGVAGVSWHAPAPGAHVARAALSYLHHQAEAGTSCPLTMTHAGVAVLRQVPALREWADKAAAPVYDPRDLPIAAKAGITLGMGMTEKQGGSDVRANATEATPQSDGGYALVGHKWFFSAPMSDGFLVLAQSPGGLSCFLVPRRLADGCKNAFRLMRLKDKLGDWANASSEVEFCGTQALLVGEEGRGVATIIGMVMLTRLDCMLGAAAEMRMALAQALHHARHRHSFGRPLVAHPLMANVLADLALESEAATTFAVRVAAAVDAAERDPAAAAFARVATALGKYWICRRAPGFVNEAQECLGGAGYVEESMLPRLYRQAPLNSIWEGSGNIQCLDVLRALAREPRCAEAVLAELQAAGEGGADYAAAVQVIALRLQAPLVEAEARAFSEALALALQAAALLQAGSPLAAAFIAARLGAVRGLAYGTLRGLDPAPILARALP				NA	NA	NA	NA	NA
BMS020_08225	204			hypothetical protein	ATGCACCCACGCCCGTTCCATCGCGCCACCCTGTCGCGCCAGCACATGCGGCTGGCCGGGGCGATGGCGTTCCGCAGGGGGGCGCTGGCGTTCCGCCTGCGCGGGCTGCCGCGTGGCGAGGACGTCGCCGCCGCGTCGCTGGATGCATTCACCCACGACGCACGCGCCGCACTGCGCGCGGAGGCGCCGCCAGCGCGTCAGTGA	MHPRPFHRATLSRQHMRLAGAMAFRRGALAFRLRGLPRGEDVAAASLDAFTHDARAALRAEAPPARQ				NA	NA	NA	NA	NA
BMS020_08226	1296	kmo_2		Kynurenine 3-monooxygenase	ATGAAACAGCCGCTTCGCATCGCGGTGGTCGGTTACGGCACCGCCGGGCAGGCATTGGCGATCGTGCTGGCGCGCGCCGGGCACACTCTGGAGGTGTTCGAGCGCGTGCCGCAGCCCGGTCCGGTCGGGGCCGGGTTCCTGCTCCAGCCGACCGGGCTGCAGGTGCTGTGGAAATTGGGCCTGTTGCCGCAGGTGCTGGCGCACGGTGCGCCGGTGCGGCGGCTGTACGGCGAGACCCCGTGCGGACGCGCGGTGATGGACATGCGCTACCGCGATCTGGATTCGCGCCTGTTCGGGCTCGGCATGCAGCGCGGCGCGCTGTTCTCGATGCTGGAGCAGGCCTGGGATGGCCGCGCCAACCTGCGTGCCGGCACCGCGATTGTCGAGATCGATGCGGCGCAGCGGCGGCTGCGCGATGCGCATGGCCACTGGCATGGCGGCTACGACCTGGTGGTGGTCGCCGACGGCGCTGCGTCCACGTTGCGCCACCACGTCGCAGGCACGCGCCTGGACCGGCCGTATCCGTGGGGTGCGTTGTGGTGCCTGTTGCCGCAGCAGGACTGGGCGTTCGCAGACGAGTTGCGGCAACGCTACGTCGCCGCGCGGCGGATGATCGGGTTGCTGCCGGTGGGCACGCGACCGGGCGACCCGGTCGCGCGTCTGAGCTTCTTCTGGAGTCTGCCGCGCAGCGGCTTCGATGCCTGGGAGGCGGCACCGCTGCAGGCCTGGCTGGACGAGGTGGCCGCGATCTGGCCGCAGGCCCGCGAGCGCCTGCACGGCATCGACATGCATGTGCAGCTGGCGCGTGCCAGCTATCGCGATACCGTGCAGCGGCGCTGGTTCGCCGGCCGTGTGGTGCTGGCCGGCGATGCCGCGCACTCGATGAGCCCGCAGCTCGGTCAGGGCGTGAACATGGCGCTGATGGATGCGCTGGCGCTGGGCGAGGCGTTGCAGCAGGCCGACGATGTCGAACAGGCGCTCACGGCCTACCAGCGTGCGCGTCAAGCGCACCTGGCGATCTACCATTTCTGGAGTCGCTGGCTGACCCCGCTGTTCCAGTCCGAGCACGACGTCGCCGCGCGGCTGCGCGACCTGAGCTTCCTGCCGATGGGGCGCATGCCGGGCGGACGCGGGCACATGCTGCGCGTACTCAGCGGCACCCAGCGCGGCTGGTGGGGCCGGCACCTGCTCGAGGAGGCGTTCCTCGCCGATCTGGAGGCGGCCGGGCGCACGGCCGCCGCGTTGCATGGCCCGGCGACGGGCCTGGCCGCGCACGGTGGCATAGCGCCTCACTGA	MKQPLRIAVVGYGTAGQALAIVLARAGHTLEVFERVPQPGPVGAGFLLQPTGLQVLWKLGLLPQVLAHGAPVRRLYGETPCGRAVMDMRYRDLDSRLFGLGMQRGALFSMLEQAWDGRANLRAGTAIVEIDAAQRRLRDAHGHWHGGYDLVVVADGAASTLRHHVAGTRLDRPYPWGALWCLLPQQDWAFADELRQRYVAARRMIGLLPVGTRPGDPVARLSFFWSLPRSGFDAWEAAPLQAWLDEVAAIWPQARERLHGIDMHVQLARASYRDTVQRRWFAGRVVLAGDAAHSMSPQLGQGVNMALMDALALGEALQQADDVEQALTAYQRARQAHLAIYHFWSRWLTPLFQSEHDVAARLRDLSFLPMGRMPGGRGHMLRVLSGTQRGWWGRHLLEEAFLADLEAAGRTAAALHGPATGLAAHGGIAPH	PGPT0021115_15	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021115-hpxO-K16839	NA	NA
BMS020_08227	207	scoF	COG1278	Cold shock protein ScoF	ATGCCGAACGGTACCGTCAAGTGGTTCAACGACGCCAAGGGATTTGGCTTCATCTCACCGGAGGACGGCAGCGCCGATGTTTTCGCGCACTTCTCCGCGATTAACTCCAAGGGCTTCCGCAGCCTGCAGGAAGGCCAGAAGGTCAGCTACGACGTGACCCAGGGCCCGAAGGGTGCCCAAGCTTCGAACATTACGCCGATCGGCTGA	MPNGTVKWFNDAKGFGFISPEDGSADVFAHFSAINSKGFRSLQEGQKVSYDVTQGPKGAQASNITPIG	PGPT0014675_2340	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
BMS020_08228	747		COG0005	S-methyl-5'-thioinosine phosphorylase	ATGCTTCCCATTTCCCTGGCCGTCATCGGCGGCACCGGCGTCTACAGGCTTGCCCAGCTCGACGACGTCGAAACCCACCAGGTCGAAACCCGTTTCGGCGCCCCTTCCGGACCGGTCCGGGTCGGGACGCTGCTCGGCCACCGCGTGGCCTTCCTGGCCCGCCATGGCGAGGGCCATTCGATTCCGCCCCACCGGATCAACTACCGCGCCAACCTTGCTGCCCTGCAACAAATCGGCGCGACCCGCGTGCTCGCACTGAATACGGTCGGCGGGATCACCGATGCGTTCGGGCCGCGCGTGCTGGCCTGCCCGGACCAGCTGATCGACTACACCTGGGGCCGTATCTCCACGATCTGCGAGGAGCCCGGCAGCGAGGTCGTGCATGTCGATTTCGGCCACCCGTATTCACCGCTGTTCCGCAGCAAGGTCATCGCCGCCGCACGCGTGACCGGGGTGAAATTGGTCGAACACGGCTGCTACGGCGCGACCCAGGGGCCGCGGCTGGAAACGATTGCAGAGATCGCGCGGATGCGCCGCGATGGCTGTGATCTGGTGGGCATGACCGGCATGCCGGAAGCGGCCCTGGCGCGCGAATTAGGCCTGGATTACGCCTGTTTGGCGATCATCGCGAACTGGGCCGCCGGTTGCGGCGACGCGCAGGAGATCACCATGGCCGAGGTGCTGGGGAACGTGGAGGCCGCATCGTCGGGGTTGCCGGAACTGGTCGGGGAACTTGCGCGCGGGTGA	MLPISLAVIGGTGVYRLAQLDDVETHQVETRFGAPSGPVRVGTLLGHRVAFLARHGEGHSIPPHRINYRANLAALQQIGATRVLALNTVGGITDAFGPRVLACPDQLIDYTWGRISTICEEPGSEVVHVDFGHPYSPLFRSKVIAAARVTGVKLVEHGCYGATQGPRLETIAEIARMRRDGCDLVGMTGMPEAALARELGLDYACLAIIANWAAGCGDAQEITMAEVLGNVEAASSGLPELVGELARG				NA	NA	NA	NA	NA
BMS020_08229	555	hpt_2		Hypoxanthine-guanine phosphoribosyltransferase	ATGCCCACTCTGTCCATTCCCCAGGCCCTGGATCAGGCCGATCTGCTGATCGACCGCCCCACGCTCGAGGCCGCGATCGGCCGCATCGCCGACGAGATCGCGCGCGACTACCACGGTGAGGTGCCGGTGTACCTGACCATCATGCATGGCGCGCTGCCGTTCTCAGGCAGCCTGGCGCTGGAGCTGGGCGCGCGCGGCCAGGACGTGCAGTTCGATTACCTGCACGCGACCCGCTACCGCGGCGAGACCACTGGCGGCGAGCTGGTGTGGAAGCACCGTCCGGCCACCGCGCTGTTTGGCCGCCGGGTGATCCTGGTCGACGACATCCTCGACGAGGGCTACACCCTGCAGGGCGTGCGCCAGTGGTGCCTGGAGCAGGGCGCGACCGACGTGCGCCTGGCGGTGCTGACGGTGAAGAAGCACGACCGCTGCGTGCCGGGCGTCGTTGCCGACTACGCCGGCGTGGAAGTGGAGGACCGCTACGTGTTCGGCTTCGGCCTGGACGTCAACGAACAGCTGCGCACGCTGCCGGCGATCTACGCGCTGAAGCAGTAA	MPTLSIPQALDQADLLIDRPTLEAAIGRIADEIARDYHGEVPVYLTIMHGALPFSGSLALELGARGQDVQFDYLHATRYRGETTGGELVWKHRPATALFGRRVILVDDILDEGYTLQGVRQWCLEQGATDVRLAVLTVKKHDRCVPGVVADYAGVEVEDRYVFGFGLDVNEQLRTLPAIYALKQ	PGPT0007295_1538	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007295-hprT|hpt-K00760	NA	NA
BMS020_08230	1008	nagZ_2	COG1472	Beta-hexosaminidase	ATGCTGCTGATCGGCGTTGCCGGTACCGAACTGACCGCCCAGGAGCGTGACTGGCTGCAGCACGACTGCGTGGCCGGAGTGGTGCTGTTCAAGCGCAATTTCGCCTCGGCCGCGCAGGTGGCCGAGCTGAGTGCGGCGATCCGCGCCGCCGCGCGCCTGCCGCAGTTGATCTGCGTCGACCAGGAAGGCGGGCGCGTGCAGCGCTTCCGCGAGGGCTACAGCGCGCTGCCGCCGCTGCAGGGCTTCGGCGCGCTGTATGCGCGCGACCGCCAGGCCGCACTGCAGCTGGCGCGTGAACACGCCTGGCTGATGGCCAGCGAGATCCGCGCCAGCGGCGTGGACCTGAGCTTCGCCCCGGTGGTCGATCTCGGCCGTGGCAACCGCGCGATCGGCGACCGCGCCTTCAGCGACGATCCGCAGGTCGTGGCGGCCTTCACCCAGGCCTATGTCGCGGCGATGCACGAAGCCGGCATGGCCGCGACGCTGAAGCACTTCCCGGGGCACGGCACCGTGCTCGAGGACACCCATGTCGATGTCGCAGTCGATCCGCGCCCGCTGGAGGCGCTGCGCCGCGAGGACCTGGTGCCGTTCGCGGCCGGCATCGCCGCCGGCGCCGATGCGGTGATGATGGCCCACGTGGTCTATCCGCGTGTCGCGCCGGAGCCGGCCGGCTATTCGCCGTTCTGGATCGGCGAGGTGCTGCGCGGCGAGCTCGGCTTCCGCGGCGTGGTGTTCTCCGACGACATCGGCATGGCCGCTTCGCACAGCGCCGGCGGCGTCGGCGCGCGCGTGCACGCCCACCTCGATGCCGGCTGCGACGCCGTGCTGGTCTGTCATCCGGAGCTGGTCGCCGAATCGCTCGCCGCGGTGGCCGACCGACGCCTCAACACTGCCGCGCTGGCGGGCCTGATCGGCCGCGGCGCGCTCGGCTGGGATGGCCTGCTGGCCGACGGCCGCCACGCCACCACACAATCCCGTTTGCTGGAACAACTCGGAAAACCCGTCTGA	MLLIGVAGTELTAQERDWLQHDCVAGVVLFKRNFASAAQVAELSAAIRAAARLPQLICVDQEGGRVQRFREGYSALPPLQGFGALYARDRQAALQLAREHAWLMASEIRASGVDLSFAPVVDLGRGNRAIGDRAFSDDPQVVAAFTQAYVAAMHEAGMAATLKHFPGHGTVLEDTHVDVAVDPRPLEALRREDLVPFAAGIAAGADAVMMAHVVYPRVAPEPAGYSPFWIGEVLRGELGFRGVVFSDDIGMAASHSAGGVGARVHAHLDAGCDAVLVCHPELVAESLAAVADRRLNTAALAGLIGRGALGWDGLLADGRHATTQSRLLEQLGKPV	PGPT0012175_4450	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207	NA	NA
BMS020_08231	723			hypothetical protein	GTGGCTGAGTCCGCTCCTGCCGCCGGTGCGCTGCGGATCGACATCTGGTCCGACGTGGTATGCCCGTGGTGCTGGATCGGCAAGCGCCGCTTCCAGCGTGGTCTGGAGCTGCTGGGCGCTGCCGCCCCGGCGGTGGAGGTCCACTTCCACGCCTTCCAGCTCGATCCCGATGCCGGCAGCACGCCGGTCCCGCTGCGCGAGGCCTATGCGGCCAAGTTCGGTGGACCTGCGCGCACCGCGCAGATCCTGGCGCAGACCCAGGCCACCGCGCGCGCCGAAGGCCTGCCGTTCGATTTCGACCGCGGCCAGGTGCGGGTGACCACGCTGCCGGCGCATCGGCTGATGTGGCTGGCGGCGCGCGAAGGCGATGCCGACGCGGTCGCCGAGGCGCTGTTCCATGCGCATTTCGCCGAGGGCCGCAATCTCGCCGAGGTCGCCACCCTGGTGTCTGCTGGCGCTGCTGGCGGCCTGGGCGAGGCGCGGGTGCGCGCGCTGCTGGCGTCCGACGCAGGCGTGGCTGAGGTCCAGGCCGACCTCGACCAGGCGCAGGCGCTGGGCATCACCGCGGTGCCGAGCTTCGTGATCGACGGCCGCTATCTGGTGCAGGGCGGGCAGCCGCCGGAAACCTTCGCCCAGGTGCTGGCCGAGCTGGCCGCCAAGCGCGACCCGCAGGCGGCCGGCACGGCCGACGCGGTCTGCGATGGCGACGGTTGCCAGCTCTGA	MAESAPAAGALRIDIWSDVVCPWCWIGKRRFQRGLELLGAAAPAVEVHFHAFQLDPDAGSTPVPLREAYAAKFGGPARTAQILAQTQATARAEGLPFDFDRGQVRVTTLPAHRLMWLAAREGDADAVAEALFHAHFAEGRNLAEVATLVSAGAAGGLGEARVRALLASDAGVAEVQADLDQAQALGITAVPSFVIDGRYLVQGGQPPETFAQVLAELAAKRDPQAAGTADAVCDGDGCQL				NA	NA	NA	NA	NA
BMS020_08232	504		COG2954	Inorganic triphosphatase	ATGGGCATCGAAATCGAACGCAAGTTCCTGGTCAGCGGCGACGGTTGGCGCGCTGCGGCGCGCGAGGTCATTCCGATGGCGCAGGGCTACATCAACGACCTCGGCGCGATGGACCGGGGCGAGCAGAAGGCTTCGGTGCGGGTGCGCATCCAGGGCGATGAGGCCTTCCTCAACCTGAAATCGCGCGAGCTCGGCACCACGCGGCAGGAATTCGACTACCCGATCCCGGTGGGCGACGCGCGCGATCTGCTGGCACTGTGCGTCGGCGGGCTGGTCGACAAGCGCCGGCACCTGGTCGAGGTCGACGGCCACGTCTGGGAGGTGGATGAATTCCTCGGTGACAACGCCGGGCTGGTCGTCGCCGAGGTCGAACTGGACAGCGCCGACGAGATCTTCACGCGCCCGGACTGGATCGGCGCCGAGGTCACCGACCAGGCCCGCTATTACAACGTCGCCCTGGCCACGCGGCCGTATCGCGACTGGACGGAGGCCGAGCGTGGCTGA	MGIEIERKFLVSGDGWRAAAREVIPMAQGYINDLGAMDRGEQKASVRVRIQGDEAFLNLKSRELGTTRQEFDYPIPVGDARDLLALCVGGLVDKRRHLVEVDGHVWEVDEFLGDNAGLVVAEVELDSADEIFTRPDWIGAEVTDQARYYNVALATRPYRDWTEAERG	PGPT0021560_7252	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
BMS020_08233	636			hypothetical protein	ATGAAGCTGCTCGCTCCAGCGTTGCTGCTGGCCACCACCGCCACCCCCGCAACCGGCACGCTCCCGACCCCGCAGCAGATCGAAGCCGCTTATCAGCAGGCGGTCGCCGCTGACCTCGACAGCACCGACAACCCGCTGCTGAAGGCTGCGGTCATGCACTTCGAGGTCAAGCGCCTCTATGGCTGCCAGCCCGAAGATGCCGGCCTGCGCTGTCTGGTGGACGTCGCTGGCGGGATGAAGATCCACAACGTCGCGATGGCGCTCGCGCTGACACCGGATGCCTCGGGCTGGAAGCTGATTCCCCCTTCGTCCGAGGGACGCAGGCAGTTCCCCGCACCGTCGTCGCAGCAGCTGCGCGAACTGCTGCGCACCACTGCCAGGCAGCGGCTCGACGCCGGTGAGCACGACCCACAGCTCGACGCCGCGGCCGGTCCGCTGACGGTCGAGCGGACAGGCCCCTGCACGCTGCAGACCAGCATCCAGCGTTCGCCCGACACGCCCGACACGCGAAGCACTGCGCTGCGTTGCGACGTCGAACTCAAGCCGACGCCGGACAGCGGGATCGTCAAGACCACGCTGGACCTGATGCCCGACGGAACCGGCTGGCGGCTCGGCGCAGACGTCTCGGAACTCTGA	MKLLAPALLLATTATPATGTLPTPQQIEAAYQQAVAADLDSTDNPLLKAAVMHFEVKRLYGCQPEDAGLRCLVDVAGGMKIHNVAMALALTPDASGWKLIPPSSEGRRQFPAPSSQQLRELLRTTARQRLDAGEHDPQLDAAAGPLTVERTGPCTLQTSIQRSPDTPDTRSTALRCDVELKPTPDSGIVKTTLDLMPDGTGWRLGADVSEL				NA	NA	NA	NA	NA
BMS020_08234	1335	rlmD_2	COG2265	23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD	GTGGCCCGTCCAAGATCCCGACTCGACAAGACCCCGTTCCAGACCGACATCACCGACCTCAGCCACGACGGCCGCGGCGTCGCCCGCCGCGAAGGCGAGGGCGGCAAGGTCACCTTCGTCAGCGGCGCACTGCCCGGCGAGACCGTGCTGGCTGAACAGACCGCGCGCAGCCGTCACTTCGACGAGGCCAAGGTGGTCGAAGTGCTGACCGCCTCGCCCGACCGGGTTGCGCCGCGCTGCCCGCATTTCGGCGTCTGCGCCGGCTGCGTGCTGCAGCACCTGGACGAGGACCAGCAGATCGTCGCCAAGCAGCGCGTGTTGATGGACAACCTCGAGCGCATCGGCCATGTCAGCCCGGAGACGGTGTTGCCGGCGCTGGTCGGCGCCAACTGGGGCTACCGGCGCAAGGGCCGGTTCTCGGTGCGCCGGGTCGAGAAGAAGGATAAGACCCTGGTCGGCTTCCGCGAGCAGGATCCGCGCTTCGTCGCCGACCTGTCGGTCTGCTACACGGTGATCCCGCAGATCGGCGAGAAGGTGTCGGCGCTGGCCGAACTGGTCGAGAGCCTGGACGGCAAGCGCGACATCCCGCAGATCGAGTTCATCGCCGGCGACGAGGCGATCGCGCTGACCGTGCGCCACCTGCAGCCGCTCAGCGAGGCCGACCGCACCGCGTTCGCCGCGTTCGGCCAGCTGCACGGGTTCGCGATCTTCCTGCAGCCCGGCGGTCTGGAGAGCGTGCATCCGCTGCTGCCCGAGCAGGTCGTGCCGCTGTCGTTCCGGCTGCCGCAGTGGGAAGTCGAACTGGCGTTCCGGCCGCTGGACTTCATCCAGGTCAACGCCAGCCTCAACCAGAAGATGATCGCCCACGCGCTGGCGCTGCTCGATGCGCAGCCGGGCGACCGCGTGCTCGACCTGTTCTGCGGCCTGGGCAACTTCACCCTGCCGCTGGCGCGCGGGGTGCGCGAGGTGGTCGGGGTCGAGGGCGATGCCGGGCTGGTGGCGCGGGCCAGGGAAAACGCGGTCCGCAACGGCCTGGACAACGCCCAGTTCCACGCCGCCGACCTGACCCAGGATCAGCGCAACGCGCCGTGGATGAAGCAGGGCTTCGACAAGCTGCTGCTGGACCCGCCGCGTTCGGGCGCGATCGACGTGCTCAAGCAGCTGCCGCTGAAGAAGTTCGAACGCATCGTCTACGTCAGCTGCCACCCCGGCTCGCTGGCGCGCGATGCCGGCTACCTGGTCAACGAGCAGGGCTTCAAGCTGAAGGCGGCCGGCGCGATGGACATGTTTCCGCATACCGCGCACGTGGAAAGCATCGCGGTGTTCGAGCGCTGA	MARPRSRLDKTPFQTDITDLSHDGRGVARREGEGGKVTFVSGALPGETVLAEQTARSRHFDEAKVVEVLTASPDRVAPRCPHFGVCAGCVLQHLDEDQQIVAKQRVLMDNLERIGHVSPETVLPALVGANWGYRRKGRFSVRRVEKKDKTLVGFREQDPRFVADLSVCYTVIPQIGEKVSALAELVESLDGKRDIPQIEFIAGDEAIALTVRHLQPLSEADRTAFAAFGQLHGFAIFLQPGGLESVHPLLPEQVVPLSFRLPQWEVELAFRPLDFIQVNASLNQKMIAHALALLDAQPGDRVLDLFCGLGNFTLPLARGVREVVGVEGDAGLVARARENAVRNGLDNAQFHAADLTQDQRNAPWMKQGFDKLLLDPPRSGAIDVLKQLPLKKFERIVYVSCHPGSLARDAGYLVNEQGFKLKAAGAMDMFPHTAHVESIAVFER				NA	NA	NA	NA	NA
BMS020_08235	708	barA_2	COG0784	Signal transduction histidine-protein kinase BarA	ATGGCACCGCATACGGAACCGGCTTCGCGCCTGTTGCTGGTCGAGGACGACCCGATCAGCCGCGGCTTTTTCCAGATCGCGCTCGAATCGCTGCCGGCCCAGGTCGAGTGCGGCGATTCGGTGGCGTCGGCGCTGGCGCTGGCCCAGTCCAAGCGCTACGACCTGGCCCTGATCGACGTGAACCTGCCCGACGGCAGCGGCCTGGAGCTGCTCGGCCAGCTGGCGTCGGTGCAACCCGGCCTGCCGGCGCTGGCGCATACCGCCGAGCTGTCACCCAGCGACCGTGAGGTGCTGCGTGCCGGCGGCTTCCTGGAAGTACTGACCAAACCGATGTCGGCCGACCGCCTGCAGCAGGCGGTGCGCCGCGGCCTCACCCATGGCCGGGTGGTCAGCCTGCAGCACAGCGACTCCGATCGCGACTGGGATGAGAGCACCGCGCTGATGGCGCTCAACGGCCAACAAGGCCACCTGGTCGCGCTGCGCGAACTGTTCCTGGCGGAGCTGCCGGCGACCCGCGATGCGGTGGATTCGGCGCTGCGTGTCGAGGACACCCAGGCGGTACGCGGCCACCTGCACCGCCTGCAGGCCAGCTGCAGCTTCGTCGGTGCGGCACGCCTGGCCGGCGCGGTGCGCCAGCTGCGTGGCGATCCGCTGTCGCGGGTTGCGCAGCACCAGTTCCACGCCGCCGTCGCCGCCCTGCTGCACTGA	MAPHTEPASRLLLVEDDPISRGFFQIALESLPAQVECGDSVASALALAQSKRYDLALIDVNLPDGSGLELLGQLASVQPGLPALAHTAELSPSDREVLRAGGFLEVLTKPMSADRLQQAVRRGLTHGRVVSLQHSDSDRDWDESTALMALNGQQGHLVALRELFLAELPATRDAVDSALRVEDTQAVRGHLHRLQASCSFVGAARLAGAVRQLRGDPLSRVAQHQFHAAVAALLH				NA	NA	NA	NA	NA
BMS020_08236	726	recO_2	COG1381	DNA repair protein RecO	ATGCAGATCGAGCAAGAACCCGCCTTCGTCCTGCATTGCCGTCCGTGGCGCGAGACCAGCCTGCTGGTCGAGGTGCTGAGCCGCGATCACGGCCGCTTGGGGCTGGTCGCGCGCGGCGTGCAGGGGCCGAAGAAGCAGGCCTTGCGCGCAGCGCTGCAACCGCTGCAGTCGATCGTGTTCTCGGCGGTGCTACGCGGCGAGCTGGCGCAGCTGCGCCAGGCCGAGGCGCAGGATGCCGCGCCTCGGCTGGCCGGCGACACCATGCTTGGCGGCTTCTACATCAACGAACTGATGCTGCGGCTGGCGCCCCGGCACGACCCGTTGCCGGAACTGCATGCGTTGTACGCCGAGGTCCGCGAACGTCTGCCTGAGCGCGCCACGCTGGCTTGGACCCTGCGCTGTTTCGAACGTGACCTGCTCGACATCCTCGGCTTCGGGCTCGATCTTGCCCATGACGTGGACGGTCGCCCGCTGGATCCGGCGGCACGTTACCTGCTCGATCCGATGGAGGGACCGCGTCGTTTGCTGGTCGAGCGCGGGCGCGCCGAGCGTGATGCCAGCGCGACCGGCCTGGGGCTGCTGGCCTTGGCCGCGGACCGTCCGCCTCCGGCGGAGGACATGCCAGGGTTGCGCCGGGCGATGCGCGCCGTACTGCTGCACCATCTGGCCGGGCGCGGCCTGAAATCCTGGGAAATGCTCGACGCGCTGGGGCGCCGGCGCAGCTGA	MQIEQEPAFVLHCRPWRETSLLVEVLSRDHGRLGLVARGVQGPKKQALRAALQPLQSIVFSAVLRGELAQLRQAEAQDAAPRLAGDTMLGGFYINELMLRLAPRHDPLPELHALYAEVRERLPERATLAWTLRCFERDLLDILGFGLDLAHDVDGRPLDPAARYLLDPMEGPRRLLVERGRAERDASATGLGLLALAADRPPPAEDMPGLRRAMRAVLLHHLAGRGLKSWEMLDALGRRRS				NA	NA	NA	NA	NA
BMS020_08237	909	era_2	COG1159	GTPase Era	GTGAGCGACTCTCCTTCCCATCGTTGCGGCAGCGTTGCCGTGATCGGCCGGCCGAACGTCGGCAAGTCCACGCTGACCAATGCCCTGGTGGGCGCCAAGGTCAGCATCGTCTCCAACCGGCCGCAGACCACCCGCCACCGGTTGCTAGGCATCGCCAGCTTCCCGGAAGGGCAGATCGTGCTGGTCGATACCCCGGGGCTGCATCGCCAGGACGGCAAGTTCAAGGCCTCGGCGATGAGCCGGGTGATGAACCGCGCCGCGCGCGGTTCGCTGGAGGATGTCGATGCTGCGCTGCTGGTGATCGAAGCCGGCCGCTGGGACGAAGAAGACACGCTGGCCTACCGCGTGCTGCATGACGCCGGGGTTCCGGTGGTGCTGATCGTCAACAAGGTCGACCGGCTCAAGGACAAGGCGGCGCTGCTGCCGTTCCTGGCCGAGGTCAGCACCGAACGCGAGTTCGCCGCGGTGCATCCGGTGTCGGCGTTGAAGCAGAAGGGGCTGGAGGCGCTGGTCAAGGACGTGCTGAAGCTGCTGCCGGAGGCGCCGCCGATGTTCGGCGAGGACGAGATCACCGATCGCAGCCAGCGCTTCCTGGCCGGCGAACTGGTGCGCGAACAGCTGATGCGCCAGCTCGGCGAGGAGCTGCCGTACGCGACCACGGTCGAGATCGAGCGCTTCGCCGAGGATGGCAACCTGCTGCGCATCGGCGCGGTGATCTGGGTCGAGCGCGAAGGGCAGAAGGCGATCGTGATCGGCAAGGGCGGCACCCGGCTGAAGGAAATCGGCGCCAAGGCCCGCCAGCAGATGGAGCGCCTGTTCGGCGCCAAGGTGTTCCTGGAGACCTGGGTGCGCGTGCGCGAGGGCTGGTCCGACGACGACGCGGCGCTGAAGGCGTTCGGCTACGAGTGA	MSDSPSHRCGSVAVIGRPNVGKSTLTNALVGAKVSIVSNRPQTTRHRLLGIASFPEGQIVLVDTPGLHRQDGKFKASAMSRVMNRAARGSLEDVDAALLVIEAGRWDEEDTLAYRVLHDAGVPVVLIVNKVDRLKDKAALLPFLAEVSTEREFAAVHPVSALKQKGLEALVKDVLKLLPEAPPMFGEDEITDRSQRFLAGELVREQLMRQLGEELPYATTVEIERFAEDGNLLRIGAVIWVEREGQKAIVIGKGGTRLKEIGAKARQQMERLFGAKVFLETWVRVREGWSDDDAALKAFGYE				NA	NA	NA	NA	NA
BMS020_08238	681	rnc_2	COG0571	Ribonuclease 3	GTGGCGAGTAAGACTTTCCAACGTGGCGACCGGATCGGCCATGTCTTCGCCGATCCCGGCTTGCTGAAGCAGGCGCTGACCCATCGCAGCGCAGGGGCGCCGCACAACGAGCGCCTGGAGTTCCTCGGCGACGGCATCGTCAATCTCCTGATCGCCGAGGCGCTGTACCTGCGCTGGCCAAAGGCCGACGAGGGGGCGCTGACCCGCGCCCGCGCCGAGCTGGTGCGCGAGGCGGCGCTGGCGGTGGTCGGGCGCGCGCTGGAACTGGGCGAGCGGTTGACGCTCGGCCCGGGCGAAATGAAGTCCGGCGGGCATCGGCGCGATTCGATCATCGCCGACGCCGTCGAGGCGGTGGTGGCTGCGATCTACCTCGATGCCGGGTTCGAAGCCTGTCGCGCGGTGGTGCTGCCGTGGTTCGAGGGCGCACTGGCGGCGCTGCCGGTCGGCAAGCCGGAAAAAGATGCGAAAACCCGCCTGCAGGAGTGGTTGCAGGCCAGGCAGCGCCCGCTGCCGACGTATGAACTGATTTCCGAGAGCGGCGACGACCACGCCAAGCAATTCCAGGTAGCCTGCACCCTGAGCGACCCGCCGCTGCGGGCCGAGGGCGAGGGCACCTCGCGCCGGCTCGCCGAGCAGCAGGCCGCGGCCGCCCTCATCCAACAACTGGATCCGAGCAAGTGA	MASKTFQRGDRIGHVFADPGLLKQALTHRSAGAPHNERLEFLGDGIVNLLIAEALYLRWPKADEGALTRARAELVREAALAVVGRALELGERLTLGPGEMKSGGHRRDSIIADAVEAVVAAIYLDAGFEACRAVVLPWFEGALAALPVGKPEKDAKTRLQEWLQARQRPLPTYELISESGDDHAKQFQVACTLSDPPLRAEGEGTSRRLAEQQAAAALIQQLDPSK				NA	NA	NA	NA	NA
BMS020_08239	381			hypothetical protein	ATGAAGCGCAAGCAGAGCGGGATGACGCTGACGTCGTTCGTGGTGGTGCTGGCGGTGGTGGGGTTCGCCGCCTATATCGGCATGAAGCTGTTCCCGATGTACCAGGAGTACTACGCGGTCAGGACCGCGCTGAAGGGACTGGCCAACGAGCCGGGTAGCGGCGACATGGATCCGTCCAAGGCCATGGATCTGTTGTTCCGTCGGCTGGACGTCAGCTACTCGGAAAATGTGAAGCGTGATAACGTCAAATTCGAACGCATCGACCAGGGCCTGCGCCTGAACGTGAACTATGAGGTCCGGCGCGAGCTCGTCGGCAACCTCGACGTGGTCGGTCGATTCGAGGCGACGCAGGATCTGACCAGGCGGAGCGGTGGCGAGTAA	MKRKQSGMTLTSFVVVLAVVGFAAYIGMKLFPMYQEYYAVRTALKGLANEPGSGDMDPSKAMDLLFRRLDVSYSENVKRDNVKFERIDQGLRLNVNYEVRRELVGNLDVVGRFEATQDLTRRSGGE				NA	NA	NA	NA	NA
BMS020_08240	801	lepB_2	COG0681	Signal peptidase I	ATGAAATGGTTTGAAATCCTGCTGGTGGTGGCCACGCTCGGCAGCGGACTGATCTGGCTGCTCGACAAGCTGTTCCTGGCCAAGCGCCGCGCCGCCAGTGCCGGCCTGCTCGACAGCGAGCCGGTGATCATCGACTACTCCAAGGCGTTCTTCCCGGTGCTGGCGGTGGTGCTGATCCTGCGCAGCTTCGTCGCCGAGCCGTACAAGATTCCGTCCAGCTCGATGATGCCGAACCTGCTGATCGGCGACTTCATCCTGGTCAACAAGTTCGCCTACGGCTTCCGCCTGCCGATCACCAACACCAAGATCATTCCGACCAGCGAGCCCAAGCGCGGCGACGTGGTCGTGTTCAAGCCGCCGCACCGTCCGGACGAAAACTGGATCAAGCGCGTGGTCGGCCTGCCGGGCGACCGCATCGGCTTCCACGGCGACACGCTGTACATCAACGGCGAGCCGATGCAGTACCACGTCAAGGGCGAGTACATCGGCAAGGGCAAGGGGGCCGAGATGACCGGCACCACGCTGCTGACCGAGGATCTGCCGGGTCGCACCCACACCGTACTGGAGTGGATCGACCGGGCCAACCCGGCCGGCCAGGGCGACTGGGTGGTGCCGCAGGGCCAGTATTTCGTGATGGGGGACAATCGCGATAATAGCGAGGACAGCCGGTTCTGGACCCAGACGCACTTCCTGCCCGAGGCCAATCTGCGCGGCAAGGCGTTCCTGATCTGGCTGAACTGCGAAGGGTGGTTCTGCAAGGGGAGTTTCGATCCGTCGCGGATCGGGACGGGCATCCAGTAA	MKWFEILLVVATLGSGLIWLLDKLFLAKRRAASAGLLDSEPVIIDYSKAFFPVLAVVLILRSFVAEPYKIPSSSMMPNLLIGDFILVNKFAYGFRLPITNTKIIPTSEPKRGDVVVFKPPHRPDENWIKRVVGLPGDRIGFHGDTLYINGEPMQYHVKGEYIGKGKGAEMTGTTLLTEDLPGRTHTVLEWIDRANPAGQGDWVVPQGQYFVMGDNRDNSEDSRFWTQTHFLPEANLRGKAFLIWLNCEGWFCKGSFDPSRIGTGIQ				NA	NA	NA	NA	NA
BMS020_08241	1809	lepA_2	COG0481	Elongation factor 4	ATGTCATCCGATCCGATGCGGAACATCCGCAACTTCTCCATCATCGCCCACGTCGACCACGGCAAGTCCACCCTGGCTGATCGCATCATCCAGCTGTGCGGCGGCCTCGAGGCCCGCGAGATGGAGGCCCAGGTGCTCGATTCGAATCCGATCGAGCGCGAACGTGGCATCACCATCAAGGCCCAGTCCGTGTCCCTGCCGTACCGGGCCAAGGATGGGCAGACCTATTACCTGAACTTCATCGACACCCCCGGGCACGTCGACTTCTCCTACGAAGTCAGCCGCTCGCTGGCCGCCTGCGAGGGCGCGCTGCTGGTGGTCGATGCCGCCCAGGGCGTGGAGGCGCAGTCGGTCGCCAACTGCTACACCGCGGTGGAGCAGGGCCTGGAAGTGGTGCCGGTGCTGAACAAGATCGACCTGCCGACCGCCGACACCGATCGCGCCAAGGCCGAGATCGAGGCGGTGATCGGCATCGATGCCAGCGACGCGGTGCCGGTCAGCGCCAAGACCGGCCTTAACGTCGACCTGGTGCTCGAGGCGATCGTGCAGCGGATCCCGCCGCCGAAGCCGCGCGACACCGACAAGCTGCAGGCGCTGATCATCGATTCCTGGTTCGACAACTACCTCGGCGTGGTGTCGCTGGTGCGGGTCATGCAGGGCGAGATCAAGCCCGGCGACAAGCTGCAGGTGATGTCCACCGGGCGCACCCACCAGGTCGATGCGGTCGGCGTGTTCACCCCCAAGCGCAAGGTGCTGCCGAAGCTGTCCGCCGGCGAGGTGGGCTGGGTCACCGCGTCGATCAAGGACGTGCACGGCGCGCCGGTCGGCGACACCCTGACCCTGGCCGGCGATCCGGCGCCCAAGCCGTTGCCGGGCTTCCAGGAGATGCAGCCGCGCGTGTTCGCTGGCCTGTTCCCGGTCGATGCTGAGGACTACCCGGACCTGCGCGAGGCGCTGGACAAGCTGCGCCTGAACGACGCGGCGCTGCGCTTCGAGCCGGAAAGCTCCGAGGCGATGGGCTTCGGCTTCCGCTGCGGCTTCCTCGGCATGCTGCACATGGAGATCGTGCAGGAGCGGCTGGAGCGCGAATACAACCTCGACCTGATCACCACTGCGCCGACGGTGATCTACGAGGTGCTCAAGACCGATGGCGGCATCGTCAACATGGACAACCCGGCCAAGCTGCCGCCGGTGAACATGGTCGAGGAGATCCGCGAGCCGATCATCCGCGCCAACATCCTCACCCCCGAGGAATACATCGGCAACATCATCAAGCTGTGCGAGGAAAAGCGCGGCAGCCAGCTCGGCATCAACTACCTCGGCAGCCAGGTGCAGATCAGCTACGAGCTGCCGATGGCCGAGGTGGTGCTCGACTTCTTCGACAAGCTCAAGTCGGTCAGCCGCGGCTACGCCTCGCTGGACTACAGCTTCGTGCGCTTCGACGCCGGTCCGTTCGTGCGCGTGGACGTGCTGATCAACGGCGACAAGGTCGATGCGCTGTCGCTGATCGCGCACCGCAGCCATGCCGACCGGCGCGGCCGCGAGCTGTGCGAGAAGATGAAGGAACTGATCCCGCGGCAGATGTTCGACGTGGCGATCCAGGCCGCGATCGGCTCGCAGATCATCGCCCGCACCACGGTCAAGGCGATGCGCAAGAACGTGTTGGCCAAGTGCTATGGTGGCGACGTTTCGCGCAAGAAGAAGCTGTTGGAAAAGCAGAAGGAAGGCAAGAAGCGCATGAAGCAGGTCGGCCGCGTGGAGATCCCGCAGGAAGCCTTCCTGGCCGTGCTGCAGATGGACAACAAGTAA	MSSDPMRNIRNFSIIAHVDHGKSTLADRIIQLCGGLEAREMEAQVLDSNPIERERGITIKAQSVSLPYRAKDGQTYYLNFIDTPGHVDFSYEVSRSLAACEGALLVVDAAQGVEAQSVANCYTAVEQGLEVVPVLNKIDLPTADTDRAKAEIEAVIGIDASDAVPVSAKTGLNVDLVLEAIVQRIPPPKPRDTDKLQALIIDSWFDNYLGVVSLVRVMQGEIKPGDKLQVMSTGRTHQVDAVGVFTPKRKVLPKLSAGEVGWVTASIKDVHGAPVGDTLTLAGDPAPKPLPGFQEMQPRVFAGLFPVDAEDYPDLREALDKLRLNDAALRFEPESSEAMGFGFRCGFLGMLHMEIVQERLEREYNLDLITTAPTVIYEVLKTDGGIVNMDNPAKLPPVNMVEEIREPIIRANILTPEEYIGNIIKLCEEKRGSQLGINYLGSQVQISYELPMAEVVLDFFDKLKSVSRGYASLDYSFVRFDAGPFVRVDVLINGDKVDALSLIAHRSHADRRGRELCEKMKELIPRQMFDVAIQAAIGSQIIARTTVKAMRKNVLAKCYGGDVSRKKKLLEKQKEGKKRMKQVGRVEIPQEAFLAVLQMDNK	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
BMS020_08242	1551	degQ_3	COG0265	Periplasmic pH-dependent serine endoprotease DegQ	ATGACCCCCCGTATCCGCAATCAGATGTTCGGCCTCGTGGCCATGACCCTGCCGCTGCTGGCCTGCGCGCAGCAGCCGGACCCCGCGCCGGCGGCGACCTCGGCGCCGATCGCCACCCGCAGCGCGACCCCTGCGCCGCAATTGGTGACCGGGCTGCCGGACTTCACCAACCTGGTCGAGCAGGTCGGGCCTGGCGTGGTCAACGTCGAGGCGATGGTCACCCGCCGCGACATGCTCAAGCGTTCCGGGCGCAACCAGATGCCCGATGACGACCAGATGCCGGAGTTCTTCCGGCGCTTCTTTGGTCCCGGCTTCCAGTTCCCGGGTGATCCCGGCCAGGGCCAGGACGATGACGGCCGGGGCGACGACGTGGCCGGGCGCTCGCTCGGCTCGGGCTTCATCCTGTCGGCGGACGGCTACGTGCTGACCAACCACCACGTGGTCGACGGCGCCAGCGAAGTCACGGTCAAACTGGCCGACCGGCGCGAGTACAAGGCCAAGGTGATCGGCAGCGACGGGCAGTACGACGTGGCGCTGCTGAAGATCGAGGCCAAGAACCTGCCGACCGTGCGCATCGGCGATTCCAACACGCTGAAGGCCGGCCAGTGGGTGGTCGCGATCGGTTCGCCGCTTGGGCTGGACCACTCGGTCACCGCCGGCATCGTCAGTGCGGTCGGGCGCAGCACCGGCAACGAGCAGCGCTACGTGCCGTTCATCCAGACCGACGTGGCGATCAACCAGGGCAACTCCGGCGGACCGCTGCTGAACACCCGGGGCGAGGTGGTCGGCATCAACTCGCAGATCTTCTCCGCCTCGGGCGGCTACATGGGCATCAGTTTCGCGATCCCGATCGACCTGGCGATGAGCGCGGCCGAACAGATCAAGAAGACCGGTCACGTGGTGCGCGGCCAGCTCGGCGTGGCGATCGGCCAGATCGACGCACTCAAGGCCCAGGGCCTGGGCCTGCCGGACAGCCGTGGCGCGCTGGTCAACGAGCTGCCGCCGGGCAGCGCCGCGGCCAAGGCCGGAATCGAGGTCGGCGACGTGATCCGTTCGGTCGATGGCAAGGAGGTCGACACCTACAGCGACCTGCCGCCGATGATCGGCCTGCTGCCGCCGGGGTCCAAGGTGCGGCTGGGCATCATCCGCGACGGCAAGCCGCGTGACATCACCGTGACCCTGACCGCGCTCGACGCCGACAAGGCCACGGCCGCCGGTGGCGACGATACCGGCGAGGACGCTGGCGGCGAGCCGGCCCAGGCCAGCCTGAAGCTGCTTGGCCTGCAGGTCGCCGACCTGTCGAGCGCCGAGCGCGAGCGGCTCGGCCTGGCCAGCGGCGAGGGCGTGCGCATCACCGCCGTCACCGGTGCGCAGGCGCGTCAGTCGGACCTGACCCCGGGGCGGGCGATCGTCCGGGTCGGCCGCACCAAGGTCGGCAGCGTGTCCGAGCTGAACAGGGCGCTGGCGAGCTACAAGAAGGGCGACGTGGTCATGCTGCTGGTCAGCAACGGCCGCGCCAGCAGCTACGTGGCGATCCGCGCCGGCGGCTGA	MTPRIRNQMFGLVAMTLPLLACAQQPDPAPAATSAPIATRSATPAPQLVTGLPDFTNLVEQVGPGVVNVEAMVTRRDMLKRSGRNQMPDDDQMPEFFRRFFGPGFQFPGDPGQGQDDDGRGDDVAGRSLGSGFILSADGYVLTNHHVVDGASEVTVKLADRREYKAKVIGSDGQYDVALLKIEAKNLPTVRIGDSNTLKAGQWVVAIGSPLGLDHSVTAGIVSAVGRSTGNEQRYVPFIQTDVAINQGNSGGPLLNTRGEVVGINSQIFSASGGYMGISFAIPIDLAMSAAEQIKKTGHVVRGQLGVAIGQIDALKAQGLGLPDSRGALVNELPPGSAAAKAGIEVGDVIRSVDGKEVDTYSDLPPMIGLLPPGSKVRLGIIRDGKPRDITVTLTALDADKATAAGGDDTGEDAGGEPAQASLKLLGLQVADLSSAERERLGLASGEGVRITAVTGAQARQSDLTPGRAIVRVGRTKVGSVSELNRALASYKKGDVVMLLVSNGRASSYVAIRAGG	PGPT0015105_690	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
BMS020_08243	462			hypothetical protein	ATGGCGCGCGAGCGCCTGCCCGATCCGTCCGCGGCCCCGGCCCCGACCGAGCTGGCCACCGTTGCGCAGTTGCCGGCAGTGCCGAATCCGCCGCCGTCGCCGGTGCCGGCCGACCCGGATGGCGAACTGGTCGCCGCCGCAGTGCCGGCCGCGGCGTTGGCCTCGCTGCGTCGCCAGGAGGCGGCGGGTCGCCGCGCCGGTGGCGCCACCCGCACCCGCCAGGCCGCGCGTGTCGGCGCCGCGCTGGAACAGCCGCCGCAGGTGGCCAGTGCCGCCGCGGCACCGGTCGCCAGCCCGTTCGCGCATCCGCAGGCGGCACGTCCGTGGCCGCGCTCGGCGCTGGCCGGTACGGCCGAGGCGCCGTTCAACGCCAGTTTCCAGCGCGAGGACACGCCGGCGACGTTCTATCCATTCGATCCGCGCCAGTCGGTGCAAGCTGCGCCGACCGACTCCGGCCCCTGA	MARERLPDPSAAPAPTELATVAQLPAVPNPPPSPVPADPDGELVAAAVPAAALASLRRQEAAGRRAGGATRTRQAARVGAALEQPPQVASAAAAPVASPFAHPQAARPWPRSALAGTAEAPFNASFQREDTPATFYPFDPRQSVQAAPTDSGP				NA	NA	NA	NA	NA
BMS020_08244	693			hypothetical protein	ATGGAGATCCTCGGTCATGACGATGAAAACACCCAGCTGCACTATAAGCAGTTTAAATTGGCAAACTTCTCCAGAACCTGGCGCCCACATGTTGGCGAGGAAAATACCCGGCTGGCAGCGCTACAAAAGCTGGATAGCATGATGCCAGATTTCGCCAGGGGCGACGCAGGGGTTCGTATTCATGAGACCGTGAAGCAGCTGGTGGAGCAGGACCCATCAATAAAAATTACCAACAGCACCCTGCGACCGTTTAATTTCAGTACCAGGCTGATACCTCGCTATCTGGAATTTGCTGCGGATGCCTTGGGTCAGTTCGTCGGAGAAAATGGCCAATGGCAGCTGAAGGATGAGGCTCCAGCGATAATCCTGCCTGATGAGGAAGTTCTTGAACCAATGGGTGACGCCGATCTCGATGACGAAACCCAAAACGATGAAACGCTGGACGACGATGAGATCGAGGTAGATGAAAGTGAAGCCGTAGAGCCGGAGGAACCGGATGAACCGGAAGACGACGAAGAGGCTGAGAAGGCAGAGAAGCATCCTGCGAAGCCAAACTTTAAAGCGCCGAGGGATAATGGTGATGGCACCTTCAAGGTGGAGTTTGAGTTCGATGGCCGCCATTATGCATGGTCCGGTGCCGCCGGCAATCGGATAGAGGCAATGCAATTCGCCTGGCATGCCTACTTCGAATAA	MEILGHDDENTQLHYKQFKLANFSRTWRPHVGEENTRLAALQKLDSMMPDFARGDAGVRIHETVKQLVEQDPSIKITNSTLRPFNFSTRLIPRYLEFAADALGQFVGENGQWQLKDEAPAIILPDEEVLEPMGDADLDDETQNDETLDDDEIEVDESEAVEPEEPDEPEDDEEAEKAEKHPAKPNFKAPRDNGDGTFKVEFEFDGRHYAWSGAAGNRIEAMQFAWHAYFE				NA	NA	NA	NA	NA
BMS020_08245	228			hypothetical protein	GTGAGTCAGGTACAGCTAAACATCCAAGGCCTGCTTGAGTCGATTGAGGAGCGCCTGGCGCAGATAGAAGCGTTGGTTTCCTCAGCCCACCGGACGATATCTAGCTATGAGGCCTCGCTGTATATGCAGGAGGCGGCGGAGTTGCTCCAGTTAGCCCGTGAGCTGGTACAAGAAGCCCGTAACTGTTCCTCCTCTCTGTCAGCGCAGCTGGCCGCCAGGGAGAGCTGA	MSQVQLNIQGLLESIEERLAQIEALVSSAHRTISSYEASLYMQEAAELLQLARELVQEARNCSSSLSAQLAARES				NA	NA	NA	NA	NA
BMS020_08246	165			hypothetical protein	ATGTTCAAATTCAAGTTCGCGGCGATCTGCCGTACCGATAAAAAATCCCATATTCATCATCTGTCCACCATCGCCTCATCCGAGCGTGAAGCCCGCCGCCAGTTCGCCAGCCGTTTTATTCTCGTTCTGTCAGCCCGTATCCGGGTTAGCGAGGTGATCGCGTGA	MFKFKFAAICRTDKKSHIHHLSTIASSEREARRQFASRFILVLSARIRVSEVIA				NA	NA	NA	NA	NA
BMS020_08249	1134			hypothetical protein	ATGCCTGAAGAAACATTGACTGTCGTAGGTGGTGGTAATAACAGCTGTAATGTTAGCTGGGGTGGTGGCAATGGTAACAACGGTGGTGCTGGCTATTCTGGTAAATACGGTGGTACTAGCTATGAAGGTGCAACTAGTATGTTGAAGTTGAATGACCGTGTTTTAATTCAGCTTTATCTTTGCAATCCGCTTAACCCAGATTATATTGGAGCACCTTGGGGCAGTGATAAAGATGCTGAATCAATTATCAGAGCTAACAGAGATAAACCAGGAAAATTCAAGGCTAATATTCAGAACTGGAAAACAAGCGGTACAGGTTCTTTAGGTAGCCCTGTGGTTGGGAAATCTTATAGCTCAGGTGATGTAGATACTTATTCGGTTAGCTTCGGAAAAGAAAAATACAACGTCCTGTATAACCGTAAAAAAGACTCTTTTACTACAGCTTATGTCGATGGCGGCGCAAATAAACCTGAGCATAGCATGAAGGATCAGGCTATTGCCGTTGTTAAACTTTACCTTCTCAACGAAAGTCAGGCATCTGTAATCGATACTACATCGGGAATTATTACTGACTCTGGTAAAACTCTTAGCGGGAAATTAGGTGATAAATACAACACTCTGGCGAGAGAAGCTGCTGACAATATAAAAAACTTCCAGGGTAAGAAACTCCGCAGTTTTAATGATGCTATGGCATCTATTAATGAACTAGCTAACAATCCAAAGATGAAGTTAAGTCAGGCGGATAAAACAGTCGTTTCTAATGCCCTCAAACAAATGGATTTGTCAGCACTAGCTGACCGATTCAAAGGGTTAGAGAAAGCCTTTACTTGGGGTGATCGACTTCTTAAAGCCGAGAAAATCAGAGACGGTGTTGTTACTGGTGTTACCACAGGGGACTGGCAAAAGCTGGCGTTTGAGGTTGAAGCTATGTACCTCAGTGGTGTTGCTGGCGCCGTAGCGTTAGGGATTACTACTGCCATGATTAGCACAGTCGCAGTCGCTTTGTCACTTCCAGCTGTAGCTGTCTCTGCGCTTACTGTTGTGTCCGTCATTGGCATCTCTATTCTCACATCTTATATCGATGCTGATAAGGCCAAAGCACTGAATAATGCAGTGCTTGGCTTATTTAAATAA	MPEETLTVVGGGNNSCNVSWGGGNGNNGGAGYSGKYGGTSYEGATSMLKLNDRVLIQLYLCNPLNPDYIGAPWGSDKDAESIIRANRDKPGKFKANIQNWKTSGTGSLGSPVVGKSYSSGDVDTYSVSFGKEKYNVLYNRKKDSFTTAYVDGGANKPEHSMKDQAIAVVKLYLLNESQASVIDTTSGIITDSGKTLSGKLGDKYNTLAREAADNIKNFQGKKLRSFNDAMASINELANNPKMKLSQADKTVVSNALKQMDLSALADRFKGLEKAFTWGDRLLKAEKIRDGVVTGVTTGDWQKLAFEVEAMYLSGVAGAVALGITTAMISTVAVALSLPAVAVSALTVVSVIGISILTSYIDADKAKALNNAVLGLFK				NA	NA	NA	NA	NA
BMS020_08250	351			hypothetical protein	ATGATTTACCGCAAGGGATGGGTGCCGGTTTTGTTTCGGCATGAGCTTGAGCGTAAGTTAAAAGAGCAGGGTTTCGAAAACTGGAAAGAGATATGTAATTTTCTTTGCGGTGAAGGGGATGACTACGCCGAATCAGCCAAAATGCCAGAGCAATATGATTACCAGGTGGTCGACAATACCAAATGGATGGCAAGCCGTGACGCGACGTTCTGGCAGCGTCTTAACCGCCTATGGTTCGTGCCGCTGTATTCGTTGACCATCCCGTTCCAGTGGCTTATCCGTGGCCGTGTCGGGTTTGCAACTACGTCAAAAACAGCTGCATTATTCAGCCGGATAACCGGGTTGAAGTAG	MIYRKGWVPVLFRHELERKLKEQGFENWKEICNFLCGEGDDYAESAKMPEQYDYQVVDNTKWMASRDATFWQRLNRLWFVPLYSLTIPFQWLIRGRVGFATTSKTAALFSRITGLK				NA	NA	NA	NA	NA
BMS020_08251	297			hypothetical protein	ATGGCTAAAGATATCGATGCACTTCTGGAACAGCAGGCGGATCAGATGACCTCCGTTTTAAAAAGCCATGCGGCGCATATTGAAAGCATGCTGGCGCAGCATCGCTTTCAGGTCGCGCAGCTGGCATTGCACAACAGCCCGGAACCGTTCGTTCATGAGGTATTCAACCATCTGCGTGATCGCCTGGTACAAGTCACCATCAATGAAGCTGGCCTTGCTGATGCTGAGGATGCGCGTTACCTGCTGCGAATACTTGATCGCATGGAATTGTCAGCATTAGAGGGGAAACCATTATGA	MAKDIDALLEQQADQMTSVLKSHAAHIESMLAQHRFQVAQLALHNSPEPFVHEVFNHLRDRLVQVTINEAGLADAEDARYLLRILDRMELSALEGKPL				NA	NA	NA	NA	NA
BMS020_08252	4005			hypothetical protein	ATGACCTTACAAGAATTCTATGCGGCTCGCTTCGGTAGCGATCCGTATTCATTGCTTGAAGCAGCGCGGGATGAGCTGTCAGAGCTGGCCACAATGGCTGGCATTAACTGGGCAGCATGTGCTGATAACATTCAGTTGAACCCGCGCGGCGGGGAAGAACGTTATTCAAAATATAACGGTGGCGCCCCCGAGGCTCTGGAAAAGAGCCTCAAAGGGCGTGTGGAAATCTACTCCCGCAAGGAACAACACAAAAGCGGCATCAGCTACCCATTCGTCAACTTTGTCCAGAAAGGGCATGACGAAGGTTCCTGGAGCGGCTTCTCCTTCCTGTTCGCCGAATACCGCCGTGAACAACAAAGAAATCATGCGACCGTGGTCGCACAACCTGCTGAAGAACTGGCGCGTATTGAACGCCAGGCAGAAGCCCGCAAGCGCCGCGCCGAACAGCAACGGATAAATGAACTTAAAAACAATCAGTTAGAGCAGGAACGATTGCTCGGATGGTTGGCGTTCCACAGTGCATGGGAACATGCGCCAGCTGAGGACGGGTCGTGGCCTTACGCAGTGAAAAAAGGCATTCGTGACGTATTCAGCGCTTGCGATATTCGTCGCGTGACCAGTCACGACAACGCAAAATGGAGCCGTGGACCGACTACATACATGGCGATTCCGCTGGCCCACCTGGACGGACGCAAAGACGGACAAATTGTCGGCTGGCAGCGTATCGACCAGCGCGGCGGTAAATTCCAGACCAGCGCGATCACCAGTGGTGATTTCGTCGGGGCGTGCTTTGTTATCGGCAACCTGAACGGCGCGCAAAATATTGCAGTGGTGGAAGGTTTCGCCACCGGCGCGTCCGTATGGCTGGCTACCCGTAAGGACCCGAAAAAAAGCTTTGATGCTGTCGTGGTCGCTGTGGCCGCAAACAACATGATCCATGTTGTTGAGCAGCTGGTGAACATGTACCCGGCAGCAAAAATTACCTGCGCCCTGGATAACGACCGCAAATCATCGGCTGAAGGTAAAGGCAACACCGGCTTACGTACCGGCTTCGATATTCTCGCAAAATTTAGCGGCATCAAATGCGTTTATCCCACCTTTGAAGACGATCCCCAGCTGGAGTGCAGCGACTTCAACGACCTGCACAGATTACGTGGACTCCGCGAAACCTGTCGCCAGCTATTCGCCAAAGGGAACCGCCTGAGTAACAGCACTGATTTGCTGTCTCTGACGCTAAACAAGCTGAAAACGGCTAAACGTGACAACCGCAGGACGTTTGCTAAAGAACTGCTGAACGCGGTGGATATTGGCATGCTGACCTGCCCGGTACCGAATAGCCCGGCGGATCTGTTTAACATGTTCTGCATCGTGCTGCGTGATATGGGACTGGAAAGTGTCTATCGCGCCACGGTTAAAGACCACATCGCACGCCGCCTGAACCGCAAATGCCGTACTGCCCAGGCTCCCCGTTCCTTTAGCGAGCGGATCACCGACCCGAACAAGCGTCCCCAGCACATCACGTATAAACGCTTTGAAACATCCGTGATGACGGATGAAATTCTGCAATACGTGCAGCAGCTGCAGGGCATCGTTATTGTTCGCGCCGGTATGGGATCAGGTAAGTCGACAGGCCTGCTGCGCCCATTGATGCATAACGCTGATCGCGGCGTTTCCGTTGCGCACCGCGTAAGCCTCATCGGTGGCCTGTGGGAAATGATGACAGAGCAGAAAGGGACCAAGGCCGATATTCTGCATTACCAGGACCCCGGCTATCAGGAAATGGCGCCATACGCGAATAAGCTGACCATTTGCATCAACTCCATCGTCAAAGGCTGCTGGCAGCCGCTGATGCGCCAGCATGACTATTTCGGCTTTGATGAGGCAACGCAGGGACTTCGCGCCATTCTTTCTGGCCGCGCAATGGAGAACCCGGTCGCCGTTTTCAATACGCTGATCGACGCGCTGGCCAGAACTGAATTGCACCCCATCATGGTAGACGCCGATGCTAACGATCTGCTGGTCGACCTGGCAGAACTGGCGATGAAGCGCCGCGAAGAAATGGGCCTGCCGGCATGGTTACAGATTCACGTCATCGAGCTGCCGGTCGACGTTCGCAACCGCGAAACGGGCGAACCTATCCGCGTATTCTACACCGAGAAAGATCGCATTATGACCGAGGTGATTAAAGCGGTGGAACTCGGTGAAAAAATCATGCTGGCGACCGATAGCTCAACGTTTGCCGAAGACGTTACCGCCACGCTGCGCCAGCGCTACCCGGAGAAAAAATTCCTCTGCGTAAACCAGAAGAGCAAGCCGGAACCCGAGGTTGAAGAATTCACCAATAAACCGAAGAAGATGGTGAAGAAGTACGACGGCCTGATTTACAGCCCGTCGATATCCTCCGGCGTCTCCATCGAGCAAAAGCATTTCGACCGCCATTTCGGCATGTTCTGCGGCGAAGTGGTCCCCAGCGATGCGATCCAGATGCTGCGCCGCGACCGCACAGCCAAAGAGTTCATCATTGGCTTTGACAAGGTTCGCGCACGACGCGAAACCGATCCGCAAAAAATTGAGCGTGCGTTTGTCCAAGCATTGCTGGCCACTGCCGGCATGAACGGCGAACTAACCGACGTTGTTTTCGACGGCGACCGCATTTCTATGGGGGTGGCCAACACCGATTTTACCCGGATGAAAATCAAGGCAGCAGCGATTGAGGCCTCCGCGCGTAATGACTACGCCAGCAATATGATCTGCATAATGCACAGCGACGGCTACAAGGTTGCCCCCCTGGCATCCGACGAGCTGGCGAACTGCGTCGGCAAGGAGCTGCGCAAGGAAGCCCGCGAAATTGTCTGGGAACAAACGCTGGATCTCCACCTGAATATCGAAACGCCGAACGAATCTGAACGGGAAGCCATTCTGAAGAAACGCGCCCTGACCCTGGAAGAGCAGGCGAAGCTGGTCCGCTGGGACATCGAGCATGAGCTGAAACTGCCGGTCAACGAGGACAACCTGAAATTCTACTTCGATGGCGCCCGCGATAAGGTTCGCCGTTATGAAACCATGCTGCTCGATGAGATCACCGCGCGGCGTTTCGACCGCGAGGAATCCGCGATCAACTTCACCTACGCTTTCAGGCAGGCGGGCCAATGGCAATACTTTACCGCCACCGCGATGACCCGCGAGCAGGCTGATGAAGCATTCCAGGCGAAACACCCTGGCATCACCGAGTACAAAGTCAAATCGACACCCGCGGTCGAGGTCGGTATGCGCGGCTTCTACGGCCTCAAATCTACGGTGCTACGCCAGTACTTCATTGACTGCGGCATCGACCCGGAAACCATGACCGGAGAAGCCACCCAGGCGCGCCTGGCATACGCCAGGGATAAACTCATGACCGCCGAACGGCGAGACCTGTTAAACAACGTCCTGCGCATTGGTGGCTTTATGACGCCCAAAGGCAAGCCGAAGGTCCCCGAGGCGCTGTTTAAAACCATCTGCGAGTCGCTCGGCCTGAAAACCGACAAGCGCCGCGCCAGGGACGGAGACAAGCGCCCGACCATACGGTTTGTGGATCAGCAGTCGGCGGCGTTCATGATGGAAATTCTGGAGAACCGTAAAGACGACGGCCTGTCTCTGCAGTTGCGTAAAGCCGAGAAAGCCACCACCGAAGTGGATCACGGTTTAGATCTCAATATATATATGGATCATAAAACGCGATCCACAAACGGGCAGGATTTGGACGCCCCTCATTCAGTAATAACTGAGGCGCTGGCCGAACTGCCGGTGCCGGTGCCGGAGGCCTGGGCGATGACCGCGCTGTCTGATGATGAGCTGGCCACAATGACCTCCTGGTCGCCAGCCAGCATAGCGATGACCTTCGCGTCCCTGTACCTCACAGAGTTCATGGACCGCCTCTCCAGCAACGAACTGCGCCGGCTGCGTGAATACATCACCGGCACGGTTACGGGCGGCTACGACGCGCAGGAGGCGTTCTATGGCTAA	MTLQEFYAARFGSDPYSLLEAARDELSELATMAGINWAACADNIQLNPRGGEERYSKYNGGAPEALEKSLKGRVEIYSRKEQHKSGISYPFVNFVQKGHDEGSWSGFSFLFAEYRREQQRNHATVVAQPAEELARIERQAEARKRRAEQQRINELKNNQLEQERLLGWLAFHSAWEHAPAEDGSWPYAVKKGIRDVFSACDIRRVTSHDNAKWSRGPTTYMAIPLAHLDGRKDGQIVGWQRIDQRGGKFQTSAITSGDFVGACFVIGNLNGAQNIAVVEGFATGASVWLATRKDPKKSFDAVVVAVAANNMIHVVEQLVNMYPAAKITCALDNDRKSSAEGKGNTGLRTGFDILAKFSGIKCVYPTFEDDPQLECSDFNDLHRLRGLRETCRQLFAKGNRLSNSTDLLSLTLNKLKTAKRDNRRTFAKELLNAVDIGMLTCPVPNSPADLFNMFCIVLRDMGLESVYRATVKDHIARRLNRKCRTAQAPRSFSERITDPNKRPQHITYKRFETSVMTDEILQYVQQLQGIVIVRAGMGSGKSTGLLRPLMHNADRGVSVAHRVSLIGGLWEMMTEQKGTKADILHYQDPGYQEMAPYANKLTICINSIVKGCWQPLMRQHDYFGFDEATQGLRAILSGRAMENPVAVFNTLIDALARTELHPIMVDADANDLLVDLAELAMKRREEMGLPAWLQIHVIELPVDVRNRETGEPIRVFYTEKDRIMTEVIKAVELGEKIMLATDSSTFAEDVTATLRQRYPEKKFLCVNQKSKPEPEVEEFTNKPKKMVKKYDGLIYSPSISSGVSIEQKHFDRHFGMFCGEVVPSDAIQMLRRDRTAKEFIIGFDKVRARRETDPQKIERAFVQALLATAGMNGELTDVVFDGDRISMGVANTDFTRMKIKAAAIEASARNDYASNMICIMHSDGYKVAPLASDELANCVGKELRKEAREIVWEQTLDLHLNIETPNESEREAILKKRALTLEEQAKLVRWDIEHELKLPVNEDNLKFYFDGARDKVRRYETMLLDEITARRFDREESAINFTYAFRQAGQWQYFTATAMTREQADEAFQAKHPGITEYKVKSTPAVEVGMRGFYGLKSTVLRQYFIDCGIDPETMTGEATQARLAYARDKLMTAERRDLLNNVLRIGGFMTPKGKPKVPEALFKTICESLGLKTDKRRARDGDKRPTIRFVDQQSAAFMMEILENRKDDGLSLQLRKAEKATTEVDHGLDLNIYMDHKTRSTNGQDLDAPHSVITEALAELPVPVPEAWAMTALSDDELATMTSWSPASIAMTFASLYLTEFMDRLSSNELRRLREYITGTVTGGYDAQEAFYG				NA	NA	NA	NA	NA
BMS020_08253	609			hypothetical protein	ATGATTGATCGTATGAAAACACGAGGCGAACGACTGAAAGCACGCCGTTTAGAATTGAAGATGACACTGAAGCAAGTCGCGCAAAGTGTCGGTATCTCTCTTCCTGGCGTCCAAAACTTAGAACGTGGCGACGTTATGCCGTCGCTGGAGATCGGGCTTGCCCTGGCGAAATGCCTGCGCAAACCTGTGCAATGGATACTTTTTGGTACTGAATCTGATCCTGACCGCGTTCCTGTTATTGGCACAACAGAGAGTGGTCCGGATAGCGACTGGCAGCCAGGAGAACCTGCCAACACAGAACGATTCCTGCCATTTGTTAGCCAACGGGAAACCGTTTATGCGCTCACTGTCGGGAACCAGGTTCAGCACAGCTATCAGCCGGGTGACGTCGTCCTGGTTGACTCAGCTCTCACGCCAGTTCCGGGTGAGGATGTGTTAGTTTGTGATAAAGACGGGAAAATCTCGATACAGCGGTTAGCGCGCTTCGACGATGAGCGCTACTACTTAGATGGCGTTAACTCTCAACGAGTTATCCATGAGAAAAGTGATCTTCAATTTGTGCACCAAATAGTCGGTACGATCAAATCGTTCATGATAGAGGGTAGATGA	MIDRMKTRGERLKARRLELKMTLKQVAQSVGISLPGVQNLERGDVMPSLEIGLALAKCLRKPVQWILFGTESDPDRVPVIGTTESGPDSDWQPGEPANTERFLPFVSQRETVYALTVGNQVQHSYQPGDVVLVDSALTPVPGEDVLVCDKDGKISIQRLARFDDERYYLDGVNSQRVIHEKSDLQFVHQIVGTIKSFMIEGR				NA	NA	NA	NA	NA
BMS020_08254	738			hypothetical protein	ATGGAACTTGAACGAATCCGCGCTTGTGTGGCCACGGCCCTTTCAGATCTGCATTACCTCCAGCGCGGAATTTTAGAAGTTCAGCTTGAGCAGTTACGTCTTGCCAACTCCGGCAGGTTTACTGATAAGCCAACCCGGGTCATTCAAATGGGCGAGAATAATAAATACGAGATCTCGGTCGCGGCTGAGCAGGTTCGTTACCATGTTGGGAAAACGTTTAAGCAATCCTCAATGCTGCTGACTGAACTTGATTTTCAGACGGCTAGTTGGCGCAGAGCTATTGAGCAGTTAAATCGTGAGGAAATTGCCTGGCTGCATTATTGCTATGGCTGTAAGCCCAATTTTGAAAATGATGAAGTTATATGCCAGTGGCTATGGCTGGATTTTCTTGTCGCTCATTCAAAGCCTGATTTCAAAAAAATGAAAGAGGCGACAAAGAAAAAGATGCGCAATTTAACTTATTACGCCATCCAGCAGGTTAAGGCTTCAATATTACGCGGAGAGGATGTGGACCCGCTGCGTGAGGATGAGCATATAAGTCTTTTGCTTAATATCACCGTCGATAGCTGGCGTAAGGATTATAAAAAACGCTGGCTATTAATGATATCACGATGCCTGCATCTGAATAGCATCGCGTTATTTAACGCAGCGGAGAAGCGCAGTGAAATCATCAACCGCCATTGTACAGGAAGTGCCAACGTGCCTGTGCCAGCAGATTATGCACAGGAAGCCCGGTAA	MELERIRACVATALSDLHYLQRGILEVQLEQLRLANSGRFTDKPTRVIQMGENNKYEISVAAEQVRYHVGKTFKQSSMLLTELDFQTASWRRAIEQLNREEIAWLHYCYGCKPNFENDEVICQWLWLDFLVAHSKPDFKKMKEATKKKMRNLTYYAIQQVKASILRGEDVDPLREDEHISLLLNITVDSWRKDYKKRWLLMISRCLHLNSIALFNAAEKRSEIINRHCTGSANVPVPADYAQEAR				NA	NA	NA	NA	NA
BMS020_08255	609	dinG_4		3'-5' exonuclease DinG	ATGCTTACCTACCATCAATCAATTTTTAAAATGATTATGGCAAATTGGCTGAACAGCGATCATGTCATCATCGATACTGAGACCACCGGGCTTATGGCTTCTGATGAAATTATCGAGATCACGATAATTAATATGCGTGGTGAGATTCTGTTAAACACCCTGGTGAAGCCGAGCCGCCCTATTCCGCCAGAAGTTACCAAAATTAATAACATCACCAACGAAATGGTCGCTGATGCGCCAGCATGGCGCGAGGTTTTCCCGGCTGCGCTGAAAATTATTCGTAAGCATAAATGGCTGGCATGGAACTCCAGTTTTGATGCCCGCCTGATGGTGCAGACCTGCCTGCAGACCGGATTTTTTGATGACCTAAAGCCTCACCTCATCACCTCCATCATCATGGCCATTGAGACGCGCCACATTGACGCCAAAGCGGTTTATGACCAGTGGTATGGGGAGTTCGACGAGAAGCGCAAAAACTTCAAAAGGCAGAGCCTGGCTACAGCAGCTGCGCGCCACGGCATTTCAACCGCTGGCGCCCATCGCGCGCTTGCCGATTGCCTGATGATCCTCGGCGTGCTGAAACAGGTTTGCCAGCCGGAGGTCGCATGA	MLTYHQSIFKMIMANWLNSDHVIIDTETTGLMASDEIIEITIINMRGEILLNTLVKPSRPIPPEVTKINNITNEMVADAPAWREVFPAALKIIRKHKWLAWNSSFDARLMVQTCLQTGFFDDLKPHLITSIIMAIETRHIDAKAVYDQWYGEFDEKRKNFKRQSLATAAARHGISTAGAHRALADCLMILGVLKQVCQPEVA				NA	NA	NA	NA	NA
BMS020_08256	135			hypothetical protein	ATGAACTCTGAACTATTCAACTACAGCCTGAAAACGCTACAGGTGCTGAACGTTGTCGCAGATTTGGTTTTATCAGTGGCGCTGTTTGGCTTTGGGTACGGCCTTCTTAACTTGCTTGAGTGGTGGCTTGCATGA	MNSELFNYSLKTLQVLNVVADLVLSVALFGFGYGLLNLLEWWLA				NA	NA	NA	NA	NA
BMS020_08257	477			hypothetical protein	ATGACAGATATCACCCGACTGATTAACAGCATTAAGCGCCGCACGTCCTCAGCAAGAGAGCTTGGCTACGATGTCCTGTTCGTGGCACTTGATGATTTGGATGTCCTGGCTGATTCGCTGGAGACGGCGCTGCGCGCAAACGCCGCCCAGGCCGCTCACATCGAGCAGCTGCAGGACACGTTTAACAAACTTGCAGCGGAGAATGTGGCGCTGAAAAGAGTTCCGGAAACAGACAGCGTGGCGATGCTGATGGCTCTGGATTCGTTCCGCAGCGAGTCATTGCCGGATGTCGGTTTGCAAAAGGCGTTTGAAAGCTTGATGTACCACCGAAAGACCCCTACCACCGTTCGTATCGTAGCCGGGATTAAGGCTGATGGAGTGGAAGAATGGGTTTCCAGCAGAGGTGGCCGCTGGAATGGCACGACAGAAGAGGCGCTTAAGTTCGCCAAGCAGCTGCGCGAAGGAGGGAAAGTATGA	MTDITRLINSIKRRTSSARELGYDVLFVALDDLDVLADSLETALRANAAQAAHIEQLQDTFNKLAAENVALKRVPETDSVAMLMALDSFRSESLPDVGLQKAFESLMYHRKTPTTVRIVAGIKADGVEEWVSSRGGRWNGTTEEALKFAKQLREGGKV				NA	NA	NA	NA	NA
BMS020_08258	246			hypothetical protein	ATGAGACTGCAAATGCGCACTCCCGATGGTTCTGTGATTGTCGAGAGCAACCTGGTATCTCAGTTTTACCCCGATTACGAAAGCGGTGGTGAGCTAACAACAATCGAAACTGTTTCTTCTGACGGTGAAGCCTCCTTTGTGAAAGTTAAGCACTCGTTTCATCAAGTAACCCATGCTCTGGCTACTGCATGGAGCGTAGATGAAAAAGAAGCGATGCACACTCAACGGGAGGAATGCCGTGGCTAA	MRLQMRTPDGSVIVESNLVSQFYPDYESGGELTTIETVSSDGEASFVKVKHSFHQVTHALATAWSVDEKEAMHTQREECRG				NA	NA	NA	NA	NA
BMS020_08259	225			hypothetical protein	ATGCTGGGCGAAATTTGCATCCAGCGTCGCCCAGGCAGAACGCCGTATTCAGAAAATGAAGTAATCGGCCTGTTGATCCGAAAGAATTACAAAGAGCTTCAGAAGAGCCTGGCGAACACATGCCAGCGATGTGGCCAGGCGCTGCCGGTGTCTGAATGCATCTTCGACGGCGAAAATTCATGCTTACTGACGACTGCCAGACTAAAGCTGGCCATTAAGGCGTGA	MLGEICIQRRPGRTPYSENEVIGLLIRKNYKELQKSLANTCQRCGQALPVSECIFDGENSCLLTTARLKLAIKA				NA	NA	NA	NA	NA
BMS020_08260	228			hypothetical protein	ATGGATAAATCGGCATTGCTTTTGGAGAAACTCCGTCAACGAACGCAAAGTAGCCTGGCCAGCGGTGGCGACGGCTTTGTCTTTGCATCGATGCTGGTCTTTGACGTGGGCTTGAATGCCCGGACTATTCGGCAAATGTTGGACGTTGCAGTAAGGAACGGGACCCTTGAAAAAAGGGAAAGAGGCATAGGCCGCGCGCATAAGTATCGGACAAATCTGCAAATTTGA	MDKSALLLEKLRQRTQSSLASGGDGFVFASMLVFDVGLNARTIRQMLDVAVRNGTLEKRERGIGRAHKYRTNLQI				NA	NA	NA	NA	NA
BMS020_08261	288			hypothetical protein	ATGAAAGTAAAAGGCATCCCATTTAACCAGGTCAAAGAAAGTCTGCTCAACACCCCGGAGGCAATCCGGGGTTACCAGGAAGCAGATAAAGAGCTGGCACTGGTCGAAATGCTGTACGAGATGCGTGAAAAGGCTGGGTTAAGCAAATCTGCCCTGGCGGAACGGATGGGGATCACGCCATCTGCTATTAGTCGCCTCGAGGGGAACCCCCTGGGGGCCAGCATGAAGACACTGAGCAAATACGCGCAAGCGTGCGGCGCTGAAATTAACATCCAGGCCGTATACTGA	MKVKGIPFNQVKESLLNTPEAIRGYQEADKELALVEMLYEMREKAGLSKSALAERMGITPSAISRLEGNPLGASMKTLSKYAQACGAEINIQAVY	PGPT0027485_251	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HipA-HipB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027485-REGULATION_hipB-K15773	NA	NA
BMS020_08262	309			hypothetical protein	ATGTTTAACGTGATAACCCACCCGGCAGCGCTGGAAGAGTTACAGGAACTACCGGACGAGTTACGAGGTCGCATGACCCGACTGATTGAAAGACTGGAAAGTGAAGGAAAACTAAAAATGCCTCATAGCCGCGTAATTGGCGCCGGGCTTTTTGAGTTAAGGGTTGGAGACAAAAACATAGCAAGAACGTTATACGCTTACGCAGTCGGCCACGAAATCTACCTACTGCATGCGTTTGTTAAGAAGACACAAAAAACCCCGGCAGGGGCCATAGAGATAGCGAGAAAGCGCCTGAAGGAGATGAGCTAA	MFNVITHPAALEELQELPDELRGRMTRLIERLESEGKLKMPHSRVIGAGLFELRVGDKNIARTLYAYAVGHEIYLLHAFVKKTQKTPAGAIEIARKRLKEMS	PGPT0027571_12017	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HigB-HigA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027571-toxin_higB1-na	NA	NA
BMS020_08263	240			hypothetical protein	ATGAATTTGGAGGATATTGTGAACTATCAAGGCAACGAAAAAATGAGACAGGACGCGGCTGAGATTTCTAACGAGCTGTATGAACTCTGGCAAAAAGTGAAGCGTTTCCAGCGTGAGTACAGCTTCAACAGCGAGAACATTACAGACAGATTGGCGGGCCGACTGATTGGAACAATGGAACCCAAACTGGCCGACCTTAACAGCTTTATGGCCGATGTCGATTACCAGTTTGAAGATTAA	MNLEDIVNYQGNEKMRQDAAEISNELYELWQKVKRFQREYSFNSENITDRLAGRLIGTMEPKLADLNSFMADVDYQFED				NA	NA	NA	NA	NA
BMS020_08264	231			hypothetical protein	ATGATGAACGTGAAACAGATCCGCGAGAATATGACCGAAGCGGCCTTGAGTGTTGAGAGTGTAATGCGGGGACACCCCCGCATCACCCTGCAGGAATTAAGCACCGCCTGCAGCATTAGCCTGCCAGCGGTAGAGTTTATTATCGAGCAGATGCTTTGTATGAGGGTGGCGCAGCGGGGCGCTTTTGGGCGGTACTCCCTTACCCCGGAATACCAAAATGGTAGCTTTTAA	MMNVKQIRENMTEAALSVESVMRGHPRITLQELSTACSISLPAVEFIIEQMLCMRVAQRGAFGRYSLTPEYQNGSF				NA	NA	NA	NA	NA
BMS020_08265	1062			hypothetical protein	ATGAAAAACACTGTGAAAATAAACAGTGCCGAACTTGTGCATGCAGATTCACTTGAGTACATCAAAACCCTGCCGGACAACAGCTTAGACGCCATCATCACCGACCCACCGTATTACCGCGTAAAGGCAAATGCCTGGGATAACCAATGGCCCAGCGTAACGGATTATTTGGCTTGGCTGGATGAGTTTTTCGCCGAGTTCTGGCGAGTGCTTAAGCCAGCAGGGTCGTTATATGTGTTCTGCGGGCCGAAATTATCATCGGACACCGAGTTGTTGTTACGTGACCGTTTCAACGTGCTGAACCATATCGTTTGGGCCAAACCCAGCGGGCGCTGGAATGGCGCGCGTAAAGAAGGTTTCCGATCTTATTTTCCGGCCAGTGAGCATATTTTCTTCGCAGAGCATTACGGCGCGGAAGGCTTTGCTAAAGGCCAGGCTGGGTATGCGACAAAGTGCCAGGAGTTGAAAGGCCAGGTCTTCGAACCGCTTATCGCTTATTTCCGGGATGCTCGCCAGCGACTTGGTATTTCCGCTGCCGAAATCAACGCGGCAACCGGCACGAAAATGTGTAGCCACTGGTTTAGCGCCAGCCAGTGGCAATTGCCCAATGAACGGCAGTACCTGGCGCTGCAGGCGCTGTTTAACCGTAAGGCCGCAGAGCAGGGAATATCGGGATTGTCAGAGCCGCATGCGGCGCTACAGGAGGAATACGGCACTTTAACGGCGCTATATTCCGAACTGGTTATGCAGTATTCCGAACTGCGACAGCAGTACGAGAATTTGCGGCGCCCTTTCCATGTGACAAAAGATGTTCCACACACCAACGTGTGGACGTATCCACCGGTTCCGTACTATCCGGGCAAACACCCATGCGAAAAACCGCTGCAGATGATGCTCGACATCATTTCGGCTTGTACGCGCCCTGGCGATGTGATCGCCGACTTTTTTATGGGGTCGGGTGCAACGATAAAAGCCGCGCTGCAGTTAGGACGCGGAGCCATCGGCGTAGAGCTGGAAGAGGAGCGATTTTTACAGACGGTCGCCGAGATAGAAAAACAATAA	MKNTVKINSAELVHADSLEYIKTLPDNSLDAIITDPPYYRVKANAWDNQWPSVTDYLAWLDEFFAEFWRVLKPAGSLYVFCGPKLSSDTELLLRDRFNVLNHIVWAKPSGRWNGARKEGFRSYFPASEHIFFAEHYGAEGFAKGQAGYATKCQELKGQVFEPLIAYFRDARQRLGISAAEINAATGTKMCSHWFSASQWQLPNERQYLALQALFNRKAAEQGISGLSEPHAALQEEYGTLTALYSELVMQYSELRQQYENLRRPFHVTKDVPHTNVWTYPPVPYYPGKHPCEKPLQMMLDIISACTRPGDVIADFFMGSGATIKAALQLGRGAIGVELEEERFLQTVAEIEKQ	PGPT0027210_36	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0027210-yhdJ-K07319	NA	NA
BMS020_08266	492			hypothetical protein	ATGAATTATGGACTGGTGAGCAAGCAAGACGCGCGCCTGTATGCCGAAGCCGTTTGCGATGTGATCGGGCATGGCAAGGCGAATGCAGCTGTTTTGCTGTGTGTCGAAACGGCCGCCGCCGAGACATTGCTCGGCGATTACAAAGATCCCACGCCGAGCAGCGCCGGAACCGGATTAACCCAGGTTGATCTCGGTACCTTCGAATGGCTCCGCGATAAGTACAAAAACAGCCGTTATGCCCCGGTACTGCTGAATCAGTTTGGTATCGACCTGAGCCGAACAGTTTATGCGGAACTGAGGACCTCGCCGCTGATGGCGATGCTGTTTTGCCGCCTGCGCTATCTGGCGGTTTCAGAGTCGATTCCGGCGACTCGCGAGGCCCGCGCAGCGTACTGGAAAAAATATTACAACACCTCGGCAGGCAAAGGCACGCCGCAGGATTACATCGATAAATGCCAGCGCGCTGGCGTTGATGCGCTATTCACGCAGTGA	MNYGLVSKQDARLYAEAVCDVIGHGKANAAVLLCVETAAAETLLGDYKDPTPSSAGTGLTQVDLGTFEWLRDKYKNSRYAPVLLNQFGIDLSRTVYAELRTSPLMAMLFCRLRYLAVSESIPATREARAAYWKKYYNTSAGKGTPQDYIDKCQRAGVDALFTQ				NA	NA	NA	NA	NA
BMS020_08267	477			hypothetical protein	ATGAACAGTTTAAAACGTATGGCTAAAGCCTGGTTGCTGATGAATGGTGCCTTCGTCCTTCTTGTGATGGCGACGCAACCAGCGATGGCAAATGAGAGCCAGAATCTTGGTTTGGATCTGGATTCAATTCTGAGCGCTCTTCCTGCAGGCTGGGCCAGCGGCGTAACTGCCGTATTTATCGTGCTGTATGCGGTGGCGCAGCTGCGCGCCGTACTCCCCCCGTCAGTGACCAAAAGGATTCCCACGGTGGTCATGAAAATTCTCGACCTCGTTGCCGCGAACTATGCCCACGCCCGGAACGCTGATGCGATCAGCAAAGTTGCGCGGGATGCCGGGAAAGCCAAAGGCCCATCAGATGTTGATTATCGTGTGATGGTGGAAACGGCCAAAAACAATGGAGAGCTTCGTGGAAGCCGGATTGAGAGTGCTGGCGATTATCCTGGAGATGATCGCCCAGGCAGTAAAAGCCCGCAATGA	MNSLKRMAKAWLLMNGAFVLLVMATQPAMANESQNLGLDLDSILSALPAGWASGVTAVFIVLYAVAQLRAVLPPSVTKRIPTVVMKILDLVAANYAHARNADAISKVARDAGKAKGPSDVDYRVMVETAKNNGELRGSRIESAGDYPGDDRPGSKSPQ				NA	NA	NA	NA	NA
BMS020_08268	219			hypothetical protein	ATGCGCGTAATAACCCAGCTGATTATCTGCGTCGCTTTGGCCGGGTGCGTGAAATCAACGCCAATGACACCAACACTGAATCCGGCTCCGTGCGCAGCGGAAAAGCCGGTGATTGATGTGGTTCACGTCGATGGGCATTTCGTTATCGCTGATGACGATATGGGTAAACTGACCGGCTACATTGCCGCACTGGAAGCGGGCTGCACCGCACCAAAATAG	MRVITQLIICVALAGCVKSTPMTPTLNPAPCAAEKPVIDVVHVDGHFVIADDDMGKLTGYIAALEAGCTAPK				NA	NA	NA	NA	NA
BMS020_08269	300			hypothetical protein	ATGAAAATTTATATTGCTGGCCCGATGACCGGGCGCGAGAACTTTAACCGTGAGGCATTTAACAAAGAAGCCGAACGACTGACCCGACACGGGCACACCGTTTTAAACCCGGCAAGCCTGCCTGATGGGCTGGAGCAACGCGAATACATGGATATTTGTTTTGCCATGCTCCGTTGCGCTGATGCGATCCTGATGCTCCCCAGCTGGCAGACCTCCTCCGGCGCTACGGCGGAATATCACTATGCCTACAAAATGGCGCTTCCGGTTTATACCACGGTTCACTATCCGCCGGTCGCATAG	MKIYIAGPMTGRENFNREAFNKEAERLTRHGHTVLNPASLPDGLEQREYMDICFAMLRCADAILMLPSWQTSSGATAEYHYAYKMALPVYTTVHYPPVA				NA	NA	NA	NA	NA
BMS020_08270	1062			hypothetical protein	ATGCCTGATCGCTCAAGTAATCCGCCCAATGCATATCAACAACTCAATAATCCTGGCGCAGCAATCACTCAGCTGACCAGAGACATTGCTGAGAACAATGCAAACACGACCCAGAAGAGTATTTCCAGCATTGGTACCCTGGCCTCAGGACCCGTATTAGAGCTTTCTGATAGTGCTCAGGATGTGCTGTATGCTCTTTTTTTCCGAGGCGCACTCGTATCTGGTGATATTCCTTCAAAAGCTGGCGCCTCCGCACTGCGTTCTCTGGGATTTGCCGAGACCGGCCATACAGCCACGCCATACAAAGGGGAAGACTATTTCACCTGGCTGACTCCTGCGGGGTATGCGTTCGCCATTGGGTATCTGGTTAACACTCGCTTCGGCAAACATCCTGCAAATGCAATAGCTTCCGGGCAGCCATCGGTTCATCCAGAAGGATTAAGCATTCACAAAGCCATGATTAAAGGGGCGATCAGAAGCGCAGCCCATGTTTGCGGCAATACCATCGAGCAGGAAACGCTGTCGAAGGTTCTGGCCAATTCACTGCATAACGTTTCCCATGAGAAAGCTGGCGATGTTGCTGAACAACTGGCCAGGGCCGTTAAGTCTGCGTTTAGTGCGCTGGGGAATGCATCCAGTGAACAGGACAAGGTACGACCTAAAGAATCGGACTTATCCGTCGGTACTTTCAAAATTTATCGCGATGGAAAGGTGAAGATAGCTTCAGGCTCTCCCTTAACGGCTGAAATAGAAACCGAGCGTGAAGATCGCAAAATAGCAGGGACCATTAATTTAAAACTGGAGCTGGATACCTCTGATGCCATCGAAGGCATTAATGGGCTGAGCAAAGAAATTTCAGATCTTGTTGATACTGCTATTGCCGATGCGCTCAAGCCGGGAGGACGGTTGTGGGAGGCCATTCGCCACTCCAGCGGAGAGTCCCTCAGCACGCGTGTAGATAATCTTGAATCTAGTTACCACGCCGCATGCGCTCTGATTAGTGATTTGTCTCGCCGTATTTCAGAACGTATCACTGGTGACGTCCATGCCAGCCCGGTCTAA	MPDRSSNPPNAYQQLNNPGAAITQLTRDIAENNANTTQKSISSIGTLASGPVLELSDSAQDVLYALFFRGALVSGDIPSKAGASALRSLGFAETGHTATPYKGEDYFTWLTPAGYAFAIGYLVNTRFGKHPANAIASGQPSVHPEGLSIHKAMIKGAIRSAAHVCGNTIEQETLSKVLANSLHNVSHEKAGDVAEQLARAVKSAFSALGNASSEQDKVRPKESDLSVGTFKIYRDGKVKIASGSPLTAEIETEREDRKIAGTINLKLELDTSDAIEGINGLSKEISDLVDTAIADALKPGGRLWEAIRHSSGESLSTRVDNLESSYHAACALISDLSRRISERITGDVHASPV				NA	NA	NA	NA	NA
BMS020_08271	432			hypothetical protein	ATGATGTATCAACGCACGGATCTGACGCTCTCCATGTTCTATGCATCCAGCGCTGATGCAGACGGGAACAAAGTGGCTACGTTGACGATGCAGGTAATTGCGGCAGAGGTTGGCGCCGTCCAGACCAGTCAACTGCTATGCATCACCGATAGCGCGAAGAAAAAAACGTATACCGTGGGCGAGCAATCTATCAGTAATGGTTCCGATCCGTTGCTGGTCGCGATTGAGAATTACTGGCGCCAGAGTACGGATGTCGTGGTTAAAGGACTGATCGCCGAGGTGACCGATTTCATCGCAGGGAATATCAACTCAGTGAGCACCTGGATCGGCCAGTTTGGGATGAAGGTATTCGAGAACCAGCCATTAGCTGAGCGGTTGCCAGAAAGCGTGCTACAGGCTGATGGTAGCTCCACTACAGCGACAGGGTCCTGA	MMYQRTDLTLSMFYASSADADGNKVATLTMQVIAAEVGAVQTSQLLCITDSAKKKTYTVGEQSISNGSDPLLVAIENYWRQSTDVVVKGLIAEVTDFIAGNINSVSTWIGQFGMKVFENQPLAERLPESVLQADGSSTTATGS				NA	NA	NA	NA	NA
BMS020_08272	324			hypothetical protein	ATGGCTATCGATGCCTGGAAACGGACGTGCAAAATTCTTATTAACCGTGGCACGTTCGAAATGGAAGATTGTTATTTGCTGATGGAATACTGCAACACCGTGCAGCTGCTGTACGACGCCAACCAGGAAATTAAAAGCGATGGCCTTGGTGATGATACCGCTGCCGGCGGTCAGAAACTTGGTGCGGCAGTGAAGGCGCGTAGCCGTTATATCAGCGAATTAATTCGACTCTCCGTTGTGTTAAAGCTGGACCCCAATAGCCGCATCCTGAAGAAACAGCCCGGAGATAATGACAAATCCAGCGGTGAGTTCGACGAGTTTTAA	MAIDAWKRTCKILINRGTFEMEDCYLLMEYCNTVQLLYDANQEIKSDGLGDDTAAGGQKLGAAVKARSRYISELIRLSVVLKLDPNSRILKKQPGDNDKSSGEFDEF				NA	NA	NA	NA	NA
BMS020_08273	1710			hypothetical protein	ATGGCCGCATATCCAAACGTCAATGTGGCGAACAAATATGCGCGGGATATCATAGACGGGAAAATAGTCGCCTGCAGAGCTATTCGGCTGGCATGTCAGCGCCATTTTGACGATTTAAAAAAATCACTCGATAACAATTACCCTTACCGGTTCGACAGAGATTTAGCTGAGCGGGCCTGCCGGTTTGTTCAGAAATTACCGCACTCCAGTGGCGATTTGGCGGGGCAGAAATTAAAACTGGAACCTTGGCAAAGTTTTATTTTTTGTTCGATTTTTGGCTGGGTCACGAAAAAGGATAAAAAACGCCGATTTCGCGAAGCGTATATCCGGGTAGCCAGGAAAAACGGGAAATCGTTTTTTGCTGCCGGGATTGGCACCTACATGTTTTGCGCTGATGGCGAAAACAGCGCAGAAGTGTATTGCGGTGCGACAACTATGGCGCAGGCGAAAAAGGTCTTCACCCCAGCCAGGCAGATGGCCAGCCGCCTGCCGGCACTTCGCTCCAGATTTGATATTTCGGTATGGACCGACAGCCTGACACGCCCGGATGGTTCCGTTTTCGCACCTATGGCGGGGAAACCCGGCGATGGTGACAGCCCACATTGCGCGATCATTGACGAGTATCACGAACACGATACGGATCATATGTACGAGGCCATGACAATGGGGATGGGCGCCCGTTCGCAGCCGTTAACGCTCATTATCACGACAGCCGGCTCGTCACTGGAGTCCCCTTGCTATGACAAGGACAAGGAAGTCAAAGAGGTTATCGAAGGCATAACCCGTAATGATCGCCTGTTTGGCATGATTTACGAACTGGATGCTGGCGATGACTGGACCGACCCGAAAAACTTAATCAAAGCTAACCCAAATCTGGACGTTTCGGTTAAGTACAGCGACCTGGTTGAGCTTCTGGAAGTAGCGAAACAGGTTCCTCGCAAGGTTAACGCCTTCAAAACCAAACGCCTCAATATTTGGGTATCCGGTAAATCCGCGTTCTACAACATGGAGCAGTGGAAGGCTGCTGAAGACCCCGACCTTGAGCTGGCTGATTTTGCGAATGACAGCTGCAACATCGGTCTCGATCTCGCCAAAAAGCTGGATATGAACGCCGGGATACGGCTATTTACGCGGGAAATTGAAGGTAAACGGCATTATTACTGCATCAAACCTAAATTTTGGGTCCCGGAAGACACTATCCATACAACCGATCCAAAACTGCTGAAAACTGCTGACAGGTATCAGAAGTTTTATGAAATGGGCGTGCTGGAAGCGACGGATGGCGCAGAGGCAGACTATCGCGAGATTCTGGCCAGTATTATCGATATGCAGGACGAAAACCGCATTGACGAGATTGATATCGACCCTGCCGGCGCAACAGCACTTCGCCACCAGTTGGAGGACAACGGATTTACCGTAGTCGATATCCGGCAGGATTACACCAATATGTCACCGGCGATGAAAGAGCTTGAAGCGGCTCTGGCCGGTGGTCGATTCCACCATGATGGCAATCCCATTCTGACCTGGTGTATCAGCAACGTTATCGGGAAATTTATACCCGGTAGCGATGATCTCGTTCGCCCGACAAAGGGAGACAATCAAAGCAAAATCGATGGAGCTACAGCGTTATTTAACGCCATGACTCGCGCAATGCTGCACGAAAGCAGCGGCGGCACATCGGTATATGATGAGGAAGACATAGCGTGTTAA	MAAYPNVNVANKYARDIIDGKIVACRAIRLACQRHFDDLKKSLDNNYPYRFDRDLAERACRFVQKLPHSSGDLAGQKLKLEPWQSFIFCSIFGWVTKKDKKRRFREAYIRVARKNGKSFFAAGIGTYMFCADGENSAEVYCGATTMAQAKKVFTPARQMASRLPALRSRFDISVWTDSLTRPDGSVFAPMAGKPGDGDSPHCAIIDEYHEHDTDHMYEAMTMGMGARSQPLTLIITTAGSSLESPCYDKDKEVKEVIEGITRNDRLFGMIYELDAGDDWTDPKNLIKANPNLDVSVKYSDLVELLEVAKQVPRKVNAFKTKRLNIWVSGKSAFYNMEQWKAAEDPDLELADFANDSCNIGLDLAKKLDMNAGIRLFTREIEGKRHYYCIKPKFWVPEDTIHTTDPKLLKTADRYQKFYEMGVLEATDGAEADYREILASIIDMQDENRIDEIDIDPAGATALRHQLEDNGFTVVDIRQDYTNMSPAMKELEAALAGGRFHHDGNPILTWCISNVIGKFIPGSDDLVRPTKGDNQSKIDGATALFNAMTRAMLHESSGGTSVYDEEDIAC				NA	NA	NA	NA	NA
BMS020_08274	1260			hypothetical protein	ATGTTTATCCCCCAAATGTTCAGAGGGCGCCAGCAATCGGGGAATGGCTTCTGGGAAGCCATGCTGGGCGGGGTTCGTTCAAGCCAGAGCAAAACTGGCATCATAATCACGCCGGAAACCGCTCTTGGACTTTCAGCGGTCCGGGCCTGTGTCACCCTCCTGGCGGAGTCCGTCGCGCAGCTGCCGTGCGAACTTTACCGGCGGGATAATAATGGCGGGCGCCAGCGTGCGACGGATCACCCGGTTTATGACCTGATTCACTCCCAGCCTAACAGGAAAGACACCTCATTCGAGTATTTCGAGCAGCAGCAGGGATTGCTGGGGCTGGAGGGAAATTGCTACTCGATCATCGAACGGGACGGGAAAGGCTACCCGAAAGAGCTGATCCCCATTAACCCGAAAAAGGTCATTGTGCTGAAAGGGCCGGACGGTATGCCGTATTACCAACTCCCGGAAGTCGGTGAAATTCTGCCGATGCGCATGATGCACCATGTGAAGGTCTTTTCTCTGGATGGCTATATCGGCAGTTCCCCCATTCAGACGAACGCCGATGTTCTGGGGCTGAATCTGGCGGTTGAGGAGCATGCGGCCGCGACATTCCGGCGCGGGACAACGATGAGCGGGGTGATAGAGCGTCCGAAAGAGGCTGCGACCATTAAAAGCCAGGATGCTATTGATCGCCTGCTGGCGAAATGGACCGAGCGCCATTCCGGTATTCACAATATGTTCTCTGTGGCATTGCTGCAGGAGGGCATGAGCTACAAACAACTATCGCAGGATAACGAAAAGGCGCAGCTGCTACAGTCGCGGCAGTGGGGCGTGGAAGAGGTCTGCCGGCTCTATAAAATCCCGCCACATATGGTGCAGATGCTGGCGAAAGCGACCAACAACAACATCGAGCACCAGGGCCTGCAGTTCGTGATGTATACGCTGCTGGCCTGGCTGAAACGCCATGAGGGTGCGCTGCAGCGCGATCTGCTCCTGCCCAGCGAACGCCGCGATTTGTACATCGAGTTCAACGTTTCCGGGCTGCTGCGAGGCGACCAGAAGTCACGCTATGAATCGTATGCGCTGGGCCGCCAGTGGGGATGGCTATCCACTAACGATATCCGGCGTATGGAGAATCTGCCGCCAATTGCTGGCGGGGACAAATACCTGACGCCGCTCAATATGGTCGACAGCGCGAAGATCCTTCCTGGCGATAAGTCGCCGACAGCAAAACAGCTGGCCGAAATCGAAACCCTTCTGGCCAGAGCCTGA	MFIPQMFRGRQQSGNGFWEAMLGGVRSSQSKTGIIITPETALGLSAVRACVTLLAESVAQLPCELYRRDNNGGRQRATDHPVYDLIHSQPNRKDTSFEYFEQQQGLLGLEGNCYSIIERDGKGYPKELIPINPKKVIVLKGPDGMPYYQLPEVGEILPMRMMHHVKVFSLDGYIGSSPIQTNADVLGLNLAVEEHAAATFRRGTTMSGVIERPKEAATIKSQDAIDRLLAKWTERHSGIHNMFSVALLQEGMSYKQLSQDNEKAQLLQSRQWGVEEVCRLYKIPPHMVQMLAKATNNNIEHQGLQFVMYTLLAWLKRHEGALQRDLLLPSERRDLYIEFNVSGLLRGDQKSRYESYALGRQWGWLSTNDIRRMENLPPIAGGDKYLTPLNMVDSAKILPGDKSPTAKQLAEIETLLARA				NA	NA	NA	NA	NA
BMS020_08275	921			hypothetical protein	ATGACAACGAAATTAATTAACCTGCCGCACCTGGCAGATATGGTCTTTGGCGTGCCGCATTACGTGACGCGGCAAACAATGGACTCCGTGAAAGCGGTGCTCATCCCCCGTATTCAGGGGATCACCGAAGATGCCGCCATTCAGATGGCGCTGAATCCGGGTAAATCACCTGCTGCTGAGCAGGTCCAGCCCACCGGCGGGGTGGCGGTGATCCCCGTTCACGGCATTCTTGTTCCACGCCGGGGGCAGATTACGGCGATGTGCTCCGAGCTGACCAGCTACGAGCGGATCCGCGGGCAGTTGCAGGCGGCGTTAAACGACCCCTCAATCAGCGAAATCGTTCTGGATATTAACTCCGGCGGCGGCGCAGCGGTGGGGTGCAAGGAACTGGCCGATTACATTTATCAGTCTCGCGACACGAAACCCATCACGGCGATTGTGAACTACAGCGCGTATTCCGCCGCGTATTTCATCGCATCGGCCTGCAGCAAAATCATCGTCAGCCAGACCAGTGGCGTGGGGTCGATTGGTGTGATCATGGAGCACCTCGATACGTCGAAGATGGAAGAAAAAATGGGGCTGACGTTCACCACCATTTACCGGGGAGATAACAAAAATAACGGCACCCAACATGAACCACTGAGTGAAGAGTCGCTGGGTATGTTCCAGGGCATGATCGACGAAATGTACGAGACGTTTACGGGGTCGGTGGCCGAATATCGCGGCCTGAAGCAGCAGGCCGTCATTGATACGCAGGCGGGGCTGTATTTTGGCCCTGGCGCTGTGTCTGCCGGCCTGGCGGATGAAGTCTCTGACCCCCAGGCGGCGATCAATGCTATCGCGGCAAAGTATCAGCAACCCCGTCAAAAAACCTCCATTCAGATGCAGGCAGCCGCGATGGACCTGCAAACCAAAATGTAA	MTTKLINLPHLADMVFGVPHYVTRQTMDSVKAVLIPRIQGITEDAAIQMALNPGKSPAAEQVQPTGGVAVIPVHGILVPRRGQITAMCSELTSYERIRGQLQAALNDPSISEIVLDINSGGGAAVGCKELADYIYQSRDTKPITAIVNYSAYSAAYFIASACSKIIVSQTSGVGSIGVIMEHLDTSKMEEKMGLTFTTIYRGDNKNNGTQHEPLSEESLGMFQGMIDEMYETFTGSVAEYRGLKQQAVIDTQAGLYFGPGAVSAGLADEVSDPQAAINAIAAKYQQPRQKTSIQMQAAAMDLQTKM				NA	NA	NA	NA	NA
BMS020_08276	1287			hypothetical protein	ATGCCACATATTGAAGAATTGCGTCGTCAGCGTGCGGGTATCAACGAACAGGTTCAGGCCCTGGCAACCATTGACGCCAGCGGCGGCACGCTGACTGCGGAGCAGATGACGGAGTTTGCGAACCTGCAGCAGCAGTTCACTGATATCAGCGCCAAAATTGAACGACTGGAAGCCGCCGAACGTGCTGCGGCGCTGGTCGCAAAACCCGTGAAAGCGACTCAGCAGGCCCCCGGCATTATTGTTAAGCAGGAGCCTAAACAGTACACCGGTGCTGGCATGACCCGACTGGTTATGTCTGTCGCCGCAGGCGCAGGGAATCTGCAGGACGCGGCAAAATTCGCTTCAGAAGAGCTGAATGACCAGTCCGTATCGATGGCCATTTCCACCGCAGCGGCGTCCGGTGGTGTGCTTATTCCGCAGAACCTCCACAGTGAGGTGATCGAGCTACTGAGCGACCGAACCATCGTCCGCAAGCTGGGTGCCCGTCCCGTTCCGCTGCCTAACGGTAATATGACGCTACCACGCGTGGCCGGTGGAGCAACGGCAAGCTACACAGGAGAAAACAAAGACGCCAAGACATCAGAAACACGCTTTGATGATGTAAAACTTACGGCGAAAACTCTGATTGCGATGGTGCCTATTTCCAATGCACTGATTGGCCGCGCCGGATTCAACGTCGAGCAGCTGGTCCTGCAGGATATTCTGACCGCCATCTCAGTGCGTGAGGATAAAGCCTTTATGCGCGATGACGGTACCGGCGATACACCGATTGGTATGAAGGCGCGCGCGACGCAGTGGAACCGCCTGCTGCCGTGGGAAGCTGATGCAGCGATCAACCTGAACACAGTTGACGAGTACCTGGACAAGATCATTTTGATGGCGATGGACGGCAACAGCAATATGATCAGCAGCGGCTGGGGCATGTCGAACCGTACCTATATGAAGTTGTTTGGGCTGCGTGACGGCAACGGCAACAAAGTCTATCCGGAAATGGCTCAGGGATTACTTAAAGGATATCCGGTTCAGCGTACCAGCGCGATCCCTGCGAATCTGGGGACCGGGGGTAAGGAGACTGAGATTTACTTTGCTGACTTCAATGATGTGGTTATCGCTGAAGACGGCAATATGAAAGTCGACTTCTCGAAGGAAGCCTCTTACATCGATGCCGATGGCACCCTGGTATCTGCGTTTTCCCGTAACCAGTCGCTAATCCGCGTTGTTACTGAGCATGATATTGGCTTCCGTCATCCGGAAGGCCTGGTGCTGGGTACCGGCGTCCTGTTCTAA	MPHIEELRRQRAGINEQVQALATIDASGGTLTAEQMTEFANLQQQFTDISAKIERLEAAERAAALVAKPVKATQQAPGIIVKQEPKQYTGAGMTRLVMSVAAGAGNLQDAAKFASEELNDQSVSMAISTAAASGGVLIPQNLHSEVIELLSDRTIVRKLGARPVPLPNGNMTLPRVAGGATASYTGENKDAKTSETRFDDVKLTAKTLIAMVPISNALIGRAGFNVEQLVLQDILTAISVREDKAFMRDDGTGDTPIGMKARATQWNRLLPWEADAAINLNTVDEYLDKIILMAMDGNSNMISSGWGMSNRTYMKLFGLRDGNGNKVYPEMAQGLLKGYPVQRTSAIPANLGTGGKETEIYFADFNDVVIAEDGNMKVDFSKEASYIDADGTLVSAFSRNQSLIRVVTEHDIGFRHPEGLVLGTGVLF				NA	NA	NA	NA	NA
BMS020_08277	261			hypothetical protein	ATGGCTGCGAAAAATAAAGCAGTGGAGCCGGAAGAAACAGGCACACAGGACAACCATGCGACCGTGGTCGCACAGGCAGAGCGTAAATCCGTTGTGTTCCTTGGGCCGCACCACCGTTATTCCCGTGGAGATATCGCGTGCTTTGAAGGATCGCGCGCCGAAGAACTGGTTAAGCGGCGTATCGCGGTATGGCCGGAGGATGCCGAACGTGCGCTGAAACCGAAGCCGGGAGACAGCGATTTTGATACTGACATTGGATGA	MAAKNKAVEPEETGTQDNHATVVAQAERKSVVFLGPHHRYSRGDIACFEGSRAEELVKRRIAVWPEDAERALKPKPGDSDFDTDIG				NA	NA	NA	NA	NA
BMS020_08278	249			hypothetical protein	ATGCTCACGCAAATGGTGAAGGCCGCGCAGCGGAGCATCGAGCGTGATTACTACTGCAAGCTGGTAACCAGTGATGAAGAGCTGCAGGCGCTCCCGGAGACCGTCCGCGGATTTATCGCGGATGAAGATATCCGTCTGGCTATTCAGTTTCTGGTCAGCGATGCGTATCTGAATGGCCATACCGGACAGTGGCTGGAAACCGCTGCGGTGAGGCATCTTCTTTTCCCCCTGCAGGAGCATACGCTATGA	MLTQMVKAAQRSIERDYYCKLVTSDEELQALPETVRGFIADEDIRLAIQFLVSDAYLNGHTGQWLETAAVRHLLFPLQEHTL				NA	NA	NA	NA	NA
BMS020_08279	339			hypothetical protein	ATGAGCCTGAAACCGGGTGATATGAACTGTCGCATTGCGATTAGCTACGTTCAGTCCGGTCGGGGGCCGCTGGGCGAACCGCTACCGGAAAAGCAGGTTGAATCGGGAAAAGCGTGGGCAAAACGGGAGCTGGTATCGGGGCGGAAAGTCCGCACGCTGGATCAGCAGCAGGTGGTGGAAACCTGCCTGTTTACGGTCTATCCGGGGGTGCTGGTTGATATTGACTGGAAAATCACGACGAAAAATCTGGTTTATACCGTCCGGAATATCGACCGCAAAACAGACCGGATCATTATCACGGGGGAGGCTGACGGGCGGCATGATAGAGCTGGCGATTAA	MSLKPGDMNCRIAISYVQSGRGPLGEPLPEKQVESGKAWAKRELVSGRKVRTLDQQQVVETCLFTVYPGVLVDIDWKITTKNLVYTVRNIDRKTDRIIITGEADGRHDRAGD				NA	NA	NA	NA	NA
BMS020_08280	390			hypothetical protein	ATGATAGAGCTGGCGATTAAGGGTGCGCTGGAGCGCATCACCGGCATGAATGCGTATCCGCTTTTACTGCCGGACACGGTCCAGGAAGGTGCGACCTTTCAGCGTATCTCTGACCCGGAAATGGTCTCGGGAATGTTGCGAACGGGGATCGTATCTGCCCGTATCCAGGTGAATCTGTACCGTCTCGATGATTACACCTCACTGCTGCAGCTGGATAAAAAAATCTGGGCGGAACTGAAGTCCGTCGTTCATGGCCAGCTGGAGGGTATCCCGGTTCAGTATGTGGAGCGAGGCGGTATCCATCAGGATAAAAACCAGCTGACGAATCGTCGCATTCAGTATCGCCTGACCCGCGATTTCATCATTCACTACGTGGAGGACTCCTCGTGA	MIELAIKGALERITGMNAYPLLLPDTVQEGATFQRISDPEMVSGMLRTGIVSARIQVNLYRLDDYTSLLQLDKKIWAELKSVVHGQLEGIPVQYVERGGIHQDKNQLTNRRIQYRLTRDFIIHYVEDSS				NA	NA	NA	NA	NA
BMS020_08281	402			hypothetical protein	GTGATCCGAATGGAAGTTAAAGGGCTGGATGAGCTGGAGCGGCAGTTAATGGCCCTGGGCGAAAAAGTGGCGACGAAGGTATTGCGGGATGCCGGGCGCGAAGCGCTAAAGGTCGTCGAGGAAGATATGAAGCAGCATGCCGGCTTTGACGAAACGTCTGCCGGGCCGCACATGCGGGACTCAATCAAAATCCGCTCTTCCACCCGCAAGGGTAAAGGGAACGCGGTTGTAACGCTCCGTGTCGGCCCCAGCAAGCAGCACCATATGAAGGCGCTGGCGCAGGAGTTTGGCACGGTTAAACAGGTTGCAGACCCCTTTATCCGACCCGCCCTGGATTACAACCTCCAGACCGTTTTGCGCGTGTTAACCGTGGAAATCCGAAACGGCATTGAAAACAGGTAG	MIRMEVKGLDELERQLMALGEKVATKVLRDAGREALKVVEEDMKQHAGFDETSAGPHMRDSIKIRSSTRKGKGNAVVTLRVGPSKQHHMKALAQEFGTVKQVADPFIRPALDYNLQTVLRVLTVEIRNGIENR				NA	NA	NA	NA	NA
BMS020_08282	462			hypothetical protein	ATGGCTGATAAAACTTCGCCTGAATATGCGATGTTGCCGGCGGGCACCATTGTGAAATACGGGGAGCCTGGCGCTGCCACGTCAGCGCTGAAACCGCTGATTAACTGTAAAGCGTTGGGTGCAATGGGACAGACGGGGGGCTTTGTCGACTGCACCACGTTACTGGATAAGCAGAAACAGTCCATCAGCGATCTGCCTGACGGGCCTGAAAAGTCGCTGGGCTTCATTGATGATCCGGGCAATACCGATTTTGCCGCGCTGCTGAACGCAGCAGAAGCCCGCAAGACCATCCAGTTGTACGTCGAATTACCCAACAAGCGAACAGCGACGATGCTCCTGGCGCTGTCCGGCTGGCAGATGAATGAAATCGCCGCTCCGGCGAATGAGGTCATCCAGATCACTGTTCAGGGCAAGCAGAACAAGATCACCTGGGGAACCGTCGCTGTCTCCGGCGGCGCCTGA	MADKTSPEYAMLPAGTIVKYGEPGAATSALKPLINCKALGAMGQTGGFVDCTTLLDKQKQSISDLPDGPEKSLGFIDDPGNTDFAALLNAAEARKTIQLYVELPNKRTATMLLALSGWQMNEIAAPANEVIQITVQGKQNKITWGTVAVSGGA				NA	NA	NA	NA	NA
BMS020_08283	366			hypothetical protein	GTGAAAGATAAAGATTACCTGTCCACGCTGAAATCCGCGTTGCTTAAATCGGAGCCAACCGTCATTAAAACCGAGTTGTTTGGCGCCACCGTATTCATCCGCCGCCTGACCGGGGATTACCTCATCAGCTACGAAGAGAAAATGGCTGAAACCGCAAAAGCTGGCGCAGCGCGCGAGGCATCGGAGCAAGTCATCCAGATCGTCATCGATGCACTGGTTCAGCCGGATGGAACGGCCATTCCGGATGAGTTTAAACCCACGGCAGCCGAGCTACTGAAGGCCCATGAAAACCCCGAACTGCTGGCCGCAGTGGAAAAAGTGAAGCAACACGCAATCGGCAAGCTGGAGGAAGCGGAAAAAAACTGA	MKDKDYLSTLKSALLKSEPTVIKTELFGATVFIRRLTGDYLISYEEKMAETAKAGAAREASEQVIQIVIDALVQPDGTAIPDEFKPTAAELLKAHENPELLAAVEKVKQHAIGKLEEAEKN				NA	NA	NA	NA	NA
BMS020_08284	3357			hypothetical protein	ATGGCAGACGTCGCATCTTTAGCGGTCGGGCTGCACCTGAACGCAGCCAGTTTTAAATCCCAGCTGCTGGGAGCGTATGGCGATGCGGAGAACCAGTCACGACGGTTTAACCGTAATGCCCAGGCGGACGCGAAAAAGACGGAGGACGCCTATAAGAAGGTCGGTCTGTCGATATCCGGGATGGCCAGCCGGCTGGCGGGGCTGGCAGGAGCCGGCCTTTCCATCGGCACGATCGTCACCACGTCCAGACAATATGGACAGGCATTATCAGACCTGCAGGCCATCACCGGTGCGACTGCAGCTGAAATGAAAGCGCTGGATCTGGCTGCGCAGGAAATGGGGCGCACGACAGAATACAGCGCCAGCCAGGCCGCCGAGGCGCTAAAGCTGATGGCGTCGGCTAAACCGGAGCTTTTAAAAACGTCCGATGGACTGCAGAAGGCTACGAACAGCGCGCTTATCCTGGCGCAGGCCGCCGGCACAACGCTGCCCGATGCGACCAGAACGCTGGCGCTCTCCTTAAACCAGTACGGGGCGAGCGCGCAGGAGGCGGATCGTTATATCAACGTGCTGGCCGCCGGCGCGAAGTACGGGTCGTCGGAGATTGTGGATACAGCGGCCGCCATTAAAAATGGTGGCGTCGCAGCCGCACAGGCCGGCGTTGGTTTTGAGCAGCTGAATGCCGCGATTCAGGTGCTGGCAGAGCGTGAAATTAAAGGCGGTGAAGCCGGCACGGCGCTGCGTAACGTCATCCTGAACCTGGAAAAGGGCACGGACAAGAGCCTCAAGCCGTCCGTGGTTGGTCTCAGCCAGGCGCTGACCAATCTTTCCGGGAAAAATCTTTCCACGGCCCAGGCCGTAAAACTGTTTGGCGTGGAGAATCTGAATGCGGCGTCTATCCTGGTCCAGAACCGTTCAAAGCTTGATGAGCTGACCGCTTCCCTGACCGGAACCAAAACGGCGCATGAGCAGGCATCCATCAGGGTTAACAACCTGAACGGCGATTTGCTGGGGCTGAGCAGTGCGTTTGAAGGGATGGTCATTAAGATCGGCCAGAGCAGTAACGGGCCACTCCGCAGCGGGATTCAGGTTGCCACGGAGGCACTGAACAGCCTGGCAGACAATTTCAACACCGTCTCCAGCGTGGCGCTTTACAGCCTGATCCCCGTGTTATCCACGAAACTGACTGCAGGGCTGCGGGAGAATATCGCGGCCTGGCGGGAAAGCCAGGCGGCGGTAAAAGCGCGGGCGCAGGCTGATGCGGATATTGCCCGCAAAACGCTGGATTCGACAGCGGCCATCCTGAAACAGAACGACGCTGAGTTTGGCCACTACCGGCAGATGGAGCGGACGGCTAAACAGTACGGGATGAATATCAGTTACCAGGATGAGTTTACCCGGCTTATCCGGCAGGAAACTGAGCAAACGAACCTGGCCAGCCAGGCGAAACTGAAACTGGCGGCGGCAAACCGGCAATTGTCGATATCAGCCCGCGCGGCCTCCGTTGCGGTGGGCCTGGCAAGAGGCGCTCTGGCTTTTGTTGGTGGTCCGGTTGGCGCGGCGACGCTGGCTGGATCTGCATTACTGTATTTCCATCAACAGGCAAAAGAAGCCCGGCAATCGGCCATTGATTTAAAAGATGCCGTAGTGGAAACCAGTGAAGCGCTGATGCGCCTCTCGCTTAACCAGTTAAATGTGAAGCAGTTCGACCTGGAGGATAAGTACGAAAACCAGGTCGTGCAGCGTAACCAGCTGATGAAAGAGATTCAGGATGCCGACAGTCGTATCGACAGCCTGAAAGGGTTTGACCCCTTCGGCCAGCTGGAAGGGGTGACAAAAGGCCAGGCGCGTGCACGGGCGGATCTCGAAAGCGTTAACGAGGGACTCCGCAAAACCGAGGAAAACATTAAGCGTGTCAGTGATGCAAAAACACTGGCTCAGCTGGGTTTATCGGGAAAAATAACCTCCCTTACGGACGATCTGAAAGGGGCATTAAGCACGCCCCCCAAAGAGACCGGAGATGGAAATCCCTGGGGCGGCGATGGCGGTACCGGCACGGGGAAAGGCAGTAAGTCCAAGGTCGACCAGTTCAAAACGCTGCGGCAGCAAATTGAAGAAGCCCATGCGTCCAGCCTGGCCAGAATTAACCTGCAGGAAAAGGACAGCAACAGGGAGCTGCAGGAAGCGGCGAAGAAAAATGGCGCCAGTGATGCTGACCTGCAGCGCGCGCTGTTAATGAACGCAGAGAATTACCAGAAACAGCGACTGGATCTGGCCGCGCAGTATTCCCCCGCCCAGGAAACTCTGCGAAAAGAGCAGGAAGCCAGCCGGGACCTGGCTGAGCTTTTCAAAGCCCGCCTTCTTGATGAAAAAGAGTACCAGGCCGCACGAATAACGCTGGCCAGAGATACTGCGAAAGAGCTGCTGCAGGCGCATGCCGATGAAATCGCTGCGCCGGCACTGGATATCGCCGGCGAAGTTGATCCACTGGTCTCGCTGCGCAATCAGCTTGCGCAGCGGCAGGCATTGCTGCAGGCGTACTACCAGGGCAGCGCGATCAGCAAAGAACAGTACGAAATGCTGATGCAGAAGGCGACGAAAGAATCCGCCGATGCGCAGTATCAGACGTCACTGGAGTTATACCGATCACAGGGAGAATTCCAGAGCCTGGCCGTCGGGTTATTTGAAACGGCCCATGAGCGCTCAAGCAACTTCCTGACGAGCATGCTGACGCGGACGAGAAGCTTTAAGGAGAACATGGCTGATCTGTTTTCCTCGCTCACGCAGTCGATCATAAAAAACCTCGTTGATATGGCCGCTCAGGCGCTGGTCACCAGTACCGTCATGCAAACCATTATGGGCGTGGTGGGAGCTGGAGTGAGTATTGCAGGTGGTGTTTCTGGAGCGGCTGATGTCGGCGCAGGAACTGCGATTCAGAATGCGGGTAATAACTTTAACTTTCAAATACCGGGTTATGCCAAAGGCGGTGTCTTCGATTCTCCTTCATTAAGTACCTACAGCAACCAGGTCTACGACTCTCCGCAGTTCTTCGCTTTCGCAAAAGGGGCCGGCGTATTTGGCGAGGCCGGGCCGGAGGCCATCATGCCGCTGACGCGTGCCGGCGATGGTTCGCTGGGTGTACGCGCTGTCGGTGGTGGTCAGAACGCCGGCGCGTCGGAAGGGCCAAAAGTCTATATCACGATTGAAGGCGGAAACACCTCAACGCAGGCGCCGTCTGGTTTTGAGCAGTTTGGCCAGCAGATCGGCTCGTTTGTGGAGAAAAAATACAGGGAGCTGATGGCGCAGGATATGCGCCCTGGCGGGATGGTCTGGAATGCAGTTAAAGGGCAACGTTGA	MADVASLAVGLHLNAASFKSQLLGAYGDAENQSRRFNRNAQADAKKTEDAYKKVGLSISGMASRLAGLAGAGLSIGTIVTTSRQYGQALSDLQAITGATAAEMKALDLAAQEMGRTTEYSASQAAEALKLMASAKPELLKTSDGLQKATNSALILAQAAGTTLPDATRTLALSLNQYGASAQEADRYINVLAAGAKYGSSEIVDTAAAIKNGGVAAAQAGVGFEQLNAAIQVLAEREIKGGEAGTALRNVILNLEKGTDKSLKPSVVGLSQALTNLSGKNLSTAQAVKLFGVENLNAASILVQNRSKLDELTASLTGTKTAHEQASIRVNNLNGDLLGLSSAFEGMVIKIGQSSNGPLRSGIQVATEALNSLADNFNTVSSVALYSLIPVLSTKLTAGLRENIAAWRESQAAVKARAQADADIARKTLDSTAAILKQNDAEFGHYRQMERTAKQYGMNISYQDEFTRLIRQETEQTNLASQAKLKLAAANRQLSISARAASVAVGLARGALAFVGGPVGAATLAGSALLYFHQQAKEARQSAIDLKDAVVETSEALMRLSLNQLNVKQFDLEDKYENQVVQRNQLMKEIQDADSRIDSLKGFDPFGQLEGVTKGQARARADLESVNEGLRKTEENIKRVSDAKTLAQLGLSGKITSLTDDLKGALSTPPKETGDGNPWGGDGGTGTGKGSKSKVDQFKTLRQQIEEAHASSLARINLQEKDSNRELQEAAKKNGASDADLQRALLMNAENYQKQRLDLAAQYSPAQETLRKEQEASRDLAELFKARLLDEKEYQAARITLARDTAKELLQAHADEIAAPALDIAGEVDPLVSLRNQLAQRQALLQAYYQGSAISKEQYEMLMQKATKESADAQYQTSLELYRSQGEFQSLAVGLFETAHERSSNFLTSMLTRTRSFKENMADLFSSLTQSIIKNLVDMAAQALVTSTVMQTIMGVVGAGVSIAGGVSGAADVGAGTAIQNAGNNFNFQIPGYAKGGVFDSPSLSTYSNQVYDSPQFFAFAKGAGVFGEAGPEAIMPLTRAGDGSLGVRAVGGGQNAGASEGPKVYITIEGGNTSTQAPSGFEQFGQQIGSFVEKKYRELMAQDMRPGGMVWNAVKGQR				NA	NA	NA	NA	NA
BMS020_08285	339			hypothetical protein	ATGGCTATTGAGATATTCACCTGGAGTCCGCGGGTTAATCCCCAGCAGACCGTTAACTTTCGTGTCCGGAAGGCGCAATTCGGTGACGGGTATGCGCAGGTATCCGGCGATGGTATTAACACCCGATCACAGGACTGGGAGCTGAGCTTTGTCGGTACGGAGGACTATATCCGTCCGATTAAGCAGTTCCTTGACCGTCATGCCGGCACCCGCGCGTTTCAGTGGACCCCGCCTCTGGAAGAGGTGGGGCTTTTCCGCTGCGAACAATACAAACCGGTTCCGCTGGGCGGCGGAAATTACTCACTTTCAGCCACTTTTATTCAGGCATTTAAACCATGA	MAIEIFTWSPRVNPQQTVNFRVRKAQFGDGYAQVSGDGINTRSQDWELSFVGTEDYIRPIKQFLDRHAGTRAFQWTPPLEEVGLFRCEQYKPVPLGGGNYSLSATFIQAFKP				NA	NA	NA	NA	NA
BMS020_08286	756			hypothetical protein	ATGAGCCTTAACGCGAATTATCAGAAGTTAGAGCCAGGCGATGAAGTTCGTCTCCTGGAGATCGATGGCCAGGCGTTTGGCCTGGACGAGGTTTTGTATTTCCACGGCTATAACGTTCCCCATACTGCAGCCGAAATCCTCGCCGCTGGCGGCGACCTGGATAAGCTGCCGGCGAAAAGCATCTGGTGGCAGGGGCGGGAGTATAAAGCCTGGCCATGTGAAATCGAAGGGATCGAATCCTCCACCACGGGCAGTGACGCGCAGCCAACGCTGCGGGTAGGGAACATCGACGGGAAGATATCCGCGCTCTGTCTTCATTACGACGATCTGGCTCTGGCGCGGGTTGTCATCCACGACACGCAAAAACAGTATCTCGATGCGAAGAACTTTCCGGACGGGAATGCCTCAGCTGATCCGACGCAGGAGAAACGGCGCCTTTTCTTCATTGACGTAAAGCATTATGAAGACGATGAGAAGGTGGAATTTACTCTCTCCAGCCCGTTTGCCCTGCAGGGGATGATGATCCCCACTCGCCAGCTGCATGCGATTTGCACCTGGTGTATCCGCAATCAGTACCGCAGCGGTAACGGGTGCGACTATGCCGGCACCCGGTATTTTGACAGGAACAATCAGCCAGTTGATGACCCGTCGCAGGATGTATGCAACGGCACGCTCACGGCCTGTAAATTACGTCATGGTGAGAATAGTGAACTACCGTTTGGCGGGTTCCCCGGCACCTCATTAATCAGGAGCTGA	MSLNANYQKLEPGDEVRLLEIDGQAFGLDEVLYFHGYNVPHTAAEILAAGGDLDKLPAKSIWWQGREYKAWPCEIEGIESSTTGSDAQPTLRVGNIDGKISALCLHYDDLALARVVIHDTQKQYLDAKNFPDGNASADPTQEKRRLFFIDVKHYEDDEKVEFTLSSPFALQGMMIPTRQLHAICTWCIRNQYRSGNGCDYAGTRYFDRNNQPVDDPSQDVCNGTLTACKLRHGENSELPFGGFPGTSLIRS				NA	NA	NA	NA	NA
BMS020_08287	711			hypothetical protein	ATGCGTCAGAAAACGATTAAGGCCATCCAGGAACATGCGGCCGCAGAATATCCGCGCGAGGCCTGCGGCCTCGTCGCCCAGAGGGGCCGAGCGGAGCGTTATTTCCCCTGCCGGAACCTGGCCACAGAGTCGAAAGATAATTTTGTGCTGGCGCCGGAGGATTATGCGGAGGTTGAGGAATGGGGAACGATCACCGGTATTGTTCACAGCCATCCTGATGCCACCACCCAGCCGAGCGAACTGGATAAAGCGCAATGCGACGCGACCCTTCTCCCCTGGCATATTATCAGCTGGCCAGAAGGCGATCTCCGTACCATCCATCCGCGTGGTGAGTTGCCGCTCCTCGAGCGACCATTCGTGCTGGGCCACTACGATTGCTGGGGCCTGGTGATGAGCTATTTTCGGCAAACCCACGGCATCGAGCTGCACGATTACCGCGTCGATTATCCGTGGTGGGAAAAGGAGTATCCGGACAATTTTTATCAGGACTGCTGGTATGAATGCGGGTTCCGTGAGTTTGATGGTCCACCGCAACCGGGTGATATGGTGATCATGCAGGTGCAGGCGGATAAGTGGAACCACGCTGGGATTCTGCTGGAAGGGAATATGCTGCTGCATCACCTGTATGGCCATCTCAGCAAGCGCGTGCCGTATGGTGGATACTGGTTAGACAGGACGATGAAAATCGTCCGATACCATTCTCTGTGTTAA	MRQKTIKAIQEHAAAEYPREACGLVAQRGRAERYFPCRNLATESKDNFVLAPEDYAEVEEWGTITGIVHSHPDATTQPSELDKAQCDATLLPWHIISWPEGDLRTIHPRGELPLLERPFVLGHYDCWGLVMSYFRQTHGIELHDYRVDYPWWEKEYPDNFYQDCWYECGFREFDGPPQPGDMVIMQVQADKWNHAGILLEGNMLLHHLYGHLSKRVPYGGYWLDRTMKIVRYHSLC				NA	NA	NA	NA	NA
BMS020_08288	594			hypothetical protein	ATGCAGGAAATAATGACAAGAATTGAGCTTTCTGGAATTCTTGGCAAAACTTTCGGGAAGGTTCATCATCGGTTGATTTCAACAGTCCAAGAAGCAGGCATAGCGCTGGCTGCAACCATCCCTGGATTTGAAAATTTCATGAATAACAGCAAAGAAAAAGGGTTGACCTTTGCTGTTTTCAAAGGAAAGAAAAATATCGGTAAGGATGATTTAGGATTCCCCGTTGGTGGTGAAGTTATCAGAATTGTTCCTGTTTTAATTGGTAGTAAAAAGGCGGGGCTGCTTCAAACAATTCTTGGAGCAGTTATTATTGTTGCATCTGCTGTCGGCTCTTACTTTGTTCCTGGCAACCCCGTGTCAGCATTTGGTTATAAAATGGGGGCTGCTATGATGCTCGGCGGCGTCGTTCAGATGCTTTCCCCACAGCCCGCTGGCCTGGCACGAAAAGAATCCGCTGACAATAAAGCGTCCTACGCCTTTGGGGGCGTGACGAATACTGCCTCTCAGGGATACCCGGTCCCTTTGCTTTATGGCAAACGCCGAATTGGCGGAGCCATTATATCTGCCGGTATTTACGTAGAAGACCAGCAATAA	MQEIMTRIELSGILGKTFGKVHHRLISTVQEAGIALAATIPGFENFMNNSKEKGLTFAVFKGKKNIGKDDLGFPVGGEVIRIVPVLIGSKKAGLLQTILGAVIIVASAVGSYFVPGNPVSAFGYKMGAAMMLGGVVQMLSPQPAGLARKESADNKASYAFGGVTNTASQGYPVPLLYGKRRIGGAIISAGIYVEDQQ				NA	NA	NA	NA	NA
BMS020_08289	13005	smc_3		Chromosome partition protein Smc	ATGGCAAATAACATAATTAAAGGGCGCAAGGGTGGCGGCTCAAAGCAGCGTACACCGACGGAACAGCCGGATGATTTACAGTCCGTTGCGAAAGCCAAAATTCTGCTCGCATTAGGTGAGGGTGAATTTGCAGGTGGTTTAACCGGTAAAGATATTTATCTTGATGGCACCCCGCTTGAAAATGCTGATGGTTCTCAAAACTTCAGTGGCGTGTCCTGGGAATTTCGCCCCGGCACGCAGGCTCAGACTTATATTCAGGGTATTCCAGGTACTGAAAATGAAATCAGTGTGGGAACGGAAGTTTCCAGCAAGACAGCCTGGACCCATACCTTTACTAATACCCAGCTTTCTGCCGTTCGTGTCCGCCTGAAATGGCCGTCCCTGATGAAACAGGAAGATGACGGCGACGTGGTGGGCAATACCGTCAAGTATGCGATTGACCTGCAGACCGACGGCGGCGCCTGGCAGACGGTGCTGGAAACCGCAGTCACGGGTAAAACCACCTCCGGTTATGAGCGGAGCCATCGTATTGATCTGCCCCAGGCCGGCAGTACCTGGACGCTACGCCTGCGTAAAATCTCTCCGGATGCAAACAGTGTCAAAACTGGCGACGTGATGACGCTGCAGAGCTATACCGAAGTGATTGACGCGAAGCTGCGTTATCCCAACACCGCGCTGCTTTATATCGAGTTCGACTCCAGCCAGTTTAATGGCTCCATTCCGCAAATTTCCTGTGAGCCGCGTGGGCGCGTGATTCGTGTGCCGGATAACTACAATCCGGAAACCCGCGAATATACCGGCGTCTGGACCGGCGGGTTTAAATGGGCCTGGACGGATAACCCGGCCTGGATCTATTACGACATTGTTATAGCTGACCGTTTTGGTCTCGGTAATCGTCTGAGCAGCGCCAATATTTCGAAATGGACGCTGTACCAGATTGCACAGTACTGCGATCAGCTGGTTCCTGACGGGCGTGGTGGTGACGGCATGGAGCCGCGCTATACCTGTAACGTCTATGTTCAGGAACGCAACGATGCTTACACCGTGCTGCGAGACTTTGCCGCCATTTTCCGGGGCATGACCTGCTGGAACGGTGAGCAGATTGTTGTGCAGGCTGATATGCCGCGTGATGTCGATTTTACCTATACGCGCGCCAATATTATCGGCAAACCCCGTTATTCGAGCAGCAGCAGCCAGGTTCGGTACACCAACGCCCTGGTTTCCTGGTCTGATCCGGATAATGCTTATGCTGATGCGATGGAGCCGGCGTTTATCCCGGAACTGGTTTCCCGCTACAGTTTTAACCAGCTCGAACTGACCGCGATTGGCTGTACGCGCCAGAGCGAAGCCCACCGTAAGGGGTTGTGGGGCATACTGACCAACAACAAAGACCGGGTCGTTGAGTTTGATGTGGGGCTGGACGGTCGCATTCCTCAACCCGGTTATATCATTGCCCTGGCGGATGAGTTACTGGCCGGACGGGTCAACGGCGGGCGAATCAGCGCGGTGAATGGCCGGGTGATTACGCTGGATCGTGATGTGGATGCCAAACCTGGCGACCGTCTCCAGCTAAACCTGCCATCCGGTATCTCACAGAGCCGGACCATTCAGGCTGTTAACGGACGCCGGCAGATTACGGTCACAACGGCGTACAGTGAGACGCCAGAACGGGAATGCGTCTGGGCCATTGAATCTGATGACCTCTTCCTGCAGCAGTACCGGGTTACAGGGGTAAAAGAGAACAGCGATGCCACCCTCACGATCACCGGCGTGGCACATGACCCGGATAAATTCGCCCGCATCGATACCGGCGCTATTATCGACCAGCGCCCGGTTAGCGTATTGCCGGCGGGCAACCAGTCACCTCCTGACGATATTGTCATCACATCCCGCTCGGTCGTGAATCAGGGGATCAGCGTCGAAACGATGCAGGTTAACTGGTCAGCGGTCAGCGGCGCTATTGCCTACGAGGCACAGTGGCGCCGTAACGACGGGAACTGGATTAATGTGCCGCGCAGCTCGACCACCTCGTTTGAGGTCAGCGGCATTTATGCCGGTCGTTACCTGGTTCGCGTCCGCGCGATCAATGCGGCGGAGATCTCGAGCGGCTGGGCGTATTCCGAAGAGAAAACCCTGACCGGCAAGGTCGGCGAGCCGCTGGCACCGCTGGCGCTGGCAACCCGTTCGCTGGTTCATGGGGTCCAGGTTAGCTGGGAGTTCCCGACCGGCTCCGGGGATACGCTGCGCACGGAACTGCAGTACAGCAAAAACCAGGACGGCAGTGCGCCAATGCCGTTATCAGACGTGGCCTATCCGGGGAAAAGCTATCAGCAGATGGGCCTCAGTATGGGCGCCGAATTCTGGTACCGGGCGCGCCTTGTGGATCGTCTTGGCAATGAAAGCCCGTGGACCGGCTGGGTCCAGGGGATGGCCAGCGATAACTTTGATGACTACTACGAAAACCTGACCGACGCGATCAAGGATACGGCTGCCTGGGAGGAAACGCAGCGCACCATTAGCGAAACACAGGAAGGTATCCGCAATACGCAGCAGGAACTGGAGCAGACCGCTGAAGCTCTGCGTAAGGAAGCCGAAGACCAGGCGAAGCAGGTCAGCCAGAATATTGATGCATCGGCGAAAAGCATCACGGCTGATGTTGACGGGAAGATCTCCGCCGTGAATAAAACCATCACGGATGAAATCACCTTAGTTAATGAGACCCTCGACGCCGATATTGCAACAGTAAACCAGGCTCTTGATTCTGGTCTGGCTCAGGCAAACAAAGGCGTTCAGGAGGCAAAATCCGCCGTCGCAGATGCGAACAAGCAGATCGCAACTGTGAACAAGTCGCTGACCGACAGCATCACCCAGGTTCGACAGTCAGTCACCGATACGGCTGCGGAAATCAACGCCACCATCGACCTGGAGATTGCCAGGGTCAGCAAAACGCTGGCCGACGGCGATGCCGCATTGAATGCGCAGATAAAGACTGCCGAAAATGGCCTGAAGCAGTCGCTGTCTCAGGTCAACACCACGCTGACCAGTGCGGTGAAGCAGGAGACCGCGGATCGTATCGCCGATGTTAACGCGAAGGCGGCACAGGCCGCTGATGAACTGCTGGCGGCAACGCAGGGGATTGAGGCGAGTATCGAGAGCCTGACTCAGGTGATGAAGACCGCCGATGAAAATCTGGCGCGGGAAATGTCCAGCCTCGCTGCCGGCGCTAATATCCAGTTCGATTCGCAGGTTATCTGGCATTTCAACAATCAGACGACCGAGGGCTGGACCGGCAGCGCCGGCGTACCGGGTGTGTCACAGGATGGCTGGTTACGCCCGGCGGACAGCGCCACCGATCCGTACATTACCTCTCCTGGCGGGCTTGCTGTCGATGGTGCGGCGTACCGTTTCATCATGCTGCGCTTTCGTAAAACCGGCAAACCCGTCTGGGCGGGTGAGATCCGCTGGGTGTCTGCCGGCGAAAACTTCAATAACACGAAGCGATACATTGTTGCTGAGCCGGAATATGCCGATGGGGTGGCAACCCTGACGGTGCGTGATATTCCGTGGACAGGGAACATTGATCGTATTCGCCTGGACCTGACGAACCAGCAGGATGCCAGCAACTTTATCGAATTCGACTGGATCGCCGTTGGCCGGCCAGCACCCGGCGCCAGTACGGCGGCTTTGCAGGATGTGCGCAGTACGCTGAGTAACGCGCTCACCGCCGAAGCGCAGGCACGCAGCACGCTGGCGGCGCAGATGCGTGGCTCCTATGAGGGCAGCGATCTGGAGAAAGTCACCTCCGGGCTGCTGTACCAGGAAAAAACCGCGCGCGTTACCGCCATCTCGGCGGAAGTTAAGGCCAGAGAGTCCCTGCAGACGCAGTTTAACGACAACAAAGCTGCTGTTTCTGGTGAACTGAGCTCTCTGACGACAGAGCAGAGCGCGCAGGCGAGCCGTATCGGTGGCCTGGAAACCAGCCTCGGGAAAAAAGCCGATGCGGCCGCGCTGACGTCCCTGACGCAGAAAGTTGAGCAACAGGGCGCCACGCTGACATCGCAGGGCGCCGCGTTAACATCGCTCACTAACCGGGTTGGCCAGACGGAAACGGGCCTGGCTGGTACGAATGAGGCACTGAGCGGGCTGCAGTCTGTTGTTACCCGGCAGGGCGACAGGATAACCAGCCAGGGTCAGTCCATCACGAAACTGACGAGCGATTTGGGCACGACAAATGCCGCACTGGCGAAGAAAGCGGAGGCGACTGCGGTCACCGCTTTGACGCAGCAGGTAGAGCAAAACGGGCGGGATATTCGCAGCAATACTGACAGCATCACCAGCCTGTCGAATCAACTGGTCAATGGCCAGCCGAATCGCTGGTCCCGTCGACTCTATCCTGTGCAACTGGCTAACGCCGGGACAGTCCCGTCATTCAGCGATATTCGCGCCGTGGCGCCAACGGTCGTGGACGAGGTGGCCGACGCGGCCAAACTGGACTTTACGTCCGCCGGCAGCTATCTGATCGCGCTGTATTCCTGCCAGGTGAAAGTGGCCGCAGATACCACCATCACACTGGCGCCCGGCGCCAGGGTTTTTGATGATACCGGCGCCATATTTGTGAATGGGGTTCAGGTCGCCTGGGGTAACGCCAGCTGGAATACCGTCAGTTTTGAACTGAAAGCCGGCTGGAACACCGTTGAGTTTCTGGTGAATCAGTGGACCGGCCAGGCGTATATCAACCTGGGCCTGAAGCTGTCAGACAAGGTTGCTGAGATGTACTCCGGTCTCGGGGTTTCCGCGCTGGCAAACGCAGCCGGCGTGCTCAGCTCGAATGTCAGCCAGATTGGCAACGATGTGGTCAGCAATTCGCAGAACATCACCCAGCTCCGGAATGCGCTGACGCAGACAGACGCGAACGTGGCCAGCAAAGCGGATCAGACGGCGATGAACTCGCTAACCGGACGAGTGGAGAAGACGGAATCCGGGCTGACGGCTGCTAACGCCAACATTACCTCGCTGAAATCCGCTGTACGGGCCGGAAACGCATCAGGCGGGGATTTAATTCCCAACCCGACGTTTGACCCGGCGTATGACCAGATGGGGTTCAGCGTGGTAGCCACGACGGCTGAGGAGGTCCCGCCGGGCTGCCCGTATGGTTATGCGGCCCGAATTGCCAGCCGGGATCACCATCCTAACTTTGCCGCGTTCCCGGCCACGCTTAACGATGTGATTGAGATCAGCGCACTGGTTGCCTGCGGCGCCGGCACGGCGAATTTTAATCTGTATGTTGGCACCGCCGTTCGGCCAGATACGAGTACCGGTGCGCCACTCATGGCGGGGGGCGGAAAATCCCCCTCCGCGACCTGGCAGAGAACCACCTGGCGCTTCAAGGTCACGCAGGCGATGGTAGACAGGGGTTATATCCGCCCGTTCCTGCAGATCTCGCAGAACAGCCCGTATGGCACCGTATGGTTCGTTACGGACTGGCATATGCGAAATGTGACAGCGGCGCAAAAGGTTCAGGATACTGCGGATGCCACGGCGGCGGCGGTTGACTCCCTGACCACCACCGTGACGCAACAGGGTAATCTGCTGACCTCGACCGGCAACCGGACAACCCAGCTGGAAAACGGGCTGGCAACCACCAATGCCGCCGTGGCCAAAAAGGCTGATGCGACAGCGGTGCAGGATTTGACCAATACCGTCACACAGCTGGGCAACGACCTGACGGCTGCGAACAGCGCCATCACGAAACTGACCGGAAATCTGGCGAATACCGATAAAGCGCTGGCGCAGAAAGCCGATGCGACTGCGCTGGCCACGCTCGACACGAAAGTGACGCAGCAGGGTAAAACGCTGGAGAGCCAGAGCAATTCGCTGACGAATCTGTCGAACAGTCTCTCGCAGGTTGCGGCAGATATCGATGCCAGCGGTCAGATACCGGGTAACCTGGTCGTGAATCCATCATTTGAACGCGGGCTGGATGGTTATACCGGGCGGTCAACCGCGACCAGTGTGGTGGAGGTTTCCGCTCCTCACAGCGGGACGCGGGCGCTGAAGGTTGATCCGGGGAGCGTGTCTCCGGGGCAATACATCCCGTTTGTTCAGGGGCGAACCTATGAAATCGGGGTGTGGGTCAAGGAACCGGGAGCGACGACGGATAATGGCGCGGGGAACAACAAGCTGCGGATCGGTAACTCTGCCGGCCAGCCGGTTTTTGAGCGTCCGTACAACAGCGGCACGGTGGGGACTAACTGGACCCTGATTTCCGGTCGCTGGAAAGCGACGGAGACAGCCAGCCTGCCGGTGACGCTGAGTAACTATCTGATTAGCGGCAGCCGCTACTTCGATGATTTTTACGTCACTGACGTTACCGACCGGGTGGACATCGATGCCACCGCCGGCGCCGTTACCGGACTGACGAGCCGGGTCAGCACAGCGGAAGGGGCCATCACCTCACAAAGCCAGCAGCTGACGAACCTGCAGAACAGCCTGAACACGACCAACAGCAATGTGTCGAAGAAGGCCGATGCAACGGCACTGACTTCGGTCGATAACCGGGTGACAGAGGCGGAAGGGAAACTGACCACACAGAGCCAGCAACTGACAAATCTGGCGAATGTGCTGACGGCCACCCGCAACGCCGGCGACAACCTGATCCCGAACTTTGATTTTCTGCAGGGCAGCACTGCCTGGGATATTCAGTATCCAGCCGGTGTGACCTTTGGCGATTTCGGGGACGGGAAAGCGGGGGTCCGGCTGAACCGGACGACTAACACCAGTCCGGGGATCTTCTCCAACAACAACAAGCCGGTGCCGCTGAATGGCCAGCGCAAGTACCGGGTGGTGGTGAAGGCCAAAGGTGTTTCCGGCGCGATGAGTCTGCTGATCCGTCGCCAGAACAAAATCGGCCAGACGGACAGTACGTATGAGGATAAAACGGTCACGCTGACCACTGACTGGCAAACCATCACCTGGGAAACCGGATTGACGGCTGCCGGCGCGGACGGGCAGAACTTCAAACTTTATTCTCATCCGACAAACGGTGAAATCTGGCTCGATTCCGTCCGGGTTTTTGATATCACCGATGAAACCAACATCAAGGCGACCAGCGATGCTGTTTCGTCTCTGACCGGGACGGTGACGAACCAGGGGAACACCCTGACATCACAGGGGCAATCCATCACGGCGCTGAATAACGCGCTGGAAGGGGTCAAAGGCGATGTGGCGAAGAAGGCTGATGCGTCGGCGGTCAGTTCACTGACCAACCGGGTTACCCAGACTGAAAAGGATATCCGTAGCCAGGCCGACAGCCTGACCAGGCTGAATACATCGCTGAAGCAACAGGCAACACGGGGAGCCAATGTACTGCCGGACGGCAGTTTTGAATCCTATGCCGTCGGCGATGTTCTCAGTAATGCCCGCGCTGTTATCACCAGTGAAGCTGCGCACAGCGGGACCAAAAGCCTGCGTGTTACGCGCAGTACGGAGTACAACCCGAACGCGACGGATAATAACGATACCCATATCTTTTCAGGCATGCAGGTTCGCGATAACGCGGTCTATTACGTGGAGGCGTGGGTTAAGTTGCCGGCTGGCTCGACCGCCGATCCGACCGTTTATATGGTGCTCGGATTTTCCTTCCAGGATTCTGCCAATGGCTGGTCGTGGCCTGGCCTGAACGTAAAAGTCTCCGAGTTGTCGGTGGACAACTGGACAAAAGTCAGTGGCTATCTGACCAACAACCGAACCGCGCTGAAACAGGCAATGGTGAGGATCTCCATCCCGAACACACCAAAAGTTCGCCTGGGTGACGCCTTCCTGATTGATGATCTGATCATCACTGACGTGACCGATGCGAAAGCGGCGCTCGATGCCGCCGATGCGAATGCGCAGGCGCTTTCCAGTCTATCCGCGTCAGTCACGCAGAACGGGAAGAATATTACGTCTCAGGGCAGCGCGATCACGAAACTGCAGTCGGATGTGACGCAACTTGGTAAGGATATCAGCGGCAAGGCCGATGCCAGCGCGCTGACGAATCTGACGACCCGCGTGACGGCTACCGAAGGCGGTCTGAAATCGCAGGGAGACAGCCTGACCAGCCTGCAGAACAGCCTGAACACGACTAACAGCAATGTGGCGAAGAAGGCTGATGCAACGGCGCTGCAGAGCCTGCAGAACACCGTTGAACAGCATGGCAGGGATCTGACCACGCAAAGTGGGGCGCTGACCAGCCTGCAGAACAGCCTGAACACGACTAACAGCAATGTGGCGAAGAAGGCTGATGCAACGGCGCTGCAGAGCCTGCAGAACACCGTTGAGCAGCACGGCAAGGATCTGACCACGCAAAGCGGGGCGCTGACCAGCCTGCAGAACAGCCTGAACACGACCAACAGCAATGTGGCGAAGAAGGCTGATGCAACGGCGCTGCAGAGCCTGCAGAATACCGTTGAACAGCATGGCAGGGATCTGACCACGCAAAGCAGCGCGCTGACGAACCTGGAAAACAACTTTTCCTCCCTGGCCGTGGGCGGGACCAACCTTATCCGCAATGCGGACACACTGGAGGGATGGAGCAGCCGCCACGCCACAGAGACCTATCTGGGCGACCGCGTGGCCTACACCCGGCTGGCGAAAGGTGCATCCGGTTATACCCAGCTGGATGAACAGACGCTGGACGTTACCGGGCGTACGGAATTTGTATTCAGTTTCTATGCGAAAGGGGCTTATGACGGGCAGGAGATGGCGAGTTATTTCTATAACCCGTCGAACACCACCACCACGGAAACCAGCCAGGGCGTTAAAGGCGGGGCCGGTGACGGCAAGGCGGTCACGAAACTGACCACCGCATGGGCGCGTTACTGGGTGAAATGGGTTATTCCTGCCACCAGTGGCACCAAACGGCTGATTGCCGCGCGTCTGGAAAGCGCGACGTCTGCCGACAAAGAAGTCTGGCTCTGCCGCCCTCAGCTGGAAACCGGGACCGTGATGACCGACTGGTCACCGAGTCCGGATGATGCGGCCAGCGGTATTACCGCGAACACATCGGCCATTAACAGCCTCACCAGTCGGGTGACGAACGCCGAGGGGCAACTGACCGCGCAGTCTCAGAGCATCACGAATCTGCAGAACAGCCTGAACACCACCAACAACAACGTGGCACAAAAGGCCAGCGCGCAGTCGGTGAGTGATCTCACCAGCCGGGTCACCAGTGCGGAAGGCAAAATCACCTCCCAGGGGCAGGCTATCACGAAGCTGCAGGGCGATTTGAGCAGCACCACCGATAAGGTCAACACCAAAGCGGATCAGACGGCGCTTAACGCGCTGACTGGCCGGGTGGAGAAAACCGAGGCAGGCCTCACGGCAGCCAACAGCAACATCGTCAGCCTGACGGCGGCGGTGAACGCCGGGAATGCTGCCGGGGATGATTACATCCCAAACCCGTCATTTGATCCGGCGTATGACCGCATGGGTTATGACGTGGTGGAGACCACTGCTGCAGGTGTGCCGGCTGACTGCCCGTTCAGGTATGCCGTCCGGCTGGCCGGGCGAGACCATGTGCCAAAAATCAACAATATCGCCGTGACACCGGGCGACGTTTACGAAATGTCTGCTCTGGTAGCGTGTGGTACCGGCAGCGCTGACTTTAATTTCTACATCGGTCGGGCCACTACCGCCACCGGTGGCATCGGAGCGAGAGCGTCCGGGGGAAACACCAGGACCACCACCGCGTGGAAACGAGCCACCTGGCGCTTTACTGTGCCGGCAGACACGAACTTCCTGCGACCGTTCCTGCAGGTTAATCAGAGCAGCCCGTTCGGCACTGTCTGGTACGCTGCCGACTGGCATATGCGTAACGTGACGGCGGCGAACAGTGCGCAGAAAACCGCAGATGCGACCGCAAAAGCGGTGGATTCACTGACCACCACGGTTAGCCAGCAGGGTGATACGCTCAGCAGCATCGGCACGCGGACCACCTCGCTGGAGAACAGCCTCCGGTCGACAAACGATACGGTGAGTAAAAAGGCTGACACGACAGCGGTGACGCAGCTGCAGGGTACGGTGACGCAGCAGGGGAATGACATCGCGGCAGCCAACAGCGCGCTGACAAAACTCAGCAGCGATCTGGCCACGACGAATGCGAATGTGAACAAAAAAGCGGACGCAAGCGCGATGAACACCCTGCAGAACCAGGTCACTGAGCAGGGCAAAACACTCAGTGCGCAGGGGGATTCTCTGACGCAACTGAGTAACAGCCTGAGCCAGACGGCAGCGGATATTGACGCCAGCGGGAAAATGCCGGGCAACCTCATTGTCAACGGCAGTTTTGAGCGCGGCGCGGCGGGCTTTACCGGCTGGAGCAGTACCGCGACGGTGGCCGATTTACAGGTTCCGCATTCGGGTAACAAGGCGCTGAAAATGTCCGCCGGCCAGTCGAACCTGGTCGGGCAGGAAATCAGTATCACGCAGGGTCGTACCTACCGCATGGGGGTATGGGCGAAGCAGGACCCGGGAACCACGATTAAAGATGCGGGTAACACGAAGTTTCGTGTGGCCGACAGCACTGGCCTGCTGGTCGGCTCAAACTACGGACCGTTTAGTTCTGGCTGGCAACTGGTAACGTTTGACTGGAAAGCCACGAAGACCACGACGGCCAGTTTCCAGCTGACGACCTTCCTCAGCGCGGGGGCAATGTATTTCGATGATTTCCATGTCCTCGATGTTACGGATGAAAAGGATATCGCAGCTAATGCCGGGGCCATTTCTCAGATGAATACCCGCGTCACCGCTGCGGAAGGGGCTATCACCACCCAGGCGCAGCAGCTGACGAAACTCAGCGGCGATCTGGCCGTCACGAATGCGGCGGTCAGTAAGAAGGCCGAGCAAAGCGCTGTCACCGGGTTGACCACCCGGATGACGTCTGCCGAGGGTAAACTGGATTCGCAGTCGCAGCAGCTCACCAGTCTGCAGAACAGCCTGACCACGATGAATACTGAGCTGGGTAAAAAGGCTGACACGTCCGCGGTGAGTTCACTGACCGGTCGCGTCAGCCAGGTGGAAAACACCATCACCAGCCAGTCGCAGAGCATCACGTCGCTGACCAGCACCATCAATACCATCCGCACTCAGGGAGCTAATCCTTGGGTTGACGGTACGTTTGAAAGCTACAGCGATGGCCAGGTGCTGGGCGGGAACGGCACAGCCGTTGTGGTGGCGTCTCAGAAATTCACCGGCGGTAAGAGCCTGAAGTTGAGACGGGATGAGAACAACAGCGGCAACAGTGATAAACAGCTTGGCACCTGGCAGTCAGTCCGTGAGGACGCGAAGTTCCGGTTTGAGTTCTGGGCCATGATGCCGGCGGATCAGGCGCCCTCCTCCGGGTGGACAACGCTGGTCGGTATCCAGTCGCAGAATGCTGCCGGGCAAAATGCGTGGCAGGCGGCGGTCACTGTCAGCGAAGCCTCTCTGGGCGCGCGTGATAAGTGGGTGAAATTCACGGGTATCGCCAGTAACAACGGGGCAGGCAGAACACGCGCGGTGGTCTGGATCTCCACCCGTGGCGCCACCGGCAACGGTACCCCTGGCTATTCACTTTATATCGACGATCTGGTCATCACGGATGTTACCGATGCGAAAGCGGCACAGGATGCCTCTGACGCGACGGCGAGCGCCGTGAGCGGCCTGACGGCGCGCGTAACGGATGCCGAAGGGAAAATCACTGCCCAGGCGCAGCAGCAGACAGCACTGGCCACGAAAGTGGATAACGCCAACTCCCGCGTCGATAACATGGCGAAGACGCTGAGCGACAGCCAGAGCACACAGGCCAGCCTGAATACCTCGCTTCAGTCGCAGATTGACGCGCAGGCGGCCGCCAACATCAAAAACCAGACGACGCTGGACAACACGATTAAATCGGTGGCCAGTATCACCAGTACCCAGCAGACGCATGCAACGGCACTGGAGGCGCTGGCAACGCAGCAGACGACCCTGACATCCAGTGTCGGGGATCTCAGCGCTTCCGTTCAGAACACCGCCAAAACCGTGGCGGATGTGAATGGTACGGTTAGTTCGCTGTGGTCGATGAAGGTTGAGACGGTTAACGGGAAGAATGTTGGCGCGGGGATTACGCTGGGCAGCAATGGTGAAACGAGCGACATGATCCTCTACGCTGACCGCTTCTCGCTGTTTAACCGTAATAATGCGACGGCTGTTCCGGTGATGGTTGCCGAAGGCAATGAGCTGTATATCGATACGGCACGTATCAAAAACAGTTCCCTGACCTCTGCCAAAATCGCGGACGGTTCCATCACGAACGCGAAGATCGGCAACGAGATCCGCTCGAATGACTTTGTTGACGGGTCACGCGGCTGGCGTATCGCTAAGGATGGCTCTTCGCAGTTCAACAACGTGATCGTTCGCGGTGCGGTTTATGCGACTGACGGCTGGTTCCAGGGTACGGTATATGCGAACCACATCGAGGGCGACATCGGGTCATTTGCGATCAACATCGCTCAGCACCGCACGCGCAAGGTGCCGAAGGCTACATGGCAGTGGTTTGAGCTGGCCCGGTTCCGGCGGCAGAATTTCGACCAGGTGATCAATATTCGCGGTGGACTCCTCCAGACGGATAGCATCACTATCGACGGCGGCGCGAAACTCAGAGCGGGGATGTCCTACGCGCCAGGGGCTGACGGCGGACTGAATCCTGGCTATCTGTCGTATGCAATGCTTCTTCGTGGCACAGGCGCTACGTCTGGTGGCGGCAGTATGGAGCTAGGCATTGAGCTTATGTATGAAACAGGTGGAGCAACACGCCTGTTAACGGCGCAAGAGTCAATGAACGTAGACAACATGTCATTTGTCGTCCCTGCCGGTACTGGCGACGCTGTTCTGCGATATGGCTGTTACCTGGACCGTAACGGACAGATGGTATTAACCATCCTCTCAAGATTCGACGCCTTCGCCGCGCGCAATAACAACGTAATTAGAGCTGCATCATCTGCTTAA	MANNIIKGRKGGGSKQRTPTEQPDDLQSVAKAKILLALGEGEFAGGLTGKDIYLDGTPLENADGSQNFSGVSWEFRPGTQAQTYIQGIPGTENEISVGTEVSSKTAWTHTFTNTQLSAVRVRLKWPSLMKQEDDGDVVGNTVKYAIDLQTDGGAWQTVLETAVTGKTTSGYERSHRIDLPQAGSTWTLRLRKISPDANSVKTGDVMTLQSYTEVIDAKLRYPNTALLYIEFDSSQFNGSIPQISCEPRGRVIRVPDNYNPETREYTGVWTGGFKWAWTDNPAWIYYDIVIADRFGLGNRLSSANISKWTLYQIAQYCDQLVPDGRGGDGMEPRYTCNVYVQERNDAYTVLRDFAAIFRGMTCWNGEQIVVQADMPRDVDFTYTRANIIGKPRYSSSSSQVRYTNALVSWSDPDNAYADAMEPAFIPELVSRYSFNQLELTAIGCTRQSEAHRKGLWGILTNNKDRVVEFDVGLDGRIPQPGYIIALADELLAGRVNGGRISAVNGRVITLDRDVDAKPGDRLQLNLPSGISQSRTIQAVNGRRQITVTTAYSETPERECVWAIESDDLFLQQYRVTGVKENSDATLTITGVAHDPDKFARIDTGAIIDQRPVSVLPAGNQSPPDDIVITSRSVVNQGISVETMQVNWSAVSGAIAYEAQWRRNDGNWINVPRSSTTSFEVSGIYAGRYLVRVRAINAAEISSGWAYSEEKTLTGKVGEPLAPLALATRSLVHGVQVSWEFPTGSGDTLRTELQYSKNQDGSAPMPLSDVAYPGKSYQQMGLSMGAEFWYRARLVDRLGNESPWTGWVQGMASDNFDDYYENLTDAIKDTAAWEETQRTISETQEGIRNTQQELEQTAEALRKEAEDQAKQVSQNIDASAKSITADVDGKISAVNKTITDEITLVNETLDADIATVNQALDSGLAQANKGVQEAKSAVADANKQIATVNKSLTDSITQVRQSVTDTAAEINATIDLEIARVSKTLADGDAALNAQIKTAENGLKQSLSQVNTTLTSAVKQETADRIADVNAKAAQAADELLAATQGIEASIESLTQVMKTADENLAREMSSLAAGANIQFDSQVIWHFNNQTTEGWTGSAGVPGVSQDGWLRPADSATDPYITSPGGLAVDGAAYRFIMLRFRKTGKPVWAGEIRWVSAGENFNNTKRYIVAEPEYADGVATLTVRDIPWTGNIDRIRLDLTNQQDASNFIEFDWIAVGRPAPGASTAALQDVRSTLSNALTAEAQARSTLAAQMRGSYEGSDLEKVTSGLLYQEKTARVTAISAEVKARESLQTQFNDNKAAVSGELSSLTTEQSAQASRIGGLETSLGKKADAAALTSLTQKVEQQGATLTSQGAALTSLTNRVGQTETGLAGTNEALSGLQSVVTRQGDRITSQGQSITKLTSDLGTTNAALAKKAEATAVTALTQQVEQNGRDIRSNTDSITSLSNQLVNGQPNRWSRRLYPVQLANAGTVPSFSDIRAVAPTVVDEVADAAKLDFTSAGSYLIALYSCQVKVAADTTITLAPGARVFDDTGAIFVNGVQVAWGNASWNTVSFELKAGWNTVEFLVNQWTGQAYINLGLKLSDKVAEMYSGLGVSALANAAGVLSSNVSQIGNDVVSNSQNITQLRNALTQTDANVASKADQTAMNSLTGRVEKTESGLTAANANITSLKSAVRAGNASGGDLIPNPTFDPAYDQMGFSVVATTAEEVPPGCPYGYAARIASRDHHPNFAAFPATLNDVIEISALVACGAGTANFNLYVGTAVRPDTSTGAPLMAGGGKSPSATWQRTTWRFKVTQAMVDRGYIRPFLQISQNSPYGTVWFVTDWHMRNVTAAQKVQDTADATAAAVDSLTTTVTQQGNLLTSTGNRTTQLENGLATTNAAVAKKADATAVQDLTNTVTQLGNDLTAANSAITKLTGNLANTDKALAQKADATALATLDTKVTQQGKTLESQSNSLTNLSNSLSQVAADIDASGQIPGNLVVNPSFERGLDGYTGRSTATSVVEVSAPHSGTRALKVDPGSVSPGQYIPFVQGRTYEIGVWVKEPGATTDNGAGNNKLRIGNSAGQPVFERPYNSGTVGTNWTLISGRWKATETASLPVTLSNYLISGSRYFDDFYVTDVTDRVDIDATAGAVTGLTSRVSTAEGAITSQSQQLTNLQNSLNTTNSNVSKKADATALTSVDNRVTEAEGKLTTQSQQLTNLANVLTATRNAGDNLIPNFDFLQGSTAWDIQYPAGVTFGDFGDGKAGVRLNRTTNTSPGIFSNNNKPVPLNGQRKYRVVVKAKGVSGAMSLLIRRQNKIGQTDSTYEDKTVTLTTDWQTITWETGLTAAGADGQNFKLYSHPTNGEIWLDSVRVFDITDETNIKATSDAVSSLTGTVTNQGNTLTSQGQSITALNNALEGVKGDVAKKADASAVSSLTNRVTQTEKDIRSQADSLTRLNTSLKQQATRGANVLPDGSFESYAVGDVLSNARAVITSEAAHSGTKSLRVTRSTEYNPNATDNNDTHIFSGMQVRDNAVYYVEAWVKLPAGSTADPTVYMVLGFSFQDSANGWSWPGLNVKVSELSVDNWTKVSGYLTNNRTALKQAMVRISIPNTPKVRLGDAFLIDDLIITDVTDAKAALDAADANAQALSSLSASVTQNGKNITSQGSAITKLQSDVTQLGKDISGKADASALTNLTTRVTATEGGLKSQGDSLTSLQNSLNTTNSNVAKKADATALQSLQNTVEQHGRDLTTQSGALTSLQNSLNTTNSNVAKKADATALQSLQNTVEQHGKDLTTQSGALTSLQNSLNTTNSNVAKKADATALQSLQNTVEQHGRDLTTQSSALTNLENNFSSLAVGGTNLIRNADTLEGWSSRHATETYLGDRVAYTRLAKGASGYTQLDEQTLDVTGRTEFVFSFYAKGAYDGQEMASYFYNPSNTTTTETSQGVKGGAGDGKAVTKLTTAWARYWVKWVIPATSGTKRLIAARLESATSADKEVWLCRPQLETGTVMTDWSPSPDDAASGITANTSAINSLTSRVTNAEGQLTAQSQSITNLQNSLNTTNNNVAQKASAQSVSDLTSRVTSAEGKITSQGQAITKLQGDLSSTTDKVNTKADQTALNALTGRVEKTEAGLTAANSNIVSLTAAVNAGNAAGDDYIPNPSFDPAYDRMGYDVVETTAAGVPADCPFRYAVRLAGRDHVPKINNIAVTPGDVYEMSALVACGTGSADFNFYIGRATTATGGIGARASGGNTRTTTAWKRATWRFTVPADTNFLRPFLQVNQSSPFGTVWYAADWHMRNVTAANSAQKTADATAKAVDSLTTTVSQQGDTLSSIGTRTTSLENSLRSTNDTVSKKADTTAVTQLQGTVTQQGNDIAAANSALTKLSSDLATTNANVNKKADASAMNTLQNQVTEQGKTLSAQGDSLTQLSNSLSQTAADIDASGKMPGNLIVNGSFERGAAGFTGWSSTATVADLQVPHSGNKALKMSAGQSNLVGQEISITQGRTYRMGVWAKQDPGTTIKDAGNTKFRVADSTGLLVGSNYGPFSSGWQLVTFDWKATKTTTASFQLTTFLSAGAMYFDDFHVLDVTDEKDIAANAGAISQMNTRVTAAEGAITTQAQQLTKLSGDLAVTNAAVSKKAEQSAVTGLTTRMTSAEGKLDSQSQQLTSLQNSLTTMNTELGKKADTSAVSSLTGRVSQVENTITSQSQSITSLTSTINTIRTQGANPWVDGTFESYSDGQVLGGNGTAVVVASQKFTGGKSLKLRRDENNSGNSDKQLGTWQSVREDAKFRFEFWAMMPADQAPSSGWTTLVGIQSQNAAGQNAWQAAVTVSEASLGARDKWVKFTGIASNNGAGRTRAVVWISTRGATGNGTPGYSLYIDDLVITDVTDAKAAQDASDATASAVSGLTARVTDAEGKITAQAQQQTALATKVDNANSRVDNMAKTLSDSQSTQASLNTSLQSQIDAQAAANIKNQTTLDNTIKSVASITSTQQTHATALEALATQQTTLTSSVGDLSASVQNTAKTVADVNGTVSSLWSMKVETVNGKNVGAGITLGSNGETSDMILYADRFSLFNRNNATAVPVMVAEGNELYIDTARIKNSSLTSAKIADGSITNAKIGNEIRSNDFVDGSRGWRIAKDGSSQFNNVIVRGAVYATDGWFQGTVYANHIEGDIGSFAINIAQHRTRKVPKATWQWFELARFRRQNFDQVINIRGGLLQTDSITIDGGAKLRAGMSYAPGADGGLNPGYLSYAMLLRGTGATSGGGSMELGIELMYETGGATRLLTAQESMNVDNMSFVVPAGTGDAVLRYGCYLDRNGQMVLTILSRFDAFAARNNNVIRAASSA	PGPT0022155_130	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
BMS020_08290	1461			hypothetical protein	ATGGCGATGTATGAAGTCGGCACCGTCACGGGTGCAGCGTCGCAGGCACGGGTGACAGGTGCGACAACAAAATGGTCACAGGTGGCGCTGGGGATACTGCCCGGGTCGATTCTGGTGGTCTACCGCAGCGGTAGTGCTGACCTGTATGCGATCAAATCCGTGGACAGCGACACGCAACTGACGCTGACCCGGAATATCACCACCGCATTTTCCGGTGCCAGTTACGGCATTATTACCGCTGAAACCGCCAGCACCTCGTCGTTTGCTAACCAGCTGGCCAGCGCGTTTGCATTCTGGCGTAGTGTAGTGGAGGGCTGGTCGATGGCCCTGACCGGCAGCGGCAATATCACCCTGACAGACCCGATCACAGGAAAGCAGGTGATCGTGCCGGCGATAGCCGGGATGGCGAAGGCATCGGATCTTAACGCACTGGCAAAACTCACAGGAGGAAACAAACTCGACGGCTCGCAGGTTATAACCAGCGATAATGCCGGTTTTATTCTCGGTAAGAACTCAGATCTGGCTCTGCTCAAAAAACAGGGGCAAGGCGGGACAATTGCCGTTGGCTCGGGAACACCGTTCAGGGTTCAGCGTTCAAGAGCGACCACTGTGTCACCGACAGACACCTTTGATGACATCCTCGTTATTGATGCCAACAACCAAACGACACTGCCTGGCGCGCTGTCTGCCGGCGGCAATATCGATAACACGTCGAAGGGTAAAGTGTTGACGCAGGCCATTGAGCTATCGATGAGCACGCCATACATCGACTTTCATTTCAACGGTAGTACCGCCGATTACACAACGCGGCTTATCGAGAGCGTAGCCGGTGAGCTGACTCTCGAGGGGGCCTTTATGTGTAAAAAGCATCTATACGCCTGGGGAGCAATTATGGCCCGGAACATCGCTCCCAGCGCACCTTCTAATGGCCAGCTTGTCACCGGTGCGCCGTTCCAGTCGATGATACAGGGACGCGGTGGATATGGAGATGCGCGCGGGGCAGTGGCAAATTACTACATTGAGGAACGGGTAGGAGAAGAGCATAGGGCGGTTGTCTATCTTGATGGCTATGGCCGAACAGATGCTTGGCTATTTCGGCCAGGCGGCACTATCACCACAGGCAAAGGCGACGTCATGACTACCGGTTCTGACGTTCGTCTGAAAGACGGATTTACAGAACCCCAGGAAGGGGCCTCCAGGCGCATTAATGCGCTAGGGGTATGCGAGTTTAACATGAAGGGGGAAACACGCCGCAGGCGTGGCTTTATCGCCCAGCAGGCTGAGAAAGCTGACGATCTGTATACTTTCCTCGGCATCGAGCAGGAGATTGATGGCGAAAAATTCAGGGTGATGAATGTGGATTACACGGCAATCATTGCCGATCTGGTTACGGTGGCGCAGGGTTTACTGGTTAAAAATCAGGAATTGGAAAGGCGTATATCTGTGCTGGAGGGGACCTGA	MAMYEVGTVTGAASQARVTGATTKWSQVALGILPGSILVVYRSGSADLYAIKSVDSDTQLTLTRNITTAFSGASYGIITAETASTSSFANQLASAFAFWRSVVEGWSMALTGSGNITLTDPITGKQVIVPAIAGMAKASDLNALAKLTGGNKLDGSQVITSDNAGFILGKNSDLALLKKQGQGGTIAVGSGTPFRVQRSRATTVSPTDTFDDILVIDANNQTTLPGALSAGGNIDNTSKGKVLTQAIELSMSTPYIDFHFNGSTADYTTRLIESVAGELTLEGAFMCKKHLYAWGAIMARNIAPSAPSNGQLVTGAPFQSMIQGRGGYGDARGAVANYYIEERVGEEHRAVVYLDGYGRTDAWLFRPGGTITTGKGDVMTTGSDVRLKDGFTEPQEGASRRINALGVCEFNMKGETRRRRGFIAQQAEKADDLYTFLGIEQEIDGEKFRVMNVDYTAIIADLVTVAQGLLVKNQELERRISVLEGT				NA	NA	NA	NA	NA
BMS020_08291	966	sopB		Protein SopB	GTGAAACAGCGCTCTATTTTAAAAAATGCCCCCAACATCGACAGCATTATGAGCAAGACGCACCAGGCGCCCGCATCACAGCCTGTGTCACCGATGGTGGGTGATTTGCAACGCCAGCTTAGTTCATTATCGGGAAACAGTATTATGCTGCCTGTGTGTGGACGTAACGTTAACTTTAAGCTGGAAACTATCCCAGCGGATAAAGTTGAAATGGCGACGATGGTTTGGCTCGGTAATGAACGTGATCAAGACCTGCTCAACGAAACGTCCTTGGCCGATCTCGTTCCGTCATTCCTCACTTCGGGGCAGCAGAACCCGGCGTTCGCTCGCAAAACTGCAGGCATCATAGAGGTTGCTGATGGTTCTCGGCGCCGAAAAACAGCCATCATTACAGGTTGCGATTATCGCGTATTAGTCGGTGATCTCGATGACGAACAAATGCAGTGGCTCTCTCAAATCGGCAACGATTATCGACCAACAAGCGCATATGAGCGGGGGAAAAAATATCAGCGCCGCCTGAAAGATTTTGACGGCAGCGTAAAAGCTTTAGCTGAAGCAGAAGGGGTGGACCGCAATATCATAACCCGCTGCATCAACACAGCTGGCCTGCCTAAAGATATCATCGCCATTTTTCAACATCCTGGTGAGCTATCAGCCCGTGCGGGGCATGACTTGTTCAAGATATATCAGGGAAACGAGAAAGCGATGCTCGATGCGGCGCAGCAGCTGCTACGCATGAAGAAGCAGGGTGAAAAGTTCGAACCTATACGGATCATCCAAGCATTACAGGATTTTATTAAGACCAATGCAAAAGATACACAAAAGACCGAAAAAGCATATGGTGAAGGGGTTGTTGCTAAATATAGCGGTAACTACGTTACCTTAAAATTTGATAACCGGAAGATACCATCCAGCTTAATGCAAAAAATTGAAGAGTTGCTTGAGTCAGAGTTAGAAAAAAAATAA	MKQRSILKNAPNIDSIMSKTHQAPASQPVSPMVGDLQRQLSSLSGNSIMLPVCGRNVNFKLETIPADKVEMATMVWLGNERDQDLLNETSLADLVPSFLTSGQQNPAFARKTAGIIEVADGSRRRKTAIITGCDYRVLVGDLDDEQMQWLSQIGNDYRPTSAYERGKKYQRRLKDFDGSVKALAEAEGVDRNIITRCINTAGLPKDIIAIFQHPGELSARAGHDLFKIYQGNEKAMLDAAQQLLRMKKQGEKFEPIRIIQALQDFIKTNAKDTQKTEKAYGEGVVAKYSGNYVTLKFDNRKIPSSLMQKIEELLESELEKK	PGPT0014815_3871	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497	NA	NA
BMS020_08292	1164			hypothetical protein	ATGTCGCTTATTAATTTACTGCATGAATGTATCAGCCGCGGGCAGGAGATGACGCAGGCCATTGCTATAGCTCAATTTGGTGATGATAGCCCCGAGGCTCGCCGTATCACTCGTCGCTGGGGGATAACCGAGGTTGCTGATTTAATCGGCGTTTCGCCGCAAGCAATTAGGGATGCTGAAAAAAATGGGCGACTACCACCACCTGATTTTGAGTTACGCGGTCGCGTTGAACGTCGCGCCGGCTATACCATCGACCAGATTAGCCATATGCGCAGCATTTTCGGCAATCCGAATCAACGGCCTGCAGACAAAAATCCAGCTGTGTTAGCTGTTATGTCGCACAAAGGCGGCGTTTATAAAACCTCATCTGCAGTGCATGAAGCTCAATGGTTAGCTCTGCAAGGTCACCGAGTGCTACTCATTGAAGGTAACGATCCGCAAGGGACCGCCTCGATGTATCACGGCTATGTACCGGATTTACACATCCATGCCGAGGATACTTTGCTCCCGTTTTACCTTGGTGAGCGTGATAATGCGGAATACGCTATAAAACCGACCTGCTGGCCAGGTCTGGACATTATCCCCAGCTGCCTGGCGCTGCACCGTATCGAAACGGATCTGATGCAATACCATGCCCAAGGAAAACTACCTCATCCTCCGCATCTGATGCTACGGGCCGCTATCGAATCCGTATGGGATAACTATGACATCATCGTCATTGATAGCGCTCCAAACTTAGGGACAGGTACGATTAATGTTGTTTGTGCAGCCGATATTATCGTCGTGGCTACCCCTGCAGAGCTATTTGATTATTCATCCGTTCTGCAGTTCTTCACCATGCTTCTGGACCTTCTTAAAACCGTTGATTTAGGTGGTTTTGAGCCTGTTGTACGGCTGTTACTAACGAAATACAGTCTGACCACTGGCAATCAATCGCGCTGGATGGAAGAGCAAATCAGAAATACATGGGGATCGATGGTCCTGCGTCAGGTTGTCCGAGTGACGGATGAGGTAGGAAAGGGCCAAATAAAAATGCGCACAGTATTTGAACAGGCCGCGAACCAGCGTTCAACGCTTAATGCATGGCGAAATGCAGTCTCTATTTGGGAGCCTGTTTGCCAAGAAATTTTCGATGACTTGATTAAACCTCGTTGGGAGGACTAA	MSLINLLHECISRGQEMTQAIAIAQFGDDSPEARRITRRWGITEVADLIGVSPQAIRDAEKNGRLPPPDFELRGRVERRAGYTIDQISHMRSIFGNPNQRPADKNPAVLAVMSHKGGVYKTSSAVHEAQWLALQGHRVLLIEGNDPQGTASMYHGYVPDLHIHAEDTLLPFYLGERDNAEYAIKPTCWPGLDIIPSCLALHRIETDLMQYHAQGKLPHPPHLMLRAAIESVWDNYDIIVIDSAPNLGTGTINVVCAADIIVVATPAELFDYSSVLQFFTMLLDLLKTVDLGGFEPVVRLLLTKYSLTTGNQSRWMEEQIRNTWGSMVLRQVVRVTDEVGKGQIKMRTVFEQAANQRSTLNAWRNAVSIWEPVCQEIFDDLIKPRWED				NA	NA	NA	NA	NA
BMS020_08293	2721		COG3250	Beta-galactosidase BoGH2A	GTGATCGGCGCGGCGTGCGCGGCGTTGCTGGCGCTGCTGCCGGTCGCGGCGGCAGCGCAGGCCGGGGGGGACATGGCGACCCCGCGGCAGGTGATTGCACTCGACGACGGCTGGCGCTTCCATCGCGGCGATCCGCCCGGTGTCGATGGGCGGCTGGACTACGAGGCGCGCCCGGAGGTGCTGGACGACGTCGATGGCCGCAACGCCGATGCGCGGCCGCAGGCGGCGCAGGCGCAGGGCGCGGACCGCCCGGTGCTGCGCCCGTGGATCCTGCCCAGTGCCAATGCGCTGCTGCCGCCGGCGCGCCAGCACGCACGTCCCGCTGGCCCGCCGCCGGGCGCCGACGTCGCGTTCGCGCAGCCGGACTACGACGACAGTGGCTGGCAGCCGGTGCGGCTGCCGCACGACTGGGCGATCGCCGGGCCGTTCCTGGTCGAGGGTCCGTACGGCGGCATGGGGCGGCTGCCGAGCTGGGGCGTGGGCTGGTACCGGCGCACGCTGGAACTGCCGGCCGCGACGGCCGGGCAGCGCGTGTTCCTCGATGTCGACGGGGCGATGTCCTACAGCACGGTCTGGCTCGACGGCCAGCTGGTCGGGGGCTGGCCGTATGGCTACAGCAGCTGGCGGCTGGACCTGACCCCGCTGCTGCGGCCCGGCCAGCGCCAGCAGCTGGCGATCCGCCTGGACAATCCACCCGCGTCGGCGCGCTGGTACCCCGGCGGCGGCCTGTATCGCGACGTGCGCCTGAGCATCGTCGCGCCGGTGCATGTCGCGCACTGGGGCACCACGGTGACCACGCCGCAGGCATCGGCCGCGTCCGCGACGGTGCGGCTGCGCGTGGCGGTGGACAACGACGCCGCGGGCGACGCCGCGCTGCAGGTCGACACCGTGCTGCATGCGCTCGACGCCGACGGGCGCATCGACGGTGCCGCGGTCGCGACGATGCCGACCGCGTCGCTGCACGTGGCCGCCGGCGAACACGGCGCCAGCGTCGAGCACCAGGTGCGCCTGGCGCATCCACGCCTGTGGGGGCCGCCGCCGGACCAGCAGCCGCACCGCTATCTGGCCGTCACCACGTTGCGCCGCGACGGCCGCGTGATCGACCGCTACGAAACGCCGTTCGGGATCCGCAGCGTGCGCTTCGACCCCGACCGCGGCCTGCTGGTGAACGACCAGCGCGTGCCGGTGCGCGGGGTCAACCTGCACCACGACCTGGGCGCGCTCGGCGCGGCGTTCAACCGCGATGCCGCCGCGCGCCAGCTGCGGCTGCTGCAGGCGATGGGCGCCAACGCGATCCGTACCGCGCACAACCCGCCGTCGCCGCAGCTGCTGGAGCTGGCCGACCGCATGGGGCTGCTGGTGCTCGACGAGATCTTCGACAGCTGGCAGCAGCGCAAGACCCCGCTGGATTTCCACCGCGTGTTCGACGACTGGCACGAGGCCGACCTGCGCGCGATGCTGCGCCGCGACCGCAACCATCCCTCGGTGATCCTGTGGAGCGTCGGCAACGAGGTCGGCGAGCAGTACAGCGGCGCGGAGGGCGCTGCGATCGCGCAGCGGCTGGTGGCCATCGCGCACGAAGAAGATCCCACGCGTCCGGTCACCGCGGCGATGAACTACGCCAAGCCGGACATGCCGTTGCCGGCGCAGCTGGACGTGATCGGGCTGAACTACCAGGGCGAGGGCATCCGCCAGGAGCCCGAGTTCGCCGGCACCGAGCGCATCCGCACGCCGCCGCAGTACGCCGCGTTCCATGCGCGCTTCCCGCACGTGCCGATCCTCAGCACCGAGACCGCCTCGACGCTGGACAGCCGCGGCGTCTACCTGTTCCCGGTCACGCCCAAGTCCAGCGCGCCGCTGCGCGACGGTGCCGGTGGCGACCCGGTGGCGCACCAGGCCAGCGCCTACGGGCTGTACGCGGTGGATTTCGGTGCCAGCGGCGACAAGGTGTTCGCCGCGCTCGATGCGCATCCGTTCGTCGCCGGCGAATTCGTCTGGACCGGCTTCGACTACCTCGGCGAACCGACGCCGTACTACGACGCGCGCAGCGCCTACTCCGGGATCATCGACCTGGCCGGCTTCCCCAAGGACCGCTACTGGCTGTACCAGGCGCGCTGGCGCCCGCAGCTGCCGATGGCACACCTGCTGCCGCACTGGACCTGGCCGGGGCGCGAGGGCCAGCTGACGCCGGTGCACGTGTTCACCTCGGGCGACGAGGCCGAGCTGTTCGTCAACGGCGTCTCGCAGGGGCGCAGGAAGAAGGGCCCGTTCGAGTACCGGCTGCGCTGGGACCAGGTGCGCTACCAGCCGGGCGAACTGCGCGTGGTCGCCTGGCGCAATGGCAAGCCGTGGGCCAGCGACACGGTGCGGACCGCGGGGGCGCCGGCGCGCTTGGCGTTGCAGGCCGAGCGCGCGCGCATGCCCGGCGACGGACGCGCGCTGGCCTACGTGGCGGTGCAGGTGCTCGATGCCGCCGGCACGCCGGTGCCCGGCGCACGCCTGCCGGTCAGTTTCCAGGTTGCCGGGCCGGCGCGGCTGCTGGCCACCGACAACGGCGATCCGACCGACATGACCGCGTTCCCGTCGGCGACGCGGCGGATGTTCAGCGGGCGGGCGCTGGCGATCGTGCAGGCGCAGGCCGGCGGCGTCGGTACGGTGACCGTGCGCGCGGAGGCGCCCGGGGTGGCGGCGGCGGAGCTGGCGATCGCGGTCGAGCGGTGA	MIGAACAALLALLPVAAAAQAGGDMATPRQVIALDDGWRFHRGDPPGVDGRLDYEARPEVLDDVDGRNADARPQAAQAQGADRPVLRPWILPSANALLPPARQHARPAGPPPGADVAFAQPDYDDSGWQPVRLPHDWAIAGPFLVEGPYGGMGRLPSWGVGWYRRTLELPAATAGQRVFLDVDGAMSYSTVWLDGQLVGGWPYGYSSWRLDLTPLLRPGQRQQLAIRLDNPPASARWYPGGGLYRDVRLSIVAPVHVAHWGTTVTTPQASAASATVRLRVAVDNDAAGDAALQVDTVLHALDADGRIDGAAVATMPTASLHVAAGEHGASVEHQVRLAHPRLWGPPPDQQPHRYLAVTTLRRDGRVIDRYETPFGIRSVRFDPDRGLLVNDQRVPVRGVNLHHDLGALGAAFNRDAAARQLRLLQAMGANAIRTAHNPPSPQLLELADRMGLLVLDEIFDSWQQRKTPLDFHRVFDDWHEADLRAMLRRDRNHPSVILWSVGNEVGEQYSGAEGAAIAQRLVAIAHEEDPTRPVTAAMNYAKPDMPLPAQLDVIGLNYQGEGIRQEPEFAGTERIRTPPQYAAFHARFPHVPILSTETASTLDSRGVYLFPVTPKSSAPLRDGAGGDPVAHQASAYGLYAVDFGASGDKVFAALDAHPFVAGEFVWTGFDYLGEPTPYYDARSAYSGIIDLAGFPKDRYWLYQARWRPQLPMAHLLPHWTWPGREGQLTPVHVFTSGDEAELFVNGVSQGRRKKGPFEYRLRWDQVRYQPGELRVVAWRNGKPWASDTVRTAGAPARLALQAERARMPGDGRALAYVAVQVLDAAGTPVPGARLPVSFQVAGPARLLATDNGDPTDMTAFPSATRRMFSGRALAIVQAQAGGVGTVTVRAEAPGVAAAELAIAVER	PGPT0017810_2418	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017810-lacZ-K01190	NA	NA
BMS020_08294	1425	uxaC_2	COG1904	Uronate isomerase	ATGACCACCAACGCCCCGCCGCTGGACCTGCACCCGGACCGCTTGTTCGCGGCCGACCCGAGCCAGCGCAGCATCGCGCGGCGGCTGTACGCGCAGGTCGCGCAGCTGCCGATCATCAGCCCGCACGGCCATACCGACCCGGCCTGGTTCGCCGGTGACGCGCCGTTCGCCAATGCCACCGAGCTACTGCTGGTGCCCGACCACTACCTGTTCCGCATGCTCTACAGCCAGGGCGTGGATCTGGATGCGCTCGGCATCCCGCGTGCCGACGGCAGCCGTGCGCAGGTCGATCCGCGCGCGGCGTGGCGGGTGTTCGCCGAGCGCATGCCGCTGTACCGCGGCACGCCGTCGGCGCTGTGGCTGGATCACGTGCTGCATGAGGTGTTCGGGCTGCGCGAGCGGCTGTGCACGGCCAGCGCGGACCGCAGCTTCGATGCGATCAACGCCGCGCTGGCGACACCGGCGTTCCGTCCGCGTGCGTTGTTCGAGCGCTTCGGCATCGAGGTCATCGCCACCACCGAATCGCCGCTGGAAACGCTGGAACACCACGCCGCGATCCGCGCCAGCGGTTGGGGCGGGCGGGTGATCACCGCGTACCGGCCGGATCCGGTGATCGATCCGGAGCATGAGCAGTTTCCCGCCGCGCTGGCCCGGTTCGGCGAGCTTACTGGCGAGGACGTGCACAGCTGGGACGGCTACCTGCGTGCGCATCGCCAGCGTCGCGCGTTCTTCAAGACGCTGGGCGCGACCTCCAGCGATCATGGCCACCCCAGCGCCGCCACCGCCGATCTGTCGCCGGCGCAGGCGCGCGCGCTGTTCGCCAGAGTCGTCGCCGGCGGTGCCGATGCGGCCGAGGCCGAGCTGTTCCGCGCGCAGATGCTGACCGAGATGGCGGCGATGAGCGTGGACGACGGGCTGGTGATGCAGCTGCACCCGGGCTGCTACCGCAACCACAACCAGGCGCTGTTCGCGCGCCATGGCCGCGACAAGGGCGCCGACATCCCCCTGCGCACCGAGTACGTGCATGCGCTCAAGCCGCTGCTGGACCGCTTCGGCAACCATCCGGGCTTCCGCCTGATCCTGTTCACCCTGGACGAGAGCACCTACGCGCGCGAACTGGCGCCGCTGGCCGGCCATTGGCCATGCCTGCTGCTCGGCCCGGCGTGGTGGTTCCATGACGCGCCCGAAGGAATGTGGCGCTTCCGCGAGCAGACCCTGAGCAGCGCCGGCTTCTACAACACGGTCGGCTTCAACGACGACACCCGCGCGTTCCTGTCGATCCCGGCGCGCCACGACGTCGCCCGTCGCGTCGACTGCGCCTTCCTCGCCAAGCTGGTCGCCGAGCATCGTCTGGAGGAGGACGCGGCGGCCGAGGTCGCGGTCGACCTGGCCTACCACCTGCCGAAGCGGGCGTACCGGCTGTGA	MTTNAPPLDLHPDRLFAADPSQRSIARRLYAQVAQLPIISPHGHTDPAWFAGDAPFANATELLLVPDHYLFRMLYSQGVDLDALGIPRADGSRAQVDPRAAWRVFAERMPLYRGTPSALWLDHVLHEVFGLRERLCTASADRSFDAINAALATPAFRPRALFERFGIEVIATTESPLETLEHHAAIRASGWGGRVITAYRPDPVIDPEHEQFPAALARFGELTGEDVHSWDGYLRAHRQRRAFFKTLGATSSDHGHPSAATADLSPAQARALFARVVAGGADAAEAELFRAQMLTEMAAMSVDDGLVMQLHPGCYRNHNQALFARHGRDKGADIPLRTEYVHALKPLLDRFGNHPGFRLILFTLDESTYARELAPLAGHWPCLLLGPAWWFHDAPEGMWRFREQTLSSAGFYNTVGFNDDTRAFLSIPARHDVARRVDCAFLAKLVAEHRLEEDAAAEVAVDLAYHLPKRAYRL	PGPT0018210_354	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
BMS020_08295	1326	exuT_5		Hexuronate transporter	ATGGAGCAGCGGATCGAGGCGGCGCACGCCGATGCGGCGGCGCCGGCAGCAGCTGCGGTCGGCATCGGCCGCTATCGTTGGCGGGTCTGCGCGATGTTGCTGGCCGCGACCACGATCAACTATGTCGACCGTCAGGTGCTCGGCGTGCTGGCGCCGTACCTGCAGGAGCACATCGGCTGGAGCGAGGTCGAGTACGGCGGCATCGTCACCGCGTTCCAGGGCGCGTACGCGTTGGGCCTGCTGTGCGCCGGCGCGGTGGTCGACCGGCTCGGCACGCGCATCGGCTATGCGATCGCGATCGGCGTGTGGAGCCTGGCGGCGATGGGGCATGCGCTGGCGACCGGGGTGGCCGGCTTCGCGCTGGCGCGCTTCGTGCTCGGACTGGGCGAGGCCGGCAACTTTCCGGCGGCGATCAAGACCGTGGCCGAGTGGTTCCCGCGCCGCGAGCGCGCGCTGGCCGTGGGCATCTTCAATTCCGGCTCCAACATCGGTGCGATCGTCGCGCCGCTGGCGGTACCGTTGGTGGCGGCGCGCTGGGGCTGGCAGGCAGCCTTCCTGTGCACCGGCGTGCTGAGCGCGATGTGGCTGTTGCTGTGGTTGGCGTGGTACCGCGCACCGGACGCGCAGCCCAGGCTGTCCGCACGCGAGCTGGCGCACATCCGCAGCGATCCGCGCGAAGCCTGCGGCCGCGTGCGCTGGGCGCGCATCCTGCAACATCGCCAGGCCTGGGCGTTCGTCGCGGCGAAGTTCATCACCGATCCGATCTGGTGGTTCTTCCTGTTCTGGCTGCCCAAGTTCCTGCACGCGCGCTACGGACTGTCGCTGCTGGAGCTGGGCCTGCCATTGATCGTGATCTTCGTGATGGCCGACATCGGCAGCATCGGCGGCGGCTGGTTGGCCGGGCGGCTGGTGCGCGCCGGGTGCAGCGCCAACCGCGCGCGCAAGGGCGCGATGCTGGTCTGCGCGCTGTGCGTGGTGCCGATCGTGTTCGCCGCGCGCGCCGACAACCTGTGGCTGGCGGTGGCGCTGATCGGCCTGGCCACGGCCGGGCACCAGGGCTGGTCGGCGAACCTGTTCACGCTGCCCTCGGACATGTTCCCGCGCCCGGCGGTGGCTTCGGTGGTCGGCCTCGGCGGTTTTGCCGGCGCGGTCGGCGGCATGCTGATCGCCACCTTCGTCGGGCTGCTGCTGCAGGCCACTGGCAGCTATGTACCGGTGTTCGTGATGGCCGCCAGCGCCTACCTGCTGGCGCTGGGCGTGGTGCAGCTGCTGGCGCCACGGCTGCAGCCGGTCGCGCTCGGCGATGCCGGCGCGCCGCCGCCGTGA	MEQRIEAAHADAAAPAAAAVGIGRYRWRVCAMLLAATTINYVDRQVLGVLAPYLQEHIGWSEVEYGGIVTAFQGAYALGLLCAGAVVDRLGTRIGYAIAIGVWSLAAMGHALATGVAGFALARFVLGLGEAGNFPAAIKTVAEWFPRRERALAVGIFNSGSNIGAIVAPLAVPLVAARWGWQAAFLCTGVLSAMWLLLWLAWYRAPDAQPRLSARELAHIRSDPREACGRVRWARILQHRQAWAFVAAKFITDPIWWFFLFWLPKFLHARYGLSLLELGLPLIVIFVMADIGSIGGGWLAGRLVRAGCSANRARKGAMLVCALCVVPIVFAARADNLWLAVALIGLATAGHQGWSANLFTLPSDMFPRPAVASVVGLGGFAGAVGGMLIATFVGLLLQATGSYVPVFVMAASAYLLALGVVQLLAPRLQPVALGDAGAPPP	PGPT0017205_496	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_HEXURONATE_TRANSPORT,PGPT0017205-exuT-K08191	NA	NA
BMS020_08296	2895			hypothetical protein	GTGAAACAGCATTTGAACGTCAGTACGCTGGCACGCGCGCTGGGCATGGCGCTGTTGGCGGGCAGCAGCAGCGGGGCATGGGCGCAGCAGGCGTCCGCGGCACAGGACACGCCGGAGACGGCGACCGATGCCGGCGCCACTACACAGGATCCGATCAAGCAGCTCGATGCGGTGCAGGTCAGCGGCTATCGCCGCAGCATCCAGTTCTCCACCGATGCCAAGCGCGATTCGGTGACCTTCAGCGACACCGTGTTCGCCGAGGACATCGGCAAGTTCCCCGATATGAACATCGCCGAGTCGCTCAACCGCGTGCCGGGCGTGCAGCTCTCGCGCGACGTGACCGGCGAAGGCCTCAACGTCTCGATCCGCGGGCTCGGCACCAGCTTCACCAAGACCACGCTCAACGGCGCCGGCATCGCCACCGCCTCGATCGGCATCAACGCGCAGAACCAGAACCGCGAGGTCGATCTCAACCTGTTCCCGACCGAGTTCTTCACCCAGCTCAGCGTCAGCAAGACGCCTACCGCGAGCATGCCAGAGGGCGGCATCTCCGGCGTGGTCGACATGCGCAGCGCGCGCCCGTTCGACCGTCCCGGCACCCACTTCACCTACCAGGCCCAGGGCAGCTGGAACAGCAGCAGCGACAAGGTCAGCCCCAATGGCTCGTTCATGGGCAGCTGGACCAACGATGCCGGCACCTTCGGCGTGCTGGCCGGGGTGTCCTCGGTGCGCAACAACATCCTGGTCGACGGCTTCGAGAGCGTGGGCTGGACCAACCCTGGCCTCAGCTATGCGCAGTGCGGGTTGACGCCGCCGGACGGCACCGCGGCGACCACCGTCGCCGCGGCCTGCAACACCAGCGGCGGCGGCAACTGGATCATCCCGGCCACGGTGCCCAGTACCGCCAGCGGCCTCACCGCCGGCGAGACCATCGACGAAGCGTGGCTGCTGGCGCACAACCCGGGCCTGAGCATCGACCAGATCAGCGAGGCGCTGATCCCGCGCCTGGGCCGCCAGGTCTACATGGACGGCACGCGCGACCGCGATGCGGCGGTGATGTCGCTGGAATGGCGCCCGTCCGACCGCGCGCACTTCTACCTCGACACGATGTTCTCCAAGGCGCAGCGCGAGACGGACCGCATCGACATGAACCTGGTCGGGCGCAACGGCAGCATGATCCCGCTGGACATGCAGGTGGACGACAACAACGTGGTGACCAGCGCCACCTTCGCCAACGCGCAGTTCATGCTCGAGGCGCGCCACTACGTCGAGGACGTGAAGTTCTGGAGCCTCAACCCGGGCGGCGAGCTGTTGTTCGGCGACGACGACTGGATCAAGCTCGATGTGCAGGCCAACGCCAGCCGCAGCTGGATGCTGCGTCGCACCGCATCGGTACTGCTGACCTCGCCGTATACCACCATCGACTACAGCAACAGCGGCGGCGACTACCCGACCTGGACCACCGGCGGGCTGGACCTCAACGACCCGGACGCCGGCTGGAGCTGGTACCGGCTGAACATCCAGAACGAGAAGCGGGTGACCTGGACCCGCGGTGCGCGCGCCGACCTGCAGTTCGGCCACGACCAGCGCAACATCAAGGTCGGCGCCGCCTACGACGAGGCGTTCCGCAGCATCGTCGCCTTCGACAACAGCACCGCGTGGCAGAACACCGTCTACGCGACGGTCACCGGTTCGGACATCGCCTCGTATCTGAAGTCCACCGGCCACGGCTTCATCTCGGTGGACTTCGACAGCCTGTTCGCCGCCACCAACTACTACGCGCTCAGCGCCAATGCGCCGGAAAGCAGCGCGGCGATGACCGGCGCCGCCACCGGCAGCATCCAGGAGAAGAACCTGGGCTTCTACGTCGAGACCAACGGCGAGGTGCCGCTGTGGGACCGCACACTGCGCTACAACGCCGGCGCCCGCTACATCACCACCGACCAGACCATCGCCGGTCCGGTCACCGTCGCCACCGGCAGCTACTGGGTCTACAAGGACCAGGACTACGGCAAGATCCTGCCGTCGTTCAACCTGGCCTGGGACGTGGCCGACAAGGTGGTGGTGCGGCTGTCGGCATCGCGCTCGATGACCCGGCCCAACCCCAGCTCGATGCTGCCCAACACCACCTTCAGCGATCCCTCGGCGCAGACCGCCAGCCAGGGCAATTCGTCGCTGGCGCCGTACTACTCGACCAATGTCGATTTCGGCGGCGAGTGGTATACCGGCGGCGAGGGCTTCGTTGGCCTGACCCTGTTCAACAAGCGGATCAAGGGCTTCACCGTCAACGCCACGCGCACGATCCCGTTCTCCGAGCTGGGCATCGCTTACGACGACCTCACCGATACCCAGCAGGCGGCGATCGACCAGCGTGGCGGTGCCAGTGCGGCCACGGTCGACGTCACCACCCAGGTCAATGCCGATGGCATCCTCAACATCCGCGGCGTGGAGGCGATCTGGGTGCAGCCGCTGGACCGCCTGCTCGACGGCCTCGGCTACAGCCTCAACTACACCCACGTGGACCAGAAGTCCGAGGGCAGCGGCATCGCGGCGGTCGCCGAGGGCGTGGCGCCGAACCTGTGGAACGGCACGCTGTACTGGGAACGCGGCAATGTCTCGCTGCGCGGCTCCTACACCTGGAACGACAAGATGGTCATCTCCAGCGCCAACCAGAACGGCATCACCACCGCACGCCTGCATGCCGACGCGCGCGGCCAGCTCGACCTGTCGGCCGGCTACACGCTCAGCAACGTCTGGTCCTCGCCGCAGATCACCCTCAACGTCACCAACGTCACCGACGAACCGTTGCGCACCACGTTCGCCTACGACAACGCGACCTACGATTACTACCTGCCCGGTCGCACGGTGATGCTCGGCGTGCGCGGGTCGTTCTGA	MKQHLNVSTLARALGMALLAGSSSGAWAQQASAAQDTPETATDAGATTQDPIKQLDAVQVSGYRRSIQFSTDAKRDSVTFSDTVFAEDIGKFPDMNIAESLNRVPGVQLSRDVTGEGLNVSIRGLGTSFTKTTLNGAGIATASIGINAQNQNREVDLNLFPTEFFTQLSVSKTPTASMPEGGISGVVDMRSARPFDRPGTHFTYQAQGSWNSSSDKVSPNGSFMGSWTNDAGTFGVLAGVSSVRNNILVDGFESVGWTNPGLSYAQCGLTPPDGTAATTVAAACNTSGGGNWIIPATVPSTASGLTAGETIDEAWLLAHNPGLSIDQISEALIPRLGRQVYMDGTRDRDAAVMSLEWRPSDRAHFYLDTMFSKAQRETDRIDMNLVGRNGSMIPLDMQVDDNNVVTSATFANAQFMLEARHYVEDVKFWSLNPGGELLFGDDDWIKLDVQANASRSWMLRRTASVLLTSPYTTIDYSNSGGDYPTWTTGGLDLNDPDAGWSWYRLNIQNEKRVTWTRGARADLQFGHDQRNIKVGAAYDEAFRSIVAFDNSTAWQNTVYATVTGSDIASYLKSTGHGFISVDFDSLFAATNYYALSANAPESSAAMTGAATGSIQEKNLGFYVETNGEVPLWDRTLRYNAGARYITTDQTIAGPVTVATGSYWVYKDQDYGKILPSFNLAWDVADKVVVRLSASRSMTRPNPSSMLPNTTFSDPSAQTASQGNSSLAPYYSTNVDFGGEWYTGGEGFVGLTLFNKRIKGFTVNATRTIPFSELGIAYDDLTDTQQAAIDQRGGASAATVDVTTQVNADGILNIRGVEAIWVQPLDRLLDGLGYSLNYTHVDQKSEGSGIAAVAEGVAPNLWNGTLYWERGNVSLRGSYTWNDKMVISSANQNGITTARLHADARGQLDLSAGYTLSNVWSSPQITLNVTNVTDEPLRTTFAYDNATYDYYLPGRTVMLGVRGSF				NA	NA	NA	NA	NA
BMS020_08297	1482	yagG_3	COG2211	Putative glycoside/cation symporter YagG	ATGCAGGCGATGAATCCCAGCACGGACACGCTCACGCTCCGCGAGAAGATCGGCTACAGCCTCGGCGACCTGGCGGCCAACCTGATCTTCCAGACCCTGGTCACCTTCCTGGCGTTCTTCTACACCGACGTCTACGGCATCCCCGCGGCGACCGCGGCCAGTGTGATCTTCGCCGTCGGCCTGCTCGGCGCGTTCGTGTTCACGCCGCTGATGGGGCTGCTCGCAGACCGCACGCGCACGCGCTGGGGCAAGTTCCGCCCCTGGGTGCTGTGGACCGCGCTGCCGTTCGGGCTGCTGGCGCTGGCCGCGTTCAGCACCCCGGCGCTGGGCGCGCACGGCAAGGTGGTCTACGCGTTGGCCAGCTACACGCTGCTGATGGCGGTGTACGTGGCCAACAACCTGCCGTACTCGGCACTGAGCGGCGTGCTGACCGGCTCGATGTCCGAGCGCAACAGCCTGTCCTCGTACCGCTTCGTCGCGGTGATGCTGGCGCAGTTCGTGATCCAGGTACTGCTGTTGCCGCTGGTGCTGCTGCTCGGCGGCGGCGACAAGGCGCGCGGGTTCGAGCACGCCATGGCGCTGTTCGCCGCGGTCGGCACGCTGTTCTTCCTGATCACCTTCGCTACCACCCGCGAGCGCATCGTGCCGCAGGCCGGGCAGGCCTCGTCGATCCGCCAGGACCTGCTCGACCTGGCCGGCAACGGCCCGTGGCGGGTGATGCTGGCGCTGACCATCCTGGTGTTCGTCACGCTGGCGCTGAAAGGCGGCATGTATGTGTACTACTTCAAGTACTACCTGGACCCGCAGGCGCTGGCGGCGTTCATCGCCCAGGTCGGCTTCGACCGCTGGGTCGCGCTGCTCGACCAGGGCCTGCGCACCCTGGGATTGAGCGGGTTCGCCTGGCCGCAGGATCCGGCCACCTCGGCCTTCAGCCTGTTCAGTGCTGCCGGCATCGCCTGCATGATCGCCGGCATCGGCTGCTCGCGGCGGCTGGCCGACCGCTTCGGCAAGCGCGATACCTTCGGCGGCGCGCTGCTGCTGGCCACCGTGGCCCTGCTGGCGTTCTGGCTTTACCCGCCGGACGCGGTGTGGGCGGTGATGCTGACCTACGTGGTGCACGGCTTCTTCTACGGCATCACCACGCCACTGCTGTGGGCGATGATCGCCGACGTCGCCGACTACGCCGAGTGGAAGACCGGCCGCCGCGCCACCGCGATCGTGTTCTCGGCGATGTTGTGCGGACTCAAGATCGGACTGAGCGTGGGCGGCGCCCTGGTCGCCGCGCTGCTGGCCGGCTATGGCTACGAGGCGGCCGCGCCGGTGCAGTCCGCGCGCGTCGTCGCCGGCATCCGCCTGGCGGTCAGCGTCTACGCCGCGCTGCCGTTCCTGGCCGGCATCGCCCTGCTGTTCCTGTACCGCATCGACCGCGCCGCAGAGCACCGCATCGAGCGGGAGCTCGGCCTGCGCCGCGCCATCTCCTGA	MQAMNPSTDTLTLREKIGYSLGDLAANLIFQTLVTFLAFFYTDVYGIPAATAASVIFAVGLLGAFVFTPLMGLLADRTRTRWGKFRPWVLWTALPFGLLALAAFSTPALGAHGKVVYALASYTLLMAVYVANNLPYSALSGVLTGSMSERNSLSSYRFVAVMLAQFVIQVLLLPLVLLLGGGDKARGFEHAMALFAAVGTLFFLITFATTRERIVPQAGQASSIRQDLLDLAGNGPWRVMLALTILVFVTLALKGGMYVYYFKYYLDPQALAAFIAQVGFDRWVALLDQGLRTLGLSGFAWPQDPATSAFSLFSAAGIACMIAGIGCSRRLADRFGKRDTFGGALLLATVALLAFWLYPPDAVWAVMLTYVVHGFFYGITTPLLWAMIADVADYAEWKTGRRATAIVFSAMLCGLKIGLSVGGALVAALLAGYGYEAAAPVQSARVVAGIRLAVSVYAALPFLAGIALLFLYRIDRAAEHRIERELGLRRAIS	PGPT0014410_282	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
BMS020_08298	1017	xsa_2		Xylosidase/arabinosidase	ATGAGCGAACCCATCGATCCCGCGCAGCTGCAGGCCCTGGCCGCCAGCGCGCTGTCGCCACCGCTGGTGACCCACATCCATACCGCCGATCCGTCCGCGCACGTCTTCGACGGCCGCGTGTACGTGTATCCCTCGCACGACATCGATGCCGGCGTCGGCTTCAATGACGACGGCGACCACTTCGGCATGGTCGACTACCACGTGTTCCGCCAGGACTCGCCGGAGGCCCCGGCGGTCGATTGCGGCGTCGCGCTGCACCTGGCGCAGGTGCCGTGGGCACGCAAGCAGATGTGGGCGCCCGACGCGGCCTGCCGCGATGGGCGCTATTACCTGTATTTCCCGGCCAAGGACGATGCCGGCCTGTTCCGCATCGGCGTCGCCCACGCCACCTGCCCGCAGGGCCCGTTCAGCGCCGAGCCGCTGCCGATCGCCGGGACCTACTCGATCGATCCGGCGGTGTTCGCCGACCACGACGGCAGCCACTACCTGTATTTCGGCGGGCTGTGGGGCGGCCAGCTGCAGCACTACCGCGACAACCGCCACGACCCGGCGCTTGCCGAACCGGCCGACGATGCGCCGGCGCTCGGCCCGCGCGTGGCACGGCTGGATGCGGACATGACCCGGCTCGCCGAACCCTCGCGCGAGGTGCTGATCCTCGACCGCGATGGCACTCCGCTACGCGCCGGCGATCATGCGCGGCGCTACTTCGAAGGTCCGTGGATGCATGTGCACCAGGGTCGCTACTACCTGTCCTATTCGACCGGCGACACCCATCTGCTGTGCCATGCGATCGGCGACAACCCCTACGGCCCGTTCACCTATGCCGGGGTGGTGATGACGCCGGTGCTGGGCTGGACCACCCATCACTCGATCATCCAGTTCGACGGGCGCTGGTGGATGTACTACCACGACAGCATGCTTTCCGGCGGGGTCACCCACCTGCGCAACATCAAGGTGGCCGAGCTGCACTACGACGAGGACGGCCGCATCCGCACCCTGCATCCCTATGGCCGTTGA	MSEPIDPAQLQALAASALSPPLVTHIHTADPSAHVFDGRVYVYPSHDIDAGVGFNDDGDHFGMVDYHVFRQDSPEAPAVDCGVALHLAQVPWARKQMWAPDAACRDGRYYLYFPAKDDAGLFRIGVAHATCPQGPFSAEPLPIAGTYSIDPAVFADHDGSHYLYFGGLWGGQLQHYRDNRHDPALAEPADDAPALGPRVARLDADMTRLAEPSREVLILDRDGTPLRAGDHARRYFEGPWMHVHQGRYYLSYSTGDTHLLCHAIGDNPYGPFTYAGVVMTPVLGWTTHHSIIQFDGRWWMYYHDSMLSGGVTHLRNIKVAELHYDEDGRIRTLHPYGR	PGPT0019091_670	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
BMS020_08299	822			hypothetical protein	ATGGCCGTTGATCCGGCCGAGCGCCCGCTGCTGCCAGGGCCGTGCCTGCAGCTACGCCATGGCGCGCTGGAGGTCGCGGTCGCGCCGCAGGCCGGCGGACGGCTGGCGCAGGTCCGCCACCACGGCCATGCCTGGCTGGTCGGCCCCGGCGACGGCCACGACGGGGCAATCGCCTGGGGCTGCTATCCGATGCTGCCGTGGGCCGGGCGCATCCGGCATGGCGCGTTCGCCTTCGGCGGCCGCCGCTACGTGCTGCCGGCCAACCTCGGCGCGCATGCGATCCATGGCGTCGGCTTCGATCGTCCATGGCAGGTCCAGGCGCAGTCCGCCTCGGCCTGCCGGCTGCTGCTGACACTGCCGCAGGACGCGCACTGGCCGTTCGGCGGCCAGGCCGTGCAGGAGGTCCAGCTCGAGCACGACCGGCTCGCACTGCGCCTGACCCTGACCGCCGGCGACCAGCCGATGCCGCACCCGGTGCTGGGTTGGCATCCGTGGCTGCGCAAGCCGGACCAGCTGGAGTTCCAGCCGCACGCGCAGCTGCCGCGCGATGCCGACGGCATCGCCGTGCTGCCGCCGCACCCGCCCGGCCCGGGCCCGTGGGACGACTGCTTCCTCAACGACGCGCCGGTGGCGGTCCGACGCGGCCAGGCCCGGCTCGTCCTGCGCTCGGACTGCGACCACTGGGTGGTCTACGACCAGCCCGCGCATGCGACCTGCGTGGAACCGCAGAGCGGTCCGCCGGACGCCTTCAACCTGCGCCCGGAGGCGACGCTGGCGGCCGGCGCGACGGTGCAGGCGCGCTTCGACTGGCAGTGGCGGTGA	MAVDPAERPLLPGPCLQLRHGALEVAVAPQAGGRLAQVRHHGHAWLVGPGDGHDGAIAWGCYPMLPWAGRIRHGAFAFGGRRYVLPANLGAHAIHGVGFDRPWQVQAQSASACRLLLTLPQDAHWPFGGQAVQEVQLEHDRLALRLTLTAGDQPMPHPVLGWHPWLRKPDQLEFQPHAQLPRDADGIAVLPPHPPGPGPWDDCFLNDAPVAVRRGQARLVLRSDCDHWVVYDQPAHATCVEPQSGPPDAFNLRPEATLAAGATVQARFDWQWR	PGPT0017825_5554	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
BMS020_08300	219			hypothetical protein	ATGCTGGCCGACGTGGAGACCTGGACGCCTGCCGAGATCACCCAACGCGTGTCGCAGCTGCGGCTCGAACACCGCGACCTCGACGTCCACATCGCCGCGATGAGCGGCGACCCCCAGGCCGACGAGCTGGTCATCAAGCGGCTGAAGAAGCGCAAGCTGCAGTTGAAGGACTGCATCGCCAAGCTCGAGAGCATGCTGATCCCCGACGAGCCGGCCTGA	MLADVETWTPAEITQRVSQLRLEHRDLDVHIAAMSGDPQADELVIKRLKKRKLQLKDCIAKLESMLIPDEPA				NA	NA	NA	NA	NA
BMS020_08301	2658	plsB_2	COG2937	Glycerol-3-phosphate acyltransferase	ATGGCGCCGATGCCAGAACAGAATCCGCTGCCTTTCCCCGACGGCCAGGGCGCTCCGCAAGGTGATGCCGTGGCCCCCGTCGCCGAAGACACCGCGCCGCACGCCGATGCGTCGGCCGCGTCCCTGCCCGTGCCCGTGCCCGTTGCCGCGCGCAGCGAGCGTCGCCCGCTGTGGGCGCGCCTGCTTGGCCGCCTGGCCGACCCGTGGCTGAGCCTGACCATCGAGCCGGAAGACGCCGGCCGCTACAACGACGGCCGCCCGGTGGTCTACGTGCTGGAGGACTACGGCCTGTCCAACGCGTTGATCCTGGACAAGGCCTGCCGCGAAGCCGGCCTGCCGTCGCCGCTGGTGCCGCTGCCGGGCGACCCGCTGCAGCGCAAGCGCGCCTACCTGGCGTTGTCGCGGCGCAGTTCCAGCAACTCGCTGATCCCCGAACAGCGCGGCGCCAAGACCCATTCGGACTCGCTGGCCAAGCTGCTGCAGGCGCACCGCGCCAGGCCCGGGCTGGACGTGCACCTGGTGCCGGTGTCGATCTTCGTCGGTCGTGCCCCGGACAAGCAGAGCGGCTGGTTCGCGGTGCTGTTCTCGGAAAACTGGGCGCTGGTCGGCCGCTTCCGCCGCCTGCTGGCGGTGCTGCTCAACGGCCGCACCACCATCGTGCGCTTCGCCCCGCCGGTGTCGCTGCGCCAGACCGTGGACGAGGGCCTGCCGCCCGAGCGCACCCTGCGCAAGCTGCAGCGCGTGCTGCGCACCCACTTCCGCCGCATCCGCGAGGCGGTGATCGGCCCGGACCTGTCGACCCGGCGCACCCTGGTGGACCAGGTGCTGGCGGCCGAGCCGGTGCGCGAGGCGATCGCGGTGCAGGCCAAGCGCGACAACTCCAAGCCGGTCGATGCCTGGCGCAAGGCGCACGCCTATGCCTGGGAGATCGCCGCGGACTATTCCAGCCCGGTGGTGCGCTCGGCCAGCTTCATGCTCAGCCACGTCTGGAACCGGATCTACGCCGGCGTGCTGGTGCATCACCTGGACAAGCTCAAGCAGGCCGCGCCGGGGCATGAAGTGGTCTACGTGCCCAGCCACCGCAGCCACATGGACTACCTGCTGCTGAGCTACCTGCTGTACGAGCGCGGCATCGTGCCGCCGCACATCGTGGCCGGCATCAACCTCAACCTGCCGGTGGTCGGCACCCTGCTGCGCAAGGGCGGCGCGTTCTTCATCCGCCGTTCGATCCGCGGCAACGCGCTGTATTCGGCGGTGCTCAGCGAGTACGTCGCGCAGCTGGTGGCCGGCGGCTATTCGATCGAGTACTTCGTCGAGGGCGGGCGTTCGCGCACCGGCCGGCTGCTGCAGCCCAAGGGCGGCATGATCGTGATGACGCTGCGCGCGTTCCTGCGCAACCCGCGCAAGCCGGTGCTGTTCCAGCCGGTCTACATCGGCTACGAGAAGCTGATGGAGGGCGGCAGCTACCTCGACGAGCTGACCGGCCGGCCCAAGGAAAAGGAATCGATCTGGGGCCTGCTGTGGGGCATCCCCAAGGTGCTCAAGCAGAACTACGGCCAGGTCGTGGTGAATTTCGGCGAGCCGATCGCACTCAACGACGTGCTGGCCGAGCGCGCCCCGGAATGGGATGGCCAGCCGGTGTCCGAGGACGAGAAGCCGGCATGGATGTCGCAGACGGTGGACCACCTCGCCGAGCAGATCCAGGTGCGCATCAACGGCGCCGCCGACGTCAACCCGATCAACCTGCTGGCGCTGGCGCTGCTGTCCACGCCCAAGCATGCGATGGGCGAGGCCGACCTGGTCGCGCAGATCGAGCTGTGCAAGACCCTGCTGTCGGACATGCCGTATTCGGACCGGGTCACGGTCACCCCGCACTCGCCGGAGCGGATCATCGCCCACGCCGAGGAGATCGCGGTGCTGACCCGCACCAAGCATCCGCTTGGCGACGTGCTCAGCGTCAACGGCGACAACGCGGTGCTGCTGAGCTACTTCCGCAACAACGTGCTGCACCTGTTCACCGCCTCCTCCTGGGTGGCCTGCTGCTTCCAGAACAACCGTCGCATGAGCCAGGCCGCGCTGCTGCGGCTGGGGCGCACGGTGTATCCGTTCCTGCAGGCCGAGCTGTTCCTGCCGTGGAGCGAGGACGCGTTCGCCGCGCGCATCGAGCGCACCATCGAGGTGTTCGTGCGCGAGGGCCTGCTGCAGCACGTCAACGAGGACGACGGCGGCATCCTGGCGCGCAACACCGGGCAGACCGACGAGGTGTTCCGCCTGCGCGCGATCGGCCACTCGCTGCAGCAGGCATTCGAGCGCTACTACATCACCGTGTCGGTGCTGGTGAAGAACGGCCCCGGCACGCTCGGCGCCGCCGAGCTGGAAAGCCTGTGCCAGCAGGCCGCGCAGCGCCTGAGCCTGCTGTACGCGCCGGCCGCGCCGGAGTTCTTCGACAAGGCGCTGTTCCGCGGCTTCATCCAGAAGCTGCGCGAGCTGAAGCTGGTGTGGCCGGACGAGAACAGCAAGCTGGTGTTCGACGACCGCCTGGATGCGTGGGCCAAGGACGCCAAGTTCATCCTCGGCCGCGAGCTGCGCCACACCATCGAGCGGGTCAGCCCGGCCGCGGCGAAGCCGCAGGAAGCCGAGGTCGCGCCGAGCGAATGA	MAPMPEQNPLPFPDGQGAPQGDAVAPVAEDTAPHADASAASLPVPVPVAARSERRPLWARLLGRLADPWLSLTIEPEDAGRYNDGRPVVYVLEDYGLSNALILDKACREAGLPSPLVPLPGDPLQRKRAYLALSRRSSSNSLIPEQRGAKTHSDSLAKLLQAHRARPGLDVHLVPVSIFVGRAPDKQSGWFAVLFSENWALVGRFRRLLAVLLNGRTTIVRFAPPVSLRQTVDEGLPPERTLRKLQRVLRTHFRRIREAVIGPDLSTRRTLVDQVLAAEPVREAIAVQAKRDNSKPVDAWRKAHAYAWEIAADYSSPVVRSASFMLSHVWNRIYAGVLVHHLDKLKQAAPGHEVVYVPSHRSHMDYLLLSYLLYERGIVPPHIVAGINLNLPVVGTLLRKGGAFFIRRSIRGNALYSAVLSEYVAQLVAGGYSIEYFVEGGRSRTGRLLQPKGGMIVMTLRAFLRNPRKPVLFQPVYIGYEKLMEGGSYLDELTGRPKEKESIWGLLWGIPKVLKQNYGQVVVNFGEPIALNDVLAERAPEWDGQPVSEDEKPAWMSQTVDHLAEQIQVRINGAADVNPINLLALALLSTPKHAMGEADLVAQIELCKTLLSDMPYSDRVTVTPHSPERIIAHAEEIAVLTRTKHPLGDVLSVNGDNAVLLSYFRNNVLHLFTASSWVACCFQNNRRMSQAALLRLGRTVYPFLQAELFLPWSEDAFAARIERTIEVFVREGLLQHVNEDDGGILARNTGQTDEVFRLRAIGHSLQQAFERYYITVSVLVKNGPGTLGAAELESLCQQAAQRLSLLYAPAAPEFFDKALFRGFIQKLRELKLVWPDENSKLVFDDRLDAWAKDAKFILGRELRHTIERVSPAAAKPQEAEVAPSE	PGPT0024370_53	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024370-plsB-K00631	NA	NA
BMS020_08302	936			hypothetical protein	ATGCCGTCCATCAACGTCCGGCTACGGCCGACCTGCCTACTGATCCTGCTGCTGGCGCTCGCCGCGCTCGGCATCGGGTGCAATCGCGCACCCGCACCGTTGCCCGGCGCCGAATCCGAGCCCGCCGCCGCCGTGCAGCACCTGGCCGCTTTGCTGCGCCGCAACGACCTTGTCGGCTATGCCCGTGCGATGGTCACCCCGGCCCAGTACGGCCAGTTGGAGGTGGCCTGGCGCGACGGCCGCAGCCGCTGGCCGCTGACCGAGCTGCCGCTGGCCGACGAGCTGCCGGCGATGCTGGCGGCGCTGACCCGGGCCGACGCCGACAAGCGCCTGCAGCAGTCCTTCGATGCCCAGGTGGCCGGGCAGGCCAGCGGCATCCGCTCGGCCGCACGCTCGCTCGGCATGTTCGGAGTGCAGTACCTGCGCAATCAGTCGCACTACAGCCCCGAGCAGCGCGCGCACTACGTGCAGCTGGTGGACGCGCTCAGCGCCTGGGCCGCGGACGCGCCGCTGGCCGACCGCGAGCGCGGCCACGCGGCGATCGCCAAGCTGGTCGCCGCAGCCCGCGCCAGTGGCCTGCATGATGCGGCCAGCCTGCGCGCGGCGGGCATGGAGGACAGCCTGCGCCGGCTCGGGCCGCTGTTCGCGGCGCTCAAGGAGGTCGCCGGCGACTACGGCCTGAGCCTGGACGCCACCCTGGACGACCTGCGCGCCGGCCTGGTCAGCCAGCAGGGCGGCGTGGCGCGGGTGCGCATCCAGTACCCGCTGGCCGCCGCGCAGATCGATACCTCCGCCAGCCTGGTCCAGCGCGAGGGCCACTGGTACCTGCAGGACACCCTGCAGGAGGTCGACGCGCTGCTCGCAACGCCGCCGCCGGCCCCGTCCGAGCCCCCCGTGCCGACCCCGCAAACCGCCGGATTGCCGGCTGGGCGATAA	MPSINVRLRPTCLLILLLALAALGIGCNRAPAPLPGAESEPAAAVQHLAALLRRNDLVGYARAMVTPAQYGQLEVAWRDGRSRWPLTELPLADELPAMLAALTRADADKRLQQSFDAQVAGQASGIRSAARSLGMFGVQYLRNQSHYSPEQRAHYVQLVDALSAWAADAPLADRERGHAAIAKLVAAARASGLHDAASLRAAGMEDSLRRLGPLFAALKEVAGDYGLSLDATLDDLRAGLVSQQGGVARVRIQYPLAAAQIDTSASLVQREGHWYLQDTLQEVDALLATPPPAPSEPPVPTPQTAGLPAGR				NA	NA	NA	NA	NA
BMS020_08303	1029	purR_5	COG1609	HTH-type transcriptional repressor PurR	ATGATCCGTGAACGCCGCGCCCGCGGCGAAGGCGGCGTCACCATCCGCGACGTGGCCCGCGAGGCCAAGGTCTCGGTGGCGACCGTGTCGCGCACCATCAACGGCCAGCAGCATGTCGCCGAGCCGGTGCGCCAGCGCGTGCTGGAAGCCGCGCGCGCGCTGCATTACGTGCCGCACCACGCCGCCCGCAGCCTCAGCAGCCGCCGCACCCACACCATCGGCGTGGTGCTGCCGGACCTGCACGGCGAATTCTTTTCCGAGCTGATCCGCGGCATCGACCAGCTCGCGCGCCAGCATGGCTACCACCTGCTGGTGTCCAGCCACCACGGCCGCGCCGACGAACAGCGCAGCGCGATGGAACGCCTGCCCGGCCGCGTCGACGGCGTGCTGGTGATGGCGCCCTGCAACGACGCCAGCGGCGCGTTCGACGACGTCCCGCCCAGCCTGCCGGCGGTGCTGCTCAACAGCGGCGCCCAATCGCGGCATCCCGGACTCAACGTCGACAACTACGGCGGCGCGCGGGCGATGACCCGGCACCTGGTGCAGACCGGGCATCGCCGCATCGCCTTCATCGGCGGCCCCGAAGACAGTTTCGATGCGCACGAGCGCCTGCGCGGCTACCGCGACGAGATCAGCGCCGCCGGTCTGGCGCCGTGGGTGCTGCAGGGCGGCTTCGACGAGGCTTCCGGCTTCCGCGGTGGCCAGCAGCTGGCCGCCGGCGAACACCCCGATGCGGTGTTCGCCGCCAACGACATGATGGCCCTGGGCTGCCTGTTCGCCTTCGACCAGGCCGGCATCTTCGTGCCCGGCGATATCGCCCTGGCCGGGTTCGACGACGTGCCGATGGCGCGCTACGTGCACCCGGCCCTGACCACGATGCGCGTGGACATCGCCGGCCTCGGCACCCGCGCGATGCAACTGCTGCTCGAACGGCTGGAGGACGGTGCGGCGCCTGCCACGCCGCCCAGCCTGGTCCCCGAACTGGTCGTGCGCGACTCCAGCGGCGCCCGCCGCCCCGGCACGGCCTGA	MIRERRARGEGGVTIRDVAREAKVSVATVSRTINGQQHVAEPVRQRVLEAARALHYVPHHAARSLSSRRTHTIGVVLPDLHGEFFSELIRGIDQLARQHGYHLLVSSHHGRADEQRSAMERLPGRVDGVLVMAPCNDASGAFDDVPPSLPAVLLNSGAQSRHPGLNVDNYGGARAMTRHLVQTGHRRIAFIGGPEDSFDAHERLRGYRDEISAAGLAPWVLQGGFDEASGFRGGQQLAAGEHPDAVFAANDMMALGCLFAFDQAGIFVPGDIALAGFDDVPMARYVHPALTTMRVDIAGLGTRAMQLLLERLEDGAAPATPPSLVPELVVRDSSGARRPGTA	PGPT0017992_3260	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
BMS020_08304	3042			hypothetical protein	ATGAAGAAGAAGAACCCGTCGATGTCCAACCTGCCCGCCCGCAGCGTGCTGTACTGCGCGCTGGCGACCGGCCTGTTCGCGGCGATGCCGGCACTGGCCCAGACCAGTACCGCCACCGTGCGCGGCCAGGTCGAAGCGGCGCAGGCCGGCGCCGAAGTCACCGTCACCAATGTCGCCACCGGTTCGGTGCGCCGCGCGCCGGTCAACGCCAGCGGCGGCTACACCATCGTCGGCCTGCCGCCGGGCACCTACACCGTCGAATCGGGCGGCTCCAGCCGCACCGTGACCCTGTCGGTGGCCTCGACCGCGACCGTGGACCTCAACGCGCAGACCACCCAGGCCCCGGCCGGCGATGCGACCACGCTGGACGCGGTCAACGTGTCGGCGCCGCTGATCCGCGACGTGAAGACCTCCGAGGTCGGCAACACCGTGTCGCTGCACCAGATCGAGCAGCTGCCGCAGGCCACGCGCAACTTCCTGGAGTTCGCCGACACCGTGCCGGGCATGGTGTTCCAGATCGACGGCAACGGAAACACCAAGCTGCGCGGCGGCGCCTCCAACGCCAGCGCCGGCAACCTGTACATCGACGGCGTCGGCCAGAAGAGCTACGTCAAGAGCGGCGGCATCGCCGGCCAGAGCGACACCCAGGGCAACCCGTTCCCGCAGCTGGCGATCGGCGAATACAAGGTCATCACCTCCAACTACAAGGCCGAATACGGCCAGATCAGCGGCGCGGCGATCACCGCGGCGACCAAGTCCGGCACCAACGAGTTCCATGGCGAGGCGTTCTACCGCTATACCGACCAGGACCTGCGCGACAAGCGTCCTGACGAGGAAGAGAACGGCAAGATCGACTCGCAGACCAAGGAGTACGGCTTCGCGCTGGGCGGCCCGATCATCCAGGACCGCATGCACTTCTTCGTCGCCTACGAGGGCAAGGACAACGTGGTGCCCAAGAGCGTGCAGCCGGCCGCCGAGGCCACCCCGTACGTGGGCTACCTGCCGACCAACCTGTCCAGCCAGTACGGCGCGGCCAACATGCCGTTCACCGAGGACCTGTACTTCGGCAAGATCGACTTCGAGCCGACCGACCGCGACCGCTTCGAGCTGAGCGGCCAGTACCGCGACGAGACCCAGGTCGCCAACGTCGGCGGCACCAGCGCCACCGACCACGGCACCAACAAGGTCAACAAGGACAAGCGCGCCAACCTGCGTTGGCAGCACAGCGCCGATGCCTGGTACAACGAGATGATCGTCGGCACCGAGGATTCGGAGAACAACCCGACCCCGATGAGCATCGGCAACGGCGTCGTCTACAAGTACCTCAACTACCGTCCGGCGCCGTCCACCGACATCGACGAGTGGACCTTCCTGGAGACCGGCTCGGCCGGCGGCCTGAACGTGCAGCGCAAGAGCCAGAAGGGCTGGTTCCTGCAGGACGACCTGACCTTCACCAGCTTCCAGTGGCACGGCGACCACACCATCAAGATGGGCGTCAGCTACAAGGACATCAAGCTGACCTCGCAGGACGCGGCCGCGCTGAACCCGCAGTTCTCCTACTCGGTCGACGCCAATGGCATCGCGTCCACGCCGTACCGCGTCGACTTCGTCGCACCGTACGACACGCCCGGGCAGAGCTCGGTGGTGGAGTCCTCGTCCAAGCAGTACGGCATCTACCTGCAGGATGACTGGGTGGTCAACGACAAGTTGACCGTAAACATCGGCGTGCGCTGGGACTACGAGGACAGCCCGGCCTACACCGACTTCGTCACCTCGCAGGACTTCGTCGACGCGCTGTACTCGGATGATCCGGAAAACCCGGGCCACCCGTGGGCCGACCGTCTGCTGGCCAGCGGCATCAACGTCGCCGACTACGTCAGCACCGGCCACAACCGCAAGAACTTCAAGGACGCCTGGGCGCCGCGCTTCGGCTTCTCCTACGACTTCTTCGGCGACGAGAGCGCGGTGCTGCACGGCGGCGCCGGTCGTTCCTACGACCGCAACCTGTTCGAACAGCTCGCACTGGAAACCAGCAAGGCGGCGCTGTCGCCGGTGGCGGTGTACTTCCAGGATCCGAGCACCGGAACCTGCTACCGCGCCGACCGCGTCTGCGTGGCGTGGGATCCGAAGTACCTGGAAGGCGTGGACCAGCTCAACACCATCGACGGCGTCAGCAAGAGCGCCGAGCTGTTCATGTTCTCCAACAAGCTCAAGACGCCGTACAGCGACCAGTACAGCATCGGCATCACCAACCAGGTCGGCGACTGGCTGACCGACGTGACCTTCCAGCGCATCCTGAGCTACGACGGTTTCGCGATGTCGCTGATCAACCGCTACCCGGATGGTTCGTACTTCCAGAACGGCAGCGCGCCGTGGGGCGAACCGGTGCCGGGCTACCAGAACACGATCCTGGGCACCAACGGCCTGGAGCAGCGCTCCAGCCAGGTGCTGCTGTCGGCCGAAAAGCCGTACACCAAGGAATCGGGCTGGGGCCTGACCCTGTCCTACACCCACACCAACGCGCGCCAGAACCGCAACATCGACGAGCCGTACGCGTTCGACAAGGCCACCATCCACGACTATCCGTTCGTGAAGTCCGATGCGGTCTCGGCGCACCGCTTCGTCGCCTCCGGTTCGATCGACGGTCCGTGGGGCGTGACCTTCGGCGCCAAGCTGGTACTGGCCACGCCGGAGCCGATCAACACCATCGCCTGCTTCGGCTACACCGATGCGGACGGCGCCACCTGCCAGCAGGTCGCGGCGACCCCGCCGGGCAGCGGCAAGTTCCTGGTCGGCGGAAAGATCTGGGGCTATCGCACGGTCGACTTCCAGGCGACCAAGGAGTTCACCGTGTACAAGGACTTCAAGATGTCGGCGCGGATCAACCTGCTCAACGCCTTCAACTTCAAGAACTACAGCTCGTACGTGTACAACGGCTTCGGCTCCGACGGCGTGTACGCGCCGAACATCACGATCAACGACACCGGCGACATCATGTACGTGCCGCGCACGCTGACCTTCGAAGTCGGTATGAAGTTCTGA	MKKKNPSMSNLPARSVLYCALATGLFAAMPALAQTSTATVRGQVEAAQAGAEVTVTNVATGSVRRAPVNASGGYTIVGLPPGTYTVESGGSSRTVTLSVASTATVDLNAQTTQAPAGDATTLDAVNVSAPLIRDVKTSEVGNTVSLHQIEQLPQATRNFLEFADTVPGMVFQIDGNGNTKLRGGASNASAGNLYIDGVGQKSYVKSGGIAGQSDTQGNPFPQLAIGEYKVITSNYKAEYGQISGAAITAATKSGTNEFHGEAFYRYTDQDLRDKRPDEEENGKIDSQTKEYGFALGGPIIQDRMHFFVAYEGKDNVVPKSVQPAAEATPYVGYLPTNLSSQYGAANMPFTEDLYFGKIDFEPTDRDRFELSGQYRDETQVANVGGTSATDHGTNKVNKDKRANLRWQHSADAWYNEMIVGTEDSENNPTPMSIGNGVVYKYLNYRPAPSTDIDEWTFLETGSAGGLNVQRKSQKGWFLQDDLTFTSFQWHGDHTIKMGVSYKDIKLTSQDAAALNPQFSYSVDANGIASTPYRVDFVAPYDTPGQSSVVESSSKQYGIYLQDDWVVNDKLTVNIGVRWDYEDSPAYTDFVTSQDFVDALYSDDPENPGHPWADRLLASGINVADYVSTGHNRKNFKDAWAPRFGFSYDFFGDESAVLHGGAGRSYDRNLFEQLALETSKAALSPVAVYFQDPSTGTCYRADRVCVAWDPKYLEGVDQLNTIDGVSKSAELFMFSNKLKTPYSDQYSIGITNQVGDWLTDVTFQRILSYDGFAMSLINRYPDGSYFQNGSAPWGEPVPGYQNTILGTNGLEQRSSQVLLSAEKPYTKESGWGLTLSYTHTNARQNRNIDEPYAFDKATIHDYPFVKSDAVSAHRFVASGSIDGPWGVTFGAKLVLATPEPINTIACFGYTDADGATCQQVAATPPGSGKFLVGGKIWGYRTVDFQATKEFTVYKDFKMSARINLLNAFNFKNYSSYVYNGFGSDGVYAPNITINDTGDIMYVPRTLTFEVGMKF				NA	NA	NA	NA	NA
BMS020_08305	1530	rebH_3		Flavin-dependent tryptophan halogenase RebH	ATGATCCCCGCTCCGATCCGCAACATCGTCATCGTCGGCGGCGGCACCGCCGGCTGGATGGCCGCCGCCGCGCTGGCGCGCGTGCTCGGCAAGGACTACACGATCCGCCTGGTCGAATCCGAGCAGATCGGTATCGTCGGCGTCGGCGAGGCCACCGTGCCGCACATCAAGGCCTTCAACCAGCTGCTGCGGCTGGACGAGGCCGAGTTCGTGCGCGCCACCCAGGGCACCTTCAAGCTCGGCATCGAGTTCGTCGACTGGCTGCGCCCGGGCACCTCCTACATCCACGGCTTCGGCACCGAAATCGGCCATCCGCTCGGGCTGCTGCCGTTCCACCAGTACTGGGTGCGCCAGGCGCTGCTCGGCAAGGCCGGCCCGCTCGGCGACTACACGCTCAACACCGTGGCCGCGCAGCGCGGCCGCTTCATGACCTCGGCCAGCGACGCACCGCCGAACTCGCCACTGGCCAACATCGCCTACGCCTACCACTTCGATGCCGCGCTGTACGGCCAGTACCTGCGCGGCCATGCCGAGCGCAACGGCGTGCAGCGCATCGAGGGCGTCGTCGAGCAGGTGCGGCTGCATCCGGAATCCGGCGACGTCGAGGCGGTGGTGCTGCAGGACGGGCGCGCCATCGACGGCCAGCTGTTCATCGACTGCAGCGGCTTCCGTGGGCTGCTGATCGAACAGGCGCTGCACACCGGCTACCACGACTTCAGCCACTGGCTGCCATGCGATCGCGCACTGGCAGTACCGTGCGAGAAGGTCGGCCCGCCGACCCCATACACCCGCGCCAGCGCGCGCGCCGCCGGCTGGCAGTGGCGGATCCCGCTGCAGCACCGCACCGGCAACGGCTACGTCTATTCCAGCGCGCACACCAGCGACGACGAGGCCGCCGCGACGCTGCTGGCCAACCTCGACGGCAAGCCGCTGGCCGACCCGCGCCCGCTGCGCTTCACCACCGGCCGGCGCAAGGCCTGCTGGAACCGCAACGTGGTCGCGCTCGGCCTGGCCAGTGGCTTCATGGAGCCGCTGGAATCGACCAGCATCCACCTGGTGCAGTCGGGCATCTCCAAGCTGCTGGAGCTGTTCCCGCGCGAAGGCATCAGCCCGGCGCTGGTGCGCCGCTACAACGAACGGCTGGCGTTCGAATTCGACCGCATCCGCGACTTCCTGGTGCTGCACTACACCGCCACCGAACGCGAGGACACCGCGTTCTGGCGCCATTGCCGGCAGATCGCGCGCTCGCCCGAGCTGCAGGCCACGCTCGAACTGTTCGCCGACAGCGGCCACTTCCACCGCAATGGTGATGAGATGTTCGCCGAGATCAGCTGGGTGCAGGTGATGGTCGGCCAGGGCATCGTGCCGCGCAGCTACCACCCGCTGGTGGATCGGGTGCCGGAGCAGGACATCGCCGGCTTCCTCGCCAGCGTGCGCCAGACCATCGCCCACTGCGTGGACGCGATGCCGCCGCACCAGGCCTTCATCGACCGCTGCTGCAAGGCGCCGGCGATGCCGATGCCGGGCTGA	MIPAPIRNIVIVGGGTAGWMAAAALARVLGKDYTIRLVESEQIGIVGVGEATVPHIKAFNQLLRLDEAEFVRATQGTFKLGIEFVDWLRPGTSYIHGFGTEIGHPLGLLPFHQYWVRQALLGKAGPLGDYTLNTVAAQRGRFMTSASDAPPNSPLANIAYAYHFDAALYGQYLRGHAERNGVQRIEGVVEQVRLHPESGDVEAVVLQDGRAIDGQLFIDCSGFRGLLIEQALHTGYHDFSHWLPCDRALAVPCEKVGPPTPYTRASARAAGWQWRIPLQHRTGNGYVYSSAHTSDDEAAATLLANLDGKPLADPRPLRFTTGRRKACWNRNVVALGLASGFMEPLESTSIHLVQSGISKLLELFPREGISPALVRRYNERLAFEFDRIRDFLVLHYTATEREDTAFWRHCRQIARSPELQATLELFADSGHFHRNGDEMFAEISWVQVMVGQGIVPRSYHPLVDRVPEQDIAGFLASVRQTIAHCVDAMPPHQAFIDRCCKAPAMPMPG	PGPT0011765_825	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-PYRROLNITRIN_METABOLISM,PGPT0011765-prnA|rebH|ktzQ-K14266	NA	NA
BMS020_08306	474			hypothetical protein	ATGTCGGAGATGACACCAGAACAGCTGGCGCAGCGCGTCGTACGGCTGATCCTGGCAACCAAGGGCAGGCAGGACCTCACGGCCGCACGGGTTGTCGCGCAGACCGGCGTGCAGCTCGACGAAGACACCTCGCAGGGGTTCAGCGGGTCCGGATCTCTGGTCGGTGGTGATCGCTTCACGCTCGACTCCATCACTGGCGCGGGTGGGATGCCGCCGGAACGACTGGATTTCACCTTCTCACCGGCGCTGGCTCCGGCTCCAGCCAACTGCATGCAACCTGTGGGCGTGTATCACCGTGCATTGGTCGACGCTGGCTTTATCGCGCAATGGATCGCGCCACCTCGCCCGGGTAGCCGGGCAAGCTGGCATTTCGAGCGCGATGGTGTCGTGGTCTACGCATTTGTCGCCAGCGACGCGGCGCATGACGACCTGAAAGCTTGTATCTCTGTTCTGCAGATCCTTGTCAGCGCCTAA	MSEMTPEQLAQRVVRLILATKGRQDLTAARVVAQTGVQLDEDTSQGFSGSGSLVGGDRFTLDSITGAGGMPPERLDFTFSPALAPAPANCMQPVGVYHRALVDAGFIAQWIAPPRPGSRASWHFERDGVVVYAFVASDAAHDDLKACISVLQILVSA				NA	NA	NA	NA	NA
BMS020_08307	1335			hypothetical protein	ATGGCACGTGATGACGAGCGCCTCAACGACATGGTCGCGGAGTTCGAGAAGGCGCATCCCAAGGAAGGCCGAGCACTACGGGAGATGCTGGAAAACACCCCCGAACTGCGTGCACGCACGCTGCAGGCTGTGCAGCAGGACAGCCTGTCAGGTTTCGCACCGCATCCCCAGCCCGGCAATGGGGCCTACAACCCCGATAGCAAGCAGATCGAGCTTCCGATGGATGTGCTCGGTACCGCGAAGATGAGTTCGGCACTCGACGATTCGGCAAATACCGCGCGTATCGTTCTAGGCCACGAGATCGGCCACGCGATCAACAGATCCGCGATTGATCGCACGGACGCCGAGTTCGCGCGCAGCATTGCCGAAATCGCCAAGTCGCCTTCGCCGCATGACTATGCCCAGTTACTCAGGGAGCGTGGGCGGGAGCAACGCTTGCGCGAGTCCGAGGACGAAATCGCCGGAGTGGATACCCTGGCCGACTACGTCAAACGAACCAACCCAGAGGCGACGCTCAAGGACTTGTACAACGCCAGCACCGAGATGTCCGCCTACATCGAGAAGCGCGGCCATGGCACCCAGGCCAGCTACATTGCGAAAGGCGGCTTGAGCTTCGACAGGGATCTCAAGATTGATCCTGCTGAGCCCAAGAACGTGGAGGCAATGGGCAAGCTGTTCTACGACGCACGGGGCTACCCACAGAACTACGGGTCGATTTCGTTGGGACTGATCGCCGAAGCGGAGGACCGGGCACAGATCTACAATCCCCAGCGTCCAGCACCTGCGGTGCATGCGGACCTGCAGCCGCTCGGAATCGACGCATCGAAGGTGCCGCCGAACTTTCTCCCAAACGGCTTCATCGATGGGCCCGTGCCTGCACCACATACGCCATCGTCGCCGTCCGTCGAACCCGGTGTGTCCGGAACCGATCAAGCACTCAACGAACGCATCCGGGGCGGCGTCGCAGAAGCCGAACGCGGCATCGGCAAGGGTTGGGACGAGAACAGCGAACGCATGACCGCCAGCCTGACACTGCTGGCGAAGCAGAACGGATTCAGCGGGCGCGACGAACTCTCGGTCGGCTTCAGCCAGGCGACCGCGGCGCAGCGAGGCGGCGAGAGCGCGTTCGTCTACCGCTCCGGTAGCGGCGTCTCGCCGGACCCCTATGCGAATCGAGCACATATCAGCACCAGCGAGGCCATCGCGCGTCCCGCGCACGAGACCTATCAACAGCTGCGGGATCACAACGTGCAGCCTGTGCAGGGCCAGCAGCCTGCAGCGCAGGTACAAGAGCAGAGTGCGCAGGCGCAACCCGCCCCGGTGATGTCGCGCTGA	MARDDERLNDMVAEFEKAHPKEGRALREMLENTPELRARTLQAVQQDSLSGFAPHPQPGNGAYNPDSKQIELPMDVLGTAKMSSALDDSANTARIVLGHEIGHAINRSAIDRTDAEFARSIAEIAKSPSPHDYAQLLRERGREQRLRESEDEIAGVDTLADYVKRTNPEATLKDLYNASTEMSAYIEKRGHGTQASYIAKGGLSFDRDLKIDPAEPKNVEAMGKLFYDARGYPQNYGSISLGLIAEAEDRAQIYNPQRPAPAVHADLQPLGIDASKVPPNFLPNGFIDGPVPAPHTPSSPSVEPGVSGTDQALNERIRGGVAEAERGIGKGWDENSERMTASLTLLAKQNGFSGRDELSVGFSQATAAQRGGESAFVYRSGSGVSPDPYANRAHISTSEAIARPAHETYQQLRDHNVQPVQGQQPAAQVQEQSAQAQPAPVMSR				NA	NA	NA	NA	NA
BMS020_08308	720	pyrF_2	COG0284	Orotidine 5'-phosphate decarboxylase	GTGAGCCGCGCGCCGCTGCCGCTGGCCGCGCATGAACGGCTGATCTTCGCCCTCGACGTGCCCGGCCGCGCCGAGGCGATCGAATGGGTCGACCGCCTTGGCGATGCGGTGGCGTTCTACAAGATCGGCATGGAACTGCTGGCCTCGGGCGAATACTTCGACGTGCTCGACGTGCTGGCCAAGCGCGGCAAGCGCGTGTTCGTCGACTTGAAGTTCTTCGACATCCCGGCCACGGTCGGCGGCGTGATCCGGCGGCTGTCGCAGTGGCCGGTGGACTACTGCACGATCCACGGCTGGCACCCGGCGATGATGCAGGCCGCCGCCGAGGCCAACGGCAGCGAGATGCGCCTGCTGGCGGTGACGGTGCTGACCTCGATGGGCCGCGCCGACCTGGCTTCGATGGGCATCGACCGCGAGCCGGTCGAGGTGGTGGTCGAGCGCGCGCTGGCCGCGCAGGCCGCCGGCATCGACGGCGTGATCGCCTCCGGCCAGGAAGCCGCGCCGATCCGCCGCGCCACCGGCGCCGGCTTCTCGATCGTCTGCCCGGGCATCCGCCCCGGCGGCCCGGTCGGCGACGACCAGCAGCGCACCGTCGGTGTAGCCCAGGCCTTCGCCGACGGCGCCGACGCGATCGTGGTCGGCCGCCCGATCCGGCTGGCGCCGGACCCGCGCGCGGCGGCGGCGGCGATCCAGGATGAGATCCTGAAGGCGCTGAAATAA	MSRAPLPLAAHERLIFALDVPGRAEAIEWVDRLGDAVAFYKIGMELLASGEYFDVLDVLAKRGKRVFVDLKFFDIPATVGGVIRRLSQWPVDYCTIHGWHPAMMQAAAEANGSEMRLLAVTVLTSMGRADLASMGIDREPVEVVVERALAAQAAGIDGVIASGQEAAPIRRATGAGFSIVCPGIRPGGPVGDDQQRTVGVAQAFADGADAIVVGRPIRLAPDPRAAAAAIQDEILKALK	PGPT0014965_2365	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0014965-pyrF-K01591	NA	NA
BMS020_08309	918	hel	COG2503	Lipoprotein E	ATGCGCCGCTCCACCACCGTTTCCTTGTTTTTGCTCGCCAGCGCCGTGCTGGCGATGAGCGCCTGCAAGCGCGTCGAGGCCCCGCAGGCCGCCGCCCCCGCCGCTGCCCCGACGGCTCCGGCCCCGGCGGCCGCCACCCGCCCAGCCGGTGACGACAACCTCAATGCAGTGCTGTGGATGCAGCGTTCGGAGGAATACAAGGCGCTGTCGGAGCAGACCTACCGCGCCGCCGCCGACAAGCTCGATGCCGCGCTGAAGGAAAAGCACTGGGACGCGCTGGTGCCGGAAGAGCGCGGCAACGCCGCCGACGGGCTGAAGCCGGCGGTGGTGATGGACGTCGACGAGACCGTGCTCGACAACTCGCCCTACCAGGCGCGCCTGGTGCGCGACGGCAAGGAGTACGACGAGGTCAGCTGGGACGCCTGGGTCGCCGAGAAGAAGGCCAAGGCGGTGCCTGGTGTGGTCGATTTCGCCAAGGCCGCCGCGGCCAAGGGCGTGACCGTGCTGTACATCTCCAACCGCGCGGTACACCTGAAGGACGCCACCATCGCCAACCTGCAGGCGGTCGGCATGCCGGTGGCCAACGATGACGTCTTCCTCGGCCTCGGCACCGTGGTCAAGGACTGCGAGCAGAACGGCAGCGAGAAGAACTGCCGCCGCCGCCTGGCCGGCCAGCAGTACCGCGTGCTGATGCAGTTCGGCGACCAGCTCGGCGACTTCGTGCAGGTCGTCGCCAATACCCCGGACGGTCGCGTCGCGCTGCTGCAGCAGTACCACGACTGGTTCGGCGAGCGCTGGTGGATGCTGCCGAACCCGAGCTACGGCGGCTGGGAACCGGCGCAGTTCAACAACGACTACAGCCAGCCGTGGCAGGCCCGCCACGACGCCAAGCGCGCCGCGCTGGACGTGGCGCCGTGA	MRRSTTVSLFLLASAVLAMSACKRVEAPQAAAPAAAPTAPAPAAATRPAGDDNLNAVLWMQRSEEYKALSEQTYRAAADKLDAALKEKHWDALVPEERGNAADGLKPAVVMDVDETVLDNSPYQARLVRDGKEYDEVSWDAWVAEKKAKAVPGVVDFAKAAAAKGVTVLYISNRAVHLKDATIANLQAVGMPVANDDVFLGLGTVVKDCEQNGSEKNCRRRLAGQQYRVLMQFGDQLGDFVQVVANTPDGRVALLQQYHDWFGERWWMLPNPSYGGWEPAQFNNDYSQPWQARHDAKRAALDVAP				NA	NA	NA	NA	NA
BMS020_08310	666			hypothetical protein	ATGCAAGACGACACCTCCACGCCGGCGCTGCCGGTGCTCGATGCCATCCAGGCGCGCGCCCTGGGCTGCCTGATCGAGAAGGAGGCGACCACCCCGGACGCCTACCCGCTGACGGTCAATGCCGCCCAGGTCGCCGCCAACCAGAAGACCTCGCGCGAGCCGGTGATGGCCTTGGACGCAGGCGAAGTGCACCACGCGCTGCGCCAGCTCGAGGCGATGGGCCTGGCGCGCCAGCAGTTCTCCTCGCGTGCCGAGCGCTACGAGCACCGCCTCGGCGCCGCACTCGACCTGCCGGCGCAGCAGGTCGCGCTGCTCGGGCTGTTGCTGCTGCGCGGCCCGCAGACCCCGGGCGAGCTGGCCACCCGCAGCGAGCGGCTGGCGCGCTTCGGCGATGCCGAGGACCTGCGCCATCACCTGGAACGGCTGCAGCAGCGTGCGCTGGTGGTGCAGCTGCCGCGCGCCGGTGGCCAGCGCGAGGACCGCTACATGCACCAGCTGTGCGGCCCGGTCGATGTTGCCGCGCTGGCCACCCAGACCGCGAGCCAGGCGGCGGCCGCGCCGGCAGGGCGCTCGGCCGAGCTGGAGGCCCGCGTGCAGGCGCTGGAAGCGACGGTGGCCGAGCTGCAGGACGCGCTCGCCCAGCTGCGCGCGCAGTTGGGCGACTGA	MQDDTSTPALPVLDAIQARALGCLIEKEATTPDAYPLTVNAAQVAANQKTSREPVMALDAGEVHHALRQLEAMGLARQQFSSRAERYEHRLGAALDLPAQQVALLGLLLLRGPQTPGELATRSERLARFGDAEDLRHHLERLQQRALVVQLPRAGGQREDRYMHQLCGPVDVAALATQTASQAAAAPAGRSAELEARVQALEATVAELQDALAQLRAQLGD	PGPT0024195_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_MODIFICATION,PGPT0024195-mviM|yceM-K03810	NA	NA
BMS020_08311	585	idi_2	COG1443	Isopentenyl-diphosphate Delta-isomerase	ATGCACGCCGTGCCCACGTCCGACGCCGCCCAGCCGCTGATCCGGGTCACGCCCGACGACCGCGCGCTGGGGCCGCTCGACAAGGCCGCCTGCCACGCTGGCGACGGCGTGCTGCATCGGGCGTTCTCGGTGTTCGTGTTCGACCAGCATGGCCGCGTGCTGCTGCAGCGGCGCAGCGCGGCCAAGCCGCTATGGCCGCAGTGGTGGGCCAACAGCTGCTGCTCACACCCGCGCTGGGGCGAGTCCACCGGGGCGGCCGTGCGCCGCCGCGTCAGCGAGGAGCTGGGCACGCCGCTGCTGGACGCCGCGCGCTGGTGGTTCCGCTTCGAATACCACGCCCGCTATGCCGAACTCGGCAGTGAGCACGAGCTGTGCCACGTCTACACCGGCCGCATCGACGCCGACGCGCCGCGCCCGGATCCAGCCGAGGTCGAGGACTGGCGCTGGGTCGCGCCGCAGGTGCTGCAGGCCGCGCTGGAGGATCCGCAGGCGCCCTACACCCCATGGCTGCGGCTGGAATGGCCGCGGCTGTGGCCGCTGTTGCAGGCCGACGCGGCGCTGTCGCCGCTGCGCCAGCCGGGCTGA	MHAVPTSDAAQPLIRVTPDDRALGPLDKAACHAGDGVLHRAFSVFVFDQHGRVLLQRRSAAKPLWPQWWANSCCSHPRWGESTGAAVRRRVSEELGTPLLDAARWWFRFEYHARYAELGSEHELCHVYTGRIDADAPRPDPAEVEDWRWVAPQVLQAALEDPQAPYTPWLRLEWPRLWPLLQADAALSPLRQPG	PGPT0007530_2116	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007530-idi-K01823	NA	NA
BMS020_08312	714	ompR_5		Transcriptional regulatory protein OmpR	GTGACCCATCTGCTGGTTGTCGATGACCACCGTTCGATCCGCGAACCGTTGGCCGCCTACCTGCGGCGCCAGGGCTTCGAAGTGACCACCGCCAGCGATGGCCCGTCGACCCGCGCGCGCCTGCTCGAACGCCGTTTCGACCTGGTGGTGCTGGACCTGATGCTGCCGGGCGAGGACGGGCTGTCGCTGTGCAGGCACATCGGCAGCGACTACGCCACGCCGATCATCATGCTGACCGCGCGCGCCGAGTACGCCGACCGCATCACCGGGCTGGACCTGGGCGCGGACGACTACGTGACCAAGCCGTTCAACGTCGACGAGCTGGTCGCGCGCATCCGTACCGTGCTGCGCCGCGCACGGCCGCCGGTGGAGGAACGCGCCGAACCCAGCGGCGTGCTGCGCTTCGAGGGCTGGGCGCTGGACCTGCTGCACCGCCGCCTGCTCGACCCGCAGGGCGTGGAGGTCGCGCTGAGCACGATGGAATTCGGCCTGCTGCGCGCCTTCCTCGAACGCCCCAACCAGGTGCTCAGCCGCGACGACCTGCTCGACCTGAGCCAGCGCGAGGACATCGGCTTCGACCGCAGCATCGACAGCCAGATCAGCCGGCTGCGGCGCAAGCTGGAGGATGACCCGCGCCATCCCACGCTGCTGAAGACGGTGTGGGGCGCCGGCTACCTGCTCGCCGCCGAGGTCCAGCTGGAGCCGCAGCCGTGA	MTHLLVVDDHRSIREPLAAYLRRQGFEVTTASDGPSTRARLLERRFDLVVLDLMLPGEDGLSLCRHIGSDYATPIIMLTARAEYADRITGLDLGADDYVTKPFNVDELVARIRTVLRRARPPVEERAEPSGVLRFEGWALDLLHRRLLDPQGVEVALSTMEFGLLRAFLERPNQVLSRDDLLDLSQREDIGFDRSIDSQISRLRRKLEDDPRHPTLLKTVWGAGYLLAAEVQLEPQP	PGPT0012985_903	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
BMS020_08313	1353	sasA_14		Adaptive-response sensory-kinase SasA	GTGAAGCTGAAGCTGTTGCCGCGCAGCCTCGGTGGCCAGCTGGTGGTACTGATGCTGGGCGGCTTCGTGGTCGGCAACCTGTTCGGCACGGTGGGACTGTGGTCGCAGGCCGGCGCGCTGCATCCGATCGCGCGCGAACATGCATTGTCGCGCACCGTCACCGCCTACCGCCTGGCGCATCGCCTGCCGGCCAGCGACGACGGCTGGCTGCAAGCCTTCAACAACCAGGTCGCCTACCTGTGGGTCGACCGCGAACCCAGCCACGTGGCGATGGGCGAACGCGAACTGACCCTGGCCCAGGAAATCCGCCAGCGCCTGGCCGCGCAGGCGGTGACGGTGCGCATGCCGTGCCGCGCCGACGCGCGCCACGCGCCGCTGCCCGGGTTGCAATCGAGCGCGTTCACCGTCGAATGCGTGGAGATCGACCTGGCGCTCGGCGACGGCCGCTGGCTGCACACCCGCCAGGCGCTGCCGGTGCAGTCGCTGTGGCGCGAGAGCTGGCAGCTGCTGCGCTTCTCGCTGCTGGTGGGGATCCCGCCGGTGCTGATCCTGATGTACATGTTCGTCAACCGCATCCTGCGCCCGACCACCGCGCTGACCGATGCGGCCGAGCGCATGAGCCGCGGCGAGCGCCTGGACCCGCTCAGCGTGCAGGGCCCGGACGAGATCCGCGAGATCGCCGAGGCGTTCAACCAGATGCACGAACGCATCACCCGCTTCGTCGACGAACGCACGCGGATGCTGGCGGCGATCAGCCACGACCTGCGCACGCCGCTGACCTCGCTGGAACTGCAGGCGGTGATGCTGCCCGACAGCGAGGAGCGCGCCGAGATGCTGCGCACGCTGGAGGAGATCCGGCAGATGGTCGACGAGACGCTGCGCTTTGCCACCCAGAACGCGCGCGCCGAAGCCAGCTGGGAAGTGGACCTGGCGACACTGGTCGAGGAAGTGTGCGACCGCCAGCTCACCCTCGGCCGCGACGTGAGCCTGCAGCGCCCCGGCGCCCTGCCCTATCGCTGCCGCCCGCTGGCGCTCAAGCGCGCGATCAACAACCTGATCGAGAACGCACTGCGGCATGGCCGGCACGCCGAGGTCCGGCTGCTCGACCAGGGCGCGCACGGCGTGCTGATCGAGATCGCCGATGATGGCCCGGGCATTCCCGAGGCGATGCTGGAGCGGGTGTTCGAGCCGTTCTTCCAGCTCGACGAATCGCGCCACCGCGAACTCGGCAGCAGCGTCGGGCTCGGCCTGGCGATCGCGCGCGACTGCATCCAGGCCCATGGCGGCAGCATCCAGCTGCACAACCGTACCGAAGGTGGGCTGCTGGCGCGGATCGAGCTGCCGGCGGCGTAA	MKLKLLPRSLGGQLVVLMLGGFVVGNLFGTVGLWSQAGALHPIAREHALSRTVTAYRLAHRLPASDDGWLQAFNNQVAYLWVDREPSHVAMGERELTLAQEIRQRLAAQAVTVRMPCRADARHAPLPGLQSSAFTVECVEIDLALGDGRWLHTRQALPVQSLWRESWQLLRFSLLVGIPPVLILMYMFVNRILRPTTALTDAAERMSRGERLDPLSVQGPDEIREIAEAFNQMHERITRFVDERTRMLAAISHDLRTPLTSLELQAVMLPDSEERAEMLRTLEEIRQMVDETLRFATQNARAEASWEVDLATLVEEVCDRQLTLGRDVSLQRPGALPYRCRPLALKRAINNLIENALRHGRHAEVRLLDQGAHGVLIEIADDGPGIPEAMLERVFEPFFQLDESRHRELGSSVGLGLAIARDCIQAHGGSIQLHNRTEGGLLARIELPAA				NA	NA	NA	NA	NA
BMS020_08314	1497	lpdC_2	COG0043	Gallate decarboxylase	ATGAGCAACACCACTCCCAGTGCCGCACAGATCACCGATCTGCGCTCGGCCATCGACGTACTCAAGCAGTACGACGACGAATACGTCGAAACCAATGTTCAGGTCGATCCCGAGGCCGAACTGTCCGGCGTCTACCGCAAGGTCGGTGCCGGCGGCACCGTGATGCGCCCGACCCAGACCGGCCCGGCGCTGATGTTCAACGACGTCAAGGGCTTCCCCGGCGTGCGCGTGCTGATCGGCCTGCTGGCCTCGCGCCAGCGCGTGGCCCGCATGTTCGGCATGGACAAGGAGAAGCTGGGCTTCCAGATGCGCGAGGCGGTCAAGAACGCCATCGCCCCGGTGGTGATCCCCAATGCCCAGGCCAAGTGCCAGGAAGTGGTGCACCTGGCCAGCGAGCCGGGCTTCGACCTGCGCACCCTGCTGCCGGCGCCGAAGAACACCCCGGAAGATGCCGGCCCGTACTTCACCCTGGGCATGTGCTACGGCGCCGACCCGGAGACCGGTGAGCACGACGTGACCATCCACCGCCTGTGCGTGCAGAGCAAGGACGAGATCTCGATGTACTTCGTCCCGGGCCGCCACCTGGACACCTTCCGCCAGAAGTACGAGAAGGCCGGCAAGCCGATGCCGATCACCATCTCCATCGGCGTGGACCCGGCGATCGAGATCGGCGCCTGCTTCGAAGCCCCGACCACCCCGCTGGGCTATGACGAGCTGTCCATCGCCGGCGGCCTGCGCGGCAAGGCGGTCGAGCTGGTCGAAGGCATTGCGGTCAAGGGCGCGCGCGGCATCGCCAATGCCGAGATCGTGATCGAAGGCGAGCTGGTCGCCGACTACCGCGTCCGCGAGGACCAGAACACCAACACCGGCAAGGCCATGCCGGAATTCCCGGGCTACACCGGCGAAGCCAAGGCCGCCGTGCCGGTCATCAAGGTCAAGGCCGTGACCACGCGCAAGGACCCGATCCTGCAGACCTGCATCGGTCCGTCGGACGAGCACACCAACATGGCCGGCATCCCGACCGAGGCCAGCATCCTGGCGCTGATTGAGCTGGCGCTGCCGGGCCTGGTGCAGAACGTGCACTGCCCGTCGCCGGGTACCGGCAAGTACGTCGCCTTCGTGCAGGTCAAGAAGCGCGGGCCGCAGGACGAAGGTCGCCACCGCCAGGCCGCGCTGCTGGCGTTCTCGGCCTTCTCCGAGCTCAAGCACGTGTACCTGGTCGATGAAGACGTGGACATCTTCGACACCAACGACGTGATGTGGGCGATGACCACGCGCTACCAGTCGGATGTGGACACCATCACCATCCCCGGCGTGCGCTGCCATCCGCTCGATCCGTCGCAGGACCCGGCGTTCAGCCCGTCGATCCGCGACCACGGCATCACCGCCAAGACGATCTTCGACTGCACCGTGCCGTACGCGCTGAAGCACAACTTCCAGCGCTCGCAGTTCCTGGACGTCGACGCCGAACGCTTCGTCCCCGGCTACAAGAAGTAA	MSNTTPSAAQITDLRSAIDVLKQYDDEYVETNVQVDPEAELSGVYRKVGAGGTVMRPTQTGPALMFNDVKGFPGVRVLIGLLASRQRVARMFGMDKEKLGFQMREAVKNAIAPVVIPNAQAKCQEVVHLASEPGFDLRTLLPAPKNTPEDAGPYFTLGMCYGADPETGEHDVTIHRLCVQSKDEISMYFVPGRHLDTFRQKYEKAGKPMPITISIGVDPAIEIGACFEAPTTPLGYDELSIAGGLRGKAVELVEGIAVKGARGIANAEIVIEGELVADYRVREDQNTNTGKAMPEFPGYTGEAKAAVPVIKVKAVTTRKDPILQTCIGPSDEHTNMAGIPTEASILALIELALPGLVQNVHCPSPGTGKYVAFVQVKKRGPQDEGRHRQAALLAFSAFSELKHVYLVDEDVDIFDTNDVMWAMTTRYQSDVDTITIPGVRCHPLDPSQDPAFSPSIRDHGITAKTIFDCTVPYALKHNFQRSQFLDVDAERFVPGYKK	PGPT0005530_32	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE|TANNINE_RESISTANCE,PGPT0005530-lpdC-K22958	NA	NA
BMS020_08315	600	bsdB	COG0163	putative UbiX-like flavin prenyltransferase	ATGCAAAAGCCAAGAGTCGTCGTGGGTATCAGCGGCGCAACGGGCTTCCAGTATGGCGTCAAGGCACTCCAGCTCCTGCGGGAGCTGGGTGCCGAAACCCACCTGGTCATGTCCAAGGCCGCCGGCCTCACCCGTCAGCATGAAACCGCCTTCGACCGCGCCGCGGTCGAGGCCCTGGCCGACGTGGTCTACCCGTCCGGCGCGGTCGGCGCCGCCATCGCCAGCGGCTCGTTCCGCACCCTCGGCATGATCGTCGCGCCGTGCTCGATGCGCACCCTGGCGTGCATCGCCAACGGCATCAGCGACAACCTGCTGACCCGGGCCGCCGACGTGGTGCTGAAGGAGCGCCGCAAGCTGGTGCTGATGGTGCGCGAAACGCCGCTGCACCTGGGCCACATCCGCAACATGGCCACGGTCACCGAGTACGGCGCCATCTGCTTCCCACCGGTGCCCTCGCTGTACGCCGGGCCGCAATCGGTCGAGGACATCATCGCCCACAGCGCCGCGCGCGCCGTCGGCCTGCTCGGCCTGGAACACCCATCCACCCCGCGTTGGGGCGAAACCATCGCCGCCACCACCGCCGAAGGAGAAACCGCATGA	MQKPRVVVGISGATGFQYGVKALQLLRELGAETHLVMSKAAGLTRQHETAFDRAAVEALADVVYPSGAVGAAIASGSFRTLGMIVAPCSMRTLACIANGISDNLLTRAADVVLKERRKLVLMVRETPLHLGHIRNMATVTEYGAICFPPVPSLYAGPQSVEDIIAHSAARAVGLLGLEHPSTPRWGETIAATTAEGETA	PGPT0009565_1198	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
BMS020_08316	720	ydfK_2	COG1811	putative membrane protein YdfK	ATGATCATCGGCCCCTATATCAACGGCGCGGCCGTGCTGTTCGGCGCGCTCGGCGGCGCCATGCTCGCCAAGCGCATGCCCGAACGCCTGCGCAGCGCAATGCCGCTCACCTTCGGCGCCGCCTCGATGGCGATGTCGATCATCCTGATCAACAAGGCCGCGCACATGCCGGTGATGGTGCTCTCGGGCATCCTCGGCGCGCTGATCGGCGAGCTGGTCTTCCTCGAGCGCGGCATCGGCAAGGTCGGCAACTTCGCCAAGGACCTGGTCGAGAAGATCGTGCCGAGCAAGGGCGGCGACGGCCTGTCGCAGGAGGAGTTCCTGGAGAAGTTCGTCGCGATCATGGTGCTGTTCTGCGCCAGCGGAACCGGCATCTTCGGCTCGATGAACGAGGGCATGACCGGCGACGCCACGGTGTTGATCGCCAAGTCGTTCCTGGACTTCTTCACCGCCGCGATCTTCGCCACCACGCTCGGCTACGCGGTCGCCACCATCGCCGTGCCGCAGCTGGCGATCCAGCTGGCGCTGGCCTTCGGTGCGGTGCTGATCCTGCCGCTGACCACGCCGGCGATGGTCGCCGACTTCTCCGCGGTGGGCGGCCTGCTGATGCTCGCCACCGGCTTCCGGATCTGCGGCATCAAGGTGTTCCCGGTCGCCAACATGCTGCCTGCGCTGCTGCTGGCGATGCCGATCTCGGCGCTCTGGACCCACTTCTTCTGA	MIIGPYINGAAVLFGALGGAMLAKRMPERLRSAMPLTFGAASMAMSIILINKAAHMPVMVLSGILGALIGELVFLERGIGKVGNFAKDLVEKIVPSKGGDGLSQEEFLEKFVAIMVLFCASGTGIFGSMNEGMTGDATVLIAKSFLDFFTAAIFATTLGYAVATIAVPQLAIQLALAFGAVLILPLTTPAMVADFSAVGGLLMLATGFRICGIKVFPVANMLPALLLAMPISALWTHFF	PGPT0003195_268	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_TRANSPORT,PGPT0003195-ydfK|yqgA-K07150	NA	NA
BMS020_08317	495			hypothetical protein	ATGAACGCACTGCCCGACTCCATCGCCACGGTGCTGGACAGCCACCAGGTGCTGTCGCTGGCGATCTGCCTCGATGACATCCCGTGGTCGGCCAGTGCGTTCTTCGCCTACGACGCAGACCAGCAGCGCCTGCTGATCCTGAGCTCGCTGGACACCCGCCACGGCGAACTGCTCACGCTCAACCCGCGCGTCGCCGGCACCGTCTGCGGCCAGTTCACCGAGATCGCCCAGATCCACGGCCTGCAGTTCTACGGCATCGCGCGCCGGCTGGCCGAGCCGGGCGACGCCGACGCCGCACGCGCCTTGTACTACCAGCGGTTCCCCCAGGCCCGTGGCTTCACCGCCCCGGCCTGGGAGATCCGCCTGCTGCAACTGAAGCTCACCGACAACCGGCTCGGCTTCGGCACCAAGATCCAGTGGAGCAGACATGACGGGGAGACGTCACCTGTCCTGCGCTGCACCGCTTCCGACACGACGACACCAACGTCACATTGA	MNALPDSIATVLDSHQVLSLAICLDDIPWSASAFFAYDADQQRLLILSSLDTRHGELLTLNPRVAGTVCGQFTEIAQIHGLQFYGIARRLAEPGDADAARALYYQRFPQARGFTAPAWEIRLLQLKLTDNRLGFGTKIQWSRHDGETSPVLRCTASDTTTPTSH				NA	NA	NA	NA	NA
BMS020_08318	1584	quiC_2		3-dehydroshikimate dehydratase	ATGAGCACCAAGACCACCTACTCGCTGCTCGCGCTCGCGCTGCTGGCCACACCGGCCCTCGCGCAGAGCACCTCCGACCCGGCCATCGCCGGCGTGGCCCAGCCCCGCCCGGCGCTGAGTGAAGTGCTGAAGGTGACCAGCTACGCCGACGACGGCACGCCTGGCACGTTCCGCTGGGCCCTGGAACAGAACAATGCCAACCCGGGCCACTACCGCATCGAGCTGAGCGCGATCGGCAAGGGTCCGTACGTGATCAAGACCAAGAGCGAACTGCCGCCGATCAAGGGCCCGGTGGTGATCGAGAACGTGGACTTCGCGCGCAACGGCACCTACGTGGCGATCGACGGCGTCGAGTACGTCGGCGGCAACGCCGATCCGCAGGACTGCCCCGGCGCGGTCCCCGGCCAGTACGGCACCAACGTGCGCACCACCACCAAGCCCGGCCTGATCCTGCGCGACACCCAGGGCGTTGAGCTGCGCGGCCTGGAAGTGCGCAACTTCTGCATCGGCGTGCTGATCAACCGCGCCAGCGGCAGCCTGATCCACGACAACCGCATCGTCCACAACACCGGCGGCACCGGCATCATGATGACCGGCGATGATGGCAAGGGAAATTCCACCGCCACCACCACGGTGCACAACAAGATCCTGCGCAACCGCTTCATCGACAACGGCGATGCGCTGGAAGCCACCCGCGGCGCGGCGTTCAACCTGATCGCCGACAACTTCATCACCAGTTCGGACAAGAACAACAAGGAACCCTCGCAGGGCCTTGAGATCCTGTGGGGCAACGACAACACGATCGTGCACAACCACTGGGAGAACCTGTCCGACGGCGTGCAGCTGAACTGGGGCAACCGCAACTACATCTCCGGCAACACCTTCACCGGGCTGTCCTCGGCGGTGACCCTGAGCGGCTCGGGCAACATCGTCTCGGGCAACATCATGCACGGCAACCGCGTGGCGGTGTCGGTGCGCCCGCAGGCCGCTCCCGGCCCGGACGGCACCTACGGCAAGAACCGCGTGCTCGGCCCGGCGATCAACACCATCACCGCCAACGTGATGTACGACAACGGCAAGGACATCAAGCGCTGCTTCGCCGGCGGCTCCTGCCTGCCCGACCAGTTCGGCGCGATCGTGTTCAACGTGCCGGGCCTGGAGCACGGCAAGTTCATCGGCAACCGCGGTGGCGGCGTCGAGAGCGATGTCTCCAAGCTGGAAACCGTGTGCGCGCTGGACGGCAACGTGCCGGGCTGCGAGCCCTCGCCGAACCACGGCCAGACCGCGCCGAAGCTGCTGTCGATCCTGGCCGGCAGCAAGGGCTCGGTCGGCGTGAAGGGCGAGTTCTCCGGTGAACCCAACACCCTGTACCGGGTCGAGCTGTTCGCCAACAGCAAGCCGGGCCGGACCGAGGCCGAGCGTTACATCGGCTTCATCCAGGTGCCGGTCGACGCGCAGGGCAAGGGTGCCTTCGTGTACCAGGTCGAGTCGGCCGACGCCGCTGGCGCCGCCAACTTCACCGCCACGGTCACCACCAACGACGGTGCGACCTCGCCGCTGAGCGCGCCGCTGGCCCGCAAGTAA	MSTKTTYSLLALALLATPALAQSTSDPAIAGVAQPRPALSEVLKVTSYADDGTPGTFRWALEQNNANPGHYRIELSAIGKGPYVIKTKSELPPIKGPVVIENVDFARNGTYVAIDGVEYVGGNADPQDCPGAVPGQYGTNVRTTTKPGLILRDTQGVELRGLEVRNFCIGVLINRASGSLIHDNRIVHNTGGTGIMMTGDDGKGNSTATTTVHNKILRNRFIDNGDALEATRGAAFNLIADNFITSSDKNNKEPSQGLEILWGNDNTIVHNHWENLSDGVQLNWGNRNYISGNTFTGLSSAVTLSGSGNIVSGNIMHGNRVAVSVRPQAAPGPDGTYGKNRVLGPAINTITANVMYDNGKDIKRCFAGGSCLPDQFGAIVFNVPGLEHGKFIGNRGGGVESDVSKLETVCALDGNVPGCEPSPNHGQTAPKLLSILAGSKGSVGVKGEFSGEPNTLYRVELFANSKPGRTEAERYIGFIQVPVDAQGKGAFVYQVESADAAGAANFTATVTTNDGATSPLSAPLARK	PGPT0003575_3	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_QUINATE_CATABOLISM,PGPT0003575-quiC-K09483	NA	NA
BMS020_08319	543	dsbB_3		Disulfide bond formation protein B	ATGGCAAACGGAATCGACGCAAGGTGGTGGCCGTTGAACTGGTCGTTCCAGCAGCGGTTCCTCGCCGGCTTCCTGGGCTGCGCAGGCGTGCTGCTGTACGCGCTGTACACCCAGTACTTCGGCGGGCTGCGGCCCTGCCCGCTGTGCACGTTCCAGCGCGGCGGCTTCGTGCTGCTGGCGATGCTGTTCGTCGCCGGCGCGATGCACGCACCGCGTTCGCTCTGGGTCCGTACCGGCTACGTGGCGGCCACGATCGTCGTCGCCTTCGGCGGCATCGCGATCGCCGCGCGCCACGTCTGGCTGCAGCTGCTGCCGCCGGAGCTGGTGCCCGACTGCGGCCCAGACCTCGGCTACATGCTGCAGGCCTGGCCGCTGGGCGACACCATCCGCCAGGTGTTCACCGGCTCGGGCGAATGCGCGATCGTCGACTGGACCTTCCTCGGCCTGTCGATGCCCGCCTGGAGCCTGCTGACCTTCGCCGCCCTCGCCCTATGGAGCGGCCTGTGCCTGCGCGCACGCGAGCAGCCCTCGCACCACCCATGA	MANGIDARWWPLNWSFQQRFLAGFLGCAGVLLYALYTQYFGGLRPCPLCTFQRGGFVLLAMLFVAGAMHAPRSLWVRTGYVAATIVVAFGGIAIAARHVWLQLLPPELVPDCGPDLGYMLQAWPLGDTIRQVFTGSGECAIVDWTFLGLSMPAWSLLTFAALALWSGLCLRAREQPSHHP				NA	NA	NA	NA	NA
BMS020_08320	1317	oprB_5	COG3659	Porin B	ATGAACATCCATCATCATCCGAAGCATGTCGGAGGGACCGCCGTGCGCCTGTGCGCGCTGGGCGGGCTGCTGCTGGGCCTGCCGCTGACCGCGCTGGCGCAGTCTTCGGACGCCTACACCGGCAAGACCATGACCGGCGACTGGAACGGCAAGCGCAGCGAGTGGGCTGCTGACGGCATCAACATCCGCGGCGGCTTCATCACCGAGGCCATGGGCGTGGTCTCCGGCGGCGTCGACACCGGCGCGCGCAATGCCTTCCAGACCCAGGTCGGCGTCGACCTGGACATGGGCAAGCTGACCAGCTTCTGGGGCGACGGCCGCTTCCACCTGACCATCAACGACCGCCGCGGCCGCGGCACTTCGCAGGACCTGGCCGGCAACGACTACATGCCGATCCAGGAGATCTACAGCGACCAGTTCACCCGCCTGACCGAACTGAGCTACGACCAGAACTTCTTCAACAAGAAGTTGAACTGGAAGGCCGGCTACTACGTGATGGGCAATGATTTCGGCATCAACCAGATCATGACCAACTTCGTCAACGCCGCGCTGTGCGCGCACCCGATCTCGCTGTCGACCAGCGCCGGTTGGACCAACTGGCCGCGGCCGCGCTGGGCCACCCACGTGACCATCCACCCGACCGCGGAAACCATCGTGCGGACCGGCATGGTGCTGGTCAACACCAACTACAACCTGGAGGAGAACCGCTGGAGCCTGCACGAGCACGGCACCACCGGCCACCTGTATCCGATCGAGTTCGAATGGGCCCCGGGCACCGCCAACAAGGGCAACTACCCGGGCCACTACAAGATCGGTTACTACTACGACACCTCCGACAAGGCCATGGTCGGTGACCGCAGCGCGCTGATCGCCGACCATCGCGAGGGCGGTTACATCATGACCGACCAGAAGTTGACCAACAACGCGGTCAACGGCGGCCTGAGCGTGTTCGCGCAGTACACCGCGCAGTCGCAGCAGACGGCGGTGATCAACCGCTGGTTCTCCGGTGGCCTGGTCTACCAGGGCCTGGTCGATTCGCGCCCGCAGGACCGCATCGCATTGGGCTACGTGCGCGCCTCGGTCAACCAGCACCTGCTCAACCAGCAGCTGACGCTGATGCAGGCCGGGCTGATCACCGATCCGGATTGGGAACTGAACCAGGCCGAGGAGCTGTTCGAGCTGGCCTACACCTTCCAGGTGCGGCCATGGCTGTCGCTGCGCCCTGACGTGCAGTACATCACCAAGCCCGGCGCGTTCCGCTACAAGAACACCGACGACGTCATCGCCGCCGGCATCCAGGCAAAGATCACCTTCTGA	MNIHHHPKHVGGTAVRLCALGGLLLGLPLTALAQSSDAYTGKTMTGDWNGKRSEWAADGINIRGGFITEAMGVVSGGVDTGARNAFQTQVGVDLDMGKLTSFWGDGRFHLTINDRRGRGTSQDLAGNDYMPIQEIYSDQFTRLTELSYDQNFFNKKLNWKAGYYVMGNDFGINQIMTNFVNAALCAHPISLSTSAGWTNWPRPRWATHVTIHPTAETIVRTGMVLVNTNYNLEENRWSLHEHGTTGHLYPIEFEWAPGTANKGNYPGHYKIGYYYDTSDKAMVGDRSALIADHREGGYIMTDQKLTNNAVNGGLSVFAQYTAQSQQTAVINRWFSGGLVYQGLVDSRPQDRIALGYVRASVNQHLLNQQLTLMQAGLITDPDWELNQAEELFELAYTFQVRPWLSLRPDVQYITKPGAFRYKNTDDVIAAGIQAKITF				NA	NA	NA	NA	NA
BMS020_08321	906	quiB_2	COG0710	Catabolic 3-dehydroquinate dehydratase	ATGAACATCCGCAATCTCGTGCTGTCCTGCTCCCTCGTCCTGGCCGGTCCGCTGCTGCTCGCCGGTGTCGCGCCCTCGGCGCTCGCCGCCGCCACCAGCGCTGCGGCCGCGCCGGTGACCATCCGCCACGCCACCCCCTTCAGCATCCGCACCACCGTGATCGGCGAAGGCGCGCCGAAGACCATCGTGCCGACCACCGGCGCCAGCGTCGAACAGGTGCTGCAGCAGGCCAAGGTGATCGGCGACAACGCCGATGCCGACATCATCGAATTCCGCATCGACTACCTCGACTTCGCCACCGACCCGGCCAAGGTCGCCGCACTCGGCAAGGAGGTCGCCGATGCCGTGCACCACAAGCCGCTGATCCTCACCTTCCGCACCAAGGCCGAGGGCGGCGCCAAGCCGATCGCCGACGCCGAGTACGGCAAGCTGTACCTGGCGCTGATCAAGGGCGGTTTCATCGACATGCTCGACGTGGAGATGTTCCGCGATCCGCAAGTGGTGGCCCAGGTCGTGGCCGCCGCGCACAAGGCCGGCGTCAAGATCGTGATGTCCAGCCACGACTTTCAGAAGACCCCGGAGACCGCCGAGATCATCGATCGCCTGCGCAAGCAGGACGCGCTCGGCGCCGACGTGCTGAAGATCGCGGTGATGCCGCACGACACCGCCGACGTGCTCAAGCTGCTCGATGCGTCGGCGCAGATCCGGGCCACGTATTCCACCAAGCCGCTGCTGGTGATGTCGATGGGCGGTGTCGGCTCGATCACCCGCCTGTCCGGCGAAGTGTTCGGCAGTGACATGACGTTCGGCATGATCGGCGTGCCGTCGGCGCCGGGCCAGGTCGACGTGAAGCAGCTGCGCCAGGTGCTGGATGTGATCCATGCCTCGGTGACCGGCGGCAAGTAA	MNIRNLVLSCSLVLAGPLLLAGVAPSALAAATSAAAAPVTIRHATPFSIRTTVIGEGAPKTIVPTTGASVEQVLQQAKVIGDNADADIIEFRIDYLDFATDPAKVAALGKEVADAVHHKPLILTFRTKAEGGAKPIADAEYGKLYLALIKGGFIDMLDVEMFRDPQVVAQVVAAAHKAGVKIVMSSHDFQKTPETAEIIDRLRKQDALGADVLKIAVMPHDTADVLKLLDASAQIRATYSTKPLLVMSMGGVGSITRLSGEVFGSDMTFGMIGVPSAPGQVDVKQLRQVLDVIHASVTGGK	PGPT0012885_94	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_QUINATE_CATABOLISM,PGPT0012885-aroD-K03785	NA	NA
BMS020_08322	2127			hypothetical protein	ATGGCTTCCCCCCTGTTTTTCCGCAGCGGCCAGACCGTGCCGCTGCTGGCGCGAATGCGCGACCTGCGCATCGCCACGCGGCTGCACCTGGTCAACCTGGTCGCCCTGCTCGGCGTCGCCGCGATCTGCATCTATGCCGGCTACGGCACCCGCAGCTCGCTGCTGTCCGAGCGCCATCGCGCGCTCGGCCAGAGCATGGACATCGCCGCGCGTACCGTCGGTCATTTCGTCGAGCTGGAGCGCCGCGGCGTGCTGTCGCGCGAGGAGGCCCAGCGCCAGGCGCTGGCCGTGGTGCATGAAATGCACTACGGCGACGGCAACTACTTCTGGATCAACCAGGTTCTCGACGACCATCGCGCACGCCGGCTGATGAACGGCGCCAACGACGCGCTGGTGGGCACCATCGCCGACCAGCCGGCCGATGCCGCGTTCCTGGCACTGGTCCGCCGCGATGGCGGCGGCACCGTCGAGCAGCACTGGCCGCGCCCCGGCACCACCCAACCGGTGCCCAAACTCAGCGCGGTGCGCGGCGTCAAGGAATGGAACTGGGTGATCGGTTCAGGCCTGTACCTGGATGACATCAGCAGTGCGTTCTGGAGCGCGATGCTGCGCCTGGGCGGCATTTTCCTGGCGATCTGGGTGGTGCTGACCGCCGCGGCGCTGGCGATCACCCGCTCGGTGCTGGCGCCACTGGGCCAGGCCACCGCGGTCGCCACGGCGATCGGCCAGGGCCGCCTGGACAACGCCATCCGCGTCACCAGCCGCAACGAGCTCGGCGTGCTGCTGTCGGGCATGGAAGCAATGCAGGGCCAGCTGCGCGCGATGATGGACGCGCAACGCGAGATGGCCCAGCAGCACGATGCCGGCATGATCAGCTACCGCATGGACGATGGCGCGTTCCCGGGCGAGTACGGCGACATCGTGCGCGGTATCAATGCGCTGGTCGGCTCGCACGTGGACAGCACGCTCAACCTGGTCGGGTTGATGGATCGCTATGCCGAAGGCGATCTCAGCGGCGACCTGGAACAGTATCCTGGCGAGAAGGCGGTACTCAGCCGCACGATGGCCAAGATCAAGGCCAGCCTGGGCGCGATCAACGGCGAGATCGAACAGCTTGCCCGCGCGGTCGCCGCCGGCGACTTCAGCCGGCGCGGCGACACCACGCGCTTCCAGCACGAGTTCCGCGCGATGGTGCAGGGCCTGAACACGATGATCGAAACCACCGATCGCAACCTCGAGCAGATCGCGCAGGTCCTGCGGCGCATCGCCGCCGGCGACCTCAGTGCGCGCATGCAGGGCGAGTACCACGGCGTGTTCGCATCGATGCGCGACGATGCCGATGCCACCGTCGCCCAGCTCACCGCGATCGTCGCGCGCATCCAGCAGGCCAGCGGCCACGTCGATACCGCGGCCGGCGAGATCGCCGCCGGCAACGAAGACCTGTCTCGGCGTACCGAGCAGCAGGCGGCGAACCTGGAGGAGACCGCCGCCTCGATGGAGGAACTCACCTCCACGGTGCGCCAGAACGCCGAGCATGCACGCCAGGCCGACATCGCTGCGAACGAAGCGGGCCAGGCCGTGCAAGAGGTCTCGCAATCGATCGACGCGGTGGCGCGGATGATGGAGCAGATCGATGCCTCGTCGTCGCGGATCGCCGAGATCACCGGCGTCATCGACGGCATCGCGTTCCAGACCAACATCCTGGCACTCAATGCCGCGGTCGAGGCCGCGCGCGCCGGCGAGCAGGGCCGCGGCTTCGCCGTGGTCGCCAGCGAAGTACGCACGCTCGCGCAGCGCTGCGCCACCGCCGCGCACGAGATCAAGCAGCTGGTCGAATCGGCCGGCGAGCGCGTCGCCGCCGGGCTGACCACCAGTCAGGCGTCCGAGCAGGCCATCGCCCGCCTGATCACTGCGGCCGGCCGCACCACCAGCCTGATCAACGAGATCGCCGCCGCCAGCGGCGAACAGGCAGCCGGCATCGAGCAGGTCAACCAGACCATCACCCAGATGGACGAGGTGACCCAGCAGAACGCGGCCCTGGTCGAGGAGGCCACCGCCGCCGCGCGCAGCCTGGAGCAGCAGGCGGCCGGCCTGACCGGTGCGGTGGCGGTGTTCCGGCTGAGCTGA	MASPLFFRSGQTVPLLARMRDLRIATRLHLVNLVALLGVAAICIYAGYGTRSSLLSERHRALGQSMDIAARTVGHFVELERRGVLSREEAQRQALAVVHEMHYGDGNYFWINQVLDDHRARRLMNGANDALVGTIADQPADAAFLALVRRDGGGTVEQHWPRPGTTQPVPKLSAVRGVKEWNWVIGSGLYLDDISSAFWSAMLRLGGIFLAIWVVLTAAALAITRSVLAPLGQATAVATAIGQGRLDNAIRVTSRNELGVLLSGMEAMQGQLRAMMDAQREMAQQHDAGMISYRMDDGAFPGEYGDIVRGINALVGSHVDSTLNLVGLMDRYAEGDLSGDLEQYPGEKAVLSRTMAKIKASLGAINGEIEQLARAVAAGDFSRRGDTTRFQHEFRAMVQGLNTMIETTDRNLEQIAQVLRRIAAGDLSARMQGEYHGVFASMRDDADATVAQLTAIVARIQQASGHVDTAAGEIAAGNEDLSRRTEQQAANLEETAASMEELTSTVRQNAEHARQADIAANEAGQAVQEVSQSIDAVARMMEQIDASSSRIAEITGVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVASEVRTLAQRCATAAHEIKQLVESAGERVAAGLTTSQASEQAIARLITAAGRTTSLINEIAAASGEQAAGIEQVNQTITQMDEVTQQNAALVEEATAAARSLEQQAAGLTGAVAVFRLS	PGPT0015710_1885	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
BMS020_08323	537			hypothetical protein	ATGTCCTATCTGATCGAAACCGAACGCCTGCGGCTGCGCCCGATCGATCCCGTGGCCGATGCCGCATCGATGCTGACGCTGCTCAACGACCCTGGCTTCCGTGCCGGCATCGCCGACCGCGGCGTGCGCAGCCAGGCGCAGGCCACCGACTATCTGCGCGGATGGGCCGGGGCGCAGTACGCGACCTTCGGCTTCGGCCACTACCTGATCGAGCGCCGCGCCGATGGTGTGTTCCTCGGCACCGCCGGGTTGATCCAGCGTGCCGACCTGCCGGTGCCGGACATCGGCTATGCGCTGCTCGCCGCCCATTGCCGGCAGGGCTACGCGTATGAGGCCTCGCGCGGGGTGATGCGGTATGCGCGCGAGGTGCTGGGGCTGCACGCGCTGTGCGCGATCGTCTCCCGCGACAACCATGCCTCGCGCGCGCTGCTGGAAAAACTTGGCCTGCACGAGGATGGCGAATACGTGATCGCCGCCGAACGGGCGCCGCTGGTGCATTACACGATCGCACTGGACCAGGCCGAACCGCCGCGCTGA	MSYLIETERLRLRPIDPVADAASMLTLLNDPGFRAGIADRGVRSQAQATDYLRGWAGAQYATFGFGHYLIERRADGVFLGTAGLIQRADLPVPDIGYALLAAHCRQGYAYEASRGVMRYAREVLGLHALCAIVSRDNHASRALLEKLGLHEDGEYVIAAERAPLVHYTIALDQAEPPR				NA	NA	NA	NA	NA
BMS020_08324	1977	rep_5	COG0210	ATP-dependent DNA helicase Rep	ATGCACGGTCTCAACCCCCCTCAACGCGCCGCGGTCCTGCACTGCGAAGGTCCCCTGTTGGTGCTGGCTGGCGCCGGCAGCGGCAAGACGCGGGTGATCGTCGAGAAGATCGCGCACCTGATCGGCTCCGGCCGCTACAGCGCCAAGCGCATCGCCGCGATCACCTTCACCAACAAGTCGGCCAAGGAAATGCGCGAGCGCGTGGCCAAGCGCATCGCCGGCAATGCCGCCGACGGCCTCACGATCTGCACCTTCCACGCGCTGGGGCTGAAGTTCCTGCAGATCGAGCACGACGCGGCCGGGCTCAAGCGCGGCTTCTCGATCTTCGATTCGGACGATGCGGGTGCGCAGATCAAGGACCTGATGCACGGCGCCAAGCCCGATGCGCTGGACGACGTGAAGAACCTGATCTCGCGCGCCAAGAATGCCGGCCTGTCGCCGGAGCAGGCGCTGGCGGCGGCGCGCAGCACCCGCGAGAAGGAAGCCGCCGGCGTCTACGAGCGCTACCAGGCGCGGCTGGCCACCTTCAACGCGGTCGACTTCGACGACCTGATCCGCCTGCCGGTGCAGATCCTGGAGGAGAACCCGGAGGTCGTGCTGGCCTGGCGCGAGCGCATCGGCTACCTGCTGGTCGACGAATGCCAGGACACCAACGACGCCCAGTACCGGCTGCTGCGCATGCTGGCGGGTGAGCGCGGCAACTTCACCTGCGTGGGCGACGACGACCAGAGCATCTATGCCTGGCGCGGCGCCAACCCGGAAAACCTGCTGCAGATGGGCGTGGACTATCCGAAGCTGGAGATCATCAAGCTGGAGCAGAACTACCGCTGCTCCAACCGCGTGCTGCGCGCGGCCAACGCGCTGATCGCGCACAACCCACACGAGCACCTGAAGACGCTGTGGAGCGACCAGAAGGATGGCGAACGCATCCGCGTCTGGGAATGCCGCGACAGCGAGCACGAGGCGGAGAAGGTCGCCGCCGAGATCTCGTTCCTGGGCACCGCCAAGCAGGTGCCGTGGAGCGACTTCTGCATCCTGTTCCGCGGCAACTTCCAGTCGCGGCCGCTGGAGAAGGCGCTGCAGCTGCTGCGTGTGCCGTACCACCTGACCGGCGGCACCGCGTTCCTGGAACGCCAGGAAGTGAAGGACACGCTGTCGTGGCTGCGGCTGGTGGTCAACCCGGACGACGACGCGGCGTTCCTGCGCGCGGTGCAGTCGCCCAAGCGCGAGGTCGGTGCGTCTTCGCTGGCCAAGCTGGCCGAACTGGCCTCGGCCAAGGGCGTGCCGATGTCGCGTGCGGCCGAAGCGGTCGGCGCATTGCAGCAGCTGCCGCCGCGTGCCGCCAACGGGTTGAGCAACTTCACCGACGTGCTGCACGAGATGCGCGACATGGCGCTGCGCGCGCCGGCCGCGGAGCTGGTGCGCGCGCTGGTCGAGCGCTCGGGCATGCTCAACGACCTGCGCAACCAGTCCAAGGACGAGGCCGGCTACCAGCGCCGCAAGCGCAACCTCGACGAGCTCGCCGAGTGGTTCGAAGGCGGCCCGCGTGGCGCCAGCGTTGGTGACCTGGCCTCGCAGCTGGCGCTGATCTCGCGCAACGACAAGGACGAGGGCGGCAACCAGGTGCGCATGATGACGATGCACGCGTCCAAGGGCCTGGAATTCCGCTACGTGTTCATCGTCGGCTGCGAGGACGGCGTGCTGCCGCACGAGGTCAGCCTGGAGGAAGGCAACCTGCAGGAAGAGCGGCGCCTGCTGTACGTGGGCATCACCCGCGCCAAGGAGCAGCTGTGGATGAGCTACAGCAAGCTCACCCGGCGCTTCGGCGAGGCGATCCGGCTCAAGCCGAGCCGCTTCTTCGACGAGATCCCGGCCGAGGAGATGCAGCGCGACGGCGCCGATCCGGTCGCCGATGCCGCGCACAAGCAGGAGCGCGCGAAAGCCGGGCTGGCGGCGATCCAGGCGCTGTTCGACTAG	MHGLNPPQRAAVLHCEGPLLVLAGAGSGKTRVIVEKIAHLIGSGRYSAKRIAAITFTNKSAKEMRERVAKRIAGNAADGLTICTFHALGLKFLQIEHDAAGLKRGFSIFDSDDAGAQIKDLMHGAKPDALDDVKNLISRAKNAGLSPEQALAAARSTREKEAAGVYERYQARLATFNAVDFDDLIRLPVQILEENPEVVLAWRERIGYLLVDECQDTNDAQYRLLRMLAGERGNFTCVGDDDQSIYAWRGANPENLLQMGVDYPKLEIIKLEQNYRCSNRVLRAANALIAHNPHEHLKTLWSDQKDGERIRVWECRDSEHEAEKVAAEISFLGTAKQVPWSDFCILFRGNFQSRPLEKALQLLRVPYHLTGGTAFLERQEVKDTLSWLRLVVNPDDDAAFLRAVQSPKREVGASSLAKLAELASAKGVPMSRAAEAVGALQQLPPRAANGLSNFTDVLHEMRDMALRAPAAELVRALVERSGMLNDLRNQSKDEAGYQRRKRNLDELAEWFEGGPRGASVGDLASQLALISRNDKDEGGNQVRMMTMHASKGLEFRYVFIVGCEDGVLPHEVSLEEGNLQEERRLLYVGITRAKEQLWMSYSKLTRRFGEAIRLKPSRFFDEIPAEEMQRDGADPVADAAHKQERAKAGLAAIQALFD				NA	NA	NA	NA	NA
BMS020_08325	639	tdk_2	COG1435	Thymidine kinase	ATGGCCAAGCTCTACTTCTACTACTCGGCAATGAATGCCGGGAAGACCACGACCCTGCTGCAGTCGGCGCACAACTACCGCGAGCGCGGCATGCGCACGCTGATCCTGACGCCGAAGCTGGACCACCGCGCCGGCACCGGCGTGGTCGCCTCGCGCATCGGCCTGCGTGCCGATGGCCGGCCGTTCGACCGTGACAGCGACCTGGAACGGCTGGTCGCCGCCGACATCGCCGCCCACGGCACGCTGAACTGCGTGCTGGTCGATGAGGCCCAGTTCCTCAGCCGGACCCAGGTCTGGCAGCTCAGCGAGGTGGTCGATACGTTGCGCATCCCGGTGCTGTGTTACGGGCTGCGCACCGATTTCCGCGGTGAACTGTTCGAAGGCAGCCAGTACCTGCTGGCCTGGGCCGACGAGATGCAGGAGATCAAGACCATCTGCCACAGCGGCAGCAAGGCGACGATGACCGTGCGCGTGGACGAGCACGGCCACGCCGTGCACGACGGTCCGCAGGTGGAGATCGGCGGCAACGAGCGCTACGTGTCGGTCAGCCGCGCCGAGTTCAAGAAGATCATGCGCGGCGAAGGCCGGATCGAACCGCTGCAGGAGTCACTGGCGCTGGTGAATACGCACCCCGAATAG	MAKLYFYYSAMNAGKTTTLLQSAHNYRERGMRTLILTPKLDHRAGTGVVASRIGLRADGRPFDRDSDLERLVAADIAAHGTLNCVLVDEAQFLSRTQVWQLSEVVDTLRIPVLCYGLRTDFRGELFEGSQYLLAWADEMQEIKTICHSGSKATMTVRVDEHGHAVHDGPQVEIGGNERYVSVSRAEFKKIMRGEGRIEPLQESLALVNTHPE	PGPT0021390_1225	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021390-tdk-K00857	NA	NA
BMS020_08326	741			hypothetical protein	ATGCAGCGAGTTTTCCGCCTTTGTACGCTCGGGCTGGCACTGGGCTTGGGTGCCCACACGGCGTCGGCCGCCGACGCGACACGCGCATTCCAGGATTTCCCCGCCGAAGTCATGACCGATGGCTTCCTCGAAGCGCATCTGGACCTTTTTTACCGCAAGGCCGGTATCGCGGCCGACAAGCGCGGCGACTTCGCCACCGCGCGCAAGCAGTATCAGCTCGCCGCACGCTACGCCGACAAACCCTCCCAGGCCCGCCTGGGTGAGATCTATTGGGAAGGTCAGGGCGTGGAAGCCGATCACGTGATGGGCTTCCTGTGGATGGCACTGGCTGCCGAACGCAACTATGACGCCTTCCAGGCTCGCAAGATGGAGTACTGGGGCCAGCTGTCTGCCGCGGAACGCAAACGGGCAACGTCCCTGGACCAGAAGATGCTCGGGGAGTACAGCGACACTGTCGCCAAACCGCGCCAGGCCAAGGTGATGCGGCGCGAAGCACTGCGAGGAACCGGTGGGCTACTCGGCCACTCAGGGGCCTCGAGCGTATCGATCACGACAGCTCGCGGAGGCACTATCGATCCGGAGGTGTTCTACGCCAAGGAATTCTGGGAGCCAGAAGCCTACTGGCAGATGCAGGACTATGTCTGGGACGGCCGCAGTCCCGGCCGTGTCGACATTGGCGAGGTGCAGGACCTTGGCTCAGATTCGCCCAACAACGCCAAGCCCGTCGACGAACATCCCTAA	MQRVFRLCTLGLALGLGAHTASAADATRAFQDFPAEVMTDGFLEAHLDLFYRKAGIAADKRGDFATARKQYQLAARYADKPSQARLGEIYWEGQGVEADHVMGFLWMALAAERNYDAFQARKMEYWGQLSAAERKRATSLDQKMLGEYSDTVAKPRQAKVMRREALRGTGGLLGHSGASSVSITTARGGTIDPEVFYAKEFWEPEAYWQMQDYVWDGRSPGRVDIGEVQDLGSDSPNNAKPVDEHP	PGPT0000855_4757	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-ACIDITY|NITROGEN_RELATED_REGULATION,PGPT0000855-exoR-K07126	NA	NA
BMS020_08327	1605	mdoD_2	COG3131	Glucans biosynthesis protein D	ATGCAACGACGCCATTTCCTGAAGAACGCCGCCGCCGCCCTCGCGACGATGGGGCTGCCCGCCTTCCCGCAGTGGGCGATGGCCGCCGAGGCAGTGGGCCTGCGCCGGCTCGGCAAGCCGCAGCCCTTCGACTACGCCTGGCTGAAGGGCCAGGCGCGGGCGCTGGCCGCAACGCCCTACCAGAGCCACAAGCGGACCCTGCCCGGTCCGGTGGAGGCGATGAGCTGGGACCAGTACCAGTCGATCCGCTACCGCCAGGACCATGCGCTGTGGGCCGATGCGCCCGGCCGCTTCCAGGCCAAGTTCTTCCACCTTGGGCTGTACTTCCACAGCCCGGTGCGGATGTTCGACGTCGTCGACGGCCAGGCCCAGGAGCTGGCCTACGATCCGGCTGCGTTCGACTACGGCAACAGCGGGCTCAAGGGCACCCACCTGCCCAAGGATCTCGGCTTCGCCGGCTTCCGCCTCAATACCCGCCAGGACACCGACCGCGACTTCGCCGCGTTCCTGGGCGCCAGCTACTTCCGTGCGGTCGGCAAGGAAGGCCAGTACGGGCAATCGGCGCGTGGCCTGGCGATCGACACCGGCGCCGGCACGCCGGAGGAGTTCCCGGACTTCATCGCCTACTACCTGGAGCAGCCGGCGGCCGATTCCGGCACGCTGGTGGTGTATGCGCTGCTGGATTCGCCCAGCGTCGCCGGCGCCTACCGGTTTGCGATCACCAATGGCGACGTGCTGCTGATGGACATCGATTGCGCGCTGTATCCGCGCAAGACGATCGAGCGGCTTGGCATCGCCCCGTGCACCAGCATGTACCAGTACGGCGAGAACGACCGCCGCATGGCCTGGGACTGGCGCCCGGAGATCCACGACACCGACGGCCTGTCGCTGTGGACCGGGAGCGGCGAGTGGCTGTGGCGGCCGCTGTGCAATCCGCCGCACCTGCGCTTCAACATGTTCGTCGACGAAAATCCCAAGGGCTTCGGCCTGCTGCAGCGCGACCGCCAGTTCGACCATTACCAGGACGACGGCGTGTTCTACGACAAGCGCCCGTGCCTGTGGGTCGAGCCGAAGACGGGCTGGGGCAAGGGTTCGGTGCAGCTGGTGGAGATCCCGACCGTCGACGAGACCTTCGACAACATCGTCGCGTTCTGGAACCCGGCCGAAAAGCCGCAGCCGGGCCAGGAACTGCTGTACGGCTACCGGCTGTACTGGGGCGCGCAGCCGCCGGCCGCCTCGCCGCTGGCGCATTGCGTGGATACCTTCGCCGGGCTCGGCGGCGTGGTCGGGCAGAAGCGCAAGCATTTCTCCTGGCGCTTCGCGGTCGACTTCGCCGGTGGCGAACTGGCGGCGCTGGCCAAGGCCAACGACCTCAAGGTCGAGCCGGTGCTGCAGCTGAGCCGCGGCAGCACCGAGATCGTGTCGGCGCGGCCGCTGCACCCGATCTCCGGTTACCGGGCGATGTTCGACGTGGTGCCGCCGGACGATTCCAGCGAGCAGATCGACATCCGCCTGTACCTGCGCGCGGCCGACGGCCGTCCGCTGACCGAGACCTGGCTGTACCAGTGGACGCCGCCGCCGGTGGCGGAGCGCAAGCTGTACTGA	MQRRHFLKNAAAALATMGLPAFPQWAMAAEAVGLRRLGKPQPFDYAWLKGQARALAATPYQSHKRTLPGPVEAMSWDQYQSIRYRQDHALWADAPGRFQAKFFHLGLYFHSPVRMFDVVDGQAQELAYDPAAFDYGNSGLKGTHLPKDLGFAGFRLNTRQDTDRDFAAFLGASYFRAVGKEGQYGQSARGLAIDTGAGTPEEFPDFIAYYLEQPAADSGTLVVYALLDSPSVAGAYRFAITNGDVLLMDIDCALYPRKTIERLGIAPCTSMYQYGENDRRMAWDWRPEIHDTDGLSLWTGSGEWLWRPLCNPPHLRFNMFVDENPKGFGLLQRDRQFDHYQDDGVFYDKRPCLWVEPKTGWGKGSVQLVEIPTVDETFDNIVAFWNPAEKPQPGQELLYGYRLYWGAQPPAASPLAHCVDTFAGLGGVVGQKRKHFSWRFAVDFAGGELAALAKANDLKVEPVLQLSRGSTEIVSARPLHPISGYRAMFDVVPPDDSSEQIDIRLYLRAADGRPLTETWLYQWTPPPVAERKLY	PGPT0013325_144	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0013325-mdoG-K03670	NA	NA
BMS020_08328	1041			hypothetical protein	ATGTCCCGACGCCTGTCGTTCCTGCTGCTGTTGCTGCTCCCGTGGACGTGCCCGGCATCCGCAGAGGATGTGCAACGGCTGCGCCTGGACAACGCCGCGCTGGAATTCGAGCTGACCCCGGCGTTCGGTGGCCGGGTGCTGGGCCTGCGGCTGCGTGGCGAGCCGAACCTGCTGAAGATCGGCGAGGCCGTGCAGGCGCAGCCGTCGCCACGCGTGGCGGCGGATGCCGGCGACATCGCCTATCTCGGCCATGATGTCTGGGTGGGACCGCAGCGTGATTGGTGGTTGCAGCAGCGCGTGAACCCCGCGCGTCGTGCCGCGGCGGCCAACTGGCCGCCGGATCCCTATCTCGGCTTCGCCACCACCACCGTCGTGTCCGCATCGACGCGGGCGATCGAGTTGCTGGGTGTCGCCAGTCCCGTCAGCGGCGTGCAGTTGCGCAAGCGCTTCGCCTTGTCCACGCAGCGTGCCGACACGCTCGTACTGGACGTGGAGGCGCGCAATATCCGCCGGGACCCGGTGGCCTGGGACCTGTGGTTCAACACCCGCGTCGACAGCGCCACGCGCGTGTTCGTGCCGATGGCGCAGCCCGGCGATCTACGCTTGCAGGCCGAGGCGCCCGGCTTCGCGGCACCCGCCTTCCGCCACGCGGCCGGTCTGCTGGTGCTGGCCGCCGACGGCGACCGGCGGCCCCAGCGCGGCAAGCTGCTGATCCAGCCGTCGGCCGGCTGGATGGCCGCTTTCCGCGGCCGGCAGATGCTGCTGCTGCGGTTTGACCACCACCCGCGCGAGCGCATCCATCCGCTGCAGGGCCAGGTCGAGCTGTACCTGGATGCACCCGCCGACGGCGCGGCAGGCGGGCTGCTGGAGCTGGAAGTGCACGCGCCTTACCGGACCCTCGTGCCCGGCGCACGCATGCAGGCCGGCGAGCAGTGGACCCTGCTGCGCTACCCGGGCGCGGACAACGTGCAGGCGCAGCGCGCCTTCCTGTGCGGACAGGCCGCCGAGCTCGGACTGGACGGAGCCTGCACGCAGCACTGA	MSRRLSFLLLLLLPWTCPASAEDVQRLRLDNAALEFELTPAFGGRVLGLRLRGEPNLLKIGEAVQAQPSPRVAADAGDIAYLGHDVWVGPQRDWWLQQRVNPARRAAAANWPPDPYLGFATTTVVSASTRAIELLGVASPVSGVQLRKRFALSTQRADTLVLDVEARNIRRDPVAWDLWFNTRVDSATRVFVPMAQPGDLRLQAEAPGFAAPAFRHAAGLLVLAADGDRRPQRGKLLIQPSAGWMAAFRGRQMLLLRFDHHPRERIHPLQGQVELYLDAPADGAAGGLLELEVHAPYRTLVPGARMQAGEQWTLLRYPGADNVQAQRAFLCGQAAELGLDGACTQH				NA	NA	NA	NA	NA
BMS020_08329	1239	pknD_3		Serine/threonine-protein kinase PknD	ATGGAACCGGCGCGATGGCGGCAGTTGTCTCCATTGCTCGACGAGTTGCTCGAGTTGCCCGAGGCGCTGCGTGCGCGGCGCCTGGCCCAGTTGGGCGAGCGTGAGCCGGCACTGGCTGCAGACCTGCAGCGGCTGCTCGCGCTGGAGCAGCAGCACGAGGATTTCATCGCCACGCCCGCGGCTGGTCCGAAGCGAGCGGCTGCGCCGCCGGGCGAGCGGTTCGGCGACTACCAGTTGCTGCGCCGTCTCGGCGAAGGTGCGATGGGCGAGGTCTGGCTGGCGACGGCGCTGCAGGCGCCGGATGGACCACCGGTGGCGTTGAAGCTGCTCCGCCCAGGCCTGACCGAGGACGGCCGCCAGCGACTCCTGCGCGAGCAGGACATCCTGGCGCGGCTGGCGCATCCGGGCATCGTTGCGCTGCGCGATGCCGGTGGGGCCGACGGCGACCGGCCATACCTGGTGCTGGACTACGTCGACGGCGTCGCCTTGACCGACTACTGCGCGGAGCATGGGCTGGACCTGCATGCGCGGCTGGTGGTGTTCCGTCAGGTCTGCGATGCGGTGCTGCACGCGCATCGCCAACGCATCGTGCATCGCGACCTGAAGCCGTCCAATATCCTGGTCACCGCGGATGGAGCGGTCCGCCTGCTGGATTTCGGCATCGCAGGCCTGCTCGCCGACGCCACCCAGGCCGCTGAAACCGAGCAGCAGGACGAGGCGGTGACCTTCACGCTGCACTATGCCTCGCCCGAACAATTGCGCGGCGATGCCCCGCGTACCGCCGATGACATCTACGCGCTCGGCGTGGTGCTCTACGAGCTGATCGGCGGGCGCAAGCCCTATCACCTGCGTCGCCAAAGCGATGCGGGCTGGGCCGATGCGGTGATGCGCGCAAACCCGCTGCCGCCATCGCAGCTGCCCGCGGCCCCGCGCGCGACGCCGGACGTGGCGCGCAGGCTCGACACGATCGTGATGACCGCACTGGCGAAGACGCCGCAGGCACGCTATCCCGACGTCGAGGCCCTGATCGCCGCCATCGATGCCGAACTGCTGCGGCTCGCGTCCCCACTTCCCGCCATCGCGGGAGCACCGGAGGCCCCGACCCCGCACCGTCGGCGGCGCCGACGCCGGCTGGAATCCTGGCTGGCCTTGCTGCTGGCGCTGGCAGCACTGCTGGCCTGGTGGCACGTGCTGGCGGGGCCGATGACCGCTGCGGCTGCCCGTGTCGCGGCGTGGTGA	MEPARWRQLSPLLDELLELPEALRARRLAQLGEREPALAADLQRLLALEQQHEDFIATPAAGPKRAAAPPGERFGDYQLLRRLGEGAMGEVWLATALQAPDGPPVALKLLRPGLTEDGRQRLLREQDILARLAHPGIVALRDAGGADGDRPYLVLDYVDGVALTDYCAEHGLDLHARLVVFRQVCDAVLHAHRQRIVHRDLKPSNILVTADGAVRLLDFGIAGLLADATQAAETEQQDEAVTFTLHYASPEQLRGDAPRTADDIYALGVVLYELIGGRKPYHLRRQSDAGWADAVMRANPLPPSQLPAAPRATPDVARRLDTIVMTALAKTPQARYPDVEALIAAIDAELLRLASPLPAIAGAPEAPTPHRRRRRRRLESWLALLLALAALLAWWHVLAGPMTAAAARVAAW				NA	NA	NA	NA	NA
BMS020_08330	567			hypothetical protein	ATGGGCGAGGGCTCGGATATCACCATGTGGTTGGATTCCGCCCGCGCCGGCGATCGTGCCGCCCTGGACCGCGTGCTGGCCGCGTTGTACCAGGAGCTGCACGGCATGGCCCGGCGGCAGTTGGCGGGGCAGAGCGGACAGACCCTGGATGCGACCTCGCTGGTGCACGAGTCCTATCTGAAGCTGCTCGGCGCCAGCGGCAACGCGCGTTTCGATGATCGCGCTCATTTCTTCGCCTATGCCGCGTCGGCGATGCGCAGCGTGGTGGTGGACTACGCGCGCAACCGGTTGGCGCGCAAGCGCGGCGGCGACCTGAAACGGGTCGCCGAGATTCCCGAGGACAGCGAAGGCGGCGTGCGTCTGGACGAGGATCTGCTGGCGCTGGACGTGGCGCTCAACCGCCTGCACGAGGTCGACGAGCGCCTGGCCAAGGTGGTCGAGCTGCGTTACTTCGCCGGGCTGTCGGAGCTGGAGATCGCTGAGCTGCTGCAGCGTTCCGAGCGCAGCATCCGCCGCGACTGGCAGAAGGCGCGGATGCTGTTGTTGGCTTCGATGCAGGGCGGCTGA	MGEGSDITMWLDSARAGDRAALDRVLAALYQELHGMARRQLAGQSGQTLDATSLVHESYLKLLGASGNARFDDRAHFFAYAASAMRSVVVDYARNRLARKRGGDLKRVAEIPEDSEGGVRLDEDLLALDVALNRLHEVDERLAKVVELRYFAGLSELEIAELLQRSERSIRRDWQKARMLLLASMQGG				NA	NA	NA	NA	NA
BMS020_08331	741	mutM_2	COG0266	Formamidopyrimidine-DNA glycosylase	GTGCTCCTGCGCAGGCCCGACCTGCGCTGGGCCATCCCAGACGAAATCAGCCAACGCCTGCCAGGCGCCCGCATCCTCGCGGTGCGACGTCGCGCCAAATACCTGCTGATCGATACCGACGCCGGCGGCAGTGCGCTCATTCACCTGGGAATGTCCGGCAGCCTGCGCGTGCTGCCAGGCGATACCCCGCCGCGCGCCCATGACCACGTCGATATCAGCCTGGCTGATGGCCGGGTCCTGCGCTTCAATGATCCGCGGCGCTTCGGCTGCCTGCTGTGGCAGAACGCCGATGAACCGCATCCGCTGCTGCGCGATCTCGGCCCGGAACCGCTGTCCGAGGCGTTCGACGCTGCGTATCTGTTCAACAGCAGCCGCGGCCGGCGGGCACCGATCAAGACCTTCCTGATGGACCAGAAGATCGTGGTGGGTGTGGGCAACATCTACGCGGCCGAAAGCCTGTTCCGGGCCGGCATCGATCCGCATCGCGAGGCCGGCAAGGTCGCGCGTGCGCGCTACGAAAGGTTGGTGGCGGCGGTCCGCGAGATCCTTGGCTACGCGATCGGGCGCGGGGGGACCACGCTGCGCGACTTCATCAGCCCGGATGGCCTGCCGGGCTATTTCGAGCAGGAATTGCTGGTGTACGGCCGGGAAGGCGAGCCCTGTCGGCAGTGTGGACAGCCGTTGCGGCATGCGACGATCGGGCAGCGCGCCACGGTCTGGTGCGGGCGCTGCCAGCGCTGA	MLLRRPDLRWAIPDEISQRLPGARILAVRRRAKYLLIDTDAGGSALIHLGMSGSLRVLPGDTPPRAHDHVDISLADGRVLRFNDPRRFGCLLWQNADEPHPLLRDLGPEPLSEAFDAAYLFNSSRGRRAPIKTFLMDQKIVVGVGNIYAAESLFRAGIDPHREAGKVARARYERLVAAVREILGYAIGRGGTTLRDFISPDGLPGYFEQELLVYGREGEPCRQCGQPLRHATIGQRATVWCGRCQR	PGPT0021790_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021790-ECHS1-K07511	NA	NA
BMS020_08332	885			hypothetical protein	ATGTTCGACGTCGATGCCGTCGCCGGACCGGCGCCATCTGCCTCCAGCGACCACTGTGCAGTGGTACGGGTTAGCGCGGGTCACCACATTCCGACCTGTCGCCACGTAACCGGCGCGGACGACCTACGGCAGCACCTTTCGATATCCGGTGGACTTGCAACACCGGGCCGGACCCAAGCGCCGGCCAACGCACTATCCGAGCGCATCGGCGCCGCGCCCTTCCCGCGGGGAACAAGCGGTTCGACCGCGCATGCCCCACAGCAATCGAATCGACATCGTGTCAGGCACGCGCGCGCCGGTCGGCACCAACCGACGCGAGTGACCTCGCAGATGGCGCCCAGCACGATCAGCGCGACGAGGCAGTCCCGGGCACGGGTCGCGCGCGTCCATGACGCACGGCTTCTGCGGGTCGCTCGCGACATCGCGGCCTTCCCGATATGGAACCGGGTAAGGCTGTTGCGCCAGTACAGGCCCGCACGCTTTCCGCGGCTAGAGCGCCGATTACGACTTCTTGCGATCCGCCCCGTGAGCCGCGGCAGTCTCCAGCCAGGTCCGAGCAACACGTGCCACGCGCGTGGCCAGGCCTGTCATTCGCGTTGGCGGCCATATGCCGCGGTGGATACGCAGGCGCAGACCGAATCGCGCCCCGCACCGGGCCTATCTCCCGACGCGGGGCCCGCGGAGAATGACCTGCTCCCACTGCCCCGCTGTACTGCGATGGCGATGTCATCGAAGACGCCGACGGCCTTACTGGAAGTAGAGCCGGCAGATCGCCCACATGGACAGGTCCCCCTTACGAATGAGGCCCGCGTGATGCCGGCACATTCGCGACATGCTGGCACTTTTCATCGCACGAACGCCGACGATCTTGACTCGGCGCATTGA	MFDVDAVAGPAPSASSDHCAVVRVSAGHHIPTCRHVTGADDLRQHLSISGGLATPGRTQAPANALSERIGAAPFPRGTSGSTAHAPQQSNRHRVRHARAGRHQPTRVTSQMAPSTISATRQSRARVARVHDARLLRVARDIAAFPIWNRVRLLRQYRPARFPRLERRLRLLAIRPVSRGSLQPGPSNTCHARGQACHSRWRPYAAVDTQAQTESRPAPGLSPDAGPAENDLLPLPRCTAMAMSSKTPTALLEVEPADRPHGQVPLTNEARVMPAHSRHAGTFHRTNADDLDSAH				NA	NA	NA	NA	NA
BMS020_08333	3213	putA_2	COG0506	Bifunctional protein PutA	ATGAACGCACTGCCTGATTCCGGCGCGCCCGACGCTGCCGTTCCCGCCCTGCTCGCGCCCGAGCTGCCACCGCCTCCGTCCGCGCTGCGCGCGGCGATCACCGCGGCCTGGCTGAAGGACGAGAGCGAACATGTCCGCGAACTGCTCGAGCAGGCGCGCCTGCCGGCCGCCGAGCAGGCCAAGGTCCAGGCGCTGGCCGCCGATCTGGTGACCCGCGTGCGCGCCCGCGCCGCCAACCAGAGCGCGGTCGAAGCCTTCATGCGCCAGTACGACCTCGGCAGCGAGGAAGGCGTGCTGCTGATGTGCGTGGCCGAGGCACTGCTGCGCATTCCTGACCAGGACACCGCCGACAAGCTGATCCGCGACAAGCTCGGCGATGCCGACTGGAAGAAGCATCTCGGCGGCAGCGATTCGGTGCTGGTCAACGCCTCGACCTGGGGCCTGATGCTGACCGGCCGCATCGTGCAGATCAACGACATGACCCGAGCCGATGTCCCGGGCGCGTTCACGCGCCTGGTCGCCCGCGTCGGCGAGCCGGTGGTTCGGCTGGCGGTGCGCCAGGCGATGAAGATCATGGGCCACCAGTTCGTGATGGGCCGCAGCATCGGCGAGGCGCTGGCGCGCTCGCACAAGGGCGACAACAGCCATTACCGCTATTCCTTCGACATGCTTGGCGAAGCCGCGCTGACGATGAAGGACGCCAAGCGCTACCTCGACGACTATCGCCGCGCGATCCACGCGATCGGCAGTGACAACCTCGCCCGCGGCGGCAAGGCCGACGGCGACGTCACCGCCTCGCACGGCATCTCGATCAAGCTTTCCGCGCTGTATCCGCGCTACGAGCACGCCCAGCGCGCCCGGGTGATGCGCGACCTGGTGCCGGCGGTGCTGGAGCTGGCGCAGCTGGCCAAGTCCTACGGCATCGGCTGCACCGTCGATGCGGAGGAAGCCGACCGCCTGGAGCTGTCGCTGGACGTCATCGAAGCGGTGGTCAGCGACGCCTCGCTGGTCGGCTGGGATGGGTTCGGCGTGGTCGTGCAGGCCTACCAGAAGCGCACGCCGTACACGATCGACTATCTGGCCGACCTGGCGCGCCGCATCGGGCGCAAGCTGCAGGTCCGCCTGGTCAAGGGCGCCTACTGGGACGCGGAGGTCAAGCGCGCCCAGGTCGAAGGCCTGGCGGGCTATCCGGTGTTCACCCGCAAGCAGAACACCGACGTGTCCTATCTGGCCTGCGCCAAGCGCCTGTTCGGCCATACCGACGCGATCTACCCGATGTTCGCGACCCACAACGCGCATACCATCGCCTCGATCCGGGTGATCGCCGCCGGCCGCACCTACGAACACCAGAAGCTGCACGGCATGGGCGACGACCTGTATGCCGAAGTGGTGCCGGCCAACCGCCTCGATCTGCCCTGCCGCGTCTACGCGCCGGTCGGTTCGCACGAGGACCTGCTGCCCTACCTGGTGCGCCGCCTGCTCGAGAACGGCGCCAACTCCAGCTTCGTCAACCGCATCACCGACGAGAAGGTGGCCATCGAGGACCTGATCCGCGATCCGGTCGAAGCCGTGTCCTCGTTCGCCTCCATCCCGCATCCGAAGATCCCGCTGCCGGCCGACCTGCTGCGCAGCCAGAACCAGAACAGGAAGAATTCCATGGGCGCCAACCTCGCCAACGACAACGAACTGCGCCAGCTGGCCGAGCAGCTCAACGCCGCCATCAAGCCATGGAAGGCCGGGCCGCTGGTGCCGGGCGCGGTCGTTGCCACCGACGTGCTGCCGGTGAGCAGCCCGGCCGATCGCCGCCAGGTCGTCGGCCACTGGCAGCCGGCCGACGCCGCCACCGTCGACAAGGCCCTGGCCAATGCCGTGGCCGCCCAGCCGGGCTGGAACCGCACCCCGGCCGCCAGTCGCGCCACCATCCTGGAACACGCCGCCGACCAGCTCGAGGCACGCATGCCCGAGTTCATGGCGCTATGCGTGAAGGAAGCCGGCAAGACCCTGCCCGACGCGGTCGCCGAGGTGCGCGAGGCAGTGGACTTCCTGCGCTACTACGCCGGCCAGGCCCGCGCCCAGTTCGGTGCGCCCGAGCGCCTGCCGGGGCCGACCGGCGAGAGCAACGAGCTGCAGCTGCACGGCCGCGGCGTATTCGTCTGCATCAGCCCGTGGAACTTCCCGCTGGCGATTTTCCTCGGCCAGGTCGGCGCCGCGCTCGCGGCCGGCAACAGCGTGATCGCCAAGCCGGCCGAGCAGACCAACCTGGTCGGCTTCGCCGCGGTCAAGCTGCTGCACGACGCCGGCGTGCCCGAAGCCGTGCTGCAGTACCTGCCAGGCGATGGCGCCACGGTCGGCGCCGCGCTGACCAAGGACCCGCGCGTGGCGGGCGTCGCCTTCACCGGCTCGACCGAGACCGCGCGGGCGATCAACCGCGCGATGGCCGCGCGCGACGCGGCGATCGGCGTATTGATCGCCGAAACCGGCGGCCAGAACGCCTTCATCGCCGATTCGTCCTCGCTGCCGGAAGCCGTGGTCAAGGACGCGATCGCCAGCGCCTTCATCTCCGCCGGCCAGCGCTGCTCGGCCGCGCGCGTGCTGTTCGTGCAGGACGACATCGCCGACAAGGTGATGACGATGCTGGCCGGCGCAATGGCCGAGCTGAAGATCGGTGATCCGGCCCTGCTGTCCACCGACGTCGGCCCGGTGATCGATGCCGATGCGCTGCAGCTGCTGCAAGCGCATGGCGAGCGGATGGATCGCGAGGCCCGTCTGATCGCGCAGGCTGCGGGCGGCGACGCGCTCACCCACGGCACCTTCTTCGCACCGCGCGCCTACGAACTGCAGTCGCTGGCGCAGCTGCAGCGCGAGGTGTTCGGCCCGGTGCTGCACGTGATCCGCTGGAAGGCCGACCAGCTCGATCTGGTGATCGAGCAGATCAACGCCACCGGCTACGGGCTGACCCTGGGCGTGCATTCGCGCATCGACGAGACCGTCGAACGCATTGCCAGCCGCGTCGCGGTCGGCAACGTCTACGTCAATCGCAACCAGATCGGTGCGGTGGTCGGCGTGCAGCCGTTCGGTGGCCAGGGCCTGTCCGGCACCGGCCCGAAAGCCGGCGGCCCGCACTACCTGCTGCGCTTCGCCACCGAGAAGGTCGTCACCGTCAACACGACCGCGGCCGGCGGCAACGCCTCGCTGCTGACGCTGGGCGACTGA	MNALPDSGAPDAAVPALLAPELPPPPSALRAAITAAWLKDESEHVRELLEQARLPAAEQAKVQALAADLVTRVRARAANQSAVEAFMRQYDLGSEEGVLLMCVAEALLRIPDQDTADKLIRDKLGDADWKKHLGGSDSVLVNASTWGLMLTGRIVQINDMTRADVPGAFTRLVARVGEPVVRLAVRQAMKIMGHQFVMGRSIGEALARSHKGDNSHYRYSFDMLGEAALTMKDAKRYLDDYRRAIHAIGSDNLARGGKADGDVTASHGISIKLSALYPRYEHAQRARVMRDLVPAVLELAQLAKSYGIGCTVDAEEADRLELSLDVIEAVVSDASLVGWDGFGVVVQAYQKRTPYTIDYLADLARRIGRKLQVRLVKGAYWDAEVKRAQVEGLAGYPVFTRKQNTDVSYLACAKRLFGHTDAIYPMFATHNAHTIASIRVIAAGRTYEHQKLHGMGDDLYAEVVPANRLDLPCRVYAPVGSHEDLLPYLVRRLLENGANSSFVNRITDEKVAIEDLIRDPVEAVSSFASIPHPKIPLPADLLRSQNQNRKNSMGANLANDNELRQLAEQLNAAIKPWKAGPLVPGAVVATDVLPVSSPADRRQVVGHWQPADAATVDKALANAVAAQPGWNRTPAASRATILEHAADQLEARMPEFMALCVKEAGKTLPDAVAEVREAVDFLRYYAGQARAQFGAPERLPGPTGESNELQLHGRGVFVCISPWNFPLAIFLGQVGAALAAGNSVIAKPAEQTNLVGFAAVKLLHDAGVPEAVLQYLPGDGATVGAALTKDPRVAGVAFTGSTETARAINRAMAARDAAIGVLIAETGGQNAFIADSSSLPEAVVKDAIASAFISAGQRCSAARVLFVQDDIADKVMTMLAGAMAELKIGDPALLSTDVGPVIDADALQLLQAHGERMDREARLIAQAAGGDALTHGTFFAPRAYELQSLAQLQREVFGPVLHVIRWKADQLDLVIEQINATGYGLTLGVHSRIDETVERIASRVAVGNVYVNRNQIGAVVGVQPFGGQGLSGTGPKAGGPHYLLRFATEKVVTVNTTAAGGNASLLTLGD	PGPT0020210_1875	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020210-putA-K13821	NA	NA
BMS020_08334	477			hypothetical protein	ATGATCGAGGTAGTGCCGTTCGAGACGGAGGGATCAGGTGCGCAGCTGCGGCTGCGGCCCCCACGGGCGATGACGGCCCGGCAATTCGTCATGGTGTTTGCCGCCCTGACCGGGGTGATGTGGCTGGTGGCCGGTCTTGGCTGGTGGACAGGCAACGCGTATGCGCCGTTGTTCGCGCTGGCGCACAGTGCCCTGGTGGCATGGGCACTGCGCACGACGTGGCGCAGTGGCGAACGCGAGGAGTCGATCCGGGTGGGGCCGGGTGCGGTGGAAGTGTTCCGGTCCCGACAATCGCCTCCGGCGTTCCAGGCGCATCCGCATTGGGTGCGGTTGGGGATGGAGATGGACGACAGGGTGGTGCTGTCCTGCAGCGGCAGGCGGGTCGAGGTGGGAAGCTTCCTCGGGCCGGCGGAGCGGCTGCAACTGGCGGAAACCCTGAGAGGCTTGCTCGCGGCCGCATGCGGCCGTTACCGATGA	MIEVVPFETEGSGAQLRLRPPRAMTARQFVMVFAALTGVMWLVAGLGWWTGNAYAPLFALAHSALVAWALRTTWRSGEREESIRVGPGAVEVFRSRQSPPAFQAHPHWVRLGMEMDDRVVLSCSGRRVEVGSFLGPAERLQLAETLRGLLAAACGRYR				NA	NA	NA	NA	NA
BMS020_08335	921			hypothetical protein	ATGAAGCAATGCAACGGCTGGGGCGGCAGGTGGTGCAGGGCGGGAATGGCGGTCGTGCTGGCCTTGGCGAGCCCGGGCGCGTGGGCGCAGGCGGCCGATCCGAAGCCGTGGCAGCTGAACATGGGCAAGGGGGTCACCCAGACCTCGCGTCTGGCCTGGGAGTCGAACAATCTGTCGCTGATCATCTGCACGGTGATCGCGGTCATCGTCTTCGGCGCGATGGGCTATGCGATGTTCAAGTTCCGCAAGTCCAAGGGCGCGGTCGCGGCGAAGTTCAGCCACAACACCAAGGCCGAGATCGTCTGGACGGTGATCCCGGTGATCATCCTGATCGCGATGGCTTGGCCGGCCACCGCCAATCTGATCGCGATGTACGACACCCGCGATTCGGAGATGACCATCAAGGTCACCGGATACCAGTGGATGTGGAAGTACGAATACCTCGGCCAGGACGTCGCGTTCACCAGCCGGCTGGCGCGTGAGTCCGACCGGATCCGCCAGAGCGGTGAGCGCCCGACCATGGCCAGCCAGCCGCACTACCTGCTCGATGTCGACAACCGGCTGGTGCTGCCAGTCGATACCAAGATCCGCTTCGTGATCACCTCCGACGACGTGATCCACGCCTGGTGGGTACCGGCGCTGGGCTGGAAGCAGGATGCGATCCCCGGCATCGTCAACGAGGCCTGGACCAACATCGAGGTGCCCGGCGTGTACCGTGGCCAATGCGCCGAACTGTGCGGCAAGGACCATGGGTTCATGCCGATCGTGGTCGAGGCGCTGCCGAAGGCGGAGTTCCAGCGCTGGCTGGCGTCGCGGCGGACGCCAGCGCCGGCGGCACTTGAAGCACCTGCGCCGGCAGCGCCGGCCGATGATGCCGCACCCGCCACGCCTGAGGCGCCGTCCACGGCACCGGCCGGCTGA	MKQCNGWGGRWCRAGMAVVLALASPGAWAQAADPKPWQLNMGKGVTQTSRLAWESNNLSLIICTVIAVIVFGAMGYAMFKFRKSKGAVAAKFSHNTKAEIVWTVIPVIILIAMAWPATANLIAMYDTRDSEMTIKVTGYQWMWKYEYLGQDVAFTSRLARESDRIRQSGERPTMASQPHYLLDVDNRLVLPVDTKIRFVITSDDVIHAWWVPALGWKQDAIPGIVNEAWTNIEVPGVYRGQCAELCGKDHGFMPIVVEALPKAEFQRWLASRRTPAPAALEAPAPAAPADDAAPATPEAPSTAPAG	PGPT0004030_2060	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004030-foxB|coxB|ctaC-K02275	NA	NA
BMS020_08336	1605	ctaD		Cytochrome c oxidase subunit 1	ATGGCACATACCGCAGTCGATCACCACGGGCACCACCAGCAGAGCTTCTTCGAGCGCTGGTTCTTCTCCACCAACCACAAGGACATCGGCACGCTGTACCTGCTGTTCTCCTTCGTGATGTTCATCGTCGGCGCGGCGATGAGCGTGGTGATCCGCGCCGAACTGATGCAGCCGGGCCTGCAGTTCGTGAAGCCGGAATTCTTCAACCAGATGACCACCGTGCACGCGCTGGTGATGATCTTCGGCGGGGTGATGCCGGCCTTCGTCGGGTTGGCCAACTGGATGATCCCGTTGCAGATCGGCGCGCCGGACATGGCGTTGCCGCGGATGAACAACTGGTCGTTCTGGCTGCTGCCGGTGGCCTTCAGCCTGCTGCTGCTGACGCTGTTCCTGCCCGGTGGCGCACCGGCCGGTGGCTGGACGCTGTACCCGCCGCTGTCGCTGCAGGGCGGCTACAACGTCGCCTTCAGCGTGTTCGCGATCCATGTGGCCGGCATCAGCTCGATCATGGGCGCGATCAACATCATCGCCACCGTGCTCAACATGCGTGCGCCGGGCATCGACCTGCTGAAGATGCCGATCTTCTGCTGGGCCTGGCTGATCACCGCGTTCCTGCTGATCGCGGTGATGCCGGTGCTGGCCGGCGCGGTGACGATGCTGCTGACCGACAAGTTCTTCGGTACCTCGTTCTTCAACGCGGCCGGCGGCGGCGATCCGGTGATGTACCAGCACATCTTCTGGTTCTTCGGCCACCCCGAGGTCTACATCATGATCCTGCCGGCGTTCGGCGTGATCAGCGAGATCATCCCGACCTTCAGCCGCAAGCCGCTGTTCGGCTACCAGGCGATGGTCTACGCGATTGCCGCGATCGCGTTCCTGAGCTTCATCGTCTGGGCCCACCACATGTTCACCGTGGGCATGCCGCTGGGCGGCGAGATCTACTTCATGTTCGCGACGATGCTGATCTCGATCCCGACCGGGGTGAAGGTGTTCAACTGGGTCAGCACGATGTGGCAGGGCGCGCTGACCTTCGAGGCGCCGATGCTGTGGTCGGTGGCGTTCGTGATCCTGTTCTCGATCGGCGGCTTTTCCGGGCTGATGCTGGCGATCGTGCCGGCCGACTTCCAGTACCACGACACCTATTTCGTGGTCGCGCACTTCCACTACGTGCTGGTCACCGGCGCGGTGTTCGCGTTGATCGCCGCGGTGTACTACTGGTGGCCGAAGTGGACCGGGCGCATGTACAACGAGACGGCCGCCAAGTTCCACTTCTGGTGGACGATGGTGTTCGTCAACCTGCTGTTCTTCCCGCAGCACTTCCTCGGCCTGGCCGGCATGCCGCGGCGCATCCCCGACTACAACGTGGTGTTCGCCGACTGGAACCTGGTCAGCTCGATCGGCGCGTTCGGCATGTTCGTCACGCCGTTCCTGATGGCCGGCATCCTGCTGGCCTCGCTGCGTGGCGGTGCCCGCGCACAGGACCGCGCCTGGGAGGGCGCGCGCGGCCTGGAGTGGACCGTGCCGTCGCCGGCGCCGGCGCATACCTTCAGCGTGCCGCCGGTGATCCGGCCAGGAGATCTTGCCCATGAAGACACCGGTCACTGA	MAHTAVDHHGHHQQSFFERWFFSTNHKDIGTLYLLFSFVMFIVGAAMSVVIRAELMQPGLQFVKPEFFNQMTTVHALVMIFGGVMPAFVGLANWMIPLQIGAPDMALPRMNNWSFWLLPVAFSLLLLTLFLPGGAPAGGWTLYPPLSLQGGYNVAFSVFAIHVAGISSIMGAINIIATVLNMRAPGIDLLKMPIFCWAWLITAFLLIAVMPVLAGAVTMLLTDKFFGTSFFNAAGGGDPVMYQHIFWFFGHPEVYIMILPAFGVISEIIPTFSRKPLFGYQAMVYAIAAIAFLSFIVWAHHMFTVGMPLGGEIYFMFATMLISIPTGVKVFNWVSTMWQGALTFEAPMLWSVAFVILFSIGGFSGLMLAIVPADFQYHDTYFVVAHFHYVLVTGAVFALIAAVYYWWPKWTGRMYNETAAKFHFWWTMVFVNLLFFPQHFLGLAGMPRRIPDYNVVFADWNLVSSIGAFGMFVTPFLMAGILLASLRGGARAQDRAWEGARGLEWTVPSPAPAHTFSVPPVIRPGDLAHEDTGH	PGPT0004025_3628	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
BMS020_08337	174			hypothetical protein	ATGAAGACACCGGTCACTGAGGTGCCGCGCGACGAGGCGGTGGCGCGGCTGCTGTCGGCGGCCGAACGCCATGCGCACCAGCGCCGCGCCGCACGCCGTACCGCGCTGGTCGTGGCCGGCGTGGCGGTGCTGGTCTATGTCGGCTTCATCCTGACCGGAGTGCTGGGCCGGTGA	MKTPVTEVPRDEAVARLLSAAERHAHQRRAARRTALVVAGVAVLVYVGFILTGVLGR				NA	NA	NA	NA	NA
BMS020_08338	582	ctaG	COG3175	Cytochrome c oxidase assembly protein CtaG	GTGACCGCGCCGCTGCCCGCGCGACCGACGCCGACCGCGGGGCTCGCGCGCCTGGTCGGCATCGTGCTGGGTGTGTTCGTGCTGAGCTTCTCGCTGGTGCCGCTGTACCGGATCGCCTGCGAGAAAGTGTTCGGCATCCGCATCGAGCGCGGTCCAGGCGCGTACCAGGCCGGCAAGCCGCTGGCCGGCAAGCGCACCGTGCGGGTGGAGTTCGATGGCGGGGTGAACTCGCGCCTGCCATGGTCGTTCCGCCCCGAGCAGCTGACGATGGAGGTGGTGCCCGGCGAGCTCAACGAGGCGTTGTACTTCGCCCGCAACGACAGCGACCACGCGCTGGTGGGCAGCGCGGTGCCATCGGTGGCACCGGCGCGCGCGTCGGGCTACTTCAGCAAGACCGAGTGCTTCTGCTTCACCGCGCAGACGCTGCAGGCCGGGGAGACCCGCGACATGCCGCTGCGCTTCATCGTCGATCCGGCGCTGCCGGCCGATGTCGGCACGATCACGCTGTCGTACACCTTCTTCCGCAACGACGCGTTGACCGCCGAGCTCGCTGGCGGCGCGGCGCATGGCGGTGCGCGGTGA	MTAPLPARPTPTAGLARLVGIVLGVFVLSFSLVPLYRIACEKVFGIRIERGPGAYQAGKPLAGKRTVRVEFDGGVNSRLPWSFRPEQLTMEVVPGELNEALYFARNDSDHALVGSAVPSVAPARASGYFSKTECFCFTAQTLQAGETRDMPLRFIVDPALPADVGTITLSYTFFRNDALTAELAGGAAHGGAR				NA	NA	NA	NA	NA
BMS020_08339	882	ctaE	COG1845	Cytochrome c oxidase subunit 3	ATGACCGACCACACCCACGATGCCCATGCCGATGCCTACTTCGTGCCCAGCCAGAGTCGCTGGCCGTTCGTGGGCTCGATCGCGATGTTCGTCACGATGATCGGCGTGGCCAGCTGGCTCAACGACGCCGCCTGGGGACGCTGGGTGTTCTTCACCGGCATCGCGATGCTGGTGGCCACATTGTTCATGTGGTTCGGCGACGTGATCCGCGAATCCAACGGCGGCGCCTACAACCACCAGGTCGATGGCTCGTTCCGGATGGGCATGGTGTGGTTCATCTTCTCGGAGGTGATGTTCTTCGGTGCGTTCTTCGGCGCGCTGTTCTACACCCGCACTTTCGCGTTGCCATGGCTGGGCGGGCAGGGCGACGGGGTGATGACCAACGAGCTGCTGTGGAGCGGCTACTCGGCGGCCTGGCCGACCAATGGCCCGGGCGCGATCGGGGGGCAGTTCCAGACCATCCCGGCCTGGGGCCTGCCGCTGATCAACACGCTGATCCTGCTCAGCTCCGGGGTGACGTTGACCATCGCCCACCATGCGTTGAAATCCGGCCAGCGCCGGCGGCTGCTGCTATGGCAGGGCGCGACGGTGCTGCTGGGCTGCACCTTCCTGTACTTCCAGGCCGAGGAATACCTGCACGCCTACCATGCGCTCAACCTGACCCTGGGTTCGGGCATCTACGGCTCGACGTTCTTCATGCTCACCGGTTTCCATGGCATGCACGTGGCGCTGGGCACGATCATGCTGGTGGTGATGTGGCTGCGCGCGGCGCGTGGACACTTCAGCCGCGACAACCATTTCGCGTTCGAGGCGGCGGCCTGGTACTGGCACTTCGTCGACGTGGTGTGGCTGGCGCTGTTCCTGTTCGTCTATGTGCTGTGA	MTDHTHDAHADAYFVPSQSRWPFVGSIAMFVTMIGVASWLNDAAWGRWVFFTGIAMLVATLFMWFGDVIRESNGGAYNHQVDGSFRMGMVWFIFSEVMFFGAFFGALFYTRTFALPWLGGQGDGVMTNELLWSGYSAAWPTNGPGAIGGQFQTIPAWGLPLINTLILLSSGVTLTIAHHALKSGQRRRLLLWQGATVLLGCTFLYFQAEEYLHAYHALNLTLGSGIYGSTFFMLTGFHGMHVALGTIMLVVMWLRAARGHFSRDNHFAFEAAAWYWHFVDVVWLALFLFVYVL	PGPT0004035_693	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
BMS020_08340	219			hypothetical protein	GTGAACGACTCGCTCAAGACCCTGCTGATTGTCGCCTTCCTGCTGGTCATCGTCTGGAATCTGGGCGCCGGCCTGTATTACCTGTTGAACGACCGCGGCCAGACCCGCCGCACCGTCAACGCGCTGACCTGGCGCATCGGCCTGTCGGTGGCGCTGATCGCACTGGTGGCGCTGGGCATCTACACCGGCTGGATCAAGCCACACGGGATCGGCCGGTAG	MNDSLKTLLIVAFLLVIVWNLGAGLYYLLNDRGQTRRTVNALTWRIGLSVALIALVALGIYTGWIKPHGIGR				NA	NA	NA	NA	NA
BMS020_08341	738			hypothetical protein	ATGACGCGAGAGCACACGCGCCTGCTGGGCTGGTCGGTCGCGCTGCTGCTGGCGGCGGCGTTCGCCGCGCTCGGCCACTGGCAGCTGCAACGCATGCACGCCAAGCAAGCGTTGCTGGAGCGCTCCGCGCAGGCGCGTACGCGGCTGCTGCCATTGGCCCTGGCGCTGCGCAGCGGGACGGTGCCGGCCTGGGTCGAAGGGCGCGGCCGGTTCCTGCCGGAGCGGCTCCTGCTGGACAACCAGACCCGTGCTGGACAGGCCGGGCTGCGGGTTTACCAGCCGGTGCTGGTCGAGGGTGTGGCCGCGCCGCTGCTGGTCGACCTGGGCTGGCTGCCGTGGCCTGGAGATCGCCGGTTGCCGGCGATGCCGGTGCTGGACGGCACGGTGGCGCTGCGCGGCCTGTTGGTTCCGCCGCCGTCGGCCGGGGTGGCGCTGGGCCCGGCAATGGCGCCGGCCGGCCCGTCGCGGACCTGGCTGGCGACGCGGATCGCGCCTGGCGAGGTCGCTGCGGCACTCGGACGCCGCGACATTTCGCCGCAGGTGCTGCGCCTGGATCCAGCCCTGCCACTGGGGTTCGCGCGCGACCTTGAGTTGCTGCCGAACACGCTGCCGCCCGCGCGCCACCTGGCCTATGCGGTGCAGTGGTTCGGGTTGGCACTGGCGGTCCTGGCCACCGCGGCGCTGCTGGAATGGCGGGCGCGGCAGCGACGCAGGCGGCGGCAGGAGGCCCGGGCATGA	MTREHTRLLGWSVALLLAAAFAALGHWQLQRMHAKQALLERSAQARTRLLPLALALRSGTVPAWVEGRGRFLPERLLLDNQTRAGQAGLRVYQPVLVEGVAAPLLVDLGWLPWPGDRRLPAMPVLDGTVALRGLLVPPPSAGVALGPAMAPAGPSRTWLATRIAPGEVAAALGRRDISPQVLRLDPALPLGFARDLELLPNTLPPARHLAYAVQWFGLALAVLATAALLEWRARQRRRRRQEARA				NA	NA	NA	NA	NA
BMS020_08342	525			hypothetical protein	ATGCTGATTGCCCTGTTCGCGCTGTTCTTCGGCTGCATGCTGGTGGCCGGAGCGCTGCGTTTCGCCGGCTGGCAGCCGGCCGGCATGCGCAACCATGGCGAACTGCTGGCCCCGCCAGTCGACCTGCGGGCGCTGACCCCGCTGCTCGCGGACGGGCAACCGTACCGCTGGAAGCCGGCCGAGCGCACCTGGCGCATCGTGCTGGCCCCGGCCGCCGGATGCGAGCAGGCCTGCGTGACGCTGGCCGGCGAGCTGGACAAGGTCTGGCAGCTGCTCGGCCACAACGCCGACAAGGTCGAACTGCTGTGGCTCGGCGCGCCGCCGGCGGGGCTTCCGGCACTGCCGGAACTGCGCCTGCTGCGCGACGATGCGCGGCTGCGCCAGGCCTTGCCGCGCGTGGACGATGCCGGCGGTGTGCCGGTGTACGTGATCGACCCGAACGGCTTCGTCGTGTTGCGTTACGCCCCCGGGTTCGACCCGGCCGGGCTGCGCGCGGACCTGGCGAAGCTGCTGAAACTGATGTGA	MLIALFALFFGCMLVAGALRFAGWQPAGMRNHGELLAPPVDLRALTPLLADGQPYRWKPAERTWRIVLAPAAGCEQACVTLAGELDKVWQLLGHNADKVELLWLGAPPAGLPALPELRLLRDDARLRQALPRVDDAGGVPVYVIDPNGFVVLRYAPGFDPAGLRADLAKLLKLM				NA	NA	NA	NA	NA
BMS020_08343	1170	ctaA		Heme A synthase	ATGAACCTGATTTCCCGCCCGGCGCTGGCCCGGCACTTCCACCGCATGGTCTGGCTGGCGACGCTGTTCACCGCCTCCACCATCATGTTCGGCGCGTTCGTGCGCCTGTCCGATGCCGGCCTGAGCTGCCCCGACTGGCCGACCTGCTACGGCCGTGCGGCGTGGCCGGCGGCGCCGTCGGAGGTGATCGACCATGCGGCGACCAAGATCCGCCCGCTGGAGACGCACAAGGCCTGGCGCGAGCAGGTGCACCGCTTCCTGGCCGGCTCGCTGGGCATCGAGGTGCTGCTGATCACGCTGCTGGCCGCGCGCCGGCGCCGCTTCGGCATGGCCCAGGTGGTCGCGGCGGCCGTGCTGGTGGCGGCGGCGATCCCGATGTACATGCGTGGCGACCATGTCGCCTCCAGCGTGCTGGCGATCGCCGGCGAGGCGATCCTGCTGCTGGCGGCACTGCGCTGGAGCAACCTGGACCTGGCGCGTGCGGCGGTGCTGACCCTGGCGGTGGTGATCTTCCAGGCGTTGCTCGGCATGTGGACGGTGACCTGGCTGCTCAAGCCGATCGTGGTGATGGGCCACCTGCTCGGCGCGCTGCTGATGTTCTCGCTGCTGGTGTGGATGGCCTGGCGCGCCACCCACCTGCCGATCACCCTGGCCGATGCGCGCCGGCTGAAATGGCTGCTGCGCGCCGGCATCGGCGTGCTCGGCCTGCAGATCGCGCTCGGTGGCTGGGTCAGCGCCAACTATGCGGCGCTGGCCTGCGGCGGCGGCAGCGCCTCGCTGGACAACTTCCCGCGCTGCGTCGGCCAGTGGTGGCCGCCGCATGACTTCGCCGAGGGCTTCACTCTGTGGCGTGGCATCGGCGTGGACTACGAAGGCGGCGTGCTCGATGGCGCCTCGCGCATCGCGATCCAGATGGCGCACCGGCTGTGGGCGATCGCCACGGCGCTGTACCTGTGGTGGCTGGCGTGGCGGCTGTACCGCCAGCCCGGGCTGCGCGGCTGGGCCGCGGCGCTGGCGCTGCTGGTGGTGGTGCAGGTCAGCCTGGGCGTGCTCAACGTGAAGCTGGCGCTGCCGCTGGTGGTGGCGGTGATGCACAACGGCGGCGCGGTGGCGCTGATGTTCGTGATGGTCTCGCTGCTGGCGCGGCTGCGCACCCCGGAGCAGGCATGA	MNLISRPALARHFHRMVWLATLFTASTIMFGAFVRLSDAGLSCPDWPTCYGRAAWPAAPSEVIDHAATKIRPLETHKAWREQVHRFLAGSLGIEVLLITLLAARRRRFGMAQVVAAAVLVAAAIPMYMRGDHVASSVLAIAGEAILLLAALRWSNLDLARAAVLTLAVVIFQALLGMWTVTWLLKPIVVMGHLLGALLMFSLLVWMAWRATHLPITLADARRLKWLLRAGIGVLGLQIALGGWVSANYAALACGGGSASLDNFPRCVGQWWPPHDFAEGFTLWRGIGVDYEGGVLDGASRIAIQMAHRLWAIATALYLWWLAWRLYRQPGLRGWAAALALLVVVQVSLGVLNVKLALPLVVAVMHNGGAVALMFVMVSLLARLRTPEQA	PGPT0008525_682	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008525-ctaA-K02259	NA	NA
BMS020_08344	915	ctaB	COG0109	Protoheme IX farnesyltransferase	ATGAGCGCTTCGGTCCGCGACTACTGGGACCTGACCAAGCCGAAGGTGGTCGGGTTGATCGTGTTCACCGCGCTGGTGGGCATGGTGCTGGCGATCCCGGGCATGCCCACGGCGGCGCAGGCGCGCGCCGGGGTGATCGGCTTCCTCGGGATCTGGCTCGCCGCCTCGGCGGCGGCGGCGATCAACCAACTGCTCGATGCGCGCATCGACGCGCAGATGGCACGCACCTCGTGGCGCCCGCTGGTGGTCGGCAAGGTCAAGCCGTGGCAGGTGCTGACCTTCGCCAGCGTGCTGACCGTGATCTCGATGGCGATGCTGGTGCTGTGGGTCAATACGCTCACCGCCGTGCTGACGTTCGCCTCGCTGATCGGCTACGCGGTGATCTACACCGTATACCTGAAGCGCGCGACCTCGCAGAACATCGTGATCGGCGGTCTCGCCGGCGCGACTCCGCCGATGCTGGGCTGGGCGGCGGTGACCGGCCTGCCGAGCGCTGCCGACTGGATCAACGCCTCGCTGCTGGTGGCGATCATCTTCGTGTGGACGCCGCCGCACTTCTGGGCGCTGGCGATCTTCCGCCGCGCCGATTACGCCAAGGCCAAGATCCCGATGCTGCCGGTGACCCACGGCGTGCCGCACACGCGGCGGCAGATCTTCTACTACACGATCGCAATGACCGTGGTGACGCTGCTGCCGGTGGCGACCGGGATGAGCGGGCTGTTCTATCTCGGCGGCGCGCTGGTGCTGGACGTGGTGTTCCTGTGGTACGCCTGGCGCATGCTCGACCCACCGGACGAGCTGTTTTCGATGAAGACCTTCGGTTACTCCATCGTCTACCTGATGGCGTTGTTCGCGTTCCTGCTGATCGACCACTGGCTGCTGCCGTGGGTGCGGCCGCTGTCGCTACCGGCATGA	MSASVRDYWDLTKPKVVGLIVFTALVGMVLAIPGMPTAAQARAGVIGFLGIWLAASAAAAINQLLDARIDAQMARTSWRPLVVGKVKPWQVLTFASVLTVISMAMLVLWVNTLTAVLTFASLIGYAVIYTVYLKRATSQNIVIGGLAGATPPMLGWAAVTGLPSAADWINASLLVAIIFVWTPPHFWALAIFRRADYAKAKIPMLPVTHGVPHTRRQIFYYTIAMTVVTLLPVATGMSGLFYLGGALVLDVVFLWYAWRMLDPPDELFSMKTFGYSIVYLMALFAFLLIDHWLLPWVRPLSLPA	PGPT0008520_3263	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
BMS020_08345	471			hypothetical protein	ATGAGCAGGCCGCAGCGCGTCGCCCGGCTGCTGCTGGCGGTTTCGGTGCTGGCGCCGCTGCCGCTGCTGGCCTGGGACACGCCGCAGCAGGCGATCGACCGCTACCTTGCGTTCGAGCTCGATGGCGGCCGGCTGCAGGCATGGCCGTTCGCGCGCTACATCGTCGCGCCGGCCGGCTACGACGAGCCGGGATGGGACGTGGTGCATGCGGTGCGCAACGCCCGCCGGCGCCGGCTGCATTGCGAGGGCGAGCGCTGCAGCGTGGAGGTGGTCTTCGACTATGCCGCAACCGATGCGCTGCCGGCCGAGTGGCAGGTGGCGGCGCACCCGCGCGGCGGTCACGAGCGGCTGACCTACACGCTGCAACATCAGCCGGGCCCGCATGGCTGGCGGGTGGTGTCGGTGCTGGGGCCGCCGCGGGTGTCGATGCGGGTGCTGCGCGCGCTGTGGCCGCCGCCGGTGGTGGACTGA	MSRPQRVARLLLAVSVLAPLPLLAWDTPQQAIDRYLAFELDGGRLQAWPFARYIVAPAGYDEPGWDVVHAVRNARRRRLHCEGERCSVEVVFDYAATDALPAEWQVAAHPRGGHERLTYTLQHQPGPHGWRVVSVLGPPRVSMRVLRALWPPPVVD				NA	NA	NA	NA	NA
BMS020_08346	1029			hypothetical protein	ATGCGGGACTACCCCACTCCCGAACGACGCTCGATGAAGAACTGGCTGGCGCGGCTGCGCATCGATCCCTTCACCCTCGCGCTGCTGTGCACGGTCACCCTCGCCTCGCTGCTGCCGGTCCACGGCCGCGCCGCGGCGATCATGGACGATGCCACCGACCTGGCGATCGCCGCGTTGTTCTTCCTGCACGGCGCGCGCCTGTCGCGCGAGGCGGTCAAGGCCGGCGCGCTGCACTGGCGGCTGCACCTGGTGATCCTGGCCTGCACCTTCGTGCTGTACCCGCTGCTCGGGCTGCTCGCCAAGCCGCTCTCGCATGCGCTGCTGACCCCGGACCTGTTCGTCGGCGTGCTGTTCCTGTGCGCGCTGCCGTCCACCGTGCAGTCGTCGATCGCGTTCACCTCGATGGCCGGCGGCAACGTGCCGGCGGCGGTCTGCGCGGCCTCGCTGTCGAGCCTGCTCGGCGTGTTCATCACCCCGCTGCTGATGACCCTGCTGGTCGGCGCGCAGGGCGGCATGGCGCATCCGGCCGAGGCGATCGGCAAGATCCTGCTGCAACTGCTGGTGCCATTCCTGGCCGGCCATTTCCTGCGTCCGTGGATCGGCGGCTGGGTCGAGCGCCGCCGCGCGATCCTGCGCTACACCGACCAGGCCACGATCCTGCTGGTGGTCTACACCGCCTTCAGCGCCGCGGTGATCGAAGGGCTGTGGCACAAGACCCCGTTGCCGGCGCTGCTGGGCGTGCTGGCGATGGCGGCGGTGCTGCTGGGCGTGGCGATGGGCTTGATCACCCTGATCGCGCGCCGGCTGGGCTTCAGCCGCTTCGACGAGATCCCGATCGTGTTCTGCGGCTCGAAGAAGAGCCTGGCCACCGGCGTGCCGATGGCCAAGGTGATGTTCGCCGGCGGCAGCCTCGGCGCGATCGTGCTGCCGGTGATGCTGTACCACCAGCTGCAGCTGATCGTCTGCGCGTTCGTCGCCGGCCGCTACGCGCGCAACAACGCCAAGCAGGGCGACGGCGCGGCGCGCTGA	MRDYPTPERRSMKNWLARLRIDPFTLALLCTVTLASLLPVHGRAAAIMDDATDLAIAALFFLHGARLSREAVKAGALHWRLHLVILACTFVLYPLLGLLAKPLSHALLTPDLFVGVLFLCALPSTVQSSIAFTSMAGGNVPAAVCAASLSSLLGVFITPLLMTLLVGAQGGMAHPAEAIGKILLQLLVPFLAGHFLRPWIGGWVERRRAILRYTDQATILLVVYTAFSAAVIEGLWHKTPLPALLGVLAMAAVLLGVAMGLITLIARRLGFSRFDEIPIVFCGSKKSLATGVPMAKVMFAGGSLGAIVLPVMLYHQLQLIVCAFVAGRYARNNAKQGDGAAR				NA	NA	NA	NA	NA
BMS020_08347	1764	dnaG_2	COG0358	DNA primase	ATGGCCCGCATCCCCGACGCGTTCATCGACGACCTGCTGGCGCGCACCGACATCGTCGAGATCATCAGTTCGCGTGTGCCGCTCAAGCGCCAGGGCAAGGAATATTCGGCGCGCTGCCCGTTCCACGACGAGCGCTCGGCATCGTTCACGGTGTCGCCGACCAAGCAGTTCTACCACTGCTTCGGTTGCGGCGCGCACGGCACCGCGATCAGCTTCCTGATCAACTACGACAGGCTGGAATTCCTCGACGCCGTCGACGAGCTGGCCAAGCGCGCCGGCATGGAGGTCCCGCGCGACAGCCAGCCGCGCAGCCAGGCCCAGCAGGACGATGGCCGCGACCTGTACGCGGCGCTGGAAGCGGCCACCCGCTTCTTCCAGAAGCACCTGGACGGCAACGCCAAGGCCCGCGCCTATCTGGATGGACGCGGCGTCGACGATGCGACGCGCGCGCGGTTCCAGATCGGTTACGCGCCGGACGGCTACAGCGCGCTGAAGGACGCGCTCGGCACCGACGAGCGGCGGATGAAGCTGCTCGACCGCGCCGGGATGTTCTCCAAGAACGACCGCGGCCACGTCTACGACAAGTTCCGCGACCGGGTGATGTTCCCGATCTTCGACCGCCGCGGCCGGCCGATCGCCTTCGGCGGCCGCGTGCTGGAGAAGGATGACGGCCCGAAGTACCTGAACTCGCCGGAGACCGCGCTGTTCCACAAGGGCCGCGAGCTGTACGGGCTGTGGCAGGTGCGCCAGGCGCACCAGAAGATCGAGCGGCTGATCGTGGTCGAGGGCTACATGGACGTGGTCAGCCTGTTCCAGTTCGGCGTCACCCAGGCGGTGGCGACGCTGGGCACCGCGACCACGCCCGAGCACGCCGAGCTGCTGTTCCGCAACGCGCCGGACGTGTACTTCTGCTTCGACGGCGACAACGCCGGGCGCAAGGCCGGCTGGCGCGCGCTGGAATCGGTGCTGCCGCGGATGAAGGACGGGCGCCAGGCGTTCTTCCTGTTCCTGCCCGACGGCGAGGACCCGGACACGATCGTGCGCAAGGAAGGCAAGGACGTGTTCGACGCGCGCCTGAAGCAGGCCACGCCGTTGTCGCAGTTCTTCTTCGACGAGCTGGCGCGCGAGATCAACCTCGCCACGCTCGACGGTCGCGCGCGGCTGGCCGAGCGCGCACGGCCGATGCTGGCGCAGATTCCCGACGGCGCCTTCGGCGACCTGATGAAGCAGGAACTGGCGCGGCTGACCGGCGTCGGCGCGGCGGCCAGCGCCGGCACCACGGGCACGCCGGCGCCGGCGCCGGCGCGCGCACCGCGCCGCGCAGCGCCGGTACAGAAGCGCAGCCTGGTGCGCGCGGCGATCACCATCCTGCTGCAGAAGCCGTCGCTGGCGATGTCGCTGGAAGGCCAGCATTCCTTCGCCGGCCTGCGCCTGCCCGGCATCGAACTGCTGCTGGAGTTGATCGCACTGGTCGAGCAGCGCCCCGACATCAGCACCGGCGCGCTGCTGGAGCATTACACCGAGCGCGAGGAGCTGGCCTCGTTGCAGAAGCTGGCCGCACAGGTGCTGCCCGGCGACGACGCCATCTGGACCCAGGAGCTGCACGACGCAGTCACCCAGCTCGAGGAGCAACTGGTGCAGCAGCGCATCGCCGAACTGCAGGCGCGCCCGTTGCCGGAGCTGTCGCCCGCCGACCGCTACGAGCTGCGCGAGCTGCTCAAGGTCGTGCCCGGCGCGACGCGGGCGAAGGACCGGCCACGCTGA	MARIPDAFIDDLLARTDIVEIISSRVPLKRQGKEYSARCPFHDERSASFTVSPTKQFYHCFGCGAHGTAISFLINYDRLEFLDAVDELAKRAGMEVPRDSQPRSQAQQDDGRDLYAALEAATRFFQKHLDGNAKARAYLDGRGVDDATRARFQIGYAPDGYSALKDALGTDERRMKLLDRAGMFSKNDRGHVYDKFRDRVMFPIFDRRGRPIAFGGRVLEKDDGPKYLNSPETALFHKGRELYGLWQVRQAHQKIERLIVVEGYMDVVSLFQFGVTQAVATLGTATTPEHAELLFRNAPDVYFCFDGDNAGRKAGWRALESVLPRMKDGRQAFFLFLPDGEDPDTIVRKEGKDVFDARLKQATPLSQFFFDELAREINLATLDGRARLAERARPMLAQIPDGAFGDLMKQELARLTGVGAAASAGTTGTPAPAPARAPRRAAPVQKRSLVRAAITILLQKPSLAMSLEGQHSFAGLRLPGIELLLELIALVEQRPDISTGALLEHYTEREELASLQKLAAQVLPGDDAIWTQELHDAVTQLEEQLVQQRIAELQARPLPELSPADRYELRELLKVVPGATRAKDRPR				NA	NA	NA	NA	NA
BMS020_08348	933			hypothetical protein	ATGATCCAAGGCTTCTCCCCGCAGCTGCAGCGCCTCACCGCACGCGCACAGCGCAGCCTGCCCGTCGCGCTGGCCCAGCGCTTCGTCGAGATCGGGCTGATGACGCAGGCCGCCTCGCTGTCGTTCTACACGCTGCTGTCGATGGCGCCGCTGCTGGTGCTGCTGCTGTGGCTGACCGCCTCGCTGTATCCGCCGGCGCAGCAGTCGCTGGTGACCCAGATCGCGCAGATGGCCGGCGACAACACCGCCGCGGTGGCGCAGACCATCATCCGCAACGCCACCAACCAGCCGAGCATCGGCAGCCTGGCCGGGCTGTGGGGCACGCTGCTGCTGTTCACCGGCGCGACCGTGGTGTTCGCACAGCTGCAGGCCGCGCTGAACCTGATCTTCCGCTCCGACCGGCAGCAGCTGAACGGGATCAAGGCGTGGCTGAAGAAGCGCGTGTTCTCGATGGGCGTGGTGCTGGCGCTGGGCTTCCTGCTGATCATCTCGATGATCGCCAGCACCGCGCTGCAGGTCGCCTTCGCCCAGCTGCCGTCGCTGCTGCCGGCGGTGGCCTACGCGACCACACTGCTGATGTACGCGGCGGCGTTCGCGTTCCTGTACCACTACCTGCCGGACCGCCGGGTGGAATGGCGCCAGGCGATCCTCGGCGGCGCGATCACCGCGGTGATGTTCGCGCTCGGCCGCTACCTGATCGGCCTGTACCTGGCCCAGGCCGCGCCCGGCAGCGCCTATGGCTCGATGGGCGCGCTGGTGCTGCTGCTGGTCTGGTTGTACTACGCGATCCTGGTGTTCTTCGCCGGTGCGCTGGTGACCGCGGTGATCGACGAACGCGCCGACGCCCGCCACCAGCTCGCTGCGATGCCGCCGCAGCCCGAAGCGCAGCAACCCGTGCCGGAAGCACCGCGAGCGCCGCTGGACCAGGGCTGA	MIQGFSPQLQRLTARAQRSLPVALAQRFVEIGLMTQAASLSFYTLLSMAPLLVLLLWLTASLYPPAQQSLVTQIAQMAGDNTAAVAQTIIRNATNQPSIGSLAGLWGTLLLFTGATVVFAQLQAALNLIFRSDRQQLNGIKAWLKKRVFSMGVVLALGFLLIISMIASTALQVAFAQLPSLLPAVAYATTLLMYAAAFAFLYHYLPDRRVEWRQAILGGAITAVMFALGRYLIGLYLAQAAPGSAYGSMGALVLLLVWLYYAILVFFAGALVTAVIDERADARHQLAAMPPQPEAQQPVPEAPRAPLDQG	PGPT0014525_4410	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
BMS020_08349	2145	fhuE_2	COG4773	FhuE receptor	ATGCCCACCCCCTTGAACCGCGCCGTCCGCCTGCCGCGCCTGTCCGTGCTGGCGCTGGCGCTGCTGGCCAGCGTCCAGGCCCACGCCCAGAGCAGCGACACAGGCACCGCGGCCAGCACCGCCACCGACCTCGACGCGGTCCGCGTGGTCGCCCAGCGCGCCAACCGCGTCAGCAACGGCGCGACCAACCTCGACCTGGCGATCAAGGACACCCCGCAGTCGATCAGCGTGGTCGGGCAGGAGCAGATGCAGCAGTTCGGCGCGACCTCGCTCAACGACGCGCTGCGGCTGGCGACCGGCATCCAGGTCGAGGAGTGGGAAACCAACCGCACCAACTACCTCTCGCGCGGCTTCGAGATCGAGAACACCCAGATCGACGGCGTCGGCATGCCCAACGACTGGGGCATCGTCACCGGCGCGATGGATGCGTTCGGCTACGACAAGCTGGAGGTGATCCGCGGCGCCAACGGCCTGCTCACCGGCGTCGGCAACGCCGCCGGCACGATCAACTACGTGCGCAAGCGCCCGACCAACGAGACGCAGGGCTCGGTGGGTGTCAGCTACAGCTCGTGGGGCACCAAGCGCGTCGAGGCCGACTACTCCACCCCGCTCACCAATGACGGCACCTGGGCCGCCCGCGTGGTCGCCGCGCACCAGGATGGTGGCTCCTACCTGCGCGACTACGACAGCGACCGCAACTTCCTGTACGGGGTCATCGACGGCCAGATCGGCGACAACGGCACGCTGACCGCCGGCTTCTCGTACCAGAAGGCCAAGAGCACCGGCAACATGTGGGGCGCGCTGACCTACAACCTGACCGACGGCAGCCAGACCGAGTGGGACACCAGCGCCTCGACCACCCAGGACTGGACCTATTGGGACACCACCAACAAGACCGGCTTCCTCGAATACACCCACCAGTTGTCGTCGAACTGGCAGCTCAAGGCGTCCTACAACTACCGCAGCAGCGACAACGACGACCAGCTGTTCTTCGCCTACTCCGCCACCGGCCTGGATGCGGATACCGGTGAGGGCCTCTACGGCTGGCCGTACAAGGGCCTGGACAAGCTGACCCAGCACCTGGGCGACATCTCGATCAACGGCACCTTCGAGCTGTTCGGCCGCGAGCAGCAGGCGATGATGGGTGTCAGCGTGTCGCAGAGCGAACAGGTCTACTGGTACTACCCGGCCGACGCCAGCGGCGCCGCGTTCGGCGTGCTGCCTGGCTTCCCGTACGCCGGCAATGCGATCGCCGAGCCGGACTGGGGCGAAAAGACCTTGTCGAGCACGCTGAACCAGCGCATCAAGCGCGCCTATGGCGCCAGCCGGATCTCGCTGACCGAGCGGCTCAAGGCGGTGATCGGGGTGAACTTCACCGAGTACCACCGCGACGGCGACAGCGACGGCAACGGCGCCAGCGATTTCGACCAAACCGAAAGCAACACCAGCCCGTACGGCGGCCTGACCTGGGATTTCAACGACGACATCCTCGGCTACGTCAGCTACTCGGACATCTACCAGCCGCAGTCGCAGGTGGACATCAACAACCAGTACCTGGATCCGACCAAGGGCGTGAACTACGAGGTCGGCGTCAAGGCCAACTGGCTCGACAAGCGCCTGTTGACCACGCTGGCCTGGTTCGACGCCAAGCAGGAAGGCCTGGCGACCTATGCCGGCTACAGCGGCATCAACGGCATCTACTACTACGTGCCGGTCGACGTGCAGTCCAAGGGCGTGGAGTTCGAGGCCACCGGCAAGATCACCGACAACCTCGACGTGGTGCTGGGCTACACCAGCCTGAAGATGACCGGCGAAGACGGCGGCGACACCTACCTGTGGGTTCCGCGCCACACCGCCAACCTGGCGGTCAGCGCGCGGCTGCCGAGCTACACCGCGCTGTCCGGCGGCATCAGCGCGCGCTGGCAGAGCGAGACCTCCAACGTCGACGGCTACAGCGGCTACACCGTGCGCCAGGGAGACTACACGGTGCTCAACGCCTTCGTCGGCTGGGACTTCCTGCCCAACGCCACGCTGCGCTTCAACGTCAAGAACATCACCGACGAGAAGTACATCAGCAGCCTGTACCAGATCGGCTACTACGGCGCGCCGCGCAACTACTCGCTCAGCCTCGACTGGCGCTTCTGA	MPTPLNRAVRLPRLSVLALALLASVQAHAQSSDTGTAASTATDLDAVRVVAQRANRVSNGATNLDLAIKDTPQSISVVGQEQMQQFGATSLNDALRLATGIQVEEWETNRTNYLSRGFEIENTQIDGVGMPNDWGIVTGAMDAFGYDKLEVIRGANGLLTGVGNAAGTINYVRKRPTNETQGSVGVSYSSWGTKRVEADYSTPLTNDGTWAARVVAAHQDGGSYLRDYDSDRNFLYGVIDGQIGDNGTLTAGFSYQKAKSTGNMWGALTYNLTDGSQTEWDTSASTTQDWTYWDTTNKTGFLEYTHQLSSNWQLKASYNYRSSDNDDQLFFAYSATGLDADTGEGLYGWPYKGLDKLTQHLGDISINGTFELFGREQQAMMGVSVSQSEQVYWYYPADASGAAFGVLPGFPYAGNAIAEPDWGEKTLSSTLNQRIKRAYGASRISLTERLKAVIGVNFTEYHRDGDSDGNGASDFDQTESNTSPYGGLTWDFNDDILGYVSYSDIYQPQSQVDINNQYLDPTKGVNYEVGVKANWLDKRLLTTLAWFDAKQEGLATYAGYSGINGIYYYVPVDVQSKGVEFEATGKITDNLDVVLGYTSLKMTGEDGGDTYLWVPRHTANLAVSARLPSYTALSGGISARWQSETSNVDGYSGYTVRQGDYTVLNAFVGWDFLPNATLRFNVKNITDEKYISSLYQIGYYGAPRNYSLSLDWRF	PGPT0003775_1763	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_COMPLEX_RECEPTOR,PGPT0003775-fptA|fhuE|fpvA|C_FEV_OM1|fauA-K16088	NA	NA
BMS020_08350	447	yqeY	COG1610	putative protein YqeY	ATGAGCCTCAAGCAGCAGCTCACCGACGACATGAAGGCCGCGATGAAGGGCGGCGACAAGCACAGCCTGGGCGTGATCCGCCTGATCAACGCGGCGATCAAGCAGAAGGAAGTGGACGAGCGGATCGAACTGGACGACACCGCCGTGGTCGCCGTGCTGGACAAGATGGTCAAGCAGCGCAAGGACTCGGTGACCCAGTACGAGGGCGCCGGCCGCGCCGACCTGGCCGAGGTCGAGCGCGCGGAGATCGTGGTGATCGAACGCTACCTGCCGGCCAAGCTCGGCGAAGCCGAGATCATCGCCGCGATCCAGGCCGCGATCGCCGAGACCGGCGCCAGCGGCCCGGCCGACATGGGCAAGCTGATGGGCGCTCTGAAGCCAAAGCTGGCCGGCCAGGCCGACATGGGCCTGGTCTCGACGCTGGTCAAGCAGCAGCTGGGCGGCTGA	MSLKQQLTDDMKAAMKGGDKHSLGVIRLINAAIKQKEVDERIELDDTAVVAVLDKMVKQRKDSVTQYEGAGRADLAEVERAEIVVIERYLPAKLGEAEIIAAIQAAIAETGASGPADMGKLMGALKPKLAGQADMGLVSTLVKQQLGG	PGPT0030490_2082	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSAMIDASE_ACTIVITY	PUTATIVE-TRANSAMIDASE_ACTIVITY-1,PGPT0030490-gatB|yqeY-K09117
BMS020_08351	216	rpsU_2	COG0828	30S ribosomal protein S21	ATGCCCAGCGTCAAAGTCCGCGAGAACGAGCCCTTCGAGTTTGCGCTCCGCCGTTTCAAGCGCACTTGCGAGAAGGCCGGCGTCCTGGCCGAGACCCGCAAGCGCGAGTTCTACGAAAAGCCGACCCAGGAGCGCAAGCGCAAGGCGGCTGCGGCCGTGAAGCGTCAGCTGCGCCGCTCGTCGCGCGACGTTACCAAGCGTCAGCGCCTGTACTGA	MPSVKVRENEPFEFALRRFKRTCEKAGVLAETRKREFYEKPTQERKRKAAAAVKRQLRRSSRDVTKRQRLY				NA	NA	NA	NA	NA
BMS020_08352	1092	tsaD_2	COG0533	tRNA N6-adenosine threonylcarbamoyltransferase	ATGCAAGTCATCGGGTTTGGCGGCGCGGCCGAACCGGTCCAGAATAGTGTCATGAAAGTCCTCGGCATCGAATCTTCCTGCGATGAGACCGGCGTGGCGGTGTACGACACCGCGCTGCCGCCGGACCAGGCCCTGCGCGCGCACCATGTCTACAGCCAGATCGCGCTGCACGCCGAATACGGCGGCGTGGTGCCGGAGCTGGCCAGCCGCGACCACGTGCGCAAGCTGCTGCCGCTGCTGCGCCAGACCCTGGCCGACGCCGGGATCTGCACCGATGAACTGGACGGGGTGGCCTACACCGCCGGGCCGGGACTGGTCGGGGCACTGCTGGTCGGCGCCGCGGTGGCGCGCTCGCTGGCCTGGGCGCTGGAGCTGCCGGCGATCGGGGTGCACCACATGGAAGGACACCTGCTGGCGCCGTTGATGGAAGACGATCCGCCGGCGCCACCGTTCGTGGCGCTGCTGGTGTCCGGCGGCCATACCCAACTGGTCGCGGTCGAGGCGATCGGCCGCTACCGGCTGCTCGGCGAGACCCTGGACGATGCCGCGGGCGAGGCGTTCGACAAGACCGCCAAGCTGATGGGGTTGCCGTATCCGGGCGGGCCGCAGCTGGCCGCGCTGGCCGAGCAGGGCACGCCGGGCCGGTTCAGGTTCGCGCGGCCGATGACCGATCGCCCCGGCCTGGATTTCAGCTTTTCCGGGTTGAAGACCCAGGTGCTGCTGGCCTGGCGCGACAGCGACCAGACCGAGACGACCCGCGCCGACATCGCGCGCGGCTTCGAGGACGCGGTGGTCGATACCTTGGCAATCAAATGCGAGCGCGCGCTGGACGCGGCCGGGACCGACACCCTGGTGGTGGCTGGCGGCGTCGGCGCCAACAAGCGCCTCCGTGCCAAGCTGCAGGCGATGTGCGCCAAGCGTGGCGGCCGCGCCTGCTTCCCGCGCCCGGCACTGTGCACCGACAACGGCGCGATGATCGCGTTCGCGGGCGCGTTACGGCTGCAGGCCGGCCAGCACGGCGATGCGGCGGTGCACGTCACCCCGCGCTGGGACATGGCCGCGCTGCCGCCACTGACGGCCGCGCATGGCTGA	MQVIGFGGAAEPVQNSVMKVLGIESSCDETGVAVYDTALPPDQALRAHHVYSQIALHAEYGGVVPELASRDHVRKLLPLLRQTLADAGICTDELDGVAYTAGPGLVGALLVGAAVARSLAWALELPAIGVHHMEGHLLAPLMEDDPPAPPFVALLVSGGHTQLVAVEAIGRYRLLGETLDDAAGEAFDKTAKLMGLPYPGGPQLAALAEQGTPGRFRFARPMTDRPGLDFSFSGLKTQVLLAWRDSDQTETTRADIARGFEDAVVDTLAIKCERALDAAGTDTLVVAGGVGANKRLRAKLQAMCAKRGGRACFPRPALCTDNGAMIAFAGALRLQAGQHGDAAVHVTPRWDMAALPPLTAAHG				NA	NA	NA	NA	NA
BMS020_08353	354	folB_2	COG1539	Dihydroneopterin aldolase	ATGGACAAGGTTTTCATCGAAGGGCTCGAGATCGACGCCCTGATCGGCATCTACGACTGGGAACGGCGTATCCGCCAGACCCTGCGCTTCGACCTGGAGATGGGCTTCGACAACCGCATTCCGGCCGCCAGCGACGACATCGCCGACACGCTCAACTACAAGGCGGTCAGCAAGCGGCTGGAGGAGTTCGTGCGGCAGTCCGATTTCGGCCTGGTGGAAACGCTGGCCGAACGCTGCGCGGCGATCGTGCTTGAGGAGTTCGGCGTGGCCTGGCTGCGCCTGAAACTCAGCAAGCCCGGTGCGGTGCGCGGCGCGCGGGCGGTCGGGGTGATCATCGAGCGCAGCCGCGGCTGA	MDKVFIEGLEIDALIGIYDWERRIRQTLRFDLEMGFDNRIPAASDDIADTLNYKAVSKRLEEFVRQSDFGLVETLAERCAAIVLEEFGVAWLRLKLSKPGAVRGARAVGVIIERSRG	PGPT0007905_1241	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007905-folB-K01633	NA	NA
BMS020_08354	1293			hypothetical protein	ATGCTGGACACCCTGGTCCCGAACCATCAACTCGAACATCTGCAGCGCGCACTTGCGCCGTATCCCTGGGCCTACGACCTGCTGGTGCTGGGCGCGCTGGTACTGCTGGCATGGTTGGCCAACTGGCTGACCAAGCGGGTGCTGCTGCGCGGGCTGCAGAAGCTGCTGCGGAAGGCGTCCGGCGGTGCTGACGACAACGACCAGGGCGTGCGCCTGCGGGTGGTGCCGCGGCTGGCCAACGTGGTGCCGGCACTGGTGCTGTCCGCCGGCATCGGCGCGGTGCCGCACCTGCCGGCCCTGGCTGTGGCGGTGGTGGAGAAGCTGTGCCACGCCTTCATCGTGCTGACCGTCGCCTTGGCGATCTCGCGCGCGCTGGACGTGATCAACCTGGCCTACGAGCGCCGCGCCGACGCGCGCGACCGCCCGATCAAGGGCTACCTGCAGGTGGCCAAGATCATCATGTTCACGCTGGTTGGCCTGTCGATCGTGGCGACGCTGGCCGGGGTGGATTTCGCCAAGGTGGTGACCGGGCTCGGCGCCATCACCGCCGTGCTGATCCTGGTGTTCCAGGACACGCTGCTGTCGCTGGTGGCCAGCGTGCAGATCAGCAACGACGGCCGCGTGCGGCTGGGCGACTGGATCGAGATGCCCAGCCAGAACGCCGACGGCGACGTGATCGACATCGCGCTGCACACGGTGACGGTGCAGAACTGGGACAAGACCATCACCACGATCCCGACCAAGAAGCTGATCAGCGACTCGTTCAAGAACTGGCGCGGGATGACAGAGTCCGGCGGTCGCCGGATCAAGCGTGCGTTGTCGCTTGACCAGCACAGCGTGCGGTTCCTGGAGCCACAGGAGGTCGAGCGCATGCGCGAATTCACCGTGCTGCGCGACTACCTGGATGCCAAGCGCGAGGAACTGGAGGCCTGGAACGGCGCGCTGAACGCCCGGGGCGCGGCAGCGGTCAATGCGCGGCGGGTGACCAACCTGGGCACGTTCCGCGCCTACGTCGAGCACTACCTGCGTGCCCACCCGCAGGTGCACCAGGACATGACCCTGCTGGTGCGGCAGCTGCAGCCGACCAGCACCGGCCTGCCGCTGGAGATCTACTGCTTCACCAACGACACCCGCTGGGCGGCATACGAGCAGATCCAGTCGGACATCTTCGACCACCTGCTGGCGATGCTGCCGCAGTTCGAACTGCGTGTGTTCCAGGCCTCGAGCGACGCGATGCTGATGACGGCCGCCGCCTTGGCCCCGGCGCGCGCGGCCGCTCCGGCGGGCGCTTGA	MLDTLVPNHQLEHLQRALAPYPWAYDLLVLGALVLLAWLANWLTKRVLLRGLQKLLRKASGGADDNDQGVRLRVVPRLANVVPALVLSAGIGAVPHLPALAVAVVEKLCHAFIVLTVALAISRALDVINLAYERRADARDRPIKGYLQVAKIIMFTLVGLSIVATLAGVDFAKVVTGLGAITAVLILVFQDTLLSLVASVQISNDGRVRLGDWIEMPSQNADGDVIDIALHTVTVQNWDKTITTIPTKKLISDSFKNWRGMTESGGRRIKRALSLDQHSVRFLEPQEVERMREFTVLRDYLDAKREELEAWNGALNARGAAAVNARRVTNLGTFRAYVEHYLRAHPQVHQDMTLLVRQLQPTSTGLPLEIYCFTNDTRWAAYEQIQSDIFDHLLAMLPQFELRVFQASSDAMLMTAAALAPARAAAPAGA	PGPT0013774_87	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013774-mscM|ybdG-K16053	NA	NA
BMS020_08355	1452		COG2308	putative protein	ATGGACTGGAGCAGGTACCGCACGGCCACCTTCGACGAGCTGATCCGGGCCGACGGCACGCCGCGGCCGGCCGCCCGTCGCGTCATCGAATACCTATCCAGCCTGTCCGGGCGCGAGATCTCCGAACGCCAGCTCGCCGCCGATGTCGCCGCGCGGGTCATGGGCATCACCTTCACCGTGTACTCCGACGGCCGCAACGTCGATCGCACGCTGCCGTTCGACCTGATCCCGCGCACGATCCCGCTCAGCGAATGGCAGCGCACCGAGGCCGGGCTGAAGCAGCGCATGCAGGCGCTCAACCTGTTCATCGGCGACCTGTACGGCGCCCAGCGCATCGTCAAGGACAAGGTGTTCCCGGCCGAGCTGCTGGCCGATTCGGTGAACTTCCGACCGCAGTGCGTCGGCATCACGCCGCCGCTCGGGGTATGGGCGCACATCTGCGGCTCGGACCTGGTGCGCGATGCCGACGGCACGCTGTACGCGCTGGAGGACAACCTGCGCATCCCGTCCGGGGTCAGCTACATGCTGGAGAACCGGCAGGTGGCCAAGCGGGTGTTCCCGGAGCTGTTCGAGACCACCGCGATCCTGCCGGTGGACGAATATCCCTCGCAGCTCTACGACACGCTCGCCGCGTTGAGCCCGCGCCCCGGCGACGCGCCGGTGATCGCGCTGCTGACCCCGGGCGTGTTCAACAGCGCTTATTTCGAGCACGCCTATCTGGCGCAGGCGATGGGCATCGAGCTGGTCGAGGGTGACGACCTGTTCGTCGCCGACGACGACTGCACCTACATGCGCACCGTGTACGGACCGCGCCGGGTCGATGTGGTCTACCGGCGTATCGACGATGCCTTCATCGATCCGGAGGCGTTCCGGCCCGATTCGGTGCTCGGCGTGCCGGGGCTGATCCGCAGCTGGCGTGCCGCCAAGGTCGCGCTGGCCAACGCGCCCGGCGCCGGCGTCGCCGACGACAAGGTGGTGTTCGCCTACGTGCCGAAGATGATCAGGTACTACCTGGACCAGGAGCCGATCCTGCCGAACGTGCCCAGCTACCTGTGCCATGACGACAAGGACCGGCAGTACGTGCTGGAGCACCTTGACGACCTGGTGGTGAAGCCGGCCAACGAGTCCGGCGGCTACGGCATGCTGATCGGGCCGCGCTCGACCACGCGCCAGCGCGAGCAGTTCCGCAAGCTGATCCTGGCCGATCCACGCAACTACATGGCGCAGCCAACCCTGAACCTGTCGACCGCGCCGATCGTCACCGAAGACGGCCCGGCGCCGCGGCACCTGGACCTGCGCCCGTTCATCCTCTCGCGCGAGGACACCTACGTGACCACCGGCGGGCTGACCCGGGTGGCGATGCAGGAGGGCTCGCTGGTGGTGAACTCCTCGCAGGGCGGCGGCGCCAAGGACACTTGGGTGGTCGACCTGGATGCGGACGAGGAGGGCTAG	MDWSRYRTATFDELIRADGTPRPAARRVIEYLSSLSGREISERQLAADVAARVMGITFTVYSDGRNVDRTLPFDLIPRTIPLSEWQRTEAGLKQRMQALNLFIGDLYGAQRIVKDKVFPAELLADSVNFRPQCVGITPPLGVWAHICGSDLVRDADGTLYALEDNLRIPSGVSYMLENRQVAKRVFPELFETTAILPVDEYPSQLYDTLAALSPRPGDAPVIALLTPGVFNSAYFEHAYLAQAMGIELVEGDDLFVADDDCTYMRTVYGPRRVDVVYRRIDDAFIDPEAFRPDSVLGVPGLIRSWRAAKVALANAPGAGVADDKVVFAYVPKMIRYYLDQEPILPNVPSYLCHDDKDRQYVLEHLDDLVVKPANESGGYGMLIGPRSTTRQREQFRKLILADPRNYMAQPTLNLSTAPIVTEDGPAPRHLDLRPFILSREDTYVTTGGLTRVAMQEGSLVVNSSQGGGAKDTWVVDLDADEEG	PGPT0026300_18	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048	NA	NA
BMS020_08356	942			hypothetical protein	ATGCTGTCGCGCGTCGCCGACAACCTGTACTGGTTCAGCCGCTACCTGCGCCGCGCCGAGAACACCGCGCGCCTGGTCGGCGTGGGCAGCCTGCTGCAGCTGGACCTGCCGCGCTCGGTGCGGTTCGCCTGGCGGCCGATGATCGACACGGTCGGTGCCGGCGAGATCTTCAACCTGTGGTTCCCGAACGCCGGCGACGATGTCGCCGACACTGACGTGGTGCGCTTCCTGCTGCTGGACGAGCGCAACCCGTCCTCGCTGCGCAGCACGCTGGAGCAGGCACGCGAGATCCTGCGCCGGATCCGCGACACGCTCCCGCAGGAGGTCTGGGAGGCGGTCAACGACATGCACCTGCACCTGGAGGCCGAGGGCGAGCGTGGCATCGGCCGGCGCTACCGCATGGACCTGCTCAGCCGCATCACCGATGCCTGCCTGAAGGTCTCCGGGCTGCTGTCCTCGAACGTCAGCCGCGACATCGGCTTCCAGTTCATGCGCCTGGGCACGGCGATCGAGCAGGCCGACATGACCACGCGGATCATCGACGCGGCCGCGTCCGGGCTGGTCACGCCGCGCCAGCCGGACGACCGCGAGGCCTACCTCAACATGCAGTGGATGAGCGCGCTGCGCGCGCTGGCCGCCTACCAGATGTATCGCCGCAACGTGCGCCAGCGCGTCACCGGCGAGCAGGCGCTGCGCTTCCTGCTGCAGAACAGCGAGTTCCCGCGCAGCGTGCAGTTCTGCCTGAGCCGCGCCGCGCAGGTGCTGCCGGGCATGCCGCCGCGGCCGCCGGTGGAGCGGGCGTTGATGCGGGTCTCCGGGCTGATCCGCAATGCCGACCCGGTGTGGTTGGCCACGAATGCCCCGGCAGCGTTCATGGACGAAGCCCAGCAGCGGCTGGGCGAGCTGCACGACGCGATCGCCCAGGCCTACTTCAACGGCTGA	MLSRVADNLYWFSRYLRRAENTARLVGVGSLLQLDLPRSVRFAWRPMIDTVGAGEIFNLWFPNAGDDVADTDVVRFLLLDERNPSSLRSTLEQAREILRRIRDTLPQEVWEAVNDMHLHLEAEGERGIGRRYRMDLLSRITDACLKVSGLLSSNVSRDIGFQFMRLGTAIEQADMTTRIIDAAASGLVTPRQPDDREAYLNMQWMSALRALAAYQMYRRNVRQRVTGEQALRFLLQNSEFPRSVQFCLSRAAQVLPGMPPRPPVERALMRVSGLIRNADPVWLATNAPAAFMDEAQQRLGELHDAIAQAYFNG				NA	NA	NA	NA	NA
BMS020_08357	2175			Beta-xylosidase	ATGGCTGCCTCTGAACGTATCGAATCCCTGATCGCCCGCATGACCGTCGAAGAGAAGGTCGGCCAGCTGGGGGTGTTCGCCGACATGGTCCGCCCGTTCGCCCCGGAGGTGAACCCGGAGGCCAATGTCCGCAACGCCGACGAGGTGCTCGACCAGGTCCGTGCCGGCCGGGTCGGCTCGCTGTTCAACGGCGTCGGCGCCGCGCTCGGGCGCCGGATCCAGCAGGTTGCGCTGGAGGAGAGCCGCCTGGGCATTCCGGTGGTCCTGGCCGCCGACGTGATCCACGGCATGCGCACGGTGTTCCCGATTCCGCTCGGCGAGGCCGCCAGCTTCGAGCCGGCGCTGGCCGAGCGCACCGCGCGCGCCACCGCGATCGAGGCCACCGCCGCCGGCATCCACTGGACCTACGCGCCGGCGGTGGACATCGCCCGCGACCAGCGCTGGGGCCGCGGTGCCGAGGGCGCCGGTGAGGACGTGGTGCTGGGGGCCGCCTTCGCCGCGGCGCGCGTGCGCGGCTTCCAGGGCAGCGACCTGGCCGCGGCGGACGCGCTGCTGGCCACGCCCAAGCACTTCGCCGCCTACGGCGCGGTCGCCGCCGGCATGGAATACAACACCGTCGACATCGCCCCGCAGACCCTGCGCGACGTGCACCTGCCGCCGTTCAAGGCGGCCTTCGACGCCGGCGCGATCAGCGTGATGTCCTCGTTCAACGACATCAACGGCGTGCCGGCCAGCGCCAACCACGAACTGCTGACCGAGATCCTGCGCGGCGAATGGACGTTCCCCGGCGTGGTGATCTCCGACTACACCGCCGACATGGAGCTGATCGCCCACGGCTACGCCGCCGACGAACGCGACGCGACCAAGAAGGCGTTCCTGGCCGGCCTGGACATGAGCATGCAGAGCGGCTTCTACGCCGCGCACCTGCCGGCGCTGGTGGAGAGCGGCGAGGTGCCGATGGCAGCGCTGGACGAGGCGGTGCGCCGGGTGCTGTGGCTGAAGGAGCAGATCGGCCTGTTCGACGATCCGTACCGCTCGCTGGACCCGGCCCGCGAGGCCGATACCGCCCACATCCCGGCGCATGACCTGCTGTCGCGCGACGCCGCGCGGCGCTCGATCGTGCTGCTGAAGAATGCCGACGACGTGCTGCCGCTGAAGTCCTCCGGGCAGACGATCGCGCTGATCGGCCCGTTCGTGCAGGACCGCGAGAACATCGAGGGCTGCTGGACCCTGTTTGGCGACAAGACGCGCTACGTGACGCTGGAAGAAGGCGTGCGCGCGGCGATCGGCGACCAGGCCGACCTGCGGGTGGAGCCTGGCTGCGGGCTGGAGGAGGCGATCGACGGCGGGCTGCAGGCCGCGGTGCTGGCGGCGCAGGATGCCGACGTGGTGGTGCTGGCGCTGGGCGAGCCGCAGCGCTACAGCGGCGAGGCGCAGTCGCGCACCGACATCGTGCTGCCGCCGATCCAGCAGGCGCTGGCCGAGGCGGTGGCCGCCACCGGCAAGCCGCTGGTGGTGCTGCTGCGCAATGGCCGCGCGCTGGCGCTGCAGGGCGCGGTGCGCAACGCGCAGGCGATCGCGGTCACCTGGTACCTGGGCACGCAGACCGGGCACGGCGTCGCCGACGTGCTGTTCGGCCACTACAACCCGTCCGGCCGCCTGCCGATCAGCTTCCCGCAGGCCAGCGGCCAGCAGCCGTTCTTCTACAACCACCTGCGCACCGGCCGCCCGGAGCTGCCGGAGATGTCCGAGTACAAGGCGCGCTGGCGCGAGATGCCGAACGAGCCGCTGTATCCGTTCGGCCATGGCCTGAGCTACACCCGCTTCGCCTACGACACGCCGCGCCTGAGCAGCGCACGGCTGGGCTGGGACGAGACCCTGACCGTGACCACGCGGGTGAGCAATACCGGCGCGCTGGCCGGCGAGGAAGTGGTGCAGCTGTACCTGCACGACCGTGTCGCCAGCCGGGTGCGCCCGGTGCGCGAGCTGAAGGGCTTCCGCAAGCTGCTGCTGCAGCCGGGCGAGAGCGCCGAGGTGGTGTTCACCCTGGACCGCCAGGCCTTGGCCTTCACCAACCCGCGCGGCCAGTTCGGCGCCGAGCCGGGGCTGTTCGACCTGTGGGTGTGCGCCTCGTCCAAGAGCGGTGAGGCGGTGCAGTTCGAGTTGCTGGGCTGA	MAASERIESLIARMTVEEKVGQLGVFADMVRPFAPEVNPEANVRNADEVLDQVRAGRVGSLFNGVGAALGRRIQQVALEESRLGIPVVLAADVIHGMRTVFPIPLGEAASFEPALAERTARATAIEATAAGIHWTYAPAVDIARDQRWGRGAEGAGEDVVLGAAFAAARVRGFQGSDLAAADALLATPKHFAAYGAVAAGMEYNTVDIAPQTLRDVHLPPFKAAFDAGAISVMSSFNDINGVPASANHELLTEILRGEWTFPGVVISDYTADMELIAHGYAADERDATKKAFLAGLDMSMQSGFYAAHLPALVESGEVPMAALDEAVRRVLWLKEQIGLFDDPYRSLDPAREADTAHIPAHDLLSRDAARRSIVLLKNADDVLPLKSSGQTIALIGPFVQDRENIEGCWTLFGDKTRYVTLEEGVRAAIGDQADLRVEPGCGLEEAIDGGLQAAVLAAQDADVVVLALGEPQRYSGEAQSRTDIVLPPIQQALAEAVAATGKPLVVLLRNGRALALQGAVRNAQAIAVTWYLGTQTGHGVADVLFGHYNPSGRLPISFPQASGQQPFFYNHLRTGRPELPEMSEYKARWREMPNEPLYPFGHGLSYTRFAYDTPRLSSARLGWDETLTVTTRVSNTGALAGEEVVQLYLHDRVASRVRPVRELKGFRKLLLQPGESAEVVFTLDRQALAFTNPRGQFGAEPGLFDLWVCASSKSGEAVQFELLG	PGPT0019110_5524	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
BMS020_08358	306			hypothetical protein	ATGGCGCACTACCTGCTGAGCTACACCCTGGCTGCGGACTACCTGCAGCGCCGCGCGGCGTTCCGCGACGAGCACCTGCGGCTGGCCTGGCAGGCCAGCGCGCGCGGCGAGTTGCTGCTGGGCGGCGCGCTGGCCGAACCGACCGACCGCGCACTGCTGCTGTTCACCGGCGACGGCCCGGAAGCGGCCCGCGCGTTCGCGCAGGCCGATCCGTATGTGCGCAATGGCCTGGTCACGGCCTGGCAGGTGCAGCCATGGACCAGCGTGGTCGGGCCGCTGGCAGCCAGCCCGGTGCATCCAGCCTAA	MAHYLLSYTLAADYLQRRAAFRDEHLRLAWQASARGELLLGGALAEPTDRALLLFTGDGPEAARAFAQADPYVRNGLVTAWQVQPWTSVVGPLAASPVHPA				NA	NA	NA	NA	NA
BMS020_08359	1137	yliI_2	COG2133	Aldose sugar dehydrogenase YliI	ATGAGCGCACGCCCCCTGCTCGCCCTCGCCTGTTCGCTGCTGCTCGGCCTCGGCAGCGCCTGCGCCGCCCCGGCGCCGGCCGCGCTGGATCAGGCGCACTGGCCGTTCAGCGCGGCCGCGCAGGCGCGCTTCGACGAGCCATGGGCGATGGCCTTCCTGCCCGACGGCAGCCTGCTGGTCAGCGAGAAGCGGGCCGCGCTGAAGCGCTTCGATCCGCGGACGCGGCGCAGCACGGCCATCACCGGCGTGCCGGCGGTGGCCTACGGCGGCCAGGGCGGCTTCGGCGACGTGCTGCCGCACCCGCAATTCGCCCGCAACGGCTGGGTGTATCTCAGCTACGCCGAACCCGGTGAGGGCGGCACCCGCGGCGCGGCGGTGGCGCGCGCGCGGCTCACGCTCGATGCCACCGGCGGCGGCAGCCTGTCCGCGCTGCAGGTGATCTGGCGGCAGGTGCCGAAGGTCTCCGGCCAGGGCCATTACGGCCATCGGTTGGCGTTCGGCCCCGATGGCAAGCTCTGGATCACCTCCAGCGAGCGGCAGAAGTTCGACCCGGCACAGGACATGGCCAGCAATCTCGGCAAGATCGTCCGCCTCAACGACGACGGCAGCGTGCCGGCCGACAACCCGTTCGCGGCGCAGGGCGGCGTTGCCGCGCAGGTGTGGTCGCTCGGCCACCGCAACGCGCTCGGCATCGCCTTCGACGCCAAGGGCCGGCTGTGGGAGCACGAGATGGGCCCGAAGGGCGGCGACGAGCTCAACCTGATCGTGCGCGGCGCCAATTACGGCTATCCGATCGTCTCCAATGGCGACCACTACGACGGCCGGCCGATTCCCGACCATCCGACCCGGCCGGAGTTCGCCGCGCCCAAGATCACCTGGAACCCGGTGATCTCGCCGGCCGGCCTGGTCATCTACAGCGGCACGCTGTTCCCGCAGTGGCGCGGCAACGGCTTCATCGGCGGGCTGTCCTCGCAGGCGCTGGTGCGGGTGGCGTTCGACGGCGAGCGTGCACGCGAGGCCGAACGCTACGACATGGGCGCACGCATCCGCGAGGTCGAACAGGGCCCGGACGGCGCGCTGTGGCTGCTGGAGGATGGCAGCAACGGCCGCCTGCTGAAGCTGACGCCGCGCACCTGA	MSARPLLALACSLLLGLGSACAAPAPAALDQAHWPFSAAAQARFDEPWAMAFLPDGSLLVSEKRAALKRFDPRTRRSTAITGVPAVAYGGQGGFGDVLPHPQFARNGWVYLSYAEPGEGGTRGAAVARARLTLDATGGGSLSALQVIWRQVPKVSGQGHYGHRLAFGPDGKLWITSSERQKFDPAQDMASNLGKIVRLNDDGSVPADNPFAAQGGVAAQVWSLGHRNALGIAFDAKGRLWEHEMGPKGGDELNLIVRGANYGYPIVSNGDHYDGRPIPDHPTRPEFAAPKITWNPVISPAGLVIYSGTLFPQWRGNGFIGGLSSQALVRVAFDGERAREAERYDMGARIREVEQGPDGALWLLEDGSNGRLLKLTPRT	PGPT0017700_890	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_ALDOSE_DEGRADATION,PGPT0017700-yliI-K21430	NA	NA
BMS020_08360	429	yiaA_2	COG4682	Inner membrane protein YiaA	ATGGCTGCCATTCCAAAGACGTCTGCCGCGTTCATCGCGGCCTCCTGGTGCTCGCTGATGCTCGGTACCGTGGCCTACCTGGTCGGGTTGTGGAACGCCGAGATGCTGCTCAACGAAAAGGGCTATTACTTCACCGTGCTGCTGTTCGGCCTGTTCGCTGCGGTGTCGCTGCAGAAGAGCGTGCGCGACCGGGTCGAAGGCATCGCCGTGACGGCGTTGTACTACGCGATCTGCTGGTTCGCGCTGATCGCCGCGCTGCTGTTGCTGGCCATCGGCCTGTTCAACGCCACCCTGCTGCTCAGCGAGAAAGGGTTCTATGCAATGGCGTTCGCACTGAGCCTGTTTGGTGCGGTCGCGGTGCAGAAGAACACCCGCGACGGCATGGCCGGCGACGCAGGCGACGCCCGGGTGCCGCCTGCGCTGGACTGA	MAAIPKTSAAFIAASWCSLMLGTVAYLVGLWNAEMLLNEKGYYFTVLLFGLFAAVSLQKSVRDRVEGIAVTALYYAICWFALIAALLLLAIGLFNATLLLSEKGFYAMAFALSLFGAVAVQKNTRDGMAGDAGDARVPPALD				NA	NA	NA	NA	NA
BMS020_08361	327			hypothetical protein	ATGAGCAGCTACCAGATTCCCGGACGCACGCCCGACGCAGGCGACCGTGCGGCGGTCTCGCGCTATTGGCGCGAACGCTTCAGCGACGAGCCGTACTACGGCGACGGCGAACGCTTCGAGGACTACGAGCCGGCCTATCTGGCCGGGCACACGGCGCGCGTACGCGATTTCAACCGCGCCTACGAACAGGTCGAGGCGGAGCTGCACCGCGACTGGGACGCCCAGCGTGGCGCATGCTCGCTGGCCTGGAGCAAGGCCCGCCATGCGGTGCGCCGCGCCTGGGACCAGGCCGCACAGATCGAACGCGGCGTACCGCGCGGCAGCTGA	MSSYQIPGRTPDAGDRAAVSRYWRERFSDEPYYGDGERFEDYEPAYLAGHTARVRDFNRAYEQVEAELHRDWDAQRGACSLAWSKARHAVRRAWDQAAQIERGVPRGS				NA	NA	NA	NA	NA
BMS020_08362	507			hypothetical protein	ATGGCCGCATTCGCCGCAACGATGCTGACCCCGTACCTGACCGGTGCGGGCCTTGCCCTGTTGTACTACCGGCGCATGCGCCGGCATTTCGGCTACCAGCCATGGCAGCCGCGGCGCACCGCGATGCGCATCGGCGTGCTGGTGCTGGTGGTCGGCCTGTTCGGCTGGTTGGCGACGGTGGCGCCGGCGATCGCGCCGGGGCTGCTTGCGGGCGCGCTGGCCGGCGCGGCGCTGGGAGGCGTGGCGCTGCGGCATACCGCGATCGAGCGCCGCGGCGACCAATGGGGCTATGTGCCCAATCCATGGATCGGCGCCGGCTTGAGCGTGCTGCTGCTCGGGCGGCTGGCCTGGCGCTGGAGCCACGGCGCGTTCGCGTCCGGGGCGATGGCCAGCGCCAACCAGGCCAGCCCGCTGACGATGGCGATCGCCGCCACGCTGGTGGCGTATTCGCTGACCCAGGCGATCGGGCTGATGCTGATGCTGCGGCGGCGCATCGGCGCAGGCTGA	MAAFAATMLTPYLTGAGLALLYYRRMRRHFGYQPWQPRRTAMRIGVLVLVVGLFGWLATVAPAIAPGLLAGALAGAALGGVALRHTAIERRGDQWGYVPNPWIGAGLSVLLLGRLAWRWSHGAFASGAMASANQASPLTMAIAATLVAYSLTQAIGLMLMLRRRIGAG				NA	NA	NA	NA	NA
BMS020_08363	291			hypothetical protein	ATGCTGTGTCCTGCTTGCAAAGACATCACCCTGTCGCTGGCCGATCGCCAGGGGATCGAAATCGATTTCTGCCCGCAATGCCGCGGTGTCTGGCTCGACCGCGGTGAACTGGACCGCATCATCGCCCGCAGCGAACAAGTGGCCCCGCCACCGCCACTCCCGCGCGCAGATGGCGGCGAACGCGACGCGGCGTACCGCGAACGCGATGATCGCCACCGCCACGCCCCATCGCATGCGTACGATCGCCGCAAGCGCAAGAAGTCGCTGCTGGGCGAGCTGTTCGACTTCTGA	MLCPACKDITLSLADRQGIEIDFCPQCRGVWLDRGELDRIIARSEQVAPPPPLPRADGGERDAAYRERDDRHRHAPSHAYDRRKRKKSLLGELFDF				NA	NA	NA	NA	NA
BMS020_08364	1299	steT_2	COG0531	Serine/threonine exchanger SteT	ATGAGCGGCGCGCCCGAAGGCACACCGGGGCTGGTCCGCGCGGTCAGCCGCTGGCAGATCGTCGGGCTGTCGATCAACGACGTGATCGGCAGCGGCATCTACCTGATGCCGGCGCTGGTGTTCATGTACCTGGGCAGTTTCAGCCTGCTTTCGGTGGTGCTGGCCGGCGTCGCGGTGGCGCTGCTGGTGTCGTGCTACGCGCAGGCGGCGAGCTATTTCGACCGCCCCGGCGGCAGTTACCTGTACGCACGCGAGGCATTCGGCGAATTCGCCGGCTTCCAGGTCGGCTGGACCATCTGGCTGACCCGGATCAGTTCGGCCGCCGCGCTCGGCAACGCGATGGCCGATGCGGTCGCACGCTTCTGGCCCGCCGCCAGCGCCGGCGGCGGACGCCTGCTGATCGTGGCCGGCTCGCTGAGCCTGCTGACCGCGATCAACGTGGTCGGCGTGCGCTCGGCCGCGCGCACCGGCGTGCTGCTGGTGGTCGGCAAGCTGGTGCCGCTGCTGCTGTTCGTGGCGATCGGGCTGTTCCATGTCGACTGGTCGCTGGCGCTGGGTGGCACGCCGCCGGACACCTCCGACCTGCACACGCTCGGCCAGGCCGCGTTGCTGCTGCTGTTCGCCTACGCCGGCTTCGAGAACATCCCCGCCGCCGCCAGCGAATACCGCAATCCGCGCCGCGACGTGCCGTTCGCGCTGCTGGTGATGATCGTCAGCGTGACCGCGATCTACGTGCTGGTGCAGCTGGTCGCGCAGGGCACGCTGCCGACGCTGGCCGACTCGGCCACGCCGCTGGCCGACGCCGCCGCGCGCTTCGGCGGCGAGGGCATGGCGCTGCTGCTCACCGTCGGCGCGACGATCTCGATCCTCGGCACCACCAGCAACACGGTGATGCTGGGGCCGCGCTTCCTGTTCGCGCTGGCGCAGGACGGCTACGGGCCGCGCATCATCGCCGCGGTGCACCCGCGCTTCCACACGCCGTACGTGGCGATCCTGGTGCAGTTCGCGATCTCGCTGGCGCTGGCGCTGAGCGGCTCGTTCGAGCAGCTGGCGCTGCTGTCGATGGTGACGCGGCTGCTGGCCTACCTGGGCACCGCCGGCGCGGCCCTGGTGCTGGCACGCCGCTACCGCGACCGCGACGACGTGGTGCGACTGCCCGGCGGGCCGCTGATCCCGGTGCTGGCGATCGTGCTGACGCTCGGCCTGCTGGCCAGCGCCAGCTGGCAGAACCTGGCCGCGGCCGGCGCGGCGATGCTGCTCGGCACGCTGATCTTCGCCACCCGGCGCCGCACGCCCTGA	MSGAPEGTPGLVRAVSRWQIVGLSINDVIGSGIYLMPALVFMYLGSFSLLSVVLAGVAVALLVSCYAQAASYFDRPGGSYLYAREAFGEFAGFQVGWTIWLTRISSAAALGNAMADAVARFWPAASAGGGRLLIVAGSLSLLTAINVVGVRSAARTGVLLVVGKLVPLLLFVAIGLFHVDWSLALGGTPPDTSDLHTLGQAALLLLFAYAGFENIPAAASEYRNPRRDVPFALLVMIVSVTAIYVLVQLVAQGTLPTLADSATPLADAAARFGGEGMALLLTVGATISILGTTSNTVMLGPRFLFALAQDGYGPRIIAAVHPRFHTPYVAILVQFAISLALALSGSFEQLALLSMVTRLLAYLGTAGAALVLARRYRDRDDVVRLPGGPLIPVLAIVLTLGLLASASWQNLAAAGAAMLLGTLIFATRRRTP	PGPT0020810_6155	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020810-TC_APA|yhdG-K03294	NA	NA
BMS020_08365	780			hypothetical protein	GTGCCTTCCTCCGCCTCGCGTCTTCACCAGCTGCTGGCCCTGCTCGCGCTGGCCTGCGCAGTGCCCGGCCATGCCATCGCCAAGCACGCGCCCACCGACGGCGCGCGCCAGCTGGTCGTGGTCGTCACCGACGACTGGAACGCGAACCAGGGGCGGCTGCAGGCGTACGCACGCAGCGGCCGCGGCTGGAGCGCGGTGGGCCCCGGCTTCGCGGTGGCGATCGGCCGCAACGGCAGCGCCTGGGGCGACGGTCTGCATCCGCAGCAGGCCACGCCACGCAAGCAGGAAGGCGATGGCCGCAGCCCGGCCGGGGTGTTCGCGCTCGGCACTGCATTCGGCGCCGAGGCGCGCATCGCCAGCGCGATGCCGTACCGGCAGATGCAGCCCGACAGCTGGTGCATGGACGTGGTCGATTCGCCGTTGTACAACCAGATCGTCGACGCCAGCGCGGTCGGTGCCGACGCGGTGAAGGGTTCCAGCGAACCGATGCGGCTGGACCTGCACCATGACGGCGACCGACGCTATCGCGAGGGCTTCGTGATCGAACACAACCCGGCCGCCACACCCGGCCACGGCAGCTGCATCTTCGCCCACCTGTGGCGTACGCCCGGCGAGGCCACCTCCGGCTGCACCGCGATGGAACCGGCCGACATGAACCGCCTGCTGGCCTGGCTGCAGCCGGCCGACACGCCGCTGTTCGTGCTGATGCCGCGCGAGGCCTACCGCGCCCATCGCCGCACGTGGAAGCTGCCCAAGCTCGCCGACGGGGCCAGCCGATGA	MPSSASRLHQLLALLALACAVPGHAIAKHAPTDGARQLVVVVTDDWNANQGRLQAYARSGRGWSAVGPGFAVAIGRNGSAWGDGLHPQQATPRKQEGDGRSPAGVFALGTAFGAEARIASAMPYRQMQPDSWCMDVVDSPLYNQIVDASAVGADAVKGSSEPMRLDLHHDGDRRYREGFVIEHNPAATPGHGSCIFAHLWRTPGEATSGCTAMEPADMNRLLAWLQPADTPLFVLMPREAYRAHRRTWKLPKLADGASR	PGPT0024190_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GLYCOPEPTIDE_RESISTANCE,PGPT0024190-vanX-K08641	NA	NA
BMS020_08366	849	murR_2	COG1737	HTH-type transcriptional regulator MurR	ATGCAGCCACTGCTGAAGATCCGCGCCGAACGCGACGGCATGTCGGCGATCGAGCGCCGCATCGCCGATTTCATCCTCGACAACGCCCACCTGCTGCGCGACTACTCCTCGCAGCAGCTGGCCAGCGCGCTCGGCATCAGCCAGTCCAGCGTGGTCAAGTTCAGCCAGAAGCTCGGCTTCAAGGGCTATCCGGACCTGAAGTACTCCATCGGCGAGGCGGTGGCGCGCAGCGGCGGCGGCGCGCCGCGCGAAGACACACGCGAGCAGCTCGATGACGCCTACCTGCGCCTGGAGCAGACCCTGCGCGCCAGCAAGGCCGGCTCCGAAGCGGAAACCCGGCTGCTCAACCCGCGCGACAACATCGAGGCGATCGTCGGCCTGCTCGATGGCGCCGGCAAGGTGTTCGTCTGCGGCCTGGGCGACGATGGCCTGTTCGCGCGCGAATTCGCGATGCGGCTGTCGCTGCTGGGCGTGCTGACCGTGCACCACGCCGACCCGATCCTGCTGCTGGCCAACCTGTCGGCGGTGCGCGGCGGCGACGTGCTGCTGCTGTTCTCCGAATTCGGCCAGCTGCCGCAGCTGAGCCACGTCGCGCGCGAGTTCCAGGCCGCCGGCGGGCGTCTGGTGTCGATCACCCGCCACACCGCCAACCCGCTGCGCGCGATGGCCGACGCGTCGCTGGCGATCTCCGCGCACGATCCGGCCGCGCACATCGCGCAGCTGTTGTACCGTTCCTCGCTGCAGGTCCTGCTCGACTTCGTGTTCGTGCTGATGTGCCAGGCCAACCCGGGCCGGCAGCGCGAACTGGCCACCAACCTGGAGCGGGTCCAGCGCCTGCTCGAATCCTGA	MQPLLKIRAERDGMSAIERRIADFILDNAHLLRDYSSQQLASALGISQSSVVKFSQKLGFKGYPDLKYSIGEAVARSGGGAPREDTREQLDDAYLRLEQTLRASKAGSEAETRLLNPRDNIEAIVGLLDGAGKVFVCGLGDDGLFAREFAMRLSLLGVLTVHHADPILLLANLSAVRGGDVLLLFSEFGQLPQLSHVAREFQAAGGRLVSITRHTANPLRAMADASLAISAHDPAAHIAQLLYRSSLQVLLDFVFVLMCQANPGRQRELATNLERVQRLLES				NA	NA	NA	NA	NA
BMS020_08367	1098		COG4948	L-Ala-D/L-Glu epimerase	ATGAAGATCACCGATATCCAGCTGGGCATGCTGCGCGTGCCGCTGAAAACCCCGTTCAAGACCGCGCTGCGCACCGTCGAGACGGTGGAGGACATCGTGGTGTTGATCCACACCGACAGCGGCCACATCGGCTACGGCGAGGCACCGCCGACGCCGCCGATCACCGGCGACACGCACGGCTCGATCGTCGAGGCGATCCGCCATCACATCGCGCCGCGGTTGATCGGCCAGGAGATCGCCAACCTCAACCGCCTCACCGCGCTGGTGCAGGCCTCGATGGAGCGCAACACCAGCGCCAAGGCGGCAGTGGAGATCGCGCTGTACGACCTGTGGGCGCAGCTGTACGAGGCGCCGCTGTACCGCATGCTCGGCGGCGGCGACCCGGTCATCACCACCGACATCACCATCAGCGTGGACCACATCGACAAGATGGTGGCCGATTCGCTGTCGGCGGTGCAGCGCGGCTTCGACTCGCTGAAGATCAAGGTCGGCAAGGACATCGGCCTGGACATCGAGCGGGTCAAGGCGATCCACGCCGCGGTCGAGGGGCGTGCGCTGCTGCGGCTGGACGCCAACCAGGGCTGGACCGCCAAGCAGGCGGTGTTCGCGATGCGCACGCTGGAGGATGCCGGCGTGGTGCTGGAGCTGCTGGAACAACCGGTCAAGGCCGCCGACATCGACGGGCTCAAGTACGTCACCGAGCGGGTCAACACCCCGGTGATGGCCGATGAAAGCGTGTTCGCGCCGCACCAGGTGTTCGACCTGATCCAGCGCCGCGCCGCCGACATCATCAACATCAAGCTGATGAAGACCGGCGGGCTGTCCAATGCGATCCGCATCGCCGACATCGCCGGGCTGTATGGGGTGCCGTGCATGATCGGCTGCATGATCGAATCGAGCATCAGCGTCGCCGCGGCGGTGCACCTGGCGGTGGCCAAGTCGGACATCATCACCAAGGTCGACCTCGACGGCCCATCGCTGGGCCAGTTCAACCCGGTCGAAGGCGGGGTGATCTTCGACGAATCGGAGATCACCATCACCGATGCGCCGGGCCTGGGCATCCGCGAGATCCGCGGACTGGAACTGCTCGCACCATGA	MKITDIQLGMLRVPLKTPFKTALRTVETVEDIVVLIHTDSGHIGYGEAPPTPPITGDTHGSIVEAIRHHIAPRLIGQEIANLNRLTALVQASMERNTSAKAAVEIALYDLWAQLYEAPLYRMLGGGDPVITTDITISVDHIDKMVADSLSAVQRGFDSLKIKVGKDIGLDIERVKAIHAAVEGRALLRLDANQGWTAKQAVFAMRTLEDAGVVLELLEQPVKAADIDGLKYVTERVNTPVMADESVFAPHQVFDLIQRRAADIINIKLMKTGGLSNAIRIADIAGLYGVPCMIGCMIESSISVAAAVHLAVAKSDIITKVDLDGPSLGQFNPVEGGVIFDESEITITDAPGLGIREIRGLELLAP	PGPT0020045_544	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020045-ycjG-K19802	NA	NA
BMS020_08368	1386			hypothetical protein	ATGACCTGCTGCCGTCTGCTCCTGCTGCTGTCGCTGCTTGCGCTGCCCGGCTTCGCCGCCGCCGATAGTGCGCGTGCCCCATTCCAGCTCGAGGAAGTCCACTTGCAGGCCGAGCACTGGATCGACCGCCTCCCACACCGCGACCGACCGCTGCTGAGCGCCGCGCAGGTCAGCGCGTTCAACGCCGCGCTGCTGCGCGAGGATGCCTCGATGCACGACCTGGCCGCGCTGCCGGGCCAGTTCAGTGGCGCACAGGTGCGCTCGCGAATCGCCGCGCTGTCGGCGCGCCCGACCCGCACGCTGTACGACGCGCACGGCACGCAGCTCGATCCCGTGCGGCTGGACGCGTTGCAGCAGTCTCTGGCGCTGGACGCGATCGCCGCCGAGGTCGCGCCGCGCTACGCACTGGTGGTCCAGCGCGCCGACCTGCGCACCTTCCCGACCACGCTGCAGGTGTTCTCCAGCCGCGACGACCACGACATCGACCGTTTCCAGGAGTCGGCGCTGTATCCGGGCGCGCCGGTGGCGGTGCTGCATGCCAGCGCCGATGGCCAATGGTTGTTCGTGGTCGCCGGCAACTATGCCGCATGGCTGCAGGCCGACCACGTCGCGTTCGGCGCGCGCGAGACGGTGCTCGACTACGCACAGCGCCAGCCGCGCCTCATCGTCACCGGCGCAAGCGCGCGCACCGCATTCACCCCGGAGCAGCCGGCGCTGTCCTCACTGGCGCTGGACATGGGCGTCAGCGTGCCGCTGCTCGACTGGCCGCCGGACCAGCCGGTCAACGGCCAGCTGCCGATCGCCGCACGCGTGGTGCAGCTGCCGGTGCGCGCCGCCGATGGCGCGCTGCAGCTGCTCCCGGCGCTGCTGCCGCGCAGCGCCGACGCCGCCACCGCGCCGCTGCCAGCCACCCGTGCCAACCTGCTGCGCCAGGCCTTCAAGTTCCTCGGCGAGCGCTATGGCTGGGGCAACCGCTACGACGCGCGCGACTGCAGCGGCTTCGTCTCCGACGTCTACCGCAGCCTCGGCATCGTGCTGCCGCGCAATACCGGCGACCAGGCACGCTCGCCGCTGCTGCAACCGGTCGACTACCGCGCCGACGCGCCGCGCGCGCAGCGCGAACAGGCGCTGGCCGCGCTGCGCGCCGGCGACCTGGTCTACATCCCCGGCCACGTGATGATGGTGATCGGACACGAGCACGGCCACACCTGGGTGATCCACGACGTGCAGGGCGCCGGCTACCGCGACGCTGCCGGCCAGCTGCAGCGCGCGCTGCTCAACGGCGTGTCGGTGACGCCGCTGGAGCCGCTGCTGCTGGGCGACGGCACACCGTTCATCGACCACATCACCCGCATCCAGCGCATTCCTTCGCAAGGTTCCCGATGA	MTCCRLLLLLSLLALPGFAAADSARAPFQLEEVHLQAEHWIDRLPHRDRPLLSAAQVSAFNAALLREDASMHDLAALPGQFSGAQVRSRIAALSARPTRTLYDAHGTQLDPVRLDALQQSLALDAIAAEVAPRYALVVQRADLRTFPTTLQVFSSRDDHDIDRFQESALYPGAPVAVLHASADGQWLFVVAGNYAAWLQADHVAFGARETVLDYAQRQPRLIVTGASARTAFTPEQPALSSLALDMGVSVPLLDWPPDQPVNGQLPIAARVVQLPVRAADGALQLLPALLPRSADAATAPLPATRANLLRQAFKFLGERYGWGNRYDARDCSGFVSDVYRSLGIVLPRNTGDQARSPLLQPVDYRADAPRAQREQALAALRAGDLVYIPGHVMMVIGHEHGHTWVIHDVQGAGYRDAAGQLQRALLNGVSVTPLEPLLLGDGTPFIDHITRIQRIPSQGSR				NA	NA	NA	NA	NA
BMS020_08369	2877	btuB_31		Vitamin B12 transporter BtuB	ATGCCTGTCGTGCCTTCGACGATCACGCCCCATCGCCTTGCCGCCGCGCTGCTGTTCGCGCTGGCCAGCCCCGCCGTCGCGCTGGCGCAGTCAGACCCGCAAACGCCGGATGCGGCAGCGGGCGATGACGCGACCACCACGCTCGATCGCGTCGCGGTAACCGGAAGCCGCATCAAGCGCACCGACATCGAGACCGAGCTGCCGATCACGGTGCTGAGCCGGCAGCAGATCGATGCGGTCGGGATCAGCTCGGCCGAGCAGCTGATGATGTATCTCAACATCGCCGGCAACGGCTCGGACAACCTGGCCAGCAATGGCGGCATCGTCTCCGGGGTGGACCAGCGCGGCAACAACGGCGTGTCCTCGGCGAACCTGCGCGGCCAGGGCGCCGACGCGACGCTGGTGCTGCTCAACGGGCGCCGGGTCGCCGCGCACGGTCTCAAGGGGCGCGTGGTCGACCTCAACTCCATTCCGTTCGCGGCGATCGAGCGGGTCGAGGTGCTGCGCGACGGCGCCTCGGCGATCTACGGCACCGATGCGATCGGCGGCGTGATCAATTTCATCACCAAGACCAATTACCAGGGCATCTCGGGCACCGGCTACGTCGACACCACCGAAGCCGGTGGCGGCAATACCTACCGCGGCAGCGTGCTGGTCGGCGGCGGCGACCTGGACCACGACCGCTGGAACGCGTTCGCGTCGCTGAGCTGGAGCAAGGCCGAGATCCTGCGCGGCACCGACCGCGATTTCTCCAACGGTTTCCAGGCCAGCCGCGGCCTGTCGCCGGATACGCGCGGCACGCCGTACGCGACGGTCGCCAACCGCGCCGGCTCGCTGATCGGCAATGGCGTCGTCGATCCGGCCGACGGCTCGACCCAGCAGTACATCAACACCCTCAACCTGCCCGGCGCGTCCGGCTGCGCCAGCGGCAGCGACATGATGGGGCCGTACGACTACCAGATGTGGGGCGTGGCCAGTGCCCGCTACGCGTGTTCCTACGACTACCCGGCCGCGGCGGTGATCCAGCAGCCGCTGGAGAGCAAGGACCTGGTCGCGCGCGCGACCTTCAAGATTTCCGACCGCCACCAGGCCTACGTGGAGTTCGTCGGCTCCGAGGTCGACGCGCGCAAGAGCTTCGAGCCCTACCAGATCTCGCCGGGCAGCACCTTCGATTCCAGCACCTGGTACCCGAGCACCGGCGAAGCCTACGACGCGATCTACGATGCGCTGGCCGACTACTTCGGCGCCAGCCAGCTCACCTACGGGGCGCCGATCGCCTACCGCTGGCGCTGTACCGCCTGCGGTCCGCGCCAGATCGCCACCAACACCAAGTCCTACCGGGTGCTGCTTGGCTTCGATGGCCAGCTCGGCGACTGGGACTACACCGCCGGCCTGTCGCGCGCATCGAGCAAGTCGACCTCGACGCTGGAAGGCGGCTACTACTACACCAGCAAGCTCAAGGCGGTGCTCGGCAGCGGCCTGCTCAATCCGTTCCTGCTCCCGGGTGAAGCGCAGTCGGCCGAGGCGATGGAGGCGCTGGCCGCCGCGTCGGCGACCGGTGTCGAGCTGTATGGCGGCACCTCGACCACCACCACGCTCGATGCCAGCGTCTCCGGCGGGCTGGGTTTCAACCTGCCCGGCGGCGAGGCGCAGCTGGCCACCGGCATCAGCATGAGTCGCGACGAATACGAGTTCGGCGGCAACGAAGCGGCCGAAACCGACGGCATCTACCTGGCGCCGTTCGACAACACCAACATCCTCGACAAGGTCAGCCGCGATACCGGCGCGGTGTTCGCCGAGCTGTACCTGCCGCTGCTGGACACGCTCGACGTCACCCTGGCCGGCCGCTACGACCACTATGAGGGCTTCGGTGGTACCACCAACCCGAAGTTCTCCTTCAAGTGGCAGCCGTTCGACGCGCTGGCGTTCCGTGGTGCCTACAGCACCGGCTTCAAGGTGCCGACCTTCAACCAGCTGTATTACGGCGTGTCCGAAAGCCCGTACACCGGCCTGGACATCGCCGACCCGGCGACCTGTCCCGGCGGCGTCGCCAATTCCAGCACGCCAGGCTGCGCGGCGATCCAGCCGAACCTGATCACCGGCGGCAAGACCGACCTCAAGCCGGAGACTTCGCGGCAGAAGAGCGTGGGCGTGGTCGTCGCGCCGGCCGAGTGGTTCAACGTCAGCGTCGACTGGTGGGAGATCGAACGCGAGAACACCATCCGTGCCGGCGTCGACATCGACACGCTGCTGGAGAACTACGACGAGTTCTCGGCCAATTTCATCCGTGATGCCAGCGGCCAGGTGGTCGCGATCGACCAGCGCTACATCAACTCCGGCGGCAGCCTGATGCGCGGCATCGAGCTGGACGCCAACCTGCTGTTCAACGACGTGCTCGGCGGCGACTGGATGGTGCACCTCAACGGCGCCTACCTGGATACCTACAAGACCAAGGACCTGAGCAGTCTGCCGTACTCGGAGAACCTGGTCGGCGAATACGTGCGCTACTACAGCCTGCCGATCCGCTGGAAGCACACGCTCGGGGTCAGCTACCACCGCGGCGACTGGACCCACACGCTGACCCAGATCTATCGAGCCGGCTACAAGGACGAGGAGCCGGTCAGCGTGCAGAACGGCAGCTACGTCCCGGCCGACTGGGATCCGGACGTGGACAGCTACACCACCTACAATTACAGCGTGAACTACCGCGGCTTCTCCAAGCTCAACCTGACGTTCGGGATCAAGAACCTGCTCGACCAGGATCCGTCGTTCACCGCGCACATGAACGACTACGCCGCCGGTGCCGGCTGGGAGCCGCGTGTGGCCGACCCGCGCGGGCGTTCCTACACCCTGCTGGCCGAGTACAAGTTCAAGTAA	MPVVPSTITPHRLAAALLFALASPAVALAQSDPQTPDAAAGDDATTTLDRVAVTGSRIKRTDIETELPITVLSRQQIDAVGISSAEQLMMYLNIAGNGSDNLASNGGIVSGVDQRGNNGVSSANLRGQGADATLVLLNGRRVAAHGLKGRVVDLNSIPFAAIERVEVLRDGASAIYGTDAIGGVINFITKTNYQGISGTGYVDTTEAGGGNTYRGSVLVGGGDLDHDRWNAFASLSWSKAEILRGTDRDFSNGFQASRGLSPDTRGTPYATVANRAGSLIGNGVVDPADGSTQQYINTLNLPGASGCASGSDMMGPYDYQMWGVASARYACSYDYPAAAVIQQPLESKDLVARATFKISDRHQAYVEFVGSEVDARKSFEPYQISPGSTFDSSTWYPSTGEAYDAIYDALADYFGASQLTYGAPIAYRWRCTACGPRQIATNTKSYRVLLGFDGQLGDWDYTAGLSRASSKSTSTLEGGYYYTSKLKAVLGSGLLNPFLLPGEAQSAEAMEALAAASATGVELYGGTSTTTTLDASVSGGLGFNLPGGEAQLATGISMSRDEYEFGGNEAAETDGIYLAPFDNTNILDKVSRDTGAVFAELYLPLLDTLDVTLAGRYDHYEGFGGTTNPKFSFKWQPFDALAFRGAYSTGFKVPTFNQLYYGVSESPYTGLDIADPATCPGGVANSSTPGCAAIQPNLITGGKTDLKPETSRQKSVGVVVAPAEWFNVSVDWWEIERENTIRAGVDIDTLLENYDEFSANFIRDASGQVVAIDQRYINSGGSLMRGIELDANLLFNDVLGGDWMVHLNGAYLDTYKTKDLSSLPYSENLVGEYVRYYSLPIRWKHTLGVSYHRGDWTHTLTQIYRAGYKDEEPVSVQNGSYVPADWDPDVDSYTTYNYSVNYRGFSKLNLTFGIKNLLDQDPSFTAHMNDYAAGAGWEPRVADPRGRSYTLLAEYKFK	PGPT0003790_1811	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_08370	1800	copA_2		Copper resistance protein A	GTGCGCGACCTGGAGTACTCCTTGTATCCCCTCCATCCTCCCGCGCGGGCCGGCGCGCCCGCCCTGCCCGGCCGCCGCCGCTTCGTCCAAGGCCTCGCCGCCGGCGGCATCGCGCTCGGCACCGGGCTGTGGCGCGTCCCGACGCTGGCCGCCGGCCAGCGTGCCGTGCCGGAGCTGCGCGCCACCGAGCTGGCGCTGAGCATCGGCCGGCTGCCGGTCGATTTCACCGGTCGCGCGCGCCAGGCGATCACCGTCAACGGTTCGCTGCCGGCGCCCACGCTGCGCTGGCGCGAGGGCGATACGGTCAGCGTGCGCGTCGCCAACGCCCTGGCCGACCAGCCCAGCTCGATCCACTGGCACGGCATCGTGCTGCCGGCCAACATGGACGGCGTGCCCGGCATGAGCTTCGACGGCATCGCCCCGGGCGAGAGCTGGCACTACCGCTTCCAGCTGCGCCAGGCCGGCACCTACTGGTACCACAGCCACTCGATGTTCCAGGAGCAGTCCGGGCTGTATGGCGCGCTGATCATCGACCCGCTGGAGCCGCCGCCGTACCGCGTCGACCGCGAGCACGTGCTGCTGTTCTCGGACTGGACCGACCTGGAGCCGGCAGCGCTGTTCCGCCGCCTCAAGCGCATGTCCGACTACGACAACCTGCACAAGCGCACCGTCGGCGATGCCCTGCGCGACATCCGCCGCGACGGCCTGCGCGCGACGCTGGCCGACCGCGGCATGTGGGGGCGGATGCGGATGACGCCGACCGACCTGTCCGACGTCAACGCCTACACCTACACCTACCTGCTCAACGGCACCACGCCGGCCGGCAACTGGACCGGGTTGTTCCAGCCCGGCGAGAAGGTGCTGCTGCGGCTGATCAACGGCTCGGCGATGACCTATTTCGACCTGCGCATCCCCGGCCTGAAGATGACCGTGGTGGCCGCCGACGGCCAGTACGTGCATCCGGTGACGGTCGAGGAGCTGCGCATCGCCACCGCCGAGACCTTCGACGTGATCGTCGAACCGAGCGGGCAGGACGCGTTCACCATCTTCGCCCAGGACATGGGCCGCAGCGGCCATGCCTGCGGCACGCTGGCCGTGCGCCACGGCCTGCGCGCGCCGGTGCCCGCGGTGGATCCGCGGCCATTGCTGACGATGGCCGACATGGGCCACGGCATGGCCGGCATGGCGCATGGCGGCGACCATGCGGGAATGGACCATGCCGCGATGGGTCATGCGATGCCTGGCATGGACCACGCGACCGCGACCACGCCGGCGGCGCACACGGCGAGCGAACGCGCCAGTCCGCTGGTGGACATGCGCAGCGATGCCACCGCGGCGCGCCTGGACGATCCAGGCATCGGCCTGCGCGACAACGGCCGGCGCGTACTCGCCTACGCCGACCTGCGCAGCCTTGCCGGCGATCCCGACGGCCGCGAGCCGGGGCGCGAGATCACCCTGCACCTGACCGGCCACATGGAGAAGTTCGCCTGGTCGTTCGACGGGCTGCGCTTCGCCGATGCCGAGCCGCTGCGCTTCAACTACGGCGAACGCCTGCGCGTGGTGCTGGTCAACGACACGATGATGTCGCATCCGATCCATCTGCATGGCATGTGGAGCGACCTGGAGGACGCCGACGGCGCGTTCCAGGTCCGCAAGCACACCATCGACATGCCGCCGGGCACCCGCCGCAGCTACCGCGTGCGCGCCGACGCGCTTGGACGCTGGGCCTGGCACTGCCACCTGCTCTACCACATGGAAGCCGGGATGATGCGCGAGGTGCGCGTGGAGGAATCGGCATGA	MRDLEYSLYPLHPPARAGAPALPGRRRFVQGLAAGGIALGTGLWRVPTLAAGQRAVPELRATELALSIGRLPVDFTGRARQAITVNGSLPAPTLRWREGDTVSVRVANALADQPSSIHWHGIVLPANMDGVPGMSFDGIAPGESWHYRFQLRQAGTYWYHSHSMFQEQSGLYGALIIDPLEPPPYRVDREHVLLFSDWTDLEPAALFRRLKRMSDYDNLHKRTVGDALRDIRRDGLRATLADRGMWGRMRMTPTDLSDVNAYTYTYLLNGTTPAGNWTGLFQPGEKVLLRLINGSAMTYFDLRIPGLKMTVVAADGQYVHPVTVEELRIATAETFDVIVEPSGQDAFTIFAQDMGRSGHACGTLAVRHGLRAPVPAVDPRPLLTMADMGHGMAGMAHGGDHAGMDHAAMGHAMPGMDHATATTPAAHTASERASPLVDMRSDATAARLDDPGIGLRDNGRRVLAYADLRSLAGDPDGREPGREITLHLTGHMEKFAWSFDGLRFADAEPLRFNYGERLRVVLVNDTMMSHPIHLHGMWSDLEDADGAFQVRKHTIDMPPGTRRSYRVRADALGRWAWHCHLLYHMEAGMMREVRVEESA	PGPT0004106_144	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004106-pcoA-NA	NA	NA
BMS020_08371	1026	copB		Copper resistance protein B	ATGAAGAACACCGCCCTGTTCACCGCGCTGCTGGCGCTGGCGCCTCCCGCGTTCGCGCAGCATCACGCGCACCAGCACGACGCCGCGACCACGTCGGCGACGGCAGCGGATGCGGATGCGGATGCGTCCACGAGTCCCGACGACACTGCCGGCATGAACCACGCAGCGATGGACCATGCGGCGATGGACCATGCGGCGATGGATCACACCGGCATGGATCACATGCAGATGGAAGGGGCCGCCGCCGACCACGCGCAGATGGACCATGCCGCGATGGACCACGGCACCATGGACCACGCATCAGCCGCCGCGCCAGCCGCCTACACCCCGGTGCCCACGCCCACCGCGGCCGACCGTGCCGCCGCATTCCCCGATCTGGCCAGCCACGCGATGCATGCACCCAGCCTGCAGCGCTACGTGCTGCTCGACCGGCTGGAAGGCTGGAATCGCGATGCCGGCAACGGCCAGGCCTGGGAGGCCAGCGCCTGGTTCGGCGGCGACATCGACCGCCTCTGGCTGCGCAGCGAGGGCGAACGCACGCACGGGCGCACCAGCTCGGCGGACGTGGAGGCGCTGTACGGCCATGCGATCTCGCCGTGGTGGGACGTGCTGGCCGGGGTGCGCCAGGAACTGGGCCACGACCACCGCAGCTGGGCCGCGCTGGGCCTGCAAGGGCAGGCGCCGTACAAGTTCGAAGTGGCCGCCACGCTGTATCTCGGCGCAGGCGGCGCGAGCGCGCTGCGCCTGGAGAGCGAGTACGACGTATTGCTGAGCAACCGGCTGATCCTGCAACCGCGCATCGAGGGCACGCTGCTGCTCAGTGACGACGACCATCGGCAGCTGGACGCCGGCGCGGAATCGGTCGAAGCCGGGCTGCGCCTGCGCTACGAGATCACCCGCCGCATCGCGCCGTACATCGGCTGGAGCCACCAGCGCCGGTTCGGCGCTGCCGCGCGGCGCGCCGGCAGCGACGACGAACCCGCGCGCGACAGCCACATCGTCGCCGGCCTGCGGATCTGGTTCTGA	MKNTALFTALLALAPPAFAQHHAHQHDAATTSATAADADADASTSPDDTAGMNHAAMDHAAMDHAAMDHTGMDHMQMEGAAADHAQMDHAAMDHGTMDHASAAAPAAYTPVPTPTAADRAAAFPDLASHAMHAPSLQRYVLLDRLEGWNRDAGNGQAWEASAWFGGDIDRLWLRSEGERTHGRTSSADVEALYGHAISPWWDVLAGVRQELGHDHRSWAALGLQGQAPYKFEVAATLYLGAGGASALRLESEYDVLLSNRLILQPRIEGTLLLSDDDHRQLDAGAESVEAGLRLRYEITRRIAPYIGWSHQRRFGAAARRAGSDDEPARDSHIVAGLRIWF				NA	NA	NA	NA	NA
BMS020_08372	885	hcaR_5		Hca operon transcriptional activator HcaR	ATGATCGACATCCGCCAGCTGCGTTATTTCGTTGCCCTGGCCGAGACCCTGCACTTCGGCCGCGCGGCCGAGCGCCTGCACGTGACCCAGCCGCCGCTGAGCCGGCAGATCGCCGCGCTGGAGCGCGACCTGGGCGTGCGCCTGGTCGAGCGGCATTCGCGCCAGGCGCGGCTGACCGCAGCCGGCCAGCGCTTCCACGAAGACGCCAAGGCGGTGCTGGCGGCGCTCGACCAGGCCTGCCGCGGCGCGCAGCTGGTCGATGCCGGCGAGCTGGGCGAGCTGCGCATCGGCTTCATGATGCATGCCGCGCACAGCACCGTGCCGCCGCTGGCGCGGCGGTTCGTCGCCGCGTTTCCACAGGTGCGGCTGCAGCTGCGCGAGGCGTTGCCGTTGGCGCTGGTGGAGAGCGTGCTGCGTGGCGACAGCGACGCCGGCATCGGTTTCAGTCCGGGTGTGCGCCGCGGGCTGGAAAGCCGGGTGATCCACACCGAACCGCTGTGCGTGGCGTTGCCGGCCGGGCACCCGCTGGCCGGGCAGGCGGTGCTGGCGATCGCGGCGCTGGCCGAGGCGCCGCTGATCGTCGCCTCGGCCGATGTGGTGCCGACCCTGCGCGAGGCGATCGACGGCTGTTACCGCGCGGCCGGCCTGGTGCCGCAGATCCGACTGGAAGCGCAGCTGCAGCAGAGCATCGTCAGCCTCGTCGGCGAGGGCCTCGGGGTAGCGCTGGTGCCGGCGTCGATGCGCCGGCTGGGCATGCCGGGCGTGGTGTTCGCCGAGCTGGAACAGGCCCCATCGGTGCAGCAGGTGATCTTCTGGCGGCCGGACAACCGCAACCCGGCGCTGGCCCGCCTGCTCGAGGTCGCCGGGGTGGCGGCCGCGGCCTGA	MIDIRQLRYFVALAETLHFGRAAERLHVTQPPLSRQIAALERDLGVRLVERHSRQARLTAAGQRFHEDAKAVLAALDQACRGAQLVDAGELGELRIGFMMHAAHSTVPPLARRFVAAFPQVRLQLREALPLALVESVLRGDSDAGIGFSPGVRRGLESRVIHTEPLCVALPAGHPLAGQAVLAIAALAEAPLIVASADVVPTLREAIDGCYRAAGLVPQIRLEAQLQQSIVSLVGEGLGVALVPASMRRLGMPGVVFAELEQAPSVQQVIFWRPDNRNPALARLLEVAGVAAAA				NA	NA	NA	NA	NA
BMS020_08373	945			hypothetical protein	ATGCTGTCGCTGCTGGCGATCGTGCTGCCGATCTTCGCCCTGATCCTCGCCGGCTGGCTGGCCCGCCGGCGCGGCGCACTGGGCCCGCACGCGACCAGCGAGCTCAACCGCTTCGTGGTCTACCTGGCATTGCCGGCGCTGCTGTTCGACGTGGTCGCCAATGCCGACTGGCACGCGCTGTGGCAGCCCGGCTTCATCGCCGCCTTCGGCCTCGGCGCCGGTGTGGTGTTCGTCGCTACCGTGCTGCTGCGGCTGCGTCGCCCACGGCATATCGCCGATGCCGCGATCGACGGGCTCAACGCCGCCTACGCCAACACCGGCTTCGTCGGCTTCCCGCTCGCCCTGGCGGTGCTGGGCCAGTCGGCGCTGCCGGCCACGCTGGTCGCCACCATCATCACCGTCTGCGTGCTGTTTGCGGTGGCGCTGGTGCTGATCGAACTGGGCGTGCAGGCCGAACGCCATCCGGTGCGGATGCTGCGCAAGGTCGGCGGCTCGCTGGCACGCAACCCGTTGCTGCTGGCGCCGGCGCTGGGCGTGCTGGTGCTGTGCACCGGGCTGCACGTACCCGCGCCGGTGGAACAGTTCCTCACGCTGCTCGGCAGCGCCGCCTCGCCATGCGCGCTGGTCGCGCTCGGCCTGTTCCTGGCCGAGAAGCGTCCCAAGCAGGCACGCAGCGACGACACCCTCGGCGCCGCCGCGCTGCTGGTCGCGCTCAAGCTGCTGGTGCAGCCGCTGCTGACCTGGCTGCTGGCGGTGCACGTGTTCACGCTCGCACCGCCGCTGGTGCATGCCGCGGTGCTTCTGGCGGCGCTGCCAACCGGCACCGGGCCGTTCATGCTGGCCGAGTTCTACCGTCGCGAGGCCAGCCTGACCTCGGCTGTGGTGCTGGCCTCTACGATCGCCTCGCTGCTGACCATCACCGCGTACCTTGCGATCGCGCTGTAG	MLSLLAIVLPIFALILAGWLARRRGALGPHATSELNRFVVYLALPALLFDVVANADWHALWQPGFIAAFGLGAGVVFVATVLLRLRRPRHIADAAIDGLNAAYANTGFVGFPLALAVLGQSALPATLVATIITVCVLFAVALVLIELGVQAERHPVRMLRKVGGSLARNPLLLAPALGVLVLCTGLHVPAPVEQFLTLLGSAASPCALVALGLFLAEKRPKQARSDDTLGAAALLVALKLLVQPLLTWLLAVHVFTLAPPLVHAAVLLAALPTGTGPFMLAEFYRREASLTSAVVLASTIASLLTITAYLAIAL	PGPT0001720_1656	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0001720-mdcF-K13936	NA	NA
BMS020_08374	528	gloA_2		Lactoylglutathione lyase	ATGTCACTGCACTCCATCCAGCACCAGCCCGGCGTCGCGCCGCAGCCGCCGGCCGAAACCACCGGCTTCGTGTTCAATCACACCATGCTGCGGGTCAAGGACATCGCCGCGTCGCTGGACTTCTACACCCGCGTGCTCGGCTTCCGCCTGATCGACCAGCGCGATTTCCCCGAGGCGCAGTTCAGCCTGTACTTCCTCGCCCTGCTGCCGGCCGGCACCGCCATTCCGGAAGGCGACGACGCGCGCCGGCTGTGGATGGCCGGCATCCCCGGCGTGCTCGAGCTGACCCACAACCACGGCACCGAAAGCCAGGACGGACCGGTCTACCACGACGGCAACAGCGACCCGCGCGGCTTCGGCCACATCTGCGTGTCGGTGCCGGACATCCGCGCCGCGTGCGCGCGCTTCGATGCGCTGCAGGTGCCCTACCAGAAGCGCCTGGAAGACGGCCGCATGAAGCACCTGGCCTTCATCAAGGACCCGGATGGCTACTGGGTCGAGATCATCGCCAACCAGCCGATCGGCTGA	MSLHSIQHQPGVAPQPPAETTGFVFNHTMLRVKDIAASLDFYTRVLGFRLIDQRDFPEAQFSLYFLALLPAGTAIPEGDDARRLWMAGIPGVLELTHNHGTESQDGPVYHDGNSDPRGFGHICVSVPDIRAACARFDALQVPYQKRLEDGRMKHLAFIKDPDGYWVEIIANQPIG	PGPT0013300_1129	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
BMS020_08375	906			hypothetical protein	ATGAAGCTGTTCAGGACGATGCCGCTGGCATTGGCGGTCGCGGCCGTTGCCGCATGTACCCCGCAAACCCCGGATGCCAAGGAAGCGCAGGCGACGACGCCGGCCCCGGCCTCCGCCACGCCCCAGGAAAAGGATGTCACCCCGATGCCAGATGCAAGCCATACCCCGACCGCGCAGTTGCAGCCGCCACGTCCGGACAGCGTGCTGTACTTCATCAGCGACAAGGACGGCGACGGCGCCACCAGCTATGAAACCGTCAACGGCAGCTGGATCACGTTCTGGTATGGGCTGCAGTTCGATCTCGGCGGCAAGCATTACTACACCGGCTTCGCCTGGGAGACGCCGGAGCTGTTTGGCGAGGACCTGAAGCACCACGATCCCGCGCCCGGCACCAAGGTGACGCTGGCCCACGCGACCTTCATTGCCAATCCGCCCGGCAGCAAGGAGCCGTGGAAGTGGGAAGGCAGCGAACCCTACATCGGCGAGTTCGGCGGCAACGAACGCGGCAACGCGCTCGACACCGACCGCAAGCCGCAGACCTGGAACACGCCGTCGGGCGGCATGTTGCTCGCGGTGCCGACCTGGTACCTGGCCTCGGGGGTGAAGATGCGCACGATCGAAGTGCTGCTGTTCAACCCGCACGAACTGCTCAAGACCGACGACCACCGCTGGCGCTACCTGGCCACGCTCGATGCAGGCTCGGACAACGACGCCGACTGCGGCCCGGAGTCCGCCGCGGCAATCCCGTGCCGCGACGTCACCGGCACGCTGGCGTTCCTCGCGCACGCCGGCGAAGCGCTGCCGGCCCTGCAGGTGACGCTGCCGGCCGCTTCCGGCCACGCAGACAACGTCATCGAATACCGGTACGATGCCGCCTCCAAAACCTATCGGTCGACCTCCCGGTAG	MKLFRTMPLALAVAAVAACTPQTPDAKEAQATTPAPASATPQEKDVTPMPDASHTPTAQLQPPRPDSVLYFISDKDGDGATSYETVNGSWITFWYGLQFDLGGKHYYTGFAWETPELFGEDLKHHDPAPGTKVTLAHATFIANPPGSKEPWKWEGSEPYIGEFGGNERGNALDTDRKPQTWNTPSGGMLLAVPTWYLASGVKMRTIEVLLFNPHELLKTDDHRWRYLATLDAGSDNDADCGPESAAAIPCRDVTGTLAFLAHAGEALPALQVTLPAASGHADNVIEYRYDAASKTYRSTSR				NA	NA	NA	NA	NA
BMS020_08376	1866			hypothetical protein	ATGGCACGTGACTACACCCGGGCAGAAGTACTGGACATCATCGACCGCGAAGCGCAGGAGCGTGGCATCCCACGCGAGGATTTCCTGCGTTTCGCCTACATCGAGACCGGCGGCAAATTCGACGAACAGGCCAGCCGCGGCGAAGCCGGGGCCAAGGGCCTGTTCCAGTTCGTCCCCGCCACCGCCGAGCATTACGGCATCCGCGGCCGTGAACTCGATGCGGTCGCCAACACCGATGCCGCCGCACAGCTGTACCAGGACAACCGCCGCATCCTGGTCAACCGCCACGGCAGCAATGGCATGCCCTACCTGTCCGGCAAGGACCAGCCCGACGGGCTGGACATGTACCTGGCCCACCAGCAAGGCGCCACCGGCTACCGCTCGATCCAGACCGCGATCGCCACCGGCCAGTTCGAACGCGACGGCACCAAGGCCAACATCCTCAACAACGTTTCCTCGCGCGACATCCAGTCGGTCACCGGCGTGCGCTACGACGACTTCGCCAAGATGGGCCCGCAGGACATGGCGCGCACCTTCAGCCACTACTGGGAAAGCAAGTTCGAGCAGATCCGCATCCCGGAGAAGAACATCGGCCCGGCCAGCGTCGAGCAGAAGCAGGCGCAGCTCAGCGAGCAGGCCAAGGCCAGCGCACCGGCCAAGGCCGAACCGCAGGCCGGCATCACCCTGGATGCGCCGTACGCGCTCACCGCGAAGTACGACCATGTGAAGTACGCGATGTACGGCAAGTATCCGGGCGTGGACGGCAAGCATCCTGAGCAGGGCTACGTCGATTGTTCCGGCTGGGTGTCGACCCTGCAGAACGCGTCGATGGAAGAGGTCAACCGCAAGGCCGGGCACCAGGTGTTCGGCAAGCAGGACATGTTCAAGCCTGCCTACGACGGCGCGGCGATGATCGTCGAGAAGGCCAGCCAGAATTCCGGCACCCTGCTCGAGGGCAGAGCGGTCACTGCCGCCGCGCTCAAGGAAGGCATGATCATCGGCGAGGACAACGGCCCAACCAAATGGGACGGTGGCCGTTTCAAAGGCATCGACCACATCACCATGGTGGTGCGCGACCCGAACGACGGCCAGCTCAAGATCAGCCAGTCGCGTGGCGGTGAAGGTGTCGAGCTCAGCTCGCTGGAAAACTACCTCGAACGCAAGCAGGCCAACGGCGTGAAGCTCTACGCCACCGACCCGCTGGCCAAGGCGCGCGACCTGCTGCAGGACCGCGAGCAGGTGCAGTCGCAGGACAAGCACACGGCCGAGGCGCCGGCGCAGGACGCGCGCCCGGCCACGCTGCGCGAGAAGGACAAGGGCGCGCAGGTGGAAGCGCTGCAGGACACGCTCAACCGGCTCGGCTATCGCGACGCGCAGGGCAAGCCGCTGGAGGCCGATGCGCACTTCGGCGCACGCACCAGCGAGGCGCTGAAAGCCTTCCAGCGTGCGCACGGACTGGAAGCCGACGGCATCGCCGGTCGCAACACCCATGACGCACTGGAAAAGGCCACGCGCGCGCCACTGCTGTCCGATCCGGCCAACCCGCAGAACGGGCTGTTCAAGAGTGGCCGCGAGCAACTCGAGAAACAGGGCGTGCCGGCCGACCAGCTCGACAACGCTGCCGGCAAGCTGGCCCAGGGCGCCGCAGCCGCCGGTTTGAATCGCATCGACCACGTGCTGCCAGGCCGCGATGGCGGCATGTTCGCGGTACAGGGCGAGCTGAGCGACCCGGCGATGCGTCGCGCCTTCGTCGACCGCGAGGCGATGCAGCAGCCGATCGAGCAGAGCAGCCAGCAGGCGCGCCAGGCGCAGACCCAGGCGCAGGACACGCAACAGCAGGAACGCGTCGCCGCCCGCGCGATGTGA	MARDYTRAEVLDIIDREAQERGIPREDFLRFAYIETGGKFDEQASRGEAGAKGLFQFVPATAEHYGIRGRELDAVANTDAAAQLYQDNRRILVNRHGSNGMPYLSGKDQPDGLDMYLAHQQGATGYRSIQTAIATGQFERDGTKANILNNVSSRDIQSVTGVRYDDFAKMGPQDMARTFSHYWESKFEQIRIPEKNIGPASVEQKQAQLSEQAKASAPAKAEPQAGITLDAPYALTAKYDHVKYAMYGKYPGVDGKHPEQGYVDCSGWVSTLQNASMEEVNRKAGHQVFGKQDMFKPAYDGAAMIVEKASQNSGTLLEGRAVTAAALKEGMIIGEDNGPTKWDGGRFKGIDHITMVVRDPNDGQLKISQSRGGEGVELSSLENYLERKQANGVKLYATDPLAKARDLLQDREQVQSQDKHTAEAPAQDARPATLREKDKGAQVEALQDTLNRLGYRDAQGKPLEADAHFGARTSEALKAFQRAHGLEADGIAGRNTHDALEKATRAPLLSDPANPQNGLFKSGREQLEKQGVPADQLDNAAGKLAQGAAAAGLNRIDHVLPGRDGGMFAVQGELSDPAMRRAFVDREAMQQPIEQSSQQARQAQTQAQDTQQQERVAARAM				NA	NA	NA	NA	NA
BMS020_08377	1833	glmS_4	COG0449	Glutamine--fructose-6-phosphate aminotransferase [isomerizing]	ATGTGCGGTATCGTCGGCGCGATCGCCGGTCGCGATGTGGTTCCGGTCCTGATCGAAGGCCTCAAGCGCCTGGAATACCGAGGGTATGACTCATCCGGCATCGCCGTGCTCGATGGCGGCCAGGTGCGCCGCGTGCGCCGTACCGGCCGCGTCGCCGAGATGGCCGGCGCCGCCGAGGCCGAGCGCTTCGCCGCGACGATCGGCATCGGCCATACCCGCTGGGCCACCCACGGCGGGGTCACCGAAGCCAACGCCCACCCGCACCTCAGCGACGGCGTGGTGCTGGTGCACAACGGCATCATCGAGAACCACGAGGAGCAGCGCGAGAAGCTGCGCGCGCTCGGCTACGGCTTCGAGTCGCAGACCGATACCGAGGTGATCGCCCACCTGATCCATCATCACCTGCGCGTGCCCGGCACCGACCTGCTGGTGGCGCTGCAGCGCACGGTGAAGGAACTGACCGGCGCCTACGCGCTGGCGGTGATGAGCCAGGCCGAGCCGGAGCGCTTCGTCTGCGCGCGGATGGGCTGCCCGCTGCTGGTGGGTGTCGGCGAGGGCGAGAACTTCGTCGCCTCCGATGTGTCGGCGGTGGTGCAGGCCACGCGCCAGGTGATCTTCCTCGAGGAGGGCGACACCGCCGAGATCCGCCGCCACGGCGTGCGCGTGTTCGACGCCAACGACCAGCCGGTGACGCGCCCGCTGCACCTGTCCGACGTGTCGTTGGCCTCGCTGGAGCTGGGCCCCTACCGGCACTTCATGCAGAAGGAGATCCACGAGCAGCCGCGCGCGATCGCCGACACGCTCGAAGCGGCGATCGATGCCGGCGGCTTCCCGGCCAGCCTGTTCGGCGCGAACGCCGAGGCGGTGCTGCGCGACATCACCGGCGTGCAGATCCTGGCCTGCGGCACCAGCTATTACGCTGGGCTGACCGCGCGCTACTGGATCGAGTCGATCGCCAACCTGCCGTGCAGCGTGGAGATCGCCAGCGAGTACCGCTACCGCGCCGCCTACGCCGACCCGCGCCACCTGGTGGTGACCATTTCCCAGTCCGGCGAGACGCTGGATACGATGGAGGCGCTCAAGTACGCCAAGTCGCTCGGCCACCAGCACACGTTGTCGATCTGCAACGTGCCCGAGAGCGCGATCCCGCGCGCCAGTGAACTGGTCTGCTACACCCGCGCCGGCGCCGAGATCGGCGTCGCCTCGACCAAGGCCTTCACCACGCAGCTGGCGGTGTTGTTCCAGTTGGCGGTGGTGCTGGGCAAGCTGCGCGGCCGTGTCGGCGAGGCCGATGAAGCCGGCTACCTGGAGCAGCTGCGCTTCCTGCCGGGCAGCGTGCAGCACGCCTTGAACCTGGAGCCGCAGATCCAGGCCTGGGCCGAGCGCTTCGCGCCGAAGCAGAACGCGCTGTTCCTCGGCCGCGGCCTGCACTATCCGATCGCGCTGGAAGGCGCGCTCAAGCTCAAGGAAATCTCCTACATCCACGCCGAGGCCTATCCGGCCGGCGAGCTCAAGCACGGCCCGCTGGCGCTGGTCGACGCGGCGATGCCGGTGGTGGTGATCGCGCCGAACGACAGCCTGCTGGAGAAGGTGAAGAGCAACATGCAGGAAGTGCGCGCGCGCGGCGGCGAGCTGTTCGTGTTTGCCGACCAGGACAGCAACTTCAGCGAATCCGAAGGCGTGCACGTGATCCGCACCCCGCGCCACGCTGGCGTGCTCAGCCCGATCGTGCACACGATCCCGGTGCAGCTGCTGGCCTACCACACCGCGCTGGCACGCGGCACCGACGTCGACAAGCCGCGCAACCTGGCCAAGAGCGTCACGGTGGAATGA	MCGIVGAIAGRDVVPVLIEGLKRLEYRGYDSSGIAVLDGGQVRRVRRTGRVAEMAGAAEAERFAATIGIGHTRWATHGGVTEANAHPHLSDGVVLVHNGIIENHEEQREKLRALGYGFESQTDTEVIAHLIHHHLRVPGTDLLVALQRTVKELTGAYALAVMSQAEPERFVCARMGCPLLVGVGEGENFVASDVSAVVQATRQVIFLEEGDTAEIRRHGVRVFDANDQPVTRPLHLSDVSLASLELGPYRHFMQKEIHEQPRAIADTLEAAIDAGGFPASLFGANAEAVLRDITGVQILACGTSYYAGLTARYWIESIANLPCSVEIASEYRYRAAYADPRHLVVTISQSGETLDTMEALKYAKSLGHQHTLSICNVPESAIPRASELVCYTRAGAEIGVASTKAFTTQLAVLFQLAVVLGKLRGRVGEADEAGYLEQLRFLPGSVQHALNLEPQIQAWAERFAPKQNALFLGRGLHYPIALEGALKLKEISYIHAEAYPAGELKHGPLALVDAAMPVVVIAPNDSLLEKVKSNMQEVRARGGELFVFADQDSNFSESEGVHVIRTPRHAGVLSPIVHTIPVQLLAYHTALARGTDVDKPRNLAKSVTVE	PGPT0017630_3277	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
BMS020_08378	1272	macA_2	COG0845	Macrolide export protein MacA	ATGATCCGAGACACCTCCGCCCAGGACCAGGTCCTGACCTCCCCGACCCGCGGCCTGCCCGGGCGTCGCTGGCTGTGGCCAGCCGTGGCCGGGCTGGCGCTGATCGCGGCGATCGCTTGGGCGGTCTCGGCCTGGAGCGCCGGCAGCCGCTCCTTCGACGCCTCGCGGGTACGCATCGCCGAAGTGACCCGCGGCGACCTGGTCCGCGACATCGCCGCCGACGGCCGCGTGATCGCCGCCAACAGCCCGATCCTGTACGCGATCTCTGCCGGCACCGTGACGTTGACGGTGGTCGCCGGCGACGTGGTCAAGCAGGGCCAGGAGCTGGCGGTGATCGACAGCCCCGAGCTGCGCAGCAAGCTGGCCCAGGAACAGGCCACCCTGGCCGGCCTGGAGGCCGAGTCCAGCCGCGCCGCGCTCGACGCCACGCTGGCACGCGCCGAGGCGCACAAGCTCACCGACCAGGCGCAGATCGAACGCCAGGCCGCCGCGCGCGACCTGGAGCGCTACCAGCGCGCCTTCAACGGCGGCGCGGTTGCCCAGGTCGACCTGGCCAAGGCGCAGGACACCCTGAAGAAGACCGAGATCGAGCTGGCGCACGCGCGCACCGACAGCGACATCAAGAGCCGCGGCGCCGACCTGGACGCGCGCAACAAGCGCCTGCTGGCCGACCGCCAGCGCGCGGTGGTCGAGGAAGTGCAGCGCCAGGTCGACGCGCTGACGCTGCGCGCACCGTTCGATGGCCAGGTCGGCCAGGTGCAGGCGGTGCAGCACACCCAGGTCGCCGCCAACGCGCCGGTGCTGGGCGTGGTCGACCTGAGCAAGTTCGAAGTGGAGATCAAGGTGCCGGAGAGCTTCGCCCGCGACCTGGCGATCGGCATGCCGGCGCAGCTCACCAGCGGCAGCGGCCAGCCCTACCCGGGGCAGATCTCGGCGGTGTCGCCGGAAGTGGTCAACGGCGAGGTCACCGCGCGCATCCGCTTCGTCGACAAGCAGCCGCCCGGCCTGCGCCAGAGCCAGCGGATGAGCGCGCGCGTGCTGATGGATACGCGCAGGAACGTGCTGAAGGTCGAGCGCGGCCCGTTCGTGGAGCAGTCCGGCGGCCGCTACGCCTACGTGATGGATGGCAGCGCCGCGGTGCGCCGGCCGGTGCAGCTGGGCGCCGCCAGCCTCGGCGAGGTCGAGGTGATCTCCGGCCTGCAGCCCGGCGACCGCGTGGTGGTCTCCGGCAGCGACCAGTTCGGCGAGGAACTGCGCGTGACGATCAACTGA	MIRDTSAQDQVLTSPTRGLPGRRWLWPAVAGLALIAAIAWAVSAWSAGSRSFDASRVRIAEVTRGDLVRDIAADGRVIAANSPILYAISAGTVTLTVVAGDVVKQGQELAVIDSPELRSKLAQEQATLAGLEAESSRAALDATLARAEAHKLTDQAQIERQAAARDLERYQRAFNGGAVAQVDLAKAQDTLKKTEIELAHARTDSDIKSRGADLDARNKRLLADRQRAVVEEVQRQVDALTLRAPFDGQVGQVQAVQHTQVAANAPVLGVVDLSKFEVEIKVPESFARDLAIGMPAQLTSGSGQPYPGQISAVSPEVVNGEVTARIRFVDKQPPGLRQSQRMSARVLMDTRRNVLKVERGPFVEQSGGRYAYVMDGSAAVRRPVQLGAASLGEVEVISGLQPGDRVVVSGSDQFGEELRVTIN				NA	NA	NA	NA	NA
BMS020_08379	726	yknY_2	COG1136	putative ABC transporter ATP-binding protein YknY	ATGCTCCAGATGAACGCCGTCTCCAAGGTCTTCCGCACCGAACAGGTGGAAACCCATGCGCTGCGCTCGCTCGACCTGCACGTGCGCGAGGGCGAATTCGTCGCCGTCACCGGCCCGTCGGGTTCGGGCAAGACCACCTTCCTCAACATCGCCGGGCTGCTGGAGACCTTCACCAGTGGCACCTACCTGCTCGATGGCGAGGACGTGAGCCACCTCAACGACGATGCGCGCTCGCGCCTGCGCAACCGCAAGATCGGCTTCATCTTCCAGGGCTTCAACCTGATCCCCGACCTCAACTTGTTCGACAACGTCGACGTGCCGCTGCGCTACCGCGGCATGTCGGCCAGCGAGCGCCGCCAGCGCATCGAGGAATCACTGGCCAAGGTCGGGCTCGGCTCGCGCATGAAGCACTACCCGGCCGAACTGTCTGGCGGCCAGCAGCAGCGCGCGGCGATCGCGCGGGCGCTGGCCGGCAGCCCGCGCCTGCTGCTGGCCGACGAACCGACCGGCAACCTCGACTCGCAGATGGCGCGCGGGGTGATGGAACTGATGGAGGAGATCAACGCGCAGGGCACCACCATCGTGATGGTCACCCACGACCCGGAACTGGCCGCGCGCGCGCAGCGCAACGTGCACATCGTCGATGGTCAGGCGACCGACCTGGAACGCGAGCCGGTGCTGCTGCGTCCGCGCGCGCTGGATGCGACGGCAACCACCCACGGCTGA	MLQMNAVSKVFRTEQVETHALRSLDLHVREGEFVAVTGPSGSGKTTFLNIAGLLETFTSGTYLLDGEDVSHLNDDARSRLRNRKIGFIFQGFNLIPDLNLFDNVDVPLRYRGMSASERRQRIEESLAKVGLGSRMKHYPAELSGGQQQRAAIARALAGSPRLLLADEPTGNLDSQMARGVMELMEEINAQGTTIVMVTHDPELAARAQRNVHIVDGQATDLEREPVLLRPRALDATATTHG	PGPT0013345_6862	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
BMS020_08380	1311			hypothetical protein	ATGTTCGGCTACTACGTCAAACTCGCGGCGAACAGCTTCCGCCGCAACAAGGTGCTGACCGCGCTGATGGTGCTGGCGATCGCGCTTGGCATCGGCGCCTCGATGACCACGCTGACCGTCTTCCACGTGCTGTCCGGCGACCCGATCCCGGGCAAGAGCGAGCGTCTGTTCAATGTGCGCATCGATCCGCAGCCGATGGCCAACTTCCATGAAGGCGACGAACCGGAAGGCCAGCTCACCCGCTACGACGCCGAGGCCCTGCTGCGCGAGAAGCGCGCCTACCGCCAGACCATCACCACCGGCGGCTACGGCGCGATCGAGCCGCAGAACAGCACGCTCAAGCCGTTCCAGCTGATGCTGCGCTTCGCCACCGCCGACTTCTTCCCGATGTTCGACGCACCGATGTTGCACGGGCGCAGCTGGAGCGCGGCCGACGACGAAGCGCGCGCGCGCGTGGCGGTGATCAGCAAGGCGCTGAGCGAGAAGCTGTTCGGCACCGCCGACGGCACCGGGCGCGAGGTGCGGATCGAGAAGACCGCGTTCCGGGTGATCGGCGTGATCGACGACTGGCGCCCCAGCCCGCGCTATTACGACCTGTACAACGGCAGCTACGGCAAGACCGAGGAAGTATTGCTGCCGTTCGCCACCGCGATGGACGTCAAACTGTCGCGGCGCGGCAACATGAACTGTTTCTCCGCCGATGGCTCGCCCACCGACGACGGCACCGCGCTCGAGGCCAGCTGCACCTGGCTGCAGTACTGGGTGGAACTGAAGAACGCCAGCGAAGCCGGCGACTACAAGGCCTACCTGGACAACTATTCGGCGCAGCAGCGCCAGGGCGGCCGCTTCCAGCGCCCGCCCAACACCCGGCTGCGCGATGTGATGGAACTGCTCGAGTACCGCAAGGTGGTGCCCAGCGACGTACGCCTGCAGATGTGGTTGGCACTGAGCTTCCTTGCGGTGTGCCTGCTCAACAGCGTTGGCCTGCTGCTGGCCAAGTTCCTGCGCCGCAGCGGCGAGATCGGCGTGCGCCGCGCGCTCGGCGCCAGCCGCCGCGAGATCTTCACCCAGTGCCTGGTCGAGGCGGTCGGCGTCGGCGTGGTCGGCGGCGCGCTCGGCCTGGGCCTAGCGCTGCTCGGGCTGACCGCGGTGCGCAAACAGCCGGTCGACTACGCGTCGCTGGCCAGCCTGGACCTCAGCATGCTGCTGACCACGATCGGCCTGACCCTGGTCGCCAGCCTGCTGGCCGGCCTGCTACCGGCGTGGCGGGCGATGCAGGTCGCCCCGGCGCTGCAGCTCAAGAGCATGTAA	MFGYYVKLAANSFRRNKVLTALMVLAIALGIGASMTTLTVFHVLSGDPIPGKSERLFNVRIDPQPMANFHEGDEPEGQLTRYDAEALLREKRAYRQTITTGGYGAIEPQNSTLKPFQLMLRFATADFFPMFDAPMLHGRSWSAADDEARARVAVISKALSEKLFGTADGTGREVRIEKTAFRVIGVIDDWRPSPRYYDLYNGSYGKTEEVLLPFATAMDVKLSRRGNMNCFSADGSPTDDGTALEASCTWLQYWVELKNASEAGDYKAYLDNYSAQQRQGGRFQRPPNTRLRDVMELLEYRKVVPSDVRLQMWLALSFLAVCLLNSVGLLLAKFLRRSGEIGVRRALGASRREIFTQCLVEAVGVGVVGGALGLGLALLGLTAVRKQPVDYASLASLDLSMLLTTIGLTLVASLLAGLLPAWRAMQVAPALQLKSM	PGPT0013350_12932	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
BMS020_08381	1230			hypothetical protein	ATGGATATCCGCCCCGTGTTTTCCGCGTTGGCGCGTCACAAGACCGCCGCCGCGCTGATCGTGATCGAGATCGCCTTCACCTGCGCGATCGTCTGCAACGCGCTGTTCCTGATCTCCCAGCGCATCGATACCCTCAGCCAGCCCAGCGGCATCGACGAGGACCGGCTGCTGGAGATCAGCCTGGCCGGCATCGGCAAGCAGGTCGATGGCGAAGCGCGCACCGCCGAGGACATCGCCGCGCTGCGGGCCATTCCCGGCGTCGCCGAGGTCACGGTGACCAACCAGTTCCCGTTCTACGAGAACTCCAACAACAGCGGCATCGGCCTGGTACCGAACCAGCAGAACGACACCGTCAACGCCGCGCAGTATGTCGGCGAGAACCTGGTCAAGACCTTCGGCCTGCACCTGGTCGCCGGCCGCGACTTCCAGCCCGACGAGGTGCAGGTGCTGTCGGAGATCAAAAAGACCATGGGCACCCATCCGGAGAAGCTGTCCTCGGCGACCATCATCACCCAGAAGCTGGCCAGGGAGCTGTTCCCGGACGGCAGCGCGGTGGGCCGCACGATCTACACCGGGGCGGTGCCGCTGACCGTGGTCGGCGTGGTCGACACGCTGGCGCGCCCCAACAGTTGGGGCGAAGACAGCGGCAAGGGCGATGCGTTCCTGCTGCCGCTGCGCAATCCCTATACCGAAGGCGTGTACGCGATCCGCACCACCGAGCCCGGGCGCCGCGCCGAAGTGCTCAAGTCGGCGGTCGACACCTTGAACCGGCTCGATCCGAACCGGCTGGTGCTGGAGCAGCGCACCTACGAGGAGATCCGCGCCGAGTACTTCCGCAACGACAACGCGATGGTGTGGCTGATGGCGCTGGTGTGCGTGTCGCTGATGGTGGTGACCGCGCTGGGCATCGTCGGCCTGGCCAGCTTCTGGGTGCAGCAGCGCACCAAGCAGATCGGCATCCGCCGCGCGCTCGGCGCCACCCGCGGCCAGGTGCTGCGCTACTTCCAGACCGAGAACTTCCTGCTGGCCAGCATCGGCATCGTGCTCGGCATGCTGCTGGCCTACATGATCAACCAGATGCTGATGAGCCGCTACGAGCTGCCGCGGTTGCCGCTGCTGTACCTGCCGGTCGGCGCGCTGCTGCTGTGGCTGCTGGGACAGCTGGCGGTGCTCGGACCGGCGCGACGTGCCGCGGCGGTACCGCCGGCGGTGGCGACGCGCACGGCATGA	MDIRPVFSALARHKTAAALIVIEIAFTCAIVCNALFLISQRIDTLSQPSGIDEDRLLEISLAGIGKQVDGEARTAEDIAALRAIPGVAEVTVTNQFPFYENSNNSGIGLVPNQQNDTVNAAQYVGENLVKTFGLHLVAGRDFQPDEVQVLSEIKKTMGTHPEKLSSATIITQKLARELFPDGSAVGRTIYTGAVPLTVVGVVDTLARPNSWGEDSGKGDAFLLPLRNPYTEGVYAIRTTEPGRRAEVLKSAVDTLNRLDPNRLVLEQRTYEEIRAEYFRNDNAMVWLMALVCVSLMVVTALGIVGLASFWVQQRTKQIGIRRALGATRGQVLRYFQTENFLLASIGIVLGMLLAYMINQMLMSRYELPRLPLLYLPVGALLLWLLGQLAVLGPARRAAAVPPAVATRTA	PGPT0013350_16459	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
BMS020_08382	1326			hypothetical protein	GTGGTGATCGGCTACTACCTGCGCCTCGCATTCCGCAGTCTGCGCCGCACGCCGATGATGACGGCCTTGATGGTATGCGCGATCGGCCTCGGCATCGGTGCAAGCATGGCCATGCTGACCGTGCTTCACGTCATGACCCGCGACCCGTTGCCTGCCCGCAGCGGCGTGCTGTTCACGCCGAGGATCGACGCGCTACCCAACGGCTACCCCCGCAACGACGAATGGGGCGATCCGGCCGACAACATGACGTGGCCGGATGCGATGGAACTGCTGCGTGCGGCCTGGGCACCCCACCAGGCCGCGATGGCCGGCGGCGACGTACTGGTGTGGCCAGCCGACGCTCGCGGCCAGCCTTCGGAGTTCTCGGGTCGCTTCACCACCGCGGACTTCTTCCCGATCTTCGGCGTGGCGCTCGAACGCGGCACCGCATGGAGCGCCGAAGATGATGCGGCCCGGGCACGCGTGGTCGTGCTCGGGCACGACCTCGCGCGACGACTGTTCGGAGGCGCAAATCCGATCGGCAGGAGCGTTCGCTTTGCCGACACGAACCTGCGGGTGATCGGCGTATCCGCGCCCTGGCGCCCACAGCCGCTGTTCTACGCATCGTCCTCGGCCAAAGGCGGCTTCGGCCAACAGGATGAGTTCTTCCTGCCCCTCTCCACGTCGGTGGAGTTGCATTGGCAGACATCCGGACGAACCTATGGCTGGGGACCCGACACACATGACGAAGCCCACATGTACACCGACGCCTCCACCAGTTGGCTGCAGTTCTGGGTCCAACTCGATACGCCGGCGCAGGTGGCGCGCTACCGTCGCATGTTGCATGCCTATGCCGATGAACAGCATCGGATAGGCCGTTTCGAACGCCCAGCTGAAGCGACCCGGCTCTATCCGCTGATGGACTGGCTGCGCCATCTGCGCCTGGTTCCGTACGACATCCAGCTGCAGCTCGCGCTATCGCTCGGATTCCTCGGCATCTGCCTATTGAACATCGTCGCACTGCTGCTGGCCAAGTTCCTGCGCCGCGGCAGCGAACTCGGCGTGCGCCGGGCGCTCGGCGCCCAACAGGGCGATCTTTTGCTGCAACTCGGAATCGAAGCCATGGTCATCGGCTTGCTCGGCGGCGGCCTGGGCGCCCTGCTTGCGCAAGCCGGCCTGTGGTGCATCCGCCAGCGACCCGACCGGTACGCGCAAGCGGCGCACATGGATCTGACGATGCTGGTCGCCACCATATCGGTAGCGGTGCTGGCGGCACTGCTGGCGGGCGTTGTACCTGCCTGGCGCGCCAGCCGGGTGGTTCCATCGTTGCAGGTCAAGGCACTATGA	MVIGYYLRLAFRSLRRTPMMTALMVCAIGLGIGASMAMLTVLHVMTRDPLPARSGVLFTPRIDALPNGYPRNDEWGDPADNMTWPDAMELLRAAWAPHQAAMAGGDVLVWPADARGQPSEFSGRFTTADFFPIFGVALERGTAWSAEDDAARARVVVLGHDLARRLFGGANPIGRSVRFADTNLRVIGVSAPWRPQPLFYASSSAKGGFGQQDEFFLPLSTSVELHWQTSGRTYGWGPDTHDEAHMYTDASTSWLQFWVQLDTPAQVARYRRMLHAYADEQHRIGRFERPAEATRLYPLMDWLRHLRLVPYDIQLQLALSLGFLGICLLNIVALLLAKFLRRGSELGVRRALGAQQGDLLLQLGIEAMVIGLLGGGLGALLAQAGLWCIRQRPDRYAQAAHMDLTMLVATISVAVLAALLAGVVPAWRASRVVPSLQVKAL	PGPT0013350_12407	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
BMS020_08383	1248			hypothetical protein	ATGACCATGCCGATCATTCCCGTACGGCAGATCCTCGCAGGTCTCCGCCACCATCGTCTGATCGCGGTACTGCTGGCACTGCAGGTCGCGGCGACCGGCGCCATCGTCAGCAACGCCGTGGCGATGATGGCCGAGCGCGTCGCACGCATCCAGGTCGCCAGCGGACTGCCGGAACGCGAATTGTCGCTGCTTGCGGTACGCGGGCTCAGTACCGCAACCAACCCGCTCGCCCAGCAGAACAGCGATCTCGCTGCCCTCCGGCGCATTCCCGGCTTACGCGCCGCCGCGGCAATCGATGGCACGCTGCCGCTCTCTGGCGGTGCCAACGATAGCGGCGGCTGCGTCAACCAGCAGGTGCTCGATGCCGCTATCGGCGCGCGCTCGCTGGAGAACCGGGCGGGATGCGCCATGAGCACGACATACTCCGGATCACCGGGCTTCACGACCGCACTTGGCGTACGCATCATCGCCGGCCGCGATTTCGACCCGCTCGATTACGGTCGCGCGCACGGCACGAGCATCATCGTGAGCGAATCGCTGGCCAAGCTGCTTTGGCCGGGCAAGAGCCCTGTCGGCCAGCGACTGTACGGTGGCGGCACACCTCAGGTCGTGATCGGAGTGATGGCGGACCTTCTGCGTCCGCGCCTGCGCAGCCCAGCCGAAGACCACCTGGTGGTGTTGTCACCACTTCACCCTGAAGGCGCCTCGACCACCTACCTCCTGCGCAGTGCGCCCGAGGATCGTCAGCGTGTCCTTGATGAAGCAGCCACCGTGCTGCGGACCAGCTCTGCGCTCCGGCTGATCCCCACCGACCGCCAACGTACCTTCAGCCAGCTGCGCAAGACCTACTTTCAGCGCGACAGCAGCATGCTCACCCTGCTGGTGGCGTCCTCGCTTGCGTTACTGTTCGTCACCGCCCTGGGCATCGGCGGACTGGCCAGCTTCTGGGTTGGGCAGCGTACCCGGCAGATCGGCATCCGCCGGTCACTCGGTGCAACCCGTGGCGACATCAAGTGGCATTTCCACGCCGAGAATCTGCTGATCGTGGGTGCCGCTTCGATTCTTGGCATGATGTTGGCCCGGCTGCTCGGTCTGGTGCTCGCTTCGCGCTACATGCTGCCCGAGCTGCCGCCGCTCTACGCGCTGTTGTGCGCGCTGTCGCTGCTGGCCCTCGGCCAGCTCGCGGTGCTGTGGCCGGCACGGCGCGCCGCGGCGATCCCGCCCGCAATGGCAACGCGCAGTGCCTGA	MTMPIIPVRQILAGLRHHRLIAVLLALQVAATGAIVSNAVAMMAERVARIQVASGLPERELSLLAVRGLSTATNPLAQQNSDLAALRRIPGLRAAAAIDGTLPLSGGANDSGGCVNQQVLDAAIGARSLENRAGCAMSTTYSGSPGFTTALGVRIIAGRDFDPLDYGRAHGTSIIVSESLAKLLWPGKSPVGQRLYGGGTPQVVIGVMADLLRPRLRSPAEDHLVVLSPLHPEGASTTYLLRSAPEDRQRVLDEAATVLRTSSALRLIPTDRQRTFSQLRKTYFQRDSSMLTLLVASSLALLFVTALGIGGLASFWVGQRTRQIGIRRSLGATRGDIKWHFHAENLLIVGAASILGMMLARLLGLVLASRYMLPELPPLYALLCALSLLALGQLAVLWPARRAAAIPPAMATRSA	PGPT0013350_16025	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
BMS020_08384	471			hypothetical protein	ATGAAGATCGTACTGACTGCGGTGCTCGTGCTGGCAAGCGCTCCTGCAGTCGCAGCCGAACCGGCAGACAGCCTGCCGGCGACCATCGCGCGGCTCGACGGCGAGGTGTTCGACAGTTTCAACCACTGCGCTGACCCGGCCCAGCTCGACCGCCACGCCAGCTACTTCGACCCGGCCGTCGAGTTCTATCACGACACTGGCGGGGTCACCTGGAACCGCGAGGCGATGCTCGCCAACACCCGCACGTACGCTTGCGGGCACTACACACGGCAGCTGGTCGCCGGCTCGCTGAAGGTCTATCCGATCCAGGGCTTCGGCGCGATCGCGCAGGGCCAGCACCGCTTCTGCGACAGCAGCAGCGGGCGTTGCGACGGGCTGGCCGACTTCACCATGATCTGGCGGCTGCACGACGGCCGCTGGTCCATCACCCGCGTGCTCAGCTACGCCCACCGTGCCGCCACCGGCGGCTGA	MKIVLTAVLVLASAPAVAAEPADSLPATIARLDGEVFDSFNHCADPAQLDRHASYFDPAVEFYHDTGGVTWNREAMLANTRTYACGHYTRQLVAGSLKVYPIQGFGAIAQGQHRFCDSSSGRCDGLADFTMIWRLHDGRWSITRVLSYAHRAATGG				NA	NA	NA	NA	NA
BMS020_08385	1341	atoC_2	COG2204	Regulatory protein AtoC	ATGTCCCAGGTTCTGATCATCGACGACAACAGCGCGGTGGCCACCGCGCTGGATGTGCTGTTTTCACTGCACGACATCGAATGCCGGCACGCGCTCACCCCACAGGAGGGACTCGCGCTGCTGCAGGAGCAGGCGTTCGACCTGGTGATCCAGGACATGAATTTCAGTGCCGACACCACCTCCGGTGAGGAAGGCGAAGCGCTGTTCGCGCAGATCCGCGCGCAGCAGCCCGACCTGCCGGTGATCCTGCTGACCGCGTGGACCCACCTGGGCAGCGCGGTCGAGCTGGTCAAGGCCGGCGCCGCCGACTACGTCGCCAAGCCGTGGGACGACGACAAGCTGTTGACCACGGTGAACAACCTGCTGGAGCTGTCCGAGGCGCGGCGCGAGCTGGATCGCCGTCGCGAGCGCGAGCGCCGCAGCCGCGAGGCGCTGGCCGCGCGCTACGACCTGCGCGGCGCGGTGTTCGCCGATCCGGCCAGCGAACGTGCGATCGCGCTGGCCTGCCAGGTCGCGCGCTCGGACCTGCCGGTACTGATCACCGGGCCCAACGGCGCCGGCAAGGAAAAGATCGCCGAGGTGATCCAGGCCAACTCGTCGGTGCGCAACGGTCCGTTCGTCGCGCTCAACTGTGGCGCGATCCCGTCCGAATTGATCGAGGCCGAACTGTTCGGCGCCGAAGCCGGTGCCTACACCGGCGCGAACAAGGCGCGCGAGGGCAAGTTCGAGGCTGCCGATGGCGGCACGCTGTTCCTCGACGAGATCGGCAACCTGTCGTTGACCGGGCAGATGAAGCTGCTGCGCGTCCTGGAGACCGGTCGCTTCGAGCGCCTCGGCTCCAACCGCGAGCGCCAGGTGAAGGTGCGCGTGATCAGCGCGACCAACGCTGACCTGACCGCGATGATCCGCGACGGCGGCTTCCGCGAAGATCTCTACTACCGCCTCAACACGGTGGAACTGGCATTGCCGGCGCTGGCCGAGCGCCCGGGCGACGTGCTGCCGCTGGCCGAACATTTCCTCGGCGGCCGGCGTGCGCTGTCGGCGCAGGCGCGGGTCGCGCTGCAGCGCCACGCCTGGCCGGGCAACGTCCGCGAACTGCGCAACGTGATGCAGCGCGCCGAGCTGCTCGCGACCGGCCCGCGCATCGAGGCCAGCGACCTCAACCTGCCGCGTGCGGCGCAGGTGCGCCTTGCGGTGGCCAGTTCCGAGCCGGACCGCGAGCGGATCGAAGCCGCGCTCGGTCGTGCCCACGGCGTGATCGCCCAGGCCGCCGCCGATCTCGGCATGAGCCGGCAGGCGTTGTACCGGCGCATGGACCGCTACGGGATCAAGCCGGACTGA	MSQVLIIDDNSAVATALDVLFSLHDIECRHALTPQEGLALLQEQAFDLVIQDMNFSADTTSGEEGEALFAQIRAQQPDLPVILLTAWTHLGSAVELVKAGAADYVAKPWDDDKLLTTVNNLLELSEARRELDRRRERERRSREALAARYDLRGAVFADPASERAIALACQVARSDLPVLITGPNGAGKEKIAEVIQANSSVRNGPFVALNCGAIPSELIEAELFGAEAGAYTGANKAREGKFEAADGGTLFLDEIGNLSLTGQMKLLRVLETGRFERLGSNRERQVKVRVISATNADLTAMIRDGGFREDLYYRLNTVELALPALAERPGDVLPLAEHFLGGRRALSAQARVALQRHAWPGNVRELRNVMQRAELLATGPRIEASDLNLPRAAQVRLAVASSEPDRERIEAALGRAHGVIAQAAADLGMSRQALYRRMDRYGIKPD				NA	NA	NA	NA	NA
BMS020_08386	1344	sasA_15		Adaptive-response sensory-kinase SasA	ATGCGCGTCCGTTCCTTCACCCTGCACCTGTTCCTGCGGCTGCTTCCGGTGCTGGCGCTGGCCGCGGCATTCCCGTGGCTGCTGGCCTACTGGCTGGACCGCGGGTGGGAGATCGCCACGGTCTCCGCGCTGGTGCTGCTGGTCGCGATGTGGTGGGCACTACGCCGCGCCACCGCGCCGATGCGCTCGTTGTTCCGCGCCCTGTCGGGCACCACCAGCAGCTATCGCGATGGCGAGTACAACTTCGGCGTGCACTGGAAAGGCGGCGATGAACTGGCCGAGCTGGTGCGCGCGCACGCCGAACTCGGCGAGGTGCTGCGCCGCCAGCGCCAGGACCTGGTCCAGCGCGAACTGATGCTGGACACGATGGTGCAAAACACCCCGGTGGCGATGCTGCTGGTCGCCGCCGGCGGCGATGGCCTGCGCCGGGTGACCTTCTCCAACGTCGCCGCGCGCAAGCTGCTGCACGGTGGCTGGAAACTCGAAGGCCAGCGCTTCGACGAACTGCTGGACAAGATGCCGATGGAACTGCGCGATGCGCTCGCGCGCGGCGGCGATTGCCTGTTCGCGGTGCGCGAGGAGGATGGCGACGAGGATGACGAGCAGATCTACCACCTGGCCAGGCGCAGCTTCCACCTCAATGGACGCCAGCACGAACTGCTGCTGGTGCGGACGCTGACCACCGAGTTGCGCCGCCAGGAAGTGCAGACCTGGAAGAAGGTCATCCGCGTGATCAGCCATGAGCTCAACAATTCGCTTGCGCCGATCGCCTCGCTCGCCCATTCCGGCGCGGAGCTGTTGCGTCGTCAGAAGACCGAACGCCTCGGCGGCGTGTTCGACACCATCGAGGACCGCGCACGCCACCTGGAAGGATTCATCCGCGGCTACGCGCGCTTCGCCAAGCTGCCGCAGCCGCAGCTGCAGACCGTGGCCTGGAGCGAGTTCCTGGCCGGGCTGCAGCGCCAGATTCCGTTCCAGTTGCTGGACCAGGCTCCGGACGCCTGCAGCCGGATCGACATCGCGCAGCTCGAACAGGCGCTGCTCAACCTGCTCAAGAACGCCCACGAAGCCAGCGGCGAAGCCGAACATCCCAACGACGACGTCGAACTGCGCCTGAGCCGGCTGCCGCAGTGGCTGCGCGTGGAGGTGCTCGACCGCGGCAACGGCATGAACGAGGCGGTGCTGCAGAACGCGCTGATGCCGTTCTATTCAACCAAGCGCAACGGCACCGGCCTGGGCCTGGCGCTGACCCGCGAGATCGTCGAAGCGCATGGCGGCCGTATCTCGCTGCAGAACCGGGCCGACGGCGGCCTGTGCGTCACCCTGCTGCTGCCCAGCGACTGA	MRVRSFTLHLFLRLLPVLALAAAFPWLLAYWLDRGWEIATVSALVLLVAMWWALRRATAPMRSLFRALSGTTSSYRDGEYNFGVHWKGGDELAELVRAHAELGEVLRRQRQDLVQRELMLDTMVQNTPVAMLLVAAGGDGLRRVTFSNVAARKLLHGGWKLEGQRFDELLDKMPMELRDALARGGDCLFAVREEDGDEDDEQIYHLARRSFHLNGRQHELLLVRTLTTELRRQEVQTWKKVIRVISHELNNSLAPIASLAHSGAELLRRQKTERLGGVFDTIEDRARHLEGFIRGYARFAKLPQPQLQTVAWSEFLAGLQRQIPFQLLDQAPDACSRIDIAQLEQALLNLLKNAHEASGEAEHPNDDVELRLSRLPQWLRVEVLDRGNGMNEAVLQNALMPFYSTKRNGTGLGLALTREIVEAHGGRISLQNRADGGLCVTLLLPSD	PGPT0001025_1120	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NTR-NITROGEN_REGULATORY_SYSTEM,PGPT0001025-ntrY-K13598	NA	NA
BMS020_08387	960			hypothetical protein	ATGCGCAGCGTATTGGCGATGTCCCTAGCGTGGCTGCTCGCGGCGGCGAGTGTGGACGCGCATGCCGACAACTATCGGCTCTACCTCGCGCCGGATGGCGACGACAGCGCGGCCGGCACCAGCGCCACCGCGCCGTTGCAGACGCTGCAGGCCGCGCTGGCCCGGGTACAGGCCGAGAATCCGGCCGGCGACGTCGACGTGGTGATCGCGCCGGGCATCTACAGCGGACAGAGCGTGGGCTGGACCTATACCGGTGCGTTGTCGGTGACCTTCGCGCCGCCGGCCGGTGCGGCGGCGATGCCGGTGTTCGACGGCGGCGGCGCCGATACCTGGTTCAAGTTGCGCGGCGCGGCCGGTGCGGCCAGCAACCTGCATTTCACCGGCCTGCATGTACGCAACTACTGGATGGCGATCGACCTGGGCAGCAGCAACGCCGCCAAGGATGCCAACAGCGGCAACGTGATCAGTGGGATGCGCTTCGAGCGGATTGGCGGCGAGTACGGCAGCAACAGCATCGGCTACTCGTACGCGGCGATACGCCTGCAGCATTCCAGCGGCAACACGATCGAGGGCAACAGCTTTTCGCACGTCGAGAACGCCACCGCGTACTCGGGCTACATCCATGCGCTGTACCTGGCCAATGCCTCGTCGGACAACGTGGTGCGCGACAACAGCTTCACCGACGTCAATGGCGACGTGGTGCGCACCCGCAATGCGAGCAACGGCAACCTGGTGCAGGACAACAGCTTCCTGCGCGCCGGTAAGTACGCCGCGTTCTCGGACTGGTTCGACCAGGACGACGGCGACGAATGCCCATCGCAGGGCAATCGCTTCATCGATAACAGCGTGGGCGTCGGCTACTACGGCACCATTCCGGCGACCGCCACCACCGGTGACGACGATGCCTGTGGCGCGCTGACGCAAGCACGGATCGACGAGTGCGGCACCGTCTATCCGTAG	MRSVLAMSLAWLLAAASVDAHADNYRLYLAPDGDDSAAGTSATAPLQTLQAALARVQAENPAGDVDVVIAPGIYSGQSVGWTYTGALSVTFAPPAGAAAMPVFDGGGADTWFKLRGAAGAASNLHFTGLHVRNYWMAIDLGSSNAAKDANSGNVISGMRFERIGGEYGSNSIGYSYAAIRLQHSSGNTIEGNSFSHVENATAYSGYIHALYLANASSDNVVRDNSFTDVNGDVVRTRNASNGNLVQDNSFLRAGKYAAFSDWFDQDDGDECPSQGNRFIDNSVGVGYYGTIPATATTGDDDACGALTQARIDECGTVYP				NA	NA	NA	NA	NA
BMS020_08388	1314	glmU_2		Bifunctional protein GlmU	ATGCGCTCCGCGCTGCCGAAGGTGCTGCAGCCGGTCGCCGGTCGGCCGATGCTGGCGCACGTGATCGATACCGCGCGCGCGCTTGCCCCGGATGCGATCCACGTGGTGCATGGCCATGGTGGCGAGCAGGTGCGCGCCGCGTTTGCCGCGCAGACCGACCTAGTCTGGGCCGAGCAGGCGCAGCGCCTGGGCACCGGCCACGCGTTGCAGCAGGCGATGCCGGGAATTCCGGACGCTGCCAACGTGCTGGTGCTGTACGGCGACGTACCGCTGATCCAGGCCGACACGCTGCGCCAGCTGTTGCAGGCGCCGGGCCGCCTGGCCGTGCTGGTGGCCGAGCCGGCCGACCCGACCGGCTATGGACGCATCGTGCGCGATGCCGAAGGGCGCGTGGCGGCGATCGTCGAGCAGAAAGATGCCGACGAAGCGCAGCGTCGCATCCGCACCATCAACACCGGCATCGTGATGGGCGAATCGACCGCGCTGCGGCGCTGGTTGGCTGGGCTGTCCAACGCGAACGCGCAGGGCGAGTACTACCTGACCGACGTGTTCGCCAGCGCGGCGGCAGAGTTCACGCCGGCCGAGATGGTGCAGGTCGCCGATGCACAGGAAGTGGAGGGCGCCAACGATCCGTGGCAGCTGGCGCAGCTCGAGCGCGCCTGGCAGCTGCGCGCGGTGCGGGCGCTGTGCCTGCAGGGCGCGCACGTGGCCGATCCTGCCCGCGTGGACGTGCGCGGCAGCGTGCGGGTCGGGTGCGACGTGCGGCTGGACGTCAACGTGGTGCTGGAAGGCGAGGTCGAGCTCGGTGATGGCGTCAGCATCGGGCCGTTCGTGCGGCTGAAGGACGTCCGCCTCGCCGCCGGCACCGAGGTGCTGGCGCACTGCGACCTCGATGGCGCGGTGACCGAAGGCGCGGTCAAGATCGGCCCGTTCGCGCGCTTGCGCCCAGGCACGGTGCTGGCCGATGGCGTGCACATCGGCAACTTCGTCGAGACCAAGAACGCCACGCTCGGCGTCGGCAGCAAGGCCAACCACCTGACCTACCTCGGCGATGCGGTGGTGGGCAGCAAGGTGAACATCGGCGCCGGCACCATCACCTGCAACTACGACGGGGTGAACAAGTCGCGTACCACGATCGGCGACAACGTGTTCGTCGGCTCCAACTCGTCGCTGGTGGCGCCGGTCGAGCTCGGCGACGGCGCCACGCTCGGCGCCGGTACCGTGCTGACGCGGCATGCGCCGGCCGGCAAGCTGACGGTCGCGCGTGCGCGCCAGAGCACCATCGATGGCTGGGAGCGGCCGAAGAAGCGCTGA	MRSALPKVLQPVAGRPMLAHVIDTARALAPDAIHVVHGHGGEQVRAAFAAQTDLVWAEQAQRLGTGHALQQAMPGIPDAANVLVLYGDVPLIQADTLRQLLQAPGRLAVLVAEPADPTGYGRIVRDAEGRVAAIVEQKDADEAQRRIRTINTGIVMGESTALRRWLAGLSNANAQGEYYLTDVFASAAAEFTPAEMVQVADAQEVEGANDPWQLAQLERAWQLRAVRALCLQGAHVADPARVDVRGSVRVGCDVRLDVNVVLEGEVELGDGVSIGPFVRLKDVRLAAGTEVLAHCDLDGAVTEGAVKIGPFARLRPGTVLADGVHIGNFVETKNATLGVGSKANHLTYLGDAVVGSKVNIGAGTITCNYDGVNKSRTTIGDNVFVGSNSSLVAPVELGDGATLGAGTVLTRHAPAGKLTVARARQSTIDGWERPKKR	PGPT0018955_2697	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GLUCOSAMINE_MODIFICATION,PGPT0018955-glmU-K04042	NA	NA
BMS020_08389	384			hypothetical protein	ATGGCGTTGCTGCACCAGGGCAGTCAGTTCATCGTCGTCGGGTTGGCGCAGCTGCTGCTGGACTGGTTGGCCTTCGTGCTGGCGTCCGCGCTGGGCGTGCCGGTGCCCATGGCCAACCTGCTCGGCCGCGTCTGCGGCGCACTGCTCGGCTTCTGGCTCAACGGGCGCTACACCTTCGCCGAAGGGGGCGCCGCGCGACTGGGCTGGAAGCGGCTCGCACGCTTCCTGGCGCTGTGGATCCCGCTGACCCTGCTCAGCACCTGGCTGGTGTCGCTGGTGGCGCATTCGCTGGGGCTGCAGTTCGCCTGGCTGGCCAAGCCGATCGTCGAGGGGCTGCTGGCGGCGGTGTCGTTCTTCGCCTGGCGTCACCTGGTGTATCGCTGA	MALLHQGSQFIVVGLAQLLLDWLAFVLASALGVPVPMANLLGRVCGALLGFWLNGRYTFAEGGAARLGWKRLARFLALWIPLTLLSTWLVSLVAHSLGLQFAWLAKPIVEGLLAAVSFFAWRHLVYR				NA	NA	NA	NA	NA
BMS020_08390	423	atpC_2	COG0355	ATP synthase epsilon chain	ATGAGCACCATCCGTTGCGACATCGTCAGCGCCGAACAGGAAATCTTCCACGGCGAAGCGACCCTGGTCGTGGCCACCGGCGAACTCGGTGAGCTGGGCATCGCGCCCAAGCACGCGCCGCTGATCACCCGGTTGAAGCCGGGCAAGGTGGTGGTCACCACCGCCAGCGGCGAGCAGCTGGATTTCGCCATCTCCGGCGGCATCCTCGAGGTGCAGCCGCAGGTCGTGACCGTGCTCGCCGACACCGCGGTGCGCGCCGACAAGATCGACGAGGCGAAGGTGCGCGCGGCGAAGGAAGAAGCCGAACGCATCCTGGCCAACCGTGGCGAGACCGTGGACGTGGCCAAGGCGCAGCAGCAGCTGGCCGAAGCCGTGGTGCAGCTGCAGGCGCTGGAGCGCCTGCGCCGCACGCTCAAGCACTGA	MSTIRCDIVSAEQEIFHGEATLVVATGELGELGIAPKHAPLITRLKPGKVVVTTASGEQLDFAISGGILEVQPQVVTVLADTAVRADKIDEAKVRAAKEEAERILANRGETVDVAKAQQQLAEAVVQLQALERLRRTLKH	PGPT0014295_1132	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014295-atpC-K02114	NA	NA
BMS020_08391	1428	atpD1		ATP synthase subunit beta 1	ATGAGTCAGGGCAAGATCGTTCAGATCATCGGCGCGGTCGTCGACGTCGAATTCCCGCGCGGCGACGTGCCGAAGGTGTACGACGCGCTGCAGGTCGATGGCACCGCCATCACGCTGGAAGTGCAGCAGCAGCTCGGCGACGGCGTGGTGCGCGGCATCGCGCTGGGCTCGACCGATGGCCTCAAGCGCGGCCTGGTCGCCACCAACACCAACAAGGCGATCTCGGTGCCGGTCGGCGCCGGTACGCTGGGCCGCATCATGGACGTGCTGGGTCGCCCGATCGACGAGGCCGGCCCGATCGCCGCGTCGGCCGAGTGGGAAATCCACCGCGATGCGCCGAGCTTCGACGAGCAGTCCTCCTCGACCGAGCTGCTGGAAACCGGCATCAAGGTCATCGACCTGATGTGCCCGTTCGCCAAGGGCGGCAAGGTCGGCCTGTTCGGCGGCGCCGGCGTCGGCAAGACCGTCAACATGATGGAGCTGATCAACAACATCGCCAAGGCGCACTCGGGTCTGTCCGTGTTCGCCGGCGTGGGCGAGCGTACCCGTGAGGGCAACGACTTCTACCACGAGATGATCGAGTCGGGCGTCGTCAACCAGGACAAGCCGGAAGAGTCCAAGGTCGCGATGGTCTACGGCCAGATGAACGAGCCGCCGGGCAACCGCCTGCGCGTCGCGCTGACCGGCCTGACCATGGCCGAGTACTTCCGCGACGAGAAGGACGCGTCGGGCAAGGGCCGCGACGTGCTGTTCTTCGTCGACAACATCTACCGCTACACCCTGGCCGGTACCGAAGTGTCGGCGCTGCTGGGCCGCATGCCGTCGGCGGTGGGCTACCAGCCGACCCTGGCCGAGGAAATGGGCGTGCTGCAGGAGCGCATCACCTCGACCAAGACCGGTTCGATCACCTCGATCCAGGCCGTGTACGTGCCCGCGGACGACCTGACCGACCCGTCGCCGGCGACCACCTTCGCGCACCTGGATTCGACCGTGACCCTGTCGCGTTCGATCGCCTCGCTGGGCATCTACCCGGCGGTCGACCCACTGGATTCGACCAGCCGCCAGATGGACCCGCTGGTCATCGGCGACGAGCACTACAGCACCGCGCAGCGCGTCCAGCAGACCCTGCAGAAGTACAAGGAGCTGAAGGACATCATCGCGATCCTGGGCATGGACGAGCTGTCGCAGGAAGACAAGCAGGCCGTGTCGCGCGCGCGCAAGATCGAGCGCTTCTTCAGCCAGCCGTTCCACGTCGCCGAAATCTTCACCGGCGCGCCGGGCAAGTACGTGTCGCTGAAGGACACCATCCGCGGCTTCAAGGGCATCGTGGACGGCGAGTACGACCACCTGCCGGAGCAGGCGTTCTACATGGTCGGCACCATCGACGAGGCCGTCGAGAAGGCCAAGAAGATGGCCGAGAAGGCGTAA	MSQGKIVQIIGAVVDVEFPRGDVPKVYDALQVDGTAITLEVQQQLGDGVVRGIALGSTDGLKRGLVATNTNKAISVPVGAGTLGRIMDVLGRPIDEAGPIAASAEWEIHRDAPSFDEQSSSTELLETGIKVIDLMCPFAKGGKVGLFGGAGVGKTVNMMELINNIAKAHSGLSVFAGVGERTREGNDFYHEMIESGVVNQDKPEESKVAMVYGQMNEPPGNRLRVALTGLTMAEYFRDEKDASGKGRDVLFFVDNIYRYTLAGTEVSALLGRMPSAVGYQPTLAEEMGVLQERITSTKTGSITSIQAVYVPADDLTDPSPATTFAHLDSTVTLSRSIASLGIYPAVDPLDSTSRQMDPLVIGDEHYSTAQRVQQTLQKYKELKDIIAILGMDELSQEDKQAVSRARKIERFFSQPFHVAEIFTGAPGKYVSLKDTIRGFKGIVDGEYDHLPEQAFYMVGTIDEAVEKAKKMAEKA	PGPT0014296_2000	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014296-atpD-K02112	NA	NA
BMS020_08392	864	atpG_2	COG0224	ATP synthase gamma chain	ATGGCAGGCGGACGCGAAATCAAAACCAAGATCAAGAGCGTGCAGAACACCCGCAAGGTGACGCGCGCGCTCGAAATGGTCTCGGCCTCCAAGATCCGCAAGGCCCAGGAGCGGATGAAGACCTCGCGTCCGTACGCGCAGGCGATGAAGCAGGTGATCGGCCACCTGGCGCAGGCCAGCACCGACTTCCAGCACCCGTTCCTGCTGTCGCGCGAACAGGTCAAGCGGGTCGGTTACATCGTGATCTCTTCCGATCGCGGCCTGGCCGGCGGCCTGAACAACAACCTGTTCCGCAAGATGCTGGGCGAAGTGCGCGGCTGGCAGGACAAGGGTGCCGAGATCGACGTGGTGACGATCGGCCAGAAGGCGTCGACCTTCTTCCGCCGGGTCAAGGTCAACATGGTCGGCAGCGTCACCCACCTGGGCGATGCGCCGCACGTCGAGCAGCTGATCGGCGTGATCAAGGTGATGCTCGATGCCTTCATCGAAGGCAAGGTCGACCGCGTCTACCTGGTCTACAACCGCTTCGTGAACACGATGACGCAGACGGCCAGCTTCGATCAGCTGCTGCCGCTGCCGGCCTCGGAAGCCAAGGTCGCCCACCACGACTGGGACTACCTGTACGAACCCGATGCCGCGACCGTGCTCGAGCACGTGATGACGCGTTACATCGAGTCGCTGGTGTACCAGGCGGTGCTGGAGAACGTGGCGTCCGAGCATGCCGCGCGCATGGTGGCGATGAAGGCGGCCAGCGACAACGCCAACAAGCTGATCGGAACGCTGCAGCTGGTCTACAACAAGGCCCGCCAGGCAGCGATCACGCAGGAAATCTCCGAGATCGTCGGCGGCGCCGCCGCGGTCTAA	MAGGREIKTKIKSVQNTRKVTRALEMVSASKIRKAQERMKTSRPYAQAMKQVIGHLAQASTDFQHPFLLSREQVKRVGYIVISSDRGLAGGLNNNLFRKMLGEVRGWQDKGAEIDVVTIGQKASTFFRRVKVNMVGSVTHLGDAPHVEQLIGVIKVMLDAFIEGKVDRVYLVYNRFVNTMTQTASFDQLLPLPASEAKVAHHDWDYLYEPDAATVLEHVMTRYIESLVYQAVLENVASEHAARMVAMKAASDNANKLIGTLQLVYNKARQAAITQEISEIVGGAAAV	PGPT0014297_3829	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014297-atpG-K02115	NA	NA
BMS020_08393	1548	atpA_2	COG0056	ATP synthase subunit alpha	ATGGCAACCACGCTCAACCCCTCCGAAATCAGCGAACTGATCAAGACCCGCATCGAGAAGGTCGCGCTGTCCGCTGAGTCCCGCAACGAAGGCACCGTGACCAGCGTGTCCGACGGCATCGTGCGCATCTTCGGCCTGGCCGACGTGATGCAGGGCGAAATGATCGAGCTGCCGAACAACACGTTCGCGCTGGCGCTGAACCTGGAGCGCGATTCGGTCGGCGCCGTGGTGCTGGGCGACTACGAGAACCTGCGCGAAGGCGACGTGGCCAAGACCACCGGCCGCATCCTGGAAGTGCCGGTCGGCAACGAGCTGCTGGGTCGCGTGGTCAACGCGCTTGGCGAGCCGATCGACGGCAAGGGCCCGCTGGGCGCCACCAAGACCGCGCCGGTCGAGCGCGTCGCGCCGGGCGTGATCTGGCGCAAGTCGGTCGACCAGCCGGTGCAGACCGGCTACAAGTCGGTCGACGCGATGATCCCGGTCGGCCGTGGCCAGCGCGAGCTGATCATCGGTGACCGCCAGACCGGCAAGACCGCGATGGCGATCGACGCGGTGATCAACCAGAAGGGCAGCGGCATCAAGTGCGTGTACGTCGCGATCGGCCAGAAGGCCTCGACCGTGGCCAACATCGTGCGCAAGCTGGAAGAGAACGGCGCGCTGGCCCACACCATCGTGGTGGCCGCGACCGCGTCCGAGTCGGCCGCGATGCAGTACATCAGCGCCTACTCCGGCTGCACCATGGGCGAGTACTTCCTGGACCGCGGCGAAGACGCGCTGATCGTTTATGACGATCTGTCCAAGCAGGCCGTCGCCTACCGCCAGATCTCGCTGCTGCTGAAGCGCCCGCCGGGCCGCGAAGCCTACCCGGGCGACGTGTTCTACCTGCACTCGCGTCTGCTGGAGCGCGCCTGCCGCGTGTCGGCCGAGTACGTCGAGAAGGCGACCAACGGCGAAGTGAAGGGCAAGACCGGCTCGCTGACCGCGCTGCCGATCATCGAGACCCAGGCCGGCGACGTCTCCGCGTTCGTGCCGACCAACGTGATCTCGATCACCGACGGCCAGATCTTCCTGGAAACCGACCTGTTCAACGCCGGCATCCGCCCGGCCGTGAACGCCGGTATCTCGGTGTCGCGCGTCGGTGGTTCGGCCCAGACCAAGATCATCAAGAAGCTGTCGGGCGGCATCCGCATCTCGCTGGCCCAGTACCGTGAGCTGGCGGCGTTCGCGCAGTTCGCCTCGGATCTGGACGAAACCACCCGCAAGCAGCTCGAGCGCGGCCAGCGCGTCACCGAGCTGATGAAGCAGAAGCAGTACGCGCCGATGTCGATCGCCAACCAGGCGCTGACCATCTATGCCGTCAGCGAGGGGTACCTCGACGACGTGCCGGTGGCCAAGCTGCTGGCGTGCGAAGAAGGCCTGCATGCGCACTTCGCCAACACCCAGGGCGCGCTGATCGAGCAGATCAACGCCACCGGCGGTTGGGACAAGGACATCGAGGCCGCTTTCAAGAAGGGCATCGAAGAGTTCAAGACCACCGGCAGCTGGTAA	MATTLNPSEISELIKTRIEKVALSAESRNEGTVTSVSDGIVRIFGLADVMQGEMIELPNNTFALALNLERDSVGAVVLGDYENLREGDVAKTTGRILEVPVGNELLGRVVNALGEPIDGKGPLGATKTAPVERVAPGVIWRKSVDQPVQTGYKSVDAMIPVGRGQRELIIGDRQTGKTAMAIDAVINQKGSGIKCVYVAIGQKASTVANIVRKLEENGALAHTIVVAATASESAAMQYISAYSGCTMGEYFLDRGEDALIVYDDLSKQAVAYRQISLLLKRPPGREAYPGDVFYLHSRLLERACRVSAEYVEKATNGEVKGKTGSLTALPIIETQAGDVSAFVPTNVISITDGQIFLETDLFNAGIRPAVNAGISVSRVGGSAQTKIIKKLSGGIRISLAQYRELAAFAQFASDLDETTRKQLERGQRVTELMKQKQYAPMSIANQALTIYAVSEGYLDDVPVAKLLACEEGLHAHFANTQGALIEQINATGGWDKDIEAAFKKGIEEFKTTGSW	PGPT0014298_1607	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014298-atpA-K02111	NA	NA
BMS020_08394	528	atpH_2	COG0712	ATP synthase subunit delta	ATGAGCCAGGCCCTTACCCTCGCCCGTCCCTACGCCCGCGCCGCCTTTGCGATCGCGCGCGAGGAAGGTGCGCTTGCGGCCTGGTCGCAGGCGCTGGCGTTCTCGGCGCAGGTCGCCGGCGACCCGCGCGTCGCCGCGCTGCTGTTGAACCCGGCCCTGCTTCAGGAACAGGCGGTCTCGCTGCTGGCGCCTGAGGCGGCGGGCGAATCGTTCCTGCGCTTCCTCGGCGTGCTCGCGCAGGCCCAGCGCCTGAGCCTGCTGCCGGAAGTGGCCGGTCTGTTCGACCAGCTGCGCGCCGACGCCGAACAGGTGGTCAAGGCCACCGTGACCTCGGCTGCCGAGCTGCCGCAGGCCGAGCTGGACAAGATCGTCGTCGCGCTGAAGAAGCGTTTCGGCCGCGAGGTGCAGGTCACCACCGCGGTCGATGCCTCGCTGATCGGCGGCGCCGTCATCGATGCGGGCGACGTGGTGATCGACGGCTCGCTGAAAGGCAAGCTGGCGCGCCTGCAGAACTCGCTCGCACACTGA	MSQALTLARPYARAAFAIAREEGALAAWSQALAFSAQVAGDPRVAALLLNPALLQEQAVSLLAPEAAGESFLRFLGVLAQAQRLSLLPEVAGLFDQLRADAEQVVKATVTSAAELPQAELDKIVVALKKRFGREVQVTTAVDASLIGGAVIDAGDVVIDGSLKGKLARLQNSLAH	PGPT0014299_4388	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014299-atpH-K02113	NA	NA
BMS020_08395	471	atpF_2	COG0711	ATP synthase subunit b	ATGGATATCACCTTCACCATCATTGCCCAGGCACTGGCGTTCGCCGGTCTGATCTGGATCGTCGCGACCAAGATCTGGCCGCCGCTGATGAACGCCATCGAGGAGCGTCAGCAGAAGATCGCCGAGGGCCTCGCTGCGGCCGACCGCAGCCAGAAGGACCTCGCGCAGGCGCAGGAAAAGGTCAACGAGGCGTTGAAGGAAGCCCGCACCAAGGCCAACGAGATCATCGACCAGGCCCACGCGCGTGCCAACCAGATCGTCGAAGCGGCCAAGTCCGAGGCGATCGCCGAGGCGAACCGCCAGAAGGACCTCGCCCAGGCCGAAATCGACGCATCTGCGACCCGTGCCCGCGAGGAGCTGCGCAAGCAGGTGTCCGCGCTGGCGGTCAGCGGCGCCGAGAAGCTGCTCAAGCGCGAGATCGACGCCAACGCCCACAAGGCGCTGCTCGACGAGCTGGCGGCGGAGATCTGA	MDITFTIIAQALAFAGLIWIVATKIWPPLMNAIEERQQKIAEGLAAADRSQKDLAQAQEKVNEALKEARTKANEIIDQAHARANQIVEAAKSEAIAEANRQKDLAQAEIDASATRAREELRKQVSALAVSGAEKLLKREIDANAHKALLDELAAEI	PGPT0014301_4776	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014301-atpF-K02109	NA	NA
BMS020_08396	306	atpH_3		ATP synthase subunit c	ATGTACTTCGCCGTCCTGACCAACTTCGCCCAGATCCAGAGCTCCACCGCCCTCGCCGTCGGCATCATGATCGGCCTGGCCGCGCTGGGTGCCGGTCTCGGTCTGGCCATCATGGCTGGCAAGTTCCTGGAGTCGGCCGCCCGCCAGCCGGAGCTGATCCCGGTGCTGCAGGTCCGCATGTTCATCACCGCCGGCCTGATCGACGCTGCGTTCATCATCTCGGTCGCCGTCGGCCTGCTGCTGGCCTTCGCCAACCCGCTGTCGTCCGTGTTCGCTGAAGCCGTCGCCAAGGCCCTGGCTGGCTGA	MYFAVLTNFAQIQSSTALAVGIMIGLAALGAGLGLAIMAGKFLESAARQPELIPVLQVRMFITAGLIDAAFIISVAVGLLLAFANPLSSVFAEAVAKALAG	PGPT0014302_290	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014302-atpE-K02110	NA	NA
BMS020_08397	798	atpB_2	COG0356	ATP synthase subunit a	ATGGCAGGCGAGGCACTGACCCCCACCTCCTACATCCAGCACCATCTGCACAACCTGTCCATTCCGCTCAAGGAAGGCAGCAAGTTCTGGGTGCTCCACGTCGACACGCTGGTCATGGCGCTGTTGATGGGCTTGGTGATGGTCTTCGCGTTCTGGATCGGCACCCGCAAGGCCACTGCCGGCGTGCCGGGCAAGTGGCAGGCATTCGTCGAGATCTGCCTGGAGTTCGTCGACCGCCAGGCCAAGGACACCTACCACGGCTCGAGCAAGCTGGTGACGCCGATCGCGATCACCCTGTTCTTCTGGATCCTGTTGATGAACCTCATCAAGATGATCCCGGCCGATTTCATCGCCATCCCGCTGGGCTGGGCCGGCATCCACGCCTGGAAGCCGGTGCCGACCGCCGACGTGAACGCCACGCTCGGCATGTCGATCAGCGTGTTCTTCCTGATGCTGTTCTTCTCGCTGCGCTCCAAGGGCATCGGTGGTTTCGTCCACGAGTTCCTGACCGCGCCGTTCGGCAAGTGGATGATGCCGTTCAACCTGATCCTGAACATCGTCGAGTGGCTGAGCAAGCCGATTTCGCTGGCGATGCGACTGTTCGGCAACATGTTCGGCGGCGAGATCGTGTTCCTGCTGATCTGGGTGCTCGGTGGCGCCGGCGTGTTCGGTGCGATCGCCGGTGGCGCCTTCGGCCTCGGCTGGATGCTGTTCCACTTGCTGGTCATCCCGCTGCAGGCGTTCATTTTCATGATGCTGTCGATCGTGTACCTGAGCCTGTCGGAAGACAGTCACTGA	MAGEALTPTSYIQHHLHNLSIPLKEGSKFWVLHVDTLVMALLMGLVMVFAFWIGTRKATAGVPGKWQAFVEICLEFVDRQAKDTYHGSSKLVTPIAITLFFWILLMNLIKMIPADFIAIPLGWAGIHAWKPVPTADVNATLGMSISVFFLMLFFSLRSKGIGGFVHEFLTAPFGKWMMPFNLILNIVEWLSKPISLAMRLFGNMFGGEIVFLLIWVLGGAGVFGAIAGGAFGLGWMLFHLLVIPLQAFIFMMLSIVYLSLSEDSH	PGPT0014303_1976	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014303-atpB-K02108	NA	NA
BMS020_08398	366			hypothetical protein	GTGCTGAATTCCGTTGACGCGGGTCGGCGGTTGATGCTGCGCGCTGCGGTATATCCGCTTGTCGCTGTAGCTATAGCCAGTGCGTTGTTCCTGCTGCTCGGTGGCAGGTATGCCGCAGGTGTCGCGCTGACCGGTCTGGCGACCGCGGCCGGCGGCTGGGTGGCGGCGCGTACCGCGCTGGGTGGTGGGGTCCAGGCTGCGGGTGTGGCCATGACCCGGCTGATCCTGGCGATGGTGCTGAAGTGGGTGTTGGTGATCGTGGCGCTGTGGCTGGGCTTTGCCCTGTGGCGGCTGCCGGCGCTGGCACTCCTGGCAGGCATCGCGATCGGCATGATTTCCCAGGTTCTGGCCATGGCCAGGCGTTGA	MLNSVDAGRRLMLRAAVYPLVAVAIASALFLLLGGRYAAGVALTGLATAAGGWVAARTALGGGVQAAGVAMTRLILAMVLKWVLVIVALWLGFALWRLPALALLAGIAIGMISQVLAMARR				NA	NA	NA	NA	NA
BMS020_08399	813			hypothetical protein	ATGAAATCCCTGATCGCGCTCGTGCCGTGCCTGTTGGCCGCCACCGCCCTGTCCGCCCCCGCGCACGCCGCCGAGGGCGACCCGCGTTTCGAGCTGCGGCTCGGCGCGATGAACATCGACAACGACAACACCCTGCGCGGCGAGACCGAGATCAACGGGGAGCAGCTGTCCGGCGCCCAGGATTTCAAGCTGGGTGGCAAGGAATGGGAGCCGCGCGTGGATGGCCTGTTCCGCATCAGCCAGCGCCAACGGCTGATCTTCAACTACTTCAAGTACGACAAGGACGCACGCGAGACGCTGAGCGACGATGTCAGCTATGGCGACGTCACGGTGCCGTCGGGCAGCTTTGTCAAAGGCGAGCTGAAGTACCAGGTCGCCAGCCTGGTCTACGACTACGCGGTGGTGGACACCGACGAGATCAGCCTCGGCCTGCAGCTGGGCGCGGAATGGGCCAAGGTCGAGGGCAACGCCTACGCCGACCTTGGCGACCTGTACAGCGGCACCTTCGTCGACGAGAGCGAGGACGGCGCGGCGCCGGTGGTCGGCCTGCGCTTCAGCGCACAGCCCGGCGAGCACTGGGTGGTCACCGTGCAGGGCCAGTACCTCAACACCGACTGGGGCGACTTCGGCGATTACGAGGGCGACCTCAGCCGCGCCAACGCGATCGTCGAGTACCGCTTCACCCGCAACTTCGGCGTGTTCGCCGGCTACGACTGGTTCAAGCTCGACGTCGACCGCAAGGGCGGCGATGCGACGATCGGGCTGAAGCAGGAGTTCAAGGGCCCGGTCGCCGGCATCACGCTGGCGTTCTGA	MKSLIALVPCLLAATALSAPAHAAEGDPRFELRLGAMNIDNDNTLRGETEINGEQLSGAQDFKLGGKEWEPRVDGLFRISQRQRLIFNYFKYDKDARETLSDDVSYGDVTVPSGSFVKGELKYQVASLVYDYAVVDTDEISLGLQLGAEWAKVEGNAYADLGDLYSGTFVDESEDGAAPVVGLRFSAQPGEHWVVTVQGQYLNTDWGDFGDYEGDLSRANAIVEYRFTRNFGVFAGYDWFKLDVDRKGGDATIGLKQEFKGPVAGITLAF				NA	NA	NA	NA	NA
BMS020_08400	1281		COG1228	putative protein	ATGTCCAAGAATCGTCTGCCGGCGCTGCTGGCGGCCGCGCTGTTGTCGTCCGTACCGGTGCTGGCCGGCGCCGAAACCGTGGTCATCACCGCCGCGCGCCTGCTCGACGTGCAGGCCGGCCGCTATGTCGAACAGCCGCAGATCGTCGTCGTCGATGGGCGCATCAGTGCGGTCGGTCGCGCCGGCGATCCAGCGCCGGCCGACGCGACGCGCATCGACCTGGGCCAGCGCACGCTGCTGCCCGGCCTGATCGACATGCACGTGCACCTGACCGCCGATCCGACGCTGAGCGGCTACCAGGGGTTGGAATACACCGACAACTTCTGGACCGTGGTCGGCGTGGCGAACGCGAAGAAGACGCTGCAGGCCGGCTTCACCACCGTGCGCAACGTCGGCTCGGCCAACTACGACGACGTGGCGCTGAAGCAGGCGATCGAGCATGGCGACATCGACGGCCCGCGCATCGTGCCGGCGACCTATGCGATCGGCGCCACCGGCGGCCATTGCGACAGCACCGAATTCCCGCCGTCGGTACCGATCAGCAGCCCCGGCGTCGCCGATGGCGCGCAGGCGATCCGCGCCACGGTACGCAAGCTGCGCAAATACGGCGCCGAGGTCATCAAGTTCTGCGGCACCGGCGGCGTGCTGTCCAAGACCGATGCGGTCGGCGCGCAGCAGTACAGCCTGGAGGAAATGAAGGCGCTGGTCGACGAGGCGCACATGCTCGGGATGAAGGTGGCGGTGCATGCGCACGGCACCTCCGGCATCAACGACGCGATCCGCGCCGGCGCCGACACCATCGAGCACTGCAGCCTGGCTGACGACGAGTCGTTCAAGCTGGCCAAACAGCACGGCACCTGGTTCTCGATGGACATCTACAACGACGATTACATCCTCGCCGAAGGCGCCAAGAACGGCCTGTTCCCGGAATCGCTGGAGAAGGAGCGGCAGATCGGCCGCAAGCAGCGCGAGACGTTCAAGGCGGCGCACGCGGCCGGGGTCAAGATGGTGTTCGGCACCGACGGCGGCGTGTACCCGAACGGCGACAACGCGCGTCAGTTCGCCAAGATGGTGGAGTGGGGCATGACCCCGCTGGAGGCGATCCGCGCCGCCACCAGCAGTGCCGCCGAGGCGCTGGGGCGCGAGCATGACGTCGGCCAGATCGCGGTCGGGCGCTACGGCGACCTCGTCGCGGTCGACGGCGACCCGCTGCGCGATGTGACCGTGCTGACCCATGTCGCGGCCGTGGTGAAGGGTGGCGCGCTGGTCGCCGCCCCCTGA	MSKNRLPALLAAALLSSVPVLAGAETVVITAARLLDVQAGRYVEQPQIVVVDGRISAVGRAGDPAPADATRIDLGQRTLLPGLIDMHVHLTADPTLSGYQGLEYTDNFWTVVGVANAKKTLQAGFTTVRNVGSANYDDVALKQAIEHGDIDGPRIVPATYAIGATGGHCDSTEFPPSVPISSPGVADGAQAIRATVRKLRKYGAEVIKFCGTGGVLSKTDAVGAQQYSLEEMKALVDEAHMLGMKVAVHAHGTSGINDAIRAGADTIEHCSLADDESFKLAKQHGTWFSMDIYNDDYILAEGAKNGLFPESLEKERQIGRKQRETFKAAHAAGVKMVFGTDGGVYPNGDNARQFAKMVEWGMTPLEAIRAATSSAAEALGREHDVGQIAVGRYGDLVAVDGDPLRDVTVLTHVAAVVKGGALVAAP				NA	NA	NA	NA	NA
BMS020_08401	1791	lpdA_2	COG1249	Dihydrolipoyl dehydrogenase	ATGGCGGTCATTGAAATCAAGGTCCCTGACATCGGCGACTACAGCGACGTCCCGGTCATCGAAGTGCTGGTCGCGGTCGGCGACAGCGTCGCCAAGGACCAGGGTCTGGTCACGCTGGAGTCGGACAAGGCGACGCTGGAAGTGCCGTCCTCGGCGGCCGGCGTGGTCAAGGAGCTGAAGGTCAAGGTCGGCGACACGCTGTCCGAAGGCGGCGTGGTGGTGCTGCTGGAGACCGAAGCCGCGGCCGCCGCTCCGGCCAAGGCCGAGCCTGCGCCGGCCAGCAAGCCGCCGGTGACCCCGTCGCACCGCGCCCCGGCCGAGCCGGCCGCGCCGAAGCCGGCGCTGTCCTCGGGCAAGCCGGCCGACATTGAGTGCCGCATGGTCGTGCTCGGCGCAGGTCCCGGCGGCTACACCGCCGCGTTCCGCTCCGCCGACCTGGGCATGGACACCGTGCTGGTCGAGCGCTACGCCAGCCTCGGCGGCGTCTGCCTCAACGTCGGCTGCATCCCGTCCAAGGCGCTGCTGCATGCCGCCGCGGTGATCGACGAGGCCGCGCACGCCGAAGAGTGCGGCATCAGCTTCGGCAAGCCGAAGATCACCCTCGACAAGCTGCGCGAGTACAAGGAAAAGGTGGTCGGCAAGCTGACCGGCGGGCTGGCCGCGATGGCCAAGCAGCGCAAGGTGCGTACCGTCACCGGCGTGGCCACGTTCGTGTCGGCCAACGAGCTGGAGATCGTCGGCGACGACGGCAAGACCCAGCTGCTGCGCTTCGAGCAGTGCATCATCGCCGCCGGCTCGCAGGCGGTGAAGCTGCCGAACTTCCCGTGGGACGACAAGCGCATCATGGATTCCACCGATGCGCTGGAACTGGCCGAGGTGCCGAAGAAGCTGCTGGTCGTCGGCGGCGGCATCATCGGCCTGGAAATGGCCACCGTGTACGCCGCGCTGGGCAGCCAGGTCACCGTGGTCGAGTTCATGGACCAGCTGATGCCGGGCGCCGACAAGGACCTGGTCAAGCCGCTGGCCGACCGCCTGAAGAAGCAGGGCATCGAGGTGTTCCTGAAGACTAAGGCCGACAAGGTCGAGGCCGACAAGAAGGGCATCACCGTGCATTTCCTCGCCGCCGAGGAAGGCAAGGTGCCGGACCTGGCGTCGGGCACCTGGGACCGCGTGCTGGTCGCCGTCGGCCGTGCGCCGAACGGCAAGAAGATCGCCGCCGACAAGGCCGGCGTCACCGTGACCGACCGTGGTTTCATCCCGGTTGATCGGCAGATGCGCACCAACGTGCCGAACATCTTCGCGATCGGCGACATCGTTGGTAACCCGATGCTGGCGCACAAGGCCACCCACGAGGGCAAGCTGGCCGCGGAAGTGGCGCACGGCGAGAAGAAGGAGTGGGTGGCGCGGGTGATCCCGTCGGTGGCCTACACCAACCCGGAAATCGCCTGGGTCGGCGTCACCGAGACCGAGGCCAAGGCCAAGGGCCTGAAGGTCGGTGTGGCCAAGTTCCCGTGGGCCGCCAGCGGCCGCGCGATCGGCATCGGCCGCACCGAGGGCTTCACCAAGCTGGTGTTCGACGAGGAAACCCATCGCGTGATCGGCGGCGCGATCGTCGGCGTGCATGCCGGCGACTTGCTGGCCGAAATTGGTCTTGCGATCGAGATGGGTGCGGAGGCCGAGGACATCGGCCACACCATCCATGCTCATCCGACGTTGAGCGAGTCGGTCGGCATGGCCGCCGAGGTCTACGACGGCACCATCACCGATCTGTACATCCCGAAGAAGAAGTGA	MAVIEIKVPDIGDYSDVPVIEVLVAVGDSVAKDQGLVTLESDKATLEVPSSAAGVVKELKVKVGDTLSEGGVVVLLETEAAAAAPAKAEPAPASKPPVTPSHRAPAEPAAPKPALSSGKPADIECRMVVLGAGPGGYTAAFRSADLGMDTVLVERYASLGGVCLNVGCIPSKALLHAAAVIDEAAHAEECGISFGKPKITLDKLREYKEKVVGKLTGGLAAMAKQRKVRTVTGVATFVSANELEIVGDDGKTQLLRFEQCIIAAGSQAVKLPNFPWDDKRIMDSTDALELAEVPKKLLVVGGGIIGLEMATVYAALGSQVTVVEFMDQLMPGADKDLVKPLADRLKKQGIEVFLKTKADKVEADKKGITVHFLAAEEGKVPDLASGTWDRVLVAVGRAPNGKKIAADKAGVTVTDRGFIPVDRQMRTNVPNIFAIGDIVGNPMLAHKATHEGKLAAEVAHGEKKEWVARVIPSVAYTNPEIAWVGVTETEAKAKGLKVGVAKFPWAASGRAIGIGRTEGFTKLVFDEETHRVIGGAIVGVHAGDLLAEIGLAIEMGAEAEDIGHTIHAHPTLSESVGMAAEVYDGTITDLYIPKKK	PGPT0001380_238	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
BMS020_08402	657			hypothetical protein	GTGAGGCCGGTCGCGCTGATCGCGTTCGCGGTGCTGGCCACATCCGTGCCGGTGCAGGCGCTGGCCTGGGGCAACAGCAGCTGCGCCGTCACCATCGGCCGCGGCTGGCCGCCGGCGGTGGGCAACTACGGCGGTGCGGTCGAGCGGCTGTTCGAAGGCAAGGATGCGCCGACGCTGTCGCTGCTCACGCTGCCGACCCGCGGCGTGGAAACCGGGCTGTCGCTGCGCCCCGGCGAAGGCGGCGACTGGACGCTGCGTTACAGCCGCGCCAGCGAGCGCGTCTACAGCTGGGTCGAGGGTGGCTCGCGCGGTGGCCTGCAGCTGCGCACCGAGCAGCAGCCGGAGGTGTTCGAGACGCCGATCCCGGCGACGCTGGCCAACCGGCTGGTCGCCGAATGGAGTGCCGCGCTCGGCCAGATCACGCCCGGCGGCCAGGACGCGCCGGTGCTGGACGGCGAAGTGCTGTCGTTCGTGGTCAACGGCGTGCGTTACAGCGGCGTGCGTCCGTCCTGCGGCGCCGGCGAGCTGATGATGCGCCAGGCGGCGCTGCTGATCGAAGCCAGCGAAGGCAAGGAAAAGAAGCGCGAGAAGCGCTGGAACGAAATCGAAGAGTCGCTGGACGAACTCCAGCAGACCCTCGCCGGCAACGTCGGCTGA	MRPVALIAFAVLATSVPVQALAWGNSSCAVTIGRGWPPAVGNYGGAVERLFEGKDAPTLSLLTLPTRGVETGLSLRPGEGGDWTLRYSRASERVYSWVEGGSRGGLQLRTEQQPEVFETPIPATLANRLVAEWSAALGQITPGGQDAPVLDGEVLSFVVNGVRYSGVRPSCGAGELMMRQAALLIEASEGKEKKREKRWNEIEESLDELQQTLAGNVG				NA	NA	NA	NA	NA
BMS020_08403	1683	aceF_2	COG0508	Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	ATGGCCGAAATCAAGGAAGCACTTGTCCCCGATATCGGTGACTACAGCGATGTTCCGGTGATCGAAGTGCTGGTGTCGGTCGGCGACACGGTGAAGAAGGACCAGAGCCTGGTCACGCTGGAATCGGACAAGGCGACGATGGAAGTGCCCTCGTCGGTGTCCGGCGTGGTCAAGGAGATCAAGGTCAAGGTCGGCGACAGCCTGTCCGAGGGCAAGGTGGTGGCGCTGATCGAGGTCGCCGAAGCCGATGCCGCGCCGGCCAAGGCCGCCGCTCCGGCGCCTGCCGCGAAGGCCGAAGCGCCGGCCCCGTCGCCGGCTCCGGCTACCGCCGCGCCCGCTCCGGCCCAGGCCGGTGGCGTGGTCGAGGCGCTGGTGCCGGACATCGGCGACTACGACAACGTGCCGGTGATCGAGGTGCTGGTGTCGGTCGGCGATACGGTCAAGAAGGACCAGAGCCTGGTCACGCTGGAATCGGACAAGGCGACGATGGAAGTGCCGTCGTCGGTCGCCGGCGTGGTCAAGGAAATCAAGGTCAAGGTCGGCGATGGGCTGTCGCAGGGCAGCGTGGTCGCGCTGATCGAAGCCGCCGGCGCCGCACCGGCCGCCGCGCCGCAGCCGGCCCCGGTCGCCGCCGCGCCCGCGCCGGCCGCCAAGGTCGAATCCGCGCCGGCGCCTGCTGCGCCGCAGCAAAGTTCGGCCGGCGTGCCGAGCACGCCGCCGGTGACCTTCGATGCCGACAGCGTGCTGCCGTCGAAGGTGGCGTACGCCAGCCCGGTGGTGCGCGTGTTCGCGCGCGAGCTCGGCGTCGACCTCAACCAGGTCAAGGGCAGCGAGAAGGGCGGCCGCATCACCCGCGAGGACGTGCAGAAGTTCGTCAAGGCCGCGCTCAGCGGCGGGGTGCCGGCCGCGGCCGGTGGCACCGTGGCCGCCGGTGGCGGGCTCAACCTGCTGCCGTGGCCGAAGGTCGACTTCAGCAAGTTCGGCGAGGTGGAAACCAAGCCGCTGTCGCGGATCCAGAAGATCTCCGGCGCCAACCTCGCCCGCAACTGGGCGATGATCCCGCACGTCACCCAGTTCGACCAGGCCGACATCACCGCGCTGGAAGAGCTGCGCGTGGCGCTGAACAAGGAAGCGGAGAAGGCCAAGAGCGGCGTCAAGCTGACCATGCTGGCGTTCCTGATCAAGGCCAGCGCCGCGGCGCTGAAGCAGTTCCCGCAGTTCAACGCCTCGCTCGACGCGACCGGCGAGAACCTGACGCTGAAGAAGTACTTCCACATCGGTTTCGCCGCCGACACGCCGAATGGTCTGGTCGTGCCGGTGATCCGCGACGTCGACAAGAAGGGCGTCAACCAGATCGCGCAGGAAACCGGCGAGCTGGCCAAGAAGGCGCGCGACGGCAAGCTCGGCCCGGCTGACATGTCCGGCGGCTGCTTCTCGATTTCCTCGCTGGGTGGCATCGGCGGCACCGCGTTCACCCCGATCGTCAACGCGCCGGAAGTGGCGATCCTCGGCGTGTCCAAGTCGTCGATCCAGCCGGTGTGGGACGGCAAGCAGTTCCAGCCCACGCTGATGCTGCCGCTGTCGCTGAGCTACGACCACCGCGTCATCGACGGCGCGCTGGCCGCGCGCTTCACCACGTACCTGTCGCAGGTGCTGGCCGACATGCGGCGCGTGCTGCTGTGA	MAEIKEALVPDIGDYSDVPVIEVLVSVGDTVKKDQSLVTLESDKATMEVPSSVSGVVKEIKVKVGDSLSEGKVVALIEVAEADAAPAKAAAPAPAAKAEAPAPSPAPATAAPAPAQAGGVVEALVPDIGDYDNVPVIEVLVSVGDTVKKDQSLVTLESDKATMEVPSSVAGVVKEIKVKVGDGLSQGSVVALIEAAGAAPAAAPQPAPVAAAPAPAAKVESAPAPAAPQQSSAGVPSTPPVTFDADSVLPSKVAYASPVVRVFARELGVDLNQVKGSEKGGRITREDVQKFVKAALSGGVPAAAGGTVAAGGGLNLLPWPKVDFSKFGEVETKPLSRIQKISGANLARNWAMIPHVTQFDQADITALEELRVALNKEAEKAKSGVKLTMLAFLIKASAAALKQFPQFNASLDATGENLTLKKYFHIGFAADTPNGLVVPVIRDVDKKGVNQIAQETGELAKKARDGKLGPADMSGGCFSISSLGGIGGTAFTPIVNAPEVAILGVSKSSIQPVWDGKQFQPTLMLPLSLSYDHRVIDGALAARFTTYLSQVLADMRRVLL	PGPT0001390_1579	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
BMS020_08404	747			hypothetical protein	ATGTCCCGTCCGCTTGCCGCCGCCGCACTGTGCGCGCTGGTCCTCATCGCCGACCCTGCGCTTGCCGACGACTTCCGCTGCGATGTGCACAGCGACTACGACCTCACGCTCAACGCGCGCAGCCTGATCCTGATCCGCGACCAGGGCGAGCCGCAGCGGCTGGTGATGCGCCAGGGCCGGCTGTTCGTCGACGATGCCTGGGTGTCGCTGTCGGCGCAGGATAGCGAGCGCCTGGCGCAGTTCGAGCGCACCGCGCGCGACACCGTGCCGCTGGCGCGCGAGGTCGGGCAGCAGGCCGCCGACATCGCGCTGACCGCGCTGGGCGAAGTCGCCGTCGGCTTCAGCCGCGACCCGGCCAGCACCCGCCGCCAGCTGGCCGAGATCCGCAGGAAGGTCGAGCTGCGCGTCGACGACACCTTCCGTGGCGGGCGCTTCACCGAGGTCGACATCGATGGCGAGATCGGCGGCCTGGTTGCCGAGCTGCTGCCGCAGCTGATCGGCGATGTCGTCGCCGGCGCGGTGCAGGCGGCGCTGACCGGCAAGGAGCCGGAGCTGGCCTCGCTCGATGGCCTGGATGCGCGCATCGAGCGCCAGGTCGAGCCGCAGGCGCGCAAGCTGCGGCCCAAGGCCGAGCAGTTGTGCACGCGCATGCGCGCGCTCGACGCGCTGGACGATGCGCTGGCGTATCGTCTTCCGTCGGGGGCGGCGCTGGACCTGTTGCGCGTGCAACTGAAACCGGCGCAGTGA	MSRPLAAAALCALVLIADPALADDFRCDVHSDYDLTLNARSLILIRDQGEPQRLVMRQGRLFVDDAWVSLSAQDSERLAQFERTARDTVPLAREVGQQAADIALTALGEVAVGFSRDPASTRRQLAEIRRKVELRVDDTFRGGRFTEVDIDGEIGGLVAELLPQLIGDVVAGAVQAALTGKEPELASLDGLDARIERQVEPQARKLRPKAEQLCTRMRALDALDDALAYRLPSGAALDLLRVQLKPAQ				NA	NA	NA	NA	NA
BMS020_08405	516			hypothetical protein	ATGGACACCACCACATTGACCGGCCTGCCCGCGCAGCTGCGTGGCGACTGCCGGGTGCTGGTCCTGGGTTCGATGCCCGGCGCGCAGTCGCTGGCGCAGGCGCGCTACTACGCGCATCCGCGCAACCGGTTGTGGCCGCTGCTGGCGCAGCTGGGCGGTTTCGATGCCGCGCTCGATTACCCGGCGCGGTTGCAGGCCGCGCAGCACGCCGGGTTCGGGCTGTGGGACGTGATCGGCCAATGCCGGCGCGATGGCAGCCTGGACACCGCGATCGAGCGCGGCAGCATCGTCGCCAACCCGATCGCGGCGTTGCTGCCGCAGCTGCCGGAACTGGCGCTGATCGCCTGCAACGGCAGCGCCGCCGCGCAGGCCTGGCAGCGCTACATCGCGCCCGGCCTGGGCACGGCGCCGCCGGTACTGGCGCTGCCGTCGACCAGCCCGGCCAATGCGGCGTGGTCGTTCGAGCGGCTGCTGCAGGCCTGGTCGGTGCTGCGGCCGCAGCTGCGTTCCGGCTGA	MDTTTLTGLPAQLRGDCRVLVLGSMPGAQSLAQARYYAHPRNRLWPLLAQLGGFDAALDYPARLQAAQHAGFGLWDVIGQCRRDGSLDTAIERGSIVANPIAALLPQLPELALIACNGSAAAQAWQRYIAPGLGTAPPVLALPSTSPANAAWSFERLLQAWSVLRPQLRSG				NA	NA	NA	NA	NA
BMS020_08406	669	ompW_4	COG3047	Outer membrane protein W	ATGCGCACCCTTTCCATCCTGGGCCTGGCCACCGTTTCCGCGCTCGCCATCGCGCCCACTGCGTTCGCGCAGGACGCCAGCGGCCAGCAGGACATCTACGGCAACCCGGTCAGCAGCGAAACCGCCTCCGGCAAGCACTGGGCGGTGGTCGGCAGCGCGACCATGCTGCAGCCCAAGAGCGACGCCGCGCCTGGCGTGAAGAAGCTCGACGGCGATGTCGCCCCGACCATTAGTGCCAGCTACTTCTTCAACGACAACATCGCGGTCGAGCTGTGGGGTGCCGCCGACAAGTTCAACCACCGGGTCAAGAACGATGCTGGCAAGGTTGGCACCGTCGAGCAGCAGCCGCTGGCGCTGAGCGCGCAGTACCACTTCGGCCAGGCCGACACCACCTTCCGCCCGTTCGTCGGCGTTGGTTACTACGAGTCGAACTTCAGCAACGAGAAGGTCGATGCGCTGGCCGATGGCGGCCACGTCGGCCTGGACAAGGCCAAGGGTGCGATCGGCACCGTCGGCCTGGACATGAACATCAACTCGACCTGGTTCGCCCGCGCCGATGCGCGCTACATGCACGCGCGTCCGGAGTTGAACGTCGCCGGCGCCGGCACCGGCCAGGACCTGAAGCTGGATCCGTGGACGGTCGGCATCGGTATCGGCGCACGCTTCTGA	MRTLSILGLATVSALAIAPTAFAQDASGQQDIYGNPVSSETASGKHWAVVGSATMLQPKSDAAPGVKKLDGDVAPTISASYFFNDNIAVELWGAADKFNHRVKNDAGKVGTVEQQPLALSAQYHFGQADTTFRPFVGVGYYESNFSNEKVDALADGGHVGLDKAKGAIGTVGLDMNINSTWFARADARYMHARPELNVAGAGTGQDLKLDPWTVGIGIGARF	PGPT0022210_880	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	OTHER_INTEGRAL_MEMBRANE_REMODELLING__PROTEINS,PGPT0022210-ompW|yciD-K07275	NA	NA
BMS020_08407	840		COG1464	Membrane lipoprotein TpN32	ATGCGCGGCCACGCCGCCTCCGTCTGGATCCCCAACACGATGAAGACCTCCCTGTTCCGTCCGCTCCTTGTCGCCGCCACGCTGGCGTTGTCCGCCTGCGGCGGCAGCCCCTCCGGCAATGGCGATACCCTCACCGTCGCCGCCACCGCGGTGCCGCACGCCGAGATCCTCGAAGTGGTCAAGCCGCTGCTGGAGAAGGAAGGGGTCAAGCTCGACGTGCGCGTGTTCAACGACTACGTGCAGCCCAACGACCAGGTCGTGCAGAAGCAGATCGACGTCAACTACTTCCAGACCGAGCCGTACCTGCAGGCCTACAACAAGGACCGCGGCAGCCACCTGGTCACCGTGGTCGGCGTGCACATCGAACCGTTCGGTGCGTACTCGCGCCGCTACAAGGCGCTGGCCGACCTGCCGCAGGGCGCCGACGTGGTGATCCCCAACGACCCGAGCAACAACAGCCGCGCGCTGATCCTGCTCGACAAGGCCGGGCTGATCAAACTGAAGGATCCGTCGAACGCGTTGTCGACCCAGCGCGACATCATCGAGAACCCGAAGGAGCTGAAGTTCCGCGAGCTGGATTCGGCGATGCTGCCGCGCGTGCTCGATCAGGTCGATCTGGCGCTGATCAACACCAACTACGCGCTCGATGCCGGGCTCAAGCCGACCCAGGATGCGCTGGCGATCGAGAGCAAGGACTCGCCGTACGTGAACTACCTGGTCGCGCGCGAGGACAACAAGGACGATCCGCGCGTGCAGAAGCTGGCCAAGGCCCTGACCGGCCCGGAAGTGAAGGCCTTCATCGAACAGAAATACCAGGGCGCGGTGCTGCCGGCGTTCTGA	MRGHAASVWIPNTMKTSLFRPLLVAATLALSACGGSPSGNGDTLTVAATAVPHAEILEVVKPLLEKEGVKLDVRVFNDYVQPNDQVVQKQIDVNYFQTEPYLQAYNKDRGSHLVTVVGVHIEPFGAYSRRYKALADLPQGADVVIPNDPSNNSRALILLDKAGLIKLKDPSNALSTQRDIIENPKELKFRELDSAMLPRVLDQVDLALINTNYALDAGLKPTQDALAIESKDSPYVNYLVAREDNKDDPRVQKLAKALTGPEVKAFIEQKYQGAVLPAF	PGPT0020510_4686	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
BMS020_08408	756			hypothetical protein	ATGGCCGCCGGGACCGGGTCGCGCACGATCGTGTTGTCGGCACCGGCCCGCGGCGCCTCGATCGCCGGTTCGGCGATCGCCGCGGCGGTATTGGGCGCATCGATCAGCGCCGAATACTCGCGCACCAGGCGACCATTGCCCCAATCGACTTCGATCAGGAAGCTGATCGCCTTCTGGTCCACCGGCACGCTGCTGGTCACGCGGATCACCGCATGCCCGCGCGCGTCCTGGGTGAACTGGAACTGCAGGTCGCTGATCAGCCCGCTCGGACGCTCCAGGCCGACGCGTGCGAAGGTCGCCGGCGAGGCCAGCGCGGCACGTGCGCTCTCCAGCTCCCCGGGCTCGTTGGAAATGACCGGGATCTCGGCCACCAGCGGCTGCCCGGGCTTGGACAGCACGCGGATGTCGCCCAGGCCCAACGCCATCGCAGCACTGCTGCAAAGCGTCAAAACCAGCGCCCCGAGACCTTGGATCGGGCGTTTGCAGCCCCTGCCCTGCTTTTTCATAGGCGCCAATATAGCCGTTGCCTCCGCTTTGGAATACCGCCACTGGCGGTGCACGCACGGCTGCGCCCGCTGGCGGCGCGCGACTGCTATGGCCACTACGCCGCGCCTGGCACGCCGATCACCGCCTGGCGGCATCGACGAACAGTTCGCGCTGGAACTGCGCAGCACCTGCAATCCACCGATGCATGCCGATGCCGACGTGCGCCTGGATCCGAGACTGCCCGGCTGCTTCGCGCGGCCGCTGCGCTGA	MAAGTGSRTIVLSAPARGASIAGSAIAAAVLGASISAEYSRTRRPLPQSTSIRKLIAFWSTGTLLVTRITACPRASWVNWNCRSLISPLGRSRPTRAKVAGEASAARALSSSPGSLEMTGISATSGCPGLDSTRMSPRPNAIAALLQSVKTSAPRPWIGRLQPLPCFFIGANIAVASALEYRHWRCTHGCARWRRATAMATTPRLARRSPPGGIDEQFALELRSTCNPPMHADADVRLDPRLPGCFARPLR				NA	NA	NA	NA	NA
BMS020_08409	1023	asd2	COG0136	Aspartate-semialdehyde dehydrogenase 2	ATGAACGCAAGTCGTCGTTTCAATGTCGCCGTCGTCGGTGCCACCGGTGCCGTGGGCGAAACCATGCTGAGCATCCTCGCCGAGCGCAACTTCCCGGTCGCCAAGCTGATCCCGCTGGCCTCCTCGCGTTCGGCCGGCGGCCAGATCGAATTCAACGGCGAGAAGGTCGACGTGCTCGACCTGGCCAGCTTCGACCCGGCCGGCGTGGACATCGCGCTGTTCTCCGCCGGTGGCAGCGTGTCGAAGGAATACGCGCCGAAGTTCGCCGCCGCCGGGGCGGTGGTGATCGACAACTCCTCGACCTTCCGCTACGACGACGACGTGCCGCTGGTGGTGTCGGAAGTGAACCCGCACGCGCTGAAGAACCGCCCGCGCGGCATCATCGCCAACCCCAACTGCTCGACCATGCAGCTGATGCCGGTGCTGGCGCCGATCCACAAGGAATACGGCATCGAGCGCGTCAACGTGGCGACCTACCAGTCGGTGTCCGGCGCCGGCCGTTCGGGCATGGAAGAGCTGGGCAAGCAGACCGCGCAGCTGCTGGCGTTCCAGGAGATCGAGCCGCAGAAGTTCCAGGCCCAGATCGCCTTCAACCTGATCCCGCACATCGACGACTTCCAGCCCAACGGCTACACCAAGGAAGAGATGAAGCTGGTCTGGGAGACGCAGAAGATCCTCGAGGACAGCAGCATCCAGGTGAACCCCACCGCGGTGCGCGTGCCGGTGTTCTTCGGCCATTCCGAGGCGGTCAATATCGAGACCAAGAAGAAGATCAGCGTCGAGGCCGCGCGTGCGCTGCTCGAAGCCGCGCCGGGCGTGGAAGTGGTCGACCGCCACGAGGCCGGTGGCTATCCGACCCCGGTGACCCATGCCTCGGGCAGGGACCCGGTGTTCGTCGGCCGCATCCGCGAAGACTTCTCGCATCCGCGTGGCCTGAACCTGTGGGTCGTCGCCGACAACATCCGCAAGGGCGCGGCGCTGAACGCGGTGCAGCTGGCCGAGCTGGTCGCGCAGGAAGGCTGA	MNASRRFNVAVVGATGAVGETMLSILAERNFPVAKLIPLASSRSAGGQIEFNGEKVDVLDLASFDPAGVDIALFSAGGSVSKEYAPKFAAAGAVVIDNSSTFRYDDDVPLVVSEVNPHALKNRPRGIIANPNCSTMQLMPVLAPIHKEYGIERVNVATYQSVSGAGRSGMEELGKQTAQLLAFQEIEPQKFQAQIAFNLIPHIDDFQPNGYTKEEMKLVWETQKILEDSSIQVNPTAVRVPVFFGHSEAVNIETKKKISVEAARALLEAAPGVEVVDRHEAGGYPTPVTHASGRDPVFVGRIREDFSHPRGLNLWVVADNIRKGAALNAVQLAELVAQEG	PGPT0014045_3952	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133	NA	NA
BMS020_08410	1047	ghrB_3	COG1052	Glyoxylate/hydroxypyruvate reductase B	ATGGCTGAGTCGCGGCCACGGGTGTGGGTCAGCCAGCCGCTGTTCGACGACGTCGTCGAACAGCTCGGCGCGCATTTCGAGCTGACCACCACCGCGGACGTGACCAAGTATTCGCCGGAGCAGATGGCCGCGCACCTGGCCGACCTGGATGGCGCGATGGTCACGCTCAACGAGCGCATCGGCGCCGCCGAGATCGCCAACGCGCCGCGCCTGCGCGCGATCGCCAATGTCGGCGTCGGCTACAACAACCTGGATGTCGCCGCGCTCAGCGCCGCCGGCATCCTCGCCAGCAACACGCCGGACGTGTTGACCGAGACCACCGCCGACCTCGGCTTCTCCCTGCTGATGGCCGCCGCGCGCCGCATCACCGAGGCCGAGCGCTGGCTGCGCGAGGGGCACTGGGGCCAGTGGTCGTTCCAGGCCATGCTCGGCGCGGACATCCACGGTACGACGCTCGGCATCCTCGGCATGGGCCGCATCGGCCAGGGCATCGCCCGCCGCGGCCACCACGGCTTCGGCATGAAGGTGCTGTACCACAACCGCTCGCGGTTGCCGGAGGCGACCGAGCGCGAGGTCGGCGCGGACTACGTCGGCTTCGACGAGCTGCTGGCGCAGGCCGACCACCTGGTGCTGGTGCTGCCGTACACGCCGGGCAACCACCACATCATCGACGCTGCCGCGCTGGCGCGGATGAAGCCGAGTGCGACGCTGATCAACATCGCCCGCGGCGGCATCGTCGACGAACTGGCGCTGGCCGATGCGCTGGCCAACGGCCGCCTGGCCGCTGCCGGCCTCGACGTCTTTGAGGGCGAGCCGCGGGTGCGCCCGGAGCTGCTGGCGCTGCGCAACGTGGTGCTGACCCCGCATATCGGCAGCGCCTCGCTGGCCACGCGCCGGGCGATGGTGCAGCTGGCAGTGGACAACCTGGTCGCCGCGCTCGGCGAAGGTCCGAACGCCGGCAATCCGCCCAACGCGATCAATGCCGACGCCGTCGACGCGGCGGGCATCGCCGTGCGCGCGAAAAAAATCGCTGGCATCAAACGATAG	MAESRPRVWVSQPLFDDVVEQLGAHFELTTTADVTKYSPEQMAAHLADLDGAMVTLNERIGAAEIANAPRLRAIANVGVGYNNLDVAALSAAGILASNTPDVLTETTADLGFSLLMAAARRITEAERWLREGHWGQWSFQAMLGADIHGTTLGILGMGRIGQGIARRGHHGFGMKVLYHNRSRLPEATEREVGADYVGFDELLAQADHLVLVLPYTPGNHHIIDAAALARMKPSATLINIARGGIVDELALADALANGRLAAAGLDVFEGEPRVRPELLALRNVVLTPHIGSASLATRRAMVQLAVDNLVAALGEGPNAGNPPNAINADAVDAAGIAVRAKKIAGIKR	PGPT0001310_26	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0001310-ghrB-K00090	NA	NA
BMS020_08411	1104	aroC_2		Chorismate synthase	ATGAGCGCGAACAGCTTCGGCAAGCTGCTGACGGTCACCACCTTCGGCGAATCGCACGGGCCGGCGATCGGCTGCGTGGTCGATGGCTGCCCGCCGGGGCTGGAGATCAGCGCCGAAGAATTCGCCCACGACCTGCAGCGCCGCGCCACCGGCAAGAGCCGGCATACCTCGGCGCGGCGCGAGGCCGACGAGATCGAGATCCTCTCCGGCGTCTACGACGGCCGCACCACCGGCACCCCGATCGGGCTGCTGATCCGCAACACCGACCAGCGCAGCAAGGACTACGCGAACATCGCCGCGCAGTTCCGCCCCGGCCATGCCGACTACAGCTACTGGCAGAAGTACGGCATCCGCGATCCGCGCGGTGGCGGGCGCAGCTCGGCGCGCGAGACCACGATGCGCGTGGCCGCCGGCGTGATCGCCAAGAAGTGGCTGCAGCAGCGCTACGGCGTGACCGTGCGCGGCCATCTGTCGCAGCTGGGCGAGATCAAGCCGGCCGGCTTCGACTGGAGCGCGGTCGAGGACAACCCGTTCTTCTGGCCGCACGCGGCCCAGGTCGAAGAACTTGAGACCTACATGGATGCGCTGCGCAAGTCCGGCGATTCGGTCGGCGCGCGCGTCGACGTGGTCGCCGACGGCGTGCCGCCGGGCTGGGGCGAGCCGATCTACGGCAAGCTCGATGGCGAACTGGCCGCGGCGCTGATGAGCATCAACGCGGTCAAGGGCGTGGAAATCGGTGACGGCTTCGCCGCCGCGGCGCAGAAGGGCACCGAGCATCGCGACCTGATCACCCCGCACGGGTTCGCGTCGAACCACGCTGGCGGCATCCTCGGCGGCATCTCCACCGGCCAGCAGGTCACCGCCTCGATCGTGCTCAAGCCGACCTCGAGCCTGCGCCTGCCGGGCGCCACGGTGGATGTCGACGGCAACGTCGTCGACGTGATCACCACCGGCCGCCACGATCCCTGCGTCGGCATCCGCGCCACCCCGATCGCCGAGGCGATGGTCGCGCTGGTGCTGATGGACCAGGCGCTGCGTCATCGCGCGCAGTGCGGCGACGTCGGCGAGGTGTCGCCGCGGATCCCCGGACGCATCGATGGCTGA	MSANSFGKLLTVTTFGESHGPAIGCVVDGCPPGLEISAEEFAHDLQRRATGKSRHTSARREADEIEILSGVYDGRTTGTPIGLLIRNTDQRSKDYANIAAQFRPGHADYSYWQKYGIRDPRGGGRSSARETTMRVAAGVIAKKWLQQRYGVTVRGHLSQLGEIKPAGFDWSAVEDNPFFWPHAAQVEELETYMDALRKSGDSVGARVDVVADGVPPGWGEPIYGKLDGELAAALMSINAVKGVEIGDGFAAAAQKGTEHRDLITPHGFASNHAGGILGGISTGQQVTASIVLKPTSSLRLPGATVDVDGNVVDVITTGRHDPCVGIRATPIAEAMVALVLMDQALRHRAQCGDVGEVSPRIPGRIDG	PGPT0012875_2451	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012875-aroB-K01736	NA	NA
BMS020_08412	930	prmB_2	COG2890	50S ribosomal protein L3 glutamine methyltransferase	ATGACTGCCGCCGCGGCCGACGAACTGCACACGATCATCGACCTGATCCGCTACGGCACCAGCCGTTTCAACGAAGCGGGCCTGACCTTCGGCCACAGCTACGACAACGCGCTGGACGAAGCGACCCAACTGGTGCTGCACAGCCTGCATCTGCCGCACGACCTGGGCCCGGCCTATGGCCAGGCACGGCTGCTGCGCAGCGAGAAGGCGCAGGTGCTGGCGCTGTTCGAGCGCCGCATCAACGAGCGCGTGCCGGCCGCCTACCTGGTCGGCGAGGCCTGGTTCGCCGGGCTGAGCTTCAAGAGCGACAGCCGCGCGCTGGTGCCGCGTTCGCCGATCGCCGAGCTGATCGAGACCGGCTTCGAGCCCTGGCTGGCCGGCCGCGATGTGCATCGCGCGCTGGACCTGTGCACCGGTTCGGGCTGCATTGCCATTGCGATGGGCCACTACAACCCGAACTGGCAGGTCGACGGCGCCGACATCAGCGACGATGCGCTGGCGCTCGCCAGCGAAAACAAGGAGCGCCTGCTCGCCCACAACGTGGAACTGGTCAAGTCGAACCTGTTCGACGGGCTGAGCGGCCGCCACTACGACCTGATCGTGACCAATCCGCCGTACGTCACCAACGACGAGACCGATGCGCTGCCGCAGGAGTATTCCTACGAGCCGGAGCTGGGCCTGCGTGCCGGCGACGATGGCCTGGATCTGGTGCTGAAGATCCTGCGCGATGCCCCGCTGCACCTGAGCGAGGACGGCCTGCTGATCTGCGAGGTCGGCGAGTCCGAGCAGCACCTGGTCAAGCTGCTGCCGGAAGTCGACTTCGCTTGGATCGAGTTCAAGGTCGGCCAGATGGGCATCTTCGCGGTCGAATGCCGCGAGCTGATCGCGCACAGCGCGCGCATCACGGAGCTGGCTGCAAGCCGTCCATGA	MTAAAADELHTIIDLIRYGTSRFNEAGLTFGHSYDNALDEATQLVLHSLHLPHDLGPAYGQARLLRSEKAQVLALFERRINERVPAAYLVGEAWFAGLSFKSDSRALVPRSPIAELIETGFEPWLAGRDVHRALDLCTGSGCIAIAMGHYNPNWQVDGADISDDALALASENKERLLAHNVELVKSNLFDGLSGRHYDLIVTNPPYVTNDETDALPQEYSYEPELGLRAGDDGLDLVLKILRDAPLHLSEDGLLICEVGESEQHLVKLLPEVDFAWIEFKVGQMGIFAVECRELIAHSARITELAASRP				NA	NA	NA	NA	NA
BMS020_08413	651			hypothetical protein	ATGTTCAACCGGAATACCTTGATCGTCCTGGTGGTCGCACTGGCCGCCGGCCTCGGTCTGGCGCTGGGGCAGAAGTACTTCAGCGCCAACGGCGATGCCCACTGGCCGCCGACCCGGACGGTCACCTTCTACCCCACCCCGCGCGCGCTGCCGGACTTCAGCCTGCGCCAGTCCGACGGCACCGCGCTGGTGCCCGGCGAGCTGAAGGGCCACTGGACCCTGGTATTCCTGGGCTTCACCTCCTGCCCGGATGTCTGCCCGACCACCCTGACCGACCTGGCCAGCGCCCAGGCGCGCTGGGCCGGCACCCCCGAGGGCCTGCGCCCGCGCCTGCTGTTCGTCTCGGTCGACCCGCAGCGCGACCAGCCCGGCCGCCTGGGCGACTACGCCCACGCCTTCCACAAGGACACGCTGGCGGCGACCGCCGATACGCCGGCGCTGGAGAATTTCGCCGCTGCGCTGGGCTTCGTGTTCCAGAAGGTGCCCGGCGCGCATTTCGCCGAGAACCCCAACGACTACACGATGGACCACTCCGCGGCGCTGGCCGTGCTCGACCCGCAGGGCCGCCTGGCCGGGCTGGTGCGGCCGCCATTCGACCCGCAGGCCATCGCCACCGATTTCATCACGCTGACCCAGGACACCGCCCCGTGA	MFNRNTLIVLVVALAAGLGLALGQKYFSANGDAHWPPTRTVTFYPTPRALPDFSLRQSDGTALVPGELKGHWTLVFLGFTSCPDVCPTTLTDLASAQARWAGTPEGLRPRLLFVSVDPQRDQPGRLGDYAHAFHKDTLAATADTPALENFAAALGFVFQKVPGAHFAENPNDYTMDHSAALAVLDPQGRLAGLVRPPFDPQAIATDFITLTQDTAP				NA	NA	NA	NA	NA
BMS020_08414	843	psd_2	COG0688	Phosphatidylserine decarboxylase proenzyme	GTGAGCTTCATCACTTCGCTGACCTACGTGCTGCCGCACCGCCTGCTGTCCTCGCTGGCGCGGCGCCTGGCCTACTCGACCAACCCGGCGATCAAGCAACGCCTGATCGACACGGTCAGCGCGAAGTTCGGCGTCAACCTGGCCGAGGCGGCCGATCCCGATCCGACCGCCTACCCCAGCTTCAATGCCTTCTTCACCCGCGCCCTGAAGCCCGGCGCGCGCGTCGCCGCGGCCGATCCGCGCGCACTGCTGATGCCGGCCGACGGACGCATCAGCCAGCTCGGCCGCATCGAGGCCGGCCGCATCTTCCAGGCCAAGGGCCAGTCGTTCACCGCGGCCGAGCTGCTCGGTGACGCCGCCGCGGCGCTGCCGTTCAACGACGGCCTGTTCGCCACCATCTACCTGTCGCCGAAGGACTACCACCGCGTGCACATGCCGTGGACCGGCACCCTGCGCGAGACCGTGCACGTCCCGGGGCGCCTGTTCAGCGTCGGCCCGGACGCCGTGCGCAACGTGCCGCGGCTGTTCGCCCGCAACGAGCGTCTGGTCTGCCACTTCGACACCGATTTCGGCCCGATGGTGCAGGTGATGGTCGGCGCGCTGCTGGTCTCGGGCGTGGAAACGGTCTGGAGCGGCGAGGAAATCCCCGCCTATGGCGACCGCATCACCCGCAAGGACTGGCGCGGCAAGGACATCACCCTGCAGCGCTTCGCCGAGATGGCACGCTTCAACTACGGCTCCACCGTGATCGTGCTGCTGCCGCCAGGCGTGGCCGCCTTCGACCCGGCACTGCAGGCCGAAAGCCCGACCCGGCTCGGACAGGTCCTGGCGCGACTGGACTGA	MSFITSLTYVLPHRLLSSLARRLAYSTNPAIKQRLIDTVSAKFGVNLAEAADPDPTAYPSFNAFFTRALKPGARVAAADPRALLMPADGRISQLGRIEAGRIFQAKGQSFTAAELLGDAAAALPFNDGLFATIYLSPKDYHRVHMPWTGTLRETVHVPGRLFSVGPDAVRNVPRLFARNERLVCHFDTDFGPMVQVMVGALLVSGVETVWSGEEIPAYGDRITRKDWRGKDITLQRFAEMARFNYGSTVIVLLPPGVAAFDPALQAESPTRLGQVLARLD	PGPT0007700_2692	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DECARBOXYLASE_ACTIVITY,PGPT0007700-psd|PISD-K01613	NA	NA
BMS020_08415	381			hypothetical protein	ATGACGCCACGGAAGACTCCGCGCTGGCCATGGGCGCTGGCGCTGGCACTGACCGCGACCGGCTGCGGCCACAAGAGCGAGCAGCAGCAACTGGATGACCTGCGCGAGGGTCTGGCCTATCGCGGCTACCGGCACTTCAGCGAGCACGGGCTGCCGCTGGCGCACGCAGCGCTGGTGCGCAGCGCCACGCTCGCGCACGAACCGCCGCCGCCGGCATGGCCGGAGATGGCCTGCGGCACGCACATGGGCCTGTCCTACCTGGCCCTGAGCGGCAACAAGCTGACCCCGGCGATCGTCGAGGCCGACCTGCTGGAGCGCGACTGCAACGGTGCGGTGATCGCCAATGCGCTGCGCGCGGTGGCCTTCAAGCGCCTGCAGTGA	MTPRKTPRWPWALALALTATGCGHKSEQQQLDDLREGLAYRGYRHFSEHGLPLAHAALVRSATLAHEPPPPAWPEMACGTHMGLSYLALSGNKLTPAIVEADLLERDCNGAVIANALRAVAFKRLQ				NA	NA	NA	NA	NA
BMS020_08416	201			hypothetical protein	GTGATCGCCCGCATCCTCGGCAAGGCGCTGTGGCAGGTCGCCAGGGAACAGGGCAGCCCGGCGCTGCGCCAGCTGCTCACCTTCGTCGAAATGCAGTCGCTGGATGCCGGCGCCGAGGCCGCGACCGGCGCGGCCCGCGGCTGGTGGACGCGCCTGCGGGCGTGGTGGAACGACCAGGTGGCGCCGGCGCCCGCCTCCTGA	MIARILGKALWQVAREQGSPALRQLLTFVEMQSLDAGAEAATGAARGWWTRLRAWWNDQVAPAPAS				NA	NA	NA	NA	NA
BMS020_08417	1572			hypothetical protein	ATGCCGTTTCCCCGCTTCGCACCGCCCCGCCGGTCGCTCCTGGTCGCCATCCTGCTGCCGACCCTCGTTCCCGTCGCCCATGCCGCCTCGCGCGAGGAGAAGGTCGCCGCGCTGGAGCAGCGCATGCAAGCTGCCGAGCAGCGCTACCGCGATGCGCTGGTACTGGTGACCAACGCCGATCCCAAGGGGCAGAAGGAATCCGACGCGGCGCTGGAGGACATGGAGGACGTGATCGACGCCTGCATCAAGCAGCGCGGTTGCGAGGTCAACACGATGCTGGCGACCTACAAGCGCCTGCTCAAGGCCGATGCCGACGCGCAGGCGCCGGACGAGGAGGGCGACGATGCCGACGGCCTGCTCGAAGCCGATCCGGACCATGTCGGGCCGCTGGCCGCCGACGTGCCCGAGGCGGCGCGCGCGGCCAGCCTGCTCAACGACAAGCGGCATGCGTTCGATGACATGGTGCAGTACAACGCGGCGGTGCAGGCCGGCATCCGCCGCTGGCTGACCGACCTGCGCCCGGCGCTGCTGACCAGTTACGAGAACTACGAGAACCTGCGCGCGGTGATGTGGCCGGAATGGCAGAAGCGCGGCCTGCCCGAGGCGCTGCTGTTCGGCATCATGGCCAAGGAATCCAATGGCAAGGCGCATGTCGGCTCGCGCGCCGGCGCGGTGGGACTGATGCAGTTCATGCCGGCCACCGCGGCCCGTTTCGGCCTGGGTCCGGATGGCAGCGGCTTCGACACCCGCTACGACCCGCGCAGTTCGGCCGAGGCCAGCGCCAGCTACCTCAACGAACGCATGGGCCAGCTCAACAACAGCATCGAGATGGCGCTGGCCGCCTACAACGGCGGCGAGGGGCGTGCGGCGCGGGTGTATGCGCAGACCGGCGGGCGCAATTTCTGGGACCAGTCGGTGTACGAGCAGTTCCCGGCCGAGACCAAGGACTACGTGCCGATGGTGATCGCCGCGGCGTGGATCTTCCTGCACCCGCGCCAGTACGGCGTGGAGTTCCCCAAGGTCAATGCCCAGCCGGCGGCGCTGAAGCTGGCCAAGTCGACCACGATCTACGAGCTGACCATCTGCCTGGGCAGCGACGGCACGCGCGATGGCTACATGCGCGCGCTGCGCAACCTCAATCCGCGCTATGAGGCCGATGGCTGGATTCCGGCCGGCACCCTGATCAACGCGACCACCCGCATCGTCGGCCTGTACAACCGCTACTGCGTGAGCGGCCCGCGCGCCGACCTGGCCCGCGCGCTGATCACCGCCGACCTGAACGCGGCGATCGTGCGGCCAACGGCCAGCAGCTACACCGGCAGCGTCGCGGTCGGCGATGCCAGCCCGATGCCGGGCGTGCCGACCACGGTGGCCAGCGGCCGTCCCGAGCCGGTCAAGCCGAAGGCCAAGCAGGCGCGCAGCTACAAGGTGGCCAGGGGCGATACGCTCGGCCGTGTCGCGCAGAAGTACCAGTGCGAGATCAAGGTGCTGGCTAAGGCCAACCGGCTGAAGGCGCCGGCCTATGCGCTCAAGCCGGGGCAGACGCTGAAGCTGGAAGGCTGCGACCGCTGA	MPFPRFAPPRRSLLVAILLPTLVPVAHAASREEKVAALEQRMQAAEQRYRDALVLVTNADPKGQKESDAALEDMEDVIDACIKQRGCEVNTMLATYKRLLKADADAQAPDEEGDDADGLLEADPDHVGPLAADVPEAARAASLLNDKRHAFDDMVQYNAAVQAGIRRWLTDLRPALLTSYENYENLRAVMWPEWQKRGLPEALLFGIMAKESNGKAHVGSRAGAVGLMQFMPATAARFGLGPDGSGFDTRYDPRSSAEASASYLNERMGQLNNSIEMALAAYNGGEGRAARVYAQTGGRNFWDQSVYEQFPAETKDYVPMVIAAAWIFLHPRQYGVEFPKVNAQPAALKLAKSTTIYELTICLGSDGTRDGYMRALRNLNPRYEADGWIPAGTLINATTRIVGLYNRYCVSGPRADLARALITADLNAAIVRPTASSYTGSVAVGDASPMPGVPTTVASGRPEPVKPKAKQARSYKVARGDTLGRVAQKYQCEIKVLAKANRLKAPAYALKPGQTLKLEGCDR	PGPT0023795_960	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023795-mltD|dniR-K08307	NA	NA
BMS020_08418	1521			hypothetical protein	ATGGATCCGATCCTGCTCGGCAAAGGCATCACCGACGCCATCGCCGTGACCCTCGAACCCAGGCTCGGCAACCGCCACGGCCTGGTGGCCGGCGCCACCGGCACCGGCAAGACCGTCACCCTGATGACCCTGGCCGAAGGCTTCTCGCGGATCGGCGTACCGGTGTTCCTGGCCGACGTGAAGGGCGACGTGGCCGGACTGGCGGTGGCCGGCGACGGGGGCGAGAAGCTGCTGCAGCGGGCCGCCGAGATCGGCGTGGCCGATTACGCCCCGGGCGCCAACCCGGTGGTGTTCTGGGACCTGTTCGGGCAACTCGGCCACCCGGTGCGCACCACCGTCAGCGAGATGGGCCCGACCCTGCTGGCGCGCATCCTGGAACTGAACGACACCCAGGCCGGCGTGCTCGACATCGTGTTCAAGCTCGCCGACGACCGCGGCCTGCTGCTGCTCGACCTGGACGACCTGCGCGCGCTGCTGGCGCTGGTGGTCGAAGAGCGCAAGGACATCTCCACCGCCTACGGCCTGGTCAGCGCGCCCTCGGTGGCGGCGATCCAGCGCGCCCTGCTGCGGCTGTCGCAGGACGGTGGCGAAGCCTTCTTCGGCGAGCCGGCGCTGGAACTGGCCGACATCATGCGCACCCACACCGATGGCCGCGGGGTGATCGGCATCCTCGCCGCCGCGCAACTGGTGCTGAAACCCAAGCTCTACTCCACCTTCCTGCTGTGGCTGCTGTCGGAGCTGTTCGAGCAGCTGCCGGAAGTGGGCGACCTGGACAAGCCCAAGCTGGTCTTCATCTTCGACGAGGCCCACCTGCTGTTCGACGACGCGCCGCCGGCGCTGGTGCAGCGCATCGAACAGGTGGTGCGCCTGATCCGCTCCAAGGGCGTGGGCGTGTATTTCTGCTCGCAGTTCCCCGACGACGTGCCGGACACCGTGCTCGGCCAGCTCGGCAACCGCGTGCAGCACGCGCTGCGCGCCTATACGCCGCGCGACCAGAAGGCGGTGAAGACCGCCGCCGAGACCTTCGTCGCCAATCCCAAGCTGGACGTGGCCAAGGCGATCTCCAGCCTCGGCACCGGCGAGGCCCTGGTCTCCACGCTGCAGGGCAAGGGCGTGCCGAGCCCGGTGCAGCAGACCCTGATCGCACCACCACGTTGCCGGATGGGTGCGATCAGCGACGCCGAACGCAGCCAGGTCCGCGCCGGCAGCCCGGTCGGCGGTCGCTACGACACCGCCATCGACCGCGACTCGGCCGCGGAGATGCTGGCCCGCCGCGCCGACGACCGCACCGGCCAGGCCGACGCCGCACCGGCCAGGCCCGGCGCACAGCCCGCGGCGCCGGCCGGCAGCGACGGCGGCAACGACTGGGGCCAGGCGGTCAAGGACGCGGTATTCGGCACCAAGCGCCGCCAGGGCCTGCTGGAAACCATGGCCAAGCAGACCACCCGCACCGTCAGCAGCCAGCTCGGCCGGCAGATCGTCCGCGGCATCCTCGGCGGCATCTTTGGCGGCAAGCGCTGA	MDPILLGKGITDAIAVTLEPRLGNRHGLVAGATGTGKTVTLMTLAEGFSRIGVPVFLADVKGDVAGLAVAGDGGEKLLQRAAEIGVADYAPGANPVVFWDLFGQLGHPVRTTVSEMGPTLLARILELNDTQAGVLDIVFKLADDRGLLLLDLDDLRALLALVVEERKDISTAYGLVSAPSVAAIQRALLRLSQDGGEAFFGEPALELADIMRTHTDGRGVIGILAAAQLVLKPKLYSTFLLWLLSELFEQLPEVGDLDKPKLVFIFDEAHLLFDDAPPALVQRIEQVVRLIRSKGVGVYFCSQFPDDVPDTVLGQLGNRVQHALRAYTPRDQKAVKTAAETFVANPKLDVAKAISSLGTGEALVSTLQGKGVPSPVQQTLIAPPRCRMGAISDAERSQVRAGSPVGGRYDTAIDRDSAAEMLARRADDRTGQADAAPARPGAQPAAPAGSDGGNDWGQAVKDAVFGTKRRQGLLETMAKQTTRTVSSQLGRQIVRGILGGIFGGKR				NA	NA	NA	NA	NA
BMS020_08419	540			hypothetical protein	ATGCACCTGCACCGCTTCACCCACACAGTGGCGCTGGCAACGCTGGGCCTCGCCGCCGGCCTGGCCACCGCCGGCGAACCACAGCGGCAGCCCGGGTACGACCACAGCCCGGGCTATGGCCCGATCATGTGGCCGCTGCGCCGCCAGCACCTGCTTGCCGGCCACTACATCGGCCTGCTGCACCTGGGCACGCCGGCCTGCGCGGACGCCCGCGCCGACCTGGTGCTGCAGGCCACGCCCGGCCGGCACGACAGCCACCACTACACCCTGACCACCACCTGCCTGGATGGCCGTTCCGCGCCGCAGACCCTGCGGGCGGACTGGTGGGTCGATGAGATCGCCGGCAGCTGCCTGATCCTCGATCGCCCCCTCGATCCGCAGTTCCCGCCGCCGTATCCGCTGTACGGGTTCCGGATCGATGACGCAGCCGTGGACATCCCGTTCGAGCAGCGCCCGCAGACACTGGCGCAGGACGGCGCCGGCTGCCAGAGCGGGATGCCGGAGGAATACACCGACAAGCGGCTGCGACGGGTCGACTGA	MHLHRFTHTVALATLGLAAGLATAGEPQRQPGYDHSPGYGPIMWPLRRQHLLAGHYIGLLHLGTPACADARADLVLQATPGRHDSHHYTLTTTCLDGRSAPQTLRADWWVDEIAGSCLILDRPLDPQFPPPYPLYGFRIDDAAVDIPFEQRPQTLAQDGAGCQSGMPEEYTDKRLRRVD				NA	NA	NA	NA	NA
BMS020_08420	1287			hypothetical protein	ATGGAAGACCGTCGCCGCGCCGCCGGGCGCGCCACCGCGCCCGCACCGTTCTGGACGCGCACCCGCGCGATCGCGCTGTACCCGCTGCACGGCAGCGCCGGCTGGGCGCTGCTGGCGCTGACCCTGTGCAGCCTGCTGGGGATGCTGCCCGGCATCGGCTGGATCATCGGCATCGTCGTCGCCCTGGGCACCTACGCCTATGCCTTCGAGATCCTGCGCCACACCGCCAACGGCCACCTCGACGCGCCGCAGTACGGCATGGACGTGTTCGATGGTGCGGTGATGCGCCTGCTGCTGGCGATGATCGTGATGTTCGCGGGCATCGCCATGATCGCGGTGTTCACCCGCAGCTTGATGCTGACCGGCATCGCGCTGCTGGCGTTCGTGCTGCTGCAGCCCGGCATGGTGATCTCGCTGGCGATCGACGGCTCGCTGCGACGCGCGCTCAACCCGATGGTGCCGATCGAGCTGGCGACCCGCATCGGCTGGCCGTACCTGGCCGCGTTCGGCCTGCTGTTCGTGATCCAGGCCAGCGCCCTGACCGCCAACCGCTGGTTGAAGACCTACCTGCCGCCGCTGGTCGACGACCTGGCGGTCATGGTGGTCTCGACCTGGGGCCTGTTCGCCGCCTTCCACCTGATGGGCTATCTGGTCTACCAGTACCACGAGGCGCTGGGCTACGAGCCCGACCACGGCGAGCTGCCCGACCGCCACGACCCCGACCAGCGCCTGCTCGACGAGGCCGAAGGCCTGGTCCGCGACGGCCATACCGCCGCGGCGCTGGACAGCCTGCGCGGCGAGGTGCGCTCGCGCGCGGTGAGCCTGGCGGTGCACGAGCTCTACCACCGGTTGCTGCGCCAGGGCGGCCGCGGCGAGGCCGTGTCCGAGCACGCACGCCAGTACCTGTCGCGGCTGCTGGACGAGCGCCAGGAGCGCAAGGCGCTGGCGGTGATGCGCGAGCTGCTCGACCTCGATGCCGAGTTCGTCCCCGCACGCGCGGAGCAGGCCGCGCAACTGGCCACGCGCGCCCAGCAGGGCGGCCAGTTCCAGCTCGCCACCGACATCCTGCTGGCAGCGCTGCGCGCCTGGCCGCGGGCGCCGCAGGCGCCGCAGTGGTCACTGGACGCGGCGATGCTGCTGGCAGAACGCTTCAGCCGCGACGACGAGGCGCGCAGCCTGCTGCAACAGGCCCTGGACGCAACCGAGGACGATGACCTGCGGCGCAAGCTGCAGGCGGCATTGAAGGCGCTGCCGCAGGCGGATGCGACCGCCGCCGATCCGGCCTGA	MEDRRRAAGRATAPAPFWTRTRAIALYPLHGSAGWALLALTLCSLLGMLPGIGWIIGIVVALGTYAYAFEILRHTANGHLDAPQYGMDVFDGAVMRLLLAMIVMFAGIAMIAVFTRSLMLTGIALLAFVLLQPGMVISLAIDGSLRRALNPMVPIELATRIGWPYLAAFGLLFVIQASALTANRWLKTYLPPLVDDLAVMVVSTWGLFAAFHLMGYLVYQYHEALGYEPDHGELPDRHDPDQRLLDEAEGLVRDGHTAAALDSLRGEVRSRAVSLAVHELYHRLLRQGGRGEAVSEHARQYLSRLLDERQERKALAVMRELLDLDAEFVPARAEQAAQLATRAQQGGQFQLATDILLAALRAWPRAPQAPQWSLDAAMLLAERFSRDDEARSLLQQALDATEDDDLRRKLQAALKALPQADATAADPA				NA	NA	NA	NA	NA
BMS020_08421	1464			hypothetical protein	ATGCTGATCCTGCCCCTGCACAAGCCGCTCAACCGCGAGACCTTTCCCTGGGTCACGATGTTGCTGGTGCTGGCCAATGTGCTGGTGTTCTTCGGGCTGCAGGGCGGCGATGACGCGGCGTTCGAGCGCGCCCAGCGCTACTACGTCACGTCCGGGCTGGGCGAGTACGAGGTGCCGGCCTACGTGCGCTATCTGGAACGCCTTGGCCAGCACGATGCGGTGTCGGAGCTGCAGGCGCAGTCGGAGCAGGTCAAACCGTTGTACGTGGCCGCGCACAGCGCCAACGATCCGGCCTTTCCGCTGGCGGTCGCGGCCGGCGGGCTGCTCGACGACGATGCCGAACTGGAAGCCTGGCGGCCGCTGCGCGAACGCTACGACGCCAAGCTCGCCGAGGTGTTCACGATGCGCCACAACCTGCGCAACTCGGAGTGGTCGCCGGCGCGGATGCTGTCCTCGGCGTTCCTGCATGGCGACACGATGCACCTGATCGGCAACATGCTGTTCCTGATCGCGCTGGGCTTGCTGCTGGAAGGCGCGATCGGACCGGCGCGGCTGCTCGGGGTCTACCTGCTGGGCGCGCTGGGGTCGAGCGCGGTGAGCATCTGCTGGCGCTGGGGCGAGCCCGGTGGCGGGCTGGGCGCCTCGGGCGCGATCGCTGCGCTGATGGGCGCGTTCTGCGTGGTCTGGGGGCTGCGCAAGGTGCGCTTCTTCTACTGGTTCGGCGTGGTGTTCGACTACGTGCGTGGGCCGGCGATCGTGCTGCTGCCGCTGTGGCTGGGATGGGAGCTGTACAACCTGGCCTTCCATGGCGACGAGGGCATCGGCTTCGATGCACATGCCGGTGGCCTGGTCTGTGGCGCGCTGCTGGGCGGGGCGCTGGTGCTGGCGCGGCAGACCCGGCCGGCGTTCATGCTCGACGAGGCTGCTGCCACCGGCGCGCTGGACGATCGCTGGGAGCGCGCGCAGCGCCATCTGGGGCGGATGGAAACGCTGGAGGCCGAGCGCCTGCTGGGCGAGCTGGCCGCCGAACAGCCGGGGCGCTTCGACGTGGCGCTGGCGCGTTGCCGGGTGGCGCGCAATGCCGGGCAGCAGGCCTCGCTGCTGGCGCGGGTCCGCGACCTGCTCGCGTTGCCGGCCGCCGATACGGCGCAGGCACAGGCGCAACGTGCGGCGCTGACCGACCTGAAGCATCCGCCGCCGCTGCCGGCCGCGCTGCTGCTGGCGCTGGCGCGGCGGTGGAGCGAACTGGGCCTGCTGGCCGACGCGGAGGCGGTGTTGCAGGCGCTGGACGACGCCGCCGATGCGCCGGGCGAAGCGCTCGCGCAGGCCTGGCTGTCGCTGGCGGCGCGGCATGCCGAGCAGCATGCCCCGGTGGAGCAGCGGCGGCTGTTGGCGCGGCTGCTCGAACGCCATCCCGATCAACCCCAGGCGGCGAAGGCCCGGTTCCTGCTCGACAACCTCTGA	MLILPLHKPLNRETFPWVTMLLVLANVLVFFGLQGGDDAAFERAQRYYVTSGLGEYEVPAYVRYLERLGQHDAVSELQAQSEQVKPLYVAAHSANDPAFPLAVAAGGLLDDDAELEAWRPLRERYDAKLAEVFTMRHNLRNSEWSPARMLSSAFLHGDTMHLIGNMLFLIALGLLLEGAIGPARLLGVYLLGALGSSAVSICWRWGEPGGGLGASGAIAALMGAFCVVWGLRKVRFFYWFGVVFDYVRGPAIVLLPLWLGWELYNLAFHGDEGIGFDAHAGGLVCGALLGGALVLARQTRPAFMLDEAAATGALDDRWERAQRHLGRMETLEAERLLGELAAEQPGRFDVALARCRVARNAGQQASLLARVRDLLALPAADTAQAQAQRAALTDLKHPPPLPAALLLALARRWSELGLLADAEAVLQALDDAADAPGEALAQAWLSLAARHAEQHAPVEQRRLLARLLERHPDQPQAAKARFLLDNL				NA	NA	NA	NA	NA
BMS020_08422	501	greB_2	COG0782	Transcription elongation factor GreB	GTGAGCCGCTGGCGCCCCCCTGCCGAGAAGAGCACTGCCCTGATCACGCCCGAGGGCCACGCCCGGCTCAAGGCGGAGCTGGACGAGCTGTGGCGGCAGCGCCGGCCCGAAGTGGTGAAGGCGCTGGCCGCGGCTGCGGCCGAGGGCGACCGTTCGGAGAATGCCGAATACACCTATCGCAAGAAGCAGCTCGGTGAGATCGACCGCCGCGTGCGTTATCTCAGCAAACGGCTGGAGGCGTTGCGCGTGGTCGACACCGCGCCCAGCGACCCGCAGGCGGTGTTCTTCGGCGCGGTGGTGGAACTGGAGGACGCCGACAGTGGCGAGACCCTGCGCTACCGCATCGTCGGCCCGGACGAGACCGACGCCGGCAAGGGCTGGATCAGCATCGACTCGCCGCTGGCGCGGGCGCTACTTAAAAAGCGCCTCGACGACGAATTCGAGGTCGAACTGCCGGGTGGAAAACACACCTTCGCGGTGCTGGCGGTGGAGTACGCCTGA	MSRWRPPAEKSTALITPEGHARLKAELDELWRQRRPEVVKALAAAAAEGDRSENAEYTYRKKQLGEIDRRVRYLSKRLEALRVVDTAPSDPQAVFFGAVVELEDADSGETLRYRIVGPDETDAGKGWISIDSPLARALLKKRLDDEFEVELPGGKHTFAVLAVEYA	PGPT0030495_3825	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSCRIPTIONAL_CONTROL	PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624
BMS020_08423	1377	rimO_2	COG0621	Ribosomal protein S12 methylthiotransferase RimO	ATGTCCCAGCTGAACCCCAAAGTCGGCTTCGTCAGCCTTGGCTGTCCGAAGGCGCTCGTCGATTCCGAACGCATCCTCACCCAGCTGCGCGTGGAGGGCTACGACATCGTGCCGTCCTACGACAGCGCCGACGTGGTGGTGGTCAACACCTGCGGCTTCATCGACTCGGCGGTAGCCGAATCGCTGGATGCGATCGGCGAGGCGATGAACGAGAACGGCAAGGTGATCGTCACCGGCTGCCTGGGCAAGAAGTCGGAGATGATCCGCGCGCAGTACCCCGACGTGCTGTCGGTGTCCGGCCCGCAGGACTACGACAGCGTGATGGAAGCGGTGCACGCGGCACTGCCGCCGCGGCACAACCCGTTCGTCGACCTGGTGCCGGACTACGGCATCAAGCTGACCCCGCGCCACTACGCCTACCTGAAGATTTCCGAGGGCTGCAACCACCGCTGCAGCTTCTGCATCATCCCGTCGATGCGCGGCGACCTGGTCTCGCGCCCGGTCGAGGACGTGCTGCGCGAGGCCGAGCGGCTGGTGCGCGGCGGCGTGCGCGAACTGCTGGTAGTGTCGCAGGACACCTCGGCCTACGGCGTGGACCGCAAGTACGCGCCGGGCACCTGGCAGGGCCGCGAATACGCCACGCGGATGAAGGCGCTGTGCGAAGGCCTGTCCGAGCTGGATGCGTGGACCCGGCTGCACTACGTCTATCCGTATCCGCACGTCGACGACGTGGTGCCGCTGATGGCCGAGGGCAAGATCCTGCCGTACCTGGACATCCCGTTCCAGCACGCCAGCCCGCGCATCCTCAAGCTGATGAAGCGCCCGGGCGCGGTCGACAAGACGCTGGAGCGGGTGCTGCGCTGGCGTGAGATCTGCCCGGACATCACCGTGCGCTCGACCTTCATCGTCGGCTTCCCCGGCGAAACCGACGCCGAGTTCGAATCGCTGCTGGAGTTCCTCGATGCGGCCCAGCTCGACCGCGTCGGTGCGTTCGCCTACTCGCCGGTCGAGGGCGCCGCAGCCAACGCGTTGCCCGACCCGGTGCCGGAAGAGCTGAAGCAGGAGCGGCTGGCACGCTTCATGGCCAAGCAGGCGGAGATTTCCGCGGCCAAGCTCGAAGCCAAGGTCGGCAGCGTGCAGCAGTGCCTGGTCGACGTGATCGAGGACGGCATCGCCGTGGCGCGCTCCAAGGCCGATGCGCCGGAGATCGACGGCCTGGTGCACATCCAGAACGCCGAGGAGATGGGCCTGCGGGTTGGCCAGTTCGTCGACGTCGAGATTACCGAGGCCGACGAGCACGACCTGTTCGGCGACGCGTTGCCGGCAGCCGATGGCGGCAAGGGCCGCGCGCGTACGCTGGGCCTGCAGATCGTCTGA	MSQLNPKVGFVSLGCPKALVDSERILTQLRVEGYDIVPSYDSADVVVVNTCGFIDSAVAESLDAIGEAMNENGKVIVTGCLGKKSEMIRAQYPDVLSVSGPQDYDSVMEAVHAALPPRHNPFVDLVPDYGIKLTPRHYAYLKISEGCNHRCSFCIIPSMRGDLVSRPVEDVLREAERLVRGGVRELLVVSQDTSAYGVDRKYAPGTWQGREYATRMKALCEGLSELDAWTRLHYVYPYPHVDDVVPLMAEGKILPYLDIPFQHASPRILKLMKRPGAVDKTLERVLRWREICPDITVRSTFIVGFPGETDAEFESLLEFLDAAQLDRVGAFAYSPVEGAAANALPDPVPEELKQERLARFMAKQAEISAAKLEAKVGSVQQCLVDVIEDGIAVARSKADAPEIDGLVHIQNAEEMGLRVGQFVDVEITEADEHDLFGDALPAADGGKGRARTLGLQIV				NA	NA	NA	NA	NA
BMS020_08424	657	clcD_2		Carboxymethylenebutenolidase	ATGGCCGACTGGACCACCCTCGACACCCCGCACGGCCAGGTCAGCGCCTGGCACGTCCGCCCCACCGGTACTCCGCGCGGCGGCCTGGTGGTGATCCAGGAGATCTTCGGCACCAACCCGCACATCCGCGAGGTCGCCGAGGGCTTCGCCGCGCAGGGTTACGAGGTGCTGGCGCCTTCGTTCTTCGATCTGGTCGAGAAGGACCTGGTGCTGCCCTACGACAACGACGGCGTGCAGCGCGGTCTGGAGCTGGTCAACGCGATCGGCGTAGACAAGGCGGTCGATGTGGTCGCCGTGGCCGCCGCGCGGCTGGCCGGCGCCGGCAAGGTCGGCACGGTCGGCTACTGCTGGGGCGGCACCATCGCGCTGCTGTCGGCGATCCGGCTGGCGCTGCCGTCGGTCAGCTACTACGGCGGCCGCAACATCCAGTTCCTCGACGAGATCCCGCAGGCGCCGGTGATGTTCCACTTCGGCGAGCTGGACAAGAGCATCCCGCCGGAGGCGGTGCAGCAGCACCGCGAGAAACTGCCGCAGATGGAGACCTTCGTCTATCCGGCCGACCACGCCTTCAACCGCAGCGTCGGCCACAGCTATGCGCCGGAAAGCGCCGCGCTGGCGCTGGAGCGCACCCTGCGCTTCTTCCAGGACACGCTGTGA	MADWTTLDTPHGQVSAWHVRPTGTPRGGLVVIQEIFGTNPHIREVAEGFAAQGYEVLAPSFFDLVEKDLVLPYDNDGVQRGLELVNAIGVDKAVDVVAVAAARLAGAGKVGTVGYCWGGTIALLSAIRLALPSVSYYGGRNIQFLDEIPQAPVMFHFGELDKSIPPEAVQQHREKLPQMETFVYPADHAFNRSVGHSYAPESAALALERTLRFFQDTL	PGPT0005685_4339	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_CHLOROBENZENE_DEGRADATION,PGPT0005685-catA-K01061	NA	NA
BMS020_08425	411			hypothetical protein	GTGAGCGAGGCCTTCCAGCTCGATCCGCGGCTGGAAGCGGACAGCGTGTTCGTCGCCGACGGACCGCTGTCGCAGGTACGGCTGATGGATGACAGCCGCTTCCCGTGGCTGCTGCTGGTGCCGCGCGTGACCGGTGCCAGCGAGTGGATCGACCTGGACGGTGGCCAGCAGCGCCTGCTGCTGGCCGAGCTCAACCAGCTCTCGCAGCTGCTGCGGGCCGAGCCCGGCGTGACCAAGCTCAACATCGGCGCGCTCGGCAACATCGTGCGCCAGCTGCATGTGCACCTGCTCGGCCGCCACGAAGGCGACGCCGCCTGGCCCGGCCCGGTCTGGGGCAGCGGCCCGGCGCAGCGCTTCGAACCCGAGGTGCTGCGGGAGCGTGTCAGCGCATGGGCGCAACGGCTACGATAG	MSEAFQLDPRLEADSVFVADGPLSQVRLMDDSRFPWLLLVPRVTGASEWIDLDGGQQRLLLAELNQLSQLLRAEPGVTKLNIGALGNIVRQLHVHLLGRHEGDAAWPGPVWGSGPAQRFEPEVLRERVSAWAQRLR	PGPT0005685_256	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_CHLOROBENZENE_DEGRADATION,PGPT0005685-catA-K01061	NA	NA
BMS020_08426	168			hypothetical protein	ATGAGATCGAACATTGTCGCCGCGCTGATCCTGATCGTCGTCGGCCTGCTGTTCCTGGCCAACAACCTGGGCTGGACCAACATCAGCATCGGCAGGCTGATCACCACCTGGTGGCCGGCCATCCTGGTCGCGGTCGGCGTGGGCATGCTGTTCGGGCGCGGCAAGTAA	MRSNIVAALILIVVGLLFLANNLGWTNISIGRLITTWWPAILVAVGVGMLFGRGK	PGPT0028815_22	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
BMS020_08427	186			hypothetical protein	ATGCACCGCCGCCTGATTCCCGCCCTGGTCTTGATCGCGCTCGGCGCGCTGTTCCTGCTCGACAACCTTGGCGTGGCCGGCATCGATGCCGGCCGGCTGGTCGCGACCTGGTGGCCGGCCCTGCTGATCCTCGCCGGCGTCGCCAAGCTGCTGCGCCCGGCCGACGCGACGACGGCGCGCTGCTGA	MHRRLIPALVLIALGALFLLDNLGVAGIDAGRLVATWWPALLILAGVAKLLRPADATTARC	PGPT0028815_39	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
BMS020_08428	576	dcd_2		dCTP deaminase	ATGAGCATCAAGAGCGACCGCTGGATCCGGCGCATGGCCGAACAGCAGGGCATGATCGAGCCGTTCGAACCCGGCCAGATCAAGCAGGACGCCGCCGGCCAGCGTATCGTCAGCTACGGCACCTCCAGCTACGGCTACGACGTGCGCTGCTCGCGCGAGTTCAAGATCTTCACCAACATCAACTCGACCATCGTCGATCCGAAGCACTTCGACCCGGGCAGCTTCGTCGACATCGAGGCGGACGAGTGCATCATCCCGCCGAACAGCTTCGCGCTGGCGCGCACGGTCGAGTACTTCCGCATCCCGCGCGACACCCTGGTGGTGTGCCTGGGCAAGAGCACCTACGCGCGCTGCGGGATCATCGTCAACGTGACCCCGCTGGAGCCGGAGTGGGAAGGCCACGTGACGCTGGAGTTCTCCAACACCACGCCGCTGCCGGCGCGCATCTACGCCAACGAGGGCGTGGCACAGATGCTGTTCTTCCAGTCCGCTGCCGACGACGTCTGCGAGACGTCCTACCGCGACCGCGGCGGCAAGTACCAGGGCCAGACCGGGGTGACCCTGCCGCGCACCTGA	MSIKSDRWIRRMAEQQGMIEPFEPGQIKQDAAGQRIVSYGTSSYGYDVRCSREFKIFTNINSTIVDPKHFDPGSFVDIEADECIIPPNSFALARTVEYFRIPRDTLVVCLGKSTYARCGIIVNVTPLEPEWEGHVTLEFSNTTPLPARIYANEGVAQMLFFQSAADDVCETSYRDRGGKYQGQTGVTLPRT	PGPT0021225_1606	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021225-dcd-K01494	NA	NA
BMS020_08429	840	apbC_2	COG0489	Iron-sulfur cluster carrier protein	ATGAGAATTCAAGCCCATCGCCCCCAGGGCGGCCTGTCGCCGCATCCCCGTGTCCGCAATGTCATCGCCGTCGGTTCCGGCAAGGGCGGGGTGGGCAAGTCCACCACCGCGGTCAATCTGGCCCTGGCGCTGCACCAGCTGGGTGCGCGGGTCGGGCTGCTCGATGCCGACATCTACGGCCCGAGCGTGCCGGCGATGCTGGGCCTGAGCGGGCGCCCGGACAGCCCGGACAACAAGTCGATCGAGCCGATGCGGGCGTTCGGGGTCGAGGCGATGTCGATCGGCCTGCTGATCGACCAGGACACGCCGATGATCTGGCGCGGGCCGATGGCGACCTCGGCGTTGACCCAGCTGTTCAACGACACGCTGTGGGACGAGCTGGACTACCTGCTGGTCGACCTGCCGCCGGGTACCGGCGACATCCAGCTCACGCTGTCGCAGAAGATCCCGGTGGCCGGCGCGGTGATCGTCACCACGCCGCAGGAGATCGCTACGCTGGATGCGCGCAAGGCCTTGAAGATGTTCGAGAAAGTGGAGGTTCCGGTGCTCGGCATCGTCGAGAACATGGCGGTCCACACCTGCTCGAACTGCGGCCAGGTCGAGCACTTGTTCGGTGACGGTGGCGGCCAGCGCATGGCCGAGCAGTACGGTGTGCCGCTGCTGGGCTCACTGCCGCTGGACATCGGCATCCGCGAGCAGGGCGATGCCGGTACGCCGGTGGTCGCGGCGCAGCCGGATTCGATGGCTGCCCGGGCTTACCTAGCCGCGGCGCAGCGCCTGGCCGAGGAGCTCGGCAAGCGCCCGCGCGCGACGATCCCGATCCTGTCCTCACTGTCCTGA	MRIQAHRPQGGLSPHPRVRNVIAVGSGKGGVGKSTTAVNLALALHQLGARVGLLDADIYGPSVPAMLGLSGRPDSPDNKSIEPMRAFGVEAMSIGLLIDQDTPMIWRGPMATSALTQLFNDTLWDELDYLLVDLPPGTGDIQLTLSQKIPVAGAVIVTTPQEIATLDARKALKMFEKVEVPVLGIVENMAVHTCSNCGQVEHLFGDGGGQRMAEQYGVPLLGSLPLDIGIREQGDAGTPVVAAQPDSMAARAYLAAAQRLAEELGKRPRATIPILSSLS	PGPT0000235_1	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-HYDROGENASE_BIOSYNTHESIS,PGPT0000235-hyaD|hybD|hupD-K03605	NA	NA
BMS020_08430	2805	btuB_32		Vitamin B12 transporter BtuB	ATGTCGTCGAGCAATGCCTCTCGCCTCAAGCGGCACCGTCTGACTGCCGCCGTCTTCGCTGCCATCGTCCTGCCGGCCGCAGGCTCGGCACTGGCCCAGGAACAGGACCAGCCCAAGGAACTTGATCGCGTTACCGTCACCGGCTCGCTGATCCCTCAGACCGAAATCGAAACCGCCACACCTGTGATGGTCATCGGCGCCGAGGACATCAAGGCGCGGGGCTTTACTTCAGTTGCCGACGTCCTGGCCAAGAGCTCCTTCGCCACCGGCGGCGTGCAGGGCTCGCAAAGCTCGGCTTCGTTCACCCAGGGCGCCAACACCGTCAGCCTGTTTGGCTTGCCGCCCGGCTACGTGAAGTACCTGATCGACGGTCGCCCGATGTCGAACTACCCGGCGCTGTACAACGGTAGCGACACGTTCAACAACATCAGCGGCATTCCGATCGACCTGGTCGACCGTATCGAAATCCTGCCCGGTGGCCAGTCATCGCTGTACGGCTCGGACGCCATCGCCGGCGTGATCAACGTGATCCTCAAGAAGCGCATGGACGGTGCCGTAGTCGCGATTCGCGGCGGTGGCTACTCCGAGGGCGGCGGCAACAACTTCCGCGCCAGCATCGCCGATGGCTGGAGCTCGGCCGATGGCCGCGTCAACGTCCTCGGCGGCCTGCAATACGAAGAGAAGAACCCGATCTGGGCCTACCAACGCGACCTGACCAAGCAGTACAACCAGAACGGCACGTCCGCCGCGCTGGCCAGCCGCGACTTCCTGATCTACAGCCCGTTCACCAGTTACAAGTTCCTCGACCCGGCCAACTGCGCCAACGTGAGCGGCCTGTTCGGCGGCACCGAAGGCCTGCAGGAGCGTCCCGGCTTCGGCGACGGCAACTACTGCGGCTCGTTCAACACGCCGGGCTATCGCACCTTGAGCAATGGCCTCGAGTCGACCCAGGCGTATGTGCACGGCACTTTCGACATCAACGACAACACCCAGCTCTACGGCGACGTGCTGTACAGCCACGACAAGGTCGACTACCACGTCGGCTCCAACTACACCTGGTGGGGTACGGGCGCGGACTTCGGCTATTTCTACGACCCGAACCTGGACGACTTCCTGAACCTGCAGCGCGCCTATGCGCCTGAGGAAATGGGCGCCCTGGGCTTCAAGAACACCATGAGCCACGACGTCAGCGACGCCGTGCGCGTCAACTTCGGCGTCAAGGGCACCTTCGGCGCGTCGAATTGGGATTACGACGCCGGCGTCACCTACAGCGAGTACAAGCTGAAGGAAAAGAACTTCGTCCGCTATGCGGAACCGATGGATCAGTTCTTCATTGATCGTGTGCTGGGGGCACAGCAGGGACTGGATCCGTATTACGGAGCCTACCCGGTCTACACTCCGAACTACGCCGCGTTCTATCAGCCGATCACGCCTGAGGAACTGGCCGGCATGACCGGCTATGAAACATCGAACAGCAAGACCTCCGACAGCATGCTGCGCCTGCAGTTGACCAATGCCACCCTGTTCGGGCTCCCGGGCGGAGACGCTGGCCTGGCCGTGGTGGCCGAACTCGGCAAGCAAAAGTGGGACTACACGCCGGCGCCTGGCCTGCTGGATGGTTCGATCTGGGGCCAGACGGCCGTCGCTGGCGGCGGCGACCGCGACCGCTATGCGATCACCTCGGAACTGCGCCTGCCCCTGCTGGATCCGTTCACCGTGACCCTGTCCGGGCGCTACGATTCCTACGACGCCAGCGGCCGCACCATCGACAAGCCGACCTACAGCGTCGGCCTCGAATACCGCCCGTTCCAGTCGTTGCTGCTGCGTGGCAAGTACGGTACCGCGTTCCGCGCCCCGACGCTTTCGGATCTGTACCAGGGCGAGAGCGGCTACTACAACAGCGTGACCGACTACTACCAGTGCTCGCTGCGCGGTTACCTTCCGGGCAACACCGACGCCTGCCCGGCCGCCTACTCCAGCCGCCAGTTCTTCGGCACCCAGGCCGGCAACCTCGATCTCAAGCCGATCAATGCCGACGTCTGGAGCGCGGGCTTCGTGTGGTCGCCGATCGATCGCATGAGTCTGACGGTCGACTACTTCAACTGGGACATCAGTGACGAAGTCACCCAGCAGAGCGCCGATGCGCTGTCGCTGCAGGACTACCGCTGCCGCGCAGGGATCGACGACATCACCTCGACGCTCTGCACCCAGGCGATGTCGCAGGTTACCCGCAATGCGGCTGGCTTCATCACCGAGATCTATACCCCGAAGATCAACGTCTCCAACCAGAAGCTTGAAGCGGTCACCGCGGCTTTCAACTACGCCTACGACTTCGGCAACTGGGGCGACCTGAGCCTGCGGACCAGCTTCACCGAGAACCTGCACCACACCCAGCAGATCTATGCCGGCGATGAGGAAATCGACCTGCTCAGCGATCCGTACTGGAGCAGCGACCCCAAGCGCAAGGCCGATGGCTCGCTGACCTGGAAGATCGGCGACTTCTCGACCACCTGGTACGTCAACTGGTTCTCGGGAACACCGAACTACGCCGCCCGCATCAGCGTCGATGGCTACGATTCGGCGAACGGTCGCAAGCTTGGCTCCTGGGCGACCAACAACCTGAGCATGAGCTATCAGGTCTTTGATGGCCTGGAAGTGTCCCTGATGGTCAACAACGTCTTCAACCGCATGCCCCCGTACGACTTCTCGTACCCGGGCACCTCGGGTGCGCCGTACAACGCCTACAACTGGGACGTATACGGCCGCGCCTACTACCTGGAAGCGCGCTACTCCTTCGGCAAGTAA	MSSSNASRLKRHRLTAAVFAAIVLPAAGSALAQEQDQPKELDRVTVTGSLIPQTEIETATPVMVIGAEDIKARGFTSVADVLAKSSFATGGVQGSQSSASFTQGANTVSLFGLPPGYVKYLIDGRPMSNYPALYNGSDTFNNISGIPIDLVDRIEILPGGQSSLYGSDAIAGVINVILKKRMDGAVVAIRGGGYSEGGGNNFRASIADGWSSADGRVNVLGGLQYEEKNPIWAYQRDLTKQYNQNGTSAALASRDFLIYSPFTSYKFLDPANCANVSGLFGGTEGLQERPGFGDGNYCGSFNTPGYRTLSNGLESTQAYVHGTFDINDNTQLYGDVLYSHDKVDYHVGSNYTWWGTGADFGYFYDPNLDDFLNLQRAYAPEEMGALGFKNTMSHDVSDAVRVNFGVKGTFGASNWDYDAGVTYSEYKLKEKNFVRYAEPMDQFFIDRVLGAQQGLDPYYGAYPVYTPNYAAFYQPITPEELAGMTGYETSNSKTSDSMLRLQLTNATLFGLPGGDAGLAVVAELGKQKWDYTPAPGLLDGSIWGQTAVAGGGDRDRYAITSELRLPLLDPFTVTLSGRYDSYDASGRTIDKPTYSVGLEYRPFQSLLLRGKYGTAFRAPTLSDLYQGESGYYNSVTDYYQCSLRGYLPGNTDACPAAYSSRQFFGTQAGNLDLKPINADVWSAGFVWSPIDRMSLTVDYFNWDISDEVTQQSADALSLQDYRCRAGIDDITSTLCTQAMSQVTRNAAGFITEIYTPKINVSNQKLEAVTAAFNYAYDFGNWGDLSLRTSFTENLHHTQQIYAGDEEIDLLSDPYWSSDPKRKADGSLTWKIGDFSTTWYVNWFSGTPNYAARISVDGYDSANGRKLGSWATNNLSMSYQVFDGLEVSLMVNNVFNRMPPYDFSYPGTSGAPYNAYNWDVYGRAYYLEARYSFGK	PGPT0003790_4105	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_08431	1566			hypothetical protein	ATGACGGCCGTGGCAGAGACTTACGCGCGGGCAGTTGCCGCGCTCAACCAGCGGCGCTGGGACGAATCCTGGCGGCTGGCGCAGCAGTTGCTGCGCGACGGGGAGCATCCTGGGGTGCACTTCGTTGCTGGCGTTGCCGCTTTCGAGCTGCAGCAGCTGCGTGCTGCGCTGATGCATCTGCATCGGGCGACGGTGTTGAATCCGCAGCGGCCCGATTACGCCGCGCAGATGGCTCGGGCGCTGACACAGGCACGTCTGAATCGTGATGCATTGGTGTATGCGGACAAGGCGATCGCATTGGGGGTGGAGGATGCGTTGACGCTGGATACCCTGGGCGTGATCTATACCCGCGCCGGAGAGCATGACAAGGCATTGGCCGCATACATGCAGGCTGTGGCCAAGGCGCCGCGTCAGGCGAGCTTCCGCTACAACCTGGCGACCTGCCTGTTGTTCTTCGGCCGTACCGAGGAGGCCGAGTGCGAATACCGCCAGACCCTGGTGGACGATCCGGGCTACTGGCGCGCTTATACCTCACTCGCACAACTTCGCCGACGTTCCCGACGCGATAACGACATAGCGCTACTTGAGGGGGCGCTTGAGGCTGGGAAGGGCGTCCCCGAGGCGCAGTTGTACGTGAACCTGGCCTTGGCGAAGGAGCGTGAGGACCTGGGGGAATACGAGGCGGCGTTTGCCCATTACCGGGATGGCAAGGCGGTGCAGAAGCGTGCACGCGGCTACGACGGATCCAGCGATCGCGCCTTGTTCGCGGCGATAGAGCACGCGTTCGATGCGGTGGATGAGGCGGTGGTCGGGGATGGCAGCGAAGAGCCGATCTTCGTCGTTGGGATGCCTCGCTCCGGGACCACGCTTGTGGATCGCATCCTCTCAAGCCACTCCCAGGTGTATTCGGCGGGTGAGCTGCAGAATTTCTCCGTGGCGCTCAAGCGCCTGGTCGCCACGCCCACGCCCGGCATCCTCGACGTACCTACACTGACCCGCTTGGATGGCCTCGACTGGGCGCGTCTCGGGCGTGAGTACGTGGAGTCGACGCGCCCGGGCACCGGCCGGACGCCGCGCTTCGTTGACAAGCTGCCGCACAATTTTCTTTATGTCGGCCATATCGCACGTGCATTACCCAGAGCCAAGATCGTATGCCTGCGTCGCGACGCGATGGATACCTGCCTCGGGAATTTCCGCCAGTTGTTCGCGCTGAGCTCGCCTTATTACGACTACTCCTTTGATCTGATGGACATCGGGCGCTATTACCAGATGTTCGACAGGCTGATGGCGCATTGGTCTCGTTTGCTTCCCGAGCGCATTCTCGAAGTGCGTTACGAAGACCTGGTGAGCGACCAGTTGGCAACCACCCAGCGGCTGCTGCAGTTCTGTGGCTTGCCTTGGGAGGACGCTTGCCTGGCCTTCGAGCGCAATGACGCGCCTGTTGCCACTGCAAGCCTGGTTCAGGTGCGTGAGCCGTTGACCAATGCCTATATCGGCCGGTGGCGGCGCTACGGTGCGGATGTGGCGGAGCTGGCACAGATGTTGGGTGTTCCTATGCAGGGCTGA	MTAVAETYARAVAALNQRRWDESWRLAQQLLRDGEHPGVHFVAGVAAFELQQLRAALMHLHRATVLNPQRPDYAAQMARALTQARLNRDALVYADKAIALGVEDALTLDTLGVIYTRAGEHDKALAAYMQAVAKAPRQASFRYNLATCLLFFGRTEEAECEYRQTLVDDPGYWRAYTSLAQLRRRSRRDNDIALLEGALEAGKGVPEAQLYVNLALAKEREDLGEYEAAFAHYRDGKAVQKRARGYDGSSDRALFAAIEHAFDAVDEAVVGDGSEEPIFVVGMPRSGTTLVDRILSSHSQVYSAGELQNFSVALKRLVATPTPGILDVPTLTRLDGLDWARLGREYVESTRPGTGRTPRFVDKLPHNFLYVGHIARALPRAKIVCLRRDAMDTCLGNFRQLFALSSPYYDYSFDLMDIGRYYQMFDRLMAHWSRLLPERILEVRYEDLVSDQLATTQRLLQFCGLPWEDACLAFERNDAPVATASLVQVREPLTNAYIGRWRRYGADVAELAQMLGVPMQG				NA	NA	NA	NA	NA
BMS020_08432	3066			hypothetical protein	ATGAGCAACTCGCAACGTCGCCGGATGTTCAAGCGCACCGCCCTGGCCGTCGTCCTCGGCGCCTGCCTGATCCAGGGCAGCGCCTACGCCCAGAGCACCACTGGCAGCATCTATGGTTCGGCCCCGGCCGAAACCGGCCTGACCATCGTCGTCACCAGCCAGACCGGCCTGAGCCGCACGATCGCCGTCGGCGCCGACGGCCGCTACAACCTCGGCTCGCTGCCGGTCGGCAGCTACAACGTCGAACTGCACCGCGGCGAGCAGGTGCTGGAGAAGCGCGACAACGTGCTGTTGCGTGTCGGCTCCGGCACCGAAGTGTCGTTCGCCGGCGTAAATGCCGACGGCGCCTCCACCCTCGACACGGTGACCGTCACCGGCGCCAGCGTGCCGAAGATCGACGTCAGCGCGACCAGCTCGCGATCGGTGATCACCTCCGAACAGCTCGCCACCCTGCCGCTGGGCCGCAGCGCGGAAGCGATCGCCCTGCTCGCCCCCGGCGCGGTGGCAGGCAGCGGCGCGTTCAACAACGGCTCCCGCTCCGTGGTGTCCTTCGGCGGCGCCGGCGTGACCGAGAACGCGTACTACATCAACGGCTTCAACGCGAGCAACCCGCTCAGCAACCTCGGCGGCGTGAGCCTGCCGTACGGGGCGATTGACCAGCAGGAAACCTACACCGGCGGCTACAGCGCCAAGTACGGCCGCTCCACGGGCGGCGTGATCAACCAGGTCGGCAAGCGCGGCACCAACGAGTGGCACTTCGGCGTCCAGGCGGTTTGGGAACCGGGATCGCTCGCCAGCGAATCCGGCGACGTCTGGTTCCCGGACAGCGAGCTGCCGGCAGGCTACACCTATAACAACGCGAGCCAGCCGGGCACGCTGTACCGCAGCGGCAAGGACTCCACCCAGTCGCGCACCGTCTACAGCGCCTATGCGGGCGGTCCGCTGGTCGAGGACAAGCTGTTCATCTTCGTCGCCGGCGAATCCGACAAGACCAGTGGCATCGCCAACAGCGCAGCCACCGCGGCAGCCAACCAGGGTCGCAACAGTTACGACTACAGCTCGCCGAAGTTCTACGGCAAGCTGGACTGGAACATCAACGACAGCAACATCCTCGAATACACCCGCATCCAGAACACCGATCGCCGCAGCGGCAGCTATTCGACGCTGACCTACGACGACACCGACGTCACCGTTGGCGGTCCGAGCGGCCTGTACCCCGATACCTACAAGCTCAAGGACAGCTACGACATCTTCAAGTACACCGGGTACATCACCGATGACCTGACCTTGAATGCGACCTGGGGCCGCAGTACCGAGCACAACCAGCAGTACAACCCGGTCCAGTCCGACCTGCCGTACCTGGGCAGCGTCACCAACCAGAACCCGGCCATCGTCGGCGGCACCCCGATCACCAACGATCAGGCCACCAACCGCGCCAAGGCTGAAGATCCGACCAACAAGACCCGCAGCCTGCGCCTGGAGCTGAACTACCGCCTCGGCGATCACGACCTGACCGCCGGCGTGGACAACATGTACTTCAACGCCTACGACGAAGGCGTGCGTACCACCGGTGCCGGCGGCTACCAGTGGATCTACGGCCATGCCGCGGACGAAACCACCGCCGTGCGCCCGGGCCTGGGAGTCGGCGCCACCGGTGCGGGCACGGATGGTTACTATGCACAGCGCCGCATCTTCACCACCACCACCAGCATGGCCGTCGAGCAGAAGGCCTACTACGTGGAAGACCGCTGGCAGGTCAGTGACAACTGGCTGCTGACGATCGGCGTGCGCAATGACAAGTTCACCAACTACAACAGCGACCACGTCGCCTACGTCGACAGCGGCGACCAGTGGGCACCGCGCCTCGGTGCCAGCTGGGATGTGTTCGGCGATTCGTCGCTGAAGGTGTTCGCCAATCTTGGCCGCTACTACCTGGCCCTGCCGAACAGCGTGGCGATCCGCGGCGCATCGGCATCGACCTACACCGACGAGTACTTCACCTACACCGGCATCGATGCCAACGGCGAGCCGACCGGCCTGACCGCCATCGGACCGGGCCCGGTGTCGAGCAACGGCGAATACGGCGAAGCTCCGGATCCGAACTCGTTCGCGCCGACCGACCTCAAGTCGCAATACCAGGACGAGTTGATCCTGGGCTTCGAGAAGACCATCGGCGAGAAGTGGAACTCCGGCGCCAAGGTCACCTACCGCAAGCTCCAGGCGGCCATCGACGACGTCTGCGACACCGGCCGCATCGCCACCAAGCTCGAAGCCATGGGCGGCGATCCGGACAGCGTGGAGATCCCGGGCTGCGTGATGTTCAACCCGGGTGAGACCAACACCTACAACCTCGCCAATGTCGACGGCTCGGGCTACACCCAGGTGCAGATGTCGCAGTCCGACTGGGGCTTCACCGACAAGGCACGCCGCAACTACGTCGCCGTGGACCTGTTCCTGGAGCACCCGTTCGACGAGAAGTGGTACGGCCGCGTCGACTACACCTGGTCGCACCTGTACGGCAACACCGAGGGCCAGGTGAAGTCCGACATCGGTCAGTCCGACGTGTCCAAGACTCAGGATTGGGACTCGGCCGAGCTGATGTACTACGCCGGTGGCAACCTGGCCAACGACCGCCGTCACCAGTTGAAGGCGTTTGGCGCCTATCAGATCACCCCGGAGTGGATGGCATCGGCCACCCTGCGCGTGATGTCCGGCACCCCGATCAGCTGCATGGGGTACTTCGGCACCGACGAAGGCGACCCGATCAGCTACGGCTCGAGCTACCACTACTGCGGTGGCTCCTCCTCCCGGCCGGGCCAGGCGGGCGAGACCCCGTGGATCAAGAACCTGGACTTGGGCGTCACCTACCGTCCCGCGTTCGCCGACCACAAGCTGGCCTTCGGCCTGCAGGTGTTCAACGTGCTCAACGATCGCTCGGAGACCCGAGTCAACAGCGTCTACAACAGCGATCGCTACGCGGTGTCCAACACTTACGGCATCGGCACCCAGAGCTACTACTTCAACACCCCGCGCTACGTTCGCCTGAGCGTCTCTTACGACTATTGA	MSNSQRRRMFKRTALAVVLGACLIQGSAYAQSTTGSIYGSAPAETGLTIVVTSQTGLSRTIAVGADGRYNLGSLPVGSYNVELHRGEQVLEKRDNVLLRVGSGTEVSFAGVNADGASTLDTVTVTGASVPKIDVSATSSRSVITSEQLATLPLGRSAEAIALLAPGAVAGSGAFNNGSRSVVSFGGAGVTENAYYINGFNASNPLSNLGGVSLPYGAIDQQETYTGGYSAKYGRSTGGVINQVGKRGTNEWHFGVQAVWEPGSLASESGDVWFPDSELPAGYTYNNASQPGTLYRSGKDSTQSRTVYSAYAGGPLVEDKLFIFVAGESDKTSGIANSAATAAANQGRNSYDYSSPKFYGKLDWNINDSNILEYTRIQNTDRRSGSYSTLTYDDTDVTVGGPSGLYPDTYKLKDSYDIFKYTGYITDDLTLNATWGRSTEHNQQYNPVQSDLPYLGSVTNQNPAIVGGTPITNDQATNRAKAEDPTNKTRSLRLELNYRLGDHDLTAGVDNMYFNAYDEGVRTTGAGGYQWIYGHAADETTAVRPGLGVGATGAGTDGYYAQRRIFTTTTSMAVEQKAYYVEDRWQVSDNWLLTIGVRNDKFTNYNSDHVAYVDSGDQWAPRLGASWDVFGDSSLKVFANLGRYYLALPNSVAIRGASASTYTDEYFTYTGIDANGEPTGLTAIGPGPVSSNGEYGEAPDPNSFAPTDLKSQYQDELILGFEKTIGEKWNSGAKVTYRKLQAAIDDVCDTGRIATKLEAMGGDPDSVEIPGCVMFNPGETNTYNLANVDGSGYTQVQMSQSDWGFTDKARRNYVAVDLFLEHPFDEKWYGRVDYTWSHLYGNTEGQVKSDIGQSDVSKTQDWDSAELMYYAGGNLANDRRHQLKAFGAYQITPEWMASATLRVMSGTPISCMGYFGTDEGDPISYGSSYHYCGGSSSRPGQAGETPWIKNLDLGVTYRPAFADHKLAFGLQVFNVLNDRSETRVNSVYNSDRYAVSNTYGIGTQSYYFNTPRYVRLSVSYDY				NA	NA	NA	NA	NA
BMS020_08433	1656		COG1233	putative protein	ATGGCGTCTCCTCGCGGGGGCGTGTGCGGCCAGCGTGTTATACAGCTGCGCATGCACAGCGGCGCATCCTACGACGCCCTCATCATCGGCGCAGGCCATAACGGACTGGTCTGCGCCGCCTATCTGGCCGCCGCTGGGCTGCGGGTGAAGGTGCTGGAACGACGTGGGGTGGTCGGTGGTGCGGCGGTGACCGAGGAATTCCATCCCGGGTTCCGCAATTCGGTGGCGTCCTACACGGTCTCGCTGCTGCAGCCGCAGGTGATCGCCGATCTCGAGCTGGCCCGCCACGGCCTGCGCGTGCTGCCGCGGCGGATCAACAACTTCCTGCCGCTGGACGACCACACTTATCTATTGGCCGGTGCGGGCCGCACCACCGAGCAGGTCGCCAAGTTCTCCGCACGTGATGCCGCGCGCCTGCCCGACTACGAAGCACGGCTGGAGCGGCTGGCCGACGTGCTGCGCGCGCTTGCGCTGCGGCCGCCGCCGAATGTCACCGACGGTGGCTGGTGGCAGGCGCTGCCGCAGCTGTGGCAGGCCGGCAAACTCGGGCGGCAGCTGCACGCGCTGGCGCCGGAACTGCGCCAGGACCTGCTCGACCTGTTCACGATTTCGGCGGCGGAGTACCTCGACCGCTGGTTCGAGAGCGCGCCGATCAAGGCGCTGTTCGGGTTCGACGGCATCGTCGGCAACTACGCCAGCCCGTACGCGCCGGGCACTGCGTATGTGCTGCTGCACCACGTGTTCGGCGAGAGCAACGGGGTCAAGGGTGCCTGGGGGCATGCGGTCGGCGGCATGGGCGCGATCACCCAGGCGATGGCGGCATGCTGCCGCGAGCGCGGGGTCGAGATCGCCACCGGCTGTGGCGTGGCCGAGGTGCTGGTCGAGCATGGAAAGGCGGTCGGCGTGCGCACCCGCGCCGGCGAGGAGCTGCGCGCGCCGCGCGTCGTCGCCAACGTCAACCCGAAGCTGCTGTACCAGCAGCTGATCGCGCCAGAACACGTGCCGGCGGCGACCCGCGAGCGCATGAACCACTGGCGCTGCGGCTCCGGTACGTTCCGCATGAACCTGGCGTTGTCGCGGCTGCCTGACTTCCGCGTGCTGCCGGGCGCGGGCGACCACCTCACCGCCGGGATCATCATCGCTCCGAGCCTGGACTACATGGACCGCGCCTGGCGCGACGCGCGCGCGCACGGCTGGTCGCGCGAACCGGTGGTGGAGATGCTGATCCCGAGCACGCTGGACGCTTCGCTGGCGCCGCCGGGCCAGCACGTGGCCAGCCTGTTCTGCCAGCATGTCGCCCCGCAGTTGCCGGATGGGCGCAGCTGGGATGCGCATCGCGACGAGGTCGCCGACCTGATGATCGCCACCGTCGAACGCCACGCCCCCGGCTTCGCCGGTTCGGTGCTGGGCCGCCAGGTGTTGAGTCCGCTCGACCTGGAGCGCGAGTTCGGCCTGATAGGCGGCGACATCTTCCACGGCGCGCTCAGCCTCAACCAGTTGTTCTCGGCGCGCCCGATGCTAGGCCAGGCCGACTATCGCGGCGCGATCCCGGGGCTCTATCTCTGTGGCTCGGGGACGCATCCTGGCGGCGGCGTGACCGGGGCGCCCGGGCATAACGCGGCGCGGGTGGTGCTGCGCGGGGAGTCGATGAGCTGA	MASPRGGVCGQRVIQLRMHSGASYDALIIGAGHNGLVCAAYLAAAGLRVKVLERRGVVGGAAVTEEFHPGFRNSVASYTVSLLQPQVIADLELARHGLRVLPRRINNFLPLDDHTYLLAGAGRTTEQVAKFSARDAARLPDYEARLERLADVLRALALRPPPNVTDGGWWQALPQLWQAGKLGRQLHALAPELRQDLLDLFTISAAEYLDRWFESAPIKALFGFDGIVGNYASPYAPGTAYVLLHHVFGESNGVKGAWGHAVGGMGAITQAMAACCRERGVEIATGCGVAEVLVEHGKAVGVRTRAGEELRAPRVVANVNPKLLYQQLIAPEHVPAATRERMNHWRCGSGTFRMNLALSRLPDFRVLPGAGDHLTAGIIIAPSLDYMDRAWRDARAHGWSREPVVEMLIPSTLDASLAPPGQHVASLFCQHVAPQLPDGRSWDAHRDEVADLMIATVERHAPGFAGSVLGRQVLSPLDLEREFGLIGGDIFHGALSLNQLFSARPMLGQADYRGAIPGLYLCGSGTHPGGGVTGAPGHNAARVVLRGESMS				NA	NA	NA	NA	NA
BMS020_08434	813			hypothetical protein	ATGAGCCCACGCTGGCGCCGGCGCGGACTGGCGCGTGGTCGCGTCGCGCTCGGCGCGGCGTTGCTGGCCTGGATCGCCAGCCTCGCCGGGGCCGGGGCCGGCCTCGACGCGGCGCTGTGGTGGCGCTGGAGCAGCCTGCTCGCCGGCAGCCCGGCGCCGATCGCGCCGTCGCCGGCCAGCACCGGGCTGCTGCTGGCCACCGCCGCGGCCGCGCTGATCGCCGCATGGGCACCGTCGGGCCCGCGCTGGGCACGGCTGCTGCGCTGGGCCGCACTCGCCGCATTGGCGGCGCTGCTGCTGGCGGCGCTGGGCGCGATGATCGGGCAACCGGTGCCGGTGATCCCGGCGCTGCTGTCCGGACTGGCCTGCGGCAGCCTGCTGCCGCTCGCCGCGCACCGGTCACTGCGGCCGTCACCTCCCCCGGTGCCCGCCGATGCGTCCGCGCTGCTGGCCGCGATCGCCGCCGCCGACCGACAGCCCAACGCCCTGCCCTGCAGCCTGCTGCGTCTGCAGCTGTGGCCGGAGCCTGCGGCCACGCGTCACACCGCCGACGCGCTGGCCCTGCTCGCGCGCCGCGCCCGGCGCCCCGGCGACGTCGTCGCGCGGCTGTCCAGCTGCGAATGCGCGCTGCTGCTGGCCGGGACCGACCATGCCACCGCGCTCGGCCTGCGCCACGACCTGCATGCCGAACTCGCCCACCTGCTGGTACTGGGTGGGCTGCACTGCAGCATCGGCGTGGCGACCCATGCCGGACCAGCCGGCGGCACCGACCCGGCGGCGCTGTTCAATGCCGCCGCCCCCGGCCAGGCATGA	MSPRWRRRGLARGRVALGAALLAWIASLAGAGAGLDAALWWRWSSLLAGSPAPIAPSPASTGLLLATAAAALIAAWAPSGPRWARLLRWAALAALAALLLAALGAMIGQPVPVIPALLSGLACGSLLPLAAHRSLRPSPPPVPADASALLAAIAAADRQPNALPCSLLRLQLWPEPAATRHTADALALLARRARRPGDVVARLSSCECALLLAGTDHATALGLRHDLHAELAHLLVLGGLHCSIGVATHAGPAGGTDPAALFNAAAPGQA				NA	NA	NA	NA	NA
BMS020_08435	2106	pepO_3	COG3590	Neutral endopeptidase	GTGAATGTCCGTACCCCTCATCTGCTGACGCTGTCGCTGGCCGTCGCGGCCGCCCTGAGCGCCTGCAAGAAGCCCGACGAAGCCCCTGCCGCGGCACCGACCGCCGACACGGCCGCCGCCGCGCCGAAGAAGCTGACCCTGGACGAATCCAAGCTGCCGCCGTTCAACCAGTTCCAGGCCAGCGACCTGGACCCGAACGGCAACGCCTGCACCGACCTCAACGCCTACGCCAACGCCAAGTTCCTGGCCGCCAACCCGGTGCCGGGCGACCGCACCAGCTGGGGCGCGTTCGAGATGCTCGACGAGCGCTCCAATGCCGTGCAGCACCAGCTGGTCGAACAGGCCGCGGCCGCCACCAGCGCCACCGGCGTTGAGAAGCTGGTCGGCGACATCTGGGCCACCGGCATGGACGAGGCCAAGATCAACGCCCAGGGCATCGAGCCGCTGAAGCCGGAGCTGGCCGCGATCGACGGCGTCACCGACCAGGCCAAGCTGGTCGACTACCTGCGCACCAGCGCCGCCAAGGGCGAGAACGGCCTGTTCGGTTTCGGCGCCGAGGCGGACTTCAAGAATTCCAGCATGAACATCGCCTACGCCTCGCAGGGCGGCCTGGGCCTGCCGGATCCGGAGTACTACACCAAAGCCGACAACAAGGCCAAGCTCGATGCCTACCAGGCGCACATCGCCAAGGTGCTCGAACTGGCCGGCACCAGCGCCACCGACGCGGCCGCGCAGGCCAAGCAGGTCGTCGCGTTCGAGACCCGCCTGGCCAAGGTCTCCAAGACCAGCACCGAGTTGTCGCGCGATGCCTCGCTGTTCTACAACCCGGTCAGCCCGGCCGACGCCGACAAGCTGACCCCGAACTGGTCGTGGAGCGAGTTCTTCAAGTCGCAGGGCGTGGACGTGCCGGCGATGTTCTCGCTGGCGATGCCGGCCTTCCACCAGGAAGTGAGCAAGATGATCGCCGACACCGATCCGGCGATCTGGCGCGCCTACCTGCGCTTCCACGCCGTCGACAGCGCCTCGCCGTACCTGAGCCAGGCCTTCGTCGACGAGAACTTCGCGTTCTACAACCAGACCATGCGCGGGCAGAAGGAGAACAAGCCGCGCTGGAAGCGCGTGCTCGCCTCGATCAACCGCCAGGCTGGCGAAGCGCTGGGCCAGATGTATGTGCAGGTGGCGTTCCCGGCCGACTCCAAGGCCAAGATGGAAGAACTGGTCGGCAACCTGCGCACCGCGCTGAAGGCGCGCATCGAGAAGCTGGACTGGATGAGCCCGGAGACCAAGGAAAAGGCCATCGCCAAGTGGAACAGCTTCACCCCGAAGATCGGCTACCCGGACAAGTGGCGTTCGTGGGACGGCCTGTCGACCAGCCGTGACAGCTACCTGGGCAACATCCAGGCGGCCAACGCGTTCAACTACAAGTGGAACCTGTCCAAGATCGGCAAGCCGGTCGACAAGACCGAATGGGGCATGAGCCCGCAGACGATCAACGCCTACTACAACCCGCTGCAGAACGAGATCGTGTTCCCGGCGGCGATCCTGCAGCCGCCGTTCTTCGACCCGAACGCCCCGGCGGAAATGAACTACGGCGGCATCGGCGCGGTGATCGGCCACGAGATGACCCACGGCTACGACGACCAGGGCAGCCGCTTCGGGCCGACCGGCAACTTCGAGAACTGGTGGACGCCGGCCGATGCCAAGGGCTTCGCCTCGCGCACCGACCGCCTGATCAACCAGTTCGACGGCTACAAGACCGCGTCGGGCAATGTCAGCGGCAAGCTGACGCTGGGCGAGAACATCGCCGACCTGGGCGGGCTGAACACCGCCTACGACGCGATGAAGACCGCCACCGCCGGCCAGGACGACCCGAAGACCGACGGCATCACCCGCGACCAGCGCTTCTTCCTGAACTGGGCCACGGTGTGGCGCCGCAACTTCACCCCGGACGAACTGGCCGTGCGCCTGAAGACCGACCCGCACGCGCCGGCCAACTTCCGTGCGATCGGCGCGCCGTCGAACATGCCGGCCTTTGCCGCCGCGTTCTCGTGCAAGCCGGGCGACGCGATGGTGCGCCAGGGCGACAAGCAGGTGGTGATCTGGTAA	MNVRTPHLLTLSLAVAAALSACKKPDEAPAAAPTADTAAAAPKKLTLDESKLPPFNQFQASDLDPNGNACTDLNAYANAKFLAANPVPGDRTSWGAFEMLDERSNAVQHQLVEQAAAATSATGVEKLVGDIWATGMDEAKINAQGIEPLKPELAAIDGVTDQAKLVDYLRTSAAKGENGLFGFGAEADFKNSSMNIAYASQGGLGLPDPEYYTKADNKAKLDAYQAHIAKVLELAGTSATDAAAQAKQVVAFETRLAKVSKTSTELSRDASLFYNPVSPADADKLTPNWSWSEFFKSQGVDVPAMFSLAMPAFHQEVSKMIADTDPAIWRAYLRFHAVDSASPYLSQAFVDENFAFYNQTMRGQKENKPRWKRVLASINRQAGEALGQMYVQVAFPADSKAKMEELVGNLRTALKARIEKLDWMSPETKEKAIAKWNSFTPKIGYPDKWRSWDGLSTSRDSYLGNIQAANAFNYKWNLSKIGKPVDKTEWGMSPQTINAYYNPLQNEIVFPAAILQPPFFDPNAPAEMNYGGIGAVIGHEMTHGYDDQGSRFGPTGNFENWWTPADAKGFASRTDRLINQFDGYKTASGNVSGKLTLGENIADLGGLNTAYDAMKTATAGQDDPKTDGITRDQRFFLNWATVWRRNFTPDELAVRLKTDPHAPANFRAIGAPSNMPAFAAAFSCKPGDAMVRQGDKQVVIW				NA	NA	NA	NA	NA
BMS020_08436	2007	pepO_4	COG3590	Neutral endopeptidase	ATGCCCACCGTTCGCCCGCTCGCCCTGGCCCTAGGCTTCAGCCTGGCCGCCCTGCTGACCGCACCCCACGCCGAGGCCGCCCGCAAGAAGACCGCGAAGGCGCCGGCCGTGCCGGCAGCCTGCAGCGACTTCTACGACAGCGCCAACGCCGCCTGGCTGAAGGCCAACCCGGTACCGCAGACCGGCGCCACCACCGCGCTGGGCCAGCTGTCCGAACGCGCCCTGCAGCAGCAGAAGGACCTGCTCGACGCGTCGATGGCATCGCCGCAGAACAACGTGCAGAAGCTGCTCGGCGACTTCTGGGCCAGCGGCCTGGACGAAGCCGCGGTCGAGGCCGACGGCTCCAAGCCGATCGCCCCGCTGCTGTCGCGCATCGACGCGATCAAGAAGTCCAAGGACATCCCGGCCGCGATCGCCGCGCTGCACCAGGTCGGCATCCCGGTGGCCTTCAACTTCAGCCCCGACGTGGACCTGAAGGCGCTGGACCGCCACATCGGCTACTTCATGCAGGGCGGCACCGGCCTGCCCGATCCGGCGTTCTACACCCGCACCGACGCCGACATGGCCACGCTGATGACGCGCTACCGCGCCTACGTCAAGCAGGTCCTGGCGCTGACCGGTACCCCGGCGGCCAAGCTCGATGCCGACGTCGCCTCGGTGCTGCAGATCGAAACCGCGCTGGCGCGCGCCGCCAAGCCGGTGGCCGACATCAACAACCCGTTCAACAACTACGCGCCGCTGTCGACCAAGGACGCCGGCAAGCAGTTCAAGAACCTGCAGCTGGGCGATTTCCTCAAGGCGCAGGGCGTGCAGGACGACCTGGTCTCGATGGCCGACCCGGCGCTGTTCAAGCAGCTCGACGGCATGATCGTCAGCCTCAAGCCGGACCAGTGGAAGGCCTACCTGCGCTGGCGCGTGGGCGATGCGATGGCGCCGTACCTGTCCAAGAGCTTCCGCGACGCCGAGTTCGAGTTCCGCGGCCGCCTGCTGGCCGGCCAGACCCTGCCGGCGCCGCGCTGGCAGCAGGTGCTCGACGCGATCAACGTCGCCGCCGGCCCGATGCTCGGCCGCGAGTACACCGCGCGCTACCTGAGCGCCGACACCCGCCGCCGCGCCGAGGCGATCGTCGATGAGATCCGCGAGGCGCAGATCAAGGCGATCGAGCGCACCGGCTGGGGCAACGAGCAGGTGGTGGCCGAGGCCAAGGCCAAGCTCGACGCGATGAAGATCGAAGTCGGCGCACCCCGCCGCGACCTCGACTACAGCGTGCAGCCGATGGGCCGCGGCAGCTTCGGCGGCAACATGCTGATCGCCTCGACCTGGCGCCACCGCGAGGAGATGAAGCGCATCGGCAAGGGCAACGCCGACCGCCGCTGGGACGTGCTGCCGCAGCAGCCGGCGCTGGCCTACGACATCGCCCAGAACCGCCTGATCGTCACCGCCGCGGTACTGCAGGCGCCGGTGTTCGGCGCGGGCAGTGATCCGGCCGCGCAGTACGGTGCATTCGGTGCGCTGGCCGCGCACGAGATCACCCGCGCGATCGACGTCAAGGGTGGACTGGTCGATGCCAAGGGCGAGCTGCGCAGCTGGTGGACCCCGGCCGAGAAGACCGCCTGGACGCTGCTGACCAACCGCGTGGTCGCCCAGTACGACGCCTACCCGTTCCCGGGCGTGCCCAACACCAAGGTCAATGGCAGCCTGACCGCCGAGAGCAACCTCGCCGACCAGGCCGGCATCGAGCTGGCGTGGCAGGCGTTCAGCGCCGCCCAGCCGCAGGCCACGCAGGCGTCCAAGCAGGCGTTCTTCACCGCCTGGGCCGGCTTGTGGGCGCAGCAGCTGTCGCCGAACGAAGCGGTGCAGCGCGCCGCCGCCGACGTGCGCGCGCCGGGCAAGTGGCGCACCAATGGCCCGCTGGCGAACCTGCCGGAGTTCGGTGCCAGCTTCCAGTGCAAGGCCGGCCAGCCGATGCAGCGGGTCGAGGCCGAGCAGATCCGCATCTGGCGCTGA	MPTVRPLALALGFSLAALLTAPHAEAARKKTAKAPAVPAACSDFYDSANAAWLKANPVPQTGATTALGQLSERALQQQKDLLDASMASPQNNVQKLLGDFWASGLDEAAVEADGSKPIAPLLSRIDAIKKSKDIPAAIAALHQVGIPVAFNFSPDVDLKALDRHIGYFMQGGTGLPDPAFYTRTDADMATLMTRYRAYVKQVLALTGTPAAKLDADVASVLQIETALARAAKPVADINNPFNNYAPLSTKDAGKQFKNLQLGDFLKAQGVQDDLVSMADPALFKQLDGMIVSLKPDQWKAYLRWRVGDAMAPYLSKSFRDAEFEFRGRLLAGQTLPAPRWQQVLDAINVAAGPMLGREYTARYLSADTRRRAEAIVDEIREAQIKAIERTGWGNEQVVAEAKAKLDAMKIEVGAPRRDLDYSVQPMGRGSFGGNMLIASTWRHREEMKRIGKGNADRRWDVLPQQPALAYDIAQNRLIVTAAVLQAPVFGAGSDPAAQYGAFGALAAHEITRAIDVKGGLVDAKGELRSWWTPAEKTAWTLLTNRVVAQYDAYPFPGVPNTKVNGSLTAESNLADQAGIELAWQAFSAAQPQATQASKQAFFTAWAGLWAQQLSPNEAVQRAAADVRAPGKWRTNGPLANLPEFGASFQCKAGQPMQRVEAEQIRIWR				NA	NA	NA	NA	NA
BMS020_08437	1656			hypothetical protein	ATGAGACTGCTGATTCTCGGTGGCTATGGCGTGTTCGGTGGCCGCCTGGCGCGGTTGCTGTCCGACCTGGACGGCCTCGAACTGCTGATTGGTGGCCGCAACCTGGAGGCCGCCCGTGCGTTCTGCGCCAGTTACGTCGGCGCGCCGCGGCTGCGCCCGCTGCGGCTGGCGCGCGAAGGCATCGCCGAGGTGCTGCGGGCGGAGCGCCCGGACCTGGTGGTCGATGCGTCCGGTCCGTTCCAGGACTACGGCGCGCACCCGTACGGGGTGATCGAGGCCTGCATCGCCGCGCGCATCGATTACCTGGATTTCGCCGACGCCGCCGATTTCGTGTTCGGCGTCGATCGCTTCGACGCGCAGGCGCGCGATGCCGGCATCTTCGTGCTGTCCGGGGTCAGCAGCTTCCCGGTGCTGACCGCCGCGGTGCTGCGCGAGCTGGCCAGGAGCATGCAGATCAGCCGCGTCGAGGGCGGCATCGCGCCGTCGCCGTATGCCGGCATCGGCCTCAACGTGATGCGTGCGGTGGTCGGCTATGCCGGCGCGCCGGTAAAGCTGCGCCGCAATGGTCGCCCCGGGCATGGCTGCGGGCTGGCCGAAAGCCTGCGTTTCACCGTCGCGGTGCCCGGGCGGGTGCCGCTGGCGAACCTGCACTTCTCGCTGGTCGACGTGCCGGACCTGCAGGTGATCCCGCCCGAACACCCGGGCCTGACCGATATCTGGATGGGGGCTGGCCCGGTGCCGGAAATGCTGCACCGCGTGCTCAACCTGCTGGCGAAGGCGCGTGCGCGCTTCCATCTGCCATCGCTGCAGCCGTTGTCGCCGTTGTTCTACCGCGTGCTCAACCTGATGAAGTTCGGCGAGCACCGCGGCGGCATGTTCGTGCGCGCCTACGGCACGCGCGACGGCATCGCGGTGGAGCGCAGCTGGCACTTGCTGGCCGAGGGCGACGATGGCCCGTACATCCCGTCGATGGCGATCGAAGCGGTGGTGCGCAAGCTGCTGGCCGGTGAGCGCCCGGCATCCGGCGCGCGTGCGGCGATTCGTGCGCTGGAGCTGGCCGATTACGACGCGCTGTTCGCCGGCCGCGCGATCCATACCGGCTTTCGCGAGGAGCGCGTGGGCGCCAGCCTGTACCAGCAATTGCTCGGCAGCGCGTTCGCCAGCTTGCCGCCCCGGCTGCAGGCACTGCATGCGGCCGGGGCGCCGCAACGCTGGCATGGGCGCGCCGAGGTGCGGCGTGGCCGCGGCCTGCTGGCGCGGCTGCTGGCACGCGCGTTCGGCTTTCCGCCCGCGGCGACGGACGTGCCGCTCACGGTGGAATTCGCGACGGACCCGCGCGGCGAGCGCTGGACCCGCACATTCGGCGGCCGGCGCTTTTCCTCATGGCAGTCGCGTGGCCGCGGGCGCAACGCCTGGCTGCTGGTCGAGCGTTTCGGCCTGATCCGCGTGGCGATGGCGCTGGTGGTCGACGGCGATCGCCTGCGGCTGTTGCCGCGGCGCTGGTCGTGCCTGGGCATCCCGTTGCCGAAGGCGCTGCTGCCGGGCGGGGCGACCTACGAAACCGAGCGCGACGGGCGCTTCGTGTTCGACGTCGAGATCGCCGCGCCGTGGGTGGGGCTGATCGTCGCCTATCGCGGCAGCCTGCAGCCGGGCTGA	MRLLILGGYGVFGGRLARLLSDLDGLELLIGGRNLEAARAFCASYVGAPRLRPLRLAREGIAEVLRAERPDLVVDASGPFQDYGAHPYGVIEACIAARIDYLDFADAADFVFGVDRFDAQARDAGIFVLSGVSSFPVLTAAVLRELARSMQISRVEGGIAPSPYAGIGLNVMRAVVGYAGAPVKLRRNGRPGHGCGLAESLRFTVAVPGRVPLANLHFSLVDVPDLQVIPPEHPGLTDIWMGAGPVPEMLHRVLNLLAKARARFHLPSLQPLSPLFYRVLNLMKFGEHRGGMFVRAYGTRDGIAVERSWHLLAEGDDGPYIPSMAIEAVVRKLLAGERPASGARAAIRALELADYDALFAGRAIHTGFREERVGASLYQQLLGSAFASLPPRLQALHAAGAPQRWHGRAEVRRGRGLLARLLARAFGFPPAATDVPLTVEFATDPRGERWTRTFGGRRFSSWQSRGRGRNAWLLVERFGLIRVAMALVVDGDRLRLLPRRWSCLGIPLPKALLPGGATYETERDGRFVFDVEIAAPWVGLIVAYRGSLQPG				NA	NA	NA	NA	NA
BMS020_08438	669	glpG_3		Rhomboid protease GlpG	ATGTTCCCCCGATTGCCGACCGTCACCAAGGCCTTGCTGATCGCCAACGGCGTGCTGTTCCTGCTGCAGTGGGTCCTGAGCGACGCAACGTTCGCGCCGCTGATGCTGTGGCCGATCGGCGATGGCGGCTTCGACCCGTTCTCGCCGGGGCAGAACTTCCAGCCGTGGCAGCTGCTGACCTACGGCTTCCTGCATGGCGGGTTCTCGCATCTGTTCTTCAACATGCTGGCGTTGTTCATGTTCGGCGCGCCGCTGGAGCAGACCTGGGGCGAGAAGCGCTTTCTGACCTATTACCTGGTCTGCATCGCCGGTGCCGGTGTCTGCCAGCTGCTGGTGGGCTGGCTGGCCAGCAGTTCGGCGCCGGTGCTGGGCGCGTCCGGCGGCGTGTTCGGCCTGCTGCTGGCCTACGGCATGCTGTTCCCGAACCAGCGGGTGATGCTGCTGTTCCCGCCGATCCCGATGAAGGCGCGCACGTTCGTGATCGTGTTCGGCGCGATGGAGCTGGTGTTCGGCTTCACCGGCTGGCAGCCGGGCGTGGCGCATTTCGCCCATCTCGGCGGCATGTTGTTCGGCTGGCTGCTGATCCGCTATTGGCGCGGGCAGTCGCCGTTCAACCGGCGCCGTCCGCCGGGCGGGCCGCGGCCGAGCCACCTGCGCCGGGTGAAGTAG	MFPRLPTVTKALLIANGVLFLLQWVLSDATFAPLMLWPIGDGGFDPFSPGQNFQPWQLLTYGFLHGGFSHLFFNMLALFMFGAPLEQTWGEKRFLTYYLVCIAGAGVCQLLVGWLASSSAPVLGASGGVFGLLLAYGMLFPNQRVMLLFPPIPMKARTFVIVFGAMELVFGFTGWQPGVAHFAHLGGMLFGWLLIRYWRGQSPFNRRRPPGGPRPSHLRRVK				NA	NA	NA	NA	NA
BMS020_08439	1047	mreB_2	COG1077	Cell shape-determining protein MreB	ATGTTCAAGAAACTGCGCGGCATGTTCTCCAACGACCTGTCCATCGACCTGGGCACGGCCAACACCCTGATCTACGTGCGCGGCCAGGGCATCGTGCTGAACGAGCCGTCGGTGGTCGCGGTGCGCCAGGATCGCGCGATCGGCGGCACCCGCTCGGTGGCGGCGGTCGGTGCCGAGGCCAAGCAGATGCTCGGCCGCACCCCGGGGCACATCACCACCATCCGCCCGATGAAGGACGGCGTCATCGCCGACTTCACCTACACCGAGGCGATGCTCAAGCACTTCATCAAGAAGGTGCACAAGTCGCGCGTGCTGCGCCCAAGCCCGCGCGTGCTGGTGTGCGTGCCGGCCGGCTCGACCCAGGTCGAGCGCCGCGCGATCAAGGAATCGGCCGAGGAGGCCGGTGCGCGCGACGTCTACCTGATCGAGGAGCCGATGGCCGCGGCGATCGGCGCCGGCATGCCGGTCACCGAGGCGCGCGGTTCGATGGTCATCGACATCGGCGGCGGCACCACCGAGGTCGCGGTCATCTCGCTGAACGGCATCGTCTACTCGCAGTCGGTGCGCGTGGGCGGCGACCGCTTCGACGAGTCGATCACCAACTACGTGCGCCGCAACCACGGCATGCTGATCGGCGAGGCCACCGCCGAGCGGATCAAGCTGGAGATCGGCTGCGCCTACCCGCAGGCCGAGGTGCAGGAGATGGAGATCTCCGGCCGCAACCTCGCCGAGGGCGTGCCGAAGATGATCAAGATCAACTCCAACGAGGTGCTCGAGGCGCTGCACGAGCCGCTGTCCGGCATCGTCTCGGCGGTCAAGCTGGCGCTGGAGCAGACCCCGCCGGAGCTGTGCGCCGACGTCGCCGAGCGCGGCATCGTGCTGACCGGCGGCGGCGCGCTGCTGCGCGACCTGGACCGGCTGATCTCCGAGGAGACCGGCCTGCACGTGCAGGTCGCCGACGATCCGCTGACCTGCGTCGCCCGCGGCGGTGGCCGTGCGCTGGAGCTGGTCGACATGCACGGCAACGAGTTCTTCGCGCCGGAGTGA	MFKKLRGMFSNDLSIDLGTANTLIYVRGQGIVLNEPSVVAVRQDRAIGGTRSVAAVGAEAKQMLGRTPGHITTIRPMKDGVIADFTYTEAMLKHFIKKVHKSRVLRPSPRVLVCVPAGSTQVERRAIKESAEEAGARDVYLIEEPMAAAIGAGMPVTEARGSMVIDIGGGTTEVAVISLNGIVYSQSVRVGGDRFDESITNYVRRNHGMLIGEATAERIKLEIGCAYPQAEVQEMEISGRNLAEGVPKMIKINSNEVLEALHEPLSGIVSAVKLALEQTPPELCADVAERGIVLTGGGALLRDLDRLISEETGLHVQVADDPLTCVARGGGRALELVDMHGNEFFAPE	PGPT0027700_647	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
BMS020_08440	933	adoK	COG0524	Adenosine kinase	ATGTCCGCACTGATCTGTGGTTCCCTTGCCTACGACACCATCATGGTGTTCCCGGACCAGTTCAAGAACCACATCCTGCCGGACAAGGTGCACATCCTGAACGTGTCGTTCCTGGTGCCGCGGATGCGTCGCGAGTTCGGCGGCTGCGCCGGCAACATCGCCTACAACCTGCACCTGCTGGGCGGCAAGCCGATCCCGATGGGCACCGTGGGCCAGGATTTCGGTCCGTACCGCGAGCATTTCGACGCGCTGGGCATCGACCTGTCGCGCGTGAAGGTGATCGACGAGCTGTTCACCCCGCAGGCGTTCATCACCACCGACCACGACAACAACCAGATCACCGCGTTCCATCCGGGCGCGATGATGCGGTCCTACGAGAACCACGTGAAGGACGTGCCGGGCGTGACCATCGGCCTGGTCGGCCCGGACGGCCGTGAGGGCATGATCCAGAACGCCGCCGAATTCCAGCAGATGGGCGTGCCGTTCATCTTCGACCCGGGCCAGGCGATGCCGCTGTTCAACGGCCCGGAGCTGCGCGCCTTCATCGAGCAGGCCGACTACGTGGTGGTCAACGACTACGAGTCCAACCTGCTGCAGGAGCGCACCGGCTGGAGCGACCGCGAGATCGTCTCGCGGGTGAAGGCCTACATCACCACGCAGGGCCCGAAGGGCGCGCTGGTGCATACCCCCGAGAAGACCTACGACATCCCGCCGGCGCACGAGCGCCGCGTGGTCGACCCGACCGGCTGCGGCGACGCGTTCCGCGCCGGCCTGCTGTACGGCATCGAGGGCGGCTACGACTGGCTGACGATCGGGCGGATGGGCAACCTGATGGGCGCACTGAAGGTCGAACACCCCGGCACCCAGAACCAGCGTTTCGATTTCGCCGAGTTCAACGACCAGTTCAAGCAGCAGTTCGGCTACGCGCTGTAA	MSALICGSLAYDTIMVFPDQFKNHILPDKVHILNVSFLVPRMRREFGGCAGNIAYNLHLLGGKPIPMGTVGQDFGPYREHFDALGIDLSRVKVIDELFTPQAFITTDHDNNQITAFHPGAMMRSYENHVKDVPGVTIGLVGPDGREGMIQNAAEFQQMGVPFIFDPGQAMPLFNGPELRAFIEQADYVVVNDYESNLLQERTGWSDREIVSRVKAYITTQGPKGALVHTPEKTYDIPPAHERRVVDPTGCGDAFRAGLLYGIEGGYDWLTIGRMGNLMGALKVEHPGTQNQRFDFAEFNDQFKQQFGYAL	PGPT0021465_1498	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021465-adoK|pkfB-K00856	NA	NA
BMS020_08441	717			hypothetical protein	ATGAAGCATTGGACCTGGATCGCGCTGTCCGCACTGGCGCTGTCCGCCTGCACCGATCGCGAGGCCGAGCGCCAGGCGGCGCTGGCGGCCGAGGCGCAACAGAAGGAGCAGGCCGCCGGCGCGCTGGCCGAGCGCTACGACCATGCCGTGCAGGACCACAACTGGGACCTGGCCCGCGCCTACGGCGCCGACCTGCTGCAGACCTATCCGGGGACCGAAGCCGCCAAGCGGGTCGAACCGGGCTATGCCGAGGTGAAGGCCAAGGGCGACGAGGCGCGCGAGCAGCGCCGGCTGCAGGCGCTGTGGCAGTACAACCAGGTCGGGGTGAAGGGCGGGACCCAGCGCTCGGCGATGATCGACGCCAAGGAGCCGGTGGACGTCGATGGCAGCGGCGCCAAGCGCGTGCAGCTGGTGTTCCGCGACCATCCGCAGTGGAAGCGCCACGCCTACCTGGTGCTGCAGTCCGGCGATTTCGACTGCTATCGCGGCTGCAAGGTGCAGGTCAGCGTCGATGGCGGCAAGCCGAAGGCGCTACCGGCGCATCGCCCGGACACCGACGAGGCCATCGCGATGTTCATCGACGACAACAAGGCATTGTGGGCGCTGGCCGGGCAGGCCAAGGCGCTGGCGATCACCTTCCCGGTGAAGGCCGGTGGCACCCGTACCGCGCTGTTCGAAAGCGCCGGCCTGGACGGCAAGCAGATGCCGGGCTGGTGA	MKHWTWIALSALALSACTDREAERQAALAAEAQQKEQAAGALAERYDHAVQDHNWDLARAYGADLLQTYPGTEAAKRVEPGYAEVKAKGDEAREQRRLQALWQYNQVGVKGGTQRSAMIDAKEPVDVDGSGAKRVQLVFRDHPQWKRHAYLVLQSGDFDCYRGCKVQVSVDGGKPKALPAHRPDTDEAIAMFIDDNKALWALAGQAKALAITFPVKAGGTRTALFESAGLDGKQMPGW				NA	NA	NA	NA	NA
BMS020_08442	1932			hypothetical protein	ATGCGTTCCCCGTTCCTGATGCTGGCCATGGCGGTTGCCGTGGCCGGATGCTCGAAAGAGCCGTCCTCCACCGCCCCCGAGGCCCAGCCCGCCAAGCCCGCCGCCGTGAAAGCGCCCGCCCGCAGCCATGACGAGAGCTCCTACGCCGATCCGGACAAGGTCGTCATCAAGGACCTGGCGCTGGACCTGAAGCTGGACTTCGACAAGAAGGAAATCGCCGGCACCGCGACCTACAGCCTGGACTGGAAGGACAAGGCCGCCACCGAGCTGGTGCTGGACACCCGCGAGCTGAGCATTGAGAGCGTGCAGGGCGACGACGGCAAGGGCGCGCTGGCGCCGCTGCAGTACGCGCTGGCGCCGAACGACAAGGTGTTCGGCAGCAAGCTGACGATCCAGGCGCCGTCGCGCCCGGCCACGATCCAGATCGCCTACCACACCGCGCCGACCGCCTCGGGCCTGCAGTGGCTCGACCCGGCGATGACCGAGGGCAAGCAGCTGCCCTTCATGTTCAGCCAGTCGCAGGCGATCCACGCCCGTTCGTGGGTGCCGCTGCAGGACACCCCGAGCGTGCGCTTCACCTACAGCGCGCACGTGGCCACCCGCCCGGACGTGATGGTGCTGATGAGCGCCAACAGCGATCCGAAGGCCGCGCGTGACGGCGACTACAGTTTCAAGATGGAGCACCCGATCCCGTCCTACCTGCTGGCGATCGCCGCTGGCGACCTGGTGTTCAAGCCGATCTCCGCGCGCTCGGGCGTGTGGGCCGAGCCGGCGATGGCCGACAAGGCGGTCAAGGAGTTCGAGGACACCGAGAAGATGATCGGTGCCGCCGAGACGCTGTACGGCCCGTACCGTTGGGGCCGCTACGACATGCTGGTGCTGCCGCCGTCGTTCCCGTTCGGCGGCATGGAGAACCCGACCATCACCTTCGCCACCCCGACCGTGATCGTCGGCGACAAGTCGCTGGTGTCGCTGGTCGCGCACGAACTGGCGCACAGCTGGTCGGGCAACCTGGTGACCAATGCGTCGTGGAAGGACATCTGGCTCAACGAAGGCTTCACCACCTACGTGCAGGGCCGCATCACCGAGGCGCTGTACGGCCAGGAGATGGCCGAGATGGAGCGCGAGATCGACCAGACCGACCTGCTGGCCGAGGTGAAGGACATGAGCCCAGCCGACCAGGCGCTGGCGCTGCCGCCGCTGACCGAGCGTGACCCGGACGAGGCGCTGAGCCAGGTCGCCTACGTCAAGGGCGCGTGGTTCCTGCAGTTCCTGGAGCAGCGCTTCGGCCGCGAGGTGTTCGATCCGTTCCTGCGCGGCTGGTTCGACGACCACGCGTTCCAGAGCGCGACCACCGACCAGTTCGTCGCCTACCTGAAGAAGAACCTGCTGCCGAAGAGCCCGAACGCGGTCAGCGCCGCCGAGCTGGATGCATGGCTGAACCAGCCGGGCATCCCGGCGTTCGCCAGCAAGGCGCGTTCGCGTGGGTTCGCGATCGTCGACACCGCGCGCATCGCCTGGTCGGGCAGCGCCACGCTGCCGAACAAGCAGGTCACCGACGGCTGGGCCACCCAGCAGTGGGTGCACTTCCTGTCCGGCATGGGCGCGACGCTCAAGCCCGAGCAGCTCAAGCAGCTCGACGACGCCTACCACTTTACCGGCACTCCGAACGGCGAGATCGCGATGCGCTGGTACCCGCTGGCGATCCGCAGCGGCTACGCCGAAGCGTGGCCGGAAGCGGGTAAGTTCATCGAGCGCGTCGGCCGCCGCAAGCTGATCCTGCCGATCTACGCCGAGCTGCTGAAGACGCCTGAGGGCCTGGCGTTCGCCAAGGACGCCTTCGCCAAGGCCAAGCCGAGCTACCACCCGATCACCACGGTCTCGGTGGAGGAGATGATCGCCAAGGCCGAGGCCGCGCAGGCCAAGCCGTAA	MRSPFLMLAMAVAVAGCSKEPSSTAPEAQPAKPAAVKAPARSHDESSYADPDKVVIKDLALDLKLDFDKKEIAGTATYSLDWKDKAATELVLDTRELSIESVQGDDGKGALAPLQYALAPNDKVFGSKLTIQAPSRPATIQIAYHTAPTASGLQWLDPAMTEGKQLPFMFSQSQAIHARSWVPLQDTPSVRFTYSAHVATRPDVMVLMSANSDPKAARDGDYSFKMEHPIPSYLLAIAAGDLVFKPISARSGVWAEPAMADKAVKEFEDTEKMIGAAETLYGPYRWGRYDMLVLPPSFPFGGMENPTITFATPTVIVGDKSLVSLVAHELAHSWSGNLVTNASWKDIWLNEGFTTYVQGRITEALYGQEMAEMEREIDQTDLLAEVKDMSPADQALALPPLTERDPDEALSQVAYVKGAWFLQFLEQRFGREVFDPFLRGWFDDHAFQSATTDQFVAYLKKNLLPKSPNAVSAAELDAWLNQPGIPAFASKARSRGFAIVDTARIAWSGSATLPNKQVTDGWATQQWVHFLSGMGATLKPEQLKQLDDAYHFTGTPNGEIAMRWYPLAIRSGYAEAWPEAGKFIERVGRRKLILPIYAELLKTPEGLAFAKDAFAKAKPSYHPITTVSVEEMIAKAEAAQAKP				NA	NA	NA	NA	NA
BMS020_08443	885			hypothetical protein	ATGCGCCTGTACGACCTCCTGTCGCGGCTGTTTCCGCGCTCCTTCAGCGCCAAGCTGCTGGCCGTCGCCTTCGTCGGCATCCATATCCCGCTGCTGCTGCTGATCGCCTGGCTGGTCTGGCAGACCGAGCTGGCCGGCGCGCAGATGTGGACCGTGGCCGGGGTGGTGCTGGTGGCGACGCTGCTTGGCACCGGCGGCACGCTGTGGGTGCTGTACCGGCTGCTGGCGCCGCTGCGCGCCGCGGCCGAAGCGCTGGATGTGTATTACGCCGAGCAGCGCCTGCCGCTGCTGCCCGAATACGGCGAGGACGAGCTCGGCCGGCTGCTGCGCGGCATCAACCGCAGCTTGCGCGGCATCGATGCCGGTCTGCAGGACCTGAAGAAGCACGCCCTGGTCGATCCGCTGACCGAGGCGCTGAACCGGCGCGGCTGCGAGCAGGCGCTGCTCGATTCGGTCGCCGCCGCGCAGCGCGAGGGCTGGCCGTTCGCGCTGTTCGTGATCGACATGGACAACCTCAAGCCGATCAACGACCGCCACGGCCATGCCGTGGGCGACCAGGTGCTGGTGCGGCTGGTCGAATCGGCGTTCGGCTGGCTGGGCGCGCAGGACTGGATCGGGCGCTGGGGCGGCGACGAGTTCCTGATCGGCGTGCATGCGCCCGAGCACGAGGCGGCGCTGAAGCTCAACCAATGGCTGTCCGGGCTGGAGCAGGCGCCGGACGGGCAGATCCCGGTGCACGCCAGCGCCGGCTGCGCGGTCTGCCGGGCCGGCGAGCCGGCCTCGGCGCTGTACCGGCGCGCCGATGCGGCGATGTATCGGGCCAAGTTCTCCGGCGGCCGGCAGCTGGTCTGCGACGAGCAGCCGGCGCCCGCGCCGGCGCTGTGA	MRLYDLLSRLFPRSFSAKLLAVAFVGIHIPLLLLIAWLVWQTELAGAQMWTVAGVVLVATLLGTGGTLWVLYRLLAPLRAAAEALDVYYAEQRLPLLPEYGEDELGRLLRGINRSLRGIDAGLQDLKKHALVDPLTEALNRRGCEQALLDSVAAAQREGWPFALFVIDMDNLKPINDRHGHAVGDQVLVRLVESAFGWLGAQDWIGRWGGDEFLIGVHAPEHEAALKLNQWLSGLEQAPDGQIPVHASAGCAVCRAGEPASALYRRADAAMYRAKFSGGRQLVCDEQPAPAPAL				NA	NA	NA	NA	NA
BMS020_08444	765	ubiE_2	COG2226	Ubiquinone/menaquinone biosynthesis C-methyltransferase UbiE	ATGAGCGAATCCCCCTACAAGAGCGGCACTACCCATTTCGGCTTCCGCGACGTCGCCGCCAAGGACAAGCAGAAGCTCGTCGGCGAGGTGTTCACCTCGGTGGCGCGCAGCTACGACCTGATGAACGACCTGATGAGCCTGGGCATCCACCGGGCCTGGAAGCGCTATTTCGTCGCCACCGCGCAGGTCAAGCCGGGCGACCGCGTGCTCGACCTGGCCGGCGGCACCGGCGACATCGCCGTGCTGCTGCGCGACCGGGTCGGCGCCGAGGGCTCGATCGTGCTCGGCGACATCAACGCCGGCATGCTCTCGGTGGGCCGCGACCGGCTGACCAACCGCGGCCTGGTGTCGGGGCTGGACTACGTGCAGTGCAACGCCGAGGCGCTGCCGTTCCCGGACCAGAGCTTCGACCTGGTGACGATCTCCTTCGGCCTGCGCAACGTCACCGACAAGGACGCCGCGCTGCGCGAGATGTACCGCGTGCTCAAGGTCGGCGGCCAGGCGCGGGTGCTGGAGTTCTCCGAGGTCACCGCCGACTGGTTCAAGCCGATCTACGACTTCCACTCGTTCCAGGTGCTGCCGCGGCTGGGCAAGCTGTTCGCCAAGGGCGATTCCAACAGCTACCAGTACCTGGCCGAGAGCATCCGCAAGCACCCGCCGCAGGACGAGCTGAAGGGCATGATGACCGAGGCCGGATTCTCGCGCTGCCACTACAAGAACCTGACCGGCGGCATCGTCGCGATCCACTCCGGCTACAAGATCTAG	MSESPYKSGTTHFGFRDVAAKDKQKLVGEVFTSVARSYDLMNDLMSLGIHRAWKRYFVATAQVKPGDRVLDLAGGTGDIAVLLRDRVGAEGSIVLGDINAGMLSVGRDRLTNRGLVSGLDYVQCNAEALPFPDQSFDLVTISFGLRNVTDKDAALREMYRVLKVGGQARVLEFSEVTADWFKPIYDFHSFQVLPRLGKLFAKGDSNSYQYLAESIRKHPPQDELKGMMTEAGFSRCHYKNLTGGIVAIHSGYKI	PGPT0009535_875	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009535-ubiE-K03183	NA	NA
BMS020_08445	483	elaA_2	COG2153	Protein ElaA	ATGAACGATGCGATTCCCGCGCTGCAGTGGCAGGCCCTCCCCTTCGACGCGCTGGACGTGCACCAGCTGTACGCCGTGCTGAAGCTGCGCGCCGAAGTGTTCGTGGTCGAACAGGCCTGCGCCTACCTGGACCCGGACGGCCTGGACAGCCACCCCGACGCGCTGCACCTGCTCGGCCACGACGGCGCGACGCTGGCCGCCTGCCTGCGGATCCTGCCGCCCGGCACCGCCTACCGCCATCCCAGCATCGGCCGGGTCGCGCTCGCCACCAGCCACCGCGGCCGCGGGCTCGGGCACGCGCTGATGGCGCAGGGCCTGCAGGCGACCCTGGCACGCTGGCCGGGCAGCGAGATCCGGCTCGGCGCGCAGGCCCACCTGAGCGGCTTCTACCAGGTGCACGGCTTCCAGGTCGCCTCGCCGATCTACGACGAGGACGGCATCCCGCACATCACCATGCGGCGCCCGGCCGACGCCAGCGGCTGA	MNDAIPALQWQALPFDALDVHQLYAVLKLRAEVFVVEQACAYLDPDGLDSHPDALHLLGHDGATLAACLRILPPGTAYRHPSIGRVALATSHRGRGLGHALMAQGLQATLARWPGSEIRLGAQAHLSGFYQVHGFQVASPIYDEDGIPHITMRRPADASG				NA	NA	NA	NA	NA
BMS020_08446	1734	nrdD_2	COG1328	Anaerobic ribonucleoside-triphosphate reductase	ATGCCCCAACACACAGTTTCCACCGCGCCAGCACCGGCGCCGAAGATCGATCCGGTCGCGGCCGTCGAGGAGTACCTCGAACGTGCCGACTGGCGGGTCAACGCCAACGCCAACCAGGGCTATTCGCTGGGTGGGCTGATCCTCAACGTCGCCGGCAAGGTCACCGCCAACTACTGGCTGTCCAGACTGTACCCGGCCGAGGTCGGCCAGGCCCACCGCGACGGCGACCTGCACATCCACGACCTGGACATGCTGTGCGGCTACTGCGCCGGCTGGTCGCTGCGCACGCTGCTGTACGAAGGGCTCAACGGCATCCCGGGGCGGGTCGAGGCCGGCCCGCCCAAGCACCTGGGCTCGGCGATCGGGCAGATCGTCAACTTCCTCGGCACGCTGCAGAACGAATGGGCCGGCGCGCAGGCGTTCTCCTCGTTCGACACCTATCTGGCGCCACTGGTGCGCAAGGACCGGCTCGACTACACCGAGGTCCGCCAGTGCATGCAGGAACTGATCTACAACCTCAACGTGCCCTCGCGCTGGGGCACCCAGACCCCGTTCACCAACCTCACCTTCGACTGGACCTGCCCGGACGACCTGCGCCACCAGACCCCGTTCGTCGCCGGCGAAGCAATGCCGTTCACCTACGGCGAGCTGCAGCCGGAGATGGACATGATCAACCGCGCCTACCTGGAAGTGATGGCGGCCGGTGATGCCAAGGGCCGGGTGTTCACCTTCCCGATCCCGACCTACAACATCACCGCCGACTTCCCGTGGGAGTCGGCCAATGCCGAGCGGCTGTTCGAACTGACCGCCAAGTACGGCCTGCCGTACTTCCAGAACTTCATCAATTCCGATCTCGACCCGGCAATGGTGCGTTCGATGTGCTGCCGCCTGCAGCTGGACGTGCGCGAGCTGCTCAAGCGCGGCAACGGCCTGTTCGGCAGCGCCGAGCAGACCGGCAGCGTCGGCGTGGTGACGCTCAACTGCGCGCGCCTGGGCTACCTGTACCGCGGCGACGAGGCGGCGCTGTACGCGCGTCTCGATGCGCTGCTCGAGCTCGGCGTGCGCAGCCTGGAGATCAAGCGCGAGGTGGTGCAGTCGCTGATCGACCGCGGCCTGTATCCGTACACCAAGCGCTACCTCGGCTCGCTGCGCAACCACTTCTCCACGCTGGGGGTGAACGGCATCAACGAGATGATCCGCAACTTCAGCGGCGATGCGCACGACATCACCAGCGACTGGGGCGCGGCGTTCGCGCTGCGCCTGCTCGACCACGTGCGCGCGCGCATGCAGGAATTCCAGCAGCGCACCGGCCATCTGTACAACCTCGAAGCGACCCCGGCCGAGGGCACCACCTACCGCTTCGCGCGCGAGGACCGGCGGCGCTGGCCGCAGATCCTGCAGGCCGGCAGCGACGCGCAGCCGTACTACACCAATTCCTCGCAGCTGCCGGTCGGGCACACCGACGATCCGTTCGCCGCGCTGGAGCACCAGGAGCCGCTGCAGGCGCGCTACACCGGCGGCACCGTGCTGCATCTGTACATGGGCGAGCGCATCTCCAGCGCCCACGCCTGCCGCGAGCTGGTGCGGCGCGCGCTCGGCCGCTTCCGCCTGCCCTACCTCACCGTCACCCCGACCTTCTCGATCTGCCCCAGCCACGGCTATCTCGCCGGCGAACACACGTTCTGCCCGCACTGCGATGCCGCGCTGCTGGCGCGCAAGCAACAGGCCGCCTGA	MPQHTVSTAPAPAPKIDPVAAVEEYLERADWRVNANANQGYSLGGLILNVAGKVTANYWLSRLYPAEVGQAHRDGDLHIHDLDMLCGYCAGWSLRTLLYEGLNGIPGRVEAGPPKHLGSAIGQIVNFLGTLQNEWAGAQAFSSFDTYLAPLVRKDRLDYTEVRQCMQELIYNLNVPSRWGTQTPFTNLTFDWTCPDDLRHQTPFVAGEAMPFTYGELQPEMDMINRAYLEVMAAGDAKGRVFTFPIPTYNITADFPWESANAERLFELTAKYGLPYFQNFINSDLDPAMVRSMCCRLQLDVRELLKRGNGLFGSAEQTGSVGVVTLNCARLGYLYRGDEAALYARLDALLELGVRSLEIKREVVQSLIDRGLYPYTKRYLGSLRNHFSTLGVNGINEMIRNFSGDAHDITSDWGAAFALRLLDHVRARMQEFQQRTGHLYNLEATPAEGTTYRFAREDRRRWPQILQAGSDAQPYYTNSSQLPVGHTDDPFAALEHQEPLQARYTGGTVLHLYMGERISSAHACRELVRRALGRFRLPYLTVTPTFSICPSHGYLAGEHTFCPHCDAALLARKQQAA	PGPT0021330_2252	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0021330-nrdD-K21636	NA	NA
BMS020_08447	192			hypothetical protein	ATGCACGACACCACCACGACCACCCACCTGCCCACCCTGCGCGACGACGAGCGCCAGCGCTGCGAAGTCTGGACCCGGGTGATGGGCTACCACCGTCCGGTCTCCAGCTTCAACACCGGCAAGCAGGGCGAATACGCCGAGCGCGTCTGTTTCGTCGAGGCGGCCGCGCCGCGGGAGGCCAAGGCGGCATGA	MHDTTTTTHLPTLRDDERQRCEVWTRVMGYHRPVSSFNTGKQGEYAERVCFVEAAAPREAKAA				NA	NA	NA	NA	NA
BMS020_08448	714	queE_3		7-carboxy-7-deazaguanine synthase	ATGATCCGGATCGGCGGGCTGGTGCCGATGAGCACCGTCGACTTCCCCGGCCGGCTCGCCGCGGTCGCGTTCCTGCAGGGCTGCCCGTGGCGCTGCAGCTACTGCCACAACCCGCATCTGCTGCCCGCCGGCGGCGGCGACAGCGCCGGCTTCGCGGCGCTGCTGGGGCTGTTGCAGCGCCGCCGCGGGCTGCTCGACGGCGTGGTGTTCTCCGGTGGCGAACCCACGCTGCAGCCGCGCCTGGGCGAGGCGATCGACGCAGTGCGCGCGCTCGGCTTCCAGGTCGGCCTGCATACCGGCGGCATGTACCCGCGCCGGCTGCAGGCATTGCTGCCGCGGCTGGACTGGGTCGGGCTGGACATCAAGGGCCCGGCCGCGCGCCACGCCGCGATCACCGGGCGGCGCGGCGACGGCGCGGCCACGCGCGCTTCGCTGCAGGCGCTGCTGCAGTCCGGCATCGAACACGAATGCCGCACCAGCTGGGACCCGCGGCTGTTTCCCTATGCCGAGCTGCTGGCGCTGGCACAGGCGCTGGCCGACGCCGGCGTGCGGCGCTGGGCGTTGCAGCAGCTGCGCCGCGACGACCCGCCGCAGGCGAGCGGACTGGACCCGGCGCGCCTGGCCGCACTGGCGGCCCCGTTCGAACGCTTCGAGTATCGCGGCGAACCGCACGCCGGCGGCAGCGCGGCGACCGGCAGCGGCGCGGCGTGGTGA	MIRIGGLVPMSTVDFPGRLAAVAFLQGCPWRCSYCHNPHLLPAGGGDSAGFAALLGLLQRRRGLLDGVVFSGGEPTLQPRLGEAIDAVRALGFQVGLHTGGMYPRRLQALLPRLDWVGLDIKGPAARHAAITGRRGDGAATRASLQALLQSGIEHECRTSWDPRLFPYAELLALAQALADAGVRRWALQQLRRDDPPQASGLDPARLAALAAPFERFEYRGEPHAGGSAATGSGAAW				NA	NA	NA	NA	NA
BMS020_08449	456	tadA_4	COG0590	tRNA-specific adenosine deaminase	ATGCTGGTCACGCCCGACTACCGCGCCCTGCTCGACACCGCCATCGCCGAAGCCCGCCAGGGCCTGGCCGAGGGCGGCATCCCGATCGGCGCGGCGCTGTACCACAACGACGGTCGGCTGCTCGGCTGCGGCCACAACCGCCGCGTGCAGGAAGGCGACCCGTCGGTGCACGGCGAGACCGATGCGTTCCGCAAGGCCGGGCGCCAGCGCCGCTACCAGGACACCATCATGGTCACCACGCTGGCGCCGTGCTGGTACTGCAGCGGGCTGGTGCGGCAGTTCAACATCGGCACCGTGGTGGTCGGCGAGTCGGTGACCTTTCAGGGCGGCATCGACTGGCTGCGCGAGCACGGCGTCAACGTGATCGACCTGCACAGCCAGGAATGCATCGACCTGCTCGGCGGCTACATCGCCGCCAATCCCGAGGTCTGGAACGAGGACATCGGCGAAGACTGA	MLVTPDYRALLDTAIAEARQGLAEGGIPIGAALYHNDGRLLGCGHNRRVQEGDPSVHGETDAFRKAGRQRRYQDTIMVTTLAPCWYCSGLVRQFNIGTVVVGESVTFQGGIDWLREHGVNVIDLHSQECIDLLGGYIAANPEVWNEDIGED	PGPT0021320_225	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021320-codA|cdd-K03365	NA	NA
BMS020_08450	450	atpC_3		ATP synthase epsilon chain	ATGGACCACGCAAGCCCGGCCACCGCCCATCCCCCCGACGCGCAGCGCAGCCTGCGCCTGGACATCATCAGCCTGACCGGCGCGCTGTGGACCGGCAACGTCCGCGAAGTCAGCCTGCCCGGCAGCGAAGGACGCTTCGGCGTGATGGCCCGCCACCTGCCGATGCTGACCACACTGCGCGAAGGCCTGGTGCACATCCACCCGCTGGAGGGACCCGCGGTCCAGGTCTACGTCTCCGGCGGCTACGTCGAAGTGCAGCCTGACCGGGTGATGGTGATGGCCGACCTGGCCGAACGCGGCGGCGACATCGACGCCGCACGCGCCCAGGCCGCGCGCGACGCGGCCAGTTCGCCGATGGCGGAGAACTTCACCGACGCCGCCTACGCGCAGCTGCACCTGGAACTGATCCACCGCTACAGCGCCACCCTGCGCCATACCGCGTTGAAGTAG	MDHASPATAHPPDAQRSLRLDIISLTGALWTGNVREVSLPGSEGRFGVMARHLPMLTTLREGLVHIHPLEGPAVQVYVSGGYVEVQPDRVMVMADLAERGGDIDAARAQAARDAASSPMAENFTDAAYAQLHLELIHRYSATLRHTALK	PGPT0014295_134	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014295-atpC-K02114	NA	NA
BMS020_08451	1506	yflS	COG0471	Putative malate transporter YflS	ATGTTGGACCGCATCAAGGCGACATTCCGCTATTTCAACCAGGCCGTGCCGTTCCGGCTTGGCCCGGCGCTGGCCACCACCGCGGTGCTGGTCACCCTGTTGCTGCTGCCGTGCCCGGCCGGGCTGACGCCCAAGGCCTGGGGGCTGGTGGCGATCTTCCTGACCACCATCGTCGCGATCATCCTCAAGGTGATGCCGATCGGGGTGATGGCGCTGATGGCGATCGTCATCACCGCGCTGTCGCAGGTCACCGCCGGCAGTTCCAAGGCGGCCATCGCCGATGCGCTGGGCAGCTTCGCCAGCCCGCTGATCTGGCTGATCGTGGTGGCGATCCTGATCTCGCGCGGGCTGAAGAAGACCGGCCTGGGCAACCGCATCGGGCTGATGTTCATCGCCCTGCTCGGCAAGCGCACCGTCGGCATCGGCTACGGGCTGGCGGTGTGCGAGCTGGTGCTGGCGCCGTTCACCCCGTCCAACACCGCGCGCGGCGGCGGCATCGTGCATCCGATCATGAAGTCGATCGCCAACGCGTTCGACTCGGACCCGGAAAAGGGCACCCAGGGCAAGGTCGGCACCTACCTGGCGCTGGTCAACTACCACGCCAACCCGATCACCTCGGCGATGTTCCTGACCGCGACCGCGCCCAACCCGCTGGTGGTGGACTACGTCGCCAAGGTCACCGGCGGCAGCTTCCAGCTGAGCTGGACCACCTGGGCACTGTGCATGCTGCTGCCCGGCCTGCTGTGCATCGCGATCATGCCGCTGGTGATCTACCTGCTGTCGCCGCCGCAGTTGAAGGCCACGCCGAACGCGGTGGATTTCGCCCGGGGCGAGCTGGCCAAGATGGGCGCGCTGCATCCCAAGGAGAAGGTGATGCTGGGCACCTTCGCGCTGCTGCTGCTGTTGTGGGCGAACGTGCCGGCGATGCTGTTCGGCGCGGCGTTCACGCTCGACCCGACCGCGGTGGCGTTCCTCGGCCTGTTCGTGCTGATCATCACCGGCACCATCGACTGGGACGACGTGCTGTCGGAAAAGAGCGCCTGGGACACGCTGATCTGGTTCGGCGCGCTGGTGATGCTGGCCGAGCAGCTCAACAAGCTCGGGGTGATCGGTTGGTTCTCCGATGGTCTGAAGGGCGCGATCGCCGCGGCCGGGCTGGGCTGGGAACTGAGCGCGCTGGTGCTGCTGGGGGTGTTCGTGTTCTCGCACTACCTGTTCGCCAGCACCACCGCGCACGTCAGCGCGATGATGCTGGCGTTCCTGACCGTCGGCGTGCAGCTGATTCCGCCGGACTACGTGGTGCCCTTCATGCTGGTGATGACCGCAGGTTCCGCGGTGATGATGACGCTGACCCATTACGCCACCGGGACCTCGCCGATCATCTTCGGCAGCGGCTACGTCAGCCTCGGCCTCTGGTGGAAGGTCGGCTTCGTGATGTGCGTGGTCGAGCTGCTGGTGTTCGGCGTGGTCGGCAGCCTGTGGTGGAAGCTGCTGGGCTACTGGTGA	MLDRIKATFRYFNQAVPFRLGPALATTAVLVTLLLLPCPAGLTPKAWGLVAIFLTTIVAIILKVMPIGVMALMAIVITALSQVTAGSSKAAIADALGSFASPLIWLIVVAILISRGLKKTGLGNRIGLMFIALLGKRTVGIGYGLAVCELVLAPFTPSNTARGGGIVHPIMKSIANAFDSDPEKGTQGKVGTYLALVNYHANPITSAMFLTATAPNPLVVDYVAKVTGGSFQLSWTTWALCMLLPGLLCIAIMPLVIYLLSPPQLKATPNAVDFARGELAKMGALHPKEKVMLGTFALLLLLWANVPAMLFGAAFTLDPTAVAFLGLFVLIITGTIDWDDVLSEKSAWDTLIWFGALVMLAEQLNKLGVIGWFSDGLKGAIAAAGLGWELSALVLLGVFVFSHYLFASTTAHVSAMMLAFLTVGVQLIPPDYVVPFMLVMTAGSAVMMTLTHYATGTSPIIFGSGYVSLGLWWKVGFVMCVVELLVFGVVGSLWWKLLGYW	PGPT0013960_75	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_MALATE_TRANSPORT,PGPT0013960-TC_DASS|yflS-K03319	NA	NA
BMS020_08452	447	trxC_2	COG0526	Thioredoxin 2	GTGAGCGAGCCGCTGCTGGTCGCCTGCCCGCACTGCGATGCACGCAACCGCGTGCCGGCCGCGCGGCTGGCGCAGGCGCCGGTCTGCGGGCGCTGCCACCGCGGCTTGTTCGGCGGCGCGCCGCTGGCGCTGGACGCGGCCCGGTTCGCGCTGCACGCCGAGCAGACCGATCTGCCGCTGCTGGTGGATTTCTGGGCGAGCTGGTGCGGGCCGTGCCGGACCATGGCGCCGCAGTTCGAAGCCGCCGCGGTGCAGCTGGAGCCCTGGCTGCGGCTGGGCAAGATCGATACCGAGGCGAACCCGGCGCTGGCGCAGCGCTTCGCGGTGCGCAGCATCCCCACGCTGGTGCTGCTGCGGCACGGCCGCGAACTGGCGCGGCAGTCCGGGGCGATGCCCGCCGCCGACATCGTGCGCTGGGCGCGGGCCCAGCTGTCGCAGGCGGGCTGA	MSEPLLVACPHCDARNRVPAARLAQAPVCGRCHRGLFGGAPLALDAARFALHAEQTDLPLLVDFWASWCGPCRTMAPQFEAAAVQLEPWLRLGKIDTEANPALAQRFAVRSIPTLVLLRHGRELARQSGAMPAADIVRWARAQLSQAG	PGPT0013061_342	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013061-trxC-K03672	NA	NA
BMS020_08453	480			hypothetical protein	ATGCAGATCGACGCCCCCATCCGTGTGCAGTTGACGCAGGACGGCGACTTCGCCTTCCACGTACGGTTCGAGGGCACCGCGCTCGCCGAACTGCTCACCGACGAGAGCGCGCCGCTCGGCCACGACCGCGGGCCGAACCCGTCGCGGATGCTGCTGGCGGCGATCGCCAACTGCCTGTCGGCCAGCCTGCTGTTCGCGATGCGCAAGCACCACAACGCGCTGGAGGGGCTGCAGGCGGAGATCGTCGCGCTGCCGACCCGCAACGATGCCGGCCGCTGGCGCCTGCCGCGCGCGGCGGTGGAACTGACCCTGCCCGGCGGCGCCGGCGCCTACGCGCACCTGGACCGCGTGCTGGAGAGCTTCGAGGAGTTCTGCACCGTGACCCAGAGCGTGCGCCAGGGCATCGAGGTCGACGTGACCGTGCGCGACGGCGACGGGCGGGTGCTGCAGGGCGACAAGAGCTTCGAGGCCGGCGCGTGA	MQIDAPIRVQLTQDGDFAFHVRFEGTALAELLTDESAPLGHDRGPNPSRMLLAAIANCLSASLLFAMRKHHNALEGLQAEIVALPTRNDAGRWRLPRAAVELTLPGGAGAYAHLDRVLESFEEFCTVTQSVRQGIEVDVTVRDGDGRVLQGDKSFEAGA				NA	NA	NA	NA	NA
BMS020_08454	1368	hslU_2	COG1220	ATP-dependent protease ATPase subunit HslU	ATGACCGAAAATTCATCGTCCACCATGACCCCGCGCGAGATCGTGCAGGAACTGGATCGCCACATCGTCGGCCAGCACGACGCCAAGCGCGCGGTCGCCATCGCGCTGCGCAACCGCTGGCGCCGCATGCAGCTGGTGCCTGAGCTGCGCAACGAAGTGATGCCGAAGAACATCCTGATGATCGGCCCCACCGGCGTCGGCAAGACCGAGATCGCGCGGCGCCTGGCGACGCTGGCCAACGCGCCGTTCGTGAAGGTCGAGGCGACCCGCTTCACCGAGGTCGGCTACGTCGGCAAGGATGTCGAGCAGATCATCCGCGACCTGGCCGACACCGCGGTCAAGCTGTACCGCGAGCAGGCCAAGGTGCGCGTGCGTACCCAGGCCGAGGAGCGCGCCGAGGACCGCATCCTCGATGCGCTGCTGCCGCGCCGCAGCGGCGGCATCGGTTTCGATCCGGAAGCGGCGCGCAACGAGCCGTCGGCACAGGACAACGACACCCGCATCAAGTTCCGCCGCATGCTGCGCGCCGGCGAGCTGGACGAGCGCGAGATCGAGCTGGACGTGGCGGTCAACGCCGGCGTCGACATCATGACCCCGCCGGGCATGGAGGAGATGGGCCAGCAGCTGCGCTCGATGTTCGCCAACCTCGGCGGCGGCAAGTCGCAGAAGCGCAAGCTGACGATCAAGGCGGCGCGCCCGCTGCTGGTCGAGGAAGAAGCCGGCAAGCTGGTCAACGAGGACGACATCCGCAGCGCGGCGATCGAGGCCTGCGAGCAGCACGGCATCGTCTTCATCGACGAGATCGACAAGGTCGCCAAACGCAGCGGCGCCGGCACCAGCGGCGGCGACGTCAGCCGCGAAGGCGTGCAGCGCGATCTGTTGCCGCTGGTGGAAGGCTCCAACGTGTCGACCAAGTACGGCACGGTGAAGACCGACCACATCCTGTTCATCGCCTCCGGTGCGTTCCACCTGGCCAAGCCCAGCGACCTGATCCCGGAGCTGCAGGGCCGCTTCCCGATCCGCGTGGAGCTGGGCGCGCTGAGCAAGGCCGATTTCGTCCGCATCCTGACCGAGCCGAAGGCGGCGCTGACCAAGCAGTACGAGGCGCTGTTGCAGACCGAGGGCGTGGCGCTGACGTTCACCGACGACGCGATCGACCGCCTGGCCGAGATCGCGTTCCTGGTCAACGAGCGCCAGGAGAACATCGGTGCGCGGCGCCTGCACACCGTGCTCGAACGCCTGCTCGACACGCTCAGCTACGAGGCGCCGGACCGCGACGGGCAGAGCGTCAGCGTCGATGCGGCCTACGTCAACGCGCACCTCGGCGAGCTGGTGCAGGATCCGGACCTGAGCCGCTACATCCTCTGA	MTENSSSTMTPREIVQELDRHIVGQHDAKRAVAIALRNRWRRMQLVPELRNEVMPKNILMIGPTGVGKTEIARRLATLANAPFVKVEATRFTEVGYVGKDVEQIIRDLADTAVKLYREQAKVRVRTQAEERAEDRILDALLPRRSGGIGFDPEAARNEPSAQDNDTRIKFRRMLRAGELDEREIELDVAVNAGVDIMTPPGMEEMGQQLRSMFANLGGGKSQKRKLTIKAARPLLVEEEAGKLVNEDDIRSAAIEACEQHGIVFIDEIDKVAKRSGAGTSGGDVSREGVQRDLLPLVEGSNVSTKYGTVKTDHILFIASGAFHLAKPSDLIPELQGRFPIRVELGALSKADFVRILTEPKAALTKQYEALLQTEGVALTFTDDAIDRLAEIAFLVNERQENIGARRLHTVLERLLDTLSYEAPDRDGQSVSVDAAYVNAHLGELVQDPDLSRYIL				NA	NA	NA	NA	NA
BMS020_08455	552	hslV_2	COG5405	ATP-dependent protease subunit HslV	ATGGATCCCAGCCAGAACCCCAATGTCTTCCACGCCACCACCATCGTCTGCGTCCGCCGCGGCGAGCACGTGGCGATCGCCGGCGACGGCCAGGTCACGCTAGGCCACACCGTGATGAAGGGCAATGCGCGCAAGGTGCGCCGGCTCGGCCGCGACGGCCAGGTGCTGGCGGGCTTCGCCGGCGCGGCCGCCGATGCGTTCACCCTGTTCGAACTGTTCGAGGCCAAGCTCGAGAAGCACGGCCAGCTGACCCGCGCCGCGGTCGAACTGGCCAAGGATTGGCGCACCGAGCGCCGCCTGGGCAAGCTCGAGGCGCTGCTGGCGGTGGCCGACAAGGAAACCTCGTTGATCATCAGCGGCACCGGCGACGTGATCGAGCCGGAAGACGGCATCATCGCGATCGGGTCCGGTGGCAGCTACGCGTTGTCGGCAGCGCGCGCGCTGATGGCGCATACCGAACTGGATGCCAAGACCATTGCGACCGAGTCGATCGGCATCGCCGGCGACATCTGCATCTACACCAACCGCAACGTCGTCGTCGAAGAACTCTGA	MDPSQNPNVFHATTIVCVRRGEHVAIAGDGQVTLGHTVMKGNARKVRRLGRDGQVLAGFAGAAADAFTLFELFEAKLEKHGQLTRAAVELAKDWRTERRLGKLEALLAVADKETSLIISGTGDVIEPEDGIIAIGSGGSYALSAARALMAHTELDAKTIATESIGIAGDICIYTNRNVVVEEL				NA	NA	NA	NA	NA
BMS020_08456	372	ctb	COG2346	Group 3 truncated hemoglobin ctb	GTGGTCCGCCTGGTCCACACGTTCTACGCGCGCGTGCGCCTGGACCCGCAGCTCGGTCCGATCTTCCAGCGCCATGTCGCCGACTGGGACGCGCACCTGGCGCACCTGGTCGATTTCTGGTCGGCGCTGCTACGCGGCACCCGGCGCTTCACCGGTGCGCCGATGGCACGCCACCTGGCGCTGCCGGGACTGGATGCGTCGCTGTTCCAGCGCTGGCTGCTGCTGTTCGGGCAGACCACCAGCGAGCTCGGCAACCCGGCGCTGAAGGCCCAGGCCGACATGCGTGCGGCGCAGATCGCCGAACGCTTCTGGCAGCACTACCGGCTCACCCTGGCCACGCCGCCTCAGCCTCGCTCGGCCCGGCACGAATAG	MVRLVHTFYARVRLDPQLGPIFQRHVADWDAHLAHLVDFWSALLRGTRRFTGAPMARHLALPGLDASLFQRWLLLFGQTTSELGNPALKAQADMRAAQIAERFWQHYRLTLATPPQPRSARHE				NA	NA	NA	NA	NA
BMS020_08457	471			hypothetical protein	ATGGCGTCGTTCCGCTTACAGGGTCTTCCGGCCGCGGCATTCGCCGCCTGGCACGGATGCGACGATGCCGTGCTGGCCGAGCACGGCATCCGCCGCGTGCGGGCCGATACCGCGCACGGCTACCCGTGCCGGGTCAGCCTGCGCGACGCCGATGCCGGCGAAACGCTGCTGTTGCTGCATCATGAACACCATCCGGTGCGTTCGCCGTATCGGGCCAGCGGGCCGATCTACGTGCGTGCATCCGCGCGCGATGCCAGCCTCGCAGTCGATGCGGTGCCGGATTACGTCGCGCGGCGCCTGATCTCGCTGCGCGCCTACGACGCGGCGGCGATGATGCTGATGGCGGAGGTGTGCGAGGGCACCGACGTCGCTGCCTGGCTGCATCGCACGTTCGACGATGCGCGGGTGGCCTACGTCCACCTGCACAACGCGCGCCAGGGCTGCTATTCGTGCCGGGCCGAGCGAGGCTGA	MASFRLQGLPAAAFAAWHGCDDAVLAEHGIRRVRADTAHGYPCRVSLRDADAGETLLLLHHEHHPVRSPYRASGPIYVRASARDASLAVDAVPDYVARRLISLRAYDAAAMMLMAEVCEGTDVAAWLHRTFDDARVAYVHLHNARQGCYSCRAERG				NA	NA	NA	NA	NA
BMS020_08458	840	xerC_5	COG4973	Tyrosine recombinase XerC	ATGTCGGGCCATACCCTCGACGCTTACCGCCGCGACCTCGATGCGCTCGCCGACTGGGCCGCGCAGCATGCCGGCAGCACGCTGGAGGCACTCGATGCCGAGCAGCTGCGTGCGTTCATCGCCGCCGAGCACCGGCGTGGGTTGGCCCCGACCAGCCTGCAGCGGCGTCTTTCGGCCTGCCGTAGCTGCTATGCCTGGATGCTGCGCCACGGCCGCATCGCCCATAGCCCGGCCGCACGGCTGCGCGCACCGAAAGCGCCGCGCAAGTTGCCGCAGGTACTCGATGCCGACGAGGCGGTGCGGCTGGTCGAACTGCCCACCGATGCACCGCTCGGGCTGCGCGACCGCGCCCTGCTGGAGCTGTTCTATTCCTCCGGGCTGCGCCTGGCCGAGCTGTGCGCGTTGCGCTGGATGGACCTGGACCTGGACGAGGGCCTGGTCAACGTGCTCGGCAAGGGCGGCAAGCAGCGCCGTGTGCCGGTCGGTACGCATGCGGTCGCGGCGCTGCGTGCCTGGCACGCCGAGCGCGGCGGCACGCGCGAAGCGCACGTGTTCCCCGGCCGCGCCGGCGGCGCGATCAGCCCGCGCGCGATCCAGATCCGGATCAAGCAGCTGGCGCAGCGCCAGGGCCTGTTCAAGCACGTGCATCCGCACATGCTGCGGCACAGTTTCGCCAGCCATATCCTCGAATCCTCCGGCGACCTGCGCGGCGTGCAGGAGCTGCTCGGCCACGCCGACATCGCCACCACGCAGATCTATACCCACCTGGACTTCCAGCACCTGGCCAAGGTCTACGACGCCGCGCATCCGCGCGCCAAGCGGCGCAAGTCCACGGACTGA	MSGHTLDAYRRDLDALADWAAQHAGSTLEALDAEQLRAFIAAEHRRGLAPTSLQRRLSACRSCYAWMLRHGRIAHSPAARLRAPKAPRKLPQVLDADEAVRLVELPTDAPLGLRDRALLELFYSSGLRLAELCALRWMDLDLDEGLVNVLGKGGKQRRVPVGTHAVAALRAWHAERGGTREAHVFPGRAGGAISPRAIQIRIKQLAQRQGLFKHVHPHMLRHSFASHILESSGDLRGVQELLGHADIATTQIYTHLDFQHLAKVYDAAHPRAKRRKSTD	PGPT0021995_1053	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0021995-xerC-K03733	NA	NA
BMS020_08459	669			hypothetical protein	ATGAGCGACGTGCAGGAGACCCTGGGCGCCCATGAGGTCGCGAGCTGGCTGCGGCGGCACCCGACCTTCCTCAAGCAGTTCCCGGACCTGGCGCTGACCCTGGTGGTGCCGCGCGAGGACGGTCCGACCGCCTCGCTGGCGACCTACCAGCTGGAAGTGCTGCGCGACAAGAACCGCGAGCTGTCGCGGCGCCTGTCCGAGCTGGCCGCCAATGCCCAGGTCAACGAGCGCCTGGCGGTGCGCACCCACCAGCTGACGCTGGCGCTGATGAAGCAGACCAGCGCCGCCGACACGGTACGCGCGATGGCCGCATCGCTGGCCGAGGACTTCAACGGCGACCAGGTGCGCATCGTGCTGCTGGCGCCGGTGGACGGACTGCAGGCCGAGTGGCTGCAGGTGATCGAGCGCGAGGACGCACGGCTGGTGCCGTTCCATGACTGCCTGCGCGATGGCGAGCCGATCTGCGGCCGCCTCAACGCCGACAAGCACGCACTGCTGTATGCCGGGCAGGGCGGCGAAGTGCAGTCCACCGCGCTGCTGCCGTTGCCGGGCGTCGGCCTGATCGCGGTCGGCAGCCGCGACCCCAACCGATTCTATCCGGGCATGGGCACGCTGTTCCTGCGCATGATGGGCGAGGCGCTGGCGGTGGCGCTGCAGCGCTTCGGATGA	MSDVQETLGAHEVASWLRRHPTFLKQFPDLALTLVVPREDGPTASLATYQLEVLRDKNRELSRRLSELAANAQVNERLAVRTHQLTLALMKQTSAADTVRAMAASLAEDFNGDQVRIVLLAPVDGLQAEWLQVIEREDARLVPFHDCLRDGEPICGRLNADKHALLYAGQGGEVQSTALLPLPGVGLIAVGSRDPNRFYPGMGTLFLRMMGEALAVALQRFG				NA	NA	NA	NA	NA
BMS020_08460	855	dcsC		O-ureido-serine racemase	ATGAGCGCGCCGATGTCCGCCGGGCGCCTGCGTTTCAGCAAGATGCAGGGCGCCGGCAACGATTTCGTGGTGCTGGACCTGCGCGATGGCACCCCGCCACCCGATGCGGCCTTGGCCGCGCGCCTGGCCGACCGCCACTTCGGCATCGGCTGCGACCAGATCCTGACCATCGAGGCGCCGCGCAGCGAAGGCGCGGTCGCCGCCTACCGCATCTGGAATTCCGACGGCTCGCCGTCGCAGCAGTGCGGCAATGGCGCGCGCTGCGTCGCCGCCTGGCTGGTCCGCGATGGCGCCGCGCAGGGTGCGCACTTCGTCATCGACAGCCCGGTCACCGCGCATCAGGTCGAACGCCTGGACGATGGCCAGTACGCGATCGCGATGGGCGTGCCGGAATTCGAGCCGGTGCGGATCCCGCTGCTCGGCTTTGCGCATGCGCGCGAGGAATATCTGCTGCCGGTGCAGGGCGAAGGGCTGCGCTTCGGCGCGGTGTCGATGGGCAACCCGCATGCGGTGCTGGAAGTCGGCCTGGTCGATGCGGCGCCGGTGGAGCGGCTGGGGCCGCTGCTGCAGCAGAACGCGGCGTTTCCCGAATCGGTCAACGTCGGCTTCGCCCAGGTGCTGGAGCCGGACCGGATCCGCCTGCGCGTCTACGAACGCGGCGTCGGCGAGACCCTGGCCTGTGGCAGTGGCGCCTGCGCCGCCGCGGTGGTGCTGATGCAGCGCGGGCGCATCGCCCGCGACACCCGGGTCAGCCTGCCTGGCGGCGAGCTGCGCATCCGCTGGCCGGCGCCCGACGCCCAGGTGGTGATGTCCGGCCCGGCGGTGTTCGTCTTCGATGGGGAGTGGAACGGATGA	MSAPMSAGRLRFSKMQGAGNDFVVLDLRDGTPPPDAALAARLADRHFGIGCDQILTIEAPRSEGAVAAYRIWNSDGSPSQQCGNGARCVAAWLVRDGAAQGAHFVIDSPVTAHQVERLDDGQYAIAMGVPEFEPVRIPLLGFAHAREEYLLPVQGEGLRFGAVSMGNPHAVLEVGLVDAAPVERLGPLLQQNAAFPESVNVGFAQVLEPDRIRLRVYERGVGETLACGSGACAAAVVLMQRGRIARDTRVSLPGGELRIRWPAPDAQVVMSGPAVFVFDGEWNG	PGPT0007230_1844	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007230-dapF-K01778	NA	NA
BMS020_08461	234			hypothetical protein	ATGAGCATGAAGTCTTCTTTCGTCCGTATCGCCCTGGTCGGGGCGACCTTCCTTGCCATCGCCGCGTGCGGCAACAAGGGCCCGCTGGTGATGCCGCAGAAGCCGGTGCCGGTCGAAGCCCAGCCGGCCGCCACGCCGCCGGTGCAGCAGGACGAGCCCGCGCCCCAGGCGGATCAATCCGGACAGTCCAGCGACGGCACCCCGTCGACGACCAAGGACGGCGGCGGGCAATGA	MSMKSSFVRIALVGATFLAIAACGNKGPLVMPQKPVPVEAQPAATPPVQQDEPAPQADQSGQSSDGTPSTTKDGGGQ				NA	NA	NA	NA	NA
BMS020_08462	399	ybaN_3	COG2832	Inner membrane protein YbaN	ATGACCCAACCGTCGCGCTTCCGCTGGGCCTGGTGGCTGCTGGCCTATGTCAGCCTGGCCACCGGCATCGTCGGCATCTTCGTGCCGGGGCTGCCGACCACGGTGTTCGTGCTGATCGCCGCCTGGGCGGCCACGCGCGGCTCGCCGGCGCTGCGCCAGCGCCTGGTCACCCATCCGCGCTTCGGCCAGGCCATCCTCGACTGGGAGCGCCATGGTGCGGTGAGCCGCCGCGGCAAGTGGATGGCCTCGCTGGCGATGGCGGCCTGTGCGGTGATCGTGCTGGTGGTCGTGCACCGGCCGTGGGTGTGGTGCGTGTCGATCGGGCCGATGCTGGCGGTGTCGATCTGGATGTGGCTGCGCCCCGAGCCGCCGGCGCGGCCGGAAGAACGCGCGCCGTAA	MTQPSRFRWAWWLLAYVSLATGIVGIFVPGLPTTVFVLIAAWAATRGSPALRQRLVTHPRFGQAILDWERHGAVSRRGKWMASLAMAACAVIVLVVVHRPWVWCVSIGPMLAVSIWMWLRPEPPARPEERAP				NA	NA	NA	NA	NA
BMS020_08463	2160	dapb1		Dipeptidyl aminopeptidase BI	ATGAAACCCGTCCTTTCGCTCCTGATCGCCAGCCTGATGACCACTGCCGCCAGTTCCAGCATCGCCGCCACCCTTGCCCCGCCGGACGTCGCCAAGCGCCCGCACGTCGTCAAGGCGCCGTTCGGCGCGACCCGCGACGACCCGTATTACTGGCTGCGCGACGACGAGCGCAAGGACCCGGCGATGCTGGCCTACCTGCAGGCCGAGAACGCCTATACCGACGCGCTGATGGCGCCGCTGAAGCCGCTGGAGGACGCGCTGTACGAGGAGATCGTCGGCCGCATCAAGCAGGACGACGCCAGCGTGCCGTACCGCGAGCGTGGCTGGTGGTATTACACCCGCTTCGAGAAGGGCAAGGACTATCCGGTGCAGGCGCGCCGCCGCGATGCCGCCGGCGTCGATGCGACTGCGATCCAGCGCGCCAACGAGGCCGGCGACTTCGCCGCCGAGCAGGTGCTGCTCGACGTCAACGCGATGGCCGAGGGCAAGGGCTACTTCAGCGTCGGCGACGCCGAGGTCAGCCAGGACAACCGCATCCTGGCCTGGGCCGATGACGCTGTCGGCCGCCGCCAGTACACGATCCGCTTCAAGAACCTGGAGACCGGCGAGATCTACGCCGATACCGTCACCGGCGTGTCGCCGAACCTGGTCTGGGCCGACGACAACAAGACCCTGTTCTACGTCGAGAACGACCCGGAAACGCTGTTGACGGTGCGGGTCAAGAAGCATGTGCTCGGCACGCCGGCCAAGGACGACGTGCTGGTCTACGAGGAACACGACGACAGCTTCTACATGGGCATCGGCCGCAGCCGCGACGACAAGTACATCACCATCGGCGTGGACAGCACGGTGTCGTCGGAGCTGCGCTATGCGCCGGCCGCCGACCCGAAGACCTTCACCGTGCTGGCGCCGCGTGCGCGTGACGTCGAATATGACGCCGACCACTTCGACGGGCGCTGGGTGATCCGCACCAATGCCGACGGCGCCAAGAACTTCAAACTGGTCACCGCGCCCAGCGACGGCACCGCACGCAGCCAATGGAAGGACTGGGTGGTGCACGACCCGGCGGTGTACATCGAGGGCTTTGAGCTGTTCGACGGCTTCACCGCGATCGAGGAGCGCTCCGAGGGACTGGAGCGCGTGCGCCTGCTGAAGCAAGGCGGCGCGCAGGACTACGTCAAGGCCGATGAGCCGGCGTATTCGATGGGGCTGTCGGTCAACGCCGAGCCGGACAGCCAGTGGCTGCGCTACGGCTACACCTCGCTGACCACGCCGGCGACCACCTACGAACTCAACGTCGCCACCGGCGAGCGCCGTCTGCTCAAGCAGCAGCCGGTCATTGGCTACGACCCGTCCAAGTACGTCACCGAGCGGGTCTGGGTGACCGCGCGCGACGGGGTCAAGGTGCCGGTGTCGCTGGTCTACAAGCAGGGCTTCAAGAAGGACGGCAGCGCCGCGCTGTACCAGTACGCCTACGGCAGCTACGGCATGTCGATGGACCCTGGCTTCAACCTGCCGGTGGTCAGCCTGCTCGACCGCGGCGTGGTCTATGCGATCGCGCATATCCGCGGCGGCCAGGAAATGGGCCGCGACTGGTATGACACCGGCAAGCTGGCGCACAAGCAGAATACCTTCAACGACTTCGTCGACGTCACCCGTGCGCTGGTCGCGCAGGGCTATGCGGCCAAGGGCCGTGTCGGCGCGTCCGGCGGCAGCGCCGGCGGCCTGCTGATGGGCGCGGTCGCCAACCAGGCGCCGGCCGACTATCGGGTGATGGTGGCGCAGGTGCCGTTCGTCGACGTGGTCACCACGATGCTCGATCCGAGCATCCCGCTGACCACCAACGAGTACGACGAGTGGGGCAACCCGGAGCAGAAGTCCTGGTACGACGTGATGCTGGCGTACTCGCCGTACGACAACGTCAAGCCGCAGGCCTATCCGGCGCTGTTCGTTGGTACCGGCCTGTGGGATTCGCAGGTGCAGTACTGGGAACCGGCCAAGTGGGTGGCCAAGCTGCGCGACGACAACACCGGCACGCTGCCGATCGTGTTCCGCACCAACATGGAGGCTGGCCACGGCGGCAAGAGCGGGCGCTTCCGCCGCTACCGCGAACTAGCCGAGTCGTACGCGTTCGTGCTGGATCAGCTTGGGGTGAAGTGA	MKPVLSLLIASLMTTAASSSIAATLAPPDVAKRPHVVKAPFGATRDDPYYWLRDDERKDPAMLAYLQAENAYTDALMAPLKPLEDALYEEIVGRIKQDDASVPYRERGWWYYTRFEKGKDYPVQARRRDAAGVDATAIQRANEAGDFAAEQVLLDVNAMAEGKGYFSVGDAEVSQDNRILAWADDAVGRRQYTIRFKNLETGEIYADTVTGVSPNLVWADDNKTLFYVENDPETLLTVRVKKHVLGTPAKDDVLVYEEHDDSFYMGIGRSRDDKYITIGVDSTVSSELRYAPAADPKTFTVLAPRARDVEYDADHFDGRWVIRTNADGAKNFKLVTAPSDGTARSQWKDWVVHDPAVYIEGFELFDGFTAIEERSEGLERVRLLKQGGAQDYVKADEPAYSMGLSVNAEPDSQWLRYGYTSLTTPATTYELNVATGERRLLKQQPVIGYDPSKYVTERVWVTARDGVKVPVSLVYKQGFKKDGSAALYQYAYGSYGMSMDPGFNLPVVSLLDRGVVYAIAHIRGGQEMGRDWYDTGKLAHKQNTFNDFVDVTRALVAQGYAAKGRVGASGGSAGGLLMGAVANQAPADYRVMVAQVPFVDVVTTMLDPSIPLTTNEYDEWGNPEQKSWYDVMLAYSPYDNVKPQAYPALFVGTGLWDSQVQYWEPAKWVAKLRDDNTGTLPIVFRTNMEAGHGGKSGRFRRYRELAESYAFVLDQLGVK	PGPT0020980_1077	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020980-ptrB-K01354	NA	NA
BMS020_08464	1197	aspC_2	COG0436	Aspartate aminotransferase	ATGGCCGGCATGGATACCCGCACCATCGGCGGATTCAGCCGCCGCAGCCACGAGATCGCCCCGTTCCACGTCATGTCGCTGCTGGCGCGCGCCAATGCGCTGGAACAGGCCGGCCATGACGTCATCCACCTGGAGATCGGCGAGCCCGACTTCACCACCGCCGCGCCGGTGGTCGCCGCCGGCCAGGCCGCGCTCGCCGCCGGCCACACCCGCTACACCGCCGCGCGCGGCTTGCCGGCACTGCGCGCGGCGATCGCGCGCTTCTATGGGGAACGCCACGGGCTGGACATCGACCCCGAACGCATCCTGGTCACGCCGGGTGGTTCGGGTGCACTGCTGCTGGCCTCCAGCCTGCTGGTCGATCCCGGCCGGCACTGGCTGCTGGCCGACCCCGGCTATCCGTGCAACCGCCATTTCCTGCGGCTGGTCGAAGGCCAGGCGCAGCTGGTGCCGGTCGGCCCCGAGCACGACTACCAGCTGACCCCGGCGCTGGTCGATCGCCACTGGAACAGCGACAGCGTCGGCGCACTGGTCGCCTCGCCGGCCAATCCGACCGGCAGCGTGCTCGATCGCGCGCAGCTGGCGGCGCTGTCGCAGGCGCTGCAGGCGCGCGGCGGGCATCTGGTGGTCGACGAGATTTACCACGGCCTGACCTACGGCTTCGAGGCACCGAGCGTGCTCGAGGTCGACGACGGCGCCTACGTGCTCAACAGCTTCTCCAAGTACTTCGGCATGACCGGCTGGCGGCTGGGCTGGCTGGTGGCGCCTCCGGCGGCGGTGCCGGAGCTGGAGAAGCTGGCGCAGAACCTCTACATCAGCGCGCCGACCGTGGCCCAGCACGCCGCGCTGGCCTGCTTCACCGCGGAGGCGATCGCGATCTTCGAGCAGCGCCGGCATGCCTTCCAGCAGCGCCGCGATTACCTGCTTCCCGCACTGCGCGCGCTCGGCTTCCGCATCGAGGTCGAACCGCAGGGCGCGTTCTATCTGTACGCCGACGTCAGCGCGTTCACCGACGACGCGCAGGCGTTCTGCGCGCATTTCCTCGAAACCGAGCACGTGGCGTTCACCCCGGGGCTGGACTTCGGCCACCACCGTGCCAGCCAGCACGTGCGCATCGCCTATACCCAGGACCTGCCGCGCCTGGAAGAGGCGGTGGCGCGGATCGCGCGCGGGTTGGCGCGCTGGGCTGGCCGCTAG	MAGMDTRTIGGFSRRSHEIAPFHVMSLLARANALEQAGHDVIHLEIGEPDFTTAAPVVAAGQAALAAGHTRYTAARGLPALRAAIARFYGERHGLDIDPERILVTPGGSGALLLASSLLVDPGRHWLLADPGYPCNRHFLRLVEGQAQLVPVGPEHDYQLTPALVDRHWNSDSVGALVASPANPTGSVLDRAQLAALSQALQARGGHLVVDEIYHGLTYGFEAPSVLEVDDGAYVLNSFSKYFGMTGWRLGWLVAPPAAVPELEKLAQNLYISAPTVAQHAALACFTAEAIAIFEQRRHAFQQRRDYLLPALRALGFRIEVEPQGAFYLYADVSAFTDDAQAFCAHFLETEHVAFTPGLDFGHHRASQHVRIAYTQDLPRLEEAVARIARGLARWAGR				NA	NA	NA	NA	NA
BMS020_08465	483			hypothetical protein	GTGATCGGGCTCGTGCTCGCGGCTGCCCTGGCCACGACGGCGTGCCCGGTGGAACGGGCGCAGTACCAGCTGCGCGACGACCCGGCGGTCAGCGCCGGATTCGTCGCCGTCGCCAGCGGCCCGGCATGGCCGTCGCAGCTGGCGCTGCGGCTGCATTCCGCGCGCAGCGGGCGAGCGTATTGGTTCCTGCCGTGGAATGGCGGCAGCGACGGGCGCCAGCATCTGGCCTCGACCACCGATGTGAACGCGGCAGGCTGGCAGCCGCCGTCGCCCGATGGCGGCACGCGGCCGCTTGGTGACATCGAGTACCTCGGCACCGATGCCGACTACCGCCTGCTCGATCAGGTGCCGGTCGCCGGCGGCGCCGCGCCTGCGCACCTGCTGCTGCCGGACCTGCGCGAGGCGCTGTGGTATCGCGCCGCCCCGACGCAGCGCGAGCACATCGCGCGGCAGTTCTTCGATCTGCTGGGGTGCCGCCGCTAG	MIGLVLAAALATTACPVERAQYQLRDDPAVSAGFVAVASGPAWPSQLALRLHSARSGRAYWFLPWNGGSDGRQHLASTTDVNAAGWQPPSPDGGTRPLGDIEYLGTDADYRLLDQVPVAGGAAPAHLLLPDLREALWYRAAPTQREHIARQFFDLLGCRR				NA	NA	NA	NA	NA
BMS020_08466	2106			hypothetical protein	ATGTCGAAACTCGCCGCGGCCTGCCTGGTGGCAGGCCTGATCAGCACCGGAGCCGCTGCCGCGGAGGAGGTCGAGATGAAGGACCCGTACGCCTGGCTCGAGGACGTCACCGGCGACAAGCCGCTGGACTGGGTCAAGGCCCAGAACGCCAAAACCGAGGCCCGGCTGGCCGCCACGCCGGCGTTCAAGCAGATGGAGTCCAGCATCCGCGAGGTGCTCGATTCGGACGCCAAGATCCCCGGCGTGCAGAAGATCGGCGCGTTCTACTACAACTTCTGGAAGGACAAGGCGCATCCGCGCGGACTGTGGCGGCGGACCACGCTGGACGAATACCGCAAGCCTGAGCCGCAGTGGGAGACCGTGCTCGACCTGGATGTGCTGAACCGTGCCGAGGGTGAGAACTGGGTGTGGCATGGTGCCGATTGCCTGCGCCCGGCCACGCCGGACGCGGCCTATGAGCGCTGCCTGATCGCGCTGTCGCGCGGCGGCGCCGATGCCGACGTCACCCGCGAATTCGACCTGGTGCGCAAGCAGTGGATCGACGGCGGCTTCTTCCGTCCCGAAGCCAAGGGCGGCCTGGGCTGGATCGATGCCGACACGGTGTACGTCTACAGCGATTTCGGTGCCGGCACGATGACCAGCTCCGGTTACCCGCGGCTGGTCAAGCGCTGGCGCCGCGGCACCCCGTTGGCCTCGGCCGAGCTGGTCTACGAGGGCCAGCCGACCGACATGTACATCGCCGCGATGCACGACGACACGCCCGGGTTCGAGCGCGATTTCGTCAGCCGCACGCTGGCCTTCTACAACGACGAGCTATATCTGCGCCAGGCCGATGGCAGCCTGGTCAAGGTCGATGCGCCGAACTCGGCCAACAAGAGCGTCAAGCGCGAGTGGCTGACGCTGGAGCTGCGCGAGCCATGGACCGTCGGCGGCACCACCTACAAGGCCGGCGCACTGCTGGCGACGAAGTTCGACGATTTCATGGCCGGCAAGCGCGTGTTCGACGTGCTGTTCGAGCCGACCGACAGCACCTCGCTGGCCAGCGTCAGCTGGACCCGCCACCACCTGGTGCTGAACGTGCTGGACGACGTCAAGAACCGGCTGCGGGTGCTGACGCCGGGCGCGGATGGCTGGAAGACGAGCGCGTTCGCCGGTGCGCCGGCGTTCGGCACGGTGCAGGTCGGCGCGGTCGACAGTGATGCGTCGGACGCGGTGTGGATGACCGTCACCGACTACCTGACCCCGACCACGCTGGCCTTGGCCGAGATCGGCCAGGCGCCGGTCACGCTGAAGACCATGCCGGCGTTCTTCGACGCCAGCCGTGAGGTGATCGAGCAGCACTTCGCCACCAGCCTGGATGGCACCCGCGTGCCGTACTTCCTGGTGCGGCCGACGCAGCTCAAGCTCGACGGCAGCGCGCCGACCCTGCTATACGGCTACGGCGGTTTCGAGATCTCGCTGACCCCGAGCTATTCCGGCGGCCTTGGCCGTGCCTGGCTGGAGAAGGGCGGTGTCTACGTGGTCGCCAACATCCGCGGCGGCGGCGAGTACGGCCCGCGCTGGCACCAGGCCGCGCTGAAGCAGAACCGCCACAAGGCCTACGAGGACATGGCCGCGGTGGCGCAGGACTTGGTCGCGCGCAAGATCACCTCGGCCAGGCACCTGGGCGTGCAGGGCGGCAGCAACGGCGGCTTGATGACCGGCAACATGCTGACCCAGTACCCGCAGCTGTTCGGCGCGGTGGTGGTGCAGGTGCCGCTGCTGGACATGAAGCGCTACAGCCACCTGCTGGCCGGTGCGTCGTGGATGGCCGAGTACGGCGATCCGGACAGCGCCGACTGGGACTTCATCAAGACCTTCTCGCCGTACCACCTGTTCGACGCGAAGAAGGACTATCCGCCGGTGATCTTCCTGACCTCCACCCGCGATGACCGCGTGCACCCGGGGCACGCGCGCAAGATGGCGGCGAAGATGCTCGAGGCCGGCAAGGACGTCACCTACTACGAGAACATCGAGGGCGGTCACGGCGGCGCGGCCGACAACGCCCAGGCCGCGCACATGTCGGCGCTGGCCTACAGCTTCCTGTGGGAGCGGCTGGCGAAGTGA	MSKLAAACLVAGLISTGAAAAEEVEMKDPYAWLEDVTGDKPLDWVKAQNAKTEARLAATPAFKQMESSIREVLDSDAKIPGVQKIGAFYYNFWKDKAHPRGLWRRTTLDEYRKPEPQWETVLDLDVLNRAEGENWVWHGADCLRPATPDAAYERCLIALSRGGADADVTREFDLVRKQWIDGGFFRPEAKGGLGWIDADTVYVYSDFGAGTMTSSGYPRLVKRWRRGTPLASAELVYEGQPTDMYIAAMHDDTPGFERDFVSRTLAFYNDELYLRQADGSLVKVDAPNSANKSVKREWLTLELREPWTVGGTTYKAGALLATKFDDFMAGKRVFDVLFEPTDSTSLASVSWTRHHLVLNVLDDVKNRLRVLTPGADGWKTSAFAGAPAFGTVQVGAVDSDASDAVWMTVTDYLTPTTLALAEIGQAPVTLKTMPAFFDASREVIEQHFATSLDGTRVPYFLVRPTQLKLDGSAPTLLYGYGGFEISLTPSYSGGLGRAWLEKGGVYVVANIRGGGEYGPRWHQAALKQNRHKAYEDMAAVAQDLVARKITSARHLGVQGGSNGGLMTGNMLTQYPQLFGAVVVQVPLLDMKRYSHLLAGASWMAEYGDPDSADWDFIKTFSPYHLFDAKKDYPPVIFLTSTRDDRVHPGHARKMAAKMLEAGKDVTYYENIEGGHGGAADNAQAAHMSALAYSFLWERLAK	PGPT0020970_1737	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020970-PREP-K01322	NA	NA
BMS020_08467	312			hypothetical protein	ATGCCCGCATCGTCGCCCGCTCCCCTCCGTCGCCCGGATCCGCGCGTGCTGCGCCCGGTCCGCCAGATCGCCCTGGCCGGCCTGGCGCTGGCGCTGGTGTGGCCGGCCGCGCGCGGCTACAGCCCGTGGATCGGCTGGCTGCCGCTGTGGCTGGTCGGCATGCCGAGCCTGGCCTGGTGGGCGCTGCACCGGTTCCCGCTGCCGCGCTGGCAGGCCGCCGCCGCGGGTGCGGCGCCGCGCCGTCGCCGCGGACCGCAGGCGCGCCGGCGCCGTGGCGGGCGCGACACGCTGCCGCTGGCACGCGCCGCCTGA	MPASSPAPLRRPDPRVLRPVRQIALAGLALALVWPAARGYSPWIGWLPLWLVGMPSLAWWALHRFPLPRWQAAAAGAAPRRRRGPQARRRRGGRDTLPLARAA				NA	NA	NA	NA	NA
BMS020_08468	573			hypothetical protein	ATGCGCCTGATTGCCCGGTTCGCCCTGACTATGCTGCTGAGTTCCCTGGCCCTGCAGGCCGTGGCCGCCGACCCGGCACCCGCCACCGCCGCGCCGGCGCTGGATCTGGAACGGATGATGGGCACCTGGTACGTGGTGGCGCGGATCCCCAACCCGGTCGAGCGCGGCCACGTCGCCAGCCGCGACGAATACACCCTGGAAGACGGCAAGGTCGCGATCCGCTACCTGTACCGCGAGGGCTTCGCCGAGCCCGAACAGGAAAAACGCGCCCGCGCCTCGGTCGACGCGGACAGCGGCAACCGCGACTGGCGCGTGTGGTTCTACCGGATCGTGCCGACCAAGCAGCGCATCCTGGAAGTGGCGCCGGATTCGTCCTGGGTGCTGATTTCCTGGCCCGGCCGCGACCTGGCCTGGATCTTCGCGCGCAGCCCGGACATGGACACCGAGACCTACCGCATGCTGGTCGCCAAGCTGCGCGACGAGTACGGCGTGTACACCGACAAGCTCAAGCGCGTGCCGCAGCACCCGGCCCAGGTCGGCAAGCTCGGCTTCGAGGTCCCCAACAAGCCCTGA	MRLIARFALTMLLSSLALQAVAADPAPATAAPALDLERMMGTWYVVARIPNPVERGHVASRDEYTLEDGKVAIRYLYREGFAEPEQEKRARASVDADSGNRDWRVWFYRIVPTKQRILEVAPDSSWVLISWPGRDLAWIFARSPDMDTETYRMLVAKLRDEYGVYTDKLKRVPQHPAQVGKLGFEVPNKP	PGPT0012970_548	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012970-blc-K03098	NA	NA
BMS020_08469	966			hypothetical protein	ATGGACCGCTACGAACGCATCAATGCACTGCACCGCCTGCTCAGGGGCGCCCGCTATCCGATCACGGTGGCCCGCCTGCAGGATGAACTCGGCTGTTCGCGCGCCACCGTCTATCGCGACCTGGCCTTCCTGCGCGATGCGCTGATGGCGCCGGTGGAGGGCGATGGCGAGGCCGGGTTCCGCTACCTGGCGGCCGAGAGCGAGCGCTTCGAGCTGCCCGGCCTGTGGCTGAGTTCGGAGGAGCTGCATGCGCTGCTGGCCTCGCAGCAGCTGCTGGCGCGGACCGGTGGCGGGGTGCTGTCCTCGGTGCTGGCGCCGCTGCAGCAGCGCATCGAGTCGCTGCTGGCGGCGCAGGCCGGTGTGTCCAGCTGGCCGGTGGAGCGGGTACGGGTGATCCCGCACCGCGGCCGCAAGCTCGATGAGGCCAGTTTCCGCACGGTGGCCTCCGGCGTGCTGGAACGTCGCCAGCTCAGCTTCGAATACCGCGCCCGGTCCACCGACGAGGCGACCAAGCGCACGGTGTCGCCGCAGCGGATCACCCATTACCGCGACAACTGGTACCTGGACGCCTGGGACCACGGCCGCGAGGGCGTGCGCAGCTTCGCGGTGGACCGTATCCACCACGCGCGCCTGCTCGATGCACCGGCCCGCGACGTGCCCGACAGCGAGCTGGACGACCAGCTGGCGGCCAGCTACGGCATCTTCTCCGGCGCGCCCAAGGGCTGGGCGACGATCGTGTTCAGCGCCAAGGCCGCGCGCTGGGTTGCCGACGAGCACTGGCATTCCAAGCAGCAGGGCCGCTTCCTGCCCGATGGCCGCTACGAACTGAAGGTGCCGTACAGCGTCTCGCGCGAGCTGCTCATGGACGTGCTGCATTACGGTTCGGACGCGGAGATCGTCGAGCCGGCGGCGCTGCGCGAACAGGCCAAGGCGCTGCTGTCGCTGGCGCTGAGCAACTACGACTGA	MDRYERINALHRLLRGARYPITVARLQDELGCSRATVYRDLAFLRDALMAPVEGDGEAGFRYLAAESERFELPGLWLSSEELHALLASQQLLARTGGGVLSSVLAPLQQRIESLLAAQAGVSSWPVERVRVIPHRGRKLDEASFRTVASGVLERRQLSFEYRARSTDEATKRTVSPQRITHYRDNWYLDAWDHGREGVRSFAVDRIHHARLLDAPARDVPDSELDDQLAASYGIFSGAPKGWATIVFSAKAARWVADEHWHSKQQGRFLPDGRYELKVPYSVSRELLMDVLHYGSDAEIVEPAALREQAKALLSLALSNYD				NA	NA	NA	NA	NA
BMS020_08470	627			hypothetical protein	ATGCGTTCGGCCCGCGTCCCCCTGCTGCTGGTGCTCGTCCTGCTCGCCGCCTGTTCGCGCGATCCCGCACCCGCCCCTGCCGCATCCGCCCCTGCCGCGGTGCCGGCCGCGCCGGCACAGACCCCGAGCCAACGCGTGCTGGCCTCGATGGACCGCTTCCTGGCCGCGCGCAGCTTCCACGCCACGATGCAGCTGGAGGGCCCGCAGGCGCTGCGCAGCGAGCTGGATTTCGTCGCCCCCGACCGCTACCGCCTGCAGATGCCGGTCGGCACCCAGATCATCGTCGGCAACACCCTGTACATGGACATGGGCGGCAAACAGCAGACGATGCCGCTGCCGGCCGGCATGCTGCAGCAGTGGCGCAACCCGCTGCGGCTGGACGGCGCGCAGGCCGGGCTGCAGGTGGAGGATCTCGGCGCGGACCGCATCGACGGCCAGGCCGCCGCGCGCTACCGCGTGGTGCACGCCAACACCGGCGAGCCGGGCATGCAGTACTGGATCGCCGCCGACGGCCACCCGCTGCGGATCCGCCAGCAGGGGCAGACGCAGGGCCAGCCCTATACGGTGACCATCGACTACTCGCGCTTCGACGACCCGGCCATCGCGATCGCCGCGCCCACGCCCTGA	MRSARVPLLLVLVLLAACSRDPAPAPAASAPAAVPAAPAQTPSQRVLASMDRFLAARSFHATMQLEGPQALRSELDFVAPDRYRLQMPVGTQIIVGNTLYMDMGGKQQTMPLPAGMLQQWRNPLRLDGAQAGLQVEDLGADRIDGQAAARYRVVHANTGEPGMQYWIAADGHPLRIRQQGQTQGQPYTVTIDYSRFDDPAIAIAAPTP				NA	NA	NA	NA	NA
BMS020_08471	798			hypothetical protein	ATGCCACGTCGTTTGTCGCTGTCCGCCCTGCCCTTGATGCTGTTCGCCCCGGCCGTCTGGGCCCAGGCCCTGTCCACGGCACCGACGGATCCCGCCGCGGTGGTGATCCCCTCGCCGTGGAGCGGCACCAGCGCCGAGCTCGGCTACGCCTCGGCGCACGGCAACAGCACCACCGACAGCCTGAACGGGCGGATCAAGCTGCGCTACACCGATGGCGACTGGATCCACAGCTTCGACGGCACCGCGCTGCGCTCCAGCGCCGAGTACGAGACCACCAACGACGACGGCACCGTCACCCGCGACCGCCAGACCACCGCCGAGCGCTACACCGCCGCGGCCGGCAGCGCGCGCCAGCTCGGCGAGCACCGCCAGCTGACCGCGACCGGTCGTTACGAATACGACGACTTCGCCACCTACGACCGCCTGGCCACCTTCAGCATCGGCTACGGCACGCGGCTGATCGACATGGAACGCTTCTACTTCGACGCCCAGGTCGGTCCGGGTGTGCGCCGCGCGCACAACACCGAGGACGACCGCGACGAGACCGGGCTGATCGCCCGCGGCCAGTTCGACATGAAGTACAAGATCACCGACAACACCGACTTGATCAACACCACCCTGGTCGAAGCGGGCAGCTACAACACCTACGTGCAGGACGATTTCGGCGTGCAGGTGGCGATGAACCAGCGCTTCGCGCTGAAGGCGGCCTGGCAGCTGCGCCACAACACCGACGTCAGCGACGACGACAAGAAGACCGACACGCTGACCACGGTCAACCTGGTCTACACCCTGAAGTAA	MPRRLSLSALPLMLFAPAVWAQALSTAPTDPAAVVIPSPWSGTSAELGYASAHGNSTTDSLNGRIKLRYTDGDWIHSFDGTALRSSAEYETTNDDGTVTRDRQTTAERYTAAAGSARQLGEHRQLTATGRYEYDDFATYDRLATFSIGYGTRLIDMERFYFDAQVGPGVRRAHNTEDDRDETGLIARGQFDMKYKITDNTDLINTTLVEAGSYNTYVQDDFGVQVAMNQRFALKAAWQLRHNTDVSDDDKKTDTLTTVNLVYTLK	PGPT0014375_242	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014375-ydiY-K07283	NA	NA
BMS020_08472	942	hemC_2	COG0181	Porphobilinogen deaminase	GTGCCGGTCCGCGTCGGCGATAATGCGCCGATGACCACGATCCGCATCGCCACCCGCAAGAGTCCGCTCGCCCTGTGGCAGAGCGAGCATGTCGCCGACCGGCTACGCCAGCTGCATCCCGGCCTGGAGGTCGTGCTGGTGCCGATGAGCACCCGCGGCGACGAGGTGCTGGACCGCTCGCTGGCGGCGATCGGCGGCAAGGGCCTGTTCCTGAAGGAGCTGGAGCTGGCGATGCTGCGCGGCGAGGCCGATTGCGCGGTGCATTCGCTCAAGGACGTGCCGATGGAGCTGGACGCGCCGTTCGTGCTGCCGGCGATCCTGGAACGCGCCGATCCGGCCGATGCCTTCGTCTCCAACCTCTACGCCTCGCTGGAGGCGCTGCCGGTCGGCGCGCGCGTGGGCACCTCCTCGCTGCGGCGCCAGGCCCAGCTGCGTGCGCGGCGTCCGGACCTGCAGCTGCTGGACCTGCGCGGCAACGTCAACACGCGCCTGGCCAAGCTCGACAACGGCGGCTACGACGCGATCGTGCTGGCCTGCGCCGGGCTGCAGCGGCTCGGCCTGGGCGAGCGGATCACCGCACGGCTGGAATCGCCGCAGTGGCTGCCGGCGCCGGCGCAGGGCGCGGTCGCGGTGGAATGCCGTGGCGACCAGCCGGCGCTGCTGGCGTTGCTGGCGGGGCTGGACCATGCGTCCACGCGCGCCTGCGTGGAGGCCGAGCGCGCGATGAACCGCGCCCTGCACGGCAGCTGCCACGTGCCGGTGGCGGCGATCGCCCTGCATGACGGGGCGCAGCTGCATCTGCAGGGGCTGGTCGGCGGGGTCAGCGACGGTCGCGCGGTACGCGCCGAGGGGCGTGGTGCCGATCCGGAGGCGCTGGGCGCGGCGGTGGCGCAGGCGCTGTTGCAGGCCGGCGCCGGCGAACTGCTGGACGCCGCTGGCTGA	MPVRVGDNAPMTTIRIATRKSPLALWQSEHVADRLRQLHPGLEVVLVPMSTRGDEVLDRSLAAIGGKGLFLKELELAMLRGEADCAVHSLKDVPMELDAPFVLPAILERADPADAFVSNLYASLEALPVGARVGTSSLRRQAQLRARRPDLQLLDLRGNVNTRLAKLDNGGYDAIVLACAGLQRLGLGERITARLESPQWLPAPAQGAVAVECRGDQPALLALLAGLDHASTRACVEAERAMNRALHGSCHVPVAAIALHDGAQLHLQGLVGGVSDGRAVRAEGRGADPEALGAAVAQALLQAGAGELLDAAG	PGPT0003660_4534	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003660-hemC-K01749	NA	NA
BMS020_08473	726	btsR_3	COG3279	Transcriptional regulatory protein BtsR	TTGAAGGTATTGATCGCCGACGACGAACCGCTGGCGCGTGGGCGCCTGCGGGCACTGCTGGCCGCGCGTCAGGACGTGCAGATCGTCGGTGAAGCCGAGAACGGCGAGCAGGCGCTGCAGCTATGCCAGCGCGAACAACCCGACGTAGTGCTGCTGGACATCGCGATGCCCGGCCTGGACGGGCTGGAAGCGGCGCGGCGCATGCGCGATGCCGAGCCGCGCCCGGCGGTGGTGTTCTGCACCGCCTATGACGATCATGCGCTGTCGGCGTTCGACGCGGCGGCGATCGACTATCTGATGAAGCCGGTGCGGCCCGAACGCCTGGCCGCGGCGCTGGAGCGCGCCGGCACCTACCTGGCGGGGCGTGCGACCGCGCGCCCGGCCCAGGTCCAGGCGCGCAGCCACCTGTGCGCGCGCCTGCGCGGCAGCCTGCGGCTGATCCCGCTGGAGGATGTGCGTTACCTGCAGGCCGAGGAGAAGTACGTGGTGGTGCACCACGCGCGCGGCGAGGACCTGATCGAGGAGTCGCTGAAGTCGCTCGAGGACGAATTCGCCGACCGCCTGGTGCGCATCCACCGCAACTGCCTGGTTGCGCGCGCCGAGCTGGTGGAGCTGCGCCGGATCGGCGAGGGCCAGGTGCAGGCGGTGCTGCGCAACGTCGCCCAGCCGCTGGAAGTGAGCCGGCGCTGCGTGGCCGGCCTGCGCGAGCAGTTGCGCCAGGGCTGA	MKVLIADDEPLARGRLRALLAARQDVQIVGEAENGEQALQLCQREQPDVVLLDIAMPGLDGLEAARRMRDAEPRPAVVFCTAYDDHALSAFDAAAIDYLMKPVRPERLAAALERAGTYLAGRATARPAQVQARSHLCARLRGSLRLIPLEDVRYLQAEEKYVVVHHARGEDLIEESLKSLEDEFADRLVRIHRNCLVARAELVELRRIGEGQVQAVLRNVAQPLEVSRRCVAGLREQLRQG	PGPT0026145_250	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_EXTERNAL_SIGNAL_SENSING,PGPT0026145-algR-K08083	NA	NA
BMS020_08474	663	estB_4	COG0400	Carboxylesterase 2	ATGCTCGACGTGCTCGAACGCGAAACTGGCGCCACGCCGCAGTGGAGCGTGCTGTGGCTGCACGGCCTGGGCGCCGACGCCAACGATTTCATGCCGATCGTGCCGGAGCTGGTGCGGCCGCACTGGCCGGCGCTGCGCTTCGTGTTCCCGAACGCGCCGGTGCGCCCGATCACCATCAACAACGGCGCGCGCATGCGTGGCTGGTACGACATCGTCAGCATGGATTTCGCCCAGCGCGCCGAAGCGCAGGGGCTGGCCGAGTCGGTGGCCGCGGTCGAGGAACTGATCGCGCGCGAGCAGGCGCGTGGCGTGCCGGCCGCGCGCATCCTGCTGGCCGGGTTCTCGCAGGGCGGCGCGGTGACGCTGGCCGCCGGGCTGCGCCGGCAGGAGCCGCTGGCGGGGCTGATCGGCCTGTCCACCTACCTGCCCGACGCGGCCGGCGCACGCGCCGCGCTGCAGCCGGAGGCGACCCGGCAGCCGGTGTTCATGGCGCATGGGGCGATGGATCCGGTGATCCCGCAGCCGTACGCCGAGGCCAGCGCGCAGGCGTTGCGCGGGCTGGGGTTCGAGGTCGAATGGCACGGCTACCGCATGGCGCACCAGGTCTGCGGCGAGGAGATCGGCGCGCTCGGCGACTGGCTGGAGCGGCGCTTCGCCGCCTGA	MLDVLERETGATPQWSVLWLHGLGADANDFMPIVPELVRPHWPALRFVFPNAPVRPITINNGARMRGWYDIVSMDFAQRAEAQGLAESVAAVEELIAREQARGVPAARILLAGFSQGGAVTLAAGLRRQEPLAGLIGLSTYLPDAAGARAALQPEATRQPVFMAHGAMDPVIPQPYAEASAQALRGLGFEVEWHGYRMAHQVCGEEIGALGDWLERRFAA	PGPT0028515_948	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
BMS020_08475	138	tuf1_1		Elongation factor Tu 1	ATGGTAATGCCGGGCGACAACATCAAAATGGTTGTTACCCTGATCCACCCGATCGCGATGGACGATGGTCTGCGTTTCGCAATCCGTGAAGGCGGTCGTACCGTTGGCGCGGGCGTGGTTGCTAAAGTTCTCGGCTAA	MVMPGDNIKMVVTLIHPIAMDDGLRFAIREGGRTVGAGVVAKVLG	PGPT0015245_5731	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358	NA	NA
BMS020_08476	384	secE_2	COG0690	Protein translocase subunit SecE	ATGAGTGCGAATACCGAAGCTCAAGGGAGCGGGCGCGGCCTGGAAGCGATGAAGTGGATTATCGTTGCCGTGCTGCTGATCGTGGCGATCGTGGGCAACTTCCTTTATCGCGACATTATGCTGGCGGTGCGTGCGCTGGCCGTGGTTATTCTTATTGCTGCTGCCGGTGGCGTCGCGCTGTTGACGACGAAAGGTAAGGCGACCGTTGCTTTTGCTCGCGAAGCGAGAACCGAAGTTCGTAAAGTGATTTGGCCGACTCGCCAGGAAACGCTGCATACTACGCTGATTGTTGCTGCCGTGACTGCAGTAATGTCACTGATCCTGTGGGGACTGGATGGTATTCTGGTTCGCCTGGTCTCCTTTATCACTGGCCTGAGGTTCTGA	MSANTEAQGSGRGLEAMKWIIVAVLLIVAIVGNFLYRDIMLAVRALAVVILIAAAGGVALLTTKGKATVAFAREARTEVRKVIWPTRQETLHTTLIVAAVTAVMSLILWGLDGILVRLVSFITGLRF	PGPT0025715_646	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025715-secE-K03073	NA	NA
BMS020_08477	546	nusG_2	COG0250	Transcription termination/antitermination protein NusG	ATGTCTGAAGCTCCTAAAAAGCGCTGGTACGTCGTTCAGGCGTTTTCCGGTTTTGAAGGTCGCGTAGCCACGTCGCTGCGTGAACATATCAAATTACACAACATGGAAGAGTTATTTGGCGAAGTCATGGTCCCGACCGAAGAAGTGGTTGAGATCCGTGGCGGCCAGCGTCGCAAAAGCGAACGTAAATTCTTCCCGGGCTACGTTCTGGTCCAGATGGTCATGAACGACGCAAGCTGGCACCTGGTGCGCAGCGTACCGCGCGTGATGGGCTTCATCGGCGGTACCTCGGACCGTCCGGCGCCGATCAGCGACAAAGAAGTCGACGCCATCATGAATCGTCTGCAGCAGGTTGGCGATAAGCCGCGTCCGAAAACGCTGTTTGAACCGGGTGAAATGGTTCGCGTTAACGACGGTCCGTTCGCTGACTTTAACGGCGTGGTGGAAGAAGTGGACTATGAGAAGTCCCGCCTGAAAGTTTCCGTTTCTATCTTCGGTCGTGCGACCCCGGTAGAACTGGACTTCAGCCAGGTTGAGAAGGCGTAA	MSEAPKKRWYVVQAFSGFEGRVATSLREHIKLHNMEELFGEVMVPTEEVVEIRGGQRRKSERKFFPGYVLVQMVMNDASWHLVRSVPRVMGFIGGTSDRPAPISDKEVDAIMNRLQQVGDKPRPKTLFEPGEMVRVNDGPFADFNGVVEEVDYEKSRLKVSVSIFGRATPVELDFSQVEKA				NA	NA	NA	NA	NA
BMS020_08478	429	rplK_2	COG0080	50S ribosomal protein L11	ATGGCTAAGAAAGTCCAAGCCTACGTCAAGCTGCAGGTTGCAGCTGGTATGGCGAACCCGAGCCCGCCGGTCGGCCCAGCACTGGGTCAGCAGGGCGTGAACATCATGGAATTCTGCAAAGCGTTCAACGCCAAAACTGATTCCCTGGAGAAAGGTCTGCCGATCCCGGTTGTTATCACCGTTTACGCTGACCGTTCCTTTACCTTTGTTACCAAGACTCCGCCGGCTGCTGTTCTGCTGAAGAAAGCTGCAGGCATCAAGTCTGGTTCCGGTAAGCCGAACAAAGATAAAGTGGGTAAAATCTCCCGCGCTCAGCTGCAGGAAATCGCGCAGACCAAAGCTGCCGACATGACTGGTGCCGACATTGAAGCGATGACTCGCTCCATCGAAGGTACTGCACGTTCCATGGGCCTGGTAGTGGAGGACTAA	MAKKVQAYVKLQVAAGMANPSPPVGPALGQQGVNIMEFCKAFNAKTDSLEKGLPIPVVITVYADRSFTFVTKTPPAAVLLKKAAGIKSGSGKPNKDKVGKISRAQLQEIAQTKAADMTGADIEAMTRSIEGTARSMGLVVED				NA	NA	NA	NA	NA
BMS020_08479	705	rplA_2	COG0081	50S ribosomal protein L1	ATGGCTAAACTGACCAAGCGCATGCGCGTGATCCGTGAGAAAGTTGATGCAACTAAACAGTACGACATCAACGAAGCCATCGCTCTGCTGAAAGAGCTGGCCACCGCTAAATTTACCGAAAGCGTAGACGTTGCCGTTAACCTCGGCATCGACGCGCGTAAATCTGACCAGAACGTCCGTGGCGCAACTGTACTGCCGCACGGTACTGGCCGTTCCGTTCGCGTAGCCGTATTTACCCAGGGCGCAAACGCTGAAGCTGCTAAAGCTGCAGGCGCTGAGCTGGTAGGTATGGAAGATCTGGCTGAGCAGATCAAAAAAGGCGAAATGAACTTTGACGTTGTTATTGCTTCCCCGGATGCAATGCGCGTTGTTGGCCAGCTGGGTCAGGTTCTGGGTCCGCGTGGCCTGATGCCGAACCCGAAAGTGGGTACCGTAACTCCGAACGTTGCTGAAGCGGTTAAAAACGCGAAAGCAGGTCAGGTTCGTTACCGTAACGACAAAAACGGCATCATCCACACCACCATCGGTAAAGTGGACTTTGACGCTGACAAACTGAAAGAAAACCTGGAAGCTCTGCTGGTTGCGCTGAAAAAAGCAAAACCGACTCAGGCGAAAGGCGTGTACATCAAGAAAGTTAGCATCTCCACCACCATGGGTGCAGGTGTTGCAGTAGATCAGGCTGGCCTGAACGCTTCTGCAAACTAA	MAKLTKRMRVIREKVDATKQYDINEAIALLKELATAKFTESVDVAVNLGIDARKSDQNVRGATVLPHGTGRSVRVAVFTQGANAEAAKAAGAELVGMEDLAEQIKKGEMNFDVVIASPDAMRVVGQLGQVLGPRGLMPNPKVGTVTPNVAEAVKNAKAGQVRYRNDKNGIIHTTIGKVDFDADKLKENLEALLVALKKAKPTQAKGVYIKKVSISTTMGAGVAVDQAGLNASAN				NA	NA	NA	NA	NA
BMS020_08480	498	rplJ_2	COG0244	50S ribosomal protein L10	ATGGCTTTAAATCTTCAAGACAAACAAGCGATTGTTGCTGAAGTCAGCGAAGTAGCCAAAGGCGCGCTGTCTGCAGTAGTTGCGGATTCCCGTGGCGTAACTGTAGATAAAATGACTGAACTGCGTAAAGCAGGTCGTGAAGCTGGCGTATACATGCGTGTTGTTCGTAACACCCTGCTGCGCCGCGTCGTTGAAGGTACTCAGTTCGAGTGCCTGAAAGACACGTTTGTTGGTCCGACCCTGATTGCATACTCTATGGAACACCCGGGCGCTGCTGCTCGTCTGTTCAAAGAGTTCGCGAAAGCGAATGCAAAATTTGAGGTCAAAGCCGCTGCCTTTGAAGGTGAGCTGATCCCGGCGTCGCAGATCGACCGCCTGGCAACTCTGCCGACCTACGAAGAAGCAATTGCACGCCTGATGGCAACCATGAAAGAAGCTTCGGCTGGCAAACTGGTTCGTACTCTGGCTGCTGTACGCGATGCGAAAGAAGCTGCTTAA	MALNLQDKQAIVAEVSEVAKGALSAVVADSRGVTVDKMTELRKAGREAGVYMRVVRNTLLRRVVEGTQFECLKDTFVGPTLIAYSMEHPGAAARLFKEFAKANAKFEVKAAAFEGELIPASQIDRLATLPTYEEAIARLMATMKEASAGKLVRTLAAVRDAKEAA				NA	NA	NA	NA	NA
BMS020_08482	4029	rpoB_2	COG0085	DNA-directed RNA polymerase subunit beta	ATGGTTTACTCCTATACCGAGAAAAAACGTATTCGTAAGGATTTTGGTAAACGTCCACAAGTTCTGGATGTGCCATATCTCCTTTCTATCCAGCTTGACTCGTTCCAGAAGTTTATCGAGCAAGATCCTGAAGGGCAGTACGGTCTGGAAGCTGCTTTCCGTTCCGTGTTCCCGATTCAGAGCTACAGCGGTAATTCCGAGCTGCAATACGTCAGCTACCGTCTGGGCGAACCGGTTTTTGACGTTAAAGAATGTCAGATCCGTGGCGTGACTTACTCTGCACCGCTGCGCGTAAAACTGCGTCTGGTGATCTACGAGCGCGAAGCGCCGGAAGGCACCGTCAAAGACATTAAAGAACAAGAAGTCTACATGGGCGAAATCCCGCTCATGACCGACAACGGTACCTTCGTCATCAACGGTACCGAGCGTGTTATCGTTTCTCAGCTGCACCGTAGCCCGGGCGTCTTCTTTGACAGTGACAAAGGTAAGACTCACTCATCCGGTAAGGTTCTGTATAACGCACGTATCATCCCTTACCGCGGTTCCTGGCTGGACTTCGAATTCGACCCGAAAGACAACCTGTTCGTTCGTATCGACCGTCGTCGTAAGCTGCCGGCTACCATCATCCTGCGCGCGCTGAATTACACCACTGAGCAGATCCTTGACCTGTTCTTCGAAAAAGTGGTCTTTGAAATTCGCGACAACAAGCTGCAGATGGAGCTGATTCCGGAGCGTCTGCGCGGTGAAACCGCCTCCTTCGATATCGAAGCCAACGGCAAAGTGTACGTTGAGAAAGGCCGTCGTATCACGGCTCGCCATATCCGTCAGCTGGAAAAAGACGATATCAAGCATATCGAAGTGCCGGTTGAATATATCGCGGGCAAAGTGGCGGCTAAAGACTATATCGATGAAGCGACTGGCGAACTGATCTGCCCGGCGAACATGGAGCTGAGCCTGGATCTGCTGGCTAAGCTGAGCCAGTCTGGCCACAAGCGCATCGAAACGCTGTTTACCAACGATCTGGACCACGGTCCATACATCTCTGAAACGGTACGCGTCGACCCGACTAACGATCGTCTGAGCGCGCTGGTAGAAATCTACCGCATGATGCGCCCTGGCGAGCCGCCGACTCGTGAAGCCGCTGAAAGCCTGTTTGAGAACCTGTTCTTCTCCGAAGACCGCTACGATCTGTCCGCGGTTGGTCGTATGAAGTTCAACCGTTCTCTGCTGCGCGACGAAATCGAAGGTTCCGGTATCCTGAGCAAAGACGACATCATCGAAGTGATGAAGAAGCTCATCGATATCCGTAACGGTAAAGGCGAAGTGGACGATATCGACCACCTCGGCAACCGTCGTATCCGTTCCGTTGGCGAAATGGCGGAAAACCAGTTCCGCGTTGGCCTGGTACGTGTAGAACGTGCGGTGAAAGAGCGTCTGTCTCTGGGCGATCTGGATACCCTGATGCCTCAGGATATGATCAACGCCAAACCGATTTCCGCAGCAGTGAAAGAGTTCTTTGGTTCCAGCCAGCTGTCTCAGTTTATGGACCAGAACAACCCGCTGTCTGAGATCACGCACAAACGTCGTATCTCCGCACTCGGCCCAGGCGGTCTGACCCGTGAGCGCGCAGGCTTCGAAGTTCGAGACGTACACCCGACTCACTACGGTCGCGTATGTCCAATCGAAACGCCTGAAGGTCCGAACATCGGTCTGATCAACTCCCTGTCCGTATACGCGCAGACCAACGAATATGGCTTCCTCGAGACGCCGTATCGTAAAGTGACCGACGGTGTGGTTACCGACGAAATTCACTACCTGTCTGCTATCGAAGAAGGCAACTACGTTATCGCTCAGGCGAACTCCAACCTGGACGAAAACGGCCACTTCGTAGAAGATCTGGTGACCTGCCGTAGCAAAGGCGAATCCAGCTTGTTCAGCCGCGACCAGGTTGACTACATGGACGTATCCACCCAGCAGGTGGTATCCGTCGGTGCGTCCCTGATCCCGTTCCTGGAACACGATGACGCCAACCGTGCATTGATGGGTGCGAACATGCAACGTCAGGCCGTTCCGACTCTGCGCGCTGATAAGCCGCTGGTTGGTACCGGTATGGAACGTGCTGTAGCCGTCGACTCCGGCGTTACTGCCGTTGCTAAGCGCGGCGGTACCGTTCAGTACGTGGATGCTTCCCGTATCGTTATCAAAGTTAACGAAGACGAGATGTACCCGGGCGAAGCGGGTATCGACATCTATAACCTGACCAAATATACCCGTTCTAACCAGAACACCTGCATCAACCAGATGCCTTGCGTGTCCCTGGGCGAACCTATCGAGCGCGGCGACGTGCTGGCCGACGGCCCGTCCACCGACCTCGGTGAGCTGGCGCTGGGTCAGAACATGCGCGTCGCGTTCATGCCGTGGAACGGCTACAACTTCGAAGACTCCATCCTCGTTTCCGAGCGTGTTGTCCAGGAAGACCGTTTCACCACTATCCACATTCAGGAACTGGCGTGCGTGTCCCGTGACACCAAGCTGGGGCCGGAAGAGATCACCGCTGACATCCCGAACGTGGGTGAAGCTGCGCTCTCCAAACTGGATGAATCCGGTATCGTTTATATCGGTGCGGAAGTGACCGGCGGCGACATTCTGGTTGGTAAGGTTACGCCGAAAGGTGAAACCCAGCTGACGCCGGAAGAGAAACTGCTGCGTGCGATCTTCGGTGAGAAAGCGTCTGACGTTAAAGACTCTTCTCTGCGCGTACCGAACGGTGTCTCTGGTACCGTTATCGACGTTCAGGTCTTTACCCGTGACGGCGTAGAAAAAGACAAACGTGCGCTGGAAATCGAAGAGATGCAGCTGAAGCAGGCCAAAAAAGACCTGTCTGAAGAACTGCAGATCCTCGAAGCCGGTCTGTTCAGTCGTATCTACGCGGTGCTGGTCTCCGGCGGCGTTGAAGCTGAGAAGCTCGACAAACTGCCGCGCGATCGCTGGCTGGAACTGGGCCTGACCGACGAAGAGAAACAAAATCAGCTGGAACAACTGGCTGAGCAGTACGACGAACTGAAACACGAGTTCGAGAAAAAACTCGAAGCGAAACGCCGCAAAATCACCCAAGGCGACGATCTGGCACCGGGCGTGCTGAAGATTGTTAAGGTATACCTGGCCGTTAAACGCCGTATCCAGCCTGGTGACAAGATGGCAGGTCGTCACGGTAACAAGGGTGTTATCTCTAAGATCAACCCGATCGAAGATATGCCGCACGATGCTAACGGTACGCCGGTAGATATCGTCCTGAACCCGCTGGGCGTACCGTCTCGTATGAACATCGGTCAGATCCTGGAAACTCACCTGGGTATGGCTGCGAAAGGCATCGGCGATAAGATCAACGCCATGCTGAAACAGCAGCAGGAAGTCGCGAAACTGCGCGAGTTCATCCAGCGTGCCTACGATCTGGGCGCTGACGTTCGTCAGAAAGTTGACCTGAATACCTTCAGCGATGAAGAAGTTCTGCGTCTGGCTGAAAACCTGCGTAAAGGTATGCCGATCGCAACGCCGGTGTTCGACGGTGCGAAAGAAGCGGAAATTAAAGCGCTGCTGCAGCTGGGCGACCTGCCGACTTCCGGTCAGATCACCCTGTTCGACGGCCGCACCGGTGAGCAGTTCGAGCGTCCGGTAACCGTGGGTTACATGTACATGCTGAAACTGAACCACCTGGTCGACGACAAAATGCACGCGCGTTCCACCGGTTCTTACAGCCTGGTGACTCAGCAGCCGCTGGGTGGTAAGGCGCAGTTCGGTGGTCAGCGCTTCGGTGAGATGGAAGTGTGGGCGCTGGAAGCATACGGCGCAGCCTACACCCTGCAGGAAATGCTCACCGTTAAGTCTGATGACGTGAACGGTCGTACCAAGATGTATAAAAACATCGTGGACGGCAATCACCAGATGGAACCGGGCATGCCGGAATCCTTCAACGTACTGTTGAAAGAAATTCGCTCGCTGGGCATCAACATCGAACTGGAAGACGAGTAA	MVYSYTEKKRIRKDFGKRPQVLDVPYLLSIQLDSFQKFIEQDPEGQYGLEAAFRSVFPIQSYSGNSELQYVSYRLGEPVFDVKECQIRGVTYSAPLRVKLRLVIYEREAPEGTVKDIKEQEVYMGEIPLMTDNGTFVINGTERVIVSQLHRSPGVFFDSDKGKTHSSGKVLYNARIIPYRGSWLDFEFDPKDNLFVRIDRRRKLPATIILRALNYTTEQILDLFFEKVVFEIRDNKLQMELIPERLRGETASFDIEANGKVYVEKGRRITARHIRQLEKDDIKHIEVPVEYIAGKVAAKDYIDEATGELICPANMELSLDLLAKLSQSGHKRIETLFTNDLDHGPYISETVRVDPTNDRLSALVEIYRMMRPGEPPTREAAESLFENLFFSEDRYDLSAVGRMKFNRSLLRDEIEGSGILSKDDIIEVMKKLIDIRNGKGEVDDIDHLGNRRIRSVGEMAENQFRVGLVRVERAVKERLSLGDLDTLMPQDMINAKPISAAVKEFFGSSQLSQFMDQNNPLSEITHKRRISALGPGGLTRERAGFEVRDVHPTHYGRVCPIETPEGPNIGLINSLSVYAQTNEYGFLETPYRKVTDGVVTDEIHYLSAIEEGNYVIAQANSNLDENGHFVEDLVTCRSKGESSLFSRDQVDYMDVSTQQVVSVGASLIPFLEHDDANRALMGANMQRQAVPTLRADKPLVGTGMERAVAVDSGVTAVAKRGGTVQYVDASRIVIKVNEDEMYPGEAGIDIYNLTKYTRSNQNTCINQMPCVSLGEPIERGDVLADGPSTDLGELALGQNMRVAFMPWNGYNFEDSILVSERVVQEDRFTTIHIQELACVSRDTKLGPEEITADIPNVGEAALSKLDESGIVYIGAEVTGGDILVGKVTPKGETQLTPEEKLLRAIFGEKASDVKDSSLRVPNGVSGTVIDVQVFTRDGVEKDKRALEIEEMQLKQAKKDLSEELQILEAGLFSRIYAVLVSGGVEAEKLDKLPRDRWLELGLTDEEKQNQLEQLAEQYDELKHEFEKKLEAKRRKITQGDDLAPGVLKIVKVYLAVKRRIQPGDKMAGRHGNKGVISKINPIEDMPHDANGTPVDIVLNPLGVPSRMNIGQILETHLGMAAKGIGDKINAMLKQQQEVAKLREFIQRAYDLGADVRQKVDLNTFSDEEVLRLAENLRKGMPIATPVFDGAKEAEIKALLQLGDLPTSGQITLFDGRTGEQFERPVTVGYMYMLKLNHLVDDKMHARSTGSYSLVTQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQEMLTVKSDDVNGRTKMYKNIVDGNHQMEPGMPESFNVLLKEIRSLGINIELEDE				NA	NA	NA	NA	NA
BMS020_08483	4224	rpoC_2	COG0086	DNA-directed RNA polymerase subunit beta'	GTGAAAGACTTATTAAAGTTTCTGAAAGCGCAAACTAAAACCGAAGAGTTTGATGCGATCAAAATTGCTCTGGCTTCGCCAGACATGATCCGTTCATGGTCTTTCGGTGAAGTTAAAAAGCCGGAAACCATTAACTACCGTACGTTCAAACCTGAGCGTGACGGCCTTTTCTGCGCCCGTATCTTTGGGCCGGTAAAAGACTATGAGTGCCTGTGCGGTAAGTACAAGCGCCTGAAACACCGCGGTGTGATCTGTGAGAAGTGCGGCGTTGAAGTGACCCAGACTAAAGTGCGTCGTGAGCGCATGGGCCACATCGAGCTGGCATGTCCGACTGCGCACATCTGGTTCCTGAAATCCCTGCCGTCCCGTATCGGCCTGCTGCTGGATATGCCGCTGCGCGATATCGAACGTGTACTGTACTTTGAATCCTATGTGGTTATCGAAGGTGGCATGACCAACCTCGAACGCAACCAGATTCTGACTGAAGAACAGTACCTGGACGCGCTGGAAGAGTTCGGTGACGAATTCGACGCGAAGATGGGTGCGGAAGCGATCCAGGCGCTGCTGCGCAATATGGATCTGGAGCAGGAATGCGAGCAGCTGCGTGAAGAGCTGAACGAAACCAACTCCGAAACCAAGCGTAAAAAGCTGACCAAGCGCATCAAGCTGCTGGAAGCCTTCGTACAGTCTGGCAACAAGCCGGAGTGGATGATCCTGACCGTTCTGCCGGTACTGCCGCCAGATCTGCGTCCGCTGGTTCCGCTGGATGGCGGTCGTTTCGCGACGTCTGACCTCAACGATCTGTATCGTCGCGTGATCAACCGTAACAACCGTCTGAAACGTCTGCTGGATCTGGCGGCGCCGGATATCATCGTACGCAACGAAAAACGTATGCTGCAGGAAGCGGTTGACGCCCTGCTGGACAACGGTCGTCGCGGTCGTGCGATCACCGGTTCTAACAAACGTCCTCTGAAATCTTTGGCCGATATGATCAAAGGTAAACAGGGTCGTTTCCGTCAGAACCTGCTCGGTAAGCGTGTTGACTACTCCGGTCGTTCTGTTATCACCGTAGGTCCATACCTGCGTCTGCATCAGTGCGGTCTGCCGAAGAAAATGGCGCTGGAGCTGTTCAAACCGTTCATCTACGGCAAGCTGGAACTGCGTGGCCTGGCCACCACCATCAAAGCCGCTAAGAAAATGGTTGAGCGCGAAGAAGCTGTCGTTTGGGATATCCTGGACGAAGTTATCCGCGAACACCCGGTCCTGCTGAACCGTGCGCCGACCCTGCACCGTCTGGGTATCCAGGCATTCGAACCGGTTCTGATCGAAGGTAAAGCCATCCAGCTGCACCCGCTGGTTTGTGCGGCATACAACGCCGACTTCGATGGTGACCAGATGGCTGTTCACGTACCGCTGACGCTGGAAGCCCAGCTGGAAGCGCGTGCGCTGATGATGTCTACCAACAACATCCTGTCCCCGGCGAACGGCGAACCAATCATCGTTCCGTCTCAGGACGTTGTACTGGGTCTGTACTACATGACCCGTGACAGTGTTAACGCCAAAGGCGAAGGCATGGTGCTGACTGGCCCGAAAGAAGCTGAGCGTATTTATCGCGCCGGCCTGGCCTCTCTGCATGCGCGCGTTAAAGTGCGTATCACTGAATACGAAAAAGACGACAATGGTGAGTTTGTCGCGAAAACCAGCCTGAAAGACACGACCGTTGGCCGTGCCATTCTGTGGATGATCGTACCGAAAGGTCTGCCGTTCTCTATCGTGAACCAGGCGCTTGGTAAGAAAGCGATCTCCAAGATGCTGAACACCTGTTACCGTATTCTGGGCCTGAAACCGACCGTTATTTTCGCGGACCAGACGATGTACACCGGCTTTGCTTACGCAGCGCGTTCAGGTGCATCCGTTGGTATCGATGACATGGTCATCCCGGAGAAAAAATACGAAATCATCAGCGAAGCGGAAGCGGAAGTTGCTGAGATTCAGGAACAGTTCCAGTCCGGTCTGGTGACCGCGGGCGAACGCTACAACAAAGTTATCGATATCTGGGCTGCGGCGAACGATCGTGTATCCAAAGCGATGATGGATAACCTGCAAACCGAAACCGTGATTAACCGTGACGGTCAGGAAGAGCAGCAGGTTTCCTTCAACAGCATCTACATGATGGCCGACTCCGGTGCGCGTGGTTCTGCTGCACAGATTCGTCAGCTGGCCGGTATGCGTGGTCTGATGGCGAAGCCGGATGGCTCCATCATCGAAACGCCGATCACCGCGAACTTCCGTGAAGGTCTGAACGTACTCCAGTACTTCATCTCCACGCACGGTGCGCGTAAAGGTCTGGCGGATACCGCACTGAAAACAGCGAACTCCGGTTACCTGACTCGTCGTCTGGTCGACGTTGCCCAGGACCTGGTCGTCACTGAAGACGACTGCGGCACCCTGGAAGGCATCACTATGACGCCGGTTATCGAAGGTGGCGACGTTAAAGAGCCGCTGCGCGATCGCGTACTGGGTCGTGTAACGGCGGAAGATGTGCTGAAGCCGGGTACCGCGGATATTCTGGTTCCACGCAACACGCTGCTGCACGAGCACTGGTGTGACCTGCTGGAAGCGAACTCCGTTGACTCCGTCAAAGTGCGTTCCGTTGTATCCTGTGACACCGACTTTGGTGTATGTGCGCACTGCTATGGTCGTGACCTGGCGCGTGGCCACATCATCAACAAAGGTGAGGCTATCGGCGTTATCGCGGCACAGTCCATCGGTGAGCCGGGTACACAGCTGACGATGCGTACGTTCCACATCGGTGGTGCGGCATCTCGTGCGGCTGCTGAATCCAGCATCCAGGTGAAAAACAAAGGTAGCATCAAGCTCAGCAACGCGAAGTCGGTTGTGAACTCCAGCGGTAAACTGGTTATCACTTCTCGTAACACCGAGCTGAAGCTGATCGACGAATTCGGTCGTACCAAAGAGAGCTATAAAGTGCCTTACGGTGCGGTTATGGCGAAAGGCGACGGTGAGCAGGTTGCCGGCGGTGAAACCGTCGCAAACTGGGATCCGCACACCATGCCGGTTATCACCGAAGTGAGTGGTTTTATCCGCTTCACTGATATGATCGACGGCCAGACCATTACTCGTCAGACCGACGAGCTGACCGGTCTGTCTTCGCTGGTGGTTCTGGACTCTGCAGAACGTACCGCAGGTGGTAAAGATCTGCGTCCGGCGCTGAAAATCGTTGATGCTCAGGGCAACGACGTTCTGATCCCAGGTACCGATATGCCTGCTCAGTACTTCCTGCCGGGTAAAGCGATTGTTCAGCTGGAAGATGGCGTACAGATCAGCTCTGGTGACACCCTGGCGCGTATTCCGCAGGAATCCGGCGGTACTAAGGACATCACCGGTGGTCTGCCGCGCGTTGCGGACCTGTTCGAAGCACGTCGTCCGAAAGAGCCGGCTATTCTGGCTGAAATCAGCGGTATCATTTCCTTCGGTAAAGAAACCAAAGGGAAACGTCGCCTGGTTATCACCCCGGTAGACGGTAGCGAGCCGTACGAAGAGATGATTCCGAAATGGCGTCAGCTCAACGTGTTCGAAGGTGAACGTGTAGAACGTGGTGACGTAGTTTCCGACGGTCCGGAAGCACCGCACGACATTCTGCGTCTGCGTGGCGTACATGCTGTGACCCGTTACATTGTTAACGAAGTCCAGGACGTATACCGTCTGCAGGGCGTTAAGATTAACGATAAGCACATCGAAGTTATCGTTCGTCAGATGCTGCGTAAAGCCACCATCGAAAGCGCAGGCAGCTCCGACTTCCTCGAAGGCGAGCAGGTGGAATACTCCCGCGTCAAGATCGCAAACCGCGAACTGGAAGCGAACGGCAAAGTGGGCGCAACGTTCTCCCGCGATCTGCTGGGTATCACCAAAGCGTCTCTGGCCACCGAGTCCTTCATCTCCGCGGCATCGTTCCAGGAGACCACTCGCGTGCTGACCGAAGCAGCCGTTGCGGGCAAACGCGACGAACTGCGCGGTCTGAAAGAGAACGTCATCGTGGGTCGTCTGATCCCGGCCGGTACCGGTTATGCGTACCACCAGGATCGTATGCGCCGTCGCGCTGCTGGCGAACTGCCGGCGGCACCGCAGGTGAGCGTGGAAGAAGCATCTGCCAACCTGGCAGAGCTGCTGAACGCAGGTCTGGGCGGTTCTGACAACGATTAA	MKDLLKFLKAQTKTEEFDAIKIALASPDMIRSWSFGEVKKPETINYRTFKPERDGLFCARIFGPVKDYECLCGKYKRLKHRGVICEKCGVEVTQTKVRRERMGHIELACPTAHIWFLKSLPSRIGLLLDMPLRDIERVLYFESYVVIEGGMTNLERNQILTEEQYLDALEEFGDEFDAKMGAEAIQALLRNMDLEQECEQLREELNETNSETKRKKLTKRIKLLEAFVQSGNKPEWMILTVLPVLPPDLRPLVPLDGGRFATSDLNDLYRRVINRNNRLKRLLDLAAPDIIVRNEKRMLQEAVDALLDNGRRGRAITGSNKRPLKSLADMIKGKQGRFRQNLLGKRVDYSGRSVITVGPYLRLHQCGLPKKMALELFKPFIYGKLELRGLATTIKAAKKMVEREEAVVWDILDEVIREHPVLLNRAPTLHRLGIQAFEPVLIEGKAIQLHPLVCAAYNADFDGDQMAVHVPLTLEAQLEARALMMSTNNILSPANGEPIIVPSQDVVLGLYYMTRDSVNAKGEGMVLTGPKEAERIYRAGLASLHARVKVRITEYEKDDNGEFVAKTSLKDTTVGRAILWMIVPKGLPFSIVNQALGKKAISKMLNTCYRILGLKPTVIFADQTMYTGFAYAARSGASVGIDDMVIPEKKYEIISEAEAEVAEIQEQFQSGLVTAGERYNKVIDIWAAANDRVSKAMMDNLQTETVINRDGQEEQQVSFNSIYMMADSGARGSAAQIRQLAGMRGLMAKPDGSIIETPITANFREGLNVLQYFISTHGARKGLADTALKTANSGYLTRRLVDVAQDLVVTEDDCGTLEGITMTPVIEGGDVKEPLRDRVLGRVTAEDVLKPGTADILVPRNTLLHEHWCDLLEANSVDSVKVRSVVSCDTDFGVCAHCYGRDLARGHIINKGEAIGVIAAQSIGEPGTQLTMRTFHIGGAASRAAAESSIQVKNKGSIKLSNAKSVVNSSGKLVITSRNTELKLIDEFGRTKESYKVPYGAVMAKGDGEQVAGGETVANWDPHTMPVITEVSGFIRFTDMIDGQTITRQTDELTGLSSLVVLDSAERTAGGKDLRPALKIVDAQGNDVLIPGTDMPAQYFLPGKAIVQLEDGVQISSGDTLARIPQESGGTKDITGGLPRVADLFEARRPKEPAILAEISGIISFGKETKGKRRLVITPVDGSEPYEEMIPKWRQLNVFEGERVERGDVVSDGPEAPHDILRLRGVHAVTRYIVNEVQDVYRLQGVKINDKHIEVIVRQMLRKATIESAGSSDFLEGEQVEYSRVKIANRELEANGKVGATFSRDLLGITKASLATESFISAASFQETTRVLTEAAVAGKRDELRGLKENVIVGRLIPAGTGYAYHQDRMRRRAAGELPAAPQVSVEEASANLAELLNAGLGGSDND				NA	NA	NA	NA	NA
BMS020_08484	1341	dcuB	COG2704	Anaerobic C4-dicarboxylate transporter DcuB	ATGGAATTCGCGATACAACTCATTATTATCTTAATTTGTCTGTTTTATGGTGCCCGAAAAGGCGGTATTGCGCTGGGGCTGCTGGGCGGCATCGGTTTAGTGATCCTCGTCTTTGTTTTTCATCTCCAGCCGGGTAAACCGCCGGTTGATGTGATGCTGGTGATCATTGCGGTGGTGGCCGCCTCGGCGACGCTGCAGGCGTCCGGCGGCCTGGATGTCATGTTGCAGATTGCCGAGAAGCTGCTGCGGCGAAACCCAAAATATGTCTCTATTGTGGCGCCTTTCGTCACCTGCACGCTGACTATCCTCTGCGGTACCGGTCACGTGGTGTATACCATCCTGCCGATTATCTACGATGTGGCGATTAAGAATAACATTCGCCCGGAGCGTCCGATGGCCGCCAGCTCCATTGGCGCCCAGATGGGGATCATCGCCAGCCCGGTCTCGGTGGCGGTGGTCTCGCTGGTGGCGATGCTGGGGAATTTTACCTTTAACGGTAAACATCTCGAGTTTCTCGATCTGCTGGCGATAACCATTCCTTCCACGCTGCTGGGCATTTTAGCCATCGGCATCTTCAGCTGGTTCCGTGGCAAAGATCTGGATAAAGACGAAGCCTTCCAGGCGTTTATTGCGGTACCGGAGAACCGCCATTACGTCTATGGCGATACGGCGACGCTGCTGGATAGAAAGTTGCCCACCAGCAACTGGATAGCGATGTGGATTTTTCTGGCCTCCATCGCTGTGGTGGCACTGCTCGGCGCCTTCTCTGAACTGCGTCCGACCTTTGACGGTAAACCGCTGTCGATGGTGCTGGTGATCCAGATGTTTATGCTGCTCTCCGGGGCGCTGATCATCATCATTACTAAAACCAACCCGGTATCGATTTCCAAAAATGAGGTCTTTCGTTCGGGAATGATCGCTATCGTCGCGGTGTACGGCATCGCCTGGATGGCGGAGACCATGTTTGGCGCTCACATGACCGAAATTAAAGGCGTGCTCGGGGAGATGGTCAAAGAGTATCCATGGGCCTATGCCATCGTGCTGCTGCTGGTTTCGAAGTTTGTGAACTCGCAGGCGGCAGCGCTGGCGGCGATTGTTCCGGTGGCCCTGGCCATCGGCGTCGACCCGGCCTATATCGTGGCTTCTGCGCCGGCCTGCTATGGCTACTATATTCTGCCGACCTACCCCAGCGATCTGGCGGCGATCCAGTTTGACCGCTCAGGGACCACCCATATTGGCCGCTTTGTGATTAACCACAGCTTTATCCTGCCCGGGCTCATCGGCGTTGGCGTCTCCTGCGTTTTTGGCTGGGTATTCGCTGCGATGTACGGCTTTCTGTAA	MEFAIQLIIILICLFYGARKGGIALGLLGGIGLVILVFVFHLQPGKPPVDVMLVIIAVVAASATLQASGGLDVMLQIAEKLLRRNPKYVSIVAPFVTCTLTILCGTGHVVYTILPIIYDVAIKNNIRPERPMAASSIGAQMGIIASPVSVAVVSLVAMLGNFTFNGKHLEFLDLLAITIPSTLLGILAIGIFSWFRGKDLDKDEAFQAFIAVPENRHYVYGDTATLLDRKLPTSNWIAMWIFLASIAVVALLGAFSELRPTFDGKPLSMVLVIQMFMLLSGALIIIITKTNPVSISKNEVFRSGMIAIVAVYGIAWMAETMFGAHMTEIKGVLGEMVKEYPWAYAIVLLLVSKFVNSQAAALAAIVPVALAIGVDPAYIVASAPACYGYYILPTYPSDLAAIQFDRSGTTHIGRFVINHSFILPGLIGVGVSCVFGWVFAAMYGFL	PGPT0019540_265	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FUMARATE_SENSING|UTILIZATION,PGPT0019540-dcuB-K07792	NA	NA
BMS020_08485	318	chbA_3	COG1447	PTS system N,N'-diacetylchitobiose-specific EIIA component	ATGGAAGATTTAGAAACGATCATCATGGAGCTGCTGGTTAACGCGGGTTCTGCGCGCAGCGCGGCGCTGACGGCGCTACAGCTGGCGCGGAAAGGCGATTTTGCCGCAGCAGAGCAGGCCATGGCCGAGTCCCATGAGTTCGTCAAACATGCGCATAAAATTCAGACCCAGCTTATCGGCCTGGATGAAGGCAGCGGTAAGTTACCGGTCAACCTGATCACTGTGCATTCTCAGGACCATCTGATGAACGCCATGGTCATTCAGGATCTGGCGACCGATATGATTGAACTATACCGTCGCCTGCCCCTCGCGCAATAA	MEDLETIIMELLVNAGSARSAALTALQLARKGDFAAAEQAMAESHEFVKHAHKIQTQLIGLDEGSGKLPVNLITVHSQDHLMNAMVIQDLATDMIELYRRLPLAQ	PGPT0016980_1072	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_BETA-GLYCOSIDE_DEGRADATION,PGPT0016980-celC|chbA-K02759	NA	NA
BMS020_08486	306	celA_2		PTS system cellobiose-specific EIIB component	ATGAAGAATATCGTTTTGTGCTGTGCCGCCGGTATGTCTACCAGCATGCTGGTTCAGCGTATGCAAGATGCCGCGCAGAAGAAAGGTGTTGAGGTCTCAATCAAGGCCGTACCGGTCGCCGAGTTTAAAGATAATCTGGCCGCCGCCGACATTATTCTGCTCGGCCCGCAGGTGAAATATGAGCAGGCGAAGCTGCAGGCGCTGGCCGACCCGTTCGGCAAAAAGGTCGCCGTGATCGATATGATGGACTACGGCATGATGAAAGGTGATGCCGTTCTGGATAAAGCCCTTAAGATGCTGGAGTAA	MKNIVLCCAAGMSTSMLVQRMQDAAQKKGVEVSIKAVPVAEFKDNLAAADIILLGPQVKYEQAKLQALADPFGKKVAVIDMMDYGMMKGDAVLDKALKMLE	PGPT0016975_1069	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_BETA-GLYCOSIDE_DEGRADATION,PGPT0016975-celA|chbB-K02760	NA	NA
BMS020_08487	1533			hypothetical protein	ATGGCTCTACACAACAGAAAGCTCTCTTTCACGACGCCGATCGTCGTGGGGTTTGCCGGCATCTTGCTCAGTTTTATGCTGATCGCTATTTTTGTCACCCTGGCGCAGCGAAAAGATTTTCTTGAAGATTATCACGACATTAACCGCAACTTTACCCACAACCTGGCGATCAACTACACGGAAACCCTGCTGCGGGAAAATGATTTTATCCTTGGGCGCGCGGTCGCCTTCTTTGCCCGCAATGACGAACTGAATCGCGCAGTCAATGTGGAACCGGAGAAAGGGTTAACGACGCTGATGCAGTTACAGAACATGATGCCGAGCGTCTCATCCATCTCGCTGGCGGATACCGAGGGCCACTATCTGCGCGCCCCGGAGGTGCTGGAAAATGAAGACAGTCAGGCTTTCGATCCCAGAACGCGGCCCTGGTTTATCAAACAGGCGGAAGCCAGCACCTTCAGCCACTACACCAGCCCATATATGGATTTTTTTACCCACCATCCGACGATTACCATTTTCAAACCCATCATCACCCCGGAGGGGAAACTCAAGGGCAGCCTGGCCTTTCATCTCGATCTCACCTCCATGGGGTTCGCGCTGCGCCAGATGGTGGCCCCCGTACAGGGCGAGTTTTTTGTGGTGCAGCGTGATGGCAAAGTGGTCCTGCACTCCGACCCTGGCGCGCTGTTTAAACCCTTCGTCAGTAATGAGCTGATGGATAAAATGACCAGCGGCGAGGGGCAGCTTTACGATCCCGGGAGCGACACCTGGTATTACTATTACTCCTTTACCAATCCCGACTGGTTTGTGATTTTCCGTGTCGATAACACTACCCTGGTTAATCTGACGCGCCATGAAACCAATTTAGTGATCGGCGGTTTCGCCCTCGCGGCGATCATCATCATCCTGTTCGGCCTTTATCTGCGTCATGCCTCCCGCACCGTGCTGATGAATATCATCAATGCGATTAAAACCGGCGACGTCAAACGCGCCCCACGCCTCGAGGCGATGCTGAGTAAAGCCATTGAAACCAATAAGCAGCGCGAACTGACCTACGTCCGCCAGGCGACCATTGACGCGCTCACCGGCTGCAAGAACCGCCGCGCCTTCGACAGCGATATTGCCGCGCTGATGAACGATCATCAGCCGTTCGCCCTCGCGCTGGTCGATATCGATAACTTTAAATCGATCAACGACACCTGGGGTCACCTCAACGGCGATATCGTTCTGCGTAACGTCGCCCGCGAAGGGCTGCAGGTCCTCCAGCCGCTGGAGATATCCCTCTATCGCTATGGTGGTGAAGAGTTCGCGGTGGTCTTTCCTGCCGAACATATTGATAACGCCCGCACGCTGCTGGAAACATGGCGGGTAAACGTCGAACGGCGCACCTGGCGCGAAGATGGCCTGACGGTCACCTTCAGCGCCGGGCTGGGGGAATGGAACATGGAGCCGCTGGATAAACTGGTGGTGAGCGTCGATGAAGCGCTGTACAAAGCCAAACAGCAGGGTAAAAACCGTATCCTGCGCGCCTAG	MALHNRKLSFTTPIVVGFAGILLSFMLIAIFVTLAQRKDFLEDYHDINRNFTHNLAINYTETLLRENDFILGRAVAFFARNDELNRAVNVEPEKGLTTLMQLQNMMPSVSSISLADTEGHYLRAPEVLENEDSQAFDPRTRPWFIKQAEASTFSHYTSPYMDFFTHHPTITIFKPIITPEGKLKGSLAFHLDLTSMGFALRQMVAPVQGEFFVVQRDGKVVLHSDPGALFKPFVSNELMDKMTSGEGQLYDPGSDTWYYYYSFTNPDWFVIFRVDNTTLVNLTRHETNLVIGGFALAAIIIILFGLYLRHASRTVLMNIINAIKTGDVKRAPRLEAMLSKAIETNKQRELTYVRQATIDALTGCKNRRAFDSDIAALMNDHQPFALALVDIDNFKSINDTWGHLNGDIVLRNVAREGLQVLQPLEISLYRYGGEEFAVVFPAEHIDNARTLLETWRVNVERRTWREDGLTVTFSAGLGEWNMEPLDKLVVSVDEALYKAKQQGKNRILRA				NA	NA	NA	NA	NA
BMS020_08488	1134	thiH	COG1060	2-iminoacetate synthase	ATGAAAACCTTCAGCGATCGCTGGCGGCAGCTGGAGTGGGACGACATCCGCCTGCGCATCAACGGTAAAACCGCCGCCGATGTCGAACGGGCGCTGGCGGCCAAACAGCTGACCCGCGACGACATGATGGCCCTGCTTTCGCCGGCGGCGGCCGGGTATCTTGAACCTCTGGCCCAGCGCGCGCAGCGGCTTACCCGTCAGCGCTTCGGCAATACCGTCAGCTTCTACGTGCCGCTGTATCTCTCCAACCTGTGCGCCAACGACTGCACCTACTGCGGCTTCTCGATGAGCAACCGCATTAAGCGCAAGACGCTGGATGCTGCCGAGATTGCCCGCGAGTGCGCCGCGATCCGCGACCTGGGCTTTGAGCATCTGCTGCTGGTGACCGGTGAGCATCAGGGCAAGGTGGGAATGGATTATTTCCGCCAGCACCTGCCGGCAATCCGCAGCCAGTTTGCCTCGCTGCATATGGAGGTGCAGCCGCTGGCGACCGACGAGTATGCCGAGCTGAAAACCCTGGGGCTCGACGGGGTGATGGTCTATCAGGAGACCTATCACGAAAGCATGTACGCTCAGCACCACCTGAAAGGGAAAAAGCAGGATTTCTTCTGGCGGCTGGATACGCCGGATCGCCTGGGCGAGGCGGGGATCGATAAGATCGGCCTTGGCGCGCTGATCGGCCTTTCCGACAGCTGGCGAGTGGACTGCTTTATGGTCGCTGAGCACCTGCTGTGGCTGCAGCAACGCTACTGGCGCAGCCGCTATTCGGTCTCCTTCCCGCGTCTGCGTCCCTGCGCCGGCGGCATTGAACCGGCCTCGCTAATGGATGAGCGTCAGCTGGTGCAGACCATCTGCGCCTTCCGCCTGCTGGCGCCGGAGGTTGAGCTGTCGCTATCCACCCGCGAATCTCCCTGGTTCCGCGACCGGGTGATCCCGCTGGCGATCAATAACGTCAGCGCCTTCTCCAAAACCCAGCCCGGGGGTTACGCCGACGACCATCCGGAGCTTGAGCAGTTCGCGCCGCACGATGGCCGTCGGCCTGAAGAAGTCGCCAGCGCGCTGGCTGCCCGCGGCCTGCAGCCGGTGTGGAAAGACTGGGACAGCTGGCTGGGACGCGCCTCGCAAACCTCATGA	MKTFSDRWRQLEWDDIRLRINGKTAADVERALAAKQLTRDDMMALLSPAAAGYLEPLAQRAQRLTRQRFGNTVSFYVPLYLSNLCANDCTYCGFSMSNRIKRKTLDAAEIARECAAIRDLGFEHLLLVTGEHQGKVGMDYFRQHLPAIRSQFASLHMEVQPLATDEYAELKTLGLDGVMVYQETYHESMYAQHHLKGKKQDFFWRLDTPDRLGEAGIDKIGLGALIGLSDSWRVDCFMVAEHLLWLQQRYWRSRYSVSFPRLRPCAGGIEPASLMDERQLVQTICAFRLLAPEVELSLSTRESPWFRDRVIPLAINNVSAFSKTQPGGYADDHPELEQFAPHDGRRPEEVASALAARGLQPVWKDWDSWLGRASQTS	PGPT0008950_639	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0008950-thiH-K03150	NA	NA
BMS020_08489	771	thiG	COG2022	Thiazole synthase	ATGTTACGTATTGCAGACAAAACATTTGAATCCCATCTTTTCACCGGTACCGGCAAATTCGCCGCCCCGGAGGTGATGGTTGAGGCGATTCGCGCCTCGGGCAGCCAGCTGGTCACCCTGGCGATGAAGCGCGTCGATTTACGTCAGCACAATGACGCCATCCTCGCCCCGCTGCTGGCGGCGGGAGTCAGCCTGCTGCCGAATACCTCGGGCGCCAAGACAGCGGAAGAGGCGGTATTTGCCGCCCACCTGGCACGGGAAGCCTTGGGCACCCACTGGCTGAAACTGGAGATCCACCCGGACGCCCGCTGGCTGCTGCCCGACCCGATTGAAACCCTGAAAGCGGCGGAGCTGCTGGTCCGCGAAGGGTTCGTGGTGCTGCCCTACTGCGGCGCCGACCCGGTGCTGTGTAAACGGCTGGAAGAGGCTGGCTGCGCGGCGGTGATGCCCCTGGGAGCGCCGATCGGCTCCAATCAGGGGCTGGAAACCAAAGCCATGCTGGAGATTATTATCGAGCAGGCGACGGTGCCGGTGGTGGTCGACGCCGGCATCGGCGTCCCAAGCCATGCGGCGCAGGCGCTGGAAATGGGCGCGGACGCGGTGCTGGTCAATACCGCTATTGCCGTCGCCGACGATCCCGTGGCCATGGCCCACGCTTTCCGTATGGCGGTCGAGGCCGGCTTGCTGGCCCGTCAGGCCGGACCGGGGGCGCGCAGCGCGCAGGCGCAGGCCACCAGCCCGCTCACCGGATTCCTGGAGGCGCTGGCATGA	MLRIADKTFESHLFTGTGKFAAPEVMVEAIRASGSQLVTLAMKRVDLRQHNDAILAPLLAAGVSLLPNTSGAKTAEEAVFAAHLAREALGTHWLKLEIHPDARWLLPDPIETLKAAELLVREGFVVLPYCGADPVLCKRLEEAGCAAVMPLGAPIGSNQGLETKAMLEIIIEQATVPVVVDAGIGVPSHAAQALEMGADAVLVNTAIAVADDPVAMAHAFRMAVEAGLLARQAGPGARSAQAQATSPLTGFLEALA	PGPT0008965_2503	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008965-thiG-K03149	NA	NA
BMS020_08490	201	thiS	COG2104	Sulfur carrier protein ThiS	ATGCAGATCTGGTTTAACGACGAGCCGCTGGCGTGCGCCGACCATCTCAGCGTCAGCGCCCTGCTGACCCAGCTCGAACAGCTGCAGCCGGGCGTCGCGCTGGCGCTCAATCAACACATTCTGCCGCGCGACCGGTGGGAAGATCATCTCTTGCAGGAAGGCGATCGAGTCCTGCTTTTTCAGGTTATCGCTGGAGGCTGA	MQIWFNDEPLACADHLSVSALLTQLEQLQPGVALALNQHILPRDRWEDHLLQEGDRVLLFQVIAGG	PGPT0008970_2152	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008970-thiS-K03154	NA	NA
BMS020_08491	756	thiF	COG0476	Sulfur carrier protein ThiS adenylyltransferase	ATGAATGATCACGACTTTATGCGCTATAGCCGTCAGCTGCTGCTGGAGGATATCGCCATCGAGGGGCAGCAGAAGCTGTTAGCCAGCCGGGTGCTGATTATCGGCCTTGGCGGGCTGGGCTCCCCGGCGGCGCTCTATCTGGCCGGGGCTGGCGTCGGGACGCTGACCCTGGCCGATGACGACGCCGTGCATCTCAGCAATCTGCAGCGACAGATCCTGTTCACCAGCGCGGATATCGATCGGCCAAAAGCCGCGGCGGCAAAGACGCGGCTCAGCCAGCTAAATCCGCAGATCAAACTGGTTGCGCTCCAGCAGCGATTAAGCGGCGAGGCGCTGCGCGCCGAGGTGGCGAAAGCGGACGTGGTGCTGGACTGTACCGATAACATGGTCACCCGCCAGGCGATCAATGCCGCCTGCGTGGCCCTCGACATCCCGTTAGTGACCGCCAGCGCCGTCGGCTTCGGCGGTCAGCTGATGGTGCTCACCCCCCCCTGGACGCAGGGTTGCTATCGCTGCCTGTGGCCGGATAGCGACGAACCGCAGCGCAACTGCCGCACCGCGGGGATCGTCGGCCCGGTGGTCGGCATGATGGGCACGCTGCAGGCGCTGGAAGCCATTAAGCTGCTCAGCGGCATGACGACGCCGCGCAACACTCTGCGGCTGTTCGACGCCCGCACCAGCAACTGGCGTAACCTGGCGCTACAGCGTTCCCGGGGCTGCCCGATTTGCGGAGGGCGGCATGCAGATCTGGTTTAA	MNDHDFMRYSRQLLLEDIAIEGQQKLLASRVLIIGLGGLGSPAALYLAGAGVGTLTLADDDAVHLSNLQRQILFTSADIDRPKAAAAKTRLSQLNPQIKLVALQQRLSGEALRAEVAKADVVLDCTDNMVTRQAINAACVALDIPLVTASAVGFGGQLMVLTPPWTQGCYRCLWPDSDEPQRNCRTAGIVGPVVGMMGTLQALEAIKLLSGMTTPRNTLRLFDARTSNWRNLALQRSRGCPICGGRHADLV	PGPT0008935_648	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
BMS020_08492	636	thiE_3	COG0352	Thiamine-phosphate synthase	ATGTATCAGCCTGATTTTCCACCCGTCCCGTTTCGTCTCGGACTCTACCCGGTAGTGGACAGCGTGGCGTGGATTGAGCGCCTGCTCAAAGCCGGGGTACGTACTCTTCAGTTACGCATCAAAGACCGACGCGACAGCGAGGTGGAGGATGACGTCATCGCCGCCATCGCCCTTGGCCGCCGCTATCACGCCCGGCTGTTCATTAACGATTACTGGCGACTGGCGATCAAGCACCAGGCCTACGGCGTGCATCTCGGACAAGAAGATCTGGAAACCACCGATCTGAGCGCCATCCGCCAAGCCGGGCTACGTCTGGGCGTCTCCACCCATGACGATATGGAGATTGATGTCGCCCTGGCGGCGCGCCCCTCTTACATCGCCCTGGGTCACGTCTTCCCGACGCAAACCAAACAGATGCCCTCCGCGCCGCAGGGGCTCGAGCAGCTTGCCAGACATATCCAACGCCTGGCGGATTACCCCACCGTGGCGATCGGCGGAATTAGCCTTGAAAAGGCCCCGGCGGTGCTGGCGACCGGCGTCGGCAGCATCGCAGTGGTCAGCGCCATCACCCAGGCGGCGGACTGGCGGGCAGCGACCGACCAGCTGCTGGCGCTGGCGGGAGCGGGCGATGAATGA	MYQPDFPPVPFRLGLYPVVDSVAWIERLLKAGVRTLQLRIKDRRDSEVEDDVIAAIALGRRYHARLFINDYWRLAIKHQAYGVHLGQEDLETTDLSAIRQAGLRLGVSTHDDMEIDVALAARPSYIALGHVFPTQTKQMPSAPQGLEQLARHIQRLADYPTVAIGGISLEKAPAVLATGVGSIAVVSAITQAADWRAATDQLLALAGAGDE	PGPT0008995_3241	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
BMS020_08493	1896	thiC	COG0422	Phosphomethylpyrimidine synthase	ATGTCTACTACCAAACTGACCCGTCGTGAGCTACGCGAGCACGCGCAGCGATTTATCGATACGCTGGAAGGCGCTGCTTTCCCTAATTCGCGCCGTATCTACATTCAAGGTTCACAAGCGGATATCCGCGTCCCAATGCGTGAAATCCAGCTCAGCCCAACCCTCGTCGGCGGCGATAACGATAACCCACAGTACGAAGCCAACGAACCGATCCCGGTGTATGACACCTCCGGACCTTATGGCGACCCGGATATTGGCATTAATGTCCGCCAGGGGCTTGCCAGGCTGCGCCAGCCGTGGATCGACGCGCGCAATGACTGCGCCCCGCTCAGCGAACGCAGCTCGGCCTATACCAAAGCGCGGCTGGCCGATGACGGCCTTGATGAGCTGCGCTTCAATAGCCAGCTGAAGCCAAAACGCGCCGTTGCCGGCAAATGTGTTACCCAACTGCACTACGCCCGCCAGGGGATCGTCACCCCGGAGATGGAGTTCATCGCCATTCGCGAAAACATGGGCCGCGAACGTATTCGCAGCGAAGTTCTGCGCCAGCAGCATGCCGGCGAAGGCTTCGGCGCCCGCCTGCCGGAAAACATTACCCCTGAGTTCGTCCGTGATGAAGTGGCCGCCGGGCGCGCCATCATCCCGGCCAATATCAACCACCCGGAGTCTGAGCCGATGATTATCGGCCGCAACTTCCTGGTAAAAGTGAATGCTAATATCGGCAACTCGGCGGTGACCTCCTCCATCGAAGAAGAGGTCGAGAAGCTGGTCTGGTCCACCCGCTGGGGCGCCGATACGGTGATGGATCTCTCCACCGGCCGCTATATCCACGAAACCCGCGAGTGGATCCTGCGTAACAGTCCGGTACCGATCGGCACCGTACCGATTTACCAGGCGCTGGAGAAAGTCAACGGCATCGCCGAGAATCTCACCTGGGAAGCCTTCCGCGATACCCTGCTGGAACAGGCCGAACAGGGCGTCGACTACTTCACCATTCACGCCGGCGTACTGCTGCGCTACGTCCCGATGACCGCGAAGCGTCTGACCGGCATCGTTTCGCGCGGCGGCTCAATCATGGCCAAATGGTGCCTGTCGCACCATCAGGAAAACTTTCTCTACCAGCATTTCCGCGAAATCTGCGAAATCTGCGCCGCCTATGACGTGTCGCTGTCGCTGGGCGATGGCCTGCGCCCCGGCTCCATTCAGGATGCCAACGACGAAGCGCAGTTCTCCGAGCTGCGCACCCTCGGCGAGCTGACGAAAATCGCCTGGGAGTATGACGTGCAGGTGATGATCGAGGGCCCCGGCCACGTGCCGATGCAGATGATCCGCCGCAATATGACCGAGGAGCTGGAGCACTGCCACGAAGCGCCGTTCTACACCCTCGGGCCGCTCACCACCGACATTGCGCCGGGCTACGACCATTTCACCTCCGGCATCGGCGCGGCGATGATCGGCTGGTTCGGCTGCGCCATGCTGTGCTATGTCACGCCAAAAGAGCATCTCGGCCTGCCCAACAAAGAGGATGTGAAGCAGGGGTTGATTACCTACAAAATCGCCGCCCACGCCGCCGACCTGGCGAAAGGTCACCCCGGGGCGCAGATCCGCGATAACGCCATGTCGAAGGCGCGCTTTGAATTCCGCTGGGAAGACCAGTTTAACCTCGCGCTGGATCCGTTTACCGCCCGGGCCTATCACGATGAAACCCTGCCGCAGGAATCCGGCAAAGTTGCCCACTTCTGCTCCATGTGCGGTCCGAAATTCTGCTCAATGAAGATCACTCAGGAAGTCCGCGATTACGCCGCCAGACAGGCCATCGACGCCGGCATGGCCGATATGTCGCATCACTTCCGCGCCCGCGGCGGCGAAATCTACCTGAAACAGGAGGAAGTCTGA	MSTTKLTRRELREHAQRFIDTLEGAAFPNSRRIYIQGSQADIRVPMREIQLSPTLVGGDNDNPQYEANEPIPVYDTSGPYGDPDIGINVRQGLARLRQPWIDARNDCAPLSERSSAYTKARLADDGLDELRFNSQLKPKRAVAGKCVTQLHYARQGIVTPEMEFIAIRENMGRERIRSEVLRQQHAGEGFGARLPENITPEFVRDEVAAGRAIIPANINHPESEPMIIGRNFLVKVNANIGNSAVTSSIEEEVEKLVWSTRWGADTVMDLSTGRYIHETREWILRNSPVPIGTVPIYQALEKVNGIAENLTWEAFRDTLLEQAEQGVDYFTIHAGVLLRYVPMTAKRLTGIVSRGGSIMAKWCLSHHQENFLYQHFREICEICAAYDVSLSLGDGLRPGSIQDANDEAQFSELRTLGELTKIAWEYDVQVMIEGPGHVPMQMIRRNMTEELEHCHEAPFYTLGPLTTDIAPGYDHFTSGIGAAMIGWFGCAMLCYVTPKEHLGLPNKEDVKQGLITYKIAAHAADLAKGHPGAQIRDNAMSKARFEFRWEDQFNLALDPFTARAYHDETLPQESGKVAHFCSMCGPKFCSMKITQEVRDYAARQAIDAGMADMSHHFRARGGEIYLKQEEV	PGPT0008905_940	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACIMETHRIN|CF3-HMP_DETOXIFICATION,PGPT0008905-thiC-K03147	NA	NA
BMS020_08495	498	rsd	COG3160	Regulator of sigma D	ATGCTAAACCAGCTGGAAAATCTGACGGAGCGCGTTGGCGGTAGTAATGAACTGGTCGATCGCTGGCTACAAGTGCGTAAGCATCTGCTCGTGGCTTACTACAATCTGGTTGGCCTGAAACCGGGCAAAGAGTCGTTTATGCGGCTAAACGAAAAGGCGCTGGATGACTTTTGCCAAAGTCTGGTGGATTACCTCTCGTCCGGTCATTTTAGTATTTATGAACGCATTATTGGCGAAATGGAAGGCGATACCCCACTTTTAGCCGCCACCCGGCTTTACCCGCAGCTGGAAGCCAATACCCAGCAGATGATGGACTACTACGATACCTGCCTCGAAAACGCCATTGATCATGATAACTACCTTGAGTTTCAGCAGGCGCTGTCGGATATCGGCGAGTCGCTGGAAGCGCGTTTCGCCCTGGAAGACAAACTGATCGCCCTCGCCGTCGCCCATCATCTGAACGATGAGGTGCGCGATAATATTGCCCCGACCGCTTGA	MLNQLENLTERVGGSNELVDRWLQVRKHLLVAYYNLVGLKPGKESFMRLNEKALDDFCQSLVDYLSSGHFSIYERIIGEMEGDTPLLAATRLYPQLEANTQQMMDYYDTCLENAIDHDNYLEFQQALSDIGESLEARFALEDKLIALAVAHHLNDEVRDNIAPTA				NA	NA	NA	NA	NA
BMS020_08496	774	nudC_2	COG2816	NADH pyrophosphatase	ATGGATCGTATTATTGAAAAATTAGATCGCGGCTGGTGGGTTGTCAGTCACGAACAAAAATTATGGTTGCCAGGTGGAGAATTACCACATGGCGAAGCGGTTAATTTCGATCTTGTCGGCCAGCATGCGCTGCATATCGGCGAATGGCAGGGCGATCCGGTGTGGATGGTGCGCCAGGATCGCCGCCATGACATGGGATCGTTACGCCAGGTGCTGGATCAGGATCCGGGACTCTTTCAGCTGGCGGGACGGGGGATCCAGCTCGCCGAATTTTATCGATCGCATAAATTTTGCGGCTACTGCGGTCACCCGATGCATGCCAGTAAAAGCGAATGGGCGATGCTGTGCAGCCACTGTCGTGAACGTTACTACCCGCAAATTGCCCCGTGCATTATCGTCGCTATCCGTCGCGACGATGCGATCCTGCTGGCGCAACATACCCGACATCGCAATGGGGTACACACCGTGCTGGCCGGGTTCGTCGAGGTCGGCGAAACCCTCGAGCAGGCCGTTGCCCGTGAGGTGATGGAGGAGAGCGGTATCCGGGTGAAAAATCTGCGCTACGTGACTTCTCAACCGTGGCCGTTCCCGCAGTCGCTGATGACTGCCTTTATGGCGGATTACGCGGAGGGCGATATCGTGGTGGATAAAAAAGAGTTACTCAGCGCGGACTGGTACCGCTATGACGATCTGCCGCTTCTGCCGCCGCCGGGGACGGTGGCGCGCCGGCTTATCGAAGATACCGTCGCGATGTGTCGGGCAGAGTTCGAGTGA	MDRIIEKLDRGWWVVSHEQKLWLPGGELPHGEAVNFDLVGQHALHIGEWQGDPVWMVRQDRRHDMGSLRQVLDQDPGLFQLAGRGIQLAEFYRSHKFCGYCGHPMHASKSEWAMLCSHCRERYYPQIAPCIIVAIRRDDAILLAQHTRHRNGVHTVLAGFVEVGETLEQAVAREVMEESGIRVKNLRYVTSQPWPFPQSLMTAFMADYAEGDIVVDKKELLSADWYRYDDLPLLPPPGTVARRLIEDTVAMCRAEFE	PGPT0013440_2408	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013440-nudC-K03426	NA	NA
BMS020_08497	1065	hemE_2	COG0407	Uroporphyrinogen decarboxylase	ATGACCGAACTGAAGAACGATCGTTACCTGCGCGCGCTGCTGCGTCAGCCGGTTGATGTCACCCCGGTGTGGATGATGCGCCAGGCGGGCCGCTATTTACCGGAGTACAAAGCCACCCGTGCGCAAGCGGGCGACTTTATGTCGCTGTGTAAAAATGCCGAGCTGGCCTGCGAAGTGACGCTCCAGCCGCTGCGTCGTTACCCGCTGGACGCGGCGATCCTCTTTTCGGACATCCTGACCATCCCGGACGCCATGGGGCTGGGGCTGTACTTTGAGGCAGGCGAAGGCCCGCGCTTCACCTCGCCGGTGAAAAGCAAAGCCGACGTCGACAAGCTGCCAGTCCCGGATCCCGAGCAGGAACTGGGCTACGTGATGAATGCCGTGCGCACCATTCGCCGCGAACTGAAAGGCGAAGTGCCGCTGATCGGTTTTTCCGGTAGCCCATGGACGCTGGCGACCTACATGGTGGAAGGCGGCAGCAGCAAGGCTTTCACCGTCATCAAAAAGATGATGTACGCCGACCCGCAGGCGCTGCACGCGCTGCTGGATAAGCTGGCGAAGAGCGTCACCCTGTATCTCAACGCGCAGATCAAAGCCGGCGCGCAGTCGGTGATGATTTTTGACACCTGGGGCGGGGTGCTGACCGGCCGCGACTACCAGCAGTTCTCCCTCTACTACATGCATAAAATCGTCGATGGCCTGCTGCGGGAAAACGAAGGCCGCCGCGTGCCGGTGACGCTGTTCACCAAAGGCGGCGGTCAGTGGCTGGAAGCGATGGCGGAGACCGGCTGTGACGCGCTGGGTCTCGACTGGACCACCGATATTGCCGATGCCCGTCGTCGCGTGGGCAACAAAGTCGCGCTGCAGGGCAATATGGATCCGTCCATGCTCTATGCGCCCGCCGCGCGTATTGAAGAAGAAGTCGCGACCATCCTCGCCGGCTTTGGTCAGGGGGAAGGCCACGTCTTTAACCTCGGCCACGGCATCCATCAGGACGTTGATCCTGAGCATGCGGGCGTCTTTGTTGAAGCGGTGCATCGTCTTTCCGCACCCTATCACCAGTAG	MTELKNDRYLRALLRQPVDVTPVWMMRQAGRYLPEYKATRAQAGDFMSLCKNAELACEVTLQPLRRYPLDAAILFSDILTIPDAMGLGLYFEAGEGPRFTSPVKSKADVDKLPVPDPEQELGYVMNAVRTIRRELKGEVPLIGFSGSPWTLATYMVEGGSSKAFTVIKKMMYADPQALHALLDKLAKSVTLYLNAQIKAGAQSVMIFDTWGGVLTGRDYQQFSLYYMHKIVDGLLRENEGRRVPVTLFTKGGGQWLEAMAETGCDALGLDWTTDIADARRRVGNKVALQGNMDPSMLYAPAARIEEEVATILAGFGQGEGHVFNLGHGIHQDVDPEHAGVFVEAVHRLSAPYHQ	PGPT0008465_2651	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008465-hemE-K01599	NA	NA
BMS020_08498	672	nfi_2	COG1515	Endonuclease V	ATGGATTTAGCCGCACTCCGTATCCAACAGCAACAGTTAGCCGCGTCGGTAGAGCGGGCGGATCGACTGGATCGCGACCCGCCAGTATTGATCGGCGGTGCGGATGTCGGGTTTGAGCAGGAAGGGGAAGTCACCCGAGCTGCGATGGTGCTGCTGACCTGGCCTGAACTGGAGCTGGTGGAGTATCAGGTGGCGCGCGTCGCCACCTCCATGCCCTATATTCCCGGCTTTCTCTCGTTTCGCGAAACGCCTGCGCTGCTGGCGGCGTGGGAGCAGCTTTCGCAAAAACCGGACCTGTTGTTTGTTGACGGACACGGTATTTCCCATCCCCGGCGGCTGGGCGTCGCCAGCCATTTTGGCCTGATGATCGACGTGCCGACCATCGGGGTGGCGAAAAAACGGCTGTGTGGAAAAATCGGCGAACTGGGTGATGCCCCCGGCGCGCTGGCCCCGCTGATGGATAAAAATGAGCAACTGGCCTGGGTCTGGCGCAGTAAAGTCCGCTGCAACCCGCTGTTTATTAGCTCCGGCCACCGGGTGGGCATGGACAGCGCCTTAATGTGGGTCGAACGCTGCATGCGAGGCTATCGTCTGCCCGAGCCGACGCGTTGGGCTGATGCGGTGGCGTCCCGTCGTCCGTCATTTGTGCGTTGGCAAGCAAATCACAGCTGA	MDLAALRIQQQQLAASVERADRLDRDPPVLIGGADVGFEQEGEVTRAAMVLLTWPELELVEYQVARVATSMPYIPGFLSFRETPALLAAWEQLSQKPDLLFVDGHGISHPRRLGVASHFGLMIDVPTIGVAKKRLCGKIGELGDAPGALAPLMDKNEQLAWVWRSKVRCNPLFISSGHRVGMDSALMWVERCMRGYRLPEPTRWADAVASRRPSFVRWQANHS				NA	NA	NA	NA	NA
BMS020_08499	591		COG3068	putative protein	ATGTTACAAAACCCGATTCACCTGCGCCTGGAGAAGCTGGAAAGCTGGCAGCATGTCACTTTTATGGCCTGCCTGTGCGAGCGTATGTACCCCAACTACGCGATGTTCTGCAAGCAAACCGAGTTTGGCGACGGCCAGCTGTACCGTCGTATCCTGGATCTGATCTGGGAAACGCTGACGGTCAAAGATGCGAAGGTGAATTTCGACAGTCAGCTGGAGAAACTGGAAGAGGCGATCCCGGCGGCAGATGATTTCGACCTGTACGGTGTTTATCCGGCCATAGACGCCTGCGTGGCGTTGAGCGAACTGATCCATTCCCGTCTGAGCGGCGAAACGCTCGAGCACGCGATCGAGGTGAGCAAAACCTCCATCACCACCGTGGCGATGCTGGAAATGACCCAGGAAGGCCGCGAAATGACCGACGAAGAGCTGAAAGCGAACCCGGCGGTAGAGCAGGAATGGGACATTCAGTGGGAAATTTTCCGCCTGCTGGCCGACTGCGAAGAGCGTGACCTTGAGCTGATAAAAGGCCTGCGCGCGGACCTGCGTGAGGCCGGCGAGAGCAATATTGGTATAAATTTTCAGCAGTGA	MLQNPIHLRLEKLESWQHVTFMACLCERMYPNYAMFCKQTEFGDGQLYRRILDLIWETLTVKDAKVNFDSQLEKLEEAIPAADDFDLYGVYPAIDACVALSELIHSRLSGETLEHAIEVSKTSITTVAMLEMTQEGREMTDEELKANPAVEQEWDIQWEIFRLLADCEERDLELIKGLRADLREAGESNIGINFQQ				NA	NA	NA	NA	NA
BMS020_08500	273	hupA		DNA-binding protein HU-alpha	ATGAACAAGACTCAACTGATTGATGTAATTGCGGACAAAGCTGACCTGTCCAAAGCACAGGCTAAAGCTGCCCTGGAATCTACCCTGGCTGCAATTACTGAGTCTCTGAAAGAAGGTGATGCTGTTCAACTGGTTGGTTTCGGTACCTTCAAAGTGAACCACCGCGCTGAGCGTACTGGCCGCAACCCGCAGACCGGTAAAGAGATCAAAATCGCTGCAGCTAACGTGCCGGCATTTGTTTCTGGCAAAGCACTGAAAGACGCAGTTAAGTAA	MNKTQLIDVIADKADLSKAQAKAALESTLAAITESLKEGDAVQLVGFGTFKVNHRAERTGRNPQTGKEIKIAAANVPAFVSGKALKDAVK				NA	NA	NA	NA	NA
BMS020_08501	696			hypothetical protein	GTGAACAGTTTTATCGAAGGGGCTATTAAGCCCCTTTTGTCTGTCTGGCGCCGGCCTCTGGCGCTGGCGGGCATCCTGTTGCTAACTGCCTGCAGCCATAACGCGTCGCTACCACCGTTTACCGCCAGCGGTTATGCGGACAACCAGGGGGCGATGCGTATCTGGCGTAAAGATTCTGGCGATGAAGTCCATCTTCTCGCCGCCTTCAGCCCGTGGCGTCACGGGGACACCTCGACCAGCGAATATCGCTGGCAGGGCGATCAGCTGACGCTTATTGAACTCAATGTCTACGGCAAGCCGCCGGAACATATTCGCGCCCGCTTTGACGCGCAGGGCGATCTGAGCTTTATGCAGCGGGAAGTTGACGGGCAGAAGCAGCAGCTCTCCAGCGACCAGGTCGCGCTGTACCGTTATCGCGCCGAGCAGATCCGCCAGACCAGCGATGCCCTCCGTCAGGGTCGGGTCGTCCTGCGTCAGGGGCGCTGGAACGCCGCCGCGCATACCGTCCTGACCTGCGAAGGGCAGACGGTGACGCCCGACCTCGATAGTCGGGCGCTGGCGCACATTGAACGCCGCCAGAGCCACGCTTCCGCCGCGGTGAGCATTGCCTGGCTTGAGGCGCCGGAAGGCTCTCAACTGCTGCTGGTGGCCAATGAAAACTTCTGCACCTGGCAGCCGACGGAAAAAAGCTTCTAA	MNSFIEGAIKPLLSVWRRPLALAGILLLTACSHNASLPPFTASGYADNQGAMRIWRKDSGDEVHLLAAFSPWRHGDTSTSEYRWQGDQLTLIELNVYGKPPEHIRARFDAQGDLSFMQREVDGQKQQLSSDQVALYRYRAEQIRQTSDALRQGRVVLRQGRWNAAAHTVLTCEGQTVTPDLDSRALAHIERRQSHASAAVSIAWLEAPEGSQLLLVANENFCTWQPTEKSF				NA	NA	NA	NA	NA
BMS020_08502	438	zraP	COG3678	Zinc resistance-associated protein	ATGAAACGGAACCGTAACTTATCTCTCGCCCTCGTCACCCTTGCCGCGCTGACCTTCGGCAGCAACGCGGCCTGGGCCAACCACCACTGGGGCAACAATAACGGGATGGGCAACCAGGGCTACAGCCAGCTGACCCAGGAGCAGCAGGCTACCGCGCAAAAGCTGCATAACGACTACTATGCGCAAACCAGCGCCCTTCGCCAGCAGCTGCAGTCCAAACGCTATGAGTACAATGCGCTGCTCACGGCGCAAAAGCCGGACAGCGGCAAGATTGAAGCCGTCGCTCAGGAGATGGAAGGCTTACGCCAGAAGCTGGATCAGCAGCGGGTGAAATTTGATCTCGCGCTGGCTGAGGCAGGCGTTCCCCGCGGCGCAGGCATGGGATATGGCGGCTGTCGCGGTAGCGGCGGCGGTCATATGGGCATGAATCACTGGTAA	MKRNRNLSLALVTLAALTFGSNAAWANHHWGNNNGMGNQGYSQLTQEQQATAQKLHNDYYAQTSALRQQLQSKRYEYNALLTAQKPDSGKIEAVAQEMEGLRQKLDQQRVKFDLALAEAGVPRGAGMGYGGCRGSGGGHMGMNHW	PGPT0004280_104	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_CADMIUM_RESISTANCE	CADMIUM_RESISTANCE-ZINK_CHAPERONES,PGPT0004280-zraP-K07803	NA	NA
BMS020_08503	1395	zraS		Sensor protein ZraS	ATGAAGATCAAACCTTTTTCCCGGGACGCTGCCGCTGGCGCGCTGAGCTGGCTGCTGACCGGTACGGTGGTGCTGCTGGTGGTGCTGTTCTCCGCGATGATCGTCCGCGATCACGGTCGTGAGACGACCGCCGCCCGACAAACTATTGAGGAGAAGGGGAGCGTACTGATCCGCGCGCTGGAGTCCGGCACGCGCGTCGGCATGGGAATGCGGATGCATCACGCGCAGCTGCAGGCCCTGCTGGAAGAGATGGCCTGGCAGCCGGGCGTCCTGTGGTTCGCGGTGACTGATAACAATGGCACCATCATCGCTCACAGCGATCCGCAGCAGGTGGGCCAAACGCTCTACAGCCCCGCGCAGATGCGTGCGCTGGCGGTTGGCGAACAGGCGCGCTGGCGGCGGCTTAGCGAGCCGCAGCCGGCCATGGAGGTCTATCGCCAGTTTCGCCCGCTCAATCCGGCCCGCGGCCACCATAGGGGCATGATGAATCGCGGCGACAGCGCCCTGGCTCAAGCCACCGTCCCGCAGGTGATTTTTATCGCCTTTGATAGCAGTGAGCTGGATGCCGCGCAGGCCCGCGGGCAGCGGAATATGGTCATCATGCTGGGCGCCGCCGCGCTGGTGACAGCGGCAACGATCCTCGCCCAGTTCTGGTTCCGCCGCTATCGTCGCTCGCGGAAACAACTGCTGGAGGCGATGGCCCGCAAAGAGAAACTGGTGGCGCTTGGCCATCTGGCGGCGGGCGTGGCGCATGAGATCCGCAATCCACTCTCGTCGATTAAAGGGCTGGCGAAATATTTTGCCGAGCGCACGCCGCCGGGCGGCGAGTCGCATCAGTTAGCGCGGGTGATGGCCAAAGAGGCCGACCGCCTGAACCGGGTGGTCAGCGAACTGCTGGAGCTGGTCCGGCCCGCGCATTTAAATTATCAGCCGGTGGATATCAACGCGCTTATCCACCACTCATTACAGCTGGTCAGCCAGGATGCGCAGAGTCGCGGGATCGCGCTGCAATTCACTCCGCGCCCGGAGCTCTCCACGATCAACGCCGATGCCGACCGCCTGAACCAGGTGCTGTTGAACCTGTACCTGAACGCGATGCAGGCGATTGGCCGTGACGGCGTCATTCGCGTATCGGCAAGCGAAGCTGACCGTCAGCGGATGAAAATCGTCGTCGCAGATAGCGGTAAAGGGATGACTGCCGAAGAGCTGCAGGCCATCTTCACCCCCTATTTCACCACCAAAGCGGACGGCACCGGGCTGGGGCTGGCGGTGGTGCAGAATATTATCGAACAACATGGCGGGACGATCCGCGCCGAAAGTCAGCCGGGGGCTGGAGCGATATTTACGCTTTGGCTACCGATTGATGCTCAACGGAGGGAAGATGAGCAGCGATAA	MKIKPFSRDAAAGALSWLLTGTVVLLVVLFSAMIVRDHGRETTAARQTIEEKGSVLIRALESGTRVGMGMRMHHAQLQALLEEMAWQPGVLWFAVTDNNGTIIAHSDPQQVGQTLYSPAQMRALAVGEQARWRRLSEPQPAMEVYRQFRPLNPARGHHRGMMNRGDSALAQATVPQVIFIAFDSSELDAAQARGQRNMVIMLGAAALVTAATILAQFWFRRYRRSRKQLLEAMARKEKLVALGHLAAGVAHEIRNPLSSIKGLAKYFAERTPPGGESHQLARVMAKEADRLNRVVSELLELVRPAHLNYQPVDINALIHHSLQLVSQDAQSRGIALQFTPRPELSTINADADRLNQVLLNLYLNAMQAIGRDGVIRVSASEADRQRMKIVVADSGKGMTAEELQAIFTPYFTTKADGTGLGLAVVQNIIEQHGGTIRAESQPGAGAIFTLWLPIDAQRREDEQR	PGPT0004310_348	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004310-zraS|hydH-K07709	NA	NA
BMS020_08504	1332	zraR_2	COG2204	Transcriptional regulatory protein ZraR	ATGAGCAGCGATAAGGTACAGATTCTGGTTGTCGATGATGACATCAGCCACTGCACGATCCTGCAGGCGCTACTGCACGGCTGGGGCTATCAGGTGGCATTAGCCCACAACGGCCTGCAGGCGCTGGGGCTGATCCATCAGCAGGTCTTCGACCTGGTGCTGTGCGATATTCGCATGGCGGAGATGGACGGTATCGCGACGTTAAAAGAGATTAAAGCCTATAACCCGGCGATCCCGGTGCTGATCATGACGGCGTTCTCCAGCGTCGATACGGCGGTGGAGGCCATCAAGTCCGGGGCGCTGGATTATCTGATTAAACCGCTGGATTTTGACACGTTACAGCAGACGTTAGTCCAGGCGCTGGCACACACCCGGCATAGCGAGGGCGAACACCCCGCCGCAGCGAGTTCGCGTTGGGGCATGATAGGCGACAGCCCGGCGATGCAGGCGCTTCTTAATAATATTACGCTGGTAGCCCCTTCGGATGCGACGGTGCTGATCTATGGAGAGTCGGGAACCGGTAAGGAACTGGTGGCGCGCGCCATCCACGCCTGCAGCGGGCGCGGTGATAAGCCGCTGGTGACGCTCAACTGCGCGGCGCTGAATGAGTCGCTACTGGAGTCGGAACTCTTCGGGCATGAAAAAGGGGCGTTTACCGGCGCGGATCGGCGACGTGAAGGGCGCTTTGTCGAAGCGGATGGCGGCACGCTATTCCTCGATGAAATTGGCGATATCTCGCCATTGATGCAGGTCCGGCTGCTGCGGGCGATTCAGGAGCGGGAGGTGCAGCGGGTCGGCAGCAACCAGACGCTTGCCGTTGATGTGCGGCTGATCGCCGCCACCCACCGCAACCTCGCGGAAGAGGTAAGCGCCGGGCGTTTTCGCCAGGATCTCTATTACCGGCTGAACGTCGTGACTATTGAGATGCCGCCGCTGCGCCGGCGCCGGGAAGATATTCCGCCGCTGGCGCAGCACTTTCTCAAACGCTATGCCGAACGCAATCGTAAGGCGGTAAAGGGGTTCACGCCACAGGCGATGGATCTGCTGATCCACTACTCCTGGCCGGGCAACATTCGCGAGCTGGAAAACGCGGTGGAGCGGGCGGTGGTGCTACTGACCGGGGACTATATCTCCGGGCGGGAATTGCCGCTGGCGATTGCGGGTACGCCGCTGCCGTCAGGCGGGAGCGAGGAGGGGCTGATTCAGCCGCTAGTGGAAGTCGAAAAAGAGGTGATTCTGGCGGCGCTGGAAAAAACGGGCGGCAACAAAACCGAAGCCGCCCGTCAGTTAGGCATTACGCGGAAAACGCTGTTGGCGAAACTTAGCCGTTAG	MSSDKVQILVVDDDISHCTILQALLHGWGYQVALAHNGLQALGLIHQQVFDLVLCDIRMAEMDGIATLKEIKAYNPAIPVLIMTAFSSVDTAVEAIKSGALDYLIKPLDFDTLQQTLVQALAHTRHSEGEHPAAASSRWGMIGDSPAMQALLNNITLVAPSDATVLIYGESGTGKELVARAIHACSGRGDKPLVTLNCAALNESLLESELFGHEKGAFTGADRRREGRFVEADGGTLFLDEIGDISPLMQVRLLRAIQEREVQRVGSNQTLAVDVRLIAATHRNLAEEVSAGRFRQDLYYRLNVVTIEMPPLRRRREDIPPLAQHFLKRYAERNRKAVKGFTPQAMDLLIHYSWPGNIRELENAVERAVVLLTGDYISGRELPLAIAGTPLPSGGSEEGLIQPLVEVEKEVILAALEKTGGNKTEAARQLGITRKTLLAKLSR	PGPT0004315_1115	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004315-zraR|hydG-K07713	NA	NA
BMS020_08505	1296	purD_2	COG0151	Phosphoribosylamine--glycine ligase	ATGAAAGTATTAGTAATCGGCAACGGCGGGCGTGAACACGCCCTGGCCTGGAAAGCGGCCCAATCGCCGCTGGTTGATACCGTCTACGTCGCACCGGGCAACGCAGGTACCGCGCTGGAGCCGTCGCTGCAAAACGTCGCCATCGGCGTCACCGATATTTCGGCGCTGCTGCGCTTCGCTCAGGATGAAAATATCGACCTGACCATCGTTGGCCCGGAAGCACCGTTGGTGATTGGCGTGGTCGACGCGTTCCGTGCCGCCGGGCTCGCCATCTTTGGGCCAACCGAAGGCGCGGCGCAGCTGGAAGGCTCGAAAGCCTTCACCAAAGATTTCCTCGCGCGTCATCATATCCCGACAGCGGAATATCAGAACTTCACCGAAGTTGAGCCAGCGCTGGCTTACCTGCGCGAGAAAGGCGCGCCGATCGTCATCAAAGCCGACGGTCTGGCGGCGGGTAAAGGCGTTATCGTGGCGATGACCCTTGAGGAAGCCGAAGCGGCGGTCAAAGACATGCTGGCCGGTAACGCCTTTGGCGACGCCGGACACCGCATCGTCATTGAAGAGTTCCTCGATGGCGAAGAGGCCAGCTTCATTGTGATGGTCGACGGCGAGCACGTCCTGCCGATGGCCACCAGCCAGGATCACAAACGCGTCGGCAACGGCGATACCGGCCCGAACACCGGTGGGATGGGCGCTTATTCTCCGGCGCCGGTCGTGACTGATGAAGTCCATCAGCGCACCATGGAGCGTATTATCTGGCCAACCGTGAAGGGCATGGCCGCGGAAGGCAACACCTATACCGGTTTCCTGTATGCCGGTCTGATGATCGACAAGCAGGGCAACCCAAAGGTCATTGAGTTCAACTGCCGCTTTGGCGATCCGGAAACCCAGCCGATCATGCTGCGCATGAAATCTGACCTGGTAGAGCTGTGCCTCGCCGCCTGCGCCGGCAAGCTGGATGAGAAAACCTCCGAGTGGGATGACCGCGCATCGCTGGGGGTAGTGGTTGCCGCCGGCGGCTATCCGGGCAACTACAACACGGGCGATGAGATCCATGGCCTGCCGCAGCAGGAAGCGGCAGACGGTAAAGTCTTCCACGCCGGCACGAAACTGTCTGACGACCAGCGCGTGGTCACCAACGGCGGGCGCGTACTGTGCGTCACCGCCCTGGGCGATACCGTAGCGCAGGCGCAGCAGCGCGCCTATCAGCTGCTGACCGATATTCGCTGGGATGGCAGCTTTAGCCGAAACGATATCGGCTGGCGCGCCATTGAGCGCGAAAAGGCTAACGGCTAA	MKVLVIGNGGREHALAWKAAQSPLVDTVYVAPGNAGTALEPSLQNVAIGVTDISALLRFAQDENIDLTIVGPEAPLVIGVVDAFRAAGLAIFGPTEGAAQLEGSKAFTKDFLARHHIPTAEYQNFTEVEPALAYLREKGAPIVIKADGLAAGKGVIVAMTLEEAEAAVKDMLAGNAFGDAGHRIVIEEFLDGEEASFIVMVDGEHVLPMATSQDHKRVGNGDTGPNTGGMGAYSPAPVVTDEVHQRTMERIIWPTVKGMAAEGNTYTGFLYAGLMIDKQGNPKVIEFNCRFGDPETQPIMLRMKSDLVELCLAACAGKLDEKTSEWDDRASLGVVVAAGGYPGNYNTGDEIHGLPQQEAADGKVFHAGTKLSDDQRVVTNGGRVLCVTALGDTVAQAQQRAYQLLTDIRWDGSFSRNDIGWRAIEREKANG	PGPT0021575_911	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021575-purD-K01945	NA	NA
BMS020_08506	1590	purH_2	COG0138	Bifunctional purine biosynthesis protein PurH	ATGCAACAACGTCGTCCAGTCCGCCGCGCTCTGCTCAGTGTTTCTGACAAGGCCGGTATCGTCGAATTCGCGCAGGCGCTTTCCGCTCGTGGTGTCGAGCTGCTGTCCACCGGCGGCACCGCCCGCCTGCTGGCAGATAAAGGCCTGCCGGTAACCGAAGTCTCTGACTACACCGGTTTCCCGGAAATGATGGATGGACGCGTGAAGACCCTGCATCCGAAAGTACACGGCGGCATCCTCGGTCGTCGCGGTCAGGATGATGGCATCATGCAGCAGCACGGTATCGCGCCTATCGATATGGTGGTCGTTAACCTCTATCCGTTTGCCCAAACCGTCGCTCGTGAAGGCTGCTCGCTGGAAGACGCGGTGGAAAACATCGATATCGGCGGCCCAACCATGGTCCGCTCCGCGGCGAAGAACCACAAAGATGTCGCCATCGTGGTGAAGAGCAGCGACTACACCGCCATCATTAATGAAATGGACGCCAACGAAGGCTCCCTGACGCTGGACACCCGCTTCGACCTCGCCATTAAAGCCTTCGAACACACCGCCGCGTACGACAGCATGATCGCCAACTACTTCGGCAGCATGGTTCCGGCCTATCACGGCGAAAGCAAAGAAGCCGCTGGCCGCTTCCCACGCACCCTGAATCTGAACTTCATTAAGAAGCAGGATATGCGCTACGGCGAAAACAGCCACCAGCAGGCTGCCTTCTATATAGAAGAGAATGTCAAAGAAGCTTCCGTGGCAACCGCTACCCAGCTGCAGGGTAAAGCGCTCTCCTATAACAATATTGCCGATACCGATGCGGCGCTGGAGTGCGTGAAAGAGTTCAACGAACCGGCCTGCGTGATCGTTAAGCACGCTAACCCGTGCGGCGTTGCCGTCAGCGACTCGATCCTTGACGCCTACGATCGCGCATACAAAACCGACCCGACCTCCGCGTTCGGCGGCATCATCGCCTTCAACCGCGAGCTGGATGCCGACACCGCGCAGGCGATCATCTCTCGCCAGTTTGTCGAGGTGATCATCGCCCCGTCCGCCAGCGAAGAAGCGCTGAAAATCACTGCCGCGAAGCAGAACGTCCGCGTACTGACCTGCGGTCAGTGGGAAGCGCGCGTTGCCGGTCTCGATTTCAAACGTGTCAACGGCGGCCTGCTGGTTCAGGACCGCGATCTCGGTATGGTCACCGCAGGCGAACTGCGCGTGGTCAGTAAACGTCAGCCGAGCGAGCAAGAGCTGCGCGATGCGCTGTTCTGCTGGAAAGTGGCGAAATTCGTCAAATCCAACGCCATCGTATATGCCAAAGACAATATGACCATCGGCATAGGCGCCGGCCAGATGAGCCGCGTCTACTCGGCGAAAATTGCCGGGATTAAAGCCGGTGACGAAGGTCTGGAAGTGAAAGGCTCCGCCATGGCCTCCGATGCCTTCTTCCCGTTCCGCGACGGGATTGACGCCGCAGCTGCGGTCGGCATCACCTGCGTTATCCAGCCGGGCGGCTCTATCCGCGACGACGAAGTGATTGCCGCCGCTGACGAACACGGCATCGCCATGATCTTCACCGATATGCGCCACTTCCGCCATTAA	MQQRRPVRRALLSVSDKAGIVEFAQALSARGVELLSTGGTARLLADKGLPVTEVSDYTGFPEMMDGRVKTLHPKVHGGILGRRGQDDGIMQQHGIAPIDMVVVNLYPFAQTVAREGCSLEDAVENIDIGGPTMVRSAAKNHKDVAIVVKSSDYTAIINEMDANEGSLTLDTRFDLAIKAFEHTAAYDSMIANYFGSMVPAYHGESKEAAGRFPRTLNLNFIKKQDMRYGENSHQQAAFYIEENVKEASVATATQLQGKALSYNNIADTDAALECVKEFNEPACVIVKHANPCGVAVSDSILDAYDRAYKTDPTSAFGGIIAFNRELDADTAQAIISRQFVEVIIAPSASEEALKITAAKQNVRVLTCGQWEARVAGLDFKRVNGGLLVQDRDLGMVTAGELRVVSKRQPSEQELRDALFCWKVAKFVKSNAIVYAKDNMTIGIGAGQMSRVYSAKIAGIKAGDEGLEVKGSAMASDAFFPFRDGIDAAAAVGITCVIQPGGSIRDDEVIAAADEHGIAMIFTDMRHFRH	PGPT0008110_1871	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008110-purH-K00602	NA	NA
BMS020_08507	267			IS3 family transposase ISXac4	ATGCGCACATCGAAGTTCACCGAGACACAGATAATCGCCACGCTCAAGCAGGCCGACGCAGGCGTTCCAGTCAAAGACATCTGTCGCCAAGTCGGCATCAGCACGGCGACCTATTACCAGTGGAAGAGCAAGTACGGCGACTTGGAGGCGTCCGAGCTCCGGCGGGTCAAGGAGCTCGAGTCCGAGAACGCCAAGCTCAAACGGATGTATGCCGAGTTGGCGCTCGACAACGCAGCGATGAAGGAGCTGATCGCAAAAAAACTCTAG	MRTSKFTETQIIATLKQADAGVPVKDICRQVGISTATYYQWKSKYGDLEASELRRVKELESENAKLKRMYAELALDNAAMKELIAKKL				NA	NA	NA	NA	NA
BMS020_08508	270			hypothetical protein	ATGGGTCTTGGAAAAAAGAAGGGGTCATCGCGGGTCAACCGCTATGAGCACCAAGTCACAGCTATCGGCTTTGACAACCTCGGTTCATTGGCCAAGGTGCTCGATGTGCCGGCGGCTTACTTGCTCGCCGAGAGCCCCGAGATGGCAGATGCCATCCTCGCGCTAGCGGGGGTCGCACAGTCCCAGCAAGCAAATATGGTCGAGATCTTGAAGAAGGCGAGCACCGATCCTGCGCTACTGGAACAGTTGCGCGCGCTGGTGGAGTCGTAA	MGLGKKKGSSRVNRYEHQVTAIGFDNLGSLAKVLDVPAAYLLAESPEMADAILALAGVAQSQQANMVEILKKASTDPALLEQLRALVES				NA	NA	NA	NA	NA
BMS020_08509	729	dnaJ_3		Chaperone protein DnaJ	ATGCCGTACGGCAGCCGCAGAACTCAAAAAGGACTGAAGTTGGACACGGACTACTACGAGGTACTCGGCATTCGCCCCAACGCTGGAGCGGACGAGATTGAGTTGGCTTACCGCGGCCGGCGCAGCCAGTACCACCCGGACCGCTACGCCACTTCTGACCCAGACACCCTGGATTGGGCGACCGCCAAGATGAAGGCGGTCAATGAGGCTTATGCCGCCCTACGGGATCCGCATCTGCGGTCCCGGTTTGATGAGGGGCGTCAGCAGCGCGCGCCGAAATCGGAAGGCGCTCGGAGCGCCGACAGCGCGCGGCCTCGGGAGCCCAAGGCTTCAACTGTCACCCTCAAGGAGGTCCTCCGTGGACTGGTTTCTAGGGGCAAGCCACTCGGGCGCATCTACATCGCTCCCCACATTCCGCCGCGCAAGCTCGCCAGCGCGCTGGAGTCCTATGGCGACGACCTGCGCCCTGAGGACGTTGTTGTCTTGATCGACGACACCTTTTTTGGCGGCGCTCGTGAGGGCGTCCTGATCACCGAGGCACAGATCCGTGCCAAAGCGGTCTTCCAGAGCGCGGACATCCGCTTGCTAGTCCCTCGGTCAGAGATCGTGGCCGACGGCAAGCACGTCCTGATCAACGGCTACGGCTACACCAAATTGAATCTCCCAAGCGAGGGTGACCTGAAAGAGCTCTTCCAGGCGGTCACCCATTACCTGCAACACCACAGTTGA	MPYGSRRTQKGLKLDTDYYEVLGIRPNAGADEIELAYRGRRSQYHPDRYATSDPDTLDWATAKMKAVNEAYAALRDPHLRSRFDEGRQQRAPKSEGARSADSARPREPKASTVTLKEVLRGLVSRGKPLGRIYIAPHIPPRKLASALESYGDDLRPEDVVVLIDDTFFGGAREGVLITEAQIRAKAVFQSADIRLLVPRSEIVADGKHVLINGYGYTKLNLPSEGDLKELFQAVTHYLQHHS				NA	NA	NA	NA	NA
BMS020_08510	219			hypothetical protein	ATGAAGTACCTGGCCGGGCTCTATGGAGCCTCAGTGCTTGTCGCTGCAATCTGCTTTGCCAATTGGGGGCAATACGCCTACAAGGGGTTTGCCTACAACATCGGTCGGGCCTTGGTCTGGCCGGCCATCGTGTTCCCGACCTTCGGCGCGATCGTCTCTGGCGTGATGTGGCTGTTGGTCATTGTGTCCATCCTGCTGCTCGTCAGGCGGCAGGCCTAA	MKYLAGLYGASVLVAAICFANWGQYAYKGFAYNIGRALVWPAIVFPTFGAIVSGVMWLLVIVSILLLVRRQA				NA	NA	NA	NA	NA
BMS020_08511	270			hypothetical protein	ATGAGACGCAAGAGCCTACAGATGGCCGCCATCCTGGCGGCAGTCCTGATGATGAGCGCGTGCAGCAGCAAGCTGGACAAGGTCCGCGATCAGTTCGTGGACAGCTGCGCTAGCGGTGGCGCTCAGAAGGCGATGTGTGAGTGCGCCTTCGACAAGCTGCAGGGGCACTACGGAGAAGAGGGCCTGATCGCCATCGAGTCGGAGGGCTATCCGCCTCCGGACTTCAGCGACCAGCTTGTGAAAGCCGCACAGCAGTGCAGAACACACTAG	MRRKSLQMAAILAAVLMMSACSSKLDKVRDQFVDSCASGGAQKAMCECAFDKLQGHYGEEGLIAIESEGYPPPDFSDQLVKAAQQCRTH				NA	NA	NA	NA	NA
BMS020_08512	630			hypothetical protein	ATGAGGATGATGTATCGGGCCGCGACGGTCCTGCTGGTCGGCGTGGCGCTGGCCGGGTGTGGCAACAAGGACGCGGGCGTGACGCAGGCCGGCGAGGTGAATCTGGCTGGTTGCGAGGTTCCGGTCGGTACGAAGCGCGCTGATGCCGAGGCCATCACGTGCGACAAGGCGGCCCCACCAGCCGGTGCTGTCGAGAGTAGTGCGCCAACGGCAGCAGCTCCGGCGATTCCAGATGCGCAGGTCATTGATGCGGCGCTTGCCGATGCGGCGAAGAAGTCGGATGGCGGAACGGAGTACAGGGAAGCTCGGAAGTCTGCGGAAGGCGATCTGACAGGGGATGGCAAGACAGATGTCGCCGTGCTGTACACGTTGGAGGGCGAGGGCGGAGCGAATGCCGCTAATAGCTATCTGGCGGTGTTCCAGCGCGCGGAAAGCGGGCAGCTGAGTCTGGCCGGCACCACCTCGGTGGCGGGTTTCGGGACCGCCGCACAGGGTCTGAGCGTGGTCGACGGCACTATCCACGTGAAGGTGCTGGTGCCAGGGCCGGATGACCCGGACTGCTGTCCCTCCCAGGAACAGGACGCGCTCTACGTGCTCCATATCGGGAAGTTGATGGAAGTCCAAGGGTAA	MRMMYRAATVLLVGVALAGCGNKDAGVTQAGEVNLAGCEVPVGTKRADAEAITCDKAAPPAGAVESSAPTAAAPAIPDAQVIDAALADAAKKSDGGTEYREARKSAEGDLTGDGKTDVAVLYTLEGEGGANAANSYLAVFQRAESGQLSLAGTTSVAGFGTAAQGLSVVDGTIHVKVLVPGPDDPDCCPSQEQDALYVLHIGKLMEVQG				NA	NA	NA	NA	NA
BMS020_08513	309			hypothetical protein	ATGAACTTCAACGCAGCCTCTCCGGCCCCGGTGCTGGACGACATCAACTGCTTCGCTAATGCGAAGGCGCGCTTCCCGATCCCGGACGGCCTGGTTGGGCGCCCGACTCTGCGACTCAAGGAGATGCTCAAGGTCATCTCGGTCGGCCGCAGCCAGGCCTATCTGCTGATGAAGACCGACCCGGACTTTCCGAAAGGCGTCCCGCTCTACGACAGCGAGAAATCGCCCAAGTTCTACTGGACGCACGAAGCCATCGCTTGGTTGCAGGGCCGTGCCAACAAGATGCGCACCGGCTTGGAGGGCAACTGA	MNFNAASPAPVLDDINCFANAKARFPIPDGLVGRPTLRLKEMLKVISVGRSQAYLLMKTDPDFPKGVPLYDSEKSPKFYWTHEAIAWLQGRANKMRTGLEGN				NA	NA	NA	NA	NA
BMS020_08514	339			hypothetical protein	ATGAGCGCATACATCGAAGCGTTGTCAGGTTCTCGTAGCCCCTTGGAGGCACTCGAGCTGGCTCTGGCTAAGGAGTTGACGGGGGGCAAGAGCAAGATCGAAATCGACTTCCGCGACGCATACCCGGCGTTGGAGCGCAACCTTGTTCAGAAGATGCGTAAGCGTGCGGCGATGAACCACTTTAACGCTGCGTACCAGCATGGCCTAACCTTGGCTCAGTTCCGCAAGCTGCTCAATGCAGAGCGCGAGCGTCGTCACGAAGCTGGCGCTGAGCTGGTTTGCGAGAACTGTGGGCAGCAGGTGGCGGTAACCGCTGCGGCCGAACAGGAGGTCGAGTAA	MSAYIEALSGSRSPLEALELALAKELTGGKSKIEIDFRDAYPALERNLVQKMRKRAAMNHFNAAYQHGLTLAQFRKLLNAERERRHEAGAELVCENCGQQVAVTAAAEQEVE				NA	NA	NA	NA	NA
BMS020_08515	1461			hypothetical protein	ATGGCGATCTCAATGCAGCGCACGCCGCCCCGTTACCCGCTCGACGCTTTTCTCGTGGTTGCGCGTGAAGCTGGTCACGAGCTGGTCCGCAACGTTCAGGCACCGGACGCGATGATCGGCATGGGGCTGATCAATGCGATCACGATGGCATGTCAGGGCCTGATTGACGTGAAGATGCCGACCGGCCAGATCCGTCCGGTTTCCCAGAATATGCTCATCGTGGCCGAGTCGGGCGAGCGCAAGTCCACGGTGTCTTCGCTGCTACTCAAACCGTTCCGCGACGCGGATACCATGGCGATGGCCACTTACAAGGCGAAGACCGAGCAGTTCAGGGCCGAACTCGGCTCGTGGGAAGCCAAGTCGAAGGGCTTGCGCAACGCTATCAGTCGGGCGGTGAGCAACGGCTTGGAATCTGACGAGCTCGACGCCCAGCTGATGGAGCACGCTCAGCGCCGGCCGCGGGAGCCCAAGCTGCGCTACTTCCTGCGGCAGGACATTACCGCCAAGGCCGTGATGGAGGCGCTGGAGGGCGATGGCGAGTCGATTGCGATCACCACCGATGAAGGCCATCTGCTGTTCAAAAGTGAGGCCATGGCCCACATGGGGTTGCTGAACCGCCTGTGGGATTCGCCCGAAGTGTTGCTCCGGGACCGTGCCGACCGCGAAAGCCTCGTGGCCATGAACCCACGAGTGTCCGTGAGCATCATGACCCAGCACGCCCCCCTCAAGGCGTTCCTGGACAGTCGCGGCTCGGTGGCAAAGGGCAGCGGTCATTGGGCGCGCTATCTGGTGGGCTTGCCGCAGTCGACCATGGGGTACCGCCGTGTGAACGGGGATGAGGCGGTCTGGGAGGCGCTGCCGATCTTCCATGAACGCATCCGGGAGCTGCTGGAACGCTACCGGGCGGCGGTGGAATCGGGTGAAATCAAGCGCGAAACGATTGAATTCAGTCGTGACGCGAAGGAGCGGTGGCTGGATCTTTCGGACGAGACCGAAAAGATGTTGCGCGAAGGCGAGTACTTTAACGACATCAATGACTTTGCAGCCAAGGTGATGGAGATCATGGCTCGTCTGGCCGCCTCAATCCACTACTTCGGCGGAGAGCCCGGACAGATGACCTTGGATACCATCAATCGAGCCTTCGAAATCGTTCGCTGGCATGTGGACGAGTACAAGTACATGTTCTCGCCGGCATCGGCCGCACCACAAGACCTGGTCGATGCCCGAGCCCTCGCCGAGTACCTGCATTCCCGGATCTGGGGTGGTCCGTCCTCGGACACCTATGTGCCCAAGAATCGGATCCTCCGCAATGGTCCGGTACGCGACCGCGGACGGCTCAATGACGCACTTAGCTTGCTCGAGGTGCGCGGGGCGGTGAACGTGGTGACTGGCCGCCGGGACCGGAAGACCTATCTGCAGCTCATGAACCACTTCTTCGACCAACCCAGCATGATGCTGTAG	MAISMQRTPPRYPLDAFLVVAREAGHELVRNVQAPDAMIGMGLINAITMACQGLIDVKMPTGQIRPVSQNMLIVAESGERKSTVSSLLLKPFRDADTMAMATYKAKTEQFRAELGSWEAKSKGLRNAISRAVSNGLESDELDAQLMEHAQRRPREPKLRYFLRQDITAKAVMEALEGDGESIAITTDEGHLLFKSEAMAHMGLLNRLWDSPEVLLRDRADRESLVAMNPRVSVSIMTQHAPLKAFLDSRGSVAKGSGHWARYLVGLPQSTMGYRRVNGDEAVWEALPIFHERIRELLERYRAAVESGEIKRETIEFSRDAKERWLDLSDETEKMLREGEYFNDINDFAAKVMEIMARLAASIHYFGGEPGQMTLDTINRAFEIVRWHVDEYKYMFSPASAAPQDLVDARALAEYLHSRIWGGPSSDTYVPKNRILRNGPVRDRGRLNDALSLLEVRGAVNVVTGRRDRKTYLQLMNHFFDQPSMML				NA	NA	NA	NA	NA
BMS020_08516	720	mobA_4		Mobilization protein A	ATGGCAAGCTTCCATTACAGCATCAAGAGCGGCAAGAAGGGTTCGGCACGCAGGCACTGCGCGTACATTGATCGTGAAGGCGCACACAGCAAGCGCGAAGATCTGATCCACTCCAGTCACGGCAATCTCCCCACCTGGGCAGAGAATGATCCCAAGGCGTTCTGGAGCATGGCCGATAGACATGAGCGATCCAACGCCGCTGCGTATCGCGAACACGAGATCGCGCTGCCGAACGAGTTGTCCAAGGACCAGCTGATCGAGCTCGCTGAACGGCTAGTACGCGATGTGGCCGGCATGAAACCATATCAGTACGCAATCCACGCCCCCGCCGGTTCAATTGGTGGCATCGAGAACCCGCATGTTCACCTGATGTGTTCTGATCGCGTCCCAGATGGAATCGAACGAACTCCGGATCAAACCTTCGCGCGCTATAACCCGAAGAACCCGTCAAGGGGCGGATGCCGGAAGGACAGCGGTGGCAAGAGTCCGATGGAACTGCGGCAGCAGGTCAGCGCGCGGCGTAAGCTGGTAGCCGATACTCAGAATCAGATGTTGGCCGAGTGTGGACATAGCACCCGGGTTGACCACCGCAGCCTCAGAGACCGCGGTATTGAACGACCCGCCGAACGGCATCTGGGCCCACACCTGATCGAGGACATGGCCGAATCCGAGAAACAACAGTTCACCGACCACCGTGCCGGCCACATCACAAAAGCCTAG	MASFHYSIKSGKKGSARRHCAYIDREGAHSKREDLIHSSHGNLPTWAENDPKAFWSMADRHERSNAAAYREHEIALPNELSKDQLIELAERLVRDVAGMKPYQYAIHAPAGSIGGIENPHVHLMCSDRVPDGIERTPDQTFARYNPKNPSRGGCRKDSGGKSPMELRQQVSARRKLVADTQNQMLAECGHSTRVDHRSLRDRGIERPAERHLGPHLIEDMAESEKQQFTDHRAGHITKA				NA	NA	NA	NA	NA
BMS020_08517	1188			hypothetical protein	ATGTCGGCCCTTAAGACCATACGGCTCCTGTTCCTAACCGACCTGTACAGCGACAGGAACGTCTTCCGCCTGCTTATGCCCCCTGAAGCGGGCGATGAAGCCACAATGGAGTTCAGCACCGTCACTACGATTCCGCGCGACAAGGAAGCGTCCAAGCTCATCAAGGACCTGATCGATACTCTGACCTTGGAGATCGATCCCGCACGGATTCAGATATTCTCAAGACTACTAGGAGATCGGGAAGCTAACTCCGTAGCGGAGATGCTTCTTCTGCACGTCGAACGGACGAATGATGAAGTTTCAGGAACCCTTCGCGAAGGTCTTTGCGGCGACGAGACGTTGCTTGCATTGGCGTTTAGTCACATCGCCAAGCTAATGGATCGGTTCCGCGTTGAACAGAAGGAGGAACTCAATACCCCAGCGAATGAGGCCATGTACACCTATCTTCAAACGCTACCGCTTCTGCACTTCATCCAGCACTACCCTAAGCATCTCGAGGATACACGCATCCAGTTGGACATCGGCGACATTCGGAACGACGCAGAGCGCTTCTGCTGTCTGGCCGCCGGCGACGCCCCATCACACCACGGCCCATCTAGCCGCGTGTTCTCTGTCAACACGTTCCACCACCTGCTATCAGAATGGCCTGATCAGATGTGTCATCTGGTTAGTAAGGCGACGGGCATTGATACGACTATCAAGCAGCTAAGGGGCCATGAGGATCGCGCGAGAAGGCTGCTCATTTCATACGCATACCGCTCATGTGACTGCATTGATCCAAGCGCACCCGTACTGACTGTATATGACATAGTCGCGGCGCTTGCTTCGTTCCGCTATCAGCAAGCAAAGGGCCACAAGTACAAGCCCTACTGGCATGGCCAAACTGAGCAAGGCAAAAGCCCACAGCGCTTGTTCGATAAGGGGATGCGTCCCAAAGATCCCCATCAGCATCAGGGCGTGGCGCAGATCTATCTCAATAGCTTCTACGAGTATCAGGCGGCTTTCAACGGAACTTCCGGGAGTTATTGCGCATGGATGCAGTACCAGACAGCCATGCTCCGAGCGTACCAGTCTGCACTTGAGCTCAATGACATCATGGCAATCTCCATGGCATTGACGGCGCTTAACTTCTACTGCGTCGGCGCCGCCAAGGACTATGTGATAGATCACCTCACCACGAATCGATAA	MSALKTIRLLFLTDLYSDRNVFRLLMPPEAGDEATMEFSTVTTIPRDKEASKLIKDLIDTLTLEIDPARIQIFSRLLGDREANSVAEMLLLHVERTNDEVSGTLREGLCGDETLLALAFSHIAKLMDRFRVEQKEELNTPANEAMYTYLQTLPLLHFIQHYPKHLEDTRIQLDIGDIRNDAERFCCLAAGDAPSHHGPSSRVFSVNTFHHLLSEWPDQMCHLVSKATGIDTTIKQLRGHEDRARRLLISYAYRSCDCIDPSAPVLTVYDIVAALASFRYQQAKGHKYKPYWHGQTEQGKSPQRLFDKGMRPKDPHQHQGVAQIYLNSFYEYQAAFNGTSGSYCAWMQYQTAMLRAYQSALELNDIMAISMALTALNFYCVGAAKDYVIDHLTTNR				NA	NA	NA	NA	NA
BMS020_08518	1158	astD_3		N-succinylglutamate 5-semialdehyde dehydrogenase	ATGTATGACAAGACCGAACTGGAGCGTGTATTGCTGCTACAGCGCAGCAGCTTCCTGCAGCAGGGCGATGCCAATCTGCAGCAGCGGGTATCGCGGACCAGCCGGATGGCGCTGGCATTGCTTGAAAACATCGATGTGCTCAGCGACACGCTCTGCGCCGACTACGGCTGGCGCCACGCCAGCGTTTCCAAGGCCTTCGAGGGGATGAGCTGGGTCAAGGACATCGAGCACACGCTGGCAGAGCTTGCGCAATGGATGGCGCCGCGGCCGGTCCCCGGTGGCTTTGTGCAGGCCAAGCCCAAGGGCGTGGTCGGCATCATGGGCGCTTGGAATTTTCCGCTGACGCTGACCTTCCAGCCGGCGATGGCAGCGCTGGCAGCAGGCAACCGGGTGATGCTCAACTTCCCCGAACAGCACCCGCGCACCGGCGCCCTGCTCCGCGAGATATTCAATGCGCGCTTCGACGAGAGCGAGGTGACCTTGTTCAACGGCGACCTGGCCACCGCCACCCAGTTCGCCACACTGAAGCTGGACCATCTGTTCTTCACTGGCTCGCCGGAGGTAGGCAGCCTGGTATCGGAAGCTGCGGCGAAGAACCTGGTGCCGGTAACCCTTGAACTGGGCGGCAAGAACCCGGTGGTGGTCGCCCGCGACGCCGATCTGGCACTGGCGGCGACGCGCATCGCCTCCACCCGGCTGGTCAATGGGGGACAGGTATGCCTGTGTCCGGATTACGTATTCATTCCGGAAGAAAAGTTCGAAGAGTTCGTTGGCCACCTGCAAGCCCAGATGCGCAGCGTCAGCGGCGACTACCTGCACAACCCCGCCATGGTGCCGCTGGTCAACGAGCGCAACTACGCCCGTGTGCTCGCGCTGATAGGTGACGCGACCGCGCTGGGTGCACAGAAGCTGGAAACGCTGCCCGAGAGCCAGCTGCAGCACCTGCCCGACCCCACCCCCCTTCAAATAACAAATTTAACACATTGTTATAGAATATTTTTTAATCAGAAAATCGAGAGTCTGACTCACTTTTTGACTCACTTTCGGATCGGCTTGAATAGGACACCGGTGGATGGCCTCGGACAGGTTGCGCGTGGTCAGGCTTTCGAGGCCAGCCGGGACTTCCGATGTATCGATTCATCTCCACGGCCTGACTGA	MYDKTELERVLLLQRSSFLQQGDANLQQRVSRTSRMALALLENIDVLSDTLCADYGWRHASVSKAFEGMSWVKDIEHTLAELAQWMAPRPVPGGFVQAKPKGVVGIMGAWNFPLTLTFQPAMAALAAGNRVMLNFPEQHPRTGALLREIFNARFDESEVTLFNGDLATATQFATLKLDHLFFTGSPEVGSLVSEAAAKNLVPVTLELGGKNPVVVARDADLALAATRIASTRLVNGGQVCLCPDYVFIPEEKFEEFVGHLQAQMRSVSGDYLHNPAMVPLVNERNYARVLALIGDATALGAQKLETLPESQLQHLPDPTPLQITNLTHCYRIFFNQKIESLTHFLTHFRIGLNRTPVDGLGQVARGQAFEASRDFRCIDSSPRPD	PGPT0019970_99	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_LIGNIN_DEGRADATION|LIGNINASES	PLANT_LIGNIN_DEGRADATION-DEHYDROGENASE_ACTIVITY,PGPT0019970-calB-K00154	NA	NA
BMS020_08519	564			hypothetical protein	ATGCGTTCGCCATTACGCAAGCAGGATTTCCCCGTGGAAAAAGTGCGTCAGTACCTTGAGCCCGGCCCCATCGTGCTGGTGACGTCGCAATGGCAGCAGCAGCGGAACATCATGACGCTGGGCTGGCGCACCGTGCTGGAGTTCTCACCGTCGCTGGTCGGTCTGATGATCTCCAGCGCCACCCACAGTTTCGATCTGATCCGCCGTAGTGGGGAGTGTGTGATCAACCTGCCGACGGTCCCATTGGCGGATACAGTGGTGCGCATCGGCAACTGCAGTGGGGTGTCGGTGGACAAGTACGCGCTGTTCGATCTTGCGCCGGTGCGGGCATCCCGGGTGCGTGCGCCGCTGCTGGGGCGGTGTCATGCCAACTTCGAATGCCGTCTGTACGACGATGCGCTGGTGGAACGCTACAACTTCTTCGTCTTCGAGGTGGTGAAGGCGCATGTGGCAGTGTCGCCCAAGCATCCGCGTACGCTGCATTACACCGGCGATGGAGCGTTCATGACGGCAGGCAGGATGATCAGCCGCCGTTCGTTGTTCCAGCCGGGCATGCTGGGGTGA	MRSPLRKQDFPVEKVRQYLEPGPIVLVTSQWQQQRNIMTLGWRTVLEFSPSLVGLMISSATHSFDLIRRSGECVINLPTVPLADTVVRIGNCSGVSVDKYALFDLAPVRASRVRAPLLGRCHANFECRLYDDALVERYNFFVFEVVKAHVAVSPKHPRTLHYTGDGAFMTAGRMISRRSLFQPGMLG				NA	NA	NA	NA	NA
BMS020_08520	330			hypothetical protein	ATGACCGCTGTCAGTTCCCTCCACGCCCAAGGTGACAAGCTGCCGCCCTCCCGATTGTGGCGCGTGTTCTGGCTGCAGGGGGTGATCCCCAGCAACCTGCTGTGGGCCGCCGCCCTCTGGGCCTTGGCGCAGGGGCGCACCCCGTTGCTGTTGGCGTTGTTCGCGGCGCTGCTGTTGTATACGGGCTGGATCATCCCGGCGGTATGGCGGGCGGCGCCGAGCGCGCAAAATCCCAATTACGGTGTTGCCGCGCGCGGCCTGACCGTGGCCTGGGGCTTGAATTCGGTACTGGTGGTGTTCTTCCTGATGCTGCAGCTGCTGGCTCAGTAG	MTAVSSLHAQGDKLPPSRLWRVFWLQGVIPSNLLWAAALWALAQGRTPLLLALFAALLLYTGWIIPAVWRAAPSAQNPNYGVAARGLTVAWGLNSVLVVFFLMLQLLAQ				NA	NA	NA	NA	NA
BMS020_08521	405			hypothetical protein	ATGATGCTGAACGATTTCAATGGCCTGCTGCAGGCAGCAGGACAGCAAGCCGAGCCCCAACGCCTGTTGTTTGTGTTCGTCAAAGCCGACCTGCCCGAATCACCCACCGCCGATCAGCATGCCCGCCACAGCAACGGTGAAGGTGGCACGTTGAGCCCGGTGCTGTGTGTGGACAAGGCCCCGCAGGAAATCGCGTCCTTCCAGGCCCTGGCCGCCGAATCCGCCCAGACCGGGCTGGCCTGGGACCTGGTGTTTGTTGCCTCGCTGGACGGGCGTGGTGGCATTGCCCCGTCCAGCGATGAAGCAGCGCAACCACTGCGCCTGATGGTCAATGCGGTCAACGACGGCCAGATCAGCCGTTTTGCCGCCTTCGATCGCGATGGCACACCGGTGCAGTTCTACTGA	MMLNDFNGLLQAAGQQAEPQRLLFVFVKADLPESPTADQHARHSNGEGGTLSPVLCVDKAPQEIASFQALAAESAQTGLAWDLVFVASLDGRGGIAPSSDEAAQPLRLMVNAVNDGQISRFAAFDRDGTPVQFY				NA	NA	NA	NA	NA
BMS020_08522	981	moaA_3	COG2896	GTP 3',8-cyclase	ATGAGCCAACTCACCGATGGCTTCGGGCGCAGCTTTCCATACCTGCGCCTGTCGCTGACCGAAGCCTGCAACTTCCGTTGCAGCTATTGCCTGCCCGACGGCTACCAGGCGGACGGCCGACCGCGCTTTCTTGCGGTGGATGAAATCGCAAGGCTGGTACGCGCGTTTGCCATGCTGGGCATGCACAAGATCCGCCTGACCGGCGGCGAACCGAGCCTGCGCAAGGACCTGGACCAGATCATCGCCACCGTGGCGCAGGTGCCGGGCGTGCGCAAGGTTGCCATCACCACCAACGGCTGCCTGCTGCCCAGGCGCCTGCCAGGCTGGCATCGTGCGGGGCTGACTGCGCTCAACGTGAGCATGGACAGCCTGCGTCGCGAGCGTTTCCACGCCATCACCGGGCATGACCGCCTGCCCGAGGTGATGGAAGGCATCGCCCTGGCCCAGGCGTTGGGCCTGCAATCGGTCAAGCTCAATGCCGTGCTGCTGCGCGGCCTCAATGACGACGAACTGCCGCAATGGATGGCCTTCCTGCGCGACCGGCCAGTGAGCGTGCGTTTCATCGAGCTGATGCGCACCGGTGACAACCGCGATTACTTTGAACGTCACCATCTGTGCGCCGACGTGGTCATCGGGCAGTTGCTGGCTGCTGGCTGGAGCGAGCGCAGACGCGCTGCCGATGCGGGCCCTGCGCGTGAGTTCAGTCATCCCGACCATCGCGGCAGCATCGGCATCATCGCTCCTTACTCAAAGGATTTCTGCAAAGGCTGCAACCGCCTGCGGGTTACCGCGCGCGGCGATCTGCGGTTGTGCCTGTTCGGTGACTTCGGCATCGCACTGCGGCCGCTGCTGCAGTCAGATGAGGACCAGGACGCGCTGCTGGCGCGCATCACCACCCAGCTTGGGCTGAAGGCAGCCGGGCATGGACTGCATTTCGGCCAGACCGGGTTGACCCCGCATCTGGCCTCGATTGGAGGATGA	MSQLTDGFGRSFPYLRLSLTEACNFRCSYCLPDGYQADGRPRFLAVDEIARLVRAFAMLGMHKIRLTGGEPSLRKDLDQIIATVAQVPGVRKVAITTNGCLLPRRLPGWHRAGLTALNVSMDSLRRERFHAITGHDRLPEVMEGIALAQALGLQSVKLNAVLLRGLNDDELPQWMAFLRDRPVSVRFIELMRTGDNRDYFERHHLCADVVIGQLLAAGWSERRRAADAGPAREFSHPDHRGSIGIIAPYSKDFCKGCNRLRVTARGDLRLCLFGDFGIALRPLLQSDEDQDALLARITTQLGLKAAGHGLHFGQTGLTPHLASIGG	PGPT0008410_3536	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639	NA	NA
BMS020_08523	999	moaC_3		Cyclic pyranopterin monophosphate synthase	ATGAGTGGGCAGATGAGTGCGGCATTCCATATGGCCGATGTACGTGACAAGCGCATTACCCGTCGCCGCGCGGTGGCGGTGGGTGAGCTTGCCGCCGGGCCTGTTGCCTACCCCCTGATCGTCGAGCGACGCCTGCCCAAGGGGGACGCACTGGTGATGGCCGAGATTGCCGGCCTGCAGGGGGCCAAGATGGCCTCGGCGTTGATGCCGCTGTGCCACCCGCTGCCACTGGAACTGGTGCGGGTGTACTGCGCGCCGGTGCCGGAGCGGCTTGCCATCCGGGTGTGGTGCGAATGCGCCAGTGAAGCGCGTACTGGTGTGGAGATGGAAGCGCTGGCAGGGGTCAACGCGGCCCTGCTGACCTTGTATGACCTCAGCAAGCCGGTCGAGCCCGCGTTGGAGATCGGCGGTGTCCGGCTGCTGTTCAAGGAAGGCGGCAAGAGCGGCGTGTGGTTGCACCCACAGGGCATGGATGCGGAGGAGCGTGAGCGCTTTCGCCCGCGTCCGCCAAGACAGCTGCAAGGTGCGAGCTGTGTGGTGATCACGCTCAGCGATCGTGCCAGCCGGGGCGACTATGTGGACGAATCCGGGCCAGTGCTGGCCGAGGGCCTGCGTGCACTGGGCGGCGAGGTGGTCAGCACGGAAGTACTGGCCGATGGCATCGAGCCGCTGGCCGGGCGTCTGCACGCGTTGGCCGCCAGCGGCATCCGCATCTGCCTGTGCACTGGCGGCACGGGCCTGGGACCGCGCGATCTCACTCCCGAGGCGCTGCAGTCGCTGGGTGGGCGCAGCGTACCCGGGCTGGCGCAGATGCTGCGTGGCCTTAGCGCGCAGCACACGCCGTTGGCATGGTTGAGCCGTGCCGAGGTGGTGCAACTGGGGGGCATGCTGGTCATCGCCCTGCCGGGCAGCCCGCGTGCCGCGGCACAGTGCATGAGCATTCTCACGCCGGTGCTGGGCCATGCATTGGCGATGATCGACGGGGCCAGCCACGCATGA	MSGQMSAAFHMADVRDKRITRRRAVAVGELAAGPVAYPLIVERRLPKGDALVMAEIAGLQGAKMASALMPLCHPLPLELVRVYCAPVPERLAIRVWCECASEARTGVEMEALAGVNAALLTLYDLSKPVEPALEIGGVRLLFKEGGKSGVWLHPQGMDAEERERFRPRPPRQLQGASCVVITLSDRASRGDYVDESGPVLAEGLRALGGEVVSTEVLADGIEPLAGRLHALAASGIRICLCTGGTGLGPRDLTPEALQSLGGRSVPGLAQMLRGLSAQHTPLAWLSRAEVVQLGGMLVIALPGSPRAAAQCMSILTPVLGHALAMIDGASHA	PGPT0008405_49	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008405-moaC_-K03637	NA	NA
BMS020_08524	1260	moeA_3	COG0303	Molybdopterin molybdenumtransferase	ATGATCACTTACGCGCAGGCCCTGCAGATCCTGCTGGCCGAGGCGCCGGCGCCAAAGATCGAGCAGGTGGCGGTTGCCGAGGCAGCAGGCCGGGTGCTGGCTGCGCCAGTAGTCAGCGCCCAGCACCTGCCACCGTTCGACAATGCTGCGATGGACGGCTTTGCCCTGTGCGCGGATGGCCAGCCCCTGCCTGCCGGTGCCGTGCTGCAGGTTGCCGGCTGGCAGGCCGCAGGCGATGCCGCAGCACAGGGGGAGGCAGCACAGGCCTGGGAGATCATGACGGGTGCGCGCATGCCGGCCGGCCTGGACAGCGTAGTGCCGGTTGAGCAGGTGGAGGTGCTGGATGCCGTGGAGGGGCGCCCTGCGCGCGTGCGTCTGCAGGCGATGGTCACGCCCGGGCAACACGTGCGGCTGCGCGGCCAGGACGTGGAGTTGGGCGAAACCGTGCTTGCCACTGGCACGTCGCTGGATGTGAACGCCATGACCTTGCTGCATGCCCTCGGGACAGCCCAGGTGCAGGTGCAGCAGCGGCCGCAGGTGGCGGTCATCAGCACCGGCAAGGAGCTGATCAGTGATGCGGCCCAGCCGCTGCAGTCCGGGCAGATACGCGACAGCAACCGCCCCTTCCTGGTCAGCCGCCTGCACGCCGCGGGCGCTGATGTGGTGTGGAACGGTGTCGTTGGCGATGACGTGGCTGCTTTTGATGCTGCGCTGGATGCGGCCTTGGCCGCCGGCGCGCGCGTGGTGCTGAGTACGGGGGCGGTGTCGCAGGGCCGCTATGACTTCATCCCTGATGCCCTGCGTGCCCGTGGTGCCACCGTGCTGTTCCACAAGGTCGCCATCCGCCCGGGCAAGCCGCTGTTGTTCGCCCGCCTGGCCGATGGTTGCCTGTACTTCGGCCTGCCAGGCAATCCGATATCCGCGGCAGTGGGGTTGCGCTTCTTCGTGGAGCCGGTGTTGCGCCGCATGCTGGGTTTGGAAGAAGAGGCGCAGTTGCAGTTGCCGCTGCAGGGTGATGTGCGCAAGCCACCGGGGCTGCGCATGCACGCACGGGCACGGGTGGAACTGGATGCAGGTGGCCGACTGAGCGTGCGGGTGTTGTCCGGGCAGGAATCGTTCCGGCTCAAGACCATGCTGCAGGCCAACGCCTGGGCGATTCTGGAAGGTGACGATGCGTTGGCCCCGGCCGGCACATTGGCACGCGTGCAGGGTTGGGGGCATCGCGAGCCGCTGCAACTGGCCCGGCAGGAGGAAGCATGA	MITYAQALQILLAEAPAPKIEQVAVAEAAGRVLAAPVVSAQHLPPFDNAAMDGFALCADGQPLPAGAVLQVAGWQAAGDAAAQGEAAQAWEIMTGARMPAGLDSVVPVEQVEVLDAVEGRPARVRLQAMVTPGQHVRLRGQDVELGETVLATGTSLDVNAMTLLHALGTAQVQVQQRPQVAVISTGKELISDAAQPLQSGQIRDSNRPFLVSRLHAAGADVVWNGVVGDDVAAFDAALDAALAAGARVVLSTGAVSQGRYDFIPDALRARGATVLFHKVAIRPGKPLLFARLADGCLYFGLPGNPISAAVGLRFFVEPVLRRMLGLEEEAQLQLPLQGDVRKPPGLRMHARARVELDAGGRLSVRVLSGQESFRLKTMLQANAWAILEGDDALAPAGTLARVQGWGHREPLQLARQEEA	PGPT0008430_2521	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
BMS020_08525	261			hypothetical protein	ATGAGAGAGGTCGTTGTGCAGTTGTTTGGTGTGTTTTCCGAGCTGGATCATCGCCGCGAGCTGAGCGTGCGGGTGAACGGTGATCACATCGTGGACCTGCGGCGGGCATTGCGCGAGTTGCTGCTGGAACGGTTCCCACGGTTCCGTGCCGGGCTGGTGGACTATTCGGTGTTTGCCGATGAAAAGCGCGTACTGCGCGATAGCGAGCCGCTGCCTGCGGACGGTCGTGTGGCCATCCTGCCACCGGTGAGCGGAGGTTGA	MREVVVQLFGVFSELDHRRELSVRVNGDHIVDLRRALRELLLERFPRFRAGLVDYSVFADEKRVLRDSEPLPADGRVAILPPVSGG				NA	NA	NA	NA	NA
BMS020_08526	498			hypothetical protein	ATGAGCGCGGAAAATCTATGGAAAGTGGTCGAGCGCAGCGCCGCCGCGATTGATCCGGGCGAGGGCATCGCTTTTGTGTCCGACCCCGGTTTTGGTGGCATCGATGTGTTCATCGGCAAGGTGCGCGACCTGAACCAGGGGCGCGCGGTGCAGGGCATCACCTATGACATGTTCGAGCCGCTGGTACTCAACGAGTTCCAGCGCCTGGTGGCCGAGGTTGAGGCCGAGTTCGGTCCGCGCATCAAGCTGTACGTAGCCCACGCCAAGGGCCGCCTGGCGGTGGGCGAGGTGGCGGTGGTTGTTGCCGCCGGCAGTCCCCACCGTGACGAGGCTTTCCGTGCCTGCCGGCAGCTGATCGAGGCGGTCAAACACCGCTCGCCGATCTGGAAGCAGGAGCATTACCAGGATGGCGACAGCGAGTGGAGCGAAGGCTGCAGCCTGTGCCAACCCAGCGCCGAGCACGCCGACGACGGACATGTCCACGATCATGCCCACTGA	MSAENLWKVVERSAAAIDPGEGIAFVSDPGFGGIDVFIGKVRDLNQGRAVQGITYDMFEPLVLNEFQRLVAEVEAEFGPRIKLYVAHAKGRLAVGEVAVVVAAGSPHRDEAFRACRQLIEAVKHRSPIWKQEHYQDGDSEWSEGCSLCQPSAEHADDGHVHDHAH	PGPT0008415_150	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008415-moaX-K21142	NA	NA
BMS020_08527	618	mobA_5		Molybdenum cofactor guanylyltransferase	ATGTCCACGATCATGCCCACTGACGTGCCGGCCATGGCTGGCATCGTGCTGGCCGGTGGCCTGTCCAGCCGCATGGGCCAGGACAAGGCCTTGCTGCGTTGGCAGGGCAGGTCCCTGCTGGCGCACATGTGCGCGCTGCTGCAGGCCGCGGGTGCGCAGACGCTACGGGTCAGCGGCAGCTACCCGGCGCTGCCCGGGGTCGAGTCGGTCCCCGACCTGGTGCCGCGCTGCGGTCCGTTGGGGGGGCTCTACAGTGTGGTGAAGACGCTGCCGGATGGCCCTGCCTGGGTGGTGGCGGTGGACATGCCGCTGCTCGACCGGCAACTTCTTTGGCGGTTGCGTGACGCAGGTGACGCTCGCTGCGTGCATTTCAGCGGGCAACCGCTGCCAATGCGGTTGAACATTGACCGCAGCTGTCGCACCCTGTTGCGGTCGATGGTGATGGACGTGAACGGGCCGCGCTCGTTGTACCGCCTGCAGCGACAGCTGGGCAGCATCGAGCTGCCCCTGCCCGACGATGGCGATGCCCGTCTGCTGAACTGCAATACCCCCATCCAATGGGAGGCTCTGCCTCATGAAAGTGCAGATCCAGTCGCAGTCCGTACGACTGCGCATTGA	MSTIMPTDVPAMAGIVLAGGLSSRMGQDKALLRWQGRSLLAHMCALLQAAGAQTLRVSGSYPALPGVESVPDLVPRCGPLGGLYSVVKTLPDGPAWVVAVDMPLLDRQLLWRLRDAGDARCVHFSGQPLPMRLNIDRSCRTLLRSMVMDVNGPRSLYRLQRQLGSIELPLPDDGDARLLNCNTPIQWEALPHESADPVAVRTTAH				NA	NA	NA	NA	NA
BMS020_08528	372			hypothetical protein	ATGAAAGTGCAGATCCAGTCGCAGTCCGTACGACTGCGCATTGACGAAAACGAGCTGGCCGAATTGTTGGCCGGGCAGTGGGTGGCAAGCCGGACCAACCTGGGGGCATTGGGCGGCTTTGCCTGTGCGCTGCAGCTGCATGCCGGCGATCATGTGCAGCTGGATGGCAACGTGGCGGCGCTGCGGTTCGCGCTGCCTCGCGAGGATGTGCTGGCGTTGCAGCGGCGCCTGCCGTGCCGCGATGGCCTCTCTTACGAACTGCCCCTGCAACCGCAACCACTGCATCTTCAGTTTGATGTCGATGTGCGTGACAGCGTGCGCCAGCGTGGCGTGCAGCGCCGTGCAAGCGACGTCAGCGTCGCCGCAGATTGA	MKVQIQSQSVRLRIDENELAELLAGQWVASRTNLGALGGFACALQLHAGDHVQLDGNVAALRFALPREDVLALQRRLPCRDGLSYELPLQPQPLHLQFDVDVRDSVRQRGVQRRASDVSVAAD				NA	NA	NA	NA	NA
BMS020_08529	1419	narK_2	COG2223	Nitrate/nitrite transporter NarK	ATGAGTGCCAGTCGCGATGCCGTAAAAAACAGCAGGCCCGGTCCCGGCGGTGTCATCACCGATTGGCGGCCGGAAGATCCGGTTTACTGGGAGCAGACCGGTAAACGCGTTGCCACCCGCAACCTGGTCATCTCCATCCCCGCGCTGCTGCTGGCGTTCTCGGTGTGGGTGCTGTTTTCGGCGGTGACCATCAGCCTGCCGAAAATCGGGTTTGCCTTCAGTACCGATCAGTTGTTCTGGCTGGTGGCCTTGCCCAGTCTTTCCGGCGCGACGTTGCGCATCTTCTACTCCTTCGTGATCCCGATCTTCGGCGGACGGCGCTGGACGGCCTTGTCCACCGCCTCGCTGTTGCTGCCCACCCTGTGGCTGGGCTTCGCGGTGCAGAACCCCGCCACGCCGTACTGGGTATTCGTGCTGATCGCCATCCTGTGTGGCTTTGGTGGCGCGAACTTCTCGTCCTCCATGTCCAATATCTCCTTCTTCTATCCCAAGCAGCGCCAGGGCATGGCACTGGGCCTGAATGCCGGCCTGGGCAACGTAGGGGTGTCGGTATCGCAGGCGGTGGTACCACTGGTGATCACGGTAGGCGTGTTTGGTGCCCTGGGCGGTGCGCCGCAGGCGGTGGTGGACGGTGGCGCGCCCTTGTTCCTGCAGAACGCCGGCTTCATCTGGGTGCCGTTCATCGCCTTCTTCGCGCTGGCCGCCTGGTTCGGCATGAATGATCTGACCAGCGCGCGCTCCTCGTTCTCCGAGCAGGCGGTGATTTTCCGCCGCAAGCACAACTGGCTGATGTGCTGGTTGTACATCGGCACCTTCGGTTCCTACATCGGTTTTTCTGCTGGTTTCCCCATGCTGGTCAAGAGCCAGTTCCCGGACGTGAACCCACTGGCTTATGCCTTCATCGGCCCGCTGCTGGGTGCGCTGATGCGCTCGGTCGGCGGCAGCATGGCCGACCGCTGGGGCGGTGCACGCCTGACCTTCTGGGTGTTCGCGCTGATGATCGCAGCCGTCTTTGGCGTGCTGCACTTCCTGCCCAGCAATGGCCAGGGCGGCAACTTCTACGGCTTCCTGCTCTCGTTCATGGCCTTGTTCGTGCTCAGCGGCATCGGCAACGGCACCACCTTCCGGATGATTCCGGTGATCTTCCGCACCCTGCACGAGCGCCTGTCGGCCAATGAAGGCGCCGAAGGCAAGAAGGTCGCCGCGCACCAGGCCAGCATCGAGTCGGCCGCGGTCGTCGGCTTCTCAGGTGCCATCGGTGCCTACGGCGGCTTCTTCATCCCCAAGAGTTATGGCTCTTCCATCACCTTGACCGGCAGCCCGGACATGGCGCTGTACGGCTTCATTGCGTTCTACATCACCTGCCTGGCGGTCACCTGGTGGTGGTACTACCGGCGCGGGGCTGAAACCCCCTGCTGA	MSASRDAVKNSRPGPGGVITDWRPEDPVYWEQTGKRVATRNLVISIPALLLAFSVWVLFSAVTISLPKIGFAFSTDQLFWLVALPSLSGATLRIFYSFVIPIFGGRRWTALSTASLLLPTLWLGFAVQNPATPYWVFVLIAILCGFGGANFSSSMSNISFFYPKQRQGMALGLNAGLGNVGVSVSQAVVPLVITVGVFGALGGAPQAVVDGGAPLFLQNAGFIWVPFIAFFALAAWFGMNDLTSARSSFSEQAVIFRRKHNWLMCWLYIGTFGSYIGFSAGFPMLVKSQFPDVNPLAYAFIGPLLGALMRSVGGSMADRWGGARLTFWVFALMIAAVFGVLHFLPSNGQGGNFYGFLLSFMALFVLSGIGNGTTFRMIPVIFRTLHERLSANEGAEGKKVAAHQASIESAAVVGFSGAIGAYGGFFIPKSYGSSITLTGSPDMALYGFIAFYITCLAVTWWWYYRRGAETPC	PGPT0000300_1405	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000300-narK|nrtP|nrt|narU-K02575	NA	NA
BMS020_08530	3744	narG_2	COG5013	Respiratory nitrate reductase 1 alpha chain	ATGAGCTATTTCCTTGATCGCTTGCAGTTCTTCAAGCGGGATCCACAACCCTTCGCCGACGGCCATGGGTTCAGCAAGAGCGAAGGGCGGGACTGGGAAAACAGTTATCGCGCCCGCTGGCAGTACGACAAGATCGTACGTTCCACCCACGGCGTGAACTGCACGGGCTCCTGCAGCTGGAAGATCTACGTCAAGAACGGCCTGGTCACCTGGGAAACCCAGCAGACCGACTACCCGCGTACCCGCCCGGACCTGCCCAATCATGAACCGCGTGGCTGCCCGCGTGGTGCCAGCTACTCCTGGTACCTGTACAGCGCCAACCGGCTCAAGTACCCGTTGATCCGTGGCACGTTGCTGCGCATGTGGCGGCAGGCCCGCAAGACCCTGTCGCCGGTCGAGGCCTGGGCCAGCATCGTGCAGGACCCGGCCAAGTCGCGCGAGTACAAGCGTCGCCGCGGCATGGGTGGCTTCGTGCGATTGAACTGGGACGAGGCCAACGAGATCATCGCCGCCTCCAACCTCTACACCACCAAGGAATACGGCCCGGACCGCATCGTTGGGTTCTCGCCGATTCCGGCGATGTCGATGGTGTCCTACGCCGCCGGCGCGCGCTATCTGTCGCTGCTCGGTGGCGCCTGTCTGTCGTTCTACGACTGGTATTGTGATCTGCCGCCGGCCTCGCCGCAGGTGTGGGGAGAGCAGACCGATGTGCCGGAATCGGCCGATTGGTACAACAGCCGCTACATCATCGCCTGGGGCTCGAACGTGCCGCAGACGCGTACGCCGGATGCGCACTTCTTCACCGAGGCGCGCTACAACGGCACCAAGACGGTGGCGATCTGCCCCGACTATTCCGAGCTGGCCAAGCTCACCGACCATTGGCTGCATCCAAAGCAGGGCACCGATGCCGCGCTGGCCTTCGCCTTCGGCCACGTGATCCTGCGCGAGTTCCACGTCGATACGCCTTCGCAATACTTCCAGGACTACTGCCGCCAGTATTCGGACATGCCGATGCTGGTGCGCATCGAGCGCCGTGCCGATGGCCGCCTGGTGCCAGGCCACTTCCTGCGCGCCAGTGAGCTGGGCGGCCTGGGTGAAAGCAACAACCCCGAATGGAAGACACTGGCCTTCGACGAGAACAGCGGCGATATCACCGTGCCCAATGGCTCGGTTGGGTTCCGCTGGGGCGAGAAGGGCAAGTGGAACATCGAGGAAAAGGCCAGCGATGGCCATGACACGCGCCTGCGCCTGAGCCTGGCCGATATCCACGACGGCATCGAGGCGGTGAGCTTCCCGTACTTCGGCGGCATCGAGAGCGACGGCTGGACTGCCGCACCGGCCGAAGAAGTTCTGGAGCGCAATATCCCGCTGCGCCGCCTGCAGTTGGCCGATGGCGGCGAAGCGCTGGTGGCCACAGTCTATGACCTGCTGCTGGCACAGTACGGCGTTGATCGCGGCTTCGGCGGCGGCAATGTCGCCCAGAGCTTCGATGACAACGTGCCGGGTACGCCGGCCTGGCAGGAGCGCATCACCTGCGTGTCACGCGCCGAGGTGATCGAGATTGCCCGTGAGTTCGCCCGCACCGCCGACAAGACCCATGGTCGCAGCATGATCATCGTCGGCGCCGGCATGAACCACTGGTTCCACAACGACATGAACTACCGCGGCCTGATCAACATGCTGGTCATGTGTGGCTGCGTGGGCCAGACCGGTGGTGGCTGGGCGCATTACGTGGGCCAGGAAAAGCTGCGCCCGCAGACCGGGTGGCAGCCGCTGGCCTTCGGCCTGGACTGGAGCCGCCCGCCGCGGCAGATGAACGGCACCTCGTTCTTCTACTTCAACACCGGGCAGTGGCGTTACGAGAAGCTGCAAGTGGACGAACTGCTGTCGCCGCTGGCCGATGCCTCCAAGTACAGCGGCAGCCTGGCCGACCTCAACCTGCGCGCAGTGCGCATGGGCTGGTTGCCGAGTGCACCGCAGCTGGACCGCAATCCGCTGCAGCTGGTGCGCGAAGCCGAGCAGGCTGGCCTTGCACCAGCCGACTACGCGCTGTCCAAGTTCAAGGACGGCTCGCTGGACTTCGCCTTCGCTGATCCGGATGCCGCGCAGAACCACCCGCGCATGATGTTCATCTGGCGCTCCAACCTGCTTGGTTCCTCCGGCAAGGGCCACGAGTACATGCTGCGGCATCTGCTCGGCACGCGCCACGGCCTGCAGGGCAAGGACCTGGGCGAGATGGGCGCGGTCAAGCCCGAGGACGTGAAGTGGCGTGATGAAGCACCGGAAGGCAAGCTCGACCTGCTGGTGACGCTGGACTTCCGCATGTGCACCACCGCGCTGTACTCGGACATCGTGCTGCCGACTGCCACCTGGTACGAGAAGGACGACCTCAACACCTCGGACATGCATCCCTTCATCCACCCGCTGTCCAAGGCGGTGGATCCGGCCTGGGAATCGCGCAGCGACTGGGAAATCTTCAAGGGCGTCGCACGCACGCTCAGCGACATGGCACCGGGCGTGCTCGGTGTCGAGAAGGACCTGGTGCTGGTGCCGACCCTGCACGACACGCCCAACGAACTGGGCATGCCGTTCGGCGTTGCCGACTGGAAGAAGGGCCAGTGCGAGGCCATCCCCGGCAAGACCATGCCGAGCATGGCGGTGGTTGAGCGCGACTATCCCAACCTCTACCGCAAGTTCACCTCGCTGGGCCCGCTGCTGGACAAGCTCGGCAACGGCGGCAAGGGCATGAGCTGGGATACCAAGCATGAGGTGGAATTCCTCGGCAAGCTCAACCATACCGTGCTGGACGAAGGCATCAGCCAGGGCCGGCCGGCGATCGATACCGCCATCGACGCCTGCGAAGTGATCCTGCACCTGGCCCCGGAAACCAATGGCCATGTCGCGGTCAAGGCCTGGGAGTCGCTGGGTACCTTCACCGGCCGCGAGCATACGCATCTGGCGGTGGGCAAGGAGCACGAGGCGATCCGCTTCCGTGACATCCAGGCACAGCCGCGCAAGATCATTTCCTCGCCAATCTGGTCCGGGCTGGAAGACGACAACGTCAGCTACAACGCCGGCTATACCAATGTGCACGAGCTGATCCCGTGGCGCACCGTCACCGGCCGCCAGCAGTTCTACCAGGACCACGAGTGGATGATCGACTTCGGTGAGGCTTTCATGAGCTATCGGCCGCCGGTCAATACACGCACGGTGGAGCCGCTGCTCAACAAGCGCCAGAACGGCAACAAGGAGATCGTGCTGAACTGGATCACCCCGCACCAGAAGTGGGGCATCCACAGCACCTACAGCGACAACCTGATCATGCAGACGTTGTCGCGTGGCGGTCCCATCGTCTGGCTGAGCGAGGACGACGCGCGCAATGCCGGCATCGAGGACAACGACTGGATCGAGCTGTTCAACGTCAACGGTGCGATCGCTGCGCGTGCGGTGGTCAGCCAGCGCGTGATGCCGGGCATGGCGATGATGTACCACGCCCAGGAACGCATCATCAACGTACCGGGTTCGGAGATCTCCGGTACCCGCGGCGGCATCCACAACTCGGTGACCCGCATCGTGCTCAAGCCCACCCACATGATCGGCGGTTACGCGCAGCTGGCCTGGGGTTTCAATTACTACGGTACCTGCGGTACCAACCGCGATGAGTTCGTGATCGTGCGCAAGATGGACAAGATCGATTGGCTGGATGGTGAAGAGTCGGTTGTCGCCGCACGGGAGGTGGTGTGA	MSYFLDRLQFFKRDPQPFADGHGFSKSEGRDWENSYRARWQYDKIVRSTHGVNCTGSCSWKIYVKNGLVTWETQQTDYPRTRPDLPNHEPRGCPRGASYSWYLYSANRLKYPLIRGTLLRMWRQARKTLSPVEAWASIVQDPAKSREYKRRRGMGGFVRLNWDEANEIIAASNLYTTKEYGPDRIVGFSPIPAMSMVSYAAGARYLSLLGGACLSFYDWYCDLPPASPQVWGEQTDVPESADWYNSRYIIAWGSNVPQTRTPDAHFFTEARYNGTKTVAICPDYSELAKLTDHWLHPKQGTDAALAFAFGHVILREFHVDTPSQYFQDYCRQYSDMPMLVRIERRADGRLVPGHFLRASELGGLGESNNPEWKTLAFDENSGDITVPNGSVGFRWGEKGKWNIEEKASDGHDTRLRLSLADIHDGIEAVSFPYFGGIESDGWTAAPAEEVLERNIPLRRLQLADGGEALVATVYDLLLAQYGVDRGFGGGNVAQSFDDNVPGTPAWQERITCVSRAEVIEIAREFARTADKTHGRSMIIVGAGMNHWFHNDMNYRGLINMLVMCGCVGQTGGGWAHYVGQEKLRPQTGWQPLAFGLDWSRPPRQMNGTSFFYFNTGQWRYEKLQVDELLSPLADASKYSGSLADLNLRAVRMGWLPSAPQLDRNPLQLVREAEQAGLAPADYALSKFKDGSLDFAFADPDAAQNHPRMMFIWRSNLLGSSGKGHEYMLRHLLGTRHGLQGKDLGEMGAVKPEDVKWRDEAPEGKLDLLVTLDFRMCTTALYSDIVLPTATWYEKDDLNTSDMHPFIHPLSKAVDPAWESRSDWEIFKGVARTLSDMAPGVLGVEKDLVLVPTLHDTPNELGMPFGVADWKKGQCEAIPGKTMPSMAVVERDYPNLYRKFTSLGPLLDKLGNGGKGMSWDTKHEVEFLGKLNHTVLDEGISQGRPAIDTAIDACEVILHLAPETNGHVAVKAWESLGTFTGREHTHLAVGKEHEAIRFRDIQAQPRKIISSPIWSGLEDDNVSYNAGYTNVHELIPWRTVTGRQQFYQDHEWMIDFGEAFMSYRPPVNTRTVEPLLNKRQNGNKEIVLNWITPHQKWGIHSTYSDNLIMQTLSRGGPIVWLSEDDARNAGIEDNDWIELFNVNGAIAARAVVSQRVMPGMAMMYHAQERIINVPGSEISGTRGGIHNSVTRIVLKPTHMIGGYAQLAWGFNYYGTCGTNRDEFVIVRKMDKIDWLDGEESVVAAREVV	PGPT0000285_610	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000285-narG|narZ|nxrA-K00370	NA	NA
BMS020_08531	1545	narH_2	COG1140	Respiratory nitrate reductase 1 beta chain	ATGAAAGTACGTGCCCAGATTGCGATGGTGTTGAACCTGGACAAGTGCATCGGCTGCCACACCTGCTCGATCACCTGCAAGAACGTGTGGACCTCGCGCGAAGGCGTGGAGTACGCCTGGTTCAACAATGTCGAGACCAAGCCCGGCATCGGTTATCCCAAGGAGTGGGAAAACCAGGAGAAGTGGAACGGCGGTTGGGTGCGCAACGGCAGCGGCAAGCTGGTGCCACGCGCCGGCGCCCGCTGGCGCATGCTGGCCAAGATCTTCTCCAACCCCGACCTGCCGCAGATCGACGACTACTACGAACCGTTCGACTTCGATTACCAGCACCTGCATGACGCGCCCGAGCTGAAGCACCAGCCGACCGCACGACCGCGCTCGCTGCTGACCGGCCAGCGCATGGAGAAGATTGAGTGGGGCCCGAACTGGGAGGAAATCCTCGGCAGCGAGTTCTCCAAGCGCTCGCGTGATTACAACTTCGACAAGGTGCAGAAGGAGATCTACGGCGCCTTCGAAAAGACATTCATGATGTACCTGCCGCGCCTGTGCGAGCACTGCCTCAACCCGGCCTGCGTCTCGGCCTGTCCTTCCGGCGCGATCTACAAGCGCGAGGAAGACGGCATCGTGCTGATCGACCAGGACAAGTGCCGCGGTTGGCGCATGTGCGTGTCGGCCTGCCCGTACAAGAAGATCTATTACAACTGGAAGAGCGGCAAATCCGAGAAGTGCATCTTCTGCTATCCGCGCATCGAGATGGGCGAGCCCACCGTGTGTTCGGAAACCTGTGTGGGCCGCATCCGCTACCTCGGGGTGATGCTCTACGACGCCGACCGCATTGCCGAGGCCGCATCGGTGGCGGCGGAGAAGGACCTGTACCAGTCGCACCTGGACATCTTCCTGGACCCGTTCGACCCGGCGGTGATCGAGGCTGCGCGTGCCGAGGGCATTCCCGACAGCTGGCTGGAATCGGCCAAGCAGTCGCCGGTCTACAAGCTGGCCATCGACTGGAAGCTGGCGTTGCCGCTGCACCCGGAATACCGCACCTTGCCGATGGTCTGGTATGTGCCACCGTTGTCGCCGATCCAGTCGGCGGCAGAGCGTGGCCATGTCGGCATGAGCGGCGAACTGCCGGATATCGCTTCGTTGCGCATTCCGGTGCGTTACCTGGCCAACCTGCTGACCGCCGGCGATGAGCAGCCGGTGATCCGTGCTCTGGAGCGGCTGATGGCGATGCGTGCCTGGCGCCGCGCCAAGAATGTGGATGGCGTCGAAGACATGCGTGTGCTTGAGCAGGTGGGGCTGACCCCGGCGCAGGTAGAGGAGATGTACCGCTACCTGGCCATCGCCAACTACGAGGATCGCTTCGTCATCCCGACCGCGCACCGCGAGTACGCCAACGACGCCTTCGGCGAACGTGGCGGCTGCGGATTCACCTTCGGCAATGGCTGCAACGGCGACAGCCCGGCCGATCTCTTCACCCAGCGTAAGAGCACCACCTTCGCGGTGCATCCCAACCGCCAGCACCGGCATGAGGTGGTGAAATGA	MKVRAQIAMVLNLDKCIGCHTCSITCKNVWTSREGVEYAWFNNVETKPGIGYPKEWENQEKWNGGWVRNGSGKLVPRAGARWRMLAKIFSNPDLPQIDDYYEPFDFDYQHLHDAPELKHQPTARPRSLLTGQRMEKIEWGPNWEEILGSEFSKRSRDYNFDKVQKEIYGAFEKTFMMYLPRLCEHCLNPACVSACPSGAIYKREEDGIVLIDQDKCRGWRMCVSACPYKKIYYNWKSGKSEKCIFCYPRIEMGEPTVCSETCVGRIRYLGVMLYDADRIAEAASVAAEKDLYQSHLDIFLDPFDPAVIEAARAEGIPDSWLESAKQSPVYKLAIDWKLALPLHPEYRTLPMVWYVPPLSPIQSAAERGHVGMSGELPDIASLRIPVRYLANLLTAGDEQPVIRALERLMAMRAWRRAKNVDGVEDMRVLEQVGLTPAQVEEMYRYLAIANYEDRFVIPTAHREYANDAFGERGGCGFTFGNGCNGDSPADLFTQRKSTTFAVHPNRQHRHEVVK	PGPT0000500_676	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000500-narH|narY|nxrB-K00371	NA	NA
BMS020_08532	681	narJ_2	COG2180	Nitrate reductase molybdenum cofactor assembly chaperone NarJ	ATGAGTGTGCTCAAGCTGATCGGCGTATTGCTGGACTATCCGCGTGACGAGCTTTGGCAGCATGGCGAGGAGCTGCTCAAGGCCTGCGACGATCCGGCGCTGTCGCCGGCCCGTCGCAGGCAGTTGCAGACCTTCGTCCGTGACCTGCTTGCTACCGACCCGCTGGACGCACAGGACCGCTGGCTGGCCACCTTCGACCGTGGCCGCTCGATGAGCCTGCTGGTGTTCGAACACATCCACGGCGAATCGCGTGACCGTGGCCAGGCCATGGTCGACCTGATCGATGCCTATCGCAAGAATGGGTTCGAGCTGGATGCGCGGGAGCTGCCGGACTACCTGCCGCTGCTGCTGGAATACCTCGCGCACCGGCCGCAGGCCGAGGCCAGGGATTGGCTGCACCACATCGGCCACATCGCCGGCATGCTCGCCGCGCGCGCCGCCGAGCGGCAGCTGCCGCATGCGGCGCTGCTGGAGATCCTGGTCGAGGCGGGCGAGGGCAAGGTCAACCTGGCCGTGCTGCGCCAGCGGGCCAGCGAAGAAGTGCGCGACGACACCGTCGAAGCCATGGACCGCCTGTGGGAAGAGGAAGCGGTGCGCTTTGGCGCCGATGCACCTTCGCAGGATTGCGATCCACCCCATCGTTCACCGGCACGCGCGCAGCCGCGGGAGATCCAGCCATGA	MSVLKLIGVLLDYPRDELWQHGEELLKACDDPALSPARRRQLQTFVRDLLATDPLDAQDRWLATFDRGRSMSLLVFEHIHGESRDRGQAMVDLIDAYRKNGFELDARELPDYLPLLLEYLAHRPQAEARDWLHHIGHIAGMLAARAAERQLPHAALLEILVEAGEGKVNLAVLRQRASEEVRDDTVEAMDRLWEEEAVRFGADAPSQDCDPPHRSPARAQPREIQP	PGPT0000510_824	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000510-narJ|narW-K00373	NA	NA
BMS020_08533	705	narI_2	COG2181	Respiratory nitrate reductase 1 gamma chain	ATGAATTACCTCAATCAGTTCGCCTTCCAGTTCTATCCCTACATCGCGGTGGCGGTGCTGTTGATCGGCAGCTGGGCGCGTTACGACAAGGCGATGTACAGCTGGCGTACCGGCTCCACCCAGTTGCTTTCCGACCGCGGCATGCGCTTTGGCAGCAACTGTTTCCACATCGGCATCATCGCCATCCTTGGCGGCCACTTCGTCGGCCTGCTGACCCCGCATGCGCTGTACGAGCCCTTCATTACGTCCTCGCAGAAGCAGTTGCTGGCGATGGTGGTCGGCGGCTTCTTCGGCGCGCTGTGCTTCGTTGGCATCACCATCCTGCTGGTGCGCCGCCTGACCAATGCGCGGGTACGTGCAATCGGCAGCTTCGGTGACACGCTGGTGCTGGTGCTGCTGTTCGCCCAGCTCTGCCTCGGCCTGTACAGTATCAAGGTCTCCGCCGGCCATCTCGATGGCGGGGTGATGGTGATGCTGGCCGAGTGGGCGCAGCACATCGTCACCTTCCGTGCCGGTGCTGCCGATTACGTCGAAGGCGTGCATTGGGTCTACAAGGCGCACATCTTCCTCGGCCTGACGCTGGTGTTGATCGCCCCGTTCACCCGCCTGGTGCATGTGTGGAGCGTGCCGATCAGTTACCTGTGGCGGCCATATCAAGTGGTACGTCGTCGCCAGGCCACGTTGCGCTACGGCCCGCGGGAGTAA	MNYLNQFAFQFYPYIAVAVLLIGSWARYDKAMYSWRTGSTQLLSDRGMRFGSNCFHIGIIAILGGHFVGLLTPHALYEPFITSSQKQLLAMVVGGFFGALCFVGITILLVRRLTNARVRAIGSFGDTLVLVLLFAQLCLGLYSIKVSAGHLDGGVMVMLAEWAQHIVTFRAGAADYVEGVHWVYKAHIFLGLTLVLIAPFTRLVHVWSVPISYLWRPYQVVRRRQATLRYGPRE	PGPT0000505_662	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000505-narI|narV-K00374	NA	NA
BMS020_08534	891	surA_4		Chaperone SurA	ATGGGCAGCCTGCCACGCATTCTCCCCATAACCGTCATCGATTCGCAGACACCGGTGCCGGCCGAGGCCGGCCACCATCACGATGCCGACGATGGCCCGCGCAGCCTCGGCCAACCGGCGCCGTGCAGCCTGTACGTGCAGGACACGCCGATCAGTGAGGCAGACATCGCCCGCGAGATGCAATACCACCGGGCGATGCGCCCGGAGCAGTCACGTGCCGATGCGGCGCGTGCGCTGGTGGTGCGCGAGTTGCTGCGGCTGGAAGCCGAGCGGCTTGGCCTGGCCGACGCCTCCGGCGTCGGCCAGGAAACCAGCGAGGAAGCGCGCATCCAGCAACTGATCGAACAGACGCTGGAAGACCGGGTGCCAAGCGAGGACGACTGCCGGCGTTACTTCGCGCAGAACCCCGAGCGCTTCCGCTCACCGGACCGCATCCGTGTACGCCACATCCTGCTGGCGGCACCGGCTGACGATATCGCCGGCCGGCTGAAGGCGCGCACCCAGGCCGAGCAGCTGATTGCCGAACTGCTGGATCAGCCGCACCTGTTCGCCGATCTGGCCGCGCGCCATTCGCAGTGCCCGTCCAGCAGCGAAGGCGGCGAGCTGGGTTGGCTGCAACGCGGCCAGACCACGCCGGAGTTCGATCGCCAGGTGTTCCGCCTGCGACAAGGCTTGGCCGGGTTCCCGGTGGAATCGCGCTGGGGCTACCACGTGGTCAGCATCGATGCGCTGGAAGCCGGTATGGCGCTCAGTTTCGAGCAGGTGCAGCCGCAGATCAGCGACTACCTCGAATTGCAGGTGCGCCAGCGTGACGTGCAGCAGTTCCTGCTGGAGCTGCGCGAACGCTACCCGGTGCGCGGGCTGGAAGACATCGAAGCACAGGCCGAGTAA	MGSLPRILPITVIDSQTPVPAEAGHHHDADDGPRSLGQPAPCSLYVQDTPISEADIAREMQYHRAMRPEQSRADAARALVVRELLRLEAERLGLADASGVGQETSEEARIQQLIEQTLEDRVPSEDDCRRYFAQNPERFRSPDRIRVRHILLAAPADDIAGRLKARTQAEQLIAELLDQPHLFADLAARHSQCPSSSEGGELGWLQRGQTTPEFDRQVFRLRQGLAGFPVESRWGYHVVSIDALEAGMALSFEQVQPQISDYLELQVRQRDVQQFLLELRERYPVRGLEDIEAQAE	PGPT0000050_693	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000050-nifM-K03769	NA	NA
BMS020_08535	1332	narT	COG2223	putative nitrate transporter NarT	ATGAGCCAGAATTTACAGAACGTCAGCAGCGGCGAACAACAACGTGCGCTATGGCTGAGTACCTTCGCCTTCACCGTGTGTTTCGCGGTGTGGATGATCTTCGCCATCATCGGCATCCAGATCAGCGAGCAGCTGGGCTTGAACGACACCCAGTTTGGTCTGCTGATTGCCACCCCGGTATTGACCGGCTCGGTGATCCGCGTCTTCCTCGGCATCTGGTCCGACCAGTTCGGCGGCCGCAAGGTGATGACCCTGGTGATGCTGTGCGGCGCGGTGGCGACCTGGCTGCTGACCTATGCGCAGACCTACCCGCAGTTCCTGCTGGCGGCGCTGTTCGTCGGCATTGCCGGTGGCAACTTCTCGGTCGGCGTCACCTATGTGTCCAAGTGGTTCCCGCCGGAGAAGCAGGGCACCGCATTGGGCATCTTCGGTGCCGGCAACATCGGCTCGGCGGTCACCAAGCTGCTGGCGCCGCTGGTGATGGTGGCCTCGGGCTGGATGATGGTGGCCAAGCTGTGGGCCGTTGGCCTGGTGGTCACCGCCATCCTGTTCTATCTGTTCAGCAAGGAAGATCCCTCGCTGGAGGACCGCCGCCGCAGCGGCGTCAAGCCGATGTCCTTCGCCGAACAGATGGCACCCCTGAAGAACCTGCAGGTATGGCGCTTCTCGCTGTACTACTTCTTCGTGTTCGGCGGCTTTGTCGCGCTGGCATTGTGGCTGCCGCATTATCTGGTCGGCGCCTACGGCATGGATGTGGGCACGGCCGGCGTGCTGGCCGCGTGTTACTCGATACCGGCCAGCCTGTTCCGGGTGGTGGGCGGCTGGCTGTCGGACAAAATCGGTGCGCGGCGGGTGATGTACTGGACGCTGGGGGTGTCGTCGATCTGTACCTTCATCCTGGCCTATCCAGATACGCGTTATATCGTGCAGGGCATACACGGCGAGATCAGCTTCCACCTGGCGATCAGCGTGACCCTGTTCACCGTGCTGGTGTTCGTGCTCGGCTTCTTCATGTCGCTGGGCAAGGCCGCGGTCTACAAGCACATCCCGGTCTACTACCCCCAGCACGTGGGTTCGGTGGGCGGCGTGGTCGGCATGATCGGTGGGCTCGGTGGCTTCATCCTGCCCATCGTTTTTGGCGCCCTGAATGATGCGCTCGGCATCTGGAGCAGCTGCTTCATGCTGCTGTTCGTGCTGGTCAGCATTTCCTTGACCTGGATGCACTTCGCCATCCGCCGGATGGAGCGTCGCAACTTCCCGCAGCTCGATCGCGAGACCGACCTGCCCGAAGCCATCGATGCCCGCGCGCTGGAGAAACAGCGCCGCGCTTGA	MSQNLQNVSSGEQQRALWLSTFAFTVCFAVWMIFAIIGIQISEQLGLNDTQFGLLIATPVLTGSVIRVFLGIWSDQFGGRKVMTLVMLCGAVATWLLTYAQTYPQFLLAALFVGIAGGNFSVGVTYVSKWFPPEKQGTALGIFGAGNIGSAVTKLLAPLVMVASGWMMVAKLWAVGLVVTAILFYLFSKEDPSLEDRRRSGVKPMSFAEQMAPLKNLQVWRFSLYYFFVFGGFVALALWLPHYLVGAYGMDVGTAGVLAACYSIPASLFRVVGGWLSDKIGARRVMYWTLGVSSICTFILAYPDTRYIVQGIHGEISFHLAISVTLFTVLVFVLGFFMSLGKAAVYKHIPVYYPQHVGSVGGVVGMIGGLGGFILPIVFGALNDALGIWSSCFMLLFVLVSISLTWMHFAIRRMERRNFPQLDRETDLPEAIDARALEKQRRA	PGPT0000300_2604	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000300-narK|nrtP|nrt|narU-K02575	NA	NA
BMS020_08536	1212	hemN_3	COG0635	Oxygen-independent coproporphyrinogen III oxidase	ATGTCAGTAGAGACCGCCGAGATGGATGACGCCACATTGCATGTCGCACTGCTGCAGCAACCCGCGCACGTGTTGTTCCCGGCGCCGGCGGAGCTGAGCCCCGGCTTTGCCGAAGCCGGCTGGCGTGCGGCCATGCAGGCCAGCAACGAGCATCTGATTCCGCGTGCGTTGACCCTGGGTTTCTGCGCACCGGCCCCTGACCCGGAGCCGGCGGAGAACGTGCTGGATGCGCTGCTGGTATGCCTGCGCCTGCATGCCAACATGCTGGCCAGCGACCGCGAAGTGGCAGCCATGGTGCTGCAGCCGGGTATCGTCGAGCACCTGCCGCCTGCCCTGCTGGGCCGCCTGCTGGATGCGGTGCCGGAGCAGCTGTGCACCAATGCCCGGCCGCAGGTCGAAGTGCGGCTGGATGCGGCCAGCGATGTCGTACCAGCGTCATTGCGGGGGGTCGGTTGTACCCGGATGACAGTGATCGATCACGCCGGCGTCGATGGCTCGGCGATGCTGGCTCAGGCCCAGCAGGCCGGGTTCACCGCGTGTTACTACCAGCTGCGCGTGCCCTGCTACGCCGATGTGTCGTTCCTGCAACGGCTGCAGCGCGTGCTGGAGCTGGCACCCGAACGCATCATCCTGCCATCGCCTGCCTTGCTGCCCGAGTATCCGTTGCCGGCGGACTGGCTGCAAGCGTGGCGGCTGCTGCGGGCGGCCGGCTATCTGCCGTTGGGCGGCGACCACTACCAGCGGCCGGACCTGCCGATGCCGCTGCGCAACGGTGATGGCCAGCGCCATTGCGACCTGCTCGGGGTCCCCCGGCGCGAGCGCCATGACCTGCTCGGTATTGGTGTCGGCGCCTGCAGCCAGATCGGCGATGTGATCTGCCGCATCGCACCGGAGCCACGCAGCTGGCGCGCCTGCCTGGTAGTTGGGCAGCCGGGCATATCGTCCGGGCTTATTCTTTCCGAGCATGAACGTATGACCGATGAGGTGGTGCAGAGCCTGGCCTGCGATCACGCGCTGGACATGCGCGCCTTCGAGTGGCGCAACGCGCAGCCCTTCGACGCCTGTTTCGAGCACGCGTGGAGCCGTGTCGCCATGTTCATCGAACGCGGCTGGCTGCGCCGGGACGGCGACATGCTGTTGATCCAGAACGAAGGTGAGCTGCTGTGGCGTATGATCGCAGCGTGCTTCCGCCCCTTGGCCGCTGTTGCTTGA	MSVETAEMDDATLHVALLQQPAHVLFPAPAELSPGFAEAGWRAAMQASNEHLIPRALTLGFCAPAPDPEPAENVLDALLVCLRLHANMLASDREVAAMVLQPGIVEHLPPALLGRLLDAVPEQLCTNARPQVEVRLDAASDVVPASLRGVGCTRMTVIDHAGVDGSAMLAQAQQAGFTACYYQLRVPCYADVSFLQRLQRVLELAPERIILPSPALLPEYPLPADWLQAWRLLRAAGYLPLGGDHYQRPDLPMPLRNGDGQRHCDLLGVPRRERHDLLGIGVGACSQIGDVICRIAPEPRSWRACLVVGQPGISSGLILSEHERMTDEVVQSLACDHALDMRAFEWRNAQPFDACFEHAWSRVAMFIERGWLRRDGDMLLIQNEGELLWRMIAACFRPLAAVA	PGPT0003200_2980	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
BMS020_08537	777	anr		Transcriptional activator protein Anr	ATGACGTCACCTACACCCCCACCGCGCGGCCCCCTGGGCACCGCGACGCCGAATCCAGCCGCTGCCGGCGACGGTGACGCGCTGCATTTCTGCACGACCTGTGCGTTCTCCGATGCCTGCAGTTCGCAGGGTTATGACAAGACCGCGCTGAACGAGCTGCACGTGGTGGTCGACCACGTCGGGCCCTACCACGCCGGTGACTACATATTCCGCACGGGTGAACCCTTCGACGCAATCGCCGCGGTGCGTGCGGGCATGGTCAAGACCTTTGTCGACGACAGCCTCGGCAATGAACAGGTGCTGGGTTTCTCGCTGCCAGGCGAAGTCATCGGTCTGAACGCCATCCATGGTTCGCGCTATCCCTGCAATGCGGTGGCGCTGGATACCGTGCATCTGTGCCGCATCTCGTTTCCGCGCATCAGCATGCTGGCCAGTCGGACGCCTGGCCTGCAGGCCAAGCTGTTCAGCCTGCTCAGCGCCGAGATCGGCAAGGCCGCCTTGCTGGCGGCCAACTACCGTACCGAGGAGCGCATGGCCGCGTTCCTGCTGGATATCTCCAACCGTTATGCACGGCGCGGTTTTTCCGCACACCGCTTCAACCTGACCATGACCCGCACCGAGATCGCCAACTACCTGCGCATGGCCCCGGAGACCGCCACCCGGGTGCTGCGGCGCTTGAGCGACGAGGAAATCATCGCGGTGAAGCAGCGCGAGATCATCCTGTTGCAACCGGAGCGTCTGGCCTTGATGGCGGCCACCGATGATGCAAGCGAATGA	MTSPTPPPRGPLGTATPNPAAAGDGDALHFCTTCAFSDACSSQGYDKTALNELHVVVDHVGPYHAGDYIFRTGEPFDAIAAVRAGMVKTFVDDSLGNEQVLGFSLPGEVIGLNAIHGSRYPCNAVALDTVHLCRISFPRISMLASRTPGLQAKLFSLLSAEIGKAALLAANYRTEERMAAFLLDISNRYARRGFSAHRFNLTMTRTEIANYLRMAPETATRVLRRLSDEEIIAVKQREIILLQPERLALMAATDDASE	PGPT0000515_314	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000515-fnr-K01420	NA	NA
BMS020_08538	741	modA_3	COG0725	Molybdate-binding protein ModA	ATGAACAAGCTGTGGGCGTTGTTGTTGCTGGCAGTCACGCTGCCGGCAGGCGCGGCTGACCTGACGGTCTCGGCGGCTTCCAGCCTGACCGAGAGTTTCCGCGAGATATCCAGCGCGTACGAGAAGGCCAACCCAGGCACGAAGGTCGACCTGAATTTTGCCGCCTCCGGCACCTTGCTGCAGCAGATCGCACGCGGCGCGCCGGTCGATGTGCTGGCCTCGGCCGACCAGGCCACGATGGCGCAGGCCAACGCCGAAGGCCTGATTGATCCAACGACCCAGCACGTGTTCGCGCAGAACAGCCTGTGGGTGGTGGTGCCGCCGCAGGCCAGCAACAAGCCGACCACGTTGGCGGCACTGGCCAGGGCCGATGTGAAGCGCGTCGCCATCGGCAACCCCGACAGCGTGCCGGTCGGGCGCTATGCACGCGGCGCGCTGCAGCAGGCCGGTGTGTGGCCGGTAGTTCAGGCCAAGATGATCAGCACCCAGAATGTGCGCCAGTCACTGGACTATGTGGCGCGTGGTGAAGTGGATGCCGGCTTCGTCTACGCCACCGACGCGCAGGCGATGAGCGAGCGCGTGCAGCGCGCCTTCCAGGTACCGGTTGCAGGCGGCATCAGCTATCCGCTGGCAATGGTGAAGACCAGCCGCAACGCCGCCGAAGCCAAGCGCTTCATCGCCTTCGTGCGCTCGGCGCAGGGCCAGGCCATCCTGCACAGGCACGGCTTCGGCAGCCCTTGA	MNKLWALLLLAVTLPAGAADLTVSAASSLTESFREISSAYEKANPGTKVDLNFAASGTLLQQIARGAPVDVLASADQATMAQANAEGLIDPTTQHVFAQNSLWVVVPPQASNKPTTLAALARADVKRVAIGNPDSVPVGRYARGALQQAGVWPVVQAKMISTQNVRQSLDYVARGEVDAGFVYATDAQAMSERVQRAFQVPVAGGISYPLAMVKTSRNAAEAKRFIAFVRSAQGQAILHRHGFGSP	PGPT0008435_4166	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008435-modA-K02020	NA	NA
BMS020_08539	687	modB_3	COG4149	Molybdenum transport system permease protein ModB	ATGGTGGATCTGGACTGGAGCGCGCTGTGGTTGTCGCTGAAGGTGGCCGGCTGGGCGACCGCGATCAATCTCGTGCTCGGTGTCGGATTTGGTGCCTTGTTGGCGCGGCGGCGCTTTCCCGGCCGTGAGCTGCTGGATACGGTGTTCACCCTGCCGATGGTGCTGCCGCCAACGGTGCTGGGCTATTACCTGCTGGTGCTGATCGGGAGCAACGGGCCGCTTGGCGCATGGCTGGAGAGCAGTTTCGGCATCAACCTGGTGTTCACCTGGCAGGCAGCGGTGATCGCTGCAGCGGTGGCTTCGTTTCCGCTGGTATTCAAGCCGGCGCGCGCCGCATTCGAGGATGTCGACGGGCAGCTGGAACAGGCCGCGCGTACCTTGGGCGTATCCGAGCTGGCGCTGTTCTTCCGAGTGACCTTGCCGCTGGCATGGCGCGGCATTCTTGCCGGCCTGCTGCTGGCGTTCGCCCGTGCGATGGGTGAGTTCGGCGCCACCATCATGGTCGCTGGCAGTATTCCCGGGCGCACCCAGACCTTGTCCATCGCCATCTACGAGGCGGTGCAGGCCGGCAATGACGGTCGCGCCAACGCCTTGGTGCTGCTGTCCTCGCTGGTCTGCATCAGCGTGCTGCTGCTTGCCGCACGACTGGTGGGGCGGCGGCAGGAGGGGGCGCGCAATGTGGCTTGA	MVDLDWSALWLSLKVAGWATAINLVLGVGFGALLARRRFPGRELLDTVFTLPMVLPPTVLGYYLLVLIGSNGPLGAWLESSFGINLVFTWQAAVIAAAVASFPLVFKPARAAFEDVDGQLEQAARTLGVSELALFFRVTLPLAWRGILAGLLLAFARAMGEFGATIMVAGSIPGRTQTLSIAIYEAVQAGNDGRANALVLLSSLVCISVLLLAARLVGRRQEGARNVA	PGPT0008440_2303	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008440-modB-K02018	NA	NA
BMS020_08540	666	modC	COG1118	Molybdenum import ATP-binding protein ModC	ATGTGGCTTGAGCTTGATGTTCAGCGCCAACTGAGTGCGGCTGGACAGCAGTTCCAGCTGCAGGCGGCCTTGCATTGCACACAGCCCAGCGTTGTATTGTTCGGCCCGTCTGGTGCGGGAAAAAGTTTGACCTTGAAGGCGGTGGCTGGATTGCTGCGGCCGGACGCCGGTGTGATCCGCATGCACGGGCAAGCGCTGTTCGATGCGGCTGCCGGCATCAATCTGTCACCACAACGGCGCCGCATCGGCTATGTGTTCCAGGACTACGCCTTGTTTCCGCACCTGACGGTGCGGCAGAACGTGGGTTCTGGCCTGCAGCGAGGCCTGTTGAATCCGCCGCGGAGCCGTCGTATCGATGCGGTCGAGCAATGGTTGCAGGCGTTCCGCATCGATCACCTTGGTGACCTGCTGCCGTCGCAGATCTCCGGCGGCCAACGTCAGCGCACCGCGTTGGCACGGGCGCTGGTGACCAAGCCGCAGGCGCTGCTGCTGGATGAGCCGTTCGCCGCACTCGACCACGCTCTGCGTGCGCATCTGCGCCAGGAACTCGAAACGGTGCTGGACCAGACCGGCATCCCGCTGCTGCTGATCAGCCATGATCCGGAGGACGTGGACATGTTCGGCCAGCAGGTGGTGCACCTGGCCGACGGCCGCGTGCAGGTCTGA	MWLELDVQRQLSAAGQQFQLQAALHCTQPSVVLFGPSGAGKSLTLKAVAGLLRPDAGVIRMHGQALFDAAAGINLSPQRRRIGYVFQDYALFPHLTVRQNVGSGLQRGLLNPPRSRRIDAVEQWLQAFRIDHLGDLLPSQISGGQRQRTALARALVTKPQALLLDEPFAALDHALRAHLRQELETVLDQTGIPLLLISHDPEDVDMFGQQVVHLADGRVQV	PGPT0008445_2998	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008445-modC-K02017	NA	NA
BMS020_08541	1269			hypothetical protein	ATGTTGCTGGCCTTGATATTGGTCAGTACCGGCGGCGACGGAAGTGTGGATACTCGCTGCGTGGACACTTCCAGGCCCCGCGTGCAGCTGTTCAATGCGCCACACCGGCTGCTGTTCTTCATCGGTGTCTGCAATCTCGGCCTGGCGATGGCTTGGTGGGCGCTCTGGCTGGCCGGCTTGCAGCTGGGCAGCCCCCTGCCCGTACCCGCCGTGCCACCGGCCTTGCTGCACGGACTGTGGATGCAGTACCTGGTGCTGCCCAGTTTCATCTTCGGGTTCCTGTTGACCGTGTTCCCGCGCTGGATGGGATTACCGGCGCTGTCGCGGTGGCAGTACGCCGGGGTCGGCAGTGGCCTGTTCGGCGCGCAGATGGCGCTGTTGGCCGCCAGCCTTGGATGGCAACCCGGGGTGAGGCTGGCCCTGTTGCTGGCGGTGCTCGGGTGGTCATTCGGTCTTGTGGTTCTTGGCCGACTACTGCTGCAGGAAAAAGTCCGCACCTGGCATGCACGGTCCTGCTGGGCTGCATTGCTCTTGGGCTGGATCGGCCTGCTGGCCTTCGCTGCTGCGGCGGCAGGCGCGGATATCCGCTGGCAGGCACTGAGCGTGTCGGTCGGAACCTTCGGACTGTTGCTGCCGATCTACGCCAGCGTCGCCCATCGCATGTTCCCGTTCTTCGCCGGCAATGTGGTGCCGGGCTACCAGGCATGGCGGCCACCGCATTGGCTGGCGATCATGTGGACGTTGTGCCTGCTGCATCTGTTCGGGGAAAACCTGCAGCAGCCACTGGTCATGCTGCTGGCCGATGCCGGCTTGCTGCTGTTGTCGCTGTACTCGCTATGGCGCTGGTGGCCACGTGGTCCCAAGCCGGCCTTGCTGGCGGTGTTGTTCTACGGCTTGGCGTGGTGGCCGCTGGCGATGCTGCTGTATCTGCTGCAGGACATAGCCCCACTTGCCGGCCATACCGGCTGGCTGGAACGCGCGCCGCTGCATGCCTTGGCGATTGGCCTGTTCGGCAGCCTGCTGGTGGCGATGGTCACCCGTGTGACCCAGGGCCACTCCGGGCGTGCGCTGGTAATGCCGATGGTCGCTTGGATTGCCCTGCTCGGCCTGCAGCTGGTTGCCGTGCTGCGCATCCTGGCGCCGCTACTGGATGATCCCTGGCGTTGGCATGCCGTGGCCGCTGCCGGTTGGCTGCTGGTGCTTGCACCGTGGTTGCTGCGACTGGGGTGGATCTACTGGCGCCCGCGTGCGGATGGCAAACCGGACTAA	MLLALILVSTGGDGSVDTRCVDTSRPRVQLFNAPHRLLFFIGVCNLGLAMAWWALWLAGLQLGSPLPVPAVPPALLHGLWMQYLVLPSFIFGFLLTVFPRWMGLPALSRWQYAGVGSGLFGAQMALLAASLGWQPGVRLALLLAVLGWSFGLVVLGRLLLQEKVRTWHARSCWAALLLGWIGLLAFAAAAAGADIRWQALSVSVGTFGLLLPIYASVAHRMFPFFAGNVVPGYQAWRPPHWLAIMWTLCLLHLFGENLQQPLVMLLADAGLLLLSLYSLWRWWPRGPKPALLAVLFYGLAWWPLAMLLYLLQDIAPLAGHTGWLERAPLHALAIGLFGSLLVAMVTRVTQGHSGRALVMPMVAWIALLGLQLVAVLRILAPLLDDPWRWHAVAAAGWLLVLAPWLLRLGWIYWRPRADGKPD	PGPT0001070_83	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITRIC_OXIDE_REDUCTION,PGPT0001070-nnrS-K07234	NA	NA
BMS020_08542	519			hypothetical protein	ATGTTCCGAAGCAGCCTCGAAACAGCACCACTGGCACGTGGGTTCACCTTGATGGCATGGCTGCTGCTTGTGCTGTGCTCCTCGCTGCTGCTTGCACCTGCGCCGGTGCTGGCTGCGACCGAAGAAAGCACCGCCCAGGCGCAGGCCCCGGCGACGGTGCGCTTTTACAACCGTGACATCCTGACCTTCCGCAGTGCCTTCATGGGTCGCTCGCCCCTGCAACGTGCGCAGGTTGCTGAATTCAACATCAAACGCATCGTCGATGAGCCGGGCATGCCCGGCGTGACCTTCAACGACACCGCTGCCGGTGCGATCCTGCTGCTCGGCGGGGAAGTCGTCACCCTAATCACGCCTGCCGATGTGGATACCGCGCAGGGCCAGAGTCTGGCCCAGGTGCGCGAAGAGGTGCGCAGCCGGCTTGGCGAGGCGGTCGCCGCCGCCGAGCGCGAGCGTGCGCCGGGGCGCATGGGTCCTCAGCAGCTGCGGGTTGCCGCCCTCCTCAGAAGTAGCTGCGCATGA	MFRSSLETAPLARGFTLMAWLLLVLCSSLLLAPAPVLAATEESTAQAQAPATVRFYNRDILTFRSAFMGRSPLQRAQVAEFNIKRIVDEPGMPGVTFNDTAAGAILLLGGEVVTLITPADVDTAQGQSLAQVREEVRSRLGEAVAAAERERAPGRMGPQQLRVAALLRSSCA				NA	NA	NA	NA	NA
BMS020_08543	225	ttuC	COG0476	Sulfur carrier protein adenylyltransferase	GTGCTCGGCGTGCTGCCCGGGGTGATCGGCCTGCTGCAGGCCACCGAGGCGCTGAAGCTGCTGCTCGGCATCGGTGAACCCCTGGTCGGCCGCCTGCTGTGCTTCGACGCACTCGGCATGCACTTCCACGAACTGCGGCTGGCGCCGGATCCGCACTGCCCGGCGTGCGGGGCAGATACGAACGACGTCGGGGAGCCGATGCCACCGCCGCAGATTGCGGATTAG	MLGVLPGVIGLLQATEALKLLLGIGEPLVGRLLCFDALGMHFHELRLAPDPHCPACGADTNDVGEPMPPPQIAD	PGPT0008935_439	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
BMS020_08544	639	dsbA_4	COG0526	Thiol:disulfide interchange protein DsbA	ATGCGATCCCTGTCCAAGCTACTGCTGTTGATGTTGCTGATCCCCCTCGCCGCCTGCGCGGCGGAGTCCAAGACCCCGGTGGCGGGCGAGGACTACATCGAGATTCCGGATGGGCAGCCCTGGCAGCCGTTGGACGGCAAGGTCGAGGTGGTGGAGATCTTCGGCTACACCTGCCCGCACTGCGCGCACTTCGAACCCAAGCTGGAGAAGTGGGCCGCGACCCAGCCACGTTATGTGCGCCTGACCCCGGTGCCGGCAGCGTTCGGCGGCCCCTGGGATGCCTACGCGCGCGCCTACCTGGCCGCCGACGCGCTCGGCGTGGCCAAGCGCAGCCACATGGCGATGTTCCAGGCCCTGCACGACACGCACAGCATGCCGATCCAGAACGTCTCCGCCGACGAACTGGCCACCTTCTACGCCGGTTACGGCGTGCCGCGCGAGCGCTTCATCGACACCCTGCGCAGCGACCAGGTGCAGGCGCAGATGAAGGCCGCCCGCGACTTCGCCGTGCGCTCGGGCGTGCGCGGCACCCCAAGCATCATCATCAACGGCCGCTACATGGCCCGCGGCCACGATTTCGACGACGTGCTGCGCGTGGCCGACTACCTGATCAAGCGCGAACACGCCGCCGCGCACTGA	MRSLSKLLLLMLLIPLAACAAESKTPVAGEDYIEIPDGQPWQPLDGKVEVVEIFGYTCPHCAHFEPKLEKWAATQPRYVRLTPVPAAFGGPWDAYARAYLAADALGVAKRSHMAMFQALHDTHSMPIQNVSADELATFYAGYGVPRERFIDTLRSDQVQAQMKAARDFAVRSGVRGTPSIIINGRYMARGHDFDDVLRVADYLIKREHAAAH	PGPT0015115_513	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015115-dsbA-K03673	NA	NA
BMS020_08545	789			hypothetical protein	ATGCGCCACGCTCGCGTTCTCGCCTTCACTGCCCTTGCCGTGCCCGTGCTGGCCGCGGTCGCCTTCGCCCAGTCTTCGGTCATTCCGGTGCCCGACCACGACCCGGTCCGGGTCGCGCCGCTGGAGATCGACCTGTCCAAGACCACCTGGGGCGACGCCAAGGCCGGCCAGGCCAAGGCCGCCGCCTGCGCCGCCTGCCACGGCGCCGACGGCAATCCGGCGGTGGAGGTCTACCCGCGCATCGCCGGCCAGGGCGAGCGCTACATCGCCCACCAGATGGCGCTGATCGCCAACGGCCAGCGCACCGGCGGCGCGGTCGCGGCGATGATGCCGTTCGTGCAGGACCTGACCGCCCAGGACATGCGCGACATCGGCGCCTACTTCGCCACGCAGAAGGCCGGGGCCGGCATCGCCGACGACACCGCGGTGGCCGATGGCCCGTACAAGGACATGAAGTTCTACGAGGTCGGCCAAAAGCTGTACCGCGGCGGCGACGCCGAACGCGGCATCCCGGCCTGCATGGCCTGTCACGGCCCGACCGGCAGCGGCAACCCGGGCCCGGGCTATCCGCATCTGGGCGGGCAGCACGCCGAATACGTCGCGCGGCGCCTGCAGGAATACCGCGCCGGGCAGACCATCGAGAACGACCGCCACCTGTTCGACATCATGGCCCACGTCGCCAAGCCGCTCAGCGACCAGGAGATCCAGGCGCTGGCCAGCTACCTGCAGGGCCTGCATGATCGGGCCGACGACGTCGCCGCGGCGGCACCGGCGGCGGCCGCGCCATGA	MRHARVLAFTALAVPVLAAVAFAQSSVIPVPDHDPVRVAPLEIDLSKTTWGDAKAGQAKAAACAACHGADGNPAVEVYPRIAGQGERYIAHQMALIANGQRTGGAVAAMMPFVQDLTAQDMRDIGAYFATQKAGAGIADDTAVADGPYKDMKFYEVGQKLYRGGDAERGIPACMACHGPTGSGNPGPGYPHLGGQHAEYVARRLQEYRAGQTIENDRHLFDIMAHVAKPLSDQEIQALASYLQGLHDRADDVAAAAPAAAAP				NA	NA	NA	NA	NA
BMS020_08546	627	engB_2	COG0218	putative GTP-binding protein EngB	ATGCGCATGTCGCTGCTCATCGAACGTGCCCAGTACCTGCTTTCCGCCCACAACGCCCGGCAGCTGCCGGACGATGGCGGCCATGAAGTCGCCTTCGCCGGGCGTTCCAACGCCGGCAAGTCCAGCGCGCTCAATGCGCTGACCCGGCAGAACGGCCTGGCCAGGGTGTCCAAGACGCCGGGCCGGACCCAGCAGCTGGTGTTCTTCCAGATCCAGCCCGAGCGTTACCTGGTCGACCTGCCCGGCTATGGCTACGCCAAGGTGCCGCTGGAGCTGCAGGCGCACTGGCAGGCGTTCATCGACCGCTATTTCCGCACCCGCGAGGCGCTGCGCGGCCTGGTGGTGGTGATGGACATCCGCCACCCGCTCAAGGAGTACGACCTGCAGATGCTCGGCTACGCGGTCGCCCGCGGCCTGCCGGCGCACGCGCTGCTGACCAAGGCCGACAAGCTGGGCCGCGGCCAGCAGGCGCAGACGCTGCAGAAGGTGCGCAAGGAGCTGGCGTCGCGGTTTGCCGACAGCGTCACCGTGCAGACCTTCTCCGGTGAGTCGCGCCAGGGCGTGGACGAGCTGCGCGGCATCGTCGGCGGCTGGCTGGGCCTGGACGAAGACCAGCCGGCTGCCTGA	MRMSLLIERAQYLLSAHNARQLPDDGGHEVAFAGRSNAGKSSALNALTRQNGLARVSKTPGRTQQLVFFQIQPERYLVDLPGYGYAKVPLELQAHWQAFIDRYFRTREALRGLVVVMDIRHPLKEYDLQMLGYAVARGLPAHALLTKADKLGRGQQAQTLQKVRKELASRFADSVTVQTFSGESRQGVDELRGIVGGWLGLDEDQPAA	PGPT0003655_8	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003655-hemB-K01698	NA	NA
BMS020_08547	705			hypothetical protein	ATGCCACACACGCGCAGGCCCCACCGCGAACACCACCGCAGCGCGCGCATCGGCTGGCTGCGTGCGGCGGTGCTGGGCGCCAACGACGGCATCGTCTCGATCGCCGGCCTGGTGGTCGGCGTCGCCTCGGTCGGCGCGTCGGCCGGGCTGGTGCTGGCCAGCGGCGTCGCCGGCACCGTGGCCGGGGCGATGTCGATGGCCGCCGGCGAGTACGTATCGGTGCGCTCGCAGCTCGACACGGAGCAAGCCGACCTGGCGATCGAGCAGCGCGAACTGGACGAGCAGCCGCAGAGCGAACTGGAGGAACTGGCCGGCATCTACCGCCAGCGCGGGCTGTCGCCGGAGCTGGCCAGGCAGGTCGCCGAACAGCTCACCGCGCACGACGCGTTGGCCGCGCATGCGCGCGACGAGCTCGGCATCACCGACACGCTGCGCGCGCGCCCGCTGCAGGCCGCGCTGGCGTCGGCCGCGGCCTTCTGCACTGGTGCGCTGCTGCCGATCGCGGCGGCGGCGCTGGCGCCGCAGGGCCGGCAATCGTTCGTCACCGGCGTGGCCACCCTGCTCGGCCTGGGCCTGACCGGCGCCCTCGCCGCGCGTGCCGGCGGCGCACCGGGGCCGCGCGGCGCGTTGCGGGTGGTGTTCTGGGGCGCGGCGGCGATGCTGGCGACCGGCCTGGTCGGGCGCCTGGCCGGCGTGCATCTGTAA	MPHTRRPHREHHRSARIGWLRAAVLGANDGIVSIAGLVVGVASVGASAGLVLASGVAGTVAGAMSMAAGEYVSVRSQLDTEQADLAIEQRELDEQPQSELEELAGIYRQRGLSPELARQVAEQLTAHDALAAHARDELGITDTLRARPLQAALASAAAFCTGALLPIAAAALAPQGRQSFVTGVATLLGLGLTGALAARAGGAPGPRGALRVVFWGAAAMLATGLVGRLAGVHL				NA	NA	NA	NA	NA
BMS020_08548	1380	egtA	COG3572	Glutamate--cysteine ligase EgtA	TTGTCGAGTCCCAGCCACGTCGCCGATACGCCGATCACCGACCGCGTCCAACTGGTCGAGGTGCTGGCGTCGGGTGAAAAGCCCGCGGCGCAGTGGCGCATCGGCACCGAGCACGAGAAGTTCGGTTTCCGCCTGGACGACCTGCGCCCGCCGACCTTCGATGGCGAGCGCGGCATCGAGGCGCTGCTGACCGGCTTGACCCGCTTTGGCTGGCAGCCGGTGCAGGAAAGTGTCGACGGCGCGCCCGCCCGCACGATCGCGCTGCTGCGCGACGGCGCCTCGGTGACCTTGGAGCCGGCTGGCCAGCTCGAGCTGTCCGGCGCCGCGCTCGAGGACATCCACCAGACATGCATCGAGACCGGCACCCACCTGCGCGAAGTCAGCGAGGTCGCCGGCGAACTGCAGCTGGGTTTCCTCGGCATGGGCTTCCAGCCGAAGTGGGCGCGCGAGGACATGCCGTGGATGCCGAAGGGCCGCTACCGGATCATGCGCAGCTACATGCCCAAGGTCGGCCAGCTCGGCCTGGACATGATGACCCGCACCTGCACGGTGCAGGTCAACCTGGACTACGCGACCGAAGCGGACATGGTGAAGAAGTTCCGCGTATCGCTGGCCTTGCAGCCGATCGCGACCGCGCTGTTCGCCGATTCGCCGTTCACCGAGGGCCGGCCGAACGGCTACAAGAGCTACCGCTCGCACATCTGGACCGACACCGATGCCGACCGCACCGGCATGCTCGACTTCGTGTTCGAGGACGGCTTCGGCTACGAGCGCTACGTCGATTACCTGCTCGACGTGCCGATGTACTTCTCCTACCGCGACGGCATCTACCACGACGCATCGGGGCAGAGCTTCCGCGATTTCCTCGACGGCAGGCTGCCGGCGCTGCCGGGCGCGACGCCGACGCTGCGCGACTGGTCCGATCACATGACCACCGCGTTCCCGGAAGTGCGGTTGAAGAAGTACCTGGAAATGCGCGGCGCCGATGCCGGTCCGTGGGCGCGGCTGTGTGCGCTGCCGGCGTTCTGGGTCGGCCTGCTGTACGACGATGCCGCGCTGGATGCCGCGTGGGACCTGGTCAAGGATTTCAGCCTGGCCGAGCGCCATGCGCTGCGCGATGGTGTGCCGAAGCAGGCGCTGGCGCTGCCGTTCCGCGGCGGCACGGTGCGCGCGCTGGCACTGGAAGCGCTGAAGATCGCCCGCGAAGGCCTGCGCCGGCGCGCGCGCCGCAATGCCGACGGCCAGGACGAAAGCGCGTTCCTCGACGTGCTGCAGGAGATCGCCGACAGCGGCGTGACCGCGGCCGAGCGCAAGCTGGCGCTGTTCGACGGGCGCTGGAATGGCAGCGTCGATCCGCTGTTCGGCGAGTTCGCGTACTGA	MSSPSHVADTPITDRVQLVEVLASGEKPAAQWRIGTEHEKFGFRLDDLRPPTFDGERGIEALLTGLTRFGWQPVQESVDGAPARTIALLRDGASVTLEPAGQLELSGAALEDIHQTCIETGTHLREVSEVAGELQLGFLGMGFQPKWAREDMPWMPKGRYRIMRSYMPKVGQLGLDMMTRTCTVQVNLDYATEADMVKKFRVSLALQPIATALFADSPFTEGRPNGYKSYRSHIWTDTDADRTGMLDFVFEDGFGYERYVDYLLDVPMYFSYRDGIYHDASGQSFRDFLDGRLPALPGATPTLRDWSDHMTTAFPEVRLKKYLEMRGADAGPWARLCALPAFWVGLLYDDAALDAAWDLVKDFSLAERHALRDGVPKQALALPFRGGTVRALALEALKIAREGLRRRARRNADGQDESAFLDVLQEIADSGVTAAERKLALFDGRWNGSVDPLFGEFAY	PGPT0013035_2266	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013035-gshA|ybdK-K01919	NA	NA
BMS020_08549	1542	sasA_16		Adaptive-response sensory-kinase SasA	ATGAGCGGAGCGCGGCCGCGGCGCGGCCTGTCGATCTTCGCCCGCACCTTCCTGCTGCTTGCCGCGGCACTGGTGCTGGCCCAGGGCGTCGGCGTGGGCTTGCTGCTCACCCGCACGCCGATCTTCGACACGCCGGTGCATCCGCCGGAGGTCATCGCGCTGCTCACCACGCAGATGCCCGCGGCCAACGCCGACCTGCAGGTCGCCACGGTCGCCGCCGAGCCCGGCTCCCCCGCCGGGCAGCGCCGCGATGGCTTCATCGAGCAGGTGATCGCCCGCTGGATGGGCATCGAGGTCGGTCGCGTGCGCTTCTACCGCGATCCGATCGATGGCGAACCCGGGCCGCTCGACGGCCAGGCGCCGCCAAATGACATGGCGCGGATGGGCCCGCCGCATTTCGACCCGGACCAGGGGCCGCCGAACGGGGTACCGCCGCCGCATGACGGCTTCGCCCCGCCCGAGCCGCCGAACGCGCCCACTGCATCCCAGCGTCCGCCGGGTGGCGAGCGCAGCAGTGCGCAGGCCACCGACAGCGAGCGTGCGCTGGGACGCCCCTGGCACGGTGGCGGCTTCCCGCTCGGGTTCGCGCCGGGCTCGCCGCAATGGGGGCGTTTCACCGTCGCCGTGCACCAGGAGGATGGCCAGTGGCGTGTGGTCAGTTCGCCCGGACGGCGGCTGTCGGGTGCCTTCAAGACCCAGGTCGCCCTGCTGTTCAGCTGCGGCCTGCTGCTGATGCTGCCGATCGCCTGGTGGTTCTCGCGCGCGTTGTCCTCGCCGCTGCGGCGCTTCTCCGAAGCCGCCGACCAGCTCGGCCGCAACCCGCACGCGCCACCGCTGGAGCGCAGCGGCCCGGCCGAGATCGCCCAGGCCGCCGACTCGTTCAACGCGATGCAGGGCCGCCTGAACCGCATGGTCCACGAACGCACGCAGATGGTCGCGGCGATCGCCCACGACCTGCGCACGCCACTGGCGCGGCTGGCGTTCCGGATGGAGTCGGTGCCCGATGCGCTGCGCGAGAAGACCCTGGCCGACATCGAGGAGATGAAGGCGATGATCTCGGCGGCGCTGGACTTCATCAAGAACGACGCGCGCCGCGGCCAACGCTCGCGCATCGATTTCCAGCTGCTGGCCGAGAGCGTGGTCGACAACCTCGCCGACACCGGCGCCGACACCAGCCTGCTGCCCGGCGATTCGGTCGAGATCGACGGCGACCCGCTGGCGTTGCGGCGCATGGTCACCAACCTGGTCGAGAACGCGCTGAAGTACGGCAAGCGCGCGCGCGTGCAGGTCCGCCGCGACGGCGCGCAGGCACTGCTGCTGGTCGACGACGACGGTCCTGGCATCGACCCGGCGCAGCGCGAACACCTGCTGCTGCCGTTCGTGCGCGGGGAGAGTTCGCGCAACCGCGACACCGGCGGCATCGGCCTGGGCCTGGCGGTCGCCAACAGCATCGCGCTGGCCCATGGCGGCGAGATCGGACTCGACAACCGCGCCGACGGCGGCCTGCGGGTCAGCGTGCGCCTGCCCCGGCACGAGGCCTGA	MSGARPRRGLSIFARTFLLLAAALVLAQGVGVGLLLTRTPIFDTPVHPPEVIALLTTQMPAANADLQVATVAAEPGSPAGQRRDGFIEQVIARWMGIEVGRVRFYRDPIDGEPGPLDGQAPPNDMARMGPPHFDPDQGPPNGVPPPHDGFAPPEPPNAPTASQRPPGGERSSAQATDSERALGRPWHGGGFPLGFAPGSPQWGRFTVAVHQEDGQWRVVSSPGRRLSGAFKTQVALLFSCGLLLMLPIAWWFSRALSSPLRRFSEAADQLGRNPHAPPLERSGPAEIAQAADSFNAMQGRLNRMVHERTQMVAAIAHDLRTPLARLAFRMESVPDALREKTLADIEEMKAMISAALDFIKNDARRGQRSRIDFQLLAESVVDNLADTGADTSLLPGDSVEIDGDPLALRRMVTNLVENALKYGKRARVQVRRDGAQALLLVDDDGPGIDPAQREHLLLPFVRGESSRNRDTGGIGLGLAVANSIALAHGGEIGLDNRADGGLRVSVRLPRHEA	PGPT0004100_1170	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
BMS020_08550	864	ompR_6		Transcriptional regulatory protein OmpR	ATGCCGGGTCATGCCGCCAGCGCCACGAATGTGGCAAGCGTTGACAAAATCCGGAAGTATGATGCGGGCTCCAGCCCTGCAACCTACGCAACCCCATGGCCGGGGGTCAGACGTCAGGGGGGCGCCAACGACGTACCGAACGACATGATGGACATGCAATCCTCCATTCTGGTGGTCGACGACGACCCCGACCTGCGCCGGCTGATCAGCGATTTCCTCGGCGAACACGGCTACCACGTCCAGGCCGCCGAGAGCGTGCCGGAAATGCGCCGGCTGATGACCCAGCGCCGCCCCGACCTGGTGATCCTCGACGTGATGATGCCGGGCGAAGACGGCCTCAGCGCCGCCCGCGCCCTGGCCAGCGAGCGCGGCTCGCCGGCGGTGATCATGCTCAGCGCGCTCGGCGACGACACCGACCGCATCATCGGCCTGGAAGTCGGCGCCGACGATTACCTGGGCAAGCCGTGCAATCCGCGCGAGCTGCTGGCCCGCGTCCGCGCCCTGCTGCGCCGCAGCCAGGCCAACGCCGAGATGGCCGAGACCCGCGGCAACGTCTATGAGTTCGCTGGCTGGCGCCTGGACCTGGTGCGCCGCGACCTGCGCGATCCGACCGGGGTGTTCATCAACCTCTCCGACGGCGAATTCGCGCTGCTGCGCACCTTCGTCGAACACCCGCAGCGCGTGCTCAGCCGCGACCAGCTGCTGGACTACTCGCGTGGCCGCGATACCGACGTCTACGACCGTGCCATCGACAGCCAGATCAGCCGCCTGCGCCGCAAGATCAACGAGCGCGTGCACACCGAACTGATCCGCACCGTGCGCAACGAAGGCTACATGCTGCTGCCGGCGGTCACCCGCCTGTGA	MPGHAASATNVASVDKIRKYDAGSSPATYATPWPGVRRQGGANDVPNDMMDMQSSILVVDDDPDLRRLISDFLGEHGYHVQAAESVPEMRRLMTQRRPDLVILDVMMPGEDGLSAARALASERGSPAVIMLSALGDDTDRIIGLEVGADDYLGKPCNPRELLARVRALLRRSQANAEMAETRGNVYEFAGWRLDLVRRDLRDPTGVFINLSDGEFALLRTFVEHPQRVLSRDQLLDYSRGRDTDVYDRAIDSQISRLRRKINERVHTELIRTVRNEGYMLLPAVTRL	PGPT0012985_465	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
BMS020_08551	1020			hypothetical protein	ATGGCTTCAACGGCAATCCGGGTCATCAGCCGGGACAACGGGGTCGGTCTGACCCGTGATCTGGCGTTGATGGCGACGACGCTGCGTACCGAAGGCGTGCAGGTGGACACGGTCGGGTTCGGCAGCAACGGCATGCGCACCCGCCTGCGCGAGGCCGGCATGTGGGCGATGCGCGGGGTCCGCGGCAAGGTGCCGGTGCAGATCTTCTCCGAACGGGTCTACCAACGCTGCCTGCCGCTGGGCGCGCGCAACCTGCTGGTGCCCAATCCGGAATGGATGCTGCCGAAGTGGCTGCCGTACCTGCGCGAGTTCGACGCGGTGCTGTGCAAGACCCGGCACGCCGAGCGCATCTTCCGCAATCTGGGGTGCCAGACCCGCTACGTCGGCTTCACCAGCGAGGACCGCAACGATCCGGGCGTGGTCCGCGAGCGCGCGTTCTTCCACCTGGCCGGGCGCAGCTCGGCCAAGGGCACGCGCGTGCTGCTGGAGACCTGGAAGCGCCATCCGGAATGGCCGCGGCTGACGGTGGTGCAGAACCCGCGCACCGCTGGCGAACAGGTGCGTGCCGGCAACATCGACCACCGGCTGGAATATGTCGACGATGCCGCACTGCGGCGGCTGCAGAACGCCCACCAGTTCCACCTGTGCCCGTCGGAAACCGAAGGCTTCGGCCACTATCTGATGGAGGCCCTGAGCGTCGGGGCGGTGGTGCTGGCCACCGACGCCGAGCCGATGAACGAGCTGGTCACCCCGCAGCGCGGCCTGCTGATCCCGGCCGCGAGCGCGCGCCAGCGCCAGTTGGTGTCCTATTACTACGTCGATGGCGCCGGCATCGAACAGACGGTCCAGCGCGCCCTGGCGCTGCCGGCCGAACGCCTGGCCGAGCTGTCGGCCGCGGCGCGCGCGCACTTCGTGCTCAATGCCGATGCGTTCGCGATGCGCTTCCGCCACGCGGTGATGCCGTTCGTCGCCGGCCGCGCCGCCGCGGCCGCGCCGGCCGCCGGTCTGGTGGAGGGCTGA	MASTAIRVISRDNGVGLTRDLALMATTLRTEGVQVDTVGFGSNGMRTRLREAGMWAMRGVRGKVPVQIFSERVYQRCLPLGARNLLVPNPEWMLPKWLPYLREFDAVLCKTRHAERIFRNLGCQTRYVGFTSEDRNDPGVVRERAFFHLAGRSSAKGTRVLLETWKRHPEWPRLTVVQNPRTAGEQVRAGNIDHRLEYVDDAALRRLQNAHQFHLCPSETEGFGHYLMEALSVGAVVLATDAEPMNELVTPQRGLLIPAASARQRQLVSYYYVDGAGIEQTVQRALALPAERLAELSAAARAHFVLNADAFAMRFRHAVMPFVAGRAAAAAPAAGLVEG				NA	NA	NA	NA	NA
BMS020_08552	909			hypothetical protein	ATGGGTGCCCCGGTCATGGATCCGATGCAGGCCGGGCCCGGGCGCCTGTTCCTGGTCGGCTGTCCGCGCTCGGGCACCACGTTGCTGCAGGCGATGCTGGCCGCGCACCCGCTGGTCGATTCGCTGCCGGAAACCCATTTCTTCCAGCACCTGCTGGGATGCGAGGACCATCGCCGGCTGCCGCAGGACGATGGTCCGGCGCGGCGTCTGCAGCACGCCCGGCGCCGCTGGATGGCCCGCGCCGGCGGGGCCGGGCAGCGCCGCGCGCGCCGCGCCTGGGCGCAGCTGGCCGAGCCGGCGCCGCGCGATGCGCGCGTGTCCGCGCAGATTGCGCAGTTCGTCGCCACGCTGGACCGGCGCTGCCTGGAGGCCGGCAAGCAGGTGTGGCTGGAAAAGACCCCCGACCACCTGTTCTACATCGCGCACATCCAGCGCCAGGTGCGCGGGGCGCGGTTCATCCACCTGCTGCGTGATGGCGAGGAAGTGGTGGCCTCGCTGTACGACGCGGCATGTCGCTACGCCGATTGGGCGCCGTACCGCGATCTGGAGCGTGCCGCCGCGCGCTGGAACCTGGCCGCGGCCGAGAGCCTGGCCTGGCTGGGCCGGCCCGGCCACCTGCTGGTGCGCTACGAAGCCCTGCTGGCCGACCCGGCCGCGGTGTTGCGGCGGATCGCCGAGTTTGCCGGTTTCGATTATTCCGAACGGATGCTGGTTGGCGCGGGGGATGCCGCCGCCACGGTGGTGCGTGCCGACGAGCCGTGGAAGCAGGCGGCCGCCGGCGCATTGCAGGACCGGCGCAAGTTCCAGCAGGTGTTCGACCCGGCCCGCCAGCAGGCGGTGCGCAGCCGGTTGCGTGGCCTGGCCTGGCAGGGCCTGGCCGGGCGCGAGGATGTGATTGCCAACGTGTGA	MGAPVMDPMQAGPGRLFLVGCPRSGTTLLQAMLAAHPLVDSLPETHFFQHLLGCEDHRRLPQDDGPARRLQHARRRWMARAGGAGQRRARRAWAQLAEPAPRDARVSAQIAQFVATLDRRCLEAGKQVWLEKTPDHLFYIAHIQRQVRGARFIHLLRDGEEVVASLYDAACRYADWAPYRDLERAAARWNLAAAESLAWLGRPGHLLVRYEALLADPAAVLRRIAEFAGFDYSERMLVGAGDAAATVVRADEPWKQAAAGALQDRRKFQQVFDPARQQAVRSRLRGLAWQGLAGREDVIANV				NA	NA	NA	NA	NA
BMS020_08553	639			hypothetical protein	ATGAAGATTTCGACGTGGTACGGCCCGGCCGCCAAGGCGGGCGTGGTCGCACTCGGGCTGCTGCTCAGCGGCTGCGCGACGATGTGCCCGGGACGCGACGCCGGTGGCCCGCCGCCGCCGGGTCATGGCCCGATGCCGCCGCCTCCGCCGCCGGAAGGCCGCCCGGATCCGGCGTTCGACCAGGCCTTGCAGGCCTGCGCCGCCGAGCAGGGGATCACCCTGCCGCCGCGCGATGGCAAGTCGCCGAAGGGTGCGGGCGAAGGCAAGGCCGATGCGCCGCGCCCGGACCGCGAAAAGCTCGACGCCTGCCTGTCGGGCAAGGGCTTCGAGCGTCCGGCCGGCCCGCCGCCGGGTGGCATGGGTGGCCCTGGTGGTCCCGGTGGTCCGGGCATGCCGCCGCATCGCCATCATCCGCGCGATCCGGCGTTCGAGGCGGCGTTCAAGGCCTGTGCCGCCGAACAGGGCGTGCAGTTGCCCGAGCCGGCGGCGGATGGCAAGCCGGGTGACGGCAAGCCGGGCGACCGGCCGAAGCTGGACGCGCTAGACCGCGACAAGCTCGGCGCCTGCCTGGAGCAGAAGGGCATCAAGCGCCCGGGTCCCGGCCCGGACGACAAGGCGCCGGCCCCGGCCGACCGCTGA	MKISTWYGPAAKAGVVALGLLLSGCATMCPGRDAGGPPPPGHGPMPPPPPPEGRPDPAFDQALQACAAEQGITLPPRDGKSPKGAGEGKADAPRPDREKLDACLSGKGFERPAGPPPGGMGGPGGPGGPGMPPHRHHPRDPAFEAAFKACAAEQGVQLPEPAADGKPGDGKPGDRPKLDALDRDKLGACLEQKGIKRPGPGPDDKAPAPADR				NA	NA	NA	NA	NA
BMS020_08554	846			hypothetical protein	ATGCGGGCACTCAAGAATTCCACACCATTGCCGATGCCGGATGCGAATCCGTACGACACCGCCATGGACATGCTCCCGCTGCTCGTCATCATCCTCGTCTCGCTGTGGGCCATCGTCGTCACCGTGATGGCCATCCGCAGCGGACGCGCGTTGCGCACCGAACGCGAAGCCCGCGAGGACGGCCAGGACAAACTGGAGCGCTATCGCACTGCGCTGGCCAAGCTGGAGGCGAGTGCATCGGAGACCGTCCGCCAGTTCAACGAGCTGCAGACGCGCCACCAGGATCTGCAGCGCGCCCACGACGCGGTCACCGATACCGAGACCGCCGTCGCGGAGCTGAGCGGCGACAGGCCGGCGCCGTCGCTGGTCAGCGTGGAGCAGGTCGACCTGTCGGCCGAGATCGGCACGCTGTTCGAACACGTGGCGCGCGTAGCCACGGCGATCCGCAACTACAGCGCGTTCACCCGCGGACACAACGGCCAGGAACATCCCAAGGCACGCTACGACCTGCTGTGGCTGGCCGACTGCCTGCACAGCTTCGACGAGATCGGCCGTGCGCTGACCAAGCGCAACCCGGCGGCACTGGCCGGCGCCTGCGCCGAGTTGACGTCGATGTACGAGACCTACCTCAAGGACGGTTCCGGCTACGACAGCCGCGACACCTTCCAGCGCCTGGCCGCGGCGGTGCCGCTGGGCGAGGCCAAGGAGGCGATCCGCGCGATCATGGACAAGGCCGCCCGCCTGCTCGAGGACAGCGGCATGGCGGTGTCGCCGGCACTGGCTTCGGACCGGCTGCAGCTGAGCGCGGCAGCGACCGCACGCACACCACGCCGCGCGGTCGGCTGA	MRALKNSTPLPMPDANPYDTAMDMLPLLVIILVSLWAIVVTVMAIRSGRALRTEREAREDGQDKLERYRTALAKLEASASETVRQFNELQTRHQDLQRAHDAVTDTETAVAELSGDRPAPSLVSVEQVDLSAEIGTLFEHVARVATAIRNYSAFTRGHNGQEHPKARYDLLWLADCLHSFDEIGRALTKRNPAALAGACAELTSMYETYLKDGSGYDSRDTFQRLAAAVPLGEAKEAIRAIMDKAARLLEDSGMAVSPALASDRLQLSAAATARTPRRAVG				NA	NA	NA	NA	NA
BMS020_08555	1614		COG3507	Non-reducing end alpha-L-arabinofuranosidase BoGH43A	ATGCCGGGCACTTCGCGCAGGGAACTGTTCAAGACGGTGGCCGCCGGCGCGCTGGCCGCACCGCTGGCCGCACTTGCGGGGCCTGCGACGACCGCGTGCCCGCCGTCGCCCGCGCCGCGCTGGCCCAGGGGCGTGGAAGGCCAGCGCTGCGCCGATCTCGGCGATGGCACCTATCTCAATCCGATCGTCGCCGGCGACCACCCGGACCCGAGCATCCTCAAGGACGGCGACGACTACTACATGACGTTCTCGTCGTTCTATTCCTACCCGGGCCTGGTGATCTGGCACTCCACCGACCTGGTCAACTGGGCGCCGGTCGGTGCCGCACTGCGCCAGGAGCTCGGCACGATCTGGGCGGTCGACCTGGTCAAGCACGACGGCCGCTACTTCATCTACCTGCCCGCCAACCCCGACGACCGCGGCTGGTCGATCTTCGTGATCTGGGCCGATGACATCCGCGGCCCGTGGAGCGCGCCGGTCGACCTGAAGATCGCCGGCTGCATCGATCCCGGCCACGTGGTCGGCGAGGATGGCCGCCGCTACCTGTTCGTCAACGGCATCCGCAGCATCCGCCTGCGCGACGACGGCCTGGCCACCGAGGGCGCGTTGCAGCCGGCCTACAGCCCGTGGCGCTACCCGGACGACTGGATCACCGAGAACTTCGCCCCGGAAGGTCCCAAGCTGTTGCGCCATGGCGGCTGGTTCTACCTGGTCACCGCGGTCGGCGGTACCGCCGGCCCGGTCACCGGGCACATGGTGATCGCCGCGCGCTCGCGCTCGGTGCACGGCCCCTGGGAGCACTGTCCGCACAACCCGCTGGTGCGCACCCAGCGTGAGGCCGAGCCGTGGTGGTCACGTGGCCATGCCACGCTGGTGGAAGGACCGGGCGGCGACTGGTGGATGGTCTATCACGGCTACGAGAACGGCTACCGCACGCTCGGCCGGCAGACGCTGCTGGAGCCGATCGAATGGACCGCCGACGGCTGGTTCCGCGCCCTCGGCGGCGACCTGTCGCGGCCGTTGCCGAAGCCGAAGGGCGGGCGTGCCAGCGTGGCGGGCACCGCGCTGTCGGACGATTTCAGCCAGGACCGCTTCGGCATCCAGTGGAGCTTCCACGACCCACGCCCGCAGGACCGCGCGCGGGCCACGCTGGCGCCGGGCGCGCTGCTGCTGTCGGCTGCCGGCACCTCGCCGATCGACGGCGCGCCGCTGACCTGCGGCGTGCCCGATCGCGACTACCAGGTCGAAGTCACGCTGGAGCCCGCCGCGGGCGCCGAAGGCGGGCTGCTGCTGTTCTACAACCACAAGGCCTTCGTCGGCGTCGGTTTCAGCGCCGATACGATCAAGTCGTTCCAGTACGCCGGCGAGGAGCAGTGGGCGCGGGCCAAGCGCCCCGGTGGCGCGGTGCGGGTGCGGCTGAGCAACGTCGGCCAGGTGGTGACCTTCGCGTACTCCCACGATGGCGGCCGCAGTTGGCAGCGCCATCCGACCCGCATGGAAGTGTCGGGGCTGCACCACAACGTGTTCGGCGGCTTCCTCAGCCTCAAGGTCGGGCTGTACGCCGCCGGCGAGGGGCAGGTGCGGATCAGCGATTTCCGCTACCGCGCGCTGTAA	MPGTSRRELFKTVAAGALAAPLAALAGPATTACPPSPAPRWPRGVEGQRCADLGDGTYLNPIVAGDHPDPSILKDGDDYYMTFSSFYSYPGLVIWHSTDLVNWAPVGAALRQELGTIWAVDLVKHDGRYFIYLPANPDDRGWSIFVIWADDIRGPWSAPVDLKIAGCIDPGHVVGEDGRRYLFVNGIRSIRLRDDGLATEGALQPAYSPWRYPDDWITENFAPEGPKLLRHGGWFYLVTAVGGTAGPVTGHMVIAARSRSVHGPWEHCPHNPLVRTQREAEPWWSRGHATLVEGPGGDWWMVYHGYENGYRTLGRQTLLEPIEWTADGWFRALGGDLSRPLPKPKGGRASVAGTALSDDFSQDRFGIQWSFHDPRPQDRARATLAPGALLLSAAGTSPIDGAPLTCGVPDRDYQVEVTLEPAAGAEGGLLLFYNHKAFVGVGFSADTIKSFQYAGEEQWARAKRPGGAVRVRLSNVGQVVTFAYSHDGGRSWQRHPTRMEVSGLHHNVFGGFLSLKVGLYAAGEGQVRISDFRYRAL	PGPT0018665_925	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
BMS020_08556	387			hypothetical protein	ATGAAGACGAACTCCAGGAACGCAGGTTGGTTGGTCGCGGCGGGAGCGCTGCTGTTCGCCGCTGCGGCGGTGGCGGCACCGTCGAACAAGTGGCGGCTTGAACTCGACGGTCACGCCAGCGCGGCCGGCCGCATCGAACTCAACCTCACCCCGAAAGGCGCCAAGGCGGTGACGGTCGCGGTGGACATTCCCGCCGGCACCACCGAGAACGTCGCCGCGCGCCTGCTGCGCGATGCGATCAGCGCGCGCTTCGGCAGCGTGTACCACGTCGAGGTCGACGACGGCGAGGACGTGCTGGTCAAGGCGAAAGGCTCCACGCCCTCGTTCGAGCTGGTCGTGGTAAGCAATACCGCCACCGGGCTGAAGATCGAACCCGAGCACGAATGA	MKTNSRNAGWLVAAGALLFAAAAVAAPSNKWRLELDGHASAAGRIELNLTPKGAKAVTVAVDIPAGTTENVAARLLRDAISARFGSVYHVEVDDGEDVLVKAKGSTPSFELVVVSNTATGLKIEPEHE				NA	NA	NA	NA	NA
BMS020_08557	1140		COG1262	Formylglycine-generating enzyme	GTGGCGCTGGTCGTCGGCGCCAACCTCGGTGGCGCATCCGCCCCGCCTGCGCCGGCACCAGCGCCGCCACCGGCGCAGGCCAGCGCGACGGTCGTCCCGCACGTGGTGCGCGGCGACGCGCAGGCCGCCACCCGCGGCATGGTCTGGGTCCCCGGCGGGCAGTTCCTGATGGGCAGCGAGCATGCGATGGCGCAGCCGAACGAGCAGCCAACGCTGCACGTGCGCGTGCATGGCTTCTGGATGGATGCCACGCATGTGACCAATGCGCAGTTCCGCGCCTTCGTCGATGCCACCGGCTATGTGACCACCGCCGAGCGCAAGCCACGCTGGGAAGATCTCGCGGTGCAGCTGCCGCCGGATACGCCGCGACCGCCGGATGATGCGCTGGTGCCGGGCGCAATGGTCTTCATCGGCACCGACAACCAGGTCGACCTGGCTGATTACAGCCAGTGGTGGCACTTCGTGCCCGGCGCGGACTGGCGACATCCACAGGGCCCTGCAAGTTCGATCGAGGGCAAGGACAACCATCCGGTGGTGCAGGTCAGCTACGAGGACGCACTGGCGTATGCCAAGTGGGTCGGCAAGCGCCTGCCCACCGAGGCCGAATGGGAGTACGCCGCGCGCGGCGGGCTGGAGCAGGCCACCTATGCCTGGGGCGACGAGCTGACGCCGGACGGCAAATCCATGGCCAACTTCTGGGACGTCGAGCGCAAGGGGCACTTCCCGGTGGTCAGCCCCAAGGCCGGCGGCGCCACGGGCACGATGCGGGTGGGCGCATTCCCGCCCAATGGCTACGGCCTGTCGGACATGACCGGCAATGCCTGGCAGTGGACCGCAGACCTGTACCGCTCCGATTACTTCGCGATGCAGAAGCAGCGCGCCGGCGATGCGCTGATCGACGATCCGCACGGCCCCGCCGATTCCTGGGACATGGAGGACCGCACCACGGTCGCCGGCGCACCGCGGCGGGCGATCCGCGGCGGCTCGTTCCTGTGCAATGTCGAGTACTGCCTGAGCTACCGCCCCAGCGCGCGCCGCGGCAACGACCCGGTCAATCCGATGAGCCACCTCGGCTTCCGCCTGGTCAGCGACGCCGCCGCGCCATCTGACGACAGCAGCACGCGCACCGCATCCCGATGA	MALVVGANLGGASAPPAPAPAPPPAQASATVVPHVVRGDAQAATRGMVWVPGGQFLMGSEHAMAQPNEQPTLHVRVHGFWMDATHVTNAQFRAFVDATGYVTTAERKPRWEDLAVQLPPDTPRPPDDALVPGAMVFIGTDNQVDLADYSQWWHFVPGADWRHPQGPASSIEGKDNHPVVQVSYEDALAYAKWVGKRLPTEAEWEYAARGGLEQATYAWGDELTPDGKSMANFWDVERKGHFPVVSPKAGGATGTMRVGAFPPNGYGLSDMTGNAWQWTADLYRSDYFAMQKQRAGDALIDDPHGPADSWDMEDRTTVAGAPRRAIRGGSFLCNVEYCLSYRPSARRGNDPVNPMSHLGFRLVSDAAAPSDDSSTRTASR				NA	NA	NA	NA	NA
BMS020_08558	2382			hypothetical protein	GTGGCACAGCAGGCCAGCGGCACCTGGCCGGATCGCCTGCACCTGCCGATCGAGCCGTACCAGCCGAGCGGAAAGCTCTCGCCTGCGGTGCGTGATTCCACCAAGCTGGACTGGCCGCGCGAGATCCAGGCGCCGGCCGGCGCGCCCAATGTGCTGCTGGTGATGATGGATGACGTCGGCTTCGGCGCCAGCGAGCCGTTCGGTGGGCCGATCCCGGTGCCGACCTTCGCGCGCATGGCCAGCGAGGGCCTGCGCTACAACCGCTTCCACACCACCGCGGTGTGCTCGCCGTCGCGCGCAGCGCTGATCACCGGGCGCAACCACCATGTCGCCTCCACCGGCATCATCATGGAATTCTCCACGCCGTACCCGGGCTACCACAGCCTGGTGTCGCGCAGCGTCGGCACCATCGGCGAGATCCTCACCGACAACGGCTACGGCACCTCCTGGTTCGGCAAGAACCACAATGTGCCGGACTGGCAGACCTCGCCGGCCGGCCCGTACAACCTGTGGCCGACCGGACTGGGGTTTGAATACTTCTACGGCTTCCTGGGCGCCGATGCGCACCAGTACCGCCCCGCGGTGTACGAAGGCACCACCCCGGTCGATCCCTACCTCGGCCGCGAGGACACCTACCACTTCGATGCCGACATGGCCGACCACGCTATCAACTGGGTGCAGATGCGCAAGTCGGTGTGGCCGAAGAAGCCGTTCTTCATCTACTACACGCCGGGCACCGCGCATGCGCCGCACCACGCGCCCAAGGACTGGATCGCCAAGTTCAAGGGCAAGTTCGACATGGGCTGGGACAAGCTGCGCGAACAGACCTTCGAGCGGCAGAAGCAGCTCGGCATCATTCCCAAGGATGCGGTGCTCAACCCGACCCCGGCCGACTACAAGCGCTGGGACGATCTTTCGCCCGACATGAAGCGGGTGGCCGCGCGCGAGATGGAGGTCTACGCCGCCGCGCTAGCGCACGCCGATTACCAGGTCGGGCGGCTGGTGAGCACGATCGAGAAGATGGGCGAGCTCAACAACACGCTGGTGATCTACATCATGGGCGACAACGGCGCCAGCGCCGAGGATCCGACCGGCTTCGGCGTGACCAGCGAGCTGGCGACCTTCGTCAACGGCGTGGAAGACCGGCCCGAGTACATGGTGGAGAACATCGACCAGTTCGGCGGCATGTGGTTCCAGAACCACTACTCGCATGGCTGGGCGCATGCGATGAACACCCCGTTCCAATGGGACAAGAAGATCGCCTCGCACCTGGGTGGTAGTCGCACCGGCATGGCGATCCGCTGGCCCGGCCACATCAAGGACCCGGGGGCGATCCGCAGCCAGTTCGCCCATATCACCGATATCGTGCCAACCATCCTCGATGCGGCGGGCATTCCTGCACCGCAGACCATCAACGGTTTCAGCCAGGTGCCGATGAACGGCACCAGCCTGGTCTACACCTTCAATGACGCCAGCGCGAAGGAACGCCACATCACCCAGTACTTCGAGGTGATCGCCAACCAGGGCATCTACCACGATGGCTGGATCGCCAACACCACGCCGAAACGCCTACCGTGGCAAGGCCGTGGGCCGACCAACGCTGATCCGTTCAACGACTACGAGTGGGAGCTTTACAACCTCACCGAGGACTTCACCCAATCGCACAACGTGGCCAAGGAAAACCCGCAGAAGCTGGCCGAGATGCGCGCGCTGTTCAAGTCCGAGGCCGAGAAGAACAAGGTGTTCCCGCTGGACGACCGCTACATCGAGCGGATCGACCCGGCCAACCGGCCACAGCCGAACAAGGGGCGCACCCAGTTCGTCTATTACGATCACACCACCCGCATCACCGAGGGCATGGCGCCGAACATGAAGAACACCTCGTATAGCGTCACTGCGGACATCGAGGTGCCGCAGGGCGGCGGCAACGGCATCATCATGACCCAGGGTGGTTGGTTCGGCGGCAATGCGTTGATGTTGCTGGACGGCAAACCGGCCTATGCCTACGCGCTGTCGCACTACCCCGAGCACAAGACCAAGATCGTTGGGCCGTCCGCGCTTGGCGCCGGCAAGCACCGCATCGTGATGGACTTCGTCTACAACGGCGGCGGCACCGGAAAAGGCGGTGTGGCTACGCTCAGCGTCGATGGCAAGCAGGTCGCCAAGGGCCGGATCGAGCGCACGATCCCCTCGCGCGTGTCCGCCGACGAGACCTTCGACATCGGCGAGGATTCCGGTACGCCGGTGGTCAAGGACTACACCGTGCCATTCCGCTTCAGCGGCCACATCGACAAGGTCACCGTCGACCTGAAGCCGGCCGCCGGGCAGGTCGCCGGCGCGACCGCCGACGACACCGCGGCGGCGGCGTTGATGGTGGACTGA	MAQQASGTWPDRLHLPIEPYQPSGKLSPAVRDSTKLDWPREIQAPAGAPNVLLVMMDDVGFGASEPFGGPIPVPTFARMASEGLRYNRFHTTAVCSPSRAALITGRNHHVASTGIIMEFSTPYPGYHSLVSRSVGTIGEILTDNGYGTSWFGKNHNVPDWQTSPAGPYNLWPTGLGFEYFYGFLGADAHQYRPAVYEGTTPVDPYLGREDTYHFDADMADHAINWVQMRKSVWPKKPFFIYYTPGTAHAPHHAPKDWIAKFKGKFDMGWDKLREQTFERQKQLGIIPKDAVLNPTPADYKRWDDLSPDMKRVAAREMEVYAAALAHADYQVGRLVSTIEKMGELNNTLVIYIMGDNGASAEDPTGFGVTSELATFVNGVEDRPEYMVENIDQFGGMWFQNHYSHGWAHAMNTPFQWDKKIASHLGGSRTGMAIRWPGHIKDPGAIRSQFAHITDIVPTILDAAGIPAPQTINGFSQVPMNGTSLVYTFNDASAKERHITQYFEVIANQGIYHDGWIANTTPKRLPWQGRGPTNADPFNDYEWELYNLTEDFTQSHNVAKENPQKLAEMRALFKSEAEKNKVFPLDDRYIERIDPANRPQPNKGRTQFVYYDHTTRITEGMAPNMKNTSYSVTADIEVPQGGGNGIIMTQGGWFGGNALMLLDGKPAYAYALSHYPEHKTKIVGPSALGAGKHRIVMDFVYNGGGTGKGGVATLSVDGKQVAKGRIERTIPSRVSADETFDIGEDSGTPVVKDYTVPFRFSGHIDKVTVDLKPAAGQVAGATADDTAAAALMVD				NA	NA	NA	NA	NA
BMS020_08559	795			hypothetical protein	ATGAGGGATCTGGCACGTCTAGCCCTTGCGGTCGCCACGACGCTGGCACTGCCGGCACGCGCACAATCCGGTGAAGATGCCGACGCGCTGGCCAAGGCGCTGTCGAACCCGGTAGCGGCGCTGATCAGCGTGCCGTTCCAGTACAACTACGACGCCACCTACGGCGATGACGGCTACCGCAACACCTTGAACGTGCAGCCGGTGGTGCCGTTCTCGCTGTCGCAGGACTGGAACCTGATCTCGCGCACGATCCTGCCGCTGGTCTACCAGAACGACGTGGTGCCGGGCACCGACCAGGCGGGCCTGGGCGATACCGTGCAGAGCCTGTTCTTCTCGCCGAAGGAGCCGACCGCGTCGGGCCTGATCTGGGGCGTGGGACCGGTGATCATGCTGCCGACCGGCACCGATGATCTTGGCGCCAGGACCTGGGGCCTGGGCCCGACCTTCGTGGTGCTCAAGCAGGCCGGGCCATGGACCTATGGCGCGCTGCTCAACCATATCGCCGACGTCGGTGGCGTGGGCAACCGGCGCGCGGACATCAGCGCCACGTTCGTGCAGCCGTTCGTCACCCACGGCTTCTCTGGTGGCCGCACCCTGGCGATCAACCTCGAATCGACCTACGACTGGAAGGGCAGCCAGTGGACCGTGCCGCTGAACATCCAGTACTCCAAGGTCACCAAGCTCGGCAGCCAGATGATCAGCTTCCAGGGTGGCGTGCGCGCCTATCTGGAAACGCCCGCCGGTGGGCCCGACTGGGGGGCGCGCTTCGCCGTGACCCTGCTTTTCCCGCGTTAG	MRDLARLALAVATTLALPARAQSGEDADALAKALSNPVAALISVPFQYNYDATYGDDGYRNTLNVQPVVPFSLSQDWNLISRTILPLVYQNDVVPGTDQAGLGDTVQSLFFSPKEPTASGLIWGVGPVIMLPTGTDDLGARTWGLGPTFVVLKQAGPWTYGALLNHIADVGGVGNRRADISATFVQPFVTHGFSGGRTLAINLESTYDWKGSQWTVPLNIQYSKVTKLGSQMISFQGGVRAYLETPAGGPDWGARFAVTLLFPR				NA	NA	NA	NA	NA
BMS020_08560	258			hypothetical protein	GTGCCGTTGGAGCTGACCGGGCCGCTGCCGGCGGACGACAGCCCGGTGGAAGCCCGCATCGATGCATGGTGCGCCCTGGAGCACCTGTCCCGGCACACGCTCGCCACGTTGTCGCCGCGATGCCGCGAGGCCTTCCTGCTGCATCGCATCGACGGCCTGTCCTACCCGCAGATCGCGGTGGCGATGGGCATCTCGGTGAAGATGGTGGAGAAACACATCAGCCGCGCACTGGCGGCCTGCCGGGCGACACCGCGCTAG	MPLELTGPLPADDSPVEARIDAWCALEHLSRHTLATLSPRCREAFLLHRIDGLSYPQIAVAMGISVKMVEKHISRALAACRATPR	PGPT0003900_273	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003900-prhI|fecI-K23514	NA	NA
BMS020_08561	447			hypothetical protein	ATGCCAGCACCAAGCATGAGCACTGCAGCCGCAACCGAGCGCCGCGCCACCTATGGCACCGCCGCGGCAGCCACCTGGCGTGGCGCGATTACCTGGAGTTCACCGAGGCCAGGGGGCAACCGCCGCGACTGGCGGATCGGCGACGAGCGGGTGGCCTACGCCATCCCCGTGGAGCGTCGCACGCCACCGCCTGGCACGGGCATGCCAGCACGCTGGTACGTGCGCGAAGAAGACGCGGTGTACCGCGCGCGGTTCGACCAGGCGATCGCCGCACTGCACGGCGAGTTGCTCAGCTACATGCGGCGCCGGGTTGGCGATGCGGAGACCGCGGCCGATCTTGCCCAGGAGACGCTGCTGCGCATGCTGCGCTACCGCGACATGCCATGTATCCAGGACTACGCGCTGTTGATGTACCGCATCGCCCACAACTGCGTGCTCGAACACTAG	MPAPSMSTAAATERRATYGTAAAATWRGAITWSSPRPGGNRRDWRIGDERVAYAIPVERRTPPPGTGMPARWYVREEDAVYRARFDQAIAALHGELLSYMRRRVGDAETAADLAQETLLRMLRYRDMPCIQDYALLMYRIAHNCVLEH				NA	NA	NA	NA	NA
BMS020_08562	243			hypothetical protein	ATGCCGACCAAGACGCCATCCACATCACCTCCCAAGGCCCGAGCGCGTGTCGCAGCGCATATCAGGCGCCTGCGTGAGTCCATGGACCTGAGTCAGGAAAAGCTTGGCGAGCTGGCAGGGTTTCACCGCACCTACGTCTCTCAGCTGGAGCGCCAACGCACCAACATCTCCATCGACGGCTTGGAGCGGATCGCGCAAATCCTGGGCGTGGACGTGCTCGATCTTCTGCAGCCACCGGACTAG	MPTKTPSTSPPKARARVAAHIRRLRESMDLSQEKLGELAGFHRTYVSQLERQRTNISIDGLERIAQILGVDVLDLLQPPD				NA	NA	NA	NA	NA
BMS020_08563	333	emrE	COG2076	Multidrug transporter EmrE	ATGACGAGCTGGATCTGGCTGCTACTTGCAATCGTGGGTGAGGTGGTCGCAACGTCCGCGCTGAAAGCAAGCGACGGCTTCTCCAGGTTCGTCCCATCGACCGTGGTGGTCCTTGGCTATGGCATCACGTTCCTTGCGCTTTCCCATGCGCTCAAGACGCTTCCAGTCGGCCTGGCCTACGCCGTCTGGGCGGGCGTAGGCATGGTGCTGGTCACACTCATTGCATGGCGTGTGTACGGGCAAAAGCTCGATGCGTGGGCGATCTTCGGGATGGCGTTGATCATCAGCGGGGTCTGCGTCATGAACCTGCTCTCCACAACCACTCCCCACTGA	MTSWIWLLLAIVGEVVATSALKASDGFSRFVPSTVVVLGYGITFLALSHALKTLPVGLAYAVWAGVGMVLVTLIAWRVYGQKLDAWAIFGMALIISGVCVMNLLSTTTPH	PGPT0029010_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029010-ebr|qacEdelta1-K18975	NA	NA
BMS020_08564	765	fabG_21		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGACACGCCCGCTCTCCGACCAGATCGTCCTCGTCAGCGGAGGCGGCCGCGGACTGGGCGCCTCCATCGTCCGCGCCTTCGCACGCCAAGGCGCCAAGGTCGCGATCAACTATCGCCACAGCGCGGCGGCGGCCCAGGCACTCGCCGACACCCTCGGCCCCGGGGTGCGGGCCTTCGCCGCCGATGTCACCGACCCGGACGCCGTGGCCCGGATGGTGGCGGCGATCACCGATACGTTCGGCGCGCCCACCACGCTGGTGCACAACGCGCTGGCCGACTTCCGCTTCGACGGCGATGCCAGGGCGCATCTGGAAACGTTGGACTGGGCGGCGCTGGCCAGCCAACTGCACACTGCCGTCGGCGGCGCACTGAACCTGATCCAGGCGCTTTCCAGCGCGTTCCGGCAACAGCGCTTCGGCCGGGTGATCACCATCGGCAGCAACCTGGTGCAGCACCCCGTGGTGCCCTACCACGACTACACCGCGGGCAAGGCCGCGCTGCTGGCGCTGACGCGCACGGCGGCGCGCGAACTCGGTCCCGCCGGCGTCACCGTCAACATGGTCTCCGGCGGCCTGCTGCGCACCACCGATGCCAGTGCCGCCACGCCGGATGCCCTCTTTGCGCTGATCGCAGCGCAGACCCCGTTGCAACGCGTGACCACCCCCGACGAACTTGCCGATGCGGTGCTGCTCTTCGCCTCGCCCTGGGCGCGGGCGATCACCGGGCAGAACCTGATCGTCGATGGCGGCCTGGTCTGCGGCTGA	MTRPLSDQIVLVSGGGRGLGASIVRAFARQGAKVAINYRHSAAAAQALADTLGPGVRAFAADVTDPDAVARMVAAITDTFGAPTTLVHNALADFRFDGDARAHLETLDWAALASQLHTAVGGALNLIQALSSAFRQQRFGRVITIGSNLVQHPVVPYHDYTAGKAALLALTRTAARELGPAGVTVNMVSGGLLRTTDASAATPDALFALIAAQTPLQRVTTPDELADAVLLFASPWARAITGQNLIVDGGLVCG	PGPT0003180_7923	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
BMS020_08565	816	thiD_2	COG0351	Hydroxymethylpyrimidine/phosphomethylpyrimidine kinase	ATGATCCCCAACATCCTCAGCATCGCCGGCTCCGACCCATCCGGCGGCGCCGGCATCCAGGCCGACATCAAGGCGATCTCGGCCTGCGGCGGCTATGCGATGGCGGCGGTGGCCGCGCTTACCGCGCAGAACACGCGCGGCGTGCAGGCGGTCCAGAACGTGGACGCCGCACTGGTCACCGCGCAGATCCAGTCGCTCAGGGCGGACATCCGCATCGATGCGGTGAAGATCGGCATGCTCGGCACCAGCGCGAACATCGAGGCGGTCGCGTACGCACTGGACGGCCTGCGCGCACCATGGGTGCTGGACCCGGTGATGGTCGCCAAGAGCGGCGATCGCCTGCTGCAGGCGGAGGCGGTACGCACACTGCGCACGCATCTGCTGCCGCGCGCCACGGTGATCACCCCCAACCTGCCCGAAGCGGCCGACCTGCTCGGCGTCGCCGAAGCCGGCAGCCGGGCGCAGATGCACGCACAGGCCGCCGCGCTGCTGGCGCTTGGCGCACGCGCGGTGGTCCTCAAAGGCGGCCATCTGCCGGGCGCAGACAGTCCCGACCTGCTGGCGACGCATGCCGGCACGACCTGGATCGAGGGCGTGCGGACCCACACCTCGCGCACCCACGGCACCGGCTGCACGTTCGCCGCGGCGCTGGCCACCCAGCTTGGCCATGGCCTGGCGTTGGTCGATGCGGTCCGCGCGGCCAAGGCCTATGTCAGCGGCGCGATCCGCGCGGCGCAGCAGCTGCAGGTCGGCCATGGCCATGGCCCGACCCATCACTTCCATCGCCTCTGGCACCTCCACGGACCCAGCACATGA	MIPNILSIAGSDPSGGAGIQADIKAISACGGYAMAAVAALTAQNTRGVQAVQNVDAALVTAQIQSLRADIRIDAVKIGMLGTSANIEAVAYALDGLRAPWVLDPVMVAKSGDRLLQAEAVRTLRTHLLPRATVITPNLPEAADLLGVAEAGSRAQMHAQAAALLALGARAVVLKGGHLPGADSPDLLATHAGTTWIEGVRTHTSRTHGTGCTFAAALATQLGHGLALVDAVRAAKAYVSGAIRAAQQLQVGHGHGPTHHFHRLWHLHGPST	PGPT0008915_2663	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
BMS020_08566	621	thiE_4	COG0352	Thiamine-phosphate synthase	ATGATCGGCGCGGTGCACGTGGTCACCGATGCGGGGTGCGGCCGCTGCACCCTCGACCAGGCGCGCGCCGCCGCGCGCGGTGGCGCCTGGGCCGTGCAGCTGCGCGACAAGCACGCCAGCGATGCGCAGCTGGCGGTGCAGGCGCGTCGCCTGCTGGCCTGCCTGGCACCGTTCGGCACACGGCTGATCATCAACGACCGGGTCGAGCTGGCCTGTGCGGTGGGCGCGCACGGCGTCCACATCGGCCAGCGCGATGGCGACCCTGGCCGGGTGCGCCGCCGGATCGGGCCGCACATGCTGCTCGGGCTGAGCATCGAGCACCCCTCGCAGGTGCGGCAGTTGGCGCGCGATACGGTCGATTACATCGGTGTCGGCCCTGTGCGCCAGACCGCGTCCAAACCGGATCACGCGCCGCCACTCGGCTTGGCCGGGTTGGCGCGCACGCTTCACGCCCTGCCGCAGCCCCTGCCGGCCATCGCCATCGGCGGGCTCGGCATCGACGACGTTCCCGCGCTCATCGCCGCCGGCGCCACGGGCATGGCGGTCGTGTCGGCGGTGAGCAGGTCGCATGCACCACGGGCCACCACCCGCGCCCTGGTCGCCGCCTGGGCCACGGCATGA	MIGAVHVVTDAGCGRCTLDQARAAARGGAWAVQLRDKHASDAQLAVQARRLLACLAPFGTRLIINDRVELACAVGAHGVHIGQRDGDPGRVRRRIGPHMLLGLSIEHPSQVRQLARDTVDYIGVGPVRQTASKPDHAPPLGLAGLARTLHALPQPLPAIAIGGLGIDDVPALIAAGATGMAVVSAVSRSHAPRATTRALVAAWATA	PGPT0008995_4341	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
BMS020_08567	792	thiM_2	COG2145	Hydroxyethylthiazole kinase	ATGAAGTCACCCGGCAGCCTCCTCGACGACGTCCGCGCCGCAGCGCCGCTCGTGCACAACATCACCAACTTCGTCGCCATGAATCCGATGGCGAACACGCTGCTCGCACTCGGCGCGTCGCCGGCGATGGTCCATGCGCAGGATGAGGTCGTGGAGTTCTGCGCGCTCGCGCAGGCGTTGACCATCAACATCGGCACCGCCGATGGCACCTGGGCCAGCGCGATGCTGGCGGCCGCGACGGCCATGCATGCAGGTGGGCGCCCCTGGGTGCTCGATCCGGTCGGTGTGGCGGCCACCGGATTCCGGCAGGCGCTGTGCGGGCGCCTGCTGGCACTGGCGCCGACGGTCGTGCGCGGCAATGCCTCGGAAATCCTGGCGCTGGCGGGTGCGGGCGGGCGCGCGCGCGGCGTGGACAGCGGCGATCCGGTCACGCACGCCGCGTCTGCCGCCAGGCAGCTGGCCATGCGTACTGGCGGCGTGGTCGTCGCCACCGGCGCGACCGACTACGTCACCGATGGCACGCGCGGGCTGTACATCGACAACGGCCACCCGTGGATGCCCAAGGTGACCGCGCTGGGCTGCTCGCTGACCGGTGTCGTGGCGGCCTTTGTCGCGGTGCACGCTTCGGCGCTGGAAGCGACCGCGGCGGCACTGGCGTACTACGGTCTGGCCGGCGAGATCGGTGCCGCGCATGCGCACGGCCCCGGCAGCTTCCAGGTCGCCTTCGTCGATGCGTTGCATGCGATCAGCGCGCCGCAGCTCGATGCCTGCGCACGGATCCGGCCGGGATGA	MKSPGSLLDDVRAAAPLVHNITNFVAMNPMANTLLALGASPAMVHAQDEVVEFCALAQALTINIGTADGTWASAMLAAATAMHAGGRPWVLDPVGVAATGFRQALCGRLLALAPTVVRGNASEILALAGAGGRARGVDSGDPVTHAASAARQLAMRTGGVVVATGATDYVTDGTRGLYIDNGHPWMPKVTALGCSLTGVVAAFVAVHASALEATAAALAYYGLAGEIGAAHAHGPGSFQVAFVDALHAISAPQLDACARIRPG	PGPT0008990_1654	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
BMS020_08569	276	frmR_2	COG1937	Transcriptional repressor FrmR	ATGCCGCATTCGCCGGAAGAAAAGAAGCGTGTGCTGACCCGGGTGCGGCGCGTGCGCGGCCAGTGCGATGCGCTGGAGCGCGCGCTCGAGGCCGGGGCCGATTGCGGGCCGGTGCTGCAGCAGATCGCGGCGATCCGCGGTGCGGTCAACGGGCTGATGTCCGAGGTGCTGGAGGCGCATATCCGCGAGGATTTCGCCCAGCCGGCGGCGTCGGACGCGCAGCGCGACGCGCGCGTGCAGGAACTGCTCGGCCTGGTCCGCTCCTATCTCAAGTGA	MPHSPEEKKRVLTRVRRVRGQCDALERALEAGADCGPVLQQIAAIRGAVNGLMSEVLEAHIREDFAQPAASDAQRDARVQELLGLVRSYLK				NA	NA	NA	NA	NA
BMS020_08570	1110	frmA_2	COG1062	S-(hydroxymethyl)glutathione dehydrogenase	ATGAAGTCCCGTGCCGCCGTTGCGTTTGGTCCCGGTCAGCCGCTGCAGATCGTCGAGATCGACGTCGCTCCGCCACAGGCGGGCGAGGTGCTGATCCGCGTGACCCACACCGGTGTCTGCCACACCGATGCCTTCACCCTGTCCGGCGATGATCCGGAAGGCCTGTTCCCGGTGGTGCTGGGCCATGAAGGCGCCGGCATCGTGGTCGAGGTGGGCGAGGGCGTGACCTCGGTGAAGCCGGGCGACCATGTGATCCCGCTGTACACCGCCGAGTGCGGCGAGTGCCTGTTCTGCAAGTCGGGCAAGACCAACCTGTGCGTGGCAGTGCGCGCGACCCAGGGCAAGGGCGTGATGCCCGACGGCACCACCCGCTTCAGCTACAACGGCGAGCCGATCTACCACTACATGGGCTGCTCGACCTTCAGCGAATACACCGTGGTGGCCGAGGTGTCGCTGGCCAAGATCAACCCGGAGGCGAACCCGGAGCACGTGTGCCTGCTCGGCTGCGGCGTCACCACCGGTATCGGTGCGGTGCACAACACCGCCAAGGTCGCCGAGGGCGACAGTGTGGCGGTGTTCGGGCTCGGCGGCATCGGCCTGGCGGTGATCCAGGGCGCGCGCCAGGCCAAGGCCGGGCGGATCATCGCGGTCGATACCAACCCGTCCAAGTTCGAGCTGGCCAAGCAGTTCGGCGCGACCGACTGCATCAACCCCAAGGACTTCGACAAGCCGATCCAGCAGGTGATCGTGGAGATGACCGGCTGGGGCGTGGACCATTCCTTCGAGTGCATCGGCAACACCCAGGTGATGCGCGCGGCGCTGGAGTGCGCGCACCGCGGCTGGGGCCAGAGCGTGATCATCGGCGTGGCCGGTGCCGGGCAGGAAATCTCCACCCGTCCGTTCCAGCTGGTCACCGGGCGAAAGTGGCTGGGCACCGCATTCGGCGGCGTGAAGGGCCGCAGCCAGCTGCCGGGCATGGTCGAGGACGCGATGAAGGGCGAGATCGAGCTGGCGCCGTTCGTCACTCACACGATGGGCCTGGACGAGATCAACGAAGCGTTCGAGCTGATGCACGAAGGCAAGTCGATCCGCTCGGTGGTGCACTACTGA	MKSRAAVAFGPGQPLQIVEIDVAPPQAGEVLIRVTHTGVCHTDAFTLSGDDPEGLFPVVLGHEGAGIVVEVGEGVTSVKPGDHVIPLYTAECGECLFCKSGKTNLCVAVRATQGKGVMPDGTTRFSYNGEPIYHYMGCSTFSEYTVVAEVSLAKINPEANPEHVCLLGCGVTTGIGAVHNTAKVAEGDSVAVFGLGGIGLAVIQGARQAKAGRIIAVDTNPSKFELAKQFGATDCINPKDFDKPIQQVIVEMTGWGVDHSFECIGNTQVMRAALECAHRGWGQSVIIGVAGAGQEISTRPFQLVTGRKWLGTAFGGVKGRSQLPGMVEDAMKGEIELAPFVTHTMGLDEINEAFELMHEGKSIRSVVHY	PGPT0006355_2907	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
BMS020_08571	354			hypothetical protein	GTGGTGAGCGTGTTCGACCTGCTGCATCGCAGCCCCAGGCCGTCGCGTCCGCGCGACGTGCTGGTGGATGCGATCGAGCAGGAGTTGCGCCGGCTCGGCCTGTTGGCCGGGCCGCTGGCGCCGCCGGTGGTGGTGCACAGCGCCTTCGGCGCCGACGAGATGCCGTTCGAGCACTGGCTGGCACGGGTGTTCGTGCCGCGCCTGCGCGAGGCGCAGCGGCAGCGGCGCTGGCCGCCATCGAGCCAGGTGGCGGTGGTGGCGATGCGCAATTTCGACGGGCGCGACGACTACGCGCCGCTGCTGGAACTGTTGGGACAACTGGACGCCGACATCAACGGCGACGAGCGGCACTGA	MVSVFDLLHRSPRPSRPRDVLVDAIEQELRRLGLLAGPLAPPVVVHSAFGADEMPFEHWLARVFVPRLREAQRQRRWPPSSQVAVVAMRNFDGRDDYAPLLELLGQLDADINGDERH				NA	NA	NA	NA	NA
BMS020_08572	831	frmB	COG0627	S-formylglutathione hydrolase FrmB	ATGGAACGCATCGAACACCGCGCCTGCTTCGGCGGCTGGCAGGACGTCTACCGCCACGCCTCGGCCGTGCTGGGCTGCGACATGAACGTGGCGGTGTACCTGCCGCCACAGGCCGCCGCCGGTACCCGCCTGCCGGTGCTGTACTGGCTGAGCGGGTTGACCTGCACCGAGCAGAACTTCATCACCAAGGCCGGTGCGCAACGCTACGCAGCCGAGCATGGGGTGATCCTGGTCGCGCCGGACACCAGCCCGCGCGGCGATGCGGTGGCCGATGCGGACGGCTACGACCTGGGCAAGGGTGCCGGCTTCTACGTCAACGCCACGCAGGCGCCGTGGGCCGCGCACTACCGCATGTACGACTACATCGTGGAGGAGCTGCCGGCGTTGATCGAGGCGCACGTCCCGAGCAACGGCAAGCGGGCGATCAGCGGGCATTCGATGGGCGGGCACGGCGCGCTGGTGATCGCGTTGCGCAATCCGGGGCGCTACGCCAGCGTGTCGGCGTTCGCGCCGATCGTGGCGCCGTCGCAGGTACCGTGGGGCGAGAAGGCCTTCAGCGCTTATCTCGGCGAGGATCGCCAGGCCTGGTTGGGCTACGACGCCACCGCGCTGCTGGCGCAGGCCGGCGAGCGCCTGCCACTGCTGATCGACCAGGGCGGGGCGGATGAATTCCTCGAAGGCCAGCTGCGCCCGCATCTGTTCGCCGACGCCGCGGCGGCGGCCGGCCACCCGCTGACGTTGCGGATGCAGCCGGGCTACGACCACAGCTATTACTTCATCGCCAGCTTCATCGGCGAACACATCGCCTACCACGCGCAGGCGATGCGCTGA	MERIEHRACFGGWQDVYRHASAVLGCDMNVAVYLPPQAAAGTRLPVLYWLSGLTCTEQNFITKAGAQRYAAEHGVILVAPDTSPRGDAVADADGYDLGKGAGFYVNATQAPWAAHYRMYDYIVEELPALIEAHVPSNGKRAISGHSMGGHGALVIALRNPGRYASVSAFAPIVAPSQVPWGEKAFSAYLGEDRQAWLGYDATALLAQAGERLPLLIDQGGADEFLEGQLRPHLFADAAAAAGHPLTLRMQPGYDHSYYFIASFIGEHIAYHAQAMR	PGPT0002120_2137	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0002120-frmB|fghA-K01070	NA	NA
BMS020_08573	915			hypothetical protein	ATGAGCGGACATCCTGAAGACCACGACCTTGGCCTCCAGCACGACCTGGAGGTGATGCAACAGCGCATGCGCGAACGGCGCCGGCTGCTCGGCATGCTGGCCACCGGCAGCGCCGCGCTGGTGCTGGGCGGCTGCGGCGGCGGCTCCAGCAGCTCCGATGCCAGCACCGCCAGTACCAGCAGCTCCTCGTCCAGCGGCTCCTCCAGCGGCTCTTCCTCGGGCACCACCAGCGGCACCGACGCCAACGGCGGCACCTGCCTGGTCGACCCCACCGAGACCCAGGGCCCCTACCCGGCCGACGGCTCCAACAGCGTCAGCGGCAGCGTGGTCAACGTGCTCTCGCAGAGCGGCGTGGTGCGCAGCGACATCACCAGCAGCTTCGGCGACTACACCGGCACCGCCGAGGGCCTGCCGCTGACGCTGACGATCACCCTGGTCAACGTCAACGACAGCTGCGCCGCGCTGGAAGGCTATGCGGTCTACCTGTGGCACTGCACCCGCGACGGCACCTACTCGCTGTACAGCAGCGGCGTCCAGGACGAGAACTACCTGCGCGGCGTGCAGGAGACCGACAGCAACGGCCAGATCACCTTCACCACGATCTTCCCGGCCTGCTACGACGGCCGCTGGCCGCACATCCATTTCGAGGTCTACCCGAGCCTGGACAGCGCCACCAGCTACACCAACAAGGTGCTGACCTCGCAGATGGCGATGGACAGCGACATCTGCGACACGGTCTACGCGAACGTCAGCGGCTACAGCGCCAGCGTGACCAACAAGGCCAAGGTCAGCATCTCCAGCGACAACGTGTTCGGCGACAACAGCGACGAGGAAATCGCCTGGCAGACGCCGACCTTCAGCGGCAACACCACCGACGGCTATACCGCCACGATCAGCATCGGCATCGCCGCCTGA	MSGHPEDHDLGLQHDLEVMQQRMRERRRLLGMLATGSAALVLGGCGGGSSSSDASTASTSSSSSSGSSSGSSSGTTSGTDANGGTCLVDPTETQGPYPADGSNSVSGSVVNVLSQSGVVRSDITSSFGDYTGTAEGLPLTLTITLVNVNDSCAALEGYAVYLWHCTRDGTYSLYSSGVQDENYLRGVQETDSNGQITFTTIFPACYDGRWPHIHFEVYPSLDSATSYTNKVLTSQMAMDSDICDTVYANVSGYSASVTNKAKVSISSDNVFGDNSDEEIAWQTPTFSGNTTDGYTATISIGIAA				NA	NA	NA	NA	NA
BMS020_08574	747	mltF_4		Membrane-bound lytic murein transglycosylase F	ATGGCGCCCGTGGCCTGCATGCGAGGATCGCCGGCATTGCTCCCGTTTGCCGCGGCCCGACCGGAGCCGCGCTTTTGCCAGCCCATGTGCCACCAGACGCATACGCCAGTGCATGACACGTTCGCCGTCGCGCCGCCGGGCCGGCGGCGCCGGCGCGCGCGCACCTGGGCGCTGCTGGGCCTGGCCCTGTTGGGGGGGGCGCAGGGCGGCGCGGCCCAGGTGCTGCAGGTTGAGGACGACGGCAGCGTGCGCCGCATCGGCGCCGGATGGCCTGCCGCCGATGCCACCGACGACCATGATCGCCCGCCGCTTGCTGCGGTGCCGCACCGATACCGCGCGGCGCTGGAGGCGGCCGCGGCCGAGACCAGATTGAGCGTGCAGCTGCTGCAGGCGCTGGCCTGGTCGGAGTCCGCATTCGACCCGGCCGCGGTGTCGCCGGCCGGCGCGATCGGCCTGATGCAGCTGATGCCGCAGACCGCGCAGGCGCTGGGCGTGGATCCGCGCGACCCGCAGCAGAACATCCTCGGCGGGGCGCGCTACCTGCGCCAGCAGCTGGACCGGTTCGATGGCGATCTGGAACGCGCGCTGGCCGCCTACAACGCCGGGCCGGCCCAGGTCGAACGCCACGGCGGGGTGCCGCCGTTCCGCGAAACCCGCGCCTATGTCGCGGCCAATCTCGAGCGTCTGGCCGGCCTCAGCCTGGCCGCCGCGCCCACGCCGTCCCCTTCTCCCGGAGGAGTTCCATGA	MAPVACMRGSPALLPFAAARPEPRFCQPMCHQTHTPVHDTFAVAPPGRRRRRARTWALLGLALLGGAQGGAAQVLQVEDDGSVRRIGAGWPAADATDDHDRPPLAAVPHRYRAALEAAAAETRLSVQLLQALAWSESAFDPAAVSPAGAIGLMQLMPQTAQALGVDPRDPQQNILGGARYLRQQLDRFDGDLERALAAYNAGPAQVERHGGVPPFRETRAYVAANLERLAGLSLAAAPTPSPSPGGVP				NA	NA	NA	NA	NA
BMS020_08575	306			hypothetical protein	ATGAGCAACCGCAGCATCCGCGGCGCCGGCAGTGCACTGCTCGCGCTGGCCTCGCCCTCGGCCTTCGCCGCCCAGGCGGCCGACCCGGCCGGCTCCGGCCCGATCCTGTCGGCGCTGGACTGGATCCAGGGCACCCTGCTCGGCAACGTGGCCACCGCGGTGGCGGTGATCGCGGTGGCAGTGGTCGGGCTGATGATGCTGACCGGGCGCATCCACTGGCGCTTCGGCGCGACGGTGATCCTGGGCTGCTTCGTGCTGTTCGGCGCGACCACGATCGTCGCCGGCATCCGCAGCGCGGCGGGCTGA	MSNRSIRGAGSALLALASPSAFAAQAADPAGSGPILSALDWIQGTLLGNVATAVAVIAVAVVGLMMLTGRIHWRFGATVILGCFVLFGATTIVAGIRSAAG	PGPT0029875_228	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029875-virB2|lvhB2-K03197	NA	NA
BMS020_08576	285			hypothetical protein	ATGCCGCTGCCCGGCGCCGCGCCGATCTTCCCCGCGTTGGCGCGGCCGCAGATGTTCGCCGGCGTCACCTACAGCTTCTTCATCGTCAACGGCGTGGTGACCACCGAGGCGTTCCTGGTCACGCGCTCGTTCTGGGCGCTGCTGGTGGCGCTGCTGGTGCACGGCGTGGGCTACCTGGCCTGCCTGCGCGAACCGCGCGTGTTCGACCTGTGGTTCGTGCGCGTCAGCCGCTGCCCGCGCGTGCGCCAGTGGCGGCGCTGGCGCTGCAACAGCTATCCGCCGTGA	MPLPGAAPIFPALARPQMFAGVTYSFFIVNGVVTTEAFLVTRSFWALLVALLVHGVGYLACLREPRVFDLWFVRVSRCPRVRQWRRWRCNSYPP	PGPT0029880_329	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029880-virB3|lvhB3-K03198	NA	NA
BMS020_08577	2409	virB4_2	COG3451	Type IV secretion system protein virB4	ATGGGCATAGTCTCTGGATTCCGCGAACAAGGCGCCGGAACGCACCTGCCGTACGCGCGCCTGCTCGATGCGCAGACGGTGCAGCTGCGCGATGGCTCGCTGCTGCAATGCCTGCACCTGGCCGGGCTGGCGTTCGAGACCGCCGATGGCGAGGAGCTGCAGCTGCGCCAGCAGGCGCGCGAGGCCGCGCTGCGCGCGATCGCCGATTCGCGGCTGGTGCTGCACCACCACGTGCTGCGCCGGCGCGCCTCGGCTGCGCTGCCGGGGGCATACGACGATCCGGTCTGCGCGCTGATCGACCGCCGCTGGCGCGAACGGACCGGCAGTGGGCGGCTGTTCGTCAACGAGCTGTTCGTGTCGCTGCGGCGGCGGCCGAGCCGCGGCAAGACCGGCTGGGCCGAGCGCCTGTTCGGCGGCCTGCGCCATGGCGTGGGTGAGGCGGCACGCCAGCAGCAGCTGCAGCGCGAGCTGCGTGAACTCGATGCCGCGCGCGAGGCGCTGCTGGCCGTGCTGCAGCCATATGGCGCGCGCGTGCTGGGCGAGTACGACACCCCGCATGGGCGCTGTTCTGAACCACTGGAACTGTTGTCGGCGCTGTACAACGGCGAGCTGCGGCCGATGCTGGCGCCGCGGTCGGGCGATCTCGGCCATCATCTGCCATATCGCCGGATCAGTTTCGGGCTGGAGGCGATCGAACGTGCAGGGCCGGGGCCCGCGCGCGATTTCGCCGCGATGCTGTCGCTGAAGGAGTATCCGCCGCAGGCCGCGGCCGGCATGTTCGATGCGTTGCTGCGGTTGCCGCATGAGCTGGTGCTGGCCGAGAGCTTCGGCTTCGTCGAGCGCCAGCTTGGCCAGGAGCGCATCGCGCTGGCGTTGCGCCGGCAGCGTGCGGCCGAAGAGGATTCGGCCACGCTGCGCCAGGGCCTGGTGCAGGCCAAGGACGATCTGTCGGCCGGGCGCAGCGTGTTCGGCGAACATCGCCTGCAGCTGCAGGTGCGTGCGGACTCGCTGGCCGCGCTCGACGCGGCGGTGGCCGACTGCGCCGCGGCGCTGGCCGACCTCGGCGCGGTGGTGGTGCGCGAGGACAGCAACCTTGAGCCGGCGTTCTGGGCGCAGTTCCCCGGCAACGACGCGTATGCGGCGCGCAGCGCGCTGGTCTCCAGCACGGCGTTCGCCGGGTTGGCCTCGCTGCACGGCTTCCCGCTCGGCCAGGCCGAGGGCAATCATTGGGGCGAGGCGGTGACGGTGCTGGAGAGCAGCGCCGCAACGCCGTACTTCTTCAACTTCCACCGCGGCGACCTGGGCAACTTCACCGTGATCGGCCCGTCCGGCTCGGGCAAGACCGTGGTGCTGAACTTCCTCGCCGCGCAGGCGCAGAAGTGGCGGCCGCGGTTGGCGTTGTTCGACAAGGACCGCGGCGCGGAGATCTTCATCCGTGCGATCGGCGGTGCCTACGCGACACTGCGCGCCGGCAGTGCGACCGGCTTCAATCCCTTGCAGCTGCCCGACACGCCAGGCAACCGCGCGTTCCTGCGAGGCTGGGTCGCGCGGCTGCTGTGTGCGCCGGGGCAGACGCTGCAGGCCGACGAGGAGGCGATCGTCGCCGCCGCGGTCGATGCCAACTACGACCAGGCGCCCGAATACCGCCGCCTGCGCTGGTTCGCCGAGCTGCTGGCCGGGCGCCGGCGTCCCGAGCCGGGCGACCTGGCCGCGCGGCTGGCGCCGTGGCATGGCGAGGGCGAGCATGCGTGGCTGTTCGACCACGCGCACGACCGGCTCGATGCGTCGGTCGCGGTGCTCGGCTTCGACATGACCGAGCTGCTGGATGCGCCGGTGCTGCGCACGCCGGCGATGATGTACCTGTTCCACCGCGTCGAGGAGCGGCTGGACGGCAGCCCGGCGATGATCGTCATCGACGAGGGCTGGAAGGCGCTGGACGACGCGGTGTTCGCCGCGCATATCCGCGACTGGATGAAGACGCTGCGCAAGCGCAATGCGATCGTCGGCTTCGGTACCCAGAGCGCGCGCGATGCGCTCGACAGCCGGGTTGCCAGTGCGGTGATCGAGCAGGCCGCGACCCAGCTGTTCATGCCCAATCCGCGTGCCCGCGAGGCCGACTACTGCGGCGGCTTCGGCCTGACTGCGCAGGAGTTCGAGCTGGTGCGCACGCTGCCGCCCGGTGCGAACTGCTTCCTGGTCAAGCATGGCCACGACAGCGTGATCGCGCGGCTGGACCTGTCGGGCATGCCCGAGCTGCTGGCGGTGCTGTCCGGGCGCGAATCCAGCGTGCGCCGGCTCGATGCGCTGCGCGCCGAACACGGCGATGCGCCGCAGCGGTGGTGGCCGGCGCTGACCGGCACGCCGTGGCCGGGAGCGCCGCACGATGCGGATGCGGAGCGTGCCGCATGA	MGIVSGFREQGAGTHLPYARLLDAQTVQLRDGSLLQCLHLAGLAFETADGEELQLRQQAREAALRAIADSRLVLHHHVLRRRASAALPGAYDDPVCALIDRRWRERTGSGRLFVNELFVSLRRRPSRGKTGWAERLFGGLRHGVGEAARQQQLQRELRELDAAREALLAVLQPYGARVLGEYDTPHGRCSEPLELLSALYNGELRPMLAPRSGDLGHHLPYRRISFGLEAIERAGPGPARDFAAMLSLKEYPPQAAAGMFDALLRLPHELVLAESFGFVERQLGQERIALALRRQRAAEEDSATLRQGLVQAKDDLSAGRSVFGEHRLQLQVRADSLAALDAAVADCAAALADLGAVVVREDSNLEPAFWAQFPGNDAYAARSALVSSTAFAGLASLHGFPLGQAEGNHWGEAVTVLESSAATPYFFNFHRGDLGNFTVIGPSGSGKTVVLNFLAAQAQKWRPRLALFDKDRGAEIFIRAIGGAYATLRAGSATGFNPLQLPDTPGNRAFLRGWVARLLCAPGQTLQADEEAIVAAAVDANYDQAPEYRRLRWFAELLAGRRRPEPGDLAARLAPWHGEGEHAWLFDHAHDRLDASVAVLGFDMTELLDAPVLRTPAMMYLFHRVEERLDGSPAMIVIDEGWKALDDAVFAAHIRDWMKTLRKRNAIVGFGTQSARDALDSRVASAVIEQAATQLFMPNPRAREADYCGGFGLTAQEFELVRTLPPGANCFLVKHGHDSVIARLDLSGMPELLAVLSGRESSVRRLDALRAEHGDAPQRWWPALTGTPWPGAPHDADAERAA	PGPT0029885_361	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029885-virB4|lvhB4-K03199	NA	NA
BMS020_08578	1128			hypothetical protein	ATGATCCAGTGCCCGGCGATCCCGATCGACGGTGCGGGCGGCCTGGCCGGCGCGCTGGCGGCGATCGACTGCCAGCTTGGCGCGGCGGTGCAGGTCGGCTATGGCCGCATCTTCGGCGACGAGGGTGCGTTCGCACTGGCGTTGCGTGCCTTGCTGGTGATCTGGGTGGCGCTGCTCGGCTTGGCACTGATCGCGGGCCACCTGCGCCTGCGCATGCTGGGGCCGCGGCTGCTGGCGTTCGTGCTGGTGCTGACGTTTGCCACCGCGTGGCCGGCGTACCAGACATTGGTCTATGGCCTGCTGGTCGGTGGCCCGGACCAGATCGCCTCGGGCTTCCTCGGCGCGCAGCACGGCGCCACGCAGGCGTTCGCGCTGCAGCTGGACCGGGTGTTCGCCAGCCTGGTGGAACTTGCGCGCGGCTTCGATGCGCAGGCCGGCGATGATGCGGCGCTGAAGGCCGCTGCGCGGCTGGTGTGGGGCTGCGGCGTGCTGCTGCTGTGCTCCACCGTCGGGCTGCTGGTGGTGGCGCGGGTGGTGCTGGCGGTACTGCTGGCGCTGGGGCCGGTGTTCATCGTGCTGGGGCTGTTCCGTGCCACCCGCGGGCTGTGCGTGGGCTGGCTGCGCACCGCGCTGGCGTTCGCGTTCGTGCCGATGCTGGTCACCCTGTCCGGGGCGGCGCTGCTGCGCGTGCTGGCACCGGTGGTGGCGCTGATCGCGGCCGATCCGTTGGCCGCGGCGAAAGCGCAGACGCCGCTGCTGATGCTGCTGCTCGGCTGCGTGATCCATCTCGGGCTGCTGCTGGCGATGGCCTGGGCCGCCGCCGGCATCGTGCGCGGCTGGCGGTTTGGCGCGGGCGCCGACGGCAGCACCGGCGTGGACGCCGCCGCACCGGCGTCGCCGGCCGCGCCGCCACATGCCACTGCGCATGCGCGCGCGCAGGGCGGCAGCGCCCATGCGGCCGCGGCGCCGGCCCAAGCCGCGCCGGCGGTCGCCGGCGAACGCCGCGCCGCCGCCGTCAGCATCGCGCTGGCATCCACGGCACCCGTACCGCCGTCCACGCGTCAGGCCAGGCTTGGCCAGCGCCTGCGCACGGCCGCGCCCACCGCGTTGGGGGCGCGTTTCCGATGA	MIQCPAIPIDGAGGLAGALAAIDCQLGAAVQVGYGRIFGDEGAFALALRALLVIWVALLGLALIAGHLRLRMLGPRLLAFVLVLTFATAWPAYQTLVYGLLVGGPDQIASGFLGAQHGATQAFALQLDRVFASLVELARGFDAQAGDDAALKAAARLVWGCGVLLLCSTVGLLVVARVVLAVLLALGPVFIVLGLFRATRGLCVGWLRTALAFAFVPMLVTLSGAALLRVLAPVVALIAADPLAAAKAQTPLLMLLLGCVIHLGLLLAMAWAAAGIVRGWRFGAGADGSTGVDAAAPASPAAPPHATAHARAQGGSAHAAAAPAQAAPAVAGERRAAAVSIALASTAPVPPSTRQARLGQRLRTAAPTALGARFR	PGPT0029895_304	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029895-virB6|lvhB6-K03201	NA	NA
BMS020_08579	849	ptlF_2	COG3504	Type IV secretion system protein PtlF	ATGAGGACCACAGCGTTGCGCATGTCTCTCCCGTTCCCGTTCCTGATCCGCCTGCTGGCGCTGCTGGCAGTGTTGCCGGTGGCGGCGCATGCCGGCGGCCGTGATCCGCGCATCCGCACCCTCGATTACGACGATGGCGCAGTGGTACGCCTGGATGCGTGCTACGGCTTCCAGACCATGGTCGAGTTCGGCGCCGACGAGCGCATCGAGAACGTCGGCCTCGGCGAGGCCGCGCAGTGGCTGGTGGTGCCGAACAAGCGCGCCAACCTGCTGTTCGTCAAACCTTCGTACAAGGTCGCGCACAGCAACATGACCGTGGCCACCGACCGGCATCGCTACAGCTTCGAGCTGGTCGCGCGCGACAGCGAGGCCTGCCGCGCCGGGCGCGTGGTCTACGACCTGCGCTTCCGCTATCGGCAGGACGAGGCCGCCGCCGCGCGCAGCGCCGCCCCGGCGCCTGTCGCGCAGACGCCGCCGCCCGCACCGGCCCTGCCGCCAGTGGCGGCGCGCAATGCCGCCTACAGCTTCAGTGGCGCCGCCGAGAACGTGCCGTTGCGCGTGTTCGACGATGGCACGCGCACCTGGTTCAGCTGGGGCGAGGGTGCCAGCGCGCCGGCGGTGTTCGCGGTCGGCAGCGACGGTGCCGAGACCCTGGTCGGCTTCACCGCGCAGGACGGCTACCTGGTCGCCGACCAGGTGGCGCCGAAGTTCCTGCTACGTCGCGGGCAGTCGCTGGCGACGCTGTTCAACGACGGCTGGAAGACGCCGCAGCTGGATGCGCAGTCGCCGCAGCCGCGCGCACCGGCCTGCACCCCACGCTGGTTCCGGAGCTGCGCCGATGCACGCTGA	MRTTALRMSLPFPFLIRLLALLAVLPVAAHAGGRDPRIRTLDYDDGAVVRLDACYGFQTMVEFGADERIENVGLGEAAQWLVVPNKRANLLFVKPSYKVAHSNMTVATDRHRYSFELVARDSEACRAGRVVYDLRFRYRQDEAAAARSAAPAPVAQTPPPAPALPPVAARNAAYSFSGAAENVPLRVFDDGTRTWFSWGEGASAPAVFAVGSDGAETLVGFTAQDGYLVADQVAPKFLLRRGQSLATLFNDGWKTPQLDAQSPQPRAPACTPRWFRSCADAR	PGPT0022205_268	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0022205-virB9|lvhB9-K03204	NA	NA
BMS020_08581	444			hypothetical protein	ATGCACGTGCTGGAAGGAGGTCGCAAAGCGTTCCTGGAGTTCCTTCGCAATATGACACCGCAAATTCTGTTGCTGGCTCTTGCCCTCACTGTCAGCACTAGACTCAATTTCCACGAGTTCGACGCGAGCAACACACCAACAACGTTTTTCTTATTTTCGCTCGTCTTCCTAGCTGTCATTGGCATGGCTGCGAACTCGGTTAACTTCTTTGCTGATTATTGTCACAGCCTCACCGCGCTTGATGCAGCAGTTGCCACTCGGCTGAAGGCTGGCAAACGCACTTGGCGTCGCTTGCTGAGGGTGACTTTTGCGGAAGCCTGGAAGCTCAGGAAGGGCATGGCTCTAGAACTGGCGTTTTCCCTGCTCGCGGTAAATTCAGTGATGCTGGCTGTAGTCATCGGGGCGATATTCCAAGGCTCTGGTTTCCTGCGAGCCCTGCGGTGA	MHVLEGGRKAFLEFLRNMTPQILLLALALTVSTRLNFHEFDASNTPTTFFLFSLVFLAVIGMAANSVNFFADYCHSLTALDAAVATRLKAGKRTWRRLLRVTFAEAWKLRKGMALELAFSLLAVNSVMLAVVIGAIFQGSGFLRALR				NA	NA	NA	NA	NA
BMS020_08582	924			IS110 family transposase ISBcen8	ATGACGGCAGTAGGCATCGATGTAGGCAAGGCGGCCTTGGATGTGGCCGTCGAAGGTAAGCCAGGCGTGATGCGGGTGGCCAATTTGGCTGCGGGCATCCGTAAGCTGGTTCGTCAGCTTGTGGGGCTGGACCAGGTCCGGGTCTTGGTCGAAGCGACCGGTGGCTACGAGGAAGCGTTGCTCGAGGCTTGTTGCGACGCGAACGTGTGGATCGCTCGGGTCAATCCTCGGCAGGCGCGTCACTTCGCACGTGCCACCGGCGACGTCGCCAAGACGGATGCCATCGATGCACAGATGCTGTGCTTGATGGCCCGCATGTTCGCTGGCCGGCTGCAGCGCTACCATGCGCCACTGCCGTGGCAGCGCGAACTGCGCGACTGGCTGCGGCGCCGTGGGCAGGTCGTCGTCGCGCTGCAGGCACATCGGCAGCAGATGGCCATGTGCCCGACCCCGATTCGGCAGTTGGCTGCCAAGACCATCGCCGCGCTGCGCCGCGAGCTTGCAGCGATCGACCAACAGATGCGAGCTCTGCTGGAAGCGCATGCGTCACCGGCGCTGGGGTCGTGCAAGGGGCTGGGCCCGGTGTTTCAGGCCACCAGCCTGGCATTGTTGCCGGAGTTGGGGACGTTGAGTCGTCGCCAGATCCCGCGCCTGGTCGGCGTGGCGCCAATGAACCGAGACAGCGGTCAGAGCGCAGGTGTTCGACGCATCCGAGGAGGACGTGCGCCGGTACGAGTGGCCTTATACATGGCCACGCTTTCGGCCGTGCGTTGGGATGCGATGATGAAGGCGCACTACCAACAACTACGCGCGCGGGGAAAGCTCGCCAAAGTCGCGTTGGTGGCGTGCATGCGCAAGCTTCTGACCATCGTCAACGCGCGTCGTCGGGAAGAGTTGATGAGGGAGGCCGCCAAGCCCAGCTAA	MTAVGIDVGKAALDVAVEGKPGVMRVANLAAGIRKLVRQLVGLDQVRVLVEATGGYEEALLEACCDANVWIARVNPRQARHFARATGDVAKTDAIDAQMLCLMARMFAGRLQRYHAPLPWQRELRDWLRRRGQVVVALQAHRQQMAMCPTPIRQLAAKTIAALRRELAAIDQQMRALLEAHASPALGSCKGLGPVFQATSLALLPELGTLSRRQIPRLVGVAPMNRDSGQSAGVRRIRGGRAPVRVALYMATLSAVRWDAMMKAHYQQLRARGKLAKVALVACMRKLLTIVNARRREELMREAAKPS	PGPT0030635_4582	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
BMS020_08584	348			hypothetical protein	ATGGGAAAAGTGGAATACGGCCAGGAAATTCGCACCATCCACCAGTGGGAGAACTATCTAGACTGGTTAGATACCCACATCTCAATTCAAGGTGATTGTGTGGTTTGCAAATTTACCGACGAGTACAAAATCCCTCTCGCCAACTGCAAAACACCCACAAAAGTCCTAACTGAAGCCTTTACTCTTGCGTCTTGGTTAGCGAAAAACGAACCAAGTGCCAGCGGCCTTTATCTCGGAAAGAAATTTATTGAGCTAATTCTAAAACCCATGAAGCTCCCGCACGAGCTGCCTGAAATGTACGAAGATCTATCCAAGGCATTTACGATCATCCCTAAAAATAGTCCGTAA	MGKVEYGQEIRTIHQWENYLDWLDTHISIQGDCVVCKFTDEYKIPLANCKTPTKVLTEAFTLASWLAKNEPSASGLYLGKKFIELILKPMKLPHELPEMYEDLSKAFTIIPKNSP				NA	NA	NA	NA	NA
BMS020_08585	324			hypothetical protein	ATGGCAGGCGAAGTCGAAAAGCGGACAAAGCTAGCGCTCGACGCAATCCGGAAGGCGTACGGGACGGAGGCTGGCGAGTTTAGTTCCACCATGTTCGTCGGGCATCACCTGGATGAACTTCCGCAGGGCTACTGGCAGGAGCGCACTGCCACCGACGCACCGGATCCTGCAGCTGTACTTGGGCTACTTGAGCTAAAGTCCAACTGGGGTGAAGGTGACATTGAGAATTTTGATTTCTCTCTTCCCGGAGACGTAACAAACTACGTTCTATCCGTCCGGTTTAACGACTCCGGAGAGGTGGACGAGATCTCAATGGAGAGTTAG	MAGEVEKRTKLALDAIRKAYGTEAGEFSSTMFVGHHLDELPQGYWQERTATDAPDPAAVLGLLELKSNWGEGDIENFDFSLPGDVTNYVLSVRFNDSGEVDEISMES				NA	NA	NA	NA	NA
BMS020_08586	585			hypothetical protein	ATGGATATGTCAATTTCGGAAGCGCAAGCGGACATGCGACGGGGCTACTGCTGCGGCGGGGCCGGCATCCTGGCTTCGGCACTTGCCTGGTCGGTAGCGGCCGGTGTCGCAATCTTCTTCCCCGCCCCCAAAGCGGTCTGGACACTGCTCGCCGGCGGCATGCTGATTCATCCGGTCGGCGTGCTCATCTGCAAGCTGCTTCGGGCCAGCGGCTCCCACACCAAAGGCAATCCATTGGGCCAACTGGCAGGGGCAAGTACCTTCTGGCTCATCTTCTGCCTGCCGCTGGCCTATGCGCTCAGCCTGCAGAACCCGGCGTGGTTCTTTCCGGCCATGCTACTGATCATCGGCGGCCGCTACCTGGTGTTCGCCACGCTGTACGGCATGCGCCTGTATTGGGTGCTGGGCTTGGCCCTCGCCGGGGCGGGCCTCGCGCTTGGCTATCTCTCGGCGCCCGTGCGCGTGGCCGCCTTCACTGGCGCAGCCCTTGAAGCGATCTTCGCGGTCGCCTGCCTTGCCCAGCACCGTCGTCGGCTGCGCCCCAGCAATCCATTCGAGCCGAAGCCGGTTCGCGACTCGCCTTGA	MDMSISEAQADMRRGYCCGGAGILASALAWSVAAGVAIFFPAPKAVWTLLAGGMLIHPVGVLICKLLRASGSHTKGNPLGQLAGASTFWLIFCLPLAYALSLQNPAWFFPAMLLIIGGRYLVFATLYGMRLYWVLGLALAGAGLALGYLSAPVRVAAFTGAALEAIFAVACLAQHRRRLRPSNPFEPKPVRDSP				NA	NA	NA	NA	NA
BMS020_08587	210			hypothetical protein	GTGCTCTGGCATCAGGACATAGAGCTGCGCCGTGACACGAAGGGCCTGTTTCTCTTAACCCCCCGGAATGGTCACGTTACGCGCTTTGATGTTCCGGCCAACTTTGGCGGGGGACTGGTATCGGCAGCACGCATTCAGCAGACGTATCCAGAGGTGGCGCGCCGCTGTGGCCCTCCCTATGCCTATGGCTACCCGGTCAGTAGCTACTAG	MLWHQDIELRRDTKGLFLLTPRNGHVTRFDVPANFGGGLVSAARIQQTYPEVARRCGPPYAYGYPVSSY				NA	NA	NA	NA	NA
BMS020_08588	312			hypothetical protein	ATGGATGTCATACGGAAGCTGGCAGCAAGTCTTCTCGCACTCTCGCCGCTGACGGCCAGCGCCGCGGAAGCGATCACCCAGGCTCAGGACACCACAGCACGTACAGGCGTGTCCGCGATCTGGATTCTCGCCAACGTCAGCTATGCCGGCATGCGCGCACAGAACAGCCCCAATGCCACCTGGCGCATTATTTCCTTCATTTTTGGATTCCCAGGTACGCTCCTGAGCATGCTGGTGGTCAGGGAGGGGAGTGAGCGCGCCTACGGGATCGAGCTCCCTCGTGGCAGCGCCCGTCCCGACGACGGGGCCTGA	MDVIRKLAASLLALSPLTASAAEAITQAQDTTARTGVSAIWILANVSYAGMRAQNSPNATWRIISFIFGFPGTLLSMLVVREGSERAYGIELPRGSARPDDGA				NA	NA	NA	NA	NA
BMS020_08589	363			hypothetical protein	ATGAATTGCACGATACGCTGGCTCCTGCTGCTTCCAACGCTTGCCTTCAGCACCTTTGCGTCCTGGATGCTGTACCCGCTTGGCCACGCACTGGCGCTGCTGGCATGCCAGCCGTCATTGCGCGACACAGAGTCCACCACCGACTTATCGCGGCCCGACTATTCCGTCACCGCCGCTACCTGCGCGGCAGACTGGTTCCCCGTGGTGGATGCATGGCTGATGGCCCTGGCCATACTGCTCTGCATCGCCCTGGCGGGATTCGTCGGCTATCGCCTGCCCCCTTCGCATCGACGCCTATCGTCGGCACTCGCTTGCCTCTTGGTCGCCGGCGGCGTCTCCACTGCGCTCCTGCGCGGGAGCTGA	MNCTIRWLLLLPTLAFSTFASWMLYPLGHALALLACQPSLRDTESTTDLSRPDYSVTAATCAADWFPVVDAWLMALAILLCIALAGFVGYRLPPSHRRLSSALACLLVAGGVSTALLRGS				NA	NA	NA	NA	NA
BMS020_08590	321			hypothetical protein	ATGGATAGCGCGCTGGTCAAACTTTGGCTCATCGGGCTGCCTCTTCTCGGCGCCGGCGTGGTGAACTACATGGCCGTATCGCTGGCCGATGGTCGCAAGCACGTGCTCAGGCTGGCGGGGGTGGTCTTTGGCGCCGGAGGGATCCTGCTCACTGCTGTCTTGCTCTTCTGGCCGCTGATTTCGCTGCTCGCCTACATTACAGGCGAGTCGACCGGCATCGTTTCCCTGTTCAAGCCGCTGCTCGTCGGCGCAGCCGTCTGCACGCTCGGCTCCGCGACGACGCTTGTGGCCATCGCGTTCGCGGCCCGCCGCAGCGCCTGA	MDSALVKLWLIGLPLLGAGVVNYMAVSLADGRKHVLRLAGVVFGAGGILLTAVLLFWPLISLLAYITGESTGIVSLFKPLLVGAAVCTLGSATTLVAIAFAARRSA				NA	NA	NA	NA	NA
BMS020_08591	279			hypothetical protein	ATGTCGAACGCCTCGATCCACCATACCAATCGATTTGCCGCCAGCTGCTTCATGTTGGCCATTGCGTTCTTCGTCCTGGCCTGCACGGCAAGCCCCCTGTTCCTGGTCGCCGCGTTCGGGCTGGTCGCGGCGGGATTGGGCTGCAGCCGCCACACGCAGGACTATCTCTTCGGCGCGGCGCTGAGCACACTGCTGCTCTTCGCGTTCGGCTATCAGGTCGGCAAGGACCTTGCCAGGCACGAGGCACACCAGACGCCGACCGGCGCAGCCGCACACTGA	MSNASIHHTNRFAASCFMLAIAFFVLACTASPLFLVAAFGLVAAGLGCSRHTQDYLFGAALSTLLLFAFGYQVGKDLARHEAHQTPTGAAAH				NA	NA	NA	NA	NA
BMS020_08592	240			hypothetical protein	ATGACCAGGCTCCATGCCACGTCGCCTTACCTGCTGTTGCTCTGCGCCGCGGTATTTTTGCTCCGGGGCGGCAAGCAGCTGGTCGCCGGCATCAACGGTGGCCTGGCGGCCGCACCTGCCGGCACACATGCATTCGGCTACGCGGCCGGCCAGCTGGTGGCCTGCGCGTTGATGCTCGCTGCAGGCATTGCGTATCTCTGCCTTGCCGCGCGTGTGCGGGCCAACGCCAGGGCGACCTAG	MTRLHATSPYLLLLCAAVFLLRGGKQLVAGINGGLAAAPAGTHAFGYAAGQLVACALMLAAGIAYLCLAARVRANARAT				NA	NA	NA	NA	NA
BMS020_08593	627			hypothetical protein	ATGAACGTCAGGACGCTGCCGCTGCTGTACCTGTTCGACCTGATGGGCGTGGCGGTGTTCGCCACCAGCGGCGCGCTGGCGGCGATGACGGCCGGCATGGATATCCTCGGCATCCTGGTACTGGCGGCGGCCACCGCGATCGGCGGCGGCACGCTCCGCGACCTGCTGTTGGGCCGGCATCCAGTGTTCTGGATCAAGGACCCGACCTCGCTGTACGTGATCATCGGCGCGGCGATCCTGACCGTGACATGGGCGCAGTGGCGGCCGGTGCCGCGCGATGCGCTGCTGGTCGCCGATGCGCTCGGGCTCGCGCTGTTCGCGATCACCGGCGCCCAGGTCGCCGAGGACAAGGGCTGCTCGCCGCTGGTCGTGATCCTGATGGGCATGCTGACCGGCGCCGGCGGCGGCATCGTGCGCGACGTGCTGACCGCCCAGGTGCCTTTGATCTTCCGCACCGACATCTATGCCTCGGCGGCGATCGCCGGCATCGCGGCCTACCTGCTGGTCAGGGCGTTGCGTGCGCCCGATGCCTGGGCGATGGCGGTGGGCATTGCGGTGGTCGCGACGACGCGCCTGGTCGCGGTTGCGCTTGGCCTGCAGCTGCCGGCATTCGGGCTTGCGCATTAG	MNVRTLPLLYLFDLMGVAVFATSGALAAMTAGMDILGILVLAAATAIGGGTLRDLLLGRHPVFWIKDPTSLYVIIGAAILTVTWAQWRPVPRDALLVADALGLALFAITGAQVAEDKGCSPLVVILMGMLTGAGGGIVRDVLTAQVPLIFRTDIYASAAIAGIAAYLLVRALRAPDAWAMAVGIAVVATTRLVAVALGLQLPAFGLAH				NA	NA	NA	NA	NA
BMS020_08594	306			hypothetical protein	ATGCACGTTCTCGATCACGAACCCCACCGCTGGTTTCTGCTGCAGGACGGCGACACGCTGCTGCTCGACGCCAACTGCAACCACAGTTTCGTCGGCTACAGCGTGCTGGTCGCGCTGGATGCCGCCGAAGCCGAGACCTACCGCCGCGAGGGCCGCGGCGCCCTGCACCGGCTGGCCGATGCGATCCACGACAGCGCGCCGATCCTGGCCGCCAGCACCTCGCGCTACAAACCGCGCGACCTGACCGCGACACACGGCGCGCAGGTCAGTGCCGCCGTCGCCGCCTGGCGTGCGCGTGCTGGCTGA	MHVLDHEPHRWFLLQDGDTLLLDANCNHSFVGYSVLVALDAAEAETYRREGRGALHRLADAIHDSAPILAASTSRYKPRDLTATHGAQVSAAVAAWRARAG				NA	NA	NA	NA	NA
BMS020_08595	1185	natB	COG1668	ABC transporter permease protein NatB	ATGAACCTGTTCTCGACCCTGATGACGGTGCTGCGCAAGGAACTGCGCGACATCTCCCGCGACCGCCGCACGCTGGCGTTGACCCTGCTGCTCAGCCCGCTGCTGTACCCGGTGCTGATCCTCGGCATGGGCGCGCTGGCCGACAGCCGGGTCAAGACCCAGCTCGACAAGCCGCTGGACGTGCCGACCATCGGCGCGGCCAACGCGCCCAACCTGGTGCGCTTCCTCGCCGCGCAGGGGCTCAACGCGGTCGATCCGCCGCACGATGTGACCGCGGCGATCCGCGACCAGCGGATCGACGTCGCCCTGCGCATCAGCGACGACTACGCCGCCGCGTGGCGCGAAGGCCGCCCGGCGCTGGTGGAGATCCTGCGCGACAGCACCCGCCGCGACGCTGACGTGCCGAGCAAGCGCCTGCAGGCCGCGTTGGAGGGGTACAGCCAGCAGGTCGGTGCGCTGCGCTTGCTGGCGCGCGGCATTGATGCGCAGGTCGCACGACCTGTTGACGTCGCCACCCAGGACCTGGCCACCGCCGATGCGCGCCGCGGCATGCTGATGTCGGTGATGCTGCCGATCCTGCTGGTGATCACCTCGTTCGTCGGCGGCGCCTCGCTGATCCTCGATGCCACCGCCGGCGAGCGCGAACGCCAGTCGCTCGAGCCACTGCTGGCCACGCCGGCCTCGCGCAGCGCCATCGTCAGCGGCAAGATCGCCGCGGCCTGCGTGATCGGCATGGTGTCGCTGCTGCTGACCCTGCTGGCGTTCAAGCTCAGTGCGATGCTGTCCACCTCCGGGATCGGGCGCCAGCTCAACGTCGGCGTGGTGCCGATGCTGCAGATGCTGTTCATCCTGATGCCGATGCTGTTCATCGGCACCTCGCTGCTGACCTACCTGGCGGCCGCGGCCAAGAGCATGAAGGAGGCGCAGAGCCACATGACCTGGCTGATCCTGTTGCCGATGCTGCCGGGCTACGCGCTGATGGCGTATCCGCTGAAGACCCAGCTGTGGCAGTTCGCGGTGCCGTTCCTGGCGCAGAACCAGATGCTGCTGAAGGTGATCCGCCACGAGCAGATCAGCGCCGAGGTGTGGATCGTCTACCTGCTCGCTGGCTTCGGCCTCGCCGCGTTGCTGTGGTTCGCCGCGGTGCGTCGCTATCACCAGGAGCGGCTGGCGATCTCCGGCTGA	MNLFSTLMTVLRKELRDISRDRRTLALTLLLSPLLYPVLILGMGALADSRVKTQLDKPLDVPTIGAANAPNLVRFLAAQGLNAVDPPHDVTAAIRDQRIDVALRISDDYAAAWREGRPALVEILRDSTRRDADVPSKRLQAALEGYSQQVGALRLLARGIDAQVARPVDVATQDLATADARRGMLMSVMLPILLVITSFVGGASLILDATAGERERQSLEPLLATPASRSAIVSGKIAAACVIGMVSLLLTLLAFKLSAMLSTSGIGRQLNVGVVPMLQMLFILMPMLFIGTSLLTYLAAAAKSMKEAQSHMTWLILLPMLPGYALMAYPLKTQLWQFAVPFLAQNQMLLKVIRHEQISAEVWIVYLLAGFGLAALLWFAAVRRYHQERLAISG	PGPT0013870_216	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013870-natB-K09696	NA	NA
BMS020_08596	747	natA	COG4555	ABC transporter ATP-binding protein NatA	ATGATCGTCGCCGACCAGCTGCACAAGGCATTCAAGACCAAGACCGGCCTGGTCAAGGCGGTGGAGGACGTCAGCTTCCACGCCGCCGACGGCCAGATCACCGGTCTGCTCGGCCCCAATGGCGCCGGCAAGACCACCACGCTGCGCATGCTCTACACGCTGATGTCGCCCGACCGCGGCCAGGTCAGCGTGGACGGCATCGACGCCGCGGTCGATCCGATCGCGGTGCGCCGCCGGCTCGGCGTGCTGCCGGATGCACGCGGCGTCTACAAGCGCCTGACCGCGCGCGAGAACATCGCCTACTTCGGCGAGCTGCACGGCCTGGATCGCGCCCAGGTCGCCGAGCGCACCCGGGTGTTGTCGGCGGCGCTGGACATGGAGGACATCCTCGACCGCCAGACCGAGGGCTTCAGCCAAGGGCAGCGCACCAAGACCGCGATCGCGCGTGCGCTGGTGCACGACCCGCGCAACGTGATCCTCGACGAGCCCACCAATGGCCTGGACGTGATGACCACGCGCGCGCTGCGCGGCTTCCTGCAGCAGCTGCGCGCGGAGGGCCGCTGCGTGATCTTCTCCAGCCACATCATGCAGGAGGTGGCGGCGCTGTGTGACCGCATCGTCATCATCGCCAAGGGCACCGTGGTCGCCGCCGGCACCGCCGACGAGCTGCGCGCGCACACCGGCGAGGACAACCTGGAAGACGCCTTCGTCAAGGCGATCGGTTCGGACGAGGGCCTGCACGCATGA	MIVADQLHKAFKTKTGLVKAVEDVSFHAADGQITGLLGPNGAGKTTTLRMLYTLMSPDRGQVSVDGIDAAVDPIAVRRRLGVLPDARGVYKRLTARENIAYFGELHGLDRAQVAERTRVLSAALDMEDILDRQTEGFSQGQRTKTAIARALVHDPRNVILDEPTNGLDVMTTRALRGFLQQLRAEGRCVIFSSHIMQEVAALCDRIVIIAKGTVVAAGTADELRAHTGEDNLEDAFVKAIGSDEGLHA	PGPT0013875_237	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013875-natA-K09697	NA	NA
BMS020_08597	1560	caeA		Carboxylesterase A	ATGTCGAAAAAAATCCGAATCATCCTTGCGGTGCTGGTGGCGGCAGGCGTCATCGGCCATCGCGTCTGGGTGGCGCATGCGCCGCCTGCCACATCCGCGGCCGCGACCGACGCGGCCGCCGGCCCGCCCGCTGCGGCGGTCCGCATGCACGGCGCGCTGGCCTTCAGTCCGTGCACGCTGACCAGTCCGACCGCCTCCGGCAATGTCGAGGCGCAGTGCGCGACGCTGCAGGTGGCGGAGAATCCGGCCGCGCCGCAGGGCCGCAAGATCGGCCTGAAGATCGCCTGGCTGGAAGCGGGCGACAGCGGCAGCGCCGACCTCGATCCGGTGTTCTTCGTCGCCGGCGGCCCGGGCCAGTCGGCCACCGAAGTGGCCAGTACGGTCGAGATCGCGCTGCGTGAAGTGCTGCGCAAGCGCGACGTGTTCCTGGTCGACCAGCGCGGCACCGGTGGCTCCAACGCGCTGGAATGCACCGGCGCCGACGGCAAGCCGCTGGCGTTGCCCGACGATGCCGAGGCCACGCCCGAGCGCGTCACCGAGTACGCGCGGCAGTGCGCGGCGTCGTTGCAGGGGCGCGCCGATCCGCGCTTCTACACCACCACCGAGGCGATCGGCGACCTCGACGCGGTGCGCCAGGCGCTGGGGGCCGAACGCATCGACCTGGTCGGCGTCTCCTACGGCACCCGCGTGGTGCAGCAGTACGCCAAGCGCTTCGCCGCGCATACCCGCGCGATCGTGCTCGATGGCGTGGCGCCGAACGACCTGGTGGTCGGCGGCGAGTTCGCCACCACGTTCGAGGACGCGATCCGGCTGCAGTCCGCGCAGTGCCGCAAGACCGCGGCCTGTGCCAAGCGCTTCCCGACCGACACCCACGAACAGCTGCGCGCGGTGATGGCGCAGCTGCGCCAGGCGCCGGTCGAGGTGGACTACCGCGATCCCGGCACCGGCGAGGTTGCCCATGCCAAGGTCACCGCCGATACCGTGGTCGGGCTGGCGTTCGGCTTCTCCTACGCGCCGCAGACCGCATCGCTGCTGCCGTTGGTGCTGGATGAAGCCGCGCACGGCCGCTATGCGCCGCTGATGTCGCTGGCGGTGCTGGCCGGCGGCCGCATCGGCGGGCAGATGAACCGGGCGATGCAGTGGTCGGTGATCTGCGCCGAGGACGCCGACCGCTATCACGCGCCCGACGGTGGCCAGGCCACCCTGCTCGGTCCGGACGTGGCGAAGATGTTCTTCGCCGCCTGCCCGGCGTGGCCCACCGGCGCACGCCCGGCCGACTTCACCGCGCCGCTGTCCAGCGACGTGCCGGCGCTGCTGCTGTCGGGCCAGCTCGATCCGGTCACGCCGCCGCGCTACGCCGAGCGCGTGCTCGCGCAGCTGCGCAACGGCCGCCACCTGGTGGCGCCGGGGCAGGGCCACAACGTGATGGCCGCCGGCTGCATCCCCAAGCTGATGGGGCAGTTCATCGACGGCGCCGACGCCAAGGCACTCGACGCGCGCTGCGTGGACACGCTCAGCGATGTGCCCGCCTTCACCTCGTTCAACGGATGGGAACCATGA	MSKKIRIILAVLVAAGVIGHRVWVAHAPPATSAAATDAAAGPPAAAVRMHGALAFSPCTLTSPTASGNVEAQCATLQVAENPAAPQGRKIGLKIAWLEAGDSGSADLDPVFFVAGGPGQSATEVASTVEIALREVLRKRDVFLVDQRGTGGSNALECTGADGKPLALPDDAEATPERVTEYARQCAASLQGRADPRFYTTTEAIGDLDAVRQALGAERIDLVGVSYGTRVVQQYAKRFAAHTRAIVLDGVAPNDLVVGGEFATTFEDAIRLQSAQCRKTAACAKRFPTDTHEQLRAVMAQLRQAPVEVDYRDPGTGEVAHAKVTADTVVGLAFGFSYAPQTASLLPLVLDEAAHGRYAPLMSLAVLAGGRIGGQMNRAMQWSVICAEDADRYHAPDGGQATLLGPDVAKMFFAACPAWPTGARPADFTAPLSSDVPALLLSGQLDPVTPPRYAERVLAQLRNGRHLVAPGQGHNVMAAGCIPKLMGQFIDGADAKALDARCVDTLSDVPAFTSFNGWEP				NA	NA	NA	NA	NA
BMS020_08598	198			hypothetical protein	ATGAACAACCGCATGCGCGAACTGCGCGAGGCGGCGGGCTGGTCGCAGGGCGAGCTGGCCGAGCGGCTGGGCGTGTCGCGGCAGACGGTCAATGCGCTGGAGACCGGCAAGTACGATCCCAGCCTGCCACTGGCATTCCGCATCGCCGGGCTGTTCGGCGAGGCGATCGAGGGCATCTTCCTGTATCGGGAAGACTGA	MNNRMRELREAAGWSQGELAERLGVSRQTVNALETGKYDPSLPLAFRIAGLFGEAIEGIFLYRED	PGPT0008430_6404	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
BMS020_08599	582			hypothetical protein	ATGAGCGGGTGCCGGCGCAAGGCGATAGGTCTGCTGCTGGGGGCGTTGGCACTGTTGCTGCTATCCGCCGCCGGGCGCGCGCTGGGCTGGAGCGGCTACCTGCTCGGCCTGCTGGTCGGCACCGGCACTGGCCTGCTGGTCGCGGCGGTGCTGGCCTGGTTCGCCCCGGCCTCGCTCGGCGACAGCGCCACCCCGGCGCTGAAGCGCCAGTACTACCGCGATTTCGTCCCGCCGATGGCCGCCTACGTGCTGGTGATGCTGGGCTGGAAACGCCTGCTCGATCTCGTCGCGCTGCCGTGGCTGCGGGTACTGGTCGCCCTGCTGCCGGCGCTGCTGGTGGTCCTGGTGATCCGCGCGATGGCGCGCTACGTGCGCGATGCCGACGAACTGCAGCGGCGCATCGAGCTGGAATCGGTGGCGATCGCCGCCGCGCTGGTCGCCGCTGGCTACATGACCGCCGGCTTCCTGCAGTCGGCGGGGCTGATCGTGGTGCCGGCGGCGGTGGCGATGCTGTGGGTGTTCCCATTGCAGTGCATGGGCTACGGCATCAGCAAGATCGTCATCGCCCGGCGTTACGCATGA	MSGCRRKAIGLLLGALALLLLSAAGRALGWSGYLLGLLVGTGTGLLVAAVLAWFAPASLGDSATPALKRQYYRDFVPPMAAYVLVMLGWKRLLDLVALPWLRVLVALLPALLVVLVIRAMARYVRDADELQRRIELESVAIAAALVAAGYMTAGFLQSAGLIVVPAAVAMLWVFPLQCMGYGISKIVIARRYA				NA	NA	NA	NA	NA
BMS020_08600	840			hypothetical protein	ATGGAAACCGGCACCCTTTTCCTCATCACCGGCGTCAGCAGTGGCTTTGGTCGCGCGTTGGCGGTGTACGCACTGGCGGCGGGGCATCGGGTGGTCGGCACGGTGCGCCAGCCCGGGGCGGCGGCGGCGTTCGAAGCGCTCGCGCCAGGCCGGGCGCACGCGCGTCTGCTCGACCTGGGCCAGGGCGACGACGCGCGCTGCGTGGCGCTGGTCGATGAGATCGAGGCGACGCTCGGCGCGGTCGCGGTGCTGGTCAACAACGCCGGCTACGGCCATGAAGGCGTGCTGGAGGAGTCGCCGCTGGCGGCGATGCGGCAGCAGTTCGAGGTCAATGTGTTCGGCGCGGTGGCGATGATGCAGGCGGTGCTGCCGCACATGCGCGCGCGCCGCGCCGGCCGCATCCTCAACATCACCTCGATGGGCGGCTTCATCACCATGCCCGGCATCGCCTACTACTGCGGCAGCAAGTTCGCGCTGGAGGGCATCAGCGAAACGCTCGGCAAGGAAGTCGCCGCGCTCGGCATCCACGTCACCGCGGTGGCGCCCGGCTCGTTCCGGACCGACTGGGCCGGACGCTCGATGGTGCGCACGCCGCGCGCGATCGCCGACTACGACGCGCTGTTCGACCCGATCCGCCAGCGCCGGCAGCAGGTCAGCGGCCACCAGCTCGGCGATCCGGACAAGGCGGCCCAGGCGATGCTGGCGATCATCGCCGCCGATGCGCCGCCGCCGCACCTGCTGCTCGGCAGCGATGCGCTGCAGCTGGTGCGCGACAAGCATGCCGCGCTGGCCGCCGACTTCACGCGCTGGGAGGCGCTGAGCCGCTCCACCGACGGCTGA	METGTLFLITGVSSGFGRALAVYALAAGHRVVGTVRQPGAAAAFEALAPGRAHARLLDLGQGDDARCVALVDEIEATLGAVAVLVNNAGYGHEGVLEESPLAAMRQQFEVNVFGAVAMMQAVLPHMRARRAGRILNITSMGGFITMPGIAYYCGSKFALEGISETLGKEVAALGIHVTAVAPGSFRTDWAGRSMVRTPRAIADYDALFDPIRQRRQQVSGHQLGDPDKAAQAMLAIIAADAPPPHLLLGSDALQLVRDKHAALAADFTRWEALSRSTDG				NA	NA	NA	NA	NA
BMS020_08601	954	rhaR_9		HTH-type transcriptional activator RhaR	ATGACCCCCAGTCCCGAGACCCCGCCACCATCGCCATTGCCGCTGGCGCCGCTGCTGAAGGCCTTGGCGCCGAGCGAGGGCTATACGCTGACCGCGTTGCCGAGCGTGCGCCTGCTGCGTTCGGACCGCCCGCTCAGCCGCACGCCGGTGCTGTACGACCCCGGCATCGTGATCGTCTGCCAGGGCCGCAAGCGCGGCTATTTCGGGAAGCTCACCTACGTCTACGACGCCCACCAGTACCTGGCGGTGTCGGTGCCGGTGCCGTTCGACATGGAGACCGATGCGACGCCGGAGCAGCCGCTGCTGGCGCTGTACCTGCACCTGGATTTCGCCCTGGCCGCCGAGCTGATGCTGGAACTGGGCCGCCACGGCGCAGCGCAGGTCGCCACGGCCCCGGCGAGCATGCTGTCCAGTCCGATCGACGCCGACCTGCAGCTGGTCGTACAGCGGCTGCTGCAGGCGCTGGCGCGTCCGCTCGAGGCGGCCATCCTTGGCCCGCAGCTGCTGCGCGAGCTGTACTTCCGCGTGCTGACCGGCCCACAGGGCCCGGCGCTGCGGGCCGCGCTGGCGATGCAGGGCCGCTTCGGCAGCATCGGCAAGGCGTTGCGGCGCATCCACGCCGACCATCGGCAGCGCCTGAGCGTGGCCGCGCTGGCCGCCGAGGCCGGCATGAGCGCGCCGAGCTTCCACCAGCACTTCAAGGCGGTGACCTGCATGGCGCCGATGCAGTACCTGAAATCGACGCGGCTGCACCAGGCGCGCCTGCTGATGCTGCGCCAAGGCATGACCGCCGCCGCCGCGTGCCACGCGGTCGGCTACGAAAGCAGCTCGCAGTTCAACCGCGAGTTCAAGCGCCTGTTCGGGCTGACCCCGGCCCGGGAAGTGCAGCGCATGCGCGCCGGCTTCGCGCTGCCGCCGGCACAGCAGCACGGCGACTACGTGTCGTCGCACTGA	MTPSPETPPPSPLPLAPLLKALAPSEGYTLTALPSVRLLRSDRPLSRTPVLYDPGIVIVCQGRKRGYFGKLTYVYDAHQYLAVSVPVPFDMETDATPEQPLLALYLHLDFALAAELMLELGRHGAAQVATAPASMLSSPIDADLQLVVQRLLQALARPLEAAILGPQLLRELYFRVLTGPQGPALRAALAMQGRFGSIGKALRRIHADHRQRLSVAALAAEAGMSAPSFHQHFKAVTCMAPMQYLKSTRLHQARLLMLRQGMTAAAACHAVGYESSSQFNREFKRLFGLTPAREVQRMRAGFALPPAQQHGDYVSSH	PGPT0014658_11	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA	NA	NA
BMS020_08602	1152			hypothetical protein	ATGACGCTGGACTACACCACGCTGGCCGTGTTTGGCCTGCTGCAGACCTTCGCGGTCGCGTTCGGCTTCTCGTTGATCCTGCTGGTGCTGCGCCGGCAGCCGATCCTGCGCATGTGGGTGGCGGCGATGTGGCTGATGGCCATCGCCTTGCTGCTGGCGGTGCTGCGCCCGCAGATGCCGGAGCTGCTGTCGATCCTGGCCGGCAATGCCTGCGCAGCGTTGGGCAACATCCTGCTGCTGCGCGGCATCGGCCTGCATGTGGGGCGGCGGGTGCACTGGGCGGTGCTGGCGGCGTCGGCGGTGGCCTTGCTGCTGGTGCTGCTGGTCTTCAGCACGGTCCGCCACGACCTGGGCGTACGCATCGTGGCGTTTGCGACGATGCAGATCGCCTGGGATGCCTGGGTCGTGCTGTTGCTGCTGCGCGATGCGCCACCGGCGTTGCGCATGAGCTGCCGGCTGGCGGCGGCGGCGTTCGCGGCCGATGCGCTGTTCCAGGGCATGCGGCTGGTGATCCCGCTGCTGGGCGACGTCGGCCAGGACCTGTTGGGCACGGGCCAGCCGATGGCCATGGCCTACCTGGGGGGCATGCTGCTGACGCTGGCCGAGTGCTTCTCGCTGGTGCTGCTGATCGTGCAGCGGCTGATGGTCGATCTGCGCCGCTCGGCCCGGATCGACGGCCTGACCGGCCTACTCAACCGCACCGCCATGGTCATCGATGCCAGCGAGGCGCTGCGCCGCTGCCAGCGCCGACGCCAGCCCTGCGCGGTGGCGATGTTCGACCTGGACCACTTCAAGCGCATCAACGACAGCCGCGGGCATGAGGCCGGCGACAGCGTGCTGCGCCACTTCGCCGGACTGGCCGGCGAAGTGCTCGACGGACAGCACCACCTGCTCGGGCGCTGGGGCGGCGAGGAGTTCGTGCTGGTGCTGCCCGGCTGCACGTTGCCGCAGGCCGTGGTGCTGGCCGGACGGATCCGTGAGGCGTTGGCAGCCGCGCCGGTGCCGCTGCCGGGTGCAGCGCTGGGGGTGACGACCAGTGTCGGCGTGGCCGCGGCCGATGGCGGACAGACGCTGGAGCAGGTGGTGGCCGCGGCCGATGCCGCGCTGTATCGCGCCAAGACCGAGGGGCGCGACCGGGTGCTGGCCGCGTAG	MTLDYTTLAVFGLLQTFAVAFGFSLILLVLRRQPILRMWVAAMWLMAIALLLAVLRPQMPELLSILAGNACAALGNILLLRGIGLHVGRRVHWAVLAASAVALLLVLLVFSTVRHDLGVRIVAFATMQIAWDAWVVLLLLRDAPPALRMSCRLAAAAFAADALFQGMRLVIPLLGDVGQDLLGTGQPMAMAYLGGMLLTLAECFSLVLLIVQRLMVDLRRSARIDGLTGLLNRTAMVIDASEALRRCQRRRQPCAVAMFDLDHFKRINDSRGHEAGDSVLRHFAGLAGEVLDGQHHLLGRWGGEEFVLVLPGCTLPQAVVLAGRIREALAAAPVPLPGAALGVTTSVGVAAADGGQTLEQVVAAADAALYRAKTEGRDRVLAA				NA	NA	NA	NA	NA
BMS020_08603	750	mphP	COG0543	Phenol hydroxylase P5 protein	GTGTCCGTGCATTTCCCCCTCAAGCTGGTCGACCGCCGCATGCTGGCGCCGTCGGTCGGTCACTACCAGTTCCTGCGCGATGACGGCCAACCGCTGGATTTCCAGCCGGGCCAGTTCATCCAGGTGCACTTCCACTATGCCGACGGCACCGCGGCCAAGCGCAGCTATTCGCTGGCGACGATCCACGACCACGCGCTGGGGCCGGGCGAGGCGGTGGACATCGCGGTCAGCTTCGTGCCCGGCGGCGCGGCCACCGCGCTGTTCGAAGGCCTGGACATCGGCGGCCAGCTGCAGGCCAGTGGCCCGTACGGACGCTTCTGCCTGCTGCCGGGCGACGTGAACCGGCGCTACCTGCTGATCGCCACCGGCACCGGCGTCACCCCGTACCGCTCGATGCTGCCGCTGCTGGCGAGCGCGATCGCCGAGCGCGGCATCGAGGTGGTGCTGCTGCAGGGCGCGCGCACCCCGGGCGAGCTGCTGTATGGCGAGGATTTCCGCGCCTTCGCCAATGCCCACCCGGCATTCCGCTACGTGCCGTGCCTGTCGCGCGAACTGCCGGCCGACCCGCACCCGGACGTGCGCCACGGCTACGTGCAGCAGGCGCTGGCCGAGTTCGCCCCGGACCGCGCCGGCGATATCGCCTACCTGTGCGGCAACCCGGACATGGTCGACGCCTGCTTCGAGCAGCTCAAGGCTGCCGGGCTGTCCGGCGCGCAGATCCGGCGCGAGAAGTACGTCAGCAACAAATAG	MSVHFPLKLVDRRMLAPSVGHYQFLRDDGQPLDFQPGQFIQVHFHYADGTAAKRSYSLATIHDHALGPGEAVDIAVSFVPGGAATALFEGLDIGGQLQASGPYGRFCLLPGDVNRRYLLIATGTGVTPYRSMLPLLASAIAERGIEVVLLQGARTPGELLYGEDFRAFANAHPAFRYVPCLSRELPADPHPDVRHGYVQQALAEFAPDRAGDIAYLCGNPDMVDACFEQLKAAGLSGAQIRREKYVSNK				NA	NA	NA	NA	NA
BMS020_08604	948	yadG_3	COG1131	putative ABC transporter ATP-binding protein YadG	TTGAACCCCGCAACCGAAGCGACTCCCGCGCTGCGCGTGCGCGACCTCCGCAAGACCTACGACAACGGCACCCAGGCGCTGAAGGGCGTCTCGCTGGACGTCGCGCCGGGCGACTTCTTCGCCCTGCTCGGCCCCAACGGCGCCGGCAAGTCGACCCTGATCGGCATCATCTCCTCGCTGGTGAACCTGTCCGAGGGCAGCGTGGAGGTGTTCGGCACCGACCTGAGCGCCCATCGCAGCGACGCGATGCGGCTGATCGGCCTGGTCCCGCAGGAAATCAACTTCAACCTGTTCGAGAAGCCCTTCGACATCCTGGTCAACTACGCCGGCTTCTACGGCATGCCGCGCGAGGAGGCCGGCACGCTGGCCGAGATCGAACTCAAGCGCGCCCACCTGTGGGAGAAGGCGCAGGTGATGAGCCGCACGCTGTCCGGCGGCATGAAGCGCCGGCTGATGATCGCCCGCGCGATGATGACCCAGCCGAAGCTGCTGATCCTGGACGAACCCACCGCCGGCGTGGACATCGAGATCCGCCGCGACATGTGGCGGGTGCTGAAGGAGATCAACGCCGCCGGCACCACGATCATCCTGACCACGCACTACCTGGAAGAAGCCGAGAGCCTGTGCCGCAACCTGGCGATCATCAACCACGGCCGCATCGTCGAGCAGGGCCCGATGCGCGCGCTGCTGGCCAAGCTGGACGTGGAGGGCTTCCTGTTCGACATCGACGGTGAACTGCCGGCACAGCTGCCGGTGATCGAAGGCACCACGCTGACCGCGATCGACGCCCATACGCTGGACCTGGACATGCCGCGCGCGATGGACCTCAACCGGGTGTTCGACGCGCTCAACGCCGCCGGCATCCGCGTGCGTTCGATGCGCACCAAGTCCAACCGGCTGGAGGAGCTGTTCGTGCGCTTGACCGGCAACCTGGAGACCGCCGCATGA	MNPATEATPALRVRDLRKTYDNGTQALKGVSLDVAPGDFFALLGPNGAGKSTLIGIISSLVNLSEGSVEVFGTDLSAHRSDAMRLIGLVPQEINFNLFEKPFDILVNYAGFYGMPREEAGTLAEIELKRAHLWEKAQVMSRTLSGGMKRRLMIARAMMTQPKLLILDEPTAGVDIEIRRDMWRVLKEINAAGTTIILTTHYLEEAESLCRNLAIINHGRIVEQGPMRALLAKLDVEGFLFDIDGELPAQLPVIEGTTLTAIDAHTLDLDMPRAMDLNRVFDALNAAGIRVRSMRTKSNRLEELFVRLTGNLETAA	PGPT0006725_3008	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS020_08605	801	yadH_3	COG0842	Inner membrane transport permease YadH	ATGAGCGCGCCGACCGTGACCACCCAGACCAACACCCAGCGCAACTGGACCGCGCTGGGCACCATCGTGCGCCGCGAAGTGCAGCGCATCCTGCGCATCTGGGGCCAGACCCTGGTGCCCCCGGCGATCACCATGACGCTGTACTTCCTGATCTTCGGCGGCCTGATCGGCTCCAAGGTCGGGCCGATGGGCGGCTACAGCTACATGCAGTTCATCGTGCCGGGCCTGGTGATGATGAGCGTGATCCAGAACAGCTACGGCAACATCAGCTCCTCGTTCTTCGGCGCCAAGTTCGGCCGCCACGTCGAAGAGCTGCTGGTCAGCCCGATGCCGAACTGGGTGATCCTGTGGGGCTACGTGGCCGGCGCGGTGCTGCGCGGGGTGATGGTCGGGGTGATCGTGCTGATCATCGCGATGTTCTTCACCCCGGTGCGCATCCCGCACCCGCTGGTGACGCTGACCACGGTGCTGCTGGGCGCGACGATCTTCTCGCTGGCCGGCTTCATCAACGCGGTGTACGCGAAGAAGTTCGACGACGTGGCGATCGTGCCGACCTTCATCCTGACCCCGCTGACCTACCTGGGCGGCGTGTTCTATTCGGTCAGCCTGCTGCCGGGCTGGGCCGAGGCGGCCACGCACGCCAACCCGATCTTCTACATGGTCAACGCGTTCCGCTACGGCCTGCTCGGCTCCAGCGACGTGCCGCTGTGGGTGGCCTACGCGCTGATGCTGGGCTTCGTCGCGGTGCTCAGCGCGCTGGCGCTGCGGCTGCTGCGCCGCGGCGTGGGGCTGCGCAGCTGA	MSAPTVTTQTNTQRNWTALGTIVRREVQRILRIWGQTLVPPAITMTLYFLIFGGLIGSKVGPMGGYSYMQFIVPGLVMMSVIQNSYGNISSSFFGAKFGRHVEELLVSPMPNWVILWGYVAGAVLRGVMVGVIVLIIAMFFTPVRIPHPLVTLTTVLLGATIFSLAGFINAVYAKKFDDVAIVPTFILTPLTYLGGVFYSVSLLPGWAEAATHANPIFYMVNAFRYGLLGSSDVPLWVAYALMLGFVAVLSALALRLLRRGVGLRS	PGPT0006730_14815	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS020_08606	414			hypothetical protein	ATGGCGGTGCGGCGCGCCGCCCTGGTGCTGGCGACCTGCCTGTTCAGCGCCCCGGCGCTGGCGCAGCAGGCATCGCCGGCCGAGACCGGCGATGACGCCGCGCGCCTGGACCGCGCCGCCGAGGCCGACGGCGTGCAGATCGCCCAGGCGCGCTTCTGCCGCATCGACGCCGGCGAGGCCGATGGCTTCGCGCAGGCGCTGCTGCAGCGCGCCCGCGCGCGCAGCGCCGCGGCCGGCCTGCGCTTCGACGAGGCCGCCTACGCGGCGGCGACGCAGGCCGGCTACTCGCGCTTCCTCGGCGTGGCCGACTACATCGCCGCCGATCCCGACGGGCGCGCGTTCCGCCGCCAGTGCGACGAGGTGCGCCGCGAGGTGCGCGACGCGCTCGGCAAGCCCTCCCGGTCGGCGCGCTGA	MAVRRAALVLATCLFSAPALAQQASPAETGDDAARLDRAAEADGVQIAQARFCRIDAGEADGFAQALLQRARARSAAAGLRFDEAAYAAATQAGYSRFLGVADYIAADPDGRAFRRQCDEVRREVRDALGKPSRSAR				NA	NA	NA	NA	NA
BMS020_08607	942	panE_2	COG1893	2-dehydropantoate 2-reductase	ATGCGCATCCTGATCCTCGGCGCCGGCGGTACCGGCGGCTATTTCGGCGGCCGCCTCGCGCAGGCCGGTGTCGACGTCACCTTCCTGGTCCGCCCGGGCCGCGCCGCGCAGCTCGACGCGCACGGCCTGCAGCTGCGCAGCCCGCTCGGCGATGCCGACGTGCCGGTGCGCCACGTGCTGGCCGAGGCGCTGCCGGCGCTGGCCGCGGCGCAGCCGTTCGACCTGGTCGTACTGAGCTGCAAGTCCTACGACCTGGACGCTTCGATCGAGGCGATCGCCCCGGCCGTCGGCGCCGGCACCACGGTGCTGCCGATCCTCAACGGGCTGCGCCACTACGCGGCGCTGGACGCGCGCTTCGGCCGCGACCGCGTGCTGGCCGGGCTGTGCTTCATCAGCGCGACCAAGGGCGCCGACGGCCAGGTACTGCACCTGGGCAAGGCCGCCTCGGTCACCTTCGGCGAGCGCGACGGCGCCGCCGACAGCGCGCGCGTGCAGGCCTTCGCCGCCGCCTGTGCGCAGGCCGGCATCGAGCATGTCGCCTCGGCGCAGATCGCGCTGGAACAATGGATCAAGTACACCTTCCTGTGCGCGCTGGCCGCGGCGACCTGCATGATGCGCGCGCCGATCGGCCGCATCGTCGCCACCGAGGACGGCCGGGCGCTGATCAACGGCCTGTACAACGAGACCCTGATCGCCGCCGATGCCGACGGCCAGACCATCCCGCTGGCCGCGCGCGAGAAGGCGCTGGGCGCGCTGCTGCAGGTCGGCTCGGACCTCAAGGCATCGATGCTGCGCGACCTGGAAGCCGGGCAGCAGGTCGAGGCCGCGCAGATCGTCGGCGACATGCTGGCGCGGGTGCGCGAGACCGGCCGCAACGCGCCGCTGCTGATGGCCGCCTACGTGCACCTGCAGGCCTACCAGATCGCGCGCGAGGACGGCTGA	MRILILGAGGTGGYFGGRLAQAGVDVTFLVRPGRAAQLDAHGLQLRSPLGDADVPVRHVLAEALPALAAAQPFDLVVLSCKSYDLDASIEAIAPAVGAGTTVLPILNGLRHYAALDARFGRDRVLAGLCFISATKGADGQVLHLGKAASVTFGERDGAADSARVQAFAAACAQAGIEHVASAQIALEQWIKYTFLCALAAATCMMRAPIGRIVATEDGRALINGLYNETLIAADADGQTIPLAAREKALGALLQVGSDLKASMLRDLEAGQQVEAAQIVGDMLARVRETGRNAPLLMAAYVHLQAYQIAREDG	PGPT0008745_2586	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
BMS020_08608	513			hypothetical protein	ATGAAATTCCTGGGCTCGCTGTTCCGCGCCGGCCACGTGGTGATCCTGGCGTTCTTCGTGCTGTGCGCAGCCGGGCTGGTGGCGATGGCCGCACTGGAGCTGTGGCACGGCCTGATGCCCGGCGGCGACCTGGTGGTGCGCGACCGCTTCAACGTGGTGCTGGAGGCGATCGGCCTGCTCACCGTGGCGCTGGTGACGCTGGAGCTGGGCCAGACCATCTTCGAGGAGGAGGTGCTGCGCGACGTCAAGGTCAGCGGCCCGACCCGGGTGCGCCGCTACCTGTCGCGCTTCTTCGTGGTCATCGTCATCGCACTGGCGATCGAGACGCTGGTGGCGATCTTCGAACTGATGCACGACGACCCGGCCAAGCTGCCGTATGCCGCCACCGTCGGCCTGTGCGCGGCATTGCTGCTGATCGCCTGGGGCGTGTTCGTGCGGCTCAACCGCAGCGCCGAGGAACTCGAACCCGAGGCGATGGAAGAGGCCAAGCGCGAGGACCGCAAGGTCGAGTAG	MKFLGSLFRAGHVVILAFFVLCAAGLVAMAALELWHGLMPGGDLVVRDRFNVVLEAIGLLTVALVTLELGQTIFEEEVLRDVKVSGPTRVRRYLSRFFVVIVIALAIETLVAIFELMHDDPAKLPYAATVGLCAALLLIAWGVFVRLNRSAEELEPEAMEEAKREDRKVE				NA	NA	NA	NA	NA
BMS020_08609	405			hypothetical protein	ATGACCGAGTCCACCGCGTTGCCGCCCACCGAGGTCCGCATGGCGGAAATCGTGTTCCCCAACCACACCAACCACATGGGCACGCTGTTCGGCGGTCAGGCGTTGGCGTGGATGGACAAGGCGGCGTTCCTGGCGGCGGCGCGCTACTCGCGCCATACCGTGGTCACCGCGCGTTCGGACCAGGTCGATTTCAAACTGCCGATCCGCCAGGGGCAGATGGTGGAAACCATCGGCCGCGTGGTCGAGGTCGGGCGCAGCTCGATCCGGGTCGAGGTCGAACTGGTCGCCGAAGACCTGCTCACCGGCGAGCGCAAGCTGTGCACGCGCGGGCACTTCGTGATGATCGCGCTGGACGAGCACGGCAAGCCGACCGCGGTGACGCCACTGGGGGCCACGCAGGGCTGA	MTESTALPPTEVRMAEIVFPNHTNHMGTLFGGQALAWMDKAAFLAAARYSRHTVVTARSDQVDFKLPIRQGQMVETIGRVVEVGRSSIRVEVELVAEDLLTGERKLCTRGHFVMIALDEHGKPTAVTPLGATQG	PGPT0001830_608	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001830-yciA-K10806	NA	NA
BMS020_08610	384			hypothetical protein	ATGTCCTACGTCCACTTGGTGGCGATCCTGGCGATCGCGCAGTTCATCTTCTTCGGTGTGCAGGTCGGGCGCGCGCGCGGCCGCTACGGCGTCAAGGCGCCGGCCACCACCGGCGACGAGCGCTTCGAGCGGATCTACCGCGTGCAGATGAACACCCTCGAACAGCTGGTGGCGTTCCTGCCGGCGCTGTTCATCGCCGCCACCACCTGCTCGCCGACCTGGGCCGCAGGCCTCGGCGCGGTCTACCTGGTCGGGCGGATGCTGTACTGGGTGTCGTACGTGCGCGAGCCGTCCACCCGCGTGCTCGGTTACGCGCTGACCGCACTGCCGACGCTCGTGCTGCTGCTGCTCGCCGCGATCGGCGCACTGCGCAGCCTGCGCTGA	MSYVHLVAILAIAQFIFFGVQVGRARGRYGVKAPATTGDERFERIYRVQMNTLEQLVAFLPALFIAATTCSPTWAAGLGAVYLVGRMLYWVSYVREPSTRVLGYALTALPTLVLLLLAAIGALRSLR	PGPT0013170_23884	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS020_08611	327			hypothetical protein	ATGCAGACCATCACCGCCACGTCGCCTGACGAATACACCGCCGCCCTGTCCGCGCACCCGCGCCTGCTGGTGGACTACAACAAGGACAACTGCCCCGGCTGCCGCATGCTCGACATGTCGCTGGACAAGTTCGCCGCGACCGAGGCCGCCAGCGGGTTGATCCTGCTGAAGGTGAAGATGGAAGAGATCGGCGAGGACTTCTTCCGCGGCCTGGGCCTGCGCCAGACCCCGACCCTGGCGCTGTTCAAGGATGGTGCCGAAGTGGCGCGCCTGCCGGGCTTCCAGTCGCCGGCGCAGGTCGACGCCGCGGTGCGCGGCAGCCTGTAA	MQTITATSPDEYTAALSAHPRLLVDYNKDNCPGCRMLDMSLDKFAATEAASGLILLKVKMEEIGEDFFRGLGLRQTPTLALFKDGAEVARLPGFQSPAQVDAAVRGSL	PGPT0013055_6686	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
BMS020_08612	483			hypothetical protein	ATGCACATCCTGCTCGCCCTCGCATCGCTCAGCGGCAACACGCGCGACGTCGCGCGGATGATCCGCGCGCGCTGCGCCGAGCACGGGCTGGCGCTGGACTGGATCGAGACCGACATGCAGACCCTGGCCGACGCGCCGCGGCCCGCAGGCGACTACGACCTGTTCCTGCTCGGTGCCTGGACCGATAATGCCGGGCGCACGCCGACCGAGATGAAGCGCTTCATCGCCGACCTGGTCGAGGCGGTCGGCAAGCCGCCGCAGGTGGCGGTATTCGGCACCGGCGAAACGCAGTGGGGCGAGGAATACTATTGCGGCGCGGTGCACCGTATCGCACAGTTCTTCTCCAGCCCGTTCCCGCGGCTGCTGATCGAACAGATGCCACATGGCGAGCGTGACGCGCTGGCCATCAACCACTGGACCGACACGGTCCTCGAACACAGCAAGACACTTGACGATGCAGACCATCACCGCCACGTCGCCTGA	MHILLALASLSGNTRDVARMIRARCAEHGLALDWIETDMQTLADAPRPAGDYDLFLLGAWTDNAGRTPTEMKRFIADLVEAVGKPPQVAVFGTGETQWGEEYYCGAVHRIAQFFSSPFPRLLIEQMPHGERDALAINHWTDTVLEHSKTLDDADHHRHVA	PGPT0000020_48	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000020-nifF|fldA|isiB-K03839	NA	NA
BMS020_08613	1044	nrdB_2	COG0208	Ribonucleoside-diphosphate reductase subunit beta	ATGTCCGCCACACCGCTCGACCGCATCAAGATCCTTGAGCCGCGCAACCCGAACCGTTCGACCGGGATCATCAACGGCAAGACCTCCGGCATCCTGAACTGGAACGACATCCCGTACCCGTCGTTCTACCGCGCCTACAAGGAACTCTCGACCAACTTCTGGATTCCGGACGAGGTCGACATGAAGGGCGACGCCAAGCAGTACGGCGAGCTCTCGGCGCGCGAGAAGAACGCCTACGACTCGATCATCGGCCTGCTGGCCACGCTGGATTCGCCGCAGACGCGCTTCATCTACAACGTCGCCGAATACATCACCGACCCGGCCGCGCACGCCAACGCGGCGATCATCGGCCAGCAGGAAGTGATCCACAACGAGAGCTACAGCTACGTGCTGGCCTCGATCACCGACCTGCAGAACCAGAACCGCGTGTTCGAGATCGCGCGCACCCACCCGACGATCCTCAAGCGCAATGCGCCGATCATGGAGTCCTACAACGACTTCATGCGCGAGAAGACCGCCGAGACCCTGCTGCGCTCGCTGATCCAGTCCTCGATCCTGGAAGGCATCAACTTCTATTCCGGCTTCGCCTACTTCTACAACCTGGTGCGGCAGAACCGCATGACCGGGACCGGCAAGATCATCAGCTTCATCAATCGCGACGAACTGGCCCACACCAAGTTCATCAGCGAGGTGATCCGCGCCATCGTCGGCGAGAACCCGGAGCTGCAGACCAACGAGCTGACCGACTACGTGCACAAGGCCTTCGCCCACGCGATCGAGCTGGAGACGCAGTGGACCGGCGAGGTGCTCGACGGCATTGATGGCATCGACGTCGACGAGATGATCCGTTACGTGAAGTACCGCGCCAACAAGATGTCCGGCATGCTCGGCATCGAGAAGCTGTACTCGGAGACCACGGACAACGTGATGCCGTGGATCAAGGCCTACGCCGACAACTTCACCGAGACCAAGACCGACTTCTTCGAGATGCGCAACGCCTCGTACAAGAAGACCAACTCGGACAACGGTTTCGACGATTTGTAA	MSATPLDRIKILEPRNPNRSTGIINGKTSGILNWNDIPYPSFYRAYKELSTNFWIPDEVDMKGDAKQYGELSAREKNAYDSIIGLLATLDSPQTRFIYNVAEYITDPAAHANAAIIGQQEVIHNESYSYVLASITDLQNQNRVFEIARTHPTILKRNAPIMESYNDFMREKTAETLLRSLIQSSILEGINFYSGFAYFYNLVRQNRMTGTGKIISFINRDELAHTKFISEVIRAIVGENPELQTNELTDYVHKAFAHAIELETQWTGEVLDGIDGIDVDEMIRYVKYRANKMSGMLGIEKLYSETTDNVMPWIKAYADNFTETKTDFFEMRNASYKKTNSDNGFDDL	PGPT0021345_1319	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021345-nrdB|nrdF-K00526	NA	NA
BMS020_08614	2469			hypothetical protein	ATGACCACGAACGAACTCTCCGCCGCCGAAACGGCCGCCCCTTCGCAGTCCGCGCCCGCCACCCCCACCGGCATCAGCGCCCCCGCCCTTCCCATCCACGAGCCGGCCGACGACGTGCCTGCGCCGCCCCAGTCCATTGCAATGCCTGCACACGATATCGACCCCGCCAACGTCTCCACCTGGATCACCAAGGAAGCCGGCAACCGCCGGATCCCGTTCGACCGCGCGCGCCTGGAGCGCAGCATCGATGCGATCCACACCGAATTCCCGCAGCTGGACATCGCCGACTACAAGCGCGCGGTGTTCGGCTTCGTCGAGCGCAAGGAGGCGGTCAACGCCGACGACCTGGTCGACCACCTGATCCGCGAGGCCGAGGCCCGCGTCGACCTGACCGCCCCGGAGTGGGAGTACTTCGCCGCGCGCATCTACCTGCGCCGCCTGTACAAGCGCGCCAGCCGCAACCGTTTCTACGACGCCGAGCAGAAGTACGGCTCCTACGTCGGCCTGCAGGAGAGCCTGGCCGACCGCAACGTCTATTCCAACGACATCCTGCGCAACTACTCCAAGGAAGAGCTGCAGGAAGCCGGGCGCATGATCGAGCCCGAGCGCGACAAGCTGTTCGCCTACAACGGCCTGTACCTGCTGGCCACGCGCTACATGGCCACCGACACCTCGCGTGGCGTGTTCGAGCTGCCGCAGGAGCGCTGGCTGACCATCGCGCTGTACCTGATGCAGAACGAAAAGCCGCGTGAGCGCCGCATGCAGCTGGTCGGCGAGGCCTACTGGGCGCTGTCCAACCTGTACATGACCGTGGCCACGCCGACGCTGCAGAACGCCGGCAAGGTCGGCGGCCAGCTGTCGTCGTGCTTCATCGACACCGTCGACGACAGCCTGCAGGGCATCTACGACTCCAACACCGACATCGCCCGCGTCTCCAAGGGCGGCGGCGGCGTCGGCGCCTACATGGGCTACGTGCGTTCGTCCGGCTCGGCGATCCGCGGCGTGCCGAACTCCTCCGGCGGCGTGGTGCCGTGGATCAAGCAGCTCAACAACACCGCCGTGTCGGTGGACCAGCTCGGCCAGCGCAAGGGCGCGGTCGCGGTCTATCTGGACGTGTGGCACCGCGACATCGAAGGCTTCCTGGACCTGCGCCTGAACAACGGCGACCAGCGCCTGCGCGCGCACGACGTGTTCATCTCGGTGTGCATCCCCGACCTGTTCATGGAGGCGGTGGAGCGCCGTGGTGACTGGTACCTGTTCGATCCGCATGAAGTGAAGCGGGTCAAGGGCTGGTACCTGCAGGACTTCTTCGACGAGAAGAAGGGCGACGGCAGCTTCCGCAAGAAGTACGAGGAAGTGGTCAACGACGAGCGCATCGCGCGCAAGACGGTCAAGGCGATCGAGATCTTCAAGCGGATCATGGTCAGCCAGCTGGAAACCGGCAACCCGTTCATGTTCTACCGCGACGAGGTCAACCGGAAGAACCCGAACAAGCACGCCGGCATGGTGTACTCGTCGAACCTGTGCACCGAAATCCTGCAGAACATGAGCCCCACGCGCATGATGCAGGAGATCATCTCGGGCAATCAGATCGTCACCACCAAGCAGGCCGGCGACTTCGTCGTCTGCAACCTGTCCTCGGTCAACCTGGGCCGCGCGGTGCTGCCGCAGGAAGACCAGGGCGACCTGATCACCGACGTGCTCGAGCGCCTGATCCCGATCCAGGTGCGCATGCTCGACAACGTGATCGACCTCAACGACCTGCCGGTGCCGCAGGCGACGATCACCAACCAGAAGTACCGCGCGATCGGCCTGGGTACCTTCGGCTGGCACCACCTGCTGGCGCAGAAGGGCATCCACTGGAACACCACCGAAGCCGAGGACTTCAGCGACGCGCTGTACGAGCGGATCAACTTCCTGACCGTGCAGGCGAGCATGGAGCTGGCCAAGGAGAAGGGCACCTACACCGCGTTCCCGGGCAGCGACTGGCACACAGGCGCGTACTTCCGCGACCGCCAGTACAACAGCCCGCAGTGGCTGGACCTGGCCGCGCAGGTCGGCGTCAACGGCGTGCGCAACGGCTGGCTGATGGCGGTGGCGCCGAACATGTCGACTGCGCAGATCGCCGGCTCCACCGCGTCGATCGATCCGATCTACTCCGCGTTCTACTACGAGGAGAAGAAGGACTACCGCCGTCCGGTCGCCGCCCCCGGCCTGTCGCTGGAGACCTGGCCGTACTACGAGAAGGGCGCCTACAAGGTCGACCAGTTCGCCTCGGTGCGGCAGAACGCCCGCCGCCAGCGCCATGTCGACCAGGCGATCAGCTTCAACTTCTACGTGCCGAGCACCATCCGCGCCAGCACCCTGCTGGAGCTGCACATGACCGCCTGGCGCGAAGGCATGAAGACCACCTACTACGTGCGTTCCAACGACATCGACATCGCCGAGTGCGAGTGGTGTTCGAGCTAA	MTTNELSAAETAAPSQSAPATPTGISAPALPIHEPADDVPAPPQSIAMPAHDIDPANVSTWITKEAGNRRIPFDRARLERSIDAIHTEFPQLDIADYKRAVFGFVERKEAVNADDLVDHLIREAEARVDLTAPEWEYFAARIYLRRLYKRASRNRFYDAEQKYGSYVGLQESLADRNVYSNDILRNYSKEELQEAGRMIEPERDKLFAYNGLYLLATRYMATDTSRGVFELPQERWLTIALYLMQNEKPRERRMQLVGEAYWALSNLYMTVATPTLQNAGKVGGQLSSCFIDTVDDSLQGIYDSNTDIARVSKGGGGVGAYMGYVRSSGSAIRGVPNSSGGVVPWIKQLNNTAVSVDQLGQRKGAVAVYLDVWHRDIEGFLDLRLNNGDQRLRAHDVFISVCIPDLFMEAVERRGDWYLFDPHEVKRVKGWYLQDFFDEKKGDGSFRKKYEEVVNDERIARKTVKAIEIFKRIMVSQLETGNPFMFYRDEVNRKNPNKHAGMVYSSNLCTEILQNMSPTRMMQEIISGNQIVTTKQAGDFVVCNLSSVNLGRAVLPQEDQGDLITDVLERLIPIQVRMLDNVIDLNDLPVPQATITNQKYRAIGLGTFGWHHLLAQKGIHWNTTEAEDFSDALYERINFLTVQASMELAKEKGTYTAFPGSDWHTGAYFRDRQYNSPQWLDLAAQVGVNGVRNGWLMAVAPNMSTAQIAGSTASIDPIYSAFYYEEKKDYRRPVAAPGLSLETWPYYEKGAYKVDQFASVRQNARRQRHVDQAISFNFYVPSTIRASTLLELHMTAWREGMKTTYYVRSNDIDIAECEWCSS	PGPT0021340_2481	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
BMS020_08615	633			hypothetical protein	ATGCGGCATCGACCGATTCTGCGGAATGCGGCCTGGCTGGCGCTGCTGGCGCTGGCCGGCTGCGGGCGCCCGGACGCCCCGGCCAGCGCCGAGGACACGGCGCCGGCGCGGCAGCCGGCCGGACCCACCGCGGTCTATGCCGAACCTGCGATCGGCCTGCGGCTGATGCCGGTGGCCGGCATGACCCTGGCCCGCGACTTCGACCGCAGCTACCTCGACACCGATGGCTGGAAAGCCTTCGCCAAGCCCGACAGCAAGGGCCAGGCGCTGGCCGCGCTGGTGCTGGATGGTTCCAACGACCTGACCGCGGCGGAACTTCGGATCGGCAGCAGCGATGCGCTCGGCGAGGTCGCCGACTGCCTGGAGCCGCCGCCGCAGGCCCAGGGCGATCCGGACCAGGTCGAGATCGGCGGCGTCGCCTTCGCCCACTTCCGGGCGGCCGACGCGGCGATGAGCCACTTCCTGCAGGTGGAGGGCTACCGCAGCGTGCGCAACGGCCGCTGCGTGGCGATCGACCTGATGATCAGCGGCACCCGCGCCGAGGCCTACGATCCCCCGCGCACGCCGCCGTTCGACGCCAGCCAGGCCGCGGCCCAGCTGCACCGCGCGCTGGGTGCGATCCACTGGATGTAA	MRHRPILRNAAWLALLALAGCGRPDAPASAEDTAPARQPAGPTAVYAEPAIGLRLMPVAGMTLARDFDRSYLDTDGWKAFAKPDSKGQALAALVLDGSNDLTAAELRIGSSDALGEVADCLEPPPQAQGDPDQVEIGGVAFAHFRAADAAMSHFLQVEGYRSVRNGRCVAIDLMISGTRAEAYDPPRTPPFDASQAAAQLHRALGAIHWM				NA	NA	NA	NA	NA
BMS020_08616	555	yrdA_3	COG0663	Protein YrdA	ATGTCTGCTCACCTGCGTCCCTATAAAACATTTTTCCCGCAAATCGGTCTTCGCGTCATGATTGACGCATCCAGCGTCGTCATCGGTGATGTCAGAATTGCCGATGACGTCAGCGTCTGGCCTCTGGTCGCCATTCGCGGCGACGTCAATTTCGTGTCGATAGGTCAACGTAGCAATATTCAGGACGGCAGCGTTCTACACGTTACCCATAGATCCTCTTACAAGCCTGAGGGAAATCCACTGATCATTGGAGAGGATGTGACGGTTGGTCACAAAGTGATGCTGCACGGCTGCACTATCGGCAACCGCGTGCTGGTTGGTATGGGTTCGATCTTGTTAGATGGTGTCGTGGTTGGTGATGACGTCATGATTGGCGCGGGAAGTCTGGTGCCGCAGAATAAACAGCTTGAAAGCGGCTTCCTTTACTTTGGCAATCCGGTCAAACAGATCCGCCCCCTGACAGAGGCGGAGCGGGAAGGCCTAAAATATTCAGCAAATAACTATGTGAAATGGAAAGATGAATATCTGGATCAGGAGAGCCAGACCCAACCCTGA	MSAHLRPYKTFFPQIGLRVMIDASSVVIGDVRIADDVSVWPLVAIRGDVNFVSIGQRSNIQDGSVLHVTHRSSYKPEGNPLIIGEDVTVGHKVMLHGCTIGNRVLVGMGSILLDGVVVGDDVMIGAGSLVPQNKQLESGFLYFGNPVKQIRPLTEAEREGLKYSANNYVKWKDEYLDQESQTQP	PGPT0002425_589	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002425-GAMMACA_like-K01726	NA	NA
BMS020_08617	258			hypothetical protein	ATGAATCAGGCGATTCAGTTTCCCGATCGGGAATCATGGGATGCCGAACGGCAGGGCGTGGTTTTTCCCGCGTTGGTGAATGGGATGCAATTAACCTGCGTAATTTCAGGGCAGATCCTGCAGCAGCGTTTTGGCGCAGAGGGGCCAGCGCAGTGGCTGGCCGCATTCCGGGAACATCGTTGGGATCTTGAGGAAGAGGCTGAGGCATTGATCCGCGATAATCAGGAGGATGCTCAGGGTTGGGTCTGGCTCTCCTGA	MNQAIQFPDRESWDAERQGVVFPALVNGMQLTCVISGQILQQRFGAEGPAQWLAAFREHRWDLEEEAEALIRDNQEDAQGWVWLS				NA	NA	NA	NA	NA
BMS020_08618	819	aroE_5	COG0169	Shikimate dehydrogenase (NADP(+))	ATGGAAACCTACGCTGTTTTTGGTAATCCGATTGCGCACAGCAAATCGCCTTCTATTCACCACCTTTTTGCCCGCCAGTTAGGGATTACCCATCCTTATGGACGTGTGCTGGCGCCGCTGGACGATTTTGTCTCTTCTCTGAATCAGTTTTTTGCGGAAGGAGGAAAGGGCGCCAACGTTACCGTTCCTTTCAAAGAAGAAGCCTTTGCGCGCGCGGATGAACTGACAGAACGCGCTGCGCTGGCGGGAGCGGTGAATACCCTGAAACGTCTGGAAGATGGGCGTTTGCTGGGCGACAACACGGATGGTATTGGTCTTCTGAGCGATCTGGAGCGTCTGGGATTCATTAAGCCACGCCAGCGGATCCTGCTTATCGGTGCCGGTGGCGCATCGCGTGGGGTACTGCTGCCGCTGCTGTCGCTGGGGTGCGCTGTGACGATCGTCAATCGCACCTATGCTCGCGCCCATGAGTTAGCCACGCTCTTCGCCCATACCGGTAGCGTCAGCGCCCGGGAAATGGATACCTTAGCCGGGGAAGCTTTCGATCTGATCGTCAATGCAACATCCAGTGGGATAGAGGGTGATGTGCCGGCTATCCCGGCGTCTGTTGTTAACCCCGACGTGTATTGCTATGACATGTTTTACCAGAAAGGGGCGACGCCATTTCTTCAGTGGTGCCAGCAGCATGGCGCAACCCACTGCGCTGACGGGCTGGGAATGCTGGTGGCGCAAGCCGCCCATGCTGTTCTGCTATGGCACGGCGTCCTGCCGGCTATCACCCCGGTTATAGAAAAGCTGCAACAGGAACTGAATGCATGA	METYAVFGNPIAHSKSPSIHHLFARQLGITHPYGRVLAPLDDFVSSLNQFFAEGGKGANVTVPFKEEAFARADELTERAALAGAVNTLKRLEDGRLLGDNTDGIGLLSDLERLGFIKPRQRILLIGAGGASRGVLLPLLSLGCAVTIVNRTYARAHELATLFAHTGSVSAREMDTLAGEAFDLIVNATSSGIEGDVPAIPASVVNPDVYCYDMFYQKGATPFLQWCQQHGATHCADGLGMLVAQAAHAVLLWHGVLPAITPVIEKLQQELNA	PGPT0012890_4442	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
BMS020_08619	573	tsaC_1	COG0009	Threonylcarbamoyl-AMP synthase	GTGAACAATAACCTGCCCTCAGAAGCCGTCGCCCATGCCGTGGCGGTCCTGAATAATGAACATGTCATCGCCTATCCCACGGAAGCTGTTTTTGGCGTCGGCTGCGACCCTGACAGCGAAACGGCCGTTATGCGTCTGCTGGAGCTGAAGCAGCGTCCTGTTGAGAAGGGATTGATCCTTATCGCCGCTAGCTTTGAGCAGCTGAAGCCCTATATTGATGATTCTCGGTTAAGTGACTCGCAGCGGGCAGCAATCTTTTCCTGCTGGCCAGGACCGGTGACGTTTGTATTCCCGGCTCGTCCTGAAACGCCACGCTGGCTGACGGGTCGTTTTGATTCGCTGGCCGTACGCGTAACCAACCATCCGCTGGTGATTGAATTGTGCGAAGCCTACGGAAAACCGCTGGTCTCGACGAGCGCCAATCTCACCGGTCAACCGCCTTGCCGCACTACCGCAGAGGTCCGTGCTCAGTTTGGTGACAGCTTCCCGGTCGTGGATGGCGCTACGGGCGGACGTCAAAATCCATCTGAAATACGTGATGCCCTGACGGGTGAACTGTTCCGCCAGGGGTGA	MNNNLPSEAVAHAVAVLNNEHVIAYPTEAVFGVGCDPDSETAVMRLLELKQRPVEKGLILIAASFEQLKPYIDDSRLSDSQRAAIFSCWPGPVTFVFPARPETPRWLTGRFDSLAVRVTNHPLVIELCEAYGKPLVSTSANLTGQPPCRTTAEVRAQFGDSFPVVDGATGGRQNPSEIRDALTGELFRQG				NA	NA	NA	NA	NA
BMS020_08620	543	topA_2		DNA topoisomerase 1	ATGACCAAATCAGCACTGTTTTCGGTGCGTAAAAATGAGCCCTGCCCGCAGTGCGGGGCTGAACTGGTGATCCGTTCCGGGAAACATGGCCCGTTTCTCGGCTGTTCGCATTATCCGGACTGTGACTATATCCGTCCCCTGAAAAGTCAGGCGGACGGGCATGTCGTTAAGGTGCTGGAGGGGCAAGCATGCCCATCGTGCGGCGCGGTTATGGTGCTACGCCAGGGGCGTTTTGGGATGTTCATTGGCTGTAGCCGCTATCCGGAATGCGAACATACCGAGCTAATTGATAAACCAGATGAGACGGCTATTGCTTGCCCGCAGTGCGGACAAGGCCATCTGGTCCAGCGTCGTTCCCGTTTCGGTAAAACCTTTCACTCCTGCGATCGCTATCCTGATTGCCAGTTCGTTATCAATTTTAAACCGGTGGCGGGCGAATGCCCTGAATGCCATTACCCGCTGTTAATAGAAAAGAAGACGGCGCAGGGTCTCAGACGCTTCTGTGCCAGTAAACAATGTGGAAAGCCGATCCCGGCGGAATAA	MTKSALFSVRKNEPCPQCGAELVIRSGKHGPFLGCSHYPDCDYIRPLKSQADGHVVKVLEGQACPSCGAVMVLRQGRFGMFIGCSRYPECEHTELIDKPDETAIACPQCGQGHLVQRRSRFGKTFHSCDRYPDCQFVINFKPVAGECPECHYPLLIEKKTAQGLRRFCASKQCGKPIPAE				NA	NA	NA	NA	NA
BMS020_08621	474	smg_1		Protein Smg	ATGTTCGACGTACTCATGTATTTGTTTGAAACTTACATCCATAGCGAAGCAGAAATGCGCGTGGATCAGGACAAACTGACGCGGGATCTTACCGACGCAGGTTTTGAGCGGGAAGATATCTATAACGCGTTAATGTGGCTCGAGAAACTGGCTGATTATCAGGAAGGTCTCGTTGAACCCATGCAGCTCGCTTCCGACCCACTGTCGCTTCGGGTATATACCGAAGAGGAGTGCCAGCGTCTGGATGCCAGTTGCCGGGGATTTTTACTCTTCCTCGAGCAGATTCAGGTGTTGAACCTCGAAACGCGAGAAATGGTGATAGAGCGCGTACTGGCGCTGGATACGGCAGAATTTGAGCTGGAGGACCTGAAATGGGTCATCCTGATGGTACTGTTCAATATTCCGGGCTGTGAAAACGCCTATCAGCAAATGGAAGAATTACTCTTCGAAGTAAATGAAGGTATGCTGCATTAA	MFDVLMYLFETYIHSEAEMRVDQDKLTRDLTDAGFEREDIYNALMWLEKLADYQEGLVEPMQLASDPLSLRVYTEEECQRLDASCRGFLLFLEQIQVLNLETREMVIERVLALDTAEFELEDLKWVILMVLFNIPGCENAYQQMEELLFEVNEGMLH				NA	NA	NA	NA	NA
BMS020_08622	1125			hypothetical protein	ATGACGCCCGACGAGATTTGGCTGCGGCTGATGAAGGTCAGTAACTTGTATGGCGACAGAATGCTGAAGATCGCACAGCGCTTATGCGCAGCCGCCAGCGTTGATCGTGAAGCGCTGCATGCTGTCGGGATGTCCGCGGCGCAAGCAACGTCATTTTTTCGGCTGGACGGGCGTGAGCTTGACGAGACGCGGCGCTGGCTGGAGCACCCGGAACATCATCTGTTGCGGGCCGACGATCCGCGCTTTCCGTTTCGGCTAAGGGCCATCGCTGATTACCCCGGTGCGTTGTTGGTCAGCGGCGATCCCGCTCTGCTTCACAGCGCGCAGCTTGCCGTTATTGGTAGTCGCTTGCATTCCTGGTATGGCGCTCGCTGGGGGAAGCTGTTCAGCGAAACGTTGGCGCGTAAAGGAATGACTATCACCAGTGGGCTGGCGTTAGGCATTGATGGCGTAGCGCATCGCGGCGCGCTCTCGGCCGAGGGCAAAACCATCGCGGTACTGGGCAACGGACTGGGTAAGGTTTATCCGCGACGCCATGCAAGCCTCGCCCAGCAGATCATCGATAATGGCGGTGCGCTGGTGTCTGAATTTCCACTAATAACGCCGCCGCTTCCCGCGCATTTCCCCAGGCGCAACCGGATTATCAGCGGCCTGAGCCTGGGCGTGTTGGTGGTTGAGGCGGCATTGCGAAGCGGCTCGCTGGTTACCGTCCGCTGTGCTCTGGAGCAGGGAAGGGATGTGTTTGCCCTGCCTGGGCCGATAGGCAATCCGGGATCGGAAGGCCCACACTGGTTAATTAAGCAAGGCGCGGTGCCGGTGACCTCGCCAGAGGATATTGTGGAATACTGGCACAACGAGCTGACCTGGCTAACTGATACGTCTGATTCGATAAATAATTGCGCTGATCAGCCGTCTGTAGCATTGCCATTTCCGGAGCTCCTGGCTAACGTAGGAGATGAGGTAACACCTGTTGACGTTGTCGCTGAACGTGCCGGCCAATCTGTGCCAGTAACCGTAGCTCAGCTACTTGAACTGGAGTTAGCAGGCTGGATCGCAGCTGTACCCGGCGGCTATGTCCGATTAAGGAGGGCAAGCCATGTTCGACGTACTCATGTATTTGTTTGA	MTPDEIWLRLMKVSNLYGDRMLKIAQRLCAAASVDREALHAVGMSAAQATSFFRLDGRELDETRRWLEHPEHHLLRADDPRFPFRLRAIADYPGALLVSGDPALLHSAQLAVIGSRLHSWYGARWGKLFSETLARKGMTITSGLALGIDGVAHRGALSAEGKTIAVLGNGLGKVYPRRHASLAQQIIDNGGALVSEFPLITPPLPAHFPRRNRIISGLSLGVLVVEAALRSGSLVTVRCALEQGRDVFALPGPIGNPGSEGPHWLIKQGAVPVTSPEDIVEYWHNELTWLTDTSDSINNCADQPSVALPFPELLANVGDEVTPVDVVAERAGQSVPVTVAQLLELELAGWIAAVPGGYVRLRRASHVRRTHVFV				NA	NA	NA	NA	NA
BMS020_08623	510	def_2	COG0242	Peptide deformylase	ATGGCAGTTTTGCAAGTGTTACATATTCCGGACGAGCGCCTTCGCAAAGTCGCCGAGCCGGTCAAAGAAGTGAATGCGGAAATTCAGCGTATCGTCGATGATATGTTCGACACCATGTACGCTGAGGAGGGCATTGGTCTGGCCGCGACCCAGGTCGATATCCATCAGCGCATTATCGTTATTGATGTGTCGGAAAATCGTGAAGAGCAGCTGGTGTTAATCAACCCGGAGCTGCTGGAAAAAGATGGCGAAACGGGCATCGAAGAAGGCTGCCTGTCGATTCCGGAACAGCGCGCCCTGGTGCCGCGTGCGGAAAAAGTGAAGATCCGAGCGCTGGATCGCGACGGTAAGCCATTTGAACTGGAGGCCGATGGCCTGCTGGCTATCTGTATTCAGCATGAGATGGATCATCTGGTCGGCAAACTGTTTATTGACTATCTGTCACCGCTCAAACAACAGCGCATTCGTCAGAAGGTTGAGAAACTGGATCGTTTACGTTCCCGTGCCTGA	MAVLQVLHIPDERLRKVAEPVKEVNAEIQRIVDDMFDTMYAEEGIGLAATQVDIHQRIIVIDVSENREEQLVLINPELLEKDGETGIEEGCLSIPEQRALVPRAEKVKIRALDRDGKPFELEADGLLAICIQHEMDHLVGKLFIDYLSPLKQQRIRQKVEKLDRLRSRA	PGPT0008125_24	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
BMS020_08624	948	fmt_1	COG0223	Methionyl-tRNA formyltransferase	GTGTCACAATCACTACGTATCATTTTCGCCGGCACCCCCGATTTTGCAGCGCGTCATCTTGACGCGCTGTTGTCGTCTGAACATCAGGTTGTTGGCGTATTCACTCAGCCAGACCGTCCTGCTGGCCGCGGCAAAAAATTGATGCCGAGCCCGGTAAAGGTGCTGGCTGAAGCCCATAACTTACCTGTATTCCAGCCATCTTCCCTGCGTCCGCAGGACAACCAACAATTAGTCGCCGATCTCGGCGCCGATATCATGGTGGTGGTGGCGTACGGTTTGATTCTCCCGAAAGCGGTGCTGGAGATGCCCCGTCTGGGCTGCATCAACGTTCACGGCTCCCTGCTACCGCGCTGGCGTGGCGCAGCGCCGATCCAGCGTTCTCTGTGGGCCGGGGATAGCGAAACAGGCGTAACCATCATGCAGATGGACGTCGGCCTTGATACGGGTGATATGCTGTATAAGCTTTCCTGCCCCATTACCGCAGAGGATACCAGCGGCAGCCTGTACGATAAGCTGGCCGAGCTCGGCCCTCAAGGTCTGCTGGCAACCTTAGCCCAGCTGACCAACGGCACCGCACAGCCTGAAGTACAGGATGAATCGCTGGTGTGCCACGCCGAGAAGCTGAGTAAAGAAGAAGCTCGCATCGACTGGTCGCTTTCTGCCGCACAGCTGGAGCGCTGCATCCGCGCCTTTAATCCATGGCCAATGAGTTGGCTGGAAATTGACGGGCAGCCGCTAAAAGTGTGGCGGGCATCGGTCATTGCCGAAGCTGCGCATGCCGAACCGGGTACTATCGTGGCAGCAACCAAACAGGGTATCCAGGTCGCCACGGGCGATGGGATCCTCAGTCTGGAGTCGCTACAGCCTGCGGGTAAAAAAGCGATGAGCGCCCAGGATTTACTCAATTCCCGCCGGGAGTGGTTTACTCCTGGCACCCGTCTCGCCTGA	MSQSLRIIFAGTPDFAARHLDALLSSEHQVVGVFTQPDRPAGRGKKLMPSPVKVLAEAHNLPVFQPSSLRPQDNQQLVADLGADIMVVVAYGLILPKAVLEMPRLGCINVHGSLLPRWRGAAPIQRSLWAGDSETGVTIMQMDVGLDTGDMLYKLSCPITAEDTSGSLYDKLAELGPQGLLATLAQLTNGTAQPEVQDESLVCHAEKLSKEEARIDWSLSAAQLERCIRAFNPWPMSWLEIDGQPLKVWRASVIAEAAHAEPGTIVAATKQGIQVATGDGILSLESLQPAGKKAMSAQDLLNSRREWFTPGTRLA	PGPT0008125_2851	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
BMS020_08625	1296	rsmB_1	COG0144	Ribosomal RNA small subunit methyltransferase B	ATGAAAAAGAATATAAATTTACGCAGCCTGGCCGCCCAGGCTATCGAGCAAGTCGTTGAAAAAGGTCAGTCTTTAAGCAACGTCCTGCCCCCTCTACAGCAAAAAGTCAGCGATAAAGACAAAGCGCTGCTGCAGGAGCTGTGTTTTGGCGTACTGCGTACGCTCAGCCAGCTGGAGTGGCTTATCAGCAAGCTGATGGCGCGTCCGATGACCGGCAAACAGCGCACCGTGCACTTTCTGATTATGGTTGGGCTCTATCAGTTACTCTACACCCGCATCCCTCCGCACGCCGCGCTGGCTGAAACGGTAGAAGGCGCGGTGGCGATTAAGCGCCCGCAGCTTAAAGGGCTGATCAATGGGGTGTTACGCCAGTTTCAGCGCCAGCAGGAAGAGCTACTGGCAGAATTCGCCGGGCAGGAAAACCGCTACCTTCATCCCAAATGGCTGCTGAAGCGTCTGCAGCAGGCCTGGCCGCAACAATGGCAGGAGATCGTCGATGCGAACAACCAACGCCCGCCGATGTGGCTGCGCGTTAACCGCAACCATCATTCCCGAGACGAATGGCTTGCTCTGCTTAAAGAGGCCGGCTTAGAGGGCTTCACCCACCCTGACTATCCCGACGCCGTGCGTCTGGCCACCCCTGCCCCGGTCCATGCGTTGCCGGGTTTTGCCGAAGGATGGGTAACCGTTCAGGATGCCTCGGCCCAGGGCTGCATGCGCTATCTGCAGCCGGAAAACGGCGAGCGCATTCTCGATCTCTGCGCCGCGCCGGGCGGCAAGACGACGCATATTCTGGAAGTCGCTCCCCAGGCTGAGGTCATGGCGGTGGACATTGATGAACAGCGTCTTTCCCGCGTCTATGACAACCTGAAACGGCTGGGCATGAAAGCCGAAGTCAAACAGGGCGATGGTCGCTTCCCTGAGCAGTGGTGTGGCGGCGAGCAGTTCGATCGTATTCTGCTGGATGCCCCCTGTTCCGCCACCGGCGTTATCCGCCGCCACCCGGATATCAAATGGCTGCGCCGGGATCGGGATATCGGCGATTTAGCCCAGCTGCAGGCCGAGATCCTCAATGCCATCTGGGGGCATCTGAAGCCAGGCGGCACGTTGGTTTACGCTACCTGTTCTATTCTGCCGGAAGAGAATAGTCAGCAAATTGCCGCGTTCCTCGCGCGGACCCCGGATGCAGAGCTTCACGCAACCGGTACGCCGGTAAGCCCGGGACAGCAAAATCTGCCGGGTGCGGAAGAAGGCGATGGCTTCTTTTACGCTAAGCTAATCAAACGTCGGAACTAA	MKKNINLRSLAAQAIEQVVEKGQSLSNVLPPLQQKVSDKDKALLQELCFGVLRTLSQLEWLISKLMARPMTGKQRTVHFLIMVGLYQLLYTRIPPHAALAETVEGAVAIKRPQLKGLINGVLRQFQRQQEELLAEFAGQENRYLHPKWLLKRLQQAWPQQWQEIVDANNQRPPMWLRVNRNHHSRDEWLALLKEAGLEGFTHPDYPDAVRLATPAPVHALPGFAEGWVTVQDASAQGCMRYLQPENGERILDLCAAPGGKTTHILEVAPQAEVMAVDIDEQRLSRVYDNLKRLGMKAEVKQGDGRFPEQWCGGEQFDRILLDAPCSATGVIRRHPDIKWLRRDRDIGDLAQLQAEILNAIWGHLKPGGTLVYATCSILPEENSQQIAAFLARTPDAELHATGTPVSPGQQNLPGAEEGDGFFYAKLIKRRN				NA	NA	NA	NA	NA
BMS020_08626	1377	trkA	COG0569	Trk system potassium uptake protein TrkA	ATGAAGATTATTATTCTGGGCGCCGGCCAGGTCGGCGGCACGCTGGCGGAGAACCTCGTCGGCGAGAACAATGATATTACGCTGGTTGATACCAATGGCGACCGTCTGCGCAGCCTGCAGGATAAGTTCGACCTGCGTGTCGTCCAGGGGCACGGTTCTCACCCCCGCGTACTGCGCGAGGCAGGAGCCGATGATGCCGATATGCTGGTGGCGGTCACCAGTTCGGATGAAACCAACATGGTGGCCTGTCAGGTCGCCTATTCATTATTCAATACGCCAAACCGTATAGCCCGTATTCGTGCGCCTGATTACGTCCGCGATGCGGAAAAGCTCTTCAATTCTGAAGCTGTGCCCATCGATCACTTAATCGCTCCGGAACAGCTGGTCATCGACAATATTCATCGCCTGATAGAATATCCCGGCGCGCTGCAGGTCGTGAACTTCGCTGAAGGTAAAGTCAGCCTCGCCGTGGTGAAAGCCTATTACGGTGGTCCGCTGGTGGGGAATGCGTTGTCCACCATGCGTGAGCATATGCCGCATATCGATACGCGCGTGGCCGCCATTTTCCGCCACGATCGCCCCATCCGCCCACAGGGTTCGACGATTGTCGAGGCCGGCGATGAAGTCTTCTTTATTGCCGCCTCCCAGCATATTCGCGCGGTCATGAGCGAACTCCAGCGTCTGGAGAAACCTTACAAACGCATCATGTTGGTCGGCGGCGGCAATATTGGCGCGGGCCTGGCCCATAAGCTGGAAAAAGACTACAGCGTTAAGCTTATCGAGCGCAATCAGCAGCGAGCCGCTGAGCTGGCAGAAAAACTGCAGCATACTATCGTCTTCTACGGTGATGCATCGGATCAGGAGCTGCTGGCCGAAGAGCATATTGACCAGGTGGACCTGTTTATTGCCGTCACTAACGATGACGAAGCAAACATCATGTCTGCGATGCTGGCCAAGCGAATGGGGGCCAAAAAAGTCATGGTGCTGATCCAGCGCAGAGCCTATGTGGATCTGGTTCAGGGTAGCGTCATTGATATCGCGATATCGCCTCAGCAGGCCACGATTTCCGCCCTTCTCAGCCATGTCCGTAAAGCCGATATTGTCGGCGTCTCCTCCCTGCGCCGCGGCGTTGCGGAAGCGATCGAAGCAGTGGCACACGGCGATGAGAGCACCTCGCGGGTGGTCGGGCGGTCGATCGATGAGATCAAACTTCCGCCAGGCACGATCATCGGCGCCGTCGTGCGCGGGAATGACGTAATGATCGCCAATAATAATCTGCGGATCGAGCAGGGCGATCATGTGATCATGTTTTTGACTGATAAAAAGTTTATTTCCGATGTAGAAAGGCTGTTCCAGCCAAGCCCCTTCTTCCTGTAA	MKIIILGAGQVGGTLAENLVGENNDITLVDTNGDRLRSLQDKFDLRVVQGHGSHPRVLREAGADDADMLVAVTSSDETNMVACQVAYSLFNTPNRIARIRAPDYVRDAEKLFNSEAVPIDHLIAPEQLVIDNIHRLIEYPGALQVVNFAEGKVSLAVVKAYYGGPLVGNALSTMREHMPHIDTRVAAIFRHDRPIRPQGSTIVEAGDEVFFIAASQHIRAVMSELQRLEKPYKRIMLVGGGNIGAGLAHKLEKDYSVKLIERNQQRAAELAEKLQHTIVFYGDASDQELLAEEHIDQVDLFIAVTNDDEANIMSAMLAKRMGAKKVMVLIQRRAYVDLVQGSVIDIAISPQQATISALLSHVRKADIVGVSSLRRGVAEAIEAVAHGDESTSRVVGRSIDEIKLPPGTIIGAVVRGNDVMIANNNLRIEQGDHVIMFLTDKKFISDVERLFQPSPFFL	PGPT0002710_687	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499	NA	NA
BMS020_08627	414	mscL_2	COG1970	Large-conductance mechanosensitive channel	ATGAGTTTTTTAAAAGAGTTTCGCGAATTCGCGATGCGCGGGAACGTTGTCGATTTGGCAGTGGGTGTGATCATCGGTGCAGCATTCGGTAAAATTGTTTCGTCGCTGGTCGCGGATATTATTATGCCGCCGCTCGGCCTGTTGATTGGCGGGATCGATTTTAAACAGTTTGCCGTCACGCTGCGCGATGCCCAGGGTGATGTACCGGCAGTGGTGATGCACTACGGGGTGTTTATTCAGAACGTTTTCGATTTCATCATCGTCGCATTTGCCATTTTCATGGCGATTAAACTGATGAATAAGTTAAATCGTAAGAAAGAAGAGGCTCCGGCGGCACCGCCAGCGCCCTCTAAAGAAGAAGTCCTGCTGAGCGAAATTCGCGATCTGCTGAAAGAACAAAACAACCGTTCTTAA	MSFLKEFREFAMRGNVVDLAVGVIIGAAFGKIVSSLVADIIMPPLGLLIGGIDFKQFAVTLRDAQGDVPAVVMHYGVFIQNVFDFIIVAFAIFMAIKLMNKLNRKKEEAPAAPPAPSKEEVLLSEIRDLLKEQNNRS	PGPT0013771_1810	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013771-mscL-K03282	NA	NA
BMS020_08628	426	zntR	COG0789	HTH-type transcriptional regulator ZntR	ATGTATCGTATTGGTGAGCTGGCAAAACTGGCTGATGTGACGCCAGATACCATCCGTTATTATGAAAAACAGCAAATGATGGATCATGACGTGCGCACTGAGGGGGGATTTCGTCTTTACTCGGATAACGATCTTCAGCGTTTGCGCTTTATTCGCTATGCCCGTCAGCTGGGCTTTACTCTGGAAGCGATCCGCGAATTATTGTCGATCCGTATCGATCCGGAGCATCACACCTGTCAGGAGTCGAAAGGGATCGTTCAGGCGCGATTAAGCGAAGTTGAGGCGCGGATCAACGAGCTACAAACGATGCGTCGCTCTCTGCAACGGCTCAATGATGCCTGCTGCGGCACAGCTCACAGCAGCGTTTACTGTTCGATCCTCGAGGCCCTTGAGCAAGGCGCCAGCAACGGTAATACCGGGCGTTGA	MYRIGELAKLADVTPDTIRYYEKQQMMDHDVRTEGGFRLYSDNDLQRLRFIRYARQLGFTLEAIRELLSIRIDPEHHTCQESKGIVQARLSEVEARINELQTMRRSLQRLNDACCGTAHSSVYCSILEALEQGASNGNTGR	PGPT0004215_292	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNT_TRANSPORT_SYSTEM,PGPT0004215-zntR-K13638	NA	NA
BMS020_08629	369			hypothetical protein	ATGTGGTTACTGGATCAGTGGGCAGAACGCCATATCCTCGATGCCCAAACCAAAGGCGAGTTCGATAATTTACCCGGTAGCGGCGTGCCGCTAACGCTCGATGACGATTCGCATGTACCGGCCGAGCTGCGGGCAGGCTATCGCCTTCTGAAGAATGCAGGGTGTCTTCCCCCGGAGCTGGAGCAGCGCAAAGAAGCGGTGGCTCTGGCAGACTTGCTGAAGGGGGTCCGTCAGGACGACCCGCGGCATGCCGAACTCAGCAAGCGCCTCGCTCTGCTCGAGCTTAAGCTGCGTCAGGCAGGACTGAACACCGACTTTTTACGCGGTGAGTACGCCGATGCGTTGCTGCACAAAATTAATCAGGAGTGA	MWLLDQWAERHILDAQTKGEFDNLPGSGVPLTLDDDSHVPAELRAGYRLLKNAGCLPPELEQRKEAVALADLLKGVRQDDPRHAELSKRLALLELKLRQAGLNTDFLRGEYADALLHKINQE				NA	NA	NA	NA	NA
BMS020_08630	387	rplQ_2	COG0203	50S ribosomal protein L17	ATGCGCCATCGTAAGAGTGGTCGTCAACTGAACCGCAACAGCAGCCATCGCCAGGCTATGTTCCGTAACATGGCAGGTTCGCTGGTTCGTCATGAAATCATCAAGACGACCCTGCCGAAAGCGAAAGAACTGCGTCGCGTAGTTGAGCCGCTGATTACTCTTGCCAAGACTGATAGCGTTGCTAATCGTCGTCTGGCATTCGCCCGTACTCGTGATAACGAGATCGTGGCAAAACTGTTTAACGAGCTGGGCCCGCGTTTCGCGAGCCGCGCCGGTGGTTACACTCGCATTCTGAAGTGTGGCTTCCGTGCAGGCGACAACGCGCCGATGGCATACATCGAGCTGGTTGATCGTGCTGAGCCGAAAGCAGAAGCTGCTGCAGAGTAA	MRHRKSGRQLNRNSSHRQAMFRNMAGSLVRHEIIKTTLPKAKELRRVVEPLITLAKTDSVANRRLAFARTRDNEIVAKLFNELGPRFASRAGGYTRILKCGFRAGDNAPMAYIELVDRAEPKAEAAAE				NA	NA	NA	NA	NA
BMS020_08631	990	rpoA_2		DNA-directed RNA polymerase subunit alpha	ATGCAGGGTTCTGTGACAGAGTTTCTAAAACCGCGCCTGGTCGATATCGAGCAAGTGAGTTCGACGCACGCCAAGGTGACCCTTGAGCCTTTAGAGCGTGGCTTCGGCCATACTCTGGGTAACGCACTGCGCCGTATTCTGCTCTCATCGATGCCGGGTTGCGCGGTGACCGAGGTTGAGATTGATGGTGTACTGCACGAGTACAGCACCAAAGAAGGCGTTCAGGAAGACATCCTTGAAATCCTGCTCAACCTGAAAGGGCTGGCGGTGAGAGTTCAGGGTAAAGATGAAGTCATCCTTACTTTGAATAAATCTGGCATTGGCCCTGTGACCGCAGCCGACATTACCCACGACGGTGATGTCGAAATCGTCAAGCCGCAGCACGTGATTTGCCACCTGACTGATGAGAACGCTGCTATCAGCATGCGTATCAAAGTTCAGCGCGGTCGCGGTTATGTGCCGGCTTCTGCCCGAATTCATTCGGAAGAAGATGAGCGCCCAATCGGCCGTCTGCTGGTCGACGCCTGCTACAGCCCTGTAGAGCGTATTGCCTACAATGTTGAAGCTGCGCGTGTAGAACAGCGTACCGACCTGGACAAGCTGGTCATCGAAATGGAAACCAACGGCACAATCGATCCTGAAGAGGCGATTCGTCGTGCGGCAACCATCCTGGCTGAACAACTGGAAGCTTTTGTTGACTTACGTGATGTACGTCAGCCAGAAGTGAAAGAAGAGAAACCAGAATTCGATCCGATCCTGCTGCGCCCTGTTGACGATCTGGAATTGACTGTCCGCTCTGCTAACTGCCTCAAGGCAGAAGCTATCCACTATATCGGTGATCTGGTACAGCGTACCGAGGTTGAGTTGCTGAAAACGCCGAACCTGGGTAAAAAATCTCTTACTGAGATTAAAGACGTGCTGGCTTCCCGTGGACTGTCTCTGGGCATGCGCCTGGAAAACTGGCCACCAGCAAGCATTGCTGACGAGTAA	MQGSVTEFLKPRLVDIEQVSSTHAKVTLEPLERGFGHTLGNALRRILLSSMPGCAVTEVEIDGVLHEYSTKEGVQEDILEILLNLKGLAVRVQGKDEVILTLNKSGIGPVTAADITHDGDVEIVKPQHVICHLTDENAAISMRIKVQRGRGYVPASARIHSEEDERPIGRLLVDACYSPVERIAYNVEAARVEQRTDLDKLVIEMETNGTIDPEEAIRRAATILAEQLEAFVDLRDVRQPEVKEEKPEFDPILLRPVDDLELTVRSANCLKAEAIHYIGDLVQRTEVELLKTPNLGKKSLTEIKDVLASRGLSLGMRLENWPPASIADE				NA	NA	NA	NA	NA
BMS020_08632	621	rpsD_2	COG0522	30S ribosomal protein S4	ATGGCAAGATATTTGGGTCCTAAGCTCAAGCTGAGCCGTCGTGAGGGCACCGACTTATTCCTTAAGTCTGGCGTTCGCGCGATCGATACCAAGTGTAAAATTGAACAAGCTCCTGGCCAGCACGGTGCGCGTAAGCCGCGTCTGTCTGACTATGGTGTGCAGTTGCGTGAAAAGCAAAAAGTTCGCCGTATGTACGGTGTGCTGGAGCGTCAGTTCCGTAACTACTATAAAGAAGCAGCACGTCTGAAAGGCAACACCGGTGAAAACCTGTTGGCTCTGCTGGAAGGTCGTCTGGACAACGTTGTATACCGTATGGGCTTCGGCGCCACTCGTGCTGAAGCACGCCAGCTGGTTAGCCACAAAGCGATTATGGTAAACGGTCGTGTTGTTAACATCGCTTCTTATCAGGTTAAAGCGAATGACGTTGTCAGCATTCGTGAGAAAGCGAAAAAGCAATCTCGCGTGAAAGCCGCTCTGGAGCTGGCTGAGCAGCGTGAAAAGCCAACCTGGCTGGAAGTTGATGCTGGCAAGATGGAAGGTACGTTCAAGCGTCAGCCGGAGCGTTCTGATCTGTCTGCGGACATTAACGAACACCTGATCGTCGAGCTTTACTCCAAGTAA	MARYLGPKLKLSRREGTDLFLKSGVRAIDTKCKIEQAPGQHGARKPRLSDYGVQLREKQKVRRMYGVLERQFRNYYKEAARLKGNTGENLLALLEGRLDNVVYRMGFGATRAEARQLVSHKAIMVNGRVVNIASYQVKANDVVSIREKAKKQSRVKAALELAEQREKPTWLEVDAGKMEGTFKRQPERSDLSADINEHLIVELYSK				NA	NA	NA	NA	NA
BMS020_08633	219			hypothetical protein	ATGACGCAAACCACGGTAGCAACCAAGGTCCATCAGACGCTTGATGCTCAGGGTGATTTCACGGCGCAGATCACCTTCAACGACAAATTTACCTACTGCTTCACGCAGAATATCAATTTGTTCTTCAGACAGCTCACTGATCTTAACATTTTCAGCGATGCCCGTTTCAGCGCAGATGGCTTTAGAACGGGTTTTGCCGATACCGAAAATAGCGGTTAA	MTQTTVATKVHQTLDAQGDFTAQITFNDKFTYCFTQNINLFFRQLTDLNIFSDARFSADGFRTGFADTENSG				NA	NA	NA	NA	NA
BMS020_08635	1332	secY_2	COG0201	Protein translocase subunit SecY	ATGGCTAAACAACCGGGATTAGATTTTCAAAGTGCCAAAGGTGGCCTTGGCGAACTGAAACGCAGACTTCTGTTTGTGGTCGGTGCGCTGATAGTGTTCCGTATTGGCTCTTTTATTCCGATCCCTGGTATTGATGCCGCTGTACTTGCCAAACTGCTTGAGCAACAGCGAGGCACCATCATTGAAATGTTCAACATGTTCTCTGGTGGTGCTCTCAGCCGTGCTTCTATCTTTGCATTGGGGATTATGCCGTATATCTCGGCATCAATCATCGTGCAGCTGCTGACGGTGGTTTATCAACCGCTGGCGGAACTGAAGAAAGAAGGGGAGTCTGGTCGTCGTAAGATCAGCCAGTACACCCGCTACGGTACTCTGGTGCTGGCGATATTCCAGTCGATCGGTATTGCTACCGGTCTGCCGAATATGCCTGGTATGCAGGGCCTGGTGATTAATCCAGGCTTTGCATTCTATTTCACCGCTGTTGTTAGTCTGGTCACAGGGACTATGTTCCTGATGTGGCTCGGCGAACAGATCACTGAACGCGGTATCGGTAACGGTATCTCGATCATTATCTTCGCCGGTATCGTTGCGGGACTCCCGCCGGCCATCGCCCATACTATCGAGCAAGCGCGTCAAGGCGACCTGCACTTCCTCCTGTTGCTGTTGGTTGCAGTATTAGTATTTGCAGTGACCTTCTTTGTTGTATTCGTTGAACGTGGGCAACGCCGCATTGTGGTAAACTACGCGAAACGTCAACAGGGTCGTCGTGTCTATGCTGCACAGAGCACACATTTACCGCTGAAAGTGAATATGGCGGGGGTAATCCCGGCAATCTTCGCTTCCAGTATTATACTGTTCCCGGCAACCATCACGTCATGGTTCGGGGGTGGTACTGGTTGGAACTGGCTGACAACAATTTCGCTGTATTTGCAGCCTGGGCAACCGCTTTATGTGTTACTCTATGCGTCTGCAATCATCTTCTTCTGTTTCTTCTACACGGCGTTGGTTTTCAACCCGCGTGAAACAGCAGATAACCTGAAGAAGTCCGGTGCATTTGTACCAGGAATTCGTCCGGGAGAGCAAACGGCGAAGTATATCGATAAAGTGATGACTCGCCTGACTCTGGTTGGTGCGTTGTACATTACTTTTATCTGCCTGATCCCGGAGTTCATGCGTGACGCGATGAAAGTGCCGTTCTACTTCGGTGGGACCTCGCTGCTTATCGTTGTTGTCGTGATTATGGACTTTATGGCTCAAGTGCAAACTCTGATGATGTCCAGTCAGTATGAGTCTGCATTGAAGAAGGCGAACCTGAAAGGCTACGGCCGCTAA	MAKQPGLDFQSAKGGLGELKRRLLFVVGALIVFRIGSFIPIPGIDAAVLAKLLEQQRGTIIEMFNMFSGGALSRASIFALGIMPYISASIIVQLLTVVYQPLAELKKEGESGRRKISQYTRYGTLVLAIFQSIGIATGLPNMPGMQGLVINPGFAFYFTAVVSLVTGTMFLMWLGEQITERGIGNGISIIIFAGIVAGLPPAIAHTIEQARQGDLHFLLLLLVAVLVFAVTFFVVFVERGQRRIVVNYAKRQQGRRVYAAQSTHLPLKVNMAGVIPAIFASSIILFPATITSWFGGGTGWNWLTTISLYLQPGQPLYVLLYASAIIFFCFFYTALVFNPRETADNLKKSGAFVPGIRPGEQTAKYIDKVMTRLTLVGALYITFICLIPEFMRDAMKVPFYFGGTSLLIVVVVIMDFMAQVQTLMMSSQYESALKKANLKGYGR	PGPT0025725_1780	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025725-secY-K03076	NA	NA
BMS020_08636	273	rplO_2	COG0200	50S ribosomal protein L15	ATGCCTCTGTACCGTCGTCTGCCGAAATTCGGCTTCACTTCTCGTAAAGCGATGATCACCGCAGAGATCCGTCTCTCCGATCTGGCTCACGTAGAAGGCGATGTAGTAGACCTGAACGCGCTGAAAGCGGCTAACATTATCGGTGTCCAGATCGAGTTCGCGAAAGTGATCCTGTCTGGTGAGGTAACTCGTCCGGTAACTGTTCGTGGCCTGCGTGTGACTAAAGGTGCTCGTGCTGCTATCGAAGCTGCTGGCGGTAAAATTGAGGAATAA	MPLYRRLPKFGFTSRKAMITAEIRLSDLAHVEGDVVDLNALKAANIIGVQIEFAKVILSGEVTRPVTVRGLRVTKGARAAIEAAGGKIEE				NA	NA	NA	NA	NA
BMS020_08637	180	rpmD_2	COG1841	50S ribosomal protein L30	ATGGCAAAGACTATTAAAATTACTCAAACCCGCAGTGCAATCGGTCGTCTGCCGAAACACAAGGCAACGCTGCTTGGCCTGGGTCTGCGTCGTATTGGTCACACCGTAGAGCGCGAGGATACTCCTGCTGTTCGTGGTATGGTCAACGCGGTTTCCTTCATGGTTAAAGTTGAGGAGTAA	MAKTIKITQTRSAIGRLPKHKATLLGLGLRRIGHTVEREDTPAVRGMVNAVSFMVKVEE				NA	NA	NA	NA	NA
BMS020_08638	504	rpsE_2	COG0098	30S ribosomal protein S5	ATGGCTCACATCGAAAAACAAGCTGGCGAACTGCAGGAAAAGCTGATCGCGGTAAACCGCGTATCTAAAACCGTTAAAGGTGGTCGTATTTTCTCCTTCACAGCTCTGACTGTAGTTGGCGATGGTAACGGTCGCGTTGGTTTTGGTTACGGTAAAGCGCGTGAAGTTCCAGCAGCGATCCAGAAAGCGATGGAAAAAGCCCGTCGCAATATGATTAACGTCGCGCTGAACCACGGCACCCTGCAGCACCCGGTTAAGGGTACTCACACGGGTTCTCGTGTATTCATGCAGCCGGCTTCCGAAGGTACCGGTATCATCGCCGGTGGTGCAATGCGCGCCGTTCTGGAAGTCGCTGGGGTTCGTAACGTTCTGGCTAAAGCGTATGGTTCCACTAACCCGATTAACGTGGTTCGTGCAACTATCGACGGTCTGGAAAACATGAAGTCCCCGGATATGGTCGCTGCCAAGCGTGGTAAATCCGTTGAAGAAATTCTGGGGAAATAA	MAHIEKQAGELQEKLIAVNRVSKTVKGGRIFSFTALTVVGDGNGRVGFGYGKAREVPAAIQKAMEKARRNMINVALNHGTLQHPVKGTHTGSRVFMQPASEGTGIIAGGAMRAVLEVAGVRNVLAKAYGSTNPINVVRATIDGLENMKSPDMVAAKRGKSVEEILGK				NA	NA	NA	NA	NA
BMS020_08639	534	rplF_2	COG0097	50S ribosomal protein L6	ATGTCTCGTGTTGCTAAAGCACCGGTCGTTGTTCCTGCCGGCGTTGATGTAAAAATCAACGGTCAGGTTATTACGATCAAAGGTAAAAACGGCGAGCTGACTCGTACTCTCAACGATGCTGTTGAAGTTAAACATGCAGATAATGCACTGACCTTCGGTCCGCGTGATGGTTACGCAGACGGTTGGGCTCAGGCTGGTACCGCGCGTGCCCTGCTGAACTCAATGGTTATCGGTGTTACCGAAGGCTTCACTAAGAAGCTGCAGCTGGTTGGTGTAGGTTATCGTGCAGCGGTCAAAGGGAATGTAGTAAACCTGGCTTTAGGTTTCTCTCACCCGGTTGATCATCAGCTGCCTGCGGGTATCACTGCAGAATGTCCGACTCAGACTGAAATCGTGCTGAAAGGCGCTGATAAGCAGGTGATCGGCCAGGTTGCAGCAGATCTGCGCGCCTACCGTCGTCCTGAGCCTTACAAAGGCAAGGGTGTTCGTTACGCCGACGAAGTCGTGCGTACCAAAGAGGCTAAGAAGAAGTAA	MSRVAKAPVVVPAGVDVKINGQVITIKGKNGELTRTLNDAVEVKHADNALTFGPRDGYADGWAQAGTARALLNSMVIGVTEGFTKKLQLVGVGYRAAVKGNVVNLALGFSHPVDHQLPAGITAECPTQTEIVLKGADKQVIGQVAADLRAYRRPEPYKGKGVRYADEVVRTKEAKKK				NA	NA	NA	NA	NA
BMS020_08640	393	rpsH_2	COG0096	30S ribosomal protein S8	ATGAGCATGCAAGATCCGATCGCGGATATGCTGACCCGTATCCGTAACGGTCAGGCCGCGAACAAAGCTGCGGTCACCATGCCTTCCTCCAAGCTGAAAGTGGCAATCGCCAACGTGCTGAAGGAAGAAGGTTTTATCGAAGATTTTAAAGTTGAAGGCGACACCAAGCCGGAACTGGAACTGACTCTTAAGTATTTCCAGGGTAAAGCTGTTGTAGAAAGCATTCAGCGTGTCAGCCGCCCAGGTCTGCGCATCTATAAGAAAAAAGATGAGCTGCCGAAAGTTATGGCCGGTCTGGGTATCGCAGTTGTTTCTACCTCTAAAGGTGTTATGACTGATCGTGCAGCGCGCCAGGCTGGTCTTGGTGGCGAAATTATCTGCTACGTAGCCTAA	MSMQDPIADMLTRIRNGQAANKAAVTMPSSKLKVAIANVLKEEGFIEDFKVEGDTKPELELTLKYFQGKAVVESIQRVSRPGLRIYKKKDELPKVMAGLGIAVVSTSKGVMTDRAARQAGLGGEIICYVA				NA	NA	NA	NA	NA
BMS020_08641	306	rpsN_2	COG0199	30S ribosomal protein S14	ATGGCTAAGCAATCAATGAAAGCACGCGAAGTAAAGCGCGTGGCTTTAGCTGATAAATTCTTCGCTAAACGCGCTGAACTGAAAGCTATCATCTCTGATGTGAACGCAACCGACGAAGATCGTTGGAATGCCGTTCTCAAGCTGCAGACTCTGCCGCGTGATTCCAGCCCGTCTCGTCAGCGTAACCGCTGCCGTCAAACAGGTCGTCCGCATGGTTTCCTGCGGAAGTTCGGGTTGAGCCGTATTAAGGTCCGTGAAGCCGCTATGCGCGGTGAAATCCCGGGTCTGAAAAAGGCTAGCTGGTAA	MAKQSMKAREVKRVALADKFFAKRAELKAIISDVNATDEDRWNAVLKLQTLPRDSSPSRQRNRCRQTGRPHGFLRKFGLSRIKVREAAMRGEIPGLKKASW				NA	NA	NA	NA	NA
BMS020_08642	540	rplE_2	COG0094	50S ribosomal protein L5	ATGGCGAAACTGCATGATTACTACAAAGACGAAGTAGTTAAGAAACTCATGACTGAGTTTAACTACAATTCTGTCATGCAAGTCCCTCGGGTCGAGAAGATCACCCTGAACATGGGTGTTGGTGAAGCGATCGCTGACAAGAAACTGCTGGATAACGCAGCAGCTGACCTGGCAGCAATCTCCGGTCAAAAACCGCTGATCACCAAAGCACGCAAATCAGTTGCAGGCTTCAAAATCCGTCAGGGCTATCCGATCGGCTGTAAAGTAACTCTGCGTGGCGAACGCATGTGGGAGTTCTTTGAGCGCCTGATCACTATTGCTGTACCGCGTATTCGTGACTTCCGCGGCCTGTCCGCTAAGTCTTTCGACGGTCGTGGCAACTACAGCATGGGTGTCCGTGAGCAGATCATCTTCCCAGAAATCGACTACGATAAAGTCGACCGCGTTCGTGGTTTGGATATTACCATTACCACTACTGCGAAATCTGACGAAGAAGGCCGTGCTCTGCTGGCTGCCTTTGACTTCCCGTTCCGCAAGTAA	MAKLHDYYKDEVVKKLMTEFNYNSVMQVPRVEKITLNMGVGEAIADKKLLDNAAADLAAISGQKPLITKARKSVAGFKIRQGYPIGCKVTLRGERMWEFFERLITIAVPRIRDFRGLSAKSFDGRGNYSMGVREQIIFPEIDYDKVDRVRGLDITITTTAKSDEEGRALLAAFDFPFRK				NA	NA	NA	NA	NA
BMS020_08643	315	rplX_2	COG0198	50S ribosomal protein L24	ATGGCAGCGAAAATCCGTCGTGATGACGAAGTTATCGTGTTAACCGGTAAAGATAAAGGTAAGCGCGGTAAAGTTAAGAATGTCCTGTCTTCCGGCAAGGTCATTGTTGAAGGTATCAACCTGGTTAAGAAACACCAGAAGCCGGTTCCGGCTCTGAACCAACCAGGCGGCATCGTTGAAAAAGAAGCTGCAATTCAGGTTTCTAACGTTGCAATCTTCAATGCGGCAACCGGCAAGGCTGACCGTGTAGGCTTTAGATTCGAAGACGGCAAAAAAGTCCGTTTCTTCAAGTCTAACAGCGAAACTATCAAGTAA	MAAKIRRDDEVIVLTGKDKGKRGKVKNVLSSGKVIVEGINLVKKHQKPVPALNQPGGIVEKEAAIQVSNVAIFNAATGKADRVGFRFEDGKKVRFFKSNSETIK				NA	NA	NA	NA	NA
BMS020_08644	372	rplN_2	COG0093	50S ribosomal protein L14	ATGATCCAAGAACAGACTATGCTGAACGTCGCCGACAACTCCGGTGCACGTCGCGTAATGTGTATCAAGGTTCTGGGTGGCTCGCACCGTCGCTACGCAGGCGTAGGCGACATCATCAAGATCACCATCAAAGAAGCAATTCCGCGTGGTAAGGTCAAAAAAGGTGATGTGCTGAAGGCGGTAGTGGTGCGCACCAAGAAGGGTGTTCGTCGCCCGGACGGTTCTGTCATTCGCTTCGATGGTAATGCATGCGTTATTCTGAACAATAACAGCGAGCAGCCTATCGGTACGCGTATTTTTGGGCCGGTAACTCGTGAACTTCGTACCGAGAAGTTCATGAAAATTATCTCTCTGGCACCAGAAGTACTCTAA	MIQEQTMLNVADNSGARRVMCIKVLGGSHRRYAGVGDIIKITIKEAIPRGKVKKGDVLKAVVVRTKKGVRRPDGSVIRFDGNACVILNNNSEQPIGTRIFGPVTRELRTEKFMKIISLAPEVL				NA	NA	NA	NA	NA
BMS020_08645	255	rpsQ_2	COG0186	30S ribosomal protein S17	ATGACCGATAAAATCCGTACTCTGCAAGGTCGCGTAGTTAGCGACAAAATGGAGAAATCCATTGTTGTTGCTATCGAACGTATGGTGAAACACCCGGTTTACGGCAAATTCATCAAACGTACGACCAAACTGCACGTACATGACGAGAACAACGAATGCGGTATCGGCGACAAGGTTGAAATCCGCGAATGCCGTCCGCTGTCCAAGACTAAGTCCTGGACGCTGGTTCGCGTTGTAGAGAAAGCGGTTCTGTAA	MTDKIRTLQGRVVSDKMEKSIVVAIERMVKHPVYGKFIKRTTKLHVHDENNECGIGDKVEIRECRPLSKTKSWTLVRVVEKAVL				NA	NA	NA	NA	NA
BMS020_08646	192	rpmC_2	COG0255	50S ribosomal protein L29	ATGAAAGCAAAAGAGCTGCGTGAAAAAAGCGTTGAAGAGCTGAACGCTGAGCTGCTGAACCTGCTGCGTGAGCAGTTCAACCTGCGCATGCAGGCTGCAAGTGGCCAGCTGCAACAGACTCATCTGCTGAAGCAAGTGCGTCGTGATGTTGCACGCGTTAAGACTTTACTGACTCAGAAGGCGGGTGCGTAA	MKAKELREKSVEELNAELLNLLREQFNLRMQAASGQLQQTHLLKQVRRDVARVKTLLTQKAGA				NA	NA	NA	NA	NA
BMS020_08647	411	rplP_2	COG0197	50S ribosomal protein L16	ATGTTACAACCAAAGCGTACAAAATTCCGTAAAGTGCACAAAGGCCGCAACCGTGGTCTGGCGCAGGGTACGGATGTTAGCTTCGGCACTTTCGGTCTGAAAGCTGTTGGCCGTGGTCGTCTGACTGCACGTCAGATCGAAGCAGCACGTCGTGCTATGACCCGTGCAGTTAAGCGTCAAGGTAAGATCTGGATCCGTGTATTCCCGGACAAACCGATCACCGAGAAGCCGCTGGAAGTTCGTATGGGTAAAGGTAAAGGTAACGTGGAGTACTGGGTTGCCTTGATTCAGCCGGGTAAAGTCCTGTATGAAATGGACGGTGTACCGGAAGAGCTGGCCCGTGAAGCATTCGGCCTGGCAGCAGCGAAACTGCCGATCAAAACCACCTTTGTAACTAAGACGGTGATGTAA	MLQPKRTKFRKVHKGRNRGLAQGTDVSFGTFGLKAVGRGRLTARQIEAARRAMTRAVKRQGKIWIRVFPDKPITEKPLEVRMGKGKGNVEYWVALIQPGKVLYEMDGVPEELAREAFGLAAAKLPIKTTFVTKTVM				NA	NA	NA	NA	NA
BMS020_08648	699	rpsC_2	COG0092	30S ribosomal protein S3	ATGGGTCAGAAAGTACATCCTAATGGTATTCGCCTGGGTATTGTCAAACCATGGAACTCTACCTGGTTCGCGAACACCAAAGAATTCGCTGACAACCTGGACAGCGATTTTAAAGTACGTCAGTTCCTGACTAAAGAACTGGCTAAAGCGTCTGTATCTCGCATCGTTATCGAGCGTCCGGCTAAGAGCATCCGTGTGACCATTCACACCGCTCGCCCGGGTATCGTTATCGGTAAGAAAGGCGAAGACGTAGAAAAACTGCGCAAGGTCGTAGCGGATATCGCTGGCGTACCTGCACAGATCAATATCGCCGAAGTTCGTAAACCTGAACTGGACGCAAAACTGGTTGCTGACAGCATCACTTCTCAGCTGGAACGTCGCGTTATGTTCCGTCGTGCGATGAAGCGTGCTGTACAGAACGCAATGCGTCTGGGCGCTAAAGGTATCAAAGTTGAAGTTAGCGGCCGTCTGGGCGGCGCGGAAATCGCACGTACCGAATGGTACCGTGAAGGTCGCGTACCGCTGCACACTCTGCGTGCTGACATCGACTACAACACCTCTGAAGCGCACACCACTTACGGTGTAATCGGCGTTAAGGTATGGATCTTCAAAGGTGAGATCCTGGGTGGTATGGCTGCTGTTGAACAACCGGAACCGGCTGCTCAACCTAAAAAGCAGCAGCGTAAAGGCCGTAAATAA	MGQKVHPNGIRLGIVKPWNSTWFANTKEFADNLDSDFKVRQFLTKELAKASVSRIVIERPAKSIRVTIHTARPGIVIGKKGEDVEKLRKVVADIAGVPAQINIAEVRKPELDAKLVADSITSQLERRVMFRRAMKRAVQNAMRLGAKGIKVEVSGRLGGAEIARTEWYREGRVPLHTLRADIDYNTSEAHTTYGVIGVKVWIFKGEILGGMAAVEQPEPAAQPKKQQRKGRK				NA	NA	NA	NA	NA
BMS020_08649	333	rplV_2	COG0091	50S ribosomal protein L22	ATGGAAACTTTAGCTCAACATCGCCATGCTCGTTCTTCTGCTCAGAAGGTTCGCCTTGTAGCTGACCTGATTCGCGGTAAGAAAGTGTCGCAGGCCCTGGATATTCTGACCTACACCAACAAAAAAGCTGCTGTACTGGTCAAGAAGGTACTGGAATCTGCCATTGCTAACGCTGAACACAACGATGGCGCTGACATTGATGATCTGAAAGTTGCGAAAATTTTCGTAGACGAAGGCCCGAGCATGAAGCGCATTATGCCGCGTGCTAAAGGTCGTGCAGATCGCATCCTGAAGCGCACCAGCCACATCACTGTGGTTGTGTCCGATCGCTGA	METLAQHRHARSSAQKVRLVADLIRGKKVSQALDILTYTNKKAAVLVKKVLESAIANAEHNDGADIDDLKVAKIFVDEGPSMKRIMPRAKGRADRILKRTSHITVVVSDR				NA	NA	NA	NA	NA
BMS020_08650	279	rpsS_2	COG0185	30S ribosomal protein S19	ATGCCACGTTCTCTCAAGAAAGGTCCTTTTATTGACCTGCACTTGCTGAAGAAGGTAGAGAAAGCGGTGGAAAGCGGAGACAAGAAGCCCCTGCGCACTTGGTCCCGTCGTTCAACGATCTTTCCTAACATGATCGGTTTGACCATCGCTGTCCATAATGGTCGTCAGCACGTTCCAGTATTTGTTTCCGACGAAATGGTCGGTCACAAACTGGGTGAATTCGCACCGACTCGTACTTATCGCGGCCACGCTGCTGATAAAAAAGCGAAGAAGAAATAA	MPRSLKKGPFIDLHLLKKVEKAVESGDKKPLRTWSRRSTIFPNMIGLTIAVHNGRQHVPVFVSDEMVGHKLGEFAPTRTYRGHAADKKAKKK				NA	NA	NA	NA	NA
BMS020_08651	822	rplB_2	COG0090	50S ribosomal protein L2	ATGGCAGTTGTTAAATGTAAACCGACATCTCCGGGTCGTCGCCACGTCGTTAAAGTGGTTAACCCAGAGCTGCACAAGGGCAAACCTTTTGCTCCGTTGCTGGAAAAAAACAGCAAATCCGGTGGTCGTAACAACAATGGCCGTATCACCACCCGTCATATCGGTGGTGGCCACAAGCAGGCTTACCGTATTGTTGACTTCAAACGCAACAAAGATGGTATCCCGGCAGTTGTTGAACGTCTTGAGTACGATCCGAACCGCTCCGCGAACATCGCGCTGGTTCTGTACAAAGACGGCGAGCGCCGTTACATCCTGGCCCCGAAAGGCCTGAAAGCTGGCGACCAGATTCAGTCTGGCGTTGATGCTGCAATCAAAGCAGGCAACACCCTGCCGATGCGCAATATCCCGGTTGGTTCTACCGTTCATAACGTAGAAATGAAACCAGGTAAAGGCGGTCAGCTGGCTCGTTCCGCTGGTACTTACGTTCAGATCGTTGCTCGCGACGGTGCTTATGTCACCCTGCGTCTGCGTTCTGGTGAAATGCGTAAAGTCGAAGCAGACTGCCGCGCTACTCTGGGCGAAGTTGGCAATGCTGAGCATATGCTGCGCGTTCTGGGTAAAGCAGGTGCTGCACGCTGGCGTGGTGTTCGTCCTACCGTTCGCGGTACTGCGATGAACCCAGTAGACCACCCACATGGTGGTGGTGAAGGTCGTAACTTTGGTAAGCACCCGGTATCCCCGTGGGGCCTGCAGACCAAAGGTAAGAAGACCCGCAGCAACAAGCGTACTGATAAATTCATCGTACGTCGCCGTAGCAAATAA	MAVVKCKPTSPGRRHVVKVVNPELHKGKPFAPLLEKNSKSGGRNNNGRITTRHIGGGHKQAYRIVDFKRNKDGIPAVVERLEYDPNRSANIALVLYKDGERRYILAPKGLKAGDQIQSGVDAAIKAGNTLPMRNIPVGSTVHNVEMKPGKGGQLARSAGTYVQIVARDGAYVTLRLRSGEMRKVEADCRATLGEVGNAEHMLRVLGKAGAARWRGVRPTVRGTAMNPVDHPHGGGEGRNFGKHPVSPWGLQTKGKKTRSNKRTDKFIVRRRSK				NA	NA	NA	NA	NA
BMS020_08652	303	rplW_2	COG0089	50S ribosomal protein L23	ATGATTCGTGAAGAACGTCTGCTGAAGGTGCTGCGCGCACCGCACGTTTCTGAAAAAGCGTCTACTGCGATGGAAAAAACAAACACCATCGTTCTCAAAGTTGCTAAAGACGCGACCAAAGCAGAAATCAAAGCTGCTGTGCAGAAACTGTTTGAAGTCGAAGTCGAAGTCGTTAACACCCTGGTTGTTAAAGGGAAAGTTAAACGTCACGGACAGCGTATCGGTCGTCGTAGCGACTGGAAAAAAGCTTACGTCACCCTGAAAGAAGGCCAGAATCTGGACTTCGTTGGCGGCGCTGAGTAA	MIREERLLKVLRAPHVSEKASTAMEKTNTIVLKVAKDATKAEIKAAVQKLFEVEVEVVNTLVVKGKVKRHGQRIGRRSDWKKAYVTLKEGQNLDFVGGAE				NA	NA	NA	NA	NA
BMS020_08653	606	rplD_2	COG0088	50S ribosomal protein L4	ATGGAATTAGTATTGAAAGACGCGCAGAGCGCGCTGACTGTTTCCGAAACTACCTTCGGTCGTGATTTCAACGAAGCGCTGGTTCACCAGGTTGTTGTTGCTTATGCAGCTGGTGCGCGTCAGGGCACTCGTGCTCAGAAGACTCGTGCTGAAATCACTGGCTCCGGTAAAAAACCGTGGCGCCAGAAAGGTACCGGCCGTGCGCGTTCTGGTTCTATCAAGAGCCCGATCTGGCGTTCCGGTGGCGTGACCTTTGCTGCTCGTCCGCAGGACCACAGTCAAAAAGTTAACAAGAAGATGTACCGCGGCGCGCTGAAAAGCATCCTGTCCGAACTGGTACGTCAGGATCGTCTGATCGTTGTCGAGAAGTTCTCTGTTGAAGCGCCGAAAACTAAGCTGCTGGCACAGAAACTGAAAGACATGGCTCTGGAAGATGTGCTGATCATCACCGGTGAGCTGGACGAGAACCTGTTCCTGGCCGCACGTAACCTGCACAAGGTTGACGTACGTGATGCGAACGGTATCGACCCGGTTAGCCTGATCGCCTTCGACAAAGTCGTAATGACTGCTGATGCTGTTAAGCAAGTTGAGGAGATGCTGGCATGA	MELVLKDAQSALTVSETTFGRDFNEALVHQVVVAYAAGARQGTRAQKTRAEITGSGKKPWRQKGTGRARSGSIKSPIWRSGGVTFAARPQDHSQKVNKKMYRGALKSILSELVRQDRLIVVEKFSVEAPKTKLLAQKLKDMALEDVLIITGELDENLFLAARNLHKVDVRDANGIDPVSLIAFDKVVMTADAVKQVEEMLA				NA	NA	NA	NA	NA
BMS020_08654	393			hypothetical protein	GTGAGTAGCGTCCTGGGTACGGAAGTTCCAGCGCTTAACGGTACCAGCAAAACCTTTACCTTTAGAGGTACCGGTTACGTCAACTTTTTTAACGTCAGCAAACAGTTCAACGCTAATGTTCTGACCTACGGTGAATTCTTCGCCGTCAGCCAGACGGAATTCCCACAGACCACGGCCAGCTTCAACGCCAGCTTTAGCGAAGTGACCCGCTTCCGGCTTGGTTACACGGTTAGCTTTTTTAGCACCGGTGGTAACCTGGATTGCGCGGTAGCCATCGTTAGCCAGGTCTTTAACCTGAGTAACACGGTTTGCTTCAACTTCGATTACGGTTACTGGGATAGAAACGCCATCTTCAGTGAAGATGCGGGTCATGCCCACTTTTTTACCGACTAA	MSSVLGTEVPALNGTSKTFTFRGTGYVNFFNVSKQFNANVLTYGEFFAVSQTEFPQTTASFNASFSEVTRFRLGYTVSFFSTGGNLDCAVAIVSQVFNLSNTVCFNFDYGYWDRNAIFSEDAGHAHFFTD				NA	NA	NA	NA	NA
BMS020_08655	312	rpsJ_2	COG0051	30S ribosomal protein S10	ATGCAGAACCAAAGAATCCGTATCCGCCTGAAAGCGTTTGATCATCGTCTGATCGATCAATCAACCGCGGAAATCGTCGAGACTGCTAAGCGCACTGGTGCGCAAGTCCGTGGTCCGATCCCGCTGCCGACCCGCAAAGAGCGCTTTACCGTTCTGATCTCCCCGCACGTCAACAAAGACGCGCGTGACCAGTACGAAATTCGCACTCACAAGCGTCTGGTTGACATCGTTGAGCCAACTGAAAAAACCGTTGATGCTCTGATGCGTCTGGATCTGGCTGCCGGTGTAGACGTGCAGATCAGCCTGGGTTAA	MQNQRIRIRLKAFDHRLIDQSTAEIVETAKRTGAQVRGPIPLPTRKERFTVLISPHVNKDARDQYEIRTHKRLVDIVEPTEKTVDALMRLDLAAGVDVQISLG	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
BMS020_08656	486			hypothetical protein	ATGCTCGCCGCCCTCCCCTTCTTGCTGTGCTATAGCGGATTGACCTTAGCCTTATGCCACCAGGACCTGCGTCACGGCCTGCTGCCCGACCGTTACACCTGTCCCCTGCTGTGGAGTGGTTTGCTTTTTTATCTCTGTCTGGCGCCACATCAGCTTCATGATGCCGTCTGGGGGGCGATAGCCGGCTATCTCTGTTTGGCTGCGCTTTACTGGCTATATCGCGGGATCCGCGGCTATGAGGGGTTGGGGTATGGGGATATCAAGTATCTCGCCGCCCTCGGCGCCTGGCATGGCTGGCGATTGCTGCCGCAGCTGCTACTGGTGGCATCGCTGCTCGCCTGCGCGGTGTGGGCAGTATCAGGTTTGTACGCCAGGTACGGCGGGAGCAGTAAATGGAGGGGGAACAACCCGCTGCCGTTTGGGCCATTTCTGGCGGCCGCGGGTTTCTGGTGCGGGTGTCAGACGCTGGCTAGTCTGACACTTTGA	MLAALPFLLCYSGLTLALCHQDLRHGLLPDRYTCPLLWSGLLFYLCLAPHQLHDAVWGAIAGYLCLAALYWLYRGIRGYEGLGYGDIKYLAALGAWHGWRLLPQLLLVASLLACAVWAVSGLYARYGGSSKWRGNNPLPFGPFLAAAGFWCGCQTLASLTL	PGPT0026480_145	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026480-gspO-K02464	NA	NA
BMS020_08657	477	bfr_3	COG2193	Bacterioferritin	ATGAAAGGTGATGTCAAAATCATAAGTTATCTCAATAAATTATTGGGAAATGAGCTGGTCGCAATTAATCAGTACTTTCTCCATGCGAGAATGTTCAAAAACTGGGGCCTGATGCGCCTCAACGATATTGAGTACCACGAATCCATCGACGAAATGAAGCACGCCGATAAATACATCGAGCGTATTCTTTTTCTCGAAGGTATCCCGAATCTGCAGGATCTCGGCAAACTTGGCATTGGTGAAGATGTGGAAGAGATGCTGCAGTCCGATTTAAGACTGGAGCTGGAGGGGGCGCAAAACCTGCGCGAGGCGATCGCCTATGCCGACAGCGTCCATGACTACGTCAGCCGCGATATGATGATTGAGATCCTGGCGGATGAAGAAGGCCATATCGACTGGCTGGAAACCGAACTCGATCTGATCGGCAAAATCGGTCTGCAAAATTATCTGCAGTCGCAGATCAAAGTGTCAGACTAG	MKGDVKIISYLNKLLGNELVAINQYFLHARMFKNWGLMRLNDIEYHESIDEMKHADKYIERILFLEGIPNLQDLGKLGIGEDVEEMLQSDLRLELEGAQNLREAIAYADSVHDYVSRDMMIEILADEEGHIDWLETELDLIGKIGLQNYLQSQIKVSD	PGPT0003965_1823	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003965-bfr-K03594	NA	NA
BMS020_08658	195	bfd	COG2906	Bacterioferritin-associated ferredoxin	ATGTACGTTTGTTTGTGCAATGGCGTCAGCGATAAAAAAATTCGCCAGGTTGTTCGCCAGTTTCAACCGCAATCTTTTCAGCAATTACGTAAGTTTGTTCCCGTTGGAAATCAATGCGGTAAGTGTGTTCGCGCGGCGCGGGAAGTTATGGAAGATGAATTAACCACCATGCCGGAATTCAAAGAAATCGCCTGA	MYVCLCNGVSDKKIRQVVRQFQPQSFQQLRKFVPVGNQCGKCVRAAREVMEDELTTMPEFKEIA	PGPT0003975_1002	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACTERIOFERRITIN-ASSOCIATED_FERREDOXIN,PGPT0003975-bfd|yheA-K02192	NA	NA
BMS020_08659	138	tuf1_2		Elongation factor Tu 1	ATGGTAATGCCGGGCGACAACATCAAAATGGTTGTTACCCTGATCCACCCGATCGCGATGGACGATGGTCTGCGTTTCGCAATCCGTGAAGGCGGCCGTACCGTTGGCGCGGGCGTTGTAGCTAAAGTTCTGGGCTAA	MVMPGDNIKMVVTLIHPIAMDDGLRFAIREGGRTVGAGVVAKVLG	PGPT0015245_5731	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358	NA	NA
BMS020_08660	678			hypothetical protein	GTGCTGCCGCAGGCCGCCAATGCCGCGGCGACCACCAGCGCCGCCGCCACCGGCAGCTTCGCCGCCGCGCTGGCCAAGAGCGCCGAGGCGACCGCCCCGGCCGCCGCCAAGGCCAGCGCCGCCGACGCGCTGACTGCCGCCGATCCGGCCGCGGCCGCCAAGGGGCCCGATGCCGCCAGCCTGCTGGCGCTGCACGCGGCCGGCCCCGGCCATGCCAGCGCCACCCGCGGCGGCGATGCGGCCACGTTCGACGGTTCGCCGACGCCGACCCCGCACCTGCACGAAGGCTTCGACGAGGCGATGGGCGCGCGCCTGAGCTGGCTGGCCGACCAGAAGATCGGCCACGCCCATATCAAGATCACCCCGAACGACCTCGGCCCGGTCGAGGTGCGCCTGCACCTGGACGGCGACAAGGTCAACGCCAGCTTCACCGCCGCCAACGCCGACGTGCGCCAGGCGCTGGAGCAGAGCCTGCCGCGCCTGCGCGAGATGCTCGGCCAGCAGGGCTTCCAGCTGGGCAATGCCGATGTCGGCCAGCACCAGCAGGGCCAGCCCGGCAACCGCGGCAACGGCAACGACCCGGCAGCGCTGGACGGCATCGCCGGCGAGGACCTGGGCGGCGCCGGAATCCCGGCGTCGGTGCTGCGCCAGCGCGGCCTGCTCGACGCCTACGCCTGA	MLPQAANAAATTSAAATGSFAAALAKSAEATAPAAAKASAADALTAADPAAAAKGPDAASLLALHAAGPGHASATRGGDAATFDGSPTPTPHLHEGFDEAMGARLSWLADQKIGHAHIKITPNDLGPVEVRLHLDGDKVNASFTAANADVRQALEQSLPRLREMLGQQGFQLGNADVGQHQQGQPGNRGNGNDPAALDGIAGEDLGGAGIPASVLRQRGLLDAYA	PGPT0015520_1532	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015520-fliK|motD-K02414	NA	NA
BMS020_08661	513			hypothetical protein	GTGTCCGGCGACAAGAACAAGAAAGGCGAAGCCAAGGAAAAGAAGGCTGGCGGCGCCAAGCAGATGATCCTGATCGGCACGATCGTGCTGGTCCTGGCGGCCGCGGCGGGCGGCGGCGTGTGGTTCTTCACCAGCCGCAAGGCCGGCGGCGAGCACGCCAAGGAAGCGCCCAAGACCGTCGAGGTGCCCAAGCCGGCGCAGTACTTCGCGATGGACCCGCCGTTCGTGGTCAACCTCAACGGCCCGACCGACGGCCCGCGCTACCTGCAGGTCGAGATCCAGCTGATGACCCGCGATCCCGAGGAGCTGAAGTCGATCACCGAGAACGCCCCGGCGATCCGCGCCCACCTGCTGATGCTGCTGTCCACCGTGCAGGTCGCCGACATCGCCGACCTGGCCGGCCGGCAGAAGCTGCAGGCGCGTGCGCTGGCCGACGCGCAGAAGGTGATGACCGCCGAAACCGGCAAGAAGTGCGTCGAAGACCTGCTGTTCACCAGCTTCGTCACCCAATAA	MSGDKNKKGEAKEKKAGGAKQMILIGTIVLVLAAAAGGGVWFFTSRKAGGEHAKEAPKTVEVPKPAQYFAMDPPFVVNLNGPTDGPRYLQVEIQLMTRDPEELKSITENAPAIRAHLLMLLSTVQVADIADLAGRQKLQARALADAQKVMTAETGKKCVEDLLFTSFVTQ	PGPT0015525_566	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015525-fliL-K02415	NA	NA
BMS020_08662	1017	fliM	COG1868	Flagellar motor switch protein FliM	ATGAGCATCGACGACCTGCTTTCCCAAGACGAGATCGACGCCCTGCTGCATGGCGTCGATTCCGGCGCGGTCAACACCGCGCCCGAGGCGGCACCGGGCGAGGCGCGCCAGTACGACCTGTCCAGCCAGGACCGCATCATCCGCGGGCGCATGCCGACCCTGGAGATGGTCAACGAGCGCTTCGCGCGGCTGTGGCGCATCGGCCTGTTCAACCTGATCCGGCGCTCGGCCGACATCTCCGTGCGCGGCATCGACCTGGTCAAGTTCAACGAGTACATGCACTCGCTGTACGTGCCGACCAACCTCAACCTGATCAAGTTCAAGCCGCTGCGCGGCGCCGGGCTGATCGTGTTCGAGCCGACCCTGGTGTTCACCGTGGTCGACAACTTCTTCGGCGGCGACGGCCGCTTCCACACCCGCATCGAAGGCCGCGAATTCACCGCCACCGAGATGCGGGTGATCCAGTTGATGCTCAAGCAGACCTTCGCCGACCTCAAGGAAGCCTGGGCGCCGGTGATGGAGGTGGACTTCGAGTACATCAACTCGGAGATCAACCCGCACTTCGCCAACATCGTCACCCCGCGCGAGTACGTGGTGGTGTGCCGTTTCCACGTCGAGCTGGAAGGCGGTGGCGGCGAGATCCACGTGACCCTGCCGTACTCGATGCTGGAGCCGATCCGCGACGTGCTCGACGCCGGCATCCAGAGCGACCGCAACGATCGCGACGCGAGCTGGAACACCGCGCTGCGCGAGCAGCTCAACATGGCCGAAGTCACCATCTCCAGCGTGCTGGCCAGCCGGCGCATGAGCCTGCGCCAGCTCACCTCGCTGAAGGTCGGCGACATCCTGCCCATCGAGATGGCCGAGCAGATCCCGGTCTGCATCGAGGAGATCCCGATGTTCACCGGCCGCTTCGGCGTCGCCAACGGCAACAACGCCGTGAAGATCACCGCGGTCAGCCCGCCCACCACCTCCGCCCCGGCCCGCCCCCTCGCCCCCCAGGATCCGCTGTCATGA	MSIDDLLSQDEIDALLHGVDSGAVNTAPEAAPGEARQYDLSSQDRIIRGRMPTLEMVNERFARLWRIGLFNLIRRSADISVRGIDLVKFNEYMHSLYVPTNLNLIKFKPLRGAGLIVFEPTLVFTVVDNFFGGDGRFHTRIEGREFTATEMRVIQLMLKQTFADLKEAWAPVMEVDFEYINSEINPHFANIVTPREYVVVCRFHVELEGGGGEIHVTLPYSMLEPIRDVLDAGIQSDRNDRDASWNTALREQLNMAEVTISSVLASRRMSLRQLTSLKVGDILPIEMAEQIPVCIEEIPMFTGRFGVANGNNAVKITAVSPPTTSAPARPLAPQDPLS	PGPT0015405_803	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_C-RING,PGPT0015405-fliM-K02416	NA	NA
BMS020_08663	336	fliN	COG1886	Flagellar motor switch protein FliN	ATGACCCAGACCGACCAGAGCGCCGCCGCCGCGCAGTTCGACAACCTCCAGGCCGAGCACGACCCGGCGGCCACCGATCTCAACCTGGACGTGATCCTGGACGTGCCGGTGACGCTGTCGCTGGAAGTCGGCCGTGCGCGCCTGCCGATCCGCAACCTGCTGCAGCTCAACCAGGGCTCGGTGGTGGAACTGGACCGCGGCGCCGGCGAACCGCTGGACGTGTACGTCAACGGCACCCTGATCGCGCACGGCGAGGTGGTGGTGATCAACGACCGCTTCGGCATCCGCCTGACCGACGTGGTCAGCCCGAGCGAGCGCATCCGGAGACTGCGGTGA	MTQTDQSAAAAQFDNLQAEHDPAATDLNLDVILDVPVTLSLEVGRARLPIRNLLQLNQGSVVELDRGAGEPLDVYVNGTLIAHGEVVVINDRFGIRLTDVVSPSERIRRLR	PGPT0015410_1186	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
BMS020_08664	408			hypothetical protein	GTGAACCCGATCCTCGCCGCCACCGCCCCCGCCGCGGCCAAGGCCGCGCAGGTCGGCAGCCAGGCGCCGGCCGCGCCCAGCCTGTTCGGCGCGGTGTTCGCGCTGCTGCTGGTGCTGGGCCTGATCGTCGGCCTGGGCTGGCTGCTCAAGCGCATGCCCGGCAGCCGCTTCCGCACCGTCGAGGGGCTGAAGCTGGTGGCGAGCATGCCGCTCGGCGCCAAGGAGCGCGTGGTGGTGGTCGAGGTCAACGGCGAGCAGCTGCTGCTCGGCGTCACCGCCGGCGGCATCGCCACCCTGCACCGCCTGCCCGAACCGCTGGTGCCGGCACCGGCGCCGTCCCTGCCCGACCTGCGGCAGTTGCCCAATTTCGCCCAGCTGCTGTCGCAGAAGCTGCGCAAGGATTCCTGA	MNPILAATAPAAAKAAQVGSQAPAAPSLFGAVFALLLVLGLIVGLGWLLKRMPGSRFRTVEGLKLVASMPLGAKERVVVVEVNGEQLLLGVTAGGIATLHRLPEPLVPAPAPSLPDLRQLPNFAQLLSQKLRKDS	PGPT0015345_1255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015345-fliOZ-K02418	NA	NA
BMS020_08665	855	fliP	COG1338	Flagellar biosynthetic protein FliP	ATGTTCCCGCGTTGGAAGCGTTGGACGCGCAGCGTCCGGCTGGTGCTCATCCTCCTGGCGCTGTCGCTGGCGCCGACGCTCGCACTGGCCGCGCCGGCCACGCTGCCGGCGATGGCCCAGGCCGCCGCCGCGCAGCCGGCGCCGATCGACCCGGCCCCGGCCGCCAGCGGCAACCAGATCCCGTCGCTGCCGAACGTCAACGTCGGCCGCATCGGCAACCAGCCGGTCAGCCTGCCGCTGCAGACGCTGTTGCTGATGACGGCGATCACGCTGCTGCCGTCGATGCTGCTGGTGCTGACCGCCTTCACCCGCATCACCATCGTGCTGGGCCTGCTGCGCCAGGCACTGGGCACCGGCCAGACCCCGTCCAACCAGGTGCTGATGGGCCTGGCGCTGTTCCTGACCGCGCTGGTGATGACCCCGGTGTGGCAGAAGATGTGGAGCGTGGGGCTGTCGCCGTACCTCAACGACCAGATCGATTTCCAGACCGCCTGGACCCTGACCACGCAGCCTCTGCGCGCCTTCATGCTGGCGCAGATCCGCGAGACCGACCTGATGACCTTCGCCGGCATGGCGGGCGACGGCACCTACAGCGGCCCGGACGCGGTGCCGTTCCAGGTGCTGGTGGCCTCGTTCGTCACCTCCGAGCTGAAGACCGCCTTCGAGATCGGCTTCCTGATCTTCATCCCGTTCGTGATCATCGACCTGGTCGTGGCCAGCGTGCTGATGTCGATGGGCATGATGATGATGTCGCCGATGCTGGTCTCGGCGCCGTTCAAGATCCTGCTGTTCGTGCTGGTCGACGGCTGGGTGCTGACCGTCGGCACCCTCGCCGCCAGCTTCAACGCAGCCTAG	MFPRWKRWTRSVRLVLILLALSLAPTLALAAPATLPAMAQAAAAQPAPIDPAPAASGNQIPSLPNVNVGRIGNQPVSLPLQTLLLMTAITLLPSMLLVLTAFTRITIVLGLLRQALGTGQTPSNQVLMGLALFLTALVMTPVWQKMWSVGLSPYLNDQIDFQTAWTLTTQPLRAFMLAQIRETDLMTFAGMAGDGTYSGPDAVPFQVLVASFVTSELKTAFEIGFLIFIPFVIIDLVVASVLMSMGMMMMSPMLVSAPFKILLFVLVDGWVLTVGTLAASFNAA	PGPT0015350_252	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015350-fliP|rhcR-K02419	NA	NA
BMS020_08666	270			hypothetical protein	ATGAGTCCCGAAGTCGCCCTGACCGAATTGCGCGGTGGCCTGGTCACCATCCTCTGGGTCGCCGGCCCGATCCTGCTGGTCATCCTCGTCGTCGGCGTGGTGATCGGCATCGTGCAGGCCGCCACCCAGCTCAACGAGCCGACCATCGCCTTCATCTCCAAGGCGGTGGCGCTGACCGTGGTGCTGTTCGCCGGCGGCTCGATGCTGCTGGCGCATCTGGTGGAATACACCACGATGCTGTTCCAGCGCATTCCGCACCTGATCGGCTAG	MSPEVALTELRGGLVTILWVAGPILLVILVVGVVIGIVQAATQLNEPTIAFISKAVALTVVLFAGGSMLLAHLVEYTTMLFQRIPHLIG	PGPT0015355_414	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015355-fliQ|lfiQ-K02420	NA	NA
BMS020_08667	792	fliR	COG1684	Flagellar biosynthetic protein FliR	ATGGATGCCGCCACCCAGATGGTGATCGACGGCCAGCGCGCCTTCGCGATGGTCGGCGCGATCCTGTGGACCATGCTGCGGACCGGCGCGCTGCTGACCGCGCTGCCACTGGTCGGCACCCGCGCGGTGCCGGCACGGGTGCGGGTGATGCTGGCGGCGACGCTGTCGATGGCGCTGGCGCCGATCCTGCCGCCGGTCCCGGAATGGGACGGCTTCAACGCGATCGCGATCCTCAATGCCGCGCGCGAACTGGCGGTCGGCGCCTGCATGGGCTTCATGCTGCGGCTGATCTTCGAGGCCGGCGCGCTGGCCGGCGAAATGATCTCGCAGAGCACCGGCCTGTCGTTCGCGCAGATGAGCGACCCGCTGCGCGGGGTCACCTCCGGGGTGATCGCGCAATGGTTCTACATCGCCTTCGGGCTGCTGTTCTTTGCTGCCAATGGCCACCTGGCGGTGGTGTCGCTGCTGGTGGACAGCTACAAGGCGCTGCCGATCGGCGCGGCGCTGCCGGACCTGCACGGCTTCCTCGAAGTGGCGCCGACCTTCTTCCTGCAGGTGCTGCGCGGCGGGCTGACGCTGGCGCTGCCGATGATCGTGGCGATGCTGGCGGTGAACCTGGCGTTCGGCGCGCTGGCCAAGGCCGCCCCGGCGCTGAACCCGATCCAGCTCGGCCTGCCGGTGTCGCTGCTGCTGGGGCTGTTCCTGCTGGCCAGCCTGTCGGCCGAGCTGGCGCCGCCGGTCCAGCGCCTGTTCGACAGCGCCTTCGACGCCGCCCGCGCCCTGACCCGCTGA	MDAATQMVIDGQRAFAMVGAILWTMLRTGALLTALPLVGTRAVPARVRVMLAATLSMALAPILPPVPEWDGFNAIAILNAARELAVGACMGFMLRLIFEAGALAGEMISQSTGLSFAQMSDPLRGVTSGVIAQWFYIAFGLLFFAANGHLAVVSLLVDSYKALPIGAALPDLHGFLEVAPTFFLQVLRGGLTLALPMIVAMLAVNLAFGALAKAAPALNPIQLGLPVSLLLGLFLLASLSAELAPPVQRLFDSAFDAARALTR	PGPT0015360_438	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015360-fliR|lfiR-K02421	NA	NA
BMS020_08668	2967			hypothetical protein	ATGTTCCCGTCCGACGGAGGATCGGCCGCGCACGTGTCCAATCAGCGCCGCAAGCAAGGAGCCCGGCCCCCGCGCATCGCCGGATGGCACGCCGCCATCTGGCTGGTGCTGCTGACCGTGTTGGCCTGGCAGGCGCGCGCGCAGGACTACGGCTTCCGCAACTACGCCCAGGCCGATGGCCTGCAGGGCCTGTCGGTCAGCACCTTGTACGAGGACCGCGACAGCGTGGTCTGGGCCGGCACCGAGCTGGGGCTGCACCGCTTCGAACGCGGCCGCTTCGACTTCGTCGGCCGCGACGCCGGCATCGACAGCGTCTACATCCGCGCGCTCGCCGAGGACCGCGCCGGCCGGCTGTGGGTGGCCAGCTCCAACGGCCTGTACCTGCGCATCGGCGGGGTGTTCCGCAACGTGCTGCGCGACGGCCAGCGCGTGCCGGTCGACCTGGGCAACACCCTGGTCGCATTCGGCGAGGGCGTGGTCGCGGTCAGCGGCCGCAGGCTGCTGGCGATCAGCGCCGACGCCGACGGTACTGGCCGTTTCGAACCGCTGCCGTTGCAGCTGGCCGACGGCAGCACGCCGGATGCCGGCGAGGCGCTGCTGGCCGAAGGCGATGCGTTGTGGAGCGCCTGCGGGATGGCGGTGTGCCGGCGTGGCAGCGACGGCCGCACGCTGCGCTACGGCCCGTCCGACGGCGTGCCGGCCGGGCATTGGCAGGCACTGTTCCGCGACAGCCACGGCGTGCTGTGGCTGCGCGGCGATACCCGCGTGCTGGCCTGGGAACCGGGCGCACCCCGCTTCGTCGAGCGCCCGGCGCCGGCGGGTGCGCACTTCGATGTACTGCTGGGCAACGTCAACTTCGTCGAGGACCCGCAGGGCCGGATCCTGACCCGCTCCGACAGCGGCATCGTGCGCTGGGACGGCCATGCCTGGCAGGTGCTGGACAAGGCCCACGGGGTCGGGGTCACGCCGTCGGCGGGCGCGCTGTTGATGCAGCGCGACGGGCGGCTGTGGATCGCCACCCGCGGACTCGGCATCCAGCGCTGGCTGGCCTACGAGCGCATCGAGCACTGGGCCGAGGGCCAGGGCGTGGCAACCTCGCCGATCTGGTCGATCCAGCGCACCGCCGACGGCACCCTGCTGGTCGGCGGCGACGCCGGCAGCTACCGGCTCGACGCGGCCGCACGGCGCATGCGCGCCTGGACCCGCGACGACGGCCAGCCGCTGCTGCAGGGCATCGCGATGAGCACCGCCGCCGACGGCGCGGTGTGGCTGGGACGCTCCTCCGGCGCGCTGGCGCGACGCGACCCGGTCAGCGGCGCCACCCGCGACGTCGCCATGGTGCCGGCCAGCGTGCGCACGCTGACCTTCGACCACGCCGGCATGCTGTGGATCGGCACCGGCCGCGGCGCCTTCCTGCTCGAACCCGGCGCACGCCTGGCGGTGCCGGCGCCGGGCTTGCCGATGGCGCCCTACGACGACGGCGGCTACGACCGCTTCGGGCGGCTGTGGATGGTCGGCGGCAAGGGCCTGTTCGTGCAGCGCGACGGCCATTGGCAGGCCGTGCCGGTACCCGGCCCGCTGCCCAGCCACGACTTCTCGCGGCTGTCGGTGGCACCGGACGGCGAGATCTGGGTCTCGCTCAGCGACGCCGGGCTGTGGCACGGCCGGCTCGACCGCGACGGCGTGCTGCAGCTGCAAGCCGTCGCCGACCCGCTGGTCAGCGAGGTGATGCCCTACATCCTGCGCCACGACCGCAAGGGCCGGCTGTGGGTGGGCAGCAGCCAGGGCGTGGACCTGTACCAGGACGGGCGCTGGAAGCGCATCACCCAGGCCGAAGGCCTGCTGTGGGACGACATGTCCGCCAACGCCTTCTTCGAGGACGCCGACGGCAGCGTCTGGCTGGGCACCAGCCGCGGCATCTGCCACGTGCTGGACCCGGCCGGCATGTTCGCGCTGCACCCGCTGCGGGTGGAGATCATGGCGGTGCGGCGCGCGCTGGAGCCGGTCCACCCCGGGCAGGGCCTGCTGTGGTCGGAGGCGCCGCTGGAAATCGACGTCTCCACCCCCGGCGCGCGCGGCGACGCCGACCGCATTTCCTTCCACTACCGCATCGGCGGCTACCAGGCGCGCTGGTCGCAGACCGCGCAGAGCCACGTCAGCTATCCGCTGCTGCCGCCGGGACGCTACGCCTTCGAAGTCCAGGCCTACGATGCCCGCCAGCGCACGGTCAGCGCGGTGGCGCGCTTCCCGTTCGAGATCTTCCCGCCGTGGTGGCGCAGCCCGTTCGCGGTGCTGGTCTACGTGCTCGGCGGCTTCGGCCTGGTGCTGGGCGTGCTGCACTGGCGCACCCAGCAGCTGCTGGCGCGCGAGCGCGAGCTGGAACGGCTGGTGGCCGAGCGCACCCAGGAACTGGAGCGCGACAAGCAGGCGCTGGAAGCCGCCCGTGCCGAGCTGGCGGTCAAGGCCACCCACGATGCGCTGACCGGGCTGCTCAACCGCGCCGGCATCCTCGAGGCGATGCGCGTGGCGGTGGCCGAAGCCGAGGCCGACGGCCAGCCGCTGGCGGCACTGCTGATCGACCTGGACCACTTCAAGCAGATCAACGACCAGCACGGCCACCTGGCCGGCGACGGCGTGCTGTCGCGGGTCGGGCGCCGCCTCAACGGCTGCCTGCGCGGCTCGGACCGGGTCGGCCGCTACGGCGGCGAGGAGCTGCTGGCGGTGCTGCCGGGCCTGCATCGCGAGGCGCACAACCGCCTGCGCGCGCTGCACGATGCGGTCAGCGCCACCCCCTACGCGATCGGCGAGCAGGTGCTGGAAGTGACCTGCTCGATCGGCGTTGCCTGGCACCGCCCGGGCGAGAGCGTGGAGCAGCTGCTGGCGCGTGCCGATACCGCGCTGTACCGGGCCAAGCACGGCGGGCGCAACCGCATCGAGCTGGAATCGGACAGCCCAATGCCGGCTTAA	MFPSDGGSAAHVSNQRRKQGARPPRIAGWHAAIWLVLLTVLAWQARAQDYGFRNYAQADGLQGLSVSTLYEDRDSVVWAGTELGLHRFERGRFDFVGRDAGIDSVYIRALAEDRAGRLWVASSNGLYLRIGGVFRNVLRDGQRVPVDLGNTLVAFGEGVVAVSGRRLLAISADADGTGRFEPLPLQLADGSTPDAGEALLAEGDALWSACGMAVCRRGSDGRTLRYGPSDGVPAGHWQALFRDSHGVLWLRGDTRVLAWEPGAPRFVERPAPAGAHFDVLLGNVNFVEDPQGRILTRSDSGIVRWDGHAWQVLDKAHGVGVTPSAGALLMQRDGRLWIATRGLGIQRWLAYERIEHWAEGQGVATSPIWSIQRTADGTLLVGGDAGSYRLDAAARRMRAWTRDDGQPLLQGIAMSTAADGAVWLGRSSGALARRDPVSGATRDVAMVPASVRTLTFDHAGMLWIGTGRGAFLLEPGARLAVPAPGLPMAPYDDGGYDRFGRLWMVGGKGLFVQRDGHWQAVPVPGPLPSHDFSRLSVAPDGEIWVSLSDAGLWHGRLDRDGVLQLQAVADPLVSEVMPYILRHDRKGRLWVGSSQGVDLYQDGRWKRITQAEGLLWDDMSANAFFEDADGSVWLGTSRGICHVLDPAGMFALHPLRVEIMAVRRALEPVHPGQGLLWSEAPLEIDVSTPGARGDADRISFHYRIGGYQARWSQTAQSHVSYPLLPPGRYAFEVQAYDARQRTVSAVARFPFEIFPPWWRSPFAVLVYVLGGFGLVLGVLHWRTQQLLARERELERLVAERTQELERDKQALEAARAELAVKATHDALTGLLNRAGILEAMRVAVAEAEADGQPLAALLIDLDHFKQINDQHGHLAGDGVLSRVGRRLNGCLRGSDRVGRYGGEELLAVLPGLHREAHNRLRALHDAVSATPYAIGEQVLEVTCSIGVAWHRPGESVEQLLARADTALYRAKHGGRNRIELESDSPMPA				NA	NA	NA	NA	NA
BMS020_08669	2067		COG2200	putative signaling protein	ATGCTCGGCAGTTACCACTTCGGCCTGGTCGCCATTTCGCTGGCGGTGGCCGTGCTGGCCGCCTACGTGGCCCTGGACATGGCATCGCGCGTGACCTCCAGCCAAGGCGCCGCGGCACGCGGCTGGCTGGCCGGCGGCGCGCTGGCGATGGGCCTGGGCGTCTGGTCGATGCACTTCATCGGCATGCTCGCCTTCAGCCTGCCGATCCCGCTCGGCTACGACCTGGCCTTGACCGTCTACTCATTGGCGGTGGCGGTAGGCGCCTCGGCGTTCGCGCTGTGGCTGGTCTCGCGCGAGCAGCTGCCGTGGCTGCGGCTGGCGCTGGGCGCGGTGCTGATGGGCATCGGCATCGCGCTGATGCACTACATGGGCATGGCCGCGCTGCGCATGCAGCCGGGCATCGACTACGACCCCTGGTGGTTCGCGCTGTCGGTGGCGATCGCGATCGCCGCGGCCGGCGCCGGCATGCTGATCGCCTTCCGCCTGCGCGGCCGGCGCAGCATCGGCCTGCGCCTGCTGGCGGCGCTGGTGATGGGCGTGGCGATCGTCGGCATGCACTACACCGGCATGGCCGCGGCGCAGTTCGCGCCCGGCAGCATCTGCGGCGCGGCCCACGGCGGCGGCGTCGATACCCGCTGGCTGGCGCTGATGGTGGTGGTGGTCACACTGGTGGTGATGGGCATCGCGCTCGGCGTGTCGGTGCTGGACCGGCAGTTCCAGCTGCGTACCGAGGTGCTGGCCGGCTCGCTGGCCAAGGCCAACGAGGCGCTGGCCCAGGCCGCGCTGCACGACGCCCTGACCGGCCTGCCCAACCGCCTGCTGCTGCAGGACCGCATCGGCCAGGCGATCGAGCGCGCGCGGCGCAAGCACCAGCGGCTGGCGGTGATGTTCCTGGACCTGGACGGCTTCAAGGCGGTCAACGACGCCTACGGCCACCAGCTCGGCGACGCCCTGCTGGTGGCGGTGGCGGGCCGGCTGCGCATGCTGATCCGCGGCCAGGACACCCTGGCCCGGCTCGGCGGTGACGAATTCGTGCTGACGGTGGACGTGGACGAACCGGAGGACGCCGCGGCGATCGCCGACCGCGTGGTCGCGGCGATCGCCTGCCCGTTCACGCTGGAGGAGGTCGAACTGCGCATCTCCACCAGCATCGGCATCGCGGTGTTCCCCGAGGACGGCGAGGACGAGCGCCAGCTGCTGGCCAACGCCGACGCGGCGATGTACCACGAGAAGGCCAGCGGCCGGAACGGCTATGCCTTCTTCAAGCGCGCGATGAACGCCAGCAGCGACGAGAAGCTGATGCTGGTGCACGACCTGCCGCTGGCGCTGGAGCGCGGCCAGTTCGCGCTGCACTACCAACCCAAGTACGGCATCGGCGGGCGCGAGGCGATCGGTGCCGAGGCGCTGCTGCGCTGGCAGCACCCCGAGCGCGGCATGATCCCGCCGGACCGGTTCATCCCGGTGGCCGAGCGCATCGGCCTGATCATCCCGATCGGCGAATGGGTGCTGGACGAGGCCTGCCGGCAGATGAAAGCCTGGCGCGACGCCGGCCATGGCGACTGGAACGTGGCGGTGAACCTGTCGGCGGTGCAGCTGTCCTCGCCGGCGCTGCTGGAGAACGTGCTGGCGGCGCTGGCCCGGCACGAGATCGGCCCGGGCCGGCTGACCCTGGAGATCACCGAGACCACGGCGATGCGCGATGCCGATGCCAGCCTGGAGATCCTCAACGCGCTGACCGCGATCGGGGTCAACATCGCCATCGACGACTTCGGCACCGGTTATTCCAACCTGCTCTACCTCAAGCGCCTGCCGGCGCGCGAACTGAAGATCGACCGCGCCTTCGTCAAGGAGCTGGAGCACAGCGCCGAGGACTTCGCGATCGTGTCCTCGATCGTCGCCCTGGCGCGCACCCTGAACATGCAGGTGGTGGCCGAAGGCGTGGAGACCGAAGCCCAGCGCAGCTACCTGCGCGACCTCGGCTGCGACCAGCTGCAGGGCTATCTGCTCGGCCGCCCGGTCGATGCCGAGCGCTTCATCGAGGCGGTGCGCCCGGCCGCACCGGCCTAG	MLGSYHFGLVAISLAVAVLAAYVALDMASRVTSSQGAAARGWLAGGALAMGLGVWSMHFIGMLAFSLPIPLGYDLALTVYSLAVAVGASAFALWLVSREQLPWLRLALGAVLMGIGIALMHYMGMAALRMQPGIDYDPWWFALSVAIAIAAAGAGMLIAFRLRGRRSIGLRLLAALVMGVAIVGMHYTGMAAAQFAPGSICGAAHGGGVDTRWLALMVVVVTLVVMGIALGVSVLDRQFQLRTEVLAGSLAKANEALAQAALHDALTGLPNRLLLQDRIGQAIERARRKHQRLAVMFLDLDGFKAVNDAYGHQLGDALLVAVAGRLRMLIRGQDTLARLGGDEFVLTVDVDEPEDAAAIADRVVAAIACPFTLEEVELRISTSIGIAVFPEDGEDERQLLANADAAMYHEKASGRNGYAFFKRAMNASSDEKLMLVHDLPLALERGQFALHYQPKYGIGGREAIGAEALLRWQHPERGMIPPDRFIPVAERIGLIIPIGEWVLDEACRQMKAWRDAGHGDWNVAVNLSAVQLSSPALLENVLAALARHEIGPGRLTLEITETTAMRDADASLEILNALTAIGVNIAIDDFGTGYSNLLYLKRLPARELKIDRAFVKELEHSAEDFAIVSSIVALARTLNMQVVAEGVETEAQRSYLRDLGCDQLQGYLLGRPVDAERFIEAVRPAAPA	PGPT0026010_1667	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
BMS020_08670	1134	flhB	COG1377	Flagellar biosynthetic protein FlhB	ATGTCTGAAAACGAAGACGGCGCCGAACGCAACCAACTACCCACCGAAAAGCGCCTGCGCGAGGCGCGCGAACAGGGCAACGTCCCGCATTCGCGCGAACTGGCCACCGCGGCGGTGTTCGGCACCGGCGTCGCCACGCTGATGGCGACCGGCGGCAGCCTGGCCAGCGGTGCCCGCGGCTGGATGGCCGCGGCGCTGAGCCCGCCGCCGGGCCTGCGCGACGCCCCGCAGGAGCTGCTCGGGCATTTCGGCCACCTGCTGCTGCAGCTGCTGTGGGTGTTCGCCCCGCTGGCGCTGATCTGCATCGCCGCGACCCTGATCGCCCCGGTGCTGATGGGCAGCCTGCAGTTCAGCAGCAAGGCCTTGATGCCGAACCTGAACAAGCTCAACCCGATGACCGGTCTGGGCCGCCTGTACGGCCCGGAAAGCCTGGCCGAGCTGGCCAAGTCGATGCTGCGCATCGTCTTCGTCGGCGCCGCCGCCGGGCTGTGCATCTGGCACGGGCTGCACCAGCTGCGCGCCCTGCTCAACACCCCGCTGGAGCGGGCCGTCATCGACGGCCTCGGCTTCACCCTGCGCCTGCTGATGTACGCCGGCGGCGCGCTGGTGCTGCTGGCGGCGATCGACGCGCCGTACCAGAAGTGGAACTGGCTGCGGAAGCTGAAGATGACCCGCGAGGAGATCAAGCGGGAAATGAAGGAGGCCGAGGGCAGCCCCGAGGTCAAGAGCCGCATCCGCCAGATGCAGCACCAGATGTCGCAGCGGCGGATGATGGAAGCGGTGCCCAAGGCCGACGTGGTGCTGGTCAACCCCACCCACTACGCGGTGGCGCTGAAGTACGAGGGCGGCAGCATGCGCGCCCCGGTGGTGGTGGCCAAGGGCGTGGACGAACTGGCGTTCCGGATCCGCGAGATCGGCGAGCAGCACCGGGTCGCGATCGTCTCGGCGCCGCCTTTGGCACGCGCCTTGTATCGGGAGGGGCAACTCGGCAAGGAAATTCCCGTGAGACTGTATTCGGCCGTCGCCCAGGTGCTCTCCTACGTCTACCAGCTGCGCGCCTGGCGCCATGGCCCGATGCCGCAGATGCAGACGATCGACCTGGATGAGTTCGGCGGCAAGGGGGCTCCGCGATGA	MSENEDGAERNQLPTEKRLREAREQGNVPHSRELATAAVFGTGVATLMATGGSLASGARGWMAAALSPPPGLRDAPQELLGHFGHLLLQLLWVFAPLALICIAATLIAPVLMGSLQFSSKALMPNLNKLNPMTGLGRLYGPESLAELAKSMLRIVFVGAAAGLCIWHGLHQLRALLNTPLERAVIDGLGFTLRLLMYAGGALVLLAAIDAPYQKWNWLRKLKMTREEIKREMKEAEGSPEVKSRIRQMQHQMSQRRMMEAVPKADVVLVNPTHYAVALKYEGGSMRAPVVVAKGVDELAFRIREIGEQHRVAIVSAPPLARALYREGQLGKEIPVRLYSAVAQVLSYVYQLRAWRHGPMPQMQTIDLDEFGGKGAPR	PGPT0015325_1326	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015325-flhB-K02401	NA	NA
BMS020_08671	2103	flhA	COG1298	Flagellar biosynthesis protein FlhA	ATGAGCGCCCAGCCGATGACCGCCCGCAAGCTGCTGGACATGCTGCGCCACGGCCTGGGCGCGCCGCTGATCGTGCTGGCGATGCTGGCCATGGTCGTGGTGCCGCTGGCCGCGCCGGTGCTGGACGCGCTGTTCACCTTCAACATCGCCATCTCGCTGATGGTGCTGCTGGCGGTGGTCTACGTGCAGCGGCCGCTGGAATTCACCATCTTCCCGATCGTGCTGCTGATGACCACGATGCTGCGCCTGGCGCTGAACGTGGCCTCCACCCGGGTGATCCTGCTCAACGGCCAGAACGGCCACGACGCCGCCGGCAAGGTGATCGCCGCGTTCGGCGAGTTCGTCATCGGCGGCAACTACGCGGTCGGCATCGTGGTGTTCGCGATCCTGACCATCATCAACTTCGTGGTCATCACCAAGGGCGCCGGGCGCGTGTCGGAAGTGACCGCGCGCTTCATCCTCGACGCGATGCCCGGCAAGCAGATGGCGATCGACGCCGACCTCAACGCCGGCCTGCTGACCCGCGAGGAGGCCAAGGCCCGGCGCGAGGAGGTCCGCGAGGAAGCCGACTTCTACGGCGCGATGGACGGTGCCAGCAAGTTCATCCGCGGCGACGCGATCGCCGGCATCCTGATCCTGTTCATCAACCTGCTCGGCGGCCTGGCGGTGGGCGTGCTCCAGCACGGCATGCCGTTCGGCGAGGCGGCCTCCACCTACACCCTGCTGTCGATCGGCGACGGTCTGGTGGCGCAGCTGCCGGCGCTGCTGGTGTCCTCGGCGGTGGCGATGCTGGTCACCCGCGCCTCGCGTGCACAGGACATGAGCCAGGCGATGGTTGGCCAGGTGTTCGGCCAGCACAAGGCGCTGGCGGTGGCCGCGGCGATCCTGGGCCTGGTCGGCCTGGTCCCGGGCATGCCCAATGTCGCGTTTTTGACGCTGGGCCTGCTGCTGGGCCTGGTCGCCTGGAAGATGTGGAAGCGCAGCGCCGAAACTCCGGCGCCGGAAGCCGGCAAGCCCGGTCCCGACGGCAAGCCGGCCCTGCCGGGCGCCCCGGGCGCGCCGCAGCCCAGCGCCGAGCTGGGCTGGGACGAGCTGCGCCCGATCGACCCGCTCGGCCTGGAGGTCGGCTACCGGCTGATCCCGCTGGTGGACAAGAACCAGGGCGGCGAACTGATGGCGCGGATCAAGGGCGTGCGGCGCAAGCTGACCCAGGACATCGGCTTCCTGATCCCGCCGGTGCACATCCGCGACAACCTGGAACTGACCGCCACCAGCTACCGGCTGCTGGTGCATGGCGTGCCGGTGGCCACCGCCGAGGTCCACCCCGACCGCGAGCTGGCGCTGGACCCGGGCGGCGCGCTCGGCAAGCTGGACGGCATCAAGGGCAAGGACCCGGCGTTCGGCCTGGATGCGACCTGGATCCTGCCGGCGCAACGCGCCAACGCCGAATCGATGGGCTACACCGTGGTCGACCCGGCCACGGTGATCGCCACCCACCTGTCGCACCTGATCCGCGAGCACGCCCCGGAACTGCTCGGCCACGAGGAGGTGCAGCAGCTGCTGGCCCAGCTCGGCAAGAGCGCGCCCAAGCTGGTCGAGGACCTCACCCCGAAGGCGCTGCCGCTGTCGGTGGTGGTGCGGGTGCTGCAGAACCTGCTGATCGAGCGCATCCCGGTGCGCCAGCTGCGCAAGATCGTCGAGGCCCTGGTCGAGCACGCCCCGCAGAGCCAGGACCCGGCCGCGCTGACTGCGGCGGTGCGGGTTTCGCTGGGCCGGTTCATCGTCCAGGAGATCGCCGGGATGTCGCCGGAGCTACCGGTGTTCACCCTCGCCCCGCAATTGGAACGGGTCTTGCAGGAGTCCACCCAGGGAACGAGCAGCGTCGCGCTGGAACCCGGACTGGCAGAGCGCCTGCACCAGAGCCTGGCCGACTGCGTCGGCAAGCAGGAAGCCCGGAACGAACCGGCGGTGGTGCTGGTGCCCGGCCAGGTCCGGTCCGCGTTGGCGCGGTTGGTCCGGCACAGCGTTCCGTCGCTGTCGGTGCTGGCCTACAGCGAGGTTCCCGAGGACAAGCGCCTGAAACTGGTCGGCACGATCAGCTGA	MSAQPMTARKLLDMLRHGLGAPLIVLAMLAMVVVPLAAPVLDALFTFNIAISLMVLLAVVYVQRPLEFTIFPIVLLMTTMLRLALNVASTRVILLNGQNGHDAAGKVIAAFGEFVIGGNYAVGIVVFAILTIINFVVITKGAGRVSEVTARFILDAMPGKQMAIDADLNAGLLTREEAKARREEVREEADFYGAMDGASKFIRGDAIAGILILFINLLGGLAVGVLQHGMPFGEAASTYTLLSIGDGLVAQLPALLVSSAVAMLVTRASRAQDMSQAMVGQVFGQHKALAVAAAILGLVGLVPGMPNVAFLTLGLLLGLVAWKMWKRSAETPAPEAGKPGPDGKPALPGAPGAPQPSAELGWDELRPIDPLGLEVGYRLIPLVDKNQGGELMARIKGVRRKLTQDIGFLIPPVHIRDNLELTATSYRLLVHGVPVATAEVHPDRELALDPGGALGKLDGIKGKDPAFGLDATWILPAQRANAESMGYTVVDPATVIATHLSHLIREHAPELLGHEEVQQLLAQLGKSAPKLVEDLTPKALPLSVVVRVLQNLLIERIPVRQLRKIVEALVEHAPQSQDPAALTAAVRVSLGRFIVQEIAGMSPELPVFTLAPQLERVLQESTQGTSSVALEPGLAERLHQSLADCVGKQEARNEPAVVLVPGQVRSALARLVRHSVPSLSVLAYSEVPEDKRLKLVGTIS	PGPT0015320_1593	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
BMS020_08672	1458	ftsY_3		Signal recognition particle receptor FtsY	ATGAAGATCAAACGTTTCGTCGCCCCGGACATGCGCACCGCCTTCAAGCTGGTGCGCGACGAGCACGGCCCGGACGCCGTGATCCTGTCCAACCGCCGCACCGAGGAAGGCATCGAGATCGTCGCCGCCAGCAATTACGACGAGGAGCTGGTGCAGCGTGCCCTCGACACCGCGCGCCACGACGCCCGCCCGGCGCCCCGCGCCGGGATGCCGGCGGCCCCGGCCCGGCCCAGCGCCGCCGAGGAGATGATCGCCGCGGTCGCCCAGCGCCAGCCCTCCGCCGTTCCGGCCCGTCCGGCGGCGCCAGCGCCCCGTCGCGCCGCCGCGTCGCAGGCGCCAGCCGCCGCGCGCCTGCCGCAGGAGATCTTCGCCCCGTTCGGCGATGCCGACGAAGCCACCGTCGAGCGCCTGCGCACCCCGATCGCCCCCGACCTGCCGACCGCACTGCCGCAGATGGCCGCCCCCGCGCCGCTGCCGCCGCCCCCGGCACCGGTCGAACCGGCTCCGGCTCCGGCCGTGGCCGCCGCGCCGCCGCTGCCGGCACCGCAGGACGATGCCGAACTGCGCCGCCTGCGCGACGAACTGGCGCTGATGCGGCAGATGATCGAGCGCGAAATGAACCGCCTCACCGACGAGCGCCTGCGCGGCTCGCCGGTGCGCGCCCAGGCGCTGGAGCTGATGGACGACTACGGCTTCGATGCCGGGCTGACCCGCGACGTGGCGATGGAGATTCCGGCCGATACCGAACTGCACAAGGGCCGCGGGCTGATGCTCGGCCTGCTGTCCAAGAAGCTGCCGGTGGCCCCGATCGACCCGCTGCAGACCGGGGGCGTGATCGCCCTGGTCGGCCCGACCGGCGCCGGCAAGACCACCACCATCGCCAAGCTCGCCGCGCGCTTCGCCAGCCTGCACGCGCCGCGCGACGTGGCCCTGGTCACCACCGACACCCAGCGCGTCGGCGGCCGCGAGCAGCTGCACAGCTATGGCCGCCAGCTCGGCATCACCGTGCACGAGGCCGACAGCGACGCCGCCCTGCTGGCCCTGCTCGAGCGCCTGGCCGACTACAAGCTGGTGCTGATCGACACCGCCGGCATGGGCCAGCGCGACCGCGCCCTGGCCGCCCAGCTCAACTGGCTGCGCGCCGCGCGCCAGGTCACCTCGCTGCTGGTGCTGCCGGCCAACGCCCATTTCGCCGACCTCGACGAGGTCGTGCGGCGCTTCGCCGGCGCCAGCCCGCAGGGCGTGGTGCTGACGAAACTGGACGAGACCGGGCGGTTCGGCAGCGCCCTGTCGGTGGTCGTCGACCACCAGCTGCCGATCACCTGGGTCACCGACGGGCAGCGCGTCCCCGAGGACCTGCACCGGGCCAATGCCGCCAGCCTGGTACTTCGCCTTGAAGATTTGCGGCGAGCGGCCGATAAGCCCTGCACTCCGGAGCAAAACCATGCCGTCGCGTGA	MKIKRFVAPDMRTAFKLVRDEHGPDAVILSNRRTEEGIEIVAASNYDEELVQRALDTARHDARPAPRAGMPAAPARPSAAEEMIAAVAQRQPSAVPARPAAPAPRRAAASQAPAAARLPQEIFAPFGDADEATVERLRTPIAPDLPTALPQMAAPAPLPPPPAPVEPAPAPAVAAAPPLPAPQDDAELRRLRDELALMRQMIEREMNRLTDERLRGSPVRAQALELMDDYGFDAGLTRDVAMEIPADTELHKGRGLMLGLLSKKLPVAPIDPLQTGGVIALVGPTGAGKTTTIAKLAARFASLHAPRDVALVTTDTQRVGGREQLHSYGRQLGITVHEADSDAALLALLERLADYKLVLIDTAGMGQRDRALAAQLNWLRAARQVTSLLVLPANAHFADLDEVVRRFAGASPQGVVLTKLDETGRFGSALSVVVDHQLPITWVTDGQRVPEDLHRANAASLVLRLEDLRRAADKPCTPEQNHAVA	PGPT0015550_212	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015550-flhF-K02404	NA	NA
BMS020_08673	891			Iron-sulfur cluster carrier protein	ATGCCGTCGCGTGAATACGCCAAGCTGACCAACGCGTTCCCGCTGTCCGCGACCCGTAGCGAGCCGCTAGGCCCGGTGCGCTCCATCGCCGTGACCGGCGGCAAGGGCGGCGTCGGCAAGACCAACCTCTCGGCCAACCTGGCCGTGGCGTTGGCCGACATGGGCAAGCGCACCCTGCTGCTGGACGCCGACCTGGGCCTGGCCAACATCGACGTGGTGCTGGGGCTGTCGCCGAGCTACACCCTGGCCGACCTGCTGGCCGGCCGCTGCACGCTCGAGGACGTGCTGCTGGAAGGCCCCGGCGGCGTGCTGGTGGTCCCGGCCGCGTCCGGCCGCCGGCACATGGCCGAGCTGGCCCCGGCCGAGCATGTCGGCCTGGTCAACGTGTTCTCCGAACTGGAACGCGACCTGGACGTGATGGTCATCGACACCGCCGCCGGCATCACCGACAGCGTGCTGACCTTCTGCCAGGCCGCCCAGGACGCCATCGTGGTGGTCTGCGACGAGCCGGCCTCGATCACCGACGCCTACGCGCTGATCAAGGTGCTCTCGCGCGAACGCGGCGTGGACCGCCTGCAGATCGTCGCCAACATGGTGCGCGACCCCAACGAGGGCCGCTTGCTGTACGACAAGCTGGCCCGGGTGTGCGAGAAGTTCCTCGGCGACGTGTCGCTGAACTACCTCGGCCACGTGCCGCAGGATGACTGGCTGCGCCTGGCCGTGCAGCGCCAGCAGCCGGTGATGAAGCTGTACCCGTCCAGCCCGTCGGCGCAGGCGATCGCCGAGATCGCCCGCCGCACCTCGCGCTGGCAGGCTCCGACCGCGCCGCGCGGCAACGTCGAGTTCTTCGTCGAGCGCATCATCCAACAGCGCAACGGGGTAGCCGCATGA	MPSREYAKLTNAFPLSATRSEPLGPVRSIAVTGGKGGVGKTNLSANLAVALADMGKRTLLLDADLGLANIDVVLGLSPSYTLADLLAGRCTLEDVLLEGPGGVLVVPAASGRRHMAELAPAEHVGLVNVFSELERDLDVMVIDTAAGITDSVLTFCQAAQDAIVVVCDEPASITDAYALIKVLSRERGVDRLQIVANMVRDPNEGRLLYDKLARVCEKFLGDVSLNYLGHVPQDDWLRLAVQRQQPVMKLYPSSPSAQAIAEIARRTSRWQAPTAPRGNVEFFVERIIQQRNGVAA	PGPT0015555_621	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015555-flhG-K04562	NA	NA
BMS020_08674	753	fliA	COG1191	RNA polymerase sigma factor FliA	ATGAACGCCGCAGCCCAGTACAAGGCCGTCCAGCGCGCCTCCAGCAACGACCTGGTCACCCAGCATGCCGACCTGGTGCGCCGCATCGCCCACCACCTGGCGGCGCGCCTGCCGGCCAGCGTGGAGATCGACGACCTGATCCAGGCCGGCATGATCGGCCTGCTCGAAGCCTCGCGCAGCTACGACGCCGACCAGGGCGCCTCGTTCGAGACCTATGCCTCGATCCGCATCCGCGGCTCGATGATCGACGAGATCCGCCGTGGCGACTGGGTGCCGCGCTCGGTGCACCGGCGCGCCCGCGACGCCGCCGCGGCGATCCGCAAGATCGAGCAGAGCACCGGCCGCGCCGCCGCCGCCCCCGAGGTCGCCGCCGCGCTGGAGATGCCGCTGCCGGACTACCTGCGGCTGATGGAGGACGCCGCGCGCGGCCAGGTGCTGAGCCTGGAGTCGCGGATCGAGGACCACGGCGAGCTGGATACCCCGGCGCGCGGTGGCCCGACCCCGCAGCAGATGGTCGAGCGCGGCGAATTCGGCCGCGAGCTGGGCAAGGCCATCGGCCAGCTGCCCGAGCGCGAGCAGCTGGTGCTGTCGCTGTATTACGAGCAGGAATTGAACCTGAAGGAAATCGGCGCGGTGCTCGGCGTGAGCGAATCGCGCGTGTGCCAGATCCATGGCCAGGCCATGGTTCGGCTGCGCGGACGCCTGAAAGTGTTCGAACTGGCCGACGCTGGCGTCGCCGACGATGAAGAATAA	MNAAAQYKAVQRASSNDLVTQHADLVRRIAHHLAARLPASVEIDDLIQAGMIGLLEASRSYDADQGASFETYASIRIRGSMIDEIRRGDWVPRSVHRRARDAAAAIRKIEQSTGRAAAAPEVAAALEMPLPDYLRLMEDAARGQVLSLESRIEDHGELDTPARGGPTPQQMVERGEFGRELGKAIGQLPEREQLVLSLYYEQELNLKEIGAVLGVSESRVCQIHGQAMVRLRGRLKVFELADAGVADDEE	PGPT0015610_703	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
BMS020_08675	393	cheY_1	COG0784	Chemotaxis protein CheY	GTGAACAAGAACATGCGCATCCTGATCGTTGACGACTTCTCGACGATGCGCCGCATCGTCAAGAACCTGCTCGGCGACCTCGGTTTCACCAACACCGCCGAAGCGGAGGACGGCAACGCCGCCCTCGCAGCGTTGCGCTCGGGCCCGTTCGACTTCGTCGTCACCGACTGGAACATGCCGGTGATGACCGGCATCGACCTGCTCAAGGCGATCCGCGCCGACGACAAGCTCAAGACGCTGCCGGTGCTGATGGTTACCGCCGAGGCCAAGCGCGAGCAGATCATCGAAGCGGCCCAGAACGGCGTGAACGGCTACATCATCAAGCCGTTCACCGCGCAGACCCTGGAAGAGAAGCTCGGCAAGATCTTCGAACGGATGGCCGCCACCGCATGA	MNKNMRILIVDDFSTMRRIVKNLLGDLGFTNTAEAEDGNAALAALRSGPFDFVVTDWNMPVMTGIDLLKAIRADDKLKTLPVLMVTAEAKREQIIEAAQNGVNGYIIKPFTAQTLEEKLGKIFERMAATA	PGPT0015690_1302	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015690-cheY|yneI-K03413	NA	NA
BMS020_08676	624			hypothetical protein	ATGAACGCAACCGTGACCCCGGAACGCACCGCGCTGATCCAACGCCTGCAGGAAGCCCTCGACGCGCTCGAGCGCGGCGATGAAAGCGCGATGCGCGCGGTCATCGAAGCGCTCGCCTCGGCCCGCACCCGTCCGCTGGTGCAGGGCCTGGGCCGGCTGGCCAAGGAACTGAGCCAGGCGCTGGGCGAACTGCCGCAGCTGCCCGGCGACGACGCCCAGGCCGCCGAGCTCAACGACGCCTGCGCGCGCCTGGACCACGTGATCACGGTGACCGAGCAGGCCACCCACCGCACCCTGGACCTGGCCGACCAGTGCCGCGACCTGGTCGAGGACCTGCGCGTGGAAGGCGTGTCCGGCCGCCAGGACCAGGTGTTGGACCAGATCCGCCACAACCTCACCGAGATCGGCCTGACCCAGAGCTACCAGGACCTGACCGGGCAGATCATCCGCCGCGTCGCCGGCATCGTGCGCAAGGTGCACGAGGGCTTCGACGCGCTCGGCCTGCCGCCGAAGGACGAGGTCAAGCCCGACGGCGGCCTGGCCGGCCCCGCGGTCAAGGGCCTGGACCGCCACGCGATCTCGCAGGACGACGCCGACGACCTGCTCGCCGATCTCGGCCTGTAA	MNATVTPERTALIQRLQEALDALERGDESAMRAVIEALASARTRPLVQGLGRLAKELSQALGELPQLPGDDAQAAELNDACARLDHVITVTEQATHRTLDLADQCRDLVEDLRVEGVSGRQDQVLDQIRHNLTEIGLTQSYQDLTGQIIRRVAGIVRKVHEGFDALGLPPKDEVKPDGGLAGPAVKGLDRHAISQDDADDLLADLGL	PGPT0015695_1090	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015695-cheZ-K03414	NA	NA
BMS020_08677	1755	cheA_2	COG0643	Chemotaxis protein CheA	ATGAGCGCAGTTCCAGACGACATCACCGCCGACTTCATCGTCGAGGCCCAGGAGATCCTGGACCGCCTCGGCGAACAGCTGGTGGCGCTGGAACAGGCGCCCGAGGACGCCGACCAGCTCAACGCGGTGTTCCGCGGCTTCCATACCCTCAAGGGCGGCGCCGGCTTCCTGTCGATCCAGCCGATGGTCGAGCTGTGCCACGCCGCCGAGGACACCCTCGGCCTGGCGCGCTCGGGCAAGATCGTGCTGCTGCCGCAGCACTTCGATGCCGCCCAGCAGTCGCTGGACTACCTGCAGGCGATGCTCGACGCGGTCTCCGGCGGCACCGAGCCGCCGTCGGCGCCGCCGGCGCTGATCGCCCAGTTCGACGCCAAGGGCGGCGGCGCGGCCAAGCCTGCGGCCGCCGCTGCGCCCAAGCCCGCCGCGCCCAAGCCGGCGGCCAAGGCCGGCGACAGCGAGCTGATCGACGAGGAGGAATTCGACGCGCTGCTGGACCAGCTGCACGGCGACGCCGCCCCCGGCGCCAAGCCGCTGCCGGCCGCCGCGCCGAAACCTGCCCCCAAGCCGGCCGCGGGTGCCGCGCCGGCCAAGCCGGCCGCCGAAGCCGAGCACACCGTGCGCGTGGACACCAAGCGCCTGGATGCGATCGTCAACCTGATCGGCGAGCTGGTGCTGGCGCGCAACCGCCTCAAGACCCTGCGCGCACGCATCCGCGACGAAGAGCTGGACCGCGCGGTCAGCACCCTCGACATCGCCACCGCACGGTTGCAGACCGCGGTGATGCGCACCCGCATGCAGCCGGTCGGCAAGGTGTTCGCGCGCTTCCCCAAGGTCGCCCGCGACGTCGCCCGCACCCTGCAGAAAGAAGTGGAGCTGGAACTGATCGGCGCCGAGACCGAGCTGGACCGCAACCTGGTCGAGGCACTGGCCGATCCGCTGGTGCACCTGGTGCGCAATGCGATCGACCACGGCGTCGAGGCACCGGCACTGCGCGAAGCCTCCGGCAAGGCGCGCCTGGGCCACGTGCGGCTGTCGGCGCAGCAGGAAGGCGACTACGTCAGCATCGAGATCCAGGACGACGGCGCCGGCATCGACCCGGAGCGGCTGCGCGAGAAGGCCCGCGAAAAGGGCCTGATCGACGCCGAGGCCGCTGCGCGCCTGAGCACCGAGGAATGCCTGCACCTGATCTTCCTGCCGGGCTTCTCGACCAAGCAGGAAGTCACCGACATCTCCGGCCGCGGCGTGGGCATGGACGTGGTGCAGTCGCGCATCCGCGAACTCAGCGGCACCATCCAGATCCAGTCCGAGCTCGGCCGCGGCAGCCGCTTCATGATCCGCGTGCCGCTGACCCTGGCGATCCTGCCGACCCTGCTGGTGCAGGCCGGCCACGACGTCTACGCGCTGCCGCTGGCACGCGTGGTCGAAGTGCTGCACGCGCCGCGGACCTCGCTGGGCTGGTTCGACGGCCGCGCGGTGCTCGACCGCCGTTCGCACACGCTGCCGCTGATCGACCTGCGGCGCTGGCTGGGTGTAGACATCAATCCGACCCCGCTGCTGACCGTGGTGCTGCTGCAGGCCGGCGAGACCAGATTCGGCCTGGTCGTGGACCAGGTCCGCGGCCGCGAGGAAGTGGTGATCAAGCCGCTGCCGCGCACCCTGCGCGGCCTGCCCGGCTACGCCGGCGCGACCCTGATCGGCGACGGCCGCATGGCGCTGATCCTGGACGTGGACGGCCTGCGCTCCAGCGACCACTGA	MSAVPDDITADFIVEAQEILDRLGEQLVALEQAPEDADQLNAVFRGFHTLKGGAGFLSIQPMVELCHAAEDTLGLARSGKIVLLPQHFDAAQQSLDYLQAMLDAVSGGTEPPSAPPALIAQFDAKGGGAAKPAAAAAPKPAAPKPAAKAGDSELIDEEEFDALLDQLHGDAAPGAKPLPAAAPKPAPKPAAGAAPAKPAAEAEHTVRVDTKRLDAIVNLIGELVLARNRLKTLRARIRDEELDRAVSTLDIATARLQTAVMRTRMQPVGKVFARFPKVARDVARTLQKEVELELIGAETELDRNLVEALADPLVHLVRNAIDHGVEAPALREASGKARLGHVRLSAQQEGDYVSIEIQDDGAGIDPERLREKAREKGLIDAEAAARLSTEECLHLIFLPGFSTKQEVTDISGRGVGMDVVQSRIRELSGTIQIQSELGRGSRFMIRVPLTLAILPTLLVQAGHDVYALPLARVVEVLHAPRTSLGWFDGRAVLDRRSHTLPLIDLRRWLGVDINPTPLLTVVLLQAGETRFGLVVDQVRGREEVVIKPLPRTLRGLPGYAGATLIGDGRMALILDVDGLRSSDH	PGPT0015645_4533	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015645-cheA|wspE-K03407	NA	NA
BMS020_08678	360			hypothetical protein	ATGGGCGCGGGCGACGCGATTGGGTATGCTCCGCCGATGCCGCTGCGCCATTTCATCCACATCGTCGGGTTCGACGTGCCATCCACCACCGGTGATGGCGCCGAGCCGCTGCTGGTCATGCTCGACAAGGAGCCCAACGCGCAGTGGCGCGCGGTGTTCCAGTTGTGCGTGGAGGAACTGCCGCCGGAGCTGACGCGCGAGACGCCGCAGCTGCGCGGGTGCGAGATCCGGGTGATGCCGAGCGGGGCGGTGACGCGCAAGGTCGCCAGCGACATCCGCGCCTTCGTCGACCGGGTCAACCGCATGACCTTCATGCAGGGCGGTCCCCAGCTCGGCGGGCGCAGCGAACCGCGCCTGTGA	MGAGDAIGYAPPMPLRHFIHIVGFDVPSTTGDGAEPLLVMLDKEPNAQWRAVFQLCVEELPPELTRETPQLRGCEIRVMPSGAVTRKVASDIRAFVDRVNRMTFMQGGPQLGGRSEPRL				NA	NA	NA	NA	NA
BMS020_08679	741	pomA	COG1291	Chemotaxis protein PomA	ATGGACAAGCTCAGTTTCACCGGAATCCTGCTGGCGCTGGTCGCGCTGGTTGGCGGCAGCATCCTCAAGGGCGCGGGCCTGGCGTCGCTGTGGTCGCCGGCCGCGTTCGTGATCGTCATCATCGGCACGATCGCCGCCATCCTGCTGCACACCTCGCCACCGGTGTTCCGCCACGCGTTCCGCATCGTCGGCTGGGTGTTCCGGCCGCCGCCGAGCGAACGCCAGGCGCTGCTGGCGCAGATCCTGGAGTGGAGCAACATCGCCCGGCGCCAGGGCCTGCTCGGCCTGGAGAGCCAGCTCGACCGGCAACCGGACCCGTTTCTGCGCAAGGGCCTGCAGATGCTGGTCGACGGCGTCGAGCCGGAAACGATGCGCCACATGCTGGAGATCGAGGTCGAGAACCAGGAGAAGACCGACCTGGCCGCAGCCAAGGTGTTCGAGGGCATGGGCATCTACGCGCCGACGCTGGGCATCATCGGCGCGGTGCTGGGCCTGATCGCGGTGATGAAGAACCTGGCCGACCCGTCCAAGCTCGGCCACGGCATCGCCGCCGCGTTCACCGCCACCATCTACGGCATCGCCTCGGCGAACCTGCTGTTCCTGCCGATCGCCGCCAAGCTCAAGAGCGTGATCCACAGCAGCAGCAACGAGCGCGAGATGATCATCGAGGGCCTGATCGCGATCGCCCAGGGCGAGAACCCGCGCAACATCGAGTCCAAGCTCGCCGGCTTCCTGCACTGA	MDKLSFTGILLALVALVGGSILKGAGLASLWSPAAFVIVIIGTIAAILLHTSPPVFRHAFRIVGWVFRPPPSERQALLAQILEWSNIARRQGLLGLESQLDRQPDPFLRKGLQMLVDGVEPETMRHMLEIEVENQEKTDLAAAKVFEGMGIYAPTLGIIGAVLGLIAVMKNLADPSKLGHGIAAAFTATIYGIASANLLFLPIAAKLKSVIHSSSNEREMIIEGLIAIAQGENPRNIESKLAGFLH	PGPT0015370_3175	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015370-motA-K02556	NA	NA
BMS020_08680	996	motB	COG1360	Motility protein B	ATGGCACGCCGGCGCCGCCAGCACGAGGAACACGGCAACCACGAGGCGTGGGCGATCCCCTATGCCGACCTGATGACGCTGCTGCTGGCGTTCTTCGTGGTCATGTACGCGATCTCCTCGCTCAACGAAGGCAAGTACCGGGTAATGGCCGACGCGCTGACCGCCGCGTTCGGCGGTGCGCCACGCACGATCAACCCGGTGCAGGTCGGCAACCAGCAGGTCCAGGGCGCCGACTGGGACCGGCCGTCGCCGATCAAGTCCGGCGCCAAGCAGGGCCCGACCGCGCCCTCGCCCGCGCCCGATCCAACCCTGCTGCCGTCGATGGCCTCGCAGATGCGCATGCCGGTATCGCTGCGCGACCAGGAACGGCTGACCCGCGCGCAGCAGCAGATGGACCAGGTCGCCCAGCAGCTCAGCAACACCCTGGCGCCGCTGATCGACGCCAAGCTGATCACCGTGCGCCGCAACGACCTGTGGATCGAGGTCGAGATCAACAGCGACATCCTGTTCGCGACCGGCTCGGCGACGCTGGATACGCGCGCCCGCGACACCCTCTCGCGCCTGGCCGCGGTACTGCGCGACGCGCCCAACGGCGTGCGCGTGGAGGGCTACACCGACAACCAGCCGATCCACACCGCGCAGTTCCCCTCCAACTGGGAGCTGTCGGCGGCGCGCGCGGCCAGCGTGGTGCACCTGTTCGCCGACGACGGCATCTCGCCGCAACGACTGGCGATGGTCGGCTATGGAGAATTCCGCGCACGTGCCGATAACAGCACCGAGGCAGGACGCAACGCGAACCGGCGGGTGATGTTGATCATCCTCGCCGATTCCGGCGCCAGCCTCGCCCCGGAGCCGATGTCCGCGCAGCCGCCGCAACCGCAGCTGCAGGCCACCAGCCCCGGGGATGCAACCACACCCGAACCACAGGCCGCCGGCGGTACGCCAGGCAACCGCGGCGCCAAGACCGTCCCGGCGGTCATTGAAGGAGTGAACTGA	MARRRRQHEEHGNHEAWAIPYADLMTLLLAFFVVMYAISSLNEGKYRVMADALTAAFGGAPRTINPVQVGNQQVQGADWDRPSPIKSGAKQGPTAPSPAPDPTLLPSMASQMRMPVSLRDQERLTRAQQQMDQVAQQLSNTLAPLIDAKLITVRRNDLWIEVEINSDILFATGSATLDTRARDTLSRLAAVLRDAPNGVRVEGYTDNQPIHTAQFPSNWELSAARAASVVHLFADDGISPQRLAMVGYGEFRARADNSTEAGRNANRRVMLIILADSGASLAPEPMSAQPPQPQLQATSPGDATTPEPQAAGGTPGNRGAKTVPAVIEGVN	PGPT0015375_1377	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015375-motB-K02557	NA	NA
BMS020_08681	783	parA		Chromosome partitioning protein ParA	ATGCGCATCTGGGCGATTGCCAACCAGAAGGGTGGCGTAGGCAAGACCACCACGACGCTGGCACTGGGCCGCGGCCTGGCTGCACTGGGCCACCGCGTGCTGCTGATCGACCTGGACCCGCATGCCTCGATGAGCCGCGCCTTCGGCGTGCCGCAGGATCCGGCGCCGGCCGGCGTGCTCGACCTGTTCGGCACCCCGCCGGCCGACCTCGCCTCGCTGACCCGCGAGAGCGCGATCCCCGGGCTGTCCTACGTCTGCGCACAGGCCGCGCTGGCCACGCTGGAGCGCCGCAGCGCCAACCAGCCGGGCCTGGGCCTGGCGCTGCAGACCGCGCTGACCCGCCACGGCAACGCCCACGACTACATCCTGCTGGACTGCCCGCCGACGCTCGGCCTGCTGATGATCAACGCGCTCGCCGCAGCCGATCACGTGGTGATCCCGACCCAGGCCGAACCACTGGCGCTGCACGGCCTGGCCGGCATGGTGCGCACCGCCGAGATGGTCACCCGCTCGCGCCGCCGCGAGCTGCCGGTGTCGATCCTGCCGACCCTGTTCGACCGCCGCACCCGCGCCGGCAACGAATCGCTCAAGCAGATGCAGGACAGTTACGGCAGCCGCGTGTGGGAAGACGCGGTGCCGGTCGACACCCGCATCTGCAATGTCGAATCGCTGACCGTGCCGGTGGTGCCGGGCGATTACCCGGGCCGCGGCCTGTCCGCCTACCGCCGCGCGCTGGAATGGGTGCTGTCCAACGACAGTCCCCGCGTGGAGCAGGCGGCATGA	MRIWAIANQKGGVGKTTTTLALGRGLAALGHRVLLIDLDPHASMSRAFGVPQDPAPAGVLDLFGTPPADLASLTRESAIPGLSYVCAQAALATLERRSANQPGLGLALQTALTRHGNAHDYILLDCPPTLGLLMINALAAADHVVIPTQAEPLALHGLAGMVRTAEMVTRSRRRELPVSILPTLFDRRTRAGNESLKQMQDSYGSRVWEDAVPVDTRICNVESLTVPVVPGDYPGRGLSAYRRALEWVLSNDSPRVEQAA				NA	NA	NA	NA	NA
BMS020_08682	1383			hypothetical protein	ATGAACGGCACCGAAGTCCTGGACGAATACCTGGACGGCCTGCTGCAGGGCGTCGTCGCCGCGGAAGCGGCCGCGACCAAGGCAGCGGCACCGGCCACGGATGCGGCGGCCACGCCCGCCGACACCGACACCGACACCGACACCGACGGCAAGGCCGCAGCGGGCGACGATGCAAGCACGGCCGAAACCGTGGCCACGGCGCCGGCAAGCGAGGCCGCGCCCGACGCCGCCATCACCGCAAGCGCCTCGCCCGAGCAGATCGCCGCCTCGGTGATGGCGGAAATGCTCGACGACCCCGCCTTCGCCGCCGACGTGACCGAAGAACCGGCCGCGCCGAGCGTGTCCCCCGAGCAGATCGCCGCCTCGGTGCTGGCCGAAATGCTCGACGACCCCGCCTTCGCCGCCGACGTGGCCGAAGCACCGGCCGCGCCGAGCGTGTCCCCCGAGCAGATCGCCGCCTCGGTGCTGGCCGAAATGCTCGACGACCCCGCCTTCGCCGCCGACGTGGCCGAAGCACCGGCCGCGCCAAGCGTGTCCCCCGAGCAGATCGCCGCCTCGGTGCTGGCGGAAATGCTCGACGATCCCGCCTTCGCCGCCGACGTGGCCGAGGCACCGGCCACGCCGAACGCCTCGCCCGATCAGATCGCCGCCTCGGTGCTGGCCGAGATGCTCGACGACCCGGCCTTCGCCGCCGCGGCCGAGGCGCTCGTCGGCGAGGCGGCAGAGGCCGAACCCGACTTCGACGATCCCTCCGACCGCGAGGCCGCCGCCGAGATGCAGATGATGCAAGCCGACCGTGTCGCCCGCACCACACCGCCCAAGCCGGCCGCACCGGCGCCACGCCCGGCGCCGATGCTGCGCCGTCCGGCGCGCCCGGCCAGCCGCCTGCCGGCGCACGTACAGGCGTTGTTCCAGCCGGCCGACGTCGCCGGCTCGGTGCACGTCGACAAGCGCGCCAGCGACCGCAGCTCGCGCTGGCTGCGGCTGCGCTGTGGCGAGCAGACCTATGCCCTGGAACTGCTGAAGGTGCAGGAAGTGGTCTTGCCGACCCCGCTGCTGGCGCTGCGCGGCACCTCGCGCGCGATGCTCGGGGTGATGAATCTGCGCGGACAGGTGGTGCCGGTGCTCGACCTGGGCATCCACCTGGGCGCGGCCGCGGTCGAGATGGACGCCCAGACCCGGGTGGTGGTGCTGGAGGAGAACGGCGAGACCATGGGCCTGCGGGTCTCGGCGGTCGAAGACGTGACCAGCCTCACCGACCAGCAGATCGAACCACCGGATACCACCCGGCTGGTGCGCATTTCCAACCAGTTCTTCCGCGGCGTGGCCCGCATCGCGCAGCAGCCGATGATCCTGCTGGATGCCTCACAGCTGCTGCATTGA	MNGTEVLDEYLDGLLQGVVAAEAAATKAAAPATDAAATPADTDTDTDTDGKAAAGDDASTAETVATAPASEAAPDAAITASASPEQIAASVMAEMLDDPAFAADVTEEPAAPSVSPEQIAASVLAEMLDDPAFAADVAEAPAAPSVSPEQIAASVLAEMLDDPAFAADVAEAPAAPSVSPEQIAASVLAEMLDDPAFAADVAEAPATPNASPDQIAASVLAEMLDDPAFAAAAEALVGEAAEAEPDFDDPSDREAAAEMQMMQADRVARTTPPKPAAPAPRPAPMLRRPARPASRLPAHVQALFQPADVAGSVHVDKRASDRSSRWLRLRCGEQTYALELLKVQEVVLPTPLLALRGTSRAMLGVMNLRGQVVPVLDLGIHLGAAAVEMDAQTRVVVLEENGETMGLRVSAVEDVTSLTDQQIEPPDTTRLVRISNQFFRGVARIAQQPMILLDASQLLH				NA	NA	NA	NA	NA
BMS020_08683	309			hypothetical protein	ATGAGCACAGTGTCACTGGGCGACGATCTCGGCATCGAGACCAGCGCCGACCTCAAGCAGAAGCTCGCCGGCCACCTCACCGAGGCCGGGGAACTGACGCTGGACGCCGGACAGGTGCGCCGCATCCACACGGCCGCAGTCCAGCTGCTGTGCGCGTTCGTCGACGCCCGCCGCAAGGCCGGGTACGCCACCCGCTTCGACGGTTGCAACGACACCTTCAAGGACGCGGCCCGGCTGCTCGGGGTCAGCGAGGCCCTCGGCCTGCCCGCATCCAACGACAACCTGAAATCTGTGGAGAACGCCGCATGA	MSTVSLGDDLGIETSADLKQKLAGHLTEAGELTLDAGQVRRIHTAAVQLLCAFVDARRKAGYATRFDGCNDTFKDAARLLGVSEALGLPASNDNLKSVENAA				NA	NA	NA	NA	NA
BMS020_08684	366	cheY_2	COG0784	Chemotaxis protein CheY	ATGAGCGCACGTATCCTGGTGGTGGACGATTCGGCGTCGATGCGCCAGATGGTGTCCTTCGCCCTCACCTCGGCCGGTTTTTCCGTCGAAGAAGCCGAGGACGGCGCGGTTGCGCTTGGCCGCGCCAAGGGCGCCAAGTTCAACGCGGTGGTCACCGACGTCAACATGCCGAACATGGACGGCATCGCGCTGATCCGCGAGCTGCGCCAGCTGGCCGACTACAAGTTCACGCCGATGTTGATGCTGACCACCGAGTCGGCCGCCGACAAAAAGGCCGAAGGCAAGGCCGCCGGCGCGACCGGCTGGCTGGTCAAGCCGTTCAACCCCGAACAGCTGGTCGCCACCGTCCAGAAAGTCCTGGGCTGA	MSARILVVDDSASMRQMVSFALTSAGFSVEEAEDGAVALGRAKGAKFNAVVTDVNMPNMDGIALIRELRQLADYKFTPMLMLTTESAADKKAEGKAAGATGWLVKPFNPEQLVATVQKVLG	PGPT0015690_3919	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015690-cheY|yneI-K03413	NA	NA
BMS020_08685	783	crt_2	COG1024	Short-chain-enoyl-CoA hydratase	ATGTCCGCCAGCCTCGTCCTGGTCTCCGATGAGGGGCCGGTCCGTACCATCACCGTCAACCGCCCGGACAAGCTCAACGCGCTGGACGCACCGACGCTGGAGGCGCTGGACCAGGCCTTCGCCGCGGCCGGGGACGCCGCCGCGGTGCGCGTGGTGGTGCTGACCGGGGCCGGCCCCAAGGCCTTCGTCGCCGGCGCCGACATCGGCGGCATGGCGACGCTGCCGGCCACCGCCGGGCGCGACTTCGCCGTGCTCGGCCAGCGGCTGATGTCGCGCATCGAGCGCCTGCCCAAGCCGGTGCTGGCCGCGATCAACGGCTTCGCGCTCGGCGGCGGGCTGGAACTGGCGATGGCCTGCCACCTGCGCGTGGCCGCCGAAACCGCGCGCTTGGGCCAGCCGGAGATCAAGCTCGGGCTGATCCCCGGCTTCGGCGGCACCCAGCGCCTGCTGCGCCTGGCTGGCCGGGCCGCGGCGCTGGAGCTGTGCCTGCTGGGCGAGCCGATCGACGCGGCGCGGGCGCTGCAGCTGGGCGTGGTCAATCGGGTGGTGCCGGCCGAGCGCCTGCGCGAAGAGGTCGATACCCTCGCCCGCCAGCTCGCCACCGCCGCGCCGCTGGCGCTGCGCGCGATCCTCGACACGGTGCTGGTCGGCGGCGAGAGCGCGCTGGACCAGGGGCTGCAGTTCGAGACCGCGCAGTTCGCACTGATGTTCGCCACCGAGGACATGCGCGAAGGTACCTGCGCGTTCCTCGAACGCCGCCCGGCACGGTTCCAGGGACGCTGA	MSASLVLVSDEGPVRTITVNRPDKLNALDAPTLEALDQAFAAAGDAAAVRVVVLTGAGPKAFVAGADIGGMATLPATAGRDFAVLGQRLMSRIERLPKPVLAAINGFALGGGLELAMACHLRVAAETARLGQPEIKLGLIPGFGGTQRLLRLAGRAAALELCLLGEPIDAARALQLGVVNRVVPAERLREEVDTLARQLATAAPLALRAILDTVLVGGESALDQGLQFETAQFALMFATEDMREGTCAFLERRPARFQGR	PGPT0001860_6858	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0001860-paaF|echA-K01692	NA	NA
BMS020_08686	702	mip	COG0545	Outer membrane protein MIP	ATGAAGTTGCGTTCGATCGCGGTCGCTGTTGCGGCCCTGGCCCTGACGGGCAATGCGCTGGCCCAGGACACGACGTCCGAAAAGGGCAAGCTGAGCTATTACTTCGGCTACGACTACGGCAACAACCTGGCCGAGCTGACCGGCCGCGGCGAGCAGCTGGACATCAACTCGGTGATCAAGGGCCTGCAGGACGCCTACGCGAAGAAGCAGCCGGCGATCACCGCCGACCAGCTCAAGCCGGCGGTCGAGGCGTTCCAGAAGCGCGAGCAGGCCCGTGCCGCGCAGGCCAAGGCCGAGTACGAGAAGGCCGCTGGCGACAACAAGACCAAGAGCGACCAGTTCATGACCCAGTACAAGGCGCAGGCCGGCGTGAAGACGCTGCCGAGCGGCGTTGCGTACAAGGTCCTGGAGAACGGCACCGGTGCCAAGCCGACCCAGGCCAGCACCGTGCAGCTGGAAGTGGCCGGTCCGTTCCCGTACGGCCAGCACCCGCAGCAGGCGCGTCCGGCCCAGCAGATCCCGGCGATGAAGGTCAGCGAGATCGAGATGGCGGCGATGCGCGAAGTCGTGCAGCAAATGCCGGCCGGCTCGAAGTGGGAAGTGGCGTTGCCGCCGGAGAAGGCCTACGGCGCCGACCCGCGCACCCCGTTCCCGCCGAACGTGGCCGTGCAGTTCGAGATCAAGGTCATCAGCGTCAAGTAA	MKLRSIAVAVAALALTGNALAQDTTSEKGKLSYYFGYDYGNNLAELTGRGEQLDINSVIKGLQDAYAKKQPAITADQLKPAVEAFQKREQARAAQAKAEYEKAAGDNKTKSDQFMTQYKAQAGVKTLPSGVAYKVLENGTGAKPTQASTVQLEVAGPFPYGQHPQQARPAQQIPAMKVSEIEMAAMREVVQQMPAGSKWEVALPPEKAYGADPRTPFPPNVAVQFEIKVISVK				NA	NA	NA	NA	NA
BMS020_08687	684	nudL_2		putative Nudix hydrolase NudL	ATGAGCGACACCGAACGCCGTCAGTACCTCGACGCGATCCTGCCCGCGCGCGCCGCGGAGGTCGCGTTCGACCTGCCTGGCGAGCAGCGTGGACGCCTGCTGCGCGCGTTGTATCCGCTGGACCGGCCGCCGGCCGGCCCGGGCTGGAATCACGAGGAGCTGATCGACGTGGTCGGTCCGGGCACGTCGGCCGAAGCCGCGGTGCTGGCCGGGCTGGTGCCGCGCGGCGACGGCATCCAGGTGCTGTTGACCCGGCGCAACGACAGCCTGCGCCACCACGCCGGCCAGGTCAGTTTCCCCGGCGGGCGGGTCGAGCCGGCCGATCCGGACGCGGCCGCGGCGGCGCTGCGCGAGAGCTGCGAGGAGATCGCGCTCGGTCCGGCGCAGGTGCGCGCGCTCGGCTACCTCGATCCGTTCGTGACCATCAGCGGCTTTCGTGTCACCCCGGTGGTGGCGGTGGTCGATCCGGCCTTCGTGGCGGTGCCGCAGCCGGACGAGGTCGCCGAGGTGTTCGAGGTGCCGCTGGATTACCTGATGGATCCGGGCAACCTGCGCAGCGTCGACATCGAATTCCGCGGCCGGCCGCGCCGCGTGCTGGAATACGCCTGGCCAGGGCAGCGGATCTGGGGCGCCACCGCCGCGATCCTGCTCAACCTGCGCCGCCGACTGGAGCAGAACGCATGA	MSDTERRQYLDAILPARAAEVAFDLPGEQRGRLLRALYPLDRPPAGPGWNHEELIDVVGPGTSAEAAVLAGLVPRGDGIQVLLTRRNDSLRHHAGQVSFPGGRVEPADPDAAAAALRESCEEIALGPAQVRALGYLDPFVTISGFRVTPVVAVVDPAFVAVPQPDEVAEVFEVPLDYLMDPGNLRSVDIEFRGRPRRVLEYAWPGQRIWGATAAILLNLRRRLEQNA				NA	NA	NA	NA	NA
BMS020_08688	876	sseA_3	COG2897	3-mercaptopyruvate sulfurtransferase	ATGACCCCATCGCAGTGGACCACCGTGGTCCAGCCCGAGACGCTGGCCGCGGCGTTGGACGACCCGCAGCTGCGCATCGTCGATGCGCGCTTCGCACCGGCGACCGTCGATGATCCTGACTTCGGCCGCCGCGGCCACGCCGAATCGCATCTGCCCGGTGCGGTGTATGCCGATCTGAATCGCGACCTGGCCGATCTGGCGCGCCGCGGCGAAGGCCGCCATCCGCTGCCGGACCCGGCCGCGTTCGCCGCCGCGCTCGGGCGCTGGGGCATCGGCCCGGACACCCGGGTGGTGGTCTACGACGGCGGCGACGGCAGCATGGCCGCGTCGCGCTGCTGGTGGATGCTGCGGCTGCTCGGGCATCGCCAGGTCGCGGTGCTTGATGGCGGCCTGGCCGCCTGGCGCGCGGCCGGCCTGCCGGAAACCGCGGTGATGGCGACGCCGGCCGCGTTGCCGCCGTATCCGGCGACATTCGATGCCGGCCAGATCGTCGGCGTCGACGAGATCCTGGCCCGGCTCGGCGATGCGCCGGGCTGGTTGATCGACGCGCGCGCCGGCGAACGCTTCCGGGGCGAAGTGGAGCCGATCGATGCGGTCGCCGGCCACGTGCCGGGCGCGGGCAATTATCCGTTCGTGCGCAACCTGCAGGACGGGCGGCTGCGCCCGGTCGCGGCGCTGCGCGAGGAACTGGCGGCGCAGCTGGGCGGACGCGACCCGGCCGAGGTGGTGCTGATGTGCGGCTCGGGCGTGACCGCCTGCCACCTGCTGCTGGCGATGGAGGCCGCGGGGCTGTCCGGCGCACGGATCTACGCCGGCTCCTGGAGCGGTTGGTTGGCCGATTCGCGACGTCCGGTGGAGACGGGAGCGCCCGCTTGA	MTPSQWTTVVQPETLAAALDDPQLRIVDARFAPATVDDPDFGRRGHAESHLPGAVYADLNRDLADLARRGEGRHPLPDPAAFAAALGRWGIGPDTRVVVYDGGDGSMAASRCWWMLRLLGHRQVAVLDGGLAAWRAAGLPETAVMATPAALPPYPATFDAGQIVGVDEILARLGDAPGWLIDARAGERFRGEVEPIDAVAGHVPGAGNYPFVRNLQDGRLRPVAALREELAAQLGGRDPAEVVLMCGSGVTACHLLLAMEAAGLSGARIYAGSWSGWLADSRRPVETGAPA	PGPT0002045_2311	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
BMS020_08689	912			hypothetical protein	ATGGTCCTGGCATTGCCGCTGCTGCTGGCGGGCTGCACGCAGGGGGCGGTGTCTCCGGCGTCGGGATCGGTGTCCGCGCGTCCGTCGGCCGACTACCTGAAATCCATCGAAGCCTGGCGCGCGCAGCGCCTCGGCATGCTGCGCGCCAGTGACGGCTGGCTCAGCTACACCGGCTCGGGCCGGCTGCGTCCCGGGACCTACCGGGTCGGGCGGGCCGCCAACAGCGATATCGCGCTGCCGGCCGGGCCTGATCGCCTCGGCGTGCTGACCATCGGTCCGGGCGACGCGGTGCGGTTCGACGCGGTCCCCGGGACCGGCGTGCAGCTGCGCGGGCAGCCGGTCACCAGCACCGCGCTGGAGCCAGAACAGGCCGACCACCACGCCGACCGGCTGGATGTGGGCAGCGCGCAGTTCTTCGTGGTCAAGACCGGGCCGCTGTTCGGATGGCGCTATCGCGATGCCCAGGCGCCGGCGCTGCGCCACTTCGCCGGCATCGAGCATTTTCCGGTCGATGCCGGCTGGCGGATCGAAGCGCAGTGGCGCCCATTTCCGCAGCCACGGTCGATCACCCTGCTGACCTCGATCGGCACGCCGCTGGCGGCGGAGATTCCCGGCGAGGCGGTGTTCCGCCGCGACGGCCAGACCTACCACCTGATGCCGGTCACGCAGAAGGGCGACCCGCAGCTGTTCTTCCTGTTCGCCGACCGCACCAGTGGCAAGGAAACCTACGGCGGCGCGCGCTATCTTTTCGCCGAGCCGCCGCGCGATGGCCGCATCGTGCTGGACTTCAACCGTGCCGAGAATCCGCCGTGTGCGTTGACTCCGCACCTGGTGTGCCCGATCGCACCGCCGCAGAACCGGCTGGACCTGGCGGTGACCGCCGGCGAGAAGACCTACCAGGCCAGGCACTGA	MVLALPLLLAGCTQGAVSPASGSVSARPSADYLKSIEAWRAQRLGMLRASDGWLSYTGSGRLRPGTYRVGRAANSDIALPAGPDRLGVLTIGPGDAVRFDAVPGTGVQLRGQPVTSTALEPEQADHHADRLDVGSAQFFVVKTGPLFGWRYRDAQAPALRHFAGIEHFPVDAGWRIEAQWRPFPQPRSITLLTSIGTPLAAEIPGEAVFRRDGQTYHLMPVTQKGDPQLFFLFADRTSGKETYGGARYLFAEPPRDGRIVLDFNRAENPPCALTPHLVCPIAPPQNRLDLAVTAGEKTYQARH				NA	NA	NA	NA	NA
BMS020_08690	585			hypothetical protein	ATGTCGCCCGCCCCGTCGAAACCGCCGATCACGCTGCAATCGCTGCCGTACCACGACCTGCTGCAGGCGCGCGCGCCGGAGACGATCCGCTGCGTGGTGATCCACTGCACCGAGCTGCCGGACCTGGCGATGGCGCGCGACTACGGCGAGCGCGTGCTGTACGACGCCGGCACCGGCAACAGCGGCCACTACTACATCGACCGCGACGGGCGCATCGTGCAGTACGTCGCGCACGCGCGCATCGCCCATCACGTGCGCGGGATGAACGCGCAGACCCTGGGCATCGAACTGGTCAACAGCGGGCGCTATCCGCACTGGTTCGACTCGCGCCACCAGGCGATGGACGAACCCTACCCCGAGGCCCAGCTCACGGCCCTGCTGGCCCTGCTGCACTGGCTGCAGGCCGAGCTGCCGGCGCTGCGCGAGATCGCCGGCCACGAGGACCTGGATACCGCGCAGGTGCCGGCCAGCGATGATCCAACCTTGCACGTGGCGCGCAAGCGCGATCCAGGCCCGCGGTTCCCGTGGCCACGCGTGCTGGCCGCGGTGCCGCTGCAGCGCGTCGGTGCCGACGCGCTGGGGTGA	MSPAPSKPPITLQSLPYHDLLQARAPETIRCVVIHCTELPDLAMARDYGERVLYDAGTGNSGHYYIDRDGRIVQYVAHARIAHHVRGMNAQTLGIELVNSGRYPHWFDSRHQAMDEPYPEAQLTALLALLHWLQAELPALREIAGHEDLDTAQVPASDDPTLHVARKRDPGPRFPWPRVLAAVPLQRVGADALG	PGPT0019115_2406	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
BMS020_08691	492			hypothetical protein	ATGCCGCTGAACCCCGAAAGCCCGTTGGCGAAATTGATGGCGACGCTGCCGCGCAGCGGCCGCGTGCAATGGATTGGAGTGCGCCCGGCGCGCGATGTGCCGATGCACGAGGTCGGTGCCGTGCAGGCCTCGCCGCAGCACGGCCTCGACGGCGACCGTTACCGCAGTGCCGGCGGCAAGCGCGGCATCACCCTGATCCAGGCCGAGCACCTGGCGGTGATCGCGGCGTTGTCCGGGCATGCCGCGGTCGCGCCGGCGACGCTGCGCCGCAACCTGGTGGTGGCCGGCATTCCGCTGGTCGCGTTGAAGGGCCGCCGCTTCCGCATCGGCGAGGTCGAGCTGGAAGGTACCGAGCCCTGCGATCCATGCTCGCGGATGGAAGACGCGCTCGGCGCTGGCGGCTACAACGCGATGCGCGGCCACGGCGGTCTGTGCGCGCGCATCCTCACCCCCGGCGTGTTGCGCGTCGGCGACGCGGTGGTGGCGCTGTGA	MPLNPESPLAKLMATLPRSGRVQWIGVRPARDVPMHEVGAVQASPQHGLDGDRYRSAGGKRGITLIQAEHLAVIAALSGHAAVAPATLRRNLVVAGIPLVALKGRRFRIGEVELEGTEPCDPCSRMEDALGAGGYNAMRGHGGLCARILTPGVLRVGDAVVAL				NA	NA	NA	NA	NA
BMS020_08692	528			hypothetical protein	GTGAGCCGTGGCCACTGCATCCTCTCGCACGGGTTCGAGAGCGGTCCGGACGCGACCAAGGTGACCGCGCTGGCCGAGGTCGCCGAGCGCCTCGGCTGGAGCCACGAACGCCCCGATTACAGCGATCTCGACGCACGCAGCGAGGTCAGCCGGGTCGGCGACGTGCCGGCGCGGCTGCAACGGCTGCTGGACCTGGCACGCGCGCGCGCCGCCGACGGCCCGCTGGTGCTGGCCGGCTCGAGCCTGGGCGCCTACATCGCCGCGCTGGTGTCGCTGCAGGTGCCGGTGCGCGGCCTGTTCCTGATGGTGCCGCCGGTGGCGATGGGGCCGATGCCGGCGCTGGACGCCGCGCGCGTGCCGATCTCGGTGGTGCAGGCCTGGCACGACGAGGTGATCCCGGCCGCCGACGTGATCGCCTGGGCGCAGGTGCGCGCGGCGCGGCTGCTGCTGGTCGACGATACCCATCGCCTGGGCGCGCACGTGGCGACCTCCGCGCGCGCCTTTGCCGAGCTGCTGGAGACGCTGTGA	MSRGHCILSHGFESGPDATKVTALAEVAERLGWSHERPDYSDLDARSEVSRVGDVPARLQRLLDLARARAADGPLVLAGSSLGAYIAALVSLQVPVRGLFLMVPPVAMGPMPALDAARVPISVVQAWHDEVIPAADVIAWAQVRAARLLLVDDTHRLGAHVATSARAFAELLETL				NA	NA	NA	NA	NA
BMS020_08693	504	eis		N-acetyltransferase Eis	ATGGACATCGCGCTGCGCGCCGAGGCGCCGGCCGACATCGGCGCGATCGAACTGCTGACGATGGTGGCGTTCTTCCGCGTCGAGCACAGCCGCCACGACGAACACCAGATCATCGCCGCGCTGCGTGCCGACGGCGCGCTGAGCGTGTCGCTGGTCGCCGAGCACGACGGCTACGTAGTCGGCCACGCCGCGGCTTCGCCGGTGACGATCTCCGATGGCAGCCACGGCTGGTATGGGCTGGGGCCGGTCGCGGTCGGGCCCGGCCACCAGCGCCACGGCATCGGCAGTCGGCTGGTCGCGGCGGTGCTGGAGGCGCTGCGCGAGCGCGGCGCCGCCGGTTGCGTGGTGCTGGGCGAGCCAGGCTTCTACGGCCGCTTCGGTTTCGCCCAGGAACCGGGCCTGCTGCTGCCCGGCGTGCCGGCCTCGCATTTTCTTGCGTTGCCGTTCGGCGACCGCCTGCCACCGCTGGGCGAGGTCGAGTACCACGCCGCGTTCAGCGCCTGA	MDIALRAEAPADIGAIELLTMVAFFRVEHSRHDEHQIIAALRADGALSVSLVAEHDGYVVGHAAASPVTISDGSHGWYGLGPVAVGPGHQRHGIGSRLVAAVLEALRERGAAGCVVLGEPGFYGRFGFAQEPGLLLPGVPASHFLALPFGDRLPPLGEVEYHAAFSA				NA	NA	NA	NA	NA
BMS020_08694	1608	expZ	COG0488	Nucleotide-binding protein ExpZ	ATGCACGTTCCGTCGTTGACGCTCGAAGGCGTCGCGTTCCACCTGGCCGATGGCCGGTGCCTGTTTTCCGAACTCGATCTGCAACTGGACGCCACCCCGACCGGGCTGGTCGGGCGCAACGGCGCCGGCAAGAGCGTGCTCGCGCGCATCCTTGCCGGCACGCTCGCGCCCAGCCGCGGCCGCCGCCGGGCGCAGGGGCGGGTGCATCTGCTGGAGCAGCAGGTCGCGCCGGCGCCGGCCGACACCGTCGCCGACCTGGCCGGCATCGGTGCGCAGGTCGCGGCATTGGCGCGGATCGAGGCCGGCAGCGTCGATTCGGCCGATTTCGACATCCTTGCCGAGCGCTGGGACCTGCAGCGCGAACTGGCGCTGGCGCTGCAGGCGCAGGAACTGCCGGCGTGGCCGGCCAGCCATCCGGCCAGCGCGCTCAGCGGCGGCGAGGCGATGCGGGTGGCGCTGGCCGGCGCCTGGCTGGCGCAGGCCGACCTGCTGATCCTCGACGAGCCCAGCAACCATCTCGACGCACGCCAGCGCCAGCGGCTGCAGACCCAGCTCGCGCAGTGGCCGGGCGGGCTGCTGCTGGTCAGCCACGACCGCGCGTTGCTGGCGGACATGGCGCAGATCGTCGAGCTGTCGCCGCAGGGGCTGCGCCGGCATGGCGGCGGCTACAGCGCCTACGCTGCCGCCGCCGCCGAAGCCGAGGTGCGCGCCGAGGCCGAGCTGGAACGGCAGCGGCATGCGTTGCGGCGCGACGAACGCGCCCGCCATGTCGCCCACGATCGCCTGCAGCAGCGCCAGGCGCGCGGCCGCCGCGACGCGCGCGACGCCAACCAGGCGCCGATCCTGCTCGGCCTGCAGAAGGCGCGCAGCGAAGCCAGCCTGGGCCGGCTGCAGCAGCGCCGGGAGGCCGCGCTGGCGCAGCAGCGCAGCGCGCTGGCCGAGGCGGCGGCGCACAGCACGCCGGCGCCGGAAGTGGTGCTGCATGCGCCACGGCCGCAGGCACGGCGGCGCACCGTGCTGCTGGAGGCGGTGCGGTTGCCGTACGGGCCGCTCGCGGCGCGCCCGCTCGACCTGGTCCTGGAGGCCGGGCAGCGGCTGGCGGTCTGCGGCCGCAACGGCAGCGGCAAGTCGAGCCTGCTGCGGTTGCTGGCCGGGCAGCTCGCACCGGCGGCGGGGCGCTGCCAGCTGACCCCGGCGCGGGCCTGGCTGGACCAGCGGCTGCAGGACCTGGATCCGGCGGCATCGCCGCTGGCGCTGTTGCGCGCGGTCGATCCGCACGCCGACGAGGCGGTGCTGCGGCAACGCCTGGTGCTGCTCGGCCTGCCGGCCGGGGCGCTGGCGCAGCCGAGCGGCGGGCTCAGCGGCGGCGAACGGCTGAAGCTGGGATTGGCTTGCGCGCTGTACGCGGCCGTCCCGGCCGAACTGCTGCTGCTGGACGAGCCGGCCAACCACCTCGACCTGGCGGCGCAGCAGGCGCTGGAGACGATGCTGCGCGACTACCCCGGCACGCTGGTGGTGGTCTCGCACGATGCGGTGCTGCTGCAACGCCTGGCGCTCGATACGCGCCTCGACCTCGACCAGCCGGCGCCGTGCCTGCAGCCCTGGTGA	MHVPSLTLEGVAFHLADGRCLFSELDLQLDATPTGLVGRNGAGKSVLARILAGTLAPSRGRRRAQGRVHLLEQQVAPAPADTVADLAGIGAQVAALARIEAGSVDSADFDILAERWDLQRELALALQAQELPAWPASHPASALSGGEAMRVALAGAWLAQADLLILDEPSNHLDARQRQRLQTQLAQWPGGLLLVSHDRALLADMAQIVELSPQGLRRHGGGYSAYAAAAAEAEVRAEAELERQRHALRRDERARHVAHDRLQQRQARGRRDARDANQAPILLGLQKARSEASLGRLQQRREAALAQQRSALAEAAAHSTPAPEVVLHAPRPQARRRTVLLEAVRLPYGPLAARPLDLVLEAGQRLAVCGRNGSGKSSLLRLLAGQLAPAAGRCQLTPARAWLDQRLQDLDPAASPLALLRAVDPHADEAVLRQRLVLLGLPAGALAQPSGGLSGGERLKLGLACALYAAVPAELLLLDEPANHLDLAAQQALETMLRDYPGTLVVVSHDAVLLQRLALDTRLDLDQPAPCLQPW				NA	NA	NA	NA	NA
BMS020_08695	2178	rlmL_2	COG0116	Ribosomal RNA large subunit methyltransferase K/L	ATGAAATTCTTCGCTTCCTGCGCCAAGGGCCTGGAATACCTGCTGGCCGACGAGCTGCTTGCGCTCGGCGTGGCCAAGGCCACCGCCACCATCGCCGGCGTCAACGTCGAGGGCGAGCTGGTCGACGCCCAGCGCGCCGTGCTGTGGTCGCACCTGGCCAGCCGCATTCTGTGGCCGATCGCCGAATTCGACTGCCCCGACGACACCGCGCTGTACGCCGGCGTCGCCGCGCTGCCGTGGCCGCAGCACCTGGCGCCGGGCGACACCCTGGCGGTGGACGCGCACGTCTCCGGTGCCGCGATCACCCACGCGCGCTACGCCGCGCAGCGGGTCAAGGACGGCGTGGTCGACAGCCTGCGCGGGCAGGGGCTGGAGCGGCCGTCGGTCGACGTGGACAACCCCGACCTGCGGCTGAACCTGTCGCTGCGCAAGGGCCGGGCGACGCTGTCGGTGGACCTCGGCGGCGGCCCGCTGCACAAGCGCGGCTGGCGCCAGGCGCCGCATGCCGCGCCGCTGCGCGAGACCCTGGCCGCGGCGGTGTTGGTGCGCGCCGGCTGGCCGGCGCTGTACCGCGACGGCGGTGGCCTGCTCGACCCGATGTGCGGCAGCGGCACGCTGCTGATCGAAGGCGCGCTGATGGCCGCCGACGTCGCCCCCGGCCTGGCCCGGCATGCCGATCCGTGGTCGGTCTCCAGCACCTCGGTGGCCGAGCGCGCGGTGCTGGCGCCGACCGGCTGGCGCGGCTTCGACCTGACCGGCTGGAAGGCGCTGGTGGCCGAGGCGCAGGCGCGTGCCGGTGCCGGCCTGGCCGCGCTGCGGCCGGTGCTGCACGGCGGCGACCTGGACCCGCAGGCGATCGCCGCGGCGCGCTCGAACGCGCGCAGCGCCGGGGTCGAGGCGGCGATCGATTTCCGCGTCGCCGACGTGGCCGCGCTGCAGGCGCCGCCGGAGCCGACCGGTTCGGTGGTGTGCAATCCGCCGTACGACGCGCGCCTGGCCGCCGACGCGGCGCTGTACCGCCAGCTTGGCGACGCACTGCAGCGGGCGGTGCCGGGCTGGCGCGCCGGCGTGCTGTGCGGCGACGATGAGCTGGCGTACGCGACCGGCCTGCGTGCCAGCAAGACCTACAAGGTGTTCAACGGCGCGCTGGAGTGCGCGTTGATCGTCTGCAACCCGATCGCGGTGCCGCGCCGGCCGGCGGCCGAGCCGCGCCCGCTCAGCGACGGCGCGCAGATGGTCGCCAACCGGCTGCGCAAGAACCTGCAGAAGCTGAAGAAGTGGCGCGCCCGCGAGGGCGTGGCGTGCTTCCGCGCCTACGACGCCGATCTGCCCGAATACGCCGCGGCGATCGACGTCTACCAGGAAGCCGACGGCGCCCAGCGCCAGTTCCTGCACGTGCAGGAATACGCCGCGCCGGCGTCGATCCCCGAGGCCGACGTGCGCCGCCGCTTCGGCGACCTGCTGGCGGCGGTGCGCGAGGTGTTCGAGGTGCCGCGCGAGCAGGTGGCGACCAAGGCGCGCGCGCGCGGCAAGGGCGGCAGCAAGTACGGCCGCATGGACCAGCGCGGCGAGGTGTTCCATGTGCGCGAGCACGGCGCGCTGCTGCGGGTGAACCTGTTCGACTACCTCGATACCGGGCTGTTCCTCGACCATCGCCCGCTGCGTCGGATGATGGCCGAGCAGGCACGCGGCCGGCGCTTCCTCAACCTGTTCTGCTACACCGGCGTGGCCAGCGTCGAGGCGGCGGTGGCCGGGGCGGCGTCGACCACCAGCGTCGACCTGTCGGCGACCTACCTGCAGTGGTGTTCGGACAACCTGGCGCTGAACGGCCAGGGCGGCGGTCGCCACCAGCTGGTGCAGGCCGACGTGCTGGCCTGGCTGCAGGCCGAGCGCGGCCAGTACGACGTGATCTTCTGCGACCCGCCGACGTTCTCCAATTCGGCGCGCGCCGACGACTTCGACATCCAGCGCGAGCACGTGCGGCTGCTGCAGGCCTGCATGGCGCGGCTGGCGCAGGGCGGGGTGCTGTACTTCTCCAACAACTTCCGCCGCTTCAAGCTGGACGAGGACGCGATCGCCGGCTTCGCCCAGTGCGAGGAGATCAGCCCGAAGACCATCGATCCGGACTTCGAGCGCAACGCGCGCATCCACCGCGCCTGGCGCCTGACCCGGGCCTGA	MKFFASCAKGLEYLLADELLALGVAKATATIAGVNVEGELVDAQRAVLWSHLASRILWPIAEFDCPDDTALYAGVAALPWPQHLAPGDTLAVDAHVSGAAITHARYAAQRVKDGVVDSLRGQGLERPSVDVDNPDLRLNLSLRKGRATLSVDLGGGPLHKRGWRQAPHAAPLRETLAAAVLVRAGWPALYRDGGGLLDPMCGSGTLLIEGALMAADVAPGLARHADPWSVSSTSVAERAVLAPTGWRGFDLTGWKALVAEAQARAGAGLAALRPVLHGGDLDPQAIAAARSNARSAGVEAAIDFRVADVAALQAPPEPTGSVVCNPPYDARLAADAALYRQLGDALQRAVPGWRAGVLCGDDELAYATGLRASKTYKVFNGALECALIVCNPIAVPRRPAAEPRPLSDGAQMVANRLRKNLQKLKKWRAREGVACFRAYDADLPEYAAAIDVYQEADGAQRQFLHVQEYAAPASIPEADVRRRFGDLLAAVREVFEVPREQVATKARARGKGGSKYGRMDQRGEVFHVREHGALLRVNLFDYLDTGLFLDHRPLRRMMAEQARGRRFLNLFCYTGVASVEAAVAGAASTTSVDLSATYLQWCSDNLALNGQGGGRHQLVQADVLAWLQAERGQYDVIFCDPPTFSNSARADDFDIQREHVRLLQACMARLAQGGVLYFSNNFRRFKLDEDAIAGFAQCEEISPKTIDPDFERNARIHRAWRLTRA				NA	NA	NA	NA	NA
BMS020_08696	954	pgrR_16		HTH-type transcriptional regulator PgrR	ATGGACCGCCTGCGCGCCATCGAGACTTTTCTGCGGGTTGCCGACCTCGGCAGCTTCCACGCCGCCGCCCAGGCCCAGGGCAGTACGCCGCAGGCCGCGAGCAAGGCGATCCGCCAACTCGAAAGCGAGCTCGGCGTGCGCCTGTTCCACCGCACCACGCGGGCCAGCAACCTCACCGACGACGGCCGCCGCTTTCTGGAACGCGTGCGCCCCGGCTTGGAAACCGTCACCGCGGCTTGGAACGACGTCCAGCAGCTGGCCGCCGAGGACAGCGGGCTGATCCGCATCGCCGCCGCGCGGCTTGGCCGCCACCTGCTGCTGCCGCTGCTGGCCGAGTTCCGCACGCTGCACCCGAAGATCGAGTTCGAGCTGATCCTGGAGGATCGCTACACCGATCTGGTCGGCGCCGGCATCGACATCGGCTTCCGCAGCGGCCAGGCACCGGACGCGCAGGTGGTGGCGCGCGAACTGTTCCGGCTGCAGCTGATCGTCTGCGCGGCGCCGGACTACCTGCGCCGCCACGGCCTGCCGCGCAGCCGCCAGCAGCTGGCGCAACACCAGTGCACGGGCTCGCGCCAACCCAACAGCATGCGGCTGGAACCGTGGGAATTCCTGGTCGACGGCGAACTGGTGTTCGAGCACCTGCCGTCGGGTTTCTGCAGCAACGACATCGAGGCCGAAACCGAGGCGGTGCTGGCCGGCTTCGGCATCGGCCAGCTCGACGCGATCAACGCCGCCCCGTTGCTGCGCAGCGGCGCGCTGGTGCCCTTGCTGATCGAGCACGTCAGCGAACGCCACGGGCAGTACCTGTACTACCCGCAGCGACGCGCCATGCCGGTGCGGGTGCGGCGCTTCGTCGACTTCGCCCTGCAACGGCTCAGCGGCGGCAACGGCTTCTGCTTCGCGCTGGCGGAACTGCGCATGCTGCAGCAACGCTTCGTCGACGCACGCTAG	MDRLRAIETFLRVADLGSFHAAAQAQGSTPQAASKAIRQLESELGVRLFHRTTRASNLTDDGRRFLERVRPGLETVTAAWNDVQQLAAEDSGLIRIAAARLGRHLLLPLLAEFRTLHPKIEFELILEDRYTDLVGAGIDIGFRSGQAPDAQVVARELFRLQLIVCAAPDYLRRHGLPRSRQQLAQHQCTGSRQPNSMRLEPWEFLVDGELVFEHLPSGFCSNDIEAETEAVLAGFGIGQLDAINAAPLLRSGALVPLLIEHVSERHGQYLYYPQRRAMPVRVRRFVDFALQRLSGGNGFCFALAELRMLQQRFVDAR				NA	NA	NA	NA	NA
BMS020_08697	753			putative oxidoreductase	ATGAACAGCACGCAGGGAATCGCAGGAAAGATCGTCATCATCACCGGCGCCAGCAGCGGCCTGGGCGAGGCCACCGCGCGGCATCTGGCGGCACAGGGCGCCAAGCTGGTGCTGGCCGCGCGCCGCACCGAGCGCCTGCAGGCGCTGGTCGCCGAGATCGAGGCCGGCGGCGGCGAAGCGCTCGCGGTGGCCACCGACGTGGCCCGACGCGAGGATGTCGAGGCGCTGGCCGCGGCGGCGATCGCCCGTTTCGGCCGCATCGACGTGCTGGTCAACAACGCCGGGATCATGCCGCTGTCGCCGATCGCCAGCCTCAAGGTCGAGGAGTGGGACCGCACCATCGACGTCAACATCAAGGGCGTGCTGTACGGCATTGCCGCGGTGCTGCCGGGCTTCCAGCAGCAGGGCCACGGGCATGTGATCAACATCGCCTCGGTGGCGGGCTTCAAGGTGTTCAGCCCGATCGGCAGCGTCTACAGCGCGACCAAGTTCGCCGTGCGTGCGCTGTCGGAGGGGCTGCGCGCCGAGGTCGGCCCGCACATCCGCACCACGGTGATCTCGCCCGGCGCGGTGGCCTCCGAGCTGAAGACCCATACCACCGAGGCGGCGACCGCGCAGGCGGTGCAGGCGTTCTACGAATCCAACGAGATTCCGGCCGATTCGGTGGCGCGGGCCATCGCGTTCGCGATCGCGCAGCCGGACGAGGTCGACATCAACGAGATCGTGCTGCGGCCGACCGCGCAGGAGTTCTGA	MNSTQGIAGKIVIITGASSGLGEATARHLAAQGAKLVLAARRTERLQALVAEIEAGGGEALAVATDVARREDVEALAAAAIARFGRIDVLVNNAGIMPLSPIASLKVEEWDRTIDVNIKGVLYGIAAVLPGFQQQGHGHVINIASVAGFKVFSPIGSVYSATKFAVRALSEGLRAEVGPHIRTTVISPGAVASELKTHTTEAATAQAVQAFYESNEIPADSVARAIAFAIAQPDEVDINEIVLRPTAQEF	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
BMS020_08698	1446	hsrA_3		putative transport protein HsrA	TTGCCTGCACCCTCGCCGGCGGCCGCGCCCGCGCCGCGCTATCCCGACTACCGCCTGATCTCGCTGATCCTGGCCTGCGCCATCTTCATGGAGCAGCTCGACGCCACCGTGCTGGCGACCGCGCTGCCGACGCTGGCGCGCGACTTCCAGGTCGCCGCGCCGGCGATGAGCATCGCGCTGACCAGCTACCTGCTGGCGCTGGCGATCGGCATCCCGGCCAGCGGCGCGATCGCCGACCGCTTCGGCCTGCGGCGGGTGTTCTGCGCCTCGATCTGGGTGTTCATCGGTGGCTCGATCCTGTGCTCGCTGGCGACCAACCTGCCGACCCTGGTGGTCGCGCGCTTCCTGCAGGGCGCCGGCGGCGCGATGATGGCGCCGCTGGGGCGGCTGATCCTGCTGCGCACCGTCGAGCGCCGCCACCTGGTGTCGGCGATGGCCTGGACGCTGGTGCCGGCCTTCATCGGGCCGATGCTCGGGCCGCCGGTCGGCGGCCTGTTCGTCACCTACCTCGACTGGCGCTGGATCTTCTACATCAACGTGCCGATCGGCATCGTCGGATTCCTGCTGGTGCGCCGCTTCATTCCCGAGATCCCGAGCGAATCGGCGCCGGCGCGCTTCGACGTGCTCGGCTTCGCGCTGTGCGGAGTCGGCCTCGGCTGCCTGCTGTTCGGGCTGGAGATGGTCAGCCAGCGCGACGAACTGGCGCGCGCGATCGCCCTGATCTGCATCGGCAGCGCCGCCTCGTTCGGCTACCTGTGGCATGCGCGGCGGCATCCGGCGCCGCTACTCGACCTGTCGCTGCTGAAGATCGATTCGTTCCGGCTATCGGTGATCGGCGGCTCGCTGATGCGCGTCACCCAGGGCGCGCACCCGTTCCTGCTGCCGCTGCTGTTCCAGATCGGCTTCGGCTACAGCGCCGCGCAGAGCGGCCGGCTGGTGATGGCCACCGCGCTCGGCGCGCTGTTGATGCGCGTGGTGACCCCGCGCCTGCTGCGCCGCTACGGCTACCGCAACGCGCTGATCGGCAACGGCGTCTTCGCCAGCCTCGGTTACCTGGTGTGCGCGTTCTTCCAGCCCAACTGGGCGCCGGAACTGATGTTCGGGCTGCTGGTGTGCTGCGGCGCGTTCATGTCGTTCCAGTTCGCCGCCTACAACACCATCGCCTACGAACACGTGCCGAGCGCGCGGATGAGCGCGGCCAGCAGCCTGTACACCACGCTGCAGCAGCTGATGCTGTCGGTCGGGGTCTGCGCCGGCGCGCTGTTCCTGAAGACCGCGATGGTCGCCTCCGGCCATGCCGAGCCGCAGCTGCGCGACTTCTCGCTCGCGTTCCTGGCGGTAACGCTGATCTCCTTCAGCTCACTGCGCTGGCACCTGAAATTCGCCCCGGACGCCGGCCAGGAAATGAGCGGCCATCGCCGCGCCGAGGCCGACGCCGGCAACTGA	MPAPSPAAAPAPRYPDYRLISLILACAIFMEQLDATVLATALPTLARDFQVAAPAMSIALTSYLLALAIGIPASGAIADRFGLRRVFCASIWVFIGGSILCSLATNLPTLVVARFLQGAGGAMMAPLGRLILLRTVERRHLVSAMAWTLVPAFIGPMLGPPVGGLFVTYLDWRWIFYINVPIGIVGFLLVRRFIPEIPSESAPARFDVLGFALCGVGLGCLLFGLEMVSQRDELARAIALICIGSAASFGYLWHARRHPAPLLDLSLLKIDSFRLSVIGGSLMRVTQGAHPFLLPLLFQIGFGYSAAQSGRLVMATALGALLMRVVTPRLLRRYGYRNALIGNGVFASLGYLVCAFFQPNWAPELMFGLLVCCGAFMSFQFAAYNTIAYEHVPSARMSAASSLYTTLQQLMLSVGVCAGALFLKTAMVASGHAEPQLRDFSLAFLAVTLISFSSLRWHLKFAPDAGQEMSGHRRAEADAGN				NA	NA	NA	NA	NA
BMS020_08699	987		COG3437	putative cyclic di-GMP phosphodiesterase	ATGACGCCCCGCCCCATCCTTTGTGTCGATGACGACCCCAGCAACCTCGCCGTGCTGCGCCAGGTGCTGCACCAGGAATATCCGCTGGCGTTCGCCAAGAGCGGCGCCGATGCGCTCCGCGGCGCGGTCCGCCACGCCCCTGCGCTGATCCTGCTCGACGTCGAGCTGCCGGACATCGACGGCTACACCGTCGCACGCACACTCAAGCAGGACCCGCACTCGGCGGCGACCCCGATCATCTTCGTCACCGGTCGCGACAAGGAAACCGACGAGGACGTCGGCTTCGCAGCCGGCGGGGTCGACTACATCACCAAGCCGATCTCGCCCAGCATCCTGCGCGCCCGGGTGCGCACCCACCTGTCGCTGGTCAACACCTCGCAGCTGGCGTCGAGCTACCGCGACGCGGTGCAGATGCTGGGTATGGCCGGCCATTACAGCGATACCGATACCGGCAACCACATCTGGCGCATGGCCGCCTACGCCGGCGCGCTGGCCGAGGCCGCCGGTTGGAACTGCGACGACGCGCGCCTGCTGGAGGAGGCCGCGCCGATGCACGACACCGGCAAGATCGGCATCCCGGATGCGGTGCTGAAGAAGCCTGGGGCGTTGACCGACGCCGAATGGGGGGTGATGAAGCAGCACCCGCGCATCGGCCACGACATCCTCTCGCGCAGCCAGGCGCCGCTGTTCCGCCTTGCCGCCGAGGTCGCGCTGAACCACCACGAGCGCTGGGACGGCAGCGGCTATCCGCAGGGCCTGCGTGGCGAGCGCATTCCCGAATCGGCCCGCATCGTCGCCGTCGCCGACGTGTTCGATGCGCTGACCAGTCAACGCCCCTACAAGGACCCCTGGTCGGTGGAGGCTTCGGTGCTGCACCTGCAGGAGATCGCCGGCACCCACCTGGACACCCGGCTGGTGGACCTGTTCGTCTCGGTGTTGCCGCGGATGCTGCAGATCAAGCAGTACTGGGAGGACCGCTGCGACTGA	MTPRPILCVDDDPSNLAVLRQVLHQEYPLAFAKSGADALRGAVRHAPALILLDVELPDIDGYTVARTLKQDPHSAATPIIFVTGRDKETDEDVGFAAGGVDYITKPISPSILRARVRTHLSLVNTSQLASSYRDAVQMLGMAGHYSDTDTGNHIWRMAAYAGALAEAAGWNCDDARLLEEAAPMHDTGKIGIPDAVLKKPGALTDAEWGVMKQHPRIGHDILSRSQAPLFRLAAEVALNHHERWDGSGYPQGLRGERIPESARIVAVADVFDALTSQRPYKDPWSVEASVLHLQEIAGTHLDTRLVDLFVSVLPRMLQIKQYWEDRCD	PGPT0025615_224	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_PERCIPITATION|SIGNALLING,PGPT0025615-rpfG-K13815	NA	NA
BMS020_08700	4074	rcsC_21		Sensor histidine kinase RcsC	GTGCCGTATAGCCGATGGACGTTTCGCAGGGGAGCCGGTCGCACCGCATTGATTTCCACGCTCGGGATTGTGCTGGCGGGGATCGCTATCGCGACCCTGGCCTGGCAGATCGTGGACCATCGCAACCGCGAGGCGCGCGACCAGCGCTTCGCTGAATTGGCAGACCACGTCGCCGGCGACATCGCCGAGCGCATGAATGCGTTCGAGCACGGCCTGCGCGGCGCGCGCGGCGCGGTCATCGCCGGCGGCGGCGCAATCGATCGGGAACGCTTCCTGCGCTACAGCCAATCACGTGAATACGCGCGGGAGTTCCCTGGCGTGCTCGGCTTCGGCTACATCGAGCGGGTGCCACAGGACAGCGAAGCCGCGATGGAACTGGCCGCACGCGCCGATGGCGCGCCGCAGTTCACCGTACACGGCTTCGGCCCGCACGAGGGCGACCGCTTCGTGGTGCTGTACTACCAGCCACAGCCAGCGCTGAACAATGTCGAGGGCCTGGACATGGCCTCGGAGCCGCGCCGGCGCGAGGCCGCGCTGGCGGCCGCACGCTCCGGCCGCCCCACCCTCACCGCACCGATCACCCTGAGCGGCGCGCCCGTCGGCCGCACCGGCTTCCTGGTCATGCTGCCCAGCTATCGCGAGGGGCAACCGCTGGACAGCCCCGAGCAGCGCCTGCGGGCCACGATGGGGTGGTCGTTCGCGGCACTGACGGTGGAGAAGCTGCTCGAACACGGCAACGCCCACCGCCACGACGTGCAGCTGAGCCTGGCCGACGCCGCCGCACCCGACGCCCCGTTCTACTCGGAGATCGTCACGCCACTGGCGCAGGACACCTCACCGGCGCACCGCAGCATCGAGATCTACGGCCGCCGTTGGCTGCTGCAGACCCGCCCGACCCGCGCCTTCGTCGCCGACCTGCACCAGAGCCCGCCGTGGCTGGTCGCCGCACTGATCGTCGGCGCCACCGTGCTGCTGGCCGCGCTGATGCTGCAGTACCAGGTCAACCGCTTCCGCCGCAACCAGGTGCTGCGCAAGCAGACCGAACTGGCCTCGCTGGTCAGCCACTCCGGCGAGGCGATCGTCGCCGAGAACCTGCAGGGCCGGATCACCCACTGGAACCCCGCCGCCGAGCACATCTTCGGCTATCCGGCGAGCTCGGCGCTCGGCCAACGCCTGGACATGCTGCTATCGCCAAAACCGTACGTGCTCGAAGAGGTCCCGGGCGCGCCGCCAACGAGCGAGAGCGAGCCGACGCTGCAGGTCCAGGAGATGCAGCACCGCGACGGCCGCGTCGTTTACGTACTGACCAGCGTCGCCCCGATCGTCGACGAGCACAACAGCGTGGTCGGCCACTCGCACTTCCTGCGCGACGTGAGCGAACGCGTGCAGGCACAGCGCCATGTGATCGAACTGAACGCCACGCTCGAGCAGCAGGTCACCGAACGCACCGCCGCACTCGGCCGTGCCGCGGCGCTTCAGGGGGCGATCCTGGCCCATGCCGGCTACGCGATCATCGCCACCAACCGCGAGGGCGTCATTACCCTGTTCAACCCCGCCGCGGAGAAGCTGCTGGGCTATCGCGCCGGTGAGTTGATCGGGCGGCACGGCACCCAGCTGTTCATCGACCACGAGGAACTGGAGCAGCGCGCCGCCGAAGCCAGCCGCCTGTCCGGACTGCGGGTGCCGGCCACGTTCGAGGCGGTCGTGGCGGTCTCCACGCTCGGACGCGCCGATACCAGCGAATGGAGCTACATCAACAAGGAAGGGCGCCGTGTGCCGGTGCTGCTGACCGTCAGTACGCTGCGCGACGAAGAGGGCGACGATACCCTGGGCTACCTCGCACTGGCGGTCGACCTGACCGAGCAGAAACTGCACGAGAAGCAGCTGCGCCTGGCGATCGATGCCGCCGAGAGCGCCAACCAGTCCAAGAGCGATTTCCTGGCCAACATGAGCCACGAGATCCGCACGCCGATGAACGCCATCCTCGGCATGCTCTACCTGCTGCAGCGCAGCGACCTGGCTGCCAGCACCAAGGAGATGGTGCAGAAGATCGACCTGTCGGCGCGTTCGCTGCTGGAGATCATCAACGACATCCTCGACTTCTCCAAGATCGAGGCCGGCCGCATCGAACTGGACATCCAGCCGTTCGACCTCAGCAAGCTGCTCGACAACATCGCCGCGCTGATGAGCAACGCGATCAACAGCAAGCCGGTGGAGATGATCGTCGACCCGGTCCCCAGCGACTGCCGCTGGGTCAAGGGCGATGCGCTGCGGCTCAACCAGGTGCTGATCAACCTGGTCGGCAATGCGATCAAGTTCACCGAAGCCGGCGAGGTGATGCTGTCGGTGCGGCGCTTCCGCGACAACATGCCGAACCGGGTCAAGCTGCTGTTCTCGGTGCGCGATACCGGCATCGGCATCCCGCGCGAGAAGCAGGAGGTGATCTTCTCGCCGTTCCTGCAGGCCGACACCTCCACCAGCCGCAAGTACGGCGGCAGCGGCCTGGGCCTGACCATCAGCCGCCGCCTGGTGGAACTGATGGGTGGACAGCTGGAAGTGGACAGCGCGCCCGGACGTGGCAGCGAGTTCTACTTCGTGATCCCGCTGGAAGTCGCCACCGCGAAGACCGAGGACGCGCGCGCACCGCGTCCGGCGCCGCGGGTACTGATCGCCGACGACCACCAGCTGGTGCTGGACAACCTGGCCACGATCGCGCGGGAGCTCGGCTGGCAGCCGCAGCTGGCCACCGGGGGTCAGGAAGCCCTGCAGGCGATCGAACAGGCCGAGACCCCGTTCGACATCTTCCTGCTCGACTGGCGCATGCCCGACCTCGACGGCCTGGCCGTTGCACGCCGCATCCGCGAGCGCGCCCAGCCGGGCCAGCACCCGGTGATCGTGATGGTGACCGCCTACGAGCGCCGGCTGCTGGAGCAGCAACCCGGCCACCGCGATGCCGACGTGGTGATGACAAAACCGGTCACCGCCAGCGCGCTCGACCGGGCCGTCTCCGGAGTGACGTCCGGCTCCGGCGGCAGCCGCCTGATCGAAAGCCGGCTGCACCTTGCCGGCCGCCGCCTGCTGCTGGTCGACGACAGCGAGATCAACTGCGAAGTGGCGCGGCGCATCCTCCAGGGCGAGGGCGCGGCGGTCGACGTCGCCTACAACGGCGAACAGGCGCTTGCGATGCTGGAAAGCGCACCGGACGCCTACGAACTGGTGCTGATGGATGTGCAGATGCCGCTGATGGACGGCTACGAGGCCACCCGCCGGCTGCGCCAGGATCCCAGGCTGGCCGGACTCCCGGTGGTCGCGCTCACCGCCGGCGCCTATCGGCAGCAGCAGGAGGCGGCACTGAAGGCCGGCATGGACGGCTTCGTCGCCAAGCCGTTCGACGTGGCCGAACTGCTCGGCGTGATCCAGCAGTTCCTGCCGCCGCAGGACACCAGCGCCAAGCTCGAGGCCGCCGCGGCGCCGCATGCCGGCTGGAGCAGCCACGACAGCGCGCTGCTCGATGGCCATCGCGCGCAGGTGCTGTGGGGCGAGCGCACCACCTATGCGCGCTACCTGCTCAAGATGCTGCACGACAGCGGCGAGGCGGCCGAAGAGATCGGCGCCCTGCTGCGTGCGGCCGACCGGCCGCAGGCGATCGCCGTGTCGCACAAGCTGCGCGGTTCGGCCGGCTCGCTGGCGCTGCCGCGGCTGGCCGCCGCGGCGGGCGCGCTGGAACGCCACATCGAAGAGCAACTCGACCCGACCGACGCGCTCAGCGAACTGCAGGCCGCCTTGTTGGCGACCACGCTGGTGATCCACGACTTCATCGAGCGCAACAGCGGCAGCGACAGCGATCCGCTGCCCACTGTGCCGAGCGCGGATCCGACCCAGGGCCCGGACCTGACTGCCCTGCTGGTCGCCCTGGAAAGCGACGACGCCGACCGTATCGACCACGCGCTGGCCGAGGCCGCCCCCAGTCTTCCCAGCGAATTCAGGCAGCAGCTGCGGCAGCTGCTGGACGACTTCGAATTCCGCAAGGCCGAAAATAAAGTTCGGAGGTGGATGGCCGATAGTGTTTCCTGA	MPYSRWTFRRGAGRTALISTLGIVLAGIAIATLAWQIVDHRNREARDQRFAELADHVAGDIAERMNAFEHGLRGARGAVIAGGGAIDRERFLRYSQSREYAREFPGVLGFGYIERVPQDSEAAMELAARADGAPQFTVHGFGPHEGDRFVVLYYQPQPALNNVEGLDMASEPRRREAALAAARSGRPTLTAPITLSGAPVGRTGFLVMLPSYREGQPLDSPEQRLRATMGWSFAALTVEKLLEHGNAHRHDVQLSLADAAAPDAPFYSEIVTPLAQDTSPAHRSIEIYGRRWLLQTRPTRAFVADLHQSPPWLVAALIVGATVLLAALMLQYQVNRFRRNQVLRKQTELASLVSHSGEAIVAENLQGRITHWNPAAEHIFGYPASSALGQRLDMLLSPKPYVLEEVPGAPPTSESEPTLQVQEMQHRDGRVVYVLTSVAPIVDEHNSVVGHSHFLRDVSERVQAQRHVIELNATLEQQVTERTAALGRAAALQGAILAHAGYAIIATNREGVITLFNPAAEKLLGYRAGELIGRHGTQLFIDHEELEQRAAEASRLSGLRVPATFEAVVAVSTLGRADTSEWSYINKEGRRVPVLLTVSTLRDEEGDDTLGYLALAVDLTEQKLHEKQLRLAIDAAESANQSKSDFLANMSHEIRTPMNAILGMLYLLQRSDLAASTKEMVQKIDLSARSLLEIINDILDFSKIEAGRIELDIQPFDLSKLLDNIAALMSNAINSKPVEMIVDPVPSDCRWVKGDALRLNQVLINLVGNAIKFTEAGEVMLSVRRFRDNMPNRVKLLFSVRDTGIGIPREKQEVIFSPFLQADTSTSRKYGGSGLGLTISRRLVELMGGQLEVDSAPGRGSEFYFVIPLEVATAKTEDARAPRPAPRVLIADDHQLVLDNLATIARELGWQPQLATGGQEALQAIEQAETPFDIFLLDWRMPDLDGLAVARRIRERAQPGQHPVIVMVTAYERRLLEQQPGHRDADVVMTKPVTASALDRAVSGVTSGSGGSRLIESRLHLAGRRLLLVDDSEINCEVARRILQGEGAAVDVAYNGEQALAMLESAPDAYELVLMDVQMPLMDGYEATRRLRQDPRLAGLPVVALTAGAYRQQQEAALKAGMDGFVAKPFDVAELLGVIQQFLPPQDTSAKLEAAAAPHAGWSSHDSALLDGHRAQVLWGERTTYARYLLKMLHDSGEAAEEIGALLRAADRPQAIAVSHKLRGSAGSLALPRLAAAAGALERHIEEQLDPTDALSELQAALLATTLVIHDFIERNSGSDSDPLPTVPSADPTQGPDLTALLVALESDDADRIDHALAEAAPSLPSEFRQQLRQLLDDFEFRKAENKVRRWMADSVS				NA	NA	NA	NA	NA
BMS020_08701	1296			hypothetical protein	ATGGATTCCCGGACCACGCCCCCCTCCGACCCGCGCCGCGCCCAGCTGCGACGGATGAAGACCCTGGCCCTGCTCCTGCTGCTGGCGATGCTGGCCGGCTTCGTGCTGAGCCACCTGATGGGGCTGCACGGCGGCTGGGCCTGGGTTGCCGCGTTCTGCGAGGCCGCCGCGGTCGGTGCGCTCGCCGACTGGTTCGCGGTGGTCGCGTTGTTCCGGCGACCGCTCGGCCTGCCGATCCCGCACACCGCGATCCTGCCGCGCGGCAAGGACCGCCTCGCCGACGGCCTGGCGCTGTTCGTGCGCGACCACTTCCTCGCCCCGGACGCGCTGCTGGAGAAGCTGCGCGTGTTCGACCCGGCCACCCGGCTGGGCCAATGGCTGGCGCAGCCGGCGCAGGCGCGGATGCTGGCCGGCATGGCGCGCGGTTGGCTGCAGCAGGCACTGGACCTGCTCGATGAGGCCGCGGTGCGACGCGCGATCCAGCGCTTCGTGGTCGAGCGGCTGCGGCAGTGGAACGCCTCGGCCACCGCCGGCGAAGTGCTGGCGCTGCTGACCACCGACGGCCGCCACCAGCGCCTGCTCGACGACGGCCTGCAGAAGCTCGGGCACTGGCTCGACGACGAGCGGGTCAAGGCCTGGGCCTCGGAGCTGATCGTGCGCCATGCGCGCCGCGAATGGCCGCGCCTGGTCGGCACCGTCAACTGGGTCACCCCGGTCGATGAACTCGGCGACAAGCTGGCCGAACGGCTGGCGCGCGCGGCGATCGACGAACTGCAGCAGATCCTGACCACGCCCGAACATCCGCTGCGCCAGGACTACGAGCGCTGGCTGCGCGACTACATCCTGCGCCTGCGCGAGGACCCGGCGCTGGCCGAACGGGTCGATGCGCTCAAGCAGCGCGCGATCGAACATCCGGCACTGCAGGACTACGTGCAGGCGGTGTGGTCGCAGGTCCAGGCGACGCTGCGCGCCGATCTGGCGCGTGAGGACTCGGCCGTGGCCGCGCACCTGGAACGCTCGCTGCACGGGCTCGGGCAGGCGATCAGCGAGGACCCGGCGCTGCGCGACGCGTTGAACCAGCACATGCTCGATGCCGCCGCGCGGCTGACCGAACGCCTGCGCGACTCGGTGACCGCGCACATCGCCGGCACGATGAAGGCCTGGGACGAACACCACCTGGTCGACCAGCTCGAACTCAGCGTCGGCCGCGATCTGCAGTACATCCGCTTCAACGGCACCCTGGTCGGCGGGTTGATCGGCCTGCTTCTTCACGCCGCCGCAACCTGGCTTGGATAG	MDSRTTPPSDPRRAQLRRMKTLALLLLLAMLAGFVLSHLMGLHGGWAWVAAFCEAAAVGALADWFAVVALFRRPLGLPIPHTAILPRGKDRLADGLALFVRDHFLAPDALLEKLRVFDPATRLGQWLAQPAQARMLAGMARGWLQQALDLLDEAAVRRAIQRFVVERLRQWNASATAGEVLALLTTDGRHQRLLDDGLQKLGHWLDDERVKAWASELIVRHARREWPRLVGTVNWVTPVDELGDKLAERLARAAIDELQQILTTPEHPLRQDYERWLRDYILRLREDPALAERVDALKQRAIEHPALQDYVQAVWSQVQATLRADLAREDSAVAAHLERSLHGLGQAISEDPALRDALNQHMLDAAARLTERLRDSVTAHIAGTMKAWDEHHLVDQLELSVGRDLQYIRFNGTLVGGLIGLLLHAAATWLG				NA	NA	NA	NA	NA
BMS020_08702	867			hypothetical protein	ATGAATATCGTCGTCAACGAAGAACTCAAGGCCTACATCGATCCGCTCACCGCCGATGAGCACGACGCACTGGAGCGCAGCCTGCTCGCCGAGGGCTGCCGCGACGCGCTGGTGCTGTGGGGCGACATCCTCATCGACGGCCACAACCGCTACGGCATCTGCAGCAAGCACGGCATCCCGTTCAACACGGTGCAGAACACCCGCTTCCAGTCGATGGAGGATGTGCACCTGTGGATGATCGAGCAGCACCTGGGCCGGCGCAGCGTGTCCGACTTCCAGCGCGGCGTGCTGGCACTGCGCAAGCGCGAGATCCTCGACCGCCGTCAGCGCGAGGCGCGCGAGTCCGAGCTGGCCACCGAGCGCCAGCGCAGCGCCGAGACGGTCCCGGTTGAAGCCAGCGAGGCCGTCGAGGCCAGCGCCACGGCGCAGGTCGAGGCCGGCAGCGATAGCGACAGCCCGCCGTGGGACGAGACCCCCTCGGTCAGCCGTGCCGACCTGGCCCGCGAAGCGCGCCTGAGCAACAGCCAGGTGGTGATGATCGAGCGCATCCACACCCAGGCCGCGCCGGAGGTGATCCAGGCGGTGAAGGCCGGCGACCTGTCGCTCAGTGCCGCGGCCGCGGTGGCGACGCTGCCCGAAGACGAGCAGCGCCAAGCCGCGCGCGGCGGCAAGAGCGAGCTGAAGCAGGCCGCCAAGCGCGTGCGCGACGCCAAGAAGAAGCCCAAGCCCAGCGATGGCGCCGACGGAGAGGCGGCCCCGGACGCGAAGGCGCTGCAGCGCCGGATCGACGAGCTGGAGCGCGAGAACGAGCGCCTGCTGGGCCAGGTCGCCACCCTGCAGGAGCAGCTGCAGCGCCTGCGCGGCTGA	MNIVVNEELKAYIDPLTADEHDALERSLLAEGCRDALVLWGDILIDGHNRYGICSKHGIPFNTVQNTRFQSMEDVHLWMIEQHLGRRSVSDFQRGVLALRKREILDRRQREARESELATERQRSAETVPVEASEAVEASATAQVEAGSDSDSPPWDETPSVSRADLAREARLSNSQVVMIERIHTQAAPEVIQAVKAGDLSLSAAAAVATLPEDEQRQAARGGKSELKQAAKRVRDAKKKPKPSDGADGEAAPDAKALQRRIDELERENERLLGQVATLQEQLQRLRG				NA	NA	NA	NA	NA
BMS020_08703	552	ydaF	COG1670	Putative ribosomal N-acetyltransferase YdaF	ATGACGCCACCGATCCTGCATGCGGGCCTGCTGCTGCGCCCGTTCGCCGACACCGATGCGGACGCCTTCGTCGCCGCGGCGCGCGAGTCGGCCGCGAGCGTCGGCCCATGGCTGCCGTGGTGCACCGACGACTACGCGCATCCGCAGGCGCTGGACTGGTTCGCCAGCTGCCGCGCGTCGCGCGAGGCCGGCAGCGCCTTCGAGTTCGGCATCTTCTGCCAGCACTCCGGCGTGCTGCTCGGCGGTGCCGGGCTGAACGACATCCGCCCGCAGCACCGGCTGTGCAACCTCGGCTACTGGGTGCGTCAATCCAGGCAGCGCCAGGGCATCGCCGGGCGCGTCGTGCAGGCCTTGGCCGCGCATGCGTTCGATCCGCTCGGCCTGCAGCGGGTCGAGATCGTCGTCGCCGTCGGCAACCAGCCGAGCGAAGCGGTGGCCGTGCGCGCCGGCGCGCAGCGCGAGGGCATCGCCCGCAACCGCCTGTTCCTGCACGGCCGCGTGTGGTCGGCGCACATGTTCTCGCTGGTGCCTGGCGACCTGGCGCAGCCATGA	MTPPILHAGLLLRPFADTDADAFVAAARESAASVGPWLPWCTDDYAHPQALDWFASCRASREAGSAFEFGIFCQHSGVLLGGAGLNDIRPQHRLCNLGYWVRQSRQRQGIAGRVVQALAAHAFDPLGLQRVEIVVAVGNQPSEAVAVRAGAQREGIARNRLFLHGRVWSAHMFSLVPGDLAQP				NA	NA	NA	NA	NA
BMS020_08704	1353	bauA	COG0161	Beta-alanine--pyruvate aminotransferase	ATGCACAGCGAGTTCCCCTCCGCCCCGCCCGAGGCGACGTCGATGCCGGCCTCGCTGGACGCGTTCTGGATGCCGTTCACCGCCAACGCGCAATACAAGGCGCATCCACGCCTGCTGGTCGCGGCCGAGGGCATGTACTACCGCAGCGTCGACGGCCGCCAGATCCTCGACGGCACCGCCGGACTGTGGTGCTGCAACGCCGGCCACGCGCGCCCACGCATCGTCGAGGCGGTCGCGCGCCAGGTGGCGACGCTGGATTTCGCCCCGACCTTCCAGATGGGCTCGCCGCTGCCGTTCGTGCTGGCCGAGCGGCTGAAGGCGATCGCCCCGCCCGGGCTGGAGCATGTGTTCTTCACCAACTCCGGTTCCGAATCGGTGGACACCGCGATGAAGATGGCGCTGGCCTACCACCGCCTGCGCGGCGAGGGCCAGCGCACCCGCTTCATCGGCCGCGAGAAGGGCTACCACGGGGTCGGTTTCGGCGGCATGTCGATCGGCGGGCTGCCCAACAACCGCAAGTGGTTCGGCCCGCTGCTGGCCGGCACCGACCACCTGCGCCACACCCTGGACATCGGCCGCAACGCGTTCTCGCGCGGGCTGCCGGCGCACGGGCTGGAGCTGGCCGAGGACCTGGAGCGGCTGATCGCGCTGCACGATGCCTCGACCATCGCCGCGGTGTTCGTCGAGCCGATCTCCGGCTCGGCCGGCGTGGTGCTGCCGCCGGCGGGCTATCTGCAACGCCTGCGCGAGATCTGCGACCGCCACGGCATCCTGCTGGTGTTCGACGAGGTCATCACCGGCTTCGGCCGGGTCGGCAAGGCTTTCGCCGCGCAGCGCTTCGGCGTCACCCCGGACCTGATGACCACCGCCAAGGGCCTGACCAACGGCACCGTGCCGATGGGCGCGGTGCTCGCCTCCGGCGCGGTCCACGAGGCCTTCACCCACGCCACCGAAGGCGCGATCGACTTCTTCCACGGCTACACCTATTCCGGCCATCCGCTGGCCTGCGCTGCCGCCCTGGCCACGCTGGACACCTATGCCGAGGAGGGCCTGTTCGAGCAGGCCATCGCGCTGGGCGGCCACTGGGAGCAGGCGCTCCACGGTCTGAAGGACGCGCCGCACGTGATCGACATCCGCAACTTCGGCCTGGTCGGCGCGATCGAGCTGGCCCCGCGCGACGGCGCGCCGGGCCGCCGCGGCTACGAGCTGTTCGAGCAGTGTTTCCACCAGCACGGGCTGCTGGTGCGCGTCACCGGCGACGTGATCGCGCTGTCGCCGCCGCTGATCGTGCAGCCCGAGCAGATCGACCAGATCGTCCAGATCCTGGCCACCGCACTGCAGCAGCTGCGATGA	MHSEFPSAPPEATSMPASLDAFWMPFTANAQYKAHPRLLVAAEGMYYRSVDGRQILDGTAGLWCCNAGHARPRIVEAVARQVATLDFAPTFQMGSPLPFVLAERLKAIAPPGLEHVFFTNSGSESVDTAMKMALAYHRLRGEGQRTRFIGREKGYHGVGFGGMSIGGLPNNRKWFGPLLAGTDHLRHTLDIGRNAFSRGLPAHGLELAEDLERLIALHDASTIAAVFVEPISGSAGVVLPPAGYLQRLREICDRHGILLVFDEVITGFGRVGKAFAAQRFGVTPDLMTTAKGLTNGTVPMGAVLASGAVHEAFTHATEGAIDFFHGYTYSGHPLACAAALATLDTYAEEGLFEQAIALGGHWEQALHGLKDAPHVIDIRNFGLVGAIELAPRDGAPGRRGYELFEQCFHQHGLLVRVTGDVIALSPPLIVQPEQIDQIVQILATALQQLR	PGPT0007865_822	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007865-spuC-K12256	NA	NA
BMS020_08705	549	puuR_2		HTH-type transcriptional regulator PuuR	ATGGACATCGGCGCACGCCTGCAACTGGTGCGTAAGGCCCATGGCCTGAGCCAGCGCGAGCTGGCCAAGCGGGTCGGGGTCACCAACAGCACCATCTCGCTGATCGAGCAGAACAAGGTCAGCCCCTCGGTCAGCTCGCTGAAGAAGGTGCTGGACGGCATCCCGATCTCGCTGGCGGACTTCTTCACCCACGAGCTCGACCTGGGTCTGCCGGATGCGCCGTTCTACAGCGCCGCGGAGCTGCCCGACGTCGGCAGCGACGGCATCCACTATTTCCTGGTCGGCAAGCGCCGCCCGCAGCGGCAGATGTGCATCCTGCGCGAGGTGATGCCGCCGGGCAGCGACACCGGCGAGGCGATGCTGCGCCACGACGGCGAGGAGGGCGGCGTGGTGGTGCAGGGCGAGGTCGAGCTGACCGTCGGTGGCCAGATGCGGGTGCTGCGCGCCGGCGAGGGCTACTACTTCGAGAGCCGGGTGCCGCACCGTTTCCGCAACGTCGGCCAGGGCGAGGTGGTGATCGTCAGCGCCAATACCCCGGCCACCTTCTGA	MDIGARLQLVRKAHGLSQRELAKRVGVTNSTISLIEQNKVSPSVSSLKKVLDGIPISLADFFTHELDLGLPDAPFYSAAELPDVGSDGIHYFLVGKRRPQRQMCILREVMPPGSDTGEAMLRHDGEEGGVVVQGEVELTVGGQMRVLRAGEGYYFESRVPHRFRNVGQGEVVIVSANTPATF	PGPT0019781_117	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0019781-puuR-K14056	NA	NA
BMS020_08706	243			hypothetical protein	GTGGTGCGTGGCGGCTGGTGGTCGCGCTGGTGGCGCTTCGCCGAACTCGGCAAGGTGCAGGCGCTGCAGCTGCAGCGCGGCCCGCTCGACCATCTGTGCGGCACCGCCGCGCTGCGCCTGGACACCGCCGGCGCCGGCGCGGGTTCGCCGCCCCTGCGCCTGCGCTTCATCCCGCAGGCGCAGGCGCAGGCGCTGTACCGCCAGCTCGCCGCCAACCTGGCGCGGCGGCGGCTGGAGTGGTGA	MVRGGWWSRWWRFAELGKVQALQLQRGPLDHLCGTAALRLDTAGAGAGSPPLRLRFIPQAQAQALYRQLAANLARRRLEW				NA	NA	NA	NA	NA
BMS020_08707	1032			hypothetical protein	ATGGCCAAGCACTACCTTCTGTACGGATCCGAGCGCTACGCGCTGGCGATCCTGCGTCCCATCCAGGCGGCGATCCGCGCGCGCGGCGACGAGGCGGCGTGGTTCTTCGATGGTCCCGGTGCCGAGGACCTGGCCGGGGACGAAACGCTGCTGACGGTGGAGCAGGTGCGGGCGTGGAAGCCGTACGCGGTGATCACCTCGTCCAACGCGGTGCCGCACTTCTTCCCGGGCGTGAAGGTCGAGACCTTCCACGGCTTCGATGCCGGCAAGCCGCGGCACATCTACATCCGCGGCTTCTTCGACCTGTACTGCACCACCGGGCCGCGCGACACCGCCGCGTTCGGTGCGTTGTCGCAGCAGCTCGGGCACTTCGCGGTTACCGAGACCGGCTTCCCGAAGATCGACCCGTTCATGGCCGGGCTCGGCGACGCACCCGAGCCGGTGCGGCAGCCGCCGGTGATCCTGTACCACTCGACCTTCTCGCCATCGTGGAGCGCCGCGCCGGTGCTGTACGACGAGATCGCGCGGCTGTCGCGCAGCGGCGAATGGCGCTGGATCGTCACCTTCCATCCGAAGATGGATCCGGAGATGGTGGCCAAGTACAAGGCGCTGCAGAGCGAGTACCTGACCTTCGCCGAGAACGACAACATCCTCGAGTTGTTCCCGCAGGTCGACATGATGTGCTCGGACACCTCCTCTGCGCTCAACGAGTTCCTGCTGACCTACAAGCCGGTGGTGACGTTCAAGAACCGCCGCCCGGGGCCGCAGCTGATCGACATCGACGATCCGGCGCAGTTCGAGCCGGCGATCCGCCGCGCGTTGTCGCGCCCGCCGGAACTGATGGCGGCGATCCGCGAGTTCGCCGACACGCTGCATCCCTATCGCGACGGTCAATCGAGCGAGCGCGTGCTGCAGGCGATCGACCAGTTCGTCGCTGGAGGCGGGCGCAACCGCAGGTCCAAGCCGCTGAACCTGTGGCGCAAGCTGAAGATCCGCCGGCGGATCGGTTACTGGGGCCCGGCCGGCTGGTAA	MAKHYLLYGSERYALAILRPIQAAIRARGDEAAWFFDGPGAEDLAGDETLLTVEQVRAWKPYAVITSSNAVPHFFPGVKVETFHGFDAGKPRHIYIRGFFDLYCTTGPRDTAAFGALSQQLGHFAVTETGFPKIDPFMAGLGDAPEPVRQPPVILYHSTFSPSWSAAPVLYDEIARLSRSGEWRWIVTFHPKMDPEMVAKYKALQSEYLTFAENDNILELFPQVDMMCSDTSSALNEFLLTYKPVVTFKNRRPGPQLIDIDDPAQFEPAIRRALSRPPELMAAIREFADTLHPYRDGQSSERVLQAIDQFVAGGGRNRRSKPLNLWRKLKIRRRIGYWGPAGW				NA	NA	NA	NA	NA
BMS020_08708	855			hypothetical protein	ATGCAGCAGGGCAGTGCCCCGGACGACGGGCGGGCCGGCAACGTGACGTTGCCGATCAGCCTGGTCGTGATGACCTACAACGAGGCGGCCAACATCGCGCGCTGCCTGGACAGCGTGCCGTTCGCGGCCGAGAAGCTGGTGATCGATTGCGGCAGCAGCGACGAAACCGCGGCGATCGCCCGCGCCCACGGCGCGCGCGTGGTCGAGCAGGCCTGGCTCGGATTCGGCCCGCAGCGCAACTTTGGCTCGGCGCAGGCCAGCCACGACTGGGTCCTGGTGCTGGACGCCGACGAATTCCTGTCCGAGGCCGGCATCGCCGAATGCCGGCAGCGGCTGCCGGCGCTGATCGCCGGCGATGCGGCGGCGGCGTGGATGCGCCGCAGCACCTGGTACATGGGCGCGCCGATGCGCTGGTACCGGCCGATGGTCGGCGAGCGCCTGGCGCGGCTCTACCACTGCGGCCGCGCGCGCTGGAGCGAGGCGCGGGTGCACGAATCGCTGGTGATCGACGGCCGCAGCGAGGAACTGCGCGTGCCGTTCAACCACCTGCACAACCCGACCCTCGTCCACAAGGACCTGAAGGTGCTGCGCTACGCCGAGCTGAAGGCGCTGGACTGGCGCGACAAGCGCAAGCCGGCGCGGATGTGGCAATGCCCGTTCGTGTTCGCCGCGGCGTTCTTCAAGGATTACGTGCTGCGCCTGGGCATGTTCGACGGTTGGCGCGGCTACGTGGTGGCGCAGACCGCCGCCAGCTATGCGGTCTACAAGCGCATGCGCTATTACGAAATGTGCGTCCATCCCGAATCGGTCGGGTTGGCCGCGGCGCAGCTGCGCAAACACGATCTGGAGCGTTGA	MQQGSAPDDGRAGNVTLPISLVVMTYNEAANIARCLDSVPFAAEKLVIDCGSSDETAAIARAHGARVVEQAWLGFGPQRNFGSAQASHDWVLVLDADEFLSEAGIAECRQRLPALIAGDAAAAWMRRSTWYMGAPMRWYRPMVGERLARLYHCGRARWSEARVHESLVIDGRSEELRVPFNHLHNPTLVHKDLKVLRYAELKALDWRDKRKPARMWQCPFVFAAAFFKDYVLRLGMFDGWRGYVVAQTAASYAVYKRMRYYEMCVHPESVGLAAAQLRKHDLER				NA	NA	NA	NA	NA
BMS020_08709	1287			hypothetical protein	ATGACGCTGCTCCAGCCGCCCCGCACCGAGATCGCCGATCTGGCACAGCCGGCCTCGCGCGCCGCCGTGCTGCTCGCCGAGGCCGGGCTGTTCGCGCTGGCCGCCTGCGTGCTGGCGATGCCGGCCGGGCTGCTGCCGTTCGGGCTGTGCCTGTTCCTGTCCTCGTTGCTGGCGCTGCGGCGGCTGCGGCTGCAGGCGCGGGTGATGGGCTGGCCGCTGCGTCCGTTGCTGTGGCTGATGCTGGCCGTGCTGGCGTTGTCGCTGTGCTCGGTGCTGCTGTTCGAACACGGCTTCCGCGATGTCGACAACCGGTCGCGCTTCGTGGTGCTGCCGTGGGTGGCGCTGTGGGCCTTCAGCCTGCGTCCGCGCCTGGCACTGCTGTGGTGGGGCGCGCTGCTCGGGATCGTCGCCGCGCTGGTGCTGGCGGTGGTGCAGGTCGCCGGCGGCGCACCGCGCGCCGATGGCTGGACCAACGCGATCGTGTTCGCCGACATCGTGCTGGTGCTGATGGTGCTGCTGGTGTTCTGCCGCCCGCCGGGGCGCTGGCCGTGGCTGGTCGCCGGGCTCGCCGCCGGCTGCGGGGCGATCGTGCTCAGCGGCAGCCGCGGCGTGTGGCCGGCGCTGCTGCTGTTGCTGGCGATCGTGGCCTGGGGCGCGCGCTGGCGCGATGCCCGCACCCGCCTGTTGATCCTCAGCGGAGCCGCGGCGATCGCCGCGACGCTGGTGCTGACCGTTCCCGGGCTCGGCCAGCAGATGCGCATCGTCGAACTGCAGACCGACATGGAGAAGCTCGAGGTCGGTGATGTCGATACCTCGGCCGGTGCGCGCGTGGAACGGCTCAAGGTCGCCTACGAGACCTTCCTGGCGCATCCATTGACCGGTGTCGGCGTCGGTCATTTCGATGATGCGATGGTGCTGGTGCCGGCCTGCCGCGCCACGCCTGAGATCAAGCGCTGCCACCTCGGCCACGCCCACAACGATGTCGCCGAATGGGGCGCCACCCAGGGCGTGCCCGGCGTGCTGTTGCTGCTGGCGGTGTATGGCTTTCCGCTGTGGATGTTCGTGCGCCTGTACCGCAGCCGCCCGCGCCAGCGTTTCCGCGGCCCGGCCGCGGCCGGGATCATGCTGGTGGCCGGCTACGTGCTGTGCGGCATGACCCAGTCGATGTTCGCCCACCAGGTCACCGCCAGCTTCTACGTGGTGATGGTCGGCGTGCTGGCCGGACTGGCGCGCGCCGAGGTCACGACCCTGCCGGCGGCGGCAGCGCGGCCCGCCGCGCACCTATAA	MTLLQPPRTEIADLAQPASRAAVLLAEAGLFALAACVLAMPAGLLPFGLCLFLSSLLALRRLRLQARVMGWPLRPLLWLMLAVLALSLCSVLLFEHGFRDVDNRSRFVVLPWVALWAFSLRPRLALLWWGALLGIVAALVLAVVQVAGGAPRADGWTNAIVFADIVLVLMVLLVFCRPPGRWPWLVAGLAAGCGAIVLSGSRGVWPALLLLLAIVAWGARWRDARTRLLILSGAAAIAATLVLTVPGLGQQMRIVELQTDMEKLEVGDVDTSAGARVERLKVAYETFLAHPLTGVGVGHFDDAMVLVPACRATPEIKRCHLGHAHNDVAEWGATQGVPGVLLLLAVYGFPLWMFVRLYRSRPRQRFRGPAAAGIMLVAGYVLCGMTQSMFAHQVTASFYVVMVGVLAGLARAEVTTLPAAAARPAAHL	PGPT0023135_574	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023135-waaL|rfaL-K02847	NA	NA
BMS020_08710	1722	arnT_3		Undecaprenyl phosphate-alpha-4-amino-4-deoxy-L-arabinose arabinosyl transferase	ATGTTGAAGACACGTGCCTCCCGTGAGTTCTGGCTGCTCGCGATCACCGCGCTGCTGGTGATCGGTGCCGGCCTCGGGTTGCGCGACCCGTGGCCGTCGGACGAGCCGCGTTTCGCCCTGGTCGCCAAGCACATGGTGGAGAGCGGCAACTGGCTGTTCCCGCATCGCGGCCACGAGTTGTACTCGGACAAGCCGCCGATGCTGATGTGGCTGGAGGCGCTGTTCTTCACCGTGCTGCGCGACTGGCGGGTGGCGTTCCTGCTGCCGTCGCTGCTGGCGGCGCTGGGCAGCATGGCCTGCGTGTACGACCTCGGTCGCCGGCTGTGGACGCGCCGGGTCGGCCTGTACGCGGCCTGGGCGCTGCTGTTCACCCTGCACTTCACCTTCCAGGCCAAGAAGGCGCAGATCGACCCGCTGGTGGTGTTCTTCATCACCCTGGCCAACTACGGCCTGCTGCGCCACCTGCTGCTGGGGCCGGCGTGGCGCTGGTGGACGCTGGGTTGGTGCGCGGCCGGGCTGGGGGTGATCACCAAGGGCGTGGGCGTGTTGGCGCTGCTGATGCTGGTGCCGGCGGCGATCGCCTCGCTGCGCGGCTGGCCGCGGGTCAAGGTGCATCTGCGCAACCAGCGCTTCTGGCTGGGGCCGCTGGCGTTCGTGCTGGCGATCCTGGCCTGGCTGGTGCCGGTGATGGTCACTGCGCTGGCCAGCGGCGAGCCGGAATACCGGTTGTACCTCAACGACATCCTGTTCCGGCAGACCGCCAAGCGCTACGCCAGTTCCTGGGACCACGCGCAGCCGTGGTGGTACCACTTCGGCACGATGGCGACGATGTGGATGCCGACCATCCTGATGCTGCCGTGGGCGCTGCCGGCATGGCGCCGGCGCCTGGCGCGGCGCGATGCGCGCTACCTGCTGCCGCTGCTGTGGTGGGCGATGGTGGTGCTGTTCTTCTCCTTCCCCAGCGGCAAGCGCGACGTCTACATCCTGCCGGCGCTGCCGATGGTCTGCCTGGCGCTGGCGCCGTTGTTGCCGGGGCTGCTGCGGCGCCGCGGCGTGCAGTGGCTGCTGTTCGGGTTCACCGCGCTGCTGACCGTTGGCCTGCTGGCCGGCGGGCTGACCATGCTGCTGGGGCATCCGGGCTTCGAGCAGAAGCTGATGGACAGCCGCGGCGTGGACGACAGCGTGACCCACCTGCTGGCCTGGATCACCTTGGCGATCGGCGCTTGGGGCATCGGCAGCCTGCTGCTGTGGCGGGTGCGTGGCAGCGCGCTGGCCACCGCGTCGTTGCTGGCGGCGTTCTGGGTGGCCTACGGGCTGGGGGTGTACCCGGTGCTCAACGATTCCAGCTCGGCGCGCGGGGTGATGCGCGATGCGGCGGCACAGGTGCCCGCCGGCAGCGAGCTCGGCCTGGTCGCCTGGAAGGAACAGAACCTGCTGATGGCACCGCTGCCGGTGGAGACCTTCGGCTTCAAGGTGCCGTGGGAGGAGCAGCTGCGCCGCGGCGTGGCCTGGCAGGCGCAGAAGCCGCAGCAGCGGCTGCTGATGGTGCAGGAGGCGGCCTTGCTGCACTGCATCGATCGCGGCCGGGCATGGCAGGTCGGGGTCGCGAACCGCCGCGGCTGGTGGCTGGTGCCGGCGGCGGCGGTGCACGGCGACTGCGTGGCCGACACCCAGGAGAAGGCGCGCGAGCGCCGCGAGCAGGGGAAGATCGATTACGACTGA	MLKTRASREFWLLAITALLVIGAGLGLRDPWPSDEPRFALVAKHMVESGNWLFPHRGHELYSDKPPMLMWLEALFFTVLRDWRVAFLLPSLLAALGSMACVYDLGRRLWTRRVGLYAAWALLFTLHFTFQAKKAQIDPLVVFFITLANYGLLRHLLLGPAWRWWTLGWCAAGLGVITKGVGVLALLMLVPAAIASLRGWPRVKVHLRNQRFWLGPLAFVLAILAWLVPVMVTALASGEPEYRLYLNDILFRQTAKRYASSWDHAQPWWYHFGTMATMWMPTILMLPWALPAWRRRLARRDARYLLPLLWWAMVVLFFSFPSGKRDVYILPALPMVCLALAPLLPGLLRRRGVQWLLFGFTALLTVGLLAGGLTMLLGHPGFEQKLMDSRGVDDSVTHLLAWITLAIGAWGIGSLLLWRVRGSALATASLLAAFWVAYGLGVYPVLNDSSSARGVMRDAAAQVPAGSELGLVAWKEQNLLMAPLPVETFGFKVPWEEQLRRGVAWQAQKPQQRLLMVQEAALLHCIDRGRAWQVGVANRRGWWLVPAAAVHGDCVADTQEKARERREQGKIDYD				NA	NA	NA	NA	NA
BMS020_08711	1314	rsmB_2	COG0144	Ribosomal RNA small subunit methyltransferase B	ATGCCGGCGCACCCGCCACTGGCGCCGGGCGTGGCCGTGCGCATGACCGCCGCGCGCGTGTTGGCCGCGGTGGCCGCGCAGGGGCGCTCATTGAAGGCCGAGCTGGCCGTGGCGTTGCCGACGCTGGCCGATGGCCGCGACCGCGCCCTGGTCGAGGCGATGTGCTTCGCCGCACTGCGGCGCTGGCCGGCCTACGACGCGGTGCTGGGACAATGGATGGAGCGCCCGCTGGGTCGCCGCGACGCCGACCTGAAGGCGCTGCTGGTGGCCGGGCTGGCACAGCTGGACGCGCTCGGCATGCCGGCGCACGCCAGCGTGTCGGCCACGGTCGAGGCCTGCCGCGCGTTGGGGCGGCCTCGCCAGGCCGGCATGGTCAATGCGCTGCTGCGGCGCGCCCTGCGCGACGGAGTTCCGGCGCTGCCGGCCGACGCTGGCTGGCCGGCGTGGCTGCGCACGCAGCTGCTGGCGGATTGGGGCGCGGACGCCGCCGCCGTGTTCGAGGCCAGCCTGCAGCCGGCGCCGTTGTGGCTGCGGGTCAACCGCCGTCGCGAAACCCCCGCGGCCTACCTCGAACGGCTCGCCGCCGCCGGCCTGGCCGGCGAGCTGGTGCCCGGGTTCGCCGATGCGGTGCGGCTGCAGGGCAGTGCCGCGGTGACGCAGCTACCGGGCTTCGCCGACGGCGACGTGTCGGTGCAGGACGGCTCGGCGCAGCAGGTTGCCGATGCACTGGCCCCGGCGGCCGGCGCGCGCGTGCTGGACGCCTGCGCAGCGCCGGGCGGCAAGACCGCGCACCTGCTCGAACGCGATGCCTCGCTGCGGGTGACCGCGCTGGACATCGATGCGCGGCGGGTCAAACGCCTGCGCGAGACGCTGGCGCGCACCGTGCCGGACGCGGCGGTGACCCTGCTCGGGGCCGATGCGGCCGAACCGGCGGGTTGGTGGGACGGGCAGCCGTTCGACGCGGTGGTGCTGGATGCGCCGTGTTCGGCCACCGGCATCGTGCGCCGCCAGCCCGACGTGCTGCTGCACCGGCGCGCGACCGACATCGATGCGCTGGTGGCGTTGCAGGCACGCCTGCTCGATGCCTGCTGGCGGACGCTGCGGCCGGGCGGCACGCTGCTCTACACCACCTGCTCGATCCTGCAGCGGGAGAACCGCGGCCAGGTCGAGGCCTTCCTGGCCCGCACCGCCGACGCCAGTGCGCTGGCGCTGCCTGAGGCATTCGGTCGCAGCAGCGGTCCGGGGCGGCAGCGGCTGCCTGGCGAAGATGGCTGCGACGGTTTCTTTTATGCCCGGCTCGTCAAGGCCGGCTGA	MPAHPPLAPGVAVRMTAARVLAAVAAQGRSLKAELAVALPTLADGRDRALVEAMCFAALRRWPAYDAVLGQWMERPLGRRDADLKALLVAGLAQLDALGMPAHASVSATVEACRALGRPRQAGMVNALLRRALRDGVPALPADAGWPAWLRTQLLADWGADAAAVFEASLQPAPLWLRVNRRRETPAAYLERLAAAGLAGELVPGFADAVRLQGSAAVTQLPGFADGDVSVQDGSAQQVADALAPAAGARVLDACAAPGGKTAHLLERDASLRVTALDIDARRVKRLRETLARTVPDAAVTLLGADAAEPAGWWDGQPFDAVVLDAPCSATGIVRRQPDVLLHRRATDIDALVALQARLLDACWRTLRPGGTLLYTTCSILQRENRGQVEAFLARTADASALALPEAFGRSSGPGRQRLPGEDGCDGFFYARLVKAG				NA	NA	NA	NA	NA
BMS020_08712	921	fmt_2	COG0223	Methionyl-tRNA formyltransferase	ATGAGAATCGTCTTCGCCGGTACGCCGGAGTTCGCCGTGCCGTCGCTGCGTGCGGCCGCGCAGCGCCATGAAGTTGTCGCCGTCTACACCCAGCCCGATCGCCCGGCCGGGCGCGGCCGCGGGTTGACCCCGTCGCCGGTCAAGCTGGAGGCGATCGCGCGCGGCATCCCGGTGCTGCAGCCGGAAACGCTGAGGTCGCCAGAATCGCAGGACGCACTGCGGCGGATCGCCCCGGACCTGATGATCGTGGTCGCCTACGGGCTGATCCTGCCGAAGAAGGTGCTGGCGATCCCGACCCACGGCTGCTGGAACGTGCATGCCTCGCTGCTGCCGCGCTGGCGTGGCGCCGCGCCGATCCAGCGCGCGATCGAGGCCGGCGATGCCGAGACCGGCGTGTGCCTGATGCAGATGGAAGCGGGCCTGGATACCGGCCCGGTGCTGCTGGAGCAGCGCCTGCCGATCGGCGCCAGCGACACCGGTGGCCAGCTGCATGACCGCCTGGCCGAGCTGGGCGCGCAGGTGCTGTCCGATGGGCTGGGCCTGCTGCGTGCGGGCATCAAGCCGGTGCCGCAACCGCAGCCGGACGAGGGCGTCACCTACGCGCACAAGCTCGACAAGGCCGAGGCCCGGCTGGACTGGCAGCAACCGGCCGCCGTGTTGGCGCGTCGGGTGCGGGCATTCAATCCATGGCCGGTGGCCGAGGCCCAGCTGGCCGGCGAACGCCTGCGCATCCATGGCGCGATCGCGCTCGAACAGCGTGCGTCGGCGGCTCCGGGCACGGTGCTGGCCGCGTCCAGGGACGGTATCGACGTGGCCTGCGGCGATGGCGTGCTGCGCCTGCGCGTGGTGCAGCGCGAGGGCGGCAAGGCGATCACCGCTGCCGACTACCTCAACGCCCGCCGCGACCTCGTGGGGGCCTGA	MRIVFAGTPEFAVPSLRAAAQRHEVVAVYTQPDRPAGRGRGLTPSPVKLEAIARGIPVLQPETLRSPESQDALRRIAPDLMIVVAYGLILPKKVLAIPTHGCWNVHASLLPRWRGAAPIQRAIEAGDAETGVCLMQMEAGLDTGPVLLEQRLPIGASDTGGQLHDRLAELGAQVLSDGLGLLRAGIKPVPQPQPDEGVTYAHKLDKAEARLDWQQPAAVLARRVRAFNPWPVAEAQLAGERLRIHGAIALEQRASAAPGTVLAASRDGIDVACGDGVLRLRVVQREGGKAITAADYLNARRDLVGA	PGPT0008125_5021	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
BMS020_08713	513	def_3	COG0242	Peptide deformylase	ATGGCACTGCTCCCCATTCTCGAATTCCCCGACCCCCGCCTGCGCACCAAGGGCGCGCTGGTGGATGCCGCCGAAGTGGCCACGCCGGCGTTCCAGACCCTGCTCGACGACATGTTCGAGACCATGTACGACGCCCCGGGTATCGGCCTGGCGGCGGCCCAGGTCGACGTGCACAAGCGCTTCATGGTGATCGACGTCAGCGAGGAGAAGGACGCCCCGATGGTGTTCATCAACCCGGAGATCGTCGGCCAGGAAGGCGGCAAGGTCTACCAGGAGGGCTGCCTGTCGGTGCCCGGCATCTTCGCCGACGTGACCCGCGCCGACGTGATCACCGTGCGCTTCCTCGATCGCCAGGGCCGGCCGCAGGAGCTGACCACCGACGGCCTGCTGGCGGTGTGCGTGCAGCACGAGATGGACCACCTGGACGGCAAGCTGTTCATCGACTACCTCTCGCCGCTCAAGCGCGAGATGGTGCGCAAGAAGCTGGCCAAGGCCCGCAAGCACGTGGCCTGA	MALLPILEFPDPRLRTKGALVDAAEVATPAFQTLLDDMFETMYDAPGIGLAAAQVDVHKRFMVIDVSEEKDAPMVFINPEIVGQEGGKVYQEGCLSVPGIFADVTRADVITVRFLDRQGRPQELTTDGLLAVCVQHEMDHLDGKLFIDYLSPLKREMVRKKLAKARKHVA	PGPT0008125_25	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
BMS020_08714	1125			hypothetical protein	ATGCTCATCCGTCTTCGTACGGTCGTCGCTGCGGCGATGTTGACCGTCGCGACCTACGCCGCTGCCGTGGAAATGGCCGGCGACCACCCGGACACCTATGTCGTCAAGAAGGGCGACACGCTGTGGGACATCGCCGGGAAGTTTCTGAAAAAACCGTGGCTGTGGCCGGAAATCTGGCAGGCCAATCCGCAGGTCAAGAACCCGCACCTGATCTACCCGGGTGACGTGCTGAGCCTGGCCTACCTGGATCGCGTCGGCGTGCAGCCGGGCCCGCGCCAGGAAGCGCCGATCAACGCGATCCCGCTGGCGGACGTGGAGCCGTTCCTGAAGAACCTGCGCGTGGTCGACAGCTTCGAGGAGCTGCCGTACGTGGTCGCCTTCGAGGACAACCGTCTGCGCGGTTCGGCCGGCCAGGTCGCCTACATCAACGGCCTGCCCGACGCCCAGCCGGGCCAGCGCTATGCCGTGGTGCGCCCGACCGTGCGCTTCAGCCTGCCGAAGTTGAACGAGGACCTGGACGCCCGTGGCGACACCATCCCCGGCGCCGGCAACCTGTGGAAGACCTACATGGCGCCGGAAAAGCGCCGTGAGCTGCTTGGCTACGAGCTGGCCCAGGTCAACGTCGGCACCATCACCCGCGGCGTCGGCGACAAGGTCGAAGCGGCCACGCTGCTGCTGCAGGACAGCGGCCGCGAAGTCCGCGCCGGCGACCGCCTGATCGCGATCGAAGCCCAGCCCTACGACCTGCAGTTCATCCCGCACCCGCCGGCCCAGCAGGCGCTGGATGCCAGCGTGCGCGTGCTTGCGGTGGCCGACATGTTCACCTCGGGCGGCCCGCGCGACGTGATCGCGCTGTCCGGCGGCGCCCGCGAGGGCATCGACAACGGTACCGTGTTCTCGATCTGGCGCCAGGGCACCCGCGCCACCGACAACGTCAAGGTCAAGCGCACCTCGCGCGCCGACGACGGCTACACCGGCGGCAGCTCGACCGTCGGCCTGCCGGACGAATACGCCGCCCACGCGATGGTGTTCCGCACCTTCGACAAGGTCAGCTACGCCCTGGTGATGGAAGGCGTGAAGCCGGCCCGCGTCGGCTACGCGGCCAAGCATCCCGACGCGCAGTAA	MLIRLRTVVAAAMLTVATYAAAVEMAGDHPDTYVVKKGDTLWDIAGKFLKKPWLWPEIWQANPQVKNPHLIYPGDVLSLAYLDRVGVQPGPRQEAPINAIPLADVEPFLKNLRVVDSFEELPYVVAFEDNRLRGSAGQVAYINGLPDAQPGQRYAVVRPTVRFSLPKLNEDLDARGDTIPGAGNLWKTYMAPEKRRELLGYELAQVNVGTITRGVGDKVEAATLLLQDSGREVRAGDRLIAIEAQPYDLQFIPHPPAQQALDASVRVLAVADMFTSGGPRDVIALSGGAREGIDNGTVFSIWRQGTRATDNVKVKRTSRADDGYTGGSSTVGLPDEYAAHAMVFRTFDKVSYALVMEGVKPARVGYAAKHPDAQ				NA	NA	NA	NA	NA
BMS020_08715	1140			hypothetical protein	ATGGACACCCCCGCCATCGACACCCCGCAGACCGCGCTGCTCGCCCTGGTTCTCGCCGGCGGCCCGGCGCGACCGCGCCAGCGCCTGCTGCTGCAGGCCGGCGACCCGCTGGCCGCGCATGCCGGCGGCACCGCCGACTGGCAGCGCGCCGGCCTCGCCCCGGAGCAGATCCGGGCGTTGCGCCACCCCGATCCGGCCGCCCTCGCCGCGGCGCTGGCCTGGCTGGCCCAGCCTGGCCACCACCTGCTGGGCCTGCAGTCCGAGGACTACCCCAGCCTGCTGCGGCGCGCACCGAATCCCCCGCTGGCGCTGTTCGTCGACGGCGACCCCACCCTGCTCTGGCACCCGGCGATCGCGGTGGTCGGCAGCCGTTCGGCCAGCGCCGGCGGCAGCGGCCACGCGCGCGAATTCAGCCGTGCCCTGGCCCGCGCCGGTTTCGCGATCACCAGCGGCCTGGCCGCCGGCATCGACGCGGTCGCCCACGCCGCCGCGCTCGACGCCAACGCCACCACCATCGCCGTGGTCGGCACCGGCCCGGACCTGGCTTACCCGGCCCAGCACGCCGCCCTGCGCGACCGCATCGCCGCCTGCGGCGCGGTGGTCAGCGAGCACCCGCCCGGCACCGCCGCGCGCGCCGCGCACTTCCCGGCCCGCAACCGCATCATCGCCGGCCTCAGCCTGGGCACCCTGGTGGTCGAAGCCGCGCAGCGCTCCGGAGCACTGATCACCGCCCGGCTGGCCGCCGAGGCCGGCCGCGAGGTGTTCGCGATCCCCGGCTCGATCCACAACCCGATGGCCCGCGGTTGCCATCGCCTGATCCGCGACGGCGCCAGCCTGGCGCAGGAACCGGACGACGTGATCCGCGGCGTCGCCCAGCTGGCCGGACAGCTGGCATCGGACTTGCACCGACGCCTGGCAGCCCCCATTGAGGTAGCCGTCGATGCGTCCCCGCCGCCGTCTCCGCCTCCCGACCCCGACTACCAGAAGTTGTGGGAGGCGCTCGGCCACGACCCCACCCCTATGGATTCATTGATCCAGCGCACCGGATTGACGGCCGCCGAGCTGTCCTCCATGCTGCTGGTCATGGAACTGGAAGGGAGGGTAGTGGTCGAGCACGGCCGTTACACGCGTCATTCCTAG	MDTPAIDTPQTALLALVLAGGPARPRQRLLLQAGDPLAAHAGGTADWQRAGLAPEQIRALRHPDPAALAAALAWLAQPGHHLLGLQSEDYPSLLRRAPNPPLALFVDGDPTLLWHPAIAVVGSRSASAGGSGHAREFSRALARAGFAITSGLAAGIDAVAHAAALDANATTIAVVGTGPDLAYPAQHAALRDRIAACGAVVSEHPPGTAARAAHFPARNRIIAGLSLGTLVVEAAQRSGALITARLAAEAGREVFAIPGSIHNPMARGCHRLIRDGASLAQEPDDVIRGVAQLAGQLASDLHRRLAAPIEVAVDASPPPSPPPDPDYQKLWEALGHDPTPMDSLIQRTGLTAAELSSMLLVMELEGRVVVEHGRYTRHS				NA	NA	NA	NA	NA
BMS020_08716	474	smg_2		Protein Smg	ATGAAAGAGAGCATCCTGGATGTACTGCTGTACCTGTTCGAACACTATTTCAGCGAGGACGCGGACCTCGTCCGTGACCGGGACTCGCTCCAAAATGGCCTGATCCAGGCCGGCTTCAGCCCCGCAGAGACAAGCAAGGCCTTCGACTGGCTCGACGCGCTGGCCGAACAGCGGCCGAGCCTGGCACGCCCGTGCGTGAACGGCCCCGTGCGCGTCTACCACGGCCCGGAACTGGACAAGCTTGATGTCGAAGGCCGCGGCTTCCTGTTGTTCCTCGAGCAGCAGGGCGTGCTCGATGCCGACCAGCGCGAGCTGGTGCTGGACCGCGCGATGGCGCTGGACCAGGACGAGCTGGACCTGGACGACCTCAAGTGGGTCGTGCTGATGGTGCTGTTCAACCAGCCAGGCGCCGAAGCGGCCTACGCCTGGATGGAAACCCAGATGTTCGTCGACGAACCCGAGCCCGTACACTGA	MKESILDVLLYLFEHYFSEDADLVRDRDSLQNGLIQAGFSPAETSKAFDWLDALAEQRPSLARPCVNGPVRVYHGPELDKLDVEGRGFLLFLEQQGVLDADQRELVLDRAMALDQDELDLDDLKWVVLMVLFNQPGAEAAYAWMETQMFVDEPEPVH				NA	NA	NA	NA	NA
BMS020_08717	726			hypothetical protein	ATGACTGAGTGGTATTACGCCGAGGGCAATCGCCATCGGCAGGGGCCGTTGCCGGCCGAAAACCTGCGTGAACTGCTGCGCTCGGGCCGGATCGGCCTGGACACGCTGGTCTGGCGCGACGGTCTGGCGCAGTGGCAGCCGCTGGGCGATTTCACCGCGGAGCTCGGCCTGTCCGACGCCGCGCCGGCCATCACCGACGCGGATCCCGATGTCCCGCCTCCGCTCCCGCCGATCCCCCCCGCCACCGCCACCATGGCCGCGGCGCCCGCCGCCGCGCCGCGCACCGGCCTGTCCGGCTGCGCGATCGCGGCGATCGCAGCCAGCGTGGCCGGCGTGCTCGGCCTGGCGGTGGTCGGCATCCTTGCCGCGATCGCGGTGCCGGCCTACCAGGACTACGTGGCGCGCAGCAAGGTCACCGAGGTGCTGGCCACGGCCGCACCGGTGAAAGGCCTGATCATCGAATTCCACACCAGCGAGGGCCGCTGCCCGGTCAATGACGACCCTGGCTTCGGCACGCCCGAGAGCTATGCCGACGGTGCGGTCGGCAGCCTGCGGATCGGCCGCTTCGACAACGGTCATTGCGGCATGGAAGCGATCCTGGCCACGCCGGGGCAGTCCAAGCTGGATGGCAAGGCGCTGTGGCTGGACCTGGATGCGGACGACGAGTCCTGGGAGTGCAGCTCCGAGATCGACGACCGCCTGCTGCCGCTGGAGTGCCGCGGATGA	MTEWYYAEGNRHRQGPLPAENLRELLRSGRIGLDTLVWRDGLAQWQPLGDFTAELGLSDAAPAITDADPDVPPPLPPIPPATATMAAAPAAAPRTGLSGCAIAAIAASVAGVLGLAVVGILAAIAVPAYQDYVARSKVTEVLATAAPVKGLIIEFHTSEGRCPVNDDPGFGTPESYADGAVGSLRIGRFDNGHCGMEAILATPGQSKLDGKALWLDLDADDESWECSSEIDDRLLPLECRG	PGPT0015905_30	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015905-pilA-K02650	NA	NA
BMS020_08718	903			hypothetical protein	ATGAGCGAGGACACCACGATCGACGACGGCACGCAGGCCACCACCGACGCGCCACGCTGGCATTACGCCGGCGCCGACCGCCAGCAGCACGGCCCGGTCACGGCGCAGGCGCTGCGCGAGGCGCATGCGGCCGGCCTGCTCGACCGCCACGGCCTGGTCTGGCGGCGCGGCCTGCCGGGCTGGGAGCCGCTGGAACTGCATGCGGCGGAACTGGGCATCGACCTGCCGGCACTGGCCAGCGTGCCGCCCCAGGTGCCGTCCGCCGCCCTCATCGACAGCACCGACGTGGTCTACGCCGGCCTGTGGCGCCGCGTCGCCGCCAGCGTGATCGACAGCTTCGCCACCTCGATGCTGTCGTACGTGCTGCTGATCCCGATGTTCCTGGCCTTCGGCGTCAGCATGGCGGCGATGGCCGGTACCGGCCACGACGACGAAGCCGCCCAGGGCGGGATCTCGCTGCTGTTCCTGGCCGGCGTGTACGCGGTCAGCATCGGCCTGCCGGCGGTCTATTTCGGCTGGATGCAGGCCACCCGGCACCAGGCCAGCCTCGGCAAGCTCGCGGTGGGGATCAAGGTGGTGCGCGGCAATGGCGCGGCGATCGGCTTCTGGCGCGGCTTCCTGCGCTACGTGGCCTACGTGCTGGTGACCGTGCTGACCTGCGGCCTGGGCGCCATCGCCACCGCCTTCATGGCCGGGCTGACCGCGCGCAAGCAGGCCCCGCACGACTTCTTCTGCGACACCCTGGTGGTGGACCGCTGGGCCTTCACCGACCAGCCGCAGCGCCAGACCCGCGGGCTGGACGTGGTGACCTGGGTGGTGCTGATCGCCTACGCGGTCCTGCTGGTGGTGGTGGCCGCGGTGGCGATCGCGATCGCGATGCTGGTCCCGGCGACCAGCCACTGA	MSEDTTIDDGTQATTDAPRWHYAGADRQQHGPVTAQALREAHAAGLLDRHGLVWRRGLPGWEPLELHAAELGIDLPALASVPPQVPSAALIDSTDVVYAGLWRRVAASVIDSFATSMLSYVLLIPMFLAFGVSMAAMAGTGHDDEAAQGGISLLFLAGVYAVSIGLPAVYFGWMQATRHQASLGKLAVGIKVVRGNGAAIGFWRGFLRYVAYVLVTVLTCGLGAIATAFMAGLTARKQAPHDFFCDTLVVDRWAFTDQPQRQTRGLDVVTWVVLIAYAVLLVVVAAVAIAIAMLVPATSH				NA	NA	NA	NA	NA
BMS020_08719	2478	topA_3		DNA topoisomerase 1	ATGCCCAAGCACCTGCTCATCGTCGAATCGCCCGCCAAGGCCAAGACGATCAACAAATACCTCGGCAAGGACTTCACCGTCCTGGCCTCGTATGGGCATGTCCGCGATCTGGTCCCCAAGGAGGGCGCGGTCGATCCGGACAACGGCTTCGCGATGCGCTACGACCTGATCGACAAGAACGAGAAGCATGTGGAGGCGATCGCCAAGGCAGCCAAGGGCGCCGACGACATCTTCCTGGCGACCGACCCGGACCGCGAGGGTGAGGCAATCAGCTGGCACATCGCCGAGATCCTGAAGGAACGCGGGCTGCTCAAGGACAAGAACATGCAGCGCGTGGTGTTCACCGAGATCACCCCGCGCGCGATCAAGGAAGCGATGACCAAGCCGCGCGCGATCGCCGGCGAGCTGGTCGATGCGCAACAGGCGCGTCGCGCGCTGGACTACCTGGTCGGCTTCAACCTGTCGCCGGTGCTGTGGCGCAAGGTCCAGGCCGGGCTGTCGGCCGGCCGCGTGCAGAGCCCGGCGCTGCGCATGATCGTCGAGCGCGAGGAGGAGATCGAAGCCTTCGTCGCCCGCGAATACTGGTCCATCGACGCCGAGTGCACGCATCCGCAGCAGCCGTTCAACGCGCGCCTGATCAAGCTGGACGGGCAGAAGTTCGAGCAGTTCACCATCACCGATGGCGAGGCCGCCGAGGCCGCGCGCCTGCGCATCCAGCAGGCCGCGCAGGGCCGGCTGCACGTCACCGACGTGGCCAGCAAGGAGCGCAAGCGCCGCCCGGCGCCGCCGTTCACCACCTCCACGCTGCAGCAGGAGGCCTCGCGCAAGCTCGGCTTCACCACGCGCAAGACCATGCAGGTCGCGCAGAAGCTGTACGAAGGCGTGGCGATCGGCGACGAGGGCACGGTCGGCCTGATCAGCTACATGCGTACCGACTCGGTGAACCTGTCGCAGGACGCGCTGGTGGAGATCCGCGACGTGATCGCCCGCGATTACGGCACCGCCTCGCTGCCGGACAAGCCCAACACCTACACCACCAAGTCCAAGAACGCCCAGGAAGCGCACGAAGCGGTGCGCCCGACCTCGGCGCTGCGTACCCCGGCGCAGGTCTCCAAGTACCTCAGCGACGACGAGCGCCGCCTGTACGAGCTGATCTGGAAGCGCGCGGTGGCCTGCCAGATGATCCCGGCCACGCTCAACACCGTCAGCGTCGACCTCTCCGCCGGCAGCGCGCACGTGTTCCGCGCCAGCGGCACCACCGTGGTGGTGCCCGGCTTCCTGGCCGTCTACGAGGAAGGCAAGGACAGCAAGAGCGCCGAGGACGAGGACGAAGGCCGCAAGCTGCCGGCGATGAAGACCGGCGACAACATCCCGCTGGCGCGCATCCTGGCCGAGCAGCACTTCACCCAGCCGCCGCCGCGCTACACCGAAGCGGCGCTGGTCAAGGCGCTGGAGGAATACGGCATCGGCCGGCCGTCGACCTACGCCTCGATCATCCAGACCCTGCTGTTCCGCAAGTACGTGGAGATGGAAGGCCGCAGCTTCCGCCCGACCGACGTCGGCCGCGCGGTCTCCAAGTTCCTGTCCGGCCACTTCACCCAGTACGTCGACTACGACTTCACCGCCAAGCTCGAGGACGAGCTGGATGCGGTGTCGCGCGGCGAGGAAGAGTGGGTGCCGCTGATGGAGAAGTTCTGGGGCCCGTTCCGCGACCTGGTGCAGGAAAAGAAGGATTCGCTGGACAAGACCGACGCCGGCAGCGTGCGCGTGCTCGGCACCGACGCCGCCAGCGGCCGCCCGGTCAGCGCGCGCATCGGCCGCTTCGGGCCCATGGTGCAGATCGGCACCGTCGAGGACGAGGACAAGCCCAAGTTCGCCTCGCTGCGCCCGGGCCAGAGCATCTACTCGATCTCGCTGGAAGACGCGCTGGAACTGTTCAAGATGCCGCGCCAGCTCGGCGAGCACGATGGCCAGGAAGTCAGCGTCGGCATCGGCCGCTTCGGCCCGTTCGCCAAGCGCGGCAGCACCTATGCCTCGCTGAAGAAGGAAGACGATCCGTACAAGATCGACCTGGCACGCGCGGTGTTCCTGGTCGAAGAAAAGGAAGAGATCGCCCGTAACCGGGTCATCAAGGAATTCCCCGGCAGCGACATCCAGGTACTCAACGGTCGCTTCGGCCCGTACCTCAGCGACGGCGCGCTCAACGGCAAGATCCCCAAGGACCGCGAGCCTGCCTCGCTGACGCTGGAGGAAGTCCAGCAGCTGATGGCCGAGACCGGCAAGCCGGCGCGCAAGGGCTTCGGCGCCAAGAAGACGGCCAAGAAGGTCACCGCGCGCAAGGACGAAGCGCCCAAGAAGGCCGCGGCGAAAAAGGCGCCGGCCAAGAAGGCCGCCACCAAGACCGCCCCGGCGAAGAAGGCGGTGAAGAAGGCCGCGGCCAAGAAGACCGTCGCCAAGAAGGCGACCAAGGCCGGCTGA	MPKHLLIVESPAKAKTINKYLGKDFTVLASYGHVRDLVPKEGAVDPDNGFAMRYDLIDKNEKHVEAIAKAAKGADDIFLATDPDREGEAISWHIAEILKERGLLKDKNMQRVVFTEITPRAIKEAMTKPRAIAGELVDAQQARRALDYLVGFNLSPVLWRKVQAGLSAGRVQSPALRMIVEREEEIEAFVAREYWSIDAECTHPQQPFNARLIKLDGQKFEQFTITDGEAAEAARLRIQQAAQGRLHVTDVASKERKRRPAPPFTTSTLQQEASRKLGFTTRKTMQVAQKLYEGVAIGDEGTVGLISYMRTDSVNLSQDALVEIRDVIARDYGTASLPDKPNTYTTKSKNAQEAHEAVRPTSALRTPAQVSKYLSDDERRLYELIWKRAVACQMIPATLNTVSVDLSAGSAHVFRASGTTVVVPGFLAVYEEGKDSKSAEDEDEGRKLPAMKTGDNIPLARILAEQHFTQPPPRYTEAALVKALEEYGIGRPSTYASIIQTLLFRKYVEMEGRSFRPTDVGRAVSKFLSGHFTQYVDYDFTAKLEDELDAVSRGEEEWVPLMEKFWGPFRDLVQEKKDSLDKTDAGSVRVLGTDAASGRPVSARIGRFGPMVQIGTVEDEDKPKFASLRPGQSIYSISLEDALELFKMPRQLGEHDGQEVSVGIGRFGPFAKRGSTYASLKKEDDPYKIDLARAVFLVEEKEEIARNRVIKEFPGSDIQVLNGRFGPYLSDGALNGKIPKDREPASLTLEEVQQLMAETGKPARKGFGAKKTAKKVTARKDEAPKKAAAKKAPAKKAATKTAPAKKAVKKAAAKKTVAKKATKAG				NA	NA	NA	NA	NA
BMS020_08720	564	tsaC_2	COG0009	Threonylcarbamoyl-AMP synthase	ATGGCCAAGGTCCTCCCGCTCGCCGCCGCCATCGCCTGCCTGCATGAGGGCGGGATCATCGCCTACCCCACCGAAGCGGTCTGGGGCCTGGGCTGCGACCCGCGCCAGGAGGGTGCGGTGATGCGCCTGCTGCAGATCAAGCGGCGCCCGGTCGACAAGGGCGTGATCGTGGTCGCCGATACGCTGGAGGTGCTGCGGCCGTGGCTGGACCTGGCCGCGCTGCCGCCGGAGCGGCTGGACGTGGTCCGCGCCAGCTGGCCCGGCCCGCACACCTGGGTGCTGCCGGCCAACGCGCATGCGCCGCGCTGGATCACCGGCCGCCATGCCGGCATTGCGGTGCGCATCAGCGCGCACCCGCTGGTGCAGCGGCTGTGCGCGGCCTGGGAGGCGCCACTGGTGTCCACCAGCGCCAACCTCGCCGGGATGCCGCCGGCCCGCCACCGCGAAGAACTCGACCCGGCCCTGCTCGCCGGCATCGATGGCCTGGTCGACGGCGACACCGGCGGCCTGACCCAACCGACCCAGATCCGCGTGGCGCTGACCGGCGACGTGCTGCGCGACTGA	MAKVLPLAAAIACLHEGGIIAYPTEAVWGLGCDPRQEGAVMRLLQIKRRPVDKGVIVVADTLEVLRPWLDLAALPPERLDVVRASWPGPHTWVLPANAHAPRWITGRHAGIAVRISAHPLVQRLCAAWEAPLVSTSANLAGMPPARHREELDPALLAGIDGLVDGDTGGLTQPTQIRVALTGDVLRD				NA	NA	NA	NA	NA
BMS020_08721	639			hypothetical protein	ATGCGTCGCCTCCTCGTCCTCGCCGCATTCACCCTGGCCGGCCCGCTGCCCGCGGCCACCGGCAACGACAGCGTGCGCATCTACCGCTGCACCGCCAGCAACGGCGCGGTGTCGCTGCAGAACGCCCCGTGCAGCGGCGGCCGCGAGCAGGTGCTGGACATGCAGCGCCCCCAGGACCCGCCCCCGCGCAAACAGGCCGCCCCCAGCGCGAGCGTGAGCTCACCGCCACCGCGCGAGGTGCGCATCGTCACCGTGACGCCGCCGCAGCCGATGTACGAATGCGTCACCGCCGACGGCGAGCGCTACACCAGCGATACCGACGACGGCAATCCGCGCTGGGTCCCGGCGTGGACGCTCGGCTATGCCCCGGCGCGCGCCCGTGGTGGCAGCGATGGCGGCGACCGGCACGGCCACGGCCACGGCGGCGGCACGCGCGGGGTGATCGTGCCCTACGGCAACGTGCAGGTCCGCGACAGCTGCCACGCGCTGCCGCCACGCGAGGTCTGCGCGCGGCTCGGCGACCGCCGCTGGGAGCTGATCCGGCGCTACAACAGCGCGCTGCAGAGCGAACGCGAGGCGCTGGTTCGCGAGCAACGCGGCATTGAGGCACGCATGGACCAGGACTGCGGCGGCGCATGA	MRRLLVLAAFTLAGPLPAATGNDSVRIYRCTASNGAVSLQNAPCSGGREQVLDMQRPQDPPPRKQAAPSASVSSPPPREVRIVTVTPPQPMYECVTADGERYTSDTDDGNPRWVPAWTLGYAPARARGGSDGGDRHGHGHGGGTRGVIVPYGNVQVRDSCHALPPREVCARLGDRRWELIRRYNSALQSEREALVREQRGIEARMDQDCGGA				NA	NA	NA	NA	NA
BMS020_08722	639			hypothetical protein	ATGAACCGGCGCCTGGGGTGGGCGCTGCTGGCGCTGCTGCTCGTCCACGGCGCCCGCGCCGACGCCGAGGACCTGGTGATCTACCGCTGCATCGATGCCCAGGGCGGCGTGGCGATCCAGAACATGCCGTGCCCGAAGGGCAGCCAGCAACAGAAGAAGACGCTGCCGGCGCTGCAGACCCCGCCACCACCCCTGCCGCGGCTGATGCCCGCCCCGGCGCCGTCTCCGGCCCCACCACCGACACCGGATCCCGCGCCGCCGCCGGCAGCGCCAGCACCGGCACCGCCGGCCACGACCGAGCAGGGGCCACGTCCACCGCCGCCGCCGCTGTTCCAATGCGTGCGCCGCGACGACACCCGCTATCTCGTCGAGGACACCGCCAAGGCCAGCTACTGCGTGCCGCTGCGGGTGACCGGCCTGGACGGCAATCCGATGACCGGCGCCGGCGAGGCCTGCGAGGTGGTCCATGACCGCTGCGACGCGCTCCCGCCGGCCGACGCCTGCGCGGCCTGGCGCCAGCACCTCAAGAACGCCGAGTCGCACTGGCGTTTCGCCACGCCGGCGCACGCCGAGCCGCTGCACCAGGAGTACGCACGGATCCGCAGCCTGCTGCAGTCCAGCGATTGTCCGCCGGACTGA	MNRRLGWALLALLLVHGARADAEDLVIYRCIDAQGGVAIQNMPCPKGSQQQKKTLPALQTPPPPLPRLMPAPAPSPAPPPTPDPAPPPAAPAPAPPATTEQGPRPPPPPLFQCVRRDDTRYLVEDTAKASYCVPLRVTGLDGNPMTGAGEACEVVHDRCDALPPADACAAWRQHLKNAESHWRFATPAHAEPLHQEYARIRSLLQSSDCPPD				NA	NA	NA	NA	NA
BMS020_08723	777	fabG_22		3-oxoacyl-[acyl-carrier-protein] reductase FabG	GTGACACATCCCCGCTGGCGCCTGGATGGGCAGACTGCCCTGGTTACCGGTGCGAGCGCCGGCATTGGCCTGGCGATCGCCCGCGAACTGCTCGGCCTTGGCGCCGACCTGCTGATGGTGGCGCGCGATGCCGACATGCTCGAGCAGGCGCGCAACGAACTGGCCGACGAGTTCCCCGAGCGCGAGCTGCACGGCCTGGCGGCCGATGTCGCCGACGACGAGGATCGCCGCGCGATCCTGGACTGGGTCGAAGACCACAGCGATGGCCTGCACCTGCTGGTCAACAACGCCGGTGGCAACGTCAGCCGCGCGGCGATCGACTACACCGAGGACGAGTGGCGCGGCATCTTCGAGACCAACCTGTTCTCGGCGTTCGAGCTGTCGCGCTATGCGCAGCCGCTGCTGGCGCGGCATGCAGCCTCGGCGATCGTCAACGTCGGCAGCGTGTCCGGGCTGACCCACGTGCGCAGCGGCGCACCGTACGGCATGACCAAGGCGGCGCTGCACCAGATGACCCGCAACCTGGCCTGCGAGTGGGCCGAGGACGGCATCCGGGTGAACGCGGTGGCGCCGTGGTACATCCGCACCCGACGCACTTCCGGGCCGTTGTCGGACCCGGACTACTACGAGCAGGTCATCGCGCGCACGCCGATGGGCCGCATCGGCGAGCCGGAGGAGGTAGCCGCGGCGGTCGCGTTCCTGTGCCTGCCGGCAGCGAGCTATGTGACCGGCGAGTGCATCGCGGTCGACGGTGGTTTCCTGCGCTACGGCTTCTGA	MTHPRWRLDGQTALVTGASAGIGLAIARELLGLGADLLMVARDADMLEQARNELADEFPERELHGLAADVADDEDRRAILDWVEDHSDGLHLLVNNAGGNVSRAAIDYTEDEWRGIFETNLFSAFELSRYAQPLLARHAASAIVNVGSVSGLTHVRSGAPYGMTKAALHQMTRNLACEWAEDGIRVNAVAPWYIRTRRTSGPLSDPDYYEQVIARTPMGRIGEPEEVAAAVAFLCLPAASYVTGECIAVDGGFLRYGF				NA	NA	NA	NA	NA
BMS020_08724	216			hypothetical protein	ATGAACAAGATGCTGTGCGTGGGATGCCTGCTGCTGCCGCTGCTGGCGGCCTGCAAGCGCCCGCAACCGCCGCCCACCGACAAGCCGCCGGAACCGCAGGCCACGGCGCTGCGCGAGGCGATCCAGCAGCCGCTGGACAAGGCCAAGGCCGCCCAGCAGGCGGTCGACGATGCGGCCGCGCAGCAGCGCGCGGCGATCGACGCGGCGACGCAGTAA	MNKMLCVGCLLLPLLAACKRPQPPPTDKPPEPQATALREAIQQPLDKAKAAQQAVDDAAAQQRAAIDAATQ				NA	NA	NA	NA	NA
BMS020_08725	1914	sppA_2	COG0616	Protease 4	ATGAACCAACCCGTGCGTCGCAGCCCCATCGCCGCCTTCTTCGTCGGCCTGTGGGACGTGATGAACTTCACCCGCCGGCTGATCCTCAACCTGCTGTTCTTCGGCCTGCTGTTCCTGATGCTGCTGGTGTTCGTGGCGGTGATGGCGACGGCGCGCGGTGGCGGCACGGGCAAGACGCTACACGATCGCACCACGCTGGTGATCGCGCCCGAGGGCACCCTGGTGGAGCAGTTCAGCGCCGATCCGGTCAGCCGCGCGCTGGCCAAGGCGGTCGGCGACAAGGGCGCCGAGGAAGTCCAGCTGCGCGACCTGATCCGGGTGATCGAGGCCGCCAAGGCTGACGAGAAGATCGAGCGGGTGCTGCTGGACGTGGACAAGCTGCAGCCGTCCGGGTTCGCCTCGCTGCGCGAGGTCGCCGCCGCGCTGCAGGACCTGAAGGCCTCCGGCAAGCAGGTCGTGGCCTTCAGCCAGAACATGAGCCAGAGCCAGTACCTGCTGGCGGCGCAGGCCAACGAGGTCTACCTCGATCCGATGGGCGGGTTGGTGCTGGAAGGGCTGGGGCGCTACCGCCAGTACTTCCGTGAAGGCCTGCAGGACAAGCTGGGCGTGGACGTGCACCTGTTCCGCGTCGGCGAATACAAGTCGGCGGCCGAGCCGTACATCCTCGACGCCGCGTCGCCGGCGGCCAAGGAAGCGGACCTGTTCTGGATGAACGACGTGTGGCAGCGCTACCTGGTCGACATCGGCAGCGCGCGCAAGCTCGATCCGGCGCAGATCGCCGCCGGCATCGACACCATGCCCGAGGGCATCGCCGCCGCCGGTGGCGACCTGGCCAAGTACGCGCTGCAGCAGAAGCTGGTCGACGGGCTGAAGACCCGCGAGCAGCTGGACCAGCTGCTGGCCGAGCGTGGCGTCGCCGACAGCGATGCCGATGGCGGCTTCCGCAACATCGGTTTCGACGGCTACCTGGCCCAGCTCGATGCGCGCCACTCGCCGGTGGATTCGCGTCCGCAGGTCGCGGTGGTGGTGGCGGCCGGCGAGATCAGTGGCGGCGAACAGCCGGCTGGCAAGATCGGCGGCGAATCGACCGCGGCGCTGCTGCGCCAGGCGCGCGACGACAAGGACGTGAAGGCGGTGGTGCTGCGGGTGGATTCGCCCGGCGGCGAGGTGTTCGCGTCCGAGCAGATCCGCCGCGAGGTGGTCGCGCTGAAGCAGGCCGGCAAGCCGGTGGTGGTGTCGATGGGTGACCTGGCTGCGTCGGGCGGTTACTGGATCAGCATGGACGCCGACAAGATCTACGCCGATCCGTCGACGATCAGCGGCTCGATCGGCATCTTCGGCATGATCCCGAACCTGACCCGCACGTTGGACAAGATCGGCGTGCACACCGACGGCGTCGGTACCACGCGCTTTGCCGGCGCGTTCGACATCAGCCGGCCGATGGATCCGGCGGTGGGCCGGGTGATCCAGTCGGTGATCGACAAGGGCTACGCCGACTTCACCGGCAAGGTCGCGCAGGCGCGCCACCGCTCGGTCGAGGACATCGACCAGATCGCCCGTGGCCGCGTGTGGAGCGGCGCCCAGGCCAAGGAGCGCGGGCTGGTGGATGCGTTCGGCGGCATGAAGGACGCGGTCGCCGAGGCCGCCACGCGCGCCAAGCTGACCAAGGGCAAGTTCCGCGTGCGCTACGTTGAGAAGGACGCCACCCCGTTCGCGCAGTTCATGAGCGGCTTCGCCGCCAGCCGCATCGGCGTCTGGGCACTGGGCGATTCCGGCCTGGCCCGGGCGATGCTCGCGCGCACCATGCCCGAAGCCGACGCACAGCTGCGCTTCGTCGAGGACGCGGTGCAGGACAGCCGCACGCCCGGCAAGTCGCCGGTCAAGGCACTGGCCTACTGCTTCTGCGGGTTCTGA	MNQPVRRSPIAAFFVGLWDVMNFTRRLILNLLFFGLLFLMLLVFVAVMATARGGGTGKTLHDRTTLVIAPEGTLVEQFSADPVSRALAKAVGDKGAEEVQLRDLIRVIEAAKADEKIERVLLDVDKLQPSGFASLREVAAALQDLKASGKQVVAFSQNMSQSQYLLAAQANEVYLDPMGGLVLEGLGRYRQYFREGLQDKLGVDVHLFRVGEYKSAAEPYILDAASPAAKEADLFWMNDVWQRYLVDIGSARKLDPAQIAAGIDTMPEGIAAAGGDLAKYALQQKLVDGLKTREQLDQLLAERGVADSDADGGFRNIGFDGYLAQLDARHSPVDSRPQVAVVVAAGEISGGEQPAGKIGGESTAALLRQARDDKDVKAVVLRVDSPGGEVFASEQIRREVVALKQAGKPVVVSMGDLAASGGYWISMDADKIYADPSTISGSIGIFGMIPNLTRTLDKIGVHTDGVGTTRFAGAFDISRPMDPAVGRVIQSVIDKGYADFTGKVAQARHRSVEDIDQIARGRVWSGAQAKERGLVDAFGGMKDAVAEAATRAKLTKGKFRVRYVEKDATPFAQFMSGFAASRIGVWALGDSGLARAMLARTMPEADAQLRFVEDAVQDSRTPGKSPVKALAYCFCGF	PGPT0030320_248	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5a_AUTOTRANSPORTER_SECRETION,PGPT0030320-pspA-K04773	NA	NA
BMS020_08726	1365	norM	COG0534	Multidrug resistance protein NorM	ATGTCTGTCGTTTCCCCGCCGGCCCCGCGCTTCTCCAGCGAAGTGCGCACCACCGGCCTGCTTGCGCTTCCGCTGGTCCTTGGCCACGTCTCCACCGGCCTGATCAGCTTCGTCGACAACGTCATCGCCGGCCACCACGCCACCGATACCCTGGCTGCGGTCACGGTCGGGACCGCGTTGCTGTGGCTGCCGATGCTGATCCCGATCGGCACGCTGATCTCGCTGACCGCCTCGGTGTCGCAGCTGCATGGCGCGCACCGCGAGGACGAGATCGCGCCGCTGTTCCGCCAGGCGCTGTGGCTGGCGCTGCTGCTGGGTCTGGTGATGTTCGGCTTCCTGAGCCTGGCGCCGCCGCTGCTGCCGGCGTTCGGCATCGCCCCGGACATCGTGCCCGGCGCCACCGCGTTCCTGCATGCGGTGCGCTGGGGCGGGCCGGCGCTGACGCTGTATTTCTGCATGCGCTACCTTAGCGAGGGCATGCACTGGACGCTGCCGACGATGCTGCTCGGCTTCGGTGGCCTGCTGGTGCTGGCGCCGCTGGGCTATGTGCTGACCTATGGCCGCTTCGGCTTCGCCGAGCACGGCGCCGAAGGGCTGGGCATCGCCTCGGCGGCGACGATGTGGCTGCAGGCGCTGGCGTTCGCCACGTACCTGTGGCGGGCCAAGCGCTTTGCCCACCTGAAGCTGTTCGCGCACTTCGAGCTGCCGCGCTGGGCGTCGATCCGCGAGCTGCTGCGCACCGGTCTGCCGATCGGCATCACCGTGCTGATGGAAGGCGGCTTGTTCATCGTCACCGCGCTGCTGATCGGCCGCCTCGGCGCGGTGCCGGCGGCCGCGCACCAGATCGCGATCAACGTCTCGCAGCTGTGCTTCATGATCCCGATGGGCGTGGCCGAGGCGACCACGGTGCGGGTCGGTCATGCGGTCGGCCGCGGCGACGGCGATGGCATGCGCCGCGCGGCGTGGGCGGGCTACGCGATCGTGCTGGGCACGCAGACGCTGTCGGCCTCGGCCCTGCTGCTCGGCCACGACGCCATCGTCGGGGTCTACACCGACGACCTGGCAGTCGCCGCGCTGGCGTCCACGCTGCTGCTGTTCGCTGCCACGTTCCAGTTCCCGGACGGCATCCAGGTGCTCTCGGCCGGTGCGTTGCGCGGGCTCAAGGACACCCGGGTGCCGATGTTCATCGCGATGTTCGCCTACTGGGGGCTGGGCATGCCGCTCGGCGCCGGGCTCGGCCTCGGTCTGGGCTGGGGCCCGCAGGGCATGTGGATCGGGCTGATCGTCGGCCTGGCCGCCGCCGCGGTGCTGCTGGGCTGGCGCTTCCGGACCAGCAGCCGGCGGATGGGCATGACGGTCCCCTGA	MSVVSPPAPRFSSEVRTTGLLALPLVLGHVSTGLISFVDNVIAGHHATDTLAAVTVGTALLWLPMLIPIGTLISLTASVSQLHGAHREDEIAPLFRQALWLALLLGLVMFGFLSLAPPLLPAFGIAPDIVPGATAFLHAVRWGGPALTLYFCMRYLSEGMHWTLPTMLLGFGGLLVLAPLGYVLTYGRFGFAEHGAEGLGIASAATMWLQALAFATYLWRAKRFAHLKLFAHFELPRWASIRELLRTGLPIGITVLMEGGLFIVTALLIGRLGAVPAAAHQIAINVSQLCFMIPMGVAEATTVRVGHAVGRGDGDGMRRAAWAGYAIVLGTQTLSASALLLGHDAIVGVYTDDLAVAALASTLLLFAATFQFPDGIQVLSAGALRGLKDTRVPMFIAMFAYWGLGMPLGAGLGLGLGWGPQGMWIGLIVGLAAAAVLLGWRFRTSSRRMGMTVP	PGPT0029115_7860	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
BMS020_08727	1158			hypothetical protein	ATGAGCGAGCACGCCGAGCACCCCGTTGTCTGCGCCAACTGCAGCACGTCGCTGCAGGGCGCGTTCTGCCACGCCTGCGGACAGAGCGCACACGATCCAGTGCGCAGCTTCGCGCACGCGCTGGAGGAGGTCTTCGAGTCGTTCTGGCATCTGGACGGCCGCGTATTCCGCACGCTGCGTGAGGTGCTGGTGCCGGGACGCCTGGCCAATGCCTACCTCGGCGGCCGGCGCGCGCCCTACGTCGCGCCGATGCGCTTCTTCGTGGTCGCCGCGGTGCTGACCTTCTTCGTCGCCCGGCTGGCGGTGCACGTGGACGCCGGACAGACCGCCGACCGGGTCGATGCGGCCGCGGCGGCGCCGCTCGGCGATTTCGCCCGGGCGCGGACGCCTGCCGAGGTCGAGGCACTGCGCGCCACCCTGGTGGCCGATCTCGGTCGCGCCCGCGACGGCATGCCCGAGGCGCTCGCCGCCGGCCGCGCCGGCTTCGACGCCGGCATCCGCACCGTCAACTCCCAGGCCGAGCGGCGCCTGCGCCAGCTGCGCGGCGAGCCCGCCACGGCGGCGGATGCGAACGCCGCCCCCACCCCGGCCGGCTCGCTGCTGTCGCTGCACGGCCAGCCCTGGGACGCGCACGACAATCCCCTGCAGATCGCCTGGCTGCCCGGCTTCGCCAACCGCTGGCTCAACACCCAGCTCGCGCACATCCAGCACAACCTGCCGCGCCTGCGCGACGATCCGCAGTTGCTGTTCAACGCCTTCCTGGCCTCGGTGCCGTCGGCGCTGTTCGTGCTGGTGCCGCTGTTCGCGCTGCTGCTGCGCGTGGCCTACCTGGGCAGCGGGCGGGTGTACCTGGAACACCTGGTGGTGGCCCTGTACAGCCACGCCTTCCTATGCCTGGACCTGCTGCTGGTGCTGCTGCTGTCGGTGCCCGCACGGGCGCTGGAACCCGCGCTGCCGAGCGCGGGCACGGCGATCGCGCTGCTGCAATGCGCGCTGGTGCTGGCGATGCCGCTGTACCTGCTGTGGATGCAGCGGCGGGTCTACCGCCAGTCCTGGCCGCTGACCGTGCTCAAGTACGCCGGCCTCGGCACCGCCTACTTCTCGCTGGTGACGCTGGCGGCCACCACACTGATGCTGTTCAGCCTGGCCCATTTCTGA	MSEHAEHPVVCANCSTSLQGAFCHACGQSAHDPVRSFAHALEEVFESFWHLDGRVFRTLREVLVPGRLANAYLGGRRAPYVAPMRFFVVAAVLTFFVARLAVHVDAGQTADRVDAAAAAPLGDFARARTPAEVEALRATLVADLGRARDGMPEALAAGRAGFDAGIRTVNSQAERRLRQLRGEPATAADANAAPTPAGSLLSLHGQPWDAHDNPLQIAWLPGFANRWLNTQLAHIQHNLPRLRDDPQLLFNAFLASVPSALFVLVPLFALLLRVAYLGSGRVYLEHLVVALYSHAFLCLDLLLVLLLSVPARALEPALPSAGTAIALLQCALVLAMPLYLLWMQRRVYRQSWPLTVLKYAGLGTAYFSLVTLAATTLMLFSLAHF				NA	NA	NA	NA	NA
BMS020_08728	570			hypothetical protein	ATGAACCCTTGCCCATGGCTGATGCTGGCGCTCGCGCTGGCGACGACGGCTGCGGCCGGCGCGCAGGTCCTGCCGGCGCCGCTCGACGAAGCCACCGGCATGGCGGCCCCGGCGTCGCCGGCGCAGCAGCGCGCGCACTGGCAGGGCCTCGATGCCGGCGCCCGCGCCGAACTGCGCGCCCGTTACCGCGCCTGGCGCGCGCTCGATCCGGCCGAGCAGGCCCAGCTGCGCGCCGCGCAGGCCCGGCTCGCCGCCTTGCCGGCGCCCGAACGTGCCGCGCTGCAGGCCCGCTTCGACGGACTGGACCGCATGTACCGCGATGGCTGGCGGCTCGGGCCGCGCCTGGGCGCGCACTACGTCGCGCTGCAGCCACTGTTCGGCTATGTGCCGGCCGAGCAGCGCGATGTGCTGCTGGCGCTGCTGCAGTCGCTCGACCACAGCCAGCTGCAGCAGTTGTCGGTGCTGGCCCAACGCACCCCGCCGGACCAGCGCGACGCGCTGCGCAACGCGTTGCTGGCGCAGCCGGCCAGCGGCCGCGGCGCCTGGCTGCAGGCCCAGGTCGGCCACTGA	MNPCPWLMLALALATTAAAGAQVLPAPLDEATGMAAPASPAQQRAHWQGLDAGARAELRARYRAWRALDPAEQAQLRAAQARLAALPAPERAALQARFDGLDRMYRDGWRLGPRLGAHYVALQPLFGYVPAEQRDVLLALLQSLDHSQLQQLSVLAQRTPPDQRDALRNALLAQPASGRGAWLQAQVGH				NA	NA	NA	NA	NA
BMS020_08729	324			hypothetical protein	ATGTGGTGGCGCCAGCGCGCGCCGCAGCTGCCGCCCGAGCCGGTGTCGGAGGCAGCGCCCGGGGCGCTGCATGTGGTCGATGCCGCGCCGGTGCTGGTCGAGCAACTGCCGGCCGACGATGCGGTCGGCCCGCCGCTGCCGGCGCCGCCGATCGACCCGGACGACGCGGCGATGCTGGCGGACCCGGCGCTGGAGACCGCGCGCCAGGCCGACCTGTATGCCTGGGTGGCCGCAGGCATGCCGGTGCCCCCGGACGAATCCCAGGCGGTGCCGGGCGCCGCCGAGAGCACCGGCAACGCGCTGGAAACGGTGGACGACGAATGA	MWWRQRAPQLPPEPVSEAAPGALHVVDAAPVLVEQLPADDAVGPPLPAPPIDPDDAAMLADPALETARQADLYAWVAAGMPVPPDESQAVPGAAESTGNALETVDDE				NA	NA	NA	NA	NA
BMS020_08730	609	smrA_2	COG2840	putative DNA endonuclease SmrA	ATGATACCGGATGGTTCAGGATGCTTCCCGCGCGTTTGCGCCATCGCACGGCCGCGCTACGCTGTGGCCATGTCACACCCAGAAGACGAAGACGACGGCGCCCTGTTCCGCTCGGCGATCGGCGCGGTCACGCCGCTGCGCGCGACCCCGGCGCCGGTCGACACCCGGCCGCGGCCGAAGCCGCGCGCGCGCATGGCCGAACGCGACGAGGCCGAGGCGCTGGGCGAATTCGCCCGCCTGCTGCGCGACGGCACGCCGCTGGAAGCCGGCGACACCACCAGCTACCGCCGCGACACGCTGCCGCCGCGACTGTTCCAGCGGCTCAAGCGCGGCCAGTTCTCGGTGCAGGACGAACTGGACCTGCACGGCGCCACCGCCGCGCAGGCCGAATCGATGCTGCGCCTGTTCCTGGCCGAAGCGCATGCGCATGAGTACGGCTGCGTGCGCATCATCCACGGCAAGGGGCTGCAGTCCGATGGCGGCGCGCCGGTGTTGAAGAACCTGGTCGACCGCCTGCTGCGCCAGCGCAACGACGTGCTGGCCTTCCATTCCGCACCGACCGCGCAGGGCGGCACCGGCGCGATGCTGGTGCTGCTGGCGCGGCGCTGA	MIPDGSGCFPRVCAIARPRYAVAMSHPEDEDDGALFRSAIGAVTPLRATPAPVDTRPRPKPRARMAERDEAEALGEFARLLRDGTPLEAGDTTSYRRDTLPPRLFQRLKRGQFSVQDELDLHGATAAQAESMLRLFLAEAHAHEYGCVRIIHGKGLQSDGGAPVLKNLVDRLLRQRNDVLAFHSAPTAQGGTGAMLVLLARR				NA	NA	NA	NA	NA
BMS020_08731	780	surE_2	COG0496	5'-nucleotidase SurE	ATGCGCGTACTGGTTTCAAACGACGACGGCGTCGACGCCCCCGGCATCCATATCCTCGCCGAGGAGCTGCGTGCGGCCGGTCACGAAGTGACCGTGGTCGCCCCCGACCGCGACCGCTCCGGCGCCAGCAATTCGCTGACGCTGGACCTGCCGATCCGCACCAAGCGGATCGACCACTACACCTGCAGCGTCGCCGGCACGCCGACCGACTGCGTGCACCTGGCGCTGACCGGCATGCTCGAATACGAGCCGGACATCGTGGTGTCCGGGATCAACAACGCCGCCAACCTCGGCGACGACGTGATCTATTCCGGCACGGTGTCGGCGGCGATGGAAGGGCGCTTCCTCGGGTTGCCGGCGGTGGCGGTGTCGCTGGTCACGCGCAATCACGAAGCGCACCACTTCAAGACCGCCGCGCGCGCCGCGGTGGAGATCGTGGCGCGGTTGAAGGCCGATCCGCTGCCGGCCGACACCATCCTCAACGTCAACGTGCCGGACCTGCCATGGAGCGAGGTCCGCGGCTTCGAGGTCACCCGGCTCGGCAACCGCCACCGTTCCGAGCCCTGCATCGCGCAGAGCGATCCGCGCGGCCGCACCGTCTACTGGATCGGCCCGGCCGGCCCGGAGCAGGACGCCGGCCCGGGCACCGATTTCCACGCGGTGCGCACCGGGCACATCTCGATCACCCCGATCCAGGTCGATCTGACCCGTTACCAGGCACTGGAGAAGGTTGCCAGCTGGGTCGGCGGGCTGACCGCCGCGCTGGACGATCCGGCATGA	MRVLVSNDDGVDAPGIHILAEELRAAGHEVTVVAPDRDRSGASNSLTLDLPIRTKRIDHYTCSVAGTPTDCVHLALTGMLEYEPDIVVSGINNAANLGDDVIYSGTVSAAMEGRFLGLPAVAVSLVTRNHEAHHFKTAARAAVEIVARLKADPLPADTILNVNVPDLPWSEVRGFEVTRLGNRHRSEPCIAQSDPRGRTVYWIGPAGPEQDAGPGTDFHAVRTGHISITPIQVDLTRYQALEKVASWVGGLTAALDDPA	PGPT0013405_1719	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013405-surE-K03787	NA	NA
BMS020_08732	678	pcm_3	COG2518	Protein-L-isoaspartate O-methyltransferase	ATGACCCCGCGCCTGCGTCTGCAGCCGGCCGCGGTTGGCATCGGCATGACCTCGCAGCGCGTGCGCGACCGCCTGGTCGAACGCCTGCGCGAGGCCGGCATCGCCGACGAGCACGTGCTCAACGCGGTGCGCACGGTGCCGCGCCACCTGTTCATCGACGAGGCGCTGGCGCTGCGCGCCTATGAAGACACCGCGTTGCCGATCGGCCACGGCCAGACCATCTCGCAGCCGTGGGTGGTGGCGCGGATGACCGAGGCGGTACTCGAGATCGCGCCGAAGAAGGTGCTGGAAGTCGGCACCGGCTCGGGCTACCAGGGGGCGATCCTGGCCGCGCTGGGGCTGGAGGTCTACACCGTCGAACGCATCGGTGACCTGCTGCGGCAGGCGCGCAAGCGCTTCCGCCAGCTCGGCATGAACGTGCGCAGCAAGCACGACGATGGCCGCATCGGCTGGCCCGAGCACGGCCCGTTCGACGCGATCGTGGTCACCGCGGCGGCGCCGGCGCTGGTCGATGCCCTGATCGACCAGCTGGCCGACGGTGGGCGCCTGGTGGCCCCGGTCGGTGGTGCCGGCGCGCAGTCGCTGGTGCAGATCACCCGGCTGCCGGGCGGCGTGATCGATCAGCAGGTTCTGGCGCCGGTCACGTTCGTTCCGCTGTTGTCCGGCATGCTGGATTGA	MTPRLRLQPAAVGIGMTSQRVRDRLVERLREAGIADEHVLNAVRTVPRHLFIDEALALRAYEDTALPIGHGQTISQPWVVARMTEAVLEIAPKKVLEVGTGSGYQGAILAALGLEVYTVERIGDLLRQARKRFRQLGMNVRSKHDDGRIGWPEHGPFDAIVVTAAAPALVDALIDQLADGGRLVAPVGGAGAQSLVQITRLPGGVIDQQVLAPVTFVPLLSGMLD				NA	NA	NA	NA	NA
BMS020_08733	615			hypothetical protein	ATGAAGATATTCGGCCCGTTGTACGACCTGGCCATTCGCTGGTCCCGTCACCGCCGCGCACCGGCGCTGCTGACCGGACTGAGTTTCGCCGAGGGGTTCATTTTCCCGGTGCCCCCCGAGGTGATGCTGGCGCCGATGTCGCTGGCCCAGCCCCGGCGCGCGCTGTGGTTCGCCACGCTGAGCCTGATGGGCTCGTTGGCCGGGGCGATGATCGGCTACCTGCTCGGGCACTACGCGTTCGCGGCGATGCAGCCGCTGATCGAGTGGCTCGGCTGGACCGACAAGATCAACGCCCAGGTCGACCAGCTGCGCGAGGTGGTCGCGCATTCGCCGTGGAAGGCGTTCTGGCTGCTGGTGCTGGTCGGCTTCACGCCGATTCCGTTGAAGGTGTTCACCTGGGCGTCCGGCGTGGTCGGCGTGCCCGTGCTGCCGTTCCTGGCCAGCATGCTGGTCGGACGCGGCAAGCGCGTCTACCTGGTCGCCGGTGCGATCAAGCTGGGTGGCGCGCGTGCCGAGGCGGCGCTGCACCGCTGGATCGAACCGCTGGGCTGGATCGCCAGCGTGGTGCTGCTGGGGCTGGTGGGCTGGGTGGTCTGGAGGGCGAAATTCGGATGA	MKIFGPLYDLAIRWSRHRRAPALLTGLSFAEGFIFPVPPEVMLAPMSLAQPRRALWFATLSLMGSLAGAMIGYLLGHYAFAAMQPLIEWLGWTDKINAQVDQLREVVAHSPWKAFWLLVLVGFTPIPLKVFTWASGVVGVPVLPFLASMLVGRGKRVYLVAGAIKLGGARAEAALHRWIEPLGWIASVVLLGLVGWVVWRAKFG				NA	NA	NA	NA	NA
BMS020_08734	780			hypothetical protein	ATGAGCGACATGTGGCTGGGCCGGTTGACGAAGGGGGCGTTGCTGCTGGCTGCGCTGGTGGGATTGGCGGCGTGCGGTACCGCCACCGTGGTGCGTTCGCCGTCCGGCGCGCGCGGCGAGCCGACCCCGAAGAGTTCGGTGGCACGCCCCGGTGCGACGGTGACGGTGCAGCGCGGCGATACGCTGTATGCGATCTCCCGCCGGACCCGGGTGACGCCGCAGGATCTTGCGGCGTGGAACGGCCTGTCCTCGCCGAGCACGATCTATCCGGGGCAGGTGCTGCGCCTGTATCCGGGCGGCAGCGCTGGCGCCGCGCCGGCCTCGGCCGGCACGACGCGACCGCCGACCGGCACCGCGACAAGCACGCCGCGGCCGGTGCCGCCGCCACAGGCTGCCCCGGTCAGCAGTGGCTTCAACTGGCGCTGGCCGGCCGACGGCGTGGTGGTCGGGACGTTCGTGCAGGGCGAGGCTACCAAGCAGGGCATCGACATTGCCGGCACGAGCGGCCAGGCGGTGCGCGCCGCCGCCGATGGCGTGGTGGTGTATTCGGGCAATGGCCTGGTCGGTTACGGCGAGCTGATCATCATCAAGCACAACGATCAGTGGTTGTCGGCCTACGGTCATAACCGCAAGCGCCTGGTCAACGAAGGCCAGAACGTGAAGGCCGGGCAGCAGATCGCCGAGATGGGGCGCAGCGGTGCGGCCCGCGACATGTTGCATTTCGAGATCCGCTACAACGGCAAACCGGTCGACCCGCAGTTGTACCTGCCGAAGAAGTAA	MSDMWLGRLTKGALLLAALVGLAACGTATVVRSPSGARGEPTPKSSVARPGATVTVQRGDTLYAISRRTRVTPQDLAAWNGLSSPSTIYPGQVLRLYPGGSAGAAPASAGTTRPPTGTATSTPRPVPPPQAAPVSSGFNWRWPADGVVVGTFVQGEATKQGIDIAGTSGQAVRAAADGVVVYSGNGLVGYGELIIIKHNDQWLSAYGHNRKRLVNEGQNVKAGQQIAEMGRSGAARDMLHFEIRYNGKPVDPQLYLPKK	PGPT0023860_1406	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0023860-nlpD-K06194	NA	NA
BMS020_08735	1197			hypothetical protein	ATGACCAGGATCCTGCTTCACATCGGCGGCGAAAAGACCGGCTCGACCTACCTGCAGCACTGGCTGCACGGCAATGCCCGGCAACTACTGCGTCGCCACGGCGTGCTCTACCCCACCGCGCGGCCGCTGTGCGTGCGCCGCGCCCATTTCCCGCTGGCGGCGTCACTGCTGCCGCCACAGGCGCGCGACTTCCTGCCTTGGCGCCAGCAGGACAGCGCCGAACCACTGTTCGCGGAACTGCACCGCCAGCTGCGCCGCAGCGGCGCGCATACGCTGCTGCTCAGTGCGGAGCATTTCGCCTCGCGCCTGGACCTGGCCGCGATCCGGCGCCTGCGCCACCTGCTGGATGCCGACGACGTGCAGGTGCTGCTGTACGCCCGGCGCCAGGACGAAGTGGCGCTGAGCCGGTTCGGTACCGACCTGCGCAACGGCGCCCGCAACGGCTTCCAGCCCGAACGGATCGCGCCGCAGCACCGCGCATACAACCCCTGGCAGGTCGCCTGCGACTGGATCTCGGTGTTCGGTGAGGCCAATGTCCAGGTTCGCGGCTACGCCGAGGCGGCCCGCGCCGGATTGGCCAGCGACCTGCTGCAGGCACTGGCACTGCCCGACGACGGCCAGTGGACGCCGGTGCAGCGCGCCAATCCCCGCCTGCACTGCGACGAGGCGCGCCTGCTGCAACTGCTCAATCGCCACCTGCCGACCTGGACCGAGGCGCTCGCGTGCGGCCGCCCCGACCAGCATCGGCGCGCGATGCGGCTCCGCGACCTGGTCCTGCGCCACTATCGCGCGCGCTTCGGCGAGACCGGGGCGACGCTGAACGGCCTGTTCGACCACGCAGCCCGGGCCCAGCTGCTGGCGCGCTTCGCCGACGACAACGCGCGCCTGGCGCGGCGCTTCCCCGCGGCACCGGCACCGCCCCCTGCGCCGTGCGCCGAATCGCCGGCAACGCCGGGCGACCCGGGGCCAGTGTGCGAGCAAACACTGAGCGACAGGCTGGCTATGGTGCTGGAGGATGCCGGCCTGCGGCTCAACGGCGGACGGATCACGCGCCGCTGGCCGGCGGCATGGCAGCGGCTGCGCGCAGGCTGGCAGCGCTATGCGGCGACCATCCGCCCCCGCCACAGTCCGGACCATCTCGGCGGCATCGCCGCACTCGCAGCCAGCTTGACCTCGCTGGGCCAGGCCTGCTGTTGA	MTRILLHIGGEKTGSTYLQHWLHGNARQLLRRHGVLYPTARPLCVRRAHFPLAASLLPPQARDFLPWRQQDSAEPLFAELHRQLRRSGAHTLLLSAEHFASRLDLAAIRRLRHLLDADDVQVLLYARRQDEVALSRFGTDLRNGARNGFQPERIAPQHRAYNPWQVACDWISVFGEANVQVRGYAEAARAGLASDLLQALALPDDGQWTPVQRANPRLHCDEARLLQLLNRHLPTWTEALACGRPDQHRRAMRLRDLVLRHYRARFGETGATLNGLFDHAARAQLLARFADDNARLARRFPAAPAPPPAPCAESPATPGDPGPVCEQTLSDRLAMVLEDAGLRLNGGRITRRWPAAWQRLRAGWQRYAATIRPRHSPDHLGGIAALAASLTSLGQACC				NA	NA	NA	NA	NA
BMS020_08736	375			hypothetical protein	ATGCTGCTGAGCCAGGAACATCCCGATTACAGCTATGCCCTGCGCTCGGCCGACGGCCGCCAGGCCAAGGTCAACGACAAGCTGCTCACGCGCAGCTTCGTGATCGCTCCGGACACCCTGCTGGAGGACTGGAACGCCAGCAGCGCGGCCACGCTGACCGCCGCCGAGCTGGCCCCGGTGCTGGCGTTGAACCCGGCAGTGGTGCTGCTGGGCACCGGCGAGCAGCAGGTGTTCCCGGCCGCGGAAGTGCTGGCGGCCTGCCTCACCCGCGGCATTGGCATCGAAGTGATGAACAATGCCGCCGCCGCGCGTACTTACAACGTGCTGGCAAGCGAAGGCCGCCGCGTGGCCGCCGCGTTCCTGTTGATGGCCTGA	MLLSQEHPDYSYALRSADGRQAKVNDKLLTRSFVIAPDTLLEDWNASSAATLTAAELAPVLALNPAVVLLGTGEQQVFPAAEVLAACLTRGIGIEVMNNAAAARTYNVLASEGRRVAAAFLLMA				NA	NA	NA	NA	NA
BMS020_08737	306	yhbY_2	COG1534	RNA-binding protein YhbY	ATGTCCATCGTTCTCACCTCCGCCCAGACCCGCTTCCTGCGTGGCCAGGCCCACAACCTCAAAGCGCTGCTGCAGACCGGCGGCAAGGGGGTCACGCCTGCGTTCCTGGCGGAACTGGACGAGGTGCTGGAGCACCACGAACTGGTCAAGGTGAAGGTCGGCAGCGACGACCGCGACGTGCGCGACGCGATGATCGCCGACATCGTCGCCCAGAGCGGCAGCGCGCTGGTGCAGCGCATCGGCCATACCGCGATCCTGTACCGGCCGAGCAAGGAACGCCGCCAGATCGTGCTGCCGCGCGCCTGA	MSIVLTSAQTRFLRGQAHNLKALLQTGGKGVTPAFLAELDEVLEHHELVKVKVGSDDRDVRDAMIADIVAQSGSALVQRIGHTAILYRPSKERRQIVLPRA				NA	NA	NA	NA	NA
BMS020_08738	660	rlmE_2	COG0293	Ribosomal RNA large subunit methyltransferase E	ATGGCGGCCCCCTCCGACCCCGTCCCCATGGCCTCCCGCAGCAAGAGCAGCCAACGCTGGCTGAAGGAACACTTCTCCGACCCCTTCGTGAAGAAGGCCCAGGCAGAGGGCATGCGCTCGCGCGCGGCCTACAAGCTCGAGGAGCTGCTGGCGCGCGACCGCCTGCTGAAGCCGGACATGGTGGTGGTCGACCTCGGCGCCGCCCCGGGCGGCTGGTCGCAGCAGGTGCGCCGTCAGCTGGGCGAGCGCGGCCGGGTGCTGGCCTTGGACATCCTCGAGATGCCGCCGCTGGCCGGGGTCGAGTTCCTTCACGGGGACTTCAGGGAGGAAGCCGTCCTATCCCAGTTCGAGGCGATGCTCGGGGAGCAGCCGGTAGACCTTGTGCTCTCGGACATGGCCCCCAATAAGAGTGGCATGGACGCGGTCGACCAACCGCGGATGATGCATCTGGCTGAATTGGCGATGGACTTCGCCGACAACCATCTCAAGACCGGTGGGGCGTTCCTGATCAAGCTGTTCCAGGGCGTCGGCTTCGATGACTACATTCGCGAGTTGCGGCGGCGCTACGACAAGGTGTCCATCCGCAAGCCCGAGGCGTCGCGCAAGCGCTCGCCGGAGGTTTACGCCCTCGGCCAGGGCAAGCGCGCGCAGATGAAGTAA	MAAPSDPVPMASRSKSSQRWLKEHFSDPFVKKAQAEGMRSRAAYKLEELLARDRLLKPDMVVVDLGAAPGGWSQQVRRQLGERGRVLALDILEMPPLAGVEFLHGDFREEAVLSQFEAMLGEQPVDLVLSDMAPNKSGMDAVDQPRMMHLAELAMDFADNHLKTGGAFLIKLFQGVGFDDYIRELRRRYDKVSIRKPEASRKRSPEVYALGQGKRAQMK				NA	NA	NA	NA	NA
BMS020_08739	1938	ftsH_3	COG0465	ATP-dependent zinc metalloprotease FtsH	ATGAACGACTTGACCAAGAATCTGCTCCTCTGGGTGGTCGTCGCCGTCGTGCTGATGGTGGTGTTCCAGAGCTTTTCGCCGCGCATGTCCGGCGGCGGCGCCAGCAATGAGCTGAGCTACAGCCAGTTCCTGAAGGAAGTCGATGGCGGCCGCATCAAGTCGGTCGACTTCACCGACGAGAGCGGCTTCTCGGCCAACGTGATCCGCTTCAAGCGCGGCGACCAGAGCGAAGGCATGGTCTACGGCCCGCGTGACGACAAGCTGGTCGACGTGCTGGTCAACAAGAACGTGGAGATCAGCCGCGACAAGCCGGCCACCGGGCCGAGCTTCCTGTCGCTGGTGCTGAACTTCCTGCCGGTCATCCTGATCATCGGCTTCTGGCTGTTCATCATGCGCCAGATGCAGGGCGGTGGCGGCGGTGCCAAGGGCGCGATGTCGTTCGGCAAGTCGCGCGCCAAGCTGCAGGGCGAGGACCAGATCAAGGTCACCTTCGCCGATGTCGCCGGCTGCGACGAGGCCAAGGAGGAGGTCGGCGAACTGGTCGACTTCCTGCGCGACCCGACCAAGTTCACCAAGCTCGGCGGCCGCATCCCACGCGGCGTGCTGATGGTCGGCTCGCCCGGTACCGGCAAGACCCTGCTGGCCAAGGCGATCGCCGGCGAGGCCAAGGTGCCGTTCTTCTCGATCTCCGGCTCGGACTTCGTCGAGATGTTCGTCGGCGTCGGCGCCAGCCGCGTGCGCGACATGTTCGAGCAGGCCAAGAAGCACGCACCGTGCATCATCTTCATCGACGAGATCGACGCGGTCGGCCGCCATCGCGGCGCCGGCCTGGGCGGCGGTCACGACGAGCGCGAGCAGACCCTGAACCAGCTGCTGGTCGAGATGGACGGCTTCGAGGGCGGCGAGGGCGTGATCGTCATCGCTGCGACCAACCGTCCGGACGTGCTTGACCCGGCGCTGCTGCGTCCGGGCCGCTTCGACCGCCAGGTGGTGGTCGGCCTGCCGGACGTGAAGGGGCGCGAGCAGATCCTGCGCGTGCACATGCGCAAGCTGCCGCTGGCCGACGACGTCGAGCCGATGGTGATCGCGCGCGGTACGCCGGGCTTCTCCGGCGCCGACCTGGCCAACCTGTGCAACGAGGCGGCGCTGTTCGCCGCGCGCGGCAACGAGAAGGAGGTCCGCATGGACCACTTCGACCGCGCCCGCGACAAGATCCTGATGGGCGCCGAGCGCCGCTCGATGGCGATGAGCGAGGAGGAGAAGACCCTCACCGCCTACCACGAGGCCGGCCACGCCATCGTCGGTCGCCTGGTGCCCGAGCACGACCCGGTCTACAAGGTCACGATCATCCCGCGCGGCCGCGCGCTGGGCGTGACGATGTACCTGCCGGAGGGCGACAAGTATTCGATGAACCGCGTGGCGATCGAGTCGCAGCTGTGCTCGCTGTATGGCGGCCGCGTCGCCGAAGAGCTGATCTTCGGCGAGGACAAGGTCACCACCGGCGCGTCCAACGACATCGAGCGTGCGACCAAGATGGCGCGCAACATGGTCACCAAGTGGGGCCTGTCCGACGAGCTCGGCCCGGTCGCCTACGGTGAGCAGGAGGACGAGGTGTTCCTCGGCCGTTCGGTGACCCAGCACAAGAACGTGTCCGACGAGACCGCGCGCCGCATCGACGAAGTGGTGCGGTCGATCCTGGACAAGGCTTACGGCAAGACCCGGCAGATCCTCACGGACAACCTCGACAAGCTGCATGCGATGTCGCAGCTGCTGCTGCAGTACGAGACCATCGACGCGCCGCAGATCGACGCGATCATGGAAGGCCGCGAGCCGCCGCCGCCGGCGGGCTGGGGCAAGTCCGGCAAGGATGGCGGCAACAACGACAAGGGATCGCCGCGGCCGCTGCCGCCGATCGCCGGGCCGGCCGAACAGATCTGA	MNDLTKNLLLWVVVAVVLMVVFQSFSPRMSGGGASNELSYSQFLKEVDGGRIKSVDFTDESGFSANVIRFKRGDQSEGMVYGPRDDKLVDVLVNKNVEISRDKPATGPSFLSLVLNFLPVILIIGFWLFIMRQMQGGGGGAKGAMSFGKSRAKLQGEDQIKVTFADVAGCDEAKEEVGELVDFLRDPTKFTKLGGRIPRGVLMVGSPGTGKTLLAKAIAGEAKVPFFSISGSDFVEMFVGVGASRVRDMFEQAKKHAPCIIFIDEIDAVGRHRGAGLGGGHDEREQTLNQLLVEMDGFEGGEGVIVIAATNRPDVLDPALLRPGRFDRQVVVGLPDVKGREQILRVHMRKLPLADDVEPMVIARGTPGFSGADLANLCNEAALFAARGNEKEVRMDHFDRARDKILMGAERRSMAMSEEEKTLTAYHEAGHAIVGRLVPEHDPVYKVTIIPRGRALGVTMYLPEGDKYSMNRVAIESQLCSLYGGRVAEELIFGEDKVTTGASNDIERATKMARNMVTKWGLSDELGPVAYGEQEDEVFLGRSVTQHKNVSDETARRIDEVVRSILDKAYGKTRQILTDNLDKLHAMSQLLLQYETIDAPQIDAIMEGREPPPPAGWGKSGKDGGNNDKGSPRPLPPIAGPAEQI				NA	NA	NA	NA	NA
BMS020_08740	171			hypothetical protein	ATGTCCGACCAGCCGCCTCCTTCGACGACCCGTGAGATCGTCATCGCCACCGTGGTCGGGGTCGGCGTCGGCCTGGCGCTGGACAACGTGGTGATCGGGGCCGGGGTCGGCATCGCGCTGGGCATCGTGCTCAGCGCGGTGAAGATCGTCCGCGCCGGGAAGCCGCGCTGA	MSDQPPPSTTREIVIATVVGVGVGLALDNVVIGAGVGIALGIVLSAVKIVRAGKPR				NA	NA	NA	NA	NA
BMS020_08741	897	folP_2	COG0294	Dihydropteroate synthase	ATGTTCGACATGACGCCGGTACTGGACTGCAACGGGCGCGCGCTGGCGCTGGACCGCGCGCAGGTGATGGGCATCGTCAACGTGACCCCGGATTCGTTCTCCGACGGCGGCCATCACGACACGCTGGAGGCGGCGGTCGCGCACGGCCTGCGCCTGGTCGAGGAGGGCGCCGCGATCCTCGACATCGGTGGCGAGTCGACCCGCCCGGGCGCCACGCCGGTGCCGGTCGAGGAGGAGCTGCGCCGGGTGGTGCCGGTGATCGAGCAGCTGGCCGCCCGCACCGGCGTGCCGCTGAGCATCGATACCTTCAAGCCGGAGGTGATGCGTGCGGCGGTGGCCGCCGGTGCCGGCATGATCAACGACATCTGGGCGCTGCAGGCGCCGGGCGCGCTGGAGGCGGCGGCCGAGCTGCGGGTGCCGGTGGTGCTGATGCATGCGCGTTCGCAGCCGTTGTCGATGCAGGCGGCGCCGCATTATGACGACGTGGTCGGCGAGGTGCACCGGTTCCTGGCCGAGCGGATCTTCGCCGCCGAGATGGCCGGCATCGACAAGAAGCGGATCGTGCTCGACCCCGGGTTCGGCTTCGACAAGGACCTCGCGCAGAATCTCAGGTTGCTGGCCGAGCTGGAACGTTTCGGCGAGTTCGGCCTGCCGCTGCTGGCCGGATTGTCGCGCAAGCGTTGCATTGGTGAGCTGACCGGCCAGGCCGATCCTGCCGCGCGCGTGCATGGCTCGGTCGCCGCGCACCTGCTGGCGGCGCAGCGTGGCGCGGGCATCGTGCGGGTGCACGATGTCGCCGCGACCGTGGATGCGCTGAAGGTCTGGCAGGCGCTGCCGGCACCGACGAAGGCGCGCGCGGCGACGCAGGCGATGCCGCGCTGGCCGGACGAAGACTGA	MFDMTPVLDCNGRALALDRAQVMGIVNVTPDSFSDGGHHDTLEAAVAHGLRLVEEGAAILDIGGESTRPGATPVPVEEELRRVVPVIEQLAARTGVPLSIDTFKPEVMRAAVAAGAGMINDIWALQAPGALEAAAELRVPVVLMHARSQPLSMQAAPHYDDVVGEVHRFLAERIFAAEMAGIDKKRIVLDPGFGFDKDLAQNLRLLAELERFGEFGLPLLAGLSRKRCIGELTGQADPAARVHGSVAAHLLAAQRGAGIVRVHDVAATVDALKVWQALPAPTKARAATQAMPRWPDED	PGPT0007915_1189	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007915-folP-K00796	NA	NA
BMS020_08742	984	miaA_2	COG0324	tRNA dimethylallyltransferase	ATGCCGGTCGACCGCCGCCCGGCGGCGATCGCGGTGATGGGGCCGACCGCCTCGGGCAAGACTGCGTTCGCGATGGACCTGGCGCAGCGCCTGGGCGGGGAGATCGTCAGTGTCGATTCGGCGCTGGTCTATCGTGGCCTGGACATCGGTGCGGCCAAGCCGGACGCGGCGATGCGGGCCGCGGTGCCGCACCACCTGATCGACGTCTGCGATCCGTGGCGCAGCTATTCGGCGGCGGAGTTCGCGCTGGCCGCGCGTGCGGCGATCGACGGCATCGTCGCGCGCGGGCGGTTACCGATCCTGGCCGGCGGCACCGGGCTGTATTTCGATGCACTGCTGCGCGGGCTGTCGGCGATGCCGGCGGCCGATCCGGCGCTGCGCGCAACGATCGCCGCCGAGGCGCAGACGCGTGGGTGGGCGGCGCTGCATGCCGAGCTGGCCGCGGTCGACCCGCGTGCGGCGGCGCGCATCCACGCCACCGACCCGCAGCGCATCCAGCGGGCGCTGGAGGTATACCGTCTCAGCGGGCGCCCGATCAGCGCCTGGCAGGCCGATCCGCCACCGCCGCGGTTGCCGCTGCGGGTGCTCAAGCTGGTGCTGGCGCCGGCCGATCGCGCGGTCCTGCATGCGCGGATCGCGCAGCGTTTCGATGCGATGCTGGCCGAGGGCTTCCTCGACGAGATGCTGCGGCTGCGTGCCGTGCCGGAACTGGCTGCAGCCGCGGCGCCGCTGGACCTGCCGGCGATCCGCGCGGTGGGCTACCGTCAGGCCTGGGAATTCCTCGACGGCTATGGTGATACGGCCGGGTTCCGCGACCGCGCGATCTTCGCCACCCGCCAGCTGGCCAAGCGGCAGTTGACCTGGTTGCGTGGCGAACTGGATGCGCGCTGGTTCGATCCTGGCGCCGGCATGGCCGCGGCGCAGATGGCGGTGACGGCATTCCTTGGCAGCGCTGGCGCTGCGGGCGGGCCGCCGGGCGTGTAA	MPVDRRPAAIAVMGPTASGKTAFAMDLAQRLGGEIVSVDSALVYRGLDIGAAKPDAAMRAAVPHHLIDVCDPWRSYSAAEFALAARAAIDGIVARGRLPILAGGTGLYFDALLRGLSAMPAADPALRATIAAEAQTRGWAALHAELAAVDPRAAARIHATDPQRIQRALEVYRLSGRPISAWQADPPPPRLPLRVLKLVLAPADRAVLHARIAQRFDAMLAEGFLDEMLRLRAVPELAAAAAPLDLPAIRAVGYRQAWEFLDGYGDTAGFRDRAIFATRQLAKRQLTWLRGELDARWFDPGAGMAAAQMAVTAFLGSAGAAGGPPGV	PGPT0007210_1084	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0007210-miaA|ipt-K00791	NA	NA
BMS020_08743	279	hfq_2	COG1923	RNA-binding protein Hfq	ATGTCCAAGGGGCAATCCTTGCAGGATCCTTTCCTGAACGCGCTGCGTCGTGAGCGGGTGCCGGTGTCGGTCTACCTGGTCAACGGCATCAAGTTGCAGGGCACGATCGAGTCGTTCGATCAGTTCGTGGTGTTGTTGCGCAACACCGTCAGCCAGATGGTCTACAAGCATGCGATTTCCACCGTGGTGCCGGCGCGCAACGTGCGCGTGGGGCCGGGCGGTGGCTACGTGCAGTCCAACGATGCACATGATGCACAGCAGGAAGATGGTGACGAGTAA	MSKGQSLQDPFLNALRRERVPVSVYLVNGIKLQGTIESFDQFVVLLRNTVSQMVYKHAISTVVPARNVRVGPGGGYVQSNDAHDAQQEDGDE	PGPT0025560_568	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
BMS020_08744	1314	hflX_2	COG2262	GTPase HflX	GTGTTTGACCGCTCCAAGAGGGGCGAGCACGCGCTGCTGATCCAGCCGCACGCTGGCGGCCCCGCCGAAGAGGATGTGCTGGAGGAGTTCGCCGACCTGGCCAGGTCGGCGGGCGCCACGATCGCCACCACGCTGACCGCGCGCATCGACCGGCCGAGCCCGTCGACGCTGATCGGCAGCGGCAAGCTGGAAGAAGTGAAGGCCGCCGCCGATGCCACCGGCGCAGACCTGATCCTGGTCAACCACGCCTTGACCCCGGTGCAGGAACGCAACCTGGAGCGCTTCCTGGAGCGCCGGGTGATCGACCGCACCGGGCTGATCCTGGACATCTTCGCCCAGCGTGCGCACAGCCACGAGGGCAAGCTGCAGGTCGAGCTGGCGCAGCTGCGCCACCTGGCCACGCGGCTGGTGCGCGGCTGGACCCACCTGGAGCGCCAGCGCGGCGGTTCCATCGGCCTGCGCGGCCCCGGCGAAACCCAGCTGGAAACCGACCGCCGCCTGCTGCAGAAGCGGGTCGAGCAGCTGCAGAAGCGGCTGGAGAAGGTCGAGGTGCAGCGCACCCAGATGCGCCGCGCGCGCGTGCGCAGCGAGCTGCCGCGGGTGGCGCTGGTCGGCTACACCAATGCCGGCAAGTCCACGCTGTTCAACGCGCTGACCGGAGCGGAGGCCTACGCCGCCGACCAGCTGTTCGCCACGCTCGACCCGACCGTGCGCCGCATCGCGCTGCCGGGCGGCAGCGTGGTGCTGGCCGACACTGTCGGCTTCGTCCGCGACCTGCCGCACGAGCTGGTCGCCGCGTTCCGTTCCACGCTGTCCGAGGCGCGCGAGGCCGACCTGCTGCTGCACGTGGTGGACGCCGCCGATCCGCACCGCGAGGAGCGCATCCAGCAGGTCGACGAAGTGCTTGGGGCGGTCGGTGCCGGCGAATTGCCGCAGCTGCTGGTGTTCAACAAGATCGACCGGGTCGAGGGTGCCGAGGTGCGTCACGACGCGCAGGACGGCATTCCCGACCAGGCACGACGCGAGCGCGTGTGGATCTCCGCACGCGGTGGCGATGGGCTGGACCTGCTGCGGCAGGTGCTGGGCCACCGTCTCGGCCTGCAGCACGTGCAGGGCACGCTGCTGCTGCCGCTGTCGGCCGGGCGCCTGCGCTCGCGCCTGCATGCACTCGACGTGGTGCGCGCCGAGCGCGCCGACGAACAGGGCTGGGCGATCGAGGTCGACCTGCCGCTGGCCGAAGCCGAGCGCCTGGCGGCTGATCGCGACGGCGCGCCGATCCGCGCGTTGCTGCCCCGCGTCGAGGAAGAATGGTAG	MFDRSKRGEHALLIQPHAGGPAEEDVLEEFADLARSAGATIATTLTARIDRPSPSTLIGSGKLEEVKAAADATGADLILVNHALTPVQERNLERFLERRVIDRTGLILDIFAQRAHSHEGKLQVELAQLRHLATRLVRGWTHLERQRGGSIGLRGPGETQLETDRRLLQKRVEQLQKRLEKVEVQRTQMRRARVRSELPRVALVGYTNAGKSTLFNALTGAEAYAADQLFATLDPTVRRIALPGGSVVLADTVGFVRDLPHELVAAFRSTLSEAREADLLLHVVDAADPHREERIQQVDEVLGAVGAGELPQLLVFNKIDRVEGAEVRHDAQDGIPDQARRERVWISARGGDGLDLLRQVLGHRLGLQHVQGTLLLPLSAGRLRSRLHALDVVRAERADEQGWAIEVDLPLAEAERLAADRDGAPIRALLPRVEEEW	PGPT0007245_2128	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007245-hflX-K03665	NA	NA
BMS020_08745	1311	kgtP_2		Alpha-ketoglutarate permease	ATGTCCCAGCAGCAAGCAGCATCCGCCATCCCGCAGTACACCGCCGAGGAAAAACGCCACCGCGTGTTCGCGATCATGGCGGCCTCGTCCGGCAATCTCGTCGAGTGGTTCGACTTCTACGTCTATGCGTTCTGTGCGATCTACTTCGCCAGCGCGTTCTTCCCCGCCGGCGATTCCACCGCGCAGCTGCTCAAGAGCGCGGGCGTGTTCGCCGCCGGCTTCCTGATGCGCCCGATCGGTGGCTGGCTGTTCGGCCGCATCGCCGACCGCCTCGGCCGCAAGACCTCGATGCTGATCTCGGTGACGATGATGTGCGCCGGCTCGCTGATGATCGCGTGCCTGCCCACCTACGCCTCGATCGGCGCGATGGCGCCGCTGCTGCTGCTGGTCGCGCGCCTGATCCAGGGCCTGTCGGTGGGCGGTGAATACGGCACCACCGCGACCTACATGAGCGAAGTGGCGCTGCGTGGGCAGCGCGGCTTCTTCTCCTCGTTCCAGTACGTGACCCTGATCGGCGGCCAGCTGCTGGCCGTGCTGGTCATCGTGGTCATGGAAGCGCTGCTGACCGAGCAGGAGATCCGTGCCTGGGGTTGGCGCGTGCCGTTCGTGATCGGCGCGGTCGCCGCGGTGGTGGCGCTGCTGCTGCGCCGTACCCTGACCGAGACCCAGACCGAGGCCAGCCGGGCGAACAAGGAAGCCGGTTCGCTGGCGGGCCTGTTCAAGCACCACAGCCCGGCGTTCTTCACCGTGCTCGGCTACACCGCTGGCGGCTCGCTGATCTTCTATACGTTCACCACGTACATGCAGAAGTTCCTGGTCAACACCGTGCACCTGCCGATCAAGACCGCCAGCTTCGTGATGACCGGCGCGCTGTTCCTCTACATGTGCATGCAGCCGGTGTTCGGCATGCTGTCGGACCGTATCGGCCGCCGCAACAACATGCTGCTGTTCGGCGCGCTGGGCGCGCTGTGCACGGTGCCGATCCTGACCGCGCTGCAGCACGTGACCAGCCCGGTGCTGGCGTTCGTGCTGATCGTGGTGGCGTTGGCGATCGTCAGCTTCTACACCTCGATCAGCGGCATCGTGAAGGCGGAGATGTTCCCGCCGGAAGTGCGTGCGCTCGGCGTCGGCCTGGCGTATGCGGTCGGCAACGCGATCTTCGGCGGTTCGGCCGAGTTCGTCGCGCTGGGCCTGAAGGACCAGGGCCACGAGACGGCGTTCTTCTGGTACGTCACCGTGATGATGGTGATCGCGTTCCTGGTCAGCCTGCGCCTGCCGCGCCAGGCCAGCTACCTGCACCACGACCATTGA	MSQQQAASAIPQYTAEEKRHRVFAIMAASSGNLVEWFDFYVYAFCAIYFASAFFPAGDSTAQLLKSAGVFAAGFLMRPIGGWLFGRIADRLGRKTSMLISVTMMCAGSLMIACLPTYASIGAMAPLLLLVARLIQGLSVGGEYGTTATYMSEVALRGQRGFFSSFQYVTLIGGQLLAVLVIVVMEALLTEQEIRAWGWRVPFVIGAVAAVVALLLRRTLTETQTEASRANKEAGSLAGLFKHHSPAFFTVLGYTAGGSLIFYTFTTYMQKFLVNTVHLPIKTASFVMTGALFLYMCMQPVFGMLSDRIGRRNNMLLFGALGALCTVPILTALQHVTSPVLAFVLIVVALAIVSFYTSISGIVKAEMFPPEVRALGVGLAYAVGNAIFGGSAEFVALGLKDQGHETAFFWYVTVMMVIAFLVSLRLPRQASYLHHDH	PGPT0001525_96	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_KETO-|OXOGLUTARATE_TRANSPORT,PGPT0001525-kgtP-K03761	NA	NA
BMS020_08746	498	pncC_4	COG1546	Nicotinamide-nucleotide amidohydrolase PncC	ATGACCGCCATTCCCGACGACGCCGATCTCCTGGCCCTTGCGCAGGCCCTCGGCCAGCGCCTACGCGACGCGCGTGCGCGCCTGGTCACCGCCGAAAGCTGTACCGGCGGCTGGATCGCCAAGGCGGTCACCGATGTGGCCGGGTCCTCGGATTGGTTCGACTGCGGCATGGCCGCCTACAGCTATGAAGCCAAACAGGCGCTGCTCGGCGTGCGTCCGCAAACTTTGGAGACGCACGGCGCGGTCAGCCGCGAGACGGTGATCGAGATGGTGTCCGGCGCGCTGGTGCATTCCGGCGCCAGCATCGCCGTCGCGGTGACCGGCATCGCCGGGCCCGGCGGCGGCAGCGAGGACAAGCCGGTCGGCACGGTCTGGATCGGCTGGAAGCGGCGCGGTGGCTACGCCAGCGCCGAGCTGTTCCAGTTCGTCGGCGACCGCGATGCGGTGCGCCGGCAGACCGTTGCCGCCGCGCTGCACGGCCTGGTCGCGCTGGCATGA	MTAIPDDADLLALAQALGQRLRDARARLVTAESCTGGWIAKAVTDVAGSSDWFDCGMAAYSYEAKQALLGVRPQTLETHGAVSRETVIEMVSGALVHSGASIAVAVTGIAGPGGGSEDKPVGTVWIGWKRRGGYASAELFQFVGDRDAVRRQTVAAALHGLVALA	PGPT0013460_1534	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013460-pncC2-K03743	NA	NA
BMS020_08747	1677	ubiB_4	COG0661	putative protein kinase UbiB	ATGTGGGAGGCGCTGGGCACGGTCCGCGATCTGGGGCGGCTGCAGGAAATCGCCTCGGTGCTGATCCGCTATGGCTTCGGCGACGTGGTCCGGCGCATCGGCATGGCCGAGGTGCTCGAACGCGCCGGACGGCTGCTGCACTGGTCCAACGCCGAGGGGCTGCTGCGGATGTCGGCGGCGGTGCGGGTGCGGCGTGCGCTGGAGGAGCTGGGACCAACCTTCGTCAAGCTCGGCCAGGTGCTGGCCACGCGCGTGGACCTGCTGCCGCCGGAGTGGACCGAGGAGCTGAGCGAGCTGCAGAACGCAGTGCCTGCGCTGCCGTTCGCGCAGATCCGCGCGCAACTGGTGGCCGACCTCGGTGCGGCGCCGGAAGAAGTGTTCGCGCGCTTCGACGAGCAGGCGCTGGCGGCGGCGTCGCTGGCGCAGACCCATCGCGCCTGGCTCGACGATGGCCGCGCGGTGGTGCTCAAGGTGCGCCGGCCCGGCATCCGTGACGTGGTCGAGGCCGACCTGCGGTTGCTGGCGCGGCTGGCCGAGATCGTCGAGGCGCGTGCGCCCGACCTGCAGCGCTACCGCCCGGCCGAGGTCGTGCACCAGTTCACCGTGTCGCTGCGGCGCGAGCTGGATTTCGCCGGCGAGTGCCGCAACGCCGAGCGTATCGCCGCCAATTTCGAAGACCACCCCGAAGTAGTGGTGCCGGCGGTGCATTGGCAGTGGACCTGCGAAAGCCTCAACGTGCAGGACTTCGTCGACGGCATCCCCGGGCGCGACCTGGCCCAGGTCGACGCGGCCGGGCTGGACCGGGTGCAGCTGGCGCGTACCGGTGCCGGCATCGTGCTGAAGATGGTGCTGGAGGACGGCTGTTTCCATGCCGATCCGCATCCGGGCAACATCTTTTACCTGCGCGATGGCCGCATCGCCATCATCGATTTCGGCATGGTCGGGCGGATTTCCGAACAGCGCCGGCAACAGGTCGCGCAGCTGCTCTACGGCATGGTCGACCACGACGCCGAGGCGGTCACCGACGTGCTGCTGGAATGGGCCGCCGGCGGCCTGGACGTGGACGAGGGCAGGCTGCAGCAGGACATCGGCGCCTTCGTCGACCAGTATCGCGGCGTGCCGCTGAAGGAGCTGCGGATCGGCGCGATGCTGGCCGACGTCACCGCGATCCTGCGCGAGCATGCGCTGTCGCTGCCTGCCGACTTGGCCTTGATGATCAAGGCCTTCCTCAGCCTGGAGGGCATGGGCCGCCAGCTCGACCCGGATTTCGACATGGCCAGCGAGGCGCGGCCCTACCTGCAGCGGGTGCTGCTGCAGCGCTACGCGCCGCGCGCGGTGCTGCGTCGCGGCCGCCGCAGCCTGGCCGGCGCGATCGACCTGATGGGCGAGGCGCCGCGCGACATCAAGCGGCTGATCCAGGCCGCGCGGCGTGGGCGCCTGCAGCTGCACGTGGAGACGCAGTCGCTGAAGGCGTTCGGCGCGCAGATCAACCGCGCCGCGAACCGGCTGACCATGGGGATCGTGACTGCGGCGCTGCTGATCGGATCGTCGATCGTGATGAACAGCGTTGGCGGCATCTCCAGCCGCTGGCTGCTGGCACTGGGCGTGGCCGGCTTCATCGGCGCCGGCATGTGCGGGGTGTGGATCCTGGTGTCGATCTGGCGCAGCGGGCGCTGA	MWEALGTVRDLGRLQEIASVLIRYGFGDVVRRIGMAEVLERAGRLLHWSNAEGLLRMSAAVRVRRALEELGPTFVKLGQVLATRVDLLPPEWTEELSELQNAVPALPFAQIRAQLVADLGAAPEEVFARFDEQALAAASLAQTHRAWLDDGRAVVLKVRRPGIRDVVEADLRLLARLAEIVEARAPDLQRYRPAEVVHQFTVSLRRELDFAGECRNAERIAANFEDHPEVVVPAVHWQWTCESLNVQDFVDGIPGRDLAQVDAAGLDRVQLARTGAGIVLKMVLEDGCFHADPHPGNIFYLRDGRIAIIDFGMVGRISEQRRQQVAQLLYGMVDHDAEAVTDVLLEWAAGGLDVDEGRLQQDIGAFVDQYRGVPLKELRIGAMLADVTAILREHALSLPADLALMIKAFLSLEGMGRQLDPDFDMASEARPYLQRVLLQRYAPRAVLRRGRRSLAGAIDLMGEAPRDIKRLIQAARRGRLQLHVETQSLKAFGAQINRAANRLTMGIVTAALLIGSSIVMNSVGGISSRWLLALGVAGFIGAGMCGVWILVSIWRSGR	PGPT0009520_670	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
BMS020_08748	921	mscS_3	COG0668	Small-conductance mechanosensitive channel	ATGTTCGCTGCCGCAAAACCCGCCGCTTCCGCCTCGCTGTTCAGCCACGTCGACTGGCAGATGATCCTCACCCGCTACGGCGTGCCGCTGCTGTCCGGGCTGCTGGTGCTGCTGATCGGGCTGTGGCTGGCCAAGTGGTTGGCCAACACGGTGATGCCGCGCGCCACCGTGCGCATGGACCCGATGCTCAGCGCGTTCCTGCGCAACGTGGCTTATGTCGCCGCGCTGCTGATCGTGGCACTGACCGCGGTGCGGACCGTCGGCATCGAGATCACTCCGTTGCTGGCGATCCTCGGCACCGCCGGCCTGGCCATCGGCCTGGCATTGAAGGACTCGCTGTCCAACATCGCCGCCGGGGTGATGCTGGTGACGCTGCGGCCGTTCCACGTCGGCGACGTGGTCACCATCGCCGGGCAGACCGGCACGGTGGAGGCGGTGCGGATCTTCCAGACCATCCTCAACGGTGCCGACCGCCAGCGCTTCACCATCCCCAACAACCTGATCACCGCCAGCCCGATCATCAACCTCACCGCGCAGCCGACCCGCCGCGTGGAGCTGATCATCGGCATCGGCTACGACGACGACATCCGCCTGGCGCGCAAGATCGCGCTGGAAGTGATGCATGCCGATGCGCGCGTGCTCAAGGACCCGGAGCCGGATGTGGTGGTCTACGAACTGGCCGACAACGCGGTCAACCTCGGCATCCGCTGCTTCGTGAAGTCCGGCGACTGGTTCGGCACCAAGGTGTCGCTACTGGAGGAGATCAAGCACGGCTTCGATGCGGCCAGCGTCACCATCCCCTATCCGCAACAGGACATGCACCTTTACCTGCACGGCTCGGACGGCCAGCGCATCGGTCTGGAAGCGCTGGTGCGCACGCCCAAGCAGGGCGGCCAGCCGCTCGACGCGCCCGGGACCTGA	MFAAAKPAASASLFSHVDWQMILTRYGVPLLSGLLVLLIGLWLAKWLANTVMPRATVRMDPMLSAFLRNVAYVAALLIVALTAVRTVGIEITPLLAILGTAGLAIGLALKDSLSNIAAGVMLVTLRPFHVGDVVTIAGQTGTVEAVRIFQTILNGADRQRFTIPNNLITASPIINLTAQPTRRVELIIGIGYDDDIRLARKIALEVMHADARVLKDPEPDVVVYELADNAVNLGIRCFVKSGDWFGTKVSLLEEIKHGFDAASVTIPYPQQDMHLYLHGSDGQRIGLEALVRTPKQGGQPLDAPGT	PGPT0013773_725	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013773-mscS|yggB-K03442	NA	NA
BMS020_08749	2382	ppsA_2		Phosphoenolpyruvate synthase	TTGAACGAAAATATCCTGTGGTTGCATGAGCTGCGCCTGGCCGACCTGGCCCGCGTCGGCGGTAAGAATTCGTCGCTTGGCGAAATGATCGGCAACCTCGCCGGCCTGGGGGTTTCGGTCCCGGGCGGATACGCCACCACGGCGGAGGCGTTCAAGGCGTTCATCGCCCACAACGACCTGTCCAAGCGCATCTTCGACAAGCTGGCCACGCTCGATGTCGAGGACGTCGGCGCGCTGACCGCCGCCGGCAAGGAGATCCGCGACTGGGTCATCGATGCGCCGCTGCAGCCGGAACTGGACAAGGACATCCGCGACGCCTACACCAAACTGTGCGCCGAGAACGGCGGCGGCGAGGTGGCCGTCGCGGTGCGTTCCTCGGCCACCGCCGAGGACCTGCCGGACGCCTCGTTCGCCGGCCAGCAGGAGACCTTCCTCAACGTCACCGGTGCCGACGACGTCGTGCACAAGGTCAAGGAAGTGTTCGCCTCGCTGTACAACGACCGCGCGATCGCCTACCGCGTCCACCACGGCTTCAAGCACGAGGACGTGTTCCTGTCGGCCGGCGTGCAGCTGATGGTGCGCTCGGGAGTCGGTTCCTCCGGCGTGCTGTTCACCCTGGACACCGAATCCGGCTTCCGCGACGTGGTGTTCGTCACCTCCTCGTTCGGCCTTGGCGAGATGGTCGTGCAGGGCGCGGTCAATCCGGACGAGTTCTACGTCTACAAGCCCACCCTGCAGGCCGGCAAGCCGGCGATCCTGCGCCGTTCGCTCGGCGGCAAGGCGATCCGCATGGTGTACTCGGACGTCCCCGGCGAACGCGTCAAGATCGAGGACACCCCGGCCGAGCTGCGCAGCACCTTCTCGATCAGCGATGCCGACGTGCAGGAGCTGTCCAAGCAGGCGCTGGTCATCGAGAAGCACTACGGCCGCCCGATGGACATCGAGTGGGCCAAGGACGGTGTCAGCGGCAAGCTGTTCATCGTGCAGGCGCGCCCGGAGACGGTGAAGTCGCGCAGCCACGCCACTCAGATCGAGCGGTTCTCGCTCGACGCCAAGGGCGCCAAGGTACTGGCCGAGGGCCGCGCAGTCGGCGCCAAGGTCGGCGCCGGCGTGGCCCGCGTGGTGCGCTCGCTCGAGGACATGAACAAGGTCCAGCCCGGCGACGTGCTGGTCGCCGACATGACCGACCCGGACTGGGAGCCGGTGATGAAGCGCGCCAGCGCGATCGTCACCAACCGCGGCGGCCGCACCTGCCACGCGGCGATCATCGCGCGCGAGCTCGGCGTGCCGGCCGTGGTCGGCTCGGGCAACGCCACCGAGGTCATCGCCGACGGCAAGGAGATCACCGTCAGCTGCGCCGAGGGCGACACCGGCTTCATCTACGAGGGCAAGCTGGCCTTCGAGCGCACCACCACCGATCTCGGCAACATGCCGCCGGCGCCGCTGAAGATCATGATGAACGTCGCCAACCCGGAGCGCGCGTTCGACTTCGGCCAGCTGCCCAACGCCGGTATCGGCCTGGCGCGGCTGGAGATGATCATTGCCAGCCACATCGGCATCCACCCGAACGCGCTGCTGGAGTATTCCAGGCAGGACGCCGAGACCAAGAAGAAGATCGACGCCAAGATCGCCGGCTATGGCGACCCGGTCGATTTCTACGTCAACCGCCTGGCCGAGGGCATCGCCACGCTGACCGCGTCGGTGGCGCCGAACACGGTGATCGTGCGGCTGTCGGACTTCAAGTCCAACGAATACGCCAACCTGATCGGCGGCAGCAACTACGAGCCGCACGAAGAGAACCCGATGATCGGCTTCCGCGGCGCCAGCCGTTACGTCGATCCGTCCTTCACCCAGGCCTTCGCGCTGGAGTGCAAGGCGGTGCTGAAGGTGCGCAACGAGATGGGCCTGGAGAACCTCTGGGTGATGATCCCGTTCGTGCGCACGCTGGAGGAAGGCCGCAAGGTGGTCGAGGTGCTGGAGGCCAACGGCCTCAAGCAGGGCGAGAACGGCCTGAAGATCATCATGATGTGCGAGGTGCCGTCCAACGCGCTGCTGGCCGACGAGTTCCTGGAGATCTTCGACGGCTTCTCGATCGGCTCCAACGACCTGACCCAGCTGACCCTGGGCCTGGACCGCGATTCGTCGATCGTCGCGCACCTGTTCGACGAGCGGAACCCGGCGGTCAAGAAGCTGTTGTCGCTGGCGATCAAGTCCGCGCGCGCCAAGGGCAAGTACGTCGGCATCTGCGGCCAGGGCCCGTCCGATCACCCCGACCTGGCCGAGTGGCTGATGCAGGAAGGCATCGAGTCGGTGTCGCTCAATCCCGACACCGTGGTCGATACCTGGCTGCGCCTGGCCAAGCTCAAGGCCGCGACCGCCTGA	MNENILWLHELRLADLARVGGKNSSLGEMIGNLAGLGVSVPGGYATTAEAFKAFIAHNDLSKRIFDKLATLDVEDVGALTAAGKEIRDWVIDAPLQPELDKDIRDAYTKLCAENGGGEVAVAVRSSATAEDLPDASFAGQQETFLNVTGADDVVHKVKEVFASLYNDRAIAYRVHHGFKHEDVFLSAGVQLMVRSGVGSSGVLFTLDTESGFRDVVFVTSSFGLGEMVVQGAVNPDEFYVYKPTLQAGKPAILRRSLGGKAIRMVYSDVPGERVKIEDTPAELRSTFSISDADVQELSKQALVIEKHYGRPMDIEWAKDGVSGKLFIVQARPETVKSRSHATQIERFSLDAKGAKVLAEGRAVGAKVGAGVARVVRSLEDMNKVQPGDVLVADMTDPDWEPVMKRASAIVTNRGGRTCHAAIIARELGVPAVVGSGNATEVIADGKEITVSCAEGDTGFIYEGKLAFERTTTDLGNMPPAPLKIMMNVANPERAFDFGQLPNAGIGLARLEMIIASHIGIHPNALLEYSRQDAETKKKIDAKIAGYGDPVDFYVNRLAEGIATLTASVAPNTVIVRLSDFKSNEYANLIGGSNYEPHEENPMIGFRGASRYVDPSFTQAFALECKAVLKVRNEMGLENLWVMIPFVRTLEEGRKVVEVLEANGLKQGENGLKIIMMCEVPSNALLADEFLEIFDGFSIGSNDLTQLTLGLDRDSSIVAHLFDERNPAVKKLLSLAIKSARAKGKYVGICGQGPSDHPDLAEWLMQEGIESVSLNPDTVVDTWLRLAKLKAATA	PGPT0002035_1506	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0002035-pps|ppsA-K01007	NA	NA
BMS020_08750	822	ppsR_2	COG1806	Phosphoenolpyruvate synthase regulatory protein	ATGTCAACGATCCGGCCGGTGTTCTACGTGTCCGATGGAACCGGTATCACCGCTGAAACTATTGGGCATAGCCTGCTCACCCAGTTCTCCGGTTTCAGCTTCGTCACCGACCGCATGTCGTTCATCGACGACCCCGACAAGGCGCGCGAGGCCTGCCAGCGCATCCACGCCGCCGGCGAGCGCTATGGGGTGCGGCCGATCGTCGTCAACTCCTGCGTCGACCCACAGCTGAGCGGCTTGCTGGCCGAGAGCGGGGCGCTGATGCTGGACGTGTTCGCGCCCTTCATCGAGCCGCTGGAGCGCGAGCTGAACTCGCCGCGCCATTCGCGGGTCGGCCAGGCCCACGGCATGGTCGATTTCGAGACCTACCACCGCCGCATCAACGCGATGAACTTCGCGCTCAGTCACGACGACGGCGTGGCGCTGAGCTACGACGAGGCCGACGTGATCCTGGTGGCGGTGTCGCGGGCCGGCAAGACCCCGACCTGCATCTACCTGGCGCTGCATTACGGGGTGAAGGCGGCGAACTACCCGCTGACCGACGAGGACCTGGAGACCGACCGCCTGCCGCCGCGGCTGCGCGCTTACCGGCGCAAGCTGTTTGGTCTGACCATCGACCCGGAGCGGCTGCAGCAGATCCGCCAGGAACGCCGGCCGAACTCGCGCTACTCCGCGGCCGAGACCTGCCGGCGCGAGGTCGCCGCCGCCGAGCACATGTTCCGCGCCGAGCGGATCCCGACCTTGAGCACCACCCACACCTCGATCGAGGAGATCTCCAGCAAAGTGCTGTCGACCTTCGGGCTGCAGCGGGAGATGTTCTGA	MSTIRPVFYVSDGTGITAETIGHSLLTQFSGFSFVTDRMSFIDDPDKAREACQRIHAAGERYGVRPIVVNSCVDPQLSGLLAESGALMLDVFAPFIEPLERELNSPRHSRVGQAHGMVDFETYHRRINAMNFALSHDDGVALSYDEADVILVAVSRAGKTPTCIYLALHYGVKAANYPLTDEDLETDRLPPRLRAYRRKLFGLTIDPERLQQIRQERRPNSRYSAAETCRREVAAAEHMFRAERIPTLSTTHTSIEEISSKVLSTFGLQREMF				NA	NA	NA	NA	NA
BMS020_08751	501			hypothetical protein	ATGCAGACCGTGTACTCCCGCCACGAACGCATCCCGCGCCTGAGCCGGTTCGGCTGGCTGATGGGGCTGTACGCGGAAAACTACGTCCACCTCAACCGCTTGTTCGCCCCGGCGGACCTGGCGGCCGGGCGCTACCTGTCCAGCGTCGGCGACGGCCTGGACCTGCGCCTGGACGTGATCGAGCACCATCGCTACACGGTCGAGCTGCGGCTGACCTACGACCTGTGTGACCCGGTCACCGGCGAGCCGGACCCGTCGGCGTTCGTGCGCGTGTACCGCGACGCGCGCCAGGCCGAGACCACCCACTGCTACGTCGGCCGGCGCTGGCAGGACGTGATGGGGATGTACCCGCCGCCGCAGGCGTTGATCGGCCACCGCATGCGCATGAACACCTTCCTCGGCAAGTGGCTGGAATACCTGGCCGACCGTGGCCATGGCGTGGCGCGGCTGCGCCCGGTGGAAGCGGACATGCTGCATTCCCCGGCGCTGCCGCTGTCCTGA	MQTVYSRHERIPRLSRFGWLMGLYAENYVHLNRLFAPADLAAGRYLSSVGDGLDLRLDVIEHHRYTVELRLTYDLCDPVTGEPDPSAFVRVYRDARQAETTHCYVGRRWQDVMGMYPPPQALIGHRMRMNTFLGKWLEYLADRGHGVARLRPVEADMLHSPALPLS				NA	NA	NA	NA	NA
BMS020_08752	489	mutX	COG0494	8-oxo-dGTP diphosphatase	ATGCCTTACACCCCCATCGTCGCCACCCTCGGCTACGTGCTGTCGCCGGATGGCCGGCGCGTGCTGATGATCCATCGCAACGCCCGCCCGGGCGACCATCACCTGGGCAAGTACAACGGCCTGGGCGGCAAGGTCGAGCCGGACGAGGACGTGCTGGCCGGCATGCGCCGCGAGCTGCACGAGGAAGCCGGCATCGAATGCAGCGCGATGCGCTTCCGCGGCACCATCAGCTGGCCGGGCTTCGGCAAGCACGGCGAGGACTGGCTGGGCTTCGTGTTCGTCATCGATGCCTTCGTCGGTGAAGTGAAGACCTCCAACCCCGAGGGCGCGCTGGAATGGGTCGAGTTGGAGCGGCTGCACGAGCTGCCGATGTGGGAGGGCGACCGCCACTTCCTGCCGCTGGTGTTCGACGCCGATCCGCGCCCGTTCCACGGGGTGATGCCGTACCGCGACGGGCGCATGCAGTCCTGGTCGTACTCGCGGCTGTGA	MPYTPIVATLGYVLSPDGRRVLMIHRNARPGDHHLGKYNGLGGKVEPDEDVLAGMRRELHEEAGIECSAMRFRGTISWPGFGKHGEDWLGFVFVIDAFVGEVKTSNPEGALEWVELERLHELPMWEGDRHFLPLVFDADPRPFHGVMPYRDGRMQSWSYSRL				NA	NA	NA	NA	NA
BMS020_08753	615			hypothetical protein	ATGAAACGTCATTTCTCGATGCTGCGCGATTTCCAGTTGGCCGATTGGTTCACGCTGGCCAACGCGTTCTGCGGAACCGGGGCGATCTTCGCGGCGATGCGTTTCCTGCAGGATGGCGCGCGCGGCGACCTGCTGTTCGGCATGGCGCTGATCCCGGCGGCGTTCGTGTTCGACGCGCTGGACGGGCGGGTGGCGCGCTGGCGCAAGTCGTCCTCGACGCTGGGCCGCGAGCTGGACTCGCTGGCCGACGTGATCTCGTTCGGCGTGGCGCCGGCGGCGCTGGCCTATGCCTGCGGCATGCGTGGCGGCTGGGACTGGCTGGTGCTGAGCTACTTCGTCTGCTGCGGCGTCAGCCGCCTGGCGCGCTACAACGTCACCGCCGAGGAGATCGCCGGCGACGCCGACAAGGTGCCGTATTTCGAGGGCACGCCGATCCCGACCAGCCTGGCGCTGGTGATCGTGCTGGCGGTGGCCGCTTCGCTCGGCCGCATCGGCGGCGACCTGTGGTGGGGGCACTGGCAGCTCGGCCGCTGGCAGCTGCACCCGCTGGTGCTGCTGTTCGCGCTGTCCGGCTCGTTGATGATCAGCAAGACGCTGCGGATCCCCAAGCCCTGA	MKRHFSMLRDFQLADWFTLANAFCGTGAIFAAMRFLQDGARGDLLFGMALIPAAFVFDALDGRVARWRKSSSTLGRELDSLADVISFGVAPAALAYACGMRGGWDWLVLSYFVCCGVSRLARYNVTAEEIAGDADKVPYFEGTPIPTSLALVIVLAVAASLGRIGGDLWWGHWQLGRWQLHPLVLLFALSGSLMISKTLRIPKP	PGPT0007695_2881	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
BMS020_08754	954			hypothetical protein	ATGCGCCGCATCCATCTCCGACCGCGTCGGCATGCCCAGCCGCTCGCCGATCTGTTCCGCCTCCTGCTGGACCGCCGCGCGCAGGCGCATCTGTGCATTGGCGAAGGCGCCATAGACCCGGCGGAACTCCTCCGACAGCGCGATGGCGGAATACGCCTCCTCGGCGGCCTCGATCCACACGTCGAACATCGCCCGCGCGCTGGTCAATTGCGCGCCGGCGCCCTCGTGCTCGGCCAGCTTGGCCTGGAACACCGTGAAGGCGCGCTCCAGCGCGACCTTCAACTGTTCGCCGTACGCCTGCGCCTGCGCTTGGTAGTCCTGCTGCGCCCGCGCCAGCCCCTGCCAGCGCGCCTGGTGATTGCGCCCGGCGCCGAACGCCGGCAGGTCCAGCCACGGCGCGGCCTCGCCCTGCCACTGCGCCAGCAGCCGGGCGACCTCCTGCAACCACGGGTCGCTACCACCGACGGCGCCACCGCGCAGCGAGCCCAGGGTCCACTGCATCAGGCGTTCGCCCTGGCCCTCGACCGCCTCGCGCCAGGCCTGGGCGACATCCTCGCTGGAGCTGTCGCGCCCGGCGAAGCGCGCCGCCACTTCCTGCATCGTGCCGAGCCAGTCGCCGGCCTGGTTGCGGAAACGCTCCAACGCATCCTGCGCCTCCGGCGTGGTGTCGCGCGGCAGCAGCCGCGACCACAGCGCGAAGGCCTGCTTCCATCCCGCATCGACCTGTTCACCGCCACCAGCCGGCGCGCCGGCAGCGCTGTTCGGCGCAGCGCTGTCCGGGTGGGCGGCCTTGTGCGCCAGGGCATCGCCCCAGGTGGTCCAGTAGTGGCGCGCAAGCGCCTCGAAATCGCCCGCGCCGGGGCCATTGGCCGTCATCGTCCCGCTCCGGTCAGCATCCAGCCCCCATGCTACCGCCGTTGCCTCAGGGCTTGGGGATCCGCAGCGTCTTGCTGA	MRRIHLRPRRHAQPLADLFRLLLDRRAQAHLCIGEGAIDPAELLRQRDGGIRLLGGLDPHVEHRPRAGQLRAGALVLGQLGLEHREGALQRDLQLFAVRLRLRLVVLLRPRQPLPARLVIAPGAERRQVQPRRGLALPLRQQPGDLLQPRVATTDGATAQRAQGPLHQAFALALDRLAPGLGDILAGAVAPGEARRHFLHRAEPVAGLVAETLQRILRLRRGVARQQPRPQREGLLPSRIDLFTATSRRAGSAVRRSAVRVGGLVRQGIAPGGPVVARKRLEIARAGAIGRHRPAPVSIQPPCYRRCLRAWGSAASC				NA	NA	NA	NA	NA
BMS020_08755	2040	aaeB_5		p-hydroxybenzoic acid efflux pump subunit AaeB	ATGGACTGGTTCGACCGGCAAGCCTGGCTGTTCTCGCTGAAGGCCTACCTGGCGTCGATCACGGCGCTGTACATCGGCCTGGCCTGCAACCTGTCGCGCCCGTACTGGGCGATGGCCACCGTGTACGTGGTCGCCCAGCCGCTGCTCGGGCCGACCCACGCCAAGGGCATCTACCGCATCGTCGGCACGCTGGTCGCCGGCGTGGCCACGCTGGTCATGGTGCCCAACCTGGTGGAGACGCCGCTGCTGCTGAGCGCGGTGATGTCGTTGTGGCTGTCGGCCTGCCTGTTCATGGCGCTGCTCAACCGCGGCCCGCGCAACTACGCCTTCATGCTGGCCGGCTACACCGTGGCCTTCATCGGCTTCCCGGCGGTGACCGCACCGGAGGGCATCTTCGACACGGTGATCGCGCGCAGCGAGGAGATCGTGCTCGGCACCCTGACCGCGGTGGCGTTCTCGGCGCTGCTGTTCCCGGCCTCGGTGCGGCCGATGCTCAACAGCCGCATCGGCGGCTGGATGCGCGATGCCGCGCAGTGGTGCCGGCAGGCGCTGCTGCAGGGCCGCGCGCACGGGCCGCGCAACCGCCTGGCCGCCGACCTGGTGCAGTTCGAGGCCCTGATCGAATTCGTCCGCCACGACGACCTGCGCCTGGCCGGCGCCGACGTGCCACTGCTGCGCCTGCGCGAGCGCATGTTGCTGCTGCTGCCGGTGCTGGCCTCGATCAGCGACCGCCTTGGCGCCCTGCACGGTCCGCAGCGCGCGCTGCCGGCGGGCTTGCAGCCGCTCATCGAGGACGTGCTGGCGTGGCTGGAAGCCGACGGCCACCGCAGCGCCGGCCAGCATGCGGCGCTGCGCGCGCGCATCGCCGCGCTCAAGCCGGAGGTGGACGCCGACGCCGACCACCTGTTGCTGGCCACGCTGCTGCTGCGCCTGGAGGAACTGGTGGACCTGTGGCACGACTGCCTCGGCCTGCGCCAGTCGATCGTGCACGGCGCGCCACTGCCGGAGCTGGCGTACCGCATCCGCACCCCGCGCGCGACCCACGGCGTGCGCCACGTCGACTACGGCATGGTCACCTTCTCCGCGCTCAGCGCTGGCGCCGCGCTGATGGCGTACTGCGCGCTGTGGATCGCGATCGGCTGGGAGGGCGGCGGCTTCGGCGCGATGATGGCGGCGGTGGCGGCGGCGTTCTTCGCCGCCCAGGACGACCCGGCGCCGAGCATGATGGGCTTCCTGGTGTGGGCGATCGTCGCCAGCATCGTCGCCTTCGTACTGCTGTTCGGCGTGCTGCCGGCGATCCACGATTTCGTGCCGCTGGCGGCGGTGCTGGCGCTGGTGCTGCTGCCGCTCGGGGTGATGATCCACCGGCCCAAGACGATGGGCATCGGTCTTCCGCTGACGGTCAACCTGGTCGCGCTGCTGAGCCTGTCCAACAGCTACGCCAGCAACTTCCAGACCTTCGTCAATTCCTCGATCGCGATGTTCATCGGCATGGGCTTCGCGGTGGTGGTGACCCGGGTGTTCCGCTCGGTCGGCGCCGAATGGAGCGCGCGCCGGCTGGTCCGCCAGGGCTGGAGCACGCTGGCCGCCGCCGCCGAAGGGCGCGGCCAGCAGGACCGGCGCGCGTTCGCCGCGCGCATGCTCGACCTGCTCGGCCTGCTCGCCCCGCGCCTGGCCAATACCCCCGAGGGCAGCGCCATCGCCTCGGTGGACATGCTCGGCGAGGCCCGCGTCGGCCTGAACATCCTGCAGCTGCGGCGCGCGCGGCTGGAGCTGCCCGAGGCGAGCATGCAGGCGGTGGACCACATCCTCGACGAAGTGGCCGCGCACTACCGCCGGCAGATCGCCCAGCACCGTCCGCTGCCCGGGTCGGCGCAGCTGCGCGGCATGCTCGACGCCTCGCTGGCGCGGGTCGGCAAGGTCACCCCGGGCAAGGCCCGCGACGAGGCGCTGATGGGCCTGGTCGGGTTGCGTTACAGCCTGTTCCCGCACGAAGCGGCGCAACCCGGCGAAGCCGCGGCGCAGGTGCAGCCGGCCTGA	MDWFDRQAWLFSLKAYLASITALYIGLACNLSRPYWAMATVYVVAQPLLGPTHAKGIYRIVGTLVAGVATLVMVPNLVETPLLLSAVMSLWLSACLFMALLNRGPRNYAFMLAGYTVAFIGFPAVTAPEGIFDTVIARSEEIVLGTLTAVAFSALLFPASVRPMLNSRIGGWMRDAAQWCRQALLQGRAHGPRNRLAADLVQFEALIEFVRHDDLRLAGADVPLLRLRERMLLLLPVLASISDRLGALHGPQRALPAGLQPLIEDVLAWLEADGHRSAGQHAALRARIAALKPEVDADADHLLLATLLLRLEELVDLWHDCLGLRQSIVHGAPLPELAYRIRTPRATHGVRHVDYGMVTFSALSAGAALMAYCALWIAIGWEGGGFGAMMAAVAAAFFAAQDDPAPSMMGFLVWAIVASIVAFVLLFGVLPAIHDFVPLAAVLALVLLPLGVMIHRPKTMGIGLPLTVNLVALLSLSNSYASNFQTFVNSSIAMFIGMGFAVVVTRVFRSVGAEWSARRLVRQGWSTLAAAAEGRGQQDRRAFAARMLDLLGLLAPRLANTPEGSAIASVDMLGEARVGLNILQLRRARLELPEASMQAVDHILDEVAAHYRRQIAQHRPLPGSAQLRGMLDASLARVGKVTPGKARDEALMGLVGLRYSLFPHEAAQPGEAAAQVQPA				NA	NA	NA	NA	NA
BMS020_08756	1485	oprM_5	COG1538	Outer membrane protein OprM	ATGAACGCGCTGCGCCCCACCCGGCTCGCCGCCGCGCTGCTGCTCAGCGGCATGCTCGCGGCCTGCACCACGGTCGGCCCCGATTACCACCTGCCGGAGCAGGCCGCCTACAACCGCCCGGCCGCCAACGCCGCGTTCCAGGACCCGGGCACCAGCGCGGTCAGCACCGACACCGCGCTGCCGGACCGTTGGTGGTCGCTGTATGCCGACCCGACCCTGGACGGACTGATCGGCCAGGCGCTGCACGACAACATCGACCTGCGCGTCGCCGAGGCCACGCTGCGGCGCTCGGCCGCGGCCTACGACCAGGCGCTGGCCGCCGGCGGTTTCGACGCCAAGGCGCATGCCGCGGTCGAACGCGCCGGGCTGTCGGGCGAATCGTTCCTGCAGGAAGAACAGCTGCCGGTGATCAACCTGGCCAACGCCGGGATCGAGGTCTCCTACCAGTTCGACCTGTTCGGCAAGATCCGCCGCGGCGTCGAGGCGGCGCATGCCGACCACCAGGCGGTGGAGGCGGCGCTGGACCTGGCCCGCATCAGCGTGGCCGCGCAGGTCGCGGCCAGCTACGTCGAGATCTGCCACGCCAACCACGAGCTGCACGTGGCCAACCACTCGCTGGAGCTGCAGCGCCACAGCCAGCAGATCAGCCAGCGCATGCTCGACGCCGGCCGCGGCACGCCGACCGACCTGGCCCGCGCCAACGCCCAGGTGGCGATGCTGCAGGCCACGCTGCCGCCGCTGACCGCGCGCCGCCAGGCCGCCGAATACCAGCTGGCCGCGCTGCTCGGCCAGACCCCGGGGCAACTGCCGGCCGGCGTGGCCGACTGCGCCGAAGCCCCGCAGCTGAGCCAGCCGATCCCGGTCGGCGACGGCCGCGCACTGCTGGCGCGCCGCCCCGACGTGCGCGAAGCCGAGCGCAAGCTCGCCGCCGCGACCGCCGAGATCGGCGTGGCCACCGCCGAGATGTACCCGGACATCAGCCTGGGCGGCTCGCTCGGGGTGATCGGCCAGCTCGAACACTTCGGCCAACCGGCCACCCAGCAGTGGACGCTGGGCCCGCTGATCAGCTGGAGCCTGCCGACCCGCGGCGCGCATGCCCGCGTGCGTGCGGCCGAGGCCGGCGCCGACGTGGCGCTGGCGCAGTTCGACAAGACCGTGCTGAACGCGCTGCGCGAAGTGCAGACCGCGCTGAGCCGCTACGCCCAGGACCTGCAGCAGGTACAGGCGCTGAAGGAAGCGCACCGCCAGGCCGACTTGGCCGCCGAGCAGAACCGGCGGCTGTACCAGGCCGGGCGCACCCCGTTCCTGGCCAGCCTGGACGCCGACCGCAGCCTGGCCAGCGCCGACATGACCCTGGCCAACGCCGAGGCGGCAGTGGCGCAGGACCAGATCCGCCTGTTCCTGGCGCTCGGCGGCGGCTGGGAAGCGGCCGCGGCCAGTGCCGGGGCGGCGCCTGCGGACGCACCGCCGGCCCAGGCGAGGTGA	MNALRPTRLAAALLLSGMLAACTTVGPDYHLPEQAAYNRPAANAAFQDPGTSAVSTDTALPDRWWSLYADPTLDGLIGQALHDNIDLRVAEATLRRSAAAYDQALAAGGFDAKAHAAVERAGLSGESFLQEEQLPVINLANAGIEVSYQFDLFGKIRRGVEAAHADHQAVEAALDLARISVAAQVAASYVEICHANHELHVANHSLELQRHSQQISQRMLDAGRGTPTDLARANAQVAMLQATLPPLTARRQAAEYQLAALLGQTPGQLPAGVADCAEAPQLSQPIPVGDGRALLARRPDVREAERKLAAATAEIGVATAEMYPDISLGGSLGVIGQLEHFGQPATQQWTLGPLISWSLPTRGAHARVRAAEAGADVALAQFDKTVLNALREVQTALSRYAQDLQQVQALKEAHRQADLAAEQNRRLYQAGRTPFLASLDADRSLASADMTLANAEAAVAQDQIRLFLALGGGWEAAAASAGAAPADAPPAQAR	PGPT0028880_278	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexEF-OprN,PGPT0028880-oprN-K18300	NA	NA
BMS020_08757	957	aaeA_4	COG1566	p-hydroxybenzoic acid efflux pump subunit AaeA	GTGAACAAGCTGACCAAGAGCGTCGTGCCGGCGCTGCTGACCCTGGTGATGGTGGTGTGCGCGCTGCTGGTGCTGCGCCACCTGTGGCACTACTACATGGACGAACCCTGGACCCGCGACGCCCACGTCAGCGCCGACGTGGTGCAGGTGGCGCCGGACGTGTCCGGGCTGGTGGAGCGGGTGGAGGTCAGCGACAACGCTGCGGTGACCAAGGGCCAGGTGCTGTTCGTGGTCGACCGCTCGCGCTACGCGCTGGCGCTGCAGCAGGCCCAGGCCGCGCTGGCCGAACGCCATGCCGCGGTCAGCCAGGCCGAGGCCAGCGTGAACCAGCTCCGCCGCGAGATCGCCCGCGACCGCAGCCTGAAGGAACTGGTCTCGGCCGAGGACGCCGAAGCCCGCCGCGCCAAGCTCGACGCCGCCAGCGCCACGCTGCAGGCGGCACGTTCGGCCGTGGCCACCGCACAGAGCGCGGTCGACCTGGCCCAGCTCAACCTGGACCGCACCGAGGTGCGCAGCCCGGCCGACGGCCGCGTCAACGACCGCACCGTGCGCCTGGGCGACTACGTCAGCGCCGGCAAGCCGGTGATCGCGGTGCTCGATACCGGCTCGTTCCGCATCGACGGCTATTTCGAGGAAACCCGCCTGTCCGGCGTGCAGCCCGGGCAGGCCGTGGACATCCGCCTGATGGGCGAGAAGCGCGCGCTGCGCGGCCACGTGCAGAGCCTGGCCGCCGGCATCGAGGACCGCTACCGCACCAGCGGCAGCAGCCTGCTGCCGAATGTGACCCCGGCCTTCGACTGGGTGCGGCTGGCGCAGCGCATCCCGGTGCGCATCGCCATCGACGCGGTGCCCGAGGGCGTGAACCTGATCGCCGGGCGCACCGCCACCGTGACCATCCTGCCCGAGCAGGCGCGCCGCGACGGCGCCGAGGCCGACAAGGCCAAGGCCACGCCATGA	MNKLTKSVVPALLTLVMVVCALLVLRHLWHYYMDEPWTRDAHVSADVVQVAPDVSGLVERVEVSDNAAVTKGQVLFVVDRSRYALALQQAQAALAERHAAVSQAEASVNQLRREIARDRSLKELVSAEDAEARRAKLDAASATLQAARSAVATAQSAVDLAQLNLDRTEVRSPADGRVNDRTVRLGDYVSAGKPVIAVLDTGSFRIDGYFEETRLSGVQPGQAVDIRLMGEKRALRGHVQSLAAGIEDRYRTSGSSLLPNVTPAFDWVRLAQRIPVRIAIDAVPEGVNLIAGRTATVTILPEQARRDGAEADKAKATP				NA	NA	NA	NA	NA
BMS020_08758	210	aaeX_2		Protein AaeX	ATGTACGGAGAATTCAGTCTTTACGGCGTCTTCGTCCCGACGCTGCTGGCACTGATGGTCATCGCCTACCTGTTGAAGGGCGCGCTGACCCAGCTGCTGGTGCGCCTGGGCGCCTACCGCCGCATCTGGCATCCGGCGCTGTTCAACACCGCGCTCTACATCGTGCTGCTCGGCGCCCTGTTCTCCCTTATGCGTTGGATGCAATCGTGA	MYGEFSLYGVFVPTLLALMVIAYLLKGALTQLLVRLGAYRRIWHPALFNTALYIVLLGALFSLMRWMQS				NA	NA	NA	NA	NA
BMS020_08759	441	slyA_4		Transcriptional regulator SlyA	ATGGACACCCCCTCCTCCCTTGCCCAGCTCAGTGCCGGGCTGCTGCTGGCCAGTCGCCAGTGGCAGCGCCTGGTCGACCACGCCCTGAGCGAGTTCGGCATTTCCGGCGCCTGCACCTCGCCGCTGCTGCTGATCGGCCGCTCCGGCGGCGGCATCCGCCAGGTGGCGCTGGCCCAGCAGCTGGGCATGGAAGGACCGTCGCTGGTGCGCCTGCTTGATCGCCTCGGCGAACAGGGTCTGGTGCGCCGCGAAAGCGATGCCAGCGACCGCCGTGCCAACCTGTTGTGGCTGACCGACGAGGGCCAGGCCCTGGTCGGCCAGCTCGAAGCGCGGCTGGTCGAGTTGCGCGGCGAGGTGCTGGGGTCGCTGTCCGCGGATGAGATCGACGGAACCCTGAAGGTCTGGCGGCTGCTCGCCGAGGCCGGTGAGCGGCTCGGCTGA	MDTPSSLAQLSAGLLLASRQWQRLVDHALSEFGISGACTSPLLLIGRSGGGIRQVALAQQLGMEGPSLVRLLDRLGEQGLVRRESDASDRRANLLWLTDEGQALVGQLEARLVELRGEVLGSLSADEIDGTLKVWRLLAEAGERLG	PGPT0016255_1234	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016255-sylA-K06075	NA	NA
BMS020_08760	600	folE_2	COG0302	GTP cyclohydrolase 1	ATGAGCCAGTCCAACAAGAAGTCCGCCGTCACCCAGACCGAAGCCGAAGACGCCGTGCGCACCCTGCTGCGCTGGGCCGGCGAGGACCCGACCCGCGAAGGCCTGCTCGATACCCCGCGCCGCGTGGCCGAGGCCTATGGCGACTGGTTCAGCGGCTACCAGGACGATCCGCGCGAGTACCTGGAACGCACCTTCGAGGAAGTGGCCGGCTACGACGAGCTGATCGTGCTGCGCGACATCGAGTACGAAAGCCACTGCGAGCACCACATGGCGCCGATCATCGGCAAGGTCCATGTCGGCTACCTGCCGGCTGGCAAGGTGGTGGGCATCAGCAAGCTGGCGCGCGTGGTCGAGACCTACGCCCGCCGCTTCCAGGTGCAGGAGAAGATGACCGCGCAGATCGCCCAGTGCATCCAGGACGTGCTCGGCCCGCGCGGCGTCGGCGTGGTGGTCGAAGGCGCACACGAGTGCATGACCACCCGCGGCATCCACAAGCGCGGCGTCAGCATGGTCACCTCGAAGATGCTCGGCAGCTTCCGCGAGGATGCGCGCACCCGCGCCGAATTCCTGCAGTTCATCGAAGTGGGCGGCAAGCGCTGA	MSQSNKKSAVTQTEAEDAVRTLLRWAGEDPTREGLLDTPRRVAEAYGDWFSGYQDDPREYLERTFEEVAGYDELIVLRDIEYESHCEHHMAPIIGKVHVGYLPAGKVVGISKLARVVETYARRFQVQEKMTAQIAQCIQDVLGPRGVGVVVEGAHECMTTRGIHKRGVSMVTSKMLGSFREDARTRAEFLQFIEVGGKR	PGPT0007875_2655	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007875-folE-K01495	NA	NA
BMS020_08761	1470			putative protein/MSMEI_1241	ATGAAGCACCACGCCCGGATCGCCGCGTACCGCCAGTTGCGCGAGCGCGCGCTGTGGAAACTGCTGGCCGCCGACCACGCCCCCGAACTGATCGGCCTGCTGCAGACCCTGCTGCTGGAAGGCGAGCGCCGCCTGCCCGGCCCGGTGCTGCACGAGCGCCTGCAGCAGCTGCTGGATTCGCTGAAGGCCGACGAGCTGTCGCGCGAACTGCCGCGCACCGCGCAGGCCTATGTCGCGCACTGGCTGGCGCAGGGTTGGCTGGAACGGCGGCTGCCGGAAGGCGCGGCCGACGAATCCTATGAACTGTCGCGCGCGGCGGTGCAGGCGATCCGCTTCATCGCCGGCAGCCAGGACAACGCCAGCGCCGCCACCGAGAGCCGGCTGTCGCTGGTGATCCAGCAGCTGGTGCAGCTGGCCGGGCAGACCGAATCCAATCCCGATGCGCGGCTGGCCGCGCTGCACGCCGAGCGCGCGCGCATCGACGCCGAGATCGCCCGCGTCGAGGCCGGTCAGGTCGCCGCGGTCGACGGCAAGCGTGCGCTGGAGCGCACCCGCGACCTGATCCGCCTGGCCGACGACCTGGCCGAGGATTTCCACCGCGTCCGCGACGATTTCGAGCGGCTCAACCGCGAATTCCGCGAACGCATCATCGACGACGAAGGCGCGCGCGGCGACGTGCTCGAGCAGCTGTTCGACGGCGTCGACGTGATCGCCGACAGCGAGGCCGGGCGCAGCTTCCAGGCGTTCTGGAACCTGCTCAACGACGGCGAGCAGAGCGGCCAGCTCGACGCCGCGCTGGAACATCTGCTCGGCCGTGGCTTCGCACGCCGGCTCAACCGTCACGAACGCAGCTTCCTGCGCGGGCTGACCGGCACGCTGCTCGCCCGCGGCGGCGAGGTCCATCAGGTGATGCAGCACTTCGCGCGCAGCCTGCGCGGCTTCGTGCAGAGCCGTGGCTATCTGGAACAGCGCCGCCTGAACCAGCTGCTGAAGCAAGCCCAGGGCGAGGCGCTGCAGCTGCGCGAGCGCGTGCACGCCACCCATGCCACCGGTTTCGTGCTGCCGCTCAGCGCCAGCCGGCTGCGCTCGCTGTCGCAGTGGAAGCTGCACGATCCGCGCAGCCTGCAGCTCGATGGCGACATCGAATACGCTGATGCGGCGGAGATCACGCTGGACAGCGTCGGCGATCTGGTCGCGCAGTCGGAGATCGACGTGCGCACGCTGCGTCGCGACCTGCACGAACTGCTGGCCACGCATCCGCAGCTGAGCATCGGCGCCGCGCTGCGCGAGCGCCCGGCCGCGCAAGGGCTGGGCAGCGTGATCGGCTATCTCTCGCTCGGCACGCGTCACGGCGTGGTGGTCGAGCACGAACGCGAAACCGTGCAGTGGGAGGGTGGCGACGGCGCGCAGCGGCGCGCGCGCATCCCGCTGGTGTGGTTCACCCAGGAGAAACGCGATGAACTGGTCTGA	MKHHARIAAYRQLRERALWKLLAADHAPELIGLLQTLLLEGERRLPGPVLHERLQQLLDSLKADELSRELPRTAQAYVAHWLAQGWLERRLPEGAADESYELSRAAVQAIRFIAGSQDNASAATESRLSLVIQQLVQLAGQTESNPDARLAALHAERARIDAEIARVEAGQVAAVDGKRALERTRDLIRLADDLAEDFHRVRDDFERLNREFRERIIDDEGARGDVLEQLFDGVDVIADSEAGRSFQAFWNLLNDGEQSGQLDAALEHLLGRGFARRLNRHERSFLRGLTGTLLARGGEVHQVMQHFARSLRGFVQSRGYLEQRRLNQLLKQAQGEALQLRERVHATHATGFVLPLSASRLRSLSQWKLHDPRSLQLDGDIEYADAAEITLDSVGDLVAQSEIDVRTLRRDLHELLATHPQLSIGAALRERPAAQGLGSVIGYLSLGTRHGVVVEHERETVQWEGGDGAQRRARIPLVWFTQEKRDELV				NA	NA	NA	NA	NA
BMS020_08762	720			hypothetical protein	ATGAACTGGTCTGACGACGCGCGCCACGCTGGCGCCGACGCCGCCGACACCTTGCCGGCGCAGCCCACTGGCAGCACCGACGGCCCGCTGTTCCTCGGCGACACCGGCACGTTGCCGTTCGACGCCCGCCGCGCGCTGTGCCAGCTGCTGGCCGGCCCGAGCGTGGACGCGCAGCGCCACGGCGCGCTGTGGAGCGCGCTGCTGCGCCATGAAACGGCGATCCGGCGCACGCTGTGCGAGCTGTTCCTGGACCTGGTGCTGGACCGCGACGACGGCGTCGCCTTCACCCGCCAGGCCGACACGGCCGAGCTGGAATCGCCGACCCTGCTGCGCAGCGCGCCGCTGACCTTCATCGAGTCGGTGTTGCTGCTGTTCCTGCGCCAGCAGCTGGCCGAGGCCGACACCCGCGGCGAACGCGCAGTGGTCGACGACGCGCAGATGGTCGAGGCGCTGTCGGTCTACGAGAAGAACCTGTCCACCGATCGCGCCGGCTTCGCGCGCCGGGTGGCGACGGCGATCAACAAGATGCGCGAGAACCAGCTGCTGGCGCGGCTGCGCGGCAGCGAGGACCGCTACGAGGTGTCGCCGGTGCTGAAGCTGCTGTTCCCGGCCGAGGACGTGCAGGCGCTGGCCGAGGCCTACCGTGCGCTGCGCGAGGGTGGCGGCAGCGCCGATGCCGATGCGCTGGCCACCGTCGACGCCGCCGCGGACGCGGATTGA	MNWSDDARHAGADAADTLPAQPTGSTDGPLFLGDTGTLPFDARRALCQLLAGPSVDAQRHGALWSALLRHETAIRRTLCELFLDLVLDRDDGVAFTRQADTAELESPTLLRSAPLTFIESVLLLFLRQQLAEADTRGERAVVDDAQMVEALSVYEKNLSTDRAGFARRVATAINKMRENQLLARLRGSEDRYEVSPVLKLLFPAEDVQALAEAYRALREGGGSADADALATVDAAADAD				NA	NA	NA	NA	NA
BMS020_08763	708			hypothetical protein	GTGGCGTCGGGCCATCAACCGCGATGCTTTCTTCGGGTGCGGTGCGCATCTATGAAGCGATGCCGTTGTGGGAGGGACTTCAGTCCCGACAGCTTTCGCATCAGTTCGGATGTCCTGGTAGGAGCGGCTTCAGCCGCGATGCTTTCCGCAATGACAGGGTTGATCTGGTCGAAGTGGGCTGTTGTGGGAGGGACTCTGGGTGGCCTCGGGCCATCAGTCCCGACAGCTTTGCGGGAAACAGCAACGGCAACGGCTTTCGCTCCTACGGGAGCGAGTCCCTTTTCTTTATGCGGCACATCCATGTGCCGCACCCTGCGGGCGGCTTCGCCGTGCGGCGCCGCTCCTGCGGCGCGGGTGCTCGTGCAAAGAAAAGGAACCAAAAGAAAGCACGTCCCAGCCTGCGCGCCCTGCGCTGCGCTCCGGGTCCGTGCCACCGGCGGGATTCGCGGACGGGACCTCCTGTCCCGGCCGCGAACGCCGCGCATCCATGCGCGACGCCCTTCGGGTTCTTCCCGCCGGCGTCACCGCTACGGATGGGGACCCGGAACGGCAACACCAACATCAGAAACAGCAACAGCAACAAGAAATTCCGAAAATCGGGTTGTCGTAGGAGTGGCTCTGGGTGGCCTCGGGCCATCAGCCGCGATGAGGTCTTGCCGACCCAGCGCGCTTCCATCCTCCATCGAACGCTCCACACCGCACCGGTGA	MASGHQPRCFLRVRCASMKRCRCGRDFSPDSFRISSDVLVGAASAAMLSAMTGLIWSKWAVVGGTLGGLGPSVPTALRETATATAFAPTGASPFSLCGTSMCRTLRAASPCGAAPAARVLVQRKGTKRKHVPACAPCAALRVRATGGIRGRDLLSRPRTPRIHARRPSGSSRRRHRYGWGPGTATPTSETATATRNSENRVVVGVALGGLGPSAAMRSCRPSALPSSIERSTPHR				NA	NA	NA	NA	NA
BMS020_08764	3708			hypothetical protein	ATGAACGCAGTCGTCCAATCCGCCAGCGCCGAACCCTCACTGTTCACCAACACCCTCGCCGAACAGCGTGCGCGGCAGTTCCGCATGCGCCGGCTGCAGGTGCACAACTGGGGCACGTTCAATGGCCTGACCGAGGTGCCGATCGCCGACAAGGGCTTTTTGTTCGTCGGCCGCTCCGGTTCGGGCAAGTCGACGCTGCTGGATGCGATGTCGGCGCTGCTGACGCCGCCGGCGATCGTCGACTTCAACGCCGCCGCGCGCGAGGCCGAGCGCAGCGGCCGCGACCGTTCGCTGGTGTCCTACGTGCGCGGCGCCTGGGCCGACCAGCAGGACAGCGAGTCCGGCGAGATCGCCACCCAGTACCTGCGCCGCGGCGCGACCTGGTCGGCGCTGGCGCTGGAATACCACAATGCGCACGGCCAGGCGGTCAGCGTGATCCGGCTGTTCTGGATCGCCGGCAGCGGCAATGCCGCCGCCGACGTGCGCAAGCACTACATGGTCGCCGCGCGGCCGTTCGACCTGGCCAGCGAGCTGAGCGGCTTCGACCTCGACCTGCGCAAGCTGAAGCTCAAGCTCGGCGAGGACGTGCACCACTTCGACAGCTTCTCCGGCTACGCCGAGCGCTTCCGCCACCTGCTCGGCATCGGCAACGAGATGGCGCTGCGGCTGCTGCACAAGACCCAGTCGGCGAAGAACCTCGGCGACCTCAACGGCTTCCTGCGCGGCTTCATGCTCGACGAGCCGCAGACCTTCGGCGCCGCCGACCGCCTGGTCGAGGATTTCGCCGAGCTCGATGGCGCCCACCATGCGGTGGTCACCGCGCGGCGCCAGGTCGAGACCCTGCAGCCGGCGCGCGACCACCACGCCGCGCTGATGGAACTGCGCCGCAGCGTCGGCGAACTGCGCGAGCTGCAGCTCGGCGTCGACGGCTACCGCGAACAGCAGCGCCAGGCGCTGCTCGACACGCGCCTGGCCGAACTCGACGTGCAGGACCGCGGCCTGGCCGGCGAGGAAGGGCAGCGCCGCGAGTCGCTGGACAACCACGAGCAGAAGCTGGCCGAGCTGGAGCGCGAGCAGCGCGCCGCCGGCGGCGAGCAGGTCGAGGCGCTGGAGCGCGAACGCGCACGCGTGGAGCGCGAGCGCGACGAGCGCCTGCGCCGGCGCAACCAGATCGAACAGGCCTGCCGCCAGCTCGGCACCACGCTGTCGTCGACCGCGTCGGGCTTCGCCGAGCAGGTCGCGTTCGCGCGCAGCCTGCGCGACGGCAACCGCGAACAGGCCAGCTCGCTCGACGATGCGATCGCCGACCGCATGGCCGCCAAGCGCGACGATGAGCGCCGCTTCGCCGAGATCCGCACCGAGATCGAGGCACTCAAGCGTGCGCCGTCGAGCATCCCTGCGCCGATGCAGGCGCTGCGCGCGCGGCTGGCCGACGACATCGGCCTGCCCGAGGCGGCGCTGCCGTTCGTCGGCGAGCTGGTGCAGGTGCGCGACGACCAGGTCGCCTGGCGCGGCGCGATCGAGCGCGTGCTCGGCGGCTTCGCGCAGTCGCTGCTGGTCGACGACAAGCACCACGCCCAGGTCAGCGACTGGGTCAACCGCACCCAGCTCGGCATCCGTCTGGTGTACTTCCGCGTGCGCCGCAACGATGCGTTGGTGCCGCGCGCGCCGGATCCGCGCTCGCTGCCGGGCAAGCTGCAGCTGCGCGAGCACGCTTTCGCCGACTGGCTGCGCAACGAACTGGCGCGCCGCTTCGACTACGACTGCGTCGACACCGTCGCCGCGCTGCGCAACGCCGAGCGCGCGATCACCCGCGAGGGCCAGGTCAAGCATCCGGGCGACCGCTACGAGAAGGACGACCGCCACGCGGTCAACGACCGCAAGCGCTGGCTGCTTGGCTACGACAACCGCGACAAGCTCAAGGTGTTCGAACGCGAAGGCCTGGCGCTGGCGCAGCGCATCGCCAGCTGCGATGCCGATGTCGCCGCGCTGCGCAAGCAGCGCGAGCAGGGCGGCGAGCGCCAGCTGGCCGCGCATACGCTGGCCGAGCGCGAATGGGATGAGATCGATGTCGCGCCGAAGCTGCAGCGCATCACCGACATCGACGAGCAGCTGCGCCAGCTGCGCGACGGCGACAGCGGCCTGCGCGCGCTCGGCCAGGCGATCGACAGCGCGCGTGCGCTGCGTGACCAGGCCAAGCGCACCTTCGAGGACGTGCGGCTGGAGCGCGCCCAGCTCGGCCGTGAGCGCGTGCGCCTGCAGACCGCGCGCGATGCCTGCAGCGCGCGTGGGCCGGCCACCGCGCTGACCCCGATCCAGCTCGAAGGCCTGCAGCAGCGCCTGGCCGAGCTGCCGGTGCTGTCGCTGGACAACCTGGAAAGCCATTTCCGCGTGGTCGAGCGCGGCCTGGCCGAGCAGCTGGCCGAGAGCCAGGGCCGCGACAGCCGGATCAGCGCGCAGCTGCTGGACTGCTTCCGCCGCTACTGCCAGCAGTGGCCGGAAGACAGTGGCGACTTCACCGTGTCGCTGGCCAGCGCCGACGATTTCCTCGCCCGCCTGGAGCGGCTGGAGAGCGACGGCCTGCCGCGCCACGAGCACCGCTTCTTCGACCTGCTGCAGACCCAGAGCAAGAACAACCTGCTGGCGCTGCAGCGGCATATCGCCGAGGCCCACAAGGGCATCAAGCAGCGCATGGACGAGGTCAACGCCAGCCTCGAGCAGGTGCCGTTCAACCGCGGCACCATCCTGACCATCGAGGTCAGCGATCGTCGCCTGGCCGAGGTGCAGGAGTTCACCCAGCAGCTGCGCACCGTGCTGTCGCACCAGCAGACCGAGGACCGCGCGCTGGCCGAGGCGCAGTTCGCGATCCTGCGCACGCTGGTCGCCAGGCTCGGCGGCCAGGACAGCGAACTGCGCCGTTGGCGCGAGCAGGTGCTGGACGTGCGCCAGCATGTCGAGTTCGTCGGCGTCGAGCTCGATGGCGAAACCCGTGCGCAGATCGAGATCTACCGCAGCGGCGCCGGCAAGTCCGGTGGCCAGCGCCAGAAGCTCGCCACCACCTGCCTGGCCGCGGCGCTGCGCTACCAGCTCGGCGGCGAGGACGGCGAGCTGCCGCGCTACTGCGCGGTGGTGCTGGACGAAGCCTTCGACAAGGCCGACAACGAGTTCACCGCGCTGGCGATGAACATCTTCGAGAACTTCGGTTTCCAGATGGTGGTGGCCACGCCGCTGAAGTCGGTGATGACGCTGGAGCCGTTCATCGGCGGCGCCTGCTTCGTCGAGATCAGTGGCCGCCACAATTCCGGCGTGCTGCTGATCGACTACGACGACGAAGGCCAGCGCCTGAAGCTGCCCGAGCGCTCGCGCGGCGACGACGAGGCGGCCTCGGACGAGGACCTGCCAGCGCAGCACGCGGCGACGCAGGCATCGGATGCCGGGCAGTCGCCCGTCGCCGTCGATGCGGTACAGGCCGGCGCGGACCCTGCAACGCCCGCGGCGCCGGCCGCCGCGTCCGCTGCCGCTGCAGCTGACGCGATCGGCAAAGGTGGCAGGAAGGCCGCAGCGGCCAAGAAGAAGCCGACCGCGCCGACTTCGAGCGGGTCAGCTACCAAGAAGGCCGCGACGAAGAAGGCGGCCGCGAAGAAAGCCCCCGCCAAGAAGGCGGGGAAGAAGCCGGCAGCCGCCAAGCCGCATCCGAAGCGGTCATGA	MNAVVQSASAEPSLFTNTLAEQRARQFRMRRLQVHNWGTFNGLTEVPIADKGFLFVGRSGSGKSTLLDAMSALLTPPAIVDFNAAAREAERSGRDRSLVSYVRGAWADQQDSESGEIATQYLRRGATWSALALEYHNAHGQAVSVIRLFWIAGSGNAAADVRKHYMVAARPFDLASELSGFDLDLRKLKLKLGEDVHHFDSFSGYAERFRHLLGIGNEMALRLLHKTQSAKNLGDLNGFLRGFMLDEPQTFGAADRLVEDFAELDGAHHAVVTARRQVETLQPARDHHAALMELRRSVGELRELQLGVDGYREQQRQALLDTRLAELDVQDRGLAGEEGQRRESLDNHEQKLAELEREQRAAGGEQVEALERERARVERERDERLRRRNQIEQACRQLGTTLSSTASGFAEQVAFARSLRDGNREQASSLDDAIADRMAAKRDDERRFAEIRTEIEALKRAPSSIPAPMQALRARLADDIGLPEAALPFVGELVQVRDDQVAWRGAIERVLGGFAQSLLVDDKHHAQVSDWVNRTQLGIRLVYFRVRRNDALVPRAPDPRSLPGKLQLREHAFADWLRNELARRFDYDCVDTVAALRNAERAITREGQVKHPGDRYEKDDRHAVNDRKRWLLGYDNRDKLKVFEREGLALAQRIASCDADVAALRKQREQGGERQLAAHTLAEREWDEIDVAPKLQRITDIDEQLRQLRDGDSGLRALGQAIDSARALRDQAKRTFEDVRLERAQLGRERVRLQTARDACSARGPATALTPIQLEGLQQRLAELPVLSLDNLESHFRVVERGLAEQLAESQGRDSRISAQLLDCFRRYCQQWPEDSGDFTVSLASADDFLARLERLESDGLPRHEHRFFDLLQTQSKNNLLALQRHIAEAHKGIKQRMDEVNASLEQVPFNRGTILTIEVSDRRLAEVQEFTQQLRTVLSHQQTEDRALAEAQFAILRTLVARLGGQDSELRRWREQVLDVRQHVEFVGVELDGETRAQIEIYRSGAGKSGGQRQKLATTCLAAALRYQLGGEDGELPRYCAVVLDEAFDKADNEFTALAMNIFENFGFQMVVATPLKSVMTLEPFIGGACFVEISGRHNSGVLLIDYDDEGQRLKLPERSRGDDEAASDEDLPAQHAATQASDAGQSPVAVDAVQAGADPATPAAPAAASAAAAADAIGKGGRKAAAAKKKPTAPTSSGSATKKAATKKAAAKKAPAKKAGKKPAAAKPHPKRS				NA	NA	NA	NA	NA
BMS020_08765	777	yfcA_3	COG0730	putative membrane transporter protein YfcA	ATGTTCGACGCCCTTCCCGATGCCCTGCCCTGGCTGGTCGGCCTGTCCTTCAGCGCCGGCCTGATCGACGCCGCGGTCGGCGGCGGCGGGCTGGTACAGCTGCCCGGGCTGTTTGCTGCCCTGCCGCAGCAGGCGCCGGCGCTGCTGCTGGGCACCAACAAGTTCAGCGCGATGGCCGGCACCGCGACCGCGGCCTGGCGTTACGCGCGCCACGTGCGCTTCCCGTGGCGGCCGGTGCTGTACGCCACCGCCGCGGCGTTCGTGTTCTCCTTCCTCGGCGCCACCGCGGTCAGCCTGCTGCCGAAGGCGGCGGTACGGCCGCTGATCCTGGCGCTGCTGGTGGCCATGCTGGTCTACACGCTGGTGAAGAAGGACTTCGGCGCGCTGCACCGGCCGCGGGTGATCGGCCGCCGCGAGCTGGCGATCGCGCTGGCGGTCGGCGCGGCGATCGGCTTCTACGACGGCTTCTTCGGCCCCGGCACCGGCAGCTTCCTGATCTTCCTGTTCATCCGCTTCTTCGGGCTGGATTTCCTGCGCGCCTCGGCCGCCTCGAAAGTGGTGAACCTGGCCACCAACCTGGCCGCGCTGGCGTTCTTCGTGCCCACCGGCAAGGTGCTGATGGCGGTCGCGCTGCCGATGGCCGCGGCCAACATCGCCGGCGCGGTCACCGGCACCCGGTTGGCGCTGCGCGGCGGCACGCCGTTGATCCGCAAGCTGTTCCTGGCGCTGGTGGTGGTGCTGATCGCGAAGATGGGCTGGGATACGTTCGCCGGCTGA	MFDALPDALPWLVGLSFSAGLIDAAVGGGGLVQLPGLFAALPQQAPALLLGTNKFSAMAGTATAAWRYARHVRFPWRPVLYATAAAFVFSFLGATAVSLLPKAAVRPLILALLVAMLVYTLVKKDFGALHRPRVIGRRELAIALAVGAAIGFYDGFFGPGTGSFLIFLFIRFFGLDFLRASAASKVVNLATNLAALAFFVPTGKVLMAVALPMAAANIAGAVTGTRLALRGGTPLIRKLFLALVVVLIAKMGWDTFAG	PGPT0027725_1572	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-AbrB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027725-antitoxin_abrB-K07120	NA	NA
BMS020_08766	399			hypothetical protein	ATGACGGCTGTGCCCATTCCCGCGGTCCTGACCGTGATCTACGCCCGCGACCTCGACCTGCTGGCCGGCTTCTACCGCCGGGTGCTGGGTCTGGCGCAGCGCGATGCCGCCGAGGACCACGTGCTGCTCGGTGATGACCTGCGCGAGGTGGCGATCGTGCGGATGAGCTGCGCCGCCGCGGCGGTGCCGCTGCATCCGCCGGGGCGCGCGCGCGAAGCGGTGGCGTTGAAGGTGTCCTTCGCCGTGCCCGACCTGGAACAGGCCTGTGCCGAGGCGGTTGCCGCGGGTGGCTGGTTCAAGCCGCTGGGCGCGGCCTGGTGCTGGCGCGGCCAGCGCCATCTGGACGGCATGGACCCGGAGGGCAACGTGCTGCAGCTGCGCGACGACCGCGCAGGCTGA	MTAVPIPAVLTVIYARDLDLLAGFYRRVLGLAQRDAAEDHVLLGDDLREVAIVRMSCAAAAVPLHPPGRAREAVALKVSFAVPDLEQACAEAVAAGGWFKPLGAAWCWRGQRHLDGMDPEGNVLQLRDDRAG				NA	NA	NA	NA	NA
BMS020_08767	405			hypothetical protein	ATGAGCGCCAAGGTCCCGCATCCCAGCACCGAATCCTGCCCGTGCGGTCGTGCCCGCACCTACGTCAACTGCTGCGGCCGGCTGCATGCCGGCGCCGCCGCGTCCGATCCCGAGGCGCTGATGCGCTCGCGCTACAGCGCCTACGTGCGCCGCGACGCCGCCTACCTGCTCGCCACCTGGCATCCGACCACCCGCCCGGCCACGCTCGACCTGGACGAGGCGGTCGGCGGCCGCACCACCTGGCTCGGGCTGACCGTGCAGCAGGTGCTCCAGACCGGCGCGGACAGCGGCGAGGTGGTGTTCCTGGCCCGCTACCGGGTCGGCGGCGGCAGCGCGGTGCGGATGGTCGAGCACAGCCGGTTCCTGCGCGAGGACGGCCGTTGGTACTACCTGGATGCGGTGTGA	MSAKVPHPSTESCPCGRARTYVNCCGRLHAGAAASDPEALMRSRYSAYVRRDAAYLLATWHPTTRPATLDLDEAVGGRTTWLGLTVQQVLQTGADSGEVVFLARYRVGGGSAVRMVEHSRFLREDGRWYYLDAV				NA	NA	NA	NA	NA
BMS020_08768	186			hypothetical protein	ATGAGTGCGCTGAATCTGTGGCAATGGGTGATGGCCGCGATCGTGCTGTTCGGCGTTGTGGTGCCTGGGCTGCTGGCTGCCTGGATGATCTGGTTGCGCCGTCCGCCGCAGCCGCGGTCGCCGGTCGCGGAGCGGGCCGATGAGCCGCCGCGGGTGGTCCCCGTCGTCCTGCGCAATGGGCTTTGA	MSALNLWQWVMAAIVLFGVVVPGLLAAWMIWLRRPPQPRSPVAERADEPPRVVPVVLRNGL				NA	NA	NA	NA	NA
BMS020_08769	2196			hypothetical protein	ATGAGCCGCCGCGGGTGGTCCCCGTCGTCCTGCGCAATGGGCTTTGACGCAAGTCGCATCCGTGCCGGCGCACTGGCCGCTCTGTTGATGCTCGGGATGCCGGCGGCGCAGGCCGCCGATTTCGACGCCTGCCTGGCCGGCCTGCGCACCCAGGCGGCCGCGCGCGGCGTGCCGGCCGCGGAGTTCGACCGCTTCACCAGCGGGCTGCAGCCGGATCCCGCGGTGCTGGCCCTGCTCGATGCCCAGCCCGAGTTCACCACCCCGATCTGGGACTACCTGGCCGCGCTGGTCGACGAGGAGCGCGTGCGCGATGGCCGCGCGATGCTGCAACGGCACCAGGCACTGCTGGCCGGGCTGCAGGCGCAGTACGGCGTCGATCCGGCCACGGTGGTTGCGGTGTGGGGTGTGGAAAGCGACTACGGCCGGGTGTCCGGGCGCCGGCCACTGCTGCAGTCGCTGGCCACGCTGTCCTGCGACGGACGCCGCCAGGCCTTCTTCCGCGGCGAGCTGCTGGCGCTGCTTGGTCTGCTGCAGGCCGGCGACCTGCCGCCCGCGGGGCTGACCGGCTCCTGGGCCGGCGCATTCGGGCAGACCCAGTTCATGCCGACCACCTATGCGCGGATCGCGGTGGACGGCGATGGCGACGGGCGCCGCGACCTGGTCGCCAGCGTGCCCGACGCGCTGGCCTCGACCGCCCACTACCTGGCCCGCGCCGGCTGGCGCGCCGGTGTGCCGTGGGGGCTGGAGGTCGTGCCGCCGGCCGGCTACGACGCGGCCAACGCCGGCCGCACCCGCCGCCAGCCGCTGCGCGACTGGCAGGCGGCCGGCGTGCGCAGCCCCGGTGGCCAACCGCTGGCGCCGCCGGGAGTGGACGCCACCACGCCGGCGGCGCTGCTGCTGCCGGCCGGCGACACCGGCCCGGCCTTCCTGGTATTCGCCAACTACGACGCGATCTACGCCTACAACGCCGCTGAAAGCTATGCGCTGGCGATCGCGCTGCTGTCCGATCGCCTGCGCGGCGGTAGCGGCCTGCAGGCGCGCTGGCCGAGCGACGATCCGGCGCTGGACCGCGCCGGTCGGCGCGAGCTGCAGCGCCTGCTGCTGGCCCGCGGCCATCCGATCGGCGAGCCCGACGGCATGGTCGGTAGCGCCACCCGTCGCGCGATCGCCGACGAACAACTGCGCCTGGGCCAGCAGCCGGCCGATGGCCGCCCCGGCCAGCGCATCCTTGCCGCGCTGCAGCCCAGCGCCGGCCCGGCCAGCGCCTTCACGCTGCCGGCCGCCTATCCCCAGTTCCAGCAATCCCCCCTGGTGAACACGTCCATGACCTTGCCCGACATCCCCGGCCTGCAGGCCGGCGACTTCCACGGTTTTCCCTCGCTGCTGGTGCAGACCCCGTTCTCGACCGCGGCGATCAGCCTGTTCGGCGGCCAGTTGCTGTCGTTCGTGCCGGCCGGCGGCGAGGACGTGATGTGGCTGTCGCCGCTGGCCAAGCAGCCGCCGACGCCGATCCGCGGCGGCACCCCGGTGTGCTGGCCGTACTTCGGCAAGCAGGACCAGCACGGCGACGTGCCCGCGCACGGCTTCGTGCGCACGGTGCCATGGCGGCTGCTGCAGGCCAGCCGCGAGGACGACGGCAGCGTGCTGCTGACGCTGGCGCCGCCGGCCTTCGACGACCTGGCGCTGACGCTGCGGATGACCGTGCGCATCGGCCGTACGCTGGAGCAGACCCTGGTCACCGAGAACACCGGCACCGCGCCGCTGCGCTTCACCCAGGCGCTGCACAACTACTTCCGCGTCGGCGACGCGCTGCGGGTCAGCGTGCAGGGCCTGGACGGGTTGGACTACCTGGACAAGTACGAGCACTACGCCAGCGCCCACCGCCAGCAGGGCGACTGGAGCCTGGCCGATCCGCGCGACCCGGGCCGCAGCGACCGCATCTATACCGGCGCCGGCGGCCACTACACGCTGACCGATCCGGTGCTCAAGCGCCGCATCGGCATCGCCACCGTCGGCAGCCGCACCCTGGTGGCGTGGAACCCGGGCGAGCAGGCCGCCGCGCAGATGGCCGACGTCGGCGCCGGCTGGCGCGACTACGTCTGCCTGGAAGCGGCCAACGCCGGCCCGGACGTGATCGAACTGGCGCCCGGCGGCCGCCACACGCTGACCCAGACCCTGTCGGTGGCGCCGCTCTGA	MSRRGWSPSSCAMGFDASRIRAGALAALLMLGMPAAQAADFDACLAGLRTQAAARGVPAAEFDRFTSGLQPDPAVLALLDAQPEFTTPIWDYLAALVDEERVRDGRAMLQRHQALLAGLQAQYGVDPATVVAVWGVESDYGRVSGRRPLLQSLATLSCDGRRQAFFRGELLALLGLLQAGDLPPAGLTGSWAGAFGQTQFMPTTYARIAVDGDGDGRRDLVASVPDALASTAHYLARAGWRAGVPWGLEVVPPAGYDAANAGRTRRQPLRDWQAAGVRSPGGQPLAPPGVDATTPAALLLPAGDTGPAFLVFANYDAIYAYNAAESYALAIALLSDRLRGGSGLQARWPSDDPALDRAGRRELQRLLLARGHPIGEPDGMVGSATRRAIADEQLRLGQQPADGRPGQRILAALQPSAGPASAFTLPAAYPQFQQSPLVNTSMTLPDIPGLQAGDFHGFPSLLVQTPFSTAAISLFGGQLLSFVPAGGEDVMWLSPLAKQPPTPIRGGTPVCWPYFGKQDQHGDVPAHGFVRTVPWRLLQASREDDGSVLLTLAPPAFDDLALTLRMTVRIGRTLEQTLVTENTGTAPLRFTQALHNYFRVGDALRVSVQGLDGLDYLDKYEHYASAHRQQGDWSLADPRDPGRSDRIYTGAGGHYTLTDPVLKRRIGIATVGSRTLVAWNPGEQAAAQMADVGAGWRDYVCLEAANAGPDVIELAPGGRHTLTQTLSVAPL				NA	NA	NA	NA	NA
BMS020_08770	1230	tetA		Tetracycline resistance protein, class C	TTGAACCCGACCGTTCCCGCCGCCGGCCCGCGCCGCGCGGCGATGGCCTTCATCCTGGTCACCGTGCTGGTCGACGTGCTGGCGTTCGGCGTCATCATCCCGGTGCTGCCCGACCTGGTGCGCGGCTTCACCGGCGGCGACTACGCCGACGCGGCCGAATGGATCGGCTGGTTCGGCTTCCTGTTCGCGGCGATCCAGTTCTTCTCCTCGCCGGTGCAGGGCGCGCTGTCGGACCGCTATGGCCGCCGCGTCGTGGTGCTGCTGTCGTGCCTGGGGCTGGGCGCGGACTTCCTGTTGATGGCGCTGGCCGGCACGTTGCCGCTGCTGTTGCTGGCGCGGGTGGTGTCCGGGGTGTTCTCGGCCAGCTTCTCCACCGCCAATGCCTACATCGCGGACGTGACCCCGCCGGAGCGGCGCGCGCAGGCGTTCGGCATGATCGGCGCCGCGTTCGGTATTGGCTTTGTCGCCGGGCCGCTGCTCGGCGGCTGGCTCGGCAGCTTCGACCTGCGCTGGCCGTTCTGGTTCGCCGCGGCGCTGGCGCTGCTGAACTTCCTTTACGGCCTGCTGGTGCTGCCCGAATCGCTGCCGCCGGAGCGGCGCAGCCCGCGCCTGGACTGGTCGCACGCCAATCCGCTCGGCGCGCTGAAGCTGCTGCGCGCCTATCCGCAGGTGTTCGCGCTGGCGGCGGTGGTGTTCCTGGCCAACCTGGCGCACTACGTCTATCCCAGCATCTTCGTGCTGTTTGCCGGCTATGCCTACGGTTGGGGGCCGCGCGAGGTCAGCTGGGTGCTGGCGGGCGTCGGCATCTGCAGCATCGTGGTCAATGCGTTGCTGGTCGGGCGGCTGGTGCGCGCGCTCGGCGAGCGCCGCGCGCTGCTGCTCGGGCTCGGCTGCGGCGTGGTCGGCTTCGCGGTGTACGGCGTGGCCGACCGTGGCTGGGTGTTCCTGCTCGGGCTGCCGGTCAGCGCGCTGTGGGCGATCGCCGCGCCGGCGACCAACGCGCTGATCACGCGCGCGGTCGGGGTCGAGGTGCAGGGCCGCGTGCAGGGTGCGCTGATGAGCCTGGTCAGCCTGGCCGGGGTGTTCGGGCCGCTGCTGTACGCCAACGTGTTCGCCTGGAGCATCGGCACGCACGCGCCGCTCCATCTGCCGGGCGCGCCGTGGCTGGCCGCCGCGGCGTTGCTGGCGCTGGCCTGGATCATGGCCTGGCGCAAGGCCCCGGCGGCATGA	MNPTVPAAGPRRAAMAFILVTVLVDVLAFGVIIPVLPDLVRGFTGGDYADAAEWIGWFGFLFAAIQFFSSPVQGALSDRYGRRVVVLLSCLGLGADFLLMALAGTLPLLLLARVVSGVFSASFSTANAYIADVTPPERRAQAFGMIGAAFGIGFVAGPLLGGWLGSFDLRWPFWFAAALALLNFLYGLLVLPESLPPERRSPRLDWSHANPLGALKLLRAYPQVFALAAVVFLANLAHYVYPSIFVLFAGYAYGWGPREVSWVLAGVGICSIVVNALLVGRLVRALGERRALLLGLGCGVVGFAVYGVADRGWVFLLGLPVSALWAIAAPATNALITRAVGVEVQGRVQGALMSLVSLAGVFGPLLYANVFAWSIGTHAPLHLPGAPWLAAAALLALAWIMAWRKAPAA	PGPT0027875_299	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
BMS020_08771	585	bphO		Heme oxygenase	ATGAACCTGATGACCGCCGACATCGCGATGCCGCCCAGCCAGCGGCTGCGCGAGGCCACGCGCGAGGAGCATGCGGCGGTGGAGCGGTTGCCGAGGATGCAGGCGCTGACCGAGGGGGCGCTCGCGCCCGACGACTACCGCCGCGTGCTGCGCGACCACGCCGCGCTGATCGGCGGCTGGGAGCAGGCGCAGCGCGACTGGCTGGGCGCGTGCGCGGGCGAGGACTGGCAGTACCGCTGGCGGCTGCCGCGGTTGGCCGCCGATCTCGCCGCGCTCGGCGAGGCGTTGCCGGCGCCGCTGCCGCCGCCGCCGGCCGCGGATGCCGGCACACGCTGGGGCATGCTCTACGTGATCGAAGGATCGCAGCTCGGCGGCCGGCTGATCGCGCGGCGGCTGCGCGCGCGCCAGCCGGCCTTGCAGGCGGCCCTGGGCTATTTCGAACTCGGCGAAGGCGAGCCGACCGCATGGCGCGCCTTCCAGCAGCGCCTGCAGCGGGTCCTCGACGACGCGGCGGCGCGGTGCGCCGCCGAAGCCGGCGCGCAGGCGATGTTCGCGCATTTCCACCGACGACTGCAGGCGGAGTGA	MNLMTADIAMPPSQRLREATREEHAAVERLPRMQALTEGALAPDDYRRVLRDHAALIGGWEQAQRDWLGACAGEDWQYRWRLPRLAADLAALGEALPAPLPPPPAADAGTRWGMLYVIEGSQLGGRLIARRLRARQPALQAALGYFELGEGEPTAWRAFQQRLQRVLDDAAARCAAEAGAQAMFAHFHRRLQAE				NA	NA	NA	NA	NA
BMS020_08772	1902	bphP		Bacteriophytochrome	TTGGACGACCACAACAACGGCATCGACCTCGACGTCTGCGCGCGCGAGCCCATCCACATTCCCGGCATGATCCAGCCCTACGGCGTGCTGCTGGTGGTGGAACCGGACGACGGCCGGATCGTGCAGGCCAGCAGCAGCGCCGAGGCTCTGCTGGGGTTGCCGATGGCGCAACTGCTGGGCATGCGCTACGACGCCGTGCTGACCCTGGTCGAGGGCGCCACGCCGCACCTGGTGGACGATGCCGAGCCGCGCCACCTGATCCACGCCGACGTCGCCTTCCCGCAGCGCGCCGCGCCGCCGTCGCGGCCATGGGTGGCGGCCTGGCACCTGTATCCGGAGGTGTGGCTGGTCGAACTGGAGCCGCGCGATGCGCGCCTGGCCGACGTCACCCTGCGCGAGGCAATGCCGCTGCTGCGCAGCGTGGAGCGCGACGGCAGCGTGCTCGAGGCCTGCAACCGCGTCGCCCAGGGGCTACGCACCCTGCTCGGCTTCGACCGGGTGATGGTGTACCGCTTCGACGACGAGTGGAACGGCGACGTGGTCGCCGAGGCGCGCCAGCCGGACCTGGAGGCGTATCTCGGCCTGCACTATCCGGCCAGCGACATCCCGGCGCAGGCGCGCGCGCTGTACCTGCGCAACCGCGTGCGCCAGATCGCCGACGTCGCCTACACGCCGTCGCCGATCGTGCCGGTGCTGCACCCGCGCCTGGGTACGCCGGTCGATCTGAGTGATGTCAGCCTGCGCAGCGTCTCGCCGCTGCACGTGGAATACCTGGCCAACATGGGGGTCAGCGCGACGCTGGTGTCCTCGATCGTGGTCAACGACGTGCTGTGGGGGCTGATCGCCTGCCACCACTACAGCCCGTTCTTCACCAGCCATGCGATGCGCGAGGTGACCGATGCGGTGACGCGTGGGCTGTCCGGGCGCATCGGCGCGTTGCAGGCGGTGGCGCGGGCGCACACCGAGGCGACGCTGCTGACGGTGCGCGAACAACTGATCACCGACTTCAACGACACCGACATGGTGACCGTGGACATGCTCGCCGACATGGCGCCAGACCTGCTCGACGTGGTCGATGCCGATGGCGTGGCGATCTTCCACGGCGATGCGATCACCCGTCACGGCCTGCTGCCCGATGCCGGTGGCCTGCGCCGCATTCGCGAGCGCGTCGAGCGCCATCATGACGATGCGCTGCGCGCCGACGCGGTCGGCGCGCTGCACGTCGAATCGATCGGCGAGGTGTTTCCCGACCTGGCCGACCTGGCGCCGCTGGCGGCCGGGCTGATCTTCGTGCCGCTGATGCCGCAATCGCGTTCGGCACTGCTGTGGACCCGCCGCGAGCAGGTCCAGACCGTCAACTGGGCCGGCAACCCGCAGCTGTCCAAGCTGCAGGACATCCCCAATTCGCGCCTGTCGCCGCGCAAGAGCTTCGACCTGTGGCAGGAAACCGTGCGCGGCCGTGCGCGGCGCTGGTCGCCGCTGCATCTGGAGTCGGCGCGCAACCTGCGGGTGCTGATCGAGCTGATGGAGCGCAAGCGCTTCCAGAAGGACTTCGGCCTGCTCGAAGCGTCGCTGGGGCGCCTGCGCGAGCCGGTGGCGATCATCGCCCAGGGCGAGGGCGAGCGCCTGCACCGGCTGGTGTTCGCCAACGAGGCGTATGCGCGGCTATGCGGCTACGACGTCGCGGAGCTGGTCGGGCGCGAGCTGCCTGTGCTGTTCGCCGATGCCGGGCAGGCCGCGGCACTGCTGGCGGCGATGGCCCAGGGCGAGGCCGCATCGGCGACGCTGGCATTGCGCCACCGCGACATCGCGCCAGTGCACCGCCATGTCCAGATCGAGCCGCTCCCCGGTCCCGAGCAGGCGCCGGCGCACTGGCTGCTGCAGGTGCGCCAGCCGCAGTGA	MDDHNNGIDLDVCAREPIHIPGMIQPYGVLLVVEPDDGRIVQASSSAEALLGLPMAQLLGMRYDAVLTLVEGATPHLVDDAEPRHLIHADVAFPQRAAPPSRPWVAAWHLYPEVWLVELEPRDARLADVTLREAMPLLRSVERDGSVLEACNRVAQGLRTLLGFDRVMVYRFDDEWNGDVVAEARQPDLEAYLGLHYPASDIPAQARALYLRNRVRQIADVAYTPSPIVPVLHPRLGTPVDLSDVSLRSVSPLHVEYLANMGVSATLVSSIVVNDVLWGLIACHHYSPFFTSHAMREVTDAVTRGLSGRIGALQAVARAHTEATLLTVREQLITDFNDTDMVTVDMLADMAPDLLDVVDADGVAIFHGDAITRHGLLPDAGGLRRIRERVERHHDDALRADAVGALHVESIGEVFPDLADLAPLAAGLIFVPLMPQSRSALLWTRREQVQTVNWAGNPQLSKLQDIPNSRLSPRKSFDLWQETVRGRARRWSPLHLESARNLRVLIELMERKRFQKDFGLLEASLGRLREPVAIIAQGEGERLHRLVFANEAYARLCGYDVAELVGRELPVLFADAGQAAALLAAMAQGEAASATLALRHRDIAPVHRHVQIEPLPGPEQAPAHWLLQVRQPQ				NA	NA	NA	NA	NA
BMS020_08773	1185	ydcO_2	COG3135	Inner membrane protein YdcO	ATGGCCGCGACGCCCGAACGCGCATTCATGCGCGACCTCTCCTTTTCGGCGCTCGCCGCCGGCTTCGTCACTGTCCTGGTCGGGTTCGCCAGTTCGGCGGTGATCGTGTTCGAGGCTGCCCGCCACCTCGGCGCCAGCCAGGCGGAGATCGGCTCGTGGATGTGGGCGCTGGGACTGGGCATGGGCGTGACCTGTATCGGCCTGTCGCTGCGCTGGCGGATCCCGGTGGTGACGGCCTGGTCGACCCCAGGCGCGGCCATGCTGATCGGCAGCGCCGCCGGGCTACCGCTGTCGGATGCGGTCGGCGCCTTCCTGGTCGCCGCGGTGCTGGGCGCGGCAGCCGGCTTTTCCGGCGTGTTCGCCGCGAGCATGCGCCGCGTGCCGGTGTCGCTGGCTTCGGGGATGCTTGCCGGCGTGCTGCTGCGCTTCGGGCTGGATGTCTTCGTGGCGATGCAGACCCAGCTGCTGCTGGCGCTGGCCATGCTGGCCACTTATCTAATGGGGCGCCGGCTGTTCCCACGCTATGCGGTGATCGCCACACTGCTGGTCGGCGTGGCGATCGCGGCCGGGCGCGGCCTGATGCATTGGGATGGCCTGCAACTGCAGTTGGCCCGGCCCGTGTTCACCACGCCGACGTTCTCGCTGGCAGCGCTGATCGGTATTGCGCTGCCGCTGTTCGTGGTGACGATGGCCTCGCAGAACGTGCCCGGGGTCGCGGTGGCGCGCGCCTCCGGCTATGCGCTGCCGGTATCGCCGGCCATCGGCTGGATCGGCGTGGTCAACGCGCTGCTGGCCCCGTTCGGCGCATACGCGCTCAACCTGGCGGCGATCACCGCGGCGATCTGCATGGGCCGCGACGCACACGAAGACTCCGGCAAGCGCTACATGGCGGCGGTCAGCGCGGGCGCCTTCTATCTACTGGTCGGCCTGTTCGGGGCGACGGTGGCCGCGCTGTTCGCCGCCTTCCCACGCGAACTGGTGATGGCGATCGCCGGGATCGCCCTGCTCGGCACCATCGGCAACAGCCTGGCGGTGGCGCTACGCGAGGAACACGAGCGCGAAGCCGCGCTCGTCACCTTCCTGGTCACCGCGTCGGGGCTGACCCTGGGCGGGATCGGCGCGGCGTTCTGGGGCCTGCTCGCCGGTGCGCTGGTGCTGCTGGCAACGCCGCGCCGGGTCGGCTAG	MAATPERAFMRDLSFSALAAGFVTVLVGFASSAVIVFEAARHLGASQAEIGSWMWALGLGMGVTCIGLSLRWRIPVVTAWSTPGAAMLIGSAAGLPLSDAVGAFLVAAVLGAAAGFSGVFAASMRRVPVSLASGMLAGVLLRFGLDVFVAMQTQLLLALAMLATYLMGRRLFPRYAVIATLLVGVAIAAGRGLMHWDGLQLQLARPVFTTPTFSLAALIGIALPLFVVTMASQNVPGVAVARASGYALPVSPAIGWIGVVNALLAPFGAYALNLAAITAAICMGRDAHEDSGKRYMAAVSAGAFYLLVGLFGATVAALFAAFPRELVMAIAGIALLGTIGNSLAVALREEHEREAALVTFLVTASGLTLGGIGAAFWGLLAGALVLLATPRRVG	PGPT0005385_1024	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0005385-benE-K05782	NA	NA
BMS020_08774	2037	btuB_33		Vitamin B12 transporter BtuB	ATGACATACGCAATTGAACGCCGCGCGCCGCTGGCCGCGGCCTGCTCGCTGGCACTGCTGTGCAGCGTCGCCATCCACGCACACGCCGAGGACGAACCGGTGCTGACCCTGGGCAAGGTCCAGGTGGATGCCAAACAACACGGCGCGCTTCCCGCGCGCAAGGTCATCACCTCGGTCGATGTGATCGGCGCCGATCAGGTGCAGGACCAGCACGTGGACAACAACTGGGAGCTGTTCGCGCGCGTGCCCGGCATCCAGCTCACCCCGACCCGGATGGGCACGGTGGGCGGCAGCTTCTCGTTCCGCGGCTTCAACGCCGAGAACCGCATCAACGCGGTCAAGCTGCTGATCGATGGCATCCCGAGCAACGACAACGCCGGCAGCATGCCGTTCCTGGACAGCGTGTTTTCCGGTGACATCGCCGCAATCGAGGTGGTGCGCGGCACCAACGATGCGCGCTACGGACTCAACGCGATCGCCGGCGACGTCGACATCATCACCCGCAGCGGCGGCAACGATGGCCGGCTGAGCGTCACCGCGGGCAGCTTCGGCACCCAGGACGTGCAGTTGTCCAAGGGTTTCGAACGCGGCCCGTGGAGCCAGAACTACTTCATCGGCTGGCGTGCATCGGACGGCTACCGCGACCACGCCGGCGCGGTGAAGCGCAACTTCGCTGGCAAGTGGTTCTACACCGATCCCGATGGCGCCTGGCGTGCCGGCCTGAGCACGCGTTATTACCACAACAGTGCGCGCGAGCCGGGGTATTTTCCGAGCTATGCGGCGGCATCAGCGGCGGCCCGTGATGCGGTGGATTACGCACGCAACGACAAGGGCGAGCGGATGACCGCGCAGACCGCGCTGCATCTGGACGGGCGCATCACCAGCTACTGGGACTGGACCGCGAAGGCCTACGTCAACCGCTACACCAACCGCCGCTACGTGCGCTTTTCCGAATCGGGCAGCCAGCAGGAACGGGACAACGACGAAACCCAGCGTGGCGTGATGGCCACCTCCACGTGGACGCCGCAGGTGAGCGGGTTGTCGGCGTTCGCACTGGAGGGCGGTGTCGATGCGCAATGGCAGGACAACGTCGCCCGGCGCTGGAAAACCGTCGCGCAGACGCGCACCGCGCTGACCCGCGACTGGGATTACGCGTTGCAGACGCGCGGTGTCTACCTGCAGGCGCTGATCCAGCCGACGGAGCGCCTGAAACTGGTGCCGGCGTATCGGATCGACCGGGTCGACGGCCATCTCGATGATGACATGACCGGTGCGCACTATCCGGTCTATGGCTACGGCACGATCCGCCAGCCGAAGTTCAGTGCGTCCTATGCGCTCGCCAGCGCCTGGACTGCATACGCCAACTGGGGCCGCACGTTCCAGATCGGCAGCGGCGACGGCGCCTACCGCACCACCACCAACGACCTTGGCCCGTCGATCAACGACGGCTGGGAATCCGGGCTGAAGTTCGTGCCGTGGGCATGGCTCAGCGGTCGCGTCGCGTACTGGGAGCAGCGTGCCTCCGGCGAGGTCGCCACGGTGCTGGGATCGACCGGGACTGGCAGCGACGTCACCAATGTCGGGCGCACCTTCCGGCATGGCTGGGATGTTCAGGTGAACCTGCAGCCGGGGGAACGTTGGAACGGCTGGGCGTCATATTCGCGGCAGAAGGCGGTCGTGGCCGAGGCGGATCCGGATGCGCCGGAAACCGCCGGCAAGGAGATCGAGAACGTACCGCACTGGCTGGCCAGTGCCGGCGTCGACTGGCAGGCCAGTGCGCGGCTCAAGCTCAGCGCCTGGGGCAATGCGCAGGGCGACTACTACCTGGAACGCAGCAACACGCTGGGCCGCTACGGCAGCTATGCGCTGCTCAATCTCGGCGCGCGCTGGGCGCTGGACGCGCACAACGAGTTCGCACTGCAGCTGAAGAACGTCACCGATCGCTTCTACGTCTACGCCTGGTACGACAGTGGCAGCTATGGCTTCTCGCCTGGCGATGGCCGCGCGCTGTACGCCAGCTGGAACTGGAGCTTCTGA	MTYAIERRAPLAAACSLALLCSVAIHAHAEDEPVLTLGKVQVDAKQHGALPARKVITSVDVIGADQVQDQHVDNNWELFARVPGIQLTPTRMGTVGGSFSFRGFNAENRINAVKLLIDGIPSNDNAGSMPFLDSVFSGDIAAIEVVRGTNDARYGLNAIAGDVDIITRSGGNDGRLSVTAGSFGTQDVQLSKGFERGPWSQNYFIGWRASDGYRDHAGAVKRNFAGKWFYTDPDGAWRAGLSTRYYHNSAREPGYFPSYAAASAAARDAVDYARNDKGERMTAQTALHLDGRITSYWDWTAKAYVNRYTNRRYVRFSESGSQQERDNDETQRGVMATSTWTPQVSGLSAFALEGGVDAQWQDNVARRWKTVAQTRTALTRDWDYALQTRGVYLQALIQPTERLKLVPAYRIDRVDGHLDDDMTGAHYPVYGYGTIRQPKFSASYALASAWTAYANWGRTFQIGSGDGAYRTTTNDLGPSINDGWESGLKFVPWAWLSGRVAYWEQRASGEVATVLGSTGTGSDVTNVGRTFRHGWDVQVNLQPGERWNGWASYSRQKAVVAEADPDAPETAGKEIENVPHWLASAGVDWQASARLKLSAWGNAQGDYYLERSNTLGRYGSYALLNLGARWALDAHNEFALQLKNVTDRFYVYAWYDSGSYGFSPGDGRALYASWNWSF	PGPT0003790_25284	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_08775	2121	btuB_34		Vitamin B12 transporter BtuB	ATGGATTCCCGTTTTGCGCTGCCCGTCCGGGCGGCCCTGTCGTGCTGCGTGTTCGCGGCACTGAGCCCCGATCTGCGTGCTGCCGAGGCCGCCGCGAACGCCCAGACCCTCGACACCCTCGTCGTCACCCACGCCGCGCCGGCCTCGGCGCTGACCTGGGTCACCGATCCGAAGCTGCCGCGCCAGCCGGTGCCGGCCAGCGATGGCGCCGATTACCTCAAGACCGTCCCCGGCTTTGCCGCGATCCGCAACGGTGGCACCAATGGCGATCCGGTGCTGCGCGGCATGTTCGGCTCGCGCTTGAACGTGCTCAGCAACGACGGCAGCATGCCGGGCGCCTGTCCGGCGCGGATGGACAATCCGTTGTCGTACATCGCGCCGGAAACCTTCGACCGCCTGACCGTGATCAAGGGGCCGGAAACCGTGCTGTGGGGGCCGGGTGCCTCGGCCGGCACCGTGCGCTTCGAGCGCGACACCCCGCATTTCGATGCGCCGACGTTGGAAGGCAGCGCCAGCGCGCTGGCCGGCTCCAACCAGCGCAACGACCAGAACCTGGAACTGACCGGCGGCAACCGCCACGGCTACGCGCGGGTGACCGCGAACCGCTCCGAGTCCGACGATTACAAGGACGGCGGCGGCGAGGTGGTGCCGTCGAAATGGCGCAAGTGGAACACCGATGCCGCGCTGGGCTGGACGCCGGATGCCGACACCGTGCTGGAGATCAACGCCGGCACCGGCAACGGCATCGCCCGCTACGCCGGCCGCAGCATGGACGGCGCGCAGTTCCGCCGCACCAGCTTTGGCGCGCGCTTCGAGAAGAGCAACCTGCCCGGCGCCTGGGCGTCGATCAAGGCCAGCATCTACTACAACGATGCCGACCACGTGATGGACAACTACACGCTGCGTACGCCGAACCCGGATTCGTCGATGCCCAACCCGGTCGCCGCCGATGTCGATCGCCGCACCACTGGCGGCCGGCTCGCCTCCGAATGGGCGTGGGCGCATGCCGGGCTGGTGGCCGGCGTGGACTGGCAGGACAGCCATCACCGCTCGCGCAGCGGCACCGGCTATGGCACCTATCGGCAGACGCCGTGGAGTGCCGATGCAGCGCTGGCCAACCAGGGCGTGTTCGCCGAGCTGACCCTGCATCCGGCCGATGGGCACAAGGTGATCGTCGGTGCGCGCATTGACCGTGCTTCGGCCGAGGATCGCCGCGCGACGATTTCCAGCATGTCGATGGACGATGACGATGCGATGGATTCGATGAACATGGACAGTGCGATGGACATGTCCAGCGCCAGCAATCCGACCTATGGCGTGACCCGCCATCAGACGCTGGCATCGGGCTTCGCCCGTTACGAGCAGCAGCTCTCCAACCTGCCGCTGAGCTGGTATGCCGGGCTCGGCCACGCCGAGCGCATGCCCGACTACTGGGAGCTGTTCTCGGCCGACTCCGGCCCGGATGGATCGGTCAATGCGTTCTCGGCGCTGCGCCCGGAAAAGACCACCCAGCTGGACATCGGCCTGCAGTACGAGGGCGAGCGGCTGGATGCGTGGCTGTCGGGCTACATCGGCCGCGTCGATGACTATCTGTTGTTCACCTACACCGATGGCGGCGCGATGGGCTACACCTCGCAGGTGGGCAATGTCGATGCCGACATCCACGGTGCCGAGGCCGGTGTGGAGTTGCGTCCGCGCGCCGGCTGGACGCTGGGCAGCACGCTGGCCTGGGCCTGGGGCGCGAACCGTAGCGATGGCACCGCGTTGCCGCAGATGCCGCCGCTGGAAGCCAAGTTCAGCGCGGGCTGGGAGGGCCGGCACTGGTCGGCGGGTGCGCTGCTGCGCGCGGTGACGCGCCAGCATCGGGTGGCCGTCGACGAGGGCAACGTGGTCGGTCGCGACCTCGGCCCGACCGCGGGCTTTGCGACGTTCGCGCTCAACGCCGGTTACCGCTTCAACGCGGCGTGGCAGCTGAGCGCAGGCGTCGACAACCTGTTCGATCGCGACTACAGCGAGCACCTGAACCTGTCCGGCAGCGAGGACTTCGGCTATCCGGCCGATCCGGTGCGGATCCATGAGCCCGGGCGCACGTTCTGGCTCAAGGCCGGCTACCGCTTCTGA	MDSRFALPVRAALSCCVFAALSPDLRAAEAAANAQTLDTLVVTHAAPASALTWVTDPKLPRQPVPASDGADYLKTVPGFAAIRNGGTNGDPVLRGMFGSRLNVLSNDGSMPGACPARMDNPLSYIAPETFDRLTVIKGPETVLWGPGASAGTVRFERDTPHFDAPTLEGSASALAGSNQRNDQNLELTGGNRHGYARVTANRSESDDYKDGGGEVVPSKWRKWNTDAALGWTPDADTVLEINAGTGNGIARYAGRSMDGAQFRRTSFGARFEKSNLPGAWASIKASIYYNDADHVMDNYTLRTPNPDSSMPNPVAADVDRRTTGGRLASEWAWAHAGLVAGVDWQDSHHRSRSGTGYGTYRQTPWSADAALANQGVFAELTLHPADGHKVIVGARIDRASAEDRRATISSMSMDDDDAMDSMNMDSAMDMSSASNPTYGVTRHQTLASGFARYEQQLSNLPLSWYAGLGHAERMPDYWELFSADSGPDGSVNAFSALRPEKTTQLDIGLQYEGERLDAWLSGYIGRVDDYLLFTYTDGGAMGYTSQVGNVDADIHGAEAGVELRPRAGWTLGSTLAWAWGANRSDGTALPQMPPLEAKFSAGWEGRHWSAGALLRAVTRQHRVAVDEGNVVGRDLGPTAGFATFALNAGYRFNAAWQLSAGVDNLFDRDYSEHLNLSGSEDFGYPADPVRIHEPGRTFWLKAGYRF	PGPT0003790_25619	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS020_08776	489			hypothetical protein	ATGTGCCCGACGGGCGGCTCCCCGCGGTCCGTTTACACTTTCCCGGTGATCGCCTCCCGTCCGTTCCAGCACCTGATGCACCGGCTCGCCCTGCTGGCGGCGCTGCTGATGGTCTGTGCGCCGCTGGTCAGCCGCTGGATGCAGGCGCCGCCTGCCGCCGATCCGGTCTGCACCGCCGAGGGCATGCAATCTGGCATGGCGATGCCGATGGGAATGGGCGCGCATGCGGCCGATGCCGGCATGGCGACGATGCACCACGCGATGGCCGGCATGGCCGGCCCCGCGCATGGCGGCGAGCATGCCGACCACGATGGCGAAGCCTGCGATTACTGCGTGCTCGCCGCGCGCCTGCTGCCATGGCTGGCGGTGGCGCTGCTGGTGCTGCCGCAGCTGCGTGCGGCCGCGCCGACGCTGCGCACGGCGCTCCCTGCGCCGACCACCGTGCGCTGGCCGGCGCACGCGCCACGCGGCCCTCCACTCCACGCCTGA	MCPTGGSPRSVYTFPVIASRPFQHLMHRLALLAALLMVCAPLVSRWMQAPPAADPVCTAEGMQSGMAMPMGMGAHAADAGMATMHHAMAGMAGPAHGGEHADHDGEACDYCVLAARLLPWLAVALLVLPQLRAAAPTLRTALPAPTTVRWPAHAPRGPPLHA				NA	NA	NA	NA	NA
BMS020_08777	222			hypothetical protein	ATGATCCCAAGCAAGTCCAATCCGAAATGGGCCGCCTTGGTCGACGGCACGACCAAGCCGAACTTCAAGGTATTCGCCGGCAACATGATGCTGAGCCAGTGCGCCCGCAGGATCAAAAACGATCCCTCGCCGCAGAGCATCCAGGCCTGCATCGAGGAAGCCCACACGTTCTTCAGCAAGTACGAAAACCTCTATCACGACGACCTGTTGGCCGTGTTCTGA	MIPSKSNPKWAALVDGTTKPNFKVFAGNMMLSQCARRIKNDPSPQSIQACIEEAHTFFSKYENLYHDDLLAVF				NA	NA	NA	NA	NA
BMS020_08778	984			hypothetical protein	ATGCTGATGACCCCTGAACACGTGGCGCGGAAGATCGAAGGCGGCGCCACGCTCTATCTGGCCGGCGACCAAGCCCTGCTTGATGCGCTGCCGCGCGGCAACTGGATCGGCGGCACCATTCCCTATTTCATGGACAAGCTCGGCGGCACCCATAGCCGCGACCTCATCTTCGCGCTCGAACAGCATCCCGCCGTAACCGGCTCGGTCCTGCGCTGGTACGACGTGGCCGACCTGGCGCAGATCGCCAGCGACTCCCCCGAACACGGTTTCAGCGTGCTGATCATCCCGGCCGGCAGCCAGGCCCATGTGCATTACGCGCAGGAGTCGCCGAACTACCCCGGGCTGTACATGAAGCACATCATCGGCTGGATCGCCGGCGTCGACCTGGACGACCTCGGCAAGGTCTCGCCGCGGATCTACGACGGCAGCAGCGGCTGCTCGTTCGGCGAAGGCTGCATGGTGTTGCACGCGACGCTGCCGGCGGACAAGCAGGTCTCGCTCGGCATCATCAACTGCTTCCGCCAGGGCGACGGCGAGGTGATCACCTTCCCCGAGGACGGGTTCGTCGTGGGCGCCTGCCAGGTCAACGGTAAGCCGGCCACCTTGTCCGACTACCTGGACGCGCAGAAGGCCGACGTGCGCCTGCCGCTGGTCGCCGACTACAACGGCGAGATGATCAACGTCAGCATCCAGTCGGTCGACAAGGCCACTGGCAAGGTCACGCTGTATGCGCCGGTGTTCCGCGGTGTGGAGTACCGGCTCGCCTCGCCGGTCGGCAACTATGTCGAGGAATTCGCCCAGCGTCTGCCGCAGGAGCTCAAGAGCCCGGAGTTCAGCTGCAACTGCATCCTCAACTTCCTGTACTCCGAGCTTGAGGGCAAGCGCACCGGCGAAGTGGTCGGGCCGGTGACCTTCGGCGAGATCGCCTACCAGCTGCTCAACCAGACCCTGGTCTACCTGCAGATCGAGGACGCGCCGGCCTGA	MLMTPEHVARKIEGGATLYLAGDQALLDALPRGNWIGGTIPYFMDKLGGTHSRDLIFALEQHPAVTGSVLRWYDVADLAQIASDSPEHGFSVLIIPAGSQAHVHYAQESPNYPGLYMKHIIGWIAGVDLDDLGKVSPRIYDGSSGCSFGEGCMVLHATLPADKQVSLGIINCFRQGDGEVITFPEDGFVVGACQVNGKPATLSDYLDAQKADVRLPLVADYNGEMINVSIQSVDKATGKVTLYAPVFRGVEYRLASPVGNYVEEFAQRLPQELKSPEFSCNCILNFLYSELEGKRTGEVVGPVTFGEIAYQLLNQTLVYLQIEDAPA				NA	NA	NA	NA	NA
BMS020_08779	981	cysB_2		HTH-type transcriptional regulator CysB	ATGACGCTGACCCAACTCCGCTACCTGGTGGCGATCGCCGATGCCGAGCTGAACATCACGCTGGCCGCGGCGCGCGTGCATGCCACCCAGCCGGGCCTGTCCAAGCAGCTCAAGCAGCTGGAGGACGAGCTCGGCTTCCTGCTGTTCGTGCGCAAGGGCCGCAGCCTGGAAACGGTGACCCCGGCCGGCGTGGAGGTGATCAGCCGCGCCCGCGCGGTGCTGGCCGAGGCCAACAACATCCGCACCTACGCCGCCAACCAGCGGCGCGAGGCGCAGGGCCAGCTGACCCTGACCACCACCCACACCCAGGCCCGTTTCGTGCTGCCGCCGGCGGTGGCGCAGATCAAGCTGGCCTATCCGCAGGTCAGCGTGCACCTGCAGCAGGCCGCCGAGAGCGACGCGCTGGACCTGCTCAGCCAGGGCGATGCCGACATCGCCGTGGTCAGCACCGCCGGTGGCGAACCCAGCGCCGGCATCGCGGTGCCGCTGTACCGCTGGCGCCGGCTGGTGGTGGTGCCGCGCGGACATGCGCTGGACCGCCGCCAGGCGCCGGACATGCAGGCGCTGGCCGGGCAGCCGCTGATCAGCTACGAATCCTCCACCCGGCCGGGCTCGTCGCTGCAGCGCGCCTTCGCCGAGGTCGGGCTGGAGCCGTCGCTGGCGCTGACCGCGCTGGATGCCGATCTGATCAAGACCTACGTGCGCGCCGGTCTCGGCGTCGGGCTGGTGGCGGAAATGGCGGTCACCGCCAGCGACGAGGACCTGCGCGCGTGGCCGGCGCCGGCGCCGATCAGCGAATGCGTGGCCTGGGCGGTGCTGCCGCGCGACCGCGTGCTGCGCGATTACGCGCTGGAACTGGTCCACGTGCTGGCGCCGCAGATCGACAAGCGCGACCTGCGGCGCGTGCTGGACGGCAACCAGGCGCCGGCCTGGCCGACCCCGCCGACCTGGGAATCGCTGACCCAGACCATCACCAGCTGA	MTLTQLRYLVAIADAELNITLAAARVHATQPGLSKQLKQLEDELGFLLFVRKGRSLETVTPAGVEVISRARAVLAEANNIRTYAANQRREAQGQLTLTTTHTQARFVLPPAVAQIKLAYPQVSVHLQQAAESDALDLLSQGDADIAVVSTAGGEPSAGIAVPLYRWRRLVVVPRGHALDRRQAPDMQALAGQPLISYESSTRPGSSLQRAFAEVGLEPSLALTALDADLIKTYVRAGLGVGLVAEMAVTASDEDLRAWPAPAPISECVAWAVLPRDRVLRDYALELVHVLAPQIDKRDLRRVLDGNQAPAWPTPPTWESLTQTITS	PGPT0002965_123	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002965-cysB-K13634	NA	NA
BMS020_08780	1476	cysG_3	COG0007	Siroheme synthase	ATGCCCGCCGTGACCGCCGCCCTGTTCCCCCTGTTTGCCGACCTGCGAGAGCGCCCGGTGCTGGTGGTCGGCGGTGGCCTGGTCGCCGAGCGCAAGACCGAGGCGCTGCTGCGCGCCGGCGCCCGTCCGCTGGTCGGTGCCCCGGCGCTGACCCCTGCGCTGCAGGCCTGGGCCGACGCCGGCCGCATCGAGCATCTCGCCGCACATTTTGATCCGGCCTGGCTGGACCGGCCGGTATGGCTGGTGATCGCCGCCACCGACGATGGCGCGGTCAACCGCGCGGTCGCCGCCGGGGCCGAGGCGCGCCGGCTGCTGGCCAACGTGGTCGACGACGCCGAGCTGTCCAGCTTCCAGGTGCCGGCGGTGGTCGAGCGCGGCCCGCTGCAGGTGGCGATCTCCAGCGGTGGCGGCGCGCCGATGGTCGCGCGGCATATCCGCCGCCAGCTCGAAACCCTGCTCGACGACAGCTGGGGCGCGCTGGCCGAGCTGTTCACCCGCCAGCGTGCGCGCATCCGCGCCGCCTACCCCGACACCGGCCTGCGCCGGCGCTTCTTCGAGCGCCAGCTGGCCGGTCCGTTGCCGCGGCTGCTGCGCCAGCGCCGCGACGCCGCCGCCGAAGCGCACCTGCTGGCGGCGCTGGAACGCCCCGAGGCGCCGGGCGCCACCGGGAGCGTGACCCTGGTCGGTGCCGGCCCGGGCGATCCCGGCCTGCTGACCCTCAACGCGCTGCGCGCGCTCAACGAGGCCGACGTGATCCTGCACGACCGTCTGGTCAGTGACGCGGTGCTGCAACTGGCGCGGCGCGATGCCGAGCGCATCGAAGTCGGCAAGTCGGCCAGCGGCCACAGCGTGCGCCAGGAGCAGATCCACGCATTGATGCTGGAACACGCCCGGCGCGGCCGCCGCGTGGTGCGGCTGAAGGGTGGCGACCCGTTCGTGTTCGGCCGCGGCGGCGAGGAGCTGGAATTCCTGCGCGACCACGGCATCGGCTTCGAGGTGGTGCCCGGCATCACCGCCGCGTTGGCCTGCGGCGCCTACGCCGGCATCCCGCTGACCCATCGCGACCACGCGCAGTCGCTGCGCCTGGTCACCGCGCACTGCAAGGAATCGTTCGACACGCTCGATTGGCAGGCGCTTGGCCGCGACCGCCAGACGTTGGCGTTCTACATGGGCGTGGCCGGGCTGGAGACGATCCAGCACCGCCTGCTCGCCGCCGGTCGCGCCGGCTCCACCCCGGTGGCGCTGATCGAAAACGGCTCGCGCCCCGAACAACGCGTGGTCACCGCGACGCTGGCCGAGCTGGCGGCGACCGCACGGCTGCACGCGGTGCAGTCGCCGGCGCTGCTGGTGGTCGGCGAGGTCGTCGCGCTGGCCGGGCGCCTGCACTGGTTCGGCCGGCCGCCGCTCGGCGCCGACGCGGTCGCGTCCTCACCTTCCGCGAAGCCGGCATCGCGCACCCTCGCCCACGCCGCCTGA	MPAVTAALFPLFADLRERPVLVVGGGLVAERKTEALLRAGARPLVGAPALTPALQAWADAGRIEHLAAHFDPAWLDRPVWLVIAATDDGAVNRAVAAGAEARRLLANVVDDAELSSFQVPAVVERGPLQVAISSGGGAPMVARHIRRQLETLLDDSWGALAELFTRQRARIRAAYPDTGLRRRFFERQLAGPLPRLLRQRRDAAAEAHLLAALERPEAPGATGSVTLVGAGPGDPGLLTLNALRALNEADVILHDRLVSDAVLQLARRDAERIEVGKSASGHSVRQEQIHALMLEHARRGRRVVRLKGGDPFVFGRGGEELEFLRDHGIGFEVVPGITAALACGAYAGIPLTHRDHAQSLRLVTAHCKESFDTLDWQALGRDRQTLAFYMGVAGLETIQHRLLAAGRAGSTPVALIENGSRPEQRVVTATLAELAATARLHAVQSPALLVVGEVVALAGRLHWFGRPPLGADAVASSPSAKPASRTLAHAA	PGPT0003690_190	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003690-cysG-K02302	NA	NA
BMS020_08781	960	dcsD		O-ureido-L-serine synthase	ATGCCCATCTACGACAGCATCCTCGACACCATCGGCCGCACCCCGGTGGTCAAGCTCAACCGCCTGGCCCCGGCCGGCCGCACCGTCTATGCCAAGGTCGAGTCGTTCAACCCCGGCGGTTCGGTCAAGGACCGCCTGGCGCTGGCGATCGTGCTCGATGCCGAACAGCGCGGCCTGCTCAAGCCCGGCGACACCATCGTCGAGGCGACCTCGGGCAACACCGGCGTGGCGCTGGCGATGGTCGCCGCCGCGCGCGGCTACAAGTTCGTCGCCACGATGGTGGAGACGTTCTCGGTCGAGCGCCGCAAGCTGATGCGCGCCTACGGCGCCAAGGTGATCCTGACCCCGGCCGCCGAGCGCGGCAGCGGCATGGTGCGCAAGGCCAAGGAGCTGGCCGAACAGCACGGCTGGTTCCTCGCCAGCCAGTTCGCCAACCCGGCCAACCCGGCCTACCACCGCAACACCACCGGTCCGGAGATCCTGCGCGACTTCGCCGGCCAGCGGCTGGACTTCTTCGTCACCGGCTGGGGCACCGGCGGCACCCTGACCGGCGTCGGCCAGGTGCTCAAGGTCGCCCGCCCCGAGGTCAAGATCGTCGCCACCGAACCGGCGGGCGCCGCGCTGCTGAAGGGCGACGAGTGGAAGCCGCACAAGATCCAGGGCTGGACCCCGGACTTCGTGCCGGACGTGCTCGACCGCAGCGTCTACGACGCGCTGTTCACGATCACCGACGACCGTGCGATCGAGGCCTCGCGCCGGCTCGCGGCCGAGGAAGGCATCTTCGTCGGCATCTCCGCCGGCGCCACCGTTGCCACCGCGCTGGACGTGGCCGAGAACGCGCCGGAAGGTTCGGTGATCCTGGCGATGCTGCCCGACACCGGCGAACGCTATTTCTCCACCCCGCTGTTCGCCGACATCAACGAAGGCAGCGACGACGACTGGCTCGCTGGCCTGCCCTGA	MPIYDSILDTIGRTPVVKLNRLAPAGRTVYAKVESFNPGGSVKDRLALAIVLDAEQRGLLKPGDTIVEATSGNTGVALAMVAAARGYKFVATMVETFSVERRKLMRAYGAKVILTPAAERGSGMVRKAKELAEQHGWFLASQFANPANPAYHRNTTGPEILRDFAGQRLDFFVTGWGTGGTLTGVGQVLKVARPEVKIVATEPAGAALLKGDEWKPHKIQGWTPDFVPDVLDRSVYDALFTITDDRAIEASRRLAAEEGIFVGISAGATVATALDVAENAPEGSVILAMLPDTGERYFSTPLFADINEGSDDDWLAGLP	PGPT0002810_4447	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
BMS020_08782	567			hypothetical protein	ATGCGTGAGGGCATGCCGCCATGTCCGCCGGACCGCAAGGGTGCCGCGGGGGCGTCTCGCCGGCTGCGACGGCGACAGCGTCAACGCCGGCCCTCACCCGCCCTTCGGGCACCCTCTCCCGCGCGGGAGAGGGGAGGCGATCAAGCTTCGTCCAGGATGTCCCTCTCCAACTTGTGGGAGAGGGGCGGCAGTCGAGCTTCGGCCAAGATGCCCCTCTCCCGCTTGCGGGTGAGGGTGCCCGAAGGGCGGGTGAGTGGGCTTCCCTTCATCCTCCCGCGGGCGGGAGAGGGGAGGCGATCAAGCTTCGTCCAGGATGTCCCTCTCCAACTTGTGGGAGAGGGGCGGCAGTCAAGCTTCGGCCAAGATGCCCCTCTCCCGCTTGCGGGTGAGGGTGCCCGAAGGGCGGGTGAGTGGGCTTCCCGTCATCCTCCCGCGGGCGGGAGAGGGGAGGCGATCAAGCTTTGTCCAGGATGTCCTTCTCCAACTCGCGGGAGAGGGGCGGCAGTCGAGCTTCGGCCAAGATGTCCCTCTCCCGCTCGCGGGAGAGGGTGCCCGAAGGGCGGGTGA	MREGMPPCPPDRKGAAGASRRLRRRQRQRRPSPALRAPSPARERGGDQASSRMSLSNLWERGGSRASAKMPLSRLRVRVPEGRVSGLPFILPRAGEGRRSSFVQDVPLQLVGEGRQSSFGQDAPLPLAGEGARRAGEWASRHPPAGGRGEAIKLCPGCPSPTRGRGAAVELRPRCPSPARGRGCPKGG				NA	NA	NA	NA	NA
BMS020_08783	597	ymdB_2	COG2110	O-acetyl-ADP-ribose deacetylase	ATGAAGATCGAAGTCTGGCAAGGGGACATCACGGAACTGGACGTCGACGCCATCGTCAACGCCGCCAACGAGACGTTGCTCGGCGGTGGCGGCGTGGACGGCGCGATCCACCGCGCGGCAGGCCCGCAGCTGCTGGAAGCCTGCCGCCACCTGCCCGAGCTGCGCCCCGGCGTGCGCTGCCCGACCGGCGAGGTGCGCGCCACCGCGGGCTTCGGCCTGAAGGCGCGCCACATCCTGCACACCGTCGGCCCGGTCTGGCGCGACGGCGAACATCACGAGCCGGCACTGCTGGCCAACTGCTACTGGCAGTCGTTGAAGCTGGCCGAACAGATGGGCCTGCATTCGATCGCATTCCCGGCGATCAGCTGCGGCGTCTACGGTTACCCGTTGCACCAGGCCGCGCGCGTGGCGGTCACCGAGACCGTGGCCTGGCAGAAATCGCACGCCATGCCCAAGCGCATCGTGCTGGTCGCCTACAACGACGCCACCGCCAAGGCCTACCAGCAGGCACTCGCCGCATCGCAGCCACCCACCACATCACAAGCAGACCAGCGCCTCGCGACGTGGCGGACCGTCCCCCAGTCACCCGCCGCATGA	MKIEVWQGDITELDVDAIVNAANETLLGGGGVDGAIHRAAGPQLLEACRHLPELRPGVRCPTGEVRATAGFGLKARHILHTVGPVWRDGEHHEPALLANCYWQSLKLAEQMGLHSIAFPAISCGVYGYPLHQAARVAVTETVAWQKSHAMPKRIVLVAYNDATAKAYQQALAASQPPTTSQADQRLATWRTVPQSPAA	PGPT0027680_1200	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
BMS020_08784	1035			hypothetical protein	ATGAAGCAGCGAAAGCCGGTGCAGTTGCGGGTGGCAGTGGGGTTGCTCTACGCCTCGCTCGTAGTGGGCATGGTGGTGGCGTGGGTGCAGAGCATGACCTTTGGGGTGCCGCCTATTTTGCAGTTGCTGCTGCATGGCGGGACCTTGCTGGTCATGGTGATCCTGATCGAAGGCATGGCGGCGGGCAGGAACTGGGCACGCGTGCTGTACTTGTTGATGGCCGTCGTCGGACTGCCGCTGTTCCTGGTCACTGCGGTGCAGCGGCTGGCGGAAGAGGCCTACCTACTGCTGGCGCTTGGCGCCGTCCAGTGGCTTGTGGCGCTGGTAGTGCTGTATCTGGTTTTCTTCGGGACTGCGGCGGCGTGGTTCGCGTCTGTGCAAACACAGGCGAAACCGCGGCCCCGGTGGCTGTCCTTGGCGGTTGGCATCACCGTGACGCTCGTACTGGGATTCGCCGCGCTGATGGTGATGTTCCCCCCATTCAAGACCGAAAAGCTGGTCGGCAACAATTCCATGACGAACACGGTCGAACTCTCCGACTCGTTCTTCGCCTCTCGTCTTGCCTATCTCACAAGCCCACCGCAGCGGGGCGATGTCATCGTGTTCAAGGCAATGTTCCAAGGGCGCAAGCGTGCTTATCTGTCGCGGATTGTTGGCCTGCCGGGAGACACGATCGAGATCCGCGAGAACAGGCTCCTGCTCAACGGTGTGCCGGTGGGTATCGAGCCGGTAGGAATGCCCGGGCGCGATGATTCTTACGGGGCGTTTGAGCGGCAGGACAGTTACATCGAGACGCTGCCGAACGGGGTGAGCTATAGGATCTTCGATCCCAGCGGGATCGCCGCGGTTGCGACGATGACGCCGCGAACGCTGCCGGCGGATCGCTACTTCGTCATGGGCGACAACCGGGTGGCTGCGGTCGACAGCCGTAACGCGGAGCAGATCGGCGATGTAGCCGCTGCCGATATCGTAGGCAAAGCGATCTACGTATACGACGCGATATACAAACCACGTGCGGGGCGATGGATCCGGTGA	MKQRKPVQLRVAVGLLYASLVVGMVVAWVQSMTFGVPPILQLLLHGGTLLVMVILIEGMAAGRNWARVLYLLMAVVGLPLFLVTAVQRLAEEAYLLLALGAVQWLVALVVLYLVFFGTAAAWFASVQTQAKPRPRWLSLAVGITVTLVLGFAALMVMFPPFKTEKLVGNNSMTNTVELSDSFFASRLAYLTSPPQRGDVIVFKAMFQGRKRAYLSRIVGLPGDTIEIRENRLLLNGVPVGIEPVGMPGRDDSYGAFERQDSYIETLPNGVSYRIFDPSGIAAVATMTPRTLPADRYFVMGDNRVAAVDSRNAEQIGDVAAADIVGKAIYVYDAIYKPRAGRWIR				NA	NA	NA	NA	NA
BMS020_08785	1005	fda		Fructose-bisphosphate aldolase class 1	ATGAGCATCGAACAGCTTGCCGAAACCGCCCAGGCCATGGTCGCCCCGGGCAAGGGCATCATCGCCATCGACGAGTCCACCAGCACCATCGCCAAGCGTTTCGCCGGCGTGGGCATCGAGAACACCGAAGAGAACCGTCGCGCCTACCGCGAGCTGCTGCTGACCACGCCGAAGCTGTCCGACTACATCTCCGGCGCGATCCTGTTCGACGAGACCATCCGCCAGTCGACCAAGGCCGGCGTGCCGTTCGCCAAGTACATGGCCGAGCACGGCATCATCCCGGGCATCAAGGTCGACAAGGGTGCGCACCCGCTGGCCGGCATGCCGGGCGAGCTGGTCACCGAGGGCCTGGACGGCCTGCGCGCGCGCCTGGAGGAGTACTACAAGCTCGGCGCCCGCTTCGCCAAGTGGCGCGCGGTGATCAACATCGGCGAGGACATCCCGTCGGGCACCTGCATCGAGGCCAATGCCCACGCGCTGGCGCGTTACGCCGCGCTGTGCCAGGAAGCCGGCCTGGTGCCGATGGTCGAGCCGGAAGTGATCATGGACGGCGACCACGACATCGAGACCTGCTACGAAGTCACCGAAGCCACGCTGCGTTCGCTGTTCGGCGCGCTGTACGAGCAGAACGTGGTGCTGGAAGGCACCATCCTGAAGGCCTCGATGGTCATCTCGGGCAAGGGCTGCGACGAGCAGGCCGGGGTCGAGGAAGTGGCCGAATCGACCGTGATGTGCCTGAAGTCGACCGTGCCGGCGATCCTGCCGGGCATCGTGTTCCTGTCCGGCGGCCAGACCGACGAGCAGTCCACCGCGCACCTCAACGCGATGAACAAGCTCGACAACCTGCCGTGGCCGCTGAGCTTCTCCTACGGCCGTGCGATGCAGGCCGCCGCGCTGAAGCTCTGGTCCAAGGACCTGGTCGGCAATTTCGCCAAGGCCCAGCAGATCGTCTACGACCGCGCCAAGGAAAACGGCCTGGCCGCGCTGGGGCAGTGGAAGGGCTGA	MSIEQLAETAQAMVAPGKGIIAIDESTSTIAKRFAGVGIENTEENRRAYRELLLTTPKLSDYISGAILFDETIRQSTKAGVPFAKYMAEHGIIPGIKVDKGAHPLAGMPGELVTEGLDGLRARLEEYYKLGARFAKWRAVINIGEDIPSGTCIEANAHALARYAALCQEAGLVPMVEPEVIMDGDHDIETCYEVTEATLRSLFGALYEQNVVLEGTILKASMVISGKGCDEQAGVEEVAESTVMCLKSTVPAILPGIVFLSGGQTDEQSTAHLNAMNKLDNLPWPLSFSYGRAMQAAALKLWSKDLVGNFAKAQQIVYDRAKENGLAALGQWKG	PGPT0017635_1807	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017635-fda-K01623	NA	NA
BMS020_08786	1467	pykA_2	COG0469	Pyruvate kinase II	ATGACTGAACGCCAGCGACGTACCAAGATCCTCGCAACACTCGGCCCTGCCACCGACCCGCCGGGCGTGCTCGAGGAGCTGTTCCGCGCCGGCGTCAACGTGGTGCGGCTCAATTTCAGCCACGGCGATCCGTCGGGCCAGGCCAAGCGTGCCGCCGAAGTGCGTGGCGCCGCGGCGCGCGTCGGTGCCGAGGTCGGCATCCTCGCCGATCTGCCCGGTCCGAAGATCCGCATCGAGCGTTTTGCCGAAGGCAAGATCACGCTGAAGACCGGCGACCGTTTCGACCTGGTCGCCGATCCCAATGCGCCGGCCGGCGACACCACCCAGGTCGGCGTCAGCTATCTCGGCCTGCCGCAGGACGTGCAGGCCGACGACGTGCTGCTGCTCGACGACGGGCTGATGCAGCTGAAGGTCGTCGAGGTGCAGGGCGAGCGCATCGTCACCCGCGTGCTCAACGACGGCGTGCTGTCCGACCGCAAGGGCCTGAACAAGCAGGGTGGCGGGCTGTCGCTGGGCGCGCTGACCGAGCGCGACAAGGAGCTGATCGGCATCGTCGCCAAGATCGGCGTCGACTTCATCGCAGTGTCGTTCTGCCGCAACGCGCAGGACATGAACGACGCCCGCGCGATCGCCCAGGCGCATGGCTGCAATGCCGCGCTGGTGTCCAAGATCGAGCGCACCGAGGCGATCGAGAATCTCAGCGAGATCGTCGAGGCCTCCGACGTGGTGATGGTCGCCCGTGGCGACCTCGGCGTGGAGATCGGCGATGCCGAGCTGCCCGGCCTGCAGAAGAAGATCATCAAGGAGTCGCTGGCGCAGAACAAGGTGGTGATCACCGCCACGCAGATGCTGCAGTCGATGGTCGAAAGCCCGATCCCGACCCGCGCCGAGGTGCTTGACGTCGCCAATGCGGTGATCGACGGCACCGATGCGGTGATGCTGTCGGCCGAATCGGCCGCCGGTGCCTATCCGGTCAAGGCGGTCGAGGCGCTGGCGCGCATCTGCCTGGGCGCCGAGCGCCAGTTCGAGATGGACACCGATTTCGAGGCCGCGCAGCGCAACCTCGAACGTGCCGACCACGCGATCGCGATGGCGACGATGTTCCTGTCCGAGCACATCGGCCTGGGCGGCGTGGTCGCGCTGACCGAATCCGGCGGCACCCCGCGTTACCTGTCGCGGTTCCGCTCGCAGGTGCCGATCTACGCCTTCACCCGCCACGACGACGCACGCCGGCGCATGGCGATGATGCGTGGTGTGTTCCCGATCAGTTTCGACAGCCGCGGCCTGACCCCGCGCGAGGCCGCCCGCGCGGCGATCCGTCTGCTGGTCGAGGGCGGGCGCATGAGCCCCGGTGCCCGCGTGGTGTTCACCAGCGGCGAGCACATGGAAACCCATGGCGCCACCAACACCCTGCGCCTGCTCGAAGTCGGCGCCGACGGCCACGCCAGCGGTCTGGGCGAACTCTAA	MTERQRRTKILATLGPATDPPGVLEELFRAGVNVVRLNFSHGDPSGQAKRAAEVRGAAARVGAEVGILADLPGPKIRIERFAEGKITLKTGDRFDLVADPNAPAGDTTQVGVSYLGLPQDVQADDVLLLDDGLMQLKVVEVQGERIVTRVLNDGVLSDRKGLNKQGGGLSLGALTERDKELIGIVAKIGVDFIAVSFCRNAQDMNDARAIAQAHGCNAALVSKIERTEAIENLSEIVEASDVVMVARGDLGVEIGDAELPGLQKKIIKESLAQNKVVITATQMLQSMVESPIPTRAEVLDVANAVIDGTDAVMLSAESAAGAYPVKAVEALARICLGAERQFEMDTDFEAAQRNLERADHAIAMATMFLSEHIGLGGVVALTESGGTPRYLSRFRSQVPIYAFTRHDDARRRMAMMRGVFPISFDSRGLTPREAARAAIRLLVEGGRMSPGARVVFTSGEHMETHGATNTLRLLEVGADGHASGLGEL	PGPT0002020_3496	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002020-pyk-K00873	NA	NA
BMS020_08787	639		COG0546	5'-nucleotidase	ATGCAAACGCTTTTCTTCGATATGGACGGCACGCTGATCGATTCCGAGCCCGGCATCATCGGCGGCCTCGTCTACACCTTCGACACGCTCGGCCAGGTGCTGCCGTCGGCCGCGCAGCTGCGTAGCTGGATCGGTCCGCCGCTGCGCGACAGCTTCCATGCCCAGTTCGACGGCGACGCCGCGCTGGTGCAGCAGGCGCTCACGCTGTATCGCGACCGCTACGACAGCGTTGGCTGGACCGAGCACCGCGTGTTCGACGGCATTCCCGCCACGATCGAGGCGCTGCACGCCGCCGGGCACACGCTGGCGGTGGTGACCTCCAAGAATGAACGCTTCGCCCGTCGCATCGTCGAACACCTGCCGTTCGGCCATTGCTTCAGCGAGGTGGTCGGCGCCAGCGATGACGGCGCGCGCCGCTTCAAGGTCGACCTGATCGCCGAGGCACTGCGCCGGCTGTCGTTGCAGGCGCACCAGTGCGTGATGATCGGCGACCGCAAGATGGACGTCGAAGGCGCCAAGGCGCATGCGATGCGCTGCATCGGCGTGCTGTGGGGCTTCGGCGATGCGGTCGAGCTGCGCCAGGCCGGCGCAGACGTGCTGGCCGCCACGCCGGCCGAGCTGGCAGCGCTGCTGGCCTGA	MQTLFFDMDGTLIDSEPGIIGGLVYTFDTLGQVLPSAAQLRSWIGPPLRDSFHAQFDGDAALVQQALTLYRDRYDSVGWTEHRVFDGIPATIEALHAAGHTLAVVTSKNERFARRIVEHLPFGHCFSEVVGASDDGARRFKVDLIAEALRRLSLQAHQCVMIGDRKMDVEGAKAHAMRCIGVLWGFGDAVELRQAGADVLAATPAELAALLA	PGPT0001730_6448	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
BMS020_08788	1173	pgk_2	COG0126	Phosphoglycerate kinase	ATGTCCATCGTCCGCATGACCGACCTCGACCTCGCCGGCAAGCGCGTGTTGATCCGCCAGGATCTCAACGTGCCGATCGAGCACGGCAGGATCACCTCCGAACAGCGCATCACCGCCTCGGTGCCGACGATCAAGGCGGCACTGGCGCAGGGCGCCGCGGTGATGGTGACCTCGCACCTGGGCCGTCCGAAGGAAGGCACCTGGACCGAGGACGATTCGCTGGCGCCGGTCGCGCAGCGCCTGTCGGAACTGCTCAAGACCCCGGTGGCGCTGGTGCGCGACTGGGTCGATGGCGTCCAGGTCGCGCCCGGCCAGGTCGTGCTGCTGGAAAACTGCCGCATGAACGTCGGCGAGGGCAAGGACGACGAGGCGCTGGCGAAGAAGTACGCCGCGCTGTGCGACGTGTTCGTGATGGATGCGTTCGGCACCGCGCACCGCGCCCAGGCCTCGACCCACGGCGTCATCAAGTTCGCCCCGGTCGCCGCCGGCGGCCCGCTGCTGATGGCCGAACTGGATGCGCTGGCCAAGGCGCTGGAGCACCCGGCCAAGCCGCTGCTGGCGATCGTCGCCGGTTCCAAGGTCTCGACCAAGCTGGAACTGCTGTCCAACCTGGTCGGCAAGGTCGACCAGCTGATCGTCGGTGGCGGCATCGCCAACACCTTCATCGCTGCGGCCGGCTACAGCGTCGGCAAGTCGCTGTGCGAGCCGGACCTGATCGACACCGCGAAGAAGATCGTCGCCGATGCGAAGGCGCGCGGCGCCGACATCCCGCTGCCGAGCGACGTGGTCGTCGCCAAGCAGTTCATGCCCGACGCCGTGGCCACGGTGAAGGCGGTCGACGCGGTGGACGCGGACGACCTGATCCTCGACATCGGTCCGGCCACCGCTGCCGCCTACGCCGCGCTGATCGCCAAGGCCGGCACCGTGGTGTGGAACGGCCCGGTCGGCGTGTTCGAGTTCGAGGCCTTCGGCAAGGGCACCGAGACGCTGGCCAAGGCGATCGCGACCTCGCCGGCGTTCTCGATCGCTGGTGGCGGCGACACCCTGGCCGCGGTCGACAAGTACGGCATCGCCGACCAGGTCAGTTACATCTCCACCGGCGGCGGCGCGTTCCTGGAATTCCTGGAAGGCAAGACCCTGCCGGCCGTCGCCGCGCTCGACGCGCGCGGCTGA	MSIVRMTDLDLAGKRVLIRQDLNVPIEHGRITSEQRITASVPTIKAALAQGAAVMVTSHLGRPKEGTWTEDDSLAPVAQRLSELLKTPVALVRDWVDGVQVAPGQVVLLENCRMNVGEGKDDEALAKKYAALCDVFVMDAFGTAHRAQASTHGVIKFAPVAAGGPLLMAELDALAKALEHPAKPLLAIVAGSKVSTKLELLSNLVGKVDQLIVGGGIANTFIAAAGYSVGKSLCEPDLIDTAKKIVADAKARGADIPLPSDVVVAKQFMPDAVATVKAVDAVDADDLILDIGPATAAAYAALIAKAGTVVWNGPVGVFEFEAFGKGTETLAKAIATSPAFSIAGGGDTLAAVDKYGIADQVSYISTGGGAFLEFLEGKTLPAVAALDARG	PGPT0018015_5197	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
BMS020_08789	1338			hypothetical protein	ATGAAACGTATTGCCTGGTTGCTGCTGTGGCCGCTGGCGGTGCAGGCCGCCGACGTGCGCGAGGACTATGCACAGGCCTGGCCGCTGCAGCTGGCATCGGCCGATGCCGGTGCCTATCAGCTGACCCTGACCGAGCCGGTCTACCGCGCGCTGCGCTCGCCGACCCTGGCCGACCTGCAGCCGATCGACGCGACCGGTGCGCCGCTGCCGGCGGCACTGGCCGGGACCGACGTGCCGCTGACCAGCAGCGACCGGCGCGTGGCGTTGCCGCTGTTCGCGCTGCCGGCGCAACCGGCGCAAGCGGGCGGCGGCGACCTGACGTTGATCGCCGAGCGCGACCCGGATGGCGCCATCCGGCGCATCGAGACCCGCAGCACCACTGGCGGCGAAGCGGTGCACCCGGCCTGGCTGGCCGATGCCAGCGCGCTGGCGGCCGCGCCGCGCGCGCTGTGGCTGGACTGGCAGGCCGATGCCGGTGAACCGCTGCAGGCCGACGTGCGCGTGGAGGCCAGCGACGACCTGCGCAGCTGGCGGTTGCTGGAGCCGCGCGTCACCCTGATGCAGCTCAGCAACGGCCGCGAACGGCTGCAGCAGCGGCGCATTCCACTCAATGGCAGTGGCCGCTACCTGCGCATCAGCGCGCTGAGCACGGCGATGCCGGCGCTGCGCGGCGTCGCCGCCGAGCCGGCGCCGGAGGACGCGCGCGCGCCGCTGCACTGGCTGGTGCTGCACGGGCAGGCCGATGGCCGCGGTCATGTGTTCGAACTGCCGGGGCGCTTCCCGGTCGCGGCGGTCGATGTCGAGACCGGCGCGAACGATGCCGGCGAATGGATCGTGCAGAGCCGCGACGACCCGCAGGCACCCTGGGTGCAGCGCGCCGGGCCGTGGCTGACCTATCAGGTTGGCAGCGGGCGCTCGGCGCCGCAGGCGCTGGCGCAGCCCAGCCGCGACCGCTACTGGCGGCTGCAGCCGCGCGAGGGCGGCGCGGGCGGCGCACCGGTGCTGCGCCTGGGCTGGCGTGGCGAGACGCTGCTGTTCCTGACCCGCGGCCAGGCGCCGTATGCGCTGGCGGCCGGCAGTGCGCGGGCAGGGCGCGAGGACGCGCCGCTGGCCGACATGCTGGCCGCGCTGCGGCGCGAACGCGGCGCGCAGTGGCAGCCGGCCGACGCCGTGCTGGCCGGTGCGGCGCGCCCGCTCGCCGGCGAGGCGGCGCTGGTGGCCGCGACGCCACGCGACTGGACGTCCTGGCTGCTGTGGGGCGTGCTGGTGGCCGGGGCGCTGCTGGTGGGCGCTTTCGCACTGAGCCTGGTGCGCGGTGGAGGCGAGGGCGCGCGCTGA	MKRIAWLLLWPLAVQAADVREDYAQAWPLQLASADAGAYQLTLTEPVYRALRSPTLADLQPIDATGAPLPAALAGTDVPLTSSDRRVALPLFALPAQPAQAGGGDLTLIAERDPDGAIRRIETRSTTGGEAVHPAWLADASALAAAPRALWLDWQADAGEPLQADVRVEASDDLRSWRLLEPRVTLMQLSNGRERLQQRRIPLNGSGRYLRISALSTAMPALRGVAAEPAPEDARAPLHWLVLHGQADGRGHVFELPGRFPVAAVDVETGANDAGEWIVQSRDDPQAPWVQRAGPWLTYQVGSGRSAPQALAQPSRDRYWRLQPREGGAGGAPVLRLGWRGETLLFLTRGQAPYALAAGSARAGREDAPLADMLAALRRERGAQWQPADAVLAGAARPLAGEAALVAATPRDWTSWLLWGVLVAGALLVGAFALSLVRGGGEGAR				NA	NA	NA	NA	NA
BMS020_08790	2343			hypothetical protein	GTGTTCACCCGGGCGCGGCGCGCCACGCCCGCGCCGGACGCGTTCGGCCGGCTGTTGCTGGGCGTGCGCCGCTGGTTCACCGAAGGCAACGTGCCGGTCAAGGTCGGCATGCTGGTGCTGCTGGCCGGTGTCGCCTCGCTGCTCAAGTACGCTGGCGACCAGGGCTGGCTGACCGTGCCGGTGCAGCTGCGCTATGCCGGCATCGCCGCGGCCGCGCTGGCCGGGCTGGTGTTCGGCTGGCGCCAGCGGCTGCAGCGGCCCGGCTTCGCGCTGGCGCTGCAGGGCGGGGCGATCGGCGTGCTGCTGCTGGTGGTGTTCGCCGCGTTCAAGCTCAGCGGCCTGCTGCAGCCCGGTCCGGCGTTCGCGCTGACCGTGGCGCTGGTGGCCGGGCTGTGCGTGCTTGCGGTCAAGCAGGATTCGCGCACGCTGGCGGTGCTGGGCATCCTGGCCGGCTTCCTGGCGCCGATCTGGCTGTCCACCGGCAGCGGCAACCATGTCGCGCTGTTTTCCTACTACGCGGTACTCAATGCCGCGGTGTTCGCGATCGCCTGGGTGCGCCCGTGGCGGGTGCTGAACCTGCTGGGTTTCGTCTTCACCTTCGGCATCGGCACGCTGTGGGGCGTGCTGCAGTACCGTCCGGCGCAGTTCGCCAGCACCGAGCCGTTCCTGCTGCTGTTCTTCGCGCTGTACCTGCTGATCCCGGTGCTGCATGCGCGCCGGCGCGATGCGCAGCCGAGCCGGCCGATCGACGGCAGCCTGCTGTTCGGCACGCCGCTGGTCGCGTTCTCGCTGCAGGCCGGGCTGCTGCAGGGCGAGCGCATGCCGCTGGCGCTGTGCGCGCTGGGCCTGGCGGCGCTGTACGCGGCGCTGGCGGCCTGGCTGGTGCGCGATCCGCGCAGCCGCACGCTGGGCGAGGGCCACGTGCTGCTGGCGGTGGCGTTCGCCACGTTGGCGGTGCCGCTGGCGCTGTCGGCGCGCGCCACCGCGAGCGTGCTGGCGCTGGAAGGTGCCGGGCTGGTCTGGCTCGGCCTGCGCCAGCAGCGGTTGCTGCCGCAGTTCAGTGGCGTGGCGCTGCAGCTGCTGGCCGCACTCGGGTTCGTGATCGGCATCGCCGGCTGGGACCACGATCCACGCGCGCTCGCCAACCCGACCTTCATGAGTGCGTTGCTGATCGCGCTGGCCGGTTTCGCCAGCGCGGCGTTCCTGCGCGGGCGCGAACGCGCGCCGGCAGCGCTGGCGGCGTACCTGTGGGCGCTGGCGTGGTGGGCGTTGGCGTGGGTGCACGACATCCTGCGCTTCGCCGCGGTGAGCGATCGCCCGGACATGGTGCTGGCGTGGCTGGCGGCGAGCGCCTGGCTGGCGGCGGAAGTGGCGCGGCGGCGGCCGGCGGCCGCGCTCGGCTGGACCACGATGGGCGCGTTGGTGCTGGTGCTGCCGACCCTGTGGTGGCAGGTGCTGGCGCATGCGCAGCCGTTCGCCGGTCTGGGTGCGGCGGCGTGGCTGGTGCTGGCCGTGCTGGGCACGCGCGCGCTGTGGTGCCTGCGCGGGACCGATGGTGGCAGTGGCCGCGCAGCGCAGTTCGCCTGGTGGTTGCTGTGGCCGCTGGCGGTGTCGCTGGCCGGGCGTTGGCTGAGCGGCAAGTACGGGCTCGATGCCGGTTGGAGCTGGGCGTTGCTGGGTTGGCCGTGGCTGCTGCTGGCGGCGCTGGCGCTGCTGCGCTGGCCCTGGCTGGCGTGGCCGCAGGGCGCGGCATTCGTGCGCGCGCGTCCGGCGCTGCTGGCGACGGTGTTCGCGCTGCTTGGCATCGGCTGGCTGGCGGTGCTGTTCAACAGTGCCGGCGCGCGGCCGTTGCCGTGGATCCCGTTGCTCAACCCGGCCGAACTGGTGCAGCTGGCGGTGCTCGCCTTGGCGGTGCGCTGGCTGCGGTCGGCACAGGCGCCCGACATCGCACCGGCGCGGCGCGTGCTGGTGCCGGCGGTCGGTGGCCTGCTGCTGATCACCGGCACGGTGCTGCATGGCGTGCATCACTGGGGCGGCGTGGCCTGGAACGATGCACTGCTTTCGTCGAGCCTGGCGCAGACCAGCCTGACCGTGGCCTGGAGCGTGCTTGGTGTGCTTGGCTGGGTGATCGGTTCGCGGCGCGGGCAGCGTGGGATCTGGCTCAGTGGCGCGCTGCTGATGGCGGTGGTGCTGGCCAAGCTGGTGCTGGTCGATCGCCAGCACTTGGGCAACCTGCTCGGCATCGGCTCGTTCATCGCCTACGGCCTGCTGTGCACGGTGGTGGGTTTCCTGGCCCCGGCGCCGCCGCGACCGGCGGCCGCCGAAACGGAGGCGTCGGCATGA	MFTRARRATPAPDAFGRLLLGVRRWFTEGNVPVKVGMLVLLAGVASLLKYAGDQGWLTVPVQLRYAGIAAAALAGLVFGWRQRLQRPGFALALQGGAIGVLLLVVFAAFKLSGLLQPGPAFALTVALVAGLCVLAVKQDSRTLAVLGILAGFLAPIWLSTGSGNHVALFSYYAVLNAAVFAIAWVRPWRVLNLLGFVFTFGIGTLWGVLQYRPAQFASTEPFLLLFFALYLLIPVLHARRRDAQPSRPIDGSLLFGTPLVAFSLQAGLLQGERMPLALCALGLAALYAALAAWLVRDPRSRTLGEGHVLLAVAFATLAVPLALSARATASVLALEGAGLVWLGLRQQRLLPQFSGVALQLLAALGFVIGIAGWDHDPRALANPTFMSALLIALAGFASAAFLRGRERAPAALAAYLWALAWWALAWVHDILRFAAVSDRPDMVLAWLAASAWLAAEVARRRPAAALGWTTMGALVLVLPTLWWQVLAHAQPFAGLGAAAWLVLAVLGTRALWCLRGTDGGSGRAAQFAWWLLWPLAVSLAGRWLSGKYGLDAGWSWALLGWPWLLLAALALLRWPWLAWPQGAAFVRARPALLATVFALLGIGWLAVLFNSAGARPLPWIPLLNPAELVQLAVLALAVRWLRSAQAPDIAPARRVLVPAVGGLLLITGTVLHGVHHWGGVAWNDALLSSSLAQTSLTVAWSVLGVLGWVIGSRRGQRGIWLSGALLMAVVLAKLVLVDRQHLGNLLGIGSFIAYGLLCTVVGFLAPAPPRPAAAETEASA				NA	NA	NA	NA	NA
BMS020_08791	1422	tdeA	COG1538	Toxin and drug export protein A	ATGAAGCTCCGATCCTCCCCCGCCCTGCTCGCGCTTGCGCTGGCCTCCAGCGCGCTGCTGTCCGGCTGCATCGGCACCGGCCAGTACCGCGCCGGCCCGATCGCCGTGGCCTCGCACTACGGCCGCGGCGACGCCGCCACCAACACGCCCGACCAGACCCTGGCATTGCAGGCGACCTACCCGGCCCACGATGTCGCCGGCGACGCGTGGTGGCGCGGCTTCGGCGACGAACGCCTGAGCCGCATGGTCGAACAGGCGCTGGCGGTCAACAACGACCTCGCCGCCGCCGGGCTGACCCTGCGCAAGGCCCGGCTCCAGGCCGGCCTGGCCGAGACCGATTTCTGGCCGACCGCCGACGCCAGCGTCGACGGCTCGGCCAGCCGCTCGACCGACCACCACGACACCTTCGCCAAGAGCTACAGCGCCAGCGCCTCGCTGAGCTGGGAGATCGACCTGTGGGGCAAGCTGCGCGCGCAGCGCGACGTGGCCGCCTGGGAAGCGCGCGCCACCGACGAGGACCGCGAGAACACCGCACTGGCACTGGTCGGCGAGGTCTGCAGCGATTACTGGCAGCTGGCTTATCTCAACCAAAGCATCGCCGCCGGCGAGGCCAACCTGGCGATGCTGGAGAAGACCCGCCAGCTGGTGCAGGTGCAGTACGCCGCCGGCGACGTGTCGCGGCTGGAGCTGCGCGAGGCCGAGCAGAACCTGGAAAGCGAGCGCACCAGCCAGAGCCAGCTGCTGCAGCAGCGGGTGGAGATCCGCAACGCGATCACCGTGCTGCTCGACGGCCAGCCGTGGCCGCAGGCCGACGAACCGCAGAACCTCGATGTCGCCAGCAGCCCGGCGCTGGCCGAGGGCGTGCCGGCGCAGCTGCTGGCGCGCCGCCCCGACCTGCGCGCGTCCGAGCTGCGCCTGCGCGAATCGCTGGCGTCGATCAAGGCCACCGCGCGCAGCTACTACCCGGCACTGAGCCTGACCGGCGCGATCGGCGGCAGCAGCACGGCGCTGTCGCAAGTGCTGAAGAACCCGGTGGCCACGCTCGGCGCCGGCCTCAGCCTGCCGTTCCTGAATGTCCGCCAGGCCCAGCTCAATACCCGCATCGCCGGCACCGAGTACGAGATCGCCGCCAGCAGCTTCCGCACCACGCTGTACACCGCGCTGGGCGAGGTCGACAACGCGTTGAGCGCGCGCGAGCAGCTCGCCGCGCAGCTCGGTTCGGCGCAGAAGTCCTACGACGCCGCGCGCGAGATCGAGCGCATGTACGAAGTGCGTTACCGCGCCGGCGACACCGACCTGCGCACCTGGCTGGACGCGCAGGAAACCCTGCGCAGCTCGGAACTGGCGCTGGCCAAGGTCAAGCTCAACCAGCTCAGCAACGACGTGACCCTGTACCAGGCGCTGGGCGGCGCGGCGTCGTAA	MKLRSSPALLALALASSALLSGCIGTGQYRAGPIAVASHYGRGDAATNTPDQTLALQATYPAHDVAGDAWWRGFGDERLSRMVEQALAVNNDLAAAGLTLRKARLQAGLAETDFWPTADASVDGSASRSTDHHDTFAKSYSASASLSWEIDLWGKLRAQRDVAAWEARATDEDRENTALALVGEVCSDYWQLAYLNQSIAAGEANLAMLEKTRQLVQVQYAAGDVSRLELREAEQNLESERTSQSQLLQQRVEIRNAITVLLDGQPWPQADEPQNLDVASSPALAEGVPAQLLARRPDLRASELRLRESLASIKATARSYYPALSLTGAIGGSSTALSQVLKNPVATLGAGLSLPFLNVRQAQLNTRIAGTEYEIAASSFRTTLYTALGEVDNALSAREQLAAQLGSAQKSYDAAREIERMYEVRYRAGDTDLRTWLDAQETLRSSELALAKVKLNQLSNDVTLYQALGGAAS				NA	NA	NA	NA	NA
BMS020_08792	1959	macB_3	COG0577	Macrolide export ATP-binding/permease protein MacB	ATGACCCAGGCTCTGCTGCAACTGCGCGGATTGCGCCGCGAATTCCCCTCCGGCGACGACACGCTGGTGGTGCTCAAGGACATCGACCTGGACATCGGCGCCGGGGAGATGGTCGCCATCGTCGGCCAGTCCGGCTCCGGCAAGTCCACGCTGATGAACATCCTCGGCTGCCTCGACCGACCCAGCGCCGGCAGCTACGAAGTCGCCGGCCGCGCCACCGCGCGGATGACGCCCGACGAGCTGGCGCAGCTGCGCCGCGAGCACTTCGGCTTCATCTTCCAGCGCTACCACCTGCTCGGCGACCTCGACGCGCTCGGCAACGTGGAAGTGCCGGCGGTGTACGCCGGCGTGCCCGGCCCGGCGCGACGCGCGCGTTCGTTGGAGCTGCTGCAGCGGCTCGGCCTCGGCGACCGCACCGGCCACACCCCGGGCAAGCTGTCCGGCGGCCAGCAGCAGCGCGTGTCGATCGGGCGTGCGCTGATGAACGGCGGCCAGGTGATCCTCGCCGACGAACCGACCGGCGCGCTCGACACGCGTTCGGGCGAGGAAGTGCTGGCGATCCTCAAGGAGCTGCACGCCGACGGCCACACCATCATCATCGTCACCCACGACATGAGCGTGGCGCGGCATGCCCAGCGCATCATCGAACTGCGCGACGGCGAGGTGATCGGCGACAACCCCAACCCCGACGTGCCGGCGACCCGCGCCGCGCGCCGGCCGCAACCCGCGCCCAGCGGCGGCAGCGCGTTCCAGGCAGTCCGCGACCGCTTCGTCGAGGCGTTCCGGATGGCGCTGCTGGCGATGAACGCACACCGCCTGCGCACCTTCCTGACCATGCTCGGCATCATCATCGGCATCGCCTCGGTGGTGTCGGTGGTCGCGCTCGGCAACGGCTCGCAGCAGCAGATCCTGGCCAACATCTCCTCGCTGGGCACCAACACCATCGAGGTCTACCCGGGCTCGGGCTTCGGCGACCTGCGCTCGGGCCGGGTGCAGACGCTCAAGGCCTCCGATGCCACCGCGCTGGCAACGCAGAGCTATGTCGACAGCGCCACGCCGAACGTCTCAAGCTCGGTCACCGCGCGCTACGGCAACAAGTCGGCGACCACCCAGGTCAACGGCGTCGGCGAGCAGTACTTCCGGGTGAAGGGGCTGAAGATCGCCGAGGGCAAGCTGTTCGATGCCGAGGCGGTCAAGCGCCTGGAACAGGTGGTGGTGATCGACCAGAACACGCTCAAGCAGTTCTTCGGCGACGACCGCCGCAGCCCGATCGGCCGGGTGATCCTGCTCGACAGCGTGCCGGCGCGGGTGATCGGCGTGGTGCAGAAGCAGACCACCGGTTTCGGCAGCAGCTCCTCGCTGCGGGTGTGGATTCCCTACAGCACCGCCATGGCGCGCATGCTCGGGCAGAGCTACGTGTCCTCGATCACAGTGCGGGTCACCGACGACACCCCGATGAGCGCGGCCGAACAGGCGGTCAAGCGCCTGCTCAAGCTGCGCCACGGCGTCGACGACGTCTACCTGAGCAACAGCGCCGAGATCCGCGAGACCATCGAGAAGACCACGCGCACGATGACCTTGATGATCGGCTCGATCGCCGCGATCGCGCTGGTGGTCGGCGGCATCGGCGTGATGAACATCATGCTGGTCTCGGTGACCGAACGCACCCGCGAGATCGGCGTGCGCATGGCGGTCGGCGCGCGCCAGAGCGACATCCTGCAGCAGTTCCTGATCGAGGCGGTGCTGGTGTGCCTGTTCGGCGGTGTGCTCGGCGTCGCGCTGGCGCTGGCCTTGGGCAGCGTGTTCGATGCCGCCGGCGGCGATTTCAACATGGTGTTCTCGGCCGGCTCGATCGTTGCCGCGTTCGCCTGCTCCAGCCTCATCGGCGTGCTGTTCGGCTTCATGCCGGCACGCAATGCCGCCCGACTCGACCCCGTTGACGCCCTGGCCCGCGAATGA	MTQALLQLRGLRREFPSGDDTLVVLKDIDLDIGAGEMVAIVGQSGSGKSTLMNILGCLDRPSAGSYEVAGRATARMTPDELAQLRREHFGFIFQRYHLLGDLDALGNVEVPAVYAGVPGPARRARSLELLQRLGLGDRTGHTPGKLSGGQQQRVSIGRALMNGGQVILADEPTGALDTRSGEEVLAILKELHADGHTIIIVTHDMSVARHAQRIIELRDGEVIGDNPNPDVPATRAARRPQPAPSGGSAFQAVRDRFVEAFRMALLAMNAHRLRTFLTMLGIIIGIASVVSVVALGNGSQQQILANISSLGTNTIEVYPGSGFGDLRSGRVQTLKASDATALATQSYVDSATPNVSSSVTARYGNKSATTQVNGVGEQYFRVKGLKIAEGKLFDAEAVKRLEQVVVIDQNTLKQFFGDDRRSPIGRVILLDSVPARVIGVVQKQTTGFGSSSSLRVWIPYSTAMARMLGQSYVSSITVRVTDDTPMSAAEQAVKRLLKLRHGVDDVYLSNSAEIRETIEKTTRTMTLMIGSIAAIALVVGGIGVMNIMLVSVTERTREIGVRMAVGARQSDILQQFLIEAVLVCLFGGVLGVALALALGSVFDAAGGDFNMVFSAGSIVAAFACSSLIGVLFGFMPARNAARLDPVDALARE	PGPT0027920_537	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027920-macB|ybjZ|pvdT-K05685	NA	NA
BMS020_08793	1302	macA_3	COG0845	Macrolide export protein MacA	GTGGGGGCGCGCACCAGACTGGTTGCGACGCCGCCCGACCGCGGCATGCCGGTACCGTTGCCCGTGAAACTTCCGCTTCCCAAGAGCCGCCGCGGCCGCCTCGCGGTCCTCGCGCTGGCGCTGCTGATCGCCGCCGCGCTCGCCTTCTGGCTGCTGCGGCCGCCACCGCCGCCGCGCCTGGCGACCTCGCCGGTGACCCGCGCCGACATCGAGCAGACGGTGGAGGCCACCGGCACGATCAAGCCTTCGCAGCTGGTCAGCGTCGGCGCGCAGGTGTCCGGCCGCATCGAATCGCTGAAGGTCAAGCTCGGCGACACGGTCAAGGCCGGTGACCTGATCGCCGAGATCGACTCGCGCACCCAGCTCAACACGCTCAAGAGCGCGCAGGCGGCGCTGCAGAACGCCCGCGCCAGCCGCGACGCGCAGGTCGCCACGCTGCGCCAGTACGAAGCCGCGTTCGAACGGCAGAAGACCATGCGCGCCGCCGACGCCAGCTCGCAGGCCGACTACGACAGCGCCAAGGCCAGCATGGAAGCGACCCGCGCGCAGATCGCCGCGCTCGCCGCCACCATCGTGCAGCAGGAGACCGAGGTCGCCACCGCGCAGACCAACCTCGGCTACACCCGCATCACCGCGCCGATCGACGGCACCGTGCTGGCGGTGGTGTCCAAGCAGGGCCAGACGGTCAACGCCAACCAGAGCGCGCCGACCATCGTGATGCTCGGCAACCTCGACACCATGACCGTGTACGCGGAGATCTCCGAGGCCGACGTGATCCGCACCCGCGAAGGCCAGCCGGTGTACTTCACCATCCTCGGCAACGCCGACAAGCGCTACACCAGCACGCTGCGCGCGATCGCGCCGGCGCCGGAATCGGTGACCGACGAGGACAGTTCCTCGTCCAGCTCGTCCTCCAGCTCGTCCTCGTCCAGCACCGCGATCTACTACTACGGCCTGTTCGACGTCCCCAACCCCAGCCACGAACTGCGCACCTACATGACCGCGCAGGTCAGCATCGTGCAGGGCCAGGCCAAGCAGGTGCTGACCATTCCCTCGACCGCGCTGGGCGACAAGAACGCCGATGGCAGCTACGAGGTGCAGGTCGCCGGCGGCAACGGCCCGCCGGAGCGGCGCAAGGTGGTGATCGGCCTGGACAACCGCTCCATCGCCGAGGTCAAGAGCGGCCTGCGCGAAGGCGAACGCGTGGTGGTCGGCGAGGCCAGCACCGACACCAGCAGCGACAGCAGCGCCGGCCGGCGCATGGGCCCCGGTGGTCCGGGCGGCCCGCCGCCGATGATGTGA	MGARTRLVATPPDRGMPVPLPVKLPLPKSRRGRLAVLALALLIAAALAFWLLRPPPPPRLATSPVTRADIEQTVEATGTIKPSQLVSVGAQVSGRIESLKVKLGDTVKAGDLIAEIDSRTQLNTLKSAQAALQNARASRDAQVATLRQYEAAFERQKTMRAADASSQADYDSAKASMEATRAQIAALAATIVQQETEVATAQTNLGYTRITAPIDGTVLAVVSKQGQTVNANQSAPTIVMLGNLDTMTVYAEISEADVIRTREGQPVYFTILGNADKRYTSTLRAIAPAPESVTDEDSSSSSSSSSSSSSSTAIYYYGLFDVPNPSHELRTYMTAQVSIVQGQAKQVLTIPSTALGDKNADGSYEVQVAGGNGPPERRKVVIGLDNRSIAEVKSGLREGERVVVGEASTDTSSDSSAGRRMGPGGPGGPPPMM	PGPT0027919_446	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027919-macA|pvdR-K13888	NA	NA
BMS020_08794	729	ompR_7		Transcriptional regulatory protein OmpR	ATGACGGAAGAACAGACCATGCACCGCCTGCTGATCGTCGACGACGATGCCGACATCCGCACGCTGCTGGCCGAGCAGCTCGGCCGCGCCGGCTACCTGGTCAGCACCGCCGGCGACGGCACGCAGATGCGCCAGGTGCTCGAGCGCGAGCACGTCGACCTGATCGTGCTCGACCTCAACCTGCCGCGCGAGGACGGGCTGACCCTGTGCCGCGACCTGCGCGCGCGCTCGGCCACGCCGGTGATCATGCTGACCGCGCGTGCCGAGCCGATCGACCGCGTGCTCGGCCTGGAAATGGGCGCCGACGACTACCTGGCCAAGCCGTTCGAGCCGCGCGAGCTGCTGGCGCGGATCCGCAACGTGTTGCGCCGGACCGAGGCGCTGCCGGCCAACCTGGAACCGCTGGCGGTGCGCCGGGCGCGCTTCTCCGGTTGGATGTTCGACTTGGAGCATCGCCACCTGGTCGATCCGGCCGGGCGCATGGTGGTGCTGTCCGGCGCCGAGTTCCGCCTGCTGCGGGTGTTCGTGACCCACGCCAACAAGGTGCTCTCGCGCGAACAACTGGTGGCGCTGAGCAGCGGCCGCCAGTACGAGGCGCAGGACCGCGCGATCGACCTGCAGGTCAGCCGGCTGCGGCAGAAGCTGGGCGAGGCCGGTGGCACCGACGGGCTGGTGCGCACGGTGCGCAACGAAGGCTACGTGCTGGCCGCGGCGGTAACGCTGGAATGA	MTEEQTMHRLLIVDDDADIRTLLAEQLGRAGYLVSTAGDGTQMRQVLEREHVDLIVLDLNLPREDGLTLCRDLRARSATPVIMLTARAEPIDRVLGLEMGADDYLAKPFEPRELLARIRNVLRRTEALPANLEPLAVRRARFSGWMFDLEHRHLVDPAGRMVVLSGAEFRLLRVFVTHANKVLSREQLVALSSGRQYEAQDRAIDLQVSRLRQKLGEAGGTDGLVRTVRNEGYVLAAAVTLE	PGPT0012985_41	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
BMS020_08795	1389	sasA_17		Adaptive-response sensory-kinase SasA	ATGAGGCGGCTGCGGCGCTTTCTGGCCTCGATGGCCGGCCGGCTGTTCCTGATCCTGCTGGTTGGCATGCTGGCGGCGGCGGTGGCCGCCGCGCTGCTGGTCAACGCCAAGCGCCGGCAGGACTTCGAGCGCCAGGACATGGCGCGCGCGGCCGACCGCCTGCAGGGCTACATCGAGCTGCTCGATGGCAACCCGGAACTGCGTCCGCGCCTGCTCGGCAACGGCGGCCCCGGGGTGCGCGCGGCCGCCTCCGAGGCCCAGGCCGCGCGCCCGGACCCGGCATTCCAGGCGGTGCTGCGGGCACGCTCGGGCCGGCTGGCCACGGCCGAGGCGCTGGTCGCCGGGCACCAGGCCTGCATGCCGCGACCGCCGGATTTCATCCCGCCGCCGGCCGCGCTGGCGCGCGACGCGCAGCGCCGCCATCGCGATGCCGGGGTGGAGCCGCCGCGCTGCCGGCTGGTGGCGTTGAAGCTGGCCGACGGCACTCCGGTGCGGCTGGTGGTGGAAACCCCGGCGGTCGCGCGCGATGGCCTGGCGCCGCTGGACCCGTTGTTCCTGGGCCTGGTCGCGCTGGCGATCGGGCTGCTGGCCTATGCGGTGTCGCGGATGGCCGGCGCGCCGCTGCGGCGCCTGGCCGACGCGGCCAGCGCACTCGGCCAGGATCTGCAGCGGGCGCCGATCGCGGTGGCCGGGCCGGCCGAGGTGCGCGCCGCGGCGCAGGCCTTCAACGCGATGCAGCGGCGGTTGCAGCGCCATCTCGGCGAACGCACGCAGATGCTGGCGGCGATCACCCACGACCTGCAGACCCCGCTGACCCGGCTACGGCTGCGGTTGGAGGACGTGGCCGACGAGGCGCTGCGCGAGCGCCTCATCGGCGACCTGGCGGCGATGCAGGCGCTGATCCGCGAAGGCCTGGAACTGGCCCGCAGCGCCGAAACCGCCGAGCAGCCGGTCGCGCTGGACCTGGATTCGCTGCTGGAAAGCCTGGTCGAGGATGCCGCCGAAGCCGGCGCCGAGGCGGTGTTCGAGCAGGGCTGCGGCGCGGTGCTGCTGCTGCGGCCGCTGGCGATGCGCCGGCTGTTCTCCAACCTGATCGACAACGGCATCAAGTACGGCCACGCGGTGCGGGTCAGTGCCGCCAGCGAGGGCGGGCGGGTGGTGGTGCGGGTGCGCGACGCCGGCCCCGGCCTGCCCGAAGACGCGCTGGAGACGGTGTTCGACCCGTTCGTCAGGCTGGAAACCTCGCGCTCGCGCGAGACCGGCGGTGCCGGCCTGGGCCTGACCATCGCCCGCACCCTGGCCGAGAAGGACGGCGCCACGCTGCGCCTGGCCAACCTGGCCGGTGGTGGGTTGGAGGCCGCGGTGGAGTGGGCCGCGCCGCCGCGCTGA	MRRLRRFLASMAGRLFLILLVGMLAAAVAAALLVNAKRRQDFERQDMARAADRLQGYIELLDGNPELRPRLLGNGGPGVRAAASEAQAARPDPAFQAVLRARSGRLATAEALVAGHQACMPRPPDFIPPPAALARDAQRRHRDAGVEPPRCRLVALKLADGTPVRLVVETPAVARDGLAPLDPLFLGLVALAIGLLAYAVSRMAGAPLRRLADAASALGQDLQRAPIAVAGPAEVRAAAQAFNAMQRRLQRHLGERTQMLAAITHDLQTPLTRLRLRLEDVADEALRERLIGDLAAMQALIREGLELARSAETAEQPVALDLDSLLESLVEDAAEAGAEAVFEQGCGAVLLLRPLAMRRLFSNLIDNGIKYGHAVRVSAASEGGRVVVRVRDAGPGLPEDALETVFDPFVRLETSRSRETGGAGLGLTIARTLAEKDGATLRLANLAGGGLEAAVEWAAPPR				NA	NA	NA	NA	NA
BMS020_08796	3006	vgb		Virginiamycin B lyase	ATGGTTCAGCGGTGCGGGTGCCTGCGGGCGGGTAGCGGCAATCGAAGGCGGCGATGGAGCCTGGCGCGCATCGGCATCGCCTGCTGGCTGCTGCTGGCCGTCTGCCTGCCGGCCTGGGCCGGCGGCGCGCTCGGCCCGCCGCCGCTGCGCGACTATGCGATCGACGCCTGGACCTCGCGCAGCGGGTTGCCGCAGAACTCGATCCGCGACATCGCCCAGACCCCCGAAGGCCACCTGTGGTTCGCCACCTGGGAAGGGCTGGCGCGCTACAACGGGCTGGAGTTCACCGTCATCGACCGCAGCACCCGTCCCGGCCTGCCGGACAACGGGGTCGGCGCGCTGTACGTGGACCCGGCCGGGGCGCTGTGGCTGAGCGATTCACGCGGCAACCTCGGCCGCTACTCGCGCGATGGCCGCTGGCGCTTCTGGACCCGTGGCGCGGACTGGCCCAAGGCGCTGGTGCACGCGATGGCGATGGATGCGCAGGGGCGCATGTGGCTGCTGTTCGAGGGCCATGGCCTGGGCCGCATCGATGTCGACGGCAGCTTCCATTACATCCCGCCACCGGACGACCTGCCGCTGGCCAGCAGCTTTCCGAAGATGGTGTTCGACGCGCGCGGTCGGCTGCTGATCGGCACGCTCGACGGCCTGCTGTACCGCGAACCGGACGGGCGCTTCCACCGCGCGCCGTTCGCGCTGCCGCCGGGGCTGGCCTGGCCGTACCGCGCCGCCGACGGCAGCGTCTGGGCGGTGGCCGGCAGCGACGTCTACCGCGTGCACGACGCGCATGCCGAACGCGTGGCGCACGTGGAGGGGCAGGGCCACTTCACCGCGATGCTGCGCGACCGCAACGGCGAGATCTGGCTGGGCACCGAGAACAACGGCCTGCTGCGGATCGGCCGGCATGGCGTGGAGCACCTCGGCACCGGCACCGAGCTGCCCACCGGGCGCATCGTCAGCCTGCTCGAGGACGCCGAGGGCAGCATCTGGCTGGGCGCCAACGGTGGTCTGTACCGGCTGCGCGAGACGCTGTTCAGCAGCTACACCCATGCCGACGGGCTGAGCGGCGACTACAGCCGCGCGCTGCTGGAGGCGCCGGATGGCGCGCTGTGGATCGGCAGCGCCTCCGGGCTGGACCGGATGGAGCCGGACGCCACGCTGCATCCAGTGCCGGTGCTCAATCCGCTCGGGCGCAACGTCTCGGTGCTGAGCCTGGCGCGGTCGGCCGATGGCGACCTGTGGGTCGGCACCTACGCCGATGGCGCCTACCAGCTGCGCGGTGGCCGCGTGCTGCGCCACTACGGCGAGGCCGAGGGCGTGCCGAACGGGCATATCCGCGCGGTGGTGATCGCCGCCGACGGCACCGTCTGGCTCGGCACCCAGCACGGCGTGGTCGGCATCCGCGACGGCCAGGTCGTGCCGGCGCCAGCCGCCGATGCGCCACGCACCCTGGTCACCGCGCTGGCCGACATCGATGGTGCGCTGTGGGTCGGCTCGGTGGAGGGCGCGCTGGTGCTGCGCGATGGCCGCGTGCAGCGCCTGCCGCTGGAAGCGCTGGGCGGCGCGCGCAGCGTGTTCGGGTTCCAGGTGATTGGCGGCGACGTCTGGATCGCCACCGACCGTGGCCTGTACCGGGACCGTGCCGGCACGCTGGCGCGGGTCGGGCTGGAGCAGGGCATGCCGGTCGACACCGTGTTCCAGCTGCTCGACGACGGCGCCGGCAATGTCTGGATCACCAGCAACCGCGGCGTGCTGCGGGTCGGGCTGGACGCGCTGCAGGCGGCGGCCGACGGCCGCGGCCGGGTGCAGCCGGAGCAGTACGGCGAGATCGACGGCATGGCCAACGCCCAGGCCAACGGCAGCTCCGGGCCGTCGATCCTCCGCCGCGCCGACGGCACGCTGTGGCTGGTGACCGCCGGCGGCGTGGCCACGGTGGACCCGGCGCGGCTGCCGCGCTTCGCCGGGCGCCAGCCGCCGCCGGCGGTGATCGAGGGCGTCCAGGCCGACGGACACGCGCTGGACTGGCGGGAGGTGCACGAGGTGCCCGGCGGCACCCGCCTCAACGTCGCCTATGTCGGGCTGAGCTACCTGATGCCCGACCGCATCGAATACCGCAGCCGGCTGGAAGGGCTGGATGCCGGCTGGAGCGAGCGCGGCCGCCAGCACAACGTGGAATTCATCGGGCTGGGCCCGGGCGACTACGTGCTGCACGTGACCGCGCGTCATCCCGGCGGCGCGTGGGGCACGCAGGAGGCGACCTGGCATTTCCGCGTCGCGCCGCTGTGGTGGCAGCGCACCGACGTGCGCGTGCTGGCGGCGTTGCTGGCGCTGGTCGCGCTGGTGCTGCTGTACCGGTTCCTGGTGCGGCGGCACAAGACCCGCAGCGAGCGCCTGGCGGCGCAGGTGCAGGCGCGCACCGAGGACCTGCGGCTGCAGGCGCAACGGCTGGAAGTGGCCAACGAAGAGAAGAACGAACTGCTGCAGCGACTGCGGGTGAAGTCGGCGGTGTTCGAGCGCCAGGCGCACGAGGATGCGCTGACCGGCCTGCCCAACCGCCGCCATCTCGACGAGGTGCTGCTGCGTGAGATCAATCGTGCGCGCCGCAGCGGCGGGCCGCTGTCGCTGGTGATCCTGGACATCGACCACTTCAAGTCGATCAACGACCTGCATTCGCACACGACCGGCGACGTGGTGCTGCAGGAGGTCGGGGTGCTGCTGGCCGCGGCCTGCCGTGGCAATGACATGGCGGCGCGGCTGGGTGGCGAAGAGTTCGCCCTGGTGCTGGGCGACACCGCGCTGGCCGAGGCGCTGCAGGCCTGCGCGCGGATCCACGCGCGCTTCCATGGGCATGGCGACTGGGCCGGGGTGAGTGGCCTGCAGGTCACCTTCAGTGCCGGCGTGGCCGAACTGCGCGCGGAGGATTCGGTGTCCTCGCTGATGCAGCGCGCCGACCAGGCGCTCTACCAGGCCAAGCGCGACGGCCGCGACCGCAGCTGCGCCGGCTGA	MVQRCGCLRAGSGNRRRRWSLARIGIACWLLLAVCLPAWAGGALGPPPLRDYAIDAWTSRSGLPQNSIRDIAQTPEGHLWFATWEGLARYNGLEFTVIDRSTRPGLPDNGVGALYVDPAGALWLSDSRGNLGRYSRDGRWRFWTRGADWPKALVHAMAMDAQGRMWLLFEGHGLGRIDVDGSFHYIPPPDDLPLASSFPKMVFDARGRLLIGTLDGLLYREPDGRFHRAPFALPPGLAWPYRAADGSVWAVAGSDVYRVHDAHAERVAHVEGQGHFTAMLRDRNGEIWLGTENNGLLRIGRHGVEHLGTGTELPTGRIVSLLEDAEGSIWLGANGGLYRLRETLFSSYTHADGLSGDYSRALLEAPDGALWIGSASGLDRMEPDATLHPVPVLNPLGRNVSVLSLARSADGDLWVGTYADGAYQLRGGRVLRHYGEAEGVPNGHIRAVVIAADGTVWLGTQHGVVGIRDGQVVPAPAADAPRTLVTALADIDGALWVGSVEGALVLRDGRVQRLPLEALGGARSVFGFQVIGGDVWIATDRGLYRDRAGTLARVGLEQGMPVDTVFQLLDDGAGNVWITSNRGVLRVGLDALQAAADGRGRVQPEQYGEIDGMANAQANGSSGPSILRRADGTLWLVTAGGVATVDPARLPRFAGRQPPPAVIEGVQADGHALDWREVHEVPGGTRLNVAYVGLSYLMPDRIEYRSRLEGLDAGWSERGRQHNVEFIGLGPGDYVLHVTARHPGGAWGTQEATWHFRVAPLWWQRTDVRVLAALLALVALVLLYRFLVRRHKTRSERLAAQVQARTEDLRLQAQRLEVANEEKNELLQRLRVKSAVFERQAHEDALTGLPNRRHLDEVLLREINRARRSGGPLSLVILDIDHFKSINDLHSHTTGDVVLQEVGVLLAAACRGNDMAARLGGEEFALVLGDTALAEALQACARIHARFHGHGDWAGVSGLQVTFSAGVAELRAEDSVSSLMQRADQALYQAKRDGRDRSCAG				NA	NA	NA	NA	NA
BMS020_08797	642	rnt_2	COG0847	Ribonuclease T	ATGAGCGAGAACGTCGAAGCCTCCCCCGCCACTCCCGTCGTGCCGATGGCACGCCGCTTCCGCGGCTACCTGCCGGTGGTGGTGGACGTGGAGACCGGCGGCTTCGACTGGAACCGCCATGCCCTGCTGGAAATCGCCTGCGTGCCGATCGAGATGGACGCGCAGGGCCGCTTCCACCCCGGCGAGACCGCCAGCGCCCACGTGGTGCCGGCGCCGGGCACCGATATCGATCCCAAGTCGCTGGAAGTCACCGGCATCGTGCTGGACCATCCGTTCCGCTTCGCCAAGGAAGAGAAGGCCGCGCTCGACCACGTGTTCGCGCCGGTGCGCGCGGCGGTGAAGAAGTACGGCTGCCAGCGCGCGATCCTGGTCGGGCACAACGCCCACTTCGACCTGAATTTCCTCAATGCCGCGGTGGCCCGCACCGGCCACAAGCGCAATCCGTTCCACCCGTTCAGCGTGTTCGACACGGTCACCCTGGCCGGGGTCGCCTACGGCCAGACCGTGCTGGCGCGCGCGGCGCAGGCCGCCGGGCTGGACTGGAACGCCGCCGACGCGCACAGCGCGGTCTACGACACCGAGCAGACCGCACGGCTGTTCTGCACCATCGCCAACGCCTGGCCCGGCCCGCAGGCCGGCTGA	MSENVEASPATPVVPMARRFRGYLPVVVDVETGGFDWNRHALLEIACVPIEMDAQGRFHPGETASAHVVPAPGTDIDPKSLEVTGIVLDHPFRFAKEEKAALDHVFAPVRAAVKKYGCQRAILVGHNAHFDLNFLNAAVARTGHKRNPFHPFSVFDTVTLAGVAYGQTVLARAAQAAGLDWNAADAHSAVYDTEQTARLFCTIANAWPGPQAG				NA	NA	NA	NA	NA
BMS020_08798	354			hypothetical protein	ATGAAGCGCATCATCGGAACGGTCCTGGGCCTGTCCCTGCTGGCAAGCGGCGGCGCGTTCGCCGCCCCGGTCGGCCACGACGACCATGACGACCATGGCCCGCGCCCGGAGCAGCACAAGGGCAAGGACCACAAGGATCACCGCGACGACCGCGGCCGCCACGACGACCACGGCCCGCGCCACCAGCGCGGCCAGCGCCTGGCCAAGGGCCATTGGGGCGACCGCGTGCCGGACTACAAGCACCATGGCCTGAAGCCGCCGCCGAAGGGCCACGAGTGGCGCCGCGTCGACGGTGACTACGTGCTGGTCGCGGTCGCCACCGGCATCATCGCCAGCGTGATCGCCAACCACTAA	MKRIIGTVLGLSLLASGGAFAAPVGHDDHDDHGPRPEQHKGKDHKDHRDDRGRHDDHGPRHQRGQRLAKGHWGDRVPDYKHHGLKPPPKGHEWRRVDGDYVLVAVATGIIASVIANH				NA	NA	NA	NA	NA
BMS020_08799	324			hypothetical protein	ATGTCCCGCAACACGCTTCCGCTGGCCCTGGCCCTGTCGCTGCTGGCGGCAGGTCCCGTCCTGGCCCAGCCACCGCCCGACCAGGGCAAAGGACATGGGCACGACCATAACCAGAAGGGGCCGCCGCCGGGCAAGGCCAAGGGCCACTGGAAGAACGGCGACATGCTGCCGCCGCAGAACCGCGGCCAGTACGTCTCCGACTACGCCAAGCACGGCCTCAAGCCGCCGCCGCCCGGCCACCAGTGGCGCCGGGTCGACGACGACTTCGTGCTGATCGCGGTCACCACCGGCGTGATCGCCAGCGTGATCGCCGCCAGCCACTGA	MSRNTLPLALALSLLAAGPVLAQPPPDQGKGHGHDHNQKGPPPGKAKGHWKNGDMLPPQNRGQYVSDYAKHGLKPPPPGHQWRRVDDDFVLIAVTTGVIASVIAASH				NA	NA	NA	NA	NA
BMS020_08800	711	phoU_2	COG0704	Phosphate-specific transport system accessory protein PhoU	ATGAACAACCTGCCCAACGACCACATCGTCAAGAGCTACGACGACGAGCAGCACCGCCTGGTCGCCGAGATCGTCCGCATGGGCGAGACCGCGGTGGCCCAGCTGGAAGCCGCGCTCGACGTGGTCGAACGCCGCGACGACAACGCCGCGCACCGCATCATCGGCAACGACGAAGCGATCGACAGCCTGGAACAGGCGATCAGCCACGACGTGATGCGCCTGGCGCTGCGCGGGCCGATGGCGCGCGACCTGCGCGAGATCCTCGCCGGCCTGCGCATTCCGGCCGACATCGAGCGCATCGGCGACTACGCCGCCAACGTCGCCAAGCGCTCGATCGCGCTCAACACGGTGCCGCCGCTGCCGCAGATCGTCGGCCTGCGCGCGCTCGGCCAGCTCGCCGCGGCGCAGGTGCGCAGCGCGCTGCAGGCCTATCGCGACGGCGACACCGCCGCGGCGATGCAGGTGCGCCAGGACGACGCGCGCCTGGACGCGCAGTACACCGCGCTGTTCCGCGAGCTGCTGACCTACATGATGGAAGACCCGCGCAACATCACCCCGTGCACGCACTTGCTGTTCATGGCCAAGAACCTGGAGCGGATCGGCGACCACGCCACCAACATCGCCGAGAACGTCTGGTTCCTGGTGCACGGCGACCAGCCGCTGCCGCCGCGCGAGAAGCGCGACGACACCAGCACCACGGTCAGCGTCTGA	MNNLPNDHIVKSYDDEQHRLVAEIVRMGETAVAQLEAALDVVERRDDNAAHRIIGNDEAIDSLEQAISHDVMRLALRGPMARDLREILAGLRIPADIERIGDYAANVAKRSIALNTVPPLPQIVGLRALGQLAAAQVRSALQAYRDGDTAAAMQVRQDDARLDAQYTALFRELLTYMMEDPRNITPCTHLLFMAKNLERIGDHATNIAENVWFLVHGDQPLPPREKRDDTSTTVSV	PGPT0002630_1212	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ARSENIC_RESISTANCE	ARSENIC_RESISTANCE-PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002630-phoU|phoY-K02039	NA	NA
BMS020_08801	831	pstB_2	COG1117	Phosphate import ATP-binding protein PstB	ATGAACGACCTCCACAACGCCGTCCCGATGCAGCGCATCGCCGTTCCGGTCTCCGGTGAGGCGGCGCTGGCGCCGGCCCCGATCAAGCTGGCCGCGCGCGGGCTGAACTTCTACTACGACAAGTTCCACGCGCTCAAGGACATCCACCTGGAGATCCCGGAAAAGCGCGTGACCGCGCTGATCGGCCCCTCCGGCTGCGGCAAGTCCACCCTGCTGCGCATCTTCAACCGCATCTACGCGCTGTATCCCAAGCTGGAGGCGCGCGGCGAGGTGCTGCTGGACGGCGAGAACATCCTGTCGCCGAAGTACCCGATGAACCGCCTGCGCTCCAAGGTCGGCATGGTGTTCCAGAAGCCGGTGCCGTTTCCGATGACGATCTTCGAGAACGTCGCCTACGGCATCCGCCACCACGAGAAGCTGTCCAAGGCCGACATGAACGACCGGGTCGAGCAGGCGCTGCGCCAGGGCGCGCTGTGGGACGAGGTCAAGGACAAGCTGGGCCAGAGCGCGCTGGGCCTGTCCGGCGGCCAGCAGCAGCGGCTGTGCATCGCCCGCGCGGTGGCGCTGCGCCCGGACGTGCTGCTGCTCGACGAGCCGACCTCGGCGCTGGACCCGATCTCCACCAGCCGCATCGAGCAGCTGGTCGAAGAACTGAAGACCCGCTACACCATCGTCATCGTCACCCACAACATGCAGCAGGCCGCGCGCGTGTCCGACTACACCGCCTTCATGTACCTGGGCGACCTGATCGAACACGACCGCACCGAGACGATCTTCTCGCAGCCGTCCAAGCAGCAGACCGAGGATTACATCACCGGCCGGTTCGGCTGA	MNDLHNAVPMQRIAVPVSGEAALAPAPIKLAARGLNFYYDKFHALKDIHLEIPEKRVTALIGPSGCGKSTLLRIFNRIYALYPKLEARGEVLLDGENILSPKYPMNRLRSKVGMVFQKPVPFPMTIFENVAYGIRHHEKLSKADMNDRVEQALRQGALWDEVKDKLGQSALGLSGGQQQRLCIARAVALRPDVLLLDEPTSALDPISTSRIEQLVEELKTRYTIVIVTHNMQQAARVSDYTAFMYLGDLIEHDRTETIFSQPSKQQTEDYITGRFG	PGPT0002615_1000	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
BMS020_08802	864	pstA_2	COG0581	Phosphate transport system permease protein PstA	ATGTCCGCCGTCGCCAACCGTCTGTACGCGCGCCGTCGCGTGGTCAACGTGGTCGCACTGCTGCTGTCGTGCACCACCGCGCTGTTCGGCCTGTTCTTCCTTGGCTGGATCCTGTGGACGCTGGCCGCCAAGGGCCTGGCCGGCATCAACCTGGACCTGTTCATCAAAATGACCCCGCCGCCGATGCAGGACGGCGGCCTGGCCAACGCATTCTTCGGCAGTGCGGTGATGTGCGTGCTGGCGATCGCCATCGGCACTCCGCTCGGCGTCGCCGCCGGCACCTGGCTGGCCGAATACGGCAATGCGCGCAAGGCCGGCACGGTGGTGCGCTTCGTCAACGACATCCTGCTGTCGGCGCCGTCGATCGTGCTCGGCCTGTTCGTCTACACGCTGTACGTGATGCAGACCGGCGGGCAGTTCTCGGCGTTCGCCGGCGCGCTGTCGCTGACCTTCATCGTGCTGCCGGTGGTGGTGCGCACCACCGACGAGATGCTGCGGCTGGTGCCGGCGCAGATGCGCGAAGCGGCGCTGTCGCTGGGCATCCCGCAGTGGAAGGTGATCGTGCAGGTGCTGTACCGCAGCGCCTCGGCCGGCATCGTCACCGGCGTGCTGCTGGCGCTGGCACGGATCAGCGGCGAGACCGCGCCACTGCTGTTCACCGCGTTCGGCAACCAGTACTGGAACAGCAACGTGTTCCGCCCGATGGCCTCGGTGCCGGTGGTGATGAACCAGTTCGCCGGCAGCCCGTACGAAACCTGGCAGACGCTGGCCTGGGCCGGCGCGCTGGTGCTGACCGTGTTCGTGCTGCTGGTGAGCCTGGGCGCGCGCGCCCTGCTCCTGCGCAACAAGATCTCCAATGACTGA	MSAVANRLYARRRVVNVVALLLSCTTALFGLFFLGWILWTLAAKGLAGINLDLFIKMTPPPMQDGGLANAFFGSAVMCVLAIAIGTPLGVAAGTWLAEYGNARKAGTVVRFVNDILLSAPSIVLGLFVYTLYVMQTGGQFSAFAGALSLTFIVLPVVVRTTDEMLRLVPAQMREAALSLGIPQWKVIVQVLYRSASAGIVTGVLLALARISGETAPLLFTAFGNQYWNSNVFRPMASVPVVMNQFAGSPYETWQTLAWAGALVLTVFVLLVSLGARALLLRNKISND	PGPT0002610_4183	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002610-pstA-K02038	NA	NA
BMS020_08803	975	pstC_2	COG0573	Phosphate transport system permease protein PstC	ATGAACGCCACCGTCATTCCCGAAGCGATGACCGCACCGCAGGGCCGCGACCTCAAGGACGCCCGCGCCGACCGGATCTTCAAGCTGGTCCTCGCCGCCACCGTCGTGTTCGTGCTGATCGCCCTGGCCAGCGCCGCGCTGTCGATGCTGTGGGGCGGCCGCCATGCCCTGCAGGCGCAGGGCCTGAGCTTCTTCTACACCGCCGACTGGAACCCGGTCGAGAACAAGTTCGGCGCGCTGGCGCCGATCTACGGCACCATCGTCACCGCGCTGATCGCGATGCTGATCGCGGTGCCGGTGAGCTTCGGCATCGCGTTCTTCCTGACCGAAGTGGCGCCGCGCTGGCTGCGTGGGCCGATCGGCACCGCGATCGAACTGCTGGCCGGCATCCCGTCGATCATCTACGGCATGTGGGGCCTGTTCGTGCTGGTGCCGGTGATGACCGAATACGTCACCCCGTTCCTCAACGACCATCTCGGCACGCTGCCGCTGATCGGCGTGCTGTTCCAGGGCCCGCCGCTGGGCATCGGCATGCTGACCGCCGGCTTCGTGCTGGCGATCATGGTGATCCCGTTCATTTCCTCGGTGATGCGCGAGGTGTTCCTGACGGTGCCGTCGCGGCTGAAGGAATCGGCCTACGCGCTCGGCTCGACCAAGTGGGAAGTGAGCTGGGACATCGTGCTGCCCTACACCCGCTCGGCGGTGATCGGCGGCATCTTCCTCGGCCTGGGCCGCGCGCTCGGCGAGACCATGGCGGTCGCGTTCGTGATCGGCAACACCGTGCGGCTGTCGCCGTCGCTGCTGGAGCCGGGCACCACCATCGCCGCGCTGATCGCCAACGACTTCGGCGAAGCCACCGAAACCTACCGCTCGGCGCTGCTGCTGCTCGGCTTCGTGCTGTTCATCGTCACCTTCGTGGTGCTGGCGATCGCTCGGCTGATGCTGCAACGCCTGGCACGCAAGGAGGGCAACTGA	MNATVIPEAMTAPQGRDLKDARADRIFKLVLAATVVFVLIALASAALSMLWGGRHALQAQGLSFFYTADWNPVENKFGALAPIYGTIVTALIAMLIAVPVSFGIAFFLTEVAPRWLRGPIGTAIELLAGIPSIIYGMWGLFVLVPVMTEYVTPFLNDHLGTLPLIGVLFQGPPLGIGMLTAGFVLAIMVIPFISSVMREVFLTVPSRLKESAYALGSTKWEVSWDIVLPYTRSAVIGGIFLGLGRALGETMAVAFVIGNTVRLSPSLLEPGTTIAALIANDFGEATETYRSALLLLGFVLFIVTFVVLAIARLMLQRLARKEGN	PGPT0002620_2533	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
BMS020_08804	1098	pstS_2	COG0226	Phosphate-binding protein PstS	ATGAAACTGCAGTCGGCCGGCCTCACCGCCCTGTCCCTGGCCCTCGCCCTGGCCCTGAGCGCCTGCACCAAGCCGGCCGACAACGGCCAGCCCGCGGACGCCGCGCCTGCCGCCGGCGCCACCGCCGCGCCCGCCGCCGGCGACGCCAAGACCGCCGAGATCGCCGGCGCCGGCGCCTCGTTCATCTACCCGCTGGTGTCGAAGTGGTCGGCCGACTACAACGCCGCCACCGGCGGCAAGGTCAACTACCAGTCGATCGGCTCCGGCGGCGGCATCGCCCAGATCGAGGCCGGCACGGTCGATTTCGGCTCCTCCGACAAGCCGCTGGACAGCGCCGAGCTGGCGCAGGCCGGGCTGGGCCAGTTCCCCTCGGCGATCGGCGGCGTGGTGCCGGTGGTCAACCTGGACGGCATCGAGCCGGGCAAGCTGCGCCTGACCGGCGCGCTGCTGGCCGACATCTTCCTGGGCAAGGTCAGCAAGTGGAACGATGCGGCGATCGCCGCCGCCAACCCGGGCCTGGCCCTGCCGGACGCGAAGATCAACCTGGTGCACCGCTCCGACGGCTCGGGTACCAGCTTCAACTTCACCAACTACCTGTCCAAGGTCAGCCCGGAGTGGAAGGACAAGGTCGGCGAAGGCACCTCGGTGCAGTGGCCGGGCGGCGTCGGCGGCAAGGGCAACGAGGGCGTGGCCTCCTACGTGCAGCAGATCAAGGGCTCGATCGGCTATGTCGAGCTGGCCTACGCGCTGCAGAACAAGATGCCGTACGCCGCGATGCAGAACGCCGCCGGCAGCTGGGTGCAGCCGAGCGCCGAGAGCTTCGCCGCCGCGGCCGCCAGCGCCGACTGGAAGAACGCCAAGGACTTCAACCTGGTGATCACCAACGCCCCGGGCGAGCAGGCCTGGCCGATCACCGCCACCAACTTCATGCTGATGCACAAGCAGCCCAAGGACGCCGAGCGCAGCAAGGCCACCCTGGCGTTCTTCAAGTGGGCCTTCGAGAGCGGCCAGGCCCAGGCCAACGAGCTGCACTACGTGCCGCTGCCGCCGGAGCTGGTGCAGCAGATCGAGGCCTACTGGGCCGCCGAGTTCAAGTGA	MKLQSAGLTALSLALALALSACTKPADNGQPADAAPAAGATAAPAAGDAKTAEIAGAGASFIYPLVSKWSADYNAATGGKVNYQSIGSGGGIAQIEAGTVDFGSSDKPLDSAELAQAGLGQFPSAIGGVVPVVNLDGIEPGKLRLTGALLADIFLGKVSKWNDAAIAAANPGLALPDAKINLVHRSDGSGTSFNFTNYLSKVSPEWKDKVGEGTSVQWPGGVGGKGNEGVASYVQQIKGSIGYVELAYALQNKMPYAAMQNAAGSWVQPSAESFAAAAASADWKNAKDFNLVITNAPGEQAWPITATNFMLMHKQPKDAERSKATLAFFKWAFESGQAQANELHYVPLPPELVQQIEAYWAAEFK	PGPT0002625_1865	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
BMS020_08805	1017	pstS_3	COG0226	Phosphate-binding protein PstS	GTGCTTTCCAATCTCAAGACCCGCCTGCCGCTCGCGCTGGCACTGGCCGCCACGGCCTTCACCGCAAACGCCACCGATGTGACCGGCGCGGGCTCGAGCTTCGTCTACCCGGTGCTGTCGAAGTGGTCGGCGGCCTACGCCGAGAAGAGCGGCAATCACGTCAACTACCAGTCGATCGGTTCCAGCGGCGGCATCGCGCAGATCCAGGCCGCCACGGTCGACTTCGGCGCCTCGGACAAGCCGCTGAGCGCGGCCGACCTGGCCAAGTACGGCCTGGGCCAGTTCCCGGTCGTGATCGGCGGCATCGTGCCGGTGTTCAACGTGCCGGGCGTGGCCCCGGGCGCGATGAAGCTCGACGGCACCGTGCTGTCCAACATCTTCCTGGGCAAGATCGCCAAGTGGAACGACCCGGCGATCGCCGCGCTGAACCCGGGCCTGGCGCTGCCGGACGTCAAGATCACCGTCGTGCACCGCTCCGACGGTTCGGGCACCACCTTCAACTTCACCAACTACCTGTCCAAGGTCAGCCCGGAGTGGAAGTCCAAGGTCGGCGAAGGCACCGCGGTGCAGTGGCCGGCCGGCATCGGCGGCAAGGGCAACGAAGGCGTGGCCGCCTACGTCAAGCAGATCCGCGGCGGCGTCGGCTATGTCGAGTACGCCTACGCGCTGCAGAACAAGCTCAGCTACGCCGGCATGCGCAATGCCGCGGGCAAGATCGTGATGCCGGACGACAAGGCCTTCTCGGCCGCTGCCGCCACCGCGGACTGGAAGTCGGCGCAGGATTTCAACCTGATCATGACCAACGCGCCGGGCGCCGAGGCGTGGCCGATCACCGCCACCACCTGGGCGATCATGTACAAGAAGGCCAAGAAGCCGGCCTCGGCCAAGGCGGCGCTGGACTTCTTCAAGTGGTCCTTCCAGAACGGCCAGGCCCAGGCCGCCCAGCTCGACTACGTGCCGCTGCCGGCCTCGCTGGTGCAGCAGATCGAAGCCTACTGGGCGCAGAACATGAAGTAA	MLSNLKTRLPLALALAATAFTANATDVTGAGSSFVYPVLSKWSAAYAEKSGNHVNYQSIGSSGGIAQIQAATVDFGASDKPLSAADLAKYGLGQFPVVIGGIVPVFNVPGVAPGAMKLDGTVLSNIFLGKIAKWNDPAIAALNPGLALPDVKITVVHRSDGSGTTFNFTNYLSKVSPEWKSKVGEGTAVQWPAGIGGKGNEGVAAYVKQIRGGVGYVEYAYALQNKLSYAGMRNAAGKIVMPDDKAFSAAAATADWKSAQDFNLIMTNAPGAEAWPITATTWAIMYKKAKKPASAKAALDFFKWSFQNGQAQAAQLDYVPLPASLVQQIEAYWAQNMK	PGPT0002625_4100	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
BMS020_08806	1227			hypothetical protein	ATGCGTTCCAGCTTGCTCGCCACGGCCATCGCCGCCGGTCTCGGACTTTCCGGCATGACCGTCGTCGGCACCGCCGCCGCTGCCAACCCGCCGGCTGTCACCGCGGAACAGCTGCGCCAGCTGCAGGACCAGATCGCCGCGCTGCAGGCCCAGGTCGAGGCGCTGCAGGCCCAGAACGACGCCCAGTCCGAGGTCAACGTCACCCAGGCCAAGGCGATCGAAGCCACCGATGACACCAAGACCAAGGTCGACAAGCTGGCCAAGCTGGTCAACGACACCTCGTTCACCGGCCGCATGTTCTTCGACCTGAGCAACATCAACCAGGAGAACAACGGCAGCAAGACCTCGGCCAGCGGCAACGGCTTCGACGTCAAGCGTTTCTACCTGGGCGTGAACCACAAGTTCAACGACGTCTGGTCGGCCAGCCTGCTGACCGACTTCCAGTACTCCTCGGCGATCGGAAACACCGAACTGTTCGTCAAGAACGCCTACGTGCAGGGCAAGTTCAACGATGCCTTCGTGCTGAAGATCGGTGCCGCCGGCATGCCGTGGCTCGGCTACGTCGAGAAGTACTACGGCTACCGCTACGTCGAGAACACCCTGACCGACCGCCTGAAGTACGCCAACTCGGCCGACTGGGGCCTGCACGCCTCCGGCGACATGGGCGGCGGCATCGCCAACTACGCCGTGTCGGTGGTCTCCGGCGCCGGCTACAAGAACCCGTCGCGCAGCAAGGGCATGGACGTCGAAGGCCGCGTCGGCTTCGTGCCGTTCCAGAACATGTCGATCGCCGTCGGTGGCTACTCGGGCAAGCTCGGCAGCGAGACCGAGACCCTCGAAGCGCAGCACACCGCGACCCGCGCCGACGCGATGATCGCCTACGCCAACAACAACTGGCGCCTGGGTGCGGAGTACTTCACCGCCAAGAACTGGTCCAGCACCTACGTCACCACCGGCGTCAGCAACAAGGCCGATGGCTGGTCGGTGTGGGGCAGCGTGCCGCTGACCGACTCGGGCATCAACGCGTTCGCGCGCTACGACAAGTCCGACACCAGCAAGACGCTGGACCCGAGCCTGCAGAACACCTACTGGAACGTCGGCGTCGAGTTCCCGGTGATCAAGGGCTTCAAGCTGGCCGCGGTGTACAAGGACACCAAGAACGAGAACGACACCACCACCGACCTGCACACCAAGGAATTCGGCGTGTTCGGCGACGTCGCCTTCTGA	MRSSLLATAIAAGLGLSGMTVVGTAAAANPPAVTAEQLRQLQDQIAALQAQVEALQAQNDAQSEVNVTQAKAIEATDDTKTKVDKLAKLVNDTSFTGRMFFDLSNINQENNGSKTSASGNGFDVKRFYLGVNHKFNDVWSASLLTDFQYSSAIGNTELFVKNAYVQGKFNDAFVLKIGAAGMPWLGYVEKYYGYRYVENTLTDRLKYANSADWGLHASGDMGGGIANYAVSVVSGAGYKNPSRSKGMDVEGRVGFVPFQNMSIAVGGYSGKLGSETETLEAQHTATRADAMIAYANNNWRLGAEYFTAKNWSSTYVTTGVSNKADGWSVWGSVPLTDSGINAFARYDKSDTSKTLDPSLQNTYWNVGVEFPVIKGFKLAAVYKDTKNENDTTTDLHTKEFGVFGDVAF				NA	NA	NA	NA	NA
BMS020_08807	651	acuR_2		Transcriptional regulator AcuR	ATGCCAGATGCCACGCCAGCCCGCCGCCGCGGACGACCGCCCACGCAGCCACGCGCCGACACCCGCGAGGCACTGCTGCGCGCCGGGCTGGAGCTGTTGACCGCGCAGGGCTTCAGCGCCAGCGGGCTGGAGGGCCTGCTGCGCCGGGTGGGCGTGCCGAAGGGCTCGTTCTACCACTACTTCGCCAGCAAGCAGGCCTACGGGCAGGCGCTGATCGCGGCCTACGACGACTACTTCCGCGCCAAGCTGGCGCGCCACCTCGACGACGCCACGCAGCCGCCGCTGCAACGCATCGCCGGCTTCGTCGCCGACGCGGCTGCCGGCATGGCGCGGCACGGCTACACCCGCGGCTGCCTGGTCGGCAACCTCGGCGCCGAGATCGGCGCGCTGCCGGACGGCTACCGCCCGCAGCTGGAGGCGGTGCTGCAGGGCTGGCAGGCGCTGCTGCGCGGCTGCCTGGAGCAGGCGCGCGCTGCCGGCGACCTGCCGGCCGATGCCGACTGCGAGGCGCTCGCCGCGTTCTTCTGGATCGGCTGGGAAGGCGCGGTGCTGCGCGCCCGGCTGACCGCCAGTGCGCAGCCGCTGCAGCTGTTCCTGCAGGGTTTCCTGGCCAGCCTGGCGCAGTTTCCCGCAACCACGAGGACCCGCTGA	MPDATPARRRGRPPTQPRADTREALLRAGLELLTAQGFSASGLEGLLRRVGVPKGSFYHYFASKQAYGQALIAAYDDYFRAKLARHLDDATQPPLQRIAGFVADAAAGMARHGYTRGCLVGNLGAEIGALPDGYRPQLEAVLQGWQALLRGCLEQARAAGDLPADADCEALAAFFWIGWEGAVLRARLTASAQPLQLFLQGFLASLAQFPATTRTR				NA	NA	NA	NA	NA
BMS020_08808	984	acuI_2	COG0604	Acrylyl-CoA reductase AcuI	ATGTTCAACGCCATCCTGGTCGAACGCGCCGACGAACGCTCGCAGGCGTCGCTGGTGCAACTGGCCCCAGAGCAGCTTCCCGACCGCGACGTGCTGGTCAAGGTCGACTACAGCACCATCAACTACAAGGACGCGCTGGCGATCACCGGCCGTGCGCCGGTGGTGCGGCAGTTTCCGCTGGTGCCGGGCATCGACCTGGCCGGCACGGTCGAGGCCAGCCGCGATCCGCGCTATCCGCCGGGCTGCGCGGTGCTGCTCAACGGCTGGGGCGTGGGCGAGCAGTACTGGGGCGGGCTGGCGCAATACGCGCGGGTCGATGGCGACTGGCTGGTGCCGCTGCCGGACGGCCTCGGCGCCGGGCAGGCGATGGCGATCGGTACCGCCGGCTATACCGCGATGCTGTGCATCCAGGCGCTGGAGCGGCATGGGCTGACGCCGGCCGCCGGCGAGGTGCTGGTGACCGGGGCCAACGGCGGCGTCGGCAGCTTCGCGATCACCCTGCTGGCCGGCGCCGGCTACCGCGTGGTGGCGTCCACCGGGCGGATGGGCGAGGCGGCGCACCTGAAGTCGCTGGGCGCGGCGGAGGTGATCGACCGCGCCACGCTGTCGGCGCCGGGCAAGCCGCTGCAGAAGGAGCGCTGGGCGGCGGTGGTCGACTCGGTCGGCAGCCACACCCTGGCCAACGCCTGCGCCAGCGTGCGCGCCGATGGCCTGGTCGCTGCCTGCGGGCTGGCGCAGGGCATGGATTTCCCGTCGACGGTCGCGCCGTTCATCCTGCGTGGCGTCAGCCTGCTCGGCATCAACAGCGTGACCCGTCCGCTGGCCGAGCGGGTATCGGCGTGGCGCCGGCTGGCCAGCGAGCTGGATGCGCCGGCGCTGGCGGCGATCACCCGCGAGGTCGCGCTGGTTGACGTGCCGGCGCTGGCGGAGTCGTTGCTGGCCGGCCAGGTCCGCGGCCGCGTGGTGGTCGACGTCAACGCCTGA	MFNAILVERADERSQASLVQLAPEQLPDRDVLVKVDYSTINYKDALAITGRAPVVRQFPLVPGIDLAGTVEASRDPRYPPGCAVLLNGWGVGEQYWGGLAQYARVDGDWLVPLPDGLGAGQAMAIGTAGYTAMLCIQALERHGLTPAAGEVLVTGANGGVGSFAITLLAGAGYRVVASTGRMGEAAHLKSLGAAEVIDRATLSAPGKPLQKERWAAVVDSVGSHTLANACASVRADGLVAACGLAQGMDFPSTVAPFILRGVSLLGINSVTRPLAERVSAWRRLASELDAPALAAITREVALVDVPALAESLLAGQVRGRVVVDVNA	PGPT0002275_1386	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0002275-acuI|yhdH-K19745	NA	NA
BMS020_08809	684	nth_2	COG0177	Endonuclease III	GTGAACCAGCAAACTGCCGTGCGCGCCGCGCCGCGCCGTGGCGCGACGATGACCCGCGCCGAGATCGTGGAGATGTTCTCGCGGCTGCGCGAACTCAACCCGCACCCGAAGACCGAACTCGAATACACCACGCCGTTCGAACTGCTGATCGCGGTGGTGCTGTCGGCGCAGGCCACCGATGTCGGCGTCAACAAGGCCACGCGCAAGCTCTACCCGGTGGCCAACACCGCGCAGGCGATCGCCGACCTCGGCGAGGAAGGCCTGAAGCGCTACATCTCCACCATCGGCCTGTTCAACGCCAAGGCCAAGAACGTGATCGCGACCTGCCAGATCCTGGTCGAGCGTTACGCTGGCGAGGTACCCCGCGAACGCGAGGCACTGGAGGCACTGCCGGGCGTCGGACGCAAGACCGCCAACGTCGTGCTCAACACCGCCTTCGGCCAGCCGACGATGGCGGTGGACACGCATATCTTCCGCGTCGCCAACCGCACCGGGCTGGCCCCGGGCAAGGACGTGCGCGCGGTCGAGGACGCGCTGCTCAAGCGCGTGCCGGACGAGTTCCTGCACGACGCGCACCACTGGTTGATCCTGCACGGCCGTTACGTGTGCAAGGCGCGCAAGCCGGACTGCCCGCAATGCGTGATCCGCGACCTATGCCGGTTCAAGGACAAGACCGCGGCGTGA	MNQQTAVRAAPRRGATMTRAEIVEMFSRLRELNPHPKTELEYTTPFELLIAVVLSAQATDVGVNKATRKLYPVANTAQAIADLGEEGLKRYISTIGLFNAKAKNVIATCQILVERYAGEVPREREALEALPGVGRKTANVVLNTAFGQPTMAVDTHIFRVANRTGLAPGKDVRAVEDALLKRVPDEFLHDAHHWLILHGRYVCKARKPDCPQCVIRDLCRFKDKTAA	PGPT0013735_2645	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013735-nth-K10773	NA	NA
BMS020_08810	708			Protein virB10	ATGCCGATGATCATCGACAACAGCGTCGGCGAGGCGCCGGCACAAGCGCAGCCGCGTGCCGCCGAGGTGCCGCCGGACAAGCCTGCGGCGACCGCCGCGCTCAGCGCCGACGAGCGCTTCGCGGTGCGCATCGGCGAGGATGCGCCGCCGCTGCAGCAGGCGGTGGCGCTGGCGCACCCGGCGACCACGGTGGTGCAGGGCACGATCATCCCGGCAGTGCTGGAAACCGCGCTGGATACCGATCTGCCCGGCTATGCGCGCGCGATCGTCAGCCGCGACGTACGCGGCTTCGACGGCCGCCAGGTGCTGATCCCGCGCGGCAGCCGGCTGGTCGGCCAGTACCGCAGCGGCATCGAGACCGGGCAGAGCCGTGCCTACGTGATCTGGTCGCGGGTGATCCGCCCCGACGGCGTGTCGGTGCAGCTCGGCTCGCCGGCGCTCGATGGCGATGGCAGCACCGGCCTGCCGGGCGAGGTCAACCGGCACTTCTGGCAGCGCTACGGCGCCTCGCTGCTGCTGTCGATCGTCGGCGGCGCGGCCAGTGCGCTCGGCGGCGACAGCGGCACGCTGGTGATCGGCACCTCGGCCAACAGCGCCTCGGCGCAGGCGCTGAGCACCGACGGCAAGATCCCGCCGACCATCCGCATCCCGCTCGGCACGCCGATCCAGGTGTTCGCCGCGCGCGATCTCGACTTCTCCGGGTATTGA	MPMIIDNSVGEAPAQAQPRAAEVPPDKPAATAALSADERFAVRIGEDAPPLQQAVALAHPATTVVQGTIIPAVLETALDTDLPGYARAIVSRDVRGFDGRQVLIPRGSRLVGQYRSGIETGQSRAYVIWSRVIRPDGVSVQLGSPALDGDGSTGLPGEVNRHFWQRYGASLLLSIVGGAASALGGDSGTLVIGTSANSASAQALSTDGKIPPTIRIPLGTPIQVFAARDLDFSGY	PGPT0029905_598	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029905-virB10|lvhB10-K03195	NA	NA
BMS020_08811	297			hypothetical protein	ATGTCGTCCCGCACTGTGCTGTTGTCCTCGTTGCTGCTGCCGCTGGCCCTGGCCGCCTGCGGCCATCAGGGCCCGCCGGGTCCTCCGGGTGCCGCGGGGCCGGGGCCCGGTGCGGACCCGGCCCGCGATGCGGCGCTGCAGGCCTGCGCGCAGGCCCAGGGCGTGACCGCGCCGGCCGCCGGCACGCGCCCGGATCCGGCGTTGATGCAGTCGCTGGAAAGCTGCATGCAGGCCAAGGGCTTCGCCCGCCCCGCCGGTCCGCCGCCGGGTGGGCACGCGCCGCCGCCGGAGGGCTGA	MSSRTVLLSSLLLPLALAACGHQGPPGPPGAAGPGPGADPARDAALQACAQAQGVTAPAAGTRPDPALMQSLESCMQAKGFARPAGPPPGGHAPPPEG				NA	NA	NA	NA	NA
BMS020_08812	960		COG0630	Type IV secretion system protein VirB11	GTGGCGCCGGACGGCTCGCCCCGCGACGTCTATCTCGGGCGCTACCTGGCGCCGTTCCAGCAGTGGCTGGAGGCCGACGACGTCACCGAGATCGTGGTCAACCGCCCCGGCCAGGTGTGGATCGAGCGGCTCGGCGTGGCCGGCATGCAGTGCGTGCCGGTCGCGGCGGTCGACGACGTGCTGATGGAACGGCTGGCCACGCAGATCGCGCGGATCAGCCACCAGGCGGTCAGCCGCGCGCATCCGTTGTTGGCGGCCACGCTGCCGGACGGCGCGCGCGTGCAGCTGGTCGGCCCGCCGGCCACGCGCCGGCACTGGGCGATGGCGATCCGTCGCCACCTCGACCTGGATCTGCCACTGGACGGCTACCGCTTCGCCGAGGCCGGTGCGCGCGCCGATGCGCAGTGGCGCGCGCAGCCGACGCTGGCCGCGCTGCGCGAGGCGGTGGCGCAGCGGCGCACGATCCTGATCTCCGGTGGCACCTCGTCGGGCAAGACCACCTTCCTCAACGCGCTGCTGAAGGAAGTGCCGGCGCACGAACGCATCATCGCGGTCGAAGACACCCCGGAGCTGCATCTGGGCCAGCCCAACCACCTCGGCCTGGTCGCGGTGAAGGGCGAGCAGGGCGAGACCCGCATCGGCACCGGCGACCTGCTGCAGGCGGCATTGCGGCTGCGCCCGGACCGGCTGCTGCTGGGCGAGGTGCGCGGCGCCGAGGCGGTGACGTTCCTGCGTGCGATCAACACCGGCCATCCCGGCTCGTTCACCACGGTGCACGCCAACACGCCCGCCGGCGCGCTGGAGCAGCTGGCGCTGATGGTGATGCAGGCCGGGCTCGGGCTGTCGCGCGCGGACACGCTGGCCTATATCCGCAGCGTGGTCGACATGGTGGTGCAGCTGGGCCGGGTGGGCGGCGAGCGGCGGATCCTGGAGATCGCGCCGCTGCACCCGCTGGAATGA	MAPDGSPRDVYLGRYLAPFQQWLEADDVTEIVVNRPGQVWIERLGVAGMQCVPVAAVDDVLMERLATQIARISHQAVSRAHPLLAATLPDGARVQLVGPPATRRHWAMAIRRHLDLDLPLDGYRFAEAGARADAQWRAQPTLAALREAVAQRRTILISGGTSSGKTTFLNALLKEVPAHERIIAVEDTPELHLGQPNHLGLVAVKGEQGETRIGTGDLLQAALRLRPDRLLLGEVRGAEAVTFLRAINTGHPGSFTTVHANTPAGALEQLALMVMQAGLGLSRADTLAYIRSVVDMVVQLGRVGGERRILEIAPLHPLE	PGPT0029910_320	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029910-virB11|lvhB11-K03196	NA	NA
BMS020_08813	1200	yfcJ_3		putative MFS-type transporter YfcJ	ATGTCTCCCGCTTCCCCCGCTGTCGCCCCCGATCCGGCCCTGCCCGCCACCTGGCGCCTGGTGCGGCTGTGCCTGGCCACCTTCGCCGCCTATCTCGCCATCGCGCTGCCGTTGCCGGTGCTGCCGGTGTTCGTGCGCGACACCCTGCAGCTGAGCAACCTGGTGGTCGGTTGCGTGATCGGCGTGCAGTTCGTCGCCACCGTGCTGACCCGCGGCCTGGCCGGGCGCATCGCCGACACCGCCGGCCCCGCCCGGGCGATGCGCCGCGGCTGCGTGCTGCTGGCACTGTCGGGCATCACCTACCTGCTCGCCGGCCTGTTGCCGGGCGCGGCGCTGCCGCTGCTGGTCGGCGGGCGCCTGGCCGCCGGCGTCGGTGAAAGCCTGCTGGTCACCGGCATGCTGGCCTGGGGCATCGGCACGGTCGGGCAGGCGCGCGCGGGCCGGGTGATGACCTGGGTCGGGCTGGCGATCTTCGCCTCGCTGGCCGCCGGCGCACCGGTCGGCGTGGCGCTGGCGCAGGCGCTCGGCTTCGTCGCGGTCGCCGTGGCCTGCCTGCTGGTGCCGCTGCTGGCGCTGGCGCTGACCGCCAGCGTGCCGGCGACGCCGCCAGTCGCCGGCAAGCGCCTGCCGCTGCGCGACGTGCTCGGTCGCATCGCGCTGCCGGCGATGGGACTGGCGTTGCAGGGCATGGGCTTCGCCACGATCAGCGCGTTCGCGGTGCTCTACTTCAACGACCAGCACTGGCAGGGCGCGGCCTGGGCGCTGAGCGCGTTCGGCGGCGGCTTCGTGCTGTCGCGGCTGCTGTTGGCGCGCACGCTGGACCGCTTCGGCGGCGCACGCGTGGCGATGGCGTCGATGATCGGCGAGTGCGCCGGCCTGGCACTGCTGGCGATGGCCGGCACGCCGACGCTGGGCCTGGTCGGCGCGTTCATCGCCGGCATGGGCTGCTCGCTGGTGTTCCCGGCGCTGGGCGTGGTGGTGGTGCAGCGGGTACCGGCGCAGATGCGCGCCACCGCGCTCGGTGGCTATGCCGCGTTCCAGGACGTCGCCTATGCGATCACCGGCCCGCTGGCCGGCATCGTCGCCACCCACTTCGGCTACGCGGCGATCTTCGCGATGGCGGCGCTCTCGGCCGCCTGCGGCGTGGCGGTGGCGTTCTCGCTGCACCGCCAGGGCCGGCGCGCCGCGACCGCCGCCTGA	MSPASPAVAPDPALPATWRLVRLCLATFAAYLAIALPLPVLPVFVRDTLQLSNLVVGCVIGVQFVATVLTRGLAGRIADTAGPARAMRRGCVLLALSGITYLLAGLLPGAALPLLVGGRLAAGVGESLLVTGMLAWGIGTVGQARAGRVMTWVGLAIFASLAAGAPVGVALAQALGFVAVAVACLLVPLLALALTASVPATPPVAGKRLPLRDVLGRIALPAMGLALQGMGFATISAFAVLYFNDQHWQGAAWALSAFGGGFVLSRLLLARTLDRFGGARVAMASMIGECAGLALLAMAGTPTLGLVGAFIAGMGCSLVFPALGVVVVQRVPAQMRATALGGYAAFQDVAYAITGPLAGIVATHFGYAAIFAMAALSAACGVAVAFSLHRQGRRAATAA				NA	NA	NA	NA	NA
BMS020_08814	1146	cfa_2	COG2230	Cyclopropane-fatty-acyl-phospholipid synthase	ATGCTGACCTACGACGCCGGCAACGTCGCCATCCACCCGCACGATGCGCTGTACCGCAAGCTGGGCGAGCTGCTGCAGCGCGCCGATATCCGCCTCGACGGCGAGCGCCCCTGGGACATCCGCCTGCTGCACGACGACGTGCCGGCCCGGGTCTTCGCCCAGGCCAATCTTGGCCTCGGCGAGTCCTACATGGACGGGCACTGGGAATGCGAGCGGCTGGACGCGCTGTTCCACCGCCTGCTGCGCGCCGACCTGGCGCAGCAGGTGCAGCCGCTGCGCCTGCTCGGCCACCACCTGCGCGCACGCCTGCTGAACCTGCAGACCGCGCGCCGCGCCTGGCAGGTCGGCCAGGCGCACTACGACCTCGGCAACGCGTTCTACGCGGCGATGCTGGATGCGCGCATGACCTACACCTGCGGCTACTGGGAGCATGCGCAGTCGCTGCAGCAGGCGCAGGAGGCCAAGCTCGACCTGGTGTGCCGCAAGCTCGGCCTGCGCCCGGGCATGCGCGTGCTCGACATCGGCTGCGGCTGGGGCAGCTTCATGGGCTATGCGGCCGAGCACCATGGCGTGGAATGCGTCGGCGTCACCATCTCGCGCGAGCAGGCCGACTACGTCGCACAGCGCTACGCGCACCTGCCGGTCGAAGCGCGGCTGCAGGACTACCGCACCCTGCAGGGGCGTTTCGACCGCATCGTCAGCCTCGGCATGTTCGAACACGTCGGCCATCGCAACTACGCCACCTTCATGGACGTCGCGGCGCGCTGCCTGGACGAGGACGGGCTGTTCCTGCTGCACACCATCGGCAAGCAGCGCGGCGGCGCCACCGACCCGTGGATCCACCGCTACATCTTCCCCAACGGCGAGATCCCCACGTTGCCGGCGCTCACCGCGGCGGCCGGCAAGGCCTTCGTCATCGAGGACCTGCACAACTTCGGCGCCGACTACGACCGCACGCTGATGGCCTGGCATGCCAACGTCGAACGCGCCTGGCCGCGCTTCGCGCCGACGCTCGGCGAGCGCTTCGGGCGGATGTGGCGCTATTACCTGCTGTCCTGCGCCGGCGCGTTCCGCGCGCGCGCGCTGCAGCTGTGGCAACTGGTGCTGTCCAGGCACGGCGTGGACGGCGGTTATCGCCGGCCCTGA	MLTYDAGNVAIHPHDALYRKLGELLQRADIRLDGERPWDIRLLHDDVPARVFAQANLGLGESYMDGHWECERLDALFHRLLRADLAQQVQPLRLLGHHLRARLLNLQTARRAWQVGQAHYDLGNAFYAAMLDARMTYTCGYWEHAQSLQQAQEAKLDLVCRKLGLRPGMRVLDIGCGWGSFMGYAAEHHGVECVGVTISREQADYVAQRYAHLPVEARLQDYRTLQGRFDRIVSLGMFEHVGHRNYATFMDVAARCLDEDGLFLLHTIGKQRGGATDPWIHRYIFPNGEIPTLPALTAAAGKAFVIEDLHNFGADYDRTLMAWHANVERAWPRFAPTLGERFGRMWRYYLLSCAGAFRARALQLWQLVLSRHGVDGGYRRP	PGPT0007680_3857	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-PHOSPHOLIPID_PRODUCTION	PLANT_SIGNAL-PHOSPOLIPID_METABOLISM	PLANT_SIGNAL-CYCLOPROPANE-FATTY-ACYL-PHOSPHOLIPID_BIOSYNTHESIS,PGPT0007680-cfa-K00574	NA	NA
BMS020_08815	1404	norG_3	COG1167	HTH-type transcriptional regulator NorG	ATGCTGCGTTACGAACGCCTCGCCGCGCAGCTGCGCGAACAGATCGCCGATGGCGTGCTGCGCACCGGCGAGCGCCTGCCGTCGATCCGCCGGCTGGCCGCCGCGCACGGCGTCAGCGCCGCGACCGCGGTGCAGGCCTGCCTGCAACTGGAACGCGAGGGCCTGGCGCAGGCGCGGCCGCGCTCGGGCTACTACGTGCGCGGCAGCTCGCCGCCGCCGCGCAGCCAGCCGCCGCGGCGGCGTGTCCCGCACGCGGTCGACAATCCGGCGCTGCAGCGCCTGCACGAAGTGCTCGGCCGCAGCGACCTGCTGCCGCTGCACAACGCCTCGCCGGCGCCGGCGCTGCTGCCGACCACGGCCCTGGCCGCGGCGCTGGCGCGCACGCTGCGCCGCCAGCGCGAGCAGGCGCTGGACTACGCCGAACCGCAGGGCCACGCACCGCTGCGGCGGCTGATCGCGCAGCGCTATGCGCACCTGGCCACGCCGGTGGCACCCGACGAGGTGGTGGTCACCGCCGGCGCGATGGAAGCGATCGGGCTGGCGCTGCGCACACTCACCGCACCCGGCGACGTGGTGCTGGTGGAGACGCCGACCTACCACGGCATCCTGCAGGCGCTCGCAGCGCTGCGATTGAAGGTGCTGGAGGTACCGCACCGCCCCGGCGGCGGCATCGACGTGGCCCGGCTGGACGCGCTGCTGCAGCAGGCGCCGGTGCGCGCGGCGGTGCTGGTGCCGAACTTCCACAACCCGCTCGGCAGCGTGCTGGGCGATGCCGACAAGCAGGCGCTGCTGGCCAGCTGCGCGCGCCACCGCACCGTGGTGATCGAGGACGACATCTACGGCGACCTGGGCTGGTCCGGGCAGCGCCCGCCGCCGCTGCGCCACTTCGACCGGCATGGGCTGGTGATCACCTGCAGCTCGTTTTCCAAGACGCTGGCACCAGGGCTGCGGGTGGGCTGGCTGCTCGGCGGCGACTGGACCGACGCGCTGGTGCGCGCCAAGTACCACGCCACCGTCGGCAACCCGGCGCTGCCGCAGCTGGCGCTGGCCGACTTCCTGCAGCGCCACGACCAGGAACGCCACCTGCGCCGGCTGCGCACCCGGCTGGCCGACAACGCCTGCCGCATGCGCGCGGCGATCGCGCGCTGGTGGCCGCCCGGCACCCGCTGCAACGACCCCGCAGGCGGGTTGTCGCTGTGGCTGCAGCTGCCGCCCGGTGGCGACGCCAGCGCGTTGTTCGAGGCCGCGCTGGCCGAGCGCATCGGCGTCTCGCCGGGCGCCCTGTTCTCCAGTCGCGGCGACTACCGCGACCACCTGCGGCTGGGTTGCGGGCTGCCCTGGGACGCGACGCTGGAGGCGGCTGTACGCCGGCTCGGCCGCCTGGCAGCCGAGCAGCTGGCCTGA	MLRYERLAAQLREQIADGVLRTGERLPSIRRLAAAHGVSAATAVQACLQLEREGLAQARPRSGYYVRGSSPPPRSQPPRRRVPHAVDNPALQRLHEVLGRSDLLPLHNASPAPALLPTTALAAALARTLRRQREQALDYAEPQGHAPLRRLIAQRYAHLATPVAPDEVVVTAGAMEAIGLALRTLTAPGDVVLVETPTYHGILQALAALRLKVLEVPHRPGGGIDVARLDALLQQAPVRAAVLVPNFHNPLGSVLGDADKQALLASCARHRTVVIEDDIYGDLGWSGQRPPPLRHFDRHGLVITCSSFSKTLAPGLRVGWLLGGDWTDALVRAKYHATVGNPALPQLALADFLQRHDQERHLRRLRTRLADNACRMRAAIARWWPPGTRCNDPAGGLSLWLQLPPGGDASALFEAALAERIGVSPGALFSSRGDYRDHLRLGCGLPWDATLEAAVRRLGRLAAEQLA				NA	NA	NA	NA	NA
BMS020_08816	915			hypothetical protein	ATGTCGTCCACTTCGGTTCCCCAGGCCCGGCACGCGCTGTGGCAGCTGCTGCTCGGCGAGGTGCTGATCGGCTCGGTCGGCGTGTTCGTGCACGAGAGCGGCCAGGACCCGGTCACCGCGGTGTTCTACCGCTGCCTGTTCGGCGCGCTGTTCCTGTTGGTTTGGGGCGTGGCGCGCGGTCACCTGCGCGGGCTGTGGTGCGAGCGCAGGTTGCTGCTCGGCGCGCTCGCCTCCGGGGTGCTGCTGGTGCTGAACTGGGTGGCGTTGTTCGCCGGCATGGCGCGTTCGTCGATCGGCGTGGCGACGCTGGTCTACCACTTCTTTCCGTTCGTGATGCTGATCCTGGCGGCACTACTGCTGGGCGAGCGTACCCGCCTGGCGGACTGGGGCTGGACCGCGCTGGCGTTCCTCGGCGTGGCCGCTTCCGCCGATCCGCTCAAGCTGCTGCGGCATGCCGATCCTGGCTATCTGGCCGGGATCGGATTGACCCTGCTGGCTGCGCTGCTGTGCGGAGGCTCACTGCTGATGTCGCGGCGGGTGGGGCGCGAGCGGCCGTTCGCGGTGGTCACCGTGCAGTGCTGGGTCGGCACGCTGCTGCTGGCACCGTTCGCCAGCGCCAGCGCGCTGCATGCCGGCCCGCACTGGGCCTGGCTGGTCGGGCTCGGGGTGATCCACAGCGGCATCGTCTACGTGCTGTTCTATTCCTCATACCGGCACCTGCCGGTGGCGACGATCGCGGTGGTCGCCTTCGTCTATCCGCTGGTCACGCTGCTGCTGGATTACCTAGTGTACGGCCACCGCCTCGGCGGCGTGCAGCTGGCCGGGCTGGCGCTGATCGTGCTGGGCACGCTGGGGGTGAACCTGAAATGGCGGCTGCCGTTGCAGCGCCGAGGCGTGCTTGCGGAGGGCGCCTGA	MSSTSVPQARHALWQLLLGEVLIGSVGVFVHESGQDPVTAVFYRCLFGALFLLVWGVARGHLRGLWCERRLLLGALASGVLLVLNWVALFAGMARSSIGVATLVYHFFPFVMLILAALLLGERTRLADWGWTALAFLGVAASADPLKLLRHADPGYLAGIGLTLLAALLCGGSLLMSRRVGRERPFAVVTVQCWVGTLLLAPFASASALHAGPHWAWLVGLGVIHSGIVYVLFYSSYRHLPVATIAVVAFVYPLVTLLLDYLVYGHRLGGVQLAGLALIVLGTLGVNLKWRLPLQRRGVLAEGA				NA	NA	NA	NA	NA
BMS020_08817	339			hypothetical protein	ATGGCCGTCAGCTATTCGATCAGCCTTCCCGACCCCAGCCACGCCCGCGGCAGCGAGCCGACCCTGAGCTTCAGCGCGCATGGCGCCGAAGCATTCGCCGAACAACTGCAACAGGCGCTGGCCGACCCGGCCTGGTTCGAGCGCTGGCGCGCACTGCAGCCCGATCCGGACGAGGTCGATCCGACCATGGGCGTCACCGATCCGTCCGCGCATGTCAGTGGCGAACAGCACGACCTGCGCATCAACCTGGTGGCCACCACCACCATTCCCGGCGACATCCTCAAGCACCGCATGCACGTGCTGGCCGGCCACCACTGGGAACTGCGCAACGTGCGCTGA	MAVSYSISLPDPSHARGSEPTLSFSAHGAEAFAEQLQQALADPAWFERWRALQPDPDEVDPTMGVTDPSAHVSGEQHDLRINLVATTTIPGDILKHRMHVLAGHHWELRNVR				NA	NA	NA	NA	NA
BMS020_08818	945			hypothetical protein	ATGCGCATCGGAATCGTGGTGGATTCGGCCTGCGATCTGCCGCAGGACTTCATCGCCGCCAACAACCTGGTGGTGCTGCCGATCACCGTGCGGATCGGCGAGGCGGTCCTGGCCGATCACCGCGACGAGGAAGCCACGCTCAGCTTCCTGCAGGCGCATGTCGCCGAGCGCGGCCACGAGGCCGAGACCACGCCGTTCTCGGTCAACCAGATCCGCGACCTGTTCCTGCAGCGGCTGGTGATCGACTACGACCACGTGTTCTGCCTGACCATCTCCAAGCTGCGCAGCCAGATCTTCGAGAACGCCACCCAGGCCAGCTTCGCGATCCTCAACGACTACAAGCCGATCCGCCAGGCCGCCGGCCATACCTCGCCGTTCGCGCTGCGGGTGATCGACACGCTCAACCTGTTCGCCGCGCAGGGCGTCACCGCGGTCGAGGCGGTGCGCATGCGCGCGGCCGATGCCAACGTCGCGCAGATCCGCGCACGGCTGGAGGAGCTGGCCGAGAACACCTACGGTTACATGATCCCGCGCGACCTGTACTACCTGCGCGCCCGCGCCCGCAGCAAGGGCGACCGCAGCGTCGGCCTGCTCAGCGCCGCACTGGGCAGCGCGCTGGACATCAAGCCGGTGCTGCGCGGCTACCGCGGCGTGACCGAGCCGGTGGCCAAGCTCAAGGGCTTCGAGCCGGCGGTGCAGAAGATGTTCGAGTTCACCGCGCGCAAGGTCCGCGAGGGCCTGATGACGCCGACGGTGTGCCTGGGCTACGGCGGTGAACTGTCCGAATTGCGTGCCCTGCCCGGCTACGCCGCGTTGCGCGAGGCGTGCACCGAGCAGGGCGTACAGCTGTTCGAGAGCGTGATGAGCCTGACCGGCATGGTCAATGTCGGCAAGGGCGCCGTCGCGGTCGGTTTCGCCGCCGCGCCGCATACGTTCTCGGCCTGA	MRIGIVVDSACDLPQDFIAANNLVVLPITVRIGEAVLADHRDEEATLSFLQAHVAERGHEAETTPFSVNQIRDLFLQRLVIDYDHVFCLTISKLRSQIFENATQASFAILNDYKPIRQAAGHTSPFALRVIDTLNLFAAQGVTAVEAVRMRAADANVAQIRARLEELAENTYGYMIPRDLYYLRARARSKGDRSVGLLSAALGSALDIKPVLRGYRGVTEPVAKLKGFEPAVQKMFEFTARKVREGLMTPTVCLGYGGELSELRALPGYAALREACTEQGVQLFESVMSLTGMVNVGKGAVAVGFAAAPHTFSA				NA	NA	NA	NA	NA
BMS020_08819	630	nsaD		2-hydroxychromene-2-carboxylate isomerase	ATGCAGTTGCACTGGTATTTCGACTTCGTCTCGCCGTTCTCCTACCTGCACTGGCAGAAGATCCAGCGCCTGCCGCTGGCCGCACGCGTGGTGCCGGTGCCGATCGTGTTCGGCGCGGTGCTGAGCCAGCTCGGCATCCGCGGCCCGGCCGAGATCCCGGCCAAACGAGTGTTCACCTACCGCCACGTGCTCTGGCAGGCCGCACAGGAGGACGTGGCGCTGCGCTTCCCGCCCAGCCATCCGTTCAATCCGCTGCCGGCGCTGCGGCTGTGCCTGGCTGCCGGCAACACGCCGCTGGCGATCGACGCGATCTTCGACTGGATCTGGCGCAACGGGTATGCCGGCGACAGCGCCGCGGCGTTGGCACCGGTCGCCGAGGTGCTCGGCATCGCCGACCTCGATGCGGCCATCGCCGCCCCGGAGATCAAGCAGCAGCTGCGCGCCAACACCGAGGCCGCCATCGCCGCCGGCGTGTTCGGCGTGCCGACCCTGGCGATCGACGACCAGCTGTTCTGGGGCAACGATGCGCACGCCTTCGCCGAACAGGTGCTCGCCGACCCCGACATCCTGCACCGCGGCGAAATGGCGCGCCTGGCGACGCTGCCGGAAGGCCTGCAACGCGCCGGCTAG	MQLHWYFDFVSPFSYLHWQKIQRLPLAARVVPVPIVFGAVLSQLGIRGPAEIPAKRVFTYRHVLWQAAQEDVALRFPPSHPFNPLPALRLCLAAGNTPLAIDAIFDWIWRNGYAGDSAAALAPVAEVLGIADLDAAIAAPEIKQQLRANTEAAIAAGVFGVPTLAIDDQLFWGNDAHAFAEQVLADPDILHRGEMARLATLPEGLQRAG				NA	NA	NA	NA	NA
BMS020_08820	414			hypothetical protein	ATGAGGTTCGCCCGGGGCTGGCTGCTCGCCGCGCTGGCGGTGTTCGTGCTGGAAGTGGCGATCGCCGCCGGGCTCGGCGGCCCGCTGGTGCGTGGCAGCCTCGGCGACGTGCTGGTGATCGTGCTGATCCATTGCGCGCTGCGCGCGGTGACCCGCCTGCCGCGCAGCACCGCCTGCGTGCTCGCGGTCGCCTGTGGGTTCCTCGTCGAGGCGCTGCAGTATCTGCACCTCGGCGACCGGCTGGGGCTGGTCCGCGGCAGCGTCGCCTCGATCGTGCTCGGCAACACCGCCACCGTGGGCGACCTGGTCGCGTACCTGCTCGGCGGCCTGGCCGCCTGGCTCGGCGACCGCGCCGCGGACGCACTGCATGCCAGGCGCCGGTGCAAGGCACGTTGCGGCCAGCGCGCCGGTTGA	MRFARGWLLAALAVFVLEVAIAAGLGGPLVRGSLGDVLVIVLIHCALRAVTRLPRSTACVLAVACGFLVEALQYLHLGDRLGLVRGSVASIVLGNTATVGDLVAYLLGGLAAWLGDRAADALHARRRCKARCGQRAG				NA	NA	NA	NA	NA
BMS020_08821	552			hypothetical protein	ATGAGCAGCTCCGATCCCCGCATCGCCCACTACCGCATCAGCGAAGACGACTACGTCGAGGCGTTCCGCATCCACAACCGGATGACCCCACGCCGCGTGCTGCTGATCGTCCTCGCGCTGCTGCTGGCGCTGGCCGCCGTGATCGTGTCCAAGGACATGCGCGTGCCGGTGATCGTCCTGCTGGTCGGCGGCGCGCTCGCGGTGCTGCTGGTCCGGCGGCTGGTCGCGCCGCGGCTACACCGGCGCAACTACCGGCGTTACCGGCTGATCCAGCAGCCGCAGACGCTGGAGCTGCGCGAGGACGGCCTGTTCTTCACCCGCGAGAACGGCCTCTCCCTGCTCGCCTGGGGTGACATCCTCGGCTGGGAGCAAGGCGAACGGATGCTGCTGGTGTTCATCGCGCCACGCCTGTTCAACATGATCCCGCGCACGATCGCCGCGCAGGGATTTCCGCTGCAGGCGCTGGAAGACGAGTTGCGGCTGCGGGTCGGGCCGTCGCGCCGGATGCGCGCAGCGCGGGCGCCCGACGCCGGCGGGCCGACGCCGCGATGA	MSSSDPRIAHYRISEDDYVEAFRIHNRMTPRRVLLIVLALLLALAAVIVSKDMRVPVIVLLVGGALAVLLVRRLVAPRLHRRNYRRYRLIQQPQTLELREDGLFFTRENGLSLLAWGDILGWEQGERMLLVFIAPRLFNMIPRTIAAQGFPLQALEDELRLRVGPSRRMRAARAPDAGGPTPR				NA	NA	NA	NA	NA
BMS020_08822	1254			hypothetical protein	GTGAACCGCGCCCGCCTGTTCGCGCTGGCGCTGCTGTGCGCCGGCCATGCCCATGCCCAGGACCTGCTGGTCCGCGACGCCACCGTGCACACCGCCACCGCGCGCGGCACCCTGCAGCACGCCGACGTGCTGGTGCAGGGCGGCGTGGTGCGCGCGGTCGGCCCCGGCCTGGCCGCGCCGGCCGGCGCGCGCGTGGTCGAGGCCGCCGGACGGCCGCTGACCCCGGCGCTGTTCGGCGGCATCACCGAGATCGGCGTGGAGGAGGTGTCCGGCGAGGACGCCACCGTCGACGCCGGGCTGAAACTGGCCGAGCAGCCGATGCGGCCGGAATTCGACGTGACCCTGGCCTACAACCCCGACTCGGTGCTGGTACCGGTGGCGCGGGTGGAAGGCATCGGCTTCACCGCGCTGGGCGCGACCACCGAAGGCGCCTTCATCGCCGGCCAGGGCGGCGTGGTGCGACTGGACGGCGGCCCCGATCCGATCGGCCCGCACGCGCTGTTCGTGCGTCTGGGCGCAGCGGCGTCTGAGCTGACCGGCGATTCACGCGCGGCGCAGTGGATGCTGCTGGACCAGCTGGTCGACGAGGCACGCGGACGCGTGCCCGCCGATTCGCCGCATGCGCTGCTGACCCCGGCCGGCCGCGCCACGCTGGCCCGTTACCTCGGCGGCCAGGGCCGGATCGTGGTGCAGGTCGAACGCGCCGCCGACATCCGCCAGCTGCTGCGCTGGGCGCAGAAGGCCAAGGTGCGCATCGCCATCGCCGGCGGCAGCGAGGCCTGGAAGCTGGCACCGCAGCTGGCCCAGGCGCAGGTGCCGGTGCTGGTGGATGCGCTGGCCGACCTGCCGGCCAACTTCGACCAGATTGGCGCCAGCCTGCAGAACGCCGCGCACCTGCATGCGGCCGGCGTGGCGGTCAGCTTCAGCCAGAGCGGCGACGCCTCGCACAACGCGCGCAAGGTGCGCCAGCTGGCCGGCAACGCGGTGGCCAACGGGCTGCCGTGGGAAGACGGCCTGGCCGGGCTGACCCGGGTGCCGGCGGAGATCTTCGGCGTCGCCGACCGCATCGGCAGCATCGCGGTCGGCCAGCAGGCCGACCTGGTGCTGTGGGACGGCGACCCGCTGGATGTCGGCCACTACGCCGAGCAGGTCTGGCTGGGCGGCGTCGCCCAGCCGATGCGCTCGCGCCAGACCGAACTGCGCGACCGCTACCTGCCGCAGGCCGGCACGCTACCGCGCGCCTACAACGACTGA	MNRARLFALALLCAGHAHAQDLLVRDATVHTATARGTLQHADVLVQGGVVRAVGPGLAAPAGARVVEAAGRPLTPALFGGITEIGVEEVSGEDATVDAGLKLAEQPMRPEFDVTLAYNPDSVLVPVARVEGIGFTALGATTEGAFIAGQGGVVRLDGGPDPIGPHALFVRLGAAASELTGDSRAAQWMLLDQLVDEARGRVPADSPHALLTPAGRATLARYLGGQGRIVVQVERAADIRQLLRWAQKAKVRIAIAGGSEAWKLAPQLAQAQVPVLVDALADLPANFDQIGASLQNAAHLHAAGVAVSFSQSGDASHNARKVRQLAGNAVANGLPWEDGLAGLTRVPAEIFGVADRIGSIAVGQQADLVLWDGDPLDVGHYAEQVWLGGVAQPMRSRQTELRDRYLPQAGTLPRAYND				NA	NA	NA	NA	NA
BMS020_08823	1398	hutI_3		Imidazolonepropionase	ATGCGTCTGTTCCTGTTCGCCAGCCTCGGCGCGGCGATGCTGTGCGGCCCTGCCGCCGCGGCCTCGCGCTTCGTCGAGGATCCGTATCCCAGCACCTACAGCCCGCTGGCCTCCGGCCCGGTGCTGATCGAACACGCCACCGTGCTGACCGGCACCGGCACCCGCATCGACGACGGCGACGTGCTGCTGGTCGACGGCAAGGTGCAGGCGGTCGGCCGCGCATTGCAGGCCCCGGCCGGCGCCACCCGCATCGATGCGAGCGGCAAATGGGTCACCCCCGGCATCATCGACGTGCACTCGCACCTGGGCGTCTATCCCAGCCCCGGGGTGAAGGCGCACAGCGACGGCAACGAGATGACCGCCCCGGTCACGCCCAACGTCTGGGCCGAGCATTCGATCTGGCCGCAGGACCCGGGCTTCGGCACCGCGCTGGCCGGTGGCATCACCTCGCTGCAGGTGCTGCCCGGCTCGGCCAACCTGATCGGCGGCCGCGGCGTCACCCTGAAGAACGTGCCGGCCACCACCTACCAGGCGATGAAGTTCCCTGGTGCGCCGTGGGGGCTGAAGATGGCCTGCGGCGAGAACCCCAAGCGCGTCTACGGCGGCAAGGGCGGCCCGGCCACGCGCATGGGCAACGTCGCCGGCTACCGCGCCGCCTTCATCGATGCGGCCGAGTACCTGCACAAGAACGCGCCGAAGAAGTCGCAGGCCAAGCGCCACTGGTGGAGCAGCGGCGGCGACGACGACAGCAGCGGCGACACCGGCGGCAAGCGCGACCTGAAGATGGACACGCTGGCCGGCGCGATCAACGGCGACATCCGCGTGCACATCCACTGCTACCGCGCCGACGAGATGGCGACGATGATCGACCTGTCCAAGGAATTCGGCTTCCACATCGCCGCGTTCCACCACGCGGTCGAGGCCTACAAGATCGCCGACAAGCTGGCGCAGGAGAACGTCTGCGCGGCGATGTGGGCCGACTGGTGGGGCTTCAAAATGGAGGCCTTCGATGGCATCCAGGAGAACATCGCGCTGGTCGACCGGGTGCCCAACAGCTGCGCGATCGTGCATTCCGATTCCGAGGAAGGCATCCAGCGGCTCAACCAAGAGGCGGCCAAGGTGATCGCCAACGCACGCCGCGCCGGCATCGCCATCGCGCCGGAGCACGCCATCGTCTGGCTGACCGCCAACGCCGCCAAGGCGCTGGGCATCGAGCAGCAGACCGGTACCCTGGAGGCCGGCAAGATGGGCGACGTGGTGGTGTGGAACGGCAGTCCCTTCAGCTCCTACGCGCTGGCCGAGAAGGTCTACATCGACGGTGCGCAGGTCTACGACCGCCACGACCACCGGCTGCAGCCGGTCTCGGACTTCATGCTCGGCCAGGGAGGTGCGCCGTGA	MRLFLFASLGAAMLCGPAAAASRFVEDPYPSTYSPLASGPVLIEHATVLTGTGTRIDDGDVLLVDGKVQAVGRALQAPAGATRIDASGKWVTPGIIDVHSHLGVYPSPGVKAHSDGNEMTAPVTPNVWAEHSIWPQDPGFGTALAGGITSLQVLPGSANLIGGRGVTLKNVPATTYQAMKFPGAPWGLKMACGENPKRVYGGKGGPATRMGNVAGYRAAFIDAAEYLHKNAPKKSQAKRHWWSSGGDDDSSGDTGGKRDLKMDTLAGAINGDIRVHIHCYRADEMATMIDLSKEFGFHIAAFHHAVEAYKIADKLAQENVCAAMWADWWGFKMEAFDGIQENIALVDRVPNSCAIVHSDSEEGIQRLNQEAAKVIANARRAGIAIAPEHAIVWLTANAAKALGIEQQTGTLEAGKMGDVVVWNGSPFSSYALAEKVYIDGAQVYDRHDHRLQPVSDFMLGQGGAP				NA	NA	NA	NA	NA
BMS020_08824	561			hypothetical protein	ATGATCGTTCGCTCCGACCGCAACAAACGCGCCGATGTGCTGCTCGCATTCTGGGAGCTGGCCGGGCCGGCGCGCTGGTTCACCCGCAACGAATCGTTCGATGCGAACTTCCGCCAGCATTTTCTCGATGACCACCACGCTGCCGCGCGCGGCGAGTACGCCGACTGGATGCGTGACGCCGATGCGGCGCTGGCGCTGCTGCTGCTGCTCGACCAGTTCCCGCGCAACTGCTTCCGCGACAGCGCGCACGCCTACGCAACCGACGGGCTGGCACGGCAGTACGCGCGCCAGGCGCTCGACGCCGGCTACGACCAGCAGGTCACCCCGGCATTGCGGTTGTTCTTCTACCTGCCGTTCGAGCACAGCGAGGACGCCGGCGACCAGGCCCGCTCGGTGACGCTGCACCGCGCGCTGCCGGAGCCGGGCGCGGACAAGTGGGCGGTGCTGCACGCGCAGGTGATCGCGCGCTTCGGCCGCTTCCCGCACCGCAACGCGGTGCTGGGCCGGCAGACCACGGCCGAGGAGCAGGCGTTCCTCGACGGCGGCGGCTTCAGCGGCTGA	MIVRSDRNKRADVLLAFWELAGPARWFTRNESFDANFRQHFLDDHHAAARGEYADWMRDADAALALLLLLDQFPRNCFRDSAHAYATDGLARQYARQALDAGYDQQVTPALRLFFYLPFEHSEDAGDQARSVTLHRALPEPGADKWAVLHAQVIARFGRFPHRNAVLGRQTTAEEQAFLDGGGFSG				NA	NA	NA	NA	NA
BMS020_08825	876			hypothetical protein	ATGGAAGGCTTCTCGAAGACCCTGCTGCTGGCCGCGCTGCTGGCCCTGCTGCCGGCCACCGGCAGCGCTGGCACGCCGCGCACGGTGATCTACCTGTCCGGCTACGGCTACCCGGTCGACGGCGACGAGCCGCGCAACGACTACGTGACGATCTGGCGTGGCGGCCCGGTCCCGGACGAAAGCGATGCCCCGCAGGCACTGCTCGGCCAGCCGCTGCGGCACATGGTCGATGGCCGCGTTGCCGGCACCGTGCACATCGCCCGGCTGGAGTCGGACGACAACTCGATGTGCGGCAACGCCAAGCATCTGCGGCTGCGCGAGGCCAGCCAGGTCGAAGGCGCGCAACTGCTGTCCACCCACGATCTCAATCCAGACCAGCGCTATGCCCGGCGCGCGGCCACCGGCGAGGAGCAGCAGCAGATCCTGCGCCTGGTCCGCACCGACCCGGCCCTGCTGCAGGCGCTGCCGCGCGCGGCACTGGACAAGGCGCTTGCGGCGTTCGCCAGCGATGCCGCCGGCACTAGCGCGCTGCACGTCATCGCAGACCGCACCCAACCGCAGCACAGGCTCGCGCTGCTGCTGGTGGCGCACGGCGAGCCGCCGGCCAGCGCCGACGACAGCCACCTGATGACCTACGCGCTGGCGCTGTTCGACTCCGACGGTCAGCACTGGCGGCGCCGCGCCGCCACCGCCAGCCATGGCTGCGAGGACTGCGACGCCGCACCCAGCAACTACGCGCTGCTGGACTGGGGCGACATCGACGGCGACGGCCTGCCCGACCTGCTGCTGCAGTCCACCGGCTACGAGACCTATGCCTACCACCTGATGCTCAGCAGCCGGCAGTGGGCGCTGCAAGACACCCCCGGCGGCTGCTGA	MEGFSKTLLLAALLALLPATGSAGTPRTVIYLSGYGYPVDGDEPRNDYVTIWRGGPVPDESDAPQALLGQPLRHMVDGRVAGTVHIARLESDDNSMCGNAKHLRLREASQVEGAQLLSTHDLNPDQRYARRAATGEEQQQILRLVRTDPALLQALPRAALDKALAAFASDAAGTSALHVIADRTQPQHRLALLLVAHGEPPASADDSHLMTYALALFDSDGQHWRRRAATASHGCEDCDAAPSNYALLDWGDIDGDGLPDLLLQSTGYETYAYHLMLSSRQWALQDTPGGC				NA	NA	NA	NA	NA
BMS020_08826	981	glpE_3		Thiosulfate sulfurtransferase GlpE	ATGATCGCACGCCGCGTAGAATGGCCGATCTCCCAGAATTCCCGGATCACGCCGATGTCCCTCGATCCCGCCCTGCGTTCGCGCATCGAATCGCTGCTGCAGTCCAACCGCGTCGTGTTGTTCATGAAAGGCCAGCCCGGCATGCCGCAGTGCGGCTTCTCGGCCAAGGCGGTCGGCGTGCTGGACGAACTGGGCATCGAGTACGCCCACGTCAACGTGCTGGCCGACCAGGAGATCCGCGAGGGCATCAAGGCCTACGGCGACTGGCCGACGATCCCGCAGCTGTACGTCGACGGCGAACTGGTCGGCGGCAGCGACATCATGCTGCAGATGGCCGAGAGCGGCGAGCTGAGCGGCCTGCTCGGCGTGGCCGCGCCGGACCGCACCCCGCCGGCGATCACCATCACCCCGGCCGCGGTGGAGATGCTCAAGGGCGCGCTCGCCGACGCCCCGGGCGCGGCGCTGCAGCTGGCGATCGATGCCAACTTCCAGCCCAACTTCCAGCTGGTGCAGGCCAGCGACAAGGCCATCGCCGCCGAATCCAACGGCCTGCGCGTGCAGTTCGACCTGGCCAGCGCGCGCCGCGCCGAGGGCATCACCATCGACTGGGTCGACGACATCCGCGGCCGCGGCCTGGCGATCGACAACCCCAATGCGCCCAAGCCGGTGCAGGAGCTGTCGGTGCGCGACGCCGCCGACCAGCTGACCGCCGGCAGCGTGATCCTGGTCGACGTGCGCCCGGCCGACGAGCGCGCGATCGCCGCGGTCAACGCGCCGTTCCGCACCCTCGACGGCGCCGAGCGCGCCGCGCTCGAGCAGTTGCCCAAGGACACCGCGCTGGCGTTCCTGTGCCACCGCGGTGGGCGCAGCCTGCAGGCCGCCGAGCACTTCCGCGGACTGGGTTTCAGCAACGTGTTCAACGTCACCGGCGGCATCGATGCCTGGTCCGACGCCGTCGACGGCAGCGTGCCCAAGTACTGA	MIARRVEWPISQNSRITPMSLDPALRSRIESLLQSNRVVLFMKGQPGMPQCGFSAKAVGVLDELGIEYAHVNVLADQEIREGIKAYGDWPTIPQLYVDGELVGGSDIMLQMAESGELSGLLGVAAPDRTPPAITITPAAVEMLKGALADAPGAALQLAIDANFQPNFQLVQASDKAIAAESNGLRVQFDLASARRAEGITIDWVDDIRGRGLAIDNPNAPKPVQELSVRDAADQLTAGSVILVDVRPADERAIAAVNAPFRTLDGAERAALEQLPKDTALAFLCHRGGRSLQAAEHFRGLGFSNVFNVTGGIDAWSDAVDGSVPKY	PGPT0013203_38	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CHAPERONES,PGPT0013203-grxD-K07390	NA	NA
BMS020_08827	741			hypothetical protein	GTGCGCCCGTCCTGGCGGGTGCTGCTGCCGGTATCGCAACTGCTGGTGGTCGCCCTGTGGTGGCGGCTGGGCTGGGCCTGGGGGCTGCCGGCGATGCTGCTGTCGCATGCCTGTTTCATGGTCCCGGTGTTCCTGCCGCGGGCGCGGCTGTACGCGCCGGTGGTGGCGCGGCTGGCCGGCGACGCGCCACAGGTCTGGCTGACCATCGATGACGGGCCTTCCGACGACACGCCGGCGATGCTCGACCTGCTCGACGCCCACGGCGCCAAGGCCACCTTCTTCCTGGTTGGCGAGCGCGCCGCGCGGCGCCCGGAGCTGGTGCGCGAGGTGCTGCGGCGTGGCCACGACCTTGGCAACCACAGCCACAGCCATCCGCAGGCCTGGTACTGGCTGCTGGGGCCGCGACGGATGGCGGCCGAGATCGAGGGCGCGCAGCGGGTGCTGGACGCGCTGGCCGGGCGGCCGACACGCTGGTACCGCTCGGTGGTCGGTATGACCAATCCGTTCGTCGCCGCGCCGCTGGGGCGCCTCGGGCTGACCCGGGTGGCGTGGAGTGCGCGCGGTTTCGACGGCGTCGACTGCGTGGCCGATGCAACGGTGGCGCGGATCGCCCGCGATCTGCGGCCCGGGGCGATCGTGCTGCTGCACGAGGGTGCCGCGCATGGCCACAACCCGGCGATCCTGGCCGGCGTGCTGCAGCAGCTGCAGGCACGTGGCCTGCGCGCGGTCGTGCCGGACTAG	MRPSWRVLLPVSQLLVVALWWRLGWAWGLPAMLLSHACFMVPVFLPRARLYAPVVARLAGDAPQVWLTIDDGPSDDTPAMLDLLDAHGAKATFFLVGERAARRPELVREVLRRGHDLGNHSHSHPQAWYWLLGPRRMAAEIEGAQRVLDALAGRPTRWYRSVVGMTNPFVAAPLGRLGLTRVAWSARGFDGVDCVADATVARIARDLRPGAIVLLHEGAAHGHNPAILAGVLQQLQARGLRAVVPD	PGPT0018645_3191	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
BMS020_08828	339			hypothetical protein	ATGTCCCAGGGAATGGAGATGAAGCACTCCGGCCTCGGCATCGCCTCGTTCGTCGTCAGCCTGCTGGTCGGCGCGATCCTGATGTTGCTGGTCATCGCCGCCGGGCTGATGGAAGCCGGCACGCCCGGCGGCATCGACGAGGACTCGATGGCCGCGGTCGGCCTGGGCCTGCTGCTGATCGCCGGCATGATCGGCGAACTGGTCGCCGGTGCGCTCGGCATCGCCGCGCTGCTGCAGTCCGGGCGACGCAAGACCTTCGGCGTGCTCGGGCTGGTGTTCGCGGCGATGAGCCTGCTCGGCATGGTGGTGCTGATGATCGTCGGCACCCTCGCCGGCTAG	MSQGMEMKHSGLGIASFVVSLLVGAILMLLVIAAGLMEAGTPGGIDEDSMAAVGLGLLLIAGMIGELVAGALGIAALLQSGRRKTFGVLGLVFAAMSLLGMVVLMIVGTLAG				NA	NA	NA	NA	NA
BMS020_08829	699			hypothetical protein	GTGCACGACGCCATCCGCCCGCTGAGTGCCGCGCATGCGCAGGCCATCGCCCGTGCCTTCCTGCCACGGCACCCACTCGGCAATCGCTACGACTACTACTACGCCCGCACCAAGCTGCGCACCGATCCGCTGTACCCGGGGGTGCTGGCCGAACTGCGCGGCAGCAGCGCGCCGCTGCTCGACCTGGGCTGCGGGCTCGGTCTGCTGGCGCATGCGCTGCACGCCGACGGCCAGGCGCTGGACTACCTCGGCGTGGACATCGACGCGGCCAAGATCGGCCGCGCACGCGCGATCGCCGCGCGCGCCGGCATCGCCGGCAGCCGCTTCGAGGTGCTCGACCTCATGCGCGGCGCGCCCGCCCACCGCGGCAGCGTCGCGCTGCTCGATGTCCTGCAGTACCTGGACGCCGGGGCTCAGGCGGACCTGCTCCGGCAACTCGCCGGCATGCTGGTCCCGGGCGCGCGCCTGGTGATCCGCACCGGTCTGGTCGACGCCAGCCGGCGCGGCCGCACCAGCCGGATCGGCGACGTGCTGGCCCACCTCGCCGGCTGGATGCAGGAGCGCCCGCGCTGCCAGCCCACCCGCGAAGGCCTGCAGGCGCAGCTGCAGGCGGCCGGCCTGCGCGCGCGCTTCGCCCCGCTGTATGGCAATACCCCGTTCAACAACTGGCTGGTGGTGGCCGAGCCCGACGCGGCCTGA	MHDAIRPLSAAHAQAIARAFLPRHPLGNRYDYYYARTKLRTDPLYPGVLAELRGSSAPLLDLGCGLGLLAHALHADGQALDYLGVDIDAAKIGRARAIAARAGIAGSRFEVLDLMRGAPAHRGSVALLDVLQYLDAGAQADLLRQLAGMLVPGARLVIRTGLVDASRRGRTSRIGDVLAHLAGWMQERPRCQPTREGLQAQLQAAGLRARFAPLYGNTPFNNWLVVAEPDAA				NA	NA	NA	NA	NA
BMS020_08830	615			hypothetical protein	ATGGCCGCGACGCTGCGCTACCTCGCCCTCGGCGACTCCTACACCATCGGCGAGGGCATCGCCGCGGACGGGCGCTGGCCGGTGCAGCTGGCCGCGGCCCTGCGTGGTGAAGGCATCGCGCTGGGCGATCCGCAGCTCGTCGCCACCACCGGCTGGACCACCGACGAGCTCGATGCCGGCATCGATGCCGCGGCGCCCGAAGGCAGCTTCGACCTGGTCACGCTGCTGATCGGGGTCAACAACCAGTACCGTGGCTGGCCGCTGGATGCCTACCGCACCGAGTTCGCCGCATTGCTGGCGCGGGCGATCGGCTTCGCCGGCGGCGCCGCGCAGCGGGTGCTGGTGCTGTCGATCCCCGACTGGGGCATCACCCCGTTCGCACGCAGCCAGGGCCGCGACGCCGGGCTGATCGGGCGCGAGATCGACGCCTTCAACGCCGCCGCGGCGGCAGTCTGCGCCGCAGGCGGAGTCGGTTTCGTCGATATCACCGCCTGCAGCCGCGACGGCGGCGACAAAGCCACGATGCTGGCCGACGACGGCCTGCACCCCTCGGCGGCGATGTACGCGGCGTGGACCGCGTTGACGCTGCCGCATGCCCGCCATGCCCTAAGCTGA	MAATLRYLALGDSYTIGEGIAADGRWPVQLAAALRGEGIALGDPQLVATTGWTTDELDAGIDAAAPEGSFDLVTLLIGVNNQYRGWPLDAYRTEFAALLARAIGFAGGAAQRVLVLSIPDWGITPFARSQGRDAGLIGREIDAFNAAAAAVCAAGGVGFVDITACSRDGGDKATMLADDGLHPSAAMYAAWTALTLPHARHALS	PGPT0001840_440	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804	NA	NA
BMS020_08831	1272	alaA_2	COG0436	Glutamate-pyruvate aminotransferase AlaA	ATGTCCTCCACGCCCCAGAAGCCGCTCGCCACGCGCGCGCGCCTGTCCGAAGTCCGCTACGAGATCCGGGGCGAGCTGGCGCGACGAGCGAGGGATCTGGAGGCCCAGGGCCGCAAGCTGGTCAAGCTGAACATCGGCAACCCCGGCAACTTCGGCTTCCGCGCGCCCGAGCACCTGCAGCACGCGATCGCCGACGACATGGGTCGCACCGACCCGTACACCCACCAGCAGGGCCTGCCGGTGGCGCGCGAGGCGATCGCCGCCGCCTATGCCCGGCGCGACCATCCCGATGCGCACCCGGACCGGATCTTCATCGGCAACGGCGTGTCCGAGCTGATCGACCTGTCGCTGCGCGCGCTGCTCAACCCCGGCGACGAAGTGTTGGTGCCCTCGCCCGACTACCCGCTGTGGTCGGCCGCGACGATCCTCAACGACGGCCGCCCGGTGTTCTACAGCTGCCTGCCGGAGAACGGCTTCCTGCCCGATCCGGTGCAGATCGAGAGCCTGGTCTCGCAGCGCACCCGCGCGATCGTGCTGATCAACCCGAACAACCCGACCGGCGCCAGCTATTCGCGCGAGCTGCTGGAGAAGATCGTCGCGATCGCCCGCAAGCACGACCTGCTGCTGCTGGTGGATGAGATCTACGACCAGATCCTGTACGACGGGGCCACCTTCCAGCCGGTCGCTCCGCTGGCTGGCGACGTGCCGTGCATCACCTACGGCGGCCTGAGCAAGGTGCACCGCGCCTGCGGCTGGCGCGTGGGCTGGGCGCTGCTGTCGGGCGAGCTGTCGCGCATCGTCGACCTGCGTAACGCGATGGACCTGCTCGGCGCGCTGCGCCTGTGCGCCAACGTGCCGGGCCAGTACGCGATCGACGCGGCGGTCAACGGCCCGGACACCATCACCGAGCTGTGCAGCCCGGGCGGGCGCCTGTACGAGACCCGCCGCGCGGTGATCGAGGCCTGTGCCGCCAGCGAGCACCTGTCGCTGGTCACCCCGGCCGGCGCGCTGTACGCGTTCCCGGCGGTGGTCGGGCATGCCGCGCGCGGCTTCGACGACCACGAATTCGCACTGGAACTGATGAACGAGGAAGGTGTGCTGGTGGTGCCGGGCTCGAGCTTCAACGTGCCCTACCGCAACCATTTCCGCGTGACCCTGCTGCCGGAAGCAGCACTGATGCGCGAGGTGTTCGCACGCATCGACCGGGCGCTCTCGCGCCGCGCCGAGGCCAACACCAAGGTCGTGCCGCTGAAGCCGCGCAACGTCGCCTGA	MSSTPQKPLATRARLSEVRYEIRGELARRARDLEAQGRKLVKLNIGNPGNFGFRAPEHLQHAIADDMGRTDPYTHQQGLPVAREAIAAAYARRDHPDAHPDRIFIGNGVSELIDLSLRALLNPGDEVLVPSPDYPLWSAATILNDGRPVFYSCLPENGFLPDPVQIESLVSQRTRAIVLINPNNPTGASYSRELLEKIVAIARKHDLLLLVDEIYDQILYDGATFQPVAPLAGDVPCITYGGLSKVHRACGWRVGWALLSGELSRIVDLRNAMDLLGALRLCANVPGQYAIDAAVNGPDTITELCSPGGRLYETRRAVIEACAASEHLSLVTPAGALYAFPAVVGHAARGFDDHEFALELMNEEGVLVVPGSSFNVPYRNHFRVTLLPEAALMREVFARIDRALSRRAEANTKVVPLKPRNVA	PGPT0001880_345	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0001880-alaA-K14260	NA	NA
BMS020_08832	225			hypothetical protein	GTGCTCGGCGTGCTGCCCGGGGTGATCGGCCTGCTGCAGGCCACCGAGGCGCTGAAGCTGCTGCTCGGCATCGGTGAACCCATGATCGGCCGCCTGCTGTGCTTCGACGCACTCGGCATGCACTTCCACGAACTGCGGCTGGCGCCGGATCCGCAGTGCCCGGCGTGCGGGGCAGATACGAACGACGTCGGGGAGCCGATGCCACCGCCGCAGATTGCGGATTAG	MLGVLPGVIGLLQATEALKLLLGIGEPMIGRLLCFDALGMHFHELRLAPDPQCPACGADTNDVGEPMPPPQIAD	PGPT0008935_439	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
BMS020_08833	1218			hypothetical protein	ATGAAGATCGAACCGGTTCTGAGCGCTAGCGCCGCGTGCGAGTGCCTACTCGAGCTGATCGCCTCGTGCGACTCGTTCTCGCTTGCCAGCGCGTGGGTGACCGAAAGCGGTGTCTTCGAAGCCGCGATCGCCGCGCGCGGCAAGTTGCGGCAGTTCGTCATAGGCACTCATGGCTACTTCACCAGCGCCGACTGCCTGGAGGTCTGCGTCCCCTTGGCTCAGGCCAAGGTGGTCAAACCCGTCGGACGCATGTTCCACCCCAAGGTCTACACATTTAAGATTAACGGGCGTCGAGTCGTGTACGTTGGCAGCTCCAACTTGACCAAAGCCGGCTTCGCCAGAAACGTCGAGTGCGGGGTGTTTCTGACTGGCGAAGACGGGCACCCAAAGCTGAAACGCTTCGTGGATTTCATCCTTGAGCAATGGAAAGCTGCTGAGAAGCTCGACGCGGATTTCGTCACCATCTACCGCGCCAACCAGCAGCGGGTCAAGGATGCCCAGGATGAACTACAGAAGTTCATAGAGATCCCGAAGCCGCGTCGCACGAAAAAGTCGGCCAACGACGTTGACCCTAGCAAAATGGACTGGGCCCGATTCGTGGATCTGGTGCGCGCGGAGAAGACACACGACGGCCCGGAGCAGCGATTGAAGTTGCTGATGCAGGCGAGGCACCTGTTCTACCAAGGTGGGTCGTTCAAGAGATTGCCGGAGCGCGATCGCAAATGCCTTGCTGGAATCCAGAAACCATCGTTGCAGCCAGACGGTCTAGATTGGGGCTTTTTCGGTCAGATGAGCCCGCATGGAAGCTACAGTCCGATCCTCCTTCGCCACGTCGCGGAGTTCTCTAGGGCGCTCGATCAAATTCCGCTGGTCGGCACCGTGCGCAAGAAGCACTATGACGCCTATCGAGACACGCTCATGTCTATCCCGGATGCTGGCAATTGGATCGGCATGGGTACGCGGCTTCTCGCAATGAAGCGTCCGGATCAGTTCGTTTGCGTTAACAACGCTAACCGCATTGGCCTATGCAGCTACTTCGGCGCCGCACCAACGACGACCAACCTAGACAACTACTGGGAACGGATCGTTGCGCCCATGCAGGTCATGCCGTGGTGGCAGGCGAAGATGCCGAGCGATATCTTTGGGCGGCAGGTGTGGTTGGGCCGAGCGGCCATGTTGGATGCCATCTACTACGATCCTAACAGGCTCAGCGGCTGA	MKIEPVLSASAACECLLELIASCDSFSLASAWVTESGVFEAAIAARGKLRQFVIGTHGYFTSADCLEVCVPLAQAKVVKPVGRMFHPKVYTFKINGRRVVYVGSSNLTKAGFARNVECGVFLTGEDGHPKLKRFVDFILEQWKAAEKLDADFVTIYRANQQRVKDAQDELQKFIEIPKPRRTKKSANDVDPSKMDWARFVDLVRAEKTHDGPEQRLKLLMQARHLFYQGGSFKRLPERDRKCLAGIQKPSLQPDGLDWGFFGQMSPHGSYSPILLRHVAEFSRALDQIPLVGTVRKKHYDAYRDTLMSIPDAGNWIGMGTRLLAMKRPDQFVCVNNANRIGLCSYFGAAPTTTNLDNYWERIVAPMQVMPWWQAKMPSDIFGRQVWLGRAAMLDAIYYDPNRLSG				NA	NA	NA	NA	NA
BMS020_08834	936			hypothetical protein	ATGCCGATAGCACTCATATCGCTCTCCCCATTTTTGCAGCAGTACGACACCGCGATAGAGTGGCTAAGTGGCCACGGCGTTCGCACGCATGGCACCCGCCTGGCCGCATACCGCAGGAGCATTGCCCGCGCCGAGCAGGACGAGGCGCAAGGGCGGTTCGACCACCAGCACGGCCCAGAACTGTTGAACGCTCTGACCGAAGCGTCGGAGATCATCGATGTAGCGCAGATCGATGAGGTGCACTTTGAAGCAGCTGGCGTGCTCGAAAAACTCAGGCGAATTTCAGGCGGTCCAGAGACGATGGCGCCGGAACATGCCGATCCGGCGCGAGATTATGCCTTCGAGTTCCACACGGCGGTCGAACTACAGCGGCAACGCGAATTCGGCGGATTCTCTCAGCAGGACGGCGACCTGACCGTAGCTGTGGAGCGCTATCCGGCCGAGTGTAAACGGGTATCCTCTCTGCACAGTCTGAGAAACCGACTGCGCGGCGGGAGGGACAAGCTCAACCGACTGGTGGCGGATAGCAGCCCACCTGGCGTCATCGCCATCGACGTGACCCGACCGATCCGAATGGCGCATGGTCCGATCGTGGCTGCAAGCGACGAGCAATTCCTGCAACAAGCAGAGCAGCGGTTGGTCGCCTACTTGCCGGCGCACGTGATGACGGAGCAGAACATCGCCTCCCTCGCCTGCCCCGCGGTGCTCGGCGTGATTGTCAGGTGCATATCCGTCGGCACTGCCGGTGAGGACGCGAATATCCGTCGGTCAGTCGTTTGGCAGGCATGCTGCTTGCATGCCGACGGCTCGGCCGAGGATGCGCTGTTCCGGCGTGTTGCACGTGCATTTGGGCCAGGAGAACTGAGGGAAGGGACTCGGGCCGAGATCGTCCAAGCCACCGAGCAGATAGAAGTCGTCCCCATTCGGCGCCGGTAG	MPIALISLSPFLQQYDTAIEWLSGHGVRTHGTRLAAYRRSIARAEQDEAQGRFDHQHGPELLNALTEASEIIDVAQIDEVHFEAAGVLEKLRRISGGPETMAPEHADPARDYAFEFHTAVELQRQREFGGFSQQDGDLTVAVERYPAECKRVSSLHSLRNRLRGGRDKLNRLVADSSPPGVIAIDVTRPIRMAHGPIVAASDEQFLQQAEQRLVAYLPAHVMTEQNIASLACPAVLGVIVRCISVGTAGEDANIRRSVVWQACCLHADGSAEDALFRRVARAFGPGELREGTRAEIVQATEQIEVVPIRRR				NA	NA	NA	NA	NA
BMS020_08835	777			hypothetical protein	ATGCTTACAGAATTTACCGAGCTTTACCCGAAGATTGGCGCTTGGCTTAACGACAACCAAGGGGTTGTCGGAGTGGTGATATTTGTCGCTACTGCTGCTTTTGGCTGGATTAGCGGCATCTTCTCTGCTCTCCGGAGGCGGCCAAAGTTCGGCATTTCGCTGATCGATGGGCCGACCTTCTGTTGTACCTATTTAACCGGAAATATGCAGGGGCAATACGAGGCCCATCGCACCGGTATCGCGCTTTATCTTTCAGTTTCAAACGTTGGCTCGGCATCATCGAGCGTTGGCGACATCTCGATCGGATATCACTGGCACCTTCGTCCGTTCAGTTGGTTGTGGCTTAAGTACAGGGTGGGCTGGTTCTGGCTCAAACACCAATCTATTGCGCTAGAAGATTTTCAGGTCGCTATCGGTGAAAGCGTTAAGATCTATCCGTTTCTTACGCAAAGGAATCATCTATCTCCCGTGCAGGTGGATACATATCTTGATGTCGGTCGATCCGTCAACGGCGTTGTCTACTTTGAACAATCGGAGAGCTGGGGTGGCTGCTTTCCTAGAGTGAAAAATGGTCGTGTTCGCTTAAAGGTTCGAGTGCGCGACGTGTTTGGTGGCAAGCACACTTCCACATTCGATGTCCCCGCTGTGATTCTAGATGATGCCCGGAAATACTGTCCCGCGTTCGGAAAGACCTTCTCCGAACTTCATGGGGAGCCGAATTTGGAGGGCGTGTCTAGTGGTTCACTCGAGTCGAGCCCACTGCGAGGGTCGGCCTAA	MLTEFTELYPKIGAWLNDNQGVVGVVIFVATAAFGWISGIFSALRRRPKFGISLIDGPTFCCTYLTGNMQGQYEAHRTGIALYLSVSNVGSASSSVGDISIGYHWHLRPFSWLWLKYRVGWFWLKHQSIALEDFQVAIGESVKIYPFLTQRNHLSPVQVDTYLDVGRSVNGVVYFEQSESWGGCFPRVKNGRVRLKVRVRDVFGGKHTSTFDVPAVILDDARKYCPAFGKTFSELHGEPNLEGVSSGSLESSPLRGSA				NA	NA	NA	NA	NA
BMS020_08836	261			hypothetical protein	ATGTCAGGAATTACGGCAGCTGAAGCACGTGCTAACTCGGAGGCTTCAACCTATGGGGCTGACGAGATTGTTAGACAAGTTGGCGGAATGATCGAGGCCAATTCCAAAACTGGAGTGACCTCTATCACCCACATGCTTAGCAAGGCGGCGGTGACGGAAGCAGAGCTGGAGGGCGCAATTGCGCAGTTAGAAGGTCGCGGCTTTTGCGTTGAAAAAGCAGGTGCAACAGCTGGCAGCTACACAATAAGAATTAGTTGGTAA	MSGITAAEARANSEASTYGADEIVRQVGGMIEANSKTGVTSITHMLSKAAVTEAELEGAIAQLEGRGFCVEKAGATAGSYTIRISW				NA	NA	NA	NA	NA
BMS020_08837	726			hypothetical protein	ATGAAGACCAACAACGAAGCCCCCTGTGGCGCGGACGCAGAAGCATCCACCACGCCAACGACGCCTTGCGAGGTGCGGGCACGATACGAGGCTGCAGCGCAGGCGCTGAGCGAGGCGCTCGGGCGCAAGCGGGCGATGAGCGAGCGCGCGGCGAAGATGGCGCGTGCAGGCGCGGCCGCGCAAGCGCAGGCCAACGCCGTGCGCGAGCAGTACCGCGAGCTGCTGCGCCAGGCCGATGGCGAGCTGACGCGCGAGATCCAGAAGCTGCGTGCGTCTGAGCGTTCGTCGCTCACGCTGGTTGAGGAATACGCTGACCTGCAGCAGGAGATTGAAGCGCAGATGGCTGGCATGGAACTTGAGGTGGCGGAGCTGGCAGAAGATGGAATCAAGCTGCGCAATCGCGTGTTGGACATCGCGGCCAGCGAAGCATTTGACGCCATGATCGACAAGGCGGGCGATGCGATGGCGACAGCATACGTGTTGCACCGTCGTGCGACGTTGTCCTCAGTGCTGGTCCAAATGCGGCCGTCCGATGACCAGGTGCTGGAAGGCTTTGTCTATAAGCTCGAGAAGCAGATCAAAGAGCGCCTCGATTCGGTCGGGGAGCAAGTGGCGGGCGCTATCGGTGTGAAGGAGCTGGAGCTTGATGGTGTGGATATGGTGCTAGCGGGGAGCCCGTCGCGTCGAATGATGCTGCGGCAAGTCCAAGCTGCGAATGCTGCCTAG	MKTNNEAPCGADAEASTTPTTPCEVRARYEAAAQALSEALGRKRAMSERAAKMARAGAAAQAQANAVREQYRELLRQADGELTREIQKLRASERSSLTLVEEYADLQQEIEAQMAGMELEVAELAEDGIKLRNRVLDIAASEAFDAMIDKAGDAMATAYVLHRRATLSSVLVQMRPSDDQVLEGFVYKLEKQIKERLDSVGEQVAGAIGVKELELDGVDMVLAGSPSRRMMLRQVQAANAA				NA	NA	NA	NA	NA
BMS020_08838	2736			hypothetical protein	ATGAGTAGGGTCGATGGGTTTGTGGCCGCGCTGCAGTCGGTTGGCTTGTCGGTGGCCTCTGTCATCGCCGATGGACGCCTGCGGCGCGTGCGCGCCGAGGGCGATTCCCACGGCCAGCGCAGCGGCTGGTATGTGCTGCACGCCGGCCCGCCGTTTGCCGGCGTCTACGGCAACTGGAAGACCGGCGCCAATGCGCAATGGCGCGATACCAGCGGCGACACGCTCTCGGCCGCCGAGTTGGCCGAGATCCGCGAGAACGCGCTGCGGGTGCAGCGCCAGCGGCAGGCCGATCGCGCGCGCCGTCATGCGGCCGCGCGGGATGAAGCGGTGGCCAGGTGGCAGCAGGCCACCGCCGCGCAGCCTGACCATCCCTACCTGGTCGCCAAGGGCGTGGGCGTGCATGGCTTGCGGTACTGCGATGGCCGCCTGCTGGTGCCGATGCGCGATGCGGACGGGAAGCTGTGGAGCCTGCAAAGCATCTGGGCCGATGGCACCAAACGGTTCCTCGCCGGCGGTCGCAAGCGCGGCCTGTACTACGCGATCGGCCGCGAGGTGAGCGACGTGGTGTGCATCGCCGAAGGCTACGCGACGGCGGCCAGCATCCATGAGGCGACTGGCTACCCGACAGCGGTCGCGTTCGATGCCGGCAACCTCGAACCGGTCGCACGTGAGCTGCGGGGCAAGTTCCCCGCGGCGCTGATCGTGATCTGCGCCGACGACGATGCGGCCACGGCCCTGTGCCGGGGCATCAACCCCGGCCTGGCCAACGCGCAGCGCGCTGCGCAGGCCGTGGGCGGCGGGGGGGGGCTTGCCCCCCCCGCCCCCCCCCCCCCCCGATCGCCCCCCCCACCCCCAATTACCCACCCAGGCGCTCACCCCCCCCCGGGCAATGGAGCCTCGTGCATGAGCAACACCATCACATCCGTGGATTTCAACGACGCTGCCAAGGCGGTGGGCAAGAAGGCAGTCCGCAGCACCATCGAAGCGGCCGTGCGCAAAGGGTCGGCAAGCAAGCGCGCAGAGGCGGTCGGCGCAAAACCGCACTACCGCCTCAGCGATGCCGGCGTGTTCTACGTCGGCGTCAACGAAGACGGCGAGCAGGCCGACCCGCAGTTCATCTGTTCCCCGCTCAAGGTCGAGGCCAAGACCCGCAACAGTCAGAGCGAGGAGTGGGGGCGGTTGCTGAGCTGGACCGATGCCGACGGCCACCGCCACCAATGGGCAGCCCCAGCTGAAATGCTGGTCGGCGATCCGCGCGAGTTCGTGCGCCAGCTCGCCGCCGGCGGTGTCGAAATGTCGGCGCACCGCAGCACCACGCAACGCCTGCTGGCCTACATCATCCAGGAGCGCATCGACGCCCGCGCCCGCAATGTCGCGGTGCCCGGTTGGCACGACGGGCGCTACGTGCTGCCCACGGGCGAGAGCTACGGCGCCGGCGATGAGCTGCTGGTGTACCAGCACAGCGGCGGGCTGCAGCATCACTACGCTGCAGTGGGCACGCTCGATGAGTGGAAGCGCACCGTGGCCGCCCGCTGCGCCGGCAACTCGCGCCTGGTGCTGGCAGTGGCGACGATGTTTGCAGGCCCCTTGCTGCGCTTCACCGGCGCCACCGGCGGCGGCTTCCACATCGTCGGCGGTAGCAGCAGCGGTAAGACCACCGCGCTGCGCGTGGCGGCCAGCGTCGTCGGCCCGCCTGAGTACGCCCGGGAATGGCGCAGCACCGCCAACGGGCTGGAGGGCGTGGCGGTGCTGCACAACGACGCCACCCTGATCCTCGATGAGCTGGCGCAGATCGATCCCAAGCAGGCCGGCGACGCTGCCTACCTGCTGGCGAATGGCAACGGCAAGAGCCGGGCCAATCGCGCTGGCGATGCCCGCGCCGCGGCGCGCTGGCGGGTGATGATCCTCTCGGCCGGCGAAGTCGGTCTGGCCCAGCACATGGCCGAGGTCGGCAAGCAGGCCAGGGCAGGGCAGGCGGTCCGCCTGGCGGACGTGCCGGCCGAGGTCGACGTCGGCCACGGCGTGTTTGAGCGGCTGCATGACGCGGGCGACGGTGCGGCCCTGTCGGCGCTACTCAAGGATGCGGCGGCGCGCGCCTACGGCGCCGCGTGGCCGCTATGGATGGACTACCTCACGCGCATGGAGAGCCCGAAGCTGACCGCGCAGCTGCGCGCGGCCACCGATCGCTTCCTTGCCACCCACGTGCCTGAGAACGCCAGCGGTGAAGTGCGCCGCGTGGCCGAGCGCTTCGCCATCGTGGCGTTTGCCGGTGAGTTGGCCAGCAGCTGCCGGCACCAGTTGACCGGCTGGCCGAAGGGAGAAGCGACCAAGGGCGTGGCGGTCTGTTTCCAGGCGTGGATGCAGCGCCGCGGAGGTGCCGGCAGCTCGGACACCGATGGGCTGCTGTCGCGGATCCGCGCGTTCTTCGAAGCGCACGGCGAAAGCCGGCTGGAGCTGTACCGAACAACCAACAGCGCGCTGCCGATCCGAGATCGCGCCGGCTTCCGCCGCTTCGATGAGGTAGGCGTCACCGAGTACCTGGTGCTGCCCGAAGCATTCCGGCGCGAGCTGTGCGCCGGCTACGACGCCCGCAATGCGGCGCGTGAGCTGATGGCCGCGGGCTGGATCAAGCCGGGCGCCGATGGCAAGCCATCGCAGGTCGTGCGCATCCCCGGATTGGGCGCGGTGCGCCTGTACATCTTCGACTCGCGCAAGGTGCATGACGGCTCCTTGTGA	MSRVDGFVAALQSVGLSVASVIADGRLRRVRAEGDSHGQRSGWYVLHAGPPFAGVYGNWKTGANAQWRDTSGDTLSAAELAEIRENALRVQRQRQADRARRHAAARDEAVARWQQATAAQPDHPYLVAKGVGVHGLRYCDGRLLVPMRDADGKLWSLQSIWADGTKRFLAGGRKRGLYYAIGREVSDVVCIAEGYATAASIHEATGYPTAVAFDAGNLEPVARELRGKFPAALIVICADDDAATALCRGINPGLANAQRAAQAVGGGGGLAPPAPPPPRSPPPPPITHPGAHPPPGNGASCMSNTITSVDFNDAAKAVGKKAVRSTIEAAVRKGSASKRAEAVGAKPHYRLSDAGVFYVGVNEDGEQADPQFICSPLKVEAKTRNSQSEEWGRLLSWTDADGHRHQWAAPAEMLVGDPREFVRQLAAGGVEMSAHRSTTQRLLAYIIQERIDARARNVAVPGWHDGRYVLPTGESYGAGDELLVYQHSGGLQHHYAAVGTLDEWKRTVAARCAGNSRLVLAVATMFAGPLLRFTGATGGGFHIVGGSSSGKTTALRVAASVVGPPEYAREWRSTANGLEGVAVLHNDATLILDELAQIDPKQAGDAAYLLANGNGKSRANRAGDARAAARWRVMILSAGEVGLAQHMAEVGKQARAGQAVRLADVPAEVDVGHGVFERLHDAGDGAALSALLKDAAARAYGAAWPLWMDYLTRMESPKLTAQLRAATDRFLATHVPENASGEVRRVAERFAIVAFAGELASSCRHQLTGWPKGEATKGVAVCFQAWMQRRGGAGSSDTDGLLSRIRAFFEAHGESRLELYRTTNSALPIRDRAGFRRFDEVGVTEYLVLPEAFRRELCAGYDARNAARELMAAGWIKPGADGKPSQVVRIPGLGAVRLYIFDSRKVHDGSL				NA	NA	NA	NA	NA
BMS020_08839	639			hypothetical protein	ATGAACGCACAGACCCTGCACGTGACTGGCGCACCGCAGATGCGCGATGACCTCATCACCGCCACGCTGGCCGAGGCGTGGTTCGACACCGCGCGCAGCGAGCGCATCACGCACCTGGCCGCACGCATCGAACGCCTACGCAGCAAGGCGGCCGATCGCCTCGCCATCGCGCGCCGCGAGCTCGATGAAGCGCTCGCCGGCCATCCGCTCGAAGCGCGGCTGCGTGCGCAGCTGCTGCAACCGCTGGAGCGCGAGTGCGTGGAGCTCGCGCAGGTGTTCAAGCGCGTGCATACCCGGCTGGCGTTGTTCGCGCCGGCCCGCTCGCAAGCGCAGTTCGAAGACGGGCTCGCACTCCAGCTCGATGACCTGCGCACCGCGCAGGCGACACCCGATGATGAGGACGCGGCCGAGACGCCAACGTTGCCCTTCGGCTACTGGATGAGCGAGGAAAGCTTCAACCGCATCGAGCGCGCCTGCTCGGCCAGCCGCTTGCTGACCAGCATGGGCGACGGCGTGGGCGAGCGGATGGCGGTGTCCTTCGATGCGGTGGCTGCCAGCGCGGCGTATGTCCGTGACGATCTGGCCGCGGTCCTGGCCGATGCCACCCACACCACCGAGCTGGGAGGCGACGATGAGTAG	MNAQTLHVTGAPQMRDDLITATLAEAWFDTARSERITHLAARIERLRSKAADRLAIARRELDEALAGHPLEARLRAQLLQPLERECVELAQVFKRVHTRLALFAPARSQAQFEDGLALQLDDLRTAQATPDDEDAAETPTLPFGYWMSEESFNRIERACSASRLLTSMGDGVGERMAVSFDAVAASAAYVRDDLAAVLADATHTTELGGDDE				NA	NA	NA	NA	NA
BMS020_08840	216			hypothetical protein	ATGACCGGCTCGCACCTGGACGCCCTGGTGGGCAACGACGATGCGGTGATGCACGACCTGTTCAGTGCGACCCGCGTGCTGCTGCGCATCTACGAAATGTCGATGACCGATCTGTTCCGGCTGGTCGACACGCTCGAACAGCGCCGCGGCCCGTTGGAGGCGCTGTCGGTGGGTGAGCTGCTGGCGATGGTCGGCAGCGTGGAGGTGCATGCATGA	MTGSHLDALVGNDDAVMHDLFSATRVLLRIYEMSMTDLFRLVDTLEQRRGPLEALSVGELLAMVGSVEVHA				NA	NA	NA	NA	NA
BMS020_08841	210			hypothetical protein	ATGTCCCACGACACTCGCGTTGCGCCGTCGCGCTTCAGCATCTGCATTGCCCATCATTTCGGCCAGATCGCCGACACCCTCGATTGGAATCACACGCGCTGGTTGGCGCTGGACGTTCACCTGCAGGCGGCCGGCAAGGCGGCCGAGGCACTGACGCTGGCCGAGATCGAGCGCGCCATTGCGGCCGCCGCGCAGGAGGCCGCTCGATGA	MSHDTRVAPSRFSICIAHHFGQIADTLDWNHTRWLALDVHLQAAGKAAEALTLAEIERAIAAAAQEAAR				NA	NA	NA	NA	NA
BMS020_08843	276			hypothetical protein	ATGACCTCCACCAAAGTTTTCCTGCGCTGCCCGCATTGCGATGCGCCAGCGATGGTGCGCACCAGCGTGCTGCACAACAAGCTGCTGCGCGAGTCGATGCTTCAGTGCCGCAATGCGATGTGCGGTCATACGTTCTCGGCCTACACCGAAATCGTCCGCACCATCTCGCCCAGCGCCTGCCCGAACAACGCCATCAGCCTGCCGATGAGTACCGCGGCCGAGAGGGCGGCCTTCATCGCAAGGCAAGCCGAGCAGCACGAAGGGAAGGGTGCGTGA	MTSTKVFLRCPHCDAPAMVRTSVLHNKLLRESMLQCRNAMCGHTFSAYTEIVRTISPSACPNNAISLPMSTAAERAAFIARQAEQHEGKGA				NA	NA	NA	NA	NA
BMS020_08844	198			hypothetical protein	ATGAACGACCTCATCCACCTGACCATTTCCGGCAAGCGCTTCGCGTTGACCCGCGCCGAAGCCGAGTTCATCGCCGAACATCTGCGCACCGCCGTCGCGCAACCCAACCTTGGCCTGCACTTCACCCACCGTCGCACCGAGACGGCCGGTGAGATCGTGCTGGCGCGCGGCGCAGCCGCTCACCTGACCGACTGCTGA	MNDLIHLTISGKRFALTRAEAEFIAEHLRTAVAQPNLGLHFTHRRTETAGEIVLARGAAAHLTDC				NA	NA	NA	NA	NA
BMS020_08845	279			hypothetical protein	ATGACGCGCCCGTTGACGACGACGGCCGTACCCGATCCCGACGCCATGTCTGCTCCAACCCACCCAGCCGCCGCGCGCGTCGAGCGCTTCCTGCGCAAGCCCGAAGTGCTCAGCCGCACCGGCATCTCCCGCTCCCACCTGTACTGGCTGATGGATCGCGGCCGCTTCCCGAAGTCGATCCCTCTGTCTCCACGCGTCGCGGTCTGGCTCGAGTCGGACGTAGACGCATGGATCACCGCCCACATCCCCGCCACCCATTCGCGAGTGCCGCAGCCATGA	MTRPLTTTAVPDPDAMSAPTHPAAARVERFLRKPEVLSRTGISRSHLYWLMDRGRFPKSIPLSPRVAVWLESDVDAWITAHIPATHSRVPQP				NA	NA	NA	NA	NA
BMS020_08846	1191	intA_3	COG0582	Prophage integrase IntA	ATGCCTTTGACTGATACCGCTATTCGCAAAGCGAAGCCGTCCGCAGCTGTGCAGAAGCTTCGTGATGGTGGCGGTCTCTATCTGCTGCTTCGTCCAGATGGCGCCAGGTGGTGGCGTTGGGATTACCGTCGCCCTGTGACCAGCAAGCGCAACACGCTTTCGCTTGGTACCTACCCTGAGATCAGTTTGGCCGTTGCTCGCGAGCGACACGCTGCGGCGCGCAAGTTGCTGGCCGAGGGCATTGATCCGGGCGAGCAGCGCAAAGCCGAAAAAACAGCGACGTTGGAGCGCGCATCCAACACGTTCGAGGCGGTGGCCACTGAGCATCTGGCCATGCGTGCCGACAAGTTGGTTCCCGGCTCAGTCACGCGCGAACGACGGTTGATCGAGCGCGACCTTGGTCCCTACATCGGAAGCTATCCGGTCGACGCGATTCCTGTACGTGAACTATTGGCAGCGCTTCGTCGGATCGAAGCCCGCGGCGCAGTGGAAACGGCTCATCGCGCCAGAATGCTGGCCGCGCAGGTCTTTCGCTATGCGATCGCGACCGGGCGTGCTGAGCGCAATCCCGCTGAAGACTTGCGAGGTGCACTCAAGCCGGCAGAGGGGCGGCACTTCGCCAGCCTGACTGAACCAAAGCGAGTGGGTGAGTTGCTGCGTGATCTGCACGGCTACCGCGGGTCGCCCGTCGTGATGGGTGCGCTTCGATTGGCTCCGCTGGTATTCGTGCGGCCTGGCGAGCTGCGCTCAGCACGTTGGCAGGACATTGATTTCGATGCGAGCGAGTGGCGATTCGTCGCGACGAAAACCAAGCAAGCTCACATCGTCCCGTTGGCATCGCAGGCGGTCGCCCTGTTGCGCGAGCTGCAGCCGCTGACTGGTCGCGGCGTGCATGTCTTTCCCAGTGTGCGAGGCAAAGGCCGCCCGATGAGCGAGAACACCGTCAACGCGGCGCTGCGTCGGCTGGGCTACGACTCGCACACCATGACCGGCCACGGCTTCCGCGCGATGGCCCGCACGGTCCTCGATGAGGTGCTGGGCTTCCGCCCCGACTACATCGAACACCAGCTCGCCCACGCGGTCCGAGATCCAAACGGACGCGCATACAACCGGACCGCGCACCTGGTCGAACGGCGCAAGATGATGCAGGCATGGGCTAACTATCTGGATGGTCTTAGGGCCTCTGCCTGA	MPLTDTAIRKAKPSAAVQKLRDGGGLYLLLRPDGARWWRWDYRRPVTSKRNTLSLGTYPEISLAVARERHAAARKLLAEGIDPGEQRKAEKTATLERASNTFEAVATEHLAMRADKLVPGSVTRERRLIERDLGPYIGSYPVDAIPVRELLAALRRIEARGAVETAHRARMLAAQVFRYAIATGRAERNPAEDLRGALKPAEGRHFASLTEPKRVGELLRDLHGYRGSPVVMGALRLAPLVFVRPGELRSARWQDIDFDASEWRFVATKTKQAHIVPLASQAVALLRELQPLTGRGVHVFPSVRGKGRPMSENTVNAALRRLGYDSHTMTGHGFRAMARTVLDEVLGFRPDYIEHQLAHAVRDPNGRAYNRTAHLVERRKMMQAWANYLDGLRASA				NA	NA	NA	NA	NA
BMS020_08848	1869	rpoD_2	COG0568	RNA polymerase sigma factor RpoD	ATGGCCAACGAACGTCCTGCCCAGCAATCCGAAATCAAGCAACTGATCAGCAAGGGCCTGGAACAGGGCTACCTGACCTATGCCGAGGTCAACGACCACCTGCCGGACGACCTGGTCGACCCGGAGCAGATCGAAGACATCATCGGCATGATCAACGGCATGGGCATCGATGTCCATGAAGTCGCCCCCGACGCCGAGACCCTGCTGCTCAACGACGGCAACACCGGCAACCGCGAGGTCGACGACACCGCCGCCGAGGAAGCCGCTGCCGCGCTGAGCGCGCTCGACACCGAAGGTGGCCGCACCACCGACCCGGTGCGCATGTACATGCGCGAAATGGGCACCGTCGAGCTGCTGACCCGCGAAGGCGAAATCGCCATCGCCAAACGCATCGAGGAAGGCCTGGGCCAGATGCAGGCGGCGCTGGGCACGTTCCCGAGCGCGGTCGAGTCGCTGCTGGCCGATTACGAAGAGCACAAGCAGGGCCGCAAGCGCCTGGCCGAGGTGATCGTCGGCTTCAACGACCTGGTCGACGAGGAGCCGGCGCCGGCCGCGGCGTCCGACGACAGCGGCAGCGATGCCGATGGCGATGCCGACAGCGACGATGACGATGGTGACGACAGCGACGGTGCCGAGGAAGAAGCCGCGCCGACCGGTCCGGACCCGGCCGAAGTGGCCGTGCGCATGGAGTCGCTGGCCGCCGAGCTGGGCAAGTTCAAGAAGGCCTTCGCCAAGCACGGTGCCGATCACAAGACCGTGGCCAAGGCCCGCGAGGACCTGGCGGCGGTGTTCGTCACCCTGAAGCTGCCGCTGCCGCTGACCGACGTGCTGGTCAACCAGCTGCGCGCCGTGGTCAACGAGATCAAGGAGCGCGAGCGCAAGGTGCTGCACCTGGCGACCGTGACCGCGCGCATGCCGCGCAAGGACTTCATCCGCTCCTGGGAAGGCAACCAGACCAACCTGGAATGGGTCGAGGACGCGCTCAAGCGCAAGCAGAAGTGGTCGTCGGCACTGCGTGACGTCAAGGACCAGATCATCGCCGAGCAGGAAGCCACCATCGAGCTGGAGAAGATCCAGTCGCTGAGCCTGACCGAGATCAAGGAGATCAACCGGGCGATGGCCTATGGCGAAGCCAAGGCGCGCAAGGCCAAGAAGGAGATGGTCGAGGCCAACCTGCGCCTGGTGATCTCCATCGCCAAGAAGTACACCAACCGCGGCCTGCAGTTCCTCGACCTGATCCAGGAAGGCAACATCGGCCTGATGAAGGCCGTGGACAAGTTCGAGTACCGCCGCGGCTACAAGTTCTCGACCTACGCCACCTGGTGGATCCGCCAGGCGATCACCCGCTCGATCGCCGACCAGGCGCGCACCATCCGCATCCCGGTGCACATGATCGAGACGATCAACAAGTTGAACCGCATTTCCCGTCAGATGCTCCAGCAGTTCGGCCGCGAGGCCACGCCGGAGGAGCTGGCCAAGGAAATGGACATGCCCGAGGACAAGATCCGCAAGGTGATGAAGATCGCCAAGGAGCCGATCTCGATGGAGACCCCGATCGGCGACGACGAGGACTCGCATCTGGGCGACTTCATCGAGGACACCAACGTGGAGTCCCCGATCGACGCGACCACCAACACCAACCTGATGGAGACGGTGCGCGACGTCCTGGCCGGCCTGACCCCGAGGGAAGCCAAGGTGCTGCGCATGCGCTTCGGCATCGACATGAACACCGACCACACCCTCGAGGAAGTCGGCAAGCAGTTCGACGTCACCCGCGAGCGCATCCGCCAGATAGAAGCCAAGGCGCTGCGCAAGCTGCGCCACCCGAGCCGCTCCGAGCAGCTGCGTTCGTTCCTCGACATCGACTGA	MANERPAQQSEIKQLISKGLEQGYLTYAEVNDHLPDDLVDPEQIEDIIGMINGMGIDVHEVAPDAETLLLNDGNTGNREVDDTAAEEAAAALSALDTEGGRTTDPVRMYMREMGTVELLTREGEIAIAKRIEEGLGQMQAALGTFPSAVESLLADYEEHKQGRKRLAEVIVGFNDLVDEEPAPAAASDDSGSDADGDADSDDDDGDDSDGAEEEAAPTGPDPAEVAVRMESLAAELGKFKKAFAKHGADHKTVAKAREDLAAVFVTLKLPLPLTDVLVNQLRAVVNEIKERERKVLHLATVTARMPRKDFIRSWEGNQTNLEWVEDALKRKQKWSSALRDVKDQIIAEQEATIELEKIQSLSLTEIKEINRAMAYGEAKARKAKKEMVEANLRLVISIAKKYTNRGLQFLDLIQEGNIGLMKAVDKFEYRRGYKFSTYATWWIRQAITRSIADQARTIRIPVHMIETINKLNRISRQMLQQFGREATPEELAKEMDMPEDKIRKVMKIAKEPISMETPIGDDEDSHLGDFIEDTNVESPIDATTNTNLMETVRDVLAGLTPREAKVLRMRFGIDMNTDHTLEEVGKQFDVTRERIRQIEAKALRKLRHPSRSEQLRSFLDID				NA	NA	NA	NA	NA
BMS020_08849	441	dtd_2	COG1490	D-aminoacyl-tRNA deacylase	GTGCTTGCATTGATCCAGCGGGTGACGCAGGCCGCGGTCGAGGTCGATGGCGAGGTGGTCGGGCGGATCGGTCCCGGGCTGCTGGCGCTGGTCGGCTGCGAGCCCGGTGACGACCCGGCGCGCATCCGCCGGCTTGCGCAGCGCGTGCTCGGATACCGCGTTTTCGCCGACGATGCCGGCAAAATGAATCGCTCGCTGGCCGACATCGGCGGTGGTCTGCTGCTGGTCAGCCAGTTCACCCTAGCCGCCGACACCGGGTCGGGCATGCGGCCGGGCTTCAGTACCGCCGCGCCGCCGGCCGAGGCTGAACGTACGTTCAATCAATTGGTGGCGATCTGCCGCGAACTTCACCCGCCAGGGGTGGAAACCGGGCGATTCGGCGCCCACATGGTGGTCAACCTGGTCAACGATGGCCCGGTCACCTTCCTGCTCAGGCCCTAA	MLALIQRVTQAAVEVDGEVVGRIGPGLLALVGCEPGDDPARIRRLAQRVLGYRVFADDAGKMNRSLADIGGGLLLVSQFTLAADTGSGMRPGFSTAAPPAEAERTFNQLVAICRELHPPGVETGRFGAHMVVNLVNDGPVTFLLRP				NA	NA	NA	NA	NA
BMS020_08850	918	lpxL_4	COG1560	Lipid A biosynthesis lauroyltransferase	ATGAAGATCGATTTCCGTGCGCGGCTGCTGTACGCCGCGGCCGCCCTGCTCGGCCGGTTGCCCTGGGCGTTGCTCAAGCGCCTGGCCGACCTGCTGGCCTGGGCCTGGCTGACCCTGAACGCCCGCGAGAGCCGGGTCGCCCGGCGCAACCTGGAGCTGGCCTACCCCGAACTCGGTGCGACCGAACGGCAGGCACTGCACCGGCGCATCCTGTATTCCTCGGCCCGCCAGACCCTGGAGATGCTGCGCACCTGGACCCGCCCGGCAGCGACCAACCTGGCCCGGCTCAGCGCGCGCCACGGCCAGGAGCTGTACGACCGCGCCCTGGCCTCCGGCCGCGGGGTCATCGTCGCGGCACCGCATTTCGGCAACTGGGAGCTGCTGAACCAGTGGCTGTCCGAGCGCGGCCCGATCGCGATCGTCTACCGGCCACCGGATTCGGCTGCGGTCGACGGCTTCCTGCAGCTGGCGCGCGGCGCCGACAACGTGCGCCAGGTGCGCGCCGAGGGGCCAGCCGTACGCCAGTTGTTCAAGGTCCTCAAGGACGGCGGCGCGGTCGGCATCCTGCCCGACCAGCAGCCGAAGATGGGCGACGGCGTGTTCGCGCCGTTCTTCGGCATGCCGGCGCTGACGATGACCCTGGTCAACCGGCTGGCCGAGCGTACCGGCGCGATCGTGCTGTACGGCTGGTGCGAGCGCACCGGTCCTGACCTGGAATTCGCCCTGCACGTGGAGCCATCCGCGCCCGGCGTGGCCGACCCCGACCCGGTCGCCGCGGCCACCGCGCTCAATGCCGGACTGGAGCGGATCGCCCGCCGCGACCCCAGCCAGTACCAGTGGACCTACAAGCGCTACACGCTGCGCCCGCCCGGCAGTGGCGAACCCAACCCGTACGCGACCGCCCGCCACCCGCACTGA	MKIDFRARLLYAAAALLGRLPWALLKRLADLLAWAWLTLNARESRVARRNLELAYPELGATERQALHRRILYSSARQTLEMLRTWTRPAATNLARLSARHGQELYDRALASGRGVIVAAPHFGNWELLNQWLSERGPIAIVYRPPDSAAVDGFLQLARGADNVRQVRAEGPAVRQLFKVLKDGGAVGILPDQQPKMGDGVFAPFFGMPALTMTLVNRLAERTGAIVLYGWCERTGPDLEFALHVEPSAPGVADPDPVAAATALNAGLERIARRDPSQYQWTYKRYTLRPPGSGEPNPYATARHPH	PGPT0013315_1886	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0013315-lpxL|htrB-K02517	NA	NA
BMS020_08851	1134	ribA_2		GTP cyclohydrolase-2	ATGGATACCTTCCCCACCCCCACGTCGTCCGCCGCCGCGCTGTTCGGCGATCCCGCCGCGATCCGCAGCGAGCGCGCCGCCTCCGAACTGCGCGCCGGCCGCCCGGTACTGATCACCGATGGCCACGGCCACACCCGGGCGGTGCTGGCCCTGGACAGCAGCACCGAGCGCAGCTACCGCGCCTTCGCCGATGCCGCCGGCCAGCGCCACTACCTGTTCCTGACCCCGACCCGGGCCAGCGTGCTCGGGCTGGATGCCCCGGACGGCGCGCGCATCGCGCTCGACGGGATTTCCTTCGACCAGCTCGCCACCCTGGCGTACCAGCGCGGCGCCAGCGTGCCGGGCAGCTGGCGGCCCGGCGATGCGCTCGATGCCGGCGCCACCGAGGCCGCGCGCCTGGGCCTGCTGCTGCCGGCGATGCTGGCGGTGGAACTGGATGCGGACGCGCAGGCCTTCGACGGCTGCCAGCGGCTGTCGCTGGCCGACCTCGCCAGCGGCTGCGCCCGCGCCGCGGCCAGCAGCTACGAGCTGGTCACGCGCACGCCCGTGCCGCTGCGCGAGATCGGCATGAGCGAATTCGTGGTGTTCCGCGGCGGCGTGGCCCAGCGCGACCAGGTCGCCATCGTGGTCGGCCAGCCCGACCTGGGCCAGCCGGTGCCGGTGCGGGTGCATTCCTCGTGCCTGACCGGCGACCTGTTCGGCTCGCTCAAGTGCGACTGCGGCGACCAGCTGCGCCACGGACTGGCCAAGCTCAAGGAGCTCGGCGGCGGCGTGCTGCTGTACCTGGACCAGGAAGGCCGCGGCACCGGCATCGCCGCCAAGATGCGCGCCTACGGCTACCAGCACGCCGGCCTGGACACCATCGACGCCGACGCCCAGCTCGGCTTCGGCCCGGACGAGCGCCGTTATGGCAGCGCAGTGGCGATGCTGCGCGGCCTGGGCATCGGCCGGATCCGCCTGCTGACCAACAACCCGTCCAAGGTCGAGCGCCTGCGCGCGGCCGGGATCGCGGTGGAGGACCGCATCCCGGTCACCGGGGCGATCACCGCCGAGAACGAGCAGTACCTGCGCACCAAGGCGGCCCGCGCCGGGCATGCGCTGGACGTGGACGCCCTGATCCTCGCCTCGCAGTAG	MDTFPTPTSSAAALFGDPAAIRSERAASELRAGRPVLITDGHGHTRAVLALDSSTERSYRAFADAAGQRHYLFLTPTRASVLGLDAPDGARIALDGISFDQLATLAYQRGASVPGSWRPGDALDAGATEAARLGLLLPAMLAVELDADAQAFDGCQRLSLADLASGCARAAASSYELVTRTPVPLREIGMSEFVVFRGGVAQRDQVAIVVGQPDLGQPVPVRVHSSCLTGDLFGSLKCDCGDQLRHGLAKLKELGGGVLLYLDQEGRGTGIAAKMRAYGYQHAGLDTIDADAQLGFGPDERRYGSAVAMLRGLGIGRIRLLTNNPSKVERLRAAGIAVEDRIPVTGAITAENEQYLRTKAARAGHALDVDALILASQ	PGPT0007985_165	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0007985-ribA-K01497	NA	NA
BMS020_08852	561			hypothetical protein	ATGCTGGTCGCCTCTTCGGCGATCCAGCGGCGTTGCGTGCATCCGACTTCCGATCCGGTTTCCCCTTCGCCTCCGCCGCTCCCTGACACCCCGACCGACTGGCACCAGCTGCCGGCGCGCGGGCGCTGGATCGCGATCGTCGGCGGCGCGGCGACGATGGCCGTCACCGTCGCGCTGGGCTCGATCGCGATGCTGGTGCTGTTCCGCGCCGGGCGCCTGTGGTGGCTGCCGCTGGCCGCCGGCGTGCTTGCGGCGCTGCTCGGCGGCTGGGCCGCCGGCAAGCGCTATCGGCACACCCGCTGGCGCCTGGACGCGCACGGGCTGGCCGTGCAGCGCGGGCGCTGGTGGCAGAGCGAAACCCGCGTGCCGATCACCCGTGTGCAGCACCTGGACCTGCGCCGCGGGCCGATCGAACGCATGGCCGGCCTGACCACGCTGGTGGTGCACACCGCCGGCACCCGGCTCAACGCGGTGGCGATCGGCGGACTGGACCATCACGACGCCGAACGCCTGCGCGATCGCCTGGCACGCCAACTCGACCACGACGACGACGCCCTGTGA	MLVASSAIQRRCVHPTSDPVSPSPPPLPDTPTDWHQLPARGRWIAIVGGAATMAVTVALGSIAMLVLFRAGRLWWLPLAAGVLAALLGGWAAGKRYRHTRWRLDAHGLAVQRGRWWQSETRVPITRVQHLDLRRGPIERMAGLTTLVVHTAGTRLNAVAIGGLDHHDAERLRDRLARQLDHDDDAL				NA	NA	NA	NA	NA
BMS020_08853	3096			hypothetical protein	GTGGCGTTGGCGCTGCTGGTCACCTGGCCGCTGGCGGCGCTGCGCGACAGTGGCAGCCTGGCCGCGGCGCTGGGCCTGAGCGTGGCGGTCAGCGCCGCGGTGCTGGCGCTGTGGCGCACCTGGCCGCTGTGGAGCGGGCTGGAGCGCGAAGGCGGGCACCTGCGCGAGCGCTGGCAGGCGCTGGCGCTGCTGGACCTGCAATCCTGGGCCGGGCTGGGTGCGGCCGCGCTGGTGCTGGTCGCCTGCGCCGCCGGCGTGGCGCTGGCCTGGCCGGGGCTGCTGGGCCCGGCCGCCCACTGGAGCCTGGCCGTGCTCGCCGCGCTTGGCGGGCTGCCGCTGCACCTGCTGCTGCAGCGCCTGGTCGCCGCGCCGCTGGCGGTCGCGCCGGCCGCGCCGCAGGTGCAGGCACACGAGCTGTTCGCCGAGGCCGCGGCCGACCCGCGTCCGCTGGAACCGCTGGATACCGACCGGCTGCTGCCGGAGCTGTACGAGGCGGCCCGCGCCGGCCGCGTCGACCGCGCGCTGCAGCTGCTCGAGGCCGGCGCCGATCCGCATGCGCTGCCGCCGGCCGAAGCGCGCGACCAGCGCACCCTGGCGGTGCTGGCCGCGGTGCTGCCCGACCTGCGCCTGCTGCGCGAGCTGATCGTGCGCCGGGTCGACGTCAACACCTCCCACCGCGGCATGACCCCGCTGCTGGCCGCGACCCGCGACAGCTGGCACGGCCGCCCGGACGCGGTGATGACCCTGCTGGCCAACGGCGCCGACCCGCGCGCCGTTGACAGCGACGGCAATACCCCGCTGCACCACGCCACGCGCAGTTCCGACCCGGGCGTGGCCGCGCTGCTGCGCGATGCCGCCGCCGAGCTGGATGCGCTCAACCACGACGGCTTCTCGCCGCTGGCCAGCGCCTGCCAGGCCGGCAACTGGCGCCTGGCCAAGTTCCTGCTCGAGCGCGGCGCGCGCCCGGAACCGGAAGGCGGCGCGCCGGTGCTGCTGGCCGCGGCCGGCACCGAAGAGGACGATCCGGCCGGCGTGCAGCTGCTGCTCAAGCACAAGGCCCGCGTCGACGCGCGCGACCGCCAGCGCCGCAGCGCGCTGCACGAGGCCGCACAGGCCGGCCACGGCGAGATCGTCGAGGCGCTGCTGGCCGCCGGCGCCAACCTGGAGGCGCGCGACGTGCTGGCGCGCACGCCGTTCCTGGACGCGGCCCGCCACGGGCGCGGCGCGGTGATGGAACAGCTGCTGGCGCGCAAGGCCGATTTCACCGCGGTCGACGGCGATGGCCGCAACGCGGTGCTGCTGGCCTGCGCCGCCGATACCGTGTCGCCGGCGCTGGTGCAGCGCCTGCTCGACCTGGGCATCCCCGCCGACCTGCCCGACCACGCCGGTCGCCGCGCGGTCGACCTGGCCGCCGAGGCCGGGCGCTGGGCGGTGGTCAGCCTGCTCGATCCGGACTACCCGCTGCCGGTCGCGGTCAGCGACCGCGGCCAGGACGGCGAGGCGGCCAGCGAGCCGCGCGCGCTGCCCGACCGGCCGCCGCTGGTGCTGCTGCGCGAAGGCCTGCAGCTCGGCCAGCGCGACGGCCTGGCGGCGCTGGCGCGGCTGTGCGACCCGCAGGAGATGGGCCAGCTGCTGCACGATGCGCACCTGGCGCTGAATGCCGAGGCGGTGGAGTGGCTGCTGGCGCACGGCGCCCATCCGGAGCAGCGCGATGCCTGCGGCGACATCCCGCTGTTCGCGCTGCTCTCGCGCGGCGTCGATGCGGTGCCCTCGCTGCAGGCGATGCTGCGCCGCGGCCTGTCGCCGGCCGGTGCCGGCGGCCTGGCCCGCTTCCTGGCTGCCTGCGTACAGCACGATGCCGCCTCGCGCGGGCTGGAACAGTTCGCGCTGGAGCTGATCGAGCGCGGCGCCGACCCGTTCGCGCCGTCGCCGGCCGGCGATCCGCCGCTGTCGCTGGCGGTGCGGCTGGGCTGGCTGCGCCTGCAGCAGCGCCTGCTCGAGCGCGGCGCCGACCGCGAGGCGCGCGACAGCCACGGCATGACCGCGCTGCACCTGGCCACCGCGCTCGGTCGCGAGGCCTCGTTGAAGCTGCTGGTGATGCAGGGGGCCTCGCCCGAGGCGCGCGCCGCCGACGGCCAGACCCCGCTTGGCGTGGCGCTGTCGATCGGTCGCCGCGACCTGGCCGACTGGCTCGACTGGCGGGTCTGGTCGCTGCCGCGGCGCACGCTGCGCGAGGCCGACGTGCCGGCCGCGGCGATGAGCGGCGACGCCGACGCGGTGCGCCGGCTGATCGACCTCGGCCTGCCGGTCGATGCGGTCGACGCGCAGGGCTGCACCGCGCTGCTGCGCGCCGCCGGTGGCGGCCACGCCGCGGTGGTCGACCTGCTGCTGGCGCGCGGCGCCGATCCGCAGCACGCCGCCAACAGTGGCGCCACGCCGTTGTCGGCGGCGGTGAGCATGCGCCAGGCCGGCATCGTCGCCGCGCTGCTCGACGCCGGCGCCAAGATCGAACACCGCCTCCCCGGCGGCGTCACCGTGCTGATGCTGGCCTGCGCGCTGGGCCTGCCGGACATCGTCGCGCGGCTGCTCGCCGCCGGCGCCGACGTGCACGCCAGCGACGCGCAGGAGCTGACCCCGCTGCACTGCGCAGCGCTGTACGGCTTTACCGCGCGCGACAAGACCCGCCTGCTGGCGCTGCTGGACACGCTGCTGCTGGCCGGGGCCGACCCGGAAGGCGCGGCCGGCAAGGTCAGCCCGCTGCTGCTGCTGCTGGGCGCGCGCGCCGAGCCGGGCACCGCCTGCGACGAAAACGTGGTGCTGGCCGGGGTGGAACGCCTGCTCGACGAGGACGTGGCGCTGGACGTGGCCGATCCGCGCGGCTTCGGCCCGCTGCACCTGGCCGCGCTGCACGGCCTGCCGCTGCTGGTGCAGCGCCTGCTGCGCGCCGGCGCCGATCCGCAGCGCCGCGATGCGATCAACCGCAGCCCGCGCGAGATCGCGATCATGCGCGGCTTCATCGACGTGGCCGGCCAGTTCGAACCGCCGCAGCCGGGCGTGGCCTCGATGGCGCGGTTCCTACGCGGCGAGGGCGGTTAG	MALALLVTWPLAALRDSGSLAAALGLSVAVSAAVLALWRTWPLWSGLEREGGHLRERWQALALLDLQSWAGLGAAALVLVACAAGVALAWPGLLGPAAHWSLAVLAALGGLPLHLLLQRLVAAPLAVAPAAPQVQAHELFAEAAADPRPLEPLDTDRLLPELYEAARAGRVDRALQLLEAGADPHALPPAEARDQRTLAVLAAVLPDLRLLRELIVRRVDVNTSHRGMTPLLAATRDSWHGRPDAVMTLLANGADPRAVDSDGNTPLHHATRSSDPGVAALLRDAAAELDALNHDGFSPLASACQAGNWRLAKFLLERGARPEPEGGAPVLLAAAGTEEDDPAGVQLLLKHKARVDARDRQRRSALHEAAQAGHGEIVEALLAAGANLEARDVLARTPFLDAARHGRGAVMEQLLARKADFTAVDGDGRNAVLLACAADTVSPALVQRLLDLGIPADLPDHAGRRAVDLAAEAGRWAVVSLLDPDYPLPVAVSDRGQDGEAASEPRALPDRPPLVLLREGLQLGQRDGLAALARLCDPQEMGQLLHDAHLALNAEAVEWLLAHGAHPEQRDACGDIPLFALLSRGVDAVPSLQAMLRRGLSPAGAGGLARFLAACVQHDAASRGLEQFALELIERGADPFAPSPAGDPPLSLAVRLGWLRLQQRLLERGADREARDSHGMTALHLATALGREASLKLLVMQGASPEARAADGQTPLGVALSIGRRDLADWLDWRVWSLPRRTLREADVPAAAMSGDADAVRRLIDLGLPVDAVDAQGCTALLRAAGGGHAAVVDLLLARGADPQHAANSGATPLSAAVSMRQAGIVAALLDAGAKIEHRLPGGVTVLMLACALGLPDIVARLLAAGADVHASDAQELTPLHCAALYGFTARDKTRLLALLDTLLLAGADPEGAAGKVSPLLLLLGARAEPGTACDENVVLAGVERLLDEDVALDVADPRGFGPLHLAALHGLPLLVQRLLRAGADPQRRDAINRSPREIAIMRGFIDVAGQFEPPQPGVASMARFLRGEGG				NA	NA	NA	NA	NA
BMS020_08854	1788		COG3387	Trehalase	ATGGCAGCGCGTATCGAAGACCACGCCATGCTCGGCAACTGCCGCAGCGCCGCGCTGGTGGACCGCGACGGCACCATCGACTGGCTGTGCCTGCCGCGCTTCGATTCCGACGCGGTGTTCGCCGCGCTGCTCGGCAGCGAGGAGCATGGCTGCTGGGCGCTGGCGCCGACCGCCGACTACCGCAGCGAGCGCCGCTACCGCGATGGCAGCCTGGTGCTGGAGACCCGCTTCGACACCGCCACCGGCAGCGTCGAACTGCTGGACTTCATGGTCAGCGACGACGATGAGGAGATCCACAGCCACCTGGTGCGGATCGTGCGCTGCACGCGCGGGCGGGTGGCGCTGCGCACGCGCCTGCTGCTGCGCTTCGAATACGGCCGCGCAGTGCCCTGGGTCACCCAGATCGACGGCGGCATCCAGGCGGTCTGCGGACCGGACCGGTTGACCCTGCGCACGCCACTGGCGCTGCAGGGCCACGATCTGGCCACCGAGACCGAATTCACTCTGGAGCAGGGCGGACAGACCTGGTTCGTGCTCGGCCACGGCATCTCCCACCATCCGTTGCCGCCGCCGCTGGATCCGCTGGCGGCGCTGACGCGCACCGAGGCGTTCTGGCGCGACTGGTCCGGCGCCTGCACCCACACCGGGCCGTGGGGCGAGCAGGTCAAGCGCTCGCTGGTGGTGCTCAAGGGGCTGAGCTACCTGCCGACCGGCGCGATCGTCGCCGCGCCGACCACCTCGCTGCCCGAGCAATGGCGCGGCAGCCGTAACTGGGACTACCGCTACTGCTGGCTGCGCGATTCGGTGTTCACCCTGGTCGCGCTGCTGACCGCCGGCTACCGCGAGGAAGCCGAGGCGTTCCGCGACTGGCTGCGGCGTACCGTGGCCGGCTCGCCCGAACAGCTGCAGGCGCTGTACGGCGTCGGCGGCGAGCGCCGGCTGCTGGAGTGGGAGGTGCCGTGGCTGCCCGGCTACGACGGTGCCGCGCCGGTGCGCGTGGGCAATGCCGCGTCCGCGCAGTTCCAGCTGGATGTCTATGGCGAGCTGATCGGCGCCTTCCACTACGCCCACCTCAAGGGCGTGCCGCCGCCGGAATGGGGCAGCGCATTGCTGGCGGTGTACCTGGAGCAGCTGGAGCAGCGCTGGCAGGAGCCGGACGAGGGCATCTGGGAGATCCGCGATGCGCGCCGCCACTTCGTCCATTCCAAGGTGATGGCGTGGCTGGCGTTCGACTGCGGCGCGCGCGATGGCTTCGGCGATGCCAGCGATGCGCAGCGTGCCCACTGGCGCGCGCTGGCTGACCGCATCCATGCCGAGGTGCTCGAACGCGGCGTGCATCCGGACGGCCACTTCGTGCAGAGCTACGGTTCGGAGCGGCTGGATGCGGCCTGTCTGCTGATCCCGCTGGTCGGCTTCCTGCCGCCGCACGACCCGCGCGTGGCCGCCACCGCCGACATCATCGCCCGCGAGCTGAGCGTGGACGGGCTGGTCGAGCGCTACCGCGCCGACGATGCCGCCGACGGCTTGCCGCCGGGCGAGGGCGTGTTCATCGCCTGCAGCTTCTGGCTGGTGGACAACTACGCACTGCTCGGCCGCCACGCGCAGGCGCGCGCGCTGTTCGAACGCCTGCTCGGGCTGTGCAACGACGTCGGCCTGCTGGCCGAGGAGTACGACCCGCGCAGCGGGCGCATGCTGGGCAATTTTCCGCAGGGTTACTCGCACGTGGCGCTGGTCAACAGCGCGCTGCGCCTGCACGGGCTTTCCGGCGAAGAGGAAACGCATCCATGA	MAARIEDHAMLGNCRSAALVDRDGTIDWLCLPRFDSDAVFAALLGSEEHGCWALAPTADYRSERRYRDGSLVLETRFDTATGSVELLDFMVSDDDEEIHSHLVRIVRCTRGRVALRTRLLLRFEYGRAVPWVTQIDGGIQAVCGPDRLTLRTPLALQGHDLATETEFTLEQGGQTWFVLGHGISHHPLPPPLDPLAALTRTEAFWRDWSGACTHTGPWGEQVKRSLVVLKGLSYLPTGAIVAAPTTSLPEQWRGSRNWDYRYCWLRDSVFTLVALLTAGYREEAEAFRDWLRRTVAGSPEQLQALYGVGGERRLLEWEVPWLPGYDGAAPVRVGNAASAQFQLDVYGELIGAFHYAHLKGVPPPEWGSALLAVYLEQLEQRWQEPDEGIWEIRDARRHFVHSKVMAWLAFDCGARDGFGDASDAQRAHWRALADRIHAEVLERGVHPDGHFVQSYGSERLDAACLLIPLVGFLPPHDPRVAATADIIARELSVDGLVERYRADDAADGLPPGEGVFIACSFWLVDNYALLGRHAQARALFERLLGLCNDVGLLAEEYDPRSGRMLGNFPQGYSHVALVNSALRLHGLSGEEETHP	PGPT0018651_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES	PLANT_DEGRADATIVE_GS|GH-GLUCOAMYLASE_LIKE,PGPT0018651-glucoamylase_like-NA	NA	NA
BMS020_08855	1752	zwf_3	COG0364	Glucose-6-phosphate 1-dehydrogenase	ATGAGCGATCGCGACACGCATTCGGTCCCGCCCTGCATCATCGTGGTGTTCGGCGCGCGCGGCGACCTGACCCGGCGGCTGGTACTGCCGGCGCTGTACAACCTGCGCCGCGCCGGCGCGCTTGGCGATGACTTTGCCATCGTCGGCGTCGACCATGGCGACATCAGCGAGCGCGCCTGGCGCGCCAACACCGGCCGCGCGATGCGCGAGCTGATGCAGGCGCGCGATGCCGAGTTCCAGAGCGATGGTTTCGACGAACAGGCCTGGGCGTGGCTGCGCGAACGCATGCACTACCTGCGCGGCGACTTCACCGACCTGGGCGCGTACGAGTCGCTCGGCGCGCTGCTGGAGCGCCTGCATCCGCGCTATGGCACCGGCGGCAACGTGCTGTTCTACCTGGCCACCGCGGCGCGCTTCTTCGAGCCGGCGCTGCGCAACCTCGGCGCCGCCGGGCTGGTGAAGCAGCGCGAGGGCGGCGGCTGGCGGCGGGTCATCGTGGAAAAGCCGTTCGGCCACGATGTGGCGAGCGCGCGCCGCCTGAACGAGATCGTCGCGCGCGTGCTGGACGAGGACCAGGTGTTCCGCATCGACCATTTCCTCGGCAAGGAGACGGTGCAGAACATCCTCGCGTTCCGGTTCGCCAACGGCCTGTTCGAGCCGGTGTGGAACCGCGACCGCATCGACCACATCCAGATCACCGCCGCCGAGACCATCGGCGTGGAGGGGCGCGGACGCTTCTACGATCCCACCGGTTGCCTGCGCGACATGGTGCCCAACCACCTGTTCCAGCTGCTGGCGATGATCGCGATGGAACCGCCGGTGGCCTTCACCACCGAGGCGATGCACCGCCGCCGCGCCGAGGTGATCGAGGCGGTGCGGCCGCTGACCCCGGCCGACGTGGTGCGTGGCCAGTACGCCGCCGGCGCGATCGACCGCACCGCGGTGCCCGGCTACCGCGAGGAGGACACGGTGCCGGACGAGTCCAACACCGAGACCTACGTGGCGATGAAGCTGCAGGTCGATACCTGGCGCTGGGCCGGCGTGCCGTTCTACCTGCGCACCGGCAAGCGCCTGCGCGAGCGCACCACCGAGATCGCGATCCGCTTCAAGCCGGCACCGCTGGCGCCGTTCCGCAGCACCGAAGTCGGTGGTTACGGCCCGGACTGGCTGGTGCTGCACATCCAGCCCGACGAGGGCATCTCGCTGCAGTTCGACGTCAAGCGGCCCGGCCCGCAGGTGGCGCTGGCGCCGGTGCGAATGGACTTCCGCTACCGCGACTGGTTCCCCAAGCAGTACACGGTGGGCTACGAGCAGTTGCTGCGCGACTGCATGAACGGTGAGTCCGGGCTGTTCCAGGATGCGGCGATGGTGGAGGCGGCGTGGCGCATCGTGCAGCCGATCCTGGACGCCTGGCAGCAGGCGCCCACCGACTTTCCCAACTATCCGGCCGGCAGCGCCGGTCCGGCCGCGGCCGACGCGCTGCTGGCGCTCAACGGCGGCCATGCCTGGCGCACGCTGACCGCTGGCCGCAAGCCGCCGCCGCGGCGCGGCGTGGATGCGGCCGCAGGCACCGGGACGGCGGGCAGGAAGAGCGCGAAGAAGGCCGCGGCCACGACCGCGCGGCGCGTGCCGAAGACGCCGGCGAAGCGCGTTGCCAAGCGCGCGGTGAAGAAGGTCGCGGCGCGGACTCCGAAAGCCGCTGCCAAGGCCAAGGCACCGCGCGTCGCGCAGCGGCCCGCGCGCAAGCGCTGA	MSDRDTHSVPPCIIVVFGARGDLTRRLVLPALYNLRRAGALGDDFAIVGVDHGDISERAWRANTGRAMRELMQARDAEFQSDGFDEQAWAWLRERMHYLRGDFTDLGAYESLGALLERLHPRYGTGGNVLFYLATAARFFEPALRNLGAAGLVKQREGGGWRRVIVEKPFGHDVASARRLNEIVARVLDEDQVFRIDHFLGKETVQNILAFRFANGLFEPVWNRDRIDHIQITAAETIGVEGRGRFYDPTGCLRDMVPNHLFQLLAMIAMEPPVAFTTEAMHRRRAEVIEAVRPLTPADVVRGQYAAGAIDRTAVPGYREEDTVPDESNTETYVAMKLQVDTWRWAGVPFYLRTGKRLRERTTEIAIRFKPAPLAPFRSTEVGGYGPDWLVLHIQPDEGISLQFDVKRPGPQVALAPVRMDFRYRDWFPKQYTVGYEQLLRDCMNGESGLFQDAAMVEAAWRIVQPILDAWQQAPTDFPNYPAGSAGPAAADALLALNGGHAWRTLTAGRKPPPRRGVDAAAGTGTAGRKSAKKAAATTARRVPKTPAKRVAKRAVKKVAARTPKAAAKAKAPRVAQRPARKR	PGPT0017380_136	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036	NA	NA
BMS020_08856	1827	kefC_4	COG0475	Glutathione-regulated potassium-efflux system protein KefC	ATGCATAGCGGTGGTCTGGAACTGGCCCTGGTCCTGATGCTGGCGGCGATCGTCGCCGTGCCGGTGTTCAAGAAGTTCGGCCTCGGCGCGGTGCTGGCCTACCTGATCGCCGGCGTGGTGCTGGGCCCGGATGGACTGGGCTTCGTGCAGGACGCCGACCGCATCCTCGGCGCAGCCGAGATCGGCGTGGTGATGCTGCTGTTCGTGATCGGCCTGGAGCTGTCGCCGGCGCGGCTGAAGCTGATGAAGCGCTCGGTGTTCGGCGCCGGCACGCTACAGGTGGTGATGACCGCACTGGTGCTGGGCGCGCTGCTGATGGCCGACCATGTGGGCTGGAAGAGCGCGCTGGTGATCGGCCTGGCGCTGGCGCTGTCGTCCACCGCGGTGGGGCTGCAGGTGCTGGCCGAGCGCAAGGCGCTCAACAGCGACTACGGCCGGCTGGCGTTCGCGATCCTGCTGTTCCAGGACCTGATCGCGATCCCGCTGCTGGCGGCGATCCCGCTGCTCGGCGGCGCCAAGAACGATGCGCTGGAATGGCAGGACGTGGGCAAGGCGCTGGCGGCACTGGCGCTGGTGATCCTGTGCGGGCGCTTCGTGCTGCGCCACCTGTTCCGCATCGTGGCGCGCACGCGCATGCCGGAGGTCTTCACCGCCAGCGCGCTGCTGGTGGTGCTGGGCACCGCCTGGTTCATGCAGGAAGCCGGGCTCAGCCCCAGCCTGGGCGCGTTCCTGGCCGGCGTGCTGCTGTCCGATTCGGAGTTCCGCCACGAGCTGGAGTCGCAGATCGAGCCGTTCGAAGGCCTGTTGATGGGCCTGTTCTTCATCTCCGTCGGCATGGGCATCGACCTGGAGCGCATCGCCCGCGAGCCGGGGCTGATCGCCGCCGGGGTCGGCCTGCTGCTGGTGGTGAAGTTCGCGCTGCTGGTCGGCATCGGCCGGCTCGCCAAGCTGCCGCTGCGCAGCTGCCTGATGCTGGGCAGCGTGCTGTGGCTGGGCGGCGAATTCGCCTTCGTGGTGTTCAACGAGGCGCACCGCGTGCGCCTGCTCAGCGCCGCCAACCACGACCGCCTGGTCGCCATCGTCGGCGTGTCGATGGCGTTGACGCCGGTGCTGCTGCTGGCGATGCAGCGGCTGCTGACCGGGGCGCTGCGGCCGCAGCCGACACGCGAGGAAAAGCCCTTCGATGCGATCGAAGTGCAGGCGCCGGAGGTGCTGATCGCCGGCATGGGCCGCTTCGGCCAGATCGTCGCGCGCCTGCTGACCGCGCAACGCATCCCGTTCGTAGCGCTGGAGAACAACCCGGACACGGTCGAGGACCTGCGCCGCTTCGGCGCCCAGCTCTATTACGGCGATCCGACCCGCCCCGACCTGCTGCGCGCGGCCGGCGCCGAACGCATCCGCGTGTTCGTGGTGGCGATGGACGACCCGGAGACCAACATCAAGGCGGTGCGGCTGATCCGCCGGATGTACCCGCAGGCCAAGGTGCTGGCGCGCGCGCGCAACCGCCAGCACGCCTGGAAGCTGATGGACCTGGGCACCGAGCCGTTCCGCGAACTGCTCGGCTCCAGCCTGGAACTGAGCGAGCACCTGCTGGTGGCGCTGGGCATCGACGGCGCGCTGGCGCGCGAGCGCGTGGCCCGGTTCCGCCACCACGACGAAGACCTGCTGCGCCGCCAGTACCTGATCTACGACGACGAGGCCGCGCTGATCCAGACCTCGCGCGAGGCCCGCACCGACCTGATGGGGCTGTTCCAGGCCGACGTCGAGGCCGAGGCCGAAGACAGCGCCAAGCCGGCCAACAAACCGCAGGCACCGGGCACGCACTGA	MHSGGLELALVLMLAAIVAVPVFKKFGLGAVLAYLIAGVVLGPDGLGFVQDADRILGAAEIGVVMLLFVIGLELSPARLKLMKRSVFGAGTLQVVMTALVLGALLMADHVGWKSALVIGLALALSSTAVGLQVLAERKALNSDYGRLAFAILLFQDLIAIPLLAAIPLLGGAKNDALEWQDVGKALAALALVILCGRFVLRHLFRIVARTRMPEVFTASALLVVLGTAWFMQEAGLSPSLGAFLAGVLLSDSEFRHELESQIEPFEGLLMGLFFISVGMGIDLERIAREPGLIAAGVGLLLVVKFALLVGIGRLAKLPLRSCLMLGSVLWLGGEFAFVVFNEAHRVRLLSAANHDRLVAIVGVSMALTPVLLLAMQRLLTGALRPQPTREEKPFDAIEVQAPEVLIAGMGRFGQIVARLLTAQRIPFVALENNPDTVEDLRRFGAQLYYGDPTRPDLLRAAGAERIRVFVVAMDDPETNIKAVRLIRRMYPQAKVLARARNRQHAWKLMDLGTEPFRELLGSSLELSEHLLVALGIDGALARERVARFRHHDEDLLRRQYLIYDDEAALIQTSREARTDLMGLFQADVEAEAEDSAKPANKPQAPGTH	PGPT0013795_389	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013795-kefB-K11747	NA	NA
BMS020_08857	1374		COG2239	Magnesium transporter MgtE	ATGCACAACGAGAACTTCCTGCGGCTTCCAACCGAGGCCGTCGATGCCTTGACCGCACCCCTGGCCGAGCTCAACACCGCCGATGCGGTGGAGTACCTCAACGGCATCGACCGCGCGCACGCCGGGGCGATCCTGGCGCAGCTGCCGGCGCCGCGCGTGGTCAAGATCCTCGAACAGCCCGAACTGCGCGACGCCGCGCGGCTGCTGGCCGGGCTTGATCCCGACCGCGGCGCCGAGCTGCTCGGGCTGATGGCCGACGACCGCGCCACCGACCTGTTCCAGGAGCTGGACGAGGACGAGCGCGCCCAGCTGCTGTGGCGGCTGGGCCCGGAGACCCGGCGCGCGATCCAGAAGCTGCTGCGCTACCCGCCGAGCACCGCCGGCGCGCTGATGACCACCGAGTTCGTCGCGGTGCCGGCCGACTGGAGCGTGGGCCGCACGCTGCAGTACGTGCGCGAGGTCGAGCGCAGCCGCGAGACCGTGTATGCGATCTACCTGCTCGACCCGCGCGAGCAGACCCTGGTGCAGGTGGTGACGATGCGCCGCCTGATAACCGGCGAGGCCGCCGCGCCGATCCTCGACGTGGCCCAGGTCAATCCGCCGGTGGCGGTGGACGCGCAGCTGGACCAGGAGGAGGTGGCGCGGCTGATCCGTCGCCACGACCTGCTGGCGATCCCGGTGGTGGACGCGCAGGGCCACGTGCTCGGCATCGTCACCGTCGACGACATCCTTGATGCGCTGATCGCCGAATCCACCGAGGACGTGCACAAGTTCGGCGGCATGGAGGCGCTGGAGAAGCCGTACATGCAGATCGGCTTCGGCGAGATGATCCGCAAGCGCGCCGGCTGGCTGAGCGTGCTGTTCCTCGGCGAAATGCTCACCGCCAGCGCGATGCAGCACTTCGAGGACGAGCTGTCCAAGGCAGTGGTGCTGACGCTGTTCATCCCGTTGATCATGAGTTCGGGCGGCAATTCCGGCTCGCAGGCGACCTCGCTGCTGATCCGCGCGCTGGCACTGCGCGAGCTGCGCCTGCGCGACTGGTGGAAGGTGGCGCTGCGCGAGGCGCCGACCGGCGCGCTGCTCGGCGCGATCCTCGGCGTGCTGGCGATCGTGCGCATCGCGGTGTGGCAGAACGCCGGCTTCTACGACTACGGCCCGCACTGGGTGATGGTGGCGCTGACGATCGGCGCGGCGCTGGTGGGCATCGTCACGTTCGGCTCGCTGTCCGGCTCGATGCTGCCGTTCGTGCTGCAGCGCTGCGGCTTCGACCCGGCCAGCGCCTCGGCACCGTTCGTGGCCACCCTGGTCGACGTCACCGGCCTGGTGATCTATTTCAGCATCGCCGCGCTGATCCTCAGCGGCACGTTGCTCTGA	MHNENFLRLPTEAVDALTAPLAELNTADAVEYLNGIDRAHAGAILAQLPAPRVVKILEQPELRDAARLLAGLDPDRGAELLGLMADDRATDLFQELDEDERAQLLWRLGPETRRAIQKLLRYPPSTAGALMTTEFVAVPADWSVGRTLQYVREVERSRETVYAIYLLDPREQTLVQVVTMRRLITGEAAAPILDVAQVNPPVAVDAQLDQEEVARLIRRHDLLAIPVVDAQGHVLGIVTVDDILDALIAESTEDVHKFGGMEALEKPYMQIGFGEMIRKRAGWLSVLFLGEMLTASAMQHFEDELSKAVVLTLFIPLIMSSGGNSGSQATSLLIRALALRELRLRDWWKVALREAPTGALLGAILGVLAIVRIAVWQNAGFYDYGPHWVMVALTIGAALVGIVTFGSLSGSMLPFVLQRCGFDPASASAPFVATLVDVTGLVIYFSIAALILSGTLL	PGPT0013995_2100	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0013995-mgtE-K06213	NA	NA
BMS020_08858	2370	btuB_35		Vitamin B12 transporter BtuB	ATGAAGCTGCAACCCACCCTGCTCGCGCTGGCCGTGTCCGCCAGCCTGGCCGCCCCCACCGTTGTCCGTGCCGCCGATGCCGCCGCCGACAGCACCTTGGACACCATCCACGTGGTCGAGACGCGCAAGCAGTCCGACACCCAGAACGTCACCACGCTGTCGGCCAAGGAGCTGCAGGCGCAGGGTGCGCAGAGCATGGAGGACGCGATCCGCTACGTGCCCGGCGTGGAGATGGTCGACCTCGGCCGCGCCGGCTTCAACGGCTTCAACATCCGCGGACTGGAAGCCGACCGCGTGGCGATGACGCTGGACGGCATCAGCTTCCCGCAGAGCATGGACCCGGGCACCTACCAGCCCTACGAGTTCTTCCGCTCCGGCCGCGGCAGCGTGGAGATGGAAGCGGTCAAGAGCGTGGAAATCGTCAAGGGCGCCGACGCGATCACCGCCGGCAGCGGCGCGCTCAGCGGCGCGGTGATGTTCACCACCAAGGACCCGGGCGATTTCCTCAAGGCCAGCGGCAACGACAGCTACGGCGCGATCAAGTACGGCTACACCGGCTCCAGCGACGAGAACATGGGCACGCTGACCTTCGCCAACCGCAGCGGCCGCTTCGAGTCGCTGCTCGTCTACACCAGGCGCGATGGCCACGAGACCGAATCCTGGTACGACACCACCATCGCCCGGCTCGGCCCCGACCGCCGCACCCCCGACCCGGTCGACCGCGAAAGCGACAACCTGCTGGCCAAGCTGAACTTCCTGGCCACCGACGCGCAGACCCTCGGCGTGGTCTACGAGCGCGCCCGCGCCACCAACGACGTCGACAACTGGACCCGCAGCGACGGCACCGGTTCGTACTACGAACGGACCGCCGAGGACCGCAACGACCGCGACCGCTACGGGCTGAAGTACACCTGGAAGGCCGGCACCGCGCTGTTCGACACGCTGGAAGCGAGCGCCGACCACCAGAAGGCCTACATCCAGGGCCAGACCAACGTGCTGGTCGCCAACGGCACCGCCGCCACCTACGGCACCAGCTGCTCGACCAGCGCGCCGTGCAGCCGCCAGGAGAATCGCTGGGACACGCAGAAGACCGACCGCGTCGCGGTCGACTTCGACAAGCGCTTCGAGACTGGCGGGCTGCGCCATGCGCTGGTCTACGGCGCCGCCTGGCAGCAGTCGAAGATCCACTGGAACTCGGTGGATTCGCGCTGGGGCAGCGATGGCAGCCTGTACTCGCGCGACACCGACGATTCGCTGTGGCCGGACACCAAGGAGACGGACTGGACCGCCTACGTGCGCGACAAGGTCGGTCTGCTCGACGACCGCCTGAGCCTGACCGGCGGGCTGCGCTACGACCGCTACAAGTACGTGCCGCAGACCGGTGCGAGCAGCGGCGGCGATTCGGGCTACGTGGATGACGCCGGCAGCGTCGGCACCTCCACGTTCTCCTCGCCGACCTGGAACCTCGGCGCCGAGTTCAAGGTCACCGACAGCCAGTCGCTGTGGGCGCAGGTCGGCCGCGGCTTCCGCGCGCCGGGCGTCAATGACATGTACGGCAGCTCCTCCACCACCGAAGTCACCCGCGTCTCCGACGGCGCCACGGTGTCGGTGCCGGACGGCAAGAGCAACCCGGACCTGGACGCCGAGCGCAGCCTCAACCTGGAGATGGGCTGGCGCTGGCAGAGCGAGCGGCTGCGCCTGGGCGTGTCGGTGTTCCGCGACAAGTACAGCAACTTCATCGACACCGCGACCTATGTCGCCGATGCCGACGTGCAGTACAGCACCACCAGCCGCGGCGTCACCACCATCACCAACGGCTACAGCTACACGATGCCGATCAACCGCGGCGAAGTGGTGGTCAAGGGCGTGGAGGCCGAAGCCCTGTGGCTGCTGGCCGACGACTGGATGGCGCGGCTGGCCTACTCCTACAACGAGGGCAAGGACAACGACGGCGAGCCGCTGGCCAGCATCATCCCGGCCAAGGCCGTCGCCGGCCTGAGCTACAACGCGCCGTCGCGGCGCTGGAGCGTGACCGCCAACGTCACCCACCAGGACCGCAAGAATCCGTCCGACTACGGCACCAGCGTCACCAACTCCAGCTACGGCGAGGAAGTGGTGCCGGTGTATGCCTACAAGGCGCGCGAGTACACCTTGCTCGACGTGTTCGGCAGCTACAGCATCACCCCGAAGCTGCACCTCACCGCCGGCGTCTACAACGTGTTCGACAAGGAATACTACCTGTGGAACCGGGTCCGCACCGCCGGTGCCGGCACCACGGTGTTCCAGGGCAACACCAGCGCGGACGGCATCGGCCGCTGGTCGCAGCCTGGCCGCAACCTGCGCTTCACGATCAGCTACGACTTCCTCTGA	MKLQPTLLALAVSASLAAPTVVRAADAAADSTLDTIHVVETRKQSDTQNVTTLSAKELQAQGAQSMEDAIRYVPGVEMVDLGRAGFNGFNIRGLEADRVAMTLDGISFPQSMDPGTYQPYEFFRSGRGSVEMEAVKSVEIVKGADAITAGSGALSGAVMFTTKDPGDFLKASGNDSYGAIKYGYTGSSDENMGTLTFANRSGRFESLLVYTRRDGHETESWYDTTIARLGPDRRTPDPVDRESDNLLAKLNFLATDAQTLGVVYERARATNDVDNWTRSDGTGSYYERTAEDRNDRDRYGLKYTWKAGTALFDTLEASADHQKAYIQGQTNVLVANGTAATYGTSCSTSAPCSRQENRWDTQKTDRVAVDFDKRFETGGLRHALVYGAAWQQSKIHWNSVDSRWGSDGSLYSRDTDDSLWPDTKETDWTAYVRDKVGLLDDRLSLTGGLRYDRYKYVPQTGASSGGDSGYVDDAGSVGTSTFSSPTWNLGAEFKVTDSQSLWAQVGRGFRAPGVNDMYGSSSTTEVTRVSDGATVSVPDGKSNPDLDAERSLNLEMGWRWQSERLRLGVSVFRDKYSNFIDTATYVADADVQYSTTSRGVTTITNGYSYTMPINRGEVVVKGVEAEALWLLADDWMARLAYSYNEGKDNDGEPLASIIPAKAVAGLSYNAPSRRWSVTANVTHQDRKNPSDYGTSVTNSSYGEEVVPVYAYKAREYTLLDVFGSYSITPKLHLTAGVYNVFDKEYYLWNRVRTAGAGTTVFQGNTSADGIGRWSQPGRNLRFTISYDFL	PGPT0003785_703	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_COMPLEX_RECEPTOR,PGPT0003785-TC_FEV_OM3|tbpA|hemR|lbpA|hpuB|bhuR|hugA|hmbR-K16087	NA	NA
BMS020_08859	1449			hypothetical protein	ATGTTCGCGCCCCGCCTGCGCGCCAGCCTCCTGCCGCTGATGCTCGCCGCCGTATCCGCACGCGCCGCCGAGCCCGTGCTGTTCCAGCGCGACGACGTGCTCGGCACGTCGCTGGAGCTGCGCGTGGACGCCGACGCGGCCGCGGCACAGGCCGCGTTCGCTGCGGCGCTGGCCGAGATCACCCGGCTGGACGGGGTGCTCAGCCGCTGGCGCGCGGACAGCGAGCTGAGCCGTTTCAACGCCAGCCACGCGCCGCAGCCAGTGTCGGCCGACCTGCGCGCGGTACTGGCGCTGTGCGAGCAGTGGCGCGCGCGCAGCGACGGCTTGTTCAGTTGCCGGCTCGGCACCTTGGCCGAGCGCTGGCGCCAGGCCGCGGCCAGCGGTGTGCTGCCCGATCGCGCCGAGCTGCGCGCGTTGGCCAGCGCCGCCGCGCAGGCGCCGTTCGCGGTTGCCAGCAGCGGCCCGCTGCAGCGTCCGGACGCAGTGCGGTTCGACCTCGACGGCGTGGCCAAGGGCTACGTGATCGACCACGCGCTGGCCGCCGCGCGCGCCGCGGCCCCGGCAGCGCGCGCGATCAAGCTCGATATCGGCGGCGATGCGCGCTACTGGCAGGCCTCAGGCGTGGACGCGCCGTGGCGCATCGCGGTCGCCGACGCGCGGCATCCGCGCGACAACGGCGACGGCATCGCGGTGCTGGCGCTGCGCAGCGCGGCGATCGCCGCCAGCGGCCATGCCAGCCGCGGCTACCAGGTCGGCCGTCGCCACTACAGCCACATCCTCGATCCGCTGTCGGGCTGGCCGATGCAGTTCGCGCCCGCGGCCACCGTGGTGGCCGACACCGCCGCCGATGCCGATGCGCTGGCCACCGCGCTGTCGGTGATGCCGATACGCGACGGGCTGGTGCTGGCCGACGCCACGCCGGGCGTGGCCGCGCTGGTGCTCAGCGATACCGGCATCGCCTTCGCCTCGCAGCGCTGGCCGGCGCTGCGCGATGCGGCGGCGCCGGTCGCGGCCAAGGAGCGGCTGGTGATCGACTACGAGATCCCGCAGCTGCCGGCCGCGCGCTACCACGCCCCGTACCTGGCGCTGTGGATCGCGCGCCGCGACGGCCAGCCGGTGCGCCAGCTGCTGGTGCTCGGCGAGCGCTCGCACTACCTGCAGGCGCTGCCGCAGTGGTGGCGCCGCTACGGCCGCGACGACCTGCCGGCGATCCAGGGCATCGCCCGCCCGACCCGGCTGCCGGGCCGCTACTCGCTGGCCTGGGATGGCCGCGACGACCGCGGCGCGCGCGTGGCCGATGGCGACTACCTGCTGCAGGTCGAAGCCGCACGCCAGGACGGCGGCCATGAACTGCTGAGCCTGCCGTTCACGCTGCAGGCGCAGGCACTGCTGCGCCTCGCCCGACGCGGCCAGGCCGAGATCGGCCACATCCAGCTGCACCGCGACTAG	MFAPRLRASLLPLMLAAVSARAAEPVLFQRDDVLGTSLELRVDADAAAAQAAFAAALAEITRLDGVLSRWRADSELSRFNASHAPQPVSADLRAVLALCEQWRARSDGLFSCRLGTLAERWRQAAASGVLPDRAELRALASAAAQAPFAVASSGPLQRPDAVRFDLDGVAKGYVIDHALAAARAAAPAARAIKLDIGGDARYWQASGVDAPWRIAVADARHPRDNGDGIAVLALRSAAIAASGHASRGYQVGRRHYSHILDPLSGWPMQFAPAATVVADTAADADALATALSVMPIRDGLVLADATPGVAALVLSDTGIAFASQRWPALRDAAAPVAAKERLVIDYEIPQLPAARYHAPYLALWIARRDGQPVRQLLVLGERSHYLQALPQWWRRYGRDDLPAIQGIARPTRLPGRYSLAWDGRDDRGARVADGDYLLQVEAARQDGGHELLSLPFTLQAQALLRLARRGQAEIGHIQLHRD	PGPT0000430_67	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
BMS020_08860	918			hypothetical protein	ATGAAAACTGGCCTCCTCGCTGGCGCGTGCCTGTGCGCGCTGCTGCCCCTGACCCTCGCCGCGCAGAACGGCGCATCCTCGCCCCGGCCGCTGATCGGCGGCCACGGCAACAACGTGCAGGCGTTCATCGCCGAATTCGACGACAACGGCGACGGCAAGGTCGACTGGGCCGAGTTCGAGACGTTCCGCCGCGCGCGCTTCGACGCCACCGATGGCAACCACGACGGCGTGGTCGACCAGGGCGAGTACGTGCGCGAGTTCGACGCGCGCATGGCGCAGGAACTGCAGCGCGAACGCGCCGCCCAGCTCGATCTGACCCGCGCGCGCTTCGCCGCGTTGGACCGCGACCAGGACGGCAAGGTCAGCCGCAAGGAATTCGACGCCGCCGGCGACAAGACCTGGCGGGGCGGCCAGCGCGCGCTGGCCGACAAGGCCGCCGGCAAGGGCAAGGCCGAGGCCGGCTACACCCCGGGCGAGGCCAAGACCGCCGGCTCGGCGCAGCGTTTCGACAACGCCGGGCGCAACCGCCTGGGCATGCCGACCAGCCACACCGCCGAAGGCTTCCTGGCGCTGTACGACGGCAACGGCGACGGCAAGGTCGATCGCGGCGAATTCGACGCCGCGCGCGAGGAGCAGTTCGCCCGCACCGACAGCGACCACGACGGCGCGCTGGACCTGGACGAATACCTGGCCGAGTACGAAACCCGGCTGGACCGCCGCATCGCCGCGATGACCCAGGGCGAGGATCGCCAGGTGTACGTGCGCTTCGGCGTGCTCGATGCCGACAAGGACGGCAAGATGACGTTCGCCGAATACCAGGTCTCCGGCAAGCACCTGTTCGACACCGCCGACCGCAACCACGACGGCGTGGTCGACGCCAGCGACGCCGCGCTGCCGCCGCCGAAGCGCGGCGTGTAA	MKTGLLAGACLCALLPLTLAAQNGASSPRPLIGGHGNNVQAFIAEFDDNGDGKVDWAEFETFRRARFDATDGNHDGVVDQGEYVREFDARMAQELQRERAAQLDLTRARFAALDRDQDGKVSRKEFDAAGDKTWRGGQRALADKAAGKGKAEAGYTPGEAKTAGSAQRFDNAGRNRLGMPTSHTAEGFLALYDGNGDGKVDRGEFDAAREEQFARTDSDHDGALDLDEYLAEYETRLDRRIAAMTQGEDRQVYVRFGVLDADKDGKMTFAEYQVSGKHLFDTADRNHDGVVDASDAALPPPKRGV				NA	NA	NA	NA	NA
BMS020_08861	801			hypothetical protein	ATGAAACCGCTGACCCTGCTGGCCGCCGCCGTGCTCGGCGCCGCCGCCGCGCCTGCCGGCGCCCACACGCCCTACCTCGCCCCCAGCGACTTCGCGCCGCGCGCCGGCCAGACCATCGCGCTGGATGCCGCCTTCGCCGAGACCTTCTTCGTACCCGAAGCCGCCTTCGACGACAGCCGCCTGGCGATCACCCGCCCCGATGGCAGCACCGTCGCCGTCGATGGCGTGCAGGTGATGAAGACCCGCACCGTGGCCGAATACGCGCTGCCGGCCAACGTGGCCGGGACCTACCGGCTCAGTACCGGGCCGCGCCTGGGCGCGCTGTTCCGCACCTGGGAAGTGGACGGCAAGCGCGTGAGCAGCCGCGACGCGGCGGTGAAGATCCCCGCCGGCGCCAAGGTGATCTCCGACTTCCAGTCGCTGACGCTGGCCGAGAGCTACGTCAGCGTCGGTGCCCCCGACCGTGCCGCGCTGGCATCGCGTGGCACGGGCCTGGAGTTCGTGGCGGTCACGCATCCGGACGACCTGTACGTCGGCGAGCGCTTCGAATTCGTCGTGCAGTACGACGGCAAGCCGCTGCCGGCCCAGCAGGTGGAAATCACCGAGGCGGTATGGACCTCGGACCGCACGCCGCAGGTCGACACCATCACCACCGACGCCCGCGGCCATGCGGTGCTGAAGCTGCAGCAGGCCGGCACCTGGGTCGCGCTGACCCGCTACCGCACGCCGGCACCGGCCGGCGCGCCGGTGGCCGAGTACAGCAACAGCTACACGCTGACGTTCCGCGTGCTGGCGCCCTGA	MKPLTLLAAAVLGAAAAPAGAHTPYLAPSDFAPRAGQTIALDAAFAETFFVPEAAFDDSRLAITRPDGSTVAVDGVQVMKTRTVAEYALPANVAGTYRLSTGPRLGALFRTWEVDGKRVSSRDAAVKIPAGAKVISDFQSLTLAESYVSVGAPDRAALASRGTGLEFVAVTHPDDLYVGERFEFVVQYDGKPLPAQQVEITEAVWTSDRTPQVDTITTDARGHAVLKLQQAGTWVALTRYRTPAPAGAPVAEYSNSYTLTFRVLAP				NA	NA	NA	NA	NA
BMS020_08862	2703	pat_3	COG0454	Peptidyl-lysine N-acetyltransferase Pat	ATGAGCACCTACCACCTGCAGTCCGTGTTCCGTCCCAAGTCGGTGGCGATCGTCGGCGGCAGCCCGCGCGAACGTTCGGCCGGCCGCGCGGTCGTGCGCAACCTCAAGGCGTCCGGCTTTCCCGGCCAGATCGGCTGGGTCAGTCCGCGTTATCCGGAGATCGACGGCGTGCGTACGGTGCGCCGGCTCACCGACCTGCCGTGGGTGCCCGAGCTGGTGGTGATCACCGCGCCGGCGCGGATCGTGCCGCGCATCGTCTCCATCGCCGCGCGCCGCGGCGTGGCCGCGGCGATCATCCTCACCGCCGGGCTCGGCCATGGCCCGGGCTCGGCCGCGGCACGGGTCGAGGCCGCCGCGCGCGCCAAGGGCCTGCGCATCCTCGGGCCGCACTGCCTGGGCGTGATCGCCCCGCATGCGCGGCTCAATGCCTCGATCGCCGCGCACTGCCCGCAGGCCGGCGACCTGGCGCTGATCTCCGAATCCAGCGCGATCGCCGCGGCGCTGGTGGAATGGGGTGTGGCGCGCTCGGTCGGATTCTCGGCGGTGGTGTCGCTGGGCGATACCCTGGACGTCGATTTCGGCGACCTGCTCGACTACTTCGCCACCGACTACCGCACCCGCGCGATCCTGCTCTACGTCGAGCACATCCGTGACGCGCGCAAGTTCATGTCCGCCGCGCGCGCCGCCGCACGCGCCAAGCCGGTGGTGGTGGTGAAGTCCGGCCGCCAGCCGCGCCCGGACCCGCATGCGGACACCCATTCGCAGACGCTGGCGCGCTCGGATGCGGTCTACGGCGCCGCGTTCGCGCGCGCCGGCCTGCTGCGCGTCGGCGCGCTCGACGAACTGTTCGCCGCGGCCGAGACCCTGGGCCGCATCGGCACCTTCCCCGGCCGGCGGCTGGCGGTGCTCAGCAACGGCGGCGGCGTCGGCCGGCTCGCGGTCGACCAGCTGACCCTGCGCGGCGGCACGCTGGCGGCGCTGGCGCCGGCCACGGTGGAGCGGCTGGACCGGGTGCTGCCGCAGGGCTGGTCGCGCGAGAACCCGGTCGACATCGTCGTCGACGCCGACGGCGAGCGCTACGCCAACGCGATCGAGGCGCTGCTGGAGGATGCCGACAACGACGCGCTGCTGGTGGTCAACGTGCCGACCGCGTTCACCTCCTCGGCCGATGCGGCGCGCGCACTGACCCAGTCGCTGGGCCGGCGCGACCGCCACCGCCGCGACAAGCCGGTGTTCGCGGTGTGGCTGGGCCAGGACGACGCGGCCATCGCCACGCTCAACGCGGCGCGCGTGCCGACCTACGTGACCGAATCGGATGCGGTGCGCGGCTTCACCCACATGGTGCGCTACCGCGAGGCGCAGGCGGCCTTGATGGAAACGCCGCCGAGCCTGCCGGAGGATTTCGTGGTCGACGCGGCCGCCGCGCGCGCGCTGGTCGAACAGGCGCTGCGCGCCGGGCAGCGCTGGCTGGACCCGTTGGCGACCAACCAGCTGCTGCAGGCCTACGGCATCCCGTGCGTGCCGCTGCAGCTGGCGGCCACCGCCAACGAGGCGGCGCTGCTGGCCGACGTGCTGCTGGCCGCCGGTGGCTCGGTCACGGTGAAGATCCATTCGCCCGACATCGACCACAAGTCCGACGTCGATGGCGTGCGCCTGAACCTGCCCAGCGTGGCGGCGGTGCGCGTGGCGGTCGAGGGCATCCTGGCGCGCGCGCGCGCGGCGCGGCCGGAGGCGCGCATCGACGGGGTGATCGTGCAGCCGACGATCCTGCGGCCGAAGGCGCGCGAGCTGATCGCCGGCATCGCCGACGACCCCACGTTCGGCCCGGTGATCGTGTTCGGCCGTGGCGGCACCGCGGTGGAGGTGATCAACGACCGCGAGCTGGCGCTGCCGCCGCTGGACCTGCGCCTGGCGCACGAGCTGATCGGCCGCACCCGGGTCTCGCGCATCCTCAAGGGCTACCGCGACGTGCCGGCCGCCGACGAGCGCGCGGTGGCGTTGGTGCTGGTCAAGCTGGCGCAGCTGGCCGCCGACATTCCCGAGATCCGCGCGCTGGACATCAACCCGCTGCTGGCCGACGCCGCCGGCGTGCTCGCGCTCGATGCGCGCGTCGCGGTGGCGCCGTCGCGCGCGCTGCACAAGGGCCGCGGCCACCCGCGCTTCGCGATCTTCCCGTATCCGAAGGAATGGGAGCGCCACCTCACCCTGGCCGACGGCGGCAGCGCGTTCGTGCGCCCGGTGCGGCCGGAGGACGACGCGCTGTTCCGCGCGTTCTTCGCCCGCGTCACCGACGAGGACCTGCGGCTGCGCTTCTTCCAGTCGGTCAAACACTTCAGCCACGAGTTCATCGCCCGGCTGACCCAGCTCGACTACGCGCGTTCGATCGCGCTGGTGGCGATCGATCCGCGCAGCGGCGACATGCTCGGCGCGGTGCGCCTGCACGCCGACGCCGATTACGAGAAGGGCGAGTACGGCATCCTGATCCGCTCGGACCTGAAGGGCCACGGCATCGGCTGGCAGCTGATGCGGATCATGATCGAGTACGCGCGCTGGCTCGGCCTGCAGGCGGTCGAGGGCCAGGTGCTGCGCGAGAACCGCACCATGCTGGCGATGTGCGAGAGCCTGGGGTTCGTGGTCAAGCCCGACCACGAGGACGCCTCGCTGATGAACGTGCTGCTGCCGATCGCCGCGCGTCCGCTGTGA	MSTYHLQSVFRPKSVAIVGGSPRERSAGRAVVRNLKASGFPGQIGWVSPRYPEIDGVRTVRRLTDLPWVPELVVITAPARIVPRIVSIAARRGVAAAIILTAGLGHGPGSAAARVEAAARAKGLRILGPHCLGVIAPHARLNASIAAHCPQAGDLALISESSAIAAALVEWGVARSVGFSAVVSLGDTLDVDFGDLLDYFATDYRTRAILLYVEHIRDARKFMSAARAAARAKPVVVVKSGRQPRPDPHADTHSQTLARSDAVYGAAFARAGLLRVGALDELFAAAETLGRIGTFPGRRLAVLSNGGGVGRLAVDQLTLRGGTLAALAPATVERLDRVLPQGWSRENPVDIVVDADGERYANAIEALLEDADNDALLVVNVPTAFTSSADAARALTQSLGRRDRHRRDKPVFAVWLGQDDAAIATLNAARVPTYVTESDAVRGFTHMVRYREAQAALMETPPSLPEDFVVDAAAARALVEQALRAGQRWLDPLATNQLLQAYGIPCVPLQLAATANEAALLADVLLAAGGSVTVKIHSPDIDHKSDVDGVRLNLPSVAAVRVAVEGILARARAARPEARIDGVIVQPTILRPKARELIAGIADDPTFGPVIVFGRGGTAVEVINDRELALPPLDLRLAHELIGRTRVSRILKGYRDVPAADERAVALVLVKLAQLAADIPEIRALDINPLLADAAGVLALDARVAVAPSRALHKGRGHPRFAIFPYPKEWERHLTLADGGSAFVRPVRPEDDALFRAFFARVTDEDLRLRFFQSVKHFSHEFIARLTQLDYARSIALVAIDPRSGDMLGAVRLHADADYEKGEYGILIRSDLKGHGIGWQLMRIMIEYARWLGLQAVEGQVLRENRTMLAMCESLGFVVKPDHEDASLMNVLLPIAARPL				NA	NA	NA	NA	NA
BMS020_08863	447			hypothetical protein	GTGCGCCCGGACGAGGACGCGCTGCCGGCGACGCCGCGGCCGTACACCCAGGTCAAGAGCTACCACGCGCACATCTATTTCGACGAGGACAGCTACGCCAAGGCCGCGCGGATCCGCCGCTGGGCCGCCGAGCGCTTCCCGGTCGAACTGGGCGACTGGAACCTGGAACCGCGCGGCCCGCACGTCACGCCGTCGTTCTACTTCGGTTTCACCACCGAGCTGCTGCCGATCCTGGTGCCGTGGCTGCAGCTCAACAGCCTCGGCCTGACCATCCTGTTGCACCCCAACACCGGCGACCCGCGCTCGGACCACCTGTACTACGCGCTGTGGGTGAACCGCTCGCAGCCGGTCAACGCCTATGCGTGGCGGCGCTTCGTCGATGGCGGCGGCGGCGACGTGGAGCAGATCAACCCGAACGTGGTGCCGACGGTGGCGCTGGAAACCTGA	MRPDEDALPATPRPYTQVKSYHAHIYFDEDSYAKAARIRRWAAERFPVELGDWNLEPRGPHVTPSFYFGFTTELLPILVPWLQLNSLGLTILLHPNTGDPRSDHLYYALWVNRSQPVNAYAWRRFVDGGGGDVEQINPNVVPTVALET				NA	NA	NA	NA	NA
BMS020_08864	1122	roxA_2	COG2850	50S ribosomal protein L16 3-hydroxylase	ATGGCTTATCAACTCAACATTAACTGGCCCGAGTTTTTAGAGAAATACTGGCAAAAGCAGCCGGTGGTTATAAAAAACGCGTTTCCGGACTTCGTCGACCCGATTACCCCGGACGAGCTGGCCGGGTTAGCCATGGAGCCGGAAGTCGACAGCCGGCTGGTCAGTCTGACCAACGGTAAATGGCAGGCCAGCAATGGACCTTTTGAACATTTCGATGGCCTGGGCGAGACCGGCTGGTCGCTGCTGGCCCAGGCGGTAAACCACTGGCATATGCCGGCCGCCGAGCTGGTGCGACCGTTCCGCGTACTGCCGGACTGGCGTCTGGACGACCTGATGATCTCCTTCTCCGTCCCCGGCGGCGGCGTCGGGCCGCATATCGATCAGTATGACGTCTTTATTATTCAGGGCATGGGCAGCCGCCGCTGGCGCGTGGGCGATAAGCTGCCGATGCGTCAGTTCTGCCCGCATCCCGCGCTGCTGCACGTCGACCCGTTCCCGCCGATTATTGATGAGGATCTGCAGCCGGGCGATATCCTCTATATTCCGCCGGGATTCCCGCACGATGGTATCACCCACGAAACCGCGCTGAACTACTCCGTGGGTTTCCGCGGGCCAAACGGGCGCGACCTGATCAGCAGCTTCGCCGACTATGTGCTGGAGAACGATCTCGGCGGCGAGCACTACAGCGATCCGGACCTCACCTGCCGCGAGCATCCGGGCCGGGTTGAAGAGTATGAACTCGAACGTCTGCGCGGCATGATGATCGACATGATTCGCCAGCCGGAAGACTTCAAGCAGTGGTTCGGCAGTTTCGTCACCACCCCGCGTCACGAGCTGGATATTGCGCCGGCGGAACCACCGTATGAAGAAGAGGAAGTAGTCGATGCGCTGCTGGGCGGCGAAAAACTTTCTCGCCTGAGCGGCCTGCGCGTTCTGCATATCGGCGACAGCTTCTTCGTGCATAGCGAACAGCTGGACACCACCGATGCCGAAGCGCTGGATGCATTATGCCGCTATACCTCATTAGGCCAGGAGGAGCTCGGCAGCGGCCTGCAAAACCCGGCTTTTGTGAGCGAACTGACGCGCCTGATTAATCAAGGCTACTGGTACTTCGAAGAGTAA	MAYQLNINWPEFLEKYWQKQPVVIKNAFPDFVDPITPDELAGLAMEPEVDSRLVSLTNGKWQASNGPFEHFDGLGETGWSLLAQAVNHWHMPAAELVRPFRVLPDWRLDDLMISFSVPGGGVGPHIDQYDVFIIQGMGSRRWRVGDKLPMRQFCPHPALLHVDPFPPIIDEDLQPGDILYIPPGFPHDGITHETALNYSVGFRGPNGRDLISSFADYVLENDLGGEHYSDPDLTCREHPGRVEEYELERLRGMMIDMIRQPEDFKQWFGSFVTTPRHELDIAPAEPPYEEEEVVDALLGGEKLSRLSGLRVLHIGDSFFVHSEQLDTTDAEALDALCRYTSLGQEELGSGLQNPAFVSELTRLINQGYWYFEE				NA	NA	NA	NA	NA
BMS020_08865	1443	cusS	COG0642	Sensor histidine kinase CusS	ATGGTCGCTAAGCGCCCCTTTTCCCTGGCTACCCGGCTGAGTTTCTTTATTAGCCTCGCCACCATCATCGCCTTCTTTGCCTTCACCTGGATCATGATCCATTCGGTGAAGGCGCATTTTGAAGAGCGCGACGTTCACGATCTCAGGCAGCTCAGCACCACCCTGGAGACGGTCCTCGACCACGCTGACTACCCGCAGGCGCGGCGGCTGGAGATCGTGAAGAATATCATTGCGGGCTACGCCAACGTCTTTATCTGCCTGGACGATGGGCAGGGCAATATTCTGTTCCAGTCGCCCAACGGACCGGATCTCAGCCATATGCTGAGTACGCCAGGCCTGGCGATGCAGCTGCGCGACGGGAATGTGATTTCATGGACCGACCCGCAGCCGCGGGCAATGGCGCACGATAATCATCAAATGGAGACCCGTGCCTGGCGGCTGATCATGCTGCCGCTGGGCAAGCAGGCGGATGGCAAGCCGGCGTACCATCTGCTGATGGCCTTATCCATCGATTTTCACCTGCACTATATTAATGAGCTGAAAGCGAAGCTGATTTCCGCCGCGTCGATAATCAGCCTGCTGATCATCGCCATCGTGCTGTTTGTGGTTTATCAGGGGCATAAGCCTATCCGCCAGATCAGCCGGCAGATCCAGAATATTACCTCGCGGGATCTCGACGTGCGCCTCGACCCGCAGGCGGTGCCTATCGAACTGGAGCGGCTGGCGCTGTCCTTTAACCATATGCTGGAGCGAATGGAGGATGTCTTTACCCGCCAGTCGAACTTCTCCGCCGATATCGCCCATGAGATCCGCACGCCGATCACCAACCTGGTGACGCAAACCGAAATCGCCTTAAGCCAGAGCCGCAGCCAGCCGGAGCTGGAAGAGGTGCTCTACTCCAATCTCGAAGAGTTCTCGCGCATGTCGCGGATGGTCAGCGATATGCTGTTCCTCGCCCAGGCCGATAACAACCAGCTGATCCCCGAACAGCGGGAACTGGATCTGGCTGAGGAAGTGCATAAGGTGTTTGAGTTTTTCGAGGCGTGGGCGGAAGAGAAGGCAGTAGCGCTGCGCTTTGACGGCAGCCCCTGCCGGGTGACGGGCGATCCGCTGATGCTGCGGCGGGCGATCAGCAACTTGCTGTCGAACGCGATCCGCTACACCCCGGCTGGCCAGGCGGTGACGATCGCGCTGAGCGAAAGCGCGGAGACGATCCGCCTGGTGGTGGAGAACCCCGGTACGCCGATTGCCGCCGAACATCTGCCGCGGCTGTTTGACCGTTTCTATCGCGTCGACCCCTCGCGCCAGCGCAAAGGGGAGGGCAGCGGCATCGGCCTGGCGATTGTGAAATCCATCGTCAGCGCCCACCACGGCAGCGTGGCGGCGCAGTCCGATCTGCGCTCGACGCGGTTTATTGTGGTGCTGCCGAAACAGGCGCAATAA	MVAKRPFSLATRLSFFISLATIIAFFAFTWIMIHSVKAHFEERDVHDLRQLSTTLETVLDHADYPQARRLEIVKNIIAGYANVFICLDDGQGNILFQSPNGPDLSHMLSTPGLAMQLRDGNVISWTDPQPRAMAHDNHQMETRAWRLIMLPLGKQADGKPAYHLLMALSIDFHLHYINELKAKLISAASIISLLIIAIVLFVVYQGHKPIRQISRQIQNITSRDLDVRLDPQAVPIELERLALSFNHMLERMEDVFTRQSNFSADIAHEIRTPITNLVTQTEIALSQSRSQPELEEVLYSNLEEFSRMSRMVSDMLFLAQADNNQLIPEQRELDLAEEVHKVFEFFEAWAEEKAVALRFDGSPCRVTGDPLMLRRAISNLLSNAIRYTPAGQAVTIALSESAETIRLVVENPGTPIAAEHLPRLFDRFYRVDPSRQRKGEGSGIGLAIVKSIVSAHHGSVAAQSDLRSTRFIVVLPKQAQ	PGPT0004980_394	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0004980-cusS|copS|silS-K07644	NA	NA
BMS020_08866	684	cusR	COG0745	Transcriptional regulatory protein CusR	GTGAAGATTTTGATTGTCGAAGATGAGAAGAAAACCGGGGAGTACCTGACCAAAGGGCTTACCGAGGCTGGCTTCGTCGTCGACCTGGCCGATAACGGCCTTAACGGCTATCACCTGGCGATGACCGGCGACTATGATCTGCTGATCCTCGACATCATGCTGCCGGACGTGAACGGCTGGGATATCGTGCGCATGCTGCGCGCCGCCGGGAAAGGCATGCCGATCCTGCTGCTTACCGCGTTGGGCACCATTGAGCATCGGGTGAAGGGGCTGGAGCTGGGCGCCGACGACTATCTGGTGAAGCCGTTCGCCTTTGCGGAACTGCTGGCGCGGGTGCGGACGCTGCTGCGCCGCGGGGCGGCGGTCATTGTCGAAAGCCAGTTTCAGGCGGCGGATCTCAGCGTCGATCTGGTCAGCCGTAAGGTGACGCGCGGCGCCACCCGCATCACCCTGACCAGCAAGGAGTTCACTCTGCTGGAGTTCTTCCTGCGCCATCAGGGCGAAGTGCTGCCGCGTTCGCTGATAGCCTCGCAGGTGTGGGATATGAATTTCGACAGCGATACCAACGCGATAGATGTGGCGGTGAAGCGGCTGCGCGCCAAAATCGATAACGACTTCGAGCCGAAGCTGATCCAGACTGTGCGCGGCGTCGGCTATATGCTTGAGGTGCCGGATGGTCGCTAA	MKILIVEDEKKTGEYLTKGLTEAGFVVDLADNGLNGYHLAMTGDYDLLILDIMLPDVNGWDIVRMLRAAGKGMPILLLTALGTIEHRVKGLELGADDYLVKPFAFAELLARVRTLLRRGAAVIVESQFQAADLSVDLVSRKVTRGATRITLTSKEFTLLEFFLRHQGEVLPRSLIASQVWDMNFDSDTNAIDVAVKRLRAKIDNDFEPKLIQTVRGVGYMLEVPDGR	PGPT0004105_590	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
BMS020_08867	1494	cusC_3	COG1538	Cation efflux system protein CusC	ATGAAATATCAGGAAAATGACAGCTTTGTCATTTTCCTGTCACGTCCTGAACAGAGGCCGCTACGTAAAGTAGCCGCCATGGATAAATCGTCGAAAACGTCTGCCGCCATGCGCCCAATAACGCTTCTTACCCTCAGCGTGATACTCGCCTTAACCGGCTGTGTCTCGCTCGCTCCGGACTACCAGCGCCCCGCCGCGCCGGTACCGCAGCAGTTCTCTCTCAGCCAGAACAAGCTGGTTCCCGCAACCGCGAGCTATCAGGAGACCGGCTGGCGAACCTTTTTCGTCGACCCGCAGGTGAAAAGCCTGATAGGCACCGCGCTGACCAACAACCTCGATCTGCGGATGGCGACGCTGAAAGTGCAGGAAGCCCGCGCCCAGTATCGGGTGACCGATGCCGACCGCTACCCGCAATTGAACGGTGACGGTAGCACCACCTACGGCGGCAAGCTTAAAGGCGACACCACCACCAGCAGCGATTACGCCGCCGGGCTGAATCTCAACTATGACCTCGACTTCTTTGGCCGGCTGAAAAACCTCAGCGAGGCCGACCGGGAGAACTTCTTCGCCAGCGAAGAGGCACGGCGCGCAGTGCATATCCTGCTGATTGCTAACGTTTCACAAAGCTACTTCAACCAGCGGCTGGCGGCAGCGCAGCTGCAGGTGGCCAACGACACCCTGCAAAACTATCAGCAGTCTTACGCGTTCGTTGAAAAACAGCTGCTGACCGGCAGCACTACCGTGCTGGCGCTGGAGCAGGCGCGGGGGATGATCGAGAGCACCCGCGCCGAGATCGCCAGGCGGCAGGGCCAGCTGGCGCAGGCTAATAACGCTCTGCAGCTGTTGCTCGGTAGTTATCAACATCTGCCGGACGATAGCGCCAGCAGCGCCGTCGACCTGCAAGGCGTAACCCTGCCGCCGTCGCTCTCTTCAGCGATCCTGCTGCAGCGGCCGGATATTTTAGAGGCCGAACACAGCCTGCGGGCGGCCAACGCCAACATCGGCGCCGCGCGGGCGGCCTTCTTCCCGTCGATCACCCTGACCAGCTCGCTCTCCGGCAGCAGCAGCGAGCTCGCCAGCCTGTTTAACGCCGGCAGCGCGATGTGGAACTTCATCCCCAAAATCGACATTCCGATTTTCAACGCCGGGCGCAATCAGGCCAACCTCGATCTGGCGGAGATCCGCCAGCAGCAGCAGGTGGTCAACTACGAGCAAAAAATTCAGTCCGCTTTTAAGGAAGTGGCCGACGCGCTGGCCCTGCGCCAAAGCCTGGCCGATCAGATCGCCGCCCAGGAGCGCTATCTCGCTTCACTCAATATCACCCTGCAGCGCGCCACCGCGCTCTATCGCCACGGCGCGGTCAGCTACATCGAAGTACTGAGCGCCCAGCGCGACATTTTCACCACCCGACAAACCCTGCTGGAACTCAACTATTCCCGTCAGGCAAATGAAATCACCCTGTTCACCGCCCTCGGCGGCGGCTGGATGGAATAA	MKYQENDSFVIFLSRPEQRPLRKVAAMDKSSKTSAAMRPITLLTLSVILALTGCVSLAPDYQRPAAPVPQQFSLSQNKLVPATASYQETGWRTFFVDPQVKSLIGTALTNNLDLRMATLKVQEARAQYRVTDADRYPQLNGDGSTTYGGKLKGDTTTSSDYAAGLNLNYDLDFFGRLKNLSEADRENFFASEEARRAVHILLIANVSQSYFNQRLAAAQLQVANDTLQNYQQSYAFVEKQLLTGSTTVLALEQARGMIESTRAEIARRQGQLAQANNALQLLLGSYQHLPDDSASSAVDLQGVTLPPSLSSAILLQRPDILEAEHSLRAANANIGAARAAFFPSITLTSSLSGSSSELASLFNAGSAMWNFIPKIDIPIFNAGRNQANLDLAEIRQQQQVVNYEQKIQSAFKEVADALALRQSLADQIAAQERYLASLNITLQRATALYRHGAVSYIEVLSAQRDIFTTRQTLLELNYSRQANEITLFTALGGGWME	PGPT0004070_7	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SILVER_RESISTANCE	SILVER_RESISTANCE-SILVER_TRANSPORT,PGPT0004070-cusC|silC-K07796	NA	NA
BMS020_08868	345	cusF	COG5569	Cation efflux system protein CusF	ATGAATTCACTGTCTAAAGTCGCCCTGTTCACTCTGATTTCTGGCGCGGTATTCGCCGCCCAGGCCGCCGACCCGCACGCCGGCATGGCGATGCACGAACAGCCCGCCGCCGCGCAGACGCAAAGCATCAGCGGCAAAGGGGTCATTAAAGCCATTGATATGGATAGCAAAAAAATCACCATTGCCCACGAAGCCATCCCGGCGGTGAACTGGCCGCCGATGACCATGCGCTTCACCATCACCCCGCAGACCCAGCTCAACAATGTGAAGGACGGCGACAGCGTGGACTTCACCTTCGTTCAGCAGGGCAATCTGTCGCTGTTACAGGATATCCGCGCCCACTAA	MNSLSKVALFTLISGAVFAAQAADPHAGMAMHEQPAAAQTQSISGKGVIKAIDMDSKKITIAHEAIPAVNWPPMTMRFTITPQTQLNNVKDGDSVDFTFVQQGNLSLLQDIRAH	PGPT0004075_302	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SILVER_RESISTANCE	SILVER_RESISTANCE-SILVER_TRANSPORT,PGPT0004075-cusF-K07810	NA	NA
BMS020_08869	1266	cusB		Cation efflux system protein CusB	ATGGCATCCCTGACACTGAAAAACACGGCGCTGATCCTCGGCAGCATGGCGATCGGCGGCGCGCTCACCGCAGCGCTGTATACCCGGATGGCGCCGCCCCTCGACGCTACCGCCGCCGCCCCGGCGGCCGAGCAGCAGCGAAAAGTGCTGTTCTGGTACGACCCGATGTACCCGAACACCCGCTTTGATAAACCGGGTAAATCGCCGTTTATGGATATGGACCTGGTGCCGAAATACGCCGATGAGGAGAGTGCCGCCGCCGGTGCGCCGGGGGTGCGTATCGACCCGACGCAGACCCAGAATCTCGGGGTGAAAACCGCCGCCGTCACCCGCGGGCCGCTGCGCTACGCCCAGACCTTCCCGGCCAACATCAGCTACAACGAGTACCAGTACGTGATTATGCAGGCGCGGGCGGCGGGCTTTATCAATAAAGTCTATCCCCTGACTGTCGGCGACAAAGTGCAACAAGGTACGCCGCTGCTGGAACTGACCATCCCGGACTGGGTGGAAGCGCAGAGCGAATACCTGCTATTGCAGGAGACCGGCGGCACCGCCACCCAGGTCGAGGGGATCCTCGAGCGGCTGCGTCTCGCCGGAATGCCGGACGACGATATCCGCCGCCTGAAAGCCACGCGCAAGATCCAGACCCGCTTCACCCTCAAGGCGCCCATCGACGGGGTGATCACCGCCTTCGATCTGCGCGCCGGAATGAACATCGCCAAAGATAACGTGGTGGCGAAAATTCAGGGCATGGACCCGGTGTGGGTCAGCGTGGCGGTCCCCGAGTCCATCGCCTGGCTAATTAAAGACGCCTCGCAGTTCGCCATTCAGGTTCCCGCCTGGCCGGGCAAAACCTTCCGCATCAGCAAATGGACGATTCTCCCCAGCGTCGATAGCGCCACCCGCACCCTGCAGCTACGCCTGCAGGTGAACAACCCGGATGAAGCGCTGAAGCCGGGGATGAACGCCTATCTGCAGCTGACCAGTGACAGCGAACCGATGCTGCTGATCCCCTCCAAAGCGCTGATCGACAGCGGCAGCGAGCAGCGGGTGATCACCATGGATAACGAGGGCCGCTTCGTGCCGAAGCAGGTCCAGGTTTTCCATGAATCCAATGGCGTCACGGCCATTCGCAGCGGGCTGCAGGAGGGCGAGAAGGTGGTCGCCAGCGGCCTGTTCCTGATCGACTCGGAAGCCAATATCGCCGGCGCGCTGGAGCGCATGCGCGCGCAGGCCCCTGATGCCGCTGCCGCCCACGCGCACTGA	MASLTLKNTALILGSMAIGGALTAALYTRMAPPLDATAAAPAAEQQRKVLFWYDPMYPNTRFDKPGKSPFMDMDLVPKYADEESAAAGAPGVRIDPTQTQNLGVKTAAVTRGPLRYAQTFPANISYNEYQYVIMQARAAGFINKVYPLTVGDKVQQGTPLLELTIPDWVEAQSEYLLLQETGGTATQVEGILERLRLAGMPDDDIRRLKATRKIQTRFTLKAPIDGVITAFDLRAGMNIAKDNVVAKIQGMDPVWVSVAVPESIAWLIKDASQFAIQVPAWPGKTFRISKWTILPSVDSATRTLQLRLQVNNPDEALKPGMNAYLQLTSDSEPMLLIPSKALIDSGSEQRVITMDNEGRFVPKQVQVFHESNGVTAIRSGLQEGEKVVASGLFLIDSEANIAGALERMRAQAPDAAAAHAH	PGPT0004065_1226	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SILVER_RESISTANCE	SILVER_RESISTANCE-SILVER_TRANSPORT,PGPT0004065-cusB|silB-K07798	NA	NA
BMS020_08870	3150	cusA	COG3696	Cation efflux system protein CusA	ATGATTGAATGGATTATCCGCCGCTCGGTGGCCAACCGCTTCCTGGTGATGATGGGCGCGCTGTTTCTCAGCCTCTGGGGGACCTGGACCATCGTCCACACCCCTGTGGACGCCCTGCCGGATCTCTCCGACGTACAGGTGATCGTCAAAACCAGCTATCCGGGGCAGGCGCCGCAGATTGTCGAAAACCAGGTCACCTGGCCGCTAACCACCACCATGCTGTCGGTGCCCGGCGCCAGAACGGTGCGCGGCTTCTCGCAGTTTGGCGACTCTTATGTGTATGTGATTTTTGAAGACGGCACCGACCCTTACTGGGCGCGCTCGCGGGTGCTGGAGTATCTCAACCAGGTGCAGGGCAAACTGCCCGCCGGAGTCAGCGCCGAAATGGGCCCGGACGCCACCGGCGTCGGCTGGGTCTTCGAGTACGCGCTGGTCGACCGCAGCGGCAAGCACGATCTCGCCGAACTGCGCTCCCTGCAGGACTGGTTCTTAAAATATGAGCTGAAAACCATTCCTAACGTCTCGGAAGTGGCGTCGGTGGGCGGCGTGGTCAAGGAGTACCAGATAGTTGTCGACCCGATGAAGCTGACCCAGTACGGCATCAGCCTCGGCGAGGTGAAATCGGCGCTGGACGCCTCTAACCAGGAGGCGGGCGGCGCTTCGGTCGAACTGGCGGAAGCCGAATATATGGTGCGCGCCAGCGGCTATCTGCAGACCCTCGACGACTTCAAAAACATTGTACTGAAAACCGGCGATAACGGCGTGCCGGTCTATCTCGGCGACGTCGCGCGGGTGCAGGTCGGCCCGGAGATGCGCCGCGGCATTGCCGAACTGAACGGCGAAGGCGAAGTGGCCGGCGGCGTGGTGATCCTGCGCTCCGGCAAGAACGCCCGGGAAGCGATCTCGGCGGTCAAAGAAAAACTGGCGTCGCTGCAAAGCAGCCTGCCGGAAGGGGTTGAAGTGGTCACCACCTACGACCGCAGCCAGCTTATCGACCGCGCCATCGATAACCTCAGCCACAAGCTGCTGGAAGAGTTTATCGTCGTCGCCCTGGTCTGCGCCCTGTTCCTGTGGCACGTGCGCTCGGCGCTGGTGGCGATTATCTCCCTGCCGCTCGGCCTGTGCTTCGCCTTTATCATGATGCATTTCCAGGGGCTCAACGCCAACATCATGTCGCTGGGCGGGATCGCCATTGCGGTGGGGGCGATGGTCGATGCCGCCATCGTGATGATTGAGAACGCCCACAAGCGGCTGGAGGAGTGGACGCATCAGCATCCGGGAGAGAAGCTCGGCAACGACAGGCGCTGGAAAATCATTACCGATGCCTCGGTGGAGGTTGGCCCGGCGCTGTTTATCAGCCTGCTGATCATCACCCTGTCGTTTATCCCCATTTTCACCCTCGAAGGCCAGGAGGGCAAACTGTTCGGTCCGCTGGCCTTCACCAAAACCTGGTCGATGGCCGGAGCGGCGCTGCTGGCGATCATGGTGATCCCGATCCTGATGGGCTTCTGGATCCGCGGCAGGATCCCGGCGGAGAGCAGTAACCCGCTGAACCGCTTTTTGATCCGCATTTACCATCCGCTGCTGCTGAAGGTCCTGCACTGGCCGAAGACCACCCTGCTGATCGCGCTCCTGTCGATCCTGACGGTTGTCTGGCCGCTTAACCGGGTCGGCGGCGAGTTTCTGCCGCAGATCAACGAGGGCGATCTGCTGTATATGCCGTCAACACTGCCCGGGATCTCCGCCTCGCAGGCGGCGGATATGCTGCAGAAGACCGACAAGCTGATCATGACGGTGCCGGAGGTGGCGCGGGTGTTCGGCAAAACGGGTAAGGCAGACACCGCTACCGACTCAGCGCCGCTGGAGATGGTGGAGACCACCATTCAGCTTAAACCGCAGGATCAATGGCGGCCGGGGATGACCATGGAGAAGATCGTCGACGAACTGGACAAGACCGTGCGCCTGCCGGGGCTGGCGAACCTGTGGGTGCCGCCGATCCGCAACCGCATCGACATGCTCTCCACCGGCATCAAGAGCCCGATCGGCATTAAAGTTTCCGGCACTAACCTGGCCGATATCGACGCCATCGCCGGGCAAATTGAGGGGGTGGCGCGCAGCGTGCCGGGCGTGACCTCGGCGTTAGCCGAGCGGCTGGTGGGCGGGCGCTACCTCGACATTGATATTCAGCGTGAGAAGGCGGCCCGCTACGGGATGACCGTCGGCGACGTGCAGCTGTTCGTCTCGTCCGCTATCGGCGGGGCGATGGTCGGCGAAACGGTGGAGGGCGTCGAGCGATATCCGATCAACATCCGCTATCCGCAGAGCTACCGCGATAGCCCGCAGACCCTGCGCCAGCTGCCGATCCTCACCCCGCTGAAGCAGCAGATCGTCCTCGGCGACGTCGCCGAGGTGAAGGTGGTCAGCGGGCCATCGATGCTGAAGACCGAGAACGCCCGCCCCACCAGCTGGATCTACATCGACGCCCGCGACCGCGACATGGTGTCAGTGGTGCACGATCTGCAGCAGGCCATCGGCAAGGAGGTGAAGCTGAAGCCGGGCATCAGCGTGTCGTATTCCGGGCAGTTTGAGCTGCTGGAGCGCGCCAATCAGAAGCTGAAGCTGATGGTGCCGATGACGCTGATGATTATCTTTGTGCTGCTGTACCTGGCGTTCCGCCGCGTCGGCGAGGCGCTGCTGATCATCGCCAGCGTGCCGTTCGCCCTTGTGGGCGGGATCTGGTTCCTCTACTGGATGGGCTTCCATCTGTCGGTGGCCACCGGCACCGGCTTTATCGCCCTGGCCGGCGTGGCCGCGGAGTTTGGCGTGGTGATGCTGATGTACCTGCGCCACGCCATCGAGGCGGAGCCGGCGCTGGAGAACCCGCAGACCTTCAGCGCCGGGAAGCTCGACGAGGCGCTGTATCAGGGGGCAGTACTGCGCGTGCGGCCGAAGGCGATGACCGTGGCGGTGATTATCGCCGGCCTGCTGCCGATTTTGTGGGGCACCGGCGCCGGGTCGGAGGTGATGAGCCGCATCGCCGCGCCGATGATTGGCGGAATGATCACCGCCCCGCTGCTGTCGCTGTTTATTATTCCGGCGGCGTATAAGCTGATGTGGTTGTCCCGGCATCGGGGCAAGCGCGGCCGCTAG	MIEWIIRRSVANRFLVMMGALFLSLWGTWTIVHTPVDALPDLSDVQVIVKTSYPGQAPQIVENQVTWPLTTTMLSVPGARTVRGFSQFGDSYVYVIFEDGTDPYWARSRVLEYLNQVQGKLPAGVSAEMGPDATGVGWVFEYALVDRSGKHDLAELRSLQDWFLKYELKTIPNVSEVASVGGVVKEYQIVVDPMKLTQYGISLGEVKSALDASNQEAGGASVELAEAEYMVRASGYLQTLDDFKNIVLKTGDNGVPVYLGDVARVQVGPEMRRGIAELNGEGEVAGGVVILRSGKNAREAISAVKEKLASLQSSLPEGVEVVTTYDRSQLIDRAIDNLSHKLLEEFIVVALVCALFLWHVRSALVAIISLPLGLCFAFIMMHFQGLNANIMSLGGIAIAVGAMVDAAIVMIENAHKRLEEWTHQHPGEKLGNDRRWKIITDASVEVGPALFISLLIITLSFIPIFTLEGQEGKLFGPLAFTKTWSMAGAALLAIMVIPILMGFWIRGRIPAESSNPLNRFLIRIYHPLLLKVLHWPKTTLLIALLSILTVVWPLNRVGGEFLPQINEGDLLYMPSTLPGISASQAADMLQKTDKLIMTVPEVARVFGKTGKADTATDSAPLEMVETTIQLKPQDQWRPGMTMEKIVDELDKTVRLPGLANLWVPPIRNRIDMLSTGIKSPIGIKVSGTNLADIDAIAGQIEGVARSVPGVTSALAERLVGGRYLDIDIQREKAARYGMTVGDVQLFVSSAIGGAMVGETVEGVERYPINIRYPQSYRDSPQTLRQLPILTPLKQQIVLGDVAEVKVVSGPSMLKTENARPTSWIYIDARDRDMVSVVHDLQQAIGKEVKLKPGISVSYSGQFELLERANQKLKLMVPMTLMIIFVLLYLAFRRVGEALLIIASVPFALVGGIWFLYWMGFHLSVATGTGFIALAGVAAEFGVVMLMYLRHAIEAEPALENPQTFSAGKLDEALYQGAVLRVRPKAMTVAVIIAGLLPILWGTGAGSEVMSRIAAPMIGGMITAPLLSLFIIPAAYKLMWLSRHRGKRGR	PGPT0004060_771	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SILVER_RESISTANCE	SILVER_RESISTANCE-SILVER_TRANSPORT,PGPT0004060-cusA|silA-K07787	NA	NA
BMS020_08871	348			hypothetical protein	ATGAATCTGAACCTGGTATGTTATTCCCTGCTGCTGCTCACCGCTGTGGGCAGCGCCCTGCTCCCCTACCCGCTGGCGATGTGGTTTTTACTGAGCAGCCTTCTGACATGGCTTATCTATGGCGCCGACAAGCTGGCGGCGCGCAAAGCCTGGCGACGGGTGCCGGAAACCACGCTGCTGGTGCTCGGCCTGGCGGGAGGCTGGCCGGGGGCGATCCTCGGCCAGCAGTGTTTTCGCCATAAAACGCAAAAGCAGCCCTTCCGGACGTGGTTTTTCATCAGCGTGGCGCTGAACGTGGCGGCGCTGGCCGGGCTGTATGCGGTTTACTCTGGCATGCTCAGTCGCTAA	MNLNLVCYSLLLLTAVGSALLPYPLAMWFLLSSLLTWLIYGADKLAARKAWRRVPETTLLVLGLAGGWPGAILGQQCFRHKTQKQPFRTWFFISVALNVAALAGLYAVYSGMLSR				NA	NA	NA	NA	NA
BMS020_08872	534	blc_5	COG3040	Outer membrane lipoprotein Blc	ATGAAGCTATGGCCTGTTGTCACTGGCGTCGCTATCGCGTTGACCCTGGTGGCCTGCAAATCGCCCACCCCGCCGAAGGGCGTTCAGCCGATTAGCGGGTTTGACGCCAGCCGTTACCTCGGGAAATGGTATGAGGTCGCCCGCCTGGAGAATCGCTTCGAGCGAGGCCTGGAGCAGGTGACTGCCACCTACGGCGCCCGCAGCGATGGGGGGATCAGCGTCGTCAATCGCGGTTATGACCCGGTCAAAAAACGCTGGAATGAGAGCGACGGGAAAGCCTATTTCACCGGCGCCCCCACCACCGCGGCGCTGAAGGTGTCGTTCTTCGGGCCGTTCTACGGCGGCTATAACGTGATTCGTCTGGACGACGACTACCAGTATGCGCTGGTCAGCGGCCCCAACCGCGACTATCTGTGGATCCTGTCGCGCACCCCCACCATTCCGGCGGCGGTGAAGCAGGATTACCTGAATACCGCGCGCGAACTGGGCTTTGACGTCGATCGACTGGTGTGGATCCGCCAGACGCCGCGCTAG	MKLWPVVTGVAIALTLVACKSPTPPKGVQPISGFDASRYLGKWYEVARLENRFERGLEQVTATYGARSDGGISVVNRGYDPVKKRWNESDGKAYFTGAPTTAALKVSFFGPFYGGYNVIRLDDDYQYALVSGPNRDYLWILSRTPTIPAAVKQDYLNTARELGFDVDRLVWIRQTPR	PGPT0012970_1666	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012970-blc-K03098	NA	NA
BMS020_08873	729	mlrA	COG0789	HTH-type transcriptional regulator MlrA	ATGCCTTACTCCATCGGCGAATTTGCCCGACTTTGCGGGATAAATGCGACCACGCTTCGCGCCTGGCAGCGCCGCTATGGCCTGCTCAAGCCGCTGCGCACCGATGGTGGACACCGTCTGTACAGCGATGACGACGTCCAGCAGGCGCTTAAAATCCTCGACTGGGTGAAAAAAGGGGTGCCGGTCAGCCAGGTGAAGCCCCTGCTGTCGCGCCCCGGCGCGCGGCGCACCAACAACTGGCTGACGCTGCAGGAGACCATGCTGCAGCGGCTGAAAGAGGGAAAAATCGAATCCCTGCGCCAGCTGATCTACGATGCCGGCCGCGAATATCCGCGCCAGGAGCTGGTGACCGAGGTGCTGCGTCCGCTGCGCAGCCAGGTCTCCGCCAACGTGCCGGCCATCATGACCCTGCGCGAAATCCTCGACGGCATCATCATCGCCTACACCTCGTTTTGCCTCGAAGGCGACAAGAAGGCGCCCGGGGACAACTTTCTGATCACCGGCTGGCACCTGACCGACGCCTGCGAAATCTGGCTTGAAGCGCTCAAACGCACCGGCCAGGGCCATCGCATCGACGTCCTGCCGGTGCCTCCCGCCGCGCTGGCGCCGGAGATTTTCCCCCAGCGCAACTGGCTGCTGGTCACCAGCGGCAAACTCTCCGCCGCTCGTCAGAGGCAGGTCGAACTCTGGCAGCAGCAGGTCGTCTCCCTCGAGGTGATCCCGCTCTAA	MPYSIGEFARLCGINATTLRAWQRRYGLLKPLRTDGGHRLYSDDDVQQALKILDWVKKGVPVSQVKPLLSRPGARRTNNWLTLQETMLQRLKEGKIESLRQLIYDAGREYPRQELVTEVLRPLRSQVSANVPAIMTLREILDGIIIAYTSFCLEGDKKAPGDNFLITGWHLTDACEIWLEALKRTGQGHRIDVLPVPPAALAPEIFPQRNWLLVTSGKLSAARQRQVELWQQQVVSLEVIPL	PGPT0022250_49	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	SURFACE_ADHESIVE_FIMBRIAE,PGPT0022250-mlrA-K21089	NA	NA
BMS020_08874	435			hypothetical protein	ATGAGCACCACGCCGTCCGTCATTCGTCGTTTCGTTGAGTACTACGCCAGGCTGGATGCGCAGCCGCCCACGGCGCTGGCCGCGCTGTACCATCCGGACGCGACGCTGAGCGATCCTTTTGGTCAGCACCAGGGACTGTTCGCCATCCAGCGCTACTTTACCCATCTGCTGGCCAACGTGGAGCAGTGCCGGTTCACCATCGACGCGCCGCTCTGCGACGGTCAGCGGTTCGCCGTAACCTGGACCATGCACTGGTCGCATCCGCGTATTGCCGGCGGAGAAACCCTGGCCCTGCCGGGCTGCTCGGTGGTGGACATCGCCGGGGAGCAGGTTCTCCACCAGCGCGACTACTACGACGCCGGGGAGATGATCTACGAGCACCTTCCCCTGCTGGGCTGGGCGGTACGCGGCGTGAAACGGAGGGTGCGCTCATGA	MSTTPSVIRRFVEYYARLDAQPPTALAALYHPDATLSDPFGQHQGLFAIQRYFTHLLANVEQCRFTIDAPLCDGQRFAVTWTMHWSHPRIAGGETLALPGCSVVDIAGEQVLHQRDYYDAGEMIYEHLPLLGWAVRGVKRRVRS				NA	NA	NA	NA	NA
BMS020_08875	720			hypothetical protein	ATGATGACGGTGCTTATCACCGGCGCCAGCTCCGGGATCGGCGCCGGCCTGGCGAAATCCTTCGCGGCGGATGGCCACCTGGTCATCGCCTGCGGGCGCGATGCTTCGCGCCTGACGGCGCTGCAGCAGTTCAGCCCCAACATCAGCGCGCGCCTGTTCGATATGACAGACAGGGACGCCTGTCGCCAGGCGCTGACGGGCTGTTTTGCCGACCTGATCATTCTCTGCGCCGGCACCTGCGAATACCTCGACCACGGGCAGGTGGATGCCGCCCTCGTGGAGCGGGTGATGGCCACCAACTTCCTCGGGCCGGTGAACTGCCTGGCGGCGCTGCAGACGCAGCTGGAGGCAGGCGATCGGGTGGTGCTGGTCAGCTCCATGGCGCACTGGCTGCCCTTCCCGCGCGCGGAAGCCTATGGCGCCTCCAAGGCGGCGCTGACCTGGTTTGCCAATAGCCTGCGTCTGGACTGGGAGCCGAAAGGGGTCGCCGTCACGGTGGTCTCTCCAGGCTTCGTCGACACCCCGCTGACGCGCAAAAACGACTTTGCCATGCCCGGCCGGGTGAGCGTCGATCGGGCGGTGGCGGCGATCCGCCACGGCCTGGCGAAGGGCAAAAACCACATCGCCTTCCCCACCGGCTTCAGCCTGGCCCTGCGGCTGCTGGCCAGCCTGCCGTCAGGTATACAGCGCCTGCTGTTGCGCAGGATGGTGCGCTCATGA	MMTVLITGASSGIGAGLAKSFAADGHLVIACGRDASRLTALQQFSPNISARLFDMTDRDACRQALTGCFADLIILCAGTCEYLDHGQVDAALVERVMATNFLGPVNCLAALQTQLEAGDRVVLVSSMAHWLPFPRAEAYGASKAALTWFANSLRLDWEPKGVAVTVVSPGFVDTPLTRKNDFAMPGRVSVDRAVAAIRHGLAKGKNHIAFPTGFSLALRLLASLPSGIQRLLLRRMVRS				NA	NA	NA	NA	NA
BMS020_08876	1260			hypothetical protein	ATGAACATCGCCATCATCGGCAGCGGCATCGCCGGGCTGACCTGCGCCTGGCGGCTGGCCGGACACCATCAGGTGACGCTGTTCGAAGCGGGCGCCGCGCCGGGCGGCCACACCGCCACCGTGGATGTCGCCACGCCGCAGGGCACCTGGGCCATCGATACCGGATTTATTGTCTACAACGATCGCACCTATCCGCGCTTTATGGGCCTGCTCAGCGAGCTGGGGATCGACGGGCAAAAAACGCAGATGAGCTTCTCGGTCCACAACCCGGCCAGCGGCCTGGAGTACAACGGCCACAGCCTGACCTCGCTCTTCGCCCAGCGGCGCAATCTGCTGAAGCCGGCCTTCTGGGGGCTGCTGAGCGAGATCGTCCGCTTCAACCGGCTGGCGAAACTGGCGCTGACCGAGGCGCTGGATCCGGGGGCGACGCTGGAGAGCTTCCTCGCCCGCCACCGCTTCAGCCCCTTCTTCGCCCGCCACTATATCCTGCCGATGGGGGCGGCCATCTGGTCGTCGTCGCTGCAGGAGATGCGCCGCTTCCCGCTGCCGCTGTTTTTGCGCTTCTTTGAACACCACGGCCTGCTGGACATTCGCGATCGCCCGCAGTGGTACGTGGTGCCCGGCGGTTCCCGGGAATACGTTCGCGCCCTGCTCGCCAGGCTCGGCGACCGCCTGGACCTGCGGCTCAACGCGCCGGTGCAGCAGGTGGAGCGCCACCCGACAGGGGTTACCCTGCGGCTGGCGTCCGGGGAGGCGCATTTTGACCAGGTGATCTTCGCCTGCCACTCCGCGCAGGCGCTGGCGATGCTGGCGGCGCCCACCGACGCCGAGCGTGAGGTGCTGGGGGACATCGGCTGGCAGCGCAACGAGGTGGTGCTGCACAGCGATCCGCGCTGGCTGCCGGCGCGTCAGCTCGCCTGGGCCAGCTGGAACTATCGCCTGAGCGACGGGGATCGGGCCCGGGCCTGCGTCACCTACAACATGAATATTCTCCAGGGGCTGCCCGCGGGCGCGCCGCTGTTCTGCGTCACCCTGAACCCGGACGCGCCGGTGGACGAGCGCTACGTCTGGCAGCGCTTCGTCTATGAGCATCCGCTGTTTAACCCGAAAAGCTGGTCGGCCCAGCTGCGGCGCGACGAGATTAACGGCCAGCAGCGGAGCTGGTACTGCGGGGCCTACTGGTACAACGGCTTTCATGAGGACGGGGTGCGCAGCGCGCTCGACGTGGTGCAGGGCATCGCCGCGGCGGAGGGCAACTGA	MNIAIIGSGIAGLTCAWRLAGHHQVTLFEAGAAPGGHTATVDVATPQGTWAIDTGFIVYNDRTYPRFMGLLSELGIDGQKTQMSFSVHNPASGLEYNGHSLTSLFAQRRNLLKPAFWGLLSEIVRFNRLAKLALTEALDPGATLESFLARHRFSPFFARHYILPMGAAIWSSSLQEMRRFPLPLFLRFFEHHGLLDIRDRPQWYVVPGGSREYVRALLARLGDRLDLRLNAPVQQVERHPTGVTLRLASGEAHFDQVIFACHSAQALAMLAAPTDAEREVLGDIGWQRNEVVLHSDPRWLPARQLAWASWNYRLSDGDRARACVTYNMNILQGLPAGAPLFCVTLNPDAPVDERYVWQRFVYEHPLFNPKSWSAQLRRDEINGQQRSWYCGAYWYNGFHEDGVRSALDVVQGIAAAEGN	PGPT0007680_25	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-PHOSPHOLIPID_PRODUCTION	PLANT_SIGNAL-PHOSPOLIPID_METABOLISM	PLANT_SIGNAL-CYCLOPROPANE-FATTY-ACYL-PHOSPHOLIPID_BIOSYNTHESIS,PGPT0007680-cfa-K00574	NA	NA
BMS020_08877	723			hypothetical protein	ATGAACAGCTGCCTCTATCAGGGCGTCCTGCGCCACCGTCGCCTGCAGCCGAAGGCGCACCACTTCGTCTACCGCCTGTTTATGGCCTGGCTTGACCTCGACGAACTGGACAGGCTGCCTGAGGCGGGCATCCGCCGCAACCGCCTGGCCGCCGCCGCCTGGTACGACGCCGATTATCCGCTGGGCGCGCCGCTGAAGGCCCAGGCGCTGAACCGGCTGGAGAGCCTGACCGGCTGCCGCCCGACGGGACGCGTGATGCTCCTGACCCAGCTGCGCTACTTCGGCTTCCATTTTAATCCGGTCAACTTTTACTACTGCTATGACGAGGCCGACACCCTGCGCTGGGTGCTGGCCGAAGTGCGCAACACGCCGTGGAATGAGCGTCATTACTACGCGGTGGACGGCCAGCAGGCGCGCCCGCTGGAGAAAGCCTTTCACGTTTCGCCGTTTAACCCGATGGACATGGTCTATCACTGGCGCTTCAACGCGCCCGGCAAAACGCTGCACATGCATATTGAAAACCATCAGGCCAGCAAGGTGTTCGACGCCACGCTGGCCCTGAGCCGCGTGCCGTTAACCCGCGCCAACCTGCGCGGGCTGCTGCTGCGTCTGCCTATGATGACCCTGAAAACCGTCCTCGCCATCTACTGGCAGGCGCTGCGGCTGTGGCTGAAGCGCGTGCCGCTGTACAACCATCCTGTCAGCAGGAGTGAACGCTCATGA	MNSCLYQGVLRHRRLQPKAHHFVYRLFMAWLDLDELDRLPEAGIRRNRLAAAAWYDADYPLGAPLKAQALNRLESLTGCRPTGRVMLLTQLRYFGFHFNPVNFYYCYDEADTLRWVLAEVRNTPWNERHYYAVDGQQARPLEKAFHVSPFNPMDMVYHWRFNAPGKTLHMHIENHQASKVFDATLALSRVPLTRANLRGLLLRLPMMTLKTVLAIYWQALRLWLKRVPLYNHPVSRSERS				NA	NA	NA	NA	NA
BMS020_08878	1221	ufaA1_2	COG2230	Tuberculostearic acid methyltransferase UfaA1	ATGACCGATCCCGTCTTTGCGCTTGAACCCGATGTGCCGCGCAACGTGCGGCTCGCGCGCTGGCTGCTCTTTCGTCTGTTGAGCGGCCTCCGCGAAGGCTCGCTCACCGTGCGCGAAGGGGCGCAGACTTTTCATTTTGGCGACCCCGCCGCCGCGCTGCGCGCCGAGGCGCGGGTCTGCACGCCGGAGGTGTACTGGCGTCTGCTGACCGGCGGCAGCCTGGCGGCGGCCGAGGCCTGGATGGACGGCGACTGGGAGAGCCACCAGCTGACGGCGCTGCTGCAGATCCTTGCGCGCAACGGCGAGGTGCTGGGGCGTCTGGAGCGCGGCTTTCGTCTGCTGGGCAAGCCCGTCGCCCGCCTGCGCCACTGGACCCGCCGCAACACCCGCGCTCAGGCGCGGGAGAACATCGCCGCCCATTACGACCTCGGCAATGAATTTTATGCCCACTTTCTGGATGACGATCTGCTCTACTCCAGCGCGCTGTTTGCCGACGACCAGCAGGATCTGACCCAGGCCCAGCGGGCCAAGATGGCGCGCCTGTGCGACCAGCTGGCGCTCACTCCCGGCGATCATCTGCTGGAGATTGGCACCGGCTGGGGGGCGCTGGCCGAGTACGCCGCCCGCCATTACGGCTGCCGGGTCACCACCACCACCCTCTCCCGGGAGCAGCACCGCTGGGCTACCGAGCGCATGGCCCGCGCCGGGATGCAGGATCGCGTCGAGGTGCTGCTCTGCGACTACCGCGATCTGCGCGGCGAGTACGACAAACTGGTGTCGGTGGAGATGATTGAGGCGGTGGGCCAGCGCTACCTGCCGGCCTTTTTCCGCACCTGTCAGGCGCGCCTGCGCCCGGGCGGCAAAATGGCCCTGCAGGCGATCACCATCCAGGATCAGCGCTATCGCGACTACAGCAAAAGCGTCGATTTTATCCAGCGCTATATCTTCCCGGGCGGCTTTTTGCCCAGCATCACGGCAATGAGCGAGCTGATGACCCGCCATACCGATTTTGTGGTGCGCAACCTGTTCGACATGGGCCCGGACTATGCCCGCACGCTGGCGCACTGGCGGCAGCGTTTTACCCATGCCTGGCAGGATATTGAAAAGCTCGGCTTTGATGAGCGCTTCCGGCGGATGTGGCTCTACTACTTCGGCTACTGCGAAGCCGGATTTAACGCCCGCACCATCAGCGTGGTGCAGCTCACCGCGGAGCGGGTATGA	MTDPVFALEPDVPRNVRLARWLLFRLLSGLREGSLTVREGAQTFHFGDPAAALRAEARVCTPEVYWRLLTGGSLAAAEAWMDGDWESHQLTALLQILARNGEVLGRLERGFRLLGKPVARLRHWTRRNTRAQARENIAAHYDLGNEFYAHFLDDDLLYSSALFADDQQDLTQAQRAKMARLCDQLALTPGDHLLEIGTGWGALAEYAARHYGCRVTTTTLSREQHRWATERMARAGMQDRVEVLLCDYRDLRGEYDKLVSVEMIEAVGQRYLPAFFRTCQARLRPGGKMALQAITIQDQRYRDYSKSVDFIQRYIFPGGFLPSITAMSELMTRHTDFVVRNLFDMGPDYARTLAHWRQRFTHAWQDIEKLGFDERFRRMWLYYFGYCEAGFNARTISVVQLTAERV	PGPT0007680_2831	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-PHOSPHOLIPID_PRODUCTION	PLANT_SIGNAL-PHOSPOLIPID_METABOLISM	PLANT_SIGNAL-CYCLOPROPANE-FATTY-ACYL-PHOSPHOLIPID_BIOSYNTHESIS,PGPT0007680-cfa-K00574	NA	NA
BMS020_08879	486			hypothetical protein	ATGACACGCCCGGCGCAGCACCTGCTGATGGCCCTCGCGTTCGATGTTTACTGGACGCTGGTGGTGATGTTGCGCGAGCGCGGCCTGCTGATCTGGCTGACGCTGGCGCTGTTCGCCTGGCTGCGGTTGCCGGCGGCCAGTCGTCCGCCCGCTCTGCTGTTGGCTGCGGCGGGCTGCGGGCTGGACGCCTGCTGGGCGCTGGCGGGACTGATTGATTTTCCCGGCGACAGCCTGCTGCCCCTGTGGATGGTGGCCCTGTGGCTGATGTTCGCCGTCGTCTGGACTCGGCTGACCCGCACCACGACGCTTCCCGGCTGGGTGCTGGCCGCGGCGGCCACCGTCGGCGGCCCGGTGGCCTACCTGATCGGCGCTCGCCTCGGAGCCATGACCCTGCTGGTACCGACGGCGCTTGCCGTGGCCGCCATGGCCTGCGGCTGGCTGGTGCTCATGCTGTTGTTCCATCTGGGGATGGGGAGGCAAAAATGA	MTRPAQHLLMALAFDVYWTLVVMLRERGLLIWLTLALFAWLRLPAASRPPALLLAAAGCGLDACWALAGLIDFPGDSLLPLWMVALWLMFAVVWTRLTRTTTLPGWVLAAAATVGGPVAYLIGARLGAMTLLVPTALAVAAMACGWLVLMLLFHLGMGRQK				NA	NA	NA	NA	NA
BMS020_08880	525			hypothetical protein	ATGAGATTCGCCCTGTTACTGCTGTGGCTGAGCGCCCTCGCCCCGGCGGCCCACGCCGCCGACTGGCTGACGTGGCGCCGCGTCGGCGAGGCGACCCTCACCTGGGGGCCGTTCACTGTCTATCACTCACTGCTGCGCACGCCCAATGGCCGGTATGCCGGCCCGCAGCAGGATCGGGCGCTGATCATCACCTACCGGCGCGACATCGATCGCGAGGCGCTGGTGGAGGCCACCCGCGACCAGTGGCAAGCGCAGGGCATTCTGCAGCAGGAGCCGCGCAGCGAAGCCTGGCTGCGCATGCTGCAGGGGATCTGGCCGGACGTTGCGTCGGGCAGCCAGCTGGCGTTCGTGGTCAGCGGCGGCGAGGGGCAGTTCTGGTACCGCGCCAGCGCCGCGCAGACCGCCTTTACCCCGCTCGGCCCGCGCCAGTCGGCGGCGTTCAGCACCCGCTTTCTCGCCATCTGGCTCGATCCGCGCACCACTTATCCCGAACTGCGTCAGCAGTTGATCGGAGGTACACCATGA	MRFALLLLWLSALAPAAHAADWLTWRRVGEATLTWGPFTVYHSLLRTPNGRYAGPQQDRALIITYRRDIDREALVEATRDQWQAQGILQQEPRSEAWLRMLQGIWPDVASGSQLAFVVSGGEGQFWYRASAAQTAFTPLGPRQSAAFSTRFLAIWLDPRTTYPELRQQLIGGTP				NA	NA	NA	NA	NA
BMS020_08881	558			hypothetical protein	ATGAAACGCATTCTGACCCGTGGCCTGGCGCTGCTGATGCTGATGCTGATGCTCGCCGGCTGCAGCACCGAGGTCACCGAGTACCGGCAGCAGCAGCCCGCCCTCGACATCTTCCACTATTTTCAGGGCCAAACCGAGGCGTGGGGGATGGTGCAGGATCGCCGCGGCAAACAGCTGCGCCGCTTCCATGTAGCGATCGATGGCGACGTCGTCGGCGACACCCTGACGCTCCATGAGCGCTTTGTCTATGACGATGGCGAGAAACAGCAGCGGGTGTGGCGCATTCGCCGCACCGGCGATAACCGTTATCAGGGCACCGCCGGGGATATCGAAGGCGTGGCCAGCGGCCAGGCGGCAGGCAATGCCTTTCACTGGCGCTACAGCATGAACGTCGAGGCCAGCGGCAGCCGGTGGCTGCTGCACTTTGACGACTGGATGTTCCTGCAGGACGGCAGCCATTTGTTTAACAAAACCGAGATGAAGAAATTCGGCATTACGGTGGCCACCGTGACCCTTTTCTTTACCCGAACCACAGCAGAAGAGAGGACAGCGCCATGA	MKRILTRGLALLMLMLMLAGCSTEVTEYRQQQPALDIFHYFQGQTEAWGMVQDRRGKQLRRFHVAIDGDVVGDTLTLHERFVYDDGEKQQRVWRIRRTGDNRYQGTAGDIEGVASGQAAGNAFHWRYSMNVEASGSRWLLHFDDWMFLQDGSHLFNKTEMKKFGITVATVTLFFTRTTAEERTAP				NA	NA	NA	NA	NA
BMS020_08882	960			hypothetical protein	ATGAACACGCAACCTGTCATTGGGATCAGCGGATGTTTAACCGGCTCAGCCGTGCGATTCGACGGCGGGCATAAGCGTATGGGCTTTGTGATGGATGAGCTCGCGCAGTGGGTGGCGTTTAAGCCCGTCTGCCCGGAGATGGCGATCGGCCTGCCCGTTCCCCGCCCGGCGCTCCGGCTGGTGCAGACCCCGGTCGGGGAGATCCGCATGCGCTTCAGCCACGCCCCGCACGAGGATGTGACGGAGAAGATGACCGATTTCGCCAACGCCCATCTGGCAACCCTGGGCGAGCTGTCGGGCTTTATCGTCTGCGCCAAATCGCCGAGCTGCGGGATGGAGCGCGTGCGGCTGTATGATGAAAAAGGCAATCGCGGGCGTAAGGAAGGCGTGGGGCTGTTTACCGGCGCCCTGATGGCGCGCTACCCGTGGCTGCCGGTGGAAGAGGATGGCCGGCTGCACGATCCGCTGCTGCGGGAGAATTTTGTCGAGCGCGTCTTCGCCCTGCATGAACTCAACGCCCTGCGCGCCCGCGGCCTGACCCGCCACGGCCTGCTGGCCTTTCACAGCCGCTACAAGCTGCAGCTGCTGGCTCATCACCAGGCGGGCTACCGCGAGATCGGCCCCTTCGTCGCCTCGCTGCATGAATGGGAGGATCTGGAGGCTTTCTTCGAGGTCTACCGCGAGAAGCTGATGGCGATCCTCAAGCGGCCCGCCTCGCGGAAAAACCACACCAACGTGCTGATGCATATTCAGGGTTATTTCCGCGACCAGTTGAACAGCCGCCAGCGCGGCGAGCTGCGGGAGGTGATCCTCAACTATCGCGCCGGGCTGCTGCCGATCCTCGCGCCGCTGACGCTGCTTAAGCACTATCTGGCCGAGTATCCGGATCGCTACCTGCAGGCGCAGAACTATTTTGACCCCTACCCGCAGGATCTTGCCCTGCGCCTGACGGTGAACTGA	MNTQPVIGISGCLTGSAVRFDGGHKRMGFVMDELAQWVAFKPVCPEMAIGLPVPRPALRLVQTPVGEIRMRFSHAPHEDVTEKMTDFANAHLATLGELSGFIVCAKSPSCGMERVRLYDEKGNRGRKEGVGLFTGALMARYPWLPVEEDGRLHDPLLRENFVERVFALHELNALRARGLTRHGLLAFHSRYKLQLLAHHQAGYREIGPFVASLHEWEDLEAFFEVYREKLMAILKRPASRKNHTNVLMHIQGYFRDQLNSRQRGELREVILNYRAGLLPILAPLTLLKHYLAEYPDRYLQAQNYFDPYPQDLALRLTVN				NA	NA	NA	NA	NA
BMS020_08883	462			hypothetical protein	ATGATGCAATCCCGCCGGATCGACCCCCTGCTGCGCCGCGCGCAGGAACACGAAGACGAAGTCGCGCGCGACCTGGCCGAACGCCAGCGCCTGCTCGACACCCACGTCGCCCGCCTCGCCGAGCTGCGACGCTACGCCGAGGAATACGCCCACGGTCAGGTCGCCGCGACCAGCCCGGCCGCGCTGAGCAACCGCCAGGCCTTCCTCGACCGGCTCGACAGCGCCGTGCAGCAGCAGGCCCAGACCGTCGACCAGAACCGCGCCAAGGTCGAGGCCGAACGCGCCCGGCTGATCCTGGCCAGCCGCGAGAAGCAGGTGCTGGAACAGCTGGCCGCCAGCTACCGCGCGCAGGAACAGCAGGTCGTGGCGCGCCGCGAGCAGCGCGAGATGGACGACCTCGGTGGGCGCCGCGCACGCGCCGCCGCGGTCGAACGCAACGAGGACAACGGAGGCAACGCATGA	MMQSRRIDPLLRRAQEHEDEVARDLAERQRLLDTHVARLAELRRYAEEYAHGQVAATSPAALSNRQAFLDRLDSAVQQQAQTVDQNRAKVEAERARLILASREKQVLEQLAASYRAQEQQVVARREQREMDDLGGRRARAAAVERNEDNGGNA	PGPT0015615_355	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015615-fliJ-K02413	NA	NA
BMS020_08884	1371	fliI	COG1157	Flagellum-specific ATP synthase	ATGGGCGCCAGCCCCGCCGACTGGCTGGAAGCGCGCAACCTGCGCCTGGCCACGCGGCTGGACGCGATCGGGCTGGACACTCACGGCGGCCGCGGCCTGACCCGCGAAGGCGTGCTGCGCCGCGCGGTCGGCCTGACCCTGGAAGCGGTCGGCTGCGAGGCGCCGATGGGCGCCACCTGCAAGGTCGAAGTGGTCGACGGCGGCTGGGTCGACGCCGAGGTGGTCGGCTTCGCCGGCGACCGCACCTACCTGATGCCCAGCGCCGAACTGCACGGTCTGCTGCCGAACGCGCGCGTGGTGCCCTCGCGCCAGCGCGGCGGCGTCGAGGTCGGCGAAGGCCTGCTCGGCCGGGTCATCGATTCGGACGGCGTGCCGCTGGACGGCAAGGGCCCGATCCGGGCCGAAGGCACCGCCGGGATGGCTGGCGTGTCGATCAACCCGCTCTCGCGCGAGCCGATCACCACCCCGCTGGACGTCGGCGTGCGCGCGATCAACGCGCTGCTGCCGATCGGCCGCGGCCAGCGCGTGGGCCTGTTCGCCGGTTCCGGCGTCGGCAAGTCGACGCTGCTGGGCATGATGACCCGCTACACCGCCGCCGACGTGATCGTGGTCGGGCTGATCGGCGAACGCGGCCGCGAAGTGCGCGATTTCGTCGAGACCACGCTGGGCGAGGAAGGACTGCGCCGCGCGGTGGTCGTCGCCGCCCCGGCCGACCGCCCGCCGCTGGCGCGCCTGCACGGCGCCTACCGCGCCACCGCGATCGCCGAATGGTTCCGCGACCAGGGCCTGAACGTGCTGCTGCTGATGGACTCGCTGACCCGCTTCGCCCAGGCCCAGCGCGAGATCGGCCTGTCGGTCGGCGAGCCGCCGACCACCCGCGGCTACCCGCCGAGCGTGTTCGCCAAATTGCCGGCGCTGGTCGAACGCGCCGGCAACGGCGCCAAGGGCCGCGGCTCGATCACCGCCTTCTACACCGTGCTGACCGAAGGCGACGATCCGCAGGACCCGATCGCCGACGCCGCCCGCGCGATCCTCGACGGCCACATCCTGCTGTCGCGCCGGGTCGCCGATTCGGGCCTGTATCCGGCCATCGACGTCGAATCCTCGGTCAGCCGCGTGGTCCAGGACATCGCCGACGAGCCGTGGCGGCTGCGCATCCGCAAGCTCAAGCGGCTGGTCTCGGCCTATTCGGCCAACCGCGACCTGATCGCCATCGGCGCCTACCAGCGCGGCAACGACCCCGCCACCGACGAGGCCCTGCTGCGCTGGCCGGAGATCGTCGAATTCCTCGGCCAGGACGTCCACAAGGCCGCCGACCTGCCCCACAGCCTGGCTGCCCTCAAGCAGCTGGTCGAACGTGAAGCCGCGTAA	MGASPADWLEARNLRLATRLDAIGLDTHGGRGLTREGVLRRAVGLTLEAVGCEAPMGATCKVEVVDGGWVDAEVVGFAGDRTYLMPSAELHGLLPNARVVPSRQRGGVEVGEGLLGRVIDSDGVPLDGKGPIRAEGTAGMAGVSINPLSREPITTPLDVGVRAINALLPIGRGQRVGLFAGSGVGKSTLLGMMTRYTAADVIVVGLIGERGREVRDFVETTLGEEGLRRAVVVAAPADRPPLARLHGAYRATAIAEWFRDQGLNVLLLMDSLTRFAQAQREIGLSVGEPPTTRGYPPSVFAKLPALVERAGNGAKGRGSITAFYTVLTEGDDPQDPIADAARAILDGHILLSRRVADSGLYPAIDVESSVSRVVQDIADEPWRLRIRKLKRLVSAYSANRDLIAIGAYQRGNDPATDEALLRWPEIVEFLGQDVHKAADLPHSLAALKQLVEREAA	PGPT0015340_638	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015340-fliI|lgiI-K02412	NA	NA
BMS020_08885	615			hypothetical protein	ATGAGCAACGTGGTGCGCTGGCTGGCCCCCGAGCTGGACGTGCTGCCGCCCGCCCCGGAGGCAGCGGTCGAGGCCGAACCGCCCCCCCCGCCGCCGCGCCCGCCGACGCTGGAGGAAATCCAGGCGATCCAGGATGCGGCCTACCAGGAAGGACTGGAACGCGGCCATGCCGAGGGCTTCGCCCAGGGCCAGGCCGAGGTGCGGCGACTGACCGCGCAGATCGACGGCATCCTGGACAACTTCAGCCGGCCGCTGTCGCGGCTGGAGAACGAGGTGGTCGGCGCGCTCGGCGAACTGGCGGTGCGCATCGCCGGCAGCCTGGTCGGCCGCGCCTACGAGGCCGACCCGGTGCTGCTGTCGGATCTGGTGACCGAGGCGATCGAAGCGGTCGGCGGCGCCAGCCGCGAGGTCGAGGTGCGCCTGCACCCGGACGACATCGCCGCGCTGACTCCGCTGCTGTCGCTGATGTCGGGCACCCGGCTGACCCCGGACATGGGTCTGAGCCGCGGCGACCTGCGCGTGCACGCCGAGAGCGTGCGCATCGACGGCACCCTGGACGCACGCCTGCGCGCGGCGCTGGAGACGGTGCTGCGCCGCGCGGGAGCCGGCACGTGA	MSNVVRWLAPELDVLPPAPEAAVEAEPPPPPPRPPTLEEIQAIQDAAYQEGLERGHAEGFAQGQAEVRRLTAQIDGILDNFSRPLSRLENEVVGALGELAVRIAGSLVGRAYEADPVLLSDLVTEAIEAVGGASREVEVRLHPDDIAALTPLLSLMSGTRLTPDMGLSRGDLRVHAESVRIDGTLDARLRAALETVLRRAGAGT	PGPT0015335_2390	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015335-fliH-K02411	NA	NA
BMS020_08886	1011	fliG	COG1536	Flagellar motor switch protein FliG	GTGAAGCCTGATACACCCCCGCTCAACGGCGTCCAGCGCGCCGCGGTCCTGCTGCTGTCGCTCGGCGAGGCCGATGCCGCCGAGGTGCTCAAGCACATGGAGCCGAAGGAGGTGCAGAAGATCGGCATCGCCATGGCGACCATGGCCGGGGTCAGCCGCGAGCAGGTCGAGCGGGTGATGGACGACTTCAACGACGAGCTGGCCGGCAAGACCTCGCTCGGCGTGGGCGCCGATGACTACATCCGCAACATGCTGATCCAGGCGCTGGGCCAGGAGAAGGCGGCCGGCCTGATCGACCGCATCCTGCTCGGCCGCAACACCACTGGCCTGGACACCCTGAAGTGGATGGACCCGCGCGCGGTCGCCGACCTGGTGCGCAACGAACACCCGCAGATCATCGCCATCGTGATGGCGCACCTGGACAGCGACCAGGCCGCCGAATCGCTCAAGCTGCTGCCCGAGCGCACCCGCGCCGACGTGCTGCTGCGCATCGCCACGCTCGACGGCATTCCGCCCAACGCGCTGAGCGAGTTGAACGAGATCATGGAGCGCCAGTTCGCCGGCAACCAGAACCTGAAGTCGTCCAACATCGGCGGCGTCAAGTGCGCGGCCAACATCCTCAACTTCCTCGAGTCCGGCCAGGACCAGGGCGTGCTGCAGGCGATCGGCAAGGTCGATGCCGACCTGGCCAGCAAGATCCAGGACCAGATGTTCGTGTTCGACAACCTGGTCGAACTGGACGACCGCGCGATCCAGACCCTGCTGCGCGAGGTCTCCGGCGAGAAGCTGGGCCTGGCGCTGCGCGGCGCCGATGCCAAGGTCAAGGAGAAGATCACCCGCAACATGTCCCAGCGCGCCGCCGAGATCCTGCTCGAGGACATGGAAGCGCGCGGCCCGGTGCGGCTGGCCGATGTCGAAGCGGCGCAGAAGGAAATCCTCACCATCGTGCGCCGCCTGGCTGACGAAGGCGCCATCGCCCTCGGCGGCGGCGGTGCGGAGGCGATGATATGA	MKPDTPPLNGVQRAAVLLLSLGEADAAEVLKHMEPKEVQKIGIAMATMAGVSREQVERVMDDFNDELAGKTSLGVGADDYIRNMLIQALGQEKAAGLIDRILLGRNTTGLDTLKWMDPRAVADLVRNEHPQIIAIVMAHLDSDQAAESLKLLPERTRADVLLRIATLDGIPPNALSELNEIMERQFAGNQNLKSSNIGGVKCAANILNFLESGQDQGVLQAIGKVDADLASKIQDQMFVFDNLVELDDRAIQTLLREVSGEKLGLALRGADAKVKEKITRNMSQRAAEILLEDMEARGPVRLADVEAAQKEILTIVRRLADEGAIALGGGGAEAMI	PGPT0015400_1659	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_C-RING,PGPT0015400-fliG-K02410	NA	NA
BMS020_08887	1746	fliF	COG1766	Flagellar M-ring protein	ATGGCACTCGCGCTCACCAAGGAAAACCTGAGCAACACGTCGGAGAAAGCCGGCGCGTGGTTCGACCGCATCCAGAGCCTGCAGATCACCCGCAAGCTCGGGCTGATGGCGATGATCGCCGTGGCCGTGGGTGCGGGCCTGTTCGTGTTCTTCTGGTCGCAGAAGCCGGGCTATGCCCAGCTCTACACCGGCCTGGACGACCGCGGCAACGCCGAGGCCGCCGACCTGCTGCGCACCGCGCAGATCCCGTTCAAGATCGACCAGACCACCGGTACGATCTCGGTACCGCAGGACCGCCTGTACGACGCGCGCCTGAAGCTGGCCGGTTCCGGCCTGACCGGCCAGGACAACGGCGGCGGCTTCGAGCTGATGGAGAAGGACCCCGGCTTCGGCGTCAGCCAGTTCGTCGAGACCGCGCGCTACCAGCATGCGCTGGAGACCGAGCTGGGCCGCACCATCGCCGCGCTGCGCCCGGTGCGCGACGCGCGCGTGCACCTGGCCATCCCCAAACCCAGCGCCTTCACCCGCCAGCGCGACGTCGCCAGCGCCTCGGTGGTGCTGGAACTGCGCGGCGGCCAGCTGCTGGCCATCGACCAGGTGAACGCGATCGTGCACCTGGTCGCCTCCTCGATCCCCGACCTGGCGCCCGAGCGGGTGACCGTGGTCGACCAGAGCGGACGCCTGCTCAGCCAGACCGACCCCAACAGCGAAGAAGCGATCAGCGCCAAGCAGTTCGAGCAGACCCGCAAGCTGGAAGACAGCTACAGCCGCCGCATCCGCGAACTGCTGGAGCCGATCACCGGCACCGGCCGGGTCAACCCCGAAGTCAGCGTGGACATGGACTACTCCACCTTCGAGGAGGCCCGCGAGCTGTACGGCGAGCCGCCGAAGCTGCGCAGCGAGCAGGTCAGCGAGAACACCAACACCAGCGCCGGCCCGCAGGGCGTGCCCGGCGCCACCAGCAACACCCCGCCCGGTCCGGCCGCCCCCGGCCAGCCGGCGCCGGCCGCCAACGGCGCCGCGGTGCCCGGCACCGCCGGCACCGCCCAGCAGACCGCTGCCGCGGCCACGCCGACCGAAAGCGCCAAGAGCGCCACCCGCAACTACGAGCTGGACCGCACCCTGCAGCACAGCAGCCAGCCGGCCGGGCGCGTGCGCCGGGTCTCGGTGGCGGTGCTGATCGACCACGTGCCGCGCCCCGGCGCCAACGGCAAGGTCACCGAGCAGGCGCTGAGCGCGGCCGAGCTGACCCGGATCGAGGCGCTGGTGAAGCAGGCCGTCGGCTTCGACACCAACCGCGGCGACACCGTCTCGGTGATGAACGCTCCGTTCGTGCGCGAGGCCACCCCGGCCGCCGAAGGCCCCAAGTGGTGGGAAGATCCGCGCGTGCAGAACTGGATCCGCCTCGGCGTGGGTGCGCTGGTGGTGCTGGTGCTGGCGTTCGGCGTGGTACGCCCGGCGCTGCGCCAGATTGCCGGCCCCGCCCCGGCGCGATCCAAACACAGCGACAAGCAGGGCGACCGCGCCGAACCGCACAGCGCCGACGTGCGCATGCTCGACGACGAGGACGCGCTGCTGGCCGGGCTGGAGGCGGACAGCGCCCGCATCGGCGCCGAGCGCAAGGACGCGATCCCGCTGCCGTCCAGCGCCTATGAAGACCGGCTGCGCCAGGCGCGCGAAGCGGTCAAGTCAGACTCCAAGCGGGTCGCGCAACTCGTGAAGGGATGGGTCGCAAGTGAAGCCTGA	MALALTKENLSNTSEKAGAWFDRIQSLQITRKLGLMAMIAVAVGAGLFVFFWSQKPGYAQLYTGLDDRGNAEAADLLRTAQIPFKIDQTTGTISVPQDRLYDARLKLAGSGLTGQDNGGGFELMEKDPGFGVSQFVETARYQHALETELGRTIAALRPVRDARVHLAIPKPSAFTRQRDVASASVVLELRGGQLLAIDQVNAIVHLVASSIPDLAPERVTVVDQSGRLLSQTDPNSEEAISAKQFEQTRKLEDSYSRRIRELLEPITGTGRVNPEVSVDMDYSTFEEARELYGEPPKLRSEQVSENTNTSAGPQGVPGATSNTPPGPAAPGQPAPAANGAAVPGTAGTAQQTAAAATPTESAKSATRNYELDRTLQHSSQPAGRVRRVSVAVLIDHVPRPGANGKVTEQALSAAELTRIEALVKQAVGFDTNRGDTVSVMNAPFVREATPAAEGPKWWEDPRVQNWIRLGVGALVVLVLAFGVVRPALRQIAGPAPARSKHSDKQGDRAEPHSADVRMLDDEDALLAGLEADSARIGAERKDAIPLPSSAYEDRLRQAREAVKSDSKRVAQLVKGWVASEA	PGPT0015430_541	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015430-fliF-K02409	NA	NA
BMS020_08888	369	fliE		Flagellar hook-basal body complex protein FliE	ATGAGCGACTCCATCAACTCGATCCTCTCGCAGATCCGCACCTACCAGAGCCAGATGGGCCAGGGTGCGGCGGCGGCGGGCGATGCCGCCCGCGGCAATGCGATCCAGGGCCTGGCCGGCACCGAAGCCGCCCAGCAGGCGCAGCCGGCCAGCTTCACCGAGACCCTGCGCAACGCGATTTCCGGGGTCAACGAGACCCAGCAGAACGCCGGCGCGCTGTCCAAGGCCTTCGAAATGGGCGACCCGCGTGCCGACCTGGCCCGCGTGATGGTCGCCGCCCAGCAGTCCAGCGTGGCGTTCCGCGCCACCGTGGAAGTCCGCAACCGACTCGTCCAGGCCTACCAGGACGTCATGAACATGCCGCTGTAA	MSDSINSILSQIRTYQSQMGQGAAAAGDAARGNAIQGLAGTEAAQQAQPASFTETLRNAISGVNETQQNAGALSKAFEMGDPRADLARVMVAAQQSSVAFRATVEVRNRLVQAYQDVMNMPL	PGPT0015515_104	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015515-fliE|lfiE-K02408	NA	NA
BMS020_08889	1479	ntrC_2	COG2204	DNA-binding transcriptional regulator NtrC	ATGAGCGAATCCCGCATCCTGTTGATCGACAGCGACGCCGTGCGCGCCGAGCGCACCATCTCGCTGCTCGAATTCATGGACTTCAATCCGCGCTGGGTGACCGACGGCGCCGACCTGAACCCGGCCCGCCACCGTCACGACGAGTGGATGGCGGTCATGGTCGGCTCGGCCGAGGACGCCGCCCAGGCCGAGAAGTTCTTCGACTGGCTCGGCGCGGCCAAGCTGCCGCCGCCGGTGCTGCTGATGGATGGCGACCCGCACGCCTTCGCCGCCACCCACGGCCTGCACGAGGCCAACGTGTGGCCGCTGGAGACGCCGCTGCGGCACGCCCAGCTGGAGGCGCTGCTGCGCCGCGCCAGCCTGCGCCGGCTCGACGCCGAGCACCAGGCCAGCGCCAACCAGGACAGCGGCCCGACCGGCAACAGCGAGGCCGTGGTCCGGCTGCGCCGGCTGATCGACCAGGTCGCCAGCTTCGACACCACCGTGCTGGTGCTGGGCGAATCGGGTACCGGCAAGGAGGTGGTCGCGCGCGCGATCCACCAGCAGTCGCCGCGCCGCGACGGTCCGTTCGTGGCGATCAACTGCGGTGCGATCCCGCCGGACCTGCTGGAAAGTGAGCTGTTCGGCCACGAGAAGGGCGCCTTCACCGGCGCGCTGAGCGCCCGCAAGGGCCGCTTCGAGATGGCCGAGGGCGGCACCCTGCTGCTCGACGAGATCGGCGACATGAGCCTGCCGATGCAGGTCAAGCTGCTGCGCGTGCTGCAGGAGCGCAGCTTCGAGCGCGTCGGCGGCGGTCAGACCATCCGCTGCAACGTGCGGGTGATCGCCGCGACCCACCGCAACCTGGAGGCACGCATCGGCGACGGCCAGTTCCGCGAGGACCTGTTCTACCGCCTCAACGTGTTCCCGATCGAGATGCCGGCGCTGCGCGAGCGCGTGGACGACCTGCCGGTGCTGGTGCAGACCATCGCCGGGCAGCTGGCGCGCACCGGCCGCGGCGAGGTCCGCTTCGCCGACGAGGCGTTGCAGGCACTGCGCAGCTACGACTGGCCGGGCAACGTGCGCGAGCTGACCAACCTGGTCGAACGTCTGGCGGTGCTGCATCCGGGCGGTCTGGTCCGGGTCCAGGACCTGCCGGCCCGCTATCGCGGCGACTTCGCCGCGCCAGCCGCGGCCGAACCGACCGCCGCGCCGGCTCGCAGCGGGGTCAACGTGGTCGACCTGGCGGCGAAGATCGGCAGCCCGGAGCCGGCCGAGGCCGCCACCGCGGCGGCCGGGGCCGCCACCCTGCCCCAGGACGGCATCGACCTGCGCGACCACATGGCCAACATCGAGCTGGCGCTGATCAACGAGGCGTTGGCCCGGACCCAGGGCGTGGTCGCCCATGCCGCCCAGCTGCTCGGCCTGCGCCGCACCACCTTGGTGGAGAAGCTGCGCAAGTACGGCATCGACCGCGAGCAGACCGAACTGGCGAGCTGA	MSESRILLIDSDAVRAERTISLLEFMDFNPRWVTDGADLNPARHRHDEWMAVMVGSAEDAAQAEKFFDWLGAAKLPPPVLLMDGDPHAFAATHGLHEANVWPLETPLRHAQLEALLRRASLRRLDAEHQASANQDSGPTGNSEAVVRLRRLIDQVASFDTTVLVLGESGTGKEVVARAIHQQSPRRDGPFVAINCGAIPPDLLESELFGHEKGAFTGALSARKGRFEMAEGGTLLLDEIGDMSLPMQVKLLRVLQERSFERVGGGQTIRCNVRVIAATHRNLEARIGDGQFREDLFYRLNVFPIEMPALRERVDDLPVLVQTIAGQLARTGRGEVRFADEALQALRSYDWPGNVRELTNLVERLAVLHPGGLVRVQDLPARYRGDFAAPAAAEPTAAPARSGVNVVDLAAKIGSPEPAEAATAAAGAATLPQDGIDLRDHMANIELALINEALARTQGVVAHAAQLLGLRRTTLVEKLRKYGIDREQTELAS	PGPT0015560_57	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0015560-flrA|fleQ-K10941	NA	NA
BMS020_08890	378	uvrY_2	COG2197	Response regulator UvrY	ATGAGCAAGCTCACCGTACTGCTGGTCGACGACCACGAAGGATTCATCAATGCGGCGATGCGCCACTTCCGCAAGGTCGAGTGGCTGGACATCGTCGGCAGTGCGGCCAATGGCCTGGAAGCGATCGAGCGTTCGGAAACCCTGCGCCCCAAGGTGGTGCTGATGGACCTGGCGATGCCCGAGATGGGCGGCCTGCAGGCCACCCGCCTGATCAAGACCCAGGACGATCCGCCCTACATCGTCATCGCCAGCCATTTCGACGACGCCGAACACCGCGAGCACGCCATGCGTGCCGGGGCCGATAATTTCGTCAGCAAGCTGTCCTACATCCAGGAAGTCATGCCGATCCTGGAGGGCCTGACCGAGGCGCAGGCATGA	MSKLTVLLVDDHEGFINAAMRHFRKVEWLDIVGSAANGLEAIERSETLRPKVVLMDLAMPEMGGLQATRLIKTQDDPPYIVIASHFDDAEHREHAMRAGADNFVSKLSYIQEVMPILEGLTEAQA	PGPT0012935_1574	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-VarA|VarS_SIGNALLING_SYSTEM,PGPT0012935-gacA|uvrY|varA-K07689	NA	NA
BMS020_08891	1404	rpoN_3	COG1508	RNA polymerase sigma-54 factor	ATGAAGCCGACCATCTCCACCCAGCTGGGCCAGCAACTCCATCTGACCCCGCAGCTGCTGCAGTCGATCCGCCTGCTGCAGCTGGACGGCATGCAGCTGGAGCTGGAAATCCGCCGCGCCCTGGAAAGCAATCCGCTGCTGGAGCTGGAAGAGCTGCAGCAGGACGAGGCCGCCACCCCGGACCAGGACGATGCCGCCCGCGAGGTCGCCGCCTACGACGAGCTGCCGGAGTCGTCACTGTGGGATGTCGCCGGCGCCAGCTGGAACGACGGCGACGACGACCGCATGCAGCGCATCGCCGCCGGCGAATCCAGCGACCCGCACGTGCGCGTGCTGCAGGCGCTGGCGCTAGAGCTGGACGCGCCCGCGCTGGAGCTGGCCGCGTTCTGGCTGGAGCACACCGACGAGGCCGGCTACCTCGACGCGCCACTGGACACCCTGACCCTGCTCGCCTCGGCGCGCTTCGACCTGGACGCCGCGACCGTCGAGGCGATGCGCCAGCGCCTGCTGCACGGCGACCCCTGCGGTCTGGCCGCGCGCGACCTGCGCGAGTGCCTGCAGGTGCAGCTGGCCGCACTGCCCGGGCGGGTGCCGGCACGGCACCTGGCCGGGCGCATCCTGGCCGGCGAGCTGGAGGTGCTGGCCAGCCACGACTACGCCGCACTGGCGCGTGGCCTGGGGGCCGAAGAGGCCGACGTGCGCGAGGCGGTGCGGCTGATCCTGTCGCTGCAGCCGCGCCCGGGCCAGGACCTGCTGGCCAACGACACCAGCTGCGTGATCCCGGACGTGCTGGCCTGGCACGCCGACGGCCAGTGGCGGGTGGCGCTGAATCCGGCCACCTCGCGCCGGGTGCAGATCAACCCGCTGCACGAGCGCGCCCTGGCCGAGGCCGGCGACGCCGCCGCGCCGTTGCGCGACATGCTGCAGGAAGCGCGCTGGCTGACCCGCGGCCTGTCGATGCGCTACGAGACCCTGCTGCGCACCACCCGTGCGATCGTCGAGCGCCAGGCCGCGTTCCTGGTCCGCGGCGAGGAGGCGATGGCGCCGCTGACGCTGAAGGAAATCGCCGACGAGATCGGCATGCACGAGTCGACGATCTCGCGCATCACCACCGGCAAGTACCTGCAGACCCCGCGCGGCACCCTGGAGTTGAAGCAGTTCTTCGCGGTGCGGCTGGAGGGCGCCAGCGTGTCCGGCGCCGCGGTCAAGGCCATGGTGCGCCGGCTGATCGAGAGCGAACCGGCCGGCCGGCCGCTCGCCGACGAAGCGATCGCCGGACTGCTGGCCCGCCAAGGCGTTAATATTGCCCGCAGGACCGTGGCCAAGTACCGCGAGCAGCTGGACATCGCGCCGGCGCGCGAACGGCGCCGCAACAACACACCGCAGCTGGCCCGTGCGGGATGA	MKPTISTQLGQQLHLTPQLLQSIRLLQLDGMQLELEIRRALESNPLLELEELQQDEAATPDQDDAAREVAAYDELPESSLWDVAGASWNDGDDDRMQRIAAGESSDPHVRVLQALALELDAPALELAAFWLEHTDEAGYLDAPLDTLTLLASARFDLDAATVEAMRQRLLHGDPCGLAARDLRECLQVQLAALPGRVPARHLAGRILAGELEVLASHDYAALARGLGAEEADVREAVRLILSLQPRPGQDLLANDTSCVIPDVLAWHADGQWRVALNPATSRRVQINPLHERALAEAGDAAAPLRDMLQEARWLTRGLSMRYETLLRTTRAIVERQAAFLVRGEEAMAPLTLKEIADEIGMHESTISRITTGKYLQTPRGTLELKQFFAVRLEGASVSGAAVKAMVRRLIESEPAGRPLADEAIAGLLARQGVNIARRTVAKYREQLDIAPARERRRNNTPQLARAG	PGPT0000795_2343	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000795-ntrA|rpoN-K03092	NA	NA
BMS020_08892	633	nreC	COG2197	Oxygen regulatory protein NreC	GTGCGAGTCATCATCGTCGACGATCACACACTGGTGCGTGCAGGGCTGTCACGCCTGCTGCAGGGATTCGCGGACATCGACGTGGTCGCCGAGGCGAGCAATGCCCAGGAAGCACTCGACCTGGCCAGCCTGCACCGACCCGACGTCATCCTGATGGACCTGTCATTGCCCGGGCGCAGCGGCCTGGATGCGATGACCGACGTGCTGCGCGCGTGGCCGCGCATCCGCGTGGTGATGATGTCCATGCACGACGACCCGGCGCACGTGCGCGACGCGCTCGACCGCGGCGCCACCGGCTTCGTGGTCAAGGACGCCGCGCCGCTGGAACTGGAGCTAGCCTTGCGCGCGGCCGCCGCCGGCCAGGTGTTCCTGAGCCCGCAGATCTCCTCGAAGATGATCGCGCCGATGCTGGGGCGCGAGAAGCCGGTCGGCATCGCCGCGCTGTCGCCGCGCCAGCGCGAGATCCTGCGCGAGATCGGCCGCGGCCAGAGCAACAAGGAAATCGCCGCCGACCTCGGCATCAGCGTGAAGACCGTGGAGACCCACCGTGCGCGCATGATGGAGTCGCTCGGCTGCCGCCGCGCCAACGACCTGGTGCTGCTGGCCGCCAAGCACCACAACGAACTGATCTGA	MRVIIVDDHTLVRAGLSRLLQGFADIDVVAEASNAQEALDLASLHRPDVILMDLSLPGRSGLDAMTDVLRAWPRIRVVMMSMHDDPAHVRDALDRGATGFVVKDAAPLELELALRAAAAGQVFLSPQISSKMIAPMLGREKPVGIAALSPRQREILREIGRGQSNKEIAADLGISVKTVETHRARMMESLGCRRANDLVLLAAKHHNELI	PGPT0000530_215	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE|NITRITE_SENSING,PGPT0000530-nreC-K07696	NA	NA
BMS020_08893	573			hypothetical protein	GTGCACGCACCGCCGCCCTCGACCAACGCCGACCTCGAGCTGTTCCAGGATTCGATCTCCTGCGAACTGGCGTTGCCGGCCGAGTTCCGGCCCGGCAGCGCCGCGCCGCGCCAGGGCGCGGCCGAGAGCCTGCTGCGCGCGATCGCGCTGGTCGAGGACCCGCGCGCCGACGATGCCAGCGACGAGCGTGGCGAGCTGCCGCAGGCGGTGCTGCGGCTGGAAGCGAAGGTGGACCTGCTGCTGTCGCTGCTCGGCCAGTTGGCCCGGCGCGGCAGCGACAGCCTGCCGTTGCGGCCGGTGCGCTGGTCGCGGCGCGGCATCCGCCTGGAAACCGGCGCGCGCAGCAGCGCCCTGCCCGGCTCGGCCGGCGTGCTCAGCCTGCAGCCGGCCGAATGGCTGCCCGAACACCTGGAACTGCCGGTGGTGGTGCTGGCCGAAGCGGCCAACGGCGCCGGCGGGCACTTCCTGTGGCTGCGCTTCGCCGAGCTCGGCGGGTCGCTGGAAACGGCGCTCGAGCGCCACCTGTTCCGCTTGCACCGCCGTCAGGTCGCCGATGCGCGCCGTCCACGCTGA	MHAPPPSTNADLELFQDSISCELALPAEFRPGSAAPRQGAAESLLRAIALVEDPRADDASDERGELPQAVLRLEAKVDLLLSLLGQLARRGSDSLPLRPVRWSRRGIRLETGARSSALPGSAGVLSLQPAEWLPEHLELPVVVLAEAANGAGGHFLWLRFAELGGSLETALERHLFRLHRRQVADARRPR				NA	NA	NA	NA	NA
BMS020_08894	318			hypothetical protein	GTGACCACCAGCCTCGCTTCGCGCCGGCTGATGTCCGGCCTGCACCGGATCCGCGCGGCGCTCGACGCCGCCGACTACCCCCTGCTGGAGGACCAGATGGGTGAGTATGCAAGCGCGTTGCAGGCCTGTTTCGCCAATGGCACGACCGAGCTGAGCATCGAGGAATGCCACGCGCTGCAGGAGCAGCACGACGCGCTGCAGGCACGCATGCGCAACCTGCGCGACGAAGCCGCCGCCTGGCTGCGCCAGCAACGCCACGCCAACCAGGCGATCCAGGCCTATACCGGCGTGCGGCGTCGACGCCTGCCGGTCCGCTGA	MTTSLASRRLMSGLHRIRAALDAADYPLLEDQMGEYASALQACFANGTTELSIEECHALQEQHDALQARMRNLRDEAAAWLRQQRHANQAIQAYTGVRRRRLPVR				NA	NA	NA	NA	NA
BMS020_08895	423	fliS	COG1516	Flagellar secretion chaperone FliS	ATGTATGGCGCCAACCGACAAGTCGCAGACTTCTATCGCAAGACCGGCGTGGCCAGCGCCGCGCTCGGCGACGACCCGCATCGGCTGATCAGCCTGATGCTGGACGGCGCCTGCAAGCGCATCCGCCTGGCGCGTGCATGCATCGAACGCGGCGATGTGCCCGGCAAGGGCAAGGCCATCGCCGATGCCTGTGCGATCGTCTCCCACCTCAATGCCGCGCTGAACCACGACCAGGGCGGCGATATCGCCGCCAACCTGGCCGCGCTGTACGACTACGCGATGCGGCGCCTGACCGAAGCCAACCTGCACAGCGACACCACCGCGCTGGACGAAGTCGCCGGCCTGCTCGAGGAGATCTCCTCGGCCTGGAACGCGATCCCGCAGGAAAGCCGCCAGAAGCCGCGGGAGGGCGTACCGGCGTGA	MYGANRQVADFYRKTGVASAALGDDPHRLISLMLDGACKRIRLARACIERGDVPGKGKAIADACAIVSHLNAALNHDQGGDIAANLAALYDYAMRRLTEANLHSDTTALDEVAGLLEEISSAWNAIPQESRQKPREGVPA	PGPT0015620_739	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015620-fliS-K02422	NA	NA
BMS020_08896	1437	fliD	COG1345	B-type flagellar hook-associated protein 2	ATGACGTCCGTATATACCGGCACCATCAGCTTCTCCGGCCTCAGCTCCGGCGTGGATACCAGCGAGATGGTCGACAAGCTGGTCGCGGCCGAGCGCGCCGGCGCCGATACCCGCATCACCACCGCCACCAGCGACACCAAGTCGAAGATCTCCTCGCTGGGCAACGTCTCCTCCTCGCTCAGCTCGCTGCAGAAGGCGCTCGATGCGCTGTCCAGCGGCGAGACCGGCAATGCGCGCACCACCACGGTCGCCGACGGCGCGGGCTACACCGCCACCGCCGACGCCGGCTCCTCGGTCGGCAGCTACGACATCGAAGTCACCCAGCTCGCCACCAAGCACAAGATCACCTCGCAGGCCTATGACTCGGCCGCCACGGTCGGCAGCGGCACGCTGACGATCAGTGCCGGCGACGAATCCTTCGATGTCACCGTCAGCTCCACCGCGACGCTCAGCGACCTGGCCAAGGCGATCAACACCGCTGCCGCCGGCAAGGGCGTGGTCGCCAGCATCGTCAGCACCGACGATGGCAACCGCCTGGTGCTGACCGCCGCCGATACCGGCGTCGCCGGTGCCATCACCGTCAGCAGCGCCGACACCAGTCTGGCCGCGCTGACCTACCCGGCCACCACCAGCACCGATACCGACGGCAATACCGTCACCGTCGGCATGACCCAGTCGATCGCCGCGCAGGACGCGATCATCAAGGTCGACGGCTATACCAAGACGTCTTCCAGCAACACCATCGACGACGTGCTCGACGGCGTCACCCTGAACCTGACCAAGGCCACCGACGGCGAGGCGTTCACGCTCGACATCGACAGTGACCAGAGCGCGATCAGCAGCGCGGTCTCGACCTTCGTCAGCGCCTACAACTCGACCATGACCATGCTCGGCACGGTCAGCGCGTTCGACGTCGAGGAAGAAACCGAGGCGCCGCTGACCGGCGATGCGATGGTGCGCGGCCTGCAGAGCCAGCTGCGCAACATGATGGGCACCAACATCGTCGCGTTGAACGCGCTCGGCATCACCATCGACAAGGATGGCGTGATGTCGCTCAGCAGCAGCACGCTCAACGATGCGCTGGAAGAGAACCCGTCCGCGGTCAGCAACCTGTTCAGCACCTCGAGCAGTTCCTCCAGCAGCAGCGCCAGCAGCTCGGTCAATCTCGGCACCAACCTGGCCGCGCTGATCACCGGCATGGTCGACGGCAGCAAGGGCGTGATCACCCTGCGCACCGATGCGCTGAACGACAAGTTGTCGGACCTGGAAGACCAGAGCGATGCGCTCGATGCGCGCATGGAGAAGGTCAAGGCCCGCTACGAGGCGCAATTCACCGCGATGGAAACCACCATGGCGCAGATGCAGACCACCTCCAGTTATCTCAGCCAGATGCTCGACAGCGTGAGCACCAGCAAGTCCAGTTCCAGCAGCAGTTAA	MTSVYTGTISFSGLSSGVDTSEMVDKLVAAERAGADTRITTATSDTKSKISSLGNVSSSLSSLQKALDALSSGETGNARTTTVADGAGYTATADAGSSVGSYDIEVTQLATKHKITSQAYDSAATVGSGTLTISAGDESFDVTVSSTATLSDLAKAINTAAAGKGVVASIVSTDDGNRLVLTAADTGVAGAITVSSADTSLAALTYPATTSTDTDGNTVTVGMTQSIAAQDAIIKVDGYTKTSSSNTIDDVLDGVTLNLTKATDGEAFTLDIDSDQSAISSAVSTFVSAYNSTMTMLGTVSAFDVEEETEAPLTGDAMVRGLQSQLRNMMGTNIVALNALGITIDKDGVMSLSSSTLNDALEENPSAVSNLFSTSSSSSSSSASSSVNLGTNLAALITGMVDGSKGVITLRTDALNDKLSDLEDQSDALDARMEKVKARYEAQFTAMETTMAQMQTTSSYLSQMLDSVSTSKSSSSSS	PGPT0015200_2169	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015200-fliD|flaB-K02407	NA	NA
BMS020_08897	1218	fliC		A-type flagellin	ATGGCACAAGTCATCAACACCAACGTGATGTCGCTGAACGCTCAGCGGAATCTGAACAGCACCACGTCGAGCCTGTCCACCACCATCCAGCGTCTGTCGTCCGGCCTGCGCATCAACAGCGCGAAGGACGACGCCGCGGGTCTGGCGATCTCGGAGCGCTTCAGCACCCAGATCAACGGCCTGGACCAGGCCTCGCGTAACGCCAACGACGGCATCTCGCTGGCCCAGACCGCCGAAGGCGCGATGGAAGAGATCACCAACAACCTGCAGCGCATCCGCGAGCTGTCGGTGCAGTCGGCCAACGCCACCAACTCCGACGACGACCGTGACGCGCTGCAGTCCGAAGTGACCCAGCTGCTGAAGGAAATCGACCGCGTCGCCAACCAGACCAACTTCAACGGCAAGAGCCTGCTCGATGGCAGCTTCGCCGGCTCGCTGTTCCAGGTCGGCGCCAACTCCGGCCAGACCATCCAGGTCGGCAGCATCGTCGACGCCAACGTCAACGCGCTGGGCACCTCGAGCTTCTCGACCTCCGGCACCATCGCCGGCTCCGAGGTCTCGGGCACCGCCACCGCCGACACCACCCTGACCGGTCTGGGCGTCTCGGTGACCGACGCCGACGGCAATGTCACCGATATCGCGCTGGGCGACATCACCGTGAAGGAAGGCCAGGACTACAACGACGCCATCGCCGCCGCGATCAACGACAAGCTGGACCAGACCGGCGTCTACGCCGAGGTCGACGACACCGACGGCAGCATCACCCTGAGCTCGGTCAAGGCCGGCCAGACCTTCTCGTTCGGTGCGGCCTCCGGTACCAGCTACTCCGCCGCGGCCACCTCGGGCACCAACGGTCTGGACATCACCGCCCAGACGACCACCACCCTGTCCACCACCGCTGAACACGCCGAAGACATCGACATCACCAGCTTCGTCGGTGCCTCGCGCGCCCTGGAAATCGTCGACAAGGCGCTGACCAGCGTGAACTCGGCCCGCGCCGACATGGGTGCGGTGCAGAACCGCTTCACCTCGACCATCGCCAACCTGTCCACCACCTCGGAGAACCTGTCCGCGTCGCGCAGCCGCATCATGGACGCCGACTACGCCTCCGAAACCGCCGAGCTGAGCCGCACGCAGATCCTGCAGCAGGCCGGTACCGCCATGCTGGCCCAGGCCAACGCGTCGACCCAGAACGTGTTGAGCCTCCTGCAGGGCTAA	MAQVINTNVMSLNAQRNLNSTTSSLSTTIQRLSSGLRINSAKDDAAGLAISERFSTQINGLDQASRNANDGISLAQTAEGAMEEITNNLQRIRELSVQSANATNSDDDRDALQSEVTQLLKEIDRVANQTNFNGKSLLDGSFAGSLFQVGANSGQTIQVGSIVDANVNALGTSSFSTSGTIAGSEVSGTATADTTLTGLGVSVTDADGNVTDIALGDITVKEGQDYNDAIAAAINDKLDQTGVYAEVDDTDGSITLSSVKAGQTFSFGAASGTSYSAAATSGTNGLDITAQTTTTLSTTAEHAEDIDITSFVGASRALEIVDKALTSVNSARADMGAVQNRFTSTIANLSTTSENLSASRSRIMDADYASETAELSRTQILQQAGTAMLAQANASTQNVLSLLQG	PGPT0015190_1819	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
BMS020_08898	1203			hypothetical protein	ATGGCCATCACCCGGATTTCCAGCAACGGCCAGTACCAGTTCTCGCTGAACCTGATGCTGGCCCAGCAGCGCGGCCTGGCCAAGACCTACCAGCAGGTCTCCACCGGCGCGCGCATGACCAGCGGCGCCGACGACCCGCTCGCGGCCGGCCGCTCGGTGACGATGGACCGCTCGCTGGACCGGCTGGAGCAGTACAACTCCAACGGCAGCATGCTGGCCAGCCGCCTGAACCAGCAGGAAAGCGTGCTGGACAACGCCGGCGACCTGCTGACCCGGGTCCGCACGCTGACCATCCAGGCCAACAACGCCACCCTGTCCGACCAGGACCGCAAGTCGATCACCGGCGAGATCCGCAGCATCCACGACCAGCTGCTGGCGCTGGCCAACACCGACGATGGCACCGGGCGCTACCTGTTCGGTGGCAGCCAGGACGGCAACGCGCCGTTCACCCTGTCCGGCAACAGCGTGGTCTACAACGGCGACCAGAACCAGCGCAAGGTCGAGGTGTCCTCGGGGCTGCAGGTCGACGACACCCTGCCCGGCAGCGAGGTGTTCATGCGCATCCGCACCGGCGACGGCACCGTCGACGGGCGCGCCGACAGCGCCAACACCGGCACCGGGGTGCTGATGGACTTCGGCGTCACCGACCATGCGGCCTGGTCCCAGGCCAGCTACGACGTGGTGTTCACCGCCGCCGACACCTACGAGGTCCGCGACAGTACCGGCACCGCGGTGGCGACCGGCACCTTCGCCGACGGCGACACCATCGAATACGGCGGGGTGCAGATGCGCATCGACGGCGCACCGGCCGCGGGCGACAGCTTCCACATCGGCCCCTCCAGCGCCACCGACATCTTCACCACGCTGCAGAACCTGGCCGACGCCCTTGACAGCGAGGCCAACAATCCGGCAGAGCTGGCCGTCCAGCAGAACGCCCTGCAGGGCTCGCTGCGCGACGTCGCCACCGCGCAGGAACACTTCATCGACGCGCGCGCCGAAGGTGGCGCCAACCAGAGCGCGATCGACAACGCCACCGCGCTGAACGATTCGCGCACGGTCGCCACCAAGACCAACCTGTCGGCGATCCGCGACCTCGACTATGCCGAGGCACTGAGCCGCTACAGCCAGGAGAGCACCGCACTGCAGGCAGCCCAGCGCGTATTCGCGCAGCTGCAGCAGATGTCGCTGTTCGACCAGATCTGA	MAITRISSNGQYQFSLNLMLAQQRGLAKTYQQVSTGARMTSGADDPLAAGRSVTMDRSLDRLEQYNSNGSMLASRLNQQESVLDNAGDLLTRVRTLTIQANNATLSDQDRKSITGEIRSIHDQLLALANTDDGTGRYLFGGSQDGNAPFTLSGNSVVYNGDQNQRKVEVSSGLQVDDTLPGSEVFMRIRTGDGTVDGRADSANTGTGVLMDFGVTDHAAWSQASYDVVFTAADTYEVRDSTGTAVATGTFADGDTIEYGGVQMRIDGAPAAGDSFHIGPSSATDIFTTLQNLADALDSEANNPAELAVQQNALQGSLRDVATAQEHFIDARAEGGANQSAIDNATALNDSRTVATKTNLSAIRDLDYAEALSRYSQESTALQAAQRVFAQLQQMSLFDQI	PGPT0015505_1075	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015505-flgL-K02397	NA	NA
BMS020_08899	1845			hypothetical protein	ATGCCCAACCTGCTCTCCACCGGCACCAGTGCCCTGCTCGGCTACCAGCGCTCGCTGGCGGCGGTCGGCAACAACGTCTCCAACGCCAACACCCCTGGCTACAGCCGCCAGGTCGCCGAGCTGTCCACGCGCAGCACCGACGGCGTGCAGGTGCAGGACATCAAGCGCATGACCGACACGCTGGCGACCGCCCGCGTGCTCGGCAGCACCGACGAGCTGAACCGGCTGGAGGCCTTGTCCGGCCGCGCCGGCGACCTCGACAAGCTGATGTCCGACGACACCACCAACCTCAGCGGGGTGTGGTCCAACTTCTTCGATTCGCTCAGCGCGCTGGGCGCCGATCCGGCCTCGGACACCTCGCGGCGCGCGGTGCTGCAGAGCGCCGAGGCGCTGGCCGGACGCTTCCGCCAGCTCGACGGCGAGCTGGACAGCATGGGCAACGACGTCAATGCGACGCTGAAGGACAGCGTGCAGCAGGTCAACGACCTGACCTCGCAGATCGCCAAGCTCAACCGCCAGATCGCCCGCGGCTCCGGCCCCGCGCCGGACACCCTGGACAAGCGCGACCTGCTGATCGAGAACCTGGTCAAGCTGACCGGCGGCACCGTGCTGACCCAGGACGACGGCTCGATCAACGTCTACACCTCCGGCGGCCAGGCGCTGGTGGTCGGCACCACGGCGATGTCGCTGGCCACCACCACCGACCCGTTCCAGCCCGAGCGGCTGAACCTGAGCCTGGTCGCCCAGGGCCAGACCATCCCGCTCGGCAACGGCGTGCTCGGCGGCACCCTGGGCGGGGTGCTGGAGTTCCGCAACAACGTGCTCGACCCGGCCAAGGACGAGCTCGGCCGGCTGGCGGTCGCCGTCGGCAGCACCGTCAACGATGCCCAGGCCGCCGGCGTGGACATCTACGGCAACCTCGGCACCGACATGTTCACCCTGCCCGCGCCGGCCGCGTGGGCGCATTCGGGCAACACCGGCAGCGCCAGCCTCAGCGCCGGCGTCGCCGACCTGAGCCAGCTCGATGGCGGCGACGTGGTGCTGCGCTACGACGGCACCAGCTGGTCCGGCACCCGCGCCGACACCGGCGCGGCGGTCACGATCACCGGCACCGGCGTGGCCGGCGACCCGCTGGTCGTCGACGGCATCGAGCTGACCGTGTCCGGCACCGCCGCGGCCGGCGACCGGTTCCTGCTCGAGCCGACCGGCGGCAGCGCCGGCACCATGCAGGTCGCGCTGCAGGACCCGGGCCTGGTCGCCGCCGCCCGCGCCGTGCAGGGCAGCGCCGACCTGGACAACGTCGGCGATGCCACCATCACCACGCTGGACGTGATCGATCCGTCCGACGCGGCGCTGCGCAACAGCGCCGAGATCCAGTTCATCGACGCCGGCCAGTACACCATCGACGGCGCCGGCCCGTACGCCTACAGCGCCGGCGACACGATCGCCGCCAACGGCTGGAGCTTCAAGCTCGATGGCGCCCCCGCCGCCGGCGACACCTTCACCATCAGCGGCACCGGCGCCGGCTCCAGCGACAACAGCAATCTGCTGAAGATGGCGGTGCTGGACGAATCCAAGGTGCTCGACAGCGGCAACACCAGCCTCAACGGCGCCCTGGCCAGCTTCACCACCACGGTCGCCTCCTCGGCATCGCAGTCCAACTACGCCTACGAATCCGAGCAGACCCTGTACAACCAGGCCGTCGCCGCCCGCGACGCGGTGACCGGGGTCAACCTCGACGAAGAGGCCGCCGACCTGATCAAGTACCAGCAGGCTTACCAGGCCGCTGCAAAGATCATCGCCAGCGCCGATAACATCTTCCAGACCCTGCTGCAGGCGGTGTGA	MPNLLSTGTSALLGYQRSLAAVGNNVSNANTPGYSRQVAELSTRSTDGVQVQDIKRMTDTLATARVLGSTDELNRLEALSGRAGDLDKLMSDDTTNLSGVWSNFFDSLSALGADPASDTSRRAVLQSAEALAGRFRQLDGELDSMGNDVNATLKDSVQQVNDLTSQIAKLNRQIARGSGPAPDTLDKRDLLIENLVKLTGGTVLTQDDGSINVYTSGGQALVVGTTAMSLATTTDPFQPERLNLSLVAQGQTIPLGNGVLGGTLGGVLEFRNNVLDPAKDELGRLAVAVGSTVNDAQAAGVDIYGNLGTDMFTLPAPAAWAHSGNTGSASLSAGVADLSQLDGGDVVLRYDGTSWSGTRADTGAAVTITGTGVAGDPLVVDGIELTVSGTAAAGDRFLLEPTGGSAGTMQVALQDPGLVAAARAVQGSADLDNVGDATITTLDVIDPSDAALRNSAEIQFIDAGQYTIDGAGPYAYSAGDTIAANGWSFKLDGAPAAGDTFTISGTGAGSSDNSNLLKMAVLDESKVLDSGNTSLNGALASFTTTVASSASQSNYAYESEQTLYNQAVAARDAVTGVNLDEEAADLIKYQQAYQAAAKIIASADNIFQTLLQAV	PGPT0015195_947	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015195-flgK-K02396	NA	NA
BMS020_08900	1041	flgJ	COG1705	Peptidoglycan hydrolase FlgJ	ATGAACGTCACGCGCCCGGGCGGGTTCGCCCTGACCCACGTCGAGCAGACGCCCACGCCGCAGCGCGTGGACGAGGTCTCGCGCAAGCTCGAGAGCCAGTTCACCCAGATGCTGGTCAAGTGCATGCGCGACGCCGGCATGGGCGACTCGCTGTTCCCGCAGCAGAACCAGACCTACCGCGACATGTACGACCGCCAGCTCTCGGACCTGCTCAGCCAGGGCAAGGGCCTGGGCCTGTCGCCGCTGATCGCGCGCCAGCTCAACGGCGGCAAGCCGCTGGACACGCCCGCCGCCGGCGCCACCAGCCCGGCCGATGCCGCGGCCCAGGCCAAGGCGCAGGCGCCGTTCTTCCGCCGCTTCCCGGCCGGCGCGGCCTCCTCCGACGCGATCGACGCGATCGCCGGGCGGCAGTCGCCGGCGCGGCCGATGGACGCCGACGGCACCAGCATCGGCGGCGACATGGCGCTGATCGATTCGCGCGCCTGCGACGAGGTCGAGCAGGTCGCCCAGACCGACCCGTCGCAGTTCGCCGCCGGCACCCCGGAGCACTTCGTCGCCAAGATCTGGCCGCACGCGCAGCGCGCCGCCAAGGAGCTGGGCGTGGATCCGCGCGCGCTGGTCGCACAGGCCGCGCTGGAAACCGGCTGGGGCCGCCGCGGCATCCGCGACAGCGAAGGCGGCAGCTCCAACAACCTGTTCGGGATCAAGGCCACCGGCTGGCAGGGCCAGCGGGTCAGCACCTCCACCCACGAGTACGTCAACGGCCAGCGCCGCAGCGAGCGCGCCGACTTCCGCGCCTACGGCTCGCCGGCCGAAAGCTTCGCCGACTACGTGCGCCTGCTGAAGACCAGCCCGCGCTACCAGGGCGCGCTGAACGCCGGCAACGACGTGCACCGCTTCGCCAGCGCCTTGCAGCGCGCCGGCTATGCCACCGATCCGGGCTACGCGCGCAAGATCGCCGCGATCGCCAACGGCCCCACCCTCGACCGCGTGCTCTCGGCCACCACCGGCTCGATGGGCAACCTGGTCGCCAGTCGCTGA	MNVTRPGGFALTHVEQTPTPQRVDEVSRKLESQFTQMLVKCMRDAGMGDSLFPQQNQTYRDMYDRQLSDLLSQGKGLGLSPLIARQLNGGKPLDTPAAGATSPADAAAQAKAQAPFFRRFPAGAASSDAIDAIAGRQSPARPMDADGTSIGGDMALIDSRACDEVEQVAQTDPSQFAAGTPEHFVAKIWPHAQRAAKELGVDPRALVAQAALETGWGRRGIRDSEGGSSNNLFGIKATGWQGQRVSTSTHEYVNGQRRSERADFRAYGSPAESFADYVRLLKTSPRYQGALNAGNDVHRFASALQRAGYATDPGYARKIAAIANGPTLDRVLSATTGSMGNLVASR	PGPT0015500_270	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015500-flgJ-K02395	NA	NA
BMS020_08901	252	flgI		Flagellar P-ring protein	GTGACCGTGGCCGAGTCGACCAACGTCAGCCAGCCCAACGCCTTCAGCAACGGCCAGACCGTGGCCACTCCGCAGTCGCAGATCAGCGCGCAGGCCGAGGGCAGCCACATGTTCAAGTTCCAGGGCGGCGTCACCCTCGACCAGATCGTCAAGGCGGTCAACGACATCGGCGCCGCGCCCGGCGACCTGATCGCGATCCTGGAAGCACTCAAGCAGGTCGGTGCGCTGCAGGCGGACCTGGAGGTGATCTGA	MTVAESTNVSQPNAFSNGQTVATPQSQISAQAEGSHMFKFQGGVTLDQIVKAVNDIGAAPGDLIAILEALKQVGALQADLEVI	PGPT0015425_754	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_M|S|P|L-RINGS,PGPT0015425-flgI-K02394	NA	NA
BMS020_08902	804			hypothetical protein	ATGCCGGCGCATCCGCCGCCTCGGCGACGACCACGGTGTAGCGCCCGCGGACCTGGCGGTACATCGCCTCCACGGCCTGCTCGGCACGTTGGCGGGTCAGGTCGCGCTCGACCTCCGCGCGTACCTCGGCCAGCGCCTGGAGGCGCTGCGGCTGGACTGCATCGACCCGGACCAGGTGCAGGCCGTACGCCGAGCGTACCGGCCCCTGCCACTGCCCTGGCCGCAGCGTCGCCAGCTGCGCCGCGAACGCGGCACCGAACACCCGCGCGATCTCCTCCGGCGGCACCCCGGCCAGGACCGCGGGCAGTTGCGACGGGTCGCCGCCGGGCACCGCGTCTCCGGGCGGCTCCGACCGCAGCCGTGCCAGTGCCGCCGCCACCGCCGCGCCGCCGTCGCGGTGCCGCGCGGGATCGAAATACACCTGTCGGACGCTGTAGCGCGCGGGTGCCTGGTAGCGCTCGGGGTGCGCGGCGAGCCAGGCCTGCAGGTCGGCCTCGGCGGGGGCGCTCGGCGTCGCCATGCCTTCGAGCATCATCGCGGCCTTCTGCACCACCCGGCGCCGCACCACCACGTCGTCCTGCTCCAGGCCCGCGGCGACGCCCTCGCGGTACAGCACCTCCTCACGCACCCAGGCATCGACCAACCGTTGCCGCTCGGGCGCATCCGGTGCCCGGCCCCAGGCCTGTTCGAACTGCGTCACCAGCTCGCGCTGGCGGGACGCATCGACCAGGATCCGCTCCGGCGCATGCGCCGTGTCGCCGCCCCACGCGCCGTAGAGCAGGAACAGCACGCCGCCGAGGATGA	MPAHPPPRRRPRCSARGPGGTSPPRPARHVGGSGRARPPRVPRPAPGGAAAGLHRPGPGAGRTPSVPAPATALAAASPAAPRTRHRTPARSPPAAPRPGPRAVATGRRRAPRLRAAPTAAVPVPPPPPRRRRGAARDRNTPVGRCSARVPGSARGARRARPAGRPRRGRSASPCLRASSRPSAPPGAAPPRRPAPGPRRRPRGTAPPHAPRHRPTVAARAHPVPGPRPVRTASPARAGGTHRPGSAPAHAPCRRPTRRRAGTARRRG				NA	NA	NA	NA	NA
BMS020_08903	984			hypothetical protein	GTGATCGTCCAGTTGAGAAGGGATCCCCGGCTCGGCTTCCTGCGTGTCCTCGGCCCCTTGGGCATCGGGTTGCTGGCGCTGTACGCGCTGTATCTGGCGACCACGCACGACTGGACCGCCGCCCTGCTGGCCGTCGTGCTCGGCCTGCTCGCCAGTGTGCAGGCGCTGCGTACCCGGCGCGCCGAGCATGCCGGACAACAAGGCATCTGGACGGCGCTGTTGAACGTGGCCAGCGTGCTGCTGGCGCTGCACGCCTCCGGTGAGGCAGCGATGCCGTGGCTGTTCCCGGTGCTGATGACCAACTATTTCCTGTGCGAGCCACGGCGCGCCACGCTGGTAAGCCTGCCACTGCTGCTGGTGATGATCTTCGCCGCCGACCTCAACAACGGCCTGGGCGAACGATTCTCGGCGGTCAGCGTCACCGCGCTGACGATGTGCGCCGGCTATGCGTTGTCGCTGCGCATGAACGACGACCGCGTGCACCTGGAGGAACTGGCCTCGCTGGATGCGCTCACCGGACTGCCCAACCGGCGCATGCTCGAGCGCACCCTGACCCGCAGCCTGGAAGAACGCCGCGGCGGCCACCGCTTCAATGGGCTGATCATCCTCGACGTGGACCACTTCAAGGAGATCAACGATCTCTACGGCCACGCCGCCGGCGATACCGCGCTGGCCGACCTGGCGACGATCCTGCGCTTCGAGATCCGTGGCGAGAACCAGGTGTTCCGCTTCGGCGGCGAGGAATTCGTGGTGCTGCTGCGGGCGGATTCGATCGAGGAGCTCGACGCGGCGACCGAACGCCTGCGGCGCACCGTGCGTGGCTCGCTGCGCGGCCCCGGCGGGCGCATCACGGTCTCGCTGGGCGCGGCCATGCACAGTGGCGAAACCCATTGGCAGGACTGGTTCTCGCGCGCCGACGCGGCGCTGTACATCGCCAAGAACAACGGCCGCGACAGCTACCGCGTCGCCGACACCGTGCTGTGA	MIVQLRRDPRLGFLRVLGPLGIGLLALYALYLATTHDWTAALLAVVLGLLASVQALRTRRAEHAGQQGIWTALLNVASVLLALHASGEAAMPWLFPVLMTNYFLCEPRRATLVSLPLLLVMIFAADLNNGLGERFSAVSVTALTMCAGYALSLRMNDDRVHLEELASLDALTGLPNRRMLERTLTRSLEERRGGHRFNGLIILDVDHFKEINDLYGHAAGDTALADLATILRFEIRGENQVFRFGGEEFVVLLRADSIEELDAATERLRRTVRGSLRGPGGRITVSLGAAMHSGETHWQDWFSRADAALYIAKNNGRDSYRVADTVL				NA	NA	NA	NA	NA
BMS020_08904	1422	arpC	COG1538	Antibiotic efflux pump outer membrane protein ArpC	ATGGTGATCCGTCTATTGACCGTCGCGGTCGCCAGCGCGCTGCTGGCCGGCTGCGTCACCGTCGGTCCCGACTATGTGGCGCCGACGGCGCCCCCGGTGACCTTGCACGAGGTGCAGGACGTGGCCTTCACCGCCGATTCGCCGGTCGGCGCCTGGTGGTCGCAGTTCGACGACCCGGTGCTGGAACAGCTGGTGCGCGATGCGCTGGTCGCCAACCACGACCTGCGCGTGTCGGTGGCGCGGGTGCAGCAGGCCAGGGCGGTGTTCTCCGAAAGCCGCCTCGACCAGCTGCCGCACGTGACCGCCGACGGCAGCTACAACCGCGCCCACCAGCAGACCGACAGCTCCAACGGCGAGCGCGTGCTGTACGAAAGCGCCCAGCTCGGCTTCGATGCCAGCTGGGAGATCGACCTGTTCGGCCGCCAGCGCCGTGCCGCGCAGGCCGCGCGCGCCGACCTGGAAGCCGAGCAGGCCAACCTGCTCGACGCGCAGGTCTCGGTGGCGGCGGAAGTGGCGCGCAACTACTTCGAGCTGCGTGGCGTGCAGAAGCGCATCGACGTCGCCAGGCGCACCCTGGTCAACCTGCGCGATACCCAGCAGCTGACCGAGACCCGCTGGCAGCTGGGCGCGGGCAGCGAGCTGGACGTGCAGAGCAGCCGCGCGCGCTTGAAGGCGATCGAGGCCGACATCCCGCTGCTGGAGGTGGCCGAGGCGCAGTACCGGCATCGGCTGGCGGTGCTGCTCGGCCAGCAACCGGACGCGCTGGACGCGCAGCTGGTACCGCGGCAAACCCCGGCCTATGCCAAGGCGCTGCCGTTGGGCAACACCGAGGATCTGCTGCGGCAGCGTCCGGACGTGCGTGCGGCCGAACGCCGGCTGGCGGCGGCGACCGCACAGGTCGGCGTAGCCACTGCCGACCTGTTCCCGCGGATCAGCCTCAGCGGCTTCGTCGGCTTCCTGTCCGGCGATGTCAGTTCGCTGACCGCCTCGAACGGCAAGGCCTGGTCGCTGACGCCGTCGATCAGCTGGGCCGCGTTCGACTTCGGCAGCGTGCGGGCGCGGTTGCGGGCCAGCAAGGCCCAGGCCGACGGCGTGCTGGCGCAGTACGAGCAGAGCGTGCTGCTGGCGCTGGAGGACACCGAGAACGCGATGACCGGGTACTCGCGGCAACAGGCGCGGTTGAAGATCGTGCTTGACCAGGCCACCGCCGCGCGGCGCGCCGAGGCGCTGGCGCAGATCAACTACCGCGAGGGTTCGCAGGACTTCCTGACCCTGCTTGATGCCCAGCGCACCCAGCTCAGCGCCGACGACGCGTTGGCGCAGGCGGAGACTTCGGTCAATGTCGGCGTGGTGGCGGTCTACAAGGCGCTGGGCGGTTGGCGCCAGCCGGTGCAGGCGTCCGGCCCGGTCGCTGCACGTTGA	MVIRLLTVAVASALLAGCVTVGPDYVAPTAPPVTLHEVQDVAFTADSPVGAWWSQFDDPVLEQLVRDALVANHDLRVSVARVQQARAVFSESRLDQLPHVTADGSYNRAHQQTDSSNGERVLYESAQLGFDASWEIDLFGRQRRAAQAARADLEAEQANLLDAQVSVAAEVARNYFELRGVQKRIDVARRTLVNLRDTQQLTETRWQLGAGSELDVQSSRARLKAIEADIPLLEVAEAQYRHRLAVLLGQQPDALDAQLVPRQTPAYAKALPLGNTEDLLRQRPDVRAAERRLAAATAQVGVATADLFPRISLSGFVGFLSGDVSSLTASNGKAWSLTPSISWAAFDFGSVRARLRASKAQADGVLAQYEQSVLLALEDTENAMTGYSRQQARLKIVLDQATAARRAEALAQINYREGSQDFLTLLDAQRTQLSADDALAQAETSVNVGVVAVYKALGGWRQPVQASGPVAAR	PGPT0028880_274	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexEF-OprN,PGPT0028880-oprN-K18300	NA	NA
BMS020_08905	750	ucpA_2		Oxidoreductase UcpA	ATGAATACCTCTACCCAGAAGATCGCGCTGGTCACCGGCGCCACCCGTGGCATCGGCACCGAGACGGTGCGCCAGCTGGCCGAAGCCGGCGTGCGCACGCTGCTGGCCGGGCGCAGGCTGGAAACCGCACAGGCCGTGGCCACGGCGCTGGCCGACAGCGGCCTGCCGGTGGAAGCCATCCAGCTCGACGTGACCGATTCGGCCAGCATTGCCGCGGCGGTCAAGGAGGTGCAGGCGCGCCACGGCCGCCTGGACATCCTGGTCAACAACGCCGGCATCATGATCGACGCACTCGACAAGGCGCCTTCCGAGCAGTCCCTGCAGACCTGGCGCACGACGTTCGATACCAACGTGTTCGCCGTGGTCGAGGTGACCCAGGCGTTCCTGCCGCTGCTCAAGGCCTCCAGCGCCGGGCGCATCGTCAACGTGTCCAGCGCGCTGGGCTCGCTGACCCTGCATGCCGACCCGACGTCCTTCATCTACGACTTCAAGGTCCCGGCCTACAACGTCTCCAAGAGCGCGGTGAACGCCTGGACCCTGCAGCTGGCCTACGAACTGCGCGACACCGCGGTCAAGGTCAACACGATCCATCCCGGCTACGTGAAAACCGACATGAACAACAGCGACGGCGAGCAGCGCGGCGAGATCGACGTGCCCGAAGGCGCCAAGACCAGCGTGCAGATGGCGCTGATCGGCGCCGATGGCCCCAACGGCAGCTTCACCTACCTCGGGCAGGTGCTGCCATGGTGA	MNTSTQKIALVTGATRGIGTETVRQLAEAGVRTLLAGRRLETAQAVATALADSGLPVEAIQLDVTDSASIAAAVKEVQARHGRLDILVNNAGIMIDALDKAPSEQSLQTWRTTFDTNVFAVVEVTQAFLPLLKASSAGRIVNVSSALGSLTLHADPTSFIYDFKVPAYNVSKSAVNAWTLQLAYELRDTAVKVNTIHPGYVKTDMNNSDGEQRGEIDVPEGAKTSVQMALIGADGPNGSFTYLGQVLPW				NA	NA	NA	NA	NA
BMS020_08906	3174	oqxB18		multidrug efflux RND transporter permease subunit OqxB18	ATGGACTTCTCCAGATTCTTCATCGACAGGCCGATCTTCGCGGCGGTGCTGTCGATCATCATCTTCGCCGCGGGCCTGATCGCCATGCCGCTGCTGCCGATCGGCGAGTACCCCGATGTGGTGCCGCCGTCGGTGGTGGTGCGCACGGTCTACCCGGGCGCCAACCCCAAGGTCATCGCCGAGACCGTCGCCACGCCGCTGGAAGAGCAGATCAACGGCGTCGAGAACATGATGTACATCAAGTCGGTGGCCGGCTCGGACGGCGTGCTGCAGATGACCGTCACCTTCCGTCCCGGCACCGACGCCGACGACGCGGCGGTGAAGGTGCAGAACCGCGTGGCCCAGGCCAACGCGCGCCTGCCCGAGGACGTGCGCCGCCAGGGCGTGACCGTGCAGAAGCAGTCGCCGACCTTCCTGATGGTGGTGCACCTGACCTCACCGAAGAGCAAGTACGACACGCTGTACCTGCGCAACTACGCCCGCCTGCACGTCAAGGATGCGCTGGCGCGCATCCAGGGCGTGGGCGACGCGCAGGTGTTCGGCGGCGGCGATTACGCGATGCGCGCCTGGCTCGACCCGGAGCGCATCGCCGCGCTCGGGCTCAATGCCGGCGACGTGGTCGCGGCGATGCGCGAGCAGAACGTGCAGGTCTCGGCCGGCCAGCTCGGCGCCGAGCCGATGCCCGACAGCAAGTTCCTGACCCTGATCAATGCCCAGGGCCGGCTGCGCACCGAGCAGGAGTTCGGCGACATCGTGCTCAAGACCGGTGCCGATGGCCAGATCGTGCACCTGTCCGACGTGGCCCGGCTGGAACTGGGCGCCGGCGACTACACCCTGCGTTCGCAGCTGGACGGCAAGAACGCGGTCGGCATCGGCATCTTCCAGGCGCCGGGCGCCAATGCGCTGGACATCCGCGACCAGGTCATCGCGGCGATGGACGAGCTGACCAAGCAGTTCCCGGACGACGTGAAGTACGAGGCGGTGTACGACACCACCATCTTCGTGCGCGACTCGATCAGCGCGGTGGTCCACACCCTGCTGGAAGCGGTGCTGCTGGTGGTGCTGGTGGTGATCCTGTTCCTGCAGACCTGGCGCGCCTCGATCATCCCGTTGATCGCGGTGCCGGTGTCGGTGGTCGGCACCTTCGCCGCGCTGTACCTGCTGGGGTTCTCGATCAACACGCTGACCCTGTTCGGGCTGGTGCTGGCGATCGGCATCGTGGTCGACGACGCGATCGTGGTGGTGGAGAACGTCGAGCGCAACATCGAGGAGGGGCTGTCGCCGTTGGCGGCGGCGCACCAGGCGATGCGCGAGGTGTCCGGGCCGATCATCGCGATCGCGCTGGTGCTGTGCGCGGTGTTCGTGCCGATGGCGTTCCTGTCCGGCGTCACCGGCCAGTTCTACAAGCAGTTCGCGGTGACCATCGCGATCTCCACGGTGATCTCGGCGATCAACTCGCTGACCCTGTCGCCGGCGCTGGCCGCGCGCCTGCTCAAGGGCCATGACGCGCCGAAGGACGCGCCGTCGCGGCTGATGGAGCGGCTGTTCGGCGGCTGGCTGTTCAAGCCGTTCAACCGCTTCTTCAACCGCAGCTCGAACCGTTACCAGGGCGCGGTGTCGCGCATCCTCGGCCGTCGCGGCGTGGTGTTCGCGGTCTACATCGGTCTGCTGCTGGCGACCGGCCTGATGTTCAAGGCGGTGCCGGCCGGCTTCATCCCGACCCAGGACAAGATGTACCTGATCGCCGGCGTGAAGCTGCCCGAGGGCGCCTCGATCGAGCGCACCGATGCGCTGCTGCGCAAGGTGACCGACATCGCGATGCACACCGAGGGTGTCGCCCACGCGATCTCGTTCCCGGGTCTGAACGCGCTGCAGTTCACCAATACGCCCAACACCGGCGTGGTGTTCCTGCCGCTGAAGCCGTTCTCCGAACGCCACCGCAGCGCGCTGGAGATCAACGCCGAGATCAACCAGAAGATCTCCGTGCTGGGCGAGGGCATGACGTTCTCGATGATGCCGCCGCCGATCCTCGGCCTGGGCAACGGCAACGGCTACCAGATGTTTATCGAGGACCGGGCCAACCTGGGCTACGGTGCGCTGCAGAATGCGGTCAGCCAGTTCCAGGGTGCGGTCTCGCAGGTGCCGGGCATGAGCTTCCCGATCGGCACCTACCAGGCCAATGTGCCGCAGCTGGACGCCGAGGTCGACCGCACCAAGGCCAAGGCCCAGGGGGTGTCGTTGACCGATCTGTTCGACACCCTGCAGACCTACCTGGGCTCGGCCTACGTCAACGACTTCAACCAGTTCGGCCGCACCTGGCAGGTGATCGCCCAGGCCGATGCGCCGTTCCGCGACAGCGTCGAGGACATCGCGCGGCTGCGGGTGCGCAATGCAGCCGGCGAGATGGTGCCGGTCGGTTCGATGGTGTCGGTCAAGCAGACCTACGGCCCCGATCCGGTGCTGCGCTACAACGGTTACCCCGCGGCCGACCTGGCCGGCGAGGCCGATGCGCGGGTACTGTCCTCGGCCGAGGCGATGCAGAAGCTGACCGACCTGGCCGCGCAGGTGCTGCCCAACGGCATGCACATCGAATGGACCGACCTGAGCTACCAGCAGGCCAGCCAGGGCAACGCGGCGATGGTGGTGTTCCCGCTCGCGGTGATGCTGGCGTTCCTGGTGCTGGCGGCGCTGTACGAGAGCTGGACGCTGCCGCTGGCGGTGATCCTGATCGTGCCGATGACGCTGCTGTCGGCGCTGTTCGGGGTGTGGCTGAGCGGAGGCGACAACAACGTGTTCGTGCAGGTCGGCCTGGTCGTGCTGATGGGCCTGGCGTGCAAGAACGCGATCCTGATCATCGAGTTCGCCCGTGAACTGGAGATGGGCGGCAAGGGCATCATCGAGGCGGCGCTGGAAGCCTGCCGGCTGCGGTTGCGCCCGATCGTGATGACCTCGATCGCCTTCATCGCCGGCACCGTGCCGCTGGTGTTCTCGCATGGCGCGGGTGCCGAGGTGCGCGCTGCCACCGGCATCACGGTGTTCGCTGGCATGCTGGGCGTGACCCTGTTCGGCCTGTTCCTGACCCCGGTGTTCTACGTCGCCCTGCGCAAGCTGTCCGGCCGCACGCTGGTCCAGCACGGCACCGCGCCGGCGCTGGGCCACCACGCCACCCACTGA	MDFSRFFIDRPIFAAVLSIIIFAAGLIAMPLLPIGEYPDVVPPSVVVRTVYPGANPKVIAETVATPLEEQINGVENMMYIKSVAGSDGVLQMTVTFRPGTDADDAAVKVQNRVAQANARLPEDVRRQGVTVQKQSPTFLMVVHLTSPKSKYDTLYLRNYARLHVKDALARIQGVGDAQVFGGGDYAMRAWLDPERIAALGLNAGDVVAAMREQNVQVSAGQLGAEPMPDSKFLTLINAQGRLRTEQEFGDIVLKTGADGQIVHLSDVARLELGAGDYTLRSQLDGKNAVGIGIFQAPGANALDIRDQVIAAMDELTKQFPDDVKYEAVYDTTIFVRDSISAVVHTLLEAVLLVVLVVILFLQTWRASIIPLIAVPVSVVGTFAALYLLGFSINTLTLFGLVLAIGIVVDDAIVVVENVERNIEEGLSPLAAAHQAMREVSGPIIAIALVLCAVFVPMAFLSGVTGQFYKQFAVTIAISTVISAINSLTLSPALAARLLKGHDAPKDAPSRLMERLFGGWLFKPFNRFFNRSSNRYQGAVSRILGRRGVVFAVYIGLLLATGLMFKAVPAGFIPTQDKMYLIAGVKLPEGASIERTDALLRKVTDIAMHTEGVAHAISFPGLNALQFTNTPNTGVVFLPLKPFSERHRSALEINAEINQKISVLGEGMTFSMMPPPILGLGNGNGYQMFIEDRANLGYGALQNAVSQFQGAVSQVPGMSFPIGTYQANVPQLDAEVDRTKAKAQGVSLTDLFDTLQTYLGSAYVNDFNQFGRTWQVIAQADAPFRDSVEDIARLRVRNAAGEMVPVGSMVSVKQTYGPDPVLRYNGYPAADLAGEADARVLSSAEAMQKLTDLAAQVLPNGMHIEWTDLSYQQASQGNAAMVVFPLAVMLAFLVLAALYESWTLPLAVILIVPMTLLSALFGVWLSGGDNNVFVQVGLVVLMGLACKNAILIIEFARELEMGGKGIIEAALEACRLRLRPIVMTSIAFIAGTVPLVFSHGAGAEVRAATGITVFAGMLGVTLFGLFLTPVFYVALRKLSGRTLVQHGTAPALGHHATH	PGPT0029075_79	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029075-oqxB-K19585	NA	NA
BMS020_08907	1191	bepF_3		Efflux pump periplasmic linker BepF	ATGAAACAGAACGCCACCCCGTTCCGATTCCCCCTGCGCACCGCGCTGGCCGCGGCCGTGTTCGCCGCGGTGCTGGCCGGTTGCGGCTCCCGCGCGGCCGAGCAGGGCGCGCCGCCGCCGCCGGCGGTCAGCGCCGCGCCGGTGCTGGTCAAGCAGATCCGCCAGTGGGACGAATTCAGCGGCCGCGTCGAGGCCGTCGAAAGCGTCGAGCTGCGTCCGCGCGTGTCCGGCTACATCGACAAGGTCGCCTACACCGAGGGCCAGGAGGTGAAGAAGGGCGACGTGCTGTTCACCATCGATGCGCGCCAGTACCGCGCCGAATACGATCGCGCCGCCGCCGACCTGGCGCGCGCGCGCACCCAGGCCACGCTGGCCCGCAGCGAGGCCACCCGTGCCCGCAAGCTGGCCGAGCAGCAGGCGATCTCGACCGAAACCCAGGAGCAGCGCCAGGCGGCTGCGGACCAGGCCGTGGCCGATGTCGCCGCGGCGCAGGCGGCGCTGGAACAGGCCAGGCTCAACCTGGACTGGACCCAGGTGCGCGCGCCGATCGCCGGCCGCGCCGGGCGTGCCCAGGTCACCGCCGGCAATCTGGTCGCCGCCGGCGACAGCTCCAACGTGCTGACCACGCTGGTGTCGCAGGACAAGGTCTACGTCTACTTCGACGCCGACGAGCCGACCTTCCTGCGCTACAGCCGCATGGCCCGCGCCGGCGAGCGCCCCAGCGAGCGCGATGCGGCGCTGCCGGTGCATGTCGGCCTGGTCGGCGAGGACGGCTTCCCGCACGCGGGCAAGGTCGATTTCCTCGACAACCAGCTGCAGCGCGCCACCGGCACGATCCGCGTGCGCGCGGTGCTCGACAACGCCGACCGCGGCTTCACCCCGGGGCTGTTCGCGCGGGTGCAGCTGCCCGGCAGCGGCGAGTTCAAGGCGGTGCTGGTCGACGAGAAGGCGGTGCTCACCGACCAGGACCGCAAGTACGTCTACGTGGTCGACAAGGACGGCAAGGCGCAGCGTCGCGACGTGCAGCTCGGCCGCAGTGCCGATGGCCTGCGCATCGTCGACAGTGGCCTGGTCGCCGGCGACCGGGTGATCGTCGACGGCGTGCAGAAGGTGTTCATGCCCGGCATGCCGGTCAACGTGAAGGCCACGACGATGGCGCCGCCGGCCGAGCGCAAGACCGCGATGAACTAA	MKQNATPFRFPLRTALAAAVFAAVLAGCGSRAAEQGAPPPPAVSAAPVLVKQIRQWDEFSGRVEAVESVELRPRVSGYIDKVAYTEGQEVKKGDVLFTIDARQYRAEYDRAAADLARARTQATLARSEATRARKLAEQQAISTETQEQRQAAADQAVADVAAAQAALEQARLNLDWTQVRAPIAGRAGRAQVTAGNLVAAGDSSNVLTTLVSQDKVYVYFDADEPTFLRYSRMARAGERPSERDAALPVHVGLVGEDGFPHAGKVDFLDNQLQRATGTIRVRAVLDNADRGFTPGLFARVQLPGSGEFKAVLVDEKAVLTDQDRKYVYVVDKDGKAQRRDVQLGRSADGLRIVDSGLVAGDRVIVDGVQKVFMPGMPVNVKATTMAPPAERKTAMN	PGPT0029070_168	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029070-oqxA-K19586	NA	NA
BMS020_08908	768			hypothetical protein	GTGAGCGGGATGCCGAAACCCGAAGTGCTGGTGCTTGGCGGCAGCGGCACGGTCGGGGCGGGGATCGTCGAGGGCTTGCTCGAGGCGGGCAGCCCGGTGCTGGTGGTGGCGCGCGATGCGCGCCGGCTGCTGGCATTGCGCGAGCGTTTCGCCGACGCCCCGGCGCTGGAGCTGATCGAAGGTTCGGTGGCCGACGACCGCGCCGCGCAAGCGCTGGCCGCACGCATCGCCGAGCGCCCGCGGCCGCTGGCCGGGGTGATCGCCGCGATCGGTTCACCGCTGCGCAAGGGCCGGCTGCTGGACCGTCCGGCGTCGGCGCTGTTGCGCCGGCTGCAGCAGGACCTGCTGCCGCACCTGGCCGCGGCGCGTCACCTGCTGCCGTTGCTGGCCGATCTCGGCGGGCGCTACGTGCTGGTCGGCGGGCCGTGCGCGCAGCGTGCCTGGGCCGGCCACGGCGATACCTCGGTCAACGCCGCCGCGGTGCGGATGCTGGCCCAGGTGCTGCACGAGGAAGCGCAGCCGCTGGGCGTGCGCGTGCAGCTGCTCGCGGTCGAGCGCCCGGTCTGCGACCCGGCGCGGCCGGCGGAGGCCTGCAAGGAATGGTTCACCCCGCTGATGGTCGGCCGGGCAGCGGTCTCGCTGCTGGCTGGTCGCGGCATTCCCGGCCAGGTCGTGGTCGGCATCAACCCGCAATTTGCATCCATCCCGGTGCACGGCCAGCTGGCCGGTGCGCCGGTTCTTCTCCCCCCCTACGAGGTTTCCCCATGA	MSGMPKPEVLVLGGSGTVGAGIVEGLLEAGSPVLVVARDARRLLALRERFADAPALELIEGSVADDRAAQALAARIAERPRPLAGVIAAIGSPLRKGRLLDRPASALLRRLQQDLLPHLAAARHLLPLLADLGGRYVLVGGPCAQRAWAGHGDTSVNAAAVRMLAQVLHEEAQPLGVRVQLLAVERPVCDPARPAEACKEWFTPLMVGRAAVSLLAGRGIPGQVVVGINPQFASIPVHGQLAGAPVLLPPYEVSP				NA	NA	NA	NA	NA
BMS020_08909	228			hypothetical protein	ATGTGGCTGTGCAAGATCCTTGGCCTGCGCCCGCGTCACCCGAATCCCCTCGAAAGCGCCTTCGACCCGGTCGAGCGCGTGGCGAAACCGCGCCTGCCGGCACCGGTGCGGGCCTTCGCCAGCACCCCGCGGCAGCAGGCCGGGGGCGGGCTGGGTCGGGCCGGTGCACGCGGTGGCCATGGCACGTTCGCACGAATTGTCCCGTTCGCGGGAGTAATCGTCCCGTGA	MWLCKILGLRPRHPNPLESAFDPVERVAKPRLPAPVRAFASTPRQQAGGGLGRAGARGGHGTFARIVPFAGVIVP				NA	NA	NA	NA	NA
BMS020_08910	1041	dmlR_32		HTH-type transcriptional regulator DmlR	ATGACCCACGACCTCAACGACACGCTGATCTTCGTCAAGGTGGTCGAACAGGGCAGCTTCATCGCCGCGGCCAACGCGCTCGGCCTGCCCAAGACCACGGTCAGCCGCAAGGTGCAGGAACTGGAGCAGCGCCTCGGCGCGCGTCTGCTGCACCGGACCACCCGCCGCATCGGCCTGACCGAAGCCGGTTCGGTCTACCACGAACACTGCCAGCGCATCGCGCGCGAACTCGAGGAGGCCGAAAGCGCGGTCGGCCAGCTGCAGTCCGGCCCACGCGGCTGGCTGCGCTTCACCGTCAAGTATTCGATCGGCATCACCTGGATCGCGCCGTTGCTCGGCGAATTCCATGCGCGCTATCCGGAGATCCAGCTCGACATGCATCTGGGCAACGAGACCGTCGACCTGATCGCCGGCGAGGCCGACCTGGCGTTGCGCGTCGGCACCCTGCCCGATTCCAACCTGGTCGCGCGCAAGCTCGGCACGCTGCGCTCGCAGGTGTTCGCCAGCCCGTCCTACATCGAGCGCTACGGCGAGCCGCTGCACCCGGACGAACTGCAGTTCCACCGCACCCTGGCCACGCGTGCGGCGCGCAATCCGCATGGCAACCAGCGCATGCACTGGCAGCTCGACGACGGCAACGGCGCGCGCGATTTCGCCATCAATCCGCTGATGGTCGCCAACGACCCGGCGGCCCTGACCGGCGCGATGGTGCGCGGCGAAGGCCTGCTGCTGACCGGCGACGTGATGGCCAAGCCGTTCATCGAGGCCGGCATGGTGCGGCGCGTGCTGGCCGGCTGGACCGGCCCGGACTACGACTTCAACGCGGTGTTCCCCGGCGGCCGGCTGGTCTCGCCGAAGGTGCGTGCGTTCGTCGACTTCCTGGTCGAGAAGCTCAACTTCGATGCCAGCTACATGCTGGAGCAGTGCCCGGCGGCCAAGCTGGCGGCCAAGGCGCAGGCCTGCGCCGAAGCGGCCGAGCGCGAAGGCGCCGCCGAGCTGCAGGCCGAGGGCAAGCGCATCCTCGAGCGCGTGGCCGGCTGA	MTHDLNDTLIFVKVVEQGSFIAAANALGLPKTTVSRKVQELEQRLGARLLHRTTRRIGLTEAGSVYHEHCQRIARELEEAESAVGQLQSGPRGWLRFTVKYSIGITWIAPLLGEFHARYPEIQLDMHLGNETVDLIAGEADLALRVGTLPDSNLVARKLGTLRSQVFASPSYIERYGEPLHPDELQFHRTLATRAARNPHGNQRMHWQLDDGNGARDFAINPLMVANDPAALTGAMVRGEGLLLTGDVMAKPFIEAGMVRRVLAGWTGPDYDFNAVFPGGRLVSPKVRAFVDFLVEKLNFDASYMLEQCPAAKLAAKAQACAEAAEREGAAELQAEGKRILERVAG	PGPT0028940_43	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
BMS020_08911	720	yiaD_2	COG2885	putative lipoprotein YiaD	ATGATGTTCCGAGCAAGCAGCAAGACCATCGCGGTGGCCGTGGCCAGCGCGATCGCGCTGTCGGCGTGCGCGACCGGCGGCTCGTACGTGCAGCAGGACCAGTACGGCAACCAGACCCAGCAACAGAACCGTACCGGGCGCGGCGCGCTGATCGGCGCGGCGATCGGCGCCGCGGCCGGCCTGATCACCGGTGACAGCGCCACCGAGCGCCGCCAGCACGCGATGATCGGCGCCGGCATCGGCGCGCTCGGCGGCGCGGCGGTCGGCAACTACCAGGACCGGCAGGAGCGCGCGCTGCGCGAACGCACCGCCAATACCGGTATCGACGTCAAGCGCGACGGCGACAACATCACCTTGAACCTGCCGGACGGCGTGACCTTCGATTTCGGCAAGGCGACCTTGAAGCCGGAGTTCTACGGTGCGCTCAATGGCGTGGCGGCGACGCTGAAGGAATACAACCAGACCATGATCGAGGTGACCGGCCACACCGACAGCGTGGGCAGCGATGCGTTCAACCAGACCCTGTCCGAGGACCGCGCCAATTCGGTCGCGCAGTATCTCGGTGCGCAGGGCGTGCAGCGCGAGCGCATGGAGATCGTCGGCGCAGGCAAGCGCTATCCGATCGCCGACAACGGCACCGAGGCCGGGCGCGCGAAGAACCGTCGCGTCGAGATCCGCTTGATCCCGCTGCGCAGCGACACGGCCGCCGGCATGCACTGA	MMFRASSKTIAVAVASAIALSACATGGSYVQQDQYGNQTQQQNRTGRGALIGAAIGAAAGLITGDSATERRQHAMIGAGIGALGGAAVGNYQDRQERALRERTANTGIDVKRDGDNITLNLPDGVTFDFGKATLKPEFYGALNGVAATLKEYNQTMIEVTGHTDSVGSDAFNQTLSEDRANSVAQYLGAQGVQRERMEIVGAGKRYPIADNGTEAGRAKNRRVEIRLIPLRSDTAAGMH				NA	NA	NA	NA	NA
BMS020_08912	1419	phrA	COG0415	Deoxyribodipyrimidine photo-lyase	ATGAGTTTCGCCATCGTCTGGTTCCGCCGCGATCTGCGGCTGGACGACCACCCGGCCCTGCAGGCCGCCCTCGATGCCGGCCATGTGCCGGTGCCGGTGTACGTGCATGCACCGGACGAGGAGGGCGATTGGGCCCCGGGTGCGGCGTCGGATGCATGGCTGCATCGTTCGCTGCAGGCGTTGCAGGAGCAATTGCAGGCACGCGGTTCGCGGCTGCTGCTGGCGCGCGGGCCGAGTGCGGCCGCGCTGGATCGGCTGATCGCGGCCTGCGACGCCGACGCGGTGTACTGGAACCGCAAGTACGAACCGGCCACGCAGCCGCGCGATGCGGCGATCAAGCGCGACCTGCGCGCGCGTGGCCTGGACGTGGAGAGCTTCAACGGCAGCCTGCTGTTCGAACCCTGGGAGCTGGCGACCAAGCAGGGCGAACCGTACAAGGTGTTCACGCCGTTCTGGCGCACTGCGTTGAGCCAGCTGCGGTTGCCGGCGCTGTTGCCGATGCCTGAGCGGCTGCCGGCGCTGCCCGAGCGGCTGCAGGGCGAGCCACTGCAGGCGCTGGGGCTGGCGCCTGCGCTGGGGTGGGATGGTGGATTCTGGGAGCACTGGCAGCCAGGCCAGGCCGGTGCGCACGAGGCGCTGGAGGTGTTCATCGACGGCGCGCTGCACGGTTACCGCGACGGCCGCGACAAGCCCGACCGCACCGGTACCTCGCTGCTGTCGCCGCACCTGCACTTCGGCGAGATCGCGCCGTGGCGGGTCTGCACCGCGCTGGACAAGCACCGTACTGCGCGCACCGGTGCCGACATTGACGGCTACATCCGCGAACTGGGCTGGCGCGAATTCGCCTACCACCTGCTGCATCACTTCCCGCATACCACCGAGCGCAATCTCAATCCGCGCTTCGAGGCCTTTCCCTGGGCCAAGCTCGATGCGGCGACGCTGCAGGCCTGGCAGCGCGGCCGCACCGGCATCCCGATCGTCGATGCCGGCATGCGCGAGCTGTGGCAGACCGGCTACATGCACAACCGCGTGCGCATGATCGTCGCCAGCCTGCTGTGCAAGCACCTGCGCGTGCACTGGCGCGAAGGCGCGCGCTGGTTCTGGGACACGCTGGTCGACGCCGACCTGGCCAACAACACGCTGGGTTGGCAGTGGGTGGCCGGTACCGGCGCGGATGCGGCGCCGTATTTCCGCATCTTCAATCCGGTGACGCAGGCGCAGAAGTTCGATCCGGAGGCGCGCTACATCACGCGCTGGGTGCCGGAACTGGCCGCGTTGCCGGTGCGCGAACGCTTCGCGCCGTGGCTGCATCCGGCGTCGCGCGCGCGGCTGGCGCCGCAGTACCCGGCCGCGCCACTGGTGGATCTGGCCGAAGGCCGTGAGCAGGCGCTGGCGGCCTACGCGCGCACCCGCGACTGA	MSFAIVWFRRDLRLDDHPALQAALDAGHVPVPVYVHAPDEEGDWAPGAASDAWLHRSLQALQEQLQARGSRLLLARGPSAAALDRLIAACDADAVYWNRKYEPATQPRDAAIKRDLRARGLDVESFNGSLLFEPWELATKQGEPYKVFTPFWRTALSQLRLPALLPMPERLPALPERLQGEPLQALGLAPALGWDGGFWEHWQPGQAGAHEALEVFIDGALHGYRDGRDKPDRTGTSLLSPHLHFGEIAPWRVCTALDKHRTARTGADIDGYIRELGWREFAYHLLHHFPHTTERNLNPRFEAFPWAKLDAATLQAWQRGRTGIPIVDAGMRELWQTGYMHNRVRMIVASLLCKHLRVHWREGARWFWDTLVDADLANNTLGWQWVAGTGADAAPYFRIFNPVTQAQKFDPEARYITRWVPELAALPVRERFAPWLHPASRARLAPQYPAAPLVDLAEGREQALAAYARTRD				NA	NA	NA	NA	NA
BMS020_08913	723			hypothetical protein	ATGTCCAGATCGCTTGCCGCGGCATGCGCCGCCCTGTCACTGCTCGCCAGCGGGATCACCGGCGCAACGCCGGCGCAATCGGCAACCGCCTCCGAAAGCACGCAAGCGCCGGTCGGCGAGTGGTTCGTCAATGGCGAATCGGTCGCGCTGGAGCAGCGCCAATGGAGCGGCCGCCTGCAGTTCCAGGACGTCTACTGCGTCGATTTCCCCGACCCGGAACGCGCGGTGATGCGCGTGACCGGCGTGATGAACCAGGGCGCAGTGGCGATGGCGCGCGTGGAATACGCCGACGGCCTGCTTGCCTACGTCGTGGCCTCGACGCTGCCACCCGGCCGCAGCATCGCGCAGGAGCATGCGGCCCAGCTGGCAATGGCCCAGGACGGCCATGCCAAGCTCGATGCGGGATTCGAATACGACACGGCCGACAGTGCGTTCGGCCCGGTGGTCGCGCGCCATCTGCGCAACGCTGCGCCCCAGCGCGACAGGTCGTTGTTCCCGGTGGAACTGGAGTTCTACGACTCCGCGCGCACGCTCACCTTCGCCGAGAGCCGCGTGTTCGCACGCGGACCGGACCGCTTCGAGGTCGCGGCGATGGGCTTTCCCGGCAAGGACGCAACAGCGGATACCGAGGCCAGCGTGCACGGCACGGTGGTGGCAGTGGCCGAGCGGCTGCAGGCGTCGCTGCAGCGCTGCACTGCCGGACTGCCGCTCAGGACGCCCTGA	MSRSLAAACAALSLLASGITGATPAQSATASESTQAPVGEWFVNGESVALEQRQWSGRLQFQDVYCVDFPDPERAVMRVTGVMNQGAVAMARVEYADGLLAYVVASTLPPGRSIAQEHAAQLAMAQDGHAKLDAGFEYDTADSAFGPVVARHLRNAAPQRDRSLFPVELEFYDSARTLTFAESRVFARGPDRFEVAAMGFPGKDATADTEASVHGTVVAVAERLQASLQRCTAGLPLRTP				NA	NA	NA	NA	NA
BMS020_08914	1440	dnaB_2	COG0305	Replicative DNA helicase	ATGTCCGCGCGCCCCGGATACCGCTCCAACCGCAACGGCGACCGCGACCGCGATGACTTCCGTGGCCGCGACCGCGACGAGCAGCGGATGGACCAGCTGCGGGTACCGCCGCATTCGGTCGAGGCCGAGCAGGCGGTGCTGGGCGGCCTGATGCTGGCGCCGGACGCGTTCGACCGGGTCAACGACCAGCTCACCGAGACCGACTTCTACCGCCGCGACCACCAGCTGATCTACCGCGCGATCCGCGAGCTGTCCGAGCGCGACCGCCCGTTCGATGCGGTGACGCTGGGCGAGTGGTTCGAATCGCAGGGCAAGCTGGAGCTGGTCGGCGACGGCGCCTACCTGATCGAGCTGGCCAGCACCACGCCGTCGGCGGCCAACATCGTCGCCTACGCCGAGATCGTCCGCGACAAGGCGGTGCTGCGGCAGCTGATCCAGGTCGGCACCGACATCGTCAACGACGGCTTCCAGCCGGAAGGGCGCGACAGCTCCGAGCTGCTGGCCACCGCCGAGAAGTCGGTGTTCGCGATCGCCGAGCAGGGCGCGCGCGGCCGCACCGACTTCGTGGCGATGCCCGGCGCGCTGAAGGACGCGTTCGAGGAGCTGCGCAACCGCTTCGAGAACGGCGGCAACATCACCGGCCTGCCGACCGGCTACAACGACTTCGACGCGATGACCGCCGGCCTGCAGCCGACCGACCTGATCATCCTCGCGGCGCGTCCGGCGATGGGCAAGACCACCTTCGCGCTGAACATCGCCGAGTACGCGGCGATCAAGTCGAAGAAGGGCGTGGCGGTGTTCTCGATGGAAATGTCGGCCTCGCAGCTGGCGATGCGCCTGATCTCCTCCAACGGCCGCATCAACGCCCAGCGCCTGCGTACCGGCCAGCTCGAGGACGAGGACTGGGCGCGCGTCACCGGCGCAATCAAGATGCTCAAGGAAACCAAGATCTTCATCGACGACACCCCGGGCGTGTCGCCGGAAGTGCTGCGCTCCAAGTGCCGCCGCCTGAAGCGCGAGCACGACCTCGGCCTGGTGGTGATCGACTACCTGCAGCTGATGAGCGTGCCGGGCAACAGCGAAAACCGCGCGACCGAGATCTCGGAGATCTCGCGTGGCCTGAAGGGCCTGGCCAAGGAGCTGAACGTGCCGGTGATCGCGCTGTCGCAGCTGAACCGCTCGCTGGAAACGCGTACCGACAAGCGCCCGGTGATGGCCGACCTGCGCGAATCCGGCGCGATCGAGCAGGACGCGGACATGATCGTGTTCATCTACCGCGACGATTACTACAACAAGGAAAATTCGCCGGACAAGGGCCTGGCCGAGATCATCATCGGCAAGCACCGTGGTGGCCCGACCGGTTCGTGCAAGCTCAAGTTCTTCGGTGAGTACACCCGGTTCGACAACCTGGCGCACGACTCGGTCGGCAGCTTCGAGTGA	MSARPGYRSNRNGDRDRDDFRGRDRDEQRMDQLRVPPHSVEAEQAVLGGLMLAPDAFDRVNDQLTETDFYRRDHQLIYRAIRELSERDRPFDAVTLGEWFESQGKLELVGDGAYLIELASTTPSAANIVAYAEIVRDKAVLRQLIQVGTDIVNDGFQPEGRDSSELLATAEKSVFAIAEQGARGRTDFVAMPGALKDAFEELRNRFENGGNITGLPTGYNDFDAMTAGLQPTDLIILAARPAMGKTTFALNIAEYAAIKSKKGVAVFSMEMSASQLAMRLISSNGRINAQRLRTGQLEDEDWARVTGAIKMLKETKIFIDDTPGVSPEVLRSKCRRLKREHDLGLVVIDYLQLMSVPGNSENRATEISEISRGLKGLAKELNVPVIALSQLNRSLETRTDKRPVMADLRESGAIEQDADMIVFIYRDDYYNKENSPDKGLAEIIIGKHRGGPTGSCKLKFFGEYTRFDNLAHDSVGSFE				NA	NA	NA	NA	NA
BMS020_08915	555			2-hydroxy-1,4-benzoquinone reductase	ATGGGGATCCCCACCATCGCGGTGCTGGTCGGCAGCCTGCGCCGGGCTTCGTACAACCGCCAGCTGGCGTTGGCGCTGGAAACGCTGGCCGGCGAGCGTGCGCGCTTCGTCCACCTGCAGATCGGCGACCTGCCGCTCTACGACCAGGATCGCGACGAGGACTACCCGGCCCAGGGCAATCGCCTCAAGCAGCAGCTGCGCCTGGCCGACGGCGTGCTGTTCGTGACCCCGGAGTACAACCGCTCCATTCCCGGGGTGCTGAAGAACGCGATCGACACCGCCTCGCGCCCGTACGGCGACAGCGCGTTCGCCGGCAAGCCGGCGGCGGTGGCCGGCATCTCGGTCGGCGCGATCGGTACCGCGTTGGCACAGCAGCATCTGCGCAACGTGCTGGCCTACCTGGACATGCCGGTGCTGGGGCAGCCGGAGGTGTTCCTGCAGTACCGCGATGGGTTCTTCGATGCCGATGGCGGCATCGCCAACGCCGATACCCGCCGCTTCCTGCTCGGTTTCATCGAGCGCTTGCTGGCGTGGGTGGCGCAGCACCAGGGGTAA	MGIPTIAVLVGSLRRASYNRQLALALETLAGERARFVHLQIGDLPLYDQDRDEDYPAQGNRLKQQLRLADGVLFVTPEYNRSIPGVLKNAIDTASRPYGDSAFAGKPAAVAGISVGAIGTALAQQHLRNVLAYLDMPVLGQPEVFLQYRDGFFDADGGIANADTRRFLLGFIERLLAWVAQHQG	PGPT0004195_1622	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0004195-chrR-K19784	NA	NA
BMS020_08916	306			hypothetical protein	TTGCTGGCGCAGCTGCTGCAGCAGCTGCTGCCGGACGGCGCCCAGGTCGAGCTCGCCGCGCCCACGGCGCCGCCCGTGGCGGCGTGGCTGCGTGGTGGCTTGCACGGCTGGGCCGATGACCTGCTGGCGCACGGGCGGCTGCAGCGTGAAGCGGTGTTCGATGCCGAGGTGGCCGCGGCCGCTTGGCGCGCCTTCAACCGCGGCGAGCGGCGGCTGCACCGCCTGCTGTGGCCGCTGCTGGCGTTCCAGGGCTGGCATGCCCGCTGGCGCGCGGTGCGGGCCGACGCTGCCGGCGAGGCGCCCTGA	MLAQLLQQLLPDGAQVELAAPTAPPVAAWLRGGLHGWADDLLAHGRLQREAVFDAEVAAAAWRAFNRGERRLHRLLWPLLAFQGWHARWRAVRADAAGEAP	PGPT0020150_864	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953	NA	NA
BMS020_08917	669			hypothetical protein	ATGGCCAAAGCCTCTCCACGGACGCCCGTCCAGGGCCCGGCCTTCATCCGTCTGCTTGCCGGCCTGAGCGATGCCGCGGTGCCGTCCAACGGCCCCGGCTGGAGCGAGCGGCTGGGCGAGTGGATCGACTGGACCCGGGCGGTGGCGCTGGCGCGTGCGCTGGACGGGCGCCTGCCCGAGGCCGGGACCGACGCACCGGTGGACGGCGCCGATGCCACGGCCTGCGCACGCCAGCGCACCGCGCTGGAACAGGCGATCGTCGAGGCCACCGCCAGTGTGCCGGCGCTGGCCGATGCCGGCGACTACGCGCCGTTCCGGCAGCGCTACCTGGAGCGGCAGCGGGCGATGCTGACCAGCACCGGCCACCTGCGCGGGCTGCTGCGCGAGCAGCTGGCGCGCCGGTCGGCGGCGCTGGCGCGGCTGGCCGAGCTGGATGCGGTGATGGAAGCCGCGCTCAGCCCGCGCGAGCACGTGCTGCTGGCGGCAGTGCCGGAGCTGCTCGGCGCGCACTTCGCGCGCCTGCACGCGGCCGCGGCCGACACCACCGCCGACGGCCGTGCCGAGGCGTGGCTGGACGGCTTCCGCATGGACATGCGCGGCGTGCTGCTGGCCGAGCTCGATGTCCGCTTCCATCCCATCGAGGCGCTGCTTGCAGCGCTGCGTTCCTGA	MAKASPRTPVQGPAFIRLLAGLSDAAVPSNGPGWSERLGEWIDWTRAVALARALDGRLPEAGTDAPVDGADATACARQRTALEQAIVEATASVPALADAGDYAPFRQRYLERQRAMLTSTGHLRGLLREQLARRSAALARLAELDAVMEAALSPREHVLLAAVPELLGAHFARLHAAAADTTADGRAEAWLDGFRMDMRGVLLAELDVRFHPIEALLAALRS				NA	NA	NA	NA	NA
BMS020_08918	2238			hypothetical protein	ATGTCCCGAAATCTCCTGCATTCCCTGGTGTTCCTCCTCGGCCTGGCCGCGATCGTCTGGGTCGGGGCCGGCTACGCCACTACCAACCCGCTCGGCGCCGGCGTCGCGCTGCTGATCGCGGCCTGTTACCTGGCCGGCGCGCGCGAGCTGTACCGCTACCGCCAGGCCACCGCGACGCTGGATGCGGCGCTCGCCGATGCCGATGCGGCCGCCGCCGACCTGCCGGGCTGGCTGGCGCGGTTGGCGCCGGGCCTGCGCACGCCGGTGCGGCTGCGCGTCGAAGGCGAGCGCGTGGCGCTGCCGGCGCCGGTGCTGGCGCCGTACCTGGTCGGGCTGCTGGTGCTGCTGGGCATGCTCGGCACGCTGCTGGGCATGATGGCGACGCTGCGCGGCACCGGCCTGGCGCTGGAAGGCGCCGCCGACCTGGAGACGATCCGCGGCTCGCTGGCCGCGCCGGTCAAGGGCCTGGGCTTCGCCTTCGGCACCTCGATCGCCGGCGTCGCCGCCTCGGCGATGCTCGGCCTGCTGGCCGCGCTGTGCCGGCGCGAGCGTCTGCAGGCGGTGCAGCGCCTGGACACCCTGGCCGCGACCCGGCTGCAGCTGCATGCGCCGGCGCACCAGCGCGCGCAGACCCTGCAGCTGCTGCGCCAGCAGGGCGAGGTGATGCCGGCGCTGGTCGATCGCCTGCAGGCGTTGATGGGCGCGATCGAACAGCAGGGCGCCGCCGCGCAGGAGCGGCTGGCGGCCAGCCAGGAGCAGTTCCATGCGCGTACCGAGGCGGTGCACGCGCGCCTGGCCGAGGCGGTCGAGCAATCGCTGCGCCAGGGCGTGGCCGATAGCGCACGCGCGGTCGGCGATGCGCTGCAGCCGCTGCTGCAGGCCACGCTGACCGGGCTGGCCGGCGAGACCGCCGCACTGCAGGCCAGCGTCGGCCAGGCGGTACAGGCCCAGCTCGACGGGCTGGCGCAGGGCTTCGAACGCAGCGCCGCCGGCGCCGCGGCGAGCTGGCATGAGGCGCTGGCCGAGCAGCGCCGCCTCAACCAGGCCCAGGCCGAGAGCCTGCAGGCCGCGCTGGCGCAGGCCGGCAACGGCTTCGAACAACGCGCCACCGGCCTGGCCGACACGCTCGGCAGCCGCCTGGAGGCCAGCAGTGCGGCCAACGCCGCGGCCTGGAGCAGCGCGCTGGAACGCCAGCAGGCCCAGGCCGAGGCGGTGCAGGCCGCGCTGAGCCAGGCCGCCGATAGCTTTGAACGCCGCGCCACCGGCCTGGCCGAGACCCTGGCCACGCGCCTGGACGCCAGCACCGCCGCCACCGTGGCCGCCTGGGACGCGGCGCTGGCGCGCCAGCAGGACGCGCACGCGCAGCTGGCCACGCAGCAGCAGCAGGCGCTGGACGCCGCGGCCGCGGCGCTGGAGACGCGGGCCGGCGCGATGGCGCAGGCACTGGGCCAGGCCCAGGACGCGCTGCAGGCCGGGCTGGAGGCGCGCGACGCGGCACGCCTGGAGGCGTGGTCGCAGGCGTTCGCCGCGCATGCCGAACAGGCCGGGCTGCAGTGGCAGCAGGGCAGCGAACAGGCCGCCGCGGCCCAGCGCGCGATCTGCGACACGCTGGCGCGCACCGCCGAGGAGATCGGCACGCAGGCGCAGGCCCAGGCCGAGCGCACCATCGCCGAGGTCGCCACGCTGCTGCAGGCCGCCGCCGAGGCGCCGCGCGCCGCCGCCGAGGTGGTGGCCGAGCTGCGCGAGAAGCTGTCCGAAAGCATGGTCCGCGACACCGCCACGCTGGAGGAACGCGCACGCCTGCTGGCCACCGTGGAAACCCTGCTCGGCGCGGTCAACCACGCCTCCACCGAGCAGCGCGCCGCGGTCGATGCGCTGGTGGCCACCTCGGCCGAACTGCTCGAACGCACCGGCCACCGCTTCACCGCGCAGGTCGAGGCCGAGACCGGCAAGCTCGAAGGCGTGGCCGCGCAGCTGGCGGTCGGCGCGGCCGACGTCGCCAGCCTCGGCGAGGCGCTGGGTGGCGCGGTCGAGGTGTTCGGCGGCGCCAACGCGGCACTGGCCGAGCGCCTGCAGCAGGTCGCCAGCGCGCTGGAAGGCGCCGCGGCGCGTAGCGACGAACAGCTGGCCTACTACGTGGCGCAGGCGCGCGAGGTGGTCGACCTGAGCGTGCTGTCGCAGAAGCAGATCGTCGAGGAACTGCAGCAGCTGGCCGCGCGCGGGACCGCCGGCGCATGA	MSRNLLHSLVFLLGLAAIVWVGAGYATTNPLGAGVALLIAACYLAGARELYRYRQATATLDAALADADAAAADLPGWLARLAPGLRTPVRLRVEGERVALPAPVLAPYLVGLLVLLGMLGTLLGMMATLRGTGLALEGAADLETIRGSLAAPVKGLGFAFGTSIAGVAASAMLGLLAALCRRERLQAVQRLDTLAATRLQLHAPAHQRAQTLQLLRQQGEVMPALVDRLQALMGAIEQQGAAAQERLAASQEQFHARTEAVHARLAEAVEQSLRQGVADSARAVGDALQPLLQATLTGLAGETAALQASVGQAVQAQLDGLAQGFERSAAGAAASWHEALAEQRRLNQAQAESLQAALAQAGNGFEQRATGLADTLGSRLEASSAANAAAWSSALERQQAQAEAVQAALSQAADSFERRATGLAETLATRLDASTAATVAAWDAALARQQDAHAQLATQQQQALDAAAAALETRAGAMAQALGQAQDALQAGLEARDAARLEAWSQAFAAHAEQAGLQWQQGSEQAAAAQRAICDTLARTAEEIGTQAQAQAERTIAEVATLLQAAAEAPRAAAEVVAELREKLSESMVRDTATLEERARLLATVETLLGAVNHASTEQRAAVDALVATSAELLERTGHRFTAQVEAETGKLEGVAAQLAVGAADVASLGEALGGAVEVFGGANAALAERLQQVASALEGAAARSDEQLAYYVAQAREVVDLSVLSQKQIVEELQQLAARGTAGA				NA	NA	NA	NA	NA
BMS020_08919	651	pal_6		Peptidoglycan-associated lipoprotein	ATGAGCGGCGAGATCGACTACGACAGCGAGGGCGCTGCGCCGATCTGGGCCGCATTCGGCGACCTGATGTCGGTGCTGCTGGGCGCGTTCGTGCTGATCCTGGTGGGCGTGATCGGCGTGCACCTGCAGCTGTCGCAGCAGTACGAGGCCGAGGTCAAGCGGCGCCAGGCCGAGGCGCAGCGGCTGCAGTCGCTGGAGCAGGCATTGGCCGCGCCGCTGGCGGCCGGGCGCGTGACCCTGGTCGATGGCCGCATCGGCATCGGCGGCAACGTGCTGTTCGCGCTCAATTCCGACCAGCTGCAGCCGGAAGGGCGGCAGTTGCTGCGCTCGCTGGCCGCGCCGCTGGCGCAGTACCTGGACCAGCGCGACGAGATCCTGATGGTCAGCGGCTTCACCGACGACCGCCCGGTGCTGGACGGCAACCGCCGCTTCGCCGACAACCTGGAGCTGTCCTCCGAGCGCGCGCTGACGGTGACCCGCACGCTGATCGCCGAGGGTGTGCCGGCCCCGGCGGTGTTCGCCGCGGCGTTCGGCGCGCAGCAGCCGGTGGATTCCAACGCCAGCGAGGCCGGGCGCGCGCGCAACCGTCGGGTGGAAATCGCGCCGATCCCGCGCCCGCATCCGGTCGCCGCGCCCGCCGATGGCCACTGA	MSGEIDYDSEGAAPIWAAFGDLMSVLLGAFVLILVGVIGVHLQLSQQYEAEVKRRQAEAQRLQSLEQALAAPLAAGRVTLVDGRIGIGGNVLFALNSDQLQPEGRQLLRSLAAPLAQYLDQRDEILMVSGFTDDRPVLDGNRRFADNLELSSERALTVTRTLIAEGVPAPAVFAAAFGAQQPVDSNASEAGRARNRRVEIAPIPRPHPVAAPADGH				NA	NA	NA	NA	NA
BMS020_08920	612			hypothetical protein	ATGCAGTGGCGCCAGGCCGGCGCCGCGCATCGCGATCCGCTGCGCTTCGGCCGCATCGTCGCGCTGGCGGCACGCGTGCCGCATCACCACGGCGCCGCGCGGCAGGCGCTGCAGGCGCGGCTGCAGGGCTTGCTGCAGGATTTCGCCGCGGCGCAGCCGCAGCCCGATGCCGAGCCGCCGGCTGCGCCGGTATCGCCGGCGCGGCGCCAGTTGCAGGACCTGCTTGCCGAGCTGCGCCGCGACGAGGGCGCGGCGGAGGCGAGCGGCGAGGCCGCCAGCGCCAGCGTGGCGATACCACGCCCGGTGCTGCCGGCGCTCGCCGAGGCGCGCGCGACCTGGGACGGGCTGCGCGCCGACCAGCAGCTGCGCCAGGCGCAGCTGCCGGCGCCGGCCGATGCCGGCCCGCTCAATTCCAGCGTGCTGGTGCATCGCGCACTGAGCCACATGCGCGAGGTCGCGCCGGGCTACCTGCGCCACTTCCTGGCCTATGTCGATGCGCTGGCGTGGTTGCAGCAGATGCAGGCCGGCGGCGTGCTGGCCACGCCGGAGCCAGCGCGCCCGGCGGTGGCCAAGAAGGCCACGCGCGCCCGCAGCCGGCGGCGCAGCGAGTAG	MQWRQAGAAHRDPLRFGRIVALAARVPHHHGAARQALQARLQGLLQDFAAAQPQPDAEPPAAPVSPARRQLQDLLAELRRDEGAAEASGEAASASVAIPRPVLPALAEARATWDGLRADQQLRQAQLPAPADAGPLNSSVLVHRALSHMREVAPGYLRHFLAYVDALAWLQQMQAGGVLATPEPARPAVAKKATRARSRRRSE				NA	NA	NA	NA	NA
BMS020_08921	1464	mtlK_2	COG0246	Mannitol 2-dehydrogenase	ATGACCGCGCTCCCATCGCTTTCCGCCGCCACCCTCGCCCAGCTGCCGGCGCAGGTGCTGCGCCCCGGCTATGACCGCGCGGCCACCCGCATCGGCATCGTCCATCTGGGTGCCGGCGCGTTCCATCGCGCGCACCAGGCGGTGTACATCGACGACCTGCTCGCCGACGCGCCGGACTGGGCGATCTGCGCGGTCTCGCTGCACAGCACCGGCGTGCGCGACGCGCTGCGTCCGCAGGACGGGCTGTACACGCTGGCGCTGCTCGATGCGCAGCCCGCATTCCGCGTGATCGGCGCGATCGGCGAAGTGCTGTGCGCCGCCGACGAACCCGCCGCGCTGCTGGCGCGGCTGGCCGATCCCGGCGTGCGCCTGGTCACCCTGACCATCACCGAGAAGGGCTACTGCCTGGCTGGCAACACGCTCGACCTGGCGCACCCGGACATCGTCCACGACCTCGCCCACCCCGCCGCCCCGCGCAGCGCGATCGGCTGGCTGCTTGCCGGGCTGCGCGCGCGCCACGCAGTCGGGCTGCGCCCGTACACGGTGCTCAGCTGCGACAACCTGCCCGACAACGGCGGCAAGCTGCGCCGCGCCGTGCTCGCCCTGGCGCAGCAGCTGGACCCGGCACTGGCGGCCTGGATCGCCGCGCATGGCGCGTTCCCGCGCGCGATGGTCGACAGCATCACCCCGGCCAGCGACGACGCGCTGCGCGCACGCGTGGCGCAGGCGCTGCAGCACGCGGACGCCTGGCCGGTGCAGCGCGAACCATACGCGCAATGGGTGATCGAAGACCGCTTCTGCGACGGCCGCCCGCCGCTGCAGCGCGCCGGCGTGGTGTTCAGTGACGACGTCGCCGGCTACGAGCACGCCAAGCTGCGGCTGCTCAACGGCGCGCATTCCAGCCTGGCCTACCTGGGCCTGCTGCTGGGCCTGGACAGTGTCGGCGAGGCGATGCGGCAGCCGGTGCTGGCCGGCTTCATCGCGAGGCTGATGCGCGAGGACATCGCGCCCGCGCTGCCGGCGTTGGCCGGCTTCGATGCGCAGGCCTATGTCAGCGCGATCCTGCAGCGCTTCGCCAATCCAGCGGTGCAGCACCGGTTGGCGCAGATCGCCTGGGACGGCTCGCAGAAGCTGCCGGTGCGGCTGCTCGGCGGCATCGCCGAAGCGCTGGACGCCGGCCGCGACATCGCGCGGCCGTGCCTGGCGGTTGCGGCGTGGCTGCAGTTCCTGCGCCGCCAGGCCCGCGCCGGCAGTGCCGTGGTCGACCCGCTGGCCGACACCCTGGCCACGCTCGGCCAACGCTGCAGCGGCGAGCCCGCGCACGACATCGCGCTGTGGCTGGGCGTGGCGCCGGTGTTCGGCGCGCTGGCGCACGATGCGCGCTTCAGCGGCGCGATGCAGGTGGCCTACGCTGCGCTCGGCAATGCCGATGCCGTGGACGTGCAGCGCGCGCTCGAACACTGA	MTALPSLSAATLAQLPAQVLRPGYDRAATRIGIVHLGAGAFHRAHQAVYIDDLLADAPDWAICAVSLHSTGVRDALRPQDGLYTLALLDAQPAFRVIGAIGEVLCAADEPAALLARLADPGVRLVTLTITEKGYCLAGNTLDLAHPDIVHDLAHPAAPRSAIGWLLAGLRARHAVGLRPYTVLSCDNLPDNGGKLRRAVLALAQQLDPALAAWIAAHGAFPRAMVDSITPASDDALRARVAQALQHADAWPVQREPYAQWVIEDRFCDGRPPLQRAGVVFSDDVAGYEHAKLRLLNGAHSSLAYLGLLLGLDSVGEAMRQPVLAGFIARLMREDIAPALPALAGFDAQAYVSAILQRFANPAVQHRLAQIAWDGSQKLPVRLLGGIAEALDAGRDIARPCLAVAAWLQFLRRQARAGSAVVDPLADTLATLGQRCSGEPAHDIALWLGVAPVFGALAHDARFSGAMQVAYAALGNADAVDVQRALEH	PGPT0018275_923	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018275-uxuB-K00040	NA	NA
BMS020_08922	2709	xyl3A_2	COG1472	Xylan 1,4-beta-xylosidase	ATGCACGCTGCATCGCACCGCCCCCCGTTCCGCCGCCACGCCGCACGCCTCGGCCCGGCCTGTGTGCTGGCGCTGCTGGCCGCGCCGGCGCTGGCCACGCCGCCGGACGACGCCCAGCGCCCGTGGCTGGACACCTCGCGCAGCTTCGAGCAGCGCGCGGCGTTGCTGGTCGGGCAGATGACGCTGGAGGAGAAGGCGGCGCAGATGCAGAACGACGCGCCGGCGATCGACCGCCTCGGCGTGCCCGCCTACGACTGGTGGAACGAGGCGCTGCACGGCGTCGCCCGCGCCGGCAACGCCACCGTGTTCCCGCAGGCGATCGGCATGGCGGCGACCTTCGACGTGCCGCTGATCGGCCAGGTTGCCGATGCGATCAGCGACGAGGCCCGCGCCAAGCACGCGCGTTTCGCCGCTGAAGGCCAGCGCGGCCGCTACCAGGGGCTGACGTTCTGGTCGCCGAACATCAACATCTTCCGCGATCCGCGCTGGGGCCGCGGCCAGGAGACGTACGGCGAGGATCCGTACCTGACCGGGCAGCTCGGCGTGGCCTTCGTGCGCGGGCTGCAGGGTGCCGACGATCCGCGCGGCGCCACCTACCGCAAGCTCGACGCGACCGCCAAGCACTTCGCGGTGCACAGCGGGCCGGAAGCCGACCGCCACCACTTCGACGTGCACCCCAGCAGGCGCGATCTGTACGACACCTACCTGCCGGCGTTCGAGACGCTGGTGAAGGACGGCGACGTCGACGCGGTGATGGGCGCCTACAACCGCGTCTACGGCGAATCGGCCAGCGCCTCGCGCTTCCTGCTGCGCGACACGCTGCGCCGCGACTGGGGCTTCGACGGCTACGTGATGTCCGACTGCTGGGCGATCACCGACATCTGGAAGCACCACAAGATCGTCGCCACGCCGGAGCAGGCGGCGGCGCTGGGGGTCAAGAATGGCGACGAGCTCAACTGCGGTGACACCTACGCCAAGGCGCTGCCGTTAGCGGTGCGCAAGGGCCTGATCGACGAGGCCGAGCTGGACCGCGCAGCGACGCTGCTGTTCACCGCGCGCATGCGCCTGGGCATGTTCGACCCGCCGGCGCAGGTGCCGTGGAACGCGATCCCGTACACGGTGGTGCAGTCACCGGCGCACGATGCGCTGGCGCGCAAGGTCGCGCAGGAATCGATCGTGCTGCTGAAGAACGACGGCGTGCTGCCGCTGGCGAAGTCCACGCGGCGCATCGCGGTGATCGGCCCGACCGCCGACGACACCATGGCCCTGCTGGGCAACTACTACGGCACCCCGGCGGCACCGGTGACGATCCTGGCCGGCATCCGCGCCGCCGCGCCGCAGGCCGAGGTGGTGTACGCACGCGGCAGCGACCTGGTCGAGGGCCGCGACGACCCCAATGCCGCGCCGCTGATCGAGCCGCAATACCTGCGCCCGGCTGCCGGCTCGAGCGAGCGCGGCCTGCGCGGCGAATACTTCCGCAACCGCGACCTGGCCGGCACGCCCACGCTGGTGCGCACCGATGCGCAGATCGGCTTCCGCTGGGACCGCGGCGCCCCCACCGACACGCTGCAGGCGCGCGGCGAGGTCGGCGGCGACCAGGCGATTCCGGCCGACGATTTCAGCATCCGCTGGAGCGGCCAGCTGCTGCCACCGGTGAGCGGCGACTACCGCATCGAGGCCGCGGCCGACGACGGCGTGCGCCTGTACGTGGACGGCAAGCCGGTGATCGACCAGTGGCGCGACAGCGACCGGCTGCGCGCCGGCAGCGTGACCCTGCCGCTGGTCGGTGGCCGCGCCTACGACATCCGCCTGGAGTACTACGACCATGCGCGCGATGCGGCGGTACGGCTGGCGTGGTCGATGCCCGGGGCCAAACCACCGTTCGAGGCGGCGCTGGAGGCGGCGCGCGGCGCCGATGCGGTGGTGTTCGTCGGTGGCCTGACCGGTGATGTCGAGGGCGAGGAGATGACGGTGAACTACCCCGGCTTCGCCGGTGGCGACCGCACCGACATCCGCCTGCCGGCGCCGCAGCAGAGGCTGCTGGAAGCGCTGCAGGCCACCGGCAAGCCGGTGGTGCTGGTGCTGACCACCGGCGCGGCGCTGGGCATCGACTGGGCCAAGGCGCAGCTGCCGGCGGTGCTGGTGGCGTGGTATCCGGGCCAGCGCGGCGGCAGCGCGGTGGCCGACGTGCTGTTCGGTGATGCCAACCCGTCCGGGCGGCTGCCGGTGACGTTCTACAGCGCCGAGGAGCAGCTGCCGGCGTTCGACGACTACGCGATGGCCGGACGTACCTATCGCTACTTCCACGGTACGCCGCTGTATCCATTCGGCCACGGCCTGTCCTACACCACGTTCGGCTATTCCGCGCTGCGTCTGGACCGCACGCACGTCGCCCGCGACGGCACGCTCAGCGCCAGCGTGCAGGTCCGCAACAGCGGCCAGCGCGCCGGCGACGAGGTGGTGCAGCTGTATCTGCGCCCGCGTTCGCCCGGTCCGGACGCCGCGCGCAAGACCCTGCGCGGCGTGCAGCGCGTGCACCTGCAGCCCGGCGAAAGCAGGCAGCTCACCTTCGCGCTGCATCCGGCCCGCGACCTGCGCCACTACGACGAGGCGAGCGCCGGTTACGTGGTCAGCTCCGGCGACTACGAGGTGCAGGTCGGCGCATCCAGCGAGGACATCCGTGCGCGCGCGACGTTCAGCGTCGAATGA	MHAASHRPPFRRHAARLGPACVLALLAAPALATPPDDAQRPWLDTSRSFEQRAALLVGQMTLEEKAAQMQNDAPAIDRLGVPAYDWWNEALHGVARAGNATVFPQAIGMAATFDVPLIGQVADAISDEARAKHARFAAEGQRGRYQGLTFWSPNINIFRDPRWGRGQETYGEDPYLTGQLGVAFVRGLQGADDPRGATYRKLDATAKHFAVHSGPEADRHHFDVHPSRRDLYDTYLPAFETLVKDGDVDAVMGAYNRVYGESASASRFLLRDTLRRDWGFDGYVMSDCWAITDIWKHHKIVATPEQAAALGVKNGDELNCGDTYAKALPLAVRKGLIDEAELDRAATLLFTARMRLGMFDPPAQVPWNAIPYTVVQSPAHDALARKVAQESIVLLKNDGVLPLAKSTRRIAVIGPTADDTMALLGNYYGTPAAPVTILAGIRAAAPQAEVVYARGSDLVEGRDDPNAAPLIEPQYLRPAAGSSERGLRGEYFRNRDLAGTPTLVRTDAQIGFRWDRGAPTDTLQARGEVGGDQAIPADDFSIRWSGQLLPPVSGDYRIEAAADDGVRLYVDGKPVIDQWRDSDRLRAGSVTLPLVGGRAYDIRLEYYDHARDAAVRLAWSMPGAKPPFEAALEAARGADAVVFVGGLTGDVEGEEMTVNYPGFAGGDRTDIRLPAPQQRLLEALQATGKPVVLVLTTGAALGIDWAKAQLPAVLVAWYPGQRGGSAVADVLFGDANPSGRLPVTFYSAEEQLPAFDDYAMAGRTYRYFHGTPLYPFGHGLSYTTFGYSALRLDRTHVARDGTLSASVQVRNSGQRAGDEVVQLYLRPRSPGPDAARKTLRGVQRVHLQPGESRQLTFALHPARDLRHYDEASAGYVVSSGDYEVQVGASSEDIRARATFSVE	PGPT0019110_847	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
BMS020_08923	1668		COG3507	Non-reducing end alpha-L-arabinofuranosidase BoGH43A	ATGAGGGCGCTGTACGCGTTGCTGACCTGCGCCCTGCTGTACGCCTTCCCGGCCATCGCCACCACACCGACGGTGGCCTTCGACTGGTTCGACTACCGCGGCGACGATGCCGCGTTCGCCCAGCCGCTGCCGCCCGGCCACTACCGCAATCCGGTGCTGGCCGGCTTCCATGCCGATCCCAGCGTGGTCGCCGCCAACGGCCGCTTCTACCTGGTCAATTCCAGCTTCACGTGGTTTCCCGGCGTACCGGTGTTCGAGAGCGACGATCTGGTGCACTGGCGCCAGATCGGCAACGTGGTCGCCCGGCCCGACACGCTGGATTTCGATGGGCTGGAGGTCTCGCGCGGCATCTTCGCGCCGGCGATCAGCGTCCACGATGGCGTGTTCTACGTGGTCACCACCGCGGTCGACAGCGGCGGCACCTTCATCAGCACCGCCACCGATCCGGCCGGGCCGTGGTCGCCGCCGCACTGGCTGCCCGGCGTCGGCGGCATCGATCCCTCGCTGTTCTTCGACGACGACGGCACGCTGTGGCTGGTCAACAACGATGCGCCGGCCGGGCCTCCGCGCTACGAAGGCCACCGCGCGATCTGGCTGCGCCAGCTCGACCGCACCACGCTGAAGCCGCTCGGCGCCGCGCGCGTGCTGCTCGATGGTGGCGTGCGCCCGGCGCAGCAGCCGATCTGGATCGAGGGCCCGCACCTGTACCAGCGCGAGGGCTGGTACTACCTGTCCGCGGCCGAAGGCGGCACCGGGCCGCAGCACTCGCAGGTGGTGCTGCGCAGCCGCACGCTGCAGGGGCCCTATGTTGCGAACCCGCACAACCCGATCCTGACCCAGCGCACGCTCGATCCGGCACGGCCGCTGCCGGTCGCCAACGCCGGCCACGCCGACCTGGTGCAGGGCCCGGATGGGCAGTGGTGGGCGCTGTTCCTGGCCAGCCGGCTTTACCAGCAGCGCCACTACAACACCGGGCGCGAAACCTTCCTGCTGCCGGTGACCTGGCGCGACGGCTGGCCGATGATCCTGCCGCCCGACCGCGCCGTGCCCTATGCCGCGCCCGCACCGTCCTTCATGCACGGCGCTGCCGGGCAGGCGCCGAACAGCGGCAACTTCCGCTGGCACGACGACTTCGCCCAGCCGCAGCTCGACCGCGCCTGGCTGATGCTGCGCACGCCGAAGCAGCCCTGGGCCGACCTGCACAGCCAGCCCGGCACGCTGCGCATCCGGCCGCGGCGCGAAGGCCTGGACGGCAGCGGCAACCCGGCGTTCCTGGCGCGCCGCCAGCAACACCTGCGCTTCGAGGCGCGCAGCGCGCTGCAGCTGCCCCCAGCCGGCGTCGCCGCCGGGCTGGCCGCGTTCCAGAACGGCCGGCACTGGTACTTCCTCGGCGTGCGCCGCGATGGCGCGGCGATGCAGCTGTTCCTGGAACAACGTGCCGGCGACGCACCGGCACGCGTGCTGGTGCGCCGCACCCTGCCCGCCAGCGCCGCGCTGCAGCTGAAGATCGCCGGCGACGGCGGCGACTACGGCTTCGGCTTCGATGCCGGCGATGGCTGGCAGTGGCTGGCCGACCACCAAGACGGCCGCATCCTCAGTACCGACGTCGCCGGCGGCTTCGTCGGCACCATGCTCGGGCCATTCGCCCGCGACGAACGCCATCCGTGA	MRALYALLTCALLYAFPAIATTPTVAFDWFDYRGDDAAFAQPLPPGHYRNPVLAGFHADPSVVAANGRFYLVNSSFTWFPGVPVFESDDLVHWRQIGNVVARPDTLDFDGLEVSRGIFAPAISVHDGVFYVVTTAVDSGGTFISTATDPAGPWSPPHWLPGVGGIDPSLFFDDDGTLWLVNNDAPAGPPRYEGHRAIWLRQLDRTTLKPLGAARVLLDGGVRPAQQPIWIEGPHLYQREGWYYLSAAEGGTGPQHSQVVLRSRTLQGPYVANPHNPILTQRTLDPARPLPVANAGHADLVQGPDGQWWALFLASRLYQQRHYNTGRETFLLPVTWRDGWPMILPPDRAVPYAAPAPSFMHGAAGQAPNSGNFRWHDDFAQPQLDRAWLMLRTPKQPWADLHSQPGTLRIRPRREGLDGSGNPAFLARRQQHLRFEARSALQLPPAGVAAGLAAFQNGRHWYFLGVRRDGAAMQLFLEQRAGDAPARVLVRRTLPASAALQLKIAGDGGDYGFGFDAGDGWQWLADHQDGRILSTDVAGGFVGTMLGPFARDERHP	PGPT0018665_423	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
BMS020_08924	1254		COG4948	D-mannonate dehydratase	ATGACCGCGCAGGACCCCACCACAGCGACGCAGGGCTCGGCCCGCGACCGCGAGATCGTCGAGGCGCGGGTGATCGTCACCTGCCCCGGGCGCAACTTCGTCACCCTGAAGATCGTCACCCGGTCCGGCGTGTACGGGCTCGGCGACGCCACCCTCAACGGCCGCGAACTGGCGGTGGCGGCCTACCTGCAGGAACACGTGGTGCCGAACCTGATCGGCCGCGACGCCGGGCGCATCGAGGACACCTGGCAGTTCCTCTACCGCGGCGCGTACTGGCGGCGCGGGCCGGTGACGATGAGCGCGATCGCCGCGGTCGACGTGGCGCTGTGGGACATCCTCGGCAAGATGGCCGGGCTGCCGCTGTATCAGCTGCTCGGCGGGCGCTCGCGCGAGGGCGCGCTGGTCTACGGCCACGCCAACGGCCGCGACATCGCCGAGGCGTCCGACGCGGTTGGCGGCTTCATCGAACAGGGCTTCCTGGCGGTGCGCGCGCAATGCGGCGTGCCCGGCATCAAGAAGGCCTACGGCATCTCCAACGCCAAGGGTTACGAGCCGGCCGAAAGCGCGCTGCCGCTGGAGACGGTCTGGAACACGCCACGCTACCTGGCCACCGTGCCGCGGCTGTTCGAGCAGCTGCGCAACGACCATGGCGACGACGTCGAACTGCTGCACGACGTGCACCACCGGCTGAGCCCGATCGAGGCGGCGCGGCTGGCCAAGTCGCTGGAGCCGTACCGGCTGTTCTGGCTGGAGGATGCGACGCCGGCCGAGAACCAGCAGGGCTTCGCACTGATCCGCCAGCACTCGGTGACCGCGCTGGCGGTCGGCGAGGTGTTCAATTCGATCTGGGACTGCAAGCAGCTGATCGAGCAGCAGCTGATCGACTACATCCGTACCACGATCGTGCATGGCGGCGGCATCACCCACCTGCGCCGGCTGGCCGACTTCGCCGCGCTGCACGGCGTGCGCACCGGCTTCCACGGCGCCACCGACCTGTCGCCGGTGACGATGGGCGCGGCGCTGCACTTCGACACCTGGGTGCCGAACTTCGGCATCCAGGAATACATGTTCCACAGCGAGGAGACCGACGCGGTGTTCCCGCACGACTACGTGCTGCGCGCGGGCCGGCTGCATGTCGGCGACGCCCCCGGGCACGGCACCGACCTCGACGAGGCGCTGGCGGCGAAGTACCCGTATGCGCCCAAGCAGTTGCCGGTGGCGCGGCTGGAAGACGGCGCGATGTGGGACTGGTGA	MTAQDPTTATQGSARDREIVEARVIVTCPGRNFVTLKIVTRSGVYGLGDATLNGRELAVAAYLQEHVVPNLIGRDAGRIEDTWQFLYRGAYWRRGPVTMSAIAAVDVALWDILGKMAGLPLYQLLGGRSREGALVYGHANGRDIAEASDAVGGFIEQGFLAVRAQCGVPGIKKAYGISNAKGYEPAESALPLETVWNTPRYLATVPRLFEQLRNDHGDDVELLHDVHHRLSPIEAARLAKSLEPYRLFWLEDATPAENQQGFALIRQHSVTALAVGEVFNSIWDCKQLIEQQLIDYIRTTIVHGGGITHLRRLADFAALHGVRTGFHGATDLSPVTMGAALHFDTWVPNFGIQEYMFHSEETDAVFPHDYVLRAGRLHVGDAPGHGTDLDEALAAKYPYAPKQLPVARLEDGAMWDW	PGPT0018285_86	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018285-rspA|manD-K08323	NA	NA
BMS020_08925	1746			hypothetical protein	GTGCGCGCCGACGCCGAAGGCCGCTGGCAGGCGCAGCTGCCGGCGCTTGCCGCCGGCGGCCCGTACACGCTGCGTGCCAGCAGCGGCGCGCAACGGCAGCAGCTGGCCGACGTGCTGGTCGGCGATGTCTGGCTGTGCAGCGGGCAATCGAACATGGAGCTGCCGGTCGAGCGCACGCTGGATGCGCGTTCGGAGATCGCCAATGCCGCGCATCCACGCATCCGCCTGCTGCAGGTCGCCAAGCACGCCAGCCCGGCAGCGCGGCGCGACTTCGCCGAGCCGCCGGCCTGGCAGCCCGCGGACAGCGACAGCGTGCGCGGCTTCTCGGCCGCCTGCTACTACTTCGGCCGTGAGCTGCAGCAGCGCGTCGACGTGCCGATCGGGCTGATCAACGCCTCGTGGGGCGGCTCCGGCATCCAGGCCTGGATCGGCACCGCCGGCCTGCACCGGCTCGGCGGCTATGACGAAGCACTGACCGCGCTCGCCGCCTATCCGCACGACCGCGCCGGCGCGCTACGTCAGTGGGCCGTGCTGTGGCAGCGCTGGTGGCAGCAGCACCCGGGACGGGCGGCCGACGACACGCCCTGGCAGCCCGATGCCGGCGGCGACTGGACCGCGGCCACGCCGTCCGAACGCTGGGTCGCCCCCGACCTGGCCGACCACGTCGGCCCGGTCTGGTACCGCACCACGCTGACGCTGGACGCCGCGCAGGCGGCGCAGCCGGCGACGCTGGAGCTCGGCCGCGTCGACGAGGTCGACATGAGCTGGCTCGACGGCCAGCCGATCGGCAGCAGCGACGGTGCCGACACGCCGCGCCGCTATCCGCTGCCTGCCGGCACGCTGCACGCCGGGCGCAACACGCTGGTGGTCAACGTGCTCAACACCTACCGCAGCGGCGGCATCGCCGGCCCGGGTGACGAACGCGCACTGGTGCTCGCCGACGGCACCCGGCTGGCGCTGGACGCCGGCGGCTGGCAGACGCGCACGGTAGCGGCCGATGACGGCTTCCCGCCGCCGGCGCCGTGGATGGCGGCGCCCGGCATGTCCACGCTCGACAACGGCCTGATCGCGCCGCTGTCCGGCTACGGCCTGCGCGGCGCGCTGTGGTACCAGGGCGAATCCAACGTGTTCGAGGCCGCGCGTTATCGCCAGCTGCTGGCGGCGTACCGCACGCATCTGCGCGAACGCTTCGGCGCCGGGCTGCCGCTGCTGGTGGTGCAGCTGGCCAACTTCGGCCCGGCACCGACCGCGCCGCAGCACAGCGACTGGGCGCAGCTGCGGCAATCGCAGCGGCTGGCGGTCGCCGACGACGACGCCAGCGGCCTGGCGGTGGCGATCGACCTCGGCGAACGCGGCGACATCCACCCGGCCAACAAGCAGGAGCTGGGCCGGCGGCTGGCGCGCGCCGCCCGGCACGTGGTCTACCACGAGGCGCTGGCGCCGTCCGGCCCGGTCGCGACCGCCGCGCGGCACGACGGCGACGCGGTGACGGTGGCGTTCGCCGATGTCGAGCAAGGCCTGCTCGCCTATGGCGGCACCGGCCCGGTCGGCTTCGAGCTGTGCGGCGACACCCAGGCCAGCTGCCGCTATGCCGACGCCCGCATCGACGGCGCCACGGTGCGCCTGCACGCCGACGGCGCCGCGCAGGCCACGCGGGTGCGCTACGGCTGGGCCGACAGCCCCATCGTCACCCTCTACGACGGCAACGGCCTGCCGGCCGGGCCGTTCGAACTGTCCATCCACTGA	MRADAEGRWQAQLPALAAGGPYTLRASSGAQRQQLADVLVGDVWLCSGQSNMELPVERTLDARSEIANAAHPRIRLLQVAKHASPAARRDFAEPPAWQPADSDSVRGFSAACYYFGRELQQRVDVPIGLINASWGGSGIQAWIGTAGLHRLGGYDEALTALAAYPHDRAGALRQWAVLWQRWWQQHPGRAADDTPWQPDAGGDWTAATPSERWVAPDLADHVGPVWYRTTLTLDAAQAAQPATLELGRVDEVDMSWLDGQPIGSSDGADTPRRYPLPAGTLHAGRNTLVVNVLNTYRSGGIAGPGDERALVLADGTRLALDAGGWQTRTVAADDGFPPPAPWMAAPGMSTLDNGLIAPLSGYGLRGALWYQGESNVFEAARYRQLLAAYRTHLRERFGAGLPLLVVQLANFGPAPTAPQHSDWAQLRQSQRLAVADDDASGLAVAIDLGERGDIHPANKQELGRRLARAARHVVYHEALAPSGPVATAARHDGDAVTVAFADVEQGLLAYGGTGPVGFELCGDTQASCRYADARIDGATVRLHADGAAQATRVRYGWADSPIVTLYDGNGLPAGPFELSIH				NA	NA	NA	NA	NA
BMS020_08926	666			hypothetical protein	ATGTTTAATATTACAAGAACTTATCCAGCTCCGGACTGTATAGCTAGGAATCGTTATAATGATACAGAAGTTACTGAAGTTCTGAAACCATTATTTCACGCGAAGTGTTATTTGTGTGAACGAAATGAAGTTCAAGATGCTGAAGTAGAGCATCTTATCCCGCATGAAGGTGATGATAATTTAAAATACAACTGGGATAATTTATTTTATTCATGCAGTAGATGCAACGGAATAAAAAGTAACAGACATAAAAATATCCTAAACTGCTCAGACTCATCTATTGACATTTTTAATCAGATAGTTTGTAAGATGCCATCAATGCCTGATGATGACGTTGTTATCCTTCCAAATATAAACCCACCAACTTTAAGCATTGCTAGCACTGTAGGTCTATTAAATGAATGTTATAACTTGAAGAATACAGGTCTGAGAAAAATAAGCAGAGAAAGTCTTATTGAACAAATGTTTTTTTATTATTCAAGATTTATTGAGGCTAGGATGACTCTCAAAGATCCTAGTAAGGGCCATTCTAGAAAGAGAGATGCAAAGGAAACTCTTGAAGCAATGTTAAAGGTTGAACATCCATTTTCGATTTTTTGGCGTTGGCATTACTTGGGTGATAGTTTCCTAATTGCAAATTATCCTGATTTAAGAGATGGTTTTTGA	MFNITRTYPAPDCIARNRYNDTEVTEVLKPLFHAKCYLCERNEVQDAEVEHLIPHEGDDNLKYNWDNLFYSCSRCNGIKSNRHKNILNCSDSSIDIFNQIVCKMPSMPDDDVVILPNINPPTLSIASTVGLLNECYNLKNTGLRKISRESLIEQMFFYYSRFIEARMTLKDPSKGHSRKRDAKETLEAMLKVEHPFSIFWRWHYLGDSFLIANYPDLRDGF				NA	NA	NA	NA	NA
BMS020_08927	1278			hypothetical protein	ATGCTTAATAAAAACAATGCAATAAAACAGATACGTGTATTACTTCCTGATACGAATAAAAATATCAATATAAATGTCGATGGTAAAAATGTCATAATCACAGGTGGGAATGGATGTGGCAAAACTAGGTTTTTAAAACTTATTTATGAGCAGATATCGGCTCAAATAGAACAGAATGAATATAAAACGCATGAAAAAATAAAACAGGAAATAACAAATAGACAAAGCTGGATGAAACATACTTCACCTACGGATAGGAATTATTTTAGCTGGAAACAACAAATAGCTGATTTTGAAAAACAATTAATAAAAATGGAAAATATCAATGTTGAACTCGTTGATCTAGATAGATACTGTATCGATTTTAATGAGAGGAAATCCTTACTACGTTATTTTGGCGCAGTCAGAGAAAATAACATATCACATTCGGGAACTATCGATAGCTTAAAGACATTAAGGGATGAGGAAATTTCAGTTAGTTTATCACAGGATACTAGTAATAAATTTGAACGATATTTAGTTTCGCTTTATAACTACGGAAGTCATTTAATTGCTAGAGAAAAGAATAAAACTAAGGGAGATAAAGTAGATACTTGGTTTTGTTTTTTACAGAAACAATTTCAATACCTTTTTGAGGATGATTCATTAAGGCTAGATTACAATGCGGAAGAGCAATCATTTTATATATCTCAAGAGAATAAATCTCCTTATAGATTTAATCAACTTTCATCGGGCTATCAATCTATTTTAAGCATATATGCAGACTTATTGATGAAAGTTGAACTCAAGGGAATTACTGCTGATGAGATGTCTGGGGTAGTATTTATTGATGAAATTGATGCTCATTTGCATGTTTCATTACAACGAAAAATTTTCTCATTTTTTGTAAATGCCTTTCCAAATATCCAGTTCATTGTCACAACTCATTCCCCTTTTGTAGTTCAATCTGTCAATAATGCAATAATTTATGATTTAAGTACAAATGAACAACTTGAAGATCTATCAATGTATTCTTATGAAGCAATTGTAAAAGGATTACTTGGTGTTGATACACAATCAGAACTACTCAATAATCAATTAGATAAATTAGCATTGCTAATAAATGAGGTTATCGTTGATACAGAAGCATTGCAACAGGTTATAAACAACATTCAGCCATACGAAAGTCAATTAGATATGAGGTCTAGAACATTTTTATTAATGGGTAAGAATGCTCTTTTAGATGCAAAAGATGCAAAAGATGCAAAAGATGCAAAAGATGCAACTGAAGGAGAGTGA	MLNKNNAIKQIRVLLPDTNKNININVDGKNVIITGGNGCGKTRFLKLIYEQISAQIEQNEYKTHEKIKQEITNRQSWMKHTSPTDRNYFSWKQQIADFEKQLIKMENINVELVDLDRYCIDFNERKSLLRYFGAVRENNISHSGTIDSLKTLRDEEISVSLSQDTSNKFERYLVSLYNYGSHLIAREKNKTKGDKVDTWFCFLQKQFQYLFEDDSLRLDYNAEEQSFYISQENKSPYRFNQLSSGYQSILSIYADLLMKVELKGITADEMSGVVFIDEIDAHLHVSLQRKIFSFFVNAFPNIQFIVTTHSPFVVQSVNNAIIYDLSTNEQLEDLSMYSYEAIVKGLLGVDTQSELLNNQLDKLALLINEVIVDTEALQQVINNIQPYESQLDMRSRTFLLMGKNALLDAKDAKDAKDAKDATEGE				NA	NA	NA	NA	NA
BMS020_08928	273			hypothetical protein	ATGAATGATAAAACTAAGAGGTTTAATATGATTGATGAATTCTACGTTATGTATATGTATAGAAAAATCCAAGCTGAAGCGGCTACTGCCGACATCAAAACACTGGAACAGCTTTTGAAGAAGTTCCGTAAAGTTGTTGCGGAGCGCCGAGAAGAATACTATCAGGAGATTGGTGAGAAAAAGGCCCAGAAATTGAGGGCCAAGAGATTACAACAGTTGCTTGAGAAAATGGGGCGTGATCGTGTATCACCGGCGGATCTCATTGACTGGTAA	MNDKTKRFNMIDEFYVMYMYRKIQAEAATADIKTLEQLLKKFRKVVAERREEYYQEIGEKKAQKLRAKRLQQLLEKMGRDRVSPADLIDW				NA	NA	NA	NA	NA
BMS020_08929	351			hypothetical protein	ATGAAAGAGATTATATTGAATAGTTATAAGGAAACAAAAAACGAACTTGTTGCTAACATCTTACAAGGATACTGTGATGAGATATATGGTATTTATGAAAAACATCCTGAAACAGCAATAGATATTTTGAATGATGGTTTCCTTTCAGGCATCACATATGACGTTTTGATTGCTCGTGAGATGAAGAAATACTCTGTCAAAAATGATGTATCTGATATCAATAGAAGAGATTTAAAAGCCACAATCTTGTATTGGCATCAAGAACACATCATTGAACTTGTTTCAAAAAATATAAATCAGGATGAAAATGAAGATCCGATTTACTGGAAGCTAAAAATGACAGTTGTTTGA	MKEIILNSYKETKNELVANILQGYCDEIYGIYEKHPETAIDILNDGFLSGITYDVLIAREMKKYSVKNDVSDINRRDLKATILYWHQEHIIELVSKNINQDENEDPIYWKLKMTVV				NA	NA	NA	NA	NA
BMS020_08930	237			hypothetical protein	ATGACAAATAAAATATCTGTAGTAGTAAGTATGCTGTGCGAAGGAACTCCTAACGTAATGAATACTATTCAAGAAAGCATTGATGTATTTGTTGCTCTAAGTGGGTATTCAGTAGAAGAAATGATAGGGGATAAGAACTTGATTGATGCTTTAAATAGACATGTCAATAACGATTTAGTTGATGAGTTAGATTTGGAATATGGCTCCGTTATCATCAATATCGGTTATAGCAACTAA	MTNKISVVVSMLCEGTPNVMNTIQESIDVFVALSGYSVEEMIGDKNLIDALNRHVNNDLVDELDLEYGSVIINIGYSN				NA	NA	NA	NA	NA
BMS020_08931	297			hypothetical protein	ATGTTTAAAGAGAAGATAGGTATTAATAAATCAACTGAACTGTTCTATGACCTTGCATGTAGATCATTTGCCACAAGCTGGAATATGTTCATGGAAGTTAATGGCGATGGGGATGCTAATGATTATCTAGATGACCCGGATTTTATGAGTCCATTTATTATCCATGTGATTGACCACATTCAGAACAACTTTGAAATATTCACTGCCCAAGAGGGTAATAACGGTGATATTAATCAGGTTAACTTTGAAATGGTTGCTGCTATGTTGGTTAGATATTCAGACAGCTTCAGAAAATAA	MFKEKIGINKSTELFYDLACRSFATSWNMFMEVNGDGDANDYLDDPDFMSPFIIHVIDHIQNNFEIFTAQEGNNGDINQVNFEMVAAMLVRYSDSFRK				NA	NA	NA	NA	NA
BMS020_08932	315			hypothetical protein	ATGAATACTGAAGAACTAAATAACATTAAGGACTCATCAACTAAAGTTTTTACTGCTATGGCGAAGAATCTTTATATCACAGGAATACGTATATATAAAGAGCAGGAAGAGTATGAGGTATTGGAAGCTATAATGTTAGATAGTAATAGAACTGAATCATATCTTTTGCATGTTAAAGAATATCTGGAAAAGCGCTTTGATGAACATATGGAAGAGGCAGGTAAAAGAGAAAGACTGATTTATGTTGATATGGATAAAGTTATGCATGAAATGAGATATGTACATACTCAAGCATTACTTTTTAGTATGAGCTAA	MNTEELNNIKDSSTKVFTAMAKNLYITGIRIYKEQEEYEVLEAIMLDSNRTESYLLHVKEYLEKRFDEHMEEAGKRERLIYVDMDKVMHEMRYVHTQALLFSMS				NA	NA	NA	NA	NA
BMS020_08933	870			hypothetical protein	ATGCCCTCCAGCACGACCCTGCAACACGCGATCGAGAACATCGCCATCTGGCGCAAAGGCGAACAGCGTGCGCCGCATAAGCCACTGTTGCTGCTGTACGTCCTCTCACAGTACCAGCGCGGCCATGCGCGGATGTTCGATTACGCCTCGGAGATACGCGATGAGCTGCATAGCCTGCTGGAACGCTTTGGCCCGCAGCGCCGCCAGTACCGGCCGGATATGCCCTTCTGGCGCCTGAAAGGCGACGGCTTCTGGGAGCTGCACAACAGCGAACAGTGTTCAACCCAGGGCAGCCGACAGCCGCCCGGCAAAGAGCTGGAGCTCTGTCAGGTCGCCGGCGGCTTCGATGAGCCGCATTTTGCGCTACTCAACAGAAATAAGAAGCTGATCAATACCCTCGCCCATCAGATCCTCGAAGCGCATTTCCCGGAGAGTATTCAGGAAGAACTGGCTGAAGAGATGGGGTTTGATCTGCAGCAGATCCGTAAAGAGCGCGACCCACATTTTCGCCAGCAGGTGCTGCGCGCCTATAACTATGAGTGCGCGATCTGCGGCTTCAATATGCGCCATGATAATACCTCTGTCGCCCTGGAAGCGGCCCATATTAAATGGAAGCAGCACGGCGGCCCCTGCGAAATCCCTAACGGCCTGGCGCTCTGCGCGATTCACCATAAGGCTTTTGATAAAGGATCCATTGGTCTGGATGAGGATATGCGCATCCAGGTTTCGCCGGCGGTGAACGGCGGAGGCATCGTTGGCAGGTTGTTCTGGGATTTTGATGGTAAGCCGATTACCTTGCCGATGGGGAAAGAATGCTATCCCCAGGAGGGGTTTGTGGCGTGGCACCGGCGGGAGGTGTTCAGGGGATGA	MPSSTTLQHAIENIAIWRKGEQRAPHKPLLLLYVLSQYQRGHARMFDYASEIRDELHSLLERFGPQRRQYRPDMPFWRLKGDGFWELHNSEQCSTQGSRQPPGKELELCQVAGGFDEPHFALLNRNKKLINTLAHQILEAHFPESIQEELAEEMGFDLQQIRKERDPHFRQQVLRAYNYECAICGFNMRHDNTSVALEAAHIKWKQHGGPCEIPNGLALCAIHHKAFDKGSIGLDEDMRIQVSPAVNGGGIVGRLFWDFDGKPITLPMGKECYPQEGFVAWHRREVFRG				NA	NA	NA	NA	NA
BMS020_08934	639			hypothetical protein	ATGAAAAAACTACTGGACCATTTATCCAGGGAATGCATCATCGCCGCCATTCGCGCTTACGATGCAGGCGTTGCGCATCAGTTTAAAAGCGCGCGTCTGTATGAGATCGAGTTTGAGGGGCGTCGGTATCCTTCAAAAGCCATCGTCGGGTTAGCGGCCACGCTTGCGACGGGGACGGAATTTACCCCGGCGGATTTCAGCGGAGGGATTAAATCCAAATGCGTGCGTCTGTTACTGGAGCAAGGATTTACGATCGCGTCGCAGGGCGCTGGCGATGACGAGGTTGCGCTTTTCCCCGATGAGGGGCAGACGACCATGGAGTACGTGGAAGGGGCGGCGATGCAGGTGGTGGTCAATCGCTATGAGCGCGACCGTCAGGCTCGTCAGGCGGCGCTTCGCCTGCATGGCTGCCGGTGTCAGGTATGCGGTCTGGATATGGCCAGCCGCTATGGCGATATCGGCCAGGGCTTTATCCATATCCACCATCTCATTCCGCTGTCCGGGATAATGCAGGACTACCGTCTGAACCCTGAAACCGATTTGATCCCGGTATGTCCCAACTGCCATGCGATGCTGCACCGGCGAGATCCGCCGTTTACCCCCGAAGAGCTGAAGGCCCGGCTGCGCCCCGCAGACTGA	MKKLLDHLSRECIIAAIRAYDAGVAHQFKSARLYEIEFEGRRYPSKAIVGLAATLATGTEFTPADFSGGIKSKCVRLLLEQGFTIASQGAGDDEVALFPDEGQTTMEYVEGAAMQVVVNRYERDRQARQAALRLHGCRCQVCGLDMASRYGDIGQGFIHIHHLIPLSGIMQDYRLNPETDLIPVCPNCHAMLHRRDPPFTPEELKARLRPAD	PGPT0027235_665	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
BMS020_08935	1680	xynB		Beta-xylosidase	ATGTCACTTATTCAAAACCCGATATTACGCGGCTTTAATGCCGACCCCAGTATTATTCGCGTCGAGGATACGTACTATATTGCCAACTCGACGTTTGAGTGGTTCCCGGGCGTGCGTTTACATGAGTCGAAAGACCTGAAAAACTGGAACCTGCTGCCTTCGCCGCTCTCCACCACCACCCTGCTGGACATGAAGGGCAACCCCTCCTCCGGCGGCATTTGGGCGCCGGCGCTCTCCTGGGCCGACGGGCAATTCTGGTTGGTGTATACCGATGTGAAGGTCACCGAAGGCGCCTTCAAAGACATGACCAACTACCTGACCACCGCGAAGGATATTCGGGGGCCGTGGAGCGACCCGATCAAGCTGAACGGCGTCGGGTTTGACGCCTCGCTGTTCCATGACGACGATGGCCGGAAATATATCGTCCAGCAAACCTGGGATCACCGGGAGTACCATCACCCCTTCGATGGCATTACCTTAACGGAGCTGGATACCAACACGCTGAAGTTAATGCCGGAAACCGCGCGCACCATCTACCGCGGCACCGCCGTGGCGCTGGTCGAGGGGCCGCACCTCTATAAACTGAACGGCTACTACTACCTGTTTGCCGCCCAGGGCGGCACCGTGTTTACCCACCAGGAGGTGGTGGCGCGGTCGAAAACCCTCGAGGCCGACAGCTTTGAAACCGAGCCGGGCGACGTGTTCTTAACCAACGTCGACACCCCGGACAGCTACATCCAGAAACAGGGCCATGGCGCGCTGGTCTCCACCCCGGAAGGCGAATGGTATTACGCCTCGCTCTGCGCCCGACCGTGGAATCGCCCGGGGGAATCCATCTACGACCCGCGCGGCTGGTCAACCCTCGGCCGGGAAACCGCGATCCAGAAAGTGTACTGGGATGACGAGGGCTGGCCGCGTATTGAAGGCGGTCACGGCGGGAAAACCTTCGTCGAAGGGCCGAAAGACGCCATCTTCACCGAAAGCGCCAGCGATAATAGCCAGCAGGATGACTTTACGTCGCCAGCGCTCGATCCGAACTGGAATACCCTGCGGGTGCCGTTTACGGCCAAAATGGGCACCACCGGCAACGGCAAGTTAACCTTAATCGGCCAGGGTTCGTTAGCCAATACCCATGACCTGTCGCTGATTGCCCGCCGCTGGCAGGCCTTCTATTTTGATGCTGCAGTGAAGGTGAAATTCGAGCCCTTCAGCTATCAGCAGATGGCCGGGTTAACGAATTACTATAACGACCGCCACTGGAGCTTCGTCTTCCTGACCTGGAATGAAATTAACGGCAAGGTCATCGAAGTCGGCGAAAATAACCGCGGGAAATACACGTCGTACCTGAAAGATAACGCCATCAAGGTGCCGGACGGCGTGGAATACGTCTGGTTCCGGACCAAAATCCGCAAGCAGACCTACAGCTATGAATACAGCTTCGATGGCGTGACGTTCACCGAGATCCCGGTCCAGTTGGATGCCGCGGTGCTGTCCGATGACTATGTGTTGCAGAGCTACGGCGGGTTCTTTACCGGGGCGTTCGTCGGCCTGGCGGCGGTAGACTACGCCGGGTACGGTACCCAGGCTGAGTTTTATCAGTTCGAGTATCAGGAGCTGGGCGATAGCTTAGCGGCCGATGGCAGCTACAGCTGGGAGGCTGGCGAGACGCGGGATAAGTAA	MSLIQNPILRGFNADPSIIRVEDTYYIANSTFEWFPGVRLHESKDLKNWNLLPSPLSTTTLLDMKGNPSSGGIWAPALSWADGQFWLVYTDVKVTEGAFKDMTNYLTTAKDIRGPWSDPIKLNGVGFDASLFHDDDGRKYIVQQTWDHREYHHPFDGITLTELDTNTLKLMPETARTIYRGTAVALVEGPHLYKLNGYYYLFAAQGGTVFTHQEVVARSKTLEADSFETEPGDVFLTNVDTPDSYIQKQGHGALVSTPEGEWYYASLCARPWNRPGESIYDPRGWSTLGRETAIQKVYWDDEGWPRIEGGHGGKTFVEGPKDAIFTESASDNSQQDDFTSPALDPNWNTLRVPFTAKMGTTGNGKLTLIGQGSLANTHDLSLIARRWQAFYFDAAVKVKFEPFSYQQMAGLTNYYNDRHWSFVFLTWNEINGKVIEVGENNRGKYTSYLKDNAIKVPDGVEYVWFRTKIRKQTYSYEYSFDGVTFTEIPVQLDAAVLSDDYVLQSYGGFFTGAFVGLAAVDYAGYGTQAEFYQFEYQELGDSLAADGSYSWEAGETRDK	PGPT0018665_511	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
BMS020_08936	1455	uidB	COG2211	Glucuronide carrier protein	ATGAGTAAAAACATAATGCACAGTCGGCATGATGAATATCATAAATTAACCCGCGGAGAACGAATTGGTTATGGCATGGGCGACTTTGCGCAAAACCTGGTTTTCGGCACAATTGGGGGTTTTCTGGCTTTGCATATGCTGACGGTAAATACCATCAGCACGGCAACGGCAGGCTTTATTTTTCTTTTTGTCCGCATCATTAATGTGTTTTGGGATCCGATGGTCGGCACCTACGTGGATAAACGAACCTCGAAAGCAGGGAAATATCGTCCGTGGCTGTTACGAGCCGGCGTGCCGCTGGTGATCCTCTCGGCATTACTGTTCGCGCCCATCCCCGGAGTGAAAGGTTCGGTGGCTTTCGCCTTTATTATTTATCTGGCGCTGGACCTGGTTTATTCCTTAGTCAATATTCCCTATGGCTCACTGAATGCGTCGCTGACCCGCGACCCGGAATCGATCGATAAGCTCACCAGTACCCGCATGATGCTGGCCAACAGCGCCAACCTGCTGGTCTATACCCTGTTCCCGATGTTTGTGCAGATGGCGGCGCCGAAAGATCGCAGCCTGAAAGACACCGGCTTTTTTGGCCTTGAGCTGAATCTGGGGAATTATGCCGATCCGTCGGCAAATTACGCCTGGTTTGGCGTGTACGCCATCTATATGATCATCGGCGCGGTGGCTCTGTTTATCTGTTATAAATTCACCAAAGAACGCGTTGTCGCGACCGCCGAGCAGACCGCCAACGTCAAAACCACCGACCTTTTCCACGAGCTCCGACATAACCGCCCGCTGGTTATTCTGGGTATGTTCTTTATGCTGGCCTTTACCTTCATGTTCTTCATGAACACCGTTAACGGCTTCTTCAACCAGTACGTCGTCGGCCACTCCGAATGGATGGGCGCGGTGGGTCTCGTCGCGTCTATTCCCGGCATCGCCTTCCCGATTTTCTGGCCGAAACTGAAAAAAATCTTTGGTAAAAAAGGCTTCTTCCATCTGTTCCTCGCCATGTTCATCGTCGGCGAACTGCTGACCTACGTCTGGTCCCGCGAAGGGATGCACGACGCCCTGTGGCTGGCCTACATCGCCACCTTTATTAAACAGTGGGGCTTAACCTCCGCCACCGGCTTTATGTGGGCGCTGGTACCGGAAGTCATCGCGTACGGCGAATTAAAATCTGGCAAACGCAATGCCGCCATTATCAATGCCATTATGGGACTCTTCTTCAAGATCGGCTTCACCATCGGCGGCGCGATCCCGCTGTGGCTGCTGGCGGTGTATGGCTTTAATGAAAGCGGCGCCGTGCAGAGCGCCAGCGCCATCGACGGGATCATTATGACCGCGGTGTGGATCCCGATCGCGCTGGCCGCTATTTCGATGGTGATTATCCAGGTTTATCCGATCTCCGATAAACATGTTACCGACATCAACCGTCAGCTGGATGAGATCCGCGTGTAG	MSKNIMHSRHDEYHKLTRGERIGYGMGDFAQNLVFGTIGGFLALHMLTVNTISTATAGFIFLFVRIINVFWDPMVGTYVDKRTSKAGKYRPWLLRAGVPLVILSALLFAPIPGVKGSVAFAFIIYLALDLVYSLVNIPYGSLNASLTRDPESIDKLTSTRMMLANSANLLVYTLFPMFVQMAAPKDRSLKDTGFFGLELNLGNYADPSANYAWFGVYAIYMIIGAVALFICYKFTKERVVATAEQTANVKTTDLFHELRHNRPLVILGMFFMLAFTFMFFMNTVNGFFNQYVVGHSEWMGAVGLVASIPGIAFPIFWPKLKKIFGKKGFFHLFLAMFIVGELLTYVWSREGMHDALWLAYIATFIKQWGLTSATGFMWALVPEVIAYGELKSGKRNAAIINAIMGLFFKIGFTIGGAIPLWLLAVYGFNESGAVQSASAIDGIIMTAVWIPIALAAISMVIIQVYPISDKHVTDINRQLDEIRV	PGPT0014410_462	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
BMS020_08937	1320	xylA_3		Xylose isomerase	ATGCAAACTTATTTTGACCAGCTCGAACGCGTTCTTTTTGCCGGACCTAAAACCGATAATCCTCTGGCGTTTCGCCACTATAATCCGGATGAAATCGTGCTGGGAAAACGCATGGCAGATCATCTGCGTTTTGCCGCCTGTTATTGGCATAACTTCTGCTGGAATGGCGCGGATATGTTTGGCGCCGGCTCGTTTGAGCGTCCCTGGCAGGCCGCGGGCGATGCGCTGGAAATGGCCAAACGCAAAGCGGACGTGGCGTTTGAGTTTTTCTACAAGCTCAACGTGCCGTATTACTGCTTCCACGATGTCGACGTCTCGCCAGAAGGCGCGTCGCTGAAAGAGTATTTGCATAATTTTGCCGTGATGACCGAGGTGCTGGCGGAGAAACAGCAGCAAACCGGCGTGAAACTGCTGTGGGGCACCGCCAACTGCTTTACCCACCCGCGCTACGGCGCCGGGGCGGCGACCAACCCCGATCCGGAGGTGTTTGCCTGGGCGGCCACGCAGGTGGTGACCGCCATGAATGCCACCCACCAGCTCGGCGGCGAAAACTATGTTCTGTGGGGCGGCCGCGAAGGTTACGAGTCCCTGCTGAATACCGACCTGCGTCAGGAGCGCGAGCAGATTGGCCGCTTCCTGCAGATGGTGGTGGAGCACAAGCATAAGATTGGCTTTGGCGGCACGCTGCTTATCGAGCCGAAACCGCAGGAGCCCACCAAGCATCAGTACGATTACGATGTCGCGACGGTGTATGGCTTCCTGAAGCAGTTTGGTCTGGAAAATGAGATCAAGGTGAACATTGAAGCCAACCACGCCACCCTGGCGGGGCACTCTTTCCACCATGAAATCGCCAGCGCCATCGCGCTGGGGATCTTCGGCTCCGTTGATGCCAACCGCGGCGATGCGCAGCTCGGCTGGGATACCGATCAGTTCCCGAACAGCGTGGAAGAAAATACCCTGGTGATGTACGAGATCCTCAAAGCCGGGGGATTCACCACCGGCGGCCTGAACTTTGACGCCAAAGTTCGCCGGCAGAGCACCGACAAATACGACATGTTCTATGGCCATATTGGCGCCATGGACGTGATGGCGCTGTCTCTCAAGCTGGCCGCGCGGATGATTGAGGATGGCAAGCTCGATCGGGCTCTGGCAAAACGCTATGCCGGCTGGCAGGGCGAACTGGGGCAGCAAATTATGGCCGGCCGTATGTCGCTGGATAATATTGCCCGGTACGCTGAGCAGCATAATCTGAATCCGCAGCATCAGAGCGGGCGTCAGGAATTACTCGAAAATCTCGTCAATACCTATATCTTTGGTTAA	MQTYFDQLERVLFAGPKTDNPLAFRHYNPDEIVLGKRMADHLRFAACYWHNFCWNGADMFGAGSFERPWQAAGDALEMAKRKADVAFEFFYKLNVPYYCFHDVDVSPEGASLKEYLHNFAVMTEVLAEKQQQTGVKLLWGTANCFTHPRYGAGAATNPDPEVFAWAATQVVTAMNATHQLGGENYVLWGGREGYESLLNTDLRQEREQIGRFLQMVVEHKHKIGFGGTLLIEPKPQEPTKHQYDYDVATVYGFLKQFGLENEIKVNIEANHATLAGHSFHHEIASAIALGIFGSVDANRGDAQLGWDTDQFPNSVEENTLVMYEILKAGGFTTGGLNFDAKVRRQSTDKYDMFYGHIGAMDVMALSLKLAARMIEDGKLDRALAKRYAGWQGELGQQIMAGRMSLDNIARYAEQHNLNPQHQSGRQELLENLVNTYIFG	PGPT0017550_942	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
BMS020_08938	252			hypothetical protein	ATGGGCGCCATAGCGGGCATAGCCGCTGAACTTGAGGCCGAACGGAATGGCCATATCCGGCGAGGCGGCGGTGGTCTGCGGGTTGGTAATGACGTCGACCTTTTTGTCGGCCGCGGCGTCAATTTTCGCCTGGCGGTCGGCCAGCGCTTTATCAACGGCTTTGGCGACGATGGCGTCGATCTGTTCCTGAGTAAATTCTTGCGCCATTACAGAGGTAAGCGGAAAAAACGCGGCGATAACCGCCATGGCTAA	MGAIAGIAAELEAERNGHIRRGGGGLRVGNDVDLFVGRGVNFRLAVGQRFINGFGDDGVDLFLSKFLRHYRGKRKKRGDNRHG				NA	NA	NA	NA	NA
BMS020_08939	369			hypothetical protein	ATGGCAACTGGCTGCGTCTTCATCATCAACCCAAGTACTTCGCTGGCTGCCGCAGCTGACCGTATCGGCGCGGCAATAGCCGTGCGGCTCGTGCCCGAGGTGTCTGGGCGCTTTGAGGAGTACCCGGCTTTCATAGGAGCCACCTCGGACCTGGAAATTGCTCTGCTCGGTCCGCCAGAGCCCGAGCACAACATCCGTGACAATCCAACACAAGACTACGCACTCCAAGTGGCGCCTCTTGTGCAAGTCGAGCCGCATCGATATTCGGAGCTACATCAACAATTGCTGGCCGGCGGCATCGAGGTTGTGACCTACGAGCTGCCGCCTAACAATTCATTCAAGCCGATGCCGCTTCGCGGCACGGCTTAA	MATGCVFIINPSTSLAAAADRIGAAIAVRLVPEVSGRFEEYPAFIGATSDLEIALLGPPEPEHNIRDNPTQDYALQVAPLVQVEPHRYSELHQQLLAGGIEVVTYELPPNNSFKPMPLRGTA				NA	NA	NA	NA	NA
BMS020_08940	255			hypothetical protein	ATGAGTATCAAGTTCTGGGGCTACAAGGCCAAGGCACGCTCTGCAGCGGAGCGAGAGCCCATGGAGCTTTCGGAGGTCACGCTCATTGGTTCTCCCGCTCAGCTTAGAAAGATCGCTAAGTTCATTGAGGCCGCTGCGGAGGGCATTGAGCAGCGTGGCCTCCAATGGGAGCATGAGCACTTGGCGGACAAGGTCTCAGGTTTCAGAACTTCTCCAGGGTTTATCGTCTTCAATCAACAGCACGAGAAGAAGTAA	MSIKFWGYKAKARSAAEREPMELSEVTLIGSPAQLRKIAKFIEAAAEGIEQRGLQWEHEHLADKVSGFRTSPGFIVFNQQHEKK				NA	NA	NA	NA	NA
BMS020_08941	432	rsxB_2	COG2878	Ion-translocating oxidoreductase complex subunit B	ATGTCCGACCGCAGCACCGCCGACCTCGCCGCCCGCCTCGATCGCCTGTTGCCGCAGACCCAATGCGGGCAATGCGGTTTCGACGGCTGCCGCCCGTATGCCGAAGCGATGGCACATGGCGACGCCGGCACCGATCGCTGCCCGCCCGGCGGCGACGCCGGTGCCCGCGCACTGGCGCATGTCCTCGGGCTCGCGCCGCAGCCGTACGACCGCAGCCGCGGCACGCACAAGCCCCCCCAGGTCGCCTGGATCATCGAAGCCGACTGCATCGGGTGCACCAAGTGCATCCAGGCGTGCCCGGTCGACGCCATCGTCGGCGGTGCGAAGTACATGCACACCGTGCTGCCCGATCTGTGCACGGGCTGCGAGCTCTGCATCCCCCCCTGTCCAGTCGACTGCATCGACCTGCGCCCGCCTAGCAGCGCCGTTTAG	MSDRSTADLAARLDRLLPQTQCGQCGFDGCRPYAEAMAHGDAGTDRCPPGGDAGARALAHVLGLAPQPYDRSRGTHKPPQVAWIIEADCIGCTKCIQACPVDAIVGGAKYMHTVLPDLCTGCELCIPPCPVDCIDLRPPSSAV	PGPT0013265_1745	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013265-rnfB|rsxB-K03616	NA	NA
BMS020_08942	594			hypothetical protein	GTGGATCTGGCGCTGTTCGACTTCGACCACACCATCACCACGCGCGATACCTATTCCGGCTTCCTGCGCCGCATCGCTACGCCACAACAACTGGCGCAGGCGCGCTGGACCGTCGGCCCCTGGCTGCTCGGCTACCGGGCCAAGCTGATCTCGGCCAAGTCGGTGCGGGCCCGGGTGACCCAGGTAGGATTCCAGGGCCGGGACGCTGCCGAGATCGCCGCGCACGGCGCGCCCTACGCGCGCGATACGCTCAGCCAGGTCCTGCGCCCGGAGATGATGCAACAGATCGAATGGCACCACGCCCAGGGCCATACGGTGGCGCTGGTGTCGGCCTCGCTCGACCTGTACCTGCAGCCGTGGTGCGAACAGCATGGGCTGGAGCTGATCTGCAACCGGCTTGAGCATGGTGACGACGGCCTCCTCACCGGCCGTTATGCCGAGCGCGACTGCGGCCCGCACAAGGCGGCGCTGATCCAGGCGCGCTACGACCTGTCCGGGTACCAGCGCATCCATGCCTACGGCGACAGCCACGAAGACAAGCCGATGCTCGCACTGGCACACGAACGCTGGTACCGCGGCGTCCGCATCGCCTGA	MDLALFDFDHTITTRDTYSGFLRRIATPQQLAQARWTVGPWLLGYRAKLISAKSVRARVTQVGFQGRDAAEIAAHGAPYARDTLSQVLRPEMMQQIEWHHAQGHTVALVSASLDLYLQPWCEQHGLELICNRLEHGDDGLLTGRYAERDCGPHKAALIQARYDLSGYQRIHAYGDSHEDKPMLALAHERWYRGVRIA	PGPT0007720_627	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATASE_ACTIVITY,PGPT0007720-pgpC-K18697	NA	NA
BMS020_08943	2085	metG_2	COG0073	Methionine--tRNA ligase	ATGACCCGCACCGCGCTCGTCACCACCGCCCTGCCCTACGCCAACGGCCCGCTGCACCTGGGTCACCTGGTGGGCTACATCCAGGCCGACATCTGGGTGCGCGCGCGCCACCTGAACGGCGACAAGACCTGGTTCGTCTGCGCCGACGACACCCACGGCACGCCGATCATGCTGGCGGCCGAGAAGGCCGGCGTCACCCCGGAAGCGTTCATCGCCAACATCCAGGCCAGCCACGAGCGCGATTTCGCCGCGTTCGGCGTGGCCTTCGACCATTACGACTCGACCAACTCGCCGGTCAACCGCGAGCTGACCGAGCAGTTCTACCTGAAGCTGGAAGCGGCCGGCCACATCGGCCGCCGTTCGGTGGCGCAGTTCTACGATCCGGAAAAGGGCATGTTCCTGCCGGACCGCTACATCAAGGGCATCTGCCCGAACTGCGGCAGCGCCGATCAGTACGGCGACAACTGCGAGGTCTGCGGCGCCACCTACGCACCGACCGACCTGAAGGAGCCGAAGTCGGTGGTATCCGGGGCCACGCCCGAGATCCGCGACTCGGAGCATTTCTTCTTCGAGGTCGGCCATTTCGAGGCGTTCCTGCGCGAATGGATGGACGGCGACGTCGCCCTGCCAGGCGTCAAGGCCAAGCTGCGCGAGTGGCTGGATGCCGATGGCGGCCTGCGCGCGTGGGACATCTCGCGCGACGCGCCGTACTTCGGCTTCCAGATTCCCGGCCAGCCGGGCAAGTACTTCTACGTCTGGCTGGACGCGCCGATCGGCTACCTGTGCAGCTTCAAGACCCTGTGCGCGCAGATGGGCGAGGATTTCGAGGCGCACCTGCGCGCCGGCACGGCGACCGAACTGCACCACTTCATCGGCAAGGACATCGTCAACTTCCACGGCCTGTTCTGGCCGGCGGTGCTGCACGGCACCGGCCACCGCGCGCCGACCCGGCTGCACGTCAACGGCTATCTGACCGTCGATGGCGCCAAGATGAGCAAGTCGCGCGGCACCTTCGTGATGGCGCGGACCTTCCTCGATGTTGGCCTGGAGCCGGAAGCGCTGCGCTACTACTTCGCGGCCAAGTCCTCCGGCGGCGTCGACGACCTCGACCTCAACCTGGGCGACTTCGTCGCGCGGGTGAACGCCGACCTGGTCGGCAAGTTCGTCAACCTCGCCAGCCGCTGCGCCGGCTTCATCGGCAAGCGCTTCGACGGCAGGCTCGCCGCCGCGCTGCCCGATGCGGCCCAGTACGACCGTTTCGTCGCCGCGCTGGCACCGATCCGCGAAGCCTACGAGCGCAACGACCCGGCCGGCGCGATCCGCCAGACGATGGCGCTGGCCGACGAGGCCAACAAATACATCGACGACACCAAGCCGTGGGTGATCGCCAAGCAGGACGGCAGCGATGCCGAACTGCAGGCGGTGTGCACCCAGGGCCTGAACCTGTTCCGCGTGCTGGTGGCCGCGTTGAAGCCGATCCTGCCGCGCGTCACCGCCGAGGCCGAAGCCTTCCTGTCGGCACCGGTCACCGCGTGGGACGACCTCACCGCACCGCTGGCCGACGGCCACGTGATCCAGCCCTACACCGCCCTGTTCACCCGTATCGACCCGAAACTGATCGACGCCATGACCGACGCTTCCAAGGACACCCTCGCCGCAGCCGCCCCGGCCGCGCCCGCCAAGACCGAGAGCAAGCCCGCCGCCAAGCAGGAGGCCAAGCCGGCCGCTGCCGCGCCGGCCGCCGAGAGCAGCGCCACCATCGGCATCGACGACTTCGCCAAGCTCGACCTGCGCATCGGCAAGGTACTGGTGTGCGAGTTCGTCGAGGGTTCGGACAAGCTGCTGCGCTTCGAACTGGACGCCGGCGAGCTGGGCAAGCGGCAGATCTTCTCCGGCATCCGCGGCAGCTACGGCGAGCCGGACACGCTGGTCGGCCGCAGCGTGGTGTTCATCGCCAACCTCGCCCCGCGCAAGATGCGCTTCGGCCTCAGCGAAGGCATGATCCTGTCGGCCGGCTTCGACGGCGGCGCGCTGGCGCTGCTGGATGCCGACAGTGGTGCATTGCCGGGCATGCCGGTGCGCTGA	MTRTALVTTALPYANGPLHLGHLVGYIQADIWVRARHLNGDKTWFVCADDTHGTPIMLAAEKAGVTPEAFIANIQASHERDFAAFGVAFDHYDSTNSPVNRELTEQFYLKLEAAGHIGRRSVAQFYDPEKGMFLPDRYIKGICPNCGSADQYGDNCEVCGATYAPTDLKEPKSVVSGATPEIRDSEHFFFEVGHFEAFLREWMDGDVALPGVKAKLREWLDADGGLRAWDISRDAPYFGFQIPGQPGKYFYVWLDAPIGYLCSFKTLCAQMGEDFEAHLRAGTATELHHFIGKDIVNFHGLFWPAVLHGTGHRAPTRLHVNGYLTVDGAKMSKSRGTFVMARTFLDVGLEPEALRYYFAAKSSGGVDDLDLNLGDFVARVNADLVGKFVNLASRCAGFIGKRFDGRLAAALPDAAQYDRFVAALAPIREAYERNDPAGAIRQTMALADEANKYIDDTKPWVIAKQDGSDAELQAVCTQGLNLFRVLVAALKPILPRVTAEAEAFLSAPVTAWDDLTAPLADGHVIQPYTALFTRIDPKLIDAMTDASKDTLAAAAPAAPAKTESKPAAKQEAKPAAAAPAAESSATIGIDDFAKLDLRIGKVLVCEFVEGSDKLLRFELDAGELGKRQIFSGIRGSYGEPDTLVGRSVVFIANLAPRKMRFGLSEGMILSAGFDGGALALLDADSGALPGMPVR				NA	NA	NA	NA	NA
BMS020_08944	453			hypothetical protein	ATGCGCAACACCGTCAACGCCCTGCTGCTCGCCATCCCGCTGGCCGCCGCCAGCTGGATGGCCCAGGCCGCCGAAAGCCCGATCGGCCGCTGGACCACCATCGACGACAGCACCGGCAAGCCCAAGTCGGTCGTGGAGATCGACCAGGCCAGCAACGGCACGCTGAGCGGCAAGGTGGTCGAGATCCTGCAGTCCGACAAGGGCCCGAACCCGGTCTGCGACAAGTGCGACGGCGCGCTCAAGGGCAAGCCGATCAAGGGCATGACCATCCTGTGGGGGCTCAAGCCCGACGGCACCGCGGTGTGGGACGGTGGCAGCATCCTCGATCCGGCCAAGGGCAAGACCTACAAGGCCAAGATCACCCTGACCGACGGCGGCAAGAAGCTGCAGATGCGCGGCTACATCGGTATCGAGGCGCTCGGCCGCACCCAGACCTGGGTCCGCAGGGACTGA	MRNTVNALLLAIPLAAASWMAQAAESPIGRWTTIDDSTGKPKSVVEIDQASNGTLSGKVVEILQSDKGPNPVCDKCDGALKGKPIKGMTILWGLKPDGTAVWDGGSILDPAKGKTYKAKITLTDGGKKLQMRGYIGIEALGRTQTWVRRD				NA	NA	NA	NA	NA
BMS020_08945	3597			hypothetical protein	ATGACCCTGACCTTCCTGCGCTTCGAGCTGCGCGAGCAGCTGCGTTCGCCACTGCTGTGGCTGCTGGCCGGCTTCTTCGCCCTGCTCGCCTTCGGCGCCGCGTCCAGCGACGCCGTCCAGATCGGCGGCGGCATCGGCAACGTGCACCGCAACGCGCCCACGGTGATCGCCACGTTCATGACGGCCTTCACCCTGCTTGGCCTGCTGGTGGTGACCTTGTTCATCAGCAACGCGCTGCTGCGCGATTTCGATCTCGGCACCGCCGAGCTGGTGTTCTCCAGCCCGGTGCGTCGCCGCGACTACCTGGCCGGCCGCATCGGCGCGGCACTGATCGCCAGCCTGTTGATGTACGCGATCATCGCGCTCGGCCTGTTCATCGCCCAGTTCATGCCGTGGATCGACGCCGCCCGGCTCGGACCGGTGTCGCTGCTGCCGTACCTGTGGACGTTCGCGGTGTTGGTGCTGCCCAACCTGCTGTTCTCCGCCGCGCTGCTGGCACTGATGGCGGCGGTCACCCGCAGCATGCTGTGGGTGTACATCGGCGTGATCGTGTTCTTCGTGCTGTATGGCGTCAGCCGGGCGGTGCTGGCCGACCTCGACAATGTCTGGATCTCGACCCTGGCCGATCCCCTCGGCATCCGAGCGATGGCGCAGACGCTGCGCTACTGGTCGGTCGAGGAACGCAACCACAACCTGCCCGAGCTGAGCCGCTACCTGTTGGCCAACCGGGCGCTGTGGCTGGGCGTGGCGGCGGCACTGTTCACGGCGACCTTCGCCTTGTTCCGTACCGAACGCAGCGGCACCGCGCGGCGCCGCCGCCGCGGTGCACCGGCTGCCAGCACGCCCAGCCCCAACGCGCCGTCTCGGCCGGCCGCACGGGCACTGTCGGTCACCCCGACCCACGCGTCGACGACCGCGTGGCACCAGTTGTGGCACCAGTTGCGCTTCGACACGGCCGGCGTGCTGCGCAGCGCGCCGTTCGTGGTGCTGCTGGTGCTGGGCCTGGCCAACTTCATTCCGTCCGCGCTGTTCTCCGGCGAGATGTTCGGCACCGCGATCTGGCCGGTGAGCTCGAAGATGCTCGATGCGCTGCAGGGCGCCTACAGCTGGTTGCTGGTGCTGATCACGTTGTTCTATGCCGGCGAACTGATCTGGAAGGAGCGCACCGCGCGCATCGACGGCATCACCGATGCCACGCCGCTGCCGAACTGGGTGCCGCTGGTCGCCAAATTCGGCGCCTTGGTGGCGGTGATCGCGCTGTTCCAGGCCGCGGGTGCGGCGACCTCGATCATCATCCAGCTGTGCAAGGGCTATACCCAGATCGAACCGCTGCTGTACCTGAAGACGCTGGCGCTGGGCTCGGTGTTCTACGTCCTGATGGGCGGCATGGCGCTGGCGCTGCAGGTGATCAGCAACAACAAGTTCCTCGGCTACGCGCTGTTGATCGCGCTGCTGATCGGCCAGGCCGTGCTGGGCATGCTCGACTACACCCAGAACCTATACAACTTCGGCAGCTGGCCGAACGCACCGTATTCGGACATGAACGGCTTCGGCCACTTCCTGCCCGGGCAGCTGTGGTTCCAGGGCTACTGGGGGCTGTTCCTGCTGGCGCTGCTGTTCCTGTCATCGGCGCTGTGGGTGCGCGGCGTCGGCAATGGCCTGCGCGTGCGGCTGCGCTCGGCCGGTCGTCGCCTGCGCGGCCCGGCCGGCATCGGCATGGCCGCTTCGTTGCTGGCGTTTGCCGCGGTCGGTGGCTGGCTGTACTGGAACACCAACGTGCGCAACACCTTCCTGTCGCCGGACCAGCAGCTCGATCTGCAGGCCCGCTACGAGCGCGAGTACGCCAAGTACAAGGACCTGCCGCAGCCGCGCATCGTCGCCATCGACAACCAGGTCGACCTGCACCCGGAAACGCAATCGATGGTCGTCGACGCCACCTGGACGGTGCGCAACCCGCATGCCGCGCCGATCAGCGAGGTGCATGTGACGATGCAGGGCGAGGACGGCGACAAGAGCCTGGTGAAGGTCGATCTCGGCGGGCAGACCCTGCTCAGCGACGACCGCGCCCTGGGCTACCGGATCTACCGGCTTGCGCGGCCACTGCAGCCAGGCGAGCAGCGGGTGTTCCGCTTCCGCGTCCACCAGCATCCGAACGGGATCACCGCGGGCCAGGCGCAGACCAACCTGGTCGCCAACGGCACGTTCTTCGACAGCCGCGCGCTGCCGCAGTTCGGCTACGACACGCGCCTGTTGATCGACGATCGCAACGAACGTCGCAAGCGCGGCCTCGGCGAGCCCACCCGCATGCCCAAGCTCGAAGACCAGGCCGCGCGCGCCAACACCTACATCGGCGACGACGCGGACTGGGTCGACTTCGCCAGCACCGTGTGCACCGCACCGGACCAGATCGCACTGGCGCCGGGCTACCTGCAGCAGGAATTCGACCGCGATGGCCGGCGCTGCTTCCGCTACCAGATGGACCGGCCGATGCTGGCGTTCTACGCCTACCTGTCGGCGCAGTGGCAGGTGAAGAAAGGCCGCTACAAGGACATCCCGATCGAGATCTACTACGACGCCAAGCATCCCTACAACGTCGACCGCATGATCGAGGCCACGCAGAAATCGCTGGCCTACTACGAACAGCACTTCACCCCGTACCAGCATCGCCAGGTGCGGATCCTGGAATTCCCCGGCTACCGGAGCTTCGCCCAGTCGTTCGCCAATACCATCCCGTACTCGGAGTCGATCGGCTTCATCGCCGACCTGCGCGATCCCGACGACATCGACTACGTGTTCTACGTCACCGCGCACGAGGTCGCGCACCAGTGGTGGGCACACCAGGTGATCGGCGCCAACGTCCAGGGGGCGACGATGCTGTCCGAATCGCTGGCGCAGTATTCGGCGCTGATGGTGATGGAGCACGAATACGGCCGCGCGCACATGCGCAAGTTCCTCAAGTACGAGCTGGACCGCTACCTGGGCGGGCGCGGCGGCGAGACGATCGAGGAACTGCCGCTGTACCGGGTCGAGAACCAGCAGCACATCCACTACCGCAAGGGCTCGCTGGTGTTCTACCGGCTGCGCGACGAAATCGGCGAGGAGGCGCTCAACCGCGCACTGCACCAGTTCCTGCTCGCCAAGGCGTTCCAGCAGCCGCCGTTCACCACCTCGGCCGAACTGCTCGACTTCATCCGCGCCGAGGCGAAGCCCGAGCAGCAGCAGCTGATCACCGACCTGTTCGAGAAGATCACCTTCTACGACAACCGGGTGGTCGAGGCGACCGCGAAGAAGCGCAGCGACGGGCGCTTCGACGTGACCCTGCAGCTGCGCGCCGCCAAGCACTACGCCGACGGCCAGGGCAAGGAGAGCGATGCCCGGCTCGACGACTGGATCGAGGTCGGGGTGTTCGCCAAGGGGGCCTCGGGCAAGGAGCGCGACGAGCAGGTGCTGTACCTGCAGCGCCAGCACATCACCGGGGCCGAGCCACGGATCACCGTGACCGTCGACCAGCAGCCCGATGAGGCCGGCTTCGACCCCTACAACAAGCTGATCGACCGGGTCTCCGACGACAACCGCAAGCGGGTCGTGCTGCAGTGA	MTLTFLRFELREQLRSPLLWLLAGFFALLAFGAASSDAVQIGGGIGNVHRNAPTVIATFMTAFTLLGLLVVTLFISNALLRDFDLGTAELVFSSPVRRRDYLAGRIGAALIASLLMYAIIALGLFIAQFMPWIDAARLGPVSLLPYLWTFAVLVLPNLLFSAALLALMAAVTRSMLWVYIGVIVFFVLYGVSRAVLADLDNVWISTLADPLGIRAMAQTLRYWSVEERNHNLPELSRYLLANRALWLGVAAALFTATFALFRTERSGTARRRRRGAPAASTPSPNAPSRPAARALSVTPTHASTTAWHQLWHQLRFDTAGVLRSAPFVVLLVLGLANFIPSALFSGEMFGTAIWPVSSKMLDALQGAYSWLLVLITLFYAGELIWKERTARIDGITDATPLPNWVPLVAKFGALVAVIALFQAAGAATSIIIQLCKGYTQIEPLLYLKTLALGSVFYVLMGGMALALQVISNNKFLGYALLIALLIGQAVLGMLDYTQNLYNFGSWPNAPYSDMNGFGHFLPGQLWFQGYWGLFLLALLFLSSALWVRGVGNGLRVRLRSAGRRLRGPAGIGMAASLLAFAAVGGWLYWNTNVRNTFLSPDQQLDLQARYEREYAKYKDLPQPRIVAIDNQVDLHPETQSMVVDATWTVRNPHAAPISEVHVTMQGEDGDKSLVKVDLGGQTLLSDDRALGYRIYRLARPLQPGEQRVFRFRVHQHPNGITAGQAQTNLVANGTFFDSRALPQFGYDTRLLIDDRNERRKRGLGEPTRMPKLEDQAARANTYIGDDADWVDFASTVCTAPDQIALAPGYLQQEFDRDGRRCFRYQMDRPMLAFYAYLSAQWQVKKGRYKDIPIEIYYDAKHPYNVDRMIEATQKSLAYYEQHFTPYQHRQVRILEFPGYRSFAQSFANTIPYSESIGFIADLRDPDDIDYVFYVTAHEVAHQWWAHQVIGANVQGATMLSESLAQYSALMVMEHEYGRAHMRKFLKYELDRYLGGRGGETIEELPLYRVENQQHIHYRKGSLVFYRLRDEIGEEALNRALHQFLLAKAFQQPPFTTSAELLDFIRAEAKPEQQQLITDLFEKITFYDNRVVEATAKKRSDGRFDVTLQLRAAKHYADGQGKESDARLDDWIEVGVFAKGASGKERDEQVLYLQRQHITGAEPRITVTVDQQPDEAGFDPYNKLIDRVSDDNRKRVVLQ	PGPT0006730_183	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS020_08946	894	yxlF	COG1131	putative ABC transporter ATP-binding protein YxlF	ATGCTGCAGATCCGCGAGCTGTCCAAGACCTACGCCAATGGCGTGCATGCCCTCAAGGGCGTCACCCTGGATGTCCCGCGCGGCATGTTCGGCCTGCTCGGCCCGAACGGCGCCGGCAAATCCTCGCTGATGCGCACGCTGGCCACGCTGCAGGAGGCTGATTCAGGCAGTGCCACGCTGACCACCAGCGATGGCCAAGCCATCGACGTGCTGCACGACAAGGACGCGCTACGGCGCCGGCTCGGTTACCTGCCGCAGGATTTCGGCGTCTATCCCAAGGTCAGCGCGCTCGACCTGCTCGACCACTTCGCCATGCTCAAGGGGCTGACCGCGCGCGGCCCGCGCAAGGAGGTGGTCGAGGGCCTGCTGCAGCAGGTCAACCTGTGGGATGCGCGCAAGCGCAAGCTCGGCACCTATTCGGGCGGCATGCGCCAGCGCTTCGGCATCGCCCAGGCGCTGCTCGGCAACCCGCAGCTGGTGATCGTCGACGAACCCACCGCAGGGCTCGATCCGGAAGAGCGCAACCGCTTCCTCAACCTGCTGGCCGAGATCGGCGAGAACGTGGTGGTGATCCTGTCGACCCATATCGTCGAGGACGTCACCGACCTGTGCCCGAGCATGGCGATCATGAACAAGGGAGAGGTGCTGCTGACCGGCGAGCCGAACGCGGCGATCGCCACGCTGAGCCAGCAGGTCTGGCGCAAACAGGTCGCCAAGAGCGCGCTGGCCGATTACGAGGCGCGCTTCACCGTGCTGTCGACACGGCTGGTGGCCGGCAATCCGGTGATCCATGTATTCAGTGCCGAGCGCCCGGAAGCCGGGTTCGAACCGGTCGCCCCCGATCTCGAGGACGTCTACTTCCAGCGCCTGCGTCTGCAGGCGCAGGCCGCCTGA	MLQIRELSKTYANGVHALKGVTLDVPRGMFGLLGPNGAGKSSLMRTLATLQEADSGSATLTTSDGQAIDVLHDKDALRRRLGYLPQDFGVYPKVSALDLLDHFAMLKGLTARGPRKEVVEGLLQQVNLWDARKRKLGTYSGGMRQRFGIAQALLGNPQLVIVDEPTAGLDPEERNRFLNLLAEIGENVVVILSTHIVEDVTDLCPSMAIMNKGEVLLTGEPNAAIATLSQQVWRKQVAKSALADYEARFTVLSTRLVAGNPVIHVFSAERPEAGFEPVAPDLEDVYFQRLRLQAQAA	PGPT0006725_16218	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS020_08947	396		COG0346	Virulence protein	ATGCGGATCGACCACCTCGACCATCTGGTGCTGACCGTCGCCGACGTCGAGGCCAGCTGCGCGTTCTACGCGCGGGTGCTCGGCATGCAGCCGCTGACCTTCGGCGAGGGCCGGCGCGCGCTGGCGTTCGGCCAGCAGAAGATCAACCTGCATCCAGCCGGGCGCGAATACGACCCCAAGGCGCGGCGGCCGACGCCCGGCTCGGCCGACCTGTGCTTCATCGCCCGCACGCCGCTGGCGCAGGTCCAGGCCGCGCTGGCCGCGGCCGGGGTGGCCGTCGAGGAAGGCCCGGTGCCGCGTACCGGCGCGACCGGGCCGATCCTGTCGCTGTACTTCCGCGATCCGGACGGCAACCTGATCGAAGTCGCCAACCCGCTGCCGACGCCCGCGGCGTGA	MRIDHLDHLVLTVADVEASCAFYARVLGMQPLTFGEGRRALAFGQQKINLHPAGREYDPKARRPTPGSADLCFIARTPLAQVQAALAAAGVAVEEGPVPRTGATGPILSLYFRDPDGNLIEVANPLPTPAA				NA	NA	NA	NA	NA
BMS020_08948	1287	ynfM_2		Inner membrane transport protein YnfM	ATGCGGGCAGCCCCCGTCTTCACTCCCGAACCGGTTTCCGTGAGCACTTCCACTGTCCGTCCGCTGGATACCGTCGCCCCCGCCATGGCGCGGATCCGCCTCGCGCTGTTCCTGGCCGGCTTCGCCACCTTTTCCCTGCTGTACAGCGTGCAGCCGCTGCTGCCCGAGTTCGCCCGCGAATTCGGCGTCGACGCCGCCACCAGCTCGCTGCCGTTGTCGCTGGCCACCGGCGCGCTGGCGATCGCGATCTTCTGCGCCGGCGCGGTGTCGGAGAACCTCGGCCGGCGCGGCCTGATGTTCGTCTCGATCGCGCTGGCGGCGCTGCTCAACCTCGCCGCCGCCTGCGTGCCGCACTGGGGCGCGCTGGTGCTGATGCGCACGCTGTCGGGCATCGCACTCGGCGGCGTGCCGGCGGTGGCGATGGTGTACCTCGCCGAGGAGCTGCCGGCCGGCAAGCTCGGCGCGGCGACCGGCTTGTACGTGGCGGGCAATGCGTTCGGCGGCATGAGCGGGCGCATCGCGATGAGCGTGCTCACCGACCACTACGACTGGCGCGTGGCGCTGGCCACGCTGAGCGTGTTCGACCTGCTGTGCGCGGTGGCGTTCGTGCTGCTGCTGCCACGCTCGCGCAACTTCGTGCGCAAGCACGGCATCAACCTGCAGTACCACCTGCGCGCCTGGTGGGGCCATCTGCGCCACCCGCACCTGCCGTGGCTGTTCGCGATCCCGTTCCTGCTGATGGGCACCTTCGTCAGCATCTACAACTACGCCGGATTCCGTCTCGGCGGCGCCGAATTCGGCCTCAGCCAGAGCCAGATCGGGTTGATCTTCAGTGCCTATGTGTTCGGCATCGTGTCCTCGTCGGTGGCCGGCGCGGCCTCGGACCGCTTCGGCCGCGGGCCGGTGGTGCTGGCCGGCAGCCTGACCACGGTGATCGGCGTGCTGCTGACCCTGGCGCATGCACTGCCGGTGGTGATCACCGGCATCGTGCTGCTGACGATCGGCTTCTTCATCGCGCACTCGGCGGCCAGCGCCTGGGTCGGCCGGCTCGGCGGCGCGCACCGCAGCCACGCCGCTTCGCTGTACCTGCTGGCCTATTACGTCGGCTCCAGCGTGATCGGCTCGGTCAGCGGCTGGTTCTGGCAGCACGGCGGCTGGGGCGCGCTGGTCGCGTTCTGCACCTTGCTGCCGTTGCTGGCGCTGGTGGCCGCGCAGGTGCTGCGCCGCGGCGCCGACGATTCGCGCCCCTACGGCCGCTTCGGCCCGCACCCGCCACGTGGCGAGTGA	MRAAPVFTPEPVSVSTSTVRPLDTVAPAMARIRLALFLAGFATFSLLYSVQPLLPEFAREFGVDAATSSLPLSLATGALAIAIFCAGAVSENLGRRGLMFVSIALAALLNLAAACVPHWGALVLMRTLSGIALGGVPAVAMVYLAEELPAGKLGAATGLYVAGNAFGGMSGRIAMSVLTDHYDWRVALATLSVFDLLCAVAFVLLLPRSRNFVRKHGINLQYHLRAWWGHLRHPHLPWLFAIPFLLMGTFVSIYNYAGFRLGGAEFGLSQSQIGLIFSAYVFGIVSSSVAGAASDRFGRGPVVLAGSLTTVIGVLLTLAHALPVVITGIVLLTIGFFIAHSAASAWVGRLGGAHRSHAASLYLLAYYVGSSVIGSVSGWFWQHGGWGALVAFCTLLPLLALVAAQVLRRGADDSRPYGRFGPHPPRGE	PGPT0017201_471	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_OTHER_SUGAR_TRANSPORT_RELATED_PROTEINS,PGPT0017201-ynfM-K08224	NA	NA
BMS020_08949	897	benM_2		HTH-type transcriptional regulator BenM	ATGGAACTGCGCCACCTCCGCTACTTCCTGGCCGTCGCCGAGGAAGGCAACTTCACCCGCGCCGCCGCGCGCGTGGGCATCGCGCAACCGCCGCTGAGCCAGCAGATCCAGGCGCTGGAGAAGGAACTGGGCACGCCGCTGTTCCGCCGCACCCATCAGGGCGCGGAGCTGAACGAGGCTGGCGAGGCGTTTCTGATCGACGTACGCCGGGTGCTGGCCGACGTCGATGCCGCGGTCGATTCGGTGCAGCGCGCCGCGCGCGGCGAGCGTGGCCGGCTGCGGCTGGGCTTCACCGCCTCGGCCGCGTTCAATCCGGTGGTGCCCAAGCTGATCCGGCGCTTCCAGCGCAGCTGGCCGCAGGTCACCATCGTGCTGCTGGAGACCAACACCATCGGCCTGCTCAAGGCGATGGAGAGCGGCCAGCTCGATGCCGCGTTCATCCGCCCCAGCAGCCTGACCCCGGGCGGGCTGAACCTGCTGCACTTCGCCGACGAGCCGATGAAGATCGCGCTGCCGGCCGCGCACAGGCTGGCCGGACGCAGCCGGCTGCCGCTGTCGGCGCTGGCCGACGAACCGTTCATCCTGTTCCCGCGCAGCTTCGGCCCCAGCCTGTACGACGAGATCGCCCAGGCCTGCCGGCTGGCCGGCTTCACCCTGCAGGTCAGCCAGGAGGCACCGCAGATGGCCTCGATCTGCAACCTGGTCGCGGCCGAACTCGGCGTGTCGGTGGTGCCGCAGGCGATGACCCACGTGCAGCTGCCCGGGGTGCGCTACATCGACATCCAGGGCCATGTGCCGCTGGCGCGGTTGGCGCTGGCGGCCTTGCCCGGCAGCGTGCCGGTGGTGGTGCAGCACCTGATGAAGCTGGCGCAGACGCTGGTGCACGAACGCGCCTGA	MELRHLRYFLAVAEEGNFTRAAARVGIAQPPLSQQIQALEKELGTPLFRRTHQGAELNEAGEAFLIDVRRVLADVDAAVDSVQRAARGERGRLRLGFTASAAFNPVVPKLIRRFQRSWPQVTIVLLETNTIGLLKAMESGQLDAAFIRPSSLTPGGLNLLHFADEPMKIALPAAHRLAGRSRLPLSALADEPFILFPRSFGPSLYDEIAQACRLAGFTLQVSQEAPQMASICNLVAAELGVSVVPQAMTHVQLPGVRYIDIQGHVPLARLALAALPGSVPVVVQHLMKLAQTLVHERA				NA	NA	NA	NA	NA
BMS020_08950	672			hypothetical protein	ATGCGCATCACCCACCTGCGACTGCCCAGCCACTCGCCCGCGGCCACGCGCGCGTTTTTCCACGACACGCTGCAGCTGCCGCTCGAAGGCGAGACGCTGCGGGTCGGCTGGAGCCGGATCGACCCGGTGCCCGCCGCGGCCGCGGTCGGCGCGCTGCACCTGGCCTTCAATGTCGATCCGGCACGCTTCGAGGCCGCGCTCGCCTGGCTGCACGCACGGGCCACGCTCCTGCATGCGCCGGACGGACAGGCGCGCTTCGCGCTGGCGCGCGGCTGGCAGTCCGAATCGGTGTACTTCGCCGGGCCGGACGGTGCGGTGCTGGAACTGATCGCGCGCCGCCGCCACGTCGCTCCGGCCCCGCGGCAGGGGCCGTTCCATGGCAGCGAACTGCTGTGCCTGAGCGAGGTGGGCCTGCCCAGCGACGATGTCAGCGGCGTCGCGCGCAGCCTCGGCAACCACTTCCGGATGCATCCGCTCGACACGCCGGCGAGCGGCTTCGCCGCGCTCGGCGACGACGAGGGCCTGCTGATCGTGGTCGACAGCGCGCGGCGCTGGTTTCCCGAGCAGCGCCAACTGCCCTGGGCGCACGGCGTGGCGGTGCAGCTGCAGGGGCCGCCGCCGGGGCTTGGCCTGCACGACGCGCAGGGCTGGCAGCTGTGTTCGGTGGCCTGA	MRITHLRLPSHSPAATRAFFHDTLQLPLEGETLRVGWSRIDPVPAAAAVGALHLAFNVDPARFEAALAWLHARATLLHAPDGQARFALARGWQSESVYFAGPDGAVLELIARRRHVAPAPRQGPFHGSELLCLSEVGLPSDDVSGVARSLGNHFRMHPLDTPASGFAALGDDEGLLIVVDSARRWFPEQRQLPWAHGVAVQLQGPPPGLGLHDAQGWQLCSVA				NA	NA	NA	NA	NA
BMS020_08951	339			hypothetical protein	ATGAGCGCGCGGGCACTGCTCGCGTTGCTGGCCTGGTTGCCGCTCGCGGCCGCCGCGCAGGACTGCCGTGCGATCGAACAGCGGGCGCTGCGCGAGAGCGTCGGCCTGCATCCGCCGCTGCAGGCGCGCGTGGTCGGCAGCGGCCGCGCCGCGTTCCATGCCGGCCCGGACGCGGGTTGCCGCGCGCGCGGGCTGTTCGTGGTGCCGGGCGACGCGCTGGTCGCGCTGACCCCGTGGGGGCGCTGGATCCAGGTGCGCTACGTCGGGCGCGATGGCCAGCGCTACGTGACCTGGCTGGAGGCGGCGCGGGTGCAGCTGTCCACGCGCCCGGCACGCTGA	MSARALLALLAWLPLAAAAQDCRAIEQRALRESVGLHPPLQARVVGSGRAAFHAGPDAGCRARGLFVVPGDALVALTPWGRWIQVRYVGRDGQRYVTWLEAARVQLSTRPAR				NA	NA	NA	NA	NA
BMS020_08952	822	tatD_2	COG0084	3'-5' ssDNA/RNA exonuclease TatD	ATGCAGTTGATCGACATCGGCGCCAACCTCACCCACGACGCCTTCGACCGCGACCGCGACGCCGTGCTGGCGCGCGCGCGCGCCGCCGGCGTGGCGCAGATGGTGGTGACCGGCGCCAGCCGCGAGCACTCCCCGCTGGCCCTGCAGCTGGCGCAGCAGCACCCCGGCGTGCTGTTCGCCACCGCCGGCGTGCACCCGCACCACGCGGTCGAATACACCGACGAATGCGATGCCGAGATGCGCGCGCTGCATGCGCACCCGGAAGTCGTGGCGGTCGGCGAATGCGGGCTGGACTATTTCCGCGATTTCGCCCCGCGCCCGGCCCAGCGCCGCGCGTTCGAGCGCCAGCTGCAGCTGGCCGCCGACCTGGCCGCGGCCGGCAACCCGAAGCCGCTGTTCCTGCACCAGCGCGATGCGCACGAGGATTTCCTCGCGGTGATGAAGGACTTCGACGGCCGCCATGGGCCGGTGGTGGTGCACTGCTTCACCGCCGAACGCCGCGAGCTGTTCGACTACCTGGACCGCGACTGGCACATCGGCATCACCGGCTGGCTGTGCGACGAACGCCGCGGCGCGCACCTGCGCGAGCTGGTGAAGCACATCCCGGCCGCGCGGTTGATGATCGAGACCGATGCGCCGTACCTGCTGCCGCGCACGCTCAAGCCGATGCCGAAGGACCGCCGCAACGAGCCGGCGTTCCTGGCCCACATCGTCGAGGAGCTGGCGCGCGACCGCGGCGAGGACGTGGCCAGCACCGCCGCGGCGACCACCGCCGCGGCGCGCGCGTTCTTCCGCCTGCCGGCCGTCGCCGCCGCGGCATGA	MQLIDIGANLTHDAFDRDRDAVLARARAAGVAQMVVTGASREHSPLALQLAQQHPGVLFATAGVHPHHAVEYTDECDAEMRALHAHPEVVAVGECGLDYFRDFAPRPAQRRAFERQLQLAADLAAAGNPKPLFLHQRDAHEDFLAVMKDFDGRHGPVVVHCFTAERRELFDYLDRDWHIGITGWLCDERRGAHLRELVKHIPAARLMIETDAPYLLPRTLKPMPKDRRNEPAFLAHIVEELARDRGEDVASTAAATTAAARAFFRLPAVAAAA				NA	NA	NA	NA	NA
BMS020_08953	915	hdfR_5		HTH-type transcriptional regulator HdfR	ATGCTGACCTTCTCCCGCTTCACCCGCTACTTCATCGAGGTCGCGCGCTGCGGCAGCATCCGCAAGGCCTCCGAGGTGCTGCACGTGTCGGCCTCGGCGATCGACCGGCAGATCCTCAAGGCCGAGGAGGAGCTGGGCGCGCAGCTGTTCGAGCGCCTGCCCGGGCGGCTGCGGCTGACCGCGGCCGGGGAGATGCTGCTGGTGGAGATGCGCCAGTGGGAAAAGAGCTACGGGCGCACCCTGGAGCGCTTCGACGAGCTCAAGGGGCTGCGCCGCGGGCACGTGGACATCGCGATGATCGACGCGCTCGGCGAGGGCATGCTGCCGGACGTGGTGGCCTCGCTGATCGGCCAGTACCCGGGCGTGACCTTCAGCCTGACCACCGCCGGCAACCAGCGCGTGGTGGAGATGGTGGCGCGCGCCGATGTCGATTTCGGCCTGCTGCTCGATCCGGTCAGCAGCGTCGACCTGGAGGTGCGTGCGTTCGCCGACGTGGCGCTGGGCATCGCGATGCCGCCCGGCCACCCGCTGGCATCGCGCGACCGCCTGCAGCTCAGCGACGTGGTCGACCACGGCCTGCTGCTGCCGGCCTCGCCGCTGATCGTCGGCGAGCATGCCAAGGTGCTGTACCAGCGCCAGCACATCGACGTAAAGCGCTACACCCGCTGCAACGACGTGCGCACGCTGCGGGCGATGGTGCGCAGCGGCGTCGGCGTGGCGCTGATGTCCTCGCTGGACGCGGCGCCGGACGTGGCCGAGGGCCGGCTGGCGTTCGTGCCGTTCCGCGAGCACCTGACCAAGCCGATGACGCTGGCGCTGTGCGTGGCGCCGCAGCGCCAGCTCTCGCGCGCGGCCAACCTGGCGATCCAGGCGCTGGCCTCGCGGATCGAGCAGATCGGCGCGGGCGCCGCCTAG	MLTFSRFTRYFIEVARCGSIRKASEVLHVSASAIDRQILKAEEELGAQLFERLPGRLRLTAAGEMLLVEMRQWEKSYGRTLERFDELKGLRRGHVDIAMIDALGEGMLPDVVASLIGQYPGVTFSLTTAGNQRVVEMVARADVDFGLLLDPVSSVDLEVRAFADVALGIAMPPGHPLASRDRLQLSDVVDHGLLLPASPLIVGEHAKVLYQRQHIDVKRYTRCNDVRTLRAMVRSGVGVALMSSLDAAPDVAEGRLAFVPFREHLTKPMTLALCVAPQRQLSRAANLAIQALASRIEQIGAGAA				NA	NA	NA	NA	NA
BMS020_08954	1050	ndmA_2		Methylxanthine N1-demethylase NdmA	ATGGATGTCGCCGTGCCTCCCCTGCCGCTGCACTGCTCCTTCGCCGCCGGCGACTGGCAGCGGCTGGCGCAGCAGTGGCACGCGGTGGCGTTGTCCAGCGAGGTCGGCGCGGCGCCGTTCAAGGCGACCCTGCTGGACGAGCCGCTGGTGCTGTACCGGGTCGACGGTGCGTTGGTGGTCGCGCGCGACGTCTGCCCGCACCGCGGTGTGCCGCTGAGCCTGGGCAGCGCCGACGGCCAGGGCGTGGTCTGCCCGTACCACGGCCTGCGCTTCGGCGCCGGCGGGGCCTGCAACCGCATCCCGGCCAGCCCGGCGCAGGCGATCCCGGCGCGGATGCGCCTGCATACCTATGCCGCGGCCGAGCGCTACGGGCTGATCTGGGTGTGCCTGGCGCGGCCGTCGGTGACCTCGCCGGAAGAGATCGCGATCCCGCCGATGCCGCACTGGGACGACCCGGGCTTCCAGCAGATCAACTGCCCCGGCTTCGACATCGCCGGCTCGGCCGCGCGCCAGCTCGAGGGCTTCATCGACGTGGCGCACTTCGCCTGGATCCACACCGGCACCTTCGCCGACCCGGACAACCAGGAAGTGCCGCAATACGCGGTGCACGAGCGCCAGGGCGGCTTCGACGCCGACTACTACAGCACGGTCAGCAACTACGCCGCCGATTCCGGCCGCGCGGTGCCGCCGGGCTACGTGTGGCTGCGCCGCTTCGAGGTGCACACCCCGTTCGTGGCCACGCTGACGATCCATTTCCCCAACGAGGGCGAGCGGCTGGTGATCATGAACTGCGCCAGCCCGGTGTCCAAGCACCGTACCCGGCTTCTGGTGCCGATCGCACGCAACTTCGACCTGCACGTGCCGGTGGAGGACGTGCATGCGTTCAACCACCGGGTGTTCGCCGAGGACGCGACGATGGTGGAGAGCCAGCGCCCGGAATACCTGCCGCTGGACCCGCTGCTGGAGATCCACATCCCGGCCGACCGCAGCTCGATCGCCTACCGGCGCGCGCTGCGCGACCAGGGCTACAGCGACTTCTTCCTGCACTGA	MDVAVPPLPLHCSFAAGDWQRLAQQWHAVALSSEVGAAPFKATLLDEPLVLYRVDGALVVARDVCPHRGVPLSLGSADGQGVVCPYHGLRFGAGGACNRIPASPAQAIPARMRLHTYAAAERYGLIWVCLARPSVTSPEEIAIPPMPHWDDPGFQQINCPGFDIAGSAARQLEGFIDVAHFAWIHTGTFADPDNQEVPQYAVHERQGGFDADYYSTVSNYAADSGRAVPPGYVWLRRFEVHTPFVATLTIHFPNEGERLVIMNCASPVSKHRTRLLVPIARNFDLHVPVEDVHAFNHRVFAEDATMVESQRPEYLPLDPLLEIHIPADRSSIAYRRALRDQGYSDFFLH				NA	NA	NA	NA	NA
BMS020_08955	960	pobB		Phenoxybenzoate dioxygenase subunit beta	ATGCACACCGCCCTGCACGAGGTGCGCGTCGCCGCGCTCGACCACGAAGGCCATGGCAACCGCGCGATCCGGCTGGAACCGCTGGCCGGCGAGCTGCCGCCGTTCGAGGCCGGCGCGCACGTCGACGTGCACCTGCCCGGCGGCCTGGTGCGCCAGTATTCGATCGCCAGCGCGCCACAGCTACGCGACCACTACCTGCTGTGCGTGCGCCATGCCGACGCCTCGCGCGGCGGCTCGACCCATCTGCACCAGCGCCTGACGCTGGGCGACCGGCTGCGGATCTCGGCGCCGCGCAACCTGTTCCCGCTGCGCGCCGGGACCCGCCAGGTGCTGGTCGCCGCCGGCATCGGCATCACCCCGCTGCTGGCGATGGCCGAGACCCTGGAAGCGCGTGGCGAGGCGTTCGTGCTGCACTACTACGTGCACCGGCGCGCCCAGGCCGCCTTCGCGGCGCGGCTGCAGCGCGGCTTCCGCCACGGCCGGATGCTGCTGCACGTCAGCGAGGAGGGCGAGAGCGCACGCAATCACCTGCCGCGCGAGCTGCATGCGGCGACCTCGCGCGACCAGCTGTACCTGTGCGGGCCGGCCGCGTTCATGGCGCACGTCGCCGCGCAGGCGGCAGCGCTGGGCTGGCAGCCGCAGCAGGTGCATTACGAGCATTTCGGCGCCGCGCCGCTCGCACCGGCGCAGGCGCAGGCGTTCGAGGTCGAACTGGCGCGCAGCGGCCGCCGCGTGCAGGTTCCGGCCGACCGCAGCATCGCCAGCGCGCTGCGCGAGGCGGGCATCGCGGTGCCGGTGTCGTGTGAGCAGGGGATCTGCGGCGCCTGCGTGACCGGCCTGGTCGCCGGCGAGCCCGACCACCGCGACAGCGTGCTCGACCCCGCCGCGCGCGCCGCTGGCGACTGCATCGTGCTGTGCTGCTCGCGCAGCCGCTCGCCGCGGCTGACGCTGGACCTGTGA	MHTALHEVRVAALDHEGHGNRAIRLEPLAGELPPFEAGAHVDVHLPGGLVRQYSIASAPQLRDHYLLCVRHADASRGGSTHLHQRLTLGDRLRISAPRNLFPLRAGTRQVLVAAGIGITPLLAMAETLEARGEAFVLHYYVHRRAQAAFAARLQRGFRHGRMLLHVSEEGESARNHLPRELHAATSRDQLYLCGPAAFMAHVAAQAAALGWQPQQVHYEHFGAAPLAPAQAQAFEVELARSGRRVQVPADRSIASALREAGIAVPVSCEQGICGACVTGLVAGEPDHRDSVLDPAARAAGDCIVLCCSRSRSPRLTLDL	PGPT0005495_189	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005495-vanB-K03863	NA	NA
BMS020_08956	1317	adeQ_2	COG2252	Adenine permease AdeQ	ATGGCGCGCTGGCCCGATTTCGGCATCGCCGCCGCCGGCAGCACCCCGCGCACCGAGCTGCTGGCCGGCGCGACCACGTTCCTGACGATGGCCTACATCGTCTTCGTCAATCCCGACATCCTCGCCACCACCGGCATGGACCATGGCGCGGTGTTCGTCGCCACCTGCCTGGCCGCGGCGCTGGGCTCGCTGCTGATGGGGCTGGTCGCCAACTATCCGATCGGCGCCGCCCCGGGCATGGGCCTGAACGCGTTCTTCGCGTTCTCGGTGGTGGCCGGGCTCGGCTACAGCTGGCAGCAAGCGCTGGGCCTGGTGTTCGTGTCCGGCTGCGTGTTCGTGCTGCTGACCCTGACCGGCGCGCGGCGCTGGCTGGTCGATGGCATCCCGCCGGCGCTGCGCAGCGGGATTGCGGCAGGCATCGGCCTGTTCCTGGCCTTCATCGGCCTGCAGAAATCCGGCCTGGTGGTGGACAGCCCAGCCACGCTGGTGACCCTGGGCGACCTGCACAAGCCCGAGCCGCTGCTGGCGCTGGGTGGGCTGCTGCTGATCGCGGTGCTCGACCTGCACAAGGTGCGCGGCGCGATCCTGATCGGCATCCTGGCGGTGACGCTGGCGGCCGGCGCGCTCGGGCTGGTGCACTGGCAGGGCATCGTGTCGTGGCCGCCGAGCCTGGCGCCGACCTTCCTCAAGCTCGACATCGCCGGCGCGCTGCACGGCCACGGCGCCGGTTCGGCGCTGGGCGCGGTACTGCACGTGATCCTGGTGTTCGTGCTGGTGGAGATGTTCGACGCCACCGGCACCTTGATGGGCGTGGCCAAGCGCGCCGGCCTGCTCGGCACGCCGGAACTGCAGAAGCGCTTCAACCGCGCGCTGTTCGCCGACAGCAGCGCGATCCTGGCCGGCTCGCTGCTGGGCACCTCCTCGACCACCGCCTATGTCGAAAGCAGCGCCGGCGTGCAGGCCGGCGGCCGCACCGGGCTGACCGCGCTGGTGGTCGCCGCGCTGTTCCTGCTGGCGCTGCTGTTCTCGCCGCTGGCGGCGATGGTGCCGGCCTACGCGACCGCGCCAGCGCTGGTGTTCGTGGCCGCCTCGATGCTGCGCGAAGTGCTCGACATCGACTGGGACGACCTCAGCGAGTCGCTGCCGGCGGTGGCCTGCATGCTGGCGATGCCGCTGACCTATTCGATCGCCGACGGCCTGGCGCTGGGTTTCATCACCTACACCGTGCTCAAGCTCGGCAGCGGCCGCTGGCGCGAGGTGCACGCCGCCACCTGGGTGATCAGCGCGTTGTTCGTGCTGCGCCACGCACTCGGCTGA	MARWPDFGIAAAGSTPRTELLAGATTFLTMAYIVFVNPDILATTGMDHGAVFVATCLAAALGSLLMGLVANYPIGAAPGMGLNAFFAFSVVAGLGYSWQQALGLVFVSGCVFVLLTLTGARRWLVDGIPPALRSGIAAGIGLFLAFIGLQKSGLVVDSPATLVTLGDLHKPEPLLALGGLLLIAVLDLHKVRGAILIGILAVTLAAGALGLVHWQGIVSWPPSLAPTFLKLDIAGALHGHGAGSALGAVLHVILVFVLVEMFDATGTLMGVAKRAGLLGTPELQKRFNRALFADSSAILAGSLLGTSSTTAYVESSAGVQAGGRTGLTALVVAALFLLALLFSPLAAMVPAYATAPALVFVAASMLREVLDIDWDDLSESLPAVACMLAMPLTYSIADGLALGFITYTVLKLGSGRWREVHAATWVISALFVLRHALG	PGPT0007325_4008	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
BMS020_08958	180			hypothetical protein	ATGCACCAGGCATCACGTTCTTCTTTATCTCTGTCTGGCCATCTGCTGCCGATCGAACCCGGGCATGTCGCACTGGTCGGGCATCTACGCCGCGTGCCCCAACGCATCGCATCGGCATCGCGGTTGCGTATCTCGCCGGCCCGGATCGCCGCCACCGGTAACCAAGCGGAGGGCTGCTGA	MHQASRSSLSLSGHLLPIEPGHVALVGHLRRVPQRIASASRLRISPARIAATGNQAEGC				NA	NA	NA	NA	NA
BMS020_08959	255			hypothetical protein	ATGGCCGCTACACCGAGCAAGACCGATGCGGCCGGCAAGCCGCTGGTATTCGGCGTCAGCCTCAACCAGGTCGACGAACTCAACCGGTTGCTTGGCGTCATCACCGCGATGGGCAATGTGTTTGCCACCGGCAATGCCGGTCTGATGCGCGAGGAGGGCCTGGTGGTGCTGGGCGATGTGATCTTCGACAGCGCCTGCGAGGTGCGCGGGATTCTGGATGAGGTCTACGAGCAGCGGCTGCGCAAACCGAAGTAG	MAATPSKTDAAGKPLVFGVSLNQVDELNRLLGVITAMGNVFATGNAGLMREEGLVVLGDVIFDSACEVRGILDEVYEQRLRKPK				NA	NA	NA	NA	NA
BMS020_08961	1512			hypothetical protein	ATGAGGCTGTTCGATCGATTGGTGCGTGCGCGCCGCGTCTGGACGCTGCTGTTGCTGGCGTTGCTGCTGCCGGTCTGCGCGGCGCATGCGGCCGACGTGCCGGTGTCGGCGCAACCGGCCGACCGCCTGAAGGAGGACTGGTGGGCGCAGCGGCACGCGCAGGTGCTGGAACAGGTCAAGGCGCACCCGGACACGCCACTGCTGCTGATCGGCGACTCGATCACCCACAACTACGACAAGGCGTCGCCGCCGGACGAGGATTTCCAGCCGACCTGGCAGACGTTCTATGGCGCGCGCGGCGCGCTCAACCTCGGCTTCAGCGGCGATGGCACCCAGCATGTGCTGTGGCGGCTGACGCATGGCGAGGTCGATGGGCTGCAGCCGAAGGTGGCGGTGGTGCTGATCGGCACCAACAACACCGGCTGGCTCAAGCAGGGCGCGCAGGACACCGAGCTTGGCATCGATGCGGTGGTCGCGACGCTGGAGCAGAAGCTGCCTACCACCCGCATCCTGTTGCTCGGGCTGCTGCCCAGCGACCTGTCGGCGGAAAAGAGTGCTGCCGATGCGGAGGTCAACCGCTACCTGGCCGAGCGCTACGCCGACAACCCGCGCGTGAGCTACCTCGATATCGGCACGATCTTCCAGCGCGATGGCCGGCTCGATACCGCGCGCTTCTACGACACCCGTTTCACGCCGCCGGCCGGGGCGCTGCACCCGGATACGCGCGCGCAGCGGATGATGGCCGAGGCGATCGAGCCGACGCTGGCACGGATGCTCGGTGAGCCGCCGCGCGTGCCGATGGCGCAGCTCGGCACCGGCTTCAATACCGCGCTGATTCCGGTGCCGTGGCTGGAGCAGGATTCCTACGACTGGATCGCGCGCCATCGCGGCGCGCTGGCGGCGGCGCGCCGGCTCGATCCGGAGGTGGTGATGATCGGCGACTCGATCACCCACTTCTGGTCCGGTGAGCCGCGTGGCGTGCGCGCCAGTGGCCCGCAGGCGTGGCAGTGGCTGTACGGGGAGCGGCGCGTGCTCAACCTCGGCTTCGGCTGGGACCGCACCCAGAACGTGTTGTGGCGGATCCGCCAGGGCGAACTGGATGGGCTGGCGCCGCAGTGGGTGGTGATCAACATCGGCACCAACAACCTCACCGGTACCGGCAATGCGCGCACCAGCACGCCGGCCGAAGTCGCCGCCGGCGTGGAGGCGGTGGTGGCGCAGGTGCGCGCCCGGCTGCCACGGGCGAAGGTGGTGCTGATGGGGATCTTCCCACGTGGGCGGCACGCCGGTGACGCGCTGCGTGCGCCGATCCGCGAGGTCAACGGCCTGCTGGCGGCGAAGTTCGGCCAGGATCCGGCGGTGCGCTTCCTCGATATCGGTGCGCGCTTCCTGCAGCCGGATGGCACCTTGCCCGAGGCGCTGTTCCCCGATACCACCCATCCCAGCGAAGCCGGTTACCGGATCTGGGCGCAGGCACTGCGCGAGGTTGGCATCGGTGCGGCAGCGCACTGA	MRLFDRLVRARRVWTLLLLALLLPVCAAHAADVPVSAQPADRLKEDWWAQRHAQVLEQVKAHPDTPLLLIGDSITHNYDKASPPDEDFQPTWQTFYGARGALNLGFSGDGTQHVLWRLTHGEVDGLQPKVAVVLIGTNNTGWLKQGAQDTELGIDAVVATLEQKLPTTRILLLGLLPSDLSAEKSAADAEVNRYLAERYADNPRVSYLDIGTIFQRDGRLDTARFYDTRFTPPAGALHPDTRAQRMMAEAIEPTLARMLGEPPRVPMAQLGTGFNTALIPVPWLEQDSYDWIARHRGALAAARRLDPEVVMIGDSITHFWSGEPRGVRASGPQAWQWLYGERRVLNLGFGWDRTQNVLWRIRQGELDGLAPQWVVINIGTNNLTGTGNARTSTPAEVAAGVEAVVAQVRARLPRAKVVLMGIFPRGRHAGDALRAPIREVNGLLAAKFGQDPAVRFLDIGARFLQPDGTLPEALFPDTTHPSEAGYRIWAQALREVGIGAAAH				NA	NA	NA	NA	NA
BMS020_08963	2520	rnr_2	COG0557	Ribonuclease R	ATGACCAAGAAAACCAACAAGGGCGCCGGCAAGGCGCCCGCGAGCACCGGCGCGGGTACTCCGCCGGCCAAGAAGAAGATCGGCGGCGGCAAGGCCGGCGGCAGCCGGCAGGGCGCGGCCCCGGCCACCAAGAAGCAGGGCGGCAAGAAGCTGCCGCCATGGATGCCCGACAGCATGACCGGCGCCGGCGCCGGCAGCGGCAAGCCGGCGCGTGGCGGCCGCGGCCCTGCACCGGGCCCGCGCCGCGGCAAGCCGGCGCCGGCCACCGGCAGCGGTGGCCACTTCAAGGACCCGCACGCCGCGCGCGAGGCTGAGCGCTACGCCGAGCCGATCGCCAGCCGCGAGGCGATCCTGGAACTGCTGGATGCCTGTGACGGCCCGCAGACCGCCGAGGAGATCGCCGACCGGCTCGACCTGCGCGACCGCATCGAGATCCTCGGCCGGCGCCTGGGCGCGATGGTGCGCGACGGCCAGCTGGTGCAGAACCGCCGTGGCGGCTTCGCCCCGGTGCAGCAGACCAGCCTGATCGCCGGCACCGTGATCGCCAACCCGGAAGGCTTCGGCTTCCTCAAGCCGGACGAGGGCGGCGACGACCTGTTCCTGCCGCCGTTCGAGATGCGCAAGGTGATGCACGGCGACCGCGCGCTGGCCAATGTGACCGGCATCGACCGCCGCGGCCGCCGCGAAGGCTCCATCGCCCGCGTGCTCGAGCGGCGCATGAGCCGGCTGATCGGCCGGTTCGGCTACGAGCACGGCGTGCCGTTCGTCGACCCGGACGACAAGCGCGTGCAGCGCAACGTGCAGATCACCCCGGACGGCATCGGTGGCGCGCGCGAAGGCCAGCTGGTGGTGTGCGAGCTGATCGCGCCGCCGGACAGCCGGCGCCCGGCGGTCGGCAAGATCATCGCGGTGCTCGGCGACAAGCTGACCCCGTCGCTGGTGGTGCAGACCGCGATCCACGGCCACGAGCTGCCGTACGAATTCCCGCAGGAGGTGCTGGACGAGGCCGCCGCGGTGCCGCTGACGGTGGAGCCGTCGATGATCGGCGGCCGCGTCGACCTGCGCGACCTGCCGCTGGTCACCATCGACGGCGCCGACTCGAAGGACTTCGACGACGCGGTCTATTGCGAATCCAACCGCAAGGGCCTGCGCATCAGCAACCGCTCCGGCTACCGGCTGGTGGTGGCGATCGCCGACGTCTCGCACTACGTGCGCCCCGGCACGCCGCTGGACGAGGAGGCGCAGAAGCGCGCGACCTCGGTGTATTTCCCCGGCTTCGTCGTGCCGATGCTGCCGGAGACGATCTCCAACGGCATCTGCTCGCTGAATCCAAAGGTCGACCGCATGTGCTTCGTCTGCGACATGCAGGTGAACAAGGACGGCGAGGTCACCGCGGCCAAGTTCTACGAAGCGGTGATGCGCTCGCACGCGCGCCTGACCTATGACCAGGTCTGGCAGGCAGTGGGCGAGAAGGATCCGGACGTGCGCCGCGAGCTGGGCGACCTGCTGCCGCACGTGGACCGCCTGCACGAGCTGTACGGCGTGCTGGCCAAGGCGCGCGCCAAGCGCGGCGCGATCGAGTTCGAGACCTCCGAGACACGCTTCGTGCTCGACAACCGCGGCGAGGTCACCCAGGCCGGCATGCTGGTGCGCAACGATGCGCACCGGCTGATCGAGGAATGCATGATCGCCGCCAACGTCGAGGCGGCGAAGTACCTGCTGGCCAAGCACGTGCCGGCCCCGTACCGCGTGCACGACCGGCCGCCGGAGTCCAAGTACGCCGACCTGCTGGAATTCCTCAAGGAGTTCAAGCTGTCGCTGCCGCCGTGGAACAAGGTGCAGCCGCGCGATTTCACCGCGCTGCTGCACAAGATCCGCGAGCGCCCGGACGTGGCGCTGCTGGAATCGGTGGTGCTGCGCAGCCAGAGCCTGGCGGTGTACACCCCGGACAACGCCGGCCACTTCGGCCTGGCGCTGGAGGCGTACGCGCACTTCACCTCGCCGATCCGGCGTTATCCCGACCTGCTGGTGCACCGCGCGATCAAGCACGCGTTGAGCGGCGCCAAGCCGGACAAGTTCCTGTACTCGCAGCGCGAGATGGCGGCGCTGGCGCTGCAGTGTTCCGAGCGTGCGCGGCGTGCCGACGAGGCCGAACGCGAGGTCGACGAGCGCTACCGCGCGGCGTGGATGGAAAAGCACGTCGGCGGCCGCTTCAGCGGGGTGATCAGCGGCGTGACCAGCTTCGGCCTGTTCGTCGAGCTGGACGAGTCCAAGGTCAACGGCCTGGTCCACGTCACCCAGTTGCCGAACGACTATTACCACTTCGACCCGATCCGCAAGATCCTCGAGGGCGAGCGGCGCGGCAACGAATTCCGGCTCGGCGACCGGGTCGATGTGATCGTGATGAAGGCCAGCCTGGAGGAGCGCAAGATCGACTTCCGGCTGGTCGAGGAGCGCGACGCCGTCCCGCCGCCGCCACCGCGCGGACAGCCGGCCAAGCGCAAGAAGCAGCCTTACTGA	MTKKTNKGAGKAPASTGAGTPPAKKKIGGGKAGGSRQGAAPATKKQGGKKLPPWMPDSMTGAGAGSGKPARGGRGPAPGPRRGKPAPATGSGGHFKDPHAAREAERYAEPIASREAILELLDACDGPQTAEEIADRLDLRDRIEILGRRLGAMVRDGQLVQNRRGGFAPVQQTSLIAGTVIANPEGFGFLKPDEGGDDLFLPPFEMRKVMHGDRALANVTGIDRRGRREGSIARVLERRMSRLIGRFGYEHGVPFVDPDDKRVQRNVQITPDGIGGAREGQLVVCELIAPPDSRRPAVGKIIAVLGDKLTPSLVVQTAIHGHELPYEFPQEVLDEAAAVPLTVEPSMIGGRVDLRDLPLVTIDGADSKDFDDAVYCESNRKGLRISNRSGYRLVVAIADVSHYVRPGTPLDEEAQKRATSVYFPGFVVPMLPETISNGICSLNPKVDRMCFVCDMQVNKDGEVTAAKFYEAVMRSHARLTYDQVWQAVGEKDPDVRRELGDLLPHVDRLHELYGVLAKARAKRGAIEFETSETRFVLDNRGEVTQAGMLVRNDAHRLIEECMIAANVEAAKYLLAKHVPAPYRVHDRPPESKYADLLEFLKEFKLSLPPWNKVQPRDFTALLHKIRERPDVALLESVVLRSQSLAVYTPDNAGHFGLALEAYAHFTSPIRRYPDLLVHRAIKHALSGAKPDKFLYSQREMAALALQCSERARRADEAEREVDERYRAAWMEKHVGGRFSGVISGVTSFGLFVELDESKVNGLVHVTQLPNDYYHFDPIRKILEGERRGNEFRLGDRVDVIVMKASLEERKIDFRLVEERDAVPPPPPRGQPAKRKKQPY				NA	NA	NA	NA	NA
BMS020_08964	477			hypothetical protein	ATGGACGGCACGACGGTGCAGACGTACAGCGGTGGCTGCCAATGCGGCGCGGTGCGGTTCCAGGTGCGCGGCGCGCTCGACCATGCGTCGATCTGCCACTGCCGGATGTGCCAGAAGGCCTTTGGCGCGTACTACGCGCCGCTGGTCTCGGTGCGCGGCGCGGCGTTCGCCTGGACCCGCGGTGCGCCCAGGCGCTTCGCCTCGTCGAACCTGGTGCAGCGCGGCTTCTGCGCCGACTGCGGCACGCCGCTGACCTACGAGGCGCCGGACGGCATGGCGATCGCCGCCGGCGCGTTCGACCAACCGCAGCGGCTGCCGCCGACCGTGCAGTACGGGCTGGAGGCGAAGCTGGCGTTCGTCGATGCGCTGCATGCGCTGCCGGGCACGCGCACCGACCAGGACGTGGCCGCGCTGGAGTTCCTGGCGCAGATCGTCTCGCACCAGCATCCGGACCACGACACCGACCGCTGGCCGTGA	MDGTTVQTYSGGCQCGAVRFQVRGALDHASICHCRMCQKAFGAYYAPLVSVRGAAFAWTRGAPRRFASSNLVQRGFCADCGTPLTYEAPDGMAIAAGAFDQPQRLPPTVQYGLEAKLAFVDALHALPGTRTDQDVAALEFLAQIVSHQHPDHDTDRWP				NA	NA	NA	NA	NA
BMS020_08965	747	rlmB_2	COG0566	23S rRNA (guanosine-2'-O-)-methyltransferase RlmB	ATGAGCAAGCAGTCCCAGTGGATCGTCGGCGTCAACGCCGTCGCCTCGTCGATCGAGAACGACGCCGACAACGTGCGCGAGGTGCTGGTCGAGGCGGGCAGCAAGAATCCGCGGCTGACCGAGATCGAGGAGAACGCGCGCCGCAAGGGCATCGATGTGCGCCGGGTCACCAGCCAGGCGCTGGATGGCGTGGGCGGCAGCGTGCGCCACCAGGGTGTGGCCGCGCGCTACGCGGCGGCGCGGATCTGGGCCGAAAACGAGCTGGAAGGCCTGGTGACGGCCGCCGAGGGCAAGGCGCTGGTGCTGGTGCTGGACGGCGTGCAGGACCCGCACAACCTCGGCGCCTGCCTGCGCAGCGCGGCTGCCGCCGGCGTCACCGCGGTGGTGATCCCGAAGGACAAGTCGGCCACGGTCAATGCCACCGTGCGCAAGACCTCGGCCGGCGCCGCCGACCGCATCCCGGTGGTGGCGGTGACCAACCTGGCGCGCTGCCTGCGCGACCTGCAGAAGCTCGGCGTGTGGATCTACGGCCTGGCCGGCGAGGCCGATGGTTCGCTGTATGGCGTGGACCTGCGCGGCAACGTCGCGCTGGTGCTGGGCGGTGAGGCCGATGGCCTGCGCCGGCTGACCCGCGAGCACTGCGATGGCCTGGTCAAGATCCCGATGCCGGGCGAGATCGAGAGCCTGAACGTGTCGGTCGCCGCCGGCATCACCCTGTTCGAGGCGGTGCGGCAGCGTCTGGGCTGA	MSKQSQWIVGVNAVASSIENDADNVREVLVEAGSKNPRLTEIEENARRKGIDVRRVTSQALDGVGGSVRHQGVAARYAAARIWAENELEGLVTAAEGKALVLVLDGVQDPHNLGACLRSAAAAGVTAVVIPKDKSATVNATVRKTSAGAADRIPVVAVTNLARCLRDLQKLGVWIYGLAGEADGSLYGVDLRGNVALVLGGEADGLRRLTREHCDGLVKIPMPGEIESLNVSVAAGITLFEAVRQRLG				NA	NA	NA	NA	NA
BMS020_08966	264			hypothetical protein	ATGGACGAGACCACCCAGCAGAACGCCGCGCTGGTCGAGGAAGCCACGGCCGCCGCGCGCTCGATGGAGGAGCAGGCCAACCAGCTGGCCGCCACCGTGGCGCTGTTCAAGACCTCGCAGTCCGCTACGCCGCTGCGCGCGGCGCCGAAACCGGCCGCTCCGCGCCCGGCGCCGGCGGCTGCCGCGCCTCGCCCGCAGCCCGCGCGCATGTCGCCCAGCGTGACCGCTCCGGCGGCACCCAACGACGACTGGCAGGAATTCTGA	MDETTQQNAALVEEATAAARSMEEQANQLAATVALFKTSQSATPLRAAPKPAAPRPAPAAAAPRPQPARMSPSVTAPAAPNDDWQEF	PGPT0015710_2248	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
BMS020_08967	2631			hypothetical protein	ATGAAGACTCTCTCCCGCCTTTCCATCGGCCTGCGCCTGTCACTGCTGGTCACCGCCTGCGTGGCGGTCGTGCTGCTGGTGTTGACCGTGCTGGTCTACCGCCAGTCGGCCAGCGCCTATGAAGCCAAGAGCCGCCAGGGGCTGTCCGCGGCCACTCACGTGATGCAGGACACCATCGCGCTGTACGACCGCGCGTTGACCGAGGACACCGAACGCCTGACCGGCGGCTTCGCCGCGCTGCTGCCGCCCGGCGCGGTCAGCCAGGACAGCAAGACCGTGCGCCTGGGCGACTTCGACGTGCCCAACCTGGCCTTCGGCGGCCGCACGCTGTCGTCCGACCATGCCGAGGTCGACCGCTTCACCCACGCCACCGCCGCGGTGGCCACGGTGTTCTCGCGCGTCGGCGACGATTTCGTGCGCCTGTCCACGTCGCTGCACAACGACAAGGATGCGCGGGTGATCGGCACCGCGCTCGACCACAAGCATCCGGCCTACGCGCTGGTGCTGGCGGGCAAGCCCTACACCGGCCCGGCCCGGCTGTTCGGCCATGACTACATGACCCATTACCGCCCGCTGACCGATGCCGACGGCAAGGTCGTGGCGATCCTGTTCGTCGGCGTCGACTACGGCGACGGCCTGGCCGCGCTGAAGGAGCGCATGCGCCAGCTGCGCGTCGGCAGCGACGGCTATTTCTTCGTCGTCGACGAGGCCGGCAACGACAACAAGGGCAAGCTGGTCGTGCATCCGCAGGCCGAAGGCCAGCCGGCTGCCAGCCTGGTCGCCGAGTCCGACCGCGCCAGCTTCCAGGCCCTGCTCGAAGGCCAGGACGGTGGCGGCGTGATCGCCGTGGCACCCAAGCCGGGCGAGGCACCGGTGGCGGCCACGGTCAGGGTCGAGCATTTCACCCCGTGGAAGTGGGCCCTGGTCGGGGTCGAGCCGCGCACCCAGCTGACCGCCACCCTGCATCACATGATGTGGGTGATGATCGGCCTGTCGGTGCTGGCGATCGCCCTGCTCGCCCTGCTGGTCACGCTGGCCGCGCGCCGCCTGGTCAGCGCGCCGCTGGCGCGCGCCGGCGAGGTGGCACGGGCGATCGCGCACGGCCGCCTCGACAACCCGATCGTGATCGCACGCCACGACGAAGCCGGCCAGCTGCTCGACAGCATGGGCACGATGCAGGCGCAGCTGCAGGCGGTGCTGGCCGAACAGCGCGAGATGGCTCGCCAGCACACCGCCGGCACCATCAGCTACCGCATGGACGAAGCACGCTTCCCCGGCGACTACGGCGCGATGGTGCGCGACAGCAATGCGCTGGTCGCCGACCACATCGCGGTCAAGATGCGCATCATCGGCCTGCTGGGCGAATACGCCATCGGCGACCTCAGCCGCGACATGGAACGCCTGCCGGGCGAGAAGGCGGTGATCACCGAAACCATGGATACCGCCAAGCGCAACCTGGGCGCGATCAATGCCGAGATCAAGCGCCTTGGAACCGCCGCCGCCAACGGCGACTTCTCCGCGCGCGGCGACGCCGGCGCGTTCCAGCACGACTTCCACGACATGGTCGACACGCTGAACCGGCTGATGCAGACCACCGGCAGCAACCTGGACCAGCTCTCGGTGCTGCTCAAGGCGATCGCCGAGGGCGACCTGACCGCGCGCATGGACGGGGATTTCCACGGCGTGTTCGCGCGCATGCGCGACGACGCCAACGCCACAGTGACCCAGTTGACCGACATCGTCGGCCGCATCCAGCACGCCTCCACCAGCATCAACACCGCTGCCGGCGAGATCGCCTCCGGCAACAACGACCTGTCGCGCCGCACCGAGCAGCAGGCCGCCAACCTGGAAGAAACCGCCGCCTCGATGGAGGAGCTCACCTCCACCGTCAAGCAGAACGCCGAAAGCGCGCGCCAGGCCAACCAGCTGGCGCAGGGCGCGGCCGGCGTGGCCCGCGATGGCGGCGACGTGGTCGGTCAGGTCGTGACGACGATGTCCGACATCGAGACCTCGTCGAAGAAGATCGCCGAGATCATCTCGGTCATCGACGGCATCGCCTTCCAGACCAACATCCTGGCGCTGAATGCCGCGGTGGAAGCGGCGCGCGCCGGCGAACAGGGCCGCGGCTTCGCGGTCGTGGCCAGCGAAGTGCGTACCCTCGCCCAGCGCTCGGCCAACGCGGCCAAGGAGATCAAGAGCCTGATCGACGATTCGGTCGAGCGCGTGGCCGATGGCTCGGCGCTGGTGCACAAGGCCGGCAGCACGATGAGCGAGATCGTCGCCAGCGTGCAGCGCGTCACCGACATCATGGCCGAGATCTCCGCCGCCTCGCAGGAACAGTCCTCCGGCATCGAGCAGGTCAACCAGACCGTGATGCAGATGGATGAGACCACCCAGCAGAACGCCGCACTGGTCGAGGAAGCCACCGCCGCCGCGCGGGCGATGGAAGAACAGGCCGGCGTGCTGAGCACCGCGGTGTCGGCGTTCCGCCTGGGCCAGCGCCCGGCGACGCCGCGTCCGCAGCCGACACCGGCCGTCGTCGCCACGGCAGCGCCCAAGGCGAGTACGCCGGCGCGGCCCGCGGCCCGCATCGAGACGGTCGCGCCGTCGGGGGACTGGGAAGAATTCTGA	MKTLSRLSIGLRLSLLVTACVAVVLLVLTVLVYRQSASAYEAKSRQGLSAATHVMQDTIALYDRALTEDTERLTGGFAALLPPGAVSQDSKTVRLGDFDVPNLAFGGRTLSSDHAEVDRFTHATAAVATVFSRVGDDFVRLSTSLHNDKDARVIGTALDHKHPAYALVLAGKPYTGPARLFGHDYMTHYRPLTDADGKVVAILFVGVDYGDGLAALKERMRQLRVGSDGYFFVVDEAGNDNKGKLVVHPQAEGQPAASLVAESDRASFQALLEGQDGGGVIAVAPKPGEAPVAATVRVEHFTPWKWALVGVEPRTQLTATLHHMMWVMIGLSVLAIALLALLVTLAARRLVSAPLARAGEVARAIAHGRLDNPIVIARHDEAGQLLDSMGTMQAQLQAVLAEQREMARQHTAGTISYRMDEARFPGDYGAMVRDSNALVADHIAVKMRIIGLLGEYAIGDLSRDMERLPGEKAVITETMDTAKRNLGAINAEIKRLGTAAANGDFSARGDAGAFQHDFHDMVDTLNRLMQTTGSNLDQLSVLLKAIAEGDLTARMDGDFHGVFARMRDDANATVTQLTDIVGRIQHASTSINTAAGEIASGNNDLSRRTEQQAANLEETAASMEELTSTVKQNAESARQANQLAQGAAGVARDGGDVVGQVVTTMSDIETSSKKIAEIISVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVASEVRTLAQRSANAAKEIKSLIDDSVERVADGSALVHKAGSTMSEIVASVQRVTDIMAEISAASQEQSSGIEQVNQTVMQMDETTQQNAALVEEATAAARAMEEQAGVLSTAVSAFRLGQRPATPRPQPTPAVVATAAPKASTPARPAARIETVAPSGDWEEF	PGPT0015710_441	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
BMS020_08968	552			hypothetical protein	ATGGAACGCAGCACCCGCGCCCCGTCCCCTGTCGTCATCGCAACCGTCGCCACCGCCTTCGTTCTGCTCCTGCTTGCCATGTGGACATTGATCACCCGGCCGCTGAGCCAGGCCGATGAGGTCCTGGGCGCGCTGCGGTCGCACTGGACACCCTCGGAGATCGCCCTGCGCGAAATGCGCGCGCAACTCGCCGAACTGCGCGCCTACGAGCTGGCGCAACTGCAACACGCCGACGACGCCGAGCGCAGCGCCGACTATGACCGCCGCATCGCCGGCAACCTCGCCGCCGTGCAGCGTGAACTGGCCCGCTTCGAAGCCACCGCCATCACGGTGGACAGCGCACAGCTGGGCAAGGTCAAGCAGCGCCTGCAGGCCTACCTGCAAGCACACCATGCCATTGCCGCGGCAGTGGATGCCGGCGATGTCGCCCGCGCCCGGGCGCTCTCCACCGAGGCCGCCCTGCCGGCGCGCCGGGCCCTGTTCGAGGACATCCTCGTGTTGACCGCCAGCACGCACGCTGCAAGCCCCAGCAACACCGTCGCCGGGCGCTGA	MERSTRAPSPVVIATVATAFVLLLLAMWTLITRPLSQADEVLGALRSHWTPSEIALREMRAQLAELRAYELAQLQHADDAERSADYDRRIAGNLAAVQRELARFEATAITVDSAQLGKVKQRLQAYLQAHHAIAAAVDAGDVARARALSTEAALPARRALFEDILVLTASTHAASPSNTVAGR				NA	NA	NA	NA	NA
BMS020_08969	2232			hypothetical protein	ATGAACTGGCTCAACAATCTCCGCATCAGCCACAAGCTGGCATTGGCGTTTGCCGCGGTCACCGCGCTGACCATGGTGCTTGGCGCCTTCACCTTCACCCGCACTACGCGCTCGATGACCGAGTTCAACGAGCTGCAGACGCAGTGGGTGCCTGCGGCCCAGTCCCTGGCCGAAATCCGCGCCCAGCTCGGCGAGTTCCGTACCTACGAACTGGCGCAGATCGCCCGCGCCAGCGATCCGGAGGCCGTCGCCGATTATTTCAAGCGCATGCAGAAGGTGCGCGACGAAGTGGCGCGCAACCAGGTCATCATCGAGGGAACGCTCCGCGATCCGCACGAGCAGAAGATGTACGACGGCATCAAGCGCAAGCTGGCCGACTACCTCGCCGCCAACCAGGCGCTCGGCGATGCGATCCGTGCCGGCGATGTGGTCAAGGCTGGAACGATCTCCGACGAGCAGTCGCGGCCGCTGCGCCGTGACCTGTTCAAGCAGATCGTCGCCTTGACCGAGGATTCGCTCGCGCGGCTGGACAAACAGATGGTGGATACGCACGACCAGCTGACCCGGACCAAGCTGCTGATCCTGGCGCTGATGGCCACGGTACTCACGCTGGCGGCGGCGATCGGCGTCCTGATCGCGCGCGGTATCGGCAACCAGTTGAAGACTGCCACCGCGCTGTCGCGCGCGATCGCCGACGGCCGCCTCGACACGCCTGTGCCCTCCCGCAGCCGCGATGAGATCGGCCTGCTGGTCGAGGACATGCTGGCGATGCGGGTGCGCATCCGCGAGGTGATCGCGGCGCAGAACGAAATGGGACGCCAGCATGACGAGGGCTGGATCAGCTACCGCATCGACGACAGCGGCTTCCCCGGTGACTACGGCGCGATGGTGCGCGGCAGCAACGCGCTGGTGGCCAACCATATCGGGGTGAAGATGCGGCTGGTCGAGATGACCCGGCGCTTCGCGGTTGGTGACCTGTCCCAGGCGATGGAGGCGCTGCCGAACGAGAAGGCGGTGATCAGCGATGCGGTCAACGCCGTCCGCGACAACCTGCTGGCGATCAACGGCGAGATCAAGCGCCTGGCCCTGGCCGCGGCCGATGGCGACTTCTCCGTGCGCGGCGATGTCGCGCGCTTCGACCACGACTTCGCCGAGATGGTCACCGGCCTGAGCACGATGATGCAGGTTGGCGAGGAAAACCTGGACAAGCTCTCCACCCTGCTCCGCGCAATCGCCGAAGGCGACCTGACCGCACGCATGGATGGGCAGTTCCGCGGTGTGTTCGCGCGCATGCGCGACGATGCCAATGCCACCGTGGCGCAGCTGACCGATATCGTCGGCCGCATCCAGCACGCCTCCGGCAGCATCAACACCGCTGCCAGCGAGATCGCCGCGGGCAACAGCGACCTGGCCCGTCGCACCGAGCAGCAGGCCGCCAACCTGGAAGAGACTGCTGCCTCGATGGAGGAGCTCACCTCCACCGTCAAGCAGAACGCCGAAAGCGCGCGCCAGGCCAACCAGCTGGCGCAGGGCGCGGCCGGCGTGGCCCGCGATGGTGGCGAGGTGGTCGGCCAGGTCGTGGCGACGATGTCCGACATCGAGACCTCGTCGAAGAAGATCGCCGAGATCATCTCGGTGATCGACGGCATCGCCTTCCAGACCAACATCCTGGCGCTGAATGCCGCGGTCGAAGCGGCGCGCGCCGGCGAACAGGGCCGCGGCTTCGCGGTGGTCGCTTCGGAAGTGCGCACCCTGGCCCAGCGGTCGGCCAGTGCCGCCAAGGAGATCAAGAGCCTGATCGACGATTCGGTCGAGCGTGTCGCCGACGGCTCGGCGTTGGTGCACAAGGCCGGCGACACGATAAGCGAGGTGGTGGCCAGCGTGCAGCGGGTCACCAACATCATGGCCGAGATCGCCGCCGCGTCGCAGGAACAGAGCAACGGCATCGAGCAGGTCAACCACGCCATCACCCAGATGGACGAGACCACCCAGCAGAACGCCGCGCTGGTCGAAGAAGCCACCGCCGCCGCGCGCGCGATGGAGGAGCAGGCCGGGCAGCTGGCGACCGCCGTGGCCGCCTTCCGCCTGCAGCGCGGCAGCGCTCCGGCCGGAGCCGCGGCCGTCCCCGTGCCCAAAGCGAGCGCCGCGCCGGCGCCGGCCAAACGCATCGCGAAGGCGGCGCTCGCGCCCATCGATGCAATGCCTGCTGGCGGCGAGTGGGAGACGTTCTAG	MNWLNNLRISHKLALAFAAVTALTMVLGAFTFTRTTRSMTEFNELQTQWVPAAQSLAEIRAQLGEFRTYELAQIARASDPEAVADYFKRMQKVRDEVARNQVIIEGTLRDPHEQKMYDGIKRKLADYLAANQALGDAIRAGDVVKAGTISDEQSRPLRRDLFKQIVALTEDSLARLDKQMVDTHDQLTRTKLLILALMATVLTLAAAIGVLIARGIGNQLKTATALSRAIADGRLDTPVPSRSRDEIGLLVEDMLAMRVRIREVIAAQNEMGRQHDEGWISYRIDDSGFPGDYGAMVRGSNALVANHIGVKMRLVEMTRRFAVGDLSQAMEALPNEKAVISDAVNAVRDNLLAINGEIKRLALAAADGDFSVRGDVARFDHDFAEMVTGLSTMMQVGEENLDKLSTLLRAIAEGDLTARMDGQFRGVFARMRDDANATVAQLTDIVGRIQHASGSINTAASEIAAGNSDLARRTEQQAANLEETAASMEELTSTVKQNAESARQANQLAQGAAGVARDGGEVVGQVVATMSDIETSSKKIAEIISVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVASEVRTLAQRSASAAKEIKSLIDDSVERVADGSALVHKAGDTISEVVASVQRVTNIMAEIAAASQEQSNGIEQVNHAITQMDETTQQNAALVEEATAAARAMEEQAGQLATAVAAFRLQRGSAPAGAAAVPVPKASAAPAPAKRIAKAALAPIDAMPAGGEWETF	PGPT0015710_1933	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
BMS020_08970	999			hypothetical protein	ATGCGCGGCGACCAGCGCGTTGGTGCCTTCGACCATCGTGCGGAACTCGCCCGGGAAGCCTTCGGCCGGGATCCGGTAGCTGATCATGCCCGCGGTGTGCTGCTCGCTCATGTCCTTCTGCGCCTGCAGGACGTGGCGCAGCTGGGTCTGCATCTCCGCGGTGGCGCGCATCATCTGGCCGATCTCGTCGCGGCCGGGGTGGCCCATGTCGACATGCAGGTCGCCGTGGGCGACGCCGCGGATCGCAGCCAGCGCACGCGACAGCGGCACCAGCACCGAGTTGCCGATCAGCCAGCCAAGACCCAGGTTGACCAGGACCAGCAGGCCACCGGCCACGGTCATCATCGCGGTGAACTTGATCGCCTGGGCCTGGGTGTCGTCGAGGTAGACGCCGGTGCCGACCACCCAGCCCCACGGTTCGTACAGCGCGGCATAGGAGGTCTTGTTGACCGGCTTCTTCTCGCCGGGCTTGGCCCAGCTGTAGTCCACGAAGCCGCCACCGGCACGCGCCGCGCGCACGAATTCGGGGAAGATGCGCTTGCCGTCCGGGCTGAGCACATCGTGGAGCGGCTTGCCGACCAGGTCCTTGCGGAACGGATGCATCAGCATCGTCGGCGCTTCGTCGGTGACGTAGAAGTAGTCCACGCCCTTGTTGGCCTGCAGTTCGCTCACCGTCGCCAGTGCCAACGCCTTGGCCTGCGCCTCGTCCAGCTCGCCGCTGCGCGCGCGCGCGGCATAGCTGTCGATCACCGCCAGCGCCATCTGGGTCTGCGCGCGCAGCCCGTCCTGGCGGGTATGAGTGAGGTCCAGGAACTGGATGCGCGCGGCGAGCACCGCCAGCAGCACGATGCCGACCGCGACCACCAGGGTCTGGGTCAGGAACTTGCGCTTCAGGGGCATGTTCGCCATGGCGTTGGCCAGGGCATGCTTCAGCTTCGTCATCGCGTCAATGAGGTCTTTCTCCGGGATACCGGGTTTAGCGGCCAGTTAACGGTGTGA	MRGDQRVGAFDHRAELAREAFGRDPVADHARGVLLAHVLLRLQDVAQLGLHLRGGAHHLADLVAAGVAHVDMQVAVGDAADRSQRTRQRHQHRVADQPAKTQVDQDQQATGHGHHRGELDRLGLGVVEVDAGADHPAPRFVQRGIGGLVDRLLLAGLGPAVVHEAATGTRRAHEFGEDALAVRAEHIVERLADQVLAERMHQHRRRFVGDVEVVHALVGLQFAHRRQCQRLGLRLVQLAAARARGIAVDHRQRHLGLRAQPVLAGMSEVQELDARGEHRQQHDADRDHQGLGQELALQGHVRHGVGQGMLQLRHRVNEVFLRDTGFSGQLTV				NA	NA	NA	NA	NA
BMS020_08976	210			hypothetical protein	ATGGATGCGGCAGCCGAGCAGATGGGGTTCCAGGCCACGCCGGGTGGTTTCGACTTCGGGAAGTTCGGGCATGGCCAAAGGATGTGGCCGTGGCCGGCGCGAGGCAAGGCGGGCGCGGTGTGGTGCGTTGCCTTCGGGGCGTGTGTTGGAAGGCGGGCGCTTTTTCTTGCGCGCAAAAACAAACCCCCAGCCGATTGGCTGGGGGTTTGA	MDAAAEQMGFQATPGGFDFGKFGHGQRMWPWPARGKAGAVWCVAFGACVGRRALFLARKNKPPADWLGV				NA	NA	NA	NA	NA
BMS020_08977	1614			hypothetical protein	GTGGCCGATGCCGATCATCATGTGCATGCGGCTGACCCAGTGCAGGCCGCGCGCGGCGACGATCTTGCCGTGCTGCAGGTTGCCCTGGCACCAGCGCCGGTCGCGGATCATCAGGTCGGTCAGGGTCGGCGGGCCTTCCTCGTAGCTGCCCGACAGGTAGGGCACCATGTGCGTGGCCCAGCCGCCGCGCCGCATCAGCGCCGCCTCGACGAAATCGTGGCTGAGCACGTGGCCGCCGAACGGACGCCGCCCCGGCAGCGACGGCAGGCCGGCGTTCTCGGCGAAGGCCTGGGTGCGGATGATCGCGTTGTGGCCCCAGTAGTTGCTTTCCGCGCCGTGCCACCAGGCCACGCCGTACGCCACCACCGGTCCGTACACGCGGCCGCCGAACTGCTGCATGCGCGCGAACAAGGTGTGGCCGTTGACCACCTCCGGCAGGGTCTGGATCAGGCCCACGTCCGGGTTGCGCTCCATGCCGGCGACCAGGCGCACGATGGTGTCGCCGGTCATCAGGCTGTCGGCGTCGAGGATCAGCATCTGCGGGTAGGCACCGCCGAAGCGGCGCACCCAGTCGGCGATATTGCCGGCCTTGCGCCCGCTGTTGTCGGCTCGGCGGCGGTAGAAGATCCGGCCGTGGCCGCCGACCGCGTCGCACAGCTCGGTGTAGACCAGCTCCTCGGCGCGGCCGATCGGCGCCTTGGTGGTGTCGCTGAGCACGTAGAAATCGAACTGTGCCAGCTGGCCGGTCTCGGCCACCGATTCGTAGATCGCCTGCAACCCGGCCAGCAGCCGGCGCGGGTCTTCGTTGTAGGTCGGCATCAGCAGCGCGGTGCGGCTGTGGATGCGCGGCAGCGGCGCGTCCGGATCGATGCCGAGCTTGCGGCCGGTGCCGGTAACCACGCTGAAGAAGCCGGCCAGCGCGCCCAGGAACGACATCGCGATCCAGGCGAACAGCGGCACGAACAGCGCCAGCAGGCACACCTCCAGCACGTTGAGGCCATCGCCCCACATCACGTTGAGCATCATCCAGGTCGCCACCACGGTCATCGCCGCGGTGCCACCGATCAGGTACAGCCGGCGCAGCGCCATGCCCGGCGGCGAGGTGCGCTGGTGGCGCTGGCGCAGCTCACCGTCCTGCAGCGACTGCTCCGGCATCGCCAGCGGCGCCTCGGCCGGCAACACCGCCACGCCGGCGTCGCGCCCCGGCGCCTGGGCCACGGACGCGCTCTGCATCGTCTCCATCAGCAGGCTCCTGCAGACGTGGCCGCCCGGCCACACCACGGCAACACGGCGGCACACGCCACCCCGGAGGCCGCCCCGGCATGGCGGTATTGGTCACGACCTGCTTGCTGCACACATACTCCTCGACAACGCCCGCTGGCGCTGCCAATGCTAGACGAGCCTTCGTTAAGACGGGCGCGAAGGCTTCCCCGCGGGCGTTCTCCCCGGCATTGCGGCGGGGGAGACTACGCCTCCATCGCCGAACGCCCGCCCAACATCGCCGATGGTGTCACTGCCCGGCAAAGGGCAGCAATGGCCCATGCAGCCACAGCCAGCGCGCCATCCACGCGGTGGCCAGGCCGATCAGCGCGGTCAGCGGCACGCCGACCTTGA	MADADHHVHAADPVQAARGDDLAVLQVALAPAPVADHQVGQGRRAFLVAARQVGHHVRGPAAAPHQRRLDEIVAEHVAAERTPPRQRRQAGVLGEGLGADDRVVAPVVAFRAVPPGHAVRHHRSVHAAAELLHAREQGVAVDHLRQGLDQAHVRVALHAGDQAHDGVAGHQAVGVEDQHLRVGTAEAAHPVGDIAGLAPAVVGSAAVEDPAVAADRVAQLGVDQLLGAADRRLGGVAEHVEIELCQLAGLGHRFVDRLQPGQQPARVFVVGRHQQRGAAVDARQRRVRIDAELAAGAGNHAEEAGQRAQERHRDPGEQRHEQRQQAHLQHVEAIAPHHVEHHPGRHHGHRRGATDQVQPAQRHARRRGALVALAQLTVLQRLLRHRQRRLGRQHRHAGVAPRRLGHGRALHRLHQQAPADVAARPHHGNTAAHATPEAAPAWRYWSRPACCTHTPRQRPLALPMLDEPSLRRARRLPRGRSPRHCGGGDYASIAERPPNIADGVTARQRAAMAHAATASAPSTRWPGRSARSAARRP				NA	NA	NA	NA	NA
BMS020_08978	1833			hypothetical protein	ATGGACCAGCAACAGATTCTTTTCGTGGTCATCCTCGTGGTGACGCTGCTGCTGTTCGTCAGCGAGAAGCTGCGTGTCGACCTGGTGGCGATGCTGGCTACCTTGGCATTGACCCTGACCGGGATCCTGACCCCGGCGCAGGCGCTGTCGGGCTTTTCCTCCGAGCCGGCGATCATCGTCGCGGCAGTGTTCGTGCTGTCGGCCGGGTTGTCGGTCACCGGCATCACCGACCGCATCGGCGCGGCGATCGGGCGTGCGGCAGGCGGACGCGAGTGGCGGGCGATCGCGGTGACGATGCCGGCCACCGCGGCCATGGCAGCGTTCTCGCACCACCTGATGGTCACCGCGATGATGCTGCCGGTGATGATGCGGCTGGCGCGCGAGCAGGACATGGCGGCCTCGCGGCTGCTGATGCCGATGTCGTTGGCGGCCTCGCTGGGCACGACGCTGACCTTGTTCAGCGCACCGGCATTCCTGCTCGCCAACGATCTGCTCGATCGCGCCGGGCAGGGGCGACTGGACATCTTTGCGATCACCCCGATCGGGGCGGTGCTGGTGCTGGTCGGCATGCTGTACATGCTGGCCGGGCGCTGGCTGCTGCCGCGCCACCAGGGCGAGGGCGACGGCAGCGATGGGGCCGGCGAGTACCTCAAGCTCGACCGCTACTACACCGAGCTGCTGATCGAGGAGGACTCGCCGTGGGTCGGCAAGCCGTTGGCCGAATTCGAGGCGGCGTTCGTGCAGCGCCTGGGTGTGGTCGACTGGCTGCGCGGCGGCATGCGCCGGCGACGCAGCAGCAGCGCCGGCATGCTCCGCGCCGGCGACGTGCTGCTGGTGCGCGCCTCGCCGGACGAGATCGCCTCGATCAAGGACGAGCCCGGGCTGAGCCTGCACGCGGTGGCCAAGTACGGCGACAAGCCGTTGGACGAGCGTCGCAACGAATCGCTCGGCGAGGAGCAGCTGGTACAGGCGGTGGTCGCGCCGCATTCGGAGTTCGTCGGCCGCAGCATCGCCGGGATCGATTTCCTGCACACGCTCGGCGTGGTGGTGGTCGGGCTGTGGCGCAAGGAGGGCTGGCTGCACGGCGAGCTGTCGGAAATGCGCCTGGAAGAGGGCGACCTGCTGGTGCTGTGGGGCGCCCAGCAGGACCTGCGCCAGCTGGCCGAGCACCGTGGGTTCCTGATGCTGATGCCGTTCGATGCGCAGCGCCAGCGCCGCCGTCGTGCGCCGCTGGCGGCGCTGATCATGGCTGCGTCGGTGGTCGCCGCAGCGACCGAATGGCTGCCGCCGCAGATCGCCTTCCTATGCGGCGCGTTGGCGATGGTGCTGACGCGCTGCGTGGATATCGAACGCGCCTACGAATCGATCGATGTGCGGATCTTCGTGATGATCGCGGGGGTGATCCCGCTGGGGATCGCGATGGACCGGACCGGCACCGCGCGGCTGCTGGCCGACCTGCTGCTGGCGCATGCGCACGGCCTGTCGCCGCTGGCCTTGTTGGCGCTGATGTTCGCCGCGGCGGCGCTGCTGACCCAGGTGCTGTCGGACGCGGCGACCACGGTGCTGCTGACGCCGATCGCGCTGGCGGTGGCGCAGGGGCTGGGCCTGCCGCCGGTGCCGTTCGTGATCTGCACCGCGATGGGGGCGGTGGCCTCGTTCCTGACCCCGATCGGCCACCATGGCAACCTGTTGATCCTCAACCCCGGCCAGTACCGGTTCGCCGATTTCCTCAAGGTCGGCGTGCCGCTGACCGCGCTGATCGGCCTGGCCACCGCGTGGATGGCGCGCTGGCTGTGGCTGCATGGGCCATTGCTGCCCTTTGCCGGGCAGTGA	MDQQQILFVVILVVTLLLFVSEKLRVDLVAMLATLALTLTGILTPAQALSGFSSEPAIIVAAVFVLSAGLSVTGITDRIGAAIGRAAGGREWRAIAVTMPATAAMAAFSHHLMVTAMMLPVMMRLAREQDMAASRLLMPMSLAASLGTTLTLFSAPAFLLANDLLDRAGQGRLDIFAITPIGAVLVLVGMLYMLAGRWLLPRHQGEGDGSDGAGEYLKLDRYYTELLIEEDSPWVGKPLAEFEAAFVQRLGVVDWLRGGMRRRRSSSAGMLRAGDVLLVRASPDEIASIKDEPGLSLHAVAKYGDKPLDERRNESLGEEQLVQAVVAPHSEFVGRSIAGIDFLHTLGVVVVGLWRKEGWLHGELSEMRLEEGDLLVLWGAQQDLRQLAEHRGFLMLMPFDAQRQRRRRAPLAALIMAASVVAAATEWLPPQIAFLCGALAMVLTRCVDIERAYESIDVRIFVMIAGVIPLGIAMDRTGTARLLADLLLAHAHGLSPLALLALMFAAAALLTQVLSDAATTVLLTPIALAVAQGLGLPPVPFVICTAMGAVASFLTPIGHHGNLLILNPGQYRFADFLKVGVPLTALIGLATAWMARWLWLHGPLLPFAGQ				NA	NA	NA	NA	NA
BMS020_08979	387			hypothetical protein	GTGGCCGCGCTGGCGGCCTGCGTCGAACACGCTGGTCTGGCCTTCGAACTGCTGTACCGCGCCGTAGACCAGCGGCTTGCGCTGGGCGATGCAGGCGTCGTTGAGCAGGTAGCGGGTGGCGAAGTTGTCGGCACCGTCGATGACCACGTCGACGCCATCGAGCAATGCGGCGATGTTGCCCGCGTCCACGCGCGCGGTCACCGCTTCCAGTGCGAGACGTGGATTGAGTGCCTGCAGCCTGTGCGCGGCGGAGACGACCTTGGGCTGGCCGATCGCATCATCGGTATGCAGGATCTGCCGCTGCAGGTTGCTGCGCTCCACCGCGTCGTCGTCGACCAGACGCAGATGGCCCAGGCCGGCTGCGGCAAGGTAGAACGCCGCCGGTGA	MAALAACVEHAGLAFELLYRAVDQRLALGDAGVVEQVAGGEVVGTVDDHVDAIEQCGDVARVHARGHRFQCETWIECLQPVRGGDDLGLADRIIGMQDLPLQVAALHRVVVDQTQMAQAGCGKVERRR				NA	NA	NA	NA	NA
BMS020_08980	402			hypothetical protein	ATGACGATGCTGCGCGCGATCCACCATGTGGCGATCATCGCGTCGGACTACGCGGTGTCCCGGCGCTTCTACCACGAGGTGCTCGGCCTGGCGGTGGTGAACGAGGCCTATCGTGCCGCGCGCGACTCCTGGAAGCTGGATCTGGCGTTGCCGGACGGCGGTCAGATCGAACTGTTCTCGTTCCCCGCGCCACCACCGCGCCCCAGCCACCCCGAAGCACGCGGCCTGCGCCACCTGGCCTTCCGCGTCGACGACCTCGACGCCGCGATCGCCCACCTGCACGCCCACGACGTGGCCACCGAACCGGTGCGCGTCGACGAATACACCGGCCAGCGCTTCACCTTCTTCGCCGATCCCGATGACTTGCCGCTGGAGTTGTACGAGGCACCTGCGGACGCGTAA	MTMLRAIHHVAIIASDYAVSRRFYHEVLGLAVVNEAYRAARDSWKLDLALPDGGQIELFSFPAPPPRPSHPEARGLRHLAFRVDDLDAAIAHLHAHDVATEPVRVDEYTGQRFTFFADPDDLPLELYEAPADA				NA	NA	NA	NA	NA
BMS020_08981	1944			hypothetical protein	ATGCCGTCCCGCCTTCCCCGCCTGCTGCCATTGGCCATCGCCGCCGTCCTGAGCCTGTCGCTCGTACCGCCGGCCGATGCAGCGCGGAAGAAGAACGCCAAGCCGCATACCACGCAGACCCGCAGCAAGGGCGGCAAGGCGCGCGCCAAGCCGGCGGCGCGACCGGCACCGGTGAAGCAGGACAAGGCCACCCAGCTCAACGCGCTGTACGAGCAGTACTGGGAAGCATCGCTGAAGCTCAATCCGCTGCAGGCCACCTTCCAGGGTGACATGCGCTACAACGACCAGTTGCCGAACTTCCTGTCGGCGGCGTTCCGCCAGCAGTCGCACGACTTCACCGTCGAATGGCTCGGCAAGGTCGAGGCGATCGGTCCGGAAGGCCTCGGCGGGCAGGACCTGCTCAGCTACCAGATCTTCGTGCGCGACGCGCGCAACGCGCTCGATGCCGAGCGCTACCGGAGCTGGATGCTGCCGATCAACCAGTACTACAACATCGCCAGCATCGCGGTGATGCTCGGCTCGGGCACCGGCGCGCAGCCGTTCAACACGCTCAAGGACTACGACGACTGGTCGCGGCGTTCGCTCGGCATCCCCGACCTGTTCGACCAGGCCATCGCCAACATGCGCGAAGGCATCAAGGCCGGCGTGGTGCAGCCCAAGGCGCTGATGGAGAAGGTGCTGCCGCAGCTCGACGCGATCATCCGCCCGACCGCCGAGGAAAGCCTGTTCTGGACGCCGGTGCGCAACATGCCGGCCGATTTCAGCCAGGCCGACCGCGAGCGCATCAGTGCCGAGTACAAGCGCGCGATCGAGTACCGCATCATGCCGGCGTACCGCGCGCTGCGCGGCTTCATCGCCACCGAATACCTGCCGGCCTGCCGCGACAGCGACGGGCGCTCGGCGCTGCCGGACGGCGCGGCATGGTACGCCTTCGACGTGCGCCAGAGCACCACCAGCCAGCTCAGCCCGGAGCAGGTGCATGCCACCGGCCTGGCCGAGGTCGCGCGCATCCAGGACGCGATCAAGGATGCGATGAAGCAGGCGCGCGCACGCGGATCGCTGCAGAAGTTCTACAAGACCATGCAGAACGACAAGCGCTTCGCCTACCGCGACGGCAACGAACTGCTGGCCGCGTACCGCGACGTGCAGTCGCGGGTACAGGCGCGGATGCCGGCGCTGTTCTCGCTGGTGCCCAAGGCCGCGTTCGAGATCAAGCCGGTCGAGCCGTATCGCGCGCAGTCCGCAGCGTCGGCCTCCTACCTGCCGCCCAGCGGCGACGGCACCCGCCCCGGCACCCTGTACGTCAACACCAGCGACCTGGCCAAGCGCCGCAGCTGGGAGGTACCGGACCTGTTCCTGCATGAAGGCATGCCCGGCCACCACCTGCAGCTGGGGCTGCAGCAGGAACTCAAGGACCTGCCGCGCTTCCGCCGCTTCGGCGGCGAGACCGCCTTCGTCGAAGGCTGGGGGCTGTACAGCGAATCGCTGGGAAGCGAGCTCGGCGTCTACGACGATCCGTATGCGCGCTTCGGCTACCTGCAGAACGAATTGCTGCGCGCGGTGCGCATGGTCATCGACAGTGGCGTCAACGCCAAGGGCTGGAGCCGCGCACAGGCGGTCGACTACATCCTCGACAACACCGCGCTGGCGCGCGAGGACGCCGAGGCCGAGGTCGAGCGCGCGATGGCGCTGCCCGGCCAGGCGCTGGCCTACAAGGTCGGCGAGATGACCATCCAGCAGCTGCGCGAGCAGGCCCGCAGCGCGCTCGGCACCGCGTTCGATCCGCGTGCGTTCCATGCCGAGATCCTGAAGGACGGCTCGGTGCCGCTGGACATCCTGCAGCAGAAGGTGCAGCAGTGGATCGCCGCGCAGCAGCCGGCCGGTCCGGCTGCGCCGGCCACGGCGCCAGCGACGCCAACGCCAACGCCAACGCCAACGCCATGA	MPSRLPRLLPLAIAAVLSLSLVPPADAARKKNAKPHTTQTRSKGGKARAKPAARPAPVKQDKATQLNALYEQYWEASLKLNPLQATFQGDMRYNDQLPNFLSAAFRQQSHDFTVEWLGKVEAIGPEGLGGQDLLSYQIFVRDARNALDAERYRSWMLPINQYYNIASIAVMLGSGTGAQPFNTLKDYDDWSRRSLGIPDLFDQAIANMREGIKAGVVQPKALMEKVLPQLDAIIRPTAEESLFWTPVRNMPADFSQADRERISAEYKRAIEYRIMPAYRALRGFIATEYLPACRDSDGRSALPDGAAWYAFDVRQSTTSQLSPEQVHATGLAEVARIQDAIKDAMKQARARGSLQKFYKTMQNDKRFAYRDGNELLAAYRDVQSRVQARMPALFSLVPKAAFEIKPVEPYRAQSAASASYLPPSGDGTRPGTLYVNTSDLAKRRSWEVPDLFLHEGMPGHHLQLGLQQELKDLPRFRRFGGETAFVEGWGLYSESLGSELGVYDDPYARFGYLQNELLRAVRMVIDSGVNAKGWSRAQAVDYILDNTALAREDAEAEVERAMALPGQALAYKVGEMTIQQLREQARSALGTAFDPRAFHAEILKDGSVPLDILQQKVQQWIAAQQPAGPAAPATAPATPTPTPTPTP				NA	NA	NA	NA	NA
BMS020_08982	777			queuosine precursor transporter	ATGACGGCGCCCCGGACGCTCGACGACCGCGCCGTCCGCCTGTTCATCGCGCTTGCGGCGTTCTTCTGCGCCAACGCGGTGCTGGCCGAGTTCATCGGCGTCAAGATCTTCGCGCTCGAAGACACCCTCGGCATCGCGCCGCTGAACTGGGACCTGTTCGGCCAGAGCGGCTCGCTCAGCTTCACCGCCGGCACCCTGCTGTGGCCGGTCGTGTTCATCATGACCGACACCATCAACGAGTTCTTCGGCAGCCGCGGCGTGCGCTTCATCTCATGGGTGGCGGTGGCGTTGATCGGCTACGGGTTCGCGTTCGCATTCGCCGCGATCCACCTGGCACCGGCCGCGTGGTGGGTACAGGCCGCGCAGTCCCAGGGCGTCCCGGACTACCAGGCCGCGTTCGCGGCGGTGTTCGGCCAGGGCATGTGGACCATCGCCGGCTCGCTGGTGGCGTTTCTGCTCGGACAGCTGATCGACGTGGCGGTGTTCCATCGCATCCGCCGCGCCACCGGCGAGAGGCACGTGTGGCTGCGCGCCACCGGATCGACCGCGGTCTCGCAGCTGGTGGACAGCTTCGTGGTGATCTGGATCGCCTTCGTGATCGGCCCGCAACACTGGCCGCTGTCGTTGTTCCTGGCGGTGAGCACGGTCAACTACGTCTACAAGATGGCGTTCGCGGTGTTGCTGATCCCGCTGTTGTATCTGGTGCGCTGCGGCATCAGCGCCTACCTGGGCCAGGCGCGCGCGCAGCAGCTGCGCGAAGAAGCCGCCGCCGACTGA	MTAPRTLDDRAVRLFIALAAFFCANAVLAEFIGVKIFALEDTLGIAPLNWDLFGQSGSLSFTAGTLLWPVVFIMTDTINEFFGSRGVRFISWVAVALIGYGFAFAFAAIHLAPAAWWVQAAQSQGVPDYQAAFAAVFGQGMWTIAGSLVAFLLGQLIDVAVFHRIRRATGERHVWLRATGSTAVSQLVDSFVVIWIAFVIGPQHWPLSLFLAVSTVNYVYKMAFAVLLIPLLYLVRCGISAYLGQARAQQLREEAAAD				NA	NA	NA	NA	NA
BMS020_08983	675			hypothetical protein	ATGTCGCCTGAAGCCGTCGCCTCCCACCGCCCTTCCCTGCAGCGCATCTTCCTGACCGGCCTGCTCACCCTGTTGCCGCTGTGGCTCACCTGGGTGGTGGTGAAGTTCGTGTTCTCGCTGCTCTCGGGCATCAGCGCCCCCTGGGTCACGCCGCTGTCGGAAAACATCGCCGCCTCGTTCCCGGGCTACCTGGACTGGGTGCAGGCGGTGTGGGTGCAGAACACCATCGCGCTGCTGGCCACCGTGCTGGTGATCCTGTTCGTCGGCGTGCTCAGCCGCCGTGTGGTCGGCCAACGCCTGCTGCGCTGGTTCGAGGCGGTGATGAAGCGCATCCCGCTGGCCAGCATCGTCTACGACAGCGCGCGCAAGCTGCTGGACATCCTGCAGACCCAGCCCGGCAGCACCCAGCGCGTGGTACTGATCGACTTCCCGCACCGCGACATGAAGTCGATCGGCCTGGTCACCCGCGTCATCAAGGAACAGGGCAGCGGCCGCGAGCTGGCCGCGGTGTACGTGCCGACCACGCCGAACCCGACCTCCGGCTACCTGGAGATCGTGCCGGTGGAACTGCTGACCCCGACCGACTGGAGCGTGGACCAGGCGATGAGCTTCATCATCTCCGGCGGCGCGGTGGCGCCGGACAGCGTGCCGTTCACCCGCACCGCGGACCGCTGA	MSPEAVASHRPSLQRIFLTGLLTLLPLWLTWVVVKFVFSLLSGISAPWVTPLSENIAASFPGYLDWVQAVWVQNTIALLATVLVILFVGVLSRRVVGQRLLRWFEAVMKRIPLASIVYDSARKLLDILQTQPGSTQRVVLIDFPHRDMKSIGLVTRVIKEQGSGRELAAVYVPTTPNPTSGYLEIVPVELLTPTDWSVDQAMSFIISGGAVAPDSVPFTRTADR				NA	NA	NA	NA	NA
BMS020_08984	363			hypothetical protein	ATGACCGACATCGATGCCCAACTGCGGAAGTTCCAGAAGGAGCTGAGCGCCGGGACCGTGTCGCTGGCGCTGCTGGCGGTGCTGGCGCGCGCCGAGGAGCCGCTGTACGGCTACCTGATCGCCAAGCAGCTGGAGCGGCTGGACGGCGTGCTCAGCGGCAAGCAGAGCGCGCTGTATCCGGTGCTGCGCAACCTGGAAGGCGCCGGCCTGCTCGACAGCCATGTCGAGCCCTCGGCATCGGGGCCGCCGCGACGCTACTACCGCATCACCGAAACCGGGCGCGAATGCCTGCGGCACTGGACCGCAGCCTGGCGCGCCACCCGCGATTCCGTCGATTCAGTGTTGGAGGGGACCACCGAATGA	MTDIDAQLRKFQKELSAGTVSLALLAVLARAEEPLYGYLIAKQLERLDGVLSGKQSALYPVLRNLEGAGLLDSHVEPSASGPPRRYYRITETGRECLRHWTAAWRATRDSVDSVLEGTTE				NA	NA	NA	NA	NA
BMS020_08985	387			hypothetical protein	ATGAGCGAGATCGTCGCCAGCGTGCAGCGCGTCACCGACATCATGGCCGAGATCTCCGCCGCCTCGCAGGAACAGTCCTCCGGCATCGAACAGGTCAACCAGACCGTCACCCAGATGGACGAGGCCACCCAGCAGAACGCCGCGCTGGTCGAAGAGGCTACCGCTGCGGCACGCGCGATGGAGGAGCAGGCCGGCCACCTCAAGGACGCCGTGGCGGTATTCAGGCTGCAGGCGGATGGAACCAGCCCGCGGACTCCACGGCCACTGGCTCCCCGTCCTGCCTGCAGCGTCGCGGCGACGTCGCAGCGTTCCACGCCCGCAAGCGTCGTGGCGACCTCCTTCCGCGCGCCGCCGGCCGCCTCCACGGAGGAATGGTCGGAGTTCTGA	MSEIVASVQRVTDIMAEISAASQEQSSGIEQVNQTVTQMDEATQQNAALVEEATAAARAMEEQAGHLKDAVAVFRLQADGTSPRTPRPLAPRPACSVAATSQRSTPASVVATSFRAPPAASTEEWSEF	PGPT0015710_2159	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
BMS020_08986	759			hypothetical protein	ATGTACGCAACAGCGACGCGTTATGCACTGATGGCCTGCCTGATCCCGTGCTGCGCACTGGCCGAAGAGCCGATCGCCACCGATCGACCCGACTTCGTCGAGTCCAGCGATACCGTTGGCCCTGGCCGTTGGCAGATCGAAACCAGCGTTGCATGGGACTCGCTGGATGGCGTACACACCTACAGCACGCCGACGCTGTTCCGCCGCGGTCTGGGTGAACGCTGGGAGCTGCGGCTGGAGACCGATGGGTTCCTGCACGTGCGCGGCGACGGGCCCGATCAGTCCGGCATGGCCGACCTCTCCATCGGCGCCAAATACCATTTCGCCGATGCCAGCGGCGCCATTCCCTCGACCGCGCTGCTGCTGCACGCCGATCTTGCCACCGGCGCACGCGCGTTCCGCGGCCATGGCGTCCGCCCCTCGCTGCGGCTGGTCGCCGAGTGGGACCTGAGCGAGACCGTGTCGCTCGGACTGATGCCGGGCCTGATCCGCGACGACGACGGCAGCGGCCGCGACTTCACCGCCGGCATCTTCGGCGCGGTCCTGGGCAAGGCATGGACACCGCGTTGGCGTACGTTCGTCGAACTGGCGATGCCGCAGATCGCCAGCGACCGCAACGGTGGGACCCAGTCGCAGGTTGACGTCGGCAGCGCATGGCTGCTCGACGACAACACGCAACTCGACGCGGTCTACAGCCGTGGCCTGGATGCGGACAGCCCCGACGACGCATTCGCCGTCGGGTTCTCCATCCGCTTCTGA	MYATATRYALMACLIPCCALAEEPIATDRPDFVESSDTVGPGRWQIETSVAWDSLDGVHTYSTPTLFRRGLGERWELRLETDGFLHVRGDGPDQSGMADLSIGAKYHFADASGAIPSTALLLHADLATGARAFRGHGVRPSLRLVAEWDLSETVSLGLMPGLIRDDDGSGRDFTAGIFGAVLGKAWTPRWRTFVELAMPQIASDRNGGTQSQVDVGSAWLLDDNTQLDAVYSRGLDADSPDDAFAVGFSIRF				NA	NA	NA	NA	NA
BMS020_08987	2352			hypothetical protein	ATGAAAGTCACCCACATGCTCGCTGCGCTGATCGCGGTCGCGCTGTTGGCACTGATGACGCTGGCGCTGGTCAGCCATCGCGGCGAGAGCCAGCTGCTGGCAGCCATGCAGGCGCAGGTGAACTCGGCCGATGCGTTGCGCAACCACATGCAGGCCGACATGATGCACGACGCGCTGCGCGGCGACGTGCTGGCGGCCCGCCTTGCCCGCCGCGACGCGGATACCGCCGGGATCGACGAGGCGCGCGCCAGCTATAGCGAGCACGCCGCGGAATTCCGCGGTGCGCTCAAGGCCACGCTCAGCAAGGCCCCCTCGCCGCAGCTGCGCCAGTCGCTGCAGGACACCGCGCCTGCACTCGATCGCTACATCGCCACCGCTGGCGAGGTGATCGATCGCAGCGCCAGCAATACATCTTCGCCCGATGCCGACGCGGAGTTCTCCCGCAGCTTCGAGCAGCTCGAGACGCGCATGGCCGACCTGAGCCAGCAGATCCTCGACCTCAACGAGCACAACCGCGCCGACGCGCAGGCGCGCGGCCAGCGGATCTTCACCCAACAGGTCGTCGCCGTGCTGGTCGCCGCCACGATGATGCTGCTGATCGGGGGCTTGATCGTCGGCGCGATCGCGCGCCAGCTCGGCGGCGAACCACGCGCGGTAATGGCCATTGCACAGGGCATCGCCGATGGCCGCCTGGACCAGGTGATCAACGTGCCACGCGGCCGCGACGCCAGCCTGGTGGCGTCGATGGCGAGGATGCAGCGGGACCTGCGCGAACGCACAGAGGCCGAGCGCAAGGTCGCCCGGGAGAACCTGCGCATCCGGACCGCGCTCGACAATGCATCGACCGGACTGTACATCGCCGACCCCGACCTCAACGTCATCTACGCCAACAACGCGCTGCAGGCGCTGCTCGACCTGCACGCCGGCAATATCGCCGCGCATGCGCCGGCGTTTCATCCGGGCAGTCCGCTGGTCGGCCGCCCTGCCAGCGTGCTGGCGGCCGACAACCGGATCGATGCCGAGCTGCTGCAGCAGCTCGATCAGCACGGCAGCGCGCATCGCGAGATCAACTTCGGCGCGACCAGCATCGCCCAGGATGTCTCGGCGATACGCGACCAGGACGGACAGCGCGCCGGCTTCGTCTGCGAATGGCGCGACCGCACCCAGGAAACCGAGATCGAGGCCGAGGTCACCCGCGTGGTGGGCCTGGCAGCGGCAGGCGACATGTCCGCGCGCATCGTCATGGAGCGCAAGCAGGGCTTCTTCCTGCAGTTGGCCGAGCAGCTCAACCGTTTGCTCGAAGCCAATGCGCAGAGCACCGACGAGGTCTCGGCCCTGCTGTCCGCGCTGGCGCAGGGCGACCTGACCCGGCGCATGCACGGCGACTTCCATGGCGTGTTCGCGCGCATGCGCGACAACGCCAATGCCACCGCCAGCTACCTGACCGACATCGTCGGCCGCCTCCAGGATGCCGCCGGCAACATCAATACCGCTGCCAGCGAGATCGCCTCGGGCAACAGCGATCTTGCGCAACGCACCGAACAGCAGGCCGCCAGCCTGGAGAAGACCGCCGCCTCGATGGAGGAGCTCACCTCCACCGTCAAGCAGAACGCCGAACACGCCCGCCAGGCCAACCAGCTGGCGCAGGGTGCGGCCGGCGTGGCCCGCGACGGTGGCGAGGTGGTCGGCCAGGTCGTCACCACGATGACCGCGATCGAGGCCTCCTCCAAGAAGATCGCCGACATCATCAGCGTCATCGACGGCATCGCCTTCCAGACCAACATCCTGGCGCTGAACGCCGCGGTCGAAGCGGCGCGTGCCGGAGAACAGGGCCGCGGCTTCGCCGTGGTCGCCTCCGAGGTGCGCACCCTCGCCCAGCGCTCGGCCAACGCCGCCAAGGAGATCAAGGGCCTGATCGACGATTCGGTCGAGCGCGTGGCCGACGGCTCGGCGCTGGTGCACAAGGCCGGCAGCACGATGCGCGAGATCGTCGCCAGCGTGCAGCGCGTCACCGACATCATGGCCGAGATCTCCGCCGCCTCGCAGGAACAGTCCTCGGGCATCGAACAGGTCAACCAGACCATCACCCGGATGGACGAGACCACCCAGCAGAACGCCGCGCTGGTCGAGGAAGCCACGGCCGCCGCACGCTCGATGGAGGAGCAGGCCAGGCAGCTGGCCACCACGGTCACCCAGTTCAGGACATCGCGTACCAGCGACGCTCCACGTCAACCGCCGGCGTCGCCGCCCGCCACCGCGAGCAAGATCGCCGCCGTCACGCGCGCGCCGCCACGCCCACCACGCAACGGGCAGGCAATCGCGTCCAACGAGGGTGGCTGGGCCGAATTCTGA	MKVTHMLAALIAVALLALMTLALVSHRGESQLLAAMQAQVNSADALRNHMQADMMHDALRGDVLAARLARRDADTAGIDEARASYSEHAAEFRGALKATLSKAPSPQLRQSLQDTAPALDRYIATAGEVIDRSASNTSSPDADAEFSRSFEQLETRMADLSQQILDLNEHNRADAQARGQRIFTQQVVAVLVAATMMLLIGGLIVGAIARQLGGEPRAVMAIAQGIADGRLDQVINVPRGRDASLVASMARMQRDLRERTEAERKVARENLRIRTALDNASTGLYIADPDLNVIYANNALQALLDLHAGNIAAHAPAFHPGSPLVGRPASVLAADNRIDAELLQQLDQHGSAHREINFGATSIAQDVSAIRDQDGQRAGFVCEWRDRTQETEIEAEVTRVVGLAAAGDMSARIVMERKQGFFLQLAEQLNRLLEANAQSTDEVSALLSALAQGDLTRRMHGDFHGVFARMRDNANATASYLTDIVGRLQDAAGNINTAASEIASGNSDLAQRTEQQAASLEKTAASMEELTSTVKQNAEHARQANQLAQGAAGVARDGGEVVGQVVTTMTAIEASSKKIADIISVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVASEVRTLAQRSANAAKEIKGLIDDSVERVADGSALVHKAGSTMREIVASVQRVTDIMAEISAASQEQSSGIEQVNQTITRMDETTQQNAALVEEATAAARSMEEQARQLATTVTQFRTSRTSDAPRQPPASPPATASKIAAVTRAPPRPPRNGQAIASNEGGWAEF	PGPT0015710_1450	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
BMS020_08992	867	coaA		Pantothenate kinase	ATGACGTTAACCGAGGAAGAAATCACGCGGTTAAAAGGCATCAACGAAGATCTCTCTCTGGAAGAGGTTGCTGAGATCTATTTGCCGCTGTCGCGTTTGCTCAACTTCTATATTAGTTCTAACCTGCGTCGTCAGGCGGTTCTCGAACAATTTCTTGGCACCAACGGTCAGCGAATTCCCTATATAATCAGCATAGCTGGCAGCGTTGCGGTAGGTAAAAGCACCACCGCCCGTGTACTGCAGGCCTTGCTTAGCCGTTGGCCTGAGCATCGCCATGTTGAACTCATTACCACTGACGGATTTTTGCACCCTAACTCGGTTTTGAAAGAACGTGGGTTAATGAAGAAGAAAGGCTTTCCGCAGTCTTATGATATGCATCGGCTGGTGAAGTTTGTCTCCGATCTCAAATCAGGAGTACCACAGGCAACTGCACCGGTTTATTCCCATCTAATTTATGATGTTATTCCCGACGGCGATAAAACTGTCGCGCAACCGGATATTCTCATTCTTGAAGGACTGAATGTTCTGCAAAGTGGGATGGATTATCCACACGATCCGCATCATGTATTCGTATCGGATTTTGTCGACTTTTCTATTTATGTCGATGCCCCGGAAGAATTATTGAAAAGCTGGTATATCAACCGCTTTCTTAAATTCCGGGAAGGAGCATTTACCGACCCGGATTCTTATTTCCATAATTACGCCAAGCTATCGAAGGAAGAAGCGGTGGATATTGCCACCTCGCTATGGAATGAGATTAACCTAATGAATCTCAAGGAAAACATCCTTCCAACTCGTGAGCGCGCCAGCCTGATTATGACCAAGAGCGCCAATCATTCTGTTAATCAGGTACGCTTACGGAAATAA	MTLTEEEITRLKGINEDLSLEEVAEIYLPLSRLLNFYISSNLRRQAVLEQFLGTNGQRIPYIISIAGSVAVGKSTTARVLQALLSRWPEHRHVELITTDGFLHPNSVLKERGLMKKKGFPQSYDMHRLVKFVSDLKSGVPQATAPVYSHLIYDVIPDGDKTVAQPDILILEGLNVLQSGMDYPHDPHHVFVSDFVDFSIYVDAPEELLKSWYINRFLKFREGAFTDPDSYFHNYAKLSKEEAVDIATSLWNEINLMNLKENILPTRERASLIMTKSANHSVNQVRLRK	PGPT0008770_874	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008770-coaA-K00867	NA	NA
BMS020_08993	963	birA_2	COG0340	Bifunctional ligase/repressor BirA	GTGAAAGACCATACTATCCCTTTAACGCTAATTTCTATCCTTGCTGATGGTGAGTTTCACTCAGGTGAACAGCTTGGCGAGCAGTTAGGCATGAGCCGGGCGGCGATTAATAAGCATATCCAGACTTTACGCGACTGGGGCGTTGATGTGTTTACCGTACCGGGCAAGGGTTACAGCCTGCCAGAGCCTATTCATCTTTTGGATGAGAAAAAGATCTCCCAACAGATAGAGCATGGCCGAGTGACTGTCCTTCCGGTAATCGACTCCACTAACCAGTATTTGCTGGACAGACTGGATGAGCTGACGTCCGGCGATGCCTGCGTGGCTGAATATCAGCAGGCAGGGCGGGGTCGACGAGGCAGAAAATGGTTTTCCCCCTTTGGCGCGAATCTCTATCTCTCAATGTACTGGCGTCTGGAGCAGGGCCCGGCAGCGGCTATTGGCCTAAGCCTGGTGATCGGTATTGTGATCGCTGAAGTGCTGCAGCAATTCGGGGCCGAACAGGTTCGCGTGAAATGGCCGAACGATATTTATCTGCAGGATCGTAAGCTGTCAGGGATCCTCGTGGAACTGACGGGAAAAACGGGCGATGCCGCACAAATCGTCAGCGGCGCGGGTATCAACCTTGTGATGCGTCGCGTGGAGTCTGATGTCGTCAATCAGGGTTGGATCAGCCTTCAGGAAGCAGGGGTGGTCATCGATCGTAACCTCCTCGCCGCGCGCCTGATTAAAGAGCTGCGCCTGGGGCTGGAGCTGTTCGAGCAGGAAGGGTTGGCTCCTTATCTGCCGCGCTGGGAAAAACTGGATAACTTTATTCATCGTCCGGTAAAACTGATTATCGGTGATAAAGAAATTTATGGCATTTCCCGCGGTATTGACGCCCAGGGGGCGCTATTGCTGGAGCAGGATGGTGTGATAAAAGCCTGGGTCGGTGGTGAAATATCATTGCGCAGCGCAGAATAA	MKDHTIPLTLISILADGEFHSGEQLGEQLGMSRAAINKHIQTLRDWGVDVFTVPGKGYSLPEPIHLLDEKKISQQIEHGRVTVLPVIDSTNQYLLDRLDELTSGDACVAEYQQAGRGRRGRKWFSPFGANLYLSMYWRLEQGPAAAIGLSLVIGIVIAEVLQQFGAEQVRVKWPNDIYLQDRKLSGILVELTGKTGDAAQIVSGAGINLVMRRVESDVVNQGWISLQEAGVVIDRNLLAARLIKELRLGLELFEQEGLAPYLPRWEKLDNFIHRPVKLIIGDKEIYGISRGIDAQGALLLEQDGVIKAWVGGEISLRSAE	PGPT0022055_1436	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
BMS020_08994	1029	murB_2	COG0812	UDP-N-acetylenolpyruvoylglucosamine reductase	ATGAACCACTCCCTCAAACCCTGGAATACCTTTGGCATTGAGCGATCCGCCAATACGATAGTACGCGCCGAAACTGAACAACAGTTATTAAGCGCCTGGCAAACCGCTGTCGCGGCTGGCGAACCCACGCTAATCCTTGGGGAAGGCAGTAACGTCCTGTTTCTGAACGACTATGCCGGTACGGTGATCCTCAACCGAATTATGGGGATCGAGGTGAGCGAAACCCCGGATGCCTGGTGCTTGCACGTCGGCGCCGGCGAAAACTGGCATCAACTGGTGCAGTTCACGCTACAGCATGCGATGCCTGGTCTGGAAAATCTGGCATTAATCCCTGGTTGCGCAGGATCTTCGCCTATCCAGAATATTGGCGCTTACGGTGTCGAATTGCAGCGGGTTTGCGAATATGTTGACTGCATCGAGCTGGAAACGGGACGTAAACAACGCCTTTCCGCAGCGGAATGCCGTTTCGGCTATCGCGACAGCATCTTTAAACATGAATATCAGGACCGCTACGCCATCGTCGCGATTGGCCTGGCGTTAGAGAAAGCGTGGCGACCGGTGCTGAGCTACGGTGATTTAACACGTCTCGATCCGCAGACGGTCACCCCGCAGCAGGTATTCGATGCGGTCTGTCATATGCGAATGACTAAATTGCCGGATCCAAAGATTAACGGTAATGCTGGCAGCTTTTTTAAGAACCCGATCGTCAGCGCTCAGGTTGCAGAAGCGCTGCTGGCGCAGTTCCCTGATGCACCGCACTATCCGCAGGCAAACGGCAGCGTCAAGCTGGCCGCTGGCTGGCTAATCGATCAATGTCAGCTCAAAGGACAACGCATCGGCGGCGCGGCCGTGCATCGACAGCAGGCGCTGGTACTGATTAATGAAGATCAAGCGACCAGTGAGGATGTGATAAAGCTTGCCCATTACGTTCGCCAGCAGGTGGGTGCGAAATTCAATGTATGGCTTCAACCCGAGGTGCGCTTCATTGGAACGCATGGTGAAGTCAACGCAGAGGAGAGCATTGCGTGA	MNHSLKPWNTFGIERSANTIVRAETEQQLLSAWQTAVAAGEPTLILGEGSNVLFLNDYAGTVILNRIMGIEVSETPDAWCLHVGAGENWHQLVQFTLQHAMPGLENLALIPGCAGSSPIQNIGAYGVELQRVCEYVDCIELETGRKQRLSAAECRFGYRDSIFKHEYQDRYAIVAIGLALEKAWRPVLSYGDLTRLDPQTVTPQQVFDAVCHMRMTKLPDPKINGNAGSFFKNPIVSAQVAEALLAQFPDAPHYPQANGSVKLAAGWLIDQCQLKGQRIGGAAVHRQQALVLINEDQATSEDVIKLAHYVRQQVGAKFNVWLQPEVRFIGTHGEVNAEESIA	PGPT0024115_1526	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024115-murB-K00075	NA	NA
BMS020_08996	2187		COG3661	Extracellular xylan exo-alpha-(1->2)-glucuronosidase	ATGAGGCCGGCACCCGGGCAACGCCGCACCGATGCCTACCGCTGGCTGCTGCTGGCCTGGCTGTGGCTGCTGGCCCCCGCACTGCACGCCGAGGACGGCTACCAGCTGTGGCTGCGCTACCCGGCGCTGGACGCGGCGCAGGTCCACGCCGGCAGCTCACTGAAGGCATGGCGGCTGCCCACCGCGACGCCGACCCAGCGGGTGATCCGTGCAGAGCTGCAGCGCGGGCTCGGCGGCCTGCTCGGCACGGTACCGGTGGATACGCCCCGGATCGAACGCGACGGCACGCTGCTGGTCGGCACGCCGGCCTCGCTGCCGGCGCTGACCGCGCTCGCGCCGGACCTGGCCGGGCTCGGCGACGACGGCTACGTGATCCGCAGCCTGCGCCTGGACGGCCATGCGGTCGTCGTGGTCGCCGCCAACACCGACCTCGGCGCGCTGTACGGCACGTTCCGGCTGCTGCGCCAGCTGCAGACCGGCGCCGCGCTGGCCGCGCTCGACCTGCGCGAGGCGCCGAAGCTGCAACGGCGCGTGCTCGACCATTGGGACAACCTCGACCGCAGTGTCGAACGCGGCTACGCCGGGCAGTCGCTGTGGGACTGGCAGACCCTGCCCGACTGGCACGACCCGCGCTACACCGACTACGCCCGCGCCAACGCCTCGCTCGGCATCAACGGCAGCGTGCTCAACAACGTCAACGCCAGCGCGCTGAGCCTGACCGCGCCCTACCTGGCCAAGGCCGCGGCACTGGCCGCGGTGTTCCGCCCGTACGGCATCCGCGTGTATCTCAGCGCGCGCTTCTCGGCGCCGATCGAGATCGGCGGGCTGAAGACCGCCGATCCGCTCGATCCGGTGGTGCGCCGCTGGTGGCAGGACAAGGCCGACGAGATCTACCGCGTCATCCCCGACTTCGGCGGCTTCCTGGTCAAGGCCAACTCCGAGGGCCAGCCCGGTCCGCAGGACTACGGCCGCAGCCATGCCGATGGCGCCAACATGCTGGCCGATGTCTTGGCGCCGCATGGCGGCATCGTGATGTGGCGGGCGTTCGTCTACGCGCATGACACCTCGCCGGACCGGGCGATGCAGGCCTACGACGAGTTCAAGCCGCTCGATGGGGCGTTCCGCGCCAACGTGCTGCTGCAGGTCAAGAACGGCGCGATCGACTTCCAGCCGCGCGAGCCGTTCCACCCGTTGTTCGGGGCGATGCCGCGCACGCCGCTGATGCTGGAGCTGCAGATCACCAAGGAGTACCTGGGCTTCAACACCCACCTGGCCTACCTGGGCACGCTGTATGCCGAGACGCTGCACGCCGACACCTACGCACGCGGCGCCGGCTCGACAGTGGCGCGGGTGGTCGAAGGCGCGCTGGCCGATGCGGGCGCGTCGCGGCTCACCGGCATCGCCGGCGTCGCCAACATCGGCAGCGACCGCAACTGGACCGGTTCGCAGTTCGACCAGGCCAACTGGTACGCGTTCGGCCGGCTGGCCTGGGATCCGCAGGCCGACCCGCGCGCGATCGCCCGGGACTGGGTGCGGATGACGTTCTCCCGCGATCCGCAGGTGGTCGACACCATCACCGGCATGCTGATGCGCTCGCGCGAGGCGGTGGTCGACTACATGACCCCGCTCGGCCTGGCCCACCTGATGGGCCGCGGCCACCACTACGGGCCGGCGCCGTGGGACGCCGGCAGCGAGCGCCCGGACTGGGACCCGGTCTACTACCACCGCGCCGACGCGAACGGCATCGGCTTCGACCGCAGCGCCGGCGGCAGCAACGCGGTGGCGCAGTACGCCGCGCCGGTCGCGCGCATGTTCGGCGACCCGGCCACGGTGCCGGAACAGGACCTGCTGTGGTTCCACCATGTGTCCTGGGACTACCGGCTGCGCTCCGGCGACACCGTCTGGAACACGCTGGTGCGGCGCTACGACCACGGCGTGGCCGAGGTCGCGGCGCTGCGCGCGAGCTGGGACGGCGTGGCCGGCGCGATCGATCCGCCGCGGCATGCCGAGGTCGCCGCGTTCCTGGCGATCCAGCAGCGCGAGGCGCAATGGTGGCGCGATGCCTGCGTGACCTATTTCCAGAGCCTGTCGCGCCGGCCACTGCCGCCCGGTTCACCGCCACCGCCGCAGCCGTTGGCGTACTACCAGTCGCTGTCGTTCCCGTTCGCACCCGGACACCCGAAATGA	MRPAPGQRRTDAYRWLLLAWLWLLAPALHAEDGYQLWLRYPALDAAQVHAGSSLKAWRLPTATPTQRVIRAELQRGLGGLLGTVPVDTPRIERDGTLLVGTPASLPALTALAPDLAGLGDDGYVIRSLRLDGHAVVVVAANTDLGALYGTFRLLRQLQTGAALAALDLREAPKLQRRVLDHWDNLDRSVERGYAGQSLWDWQTLPDWHDPRYTDYARANASLGINGSVLNNVNASALSLTAPYLAKAAALAAVFRPYGIRVYLSARFSAPIEIGGLKTADPLDPVVRRWWQDKADEIYRVIPDFGGFLVKANSEGQPGPQDYGRSHADGANMLADVLAPHGGIVMWRAFVYAHDTSPDRAMQAYDEFKPLDGAFRANVLLQVKNGAIDFQPREPFHPLFGAMPRTPLMLELQITKEYLGFNTHLAYLGTLYAETLHADTYARGAGSTVARVVEGALADAGASRLTGIAGVANIGSDRNWTGSQFDQANWYAFGRLAWDPQADPRAIARDWVRMTFSRDPQVVDTITGMLMRSREAVVDYMTPLGLAHLMGRGHHYGPAPWDAGSERPDWDPVYYHRADANGIGFDRSAGGSNAVAQYAAPVARMFGDPATVPEQDLLWFHHVSWDYRLRSGDTVWNTLVRRYDHGVAEVAALRASWDGVAGAIDPPRHAEVAAFLAIQQREAQWWRDACVTYFQSLSRRPLPPGSPPPPQPLAYYQSLSFPFAPGHPK	PGPT0018635_84	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCURONIDASE,PGPT0018635-aguA-K01235	NA	NA
BMS020_08997	1107	ccpA_2	COG1609	Catabolite control protein A	GTGGCGTTCCGCAACGGCCAGGACACCCGCTTGGAAAAGACCCGCAAATCGATCCGCCGCAAGGGCCATGCCGTCACCATCGACGAAGTCGCGGCGCTGGCCAAGGTCTCGCCGATGACGGTGTCGCGGGTGGTCAACGGCAAGGGCAACGTGCGCGAATCGACCCGCACCCAGGTGCTGGCCGCGGTCAAGAAGCTGGGCTATACCCCGAATCTCGCCGCCAGTGCGCTGGCCGCGGCGCAGACCACCAAGATCGCGCTGATCCATACCGATCCCAGCGGCGCCTACCTGCGCGAGCTGCTGCTCGGCGTGCTGCGCGCGGTCTCGCATACCTCGATCCAGCTGGTCATCGACTACTGGGACGGGCTCAGCCCCGAGGCCGAGCGCAAGGCCGCGCGCGCCTTGGCCAAGACCGTGGCCGGGGTGATCCTGCCGCCGCCGCTGTGCGAATCCGAGCCGGCGGTGCTGGAGCTGGTCAAGGCCAAGGTGCCGGTGGTGTCGATCGCCTCCGGTCGCTTCAACCGCCAGGTCTCGTGCGTGCGCATCGACGAATACCGCGCGGCGATGGAAATCACCGCGCATCTGCTCGCGCAGGGCCATACCCGCATCGGCTTCGTCCACGGCCACCGCAATCTCAGCGCCAGCCAGCGCCGCTTCGACGGCTTCCGCGCGGCGCTGGAAGAGGCCGGTATCGCCTTCGACCCGACCCTGGTGGTCGAAGGCGACTACACCTACCGCTCCGGGCTGGCTGCCGCCGAGCAGCTGCTGGCGCTGCAACCGGCACCGAGCGCGATCTTCGCCAGCAACGACGACATGGCCTCGGCCGTGGTCTCGGTCGCCCACCGCCAGGGTCTGGACGTGCCGCGCGACCTGTCGGTGGTCGGCTTCGACGACACCTCCACCGCCACCACGGTGTGGCCGGAACTGACCACGGTGCACCAGCCGATCGCGGCGATGGCCGATGCGGCCATCGAGCTGCTGCTGCGCGAGGTCCGCGACAGGGGCCAGGACACCCGCACCGTGTTCGACCACGTCGTCGCCCACCAGCTGGTCCAGCGCGAATCGGTGGCACCGCCGCGCAAGCGCAGCGCGCGCCGCGGCGGCTAG	MAFRNGQDTRLEKTRKSIRRKGHAVTIDEVAALAKVSPMTVSRVVNGKGNVRESTRTQVLAAVKKLGYTPNLAASALAAAQTTKIALIHTDPSGAYLRELLLGVLRAVSHTSIQLVIDYWDGLSPEAERKAARALAKTVAGVILPPPLCESEPAVLELVKAKVPVVSIASGRFNRQVSCVRIDEYRAAMEITAHLLAQGHTRIGFVHGHRNLSASQRRFDGFRAALEEAGIAFDPTLVVEGDYTYRSGLAAAEQLLALQPAPSAIFASNDDMASAVVSVAHRQGLDVPRDLSVVGFDDTSTATTVWPELTTVHQPIAAMADAAIELLLREVRDRGQDTRTVFDHVVAHQLVQRESVAPPRKRSARRGG	PGPT0017992_132	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
BMS020_08998	462	xylA_4	COG2115	Xylose isomerase	GTGGCGTCCGATCACGGCCTGCTGGGCAGCATCGATGCCAACCGCGGCAACGCGCAGAACGGCTGGGACACCGACCAGTTCCCGACCGACCTGTACGACACGGTCGGCGCGATGCTGGTGGTGCTGCGCCAGGGCGGGCTGGAAGGCGGGTTGAACTTCGACGCCAAGCCGCGGCGCGAGTCGACCGACATGGAAGACCTGTTCATCGCCCACATCGGCGGCATGGACGCATTCGCACGCGGGCTTGAGGTCGCCCATGCGCTGCTGACCGACTCGCCGTGGGAGCAGTGGCGCACCCAGCGCTACGCCAGCTTCGACGGCGGCAAGGGCAAGGAGTTCGTCGACGGCAAGCTCGACCTGGCCGCGCTGGCGGCGCTGGCCAACGGTGCCGGCGAGCCGGTCCAGCTCAGCGGCCGCCAGGAGGCCTACGAGAACCTGCTCAACCAGTACCTGCTGCGCTGA	MASDHGLLGSIDANRGNAQNGWDTDQFPTDLYDTVGAMLVVLRQGGLEGGLNFDAKPRRESTDMEDLFIAHIGGMDAFARGLEVAHALLTDSPWEQWRTQRYASFDGGKGKEFVDGKLDLAALAALANGAGEPVQLSGRQEAYENLLNQYLLR	PGPT0017550_369	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
BMS020_08999	165			hypothetical protein	ATGGACGAGACCACCCAGCAGAACGCCGCGCTGGTCGAGGAAGCCACGGCCGCCGCACGTGCCATGGAAGAGCAAGCCAGCGAACTGGCGACCACCGTCTCGATTTTCCGCACCGCCAGCGGGACCCCGCGCACCCGGCGTACCGCCGCGTCCGCCACCTGCTGA	MDETTQQNAALVEEATAAARAMEEQASELATTVSIFRTASGTPRTRRTAASATC	PGPT0015710_2291	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
BMS020_09000	2268			hypothetical protein	ATGAACCGATTCAAAGACTGGCCGATCACCCGCAAGCTGCTGGCCGCCTTCTGCGCCAGCGCCGTCCTCACCGCGGTGCTCGGCGTCGCCGGCCTGACCCGCATGCAGCAGATGCATGAGCAGACCACCCTGATCAACGAGCAGATCGTGCCGGTGCTGAGCCGGCTGTCGGAACTGCGCGCGTTCGGTGGCGAGTTCCGCGTCTACGAGGTCGGCCAGTTCGTGAACTTCGAGAATCCCGAACGCTACGCCTACTTCCTCAAGCGCATGGACGAGATCCAGGCCAAGTATGTGCAGACCCAGGCTTCGCTGGACAAGACCCTGCCGGCCGATTCGCCGCTGCGCCCGGACTACGCCAAGCTGGCCGATGCCGGCAAGCGCTACTTCGAGGCCAACGCCGAGCTGCGCACGCTGTACGCACAGCCCGACCACGCGCCGGCGATGCAGTTCTCGACCAAGACCTCCGGCGAGATCCGCAAGGAAGTCTTCGCCGCGATCGACAAGATGTATGCCGCGCAGTCCAAGGCGCTGGGCGACATGGTCACCGCCAGCGACGCCGGCTTCCGCACCACCAGCATCGTGCTGGTGGCCGGTACGGCGGTGATGACGGTGCTGTCGATCCTGTTCGGCCTGCTGATCGCCCGCGCCATCGCACGTCCGCTCGGCGAAGCCAGCCGTGTCGCCCGCGCGATCGCCCTGGGCAAGCTCGACAACGCCATCTCGGTGTCGTCCCGCGACGAAACCGGCCAGCTGCTCGACAGCATGGGGACGATGCAGGCACAGCTGCAGGCGGTGCTCGCCGAGCAGCGCGAGATGGCCCGCCAGCACACCGCCGGCATGATCAGCTACCGCATGGACGAAGCGCGCTTCCCCGGCGACTACGGCGCGATGGTGCGCGACAGCAACGCACTGGTCGCCGAGCACATCGGGGTCAAGATGCAGGTGATCGAGCTGACCAAGCGCTATGCGATCGGCGACCTCAGCCTCGACATGGAGCGCCTGCCCGGTGAGAAGGCGGTGATCAGCGAGACGATGGACGCCGTCAAGCGCAACCTCGGCGCGATCAACAACGAGATCAAGCACCTGGGCGCGGCCGCGGCCAACGGCGACTTCTCCGTGCGCGGCGACGCCGAAGCCTTCCAGTACGACTTCCGCGATATGGTCGACACGCTGAACCGGCTGATGCAGACCACCGGCAGCAACCTCGACCAGCTCTCGGTGCTGCTCAAGGCCATCGCCGAAGGCGACCTGACCGCGCGCATGGACGGCGAGTTCCGCGGCGTGTTCGCGCGCATGCGCGACGACGCCAATGCCACCGTGACCCAGCTGACCGACATCGTCGGCCGCATCCAGCACGCCTCCACCAGCATCAACACCGCCGCCGGCGAGATCGCCTCCGGCAACGACGACCTGTCGCGCCGCACCGAGCAGCAGGCCGCCAACCTGGAAGAGACCGCCGCCTCGATGGAGGAGCTCACCTCCACCGTCAAGCAGAACGCCGAACATGCCCGCCAGGCCAACCAGCTGGCGCAGGGCGCGGCCGGCGTGGCCCGCGACGGCGGCGACGTGGTCGGCCAGGTGGTCTCCACCATGTCCGACATCGAAGCCTCGTCGAAGAAGATCGCCGAGATCATCAGCGTCATCGACGGCATCGCCTTCCAGACCAACATCCTGGCGCTGAACGCCGCGGTGGAAGCGGCACGCGCCGGCGAACAGGGCCGCGGCTTCGCGGTCGTGGCCAGCGAGGTGCGCACCCTGGCCCAGCGCTCGGCCAACGCGGCCAAGGAGATCAAGGGCCTGATCGACGATTCGGTCGAGCGCGTGGCCGATGGCTCGGCGCTGGTGCACAAGGCCGGCAGCACGATGAGCGAGATCGTCGCCAGCGTGCAGCGCGTCACCGACATCATGGCCGAGATCTCCGCCGCCTCGCAGGAACAGTCCTCGGGCATCGAACAGGTCAACCAGACCGTCACCCAGATGGACGAGACCACCCAGCAGAACGCCGCGCTGGTCGAGGAAGCCACGGCCGCCGCACGCTCGCTCGAGGAACAGGCCGGCCAGCTCAACGGCGCGGTCGCGGTCTTCAAGCTGCGCGCGGACGCCAGCGGTGCTCGCGTGCTGCAGATGCCGCCCACGGCGGCCCCGCGCAGCGCGCCGGTGCCGGTGCCGGTGCCGGTGCCGGCGCCACGCGCCGCACCGGCACGTCCGCTGAAGAGCGCCGGCGGCGCCGCCCCGGCGTTGCCGGCCGACGACTGGTCGGAGTTCTGA	MNRFKDWPITRKLLAAFCASAVLTAVLGVAGLTRMQQMHEQTTLINEQIVPVLSRLSELRAFGGEFRVYEVGQFVNFENPERYAYFLKRMDEIQAKYVQTQASLDKTLPADSPLRPDYAKLADAGKRYFEANAELRTLYAQPDHAPAMQFSTKTSGEIRKEVFAAIDKMYAAQSKALGDMVTASDAGFRTTSIVLVAGTAVMTVLSILFGLLIARAIARPLGEASRVARAIALGKLDNAISVSSRDETGQLLDSMGTMQAQLQAVLAEQREMARQHTAGMISYRMDEARFPGDYGAMVRDSNALVAEHIGVKMQVIELTKRYAIGDLSLDMERLPGEKAVISETMDAVKRNLGAINNEIKHLGAAAANGDFSVRGDAEAFQYDFRDMVDTLNRLMQTTGSNLDQLSVLLKAIAEGDLTARMDGEFRGVFARMRDDANATVTQLTDIVGRIQHASTSINTAAGEIASGNDDLSRRTEQQAANLEETAASMEELTSTVKQNAEHARQANQLAQGAAGVARDGGDVVGQVVSTMSDIEASSKKIAEIISVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVASEVRTLAQRSANAAKEIKGLIDDSVERVADGSALVHKAGSTMSEIVASVQRVTDIMAEISAASQEQSSGIEQVNQTVTQMDETTQQNAALVEEATAAARSLEEQAGQLNGAVAVFKLRADASGARVLQMPPTAAPRSAPVPVPVPVPAPRAAPARPLKSAGGAAPALPADDWSEF	PGPT0015710_2028	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
BMS020_09001	1965			hypothetical protein	GTGCTGGATGCGGCCGACGATGTCGGTCAGCTGGGTGACGGTGGCATTGGCGTCGTCGCGCATGCGCGCGAACACGCCACGGAACTCGCCGTCCATGCGCGCGGTCAGGTCGCCCTCGGCGATCGCCTTGAGCAGCACCGAGAGCTGGTCGAGGTTGCTGCCAGTGGTCTGCATCAGCCGGTTCAGCGTGTCGACCATGTCACGGAAGTCGTGCTGGAACGCAGCGGCGTCGCCGCGGACGGAGAAGTCGCCATCGGCGGCGGCGGTTCCGAGCCGCTTGATCTCGTTGTTGATCGCGCCCAGGTTGCGCTTGGCGGTGTCCATCGTCTCGCTGATCACCGCCTTCTCGCCCGGCAGGCGTTCCATGTCGCGGCTGAGGTCGCCGATGGCGTATTCGCCCAGCAGGCCGATGATGCTCAGCTTGACCGCGATGTGGTCGGCGACCAGGGCGTTGCTGTCGCGCACCATCGCGCCGTACTCGCCCGGGAACCGGGTCTCGTCCATGCGGTAGCTGATCATGCCGGCGGTGTGCTGGCGGGCCATCTCGCGCTGCTCGGCAAGTACCGCCTGCAGCTGCGCCTGCATCGTGCCCATGCTGTCGAGCAGGCGCCCGAGCTCGTCCTTGCGGCGCACGCTGATGCGGCTGTCGAGCCGGCCGGCGGCGACCGCGGCGGAGACCGTCACGGCTTCGTCGAGCGGCGTGAGTACCTCGCGTCGCAGCAGCAACAGCAGCGCGCCGCTGAGCGCCAACGCGGACAGCAGCCCGACCAGGGCGATGCTCCACAGCACCGAGCGCGCCTGCGCCATCAACAGCGAGCGCGGTACCGTGACCCCGAGCGCGAAGCTCTGTGGCGCATTGCCGATCCGCAGTGGCACGAAGGCACGGATGTCGTCGCGACCGTCGCGGCGCTGGCGATCGCTGAACACGTCGCCCTTGCCGACGACGGCCAGCATCGCGCGGGTCTCGGCGTCGTCCAGTGTCTTGCCGACCAGCTTGGCGTCCTGGTCGGCCAGCACCGTGCCGGCTGGCGAAAGCAGGCTGACATGGCCTTCGCCCATCGGCCGCATCGCGGCGATGCGTTGCTGCAGTGCCGCCAGCGCGAAGTCCACGGTGACCACGCCGAGGAAGGTGCCGTTGTCGACGATCGGCGTGGTCAGCGTGGTCATCAGCACGTCCTGGCCACCGATCTGGTAGTGGTACGGCTCGACCACCAGCGGCTTGCGGCTGCTGCGCGCCAGCAGGTACCAGTCGCCGTCGCCGGGCTTCTCGTAGTCGCGCAGCGCCTCGCGTACCGGTGTGCCGTTCTGCCAGGCCCAGTAGGCCATGAAGCGGCCGGTCTCATCGTGCCCTTCAGTGCCGACGTAGGTCTTGTCGCGGCTGTCGAACGCGTCCGGTTCCCACAACGTGCCCACGCCCACCCATTGCGGATGGGTCTGCAGTTCGCGGTGCAGGATGTCGCTGGCGACGCCGCGGTCGAGGCCGGCACCGGCGCGCTGGGTGAGCAGGCCGTTGGCCACCGCCTCGCCGGTGGAGAAGGCCTGCGCCATCTCCGCGGCGATCCGTTGTGCCTCAAGTTTCGCCAGGTTCTCCATGCTCACGCGCGAAGTCGTGAGCAGGGCCTGGCTGCTGCGCCAGTAGCTGATGCCGGCGGTCAAGCCGAAGCAGGCGAGGGCGATCAGCGCGGTGCCCAGCATCAGCCGGGTGGCGACGCTGGTCATGCGTGGAGCATGGAGCGTGGTCTTCATGGCATCCGCTGGCGTGGTGAGGCGTGGGATGGGATCAGAACTCCGACCAGTCGTCGGCCGGCAACGCCGGGGCGGCGCCGCCGGCGCTCTTCAGCGGACGTGCCGGTGCGGCGCGTGGCGCCGGCACCGGCACCGGCACCGGCACCGGCGCGCTGCGCGGGGCCGCCGTGGGCGGCATCTGCAGCACGCGAGCACCGCTGGCGTCCGCGCGCAGCTTGA	MLDAADDVGQLGDGGIGVVAHAREHATELAVHARGQVALGDRLEQHRELVEVAASGLHQPVQRVDHVTEVVLERSGVAADGEVAIGGGGSEPLDLVVDRAQVALGGVHRLADHRLLARQAFHVAAEVADGVFAQQADDAQLDRDVVGDQGVAVAHHRAVLAREPGLVHAVADHAGGVLAGHLALLGKYRLQLRLHRAHAVEQAPELVLAAHADAAVEPAGGDRGGDRHGFVERREYLASQQQQQRAAERQRGQQPDQGDAPQHRARLRHQQRARYRDPEREALWRIADPQWHEGTDVVATVAALAIAEHVALADDGQHRAGLGVVQCLADQLGVLVGQHRAGWRKQADMAFAHRPHRGDALLQCRQREVHGDHAEEGAVVDDRRGQRGHQHVLATDLVVVRLDHQRLAAAARQQVPVAVAGLLVVAQRLAYRCAVLPGPVGHEAAGLIVPFSADVGLVAAVERVRFPQRAHAHPLRMGLQFAVQDVAGDAAVEAGTGALGEQAVGHRLAGGEGLRHLRGDPLCLKFRQVLHAHARSREQGLAAAPVADAGGQAEAGEGDQRGAQHQPGGDAGHAWSMERGLHGIRWRGEAWDGIRTPTSRRPATPGRRRRRSSADVPVRRVAPAPAPAPAPARCAGPPWAASAAREHRWRPRAA				NA	NA	NA	NA	NA
BMS020_09002	1152	cheA_3	COG0643	Chemotaxis protein CheA	GTGGACAAGGTCGATGCGCTGATCAACCTGGTCGGCGAACTGGTCATCACCCAGGCCATGCTCAAGCAGGTCTCCGGCGGGCTTGATCCGGCCCATGCCGAGCGCCTGACCGCCGGCCTGGACCTGCTCGAACGCAACACCCGCGACCTGCAGGAAGCGGTGATCGGCGTGCGCATGCTGCCGGTCGATGCGGTGTTCCGCCGCTTCCCGCGCCTGGTCCGCGACCTGTCCACCCGCCTCGGCAAGCAGGTGCGCCTGCGCACCATCGGCGAAGGCACCGAACTGGACAAGGGCCTGATCGAGAAGATCGCCGATCCGCTCGTGCACCTGGTCCGCAACTCGATCGACCACGGCCTGGAACTGCCCGACGCGCGTCGCGCGGCCGGCAAGGACGAGACCGGCACGATCACGCTGGCGGCCTCGCACCAGGGCGGCCACATCGTCATCGAGGTCAGCGACGACGGCCGCGGCCTGAATCGCGCCAAGATCCTCGAGAAGGCGCTGGAGCGCGGCATCGCGGTGCCGGACAACCCGACCGATTCGCAGGTCTGGGACCTGATCTTCGCGCCCGGCTTCTCCACCGCCGACGCGGTCACCGACCTGTCCGGCCGTGGCGTCGGCATGGACGTGGTCCGCCGCAACATCCAGGGCCTGGGCGGCGAAGTGCAGCTGGAGAGCAGCGCCGGCCATGGCACCCGCGTGCTGATCCGGCTGCCGCTGACCCTGGCGATCCTCGACGGCATGACCGTGTCGGTCGCCGGCGAAACGCTGATCCTGCCGCTGGCCTACGTGCTCGAGGCGCTGCAGCCGCAGGCCGAGGACATCCGCACGATGGGCGGCGAAGGCCGCGTGCTGCGGGTCCGCGGCGAGTACCTGCCGATCCTGTCGCTGAGCGACTACTACGGCTACCACGGCGGCGCGCAGCAGTCGGAGGAACCGCTGGTGGTCGTGGTCGAGGGCGACGGGCAGAAGATCGCGCTGGAAGTGGACGAACTGCTCGGCCAGCAGCAGGTCGTGGTCAAGAACATTGAGAACAACTACCGCCGCATCTCCGGCGTGTCCGGCGCCACCATCCTCGGCGATGGCCGGGTGGCGCTGATCGTCGACATCGGCGGCCTGGTGCGCTCGCTGCGGGTGGCCCGCGCCGCCTGA	MDKVDALINLVGELVITQAMLKQVSGGLDPAHAERLTAGLDLLERNTRDLQEAVIGVRMLPVDAVFRRFPRLVRDLSTRLGKQVRLRTIGEGTELDKGLIEKIADPLVHLVRNSIDHGLELPDARRAAGKDETGTITLAASHQGGHIVIEVSDDGRGLNRAKILEKALERGIAVPDNPTDSQVWDLIFAPGFSTADAVTDLSGRGVGMDVVRRNIQGLGGEVQLESSAGHGTRVLIRLPLTLAILDGMTVSVAGETLILPLAYVLEALQPQAEDIRTMGGEGRVLRVRGEYLPILSLSDYYGYHGGAQQSEEPLVVVVEGDGQKIALEVDELLGQQQVVVKNIENNYRRISGVSGATILGDGRVALIVDIGGLVRSLRVARAA	PGPT0015645_3856	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015645-cheA|wspE-K03407	NA	NA
BMS020_09003	333			hypothetical protein	ATGTCGAGATCGCCGCGCGAGACCGCCTGGATCGCGCTCAGCGCGGTGGCGACCGGCCGGGTGATCGAACGCGCGATCGCCACGCCCAGCACCGCCGCGGCCGCGATCAGCGCCGCCAGCGCGATCAGCAGCATCGCCACGGTGCGGTCGTGGGTGGCGTTGGAGTCCTTGACCCGGCGCGCCAGGTTCTCGGCATTGAAGCTGCCGAGGTCCTTCAGCGCGGCGAACAGGTCGCGGCGCGCCACGCGCGATTCGTTGCTGGAGATCGTGGCGGCCGCGGCGAAATCGCCGGCGGCGATCGCCTGCTCGAACTTGTCGTGGGCGCTGAAGTAG	MSRSPRETAWIALSAVATGRVIERAIATPSTAAAAISAASAISSIATVRSWVALESLTRRARFSALKLPRSFSAANRSRRATRDSLLEIVAAAAKSPAAIACSNLSWALK				NA	NA	NA	NA	NA
BMS020_09005	324			hypothetical protein	ATGTCCACCGCCAGGCTCTCCATCTGCCCCTGCACCGACGGCAGGGCCAGGGCCAGCGCCTCCTTAATGGCGTGGACGTCCGGCGCGCAGTGGAGCTTCGCGGCAATCACCGCCAGCTGCGCCGGGTCGTGGTGGGCCAGCAGGCTCTCCAGGGCGCTCAGCGCCAGGCCGGCCTCCGGGATGTTCGACAGCAGGCCGCCGAAGCCAATCGGCAGCAGCAGCAGCGGCTCGAACTTCTTCGCAATCGCCAGCCAGAGCAGCAGGAGGCTGACCAGCAGCATCACCGCCTGGCCGAACCCCAGGTGCATCAGCCCCATCCCCTGA	MSTARLSICPCTDGRARASASLMAWTSGAQWSFAAITASCAGSWWASRLSRALSARPASGMFDSRPPKPIGSSSSGSNFFAIASQSSRRLTSSITAWPNPRCISPIP				NA	NA	NA	NA	NA
BMS020_09006	1770	oadA	COG0511	Oxaloacetate decarboxylase alpha chain	ATGACCGTTGCCATTACCGATGTCGTCCTGCGCGACGCCCACCAGTCCCTGTTCGCCACCCGTCTGCGTCTCGACGATATGCTCCCCGTCGCCGCTCAGCTTGACGACGTCGGCTACCGCTCGCTTGAGTGCTGGGGCGGCGCCACCTTCGACGCCTGCATCCGCTTCCTCGGCGAGGACCCGTGGGTCCGCCTGCGCGAGCTGAAAAAGGCGATGCCGAAAACCCCGCTGCAGATGCTGCTCCGCGGCCAGAACCTGCTCGGCTACCGTCACTACGCCGACGACGTGGTCGAACGCTTCGTGGAGCGCGCCGTCAAAAACGGCATGGACGTCTTCCGCGTCTTCGACGCCATGAACGACCCGCGCAACATGCAGGCCGCCCTGCAGGCGGTCCGCAGCCACGGCGCCCACGCCCAGGGCACCCTGAGCTACACCACCAGCCCGGCCCACACCCTGCAGACCTGGCTCGACCTCACCGAACAGCTGCTGGAGACCGGCGTCGACTCCATCGCGATTAAAGACATGTCCGGCATTCTTACCCCCGGCGCCGCCTTTGAGCTGGTCAGCGAAATCAAAAAACGCTTTGCCGTCACCCTGCACCTGCACTGCCACGCCACCACCGGCATGGCGGAGATGGCCCTGCTGAAGGCCATTGAAGCCGGCGTCGACGGCGTCGATACCGCCATCTCCTCGATGAGCGCCACCTACGGCCACCCGGCCACCGAAGCGCTGGTGGCCACCCTCGCGGGTACTGAGCACGACACCGGGCTGGATATCCACAAGCTGGAGAGCATCGCGGCGTACTTCCGCGAGGTGCGTAAGAAGTACCATGCCTTCGAGGGCCAGCTGAAGGGCACCGACAGCCGTATCCTCGTCGCCCAGGTCCCGGGCGGGATGCTCACCAACCTCGAAAGCCAGCTGAAGCAGCAGAACGCCGCCCACCGTCTGGATGAAGTGCTGGCGGAAATCCCCCGCGTGCGCGAGGACCTCGGCTTCATCCCGCTGGTCACCCCGACCTCGCAGATTGTCGGCACCCAGGCGGTGCTCAACGTCCTGACCGGCGAGCGCTACAAAACCATCGCGAAGGAGACCGCCGGGATTCTGAAAGGTGAGTACGGCCACACGCCGGCGCCGGTGAACGCCGCCCTGCAGGCCCGGGTGCTCGACGGCGCCGACCCGGTGACCTGCCGCCCGGCGGACCTGCTGAAGCCGGAGCTGGCGCAGCTGGAAGCCGATGTGAAGCGCCAGGCGCAGGAGAAGAATATTCAGCTGGCGGAGAACGCCATCGACGACGTGCTCACCGTGGCCCTGTTCCCCCAGCCCGGCCTGAAGTTCCTCGAAAACCGTCATAACCCGGCGGCCTTTGAACCGGTGCCGCAGCTGGAAGCCGCGCAGCCTGCTCCTGCCCCGGTAAAAGCTGCCGCCTCCGGCGTCTACACCGTGGAAGTGGAAGGCAAGGCCTTTGTGGTGAAGGTCAGCGACGGCGGCGACGTCAGCCAGCTGACGGCGGCCACCCCGTCTTCCGCACCGGTTCCTGCCGCCGCCCCGGCCGGCGCCGGCACCCCGGTCACCGCGCCGCTGGCGGGCACTATCTGGAAGGTCATTGCCGCGGAAGGCCAGACGGTGGCCGAAGGCGAGGTGCTGCTGATTCTGGAAGCCATGAAGATGGAGACCGAAATCCGCGCCGCGCAGGCCGGCACCGTCCGCGGTATCGCGGTGAAAGCCGGCGATGCGGTGGCGGTCGGCGACACCCTGCTGCAGCTGGCGTAA	MTVAITDVVLRDAHQSLFATRLRLDDMLPVAAQLDDVGYRSLECWGGATFDACIRFLGEDPWVRLRELKKAMPKTPLQMLLRGQNLLGYRHYADDVVERFVERAVKNGMDVFRVFDAMNDPRNMQAALQAVRSHGAHAQGTLSYTTSPAHTLQTWLDLTEQLLETGVDSIAIKDMSGILTPGAAFELVSEIKKRFAVTLHLHCHATTGMAEMALLKAIEAGVDGVDTAISSMSATYGHPATEALVATLAGTEHDTGLDIHKLESIAAYFREVRKKYHAFEGQLKGTDSRILVAQVPGGMLTNLESQLKQQNAAHRLDEVLAEIPRVREDLGFIPLVTPTSQIVGTQAVLNVLTGERYKTIAKETAGILKGEYGHTPAPVNAALQARVLDGADPVTCRPADLLKPELAQLEADVKRQAQEKNIQLAENAIDDVLTVALFPQPGLKFLENRHNPAAFEPVPQLEAAQPAPAPVKAAASGVYTVEVEGKAFVVKVSDGGDVSQLTAATPSSAPVPAAAPAGAGTPVTAPLAGTIWKVIAAEGQTVAEGEVLLILEAMKMETEIRAAQAGTVRGIAVKAGDAVAVGDTLLQLA	PGPT0001935_452	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001935-oadA-K01571	NA	NA
BMS020_09007	420			hypothetical protein	GTGCAAAAAAAGGTTGAGCTGCCATTAAAGCTACTTACCATTGGTGATTTTAGTCACGGTAAAGAAAACCGGCCATTATCGGAAAGAGAAAAAATTAACGTCAATAAAAATAACTTTAACAGCGTACTTACTGAATTTAGCCCGGAGGTGAATCTCTCGGTGCCGAATACGCTGGCTGGCAATGGCGAAGAGGAGAACGTCAGGCTGCGTTTTACCGATATCAACGATTTTGAACCGGAGCAGATTGCCCGGCAAATTCCACAACTCCGCGCCATGCTGGCGATGCGTAATTTATTACGCGATCTCAAATCCAATCTGCTTGATAACGCCACTTTCAGAAAAGAGCTCGAGGCAATTCTGAAAGATCCGGCGCTGTCACAGGAATTACGCGACGAAATGAGTGCGCTTGCTCCGAAATAA	MQKKVELPLKLLTIGDFSHGKENRPLSEREKINVNKNNFNSVLTEFSPEVNLSVPNTLAGNGEEENVRLRFTDINDFEPEQIARQIPQLRAMLAMRNLLRDLKSNLLDNATFRKELEAILKDPALSQELRDEMSALAPK	PGPT0025915_92	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025915-impB-K11901	NA	NA
BMS020_09008	1398			hypothetical protein	ATGGGAGGCCTGCAGCTCGTCGCCCGGATCGGTCATTTCGGTAACCAGGCTCCGCACCCAGGTGTTCAGCTCCAGCTCCAGCAGGCGCCGGTCCTTGGTGGTGCCGATATTCTCGCGCTGGATCATCTTCAGGTAGTGCGCGATGCGCGACAGCAGGAAGATATAAGGCAGACGCGCGTTGATGCGGCTGTTGGCGGTAGCGTCGGCGGTATCGTACAGCGCCGGTTTTTGCGCGGAGTTGGCCGAGAAGAAGCAGGCGTAATCGCGATTTTTGTAGTACGACAGTGGAATGAAGCCCAGGCTGGCGAACTCAAACTCCCGCGTTTCCGGGATCATCACCTCGGAAGGGATCTTCACCTGATTGCCGGTGCCCAGATCGTACAGATGGATGGGCAGATCTTTCACCGCGCCGCCGGCCTGCGGGCCGCGGATCTGCACGCACCAGCCGTTATTGACAAAGCTCTTCACCATATTGGAAGCGAAAGAGAACGCCGCGCTGGTCCAGAGATACTTTTCGTGGTCCGGCCCCTTCACCTGCTCGACATAGTTGAAGCTGCGCACCGGCACGGTGTCCGGACCATACGGCAGACGACCCAGCACGCGCGGCATCACCAGGCCGATGTAGCGGGCGTCGTCGGTTTCCCGAAACGCTTTCCAGCGAATATATTCCGCACGTTCGAAGTAGTTACCGATATCTTTGATGGCGGCGACCTCTTCCATGGTCTCTTTCAGGAAGAAAGCCGGGCCGACGGCGCCGATAAACGGCATGTGGGCGGCAGCGGAAACCCGGGAGATATTGCGCAACAGCGCCACGTCCTGCGCGCTGGCGTCGAACTCATAGGCCGAGATCAGCGAGCCGATCGGCTCGCCGCCGGGGGTGTCGTACTCCGCGGTGTAGGTGTGCCAGTAAAGGCCGCTCTGAATCAGCTCCGGCGCATCCTCAAAGTCCTGACGCAGATCGTCCTTCGAGACGTCGAGGATCTCCGTTTTCACGTTCTGGCGGTAGTCGGTGTTGTCCACCAGCTGTTTGAGGCCGCGCCACAGGGATTCGACCTGCTGAAACTCCGGATGGTGCATCACTGCGTCCAGCTGGCGGCTTATCTGGAAATCCAGTTCAGCGATATGGTGGTCAATCAGCGTTTTATCGAGCTTTTCCACCCGCTGGCCGGACTGGCGGATGCGCTCCATAAACACCTGCATCGCCGCGGTCAGACGCTCCGCCGCCGGCGCCTCGGAGAGCGCGGCATCGTCCAGAAAGTCGTTGATATCCCCGAGGCGAGAGGCCGGGGCGAGATTGATTTTTTCAAACAGCGACGCGTAAACGCCCTCGCTCGCCGTGTTTTCCTGCAGCGCGGTTTGCCCCTGAGCAGGGCTGTTTTCTGTGGTAACAGACATTAG	MGGLQLVARIGHFGNQAPHPGVQLQLQQAPVLGGADILALDHLQVVRDARQQEDIRQTRVDAAVGGSVGGIVQRRFLRGVGREEAGVIAIFVVRQWNEAQAGELKLPRFRDHHLGRDLHLIAGAQIVQMDGQIFHRAAGLRAADLHAPAVIDKALHHIGSERERRAGPEILFVVRPLHLLDIVEAAHRHGVRTIRQTTQHARHHQADVAGVVGFPKRFPANIFRTFEVVTDIFDGGDLFHGLFQEESRADGADKRHVGGSGNPGDIAQQRHVLRAGVELIGRDQRADRLAAGGVVLRGVGVPVKAALNQLRRILKVLTQIVLRDVEDLRFHVLAVVGVVHQLFEAAPQGFDLLKLRMVHHCVQLAAYLEIQFSDMVVNQRFIELFHPLAGLADALHKHLHRRGQTLRRRRLGERGIVQKVVDIPEARGRGEIDFFKQRRVNALARRVFLQRGLPLSRAVFCGNRH				NA	NA	NA	NA	NA
BMS020_09009	705			IS3 family transposase IS1400	ATGGCGCTGACCGTGGCGGCTGAACGCTATCCGCGATACGGATTTAAAAAGCTTTTTCAGGTGCTGAGCAGGCAGGGCAAAAGCTGGAACCATAAGCGTGTTCACCGGATTTACTGCCTGCTGAAACTGAATTTTCGCCGTAAGGGAAAACAGCGCCTGCCAGTGCGCAATCCGGTTCCGCTGGTGACGCCAGAGGCGATGAACCAGAGCTGGTCCATCGATTTTATGCACGATGCGCTGGTGTGCGGCAGACGCTTCCGGACCTTTAACGTGGTGGATGATTTTAACCGCGAAGCACTGGCGATCGAAATTGACCTGAATATCCCGGCGCAGCGAGTCGTGAGAGTGCTGGACAGGATCGTGGCAAACCGCGGATATCCGCTAAAGATGCGGATGGATAACGGTCCGGAACTGGTCTCGCTGACGCTGGCACAATGGGCAGAAGAGCATGGTGTGATGCTGGAGTTTATCAGGCCCGGCAAGCCAACGCAGAATGCCTTTATCGAACGGTTCAACCGGACATACAGAACAGAAATACTGGATTTTTATCTGTTCAGAACACTGAATGAAGCACGGGAAATTACAGAGCGCTGGCTGGCTGAATATAACGGCGAGCGCCCCCACGAATCCCTGAATAACCTGACGCCGGAAGAATACCGGCTGATGGCTGAAACCCCGGAAATCTCAAAAAGTGCGTGGAACTAA	MALTVAAERYPRYGFKKLFQVLSRQGKSWNHKRVHRIYCLLKLNFRRKGKQRLPVRNPVPLVTPEAMNQSWSIDFMHDALVCGRRFRTFNVVDDFNREALAIEIDLNIPAQRVVRVLDRIVANRGYPLKMRMDNGPELVSLTLAQWAEEHGVMLEFIRPGKPTQNAFIERFNRTYRTEILDFYLFRTLNEAREITERWLAEYNGERPHESLNNLTPEEYRLMAETPEISKSAWN				NA	NA	NA	NA	NA
BMS020_09011	267			IS3 family transposase IS1400	ATGCGCAAAGCCCGATTCACCGAACACCAGATCATTGCCGTTCTGAAGTCCGTCGAAGCCGGACGCACCGTCAAAGATGTGTGCCGCGAAGCCGGGATTTCTGAGGCCTCGTACTACAACTGGAAAGCGAAGTTCGGCGGTATGGAAGCCTCTGATATCAAAAAGATGAAGGACCTCGAAGATGAAAACCGCCGGTTGAAACAGATGTTTGCGGACCTGAGCCTCGAGTGCCGCGCATTGAAAGACGTTATTGAAAAAAAGCTTTAA	MRKARFTEHQIIAVLKSVEAGRTVKDVCREAGISEASYYNWKAKFGGMEASDIKKMKDLEDENRRLKQMFADLSLECRALKDVIEKKL				NA	NA	NA	NA	NA
BMS020_09016	204			hypothetical protein	ATGGTCTGTGTAGAGACGCTCAAGCTCATACATGCGCTCCTCTACTGGCCCAAGCATCAAATCTGCTTTGCTGATCCCGAAGGATGGGCGATAAGAGCCAGCCAGCGTCCCGGCATTGGCCCGGTTGAGCCACTCACGGACGTTACGGAGCGCAATCTCGGCATTGAAGTAACGAGAATCGCCGGCGCTTACCGCAGCCTCTAG	MVCVETLKLIHALLYWPKHQICFADPEGWAIRASQRPGIGPVEPLTDVTERNLGIEVTRIAGAYRSL				NA	NA	NA	NA	NA
BMS020_09017	483		COG3385	IS4 family transposase ISRel1	GTGGACGGCGACGGTATCATCCTGTCCGACCGCATCGGCCTTTTGCCGGCCCGCCAGGCAAAAAGCCGCAAAAATCCGTTCAGCGATCCGGTCCGCGAGATCACCATCAGGACCGAGACGGGAAAGGTGTTGCGCATCTTCTCCAATGATCTCGATGCACCGGCTCACGAGATCGCCGATCTCTACAAGCGCCGTTGGGCGATCGAACTGTTCTTCCGCTGGGTCAAGCAGACGCTGAAGATCAGCCATTTCCTCGGCACGTCAGAAAATGCCGTGCGCATCCAGATCGCTGTCGCCCTGATCGCGTACCTGCTCCTGCGATTGGCGCAGGCTGACCAGAAGACCGTGCCAAGCCCACTCGCCTTCGCCCGGCTGGTACGCGCAAACCTCATGCACCGGCGACGCACCGATCGGCTTCTAAACCCGCCACCAGACAAACCCACAAACCAAAACCAGATGGCCTTCCAATGGCCGCAAATTTAA	MDGDGIILSDRIGLLPARQAKSRKNPFSDPVREITIRTETGKVLRIFSNDLDAPAHEIADLYKRRWAIELFFRWVKQTLKISHFLGTSENAVRIQIAVALIAYLLLRLAQADQKTVPSPLAFARLVRANLMHRRRTDRLLNPPPDKPTNQNQMAFQWPQI	PGPT0030675_211	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030675-putative_transposase-K07495	NA	NA
BMS020_09021	309			hypothetical protein	GTGACGCTGCCGGATCTGCGCTCGCGCCTCAAAGCGGTAACGGTGGTGGAAACCGGCGAGCCGGACGAAGGGCTGCTGGCGCAGGTGCTGGTAAAACTCTTTGCCGACCGGCAGCTTTACATGGATGACAAACTCATAGGTTACATCGTCAATAGAATGGAGCGTTCGCTCGATACGGCCCAGACGATCGTGGACCGTATCGACCGGCTGGCGCTTTCGCGTGGAACGAGAATTACACGTCCTCTGGTGGCGGAGGTCCTCAATGCGATGGACAACGCAGCGGCGGGCAGCGGACTGGACGTCGATTGA	MTLPDLRSRLKAVTVVETGEPDEGLLAQVLVKLFADRQLYMDDKLIGYIVNRMERSLDTAQTIVDRIDRLALSRGTRITRPLVAEVLNAMDNAAAGSGLDVD				NA	NA	NA	NA	NA
BMS020_09022	243			hypothetical protein	ATGAAGAAGTCGAAGTTCACCGAAGAGCAGATCGCGTTCGCCCTGAAGCAGGCCGAGAGCGGCACGACTGTGGAGGAGATCTGCCGCAAGATGGGCATCAGCCAAGCCACGTTCTACGCTTGGCGCAAGAAGTTCGGCGGGCTTGGCGAGGCCTGCTGGTGGTCCGCCCTCTCAGCGGGCTACCTCTCGGCTGATCGAGACCAGCACTTCCAAGCCGCCGCCTGTTCGATTCCGGACCACTAA	MKKSKFTEEQIAFALKQAESGTTVEEICRKMGISQATFYAWRKKFGGLGEACWWSALSAGYLSADRDQHFQAAACSIPDH				NA	NA	NA	NA	NA
BMS020_09023	123			hypothetical protein	ATGCTGCGCTTCTACGTGACCGGCGGTCAGGTGGACAACGAGCATACCGCGAAGGTCAACGGCACCAAAGACCAGCAGCTGGATTCGCTGAACGTCGGCGGGATGTTTGAGGCGTGGTTCTGA	MLRFYVTGGQVDNEHTAKVNGTKDQQLDSLNVGGMFEAWF	PGPT0016830_241	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTODEXTRIN_TRANSPORT,PGPT0016830-lamB-K02024	NA	NA
BMS020_09026	171			hypothetical protein	ATGCACGAAACGGTCGTTATCCACGGTTCTTTGCGCGGCGATCAGGGCCTGCGCGATGACCTGGCCGCCGAAAACCCGCTGCCAGCCGATCTGCGGGCTTTCGCCCCGGAACAGGTTCTCTTCCAGCTTCTCAAGATCGAGTGTGGCGATGAGATTGGCCATCGGGTCTGA	MHETVVIHGSLRGDQGLRDDLAAENPLPADLRAFAPEQVLFQLLKIECGDEIGHRV				NA	NA	NA	NA	NA
BMS020_09027	213			hypothetical protein	ATGTCCGAGTCTACGAATAATGCGATGCAATCTGCTGTTAGGATTGATGCCGCATTTACCCAGTTTGATACGGAAATGAAGCTCTATGACCAGACCATTAAGGGGCTGGAGTTGCGGCAGCAAATGAATACACGTTTGGCCTTGAAGGGCGAAAAGTCCGTGCTGGGCACTGTGGTTAAAACAGCAACATTGAAGGCTGCGCTTTCTTTGTGA	MSESTNNAMQSAVRIDAAFTQFDTEMKLYDQTIKGLELRQQMNTRLALKGEKSVLGTVVKTATLKAALSL				NA	NA	NA	NA	NA
BMS020_09028	183	rpoN2	COG1508	RNA polymerase sigma-54 factor 2	ATGATCGCGCAGGAGGCCGCCGAGGCGGTTCTTTCAGACGATGATATCGTCGACAATCTGAAAAAGAGCGGCATCGATATCGCCCGCCGCACCGTCGCCAAATATCGCGAGGCGATGAACATCCCCTCCTCCGTGCAAAGGCGCCGGGAAAAGAAGGCGATGGCCAAGCTGTCCCCCTTCTGA	MIAQEAAEAVLSDDDIVDNLKKSGIDIARRTVAKYREAMNIPSSVQRRREKKAMAKLSPF	PGPT0000795_312	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000795-ntrA|rpoN-K03092	NA	NA
BMS020_09029	300	dgaE_2		D-glucosaminate-6-phosphate ammonia lyase	ATGGGCCATGTGGTGAGCTATGGGGCGCCGGTGGATCAGGCAATCCGTCTCGGCGGCGGCAAGGTGGTGCTGATCGGGCAGGCGACATCGGCCCATCGTTTCCACATGGAAAACGCCATCACCGAAAAGACGGCGGCAGCGGTCTATGTCGTCTCGCACCATGTGGTGGATTACGGCCTGCTGCATCTTTCCGAATTCGTCGAGATCGCCCATGCCAGGGGCGTGCCTGTCATCGTGGATGCGGCTTCCGAATATGATCTGAAGCTGTTTCTGGCGACGGGCGCGGATGTTGTCCTCTAG	MGHVVSYGAPVDQAIRLGGGKVVLIGQATSAHRFHMENAITEKTAAAVYVVSHHVVDYGLLHLSEFVEIAHARGVPVIVDAASEYDLKLFLATGADVVL	PGPT0018880_117	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018880-dgaE-K17468	NA	NA
BMS020_09032	168			hypothetical protein	ATGCAGGCCGGCGACCTCGATATCACCGTCTACCAGAATGCGACGAAGCAAGGCGAGGTCTCGGTTCAGACGGCGGTGAAGGCCGCTGCCGGGCAAGGCACCGAGAAGACGCTTTGGGTGCCCTTTGAACTCGTGACCCCGGAAAACATGTCCGCCTACGCCAAATAA	MQAGDLDITVYQNATKQGEVSVQTAVKAAAGQGTEKTLWVPFELVTPENMSAYAK	PGPT0016780_558	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_TRANSPORT,PGPT0016780-rbsB|mocB|mglB-K17213	NA	NA
BMS020_09034	240			hypothetical protein	ATGCTGTGGAAACCGGGCCTCGATCAGGGCGCGAATGGCTGTTTCTGCGGCCTGATCGCCTTCCGTCACCGGATCGTAGCCGCCATCCTCTTTATTGGCGACGGCAATGCCCGTGCGGAAGCGGGGAAGCGTTTCAGCGCTGGCGGCATCGGCAAGTTTGAAGAAGAAATCCCGGTCGGGCAGCATGCGAAACCTCATTGCCTGAATATTGGGTCTGAATTCTATTGCGGCAATGCATAG	MLWKPGLDQGANGCFCGLIAFRHRIVAAILFIGDGNARAEAGKRFSAGGIGKFEEEIPVGQHAKPHCLNIGSEFYCGNA				NA	NA	NA	NA	NA
BMS020_09035	183	dnaJ_4	COG0484	Chaperone protein DnaJ	ATGCCGGTTCTGCGTTCGGCGCAGACGGGCGACCTCTATATCCAGATTCAGATCGAAACGCCGCAGAAACTCAGCAAGCGTCAGCGCGAGCTGTTGCAGGAGTTCGAGCAGCTCTCCTCCAAGGAGAACAATCCGGAATCGACGGGCTTCTTCGCCCGGATGAAGGAATTCTTCGACGGCTGA	MPVLRSAQTGDLYIQIQIETPQKLSKRQRELLQEFEQLSSKENNPESTGFFARMKEFFDG	PGPT0014545_3812	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686	NA	NA
BMS020_09036	300			hypothetical protein	GTGGAATTGCACGAATTCCATATCGGCGAGGATGGCGCCGGCGCGGGCGGCGAGCACGATGCCCTGCCCGAAATTGCCGGCGGGATTGGTCGTCGCCTCATAAAGCCCGCCGAGGCCGCCGGTGGCGAGAACGACCTGGCTTGCCGGCAAAGTGAAGCAGCCTTTTGGCCCGATGCAGGCGAGACCAACGACGACGCCGTCTTCCGTCAGCAGGCGGCGAACCTCCGTGCCTTCCAGAACGGTTATGGACGGCGTGCGAAGAACGGCGGCGGCGAGAGCCCTGACGATGGCCGCGCCTGA	MELHEFHIGEDGAGAGGEHDALPEIAGGIGRRLIKPAEAAGGENDLACRQSEAAFWPDAGETNDDAVFRQQAANLRAFQNGYGRRAKNGGGESPDDGRA				NA	NA	NA	NA	NA
BMS020_09037	246			hypothetical protein	ATGCCGGCCAGCACCGGCAGGATCGGCGGCTGCAGCGCGACGTCGGCCAGCCGCTGCGCGAACGTGTCGGCGGCGGCCTGCAACCAGTGCGTGTGCGCCGGCACCGTGACCGGTAGCAGCTGGGTGCGCGCCTGCGGCGCGGCGACTTCCAACTGCAGCAGCGACGTGCGCGGTCCGCCCAGCACCACGTGGTCGTCGCCGTTGACGATCGCCACCTCCACACCGAAGCGCGACGCCATCGGCTGA	MPASTGRIGGCSATSASRCANVSAAACNQCVCAGTVTGSSWVRACGAATSNCSSDVRGPPSTTWSSPLTIATSTPKRDAIG				NA	NA	NA	NA	NA
BMS020_09040	177			hypothetical protein	ATGGCGCTTGAAGGCGCGGGAAAAGGCGCTCGGGCTCTGGCCCACCATGTCGGCGAGATCGATTTCCTCAACCTGTTCCGTCAGATGTTCGCGCAGATGCGAGAGTGCACGGTTGATGCCGCTATCGCCTATACCGGTCAGATCGAGCTCGTAACTCAGGCTCGCCAGCACTTCTGA	MALEGAGKGARALAHHVGEIDFLNLFRQMFAQMRECTVDAAIAYTGQIELVTQARQHF				NA	NA	NA	NA	NA
BMS020_09041	237			hypothetical protein	ATGGTCAATATCGCCAATATTTCCACCTTCGATCCCGAAGCCTTCAAGCAGCGCATCCGCGAGGGGCTGAACAAAAGGCTCGATGACGAGGTGGTCGAGGACGTGCTGATTGAACAGCTCGATTATCTGTCGAAAGCCGACATCCGCGAGCAGAACGGCAATGGCACGCCCCGTTCGGTCAAGCTCGTCGAGGGCGAGAAGGCCGAAGCCGGCAAAGAAGCGGCGCCAAGCCACTGA	MVNIANISTFDPEAFKQRIREGLNKRLDDEVVEDVLIEQLDYLSKADIREQNGNGTPRSVKLVEGEKAEAGKEAAPSH				NA	NA	NA	NA	NA
BMS020_09042	258			hypothetical protein	ATGAAGACCTTGCTGTTCTCGCTGTCGTTGCTGCTGGCGGCGTTCCCGGCATTCGCCGATGAGCCTCGGCGCTCCGGCGACGCGCCGGCCGACCCGGATAAAAAGGTCTGCAAGCGCATGCAGGTGGTCGGTAGCCGCCTTCCGGCCATGGTCTGCCATACCAAGGACGAGTGGGAGCAGATCGACCTGGCGACCAAGAACCGCATGCGCGAGATCGACTCCCAGCGGATCCAGGTCAAGGCCGAGTCCGGCGGCTAA	MKTLLFSLSLLLAAFPAFADEPRRSGDAPADPDKKVCKRMQVVGSRLPAMVCHTKDEWEQIDLATKNRMREIDSQRIQVKAESGG				NA	NA	NA	NA	NA
BMS020_09043	147			hypothetical protein	ATGCAGGATCGCGACATCATCTATGTCACCAACTCGCAGGCCACCGAACTTTACAAGTTCCTGGATCTCGTCGGCTCCGTACCGGCAACGACGGGCAATGTCGCCGAGGACGTGCTGGCAACCCGCAACGCCATCCGGGCCTTCTAA	MQDRDIIYVTNSQATELYKFLDLVGSVPATTGNVAEDVLATRNAIRAF	PGPT0025530_829	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0025530-wza|gfcE|epsA-K01991	NA	NA
BMS020_09044	156			hypothetical protein	ATGTACGCCGGCAAGGTGGTGGAAGAGCTGTCTTCCGCCAATCTGAAGGAAGCGAAACATCCCTATACGCAGGGCCTGCTGAACTGCCTGCCGGAAATCGGCGGCCACCGGCATCCGCTGCCGGTTCTGGAACGTAAGCCGGAGTGGCGCGCATGA	MYAGKVVEELSSANLKEAKHPYTQGLLNCLPEIGGHRHPLPVLERKPEWRA	PGPT0004435_13482	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
BMS020_09046	252	ruvB_3	COG2255	Holliday junction ATP-dependent DNA helicase RuvB	ATGCGGTATCTGACCATGATCGCCGTCAATTTCGGCGGAGGCCCGGTTGGCATCGAAACCATCGCCGCCGGCCTGTCGGAGCCGCGCGACGCTATCGAGGATATTATCGAACCCTATATGATCCAGCAGGGTTTCATCCGGCGCACGCCGCGCGGCCGTATTCTGACCGGCACGGCCTGGAAACATCTGGGCATGCAGCCACCCAAGGATCTTGAGGCGGCGCAGTTCCGGCTGACCCTGGAGGAGGATTGA	MRYLTMIAVNFGGGPVGIETIAAGLSEPRDAIEDIIEPYMIQQGFIRRTPRGRILTGTAWKHLGMQPPKDLEAAQFRLTLEED				NA	NA	NA	NA	NA
BMS020_09047	189			hypothetical protein	GTGGAGTTCGACGTGACTGGCGCCGGCGACTGCGTGTTCGCCCTGGAACAAGGCTTCAACATGAGCAACCTGGCGCATTTCGCCCATTACACCGGCGGCAAGGGCGGGCATGACGGCGTGCTCAACGCCGCCGATGTGCGCGCGTTGCAGCTGGTGCGCATCGCCACCGATGCGGAGGCTGGCGAATGA	MEFDVTGAGDCVFALEQGFNMSNLAHFAHYTGGKGGHDGVLNAADVRALQLVRIATDAEAGE				NA	NA	NA	NA	NA
BMS020_09048	168			hypothetical protein	ATGGGCGTTTTTGCCTTTACCGGCGGTTCGCATGCGCGCTTTCCCGCATTCCGTGAAAAGATCGCCGGGCTTGGTGCGGATGCGGTGTTTGACGCGATGCCGGATTTGGTCCAACTTGTCGGCAGCTGGAGCATGTCTCCCAAAAGTGTGAGCGGTTTTGGGAAATAG	MGVFAFTGGSHARFPAFREKIAGLGADAVFDAMPDLVQLVGSWSMSPKSVSGFGK				NA	NA	NA	NA	NA
BMS020_09049	225			hypothetical protein	ATGGGCATGGGCATCTCGATCGTCACCGCGATCTGCCTGACCGACGCCGACCGCGACAAGCTGGCGATGCGCCCGTTGAAGGACTGGTTCCCGACCCGCAGCTACGGCGTGGTGGTGCGCAAGGGCAAATACCTCTCGCCGCAGGCGCGCGCCTTCATCGAGCTGATCCAGCCGGACCTGTTCGCACCACGCAGCTACGAGGACAGCGGTCCGTCCGAGCGTTGA	MGMGISIVTAICLTDADRDKLAMRPLKDWFPTRSYGVVVRKGKYLSPQARAFIELIQPDLFAPRSYEDSGPSER	PGPT0002965_724	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002965-cysB-K13634	NA	NA
BMS020_09050	108	bioY	COG1268	Biotin transporter BioY	ATGGGTTCGCTCGCCTTTATCCCGGGCGATGCGCTGAAGGCCGTGCTTGCCGCACTTGCCGGCCGCGCCGTGATGGCCGGTTATCCGCTTCTGCCGCAGCGCGCCTGA	MGSLAFIPGDALKAVLAALAGRAVMAGYPLLPQRA	PGPT0022050_1649	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022050-bioY-K03523	NA	NA